>SRR1151209_00001 cell surface protein
GTGACCAATTTCGACACCAGTAACGTCCTTGATATGAGTTATATGTTCGCTTCGGATCTCAAACTCAACGCACTGGATCTGACCAGCTTTGACACCAGCAAGGTCACGACCATGTACTGGCTGTTTTATGGCGACAGCGGGCTGAAAGCCATTACTTTCACCCCGACCAAGTTCAATACCGGCAATGTGACGAATATGGTCGGTATGTTTGGCGGATGCAGCAGTTTAACTGCTCTGGACGTGAGCCACTTTGATACGGCGAAAACGAAGGCCATGAACCAGATGTTTTGGAACTGTGCCAAGCTGACGACCCTTGATCTGAGTCATTTCAATACCAGCCAAGTGACCGATATGAGCTGGATGTTTTACCAATGCGCATCGCTCACGAAGCTTGATTTACGCAGCTTTGACACGCGTAAAGTCGGTACGATGTGGATCATGTTTGCCGCCTGTCCGGCACTGACCAGCCTCGACGTCAGCAGTTTTAATACGAGTGCCTGCCGAAGTTTTGCCAGCATGTTCATTGGCGACAGCAAGCTGACAACATTGGATTTGAGCGGCTTTGATACGCGCAACTATGATCAAAGTGTCCTGGGTAATTTAGGCAAAGATGCCTTCAACGGATGTACCAGTTTATGGCGCCTGTCAGTTGGTGATAAAACAACGCTGGTTAATAGCAGTCTGCCGGGGCATACCGTAGGCGCCATCACTCAGAATGATCCGACGTACAAAGCGGCCGCGGGCTGGCAAGAGCTGGGCGTAGCTGCCGATCCCCTTGAGGCCGCCGGTGCTCAGTTCAGTAATTCCACCGCTCTGGCGACCGAGCTGGCCACGGCCCGGGTGGGCACAGTCAACCCCGCCACCGGCAAGCCGGTTTGGACTTACGTTTGGCAACCGCAGCGGTGGTGGACCATTAATGGCGACACATTGACGATCAATGCCCATACCTTAAATTTTGCGACGGATAAATACTCGACCGAGACCTGGCCGTGGTATAGCCAGCGCAGTGCGATCAAACATGTTGTGCTGGCCACCAGCGGATTGAATGCGCAGGGGGCAGTCAACGGACTGTTCAAAGGGCTAAGCAAGACTGTTGACATTGCCAATCTGAAGCAGCTCGACCTGAGCCGGGCCACCGACATCAGTGATATGTTCAATGGCTGTGCCGCATTGACTAATCTTGATCTGAGTACTCTGGATACGCGGCAGGTGACCAACGAAACCGGCATGTTCACTGGGACCACGACTCTTTGGCTCCTGGTTCTAGGGCCGAACTTCAAGACGACCACCGATGTCCTCGGGCTGGGCGGACCAGTGCCAAACACCGTCATTACCCGGACCGACACTGCCGGTCAAGCCCATTCGTATATCGTTCAGTCCACGGACACCGCCTGGCAGGCACTGGGAACCACCGGAACTATTCTTGCCCCCGCGGGCACCACGTATACGCCTGCAGATCTCATCAAACTGTACAATAACAGCACCCGGCCGACAACCATTCAGACTTATGTGTGGCAACAGACCAGCTCTGGTACGATTGCCCTGACAATCAGCGGCAGTTTCGATTACGGCAAGCATTTTCAACCGCAATTCAGCGGGTTGAACGCAAAAAATGCCGAACCGTTTACGATCAATGTGACTGACTCCCGCGCAGATCGAGCCAATATGCCATGGCATATTGATGTCCTTGGTTCTGATTTTGTCAGCGCCGATGACGCACAGGTCAAAGTCTCGACCAATCCCTGGCGCTTCAATTCAGGCAATGGGGCGCTGCAATCGATCGCGACGCCGTACACAATCTGGCAAAACACCAGCAATGGGACGGATACGGCATATATCAAGACTTGGCCAGCGAATCCCTTTGAATTGGATTTCGCGCCTGGGAGTGTACCGGTTATTGGTAAGTATCATGCCACGGTTACTTTTACGTTGACTAACGGGCTGTAA
>SRR1151209_00002 alpha-L-fucosidase
ATGAATTCCAAGAAGACAAAGTGGTACGAAGACAGCCGGTTTGGCATGTTCATCCACTGGGGGCTCTATTCGTTAATCGGTGTGGACGAGTGGATCAAGAGCATCAACCATATGTCCGATGAAGATTATGACCGCCTGGTCGGCAAATTTACGGCAGATCAATTCGATGCCGATGAATGGGCTGCCGCAGCTAAGCAGGCCGGGATGAAATACGCCGTATTCACAGCAAAGCATCACGACGGCTTCTGCATGTATGACAGCCAACTGACCGACTACAAGTCCACCAATTCGCCGGCGGGACGCGATTTTGTCCGTGAGTTCCTTGATGCCTTCCGAAAAGCGGGGATCAAAGTCGGCCTGTATTACTCCCTGTTGGATTGGCATCACCCAGACTATCCGCATTATGGCGATATCAACCATCCGCAACGGAATAATCCGGCAGCCAAGGGGGTCGAACGGGACTTTCAACGCTATCTGGACTACATGCACGGCCAAATCAAAGAGCTGCTGACCAATTACGGCCAACTGGATATCATGTGGTTTGACTTTTCTTATCCTAAAATGGCCGGTGAGACGTGGCAGCCGCAGAAGATTATGGACATGATTCATCAGTATCAGCCGCAAATGCTGATCGACAATCGGATGGAGGGGAGCGGGGCGAATTATGGTACGATTTTGTCGGCCCATCCCTCGAATTATGCCGGTGACTTCGCTTCACCAGAGCAAATGATCCCGCCTAAACCGATCGTTAACGAACTGGGTGAACCGGTACCCTGGGAAGCCTGCATCACCATGAACAAACATTGGGGCTATAATGCGACCGATGACCAGTTCAAATCAACATCGCTAATCATCCATACCCTTGTGGAGTGTGTCAGCAAAGGCGGCAATTTGATCCTGAATGTTGGACCGACGCCGCTGGGCACATTCAGTGCGCCGACCAAAAAGCTGCTCGCTGAAATCGGCGAATGGATGGCCGTCAACGGCGAGAGTGTCTACGGCTGTACTACTGCGGAATTAGCAAAACCTGAGTGGGGGCGGTATACCCAGAAGGGCAATACGCTTTACGCCCACATTCAGGAGGAATCAATCAGCGCATTCCCGATTGCGGTGCCCAAGGAGCGGATCAAACAAATGACGCTGCTGATTGATGGAATTGAAGTCAAAGCAACCGATTACTGGGCACTGTCCGCGTTCAAAGAGTATAGCTACATTTTCTTGCATCAAGACGTCACGATTGGGTATCCGTTGCCGGATCCAAAGGACACTGTGGTCCGTATTGAGCTGACATAA
>SRR1151209_00003 glycerate kinase
ATGAAATTTGTACTTGCGCCTGATTCATTTAAAGGCGGCCGCTCGGCGATCGAGGTGGCGACGGCCATGAAAACCGGTTTGAGTAAGGTGTTCCCGGACGCCGAATACGATTTAGTACCGATGGCCGACGGCGGCGAAGGCACCGTCCAGTCCTTGGTCGACGCCACCCACGGCGAAATCATCAACGTCTCGGTGACCGGTCCCTTGGGCAATCAAGTCATTGCCCGCTATGGGATGCTGGGCGACGGGACCACCGCCGCAATCGAAATGGCCCAAGCCAGCGGCATTCAGTATGTTGACGATACGACCCACAATCCGATGATCACCACCACATACGGTACCGGTGAGATGATTCTGGACGCCCTGGATCATGGGGCAAAAGAAATCATCTTGGGTATCGGCGGTTCCGCCACCAATGACGGCGGCGCCGGCATGGCCCAAGCCATCGGGGTCCACTTGCGGGATATTGAAGGCAATGAGCTGGAATATGGCGGCGGTCAGTTGGACAAACTAGCGACTATCGATACCCGGGAGATCGATCCGCGGATTCCCAAGACCAAGATTTTGATCGCCTCTGATGTGACCAATCCGCTGGTTGGTGAAACCGGCTCTTCCGCAGTCTTTGGTCCGCAAAAAGGCGCGACCCCGGAAATGGTGAAGATTTTGGATGCCAATCTGGCCCATTACGCGGCAGTGATCAAGCATGAATTGAACAAAGATCTCGCGGAGGCCCCCGGGGCTGGCGCTGCCGGCGGACTTGGGGCGGGCTTGATGGCCTTTACCAACTCCCAAATGGAAAAAGGCGTTGATATTGTTATTGAATACACCCATCTGAAGGAACGCGCCAAGGATGCGGACTTCGTCTTCACCGGTGAAGGCGGGATCGATTCCCAGACCCAGTATGGCAAGACCCCGTTCGGGGTGGCGCTGGCCACGAAGTCTGTCGCGCCGAAAGCACCGGTGATCGTTCTCTCTGGGAACATTGGCGACGGGCTTAATGTCTTGTATCGGCCGGACGCTATCGACGCGATCTTCCCCACCGCCACGGCGGCCAAATCGCTGGAGAAAGCCATCGCAGATGCTGCTTCCGATATCGAAATGGTCTCTGAGAATATCGGCCGGCTGATTGCTGCAATGCAGCGCAAATAA
>SRR1151209_00004 gluconate:proton symporter
ATGGCGAGTCCAGTTTTATCCTGGTGGGCCGCGTTAATCGGCTTGGCCGTTGCCATTATTTTGATTCTGAGGAAGCTGAACCCAGTGTATTCACTACTGCTGGGAGCAGTGATCGGTGCCCTGCTAGGGGGCGCTAATCTTGTCCAAACCATTGATATCCTGATCAAGGGGTCCCAAAGTGTCATGGGGACTGTACTCCGGGTGCTGGCAGCGGGGATGCTGGCCGGAGTGATGATGGAGTCCGGAGCCGCCGATACATTGGCTCGCGCGATTGTCAAAACTTTCGGTGACCGCTGGGCCCTGCTGGCTTTGGCGGTCGCTTCGATGGTGATCACAGCCGTTGGGGTGTTTATCCCAGTGGCTGTGTTGATTGTGGCGCCCATCGCCTTGGAAGTTGGCAAACGGATGGGCTTTTCCAAACTATCGTTGCTGGTCGCCCTGTCCGGTGGCGGCAAGGCGGGGAACATTATCTCGCCGAACCCCAATACCATTGCGGCGGCCAAGGGGTTCAACGTGGAATTGAGTCAAGTCATGATCGCCGACTTTATTCCGGCAATCGTGGCCCTGATCGTGGCGGTGCTGTTGGCGTTCCTGCTCCGGGGCAAAGGCTCCGCCGTGCTGGATGCCGATCTGGAGAATCTCGCTGCAGAAAGTTCCGCCGATACCAAGGAATTACCTTCTCTTGCCTCGTCGCTGGTGACGCCGGTGGTGGCGATTGTCTTGCTGTTGTTAAACCCGATTGGCTCCATTTTTCATATTAGCTTATTGGAAAGCATCAATCTGGATGCCTTTTATGTTCTGCCCTTCGCCGCCATTGTTGGCGCGATTGCCATGAAACAATGGAAGAAAATCCTGCCCTTTGCCAAGTCCGGTGTATCCCGGATGACCGATGTGGTCCTGATCTTGATCGGCGCCGGAGCGATTGGGGCAACGATCACATCCTCTGATTTACCGGCGCAGATTATCAATTTGATCAAAGCCTCCGGTATTTCCGGCGTCTTCCTGGCGCCGATTTCCGGTATCTTGATGGGTGCGGCGGCTGCGTCCACATCCACAGGTGTTATCTTGGCAACCGGCTCCTTCAGTAAAGCAATTCTCGGCTTCGGGGTCAGCCCCATCGCTGGGGCGGCGATGGTTCACACGGGGGCGATCGTCATCGACCACCTGCCCCATGGGAACTATTTCCACGTCACCGCCAATGCCATGCACATGGATATCAGCGAACGGTCCCACGCGATTCTCTATGAATCACTGGTGGGCCTGTCTGCCACCATCGTGGCCACAGTCATGTATGGTTTCTTGCACCTGTAA
>SRR1151209_00005 pyruvate kinase
ATGGAGTGGACGAAAATCGTGAAGACAAAAATCGTGATGAAACTAGGGCTGCCGGTCCCCGCTGAACAAGCGGTCAGAGAGTACATTCGCGCTGGTGCGACCGTGTTCAGTGTTGATCCCAATATGGGTACCAGTCAGGATCTGGATGACTTGTACACCGCTGTACAGCAAGCGAGTGCGGCGGAAAAAGCAGCCGTCGGCATCCTGCTTGATCTGCCGGTCACAAATGATCCGTTACGCATCGAACGCAACATCAGCAGCACGGAGGGAACGCTGCTGACCCGGATTGATCGGGCGTTGGCCGTCGGGGCGGCAATTATTGCCATTCCAGTGATCACAAATGCCGTTTATCAAGCCATTTGGGACCTGGCCCGGCAGCATCCAGATGTCCTGATTCTAGGCAAAATCGCCAGTGCGGCCAACATTACCGATTGTCCCGATATTCTAAAAACTTACGACGGCCTGCTCATTGACCGGGATCACCTGGCCAGGGAGATCCCTGTGGAAGACGTGCCCGAAGTGGAGCAATCACTGATTCAACAATGCTTGGCGGCGGGCAAGCCGGTCATCACGGCGGGGCAAATGCTCAGCTCACTGATGATGTCCAGCCGACCTTCCCGGGGTGATGTAACCGACGTGGCCTATGCGGTCGTCAGCGGCACTGATGCGGTTTATCTCTCTGAAGCGGCCAGTCGCGGCGGCGATCCGGCCGGTGCCGTAGCCATGTTGAACCGGATCAACAACAAAGCGGCCACAATGCTGCCCAGCGAGTCGCCACTTTTAACGCAGCAGCCGGCTAATGACTCTATCACCGAGACCACCGCCACGCAGGCGGTGGTCATGACTCGGCAAGCCCAAGTCAAAGCAATCGTGACAATCACCAGCGCTGGCTTCACAGCTCGGCAAATCGCGCGCTACAAGCCTCAGGTGCCGGTCATTGCAGTCACTGCTGAGCCGATTGTCGCGGCTGGTCTGCAGCTCTCCTGGGGTATTGACCCATTGGTCGTAGCCAGCGGCAGCACTCGCGAGGCAATGATTCAAGAAGCAGAAAATGTACTGGCCCAAACCGGTGTGATCCAAATAGGCGATGCGATTGTCGTCGTGGCCGGTTATCCTTTTGGCCAAGCTAAAGACGTGAACAATGTGACGATTCATGAGTATGGTGTTTATGAATAA
>SRR1151209_00006 maltose phosphorylase
ATGTTTGATCCATACAAATTACAACTTGACGACTTAAAGAACCGGGATCCCAAATATCTGGAAACTATTTTTTCAATCGGCAACGGTCATTTCGGTTCCCGCGCCACCGATCCGCTCAAGCCGACCCATAACGGCGGTACGGTCATCAACGGCTTTTACGAAAGCAGCCCGATCATTTACGGCGAACAGGCTTACGGCTACGCCAAGAATCATCAAACGATCATTAATCTGCCGGATTTGCGCAGCATCCAGATTGCGGAAGGAGACGGCCAGTTCTTTGCGACTGAGCAGCTGATTAGTCAAACACTGAATCTGAAAACCGGTATCATGACGACGGAGAGTACTCTGATCAGCCCCAGCAGCCATCGGATTCGTTTGACCCTGCAGGCGATTCTTGGCCAACACCGGCAGCAGGCGGCGGCTTTTCGATACACTTTAACCGCCCTGAACTTTTCCGGACCAGTCCGGATGGCAAAACAACTATGGTTGGATGCGGCGGACACCCAATCCGATGATCCGCGCCTGGCCCGCAGTGTGCAAACCTTGAATTTTACGCACAGTGCCAACGAAAACGGACAGCAAGTTGTTGTCACTACTGACCGAAGCCAACTCCAGACGGGGATAAAAATCGACGCGCCCGCGAAATGGGAACTGACCCTCGACGAAAGCATCAGCAGCTCGTTTGACGTTCTGGCAGCAGTCGGACCGATCGTGGATGCGGCAGCTGCGTATCCGGAGCTTGCTCTGCCTGAATCATTTGACATCCTGGCCGAAGATGCCCAAACCTATTGGAACAAGACCTGGGCGAACGGAAATGTGGAAATCACGGGGGATGACGCGCTTGCTCAGGGTATTCACTACAACCTTTTTCAACTGAACGCTTCCGCTGGCCGGGACGGTCTGACGAATATCGCGGCCAAAGGAGTCAGCGGCACCGGCTATGAGGGTCACTACTTTTGGGATACGGAAATGTACATGCTGCCGTATTTCACGTTGACTAATCCGACCATTGCCCGCAGTTTGCTGGCGTACCGCTATCATGTGCTGCCAGCGGCTAAAAAACGGGCGCGCGAACTCGGTGTTGATCACGGTGCTTTATTCGCCTGGCGCACGATCAATGGGGAAGAAGCGAGTGCCTACTATCCTGCCGGCACGGCTCAATATCACATCAACGGCGATATTGCCTATGCCATTGGCCAGTATTTTGCGGCGACGAGAGACTTTGCTTTCATGAGAGACATGGGTTTCGAGATGCTCCTTGAAACAGCAAAGTTCTGGGCAAGCTTCGGGTCATGGTTCACTGTTCGCGGAGAAAGCTATTTTGGCTTCTTTGACGTCACCGGACCTGATGAGTACACAGCCATCGTCGACAATAATTTCTACACGAATAAAATTGCCCAGCACAACCTGCAACTCGTGGTGGCGGTGGCCCGGGCGTTTGAAAAAGCCGGCCAAGCGATCCCGCTCGGGGTCACTGAAAGCGATCTGACCGAGTTAGCCCGCATCGCCAAGGGCATCTATCTGCCCGTCGATGACGCCCTCAAGATCCATCCCCAGGACGACAGCTTCCTCAAAAAGCCGCGCTGGCCGTTTGCAACAACGCCGAAGGACAAATACCCGCTGCTGCTGCATTTCCACCCGCTGACCATTTATCGCTATCAGGTCAACAAGCAGGCCGATACGCTGCTGGCGGATTACTTGTTCCCGGACAGCATCAGCGATAGTCAGACCCAGCGCGATTATGCATACTATGAGCCTGTAACGACCCATGATTCATCCTTGTCCCGAGCCATCTTCAGTGCTGTCGCCGCACGGCTGGGCATGGCCGGCAAGGCGTATGCTTACTTTACCGACACTGCCCGCATGGATCTGGTTGATCTGCAAGGGAACGCCGCCGACGGGCTGCATCTCGCGAACCTTGGCGGCAGCTGGTTGTCGATCATCACCGGGTTTGCCGGCGTGAAATACACCGGCGCACAGTTATCTGTGACCAACCATCTGCCGGAGCAGTGGGAATCGTTGGTCTTTATCATTAATTATCATGAGCGGGTACTGAAATTTACGCTGACCCACGGGACTACGACGGCCAGTTTGGAGTTTGGTGCACCAACCAACGTCGTAATTGATGGGCATCAGACATTGGTGTCTTAG
>SRR1151209_00007 penicillin-binding protein 1A
ATGAGTGATAAAGAACAACCTGAATTACGGCGGCAGCACCAGCCGAAAAAACGGCATCCGATCCGCCGCTTTTTCAAGTGGCTGGCAATTCTTTTGGTCACCGTGCTGCTGGCCGGCACGGCGCTTTTTGCGTACTACGCGAAGGACGCCCCGGCCATTACCCAAGATGATCTGCAAAGCGGCGGCTCCTCCATCATTTACGGCGCTGATGGCAAGCAGCTCACCCGCTTGGGCAGTCAAAACCGGACTTACGTCACCGGAGATAAGATTCCCCAGCAATTGAAGGATGCCGTGGTGTCCATCGAGGATCGCCGTTTCTACCAGGAATTTCTGGGCGTGGATCCCCTGCGAATCGCCTCCGCCTTCGTCAACAACGTGACCACCGATTCGCTCCAGGGCGGCAGTACCATTACCCAGCAGTTAGTCAAATTGACCGTTTTCTCCACTAAAGCATCAGATCAGACGTTGCGGCGCAAGGCCCAGGAAGCCTGGCTGTCTTTCAAAGTGACCCGGGATTATTCGAAGGATCAGGTGCTGGAATTCTACATTAACAAAGTGTACATGGGCAATGGCATTTATGGTATGGCCACCGCGGCGAAATATTATTTCAATAAGGACTTGAGCCAGCTGTCCATCGCCCAGACTGCTACCCTGGCCGGCATGCCCCAGGCGCCGGAGTCCTATGATCCATACAAGGACCCCAGTAAGGCGACCAACCGCCGCAATCAGGTGCTGAATGCCATGGTGACTAATAAGAAAATCACCGCCCAGCAAGGCGCCGCGGCGAAGGCCACGGCCATCACTGATGGCTTGCAGCCGAAGGAAAGCCACCAAAGCAACGATACCACGGATTTAGTGCTGGACCCGTATTTGAAGCAGGTCATTGATGACGTCAAGGCCAAGGGCTATAACCCCTACATCGATAATCTGAAGATTTATACCAATGTGGATTATGATGTCCAGAAACAGCTTTATGATTTGGCCAACGCGGATGGCGGAGTATTTACCAACAATCTAATGCAAACCGGGGTGGCCATTACCAATCCGAACAACGGCCAGGTGGTGGCGATGCTTGGCGGACGGAAACTCGGCAATGTGCGCCTGGCCTTGAACCGAGCCGTCACCGCGGACCGGAGCAATGGCTCAACGATGAAGCCGATCATGGATTACGGACCGGCAATTGAATATCTGAATTGGCCAACCAGCGAACCGGTATCCGATACCGCCTACACCTATCCGGGGACGGACATTCAATTGTACGATTGGGACCGCCAGTACATGGGTCAAATGACCATGCGTCAGGCGTTGGTCCAATCCCGGAATGTGCCGGCAATTCGGACGCTGGAGAAAGTCGGTCTATCCCGGGCATCTACCTTTGCCAGCGGTTTAGGCATCAAGATTCCCAGCACGGCCGGTCTATCCGTCGGCATCGGCAGCGACGTTTCTCCGCTTCAACTTGCTTCTGCTTACAGTGCCTTCAGCAATGGCGGCACTTACTACGAACCGCAGTACGTCAATAAAATCACGACGGCCGACGGCGTGGACCATACGTATTCTGCCGCCCACCGCCAGGCTATGAAGGCCAGCACGGCATACATGATCACTGATATGCTCAAGGGCGTCTTCACTAGCGGCACGGCCACTGCGGCCAATATCAGCGGCCTCTATCAAGCCGGCAAGACCGGGACTACCGACTACGACAGCACGACTCTGGCCAATAATTCCGCATTGAATAATACCGTGCGGGATTCTTGGATGGCCGGCTACACCCGCCACTTCTCTGTCGCCATTTGGACCGGATATGATCAGGCTAATAAACGCGGCCTCGCCGGCAGTGAACAAAACACGGCGATCCTCTTCTATCGCCAGATCATGAGTTATCTGGCTGAAAAGCAGACCAACACCGATTGGAAGAAACCCAGTGATGTCGTCCGCTCTGGTCAGGAACTCTACATCCGCGGGACCCAACCAGCGGCCACTGTGACACCGGGGTCTTCCTCCAGTTCGGAAAGCCAGCGTAATGACGGTTCCGCCGCTGAAGATGGGTCAGCCCAGAACAGTTCCAGCAGCAGCGCATCGTCCGGCACTGGTCCGGGGGCAGAATCGTCGGCCTCCAGCAGTACGACTGAGAACCAGCCCGGAACGGGCACCGGTACGGATCAAGGACAAGACGGTACCGGCACCGGTACCGACCAAGGTCAGGGCGGCGCAGCCAGTTCGTCGAGCACCAATACCGGTGGAACAGGCGGTACGACCACCCCGCCGGCTGAAAGCAGCAGTAACAGTAATAATCAAGGCGGCGGACAAACGCCGTAA
>SRR1151209_00008 recombination protein RecU
ATGACGATCTCGTACCCTAATGGTAAGAAATATCTCGCGCCAGCGCAAGATTCTCCGACGCCGGTGAAAAAAAACGAGAATGACCATGTAATTTTCGGCAAACGGGGCATGCGGCTGGAGGACGCGATCAATGAAAGCAACGACTATTATCGCGTTCATGATCAAGCTGTGGTGTATAAGAAACCCACGCCCGTGCAAATTGTGCATGTGGATTATCCCGCCCGTTCCCAAGCCGTGATCAAAGAAGCCTATTTCCGCACACCCTCCACCACCGATTACAACGGGGTGTATCGCGGCTACTATCTGGACTTCGAAGCCAAACAAACCAAGAATAAACAGTCCTTTCCCTTGAAGAACTACCACCAGCACCAGATCGATCATTTTCGCCGGTGCTTGGCCCAAGACGGCATCTGCTTTACGCTGATGCAGTTTGCGGATCCTGAGACGGTCTATCTCTTTCCGGCGACGACGCTGCTGGCTTACTGGGACCAGTATCAAGGCCGGCACTCGATTCCGCGCAAAGAAGTCGCTGCCGCCGGGTTTGAGCTGACTGTCGGCTTTGCCCCGCCAATTCCCTATCTTGACGCTGTGGATGCTCTGATTACCCGGACAGAAGCACAAAAATAA
>SRR1151209_00009 hypothetical protein
TTGGAACGTGTGTGGATCACGGGTTACCGCAGCTATGAACTCGGCGTTTATGGCGCTCAGGACCCGAAACTCAAAGTAATTAAGTATTTATTAGATCGTACCCTGCGCCGGTATGTCGACGACGGCTTGCGCTGGGTGATCACCGGCGGCCAGCTGGGCGTCGAGCAGTGGGCTTTGGAGACCGCCCTGGCCATTAAAGCCGACATTGGCTTGCCCAAAGCGGCAATGATGCTGCCATTTGCGGATTTCGGGCAGAAATGGAACGAAGAAAATCAGGGCCATTTGGCGGCCCTGAAAAGTCAGGCGGATTTTTCCGCTAGCGTCACCTCAGCGACCTACCAAAGCTGGCGCCAGTTGCAGGCATACCAGCAGTTCATGCTGGGCCATACCGACGGTGCCATCCTGATTTACGATACGGAGCAAGAGGGCAAGCCGAAATACGATTACGACATTATAACGAAATACCAGGAAACGCGGCCTTATCCGCTGGAATTAATCGATTTTTATACATTGCAGGATGCCGCCAATGAGTATGAGGAGAGCCAGCGGCCGGATCAATGGGACGAATAA
>SRR1151209_00010 cell division protein GpsB
ATGGATAATCGGAATAATCAAGCACAAGCCGGGCAGGGCGGGACCAATGCGCCGCAAAACCGGCGGTTGAACCTGACCCCGACGGATATTGTGAATCAAGACTTTGGTCATAAGATGCGCGGTTATGACGTGGAAGAGGTCGACAATTATCTTGATCTCGTCATCAAGGACTACGAAACATATAATGAGCAGATCAAGGCCTTTCAACAGGAAAATAACCGGTTGAAGTCCCGGATCGATGAACTGACGAAACAGATGAATGCCCAGGGCGGTCCGGCTGTGGCCGGTGCCGCTAATCCGGGCAGCAATGTTTCAAATTACGATATTTTGAAGCGGATCTCTAATTTGGAACGGCACGTCTTTGGTGCCAGCAAGGCCAACACCACGCCGAGTATGCCGCGCTCTTATACGGCGCCGCGGTTCTCCGCACCGCAGCCGCAACAGCCGAATCCATCGGCCGCGCCGGCGGGTTATGGTCCGGCACCTAAACCAAGCACGGAACCGTCGTTCGCCAGCGGCAGCCCGTTTCAAGAGTCCAGCCAACCGCGGCCGACTCAGCAGCAAAGCGGTCAACCGCAGCAGTCCGCGGCGCCCCGCAATGAACCAAATCCCTATCAGGGCGGCGGTACGCAATACCGCAACTACGGTCCGGCAGCCAATAATGGCGGCCAGCCCGCCCCGCAACCGAATAATGCCCCGTACGGTAATCCGCGTCCCAGCAACCCAGCGCCCCAAAACGGACCGGAACAGCCGGCCAATGGTGAAAACAACGGCTATCGGCCGCAACAACCCCAGCAGTAA
>SRR1151209_00011 RNA methyltransferase
ATGGCAATAAAATACAAATTAATGGCCGCCATGGCCGGCGGTTTCGAAGCCGTCACCGCCCGAGAACTGATGGATATGGGCTACCAGACCCACAACGAAACCGGCCGGGTGGCTTTCGAAGGCACCATGGCTGACGTTTACCGCACCAATCTCTGGCTGCGCAGCGCAGATCGCATCTTGATCGTGCTGAAAGAATTCAAGGCCCTGACTTTTGACGACTTGTTTGAAAGTGTCAAAGCCTTTCCGTGGGAAGATTGGCTGCCGATGACGGCCCATTTCCCGGTCACGGCCAAGGCGGTCAAGTCGAAGCTGCACAGTGAACCTGATATTCAAAGTATCGCCAAAAAGGCCATCGTGGAGCGCTTAAGCACCTATTACCACCGGCGCACGCGGCTGCCCGAAACTGGCTCGACCTACCACATTGATGTGCGGATCACCAAGGATGAGGTCCGGCTCACGCTGGATACCACTGGTGAGAGTCTCTTCAAGCGCGGATATCGGGCAGAATCCGCCGGCGCTCCGTTGAAGGAAAATTTTGCGGCCGCGCTGGTGCTGTTGACCCGCTGGCACCCGGAAGACATGCCGTTTTTGGACCCGACCTGCGGGAGCGGCACAATTCCCATTGAGGCGGCGTTACTGGCCCGAAATATTGCCCCCGGCATCCAGCGGCACTTTGCCTTCGAAGAATTCCAAGTCTTTGATCCCCAAGAATTTGCGGCCCAAAAAGAACAAGCGGTGGCCGGCCAAAAGAATGATCCGCTGATGATTTTCGGCCAGGATATTGACCAGAACATGGTCGAGCTCTCCCGCACCAACGCCCAGAAGGCGGGGGTACTGCACGACATTCGCTTCAAGCAGCTGGCCGTCAAGGATTTCAAGACCAGTGTGCCAAACGGGGTGATTGTCGCCAACCCGCCATACGGGAAGCGGCTTTCTGATGCGGCTGGCGTCCATGAGCTGTACAAACAAATGGGCGACGTGTTCCGGCCCCTGACTACCTGGAGCAAATACTTTCTGACCAGCGATCTGGCTTTCGAAAATCTGTATGGGGCTAAGGCCACGAAGCGTCGGAAACTTTACAACGGCGCGATGCGGGTCGATTTCTTCCAGTACTGGGGCAAACCGGATTGGAAACAACCCAAGGCCCTGGTCACATCGTTAAGCGACCCGGTAAAGGAAGACTAA
>SRR1151209_00012 hypothetical protein
ATGGCACATCGTCAAGATCTTCAAGAAATTTCTACTATTCTCGACCAGTCGCTGCAAAATGAGGCACCGGTCAAGATCAAGACCATCGACCACCGGACCTTGGGTGGTATCGTGACGGGCTTTGAAAATGGGACTGTGAAGCCCTACTTTGAACGGCGCACCGTCTTCCTTAACACCCGAAAAGGCATGAAACGGATTAAACAATATGCGATTCAGCAGGTCCTTGCTCAATAA
>SRR1151209_00013 hypothetical protein
ATGGCAAAGAAGAAGCAACGCGAAGCGCGGCACCAGGCAATTGTGGATATGAACGACTTTTTATTCAATTACGCGCATAAAACATTGCCGGACGTACCTTTGGACCAATTGGCCGAAAAAGTGATCAGCGCGGCCAAGCCGGATTTGAAGGGGTTGGACGGGTTGTTCCATGATAACGGCATTGGCCGAGAGGATAATTTCTATGCGATCGGCCTCGGATTCGTCAAGGATTATTATGATCTGGGCGGCGAACAAGCCAAGCAGGAGACGGACAAACTGGCCGAAGAAGCGCTGGATTACCTCGGCGGGCACAGCAGCGACTTTGTACGTTGGGAACATTAA
>SRR1151209_00014 DegV family protein
ATGAAGACAGCTATTGTTACTGATTCCACTGCTTACCTGACCCCCGAGGAAGCGGCCAAGCACCACATTACCGTCGTCCCGGTCACGATTCATTGGGGAGAAAACACGTACCGCGACCTGATCGACATTTCTTTCACTGACTTTTACGACCGGCTGGTATCCGATCCGGTCCAGCCGACTTCTTCGTTCCCCGCGTTGGGCGAAATGGAAGAGACTTTCAAGAAATTAGCCGCCGAGGGGTACGACAACGTACTGTGTATCGTCTTGTCCTCCGGCATTTCGTCCTTTGTGGACAATCTGCGCGCGTTCGCAGAACACTTCAACACCATTAAAGTGGTGACCTACGATTCTCACATCACCTGTGCCGGACTGCGCTACATGGATCTGCTGGCGGCGACGATGCTGGAACAGGGCCATGATTTGGATACTGTGGAAAAGGCGCTGGAAGTGATGCGTGACCGGATGGGGGTCCGGTTCATGGTGGACGATCTGGCCCATCTGCGTCGGACTGGCCGCTTGAGCGGTGTTTCGGCCACGATCGGCGGGCTGCTGAAAGTGAAGCCGATTTTGACCATTGATATCCAGGGCGCTGGTAAGATCACGGCGATTGCCAAGGAGCGTCAGGCAAAGAAGGCCTTTGAGCATATTAAAAAAGACTTTGGTGATGCGATCGCAAATGTGGACTATCCAGTCCGGGTCACGGTCTTCGATGCTGATGAACCGAAGATGAAGGCTGAATGGGTCAAGGACCTGCAGGATTCCTTCCCGCAAGTCCAAGTTGATCAAAGTATTATCGGCCCGGTGATCGGGGTGCATACCGGTAAAGGCGCCATGGCCATTATCTGGACCCAGGATTATCAAGACCTAGCAGCAAAGTACGCCCAATAA
>SRR1151209_00015 hypothetical protein
TTGAATGATCAAGTTTTGACAACCCTGAAGAACCGTCGCTCCATCTATCAATTGGGCAAGAACGTCAGCCAGAAGCCGGCAGACATCGTTAAGCTGGCTGAGGATATTATTATGGATTCCCCGACTGCCTTCAACGGTCAAACGGTACGCGCCGTCTTCCTATTCGGCGCCAGCCACGACAAGCTCTGGGACATGACCGGCGCTCGCTTGAAGAGTGAAGTTCCGACTGAAGAGGCGTACCAGCGCACCCTCGACAAGATCAACGGCTTCAAAGGCGCTTTCGGGACGATCCTGTTCTTCCGCGATCAAGACATTGTCACCCAGGAAGAGAACGATTTTGTCCTCTACCGGGACAACTTCCACGATTGGGCCGAACAAGGCCAGGGCGGGGCGCAGCAAGCCATTTGGGCCGCTTTTGCGCAGAACAACATTGGCGCCAATTTGCAGCACTACAACCCGCTGATTGATGACCTGGTAGCCAAGGAATTCGATATTCCCAGCAACTGGGTTCTGCGGGCGCAAATGCCGTTCGGTTCCATTGAAGGTCAAGCTGGCGAGAAGGAATACTTGGCCCGGGAAGACCGGTTCAAGACGTTTGGTTAA
>SRR1151209_00016 ribonuclease HI
ATGATTCGGTTACAAACCGATGGCGCCTTCGCCCCCGACGGTCTGGCCGGGGCGGGGATTTTGTGGCAAAAAGACAGTGATACCAAGCAAATCAGCCGAGTGATCAGTGCCCGGGACAACCACGCCGCTGAGTTCGCCGCGGCTCTGGCCGGTTTCCAAATTCTTAACGATTTGGGCCTGGCGGACAACATTATTCAGTTTACCACGGATTCTAAAGCCGTGGTGACCGCCATGCAGAAACGGTACAGTCATGGTTACGGGGATGATCTGACCGCGCTGCTGGCAGTCACTGATCGCTTTAAATTAGTTTTCCCCAAATGGGTGCCGGAGAAAGAAACCCATCAGGCCCATGCGCTGGCCCAGCAGGCGCTGCAGCGGCAACGAAAAAAATAA
>SRR1151209_00017 putative membrane spanning protein
TTGCAGAGCAAGCACCGCAAGTTGTACTACCAGCCTGGTATTCCGGTGACCATCATTTACTGGTCCCTGACGATTGGGCTGATCCTCATCGGCTGTATCTGGGAAATGGAGTCGGCCAACTTCCATTGGTGGGCATTTGCCCTTTGGATCCCCGGAGTACTGCTGGCGATTTATGGCATTCTGGCCAACACGGTGACCCTGAGCGATGCAGCGGATGAACTGATTTTTCGCCGGATCTTTTGGCTCAAACCGCGGACCGTGCGGCTGGTCAATGTGGCGCGGGTCGAAACCACGAAGATTACTCGCACGGTGCAGTACAAACACCCGCGGTATATGCGGCACGAGTTCATCTTTTTGAAAAAAGACCGGGCCCGTTTCGATGAGTGGACGCACGCGGTCCGCCGTATCAAGCGGCCGGACCAAGCAGAATAA
>SRR1151209_00018 formate--tetrahydrofolate ligase
GTGGAAACTGATTTGGCGATTGCCCAAGAAAATGAAAAAAACGAGATCAAGCCAATTACAGACGTTGCCCAACAAGTCGGCCTGAGTACCGATGACATTGAAGTCTATGGCAAATACAAAGCAAAGCTGTCCTATGCAGCGATGAAGCGGCTGCAGCAGCAAAAACAAGGCAAGCTGGTTCTGGTGACGTCCATCAACCCGACCCCCGCTGGGGAAGGGAAGTCCACCGTCACCATCGGCCTGGGCGATGCGCTGAACCAGATCGGCAAGAAGACGACGATTGCCCTGCGGGAACCAAGCCTGGGACCGGTCATGGGGATCAAAGGCGGCGCCACTGGCGGCGGTTATGCCCAAGTCGTGCCGATGGAAGACATCAATCTGCATTTCACCGGCGACATGCATGCGCTGACGACGGCCAACGACACCTTGGCTGCGCTGATCGACAATCACTTGCAGCAGGGTAATGAATTGAACATCGATCCCCGTCGGATTCAGTGGAAGCGGGCGCTGGACATCAACGATCGGGCGCTGCGCAATGTGGTCATCGGCCTAGGCGGCCATGCCAACGGCATTCCCCGGGAAGACGGCTTCGATATCACCGTCGCCTCCGAGTTGATGGCTGTGCTGTGTTTAGCGGATTCTTTGGCGGACTTGAAGCAGCGGATCGCGGCCATCGTGATCGGTTATACGTATGACCGCAAACCAGTCACAGTGGCTGACTTGGGCGTTCAGGGCGCCATTGCGATGCTCTTGAAGGACGCCATCAAGCCTAATCTGGTGCAATCCTTGGCCCATACCCCGACATTCGTCCACGGCGGGCCGTTCGCCAACATCGCCCATGGGGCCAACAGTGTGCTGGCTACCCGGGCGGCGTTGGGTACTGGCGACATCGCCATCACGGAAGCCGGCTTCGGTGCAGACTTGGGCGGGGAGAAATTCATGGACATCACCGCCCCGGCCATTGGCCATTTGCCCGATGCCGTCGTGATCGTCGCCACTGTCCGCGCATTGAAGTATAACGGCGGGGTCAAACTGGCTGATTTAAAGACGCCGGATGTGACTTCGTTAAAGTCAGGTTATGTTAACCTGCAAAAACACATCCGCAATATGCAGCGCTATGGCCGACCGGTGACGGTGGCCATCAACGTTTTCACCCAAGACAGCCAGGCAGAGATCCAGACCCTGCAGCAGCTTTGCGCCGCTGACGGCGTCCAAGCCTTCCCGACCACCGTCTGGGCCGACGGCGGGGCTGGGGCCAAGGCGTTAGCGCAGCATGTGGCTGAATTGGTGGACGAAAAGACAGAATTTCTGCCGTTATACGCCAATACCGATGACGTGGAAAGCAAACTAACGACCATCGCCCAGACCATTTACGGGGCGAAAGACGTGGAGTACAGCGTCGCGGCGAAGCGCGACCTGCGCCAGATCAAGCGCAACGGCTGGGAAGCTCTCCCAATTTGTGTCGCCAAGACACAATATTCGCTGTCCGACAACGCGAAGGTGTTGGGCGCCCCCACTGGCTTTACCCTGCATGTCCGTAATTTGGTGCCGAAACTCGGCGCGGGCTTCATCGTGGCGATGACAGGCGACATTTTGACCATGCCGGGTTTACCGAAACATCCGGCCGCACTGGATATGGATGTGGATGATAATGGCAAGATCACAGGTCTTTTCTAA
>SRR1151209_00019 lipoprotein signal peptidase
ATGGCAAGATCACAGGTCTTTTCTAAACTCTGGTGGCTGTATAGCCTCCTGATCGTGGTACTGGTCGTCATTGGCGATCAATTGTTAAAAAAGTGGATCGTCGCTAACGTGCCGCTGAATACGGCCAAACCGGTGATTCCTGGGGTGTTCTCCCTCGCCCACGTGCGCAATGACGGCGCGGCTTGGAGTATCCTTTCTGGCCGGCAGCCGTTTCTGATCGGGATTACCGTCATTGCCCTGGTGGTGCTCGGTTATTTACTGTTCCACTACCGGTACTCAGCCTTTCTTACCATCGGCATTAGTCTGATGATCGCGGGGGCAGTGGGGAACTTCATTGACCGGCTGCGTCAGGGTTATGTTGTGGACATGTTCCAGCTCGACTTCATCAACTTCCCGGTGGCTAACGTCGCCGACATTGCCATGACCGTCGGGGTAGCGCTGCTGTTCATCTATCTGCTGTTCCTAGATAAGGGGAGAAATTCATGA
>SRR1151209_00020 ribosomal large subunit pseudouridine synthase D
ATGACTGCACCAATTGACTGGACCGTGACCGCTGCCGGGGCGCAAGCCCGGATTGATAAAGCGCTGGCAACGGCCTTGGCCGATCAGGACATCACCCGGTCCCAGATTCAGAAATGGATCAAAGAGGGCCGCGTGACCGCCGCCGGCCAGCCGGTGAATGCCAAGGCAAAGCTGGCCGAGGGCACCGTGGTGACCGTCACGCCGTCTGCGCCAGCACCCATTGCAGCGGAACCCGAGGACATTCCGTTGGACATTGTCTACGAAGACCACGATGTGATTGTCGTGAATAAACCTCAGGGAATGGTCGTTCATCCCGCGCCCGGGCACCATCATGGCACGCTGGTCAACGCCTTGCTGGCCCACGGTCAGCTAGCCACGATCAATGGCGCCATTCGGCCGGGCATCGTGCATCGGATCGACAAAGATACATCGGGCCTGCTCATGGTGGCCAAAAACGACAAGGCCCAGCAAAGCCTGACAGCACAGTTGAAGGCGCACAAGAACGCGCGCAAGTATTTGGCCATCGTCCATGGTGTGATCCATGAAGACCAGGGTACGATTGACGCGCCCATCGCCCGCAACCCGAAAGACCGCAAAAAAATGGCGGTAGTCGTCGACGGCCGGGAAGCCGTGACGCATTTCAAAGTGCTGCGGCGATTCCGCCACTACACTTACATTCAGGCGGTGCTGGAAACCGGCCGAACCCACCAGATCCGGGTACACATGGCTTATATTGGCCACCCCGTGGCCGGAGACCCGTTATACGGGCCGGCCAAGACGCTGCCAGGGGCGGGTCAATTTCTCCACGCCGCCACGCTGAGCTTGACCCAGCCGACGACGGGGGAAGAAATGACGTTTTCGGCTGAGCCGCCGGAGAACTTTCGAGAGATGTTAAAATGGCTAGCGGAAAACGACGATTAA
>SRR1151209_00021 hypothetical protein
ATGATTCAATTGGAATTGATTAAGTTGTGGCGGCAAAACAAGCTGCTTCCCGGAATACTCGTACTGCTCATCTGTATGATCGGGTCCATTGAAGCATCCCTTTATTTTCAAAACCAAAGCGTTAACACGGCTATTCAATATAGTCAGACCAATTTGGCGATTTTTAAAGTCAGTGCAGACAAACGTTGGGCGGAAGGCTGGCTGCCGGATGTGAAAACTGACTACAAATCATACGAAAACCAACTGACCGATTTACAACATCGTAATCGATCTGCAATGACCACTGATGCCTTAACAAGTTACTCTACACCAACGCCGTATTTGTTATATACCGGTTTTGATATAACCCAAGGATTGCATGCCGGGGAAAACGAGGCCACGCACCAAGAACTGCTGTACCTGCACCGTTACCATATAGGATCTATGATTCCAGTCACTATTCGAACTAATCCGGAAACCGCTGGCACCAACAATATTCCAGCCAACGAAGCTGAAGTCTTTCAGAATCTCTCCACCCGCTACTACGAATGTGGCTGGTGGCAGATTTGGTTCTGGGCGATTGCCGGCGGTTTATTGGTTTCATTAGCCATTATCAATCTATTTTTCGGGGACATCCTAGCCAGCGAGTGGGAGGGATCGACAGACCGTACCCGCTGGCTGCGGCTGCAAAATGAGACCCATACCAAACTGATTCTGACCAAGTTGGCCGTCCATTTTGGGTTATCCTGCCTTTTGCTTGGCCTAGCGCTAGGGTTGTTCCTACTTTATGCCTGGCTGCGCACGGGTTTGGGCGATCTGCGCTATCCGGTACAAACTTGGGCCCTGGGTAAACGAGTGGTCTCTTTTTACAACTGGATGACCGCTAACGCTGAAGCCAACTACTTTTATCCGCTGCACATCGTTTTTATCCCTTTGGCCCGTTACCTTGGACAGTTGAGCGTTTTCTGGGTGAGTCTGCTGTTCTTGAATAGTACCGTAACACTCTTAGTGAATCGCATCTTGCACATTCGGCTGCTGGCACTGCTAACGATGGTGATCGTCCCGTTACTGGGACTCGTCTTGCCAACCAGTATCTACAATCCCTTCACATATTTGAAGGGGGATTGGGTCATTACCAACTATCTCGGATATCTGCTGAATCAGCGTGCGCCGGTATTTCCCTGGGTCGTCGGGATCATGATTGCCGCAGGCGCCGTGTGTCTCGGGTTGACTTTAGTGCCGTTATCGCACAGAGGGGGTGTTCATTTTGACTGA
>SRR1151209_00022 ABC transporter ATP-binding protein
TTGACTGACTCGATTTTTCAAATTCAGAATCTCAGTTTTGCGTATCACCGCCAAGTGATTTACGGTCAGGCCAACCTGACATTAACTGATCCGGGGGTCTACGGACTGATCGGGCCCAACGGAAGCGGGAAGAGTACCTTATTTAATTTGATCACGCGGTTGTTACGTCCGGCCAAGGGCACAATCTCGTTAGATGGCACAGTACTCACGCCCGCCCGGGTCTTCGCCAGCGTGGCTTATGCTCAAGACAGCAGTGTGCTCTATCCTTACCTCACCGGCCGCGATCATTTGCGTTTTGTAGCAAAGCAGCATGGCGTGGCGCGGGAACGAATCAAGCTGCTGAGCGACGAACTCGAAGTAACGGACTTCATTGATCGGCGCGTCGCCCGGTTGTCTTTAGGGCAAAAGCAGCGGCTGCTGATTGCGCTGGCGCTGTTGCCGGAATCGCGGCTGCTATTGATGGATGAACCGCTGAATGGACTGGATCCGGACAGCGTGATCATCATTCGGGATCTGCTGGAGGCATTCAAAACCAGCGACCAAATCGTCATTGTATCGTCCCATAATTTGGACGAACTGGATAAAGTTACAGATCGCTTGATTTTCAAAGTTGATCACGGTCTCTCGCTGGAAACCGTCGCCGAGGGGGCCGAAGCCCGGTATGCTAAGCTCTATCGCCACCCGCGAAAGAAGTTGGTGCACCATGCATAA
>SRR1151209_00023 ABC-2 family transporter protein
ATGCTAAGCTCTATCGCCACCCGCGAAAGAAGTTGGTGCACCATGCATAATTTACTGTTCTTTTCCTGGCTGCGCATCCGCCGGCGCTTATTCTGGCTCATGATCCTGGGCACGGCGCTGCTCATCAGCAGCGCTTTTTTCGGCATCACCAAATGGCAATTGCAGGAAGAGAACACGACTGTTGTGCGTCAGTTGGACCGCGGCAGTGACAGTTTGGGCATGGCACTGTATAATGTGCCGCCCAAACCGGCGAAAGTCCCGCCGGATCAAATAGTGTATTGGCAGATCATTGAGGCCAAGAAAGTATTATTGGTCGCGATGCACCGCGCCAGCCAGGCCAAAACGGCAGGAGATGAGCACGCTTTTTTGCGCCAACATATCGCGCTGTTGCAAGCCGCACAGAAGCTTAACCACTATCAGCCCGGTGTCGCCGCGGCATATATGTCATTGGATGCCCCGACCATCGCCAAAGAGCTGAAGCAGGACAAATTCCTCCGATCCACTGGCCAAACGCTGATTACCTCAACGTATTCCTTGGCGCCGCGGGCGCTCATCACGCGCCTATGGCAATTATTGCTTTGCCCGCCGATCTTAATTTTCCTGCTGGTCGGTCTGAACTGGCTTTGGCGGGACGACTTTGATACCAATGCCCATCAGTTCCTGTTAATCCATGTCCGTCACCGCCGCCAAGTGGTCAGCGAAAACATTGTCAGTACGGTGGCAGCGACCGGCGTCTTTGGTCTGGTAAGTACTGCGGTATTATGGATGCTCGGGGCGCTGTTTGGCCGTAACGAGGCCATTCGCTGGCTATACCCCCTCAGCCCGCAGGTCTCCTTAGGGCAGCAGGCCATCAGCCTGGCATTGTTTACGCTCCCGGCGATTGTCTGTTTGGCCGCGATCGTACAGGGTAGCACATTGCTGCTGCACCATCTCAGCACCCGAATTGCGGTGCTGGTCATCGTCGCGGCGGGCGGCACATTTCTGCCATTAGCCCCGCACTGGAATCCGTTTAACCAGCTGGGGCAAACCCTGCTCGCCTGGCAAACACCAGTCAATAACTGGACTGCTGGAATACTGCTTGGCATTGCCATTGTTCTCATGATGCTGGTAAGTATCCTCCTCAATCACCGCAATAACCGATTGGCGGATTGA
>SRR1151209_00024 hypothetical protein
ATGACCAAAACAACGAAACTGATCGTATGCGGGGTAATTGATGTCATCACAATTATCCTGTTGCTGTTTATCCCGAGTCTCATTTCCCTTTGGCTGGCTTTTAGCCAGCTTTCCCATGCGGCTGACCTTGGCGCGTTAGTGGTCTTGGTACTAACAATTGTTGGTACCGATACTGGTCTTTTGATTTTGCGCCACGATATCATTAAACTATTGTAA
>SRR1151209_00025 esterase
TTGCGCCTATTACTGACTGGTGACAGCATCATCGCCCGGAAAGAAGGACTGGCTGAACCGCGGCTCAACGCCACGCTAAAATCAATGCACCCTGGCTGGCAAATCGAAAACACCGCTGTCTCTGGCATCAATTCTGAAGCGCTGTTAGTGCAGCTGCCTCAATTGGTTCTCCAGCGGCCGGCAGCCGATGCCGTCACCATTCTAGTTGGCACCAATGACCTGGCCCGAAATAAGCAGGTCCCGTTGGCCCGCTACCGGCAAAATCTTGCCGGCATTGCGGTGAGCGTGACCAAACAATACGCTCCGAAGCGGGTCATTTTCATTTCGCCGCCGGCAGTGGATGAGACCAAGCAGCGCATGCGGGACAACCAGTTGATCAAAGCGTATGCGCAGGGCATGGCCGCCACAGCAGCGGCATATCAGTGCCGTTATGTTGATTTGCGGTCCGCCATGATGCAAACCGGTCAATTATCCGAATTATGCCGGGGCAGCTTAAACGACGGCCTGCATTTTGGCCAGCCCGGCTACGACGTGCTGGCTCATTTAATTTCTGAGACTGTCACTCAGCGGGCTTAA
>SRR1151209_00026 uracil phosphoribosyltransferase
GTGGCAGAGAATAAAGAAATCGTTGACGCGCAGGCCATGACCCGGGCATTGACCCGGATCACGTACGAAATTATCGAACAGAACCATGGGGTGGACGATCTGGTGCTGGTGGGGATCAAGACCCGCGGGATCTATTTGGCCCAACGGATTGCTTCCCGCTTAAAGCAGCTGGAACACGTCGACGTCCCGGTGGGCGATCTGGACATCACCAATTACCGGGATGACCGGGGCCGCCGCACGGGTCAGGATCCGGATGTGACGGCCACAGAAGTCGGCTTCCCGATCAATGGCCAAAACGTCATTCTGGTGGACGATGTGCTGTATACCGGCCGGACGATCCGGGCGGCGCTGGATGCCTTGATGGATCTGGGCCGGCCGAAGAAAATCGGTTTGGCTGTCTTAGTGGATCGCGGCCACCGGGAACTGCCGATTCGGGCGGACTTCGTGGGCAAGAATATTCCCACGTCACTGAACGAACGGATCCAGGTGCGGGTGAAAGAAATCGACGGCAGCGATGGCGTGGCCATCATCCAAGACTAG
>SRR1151209_00027 uracil transporter
ATGGCAGAGAAAGAAACCTACCATAACGACGATGTCGTCCTCGACATCCATGACAAGCCGCCCTTTGGTCACTGGGTCGGGCTGTCCATTCAGCATTTATTCGCCATGTTCGGTTCCACTGTGCTGGTGCCGATCCTGGTCGGGTTAGACCCTGGTATCGCGCTTTTTTCTTCCGGTGTGGGCACGCTGCTCCACATCATGATCACCAAACGCCGGATTCCGGCGTACATGGGCTCATCGTTTGCCTTCATCGTGCCGATGGTGGCATTAATGAAGACGGCCGGGTATCCGGCGATCGCCCAAGGTACGGTGGCCGTCGGTCTGGTATACTTAGTCGTAGCAACCATCGTGTATTTTATGGGGTCGGGCTGGATCGATAAGGCCTTGCCGCCGATCGTGGTGGGGCCGATCGTCATGGCGATTGGGCTGTCCTTAGCGGCCACCGCCGCCTCCGATGCCACGATGAACGGGAAGCAGTATGACTGGCGCTTTTTCGCCGTCGGTATGCTCACGGCCCTGATCACTGTCGCCTTCAACATGTACCTGAAGGGCTTTGCCAACCAAATCGCCATCCTGCTGGGCATCATCGCTGGGTATCTGATTGCGGTGGCCTTTGGCATCGTTGATTTCTCCGGCGTGATCAATGCGCCCTGGCTGCGGCTGCCGAATTTTGAGATCCCGTTCATTCAGTACCAGCCCAGTTGGCATATTGATGCCGTTCTGAGTATGGCACCAATTGCCTTTGTCACGATGACCGAGCACATGGGCCATATCATGGTGCTGAACGGCCTGACTCATCGGAATTTCTTCAAGGATCCCGGCTTGCACCGCACCTTGACCGGGGATGGGGTGGCCTCCATCGCCGCTGGTCTGCTGGGCGGCCCGCCGGTTACCAGTTACGGTGAAAACATCGGTGTCATGGCGATCACCCGGGTACACAGTGTCTATGTCCTGATCGGTGCCGGGATGTTTGCCATTCTGTTCAGTTTCATCGGCAAACTGGCGGCCTTAATTGAAAGTATTCCGTCTCCGGTCATCGGCGGGATCTCGTTCCTGCTCTTCGGCGTCATCGCCTCCAGCGGCTTGCGGGTTCTGATCGATAACCACGTGGACTTTGATAAGAAACGCAACCTGATGATTGCGTCCCTGGTCCTGGTTATCGGGATCGGTAATGCCCATCTGCAGCTGACCACCAGCAACGGGATCCTGGATTTCTCCGGGATCGCTATTGCCACAGTCTTGGGTATTTTATTGAATTTAATTCTGCCGGCGGAAGCCCGGAGTGAAAGGGCCATGGCGGAACAGAAAAAAGAAAGGTAA
>SRR1151209_00028 carbamoyl phosphate synthase small subunit
ATGAAGCGGTATCTCATCCTGGAAGACGGCTCGTTTTTCCCGGGGATCGGTTTTGGTGCGCCGGTGATCACCACCGGCGAAATGGTCCTGAATTCCGGTAACGGGGATTACACAGCAACCATCACCGACGCGGCCAACTTCGGCCAGATTATTGCGTTCACCGACCCGATTATTGGCAATGTGGGCATTAATCAGGAAGACATTCAAAGCCTCCTGCCGAAGATTCGCGGGGTGGTGGCGCGCAACATCACGGATGTACCGCGCTCCCGCCATTCCCAGTTCAACTTGGCCGATTATTTGAAGCTGTATAAGATTCCCGGCATCACCGGAGTCGATACGGCCGCTTTAAGCCGGATATTGTTGGCCAAAGGTCCGTTGAAGGCCAGTTTCATGGATACCGCGGATGAACATGCCTTTGATCAGATTCGGGCCTTGGTGCTGCCCCATGATCAAGTGAAGCAGGTTTCCACTAAGCAGCCTTACGCCAGTCCCAACGTTGGCCAAAATATTTTGGTCGTGGATCTGGGGGTACGGCATGCGCTGCTGCGCGAACTGTCGCGGCGGGACTGCAACTTGACCATCGTCCCGTATAACACGACGGCGAAGGAAATTTTGGCTTTTGCCCCGGATGCGGTGGTGTTCACCAGCGGCCCGGGGAATCCGAATGATGCCTTGCTGGTGGCGGAAAACATTAAAGAACTCCAGGGCCATGTGCCGATTCTGGGCATTGGTCTGGGGGCCGAACTGATTGGTTTGGCCAATGACGCCACGATCGGACTGACCGCGGCCAACCACCGGGGTGGGCCGTTCCCGGTCCGGGAAGTGGCCACCGGGCGGATCTGGCAGACGATGCAGAACCATACCTATGGCATCGATCGGGCTAGTGTTGCCGATACGCCGCTGATCGTGACCCACGAAGATATCCGGGATCACAGTGTCGCCGGGATCCGCCATCGTCAGTATCCGGTGAGCGGGGTGCTCTTCTATCCTGAGGCTGATCCGGAGCCGACGGATGCCACGCAGTTGATTGATGAATTCATGGAAATGGTGGCGGCGGCGCGCCACCATGGGGAAGGGGTGATCGACGATGCCTAA
>SRR1151209_00029 carbamoyl phosphate synthase large subunit
ATGCCTAAAGTCTTAGTGCTGGGTTCTGGGCCGAATGTATTGGGTCAAGGCGCCGAGTTTGACAAAGCCGGGGCGGCCGCGCTGGGGGCGCTGCACGACGCCGGTTACGAGACCATCGTGATCAACTCCAATCCGGCGACAGTGATGACGGATACCCACAGTGCCGACCGGGTGTATGTCGAACCGGTGACCCGGCAGTTTGTCAGCCAGATCATCCGTCAGGAAATGCCCGATGCGATTCTCGCTACGTTCGGCGGCCAAACGGCCCTGAACCTGGTCATGGAACTGGCCAACGACGGCCTGCTCAGCGAACTGCATATCAAGATGCTGGGCACGCCGCTCAATGCCATCGAACAAACGGAAGACCGGGAGCTGTTCTACAACCTCCTGCGCAACTTGCAGGAACCTGTCCCTCAGGCCACGGTGGTAGAAGATCCCCAAGACGCGGTTCAGTTTGTGCAGCGCGTCGGCTGGCCGGTCATTGTTCGGCCGGCTTATACCCTGGGCGGTACTGGCGGCGGCATTGCCCACAGCGACAAGGCGTTAGCGGCGTTTGTGCAAAATGGGATTACCCTGTCGCCGACGGGGCAGGTCGCAGTGGAACGCTCCATTGACGGCTACCGGGAGATCGAAATCGAATTAGTCCGGGACCATGCCGACAACACGGCGGTGGTCGCGGTCTTGGAGAATATCGATCCTGTTGGTATCCATACCGGCGACTCCATTGTCGTTACGCCAGCTCAGACGCTGAGCCACACGGAGCTGACCCGATTAAGGGAAGCAGCGATCAAAATCATCCGGGCGCTGGAAATCGAAGGCGTCTGCGATGTGCAGTTTGCCGTGGACCCGAACAGCGATGCCTATTACGTCATTGAGGTCAACCCGCGGCTGGGCCGCAGCGCCGTTTTAGCGGAAACCGCCACCGGCTATCCGGTGGCCCGGGTCACCGCCATGCTGGCGATCGGCCAGAGTTTGGCGGATATTCCGCTGAGCCCCGCAGGCGCAACCGCGCCAACGACCGCCGCCAGCGAACCGGTGCTGGATTATCTGGTCACCAAGCTGCCCCGCTGGTCTTATCAAAGTGTGGGCGCTGATCGCCGCATCGGCACCCAGATGAAGGCCAGCGGCGAAGTCGTCGCTTTCGGCCGCAGTTTGGAAGAAAGTATTCTCAAAGCGATGCGCAGTCTGACTTGGGATACGGATGACGAGTATTTGAACCGGGTCCGCCATTTTGACGACGATACCCTGGCCAGTCACCTGATTCACCCCGAAGACGATCGGCTCTTTGCAATGCTGGAGGCGATGCAGCGGGGGTATTCCGTAAGTGAAGTGGCGGAATTGACCAAAATTCATCCCTATTTCCTGGAACGGCTGCATCACATCGTGGCCATGCTGAAAACCGTCGCGGACCAGGCGGGTGATACCGACACGCTCATGGCGGCCAAGCGACTGGGCTTGTCAGACCGGCGTATCGGCGAGTTATGGCAATTGCCGGCGGAACAGGTCCGGGCCCTGCGCCTGGAAGCCAAGATCGTCCCGCACTACAGTGTGTCGGGGACCAACGACGGCAATAATTTTGGTCCAGCAAAACTGTTCTTCAGTACTTACGGCGAAGCCGGTCAGCAGACCCCGATGCAAAAGGACGCAGTCCTCGTGATCGGCTCCGGCGCTTACCAGACCCGCCAAGGCCAGGAATTCGACTATGGTACCGTCCACGCTTTGAATGCCATTCACCGCAGCGGGTATGCCGCGATCCTGGTGAATTGCAATGCCCAAGCGGTCTCCACGGACCGGGACCACAGTGATCGGCTTTATTTTGAACCCTTAACGATTGAAGATATTCTCAATGTCGTGGACGCGGAAAAGCCGGTGGGGGTGCTTACCCAATTCGGCGGCAGTACCGCTGCCCGCTTCCAAACGGCACTCAGTCAAGCTGGCGTCAAACTGTTTGACAGCCCGTTGACCGAACTGCCTAAGCAGTCGCTGAAAGAGCCGCTGAAGCTGCGCGGCCGGATTCCCACGGATCCGGCGCACGTTACGGCGCAAGCGGCCCAGATCGGCTATCCGCTGTGGGTCAGTCCGTCGAAGCGGCACTTTGCTGCCCACGCCCACTTCATCACCAGTGCAGAAATGCTGGCCCAGTTTTTGACCAGTGCCCATTTAGCCGATGATCAAGTCATTCGCTTGCAGCCGTATACGGATGGCGCGACGTACGAAGTCTTCGGTTTGAAAGACGATACTGACGCTTATGTCGCTGGTATTGTGGAGCACCTGTGGGCGCAAAATGCCAACGTCGACCACATGCTGTCGGTCTTTCCCACCAATCACCTGTCCGCCGCCCAGCGAACAGCGCTGGCCCAAGTGGCAACAACAGACCTGGGCCAGATGAATGCCCGGGGTGTGGTGCAGCTGACGTATATCTGGCAGCGGGATCATTTCCGGCGGCTCTACGTCCAGACCATTGGCGGCGGCTCCCTGCCGTTCTTTGCTAAAGCCAGCGGGATTCCGCTAGTGGAGCTGGCCACGCGCATCTTCCTGGGCAACACCTTGAAGGAATTGCCATTACCGGAAATCACCCAGAAAAAGCGCCAAACCGTTTACGTCTGGGCGCCGGTATTCTCCGTGGCCAAACTGACCCAGCAGGCTGACGACTTGAATGTCACCACTTACCACACCGGGGAGGTCATGGGGAAGGCCGGCACCTTTGCCAAGGCTTACTACAAGACCTTGGCGGCGGGGAATAACCCATTCCCCAACCACGGCAACATTCTCTTCACCGTGGCCGACAGCGACAAGAGTCAGGCGCTGAAGCTGGCCCGGCGCTTCCGGGCGATCGGCTATCAGATCCAGGCCACACCGCACACGGCGAATTATTTCCAGGCCCACCATTTGCCGATCCAGCGGATTCAAAATAAGCACGCCGTCGCCCTGAGCATGGCCCCGCAGCATAATGCGGACGGCCCGCAGGCAATCGTGTACACCAACGACCCGATGGACGCGGCGTCGATCCGCGACACCGTCTTGATTCGCAATGTGACGCTGGTTCAGGGCATCCCGTTATTTACTGAACTGGATACCCTGGGGGCGCTGCTGAATGTGCTGGAATCCCAGCGTTTTGCCACGGTGCCCCAAGGTGCTGAGCCGGAAGCGGACGATGAGGATGACGAATAG
>SRR1151209_00030 hypothetical protein
ATGTTTCCTGGTTACTTGTCAGTTTTCTTCTTTGGTCTGACGGCGTTTTGTCTCTGGCGGGATCGGCGGGTCCGGCGGTATCTCTTTTCGACCGCCATGGCGGCGCTGACGCTGGGCTATACGGTGCTGCAATGGTATGCACTGTTTGCAGCGTTGGATAATGGGCTGGTCGTGGTGAATCAAAATTGGATCACGTACCTTGACTTGGCAGAAATCGTGGTCAGCGTCCTGCTGCTGGTCTATGTGTTGGTGCGGGCCGCGAAAATCGAACTGCCCAACGGGTTGGACGAACCCGCACGGAAAAAGAAGGTCTCATGA
>SRR1151209_00031 fibronectin-binding protein
ATGTCCTTTGACGGCATCTTCACCCGGGGAATGGTCAACGAACTCAATCGGACCATTGTCCCTGGCAAAATTACCAAGATTCAACAACCCTATGACAACGAAATCGTCCTGACGATTCGGGCGAATCGGAAGAACCATCCGCTGCTGCTGTCGGCGCATCCGACCTATGCGCGGATTCAAGTGACCGATATTCCCTACGTCAATCCCGATGTCCCGACAAAGTTTGCCATGACCCTGCGCAAATATCTGGACGGCGGCGTGGTGACAGGCATCAGTCAGGTTGAAAGCGACCGGCAGGTGCATATCCATTTCCGTTCCCGTAACGAGCTGGGTGATACCCAAGAATTATTACTCATCGTGGAGCTGATGGGTCGGCACTCGAACATCATGCTGGTGGAAAAAGACGGCGGTAAGATCCTTGATCTGATCCGCCATGTGTCGCCGGAGCAGAACCGATATCGGCTGCTCATGCCCCGCGCCACTTATGTTGCTCCGCCCCACGAAGATCGGCGGGACCCGCTGGCCGCGCAGGCGGACCTCAGCGGGCTGACGCGGGATCTGGACCGTAAGACCCTGCAAAGCACGTTTCAAGGTCTGGGCGCAGACACAGCGAGTGAATTAGTCGCGCGTTTAAAGGACAAACCCGCCGACCAGTGGGACTTTATCTGGTCCAATTTCTTTGCCCCGATCACCAATGATCAGCCGATGCCGACCATCGCGGAAACGGACCAGGGCAAAACCATTTTCACCCCCTTCGCCTACTCCTTAACGACCAAACCGGTGGCGCAGGCCGCGTCCCTGTCCGCCCTGCTGGATGATTATTATCGGGATAAAGCCCAGCGCGATCGGGTGCACGGCATGGCCAGCGACTTGCTGCGGGTGGTGAACAACACGCTGAACAAGGAAAAGACCAAGCTGGGCAAGCAGGAAAAGGAATTGGCGGCGACCGAAAAAGCCGATACGTATCGGGTAAAAGGCGAAGTGCTGACGACCTATCTGCATGAGGTGAAACGCGGGATGACAGAAATCACCCTGCCCAACTTCTATGCGGATAACGCCCCGCTGAAGATCAGTTTGTCGAATCAGCTCACCCCGTCCCGCAATGCCCAGAAGTATTTCACCCGGTACCAGAAGCTGAAGAACGCCGTCCAGTTCTTGAATACCCAAATCAAGCTGGCCAAGGAAGAAATCGACTATTTGGAGAACATCTTGAGCGAGATCCAATTAGCCGATCCAGGCGACCTCGGCGACATCAAGACGGAGCTGACCCAGCAGGGCTACTTACGGGAGAAGAAGGTCCGCGGGCGGAAAAAGGCCAAGCGCACGCCGCTGGGCAAACCGGAGAAGTTCTACGCTAGTGACGGCACTCAAATCCTAGTGGGAAAAAATAATTTGCAGAATGATCAGCTGACGCTGCACAAGGCGGCGAAGACCGATCACTGGCTGCACGTGAAGAACATCCCGGGCTCCCACGTGATCGTCCGCTCAGCCGACCCCAGCGATCAGACCTTGACGGAAGCGGCTGAAATCGCGGCTTATTATTCCAAGGCCCGCGGGTCCGCCAACGTGCCGGTGGATACCGTTGAGGTGAAGAAAATCCATAAGCCCAATGGTGCTAAACCGGGTTTCGTGATTTATGAAGGCCAGCAAACGCTGTACGTCAGGCCGAAGGAAAGCGACGTCCTGGCGCGGCGAAAGAAGCCGGAAACTGTTTAG
>SRR1151209_00032 membrane protein
ATGGAAAAGGAAACAGCCGGCAAGCCAGTCTACGCGCTGGGGGATCGTTTTGCGACCGCGTGTCTCATGACCGCCATTGGCGGTTTTCTCGATGCTTACACCTTTACCCAACACGGCGGAGTCTTTGCCAGTACCCAAACGGGCAATCTGGTGCTGTTTGCGATCAGTATCATGAACGGGCAATTTACTGCGGCGTTGCAGAAAATAGTGCCGGTGGGGTTGTTTTGCTGCGGCATTCTCAGCACCCATTGGGTCGAGCATCATTTGAACGGGACTGGTCGCAACTTCTGGCGGCTAGGCGTTATTCTGGTGGAAATTGTTATTTTTGTTGCGGTGGGTTTTCTGCCTACTCGGACCCCAGCAATATTGATTACCAGTGCCATTGCCTTCACCACCGCCCTGCAAATGACCGCCTTCCGGTCAATGAATGGGCTGGGCTATGCGAATATGTTCAGTACCGGTAATTTGCAAAAGGCGATGAACAATCTGTACAGCACGCTGGCCACGAGAAATCGCGCCGCCGGGGAAAAGTTTGGCCATTATGGCGGATTGGTCCTCTGTTTCGTCGCCGGTGCCCTCGTCTCCAGTCTCGCCGGCCGGTGGTTAACGACACGATCGATCTGGGTCGTGGCGGGGATTCTGGTAATATTTTCCACGGTTCAATTACGGTTGAGCTTGAGTGCGGAAATTTACTTAGACCGAAATCATTAG
>SRR1151209_00033 hypothetical protein
ATGAACCCCGCAACGATGCAAGAAATCGTGGTGTTCAATGGTGTTGTTGTGTTGATCATGATCCTCATAGTGATCGCGCTTTGGGCAAAAAATGTCCAGCGGATCCTGCGCGGACCGGTTTGGTGGGTCGTCCTCGCTGTATTTCTGCTATACTGGCTGGTCACTGGTGTCCGAGTGTATCTCAATCCGGTGCCGTCAGGGCTGGTACAAGTCGCAGGCATGGGCATGACTGCATTCTTTTCCATGTTTACCATACGTTTCCTCGGTCGACCAAGACAAGCAAAGTAA
>SRR1151209_00034 hypothetical protein
ATGTCAATCAACCCTGAAACCATGCAAGAAATTGCAGTGTTCAATTTTGTCGCCGTATTTTTCATATTGCTCAATCTAATCTCGTTTTGGGCACCAATTGTCCGGCGCGTCATGCGCGGGCCCGTTTGGTGGGTTGCTCTGGTTGCTTTTTTGCTGTACTGGATCGTTATTGGCGTGCGAGCGTATCTCAATCCGGTACCCTGGGGATTGGTCGTTGTCGTTGGTATGGGCGTAGCAACGTCCATGACATTGCTACAAATGCGCATCCGCGTTCGACCCAGAGAAGAAAAGTAA
>SRR1151209_00035 hypothetical protein
ATGAAAATTAAAGGCATGCTGCTGTTCTACGTGCATCGGTACTTACATAGTATTTATCTGATCCTGCCCTTGCTGTTGTGGTTTATTTTCCTGACCACGAATTATGCCATCGCCCCCCAGTACTTTGCTTCGGCCATCGGGGCCAATGCACTGGTCCTGGTACTTTTGATGACCTGGGTGGCTTACGCCGTGAACAGCATTATCAGCGACACCGCCCTGAGTATTGCTGTGGTCCAAGCCCGCTCCTGGTGGACGACCTATTGGGTCAAATGGCTCTTTTTTGCGCTGGTGGCGGGCCTGTTCAGCCTAATCGGCATTATTTTCCCGCTGGTCCGTTGGCTCGCCCCGGGCACCCCATTTTTCTTTGAACGCTTGACGGGTCAGCATTTCCTGGCCGCTTTTCTGCTCATGTGGACCATTTCAATGCCCGGAATGGCCATTGGTAATTTCTTCAATCGGCACGTGGTGGCGAATCGGTATTTTGCCGTCCTGCTGACGATTCTGGTGCTGATCTGCGGCTATATTACCCCTACCCTGGCGGCGGACTATGCGTGGTGGCACTGGGTGAGCTGGCTGCTGCCGCCGACCGGCGAGGCGCTGACGGTGTTGAATCAGTTTGCGTCCCTGAGCAACGGGCAAGCGCTGTTGTGGGCGGGCATTCAGTTGTTGTATGCCGGCGTGGTGGCGGGGGTTTCTTATGCGTGGCAGCAACGGCGGAAAATGGCATAA
>SRR1151209_00036 ABC transporter ATP-binding protein
TTGACTACTGTGCTGACTGTTTCCCATATTGCCCACCAATTCAACCGTCGGCCGCTGTTGCAGGATGTGTCTTTTACCATCCAGGCCGGCGAGGCCGTGATGCTCACCGGGGCCAACGGCTCGGGCAAATCCACGCTGCTGCGGATCATGGCCGGGTTGTTGCGGCCGCGCAACGGGACGGTGACGTTTGCGCCAGATCTGCTCTGGCAATGGTGTCCGGATAGCTTGTCCCGAGAAGCCTTGCCGACCCGGACTTTTCTGACCGAGTGCGGTCAGATTGGCGGCCTGCCCGCCGCGGACCGGCAGACCCAAATCACCGCGCTGGCGGCAGAGTTTGCTTTGACCCCCTATTTGGCGACCCCCTTGCGCAATTTGTCCAAGGGGAATCGGCAAAAGGCAGCGGTGATTCAAGCGCTGCTGGGCAACCCCGGGCTGATTCTGATGGATGAACCGTTGTCCGGGATCGACAAAGATGCCCGGCCGAAGATCATCACCTATTTGCAGCGGTTCCGCCAAGCCGGCGGCGCCCTGGTGGTGATCGCCCATGAACCCGCGGTGATTCAGCAGCTGGGTACCACAGTGTACCGGTTGGCGGAGGGCCAATTACGACCAGAAAATGGGCCGACTACTCAGCCCACCTACGTGATTCGGTTCGCCCCAACCGACCAAGCACAACCCCTGCCAGCGGATTGGGCGCCGGATCAGCTGCGGGTGCCCGCCGCCAACCATGACCAAGTGCTGGCGACGCTGATTCAGCGCGGTTACACGATCCAGGAGGTGCACCATGAAAATTAA
>SRR1151209_00037 serine hydrolase
ATGATGAAAAAGAAAACGATGCGCGTTATGACACTGTCACTCCTGGCCTTACTGGCGATTGCCCCAATAGCGGGTCAAAACCGGCCAGTCCACGCGGCGACCATCACGACAGCGGCAGGGACGATCACGCCGTTGCCGGCCAATGATGTCATCGGGATCAACAAACCCGCTATTTTATACACCGGCTTTGGCGCCGCTAAGCAAAGTACCGGCCGCACGCTGGCCGTGGGGACGTCCTGGAAGACTTGGAACAAGGCCGAAGCAGCCGGTACCACGTGGTACGAAGTGGCCAATAACCAATGGGTAGATGGGGCCGATGTGGGTGCCCTGCCGCAGACGAGTACGCAATCTTTCAAAGGCACCGTTCAACTTAAAAATAACGAACCCCTGTGGATCGGTTTGCAGGGCAGTTACGCTGGCCGCTGGCTGAATCAAGGGTCGCGCTGGCAGGCATTTTCCATCGCCACCACCAGCGATGGCCAGCACTGGTACAACTTGGGCGGCAACCAGTGGGTGAACGCCAAGGCCGTTGCAGTGGACCAGAGCTACGCCCAGCAAAATGGAACGGCCAGTGTGGATCTGTTAAACCAGAGTGCCAATGATCAGCTGTATAATCGGTTAATGAGCGAGCAGTTCAATGGGACTTTACTGCTGGTGCGCAACGGACAGGTGATTTTCCACGGCGCCTATGGTATGGCTGATGCAGCCGCTGCCCGGGCGAATACCGTGCAATCCCTATACCAGATTGCCTCAGTGGAGAAGTCCTTGACCGGAGTGCTGATCGCCCAAGCGGTTGGTGACGGTCAGCTCAGTTACACGGATAACATCAATCAATACTTGCCTGACGTCCCCGCTTCATACAACATTACGATCCGTGATCTGTTGGATATGCGTTCTGGACTGACCATGACTGACGATGTGCCGACTGATGTTTTGACCGACGCTCAGGTTGTGCAGCGGGCGATTTCACTCATGCAATACGATCCCAGCCAGCACGGCGTCTCCAATTACCAGGGGGTAAACTACTGGCTGCTGACGGGTATCTTGGAACAGGTCACCGGCCAAAGCTACGAGCAGCTGGTCCAAGACCGGCTCTTCAAGCCGCTGGGTCTTGGAGCCGACCAAGCAGGCTTTGCTTGGGATATGGCCAACCAGCCCAACCACACCGTCAGCTACGTCACCGAAACCGGCTATGACCGCACGGATGACGAGACCTTGGCCGACATGCACAGCGAACTGGGCACCGGCAACATTTATATGACCTCTTTCGCCCTGTATAAGCTGGAACAAGCCATTACTCAGGGCAAAATCATCAGCCAGCAAGCCTTATCCGACCTGTGGACGGCGACCGACGGCACTTACCGCGGCGGCCTGTACAATGACGCTGATCATTATTATTCCCATGGGGTCAAAGCCTCCCAGGAGACTATTTTCTTAATGAGCCGGGACGGCAACACCGCGGTGGTCTATATCGACAACCGGGACTTCGACATTGATAATGCCGCCAGCCGGGGCGAATGGTATTGGCAGTTCGTCAACAACGCCGGTTTGCGTTAA
>SRR1151209_00038 nucleotide pyrophosphatase
GTGGGGAATCGTAAACAAAAACTGGTCGTGGTGTCCCTGGATGCGATGGGTGCTGATGATCTTAAGCCTGAGGCGTTACAAGATCTGCCCAATTTGCGGGCACTGATTGCGAGCGGGACGCATGTGCAAAATGTCCGAGGCATTTACCCGACATTGACCTATCCGTCCCATACCAGCATCATTACCGGCATGTATCCGCGCACGCACGGTATCGTGAATAATACTAAGATCCAGCCAGAGCGGCTGTCGCCGGACTGGTATTGGTACCGCAAGGACGTCCACGCCACACCGCTGTATCAGCTGGCCCATGAAGCGGGGATGACGACGGCGGCCTTTTTGTGGCCCGTCACGGCCCGCAGCGGGATCGACTACAATATCGCCGAGATTTTCCCTAATCGAATCTGGACCAACCAGGTGCTGATTTCCCTGTGGGCCAGTTCGCCGCTGTTTATCCTGCGGTTGAATGCAAAATATGGGAAGTTGCGGGACGGCATTCACCAGCCCCAGCTGGATGACTTCGTCACCGCCTCCGCGGTGGACACCATCGTCCGCAAGCAGCCGGATCTGACCATGATCCACCTGGTGGACATGGACTCCCAGCGCCACGCCCATGGGGTATTGTCCCGGGAAGCCCTGGCTGCCCGCAAGCGGCTAGATACGCGACTGGGTCGGATCATTCAAGCAACCAAGGACACTCACACGTACGCCAACACCACTTTTGCTGTTCTTGGCGATCATTACCAGATCGACGTGCATACGATGATCCGGCTTAACGCGCTGTTCCGAGCTAAGGGCTGGCAGCGGGCGACGCCGGAGGGCATGATTGCCAAGGACTGGCGGGTTTTGGCCAAGTCGGCGGACGGGTCCACCTACGTTTATGTCCGCGACCGCAATGCCCAGCTGGACAAAGAGATTGCCGACTTGATCGCACCGGTCCCGGGCATTGAGCACGTCTATTCTGCCGGGGCTGCAGCCGATTTCGGGGCCGATCCCGGCTGCGCTTTTCTCGTCGAAGCCAAACGCGGCTTCTACTTCATTGACGACGCCAACGGCGCGATCACTGAAGACGTGGACCCCAACGACATCGGCCAGCCGGAGCGCTACCGGGCTGTTCATGGCTATTCGCCGTTCAAGGACGATTACGCCACGACCCTGATCCTTAACGGTCCCGGCATCAAGTCCGGCTTCACGATTCCCAGCGCCAAGCTGGTGGATGAAGGCCCCACTTTTGCCCACGTTTTGGGGCTGCGTTATCCCTATCCCACGGATGGGGACGCATTGCTAGACGCGTTTGATAAGTAA
>SRR1151209_00039 DegV family protein
ATGCGCATCGCCATCGTAACCGATAGTACCGCATATTTAACTGATGAAGAGGTGGCGCGCTACCATATCTCAGTCGTTCCTATTCCCGTCATTTTGGATGGACAAGTGTACGACGAAGGCGTGACGATTGATTCGCCCACTTTCTATGCTAAAATGCGGACCAGTCAGTCTTTCCCCAGCACGTCCCAACCACCGCTGGGCGAAGTGACTAAACTGTATGAAAACTTAGCCAATGAAGGCTATGACACGATTCTTTCCATTCATTTGGCCAGTACGATCTCTGGCTTCTATAACACCTTGGTCGGTCTGGCGCCGACGCTCACTAATGTCCGGCTGGTGCCTTACGATTCCCACATCACGGTCAAGCTGATGGGCTACCTGGTCATCGCCGCCGCCCGCTTAGCCGCCGCGGGCAAGTCTCTGGACGAGATTTTGGCCAGCTTGGACAAGCTGCGCGCGACTATGGATGAAGTTTTCATCGTCAACGACCTGCAAAATCTGGTCCGTGGCGGCCGGCTGTCCAACGCCTCGGCCTTCATCGGCGGGATGCTGAAGATCAAGCCGCTGCTGACGTTCAATGATGAGGATAAGATCGTCGCCTTTGAAAAAGTCCGCTCGATCAAAAAGGCTTATAAGCGAGCCGAAACGATCTTCAGCGAACGCATCGCCGATGTGGACTATCCTGTCCGCTGTCTGGTGATCCACGCCAACGACCCGGAAGAGGGCAAACGCTGGTTGGCGGATCTGGAGCCGCGCTTCCCTAGGGTCGCCTTCGAGCTGAATGAATTCGGGCCGGTGATCGGCACCCACTTGGGCGAAAAGGCCATTGCCATCGCCTGGATGGCAGATGTTTTGAAAGTCACCAACTAA
>SRR1151209_00040 ABC transporter ATP-binding protein
ATGGCAGCAATTATTGAATTATCTGATGTTTATAAATCCTATGAAGTAACCCCAATTCTCACTGGCCTGTCGTTCTCCGTCGACCCCGGGACGATCGTCGGCTATATTGGTCCCAACGGTGCCGGCAAGAGTACCACGGTGAAGATGATATTAGGTCTGACTAAAGTGGACCGGGGGACAATTTCCGTCTTTGGCCAAGAGATCCATCCCGGGGACACCGACTATAAGAAACGCATCGGGTATGTGCCAGAAAGCGCCGATGTTTTTGACGTGCTCACAGCTAAAGAGTACCTCGGTTTTGTTGGCCAACTGTACGGTATGCCCCAGGCCGACGCGGAAGCGAAGGCCAGTGAATTATTGACGATCGTCGGGATGAAGAGTTCTATTGATGCCCGGATCAGCGGCTTTTCCAAGGGGATGCGCCAAATGGTCTTGATCATCGCCAGTCTGCTGCATAATCCGGACTTGTTATTCTGGGATGAACCGTTGAATGGCCTGGATGCCAATTCAGTCTTGATCATTGAAGAAGTCCTTCAACGATTGCGGGATTCAGGGAAGACCATTTTCTATTCTTCCCATATTCTGGATGTTGTGCAGAAAGTGTCCGATCGGATTCTATTGCTGAACGATGGCAAGGTCATCGCCAACGGGACCTTCGCTGAATTGAACGCCGAAAAGGACCAGACCTTGCAGGAACTGTTCAATGAACTCACCGGCTTCTCCGAACACGGACAGAAGGCGGCGGACTTCGTGAACGTCATTGAAGCGGGGTGA
>SRR1151209_00041 ABC transporter permease protein
ATGAATCTATTTAAGAAGAAAAACGAGTTGGATGACGGCAGTACGCCGAATGAACCGGCACCGGATACGCCGGATGAATTGCTGAGTAATTCTCGGTGGTTGAAGTTTTTTGACTTGTTCAAAGGATTCTTGACCCGAGTGGGGGTGGATTATCCGCAGTTTCGGTTGATTGTTGGGTACAAACTGTATATGGACGCCGTTGATCCTAGTTTCATGAGCACTTTGGATAATGGCCGCCGGCGGGCGGGGAAAAATGCGTTCTTTCGTGGATTGTGGGTCTACGCACTAGTCAGTTTGATCCTAATCATGTTTATCGGCCAATTCCCTAAGAACCCAGTGGTGGGTCTGGGCACTGCGATGTTGTTTTATACGTTCATGTACATGACTGTCCTCGTCCAAGCCTTCTCTGGCAGCCTGTTGGACGTACGCGATGTGGGGATATTAGAAACCCGGGGCGTGAGTGAAAAAACACGCTCGGCCGCGCAGACAGCACATATTTTGGTTTATGTGCTGTCCCTATTTATCGCGATGATGACCGTCCCCATCGTCTCCTCATTCTTCTTCATGGGTATTCCTGACGGGGTGATTTTCTTAGTCAGTTCTGTCGTGCTCATGCTGGTGAACTATGTGGTGTCGATTGGCCTGTATGCTGTTGTCCTGCACTTCTTCCGGGGTGAACGGTTGAAGAACATTCTCAGCATGATTCAGATCATCATCATTGTTCTGTCCGTCTTCATGTATCAGTTGCCGAATATCATGACTCAGTTGTCTGCCCATGGCGGCCTGAGTATGAATCGGCCCATGCAGTTTGCCTGGTTCATGGCCTTGATTTATCCATTCTGGTTCACTGGGCCGAATGCCTGGCTGCAAACACAACAATTCAACGCGGGTGGTATTCTGACGATTTTGATGCTCGCGGCAATGATTATCAGCTACTTTGTTTACGCTCCCGCCATGCGGCGCTTGACGAACAACTTGAGCAAGCTTAGCGAGAGCGGGGAAGAACCAGTGCATTCCGGCATCTTCTTCCGCGCGATGCGCCGGCTTGTCCCCCAGGATAAGGATCAGCGCACGTTCTTTACCCTCAGTTGGCGGATGATGCAGGCGGATGGGGATTATAAGATGCGGGTATACCCGCAGATGGCCATTGGCATTGTCATGATCATCGTCGTATTGGTCCCGACCATCAGCAACTCGGGCAAGCAAGCTGACATCCTGTCGGTTATCCAGAACAACTTTGTTTGGAGCGTGGCGCCCTTGTTTTGTACCATCGGCATCGTGACGGCGATATACTTCCTGCGCTTCAGCAAAAATCCATCCGCGATGAAATTGTTTGCGACCATCCCGGCGTTCAATAAAAGCGTCTTGTATCGGGAGGCCGTGCGCACAGTCTTCGTCCGGTTGGCGGCGCCGCTCATTATTATCGTGGGGTTGCTCACGCTGTTCTTTTTGCCGCCGTGGAAAGTGCTGGCCAACATTCTGGTCGGTCTGGGGTTAGGTTTGCTGATTACGATTATTAACGGTGCTTTGATGCAGGGCACAGCCCCTTACAGTACCGTCTTTCAAGCCGGGCAAGTGAACTCTGGGGCCACTCTTGGCGGAGTGCTGATTGCCATGGTCGTCGCTACGGTTGGCGGTTTCGCCATTGTATTCCTGCCGTGGTGGCTCACCTTGATTGCTGGCGTCATTATCCTCGTCGGCAGCTGGTTCATCCTGAACCACAGCTACAACAATGTGCACTTCACCTTACCGGGAGAAACCGATTTCGAATAG
>SRR1151209_00042 ABC transporter permease protein
ATGATGAATCTGTTCAAGAGAAAGCCGGATCCTGCCGGCGGCAATACGCCGCTGCCAGACACCCCAGCGGATCTGTTCATTCATTCCCGCTGGCTGCAAGTTTTTGACCGTTTCCGCGGACTGCTGATCCGGTTGGGTATCAATTATCCGCAATTTCGGCTGATTCTGGGTTACAAACTGTACATGGACGCGGTGGACCCCAACTTTATGACGACGCTGACCAATGGCCGCCGGCGGGCGGGAAAGAATGCGTTTCTTCGCGGCTTATGGATCTACGCGTTGGTGAGTCTATTACTGACGGCAGTGATAGTCGCTATGCCAGGCAATCCAGTGCTGATTTTGGGGGCGGCTTTGCTCTATTATTCTACGATGTACATGACCGTCCTGGTTCAAGCTTTCTCCGGCAGCCTGCTGGATGTCCGGGATGTGGCGATCTTGGACACCCGCGGCGTGGGCGAAAGGACTAGGTCTGCAGCGCAGACCGCGCATATTCTGGTGTACGTCCTGTCCCTGTTTGCTGCTCTGATGGCAATTCCGATTGTCGGTTCGTTTTACTCACTCGGGGTGCTCGGCGGGATCCTATTCTTAGTCAGCGCGCTCGTTTTGCTGGTGGTCAATTATGTCCTGTCCATCGGCATCTATGCCGTGATACTGCGGTTCTTTCACGGTGAGCGATTGAAGAACATCTTGAGTATGATCCAGATCGCCATCCTGATCATTTCGGTGGCCCTGCCCCAAGTAGTCAATATCATTACGCAGCTCAGCAGCCGCGGAGCCGTAGCGGCGGTCGTGAAGGCGAGCGGGTTCCACTGGTACATGGCCATCGTTTACCCATTCTGGTTCGCTGGTCCCAATGGGTGGTTGGCCAGCGGCCAGGCGAACCCTGGCGGCATCCTGACTGGGCTCATGCTGGCGGCCTTCATACTCAGTCTTTTCGCCTATGGCCCAGCGATGCGCCGGCTCACCACGAACCTGAGCAAACTCAATGAAGAAAGTATCGAACCAGCCCACACCGGGTGGTTCTTCCGGCTGGTACGCCAGTTAGTGCCACGGAGCCGCGATCAGCGGACCTTTTTCACCCTGAGCTGGCGCATGATGCAGGCTAACGCCGATTACAAGATGCGAGTCTATCCGCAACTGGCCAGTGGTTTGGTAATTATGATCCCGCTGGCGCTGATTCCTTTTGGTCTGGCCGACGGCACCCACCGCAATTTCTGGACCACGCTGCAGGGCAGCTGGACGTGGAGTTTCTTGCAAGTCTATGCCATCGCTGAACTGCCCGTCGCCGTGTACTTCCTGCGCTTCAGTCAGCATCCAGAAGCGATGAAGATCTTTGCGACGCTGCCGCGTTTTGACAAATCGGTGCTTTATCGGGAAGCCATCCGGACCGTGTATCTACGCTTGGCGGTCCCGTTGATTCTCGTTTTAGGTCTGATCACCTTAATCTTTTTACCGCCGCTGCATGTATTGAGCAATACGATTCTGGCCCTCGGAGTCGGGTTGCTCATGACCCTGCTCAACGGGATGTTTATGTCCGGCACAGCGCCGTATAGCCAAGTTTTCCAAACCGGCCAAGTGAATACCGGGGCGACATGGGCCGCCTCGCTGCTGGACTTTATCATTGCCTTGGCCGCCGGTCTGCTCGGCGCCTTCGTGCCCTGGTGGGCGGTGCTCATCGTGGGGACAGTGATTCTGGCTGGCGGCTGGGTGGTATTGGGCCGCAGTTTCAAAGACGCTAACTTCATCTTGCCGGGTGAAGCAGATTTTAATTAA
>SRR1151209_00043 major facilitator superfamily transporter
ATGACCGCCGTCTTTATTGCCACCTTCATGACCAGTGTGGAAGTGACCATCGTCACTACCGCCTTGCCGTCGATCATCAGTGCCTTGCATGGTCTGGCGATGCAGAGCTGGATCATGAGTGCGTATCTGCTGACGACGGCGATCACGACCCCGATTTACGGCAAGCTGGCGGATGCCTGGGGCCGGCGGCGGATCTTCCAGTGGGGCGTGGTGGTCTTCACGGTCGGGTCCTTTCTATCCGGTCTGGCCCCCAGTATCAGTTGGCTGATTGCCGCCCGGGGAATCCAGGGCATCGGCGCGGGGGCAGTGATGCCGCTGACGTTCACAATCATTGCCGATTACTATGACTTCAGCGAACGGGCTAAGGTCCTGGCGCTGAATAACACCGCCTGGGGGCTGTCGGCTTTGGTAGGGCCGCTGATCGGCGGTTTTCTAGTCGATACGCTGTCCTGGCACTGGGTATTCTTCGTCAATGTACCGCTGGGCATTCTGGTGGCATTCTTGATTCAAGTCGGCTATCGGGAGAAGCGGCCGGCCTCGGTTCAGCTGACCATCGACTGGCCTGGCATCCTCTGGCTCACCAGCGGTTTGGTCACTTTACTGCTGGGAATCCAATTCCTGCTGCGGGCCCCTTGGCTGGCCGGTCTCCTGCTGGTCATCGCGGCCGTCAGCCTAGTATTCTTCGGGCGTACAGAAAAGCGCCAGCGTGATCCGCTGATTGCGCCGACCATGTTTGCTAACCGGACGTTTGCCATTCAAATCGCCACGGCCATGATCCTCAGCGGGGTTTTGATCGGTTATCAAGTGTATTTCCCCATCTGGCTGCAATCCCTGTACCGGATCGGCGCGACGGAGGCGGGCTTCGTCGTTACTTCCAGTTCCGTGATGTGGCTGACGTCGTCTTTCTTTGTCGGACCGCTGATCGCGCGGTTTGTGCCGAAACGGATCAGCCTGGTGATCATCACCGTCTTGCTGCTGAGTTATGCCAGTCTAACGCTCGCCGGGCTGCATTTTCCGATGTGGGTGTTCTACGTCATTGCCATGATCAACGGCACCGGCATGGGCATCGTCATTTCGATGAATACGATCCTCAGTCAGCATATGGTGCCGGCCGCGATGGTCGGGTCAGCAACAAGTGTGCTCACCCTCGGCCGGTCGCTGGGCCAGACGGTGATGACTGGGGTGTACGGCGCGGTATTGAATCTGGTGATCCGGTTCACCCGCGGGAATATTCCCTTTGCCCAAATCAATGGGGTGATCAGCGCCAAGGGCAGCCGGGTCCGGCCCACGCTGGCGATGGATCAGGTGATTCTGACCAGTCTGCACGGCGTCTTCTGGGTCGTCGTGATCATGCTGGCTGTGGTCTGGTGGATCAACTGGCGGGATCCATTGCATACCGTTATTGATCAAAATCAGGCGCATTAA
>SRR1151209_00044 alpha-amylase
ATGGCAGAAACAATTCTGCAGGCGTTCGAATGGTATTTGCCCAACGATGGTAAGCACTGGCAGCGTCTCGCCCACCAGGCAAAACAGATCAAAGCCATGGGCTTCACCGCTGTGTGGCTGCCCCCCGCCTCTAAATGTGCCGCCGGCATCGACGACGTGGGTTATGGCACCTACGACTTGTATGACCTCGGCGAATTTGATCAAAAAGGAACGGTGCGCACTAAATACGGTACGAAAGACGAGTATTTGGCCGCCATCAAAGCCCTCCACGAAGCCGGTTTGAAAGTCATTCCCGACATCGTGGTGGATCACTTCATGGGTGCCGACGAGGCAGAAAATGTCAAGGCTAAGAGCTATTCCTTTGACGACCGGTTGAAGCCCACCGGCGACACTCAGGAAATCAAAGCCTGGACCAAGTTCACCTTCCCCGGCCGGCACGGCAAGTACAACGATTACGTGTGGACCTGGAAGAACTTCACCGGCATCGACTACGATGGCCGCAGCAAGAATCACGCCATCTATAAGTTCCACACCAAAGAGTGGGAACCTAAGGTGGATTCCGAAAACGGCAACTATGACTATTTAATGGGTTGCGACTTGGATGTGAGCAATCCCGAAACTAAGGAACAGTTGGACAAATGGGGTAAATGGTTCCAGGAACAGACCCAGGCGGACGGTTATCGGCTGGATGCGGTCAAGCATATCAAGTTCGATGCCTTCGTTGATTGGCTGCTCCACCGCCGGGCCGAACACGACAACCATCTTTTCGTGGTCGGCGAATACTGGTCCGACGATATCAACGCCCTGAATAATTACTTGGACAACTCCGGCAATATCATCAGCCTGTTTGATGTGCCCCTGCACTTCAATTTGTACGAAGCCGCCACCACCATGGGCAAGTACGATATGCGCCATATCTTTGACCATACCTTAGTCAAAGACCGGCCGGACTTCGCCGTCACCTTCGTGGACAACCATGACACCCAAGTCGGCCAGAGCTTGGAGTCTTGGGTTGACGGCTGGTTCAAGCTCCACGCCTATGCGCTGATTCTGCTGCGCAGTGCTGGTATCCCCACTGTCTTCTGGGGCGACCTGTTTGGTATCCCGGCGAAGGATACCGCGCCGGTGGGCCAAGGGTTAGTCCGGATGCTGAAGATTCGCGAGTACCTCGCCTATGGCCGCATGGTGGACTACTTAGACGACCCGAACATCATTGGCTGGACGCGGACTGGCGATTTTGACCACGACCTGTCCGGTTACGCGGTGATCATGACCAACCAGCAAGGCGGTGAAAAGAAAATGACTGTCTCCGCCGTCCATGCCGGCCAAACTTTCGTGGACATGCTGGGCAACAATGACGCCAAGGTCAAGTTGGACGAAAACGGCGTCGGCACCTTCCCAGTGAGTGACGGCCAAGTGTCTGTCTACGTGAACGAAGACGTTGTCGCTGGTCTGGAAGCCGAAGAGCAAATGAATTAA
>SRR1151209_00045 NUDIX family hydrolase
GTGTTACCGCAATTAACCAATCAGGGCAAGATTCTCAGTGAAAAGTCTGTATTTAAGGGCCGTATTTTCTCCGTCAGCCAGAGGCAGATTCAGACACCGGACGGATTGACGGTGGAACGGGACGTCGTGACCCATATTCCGGCGGTGGTCATTCTGGCCCCGACCCCAGACCGGCAGCAGGCTTTGCTGAATGTGGAGTACCGGGCCGGGATCAACGCGGAAAGTTACTCCTTGCCGGCGGGGCTGCTTGATCCGGGTGAAACGCCGCTGCAAGCAGCCGTGCGGGAGACCAAGGAAGAGACCGGCTATACGCTGACCCAACCCCAAGCGATGACTCAGGTCAGTACCAGCGAGGGCTTCAGCAGTGAGACCAATACGTTGGCCTGGGGCATTATTGACCCCGCCGAACGCGGTCAGCAGCACTTTGACCACGATGAATTCGTGAACTCCAAGCTGGTGCCTTTTGCCGATATCGTCGAAGCCGTCAAGAACGGTACGATCCATGCCGGCCAGGCGGTGGCGGCGGTCACTTATTACTTAAGCTTTATTCAGAAATGA
>SRR1151209_00046 aldehyde oxidoreductase
ATGCAAGATGCCAAGTTTACGCCACCATTATTTCCCATCGGTCTGGGATCCTGGCACATCGGCGATGACCCGGAGGCGGCGGACCATAACGCTCAAACCGTACGCTTTGCTCTGGATCACGGGGTTAACGTTCTGGACACCGCGGAGATGTACGGTGATGGGGCGTCCGAAACGGTCGTTGGCCGGGGGATGGCTGGTGTGGACCGGGACAAGGTCTTTCTCATCTCGAAATTCTATCCGTGGCATGCTTCGGCCCGCGACCTGCCCAGAGCACTGGAAGGCTCGCTGCGCCGGCTGAATACTGATTACTTAGATCTCTACTTGCTCCATTGGCCCGGTCAGGTACCCCTTGCTGAGACGATCAAGACTTTGCAAGATTTGCAACGCCAAGGGCTGATCAAACAATATGGGGTGTCAAACTTCGATGCCGCCGCCATGCAGGAATTGTTCCGGGTACCCGGCGGATCTGAAGTCCAGTATAACGAAGATTTGTATCACCTGGGTAGTCGGGGGATTGAATATGACCTGCTGCCCTGGCAGCGGCAGCATGGTGTGCGGCTGATTGCCTATTCGCCTCTGGCCCATGATTGGCAGACACGGCAAAAGATTACCGGTAAGGAGACCTTGCGAGCGGTGGCCAAGGCTCACGGGGCAACACCGTTCCAAATCATGCTGGCTTGGGCGATCCGGGATGGGCAAACCATTGCCATCCCAGAATCCACGAATCCGGATCATGTGGCGACAAATATTGCTGCGGCAAAAATCACACTGACGAAACAGGATCTGGCCGCGCTGGATCACGCTTTCCCCGGACCAACGCAACCGGAAGCACTGGACGTTCTGTGA
>SRR1151209_00047 deoxyadenosine kinase
GTGACAGTGTTAGTTATGGCTGGTGTGATCGGCAGCGGGAAGAGTTCGTTGACCCAGATCGTCGCCGATCGATTGGGTACGCAACCGTTCTATGAGAGTGTGGATAATAATCCCGTACTGCCGTTGTTTTACAAAGGTAATAAAATCGCCGAAGAGAAACGGGCGGCAGGTGATTTGGAGGCCCGCAATCCCTATGCGTTTTTGCTGCAGATCTACTTCCTGAATACGCGCTTCCATTCGATCAAGGCAGCCTTGACCGACGACAACAATGTCTTGGATCGGTCAATCTATGAAGACGCTATTTTCATGAAGATGAATACGGACAACGGCAACGCCACTGAGGAAGAGTACCTGATCTACAAGGATCTCTTAAATAATATGATGGAAGAACTCAAGGGTCTGCCTAAGAAGGCCCCGGATCTGCTCATCGACATTCACGTCAGCTACGAAACGATGGTAGAGCGAATCACCAAGCGTGGGCGGCCGTATGAACAGATTACGACCGATCCGTCCCTGACGGACTATTACCAGACGCTGATTCAGTATTACCAAACCTGGTATGCCAACTACGACAAGAGTCCGAAGATGCAGATCGACGGTGATCGCTATGATTTTGTCAGCAATCCCGCTGATCGGGCGGCGGTGATGGAGCAGATCACCAGCAAACTGCATGCAGTCCGAGGCGACATGAACGCCACGGCTTAG
>SRR1151209_00048 haloacid dehalogenase
ATGCAGGATATACGGCTGATTGCCACGGACATGGACCATACATTATTGACAGAAAAGGGGCAGCTGCCGCCGCAAATGGGATCTTATATCGACCGTCTGACCGATGCCGGCATCCTCTTCGCCATTGCCAGCGGTCGGCCCATCTATACGCTGCGCAAGCTTTTTGCGGCCAGCAAAGGGAAAATGGCCTTTATCTGCGATAACGGCGGGTCGATTTATCTCCACGGCCAAAATATCTACAAATCGCTGATCCCGGTTAAGGAATACCAGGAAATGGTCGGCTATGTGCTGGACGATACCGATGGCCGGCCCATCGTGTGCGGTCTGGATGCCGCGTATATTCCGAAAGAAGACGCGCGGTTTGTACCGGTGTACAAGACTTTCTATGCCAATGTTAAATTGGTGGACGATATCCGCCATTTGGATGTGGAAGCCAACAAGTTTACTATTTACTTCCCTAATTTGGACAGTGAGAAGCAGTACAAGGACGTCTTCGGTCCGGCTTTCGGCAATCGCTACTCCGTAGCGGTCAGCGACAACGATTGGATCGACATCATGAACTTCGGCGTCGACAAGGGCCGGGGCATGCGTATGTTAGGCAAAGAGCTGGGGATCAAGGCAAACCAAATGATGGCCTTTGGCGACTCCTTCAACGACGTGGAGATGCTGCAAACGGTGAAATACAGCTACCGGGTCGGCAACGCCAACCCCGGTATTTATCAGTACGCGGATTACGTCACGGGCACCAACGATGACTATGGGGTCCTGCAAGTGATCAAACAAGTCCTGGCCGCTCAGCGGCGGGGTTAG
>SRR1151209_00049 hypothetical protein
ATGCGAAAGAAAACAATTGGCTGGTTAGTCGGCATCGTTGTTGTCGTGCTGATCGTTTTAGGCGTTGGCGGGTATGCGGTCAACGGCAGTCGAACACGGCAGCTGGACAGCGCTATCAGCGCACTGCGCAGCAATAATGCGGCCAAGGTGCTGCCGTATTTGACCGTGGACGATAATGCCATGCCTTTAACCACGCGGAATATCAAACCGCTGCTGACCTATTTCCAGACGCACCCGGATCAATTGAACCGCCTGGCCCACGAGGCTCGGCGGGGGGATGGCGACGATGTACTGGATCTGGTGGAATTCGACCGGATCGGCCGCCGCTGGCTGGTTTATCCCCGTTACGGCTTCAAGCTCGAAGCGGTTCACCCGCGGCTGACCACGAATGGGACAACGACCCAAGTTCGAGTCAACGGCCGGTTATTGACGACAGTCCAGGGAACGGTTCGGGGTCAGCGAATCGGGCCGCTGCTGCCCGGGCGCTACACCTTTACCGCCAAGGACACTCAAGGCGCTGGCCGCACCGTGGTGAAAGATTATGTTAACTCGGATGATCCAGAACTGAATTTAACATTCCAAGCCAACCAACGGCCAGCTAGCGGGAGCGGCACGACCGCCACGGCGCTGCCAACGACGAAAGAGGCTGATAACCTGATCGAAGATGCCTTTGATGAAATCGAAGACGTCAGCAATGGTGATTTGACCCAAAATAATCAGCAGCTGGACGTGATCTTCGTTAACGGTGAACAGAACAAGGCTTACCAGACTGTTCTGCAGCAGGCGAAGGAATACATTGGCCAACAGCACGTGGGCGAATTGAATCTCGACGTCCAAACCAACGGTGCGCAAATCGACACCAAGGGCGCGGTTACCTTAGCCTTCACCGCAGCGTTTGGCCCCGACGAAGACGATGATACCGATGCCCGAGTGCGGACGTACGACTATACCGCGACGCTGGTACATCAAAATAACCGCTGGCTGATTCAGGACATCAGCAAACCGACCCAAGTGGCCAATGCGGCCGACGATGATTAA
>SRR1151209_00050 hypothetical protein
ATGACACCAGTTCTTACCTTGGCGGCACCAATCGTCGCTAAAGAGCATTCCATCGGTGGAGCGATTGCCATTGGGGCATTGGTCGCCATCGTGTTGATCGTTTTCTTGATTATTAAGCTGTTCGGCATGATCCTACGGCATCCAATTATCAGTATTCTGCTGTTTGCCGTGGGCGGTTTCGCTATTTTCAAATTCGCTCTGGCCGGCATCATCGCTGTGGGCGCGCTGGCTGCTGTGGGCGCCGGAGCACTCTGGCTGAAGACCGGAGACCAGTAA
>SRR1151209_00051 inorganic pyrophosphatase
ATGATTATTGGACTTCATGTCCAAGTAAAAGTAGATCGTAAACTCGGCAGTACCCATCCAGAGCACGCCAACATTGTTTATCCGTTAAACTACGGGTATGTTGACGGCGTCGTGGGCGGGGATGGTGATCCCCAGGATGCCTATGTGCTGGATGTTGATCAGCCGGCGGATACCGTAGACGGCTATGTGGTGGCTATCATTCACCGCAAAGACGACAACGAAGACAAATGGGTCGTCGCGCCGAAATTTCGGCTGGTCACTGCCGCAGAAGTGCGCCAAGCGACCCAATTTCAAGAACAGTACTTCGACGATGATATTTGGCTGCTGCAATCGCATTAA
>SRR1151209_00052 hypothetical protein
ATGCCCATGCACGAATTTTCTGCCAAACCGTTTACCGTCACGCAAAGCGATGATTATCGCCAGTGGGAAGAAACCCGCTGGCGCATCGTGAACACCGAAACCGGTGAAGTCGTGGATGATGCCCAGGGATACGGTTATAAAACCGCACCAAAGGCATATGCGGCTTTTGGCTATAAACAAAAGCCCAAGAAGCACCGTAAAAAACCGTTGAAGTTGGCTAAGACGGTTCAGGCTTGGACGAACAAGCATTCTGATTTCAGCGAAGATTTGAGCGACTTAATTTTTCAGGCCTTAAAAGCTGGCAACTCTGGGCAAACGATCAGCCAACTGATCATGGATGCCTACACGAAATATGTGGCGACGCTGCCAGCAGCGGAGCAGCCAAAATTTTCTGGGGCTGATTTTCGCCGGCATTGGACCGCGTAA
>SRR1151209_00053 NUDIX family hydrolase
ATGTCAACTAAATTTCATCAAGCCTTTGGAGTATACGGTATACTTTCAGAAAATGGAAAACTGGCGGTCATTAAGAAAACCGGCGGCCCATACATCAACCGCTATGACTTGCCCGGTGGGACACCTGAAGACGGTGAAGAAATGGCCCATACCGTTGTTCGAGAAATCCAGGAAGAGACCGGTTTAACTGTCACCAAAGCCCATCAATTGGGCATTACAGGTTTCCGGTATCCCTGGCAATATGAGCACTGGCAGCTGAATCAGCATCGCTGTGTGTTTTATTGGATCGATACCTGGACCGGTCAGTTGGCTGATCAGGCAGCTCAATTTACTGGTCAGGATGCTTTAGGTGCTGTGTGGCTGCCGTTGGCTGAAATTAGTCTGACGACATGTTCGCCGTTGGTGGTCAAGGCCGCTGAAACAGTTCGTCAACATGGTCAATTTGATCCCACGGAACAAACTTTTACCGACTGGACCGTGCTAACGAAGCCTGTGTATTGA
>SRR1151209_00054 hypothetical protein
ATGGATAAACGCATCCCCCCGATTGTACGACCGGCCGCTATTGTATCGCTGATCTTGCTCGTGGCCGCCACAAACGTGGTGGTTGATACCTATAGTCCGGCCAGCATCCGGATTCGTCAAGAACAAAAACAAAAGAAGAGTTCAAGCAGCATTTCAGCCAGCACGAGCAGCGCGAGTACCAGCTCCCGCCCTGCCCCAGCCAGTTCCAGTTCTTCGGCGGATGAAAGCAGCAGCGCCAGCGATAACTCGGCAAGTTCCAGCAGTGATACATCGGCCAGCAACAATTCCAGTTCTTCGGCGTCATCGTCCAGTAATGATACTGATACGTCGGATGACACCAGCGGTGATACCACCACTAACAATGGTGCGACCAGTAATAGCGGCAACACTGACACAGACACGAATAACGGCACGACCACCGGCGGCACTAACACCAACAAAGCCAGTTCCAGCAGCAAGACGACAACCGATACCCAGAACAATACCGGCGGCACTGACCAGAATAAATAA
>SRR1151209_00055 hypothetical protein
ATGCTTACTCTGCTCGACACAGTTTCCCACATTTTAGGCTACTTCAACATCAACAACAAACCGCTGAACATGGCTTGGACCATTGCCGCCTTTCTTGGCGATGGTTACTTAGCCTATATTACTTTCCTCGCTTTCCGTAACGGGCTGTATGCCCGCGGCGCCATCTATTTGGCGCTGGTCTTGGTGTTCTTGTATTTCATTTACTTGAACTTCATGTACTATTTCACCAAGAAAACGGCAAAATTCGACATCTCGCCCAAGATTGCCAAGCTTTTACCCAGCGAAGAACAAACCGCTGAGCGGCGGCACAACACAGCCGTCCTGGGCAATGGCCTCTTTGATCCCAATGAGACCTTGCCCGCCCACATTTCGGCCACGCCGGATGAACAGGCCTTCTTCCAGCAGCTAATGACCACCCTGGGGCAAGATAATGTCTTGCCGCAGCTGCCCATCAACGCCGCTGGTCATCGGTCACTCCCCTACTTCACCCTGAGCTACACGCCCACCGGGGAGTTGCAGGTCATCGCTGGGACCAATCAGCTGACGGCCCAGCCCATCGGTAAAATCGATCGCGTTGGTTTTGGTAACGTCAATGATCTGGCAGACCAATATGATTTTGCCCTGGCTGAGTTGGCAATTCCCGAAGCTAAGAAAGACCATCCGGATCAGGTAGATTTGCCGGAATTGATTGTGTCCGTCGCTTACCAGCCTAAGCCCAAGACCATGAGCCGGGAAAAACGCAAGCACTAG
>SRR1151209_00056 LytR family transcriptional regulator
ATGGATCAACAAAACAACGACAACGACCAAAAACTGCCGCCACGCCGCAGTGATCATCAGGGGTCGAGTAAGCAGGGCAAAGTATGGAAGATTATTTTGCTTATCCTATTACTGCTTGTGACCGCTGGCGGTGCCTATGGGGTGCGAGTGGCGACGCAGGTGAAAGACTCCGCGGATAATACCTATGTACCCACTAAGAAGAAAACGCCCACGGTTGACTTAGCTGCTCAAAAGCCGTTTTCAATCCTCCTTTTAGGAGCGGATACTGGTACGGAGGGCCGCGACGGTTACCGCGGCAATTCGGACACGATGATTCTGGTCACCGTTGATCCGCAGCACAAGCAAACGACGATGTTTTCAATTCCTCGGGATACGGCGGCCCAGATCATCGGTGCCAAGTCGTATACATACCAGAAGATCAATTCCGCCTTCAATATTGGCGGGGCAACCATGGCGATGGACTCGGTTGAAAAACTGTTGAATGTGCCCATCAATTATTACGCTTTGATCGATATGGCCGGATTGAAGAAAATGGTGGATGCAGTGGGCGGCGTTGATGTGGATGTGCCGTTTTCCTTTGTCAGTACCGAAACAGGCAACCAGAAGTTCACGAAGGGCAAGATGCATTTGAACGGCGACATGGCGCTTGCCTACGCCCGCATGCGGAAGGAAGATGTTGAGGGTGACTTTGGCCGGCAGAAGCGGCAGCAGCAGGTGATTTCGGCCATTGCCGGCAACGTCATTTCCTTGAACAGTTTGACCCGCGTGCAAAGTATCCTGGATGCAGTCAGTGCGTCAGTACAAACGAATATCAAACTGAGTCAGCTGATCACGATGTACCAGAACTACCAAGGCGCGTTGAAGAATCTGAAGCAGGATGAGCTGAGCGGTATCGCGACGACCGTAAACGATAATGGTCAGGAAGTGGCCTATGTGGTCAACAAGACCAGTGAATTGCAGCGGGTCTCCGACAAGGCCCGGACGGCGCTGGGGTTGGAGAAGGAACCATTGAGCAATGAAGAAACGCGGCAAAACAGTCTGCAAACGCAATTTGATTGGAATTCTAAACTCGATCAGTTCTCGTATACGTTTTACCCGCAGAGCGGTAGTAATTAA
>SRR1151209_00057 1,4-dihydroxy-2-naphthoate octaprenyltransferase
TTGGGCATCCTGTATTGTCTTTGGAACCTGCCGGCAGCACCTAAGGATTGGGGCAGCTGGCTGATTTTCATCATCGCGGCCTTCCTGTTTAATATGGCGGTGGACGCCAATGATAATTATCAGGATTACCGGCGCGCATTGAAAAACGGTGCTGAGAAGTTCCGCTTGGAAACTAACGTGATCGGCACCCGCCACCTATCCCTGAGCCAAGTCGGCTGGCTGACGGTGGTCCTGGTGGCCGGTGGTGCCATGCTCGGTCTGTGGCTGGTGGCGCGGACCGGCTGGCCGCTGCTTTGGCTGGGTATTTTCTGCTTCCTGGTCGGTATTCTTTATGCGGCTGGTCCTTGGCCGATTGCCGGTCTGCCGGTGGGGGAATTCTTCTCCGGGTTCACCATGGGGACGATGATCATGCTGATTACCGTCTATGTCGGCGTCGGCGCCAGCCAGACGCTGACTGCGCCGACCTTGACCGGTGTCTTGCTAGCCAGCAGCCCCTTGGCCTTTGCCATTGGGGCACTGCTCCTGGCCAACAATATTGCCGATTGGCAGGAAGATCTTACCCTGCATCGGCATACCATCGTCTCGTACCTCGGCCAACGCGGCGGTCTGATTTTCTGGTATCTCTTGTACCTGGGGGCGGCCGGCGGCTTGATGGCCTCTGCCGCCCTGCATGTGCTGCCGCTGCTTTCATTGCTGGCACTGATTTGTGTCCCCAAGGTCGTCAAAAATTGTCGGGCTTTCACGGCGCTGCCGGAGAAGAAACCCAGCTTCCACTTAGCCGTCCAGAATTTAGCAATTATATCTCTGTGTGTGACGGTAGCCACCGGTCTGGGCGTTCTTTTCCGGTTCTGA
>SRR1151209_00058 geranylgeranyl pyrophosphate synthase
ATGAAGAGCAACCAAACCAAGCAGCCGGTGGACTTCACCGGGATTGCACCGGCCCTGACGACGGTTAAAGCAGCCCTAGCCGCCCAACAATTAGCCGTGCCGCAATACGCCGCTGACTACAACGCCGCCCTGCGGACCACGGGGAAAATGTGGCGGGCGGCGTTGACCATTCTCTTTGCCCAGTTAGCAGCCCCCGAGACGGATACTCTCCCGCCGACAGTCACCACTGGGGCGACGGCGATTGAGATGCTGCATCTGGCCACACTGATGCATGATGACGTGCTGGATGAAGCACCGATCCGCCGCCACCGGCCAACCTTGCAGATGAAGCACGGGAACCATGCGGCCATCTATTTAGGGGATGAATTGCTGGCGCGGTATTTCCGGCTGGTCACCGAGATTGCTCCGGACTTGGCCTTCACCCACTATCATGCCCGGGTGATGCAGCAGATTCTCACTGGCGAGCTGCAGCAGGCTGCTGAGGCCTATGATACCCAGGCCGGCATTGACACGTATATCGCCACGGTACGAGGCAAAACAGGGGCTCTCTTTGGGCTCGCAGCCAAGACCGGCGTCTGGCTGACCCAAGGTGCCCCCGACACTGCTGATACCAGCACCGCATTTGGCGAGAATCTGGGCATCACCTTTCAAATTCTAGATGACCTGAACGATTTTCGCCTGCAGCAAAACTCCGGCAAACCGAAACTGGGCGATTTAGAATCCGGGATCTATACGCTGCCCCTGCGCCTCGGGATGCGTGACTATCCCCAGCTGCAGGCCCTGCTTGTCGGGCCAGCGCCCGTCAGCGACATCATCGCCTTCCTCCGCCGTCATCCTGATATTATCACCGCCACCGCCCGCCTCGGTCAAGTCTACTTGACTAAGGCCCAGGCAGCGTTAGCCCAGTGGCCGGATACACCGGCCCGGATCCCACTGACCCAAATGACGGCCTACTTGGAGCAAGCCTTACAGCTGACCGACGTCTAA
>SRR1151209_00059 cytochrome bd biosynthesis ABC transporter ATP-binding and permease components cydC
ATGCACACTTCGCAGAAAACTAAACCGCGCCTACGGAATTATCTCCGAGCGTGGCATAACGACCATTGGTTTTGGCCGTACCTGAAACAAAATAAATTGCGGTTGGCGTTGATTTTCTTCGTCGGAGTGCTGACGTTTATCTGTGCCGGAGCGCTGATGTTTACGTCTGGCTACCTGATCAGCAAGTCGGCTACCCATCCGTTCAATATTCTGGCAGTTTATGTGCCGGTGGTCCTGACCCGTGCGTTTGGGATCGGCCGGCCGGCATTCAAATATTTGGAACGGATCAACAGCCATAACTGGGTGCTGAATGTGGTGTCCAAGCTGCGGGTCCAGTTGTACCGGACTCTGGCCAAAGACGCAGCCTTTCTCCATGAACATCAGCAAACCGGCAAGATTTTCGGTTTGCTGGCCGATGATTTGGATCATCTGGAAAATTTCTATTTGCGCACAATTTTTCCAACAATTGTCGCGTATTTGGTGTGGCTGCTGGTGACGATCGTCATGGGCATTTTCACCTGGCTGGGCGCCATTGCAGTGGCATTGATCTTAGCGGTGGTTCTGATTGTCGTGCCGATGCTGTCCCTGCGTCAGGCGGCCAGCGGGTACGCGGTACAAAAGGCGCGTAAAGCGCATGAGTATACGACGGTCACCGAACACTACTTAGGTCTTGGCGACTGGGTGATTACTCATCGCCAAGACCGCTTCACGGCGGCGGGCAATGACGATGCCAGCGTGACGCAGCAGAGCGTTGCTGCCCAGGAACGGTTCCAGCGCTGGCGCAATTTTGCCATCCAGGTGATCTTCGGTCTCCTGGCGCTAGGCCTGATTCTGGGAACGCAGCGGCTGCTAGGCGGTTCCCAGCGGTTAGCGAATTATTCCGCCGCCGTTGTCCTATCGCTTTTTCCGCTGATCGATTGCTTTCTGCCGGTGGCCCAGGCGATGGCCGAGGTCCCGCTGTATTCTGATTCCTTAGCCCATTTGAACGAGTTGAGTGCCAGTGTGGCAGCGGCTGCTCCGGCACCGGTGGCCCAGGCTGACGCGCCAGCGGCGATTCAAGAAATCAAGTTTGACCATGTCACCTTTGCTTATGGGCCGGATCAGCCCAAGCTGTTGGATGATTTCAGTCTGACGGTTCACGGGAGGGAGAAAGTGGCTATTCTTGGACCCAGCGGTGAGGGCAAGACAACGATCCTGCAATTGCTGTTAGGGGATCTGACCCCGCAGAAGGGACAGATCACCGTCAACGGGATTCCAGTGGCCCAATTGCAGCAGGCTCGGCCGGCATTATTCGGCTACTTGAACCAAGCGCCATTTTTATTCAATACCACGATTCGGGCCAATATCCGCCTCGGCGCCTCTGATGCGGCTGATGACGCGATCTGGGCTGCCTTGCAGGCCGTGGGGTTGGCCGACGTGGTACGGAGCTTGCCGGCTGGCTTAGACACCGTGGTCACCGAGTCCGGCCAGCGTTTTTCCGGCGGCCAGCAGCAGCGTTTAGCCCTGGCGCGCATTCTGCTCAAAAAAACGCCTGTCCTCTTATTGGATGAACCCACGATTGGGTTGGATCCAATTACAGAACAGGCGCTCATGGCGATGATTATGCAAGCCAGTACCGATCGGACGCTGATTTGGGTGACCCACCATCTGCAGGGACTGGAACAGGCCAATCAGGCAATCTTTTTGACCGACGGCCACATCTCCATGGCTGGGCGGCCAGCAACGCTCTATCGTGATAATGCACGCTTCCGTGCACTGTACGCATTAGACGTCGGTCAGCTGTAA
>SRR1151209_00060 cytochrome bd biosynthesis ABC transporter ATP-binding and permease components cydD
GTGATCGACAAGAGCCTATTTCAATTCCCCCGGATTCGCCGGCAACTGATGGTTTTGAGCCTGCTGTCATTCATCCAGGCCGCCGCCATCGTTGCCCAGGCAATCGGGTTATCCCAGGCGCTTGTGGCCATTTGGCAATTACGAAAAATATCAGCATTGCTTATGCCGATGCTGGTATTTTTTAGTGCTTTCATCCTGCGCCAATTGATGGATGTGGCAAAAAACCAAGCGGCCACGCACTATGCGGATGAGAACATTACGCGGCTGCGGCCGTTGATCCAGCGGCAATATTTTCGGCTTGGCCCGGCCTATCTGCACCGTACCGGCACCGGATCGGCGGTGACCGTCGTGATCGACGGCTTGGACCAAGTGAAAACCTATATTCAAACGGTTTTGCCGAAAGTGACCGACATGATTTTTGTACCGCTGCTGACACTGATTTATGTGTTTTACGAAAACTGGGTAAGCGGCATTGTGCTGTTCATTATGCTGCCGCTGATCTTCTTCTTCATGGCCATTCTAGGCCTCGCTGCTCGAGCCAAGTCGAATCAGCAGTATGCGGACTTCACCCAGCTGAATAATTCCTTTGTGGATACGATTTTAGGCTTGCCGACGCTGAAAATGCTGGGTGTTTCCGATCAGTACGAAGATCAGATCTATTCGGTGAGCGAGCGGTTTCGCCAGAAGACGATGAGCGTGATCAAAGTCGCGTTGACGTCGACGTTTGCGCTGGATTTTTTTACCACCTTGGCAATCGCGATTATTGCGGTATTTCTGGGGTACCGGCTGATCGACGGATCGATCGTCTTGTATCCGGCTCTGGTCAGTTTGATCCTGGCGCCGGAGTTCTTTTTACCCATTCGCCAGTTTGGTGATGATTATCACGCGACGTTGAATGGTAAAAACGCACTGCAGCAGGTCAATGACCTGTTAGCGACGCCAGTACCCCCGGTGGCCCAGGCTATCGACTGGGCAGGGTGGGGCGCTGACAGTCAGCTGACGCTGACCAGTGTTGATTTTCATTATCCGGATGCCGCGGCGGATACTTTAGCCCTGCACGACATTCATTTACAGGCCGCTGGTATGGCCAATATTGCGATTATCGGCCGTTCTGGTTCCGGCAAATCGACGCTGATGAATTTATTGGCCGGGTTTAACCAGCCGCAGCAGGGTGCTCGGATCACGCTGGACGGACAGCCGCTGACCAGCTTTAACCAGCCGCAGTGGCAGGACAGTGTCAGTTATATTCCCCAGGATCCGTATATTTTTTCGGCGACGATCGCGGCCAATATCCGTTTCTATGTGCCGGACGCCAGTGATGCGGCAGTCCAGCAGGCCGCGCGGCAAGCGGGGTTGACTGATTGGCTAGCGGCTTTGCCGGCTGGCTTGGACACCATGATTGGTGAGGGCCAGCGGGGCATCAGCGGCGGTCAGGCCCAACGGATCGCAGTGGCGCGGGTCTTGCTGGATCACCATCGGCGGATCCTGCTGTTTGATGAACCGACGGCGCATTTGGACATTGAAACGGAATATGAATTGAAGCAGACCTTGCTGCCGCTGTTTCAGGATCATTTGGTTATTTTCGCCACCCACAGGCTGCACTGGCTCACGGCCATGGATCAGATCATCGTGTTGGAACACGGCCGGATCAGTGAGCAGGGCACCCTTGCCCAATTACGGGGGACCGGTGGGGCACTGGATCGATTAGTGGCAGAAATGGGGGGCAAACAAGATGCACACTTCGCAGAAAACTAA
>SRR1151209_00061 cytochrome D ubiquinol oxidase subunit II
ATGACAATTTTGCAATTATTATGGTATGGCGTCATTGCCCTGTTGTTCGCCATCTTCTTGTTCCTGGATGGTTTTGACTTCGGTGTCGGCATGGCGACCCGGCTGGTGGCCCAAACACCGGCTGAGCGGCAACTGTATATGCGGGCAATCGGTCCGCACTGGGACGGCAATGAAGTTTGGCTGATCACAGCCGGCGGGGCGATGTTTGCCTCGTTCCCGCTGTGGTATGCCAGCTTGTTTTCCGGCTACTACATCCTGCTGTTCTTGACGCTGGTCGCGTTGATTTTACGGGGTGTCTCGTTTGAATTTGCTGCTCATGCGGAAACACCGCGGGAGCTCAGCGTTTGGCAGTGGGCCAACTTTGGCGGCAGCCTGTGTGCGCCGTTCTTCTTGGGCATGATGCTCACGAGTTTGATTCAAGGCGTGCCGATGGATGCGCAAGGTAATGTGTGGGCCGGCTTTTGGCAGGTCTGCAACTGGCTGTCCATTGTTGGCGGGGTCGCTACGGTATACTTCTCCTTCCTGCACGGGCTGCATTTCTTGAGCCTGAAGCTGCCAGCGGCTGATGCCCGTAAGATGCTCCATGTCTCCAGTAAAGTCTATTGGATCGCCTATCCGGCCTTGATTGTCTTCGTGCTGTTGGCTATTTTCCAAACCGATTTCTACCGGGCACGGCCGATCTCCACTTGGATCATTACGGTCATTATCCTGCTGGCCACGATTTGCGGCCACTGGGCAGCCGCCCATGTGCGCGGCGGGTTGGCGTTCATTGGTACTGGTGTCACGCTGGCGGGGGTCATTGCGTTTATCTTCAATGGTCTCTTTCCCCGGGTACTCATCGCTACGGATCCGAAGTTCAGCCTGCTGATCAAAGATGCGTCGGCATCGCCCAAGACGTTGAACATCATGACCATTGTTCTGGTTTGCCTGCTGCCTGTCGTACTCGTCTACTTTATCTGGAGTTATTACATCCAGCGCAAGCGGATCAGTCTCGACGACGTTCAGGGCGACAACGGCTATTAA
>SRR1151209_00062 cytochrome D ubiquinol oxidase subunit I
ATGATCGGTTTAGCGAGTGTGCTGGATTTGTCGCGGTTTCAATTTGCGATGACCACCATCTTCCACTTCTTTTACGTGCCGCTGTCTATTGGGACAGCCCTGGCCGTCGCCATCATGGAGACCATATATGTTCGAACAAAAAAGCCGCTGTATCAGCGGATGGCAAAATTCTGGGGTAAGATTTTCCTGTTGAGTTTTGCTGTTGGGGTTGTCACCGGGATCATTCAGGAATTCCAATTCGGGATGAACTGGTCCAACTATTCTCGGTTCATGGGCGATATCTTCGGGGCGCCGCTGGCGATTGAAGCCTTGCTGGCATTCTTCATGGAATCGACCTTTATCGGGGTCTGGATGTTCACGTGGGATCGGTTCAAGCCCGCGGTGCACGTCATCTTTATTTGGCTGACCTGGCTGGGTTCTACGCTGTCGGCGATTTGGATCTTGGCGGCCAATAGTTTCATGCAGCATCCGACTGGGTTTGAGATCAATACTCAGACCGGCCATGTGCGCTTGACGAACTTCATGGCTGTTGTCGGCAATCCGCAATTGTGGGTCGAATTTCCCCACGTCATCTTTGCGGCGGTGATGACCGGCGGTATGGTCGTACTGGGCATGAGTGCCTTTGGCCTGCTGCGCAAGAATCACCGGGAGTTCTTCACCAAGTCGGCAAAAGTCGGCGCGTGGCTGGCGTTAGTCGGTTCGCTGCTGACGATCGGTGCCGGCGATATGCAGACGCGGTACATCATCAACGATCAGCCGATGAAGTTTGCCGCGACGGAAGGCATTTACAAAGATACCGGCAGCCCGGCATCTTGGCAGGCTGTCGCATTGATTGATACCAAGAATAAAGAAACCAAAGCCAGTATCGACATTCCTTACTTATTGTCCATTCTGTCCTATCACTCTACTACGGGTTCAGTGAAAGGCATGAATACGATCAACAAGGAACTCCATGCCAAGTATGACAAGAAGTTTGGCAAGGATATGAATTACTATGTACCAGTAAAGACTTTGTTCTGGAGTTTCCGGTTCATGGCCTTGGCTGGCGTGCTGAGTGCGCTGCTCGCGTTCTGCGCCTTGATTTGGAGTCGCGTGAAGAAAGATACTTTGGGCGACAAGCGCTGGTTCCTGTGGATTCTAGGCATTTGTACGTATCTGCCATTTGTTGGGACTACCGGCGGCTGGCTGATTACTGAACTGGGCCGGTATCCGTGGGTCGTTTACGGTTTGCAGACGATCGCAGACGCGGTTAGTCCGACCGTTACCGCGGGTCAGCTTTGGTTTACGAACATCGTGTACTTGCTGCTGTTCTGTGTTCTGGGCGGCGTGATGGTCTTCTATTCTCGGCGGACCTTGCACCACGGACCGGAAGAACCGACGGCGCCTGAGCAAAAACCAGCATCTGCTCAGCAGCATGCAGGGGAGGCGTATCAAGCATGA
>SRR1151209_00063 NADH dehydrogenase
ATGGCCAATGTATTAATTTTAGGGGCTGGCTACGCAGGATTGCGGGCCGCCAAGCTCTTGGCTAAACATGCATCACAACTGACGATTACCATCGTCAACGATCATCCGTATCATTATGAGTCCACCCAACTGCACGAGGTGGCGGTGGGGAATAAAGAGCCTGCCGACATTACCTTTAGTCTGCGGGCATCATTGCCGGACAATGTCAATCTGGTTGTCGATACCGTGACGAAGATTGACCGCGACCAGCAACGGGTTGAATTAGCTCATCATGATCCGCTGCCTTATGATTATTTGATCAACAGTCTGGGCTTTGAATCCGAAACGTTTGGCATTCCGGGTGCTGAGGAAAATGCACTGCCGCTGATCGATATCGATACCGCGGTGGCTGCACGGAAGCATTTGGAAGAAACCTTAGCACATTTTAGTCAGAGTCAGGATCCCGATGATTTGCGGATCATTGTTTGCGGGGCCGGATTTACCAGTATCGAATACCTGGGTGAATTAGTACACCGGCTGCCGAAACTCATTGATCAGTATCATTTGCCAGCCGATCAAATTAAGATTGACTGTATTGAAGCAATGCCCAAGGTACTGCCCATGTTCTCCCAAGATCTAGCCGATTATGCGGTGCATTATTTGGAGAGTCATGGGGTCACATTCCACACCAGTACACCAATTACCCAAATTGATCCCGGTGTGGTCCACAGTAAAGACACCAGTTATACCGCCCATACAATCATTTGGACGACTGGGGTGCAGGGCAGTCACGTGATCGCGGATTCCGGTTACGCGCAGAAGCGCAATCGGGTCATGGTGCAAGATGACCTGACCGTTAAAGATCATCCCAATGAATACATTATTGGTGACGTCTCTGCGGTACCGGATCCGGCCAGCGGCCGCCTGTATCCTACGACGGCGCAAATTGCCATCGCCCAGGCGGATACTGCCGCCCACAACATTCGGGCCCAGGTCAGCGGCCGGACACCCAGCAAGTTTACGTTCCACAGTCTGGGGACGGTTTGTTCCTTAGGTCCGACCAGCGGGGTCGCGGAGATCAACATGCTGGGCCACTGGAAGTTCAAGGGCGTCATCGTCGGCCCGCTGAAGAAACTGGTCAATGATCGGTCGGTCTTAGAACTGGCTAATGTGCGGACCATGCTGGAAAGCAATTAA
>SRR1151209_00064 ASCH domain protein
ATGCAAGAGTGGCAGCTGCACCTGTACCAAGATCAATTCGATCTGTTGAAAGCCGGCACGAAGACAGTGGAGATTCGGCTGCGCAATTCGGATATTGATAAAGTCCAGCCGATGGATATCATCCACTTTGTGCCCGCGCCGGAAGACGGCAAGCACGAAGTGGCCGCTGTCGTCACGGACATCAATACGTTCGACACGTTCGAACAAGGCTTGCGCCATTTCCCGCCCACCGCTGTCGGTTCCCCCGCGGGAACCAGTGTCGCGGACATGGTCCAAGCAATGTATAAGATCTATACGCCAGAACAGGAAGCAATGAAGGGCGTTGTTTTCTTCACGGTGAATCGGATTATGTCGAACTAG
>SRR1151209_00065 manganese-dependent inorganic pyrophosphatase
ATGGCAAAACAACTTGTTTTTGGGCATCAGAATCCAGATACCGACGCAATCGCTGCAGCAATTGCGTATGCCTATTTGGAAAAGCAAAAAGGTTATGACACGGAAGCGGTCGCCTTGGGCGAACCAAACAATGAAACGCAATACGCGTTGAATTACTTCCACCACGCTGCTCCCCGGGTCGTCAAAACGGTCGCTAACGAAGTCAGTGAAGTCATGCTGGTGGACCATAACGAACCGCAGCAGTCGGCACCGGATATTGCCAAGGTTACAGTGACGCACGTCATTGACCACCACCGGATTCATGACTTCAATACGGCCCAACCGCTGTATTACCATGCTGAACCAGTGGGCTGTGTCAGCACCATCATTTATGGCGAATATCAGATGGCCGAAGTGGCTATTCCCAAGGATATTGTCGGGCTGATGGCATCTGCCATTATTTCCGATACCTTGCTGTTGAAGTCCCCGACCACGACGGATAAGGACCGCGAAGCATTAGCTGCTTTGGCTAAAGAAGCGGGGATCGATCCGGATAAGTATGGTTTGACTATGCTCAAAGCCGGCACGAACATTGCCGACAAGCCAGCCGCAGATTTGGTGGACGAAGACGCCAAGAGCTTCACGATGAATGGTCAAAGTATTCGCATTGCCCAAGTCAACGTGGTTGATTTAGCGGACGTCCATGATCGGATCGCTGAGTTCAAAGACGCCATGGACCAAGAAGCCAAGGCCAAGGGCTACGATTTGTTCGTTGCGCTGGTGACGAATATTCTGGATTCCAATACAGAAGGTATCGTTGTGGGGACAGACACCGCCAAAGCAATTTTCGCCAAGGCCTTTAACACCACCCTGAGTAATGATACCGCCCAATTGCCGGGCGTCGTTTCCCGGAAGAAGCAGGTTGTGCCGCCGTTGACGGAGGCCTTCGGAAAGTAG
>SRR1151209_00066 LysR family transcriptional regulator
ATGGCTACCGAATCCCATTTGACCCCGAAAGCCCTGCAATATTTCACCCAGCTGGCTCAAAATTTGAATTACACCCAAACTGCTCAGAATCTGGGTATCTCCCAACCTGCTTTAACCCAGCAGATCAAGAAACTGGAAAAGCAGATTGGTGCGGCCCTGTTTTATTCGGTGGGGAAGAAGCTGTACTTGTCTGAAGCAGGGAATGTCTTGCTGGCAGCCGCAAATCAGATCGACACGATTATCAATACGACGGCTGATCAGATCCAGCAGTTCAGTCAGCCCCAGCGCGGGCATATTGCTCTGGGCGTGCTGTCTTCCGCGGAAACCGCAGTCTTTGAGCGTTTTGTCGCCCATTATTTGAGCCGCCACGACGATGTTACTGTGGCGTTGCGGCTGTTCAACCGGCGCGAGCTGTGGGAAGGTCTGGAGAATAATGCGATCGATCTGGCGGTCATGTATCTGCCCGATGAAAATATTCGCAATTGGCATCTCTATGCGGCCCAATCGATTATTCAAGATGAGCTGCGCTTCATTTATCCCGCCAGCCAGAATTTGGGGGCGACGATTGCGATCAAAGATGTGCCCGCTAATCGCTGGGTCGGCTACCCTGATGGTTTCTATATCGCGGCCCGCTTGGCAGAAGTCTTTCGGGATGCACTCCGGGATGAACCGGACGTTGTGGCGACCATGGTCGTCCCGGAACAGATTGCACTGCTGGCCGCCCGCATCGGGTTATACAGCGCGCTGCCCAACAGTTTTTTAGCGGCCCATCCCGATTCGCGCTTAGCCGCGGCCAGTTTTATTCCCCGAGTTTCTTTGGATCTGTCTTTTGTTTATCGCAAGGAGAAGATTGCTATTCCCCGGGTGCATACCTTCATGGCGGAATGGCAGCAATTTTTGGCTGAGAAAAGCTACGCGGACCGGCTTGCTGCCGACCCGGAGTAG
>SRR1151209_00067 hypothetical protein
GTGTCATCGGAAAGCTTAGCGGCCGCCACGTTTTTACTAACGGATGCCGAAAAATTCAGTCCGGATCAAGAACACTTGACCCAAGCCTTGCTCGCGTTCATCCGGACCCACTTGCCCCGCCGGGATCACGCGGTGTTTGTGATTACCGGGGACGCCGGGACTGGGAAGAGTGCCGCGCTGGCCCAGGCGTTCACGCAGCTCCAAACGATGGCCCGCAACCGTGTCGACGGCCTGCTGGCAGGCACCCGGAACACGCTGCTGGTCAATCATCAGGAGATGCTGAAGATCTATCAGGAGGTCGCTGGGGCCAGTACGGTGCTGCACAAAAAAGATTTTCAAAAACCGACACCGTTCATCAATGCCGCCGCGCGCACTGGAATCATGAACGATGTGACCTTCGTTGATGAGGGCCACTTGCTGCTGACCCAGCCGGACCGCTATAACCGGTTCAATCAGGATAATCAATTGGCCGAAATTATTCACCGCAGCTGGGTGACGGTGCTGGTCTTTGATCCCCATCAGGTTTTGAAACTGAAGAGCTATTGGGATTGGCCCCGCCTGCATCAGGTGATCGATCAGCGGCCGCATACTGTCTTTGACTTGGATACCCAGTTCCGGGTCGCCGGCGACGCGGCCGTGCACGATTGGATCAACGCTTTCACTGCTGGGCAGATCAAACCGCTGCCAGCGCCCAGTGATTATGATCTGCGCATTTTCGCCGACGGCACACCATTGTACCAGCTGATCGAGCAGCGCGATGCCACGGCCGGACTGGCCCGGGTACTGGCAACGGCAGACTTTCCCTTTACTGTTTTTGGCCCTGAACAGTGGTACGTTACCGCTGGTACACTGCGCCTGCCTTGGGATAAATTCAGCATGACTGCCACGCCCTGGGCTCAGCGGCCGGAGACCTTGCACGAAGTCGGCTCGATTTATACCATTCAGGGTTTCGACTTGAATTACGCCGGCGTTATCCTTGGGCCCTCTGTCGGTTATGATCCAGTGGCGCACCGGGTGACGATGGATATTGCGCAGTACCAAGATCAGGAGGCGTTTAAAAACCGGGACGATCTCCCGGACTTAGCCGCGGCCAAGGCCCAGATCATGCGCAACGCCATCAATGTGCTGTGCAAACGGGGGCGCCACGGTCTGTATCTCTATGCTGTCGACCCCATCCTGCGCCGGGCCCTACTGTCCGCCGTCCACGAAAAGGAGTAA
>SRR1151209_00068 pyruvate formate lyase-activating protein
ATGGCCCAAAGCATTGCCACCATGCAGCGTACAACAACAGAAAAACCCTTAGTGGGGTATGTGCATTCCATTGAAACATTTGGGTCCGTTGACGGGCCTGGGATCCGGTACGTGGTCTTCCTCCAAGGCTGTCGGATGCGGTGCGAATTCTGTCACAACCCGGACACCTGGAATATCGGTGTCGGTGATGAAATGACCGTTGACGAGATTCTGAATGACGCGATCCGTTACAAGGCATTCTGGGGGAAGAAGGGCGGTATCACCGTTTCCGGCGGTGAAGCCCTGGTCCAAATCGACTTTGTGTTGGCCCTGTTTAAGAAGGCCAAGACCATGGGCATCAACACGTGCTTGGATACCTGCGGCCAACCCTTCACTTATAAGGACCCGTTCTTCAGCAAGTTTGCCGAGCTGATGCAGTACACCGATGTGTCCTTGGTGGACATCAAGCACATCGATTCGGCGCAGCACAAGCGCTTGACCGGGTTCAATAACGAAACCGTTTTGGCCATGATTCAATACATGTCCGAACACGGCTACCACATGTGGATCCGCCACGTCCTGGTCCCGGAGCGGACCGACTACGATGACTATTTGCGGGATTTGGGACAATATATCCATACCCTGAACGCCATCGATAAAGTCGAAGTGCTGCCGTACCATACGATGGGCGTCAAGAAGTATGTGGAATTAGGCATTGACTACCCTCTGGAGGGCATTGAGCCGCCCTCTGCTGAACGGGTGAAGAATGCGGAACACTTGCTGGACACGGCTAGTTACCGGGGCTACGCAAGCTGA
>SRR1151209_00069 formate acetyltransferase
ATGAAACAAATGGAAAAAGCAACAATGCCCACCTGCTGGGAAGGTTTCCAACCCGGCGACTGGATGTCTGAAATCAATGTCCGCGATTTTATCAACAAAAACTTGGATCAATATGATGGCGACGAAGAATTCCTGGCTGGTCCCACTGCAGCCACCACGACGCTGAATGATCAACTGCTGGCCCTGAAGAAAAAGGAACGGGAAGTCGGCGGGGTTTTGGAAGCCGATAACAATGTTGTTTCTTCCATTACCTCCCACGGTCCTGGTTACTTGAACAAGGATTTGGAAACCATCGTTGGTTTGCAAACTGACAAGCCGTTGAAGCGCGCCTTCATGCCTGAGGGCGGGATTCGGATGGCTGAAGATGCCTTGAAGGCTTACGGGTTTGAAACAGATCCCGAAATGCACAAGATCTTCACGCATTACCGCAAGACCCATAACCAGGGTGTGTTTGATGCCTATACCCCGGATATGCGTGCTGCCCGCCACTACAAGATTGTCACTGGTTTGCCAGATGCTTACGGCCGCGGCCGGTTGGTTTCTGACTTCCCGCGGATCGCAATCTATGGTATCGACCGCTTGATGCAAGAAAAGCTCAACGATTGGAACAACATTGGCGATGGTGAAATGACTGACGAAGTCATCCAACTGCGCGAAGAAGTCAACGATCAATGGAAAGCATTGAAGCAGATGAAGCAGATGGCTGCCAGCTACGGTTACGATATTGGCCGCCCGGCAGAAAATGCTCAAGAAGCTATCCAATGGATCTACTTTGGCTACTTGGCTGCTGTGAAGACTCAAAACGGGGCAGCCATGTCCGTTGGCCGGATCGACACCGTGATTGATGCTTACATCCAACGGGATTTGGATCGCGGCTTAATCACTGAAGAACAAGCTCAAGAATTCATTGACCACTTGGTAATGAAACTGCGTATGGTCCGCTTCATCCGGACGACTGAATACAACAGCCTCTTCTCCGGCGATCCGATCTGGGCAACATTATCACTGGCTGGCGTTGGTACTGACGGCCGCCACCATGTGACCAAGACGGCTTTCCGTTTCTTGAAGACTTTGGATAATATGGGCGCTGCTCCGGAACCGAACATCACCTTGCTTTGGGATGACAAACTGCCTGACGGCTTCAAGCGTTATGCCACTGAAGTATCCATTAAGTCTTCCACGATTCAGTACGAAAACGATGCCTTGATGCGCAACGAATGGGGTACCGATTACTACGGCATCGCTTGCTGTGTGTCCGCCCAACCGATTGCTGACGGCATGCAATACTTCGGTGCCCGGGCTAACCTGGCCAAGACCGTTCTCTATGCCATCAACGGTGGTAAGGATGAATTGGCTGGCGCCCAAGTCGGCCCGAATTACGAACCAATCACTTCTGAATACATTGACTACGATGAATTCATGAAGAAGTTCGACAAGATGATGGACTGGCTGGCTGACGTGTATGTGAATGCATTGAACACCATTCACTACATGCACGATAAGTATTACTACGAAGCAGCCCAATTGGCTTTGAAGGATACGCATTTGGACCGGACCTTCGCCACTGGGATCTCTGGTTTGTCCCACGCCGTAGACTCCATTTCCGCCATCAAGTACGGTCACGTCAAAGTGATCCGCAACGAAGACGGCTTGGCTGTGGACTACGCGGTGGACAATGACGACTTCCCGCGTTACGGGAACAACGACGACCGCGCCGATGACATTGCGAAGTGGCTGGTAAAGACTTTCTTCACTAAGATGAACAAGCATCATCTGTACCGCGGTGCGAAGCTCTCTACGTCTGTACTGACCATCACGTCTAACGTAGTCTACGGTAAGAACACCGGGACGACTCCGAACGGCCGGAAGGCTGGCGAACCGTTCTCCCCTGGTGCAAACCCGGCTTACGGTGCAGAACACAACGGGGCTTTGGCTTCCCTGCTTTCCACTGCCAAGATTCCGTATCACTACGCTCGGGACGGCATTTCCAACACCTTCGGCGTAACCCCCAACACGTTGGGCCACGACGATGATGCTCGCAAGGATACTCTGGTGAACATGGTCGACGGGTACATGGAGAATAACGGGATGCACTTGAACATCAACGTATTCAACAAATCCACTTTGATCGATGCCCAGAAGCATCCGGAAGAATACCCGACCTTAACTGTCCGGGTATCCGGCTACTGCGTCTACTTCGCTGACCTGACTAAGGAACAGCAGGACGACGTTATTGCCCGGACCTTCTTCGAAACAATGTAA
>SRR1151209_00070 DNA topoisomerase IV subunit A
GTGGCTGAGACAGAAAATATTAAAGAGCTTTCCCTGGAAGATGTGATGGGCGAGCGCTTCGGGCGTTATTCCAAATACATCATTCAGGAACGGGCGCTGCCGGATATTCGGGATGGTCTGAAGCCCGTTCAGCGGCGCATTCTCTACGCCATGAACGAGGACCACAACACGTATGACAAAGCGTATCGGAAAGCAGCCAAATCCGTCGGGAACGTCATGGGTAATTTCCACCCCCACGGCGATTCGTCGATTTATGAGGCTCTAGTACGGATGAGCCAGGAGTGGAAACTGCGCCTGCCCTTGATCCAGATGCACGGGAACAACGGGTCCATGGACGGTGATCCGCCGGCCGCCATGCGGTACACAGAAGCCCGGCTGTCGAAGGCTGCCGGCGAATTGCTGACGGATATCGACAAAGAAACGGTGCCGATGGTCCTGAACTTCGATGATACCCAAGAGGAACCCACCGTCTTGCCGGCCCGCTTCCCGAATCTGCTGGTGAACGGTGCAACTGGTATCTCGGCCGGCTACGCCACCGAAATTCCGCCCCATAACCTGGGCGAAGTGATCGACGCCGCCGTCTACTTGCTGGCGCATCCCCAGGCCGATCTGGCCGATCTGATGCAATTTGTTAAAGGTCCCGATTTCCCCACCGGAGGAATCGTGCAGGGTCTGTCCGGCATTAAAGAAGCCTACACTAAGGGCCGCGGGCGGATCGTCGTGCGGGCTAAAACCACAATTGCCGATCTGCGCGGCGGCCGCCAGCAGATCGTGGTGACGGAGATTCCTTACGAAGTCAACAAGGCGATGCTGGTTAAGCGAATCGACGAGCTGCGGGTCTTAAAAAAGGTCGAAGGCATCTCCGAAGTCCGGGACGAAAGTGATCGCTTCGGGCTGTCCATTGTCATCGAATTGAAGAAAAATGCGGATGCGCAGGGCATTTTGAATTACCTGTTCAAAAATACCGATTTACAGATCAGCTATAACTTCAACATGGTGGCGATTCGCGATGCCCGCCCGGAACAACTGGGCCTGCAGCCGATTTTGACAGCCTATCTGGATTTTCGGAAAGAGGTCGTCACTAAACGGACGCAGTATGTGCTGCAAAAGGCACTGGACCGGGAACACATTGTGGAAGGCCTGATCCATGCCTTATCGATTTTGGATAAAGTGATCAAGACCATCCGCGGCAGTAAAGATAAAGGCGACGCTAAGAAAAACTTGGTCAGCACCTATGGATTCACACCGGCCCAAGCCGAAGCCATCGTCTCCTTGCAGCTGTATCGGTTGACCAATACCGATGTCACTGAGCTGGAAGCCGAACACGCCAAGCTGAGTAAAGAAATCGCCCGTTATCAGCAGATCCTTGGTGATCCTAAGGAACTGGCGAAGGTGATCAAGACTGAGCTGCTGGCAGTGAAAAAGGAGTATGCCACGCCGCGGCTGACTCAAATTGAGAAGCATGTCGCCAGCTTAGACATCGATACCAGCGTGCTGGTATCCGATGAAGAGGTGATGATGGGTGTCAGCCGGGATGGCTACCTGAAGCGGGCCAGCATTCGCTCCTTCAACATGTCGGACGATGGGGATAACGGGCTGAAAGAAAACGATCAATTCGTCTTCCAAGGCACTGTCCATACCCTGGACCATGTCTACATGTTTACCAGTGCCGGCAACATGATCTATCGTCAAGTCTTCGAAATTCAAGACGGCAAGTGGAAGGACACTGGTGAACACGTATCGCAGACCACTGGCTTGGCGGCAGATGAAAAGATCATCTACGTCAAAATTCTGAAAGACCTCAGCGATACCGGCCGCTTTGTGCTCGGCACTGCTGATGGTCAGATCAAGCAGCTGGCGCTCTCTGACTTCCAGCCCAGTCGGACATACAAGTCGCGGGCGCAAATCGCCATGAAACTAAAGGGCAGCGGTGATTTGGTTACCGATGTCTTCTATGTCGCCAATGATCAGGACTGGCTGGTCACCAGCTTCTCCCGGCACGGCTATGCCACCCGCTATCCACTCAATGAAGTCTCTGCCATGGGCGGTCGGGCTGCGGGCGTGCGCTCCCAGAACTTGAAGGGGGACGACACCGTGGTCAACTTCCTGCTGATCCGAGTAGAGGACAATCCCCAAGTCGGCATCGTCACCAGCCGCGGCGCGTTCAAGCGGATGGCGGTGGAACAGATTCCAGATGCTCACCGCGGCGGCGTAGGCGTCTTGGTCCTGCGGGTGCTAAAGAGCAACCCGCACCAGATCGTACTCGTCGCCCCCGTGGCCTCGAAGACCGACTGGGATGTGCTGACTGACGCCGGCCGGCACATTGATATCAAGCCGATGGATCATCCGTTGTCAGACCGGTATTCCAACGGTTCCTTCATTCTGGATGTGGACACCGACGGTTTGCCGGTATCGTTCCAGCCGGTGGCCCAGGAGCCAGTGGATAAAGATCAGCATTAA
>SRR1151209_00071 DNA topoisomerase IV subunit B
ATGCCGCAATCAGCGTCAGATTACAATGATTCATCCATTCAGGTGCTGCACGGTCTTGAAGCCGTCCGCAAGCGTCCCGGGATGTATATTGGGTCCACCGACAGCCACGGCTTGCACCACCTTGTTTACGAAATCGTCGACAACGCGGTGGATGAAGCATTGGCTGGTTTCGGTAAAGATATCAACGTTCAGATCCTGCCGGACGGCGGGATCTCTGTTCAGGATCATGGCCGGGGCATGCCCACGGGGATGCATCCGTCCGGCAAACCAACGATCGAAGTGATCCTGACCGTCCTCCACGCCGGCGGCAAGTTCACCCAGAATACGTATAAAACCTCCGGTGGCCTGCACGGCGTCGGCGCCTCTGTCGTCAATGCCCTGAGCACTAAACTGACCGTGCGAGTGGTCCGGGACGGCAAGGCCTATTATGAAGAATTCAAGGATGGCGGCCATCCTGTCGGTACGCTGAAGATGGTCGGCCGGGTCAAGGAGCCTAACGGCACTACGATTCAGTTTTGGCCGGACAAGTCAGTGTTCACCACGACGAAGTTCAACTATGACACACTGGCGGAACGTCTGCGTGAGTCGGCTTTCCTGCTTAAGGGCATCAGCATTTCCTTAACCGATGAACGGCCGGGGCAGGAACAGCAGGATGTCTTCAAGTACGATGACGGAATCAAGTCCTTCGTGAAATACTTAAACGAAGATAAGGACACGATGGGCGACATCATGGACTTCACCGGCAAGGATAAGGGCATCGAAGTGGAGTTTGCCGGCCAATATAACGACGGTTACAGTGAAAACATCATTTCCTTCGTTAACAACGTCCGCACTGGCGACGGCGGTTCCCATGAAGTCGGGTTGAAGGGCGGCTACACCAAGGCCTTCAACGATTACGCCCATAAGGTCAACCTGCTCAAGGAGCGGGATAAGAATCTGGAAGGCTCCGACGTTCGGGAGGGCCTAAGCGGTGTTTTGTCCGTCCGTATCCCGGAAGAATTGCTGCAATTCGAGGGTCAGACTAAGGGCAAACTGGGTACGCCGGAGGCGCGGCCGGTGGTCGAAAACGTGATCTATGAACAGCTCAGTTTCTATCTGCTGGAAAACGGCGAATTTGCCCAGGAGCTGGTACGCAAGGCACTGAAAGCCCGGGATGCCCGGGAAGCAGCCCGCAAAGCCCGGACCGATATGCGCAACGGTAAGAAGCGCAAAAAGACCGAGGGTATTCTGTCTGGTAAGTTGACCCCGGCGCAATCGAAGAACGCCAAGAAAAACGAACTGTATCTGGTCGAGGGGGATTCAGCCGGCGGGTCGGCGAAACAGGGCCGCGACCGGCGGTTCCAGGCAATTTTGCCCTTGCGGGGCAAGGTGCTCAACACCCAGAAGGCCAAACTGGCGGATATTTTCAAAAACGAAGAAATCAACACCATGATCTACACGATCGGCGCCGGGGTGGGTCCGGAATTCAACATTAAGGACAGCAACTACGATAAGATCATTATCATGACCGATGCGGATACCGATGGCGCCCACATTCAGATCCTGCTACTGACCTTCTTTTATCGTTACATGCGGCCGCTGATCGATGCCGGCAAGATCTACATTGCGCTGCCGCCCCTGTATAAGTTGCAAAAGGGCAGCGGAGCCAAGACACGGATCGAATACGCCTGGACTGAACATGAATTGACCGATGACATCCAAAAGATGGGCAAGGGCTACAGTTTGCAACGGTTCAAAGGATTAGGCGAAATGAACGCTGACCAGTTATGGGAAACGACGATGAATCCCGAGACCCGCACCTTGATTCGGGTAAAGATCACCGACGCAGCTTTGGCCGAACGGCGGGTGACTACTCTGATGGGCGATCGGGTCGAACCCCGGCGCCAATGGATCGAACGCAATGTCCGCTTCAACATGGCCGACGAAGGCAGTCTGCTGGACAACACGGTCATGGACGGTGAAGAAGCAGTTGCCCACGAAAAGGAAGACGAGAAGATTTTAACCGCGCTCAAGGAGCATCACGCGTAA
>SRR1151209_00072 glycerol-3-phosphate acyltransferase
GTGGATTACAAATTGATTATTCTGTTTCTTGCAGCGTATCTGATCGGTTCCATCCCCACGGCATTGATCATTGGTCAATCTTTCTACCATAAAGATGTCCGCCAATACGGCAGCGGCAACATCGGCACCACTAACGCTTATCGGGTCCTGGGCCCGCGAGCCGGTACCGTCGTCTTAGTCTTGGACGTGCTCAAAGGGGCGCTGGCCGCGTCGCTGCCCCTCTGGTGCGGATACAGCGACCGCCACTTGATCTTGCTGATCGGGCTGGGGGCCGTGCTGGGCCATTCCTTCTCCATTTATATTCGCTTCCACGGCGGTAAGTCCGTCGCCACCAGCGCCGGCATCCTGCTGGCTTACAATCCAGAATTCTTCCTCATTGCCGCAGCGATCTTTCTGCTCATTGTCACTGTCTCCAGCATGGTCAGCGTGGCCAGCACGCTGGGCTGCATCCTGGTCCTGCTCCTGTCGTACTTTTACCACGATTGGGTCCTCAGCTTGATCATCGCCGCGGTCACCGTGTTCGTGCTGATCCGGCACCGCAGTAATTTCAGGCGCATCTTTAACGGTACCGAGAACCTTGTACCTTTCGGTCTGGTTTACCGCTTGCGGCAGAAAAAACAAAAGTGA
>SRR1151209_00073 aldose 1-epimerase
ATGCAACAAATTCAAAACGACTTTTTAACCGTGCAAATCAGTGAACACGGGGCCGAGCTCCAATCGATCCACGACATCAACACCAATACGGAGCGTCTCTGGCAAGGAGATCCGGCGGTTTGGGGCCGGCGGGCGCCAGTCCTGTTCCCCATCGTGGGGATGCTCCACAATGATACGTATACGTATCAAGGAAAGAGCTATCACCTGGGCCGCCACGGTTTTGCCCGGGACCGGGACTTCACGGTGATCCGGAAAACGGATGACGAGATCGTTTTTGAATTGACCGATGATGCTGAATCGCACAAGGTTTATCCCTTCGCGTTTCAATTGCGTATTCGTTATGCGCTCTTAGGCAATTTGTTAAAGGTCCGCTACTACGTGACTAATCCCAGCGCGGATAAGCCGTTATGGTTCTCTGTAGGCGGACACCCGGCGTTCAATACTGGCGCCGACCCGGCCGGGGGGCAAAACTATCTGCGCTTTGCTCCCAAGAAGAGTCGAATCACGATCCCGCTGGGCGCCAACGGGGAATCGGACTTTGAGCACCGTACCCTGGCGCCGACGGATGTGGATCTGGCCATCACTCCCGAGCTTTTCGCCAAGGATGCCCTGATCTACGAACTAGCCGGCGAGAATACCCTTAGCCTGCGTCAGGAAGACTCTGATCACCGAGTGGAACTGACCGTCAAGGACGCGCCGTACATCGGCGTCTGGTCCCAATATCCCAAGACCGGTCCGTTTGTGGCCCTGGAGCCTTGGTGGGGGATTGCTGATTCCGTCGGGACCGATGGCGAGCTGACCCATAAGGTGGGTATGCATCAATTGGCCCCGGGTGAACAGTTCACGGCGAAGTATCGCATCGGGATTTTCTGA
>SRR1151209_00074 ATP-dependent protease ATPase subunit HslU
ATGTTAGAAATGACCAAAACCCCGCAACAAATTGTTAAAGATCTGGACGAATACGTTATCGGTCAAGACGAGGCCAAACGGGCCGTCGCCGTGGCTTTGTACAACCGTTACCGCCGCTTGCGCCTGCCTGAAAAAATGCAGGCCGACATCACCCCGAAAAATCTGATGATGATCGGGCCCACTGGGGTCGGGAAAACTGAAATTGCCCGGCGGCTGGCGAAAATCGTTTCTGCTCCGTTCGTGAAGGTGGAGGCAACGAAGTTCACCGAAGTCGGCTATGTCGGCCGGGATGTGGAACAAATGGTCCGCGATCTGGTAGACGTCAGCGTGCACATGGTGGAAGAAGAATATTACAGCCGGGTGCGGGGCCGAGCGTCCCAGGAGGCCGACAAGAAACTGGTGCGGCTGCTGGTGCCGGGGATCAAGCACGAAAAACGGCAAATGACTATGCAAGACATGATGGCCGCACTCACCGGCAACGGCAATCAAAACCAGAATAATGACGAGGACAGTGAAGAAGTCACCGATGCGGTCCGGGATCAGCGCCTGAGCGTCAAGGAGCAATTGAGCAAGGGCCTGTTGGAAGATCGGGAAGTCACCATCCAAATGGATGAACAAAAACCCATGGGCGGTGGCGGCGACATGATGGGCCAAATGGGTATCGACATGGGCGACATGCTGGGCAATCTCTTGCCTAAGAAGCAGGTCAGCCGGACCATGTCGGTCAAAGAGGCCCGGGAAGTCTTGATTCGTCAGGAATCCAGCAAACTTGTCAACCACGACGATATTTATTCCGATGCCATCAAGCGGGCAGAAAATACTGGGATTATTTTCATCGATGAGTTTGATAAAATTGCTGCCGGCAACAAGCGCACCTCTGGGGAAGTATCCCGGGAAGGTGTCCAGCGGGATATCCTGCCCATCGTTGAAGGCTCGCAGGTGAACACCAAGTATGGGATGATCAGCACCGACCATATTCTGTTCATTGCCTCTGGCGCTTTTGCGGACACCAAGCCCAGCGACCTGATCGCTGAATTGCAGGGCCGTTTTCCGATTCGGGTGGAACTGGATGATTTGTCCAAGGAAGACTTTGTCCGGATCCTGACCGAACCCAACAATTCACTGATCAAGCAGTATATTGCCCTGATCGGCGTGGATGACGTCCACCTGACCTTCACCAAAGAAGCTATCGACCGCATCGCCCAGATTGCTTATAATGTGAATCATACGGTAGAAAATATCGGCGCCCGGCGCTTGGCCACGATTCTGGAGAAGCTGCTGGAGGAAGTCTCTTTCTCCGCGCCGGACATGGCTATGGGGGATATCACCATTACAGAACAATACGTCAATGATCGGATCGGCAAGATCACGGCGGATAAAGACCTGACCCAGTTCATTCTGTAA
>SRR1151209_00075 ATP-dependent protease subunit HslV
ATGACAACAATTGTTGCAGTGAAACATGCCGGCCACACCGCCATTGCCGGTGACGGCCAAGTCACGTTAGGCGAAAAATACATTATGAAGGGCACTGCCCAGAAGGTCCGCTCAATTTACCATGATTCCGTGGTGATCGGCTTTGCCGGCGGGGTCGCGGATGCCTTCACGCTGCAGGACTGGTTAGAAAAGAAGCTGGAAAGTTACTCTGGCGATCTGCGCCGAGCCGCCGTGGAATTGGCTCAGGATTGGCGCAAGGATCCCACCCTGCAAAAGCTGGAAGCAATGCTGATCGCCATGGATAAGGATAATTTACTGGTGATCAGCGGCAGCGGGGAAGTGATCGACCCCGATGACGACGTGGTGGCCATCGGCAGCGGCGGCAACTTTGCCCAAGCGGCCGCCATCGCCATGAACGAGCACGCGGCCGACATGACTGCGGAAGACATCGCCAAGGCGGCGGTGAATATCGCGGCCAACATTGATGTGTATACGAACCATAACGTGATTGCTAAGTCGTTTTAG
>SRR1151209_00076 tyrosine recombinase XerC
ATGAGTCAAACCCAGGATTGGGTCACCCAATATTTAGACTATTTACGCGGCGTCCGCCGGTATTCAGAACACACCGTGGCCGCCTACGACCGGGACTTGCATACGTTTGTCCAATATTTGACCGACAATGGCGGGTTCAATGGCTTTGACCAGATCGCTCAGATCGACGTGGACGTGTATTTAAGCCACCTCGGGGACCATTATCGGCCCCGGACGATCGAACGGCGGATTTCTTCCCTGCGCAGTTTCTACCGCTTCCTGATTCGGGAACACTACGTGGCGGATAATCCCTTCGCCGATGTTCGGCTGACGAATCGGCACCATCAATTGCCGAAATTCTTCTATCCCAAAGAAGTGGCTGCTCTGTTCCAAGGCGCAGCCGGAAATACGCCTTTAGACCAACGTAATGTCGCGCTGCTTGCGGTATTATATGCCACAGGGATGCGGGTCAGCGAGTTGACTGATCTGACGCTGGGTCAGTTGGACTTCTCGCTGGGCGTGGTCTTGATCCACGGGAAAGGCCAAAAGGACCGTTATGTCCCCTTTGATCAGGAGACGAAGCAGCATTTGCAGACGTACCTGACCAAAGCCCGACCGGAATTACTGGCGAAGCGCAAGGCAGCGGCCACGACGGACAAGGTCTTCTTGAACGACCGGGGCGCGCCAGTGACCAGCCGCGGGGTCGAGTATATTTTGGATCAAGTGATCCAAAAGACCAGCCTCACCGCCAAGATCCATCCCCATATGCTGCGGCACACGTTTGCCACCGAGATGCTGAACAACGGGGCTGACCTGCGCAGCGTCCAAGAGTTGTTGGGCCATGCGTCATTATCGACGACGCAGATCTATACCCACGTCACCATGGCCCATCTCCAGGATCAATACCGTAAATTTTTCCCGCGGGCGACTGGCACTGACCAGCCGGGTCCGCATGATAAAGGAGTTTAA
>SRR1151209_00077 tRNA (uracil-5-)-methyltransferase Gid
ATGACCATGTCTGTTAATGTGATCGGGGCCGGTTTGGCCGGTTCCGAAGCCGCTTGGCAAATTGCGAAGCGGGGCGTTCCTGTCAATTTATACGAAATGCGGCCGGTGAAAAACACACCGGCCCACCATACGAATCAATTTGCGGAACTGGTGTGTACGAACTCCTTGCGGGCTAACGGTTTAAGTAATGCCGTGGGGCTGCTGAAGGAAGAAATGCGCCGGACCGACTCGCTGATCATGCGCGCAGCGGATGCCCATGCCGTACCGGCTGGCGGCGCCCTGGCCGTTGATCGCGGCCCGTTCTCCCAAGCGGTGACAGATGCCTTGACTAACCTGCCCGACGTCACCATTCACCGGGAAGAACTCACGGGATTTCCAGAGGGCATCACGGTGGTGGCCACCGGTCCGCTGACGTCACCGGGCCTGGCCCAGGCCATCAAGGACCTGAACGGCGATGACGGTTTGTATTTCTACGACGCTGCTGCGCCGATTCTGGATGAAGCCTCCATCGATATGACCAAGGTCTACCGCAAGTCCCGTTACGACAAGGGCACCGCGGATTATCTGAATTGCCCGATGACCGAAGAAGAATTTCATGATTTCTACGAAGCCCTGATCCACGCCGAGGTGGCGGAGAGTCATGACTTTGAGAAAGAAAAGTTCTTTGATGGCTGCATGCCCATCGAAGTGATGGCCAAGCGCGGCGAGCGGACCATGCTGTTTGGGCCGCTCAAACCGGTCGGTCTGGAAGATCCCCGCACTGGTAAGCGGCCCTATGCGGTGGTGCAGCTGCGCCAGGATAACGCCGTGGGCAGCTTGTATAACATTGTTGGCTTCCAAACCCATCTGAAGTGGGGCGAGCAAAAGCGCGTCTTCAGTATGATCCCCGGCTTAGAGCACGTGGCCATCGTCCGCTACGGTGTGATGCACCGCAACACGTTCATGAACGCGCCGCTGGTGCTGGCACCAACCTATGAATCCTTGAAGCAGCCGCACCTGTTCTTCGCCGGCCAAATGACCGGTGTAGAAGGGTATGTGGAAAGTGCTGCGTCCGGTATGGTCGCCGGGATCAACGCTGCCCGCACGGCCCAAGGCTTAGAGCCGATCATCTTCCCGGAGGATACCGAAGTTGGGGCGATGGCCCACTACATCACCCATGCTGACCCCAAGCATTTCCAACCGATGAATGCGAACTACGGTATCATGCCGAAGCTGGATCATAAGGTACGGGATAAAAAGACCCGTAATCTGGAACTTGCCGACCGGGCGTTAGCAGCCTTGGCGGATTTCCAACACGTCATGACGGAACAACCGGCTTAA
>SRR1151209_00078 DNA topoisomerase I
TTGGCTAAGAACCTCGTGATCGTTGAATCGCCTGCGAAGGCCAAAACAATTGAAAAGTATCTTGGCCGTAATTACCGGGTCGTGGCCAGCTTAGGCCATATCCGCGACCTGCCCCGGAGTCAAATGGGGGTCGACATTGAAAACAATTACCAGCCAAAATATATATCAATTCGCGGTAAAGGCGACGTCATTAAAGATCTGAAAAAGGAAGCCAAAAAGGCGGACCATATCTACCTCGCGGCCGACCCGGATCGGGAGGGCGAAGCCATTGCCTGGCATGTTTCCCACATCCTGAATCTCGACCCGGCGGATAAGAACCGGGTCGTATTCAACGAAATCACGAAAGATACCGTGAAAAATGCCTTCAAGGACCCCCGCAGTATTGACATGAAATTGGTTGATGCCCAGCAGGCCCGGCGGGTATTGGATCGGCTCGTGGGCTACTCCATTTCACCGATTCTTTGGAAAAAAGTTAAAAAGGGTCTCAGTGCCGGCCGGGTCCAATCCATCGCACTGAAGCTGGTGATCGATCGGGAAAATGCAATCAAGGCCTTTGTGCCGGAAGAGTATTGGACGATCGATGCCGAAATGGCCAAGGGCAAGGAAACGTTCGCGGCCAGTTTTTATGGTGAAAAAGGGCGGAAAAAAGCCCTCAAGAACAATGCGGATGTCCAAAAAGTGTTAGGCAAGGTCGATAAGAAAAAGCCCTTCGCCGTCACAAAAGTTGTGAAGCGGGAACGCAAACGATTCCCCGCCGCGCCGTTCACCACCAGCTCCTTGCAGCAGGAGGCCAACCGGCGCTTGAATTACAAGACCCGGAAGACCATGATGATCGCCCAGCAGCTGTACGAAGGCATCAATCTCGGCGGCAAAGAGGGTACGACTGGGCTGATCACGTATATGCGGACTGACTCCACCCGAATCGCCTCAATCGCTAAACACGAAGCCGCCGGTTTCATCCATGACACCTATGGCGCCGAGTATGCTGCGGTGAAGGTCCAGCAAAAGAAGAACCAGGAATTTGCCCAGGATGCCCATGAAGCCATTCGGCCCACCAGTACGCTGCGTACACCGAAGAGTCTGGAAAGTGTCTTGAATCGCGATCAAATGCGGTTATATAGTCTGATCTGGTCTCGGTTCGTGGCCAGCGAGATGACCCCGGCGGTCTACGACACCATCACCGCGGACATGGTCCAAAACGACGTCCAATTCCGGGCAACCGGCTCCCGGACGAAGTTTGACGGGTTCACCAAGCTCTATACCCAGAGCGGTGATGAGACCAAGGACAGGCTGTTACCGGAATTGAACGAAGGCGACAGCGTGACGCTGAAGAAGACTGACCCGGCTCAGCACTTTACCCAGCCGCCGGCCCGCTATACTGAAGCCAGTCTGGTCAAAGCCTTGGAAGAAAACGGTGTCGGCCGGCCCTCCACGTATTCTCCGACCATCGACACGATCCAGAAGCGGTACTACGTGAAACTCAATGGGAAGAGCTTTGAGCCCACTGAGCTGGGCGAGATCGTCAATACGCTGATTGTGGAATTCTTCCCGGATATCGTCAACGTGGACTTCACGGCGAAACTGGAAGATGAACTGGACGAGATTGAAACCGGCTCAGAGAATTGGGTCAACGTGGTGGATCAGTATTATCAACCGTTTGCCAAGGAAATTGATTCCGCGGAAGAAAAGATTCAAAAGGTCCAGATCAAGGATGAACCCGCCGGCTTCAACTGCGATATCTGCGGCGCGCCGATGGTCATTAAATTAGGCCGCTACGGCAAGTTTTACGCGTGCAGCCGCTTCCCGAACTGCCGCAACACGAAACCGATCGTCAAAGAGATCGGCGTCATTTGTCCCAAGTGCGGCATTGGCCAAGTGGTGGAACGCAAGTCCAAGCGTAACCGCTTATTTTACGGCTGTTCCCGCTATCCGGATTGCGACTTTGTTTCCTGGGATAAGCCGGTCGGCCGGGACTGCCCAGTCTGCGGCCACTTCTTAGTGGATAAGAAAGTCAAAGGCGGCCGCCAGGTGCAGTGCCCGAATGGCGATTACGATGAACCGATTCAGAAGTAA
>SRR1151209_00079 hypothetical protein
ATGGAGAGGGCTCAGGCCGGCGGTCAGAAGCGTAGGCGTAAGAGCCAAGGCGCCGAAAACCCGCACTTAGGTTTTTGGCGCCTTGGCTCTTACGCCCTAGCTTCTGCCGGCCTGAGCCCGTTTACGCGGAAAAATTGCTTGGTCTCCTGCACTGCCATGCTAACGCTCCGCAAATTGCGGCACTAG
>SRR1151209_00080 DNA processing protein
ATGGATGCCCGCACCAGTTTATGCCAACTCTTTCTCTCTGGCGCCTTTACCAATTATCAATTGCTGCTCCTGGCCCGGCACGCGGCCGATTTCCCCCACTGGCAGCCTTGGCTGGCGGCGGGGCAGAGGAGAACAAAGCCCGCTAAGTGTGCCCAGCAAACAGCGATCTTGACCGCTGTCTTAGCGGACCGGCCAGTCGCGCCGCCAATCGCCGCCGGGACCCAACTGCTGACGGTGCTGGATTCGGCGTATCCCTTGCGTCTGCTGGAGATTTACGATCCGCCGGCGGTGCTCCATTGTGCCGGCCATTTGGCTTTGCTGACTCAGCGCACCGTGGGGGTCGTGGGTACCCGGACCTGTTCGGCCTATGGTCAGGCGGCTGCGGCCGCCCTGGTTCCGCCGCTGTGCGCCGCAGACGTGGTCATCGTTTCCGGTTTAGCCCGAGGCATCGACAGTCTGGCCCATCGCTTGGCCATGGGTGCCGCCGGCAGCACCATTGGCGTGATCGGCAATGGGTTGACTCATTTTTATTCCCGAGAGCATACTGCCTTGCAGCAAGTGATGATGCACGACCAGCTGGTGCTCAGCCCATTTCCGCCAACTACGCCGCCACGGCCATACCAATTTCCCCAGCGGAACCGGATCATTGCCGGATTGAGCCACACCTTACTGGTTATCGAAGCCCGTGAACGCAGCGGCAGTCTGATTACCGCTTCCTTAGCTCAAGATGCCAATCGCCTCGTCGCCGCTGTCCCCGGCCGCATCTGCGACCCGCTTTCTGCTGGATGTAATGCTTTAATCGCGGACGGGGCAATCCCTGTGCGCAGTGCCGCGGATCTATTGCGGGAACTGCCGGATAAGGCGTTTTAG
>SRR1151209_00081 ribonuclease HII
ATGCCTAAGCCGATGTCAGTGGCCGCGTTAAGAAAGGCTTTGCAAACCGGGGCTTTGGATGCGGCGGCGATTGCTGCGCTGGCCAGTGATGATCGGGCCGGTGCGCGTCAGCTCTATGCCCAATACCAGCGGCAGCAGGCCAAATTGACCGCAGAGCGGGCGTCATTTACCCACCGGCTGCATTTTGAACATGAATTGTGGCCAACCTATCCGACTATTGCCGGCATCGATGAGGTGGGGCGCGGCCCATTAGCCGGACCGGTGGTGACCTGTGCCGCCGTTTTACCGCCCAGTGTCGATTTACTGCTGGTCAACGACTCAAAACAGCTCACGCCGGAAAGGCGGCTGGCCCTGTTCAGTAAAATTATGGCTGAAGCGGTGGATGTGGCCCTGGGCATTGCCACACCGGCGGAGATCGATCGCTATAATATTTATCACGCCACGGAAATCGCCATGGCCCGGGCGGTTCAGGCTCTTTGGCAGCAACCGGATTATCTGTTGGTGGATGCCATGCACGTGCCGGTGACGATCCCCCAGCGCAAGCTGATCAAAGGGGATGCCCGCTCCGTGAGTATTGGTGCGGCCAGCATTATTGCCAAAGTGTGCCGGGATCGATTGATGGATACGTATGATCAGGTCTATCCGGGCTATGGATTTATCCACAATGCTGGCTACGGGACGGCGGAACATTTAGCCGGACTGCGTCAGTTAGGCGTGACCCCAATTCACCGCCGCTCCTTTGCGCCGGTCCAAGCGGCATTGCACCATGAACTTTAG
>SRR1151209_00082 ribosome biogenesis GTPase A
ATGGCGACTATTCAGTGGTATCCCGGCCATATGGCGAAAGCCCGCCGGCAGGTGACGGAAGCATTGACCAAGGTAGATATTATCTACGAAATCGTCGATGCCCGCGTGCCGGAGTCATCCCGCAACCCGTTGCTGGATGAAATTGGTCAAGGCAAAAAACGATTATTGGTTTTGAACAAAGCAGATTTGGCCAATCCGGCGGCGACCCAGGGCTTTATCGAATACTATCAAGCCCAAGGGTTGCCGGCGGTGGCTATTGATGCCCAGCACACGAAGGGGATTCAGCGGATCATCGCCGAGACCCATACGGTTTTAGCCGACTATATTGATCGCCAGAAGACCAAAGGCGTGCGCAACGTCTTGCTGCGGGCGATGTGTGTCGGGGTGCCCAACGTGGGCAAATCGACGATCCTCAATCGCTTAGCTGGTCGGAATATTGCCCAAACTGGCAATACACCGGGGGTGACCCGGGCCCAGCAATGGATCAAGACCGGTGAAGACATTAGTTTGTTGGATACCCCGGGGATTCTTTGGCCCAAGTTTGAGGACCCCCTGGTGGGCAAGAAGCTGGCGTTGACTGGGGGCATCAAGGATACGTTATTCCATGCGGATGACGTCGCATTATTTGCGCTTGAAACGCTAGTCGCCCAAGTGCCTGATGAAGTAAAGCACCTTTATCGGGTGACAGACGCCGACTTGCAACAGGACCTGCCTGACTTGTTAATGACAATGACGGCGCGGCTGGGATTCAAAGACGACTATGACCGGACCAGCTGGGTCATCATCAACGATGTGCGCAAGGGTAAACTCGGCCGGTTCACTTGGGATGCGGTGCCGCAGCATGCCTAA
>SRR1151209_00083 peptidase S41
ATGGCTAAGGATAATGAGCATCCAGAAAATCCGGCGCAGGTACCGCCCACGCCTGAAGAAAAGCCGGTCAAACGGTATCGGCTGCGTACGGTGATCATCACCGGGGCCGCCGCGCTGATCATTGGCGCTGGTGGGACCGTGGGGGCGGGCGCCTTGTATTTGCATCAGCAAAACGCCCAGGCTGATGCGGATGTGACCTACGTACCCAATTCCTTCAAAGATCTGTTGAAGGTCTACAGTGATGTCAAAAACAATTATTACATCAAGACCAGCGACACTAAGCTGGTCACTGGGGCCATCAACGGGATGCTCAAGACCCTGAACGATCCATTTTCCCAATACCTGCAAGGCAGTGACGCTAAAGAGCTGAACACGACGATTTCCGGGTCCTTTGAAGGTATCGGTGCTGAAATCAGTCAAGCCGACGGCCACATTCAAATTGTCTCCCCGATCAAGGGCAGTCCGGCGGACAAAGCCGGGTTGAAGGCTAAGGACATCATTACCGCGATTGACGGCAAGAGCACCCAGGGCTGGTCCACGACTAAGGCTTCCAGCACGATTCGAGGCAAGAAAGGGACCAGTGTTACGCTGGCCATTAAACGGGGCAGTGATACCTTTAATATCACCATCAAACGCGGCGTCGTGCCGCTGACCACCGTGACTGGCGAACTGTCTGACCAGAATAAAAAGGTCGGCGTGATCAGCATCACCCAATTTGCGGACAATACCAATAAAGAACTCAAGAAGTCGATCACTAGTCTGCGCAAACAAGGGGCCAAGTCCTTTGTCATTGATCTGCGGCAAAATCCTGGCGGGTTGCTGCCCCAGGCTTTGGAAACGGCCAGTATGTTTTTGAAGGACGGGCAGCGGATCATGCAGGTTCAGCAGCGCGACAGCAAACCGGAGATTTTTACCGCTGGCAAGGAATACGATGACGGCTTCAAAGTGACCGAACCCGTCACCGTGCTGATTGATTCGGGCAGTGCCTCTGCTTCGGAAATTTTCTCCGGCGCGTTGCAGGAATCCCGCCGGACCAAACTGATCGGGGAGAAGTCCTTCGGTAAGGGCGTCGTGCAGACTGTGTCGCAACTTTCTGGCGATAGCGAAGTGAAGATCACCACGGCCAAATGGTTGACGCAGTCCGGCGGCTGGATTCAAAAGAAGGGTCTGACTCCGGATATTAAGGTCAGCTATCCAGCGTATGCCTCTTGGCCGCTGCTGAATACGAAAAAGGTCAACAAGCCGGGGACAGTGGCGACAGATATTGCCACGGCCCAGAAGATTCTGAATCTGAGCGGGGCTAAGCTGACACAGACTGCCGGCTACTTTGACAGTGCGACGGAAACAGCGCTGAAGGCCTTCCAGACGCAGCAAAAGATCACCGTCAGCGGTGAGTTGGATAGCGCGACGAAGACGGCCTTGAACAACTACGTGTATGCCCAGGCAACGAAGAGCGATCCGATGCTGACAAAGGCGGTGGAGACCGTCGCGGCAGAAAAATAA
>SRR1151209_00084 hypothetical protein
ATGGCGCACCAAAAACGCAGTTTTTATTTTTGGTTGATGACCCAGCGCAATTCGGAAAGTGTTGACGAAGTCGCGCAGTTTGCTAATAACGCCTTCTTTGATCAGGCTTTTCCGAAGCAGAGCCATGACTACGACGAACTCAGCAATTATCTGGAATTGAACGCCGGGTATTTGCCCAGTATGACGATTTTTGACGACGCCTATCGCGCCTATCTGGATCAGGATAGTATTTAG
>SRR1151209_00085 membrane protein
GTGCAGCAAAGCAACACCCGGACGGCTGAAAAAGCGAAGAAGAAACCGGCAGTGCCCGCGGCTAAAGGGCCGAGAAAGCCGCACAATCCCTGGCGCTGGGCATTCTTGATCCTGGCCGGGATCGTTTTGGGATGCGGTATTTTTCTTGGTGTCCGGATTTTCACTCCGGCCGCGAATACCCCTAAGGTGACTCAAGTCGCCGGGGCGCCTTCGCTGACGGTGGCCTTGAACCGCAAGCAGATCAACCAGCTGACCCAGCACTACCTGGATGATTATTTAAAGGACAGCAAGATCAAGTACCAGCTGCGGGTCGAAGAGACGAGTGTCTTGTTGATCGGTACGGTGAAATTTTTGGGCAGTTCGATTCAATTCAATTTGGTACTGACCCCCTATGTTCAGGATAATGGCGATGTGCAGCTGCGGGCGAAGCAGCTGGCTATCGGCAGTTTAAACGTGCCGGTCAACTTTGTCTTGAGTTTTGTCCAATCCAGTTATAAGCTGCCCAAATGGGTCTCGGTGGATCAAAAGCACGAGACTATCATGCTGCACCTTACGCGGTTCAAGACCGCTGGCGGGTTCCAGATCACAGCCAAACGCTTGGATTTTGCGGCTGATCAATTTGTGTTTAACGTATATTTACCCGATTAA
>SRR1151209_00086 lipase
ATGAAGAAGTTAGGCCGCTGGCTGGTGAATATTGCCCTCTTGGCCGCTGTCACGGCAGTAGTGAGTACGCTGCTGCTCGCCGTTGTTCCTGCCGCTGACCTGGCCAACGTCACCCCCAAGGGCCAAACCGCGCCGGCCGGGAAGACCTATAACTTAGTGGCCATCGGTGATTCCCTAACTTACGGGACCGGCGATGAGGCCAATCAAGGCGGCTTCGTCGGCCAGACCGTTCAACGCCTCCAAAGCGATGATGATCTGCGGGTCAATAGCGTGAACTTTGGCCATCCCGGCGATACTGCGCAGCAGATTCTGACCCGGGTGGAAAAACAGCCGGCGATTGCAAAAAACGTGAAACAGGCTGATCTGATCACGATCACTGCTGGCGGCAATGATTTGATGCAAACATTGATGAAAAATGGCGCGGACCTGAACAGTCGGGATGTAACCAAAGCCGAGGCAGCGTTTGGCAAGAATATGGAAAAAATGGTCACGACTTTGCGCAGTCAGAACGCGCACGCACCAATTTACATCTTGGGCGTGTACAACCCGTTCTATGTGTATTTTTCCCAAGTGACGCAACTGCAGACGATCATGCATGGTTTCAATCAACGTACCAAGACAATGGTCAAGCGCATGGCCAATGTATATTACGTGGATGTGGACAGCGTGCTGACCAAGGGTGACGGGACGGTGGCCAAGAGCGGCAAGGTGACCAGTGCCAAGTCGCTCCAGGAGCAGATCGCCGACAACGATTCCACCAATCCGTATTTGTCGACCAGCGATCACTTCCATCCGAATCATATCGGCTATGGCCGGATGACGGATCAATTATTGAAGGTATTAAAGAAAACGAAGGGACAGTGGCAATAG
>SRR1151209_00087 DegV family protein
ATGACGATCAAGATCGTGACGGACTCCTCAGTGGAGCTGACACCGGCAGAAATTAAACAGTATGATATCCACATTGTGCCATTGAATATAACAATCGATGGGCAGAATTACGTGGATGGGCGTGATATTACGAAGGCCGCCTTTATGCCCAAAATGGCGGCGGCCAAGGCACTGCCCACCACTTCCCAGCCGGCCATCGGAGATTTCTTGACGGTTTACGATAAGCTGGGCCAGACTGGTGACGAGATCCTGGCCATCCACATGACCGAGGCTTTGTCCGGGACAGTGAATGCCGCTCGCCAGGCCGGCGTGATCTCCACCAGCAACGTGACGGTGGTCGATAGCGGGTCGATTGACCGCGGGCTGGCCTTTCAAGTGCTCACAGCCGGCAAGATGATCGCTGAAGGGGCCGAGATGCCGGCGATTCTCAAACGGCTGGCGGCGATCAAAGCGCACACTAAGGTGTATGTTGCGGTGTCCACGCTGGCTAATCTGGTCAAAGGCGGCCGAGTCAGCCGGACCGTGGGGCTGGTGTCCTCGCTGCTGAATATCAAAGTGGTCTTGGAGTTAACCAGCAGCGGCTTGGACGTCGTGGTCAAAGGCCGCGGGCAAAAGACGCTGACGAAGTTCGTGGACAGCCAAGTTACGGCCCTCAGTCAGATGAGCGACGTGGCCGGGGTCGGCATTCCCTATGCCGGGGACAAGCCCTTTGCGGAGCAGATTGGCCGGGATATCCAGGCCGTTTTGCCAGACACGCCGATCCTGGTATCGCCCACCAGCCCAATTGTAGCGACCCACACCGGGCCGGGCGCGTTTGCGATTATCTACTACACGGATCCGGAATAA
>SRR1151209_00088 dihydrofolate reductase
ATGTTAGCTTTTATTTGGGCGGAAGACCGCAACCATTTGATCGGTACCGATGACCACTTGCCGTGGCACTTGCCGGATGATTTACACTATTTTAAGAAAATCACTGAAGGCCACACCATCCTCATGGGCCGGCGGACCTGGGATTCTTTACCCACCAAACCGCTGCCGAACCGAACTAGTATTGTTCTGACTCACCGGCCGATCACCACGCCCGGCGTGACTACTCTGGGGGATGTCGCGGCGGTCCAGGCGTATATTCAAGACCATGCCGCCGAGACGATCTTCATCATTGGCGGGCGCTCCTTGTTTGCCGCCTTCATGAATCAAGTGGATCGCTTATACGTGACTCGCATTGATCATGAGTTTCCCGCTGGCGACACATACATGGTGCCGTGGGATCAAAACGACTTTCAAGAGATTAAGCGGACACCTGGGCAGGTCAGCGAAAAAGCACCGTGGCCCCACGCCTTTGTGGTCTATGCCCGGCACTGA
>SRR1151209_00089 thymidylate synthase
ATGCCGGCCATGACGACCATCGTAGAACAACCGTATTTAGACTTGCTGACGCAAATTTTGGCAACGGGGCACCACAAGACAGACCGGACTCAGACTGGGACGATGAGTCTCTTTGGACCGCAGATGCGCTTTGATTTAAGTCAGGGGTTTCCACTGTTGACAACGAAGCGGGTGCCGTTCGGCTTGATCAAGAGCGAATTGCTCTGGTTTCTGCACGGGGACACCAATATTCGCTTTCTGCTCCAGCATAAGAATCATATCTGGGACGAATGGGCCTTTGCCCGCTACGTCGCCAGTGATGCCTATACCGGTCCGGACATGACGGATTTTGGCCATCGCCGGCTGAACGATCCGGCCTTTGCTGAACGCTATGCGGCGGTGCATCACGACTTTTGCGAGCAAATTTTGACCGATGATACCTTCGCTGCCCGGTTCGGCGATCTGGGCCACATTTACGGGTACCAGTGGCGCCACTGGCGGACCAGTCAGGGGGAGACCATAGATCAATTGGCTGACGTGATTGAGCAAATCAAGACCCATCCCGATTCCCGGCGGTTGATCGTAACCGCCTGGAATCCCGAGGATGTGCCGACGATGGCCCTGCCGCCCTGCCACACGATGTTCCAGTTCTACGTGGCCGACGGCAAGCTGTCCTGTCAGCTCTATCAGCGCAGCGCCGACATGTTCCTAGGCATCCCGTTCAATATTGCCAGCTATGCGCTGCTGACCCATTTAGTGGCGGCTCAGACCGGTCTGCAGGTGGGCGAGTTCGTCCATACGCTGGGGGATGCGCACATTTATGCCAATCACGCGGCGGCGGTCCAGGAACTGCTGACGCGGACGCCGCAAGCAGCGCCGACGCTGACGATCAAGCCGGATGTCGCAGACATTTTCTCCTACACCATGGCCGATATTCACGTGGAAAATTACACACCGGCTCCGGCGATCAAAGCGCCGGTGGCGGTTTAA
>SRR1151209_00090 ATPase component of ABC transporter with duplicated ATPase domains
GTGAAGGCATTACAAGCCACAGGATTACAGTATGCATACGGCGATAAAACACTCTTTACGGATCTCGCACTGACCGTGACCCCGAATCAGCGCATCGGACTGATCGGCTTGAACGGGGTGGGCAAGTCGACCTTGCTCAAGATCATTGCCGGCCGGCTGGCGCCGGAGGCCGGAACGATCACTACCGCCAAGGGTTACCGAATCAATTATCTGCCCCAGACACCTACTTTTCCGGCCGGTGCTGATGTTTTGACGGCTGCCTTTGCCGGTGCCGCGGATGATTTTCAAATGGTTCGGGATTACGAAAAGGCTTTGCGCCATTACGAAAAGGATCCCGCTGATCAGGAGGCCGCCAAGGCGTATTACGCGGCCAACGATATGATGGACCGGCACAATCTTTGGACCATCGAAGCCGATGTGAAGAGTATTTTGACCCAATTAGCCATTCCGGACATGACGGTTCCCGTGGCAACCCTATCCGGCGGTCAGCAGAAGCGGGTGGCCTTGGCGCAAGCCTTGATCTCACCGGCCGACTTGCTGCTGCTGGATGAACCGACCAACCATTTGGATTATCAAACAGTGGATTGGCTTGAAAAGCGGTTGTTGGCCTATCCTGGCGGGATCGTCTTTGTGACCCATGATCGCTATTTTCTAGATCATGTCGCCACGGACATTGCTGCCCTGCGCAACGGTCAATTACAGATGTATAAGGGAAACTATCAGGATTATGTCGCCCAGCGAGCCGCCCAGGAAGAGCGGGAGGCAGCGCAGACGCACAAACAGCACCAGCTATACAAACAAGAGCTGCTGTGGATGCAGGCCGGGGCCCAGGCCCGGACCACCAAGCAAAAAGCGCGAATCGAGCGGTTCAATTCGTTGTCCAATACGATCGACGCGACGCCGGCGGCCACTGGTCAGGTGAGCATTGCTGCCAATACTCACCGCTTGGGCAAGGAGGTCTTTCATCTGGATCAGGCGTCCTTGACCATTGGCGGCCACCCGATCATTCACGATTTTTCGTGGCGCATCGGGCCCACCGGCCGAATCGGTATTACCGGGATCAACGGAGCGGGGAAGACCACCTTTCTGAACATTCTGGCGGGCAAACAAAAGCTGGACGCCGGGACGCTGAATGTCGGCGAAACGGTACGCTTGGCCTACTATACCCAGCAAATGCCGGCGATCCCCGAGGATAAGCGGGTCATTGCCTACATTACGGATACGGCCAGCAGTCAAACGATCAACGGTGAGACAGTATCAGCTAGTCAATTACTGGAACGCTTCCTGTTTCCGCCGCGGATGCATGGGCTGCGTATCTCCCGTCTATCTGGCGGGGAGAAGCGCCGCTTGTATCTGCTTAAGCTGCTGATGGGCGGACCCAACGTCCTGCTGCTGGATGAACCGACCAATGACTTGGATATTGAGACCTTAACGATTTTGGAAGACTATTTAGATACATTTCCGGGCGCCGTGATCACCGTCTCCCATGATCGGTATTTCCTGGATAAGGTATGCGACAGCATGCTCTGGTTCGCCGGGCAGGGCCAGATCACTCCGTTTACCAGCGATGTGGGGACTTTCTTGAGTCATTTAGCCGCTGCGGCGCAGCCAGCCCCAGCCAATACGGCTGCGCCAACCAAGCCGGCGCCAGCCCCGGCAGCGGCTGAGAAGAAAAAGCTGACATACGCCGAGCAAATCGAGTATGATAAACTCACTGATCAGATCGATCAGTGGGAACAAACCCAGGGCCGCTTGGAGAAAGCCATGGTGGCTGAGGCCGCGGACTACAACAAAGTCGCGCAGCTGCAACAGCAGTACACGGATTTGCAGGCCAAGCTGCAACCAGCCATGAAACGCTGGGAATACCTGGCTGATTTTGCAGAGGATTAG
>SRR1151209_00091 tRNA CCA-pyrophosphorylase
ATGCGGTTGTCGCCGTTACCAGCAGAGTTTGAAGCAGCAGCGCCCGTTTTGCGCCGATTGAACGATGCTGGCTATGAAGCCTATTTTGTTGGGGGCGCAGTGCGCGATGCCTTGCTCCATGATCGGATTCATGACGTGGACATCGCCACCAGTGCCTATCCGGCCGAAGTGAAGGCGCTATTCAAACGGACGGTGGATACCGGTATTCAGCACGGAACGGTGACGGTTTTGCAGCCCCAGGGGCAGTATGAAGTGACCACGTTCCGTACGGAATCGACTTATCAAGATTATCGCCGGCCGGACCATGTCACTTTTGTCCGCTCGCTGCGGGAAGATCTGCAGCGCCGGGACTTCACCGTCAATGCGCTGGCCATGGATCATACCGGTCAGATCACAGACTTGTTCGATGGTTTGGGCGACTTGCAGCGCCATTTATTGCGGGCGGTGGGCAAACCCGAGGAACGGTTCCATGAAGATGCCCTGCGCATGATGCGGGCGGTGCGGTTCCAGAGCCAGTTATCGTTCACGATTGAACCGGCCACGGAAGCCGCAATTCGCCACCACCACCAGTTATTAGAAAAAATTGCGGTGGAGCGGATCAATATGGAATTTGTCAAAATGATGGCGGCTCAGGATCGGGCCAGCGGATTGAAGACATTTATTGATACCCAGCTTTATGCTGCCTGTCCCGGCTTGGCCGGCCAGCAGATGGCGTTGACCAGCATGCTGGCTGACGTGCCCCACAGGTTGGCCGAGAGCGGCAGTGTATGGCTGCGCCTGGTATTTGCCCTGGGCCTGGCTGAAAACGCCGTAGGACCGTTTCTGCGGGCCTGGAAGACCACAAATACCGAGCGGCGCCAAGCAGCCCGGTTATTGCCGGTTTTAGCCAAAATTCAGGCGGGGACCGCTGGGGCGTGGGATCTGTATCAGGCCGGGCCGGAATTTGACTCAGTATTATTACCCGTTGCCGCGCAATTGGGGATCGCTGTTGATCAGTGGCAAGAACGCTATGCGGCGCTGCCGATTCATCAAGCCCACGACCTGGCGGTAGACGGCCGCACAGTGATGCAGGCCGCCCCCGCTCTGCGCGGGCCTGCCCTGGGTCAGGCGATGACGGCCATGACCCAAGCGGTCGTGGCCAGGCAAGCGGCCAATACGCCGGCGGCGTTACTGGCCTATATTCAGAAAACGCAACAGACAAAGGATGGTCAATCATTGTGA
>SRR1151209_00092 YitT family membrane protein
ATGTGGCGCAAACAATTGACCAGAACTCTGCGGGATCTATTGGCGATCGGTTTTGGCTGCTTTTTCTATGCCTTCGGGCTGGTCGCCGTCAACATCAAGAATCATTTGGCGGAGGGCGGCATCACCGGGATCACCTTGATCCTGCGGTACTGGTTCCATATTGACCCGGCTTATTCCACGATCTTTTTGAACATTCCTTTAATTATTCTCGGCTATAAATTCCTGGGTAAACGGGCCTTAGCCTACACTATCTACGGTACCGGCATGCTGTCGGCCGGCCTGTGGGTCTGGCAGCGGCTGGCCTTTGTCCAAAATTTGAATCTGCATAATGACCTCTTCATTGCCGGTATTTTAGCCGGGCTATTCGGCGGTATCGGTTCTGGGATCATTTACCGTTTCGGCGGCACCACCGGCGGCAGCGACGTCCTGGCTCGGATCTTCGAACAGGAACGGGGCATCCCCATGGGCCGGACCCTGCTGGTCTTCGACATCCTCGTGCTGGTCAGCTCCCTCTCCTACCTGGATATTGAACACATGATGTACACCCTGCTGGCTTCGTTTGTCTTTTCCCGCATCGTGGATCAGACCATGGAAGGCGCCTATTCCGCCCGGGGGGTCTTCATCATTTCCAAGAAACACCAAGAAATTGGCCAGCGGATCATGGATGAAATGGAACGGGGCATCACCTACTTAGACTCGGAGGGCGGGTACCACCAAACTCCGCAAAAGATGCTGTATTGCGTCGTCTCGCCCAGTGAAATCGCCGATCTGCGCCGGCTGATCCAAGATGAAGACCCGCGGGCCTTCGTCACCATCGTAGATGTGCACGAAGCGCTGGGTGAAGGCTTCACGTATCAGCGGCCGCGGCGCAGTCTGTTCAGTCGGCGGTAA
>SRR1151209_00093 TPR repeats containing protein
ATGTCATATTCAGAACAAATGCTGACGAAACTGCAGGAAGATCACGATTGGACCAACGCCAAGAAACTGTTTGCCTTAGCATTGCGGCATGACGATGATGATACCCTCTTTAATTTGGGCGAACAGCTCTATGGTTTGGGTTTTACCCCGCAGGCTAAGCGCATCTTCGAAAAACTTCTGCGCGATCATCCCGATGAAGACGAATTGCGCACGTATCTCGCGGATATCGCGGTCAGTGCCGGCGATACGGATCAAGCACTCGCCCTTCTGACCGCCATTCCGAAGGACTCGCCGGCTTACGTTCAGGGCTTGCTGGCCAGCGCCGATGTGTATCAGACCATGGGGATTCCAGAAGTGAGCGAACAGAAGCTGAAGGAAGCCAAACGCTTGGCTCCGGATGAACTGGTGATCGATTTTGCTCTGGGCGAGCTGTACTTCACCTTGGGGCGGTATGAAGAGGCATTGCCGGAGTATCAGGCTTTGCTGGATCAAGGCATCGAGACCATGGCGGAGGTACTTATCGGCCAGCGTCTCGCGGCAACTTTGGCCGGCATGGGCGACTATGAAGAAGCAATCGCTGAATATCAGAAATTGCCCCGGGAAGCGCTGGACGCCGACACCACTTATCAGCTGGGGGTGCTCTACGGGGAGACCAAGCAGTACCAGCAAGCGATCACCACACTGACGGCGCTGCAGCAAAGCGACCCGGATTATGCGCCGCTCTATCCGGCGCTGGCCAGGGCCCAAGCGGCGCTGAATCAGCTGCCGGACGCCTTGGCCACCGTGCGGATCGGCTTAGGTTTTGATGAATTCAACAGCGATCTATTTAAACTGGGGTTCAATTATGCCACCCGGCTGGCTGACGAGGATCAAGCCGTCACGTTTGCCAAACAGGAATTGGCCCAGGATCCCGATGATCAGGATATGATCCTGTCGTTGAGTAATCTGTATGTTAAAGATGGGGATGATCAGGCCAATGTGGACCTGTTAACGGCGGCAGCGGCCAATCACGAGCTGGATCCGCAAATGTATTGGAACATCGCCAAATCCTACGAACGGCAAGAAAAAATGGACCAAGCCAAGGAGAATTATCTGTTGGCGTATCCCAGTTTTCGGGAAAACACCGACTTTCTTCTGGACTTGATCCGGTTCTTCCAAAGCATGGCGGCGCGTCCAGAACTGCTGGCGGCCTTGAAACAGTACTTGAAGCTGGTCCCGACTGATCTGGATATGCAGGACCTGTATGATGATTTACTGGATGAACCTTAA
>SRR1151209_00094 DNA-binding protein HU
ATGGCAAATAAAGCAGAATTGATCGACAACGTTGCAGCCAAGACTGGCTTGACCAAGAAGGACGCAACTGCTGCTGTTGACGCCGTATTCAGCACGATCCAAGCATCTTTAGCAAAAGGTGACAAGGTTCAACTGATCGGCTTTGGTAACTTCGAGGTCCGCGAACGCGCCGCTCGGAAGGGCCGCAATCCCCAGACTGGTGCTGAAATCAGCATTCCAGCCAGCAAGGTACCGGCTTTCAAGCCCGGCAAGGCACTCAAGGATTCCGTCAAGTAG
>SRR1151209_00095 GTP-binding protein EngA
ATGGCTAAACCTGTCGTGGCGATCGTCGGTCGGCCGAATGTCGGCAAGTCGACGATATTCAATCGGATCGCAAAGAAGCGGATCGCGATCGTTGAAGACCAGCCGGGGGTGACCCGGGACCGCTTATACGCTCCGGCGGAGTGGCTGGGTCAGGAATTTTCGCTGATCGATACCGGGGGGATCGACATTGATGATGCTCCCTTGATGACCCAGATCGTCGCCCAGGCCCAGATTGCCATGGAAGAGGCGGACGTGATCGTCTTCCTGGTATCGAACCAGGAGGGGGTCACCGAGGCCGACGAACACGTGGCCCGAATGTTGTACAAGGCGGATAAACCAGTAATTCTCGCGGTGAATAAGGCGGATAACCCCGAACAGCGCCAAGAGATCTATGACTTTTATTCTCTCGGGTTGGGTGACCCGTATCCCGTGTCCGGGGTGCAGGGGACCGGTCTGGGCGATCTGCTGGATGCCGTCGTCGCTAAGTTTCCGGCCAAGCAGGCGGATGCCAATGATGACAGCATCGAGTTCAGTGTCATCGGCCGGCCCAATGTGGGCAAATCGTCCCTGGTCAATGCCATCCTCGGCGAAGAGCGGGTCATTGTGTCCAATATTGAAGGGACGACCCGGGACGCTATCGATACCCGCTTTACGGACGATGGCCAAGCGTTCACGATCATTGACACCGCCGGGATCCGCAAGCGGGGCAAGATCTGGGAAAATACGGAGAAGTATTCGGTCCTGCGGGCCCAAAGTGCGATTGAACGCAGTGCCGTCGTGCTGGTCCTGATCGATGCCGAAGCGGGCATCCGGGAACAGGACAAGCACGTTGCCGGTTTGGCCCATGAGGCCGGCCGCGGCGTGATCATTGTCGTCAATAAGTGGGATGCAGTGCATAAGGATACCCACTCCATGAAGAAATTCACTGACGAGATCCGTGGTCAGTTCCAATACTTGGACTATGCCCCGATCGTCTTCCTATCGGCCAAGACCCATCAGCGGGTGAGTACGCTGCCGGCCTTGATCAAGAAAGTTGCTGAAAATCATGAGCGCCGAATCACCTCCAGCACCCTCAATGACGTGCTGCTGAAGGCCGTGGCGACCACACCGACACCCACCAGTAATGGTAAGCGGCTGCGGGTGTACTACATGACCCAGGTCAAGAGCGGCCCGCCGACTTTTGTCGCGTTCGTCAATAACGTTGATCTGATGCACTTTTCGTACCAGCGTTTCCTGGTCAACCAGTTGCGGGCAGCCTTTGACTTTTCGGGGACACCTATTGTTATTGTTCCCCGACAGCGAAAATAA
>SRR1151209_00096 30S ribosomal protein S1
ATGGACGAAGAAAAAAAGAACAACGAAGCTGAAGGCAGAAAGTTAATGGAGAATGCCTTGAAGAGCGTTCACGAGGTAAAAGTCGGCGATGTCGTGACCGGCGAGGTATTAGCCATTGACGATGAGAACCAACTCGTTGTGGGTATTGAAAACACCGGTGTCGAGGGTGTTGTACCATTCAAGGAGCTGACTGCCGACCGCAATGCAGACATCCACGACTTGGCTAAGGTGGGTGACAAGCTGCAACTCGTCGTCCTCTCAACGATTGGCAAAGACAAAGAGAACGGTAGTTATTTATTGTCCTTGCGTCGCTTAGAAGCACGGAAGATCTGGGACCAAATCGAAGAGGAATACAAGGCGGGCCACACAGTTAAAGGCAAGGTCACTAATAATGTTAAGGGCGGCTTAGTCGTTGACGTTGATGGCGTGCGCGGCTTTATCCCGGCTTCTATGGTTGAAGATCGGTTCGTTGAAGATTTGTCGACGTACAAGGGCCAAGAATTGGAAATGGCTGTTGTTGAAATCGAACCCAGCGAGAATCGGTTGATCCTTTCTCACCGGGCAGTCGTTGCGAAGCAAAAGGAAGCCGAAAAGAAGGCCCTCTACGAGAAGCTGCAACCTGGCGACGTCGTTGAAGGCAAGGTTGCTCGGCTGACAAACTTTGGTGCCTTTGTTGATTTGGGCGGTACCGACGGTTTGGTGCACGTTTCTGAAATTTCCTATGACCACGTTGACAAGCCTTCCGATGTTTTGAAGACTGGCCAAGACGTGAAGGTCAAGGTATTGAACGTTGATCCGGAACGGGATCGGATTTCCTTGTCCATCAAGGCATTATTACCCCAACCGTGGGATGATATTGAAGAGAAGGCTCCGGTCGGCTCTGTCCTTGAAGGCCAAGTCAAGCGGTTAGTGACTTTTGGTGCATTTGTTGAAGTGTTCCCGGGCGTTGAAGGTCTGGTGCACATTTCCCAAATCAGCCACGAACACATTGCCACACCGGGTGAAGTGCTGAAGGAAGGCCAAGACATCAAGGTTAAAGTCTTGAGTGTTGACCCGCAACAGCACCGGTTGGCTTTGTCGATCAAGGCGCTGACTGAGAATCCGCATGCTGGTGAAGAAGAAGAGGAACACGAAGGCGGCAGCAGCAATTATCGCCGGAGTGACCGCAGCAGCCGTTCCGAACGTGCACCGCGGCGCAATGACCGCAGCAACCGCGGCGGTAATGCTCCGCAGGCGCGTCCGGCAGCAAGCCGCAGCAATACCAAGGTCTCTGCCCCTGGCGAAGAGGAAGAGGATACTGGCTTCAGCTTGGGCGATTTGATCGGCGGCGCGTTGGACCAATTCAAGTCCGACAAGCAGGACGACCAAAAGGACGATAAGTAA
>SRR1151209_00097 cytidylate kinase
GTGCAAATTGCGATTGATGGCCCTGCTTCGGCAGGGAAGAGTACGATTGCTAAATTATTAGCTAAGCAGATGCACTACATCTACTTGGATACGGGCGCCATGTACCGGGCTGTGACCTGGTGGGCGCTCAAGCAGCACCTCCCGTTAAACGACGAACAACAGATTTTGCAAAGTCTAGGTACTGAGCCGATTGAGTTCGTTCCGGCAGCGGATGGCCAGCATGTACGCATGTTTGGTACTGATATTACCACGGCCATTCGCAGCGAAGAAGTGACGAATAATGTCTCCCAGGTATCCGCGCTGCCCGGTGTGCGGGCGGAAATGACGAAACGCCAGCGGCAAATTGCGGCGGGCCAAAATATCGTTATGGATGGCCGAGATATTGGGACGACAGTGCTGCCCCAGGCGGCGGTGAAGATCTTCATGGTCGCCAGTGTCGCTGAACGGGCGAAACGCCGGTTCAAAGATAATGCGGAAAAAGGGATCACCGTTCCGCTGGCTACGCTGGCCCAAGAAATTGCTGAACGGGACTATAAAGATTCCCATCGGGCCCAGTCCCCGTTGAAAAAGGCCGCCGATGCCGTGGAGATCGATACCACGCACCTGACGATCCCCCAAGTGGTGGATGCCATTGTGGCCGTCATCAACGAAAAAAAACAGCACATGGCGAAATAA
>SRR1151209_00098 hypothetical protein
ATGAAACAGGATCACGATGACAAGTTGAATAAGACATCGGCGCCCACGGGAGACAAGAAAGCAGCAAATGATGCTGAACACCCGTGGCAAAAGAAATTCATGGACGATCGCGACGATACTGGCAATTTGTCCCGGGTGGCGACCCGCCATCGGGATAAGAATATGACCAGTTTTGCGGTTGTCCTGGCAATTATTCTGGCTTTGCTGATGATCATCCCAATGGGCTATTGGGCATTTAATATGCGCAGCGGGAACGGCAGCAGCAGCGCCAATAAGATTACGGTCACCCAAAGCGAGAAGGACAGCACCTCAGCAGCAGCGTCTTCTCGGGCGGCGGCCTCGTCCCGGGCGCGGGCCAAGAAAGAAGCGGCCGCATCAAGGAAGGCTTCTGAAGCAGCAGAAAATAATACCACTGCTGTTTCGTCATCTTCGGTTGCGGCCAGCAGCAGCTCAACGGAGCAGCAGGCAGCATCGACCCAGACACAGGATAATTCAAACCAGCAAGCCGCGGCCAGCAGTTCAGCCGCGCAGACCCAGCAGCCGGCGGCCCAAAGCAGCAGCGCGCCGGCTCAGGCCAGCAGCAGTACCCCAGCGGTCACCGCTGGCGGCTCATATACCGTGAAGGCCGGGGATAACCCGTTCCGGATCGCGCTGAATCACGGCATGAGTTTGTCAGAACTGTACGCTTTGAACCCGTCGGTCCAAAGCGGCGGTATTATTCCGGGGCAAGTTTTAAAGGTGAAATAA
>SRR1151209_00099 ATP-dependent DNA helicase RecQ
TTGAGTGATGATTTGCATGCTGCTTTGCGGCAGCATTTCGGTTTCAGTGAATTCCGGCCCGGTCAAGAAGACGTGATTCGGGCGCTGCTGCAGGGGCGCAACTGTTTAGCTGTGCTGCCCACGGGGCAAGGCAAATCGCTGACTTACCAGCTGCCGACACTGCTGACCAAGCAGCTGACCGTGGTGGTCTCGCCGCTGATTGCTTTGATGATCGATCAGGTGAAGCATCTGCAGGAAGCCAACCTCGGTGCCGCCGTCGCGTTAAACAGTGAGCTGACCTGGGATGAGCAGCAAAGTGTACTGAACCGGTTAGACAAATGGCGATATCTCTTTGCTGCGCCCGAAACGCTGACCCGGCCAGATGTGGTTGCGGCTTTGCAGCATCACGGAGTCGGCTTGCTGGTGGTGGATGAGGCCCATTGCATCTCAGAGTGGGGCCCGGATTTTCGCCCGGCGTTCCTGCAGCTCGGCCACGTGCTTCAATTGCTCCAGCCGCAACGGGTGTTGGCTTTAACCGCTACGGCTTCGCCCCGAGTACGCCGGGATATTTGCCGCCGGTTGGGACTGACCGCGGCCAACACGACAGTGGTCAGCCGTTCAGTGGATCGGCCGAATATTTGGCTGGATACGTGTCCCGTGACCAGTGAAAAAGAGAAAGATACCCTGCTGCCCAAGCTGCTGGCCGCCATTCCCGGGCGAGTGATCATTTATTTCAACCGGAAGCAGCGGGCCAACGAAGTGGCGATCGCTTTGACCGCCCAAGGCATCGCGGTGGGCCGTTATCACAGCGGGTTAGAGCGGGATGAGCGGCGCAGTCTGCAGCATCAGTTCCGCGAGGGCTATATCCGGGTGGTGTGTGCGACCAATGCCTTCGGGATGGGCATTGACCAGCCCAACGTGCGGGCCGTTATTCATATGGCGCCGCCCACGAGTCTGGAAGATTACTTGCAAGCCATTGGCCGGGCGGGCCGGGACGGTGCGCCAGCGGCGGCGATCACATTATTGGCGCCAGGGGATATTCCCCAGCTGCAGCAGGATGCGGTCCGCGGGTTCCCACCCGCCAGTCTGATTCGGGCCTACTTTCACCGGCCAGCCCAGTTCGCTAAGGATGAGACGCCGGAAATTGCCCTGCTTAAACGGTATCGGGCATTTGCGGACGCTTCTGCGGTGACGCAATTGCTGGCTGCAACCCAGCAGACGCGGCAAACTTCAGCCGCGCAGATGGTGCATTTTTATACCGCGCCGGACACAATCTGCCGGCGGCAGCTGGTGCTGAACGCTTTTGATCCCGAGCCGCGGCAGGTGCATCATACGGCAGACTGTTGTGCCGTCACGACGCCCACGGCGCTGCTGCAGCACTTGACCACTTTGGCCTGGCCGGCCGATGCCGCGTTGCGTGTCCATCGGCCAGAACCGGTGCAATCAGTCGCCGTGCGTCTGGCCCAATTGTTTTAG
>SRR1151209_00100 hypothetical protein
GTGCCGACTTTCTTACACTACTTGTTTGCCGGGCGGCACGTGCGCCCGGTGACGATGTATCATATTTTACACGGGAAACGGACCTTTTCCAATTTGTATGCGGCGTTTATCAACGATTTACTGCCATTTTGGGGATTACTGCCGCACCTGTCCCGCCCGCGGTATGAAGAAATGATCGATTACCTGGTGCACCAGAAACTATTGACCGAAGCGCCGGACGAGACGCTGACGGCGCCCCCGGCCGCATTACCGGCCTGGTGGCCGACCCATGTGGCCGGACTGACCATGCCGGCGTATCGGGAGATTGGCGATATTCTGACGTTAGCCGTTCAATTGATCAGCCAAGTCCAGCACCAGGAGCGGCATTTTGCTCCCATCACGCCGCATCTGCTGATTCAGCAGCGGGTGAAGGGGTGGTACGAGCAGGCGGCTAAAACCGATTTGCCCGGGACGATTGCCGAATTCAAGAGTTTAGTGACAGCCATGCCTGAGCTGGCTGGTACCGTCTTGGTCAACCGGCTGGTGGGGGCAGAGACCGATGTAGCCAGCTGGCAAGACTTGGCGGCACATTTGGGGTTTGAGCCATTTCAAGTCCAGCTGGTCTGGATCGATGCGCTGGCTCAGCTTTATCAGGCCATCGCCGGCGGTCAAGCGGCCCGCTGGCAGGGCTTGCTGCCGCCGCCAACCCCAGCGGTGACCCGTAGTGCTCAGGCGACCATGCAGCTGCTGGCTGATCAGTCCGTGGATCAAACTGCCCAGCAGCGCCAGTTGGCGGCCAGTACGATTCGTGAACACATATTAGAGGCTGCCATGTTGGGGCCGGCTGTGATTCACGAGCAGCCAGGCTGGCGATTACCGCCAGCGAAGGCTGATCCGGTGGTCGATTTCTTCCGCGGCCGGTTGGCGGCTATTGCGCGTCAGCGGCAGTCAGGAGGGGTGCGCCTTGAGTGA
>SRR1151209_00101 ferredoxin
ATGACTGATTCGAAAAACGATGTGCGCCAATCATCTGACTGGTTCACCAAAATTGACCAAGAACGCTGTATTGCCTGCGGTCTTTGTGCCCTGCACGCCCCTGCCGTTTTTGATTATGACGACAACGGTGTCGCCTTTGGCAAACGGGACGCCAACCATGGGACAGTACCCATCCCGCCGGAACAACTGGCCGCCTTCAAAACGGCCTACCGCGACTGTCCCGTCCAGGCTATCTTGCGCAGCCGTCGGCCGTTCCCGCCGGAAAAGCCGGCGAAGCCTCGTCCTGACCATTATACGGAGTAA
>SRR1151209_00102 membrane protein
ATGCAAGCAAACCGTGGATTGGAAAAGTGGATCGGGATCGCCATCTTTGGTGCCTTGGCCGCGCTGGTCATGTTTATCGAAATTCCTGTCATGGGATTTCTCAAGTTGGATTTGAGTGATATCGTTGTTCTTTTTGCGATGAGTCTGTATGGTCTTGGTGCCGGGATTGGCGTTGCAGCAATCAAAGTCGTTGTTCATTTTATGTTGACCGGCGCCGGCATTGGCTCCTTAATCGGTGATAGCGCCGCGTTTATTGCGGCAATCGCTTTCGCGGTGCCATTATATCTGTTGTTGAATAAACTGGGAGATAGTTGGCCTCGGCGGATCGCCGCCATTGTTTTGGCCACTGTGTCGCTTACGGTGATCATGGCGGTGCTCAACTGGCTGGTATTGACACCGTTGTACGCCAATGTGATGAATATTAAAATTGGTATGGCGATGACGACTTATATCTTGACCATGGTCGTTCCGTTCAATTTATTGAAAGGCGTTGTCTTAGCGGCGGGCTTCCTGCCACTTTACTTCATCATGGTGCCTTTCATTAGTCGGCATCAATTGCGCGTCCATTAA
>SRR1151209_00103 hypothetical protein
ATGTTTGTCTCCGCTTACGCTATCTTCTTCCATCTAGACTATACTATCGGTCCCGGAGTTGCACCGGGTCCACCGCACAATGCGGGTCGCGGACTTTACCGCCGGTCGGGAATTACACCCTGCCCTGAAGACAAACCACTATTTAATTTTGATACCGTCATAGTAAACGAAATACCGCACGGCGTCAACTTATTTGCTGCGGGTTTCGACCAAATCGTACAATTCCCGTACTTCATGGGTACGCAGAGACCGGTATTCGCCAGCATTCAACCCATCTAG
>SRR1151209_00104 ribosomal large subunit pseudouridine synthase B
ATGAGTGAACGTTTACAAAAAGTAATTGCGGATGCCGGGGTCGCTTCCCGCCGCAAAGCAGAGAAACTGATTGCCACCGGTCACGTGACTGTGAACGGGGATACCGTCACGGCCATGGGGATCAAAGTCACCCCCCAAGACGCTGTAGAGGTGGATGGGGTCCCTTTGACCCAGGAGCGCAAGGTTTATTTCTTATTGTATAAACCCCGCGGTGTGATCACGTCAGCCCACGATGAAAAGGGCCGCAAAACCGTGGTGGATCTGCTTAACGGCGTCCAGGAACGGGTTTATCCTGTGGGTCGACTGGATTATGATACTAGCGGCCTGCTCCTGCTGACGAATGATGGGGAACTGGCGAATGGCTTGATGCACCCGTCGTTTCAAGTGGATAAAACTTACGTCGCGCGGGTCAAGGGTATTCCTGTGGGCGAGCAGCTGAAGCAGTTGGAAAAGGGCGTCGTTTTAGACGGCCGCAAGACCCGGCCGGCCAAGGTAAAAGTGATCCGCACTGAAAAGATCAAGAATTACAGCATTATCCAGATTACGATCCACGAAGGCTGGCACCATCAGGTCAAGCGGATGATGGAAAAGGTCGGGCTCCCCGTGGACAAGCTGTCCCGGGAACGGTTCGCTTTTCTTACCCTAGATGGGTTGAATGCTGGCGAATACCGGTCTCTGCGTACCCATGAAGTACGGGAATTGTACGATTTGGTCGAAACCCGCAGCAAATAA
>SRR1151209_00105 segregation and condensation protein ScpB
ATGAGCCAAGACCAGTTCAGCGCCGCTTTAGAGGCGCTATTGTTCGCTGCGGGCGAAGAGGGCATGACGCTCAATGACCTGGCCAGCACGTTAGGCATTGCCGTGCCGGCGGTCCGGGTGCAGGTTGAGCAGTGGGGCAGCGCGCTGGCGGCGGACCCGGAGCGGGGCGTTTACTTAGCGGTGTTTGGCGAGCGGTATAAGCTGCTGACGAAACCGGCCTTTGCCAACCTGATCCAGAATTATATGCAGGATGCCGGCAGCCGCCACCTGTCCCAAGCGGCTGTTGAAGTTTTGAGCATTATCGCGTATCAGCAGCCGATCACCCGCATCGAGATCGATGAGATCCGCGGGATTCACAGTGCGGGGGCATTGCAGACCTTGTTGGCCCACGAGCTGATCAGCGAGGCGGGGCGCAAAGACGCACCTGGCCGGCCGATTCTTTATGAAACGACCCAAACATTTTTGGATTATTTCGGTTTGGCCAGTTTGCAGGATTTGCCGCCGCTGCCCCATACCCAGGAACGGGCCGCTCCGGCGGCCGATCTGTTTGCCTCCTTTAATGCCCAGTTGGGGAGCGAAGAGGACACGACTGACGCAGAAGAAGAGGAGAAAAACGATGAGTGA
>SRR1151209_00106 segregation and condensation protein ScpA
ATGAGTACGCTGCCCCTGACCTTCTCGGTACAAGATTATACGGGGCCGTTGGATTTGCTGCTGCACCTAATTCGTCAGCAGAAAATCGATATTTACGATATTCCGATCGCCCAGATCACCAGTCAATATTTGGATTTCATTCATCACCAAGAAGTCCTCGTGCTGGATTCGGCCGGGGATTATTTGGTGCTGGCGTCGACGCTGATGGCCATCAAGTCCAAATTGCTGCTGCCGGATAATCCGCTGACTGTGGCGGATGATGAACCGGAAGATCCGCGAGAAGATCTGGTCAACCAGCTGCTGGTATACGAGAGCTATCAGAAGGTGGCCGGGATCTTGAAGGAGATGGCCGCTGATCGCCACCGCCGCTACGACCGAGAACCCCAGACCCCGCCAGCCGCCACGGCTCAGCCGCTGGCGCCGGGGTTGTTGACGATCGATGCGTTGCGGTTGACCATGGAACGGATCTGGCAGCGGCAAAAAGCGCCCCGGATGCCGCGGCGGACCATTCCATTGGAGAAGCATGTGCTGGCGACCCAAATGAACCGGATCAAGACATTTTTGCAGCACCTGGGGCCCCACCGGCCGGTGACCTTTGGCCGGCTGCTCAGCGAAGCGCCCAGTGTGGATGAGGTCGTAACCACCTTTCTGGCTGTGCTGGAATTGCTGAAGGATGCCACGGTGGCCTGTACCCAGGAAGATTTTGCCGCGCCGCTTTATGTGGAATGGCGCCAGGAGACCGCCGCGAAAGGAATGATTTCATGA
>SRR1151209_00107 hypothetical protein
ATGTTAGTTAAGTACAAGAACGACTACGAAAAAATAGCCATGGGCTTGCTTTCGTTCGTTCCGGATCTGAAACCATTGGATCATTTGCAAACCGAGATGGCGTTGTACCAAAATGATCCCGAATATTTGCTGTACCTGTGGCGGCCGGCAGATTCTCAGGATTTTGCCGGAGTCGTGGGGATTCAGCGCAGTCAGGATATTATTTTGGTCCGCCATATTTCATTGATGCCGTCGGAACGGGGCAGCCACCAAACGTTCATGATTTTTGATGAATTGGCAAAGCTCTATCCCCATCAGAAGTTGATGGGCACGTTTGAGACGACGCCGTTGCTTGTGAAGTGGGAAAGCAAGCGGACGGCCGCTGATGCGGGGGACGATCAGCAATGA
>SRR1151209_00108 tyrosine recombinase XerD
ATGAAAAATGAACAGGATATGCTGGCGGATTTCGCCCGCTATTTGCAACTGGACCAGGGCTTGGCGAAGAATACGCGGCTGGGCTATTGCCGGGACGTGGAGACGCTTTTTGCTTGGCTGAACGACCATCACGAAGCGCTGCCGGAGACCCCGGGCGCCATTGAGTCGTTCTTGCAGGATCAAGCAGCAGACGGCAAGGCAGTGCAATCTCAGATTCGGCTGGTGGCGTCGCTGCGCAAATTTTACCGCTTTGCCATGCATCGCCATTTAGTGCAGCATGATCCCATGACTTTGGTGGACGCCCCCAAAGCGACCCATCATTTGCCGGATGTACTGTCCGTGGCTGAGGTCCAGCAAGTTCTGGCCCAGCCGGATACAGGTAAAAAACTGGGAATTCGCGATCGGGCCATTTTGGAAACTCTGTACGCCACTGGTATGCGGGTCTCGGAGCTGACTCACTTGCAGCTGAGCCAGCTGCATCTGGATCTCGCCCTGGTCCAAGTGATTGGGAAGGGTGACCGGGAACGATTAGTGCCCATCGGTGATGACGCCATCAATTGGCTGACCCGTTATCTGCATGATGAGCGGGGTAATTACGTCAAGGGGCGGGAAGAGACTGTCTTTTTGAATTTCCGCGGCGGGCAGCTCTCCCGTCAAAGTGTGTGGAAAATGATCAAAAAGTACGTCGCGGCAGCCGGCATTCAGAAGGACGTCACCCCCCATACGCTGCGCCACTCGTTCGCGACGCATCTGCTGGAAAACGGGGCCGACTTGCGGGTCGTGCAGGAACTGTTGGGGCATGCCGATATCGTAACGACCCAGATTTATACCCATATTTCGAAAACCCGGCTGTTGGATGTCTATGCGCAGTACCACCCCCGCTATCATTAG
>SRR1151209_00109 S1 RNA-binding protein
ATGGCTGAAGAACAAACGGCATTGGTGCCGTTGCTGGGACAGGTAGTGGCCGCCCAGGTCACCGATAGTAATGATAAAGAGGTATTCGCCCAGGTCAGCGGTCACACCCTGGGTATTTTGCGGGCGGAGTTTGAGCAATCCCCAGCGCTAGGCGATACCGTGCACGCCTTGCTGTATACCGACAAGCACGATCGGCTGCGGGGCACGACCCAGATGCCCAAGGTGCGCATTGACCACTACGCCTTTGCCACCGTGACCCAGCGGATGCATTCGCTGGGGGTCTTCATTGATATTGGCTTGCCGGACAAGGACATTGTTGTTTCGAAGGATGTCCTGCCCTTTGACGATGCCGCGTGGCCGCAAATCGGCGACCGGTTGCTGGTGGCGTTATCCGTGGATAAAAAGGGCCGGCTCTGGGGTGAATTAGCAACGCCGGAGATTTTCCAGGCGATTGCGGCTCCGGCTAAGAGCGGCCAGCAAAACGAGACGGTCAAGGGGACTGTGTATAAGGTTCGGGAGATCGGCGCCCATGTCTTGACGGCGGATTACCAAGAGGGATTTATCCACCACTCCGAGTGGTTTTCGGCACCGCGGCTGGGCGAACAGGTTACGGCGCGGGTGATCGGCACCACCCAAGATCACGGTTTGAACCTGTCTTTGAAGCCCATGGCCTATGAAGAAATTTCGGACGATGCCCAGATGATCCTGGCTATGCTCCAGCAGGCCCCCCAGGGGACGCTGCCGTTTTCTGACCACAGCACACCGGATGAGATTCAAGAGACTTTTGCCATTTCCAAGGGTGCGTTCAAACGTGCTCTGGGCAATCTGCTGAAGCAGCGGCTGATCCAACAAGCCGATGGGCAGATCACCCTGGTTCAGCCGGATGAAAAATGA
>SRR1151209_00110 membrane protein
ATGACGACACAATGGGAGAGCTGGTTATTCTTAGCCGCCATTTTTGCAGTGGCTTTGCTGGGGAAAAACCGTTCTCTGATCATTGCCGTGCTGATCGTGGCAGTGTTGAAGCTGTTTCCGTTCACCGGTAAATTATTAGAAACAGTGGGGGCCCAGGGCATTAATTGGGGCGTGACGATCATTTCGGTCGCTATTTTAGTGCCGATCGCCACCGGTAAGATCGGGTTTGCTGATCTGCTCAATGCCTTCAAGTCCCCCGCCGGCTACATCGCAGTGGCCTGCGGTATTTTAGTGGCGATACTTTCTGCTAAGGGCGTCGGCTTGTTAGCGGCTAGTCCGGAAATGACGGTGGCCTTAGTGTTCGGTACGATCCTCGGAGTCGTCTTTCTCAAGGGTATCGCCGCTGGCCCAGTCATTGCGGCCGGCATCACGTATACGATCCTGACGGTGATCAATCAATTGCCGGCGGGTATTAAGTAA
>SRR1151209_00111 pyruvate kinase
ATGAAAAAGACCAAAATTGTTAGTACATTAGGACCGGCAAGTAACACGGTTGACTTGATCACGAAACTGATCGAGGCCGGCGCAAATGTTTTCCGGTTCAACTTCTCCCATGGTGATCATCCTGAGCATTTGGCTCGGATGAACATGGTGCATGAAGCCGAAAAGAAGACCGGCAAACTGGTTGGTATCATGTTGGATACCAAGGGTGCCGAGATTCGGACAACGACCCAAAAGAACAAGGGCTTCGAAGCCCACACTGGCGACGTCATTCGCATTTCCATGGATGACAGTCTGGAAGGCACACCAGAAAAGATCGCGGTTACTTATCCCGGTTTGTACGATGATACTCACGTGGGTGGTCACGTTTTGATCGATGATGGCTTGGTTGATTTGAAGATCACCGAGAAGGATGACGCTCATCGGGAATTGGTTACGCAAGTACAAAACGACGGCTACATTGGTTCCAAGAAGGGTGTTAACGCCCCGGGTGTTGAAATTCGGCTCCCTGGGATCACTGAGAAGGATACGGATGATATCCGCTTCGGCTTGGATCACAACATCAACTTCATTTCCGCTTCCTTCGTCCGCAAGGCCCAAGATGTCTTGGACATTCGCGAACTGCTGGAAGAGAAGCATATGGAACATGTCATGATCTTCCCGAAGATCGAATCCCAAGAAGGGATCGACAATATCGATGAGATCCTGAAGGTTTCTGATGGTTTGATGGTTGCCCGGGGCGACATGGGTGTCGAGATTCCGTTCGAAAACGTACCCTTCGTTCAAAAGCGCCTGATCAAGAAGTGCAACCAGCTGGGCAAGCCGGTTATCACTGCGACTCAGATGCTGGATTCCATGCAAGAGAATCCGCGGCCGACTCGTGCCGAAGTAACCGATGTTGCGAACTCCATCTTGGATGGTACTGATGCAACAATGCTGTCCGGCGAATCCGCCAATGGTAAGTACCCGGTTGAAGCCGTTTCAGCGATGGCGCGGATCGACGAACGCACTGAACAAGAAGTTGACGCTTCTGGTACGCTGTCTTATCAACGGATCCACGAATTCACTGGCGCTAACGCCACCGAATCCATTGGTGAAGCTGTCGTGAATACCGCCAATGATCTGCACATCAAGACCATTGTCGCCGCCACCAACTCTGGTTATACGGCGCGGATGATTGCTAAGTATCGTCCGGCGGCTGATATCTTGGCCATGACCTTCGACGAACGCACAGAGCGTTCTTTGACCGTCAGCTGGGGTGTCCACCCAGTATTAACGAAGCGCCCGGCCAACACCGATGAGATGTTCACGGCCGCCGCTGAATTAGCGCAAAAGGAAGGCTTCGCCAAGGAAGGCGACCTGATCTTGATCGTTGCCGGTGTACCGGTTGGTGAGAGCGGCACGACCAACTTGATGCGGATTCAATTGATCGGCTCCAAGCTGACGAATGGTCAAGGTGTCGGTGACGAAACTGTTGTCGGCAAGGCTGTTGTTGCTTCTTCTGCTGAGGAAGCCAACGAAAAGGCTGTTGATGGCGGCATCCTGGTTGTCAAGACAACCGATAAGGATTATCTGCCGGCTATTGAGAAGTCCAGTGCCATTGTCGTTGAGACTGGCGGCTTGACTTCCCACGCAGCAGTTGTCGGGATTGCCATGGGTATCCCGGTCGTTGTCGGCGCTAAAGATGCCACCACGCTGATCCAAGACGGTGAAGTCATTACTGTTGATTCCCGTCGCGGTATGATTTATCGTGGGGCCAGCAACGCGCTTTAA
>SRR1151209_00112 6-phosphofructokinase
ATGAAACGCATTGGTATTTTGACGAGTGGCGGCGACGCGCCCGGCATGAACGCAGCCGTTCGCGCCGTCACCCTCAAAGCTCTCCACGAAGGCCTCGAAGTCTATGGTATTAACTATGGCTACGCAGGACTTGTAGCGGGCGACATTTTCCCATTGGACAAGGATACCGTGTTGGACATTATCCAACGCGGCGGGACGTTCTTGTATTCGGCCCGGTATCCTGAATTTGCCCAAGAAGAAGCTCAGTTGCGGGGGATTGAGCAACTAAAGAAGTTCGGTATCGACGCTTTGGTCGTTATCGGCGGTGACGGTTCTTACCATGGCGGCCTGCGCTTGACGGAGCACGGGTATAACGCAGTTGGTTTGCCAGGTACCATCGATAATGATATTCCTTATACCGACTTCACCATCGGCTTTGACACCGCCGTTAATACAGCGCTGGATGCCATTGATAAGATTCGCGACACGGCGGCCAGCCATGAGCGGACCTTCATCGTGGAAGTCATGGGCCGCAACGCCGGCGACATTGCCCTCTGGGCTGGGGTCGCTGGCGGGGCAGAAGAGATCATCATTCCTGAGAAGCCATTTGATATGGCGAAAGTTGCTGAGCACATCAATACGGACCGGCAGGCTGGCCGGAAGCATTCGGTGGTTGTTTTGGCTGAGGGCGTCATGCATGCGCCCGAATTTGCCGAAGAACTCAGCAAGTTTGGTGATTTCCATGTTCGCTCGACCGTACTGGGTCACGTGCAGCGGGGTGGCGCACCGTCCGCACGGGATCGGGTATTGGCGTCCAAGATGGGCGCATTTGCTGTGGAGCTCTTGATGCAAGGCAAAGGCGGCTTAGCCGTCGGCATCGAGAACAACCAGCTGACTTATCATCCGATGGACGATTTGTTTGAATCAAAGCACAAAGCAGATATGTCCTTGTATGATTTGAACGGTGACTTATCTCACTAG
>SRR1151209_00113 DNA polymerase III subunit alpha
ATGGCGTTTACGCAATTACAGGTGATATCGGCATACAGCCTGTTAGAAAGTCCCACTAGGCTGACAGATTTGATCCAGGCAGCGGGGGAGCGTGGTTATACGGCGCTGGCCCTGACGGATCACAACGTGCTGTACGGCAGTGTTGACTTCTATCGAGCGGCGCAGACGGCAGGAATCAAACCATTACAGGGGCTGCTGCTGGATATGGCGCCGCTGCCTCCAGCGGCCGGGCCGGTGAATACTGACGATGGCGTGCCGGTACCGGCTGGCCGGCTGCTGCTCCTGGCATTGGATCAAACGGGGTACCATAATCTAATGCTGCTGTCGTCGGCCGCCATGACCGCACCGGCCCGGCAATGCAGCTGGGCGGCGTTCCAGGCACACCATGCGGGGTTGGCCGTGATCGTGCCGCCTTTCAATAGTTTGGTTGCTTTTTGGGCGCACCGGCAAAATGCGGCCACAGCCGCGGCGGTGCTCACCCAGCTGCAGACTGCCGCGGCGGACAGTGCGGTTTATCTGGGTATCAGCCGGCATTTATCGACCAGTGAGCAGCAGTTTTTGCAGGCTTTGGCGGATCAGCAGCAGCTGCCCCTAGCGGCTGTGGACGACGTGCGGTATTTGGCCCCCACGGATGCCTTTTCTGCCCAGGTACTGCAAGCGGTGGACCGGGGCGCCACGATGGATCACCCGGAGACCTTGGCGGCGACCCGGGGCCAGTTCTATTTGCCGCGGGACAAGGACGCGGAGGAAGCTTACATTCAGGCCGGACTGCAAAGTGCTGTCGAGAATACCGCCAAGCTGGCGGCCCAAGCCAATGTCACGATGACCTTCAAACGGGCAGAACTGCCGCATTTTCCGACCCCCAACGGCGAAACGGCGCTGGCCTTTTTGACGACTCTGGCGGAGACCGGCCTGCAAAAGCGCTTTGCCGGCCAAAGTGTACCGACGGCGTATATCCAGCGGCTGCACTATGAGCTGGGGGTCATCGATCAGATGGGCTTCCCTGATTATTTTCTAATCGTCTGGGATGTCATGAACTACATGCACCAAACCAACGTCATGACCGGCCCTGGCCGGGGCTCAGCGGCCGGCTCGCTGGTCAGCTATGCGTTGGCGATCACGGAAGTCGATCCGATTCAGTACCATCTCTTATTTGAACGTTTCTTGAATCCTGAACGCCAGCAGATGCCGGATATCGACTTGGATATTCCAGACAACCGGCGGGAAGAACTGATTCAGTATGTTCATGAAAAATACGGCGACAACCATATGGCACAAATCATCACCTTTGGCACTTTAGCTGCTAAAGCATCACTGCGCGATGTCGGCCGGGTATTCGGCCTCAGCATGCCGGAGCTGGGGGCGTGGACAAAAACCATTCCGCCAGTGCTCCATGTATCCCTGGCGCAGGCTGCAAAAGACTCGCTGCCTTTGCAAAACCGAATCAAGGATAGTCCGCTCAACCGGCTTTTGTTTGATACAGCGCTGCATCTGGAGGGGCTGCCCCGCAACACGTCCACCCACGCGGCCGGCATTGTGTTAAGCGACCATAACTTGACGGATGTTGTCGCGGTGCAGGAGGGCAGCAACGGGGTCAAACTGATCCAGCAGCCTATGGGCAACGCTGAAGCACTGGGGTTGTTGAAGATGGACTTCTTGGGCCTGCGCAATCTGTCCATTCTGGCCGCGGCCGTGCATTCAGTGGAAAAGGAGACAGGCCGGGAATTTGATCCGCGCCGGATCCCCCTTGATGACGAGGAGACGCTGGCCCTTTTCCGGGCTGGGGATACCAACGGTGTGTTTCAGTTTGAATCCAGCGGCATCAAGAACGTGCTGCGCCAGTTAGCGCCCACCAGTTTTGAAGATATCGTGGCGACCAATGCCCTGTACCGGCCGGGGCCGATGGATAACATTCCGACTTTTATTGCCCGTAAGCACGGTCAGGCACCAATCGAATACCCGGCTCCGGCACTCAAGGATATTTTGGCTCCGACTTACGGTGTGCTGGTTTATCAGGAACAGGTCATGCAAGTGGCCAACGTGATGGGCGGCTTCTCGCTGGCCAAAGCCGATTCCCTCCGGCGGGCAATGAGCAAGAAGAAAAAGGGGGTCTTGGACAGCCTGCGCACCGACTTTCTCCAAGGCGCGCAGCACCAGGGTTACTCCGAAGCAGATGCACAGAAGGTTTATGACTATATTGAAAGTTTTGCCAATTACGGCTTCAACCGGTCCCATGCGGTGGCGTACAGTATGGTCGCTTTTTGGCTGGCCTATCTGAAAGTACATTATCCGGCGCCGTTTTTCTGTGCTTTGCTGAATTCGGTGCGCGGCAACGACACAAAGATCAAGACGTATGTCCAGGAGGCTCGGCAGCATGGCGTTCGCTTGGCTTATCCCGATGTGAATGCTTCCTGGGCCTATTTCTCGGTGGCTCAGGGGACGATCCGGTTCGGGCTGACCTTGATCAAAGGTATTCGCACCGACTTTACCCAAGCCATCTTAGATGAACGCAAGGCTAACGGTGCCTTTCATTCCGTGGATGATTTCTTGCGCCGGGTGCCAGCCAAGTTCTTAAAAGATGATGCGCTGACGGCGCTGACTTTGAGCGGGGCGTTTGACCGGTTGGAAAACAACCGGCGTCAGCTGGTGGCCAATCTGCACAGCCGGGTGCAGAGCGCTGAGTTTGCCGGAGACAATACGTCGTTATTCAGTTTACTGACGCCTAAGGAGACCCAGATCACCGACTATGACGCCGGGGAACGGGCCGATTTGGCCGCGCAGTATTTGGGTGCCTACATCACCGGCCACCCCACGGACCGTTACGTCTTGCTGAAGGGCCGCTATCCCATTATCAGTGTCAGCAATATGTCGGCCAATGCCCCGGTGACGCTGCTGCTGTACGTGCGCCACGTCAAAACGATCCGGACCAAGAAGGGCGACGAAATGGCCTTTTTAACTGCTGAAGATGCCAGCGGCGGAGTAGATGTCACCATTTTCCCCAACCTGTACCGTCAGATCAGTCAGCAGCTGACCAATGATACAGTCTATCTTGTTCAGGGCAAGACGCAGGAACGCAACGGCGAACTGCAGGTGATTGCCAATCAGCTGCAGGCCGCCTCTCCACTGCTGGCGGAGGCCGTGCCGCTGACCCTGTATGTCCAGGTGCCGGCTGCGCTGGATAACCCGGCCATCCATCGCGAGATTGCCGAGATCCTGCGGGTGGGTCAAGGAAAGACCCCCGTGGTCGTTTATCGGCCCAAATCCGGTGAAAAACGTCTGTTGACGACACCCGTTGACTTTTCAGGCGCCCCCCAGCAATTGGCCGCTTTGAAAGACCTGTTGGGAGCGAAGAACGTTGTCCTGCGGGCGGCGCACTGA
>SRR1151209_00114 hypothetical protein
GTGAAACACATTATTCCCATTATTTGGGGCATGCTGCTGGGCCTGGTCATTGGTTTCATCGGCGCAGCCCTGACCCAGACCAAGTTTCAGGTCGGCACGACACTGATCGTTACCGCGATCGGCGGAGCCCTGTTAAATATCATCGCCATGTACATGGAGCATCAAGTGAAAAACGTCAAGGCATAA
>SRR1151209_00115 GntR family transcriptional regulator
ATGGCTGAACCACGTTATCGCCAAATTGAGCGCATTGTCCGGAATCGAATCACTGCCGGCACCTATCCTCCGGGCAGTCAGATTCCAACTGAAAAGGAACTGGCCGCAGAATTTGAGGTTAGTCTAATTACCACCAAAAGAGCCCTGACTGAACTGGCTGATCAAGGACTGATCAGCCGCAAACGCGGGTCGGGCAGCTTTGTTAAGCCCCCGACAAAGAAAGTTGTCGAGACGCCAGCCGCTCCCCTCCGGACTTACTATCTGGATCCCGCCCTGCCCTTCCTGTGGCAGACTCTGCACACTGCGCCATTGCCGCCCCACCGCTTTCTGGCACTGAGCGATACCCTGCCAGAGAAAAAGACGAATCCAGTGATCCTTGTCACCCCCGAATTGCCCTCCGAAAAGATATACTCTTTAACCAATAAAGATATACCTTTTGTGCTGGCAACGACCACCCAGCATTCTTTACCCGTGCCGCAGATCACCTTCGCTAACGCAGAGATTGCCGGCTTACTGCATGAAGTTACCCAGCTGCGGACTGGCGATTCTCCGCTGCCGGTCTATTATGATGACGCTGGCGATACGCCGTTGGCCGATCAGGCGAGTGCCCAGGCCCGCTATCTCGGCATGAGCCAGGCTTTTGGCACCGTGCATAGTCTGCCCATTACGAACGACAGCCCGGCAGGCGTCTACGTCTTCAATCAGCGTAACCGTCTGCTGGCGTTTTTGCGCAGACAAAAACACGCTGCCGCGCAGCGTGTTTACTATTTTTTGATTACGTATTTACCGACCACAGCTGCTGTTCAGCTGCAGCAAGACATGCTGCCCTGGGGGGTTCAGCTGATCAACTTCGATTGGACGGCCATGCTGCTGGCCACTAAGGCGTGGTCCGGCACCATGGCTCCCTGGCAGCAAACTATCCCCCCACGGTTCGTCACCGGCGGTTAA
>SRR1151209_00116 hypothetical protein
ATGCATCAACGACTTGTGGCGACCCTCGCCATGGCATTAGGCCTGACTGTATTAGCCGGTTGCGGCAATCAGCAGATCAGTACCAGCAAAAAAAATTACGCCGCCGACGGTATGGTGGCTGTCATTAAAGGTACGGCGCCCAGCAAGGCGCAGATTACGGCCCAGGTCGGCCAAAACAACAGCCAGCGGGTGACTAACCATGACGGCAATTTTGTCTACACGGTTGCCCCCAGTGCCCAACCGCAAAAGGTCGTTTTCAAGGCCGGCAGCAGCCAGCGGACGGTGACTGTAGCGGCCAGCCAGAGTTTTGGCGCCTACACCAAGTTTGCAGCGAAATATAACATGATCCTGTTCCAGATGGCCCAGCAGGCGCAAGCCAAGGCCAAGGGCACCAGTCAGGCGGAACAGGCCGCTGCCCAGAAGAAACAGCAGGCAGCAATAGCGGCGATGCCCAAGGCCGCCCAAGCGGCCCTTCAGGCGAAGCTGCAAGCCCAGGCTAACCAAACCCCCGGAGCTTTCCCCGCTGCCGGTCAGGAGGGCATTCACAACGTCTTGAAGGCCCAGGGCAATACTGTTCGGACCAACGTCCAGGACGGTCAGCTGATTGGAGCTACGTTTATGACTCCGGTCAAGACCTTGAAGGATAAGAAAAAGGCGGCAGTCTTTGCCCAGCAATTTGCGCTGCTGGCATCGACTCTTGGGGCTGATGCCAAGTCGGTCATGAAGGACTTCCAAAAGCAAAGCAAGGATTCCCAAAACGGCCAGACGACGATGAAAACGATCGTATCAAATAAGGTCCGTTTTGATGTCGGCTTCTCACCCGATACCTTGTATATTTACATTACCCGTTAA
>SRR1151209_00117 2', 3'-cyclic nucleotide 2'-phosphodiesterase
ATGAGCGAGACGACGACTTTAACCATTTTGTCAACCAGCGATACCCATGGTTTTGTTCTGCCGACGAACTACGTACAGCGGGATGGTACGCAGCCATTTGGCCTGACCCGGGCGGCCACGGTGATCGACACCGTGCGCCAGCAGGATCCGGCGCATACACTGGTAGTTGAAAACGGCGATTTCCTGCAGGGCTCGCCGCTGGCTTATTATGCAGTGAAAGGGACCGCTCAGTCCCAACCGAGTCTGTTGACCCAGGCCTACAATGCGGTGGGTTACGATGTCGGTACCTTAGGCAACCATGAATTCAATTATGGTGCTGACTATTTGCGTCAGGCACTGGCTACCCTGAATTATCCGCTGGCCCAGGCCAATATTTTGGACGAAGCCGGCCAGCCGGCGTTTGGCCCGGCCTATCAGCTGATCAAAAAGGGCGGGGTGACGGTTGCCATATTGGGCCTGACCACCAGCTATATTCCCCATTGGGAGAGCCCCGATCACATCCAAGGGCTGCAGTTTGCGGATGTCGTAAGCACCGCCGAGGAATGGGTTCCGCGGCTGCAGAAGCTAGCCGACGTCGTGGTGATCGCCTACCACGGCGGGTTCGAACGGGATCTGACCGATGGTGCGCCCACCGAAACACTGACCGGAGAAAACAAGGGCTATGCGTTGGCCCAGATTCCGGGGGTGGATGCGCTGATCACCGGACATCAGCACCGCCAGCTCGCGGGCCATGTCCATGGCGTGCCCACCACCCAGCCTGGATACCGGGGCGAAATGGTCGGGCGGATCGATTTGACCCTGACCCGCGAAAATGACCGGTGGACGGTGACGGACAGCGATGCCCAGCTGCTGCCGACCGGCACGGCTGTGCCGCAGCCGGCTATCACGCAGCTGATGGCCCCAGTCCAACAGACCGTGGAAGATTGGCTGGATCAGCCTCTGGGCCGGGTGCAGGGGGACATGACGATCCCGGATCCGGATGCCGCCCGAATTACTGAATCACCTTATATCGAGTTCATTCAAACGGTGCAAATGGCAGCGACCGGCACGGATATTTCCGGTACGGCGCTGTTTAACAATGAGGGCGCTGGTTTTGGCGCCACCGTGTCGCTGCGGGACGTGATGACCAATTATATTTATCCCAATACCTTGGCAGTGCTGCGCATCACGGGGGCAACGCTGAGAGCGGCGCTGGAAAAGAGTGCCCGTTATTTCCAGCCTGCACCCAACGGGGCCATTGGGGTCAACCCGCGCTTTTTACACCCGAAACCGCAACGATACAACTATGATATGTATCATGGCATCGACTACACGATTGACGTGGCCCAACCGATGGGCCAGCGGATTACGGCGCTGACGTACCATGGTCAGCCAGTCCAAGCCGATCAGCTGCTGGACGTCACGGTCAATCAGTATCGGGCCGTGGGCGGCGGCAACTACACCATGTTTGGTCCCCAGCAGATCGTGCGGGAGAACCAGAAGGACATGACAGAGCTCATTGCCGATTACTTACAAGCTCATCCGGTCATCACCGCAACGGCGGATGATAACTTCCACGTCATTAACAGCAGCAAATAA
>SRR1151209_00118 hypothetical protein
TTGGCAGACAACACAGTAACTTCCTACGTGACCGGTTTACAGCAGCTGGCGCTGCCCCGGTGGACGGACTTGCCGGCATTTTCCTTGTATGCCGAACAGGCGGCGGACATCGCCAATCAGGCGTTGGCGCCGTTTGCCTTTGCCCCGGTGACGACGAGCGATATTAATTATTGGGTCAAGCAAAAAATCGTCAGTGAAGCAGGCAAGAAGAAATTTGATCAAACGGGGATTGCCAAAATCTTGGTCACTGCCTTTCTCACCGAAGTGTATCCATTGGCCGATATCCGGACGGGATTGGCTCTGGTGCTGGCGGAACAGACAGCTCAGGCCTATGACTTCTTCGTGTTGACGACGATGAACACGGTCCATCGCTATGCCACTAATTTTCAGCAGGACGTGGTGATCCCTGGCCAAACGGCCGCTGCCGTCCAGGCAATGGCGGCACCCATGGCCCAGCTGGCCATCATGAGCGTCGTCCAAAAGGCGATCGTGCACCATGCGTTAGCCGCACTGGCGGCACCCGCCGCGGGGCAGCCGAAGGCATGA
>SRR1151209_00119 50S ribosomal protein L32
ATGGCAGTTCCTGCACGGAGAACTTCGAAAACGAAGAAGCGTATGCGTCGTGGGCACATCAAATTGACGGTGCCTAACATGCATTTTGATGCCGCCACCGGTGAATACCGTTTAAGCCACCATGTTTCCCCTAAGGGTTTTTACAAGGGTGAACAAGTGGTTAAACCGGCCGCCGCTGACGCCAGTGATGCTGGTTCAGATAATTCTGGCTCAGATAACAGTGCGAATGCATAA
>SRR1151209_00120 chaperone protein ClpB
ATGGATCCTGAAAAATTAACGCAAGCGGTCCGGGACGCATTGACCCAAGCCCGGCAAACCGCTGTGGTGCGCCACCACCAAGAGGTGGACGTACCCCATTTATTTTTGGCGCTCACCTTGCCGGAGACCTTAGGGGCGACGCTGCTGCAAAAAGCAGGCGTGGCCAACGCGGCCTGGACGGCCGAATTGAATAAAGAACTTGACGCTATCCCGGTCGTGGGGGGTGTCAGTGATTACGGCAGTGTGCTGAGCAGTAATTTAAACAATTTGCTGACCCAGGCCGATCAACTACGCCAGCAGTATCAGGACGATTTTTTGTCCAGCGAGCTGGTGTTTTTGGCGTTGTATCAATTACAATACCATCCGCTGACCCAATTCTTGATTCAGCAGGGGGCGACAGCGGCCAAAGTTAAAAAGTTGATCGATGACCTCCGGGGCGGACAGCATGTCCGGTCCGCCAACGCCGAGGCTAATTACAAAGCTTTGGAAAAATATGGCACCGACCTGGTCAAGGCCGCCCGTACCGGTAATCCGGATCCGGTGATCGGCCGAGACGACGAGATTCGGGATGTGATCCGCATTCTGTCCCGCAAGACCAAAAACAATCCGGTGCTGATCGGGGCTCCCGGCGTCGGCAAGACCGCCATCGTGGAGGGGCTGGCCCAACGGATCGTCCGCGGCGATGTCCCGGCTAATCTGCGGGACAAAACGATCATCTCTTTGGACATGGGCGCGCTGATTGCCGGGGCCAAGTACCGCGGCGAGTTCGAGGAGCGCTTGAAGAGTGTTTTAAATGAAGTCCAAAAGAGCGATGGTCAGATCATCCTGTTCATTGATGAGATCCACAACATTGTCGGTGCCGGCCAAACGGAAGGCAGCATGGATGCCGGCAACTTGCTGAAACCGATGCTCGCCCGGGGCGAATTGCATTTGATCGGAGCGACAACGCTGGATGAGTACCGTCAGCGGATCGAGAAAGACAAAGCCCTCGAACGCCGTTTCCAGCGGGTCCTGGTCCAAGAACCCAGTGTTGCTGAGACCATCACGATCTTGCGCGGGTTGAAGGAACGGTTTGAGATCTTCCATGGCGTGCGTATTCACGATGACGCCCTGGTAGCGGCGGCACGGCTGTCGGACCGGTACATCACGGATCGGTTCCTGCCGGATAAAGCGATTGATTTGGTGGATGAAGCCTCCGCAACGATCAACGTTGAGATGAATTCCCGGCCGACCGCTTTGGATGAAAATGAACGGGCCATCATGCAGCTGGAAATTGAGCAGCAGGCGCTCAAGAGCGAAACGGATAAGGCTTCGGCCAAACGCTTGGCAGTAGTCAACAGCCAGCTCTCCGATCTGCGGGAAACCAACCATACGCTCTCCGCCCAATGGGACGCTGAAAAGCAGGCCATCAAGGCAGTCAACGACAAGAAGAGCGCCATTGAAAAAGCCCAGCACGACTTGGCGGAGGCTCAGTCCCGCTACGATCTGGAAACTGCCGCCCGCTTGCAGCACGGCGACCTTCCCCGGTTACAGCAGGAACTGGCAGCTCTGGAGAAACAGGAACACAGCGGCCATTGGCTGGTGCAGGAATCGGTCACGGCTAATGAAATTGCGGCGGTCGTCGCGAACCAGACCGGGATCCCTGTGGCCAAGCTGGTCCAAAGCGATCGCGAGAAACTGCTGCACCTGGCTGATCAGCTGCACCAGCGGGTCGTCGGTCAGGACGAAGCGGTCAATGCTGTGGCCGACGCCGTTCTTCGGTCCCGGGCGGGGTTGCAGGACCCTAACCGGCCGTTGGGGTCATTCCTGTTTCTAGGGCCGACCGGCGTCGGCAAGACCGAACTCGCCAAAGCGCTGGCTGACGATCTGTTTGATTCCGAGAAACACATGGTGCGCATCGACATGAGCGAATACATGGAAAAATATTCCGTATCTCGTTTGGTCGGCGCCGCGCCTGGGTATGTCGGCTACGAAGAGGGCGGTCAGCTGACCGAAGCTGTCCGGCGCAATCCTTACACCATTGTCTTGTTGGACGAAATTGAGAAGGCCCACCCGGACGTTTTCAACATTCTGCTTCAAGTTTTGGATGATGGCCGATTAACGGATAGTCAAGGCCGGACCGTGGACTTCAAGAACACATTGATCATTATGACCAGCAACCTGGGTTCCGAAGCACTGTTGCAGGGCTTAGATGATCAAGGTCAAATTACTCCGGCCACCCGGCAAGCAGTGGATGCGATCGTCCACCAGCACTTCAAACCTGAGTTTCTAAATCGCATCGACGACATTATTATGTTTGCGCCATTGAATCGGGCAGCGATCCATACCATCGTGCATAAACTTTTGGGTGAGCTGAATCAGCGGCTGGCTGATCAGGATCTGCATCTTGAAGCGACAGATGCGGCCGTAGACTGGCTGACGGCCAATGGTTATGATCCGGCCTTCGGGGCGCGGCCGCTGCGCCGGCTGATCACGACGGCGGTGGAGACGCCGCTGGCCAAAGAGATCATTGCGGGGCACTTTGCACCAGACAGCACGGTCCTGGTGGACGCCGGCCCCCACGATCAGCTGACTTTTCGGGTAAAAACACCAATCAGTACCGGGGCAGACCAAGCAAATTAG
>SRR1151209_00121 hypothetical protein
ATGAAAAAGCAGATTCGGTTAATCATTACAGTCGCTTTGACGCTGCTCATCGTCATTTTTGCGGTATTGAACGTCAACAATGCGGCAATCAACTTCGGTTTTGCTAAAGTGCAGCTGCCGTTGGTGCTGATTATCATCGGCGCGGCGTTTTTGGGGATCGTGATCACCGCACTGGTATCCATTGGCCAGCAGAATGAGTTGAAAAAACAGGTCAAAGACGCTGACAAACGCGTCGCGACCGCCGATCAGGCGCAAGAGGTGGCCGTCAAAGCGGCTGTCAAAGCAGAGAATGAGCGGTTGACCGCTGAGATGAACGCTGCCTTGGCGGAAAAGGATGAGCAGATCAAAGCCTTGCAGCGTCAGAGCAACACATTGACGCAGCAACAGGGCCAAATGCCGAAGCCGGCTCCGACTCAAGAAGGATGA
>SRR1151209_00122 short-chain dehydrogenase
ATGTTGGAAAATGATACTAAAACACTGACCGGTCAAGTGGTCGCTATTACGGGGGCCAGTTCCGGCATCGGCCAGGCGGTGGCCTACGAGGCCGCCCGCCAAGGGGCTACGTTGATTTTGCTGGCCCGCTCAGTCGATAAACTGACGGTGTTGAGCCAGGATGTGACCCTGCTCTCTGGGGCACCAGCCTATGTCGTGCCGGTGGACGTGGGCAGCCGTGAGGCCATTGATGACGCCGTGGCAGCGATTCAAGATAAAGTTGAGCGGGTCGACGTGCTGCTCAATGCCGCCGGGTTTGGCGACTTTGAATCAGTCACTGGAACGGACTGGGCCACAGTCAAGCAATTATTTGCTGTGGATGTGCTGGGGTTGATGTATTTTTCCCGTAAGATTGCCGGCATGATGATCGATGCCCACTACGGCCACATCTTCAATGTCGGGTCCATGGCCGGTAAACTGCTTACCCCGAAATCGGCTTATTATTCAGCGGCGAAAGCGGCGGTGATTCAGTTCTCGAATGTCCTGCGGCTGGAGCTGAAGCCTTTTGGTATTCTAGTCACCACGATCAATCCGGGACCGGTGGCCACAAATTTCTTCAGCATTGCGGACAAGACCGGCCAATACTTAGACAATGTCGCGGCTTTCACCATTGATCCAGGAGATTTAGCGAAAAAAATCGTCCGGACGATCGGCCGCCCGCGCCGGGAGATCAATGTCCCGGGCATCATGGCGGTGGCCAGCGTCTTGTATCCGCTGGCACCGACGATTGGGGACCAGATCGTGTTGTTGTTTGGCAACCGCAAGTAG
>SRR1151209_00123 ribonuclease Z
ATGGAGTTGGTTTTTTTAGGTACCGGCGCAGGAGTTCCTGCGAAATCGCGGAACGTCACGAGTATTGCATTGAAATTGCTGGCCGAACGCAATGAGATCTGGCTGTTTGACGTGGGCGAAGCCACCCAGCACCAGATTTTGCGCACTAATATCCGGCCGCGCAAGATCACCAAGATTTTTATTACCCATTTGCACGGCGACCACCTCTACGGCTTGCCCGGTTTAGTGGCTAGCCGCTCGTTTCAAGGCGGCAACACCCCCTTGACGATCTATGGCCCCACCGGGGTGAAAGACTTCTTAGAGACTGCCCTGCGGGTTTCTGACACCCACCTGAGTTATCCGCTGCATTTCGTGGAATTGGATCACGGCGGCCAAATTTTTGACGACGCGACGTTCTCCGTGACGGCGGCAACACTGGATCACCGCATTCAAAGCTTCGGTTACCGGGTCGTGGAAAAACCGCACCCCGGTGAATTACTGGTGGATGACCTGCGGGCCGCCAACGTTCCCGCCGGGCCGCTCTACGGCCAGATCAAGGCCGGCCGCGACGTCACCTTGCCCGATGGCCGCACGATTCAGGCCGCGGACTATATCGCCGCTCCGCAACCAGGCCGGATCGTTACGATTCTGGGTGATACACGAAAGACGCCTAATGCGGTAAAATTAGCCATGGATGCGGATGTGCTGGTGCACGAAAGCACCTTTGGCGCCGATGAGGCCAAACTGGCCAAGCGGTATTACCACTCCACGAGCAAGACGGCGGCAGAAACCGCCAAGGAGGCCCATGTCGGACTGCTGCTGCTGACGCACATTTCGGCCCGCTACTTGGGCAGTGCGGCCCATCAATTGGCGGTGGAGGCCCGTACCGTCTTTCCGCATACGAAACTGGTTCATGATTTTGAAACCATCGAAATTCCATTTAAGAAAGCAGCGGTGATGAGTCATGTTGGAAAATGA
>SRR1151209_00124 acyltransferase
ATGCAACGGGCAGGGCAAACGAAGAAACGGCGGTTTATCACCGGCTTCAGCGGGTTACGTACATTGGGTGTTTTGGGGGTTATTTTATACCATTTAAATCCCAACGTGTTTCGGGGCGGCTACCTTGGGGTGCCAATCTTCCTCGCGTTAGCCGGGTATCTCATCGCCGACCAAGTGATGCGCGAACTGCGCAGCACAGGTCATTTCCGCTTGCGCCGTTTTTACGGCCGGCGGCTGAAAAAAATCTACCCCACGCTGATCGTGATGCTTTTCGCGACCAGTACGTATATCGTGTTGTTTCAGCGTAACTTGTTGGCTAATCTGCATAAAATCATTGCGGCCAACTTGTTAAACTACTATAACTTTTGGCAAATCAGCAATGGTCAGTCGTATTTTGACCGGTTTGCCAACAATGAATCACCTTTCACCCATATGTGGACGCTGTCCATTGAGAACCAGTTCTACATTTTTGGGCCGTTACTGATTATTTTGCTATTCAAGCTCTTGAAGAATCGCAACGGCTGGATGGCGAATATTGCGTTGGCTATCTCAGTCGTGTCGGCTTTGTTGATGGCATTCTTGTACCAACCGGGAGTAGATCCCAGCCGGATTTACTACGGAACAGATACCCGGTTGTACGGAATTTTTCTCGGGGTGGCACTGGCTTTTGTCTGGCCCACAGATCGGTTGCGGACTGCGGTGGCTAGGAGTGATCGCTGGCTGCTGGACGGTATGGGTTTGGTCGGTATGGCTGGAATGCTTTGGCTGCTCTTCACGCTGGACGCTCAAAGCGCCTGGACGTACCGCGGCGGGATGGTTTTGTTCACAGTCTTCACCGTGCTGACCATTGCCGTCGTTGCCCATCCGGGGGCCGATTGGAACCGCATTTTGACCAATCCGGTTTTTGACTGGGTTGGCTCTCGTTCCTATGGTCTTTATGTCTATCAGTTTCCGGTCATGATCTTCTTTGAATCCAAGTTCCCAGACATCGCCAATCACCCGATTTTGTATCCCGTGATCGAAGTGGTGCTGATCGTAGCAATCAGTGAGGTGTCTTATCGCTGGATTGAACGGCCCATCGGCCAGTTTGATTTCAGTCAGCTCAAGACGTGGTTTCAGGGTTTGTTGCGGAATGATAGCCGGAAAGGCTGGACGAACCGCATCGCGGCTGCTTTAGTCGCGTTAATTCTGGTCGGCGGCAGCGTCGGCGTTGTGCAGGGCAGCCAAACCAAGGCCCACGGCGCGGATCAGTCTGCGCTGGCTAAGCGGATCAAGAAAAACCAAGCTGAAAACGATAAACGCAGCAAGGCCCAACTCGCCGCCATCAAGTCCGCCAATGCAGAGAAGAAGAAGGCCGCCAAGGATAAATCCTTGTCCGAATCGCTGTCTAAATCGCAGAGTGCTGCTGAAGAGTCCCGGGCGAAGGAACATCCAGTGAACAAAGATTTAGAGCAGTATGGTTTGACCCAGGTGCAATTGCAGCGTGCGCAGCAGATGCCGATCACGGCGTTTGGTGATTCAGTCATGATTGACGGACAACCACTGCTGACCCGTATTTTCCCGAAGATTTATATGGAGGCCAAAGTCGGGCAGCAAATGATCACGACAATTTCCCGGGTGCAAGCATTGGCTCAGCAGGGGGCCATGGCTGATGTTGTCTTAGTAGGATTAGGTACGAATGGTCCCTTCAGTACGGATCAGTTGGATCAGTTCATGCAAGCCATTGGACCCAATCGACGCGTATATTGGATCAATGCGCATGTGCCCACTAGACAGTGGCAAGGACAGGTCAACAGCATGCTGAATGAAGCAGCTAAACACTACAAAAATTTGCATGTGATCGACTGGTATAATTATTCGACACCGCATCCAGAGTGGTTCTCGGACGATCAAGTACATCCGAACCCGACTGGCAGTCCTTACTACGCGACCTTTGTTGCCAAGGGCATTTTAACGGGTGAACAACAAGCTCAAGAACAGAAGAATCAGCAGTAA
>SRR1151209_00125 putative GTP-binding protein
ATGTTTGTTGACACGGTCACGATCAACGTTAAGGCCGGCAAGGGCGGCGACGGCGCGGTGGCGTTTCGCCATGAAAAATTTGTTCCCTTCGGTGGTCCGGCAGGCGGAGATGGCGGGCGCGGCGGCGACGTCATCCTCATCGCTGACGAGGGCTCCCGCACTTTGATGGATTTTCGTTATCAAAATCACTTTAAAGCGAAACCCGGCCAAAACGGAATGATCAAAGCAATGTATGGGCGGGGATCCGATCCCGTCTACGTTAAGGTCCCGGCGGGGACGGTGGTTTATGACGCTGACACCGGCGAGGAACTGGGTGATTTGACCCATGATAAACAGACCTTGATCGTCGCTAAGGGCGGTCGGGGCGGCCGCGGCAATATCCACTTTAAGTCGGCCAAGAACACTGCCCCGGAAATCGCTGAAAACGGCGAACCGGGACAGGAATTGCGGATCCGGCTGGAATTGCGTCTGCTGGCCGATGTCGGTCTGGTGGGCTACCCATCCGTGGGCAAATCGACCTTCCTATCGGTGGTCACCAAGGCTAAGCCCAAGATTGCGGCGTATCAATTTACCACGCTGACGCCTAATTTGGGCATGGTCCGCTTAGAAGACGGCAACGACTTTGTTTTAGCAGACTTGCCTGGATTAATTGCCGGGGCGGCTGACGGCGTCGGTTTAGGTTTCCAATTCTTGCGCCACGTCGAGCGTACCCGGGTTATTCTGCACCTGGTGGATATGGATCCGGATAACGGCCGCGAGCCGTTTGATGATTTCCAGCAGATTCTGCATGAATTGGGCACATACGACGAAAAACTGCTGCATCGCCCGCAAATCGTGGTCCCCACGAAGATCGAGATTCCCGGTGCCGCCGAACGTCTGGCTGACTTCAAAAAGGCCTTAGCCGACTCGGCCTGGGCTGATTTGCCGGTCATGCCGGTATCCAATGTGACCCACGCCGGCGTGCAGCCGCTGCTGCATAAAACAGCCGAGCTGCTGCAAGCTGTTGTGGCTGCGGATGCGGAGAAGGAAGCTGAAAGGGCCGCGGAAACCAAGACCAAGACCTACACTGGTCCAAGTCAAGAACCAGCCTTCACGGTGACTCGGGACGAAGATGGCGTCTTCATCGTCACTGGCGAACGGATCGAAAAACTGGCCAAGATGACCAATTTGAATCATCAGGATTCATTAGTCCGCTTTGACCGGCAGCTGCACGGCATGGGGGTCAACGATGCCCTGCGGGAAGCGGGGGCCCGGGATGGCGATACGGTCATGATCGGGGACTTGACCTTTGATTTTGTTGAATAG
>SRR1151209_00126 ribonucleotide reductase
ATGACCAATATCCGAGTCCTTTTCATTTCTGTTTCCGGCAATACCCGGTCGTTTGCTGATAAACTGGCGGCTTACGGTCAAGCTCAACATCAGGCGAACGCTGACGAGCCCTTGGTCGAGGTCCAGGAAATCTCTGAGGCCACGATGCCGGCTAAAGAAACCACGCCATTTGTGGCGATGGTACCCACGTATCTCGATGGGGGCAATGGGGTCGATAATGGGGTCAAGGAACTGATGACCAATGCTTTGGGCGAATACATCGCCGATGGCGGCAATGAGGACCTGTGTATTGGTGTGATCGGCAGCGGCAACAAGAACTTCAACCGCCAGTATTGTTTGACAGCTAAGCGTTATGCAGCGGCGTTTACAGCACCGTTTATCGCCGATTATGAGCTGCGGGGCACCAAGGCGGACGTGGCGCGGATCTATGGCATCCTGAAGACCGCGTTCGCTCAGACTGCGGCACAATCAAAGTAA
>SRR1151209_00127 excinuclease ABC subunit C
ATGGCGTCTGCACATATTGAACATAAACTAGCGCTCCTGCCCGATCTGCCGGGGTGTTATCTCATGAAGGATATTAACGCCAAAATCATTTACGTGGGGAAGGCCAAGAACCTCAAAAATCGGGTTCGGTCTTACTTTAAAGGGGATAAGAATAATGGTCAGGCGCGGCTGATCGAACAGATTGCGGATGTGGAAATCGCGGACTTTGATACGATCGTGACGACGACCGAGAAGGAAGCCTTTCTGCTGGAAATCACCCTGATCCAGAAATATCAGCCCTATTACAACGTTAAGCTGAAGCGGGGCACGGGGTATCCGTATATTAAGATCACCAACGAACGGGACCCGCAATTGCTGCTGACCAGTGAGATCAAGAAGGACGGGGCCTATTATTTCGGCCCGTATCCCAACGTCTACGCCGCCCAGGGCACCTTACAGTTTCTCCAGAAGGTGTATCCGCTGCGGCGCTGTCCCGGCCATCTAGGCCGGCCCTGTCTCTATTACCACATGGGGCAGTGCCTGGGGGCGTGCTTTCGGGAGGTGCCGGAGGCGGAATATGCGGCCCAGATCAAGAAAATCAAACGCTTTTTGGACGGCAATGTGGCGGAAGCCAAACGCACGTTGAAGAAGCGGATGACTGAAGCTGCCGAGAAGCTGCAATTCGAGCTGGCCGCTGATCTGCGGGATCAGATCCGCTATATTGAACAGACTGTCGAGAAGCAGCGGATCATTTCTAACGATAATACCCCCCGGGATCTATTTACTTACTATCTGGACAAAGGGTATTTGTCCGTGCAGATTTTCTTCATTCGCCAGGCCCGGCTGATCAAGCGGGAGAAACGGATTTTCCCCAGCGTCAATACGCCGGATGAAGAGCTGGCGACGTTTATTTTGCAGTTTTACAACCGCAAGAATCAGGTGCTCCCCAAGGAGGTCCTGGTGCCGGCTGGCGTGGAGAAGTCGGTCCTCAGCGAAATTCTTGGCATCCCGTTCCGCACGCCCCAGCGGGGGCAGAAGCGCCAATTGCTGGAGATGGCCAATGAAAATGCCAAGCTGGCGCTGGAAGAAAAGTTCCGCCTGCTGGAACTGGACAACCGCCAAACCGTGGGTGCGCAAGAGGAGATCTTCAAGGCGCTGGGCCTGCCGTATGGTCATGTCATGGAAGCCTTTGACCACTCTCATATTCAAGGGAGCGATCCGGTTTCGGCGATGGTGTATTATGAAGATGGCAAACCGAACAAAAGCATGTACCGCAAGTACAAGTTAAAGGGCGAAGTGGAGCATCAGAATGGCGCCAATGAAGCGGCCAATACCCGAGAAGTGATTCGCCGGCGTTATAGCCGATTGCTGAAGGAGAAAAAGCCGCTGCCGGATCTGATCCTGATGGATGGCGGAGAGATTGAACTGGACGCGGTCAAAGATGTTTTGGTCAATGAATTAAACTTATCGATTCCAGTGGCCGGGATGGTGAAGAACGATAAACACCAGACGGCGGATCTGCTTTTTGGCGATCCGCCGCGGATCATCGATCTGGATCGGCAGTCCCAGGGCTTCTTCCTGCTGACGCGGGTCCAAGACGAGGTGCACCGGTTTGTCATTACATTCCACCGGCGGACGCATAACAAAAATTCCCTGGCGTCGAAGCTGGAGGCGATCCACGGCGTCGGGCCCAAGACCCGGATCAAACTGCTGAAGCACTTCGGTTCGGTGACTAAGATCAAAGAGGCGTCGGTGGACGATATCGAATCATTGGGGATCGCCAAGACGGTGGCTCAGACAATTTTACTCAGTTTGTAA
>SRR1151209_00128 amino acid ABC transporter ATP-binding protein
ATGCCTAGTATGATTGAAACAAAAGGCCTGAAGAAGAGCTTCGACCATAATGAGGTAATCAAGGAGATCGATTCCCACGTAGAGAAGGGCCAAGTGATCGTCGTGATCGGCCCCTCTGGCGGCGGCAAGTCCACCTTCTTGCGCATGCTGAATATGCTGGAACAACCCACTGCGGGGACGGTGTCCTTTGAAGGTCAGGATATTACCGACTTACCGGCCAACAAATTGGATACGGTCCGGGAAAAAATGGGGATGGTGTTCCAAAGCTTCAACCTTTTTCCGAATATGACTGTGTTGGCTAACGTGGCTTTGGCCCCGCAACGGGTCAAGGGGACGAGTCCCCAGGCAGCCAAGGAGCAAAGTATGGCCCTGCTGGACCAAGTTGGCCTAGCCGATAAAGCCGATGCGTATCCCGCTTCCTTGTCAGGCGGCCAGCAGCAGCGGGTGGCCATTGCTCGCGCCCTAGCCATGGGGCCGGATGTGATGCTCTTTGATGAGCCTACCTCCGCCCTGGATCCGGAAATGGTCGGGGAAGTCCTGAAGGTCATGCAGACCCTGGCTAAACAAGGGATGACCATGGTTGTGGTGACCCACGAGATGGGCTTTGCGCGGAAAGTGGCCGATGAAGTGTGGTTCATGGATGGCGGTGTGCTGGCGGAAAAGGGCACGCCAGAGCAGATTTTTGACCATCCGCAAAACGAGCGGACAAAGAGCTTCTTAGCGAAGGTTCTGGAACAATAA
>SRR1151209_00129 amino acid ABC transporter substrate-binding and permease protein
ATGGAGAGAAAACATTGGTTGATTAAAGTATTGGCGGTGCTGACGATGCTGCTGAGTTTGGGCGCTGCGGTCGGTCAGGCCCAACCGGCGCAGGCGGCGACCGATCAATCGCTGGCCAAGATCAAACAGAAGGGCACACTGGTGATGGGAACGTCGCCGGACTATCCGCCTTACGAATTTCTGGTGAATAATCAGCCAGTGGGGATGGATGTATCCATTGCCAAGCAGATCGCTAAAGATTTAGGGGTCAAGCTGGTCGTTAAACAGATGGACTTTGATGCGCTGCTGGTGGGGTTAGAGACCCACAAGGTGGACATGGTGCTGTCAGCCATGACCCCGACGCCGGAACGGAAGCAGAGCGTGGATTTCTCTAACGTATACTACACTTCCGGTCAGTCGATCATTATCAATAAGACAGACAAGAGCATTTATAAGAGTTATAAAAACTTCGCCAACAAGAATGTGGGGGCGCAGACTGGTTCATTGCAGTATGATTTGGTCAAGAAACAGATCAAGGGGGCCAAGATCACTGGGCTGACAAAGGTGACAGACCTGATCATCGCCTTAAAGACCCATAAGATCGAAGGGATCGCCGCTGAGTCTGCCGTGGCTACCGCTTATGTTAAAAACAATCCGGACTTGACCGTGTTGGACCATCAATTTAATTTGAGCGAGTCTGATTCCGGTACCGCCATCGCTTTTGCCAAGGGCTCAACGTCCCTAGTGGCTGCCGTTAACCAAAGTCTGGCCAAGATCAAAAAGCAGAATCTTACTGAAAAGTACCTTAGCGAGGCCGGCAAGAGCTTGAAGGTCAACGTGGCCAACACCTCCATGTGGCATTATCGGAGTTACTTCATCAAAGGGGTCGGCTACACCTTGCTGATCAGTTTGATTGCCGTCCTGATTGGGGTCGTGCTGGGGACTTTGCTGGCATTATCCCGGCTCAGCCATTTCCTCCCATTGAAATGGATCGCCACGGCCTACGTTGAATTCATCCGGGGCACGCCGTTGATGATTCAGGTAATGTTCCTGTACTTTGGTTTAAATGTTCCCGCGCTGACCGCCGGCGTGGCCGGGGTCGCCATGAACTCTGGGGCATACGTGGCTGAGTATATCCGGGGCGGCATCGATTCCGTCCCCAAGGGCCAAGTGGAAGCGGCCAGGTCACTGGGGTTGTCGTACAAAGATACGATGCGTTACGTGATCTTGCCCCAAGCCTTGAAGATTATTTGGCCATCGCTGGGTAATGAATTCATTTCCCTGATCAAGGAAAGCTCCATCGTGTCCGTCATCGGGGTCACCGATTTGATTTATCAATTGCGGCTGGTCCAGGCAGCCACGTACAAGGGGATCGCGCCCTATGCCGTAGCGATGGTGATTTATTTCATCCTTGTCTTCGGATTGACCCGGTTATTGAACTTCGCAGAGAGGAAGATGCAGCATGCCTAG
>SRR1151209_00130 hypothetical protein
ATGGGCTTAACTGTGAAACGAGAAAACACGCTGACCAGCTTGTTCGATCAATTTGCTACCCTGCCAGAGGACCTGAAGAAAAAGGTCGATCTGAAGGATGAGAAGAAAGACGACAAGCAGCACAAACCAAGCAAGGACGAAAAAAAGAAGTAA
>SRR1151209_00131 GTP-binding protein EngB
GTGTTAGTAAACGACGTCTCAATTCGGATTAGTGCAGTCGCCCCTAGTCAGTACCCGACAGACGGGTGGCCGGAGATTGCCCTGGTCGGCCGCTCCAACGTGGGCAAGTCGTCGTTGACGAACAAGCTGATCAATCGAAAGGCTTTGGCGCGGACGTCCAGTGCTCCCGGGAAGACCCAGACTTTGAATTTCTACGAGGTGGAGCATCAATTATTCTTCGTAGATGTGCCCGGGTACGGCTATGCCAAGGTCTCTAAGGCCAAACGGGCGGCATTCGGGGCGATGATCGAAGCCTACTTAACGGAACGCTCGGTACTGCGCGGTGTTGTCCAATTAGTTGATGGCCGGCATGCCCCCACGGCAGATGATATTGCCATGTATCAATACCTGGCGTATTATCATTTGCCCGTGCTCGTGGTGGCTACCAAGATGGATAAAGTGAAACCGAGTCAGTACAATCGCAGCGAAAGTGCCGTCCGTAAAACGATGACCCTATCGCCGGGGACACCGCTGGTCCTCTTTTCGGCGGAAACTGGCCTGGGTAAGGATGCTGTGTGGGAATGGATCGAGGCCCGCATGCAGGATCCAGAACGCAGTCAGGCTTAG
>SRR1151209_00132 ATP-dependent Clp protease ATP-binding subunit ClpX
ATGTTCGATAATATTGACACCACCGGTCCCATCAAATGCTCTTTTTGTGGGAAAACTCAGGACCAGGTAAAGAAAATCGTCGCCGGCCCTGGCGTCTATATCTGCAACGAGTGTATCGATTTGTGCAAGGAGATCATTGATGAGGAATTCAAGGAAGATTCCTATGATGACTTGTTGAAGGTGCCCAAGCCAATCGATATTTTGAAGACATTGAATGACTATGTCATCGGGCAAGACGACGCTAAACGCGCCTTGGCCGTGGCTGTATATAATCACTACAAGCGGGTCAACGAAATGTCTGACCCCCACGATGACGGGCCTGAATTGCAAAAGTCCAACATCGCGCTGATCGGTCCCACTGGTTCCGGGAAGACTTTCCTGGCTCAAACGCTGGCGAAACTGCTGGATGTGCCGTTTGCCATTGCGGATGCGACGACGCTGACTGAGGCCGGCTATGTGGGCGAAGATGTTGAAAACATCTTGCTCAAGCTGCTGCAAAATGCCGATTACAATGTGGAACGGGCCCAAAAGGGGATCGTCTACATCGATGAAATCGACAAAATCGCGAAGAAGAGCGAGAACGTCTCAATCACTCGGGATGTCTCCGGCGAAGGGGTCCAACAGGCTCTGTTGAAGATCTTGGAAGGCACCACCGCCAACGTTCCGCCCCAGGGCGGCCGGAAGCATCCCCAGCAGGAGTTTATCCAGATCGATACGACCAATATTCTGTTCATCGTCGGTGGCGCATTCGATGGCATTGAAACTATCGTGCGCAACCGGTTAGGTGAAAAGACCATTGGCTTTGGCACTGATTCGGACAAGCCGGTGGATACTTCGAAGAGTATCATGCAGCAGATCATCCCGGAAGACTTGATGAAGTTCGGGATCATTCCGGAATTCATCGGCCGGGTACCAATCATCGCTGCCTTAGAACCATTGACTGAAAATGATCTGGTCCGGATTCTCCAAGAACCGAAGAACGCGCTGGTGAAGCAGTATAAGAAACTGCTGGCATTGGATCACGTTGAGCTGGACTTCACGCCGGAGGCATTACGGGCCATCGCCCACGAAGCCATTGAGCGGAATACCGGCGCTCGGGGCTTGCGGTCGATTTTGGAAGAAGTCATGATGGACACGATGTTTGAAGTGCCCAGCGAACCCGATGTGAACCGGGTACTGGTCACTGCCGCCGCTGTTCACGGTGACGAGAAACCAGAGTTGCAGTTGAAGAAAGCATCATAA
>SRR1151209_00133 trigger factor
ATGTCTGCAAAATGGGAAAAGCAAGGTACGAATGATGGTACTTTGACTTTTGAAATCGATCTGAACACGATCCAAAAGGGTATGGATCAAGCCTTTACCAAGGTCAAGAAGAACATCAACGTACCTGGCTTCCGCAAGGGTCATGTGTCCCGCCAAGTCTTCAACCGCATGTTCGGCGAAGGGGCTTTGTACGAGGATGCCTTGAACCTGGTGCTGCCGGATGCGTACGATGCAGCGGTCAAGGAAGCTGCTATCTCACCCGTTGACCAACCGAAGTTCAACGTGGAAAAGATGGATGCGGATGAACCGTGGGTTATTTCTGCCAAGGTAACCGTTAAGCCGGAAGTCACTTTGGGCGACTACAAGGGCTTGACTGTGCCTAAGCAGGATCGCGAAGTCACAGACAAGGACTTAGACGACAAGCTGCACTCTCTGCAAGAAGAGCAGGCTGAACTGGTCTTGAAGGAAGACGGCGCCATCGAGAAGGGTGACACCGCGATTATTGATTACGAAGGCAGCATTGACGGTAAGCCGTTTGACGGCGGCAAAGCCGACAACTATTCCTTGGAAATCGGTTCTGGTTCCTTCATTCCTGGTTTCGAAGATCAATTGGTAGGTCACAAGTCTGGCGACAACGTCGACGTTAAAGTGACTTTCCCTGAAGATTACCAAGCCAAGGATTTGGCGGGTAAGGAAGCCATTTTTAAGGTGACCATCCACGAAATCAAGGAGAAGCAATTGCCTGACTTGGACGATGAATTCGCCAAAGATGTCGACGAAGACGTGGACACCTTAGATGAATTGAAGGCCAAACTGCGTGATCAATTGAAGCAGGACAAGGACCAAAAGGCTGACGATGCGATTCAAGAATCCGCTGTTAACCAGGCCGTGGCCAATGCAACGATCGCTGATCTGCCAGAAGTGATGATTGACAGTGAGGTCCACAACCAGATGGATCAATATCTGGGCAATCTGCAACGCCAAGGGATCAACCCGCAAATGTATTACCAATTGACTGGTACAAGCGAAGCCGATCTGCACAAGCAGTTTGAGGCTGACGCTGGCCAACGGGTGAAGACTGACTTAGTCTTGGAAGCCGTTGTCAAAGCGGAAGATATCAACCCGTCTGAGGATGATGTCAACAATGAAATCAAGAGTCTGGCAGCTGAATACGGCATGAAGGAAGCAGACGTCCGCAACGCCTTGACTCCGGATATGCTGAAGCACGACATTGGCATCAAGAAGGCCATTGATTTGATCGTTTCTTCTGCTAAGGAAGAATAA
>SRR1151209_00134 translation elongation factor Tu
ATGGCTGAAAAAGAACATTATGAAAGAACTAAACCCCATGTTAACATTGGTACAATTGGCCACGTTGACCATGGGAAAACAACTCTGACGGCTGCTATCACTAAGGTATTAGCTTCTAAAGGCTTAGCCAAAGCTGAAGACTATGCCGAAATCGATAAGGCACCGGAAGAAAAGGAACGTGGCATTACCATCAACACTGCCCACGTAGAATACGAAACCGAAAAGCGTCACTATGCGCATATCGATGCCCCTGGGCATGCCGACTACGTTAAGAACATGATCACCGGTGCCGCTCAGATGGATGGTGCGATCTTGGTCGTTGCCGCTACTGATGGTCCGATGCCCCAGACGCGTGAGCATATCTTGCTGGCTCGTCAGGTTGGTGTTAACTACATCGTCGTCTTCCTGAACAAGGTTGACTTGGTTGACGATGAAGAATTGATCGACTTGGTTGAGATGGAAGTTCGCGAACTGCTGTCTGAATACGACTTCCCTGGCGATGACATTCCGGTTCTGCGCGGTTCTGCGTTGAAGGCACTGGAAGGCGATCCCGAACAAGAGAAGGTTATCTGGGAATTAATGGACGTTATCGATGAATACATTCCGACCCCGGAACGTGACGTTGATAAGCCGTTCTTGATGCCTGTCGAAGATGTCTTCACCATTACTGGTCGGGGCACTGTTGCTTCTGGTCGTATCGATCGTGGTACGATCAAGGTCGGTGAAGAAGTTGAAATCGTTGGCTTGAAGCCGGAAGTACTCAAGTCCGTTGTTACTGGTTTGGAAATGTTCCGTAAGACCTTGGATCTGGGCGAAGCCGGCGATAACGTTGGTGTCCTGCTCCGTGGTGTTAACCGGGATCAAGTAGAACGCGGCCAAGTTTTGGCTAAGCCGGGTTCTATCCAAACCCACAACAAGTTCAAGGGTGAAGTTTATATCTTGTCCAAAGAAGAAGGCGGCCGTCATACACCGTTCTTCTCCAACTACCGGCCGCAATTCTACTTCCACACCACCGATGTTACTGGTGTGATTGAATTGCCTAAGGGTGTTGAAATGGTTATGCCTGGCGATAACGTAACCTTCGAAGTTGACCTGATCGCTCCGGTCGCTATTGAAAAGGGTACGAAGTTCACCGTCCGTGAAGGCGGTCGGACTGTTGGTGCCGGTCAGGTAACCGACATTCTGGACTAA
>SRR1151209_00135 hypothetical protein
ATGAGTCGTGAGGTGCACAAAGTCGTGCCGTTTCCGGACAATGACGAACGCCATGTGCAATTAGGCCAAGCGTCGCTGCGCGCGGGCGAGTTTAGTCAGGCAGTGGCCCACTTTCAGGCTGCCTACCGGGATCAGCACACTTTTGCAGTGAATCGGCAGATGATTGAAGCCATGCTCCATGCGGGGCAGGCCAGCGAGGCGGTGCCCTATGCGGAAGAGTTTATTGAGGGGTACGCCCGCACATTGACCGATGGGCTGCTTTACGGGCAGCTGCTGATCGAAAGCCACCGCTTTTTGGCTGCCCAAGAATGGCTGGTCAACTTGCAGGACTTGGCTCACTCGCCAGAAGATCAAGCTCGGCTGGCGGAACTCACCGATGTGTTCACCAATCAGCAGGAGCGGTACTTGGCGGCCAATCAAGCTGGCCAAGCTGCACTGATCAAACAATTTGCTGGGCTGGCCGGCGTCAATACCATGGAACAGACCATGCGAATCAATCAACTGGCCCAGTTACCGGTACCAACTTTTGACCAGATTGCCCCGCGCTTGATGATTGATGAATTTATCAGTCAAGGATTGCGCAACACAGTGGCCCTGCATTATGTGACCTTGCGGGAGACCGCCCCGCGGCGGCTGCTCTGGTTTGATGACGTCATTACCTTTACGCCCAATGCGGTGGGGAATCCATTCGACAATCCGGTGGCCGATGCGTGGCAACGGGCGGTGACCGCGGCGGAAAATGATAATCCGGAGCAGGCGCTGATCCTGGACCAGGAGCTGCATTTGTATATGCTGTTATTATTTCCTCGGCTCACGGATGTCGTGGCTGATCCGGCGGCTTGGGCGCAGGTCGTTTCTGCCCGGATCGCGGATCCAGCAGCACCAATTACGGCCGCGCCAAAAATAAAACGGTGGCTGACACGCCTTGATGACGCACTAAACGCGTTAAATCAGTAA
>SRR1151209_00136 RNase J family beta-CASP ribonuclease
ATGGTACAAAAAACGCGTAAGCAGCAAGATAAGATACGCATCATCATGCTCGGTGGGGTGCGGGAAAACGGCAAGAATATCTACGCCGTCGAAGTAAATTCGGATATTTTTATTCTGGATTGCGGCATCAAGTATCCAGAAAACGAAATGCTCGGGGTGGACGTGGTCATCCCGGATTTTTCATACATTCAAGACAACATTGATCGGGTGGCCGGAATTTTCCTGACCCATGGTCATGCCGACGCAATTGGGGCGCTGCCGTACCTGATCACGAAGCACGATATTCCCGTTTTTGGGTCGCAATTGACTGTCGAATTGGCGAAAATCACTGTCAAGTCTGCTAAGGGCGGCAATAAGTTCAATGATTTTCACGTCATTGACGAAAATACGGCCATTGATTTTGACAATGCCACGGTCAGTTTCTTCAAGACGACCCATTCCATTCCTGGGTCGTTAGGCGTTGTGATCAAGACGCCAGCGGGCCAAATTGTTTACACCGGTGATTTTAAATTTGATCAGGCGGCTGCTCCGTTATACCAAACGGATTTTGCCCGCTTGGCCCAAATCGGCACCGAACCAGTCCTGGCTTTGTTAGCTGATTCTGCTAACGCGGAGTCGCCGTATCCTAATACCAGCGAAAATGATATCGGCAAATACGTCCTGGAACTTTTTGAATACCATGCCGGCCGGATCATTGTGGCGTCGGTGGCTTCGAACATTGTCCGTATTCAGCAAGTGCTGGATGCGGCCGCGCATACCGGGCGGAAAGTGATCCTGACCGGTCGGGATTTGGCAAAGATCGTGCGCACCGCGTTGCGGCTCAAACTGCTGCAGCTGCCGCAACCGGATATTTTGGTCCCTGTGAAGGATATCAAAAAATATGACGATCATCAGATCGTGATTTTGGAGACCGGCCGCTCCGGCGAGCCGCTGAAGTCGCTGCAGAAGATGGCGACCAACCAGCATCGCACGGTCCACATCCATCAGGGCGATTTGGTCTTTATTTCGACGACACCGTCATACGCGATGGAAACAACGGTCGCTAAGACTAAAGATATGATTTATCGGGCTGGCGGGGAAGTGAAGGCCATCTCCGATGATCTTCATGCGTCGGGCCATGCTTACAAGAGTGATCTGCAACTGCTCTTGAACCTGCTGCACCCGGAGTATTTGGTGCCGGTGCAAGGTGAATACCGGCTGCTCAATGCCCATGCGGAGATTGCTGAACAAGCGGGCATGCCCGCAGATCATATTTTCTTGACCAAAATCGGTGATGTGCTGGCCTACGACAAGCACGGCATGCATTTGTCCCAGGCAGTCACTGCAGGAAATACGATGATTGATGGACTGGGCGTCGGCGATATTGGCAATATTGTCCTGCGCGACCGCAAGATGCTGGCCGATGACGGAATCTTCATCGCCGTGGTATCCATTGATCGGCGCAAGAAGAAAGTCGTTTCTTCGCCGAAGGTGACGGCCCGGGGCTTTGTTTATATGAAAGCCAATCGGGATCTGATGGCTGAAAGTGCGGACATTGTCCGTAATGCCGTCCAGAAAGATCTTGATAACAAGGAACTGGATTGGTCAAATCTGAAACAGAATATGCGGGAGAAGCTGTCCCACTACCTGTTCGAGCAGACTAAACGGCATCCGGTCATTTTACCGGTCATCATGGAAGTGAAACCGCATCGCACGGCCCGCCGGACAACCCCTGCCAAGCGCAAAGAACCGGCAGCGAAGGCCCCCGCAGCGAATGAGGGCGCGAGCAATGAGTCGTGA
>SRR1151209_00137 hypothetical protein
ATGTTAATTCGCCAAAAAATCGGTGACCAAGTCATCACGGCAGTGCAGCTGCCGGCAGCTCCCAAGAATACGGTCATATTAGAAAACGGCGGCACGGCCGTTATCGTCAGCCCGGCGGTGGCCGAATCGGCCGCGGGTATTACGTTGCTGACCCCGCTGACAGCGGACCAACCGGACTTAGCGGCCTGGCTCACTGATTTGCTCGCGGCCACGGGGGCTGAACAGCCGGGGGCGTGGCAGCTTAGTGTGGTGGGCCCGCCGGCACCGATGGTCTATCCGTTGATTGCCGCCGCCATCAGTATTGCACAGTGGCACCGTAGTCAGGGTCGCAGCCGGCTGTTAACAGCGCGGCTGACGGATGAACTGGTGATTACCCAGACGGGCGAAGCGATCGTCGGGTTGCACGGTTCGGTGGCTGCAGGCGCTGTATTGTCTCTGCCGGGGTGGCCATTGCAAAGCGCCTGGCAGCATTTCACCGCCCAGGTGGTGACACTTATGGGCGGCACCCTGGCGACTGAACCGGCTATGTCTGAGCATATGCCGCCACTGCAGCAGCCAGCCCCTACGATAACCCGGCCGACCCCGGCCACCGTTTATGCGGCTCAGGGTGATGCGGCGGGCATTTTTTGGGCGACAGATACCGGTATTGCGCGGCAGCAATTGGCGGCCGGCCCGGCTTGGCCAGCAGTGGTGATCAACGGGACGGCTTTGCTGAACACGGCTATTGATACCGTTTGGGCCGGCTGGCATCAGGCGGCGGGGGCGGCGATCCTTACCCGCCACGCGGCCGATCAGGTACACCTGCGCTGGCAATCGCTGCCGCTGTCCGCCGTTGAGGTGCAAACCTGGTGGCAGCAGATTCAAACCGATGACGCCGCTTTGCACCGCCAGCTGATGGTTCTGTGA
>SRR1151209_00138 30S ribosomal protein S15
ATGGCACTTAGCCAAACGCAAAAGAACGAGATCATCAGCAAGTATGCCCAGCACGAGGGCGACACAGGTTCTACGGAGGTGCAGGTAGCACTTTTGACCGCAGACATTAATTCCTTGACCGAGCATATGCGGGTTCATAAGAAGGATCATCACTCTTATGTCGGCCTGATGAAGAAGATCGGGCACCGGCGTAACTTGCTGGCCTACTTGCGGGACAACGACGTTGATCGTTACCGCGAGCTGATCCAATCTCTGGGTCTGCGTCGTTAA
>SRR1151209_00139 30S ribosomal protein S20
ATGCCACAAATCAAGTCTGCCATCAAGCGGGTCAAGACTGCTGAAAAGGCCAAGCTGCAAAATGCTTCTCAAAAGAGCGCATTGCGTACGGCCATCAAGCGGTTCTTGGCTGCCAACGAAGCTAATGCCGACGACAAGCAATCCTTGTACACTGAGGCCATCAGCAAAATCGACTGGGCGCACAGCAAGGGTTTGATCCACGCTAACACAGCGGCGCGGAACAAGTCTCGCCTGACCCATTTACTGAACAAGTAA
>SRR1151209_00140 DNA polymerase III subunit delta
ATGATTGTGGATGTCAACACACTAAAAGCAAATCTCAAGAAGGGCGATGTGGCGCCTTTATACTTGATTTTAGGACCAGAAGGGGCGCTGCAGGACAGCGCTTTAGCCGCATTCAATCAGCTCTTGACCGCGGACGAACAAACCATGGATTTCGCCCGGCTGGATATGAGCACCACCCCCATCGCGGAATTGTTAAACGAAACATCGTCGATGCCTTTTTATGGTGAGCGGCGGGTGGTCATTGCGACTGATCCGCAATTTCTCACCGGTACTGGTGCTAAGACTCAGTCCAAAGAGGCCATCGACGCCCTAACGGATTATTTTTCCCAGCCGTCGCCAACCACGGTGCTGGTGATCAGCGCGCCCTATGAAAAATTAGATGAACGGCGCAAGGCGGTTAAACGGCTGCGCAAGAATGCCGTAACGGTTGATGCCCAGCAAGTTGCCAGCGGTGCCGTGAGCGGCCGAATTACCAAGGAGATCCAAGCCCAGGGCTATACGATCAGCAACGACGCTCTGGGGCTGCTGGTCCGCAAAACAGAAGCTAATTATTCGACGATGGTGGCCCAATTACCCAAATTGTATTTAGGTGCCTATCCGGGGCATGAAATCACGCCGGTACTGGTGGAGAATCTGGTGCCCAATACCTTGACCGATAATGTCTTTGCCGTGACCGACGCCTTGATGCAGCAGCATTTTGACCAAGCAGTACGCGTGTATCAGGAACTGTTAGCCAATCAAGAAGAACCGTTGCGGCTCAACGCACTGCTCTTGGGGCAATTCCGTCTGCTGGTTCAGACCAAGATTTTGGCGCGCAAGGGCCTCAATCAGATGGCCATTGCCAAAGAGTTGAATGTCCACCCGTTCCGGATCAAGCTTGCATTGCGCAGCAACCGTGCGTGGCCTTTAGCCACATTAGTGGCCTGCTACAACGAACTGGTGCACAATGAGATTCTGTTCAAAAGCAGCCAGCCGGATCCGATAATTCTGTTCTTGCGGGCGGTTCATGGATTAAAGACAGCTTAA
>SRR1151209_00141 competence protein ComEC
ATGACCCGGGTGCGCTGGCCGGCCCAGCTTGGTTTGTGGAGTGCCGTCACGGTGATTGGCGTGGCGTGTTTAGTGCTGACACCGCATTGGCTCCTCAGCCTGGCCTTACTAGGATTTGGTGCGGTTCATTGCTGGCGCTGCGGGTGGCGGTGGCTGCTTATCCCGCTGCTGGCTGGGGTAATTTGGGCTGGCCGGTATACGCAATGGCAAAACCTTGTCCAGCCACCAGCCGCATCGACTGAGCCGGTTGGGGTCACGCTGCTGATTTTGCCCAGCCGATTAAAAATTAATGGCGACCAAGTCAGCGGCCGAGCAGTGGATCAGCGTACCGGCGAAGCGGTGTGGCTCTCCTATCGGTTAACCGGTGCCGCGGAGAAACAGCGCTTGGCGGCAGCGGCGACCGCGTTGACGCTGACCGGCCAGGCCGCCCAGGGGCCTTTGGCGGCGGCTACCAACCCGGGGCAGTTTGACTTTGCCCGGTTTGCAGCGGCCCAGTATCACATCGGCCGGCAAGTGACACTGGCGGGCGGCGAATGGCAGTTGGTGAATGGTTCGAATAATTTTATTTATGTTAACCAAATATCTGAGGCTATCCGCCTGTGGGTTGTCCGTCGCGTGGCGGGACTGCCGCCCCATATTCAAATATACGTCCGCGGTCTGGTGCTGGGCGGCAGCAGCGATACCGCGCTCGCCCAAACCCTGCGCGATACCCAGACCAAGCTGGGAATTATCCATCTCTGGAGTCTGTCGGGGATGCAGGTGCTGTTACTGGCGACGGCGCTGTTAGTGGTTGCGGCCTGGTGCCGGATACCCGATGAGTACGCCCGCTGGCTGGTTTTTGGCGCGCTGTTGCTTTATGGCACATTAGCTGACTGGCCCACTGGGGTGACGCGCTCCGTCGGCATGTTTGCTCTGGCCCGGCTGTGGCCCCGCCGCTGGGCGCTGCCCACCTTAGACCGGCTTGGTTTGGTGCTTCTGATTTGGCTCTGGTGGCGGCCGGCGGGCATCACCCAGTTGGGCAACCTGTTAAGTTTCCTGTTGTCCTTTTGTTTATTTTTCGCGCCAGTCCGCTTTTGGCAGCAGAGTTTGGTCTTGAACCTGGTCAGTATGCCTGTGATTTTGGCTTACCAGTATACCTGGTCTTTGTTGACGCTGGGCTTGAATATTATTTTAATCCCGGTGTTTAATTATTTGGCTTTTCCCGTGATGCTGTTCGTCACGCTGGTGACAATCGGCGGCTGGACCGGGTCCTGGGCGGGGTTAGAAAGTGTGTTGCAGGCGGGGGACGCGCTCCTGGCCCAGTGGGCGAGTCTAACCGGGGGAACGATCGCCTCCAGGGCGCTGCCCGGCTGGGTCTTTGCCGGGCTGCTGATCAGTACGCTGGTGCTGGCCTTTGACCGGCCGCATTGGCGCTGGGGCTTGGGCGCCGGTGTGGTCCTGCTGGGCGGGGTGTGCTGTCTGCGTGCCTGGCCTTTGACCGATCGCGTGGCCTTCATCGATGTTGGGCAGGGGGACAGCAGCTTGGTTGTGGGCCGGGGCAATGGGCCGCGGGTACTGATTGATACCGGCGGGCGGGTGACTTTTCCCCGGGCGGCTTGGCAAGAGCGGCACTATGCGGCCGGAATCACCTTTAACGTTCTGCCGGTACTCCGTTATCACGGAATACAGCGCCTGGATGCCGTGTTTATTTCCCATCAAGATGCGGACCATATGGGAGATCTGCCCGGTCTGCTGGCGGCGATACCAGTCCGGCGGGTATACGTCGGTGCGGGGATGGCCGCCAATGAGCGGTTGCAGCAGGCGGTGGCTCAGGCGCCGCAGCCGCCAATCGTGACCGAATTGCAGGCCGGCCAGCAGGTCCGGATCCGGGGGATGACCTTTCAAGCCCATCATCCCCACCGGCCCGGAACAGGCACCAATGAAGACTCGTTAGTCTTGACCGCGCAGATCCATCGGTGGCGCTTTCTCTGGTTGGGGGATTTAGACAAAGCCGGGGAGCGGACGATTTTGAAAAATCCTGCGCTCGCCGCCGAGGTGATCAAACTCGGCCACCATGGCGCCGCAACATCGACGGATCACGCGCTGCTGGCGGCGCTGCAGCCGCGGCTCGGGATCATTTCAGCCGGGCGCAATAATCGTTACGGGCATCCCGCCCCCGCGACACTGCACACGCTGCGGCAGGCCGGGGTCCCCTGGCTAAGCACCGCGGAAATGGGGTATATTGAATATATTGGACCGTTATGGGGTCACGACTACTGGCACACGGCTATGGATTGGAGTAAATGA
>SRR1151209_00142 competence protein ComEA
ATGCAACGACACCGACCAACAAGACCCCAATGGCAGCAGCTGTTGGGGCGTTATTGGTATCTGCCGATTATTTTATTGATGGCGTTAGCCGGCGCGGGCTGGTGGTGGCTGAACCGGTCGCCGGCCGGCAGCAGTTTGGATCCGGCGCAACCAGCGGATGTACCAGCGCGGGTCGCCAGCACGAGCGGCCGGCCGGCTGAAGAATCAGCGAGACCGACGACAGCCAGCAGTACCGCAAGTCGGCCAGCAGCAGCCGCTGAGAATCAGCTGTGGGTCGATATCCAGGGCGCGGTGCGCCGCCCAGGCGTGTATCAATTGCCGGCCAAAAGTCGGTTGGATCATGCGGTGAAGGCGGCCGGCGGATTATTACCGGAGGCTGATCGGCGGCAGGTGAATCTGGCCCAGCCGCTCACAGATGGGGCAGCAATCGTGATCCCACGGCCGGGTGAACAGTCTGCTGCCGCAGCACCCAGTGCTCAGCCAGCGGCCGTCGCGGGCAGCGGCAGCACGGCAGCCAGTCAGACCAGCGGTGCGATCAATATTAATTCAGCTACCCAGACGGAGCTGGAGCAGGTCAGCGGGATTGGTCCCAAACGGGCGGGAGACATCATTGCCTACCGGGATACCCACGGGGCTTTTCAATCCCTGGATGAATTAGGTGAGATCAGCGGCATCGGTGAGAAAATATTGGCCACGCTCAAAGCGGCCCTGACAGTATGA
>SRR1151209_00143 hypothetical protein
ATGAAGCAAACCCCTAACGAAACACCCAAGAAGCATCGCGGTCTCTGGTGGAAGATTCTTCTCCCTATCTTGATTCTGGTCTTGTTGGCGGCTAATTTTGTCCCGCTGAACAACTGGTTCATCGAAATGCCGGGGTCAGCTGAACCGTTAGCCCAATATGTGAAGGTAGACGGCAAGCGGGATACGGCCAAGGGCAGTTTTTCCTTGACCACTGTGGGAATTGCCCAGGCGACAGCCATGCAGCTGCTGCTGAGCAAAACTCGGCCTTACGAGGATATCGTGTCTCGCAATGATGTGATGGGCGGTGAGGATAATGCTACCTTTGATCGAGTTCAGCAGTATTACATGACCAGTGCCATCAATAATGCCATTGCGGTGGCCTATAAAGCGGCCCATGAGCAGTATACGATCCATTACTTAGGTATTTATGTATTGGCGGTGGAAAGCAAGTCAGCTTTCGCCGGCAAGCTCCAAGTCGGGGACACGATCACCAAGGTGAACGGCCGCCACTTCAATGCCAGTACTGGTTATATCAACTATATTCGTCAGCATAAAGTGGGCGATACCGTGACCTTGACGTATACCCGCGGTAGTAAAACTTTGACTGCCTCCGGCAAACTCTACCGACTGGCGCAGACGAAGAAGCCGGGCATCGGCATTACCCTGACAGATCGGACCAAAGTCACCACTAAAATTCCCGTCAGCGCAAACGTTGCTCAAATTGGCGGCCCATCTGCAGGCTTAATGTTTTCTCTGCAAATTTATGATCAATTGACCGGCAGCAAGCTGCGGCAAGGGCGCCATATCGCCGGTACGGGGGAGATTGCCCCGGATGGCACCGTCGGTCAGATCGGCGGACCGGAGAAAAAAGTTTACATTGCCGCTAAAGAGGGCGCGACGATTTTCTTCGCGCCGCATACTAAGGTCACAAAGGCCATTAAGAAACTGGACCCGGGATTTGAAGACAATTACGCGGTTGCTAAAAAGGCAGCCAAAGACTCCCATCTGAAGATTACTGTAGTCCCCGTGGAAAAATTCGGCGATGCTGTAAAATATCTGCAGACTCATTAA
>SRR1151209_00144 phosphopantetheine adenylyltransferase
ATGAAACGCATTGCACTTTTTCCTGGGAGTTTTGATCCTTTTACCAACGGTCATCTCCAAACGGTCCAGCGGGCCAGCAAGTTGTTTGATGAGGTCGTCATTGCGGTGATGACTAACGTCAGCAAGCAGGGGCTGTTTACGCCGGCTGAAAAGGAAGCGTTGGTCGCTGGTGCGACCCAAGGGCTGGCGAACGTGCGGGTGATGGCTGCCCCTAATCAGCTCACCGTACAGGTGGCCGAGGCCGTTGGGGCCAAGTTTTTGCTCCGGGGATTGCGGAACGAATCCGATTTTACTTACGAGGCTGGTATCGCCCAGATCAACCGGACCCAAGACGCGTCGATCGAAACAGTATTTCTGTATGCCGATTCCGATACAGCCTTTGTGTCTTCCTCGATGATCAAAGAAGTCGCCCGTTTTGGCGGCGACGTTTCCGGGTTAGTGCCGGCTAATGTGGCAACGGCGTTGGCGGCAAAAATGGCTAGTTTAGGAAGTGATCCTGCATGA
>SRR1151209_00145 rRNA methyltransferase
ATGCGGGTTATTTCAGGAGAGTTCGGCGGTCGGCGGTTGCAAGCTGTGCCGGGCAATAAGACGCGGCCCACGACCGACAAGGTGAAAGAGAACTTGTTCAATATTTTGGGCCCGTATTTTTCTGGCGGTACTGTCCTCGATTTATTCGCTGGGACCGGCGGTTTGGGCATCGAGGCGGTTTCTCGCGGGATGGACGCGGCTGTCTTGGTTGACCGCCAAGGCGCGGCGATCAAAGTGATTCACCATAACGTGGCGGTCACCAAAGTGCCGGATCGTTTTACTATCGTTCATGCCACGGCTTCGGCCTATTTGCAGCGGGCGGTGGGGACGATTCAATTTGATTTGGTCTTTCTGGATCCGCCCTATGCCCAGCAAAAGATTGTAGAAACGATTACGGATCTGGCCCATGATGGTTTGCTGACCCCAGGCGCTCAGATTGTGGCCGAAACGGATACCAAGGTTGCCTATCCCGATGTGCCTGGTTTCTCATTGCGCCGTCAAGTAACTTATGGCATTACTGAGTTGGCTATTTTTCAATATGAAGGAGATGCGGCTGAATGA
>SRR1151209_00146 hypothetical protein
GTGCCCAAGCAAAATGAAGCCATTCCTGCACCGCGGACTGGGATCACCGTGTGGCTGTATTCGGCTAAACAGGCGCGTAAATTGCGCCGGTTCGGGCTCGTGTATTATGTGTCGGAACGGATGAAATATGCGGTGCTATACGTGGACAGTGAGGCGGCGGCCAGAACGATTCAGCAGCTGCAAAAGCAGCGCTTTGTGCGGAATGTGAGTGTATCCCCCCACGGGACAATTGCCACCGAGTATACGCACCAGCTGATTGGTGAACGGAAGGAAGACGATGACTGA
>SRR1151209_00147 cell division protein FtsW
ATGCGTAAACGGCTTGCTCATATTGACTACTTCATCTTGATTCCATACTTGGTATTGCTGGGGATTGGGATCGTCATGGTGTATTCAGCGAGTTCGGATATCATGGCAGCGGCTGGCAAATCACCAACAGCATATTTGAATCGTCAGACTATTTTTGTCATCGGCGGACTGTTTGCCGCGGCCTTGGGTTTTATTTTACCGCTGCGCCTGTTTGCCAGCGGCCGATTCGTCCGGCTGGCCGTGGGCGTCACGATGGCCATGTTGTTCGGTTTGCTGGTGATGGGCTATTTCCGGCCCGATTTGAAGGTTAATGGGGCTATGGCGTGGTTTGACGTCGGTTTCTTCAATGTCCAGCCGGTGGAAATCGCTAAATTGGTCCTGGTCCTGTATCTCGCCCGAATTCTTTCACGGCGGGAAGAAAAGCTGACTCGATTCCATGAAGCCGTCCGCCAAATTATTGCCCCCATGATCGTGGCTGGGTTAATGGCGATGTTCGTCCTGTTGGAGCCCGATACTGGCGGGATGGCCATTCTGCTCTTTCTCACGCTGTTGATGATTGCCGCTTCTGGTATTAAATGGTCTTACGGCGCCCTCATCATGGGCGGGGTCGTCGGTTTCAGCATCGGCGGTTTGCAGATCATGCGTTCAATTGATTTGCCTTGGTTGAAACAGAGTTATCAAATTAAACGATTGTTGGCTTTTTTCCATCCATTCAAATTGGAAAACTCCGTTGGCCGGCAACTGGTTAATTCGTATTACGCCATCAGCAATGGCGGCTGGTTCGGGGTCGGCATCGGCAACAGTATTCAGAAAAAGGGCTATCTGCCTGAACCGTACACGGACTTTATTATGTCGGTCATCACGGAGGAACTGGGTATCATTGGGGCGATCGTGGTCCTGGGAATCCTGTTCTTCCTGATCGGCCGGATCGTGCTGGTCGGAATTCGCGCCCAGTCAGCTTACCGCTCACTGGTATGTTACGGGATCGGCGCCTGGCTGTTTGTCCAGACATTGTTCAATGTTGGCGGGATGAGCGGGTTGTTGCCCATTACTGGGGTAACACTCCCGTTTATCAGTTACGGCGGTTCCTCCATGCTGATGCTGTCGGCGGCGATTGGTCTGGCCATGAATGTCAGTTGTGTTGAACAAGTTGAACGGGAACGCCAGCAAGAAAGGGGGAGAACCAGTGCCCAAGCAAAATGA
>SRR1151209_00148 GTP-binding protein TypA
TTGAAAACTCGTGAGGACATCCGGAATATTGCGATCATTGCGCACGTTGACCACGGCAAAACGACGCTGGTCAATGAATTGCTTAAGCAATCCGATACACTGCCCGAACATATGCACTTGGAGGACCGGGCGCTAGATTCTAACGCAATTGAACGGGAACGGGGTATCACGATCCTTTCCAAGAATACGGCGGTCCAGTATGGCAAGACCAAGATCAATATCCTGGACACCCCGGGACATGCGGACTTCGGCGGCGAAGTTGAACGGATCATGAAGATGGTTGACGGGGTCTTGCTGGTGGTTGATGCCTATGAAGGCACCATGCCCCAGACTCGGTTCGTATTGAAGAAAGCTTTGGAACAACATTTGACCCCGATCGTGGTCATCAACAAAATCGACCGTCCGGGCGCTCGTCCGGAAGAAGTCGTCGATGAAGTATTGGAACTCTTCATTGAATTAGGCGCTGACGAGGATCAGTTGGAGTTCCCGGTGGTTTACACCTCCGCGGTCAATGGGACTTCCAGCTTGGATTCTGATCCGGCTACGCAGGAACACACGATGAACTATCTGTTTGATACCATCGTGAAGACGATTCCGGCACCGTTGGACAACAGCGACGAACCCTTGCAGTTCCAAGTCGCGATGCTGGATTACAACGATTATGTTGGCCGCATTGGGATCGGCCGGATTTTCCGCGGCGCGATCCACCTGGGCGACAACGTCTCCGTATTGAAGCTGGACGGCACGAAGAAGAATTTCCGCGTGACCAAGATCTTCGGCTTCTTCGGGTTGAAGCGGGTCGAAGTCGACTCCGCTAAGGCTGGGGATTTGATTGCTGTTTCCGGGATGGAAGATATTTTCGTCGGTGAAACAGTCACGCCCCAAGATCATCCCGATGCACTGCCGATTTTACGGATCGACGAACCGACCTTGCAGATGACTTTCTTGGCTAATGATTCGCCGTTTGCCGGGCAAGAGGGGACCGAAGTCACTTCCCGCAAGCTGGAAGACCGGTTGAAGAGCCAGTTGCATACTGATGTTTCCCTGCGGGTTGAAGACACCGATATGCCCAGTGCTTGGGTCGTTTCTGGCCGTGGTGAACTGCATTTGTCCATTCTGGTGGAAGAAATGCGGCGTGAAGGCTTCGAACTGCAACTGTCTCGTCCAGAAGTTATCTACAAAGATATTGATGGCGTGACCTGCGAGCCTTTTGAGTCCGTGCAGATCGACACGCCGAACCAATATGTCGGCAGTGTCATTGATTCCATGTCCCAACGCAAGGGCGAAATGCAGAACATGGAAACGACCGATAACGGCCAGACCCGGTTGACCTTCATGGCACCGGCGCGAGGCTTGATTGGTTACAGCACAGAATTCATGTCCCAGACTGGTGGTTACGGGATCATGAACCATACGTTTGCAAAGTACCTGCCGGTGATCAAGAACTGGACGCCTGGTCGGCGGACCGGGGCGCTGGTTTCCATTAACCAGGGCACGGCGACAACTTACAGCCTGCAAGGGGTTGAAGACCGGGGCACGCTGTTCGTTGACGCTGGGGTTCAGGTCTACGAAGGAATGATCGTTGGTGAATCCAGCCGGGAGCAAGATATCGGCGTGAACGTCACCAAGGGTAAGAATCTGACCAACACCCGGGCGGCCGGGAAAGACCACGCCGCTGCCATTCGGACACCGCGGTCTCTGTCTTTGGAAGAATCTATTGAGTTCTTGAACGAAGACGAATATTGCGAAGTAACTCCGAAGAGCATTCGGTTGCGCAAGAAGATCCTGAACACGTCTGCTCGGATGAAGGCTGCTAAACGAGCCAAAGTCGCTGCAAAAGACGATAAATAA
>SRR1151209_00149 inositol monophosphatase
GTGGATAAGGCAGAAACGGCGTTGCTCGCCCTGCGGATGCGGGATTGGGTCTCCCAGGCCGGGGCCCATATCCGCCATCACATCCACGACCCGCTGCACGTCCAAACGAAGAGCAGCCGCAAGGATCTGGTGACGAATCTCGACAAACAGACTGAATGGGATTTAATTGCGGCCATTCGCACTGAATATCCCCAGGCTCAGATCATGGGCGAAGAAGGCAGCGGCGATCACGTCACGGATCTCAAGGGCCTAGTATTCTTTGTTGATCCCATTGACGGCACCATGAATTTTGTCAAACAGAAATATAATTTTGCCATTATGATTGGCGCGTATATTGACGGCGCGCCCCATGTGGGGGTCATCCTGAACGTCATGCGGCAGGAACTGTACTGGGGCGGACCGCAACTGGGTGTTTTCAAAAATGAGACACCCATTAAAGCCGTTTCGCCGCTTTCCTTGGCAGACGGGCTATTCGGAATCAATTCCGGCATGCTGGCCTACGACCGCTATCATAGCCATCAGTTATTCAAGACCAGTGCCGGGATGCGGATCCTGGGCAGTGCCGGCATTGAATATATTCAGCTGCTGGAAGGCCGCCAAGTGGCCTACCTGAGCCATTTGGCCCCCTGGGACGTGGCCGCGGGCCGCGTCATGGCTGAAACGCTGGGGATGTCGGTGAGCCGTCTTGACGGTCACCCGCTTGATATGCTATCATCAGGCGATGTATTAATAGCGACAGCGCCGACTGTGGCTGACATCCGGGCCATCGCGCTGGATCAGCCCAGATAA
>SRR1151209_00150 hypothetical protein
GTGACGAAAGCGACGCACGAATATTCATATCCCTTGCGCTCGGAATGGTCCACGGCGGAGGTCACCACCGTGATGGCCTTTTACAACGCGGTGGAAGAAGCCTATGAGGGCGGCACCGCCACCGCTGATTTGCTGGATGCTTACGCGGCCTTTAAGACCGTGGTCCCGGATAAAATGACAGAAAAACAGTTGGACGCCGCCTTCACGGAGGCGTCCGGCTATTCCCTGTACCGGGCCGTCCAAGCGGCGAAGCAGGCGGCGGGGCCGACCGTCCAGTTGACAGGCGGTGAGCAGCGTGGATAA
>SRR1151209_00151 magnesium-translocating P-type ATPase
GTGCTGTTCGGCCCATTATCATCGATCTTTGACGTCCTGACCTTCCTCTTCCTGTGGTTCGGTCTCGGCATCGGCGCCCACGCGGCCAGTATTCCGTGGCAGCACGTTTTCCAGGCCGGCTGGTTTGTGGAAGGGTTGTTCACGCAAACTCTGATCGTGCATATTTTCCGGACGCGGCATATCCCCAGTCTAAGGACGCCGGCCAGCGCTGTTGTCCTGCTGTCGACGGCACTGGCTTTAGCCGTAGGCGGGTTGCTTGTCCTGACGCCGTTGCGGACGGCTTTTGATTTTGGCCGCTTGCCCTGGCATTTCTGGCCAATAGTGCTCCTGATTATCGCTGGGTATATTCTGACCGTTGAGATCAGCAAGGCCCTCTACGTCCGGCGAACCGGGGAGTGGTTGTGA
>SRR1151209_00152 magnesium-translocating P-type ATPase
GTGTTCATTAAAAAGAATCACACCCAACTGGCTGCTGAGAAGCAGACTGAATTAAAGCAATTGAGCGGCTACACCCAAGACCAAATTCTGGCCCAACTCCAGACCCGGCTCAGTGGGCTGGACGAGGCCGAAGTGGGCCAACGGCAATTACAATACGGCGAAAACACCGTGCGGTCCCAAGGAGCGCTGCCGGCGTATCGGGTATTGCTCGCCGCGTTCAATGATCCATTTGTCTATGTCTTATTGTTTTTGATGATCGTTTCGGCGCTGACCAATGATCGGGACGGGGCGATCGTCATGGCCATCATGATCCTGTTATCCGTGCTGATCCGGTTTACCCAAGAATACCGGTCCCAGAAGGCCAGCGCGGCGCTGACGAAGCTGATCCAGAATACCACCGCCGTGACTCGCGGCGGGATCACCCGGGAACTGCCCATGGACGCAGTAGTGCCGGGGGACATCGTGACCCTGAGCACTGGCGACATGATTCCGGCGGATGCTTATTTGTTAACGACCAAGGACTTGTTTGTCAATCAGTCCTCACTCACCGGCGAAGCGATGCCGGTGGAAAAGCGCGCGCACTTCGATTTATCCGAACTGTCTGACGAAGCGACGGCTTTTGACTATCCGAATCTGGTGTACATGGGCACTGATGTCCTATCCGGGTCCGGTCTAGCGGTCATTTTGAAGACTGGGGCGGATACGTTCTTCGGCGATATTGCCCAGAGTGCCACCGAAGTGCAGGGTCCCAGCAATTTTGATACGGGGATGCGCCAGATCAGCCGTTTCTTGATCGGTATGATGCTGATTCTGGTACCGATCGTCTTTCTGATCAATGGCTTGACCAAGCACGATTGGTCCCAGGCTTTCTTCTTCGCGATTGCCGTGGCGGTGGGGCTGACCCCAGAGATGCTGCCAATGATCGTGAACAGCAATCTGGCGAAGGGTGCTTTGGCGATGGCCAAAAAGAAAGTCATCGTCAAGCATCTGCACGCCATTCAAAATCTTGGCGCGATCGACACGTTATTTACCGATAAAACGGGGACCATTACGGAAGACCGAGTCGTCGTCATGCGGCATGTTGACGCCTTGGGTGAAAAGGACGACTCCGTACTGCGGCTCGCCTATATGAACTCGAATTATCAAACCGGCTGGCGCAATCTAATGGATCAGGCCGTCATTGATTACGTCGCGAAACATAAAGAAGAATTAAGCGACATTCCCGATAAGCTGACGAAAGTGGATGAAATTCCGTTTGACTTTGATCGGCGGCGCCTCACGGTTGTCGTCGACAGCGGCGACCATCAATGGATGATCACCAAAGGGGCGTTCGAGGAAATGATCCACGTGTCTGACTATGTCTTGATCAACGGTCAGGTCACTCCGATGACCGGCGCCTTGCACGACCGGCTGGTCCAGACCAATGACGCATTGAACCAAGCCGGCATGCGGGTACTGGCCGTGGCCTACCGGATGGATGTCCATGAGCAAAGTGTGTATGCTGTTGCGGATGAACATAACATGATCTTAGCCGGTTTTCTCGGCTTCTTGGATCCGGCCAAGCCGGATGCGAAGGAGGCCATCAGTCTGCTGAATGACCACGGCGTCCACGTGAAGGTTTTGACCGGGGATAATGCCATTATTACCCAGCACGTTGCCCAGCAAGTGGGAATCGCCAATACAGCGGTGCTCGCCGGCAACGATGTGGATGACATGGATGATCAAACTTTGACCAAGGCCGTCAACACCCACGATTTATTTGTCAAACTGAATCCGTTGCAAAAGGCTCGGATCATCAATGTGATGAAAGGGCACGGGCACACAGTGGGGTTCATGGGCGACGGAATCAACGACGCTCCAGCGCTGCGCCAAGCCGACGTGGGCATCTCTGTGGATAATGCGGCCGACATCACCAAAGACGTGAGCGGCATTATCCTGTTGGAGAAGTCGCTCCTGGTTTTAGAAGACGGCATCTTGGAAGGCCGGCGAGTTTACGCCAATGCCATGAAATATATCAAGATGACGATCTCCTCGAACTTCGGGAATGCCTTATCGGTACTCATTGCCAGCATTTTCCTGCCGTTTCTGCCGATGCTGTCGATCCAGCTGCTGGTCCAAAATCTGATTTACGATACGGCCCAGATGGCGATTCCCTGGGACAACGTGGACGATGAGACCTTTGGCCCAGCCGACACCATGGCGGGCGGAGGGGCTGTTCCGCTATACCGTGCTGTTCGGCCCATTATCATCGATCTTTGA
>SRR1151209_00153 peptide deformylase
GTGATTTTAATGAAAGACATCGTGCGGGACGGCGATCCCGTTTTGCGGGCCGTCGCCAAACCCGTCTCCTTTCCGCTGAGTGCAGAGGATAAGAAATTGGCTGATGATATGATGGAATACCTGGTCAACAGTCAGGATCCGGATATTGCTAAAAAACATCAGCTCCGGGCCGGCGTGGGCCTGGCTGCCCCGCAAGTCGGCCGCTCGATTCAAATGGCCGCGGTGCTGGTACCGGATAACGACGGCAAGATCATTCTCAAAGAGGTCCTGTCGAATCCCGTGATTACTCGCGAGTCCGTCCGGCCGGCAGCGTTAGCCGAAGGCGAAGGGTGCTTGTCGGTGGATGAAGATGTCCCGGGGTATGTGCCCCGCCATGACCGAGTAACGATCCGCTATCAAGATTTGACTGGGGCGAAGAAGACGTTGCGGCTGAAGGATTACCCCGCTATTGTCTGCCAGCATGAGATCGACCATCTCCGCGGACACCTGTTTTACGATCATATTGACAAGAAGCATCCGTTTAACATCGCTTCGGATGCCGTGATCGTCCAATAG
>SRR1151209_00154 multidrug ABC transporter ATP-binding and permease protein
ATGAGCCGCGGATTGTTTACTTTACGTCGTTTGTTCCGTTATATCCGCCCCTATCGCTGGTCCTTCTTTGGGGCGTTAGCCGCCACTTTGATCTCGGTAGTGAGCAATGCCATTTGGCCGGTGATCATGGGCTTAGCAGTGACCCGGATTGGGGTCAATGTGGCCGCCCATGCAGCGATTGACTTGCCCTATGTGGCCAAAGTGGTGGTGGCCATGCTGGCCAATGCCCTGGTGTATCAAGTGACTTTGTTTCTTTCTACCTATTGGATGACGATTGCTGTCCAGCGGGCGATGCGCGACTTGCGCCAGGATCTGAGCGACAAGTTGAATCGGCTGCCGGTCCAGTTCTTTGACAGCCATACCCAGGGCAACTTGCTATCCCGGGTGACCAATGACGTGGACGCCATTACGAACGCCTTGCAGCAAGGGGTGGTGCAAGTGGTGACCTCAGTGATTGGTATCTCGCTGGCGGTCGTGATGATGTACTCCATCAACTGGCTGATGGCCACGATCATGTTGTGGATGCTGCCAGCGTCATTCTTGATTTCTCGGTTTGTCGTTCGCCGCAGCCAGCCTTATTTCCAGGCTCAGCAAAATGCCCTGGGTGAATTGAACGGCACGGTCCAGGAATCGTTCACGGGCTTTACGGTGATCAAACTTTATGGTCAGGAACGGGACGCAGAGAAGAAATTTGCTGGCGCCAACCATAAGCTCGCTGCCAAGGGCTTTAATGCCGCCTTTATTTCCGGCATGATGAGTCCCCTAGTCGGGTTCACCGCCAGCTTGAGTTATGCGGCGGCGGCCACCTTGGGCGGGCTGAACGTGTTAGCCGGCCGGATCCCCTTGGGGAACCTGCAGGCTTTCGTGCAGTATATTTGGCAGGTCAACCAGCCTTTGTCCACGCTGACTCAGCTGTCGGCGGTATTCCAATCCGCCGCGGCTGCCACCAAGCGGGTGTTCAACATTTTGAACGAGCCGGAAGAAAAAGACACCGTCACAGCGAAACTGCCCACGACGGGGGCGGTCCGCGGCCGAGTGGAATTTAAACACGTCTCTTTCCGCTATCGGGAAAATCAGCCGTTGATTGAAGACTTGAACTTCGTGGCCGAACCAGGCCAAACTGTGGCCATTGTTGGGCCAACGGGGGCCGGTAAAACGACGATGATCAATCTTTTGCTGCGTTTCTATGATATTGATTCCGGCGAGATTCTGGTGGATGGTGTGAACATCCAGGATATTGCCCGCAGCGCGCTGCGCGAACAGTTTGGGATGGTTCTTCAGGATGCCTGGCTGTATCGCGGCTCGATTGCCGATAATATCCGTTTCGGCCGGTTGGATGCCGATGAATACGAAGTGGTGCAGGCCGCTAAGACGGCCAACGTCGATCACTTCGTGCGGACGCTGCCCAATGGGTACCAGATGCAGATCAACGAAGACGCGGACAACATTTCCCAAGGGCAAAAGCAGCTTCTGACTATTGCCCGGGCGGTGATCAAGAATCCGCCGATGATGATTTTGGACGAGGCCACCAGTTCCGTGGATACCCGATTAGAGCTGCTGCTCCAGCGGGCGATGGATCGGGTCATGGCCCACCGCACGAGTTTCGTCATCGCCCATCGGTTATCAACGATTCGAGATGCAGATTTGATCCTGGTGATGCGCCATGGGCAAATTATTGAGCAGGGGAACCATGACGCGCTGCTGGCGGCCAATGGGTTCTATGCCCGGTTGTACAATTCCCAGTTTGCGGACGCCGATCAACTGGCGGACGAAAGCGATTAG
>SRR1151209_00155 ABC transporter ATP-binding and permease protein
TTGCGCCTGATGTTACGTTACGTTCTTCGATATAAGCGATTGCTTTTGGGGAACTTTATCTGTGTATTTGGTTTTATTATTTTGGAACTCGGTTTGCCGACGATGCTGGCGCGGATGATCGATGAGGGAATCAATACCCGGCGCCCGGATCGAATCTGGTTTTACGGGATGGTCATGGTCGGGGTGGCCTTGATCGGCTTGATTGGGCTGATTGGACTGGCTTATTTCGCCAGCCGGATCACCACCAATGTCGTTCGAGATATGCGGGACGATATTTTTGCCCGCACGATTCGTTTTTCCCATGAAGAGCACAATGCCGTGGGGACGGCGTCATTGATTACCCGGACGACGAATGATGCCTTCCAGATCATGAACTTCTTGCAGATGATTCTGCGCACCGGTTTCATGACCCCTTTAATGATCATTGCCAGTGCCTTTTTAATTGTGCGCACCAGTCCGCGCTTGGCCTGGATGGTGTTTGCCGGTATTCCGCTGCTGCTGCTCGGCGTATGGCTGATTGCGGTCCTGTCTAAGCCGCTTTCGGAGAAACAGCAGGGCAATTTAGACAGCATCAACGGCCGGATGCGGGAACAATTATCGGGTATCCGGGTGATTCGGGCTTTTGTGCGGGAAAAATTTGAACAAGCCCGCTTTGGTGAAGTGAACGACGCTTACGCCAACAGTTCCATCAAACTATTTACCCTGATGGCTTTTGCGCAGCCTGGTTTCTCGATGGTACTGAATGTGATCACCGGAGTCATCATCTGGCAGGGCGCCGTGGCGATTGGTCAAGGCCAGCTGGCTGTCGGCTCATTGATCGCGTTCATTGAATATATTTTCCATGTACTTTTTTCCTTTATTCTTTTTGCCAGCGTTTTCATGATGTATCCCCGGGCGGCGGTTTCAGCTGGCCGAATTGAGGAATTGTTGAACGCTAAAAATGAAATTGAAGGCAAGGATGGCCAGGCGTCACGCGGTCGCGGTGCCGCTGGCGTGGTCTTTGATCACGTGGACTTTGCCTATCCCGGCAATAGCGAAGCAGCTGTGCTGCACGATATCTCGTTTAGCGCCCAGCCGGGGCAGACAGTGGCCTTCATTGGCAGTACCGGCAGCGGCAAGTCCACTTTGATTCAGTTGATTCCGCGATTATTTGATGTGAGTGCCGGGCGGATTTTGGTGACCGGGACGGATGTGCGGGATTACGCGGTCAAAGCATTACGGTCAAAGATTGGGTTTGTGCCCCAAAAAGCGGTGCTGTTTACCGGGACCATTGCGGATAATCTCCGTTATGGTGCCCAGGAAGCAACGGATGACGATCTTTGGGAGGCCCTGCGCATCGCCCAAGCGGCGGATTTCGTGCGGGAACAGCCTGACGGCTTGCAATCGATTTTGACCGAAGGCGGGACCAATCTGTCTGGCGGACAAAAGCAGCGCTTAGCCATCGCCCGGGCCATCGTCCGGCGGCCGGATATTTATATTTTTGATGACAGCTTTTCAGCTTTGGATTACCAAACCGATGCTGAGCTGCGGGCAAACTTAGCCCAAGTGACTCAGCAAGCAATCGTCTTTATTGTGGCCCAGCGGGTCGGCACGATTCGCCATGCGGATCAAATCGTCGTGCTGGATAATGGGGAACTGGTCGGTATGGGCACCCATGAACAGCTCATGGCCACCAATCCGATCTATCAGGAAATTGCCCGGTCGCAACTCAGTGAGGAGGAATTAGCATGA
>SRR1151209_00156 hypothetical protein
ATGCAGTGGATTATTTTCGCCCTGATCGTCATTGGGGTGGCGGCCGTGGCCGCCTTTTATGGTTTTCGGATATGGCGCCGGCGCCGCACGATGAAAAATATGCGGGCGTACACCAGCCGGGTCACCGCCCGGGTCGTTAATCGGGCGCTGCGTCAACTACAAGGGACAACGAGTCAGTGGCAGGAGAAGCATCTGCCTTTGACCCCGATTGCCCATACCCGGGATTGGGGTCACAAAGCGATCATGGTCTATGAATTTGCCTACACCGGTCCGGCTTTGACTGTCGCGGCCACGGCGCGTGCCGAATTGCAGCATGCCGTCAACGCAGCGGCCCAACAGGAGGGTATCGTGGGCGCGGTCATGGACGTACCGCCCTTTGCCATTGTGGATGTGTGGCAGCGGCAGGATGAACGGCATTTTTCCGTGGCTTTCCAGATCAACCAAGCCACGATTGAATACGTGCAAGATATTACGCGGGCCGCGCGGGAAGATGCGGCGGCTCAGGAGAAGAAAGACTAG
>SRR1151209_00157 hypothetical protein
ATGATCTACAAAGTATTGTACCAACCGAACTTGACCCAAACTCCCCGGCGGGAGTCGACTCAGACCCTTTATTTAGAAGCAGACAACCTGGTTGCTGCGCGTCAGCTGGTGGAGAAAAACACCCCCTATAATGTTGAAATGATCCAAGAGCTGACCGGTAATCATTTGGCGTACGAGCAAAAGAGCCCGGACTTCAAATTGACGGAGTTTTAA
>SRR1151209_00158 ribonuclease J
ATGGCCATTCATATCAAGAATAACGAAGTTGCCGTTTTTGCCATTGGGGGATTAGGCGAAATCGGCAAAAACATGTATGGCGTGCAATTTCAGGATGAAATTGTGGTCATCGATGCCGGGATCAAGTTCCCCGAAGATGATCTGCTAGGCATTGATTACGTCATTTCTGACTATCAGTATTTGGTCAAAAACCGGTCGAAGATCAAGGCTCTGGTCATTACCCACGGGCACGAAGACCATATCGGCGGGATTCCGTTCCTGTTGCAGCAATTACCGGAGATTCCTATTTATGCCGGTCCGCTGGCGCTGGCGCTGATTAAGAGCAAGCTGGAAGAACGCAACTTGTTGCGGAGCACGGAGCTGCATGAATTGAATGAAGACTCGGAGCTGAAATTCCGCAAGCTCAGTGTCACGTTCTTCCGCACCACCCACTCGATTCCCGATACCCTCGGGATCGCAGTGCACACGCCCCAGGGCATTATTGTCCAAACCGGCGACTATAAGTTTGATTTGACCCCAGTGGGCGATCAGCCGGCGCCGAACTTGCAGCGGATGGCGAAACTCGGTTCCGATGGCGTCTTACTATTAATGTCGGACTCCACCAATGCCGAAATTCCCACCTTCACCAAGTCGGAACGGTTTGTCGGCAAGTCGCTGCGCCATATTTTTGAAAAAATCGAAGGCCGGATCATTTTCGCCACTTTCGCCTCAAATATTTCCCGAATCGCTCAGGCCAGTGAAACGGCCATGGCGAATGGCCGAAAAATTGCGGTCTTTGGGCGGAGCATGGAAGCCGCGATCGTTAATGGCCGCGAGTTAGGATATTTGCACATTCCTGATGAAGAAATGGTGGATGTCAACACATTGAATCACCTACCGGCCAACAAAGTCATGATTCTGTGTACCGGCTCCCAGGGTGAACCGATGGCCGCCCTCTCCCGAATCGCCGCCGGTACCCACCGGCAGATTCATATCCAACCAGGGGACACGGTGGTCTTCTCGTCCAACCCGATTCCTGGGAATACCACATCCGTGAACCATACGATCAACCTGTTGGAAGAAGCTGGCGCGCATGTGATCCACGGTAAAGTCAACAACATCCATACCTCTGGTCACGGCGGTCAGGAAGAGCAAAAACTGATGCTGCGGCTGATGAAGCCGGAGTACTTCATGCCGATCCATGGGGAATACCGGATGCTGCGGATCCATACCGATCTGGCTGAATTGTGCGGTGTACCAAAGGATCATTCATTCATTATGGAAAATGGTGACGTGCTCGCTCTGACCAAGGACTCTGCTCGCATTGCCGGCCATTTCGCCGCTGATGACGTCTACGTTGACGGCAGCGGTGTTGGTGACGTCGGCAGTGTTGTCCTGAAAGATCGCCGGGTATTGTCCGAAGAAGGTTTGGTCGTGGTCGTTGCCACGATCGACTATCAGCACGGCGATATTTTGGCCGGCCCGGATATTCTTTCCCGCGGCTTTGTGTACATGCGGGAATCCGGCGAATTGATCAGTCAAGCGCAGCGCCGGGTCTTCCGGGCGATCCGCGGTACTTTCAAGGGTGATACCCCGCCCAGTGAAGGGGCCATCCGGGATGCAATCACCGATACGTTGCAGGATTTCTTATTTACGAAGACTGAACGCCATCCGATGATTTTACCCATGCTGGTCAATGCCAAGTAA
>SRR1151209_00159 diacylglycerol kinase family protein
TTGGCGGATGCGCAACAGCCAACAGCACCAGTGCATTACGCAGTACTGGTGAACACCCATGCCGGCAACGGCAACGCCGGGAAAGTGTGGCCCACGATTTTGAAAATGCTCGAAGCCGCCGGGGTCTCTTTCCACGTTTATGAATCGCAGTACCCCGGCCATACGACCATCTGGGCCCGTTCTTTGACCCGCACCGAACAACCCACCGCTGACCGGCAAATGGTGCTCTTAGTTCTGGGCGGTGACGGTACACTGCATCAAACAGTCAATGGGGTCCAATCCGCGGTCCGGGATAACCCGCACTTGACGCCGCTGCCCATTGCTTACGTCCCATCCGGCTCGGGCAATGATTTTGCCCGAGCCGTGGGCCTGCCCCAAGATCCGGAAAAGGCCCTGCGCGAAGTGCTGGCCGTCACCCGGGCCCGGCCGTTGGACATCGGTCATTACGTAGATCACCGCCAACAGCGCCAGGAGTACTTCACCAACAACGTGGGCATTGGTTTTGACGGTCGGGTCGTATCGACGACCAACGATTCCCGGGTCAAACGGGCGCTGAACCTGATCCATCTGGGCGGTTTGGCCTACCCGGTACATTTCTTCGGCGCTCTCTTCAAACAACGCCCCTTCGCCGTCCGAATTACTACCGACACTGGTACTCAACGCTTCACCAAGGCCTGTCTGGTCACGACCACCAATCATCCCTTCTTCGGCGGCGGCGTGCCCGTTGCCCCCACCGCCTCCATGCGGGACGGCAAGCTGGACTTGGTGGTCCTGGAACGCACAAGCGCCCTCCAATTTCTTGGCCTGTTTGCCTTGATGGTCTTGTTCCATAACCACCTCAACCGCAAACGCGCCCACCACTTCGTCACCAAACGATTAGACCTCACCTTTGGCGAACCCGAATACGGCCAAGAAGACGGCGAAATTATGGGCCAGCAAATCTACGACTTTTCCTTCGACGTCTGCCAGCAACCCTTCTGGCTCCCGTTGGACAACTATGATCAACTATGA
>SRR1151209_00160 acetyltransferase
ATGGACGAGATACGCAATCAACTGGAGATACGCCCCGTCACAGTACACGAAGTGGATCAGTATAATGATCTTTTACGGTATGTGTTTCAAGTCACCGACCAGGAGCTGGTGGACAGCGGTTATGAATCGGGGGAAATCGTCCGGGCTAAATTGCCCGTAATCAAGGAATCTGATGTGATCGGCTGGTTTAAGGACAAAGAGCTGGTAAGTTCCATGGCCATTTACCCCTGTACCGTGAATATTCACGGGGTATTGTACGCCATGGCCGGGTTGACCGGAGTGGGTACCTACCCGGAATATTCTGGACACGGGTTGATGCATGATCTGATCAAAGTGGGACTGAACCATATGCGGGCGCACGAGCAGTGGATCTCTTTTCTTTACCCGTATTCCATTCCGTTTTATCGCGAAAAGGGCTGGGAGATCATCTCTGATCATCTGACTTTTGACGTCCGCGACACCCAATTGCCCAAACAAGAAGTGGTGCCCGGCCACGTGGAACGGGGCGACATTGATGATCCCGATGTGTTCAAGACCTATGACCGTTTTGCCCATCAGACGCACGGAGCAATGATCCGTAATCAGCTGAATTGGGACGAATACTGGCGTTGGGAGAACGAAGAAGAACGCTTCGTGGGTATTTATTATGATGCTCAGGAGCGGCCTACCGGCTATGTGATGTATTGGATTGCCGATGAAGTTTTCCACGTGAAAGAAATGATTTACCTGAATCAGGAAGCGCGGATGGGGTTATGGAATTTCATTGGCGCCCATTTTTCGATGATCACCCATGTGCGGGGCAATATCTATAAGGATGAGCCGCTGGCGTTCTTACTGGATGATGGTGATATCAAGGAGACGATCAAGCCTTACTTCATGGGGCGCATTGTGGACGTTGAGCAATTCTTGAAGCAGTTTCCTTTTGAGCCGGGGACGACGCCGCTCCATTTTAATATCAGTGATCCGTTGGCGGATTGGAACAACGGGGTCTTTGGTATTTATTGGGAAAAGGATGGTCGGGTGCATGTGACTCGGCGGCCGGTGGGGGAAAGCGTGACCTGCGATGTGCAGACGCTGACCACGATGCTGATGAGTTACAAACGGCCGTCTTACTTAGCGCAGATTGAACGGTTGACGGCGTCAAAGGCGGCTATTAAGCAGTTGGAGCAGGTTATTCCGCAGCAGACGCCTTATTTTTCGGACTACTTCTGA
>SRR1151209_00161 exodeoxyribonuclease V subunit alpha
ATGGCAGCGACCCGCAATAAAGGGGAAGAAGCTGAAGTCACCGGGCAGGTGATGAGTATTTTCTTCCAAAACCCCACGAATTTCTTCAAGATCATGCTGCTGCATGTGGATCATATCTCGGTGCCTTGGACAGAAAGCGAGATCGTGGTCACCGGAACGTTCGGTACGGTCAAAGAAGACGATACATTGACTTGCATCGGTCATTTAGTGAATCATCCTAAATATGGCCGGCAGTTCGCGGCAGACCGCTACGAACAGGAAACCCCAACGTCTAAGAGCGGCTTGATTGCCTATCTTTCAGATAAGCAGTTTAAAGGGATCGGTCCCAAAACCGCGGAGCGGATCGTGGACCGCTTGGGTTTGGATGCCATTACGAAGATCATCAAAGATCCCCGCAGTTTGGCCGGGGTGGGGCTCACCCAGAAAGTGCAGGACGGATTCGTCGCGACGCTGAAGCAAACCTACGGGATGGAGCGGGTGATGCTTCAACTGAATACTTGGGGGATCCCCAGCAACTTGGCCAGTATGATCTACCAGCGCTATCAAGAGGAAACCCTCACCAAGTTGGAGGAAGATCCTTACCGTTTGGTGACCGATGTCACTGGTGTTGGTTTCCGCCGAGCGGACGAAATTGCCCAATCACTGCAGGTGCTGGCGACCGATCCGCGACGACTGCGCAGCGCCATTTCGGCAGCGTTCAATCGCCTCAACAATGACGAAGGGGCGATTTACACCCAGGCCCCGGTACTGCTGCACACCGCAGTGAATGTGCTGGCCCAAGGGGTCTTGCATCCAACGCCCCCCATGGCAGTGCTGAGCGACGTGTTGAAGGATATGGTGCGGGAAAGAACAGTCATCAGTGAAGACGGCCGCCTGTATTTAGCGACATATTATGAAGCCGAATGGCAAATTGCCAGCGGCTTGAAAAAGCTCCACGAGGCCGACATTGACGCGGACTGGTCGCAGAAAAAGGTCCATGCGGCAGTCACGACAGTGGCCAAGAAATTACAGGTGACATACGATGAGAGTCAAGTTGAAGCCCTAACCACTGCGCTGACCCGACCGGTCTTTCTCTTGACTGGCGGTCCGGGCACGGGTAAAACAACGGTCATCCGGGGGTTGATTGATGCCTATGCGGATCTGCATGACGTTTCCCTGGACTCGGGGGATTACACGGACACCCCGTTTCCCATTCAACTCGCTGCCCCCACTGGGCGTGCGGCAAAGCGGATGAGCGAGCTGACCGGATTGCCGGCGGGCACCATTCACCGGTTGCTGGGCTTGACCGGGCGTGATCCCGGCGAATTATTCAAGGAACCTGGCCCAATCAGTGCCCAACTCGTGATCATTGACGAAATGTCGATGGTTGACATGTTCTTGTTTCGTCAACTGATTCGCGCCATCACCCCCGGCACGCAATTGGTACTGGTGGGGGATAAGGATCAGCTGCCCTCCGTGGGCCCTGGCCAGGTCTTTGCGGATCTGCTCGCCAGCGGGAGTTTGCCGGCGTCCTACTTGACTAAGATCCACCGTCAAGCGGCCGGCTCATCGATCGTCCAAATGGCTCATGCCATCAATGACGGTATTATCCCGCCGGACCTGTTCAATAATCAGGCTGACCGCAGTTTTTTTGCTGTTTCTGCCGACCAAGTGCCGGCAGTGGTCGGCCAAGTTGTGGCCCGCGCCCGGGATAAGGGGTTCAGTCCGCTGGACATCCAGGTCTTGGCGCCCATGTACCGCGGCCCGGCTGGGGTCACTCATTTGAATGATGTACTCCAAGAAGTTTTGAATCCGGCTGCCCCGGATAATCCCAAGGAGATCGTAGTGGGTACTACCCATTACCGTATTGGCGATAAGGTACTGCAATTGGTGAACGATCCGGAGCATAACGTCTTTAACGGCGAAATCGGCCGGGTCACCGCGCTGACGCCGGCCAAGCAGGATACCGATCACCGGGACCGGCTGACCGTGGCCTTCGATGAAACGGAGGTCACGTATGGGCGGGGGGACTTTAACAGTATCACGCGAGCTTATTGCACGACCATCCATAAGGCCCAGGGGAGCGAGTTCCCGCTGGTCATTTTGCCGGTGGTCCATGAATATGGTCGGATGCTGGAACGCAATCTGCTGTATACCGCCATCACCCGGGCTGAAAAGCTGCTGATCATGGTCGGGGAGGAATCAGCGGTGACCCAAGCAATTCACCGGCCAGGGGCGCGTCGAGCGACCACGCTGCCCCAGCGGCTGCAAACGCAGTTCAAGACGGTACCTGCTCAGCGGGCTGCTCAGTCAGCGCCGGACGTTAATGAAGCAGTTGCGGCCGAATTGCCAGAGCCGCCTTTGACGTATCAGATGATCCTGCAGCATCGTATCGATCCGATGATTGGCATGACGGGCATTACGCCCCAGGATTTTCTTAACGCAACAGAAGATAAGGAAGGATAA
>SRR1151209_00162 hypothetical protein
GTGGCCGAGGATTCTGTACCGGCACCCACTGCCAAGGACCGCATTGCAGCGCGGGTGCATACGCTGGTGGCCCAAATTGACCGTGATCCGCGGGATAAAAAGGCAATGATCGAGCTGGCCCACCTGTTAGTGACCCAAAACGATCTGGATCAGGCTAGCACGCTGCTGACCAAGGCTCTGGGGCTGTTCCCAGATGATGATTTGCTGCAATACAATTTAGCCGTGGTGGCGACGGCTCAGGGTCAGTATTCGATTGCTCAGAAATTGCTGGCCCAGGTCACCGATCCGGTCTTGGCGGCCGACAAGGCTTATACGACTGGCCAAATTTATTACAAACAGCAGCAATATCCCCGAGCATTGGCCTTTGCTTTGACGGCAGTGGATCACAATGGGGCCGATGCGCAATATCAGCTGCTCTATGGGGATATTCTCAGTGCGCTGGAGAATTGGACCTTGGCGGTGCCTGCATTGCAACAGGCCGCCAGTCTGGCGCCCAAGGGATTCAAGCCGCATTTTGATTTGGGCGTCGCCTTGCTGGGGCAGGGCCAGGTGGATGAAGCCCAGGCAGTGTTGGCCCAGGCGGAAAAGATCGATCCGGCGCGTTTCCAGCATCAGCTGACCCTATTCAGTGATATTGGCCGGTTGATGCAGCGTCAGAAGGGGGCGGCCGATCATGGCAGCGACCCGCAATAA
>SRR1151209_00163 phosphoglycerate mutase
ATGACAGAACTATATTTTATTCGTCACGGAAAAACTAAGTGGAACTTGGAAGGGCGCTACCAGGGCGGTCATGGGGATTCGCCGCTGTTGCCGGAGAGTTACGCCGATATTGAACAATTAGCCAAATTTTTAGCGGCGCATCGTTATCAAGCGCTGTATACCAGCCCGCTGCCCCGGGCGAAGATGACCGCTATTTTTCTGCAAGAACAGTTGGCCCAGACCTTCCCGATTTACGTCGACGACGGTTTGCGGGAGTTTAATCTGGGTAAGATGGAAGGCATGCGTTTCCCAGATGTGCAGCGGCTGTATCCTAGTCAAATCGCCGCCTTTCGCACGGCCCCGGCCAAGTACGACCCGCGCCCCATTCAGGGGGAGACATTCCCAGAGGTGATCGACCGGATGCGCGGCGTTGTCGCCAAAGCGGTCAAGCGGGACCGTACTGGTCAAGCCCGGGTGCTGTTTGTCAGCCACGGCGCGGCGCTGACTGCTTTAATTCAATCTTTGCTCGGTACGCCGTTGGCGGATATTCGCAAGCAGGGTGGTTTGACGAATACATCGACCACGATCATCTCGACCAAGGATCAAGGAAAAACGTTCCAGTTAGTGAAATGGAACGAAACTGATTATCTGCATAAGAAGTTAACGAAGACCGATACGATTTAG
>SRR1151209_00164 tRNA (5-methylaminomethyl-2-thiouridylate)-methyltransferase
ATGACAAAACCAAACGCACAGACCCGGATCGTCGTGGGGATGTCCGGCGGGGTTGATTCCTCTGTCAGTGCTTTGTTATTGAAGCAGCAGGGGTATGACGTCGTGGGTGTCTTCATGAAGAACTGGGACGACAGCGATGACGATGGCGTCTGTACCGCCACCCAGGATTATGAAGATGTGGCCAAGGTGGCCGCTAAGATCGGTATTCCCTATTATTCCGTGAACTTTGAGAAGGAATATTGGGATCGGGTATTCCAATATTTCTTAACGGAATACAAGGCCGGCCGCACGCCGAACCCCGACGTGATGTGCAACAAGGAGATCAAATTCAAGGCCTTCTTGGAGTATGCCGAGGAGCTGGACGCGGATTATATTGCCATGGGCCACTATGCGCAGAAGACCGTCGATGCAGATGGTACCGCCCATATGCTGCGGGGGGCGGACGGAAATAAGGATCAGACCTACTTCCTGTCCCAGATCAGTCAGCAGCAGCTGGCCAAGGCCATTTTCCCCATCGGTGATCTGGAGAAGCCGGAGGTCCGGCGGATCGCTGAAGAGGCTGGTTTAGCGACAGCCCACAAGAAGGATTCCACCGGAATCTGCTTCATTGGCGAGCGGAATTTCCGCCACTTCCTCAGCGAATTTCTGCCCGCCCAGCCAGGTAAGATGGAGACGCCGGACGGCACTGTATTAGGTGAGCACACTGGCTTGATGTATTACACCATCGGCCAGCGTTCCGGCTTAGGCCTGGGCGGCAACGGCACTTCCAATGAGCCTTGGTTTGTCGTTGGTAAGGACTTAACCAAGAATGTGCTGTATGTTGATCAGGGCTTCCATAACCCGCATCTGTACGCCACATCCCTGACCGCGACGGGGACGACCTTTATCGCCCCCAATACCCGCGGCAATGACTTCCGCTGCACGGCGAAGTTCCGTTACCGCCAGCCGGATGTCAGTGTCACCGTCCATTTACAGGATGACGGCGGCATGGTCGTGGACTTCGACGAGCCGGTCCGGGCAATCACGCCGGGGCAGGCAGTCGTCTTATACGATGGCGCCGAGTGCTTGGGCGGCGCGACTATTGATCACGCTTATGCCAACACAAAAGAGCTGCAGTACGTCTAG
>SRR1151209_00165 cysteine desulfurase
TTGATCATGGCAATTAAACCAATTGCAAAAGTCACTGGCGATTCCGTCAGCTATAAACTGGCAAAAGAAATTAAACGGTATGCATTAATGGATGTGGGCTTCCAAGAAACCCGCAACGGGAACTTTCAATTTGATCGTTCCTTGAGCACGGAGGGACCCTATTCCCCGTCATTCCGCTTAAAAATTACGATCGCTAAAGATTTTTCCGGTCTGCAAATGACCGTCACCGATGTCTCGGGCCTGCGTTCCGTGAACATTTTCCAAAAGCAGGAAACCCAAGGTGCGGTGGAACAGTATCACTTTATTATTGATAATTTGATTCAACGGGACATTTTAGCCGCCGTTGAGCAGTAA
>SRR1151209_00166 cysteine desulfurase
ATGACGCAACCAATTTATTTGGATAATGCGGGCACGACCCCGCCATCGCCGGCTGTGATTCAGGCCATTGCCCAAGCAGAACAGGATACTTGGGGCAATGCTAGCTCCACCCATGCCTTTGGCCGCCATGCTAAACAGGCGTTGGAGAACGCCCGAATCGTTCTGGCCGATTCGATCAATGCCCAGCCGGGGCAGATCGTGATTACCAGCGGCGGCAGTGAGAGCGACAATACGGCTATCGTGGAGACGGCGCTGGCTCGGCAAAATTTGGGCAAGCACATTATCACCGATCAAATTGAGCACAAGGCGGTACTGGAGTCGATGCAGTATTTGGAGACTTTGGGCTTTGATGTGACCTATTTGCCCGTGGACGAGACCGGGCATGTGGCTGTTGCTGACGTGGCCAATGCGCTGCGGGACGATACCATCCTGGTCTCGATCATGGCAGGCAACAACGAGGTAGGCAGCCGCCAACCGATTCATGAAATCGGTGACTTGTTGAAGGATCATCAGGCGTGGTTCCATACAGATGCGGTGCAGGCTTACGGTTTGACTGATATTGATGTGGCCGCCGATCATATCGACTTGTTATCCACGTCGGCGCATAAGATCAATGGGCCAAAATTCATGGGGTTTCTCTATGAATCGGATAACGTACACTTTCGGCCGCTGATCAAGGGCGGCGATCAGGAACGCAAGCGCCGTGCCGGGACGGAGAACGTCCCTGGGGTGGTCGGATTTGCCACCGCGGTCAAGGCGTTGACGCCAGCCGTGAAGGCTGCCCGACAAAAATCGTTTGCTCACTTCAAGCAAATCATCATTGCTGCGCTGCAGGCGGCGGACGTGCAGTATGCGGTGAATGGTTCCCTGGCCCCCACCGAGCTGCAGCACGTGTTGAACCTGTGGCTGCCTGGCGTGCCAACGGATGCCCTGCTGGTCAACCTGGACTTGGCCGGTTTCGCGGTATCCGGGGGTTCGGCGTGTACCGCTGGCAGCTTGGAACCGTCCCACGTGCTGACCGCTATGTTCGGTGCGGACAGCCCTCGGATCCGCGAGTCAGTGCGAATCAGCTTTGGCAGTGTGAATACGACAACTCAAATTGAGGCCTTTGCGGCCGCCTTAGCCAAGATCGCCCAACGCACCCAAGCTAAGGCTGTCCCGGCCCGGTAA
>SRR1151209_00167 5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase
ATGAAAATTGGTGTTTTATGCGCCATGGAAGAAGAGATTCGAACCTTGCGGGAGCATTTAGATAATGCCCAGCAAGAAACGATCGGCACGAGTACCTTCGATACGGGTACGATCCACGGTACCGCAGTAGTGCTGATCGAAAGCGGTATCGGCAAAGTCCAGGCGAGTATCAACGCGGCATTGCTGCTGGCGCACTTTCAGCCGGACTTGGTCGTCAACACGGGCTCAGCCGGCGGTATCGGCGATGGCTTGGCGGTGGGGGATGTGGTGATTTCCACCGGGGTGGCTTACCATGATGTGGACTTGACGCCAGCGGGTTATTTGCCGGGGCAATTGCCGCAAATGCCCCAGATTTTTACCAGCGACGCCCATTATTCTGCTGCTTTTGCGCAGGCCGCACAAGCGGAAGGTCATACGGTGCACACGGGTTTGATCGTCAGCGGTGATCAATTCATCGCCTCCCAGGCCCAAATCAAGCGGATCAAGGCGATGTATCCGGCAGCCTTGGCTGTGGAAATGGAAGGTGCCGCTGTGGCCCAGACAGCACACGAATTTCAGACTCCGTTTGTGGTGATTCGGGCGATGAGCGATAATGGTAACGAAGAGGCCGACACCAGTTTCGATGAATTTATCGTCGCCGCTGGGCGGCAATCGGCCAGCACTTTCCTGCGTTTCTTAGAACAGCAAGGCGTATAA
>SRR1151209_00168 small membrane protein
ATGTGGGGTAAGAAAAAGCCGAGCCAGCCCCAGGGGGCCCCTGGACCGCGGGATGCGTTCAAGGCCCGGGACGCCAAACGTATCGCAGTGGAAAAAGCGTATGCAAAAAAGCAGCGCCAGGAAGCCCGGGCACTGACTGGGGACCTGGCCGAAGCCCACAGCCAGCGGTTGAAGCGGCGGCTGAATTGGACCATTTTGGCCTTAGTCCTGGCCCTAATTGCGGTTTTTCTGGTATTGTGGTTTGTTGACTAA
>SRR1151209_00169 ADP-ribose pyrophosphatase
ATGTTTTCAGATGATGAAATCGCTAAATTTAAGGAAACAAAAATATCGGATAAAACCATTTATGACGGTCGTATTTTATCACTGCATGTGGAGCAGGTACGGTTGCCGAATGGGGCGGTGGCGGAGCGGGAGATTATCCATCACCATGGGGCAGTGGCCATGCTGGTTTTGAACGACGCTGGTCAGGGCGCATTTGTGACGCAGTGGCGGGAGCCGCTGCAGCGGTTGTCAGTGGAGATTCCGGCGGGAAAGCTGGATCCGGGGGAAAATGATCCGGATGAGGCGGCTCGGCGGGAATTGAATGAGGAGATTGGTTATGCACCGACGACGCCGCTAGAACCGATCACGACATTTTATTCCAGTGTGGGTTATTCAATGGAGAAACTCCATTTGTATTTCGGCCCGCATATTGCCCCAGTGGTCGATAAACGGCCGCTGGATGCAGATGAGTTTCTGCAAGTCGCTTGGCTGAGCTTAGCTGATGCCCAAGCAGCCGTGGCTGATGGTCGGATCGTGGATGCCAAAACGATCACGGCAATTTATTGGTGGGCGCTGCAGGCCGCTACAGGAAGGATGACGCCTGATGTGGGGTAA
>SRR1151209_00170 5-bromo-4-chloroindolyl phosphate hydrolase
ATGAGCCACAAAAAACGCAGCTGGGGCTGGCTCAGCATCGTGCTGCTCATCCTCGCTGGCAGCACCCTCATCGCCGGCACAGGTCGCATGTGTGCCGGCATCCCTCATCACCCGATGTTCGGAATAGGAGTGATCATGTTAATTATGGCTTTCTTATTTAGAAAAAAACGCCGGCCGCCGGAACCCACCAGCGGTCAAATTCCGCCACTTTCCAACCGCATGCAGGCCCACTATCGCAAATTAGGAATGCAGGATGAAGATATTACTTTCTTCCGGGCCCAAATGGCTGAGGCGCGGGAAAAGATCGACCACTTGCAAGCCAATGTGGAAAAAAGTCCTAAGTTGAAGGCCGTGGATTTAAATTATGGCATGGTCCGCGTCTCCCAGGCAATGTTCCAAGCCATTGTGGATGACCCTATGCATTTAGCCAATGCCGGTGATTTTCTTTATCGCCATCTGCCCAGTTTGGTTAATTTAACGGATAAATATATTGAAATTTCGCACCATGAGGTGAAGACTAAGGATACGTGGACGGTACTCGCCAAAAGTATCGAAGTGATCACTCAGCTCAGTCAAACCATTCAGGCCGATTACACCGCTTTCGTGCATTCTGACCTGACCGATATGGACGCTGAGATGACCACTGCTGAGCGAGCGATCCACGAAAAAGACAGTCAGCCTCAGGATAACGACCAGGCAGCGGCTGATGGGAAGGATGATCACGCGTGA
>SRR1151209_00171 tellurite resistance protein TelA
GTGACAGATGAGCCAAAGAAGCAAGATAAAACCGCATCACCCGCAACGGATGATATGTTGGAGGGGCTGCTCGCCGATCCCTTCAGTCAGCAAATGCAGGCCCCTGCCGCAACCGGCGGCGCAGACGAAAAAGACGCCGCGGTCGCCTTGATCGACAAATTACCAGAACAGGAACAAGCCAAAGCCCACGAATTGGCCAATCAGATTGATATTCATAATCAGGAGGCCGTCATGAATTACGGTGCTGCGGCGCAAAAGCAGCTGGGCCAATTTTCTCAGAGTATGCTGAATCAAATTCAAAGCAAGGACACCGGCGCGATTGGCGATGCCCTGACGGATCTGATGTACCGCTTGAAAGAGGCCAATCCAGACGATCTGCGGGCCGAGGACAATAACGTCTTCCGCCGGTTGTTCGGTAAGATCAAACAATCGATTTATGAAACAACAGCGAAGTACCAAAAAATCGGGGCCCAAATCGACGGCATTGCTGGCAAGTTAGGCAGTGAAAAGAACGGTCTGCTCGCCGATAACCGGGTATTGGAAGAATTGTATCAAAAGAACAAAACGTATTTTGATGCCCTGAATATTTACATTGCCGCCGGTCAGTTGAAGATCAAAGAATTAAACGACACAATCATCCCGGAAATGCAAAAAAAGGCGGAAGACGGCGGCGACCAAATGCTGTTGCAAGAAGTCAATGACATGAACCAGTTCAAAGTCCGACTGGAAAAGCGGACCTATGACTTGCAGCTCGCCCGCCAAATCACGTTGCAGCAGGCGCCTCAGATCCGGCTGATTCAAAATACGAATCAGGCGCTAGCCGAGAAAATCCAAGCATCAGTCAACACGGCAATTCCCTTGTGGAAAAACCAAGTGGCCATCGCCCTCACCCTTCTGCGCCAGCAAAACGCTGTCACCGCTCAACGGCAAGTCTCGCAAACCACCAATGATTTGTTGAAGAAGAATAGTGAGATGCTGAAGATGTCGTCTATCGAAACGGCCAAGGAGAACGAACGCGGCGTGGTCGATATCGAAACACTGCAAAAGACGCAGAACGATTTGGTCGAAACCCTCAATCAAACTCTCCAGATCCAGCAAGAGGGCCGCGAAAAGCGCAAAAATGCCGAACGCGAACTCGACACCATGGAACAAGACCTCAAGAACCAGCTCCTCAACTACACCCACGGCCACCAATCCGACAACACCCACGGCACCAACCGCCGCGAAGTCTAA
>SRR1151209_00172 cold-shock protein
ATGTTGTATGGCGTCGTTAAGAGTTTTGATGAGCACCACGGGTTTGGTTTCATCACGTCGCCCACGGAGGGTGATGTCTTTGTGCATTTCACGGGGATCGTGGATGCGGGGTACAAGACATTGCATACGGGGCAGAAGGTGCAGTTCGTCGTTGTGGAGGGGAAGAATGGTCCCCAGGCGGCAGAGGTGTCGGTGATGACGGATGATGAAAAGGCCGCGCCGACGGTTTAA
>SRR1151209_00173 isoleucyl-tRNA synthetase
ATGCGGATCAAAGATACATTGAATTTGGGCAAGACCAAGTTCCCCATGCGCGGCAATTTACCCGTGCGGGAAAAAGAATGGGAAAAGGGATGGGAAGACAACCATCTGTATGAGCAGATCCAAAAGAAAAACGAAGGCAAGCCAACCTTTATTCTCCATGACGGCCCCCCCTTCGCCAACGGCGAGATCCACATGGGACACGCCCTGAACAAAATCAGTAAGGACATTATCGTTCGTTTCAACGCAATGAACGGGAAACGCTCACCCTATGTACCCGGTTGGGATACCCATGGTTTGCCGATCGAGCAGCAATTGACGAAGCAGGGCGTCGACCGGAAGACCATGGATCTGGCTGCCTACCGGGAGCTCTGTGCCAAGTTTGCTAAGAGCCAAATTGAACTGCAGCGCACTGGCTTCAAACGCTTGGGCGTGTTGGGCGACTGGGATCATCCCTACGTTACCTTGCATCCCGCCTATGAAGCTGAAGAAATTCGGGTTTTTGGCGAGATGTTTGCCAAAGGGTTGATTTATAAGGGCAAGAAGCCGGTCTTCTGGTCTCCCTCTTCTGAATCCACGCTGGCGGAAGCTGAAGTAGAGTATCACGACGTGAAATCACCGTCGATTTTTGTGGCCTTTAATGTCGTTGACGGCAAGGGCTTGTTGGACAAGGATACCCGTTTCATCATTTGGACTACTACCCCTTGGACGATTCCGGCAAACGAAGCGATTGCCGCCAATCCTCGGTTTGATTATGTCCAAGTTGATGCAGACGGCAAAAAGTATGTTGTCGCCGCTGGCCGCTTGGACTTTGTGAAGGAACAATTGGGGTGGCAAGATGTTTCGATCCTGAAGACCTTTAAGGGCTCCCAGCTGGAATATATGACGGCTAAGCATCCGTTCTACGATCGGACGTCCTTGCTGATTCTGGGCAACCACGTCACGCTGGATGAAGGGACCGGACTGGTCCATACTGCTCCGGGTCATGGTACCGACGACTTCAACGTCGGCATGAAATATCACCTGCCGATCCTATCGCCAGTGGACGCTCAGGGTCGGTACACAAAGGAAGCCCCCGGCTTTGAAGGGATGTTCTACGATGATGCCAACAAGGTCATTACCGACAAGATGAAGGCCAATGGCAGTCTGTTGAAGCTTAGCTTCTTCACCCATAGCTATCCCCATGACTGGCGGACGAAGAAGCCGGTCATCTTCCGGGCGACCACCCAGTGGTTTGCCTCCATTGATCCGATTCGGCAACAGATTCTCGATGAAATCGACAAGATCACTTATTTGCCGGATTGGGGCAAGACTCGGTTGTATAACATGATCAAAGACCGGGGCGACTGGGTCATTTCCCGGCAACGGGCTTGGGGCGTGCCGCTGCCGATTTTCTACGCCGAAAACGGCGATCCAATCATCACTCCGGAAACCATCAAGCATGTGGCAGATCTCTTCGGCCAGTACGGTTCTAATATCTGGTTCCAGCGCGAGGCAAAGGACTTGCTGCCGGCCGGTTTCACATACGCCGGCTCGCCCAATGGCAAATTTACCAAGGAAAAGGACATCATGGATGTCTGGTTCGATTCTGGTTCGTCCAGCCAAGCGGTGCTGAATCAGCGACCGGAATTATCCTTCCCAGCGGATCTGTATCTGGAAGGTTCTGATCAATATCGAGGCTGGTTCAACGCCAGTATCATTATTGGCGTGGCGGTGACTGGTCATGCGCCCTATCGCCAACTGGTGTCCCAGGGATTCGTTATGGATGACAAGGGCCACAAGATGAGCAAGTCGGCCGGTAACGGCATTTCACCCACGGATGTGGCCAATAAGATGGGGGCTGACATTATTCGGCTCTGGGTTGCTTCAGTGGATGCCAGTGCTGACGTGCCAGTATCCATGGGTATTCTCCAGCAGACGGCTGAGAGCTACCGAAAGATTCGGAACACGATGCGCTTCATGCTGGCCAACACGACGGACTTCGATCCCAAACACGACACGTTGCCTTTTGGCGAATTGGGGACCGTGGATCAATATCTGATGCTGCGGTTGAATCAAGTCGTGCAGACATCCCTGGATGCCTACAAAGCCTATGATTTCGCTAAAGTGTTCAAGACCGTTAATGCCTTCTTGACCAACGATTTATCCGCCTTCTACTTGGACTTTGCCAAGGATGTCGTTTATATTGAAGCAGCGAACGATCCGAAGCGGCGGGCGATGCAAACGGTGATGTATGCCGCCTTGAATGCGCTGACCCGCTTATTGACCCCGATTCTGCCGTACACCATGGAAGAAATCTGGACTTTCTTAAAGGAAGACACCGACTATGCGGCGTTAGCCGATATGCCGGTGGTGCAGCAGTATCCCGATAGCGAGAATACCTTGGCCCAATGGCATGAATTTATGCAGTTCCGGACTAATGTCTTGAAATCTTTGGAAGAGGCCCGGAATAACAAGGTCATCGGCAAGTCCTTTGAAGCGGCGGTGACAGTTTATCCGGATGCGCATCTGGCTAAACTGCTGACTGACTTGAACACGAATGTCCGGCAGCTGCTGATCGTTTCTAAGTTGACGATTGCGGCTCCGGATGCTGCTAAGCCGGATGAAGCGGATACGTACGAGAATGCGGCTATTGTGGTCACCCACGCGCCGGGCGAAGTTTGCCCGCGTTGCCGGATGACACGGGAAGATATCGGCGTTGATGCGCACTATCCGGAATTGTGCGGGCGGTGCGCAAAGATCGTCGCAGCTGCTTTTCCGGAAACTGAGCAGACTGGTTTAGAGGCATAA
>SRR1151209_00174 cell division protein DivIVA
GTGGCACTAACACCGTTGGACATTCATAACAAGAAGTTTGGCAAAAAACTGCGGGGATATGATACTGATGAAGTCAACGCGTTTTTGGATCAAGTCATCAGCGATTATCAAGATGTGTTGAAACGGAATGCGGACCTGGAAAAAGAGCTGCAAGATGCGAATGAAAAGGTCCAATACTTCACGGACTTGAAAGACGCTTTGAACCAGTCGATCATTGTCGCCCAAGATGCGGCAGATCGGGTGAAGAGCAACGCCCAGCGCGAGGCAAATATTATTCAAAGCGAAGCAGAAAAGCAGGCCCGGAACATGGTTGACGACTCCACGGACAAGGCCAATCATATTCTCCAAGAAGCATCTGAAAAAGCGCGCCAGATCACCCAAGAGACGGGCGAACTGAAGAAGCAGACGCGCATATTCCGGCAACGGTTGCAAGTGATGCTCGAATCCCAATTAGAAATCGTCAAGAGCCCGGAGTGGCATGATCTTTTAGCGGATGATAATGGGGCACCGGCCCCCCAAGCATTACCCGGCAATGCGCCGCACACGGTTGACAATCCCCAACTGAGTAGTTTAAACTTCGATGAGAGTCAATCCGGCGCACCGGATTATGGAACACCCAGCGGCGGCGACAACCAATATGGCGCGGGCCCGATTCCGGCGACCCCGCAACCGATGCCAGCGCCCACTGCTGATGCGTCAGCCGCGCCGGACAGTGCTGCCCCGGCAGCATCCAGTGGTGATCCAGACCAATCAGAGCCGGCGGCGAATGCCGCCCCAAAAGGCAGCGCGGACCCGCAAGCCGCGCAGCCAGACGCCGACAATCAGGCCATGGATCCGGATTATTTCACCGCTGACGGCACCTATAACGGGCCGGTTATCGAATTTCCAGATGGTGGCGAGATCACCCATCGGCGGCCAAAGTAA
>SRR1151209_00175 cell division protein
ATGGATGCGACTGTTTATCAGCATTTCCGCAAGGAAGAGGCCCCATTCATCGATAATGTATCCGAGTGGATGGAGCGGGCCAATATGGAATACCGGCCGATATTGACCGATTTTCTGGATCCGCGCCAGCAGTTCATTGTCGAAGATATCGTGGGCAAACACGGGATTGTCCACTATTTCTTCAACGGCGGTTATGGCGCTGCGGAACGGCGGCGGGGGATCATTGCGCCGGAATATTTCACCCCGGAGCAGGACGACTTTGCTGTTCAATTGTTTAATATTAAATATCCACAAAAGTTTGCTACCCTGCGTCATTCCCAGATTCTGGGGACATTAGTGAATTCTGGCTTGAAGCGGGACGCTTTCGGCGACATTATGACTGACGGCGTTAACTGGCAATTCTTCACGGAAGCCAGTTTGGCGGATTATGTGCAAAACGAAATCACCAAGGTAGGGAAGATCAACGTCCAGTTGGAACCGGCAGACTACACTGCGCTGATTACACCCAAGGATGCCTGGGCGCCAGAGTCGGCCACGGTGTCGTCTTTGCGGCTGGATACCTTGATCAGTGAGGTGTACCACATGTCTCGGCAACGGGCCAAAGGACTGATCGAGGGTGACAAGGTCAAGCTGAACTGGGAAACGTTTGCCAAACCTGACTTTACAGTCGGCTTGATGGACGTGGTGTCGGTCCGCGGGTTTGGCCGCATCCAAATCACGGATCTGGCCGGTCAGACCAAGAAAGGCCGCATCAAGTTGGCGGTTAACGTATTGCGGAAATAA
>SRR1151209_00176 cell division membrane protein
GTGGCTCAGTTCCTCAATGTTCTTGGTATCGTGTTCCAATTCGCAGGGTATGCCATCGATGCGTATTCTGCCTTGATCATTATCTATGCGCTGCTCACTTGGATTCCCAGTGTGTTCAATACCCGCGTGGGTAATCTGATTGCCCGGGTCGTGGAACCGTACTTGAACTTTTTCAACCGGTTCATTCCGCCCATCTTCGGGATCTCAATGGCGCCATTGTTTGCTTTGCTCGGCCTGGTTTTGTTCGGCCGCGGATTGAATATTATCTATATGTGGATCGTACGATTAGTAGTGGGTTACTAA
>SRR1151209_00177 cell division protein SepF
ATGGCTTTTGATAAATTGAATCGTTTTTTCGGTGTCTCGGAAGATGACGAGGAGACTGATGACCCCGTCGATCAGACAGCTGAGCGGACAACGCCGCCAGCGGCGGGGAGTGATGATCGCAATGTCATTGCCCTGAGTGCTAAGCCGCAGACTGCCAGCCGGATCGTGCTCTTTGCACCGCGAGTTTATTCGGATACCAAGACAATTGGCAATCACTTGCTCAACAATCGGGCGGTAATCGTGAATTTCGATTCAGTGGATGCACCCTCTGCTGCCCGCATCGTCGATTTCTTGACTGGTGTTGCCTTCGCCATTCACGGCGAGATCAAACGGGTCGGCGATAAGATCTTTCTGGTCACCCCGCCGCGCTTCCAGGTCGATGGCGATATTGCTTCCCTGGTGGCCGGGACTGACACCGATTTTGATAGTGACTATAATTAA
>SRR1151209_00178 cell division protein FtsZ
ATGGATTACAAGATGGAAAATACTGAAGTCCCCAGCGCCAAGATTAAAGTCATTGGCGTCGGCGGTGGCGGCGGTAACGCAGTGAACCGCATGATCGATGAGGGCGTGCAAGGGGTTGAATTTATTGTCGCCAATACGGACACTCAGGCTTTGAGTGCCGCTAAGGCAGAAACCAAGATTCAACTCGGACCGAAGCTGACCCGCGGCTTGGGCGCCGGTTCCAATCCGGAGATTGGTCAAAAGGCCGCGGCCGAGAGTGAAGAAGTCTTAGCCGATGCCCTGAAGGGGTCGGATATGGTCTTTGTCACGGCTGGTATGGGCGGCGGTACCGGTACCGGAGCAGCGCCGATTGTGGCGAAAATTGCTAAAGATTCCGGTGCGCTGACCGTGGGGGTGGTCACTCGGCCCTTCACCTTCGAAGGTCCTAAACGCGGACGAAATGCCGCTGAAGGGATTGCTAATTTGAAAGCCAGTGTCGATACTCTGGTGATTATTTCCAATAATCGTCTGTTGGAAACAGTGGATAAGAAGACGCCGCTGCTGGAAGCCTTCCGGGATGCGGACAACGTCTTGCGTCAAGGGGTCCAGGGGATCTCGGATCTGATCACGTCACCCGGGTATGTGAACTTGGATTTTGCGGATGTGAAGACCGTGATGGAGAATCAGGGGTCCGCGTTGATGGGGATCGGATCAGCCACCGGCGAAAACCGGACTGTGGAAGCCACCAAAGCAGCCATTTCCTCACCGTTATTGGAAGTGTCCATTGATGGCGCCAAGCAGGTACTGCTGAACATCACTGGCGGCCCTGATCTGTCCTTGTTTGAAGCGCAAGATGCGTCCAGCATCGTCTCCGACGCCGCAACGAGTGATGTGAACATCATCTTCGGGACGTCCATCAACGAGAATTTGGGCGATGAAGTCGTGGTCACCGTCATTGCTACGGGAATTGACGATAAGGAATTGCAGGCCAAAGAAAAGGCAGAGGATGCCCAAATGGGGCGGGGCGGCAATCGCGCCAGCCGGGCGGCTCATGGGCCGCAAACGCCGGCCGCGGACACCCAGCACGCATCCGCCGCACCGCAACAGCCCGCGCAAAATGATTCGGCAGCCCCCGCCGCGGCCAATGACACTGATCGGGTCAATGAGAAGGAAGATCCCTTGTCCGATTGGAATCTGCTGAATCATACGAACCGGCGAGCTAACCGGAACACGAACGACGACAAGCCGGCCTTCGATATTTTTCATCAACCGGAAAATAATGTGAATAATACCGATGACGATGATGACAACACGCCGCCGTTCTTCAAACGCCGCAACCGTCAGTAA
>SRR1151209_00179 cell division protein FtsA
ATGGACAAGTCCAAAGTGATCGTTGGACTCGATATTGGTACCACGTCAATCAAGGTAATTGTGGCGGAATCGATTCAGAATCAATTGAACGTGATCGGTGTGGGGAGTGAGCGGTCTCAAGGATTATCCCGGGGCGTGATCGTCGACATCGATAAGGCGGCCGCCTCCATCAAGAGTGCTGTTGCCCACGCCGAGAAGAAGGCCAATGTCCCGATCAATGCCGTTTATGCAGGGATTCCGGCCAACATGCTGAATATTGAGAAATGCGACGGCATCTTTGCGGTAGGGGAACCATCCCGTGAAATCACGGCCCAAGACGTTGCCCAAGTGGTCAATTCAGCACTGATTCGGAATCTTCCGCCAGAACGGGAGATCGTGGATGTATTACCATCAGAGTTCATTGTTGACGGGTTCGATGGCATCAAGGATCCCCGCGGGATGGTTGGGACGCGGTTAGAGTTCCACGGTATTCTGTTTACCGCGGCCAAGACAGTGATCCACAATACCCGCAAGTCAGTGGCCCAAGCCGGGCTGCAGCTGGCTGGCTTGGTTATTAATCCCATGGCCTTGGGTCAATTGATTTTGGATGATGGTGAAGCCGATTTTGGCACGATCATTCTGGATCTGGGCGGCGGTCAAAGTACGGCGGCCGTTATTCATGATCATAAATTGAAATTCTCCCACGTAGACCCCGAGGGCGGCGATTATATTACGAAGGATATCTCCGTCGTATTGAACACGACCTTGGCCAACGCGGAGCGGTTAAAACGGGAATACGGCAACGCGGACGCGGAACTTGTCACCGGCGACGACCAATTTCCAGTAGCCATCGTTGGTCAGACCAACCCCCAGATGGTGGGCGAAGACTATCTCGCCGAGATCATCCAAGCCCGAGTGGAACAAATTCTGGCACGTTTGGGTACGGGTCTCAGCCAGGTCCACGCGTTCAACCTGCCTGGCGGCATTGTCGTCACCGGCGGGGTATCTGCTTTACCCGGGGTCACCGAGCTGGTGCAAAAGGTTTATCAACGTCCAGTGAAGCGGTATATCCCAGATCAAATGGGCCTGAGGCATCCGTCTTTCGCGCAGGGTTTGAGCATTGTTTCGTATATTGCGCACTTGGGGGAGATTGATACGCTGATTCGACAGGTGGTGGATCCTGTCACGGCCAACGCCCGGCCGGTGAGCAGTCCCAGTCGACCGGCCACCGTGGCACCATCCCGGCCGGTACCGACAGAGCGCCCAGCGGCGTCCAGCCAGCCGGCCCGAACCCAGAGTCAACCGGCGGCTCATACCCCTGCAGAACCGAAGAAAAAGAAGAAGAAAACGAGTCAGCGGCTCAAAAACCTCTTCACCAACTTTTTCGATTAA
>SRR1151209_00180 cell division protein FtsQ
ATGAGGCCGCACCGAGATAAAAAGCCCGCCCAGGTTGATCCGCAGCAAACGATCAAGCCTTGGGAAGAATATCTGCACAAAGAGCAGGTCAAAGCACAAAAAACAGCACAGCGGCAGGAACGCAAACCGTTGCATGTATCGACCACCTTGCCGAAACTCAAGCGGACTCGGCTCAGCCGGTTGGTAAAAAACACCCTCATCGTGCTGGCCGTGCTGTTGACGGTGGGGGCTAGTGCCGGATACTTCCTCACGCCGTTCAGCCGGGTTCGGGAGATTTCAGTCACCGGGACCAACATTGCGGCGGATCAAGCCGTCATTGATGAAAGCGGCATTCGCAGCGGTGCCGGGCTGGTTCATCTGTTCCTGCACCGGCAAGACTATACTGGCCGCTTACTGAAGCGGATGCCCCTGCTGCGCAGCGCGGCCATTGATCGTGTCGGGATCAATGATATCGTCCTGCGGGTCAAGGAGCATCCGGTGGTGGGTTACACGGTCAAGAACGGGATTTATTATCCGATTCTCAGCACTGGTGTGGTCCTCACGGCCGGGCAAAGCAAGCCGGTGGGGAATTACCCGGTGTATGCTGATTTTACCAGCAATCAGCACATCAAATTGGCGGTCAAAGTTTATGCGTCGTTGGCCACCCACGTGCAGGGCGATATTTCTGAGATTCACGACATCGGCGATAAGGCCAATCCGAATCGGGTGATGCTGTACATGAATGATCAAAACAAGGTCATTGCCGATCTGAACACATTGAAGGAAAAGATGGCGTACTATCCGGCGATGAAGGCCCAATTGAAGGGTGCCGGCATCGTTGATCTGGAGGTCGGGGCCTATGCCGTCCCCAAGGGCAGTGAAAAAGACACGAAGAATCCGTAA
>SRR1151209_00181 UDP-N-acetylglucosamine--N-acetylmuramyl- (pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase
ATGAGAGTGATGATATCCGGCGGCGGTACGGGCGGTCACATTTACCCGGCCCTCGCCTTGATCAAACGGCTGCAAGAACGGCAGCTGCTGGATGCCGTCATGTATGTCGGCACACCTAAGGGACTGGAAAGCCGCATTGTACCCGCCGCCGGGATTCCCTTTGAGACCATTGAACTGCAAGGGTTCCGGCGCCGCCTCACGTGGGACAATGTGCACACGGTGACTTTGTTTATCCAGGCGGTGCGCCGGGCTAAACAGATGGTCCGGGATTTCAAACCGGATATCGTGATCGGCACTGGCGGTTATGTGAGCTCGGCGATTGTTTACGCGGCGGCGCGCGCCCATGTCCCGACAATGATTCATGAGCAGAATTCCATCGCTGGGGTGACCAATAAATTTCTCGCCCACTATGTGGACAAGATTCTGATTGCTTTCCCCGATGCCGCTGGCCAATTCAAGCATCAGCAGCAAAAAATTGCGCTGGTCGGCAATCCGCGTGCCCAGGAGGTGGCGGGGCTGCAGCCCAATGATCGGTTGAGTGAGTTTGCTTTGAGTCCGGACCGCTCGACGGTTTTGGTCTTTGGCGGCAGTCGCGGCGCCGCCCCGATCAACAATGCGGTTATTGAGGCCGTCCCTGATTTTGCCGGCCAAAGTTATCAAGTTTTGTTTGTTACCGGCAATGCCCATTACGAGGCCGTGACGGCAAAACTGGCGGCAATCAAAGTGCCGGGCAACGTCAAAGTGGTCCCGTACATTGATAATATGCCAGCCATCCTGCCTGACATCACCCTTTTGGTGGGCCGGGCTGGCGCCACGAGTATCGCCGAGATCACAGCGCTGGGTATTCCCAGCATCCTAGTGCCGTCGCCCTATGTGACGCACAATCATCAAACCAAGAATGCCCAGAGTATGGCGAGTACAGGCGCAGCGGTCCTGCTGCCGGAATCAGATTTGACCGGCAAGTCACTGTTAAATGCGATCACTGTGATTATGGGAGACGACGATCGGCAAAAGAAGATGCACACCGCAACACTGGCGCTGGGTCATCCCCAGGCGTCTGATGACATCATTGCCATCATGCAAGATTTGATTCATTAG
>SRR1151209_00182 UDP-N-acetylmuramoylalanine--D-glutamate ligase
GTGAAGACGGTAACGCAGTATCAAAACAAGAAAGTATTAGTGATGGGGTTGGCCAAGAGCGGCGCCAACGCGGCCCGGTTGTTGCAGCAGCTGGGCGCTTTTGTGACGGTAACAGACATTAAGCCCTTTGATCAGAACCCCGCCGCGCAGTCCTTGCTAGATGAGGGCGTGCGGGTGATCACTGGCAAACAGCCGTTAGCGCTGTTGGACGAGGATTTCTCGTTAATGGTCAAGAATCCAGGTATTCCTTACGACAATCCGTTTGTTGATAAGGCAGAAAAATTGGGGATTCCAATCATCACTGAACCGGAATTGGCCTATGAAATTTCTGAAGCGCCCTGGGTCACAGTGACCGGGACCAATGGCAAAACCACGACGACTACGCTGATCGCTGAGATGCTGAATGCAGACCGGTCGGTGGGCAAAGCCTATTTAGCGGGCAACATCGGTATTCCGGCCAGCGCCGTGGCAGAAAAGGTCGGACCCGACGATACGATGGTGGTTGAGATGTCCAGCTTCCAATTGGCGGGTACGACTCAGCTGCACCCGCATATCGCCGTGCTCACGAATATTTACTCTGCGCACTTGGATTACCACAAGACTCGGGCCAATTACATCAATGCAAAAATGAAGATGGTCGCCAATCAAACCGCCGCTGATTATTTCGTCGTGAATTGGGACCGGGAAGAATGGCAGGCGTTGGCGCAGCGCACCAAGGCCCAGGTGGTGCCATTTTCCCGCCAGAATCTGACCCAGGACGGGGCTTACTTAGCAAACGGCACGTTGTATTTCCGCGGTACACCGATCATTAAGGCGGACGAGATTCGCATTCCCGGGGCCCATAATGTGGAGAATGCCCTGGCGGCCATTGCGGCGGCTAAATTAGCCGGCCAAGCCGATAATGCTGCTATTGCCCATGTGCTGAAGACCTTCCCAGGGGTCAAGCACCGGATGCAATACGTGGAGACATGGCAGTCTCGGAAGATCTATAACGATTCCAAGGCAACCAATATTGTCTCCACTGAAGTGGCGCTGCGCTCGTTCCCCGGGCCGGTGGTGCTGATTGGCGGCGGCTTGGATCGCGGCTTCACGTTTGAAAAATTGCTGCCTTTACTGAAAGACCATGTGCACACGATGGTCGTTTACGGCCAAACGAAACAGCTCCTGGCCGATGTGGCGAAAAAGGCTGGGATCACGGATCTGCATATCGTGGATACGCTGGATCAAGCGGTGCCTGTGGCGTTGAAAGAGAGCAAGCCCGGTGATGTCGTTCTCTTCTCGCCGGCGGCCGCCAGCTGGGATCAATTCCATACTTTTGAAGAGCGGGGCGATCGCTTTATCGCTGACGTTAATCAGTTCATTAAGGAGAATCCGGCATGA
>SRR1151209_00183 phospho-N-acetylmuramoyl-pentapeptide transferase
ATGAACGCATTATTGACAGTACTGGTGAGCTTTGGGCTGACCGCAATAGCGGAACCGTTATTGATCCGCTATTTTCGGCGCCATCACGAAGGTCAGAAGATCCGCGCAGAAGGTCCCAAATGGCACGCCAAAAAGAGCGGCACCCCCACAATGGGCGGTATCGGCTTTATTGTGACCATCTGCCTCACCGTGATTGGTGTCGCCGCTTGGACGCACCAACTGCGGCGCACCTTGCTGGTGCTGCTCCTCGTTCTGCTGGGGTTCGGGTTGATCGGTTTTGCGGACGATGGCTTGAAGCTCTTTTATAAACGGAATATGGGTTTGAAGGCTTGGCAAAAGCTCCTGGGACAAATCATCATCAGTGCCGTCTTCCTGTGGGTTTACTTCAATGAAAAAATGCCCTTCAGCCTCTATGTTCCGTTTCTGGGGGTGGTGAGCAGTGCCGTCTTCTTCGCCGCGTTCAGCCTGTTTTGGCTCGTGGGCTTCTCCAATGCGGTCAACCTGACGGATGGGCTGGACGGCCTGGTCAGCGGGTTGGGCATCATTGCGTTCGCAGTGTATGCCTGGATCAGCTGGCAGGAACAGCGTCTCGATGTGCTGTACATTACCTTGGCCGTAATCGGGGCGTTGGCCGCTTTTCTGATTTTCAACCACAAGCCGGCCAAGATCTTCATGGGTGATGTCGGTTCTTTGGCCTTGGGCGGCTTACTTGCTGCTGTATCGATCATGCTCCATCGTGAATGGTCGCTGCTCCTAGTGGGTATCGTGTTTGTCTTAGAAACGGCCAGTGTGATTCTGCAAGTGGCCAGCTTCAAATTAACCGGCAAACGATTGTTTAAAATGACTCCGATCCACCATCATTTCGAGATGCTGGGGTGGAGCGAATGGCGTGTGGTCCTCACTTTTTGGACAGTGGGGGCCATTGGCGGCATTGTATACTTAATGATTTGGTAG
>SRR1151209_00184 penicillin-binding protein 2B
ATGAAGCCCATGAATCCGCAACGAAAGTCCCCGAACCCGAAGACACGGCGCAATCGACAAATCGTCGGCATCCTTTTGCTGGCTGCGATCCTGCTTTTCTTCGGGTTGGTCGTCTTTCGCTTTTTTTATATCACGGTGAGCGGGCAGATCGATGGGGTCAATCTGGCTGATCGGACGCGCCGCAAGTACACGCAGGAAACGGTTTTGAAGGCTAAACGCGGCACAATTTACGCCAGCAACGGAGACGTCATTGCCGAAGATTCCAATGTCTATACCATTTTTGCCGTGGTAGATCGCAAGTATGTGAGCATTGATGACAAACCGCTTTATGTTCAGGATAAAGCTAAAACCGCTCAAGTACTCAGTCAATACTTGAGCCTTTCCGCTGCACAAATCAAAAAGATTCTATCACCGAAATCCAAAAAAGCATTTCAGGTTGAATTCGGCAATGCCGGCAAAAATATTGATTTAGCCACCAAAAATCAAATCGACAAACAAAAGCTCACCGGGATTTACTTCCGCGCCCAACCAGCACGGCTGTATCCTAATGGCACGTTTGCCAGCCATATCATTGGGATTGCCCAATTGAAAGATGCCAAGGACACAGCTAAGGACAGCAATGCGCAGCTGACCGGGGTTATGGGGATCGAAAAATACTTCAACCGCCAGCTTACCGGCGTCAATGGCCGGCAGCAGATCCAAACGGATGCTAACGGTTATGAACTGCCCATGTCCAAGATCGTCACCAAAAAGGCGAAAGACGGCGACAATATGACCCTGACGATCGATGCCCGGCTGCAAAACAACCTGGAGACGCTGATGCAAAACGTTCAGGATAAGTACAAACCGGTGGGGCTCAACGCGGTCTTGATGAACGCCAAGACGGGCTCGATTCTTGCGGCCAGTCAGCGGCCGACATTTGACGCCGCGACGATGCAGGGCCTGGGCAATGTCTGGCGGGACACCCTCGTGGAAGACGCCTATGAGCCTGGTTCGGTGATGAAGGTTATCTCCATGGCCGCTACGGTTGATTCCGGTCACTACAATCCCAATGCCACTTACCAATCCGGGGCGGTCACTTTGGACGGCAGCACCGTCCGCGACTGGAACTATTCCGGCTGGGGCACGATTCCCTTTAGTCAGGTGATGCCCCGGTCCAGCAACGTCGGGATGGTCCATCTGGAAGAATTGATGGGCGCGGCGACGTGGAAAAAGTATCTGGAGCGTTTTCACATGGGCCAAAAGACCGGTATCACCTTGCCGGGCGAAGTGAGCGGCATGTATCAGTTCAGCCGGGCCATCGATCAGGCTAACACTGCCTTCGGCCAGGGCATCAACGTCACCGCGATGCAAATGATGCAGGCCTTCTCGGCCATTGCTAATGGCGGCAAGATGGTCCAGCCGCAAATTGTCAGCAAGATCAAGAATCCGCTGACGGGCAAAACCACAACGTATCAGCCCAAAGTAGTGGGCCGACCGATTTCTGCCGCCACGGCGGCTAACGTCTTGGACCAAATGCGCCAGGTCGTCAACAATAAACAAATTGGGACCGGGACAGCTTATCAGCTGCCGGGGGTAGACTTAGCTGTGAAAACTGGGACGGCCCAAATTGCCAACCCTAAGGGCGGCGGCTATTTGACCGGCGACAGCAATTACATTTTCTCGGTGGTCGGGATGGCCCCGGCCAGCGACCCGCAATACATCCTGTACATCACGATGCAGCAGCCCCAAAAGATGACCGCCCCGGCTGAAACGATCCTGTCGAGTATTTTCAAACCGCTGATGACTCGAGTCTTAAGTTACGGTCAGACCAGCAGCGGGGCGACCACGAAACAAGTGACCATGCCCAATGTGACCAATCATTCGACTGCGGAAGCCAAAGAGGCTTTGGCCAACGCTGGTTTGACACCAGTCCTGGTGGGCAGCGGCACTGAAGTTGTCCAGCAGCTGCCCAAGGCAAACAGTCGTGTACTGGCCGGTCAGCGAGCGGTTCTCTTAACGGATGGTGCCGCGTTGATGCCCAGTGTGACAGGGTGGTCGAAAAATGATATTTTGAAACTGGCGCAAATTACCGGTATCCAGGTCAACTTTACGGGTACTGGCTACGCCGTTGCACAGAGCATCCCGGCGAATTCAGTGATTACGACGAACAGCCGCGTTTCTGTGACATTACAACCCCGATAG
>SRR1151209_00185 cell division protein FtsL
ATGATTGAACAGAAGGATCTCAATTGGGGGCAGGGCAGTGCGGTACCCCAACGAAAAGAAGTACCCACCCCCCACCAGCAGCCGCAGGCCCAACCCCAGGCAATCCCGAAACGGGTGCCGTTAAGCGGGCTGGAACGGGTCTTGATTACGACAATTGCCGCAGTTTGCGGGTTCTTCATGATCACCCTCGTCAGCACTCAGGTGGGTCTTACCACCACCCAGCGCCAATATCAAAACTTAACCACGACAATCAATAATAAAAAGAGTCAAAATAATGACCTCCAGCAAGAGATCGGTGAATTAACGAGTTCACAACGGTTGAATGAATTTGCCAAAGCCCACGGTCTGACGCTGATTGAGGGCAATATAAGGAACATCGGTAAATGA
>SRR1151209_00186 16S rRNA (cytosine(1402)-N(4))-methyltransferase
GTGACTTTTGTGCATCACACCGTATTACGGCAGGAAGCGGTCGACGGCTTGGCCGTCCAGGCAGGCGGCACTTACGTGGACGCGACCTTCGGCCGGGGCGGACATACCGCACTGCTGTTAGCCACTCTTGCCGGCACCGGCCAAGTCATTGCCTTTGACGCAGACGAAGCCGCTATTGCGGCAGGCAAAGATCGATTTGCCAAAGAAATCGCGGCGAACCAGCTCGTACTGGTGCATGATAATTTTCGTCATCTTGCCCGGGTGCTCCATCAAGTGACCACGGCCCCGATTGCTGGCGTACTTTATGATTTGGGGGTTTCATCGCCCCAGTTCGACGATCCCAGCCGCGGCTTCAGCTACCGCTTCGACAGTCCGCTGGATATGCGGATGGATCAGGGTCAGGCACTATCGGCTCAAACCATTGTCAACGAATGGTCGCAGCGGGAATTGAGCCGCATCATTCATCGGTATGGTGAGGAACGTTTCGCCGGGGCGATTGCCAAACGCATCGTCGCCCGGCGAGAGAGTGCGCCGATCACGACCACCGGGGAATTAGTGGACGTGATCAAGGAAGCTATTCCGGCAGCTGCCCGGCGAACGGGCGGCAATCCAGCCAAGCGGACCTTCCAAGCGATCCGGATCGCCGTCAATGACGAGCTGGGCGCACTGGAAGATTCCTTGGAAGAGGCAGTCGCCGTGTTGGGGCAGGGCGGCCGCCTAAGCGTCATTACCTTCCAGTCGCTGGAAGATCGAATCGTGAAGCACGTTATGCAGCGGCACGCCACCAGCGATTTGCCGCCTGACCTGCCGGTGTTGGGAACACCAGCGGACGTGGATCTCAAGATGATCACCCGCAAACCGATTCGGCCCAATGCTGCAGAACTGGCCGCTAATCGGCGGGCTCACAGCGCCCGTTTACGAATCGCAGAAAAAGTAAAAAAGGATTAA
>SRR1151209_00187 cell division protein MraZ
GTGGGGGATTGTGGTAAACTGAAAACATCGGGTTATCTGGGGGTGATGTGCGTGCTGATGGGTGAATATCACCACACAATTGACACCAAAGGACGATTGATCGTGCCGGCCAAATTCCGAACGGAACTCGGCGCGTCTTTCGTTGTCACCCGGGGCTTAGACCAATGTGTGTTCGGCTATCCGCTGGCCCAATGGCAGCGAATCCAAGAGCAGCTTGCTCATTTGCCCACGAATAAAAAGGACGCCCGCGCATTTACCCGTTTCTTTTATTCCGCCGCGACGGAAGTCACGCTGGATAAACAAGGCCGGATCAATGTGCCGGATACCCTGCGGGGGTTCGCCAAATTAACGAAAGAGTGTGTTTTCGTTGGCGTCTCCAGCCGAATCGAAATTTGGGATGCGCCGACTTGGACCGCGTACATGGCCCAATCGGCGGACAATTTTGATACATTAGCCGAAGACCTGATGGATATTGATCTTTGA
>SRR1151209_00188 hypothetical protein
ATGGGTAATTGGGTCAGCCTTGGTTTTTTGCCGGTGCTGCTGGTCGTCGGCGGAGGCGGTTATAACTATCTTTCAGCACGGTGGCAGGGGCGGCCCGTGCATTTAGTCAATTGGCTGGTGCTGCCCCAATTTCTCGGTGTTTTTATATTGACTTATCCCACCGGTGGCATCGGGATGAGTTTGTTACCGATTTGTGTCTTGACCGGGGTGGCTTTTGGCTTGATTTATTTGGTCATTCGCATCATCCGTGATCGGGATCTGCTGCTGGGCGAGTATTTCCGCGGTTTGTGGCGCTATCTGGCGCTGCTCAGTGCGGTGTGGTATGTTTTTGCGCTGGTGTTGTGGATCATTGACCGTATCTAG
>SRR1151209_00189 hypothetical protein
ATGACGACTGAGCCGACGGAGAAAAGCAGCATCAACCAAATAAATACGCGTAAAATCTTGTCAAACGTGCTGCGTTCTTTTTTCAACTTATATCCCACCTTGTTTTTCTTGCTGGGCTTAGTTTACTATTGA
>SRR1151209_00190 amino acid ABC transporter substrate-binding protein
ATGCCCAAGTTTCTGCGTAATTGGTTGCTGGTTTTACTGACGGGCGGGATGCTGCTGGGGACTCTCAGCGGCTGCGCCCGACGCATTCCTAAGGGAGACGCTACCCAGCAGATCGAGCAGCGGGGTACCGTCGTTGTGGGCATGGATGAAACGTTTGTTCCCATGGGGTTTCGGGCCAAGGATGGCCAGCTGACCGGTTTTGATATTGATTTGGCCAAGGCGGTGGGTAAAAAAATTAATTTGCGGATGGTGTTCCAACCGATTGATTGGGATATGAAAGAAACTGAGCTGCGCAACCACACGATCGACCTCATCTGGAACGGCTATACCGAAACGGCTCAGCGAAAACAGCACGTGGCCTTTTCGTTGCCGTATCTCGTGAATCAGCAGGTGGTGGCAGTGACTAAAAAGAGCGGCATTCGCTCGATTGCCCAGCTGAAGGGGCAGGTCGTCGGGGCCCAAACCGGCTCATCAGCTGCCCAAGATATTGACGATCAGCCGAAGATACTAAAAAACAGGATCAAGGGCAATGCCCCCATCCTGTACGACAGCTATAATGATGCATTTATTGACTTACGAGCAAACCGTATTCAGGGACTCGTCTTAGACTCCGTCTTTGGCGAGTATACCATTGCCCATTCGGCGGATCCCAAGGCTTACCGGGTCCTGACCAGCGGCTTTCCCAGCGAAGAATTCGCTGTGGGGATGCGCAAACAGGATACCCAATTGCGGCGCAAAATCAATGCCGCCTTGCGGGCCACGGCGGCTGATGGCACGATCACCAGGCTAGCCAAGAAGTGGTTTGGCGATACCGCGGTCGTCGCGCCTACCTTGGCGCGTTAG
>SRR1151209_00191 amino acid ABC transporter ATP-binding protein
ATGCTGGAATTGAAAAATATCAACAAAGCATTTGGCAACCGGGTGATCTACCGAAACTTTAATTTGACCATTCAGGATGGCGACACACTGGGTATTGTCGGACCTAGCGGGGCAGGCAAAACGACCCTGCTGCGGATGATTACCGGTTTAGAACCAATCGACAGCGGCGAACTGCTGTTGAATGGGACACCCATTGACCCGTTTCGTAATCGCGCTGATGCCGGTAAAGTCGGCGTCGTCTTCCAAGATTTCCAATTGTTTCCGCACTTGGATGTTTTGGCTAACGTCCTGATTGGACCGGTTTACGCCCAGCATACCGATCGGGCTGCAGCGACCCAAGCGGCTGAAAAATTGCTGACGCAGTTAGGCCTAGCCGACCACGCCCGGGACTATCCGTATCAACTATCCGGTGGTCAGCAGCAGCGGGTGGCCATTGCCCGCGCGCTGGCCCTGCAGCCGGCCGTGCTGGCCTACGATGAGCCGACTTCCGCCCTGGATCCGGCGATGACTGCCGATGTTGCCCAACTGATTAAGGGATTTGCCCGGCAAGGGATGACCCAGTTGATCGTGACCCACGACATGCCGTTCATTGATCAGATTCAACCGCGGGTGATCACAGTGGGGAGGGATGACGATGCCCAAGTTTCTGCGTAA
>SRR1151209_00192 amino acid ABC transporter permease protein
ATGAATTGGCATTATATTGTATCAATTTTACCGGCATTATTATCCGGTACCCAAACGACGTTAATCATTTTCATCACCACACTGGTGCTTTCGATTCCGTTGGGCATCGTTGTCTCGATTGGCCTGCGCAGCGGCTGGCGGCCGTTGCAGTGGGTGTTGAACGCATATGTGTGGCTGATGCGGGGCACACCGCTGCTGCTTCAATTGATTTTTATCTTCTATGGTCTGCCGATGGTCTCGATTTATTTTGATCGGATGAGCGCAGTTTTTCTAGCCTTCGTTCTCAACTATGCGGCCTATTTTGCCGAGATCTTCCGCGGCGGGCTGCAAGGGATTCCGCAAGGGCAATACGATGCCGCCAAGGTCTTAAAGCTGACTCCCCTGCAAACCTTCCGCTTGGTCGTATTACCCCAAGTGGTTAAATCCGTTATTCCCGCCGTCGGCAACGAAGTAATCAATCTAGTCAAGGATTCCTCGCTGGTTTACGTCCTGGGTATTGGTGACCTGCTTCGTGCCGGGAACATCGCGGCGGCCCGGGATGTCACCTTGATTCCGCTCGTGTTGGTGGGCATCGTGTACTTGGCGCTGACAGCCCTGCTGACCTGGGGGTTGCGGTCCTTGGAAAAGCACTATGCCTATTATCGTTAA
>SRR1151209_00193 septum site-determining protein MinD
GTGCCAGCAATTTCATTGGTGATTACATCCGGTAAAGGCGGGGTGGGGAAGACCACTGCGACGGCTAATATCGGCACTGCCCTAGCCATGCTGGGGAAGCGGGTTTGTGTCATGGACTTGGATCTGGGGCTGCGTAATTTGGATATTATGATCGGCTTGGGTAATCGGATTCTGTATGATGTGGTGGACGTGGTCCAGGGCCGGGCAACATTGCACCAGGCCCTGGTGAAGGATACCCGCTTTGAAGACCGCTTAGTGCTCCTGCCCGCCGCCCAAAATGCAGACAAAAACGTCCTGACGCCGGCCGCTGTGCGGCAAATTGTGGCGGCTTTGCGCAGTGAGTTTGATTATATCCTGATCGATTGCCCTGCCGGGATCGAACAGGGCTTTCGCAATGCTCTGGCCGGTGCAGATGGGGCTTTGGTGGTGACGACACCAGAGATTTCGGCGATGAGCGATGCAGATCGGGTGATTGGTCTGATTGAAGCGTACAAAATGCCAATCGCGCCGCGCCTGATCGTCAATCGCGTGCAAGCCGCCATGATTGCTGCGGGCACCAGTCTGGATGTCGCCGCGATTGCCCATCGGCTGGCCTTGTCGCTGCTGGGTTACGTGGTAGATGACAACGCGATTATTACTGCCGATAATCGGGGCGAACCGATTGTTTTTGATACGCAATCACCGGCCGGAACGTGTTTTCGGAATATTACGGATCGTCTGGTTGATCCCCACGTGCCACTGTTGCCGCTGGCAATCAAGAAACCCGGTTTTTGGCAAAAACTTTTCCACCGGGGTTGA
>SRR1151209_00194 septum site-determining protein MinC
ATGGCGAGTGCCACATTAAAAGGACGCAAAGACGGTTACGAAATTCATTTGGACGACGCGGCATCGTTTACTGACAATCTGACTGATTTGACGGCATTGTTTCATCAAGTGCATGATGCTCAGCAGGCGTTGCAGGAAGAGCAGGCTAATTTTGTCATCACCACGGGCAACCGCTTGCTGACAGAAGACCAGGAGACGGCCATCAGGGCGCTTTTGGATGCGTATCCCCATTTTGAAATCGTGGCGTTCCGTGCAGACGTGGTGACTACCGCAGACTTGTCGCCTTTATTGCGCCAGACCCATGTGCCGGTATCCATTGGTGTCATTCGCAGTGGTCAGGAACGAGAATTTGACGGTGATATTCTGTTTATCGGGGCGATTCACCACGGCGGTGTGTTGAAGGCCAGCGGGAGTGTTTTTTGTATCGGTGAAGTTAGCGGAATCGTTTATGCCGGCTATCCGGATGATGCGGAAGCGGTCGTGGTCGGCGACTTGACCGAGGCAACTCAGGTACGGATCGCCGACATGGTCGACATCGTGGACAGCAACAACGCCCATTTGACGCCGCACGCCTTTGCGTACGTGAATGACTTGCACGCGATCGATTATGCAGAATGTATTAATTTGCGCCAAATTCGGCCGCGACTGTATGCCCAGATGGAGGAATGA
>SRR1151209_00195 rod shape-determining protein MreD
ATGGATCGACGCATTTTTTGGCGGGTCGCGCTCATTGGGTTAACCGCGTTATTTCTGGACGGAGCACTTTCCTTTGCCCTGCAGGGGGTATTGATCACACCGCGGTGGCAGATTGCGCCGAGCTTGTTGTTATTATGGCTTGTCTACGTGGTGTACGCTTTGCCCACGGATTGGCGGATGCTGGTGCTGGGCCTGGGTCTGGGCTTGTTGTATGACTTGTACTATTCGGGCATCATCGGTTTTTATGCGTTGGCTTTTCCGGCAGTAATCTACGGAATCCGTTGGGTACGGGACTATTTGCCGGTTAACGGACTGTTTGCCGTTCTGTTATACTTTATAAGTATTGTGGTCGTCACGAGCGGGGTATACTTCGGACATCGCTTCTTAGGCGTTGGCGGGGAAGGCTTCGTCGGGTTTGTCAGTCAGGTACTTTGGCCGACGATCCTGGCCAACGTGGTGGTCGCGGGAGCGGTGTATGTACCGTGCGCGCGGCTGCTCGCCGGGTGGCGCAGTGACCAGTAG
>SRR1151209_00196 rod shape-determining protein MreC
ATGCGCAAATTTTTTGCCAATAAAAAGTTGATCATCGTGATGATCATTTTAATTGCGACGCTCAGCACCGTAGCGCTCTCTTTTCGTGTACGGGAGAATCGTTCAGCGCCGCCTTTTATTCAACGAATGGCGAATGATATCAGCAACGTGGCGGCCCAAGTGATTGCTGCCCCGATGGTGGCGGTCCACTCGGGCTATAACCAAGTGGTTGATTTGGTAAATACTTACAACGAAAATCAGGATCTGAAAAAGAATGTGACCCAGCTGCAGCAGATTCAAGCTACGAATAATACGCTGCGGGCGGAGAACACGCAGTTAAAGAAGCAGCTAAAGCTGAATGCGACGCTGTCTGATTACACCCAGATTCCGGCGAGTGTGGTCTCGCGGCAACCGGCAGACTGGGAAAACATTTTTATGATCAATAAAGGCAGCCGCCAGGGTGTGAAGAAGAACATGCCGGTGGTTTCCGGGGCTGGTTTGATTGGCCGGATTGTGGAGATCCATGATTTTTCGGCGAAGGTCGAATTAATTTCCACCAGTAATACCAATGCGGACCGCACGGCGGTGGAGATCGTCAACAAGAAGTCCCAGCGAATCAATGGGATCATCTCTGGCTACGACAAGGATGATGAAGCCTTGCTCATGACCCAGATCAATACGAAAAACACGATTGAAAAAGGGGACACCGTAGTGACTTCCGGTTTGGGCGGCTTAACGCCGAAGGGCTTGTTTGTTGGCAAGGTGACCCGCGTCAAAGACGACGATTATGGGCGGCCAGCGACGGTATACGTTCAGCCGGCCACCGATCTGAATGATTTCTCTGTGGTCACGGTCATCAGCCGGGCCGTACAGGGGGAATAA
>SRR1151209_00197 rod shape-determining protein MreB
GTGTTTGGATTTGGTGCGAAAAATATTGGTATTGACCTGGGCACGGCCAATACATTGGTATACGTAGAGGGCAAGGGGATTGTCCTAAATGAACCGTCGGTAGTCGCTAAGGATACCGGCACAGGTGAAGTATTAGCAGTGGGCTCTGAGGCCCGTGACATGATTGGCCGGACGCCAGCCAGCATCAAGGCCATTCGACCCATGAAGGATGGGGTCATTGCTGACTATGACACAACGGTTGCAATGATGAAGTACTTCTTGCAAAAGTCGGGTGCGACGGGTAAACCGTACGTCATGGTTTGTGTTCCTTCCGGCGTTACCGAAGTCGAGAAGCGGGCAGTGACCGATGCTACCCGGGTTGCCGGGGCGAAGGATGCCTACGTGATCGAAGAGCCTTATGCGGCGGCGATTGGGGCCGGTTTACCGGTTATGGATCCCACCGGCAGTATGGTGGTGGATATCGGCGGCGGGACGACGGACGTGGCGACGATTTCGCTGGGCGGGATCGTGTCCGCCCGGTCGATTCGGATGGCCGGCGATAAGATGGACGAGGCAATCATTTCTTATGTGCGCCAAGAGTTCAATCTGCTGATTGGTGAACGGACTGCTGAACAGATCAAGATGGAAATTGGTTCGGCTTCTGTCGAAGGGGCTAAGGACTTAGGTCCGATGTCTGTTCGGGGCCGCGATTTAGTATCCGGATTACCTAAAACGATCGATGTCTCGGGTGAAGATGTGGCCAAAGCGGTCCAAGAAGTAGTCCAAGCCATCATTGAGGCCATCAAGGATACTCTGGAAGAAACGTCACCGGAAATCGCGGCGGACGTAATTGATCGCGGAATTGTCTTGACTGGCGGCGGCGCGTTATTGAAGAATCTCCCCGGGGTCATCTCGGATGCCACCGGGGTACCGGTATTTATTGCGCAGGATCCGTTGGAATGTGTCGCAATCGGTACAGGCGAGTCATTGAAGCATATCGAATTGATGAAGCGGCGTTCTCGGTAA
>SRR1151209_00198 DNA repair protein RadC
ATGATTGAACCGACCGTAACGATGCTCCCCCGGGAAAAAGCCAGTCTCTACGGGGTGGGGGCCCTGACCGATCGAGAACTGCTGGCTCTGCTGATTGGTTCCGGCTCGAAGCAGCTCAGTGTCTTTCAAATTGCCGAATCCGTGATTCAGCAATATCAATTTTTACCCAGCCTGCAACAGGCCAGTGTGGCGGATCTCAGTCAGCACTCGGGAATCGGTCCGGCGCGGGCGCTGCTGATCGCGGCCAGCAGCGAACTGGGCCGGCGGTGCGCCCACCAGTTGGGCCAGCGCTTCGGGACAATCAATTCAGTGACCGAAGCGGCCCATTTCTTGATGGATTATTTTGCGGGGGTGACCCAGGAAGAATTTGTAGCGATTTATTTGGATGCGAAAAATGCGGTGATTGCCCAGGACGTGTTGTTTAAAGGGACCCTGACGGCGTCCATCGCTCACCCCCGGGAAGTGTTTGCCGGGGCCCTGCGCTATGCTGCTGCCAGTGTGCTGGTCGCCCACAATCACCCCAGCGGCGATCCGGATCCGTCGGAGCAAGACCGCCTGCTGACCGAACGGCTAGTCAGTGCGGGCCAGGTCATCGGTATTGCGGTGATCGATCATTTGATCATCGGCCGGGAAGAATTTGTTTCCATTCGCAGCGAAACTCCGTGGTAA
>SRR1151209_00199 beta-phosphoglucomutase
GTGACTTTTGATGGTGTGATTTTTGACATGGACGGCGTTCTGGTGGATTCGGAACGAATGTATCTGCGGGCTAACATGGTCGCCGGCCGCCAGCAGGGGCTAACATTGACCGCTGAAGATTACGCGCCTTTGGCTGGCGCATCCAATGCCACGGCCAATGCGTTCTTTCAGAAGTATTTTCCAGGTGAAAAAGCGCAGGAATTTCTTAACGACACCTACGCGTTGGTGGATCAATACGTGGCCGCCGGCGAGCTGGCGATTAAGCCGGGGGTCAAGCCGCTGCTGCGAATTCTGCACGAAGTAAATATTCCCATGGCGGTGGGTTCCAGTAATTATGGCCGCACCGTGCATGAGTTTTTGGCGAAGGTCGGAATTGAAGACGAGTTTGCCCATATCATTACCAGTGATGACGTGCATGCGGGCAAACCGGCACCCGATATCTTCCTCGCTGCCGCCCAGGCGCTGGCCATCCCGCCGGCACGGGCATTGGTGGTGGAAGATTCCGCCAACGGCATCCAAGCGGCGTTGACTGCCAAGATGACGCCGGTGTTGGTGCCGGATCTGCGGACGGCTGAGGAAATCTTGATGGATATTCCCCAACCAGTCCTCGTGGCCCCCACCTTGACCCATGTGGCCAATTTGTTTAAGTAA
>SRR1151209_00200 folylpolyglutamate synthase
ATGAATTATGCAGAAGCCCTGACGTTCATCCACAGCCGGCCGCGGCTGCATCGGGGTCATGAACTGACCTGGATCAAGACTTTTCTCGCGGCTATTGGTCATCCCGAACAGCAAGGCCGCTTTATCCATATTACCGGCACCAACGGCAAGGGATCGGTGGCGACCATGGTCACGGACATGCTGCTGGCGGCCGGGTTGCATGTGGGGCGTTTCATTTCACCCTACATCACGCGGTTTAACGAACGCATTCAGGTGGATGGGAAAGATATCAGCGACACCGATCTGGCCGCCGCCACGACCCATCTAGCCGATGTGCTGGCGGGGATGCAGGCCGCGAATCCGGACTTTGCCTTGACGGAGTTTGAATTCGATACGGCCTTAGGTTTCTATTGGTTCGCCCAGCAGCAAGTGGATGTCGCCGTGATCGAAGTGGGGATTGGCGGCGCCCATGATAAAACCAACGTGATTCAGCCCGACGTCAGTGCCATTACCACTGTCGGGGCTGATCACTTGGAATTGATCGGCCCCACCTTGGCCGACGTCGCCCGGGAGAAAGCCGGCGTGATCAAACCGCAAACGCCGGTCGTGCTCGGCGACATTGCCGCTGAGCAAACTCAGATCATTACGACCGCGGCCCAAGCCCAGGCAGCACCGGTGGCCCAACTGGGCCGCGACTTCACAGTGGACCATGCGCACCTGCACCCGGCCGACCATGCCTGGCAGTTTGATTACCATCGGGGCGACCAGGATTGGACCAAGTTGCGCCTACCGAGCATTTCTGCTTATGAAGTACGCAATGCGGCAGTGGCCATCACTGTGGCCCAGCTGTATCTGCACGGCCGGGGTAAAACATTGGATCAAGCTACCGCGCAGGCGGGGTTAATGGCCTTTCGCTGGCCGGCGCGCATGGAGCTGCTCCATGAACAGCCATATCTGATGCTTGACGGCGCGCATAACGTGCCCGCGGCGCAGGCTCTGATCAAGAGCATCAAAGCGGCCTTTCCAGGGGTTACCGTGCACCTGATCGCGGCCTTTCTCAAAGACAAAGATGCCACCGATATGGTGCGCTTGTACCAACGGGCGGGCTGGCTGATCACGGCCACGGAGTTTCCGGATGCCCGTATTCTGCCGGTGACGGACTGGCCGGAGACGACGGTCCCAATCAATCATGTGGCGAATTGGCAAGAGGCCCTGGCAGTTGCGCTGCAGGCCGCTTCAGCCGATGATCTGATCCTGTTTGCCGGGTCGCTGCACTTTGTCTCGACGGTGCGCAATACGTTACTCAAGGAGGATGACCCGTGA
>SRR1151209_00201 valyl-tRNA synthetase
ATGAGTCAATCAGATATGTCGACCAAGTATGATCCGACCGCCGTTGAAACGGGCATGTATAAAAAGTGGCGCGACGCGGGATATTTTAAACCAAGCGGCGATAAAAAGGCTAAACCGTACAGCATTGTTATTCCGCCGCCCAATGTCACGGGCAAGCTGCACATGGGTCATGCCTGGGATACCACATTCCAGGACATGATCATTCGCCAGAAGCGGATGCAGGGCTTTGATACGCTGTGGCTGCCAGGAATGGACCATGCCGGGATCGCGACCCAGGCTAAGGTAGAGGCTAAGTTGCGCGGGCAGGGAATTTCCCGTTACGACTTGGGCCGAAAGAAGTTTATTGACCAAGTCTGGGAATGGAAAGACGAGTACGCCAAGACGATCCACGAACAGTGGGCTAAACTGGGCCTATCGCTGGATTACTCCCGTGAACGCTTCACGCTGGATGACGGCTTGAATAAAGCCGTACGGACCGTCTTTGTCGATCTGTACAAGCAGGGCCTGATTTATCGCGGTCAATACATCATCAACTGGGATCCGGAACTGCGGACAGCACTGTCCGACATTGAAGTTATCCACAAGGATGACCAGGGCGCGTTCTATCACGTGAAATATCCCTACACGGACGGCAGCAGCTATATTGAAATTGCCACGACCCGGCCGGAAACGATGCTGGGTGATACTGCGATCGCAGTCCATCCCAACGATGACCGGTATAAAGACGTGGTGGGTAAAAAGGTGATTCTGCCTTTAGTTGGTCGGGAAATCCCCATCATTGCCGATCATTACGTTGATATGCAGTTTGGGACTGGTGCGGTGAAAATCACTCCGGCCCACGACCCTAACGACTTTGAGGTCGGCAATCGGCATAACCTGGAACGGATCAACATCATGAATGACGATGCTACCATCAATGAAAATGGCGGCAAGTATCAGGGCCTGGACCGTTTCGAGGCGCGCAAGGCGATTGTGGCTGACCTGAAGAAGGAAGGCTACCTGCTGTCGATCGAACCCATCGTCCACAGTGTCGGCCACTCTGAACGTTCCGGCGTTCAGGTCGAACCGCGTCTGTCCACCCAATGGTTTGTCAAGATGAAGCCGTTGGCCGAACAAGTCTTGGCCCAACAGAAGACGGATCAGAAAGTTCATTTCGTACCGGACCGGTTCGAACACAATTTGATCAATTGGATGGAAAACATCCACGACTGGGTCATCTCCCGTCAGCTCTGGTGGGGTCACCGGATTCCGGCCTGGTATCAGAAGGATACCGGTGAAATATACGTTGGCATGGAACCGCCCAAGGATGCCGAAAACTGGACGCAGGATCCTGATGTTTTGGATACCTGGTTCTCCAGTGCGTTGTGGCCGTTTTCGACCCTGGGCTGGCCGAATACGGATGCACCGGATTACAAGCGGTACTTCCCGACCAACACGTTGGTCACCGGTTACGACATTATTCCGTTCTGGGTTGCCCGGATGATTTTCCAGAGCGAACACTTCACTGGTAAACGGCCGTTTGAATTTGCCCTGATCCATGGCTTGATGCGTGATTCCCAAGGCCGAAAGATGTCTAAGTCGCTAGGCAACGGGATCGATCCGATGGACATTATTCAGAAATATGGCGCGGATGCCCTGCGCTGGTATTTATCCACCAGTTCAACCCCGGGACAAGATGCCAACTTCAGTGAACAAAAGCTGGAAGCAGCGTGGAACTTCATTAATAAGATCTGGAACATTTCCCGGTTCGTCCTGATGAACTTGGCTGACACGCCGGCTAGCGACACGCCGCCGGATCCGGCCACGTTTGATTTAGCCGATCGCTGGATTTTCCACGAACTGAATGAAACCATCACCAAAGTCACCCGCTTGTCTGAACGTTTCGAGTTCGGAGAAGCCGGCCGGGCCTTGTACAATTTCACCTGGAACGACTTTGCGGATTGGTACGTGGAAATGAGCAAAGAAGTGCTGTACGGCACGGATGAGGCGAAGAAGGCGGCCAAGCGCAAGAACCTGCTTTGGGTCCTGGATATGACACTGCGCATGCTGCACCCGACGATGCCGTTTGTCACCGAAAAGATTTGGCAGACCATGCCCCACATTGGCGATACCATTATGCTGGCTAAGTATCCGGTGGCCCATGAGGAATTTGCGGACGCGCCAGCCGCGGCAGATATGAACTGGATCATCGCTGTGGTCCGAGCTACGCGGAATATTCGCAGTCAGGCCAACGCGCCGATGAGCAAGCAGATCCATCTGCAAGTCTTCATGGCCGATGCGCACCTGGTACCAGTCTTTGACCACAACAAGCCATTCATTCAACGGTTCGTGAATGCCAGCCGGATGGATGCCTTGACCGGTGAACAGCCAGAGGCGTCGGCTAAGATGATGACGGCCGTCGTACCAGGTGGGGAAGTCATCGTGCCGCTGAATGAATTGGTTGATATGCAGGCGGAACTGGACCGGTTGACTAAGGAACAGACGCGGCTGCAGACCGAGGTTCAACGCGCCGACAAGAAGCTGGCGAATAAGGGCTTTACGGATAAAGCCCCCGCGGCAGTGGTTGCTGAAGTGGAAAAGAAACGGGCCGCGTATCAGGAACAATTAACGACACTGACCAGCCGGCTCGCTGATTTGCAGGACAGCGCCCAATGA
>SRR1151209_00202 redox-sensing transcriptional repressor Rex
ATGACAGAACAACACGTGGTCACCTTACCCCGGGCGACAGCTAAGCGGATTCCTTTGTACTATCGATACTTATGTATGTATCGGGCGGAGGGGGTCACGCGGATCAAGTCCCATGAACTAAGTAAAAGCATTCACATCCCCGCGGCGACGATCCGCCGAGATTTCTCCTGCTTCGGGGAATTAGGGAAGAGCGGCTATGGTTATGATGTGAGCCACTTGATTGATACCTTTGCCCGGATGCTGCGAGTCGACGAATTGCACAAGATTGCCCTTTTAGGGGTGGGCAATCTGGGCAGAGCGCTGATTCAAAATAATTTTCGGCGGAATGACAACCTCCGCATTACCTGCGGTTTTGATAATCAATGCCCAGAAATTGGCACGATCATCAATGGTGTACCAATCTATCATATGGATCAACTTGCCGAAAAAATACGCGAACAGGGCATCACAACGGCGATTTCCACGGTGCCCAGTGTGCATGCCCAAGAGGCGGTGGCCCAGCTGACTGAAGCCGGGGTACGGTCCATTTTGAACTTTGCGCCTGCTCGCTTGAAGGTGCCCGAAGGCGTCCACGTGAAGTATATTGACCTGACCAGCGAGATTCAGACGCTGATGTATTTTGCCGATGCAGAAAACACACAGAATAATATGGAAGAAGCAATTGCTACCTTTGCGGAGCCGGAGTAA
>SRR1151209_00203 thiamine biosynthesis protein ThiI
ATGCAATATACAGAAATTATGGTCCGCTACGGCGAATTATCTACAAAGGGTAAAAACCGCCGGAACTTCATTGGCCGCTTGACGGGAAACGTCACCAAAGCTTTGAAGAACTTTCCTGAACTCAGCATTCACCCGAAGCGGGATCGGATGCACATTCAATTGAACGGCACGCCAGCGGAACCAGTCATGGCGATTTTGAGCCGCATTTTTGGCATTCAGAACTATAGTCCAGCCATCAAGATTGCTAAAAATATGGACGTGGTCCACCAGACCGCCATTGACCTGGTCCGGGACACGCTGCCGAGTCCCACGGCGAGTTTTAAGGTCAATACCCGGCGCAGCGACCACACTTTTGCGCTGGATACGAACCAAATGAACTTGGATTTAGGCGATTTGATCACTACTGCCTTCCCAGATATTAAAGTACAAATGAAACATCCGGATGTCACCTTGCGGGTGGAAGTACGCCGGGATGGGATTTATCTGTCCACTGAGACGATCAAGGGTGCCGGCGGTTTGCCTGTCGGTTCTGCAGGAAAAGCGGTCTTGATGCTCTCTGGCGGGATCGACAGCCCGGTGGCTGGGTACCTGGCGATGAAACGAGGCGTGGACATTGAAATGGTCCACTTCTTCAGCCCGCCGTATACCAGCGTGGATGCGCTGAATAAGGCGAAGGAGTTAACGGCTAAGTTAGCGCCCTATGCTGGCGCCATCACCTTTATTGAGGTGCCGTTCACGGAAATTCAAGAAGAAGTGAAAGCCCATGTCCCCGAAGGCTATCTGATGACGGTCCAGCGGCGGTTTATGCTGCGGCTGGCCGATCGGATTCGGGCCCAGCGCGGCGGCTTAGCAATTTTTAACGGCGAATCAGTGGGTCAAGTGGCTTCCCAGACGTTGGAGAGTATGACGGCAATCAACGACGTGACGACGACGCCTGTTCTGCGGCCGGTGGTGACGATGGATAAAACAGAAATCATCGCTCTGGCAGAGAAAATTGATACATTCGATCTCTCCATCATGCCTTTTGAAGATTGCTGTACAATATTCGCTCCGCCGCGCCCTAAGACTAAACCCAATCTGGATCGTGCCCGTCAGTATGAGGCGGTGCTGGACGGCGAACCAATGATGGCTCGGGCCATTGCCGGTATCAAAATCACTACGATCCATCCCCAAGATGAATTTATGAATGCCCATCAAGAGGAGACAGCAGCGCTGCTGTAG
>SRR1151209_00204 cysteine desulfurase
TTGATTTATTTTGATAACAGTGCCACGACCAAGATTGATCCGGCGGTCTTGGCCACTTATGATGCCATCAGCAATAATTTCTTCGGCAATCCGTCGTCGCTGCATGCGGTGGGGACGAAGGCTAATGATATGCTGCAATCAGCCCGGGGGCAGATTGCGGAACTGATCGGGGCGGCACCGGATGAAATCTTTTTCACCAGCGGCGGTACCGAAGGCGATAACTGGATCATCAAAGGAACGGCCATTGAGAAGCGAGAATTTGGCAACCACTTGATCACGACGGCCATTGAGCATCCAGCCGTGATCAATACAATGAAGCAGCTGGAAAAGCTGGGCTTCAAAGTGACGTATCTGCCGGTGGACAAGGACGGCTTTATCGATCCGCAAATGCTGGCCAATGCCATCACGGATCAGACGATTCTGGTGTCGACTATGGTCGTGAATAACGAAATCGGTGCGATTCAGCCAATTCATGAGATTGCTAAGGTCTTGGCCGATCATCCGACGATCCACTTCCACGTCGATGCTGTTCAGGCTGTGGGCAAGGGCCTGCGAGATCTGATTCGCGAACCGCGGGTGGACTTCGCAACATTCTCTGGGCATAAGTTCCATGCGCCCCGGGGGACCGGGTTCATCTACGTGAAGCGCGGTCGCAAGATTGCACCGCTGCTGACTGGCGGCGGCCAGGAAAATGATTGGCGGTCCGGGACGGAGAATACACCGGCCATTGGTGCGATGGCCAAGGCACTGCGGTTATTATTAACGAATGAAGACGCCAACGTTGCCAAGCAGGAGGCGGTTCGGGAACGGATCATCACCCATTTGCAGCAGTATCCGGACGTGACGATTTTCTCCCCAATCAGCAATCGTTTTGCACCGCATATTCTGTGCTTTGCATTGCCTGGTGTGCGGGGTGAGACGATCGTCCACGCTTTTGAGGATCATGATATCTACATTTCGACCACGAGTGCCTGCTCGTCGAAGAAGGGGACCGAATCCAGCACGCTGAAGGCCATGCAAGTACCGGAACGGATCGCTACGAGTGCGGTGCGGGTATCCCTCGACGAGCACAACACATTGGCTGAGGCTGATACGTTCAACCAGGTTTTCGACGAGTTATACAAGAAGTTTGCTAAGTTGCGCACCTCAGTGGCCGCCGCTCGTTAA
>SRR1151209_00205 septation ring formation regulator EzrA
GTGCCACTATGGGGGATCATCGTCATTGGCGTATTAATCGTGATCGCAGTGATTGCGGGCGTGGTTTTATTACGTCAATTTCAGAATAGGACAGCGTTAGAAACGTTACAGCAGCGCCAGCGGCAATTGGCCGATCGGCCCTTGGCGGCGCAAGTCGCTAAATTGGCGCAAACTACCCTCAGCGGAGAAAGTCTGCAGTCGTTTCACAAGTGGCAGCATCAATATACCCGCTTGACCCAAGAGCAATTTCCTAAAGCCGCTGCGCAGCTGCATGCTGCCGCAACGGCGAATGACGGCTACCATGTGGTCCAGGCCCGCCAGCACATCGTCGCCGTCACGGAGCTGATCACCGATGAAGAGCGCACGGCCCAAGATATTGCCGAGGCGCTGGATAAAATTGCGGATGTTGCTCATCAAAATCAAGAGGCCAAACAGGCGGCCCAGGAACGATACAAACAATTACGCAAAACGATCCTGGTGCAAAGCTTCTCCTTCGGCAGTGCGATCACCGCGCTGCAAAGCACCCTGACAGCAATCAATGAGGCGTTTCAGCAAGTGGATGTCTTGGCCAGCAACGGGGATCATATCCAAGCCCGGACGGCTTTGGCGGATATTACCAAGCAGTTGGATCAGTTGGAGAAGGCTGTGACGGATATTCCGCCGCGAGTCAATGAATTGACCAATATCTTCCCAGGCCAGCTGGAGGAACTCGTTGCGGGGTATCACCGGCTGCGCACCACCGGGTATCGTTTCTTTGATATTAACATTCCCCAGGAACTGACGAAGCTGGATGATGACATTCATGCGGCGGAGGCGCTGCTGCGTAAAGAAGATGTGCCGGGCCTGCAAGCGGCCAACAAAGCGCTGGCCGCGAACATTGATCACTTATACGATGTGATGCAAAAGGAAATGGATGCCAAAGAGGCGGTTGAAAAGCTGCGCAATGCTCTGCCGGCGTTTTTGACCCATGCCTCGGTTCAGAATAAGACGCTTCAGGATGAAGTACGGCATCTGGACGAGAGTTACGTGCTGACTAATGACGAAGTCCAAACAACGGCGCACTTTGGCCGGCAGATTGCGGAAGCTCAGGAACGGTTTACCCAGGATGAACAGAAAATTCATGATCAGGAAGCCGTCTTTACCTTGGTACACGAAGATTTGACCAAAATCAACGCGCAGCTGGCGGAGATTGAAAAGAAACAGGTCGCGATCGATAAAGACCTCAGCGGCCTGCGTACCGGCGAGGAGATCGCCCGCCAGAACTTAGCCCGCTTCATGATGGAATATCGGGAAACCCGGCGCGAGATGCTGCAGCAGAATTTGCCTGGATTGCCTAAATCATATCGGGAGTTTGCAGAGATCGTACGCCAGGAGATCGGCAAACTGGATCATGACTTGAATCAGGTCAAAATTAATTTGGAAGATATTACTAAACAGTTGATCATGACCCAGGAAGATTTGAAGACGCTGAAACAACGCTCCGCCGATTTGATCGACGCGGCGGCTCTGACTCAGGAAATCCTGCAATACGCCAATGCATTGAAGCAGGATAACGAGACGGTGGCTAAGGCCAGCGTGAGCGCGACGCAGATCTTCAATACGACGTATGATTATCCCCAGGCATTGGATACGATTGCAACGGCCGTGGAAGCGGCAGAACCGGGGGCTTATCAGCGGATCGAGGCGGTTTATAAGGAACGGAAGGGGAAGCTGTAG
>SRR1151209_00206 GAF domain-containing protein
ATGGCAGATACCGATCTTTTAGTCGACCAGCTGACCAGCTTGCTGGCTGGCGAAACCAACCCCGTCACCATTCTGGCCAATGCCAGCGCCCTGCTGAATGATACGTTGGCCAACATCAACTGGGCTGGGTTCTATTTATATAATGAAGAAAACCGTCAGCTGGACCTGGGTCCCTTCCAAGGAAAAGTGGCCTGTATGCACATTGCCCCAGGCCGCGGGGTCTGCGGTACCGCCTACGCTACTGGCCAAGTCCAGCGGGTCGCCGATGTGCATCAATTTCCAGGGCACATTGCTTGCGACAGCGCCAGCAACTCAGAAATTGTTGTCCCCCTGCCTGGTTTCGGTGTCTTGGATATTGATTCACCGTTAACGGATCGCTTCAGTGCGGCCGACGAGACCGTCCTCACCGCCTTTGGCCGGGCCGTCCAGAAACAGCTTGACGCCACCCCTGCTCATTCGGTACAATAG
>SRR1151209_00207 30S ribosomal protein S4
ATGTCTCGTTATACTGGTCCCCGCTGGAAACTTTCCCGGCGTTTAGGTCTGTCACTGTCTGGCAGTGGTAAAGAACTCGCTCGTCGCCCCTATGCTCCTGGTGAACACGGTGCGAATAATCGCCGTAAGGTTTCTGATTACGGTTCTCAATTACTCGAAAAGCAAAAGCTGCGTTTAATGTACGGTTTGAACGAACGTCAATTCATGAACTTGTTCGTTCGTGCCGGCAAGATTCGCGAAGGCAAGCACGGTGTTAACTTCATGGTGCTGCTGGAATCCCGTTTGGATAACTTGGTTTACCGTTTAGGCTATGCGACTACTCGGCCGCAAGCCCGTCAGCTGGTCAACCACGGCCACATTACCGTGGACGGCAAGCGCGTTGACATTCCTTCTTACGAAGTTAAGCCGGGTCAAGTCATTGGCTTGAAGGAAAAGTCCAAGGATCTGCAAATCGTTAAGGACGCTTTGGACAACACCGTTGCCCGTCCCCCGTTTGTGACTTGGGACGACAACGCTTTGACTGGGACTTATGTCCGTCAGCCGGAGCGGGAAGAAATGGAACCGGAAATCGACGAATCCTTAGTCGTTGAATTCTACAACCAAAAGCTGTAA
>SRR1151209_00208 hypothetical protein
ATGGCAAGTGACGATGTCAATCAGCGGATTGAAGAAAGTGCGGTCGGCGGTCGGCAGACGAATCCAGATGAACGCCGGCAGTATATGGGCTCCTTACGGGAACGGGTCTTTGTTGCGATTACCGTGGGTGAATTGCCGAAACCAGAAATTTTAGCAGCTTTCAAGACGCATCTGACCGATTATCAAGGCTATAGTGCCTTGATCAATGGTACAGTTGATAATGCAATCACTGGCGGCTATATCCGGGCTTTAAGCAGTGCGAATATTCCATTCACCCTAGTGAACGATACCACCACCCCTCGGGACGATGCCGCTATGGGCTTACTGATCGTGGCGAAAGAGGCCATCAATAGCCAAACGGTGGCCATCACCGCCAAGTATCCTGAGGCCGCCCCGGGAAAGACGGATAAACCCAAGAAAAAGGGCTTTTTTGAATCGTTATTTTAA
>SRR1151209_00209 recombination factor
ATGGTAGAACCGCTTGCTTACCGGATGCGGCCGACCAACTTGGATGAAGTGGTCGGTCAGCAGGATTTAGTCGGCCCAGGTAAAATCATCCGCCGCATGGTTCAAGCCAAACGGCTGAGCAGTATGATCCTCTACGGCCCGCCTGGCATCGGCAAAACCAGTATTGCTTCAGCCATTGCCGGCAGTACAAAATACCATTTGCGGATCTTAAATGCAGCCACGGATACTAAAAAAGATCTGCAAGTAGTCGCCGAAGAGGGCCGAATGAGCGGCACCGTTATTCTGCTGCTGGATGAGATTCACCGGCTGGACAAAACCAAGCAGGATTTCCTGCTTCCCCATTTAGAAAGCGGCCGCATTATCCTGATTGGGGCAACCACTGAAAATCCTTATATCAATATTAGTCCGGCTATTCGCAGCCGCACTCAGATTTTTGCGCTCCACCCGTTAGCCGTTGACGATATCGAGCAGGCCCTGCATCGGGCACTGAGCGACAAAGAAAAGGGGCTGGGCGGCTATCCCGTCACCATCAGCGATGACACCCTCAGGGTTTTGGCGCAGGGCGCCCACGGCGATTTGCGCACAGCACTGAATACATTGGAACTCGCCGTCCTCTCCACCCCAACGGATAAGCAGGACCACCGGATCCATGTCACCGAGCAGGTGATCGTTGATTCGGGCGCTCGGCCGCCGATTGCCGGGGATAAAAACGGCGATGCCCATTACGATACGATTTCTGCCTTTCAAAAATCCATCCGCGGTTCTGACACGGATGCCGCCCTGCACTATCTAGCGGTACTGACCGCCAGCGGCGACCTGCCATCAATCATGCGCCGGCTGCTGGTGATCGCCTATGAGGATGTCGGGATGGCTAATCTGCCAGCCGCAGCCCGCACCGTCGCTGCGGTGCAAGCCGCCGAGCGTCTCGGCCTGCCCGAAGGCCGCATCCCCTTGGCAGACGCTGTAATTGAATTATGTCTGTCCCCAAAATCGAATTCGGGAATCAGTGCCGTGGACGCTGCCCTCGCTGATGTCAACAGCGGCAAGGGCCAAAAGATCCCTGCGGCCTTGAAAGATGCCCACTACAAGGGGGCCAAAGAATTAGGCCACGGTACGACCTACAAATATCCCCACGCCTACCCGGGCGACTGGGTCGCCCAGCAGTATTTACCCGACGATATTAAAACAGCTCAATACTATGAGCCGAAACATAACGGTAAATACGAAACTGCCTTTGCGGAGCAATATGCCCGTCTCCGCCAGGCTGGACCCCATAGCCACGCTTGA
>SRR1151209_00210 hypothetical protein
GTGTTAGCTAAAACTGCCATCATTATCCTATTGATTTTGCTTGTTCTGCTGAGCATCATTGCCCGGCTGATCGTCGTCCGGCTGATGACCACCACTCCAGACAGCGCCGTGCTGCGGGCGATTATCCCCGCTCTGCGGCGGGCCACCATGATTCTGCTGTTTATTGCTCTGATCGGGGCTGTGATTTTGCTCAATGCCCCGCTGATGTGGAATCTCGTTACCGTTGCCCTCACCCTGCTTTACATGCTGGCGCTGATTTTTCACTTAGCGCGCCTGTTAAAAAAATAA
>SRR1151209_00211 universal stress protein UspA
ATGTTGCAACAATACAAGCGGGTCCTGGTTGCGATTGATGGATCCTACGAAGCAGAATTGGCTTTTCGCAAAGCTGTGGAAGTGACGAAACGGAACCATGCCCATTTGTTCCTGTTACACGTCATCGATACGCGGGCTTTCCAAAACGTATCAAGCTTTGATTCCGCGATGGTGGAACAAGTCACCGAAACCCAGAAACAGACCATGAAAGAGTATGTGGAAATTGCTCAACGCGCCGGTCTAACCGATGTGTCCTACGAAATTGAATACGGCGCACCCAAAACACTGATTGGTCGAGACTATCCGAAAGCCAATGATATTGACTTAATTATGATCGGCGCCACCGGCCTGAATGCCGTCGAGCGGTTATTGATCGGCTCAGTAACGGAATATGTGACCCGCGTCGCCAACTGCGACGTTTTGGTCGTCCGGACCGATTTAGACAATAAGCCAGCACTGATCGACAGCAAACATCCGGAAAGCCATATTAATCCAGAAAACGACTAG
>SRR1151209_00212 transcriptional regulator
ATGTTAATTAAAGGTGAGGCCATTCGTACCGCACGTTTACGCAAACGCCTGTCCCAAAGGGAACTTGCCCACGGCATCTGTGCCCAGGCCACGGTCTGTTTGATCGAAAAGTATGATCAAAATGTGGCTTGGGATATCATTAACGGGCTGTGTCAACGCTTAGAGATTCCGGCCGAGAGTGTCATGAGTCAACCAGATGATGTGCTGCGCCGCCAGTTGGACCGTGCTTTGGAAGCGTTTATGGATGAGGATATCGTTGGGTGTCAGCGGCTTTTGATACCGCTAGCCGATTTGATTGAGGCAGATCAACTGCGTGCGCACTACTATACGTTGCAGGGGCTCGTGGCCTTGGCCGACGGGCCGCGGTTGGATGAAGCCCGGTTTCGTTTTTCTCAGGCCCTCAATGAAGGGGCCGCTGGGCCGCATGATCTGTTTCGCTTGCTGGCGCAACTGGGCTTTGGCTATACGTATTTTCGCCAACAGGCGTTGGCGCAGGCCGGTTATTATATTTTGGCCGCTCGGGATGGCATCAGCCAATGGCCCAGCGGTCAGTCCTGGGAGTTGGAAATGCAGCTGTTTGTTTTGCTCGCCCATGCCGAATTGTTATGTGCGCAAGGGTATTGGCGGCAGGCGCGCGTGATCGCGGCCGATGGTTTGGAGCGGTTGAATGCCGGCAATAGCATGTTTATCATGGAGCGGCTAATTTTTGTGCGCGCCCGAGCGGCGCTCGGGGCGGGAGACACCGAACAGGGTCGTTGTGAGCTGGAGTCCGCTTTATTTATCGCGAAAGTTCGGCGGCATCCCCATATGGAAGCCAGAATTAATGCCTTACTGCAAACGCTCGACCAGTCAGATCGCGAAACGGAGTAA
>SRR1151209_00213 phosphate--nucleotide phosphotransferase
ATGGATTTGAAAGATTATCGGTACAACGGTACTGGCGAGTTTCATATTGGCGAACAGGCCACCACTCCGCCAGCCGACTATCAGAATCAAGAAAAGGCAATCAAAAAGGAAATTAAAAAGGATCGCAAAGTGTTGCAGGATGCCCAAGAAAAACTGTATGCGCAAAACCAATTTGGTATCCTAATCCTTTTTCAAGCTTTGGACGCCGCCGGCAAAGACGGGATGATCAAACACGTGATGCGTGGCGTAAATCCCCAAGGAACGACGGTTACGCCGTTCAAAGTTCCCACCGCCAACGAACTTGCCCACGATTATTTATGGCGCACCCGGGTGGCTTTTCCCCGCAGCGGCGAAATCGCCATTTTCAACCGCTCTTACTACGAAGAAGTCCTCGTTGATCAGGTCCATCCAGCCAACGTTTTATCGGAACACATTCCCGGCATCACCAGCGTCAAAGATGTAGACAATAAGCTCTGGCAGCAGCGGTATAGCGATTTTCGAGAGCTGGAAGCCTTTGCTAACCGTAACGGGATCATCATCCTTAAGTTCTTCCTGCACCTCTCCAAGGGCGAGCAAAAGAAACGCTTCTTGGCCCGTATTGAAGTGCCCGAGAAAAACTGGAAGTTTTCGGAAAACGACATCAATGAACGCCAGTATTGGGATCAATACCAAAGGGCCTACGAAGAGATGATTCGCCATACAAGCACCAAAGAAAATCCCTGGTATGTCATTCCGGCCGACGACAAATGGTATTCTCGCTTGATCGTTTCGAAAATCATCAATGCCCGCATTGGCGCCTTGCCGCTGCACTTCCCGCAAGTCACAGATGAACAAAAAAAGGGCCTGCACGCGGCCCTGGATAAACTAGAAGACTAA
>SRR1151209_00214 acetyltransferase
ATGGACGTTACCATACGCAATGCAGTACCAGCAGACGAAGCGGCCGTGATCCGGATGTGGGCGGCTGCCCGGGCCCGGTTAGCCGCCGAAAAAATACCGCAGTGGCAGGATGCCTATCCTGGCGCTGCGGACTTTCAAACTGATTTGATTACCGGGGCCGGGCAAGTGGCTGTACTGGCCACCGGTGAGGTGGTGGGCTATGCCGCCCTCATGCCCAGCCCGGAGCCCACCTATGCCAGGATTGCCGGCCAGTGGCTGACTGCTGGGGCTTACATAACGATCCATCGTTTCGTCGTTTCGAACCAGCACTTGCATCATGGCATCGGCCAGCAGTTCATGACCGGGGTGCTGGCCCATATTCAAACCGCCGGCACCCCGGCGGTGCGCGTGGATACCCACGCTAAGAATACCCCAATGCACCATTTACTGGGCCACTTTGCATTTCAGCATACCGGGACGATTTGGATGACTGATGGTAGTCCGCGGGATGCTTACGAGTTAGTCTTCTAG
>SRR1151209_00215 hypothetical protein
ATGGATCAAGCAATACAAGACTTTTATGACCGCTTAGACGTACTACGCCTGCAATTGAATCGGGGCGATATCTACAAAAACTTGCCAACGCTGCTGAGTGCGGCCCGTGATCAAGTGCCGCGCAAGAAACGGCGCAGTGCCTATCATCGGCCGACGACCAGTGCTTTGGACTTAGCCCGTATGCTGGCACTGAATAAACGCTATCGGGACCGGCTGCAAGAAATGAAGCACGACGACCAGGCTGGGCAAGCACCCGCTCAGGATCTGGCCGACGGTGATCTGGATTTTATTTTAGATCAGCTGAGCAATACTGATTTGCGGTTGCGGGACCATGGGGCATTTTACTTGATCAATGATTTGCTGCGGACCCATACCTTGACGGATGAACAGTTCCACTATGCCGTGGCAGTGGTGTCGTCACCGGAGTATCTGTTTGACCACATCATGGAGCCGGAAGCAGACGCTTTGTTTAAGCGCAGCTTTTCGGTGCTGGTGCTGGGGACACTGTTATTTGCCGACCGTACTGATTATCACACCCTGACCGAGGGAGAGGTGCTGGTCATTCTGCACCGGGTAGCGGCCTATGCCCTGCTGGAGCAGGATGGCCGCGGCTATATTGACGGAAAAGGCTGGGGCCATGCCTGGATCCATATTGGCAACGTGGTCGATGAGCTGGGTGAACGTAATCTGACCCGGGCGGACAAGATCTTTTTACTCAGTGCCGTGATGCTGGGCTACCAATCCGTGCGGGATGCCCTGGCTTACGGTGAAGATCAGCGACTAGCCTATTCGTTAAGTACGCTGGCCAACAAGGAGACCTTTTATGCCGATTATCTGCTCCTATTGTTAAAACAGTGGCAGGGACGGCTGATGACGATGCGGCCGCAGGAAAATGTTGCCTTCTGGAATCGCTGGTATAACCGGAACCGGTTATTGGAAGCAATGATATTGCGCAACGATTATCCGGATAGTATCATGAAGTTCTTAGGCGATATTGCCAATAATAATTTAGGCTGA
>SRR1151209_00216 hypothetical protein
ATGGATAACGCAGGACGCGACTGGCTGACGCCGCTCGCCCAAACGTGGCACGCCTATGAACGTGATCACCAATTAGCCACGCACCGGCAACTGATTGCCGCCCATTACCGGAGCGACATGCTGGCAATGATCGGCCGCCGCTACCGCCGGCCATTTCTGATCACCGCCGCGGGGGCAGCGGGGATGGCGGCGGTCTTGATGATCGTCGCTATTTTAGGCGGTGCGCCCTGGATCTGGTCCCTGATCATCGGCTTGCTGATCATTGCCGGGACGGTCAGTGCCACTGGGGTTTATTTAAGCAAACGCCCCCAGCTGCTGCGCAATACCCGCTTTCGCCGGACGATTCATCGCTTGAAACACACTGCCCATTTTTCCCGGCTCGCCCAGACTGACTGGGCTATTCATAATGAACAGCAGCACTTATTCAAGCAACCGCTCGTCATGGCCACGCTGCAAGCTTTGCCGGCCAACTTGCGTAATCAGCAGGCAGTGGCGGGGCTGTACGTCTTATTGTGGCGTCAGCAAGCGCCAACGCTGGGCCAAGCCATTGCCATGTACCAGCATGATCCGCGCCAAGTGGGGATGAGCCGGCGGGATATCCGCCAACTATTGTATCAAACCAAGGCGGCGGATGAGTCTCAAACACTCTAG
>SRR1151209_00217 Fe-S cluster assembly protein SufB
ATGACTGACGCAAAGACCAAAAACACGAAAAACAACGAGGACTTGCTGGATACAGTGCCCACGTTGGATGAAGACTATGATTACGGCTTTTCTGACGACGTTAAGCCGGTGTTCTCCACCGGTCGCGGGTTGACCGAAGATATTGTTCGGACCATCAGCAAAGAAAAGAACGAGCCTCAATGGATGCTGGATTTTCGCTTGAAAGCCTACAAAATCTACCGGCGGATGCCGATGCCGGATTTTGGTCCCGATTTGTCCAGCTTGGACTTAGACGACATGCTCTATTACCAAAAGGCGACGAATAAGAAATATCGCAATTGGGATGACGTGCCGGAAACGATCAAGGATACGTTTGAAAAATTAGGGGTCCCGGAAGCAGAACGCCGGTATTTGGCAGGTTCTGCGGCCCAGTACGAATCGGAAATGGTGTATCACAACATGAAAGACGAGTTTGAAAAACTCGGCATCGTCTTCATGGATACCGACTCGGCGCTGCAACAGTACCCGGAGATCTTTAAAAAGTATTTTGCCACACTGGTCAAACCCACGGACAACAAGTTTGCGGCGTTGAATTCTGCCGTCTGGTCCGGAGGCAGCTTTATCTACGTCCCGGCAGGAGTGAAGACGGACATTCCGATCCAGTCTTATTTCCGAATCAATACCGAGAATTCGGGGCAGTTCGAACGGACTCTGATCGTTGTTGAACCTGGGGCCAGTGTGAACTATGTCGAAGGCTGTACGGCCCCGAATTATTCCTCAGACAGCCTGCACGCCGCTGTGGTCGAAGTTTTTGTCAACGACGACGCATATTGCCGCTACACGACGATTCAGAACTGGTCCAAGAATGTCTATAGCTTGGAGACCAAACGCGCCCAGGCCATGAAGAATGCCACCATGGAGTGGGTCGATGGCAACCTGGGCAGCAAAACAACGATGAAGTACCCCTCTGTTTATCTGGACGGTGAGGGCGCTCGGGGGACGATGCTGAGTATCGCCGTTGCTGGGGCCGGCGTGGATCAGGATAACGGGGCCCGGATGATTCACCACGCCAAGAACACCTCCAGCTCCATTGTGTCGAAGTCCATCGCGAAAGATGGCGGCGCTGTGGACTACCGCGGTACCGTCCGCTTCGACCGGGACAGTGACGGTTCTTTTGCCCATGTCGAGTGTGATACCATTATTATGGATGAGAAATCCCGGTCCGATACCATTCCGTACAACACGATTTTGAACGGGAATGTCTCGATGGAACATGAGGCAAAAGTCTCGAAAATTTCCGAAGCTCAGCTGTATTACTTGATGAGCCGCGGAATTCCCGAGAACAAGGCCACTGAAATGATCATCATGGGCTTCGTTGAGCCGTTCACGAAGGAGTTGCCGATGGAGTATGCGGTGGAATTGAACCGGTTGATCAGTTATGAGATGGTAGGGTCAGTCGGGTAA
>SRR1151209_00218 nitrogen fixation protein NifU
ATGAATGAAGATCAATTACGCTTGCTGTACCGTCAGGTGATTTTAGATCACTCCCAGCATCCCCACCATCACGGTACGCTGGCTGACGGCAGCCATGAGAAAGAAATGGAAAATCCCACCTGTGGCGATGTGATCACGGTGCAGGTCAAGCTCAGTCCAGATGGTCAGCAAATCGCGGACATTGCCTTCAACGGCAGCGGCTGCACGATTTCCCAGGCCAGTGCCAGCATGATGACCGACGTGGTTCAGGGGAAGACGGTCCAGGAAGCGCGGGATGCTGTTTATCTGTTTTCCCAAATGATCACCGGTAAAGAAACCACGAAGGAAATGGACGACGTTTTGGGGGACGCCAGTCTCTTGGCCGGGGTGCGGGCCTTTCCCGCCCGAATCAAGTGTGCCACCTTGGCCTGGAAGGCCTTAGACCAAGCCCTGCCTGGTTTCCCAGAAAAGGAGTGA
>SRR1151209_00219 cysteine desulfurase
ATGGCCAAACTGTCGCCCATCAACAAAACTGATTTTCCGATGTGGCAAGGGGCCGACGCGGTTCCTGATGCGGTGTATTTAGACTCGGCTGCGACGGCGCAAAAGCCGCAGGCAGTGATCGATGCCCTAGTCCATTACTATACGCGGCAAAATGCCAATGTGCATCGCGGCGTCTATACTCTGGCGGAACAGGCCACAGAAGCATACGAAAATGCCCGCCAGACTGTGGCCGATTTTATCCATGCCGAAGATACCGCCAACATTATTTTTACCCGCGGTACGACGGAAAGCTTAAACTGGATCGCTCAAAGCTGGGGTGGTACCCACATTCAGGCCGGGGACGAGATTATTATTACGATCATGGAACATCACAGCAATCTGGTGCCATGGCAGCAGCTCGCCCTGCGTACCGGCGCCAAGCTGCGGTACGTGGATATTGATGATCAGGGCTTGCTGGACATGCCGGCCTATAGGGCCATGCTGTCCGCGAGAACCAAAATCGTCGCAGTGACCCAAGTGTCAAACGTGCTCGGCACGATCAATCCGATTCAAGAAATCGGCCAACTCGCCCACGCAGCAGGGGCCATTCTGGTGGTTGACGGGGCTCAAAGCGCCCCCCACATGCCGGTGGACGTTCAGGCCTTGGGAGCAGACTTTTTTGCCTTCTCCGGCCACAAAATGCTTGGGCCGACCGGGATCGGGGTACTGTATGGTAAAATGGCGCTGCTTGAAGCCATGCCGCCAATTGAGTTCGGCGGTGAAATGATCAGCAAGGTGGAGAAATTTCAGACCACCTGGGCTGATATTCCGTGGCGCTTTGAGGGCGGTACGCCCAATATTGCCGGCGCCATTGGCCTGGCAGCGGCGATCCGCTATCTGCAAGCCATCGGGTTAGACAAGATTCGCGATCATGAGCGCGCGTTAACGACCTATGCGTTAGACCAGCTCAAAGCCATTCCCGGCCTGACCATTTACGGCCCCCAAGATGCAGCCCGGCGCGGTGGGGTGATTGCCTTTACCCTGAATGGTGTGCATCCCCACGACTTGGCCACGGTGCTGGACACCCAACAAGTCGCCGTCCGGGCTGGCCACCACTGTGCCCAGCCGTTGATGCAGCGCTTAGGCGTGGTGGCTACCGCCCGGGCCAGTTTCTATCTGTATAATGGCCAAGCCGATGTCGATCGGCTGGTGGCCGCGGTGAACGAAGCAAAGGAGTTCTTCCAGCAATGA
>SRR1151209_00220 Fe-S cluster assembly protein SufD
ATGGCGTTCGGACCGAAGCAATTAGACGGGGCGGCGCTTGCAGCGGCTTATGCGGACCTGGACCATAGTGCATGGCTGACGGCCCAGCGACAAAGGGCCGCCGAGGCCTATTCAGAAGCGCCCTGGCCGGAGTTTGCCAAGGTCAGCTACCATGCTTGGCCGCTGTTTGGCACCGGCACCGCGGCAGGGGTGACCTATCCTGACGGGCTGCCGACATCGGCGGGAGTGATCGTGCGCTCGTTGCTGACGGCGACGGATGCTGATTTGGCGCCGTTCAAGGACTATTTGTTTAAACAAACCGGCCCGACAGATCGCCTGACGGCCTTCCATATCGCCCATCTCAACAGCGGCGTATTGATTCAGATACCGGATCACTTCCACAGCGATCAACCGGTGGTGTTGAATACCCGTTTGCTTGCCGGCCAAAATGCGCACCACCATGTCCTGGTCGTCGTCGGCAGCGACGCCCAGGTGACGATCGTCGATCGATACACCGGCGAAGACGGCGCAGCCAGTGCCGATTCCGTGGTGACCGAAATCGTGGTGGGAGAAAACAGCCAAGTGAACTTTGCTAATGTCGATGCATTCGGCAGCAACATCACGGCCTTCATCCGGCGGCACGCCACTGTTGCCGCCAACGGGGTCCTGAACTGGACGGCGGGCGTGCTGAACGACGGCAACATGCTGGCCGATACTAGTACCGATCTGGTTGGTACCGGCAGTACGGCCGACGTGAAAGTTGTCGCTCTGGCCACCGGTAAGCAGACCCAAGGGTTGAATACCCGCGTGACCAATATTGGCCGCCAGACCACAGCCAATATTTTGCAGCACGGGGTGATCTTGGAAAAGGCGGCTTTGATTTTCAACGGTATCGGCCACATTGTGAAAGGGGCCCGGGGCGCTGATGCCCAGCAAGAGAACCGTGTGCTGATGCTGTCCCGGGCGGCCCACGGCTACGCCAATCCCATTCTCTTGATTGATGAAAATGATGTGAAAGCCGGCCATGCTGCCTCAGTAGGCCGAGTAGATGCCAGTCAGATGTATTATTTGATGAGTCGCGGTCTGACCAAGGACGTGGCCCAGCGTTTGGTGATTCGCGGTTTTCTCGGCGCGGTCTTGACGGCAATCCCGTTGCCGACTGTGCAGCAGGAATTGATCGATACCATTGAAAGGAAGCTTATCCATGGCCAAACTGTCGCCCATCAACAAAACTGA
>SRR1151209_00221 Fe-S cluster assembly ATPase SufC
ATGGACACATTAGAAGTTAAAAACCTGCACGTGGCAGTGGATGACGAAGACGGCCATCAAGAAATTCTGAAGGGTGTCAACCTGACGATGCACACCGGTGAGATCCACGCAATCATGGGCCCTAATGGGACCGGTAAATCGACGCTTTCGGAGACCATTATGGGCAACCCGAAATATGAAGTCGGTGAGGGGGACATTCTCCTGAATGGGAAAAGCATTCTCGATTGGCCGGTGGATAAGCGCGCCCGCGCTGGATTGTTCTTAGCCATGCAGTACCCAGCAGAAATTGCCGGGGTAACCAATGCCGAGTTCATGCGGGCGGCAATCAATGCCCGGCGGGATGACGACCATCAGATCAGCGTCCGGGAATTCATCAAGAAACTGGATGATAAGATGGCCTTGCTGGACATGCCGGAAGAAATGGCCGAACGCTACTTGAACCAGGGATTTTCCGGGGGTGAAAAGAAGCGTAATGAGATTCTGCAATTATTAATGATCGAGCCGCCGTTTGCCATCCTTGATGAAATTGATTCTGGTTTGGATATTGATGCGATGAAGGTCGTCGCCAAAGGGGTCAACGCCATGCGCGGCCCGAATTTTGGCACACTCATTATTACCCACTATCAACGTCTGCTGAATTATATCGTGCCGGATGTGGTGCATATCATGATGGACGGCCGGATCGTGAAATCCGGGGACGCTGCCTTGGCAGAAACTCTGGAAAAGGAGGGCTACGTCGGTTTGCGGGACGAACTGGGGCTGGATGTGCCGTTGACAGACGATACCGATATCCCCTCTGGAAAGGGGGAGGCCTAA
>SRR1151209_00222 rod shape-determining protein RodA
ATGCAAACATTACAGCGCAAGAATAAATCTGAGGGGGACCGCATTGACTATGGCGTGATCTTCTCCGTGATGATGCTCGCGCTTGTCGGGCTGGTCTCGATTTATGTGGCAACGACCCATGATCCTGGCGGTGGCAGCGCGATGAAGATGGTGGGCGTTCAGGCCTTATGGTATGTCTTAGGCGCCATTGCCATCGTGGTCATCATGCAATTTGATTCGGAACAATTGTGGAAGATTGCGCCGTATGCCTATGCTGGCGGCCTGCTCTTGCTGCTGCTGGTCTTGCGGTTTTACAGTACGGCGTACTTTACTCAGACCGGCGCGAAGAGCTGGTTTGCAATCGGTCCATTGACTTTCCAGCCATCAGAATTGATGAAGCCGGCGTTTATCTTAATGCTGGCGATGGTGGTGTCGAAGCATAACGAAAAGTACGCGGTGCATCGGGTATGGAGCGACATGTTCCTGATTGCCAAAATGGTTTTGACCTTTTTACCCGTGGCTGTCCTGCTCAAATTGCAGAACGACTTTGGGACGATGATCGTGTTCTTGGCTATCGTTGGCGGGGTCATGCTGGTGTCGGGGATGACCTGGAAGATTCTGCTGCCGCTAATTGCCTTCGTGGTCGTAGTCGGCGGCGGCGCGGTTCTCCTGGTGACCCAGGATTGGGGGCGGGAGATTCTGCTGCACTTTGGCTTCCACCAATATCAGTTCAACCGCATCGATGCCTGGATGAATCCATCAGTGGATACGTCTTCCACCAGTTACCAGTTGTGGCAGTCGATGAAGGCCATCGGCAGCGGTCAAATGTTTGGCCGAGGCTTCAATAATTCCCAGGTTTACGTACCAGTCCGGGAATCAGATATGATCTTCAGTGTGATTGGTGAGAACTTTGGCTTTGCCGGCAGTTGCGCAGTGATCCTGCTGTACTTCCTGCTCATTTACCAAATGATCCAGGTCACCTTCGACACCAAAAACGAGTTTTATGCCTATGTTTCCACGGGCGTGATCATGATGATTGTGTTCCACGTTTTCGAAAACATTGGTATGAGCATCGGTTTGCTGCCGCTGACCGGGATTCCGCTGCCCTTTATTTCCCAAGGGGGGTCAGCGCTGCTGGGTAATATGATCGGCATCGGTTTTATCATGTCGATGCGGTTCCACTATACGAGCTATATGTTCGGCGGCGAAGAAGAGGATTTCTGA
>SRR1151209_00223 hypothetical protein
ATGAGTAGTCATAATAAGAAACAAAACATTCCGTTGGCCCTGGAGGAAATTCCGGATACGCCGAACACGTGGCGGTTGAAGACGGATCATGATGTGCTGGGCATGATCACCCAAGAGGATGATCATTACTTAGCCCGGTCCGGCGAGACGCCCGTCGGCGGCAAGTTTCACACTGCTGACGACGCGGTGGAGGCCTTGATCGCGGAATATAATCTACATCGGCACAACGGTTAA
>SRR1151209_00224 hypothetical protein
ATGCGGCGTATTTTGCTGGCTCTGATTCATTTTTATCAACGGTTTATCTCGCCTTTGACTCCGCCCAGCTGCCGTTACTATCCGACTTGTTCCAATTACATGCTGCAAGCGGTGCAAAAGTTCGGCGCGGTCCGGGGGTTCCTGATGGGCACCGCCCGGATTTTGCGCTGCAATCCGTTTGTGAAGGGCGGCTTTGATCCGGTGGGAGATCACTTTTCTCTCCGGCGTAATCCCCATCCGGAACAATACGAAGACGAACTGATTGCCCGTAAATTTCACCCGGAAGTATTTACGAAGAAAGCAGGTACCCATGAGTAG
>SRR1151209_00225 hypothetical protein
ATGTTGAAAACAGATAGTCACCATGCCCGGCGAGTGCTCAAGCATGTGCTGATCGTGCTGATCGTCGCATTCATCGCGTTATTGATTGGCGGGATGGCCGGGATGGCGCTGGGCGGTCAGAATCCGCTGCGCTTTTTTGACCCCGCTACCTGGCAACACGTCTTTTCTTTCTGGCAGTAG
>SRR1151209_00226 rod shape-determining protein MreB
TTGGCAAAGGACATCGGAATTGATTTGGGTACGGCGAACGTACTGATCAATGTAAAAGGAAAAGGCATTGTTTTGAATGAGCCTTCCGTCGTGGCGATTGACGCCCAGAGCGGTAAGGTCTTGGCCGTCGGCACGGAAGCTTATCAAATGGTCGGGCGGACGCCAGGAAATATCCGGGCGATTCGGCCGCTTAAAGAAGGCGTAATTGCTGACTTCAACATTACCGAGGCCATGCTTGCGTATTTCATTAATAAGTTGAACGTTAAGGGCTTCATGTCGAAACCAGTCATTATGATCTGTGCCCCCACGAATACGACGGACATTGAGCGCAAGGCGATCATTGAAGCCGCTGAAAAGACCGGCGGCGGCAAGGTTTATTTGGAACTCGAACCGAAAGTCGCGGCAGTCGGCGCAGGGATGGATATTTTCAAGCCCCAAGGAAATATGGTTGTCGATATCGGCGGCGGGACCAGCGATATTGCTGTGCTGTCCATGGGTGACGTGGTCACATCGCGTTCTTTGCGGCGGGCCGGCGATCGGTTGGACCAGGACATCGTGAACCATATCAAGAAGCAGCATAATCTGTTGATTGGTGAACATACTGCGGAGACGCTGAAGAAAGAAATCGGTTACGCCTTCGAGCCGCCGGCAGATAAGAGTATTGAAGTCCGGGGACGGGATTTGATGACCGGGCTGCCCCGGGAGGTTTCGGTGAATGCCCAAGAAATTACCGAGGCGATTACCCCGACGCTGAACGAAGTGATCGCGGCGACTAAGGAAGTCTTGAATCAGACACCGCCAGAATTGTCGGCCGATATCATTGATCGCGGCGTAATGCTCACCGGCGGCGGGGCGCTGCTGAAGAACATCGACCATTTGTTTGCCGATGCCTTGGATCTGCCTGTCGTAGTGGCGGATGATCCATTGGACTCGGTGGCTCTGGGCACGGGCATTTTACTCGACCACGTCACCGGTAAAAAGAAGCGGTAA
>SRR1151209_00227 membrane protein
ATGAACGGTTTCAAACTGCAAGCGGGGCTGACGATTGCCTCGCATCTTTTCTTCATCTTTCTGACCTTCCGCTCCTTTATCGCGCTGCGTTTCGACCAGATCTTGCAGAAAGATCAAGTCGGTCCGGCCCGGGTTTTCTTGATCCTGCTGGCCTGTGCCATTGGTTTTGGCGTCAGTTCATTCCTGTTAAGCATGATCAACCAGTTTTCCATAATCTTTAGCAAGTAG
>SRR1151209_00228 F0F1 ATP synthase subunit epsilon
GTGGCGGAAGATTTATCCCATGCAATTACCGTCAAGATCGTTACACCTGACGGGGTTGTCTATGACCACCATGCCCACCTGCTGATCGTCAATGCCATTGACGGTGAACTCGGAATCATGCGGGGGCATGAACCAATCATTGCACCGTTGAAAATCGCCGAAGTGCGGGTCCAACGGGTCGATGGCTCGGATCATGAAAACCACATCGCAGTGAATGGCGGCTTTATGGAGTTTTCGAATAATGTCGCCAGCATTGTTGCCGATTCTGCTGAACGGGAACGGAATATTGATTTGAGTCGGGCACAGCGCGCCAAGGAACGGGCCGAAAAGGCTATCGCTGAGGCGAACGCGAAGCACGATGTTGATTCAGTGCGTCGGGCCCAAGTGGCTTTGCAACGGGCGGTCAATCGGATTTACGTGAAACAACAGTAA
>SRR1151209_00229 F0F1 ATP synthase subunit beta
ATGAGTGAAGGTACAATCGTCCAAGTCATCGGCCCTGTTGTCGATGTTGCCTTTCCGCTGGATGGGTCATTGCCGGAAATCAACAATGCCCTGGAAGTGGAAAACAACAATAAGCAGACCGTTGTCCTGGAAGTCGCCCTGGAGCTCGGTGACGGTGTCATGCGGACTATCGCGATGGAAGACACTGGCGGTCTGCAGCGCGGTATGAGCGTTAAAGATACCGGCGGCCCCATTTCCGTACCCGTTGGTAAGGAGACACTGGGCCGGGTATTCAATGTCCTGGGTCATCCCATCGATGGCGGTACGCCGTTCCCGGCGGACTTCCGGCGGGATCCGATTCACCGTGAACCACCTAAGTATGATGAACTGAGCACGACTTCTGAAGTGCTTGAAACGGGGATCAAAGTAATCGACTTGCTTGCCCCCTATCTGCGAGGCGGGAAGGTTGGCCTCTTCGGCGGTGCCGGAGTTGGTAAAACGGTTTTGATTCAGGAATTGATCCACAACATTGCCGAAGAGCATAATGGTATTTCTGTCTTCACCGGGGTCGGCGAACGGACCCGGGAAGGGAACGACCTATACTTCGAAATGAAGGGCTCCGGTGTACTGGAGAAAACCGCCTTGGTCTTTGGTCAGATGAACGAGCCGCCTGGTGCCCGGATGCGGGTCGCCTTGACGGGGTTGACGCTGGCCGAATACTTCCGGGATGTTGAAGGGCAGGATGTGCTGCTCTTCATCGATAACATCTTCCGGTTTACCCAGGCCGGTTCTGAAGTTTCTGCCTTGCTGGGCCGGATGCCGTCCGCTGTTGGTTATCAGCCGACGCTGGCGACTGAAATGGGTCAGCTGCAGGAACGGATCACTTCGACCAAGAAGGGCTCCGTAACGTCAATTCAAGCCATTTATGTACCGGCCGATGACTATACTGACCCGGCGCCGGCCACGGCTTTTGCCCACTTGGACGCCACCACGAACCTGGAACGGCGTTTGACCGAGCAGGGGATTTATCCTGCTGTGGATCCGCTGGAGTCGTCTTCGTCTGCACTGGATCCGGAAATTGTCGGTGACGAGCACTATGCTGTAGCGACCGAAGTGCAGCATGTCCTCCAGCGTTATCGGGAATTGCAAGACATCATCTCCATTTTGGGGATGGATGAATTGTCCGATGACGAAAAGCTGATCGTTTCCCGGGCCCGGAAGATTCAATTCTTCTTGTCTCAGAACTTCTTTGTCGCAGAACAGTTCACCGGCGTGCCGGGAGCCTATGTTCCAGTCAAGGATACGGTTCGCGGTTTTAAGGAAATCTTGGACGGCAAGTTCGATGATTACCCTGAAGAAGCTTTCCGGTCTGTCGGCCCAATTGAAGATGTGCCGAAGAAGGCAGCCAAGCTTGGCTTCAAGCCTAAGCAGCCGGCTGCTGACCAGCCAGCTGCGCAAGCCGCTAAAGCATAG
>SRR1151209_00230 F0F1 ATP synthase subunit gamma
ATGGCAGGTTCCTCAATTGACATCAAACGACGGATCGCCTCCACCAAGAGCACTCGCCAGATCACGAAGGCCATGCAAATGGTCTCCGGGGCGAAACTGAACCGAATTCAGCAGCGCGCTGCCGATTATCAGATTTACGCGGACAAGGTCCGCTCGATCGTGACCCATTTAGCGAATGCTCAATTGTTAGCCCAGGCCGGGGAGGTGGGGAATTCCCCCACGAACCCAATGGCCTCTGAACTTGGGATCACGTTGAATGATCTGATGGTTCAGCGCCCGGTCAAGAAGACTGGTTATCTAGTGATCACCTCTGACCGGGGGTTGGTGGGCGGTTATAACAGCACGATCCTCAAGGGGATGCTGGATATGATTCGCCAAGACCACGAAACCGACTACGCCATTATGGCGGTCGGCGGTGTAGGTGCTGATTTCTTCAAAACCAATAATATGAATCTGATCTACGAATACCGGGGCATCAGTGATATCCCGACATTCGAAGAAATCCGTGAGATTCTTTCCACCGCGGTCACCATGTACGACAATGGGGTGTTTGATGAATTGTATGTGTGCTATAACCACCATATTAATTCACTGAGCAGCGCGTTCCGGGTGGAGAAAATGCTGCCGATCAGTGATATTGAGGCGGAAGAGGATGACACAGAAGCGCCGGTGACGACTGAATATATCGCCGATCCTTCTTTGCCAGTGGTACTCAGTGCCGTTTTGCCGCAGTTTGCCGAAAGCTTGATTTTTGGCGCGATTTTGGATGCCAAGACGGCAGAACATGCCTCGTCCATGACCGCCATGAAGTCGGCGTCCGACAACGCGGATGATTTGATCAATAATTTAACTACCCAATTAAATCGTGCCCGACAGGCACAAATCACAACGGAAATCACCGAAATTGTCGGTGGTGCCGCTGCGCTAGAATAA
>SRR1151209_00231 F0F1 ATP synthase subunit alpha
ATGAGCATCAAAGCTGAGGAAATCAGTGCTCTGATCAAAAAACAACTAGAGAGTTACAAAGATGATTTACAAGTCGATGAAGTGGGTACTGTCACTTATGTCGGCGATGGGATCGCCCGTGCGACCGGTTTGGAAAACGCCATGAGTAACGAATTGCTGACATTCAGCAACGGTTCCTATGGTGTCGCCCAAAACTTGGAAACGAATGACGTCGGGATCATTATTCTTGGCGAATTCGATGACATTCGGGAAGGTGACCAGGTGAAACGGACTGGTCGAATCATGGAAGTCCCCGTTGGGGATGCGATGATCGGCCGGGTCGTGAACCCGCTAGGTCAGCCCATCGACGGTCTGGGTGCCATTAAAACGGACAAGACCCGGCCGATTGAATCGCCAGCCCCAGGGGTTATGCAGCGGCAATCCGTTACTGAACCTTTGCAGACTGGGCTTAAAGCCATTGATGCCCTGGTTCCGATTGGCCGTGGTCAGCGGGAGTTGATTATTGGTGACCGGAAGACCGGGAAGACGTCAATTGCTATTGATACGATTTTGAACCAAAAAGGTCAAAACATGATCTGTATTTATGTGGCGATCGGGCAAAAGGAATCAACTGTCCGGGCTCAGGTGGAAACTCTGCGGCGTTTTGGCGCCTTGGATTATACCATCGTCGTCACCGCCGGTCCGTCTGAACCGGCACCGATGCTGTATATCGCACCATATGCCGGCTCGGCTATGGGTGAGGAATTCATGTATAACGGCAAACACGTGCTCATCGTGTTTGATGACCTGTCCAAGCAGGCAGTCGCCTACCGTGAACTTTCCTTGCTGCTTCGTCGTCCGCCTGGTCGTGAAGCCTATCCTGGGGATATCTTCTACCTGCATTCCCGTTTGCTGGAACGCTCGGCGAAGCTCAGTGACAAGTTAGGCGGCGGTTCCATGACTGCCTTGCCGATCATTGAGACCCAGGCTGGGGACATTTCTGCATATATTCCCACCAACGTGATTTCCATCACCGATGGTCAGATCTTCCTGGAGAGCGACTTGTTCTTCTCCGGGACGCGTCCAGCCATTGATGCCGGGGCTTCTGTGTCTCGGGTTGGCGGGGCTGCCCAGATCAAGGCAATGAAGAAAGTCGCTGGGACTCTGCGGACGGACTTGGCTTCCTACCGGGAACTGGAATCCTTCACGCAGTTCGGTTCTGATTTGGATGCGGCTACGCAGGCCAAACTGAATCGGGGCCGACGGACCGTGGAAGTCCTCAAGCAGGGCTTGCACAAACCGTTAGCGGTTGAAAAACAGGTCGTTATTTTGTACGCCCTGGTTCATGGGTATTTGGATCCGGTGCCCGTTGATGATATTCTGCGGTTCGAATCCGAGCTCTTTGCCTTCTTCGATGGTACCCACGCGGATATCTTGAAGACCATCAAAGAGACCGGTGACTTGCCTAAGGATGATTCTTTGGATAAGGCTGTGAAAGACTTTGCAGATGGGTTCTCGACTCAGAAGCAAACGCCGGATCAAGAAGCTGCTGCCGTTACCGGTGGCAGTCAGGACAACCAGACACCCAGTCAAGCCAAGTAG
>SRR1151209_00232 F0F1 ATP synthase subunit delta
ATGGCCAAGCTTGATCGCGGCACGGTTGGTACGCGTTACGCCACTGCCTTGTTGGCATTGGCGAAAGAGCGTGGTAATGCAGCGGAGACGTTAGATGAATTACGGGAACTGGCACAAGTCTTCGCCGCTCAACCGGATTTGGGTCAAATTCTGACAGATAATCGGCTTTCATTACAAGAAAAACAGCCGATTTTGGCTGAGCTGAAGAAGCCATTTTCAGAGCAAACGCAAACCTTGCTGCAAATGGTCTATGACTATAAGCGGATGGTGGACATGCCTGATATTGTGAAGGCCTATGAGCACTTATATGATGCGGATCAGCACATCATTGAAGCGCACGTCACCAGCGTAGTGCCGTTGACTGCGGACCAGCAGACGGCGTTGAAACAGGCGCTTGCCGCCCGGTTCGGCGCTAAAACAGTATATTTGCACCTGCACCAGGATCCGGCCTTGATCGGCGGGGTGGTTGTGCGGGTACATGATACGGTGCTGGATGGCAGCATGGCCCGGCGGCTGGCCGACATCAGGGCGGCTTTAACAGCAGCATCGTAA
>SRR1151209_00233 F0F1 ATP synthase subunit B
TTGGCTAGCGAAGTGATTTTAGCCAGCAAAGCCACCGGCGGTTTGTATGTCTTCGACTTGCTGTTTTACCTCGTTCTCTTCATGATCTTGATGTGGGCGGTTGGGCATTTTGCCTGGGGCCCGGTCAATAAAATGATGGAAACCCGGCGCAACAAGGTCAATGATGATATTGATCACGCCCAGAGCGCCCGCGAAACTGCGGAAGCCCAGCAGAAGCAAACCGCTGCCGCGTTGGCTGACTCGAAGAATCAGGCCGTTGCGATCATTGCCAAAGCCCAACAACAAGGTTCTGCGCAACAGGATCAAATTGTGGCCGAGGCGCATTCCCAAGCCGATGTGTTGCGTAAACAGGCGGAAAAGGATGCGGCTCAAGCCAAGCAGGATGCTTTGGCTCAGGCGAAGGATGATATCGCCGATCTGTCGGTGCAAATTGCCAGCAAGTTGATCAACAAAGAGTTGGATGCCAGTGCCCACCAACAATTGATCGATACTTACATTAAAGGATTGAATACCCATGGCCAAGCTTGA
>SRR1151209_00234 F0F1 ATP synthase subunit C
ATGCAATATCTTGCCGCTTCTCTCGCCGCGGGCTTAGCTGCCCTGGCTGCTTCATTTGGTAACGGGTTGGTTATTTCCCGGACGGTCGAGAGTATCTCTCGTCAGCCGGAAGTCGCTGGTACGTTACGTACTCTGATGTTCATCGGGGTTGGCTTGATCGAAGCCGTGCCGATTCTTTCCGTCGCCGTGGCTTTCGTTATCCTGTTTCTGTAA
>SRR1151209_00235 F0F1 ATP synthase subunit A
GTGAACGAGAAATATCCGATCGTGGAATTTATGGGCATGCGGATGAACTTGGCCAATGATTTATCCGCTCTTGTTGCAGCCGTATTAGTTTTTGTATTGGCTTATTGGTTTGCTCGCAAGCCCCAATTCCGACCCACAAAGAAGCAGAACATGCTGGAATGGATGATCGATTTCACTGATGGTATCGTACATAGTGCGATGCCTGGGGCAACCGGTGAGCCATTCCGTTTATTTGCCTTTGTGCTGTTCTTGTTCATTTGGATGTCTAACCAATTAGGCCTCGCCATCGAAGTAAATGTCGGTGGGACGACGTGGATCAAGTCGCCGACGAGTGACCCCATGGTGACCATGTCTTTGGCATTCATGGCCTTGTTGCTGACGCACTATTTCTCGGTGCGCAAGTTTGGCTTCGGCGGGTATTTGTACAACTATACCCGGCCGATGGTAATGCTTTTGCCAATCAATATATTGGAGGAGTTCACGAACTTCTTAACGTTGGCCCTCCGGCTTTACGGCAATATCTTTGCCGGTGAAGTATTACTAACATTATTGGGCTCTGTTGCCCAGAGCTTCGGTGTTGTGAGCGTTGTTCTGGCTGCACCGTTAGAGCTCATCTGGCAAGGCTTCTCCGTGTTCATTGGATCTATTCAGGCATACGTGTTCGTTACCCTGGCTATGGTCTATATGTCACGGAAATTGGAAACAGAATAA
>SRR1151209_00236 uracil phosphoribosyltransferase
TTGAGCAAGTTTACTGTACTTAATCACCCGTTGATTCAGCACAAGCTGACGATCATTCGGGACAAGCACACCGGCACCAAGGAGTTTCGCGAAGTAGCCAACGAAATCGCGGAATTAATGGTGTACGAAATCACCCGCGATCTGCCGCTGGAGGACGTTGAAATCGAAACGCCCATGGGTAAGACAATCCAAAAACAGTTATCCGGCAAGAAGCTCGCGGTGATTCCCATCTTGCGGGCCGGGCTGGGCATGGTGGACGGCGTTTTGGAACTGATCCCGGCAGCTAAAGTCGGCCATATCGGCATGTACCGGGACGAGAAGACCCTGAAACCGCACGAATATTTCGTGAAGATGCCTGAAGATATCGGTCAGCGGGAACTCTTCATCGTCGACCCGATGCTGGCTACCGGCGGCTCGGCCAATATGGCGATTGACGCGCTGAAGAAGCGCGGCGCGACCCATATGCGTTTAGTTGTTCTGGTGGCGGCTCCCGAGGGTGTGAAGGCAGTTCAAGCGGCCCATCCAGACGTTGACATTTATGCCGCCGCTTTGGATGATCATCTGAACCAGGACGGGTACATCGTACCGGGTCTGGGCGATGCCGGAGATCGGCTTTTCGGTACAAAGTAA
>SRR1151209_00237 serine hydroxymethyltransferase
ATGACCACACCCGCCTATGAAAATGAAGACCGCGCCCTCTGGGCTGCCATTCACCAAGAAGAAGACCGGCAGCAGCACAACATCGAACTGATTGCGTCGGAAAATATCGTGTCCCAGGGTGTTCGCGCAGCCCAAGGCTCAGTCTTGACCAACAAGTATGCCGAAGGATATCCCGGCCACCGCTATTACGGCGGTTGTGAGTATATCGACATTGCGGAGAACTTGGCCATCGACCGGGCGAAGGAACTTTTCCATGCCGAATATGCCAATGTCCAGCCCCATTCCGGTTCCCAAGCCAATGAAGCGGCTTATCGGGCATTTTTGCATCCCGGCGACAAAGTCCTGGGTATGGACCTGACTGCCGGCGGTCATTTGACCCATGGGTCGCCAGTGAATTTTTCGGGGAAGACGTATACTTTCCACAGTTATGGGGTCGATCCCGTGACGGAGCGGATCGACTATGAGGCGGTCCGGGCATTGGCCGAAGAGATCCACCCGCGGATGATCGTGGCGGGCGCCTCAGCGTATTCCCGGACGATCGACTTTGCTAAATTCCGAGAGATTGCTGATGCAGTTGGTGCGTATTTGATGGTCGACATGGCCCACATTGCGGGGCTCGTGGCGACTGGCGCGCACCCCAGTCCAGTACCCTATGCGGACGTCGTGACGACGACGACCCATAAGACTCTGCGCGGCCCCCGGGGCGGCCTGATTTTAGCAAAAGCCGACTATGGCCGGGCCATCAACTCGGCGGTCTTCCCGGGTACCCAGGGCGGTCCGCTGGAGCACGTGATCGCCGCTAAAGCCATTGCCTTCCACGAAGCGATGCAGCCGGAATTCAAGGCGTATATTGCTCAGGTAATCAAGAACACTGCTGTCATGGCGGACTACTGCAACGCCCAACCGGGACTGCGAGTTATTTCCGGTGGTACGGATAACCACTTGTTCCTGCTGGATGTGACCGGCATGGGTGTGACGGGGCGGGAAGTACAAGACTTGTGCGACAGTATTGCCATTACCCTGAATAAGAACACCATTCCAGGCGAAAAGAATGGTCCGTTCAAGACCAGCGGAGTACGGATCGGTGCCGCGGCGATCACCAGCCGCGGGTTCAAGGAACAGGAATCGCTGCAAGTGGCCAAATGGATCGTCCAGGCGATCCAGCAGCGGCATGATCAAGCGGCTTTGGCCGATATCCGCCAGCAAGTCTATGCGTTGACGGATCAATTACCAATTACCCGGTAA
>SRR1151209_00238 translation factor Sua5
TTGGAAACATTACGTTTGAAGCCGGATCAAGTGGCCCAAGCGGCGGCGTTTATCAAAGCCGGCCAGCTGGTCGCTTTCCCCACCGAAACAGTGTATGGCCTAGGCGCCGACGCTACCAATCCGACCGCGGTGAAGCAGGTTTACGCTGCCAAGGGGCGGCCCAGCGACAATCCGCTGATCGTCACGGTCTCCGGGCCGGAGCAGGTCGCCCAATACGCGGCAGGGATCACCCCCAAGGTGCAGGCCTTGTTTGACCGGTTCTGGCCGGGTCCGCTGACCCTGGTACTGCCGGTGAAACCGGGCACACTGCCGAAGGAAGTCACTGGCGGTCTGCGCACGGCGGCTTTTCGCAACCCGGCAGATAAACTGACCCGGGAATTGATTGAACAGGCGGGAGTCCCCATGGTCGGTCCCAGCGCCAATACCTCGGGCAAACCAAGTCCCACCACTGCCGACCACGTACTCCACGACTTAACCGGTAAAATCGCTGCCGTGCTGGACGACGGCCAGACTAAAGTCGGTGTGGAATCCACGATCGTCGATATGTCCGTAGTCCCGCCGGTTATCTTGCGCCCCGGCGCAGTGTCCATCCATGACTTGGAACCGATCATTGGCAAAGTTTTGATCAACAGCCATAAGGTCGGGGCCAATGAAGTACCGAAAGCCCCAGGGATGAAGTACAAACACTACGCGCCCAATGCCCAGGTCGTCATTGTTCGGGATCCGGCAGACTTTGCCAAAGCCATTGACTGGGCTGAAGGCAAGGGCCCTGTTGGTTTGCTGGCGACTGATGCGGTTTTGGAAAAGCAGGACGCGGTCCGTTTCAAGTCCCAATATTCACTGGGGGACGATGTGGACAGTGCGACGCACCGCCTATTTGCCGGATTGCGCTACTTTGATCTGAATCCGGAGATCAAGATCATTTTAGCCCAGGGCTTCACCCCCGATGGCTTAGGCTTAGCCTATATGAATCGGTTGGAGAAGGCCGCAGGACTGCAGTACTTTGATTGA
>SRR1151209_00239 N5-glutamine S-adenosyl-L-methionine-dependent methyltransferase
ATGTCGGCGCCTGAGACGTATAACACCTGGCTGCAGACCCTGCATCAGCAGTTAACCGCCCAGGGGCTGGATCCAGATGGTGCCGAGTACGTCTTAACGACTCGGCAGGGCTGGACAAACACGGATCTGCTCCTGCATCTGCGGACAGTTATCCCGGCTGATTTGCAGCAGCAGCTGGTCAGTGACGCCAAACGCTTGCTGGCGGCGGAGCCGGCGCAGTATATCGTTGGGCAGGCCTGGTTTTATGGCCTGCCGCTGCAGGTTGCGCCCGGGGTACTGATTCCTCGTCCAGAGACCGAAGAGTTGGTGGCCTGGCTGCTGGCCTCATTGCCAGCAGATCGGCCAGTGTCTGTTCTGGATATTGGGACCGGGTCCGGCGCCATTGCCATCGCGGTGGCCCATGAACGGCCCCGGTGGTCAGTGACCGCCACCGATATTTCGCCCCGAGCCTTGGAAGTGGCGACGGCGAATGCCCAGCGTTTGGTGCCCGGGCGAATTCGGTTCATCCAGGGTGACCTGTTTAGGCCAGTGGCTCAGGATCGCTTCACGGCCATTATCAGCAATCCGCCCTACATTGCTTGGGGCGAGGCAGCCGTGATGGATCAGTCAGTGAAGCAGTACGAGCCGAGTACGGCGCTGTTCGCGCCGGACAATGGGCATGCCCTCTATGCCCAGTTGATTGACCAGGCTCCGGACCATTTAGCCGCGGGCGGCCAGCTCTTTTTAGAGCATGGCTATCACCAGCGACCGGCGCTCGCCGCGCTGTTGGCCCGTCAACCTGGGCTGGTCCCGGAATTCAGAGCCGATATGGCCGGCCATCCCCGGATGGTGCGGGCGGTGTATCGGCCGCAAGTTTGA
>SRR1151209_00240 peptide chain release factor 1
ATGGATAAAATCATTGCCCAGCTCGAAGGCGTCTTGCAACGTTACGACGAGTTGGAAGAAATGATGGCTGATCCAGAAGTGATCAACGATACGCAACGCTATCTGCAGGTGACCAAAGAAGAGGGCAGTCTGCGGGAAGTGGTGCAGAAATACAAGCATTATAAACAGGTCCAGCATGACATCAAGGAAAGTGAAGAGGTTCTCTCAGATTCCGATGATGCCGAGTTGGAAGAATTAGCTAAGGAAGACTTGGCTAATCTGAAGGCAGAAAAGGAACAGTTGGACCACGAGATCTTGGTATTGATGCTGCCTAAGGACCCTAATGATGACAAGAACATCATCATGGAGATCCGCGGGGCGGCTGGCGGAGACGAAGCCAGTCTGTTTGCGGCGGATTTGCTGTCCATGTATCAGAAATACGCCGAGCGCCAGGGCTGGACGTTTGAAATTATCGATGAAAACCGCACGGATGTCGGCGGCTTCAAGGAAGTTGCGGTGATGATCACCGGGACGCAGGTATATTCCAAACTAAAGTATGAAAACGGCGCGCACCGGGTGCAGCGGGTGCCGGTGACGGAATCCGCTGGCCGGGTGCATACCTCAACGGCCACTGTCGCAGTCATGCCGGAATACGATGACATTGACTTCAAGCTGGATCCCAAGGATATTCGGGTAGACGTGTACCGTTCCTCCGGAGCTGGCGGCCAGCATATCAACAAGACGTCTTCAGCGGTGCGGATGACGCATATTCCCACTGGCATCGTCGTGGCCATGCAGGATCAACGGTCCCAGCAGCAGAACCGGGAACGGGCAATGCAGATCCTGCGTACTCGGGTTTATGATTTCTATGAAACCGAAAACCGAAGCAAGTACGATGAAAAGCGGAAGAGTGCGGTGGGGACGGGTGACCGGTCCGAACGGATCCGCACGTACAACTATCCGCAAAACCGAGTGACTGACCACCGGATCGGTTTGACGCTGAACAAGCTGGACCGGATCATGAACGGTGATCTTGGCGAGATCATTGATGCCTTGATCGTCCATGACCAGACCGACAAACTGGAGCACTTGCAGGATGTCGGCGCCTGA
>SRR1151209_00241 thymidine kinase
TTGGCCCAATTATTTTTCCGTTATGGTGCCATGAATAGCGGCAAGTCCATCGAAATTTTGAAGGTGGCCCACAATTATGAAGAGCAGAATAAGCCGGTGGTGCTGATGACGAGCCATCTGGACACGCGCAGCGGCGAGGGCGTCATCGCCAGCCGGATTGGGCTGCATCGGCCCGCACTGCCGATCCTGGAGGATACCGACATTTTTGCCATTACGGACGCCCAGCCGATCAAACCGGCCTGTATCCTGATCGATGAAGCCCAGTTTCTGAAAAAGGCGCAGGTGCTGCAAGCATGCAAGATCGTGGATAATCTGGGTATTCCGGTGATGACCTTCGGCTTGAAGAACGACTTTCGCAATGAATTGTTCGAAGGCTCCAAGTATTTACTGCTGTATGCCGACAAGATCGAAGAAATGAAGACCATTTGCTGGTTCTGCCAGCATAAGGCCACAATGAATCTGCGGGTGCACGATAATCGGCCCGTTTACGAGGGTGAACAAATTATGATTGGCGGCAACGAATCTTATTATCCAGTGTGCCGGTATCATTATTTCCACCCTGATTTAGCTAAAATAGAAGGGAAAGAAGAAATCGATGGATAA
>SRR1151209_00242 UDP-N-acetylmuramyl peptide synthase
ATGAGCATCCGGGACAAATTCGCAATCACAGTAGGGAAAAGTGCCTATTGGTTCTTACACACCTTTCGCAACGGCGGCAGTTCATTCCCTGGTCAACTGGTGGAGCGGATCGCCCCCAACGCCCTGGCCGCACTGGGCAAAGATTACGATACGATTATTATCACGGGGACCAATGGGAAAACACTAACCACCGCCTTGACGGTGAAAGCCCTGCGTCAAAAATACGACCAGGTCCTGACCAACCCCACCGGCTCCAACATGTTCCAGGGCATCATGACGGTATTCATGGCCAATTCCCGCCGGAAAGGCGAAAAGGGGCTGGCGGTACTGGAAGTGGACGAAGCCAACGTCGCTCACGTCGCCGAACAGCTGCACCCGAAGATGTTTGTCCTAACCAATATTTTTCGGGACCAGATGGACCGCTACGGTGAGATTTATACCACCTATGAGAAAATTTTGGCCGGCGTGAAGTTATGTCCCGAGGCCACGATTGTTGCTAATGGGGATGCTCCAATTTTTAATTCAAAAGACTTGCCCAACCCCAAGGTCTACTACGGCTTCAACCTGCCGGACGAGGGCGACACCCGGGCCGATGTGAATACCGACGGCGTGCTGTGTCCGGTGTGCGATCACATTCTGCATTATCACTTCAATACCTATGCCAATTTAGGTAATTATTTCTGCCCCAATTGCGGTTTCCACCGACCCGCGTTGAAGTATACTGTCAACAGTGTTGCCACCCTCCTGCCGACCCGGTCCACCTTTGACCTGGATGGTCACCAGGCGTCGATCAATATCGGCGGCTTGTACAATATTTACAACACCTTGGCGGCTTATACCGTTGCCCGGGAATTCGGCGTCACCGGGGATCAGGTCGTCCAGGCCCTCTCCGGCGATGAGACTGTCTTTGGCCGCCAGGAAGTGATCAATGTGGATGGTAAAAAAGTGACTATTATTTTGGTCAAAAATCCGGTGGGCCTGAACCAGGTCCTGACCATGATCCACAATGATCCCCAACCTTATTCGCTGGCCGTCCTGCTGAATTCCAACTACGCGGATGGGATCGATACCAGCTGGATCTGGGACGGGCGGTTTGAGGACTTGGATTATGCCGCCATGCCGGCAGTGATTGCCGGCGGCCACCGGTATAAGGATATTGCCTTGCGGCTCAAGGTCGCCGGCGTCGCCGACGATCATCTGCAGACCGCGGAAAACGTCACCGACGCAATTCCGCTGATCCAGCAAATCCCCAATGACCGGATTTATGTTTTGGCTACGTACACCGCGATGCTGGAGCTGCGCAAAGCCCTGGCCGACAAAAACTACGTCAGTCAGCAACTGGTTAATCATTGA
>SRR1151209_00243 serine hydrolase
ATGAGGAAATCGGAAAAACAGATTCAACGGTTAGTGACAGCCCGTGTCGTGCCTGGTGTGTCTTATGCGTATGTTCATTCGTTCAGTACAGACACCCGCGTCTTAGGCGATCTCGTTTGGTACCCCCAGACAACCCCGCTGGGCCCCAATGCGCAATATGACCTGGCGTCGCTGACGAAAGTCGTGGGCACCCTGACAGTATTTTTGCAGGCAGTGGCGGAGGGCCGGTTAACACCAGATACACCTGTGGCGGACTTTTTACCCACTGTGCAGGATCAGCGGGTCACGTTTCGTCATTTGCTCACCCACACGTCCGGGATCGCCGGCTATATTCCGCACCGTAATGCCCTGCCGGCACCGCAGTTAAAAGAGGCATTGCTCCGGTTGCCGGTGACTGATGCTTTTGCCCAGAAGCCGGTATACAGCGACACTAATCTGCTCTTCGTCGGGTTCGTGCTGGAGCAGCTTTACGGTGCGCCGATTCATGATCTGATCACCAACCGGGTGCTGCGTCCCTTGGGTTTGAGCGGGGCCGCCTTTCATCCGGCACGAGCAGTTCCGACGCTCTATAATGCTGCCGCCGGCACCAATTTCGCCGGTGTTGTCCATGACCCGAAGAGTCGGATACTGGGCGACCACAGCGGTTCAGCGGGATTGTTCAGCGACTTGCCGAGTTTGGTGCGCTTCGTGCAGTGGTACTTGGGCCAATGGGCGCCGGTGCCGGCGCCGCTGGATCAATCAGTTTTGTTGCCGTTGTGGCAGGACTGGGCCCCCCATCACGGTCAGCGGTCCCTTGGCTGGGATCTGCGGACGACCCCGGCCGGCACGCCGGTGCTGTACCATACCGGTTTTACTGGGACCTTCATGGCCCTGGACCGGAAGCATCAAGAGGGGCTGATCGTATTGACTAATCGGATTTATCCCAATGGGCAAAACGACCGCTTCTTGGCAGATCGGGAGATCATTCTCAATACGTGGCTGGCGGAATGCGATCGCCGGTAG
>SRR1151209_00244 ring-cleavage extradiol dioxygenase
ATGTCCGGTTATATTATCGCAGATGAGACCCGCATTCGGTATGTTGCCCTGAAGGTCAAGGATCTACAGGCCATGGTGGACTTTTATACGCAAATCGCGGGATTGGCTTTATTAAAACGTTCGGAAGAAGTGGCCTATTTAGGCACCCGGCAAAACCAGGAAGTGCTGGTGACCCTGCACAAGATTGCCGGGCACACGCCGAAGGCCCCCACAGCTGGCTTGGAGCACATGGCCATCCTGCTGCCGGATCGCAATACCCTGGGTTCTGCTTTGCAGCATATGGTCGATAACGGTATTGCCATTGACGGGGTGTTTGAAAACTCCTATTCGCAAACGTTCATTATTCATGATCCCGAGGGGAATGGTGTAGAATTTGCCGACGACAAATCAGCGTCGGAGTGGCGCACGCCTAATGCCATTGACTGGCACAACGAGCGGACCGAGACGATCGCCCAAGATGTGTTGTTGAAACACCAGGGAGATAAGTATGCCGCCGCCCCGGCAGGAATTTCCATCGGCCATGTCCAGCTGCGGGTGAACAACTTAGCGGATACGGCGAAGTTCTATGAAGCAGGGCTTGGCTTTTCAGTGAATAACGATGCGGATCCCAAGCAGCTCTTTCTGGCGGCGGGGGATTATCACCACCACATTGGCATTAATTTGACGAACGACGAGCACTTGGCTAAGCCGGTGTTTGATGAATACGGCTTGGATTATGTCAATTTGATCCTGCCTAACGAGTCGGCCATGGATCTGCTCCGGACGAATTTGGACGCCCAGGGGTTCAAGGACTACGACTACAACAGCCAGTTCCATTATTTACAAGTCACAGATCCTAACGGTATTAACCTCTGGTTTGCCATCGCATGA
>SRR1151209_00245 multidrug ABC transporter ATP-binding and permease protein
ATGAGTGATAATAAATCGAGTCGGCGCCCAAGCGGCGGCGGTCCCCGCGGACCAATGGGCGGGATGGCCGGCGTTAAGCAGAAGCCGAAGAACTTCTGGGGCACCACCCGGCGGTTAATGGGCTACATGAAACCCCATGCTGTAGCTTTCAGTGCCGTGATGATCTTGGCCATTGTCTCCCAAGTCTTCCAGATTCGGACGCCAAAGATCCTTGGGGAAGCGACGACCGAAATCTTCAAGGGTGTGATGAAGGGGACGGCAGAACAAAAGGCGGGGATCAATATCGCCAACTTCCCCATCGACTTTGGCAAGATTCAGCAGATCATCATTACCGTGATCCTGATGTATCTGGCGTCTGCCCTGTTCAGCTTCCTGCAGCAGTTCATTATGACTCAGGTCTCCCAGGATACCGTTTATCGGCTGCGTCGGGACTTGAAGGATAAGATGGCCCGGGTGCCGGTCCAGTATTACGATACCCATCCTAACGGGGACATTATGTCTCGGGCGATCAACGATATGGATAATATCGCCGGCACCTTGCAGCAAAACATCACTCAGGCCATCACCAGTACGGTGATGTTCATTGGGACACTGTGGATGATGATTACGATCAGCTGGACGTTGACGGGGATCGCTCTGTTGACCATTCCCCTGAGTTTGATCGTCGTCGGCATTGTCGCGCCAAAGTCCCAGAAGTTCTTTGCTGCCCAGCAGAAGTCGTTGGGGTTATTGAACGACCAGATTGAAGAAAATTACAGCGGCCACGTGGTGAACAAATCTTTCAACCATGAAGCCGAAAGTATTGTCCAGTTCGAGAAAGAAAACTCTAAGCTGTACAATGCCTCCTGGAAAGCCCAAATGATTTCCGGGATCATTATGCCGTTGATGAACTTCGTCAATAACCTGGGCTACGTGTTTATCGCCATCTTCGGCGGGATCCGTGTTGCCAACGGAGAAGTCAGCTTAGGGGATGTGCAGGCCTTTCTGCAATATACCCAGCAGTTCTCCCAGCCGATTTCGCAACTGGCCAACCTCGCCAACACGATTCAATCCACGATCGCTTCGGCGGAACGGATCTTCGAAGTGTTGGATGAACCGGAAATGCAGGATCAGCCGTCTGGCGTGGCCCCGATTCCCGATGACAAGCGCAAGATTGCGCTGGAACACGTCCAATTCGGTTATGTCGGCAAGCCGCAATTGATGAGCGACTTCAACCTGAACGTCTATCCGGGACAGATGATTGCCATCGTGGGCCCCACCGGCGCTGGGAAGACGACTATCATTAACTTGCTGGAACGTTTCTACGACATCAATGGCGGGTCGATCCGCTTAGCCGGGACCGATACTCGGGATATCAAGCGAGAAGCCCTGCGCGCTCACTTTGCGATGGTCTTGCAGGACACGTGGCTGTTTACCGGGACCATTATGGACAACCTGCGGTACGGCCGGGAAGATGCGACGGATGAACAGATCTTCGCTTCTGCCAAAGCAGCCCATGCGGACAGCTTTATCCGGCAGCTGCCCAAGGGCTACGACACGATCCTGAATGAAGAGGCCAGCAATATTTCCCAGGGTCAGCGGCAATTGTTGACGATTGCTCGGGCGTTTGTGGCCGATCCGGACATTCTGATTCTGGATGAAGCGACCAGTTCCGTGGATACCCGGACAGAATTGCACATTCAGCATGCGATGGAGCGTCTGCTGAAAGGTCGGACCAGCTTCGTGGTGGCTCACCGGCTGTCCACGATTCAAGACGCTGACAACATCATTGTCATGAACCACGGGAGCGTGGTCGAAACTGGCACGCACAACAGTCTGCTGGCGGCCCATGGCTTCTATGCCGATCTTTACAACAGTCAGTTCACTGGCAATTTGACCATGGCGGAACCGTCTTAA
>SRR1151209_00246 multidrug ABC transporter ATP-binding and permease protein
ATGTTCAAATTAATGAAAGCCCGCATGTCCGGGTGGCAGGTCTTGGGCGCGCTGCTCTTCATGGTCGCCCAGGTCACCGCTCAGCTCTACCTGCCCAACTTGACGGCGGACATCGTCAATAAAGGGATCGCCACCGGCAATGTCGGTTACATTTGGGAAACCGGCGGGCGGATGCTGCTGGTCACGGGGCTGTTTATTCTGGCTGCCGTCGGCAACGTCTTCCTCGCTTCCCGGGCGTCCCAAAAATTGGGCCAGAATTTGCGGAGTGATTTATTCCACAAAATCTTGTTCTATTCCAATGACCAGTTCGATGCCATCGGCACCAGTTCTTTGATCACCCGGACCACCAACGATGTCATGCAGATTCAGAACGTGACCATGATGATGTTGCGGATGATGATCATGGCGCCAATTACCTTGGTGGGGGCGAGTTTCCTGGCCTACCAGAAGGACGCCTATTTGACCCGGATTTTCGTCGTCGTCATTCCGATTCTGGTAATCGTGATGGGTGTGGTGATGTTCTTTGCCGTGCCGCTGTTCCGCAAGATGCAAACAAAGACCGACCGCCTGAACCTGGTATTCCGGGAAGGGCTGACCGGGGTGCGGGTCATCCGCGCTTTTCGCCGGGATAAGTTTGAACAGAATCGGTTTGATGTGGCCAACAAGGATTACACTCACAATGCCCGGATGGTTTTCTCCATTATGGCCGTGATGTTTCCTTTGGTGACCATGATCATGTCTGGTACGAACGTCGGCATTGTCTACTTTGGGGCCCAGCGGATTGCTTCCCAGTCCCTGGAAACTGGTAATATGATTGCGTTTCTTACATACGCGATGCAGATCTTGATGAGTTTCATGATGCTCTCCATGGTCTTCTTCTTCGTGCCCCGAGCCCAAGCGTCCGCAACGCGGATCAATCAGGTCTTGGATGCGGAAACGACTGTCAAGTCGCCAGCCGCACCGACCGCACCGGCCCAACCCGAAGCGTCTTTGCAATTTGACAATGTCCAATTCCGCTATGCCCAAGCGGAAGATCCCGCATTGACGGGGGTGGACTTCAAAATGCATAAGGGGCAAACAGTGGCGGTGATCGGCGGGACTGGTTCCGGCAAGACGACGCTGGTCAATCTGATTCCGCGGTTCTATGATGTGGAAAAAGGCAGTGTCAACGTTGACGGGACGGATGTCCGCCAGTGGGATTTGGCAGATCTGCATGAGCATGTCGCCTTTGTACCCCAGAAGTCTGTTCTTTTCCGAGGGACGATCCGTTCGAACATGCAATATGGGAACGAGAACGCCACTGATGACGAAATGTGGCATGCCTTGGATATCGCGCAGGCAACTGAGTTCGTGAAGGGCCTGCCGGATGGCTTGGATGCTGTGGTCGAGCAGGGCGGGAATAATTTCTCTGGCGGTCAAAAGCAACGGCTGGCGATTGCCCGGGCGCTGGTCAAGAAAGCCAGCATCTACGTCTTTGATGATTCCCTATCTGCGTTGGACTTCAAGACCGAAGCTGATTTGCGGCATGCCCTGCATGAAGATCCGCAAATGCAGGAGAGTGTGACGGTCATTGTCGGGCAGCGGGTGTCCAGCGTCGCCGACGCAGATACGATCATCGTGCTGGATAGCGGTAAGATGGTCGGCCGCGGCACACACCAGGAGTTGCTGGCTAACAACGAAACCTACCAAGAAATCGTTTCTTCACAAATCCGGAAAGGGGACACGCATCATGAGTGA
>SRR1151209_00247 TetR family transcriptional regulator
GTGCCCACGCAAACATTTTTTAACCTGCCCGGAACAAAACGGCAGCGCTTGATTGACGCCGGCTTCACTGTTTTTTCCCATGCCAGTCTGGCGGATGCATCCGTGAGCGAAATCGTCCGGTTAGCCAAGATTTCCCGGGGCAGTTTTTATCAGTATTTTTCGGATAAGACGGATCTGTATTTTTATCTGTTGGGTCAGTTGCGGGAAGCTTGGGCGGCCGATACGATCGGCACCTTGCGCCGCCACGAGGGCGATCTGTTTGCGACGGTGCGGGAACTAGCGGAAGCGGCTTTTACCGATCTTAGTCAGGGGCCGTACCGCGAGTTTTATCGCATGCTGTTTCTCAGTTTCAGCTATCGCGGGTCGGTCCAGGTAGATGATGAGTGGACGGCACACTACCGGGCTCAGCATCGGATTCGGACTAACTGGTCGCAGATGGTGGATACCAAGCGGCTCAACGTGAATAGTGATGATCAGCTGCATACTTTGGTGCACATGCTCTTTGGCGTGTTTGCCCAGAATGTGGCCCGCTATTTCAATGAAGCCGCTGATGCGACTGACACCGCAGTGGCTGATCGTTACCGGCAGAACATGCTGACGATGATCGATTGGCTGCAGCACGGTGTTGAAAAAGAAACGCAGGAGGAAAGGTAA
>SRR1151209_00248 phosphoglycerate mutase
ATGCCGAAGCAGCTACTATTCCTCGTCCGCCATGGGCAGACTGAGTTGAATGCGCAGGACAAGATGCAGGGGTGGATCGATTCCCCATTGACCGCTGACGGGATGCGTTCGGCCCGTCAGCTCAGTCATATGCTGCGCAAGGTGGACTTTGTATCCGCCTATACGAGTGATTTGGAGCGCCAGCAGGTGACCTGCCGGTTGATTCTGGACAAACACCCGCAGACGCCGATGCACGTCACCACCGGCCTCCGGGAGATGTATTTCGGGGCACTGGAGGGCGAGTCCGCCCGCCGAATCTTTATTGAGGTCGTGCGCCGGTACGGGCTGAAGACTGCCCGGCGGATGTATTCCGGTGACGGCAGTATCGTCGCCATGACTAATTCCTTCGCGGCCCTGGATGACACGGATCAAGCCGAAGATTACCAGGCGCTGCAGCAGCGGATCCAGACCACGATGCGCCGCATCACCGATGAGAACGGCGACGGCAATATTTTGGTCGTCTCTTCCGGCTTGGCGTTGAGCAATTATATTTACGGTCTGGATCACAACGCCATTGACGGGCATTTGCTGGACAACACGAGCGTCAGTTTGGTCAGCGTCGAAGACGGCCAAACCGAGGTACTGGCGGTGAATTTGACCAGTGCCCGGGATCTGAACAAATTCCTCAAAGAGACTGAGCAAATTCCTGATTGA
>SRR1151209_00249 two-component system response regulator
ATGGAAGCATATCGCATTTTGTTTGTAGAAAAGGCGCCCGCAGAGTCTAGCATGCGTACGCTGCTCGACTGGGGCGCGCTGGGATTTGACTTGATGGGCACAGTGGCCACCGAAGCCCAGGCGCTGGCAATGATTGCGGAGAGCCGCCCGGACGTCGTCGTCACTGAGCTGGCGTTGGCCGCGGGTACTGGCCTGGCTTTGATTCATCAGGCCAAGACTGCTGCTCCGGAAACAGCGTTTGTGATTTTGGCCGCAGAAGCAGATTTCGAGACCGCCCAAGCGGCCATTGCACTGGGCGTCGCTGCATTTTTAAAGCGGTCAGAAAAACCAGCCGTGCTGCGCGGCGCCTTCAGCCAACTGCGCCAGACACTGAATCAAAAGCGCGCTCAAACAGCGAACTGGACAGTGCTGCAACAGTACTACAAACAGTCTCTGCCAGTGATGCAAGCGAGTTTTTACGCCGCGCTGATTGATGGGCAAATCAATGAAGCCGCCATTGATGCTTATCGCCGCGACTACCAGATCGCCTTGAACGGGTCTTTTTACACCTGTCTCGTTATCCACACATCGACCACGCTGCTGCCGGCTAGGGTCGATCCGATGCTGCTGCGCACGCAGGTGCTGCAGCAGGCCCGTGCATTCTTTGAGCCCCTGTGGCCGCTGGCAGCATTTTCTTATCTGGGCAACACCGTTATGGCGGTTCAGCTGGCCGCCGCGACCGATGTGCGGGCCCTCACTGACGACGCCGACCGTTTCTGTCAGGAGGCGAAAAGCAAACTTGCTGCGGCGGTGACCATTGGTGTCGGCGCCGCGGTGAGCAGGCTGCTCGATTTGCCCCGGGCATACCGGGGAGCCCGCACTGCGGTATCCTACCGCAGTCTCTATGGAGCGGGTAAAGTGATCAACATCAAAGAAATTGCTCCCCATGAGCTGGCTGATTTCAGTCCTTTGACTGATACTGCGCTGTCGGCGCTATTCAGACAGATTCATGTCGGGCCGGAAGAGGCCATTGAAGAAGCAGTGGCAGCGTACCTGACGCATCTAGGGCAGACGGCCCAGCACATGCCCCAGCACACTGTGGTCGTCAATGAGCTGATCAGCGCACTTTACCGGTTTGCGGCCAACAACCGGCTGCACGTCCCTGCCTTGACCGATAACCTTAAGACCCTTTATCAGACACTGCCAGAGTCGTCGCCGGCGTCTTTGCATCAGTGGCTGTCAGCGACTTGTCTGGCATTGAATAGTCAGTTGGCCCTGGCTCGCGATACCACGTCAGCGGTGATGATTCATGACGCCCAAGAGTATGTTCGAGTGCATTATCAGGAAGAATCGCTGGGGTTGAAAGATGTCTGCGCGAGTCTCGGCGTGTCGCATTCCTATTTTTCCACGCTGTTCAAACGCGAAACCGGCGTGTCGTTCATCACCTACCTGACCGAGTTCCGCATGGACCGGGCCGCCCGGCTGCTGCTGGAGACCACCGAGCAGAGTCAAGTGATCGGCCGCCTTTGCGGCTACACCGATCCAAATTACTTCAGCTTGGTCTTCAAAAAACATTTTGGCAACTCACCGACGGTTTACCGCAGCGGGATGGCGGTGGCATCTTATTAA
>SRR1151209_00250 ribose ABC transporter permease protein
ATGGCAGATACCAACATTCTCACCGCTGAGGCCGAACAGCAGCTGCGCCAGCCCATTGATGACGCTATTGGCAAAATTCAAGACCAGATCAACGTACTGCGTCAGGATGGGACCGACCAAGTGATCATTCTCAGCGGTCATATCGAAGCTACTAAACGGGACAAGAGTCTGAGCAAAGCCGAACGTGAGGCGGCCATCAAGGCTGATAAAGAGGCACTGGTCGGCGCCCGGGCTGTGGAAAGTCAAAACAAGGATCAAGTCGCCCAATTGATTGGGGAGGCAGAACGCTACCTCAAAGCGCATTACCGTACCGATTACTACGAATACGTGGTCAAGAGCTGTGCCGAAGAGAAGGTCGCGGCTAAAAAGGCCTATGACGAGCAGCTGGCCAGCCTGCGGGCAGATCACAAGCAGGCCCTGGCCGAACTCTCCGACCGCGCCGAAATCAAGGAACAAAATTACGTCTACAAGAACAAGCTGTTTGACGCGAAGATGACCTATCAAGCCCGGCAGCGGCAAATCAAGGACCGCCAGCATGCCGCGTTTGTCTATGAATATCATTTACTGGACATGCTGCGGATGTCGAAGTTCTCGGTGCAAGAGAATATCCGCCAGAAGTGGGAAAACTACAAGTACACCTTCAATCGCCGTGATTTCCTGCTGCGCAACGGGTTGTACTTTGCCATCATCATTATCTTCATCATTCTGGCGATCATGACGCCCATCATCAAAGGCACGTCGCTGCTGACGTATAACAACATCTTGAACATTCTCCAGCAGGCTTCTCCGCAAATGTTTCTGGCTCTGGGAGTGGCCGGGTTGATCCTGTTGACAGGGACTGACCTGTCGATTGGCCGGATGGTCGGGATGGGTATGACCGCCGCGACGATCATCATGCACCAGGGCATCAACACCGGTTCCGTGTTTGGGGTTATCTTCGACTTCTCAAAAATGAATCTGTGGGTGCGGGTGATTTTCGCACTGGCGGCCTGTATTGTGCTGTCGACCGTGTTCACCACCATTGCCGGGTTCTTCACCGCACGGTTCCAGATGCACCCATTCATCTCGACAATGGCCAACACCTTGATTATCTTTGGGCTGGTCACCTACGCCACCAAAGGCGTGTCGTTTGGGGCGATTGACCCCGCCATTCCGAACATGATCATTCCCAAGATCGGCGGCTTCCCGTCAATCATTATCTGGGCCATTGCCGCCATCGTCATCACCTGGTTTGTTTGGAACAAAACACGGTTCGGCAAGAATCTCTACGCAGTTGGCGGCAATCCAGAAGCCGCCGCCGTGTCCGGGATTTCCGTCTTCGCGGTGACACTGGGCGCATTCGTCTTCGCCGGTATTCTTTACGGCTTCGGCTCCTGGCTGGAATGTGCGCGGATGGTCGGTTCCGGCTCTGCTGCATACGGCCAAGGGTGGGAAATGAACGCCATCGCGGCCTGTGTGGTCGGCGGCGTCTCCTTCACTGGTGGTATCGGGAAAATCTCCGGCGTTGTCGTTGGGGTCACTATCTTCACTGCCTTGACTTACGCCTTGACCATTCTGGGTATCGATACGAATCTGCAGTTCGTTTTCTCTGGGATCATTATCCTCATTGCGGTAACGCTGGATTCCTTGAAGTACGTCCAGAAGAAATGA
>SRR1151209_00251 ribose ABC transport system ATP-binding protein RbsA
ATGCAAGAAGCATCAGCAGTAAATACGCAGCCGCAACCTGCATCGGACGTGATGCTGTCGATTCGCGGCTTAAGCAAGTCGTTCGGGCGCAACCGGGTGCTCGATCACATTGATATGGACGTTAAAAAAGGCTCCGTCATGGGGCTGATGGGTGAAAACGGCGCCGGCAAGTCGACCATGATGAAGTGCCTGTTCGGCATCAAGACCCGGGATGAGGGTGAATTTTTCTTGGACGGCAGGGAGGTCTCCTTCCAAGGTCCCAAGGACGCCCTGGAAAACGGCATCGCCATGGTACACCAAGAGCTCAACCAAGCGCTGGACCGGAGCGTAGTCGATAACTTATTCCTCGGCCGCTATCCCATTACCCCGCTGGGCGTAGTCGACGAGCGGCAGATGCGGCGTGAAGCCACCGAGCTGTTCCGCCGCCTCGGGATGACGGTCAACTTGACCCAGCCGATGCGCAAGATGAGCGTGTCCCAGCGGCAGATGGTAGAAATTGCCAAAGCTATTTCTTACAACTCCAAGGTGATCGTTCTCGACGAGCCGACCAGTTCGCTGATGGCTCAGGAAGTTGAGAAACTCTTCGACATGGTCCGCATGCTCAAAAAGCAGGGTATTTCAATTATCTTCATTTCGCACAAAATGGATGAAGTCTTCGAGATTTGTGACGAGGTCTCGGTGCTGCGCGACGGCCACCTGGTAATGACCAAAAAAGTCGCTGATACAAATATGAACGAGCTGGTCAAGGCCATGGTTGGCCGGCCGCTGGATAACCGGTTCCCGCCGGTTGACAACGTGGTGGGCAAGACAATTCTGCAGGTCAGCCACCTGTCGACGAAGTTCTCACCGTACCTGCAGGACGTCACGTTTGATGTTGGGCAGGGGGAAATTTTCGGCCTTTACGGACTTGTCGGGGCTGGCCGCACAGAGCTGCTTGAAACGATTTTCGGAGTGCGCACGCGGGCCGGCGGACGGGTGTATTTCAACGGCAAACTGGCCAACTTCAACTCCGCCAAGGAGGCGATGGACCATGGCTTCGCGATGATCACCGAGGAACGCAAGGCCAATGGGCTGTTCCTCAAAGGCAATCTGACGTTCAACACGACCATCACTAACCTGAATGCTTACAAACGCGGGCCGGCCTTGTCCGATCCGAAGATGACGAAGGCGACGCTTCAGGAAATCAAAGTGATGAACACCAAGACTATGGGCCCGGACGAGCTGATTGCCAGCCTGAGCGGGGGCAACCAGCAGAAGGTGATCATCGGTAAATGGCTCGAACGTCAGCCGCAACTGTTCATGATGGACGAACCGACCCGCGGCATTGACGTCGGGGCGAAGTACGAGATCTACGAGCTGATCATCCAGATGGCCAAGCAGGGCAAAACGATCCTCGTGGTGTCGTCGGAAATGCCGGAGATCTTGGGGATTACCAACCGCATCGGCGTGATGAGCAACGGTCGTCTAGCGGGCATCGTGAACACCAAACAGACCAACCAAGAAGAGCTGTTACGGCTCAGCGCAAAATATCTATAA
>SRR1151209_00252 D-galactose-binding periplasmic protein precursor
ATGAAGAAGACAAAAACACTAGGCATGGTGTTAATGCTGGGGGCTGCGTTGCTGCTGGGGGCCTGCGGTTCTGGCTCTGGCTCCAGTTCAAGCGGCGGTGCGGACAAGACCGTGGCCAACAAGGACAAACCGGTGGTGTGGTACAACCGCCAGCCGTCGAACTCCACTGACGGCAAGCTGGACATGGCCGCATTGACATTCAACAAGGATACCTATTACGTTGGTTTCGATGCCAACCAAGGGGCCAAGGTCCAAGGCGAGATGATCAAGTCCTATATCGAAAAGAATATCGCCACCGTCGATCGCAACGGCGACGGTACCATCGGTTACGTGCTGGCCATCGGGGACGTTGGCCATAACGACTCGATCGCCCGTACTCGCGGGGTTCGGGCCGCGTTGGGCACGGCTGTTAAAAAGGGCGGCAATGTCGATTCCACTCCGACTGGGATGAACTCTGACGGCAAGTCCAAAGTCGTCAAGGACGGCAGCCTGTCTGTTGGCGGCAAGACCTACAAGATCCGCGAACTGGCCAGCCAGGAAATGAAGAACAACTCCGGGGCGACCTGGGACGCGGCGACCGCCGGTAATACGATCGGCACTTGGTCGTCCAGCCTGGGCAAGCAGATCGACATCGTCGCTTCCAATAACGACGGCATGGGCATGGCGATGTTCAACGCCTGGTCCAAGGAAAACAAAGTACCGACTTTCGGCTACGACGCGAACTCCGATGCAGTGGCAGCCATTGCGGAAGGATACGGCGGGACCATCAGCCAGCACGCCGACGTGCAAGCTTACCTGACTTTGCGGGTTCTGCGCAATGCGCTGGACGGCGTCAAGAAGGGCACCGGGATCGATACTAAGGACAGTGCCGGCAATGTGCTGGCTAAGGACACCTACGTTTACAACGAGAAGCAGCGTTCCTACTACGCCATGAACGTGGCAGTGACGGCCGATAATTACAAAGACTTCACGGATTCGACCAAGATTTACGCTGACGCTTCCCACCAGCTGGATAAGTCCAAGTCTCCAGAAAAGAAAGTATGGCTGGATATCTATAATTCCTCCGACAACTTCCTGGGATCCACTTACCAGCCGCTGCTGAAGAAGTATGCGAAGCTGATGAACCTGAACGTTGAATTCATCGGCGGTGACGGGCAGACGGAGTCTAACATCACCAACCGATTGGGCAACCCGAGCGAATATGACGCGTTTGCTATCAACATGGTGAAAACCGATAACGGCTCCTCGTACACCTCTATCCTGAAACAGTAA
>SRR1151209_00254 hypothetical protein
GTGGCAGAGGATCAAATTCATTATTTAAATGCGCAGCAGTTAGCGATTACGCAACCAATGACGTTTCACGCGCCCACACCGGAAGCCATCAAGCGCCTGCAGGTGGGGGACAAGGTCCAATTGGGATTCGTTGATCCGGAAATTCAAGGCGAGTTTCTGCCCGTGGTGATCACGGTCATCCAGCCAGATGGGCTCCAGGGCCGGTTGGCAGCTGCGCCAAAGCGGCTGCCTTACTTGCGGGCGGACCAAGTCGTCAGTTTTGACTGGGTTAACATCTTAAAGATCTTTGCTTGA
>SRR1151209_00256 hypothetical protein
ATGAAGTCCGCCTTTGAGTCGATACGCACCCGTCTAGTCGAATTCGTGATCATGACCTTGATGTTTTGGGTCTGCTGGCAATTGTTCCATTGGCCGGCCTTTCACTACGCCTTCTACATCAGTCTGTTTTTGTGCCTGTTTATTTTGGTTGCTTTAGCGGTCGTTTTTGCATTGAGTTTACGTCAGAAAAAAAGGCCTTGA
>SRR1151209_00257 hypothetical protein
ATGTCTGCTTACGCCGAAATATTGGATTTTGTTACCAGCCATCGGGACGATATCGTCCGGGAACCGCGGCAATACGTGAATATGCTGACCTTTGCCTTTGACCAGCAGTTGTTTCCGTTTGCCGATTACCCGGAGTTCTTTGTGCCCATGCGCTTGCATGTTTTTCGCCTGCCTAAAGACTTCGTCCAGGCGCGGCACGACCAATTGCAGGAATTGTACCGGGAAACCTTGGCCCCAGCCAATCAGGGCTATCAGGATGTGTGGATGACCACCACCTGGTTGAAGAGTCAGCACTTGCTAATGGTGGAGCTGTCCTACGAATGA
>SRR1151209_00258 cytosine/adenosine deaminase
ATGGCGTATGATCCGCAGTTTATGGCGTTGGCCGCCAAACAGGCCGATTTGAATAACACGTTGCACGAGGGCGGGCCGTTTGGCTGCCTGATCGTTAAGAATGGCAAGATCGTGGCCCAGGGTCACAATCAGGTCCTGTTCCAGCATGATCCGACCGCCCATGGCGAAATCGTGGCGATTCGGCGGGCCTGTGACATTTTGGATACGTACGACCTGACCGGTTGCGAGCTGTATACGTCGGCGTATCCGTGCCCGATGTGCCTCGGCGCGATCATTTGGGCCAACATCAAGACCGTTTATTACGGCAATGCGCCGGAGGATGCGGCCAAGATTGGGTTCCGCGATAACTTCATGTATCAGTATTTAGCCGGGGATCGCCAAGACCCCACGGTACTGACCATTGAACAGCACGATCGGGATAAGACGATGCCTGCCTTTGATCATTTTGCAGCGGATCAAAGTGCGCAATTATATTAG
>SRR1151209_00259 two-component system sensor histidine kinase
ATGCAGGCAAATGAGGGAATCAAACGGCAACAGCGTAAATTGTTTTGGGGTGAGGTGCTCAGCTTCGCGCTGCTTTTTTTCACGCTGGGCGCTGTTGTGTATTTTCTTTACCAGCAAGCAGTCTATAACGGTGTGGACACGACGCTGGCTCGGCAGGAGCGCAGTCTCAAAGATGGGCCGGCTGCTGCACCAGGGCCGTTGACTCCTGGTCAGCGGCCGAATAGTCAAAATGGCGCTTCGTTCCGGACTAACATGGTGGTGTTCAATGCTGCCGGTCAAATCATTAATGCGGCCGACTTGGGTCAGCGATACTATGCGTATTTCCAGAATCTGGAATTGGATAAAAGTGCAGTGGGCAAGAAACAGGTTTTGACGACTACGGCGGGTACTTTCCGTACCCTACTGGTGCATGTCCCTAAGAGCAATTTGAATCCAATGTACGCCGGACACTATGTGCTGATTCTGCAAAATATTGATGCCCAGCTGGACGGGATGAACAGCTTTCTGCGGGTGCTGGTGGCCACCATGATTTTCTTCTGGCTGCTGGCTTTACTATTTGCGTCGGTTTTAGCCCGGCGCGCCATGCGGCCCATCGTCAAATCTTGGCAGCGCCAGCAGGACTTCGTCGCGGATGCCGCCCATGAATTGCGGGCACCGCTGGCAGTGATTCAAAGCCAGCAGGAGCATTTACTGACCAAGCCTCACGATACGGTTTTGAATCAAAGCGAGGCGATCGCTACGACATTGGCGGAATCCACCCGCTTGCAGCACCTCACGACGGATCTGCTGACGATGGCCAAGGCGGACAGTAATGCCTTAACGACCGATTTGCAGCACTACGATTTACAAATCTGGCCAGTGTCGGTGCTGGCCCCGTATAAAGAAATTGCTGCCGCTCAGGACCGGGCCTTTGATACGACCCTGCAGGCTACTGGCGAGGCAGTTTTTGACGGTGACCAGCTGCATCAGCTGCTGGTAATTTTGTTGGACAATGCCTTCAAATATACGGCTGCTGGGGATTCAATCTGGGTGACGACGGAACGTCAGACGAAGACTTGGACGCTGACGGTGGGTAATTCTGGGCCAAGTATTCCGGACGCGGACAAAAAGCGGATCTTCGATCGATTTTATCGAATGGATCCGTCTCGGAACCGCGAGACCGGGGGCAGCGGGTTAGGCTTAGCGATTGCTGACTGGATTGTAACCAATCACCGCGGGCATATTCGGGTAATGGATATTCACCCCCAGGGGGCGGCCTTCGTAGTCACGCTGCCATTAAGCGGGAAGTAG
>SRR1151209_00260 two-component system response regulator
ATGCCTGCGAAACCGTTAATTTTGGTGATTGAAGATGATCATCATTTAAATCAGAGTATTCAAGAATTTTTGGCCCCGCTAGCTGACACCCGCGGCGTCTACGCCGGCGACGAGGGTGAGTACTTGGCCAGTGAGGGAATTTTTGACGCCATCATTCTCGATATCATGCTGCCAGAAATGGACGGGTTTACGGTATTGCATAAACTCCGGGCGGCGCATGTTGGCACCCCGGTACTGATCTTGACTGCTAAAGATGGTCTGAGCGACAAGATGCGGGGCTTTGATCTAGGGACGGATGATTATTTAACCAAACCGTTTCACCGGGAGGAACTGATGGCGCGCATCAAAGTGCTGCTCAAACGCAGCGGTAAATATCGCGATGATTACACCCTAGCGTTCGGTCCGCTCACAGTGCAGTTGAACGATCGCTCAGTCACCGTGAGCGGTGTACCGGTGGCCTTGAGCGGCAAAGAATATGACTTACTCGTGTATTTATTGCAAAATCAGGGCACCATCGTCACAAAGGAGCAGATTTTCGACCGGCTGTGGGGCTTTGATTCCGATACTGGTTTGGCAGTGGTGGAAGTATATATGAGCAATTTGCGCAAGAAACTGAAGGGCACCGCCGTGGCTGACGCCATCCGGACGATTCGCAACGTCGGTTACATTCTCGATGAGGTCGCGGCCAATGCAGGCAAATGA
>SRR1151209_00261 membrane protein
GTGAAGCGATTGATTACCCAATTCATCCAATTTGGTGCCGTCGGAGCCTTGAACACGGTGCTGACGTACATCATCTACTTGATATTATACCAACATATTTCCCCGACGCTGGCCATGGCCGTCGGTTATGGCCTGACGTCCCTGCTGGGGCTGGCTTTAAACAAGCAGTGGGTCTTTAAACAAAGCGGCGGCGAAATGTCCTGGATGACGTTCAAGTATTACGCGACGTATGGGACAACCTTCCTGCTCAGTTTGATCCTGACCAGTACCTGGGTCGATGTCCTGCATTTTCCGGCTGCTTGGGCGCCGCTCTTCAGCCTCGCGGTCACCGCCCCGGTCAATTTCCTGCTCAGTAAATACTGGGTCTTTACCCAGAAAGGAGTTCGTATCCATGCAAGCAAAAACTCGCCCTACTGA
>SRR1151209_00262 4-amino-4-deoxy-L-arabinose transferase
ATGCAAGCAAAAACTCGCCCTACTGATCCGCCGATCGACAAGCCCAAACGCCGCCTGGACTGGTGGCTGGTGGCGATTCTCCTTCTCGCCGCTTTTCTTTACGCCTGGAACATCTGGGAGGCGGGCAGTGCCAATGATTACTATACCGCTGCCGTCGTCAGCATGACTAAGAGCTGGCATAACTTCTGGTACGGCGCCTTTGATCCCGCCGGCTTCATCACCGTGGACAAACCGCCCGTCGCCCTCTGGTTCATGGCAATTTCCGGGAAAATATTCGGCGTCTACGGCTGGTCCGTCGTCCTGCCATCCATTCTCTTCGGCATCGGCTCTGTCTATCTGATCTACGCCATGGTGAAACGAGTCTTCGGCGCTTGGCCTGCACGGCTCAGTGCCCTGATCATGACGCTGACGCCCATCGTGGTGGCAGATTCCCGCACCAACAACATGGATGCGACTTTGGTTTATTTCTTATTATTAGCCACTGACTGCCTATTCATTGCGATTCAAAAGAAACGGCCTTGGCTGGTCCTTGTCAGTTTCGCGTTGATTGGGGTCTCTTTCAACATTAAGATGCTCCAAGCCTTCATGATCCTGCCGGCTTTGCTGCTTTTTTACTGGCTGGCCAGCAGTCAGCCGTGGAAGAAACGGCTGGTGACCCTCGTTGGTGCTGGGGCAGCTTTGGCCATTTTCACCCTCGCCTGGCCCCTGCAAGTTGATTCCACGAGCGCTGCTGATCGACCATACATTGGCAGTTCACAGAAGAACTCCGTGATGGACTTGGCTTTTGGCTACAACGGATCTGAACGGCTGCTCGGGCAGACTTCTGGTCTGGGCGGCACCTTCGGCGGCCTGAATAGTAAGAATAAAGGCGGCTTCGAAGGCATGCCAGGCGGTGCGCCGGGGTCTGCTGCGACGACTAAGAACGGGACAACCACCAAGAGCAACGGCACGACGACTCAGAATGGCACCCCGCCGACCGGCAGCAAGCAGGGGGGAACACCGCCTTCTGGGGGAACACCGCCTTCTGGCACTAATCAGGGCGGCACCCCGCCGACCGGCAGTAAACAAGGTACAACTACCAAGAGCAAGAGCAACACCACCCTCACCGCCCAAGGCGGCGAGGGCAACTTCACGCCGCCCACCGGCGGTAACCGCAGAGGCGGCTTTCCCGGTGGTACTCGCCGGGGCGGTCGCGGCGGCATGGGTGCTGGCGGCGGCGCCTTCAACATCGGTACCGCCGGCCCGCTGCGGGTCTTCCAATCTGCGTTAGGTCCGCAAATCAGCTGGCTCCTGCCCATGGCCCTCATCGGTTTCATCAGTTCCTTTGTTTACTACATTGACCGTAAACGGAAGTGGTGGCAGCTGTCCCTGCAGCAAAAGCATGTCGGCTATTGGCTGGCCTGGCTTGTCCCCGTCATGGGCTTCTTCTCCATTGCCTCCTTCTTCCACCCCTACTACATGATCATGCTGGCCCCGCCTATTGCCGCTTTGGCTGGGATCGGGCTGTACACCATGTTTAAACAGTTCCAAGGGAGCTGGAAACACTGGACAACGTATCTGCTGCCCGTGGGGATCGCCATCACGATTGCTTTGCAAGCCTGGTACCTCACCCAGTACTACACGGTTGCGCCTTGGCTCCTGGTGATCGCCGGCATCCTCGTCATCGTTGGGTTATTTGCGACTCGGCTGCACCGGTTCCGCAAAATCATGGTCGGTGCCACGCTGGTCACCATCCTCGCCGCCCCTGGTTTCTGGTCCATCACCCCGACATTAGCCGGTGAATCGGCAGGTATCCCCACGGCCGGTCCTGATCTGTTGAGCCAAGGCGGCAATACGAGCGGCGGTATCGGCAGCGGCAGCGTTAATTCTGGCCTGCTGAAATACGTCGAAGCCCACCAAGGCTCGGCCAAGTATCTCTTCGCCGTCTCCGACGCCTCCACCGCTGCGCCGTACATTATCAAGAGCGGCAAGGCAGTAATGGCCATCGGCGGCTTCAACGGCACTGATCCCACTTTGACCTTGAAGCAGTTTAAGGCGCTAGTGAAGAAAGGCGAGCTGAAGTATTACTACAGTTCCGGCCGTTCCGGTAATTCCTCGATTGCCGCCTGGGTCGAAAAGAATGGGACGAAGATCGCCGCCAGTAAGTACGGCTCAACGACCAGCAGCACGCAATCAACGAACCAGCGTGGCGGCTTCGGTGGTATGGGCGGCAACGGCACCCTCTATAAGCTGACCGTGAAGTAA
>SRR1151209_00263 glycosyl transferase
ATGGCCCAAGCAACTAATCGTACCCCGCTTATTTCAATCGTGCTCCCAGTCTTCAACGAAGAGGCCGGCATTCAAGAAACCGTGGACGTCCTGCTGCATTATGTGGCCGCCCGGCAAGAACGTTATGAATTGATTTTCGTCGATGACGGCAGCCAGGACAAAACCGTCCAGATACTGCGCGCTGCCCGGCAGCGGTCCGCTTTAATCAAACTGGTTGAATTTTCTCGCAACTTCGGTCATCAATTGGCCATCACCGCCGGTGTCCGTTACGCCACCGGCGACGCGGTGGTCGTTATGGACGCCGATCTGCAGGATCCGCCCAGCGTCATTCCCAGCATGATCGCCAAATGGCGGGCCGGTTATGCCGTCGTCTACGGCAAGCGGCGCCATCGGGACGGTGAAACGTGGTTTAAGAAATTCACCGCCGCCACTTTCTATCGCTTGCTGGAAAGCATCACCAGCATCCAAATCCCCGTCGATACCGGCGACTTCCGGCTCATGGATCGCAAAGTCGTGGATGTCTTGGACCAAATGAATGAACCCGACCCTTTTGTTCGGGGCATGGTCAGCTGGATCGGCTTCAAACAAACCGGCGTCTTGTACGACCGAAAAGAGCGCTACGCTGGGTCATCTAAATATCCCCTGCGCAAGATGCTCGGGCTGGCCATGAACGGCATCACCAGCTTCTCCCGCCTCCCCCTAATGCTGGGCTACTGGGCCGCTGGGGCGCTCGGACTCATCAGTGTCCTGGTTCTGCTGGCCAACCTGATTCTTGGCACCGTCACCGGGACCACCTGGCTGATCATCACCGTTGCCCTCACCGGCGCGCTGATCCTCCTTGCTCTCGGCGCCACCGGTACCTACATCGGCCGCATGTTCACCGCTTCCCGAGACCGCCCGCTGTATATCGTGGCTCAAACGGAAGGCTTCAAGCAATCGCAACGTCACCAGCAGACGCAACCAGAGTCTAACTTGGTCCAGCTGCGCAACTGA
>SRR1151209_00264 membrane protein
ATGACGAGGGAGAATTATCCGCAGCAACCGCAACACAGGCAGTCTGGGTCACCGGAGCAAAACACGTGGCAGCAACCGCAGCAGCCGGCCAATCCGCAAAACGGCCAGTATGCTAATCCGAATAACAATCAAAGTTGGCCGGGAAATTCCAATCCGCAATCAGGTCAGCCGTATTATGGTAATTATCCAAATCAGCAAGCCCAATATCCGGGTCCCGGACAAGCAAACAGCTATCCGCAACCAGGGCCGCAAAATCCGAATGCCAGCTACCAAAATCCAAATCCGCAACAACCGGCGAATGGATATGGCCAAGGCCCTTATCAGCAGCCTGCCAATGGCTACGCCCAACAGCCGAATTCGCCCTATCCAGCAGCCGGTTACGGCCAACAGCTGCATCCGCAGCAACCGCAAAATGGGTACGCGCAACAGCCGAATCAGCAATATTCGCCAACTGGGTATGGTCAGCAGCAGCCCGCCAATGGGCAGGACCAACAGCAGCCTTATCAACAGCAATCGGCCAATGGGCAAAACCAACAACCACTTTATCAACAGCAATTTGCAAATGGCTACGCCCAGCAGCCCTATCCGTCACAGCCGACCAGATCCACCGCTGCACCGCAGGCGCCGTCACGCATGCGTCGAGGGGATCAAGGCAGCAACCCAGTTCATCAATCTCAGGATGTACCGACCAAGTCGAAAGCCATCGCCTTAGCTGGCGGAATTACCGGCCTCGCCGGCGGTATCATGCTGATTTTTGGCCCCATGCTGCTCGTCGGCGGCGCAGTCGCCAACGTAGGCACCCGATCCTTATCCGGCACCACCGGCGTCTCCGCCTTTTTGACCCTGATTAAAATTGCCGTGTTGGCCCTGGGGATTTTTGGGCTGTTATATTACCGCGGCACAGGCCTAGTCAAAACGGCCGGACACATCTTGCTCATCGTGGGCGGCGCGGTCGCTATTATTCCGCTGCTCGGCTGGGTTGGCGGCATCGTCGCCATTGTCGGTGGTGCGCTTTACCTTGCCAGTTTGAAGAACTTCAAGACTGTTTAG
>SRR1151209_00265 hypothetical protein
ATGATGCTGGTATTTGATATCATACAGGACACACCGGAAAAACGAGTGTATGAGGTGACCTCTGGTCCTGACACCAAGGGAACCATTACAGTTGATAAAAAAACGTTGATTGCTACTTCTGAGGGTACTTTTTCGAGTCACTTTCCACTTTGGTTTATTGAAAAAATGCCCATTGGACAGGTGAAAAACGGCAAGTCACTGAAGCATTTCGTTTACGGCACAGGATAA
>SRR1151209_00266 hypothetical protein
ATGATGAAGTTTGAGCATGATGCAGCTCAAATTGTTAAGCAAGCCGATAGGACGTACTGGCAAAGGTTTCACAAGTACCCGCCATATAGTGAATTGCTTGCAATGACCAGGTGTTACGTTTTAACCGAGTTTGCGGCCAAAGAGTATGCAAGTCATCTAGCTTTATTGAATGAACCGCTACCGGACGATCCACCGAACATTATCTACTGA
>SRR1151209_00267 glucose-6-phosphate isomerase
ATGGCACACATTTCCTTTGATGCATCTGCATTGAGCAAGTTCGTGCACGACAATGAATTAAGTGAGATTCAACCGCTGGTTACAGCCGCAGACAAAGAGCTGCGCGACGGTACTGGCGCAGGCAATGATTTCCGGGGATTCCTGGATCTGCCTGTTGACTACGATAAGGAAGAATTCAGCCGGATCAAGGCGGCTGCTAAGAAGGTTCAGGGCAATTCTGAAGTCTTTGTGGCGATTGGTATCGGCGGGTCTTACCTCGGTGCCCAAGCAGCGATTGATTTCTTGAATCCGAATTTCTACAACCAACAAAAAGACCGGTCTGTACCGGAAGTCTACTTCGCTGGGAATTCTATCAGCGGCAGCTACCTGCATGATCTGGTTCAATTGATTGGCGACCGGGACTTCAGTATCAACGTCATCTCCAAGTCGGGGACGACCACAGAACCTTCTATCGCTTTCCGCGTATTGAAGGCCAAGCTGATTGCTAAGTATGGTGCTGCTGGTGCTAAGGAACGGATCTACGCGACAACTGACCGGGCCAAGGGTGCGCTGAAGACTGAGGCTGACGCTGAGGGCTACGAAGAATTCGTTGTGCCTGATGATATCGGCGGCCGGTTCTCCGTGCTTTCCGCTGTTGGTCTGCTGCCCATCGCCGTTGCCGGCGGGGACATCGATGCCTTGATGCAAGGCGCGGCTGATGCCCGTTCTGAATACACCAACCCGGATGTCACGAAGAACGATGCTTACAAGTATGCCGCTTTGCGGAATATCTTGTACCGCAAGGGCTTTACCACTGAATTGCTGGAAAACTACGAGCCTAACCTGCGTCTGTTCGGCGAATGGTGGAAGCAATTGATGGGCGAGTCTGAAGGCAAGGATCAGAAGGGAATCTATCCTTCTTCTGCTAACTTCACCACGGATCTGCACTCCTTGGGTCAATACATCCAAGAGGGTCTGCGCAATCTGATGGAGACGGTCGTTAAGATCGAGGACGCGCCTAACGACGTCACGATCCCTGAAGACGACAAGAACCTGGACGGTTTAGGTTACTTGGCTGACAAGTCCATGAACTATGTCAACAACAAGGCTTACCAGGGTGTTGTTATGGCCCATACCGATGGCGGCGTTCCGGTCATGACCGTGAATGTGCCTAAGCAGGATGCTTATTCGTTGGGTTATACGATCTACTTCTTTGAGGCCGCTGTTGCCATTTCTGGGTACTTGAACGGGATCAACCCGTTCAACCAGCCTGGGGTTGAGGCTTACAAGAAGAACATGTTCGCTCTGCTGGGCCGGCAAGGCTATGAAGAGTTGACGAAGGAACTGACGGAACGCTTGAATAAGTAA
>SRR1151209_00268 GntR family transcriptional regulator
ATGCAAAATCCCCGTTCCCTCGCCTATTACGAACGCTTAGCGCTGAAAGTTAAAGATCAAGTGCTGACCGGCATTTGGCAAGTCGGCGACAAATTGCCGTCAGTCCGGGAGATGGCTCAGCAAGAGCGGCTGAACCCCAATACCGTGGCCAAGGCCTACCGTCAGCTGGAAGCGGATGGCGTCATCGAAGTGCAGCCGGGTAAAGGAACCTTTATCAAAGACAGCCCGCCATCCGCCCCCCAGCAAACCGTCCTATGGCAGCAGCTCTCGGCCTGGCTGATCAACGCCGGCACAGCCGGCATTACCCGTCAACAGATCGATGTCTTTCTGGATACCAATTTTTCACCAAAGGAGGTTTCCCATCCATGA
>SRR1151209_00269 ABC transporter ATP-binding protein
ATGACCGTCACGCTTACCAATTTAACCAAACGGATTGGCCGCAAAGAAGTGGTCACCGATATCAGTTTCACCTGGCGGCCGGGGGAAATCACTGGTTTGGTCGGCCGCAACGGGGCCGGCAAGACCACCCTCTTCCGGACGATGATGCTGCAATACATTCCCGACAGCGGCACGATCCAGATCAACGACCAAACCGTCACTCCGAATACCAACTTTACCCAATCTATTTTCTTCGTCGACAGCCAAGATAATTTCTTTGGCAACAGTCCGCTGGCCGAAATTGCCAGCTGGTTCACCCTCGTGTACCCGCAATTCAGCTTAGACAGTTTCTGGCAGGAAATTGACCATTTCAAGATTCCTCGGGAAAGCCGCTGGTCTGGCCTGTCTAAAGGAATGCAGGCGACCATCCTAATGGCGCTGGCCCTGGCCAGCAACGTGCCTTACATCATTTTGGATGAACCTTTCTCCGGGCTGGACGTGATTGCCCGGGAACAGGTCACCCAGATGATCATCGACGCGGCGGCAGAGCACCACACGGCGTTTCTGATTTCTTCCCATGATCTGGAAGAGCTGGACGGGATCAGCGACCGCGTCCTGATTCTTAAGGACCACCACATTCTTCACGACTACATGCTGGAAGAGTTGCGGGAAGAGGCCAAGAAGATCCAGGTCGTATTCCGGCATAACGAAGTGCCGGCCGCGATCAAGAAGGAGGGCACCCTGATTCGTGTTACCGGCCAAGTCCTGGAGATTGTCTTCCTGCATTATGACGAGACCATTGAGACGGCGTTGCAGGATGCCCAGCCAGTATTCATGGAAGATTTGCCGCTAACTTTGACGGACATCTTCCGGACCACGGCGGTGCACGATACGGATTACTTGTTGGGTAAGGAGGTATACGAGAAATGA
>SRR1151209_00270 hypothetical protein
ATGACCAATCATTCATTACGGACATTACTGCTGCACCGCCACCGCGTTTGGCTGATCTTGGCTGCGTTCCTGCTCCTCTTCTTTGGCGTGGTGCAAGGAACCAGCAATGTCAATATGTTCCACGAGTGGGGAAAATACCAGACCAGCGAAAAGGACTTCAACAAGTACGACGTACCGGCGATGAAAAAAGCCCATAAGTCCATGACCTATGCCCAATTTATCAAGGATCAGCGCACCCTCAAATACGGCAATCCCCTGCGCGGTCACGTCACCCAAGACGGCACATTTTTCAGCATGATCTATTTCTTAACAGCCATTGTGCTGGGATGTTTGATGACTTTTTGGGATCAATTTTCCGGTTTCAACCGTCTACTGTTCAGCAGCGGCGCCAGGCGCAGGCAAATTCTGGCCATGAAGGTGCGCTTATATCTGCCGGTGCTTCTAATTGGTTATCTTCTCGGTGCGGTAATCAGCTACGCCATCATTCGGAGCGGCGTCCCCCACGATTATCTGATCTTCTACTGGCGTTCGCTGTTCCTGTATCTGCCAATCTTCATTATTCAATTAATAGCGGCCTTCGCAGCGGGCAGTTTGTTCGGCATAGTGATTGGCCAACCCCTGCCGTTGGTGATCACCCTTGGTTTCTTGGGCATCAGCGCGGGCGGGTTCTCCATACATGTCATGTACTGGTTGGGCATGAATACCCGCGTCAACTACGACCGCATCACCAGCACACCTTGGTTTAATTATGCTTTCTGGCTCTTCTTTGCCATTCTCTTTATTGGCTTGTGCGTCGCCTTCTACCCCCGCATTTCTCTGGAGAACAGCCACCAATACCTGCTCATTCCCCAACTGCGGCCTTGGGTCTTAGCGGCATTTACGATTTACGTTCCCGCCGTCACCGAGGATTGGTTATTCGCCGGCCAGCACGCCATCTCCATGGCGATCACCGGCATCGCCGTCTTTTCTTTCCTATACTGGTACCTCTACCGTCCCCAATGGCTTGGCCGAAAGTCCACCCAGTCCGCCAACCACTCCCAAACTCCCGCCCCCTGA
>SRR1151209_00271 tagatose-bisphosphate aldolase
ATGGCAAAAAAACGCATTTCCCGCGGCAAGTTCGACAAGCTGCAACAATTATCCAACGATAAGGGTGTTATTGCAGCCCTGGCGATCGACCAACGGGGTTCGATGAAGCGGATCATGAAGGCCGCTGCCGAAAAGTATGGTAAGGAATACAACTTGGACATGGTTTATGAATTCAAGGAACTTGTTTCCCAAGAATTGACCAAGTTCACTTCTGCCATCCTGATCGACGAAGAACTGGGCTTCAAGGGTATGAAGTCCAAGTCTCCGAAGTCTGGCCTGATCTTGTCTTACGAAGAGACAGGTTACGATGTTAACACTGTCGGCCGCTTCCCTGAACTGCTGCCCAACGAATCCCTGGACCGTATCTTGGCCAAGGGTGCTGATGCCGCTAAGGTTTTGGTTTATTACAACCCGAACGACAAGAAAGAAATCAATGACGTTAAGCATGCCTTCTTAGAGCGCTTAGGCAACGAAGCACTGGCTGCTGACATTCCGGTATTTGTTGAAATCGTTACTTACGACGACAACGTACCTGATGCCAAGAGCCCTGAATTTGCTAAGGAGAAGCCGCAATTGGTACTGGACTCCATGAAGGAATTCTCCAAGGATCAGTACCACATTGACGTCATCAAGGCTGAAATCCCGGTTAACTGGGACTTCGTTGAAGGCTACACCAAGAACGGCAACAAGGCTGTTTACAGCCAAGATGAAGTAAAGAAGATCTTCCAAGACATGAACAGCTTGGTTGACCGTCCGTTCATCTACTTGTCTGCTGGTGTACCGGCCGAAACATTCCGTGCTGAATTGACGTTTGCCGGCGAAGCTGGCAACAACTACAGCGGTATCCTGGGTGGCCGTGCCACTTGGTTGGATGGCGTTGAAGTTTACGCTAAGGACGGCAAGCAAGCACTGATCGATTGGCTGAACGGCCAAGGCAAGGAGAACGTTGAGGAATTGAACGATATCCTGAACAAGTATGCTACCCCTTGGTACGAAGTATACGGTGGTTTGGACAACATTGAGGTCTTTGACCGCAAGGTAATGACTGACTAA
>SRR1151209_00272 acetyltransferase
GTGCACTTTATCGAAGAACCCGGCCGCTTTTTCACCAACGACCTGCAAGGCGACCTCATGGCCGAGCTCACCTACCAGCCCAGTGAAGACGGCAAAGTCTGGGTAATCGACCACACCTTCGTCCGCGGCGACCAGCGCGGCAAAGGGATCGCCAAAGAACTGCTGGATACCGCGGTGCAAGCGGCTCGGGACCGCAGTATCAAGGTCAAACCGCTTTGCACTTACGCCCGCACTCAATTCATGAAACATCCGGAAGCTTACGCTGATGTAAAAGCTTAG
>SRR1151209_00273 hypothetical protein
ATGAGCAAAGGCACCGCCTTGGACCATGTGGCCCGGGCGGTGCCTTTCGTCTTACCCGGGGCTAAGCTTTTACATCAGCGTAAGCTTCCGGATGTTTCATGA
>SRR1151209_00274 transcriptional regulator
ATGTCAGGACATTCCAAATGGCATAACATTCAAGGACGGAAAAACGCCCAAGATGCCAAACGCGGCAAAATCTTCCAAAAACTCTCCCGTGAGTTATTTATGGCTGCAAAGAGCGGAGGTCCTGACCCCAGCGGCAACCCCTCTCTACGCTTAGTCATGGATAAAGCCCGGGCAGCCAATATGCCCAAGGATAATATCAAGCGGGCCTTGGATAAAGCGGCCGGCAACGATGAGACGCACTATGATGAAGTGACTTACGAAGGGTATGCACCGGGCGGTGTGCCGGTTTTGGTCGAGGCTTTGACCGACAACAAGAACCGGACTGCTTCCGATGTCCGGGTCGCCTTTACCCGGCATGGCGGCGCTCTGGGTGCGTCTGGTTCTGTTTCCTATCTGTTTGATCGCAAGGGCTACATCGTAATTGACCGGTCCACGACCGATGCCGATGAGGACCAAGTGTTGGAAGATGTCATGGACGCTGGCGGTGATGACCTGCAAACGTCTGATGATGCGTATGAGATTTATACCAACCCGAAGGACTTCACGGCGGTTCGCGACGCGCTGGAGAAGCAAGGCTACAAATTGGCTGATGCTGAATTGACCATGATTCCCCAGAACATGACGCCGATCCCGGACGATAAGCTGGAGAAATTCCAAGATATGATTGATGCTTTGGAAGACAATGATGATGTTTCCGAAGTCTATTATGCCGCTGAACTGCCTGATAACGATTAA
>SRR1151209_00275 endonuclease III
GTGCAGTTAACACAGCTTTATAACCTGCTCTATGATACTTATGGCGACCAGGGTTGGTGGCCCGGCCGCAGCGATTGGGAAATCCTGTTTGGCAGCGTATTGATTCAAAATACCAATTGGCGCAATGTTGACCAGGCCATTGCAGCGCTGACCCAAGCCACTGGCATGATCCCGCACCAAATGCGGACGCTGTCCACGGACCAGCTGCAGGATTTGATCCGCCCGGCTGGATTTTTCACCCGCAAGGCGCAAACGATTCAGAACTTGCTGACCTGGCTGGCAGCAGCCAACGATGATTTAGCCCGGCTGCGGCGCATCCCTCCCCAGCAGCTGCGGACCAGTCTGGTGGCGCTCAGCGGGATCGGCAATGAAACGGCCGACGACATCCTCTTATATGTGCTGAGTGTCCCTACCGTCATCATCGATAAATACACCCGGCGCTTTTTTAACCGCTTCGAGATCACGCTGCCGGCCAGTTACTTAGCTGCCCAAAAGGCCGTGGCCGATCAATTGCCGAATTTCACCCTGCGCGGCCTGCAAAACTTCCACGCCCTGATCGTGGCTGTGGAAAAGGAAAAATATACAAAATCCCAATGGCAAGATTTACCAATGAGTCAGTACCGTTTAGAATGGAACCAATCCTAA
>SRR1151209_00276 D-serine dehydratase
TTGGACAAACAAGAATTGCTGGCGCAGTTTCCTGCGCTGGCCCCGTATGCCGCTGAGACACCCACGTTTTGGGCCAATCCCCACTATGGTGCGCCGCGTGATGACGCCGCCAGTCTGCGCGAAGCCGACGTCTTTGACGCCGGTACCCGCTGGCGCCGGTTCGCGCCGTATTTGGCGGAAGTCTTCCCCGAAACCGCGGCGGCCGGCGGGATCATTGAATCCCCCATTTACCGCCTGCCGCATTTAGAAAACCAGATCAGCCAGGATACTGGGACTGCCTTTCCCGGCAAGCTTTATATGAAAGCCGACAGTGAACTGCCAGTGTCTGGCTCCATCAAATCCCGAGGCGGCATTTATGAAGTACTGAAATTCGCGGAAACCATCGCGATGCGCGAAGGCGATTTAGCCTACACCGATGATTACCGGATTTTGAACAGTCCCCGCTACAAGCAGATGTTTTCCAAGTACGGGATCGCTGTTGGTTCCACCGGCAATCTGGGCCTGAGCATTGGCCTGATGGCCTCGACCCTAGGCTTTCAAACTACCGTCCACATGTCCGCCGATGCCCGCCAGTGGAAGAAGGATAAACTCCGCGCCAATGGCGTCACCGTGGTGGAATATGACGCAGACTTCACGACTGCGATCACCGCGGGACGGAAAAAAGCCGAAAGCGAGCCAAATACGTACTTCATTGACGACGAAGGCTCCACCGATCTGTTCCTGGGATATGCCGTAGCAGCAATTCGGCTGGGCAAACAATTAAAGGATGCCGGCATCAAGCTGGATGCCGACCACCCCGTCTTTGTTTATCTGCCGGCCGGCGTCGGCGGTTCCCCTGGCGGCGTCACCTTTGGTTTGAAGACCGTCCTAGGGGCCAATATCCATGGCATCTTCGCGGAACCGACCCACATGCCGTCGGTCACGATCGGGATGATCAGCGGACTGCAGGAAAAAATCGACGTCTACGATTTAGGCATCGACGGAAAAACAGCCGCCGACGGTTTAGCTGTACCCCGCCCATCCCGCTTAGCCGGCCGGGTCATGGACACCCTGCTCTTAGGCAGCTGCACCTTCCCAGATGACGATATGATGCGCTGGACCGCTCGTTTGGCCGAGCAGGAACACCATAATGTCGAACCATCCGGAGCGGGCGGCTTGGCCATTTTGGAACGTTCCTTCCCTGCTCTGGCCAAACTCGGCTACCCGGTGGAAAATGCCACCCATATCATTTGGGCCACCGGCGGCAGCATGGTCCCCGCTGCGGAGATGGCCGACTACATTAAGACCGGCGATCGGCTGCTGGCGGAGTGA
>SRR1151209_00277 methylase for ubiquinone/menaquinone biosynthesis
ATGCAGCAAGCGGACCGGCTGCCCTTGGTACCGGATATGGCCCACTGGCTGCTGACGGAGAAGATTCTGCCTGCTGGTCGGGTGCTGGATCTAGGCAGCGGCAGCGGCCGTTTCTCGCCCATGCTGGCCCGGCACGCCCAGACTTTGACCCTGATGGATATCAGTGCCCAGATGCTCCAGTACGCCCAGCAGGCGCTCCAGGTGGCCGGTCAGCACGCCCAGACCGTGATCCGGGCGCCCTGGACTGAATTTGCCCAGCGGGACCAGCAGTATGAAGTGATTTTTGCCCATATGGCACCATTTTTAACGCCTGCCGACATGCCCCGGCTGGCCCGGCTGCTGGCGCCTGCGGGCACCTTTGTCCTCAGTCGGGTGAGTGGCCGAACCGACTTGATATTTGACCAGTTTATCCGCGCGTTCCCTGAACTTAAGGCCCATTACGTGAGTGAAACCGAACAGCCGCTGGCACAGTGGCAGCAAAAAAGCCGCCAGGCCGGCTGGGCCCAACGGCAAACATCATTCAACTATCAGTATACGGAAGAAATCGACCGTGACTATCTCACCGAAGAACTGCCGCCACTACTGAGCGCCGCGCACCAGCAGGCGTTTCAAGCGCTGATTGATCGGCTCTTCGGGGCGACCGCCACGCAGGTTACACAAAAGACGCTGACAGTGGGGGTGACTGCCTTCACTCCGCCAGCAGCCGATCGCCGGTCTTAA
>SRR1151209_00278 glucosamine-fructose-6-phosphate aminotransferase
ATGTGCGGAATCGTCGGTGTGATCAGTGCTAAACCGGTTCAAAAGATTTTAATTAATGGATTACAAAAATTGGAGTATCGCGGTTATGATTCAGCGGGTATTTTTGTCAACAGCGCCCGCAACGGTCAGCATGTGGTGAAGACAGTAGGTAAAATTGCCGCCTTAAAGGCCCAGCTGACCCCGGCGGTAGAAGGCACGATGGGTATCGGCCACACCCGCTGGGCGACTAACGGTGCACCGACAGATGCCAATGCCCACCCTCAATACTCAGCAGACGAGCGCTTTTACTTGGTTCACAACGGGGTGATCACTAACGCCGCGGCGTTAAAAGACCAGTACTTGACGGGGGTACCGTTCAAATCACAGACCGACACCGAAGTCGTGGTCCAATTGGTGGCTAAGTTCGTGGCTGACGAGGGATTAACACCGGCTGCTGCCTTTTACAAGACTTTGAATTTGCTGCAGGGCTCCTATGCATTTGTCTTGGCGGATGCTGAAGATCCCAACACGCTGTATGCGGCAAAAAACAAATCACCGTTATTGGTCGGCATCGGCGAGGGTGCTTACTACGTCGGCTCCGATGCCATGGCGATGATCGATCAGACGAAACAATTCAAGGCACTGCAGGATGGTGACGTCGTGATTATGCATCAGGATGAATTGACCATCACCGATTTGGCGGGCGACTTTGTCCACCGCGATACGTTCACGGCCAACATTGACGCCAGTGAAATCTCTAAAGGAACTTACCCGTATTACATGCTTAAGGAGATTGACGAACAGCCGGCTGTGATGCGCCGCATCGTTGATGCTTACTTACCGGCCGACGGCAGTGTGACCGTATCGGCGGACTTGCTGACAGCACTCGACCAAGCGGATCGGCTGTACATCGTCGCCGCCGGTACCAGCTACCATGCGGGCTTAGTGGGCAGCTACTTATTCGAACAAGTAGCCGGCCTGCCCACTGAGGTGCATTTGGCCAGCGAGTTCGGCTACCACATGCCGCTGCTGTCCGCCCATCCGTTCTTCCTGCTGCTGTCCCAAAGCGGTGAAACTGCAGACAGTCGGGAAGTACTGGTCAACGTGAAGAAACAGGGCTATCCAGTTTTGACCATGACGAATACTGCTGGGTCGACGCTGTCCCGGGAAGCCGATTACACGATGCTGCTGCATGCCGGTCCGGAAATCGCCGTGGCGTCTACCAAGGCGTATACGGCTCAAATCGCGGTGCAGGCGGTCTTGGCCAAGGCCTTGGGGCTGCATCGCAACCTGACGGCCGCCAAAGCGTTGAACCTGCGTCATGAGTTAAGTCTAGCTGCCGCTGGAATGCAAACACTGGTGGACGAAAAAGACCAGATCAATAATCTGGTTGGTCAGTATTTCCCGAATCAAGCCCATGCGTTTTACATTGGTCGGGGTGAGGACTATCCGCTGAGTTTGGAGGCCGCGCTGAAGCTCAAAGAGGTCTCCTACGTCCACACGGAAGGCTTTGCCGCCGGCGAGCTGAAGCACGGTACCATTGCCCTGATCGAAGAAGATACTCCGGTCTTGGCATTCATTACTGATGACGCCACCGCTGCGCACACCCGCAGTAATCTGCAAGAAACCGAAGCCCGGGGCGCCCATACAATGACCATCGTCAGTGAGCATCTCGCCCAGCCGACAGACAATATTGTCCTGCCGGATGTGGCCCCGCTGCTGAGTGCTTTGGTTGGGATCGTACCCGCCCAGCTGATCGCGTATTATGCCGCGTTAGGCAAGGGCCTGGACGTGGATAAGCCGCGGAACTTGGCCAAGAGTGTGACAGTTGAATAA
>SRR1151209_00279 acetylornithine deacetylase/succinyl-diaminopimelate desuccinylase
ATGTCAGATGGAACTGCCATTGCCTTTCTTCAGGATCTGATCCGGATCCCCTCCGTCGGCGAACAGGAAGAAACTGTCGCCGAGCGGATTTGGGAATTCATTGAGGCTTCTGGGAAAGCACACTATTTTCATAAGCAGAGCATTCCTTACGCCGATGGGCGTGAGGAACTGGTGTTAGATGTCGGAAAGAATGCGGACGCTCCATTATTAGGCGTTTCCGGACATATGGATGTGGTCAAGGCGGGTAATGAAAAAGACTGGACCTACCCGCCCTTTGCGGCCACCATCAAGGATGGGCTGTTATACGGCCGCGGTGCCAGCGATATGAAATCAGGGTTAGCGGCACTGGTTGTGGCCTTGACGAATGTCGCCGGGACTAATTTACCCAACCGGATTCGGTTCATGGGCACGACCAGTGAGGAAGTCGACAACGGCGGCGCAGCAAAATTAGCCAAGCTGGGCTTCACCAAAGATCTTGATGCGCTGCTGGTTGCGGAACCGACCGGGTTCAAAACGATTTGGCACGGCGAAAAGGGAATCTTGGATTTCACCGCCCAAGTCAAAGGCAAGGCGGCTCACAGCTCCCAACCGGAATTGGGTAAAAACGCCATCAATGATCTGCTGACACTGGCTGCACTCACAGCAGCCCAGGCGAAAGTCTTAACGGATAAAACAGACCCGCTGCTGGGCCACGCAACGTACAACCCCACCTTGATCGGCGGTGGCGTGCAGGTGAACATCATCCCTGAGTCTGGTTATTTCCGGGGAAATATTCGCTCCACCCCGACGGCCAATAATGACCAGTTCAGTCAGGCCCTGCAGACTGCAGTTCAAGAATCTAAGAAACAGGGCGTTGACGGATCGATTCACGTTGATTCGGCTTTGCCTGCGCTGGCCAGCGCGCCGGACAATCCGCTGATCAAACAACTCCAAGCCATTCTCCGCGCTAATGGGTATGATACTGCCGACGTCATCGGCGGACCCGCGATTTCCGATGCATCCGTGATGATTCCAAACGGGTTCCCCTTCGCGGTTTTCGGACCTGGGAATGACACCAACCACCAAGTCGATGAACATATCAAAGTGGCCGACTACTTAGCAGCCATTCACCTATACACCGATCTCTTCACTCATTTCGGTGCTGGGCTGATGGAACAACAAAATTAA
>SRR1151209_00280 phosphoglucosamine mutase
ATGACAACGAAGTACTTTGGGACAGATGGGGTTCGGGGAATCGCTAACCGGGAATTAAGTCCGGAGCTGGCATTTAAACTAGGCCGGGCAGGCGGCTATGTGCTGACCCAGCACGCGACTGAAAAGGATGCTGAGGGTGCGCCGCACGCCCGGGTTTTAGTGGCCCGGGATACTCGGATCTCCGGGGAAATGCTGGAACATGCACTGATCGCTGGTTTGCTGTCAGTGGGGATTGAAGTGCTTAACCTGGACGTAATCACGACTCCGGCGGTGGCCTATTTGACCAGAGTACAGAATGCTAACGCGGGGATCATGATTTCTGCCTCCCACAACCCGGTGGCGGATAATGGCATCAAGTTCTTTGGCCCGGACGGGTATAAATTATCTGACGAAACGGAAGAGGAGATTGAAGCCTTGCTGGACGCACCGGAAGATACCTTACCTCGGCCTGAAGCAAAGGGTTTGGGTACTGTTGCCGATTATCCAGAGGGTGCATTGAAATATCTGCAATTCTTAGAACAATCCGTTTCGGAAGCGTTGGATGGCATTCCCGCTGTATTTGACGGGGCCAATGGGTCCACGTCGGCCCTGATCAGCCGATTGTTCGCGGATGTGGATGTCGATTTCACAACGATCGCCACGAAGCCCAATGGCTTGAACATTAACGATCACGTCGGCTCCACCCACCCTGAGTTATTAGCCAAGACCGTTGTCGAACGGCATGCTAAGATGGGGGTCGCCTTTGATGGCGATGGCGATCGGGCGATTGCCGTGGATGAAAAAGGCAATATCGTTGATGGCGATAAGATCATGTATATTTTGGGCAACTACTATGATCAGCGCGGCCGCTTGAAGAAGGACACCGTGGTCACGACGGTCATGAGCAATATTGGTCTCTACAAGGCCCTGGACAAGGCCGGTATGCATTCTGAGCAGACCCCAGTGGGCGACCGCCACGTCGTGGAAAAGATGCGCGAGGGGGGTTACAACCTGGGCGGCGAACAGTCCGGCCACATTATTATTTTTGATTTCCATAATACTGGTGACGGTATGCTGACGGCTCTGCAATTGCTGAATGTGATGAAACAGACTGGTAAACCGTTGTCTGAACTTGCTGCCCCGTTAAAGACCTATCCGCAAAAGCTGGTGAATATTAAAGTCCAGGCCAGTGCCAAGAACAAATGGCGGGAACACCCAGAAATCATGGCGGCCATTGATACGGTAGAGAAAGAAATGGCCGGCGATGGCCGGGTGCTGGTACGGCCCTCCGGAACAGAAAGTCTTTTACGGATCATGGCGGAAGCGCCGACTGAAGAAAAGGTCAGCCAATACGTTGATCAAATCGCCGATGTTGTCCGCAATGTTATGGGTGAATAA
>SRR1151209_00281 hypothetical protein
ATGTGGACTAAAATCACCAATAGCAAGTGGTTCTATCGGATCATTTCTCTGGCTTTTGCCCTGCTGTTATTCACGTATGTCAACTACAACAGCTTGGTCACCAACCGGAATACGGCAGAACGCCAAGCGATCGCCGCGACGACCAAGAAGACCTTGAAAGTGCCCCTGCAGCTGAATGCTGATACTGACAAATATTATGTAACCGGCTATCCGGCCAAGGTATCCGTGACGCTGGAGGGCCCGTCCTCCTTGGTATCGATGACCGTCAATACCCAGAATTTTGAGGTCGTGGCCGATCTGAGCAAGCTCAAGGTGGGCAAACACGTCGTTAAACTGAAGGCCTCCGGCTTGAACAAGGAGCTGACCTATGAGATTTCGCCGAAAGAAATCACGGTGAATATCCAAACTCGGCGGACGCAGAAGTTCCCGATTCAGGTCACTTATAATAAAAACGCGATTGCCGACGGCTATATCACAGATCAGCCCAAGCTGAGTCAAAATACAGTGGAAGTCACCGGAGCAACGGACGAAATTCGCAAGATTGCTCGAGTCGTCGCTAATGTGCCGCTGTCGCGGGATACGAAGACCACCTCGAACCAAGAGGTCCTCTTGCAAGCCTTGGATAGCAACGGTAATATTGTGAATGCTGTTTTGGATCCCCAGACCATTCACGTCACCTTGGGCATTCATCTGCCCAGTAAGACGGTGCCGCTGAGCTTGTCCACTGAAAAAGGCCAGAGCAATCTGGCGTATTCAGTGACGACCAGCGTGAAAACTGTGAAAATCACCGCCCCCAGCGATGTGCTGAATAAAATCAAAGAGCTGACTGTGCCCATTGATGTCAGCAGCATCACCTCGGCAGGCAGTTATAACCAACAGGTGTCCATTCCGTTGAAAGATAATGATCTGGATGGCGCCGATCCCAGTTCGGTGAAAGCGACCATTAAAGCGGCCACGGACCGATCTGAGAGTGAAAGTGAAAATGAAAGCGACAGTACGCCGACCGCCAGCAGCAGCCGCAGCAGTACCAGCAGTAGCAGTAGTAGTGATAGCAGCAGTAGCAGCAGTAGTAATGAGTGA
>SRR1151209_00282 membrane protein
ATGCAATTGTCATTTAGCAACCTGATCAGCTGGCAGTCGTTGGCCAATCTGATCGATATCTTAGTGGTCTGGTACGTGATCTACAAATTGATCATGCTCATTCGCGGGACTAAAGCGGTCCAGCTCGTGAAAGGGATCGCGGTTATTGTCGTGGTCAAACTAGCCAGCATGCTGCTGCATCTCACGACGATTTCTTTCTTGATGGATCAAATTCTGACCTGGGGGGTCATTGCACTGGTGATCGTCTTCCAGCCCGAAATTCGCCGCGGCTTGGAGCACTTGGGCCGTGGCTCGATATTGCAGCGGGCTAGTCAGGACCAGAACCGGATCGCCGAGCGGATGATCAATGAACTGGACAAAGCCATTCAGTATATGGCTAAGCGGCGCATTGGTGCGCTGATTTCAATTCAAATGAAAACCGGGTTGGAGGACTATATTGAAACCGGGATTCCTTTGGATGCGGACATTTCCAGCGGCTTATTGATCAATATTTTTATCCCCAATACGCCGCTGCATGATGGGGCCGTGATCATTCGCGACAACCGTATTGCCGTAGCGGCGGCCTATTTGCCGCTTTCTGAAAGCAACACGATCCCTAAAGAGTTAGGGACGCGGCACCGTGCGGCGGTGGGAATCAGTGAAGTGACTGATGCTTTGACTATTGTCGTCTCGGAAGAAACCGGCGGTGTCACTTTAACAAAAAACAGCCAGTTGATGCGGGACATGAGTCAGGCCGAGTATCTCAAGTATCTGCGTTCCCAATTTATCGTCGCTGATAAAGAACCGAATCAATGGGATCGGATTCGTGATCGCATCGTCCACTTCTTCACCGGTAATGGTAATGGAGGTGACCACCATGTGGACTAA
>SRR1151209_00283 membrane protein
ATGTCAGAACGTGCATGGCGCTGGGGTATCCGGCTATTTTTCTGGGTGTACATCGGGTTGACCGCATGGCTGATCCAAGACGCCTTCAGCTTCTTGGCCTTTAACACCCTCCTAGCCTATATTCCCATTGAAATCGGCTTCTGGTTGCAGTACCACCGGTTTCGCTGGCCTATTGTCTTTTGGCTGACAGCCCTGGTTTGGCTGCTGTTTTATCCCAACGCGCCGTATATCTTAACCGATTTTTTCCATTTGTCTCTATTGCGTCCCTATGGCTTCTCCGGACTGATCCGCAATTCATTACCGCTCTGGACCCATTTTCTCCTGTTGGTGGGTATCGGGCTGATCAGCGCCGGCGTCGCCCAAATCGGTAGTGAACGCATCCTGCAGCGGATGCTGGCCTATTGGCCCAACCGCCGGCACAATTGGCTCCCAGTCGTCCGGCTGGCCTTCTACATCCTGGTGGGCATCGGTATCTACATCGGCCGCTTCCTCCGCCTGCACACCTTTTACCTCCTCACCCCCGACCTCATCTGGCGCCCCATCATGCAAATGTGGTCCTGGCACATGGCCGGTTTCGTCGGCTTGATGGTGATCCTGCAGTACATCATCTGGGCCCTAATGGTCTACAGCAGACAAACGAAACGGTCTGACTAG
>SRR1151209_00284 hypothetical protein
ATGGGCTCAGTGGTGCAACCACACGGCGGCTTGCCGCCGATGTGGTTAGGCGACTTTGAGACCGCGGTTTTTGCGGGCTCAAAGTCGCCGTCACCACTAGCTACGCCTTCGGCTTCGCACTTGCTGCGCTCCGCCAGCCCAATTCTGCCGGAGGTTGTGCAGCATTGGCACGGCAATCAAAGCCCCACCTAA
>SRR1151209_00285 spermidine/putrescine ABC transporter substrate-binding protein
ATGAAAAAATTAATGAGTTTCTTCATTGCTATCGTGGCGGCGTGTCTGCTCTTAACATTGGGGGTCAACCGGCTGGAACACGCCCAGGGTGACGCGAATGCCAAAACGCTGAATCTGTTCAACTGGGGCGACTATATCGATCCGGCGCTGCTCACGAAGTTTTCGAAAGAAACCGGCTATAAGGTGAATTATGAGACCTTCGACAGCAACGAAGCGATGCTGACGAAGATCCAGCAGGGCGGGACCAGTTACGATTTGGCCGTACCCAGTGATTATACGATCGAGAAAATGAAGAAAGAGCACCTCCTGCTGCCCTTGGATCGCAGTAAGATCAAGGGCATGAACAACATTGGCAAGGACTTTCTGAATAAGAGTTTTGATCCGGGCAATCGCTATTCGATTCCGTATTTCTGGGGCACCTTGGGCATCATTTACAATGACCGTTATGTGCAGGCTGATGAAATGCAGCATTGGTCTGATTTATGGAATCCCAAGTGGCGGCACAGTATCATGCTGGTGGACAGTGCCCGAGATATTTTAGGTCTGGCGCTGGTGAAAAACGGCGATTCGATGAATACTAAGTCCGTTGCGCAGGTGACTCGGGCGAAGGACAGTCTGGATGATCTGGCGCCCAACGTGAAGGCCATCGTGGCCGATGAAATCAAGATGTACATGATCCAAAACGAGGCGCCCTTGGCCGTTACGTGGTCCGGGGAAGCCAGTGAAATGCTGGCGAATAACAGCCATCTGCACTATGTCGTACCGACTGAAGGCAGTAATCTGTGGTTTGACAACTTGGTGATTCCGAAGACGGCGAAGCATTTTAAGGCGATCTACGCGTTCTTGAATTTTATGCTGGAGCCGAAGAATGCCAAGCAGAATGCGGAGTATGTTGGTTATGCGACGCCGAACGACAAGGCGAAGGCGATGCTGCCGAAGGCAATTCGGAATGACAAGCAGTTTTATCCGGAGCCGAAGACGATTGGCAAGCTGCAGGTTTATGATGACTTGGGGTTGAAGACCGTGGGAATGTATAACGACTTGTTCTTGGAGTTTAAGATGCACCGGTCATGA
>SRR1151209_00286 spermidine/putrescine ABC transporter permease protein
GTGCAAAAGAAAAATAAGCTGGGCCGGCTCTATCTGGTCTTTGTCTTCCTGGTCCTGTATCTGCCGATTGCCTACCTGATTTACTTTTCATTCAGCACCGGCTCGACCATGAATACGTTCAAGCAGTTCACTTGGGCTAACTACCAGACACTGTTTGCGGACACGCGGTTGATTCAAATCGTGTTGCAAACACTGCTGCTGGCGTTGCTGTCGTCCTTGATTGCGACGATCGTCGGGACCATGGGCGCCTTGGGTATCGCGGCAACCAAACGCCAGGCCAATCGAAATCTGATGCTGTCGCTGAATAACATTCTGATGGTCTCGCCAGATGTCATTATCGGGGCGTCATTCCTGATTCTCTTCACCATGCTGGGGATTAGTTTAGGCTTTGGTTCCGTATTGGCCAGTCACATTGCCTTTTCGATTCCCATTGTGGTCTTGATGGTCTTGCCCCGTATCCAGGAAATGGACCATGCCTTGATCGATGCCGCGTATGATCTTGGGGCCAGTGGGCCGCAGGTGCTGAATCGGGTCATTTTGCCCTTCATCACTCCGGGAATCGTGGCCGGCTATTTCATGGCCTTTACCTATTCGCTGGACGACTTTGCCGTGACCTTCTTTGTCACAGGGAACGGCTTTGCCACCCTGTCTGTAGAAATATATTCCCGGGCGCGGCAGGGGATCTCACTAGAGATCAACGCCCTGTCAGCGCTGATGTTCCTGTTCGCCCTGGTCTTGGTGCTGGTGTACTTCTTCATTCAGCTGCATCAGACGAATCGCCAGCGGCGGAATAAAGAAAAGGCAGGAGGCGCGGCGAAATGA
>SRR1151209_00287 spermidine/putrescine ABC transporter permease protein
GTGAGCAATACGGCTAAACGCCTTTATTACATTCCTTATATGCTATGGATCATCCTGTTCGTGATTGCGCCGGTGGCGTTGATCATTTATCAATCGTTCTTCAACTTGGATCATCAATTCACGCTGGGAAATTACGCCGCCTATTTCACGTCCGGCACCTATCTGCGGATGACCCTGAATTCATTCTGGTATGCGCTGATCATCACCGTGGCGACGGTATTGATCAGTTATCCGGCGGCACTTTTCTTAAATCAGTTGAAGCACAAGGACTTGTGGCTGCTGCTGATCATTTTGCCGACCTGGATCAACTTGCTGTTGAAAGCTTACGCCTTCATCGGGATTTTTGGCCAAAACGGGTCGGTGAACCAGTTTCTGGGCTTCATCGGCATCGGGCCCAAGCAGATCCTGTTCACCGATTTTAGTTTCATTTTTGTGGCGACATATATTGAAATCCCGTTCATGATCCTGCCGATCTATAACGCCATCGCCGAGATCGATCCAGCGCTGCTTAATGCCAGCCGGGATCTGGGCGCGACCAATTGGCAAACGCTGACCCGGGTGCTGCTGCCCCTGACCCGTAAGGGGGTCGTGGCTGGCGTGCAGGCGGTTTTCATTCCGTCGCTCTCCTTGTTCATGTTGACCCGCTTGATTGGCGGGAATCGGGTGATCACCCTGGGCACGGCGATCGAAGAGCATTTCTTGACCACCATGAACTGGGGCATGGGGTCCACGATTGGGGTCATCTTGATCGTGATGATGTTCCTGAGCATGGCTTTGACCGCAGAACGGCGGCATAAGCGAAAGGGGATTGGTACCGGTGCAAAAGAAAAATAA
>SRR1151209_00288 spermidine/putrescine ABC transporter ATP-binding protein
ATGGCGACACCAATTATCGAATTTCACAATGTTAATAAATTCTTCGGCGACTTCCAGGCGCTGAAGAATATCAATTTTACTCTGGACCAGGGGAAGTTCTATTCTCTGCTGGGCCCGTCCGGATCGGGTAAAACGACCATTCTCCGGACGATTGCCGGCTTTAACACGGTCACCAGCGGGGAGGTCTTGTTTCAGGGCAAACCGCAAAACGATGTGCCAGCCAACAAACGACGCGTGAACACGATTTTCCAAAACTATGCATTGTTTCCGCACTTGAACGTTTTTGACAACGTGGCCTTTGGCTTGTCCATTCGCCACGTCGCCAAGGCGGAGATCGAGACGCGGGTGATGGATACTTTGAAAATGGTTCGGCTGCAGGAACTGGCGAATCGGGAGATCAATGAGCTCTCCGGCGGTCAGCAGCAGCGGGTGGCAATTGCCCGGGCAATCATTAACGAACCTGAATTGCTGCTGCTGGACGAACCGTTGTCGGCGCTGGATAAGAAACTCCGCCAAGACATGCAGTATGAACTGCGGGAACTGCAGCAGCGGTTGGGCATCACGTTTGTTTTTGTGACCCATGATCAGGAAGAAGCCCTGGCAATGAGTGATGAGATTTTTGTCATGGATGCCGGAGAAATTTTGCAAAGCGGGACCCCCGTGGATATTTACGATGAGCCGATCAACCACTTTGTCGCTGATTTCATCGGGGAATCCAACATTGTGAAAGGCACGATGATCAAGGATTACGAAGTCGAATTTGTCGGCAAGCGCTTTGAGTGTGCCGATGCCGGTATGCGGCCCAATGAGCCGGTGGAAATTGTCTTGCGGCCCGAGGATTTGGATGTGACGACCCCCGACAAAGGCAAATTGGTGGTCCAGGTGGATTCCCAATTATTCCGCGGTGATCACTTCGAAGTCGTGGCTTATGATGCGGACCACAACGAGTGGCTGATTCACTCCACCAACCCCGTGGAGGAAGATAAGGACATTGGGTTGTTCTTTGAACCGGAAGATATCCATGTCATGCGGTTCAATGAAAAGGAAGCCGACTTCGATGCGCGGCTGGAAACTTACGAAGGGGAGTGA
>SRR1151209_00289 Cro/Cl family transcriptional regulator
ATGGATATTGGTTCCCGTATTCGGAATCTGCGCGTCCAGAAAAACTTGACCCAAGAAGAATTGGGTGAACGAACGGATTTAAGCAAGGGGTTTATTTCACAGCTGGAGAACAATCAGTCATCGCCGTCATTGGATACCTTTTTTGCCATCTTAGAGGTGTTAGGCACCACCCCGGAGCATTTCTTCGCGGTGGCCGCGGAGCCGACTAAGGTCGTGTACAAGCCTGCAGAACAAACGGTGTACGAGGATGCGGACGAGCACTACACGCTGCACTGGCTGGTCCCGGATTCCAATGAAAAGCAGATGGAACCGGTGCTCTTGACTTTCAGCAGTGCTGGCGCGTTTAAGTCGTTTCCGCCATCACCGGCAGAAACCTTTATCTATTGTCTGCGCGGAACGATCATTCTGCGCTTAGGCGAGCAGGAGTATCAAGCCCAAGCGGGCGAAGCCATGTACTTTCGGGCGGATGCGCCCCATCAGTTGCGCTGTACCGGCCCCTGCCAGGTACTGATCACAGCGACAGATTCCTATTTATAA
>SRR1151209_00290 quinone oxidoreductase, YhdH/YhfP family
ATGGCGACATACCAAGCCCTGCAATTCACTGGTGATTCCGCAAAGCCGCTGATTTGGGTGAACAAAGCGCTACCGGCAGCCCGGACGCTGCCGCCGGATCAAGTCTTGGTGGCGGTGCAATATAGCCGGATCAATCATAAAGACCGACTGGCTCTGAATCCGAAAAACCGAATAATTGCCGGTAATGACTATCCCTTAGTGGGCGGTATTGACTTGGCCGGGGTGATCACTGCCTCCAATCAGCCGGTGTGGCCCGTCGGTACGGCCGTTATTGCCACCGGTTTTGACCTGGGAACGGCCCGGGACGGCGGGTTCGCCGAATATGCCCAAGTACCGATCCAGTATTTGACCCAGCTGCCCACCGGATTGTCTGCCCAAGAAGCAATGGCTTTGGGAACGGCGGGCTTAACGGCGGCCGCGGCGTTGACTGAACTCTTTCGCGTCACGGCCTTGACCGACAAAACCGCCCCCATTCTGATCACCGGCGGCCATAGTGCGGTGGGCCAAATTGCTGCTGGAATCCTCCAGCGGCGGCGCTACGCCAATGTCACGATCAGTTCGGCGCATGATTGGCCGGCTCCGGCCCAAGCTTTGGCCCACGCCAAATACGCCGCCGCCCTGGATACCGTAGGCGGCGACGCATTAAGTGTCATTTTGCCCCAAATCGCTCCCGGCGGAACGGTGGTGGCCGTGGGCAATCTGGGGCAGGCCCAGCTCACCACGTCGATCTATCCGTTTATTCTGCGCGGCATCCGGCTCCAAGGCATTGATTCCGTTCATCTGCTGCCGGCGGACCGGGCAGAACTTTGGCAGCTGCTGGCAACCAATTTACGGCCGACACCTTTCCCAGATTTTCCGACAATTTCCTTTGACCAGCTGCCGGCTGCTCTGCTTGCCGCCAATCAGCCTTCACCCGTCATCGCGGTTGCTTAG
>SRR1151209_00291 Na+/H+ antiporter
ATGCAGATCGCCCTGATCGAAGGGGTTATCCTCTTGGTGGGGCTGGTGGTGTTGTCGAACATCATCAGTCACTACTTAGTGGATGTACCCATCAGCTTGATTCAGATCGCCGTTGGCCTGGTACTGGCCCTCTTTTTTGCGGTGAAGATACCACTGGAATCGGATTGGTTCACCCTGCTGTTCATCGCGCCGCTACTCTACAACGACGGGGTGAGCTTCCCCAAGCGCCAATTGTGGGAACTTAAAGGACCAATCATTGCCAACGCCATTCTGCTGGTTTTTGTCGCGACCTTTGTCGGCGGCTTGTTTTTTCACTGGCTGCTGCCCACGATTCCGTTGGCGACAGCCTTGGCTTTCGCGGCAATCATGTCGCCGACGGACCCGATTGCCGTAGAATCCATCGCGCGGCGGGCCAAACTGCCGGATTATATTCTGCATCTGGTGGCTGGAGAAAGTCTGATCAATGATGCCAGCGGTCTGATTGGTTTTAAGTATGGGGTCAACGCCACGGTCAGCGGGGTGTTCCATCCCCAAGCAGCGGTGTTGGACTTCTTCTACATCAGTATTGTGGGGGCAATCGTCGGGCTGCTGCTGGCGTTCCTATTCCGGGCGGGGCAGACAATCTTGCTGGATCACGGGATTTCTGACGTTTTGCTGCACACGATCGTATCGCTGCTGATCCCCTTTGTCGTGTACCTGACGGCGGAGGAGGGCTTCCATGCGTCCGGCGTTATCGCGGTCGTGGTGGCGGGTATTTTTGCCTCCCAGCGGGCAGTCAACTTTTCCGCCCAGCCGGAACTGCGTATCGTGACGCAGCGGACCTGGCAGTTGGTGGTGTATTTGCTGAACGGGATGGTTTTCCTGATCTTGGGGATCGAATTGCCGGTTGCTTTCGGCGAGGCGGTCACCGATCCGGGCATCAATACATTGAATGCGGTGGGAATCGTCATTGCCATGTGGCTGATGCTGGTGGCCATTCGCGCCCTATGGACATATGGGGCGGCTTTGCTCCATTCGTGGCGGGCGGCTAAGAACGCTCGGCCCAGTTGGCGGACGGCCATTCTCAGCGGTTTATCCGGCGTGCGCGGCGCCATTTCCATGGCCGCCGTCTTTTCTTTGCCGATGACGGTGGCTGGGGGCAAACCCTTTCCGGAACGGGCCCTGCTGCTGTTTATTGCGGCTGGTGTCGTCATTTTGAGTCTGGTCATGGCCGCCATTTTATTGCCGATCCTTTCCCCTGGCAGCGGTTTGTTCCGGTCTCGGGGGAGTTCTGTGAACACGGCAGATGAAGAGGCTGATGCTGCGGCGGCCAGTGGTCAGACGATCGGTTTTGCCCAAGCCCAAAGTTACACGTATCGGGTGGCGATTACGGCACTGGAAAGTGAACGACGGCAGGATAACCAGCGGGCAGTATTGGCGATCATCAACGACTATGAGCGCCGATTGAAACAATTGCGGCAGCCCAACGGTGATAAAGTATCACCCCTGCTCGGTGAGAGTCTGCGCTTGCGGATCATCGGCGTACAGCAGGAGCGGCAGGCGTTAGACCACTTATGGCGGCAAAATTTAATTCAAGCGACGACATATCAGCGCAACGTCGCATTACTGCATCAACGGGAAGCTGATTATGCGGCCATGCTGACCAATAATTATCGGATCTGGCGCAGTGCGGGCCGGTTAATTCAGCTGCGCTATCAACAGGTACGGACTCGGATCAGTGCCAGCAATAATCGCAACAGTGCGCATCCGTTTTTTAATGAACAATTATTTGTGGAACGCGAATTAGCCAAGGGCGCGATCAAGGGTATTTCTCGGGTGACCAAAGAACCTGACTTTGCCGAGACGGCGATTTCACCCCAAAGTATTTATGAGGTGATCACTGCCTATCGGGGCCGAATCGCCCAGTTGAAGAGTCTTTCTGCGCCGCGTAATAATCAATTAGCCGATCAAATTAAAGCACTCCGCCAAACCGCTTTAGCGGCTGAACGGAGTGCAGTTCAAGAGTTATTCGAAGCTGGCCGGATCACCCCGGAAGAGGCAACGCAACTGCGCCAGCAAATCAATTTTGCCGAGAATCTGGCACTAAGCAACCGCGATGACGGGTGA
>SRR1151209_00292 UDP-N-acetylenolpyruvoylglucosamine reductase
ATGTTAGTTGATGTTGATTTTACTGATGTTTTGACCCAGGCCGGCTTTACCCCTTTACGGGATGAGCCTTTATCCAAGTACACATTCACCAAGACCGGCGGCCGCGCCGATTGGCTGATATTTCCCCGTACCCACGAAGAAACGATGCAGCTGGTGCAGCTGGCCGAAAATCACGGGATCCCGCTCACCATTATTGGTAATGCCTCCAATCTGATCGTGCGCGATGGCGGCATTCGGGGGTTGGTATTAATTTTAACGCAAATGGCGCAGATTCGGATTGAAGAAACGGACATCGTCGCCGAGGCCGGTGCCCGAATCATTGATGTGGCCGAAGCCGCATGGCGGGCCGGGCTGAGCGGTCTGGAGTTTGCTGCCGGTATTCCTGGCAGTGTCGGCGGGGCAATTTTTATGAACGCTGGTGCTTATGGCGGCCAAATCGATGAAGTCGCCGCGGCGGTGACTTACTTGGACCGCAGCGGCCATCAGCACCGCGCGGCCGGCGAAGCGCTGCACTTTTCTTACCGGCATAGTTTGATCCAAGAGAATGATGGGATTGTCTTGACTGCGCGCTTCCATTTGCAGCGCGGGGATAAGGACGCCATCCGGGCCCGGATGGATCACTTCAATGCCCAGCGGGCAGCGAAACAACCGCTGGAGTATCCATCTTGCGGCAGTGTCTTCAAGCGGCCGGTGGGGCATTTCACTGGCCCGCTGATTATCAAAGCCGGACTGCAGGGCAAACAGATTGGCGGGGCACAAGTATCTAACAAACATGCCGGCTTCATCGTGAACATTGGTCAGGCCACGGCCTCCGACTATTTGGCCCTGATTGCTTTGATTGAGCAGACAGTCTGGACTAAGTTCGGTGTCCGTTTAGAGCCGGAAGTCCGGATCATCGGCGAAGCGCCAGAACAGAAGTAG
>SRR1151209_00293 exodeoxyribonuclease III
ATGAAATTAATCTCCTGGAACGTGAACGGGCTCCGCGCCGTCCTGAAGAAGGGCTTCTTAGCCACCTTCACAGCGCTGGATGCCGATATTTTTTGCATTCAAGAAACAAAAATGCACGAGGGTCAGGCCGAAGTGAACACACCGGGGTATTATCAATACTTCAATTACGCCGAACGCAAGGGTTACTCCGGTACGGCAGTGTTTACAAAATATAAGCCGTTAGCTGTTACCTATGGGATCGCCCCCTATTTCGATGACGATGAGGGCCGGGTGATCACCCTGGAATTTCCAAAATTCTTCTTGGTCACCTGCTACACCCCGAACTCTGGCGGTGAGTTGAAGCGATTAGACTATCGGACTGGGTGGGATGAGGCCTTCCGGGCGTATGTCAGTCACTTGGATAAAACCAAACCCGTCATTTTCTGCGGCGACTTGAACGTGGCCCATGAGGAAATCGATCTCAAGAACCCGACGAACAACCATCACAACGCCGGCTTCACTGATCAAGAACGCGCCGGGTTCAGCGTACTGCTCAAAGACCGGTTCTTGGACTCTTTCCGCCACTTCCACCCCACCAAGGTGATGTATTCCTGGTGGAGCTACCGTTTCGCGGCCCGCAGCCGTAACGCCGGCTGGCGGATCGATTATTTCTGCTACTCTCAACGACTGCAGCCGGAAATTACCGACGCGCAAATTCTGACCACGATTTTGGGCAGCGACCATTGTCCAGTGGAGCTGGATACCACGGATGCCCTGAAACCCGTCGAGACTGAAGAAAAGGCAGGTGCCCAGCAAGCGTGA
>SRR1151209_00294 DNA polymerase III subunit epsilon
GTGAATTTCACAGCCATGGACTTCGAAACAGCCAATGCGCGGCCCGATTCCGCGCTTTCTTTAGCGCTGGTCGTGGTGCGCGACAGCCAGATCGTCGATTCTTTTTATACCCTGATCAAGCCCCAAAGCAAGCTGGATTGGCGTAACACTAAGATCCACGGCATCCACACCGCCGACGTGGCCGATGCCCCGACCTTCGCGGAAGTGTGGCCGCACATCGACCATTTTTTTGCCCCGGATAAACTGGTAGCCGCGCACAACGCCGGGTTCGACAGCCGCGTACTGCGGGAGACCTTGGCCAGTTACGCAATCACACCGCCGCGGTACCTGCTCATCGATACAGTGCGCACGTCGCGCCGGTTTTATCCAGAGATGCCCAATCACAAATTAAACACCGTCGCCGCCGGCCTCGGCTTCGATTTGCGCCAGCACCACAACGCGTTGGCAGATAGCATTGCCTGCGCACAGATTCTGCTGCAGGAAGAGTATGCCTTTGGCGATGATGCGTTGAAGAAATTTGTGAAGATGGTCTGA
>SRR1151209_00295 tRNA threonylcarbamoyladenosine biosynthesis protein TsaE
ATGCGGGAAATTATCACCAATGGGGCACAGGAAACAATTCAATTAGGCAAATCGCTGGGAGAAATTGCCGGACCTGGCGACGTGATTCTGCTGGACGGTGATCTTGGCGCCGGTAAAACGACGCTGACCAAAGGCATTGCCCGGGGCCTTTGCATTTCGCGCCCGGTGAAGAGCCCGACGTTTACCCTCATTCGCGAGTATCAGGAAGGCCGTCTGCCGCTGTACCACATGGATGTGTATCGGCTGGAAAATGGCGGCGCCGAAGATTTGGGCCTGGATGAATACTTTGACGGCGACGGCGTCAGCGTCGTTGAGTGGTCGGCGTTCATCACAGACCTGCTGCCGCTAGACTACGTGCGGATTCAAATTGAACGCACCGGTCAAAGCGACGACGCTCGCCGGATTCAGATTTCTGCTCAGGGTAATGAGTATGAGCGGTATGAAAACGTAGCGTGGCATAGCCGCAAGGATAATTAA
>SRR1151209_00296 phosphotransacetylase
ATGGATTTATTCGCAAGTTTACAACAGAAAATTCAAGGCAAAGACATTCGCATCGTATTCCCCGAAGGAACTGAACCCCGGATCATTGGCGCGGCGGCTCGCTTGAACGCGGAGCGCTCAGTGACGCCGATCCTGCTCGGTGAACCGGCGGCGATCCGAGCAGCCGCCGAGAAGGCTGGATTTACGCTGGGCAATATCCAGATTCTAGATCCTAACGACTACGCGGATTTCGATTCCTTGGTGACCAGTTTTGTGGACCGCCGCAAGGGCAAGAATACCAAGGAACAGGCCGAAACAATGCTGCGGGACCCGAATTACTTCGGTACGATGCTGGTATACACCGGCTTAGCTGACGGGATGGTCTCCGGAGCAGTGCACTCCACCGGCGAGACGGTGCGGCCAGCACTGCAGATCATTAAAACGAAGCCGGGCGTTTCGCGGACCAGCGGTGCGTTCATCATGCAGCGCGGGCGGGATGCCGAACGCTATATCTTTGCCGATTGCGCCATTAATATTGATCCCAATGCCCAAGAGCTGGCCGAAATCGCGGTGGCGTCAGCCCAAACAGCCAAACTGTTCGATATCGAGCCCCACGTGGCCATGCTCAGCTTTTCCACCAAGGGTTCTGCTAAGGCCCCGCAGGTCGATAAAGTCGCCGAAGCCACTCAGATTGCCCATGAATTAGCGCCGGATCTGGATTTGGACGGCGAGCTGCAATTCGATGCGGCCTTCGTACCCTCTGTTGGCGAACAAAAAGCGCCTGGTTCTACCGTTGCTGGTAAAGCGACAGTCTTTATCTTCCCAGATTTGCAATCTGGCAACATTGGTTATAAGATTGCCCAACGCTTCGGTCATTTCGAAGCCATCGGCCCGATCCTCCAAGGGTTGAACAAACCGGTCTCCGATTTGTCCCGGGGCTCTAATGAAGAAGATGTGTATAAGCTGGCCATTATCACGGCCGCCCAAACACTGGATCAAGACTAA
>SRR1151209_00297 uracil-DNA glycosylase
GTGAAAGTCTTGATCCACAACGATTGGCAGGAAGTATTGGCCAAACAGTTTGCGGCCCCGTATTATGGCCGGTTACATGAGTTTTTGAAAGAAGAATACAGCCACCATACGATCTATCCAGAGATGCACCATATTTTTCAGGCTTTTGAGTGGACGCCGTTCAGTCAGGTGAAAGTGGTGATTCTCGGTCAGGATCCGTATCATAATCCCCATCAGGCCCACGGTTTGAGCTTCTCCGTCCTGCCCGGGGTGCAGATCCCGCCGTCTTTGCAAAACATCTATAAAGAACTGCAAGATGATCTGGGTTATCCGCCGGTCCATCATGGCTATTTGAAGAGCTGGGCCAAACAGGGCGTGCTGCTGCTCAACTCGGTCCTGACGGTGCGTGCCGGGGCCGCTTTTTCCCACGCCGGCAAGGGCTGGGAACCGCTGACGGATGCCGCTATTAAGGCGCTGTCTGCTCGGGGCGGGGTAGTCTTTATTCTGTGGGGCAACGCGGCGAAAAAGAAGATTCCGCTGATCGATCAAGAGCGCAATCGGATCATCAGCTCAGCCCATCCCAGTCCATTATCGGCCAGCCGGGGGTTTTTCGGTTCCCATCCATTCTCCCGGGCCAATGCCGACTTGAAAGAACTGGGCGAGAGCCCAATCAATTGGCAATTACCGGAAAAACCGGATATTGACGACTAA
>SRR1151209_00298 haloacid dehalogenase
ATGCTCAAAATGATTGCCTCCGACATGGACGGCACGCTGTTGAATGACAAAATGACTGTTTCTCCCGGCAACATTGCGGCTATTGAAGAAGCCACCAAGGCTGGCGCCGAGTTTGTCGTAGCCACGGGCCGCGGGCTCACCGAAGCACAGCCCTTGGTGGCCGATCTCACGGTGAAACCAGCCTTCATTACCTTGAATGGCGCCCGCGTATTCAGTGAAACCGGTGAACTGCTAGTGGATTTGCCCATTCCTCAAGGGCTGGTGACTAAACTGCGCAGGGACATCGAGGCAGAGGGTTATTACTATGAATTAGTGACCAACCGCGGCATTTTTTCTGAGAGCAAAGTGCGGCGGATTCAAAATGTCGCCGATGTCTTGACCCGGCTGAATCCGGATACGTCCTTCAAAATCGCCGTTGTGCTGGCGAGTGCCCGGCTGGAGCTGATGAACATCCACTATGTCGACTCCTTCGACAGCCTGCTGGTGGATCCGACCGTGGAGGTACTCAAGATGCTGGTCTTTGACAGCCGCGGCCAAGCCGCATTCGCCCCGATTCGGGAGGCGTACGACGCCAACGCCGGACTGGTGATTACGTCATCGTCGCCAAACAATATCGAAATCAATAGTGTCGAAGCCCAAAAGGGACTGGCTCTGGCCCGCCTGGCGAAACTGCGCGGCTACGCCATGACCGACGTGATGGCCATCGGCGATAACTTGAATGATGAATCGATGATCGCCAGCGCCGGTATGGGGGTCGCCATGGGCAACGCGGTCCCGGCCATTAAAAAAATTGCTCAGTACGTGACAGCCACTAATATTCAAGACGGGGTTGCCCAGGCCATTCGGTGGGGATTGGCTGCCAAGCCGGCCGCCCAGGCCAAGGCCCGCGTCTGA
>SRR1151209_00299 hypothetical protein
ATGCGCTTCTATGTCCCCGCCGAGCATAATGCCCTGGTCCGGGTAACGGATGAGAAAAACACCCCCCACTATCTCATTCAATCCCTCCGGTCGTTTGAATTGAACGGCGTGCGGGTCCTGTCCTTGAGCGCGGAGACGCTGGGCGAAGCTCGCCAGTCTTCATTGGGGTTATTGCCGAATTACACGCTGACCAGCCATGAAGAGACTGTCGGCCAGATCAACCGGATCGTCGGGATCTGGCGGGAAGTCATCTTTGTCAGCGGTCTAAACTGGCTGCTGGTCGGCGACCTGACCCAGAATCGCTACACCGGCTTCCACGGCAACCGGAAAGTGATGGTCGTGGATACCCTATCCACCGTCACTGACGCCGACTACTATGTCGTCGACGTTTTCCACCCGGATAACGAAGTTCCTGCCCTGCTCGTCGCTGCGGTGCTCAACCGCTGGCGCAAAGTCCGCCTGCGCTCCGGCGTCCGCAACCTCTTGCGGCCAAAGAAACGCGGCTATGTCCTCGGGGACGACTTCACCCCGTACCACCATCACCGGCGGAAATAA
>SRR1151209_00300 GNAT family acetyltransferase
GTGATTCGGATGGCTAAAAAAAGCGACGGGCCAGCAGTGCTGCCCATCGTTAATCAGATTTTTGAAGAAATGGAATTAAAAACAATGGCGAAGATTCCCCAGGATATCTTATTCAAAGAATTGGCCATTGCCTACCAGACAGAAAATTATCGGTATAGCTACCGGCGCACCCTGGTGGCGACAGATGACGATGATCAAGTGGTCGGCGTCGCCGTCGGGTATCCGGAAAGCGATGAAGCTCACGTGGATGATGCACTGCAGGCACTGTGGCCCAAGATCGGCTTACCGGCAGATTATCGGTTATTTACCGATAAGGAGGCTCGGCCGGGCGAATGGTACTTGGATTCGCTAGCCGTGGCGCCAGCGGCGCAGCATCATGGAATCGCGACGTCGCTGCTGCAGGCTCTGCCGGCGCATGTGCTGCGGACAACCGGGCTGCACCGGATTTCGCTGAATGTGGATCTGACCAATCCGGGAGCAGAGCGGCTGTATACGAAGAACGGGTATCGCAGTATTGGCGACCAGATGATTGGGGATCATCAGTATCACCATATGGTGCTGGATATTTAA
>SRR1151209_00301 sugar ABC transporter ATP-binding protein
TTGCAAGTAACTTTTAAGGACGTGACGCTGTCTTATGACGGCAAGCGCGACATTTTGAAGCATCTGAACTTTGTCATCCAGGAGGGATCCCTAGTCTGTCTGCTAGGCCCCTCCGGCGGCGGCAAGTCCACGACGCTGATGCTGATTTCGGGGCTGCTCGCCCCGACTCACGGCCAGATTTATTTTGGCGATACTGACGTTACCAAGGAAGACGCCTTAGGCCGCAAGGTCGGGATGGTCTTTCAGAACTACGCCCTCTATCCCCATTTGACGGTTCAAAAGAATATCGAATTCCCGCTCAAGATGGCGGGCCTGTCCCGGGCTGACCGGGCCAAGAAGGCCCACGAACTCGCCGCCCTGGTCCACGTGGACGACCAACTGGATAAGAAGCCCGGCGAGCTGTCCGGCGGCCAGCAGCAGCGGGTCGCGATTGCCCGGGCCTTAGCCAAGGAGCCGAGCATCCTCCTGCTGGATGAACCCTTATCCAACCTGGATGCCCGCTTACGGATCGAGATGCGGGAAGAAATCCGCCGGATCCAACGGGAAACCGGCGTCACCACCGTCTTCGTTACCCACGATCAGGATGAAGCGATGCACATTTCCGACCAAATCATGGTCCTCCATGACGGCCATATTCAACAATTCAGCACGCCCAAAACACTGTACGCCAGTCCGGATAATCTGTTTGTCGCCCAATTTATTGGCGAACCAGTAATCAATTCTGTTCCGGCCAGTGCCCTGAGCCATGATTTAGCCGGCGTTGTTTCAGACGATATCTTAAGCCGCGCGCAAACGGCCGGCATTCGGCCGGAGGCATTGACGCTGCCCCAGCGGGCCCTTGATCCGCTGACCACACTGCACGGCAAGGTTATCGAATTTGACCAATTTGGCCGGGAATCCACAGCCAAGCTGGATTATAACGATCTGCAATTGATCAGTACCGAAATGGGGCAATTGCCGCACAATACTCAGGAACTTGATTTCACTCTGGAAAAGAAAGGTTTCTTCCTCTTCGACGCGGACGGCAAACGCATCTTTGGCGGTGATGATCATGCTGAATGA
>SRR1151209_00302 sugar ABC transporter permease protein
ATGCTGAATGAAAAACCTACCGTTAAATCCACCATCAAGGGCTGGCTGTATTTGCTGCCGATGCTGGTCATTACGATCACGTTCAACATTTACCCGATCATCAAGTCGTTCTTGATGAGTTTCTACACGAAATACGATTTCTATAATGATATTGTTTCGGCTTATGGCTTCAGTAATTTCACTTACTTGTGGAACGATCCGGATTTCCATCTGGCCGTCCGCAACACCTTGGTCTTCGTCATTGGGGTGGTGCCGCTGAACATTATCATTTCCCTGGCCATTGCCCTGCTCTTGAACAAGATCAAATTCTTGGCTGGCGCGTTTCGGACGATCTACTTCCTGCCTTTTGTCACCAGTACCGTGGCTATCGCTCAAGTTTGGAACTGGATCTACCATTCCGATTACGGTCTGTTGAACTATCTGCTGGGCTTGGTCGGCGTCAATCCGATCAACTGGTTGAATGATCCAAAATGGGCCATGCCGGCGCTGATCATTATGTCAATTTGGAAAGGTCTCGGGTTCAATATCGTCCTTTTTCTGGTGGGCCTGAACAACATCAACACCCGCTATTACCAGGCGGCTGAAATTGATGGGGCAAATGCTTGGCGCCAATTCACCAACGTTACGCTCCCACTGTTATCCCCGATCACCTTCCTGGTGACGGTCAACGGTGTCATCGGCTCCTTCAAAGTCTTCGATGAGATCTTCGCCTTGTTCCAAGGATCATCCGGTCCGTCGAAGTCGGCCTTGACCATCGTGTACTACTTATACGAGAAGTTTTACACCGAATGGAAGTACGGCATCGCCGCCGCCAGCGGCGTGGTCCTCTTCTTCCTAATCCTATTCGTCACCTTGATTCAGCTGTGGTATAGCCGCAAGCACGTCCACTATTAG
>SRR1151209_00303 sugar ABC transporter permease protein
ATGAAAAAAGCTGCATCAGTTTTACGTTACGTCATCTTGACATTGGGTGCCCTCATCATGATCCTGCCCTTCTTCTGGATGCTGTCAACTTCTCTGAAGACCCAGCCGGAAACGGTGCAAATTCCGCCGGTCTGGATCCCGAAGCAGCTGCAATGGGGCAACTACGTGGAAGCGTTTAAGGCTGCCCCCTTTGCCCGCTACTTCGTGAATTCAGTGATCGTGACCACCGTTACGACAGTGGGCCAATTGTTCACCAGCATTTTGGCCGCCTTTGCTTTTAGCAAGCTGCACTTCTGGGGCCGCAATCTCGTGTTCATGATCTTTCTGGGGACGATGATGATCCCCGGCGAAATGCTGATCATCCCGAACTTTGTCACCCTGTCGAACATGCACCTGGTCAACACTTACGGCGCTTTGATCCTGCCGTGGCTGGCTAGTTTCTTCACCGTCTTTACCCTGCGCCAAACGTTCAATTCGGTGCCGGATCAGACATACTACGCCGCTAAAATCGATGGTGCCTCGGATTGGCGCTTCCTCTGGCATATTCTGGTACCGATGTCCAAATCCACGATCACCGCGGTCACGGTGCTGCAGGTCATCGGCTCCTGGAACGCCTTCATGTGGCCGCTGATCGTCACCAATGATGAAAACATGCGCACCCTGCCCGTGGGGTTGCAGGCCTTCACCACGGATGCTGGGACAAATTATGCCCTGTTGATGGCGGCGTCTACATTTGTTATCATTCCAATGGTCATTGTTTACATTTTCCTGCAAAAATACATTATTGCAGGGATTTCGAATTCAGGATTGAAAGGATAG
>SRR1151209_00304 sugar ABC transporter substrate-binding protein
ATGAAAAAGCATACTTGGTTGAAAGTCATGGCCTCGACTGTCACCGTAGTATTAGCCGCCCTGGTCATGGCCGGGTGTGGAAACAGCAATTCCAGTTCATCCAGCAGCAAGGGAAGCAGCACCACTGATAATAAAAAAGTGGAGATCACCTTCTGGCATGGGATGAACGGCCCCTATCAAAAGGCAATCAACAGCATCATCGCCGACTTCAACAAGTCGCAATCGAAATATGTCGTGAAAGGTACCGCCCAAGGGAACTATACGGCGCTGCAGCAAAAGATCATGGCTGCCGCCAAGTCCCGCAACCTGCCGACTATTTCGCAGACCACTTACACCACCGTACCGGATTACAGCAAGAGCAATTTGATCGAACCCTTGGATAACTACATGCTGCAGGGCAGCGATAAGCTGAGCAGCAGCGACTTGAAGGATATTTACCCCGCCTTCTTGAAGAGTTCCAAGTACGAAGGCAAGTATTATTCGATCCCCTTCTCCAAGTCGACTCGGATCCTGTATTACAACCAAGCCATCCTGGACAAGTACGGCATTGCCAAGCCCAAGACTTGGGATGACATCGTCGCGGCTGGCAATAAGCTGAAGGCAGACGGCATCTACGGGATGGGCTTTGACCGGTCCTGGGACATGGAATTCGAGGGCTTAGCCCGCCAAGCCGGCAATCCGCTGATCGCCCCAGGTACACTGAAAGTTAACCTGGACACTGCGGATACGCTGGAAGCTGCCAACTTGATCCAGAACATGGTGAAGAACAAGATCGCCAAGACCGCCGGTGCAGATAACTACTTCACCCAAGGCTTCATCCAAGGCAAGGCCGCCTTCTACGCTGGCTCCTCTGCTGGGGTCACCCAGATGGTCGCTCAGGCGCCTAAGACCCTCAAGTGGGGTACAATGCCGCTGCCCAGTTACAAGGGCAAGAAGGCCACTGAAATCGCCGGGAACGATATCGTCATGTTCAAGAGTGCCAGCGCCGATCAGAAGAAAGGTGCTTGGCAGTTCATGAAGTTCCTGCTTTCTTCTAAGGAAACGGCAAAATGGGCCATGGCCACCGGCTATGTGCCGCTGCGCAAATCCGCAATGGATGACACCGACTTCAAACAGTATTTGAAGGACAAGCCTTACAACCAAGCCGCTGTTGATTCCTTGGATGATGGCTTCCAGTCCACTGCCTTCTTAGGCTTTTCTGAATATCGGAACGATTTGCTGGAAGCAGTCGATCAGATGATCACGAAGAATGCCGACCCGAAGGCAACGCTGACTAAGTTGCAAGCCACCACCGAAAACATCATCAAGACCAACAAGCAATAA
>SRR1151209_00305 MBL fold metallo-hydrolase
TTGACTACGTTACGGTTTTTAAACGGTTTAGACACCATCGGCGGAAATATTGTCGAAATCGCCCAGGGGGATTCCCGGGTAATCATGGATTTCGGCGTCACCACCATTGATCCGCAGTTATCCATTGACAATATGATTGCCCAGCATCAGCTGCCCCACCTGCCCGAGTTGTTCCATCCTGAGCTGCCGGACAAGTTTCAGCACGAGGCCATCTTTATTTCCCACCTGCACATCGATCACATGGGGGCTTTGCAGTATCTGCAACGGGACATCCCCATCTATCTGAGTCCCGACGCTTATCAGCTTTATCAAGTCTTGATTGCCCAGCACATGGAAGCACCCGTCGCTAATTTGCATATCTTGCCCTACGAACAGCCCTTAACAGTGGGCAGTTTACAGGTCACCGGCTTTGCCAGTGATCACGATACGGTCGGAGCGATGGCGCTGCTGGTGGATGATGGCCGCCAATGCTTTGCCCATAGCGGGGACGTCCGTTTGAATGGACCCCACGCCGACCGCGTGCTAAACTGGTCTAGAGTGCTGAAAACTCGGCGGGTCAAAGTATTCATGCTGGAAGGGACAACATTCAGCTTTTCTGCCCCGGTTCCTGTAGAAGATGCAGACCAGCCGGCGACACCCTTAACTGAAGCAACGCTTGCCGCTAAATTTCAAGATTTGCTGCACGATCAGCCGGCGACCCAATTTATTTTGAATGTTTATCCCCGCAACGTGGAACGGTTGCTGGCCCTAGACAAAATTGCGCGCCAGGCTGATCGGCCAATCATTTGGGAACCGGAATTTGCTGCCGTCTTGCATGCCTTTGCCCCGGACACGCCGCTCACGACGTTTGGTCCGGACACCATGGCAGCAATTCAAGCGAATCCCGGTCGGTTTGTTTTGCAAAACAGTTATGCCCATCTGGCCCGACTGACTGCCCTCCCCCGACCGGCTGTTTATCTGCACTCCAACGGCGAGCCGCTGGGTGATTACGATCCCCGTTTTGCGCAGTTGAAGGACTTCCTGGCAGCCGCTGATATTCCCTTCACTTTTTTATCAGCCACCGGTCATGCTCAGCGGGCAGATTTGATCACCCTGGCCGAGCGCGTTCACGCCATGTATGTGGTTCCCTGGCACACCTTTAAGCCCCAAGCAATGGCGGATGCGTTAGCCCCAACGTATAGTGACGTCTTACTCCCTGAACGGGATTTGTACTACGAATTTTAA
>SRR1151209_00306 hypothetical protein
ATGGCAACAAACGATACATTGCCTGAAAAATTGAAACAAGAATTATTACGGACAAAAGAGTCCACGAAAAATCTGGCGGTTGATATTGGTATTTCCTACGCCAGCCTCCAATCCTACTTGACCGGCCGGACTCAACCGGGCGCTAAGAACCGCGGCATTTTGGAAGCTTATTTTGAAAAAGTGGCCGAGGAATTAGCCGCCCAACCGGCCCCCAGTGAAGAAAAGGCAGCGGCCCCCGCGGCCAAGGCGCCCACCGTGGAAGAACCCGCGCCGGTGCTGACAGACTATTCCATCTACATGGATGAATCTTTTGATCCTGAACAACAGGGCCGCGGCAACAATCTGATCGTCGTCAGCGGTATTCTGGTGCCCCAATTGGAAGAAGCGAGCTCTTTGAAGAAATTCCAAGATGCCCTTTATCCGTTTGGCTGGGACAAAGGCGACGAAGTCAAAGCCCATTTCAAGACGAACGAAAATATCGTCAAGATCTTGCAGATGAGCCACGATAAATACATCGATTACGCCGGTTTGAAGACCGAAAAGGTTCCGGTCCTGCTGACCCGGAACAATGCTAACGAACGTTTCTCCCAAACCTTCCCGTATATCCGGTTGCTGAGTGAATTGATTGGCCACACTTTGGCCGGCAAACATCTGCCGCAACTGAACCTGACCATCACCATGGATCACTCGCCGATCATTGACGAGAATCAATTGCGGATGGTCCGGGAAAGCTTGCAAAAGCACTTGCTGCTGAAATACCAGCAACGGTCCAGCATCTACATTACCAGTGCGGACTCCAAGGATCGGCTGGGCTTGCAGCTGGCTGATTTCTTAGCCAACTACCTCAATCGGGTCGCTACGAAGTCCATTGATCCGGTGATCGACTTGATCCCGTTCAACCACGATAATTCCGAGATGGCCCAACAATTCGTGTACTTCTATGGCTTGCAGGATCAGCGGATCAACTACAGCGCCCTGCCGAGCACTGCGACGGACGAACAGCCAACGGCCGTTGCGGCAACAACGACCACAGCCGCTCCGGCCGCCGCTGTCTCCACTAGCAGCCCGTCCACCCAAGCCGCTTCTGCCGCACCGCAATCGGCTCCGACACCGCAAGTACAGATTCAGGCGCCCGCAGCGCAGATGCCTGCTTCGACCGCAGACACCAATAGCAACCATGGTAATGGTAATAATACTGCCGGCAGCACTGCCCCGCAGCCAACACCTAGCCGTAAGCAGCCGGTTATCCACAAGCTGGACGCCCACTTGAGCCGGCCGGTACCCACTTCGACCCAATACTTCACCAATAATCAGCATGGGACAACAGCAAATAACCGAGAAACAACATCTGCTGCACCGGCAACTGAAGTGAAGGCCGACGCTAAGTCAACGGATGACAGCGACCATGCCCCTCGGGTGCGCGTCGCTGAAATGGAGAAGGTCAATGACTTTGTTCACGACCTTCTGCCGTTAAATCTTGCCGTCCTGGCAAACACAACCAGTGCCCAACAGGACGAATACCGGGACACAGTAAAGGGGATCACCACGATCATCTTCAGTGTTCTGCCCAGCAAGATGAAGGGCCAGCTGATCACCGGCAAACCCCGCAAGACCTTGAAAAATATTACTGATCTGCTCGAAGCGGTGCACAATGCCGAGAAGAGTATTCCAACATTGAAGATCAAGGACAAGCATGGTCAACTGACCGCTGCCCGGACAATGCTGGAGAAGACGTTACAGTGGGCCGACAAGAACAATATCACTCCGGCGGCCATCGACTAA
>SRR1151209_00307 SsrA-binding protein
ATGGCCAAACGTAAAGAGCAAAAAAAGCCGGCCAACCAGCTCGCCCAAAACAAAAAGGCCGGTCACAATTACGAGATTCTGGAAACCTACGAGGCGGGCATTGCTTTGACCGGGACAGAGATCAAGTCCGTCCGTGAGGGTAAAATGAACCTGCGGGACGGATATGCCCGGGTCCGCAACGGTGAAGTATGGTTGGAAAACGTGCATATTTCGCCCTATAAGCAGGGAAATCAGTTCAATGTCGACCCGTTACGCAATCGCAAGCTGTTGTTAAAGAAGCGTGAGATTGCCAAACTGGCGGGCGTCGTCCAGGAAAAAGGGATCGCCATTGTGCCCTTGAAAGCTTACCTGAAACATGGCTACGCCAAGATCTTGATTGGCGTGGGCAAAGGGAAGCACGAGTATGACAAACGTGAGACCCTGAAACGCAAGGAACAGGCCCGGGATGTCCAGCGCGCCCTGAGCCAGCGTTATGATTAA
>SRR1151209_00308 exoribonuclease R
ATGAATGAACACGATGAATTAATTGCGAATGTCTACGACATCTTTGGCAGTCATCCAGAGACCCAATATACGGTCGAGACATTAGCCAAGATCATGCACTTAGGCGGCGCGGCAGCCTTCAAAAATATTGTGAAGGTCCTGACCGAACTGGAAAACGACAAGCGCATCACACCTCAGGGTAACGACCGTTATCAGCTGACCCCGATCGACGAAGTCGTTACGGGTGTTTTCCATGGCCACGAGAAGGGTTTCGGCTTTGTCTCTTATGATGATGAACAACCGGATATCTTTATCCCCAAAGGCAAGACTGATACGGCCATTGACGGCGATACGGTCGTTGTCACGATGGTCGGTCCGGGCAATCCTTGGAAGAAAAAGGGCCCGGAAGGCTATATTTCCGGTGTCGTCGAACGCAAAATCACTCGTCTAGTCGGTGAGTTTGTCCAGTATTCCGACGCAGAAGCTAAGAAGACGGGTCAGGTCGGTTATGCATCCAGTCACGAAAAGAAATTGGCCCAATATGTGATTTTCCTGTCTAATGAAGGTATCCATCCCCAAATGGGTGATATGGTCTTAGTGGAGATCACTAAGTATCCCACAGCGAAGACACCGACCCAGATGGAAGGGGTCGTTTTGAAGACCATTGGGAATAAGAACGAGCCCGGGGTCGACATTCTGTCCATCGTTTACGATCATGGATTGCATGATGAATTCCCCCAGGAAGTCCTGGATCAGGCCAATAGTATTCCCGATACCGTGCAGCCGGAAGAAAAAATCGGCCGGCGGGATATTACGGATCAGCCGATGGTCACCATCGACGGTGATGATTCGAAGGACTTCGACGATGCCGTGGCGGTTTGGAAAATGGATAACGGCCATTATCATTTAGGCGTCTCTATCGCCGATGTGTCCCACTATGTCACTGAGGGATCGCCTCTGGATAAGGAAGCCTATGATCGCGGGACCAGTACCTATTTGGCCGATCGGGTGATCCCGATGCTGCCGTTCCGCCTATCCAACGGAATTTGTTCCTTGAATCCCGGAGTAGAGCGCCTGACCTTGACCTGCGACATGGAAATTGATGGTGAAGGTCACGTCGTGAAGTATGATATTTATCCCAGTGTGATGAAGTCAGCCGCCCGAATGACATACAACAACGTGAACAAAATCATCGAAGATCGCGATCCAGCACTGCGGGAACAATACGCCAAGCTGGACGACATGTTCGACACCATGGGCGAATTGCATAAGATTCTCTTTGCCATGCGTCATCGCCGCGGGGCTATCGACTTTGAAGACACTGAAGCAAAAATCATTGTGGATGAAAACTCTAAGCCAGTGGATATCGTCTTGCGTGAGCGGGGGACGGCAGAGCGAATGATCGAAAGCTTCATGCTGGCGGCCAATGAGACCGTCGCAGAGGCCTATTACAAGAAGCATGTGCCGTTCTTGTACCGGGTGCACGAAACGCCTGATGAAGATCGGATCCAATCCTTCTATGAATTTGTGTCGGCTTTTGGGATTCATCCTAAGGGCGGCACAGAGAACGTGAAGCCCAAGGCCTTGCAGGATCTGCTGGCCCAGGTGGAAGGTACGCCGCAAGAGGCAGTTGTCAATATCATGATGCTGCGCAGCTTGAAACAGGCCCATTATTCCGATGAACTGCTGGGCCACTTTGGTTTGGCGGCCGAGTATTATACCCACTTCACCTCGCCCATTCGCCGGTATCCGGACTTGTTCGTGCACCGGATGATCCATGAGTACGCGGCTAATGGCACGACCCAGAAGGAAAAGGATAAGTTCCACGAGATCCTGCCAGATGTTGCATTGCAATGTTCGACCCAAGAGCGCAAAGCAGTCGACACGGAGCGGGACGTGGATGATCTGCTGAAGACTGAATATATGGCGGACCAAGTCGATCAAGAATTCGATGCCGTCGTCGCTTCGGTCACCAGCTTCGGAATGTTCATTGCGCTGCCGAACACCGTTGAGGGTCTGGTCCACATTTCGACGATTGGCGACGACTTCTACTCATTCGATGAGAAGCAGTTAGCCTTGATTGGCCGATCGACCCATAAAATGTACCGGATCGGCCAAGACGTCAAAGTTAAATTGGTCACAGCTAATGTGACGCTGCGCCAGTTGACCTTTGAATTAGTCCTGAGCCCAGAGGATCAGCAGCGTGCGGATCAGCGGCAGAAGCGGATGGCGCAATACGGCAATTCCGGCAACTACAGCGGTCCTCGCAAGACCACTGGCGGCAAGCCGAATTTCCGCGGCAACAATAACAACAACCGCGGCAATCGGAACACCAATAATAACAACGGCGGCAAGAGCGACGACGGCTTCAACCGGCCGCGGGTCGTGCGCAGCAACAATAGTAATAATCATCGTCGCAATCAGAACCATAAGTAA
>SRR1151209_00309 hypothetical protein
ATGTGCGTTCACGACAACAAGGGGCAAAAGCCGTACCTTGGCTTTGCCCCTTGTTGCGTTAAGCAGAAATTGCTGGCTTGTGTTCCGCGACTAGGAAAAGCATGCGAGTCTGTCATCGCCGACAACGTTGTGTTCCAGCCTCTGTATCCATTAGATTATTTTGATCCGAGGTAG
>SRR1151209_00310 preprotein translocase subunit SecG
GTGTATAATCTCGTTATGACGTTACTCATTATTGATTCCATTGCCATCGTGATCGCGGTCATGATGCAGCCGACCAAACAGCAGGATGCGCTGAACGCCCTTTCTGGTGGCGGCGGCGAGCTTTTTGGTCAACAAAAGAAGCGGGGCTTTGAAGCATTTATGGAGAAAGTGACGGCCGTTTTAGGCTTTCTATTCTTCGTATTTGCGTTGATTCTGGTCTACCTCGGATCAAAATAA
>SRR1151209_00311 hypothetical protein
ATGACCAGTACAATGCTCGCCATTTTATTAACGACATTTCTCACGGTGATGACCCTATTCTTTGCGTGGCTGGCGGTCCGGGTCAGATTGCAGACCCTGGCCACGATTCGCCGCCGGATTCTTGCCTTAAAGGACAAATTACGCCGCCCAGGTGATCATTTTGAGCTCAGCGGCCCGGTGGTCAGTCATCGGTTCTGGAAAGATTATGTGCTCCGTGATGGCCGCGGAATCTTGCGCCGGGTGGGTAAAATCGTTACCTTTTTGCTGCTGATTCATATTGCGGGGATCTTTTTGCCATTGCGGCTGGTGATGCTGGTTCTTTTTCTGCCCTTTGCTGACGCGGTATATTTCTATATTCAGCTCCACCGGTACGACGATCTGGTCGCTAACTGGGATAGCCAAGTGCAGCAGCATTACATCGCCGCCGATCCCAGCGATAATCACTAG
>SRR1151209_00312 chloride channel protein
GTGGAAACGTCCAAACAGACTCAGCCAATTGATTGGACCCGTTTGATTCTGGTGGGGCGCGGACTGCTGATTGGTCTTTGTACCGGCGCGGTCGTGAGCGCCTTTCGCTGGAGTATCGGTAAAATGCTGGCCGCCACCATCTGGGTCTATCAGCAGGTCCAGACTGGCCACGGCTGGTGGTGGCTGGTGATCATCGGCGGCAGTGTCCTGCTGCCGTTAGGGGCCGGCATCTTGGTTAAGCAGCAGCCGCAGATCAGCGGCTCGGGTATTCCTCAAGTTGAGGCCCAACTGGATGACGCCTTGCAGCTGCACTGGTGGTCGATCCTCTGGCGCAAATTTATCGGCGGCGTCTTAAGTATCGGTCCGGGTCTATTTCTGGGTCGGGAAGGGCCCTCAATTCAGCTTGGCGCCGCTGTCGGCCAGGGTTTCGCGGAAACTACCGGTCAGGCCGGTACCGCGCGCCGCATTGCCATTGCCTGCGGGGCAGCTGGCGGATTATCCGCCGCGTTTAATGCGCCCATTGCCGGTACGTTATTTGTGCTGGAGGAAATATACCACAACTTTTCCCTGCTGGTTTGGCTGGCATCGCTGGCCAGCGCCGTGGCGGCTAACTTTGTCGCCAGTGTGGTCTTCGGCTTGACGCCGGTCCTGCACCTCACCTATGCCAATAGTCTGCCGTTAAATGAATACGGCCATTTGCTGGGATTAGGCGTCTTGCTGGGGCTGCTGGGCGTGGTTTATCAGAAGACATTGCTGGCCATGCCCGGCTGGTACCGGCGATTTGTCCCGCTGCCGCGCTGGCTGGACGGTCTCGTACCGTTTGCAGTCACCATTTTAGTTGGCTTTTGGCAACCGCTGTGGTTGGGCGGGGGAAACGCCATTATCCTGCACATGGGGCAAGTGGTGCCCACCCTCGGATTGTTGCTGGTCTTATTCGCGGTCCGCTTTGCATTGTCCATGGTCGCTTATGGATCCGGTCTGCCCGGCGGGATTTTTCTGCCGATTCTTAGTCTAGGCGCCGTATTGGGCGGTATTTACGCCACCGTGATGATCATGCTCGGCTGGCTGCCGCGGCAATACTTCATTAATTTTGTCATTTTTGCCATGGCTGGCTATTTCGCCGGTATTGGCAAGGCGCCGTTTACGGCTATTCTATTGATCACTGAAATGGTGGGATCACTCGTGCACCTGATGCCCTTGGCCGTGGTATCCCTCGTGGCTTATCTGGTAGTGGACGTGCTGCACGGGGCACCAATCTATGCCAGTTTGCGCGACCGGCTCAAATTGCCCGCTGGCACGCAGGGACCAACGGGCAAACGGGCGCATATTGAAATTCCGGTGACGGTTGGTTCGCGGTTGGAAGACACTTCGGTGCGTGATTTCCGTTGGCCGAAAGGCACTTTGCTGGTGGCAATTCGGCGGGGGGAACAGGAATTGGTCCCCAGCGGCGATACCTTGATTCATGCCGGGGATACGCTGTTAGTGGCAGTGGACGCCAGCATGCGCGCAAAAGTCAAAGAAGAGCTCACAGCGCTGGTCCAGCAACGGCACTAG
>SRR1151209_00313 enolase
ATGTCTGTTATTACTGATGTATTGGCCCGCGAAGTGTTGGATTCTCGGGGCAACCCCACTGTCGAAGCCGAAGTTTACACTGAACTGGGCGGCTTTGGCCGGGCAATCGTTCCTTCTGGTGCGTCTACTGGTGAACATGAAGCTGTTGAATTGCGTGACGGCGATCCCAAGCGCTTCGGCGGCAAGGGTGTCCTGAAGGCTGTTGCCAACGTTAACGACAAGATTGCTAAAGAAGTCATCGGCATGGACGTTACCGACCAACGTGCTTTGGACCAAGCGATGATCGACTTGGACGGCACCCCGAATAAGGGTAAGTTGGGCGCTAACGCCATCCTCAGTGTTTCCTTGGCCGCTGCTCGCGCAGCTGCTGACGAACTGGGCCTGCCGCTGTACTCTTATCTTGGCGGGACCAATGGTCACGTTCTGCCCACACCGATGATGAACGTTATCAACGGTGGTGCACACGCAGACAACAACGTTGACTTCCAGGAATTCATGATCATGCCGGTTGGGGCTAAGTCGATCCACGAAGCTGTTCGGATGGGTTCTGAAACTTTCCACACCTTGAAGAAACTGCTCGAGGAGCGGGGTTACATGACCGCTGTTGGTGACGAAGGCGGCTTCGCACCGGACTTGAAGAACAACGAAGAGCCTTTCGAAATCTTGGTTGAAGCCATCCAACGTGCTGGCTACAAGCCTGGGGAAGATATTTCCATCGCCTTCGACTGCGCTTCTTCTGAATTCTACAACACCGACACTCATCAATATGAATTGAAGGGTGACGGCAAGAACTATACTGCCGATGAATTCACCAGCTTGCTGGAAGGCTTGATCGACAAGTATCCGATCGTTTCCGTTGAAGATCCTTTGGACGAGAACGAATGGGACGACTGGAAGACTCTGACTGCTCGTTTGGGCAAGAAGGTCCAAATCGTTGGTGATGATCTGTTCGTAACGAACACGCAATATCTGGAAAAGGGTATTGAAATGGGCGTTGCTAACTCCATCCTGATCAAGTTGAACCAAATCGGTACGTTGACTGAAACAATGGAAGCCATCGAAATGGCTAAGGAAGCTGGTTACACAGCTATTGTTTCTCACCGTTCTGGTGAAACTGAAGATACAACGATCGCTGACTTGGTTGTTGCCACCAATGCTGGCCAGATCAAGACTGGTTCCATGAGCCGGACTGATCGGATCGCGAAGTATAACCAATTGATGCGGATCGAAGATCAACTCGGCGATGCTGCTGAATACAAGGGCATCAAGAGCTTCTACAACATCAAGAAGTAA
>SRR1151209_00314 triosephosphate isomerase
TTGCGTAAACCTATTATTGCAGGCAACTGGAAAATGAACATGAACCCTGATGAGACCCGGGCATTCGTGGCTGCTGTCAAGAATGAATTACCGGATCCCAGCAAGGTGGAGTCTGTCATTGCCGCACCGGCAATCGACATCACGGCCTTAGTGGATGCAGCCAAGGATTCTGTCTTGGTGCCCGCTGCTCAAAATGCCAATGATCACGAATCAGGGGCCTTTACTGGCGAGACCAGTCCTAAGGTTTTAGCTGACTTAGGCGTCAAGTACGTCATCGTCGGCCACTCCGAACGGCGCGGTTATTACCATGAAACGAATGAGGACGTCAACAAGAAGGCTAAGGCCGTTTTTGCCAACGGTATGAAGCCGATCATCTGTGTTGGCGAGTCCTTAGAACAACGCGAAGCCGGCGAAACGGAAGACTGGGTCGCGACTCAGGTTGAAGCCGCTTTGAACGGTTTATCTGCTGACCAGGCCAAGGCATTGGTCATTGCTTATGAACCAATCTGGGCCATTGGGACCGGTAAGACGGCGACCTCCGACCAAGCTGAGGAAGTTTGCCGGCACATCCGGGAGACGATCGCGAAGCTTTATGATCAAACGGTTGCGGATGCCACTCGGATCCAATACGGCGGTTCCATGAAGCCGAACAACGTTAAGGAATTAATGGCTCAGCCGGATATTGACGGCGGGCTGGTTGGCGGGGCTTCCCTGCAACCTGATTCCTTCCTGCAACTCGTTCACTACCAAGACTAA
>SRR1151209_00315 phosphoglycerate kinase
ATGGCAAAATTGATTGTTTCTGACGTCGATGTCAAAGACAAAAAAGTCTTGATGCGGGTGGACTTCAACGTGCCCATCAAGGACGGCAAGATTGGCGACGACAACCGGATCCGCGCTGCTTTACCGACGATTAAATACATCATCGAGCATGGCGGCAAGGCAATTCTGCTGTCTCACTTAGGCCGGATCAAGAGTGACGAAGACAAGGCTAAGCTGAGCTTGAAGCCCGTTGCTGCTCGTCTTTCCGAATTGTTGAACAAGCCGGTTGAATTTGTACCGGTTAACGAAGGCAAGGAATTGGAAGACGCCATCAACAAGCTGCAAGACGGTCAGGTATTGTTAATGGAGAACACTCGGTTCCAAGATATCGACAACGATTTTGGCAAGCGGGAATCCAAGAACGATCCGAAGCTGGGTCAATACTGGGCTTCCTTGGGCGACGTATTTATCAACGACGCCTTTGGGACAGCACACCGGGAGCACGCTTCTAACGTTGGTATCGCCACCGCTATGAAGGCTGCTGGCAAGCCCGTTGCGGCTGGCTTCTTGATGGAAAAGGAAATCAAGTTCTTGGGCGAAGCGGTCGACAATCCGGTTCACCCGTTCGTTACCATTCTTGGCGGGGCTAAGGTTTCCGACAAGATCGGCGTCATTGACAACTTGATTCCTAAGTCTGATCACATCCTGATCGGCGGCGGCATGGCGTACACCTTCTTGGCGGCCCAGGGCCACAAGATCGGCAAGTCTCTGTACGAACCGGACAAGGAAGACTTGGCTAAGCAATTACTGGCTAAAGCTGGTGACAAGATCGTTTTGCCGGTCGACAACGTGGTCGCTAAGGAATTCTCCAACGACGTGCCTTACGAGACTGTCGGCGTGGATGTTCCTGACGATGAATTAGCCTTGGATATCGGCCCGAAGACAGTTGCTCTGTTCAAGGAGAAGCTGCAAGGCGCTAAGACGGTTGTTTGGAACGGCCCGATGGGTGCGTTTGAAATGAGCCACTTCGCCAAGGGTACTTTGGAAGTCGGCCAAGCACTGGGCGACCTGCAAGGGGCCACCACGATCATCGGCGGCGGCGATTCCGCAGCGGCTGCTGAGCAATTGGGCATCGCAGACAAGATTACCCACATTTCCACTGGCGGCGGCGCTTCTCTGGAATACCTGGAAGGTAAGACATTGCCGGGTATCGCCTCCATTTCTGACAAGTAA
>SRR1151209_00316 glyceraldehyde-3-phosphate dehydrogenase
ATGACTGTCAAAATTGGTATCAACGGCTTCGGTCGTATCGGTCGTTTGGCTTTCCGTCGGATTTATGAATTAGGTGCTAAGTCCAACGATATTCAAGTTGTCGCTATCAACGATTTAACCAGCCCGGCAATGCTGGCTCATCTGTTGAAGTATGACTCCACTCATGGCACCTTCCCTGGTGAAGTGAGCGCGACTGACGACTCCATCGTCGTTGACGGCAAGAAGTACCGTGTATACGCTGAACCCCAAGCACAAAACATTCCTTGGGTTAAGAACGACGGCGTTGAATACGTTCTGGAATGCACCGGCTTCTATACTTCCAAGGCTAAGTCCCAAGCACACTTGGACGCTGGCGCAAAGCGGGTACTGATCTCAGCACCGGCTGGCAGCGACACAAAGACCATCGTTTACAACGTTAACGATGACACTTTGAACAGTGACGATCGTATCGTTTCTGCTGGTTCCTGCACAACTAACTGCTTGGCTCCTCTGGCTTACTTCGTCAACAACGAATTTGGTATCAAGGTTGGTACCATGACGACGGTTCACGCCTACACTTCCACTCAGATGCTGCTTGACGGCCCTGTACGTGGTGGCAACTTGCGTGCTGCTCGTTCTGCCGCTGTTAACACGATTCCCCACTCCACAGGTGCTGCTAAGGCCATTGGCTTGGTAATTCCTGAATTGAAGGGTGTCCTGAACGGCCATGCACAACGTGTGTCTGTTGTTGATGGTTCCTTGACTGAATTGGTTACTATCCTTGACAAGAAGGTTACTGCCGACGAAGTTAACGAAGCAATCAAGAAGCACACTGAAGGCAACGAAAGCTTCGGCTACAACGCTGATGAAATCGTATCTTCCGATGTTATCGGTACAACATACGGCTCCATCTTCGACCCGACCCAAACTGAAGTTGTTACTGCTGGCGACAATCAATTGGTTAAGACTGTTGCTTGGTACGACAACGAATATGGTTTCACTTGCCAGATGATTCGTACGCTGTTGAAGTTTGCCACTCTCTAA
>SRR1151209_00317 central glycolytic genes regulator
GTGCACGAAGAACTGGGGTGGATCGAGGCGCTCGCGCCGGATTTCCTATCTGTGCTTCGCCAACGGTATCAGGTCCTGCGCATGATCAGTTGGGCGTCCCCGATCGGCCGCCGCACACTGGCGGCTGAATTGGATGTAAGCGAGCGGGTGCTGCGCACGGAGACAGATTTCCTCCGGCGCCAGCGGCTGATCGACTCAACATCCGCCGGGATGGTCATCACCACCCATGGTCGAGAAGTTCTTCAAGGCTTGGAGAACTTCATGAATCAATTGGTTGGCATTCATGATGTGGAGAATCAATTAGCCCATGTGTTGGGTGTGGATCACGTCATGATTGTATCGGGTAACTGCGATACGCAGCCGAAGATTCTTGATGAGATGGGTGCGCTGGTGAATCAAACGCTGAACGCATTGCTGCCGGATGGCAGGAACGTCGTTGCCGTCATGGGCGGCAACACGATGGGCCATGTGGCGACCGCTCTTAGCCGTAGGCTGGGGCAGAACCGCCAGCTCATGTTCGTTCCCGCCCGCGGCGGTATCGGCGAACGGGTCGACATTCAGGCCAACACGATTTGTGCCGAGATGGCCCGTTCCACTGGCGGCGAGCATCGTGCCCTTTATCTTCCGGATAATGTGAGTGCCGATGTTTACGAGCCGCTTTTGAAAGAACCGAGTGTACGCCGGGTCCTTGATCTGATCGGTCATGCGACTGCGGTAGTCCACAGCGTGGGTGATGCCTTGGTCATGGCCAAGCGTCGTGAAATGGACGCGGCCACGATTCAGCTGTTGCAAAAGGATCAAGCAGTCGGCGAAGCCTTCGGCTATTTCTTCGATGAAGCCGGCCAGGTGGTTTACAAGGTACCGCGCATTGGCCTGCAAGTTTCTGACTTGCAGAAAATCCCGTACGTCGTCTGCATTGCTGGCGGAGCTTCCAAAGGCAAAGCAATTAAGGCGTACATGCATAGTGCACCGGAACATACGTGGTTGATCACGGATGAAGGTGCAGCTAAAGTGATTTTAAATGGGGCAACCCTTTAA
>SRR1151209_00319 hypothetical protein
ATGGATAAACACACTGCCGCCGAAGTGTTACATATCGTGAACGGCGTCTTGCTGATCACCACCGGTACGATCGCCATCGTCGCTGCCGGTCTAAGCTTGGCCGCCCCCAAGGACAAACATGAGCGTCGCCGTTGA
>SRR1151209_00320 ATP-dependent Clp protease proteolytic subunit
ATGTTAGTCCCTACAGTTATTGAACAAACTTCTCGGGGCGAGCGCGCCTATGACATTTACTCCCGGTTACTGAAGGACCGCATCATCATGCTGTCTGGCGAAGTAAATGACCAAATGGCCAACTCGATTATCGCCCAACTGCTGTTCCTGGATGCCCAGGATTCCGATAAAGATATCTACCTGTACATCAACTCTCCGGGCGGTGTCATTACGTCCGGCTTGGCAATCATGGATACCATGAATTTCGTCAAGGCTGACGTGCAGACGATTGCCATCGGGATGGCGGCTTCCATGGCCTCCATTCTGCTGACTGCCGGCACAAAGGGCAAGCGCTTTGCTCTGCCAAACGCCACCGTCTTGATTCATCAACCCTTAGGCGGTGCCCAGGGTCAGCAAACGGATATCCAGATCGCTGCTGAAGAGATCTTGAAGACCCGGAACAAGATCAACCAGATCTTGGCGGACACGACTGGCCAGCCGCTGAAGAAGATCCAAGCCGATACCGAACGGGATAACTACATGTCTGCTGAACAAGCCAAGGATTACGGTTTGATCGACCAGATCATGGACCGGACGCAACCGGCAGCAAAGAAGTAA
>SRR1151209_00321 MarR family transcriptional regulator
ATGGCAACCCCTATTATTCTGGATGAACAACTCTGTTTTTCCATTTATCAGGCACATAAAGTATTCAATCGCTTCTATGCGAAGGCACTGGCGCCATTCCACCTCACCTATTCCCAATACATCGTGCTGCTCGCCTTGTGGCAGTATGGCACGCTGTCAGTGAAGGCTCTGGGCGAACGAGTTGGGCTGGATAGCGGCACCCTGACGCCGCTCTTGAAGCGGTTAGAAAAGGACGGCTGGTTAAGCCGGCAGCGCTCTAAGCGGGACGAACGGCGCTTGGACGTCCAGCTGACCGCCTATGGCCGCGACATGCAGGATAAAGTCGACGAGCGCGTCGGTACGTGCATGGAGTGGATCGGGCTGACCCCAGACCAATACAATCATGTCCGGGATGCAGTGTCCTCTGTCCGGGATCATTTGGCGGCGATTCCTGACGGCAATTTTGAAGATCTGCCGACGATGAGCAACTAG
>SRR1151209_00322 sporulation regulator WhiA
ATGGCGTCTTTCGCCAGTCAGGTGAAAAAGGAATTAACGCTATTGCCGGTCCATCGGCAGCACGCCCGGGCTGAGCTGGCTGCTTTGATTCGGATGAACGGTACACTGCGGTTAGTGGATCATCAATTTGTCCTTTCCGTGGCGACAGAGAATCCAGCCATTGCCCGGCGTATTTATGCCTTACTGAAGCAGGTGTATGCCGTTGAGGCGGAGCTGCTGGTCAGTCGGAAAATGAATTTACGCAAGAATTATAATTACGCGGTGCGCCTGCAGGGCGGCAGCCATCGGGTGCTCACCGACCTGTCGATCCTGCAAGATGATGCCCTGCATATCAGTCACCGGATCTCGTCGGATATCAGCAGCAAAGAACCGTTGCTGCGCTCCTACTTGCGGGGGGCCTTCCTTGCCGGCGGGTCGGTGAATGATCCTGAAACCAGCCGCTATCACTTAGAGATTTACTCCACATATGCCGATCATTCCCGGGATCTGTTGGCAGCCCTGCGGTCGTTTCACTTGAATGCCAAGGAAACAGCCCGGCGCAGCGGCTATATTGTCTACCTCAAAGAGGCGGAACAAGTCGCCGATTTTCTCCAATTGATCGGTGCGACCAATGCGATGCTGCAATTTGAGGATGTCCGCATCGTCCGGGACATGCGCAATTCAGTTAATCGGCTGGTCAATTGCGAGACCGCAAATATGAACAAGACGGTGAACGCTGCCGCCCGCCAGATCGAGAACATTGAATTGATTCAAGCAACAGTCGGCCTGAGCGCGTTATCCCCATCGCTCCGAGAAATTGCGACCATCCGGCTGGCTCATCCTGAGGTGTCGTTGAAAGAGCTTGGTGAATTGCTCCCCGGCGGCCCAGTGTCGAAATCCGGGGTCAATCACCGGCTGCGCAAAATCAATGCCTTCGCGGATACCTTGCGGCAAGGCAATTACAGTAACAGAAAGGAAGCATAA
>SRR1151209_00323 hypothetical protein
ATGAATGGAGACAACCGCATTATTCGCGTCATCCGCGGCCGCCGACCCAAAGTCGTCGTTATTGGCGGCGGCACCGGCCTGCCAGTCATTTTATCCAGCCTGCGCCAGGAGAACGCTGACATCACTGCGGTCGTGACTGTGGCCGATGATGGCGGCTCCTCCGGCGTTTTGCGCAACTACATCAATGTTGTGCCGCCCGGGGATATCCGCAATGTCCTGGTGGCATTATCGGAATTATCCGATTCAGAGTTGCGGATTTTCCAATACCGCTTTAACAGTTCCGACGCCTTTCTCTCTGGTCATGCCATTGGCAATCTGATCATTACGGCGCTGGCGGAAATGGATGGCGATATTTTCACTGCTGTTCAGGAATTGTCGGCGATGATGAAAGTGGACGGGCACGTCTATCCCGTGGCGGATGTCCCGCTGACTCTGAACGCTGAGTTCACCGACGGCTCCACCCGCCAGGGGGAGACTGAGATCTCCGGTGCCGGCAAACGCATCCAGCGCGTGTGGGTGACCCAGAAGGACAACCCCGCTGAACCGCCGGAAGCGGCCGATCAGGTGATTGACGCGATCATGGACGCCCAAGTCGTGGTGCTGGGTCCGGGCTCGCTGTTCACCAGTATTCTGCCGAATCTGATGATCGACAATGTGCATCACGCGCTGCGCCATACCGCGGCCAACATTACCTATATTTGCAATATCATGACTCAGAAGGGTGAGACCGAGAACTTTTCTGACGCCGACCATGTGGCGGTATTGAACCGCCATCTCGGCGGCAACTACATCGATACTGTCCTGGTCAATACGGCGCCGGTACCGGAGAATTACATGGACCGCCAAAAGTATGATGAATACTTATACCAAGTGCGCCATGACTTCGATGGCTTACGGGCCTTTGGCTGCAATGTGATCTCCGACAATTTCTTGGACCTGCACGATCGCGGTGTTTTCCATAACGGCCGCAAGGTGGCCAAGGAGTTGCTGAATCTGGCGTTCCAAGCCAAACTGGATAAGCGCGGCAGAAAGGGCAGGGGGTGA
>SRR1151209_00324 ATPase P
ATGGCCTCAAATAATCCATTAGATGTGGTCATTATCACCGGTATGAGCGGCGCCGGCAAAACCATTGCCGCCCAAGCCTTCGAAGATTTAGGCTATTTCGTCATTGATAACATGCCGCCGTCTCTATTACCCAAGTTCTGGGACCTGGTCCGTGAATCCGGATCGATCCAAAAGGTCGCGCTGGTCATCGACCTGCGCTCCCGGGCATTCTATGACCAGATTATTTCCATGCTGGCCGATCTGGACAACGCCAATACCGTACGCACCCGGATCCTCTTCCTGGATGCCTCGAATTCTGAGCTGGTCGCCCGCTATAAGGAGACCCGCCGCTCCCATCCGTTAGCAATGGACGGTCGGCTGCTGGAGGGCATTAAACTGGAACGCGAGCTGCTCACCGAGATGAAGAATCGGGCACAAATTGTGATCGACACCTCGAACATGTCGCCTCGGCAATTACGGGAAGAGATTTTCGGCCACTTCAAGGAATCCGGTGATACGCCGTTTCACATTGAAGTGATGTCCTTCGGTTATAAATATGGCATTCCCATTGATGCCGATATCGTCATGGACGTCCGGTTTTTACCGAATCCGTACTACATTCCAGCGTACAAGCCGCTGACGGGTTTGGATAAGCCCGTTTATGATTATGTGATGAACCAGCCGGAGACTGAGAAATTCTACCAGCAATTCATTGATCTGTTGTGGCTGACGATGCCGGGTTACCAGCGAGAGGGCAAGACTAGTATGACCATTGCCATCGGCTGTACTGGCGGTCAGCATCGCAGTGTGGCGATTGCCCAGCGGCTGGCTCAGGACTTAGGCAAGAAGTATTCCGTGGATGTGACTCATCGGGATATGCATCGGCGAAAGGAGACGGTGAACCGCTCATGA
>SRR1151209_00325 excinuclease ABC subunit A
ATGGCCAACGACAAAATCATTATTCATGGTGCCCGGGCCCACAATCTGAAGAACATTGACGTGACGATCCCCCGGGATAAGCTGGTGGTCATCACTGGCCTGTCCGGGTCAGGAAAGAGTTCGCTGGCCTTCGACACGCTGTACGCCGAAGGTCAGCGGCGCTATGTCGAAAGTCTGTCAGCCTATGCCCGGCAGTTCCTCGGGCAGATGCAGAAGCCTGATGTGGACAGCATTGACGGATTATCGCCGGCAATTTCGATCGATCAGAAAACGACCTCTAAGAACCCGCGGTCCACGGTCGGCACAGTGACCGAGATCAATGACTACTTACGGCTATTGTGGGCCCGGGTGGGTCATCCCATCTGCCCTAACGACGGCACACCGATCCAAAGCCAGTCGGTGGACCAAATGGTCGCCCGCACGCTGGCTCTGCCGGAGGGGTCCCGGATTCAAATTATGTCCCCGATCGTCCGCCAAAAGAAGGGTACCCAGAAAAAAGAATTTGCCCGGGTGAAGCGGGAGGGCTATGTCCGCCTGCGGGTCGACGGGGAGACCTACGATGTGAGCGAAGCGCCGGAACTGGATAAGAACAAGAAACACGATGTGGACATCGTGGTTGACCGGATCGTGGTTCGGGATAATGTGCGGTCACGGCTTTTCGATTCCCTAGAGGCTGCCCTGCGGCTATCTGATGGGTACGCTAATGTGGATGTGATCGGCGGAGAGCCGCTGGTCTTTTCTGAACACTATGCGTGCCCCATCTGCGGATTTACCGTGGGTGAGCTTGAACCGCGGCTGTTTTCGTTCAATGCGCCGTTTGGTGCCTGTCCCGACTGTGATGGACTGGGCATGAAGCTGTCGGTGGACCCGGATCTGGTCGTCCCTGATGATACGAAGACACTGCGGGAAGGGGCCATTGCACCCTGGAACCCAATCAGTTCTCAGTATTATCCGGAATTGCTGGCCCAGGCGGCCGCCGCCTTCCATATTGATTTGGATACGCCGTTTAAGGACTTGCCGAAGAAAGATAGGGACCTGGTCATGAACGGTTCCGGCGGCAAAGAATTCCATTTCCATTATGAAAACGACTTTGGCGGCGTACGGGATGTTGATGTGGCCTTCGAGGGCGTCCTTACGAACATTGCCCGGCGTTATCGGGATACCAACAGTGACTTTACCCGAGATCAAATGCGGTTGTACATGACCGAACTGACCTGCCCGACCTGCCACGGCAAGCGGCTGAACCGTCAAGCCCTGAGCGTTAAGGTCAGCGGCGAGGATATTGCCGAAGTTTCTGACCTGTCAATCAAGGATGCACTCCCGTTCTTTAAGCAGGTCGAATTGTCTGAACAAGAAGCCGTCATAGCCAAGCCGATTTTAAAGGAAGTGCGGGATCGGCTCACTTTCCTGCGTAATGTGGGCCTGGATTATTTAACCCTGTCCCGGGCGGCTGGTACGTTGTCCGGTGGGGAGGCCCAGCGGATTCGATTAGCTACCCAGATCGGTTCCAATCTGTCCGGGGTGCTGTATATTCTGGATGAACCCTCCATTGGTTTGCACCAGCGGGACAATGACCGGTTGATTTCGTCGTTGAAAAAAATGCGGGATCTGGGGAACACCTTAATCGTTGTCGAGCACGATGAAGACACCATGCGGGCGGCGGATTACTTGATCGATATTGGACCCGGCGCGGGTGAAAAGGGCGGCGAAGTGATGGCCGCCGGTACCCCAGCCCAGGTTGCGAAAAATCCGAAATCGTTGACGGGGCAGTATCTGGCAGGGAAAAAGTTTGTGCCGGTACCGCTCGAACGGCGCAACGGCAATGGCAAAAAGATCCGCATCACCGGGGCCGCAGAAAACAATCTGAAGGATATTGATGTGGACTTCCCCCTGGGCAAGTTCATTGTGGTCACCGGAGTCTCTGGTTCCGGCAAGTCGACGCTGGTCAACCAGATCTTGAAGCGGGCGCTGGCGCAGAAGCTGAACCATAATTCCCACAAAGCGGGGAAGTACAAGAACATCACCGGCTACAAGAATATTGATAAACTGGTGGATATCGACCAAAGCCCGATCGGCCGGACCCCCCGGAGCAACCCGGCCACCTATACCAGTGTCTTTGATGATATTCGCGACCTGTTTGCCAAGACTAATGAAGCGAAGATTCGCGGGTATTCCAAGGGCCGCTTCAGTTTCAACGTCAAGGGCGGCCGTTGCGAGACCTGTAAGGGTGACGGAATCATTCGAATCGAAATGAACTTCCTGCCGGATATTTATGTGCCCTGCGAAGTCTGCCACGGCACCCGGTATAATTCCGAGACGTTGGAAGTCACCTATCACGGGAAGAACATTGCCCAAGTTTTGGACATGACCGTGGCTGAGGCACTGGATTTCTTTAAAGCTATTCCGAAGATCACCCGTAAGCTGCAGACTATTGTTGACGTGGGCTTGGGTTACGTGAAAATGGGTCAACCGGCCACGACCCTGTCCGGTGGCGAAGCCCAGCGGATGAAGCTGGCCTCTGAACTGTACAAGAAGTCCACCGGCAGCAATTTCTACATCCTTGATGAACCCACCACCGGTCTGCACACCGATGATATCAAGCGTCTGCTGACGGTCTTGCAGCGACTGGTAGATGAGGGCAACACCGTACTGATCATTGAGCATAATCTGGATGTGGTCAAGAGCGCCGACTGGCTGATCGATCTCGGTCCAGAAGGCGGCGATGGCGGCGGCACCGTGATCGCCACCGGCACCCCCGAACACGTCGCTACTGTAGCGGCAAGCTACACCGGCCAATACCTCGGTCCTATTCTTGACCGGGATAAAGCCCGGACGGAAAACGCCGTAGCAGCTAAGAAAAAGAAAACGCCGGTAAAGGCGAAGAAATAG
>SRR1151209_00326 excinuclease ABC subunit B
ATGATTACACGTCAACCTGACAGACCATTTGATTTGGTTTCGAAATACAAGCCGGCCGGGGATCAGGGTAAAGCGATTGCCCGGATCACGAAGGACTTCCAGCAAGGGGATAAAGAAGTTGTCCTAGAAGGGGCGACGGGGACTGGTAAGACGTTCACGATGGCGAACGTGATTGCAAAGCTGAACAAGCCGACATTGGTCATTTCCCACAACAAAACGCTGGCTGGTCAATTATATGGCGAGTTCAAGGAATTCTTCCCCCACAACCGGGTGGAGTACTTTGTCAGTTATTATGATTACTATCAGCCTGAAGCCTATGTGCCCTCCAGTGATACGTATATTGAAAAAGATGCCAGCATTAATGATGAGATCGATAAATTGCGCCACTCCGCGACCAGTGCACTGTTGGAGCGTAATGACGTCATTGTGGTGGCCAGTGTGTCTTGTATTTTCGGGTTGGGGGATCCTAAGGAATATGCCAAGAGCGTAATCTCTTTGCGCCAAGGGATGCAGATCGACCGGAATACATTGCTCCGGGAACTGGTCGGGATTCAATTCGAACGCAATGATATCGACTTTCAACGGGGCCGCTTCCGAGTCCGGGGGGACGTGGTGGAAATCTTCCCTGCCTCCAACGACGAAAATGCGATTCGGGTCGAGTTTTTTGGGGATGAAATTGATCGCATCGTCGAAGTAGATGCGCTGACCGGCGAGATTATCGGGACCCGGGATCAGGTATCGATCTTTCCGGCGACCCACTTTATGACCAACGACGAACAGATGGAGGGCGCCATCAAGCGCATCCAGACTGAACTGCAGGGCCAACTGAAGAATTTCCGGGAGCACGGCAAACTATTGGAGGCCCAGCGGCTGGAACAGCGAACCAATTACGACATCGATATGATGCGGGAAATGGGCTACACCAACGGGATCGAGAACTACTCGGCCACCTTGGAAGGCCGCGCGCCGGGCGTGCCGCCCCATACGCTGCTGGATTTCTTCCCAGATGATTTCAATATTATGATTGATGAATCCCACGTCACTATGCCTCAGATTCGCGGCATGTATAATGGCGACCGGGCGCGGAAGCAGATGCTGGTGGACTACGGCTTCCGCTTGCCCAGTGCCCGGGATAACCGGCCGTTGAAGCTGAATGAGTTTGAGGAACACGTCAAACGGATTCTGTATGTTTCCGCTACGCCAGGCCCCTATGAAATGGACCGGACCCAGGACCATGTCCCCCAGATCATTCGGCCGACCGGGTTACTTGATCCTATCATTGAAGTCCGGCCAATTATGGGTCAGATCGATGATATGGTCGGTGAGATCAATCAGCGCGTGGAGAAACACGAGCGGGTTTTCATCACGACGATGACGAAGAAAATGGCCGAAGACTTAACCGATTATCTCAAAGAAATGGGTATGAAGGTGCGCTACCTCCACTCAGATATCAAGACTTTGGAACGGACCCAGATCATTCGCGACCTGCGGCTCGGTGTATTTGATGTCTTGATCGGGATCAACCTGCTGCGGGAAGGGATCGATGTTCCGGAAGTTTCACTGATTTGTATTCTTGATGCCGACAAGGAAGGCTTCCTCCGGTCTGCCCAGTCGCTGACCCAGATCATTGGCCGAGCGTCGCGGAACGTCAACGGTAAAGTGATTATGTACGCCGACAAGGTGACGGATTCGATGCAAGAGGCCATTGCTAAGACCCGTGGCCGGCGCAAGGTACAAGAGGCCTTCAACGAGGCGCACGACGTCACCCCGACGACGATTGTCAAGCCGATTCGGGATGCCATTTCAGTCATGCGGCCGGCGGATGACGCTGATGAAGCGACCAAAGAGAAGGCGGCCAGTGTGGATCTGAGTACAATGACGAAGAAGGAACGTACTGAATTGATCAATAATTTGACGGAACAAATGCAGAATGCCGCCAAGAAGCTGGACTTCGAAACGGCGGCCACGCTGCGCGATACTATCTTAGAATTGAAAGCGGAAGTGGATTAA
>SRR1151209_00327 HD superfamily hydrolase
ATGGGTCTGCATCAGTACATCACGGGGTTAACAAATTTGGAATGGTTGGATCGGGCGCCGGGGTTCTTCAAGTATCAGCAGCATTCCGTTGCTGCCCATTCATTTAAGGTGGCAGCGATCGCCCAAATGCTGGGCGACATTGAGGAACAGGCCGGAAACACCATCGACTGGAAGATGCTGTACGAAAAATCATTGAACCATGATTATACGGAACGGTTCATCGGGGACATTAAGACCCCGGTGAAGTACGCCACTCCGGAGCTGCGGCATATGCTGGCCCGGGTGGAGGATCATATGACTGAGAACTTCATTCAGAATGAAATTCCGGAAGAACTGCAGGACATTTACCGTCGGCGGTTGTCAGAGGGCAAAGATGATTCGCTGGAAGGCAAAATCTTGTCGGTGGCCGATAAGGTGGATCTGCTGTATGAGTCCTTTGGGGGAATCCAAAAGGGCAATCCGGAGACGGTGTATATGGATATTTTCAAGGAGAGCTTGACAACGATCGTATCATTTAAAGCGATGCCGTCGGTGCAGTATTTCTTGGAGAACATCATGCCGGATCTGTTGAATGAGGACTTTTCGGATCGGGATAAGCTGGCCGCGATTACGAAGCAGATCGTGCCGGCGTATCATGTGGCGCGGTAG
>SRR1151209_00328 phosphoglucomutase
ATGAGCTGGCAAGATAATTATCAGCAATGGCAACAAGCTACCCTCGTACCCGATTTAGCCGAGGAACTGACTCAGATGAAAGGGCATGAAGACGATCTGGAAGACGCCTTTACTGCTCCGATGGAGTTTGGTACCGCCGGCATGCGCGGCGTGATGGGTCCGGGCATCAATCGGATGAATATTTACACCGTGCGCCAAGCCACTGAGGGCTTGGCCCGGTTTATGGACAAGTTACCCGCAGAGCAAAAGCAGCAGGGGGTCGCGATTAGTTTCGATTCCCGCTATCATTCCCAAGAGTTTGCGCATGAATCCGCGCGGGTCTTAGGGGCCCACAAGATTCCATCGTTTGTCTTTGACTCCCTGCGGCCGACTCCGGAACTGTCCTTCACGATTCGGCACCTGCACACTTATGCTGGGATCATGATCACCGCGAGTCACAACCCGAAGCAATACAACGGCTATAAGATCTATGGGCCGGATGGCGGTCAGATGCCGCCGGAAGAGGCCGATACGATCACCAAGTACATCCGCGAAGTGACGGATATCTTCAATATTCCCGTCGTTCAAGAACAGAAGCTGCGGGAAGCCAAAATCATGAGCTTGATCGGTGAAGATGTGGACGAAGCTTACTTGGCGGCGTTGAAGTCTGTCACCATCAATCCGGATTTGATTGCCAGTGATGGCAAGGACATGAAGCTGATTTACAGTCCGCTGCACGGGACCGGCAAGGTCTTGGCCCAACGGGTACTGCAGGGCGCTGGCTTCCAGGCCGTCCGCATCGTGCCGAAGCAGGCCATTTTGGATCCTGAATTTCCGACGACACCGTTCCCGAACCCTGAATTCCCCCAAGCCTTTGACTTGGCAATTCAATTGGGCAAGGAAGAATCCGCGGATGTACTGATCGCCACGGACCCGGATGCCGACCGATTAGGCACGGCAGTGCGGCTGCCCAACGGCGAGTATCAGTTGCTGACGGGGAACCAGATCGCCAGCATCATGCTGCATTACATTTTGACGGCCCGGAAGAATGCCGGCACATTGCCTAAGAATGGGGCCGTCGTGAAGTCCTTTGTATCTACTGAATTGGCCACTAAGATTGCCGAAAGTTTCGGCATGCAGATGATCAATGTGGAGACCGGCTTCAAGTTTATTGCCGAGCAGATCGAACACTTTGAAGAAACCGGCGAGCACGAATTCCTCTTCGGCTTCGAAGAGAGTTATGGTTATCTGATCAAGCCGTTCGTGCGGGATAAGGATGCCATGCAGGCAACACTGCTGCTGGCGGAAGTGGCGGCCTACTATAAGCACCAAGGCAAGACGCTATATGACGGCTTGCAGGAGCTGTACAAGGAATACGGCTACTTCGCGGAGAAGACCGTTTCCCAAGACTTCCCGGGTATCAAGGGCGCTGAAGAAATGAGTGCCTTGATGGCCAAGTTCCGGAAAGAAGAGCCCAGCGAGTTTGCCGGCGTTAAGGTTGCCCGGACCGAAGACTACAAGACCGGCCAAGCCAAGTTGGCGGATGGCAGCACGGAGAAGCTGACGCTGCCGAAGTCCGATGTTTTGAAGTTCATCTTGAGCGATGGCACCTGGATCGCCATTCGGCCGTCTGGGACGGAGCCGAAGATCAAGTATTATGTGGGCACTCAGTCTGATTCCCAAGACGCGGCCCACAAGCGTTTGGATGACTTTGAACAGGCGCTGACTGCCTTCACTAAAGCGTAA
>SRR1151209_00329 thioredoxin reductase
ATGGCCAAAGAATATGATGTCGTCGTGATCGGTGCAGGACCGGGCGGCATGACTGCCGCGTTGTATGCTGCCCGTTCCAATCTGCGGGTGGTCATGCTGGACCGCGGGATTTATGGCGGCCAGATGAACAACACCGCAGCGATTGAAAATTATCCTGGGTTTACCGATGTGCTTGGCCCCGAGTTGGGGGAGAAGATGTACGCGACAGCAGAACAAGCCGGCGTGGAATATGCTTACGGTGAAGTAAGCAGCATCGAAGACCACGGCGCCACCAAGCTGATTCACACGGACGAAGACGATTACGAAGCTAAGGCGGTCGTTTTGGCGACTGGCGCTGAACATCGCAAGGTTGGCGTGCCTGGCGAAGAAGAGTATTCGGGCCGAGGCGTATCGTACTGTGCAGTCTGCGACGGTGCTTTCTTCAAAGGTCAGCCGTTAGCCGTCATCGGCGGCGGCGATTCAGCCGTTGAGGAAGGCCTGTACCTGGCCCAATTATCACCGGATGTACACGTACTGCATCGCCGGGATCAATTGCGCGCCCAGAAGGTCTTGCAGGACCGGGCGTTTGCCAATGACCACATGCATTTTGTTTGGAACACCCAGTTGCAATCCATTGATGGCGACGGGAAGAAGGTCACCGGTGTCACTTATAAAGATAAAGTGACCGGTGAAGAGAAACAGATTGCGGTCGGCGGTGTCTTCATTTATGTGGGCATTACGCCGATGACCGCTGCTTTTAAGAATCTGCCGATTTTAGACGATCAAGGCTGGATCATCACCGACGATCATATGCGGACCAAGGTGCCTGGCGTTTTTGCTGTCGGCGATGCCCGGCAAAAGGATCTGCGCCAAATCACCACTGCCGTTGGTGAAGGCGGCCTCGCCGGTCAGCAGGTTTACCACTATATCCAAGAATTGGGCGACAAAGTATCCGCCACGCAGGCGCACGCTTAA
>SRR1151209_00330 UTP--glucose-1-phosphate uridylyltransferase
ATGGTGAAAGCCGTCATCGCTGCCGGCGGTCTGGGGGGCTCCCTCATGCCGCTGACCAAGGCCGTGGCCAAAGAGATCATGCCCTTGGGCGGCCGCCCAGTCATTGATTACATTGTGCGGGAACTGCAGGCCAATGGCATTACCGATATTCTCTTGGTGGCCAACAAGAGCAAACAGGCCATCGAGGATTATTTCGATTCGGCGCCGGAATTGGAGCATCTCCTGCGGGCGAAGGGCGATACGGCCCAGCTTGCCGATATTGCTGCTTCTACAGCGGTGAATTTGCACTTTATCCGCCAGCAAGCCGCGGATGGCATCGGCAGTGCCCTGGCTTTGGCCGAGGATTTCATTGATGGGGAAGACTTCTGTTTCGTCCTGTCGGATGATGTGCTGCCGCTGCCAACCACGTTGCTGCAGCAGTTGTGGCAGGCCCACACGGCCAGCGGCCAGCAAATGCTGGCGACGGTGCCGATCGCGGCCAAGCAAAGCGAGCAATATGGGATCGTGGAGTGGGCGGACAAAGCGGCCGGCCAGATCAAGCGGATTGCTGAAAAGCCGACGCCGGCCACGGCGCCTAGCCAGGATGCAGTCTTCGGGCGGTATGTGTTTTCGGCCGCCATTTTTGATCAACTGGCCCAATATCCCGCAGATCAACAACAATTTGCCCAAGCGCTGAATGCTTTGGCGGCTGAAGGAAATCTGACCGGGCTGCCCTATGGTGGTCCTCGGGAAAACATCGACGGCCGCCTCAGTCTGTTGGAAGCCAATATTGACCTGGCACTGACTGATCCGGATACTGCCGCACCGCTGCGCGCCTATTTGCGCAGGCTGGTCAGCGACTGA
>SRR1151209_00331 glycerol-3-phosphate dehydrogenase
ATGAACGCTAAGCGACAATTGCATCTCACCGTGCTCGGGTCTGGTTCCTGGGGCAGTGTATTGGCGGATGTCTTGGCAAAAAACGGCCATGCCGTCACGATTTATGGCCGCAATCCCCAAGAAATTGCTGAAATCAACGAACACCACACGAACACGCACTACATTGCCAATTTGCACATGGACGAGAGTATTGCAGCGACGACGGACTTGCGCCAAGCGGTCACCGGCGCAGCAGCCATTTTCTTTGTAATTCCTACTCAAGCCATTCGCTCGGTGGCGGAAAAGGTTGGTGCTATCTTAAATGAAGAGGGCAACCGGCCGTTCCTGATCTCGGCCGCAAAGGGGCTGGAAGAAGGCTCACTGGATCGTATTTCTCAAGTCTTGAGTCAATCAATCCCGGCGGCTGTCCGCGGCGATATTGTGATCCTGTCCGGGCCCAGCCACGCGGAAGATGTGGCCAAGCGGGATATTACGACCCTTACCGCGGCGTCTGCCAACGATGATGCCGCGGCGTGGGTCCAGTGGATCGTGATGAATGATTTCATGCGGATCTATACCAGCCCAGATGTTGTCGGGGTGGAGCTGGGCGGCGCAATCAAGAACGTGATCGCCATCGGTGCCGGCGCCATCCATGGGCTGGGTTATGGGGATAATACGAAAGCCGCTTTGATGACCCGGGGCTTAGCCGAAATGGCTCGGCTGGGGGTGGCCTTCGGTGCAGATCCCCTGACGTTCAGCGGCCTCTCTGGTCTCGGCGATTTGATCGTGACCTGCACCAGTACGAATTCCCGGAATTGGCGCTGCGGCAATCGATTGGGGCAAGGCGAACCCTTGCAGCACATTTTGGATACCATGGGCATGGTGGTCGAAGGCGTGCCTACCGCGAAGGCGGCCCATGACTTGAGCAGTCAAGCACAAGTGGATATGCCGATTTGCGAAGCTATTTATGAAGTGCTGTATCGCCAGCGGCCGCTGCAAGACAGTATCGATGCCTTGATGGGCCGAATCGCTAAGCCGGAGATTGATTTTTAA
>SRR1151209_00332 diacylglyceryl transferase
ATGTTGTCACTTGCTGCCCTGAATCCCGTGGCGCTGCGCCTGGGATCACTGCAAATCAAATGGTACGGCGTACTGATCGCCACCGGTGTGGTGATTGCCGTTATTCTTTCCATGCGGGAGGCGAATCGGCGTCAGATCAGCCCTGACGATATCGTCGATTTGTTATTATGGATGCTGCCGATCGGTGTGATCGGGGCCAGGGCGTACTACGTGATTTTCCGCTGGTCATACTACGCCGCCAATCCCGGCGAGATTTTTGCCATTTGGGAGGGCGGTTTGGCCATTTACGGCGGAATCATCGCTGGGCTGATCGTGCTGGTCGTGTATTGTTATTACCGGATGCTGCCGGCCTGGCTGGTGCTGGATATTGTGGCGCCGACCGTGTTGCTGGCCCAGGCCATTGGCCGCTGGGGCAACTTTATGAACCAGGAAGCATTTGGCGCGAAAACGACCAGGGCGTTTCTAGAGAGCATTCATTTGCCGACTTTTATCATTAACCAGATGAATATCAACGGGGTATATCATCAGCCGGACTTCTTATATGAGTCGATGTGGAGCCTGCTGGGCGTCATTCTGCTGCTGGCCCTGCGTCATCGGGAGCACTTATTTAAACGCGGCGAAGTGGTATTGAGCTACGTGGCCTGGTACTCCTTCGCGCGGTTCTGGATCGAGGGCACGCGGACGGACAGTCTGTATCTGTTCGGCCCCGTTCGGGTGTCTCAGTTATTGTCTGCGATCCTCTTCGTCGGTGCAGTGTTTTTGATTATCTACCGGCGCGTACGCAAGCCAAATAATCCTTGGTATCTTGATGGAAGCGGGTTGAAATATCCTTATGAACGCTAA
>SRR1151209_00333 HPr kinase/phosphorylase
ATGGCAGATGCAGTACCAGTGGCTAAGCTGGTCCAGGAAACAGATCTGAAAGTGTTCTCCGGCAAGGAGTTCATGGCAGACCGCACCGTGACCGTGAGTGATATTTCCCGGCCGGGCCTGGAATTGACCGGTTATTTTCGCTATTATCCCAGCAATCGGATTCAATTATTTGGCAAGACCGAAATTTCTTTCTCTAAGGGGATGACCCCGGACGAGCTGAGTGTTGTCTTGGGTCGGATGGCCACCGCCGAGACACCAGCATTTCTGGTGTCCCGGGGCTACGAACCACCGGCGGAAATGATCACTGAAGCCAACCGGGCGAAACTGCCGGTACTGGGATCACCGTTGCCGACGTCCCGGTTATCCAGTGTCGTGACCGAGTTTCTGGAAGAAGAATTGGCAGAGCGCCGGTCAATGCACGGTGTTCTGGTGGATATCTATGGCTTGGGCGTGCTGATCACCGGGGATTCTGGCGTTGGTAAATCAGAAACGGCCCTAGACCTGATCAAGCGGGGCCACCGACTGATCGCCGATGATCGGGTGGATGTCTATCAACGGGATGAAAAAACCATTGTGGGCGAAGCCCCAAAGATCCTGCGCCATTTATTGGAAATTCGCGGGATTGGCATCATTGATGTGATGAATCTGTTTGGCGCCGGCGCGGTGCGGGATTCGGCTGAAATTTCGCTGATCGTCCATTTGGAAAATTGGTCACCGGATAAGAATTACGATCGCATCGGGGCTCATGAACAGTTCCAGCAGATTTTTGATGTGGCCCTGCCCAAGATCATCATTCCGGTGAAAGTCGGCCGGAACTTGGCCATTATTATTGAATCGGCGGCGATGAATTTCCGAGCCCAATCAATGGGTTACGATGCCACCAAGGTCTTCGAACGGAATCTGAATTCTTTGATTAAGGAACATTCTGCGGAAGACGAAGAAAAGTAA
>SRR1151209_00334 hypothetical protein
ATGATTACACTATTGGTGCTTTTGATTCTGATTCCCGTTTTACTCGTGGTCCTGTTTGCGACTGGGATTGGGATGCTGGCCATGGTCATCGGTTTGCTGCGCTTCTTCTTCCCGGTGCTGGTCATCTATCTGATCTACCGGTGGCTTTTCGCACCGAAGCGGCCGAAGCGGCCCACTGATTTCCGCGGGACGCCCTATGCCCATCCGTATCAACCTAATCGGCCGCGCCGAGAGATCCATAACGAGGCCAAGCCGAAACAGGACAAGGGCAAGGATGATACTTGGGATGATTTCTAA
>SRR1151209_00335 phage shock protein C
ATGAATGAACGAAATAACACGAGACGATTAATGAAGTCGCGGACCGATCGCAAGGTCGATGGTGTCCTCGGCGGGATTGCCGCCTACTTCGGCTGGGACAGCACGCTGCTGCGGATTCTCTTCGTTGTCCTGTTAATGCCCAGTTTTGGGACCATGTTCGTGGTCTACATCGTCCTGGACATGATCATGCCGCTGGCGCCGCGGCCGGAAAAGCCGGCGAAGCCGAGTCAGCCCCAGGAAGAGCCGCGGTCTAAGAATAGCAGCGATGATAATTGGAGTGATTTCTAA
>SRR1151209_00336 hypothetical protein
ATGAACGAACGTGAACGGATTATGCAGCTCGTCAAGGACGGGGTCATCAGCTCGCAAGAAGCGATTGTACTATTGGAAAATTTAGCGAACAAGGCCGATAACGGCACAGAAGAGAAGCAATCGGCGGCGGAAGAGGCCAAGTCGGCGGAGCAAGAGAGTGCCGATGCAGCGCAGGAAGAGGCCGACGCGCAGGCTTCCGATGATTTACGCAATGCCCATGAGACTTTGGCTGACTTGCAACAGCAGTTGCAGGAGAAGCAGCGTCAGATTCGGGCCACAGAGGAACAGATCACCGTCTTGGATACACTGGAAGATTTGGAAGATCTGCCGGCTGAAAAGGCGGAAGAGCGTTCCAAGCTGCAGGCCAGCCTGATCACGCTGAAGGAAGACGTAGATCGGCTGAGCGATCAAGTGCAGGCAGCGAAGCAAGTCGTTGATGATTTGCAAGCCAAGACTTGGCAAAATGCGAAGAAGGAATTCGAAGATACGGATTGGGCCGGGGATTTCTCCCAAACCTTCAGCGACTTCGGCAAGCGGATGGGCAGCTTAGGCACTCAAGTCGGCCAAGCCGTCCGCGACGCGGTGACCAGTGTCACCGACAACGTGGATTGGAAAGACGTGAAGATCAAGGTGCCCGGTGTGGTCAGTGCCAGTTTCGACCATGAATTCTTGTTCGAGCACATTGACGCGCCGGCGGTTGAGATGCGTATTGCCAATGGTGACATTCGTATTAAGCCGTCCATTAACGATAACGTATCGATTCGCGGTCAGTTCAAGATTTATGGCCACTATGATGAACCGACTCCGTTGGCGGCATTGACTGCCCGCAGTCAGATCGACGTTTCAAATGAGCACATTGTATTCTCAGTACCCAATAAGCGGATTCGGGCCGACCTGGATGTTTATCTGCCCAAGCGGTTGTACGATCACACCTCGGTGAAGATCCTCAACGGCAACCTGGCCGTCGACGGATTCAATGGTCAAGACTTCTATGCCAAGCTGACCAATGGGACTGGGAGCTTTGCCAACGTGACGCTGCAATTGCTGAATGTGGAAGACATCAACGGCACCGTGAACTACGACAGCGGCAAAGTGGATGAATTGCTGGCCCAGACCATGAACGGTACGCTGACCGCCAAGGCGCCGTTCAAGAGTGCCGAGTTGAGCACTGTCAATGGGACGATTCGGGTCACTGCGGAAACCAACGACCTGCACAAGCTGGTGGCCAATTCTACCAGCGGCACGATCAAGGTATCCGTACCGGCTAGTCTCGGCCTGACCGGCGAGGCCCAGAGCAAGGTTGGGGCTGTGCGCTCACGCTTGTCCGGCTTAACCAGTGAACCGGTCCGCGGCACGGTTGGTCAGCGCTTGACGCTGGATCGCACGACGGATTCCGGTGATGTGGCCGAGCTGCAATTGACCGCTGGCGCTGGCGCCATCATGTTAAAGGATAACGACTAA
>SRR1151209_00337 phosphate uptake regulator
GTGCGCCGCGTATTTGAAGATGAGTTGAACGATTTACACGTCCGTTTTTCAGAAATGGGCATGATGGTCAATGAGGCCATATATAAGTCAGTTAAAGCGTTCATCAACCACGACAAGGAACTCGCTCGGGACGTGATCACCAGTGATCATTTGATCAACGAGCGGGAAGTCGATTTGGAGAAGCGCAGTTTTGAATTAATTGCGTTGCAGCAGCCGGTAACGACGGATCTGCGGACGATCGTGACGGTCATGAAGGCCAGTTCAGATCTGGAGCGGATGGGGGACCACGCCGTATCCATCTCGAAATCCACCATTCGAGTGAAGGGCACGACCCGGGTGCCGAAGGTGGAGCAGGATATCGCCTCAATGGCGGAGCTGGTCAAAGAAATGGTGAACGAGGTCTTGGACGCTTATGTCAAGAGTGACGATAAGCGGGCGTTGCAAATCGCCAATGAAGACCACGGGATCAACCATTATTCAGACTTGATCTATGAGACCTGTCTGGAGATCATGCAAAAGGACCCGGCAACGGTGCCGGGAAGTATGGATTATTTGTTTGTGAGTTCGTATTTGGAGCGGATCGGCGATTATGTAACGAATATCTGTGAGTGGATCGTTTACTTGCAGACGGGGAAGATCGTGGAATTGAATTCGAATGCGAAGGAAGACGACTTTTAG
>SRR1151209_00338 phosphate ABC transporter ATP-binding protein
ATGGCAATGGCGATTGAAGCAACAGAACCGGATAAGACAGCAGCCCCGCCAATCATTGATACCGAGGATGTGCATCTGTGGTATGGCAGCAATGAAGCATTGAAGGGCATCAACTTGACCTTCAAGGAACATGAAATCACCGCCTTGATTGGGCCCAGCGGATGCGGGAAATCCACCTATCTGCGGACCTTGAACCGGATGAATGATCTGATTCCCGGAGTGACCATCAAGGGTGAAGTGAAATTAAAGGGAAAAGATATTTACGCGCCGGGAAACGATACGGTATCCCTGCGTAAGGAAGTCGGTATGGTTTTCCAGCAGCCGAACCCGTTCCCGTTCTCGATCTATGATAACGTAACTTACGGGTTGCGCTTGGGCAAGCAGCACACCCGGGAACAGCTGGATGAAGCGGTCGAGACCGCGTTGCGGCAAGCGGCTGTGTGGGAAGAGGTCAAAGATAAGCTGCATGACAGTGCATTAGGCCTGTCCGGCGGTCAGCAACAGCGGGTGTGCATTGCTCGGGTGCTGGCGGTGAAGCCGGATGTGGTTTTACTGGACGAACCGACCTCCGCGTTGGATCCAATTTCGTCCAGCCAGATTGAAAGTATGCTCGTAGCGTTGAAAAAGGACTATACTATAATTTTAGTTACGCACAACATGTCGCAGGCATCCCGAATTTCTGACCGCACGGCTTTCTTCCTTCAGGGGCATCTGGTCGAGTATGATGATACTAAGACGATTTTCTTGAATCCCCATAAGAAAGAAACCGAAGACTACATCAGCGGGCGGTTCGGGTAA
>SRR1151209_00339 phosphate ABC transporter ATP-binding protein
ATGCAGAACTATTCATTTGATGATACGTATTTTCTACCCCTGGACCCGAAAAAACACGAAATTGCGATATCTACCGATGATCTCAATGTGTACTATGGCGATAATCAAGCCATCTTCGATGCGTCACTGCAATTCGAACGCTTCAAAATCACCGCCTTGATCGGCGCTTCCGGGTCTGGTAAATCCACCTATTTGCGTTCTTTGAACCGCATGAATGACAATATTGCCAGCGCTAAAGTGACTGGTAAAATCATGTACCGGGATTTGGATATCAACGGCAGCGGCATCGATACTTATGAGATGCGCAAGCACATTGGAATGGTTTTCCAGCGGCCTAACCCGTTTTCTAAATCAATATATGACAACATTACGTTCGCACCGAAACGGCACGGCTTGAAAGATAAAGCTAAGTTGGATGAGATGGTAGAGACGACACTGAAGGAGGCCGCACTTTGGGATCAGGTTAAAGATGACCTGCACCAATCTGCGCTGGCTCTTTCTGGCGGTCAGCAGCAGCGGCTGTGTATTGCCCGGGCGATTGCCATGAAGCCGGACATCCTGCTGCTGGACGAACCGGCCAGTGCGTTGGACCCGATCTCGACCTCAACGGTGGAAGAGACGCTGATTCGGTTGCGGGAGCACTACACGATTATCATTGTGACCCACAATATGCAGCAAGCGGCTCGAATCAGCGACTACACAGCATTCTTCCACTTGGGCCACGTGTTGGAATTTAATACGACGAAAGAAATCTTCACGACGCCGAAGGTCAAAGCAACAGACGATTATGTGTCTGGACACTTCGGTTAA
>SRR1151209_00340 phosphate ABC transporter permease protein
ATGAACGCTAAGCGAAGCGATAAAATTGCCACGGGGGTATTGTACGCCATGTCCGGAATTATCGTATTGATTCTGGCCTTGCTGCTGTTCTATATCTTAGCCAATGGGCTGCCCCATATCAGCTGGCACTTTCTTACCGCCCCCGCCCAGAGTTTTGAGAAAGGCGGCGGGATTGGCGTCCAGCTTTTTAATTCCTTCTACTTGCTGATTTTGTCCATGGTGATTTCGACGCCAATTTCCATCTGGGCTGGGATTTATTTATCGGAGTACGCGAAGCCTAATCGATTGACCAATATTATTCGCACCTCCATCGAAATTTTGTCGTCACTGCCGTCAGTTGTCGTGGGTTTGTTCGGTTTCCTAGTTTTCGCCGTCCAGGCTGGGTTTGGTTTCTCTATTCTTTCCGGAGCATTGGCGCTAACTGTTTTCAACCTGCCGCTGTTGACCCGGAACGTGGAGGATTCACTGCGTTCCGTTGCCTTCACGCAACGGGAGGCGGGTTTAGCGCTTGGCCTTTCCCGGTGGGAAACTGTGATTCACGTGATCTTGCCGGAGGCGCTCCCGGGGATCATCACTGGGATGATTCTGTCAGCGGGCCGGGTATTTGGGGAAGCCGCAGCATTGATTTACACTGCCGGGCAAAGCGCGCCGACGCTGGACTTTACGAACTGGAATCCGTTCTACATTGCGTCACCGCTTAATCCTATGCGGCCGGCTGAAACTTTGGCCGTACACATCTGGAAGATCAACTCAGAAGGGATCATTCCCGATGCGGCCGCTGTTTCTGCTGGTGCCAGTGCGGTGTTGATCATTGCCGTTTTGCTGTTCAATATTCTGGCCCGGCTGATTGGTAACAAGGTTTACAAACGGCTCACTGGGGTCTAG
>SRR1151209_00341 phosphate ABC transporter permease protein
ATGGCAGAGGATAAAATTCGAGCCAGTCTGTTAAAGGAGTCGAAAGCTTCCAAACGGGAAAAGCACGGCAAAATACTGAGTTTCGCCGCCATTGGCTTGATCGTCATCGTGGTGGTGGCGATTTTCATCTTTGTTGCCACCCGGGGAATTGCGACGTTTACCGTGGATAAGGGCAGTTTGTGGGACTTCTTCACAAAAAGCCAATGGAATCCGGGGGCAACGGATAAAAGCGGGCATCCGCTGATCGGGGCACTGCCAATGATTGTCGGTTCCTTTGCCGTGACTCTGTTATCCGCCGTCGTGGCGACGCCGTTTGCGATTGCGGCGGCCATCTATATGGTGGAAATTTCGCCCCGGCGAGGATATAAGATTTTACAACCGGTCATTGAATTGCTGGTTGGGATCCCGTCCGTTGTTTATGGGTTTGTCGGGTTGTCGCTGGTCGTACCGTTCATTCGCAATCACTTTGGCGGAACTGGATTTGGTATTTTAGCCGGGACGATGGTATTGTTCGTGATGATTTTGCCCACTGTAACGTCCATGAGTGTGGATGCGCTGCGGTCTGTCCCTCGCTATTATCGGGAGGCATCATTGGCTTTGGGGGCTACGCGCTGGCAAACAACCTATAAAGTCGTCCTGCGGGCAGCGGTCCCCGGGATCATGACGGCGGTGATCTTTGGTATGTCCCGAGCCTTTGGTGAGGCCCTAGCTGTCCAAATGGTCATCGGGAATGCTGCTCTTCTGCCCCAGAACCTGGTGTCCCCGGCGTCGACTTTGACCAGTATTCTGACCATGGGTATGGGCAACTCTGTAATGGGCAGTGTGTCCAACAACGCTTTGTGGTCGCTGGCATTACTGCTATTGCTGATGTCATTGTTGTTCAATATTTTGATTCACCGCATCAGTAAGAAGGGAGCGTTACATTAA
>SRR1151209_00342 phosphate ABC transporter substrate-binding protein
GTGAGACAACATAAATTATGGCTTTTGGCCGCAGTCTTTGGCCTGTTTATTTTGGCCGGATGCAAACAGCAGGGAGCGGCCATTACCGCCGTGGGGTCGTCGGCTTTACAGCCGCTCGTGGAAGCTGCGGGCGAACGCTATAGCAGTGAACATAGCGGTGAGTTTATTAATGTCCAAGGCGGCGGCTCCGGGACCGGCTTGAGTCAGATCCAAAGCGGCGCCGTGGATATCGGTAATTCTGATCTGTATGCCCAGGAGAAGAGCGGCATCAATGCTAAGAAGCTTGTTGACCATCAGGTCGCGGTGGTCGGCGTTGTGCCAATCGTGAATAAAGATATTCCCCTGGATAATTTAACGATGGCCCAATTACGGGGCATTTTTTCTGGCCAATATACGAATTGGTCCCAGGTTGGCGGTCCTGATGTCCCTGTTGTTCTGGTTAATCGCGCCACTGGTTCTGGGACACGGGTGACCTTTGAACGATGGGTCATGAACAAAGTGCCGACCAAAGCGGCTCAGGAACAGGATTCTACTGGGATGGTACGGCAGATCGTTTCGTCCACCCCCGGCGCCATCAGCTACGTGGCCTTCCCTTATGTGAACAAGACCGTGAAGACCCTCAAGCTGGATGGTATCGCGGCGACGGATCGCAATGTGCAGACCAACAAATGGGTGATCTGGTCCTATGAGCATATGTACACCAAGGGCACGCCTACTGGGCTGACGAAGCGGTTCATCGATTATGTATTGAGCAATACTGTACAACAAAAAATTGTTAAGAAATTAGGATACATTGCTGTGAATGAAATGCAAGTTGCACGTGATCTTGCCGGTCACGTGACGAAGAGAGTGGGGCAGTAG
>SRR1151209_00343 two-component system sensor histidine kinase
ATGAGATTTCGGGTACAGTTGTTTCGCTTGTTGGGCGCCGGTGTGCTGTTCGTCGGCTTGCTGATCTGGATGACCCAGTGGGGACCGATGCTGGGGCTGACTCAGCCGTTCCAAGTGGCCGCCCCTGGAATCTTCTGGGGCATAATCGTGGTTTACTGGGTGCTCTATCTGCTCCTCAGCACCCTGCGGGATCTGCGCATGCGCCGGTATCGGCGGCAGCTGACAATGGCGACCCGTTACATGGAACAGATTCAGCATCTGCAAGCGCCGGAACTGATGCTGGCGGAGGATGCCCCGGAGTGGCAGCAGTTTTATCAGGCCGCCAACCAGGTCAACTTGCAGACGCATCGGTTTAAAGTAGCCATTGATCAAAAACAGGCCGATTTTGACCGGCTGATCAATCATCTGCCCGTGGGCGTGATGGTCATCAATCCGGACGATATGGTCCAGATGGCCAATGATGTTATGGCCACGCTGCTGGATGTACCCATCGACCAGGAACCCCACTCCTATTTGGATGACGTAAAAACGTATGGTCTGAGCAGCTTGATTGAGCATACGGAGCGGAATCATCAGACGCATCACGCGGAGATCAAATTGGTGCAGAATAACGAACGGCCGGTGGATGCCTATGTGATTTGGATCGGCGATAAGGAATCCGGACAAGTCGTGGTTGTCCTTTATGATCTGGCTTTGATTCGAGCGGCTGAACAAATGCAGCTGGACTTTGTAAGCAATGTGTCCCACGAATTAAAGACCCCGATTACGTCGATTGCCGGTTTTGCCGAGACCCTATTGGGCGGGGCAAAGGATGATCCCAAGGCGCTGGATCAATTTCTGCATATCATTTTGCAAGAGGCCGATCGTTTGAATGATTTGGTCACTGACACGATTTCTGTGGCGAAGTTTGCCAATCCCCATCCTATCCATCCGCAACCAGTAACGGTGCGGAAAGAGATCGATCATTGTTTGACCATGCTCAAGCCGCGGATCGAAGAACGCAGTTTGCAGACGCGAATTGAGGGTCCTGAGGATCTAACCGTCGTCTTTGACCCGGCTGAGTTTGAAGATATCATCAAGAATCTGATGACCAATGCAGTGATTTACAATCACCATCAGGGCAGTATTGATGTCCGGTACAGCAGCGACCAGGATAATTTCAAGCTGGTGGTAGCGGATACCGGTATCGGTATTCCTGAAGATGACCAGCAGCGGATCTTTGAACGCTTCTATCGGGTGGATAAGATGCGCTCCCGGCGCAACGGCGGCACTGGCTTGGGGTTGGCCATTGTTCAGGCAATTGTTCAACGGGCTGGCGGCGAAATCACATTGCACAGCCAAGTGGGTGTCGGCTCATCATTCACGGTCACTCTGCCGCTCAAAAAACAGAATGCTTAA
>SRR1151209_00344 two-component system response regulator
ATGACCACACGCATTCTGGTGGTGGATGACGAATCTACCATTCGCACGCTGATCGAGTACAACCTAAGTCAAGAAGGTTTTACCGTGGATACGGCAGAAGACGGTGATGAGGCACTGCAAAAGGCCGAGGGTCAAGACTATGACCTCATCTTGCTGGACCTGATGCTGCCAGGCAAAGACGGCTTGGCCGTAACCAAAACGCTGCGCCAGGAGAAAAATGCGACACCGATCATTATGCTCACCGCGAAGGACAGCGAGACGGATAAGATCGTTGGCCTGGAGCTGGGTGCCGACGATTACGTCACCAAGCCGTTCTCCGTCAAGGAACTGCTGGCCCGCATTCATGCGGTCCTGCGGCGGATGGAGGCACCCACTGAAGCGCTGGCAACCGGCCGGGTAGTCACCTTCGGCCCCTTGACGGTGGATATCGACGGCTTGCAGGCGTCTTTGCGTGGTGCACCGCTGACCCTCACGCCGAAGGAATTCGATGTTTTGGCTTATCTGGTCCAGCGCCCGAATCGAGTCATTTCCCGGGAACACATCCTGGATGCCGTTTGGGGTGTGGATTATCCCACCGAAACTCGGACTGTGGACATGCAGATCTCCCATCTCCGGGAAAAGATTGAAGCTAATCCCAAAGAACCGCAATATCTGCAAACGATTCGCGGGTTCGGGTATAAGTTGACGCAGCCGACTTCGGAGGTGTCTGAATGA
>SRR1151209_00345 cell division protein FtsX
ATGAAGGCTAGTACATTCAAGCGCCACGTGACCGACAGTTTCCGCAGTCTCAAGCGGAATGGCGGGATGTCCGTGGCGGCCATTGTGTCCGTTACCGTGACTCTGCTGCTAGTCGGTATCTTTCTCGCCCTGATTTTCAACGTGAACCACGTCTCCCGGGAAGTGGAAAATGATGTGCGGGTACGGGTGATGATCGATCAAAAGACGACCAAGACCCAGCGCAATGACCTGCGCGATGAATTGCAGGCGATGGCAGACGTGAGCAGCGTCACCTATTCCAGCCGCCAACAGGAGCTGGATAAGGTGGTCGGCAGCTACGGCAGTGCCTTCCAAATGTTTGGCGGCGATTCAAACCCATTGAACGATGTCTTTATCGTGAAGACCAAGACACCCCAGGCGACGGAAAAAGTGGCCAAGGCGGCGAAGAAACTGGCCCATGTGTCCGAGGCTAACTACGGCGGGGCTAACGCCCGCAACTTGTTCCGGGCGACGGATAGTCTGCGCCAATGGGGGCTGGGCTTCAGTATTCTGCTCCTGCTGGTGGCCGTCTTCCTCATTTCGAACACCGTGCGGATCACGATTCTCAGCCGTCAGACAGAAATTGGGATCATGCGGCTGGTCGGGGCGACGAACTCCTATATTCGTTGGCCGTTCCTGCTTGAGGGAGCCTGGACGGGACTGTTCGGCGCGATTATTCCCATCATTATTGTGGATATCGGCTATGCAGTACTCTATGGCGCCTCGGCGAAGACTTTTGCCTCTGCTGGCTATGCACTGTTGTCGCCGGGCAGCCTGCTGTTCGGCATGGATTTGCTCTTGGCAGTCATCGGTATCGTCATTGGGGCCGTCGGCGCGGCCATCTCCATGGGCCGCTTCTTGAAGATTTAA
>SRR1151209_00346 cell division protein FtsE
ATGATTCGTATGGTAGATGTGTCAAAGGTATACGACAATAAAGTGACGGCCTTAGAAAACGTCAACGTCGAAATTGCTCAGGGTGACTTCGTGTACGTGGTCGGTCCTTCAGGGGCCGGGAAATCCACGTTCATTAAGCTGCTCTACCGGGAATTGCGCGCGACCAGCGGCTTGATCATGATCGATGATTTCGATCTGACCCAGCTCAAGGATCGAGAAGTCCCCTTTCTGCGCCGAAAAATCGGTGTCGTGTTCCAGGATTTCAAACTGCTCTCCCGATTAACAGTGGCCGAGAATATTGCGTACGCAATGGAAGTAATTGAAACAGATCCGGAAGAAATTAAACAGCGGGTCACCCAAGTGCTGGCTGAAGTCGGCCTGACTGGCAAGGCCGCCCGGTTCCCCAACGAGCTCTCTGGCGGGGAACAGCAGCGGGTCGCGATCGCCCGGGCAATCACGAACAATCCCCATATTCTGATTGCCGACGAACCTACCGGCAACCTGGATCCGAATACGTCTGAAGAAATCATGGCGTTATTAGAAAAGATCAATGCGAAGGGGACGACTGTGATTATGGCTACCCATAATGACCAGCTGGTGAACAGTCACGTCCACCGATTGCTGGAGATCAACAACGGCGATATCGTACGGGACGAGAAGGAGGGGACTTACGCCAATGAAGGCTAG
>SRR1151209_00347 peptide chain release factor 2
GTGAATGAAGCCAAAATGGCTGAACCCGACTTCTGGAATGATTCCGAACATGCCCAGAAGATCATTGATGAAACGAATGCGGCCAAGGCCCAACTGGATACGTTTAAACAATTAGACGATGGCTGGCAGAATCTTCAGGTGGCAGCGGAACTATTAGCTGACGAACCGGATCCGGATATTGCCAAACAGCTGGATACCGGCATTCCTAAATTACAAAAAGCGATGCATGATTATGAATTGAGCCAGTTGCTGACCGGCCCCTATGACAGTCATGACGTTTTAGTCGAAATCCATCCTGGGGCTGGTGGTACTGAGGCTCAGGATTGGGCATCAATGCTGTTGCGGATGTACACCCGCTGGGCCCAGAACCGGGGCTTTAAGGTGGAAACATTGGACTTTCTCGCTGGCGATGAAGCCGGCGTGAAGTCGGTGACGCTGCAGATCAGCGGGCATAACGCCTACGGGTTGCTGCGGAGTGAAAAGGGTATCCACCGGCTGGTGCGGATCTCGCCCTTCGATTCCGCCGGCCGGCGGCACACCTCCTTTGCCTCCGTGGATATCATGCCGGTGCTGGACGACAGCATCAATATTGATATTCGGCCGGAGGACTTGCGGGTCGATGTTTACCGGTCCTCTGGGGCTGGTGGGCAGCACATTAATAAGACCTCCAGTGCCGTCCGGATCACCCACCTGCCCACCGGCATCGTTACCCAATCCCAGGCGCAGCGGTCTCAGCTGCAAAACCGGGAAACGGCAATGAATATGCTGCGGGCCAAGCTGTATGAACGGGCCCAAGAGGAGCAGAAGGAAAAGGAAGCCGCTATTCAGGGCGAGCAAAAGGAGATCGGCTGGGGTTCCCAGATCCGCTCCTACGTCTTCCATCCCTACACCATGGTCAAGGATCACCGGACCAATTACGAGACAAGCAATGGCCAAGCTGTGATGGATGGCGACATCGACGGGTTCATTTATGCGTACTTGCAATGGGAACTGGCCCGTCATCAAAACCGGAATTCACAACTTTGA
>SRR1151209_00348 preprotein translocase subunit SecA
ATGGCAAATGTATTGAAGCGGTGGGTCGAATCCGACGCCCGCGAAGTCAAACGGATGGGTAAGATTGCGGACCAGGTGATCAGTTACGAGGATGAATATGCCAAGTTGTCTGATGAACAGCTGCAAGCCAAGACGCCCAAGTTCAAAGAACGATTAGCCAACGGTGAAACCCTGGATGACATTTTACCCGAAGCTTTCGCCACCGTGCGCGAAGGCGCCAAGCGGGTCCTGGGGCTATTCCCGTTCCGGGTCCAGATCATCGGCGGGATCACTCTGCATGAGGGGAATATCGCTGAAATGAAGACCGGGGAAGGGAAAACCTTGACCGCGACCATGCCGGTTTACCTGAATGCCTTGGACGGCAAAGGGGTCCACGTGGTCACCGTCAACGAATACCTGTCCAGCCGGGACGCCACCGAAATGGGCCAGTTGTACAACTGGCTGGGCCTGACGGTTGGTTTGAACCTGAACGAAAAGAGTACGGATGAGAAGCGGGAAGCCTACAATTCCGATATCACGTATTCCACCAACAGCGAGCTTGGGTTCGACTATCTGCGGGACAACATGGTCGTGTATAAAGACCAAATGGTACAGCGCCCGTTGAACTTTGCCATTGTCGATGAAGTCGACTCGATCCTGATCGATGAAGCCCGGACACCGCTGATCATTTCTGGTCAAGCCGAAAAGTCGACGGCCCTTTACATCCGGACCGATCGTTTCGTCAAGACTTTGAAAGAAAAAGACGATTATAAGATCGATTGGCCGACCAAGAGTATTTCCCTCACCGAGCAGGGGATTCGCAAGGCCGAAAAGAACTTTGGCTTGGACAACCTGTATGATACCGACAACATGGTCTTGAACCATCACTTGGACCAGGCACTGCGGGCCAATTACATCATGCTTCGGGATATCGATTACGTGGTCCAAGACGGCAAAGTCCTGATCGTTGACCAATTCACCGGCCGGGTCATGGAAGGCCGCCGGTACTCCGATGGACTGCACCAGGCCATTGAAGCCAAGGAAGGCGTCAAGATCGAGGATGAGACCAAGACCATGGCCAACATCACCTATCAGAACTACTTCCGGATGTACAACAAGCTGGCAGGGATGACCGGGACTGCGAAGACCGAAGAGGAAGAATTCCGTGAGATTTACAACATGGAAGTCATTTCTATCCCGACAAACAAACCGGTCATCCGGGTGGACAATCCGGATGTGCTGTATCCAACATTGGACAGCAAGTTCAACGCTGTGGTGAAAGAAATCCAAGAACGCCACGCCAAGGGCCAGCCGATGCTGGTCGGGACTGTTGCCGTAGAAAACTCGGAACGTTTGTCCCACATGCTGGATCAATTGAATATTCCCCACGCCGTGCTGAACGCGAAGAACCACGCCAAGGAAGCCGAGATCATCATGAATGCCGGCCAACGCGGAGCGGTCACCATCGCCACTAACATGGCCGGCCGGGGGACCGATATCAAGCTTGGACCGGGCGTTAAGGAACTGGGCGGCTTGACCGTACTGGGGACTGAACGGCATGAATCCCGGCGGATCGATAACCAGTTGCGGGGCCGTTCCGGCCGACAGGGGGATCCGGGCGAGACCCGCTTCTACATGTCGCTGGAAGATGACCTGATGAAACGGTTCGGCGGCGACCGAATCAAGAGCTTCATGGATCGGCTCAGCGGCCCCGATGAAGACAAAGTGATCGAGAGCCGCTTGATCACCCGCCAAGTTGAATCGGCCCAGAAACGGGTCGAAGGGAACAACTACGATACCCGGAAGAACACCTTGCAGTACGACGATGTGATGCGGGAACAGCGGGAAGTGATGTACAAGCAGCGGCTGGAAGTCATTTCTGAACAGAAGGACTTGAAGCCGGTGCTGATGCCCATGATCAAGCGGACCATCGCCAATCAGGTGGACATTCATACCCAGGGCAAACCTGAAGAGTGGGATTTGCAGGCCATCTTGGACTTTGCATATACCGCCATGGTCAACGAAGACAAGATCAGTATGAAGGATATCAAAGGCAAGACCCCGGAACAGATCGAGGCCTTCATGTACAAGCTGGCTGAAGAAAACTATGACGAGAAGGCCCATGCGCTGCAAGATCCGGCGCAAATGCTGGAATTCGAGAAGGTCGTTATCCTGCGGGTCGTTGACTCCCACTGGACGGACCATATCGACGCCATGGATCAGCTGCGTCAATCCATCGGGTTGCGGGGCTACGGCCAGATGAACCCGTTGGTGGAGTACCAAGAAGAGGGCTATCGCATGTTTGAAGAAATGATCGCCGACATCGATTACGATGCCACTCGGTTATTCATGCGGGCTGAGATCCGCCAGAACATTCGGCGTTAA
>SRR1151209_00349 ribosomal subunit interface protein
ATGTTATCTTTTAATGTCCGTGGCGAAAATATTGAGGTCACTGAGGCCATTCGTGCGTATGTCGAGAAACGGCTGAGCAAGCTCAATAAGTATTTCGAAGACGCGCCTGACTCCATCGCTCATGTGAACTTGAAATTGTATTCCAACAAGAACGCCAAGGTCGAAGTCACGATTCCGTTGCCGTACTTAGTATTACGGGCAGAGGAGACTTCTCCGGACCTTTACGCCAGTATTGATCTGGTCACTGATAAGCTGGAGCGGCAGATCCGCAAGTACAAGACCAAGATCAACCGCAAGAGCCGGGAAAAGGGCATCAAGAACTTTGATTTGACCGGTCCTTCCGAAGGGGTACAGGATGCACCGATCCCTGAACCGGCAGAACCTAGCGACAACTTCACCATTGTCCGGACTAAGCAGGTTTCTTTGAAGCCCATGGATCCCGAAGAAGCTGTCCTGCAAATGGACATGCTGGGGCATAACTTCTTTATCTTCGAAGATGCAGAAACCAATGGCACAAGCATCGTTTATCGCCGCCGCGACGGCCGTTACGGCTTGATCGAGACCGACGAATAA
>SRR1151209_00350 competence protein ComFC
ATGACGCCGGCATGCGGCTGGTGCGGGCGGCCGTGGACGATTACGCCTACCTTTGGTGCGCTGTGCAGCCTGCGGCGGCAGCGGCCCGCGACCCTTTGTCCAGAGTGTCGGGCCACTTTTCTGCCCTGGTCCGCCGAAACGGTCCACTGTCCCCGGTGCCACCGGCCGGGGGCCGCGGTCCTGTGCGCTGATTGTCAGTATTGGCAGCAGCTGCTGCCCTGGCTGGACGGCCAAGCCCAGCACCTTTTTGCCTATCACTCACCCATCCAAACGTATTTTGAACGGTTTAAGCGCCAGGGAGACTATCAATTGGCCGCAGTGTTTGCGGCAGACATTGGTGATTGGTGGCGCACTCGGCGCCGGCACTACGATGCGGTCATTCCGGTGCCAAGTGACCCGGTCCGGGCCCGGCAACGGGGGTTTGACCCCGTGACGGCCCTGTTTGCGTCAGTCCTGCCGCTCACGCCGGTACTGGAAAAACAAGGCACGACACCAGAACAAGCGCAGCAGGATCGGGCCACTCGTCTGACCACGCGCCAGCCGTTTATCTATCAGCCCAAGCGCGGCGTTAGGCTGCGCCAATGGCGCCGCATTCTGCTCGTCGATGACATCTACACCACGGGCAGTACCCTCCATCAAACGGCCGCTGTATTGCACGCCGCTGGCAGCGACGCCGTCATGGATACCTTCACTTTAGCCCGATAA
>SRR1151209_00351 competence protein ComFA
ATGATGACGGGGTCGTTTTATCCCGGGCAGCAATTGGTGGTCCCAGCCGGTGAGACACCGCCGCGGGGCGGTCAGCTGGTATCGGCCGTGCGCGCTCAGGGGCGGCAATTGTGCTGCCAGCGCTGCGGGGCGATTTGGCCTCGCGGAATACAGACTTTACCGTTGGGCGGGGCGTATTGCCAGGACTGTATTGGGCTGGGGCGAGTGACGACCCGGGATCGGCTATGGCGTTTGGCGCCGCCAGTATTTCCTGAGCGGCCAGCCGGCCAATGCTGTGCATGGCAGGGGACCCTGACGCCGAATCAAGTCCGGGCAGCGCAGGCGATTCAACACGCCCACACTGCTGGCCGGGGGATCCTGGTCTGGGCGGTGACTGGGGCCGGCAAAACTGAGATGACCTTCCCGGTCGTCACGGCTGCTCTGGCCGCCGGCGGGTTAGTGGCTTATGCGTCACCCCGGATCGACGTGTGCAATGAATTATTTCCGCGAATCCAAACGGCCTTTCCAACGATCAGCACCGGCCTGCGTCACGGCCGGGAGGAACAGCCCTATATGGGTGAGCAGCTTATTGTGTGTACGACCCATCAACTACTTCGATTCTATCATGCTTTCTCCCTGATTATCGTGGATGAAGTGGATGCGTTTCCTATGCATAATTCGCGCTTGCTGCACGCAGCGGTGGCCCAGGCGCTGCAGCCGGGAACGGCACCAGTCTATTTGACCGCCACGCCGGATGCCCACTTGCGCCACCAGTTGCGGCGCGGGCAATTGGCGGTGGCGTATTTGCCTCGGCGGTTCCATGGGGCGCCGCTGCCGGTGCCCCGCTTGCATTGGTGCCGCCAACATACACTGACCACGGGTTTTCAGCCGTTACAAAGGCTTGTACGGTGCCACCGCAGTGCCCGGCGGCCGGTAATGCTGTTTGTCCCGACTGTCCCGTTGCTGACAGCACTGACTGTTTGGCTAAGCAGCCGCTTCCCAGCAGAAACCGTGGTCAGTGTTCATGCTGATGACCCCGAACGGGTGGCCAAGGTCCAAGCCTTCCGGGACGGGCGCATAACACTGCTGGTCACCACAACGATTCTGGAGCGAGGCGTGACAATTCCGCATTTGCAGGTGATCGTGTGGGCTGCCGATCATGAGCATTTTCAAACCAATGCCCTGGTTCAAGTGGCTGGACGCGCCGGTCGAGCGGCGGATGATCCCTGGGGCCGGGTGGATTTCTTTTACCACCGTTATACCTTGGCCATTGCCCGGGCCCGGCGGGAGATTCGGCAGATGAATCGGCGAGGCGGTTTTCGATGA
>SRR1151209_00352 YigZ family protein
ATGCAAAATAATTACCTCACCATTGCCCAAAATGGCGAATACGAAATCGAAATCAAAAAGTCCCGTTTCATCGGTCAACTCGCCCGAGTCACCACCGAAGACGAGGCGGCAGCGTTCATCGCCCAAATCAAGAAAAAGCAATACAAGGCGACTCATAATTGCAGTGCCTACGTGATTGGCGACAACGATGAACACCAGCGCGCCAATGATGACGGCGAACCCAGCGGCACGGCAGGAATTCCCATGCTGGAATCTTTGAAACTGATGCAGCTGAAAAACGTCGTCGCGGTAACGACCCGCTACTTTGGCGGGATCAAACTGGGGGCTGGCGGTTTGATCCGAGCATACAGCAACTCCGTCACGGAAGCGGCCCACCACATCGGTATCGTCCGCGGCGTCTTGCAGCAAGCGCTCACCTTCACGATTGATTACAACCAAGTGGATCCCATCCAGCATTTCTTCAGCGAAAGTCCTTATACCATCGAAAAGACGGACTACGGGGTGCAAGTCACCATGACCGCGTTGGTCGACATCACTGAAATCGATACGTACCAAAAGCAGCTCCAAGACTTAACCAATGGCCGCATCACCATGACCGTCGGGGCCCAGCAGTTCCGGGAGGTACCTTACACGGATACTGCCGCGCCGCGGTATGAAAATTAG
>SRR1151209_00353 UDP-phosphate N-acetyl-glucosaminyl transferase
ATGTTTCGTGTAATCGTCGCCCTTTTCGGTACCATGTTCTTCTCGGCCGTCATCACGCCGTTTGTTAGAAAATTGGCCTTCGTCCTGGGGGCGGTGGATATGCCCAACGCGCGGCGGGTAAACCGCAAACCGATGCCCACCATGGGCGGTTTGGGGATCTTCATTGCATTCGTCTTTGTGACGTTTGTCCTGCTGCGCAATCAATTTCCCACTCACGAACTGTTCAGTGTCCTGCTCGCCGGCAGTGTGATCATTCTGACCGGGATGATCGACGATATCAAAGAACTCAAGCCCTGGCAAAAGATGCTGGGAATCGTTATTGCCGCCAGTATCATCTACTTCTTGGCCGGCATTCGGATGGACGATGTCTCCCTGTTTGGGTTGCACTTCAACCTGGGCTGGGCCAGTTATTTCGTGACCGTCTTCTGGATCGCCGCGCTGACTAATGCCGTGAACCTGATCGATGGGTTGGACGGCTTGGCCACTGGGGTGGCCATCATCGCGCTGTTCACCATGGGGGTCATCGGGGTCTTCTTCCTGCTTCCCGGCGAAATCTATGTGCCGATTTGGATCTTCTGCTTAGTAGCGGCCTTGATTGGCTTTTTACCCCATAATTTTCACCCGGCCAGTATTTTCTTGGGGGATACGGGCGCGCTGTTCATCGGCTTCATGGTGGCCGTTTTCTCCCTGAAGGGGCTAAAAAACGTGACCTTCGTGACCATGGTTATTCCGGTCATCATCCTCGGGGTGCCGATTACGGATACAGTCTATGCCATCTTACGGCGCAAGCTGAACAACAAACCGATTTCCCAAGCGGATAAACACCATCTGCATCATCAGCTGATGGCTCTGGGCTTGACCCAGCGGCAAACCGTCATGGTAATCTACGGGTTGGCCTTGATTTTCGCTGCCATTGCTTTGATTTATCCGCTGTCCACGCTGTGGGGGAGCATTCTGCTGACGATCGCGGTGATTCTGGGCTTGGAACTCTTTGTGGAATCCATCGGCTTGGTCGGGGCTGGCCGTCAGCCGCTGCTCCATGCAATTCAGCGCTTCGTGAAGCGCCTGTCCCATTCGGATCATCCAGTTTAA
>SRR1151209_00354 ribonuclease
ATGGAACTTTGGATTCCAATAATCCTCGCCGTCATCATGTGTGTTGTTGGTTTTGTTGCTGGGTATTTGACCAAGAAAGCCGCGCATCAGCGGGCAGTTAACGATGCCCATACGAATGCCGCGGGGATCATTGCGAGTGCCAAGCGGGATGCCGCCGCCATTAAGCGGGAGGCAGACACCGCTAAGAAGGAACAACTCCTCGCCGCTAAAGATGAAGCCCATCGCTACCGCGCAGAGCAGGAAGCGGAGCTGAAGAGTCGGCGCGAGGAATTACAAAAGCAAGAAAATCGGTTGCTGCAACGGGAAGACTCCTTGGACCACAAAGACGACATTCTGAACAATAAGGAAGGCAGTCTGGATAAACGTGAGGACAAACTGGCGCAGCAACAGCAGCAGATCGATGAAGCCAAACAAAAAGTAACAGATACACTGCAAGCTCAAGAAGATGAACTGGCCCGCATCGCCCAATTTACCCGGGATGATGCTCGTCAGGAGATCCTTGATTCCACTAAAGAAGAATTGACCCATGAACGCGCGGCTCTGATTCGCGAAAGCGAGCAGACCGCCAAAGAAGAGGCGGAGCATAAGGCCAAAGACCTAATTGCCCAAGCCATTCAACGCAGCGCGGCAGATGTGGTGACGGAAACTACTGTCACTGTTGTATCGCTGCCGAGTGACGACATGAAAGGCCGCATTATTGGTAAAGAGGGCCGTAATATCCGGACTTTGGAGACATTGACCGGAATTGACCTGATTATCGATGATACACCTGAAGCTGTTGTGTTGTCCGGATTTGACCCCGTTCGTCGGGAGATCGCCCGGATCGCACTGGAGAAACTCATCGCTGACGGCCGGATTCATCCGGCCCGGATCGAAGAAGCGGTGGAGAAAGCCCGGAAAGAAATGGATGCCCGGATCCGCGAAATCGGTGAGCAGGCGTTATTTGAATTGGGCATTCACCACATGCATCCGGATCTGATCAAACTGGTGGGGCGGATGCACTTCCGCACCAGTTATGGACAAAACGTTCTCAATCATTCGATTGAAGTGGCAAAGCTGGCCGGTATTTTGGCTGGTGAGCTTGGTGAAGATGTTACCCTGGCTAAACGCGCAGGATTATTACACGATATTGGGAAGGCCATTGACCATGAGGTCGATGGCTCCCATGTGGAGATTGGTGTGGAACTCGCCAAGAAGTATCACGAGTCCCCTACAGTGATCAACACCATTGCGTCCCATCATGGGGACGTGGAACCGCAGAGCATCATTGCTGTACTGGTCGCGGCTGGCGATGCCATTTCAGCCGCCCGGCCAGGGGCCCGGTCTGAATCGCTGGAGAATTATATCCATCGGTTGGAGAAGCTGGAGAATATTACTAACAGCTTCCCTGGCGTGGATCACAGCTTCGCCATTCAAGCCGGCCGTGAAGTCCGAGTCATTGTGGCCCCCAATCAGGTCACTGATGATCAGGCGGCCATTTTGGCCCACGAGATCCGCTTGCGGATTGAGAAAGAGCTGGAATATCCAGGTCATATCAAGGTAACGGTCATTCGGGAAACCCGATTTATCGAAACTGCTAAGTAG
>SRR1151209_00355 recombinase RecA
TTGGCTGTTAAAAATACCAAGCTTAAAGAAGTCGTTGAATTAACCGACAAGCAAGAACGCAAGACTGCTTTGAATGATGCTCTGAAGAAAATTGAAAAAAACTTCGGGAAAGGGGCCATTATGCGGATGGGCGATAAAGCCGATACGCAAATTCGGACCATTTCCACGGGCTCATTAGCCTTAGATACAGCACTGGGAGTCGGCGGCTACCCCCGCGGCCGGATCGTCGAAATTTACGGACCTGAATCATCCGGTAAGACGACGGTGGCGCTGCACGCAGTCGCTGAAGTACAGCGTGAAGGCGGTACGGCGGCGTATATCGACGCGGAAAACGCCTTGGACCCTGAATACGCTAAGCATTTGGGCGTCAACATTGATGATTTGCTGCTGTCCCAACCGGACACTGGCGAACAAGGGTTGGAAATTGCGGACGCGCTGGTCACCAGCGGCGCCGTGGATCTGGTCGTTGTCGACTCAGTGGCAGCGTTAGTTCCGCGGGCTGAAATCGATGGTGAAATGGGCGATGCCCACGTTGGGCTGCAGGCCCGGTTGATGTCCCAGGCATTGCGCAAGTTGTCTGGATCCATTAATAAGACAAAAACCATTGCTATTTTTATCAACCAGATCCGGGAAAAAGTCGGTGTTATGTTCGGCAGCCCGGAAACGACTCCGGGCGGTCGGGCGCTGAAGTTCTACGCCACGATTCGGTTGGAAGTACGCCGGTCAGAACAGATCAAAGACGGTACCGACATCATCGGCAACCGGACGAAGATCAAGGTTGTGAAGAACAAGGTTGCCCCGCCGTTTAAGGTTGCCGAAGTCGACATTATGTACGGCAAGGGCATCTCCCGTACCGGCGAATTGCTGGATATGGCGGTCGAGAAGGATATCGTGGATAAGAGCGGTTCCTGGTACTCTTATAATTCAGACCGGATCGGCCAAGGCCGGGAGAACGCGAAGCAATATATTGCGGATCATCCGGACATGGAAGCCGAATTGCGGACTAAGGTCCGGCATGCTTACGGCATTGACGGTGCCGCGGATCCGGATGCGAAGGATGCCGATGATCAGGCCAAGGATAAGGATTCTAAAGACGCCCCTAAGGCCGATAAAGATGCCAAGGGTACGAAGGACACCAAGTCTGCCGCAACGGACGCGAAGAAGCCGGAAAGCAAAGACAGTGCGAAAGATACGCCGAAGGCCAAGGATACGAAGGCAGCCGCGGATGGCGAGTCGATCGATATCTTTGAGGGTACGGACGCGAAGAAGTAA
>SRR1151209_00356 damage-inducible protein CinA
ATGCAAGCAGAGATCATCGCGGTCGGTACAGAAATGCTGTTGGGAGAAATCACCGATACCAACAGCCCGTATTTAGCCCGGCAGCTGGCTCAATTGGGCATCGATATTTATTATCAGGAAACGGTGGGGGACAATCCCCAGCGAATCACGGCTTTGCTGCAACAGGCCAGCCAGCGCAGCGACTTGGTCATTCTCAGCGGCGGTTTAGGCCCGACCGCCGATGATGTGACGAAACGTACGGTAGCGGAGTTTCTGCATCAGCCGCTGGTGACTAACGCTCAGGCCAAGGAAAAATTAACGGCCACGGCAGCCCGGCTGCAGCATGCATTAACCCCGAACAACCTGGTTCAGGCCCAATTACCGGCCGGCGGCGAGCCGCTGCCGAACCGGACCGGGCTCGCGGTGGGCAGTTGGAATGTCATGCAGGGGACGATTTACGTGACGCTGCCCGGCCCGCCCCAAGAGTTCAAACCGATGGTCAGCGAGCAGCTGATCCCCCGGCTGGCCCAGCATACGCATAAGGTGTTGGCGTCGACCATGCTGCGCTTTTATGGGCTGACGGAATCAGTGATCGCGACTAAGCTGGCACCGCTGATCGATGCCCAGACGAATCCGACGATCGCCATTTATTACCAATTTCCAGATATTGCCGTGCGGGTCACCGCTCAAGCGGCGGACCATGCCGCGGCGGAACAGCTGGTGGCGCCGGTGGCCGCCCAGGTGAAGGACTTGCTGGGCGATGCCTATTACGGTACTGGCGAACACGGCTCGTTGGCCCAGGTCGTGGGGCAGCAGCTGATTACGCGGCATTTGACGATCACGGCGGCGGAGAGCCTGACGGCGGGCGAATTCCAGGCGTCACTGGGGACCGTCTCCGGTATTTCTGCCGTCTTTCCCGGCGGTTTTGTCACCTATGCCCCGGCTCAAAAAACAGCGATGATCGGCGTGCCGGCAGCCACGATTAAGCAGTACGGAGTGGTCAGCCGGGAAACGGCGGCGGCGATGGCTGGGGGTGCCCGGGCTAAAGTCGGTACTGATTACGCCCTGGGCTTCACCGGCGTGGCCGGACCCGATACCTTGGAAGGACAGCCGGCCGGCACAGTATTCATCGGTTTGGCCGGGCCCCAGGGCACCACGGTGCAGGAGTTCCATTTGCTGGGCAGCCGTAATGAAGTCCGCGCCCGGGCCGTGGCTTGGGGATTCAAGATGCTGCAGAACGCCTTAAAAAATTAA
>SRR1151209_00357 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase
ATGAACTTACCCAATAAGTTAACGGTCTTTCGGATCATTTTGATCCCGGTCTTCATCCTATTGCTGGCTGTGCCTTGGAACATGGGCAGCGTCGTCCTGCTGGGAACCGGTATTTCGACGACTTACCTAATTGCCGCCATTGTCTTCATTGTCGCGTCATTGACAGATTTGCTGGACGGACGTATTGCCCGGGGCCAGCACTTGGTCACCAACTTTGGTAAATTTGCTGATCCGTTGGCGGACAAGATGCTGGTCATGACGGCGTTCATCTTCTTGGTGGAATTGGGCAAGGCCCCGGCGTGGGTCGTCGCCATTATTGTTTGCCGGGAGTTGGCTGTCACGGGCTTGCGGCTCTTGATCGTTGAGCAGAACGGTACCGTTATGGCGGCCGCTTGGCCCGGCAAAATCAAGACCAACACCCAGATGTTTGCCATCATCTTCTTATTGCTGAACAATATCGGCTTCAGCAACTGGCACATTCCCTTTGGCGAGATCCTCCTGTATATCTGCCTGTTCTTCACGATTTACTCGGGGGCGGAGTACTTTATCAAGGGCAAGGATGCCTTTAAGGACGCCAGCAAGGAATAG
>SRR1151209_00358 transcriptional regulator
ATGGATGAAGTTGGTAAAAAGTTGCGGGAGGCCCGTATTGATAAGGGCTATACCATTGATGACCTGCAACAGATTACAAAAATACAAAAACGCTATTTGATCGCCATTGAGGAAGGTAATTTTGATGCCTTGCCCGGTGACTTTTACGTACGCGCGTTTATCAAACAGTATGCCGAGACTGTCGGCCTGGATGGTCAGAAATTATTAGACCAATATTCTGACGAGCTGCCCCAGTCGGCGTCAACGACCGCTGCCGCTGAGGAAGAAGAACAGCAGCCGACCGACAAGCGCCGGGAAGCCCGGCCGCTGCTTGGGGCGTCTACAGTGACTGCCCGGGCGAAGAATTACTTGCCGCAGATCATCATTGTTGCTGTTGTGACGATCATTATCATTATTCTGAGTTACTTCACGTGGCGGGGAACCCAGGGCAACAAACGGGCTATTCCCAGTACTGAAGCCACTTCCAGTGAAGTAGCCAAGTCCAGCAGCAAGGAGACCAGCAGCTCAGCTAAGAGCAGCAGTGCCAAGTCATCCAGTAAGAAGAAGGAAAGCAGCAAGAAGGAATTGAAGATCACTGCGGCCGGCGTCAGCGGGTCCCAGATGAACTATACGGTGACTGACTTGCCGGATTCCGGCAACAAGATCACGGTGGCGGCATCGACGCAAGCCGTTTGGCTGGCCGTTTCCTTCGGTAATGTCCAGAGCTGGCAGGGAACACTGCAGGCCGGCGCGGACCATACCGTGGAGGTTCCCAGCGGCACGCAAAGCATTCAGATCCGCACAGGGAATGCCACTTACACCACCGCTAAGCTGAATGATCAGACGATTGATATGAATCAAGCGGGTGTGACCAGTATTGTGCGGACGGCGAATCTGACCATCAGCGGCGCAGCCGCAGCCAGCAGTGATCAAAGCGGCGCGGCCAGTTCCAGCAGCAGTGATGCGGGTCAGGATTGA
>SRR1151209_00359 3-oxoacyl-ACP reductase
ATGAAACGCGTTTTGCTTTGCGGCGCCACAGGGGCCATTGGCCAAGCAGCCGCCAGAGCTTTAGCGGCGGTTGGCTGGTCCCTTTACTTGCAGGGCTGGCAGCACATGACTCGGGTGGCTGACCTGATCCGGGAATTAACGGTACGTTATCCCGGCCAAGAGTTTTTACCCGTTCAATTGGATTTCACCAACCCCACTGTGGTGGATCAGCTGCGCCCAGCACTCTTTGGTGTTGATGCCGTGGTCTTTAGCCAGGGTGTCACGGATTATGAATTATTTGCGGACACGCCGGCAGCGCAGCTCGACCGGCTGTGGCAAATCAATGTCCGCACACCGCTGCTGATCACCCAAGCACTACAGGAAAAATTAGCACAAACCGGCCATGGCCGTGTGATATACTTAGGGTCTGTTTATGGTGGACACGGCAGTCCAATGGAAGCCGTGTATAGTATGACTAAAGGGGCGTTGTCTGCGTTTGCTCAGGCCTATTCCCGCGAAGTGGCATCCTTGGGGATCACGGTGAATGTTATTGCCCCCGGAGCGGTGGATACCCCGATGAACGCGGCGATGCTGGCTGGCGGGGCGAAGGCCGCGTTGACGGATGAGATCCCCGCCGGCCGCATGGCCCAGCCCCAGGATGTTGCATACTGGCTGCAGGTGCTGCTGGCGCCGGAAGCCCAATATTTAACGGGTCAGACGATTTACGTCACCGGCGGCTGGCTGGTATAG
>SRR1151209_00360 peptidase M16
ATGGCGAATGACTTTCCACCATTGCCGGAGCAAGTGCGCCAAGCCGTGCTGCCCAACGGCCTGACCGTCGTGGGAATTGAAAAACCCGGTTTTGTCCGGCATTACGCCCAGCTCACCGTATTTTTCGGCAGTGCGAGTGCCCGCCGGTTGACGGGGGCCAACCCGGGCGCGTCATTACCCGCCGGGGTGGCCCATTTCTTGGAGCATAAAATGTTTGATAAGGGCGACCACGATGCTGCCGACGCGTTTGCGGCTCGGGGGGCGGATGTCAATGCGTTCACGACCCGGAACGTGACCAATTATTATTGTTCCGGTTTGGCTCACCTGCAAGAAAACGTTCAGGATTTGCTGAACTTTGTCCTGACGCCGTATTTTACGGCGGCCACGGTGGCTAAAGAACAGGGCATTATTTCCCAGGAAATACAAATGTATCGGGATGATCCGGATTATGGGCCGCAGCAGACGGTCTGGGACCATCTCTTTCCCGCCAGTGTGATTGCCGAGGATGTGGCGGGTTCCCGCCAAAGTATTGCCGGCATCACCCCAGAATTATTGACGGCGGCGTACCAGACGTTTTATCGGCCGAACAATATGCAGCTGGTTGTGGTGGGGGACTTCAACTTCGATACACTGCTGACCCAGCTGACGATTCCCGCTGCTGCTGCTTCAGCTGGCCCGATTCCCCGCAGTGCAGTGGCCACGGCGCCGGTGATCACGGCCCCCCGGCTGCTGCGGGCACCCTTAAGCCTGCCGGAGGCTTGGGTCGGGGTGCGGCTGCCGGCTTTGCCGGATCCGACCCAACGCTTGCGGGTATCACTGCAGCTGGATCTGCTGCTGAGCGGGTTATTATTGGAATCCGCGCCGGACTTTTTGCGCCTGTATCAAAGCGGCTTAATTGATGATTCATTCTTAGTTGACGCGGAACTGCACAGCAACTTTGGCGTCTTAACCGTCGGCGGGAAGACCCCGGCGCCAGCGACCCTGGCGCAGTCCTTGAAAGAAATTTTGACCCCAGCCCACGCCCGGGCGGCACTGACCCCGGCGGCCTTTACTCGGCTGCAGCGTGAACTGATTGGGCGCAATATTACCGGGTTCGACCATTTCGGCTGGTTGGGTGCTCAGCTGGTGGACGCCGCGGATACTCGGGCGGCCGATCGGCGGGTGGTTTATCCGCTGCCGAAACTGGCCGCGATCATCGCCAGTTTGCGGTATACCGATGTGCTGGCCTTAGCGGACGAGTTGTTTCAACCGGCCGCAATGACCACCGTGCTGGTTTCGCCAGACGAGGAGGCCGCCGGATGA
>SRR1151209_00361 peptidase M16
ATGGCTTTTTCACAACGATTAAAGTCTGGGGTGCGGCTGACGGTCGTCCCTAGCAAGAAGTTCAAAACAGTGGCGGCCACGGTCAATTTTATTGCCCCGCTGCAACTAGAAACGCTGACGCCTCGGCAGTTGATCGTTAATCTGTGGCCGGTGGCGAACGCTCAATATCCGGATCCGACTGCGCTCACTGTTGCACTGCAGGATCTGTACGGCGCGTCGCTGCGCACAGGCGTCGATCGGGAAGGGGCACTCAGCATTGCCACTTGCCAGCTGCAATTTCTAAGCGATGCGGTCCTGCCCAAGGGAGAATCCATTTTGGGCCCAGCTTTGGCGTTGCTGCAGGCCATTACGCTGCACCCGCTGCTCAGTACGGCGGGATATGCAGCGCCTTTCTTCACGCCGGAACAGGATAATCTGCGCCATGAGCTGCAGAGCGTCACAGATAGTGCTGACAATAAGGCTGTTTTGACTGCCCAGGCCCAGTATTTCCAGCATGCGCCGGAACAAGCGGCGGTGCTTGGGGGGACAGCGGCGACCATTGAAGCGGCCACGGCCGAAAACTTGGCGGCGTATTGGCAGCAGATGGTCAGTCAGGATGAAATTGAAATCATCGTGACCGGCGATGTGGATCCAGCGGCGGTACTGAGCCAGGTGGCCGCGTGGCCGCTGGCGGCCCGGCCGGCGGTAACCACGCCGCTGCAATGGACGGGGCAGGTACCGGCTTTTCGTCAGTGGCAAACGATGGAGAATTTTCAGCAAAGCCAATATGTGGCCTTGTATCATCTGCCGGTCACGTATTACGGGCCGACCTATTTCCAATATATGGTGACCGATGCCTTGTTCGGCGGCTCAGCGAATTCGCTATTGTTTGCCGCGGTCCGCGAGCAGGCCAGTTTGGCTTATTATGCTGGGACGGAACTGGATGCCCAGACGGGGGCCACCCTGCTGCAAGCCGGCATCGATCCGGGGACTGCGCCGCAAGTGCGCCAAATCGTGGCAGACACCCTGCAGTGGATGCAAACCGGCCAGTTTACCGCAGCCCGGCTGTATAGTGTGCAGGAAGAGCTGATTGCTAATCGGTTGGGCGAGAGTGATCGCCAGAGCGATGTGAACAGCCGCCTGATTTTGCAATACCGCCTCCCGGCGGCTGATATGCGTACAGCGGCCTTTGTCCGCCAGGTGCGGGCGGTGACGCCGGCAGCGGTGCAGGCGTGTGCCCAGCACTACGTCTTGGTTGTGGATTATTTACAGGAAGGGGTGGCCCAGGATGGCGAATGA
>SRR1151209_00362 cell division protein FtsK
ATGGCTAAGCGCAGAGCAGCCCGGACAACCAAAAAACGACCAACGACCAGCCGGCCGCGCACCAGTAAAAAACAGCCGATTCCCACAATGAATGTGGTGGGGTTTGTTTTTCTGTTGCTGGCGGTACTGGCTCTTTTTCGGCTGGGCTTCATCGGCGTTTTCATGGCGAATATCCTGCGCCTGCTGGTGGGGGATACTTACATGATCGCCGCTTTTCTGCTGGGTTTTTGCGGCTTCACGTTGATGGCCAACGGTGAACTGCCGCACATTGCGTTGAGCAAGCTGGGCGGGCTGGCACTGACCTATGGCGGCAGTCTGCTCTTTGTAGCGGCCCTGTATTTTGGCCAGGCGGACGTGCACAGCCGGTTCCTGCAATATTTGTGGATGATCTTGCGTGAAGAATTCGTGCGGGCGACGATTACCGAAAGTGTGGGCGGCGGCATGGTCGGGACTGTGCTCTATACAGGCACGTATTTCCTAGTGTCGCAGGTCGGCACGTATATCCTGGCGACTTTGTTCATGCTGGCCGGGGCGATGATTTTCTTTGGTATTCCCTTTGCCAAGGTGGCCCACGTCGCGCAAGCTGTGGAATCCGGCGGCGCGGCCATGAGCCGGGCGGCGCGGCACCATACCGTGTCGTTCTGGCAGGCATTGGCTGATCGTTTTCTCAATGATGCTGGTCCGCGGCCGGCAAAGAACCCGGCTCCGGCAGAAAAACCGGCTCCGGCGGCACCTGAAGAAACAGCTCCCCCAGCCCCGGCGAAGCCTAAACCGGCGGCCCAGAATGATTTTGTTATTGATACGCCGCCTGCGCCCACTTCGGCGGCACCGGTGCCGGAGCCGCCCAAAGATGAACCCAAGGACCTGCCTTTAGGAGACACTCAGGTGGCTGAAGATTACGAGCTGCCGCCCACCAGTCTGCTCACCGCGATTCCGCCGACGGATCAGAGCGCGGAGGTGGCAACGATCAATACCAATAAGAATAAGCTGGAAGAGACTTTAGCCAGTTTCGGCGTGCATGCGGCAGTAAAAAAGGCTAGCTTAGGCCCGGCGATTACGAAGTATGAAGTCCAACCGGCGGCTGGTGTGAAGGTGTCCCGGATCGTCAATTTGACCGACGACCTAGCCCTGGCCTTGGCCGCTAAGGATATTCGGATGGAAGCGCCGATTCCTGGGAAGCCTTACGTCGGCATTGAAGTACCCAACCAGCAAGTCTCCACGGTTTCCTTCCGGGATGTTGCGGAGCATCTGCCGGCTGACCGGAAACATCTGCTGCGGGTACCGCTGGGGAAAGATGTCACGGGTAAAGTGATCAGCGCTAATTTGGCAAAAATGCCCCATTTACTGATCGCCGGATCTACCGGCAGCGGGAAATCGGTCATGATCAATACGATGATCACCAGCCTGCTGATGCGGACCCGACCGGATCAAGTGAAACTGCTGCTGATCGATCCCAAGATGGTGGAATTGAACGTTTATAACGGCGTTCCCCATCTGCTGATCCCAGTCGTCACCGAGGCCAAGAAGGCAGCCGGAGCGTTAAACAAAGTCGTGGCCGAAATGGAACGGCGCTATGAGCTTTTTGCACATGCCAGTTTGCGCAACATGGATGAATACAATGCCAAGGCCGAAGAATTTAACCAGACCGATGCAGGCAAAAAGACGCCGATGCCAGTTCTGCCGTATATTGTCGTGATCGTGGACGAATTGTCCGATCTGATGATGGTCGCCGGCAATGAAGTGGAAAATGCCATCGTCCGGTTGGCCCAAATGGCCCGGGCGGCGGGGATCCACATGATTATTGCCACCCAGCGGCCTTCCGTGGATGTTATCACGGGGCTGATCAAAGCCAATATTCCGTCGCGGATTGCCTTCGCAGTATCCAGCGGGATCGATTCCCGCACGATTTTGGATCAAGTTGGGGCGGAAAAGCTCCTCGGCCGAGGCGATATGCTTTTTCTGCCCATGGGCGCCAGCAAACCAGTCCGGGTCCAGGGGGCTTATATTTCCTCAGACGATGTGGAAAAAGTGGTGGCCTTCGTGGCGGAGCAGCAGCCGGCTGAATACGATGAGTCCATGGAGCCGACGGACGACGACATTAATGGTCTGGGCGGTGATCAGGGTAAAGACAGTGAAGACGAATATTTCAATGACGCTGTCACGATGTTGAAAGATCAGGATACAGCGAGTGTATCCATGCTCCAGCGGCGGTTCCGGATCGGTTATAACCGGGCGGCGCGGTTGATGGATGAATTGGAAGCCCACGGAGTCGTGAGCGGACCGGACGGGTCTAAACCCCGGAAGGTACTCAATAAGACCGGCCAAGCGGCCGATTAG
>SRR1151209_00363 transposase
ATGGAGACTAAAAAATTCCCAATCATCGTGAATTCGTTCCATTATGATTTATTGCAAAAAGACGATCAAGCCAGCCAGGACGTGCAAGTGGCCATGCGGACAGTCCAACCCAACGACGACCGGTTGAAGGGGACGGAGAAGGACGGTAATTTCTTTGAAATTATGGTGCCCTTCGATGTGACTGTGGAGAACAACGGCTTCCGCATCTCCGGGTCCATCAGCCGGGTGGTCCAAGTGCTGAACTACTTTGGTGAAGCCAGCGATTTGCCGCCGGAAGAGCTGGAGAAGCTGTCCCGGCCGTTAGTGGAGTACATTGAAACCTTGACTTATCAGGTGACTTCGGTGGCTTTGAACGAGGGCGTTTCTTTGAACTTCCAAGCCTCTGGCGAACCGGAAACGAAAGACGATGCCAAGTAA
>SRR1151209_00364 RNA methyltransferase
TTGACGAACCATATTGTACTTTATGAACCCCTGATGCCGGCAAACACCGGGAATATTGCCCGGACGTGTGCGGCGACTGGGGCGACTTTGGATTTGATTTATCCTCTGGGCTTTGAACTAAGCGACCGGAACATGAAGCGGGCGGGGCTGGATTATTGGGATAATGTGAATCTGGTGGAACATGATGATTTAGATGCGTTCATGGCGACCTTGCCGGATACCCAGCATCTTTATTTGATCACTAAATTCTCGGATCTCGTGTATACCGACCAAGACTTCAGCGATACCGATGCGGATCACTATTTCATGTTCGGCAAGGAAACCACGGGCCTGCCTAAGGACTTCATGGACAAGTACCACGATCGCTGCCTGCGGATTCCCATGACGGATAAAGTGCGGGCACTGAATCTGGCCAATTCGGTGGCCATCGTGATTTACGAAGCAGTCCGGCAGCAGCACTTCACGGGGTTGGAAGAACATCATGTTTATCCCCACGATAAGTGGAAGTAG
>SRR1151209_00365 magnesium and cobalt transporter
ATGCTAAAAATCTACGAGTACGATCGGCGCAACCACCAAGTGGTGCCCACTGATCATTTCGCCAACCAAACCTGGATCAATGCCGTCGACCCCAGTGCCGAGGAAATCGCCACCCTGTTAGGCAAAACAGATCTGCCGGAATCCTTCGTCTTCTATGGCCTGGATAAGGATGAGAATGCCCGGACTGAATATAATGAGGACGATGATGCGACCCTGATTATTTTCGACGTCCCCATTCTGCAAAAAGATGGCAGCAATACCAACGCAGTGTATCGGACTGTTCCTCTGGGTATTATTTTGACGAAGAATCACATTGTTACAATTTCGAATATGCATATGCCCTTTTTAGATTCCTTCAGCGACAATCGGCGCCATTTGAATCCCACCAAGCCGATCCATGCGGTGCTCAGTATTTTGGCCCACGTGGTGTCCAACTATCAGCGCTATCTGCGGGACATGAATAAGAGCCGGGAACGCACCGAAGACCGGTTGCAGCGGAACATGCACAACCGAGATCTTTACAGTCTCATGCGAATCCAGCGCGGTCTTGTCTATTTCCTAATGTCCCTGCGGACCGACCGTCTGGCGCTGGAGGCTTTGCGTAAGGCGCCCCATTTCCCACTGAACGACGTGGATGGTGAATACATCGACGACATCCTCACCGAAGTGCAGCAGAGTATCGAGATGGCCCAGATCAGCAATAACATCCTGACGGAGTCCATGGACACTTACTCTTCGGTGATCAATAACAACATGAACAACGTCATGAAGTTTCTTACGGTTTACTCCATCCTGTTGACGATCCCGACACTGGTCTTCAGCTTCTACGGGATGAACATGACCCTGCCGATTGCCAACTTGGGCGTCAGCTGGGTGATTGCGATTGTGTTATCGCTGATTATCGGTGCTTTGGTCGCATTTCACTTTTGGCGCAAGCATCTTTTCTGA
>SRR1151209_00366 30S ribosomal protein S14
ATGGCCAAAAAGTCAAAGATCCTCAAGGAACAAAAGATCGAGGCCACCGTCGCGAAGTATGCGCCGCTGCGGGCTAAGCTGAAGGCAGAACATAACTATGCCGCGCTGTCCCTGCTGCCGCGGAATGCGTCGCCGGTCCGGATCCATCACCGCGATCGCCTTGACGGCCGGCCGCACGCTTACTACCGTAAGTTCGGTCTGAGCCGGATCAACTTCCGGGAACTCGCCCACAAAGGCGAAATTCCGGGTGTCCGTAAAGCCAGCTGGTAA
>SRR1151209_00367 membrane protein
ATGGCAGCTAAACAATCGCAACCGAATCGGCGGTTTGACCGGTTCAATCAATCGTGGTTTTTCCGCTGGTTCGTGAATAACAAAGTCACCGCGGCACTGATCAATGTGCTGCTGGTGCTGATCGTGATTTTTGTTTTCACTAAAGTAAGCAGTATTTTTGACCCTGTCGGCAAAGTCTTCAATATTTTACTGCCGCCCGTTCTGCTGGCCGGCGTCCTGTATTACCTGATGGAACCGCCGGTATCCTTCATGCAGCGCAAGTGGCATATTCCCCGGGTCGTCTCCACGCTGCTTTTGTTTGTCGTGATCCTGGCTCTGGTGATTTGGGGACTGGTCTCCGTGATTCCGCTGATTCAATCCCAGATCACCCAGTTTCTGACGGCCTTTCCCGGGTATTGGAACGGACTGGAGAAATGGATCGGCGAGCTGCTTCAGGACTCCCGCTTCAGTCAGGTCACCCAGCAGGTGGAAAATGCGTTGAAGAATGTCTCCAGTTCGTGGATGTCCACGGTGCAAAGTGCGGCTGGGGCAACACTGCTGAATATTGGCGGGGCGGTGGGGACAATTACCAGCGTGGTGATGACCATCGTCACGGCCCCTTTCTTGCTGTTCTTCATGCTGAAGGACCCCAATGGGTTCCGCGAGGCTATGGTGCGGGTGGTGCCTCTGCGCTGGCAGGATCATTTGCGTCATATTTTGACTGAAATCAGTCAATCCATCAGTAATTACATCACCGGGCAGCTCACCGTCGCCTTCTGGGTCGGGGTGATGTTTGCCATCGGCTATACGGTCATCGGCCAGCGCTACGGCGTGACCCTGGCGATTCTGGCGGCTATCCTGAACCTCATTCCGTATCTGGGATCATTTTTGGCTATGATCCCCAGTTTGCTGGTGGCGGCGATGACGTCACCGCAAATGATCCTATGGGTGCTGGTGGTCTTTGCCATCGAGCAGACCATTGAGCAGCGGGTCGTTTCGCCGCTGGTCGTCGGCAGTAAGATGGATATGCATCCGGTGACGACTTTGCTGGTCCTATTGGGGGCTGGCGGGCTGTACGGTCTGCCGGGTGTCCTATTCGGGATTCCAGTCTATGCAATCATCAAGATCATCTGGGTGCGCATCTGGCACTGGTTCGTGTCGACGTCGTCGCTTTATGAAGAACAAGCGCAACTGCCGACTCCGGCAACCGCCCCCGCGGCAGCACCGGCCGATAAGCCGACATCGACAGCTCCGGAGCCGCCGGCCGATAAAAAATAG
>SRR1151209_00368 glucitol/sorbitol-specific PTS system IIA component
ATGACAACAACACAGGCAACGGTGACGCAGATCGGTGAGCAGGCATTGGGCCATGCGGATCCGATCGTGGTATTGTTTGGCGAAGAAGCCACGACGGAGATTGCTGCCATTGCAGTGATCCAACGGTTTGCCGACCCGGCCCAGCAGCGCGCTTTGACTGTCGCTGTGGGTGACACGATCCAGGTCGGGGCGGCGGCCTACACGATCACCTACGTCGGCCGGGCGGCCCAGAATAATTTACGGTCTTTGGGTCATGTGGCGTTTGTGTTCAGCGATACGGCCCAGGGCGACCGGCTGCAAAACGGACTTTATTTGCATCCCATCGCTGATGCCCCGCGGTTCCCTGATTTTCAAGCGGGCACGACGATCAGCTATACGCATCACGTGTAA
>SRR1151209_00369 6-phosphogluconolactonase
GTGCAAGAGAAGATCTACCTGGGCGGATACACAAAACGCGTATCCCAAGGCATTTATGAAACGGTTCTGGATACTGACAAAGAAACGGTCGCTCAGCCGCATCTGCTGATCAAAAACAACGGCAGCACCTACATTGCTTGGGATGGCAAACACCAGCGTCTTTTTGCCATCACCAGTCAAGACGGTCAAGGCGGCGTGGCCAGCTATGACCTCAGCGGTGATACGCCCCGGCTGATCAATACGGTGCTGGCTCCCGGCTCGTCCCCCGCCCATGTCTTCTACGACGGCGGCCGCTCCCTGCTCTACGCGGCTAACTACCATAAAGGCCAAGTCCTGGTATACAGTGTCGCGGCCGATGGCACCTTGGCGTTAGTGGACACTGTCCAGCATGAAGGCCATGGCCCCAAACCGGAACAAGAAGCTGCCCATGTCCACGAGACGATCCTGACCCCCGATAACCGGCTCGTTGCCTGCGATCTCGGCATGGATCAAATCGACACCTTCGACATCAGCGCGTCCGGCCACTTGACCCACGCCGCCACCTTCACGGCGCCCGCCGGTTTTGGCCCCCGGCACATTGTTTTCCATCCCAGTGCGCCGATCGCCTATCTCTTAGGCGAACTCGGCAGCGCCGTGATCGTCTTAGCCTATGACGCCGCCAAGGGCAGTTTCACCCAGCTGGAAGAAAAATCTTTGATTCCCGACGACTGGACCGCGTTCAACGGTTCCGCCGCCATCCGCGTCAGCCAAGACGGCCGGTTCCTGTATGCTTCTAACCGCGGCCACAACTCCATCGCCGTCTTCAGCATCAGCCCCGACGGCCGCAAAATCAGCTTGATCCAGCGCATCAGTACCGAAGGCCGGATTCCCCGGGACTTCAATCTAGACCCGACGGACCGTTACGTCCTGGCGGTAAACCAGGATTCCGATAACGGTACTCTGTACCGCCGCGATCCGGAAAGCGGCTTTTTGACCATGATTCAAAAAGATATTGATACCCCGGAAAGCACCTGTGTGCTGTTTGTCTAA
>SRR1151209_00370 UDP pyrophosphate phosphatase
GTGCTGAATATTTTCAAAGCAGTGCTGCTGGGCATTATCGAAGGAATTACCGAATTTCTGCCCATCAGTTCCACCGGCCACTTATACCTGGCCAATGAATTCATCAAACTCGACGAGACCCCAGCCTTTATTACCATGTTCATGGTCGTCATTCAACTGGGCGCGATCCTGGCGGTGGTCGTGCTCTACTTCCACCGGCTGAATCCTTTTTCGCCAAAGAAGAGTCATCAGGAAAAAAACGATACCTGGAAGCTCTGGTTCAAGGTCATTCTGGCTGTTATTCCGTCCATGATCATTGGCTTATTGCTGAATGACTGGATGGATGCCCATCTGAATACGTGGCCGGTGATCAGTGCCACCTTGATCATTTACGGGGTCCTGTTCATCGTTATTGAACGCTGGAACGCCCACCGCACACCCCGGGAGACGGATCTGAACGCGATCAGTCCGAAGACGGGTTTAGAAATCGGGTTCTTCCAGCTGCTGAGTCTGGTTCCTGGGACGTCCCGGTCCGGCGCCACGATCCTCGGCGGGATCACCATCGGGGCCTCCCGCTACGTCGCCACCGAGTTCTCGTTCTTCCTGGCGATTCCGACGATGGTCGGGGCTTCCGGTTTGAAGCTGGCGAAGTATATCTTGAAGGGCAACACGTTCACCGGGGATCAGCTCATGGTCCTGCTGGTCGGCACCGTCGTGTCCTTCCTCGTTGCCTATGTGGCAATCCGCTTCTTGCTCAACTTCATTAAGAAAAACGACTTCCAAGGCTTCGGCTGGTACCGGATCGTTCTCGGCTTGCTGGTCATCGCTTGGTTTGGTTTGCACGGATAG
>SRR1151209_00371 copper homeostasis protein CutC
TTGGCTCAATTTCTGAAAGAACTGGCTGTTGAAAACTTTACCCATATTCCCGCCTTGTTGGCTGCGGGGGCGGATCGGATCGAACTCAACGACAATCTGGCCGTCGGCGGCACCACCGTCAGCCGCGGCGTGATGGCTGAGGCCACCCGCTACATTCACGAAAAGCAGCGCAGCGTGGCCGTCATGATTCGGCCCCGGGGCGGTGATTTCGTTTATAACGATACCGAGATCAAGATCATGGAGGCAGACGTCTTCAGTGCCCAAGAATTGGGCGCGGACGCCATCGTCACCGGTGCGCTGACGCCAGCCGGGGACATCGATACCGATGCCATGGAACAGCTGATCGCCGCGGCCGCGGGCATGGACGTGGTCTTCCACATGGCCTTCGATGCGATTCCCGAAGAAAAACAGGCAACGGCCCTCACTTGGTTGGCCGCCCACGACGTCGTCCGGGTCTTGACCCACGGCGGTCCTTTGACGACCCCGATCGCTAACACCCTGCCGCATTTAGCCGAAACGATCAAAGCGGCCCCAGCCGGCTTGACGATTCTGCCCGGCGGCGGCGTCACCGCGGTGAACGCGGACCAAATTGCTGAGACACTGCATGTTAAGCAGCTGCACGGGACGAAACTGATCACAATCTAA
>SRR1151209_00372 ribosomal large subunit pseudouridine synthase D
GTGATTTTTAAATGGGTGGTCCCGGATCCCGCTCCGGCCACGGTGCAGAAGTTTTTGACCCACCGGGGTTTGTCCCGGGCGTTCATCGGCCGCACCAAGTTCAACGGTGGGGCCCTTTTTGTGAATAGCCGCCAGCGTAATTCCGATTATCCCGTTCATCCTGGCGACGTGATCCGGCTGATCGCCCCGCCGGAGCAGGGCGCGGATACCATTGTCCCGTCGGCTAAGCCGTTGCGGATATTGTATGAGGATCAAGATATTCTGGTGGTGAATAAACCGCCCTTTGTGGCATCGATCCCATCGCCCAACCATCATTTCGATACGATGGCCAATCGGGTCAAGGGTTATTTGCAGGCCCAGCATAACGAAAGCGACTCGGTCCATGTCGTGTCCCGCTTGGATCGGGACACCAGCGGGGTGATGCTGTTTGCCAAACACAGTCTGGCCCATAGTTTGCTGGACACCCAGTTGCAGGATAAGACGATGCAAAAGGAATATTTGGCCATCGTGAGCGGGGCGCTGGCTGTGCCCAGCGGCTTGATCGATCTGCCGATTCGGCGGGCGCCCAACAGCACCTACGAACGGATGGTGGGTGCGGGCGGCAAACCATCCCAGACCGCGTTTGCAGTGACGGCTTACAACACTGATGCCAGTGTGGTCACGGTGCGGCTGCTCACCGGCCGGACCCACCAGATTCGGGTCCACTTCGCCGCGCTGGGCCATCCTTTGGTGGGGGATGACGTTTACGGTCAGGTTAGTCCAGCGATTGCGCGCCAAGCGCTGCATGCCCACGTATTGCGGCTGATTCAGCCGTTGACGGGCGCGCCGCTGACCATCGTGGCGCCGCTGCCGCCGGATATTCAGAATTTGCGGGCGGCGATTTGCCGAACGAGTGAGTGA
>SRR1151209_00373 ATP-NAD kinase
ATGAAGATCGCAATATTTAGTAACGATAAACAGAAATCCCGCATGTTCCGCCGCAAATTGATGCGGGAACTGCGCCGGTTGGATATTGTTGTCACGAATCAGGACCCGGACATTGTCATCACTGTGGGCGGCGATGGCACGCTGCTCAGCGCCTTTCACCGGTATGCCCACCAGATCGACCATATCCGCTTTATTGGCGTGCACACAGGCCACTTGGGCTTTTACACCGATTGGCGGGATTATGAACTGCCGGAGCTGGTGGAAGCCTTAGCCAACGACTCGGGCCAAAGTGTCAGCTATCCGTTGCTGGACGTGGTGATCCAGTATTTCGATCAGACGAAGGAACACTACATTGCGTTGAATGAATCGACGATTCGTCGGGTGAACAAGACGATGAAGACGGATGTCTATATTCGCAGCGAGCTGTTTGAGAGTTTCCGGGGCGACGGGCTCTGTATTTCGACGCCCACCGGGTCTACGGCGTATTCCAAGTCTTTGGGCGGCGCGGTGCTCCACCCACGGTTGGAGGCGTTGCAAATGGCCGAAATTGCCTCGATCAACAACCGTCTGTTCCGGACGTTGTCGTCGCCCATCGTGATTGCCCCGGATGAGGACATCACGCTGCGCCCGGACGCCCAGGAAGACTATATTTTGACCATTGATTCCTTCACCCACCGGGAACGGCCGATTTCCCAAGTGACCTTCCGGGTGGCCAAAGAACGGATCCACTTTGCCCGCTACCGCCACATGCACTTTTGGGATCGGGTGGAGGATGCGTTCATCGGCAGCAAGCAGGCCCATGGCAAACGGGGGCCCCAGGCGTGA
>SRR1151209_00374 GTP pyrophosphokinase
ATGGACAGAGATTGGCCAACATTTTTGTTACCCTATGAGCAGGCCGTCAATGAGTTAAAAATCAAGCTCCGCGCACTGCGCAAGGAGTTTTTGGAAAAAGGGGAACACACCCCGATCGAGTTCGTCACGGGGCGGGTCAAGCCCGTGGCCAGTATCAAGGAAAAGATGCACCGGCGGGTGATCGACCCCGCTCTGCTGGAAGAAGATATGCAGGATATTGCCGGACTCCGGGTCCAGTGCCAGTTCGTGGAGGATATCTACGACGTCGTCGCCCTGATTCGCGAGCGCAGCGATATGCATGTGGTTGAGGAACGGGATTACGTCAAAAACGATAAGCCCAGCGGTTACCGCAGCTATCATGTTGTCATCGAGTATTCAGTGCAAATGGCCGAGGGAGAAAAGAAAATTCTCGCTGAGATCCAGATTCGGACACTCGCCATGAATTTCTGGGCGACGATCGAACATTCGCTGAGTTATAAGTACCCTAAGGCTTTTCCCGAAGAAATCAATGACCGCTTGAAGCGGGCCGCTGAGGCCGCGTTCATGCTGGATAAAGAAATGTCCGCGATCCGTGAAGAGATCCAGGATGCCCAGACGATGTATCGGCGGGGGCAACAATCGCCGGACGATCCCGAGGATCCGGACACAGGAGACGAAAACACCCATGAAGATCGCAATATTTAG
>SRR1151209_00375 dithiol-disulfide isomerase
GTGCTCGAGATTTTTTTATTTGTCAATCCAATCGGCATCGAATGTCTGTCGGCGGAACGTTCCACCCTCAAGGCCATTGAAGATTACCCGGATACCGTACACTTCTCGTTCATCCCGTTAGTTAATCTGAAAGTAATCAAGCGCTACATGGCGCTTAAACACATTGACCCGGCGGATCTCGCGGCGCAAAACGAGATCAACCGGATCGCCTATTCGGTCGCCCTGGACTTCAAGGCGGCCAGCTTCCAGGGCACGAAAAAGGCCCGGGAGTTCCTCTTGTTCATGCAATCCGCCATTAACGAACACGACCGGGAATACACCCCCGACCTCATCGAAGAGGGTCTGCGTGAAGCCGGGCTCGATTCGGCCATGTTTTGGGAAGACCGGCACAGCACTTACGTCAAGAGCGGGTACGAAAAGGACCTGGCCGCTGCCACGCGAATGGGCGTGGAGATTGCCCCGTCCATGGTGCTGTTCGACTATTCAAAAGATATCGATCATGCCGGCCTGCTCGTGGCCGGGTGTACGAATGAGAACATCATCCGCGGTCTCTTCTCCCACGCCGGCGATTTGCACACCACGAAGGAAATTCAGTCGCGCCGGCATTTTCACGTACTATAA
>SRR1151209_00376 competence protein CoiA
GTGAAAGTTGCGTTGAATCAGCGCGGTCAGTTGCAAGTTGGGGCGGAAGCCAATCAGTATCCATGCCCGCCGTATACCTGCTGTGATTGCGGCCAAGCCGTCGTGCTGCGCCGTCGCCGGGAGAAATGGTATTTCAGCCACGTGCAGGGACGGCGCCCGCACATGCCGGAAAGCGAAGCACACCAAGCAGGCAAAGCGGCACTTACCCAGTGGCTGGCGGCCAGCGGGCTGGCGCCGGAGAATGAGCGGGTCATTTTAACGGGGGCGCAGCGGATCGATGTCTGTGTACCGAGTTTGATCTTGGCCGGCGAGTACCAGTGCAGCCCGTTGGCACTGACGGCCCTGCGGCAGCGGCATCAGGGCTACCAGATGGCCAACTGGCGGGATTGGTGGATCCTGGGAGAAAATTACGTCCCCCAGCAGCGCTGGCAGGCCCAGACCGCCCAGTTCTGCCAATACAGTCCGGCCCTAGGCTTTTATCTGTATCTGTTTCGCGCACCGTATCGCCAGTTAGAATTGTGGCATCATTTGACCCGGGCACCGCACAAAAGTCAGTGGATCGCTGGGGGCTGTGACCGCTTCGCCCTGACGGAAGACTGGGCGCATTTTCAGCGCTGGCATAACGCACCGCATCCCAGTCGGCCGTATTTGCCGCTAACCGTGGCGGCGTGGCGGGAGCACTTGGTCTGGCAGGGCCGGCGGCGGGATCCGCGGTATCAGCAGCTGCTTCAGCTGCTGTACACCCATGGCCGGCAAGTCAACGATGTTCCGGCGTGGTGTTTTCCGTTGACCCCGCTGCCGCCGGTATTCAGCGGTTCATTTTTCATTTGGGCCGTGCAGCACTGGCTGGGGATCACACCGGTGGTGCCGCGGCTGAACGCGCCCCTGCTCAGTATCGCGGCACAAAAAAAGTGGATCGATTTTCCGATCCACTGGCTGCATCAGCAGCAGGGTTTATAG
>SRR1151209_00377 adapter protein MecA
ATGGAAATGGAACGGATCAATAATAATACGATTCGGGTGATACTGGGCAGTGAAGATCTCGCCGAGCGGGGCGTCACTGTTCTGGACTTGCTGGGTAACCGCAAGCAGATCGAACGCTTTTTCTACAGCATCTTGGAAGAGGTCGATAAAGACCACACCTTTGTCAGTAACGATGCTGTGACCTTCCAAGTGATGCCCAATAAGAATGGCTTGGAACTTCTTATTAGTAAGGGCGACCGTGATGAAGAGGATGACGATGATCAAAATCATGGTCGCCGCCGTCACGACGATCGGCCCAGTGATGAGGATGTCTCTGAATTCGTTAAGCGGCAGTTGGGCGGTTACGATGATGATTCCAGCGCACAAAGCCAAGTCAGCACCCCTGGCGCGAATCGGAGCCGATATGGCAATCAGCCGTTTACTAAGGTATTGGCCTTTGATGATTTTGAGGATATCGTCGCGTTGGCCGATGTGCTGAACGATGATGAAGTTGATGTGGATCTTTACTCTTACAAGAATAAGTACTACCTCGTATTTACGATGCCGGATCAAGACCTGTTGGATATGACCCGGGAAGACTACTTAGCGGTGGCCAATGAATACGGGCAGGAAGTACAGAATGTCACGCCGGAACTGTTGTCGGAACACGGCAAACAATTGATGGCAAAGAGTGCGTTGCATCAAGTTGCTCATTTCTTCGGCCCGCAACCTAAGAAACCGAAGAAGCGCGCGAAAGCATCTAAATAA
>SRR1151209_00378 arsenate reductase
ATGGTGACACTTTTCATTTCGCCGAGCTGCACATCTTGCCGGAAAGCGCGTGCTTGGCTTCAACAACATAACATTCCCTTCGTGGAACGGAATATTTTCACTGATCCGCTGAACAAAGCGGAAATTATGAATATTCTACGGATGACTGAAGACGGGACGGAAGAAATTATTTCCACCCGGTCTAAGGTTTTCCAAGAGCTGGGGATCAATTTGGATGATTTAACCATTGACGCGCTGCTCGATTTAGTCCAACAGCACCCAGGCCTGTTACGGCGGCCGATCATCTTGGATGACAAACGCCTGCAAGTCGGGTACAACGAAGACGAGATCCGCCGCTTCTTGCCACGGGAAGTGCGCGCGTTGGAGTTACATCAGGCCCAGATGATGGCTGGGTTCTAA
>SRR1151209_00379 metal-dependent hydrolase
ATGGAATTTCAAGTATTGGGTTATTACGGCGGCTATCCCACTGCCGCGGCTGGGACTAGCGGCTACTTGCTGCGCAGCGGGGATACTAATATTCTGCTTGATGCGGGCAGCGGCGTGCTGCGCGAATTGGAAAAAGTCATGGATCCCTTGCAGCTGGATGCCGTCGTGCTGTCCCATTACCACCATGACCATACCGCGGATGTGGGGGTCCTGCAATATTTGTGGCAATTGAAACAGGGACCAAAGAAAGAGCCCATCTTGCCCATCTACGGCAATACTCAGAATCCCATTGAGTTTGCCACCCTCACCTGGCCTGGCGCCACGGTTGGCCGGGCGTATACGGATACTGCGCCAGTGACCATCGGACCGTTGACGTTCACCTTCCAGCGGACGATTCACCCAGTCCCAGCGTTTGCCATGCGGATCACAGAAGCTGGGACTGGCAAAGTGCTGGCTTTCACTGCAGACACTCGTTACTATCCAGAGCTCGCTGATTTTGTTCAGGGTGCCGACGTCCTGATCACCGACACGAATTTCCTGAACGACCACCAGGGCGTGGCTTGGCACATGACAGCCGGACAGTCGGGCCAGCTCGCCCAAGATGCAGGGGTCAAACATTTGATTATCTCCCACTTGCCCCAGGAAGCATCGCTAACCAAGCTGCAAGAACAAGCCCAGGCCGCGGCGGGTTCAATTAAGGTTACATTAGCAAGTAATATTCATGGTCTAGAATTGGTCTAG
>SRR1151209_00380 hypothetical protein
ATGATTTTTTTGACCACATTGATCACTGTACTCGGTTCGGCCGAGTACTTGCACAGTAAGCAGGCCAACCTGCCGGCGAGCCGATTGCTCGTCCCGTGGCACGATGACGGCGATGCGTTGCTGTACAGCGTCACTAACCGCACCTTACCACAATTTTCAGCGGCCGCCTATTTTTCTGAAACGAATCGGCTGGGGATTTTTGGCCCAGATGATTTCTACCACTTCTGGTATTTGCATTTTAAACGGACCGACAATGCACTCTTCAACAACGCCTTGACGCCGGCCTTTTTGCAAAATATTTTGAATCAAACCGGCGCAGCCGGGTTATGGCTGGGCCAATCCGCCACGGAAAAACGAGCCTGGCTGATGGTCCTTGCGGTGCAGGAGCCGCCCTTGGCGGGAGGCCATTTGCGGGATCAGGCTCCGGCGCAGATGCAGGACTATATCGAACGCAGCCGGCATAGCCTGAGCGGTTTCTTTGCCCACGTATACATCACCGAAGAAAAAGCTAACGCGATACGATCGACCGGCGGACCAGCTGCGCCGACAGCATAA
>SRR1151209_00381 ABC transporter permease protein
ATGACGTGGCGCACCAAGAGTAAGATAATCGGCCGAGTCCTGCACCACAATGTCCTGTTTTGGCTGGCGACGGTTTTCCTCGTCGCGGTTTTTTACATCATGATGTGCTGCTACGCCGTGGCGGCAAACTGGACGGCCACGAGTCAGAACGTCTTTTTGGTCGCGGCAGTGACCAATGCCTTATTTTTCATGGCCTTTTTCTATTATGGTCAGCGCTACATCATCGGCCAATATCGCCAAGAAATTGCCCTGTATCAGTTGTGGGGCGTGCCGCGCCAGCAACTATACGGTACGATTCTGACCCTGAATCTGATCGTGCTGGGCTTGATGGTCACGGCGGGGTTGGCTTTTGGTGCTCTGTTTATGCCGTTGGCGGTCCTGCTGCTGCAACGGTTCATGGGCTTGGCCACGCAGTTCGTTGCCCCCTGGCAGGGTGCTGCCCTGGTGCGCACGTTAGCCACTTTCGCCGCGATCGGCCTGTTGTCCCAACTGGTGCTGGTGCGCCAGGTTTATCGGGTTCGGCCCGTTCAGCTGCTCCATGGCAAAAAGGCGGATACCCTGCACGGCCGCCATCGGCTGTCGCTGGTGGCCGGAGTGTACGGTGTTCTGGCGACCGTAAGCGGTCTGATTATTGCCCAGCATTTCTGGTGGCTCTGGCTCATTCGGCCGGACACGACGGGCCTGCGGCTGCTGGGCTTGCTGAGCGCGATTTTGATCCTGGTCATTTCCGGCGAACACGCGCTGATTCACACCACCATTCCATTATTGTTAATGGGGTTGCGCCGGTTGCCGCGCTGGCCGCTGAAGAGGAACCGGCTGCTCAAGCTGGCCCGGCTTACCCGGCAGTTCCGCGGCGAAGCCACCGTGCTCTGGATCGGCGCGATCCTCCTGTCGATCGTCGTGACGTGGGCGGGGATGCTGACCACCACCATCAGTGTTGCCAATCGGGAAGCGGCCAACCAGGCGCGGATGACGTTTGTGACCCACAATCCGCGGGCCTGGCAGGACTTAGATAAGGCCCTGACCCGATTTTCAATCAGTGATGTGCAGCGTGTCCAATCGACGTTCAAAATCAGGGTGGTTCAGTTCCGGCTGGTGAATCACCAAACGGGTCAGGAACAGGCAGTGCACAACACGGTGGCGATCATGTCCCAAGCGGAATACCGCCGGGTGCAGCGCATGCAGAACCTGCCGGAGCTGCCGCGGCTGACGGGCCGCGCCGTGATGATCGGTGATGCCCTGAGCAACACAGCCTGGTCGCTGTATCGGCCAAACATCACGCTGCATCTGAACCAAAAGGGCCTGCCACCCCTGCGTCGAGTGGGATTTCTCACCGCGACACCCTATGCCACGACTTTCAACACGGCCTATGCCACCGATATGGTGATGGTCGTCAGCGATGCGCTGTGGCCGCAAATCAAACCGGAAGCAACCATTACCTGGTACGGCGGGCAGGCGACGAAGCCCCTGACGGTGACCCAGATCGATCGGCTGCTGGCAACGATGCCCAGCAAGTATCGGAATGCGGCCTATTTTTCTGAAAAAGGGAAAGTCGTCACGCGGCACTACACTGACTCCCGAGATCAAACCCTGTGGACGGCCCCCAAGATTCGCCAAACGTTCCGGCGGGAAACCGGCATTGATGTTTTTGTCGGCTGTGTCCTCAGCGTCGTCATTCTCTTTGCCGTGAACAGTATGCTCACGCTGCGGGCCTGGGCGGAACGGGAAGAGGGGGTGGGCCTGTTCTTCAGTTTAGGTATGACCGCCGATGAGATCCGTCACGTGCAAAACGATGCCTTGGCTTGGCGTTATGCCCTGCCGGTGATCATGGCCGCGCTGAATGGTCTGTTTGCCCTGCAAATGCTGTGGACTGTCGCCTGGACGGCTGAATCAGCAGCCCTGTTCCTGCTGGTCCTGGGGGCAGTGGCACTGGTCTCCTGGCTGTTCTTTATGCTGTCGGCGCAGCTGGTCCGCCGGTCGATCGTATCGCGTTAG
>SRR1151209_00382 antimicrobial peptide ABC transporter ATP-binding protein
ATGGCCCTGGTTACTGTTCAAGGTTTAACTAAGATTTTTGGCCACCGGCTCCATCCCGTGCGGGCGCTGAACGGTCTCTCGTTTGCGGTGGAAAAAGGGGAGTTCGTGGGGATCATGGGTCCGTCCGGGGCGGGCAAAACGACGCTGCTCAGTATTATTTCGACCATCGATGTCCCGACCCACGGCACGGTGACGGTGGCGAACACGAATGTGACCCGGCTGCGCGGGGACAAGCTGGCCGAATTCCGCCGCGCCAATCTCGGGTATGTGTTCCAGGACTTTAATCTGTTATCCGGGATGACGGTACGGGAGAATATCCTGCTCCCGCTGTCGATTGCCCGGCAGGGTGTCGCGGATGCCCAGGACCGGCTTGCGGCGGTATTGACAGTGACGGGGCTGACCAGTTTGGCCGAACGCTATCCCCAGGAGCTGTCGATTGGTCAGCAGCAGCGGGTGGCGGTGGCCCGGGCGCTGATCACCCAGCCAACCCTGGTTTTTGCGGATGAGCCGACGGGGTCGCTGGATTCGAAAGCAGCGACGGAGCTGCTGCGCTACCTGACCACCATCAATCAGCAGTGGCACACCACGATCATGATGGCGACCCATGACGCCTTCACGGCCAGTTATTGTTCGCGGGTCATTTTTATCAAAGACGGCACGCTTTTCGCGGAGATTCGCCGGTCCGGCGACCGCCAGGCCTTTTTTGATGCGATCATTGATATGCAGGCGACCATCGGTGGAGGGGGGCATTGGCATGACGTGGCGCACCAAGAGTAA
>SRR1151209_00383 two-component system response regulator
GTGTTCAAAATTCTCATTGTGGAAGACGACCCCACCGTCAGTCGGCACATCGCCCAGGCGGTTACGGAAGCCGGCTGGCAGCCCTTGCTCGTCACGGACTTCAGCGATGTACTGGCGGCCTTTGTCAGTCAACAGCCGGATCTGGTCTTGATGGACATCAATCTCCCCGGCGGCCATGACGGTTTCTATTGGAACAGCCAAATCCGCAGCCACTCCCAAGTCCCAGTGATCTTCATTTCATCCCGCAACAGCAATATGGACATGATCACCGCCATGAACAGCGGCGCGGACGATTACGTGGAGAAACCCTTCTCGGCATCGGTGCTGCTGGCCAAAATCAATGCGCTGCTGCGCCGCACTTATCATTATAGCAACCAAAGCACTAAGACTTTGGAATACGGCGGGGTCGTATTGAATTTGGAAGATTCATCCGTACAAGTTAACGGTGCTAATGTTGATTTAACAAAAAACGAGTATAAATTATTGCAATATCTCCTTCGCCGGCACGGTCAACTCGTCCCCCGCGCCAGTCTGCTCCGCGCCATGTGGGAGGACGAACGCTTCGTGGATGACAACACCCTGACCGTGAATATCAATCGACTGCGCAAGAAACTCAGTGATGCCGGCTTAGCGACCTTGATCCAAACCAAGGTCGGGAAAGGGTATCTGATTCCGTGA
>SRR1151209_00384 two-component system sensor histidine kinase
GTGAACGTTCGCAAATACCTGCAGGACCATCTGCCCCACATTCTATTCTGGATCGCCGGCCTGCTGGTCGCCGATCTGTTATTGTGGTTAGCCCCCGGCCAGCGGCTGCTGTCCTGGCCGACCTTAGTCTATCTGGACATTCTGCTGACCGTCTTCTTTTTTATTTTCATGGTCGGCGTTTATTTCTACCGTGCCCGTTGGTATCGCGGCATTCAGCAGCGGGAAGACGCCGGCTCCGATGCTTTGAATTGGCCGCTGACTGGCGCCCAAAACGAAGCCCAGCAATATACCCAAGATTACGTGAACCGAATCTTGCAGCTGCATCGCGAAGCCACGGACCAGCTGCTGCAGCAACAGGAAGACCAGCTGGCCTTCATTACCCGCTGGGTTCACGATATCAAGGTGCCCCTGGCTGGGCTGCAGCTGACCAGCGATCAATTGGCCGGCCAAGTTGATGAAGAAACCTATGACGACGTGACCACCCAGCTGGAGCGGGTCAATCACTACGTGGAAGAAGTGCTGTATTATTCCCGGCTGAGCAGTTTTGCCAATGACTACCTGCTGCGGGACCACAATCTGCGGGAAATCGTCGCCACCGCGCTGCGCAGCCAAATGAACGGCTTCTTCAGCAAGCACTTCCAACTTTCGGTGTTTGACGAGGACTACCAAGTGCTCACCGATGATAAATGGCTGCTTTTCATCATCAACCAGATTCTCGCCAACAGCGTTCAGTACACCCCGGCCGGCGGCAAGATCACGATTACCGCCGGGCAGGATAAGACAGCTACCTGGCTGGCCATCGCTGATACTGGCGTGGGAATCGACCCCGCCGATTTGCCCCGGATCTTTCAAAAGGGTTTCACCGGCCAAAACGGCCGCCAAGTCAACTCCCAAGCCACTGGTCTGGGTCTCTATCTCGCCCACACGATGGCCGAGCGGTTAGGTCACGAACTGACCGTCACTTCCACTCCGGGCCAAGGCACTACCGTCAAAATCACGTTCCCGTTTCTCAGCTATTATGGCGACGACCAGGCCACAGTTCAAGCGCCCAAGTTAAAGAAATAG
>SRR1151209_00385 signal peptidase I
GTGAAAGAACCGAGCAGTCGCAAAGAGGTTAAGGCCCAAGAGAATCAGGAAGAAAGCTGGGGCAAATGGTGGCTCCAGACCTTTGCCATGGCGCTGGTGTTTGTGGGAATCGTGACCCTGCTGTTCACCTTCGTTCTGGCCAACGACCAGGTCTCCGGACCGTCGATGCAGCCGACGTTTGAGGGCAATGACCGGGTGATCGCCCTGCGCCACGGGCACGTAGACCGCAACGACGTCGTCATCTTGAACGCGCCGGATGAACCGGGCGTGCTGTACATCAAGCGGGTGATCGGGCTGCCGGGAGAGACCGTGGAATCAAAAAATGATGTCATGTACATTAATGGCAAAAAAATCGCCCAGCCCTATCTCAAAAATTCCCTGATGAAGGGCGACGAGGCCCGGGGTGATCTGTACACCGACGACTTCACCTTGCAATCTAAGGGGTTAGGCAAAAAGGTGCCGGCGGATTCCTACTTCGTCATGGGGGATCACCGGGACGATTCCAAGGACAGCCGGATGTTCGGTTATGTCAAACGCAGCGCCATTGTCGGCGTCGTCAAGTTCCGGTATTGGCCGTTGAATCGGTTGAAGGGCTTCTAA
>SRR1151209_00386 hypothetical protein
ATGCCGACCCCGGCCATGACCGGGTCAAGTGTCAAATTGCCCAGCGGCCAGTCTGAATCAGTTGATCTGACGGACCAAGCCTATCAGTACATGAAAAAAAACAAGATCACGCCGATGTGGCCAGACAGCATGTTTTTAGTCAACACCGATATGGCTGCTGACAAGTCAGGCAACTTGCGCTACCTCAGTCAACGTTTCTACCAAACGGCTTGGTATTACGTTTGGGGTCTGATTCAGCAAAACATTCTTTATGTGTTACTCACTCTCGGCATTCTCATTACCGGACGGCAGTGGGCAAAAGAATTGGCGAATGGGGCGGTCCACGGGGAGTGGCTGACGCTACAGGGAATTTCCCCGGCCCGGCAAGTACTGAATCAGTTTGGCGTGATTGCCTATACGTTGGGCCAAATTGCCTATTTGCCGCTTCTCTTGGCCTTCATCGTGATTGCCTTCTGGCAAGGGCTTGGATCACTGGCGTATCCGGTGGTGGGCTATGGCAATAACGGGCTGGGCTTTGGCGCCCTACTGCTGCCATTACAGCAGTATCTTGGCGGCGCCCTGCTGCTGAGCATCGGCCTGATTATTTTTATTGCGACAACGAATCTGCTGCTGGCGGATTGGATTCGCAATTCTTGGATCGTGACGGCGTTGCAACTCGTTCTCCTGGGAATTACCTGGGTGGCACCGCCGATGCTCTCCTCACCGCTCACGTACTTTAAGCTGGATCCCATTCTGACGGGCGCATTGGCCCAGCAAGTGGACGATTCGGCCTTTACTGCCTGGCAAGGGTTCACGGTGCTGTTGACGGCCAGCGTGCTGCTATTGGTAATTTTGGCTGCTACCCGGTTGGTCCGAGGATGGCTGCGTCAACACCATGGCGTGACCGCTGCCGCCGCCAAGTAA
>SRR1151209_00387 hypothetical protein
ATGCAGCATTTATGGCACTTTGAACTGCTGAAACGAAACCGCCGGTGGCCGGTGTGGTTAGTCGTGGGACTGGTGTTTTTGGGCTTGCTTGGTGGTTTTGGCGCGCTGCGCATCAAGCAATCCCGCTTCGTTGATGACTATGCGGTTACTTTGCGGCGCATGGCCAAATTTCCCGGTCAGAAAAAAATTACGACGCCGAATTAG
>SRR1151209_00388 ABC-2 transporter family protein
ATGATGCGGGTGGTCCGATTCGAGTTGCGCCGACTCTGGCGCAGTTATTTAGCGGGCGGGTTGCTGCTGCTGACGGTGTTGCTGACGGCGCTCTTTTTCTGGTTCGCCCAAGTGGGAGTCGGTCAATATCGCACCCAGTTGCTGCAGGATTTAGAAAGCAAGGACCAAAGTGTTGGTCAAGAAGTCAACGGGCTGCAATTTCAAATCAAACAAACCGACGATGCGGCAGTTAAGAAGGTGCTCCGCGCCCAATTGAACTTGACCAGCCGCACCGATGACGGTATCGTGGCGCAGATCAAAGCGGTGAAGCAGCGCAACAGCCCGGCCTTTATTGCTGGCGGGTTGCAAGTCAGCCGGTATGGGCCGCAATTCAATAAGACCGGCGCGGGCAATTCTGCTGGTTGGAGCGACCAGCAGCTGTTGCAGCAAAAGCAGCAGTATCAGACTCTGCAAAAAGAGCACCAGGCTTTCGAAAGTCCCACAGTGACCATGCAAGCGCCAGGATTGCTCGTCAACTGGCAGCGGCTGCTGGCGTCTCCCTTGACCTTGGTGCTGGTGATCCTGATCTTGTCCACCTTGTGGGTCACTGCGGTATTCACGGCCAACCGGCAATGGATGCAGCTCAATGTGCAGCCGGCGTGGCAGTGGTTAGCTGCCAATTGGGCGGTCATGAGCGGAATCTGGTTAATGATGCTGCTGATTGCCAATGGGTGCATGTTTTTATTTGCTCGCTTTTTGGGCTCCCCCTTGTTGAGCGGCACGATATCTTGGACTGCAGTATTACCCGGAAGCAAGCTGACCTATTGGCAGGCGTGGCTGTTGGCCCTTGGGCAGAGCTGGGTATCGTTTATTGGCGGTTATGGAGTATGGCTCGGACTGACCCAGTGGATTCAACGACGGAGGCGAGGATAA
>SRR1151209_00389 ABC transporter ATP-binding protein
ATGATTCTCGATATTAATGAGCTGTCCTTTGGCTGGCGCAAACAACCCGTGTTCAATCAAGCTAATTTGCAATTAAAGGAACCCGGCCTTTATGGCTTAGTGGCACCCAATGGTTCCGGCAAGTCCACCTTGCTGAATCTCATCACTAATTTGCTGAAACCACAGAGTGGGACGATCAAAATCATGGATGCGCCCAATTCGACCCGCCAGGTTTTTGAACAAGTGGCTTTCTTACAGGACAATTCGGTATTGTACCCATATCTAACAGGCCGGGAGCATCTGATTTTTGTCGCCCAGATGCATCAGCTGCCGATTCAAGCCATCCAGCCGATTGCTGACGAACTGGAAATGACTGATTATTTGGCCCGGAAGACGCAGAAGTATTCGCTGGGGATGAAGCAGCGCTTGCTGCTGGCCATGGCGCTCTTGGTGAAGCGGCCGCTGATGCTGCTGGATGAACCGTTGAACGGATTGGATCCGACGAGTTTGCAGATCGTTCGCGAGGCCTTGATTAGTACAAAGGAAGCCGGTCAGACAGCGCTGATTTCGTCCCATAATCTGGATGAGCTGATGCGGGTCACTCAGGATGTCTTCTTCATCGTCGACCAGCACATTGAGTTCTACCACTTGGATGCGGGCGACACTGCGGAGGCGCGGTACAACGACTTGTACGTGAAAAAGCGATGA
>SRR1151209_00390 cation-transporting ATPase
ATGGCCAACGATGACAAGATGACGCATAAGGATCATGACATGTCTGGGATGGATCACTCGCAAATGACGCACCAAGAGATGGACCACAGTAAGATGGACCACGCGCACATGAGTCATGATGAGATGGCGAAGATGGATCATCACGGTATGGCGCACAGCAAGATGACTCATGAGACGGCCGGCATGGATCATAGCCAGATGTCCGGCATGGACCACAGCCATATGGATCACGGCGATATGGACATGGGCGGCCACGACATGATGATGCACGGCGGCCAAATGATGCATATGGGCAACCTGAAGCAGAAGTTTTGGGTCTCGGTGGTATTGTCCCTGCCGGTGCTGCTGCTGGCACCGATCATGGGTCTGAACCGACCAGTTTTTAATTTCAATTCCATCGTCCAAGATTGGGTCGTCGTCTTGTTTGACACGATCATCTTCTTCTATGGCGGGAAAGTCTTCCTGCAAGGGGCGAAGGCCGAATTGCAGAGCAAGGAACCGGCCATGATGACCTTGATCGCCATGGGCATCACCGTGTCTTATGTATACAGCCTCTATGCCTTCATCGCCAACAACTTCTTGCATCCCCAGACCATGGTCATGGATTTCTCGTTTGAACTGGCGACCTTGATCCTGATCATGCTGCTGGGTCATTGGATCGAAATGAACGCGGTGATGGGCGCCGGCGACGCGCTGCAGAAGATGGCGGCCTTGCTGCCGAAGACGGCGCACCGGGTGACGGCGGACGGTCGGACCGAGGACGTGCCGGTCAGCCAGCTGCAAGTCGGCGAGTCCTTCCAAGTTCGGGCCGGCGAGAGTATTCCGGCCGACGGGACGATCACGGCGGGCACATCCACGGTGAATGAATCCCTGGTTACCGGGGAATCCGCCGCTGTCGCGAAAAAGAGCGGCGATAGGGTGATCGGCGGGGCGACCAACAACGATGGCACCCTGACCGTCGCCATCACGGGGACTGGTAAATCCGGCTACCTGGCGCAAGTCATGCAGCTGGTGCAAAGTGCCCAGCAGGCCAAGTCCAATGCCGAAAGCAAAGCGGACACTGTGGCCAAGTACCTGTTCTATGCGGCCTTGTCCGTGGGCATCATTGCCTTCTTCGCTTGGCTGCCCCAGGGGCTGGACACTGCCTTTGCGCGGATGGTCACTGTCTTCATCATTGCCTGCCCCCATGCCTTAGGGTTGGCCATCCCGCTGGTCGTGGCGCGGTCAACGGCGATCGGGGCCCAAAACGGACTGCTGATCCGCAACCGGCAAGCGATTGAGGCCAGCACCCAGATCAGTCATGTGCTGCTGGATAAGACCGGCACCTTGACGGAGGGCAAGTTCACTGTGAACGCGCTGGTCCCGGCGGGTGATACGGATAAAGATACGTTGTTGCGCCGGTTAGCGGCTCTTGAAAGCAACTCGACCCACCCGTTGGCCCAGGCCATTCTATCGGCGGCGAAAGCGGCCAAGGTCGATTTCACACCGGCCAAGAATACGCAGAACCTGCCCGGGGTGGGGATTAAGGGAACAATTGACGGCACTGAATACACCATCGTCAATGCCAAGTACTTAACGTCTCAGCACATCGCCTTTGATGAACAGATTTCTGACGAGTGGGCCGGCAAGGGCAACTCTGTCAGCTTCCTGCTCCAGGGCGAAACCGTCCAAGGGCTGGTGGCTGAAGGGGATACGATCAAAGCCGGCGCCAAGCACTTGATTACTGGTTTGCAAAAGCGGGGTATTACCCCGGTGATGCTCACCGGCGATAACCCCAAGGCGGCGGCCCACGTAGCCAACCTGTTGGGGCTGACCGAGTTTCACGGCGGTCTGCTGCCGGATGACAAGCAGAAAATGGTCGGCCAGTATCAAGCCGACGGCCACCACGTGATCATGGTCGGCGACGGCGTTAACGATGCGCCCAGTCTGGCCAAGGCGGATATCGGCATCGCCATTGGGGCGGGGACCGATGTGGCAATTGACTCCGCCGATGTTGTGCTGGTAAAATCCGATCCCCAGGATATTCTTCACTTCTTGGATCTGGCCCGGATCACCAACCGGAAGATGGTCCAGAACCTCTGGTGGGGCGCTGGCTACAACATTCTGGCAATTCCGCTGGCAGCGGGGATCCTGGCCTTTGCCGGGATCATCCTTGATCCGGCAGTCGGCGCGATTCTGATGTCCCTGTCCACCGTCATCGTGGCGTTGAACGCCATGGGGTTGACGGCGGCGAAGATCAAAGAATAG
>SRR1151209_00391 CopY/TcrY family copper transport repressor
ATGATTGACGAACAACAAGTCGCGATTACTGATTCTGAATGGGAATTAATGCGGGCGGTCTGGACCTTGAAACGCGTGTCCAGCCGGCAATTGATCACCATTATGGAAGAAGAACGGCAGTGGGCGGATTCTACGACGAAGACGCTGCTCCGCCGCCTGATCAAGAAGGGCGCTATTACCCCAGTGGGCGATGCCCGGCCCTATGATTACGTCCCGGCGGTGCAGGAGCAAGCGTCCATGGATGCCGCCGCGGTGCGGCTGTTTGACCAGATGTGTGCCATGCGCGCCGGCAGCGCGGTGGCGGCGGTGATCAACAGTCGCGAATTGTCCCAGGCGGATATTGCCCAGCTGCAGCAGATTTTACAAGAAAAAGCGAAAACCGCGCCGCAGATGGTGGCCTGCAACTGTCTGCCGGCGGGGATGGGCGAGAATTGTATGAGTGAAGGAGACGATGTTGATGGCCAACGATGA
>SRR1151209_00392 branched-chain amino acid ABC transporter
ATGACTGAGTATGTTTTAGCAGCCATTATTTTAAGCGGCCTGGCGACCTGGCTGATTCGCGTGGTGCCATTCATTTTGGTCAAACGGTTTACGCTGCCGGCCTGGCTGGTGGAATTTTTAAGCTTTGTTCCCGTGGCGATATTGACGGCAATTTATGTGGAAAGCCTGCTCACGTATCGGCCGGGACAGTGGCCAGGGGTGAACATCGCCAATTTATTAGCGTCGCTGCCCACCTTTTTGGCGGCCGTTATTTCGAAAAATCTGCTGGTGATCGTTATTGTTGGGATCGCGTCGATGGCGGTGATTCGGCTGCTGGGCTGGGCATAA
>SRR1151209_00393 azaleucine resistance protein AzlC
GTGGATGATGAACTCACGTGGCGCAGCGGGTTTAAGGATGTGCTGCCCACGGTTTTTGGTTACATAGGAATCGGTCTGGCCTTCGGGATTATTGCGAAGACCAGCCGTTTTTCTGTTTTGGCAGCGGTGCTCATGTCGCTCATCGTGTACGGCGGCTCCGCCCAATTTGTGATGGTCAGTATGCTCGCTGTGCACAGTCCGCTGGGGGCGGTGGTCCTGTCCTCAGCCCTGATCAATGCGCGGATGGGCTTGATGAGTATGACCGTGGCGCCATTATTACAGCGGGAAAGTTTATTCCAGAACATCACCGCGGGGTCATTGCTGACGGATGAGACCTTTGCGCTGACGATGAATAAGCTGAACCATGCTGGCCGCACCCTGCACAGCAGCTGGCTGCACGCGGCGAATTTGGCGGCCTATTTAGTTTGGGCGCTGGCGACGCTGGTCGGTGCCATGGCCGGCCAGCTGATTCCGGACCCGGATGTTCTCGGACTGGATTTTGCCGTCGTGGCGATGTTCATTGGTCTATTGTATTTGCAGGTGATCACGGACCGGACCCACCCGCTGGTGAAGCAGGTCGGTATCGCCGTATTTGTGGCGGTGCTGATGGTCATTCTGATGCGCTTCATGGCCGGCAACTTGGCGATTTTAGCGGCCACCGTACTCGGCTGTCTGTTTGGAATGGCGGTGAGCCGGCATGACTGA
>SRR1151209_00394 hypothetical protein
ATGCCTAATGTCGCTGATTTATTCCTGGATAAGACCGCCAATGACAAGCTGCACTTGTATACGGCAGTGCGGCAGGCGTCCCCGGGAGTCTACACCGTCCGGGCACTGGATGCTGAATATGGCGATTACGGCGTCACCCGGCTGCGGTCCCTGGTACACCTGATCAGTACCGACCTGGCTACTGTGGAGCCGAATATGGCGGCTTTCGTTGATGCTAATGGCGACGTGGCAGTCGATGACCGGCTGCCGGCGGCGGAGGTGTATTTCCAATATTTGATCAGTGACAGTCTGGCGATGCAGGCGATGGCGTATATGCTGCATCACCCGGCGGGAACGATCGAAGAGTTCAGCCAATCGGTGTACCTGTCCACGATGACGGTCATTCGCCGCTTGAAGCCGCTGGTGGATTATTTGAATGAACAGTACGGTATTCGGATCAACGTACGCCAGCTGACGTTTGTCGGCAGCGAGCCTTTGGTCCGGTACATGATTTTTAACTTATTAGTGGATGTGGGGCTGTGTTCCGCTAAGGACTATGCCGTGCGCTACCCGGAACTGCTGCCGGTGGTGGACCGTCTGGGCCATTACTTCAATGCTAATGCCGGTCCAATCGTGATCAAGGAACGGCTGCTGGTCGTGTTGGGCGTAGGACTGGAGCGGGCTCGGCACGGCTTTGCCGTCGAGGATACGACGATCCCGGACTTGTGGTTCCGTCTGCCGGAAAAACAAATGATCGCGGATGTTTTTGCTGCCCGGCATATCCCGAATATTGAAGCGGAAGTGGCTTTTGCGGGGTTCGCGCTGTTTTCCGGTCCGGTGGTGCTGGCCACCAGCGACCGCATCCATTCCCTGGTTTGTGCCCGGCTGGCTCAGGAAGCGGATCCGTGGGCCAAGTTAACGGACGAATTGGCGGAAACGCTGGCCAACAAGATGGGCGGGGAACCGACCCATGAGCGCTGGACGGTATTGCTGGCGAATACGTATTTGATGCTGATTCCCATCTTTTATTTCCAGCAGCCCTTACCGGTGCTGTTCCCGCTGATTCGGATGCAGCTGACCCCGAATAACCGCCACTACCAAGAACTGCGCCGGTCGATTCGGGCCTTTTGGGAAAAGGTGGCGCGGCGCAAGGACTGCTACTGGCTGCACCACACGGTTGACCAGCTGACGAATCTGTTGACCTATTTGTTCTGGCCGGCTTATCGGGCCCATTACACGACCCATCATCTCCGGGTCAGTTTACGGATGGGGCTGAGTTACCACTTGCAGCAGCCGGTGCGGAATTTACTGGAACACATTCCGCTGGTGGATATGATCCCGTATAACCCGGCCGATCCGCCGGATTTATTGATCGTGTCCGCGCCGCGATACGTGCCTAAAGACTGGCATGGTCATGTGTATCATTTCGGCCTGGCCTCCGCGTCCAGCGATACCCAGCAGCTGTAG
>SRR1151209_00395 hypothetical protein
GTGACAGAAGTCGATCATCCTGAACGGATACCGGCACGCCGGGAGTCGCCGTTGAACGTGGCACCGGTGCGGATTATTGTACGTTATTTATCGGTACTAGGCGACCGCTTGTTAAAAGATACCCAGGTTTCTGGCCCGGCCCATAGCCATCTTGATTTACCCTGGCGGGTGATTCAGGGATACAAACTGATTCGGGTGGAAAATTACTCGGAAATTTTCCAACCAGTACCGGACGGGATCCGCATGATTTATACGGCCCAGCAGGCGGCACCGGTGGTGGTGTACCACAAAAACGCCGAGGGCAACTTGCTGGTCCCGCCCCAGTATGTGTCCGGCGATTTGAATGCGCCGTATCATTTGACACCGCTGCCGGGCAATCCGTTTCCAATCATCAAAACACCCGACGCGAGTGCCGGGGTGTTTACCACCAAAAGCAAAGTTGCCCAGTATGTTTATGACACGCTGCAGCTCATGCGGCTGCCGGTGGACAAACAATTGCTGATGAAGATGGATATGGCGGTGTACCCGTTTGCCGATCCGCTGGCGCCGAAACCGCTGGCGGCGGCGCTGCCCGCCGGGTCGACTTGGCCGGTGTATCGGGCGGTAGTCGATCGGATCAGCCGCACTCAATGGTACGATTTGGGCGGCGGTATTTGGGTCAAACGCTCAGAGCGGATGACGCTGCTAGGCCGGCCGATTTTAACTACGCCGCCGCAGTTGACCGCTTTTGCCCACCGGGCAGAGGTCGTCAGCCATACGGCGCAGCAGGTGCCGGTCTTCGATTTCCCGCACTTCGGGCAGGCCGCGAACACTGTGGCCTCGGGCAGTATCGTGACGACCACCGGTATTTTAGCCGATGATCAGGGCCGCCAGTGGGTTCAATTGGATACGCGGTGTTTTATCTCCCGCTGGGATCTGCTGTTACTGGATTAA
>SRR1151209_00396 hypothetical protein
ATGCGTCTCATTGATATCACCAATAGTTATTCCCATCTGGTAGCGCAACAGCTATCAGCGACCGATGCCCAATTCGTGAAGGTGTACTCACTGGGGCCGACGACGGTCGTATATACCCAGGCGCCGGCACATCAGGAAATATTGCTGACGAATGAGCGGCGCAATATTTTGGACGCCGAAATCGATTATGTCTTAGATAAATTGTGCAAGGCGAAGCAGAACGAAGTTGATCTGGTCCGTGGTCATCATTTGGCGGAAGTATCGATTCCCATGGATATGCGCCGAACAGAAATCAGTTAG
>SRR1151209_00397 ATP-dependent Clp protease ATP-binding protein
ATGCTGTGTGACAACTGTCATAAGAATGAAGCCACGATCCATCTGTACACCAGCGTTAATGGCCAGCGCAAGGAAATCAATCTTTGCCAAGACTGCTATCAACTGCTGAAGAACCAGGCACAGAATGGCACTCGTGACGCCGGCCCGAATGATCCATTCGGGTTTAGCAGCTTAAACGATATTTTCCAAGCCATGAATCCAGCCGCCCAAAACCAAGCAAACGAGAACTTCCAACAACAGCGTCCCCAGACCCAAGCTGGTGGTCGAGGCGGGCGCGGCAACGGCGGTGGTCTGCTCGGACAATTCGGGGTTGACCTGACTGCCGAAGCCAAGAATGGCCAGATCGATCCAGTGATCGGCCGGGATAAGGAAATTGCCCGGGTGATTGAGATCCTCAATCGCCGGACCAAGAACAATCCTGTCCTGATTGGTGAGGCCGGGGTCGGTAAAACGGCCGTGGTGGAAGGCTTAGCTCAGAAGATCGTCGATGGCGATGTGCCCGCTAAGCTGCAAAACAAGCGCGTGATTCGCTTGGACGTTGTTTCTCTGGTGCAAGGCACCGGGATCCGCGGCCAATTCGAACAACGCATGACCCAGTTAATGGAAGAATTAAAGAAGAATAAAGACATCATCCTGTTCATCGACGAGATCCATGAGATCGTCGGGGCGGGCAACGCGGAAGGCGGTATGGACGCCGGTAACGTCTTGAAGCCAGCGTTGGCCCGGGGTGAACTGCAGCTGGTCGGTGCAACGACCAGTGACGAGTATCGGACGATCGAGAAGGATTCTGCTCTGGCTCGCCGGTTACAGCCCATCCAAGTGGATGAACCGAGTGTCAAGGAAACCATCAAGATCCTGCAGGGCATTCAGAAGCGGTACGAGGATTATCACCACGTGCACTACACGGCGGAAGCCATCAAGGCAGCCGCGGAGTTGAGCAGCCGGTATATCCAAGATCGGTTCCTGCCAGACAAGGCGATTGACTTGTTGGATGAGTCTGGTTCCCGCAAGAATTTGACCTTGACTGTTGTTGATCCCGAGACGATCCAAGAAAAGATCGACGCCGCGGAGAAAGAAAAGCAGGCCGCCCTCAAGCAGGAAGACTACGAGAAGGCCGCTTATTACCGTGACCAGATCGACAAGCTCGGGGATATGAAGAAGAAGGATACCATTGATCCCAAGAACGAGCCGACCGTGACCGAAAAGGACATGGAAAACATCGTTGAAGAGAAGACTGGTATCCCCGTCGGCCAGATCAAGGATCAGGAACAGCATCAGCTGGTCAACCTGGCCCCTGAATTGGAGAAGCACATCATCGGCCAGAACAAGGCCGTGGAAGATGTGGCCCGCGCCATTCGGCGCAACCGGGTCGGCTTCAACAAGTCCGGCCGGCCAATTGGTTCCTTCCTGTTCGTTGGCCCCACTGGGGTCGGTAAGACGGAATTGGCCAAGCAATTGGCTAAGCAGCTCTTCGGTTCCGAGGATTCGATGATTCGCTTTGACATGAGTGAGTACATGGAGAAGTTCAGCGTCTCCAAGCTGATCGGTTCGCCTCCGGGTTATGTCGGCTACGAAGAGGCTGGTCAGTTGACTGAGCAGGTACGGCGTCATCCGTACAGCTTGATCCTGCTGGATGAAATCGAAAAGGCGCACCCGGACGTGATGCACATGTTCCTGCAGATTTTGGATGACGGCCGGTTGACCGACAGCCAAGGCCGCACGGTCAGCTTCAAGGACACCATCATCATCATGACGTCCAATGCCGGCCAAGCAAACCAAGAAGCCAATGTTGGTTTCGCGGCAGAAGCATCGGGCAAGACGCATTCTGTCCTGGGCTCTTTGAAAGATTACTTCCAACCGGAATTCCTGAATCGGTTCGATGGCATCATCGAGTTCAACTCCTTGACTAAGGATAATCTGATGAAGATCGTATCCTTGATGATTGCAGATACCAACAGTATGATTGCGGATCAAGGGTTGCACATCCATGTCACTGAACCTGTGAAGGAAAGACTAGTGGATCTGGGCTATGATCCGTCCATGGGCGCGCGGCCGTTACGCCGGGTGATTCAGGAACAGATCGAAGACCGGGTTGCTGACTACTATCTGGCCCATCCGGATGTTAAGGAATTGGAAGCGCGGATGAGTGACGGCGAAATCACCATCAGCGGCGACAGTCCTGCAGCAGCCGTGGATGCCAAAGCGGATTCTGCTAAAAAGTAA
>SRR1151209_00398 hypothetical protein
ATGCCTGACTACCAACAAGCGCTGCAACAGCTGGTGGCCGGGAAGATCAGCGAGATCACCATTAAACCGGAGAACTTCTTCGCGTTTCGAAAGGTCTGGACCGATTTTCCCCAGCGCAACGAGATTGTGGGCACCGCCCAGCGCGGCGGCACCATCGTTTACCAGTTCCATGAAAGCGGTAAACACTAA
>SRR1151209_00399 phosphocarrier protein HPr
ATGGAAAAACGCGATTTTCACATCATTGCTGACACAGGTATCCACGCTCGTCCCGCTACGCTGCTGGTCCAAACAGCAAGCAAGTACGACTCTGACATCAACTTGGAATACAAGGGCAAGTCAGTGAACCTGAAGTCGATCATGGGCGTTATGTCCCTGGGCGTTGGCCAAGGGGCTGATGTGACCATTTCTGCCGAAGGCGCGGATGAAAAGGATGCCATCACTGCCGTAGCCGACACGATGAAGAAGGAAGGACTCGCTGAATAA
>SRR1151209_00400 phosphoenolpyruvate-protein phosphotransferase
ATGAGTAAGCACCTCAAAGGGATTGCCGCCAGTGACGGGATTGCCGTCGCGCCCGCCTACCTGTTGGTAGAGCCGGATCTGTCGTTCGACAAGAAGACGATCAGCGATCCTGATACAGAGGTTAGCCGCTTACAAGATGCACTTGATAAATCAACTGCAGAATTAAAGATTATTCGGGACAAGGCCAAGGAAACTTTGGGTGCAGACGAGGCACAAGTCTTCGAAGCACACATGATGATCCTGGCCGATCCTGATTATATCGGTGCAATCAAGTCCAAAATCAAGGACGATAAAATCAATGCAGAAGCGGCATTATCTGCTGTATCGGATCAGTTCATCAGCACCTTCGAAGCCATGACGGACAACAAGTACATGCAAGAACGTGCCGCTGACGTGCGGGATGTCACAAAGCGGGTGATGAGTCACCTGCTGGGTGTCACCCTGCCCAACCCGGCATTGATCGACCATGAAGTCGTCATTGTGGCCCACGACCTGGCGCCCAGTGATACGGCGCAATTGAACAAGAAATTCGTTAAAGGATTCGTCACCGATATCGGCGGCCGGACGGCCCACTCGGCTATCATGGCCCGGTCGCTTGAGATTCCCGCCATTGTTGGTGCAGAATCCGTCACGAAGGACATCAAGGACAATGACATGGTCATTGCCGATGGTCTGACTGGCGATATCGTGATCGATCCTTCTGCTGATCAAATCAGCCAGTACAAGGACGCCGCTGAGAAGTTTGCCGCACAAAAGGCGGAATGGGAGAAGCTGAAGGATCAGCCTTCTGTCACCGCTGACGGCAAGCAATATACTGTTGGGGCCAACATTGGTACGCCGAAGGATATGGCGGCCGTGAACGCCAACGGCGGCGAAGCAGTCGGGTTGTATCGAACCGAGTTCTTATACATGGACTCCGACGAGATGCCCACTGAAGACGCCCAGTTCGAAGCGTACAAGTCCGTACTGGAAGACATGAAGGGCAAGCCGGTCGTTGTTCGTACCATGGACATCGGCGGCGACAAGCACCTGCCCTACATGCCGTTACCGCACGAAATGAATCCGTTCCTGGGTTACCGGGCTATCCGGATCTCTCTGGATCGCCAAGACATCTTCCGCACCCAATTACGGGCTTTGCTGCGGGCTTCCGCCTTCGGCAAGCTGCGGATCATGTTCCCGATGGTCGCCACGCTGGATGAATTCCGGCAGGCGAAGAAGATCTACTTGGAAGAAAAGAAGAAGTTGGAAGACGCTGGCACCAAGGTTTCTGATGATATCCAAACTGGTATCATGATCGAAATCCCGGCTGCCGCTGTTCTGGCCGATCAATTCGCCAAGGAAGTCGACTTCTTCTCCATCGGTACCAACGACCTGATTCAATACTCCATGGCCGCTGACCGGGGCAACGAGCACGTTTCCTACCTGTATCAACCTTATAACCCGTCCATCCTGCGCTTAGTCAAGCATACGATTGAGTCTGCGCACAAGGAAGGCAAATGGGCTGGTATGTGTGGGGAAGCCGCTGGCGACCCGATCATGGTTCCCCTCTTGCTGGGGATGGGCTTGGATGAATATTCCATGTCCGCCACCAGTATCCTCAAGGTCCGCAGCTTGATGAAGCGGCTGGACACTAAGGATATGAAGAAGTTAGCTGACAAGGCAGTCAACGAGATGACCTCCAACGAGGAAGTCGCCGAGATGGTCAAGAAGGCAACTGGGCAAGAGTAA
>SRR1151209_00401 hypothetical protein
ATGGCTAAAAAGTATTATAATACGCGGACTCCAGCCTATGGCGGCGGGCCTGTGACGGTGATCGGCAATGGGTTGATGAGCAAAAGTATCCCAGTTTTTGCGGAAGTAGACGACGAAACAGGCGAAGTGAAACTTTTTATTCGGCATCGGGACCTGCCGCGTCTCGGAGAAATCCGTCCGCTATCAGACGCAGAAGTTTACTAA
>SRR1151209_00402 hypothetical protein
ATGACAGTGATTATTCTGGCGGCGGTCTTGTTTACGATCCTGCTGGGCTATCTGGGTCTGCACCAGCAGCACCCGAAGTGGCCAAGGATCGCGGGACTTTTGCTGCTGCTGGAAGCGGCGTTTTTCCTTTATCTGGTCTTTGACCGGTCGTGTTAG
>SRR1151209_00403 diacylglycerol kinase
GTGATTCAACGGGTAGGTATTTTTTACAATGACCAAGCCGGTCACAGCCAATCGGCTCGGCTGGCCAGACAGTTCGCGGCCAAAGCGGCCAAACAAGGCATCCAGTCCGCCTATATCACCGCGCCCAGCGTGGATGAGGCGATCACGGCGGTGGCTAAGGCGGCGCACAGGTATGACGCGCTGGTGGCGATCGGCGGCGACGGCACGCTGAACTTGGTGGCGACGGCCTTTCTGCGCGCTAAAAAGACCGTGCCGCTGGGAATTATCCCGGGCGGCACGGTGAATAACTTAGCCCATCAGCTGAATATTCCGCCGCTGCCCTTGATCGCGATTGATCGACTGGTCACGGCGATGACCCAGGATCATACCGTCAGTATCGGCATCGGCCAATGCGGCGACCACGCCTTCGTCAGTTCGCTGGTCTTTGGGGCGTTGGCCGATATTTCGAACCAAGTGCGGCAACAGGAGAAGCGCAAGTTCGGGCCCATCGTCTATTTAGCGAAGGGGGTGCAGCTGCTGGTGACGAATCGCTCGTATCGGATCGAAATGATCCATGACGGCGGCAGTGAGACGTCGCGGATTTGGACCGGTTTGGTGACGACCACGAACGGGGTCGGCCGAGTGCAGTATATCCCCGACGATGAGTCCGACTTGCTGCACGTCTCGCTGCTCCATCATTTCCGCTGGAACGAGACGCTGACATACTTGCGCTACTTCCTCAGCGGCCACTTCGATCAGATGAAGGGTGTGACCTATTTCACCACGGAAAAGCTACGGTTGGTGCCGGTGAATGCGAAGCACACGATTCGGCTGCGGCTGGACGGGGACAAGGGACCGGCGCTGCCGATGACCATTCGCTGGCGGCCGCGGTATTTGCCGGTGCTGTTACCGAAGGAGGGGAAGTAG
>SRR1151209_00404 peptide chain release factor 3
ATGATTGATACATTAACCAAGAAGGATCTGGACCAGGCCATTGCCAAGCGCCGGACCTTCGCTATTATTTCCCACCCAGACGCCGGGAAGACGACGATCACTGAACAGATGCTGTTGTTCGGCGGGGTGATTCGCTCGGCCGGGACCGTTAAGGGTAAAAAGAGCGGCCAGTACGCCACCAGTGACTGGATGGAAATCGAAAAGAAGCGGGGCATCTCGGTGACCAGTTCCGTGATGCAGTTTGATTACGCCGGCAAGCGGGTCAACATTCTGGACACCCCGGGGCATGAGGACTTCTCGGAAGATACCTACCGGACCTTGATGGCGGTGGATGCCGCGGTCATGGTCATCGACACGGCTAAAGGGGTCGAGCCCCAGACCAAGAAGCTGTTCCAGGTCGTGAAAAAACGGGGGATTCCCATTTTTACCTTCATGAACAAGCTGGACCGGGATGGTCGGGAACCGTTGGATCTGATCGCGGAGCTGGAAGACCTGCTGCACATTGAGGGCTACGCCATGGACTGGCCCATCGGGATGGGCAAGGGGCTCAAAGGCATCTACGATCGGCAAAACAAGCGAATCGAGCTGTACCGCTCCGAAGCCAAGGGCGAGAACTTTATCCCGCTGAATGCGGACGGCACCATTGATCCCAGTAATCCCTTGACTGAAGAGGGCGAGTACCAGGATACCTTGGGCGATATTGACCTGCTGAATGAAGCTGGAAATAAATTCGACTTGGCGAAGATCGCCAAGGGTGAACAGACGCCGGTGTTTTTCGGGTCGGCGCTGACCAACTTTGGGGTCAAGACGTTCCTGGACAGCTTTTTGAGCATGGCGCCAGGACCCAGTGCCCATGAGACCGTGGACGGTGATAAAATCCAGCCGGATTCCGATGACTTTTCCGGCTTCGTCTTCAAGATTCAGGCCAACATGAACCCCAACCACCGGGACCGGATCGCCTTTGTTCGGGTGACCTCCGGCGCCTTCGAGAAGGGCATGGACGTCACCCTGGCCCGGACCGGCAAGACGCTGCGGCTGAACAATGCCACCGAATTCATGTCCGATGAACGGGAACAGGTCAGCCAGGCCGTGGCCGGGGATATCGTTGGTCTGTACGACACCGGCAACTTCGCCATTGGTGATAGTATTTATACCGGCAAGACGAAGGTTCAATTCCCTAAGCTGCCTCAATTCACCCCGGAACTCTTTGTCCGGGTGACGCCGAAGAACGTGATGAAACAGAAGTCCTTCCATAAAGGCATGAAGCAGCTGGTCCAAGAGGGGGCCATTCAGCTGTATCGGACCTATAACACCGAGGATTATGTCCTGGGGGCGGTCGGTCAGCTGCAATTCGAAGTCTTCCAGTATCGGATGCTCCACGAATACAATTCTGAGGTTGAAATGACCCCGATCGGTTCTCGGACGGCCCGGTGGATCGATCCAGAACAACTGGATCCGAGCATGGCCTCGTCCCGGAACCTGCTGGTCAAAGATTTGGCAGGCAATCCGCTGTTCCTCTTCGAGAACCGCTTTGCCGAGAATTGGTTCCACGATAAGTACCCGGACGTGAAGCTGACCGCCAAGTTCGAGATGGATTAA
>SRR1151209_00405 hemolysin-like protein
ATGAGTGGTGACCCTGGAAGTACGAGCATGGGTGGTCAGATAATTTTGATCGTCATTTTGACAGCGGTGAACGCGATCTTCGCGGCCGCGGAAATGGCGATCGTATCCGTTAATCGGCCGCGAATCGAGGCGGAAGCCAAGGACGGCGATAAGAAGGCAGCCAAACTGCTGCTGGTGATGAACAATTCCAGTCAATTTCTGGCGACGATTCAAGTAGCCATCACCTTCGCCGGCTTTCTCTCCTCCGCCAGTGCGGCCACATCCATGGCATCGCGCTTGGCACCAGTCTTTGGGGATGTCGCGTGGGGCGAAGAGGCCTCGACAGTAATCATTACCCTGGCGTTGTCCTACATATCGCTGGTCTTCGGGGAACTCTTCCCGAAACAAGTGGCGCTGGCCAATCCAGAGGGGGTCGCTAAGGCGACTGTCGGCATCGTTAAGTTCACCAGTACGTTCACCAAACCGTTCGTTTGGCTGTTGTCGGCTTCGACCAATATTCTGACGAAGCTGACCGGCCAGAAGGTCAAGCGGGAAGAGGATAATATGACCCGGGAAGAAATGCTCCAGGTCATCGAAACCTCCCGCAAGACGGGGCTGATCCGGCCGGATGAGTATCAAATGCTGGAAGGGATCATCACCTTCAACGATAAGATGGCCCGGGAAGTGATGGTGCCCCGGACGGACGCCTTCATGATCGACATTCAGGATAACGACCAGGAAAATATCGATGATATTCTGTCCCAACCGTTCTCCCGGGTCCCGGTGTACCGGGGCGACAAGGATGAGGTCGTCGGGATCGTCCACATCAAGCGCCTGCTGAAGCGGGCCCGGGCTGTGGGCTTCGATCACTTGCAGATCGCGGACGTGATGTCCGAACCGCTCTTCGTGCCAGAAACCATCACTATTGATGAACTGCTGCGCGAGATGCAGAAGACCCAGCAGCAAATGGCCATTCTGCTGGATGAGTACGGCGGCGTGGTGGGCTTAGCCACCATTGAGGACTTGCTGGAAGAAATCGTCGGCGATATCGACGACGAATCCGATCACGTGACCACGCTGTACCACAAGGTCAATGACTATGAGTTCGTTGTTTCTGGGAAAATGACCATCACTGATTTCAACGATGAATTCGGGTTGGACTTGTCGGCGGATGACGTCGATACCATCGCCGGGTACGTGGTCACGGAATTGGGGAGTATCCCCACCAACGGCCATCCGATGACACTGGATATCGGCTACGGTTTGCAGCTGGTCACGGGTCATATGGACGGGTCGCGGCTGGAAACAGTTTACCTGCGCCTGCCCCAACGCTCAGCCGCTGCTGTTGCCGCTCAAGAGGAAGCCAAGACCAATGATCCGCAGCACATGTCGGTGAATGCCGGATAA
>SRR1151209_00406 membrane protein
ATGTTCAAGGAAATGCGGGAGTCGAAGCTGTTTTACTGGTCGGTCCAGATTCTGGTCATCGCGACGCTGGTTTGGGTGTTTTCGCAAATTGGCTGGGTGTTTACGCCCATCGCCACGTTTTTTAGTACACTTTTTGGCCCGATCATCGCGGCGGGTTTCCTATTTTATATGCTCAATCCGCTGGTTAAATTGTTAATGAAGCTCCATGTTCCCCGGCGAATGGCCATCGTGTTGTTGTTCGTGCTCTTGCTGGCGGCGGTGGCGCTGGTGTTTGCGGCAATTATCCCCAACTTGATCGAGCAAGTGACCCAGGTGGTGGATAACTTTCCCGGCTTTTTGAGCGAATTGCGCAAGTCCTCCACCGCCTTTCTCAATACGCCGCTATTGCGCCGCTTCAATTTAACGGAGTCGCTGACTCAGTTGAAGCTGGATCCGGCGACGATCCTGCGTTCTGTCTTGAGCGGTGTATCCAATAATATTGGCGGGGTGGTGTCCTCGGTGGGCAGTGTGGTGATTTCGGCCATCACGGTCCCAGTCATGCTGTATTACTTCTTGCAGGATGGACACAAGCTGATCCCCAACATTCAGCGGTTCTTCCCGAATCGGCTGAATGATCAGATCAGTGATGTCCTGACGAAGATGAACGAGACGATTTCCCACTATGTGGCGGGCGAAGCGCTGGAGCTATTGTTTGTCGGCACGTTCACCGGCCTGGGTTATCTGATCATTGGGATGCCTTACGCGCTGTTGCTGGGCGTTGTGGCTGGTTTTATGAATATCATTCCGTACCTGGGGCCCTATATTGGCTTGGCGCCGGCCTTGATCATCGCATCCACGATTTCTTGGGAGCAGGCGGCGCTAGTCTGTGTCGTTGTCGTTATCGTTCAGCAGCTGGACGGCAACTTTATTTATCCCAATGTCGTGGGCAAGGCGCTGGATATCCATCCGCTGACGATCATTATTCTGCTGCTGGTGGTGGGCAATCTATGGGGCATCATCGGCATGATCATCGGGGTGCCGATCTATGCTGTGGTCAAGACCGTCGTTCAGTATTGGCACAGCATCCGCGTGTTGCGGGAGAAGGGCGAACTGACGGAGTTCAGTACGACGCCGGTGCGCTGGCATTTGCCCCAAGAACCGCCGAAGAAAGATAAGTAG
>SRR1151209_00407 hypothetical protein
ATGAGGATCATCAAGAGACATAGAACTAAGCAGGGACTCGTCGGCCTCCTACTGGCCGCCCTCGTGGGGGGTGCGTTGATTGCTGGTAGTGGGCCGCAGGTGAAGGCGGCGACTATTGGGGATGTGTTGGATAATAGCACGCTTTCAACAAAGACAAATAGCAGCGGGATACCGCAAGTAGTTACACCTACAGGCGATCCGTGGAGTATGTACCAGATTCCAGGATTAGGCCGAGAGCGAAAGCCAAGTGAGGGATCGTTTGTTAAATGGGGGTACAATGGCTGGTCTGGCGCAAGTGCCGGGATGCCCTTGTCCACCGATGTGTCCGGCGGTGGACAGAGTGCTGTTAATCAAACCAAATCTGATTGGAATGGTGGTGTGACCGGATCGCCCGTTGCAATTTCATTCAATAATGCCGGTTCTTCCAATGGGAAGCCGTACTTTTCATTAAATTATGTTGATAAGGATGATCTTGTTGATTTTGGCAGTAGTGATACTGCACCACAGGTCACACAAGATTGGGCTAACCAGACAGTTAGTGCGGCTGATAAAACGCAAATTTATAATTCTACTGGCGTCTCTTCCAAGATGAAGAGTAGTGATGGAACGCCAACTGGCACTCCCAAGTTGGATACCGCAAACGCGTCATTTGATGGCGGATTTGTCCAGGCCACTGGGAACGTTCCTATTTCGGCAGCTGTGGCAAACTCGCAATCCCTTGCAGATGCGACAATGGCAGGTGATTGGGCGGTAATGGTACGCGTTCAAGTGGCGGATGGTATTGATGCCAAAGCGTGGGCAGCAAGTGTTGACTGGAATAAGTCATACTATTATTTGACTATTAAGACAATTTCAATTGCTGGTACGAGCTTTACCATTAATTTTCCGATGCAATTTGATCACCATATTTATCTTGACCCTAATAATAAGAATACTTTCTTTATTAAAGTTAAAGGCCTGCCTTTTTGGGCTAAACAAACATCTCCGACGGCGGCATCTGGTTGGCCAGGACAGGGTCCCGACGATCTTAACTCTACTGTTCAACTTCAATTGCAGGACGGCGATGCAGACTATGTTGATTATCTGAATAATCGCCAAATCAATGCATCCACGAACACGGCTAGTACTCTTGATAATTTGGTTGACGCCAAGGGCAATGTTGCCCCGGGGACAGATTTAAATGACGAAAAATTAACCACCAAAGACGTGAATGGCGATACTCAGCCTGCATTTGCCAAGTATAAACACTCTTCGGCATTACCTATTTTGGGCAATCCACTTTGGAATATATGGGATGTGACAGGCATTGGTTGGGTCGGTCCGAAGGGCGCACTGTATAATGCTGGACCGACAGGACGTATGATTACGCTGTTGAATGCTGTTCCAGGAAAAAGTAATTCTATTCCTGAAAGATATATTGGCGACGGGGTTTCTACCGCCTATGTGGCTATTCTTAATTGGTTTACAAGCAATATGTTTACAGGCAGTGCACATATCAACTTTTCCTTTGATATGTCAAAGTACGCGGCAGGTACTTCCACGAACGAGCAGGCCCTCACTGCTGGCCGTTTCTTTGCTGCACCTAAAGCGGATGGTACATTCAATAGCTCCACGGAGAGTTCGACAGGGCAAACTGCTACAGATACAATTAAAATCACCATGTATGATTCGTCTCAGCTGGTTGATCCGTATAGTTTGACTAAAGGATTGGATCGGACTAGTACTAGTCGAACCAGCCCTTTGAGACAAACTTTGCATACAGCTGATTCTTCTGCCCTGAATGCAACTAAGGGCGGCCCAGCAGGGATGACCCCAGCTGACTATGCGGTGATTAATAAGGATGATTTGGACAAGGGAACGCCATACCCAACGTACACTAACTTTACGTCTTGGACGGGGGCCATCATCCCATACGATCGGGAGCACTGGTCCGATGACGATAGCACAGAAAGCACCTCATTTACGGACACAATGCATTCTCAGGGTAAATTTGGGACCGACTTAAGATACCGTACCGCGTCCCCTGATCCGGCTAATGATGGGGTACTAGTGAATGATGGCTCCGCATTCAATATCGATAAACCGACGGATTTCAAGACCAACTATATTGATCAATATACCCCGATTTTTGATAAGACCAACACGGCAAAGCTAACTACTGCGGGGGTCGTCAAACCGCAGCGTTACGCCAATGTTTACTCGCTGTATAATTACGTCAATGGTGTGGGAACGTTGCCGAGCAGTAATGAGCCTGTGCCGGTTTATACAAGCACAGGAACTGGCGGTAACAATCTCAGCGTTACAGCTGGTCAGGAAATTGCAACGAAACCGGCTGTCGCGACTAATGCGGCCAAGGGAGCCACGAGTGTTACGTCGTCTCTGGATAAGGGGAGATGGCGTTACACCGGAACCATGGACAGCGGCGGCGGGGCTTTGCCGCTGGCAGATGCTACAATCAGCCTTTCTCAACCGTTGAAACCGCAACTTACACTGAATGGTCAGAGTCCTTACATTGTGAGCGACGCCCAGCTCAATGCCGGTGGTGGCGTGACCAAACAGCTGGGCACATGGCGTGATCCGTTGGGCTTGGTGGTCCAAACCGCCCAAAGTGACAACCTCAGAGGGACTGTATCTGCCTCCAATACCCAAAAGCAGAATACTAACTGGGATAGTATTCAGAACATGGATACGAAGGTACACGGGATGTCATTTAATGCAGCGAGTGCCAATGTGCTGCCTGATCCAACCCAGCCTTCTACCAAGGCCGGCGGCATTACCCATGATGATCAAAGCGATCCGCAGGCCGTAACGTTTAATTACAAACTGCCCTGGAATCAGACCGACACTTCCCGTGTGTATTATGGACAGGTCGATTTAACCCGAGCAGCTGCTGTACCGCTTCGAAACAGTTACACGTTAAATCTTGGTGCGGCCGATAACACAGCGACAGCGAACTATCTGATCATTCGGAACAGCGAAACACCATCAACTAACACGTACCAGATCAAGAAGTATTTCAATACAACCGGCAATCCCACGACCCATCTCCTCACAACTGCTGACAACGGTCAGAAGATTCCGGTCAAAGCGGACGCCACAGTATCGACGGCGGGCAAGAATACGAGTCAGACACTTTCAATTTGGGTGCCTAAAGTCGCAGGAACGACGATTGATGATTTGCCAGTGGTGACTTCCGCCGATGGTTCAACGGCAACAGTGACCAATACAACAAGTCAGCAGTCCACCCAGATTCAAGCCCAGTACTATGTGTATTCGGCGCAATTCAGTAAAGTGCCGGCCAACTTCTCTTACACCTATGCGTATCATGTTGGTACGAGTGGGGTGAGTGCAACTGCGTACAATCAGCAGTTAGTCGATCTGGTTATGAGCAGTTCACAATTGCTGGGTCAGACGAATGCCATTGACTTCAAGATTTCGCAAGGCGTTAACCTGCTCCATGCCCCGAATTTTGACTTTGGGAAAAACACAACACCGACTACTGCTGCAAACTACAAGTTGACCGATGCTGGCAAGGCTGATGCGTACTTTGAAGCACAAGAAAATGATGGTTTGCCATATACAAACACGTATACTTGGATGCTTTCAGCCACCATGAACCCGTTCAAGCGTTCGATGACCGATACTGGGTATAACAACTTCAACGTCATTCTTGGCAACCCTTATCTGGACGCAGCCGGCACACAGATCGACAGTGTCGACGAACACCGACCAGATGTCAATGGCTTGATATCTGACGGCTACTCGTCATCTCGGTTATTCTACGTCGATCCAATGAAGGAACCAGATACGCAGAGCTACGACGTCAATTCAATCAAGCGATATTATCCAAACGCCAACCTGACTGTGCCGCCCCAAATAATTACACCGGGTAAGTACACGTCAACAGTGACGTATACCATAAGTGACAACGGCAGTATCTGA
>SRR1151209_00408 cell surface protein
GTGCCCAGGAAATATATCATCCGGCCGTGGTGGCTGCTCAGCATCCTGGCGGTGTTGGTCGGCTTGTTTAGCAGTGCCGTCACTGTGCATGGCGCCGCCACAAAAACGCCGAAGAAGGCCTACGCCGTGAGTGCGGTGCTGCCGCCCAATCAGGTCGATGGCGCGTTGAATTATTGGCAGCTCAGACCGACGCCAAACCAGACGCAGACCCTGCAATTGCAGGTCGCCAATATCGGCAGCGAGCCGATTACCGTCGATGTCTATGCCAACAACGGCACCACCGACAGCAATCCGCAGATTATATACAGTCAGGCGGCCACCAGCGTGTACCCCAAGACGGCTACAAGTTTTGCCTCATTAGTCGTAGGGGCGAGGAAGAAAAGTGTGACGCTGGCGCCGGCAGCGGTGAAAGTCGTCGAGTTTACGATCCGAGCCCCAGCCAAGCAGTTTTCGGGTATGATCCTCGGCGGTCTCTATTCAGAAGCCGATGTGACCACGACAGCGACGCCGATTCGGCAGAAAGTGGCCTATCAGCGCAGCGTCGTGCTCCAAGGCAGCAACATCAACACCGAGCGGCCCAAGCTGAAGTTTGGCACGGTGCAGCCGGTGGCGGAAGCCGGTAAGCTGGCCCTGCGGCTGGTCACCAGCAACGATGCCCCAATGTACGCTTACGCATTGACGACCGATTTGACGGTCACTAATCGCGGTACCAAGAAACGAGTCATCCATACGACCGCCCAAAACGGCAAGGTCGCCCCGCAAAGCCGATTCAATTGGCAGTTCCCGATACATAACCTGCCCGCCGGGGCGTACCGCATGACACTGGTGGTGGCCGGCAATAATGTTGCCCGCCAGACCATCACCCGCAATTTCACTATTGAACAAAGCCAGGTCCAAGCCCTGGCTGATTATTCGTCGCCCAATCGGCGCAACATGATCATCGTCGTTATTCTGGTGATACTGATCATCATTTTGATGATTGCCGGCTGGGTCTTGATCTACAATAAAGGCCGCCGCCACGGCGAACGGCTTTGGGATAAATTAAAGCATTAA
>SRR1151209_00409 GNAT family acetyltransferase
TTGGCAATTGAAATCACGACCTCCCTGAGTTCTCCTGTATACGACGACGCCTTGGCCATTCGCCAAGAGGTGTTTGTCCAAGAACAGCACGTCCCCGCTGACTTAGAGGTGGACAGCGACGAAGGCAAAGCAATCTATTTCGTCGCCTACGATGACGACCACCACGCCGAAGGGACGGTGCGCCTCGTACCGGATGAGCACGGCGTCGGCGATGTGCAGCGGATGGCGGTGCGCAAAACCGACCGGCACCACGGCATTGGCCGGGTCCTGCTGAACGCGGTGGCCGACTATGCCGCGAAGAACGCCTACGCGGCCCTGCTGCTGCATGCCCAGGTGCACGCGATTCCTTTTTATGAGAAATTAGGCTATACGCTAACGGATCGGCCGGAATTTTTGGATGCCGGCATCCGCCATCGGGAAATGGTCAAGCCGCTAGCCGCCGATGCTAAGGGAGCTAACCATGTCCAATAA
>SRR1151209_00410 hypothetical protein
ATGTCCAATAAGAAAATCGCCGCGGTTTATCTGTTCTTGTTCCTGCTGCCCTATTTATGTGCCCTGCTGGTCATCGGCACCAGCTACAACGCACTGGTGCTGCACAGTGCCAGTCTCTGGCGGACCTTCGTCGGCGCCGCGGTCGGGGCCGTGGTCATGAGTGCCTTGAAAGTCACCGTAGAACGGCCCCTCGCCATCCTGGTGGCCAACGCCACCCGGCCCCTGCTGCGGGACATTCTGGACTTCTTCAAAGTCGATGGCGACATGAAGAAACGGGTGCTGAACCTGGGCATCGATTTCGTCTTCTGCGGGGTCGCCACTTGGGTAGTGCGCAACGTCTTTCCCCGGGAATGGATCATGTGGTCGCTGATCGGCTGGCTGATGCTGATCATGTTCATTTCGGTATTGATTGGCGGATATATCGATTATGATTTACTCAGTGTGGAGCGGACGGGCACCAAAGAGGTTCAAGTCCGCAACCCACGACCTAAATCAATCAAGACGAATAAATAA
>SRR1151209_00411 hypothetical protein
ATGCAACGCAATTTGATGAAGAAGGGAGTCTGGGGGCTGTTACTCGTAATCCTGGCGAGCAGTGTTCTGTGGCTAGGGCAGCCGGCTCAGGTTGCCGCCGATACAATCGGGGATGTACTCGATAATACTGGAACCACAGTACCCAAGGATAAGAATGGGCAACCGTGGAATATGTATCAAGTGCCTGGGCTGACGAATAATCAGGGCGTTTCCCGGGACCATGGGATGAATGAAGGGTCCTTTGTACGGTCTGGGACGGCAGCGTCTGGGGCGCCTTTATCGACGACGCCGGATTCGTCAGGAACTGGTTATCAGGATATGGATTCGACGACGAACTCGCCCCAAGCTGAGTCGCCAGCGGATATTCAATTCCAGGATTCGGATGACGGGACGCACGGTAATCCGTGGTTCGTTATTAACTATGTCAATAAGCTTGGCTTTGTTGACTATGGCAATGCGGATATTGCCAATAATTTCAGCAAGTCATCAACTCCGTTTGATACCGATGCCAACCACTATCTGTATAATCCCGATGGCGTACAGAGTAAGATGGATGGCAATACTGGAAAATTGAAAGATGGCGAATCATTCAACGGCGGCTATCTGCAGATTTCCGGAAACGTTCCAATTAGAGCCCGGATTGCCACCACCCCGACAACAATCAATGCGATCATGGCAGGCAACTGGGGGGTTATGGTCCGGGTTGACTTACCCAAAGGCGTCAATGCAAAGGACTTGGCAAGTACCGTTGCTTGGAATTCCTCGTATTTTTACCTGACTCTGGACACGTACACGTTTAATATAGATTATAATTTTTTATTTATCCCTATTAAGATCCCAATCACATTCAAAAATCTAACATTTCCACTCCAGTTTGATCATCATATATACTTGGACAAGAACAATCCAGACGGCAATGATTTTTACTTGAAGGTCAAGGGAATTCCGTTTAGCTATAACATTCCCTCGGATGGATCAAGTGCGCAGATGCAATTGCAAAAGCCAAAATCAGATGCGCTGGATTACCTGCACAACAGATACTATGATGGCGGTCAAATGGAGCCATTGGATAATCTAGATAGTGATTCAGACAATAGCCTCGATTTGAATGGTCAGCCGGAGTTTCAAACGCAAGGAACTGGCCGTGGGATGCCGTGGGATGCCTGGTATGGCATAGCTCACGAGCTAGTCATTGATCCTTTACAAGGTCAGGGATTGCTTGGACAATTTGCGTCCTGGGCAGCATCGGTCATTCTCACCACGTTAGTTCCTGAAAGCCCGGTTTACAAAACGGGGCTAACCGGACGTACTTTGGCTATGTTGAACGGTGTTACTAAGATGCAGTCAGCTGATCGTAAGACAACCAATGGGAATATTTTAGGTGCACTTAATAGCATCATCGTTGCCCCGATTATCAACAACCTTGCCTCATACTTTACCCAGAACTACTTCAAGGGTACAGCACATATCAACTTTACGTTCGACATTTCGAAATACGCTGACCACAGTAGCGCAGACCGAGAAGCGTTGACGTCGGGCAAATTGTTTGCGGCGCCGTATTCAGACGGAAAAATCAATGATGGTGATGGGCTGCAGTCCGGCGACAGACGTGGATTTGGGATTACGATGTTTAACACGGCTCAGCTGGTTGACCCGTATCGGGTGTTGACTGGGTCAAATACAATGGACAGCAATTCAGCATCCAGTAACGACGCCATTTTCCAGCACTTAAAAGCGGGGGTCACGCCGATAGATTATGCCCTGGTGAAAACGGGTGAAAAAGGAACGCCTTATCCGGTGTACACGAACTTTACTTCCTGGACCGGGGCAATTACCCCTTACGACCGGCTCCACTGGGCTGACGACAGCAGCAAGCCTTTACCGAAGATTGCAACAGATACGTTGCACTCCCAGGACAAGCTGGCTAGTGATCTGAATTCTCGCAGTGCCACGCCGGATCCGGCGAAGGACGGCATTTTGGTCAACGACGGAAAAGCATTCCCAGTACAAGACCAGACGACTTTCTACAATCAGGAGCAAGCGTATCAACCGGTCTTTAACAAGGATAAGTTCACCACCGCCGGCGTGATTCGACCGCAGCGGTACGCGAACGTGTATCAGTTGTACGATTATTCCAAGAGTACTCCGACGCCGTTGGAAACACCTAAAGCGGTCTATGACGGGGTGGATAACAACAAAGTCTCCGTGACAGCCAATGATGGCGTCAACTTTGACGGCACCACGATCAACAGCGCGTTGAACAACAGCCAATGGCATTACACCGGGACGCTGAATACGTTACCTCTGGCGGATGCGACGTTGGGGTTGAATCAGTCGTTGAAACCGACGATTGATTTGTCCGATTACTTCCCGATTTACGTCAACCGCAGTGAAATTACAGGCGGCAAGAGTCAGACCAAGCCGGTGGGGTACTTCCGGGACCCGTTGGCCACCGGGACCAATGCGTCGAATTTGCATCTCGGCTTCTCCACGAAGCAGACACAACAAGACGCTTGGAACAAAACTGGCGAAGGGGTAACATACAGTCCAACACCTAAACTGTTGAGCGGCAACTTTTCTAGCAAGAATGATGTGGCACTTGATCAAAACCAAAATATGGCGAACAACACAGCCATGAGTTTCAACTCAGACGGTTCGGCTGTGGGTAAATTTCAAGTACCATTGCAAAGCGACCCGACATCGATTCTATATTATGGTTATGCAGATGTTGATCGAGATAACACCAAGGTCAATATTGTCAACAGCTACAAGCTGGGCGCTAACGTGGATAACACGGCTTCGGATGATACCATGCTGGTCATTGATGACAACACCCCAGATAAAGACTGGTATACGATCAAGAAGCAATTTTCGGATGGTTCGCTCGTCCACTTTGTTCAGAGCGGTGACACTGGCAAAGATGTCGGGGTGACCACTGAAGGTATCAGTAATCAGCTTGGCGGCAAGAACTATGGGAAAGATGTTACGTTGATGATTCCGATTGTCCCGGGTGCAGACATTGACGGGACACCGCAAGTCACCACAAGTGATTCAGGCAACTCACTAACCAGTGGTCCGACCAAGGTTTCGTCGGGGAATGGGGATATTGATAAGAAATATGCTTCCTATCAAGTATCGTTCGCGAGTCCCCCGGAGGAATTCAAGTTTACTTACCAGTACAAGATCACGGATCCGACCCAACTGCCGTATCAGCGGTCATTACAAGACTTGGCGGTGAATGGTACCCAGGCGTTAGGGGTGTCCAATGGCATTTCGTTCAATGAGTTCAAGAACGAAAACCTGGTTCATGTGCCATCACTCGATTTTGGTAAACATCAGACGCCCAGTGCAACGGGAACCAATGCACCATATAGCCTGACTGATCCGCAAGATGCGTACTTCCAAGTGCAGGATAATACGAATCACATCGGATCGTGGACCTTGTATGGGGCAATGGGGCCCTTTACCAGTGCGGACCACAATACGCAGTACACGGACTTCAGGACCAGTCTGGGTGTACCGGGGACGGACGTCAAAGGTACTGGCGAAAGCGGCGTTACTCCGGTCGACGTTACCGGTGCGTTCGATCCAGCGTGGGACTACAGCCAAATGCGGTATTTCAACCATTACCCCCACGACATGATTTCAAACAATCAGCAAACCAAACTCTACGAGTTGAATCGGTTGCAGGGTGATGTTGATAATACAGAGAATCCATTGACCCGCTACTATCCCAAGGCCGGGTTAACGGTGCCGGCAGAAACCATCACAAATGGTAAATACACTTCCACGATTACCTACCTGTTGTCCGATAACGGTTCCCTATAA
>SRR1151209_00412 hypothetical protein
ATGGCAGAAATTAAAAACGTGGACGCAATGCGGATGATCGGGTATCCCTACCTGCCCACAATGATGGATGGTAACGGCAGCTTCTATTCAGCTTGGGAGGAATTCATGCACAGTGACGCGCCGGCCCAGTTGGACGCGCATCAGACCGGGCAAAAGAACCGGACCGCCCTGATCGTCTTTTCCCCATACTCCTTCGTGTACTACATTGGTTCCTTATTCCCAGTCGGCACAGAAAAGTTCGGCGATTTCGTTACCTTCGACCTGCCGGATAGTAAGGCGGCGGTGCACACCGAAACTGCCGACACGGTCATCTACCAGATCGGGGTCAATCAAGGGATCGAACGGCTGATGAAGCAGTTCGAGAAGTCTGAGCTGAAAATTCCGGAACACTTGGCCATGACCAGCAAGCCGTATTTGGTGGACAGCTGGCGGATGGATGAGCAGGACAAGATTTGCGACCACGCCGGCATCATGTATATTGGCAAGGAACAAGACAGCCAGCCGGATGAATATGACGATTAA
>SRR1151209_00413 hypothetical protein
GTGCATCTTCCCAAGGAAGGAGACTATATTGCGATTCAGAGCTACAAGCATGATGGGAGCTTACATCGTACCTGGCGCGATACAATGGTGCTCAAAACGAGCGAGAATTCGCTCATTGGGTGCAACGATCACACTTTAGTGACCGAATCGGATGGCCGTCACTGGCTGACCCGCGAGCCGGCAATCGTCTATTTCCACCGTAAATATTGGTTCAACATCATCGCGATGATCCGCGACAACGGGGTGTCTTATTACTGCAACTTGGCCAGCCCGTTTGTGATTGACAAGGAAGCCCTGAAATACATCGACTACGATCTTGATGTGAAGGTGTTTCCAGACGGCGAAAAGCGCCTGCTGGACGTGGACGAATACGAAGCCCACGCCAAACGCTGGTCCTATTCGCCGGAGATCGACCATATCCTCAAGGAGAACGTGAAGGTGTTGGTGGATTGGATCAATAACGGCAAAGGGCCGTTTTCCCAGGAGTACGTCGACATCTGGTATCAGCGGTATTTGGAGCTGTCTCATCGCCGCTAG
>SRR1151209_00414 permease component of an ABC superfamily transporter
TTGAAGAAAAAAGCATTGTGGCAAGACATTCGCAAATCATTCTCCGGCTCCTGGGGGCGGTTCTTCTCGATCATGGGCTTAATGCTCCTCGGATCGTTTGCCTTGGTGGGGTTGTACGTCACCGGTCCGGATATGCGGGCCACAGGGACGACGTATTTCAATCAGCACCACACCGCTGATGTCTCCGTCATCGCCGATTATGGGTTGGATAAAAGCGACGTACAAACCATCAAACAGGCCAAAGGGGTCCAAGACGCCGAATTCGGTTATCTTAAGGACGTCGCCATTCAAGGCACTGATACCAGTGTCCGGATTTTCTCAGCACCGACCAAGGTATCCCAGTACCAGGTCGTTAAGGGCCGGATGCCGCGGCAGGCGGACGAGATCGCCCTCAACGCGAAGCAAGAACAAGCCTACAAACTCGGCCAGCAGTTCAAAGTAACGGAGAAAGCCGACGCCCTGGGCAATACAGTCCTGAAACGGCACACCTTCAAAGTCGTCGGCTTTGTTAATTCAGCGGAGCTGATTTCCGACGTCAACATGGGCCAGTCGACTTCCGGGTCCGGCAGCCTGAAGGGCTTCGGGGTCGTTACCAAGCAGGCCTTCCGGTCCGACTACTACATGCTGGCCCGTTTGACGTTCAAAAACACGCAGGGCGTTGACCCCTATTCCAGTCAGTACACCAAATTGCTGGACACCCATAAGGGCCAGCTCAAGACCCTGCTGAAAGATCAACCGCAAAAGCGGCTGGCCGCCATTAAGAAGCAGGCCAACGCCAAAATTGCCAGCGGTCAAAAGAAAATTGACGCGGCGAAACAGAAGCTGATCGATACCCAGAACCAGCTGGCTTCCGCCAAAACGCAAATTGCCCAGGCCAATCAGCAGATCAGTGCCAATCAAGAGAAGCTGAACACCCAAGTCGCCAGTGCCCAAAGCCAGATCAGCGCCGGTGAAAAGCAGATCCAAACCGCGCAGACGACGCTGGCCACGAGTACCGACCAATTGAACGCCGCCAAAGCCCAGCTGGATAACGGGCAAACCACGCTCAATCAAAAATGGACCCAGCTCCAAACCGCCAAAACCGCCTTGGCTCAAACCCAAACACAGTTGGCGGCCGCCAAGCAGCAGTTAGCAACGGCAGCCCAAGCCATTGATGAGGGGCAGAGCCAAATCGCCGCGGGGTACAAACAGATCGACGCCAATCAGGCTAAGATCAATGACGCTCAAGCGCAAATCACGGCGTCCGCCCAGACGCTGGCCCAACAGAAGGCGCTGCTTGATGCCAAAGAAACAGAGTACCAAGCAAACGCCCAAGCACTGGCGACCAAGCAGGCTCAGTGGGACGCAGCCAATACGGCTCTGAATGAAAAACAGGCGGCCCTGACCAAGCAGCAGGACGCCCTCACCGCCGGCAAGAACCAATATACGACGGGCATCAGCCAACTCCAGGCCCAAATCGGTCAGCTTAACCAGCAGCTGGCGAACGCTCAGTTGACGGACGCGGAACGCGCCCAGCTGACCGGCCAATTACAGGCGGCACAACAGAAACTGACCGAGACCCAAAGTGCCTATCAAACCTTCATGCAGGAGAAATACACCCCCGGCATGGCTCAAATCGCGCAAGCCCAAGGCCAAATCGATGCCTCCGCCAAAGAGCTGGCCGCCACAAAGACCCAGTTGGCCCAAAGCGCCCAGCAATTGCAGGCCGCGCGCAGCCAGCTGGATGCCAGCCAAGCCAAATACGCCGCTGCTGCCCAAGAATTAACCGCGGCCCAGACCAAGCTCCAGGACAACATCCAAGCCCTGGCGGCGGCAAAGGCCAAACTGGCGGCCAGTGAAAAACTGTTAGCCGCCAAGAAACAAGAATACCAAGCCGGGCTGATCCAATACAACCAAGGGGTCCAGGCTTACAACAGCGGGCAGCACCAGTACCGCGGCGGCTTGCAGACCTGGTTGGCTGCAACGGACACCCTAAGCCAGAAGTCCGCGGCGTATCAGCAAAATGCGGCCAAAATTGCCCAGGCTCGTACCGAATTGCAAAGCAAAGTTAACCAATTAGCCACGGCTAAATCGACGTTAGCAACGCAACAGGCAACGGGCGAGCAGCAATTAGCCGCCGCTAAAAGGGAATTAAGCACGAAGGAAAAGCAGTACCAAGACAGTCTGGCTAAGTTTAACGACGCCAAACCGGCAGCAGAGAAGAAAATCGCGACGGCAGAGGCCACCCTAAAAGAGGCCAAGGCCACGCTGAAGCATCTGCAAGCACCCGTTTATGCCCGCGACTCCCGGCGGGAAGTCCCTTGGGGCGACGGCTATAAGATCTATGGCACGATTTCCTGGATCGTTGACTCCTTAGCTGCGATTTTTCCTATCTTCTTGTACTTCGTCGCCGCCTTGGTGACGATCACCACAATGACCCGGTTCGTCGACGAAGAACGGATCAATTCCGGCACGCTGAAGGCGCTGGGTTACGACAATCAAGACGTGATCAAGAAATTCACCATCTACGGCTTCGCCGCCAGTATGGTGGGCACGGTGCTCGGCGTGATTTTGGGCCACACTCTGCTGCCGTACATTGTGTACAACGCCTATTCCACCGGCTTTACCTTGCCGCGGATTCAATTCCACATCCATTGGGGTGTGACCCTGATTGCCTTCGCGTTAGCTCTGCTTAGTGCCGTCGTCCCCGCGTATTATGTGGCCATGCGGGAACTGCGGGACAAGCCGGCGGCCCTGCTGCTGCCGAAACCGCCAGCAGCCGGCTCGAAGATTTTTCTGGAACGCATCACGGTCATCTGGAAGCACCTGAGTTTCACCCACAAAGTCACAGCCCGCAACATCTTTCGCTATAAGAAGAGGATGTTCATGACTATCTTCGGTGTCGCTGGCTCCGTCGCCTTGCTCTTCACCGGCTTAGCCGTGCAGCATTCGATTGCCGGCATCAATGACCGCCAATTCGGCGATCTGGTGCACTACGACATGATCGTCGCCCACACGGATTACGTACCGACCAGTCAGCAGAAGAAGATCAACAAACTGCTAGACGAGACGGCAGTCAAAGAGCACACCAAGGTCCACTACGAGCAGCTGACCCGGGTTGCTGGTAAAAGCGGCGATACGCAGCAGATCAAGCTGATCGTTCCTAGCGACACCCAGTCCTTCACGGATTACATTCAGCTCGTGAATCGCCAGTCTCAGCAGAAGTTGACGCTCAAAAATAGTGGTGTCGTTATTTCTGAACGATTGGCGAATCTATTGGGGGCTAAAGTCGGGGGCACCATCACGCTGCGGGACGCGAACAATACCCTGCGGCGGATGAAGGTGACCGGGATTACCGAGATGTACATGGGCCACTTCGCGTTCATGAGCCCGCAAGCTTATGCCCGAACGTTCGACACATCCTTCTCGACCAATGCCGATCTGATCAATCTGAAGGACCGCAGCACCAGCAATACCCGGCGGCAATCCGCGAAGTTCATGAAACTCAGCGGCGTCGCCGGGGTGGTGCAGAACACCACGCTGCGCTCGCAGATCAACGTCATCGTCAACTCTCTGGACAAGATCATGATGGTCCTGATCGTCATCGCCGGCTTGCTGGCCGTCGTCATCCTGTACAACCTGACCAACATCAACGTGTCCGAACGGATGCGCGAGTTGTCCACGATCAAGGTCCTGGGCTTCTACACCAACGAAGTCACCATGTATATCTACCGGGAGACAATTATTCTCTCCCTGTTCGGGATCGCGGCCGGTTACGTCCTCGGCGAACTGCTGCACCGCTATATCCTCTGGGCGGTGCCGCCGGATGAGGTGATGTTCAATCCGGCGCTGGGCGCCATGGGCTTCATCATTCCGTTCATTGTGGTGGCCATCATCACGCTACTGCTGGGTTTCTTCGTGAATCATCGACTGAAGAACGTCGATATGCTGGAAGCGTTGAAGTCGGTGGATTAA
>SRR1151209_00415 antimicrobial peptide ABC transporter ATP-binding protein
ATGGCCTATATTGAAGTGAAGCATAGCTATAAGCGCTACGCGATGGGTGACACCACCATCGTGGCTAATAACGATATTAATTTTGCAGTGAACAAAGGGGAACTGGTCGTGATCCTTGGCGCATCCGGGGCCGGGAAGTCGACGATGCTGAATATTCTTGGCGGCATGGATACCAATGACGAAGGGGACGTAATCATTGATGGTAAGAACATCGCCAAGTACAACGCCAGGGAATTAACGACGTATCGGCGCGATGATGTCGGCTTCGTCTTCCAGTTTTACAATCTGGTGGAGAATCTCACCGCGAAGGAAAATGTAGAACTGGCGTCAGAAATCGTCAAGGACGCCCGGGATCCGGAGCAGACCCTGAAAGACGTGGGTCTGGCGAACCGAATCAATAACTTTCCTTCCCAACTATCCGGCGGGGAACAGCAGCGGGTGGCCATTGCCCGGGCCGTGGCCAAGAACCCGAAGATCCTATTATGTGATGAGCCCACCGGCGCCTTGGATTACACCACCGGTAAGCAGGTCCTGCAAATCGTTCAAGACATGAGCCGCAAGCAGGGCGCCACCGTCATCATCGTGACCCATAACGCGGCGATCGCCCCCATTGGCGACCGAGTGATTCATTTCCGGGACGCCAAGGTGGAAAAGATTGAAGAGAATCCCCATCCTGAAGCAATTGCCAATATTGAATGGTAA
>SRR1151209_00416 TetR family transcriptional regulator
ATGTTGTTGCTTTTAATTATCGACCACTGCATAATGAGCCCTGAGGTGATCATCATGACAACCCATGCCAAAGTGACGAAGACGCAGCAGAAAATCAAAGAAGCGTTTATCTATTTGATCCATACGAAGGGCTTCGAACGCCTGACCATCAGCGACATAACGAAATACGCCCACATCAACCGGAGCACGTTCTACGCCCATTATCAAGATAAGTTCGATTTGATCCAGTTCTTTGAGCAGAAATCAATTCAGGCCTTGCAGGATATCATCACAAACCGCCTGGCCGCCGCCATGGTGTCGCCGGAGAATGGCCCGGAAACCATGGTCACCTATGATGCCATCCGCAAGATGCTGCATTATATTGGCGATAATTTCGACCTGTTGCGGGCACTGATCGGACCCGGCGGCGATCCGCATTTTGTCGATGAAATGAAGAAAATCCTGCGCAGCATTATCGACGCTGATCTGTATCAAGTCAAAGGCAACACAAAAATGACCACGGTGATTCCAGACAACTATGCCCATGAAATCGTGGTCGGTGATATAGCGAATATTGTGACGTTTTGGCTCAGTCAGGATAATCCCGAGAGCCCGGATGAAGTCGCGGATATTATTATGAAGACGCGGTTTATGAGCCCTTACGAGTTGCTGGGAATTGCGGAAACAAATGGTTCGGCCCGGTGA
>SRR1151209_00417 tryptophan synthase alpha chain
ATGACTAATACAACTGTAACCAAAACCATTGTGCCGGTGATCGTCGCCGGCGATCCGAGTTTGACCAGCACCACAGAACAACTCGTTGCTTTAGGCGCGGCCGGCGCTAAACTGGCGGCCATTTCCGTGCCGTTCTCCGATCCCGTCGGTGATGGACCGGTGATCCAAGCCGCCGATGTCCGGGCCTTAGCCGCCGGCACGAACCTGCCCGGCATCTTCTCGGCCATTGAAGCGGCCCGGACCAAGACCCAGGTACCCATTCAATTGACGATTTACGCCAACTTAGCCTACAAGTACGGCGATGAGAAATTCGCCAAGAAATGTTCCAGCCTCGGGGTGACTGACGTGCTGGTGCTCGATCTCCCGGGCCAGGAAGATGATCCGCTGCCGGGTGCGCTGGCCGCCGCCGGGGTGAATCTGGTGACGGTGGTCACCACGAATTCTTTGGGTCACGTCGCCCCCATCGTGGCCGCCGCGAAGAATTATATCTTCGTCATGCCGATTCCCGGTTCCGGTCCCGAGGCCACGGCGGCGCAACTGCAACAGCTGGTCCCGGAGATTCGCCAGCACACGGATCTGCCGGTGATCGCTGAAATCGGCCTGCCCATCACGCCGGTTCCCGCACCGATCCTAGATCAAGTCGATGGCGTTTACCTGGACACAATTTTCCCCGCCGTGGCGGCGGAAGCAGGCCAGGACGCGCCGGCCAAGCTGCAAGCAGCGTTCAAACAGTTGCAAGGATAA
>SRR1151209_00418 tryptophan synthase beta chain
ATGCAAGAAATCGAAAAGCAGCACACATTTAAGACACCGGGCCATTACGGCGAGTTCGGCGGGACCTACGTTCCGGAATTGCTGTACCCCGAATTGCAACGGGTGGCCGACGCGTATCACGCGGCGCGCAAGGACCCAGAGTTTAACAAGGAATTGAATGATCTGCTGGTGAATTATGCCGGCCGGCCGTCGCTGCTGTACTACGCGGCCAATATGACCAAGGACTTGGGCGGGGCCCAAATTTACTTCAAGCGGGAAGACTTGAACCACACCGGGGCGCACAAGATTAACAACGTTCTCGGTCAAGCCTTGGTTGCCAAGCGGATGGGCAAGAAACGGCTGATTGCCGAAACTGGTGCCGGTCAGCATGGCGTGGCGACGGCCACCGTCGCCGCGTTGTTCGGCATGGAATGTGAGATCTTCATGAGTAAAGTCGACACCGAGCGGCAAAAGCTGAATGTCTACCGGATGCAGCTGCTGGGCGCCAAGGTCACGCCGGTGACTAACGGGTCCGCGGTCCTGAAGGATGCGGTCAATGCCGCTTTGCAGAATTGGGCCGCCCGGTCCGACGACACGTTCTACCTGTTGGGCAGTGCTGTGGGGCCGTATCCGTTCCCGGCGATGGTCCACGATTTCCAAAGTGTAATTTCTAAAGAATCGAAGAAACAGATTCTGAGCCAGGCCGGCCGGCTGCCGGATTACGTGGTCGCCTGTGTCGGCGGCGGTTCCAACGCCATTGGGTCCTTCGCTGAGTACATCGACCATCCGGAAGTCCATCTGGTCGGGGCCGAGGGTGCCGGCAAGGGGGCGGATACCCCGGAGAACGCAGCGACGATGACCAACGGCAGCACCGGCATTTTCCACGGGATGAAGTCCAAGTTCTTGCAGGACGCAGACGGCCAGATCGACAAGGTCTATTCCATTTCGGCCGGGCTGGATTATCCGGGTGTGGGGCCGGAGCACGTGATGCTCCAAGAAAGCGGCCGGGCCCAGTATTACCCGATCACCGATGATGAAGCGGTGGACGCCTTCGAATATATTGCCAAAGAAGAGGGCATCATCGCGGCGATTGAGAGCTGCCACGCGGTGGCCCAAGTGATGAAGATGGCGCCGAAATTACCCAAGGATAAAATCATTATTTGCACGTTGTCCGGCCGGGGCGACAAGGATGTCGCCAGCATTGCCAAGTATCGGGGGGTAGAAATTGATGACTAA
>SRR1151209_00419 nucleoside 2-deoxyribosyltransferase
GTGAAAGTCTATTTTGCCAATGGCTTGTTCTCCCAAGCCGATGCCGAATTCAACGCCAAGATCGTGGCGAAGATTCGCGCGCAATATCCGCTGGTCGAAGTCTACCTGCCCCAAGAGAACGCCAGCATCAATGACAAGAATAACTATGCCAATTCACTAATGATTGCTAAAGCCGACACCGACGAAGTGCTGGCCAGCGATCTGCTGATTGCTGTGCTGGATGGCCCGACGATCGATAATGGCGTCGCCAGTGAAATTGGCGTGGCCTATCAAGCCAAGGTGCCCATCATCGGGTTATACACCGATACCCGCCGCTTGGGCGCGGACAACCAGCAGAAGCTGGACGCCTTGCAGCAAGTGGCCGAGAATCAGTTCCACTACCTGAATCTGTACACTACTGGGCTGATCAAGCTGAACGGCAAGATCGTGACCAGCGTGGATGATTTAGTGGCGGCGATTGATGAGTACGCGGAACGGGGAGACTAG
>SRR1151209_00420 TrmA family RNA methyltransferase
ATGTCACGTTATACGCGCACCAAACCCGTTGAAGCCGTAGTCGGCGAACGGGTGATCATTACCATCAAACGCATCGGGATCAATGGTGAGGGGATTGGTTACCTGCGCCATAAAATCATCTTTATCCCCGGGGTACTGCCCGGCGAAGTCGTTTCAGCCACGATCACGGCGGTTGCGCCCAAGTTCTTACGGGGCGAGATGACCCATATTGAGAAACCCAACAAGGATCGGGTCCAGCCGGCCGATAAGAATTTCGGTAAAGTCGGCGGGCTCGAATTGAACCATTTGGCCTATCCGGCCCAAGTGGCCTTCAAAGACGATGTGCTGCGTCAGTCTTTGGAGAAATTTGCGCCCCGGGATTACAAGGATTATCAGATCAAACCGGGGATCGGCATGGCGAATCCCACCCATTACCGGCACAAGGCGCAATTCCCGCTGGCGGTGGAGAAGGGCGGCAAGATCATTGCCGGCATGTATGCTCCGGGCACACATGATCTGATTTCCATTACCCATAGTATTACCCAAAGTCCCCGGACGATGCAAACCATCAATGCGCTGGTGGAGATCCTGAACGCGCTGCACATGCCGATCTATGATTTGCAGCAGCACCGCCAGGGCCTGCGCACCTTGGTCGTGCGGGAATCGGCCAGCACTGAGGACCTGCAAGTGACCTTCGTCAGCAGTGTCGAAGACTTCCGGGATCGCGACCGATTAGTCGCAGCGGTCAAGGCCACGATGCCGGCAGTGACCAGCGTGATGGAAAACGTCAATCCGGATGATACCTCGCTGATCTGGGGCCCGAAGACGATCCATCTGGCCGGCGCCAGCACGATCACCGAAGAGTTGCGGGGCAACAAGTTTGTGCTGTCCCCAGAAGCCTTCTTCCAGCTCAATCCGGTCCAAACCGAAGAATTATACGCCATCGCGCTGCGGGCGTTGAATCTGGATAAAGACGACCGCTTGATTGATGCCTACGCTGGGGTTGGGACCTTGGGGTTGACGGCGGCTAAGCACGTCGCCGCCGTGCGGGGGATGGAAACCATCGCCGCCGCGGTTCACGATGCCCAGCGCAACGCTGAGATCAACGGCATCACCAACGCCGTTTACGAAGTGGGCAAGGCTGAAAATGTCATTCCCCGCTGGCGGAAAGAGGGCTTCACTCCGACCGCCCTGATCGTCGATCCTCCACGCACCGGTCTGGATGTCGCCTTGCGCAAGACCATCGTCCAGGAACGTCCGCCCAAGTTTGTGTACATTTCCTGCAACCCGTCCACGCTCGCCCGGGATCTGGTCACCTTGACCGAAGCCTATGACGTGGACTGGCTCCAATCCATTGACATGTTCCCCCAGACCGCCCGTTGCGAATGTGTCGTGAAACTCAGTTTGAGAAAGTAG
>SRR1151209_00421 regulatory protein RecX
GTGGCAACGATAACCAAGATCTCGGCCCAGAAACGTCCGGGCCGCTACAATATTTTTCTCGACGGCGAGTATGCCTTTGCGGTGGATGAGGGCGTCCTGGTCCAGTTTGCTCTGGCCAAGGGGCAGGAACTGACGCCGGACCAGATTGCCCGCATCCAAGAGCAGGATAATTTTCGCCATGCTTATAATATAGCAGTGAACTACCTGGCACACCAGCTCCGGACCCGCCATGAGATTTGGGCGAAGCTGGAAGAAAAAGAAGTGCCGCCCGCTTATATCAAGCAAGTGGCGGCAGAATTGACGGAACAAGGGTATTTAGACGACCACGCCTACCGGGACAGTTTTGTCCGGACGCAGATGGTCACCACGGAAAACGGCCCGACGATCATCGAACGCAAACTGCGGGAAAAGGGCATCAGCCCGGAACTCGCCAACCGCGAGGCGATTACCGATATTTTTACCCCAGCTGAGCAGCTGGCAACACTGGCCAAACTGATTGCCAAGCAGCGCAACCACTATCGCCGGAATTCCGCTCGGGAACAAGAACGGAAGATTCGGCAGCATCTGTACACCAAAGGCTTCGCTGGCGATTTGATCACTCAGGCGATGGATGCGGCCGACTTCACCCCGGATCCGGAGGAAGAAGCCGATGCCTTGGCTGCCCAGGGGGCCAAGTACTGGCGACGATATGCCAGCAAAGGGGCCGCGGTGCAAAAGCGGAAGACGAAGCAGATGCTGTATCAAAAAGGCTTTGATCTGGGGGCCATTGATACTTGGATTGCTGAGCAGGAAACGGAAGACGCCTAA
>SRR1151209_00422 cell surface protein
ATGACTTGGACAAGACGTTTGGTATATGGCATGACACTGCTGCTGATCTGGGTCGTGGCGGCCGTCGGGCTGAGCCGCCCGGCAACGACCCAGGCCACCGCGGTAACGACTGTGCAGGGACTGACTGCAGGCGATGCCAGTATTTTTGACTTCAACAACAATCCGGTGGCGAACAGTCCCAGTATGACGGTTTCAAATTTTTATACCGTGACGTATAACTGGTCTATTCCTGAAAACACCAAGATTGCCAGCGGCGATACGGCCCCGGTTGCACTGCCCAGTTACCTGCAAGCTAACGATGATCTGTCATTACAGGTGCAAGACTCGACCGGCATAGTGATCGGGATCTTTAAAATTGCCAAGGGCGCGCAAACAGGAACGATCACCTTCAATGCCACCGTGGGCCAGGCGGTAAAGACTTATCGCGGTGCGCTGAGTTTCACAACTAACGGTACGATGCCCGATGCGCCGGGGGCACTGCCGGATGTCAACATTGTCGGCTGGATTTTCTCTCGGAGTATCAACGGGGCCCCTAGTGAACTGACGTGGAATATCGCAGTCAATATGAATACCAAAGAGCTGAATGACGTTATTGTCACTCAGCAAATTGGGCCCAACGAGACGTTAATTCCCACCAGCGTGTATGCCCCGACTGGGTCGTACGCGCCGGGCACCAGCAACTTTATTAATGACGGCGGGACGGTTCAGCCGAAGATTTCGGAGACCAGCCATGGCAGTGCCGGCAGTACCGTGATCTATGACTTTGGCGACATGACTAAGGCCGTGAACATGACCGTGCAGGTTAAGCTGAGCAATGTCCAGGCCAGTACCGTGAACAAATGGACCAGTGCCGCCATGCTGGCCAGTACCGAAACTGTGACAGCCAATGTGCCGGCGTACGTCCAGTGGGGCGGGACCGGGTCGATCAGCAGTGATCAGTTGGGGTCCGTGACCTTGACGAAGACGACTGACCAGGGCCAGGCCTTGCCAGGGGCCGTCTTCAGTTTGCTGGACAACGGTGGTCGGGTGGAAGTGACCGGACTGACGACGGATGCCAAGGGGCAGATCACGCTGCCGAGCGTCTATATCGGCACGTATCAATTTGTGGAAACGCAGGCCCCTAATGGGTATAAATCGGATCAAACACCCCATTGGTTTACGATCACCCAGGGCAGCAGCGTGACGACTCCCGGCAGCCACGAAACCGTTGCGGTGGCCGATGCCGCCAGTCCTTACACGGGCCAGGCGACCTTGACGAAAGTCGATGCGACAACGTCGCAGGTTTTGGCCGGCGCTGAGTACAAACTGACGGACAGCAGCGGCCAGACCGTTGCCAGCGGGATGACGACTAACCAAGTCGGCCAAGTGACCGTGGGCAGTCTGGCCAACGGTACATATAATTTTGTGGAAACGAAAGCGCCTGTCGGCTATGCATTAAATCCGCAGGCGGTGCCGGTCACGATCACGAATACCGCCCAGAACGCGACGGTCACCGCTCAGGACACGCCGATTTCAAACACCATCAGCGGCACGGTTTGGCGGGATAATAACGGGGATGGCCTGATGGCGGACAATGAAGCCCGGCTCACCGGCCTGCCCCTGGTCTTGATCAATGCAGCGACCCACGCCATTGTCGGCGCGGATGGCACGGGCTTGGCTTATGCGATCACGACGGATTCCATGGGCCGCTATCAGTTCAGCAATATTCCGGCCGGTACATATCAAGTGGGTATTTTGGTGGATAATGTCAGTGCCGGCTTGTTCCCGACCAAGAATGGTGTCGGCAGTGATCCGACAGTGGCTTCGCAACTGCTGCCGACCCACGCGACCACTGCGGATAAGCAAACTGTGCTGGTTACCCAAACGATCCAAGTGACCAAGAATTCGGCCGTGACCAACGTGAACATGGGGCTGGCCCCAGAAGCAGCGCTGCTCCAGCTGAAAGTGCCGAATCTGGATTTTGGTACCCAACCGCTGCCCACCGCAGCGGCGGCGTATTCGAACACCAACATCAGCGGCAGCGAGGCCAACACCATTGTGGTCACTGCTGCGGGTACCATTACCGATGCCACGCTGGCGGACACCTTGGGGACGCAATACACTGTCGATGCCAAGCTGACCGCGTTCAAGCAGGCTGACACTGATGCTGCCGGTCTCCAGGGGGCCGACTTGGCCTTTGTCCAGGGCAGCAGCATCACCAGGGTGGGGATGCAGGCCAGTCAGACTCTGTTCACCAACACCGTGACCACGGCCGACTATGCGCTGCATTACAACGATATTCGTCTGGAAGTGCCGGCGCCCAGCGCGGCTAACACGATCAGTTCAGGCCGCTACACCGCCACTGTCGAATATACCCTGACAGATGGGGTAAATTAA
>SRR1151209_00423 D-lactate dehydrogenase
ATGCAATTTGGGATCTATGGATTAAAGCCGGAAGAAAAGGAATTCTTTGACGCCTGGGCAGCAGAAAACGGCGTGACGCTGCAGTTTCATCAGGAAATTCTAAGCGGTCAGACCCCGGCGGATTTTGCCGGCGATGATGTCGTTGTCGCGTTGCAAACGGTTGCTTACCCGCCCGCGGCTATTGAAGCAATGGCTCAAGCCGGGGTGAAATACTTGGCGCTGCGCAACGTTGGGACGGATAACGTCCCCTTTGCGACCCTGGCCGCTAACGGGATTCAGCTGGCTAACGTCCCGGCGTATTCGCCCCAATCCATCGCGGAATTCGCCGTGAGTCTGACACTGCAATTGGTGCGCAACTTCGGTTATGTGATCCAATCCATTAGCCATCACCAGTATACCGATGCCATGCAGCGGACCGGTAAAGAACTGGGCACGCTGACCATTGGCGTGGTCGGTACCGGCCGCATCGGCGCGTCGGCGGTCAAGCTGTTCCAAGGTTTCGGCAGCCAGGTCATCGCCTATGATCCCTATCCGAATCCAGCGCTTAAGGATCAAGTCGAGTACGTTGATGACTTGGCAGACCTCTGGCCGCGGGTGGATGTCGTTGATCTGCACATCCCGGGCACGAAGGAAAATACCCATCTGATCGGCGCCGACCAAATTGCCCAGATGAAGGATGGGGTGTATTTGATCAACACCGCCCGGGGCAATCTGATCGATACCCAAGCCCTCATCGCTGGTTTGACCAGCGGCAAGATCGCTGGGGCAGGCATTGACACCTTCGAATTCGAAGCCGATGTCTATCCGGCTTGGGAAAAGAACGAAGCGCCGGCTAACCCGCTGTACGAAAAACTGTTGGCCGATCCCCGGGTGATCATGACCCCGCATATTGCCTACCACACCGAGACGGCCGTGGAAAATATGGTCACGGTCTCCCTGAATAACGCTAAGGCGTTCGTCGAAACCGGCCACGCACCCCATGAATTGGACGTGGCGAAGCTGGCAGACGCTTAA
>SRR1151209_00424 hydroxymethylglutaryl-CoA synthase
ATGGACATCGGGATTGACGCAATTGGTTTTTATACCCCGCACTATTATGTGGATTTAGTGAAATTGGCCAAGGCGCGGGGCGATGACCCTGATAAATATACGATCGGCATTGGTCAAGACCAAATGGCCGTTACGCCGGCCACCCAGGATATCATCAGTATGGCAGCTAACGCGGTCGATGCGCTGCCCAGTGCCCGGCTGGACGGCCGCTTGGGCATGGTGATCGTGGCCAGCGAATCCGGCGTGGACGAAAGCAAAGCCGCGGCGATCACTGTCGCTCGCTTAACCGGGCTGAATCCCTGGGTGCGCGCCTTTGACATTAAAGAAGCCTGTTACGGTGCCACTGCCGGTTTGCTCATGGCCCGGGATTATGTGGCCGCGCATCCGACTAAGACAGCGCTGGTCATCGCCAGCGATATCGCTCGGTACGGCCTGGCCAGCGGCGGGGAAGTCACCCAGGGCGCTGGTGCCGTGGCCATGGTGATCAGTGCCCAGCCGCGGGTTCTCGCCCTGCAGGATGACGCCGTCGCCTATACCGAAGACATCCCTGATTTTTTCCGGCCCACCGGCATGACCGTCCCAGTGGTGGATGGCCACTATTCCACGGCCGCTTATTTGAATTTTGTCACCAAGATCGTCGGTCAGCACCAAGTCCAATACCACGACACGATCACTGATTACGCCGCGCTATTGTTCCACCTGCCCTTCACCAAGATGGGGAAGAAAGCCTTGGCGGCCCTCACTGACAGCGTCCGCTTAGGGCAGCGGTTAACCGCTGCCAGCCAATTGTCTCGCCAAGTTGGCAACATCTATACCGGTTCTCTGTACTTGAGCCTGCTCAGTCTGTTGTGTCATGATAAAACAATGCAGGCGGGTGACCGCATCGGCCTGTTCAGCTACGGTTCCGGTGCGGTGGGCGAGTTCTTCAGCGGCATCCTGGCCCCTGGCTTTGCCGACCATATCGGTCAAGCTGCGGTGATTCAGCTACTGGCGGAGCGGGAAGAACTGACTATCCCGGCGTATGAGCAGATGTTCAATGACCAGCTGCCCCTCGGTGATGCAGCGGCCGCGCTGCCGGCAGAACAAAGCACTGCCCGGTTTACCGTTGGCGGTCGGCGGGATCATGCCCGCTGGTACCGGGACACAACCAAGTCAATGACAGAAGGAGATTAA
>SRR1151209_00425 acetyl-CoA C-acetyltransferase
ATGACTAAGAAATTCTGGCAGCTGACACCTGCGGAGCGCCTGGTTTTGTTGGTTGATCAGGGCATTTTATCTGTTGACCAAGCACAATTTTGGTCTGCCCAACAGCCCTTGCCGGAAACAGTCTTGACCGGTCTCAGTGAAAACGTGATCGGTCAAATGAGTCTGCCGGTGGGGGTCGTGCCTGGTGTGGTCATTGCTGGAACACCCCGGACAATCCCGCTGGCGACGGAGGAACCGTCCGTCGTGGCGGCAATCAATCACGGGTTTAAGATGCTGGATCAGGGGCGGGACCTCACCATTATCGCCAATGCCCATGCGTTAACTGGCCAGATTGCCCTGCAAAATGTATCTGCCTATGCGGCGCACGAATTACAGGGCAATCTGTCCCGGTTGACGGCAATCGGCTATGCTGCTCATCCCACCCTTAAGAGCCACGGGGGCCGTATCGAGCGGATCACCGTGGCCCCGGGTGCCGTTGATGACAGTTTGCAGCTTTTGGTTACCGTCACCCCCGGCGAAGCCATGGGGGCCAACATCATGAACGATATTTTAGAAGCCGTTGCTCCCGCTGCTGCTGAAGTCACCGGCGGTGCGGTGCTGTTTGCGGTCCTGACCAATGACGGGCGCGATAGTGTGACCCAGGTGCAGGCCGCGCTTCCACTAGCCAATTTGCAGACACCCAGGCACTCAGGGCGGACAGTCGGTCAGCGGATCGCGGCCATCGCCGACTGGGCCCAGCAGGACAGCCGGCGGGCAGTGACCCATAACAAGGGCATCATGAACGGCGTGGCGGCCCTGGTCTTGGCGACGGGTAATGATACCCGCGCGGTCAACGCGGCCGCCCATGCCTATGCGGCGAGCAGCGGCACCTATCGCGGGCTCAGTACTTGGCACGTGCAAGATGACACTCTGGTGGGCACGATCACCTTGCCCATTCCAGTGGGCACCGTGGGCGGGGCCACCAAGGTCTTGCCCAGTGCCCAGCAGGCGCTGACGCTGCTCGGTCGGCCCACGGTCCTGCAGCTTCAAGCAATTGCGGCCAGCGTCGGCTTAGCGGCCAACCTGGCGGCACTGCACGCTTTAGTGACTGACGGCATTCAGCGCGGCCACATGCGGCTGCAATACGGCTCATTGGCGGTGCGGGTTGGGGCGACAGCCGCTGAAATCGCGCCGCTGGCTGCCCAGCTCGCAACCGTCGGCCGGCCCTCAGAAGCGCTGGCCCAACAACTACTCGCCCAACTGCGGGCAAAGGAGAAGGATCATGGACATCGGGATTGA
>SRR1151209_00426 acetyl-CoA acetyltransferase
TTGCGACAAGTCGTGGTATTAAGTGCCCAACGGACGCCGATCGGCAAGCGGGGCGGGGCGTTGAGGGAGCTGTCCGCAGTCGATCTCGGGGTGCATGCGGCGCAGGCCGCCATTGCTCAGAGCGGAATTCCGGCTGAGGCGATCGATCAAGCGATTTTTGGCCACGTGCTGGCCGCCGGCAATGGGCAAAACGTGTCGCGCCAAATTGCCCTGCGGGTCGGACTCAGTGACGACAGCACTGCGATGACCATCAACCAGGTTTGCGGCTCCGGCCTGAAGGCGGTCCATCTGGGTCAGGCGGCCGTTCAACTGGGCGAAGCGGATGCCGTCTTAGTCGGCGGCACGGAAAGTATGTCCAATGCCCCAGGCTTGGTGCGGCACAATACAGCCTCGCCGGAAGTGGAAGAAAGCCTGAATATTGATGGGCTGACCGACGCCATTAACCATGAACCCATGGGCATGACAGCGGAACGGGTGGCCGATGACTTCCATATTTCCCGGGAAATACAGGATGAATTCACCCTGCATTCCCATCAAAAAGCTGCTGCGGCAACGGCTGCCGGTCGATTTACTGAAGAAATCACCCCCATCGGCCTGATGACGATGGACGAGGGCATTCGCCCGGACTCGTCAATGGCCGCCCTGGGCAAATTACGGACGATTTTTAAAACCGATGGTACTGTCACCGCCGGTAACGCTTCCGGTATCAATGACGGTGCGGCTGCTTTGGTCCTGATGGCGAAGGATGCCGCCGAGGCCCAGGGACTATCGTGGTTGGCGGAATTAACCGCCTTTGACGAACGGGGAATCGATCCGGCCGTGATGGGCTTTGCCCCCGCTCGGGTGATTCCGCACGTGCTGCGCAAGGCCGGCTGGGCCGCTGATGATGTTGACCTGTACGAATTGAACGAGGCCTTCGCGGCCCAATCCATGGCCGTTGTACAGGCATTGGAATTGCCAGCTGAGAAAGTGAATGTCAACGGCGGGGCACTGGCCTTGGGCCATCCGCTGGGGGCTTCTGGCGCCCGCATTTTGACCACGCTGATCTATGCCCTGAAGCAGCGGCAACTGCACCGGGGGGTAGCCGCGTTATGTGTCGGCGGCGGGATGGCCGTCGGTATGGGAGTGACCCTGTCCGATGACTAA
>SRR1151209_00427 hypothetical protein
ATGCACGTTGGTGAATTACTGTTGCTGCTGGCTGATATTCGGCCGAATACGGCTGTCTTTTATAATCAAAATGGCGAACCGCTGCCGATCACCGCTATCACCTGGACCAAGCCAGACGTCGAAGCACCAGCGGCCCTGCTCCACGTCGGCACTCCGGGGCACCCCCGCCGGCAATGGGAATTGGTCGCCCTGCTCAAAGAACCCAACCGCCCCCAGGACCAGATTCTTGTCGTGACCAAAGATGGACCAATGCCGATTTTCGGCTTTCGTCTCGTGCAACGGCATATTTGGCTTGGCTGA
>SRR1151209_00428 UTP--glucose-1-phosphate uridylyltransferase
ATGAAGGTACGCAAAGCAGTGATCCCGGCGGCCGGCTTTGGGACCCGGCTTCTGCCCGCCACCAAGGCGATGGCTAAGGAAATGTTCCCCATCGTGGATAAGCCCACGATTCAATTCATCGTTGAAGAGGCCAAAGCCTCGGGGATCGAAGATATTTTGATCATCACTGGGAAAGGCAAGCGGCCGATCGAGGACCATTTCGACTCTGCGCCTGAACTCGAAGAACAGTTGCGGGCCCAGGGCAAGGACGATCTGCTGAAGCTGGAGCAGGAGACGACCAACATTGGCGTCAATCTGTACTTCATTCGTCAGTCCTACCAGCGCGGGTTGGGCGACGCGGTCCGGCTGGCCAAGTCCTTTGTCGCCAACGAACCCTTTGTCGTCATGCTGGGCGACGATTTGGCCATGAGCAAGGTGCCCTTGACTAAGCAATTAATGGACGATTATGAAAAGACCCACGCCTCCACGCTGGCCGTCATGCGCGTGCCCCACGAGGAAGTCTCCAAGTATGGTGTCATCAACCCCACGTCCGAAATGGAACCGGGCCTGTATAACGTCAAGAACTTCGTGGAGAAGCCGCCGGTGGATAAAGCGCCCAGCGACTTGGCTATTATCGGCCGGTACCTGCTCAATCCGGAAATCTTTGATTTACTGGACACCCAAGAACCCGGCCGGGGCGGCGAAATTCAACTGACTGATGCGATCGATCGGCTGAACAAGACCCAGCGGGTATTTGCCCGGGAATTCACGGGCAAGCGGTATGATGTCGGCAATAAGTTCGGATACGTCCAGACGACGATTGAGTATGGCTTGCGGCATCCGGAGATCAAGGATGAGCTGCATGCGTATTTGAAGAAATTGGTGGCCGGGTTTGACGATGTCCCGGCGGCGCCGAAGAAGAAATAA
>SRR1151209_00429 ribonuclease BN
ATGGCCCGCCCAATGCCCCGGTATCGGCTGGTGCCGTCCGCCCCAGTCGTTAAGCCCACGCGGTGGGCCCGGGTGGGGCAGTTTATTGCGGACATTATTGCCCGCTTTTCGGAGCCGGCGGTCCTGTCGGCGCCGCCAGTGATCACGTACTACCTGCTGCTGTCGGTTTTCCCCTTGATCATCGTTGTAGGAAATTTGCTGCCGCTGGTCGGAATCACACCGCAGTTTGCACTGAGCTATTTGGCGCCGATCGTCCCCAGCAGCATCATGGCTGCCTTTGAACCAGCAATCATTGCCCTGTTGCGGGACCGCAGCGGCGGTTTGCTGTCTTTTGGTATCGTGACGACTCTCTGGACGGCGAGTCGGGGATTCAACGCGATGCGCAATAGTATGAATTATGCCTATGGGGTCCCCCGGGCGGCCAGTGCACGGGAAGGAATCATCACTTTCTTTGGTCGTCGCCTTTTTTCTTTCTTGCTCACCCTGGCGTTTATCCTGGTATTGGGTGTGCTGATGCTGCTGTTTATCTTTGGCGGCCAATTTTTGGAGTGGCTGATTCCGCTGCTGCGCCTACCCACATCTTGGTTGGATACTTATCGGACCTTGCGCTGGCCGGTCGCCGTGGGGGCTAACTTGATTCTGGGCATGCTGCTCTATTTCTTTTTGCCCAATGCCCGGATGCGCTGGTGGACAGTACTGCCCGGGACGGCCGTAGCCACGACAGGCACGATGCTGCTGTCCCAAGGCTTTTCCGTCTACATGCGGTATTTCGGAACGGGCTGGAACTCCTACGGTCGAATCGGGACGGTGATGATCGTCCTGTTGTGGATCAACTGGACCGCGACAATTTTTGTCTTTGGGGCGGTGGTCAACGCGGTGACTCAAGAAACTGCCCATGGCACGGCGCCCACCAGCGGCAGCCGGTTTGTCGATTGGTGGCGGCGGCACAAAAAGCACACAGAATAA
>SRR1151209_00430 methionine aminopeptidase
GTGATTACATTAAAATCACCCCGGGAATTGGACGGGATGCAGCGTTCAGCACAATTGCTGGCAGCGACCCATATCGGTTTGCGGGACATCATCAAGCCGGGCATCTCCAGCTGGGAGATCGAAGAGTTTGCCGACCATTTCATTACCAGTCATGGCGGGAAGCCTTCGGAAAAGGGCTTTGAAGGATATAAATACGCGACCTGTGTCGCTGTCAATGATGAAGTGGCCCATGCAGAGCCGCGGAAGAACTTATACTTACACAACGGCGATGTTGTTAAAGTCGATATGACCGTGAATCTGGACGGTTACGAAAGCGACTCTTGCTGGGCTTATGCAGTGGGGCAATTATCCCCTGAGGACGCACACTTGATGGCGGTGACGCACAAGGCGCTTTACCTTGGGATCGATGCCGCCACGGTGGGCAACCGGATCGGCGACATCGGCTGGGCCATTCAGAGCTATGTCGAAGACGAAGAGGGCATGGGCGATGTCCGGGATCTCATCGGTCACGGCATTGGGCCCACGATGCACGAAGCACCGAACGTGCCCCATTATGGCGAACCGGGTCAGGGCTTGCGCCTGAAGGCTGGGATGACCATCACCATCGAACCGATGGTCAACTTAGGGACATGGAAGATCAAAGCGAAGACACTGCCGGGCGATACGTGGGAATACTACGTGTCCGCTGACGGCTCCACGTCTTGCCAATATGAGCACACCTTGGTGATCACCAATGATGGGCCGAAGATCCTGACCAGTCAGGATCCCGTCTTTGACGCGAAGTATCTGTACAATGGCGTCACCGAGAATCCGTTTGTCGAGAAAGTCGCCAAATAA
>SRR1151209_00431 Na+/xyloside symporter related transporter
ATGGCCAAGAATACGCGGCGGCCCAAGTGGTTGCAGGTTCTGATTGATTCGTTCACCTTCAAGAGCACTGGCTTATCGTTTATTCAAAAACTAAAAATATCGCTGCCGGCACCGATCCTGTCGGTCAGTCAAGTCATTATTCACCAGGTCTACATCAAATATTACACTGACGTGATCGGCTTGAACGCTAACTTGGTCGGGCTGGTCTACGTGATCTACAACATCTGGAACGCCCTGAATGATCCGCTGATCGGGGCTTTGATCGACCGCCAGCCTTATCGCCCGGGCCGGGGCAAATACGTGTACCTGCTGCATGTGACGGTCCCGTTCATGATGCTGACGACGATCGCGATGGCCTTTACCCAACCCAGCTGGAGTCAGTGGGCGAAGTTCGGCGTCTTCACCGCGGAGCTGTTCTTCTTCGACACGGCCGCCACGGCGTACGGGGTCGCCTATGGGTCCTACGTGCAGATTGCCGCGCCGACGAAGGAAGAACGGCTGGATATCGGCACCATCGGCAACTACTTGACCTATGGGATGTCCTTCCTGGCCACCATGATTCCCACTTTGCTGCTGTTCCAAGGCGGCAATAAGAGTCTCTTCATTCCCGTGCTCTCTGTGGTAGTGGCCGTCCAAACGTTAATCTTCATCCTGGCACTGCGGGGCTTGAAGGATACACCGGAGATGTACGCGACGCTGAAACCGGCCAAGCGGAACAACAAAGAAACGCTGCGGGCCGCCTGGGTGATCATCAAGTCCCGGCCGTTTTTGACCAGTATTACCTATTCCATCATTGCCATGGGGGCCATCAGCTACTATTCCACGGCATTCCTCTATTATATGGACGCAGTGATCCACGCCCCTGGCACGACGGCGACGCTGCTGAATTTCATCACCCACTTTGTGGCCTTGGCCTTGATGCCGCTGATGAATTACGCGGTGAAGCGCTGGGGGACGAAGACCAATATTTACATCGGGATGATCGCGGCGACGATCGGGTATATTGGGCTGACGTTTGCCCATACGATTCCGGAGGTCTATCTCTATTACGGCTTGATCGTCTGCTGTACGATTTACTTCGCCACCGCGACTGCGCCGATGAATGCCTTGATCATTGACGAAGACGAGTGGCGCACCGGGATTCGCAAGACCGGCCTGTACAGCGGGCTGTTTTCCATTTTCACCACGTCGCTGGGCAGTATCCAAATGATTCTTTACACCTCAATCATGAGTGCCACGGGCTACCGCGGCCAAGTCGCCGTGCAAAGTGCCCAGGCAGTGCGGGGGATTCGCTTCGCCACCGGTGTCTTGCCTTTGATCAGTATTTGGGTGGGGCTGCTGGCGATGATTCTCTATCCTTTCACTCGCCAGAAAGAGCAGGATATTTCAGCGGAAAGCCGGCGAATGCGGACGGCACCCCATGACCCAGTTGCGGTTTCAGAAAATAAAGGCTAA
>SRR1151209_00432 alanine dehydrogenase
ATGAGAATAGGAATTCCCAAAGAAACCAAGAATAATGAAAATCGAGTCGCGCTGCCCCCTGAGGACGTGCATGAATTGATCCACGACGGTCAGACCGTCTGTGTCGAACGCGGTGCCGGGGTTGGCTCCGGTATCCAGGATGCCGCCTACCAAGAAGCCGGCGCCACGCTGGGGTCGGCAGATGACGCCTGGGCCAGCGATATGGTAATGAAGGTCAAGGAGCCTACCCCCGCGGAGTACCACTACCTGCGGCCCGGCCTGCTGCTGTTCACCTACCTGCATTTGGCCGCCAACAAGCCGTTGACCGAGGCGCTGCTTAAAGCCAAGGTCAACGCGGTGGCGTACGAGAACGTGCAAAAAGAGGACGGCTCCCTGCCGCTGCTCTCGCCAATGAGTGAGATCGCCGGCAGTCTGGCCGCTCAAATCGGCACTGAATATTTGGAGAAAAACCACGGCGGCAAAGGTATCCTGCTGGCCGGCGTCCCCGGTGTCCGCAAGGGCCGGGTCGTCGTCATCGGCGGCGGGGTCTCCGGGACTAACGCGGCCCGGGTCGCCCTGGGCTTAGGCGCTCGGGTCACGATCCTCGACGTGAACGTGGAGCGGCTCAAGGAAATCGACGACCAATTCAATGGTCGGGTCCAAACGCTGCTGTCCAACACCAGCAACATCGCCAATGCCTTGAAGACCGCCGACGTCGCCATCGGGGCCGTCTTGCTGCCGGGGCACCGGGCACCGACCTTGGTCAGCCGCCAGATGGTCCGCGACATGCCGGACGGCTCTGTGATCGTCGATATTGCCATTGACCAGGGCGGCATCTTCGAAACCGGCAGCCGGGTCACCACCCATGACGATCCCACTTATGTCCAAGAAGGGGTCATTCATTATGCCGTGGCCAACATGCCCGGGGCCGTGCCGCAAACGGCCACCTACGCCTTGAGCAACGCCACCATCGGCTACGCCCGCCAGCTGGCCAGCACCCCGCTGGTTGAACTGTTGCAGACAAACCAGGACCTTTACCGGGGTACGGCCACTTATCAAGGGCACATGACCTTGGGAGCCGCCGCCGCTGATCTGGATATTCCCTTCACACCATTGAACAAGTTGCTCTAA
>SRR1151209_00433 flavodoxin
ATGGCCAGTGCCAAAATTGTGTATGCTTCTATGACCGGTAACGACGAAGAAATCGCCGACATTTTGGAAGAAGCGTTTGAAAACCTAGACGTCGACGTGGATGTATCTGAAATCTCCCAGACCGACGCCGCTGAATTCGAAGACTACGACATCGATATCATTGTCACCTACACGTATGGTGACGGCGAACTGCCCGATGAAGCGGTGGATTTCTTTGAAGATCTGCAAGAGGAAGACCTAAACGGCAAGATCTTTGGCTGTGCCGGCTCCGGCGACACTTTTTACGATGACTTTGCCAAGTCCGTGGACGACTTCGCCGACGCCTTTAAAAAAACCGGCGCCGTTGAGGGCGCTCCGGTGGTCAAAATCGATTTAGCCCCCGAAGAAGACGACATTACGGCGCTGCAAGCCTTTGCCAAACAACTGCTGGCAACGTACAACGCGCAAAACTAA
>SRR1151209_00434 cell wall teichoic acid glycosylation protein
GTGCCCAATTGGCGTGCGTTGGTGCATAAGTATCGACATTTCCTACGGTACATGGTGTATGGCTTCATGGCTTCGGTCGTGAACATCCTGGTGTATTTCGTGTTCACTCATGTGTGGCACATTCCGTACGTGATCGGCAACAACGTCGCCTGGATCATCAGCAATGCCGTCTCCTTTGCTCTCACCAAGTCCCTGGTGTTCCATAGCCGCTATGAAGACTGGCTGGTCGTCGGCAGTGAAATTGTGTCGTTCTTCGGCTTCCGCCTGCTGTCCCTCGTTGCGGACAACGTGATCATGATCGTTGGTATTTCATTCCTGGGGATTCCCAGCATGTGGGCCAAGATCATTGACCAAGTATTAGTCGGCCTGTGCAATTACGCCACCTCCCGCTGGACCTTTTTGCGGCAAAATCATTTTGCTGTCAAACGGCTGCGGGAACGGCAGGCAAACAAAAAGCGCATCGATTAA
>SRR1151209_00435 phosphoketolase
ATGCTGGATCAAAAGATGAGCACCGATCAATATTCAACCCCTGAATATTTCGATCGCTTGAAGAAGTACTGGCAGGCAGCAAACTATATTTCCGTTGGGCAATTATACCTGAAGGATAACCCGTTGCTGAAGCGCCCGTTGAAGGCTGAAGACGTCAAAGTCCACCCCATTGGTCACTGGGGTACGATTTCTGGGCAGAACTTTATCTATGCTCACTTGGATCGGGTCATCAACAAGTACCATCTGAACATGTTTTACATCGAAGGCCCCGGTCATGGTGGTCAAGTGATGGTTTCCAACTCTTACTTGGACGGTAGTTATTCGGATATTTATCCGCATATTACCCAAAATGAAGAGGGCATGAAGCGGCTGTTCAAACAATTCTCCTGGCCGGGTGGTGTGGCATCCCATGCTGCTGCTGAAACACCGGGCTCCATCCACGAAGGTGGGGAACTGGGCTACTCCATTTCTCACGGTACAGGTGCGATTCTGGACAATCCGGATGTGATCGCTGCCGTTGTTGTTGGTGACGGGGAAGCTGAAACGGGCCCGCTGGCTACGTCTTGGTTCTCCAATGTCTTCATCAACCCGGTCAATGATGGTGCCGTATTACCAATCTTGAACTTGAACGGGTTCAAGATTTCTAACCCGACAATTCTGGCCCGTAAGACTGACGAAGAACTGACCAAGTACTTCGAAGGACTCGGCTGGGAACCGATCTTTGTCGAAGGCGACGATCCCGACAAGCTGAATCCGGAAATGGCTAAGGCTATGGATAAGGCGATTGAAAAGATCAAGAGTATCCAAACCGAGGCACGCAAGAAGCCGGCGTCTGAAGCCAAGCGTCCGGTATGGCCGATGATCGTTGCCCGCATCCCTAAGGGCTGGACTGGTCCCAAGGAATGGGACGGCGAACCGATCGAAGATTCCTTCCGTGCGCACCAGGTGCCGATTCCTGTCGACCAAGGCGACATGCAGCATGCCGATGCTTTGGTTGCTTGGTTGAAGAGTTATGAACCCGAGAAGCTGTTTGATGAGAACGGCGAATTGCTCCCTGAGCTGCGGGAAATCGCACCTAAGGGTGATGCGCGGATGTCCGTTAACCCGATCACCAATGGCGGGATTGATCCGAAGCCGTTGGATCTGCCGGATTGGAAGCAATATGCCGTTGACACCACGACCCCGGGTAAGACTGTTGCCCAGGATATGATCGAAATGGGCAAGTATGCCCGGGACGTCATCAAGGCCAACCCGCATAACTTCCGGATCACTGGACCTGATGAAACGATGTCCAACCGGTTGAACCATGTCTTTGAAGTAACTGACCGGCAATGGATGGAAGAAGTACGCAAGCCGAATGATCAATTCGAAGCACCGGCTGGCCGAGTCCTGGATGCGCAATTGTCTGAGCATCAGGCAGAAGGCTTCCTGGAAGGCTACGTATTGACTGGCCGTCATGGCTTCTTCGCTTCTTACGAGGCATTCCTGCGGGTCGTTGACTCCATGCTCACCCAGCACTTCAAGTGGATCCGCAAGGCGGACGAACTGGCATGGCGCAAGAAGTATCCGTCTTTGAACATCTTGGATGTTTCGACTTCCTTCCAACAAGACCATAACGGTTATACCCACCAAGATCCGGGTATCTTGACCCATATGGCGGAAAAGAAGGACAAGTACATTCGCGAATACCTGCCGGCAGACACCAACACCTTGTTGGCTGTCATGAACAAGGTATTGCGGATGGAACAAACCGTGAACATCGTTGTGGCCTCCAAGCATCCGCGCCCGCAATTCTACAGTGTTGAGGAAGCGCAGCAACTGGTTGATAATGGTCTGAAGATCATTGACTGGGCATCTAACGATGGGCACTCCGAACCGGACGTTGTCTTTGTGGCGTCTGGTACTGAACCGAACCTGGAAGCTTTGGCCGCCATCGACATTCTCCATGATGAATATCCTGATTTGAAGATCCGCTTCATCAACGTCGTTGACTTGCTCAAGCTGCGTCGTCCGGACGTTGACCCGCGGGGCCTGACTGACGAACAATTCGACACCTTCTTCACGAAGGACAAGCCGGTTATCTTCGCCTTCCATGGTTTCGAAGGCTTGATTCGGGATATCTGGTTCGGCCGTCACAACCAGAATCTGCGGATCCATGGCTACCGGGAGAACGGGGACATTACCACACCGTTCGATATCCGGGTTATGAACGAACTGGATCGTTTCCACCTGGCGAAGGATGCCGCTGACGCTGTTTATGGCGCTGCTGCTGGCGACTTCGAGTCCAAGATGGATGACATTCTGCAAAAGCACTACAACTTCATCCGCGACTACGGTACGGATATGCCGTTAGTCAACGACTGGACTTGGAAGAGCATCAAGTAG
>SRR1151209_00436 GntR family transcriptional regulator
ATGGCAGATTTAGCGTACCATCGGGTCTATTCAGAACTGACCGCACAGATCAAGCACGGCCAATATTCGGATTATCGCTTACCGGATGAACGAACACTGAGCGAGCAATTCGGTGTTTCCCGGTCCACCATCAAGCGGGCCTTGGGCATCTTGGTGAATCGCGGCATCATTTTTCAGAAGCAGGGATCAGGCACCTTCGTCAATCCCCTCTACTTCAAGAGCCGCCCGCTGTTTAACTATACCGGGGATAATATCGGGATCACCGACAGTCTGGTGAAAGACGGTCAGAAACAATCGATTAAGGTTCTGCATTTCCATGTGCAGAAAGCCAAAGATGAAGTGGCGGAGTCGCTTTTCTTACAGCCTAACGAGTTCGTTTACCGAATCGAACGGTTGCGGCTGGTGGATGATCAGCCGTTTATGATTGAAATCGGCTATTTGCCGATCCGGCTCGTGCCGGAACTGAACGAAAGCGTGATCCAGTCGTCACTGTACAATTATTTGCAGGAAGAACAGCACCTGATGGTCACCAAGTCTTTCCTGAACATTTCTGCGGAACCGTCCACCGAGGAAGATCAGAAATTATTGCAGCTCAAACCGACCGAACCGGTGGGCCTGATGGAGGGGATTTTCTTCACCGACAGCGGCACGCCCATTGAGTTCTCGCGGATGCGGATTCATTATCGTTACATGCAATATAACTCTTTTGTGTCACTTTCTTGA
>SRR1151209_00437 aspartate racemase
ATGGAAGATTTCTTCACCGTCATTGGCGGGATGGGCACTCCCGCGACCAACAGCTACATTCGGCTGCTTACCGCGCGCACGCCGGCCCACCAGGATCAAGACTACCTGAACTACATCCTTGTCAATCACGCGACGGTCCCAGACCGCACTAGTTATATTCTGGACCACAGTCAGCCCAGTTTTTATCCGGCGCTGCTGGCAGACATCAAGCAGCAGGCGGCCTTGAAGCCTGACTTCATGGTGATCATCTGTAATACCGCCCATTATTTCTACCGCGAACTGGCGGCCGCTGCCGGGGATATTCCGTTGCTGCACATGCCCCACGTGGCAGTGGGCACATTGGCCAAGCGTTTTCCCCAAGCAAAAAAAATCGGGTTGATCGCCACCGCCGGCACGATGGCCGATCACATTTATGAGCGGGAAATCGAAGATGCCGGCTATGACGTCGTGCTCGGCAACGGGCCGATCCAAGATCAAGTGACCGAATTGATTTACCGGGATATTAAGGAACAAAACAAGGTCGACGCGACGCTTTACCACACCATTCTTCGGGAAATGATCGACGAAAAGGGCTGCGACTTAGTCGTTTTGGGCTGTACCGAGCTGTCCTTGGCTCAAGAAAAAGCCAGCGACCATGAGTATCCGATCATTGATCCGCAAAGTATCATTGTGGATGAGTCTATTCGTTTGGCCACTGCGATTCGGGCCGGTGAGCCGGTGGATTACACCCTGCTGGTTAAAATTAACGATCCGCTGTCCCACTAA
>SRR1151209_00438 UDP-N-acetylmuramoylalanyl-D-glutamate--2, 6-diaminopimelate ligase
ATGGCTTTATCGTTGAACGCATGTATGTTAATTCTAAAAGAACACCACCTGCTCAAAAGCAGCGCCATCCAAGGCGATATGGATACCGTCATGACCAGCGTGTCCTACGACTCTCGGAAGGTCCAGCCCAACGGCTTATTCTTCTGCAAAGGGGAAAACTTCCGCACCATCTATTTGACCATGGCCAAAGACAAAGGGGCCATCACGTACGTGGCCGAACAACCTTACCCGGAAGGCAAAGGCATGAATGCGTTCATCGTGCGCAACGTGCAAAAAGCCATGGCTCTCTTAGCCGCGGCGTATTATAACTATCCCCAGGATGAATTGTTCATCATCGCCTATACCGGCACGAAGGGCAAGACCACGTCCGCGTACTTCACCAAGTCCATTTTGGACGAAATGACCGACCACAAGACGGCCCTGTTCTCCACGATTGACCGAGTCGTTGGACCCAAACCGGATCAGCGCTTCAAATCGGACCTGACCACGCCGGAGTCGCTGGATCTGTTCCACGATATGCGGTCCGCTGTGGATAATGGGATGACCCACTTGGTCATGGAAGTCTCCTCCCAGGCGTATTTGAAATCCCGGGTGTTCGGGCTGACCTATGATGTTGGCTTCTTCCTGAATATCACGCCGGATCACATTGGCCCCAACGAGCACCCCAATTTCGCTAATTATTTGCACTGCAAACTGCAATTGCTGGTCAATTCCCGAGTCTGTGTGATCAATGCCGAGACCGACCACTTCCCCGAAGTGTACGCGGCCGCGACGACCACGACGGATCCCGACAGCATTTTCCTGTTTGCCAACGCCAACTATCAAGAACCGCATAATATCCCGATCGATTTCCGGATGGAAAGCCACGAAGCCGATTTGTTTGAATCCCGCTTCACCTTTACACCGGTGACGCCCAAGGCAATCAGTTTTGGTGTCCACGGGGATTACCAGTTAAAGCTGGTAGGGGATTATAACGAATCCAACGCCACGGCGGCCATTATCGGCTCGCTGCTGGCTGGGGCAGACACTTATGAGACCCAAGAAGGGTTGAAGAATGTTACTATCCCGGGCCGGATGGAATCGGCACTGGCCCCAGGCCACGGCGCTGTCTACGTGGATTATGCCCATAACTACGGCAGCATGCACGCCTTGCTGTCCTTCCTGATTCGTCAGTACAAGCACCCGCGGATCATCGTGGTGCTGGGTGCGCCGGGGGATAAAGGCGTCTCCCGCCGGGCGGACTTTGCCCGGGTCTTGAATCAATATGCCAGCGATGTGTTCTTGACTACCGACGATCCCGGGTTTGAAGATCCGGCGGACATCGCGGCGGAAATCAATCGGGGCATTGACCACGAGCAAGTCCGGGTCACGACTGAACTGGATCGGCCCAAGGCCATCCACGACGCAATTCTGGATTCCAACCCCGGCGACATCGTTGTTGTGGCCGGTAAGGGCGCTGACCCGTACCAGAAGGTGCGCGGCGTCGATACGCCGTACCCCACCGATATGGTGATCGTGCGCCAAGTGATCGATCAACTGCCCGCGGCGAAAGGAGCAGATAAGTAG
>SRR1151209_00439 amylopullulanase
ATGATTTTTTATAATTCATTCAACCGGGACTGCCGCGACGCAGTCGGGGCGATTGTCGCCGGTCAGACCCTGACCTTGCGGATTCAAGTGACCGATCTGCCTGTACAAAATGTGGCGATCGAAATTTTCCCGGATGGGGAGCAAGCGACCAACACTCAGCGGGTCCGCATGCAGCCTCAGGCCGATAATTGGTACGTCGGCAAGGTGACGCCGCCTAGTGCGGGTCTTTATTTCTACCGCTTCATCGTAGACACGGATCCGGGTCAGCAGGCAATCTATTATGCGCCCAAGGATAAAGTATACGGCGGCACCGGTGAGGCCACCCGGGATAGTAATACCAGCTGTTATCAGTTGACGGTGCTCAGCAAAGAAGAAACTTTGCCTGATTGGTATCGCCACGCAATTTTCTACCACATCTTTGTCGACCGCTTTAACAACGGCAACGCTGACGGGCATGTTAACAATCCGAAACCGAACAGTTTTATCTATGGCACCCACAACGACTTGCCCTACTATGTTAAAGATGCTAACGGCCAAATTGTGCGCTGGGATTTCTATGGCGGTAATCTGCTGGGCATCGAACAAAAATTGCCGTACCTGCAAGAGCTGGGCGTCACAGCGCTGTTTCTGAGTCCGATTTTTGCCGCCCGCAGCAATCATCGCTACGATACGGCCGATTATGAAAAGATCGACAGCATGCTGGGCAGTCTGGCCGACTTTGACCACTTCCTCACGGCGGTCCATGCGGCTGGGATGCACGTGATCCTGGACGGGGTCTTCAACCATGTGGGGGCCGACAGTAAATACTTTGATTTGTACCACAGCTTTGAACCGCGGGAAGGGGCGACGGATTCCCCCAGCAGTCCGTATTATGACTGGTTTACGTTCACCCAATACCCCAACAAGTATGATGCCTGGTGGGGGGTGGGCGATTTGCCGACGGTGAATAAAGATTCCGAGAGCTTTCATCACTATATTGCGGATCCGAAAACCGGCGTCGTGTCCTATTGGACGAAACGCGGCGTTGACGGCTGGCGGCTGGATGTGGCTGATGAACTGCGGGACAGCTTCATTAGTCAGATCAGAACCGCGATGGACCAGTATCCCGATCGGGTATTGATTGGCGAAGTATGGGAAGACGCGTCCAACAAAATCGCGTACGGCAACCGCCACCATTATCTGGAGGGCGGGATGCTCCAGGCCGTGATGAACTATCCGCTGCGCAACCAGCTAGTGGCCTTGGTCAATGGCCAAGAATCCGTGGATGATTGGGTGCAGGCGGCTCTGACGCTGCAGGAGCATTATCCCCGCAGTGTTTTCCAGAACAACTTCAACAATATCGGCACCCATGACACGGAGCGGATTCTCACCGCGCTGGGCGGCGATACCAACAAGCTGGCCCTGCTGGTCAACATCTTCTTTGCGACGCCGGGGGTACCGTGTATCTATTACGGGGATGAAGTCGGTGTGACCGGGGGCAAAGACCCGGACAACCGCCGCTTCTTCCCTTGGGGGCAGGGCAATAAGGCCGTGGAGGCAATCTATACCGATGCGCTGCAGCGCCGCCGCACCGACCCGGCGCTGGCCAACGATGCCAGTTTCATCCCCTTCTACGGCTACCGCTGGGGCGGCATCTGGCGCCACATCGTTGACGTCCAGCAGCACAGCCACGACGCTCTGCTCGTCTTCAACCCCAACGAGATCCCCATCCTCGCTGACATCCGTCAGCTCCACACCGACAACCTTACCCTCGACCAAACTGCCTACCTCCAACAGCACATCCAAACCACACCAATTCCCGCCTACGGCTACCAGTGGCTCCCCGCCGATATGGTATAA
>SRR1151209_00440 hypothetical protein
ATGCAAAGTTATGCTGACCAGCAAGCCTTGATCACGACCATCGATACGACCTACGCAAAATTCATTGCCGAGTTTGCGGCGCTGACGCCTGCTGATCGGGATCGGGTAATCGCGGGCGTCGACCGGACACCCGGCCAAATGCTGGCTTACAATATTGGTTGGACGGCCCTGCTGCTGGACTGGGAAAAGCAGGAACAGGCCGGGCAGACCGTTCAAATGCCGGCCCCCGGCTATCGCTGGAATGCGCTTGGTGGTTTATATCAACATTTCTATGACGCGTATCAGGACGAGGACTTGGCCGCTTTGCAGGCCCATTTGACCGCTAATGTCACGGCAATCACCGCCCGGATCGCTACCCTCTCCGACCAGGAATTCTTTGAACCCGCCCAGCGGCACTGGGCAACAACACCGGCCCAGTGGCCGCTGTGGAAATGGATCCACATCAACACCGTTGCCCCCTTCCGCACCTTTCGGACCCAAATCCGCAAATGGCAGCGGTTGGCTAACGCGACAGAACAGAAAGGATAA
>SRR1151209_00441 hypothetical protein
ATGCAGTTAGACCTTAATACACTCCAAAAAGAAGTTTACCAAAATAAAGTGAATCACCATTTCAATGTCACGGACACCAATTTTGAACTGCTGCTGATGCACGGCGAACTGAACGAATTGTTCCGGGGCATTCTCAAGCATGACCAGGCCAATATCCAGGAAGAGATAGCCGACGTCGCAATTTATTTATTGGGCTTAGCAGAAATTCTGCACGTGGATCTGGGGCAGGCCATCGTGGATAAGCTGCATATTGACGAACAGCGCGTCTACGAGAAGGATGGCAGCAAGCATTTGAAAGGAACTGACTGA
>SRR1151209_00442 membrane protein
ATGCTTTTTTCTGAATTGAACCAGGCCGATTTGACTGAAGCGCAATGCACCGCCCTGTTGTTCCGCTACCCCGATGATGGGGCAGCCGGGGATGTGATCATGCTGGCTGGCAGCCGGATGGCCCGCACCCTGCGCCTGCCCACCGCGGTGGCGCTTTACCAGGCCGGGCGCGCCCCCCGGTTGCTGATTTCCGGCGGCCGCCGTTGGCAAGATCAGCCGGCAGGTGAATCCATGGCACTCGCATCCGCGGCAGAAGAAATGGGCGTTCCCGCCAGCGCTATTTTGACCGAGAATAAATCCCAATATACCTTAGCCAACGTCCGGTATTCTAAAGCCCTGCTGGCGGATACCATTGGGCTAGACCAGCTGCACCGCATTATTCTGGTCACCAACGCGTACCACATGAACCGCCTCTACCACATGATGCGCAGTTATTTTCCAGCGCATATTGCTTATAGTTTTCACGGTACCAGCGATCCTTATACGCGGGCCGATAACTGGTTTGCATCACCGTTGGGCCGCCGCCACGTGCACCACGAACTCAGCGGTCTGCAACAAGCGATTCGCAAGGGTGAAGTGAGCGATTATCCAGTGCCAGACGATGTTCTGGCCCAAGACTAA
>SRR1151209_00443 glycogen phosphorylase
ATGATTCTGCGGCTGTATGCCGAAGACGTCACTGACTCCGACGCCCATCAGCAGTTTACAGCCTTAGCCATTCTATTGCGGGAGCAGTATGCCCCCAATTTGAAGGAGACCCGTCAGCACTATGAAAATGACCGGGTGAAGGAAGCCTATTACTTCGCCATTGAGTTTCTGCCCGGCCGGATGCTGCAAACGACCATGCTCAACTTGGGACTGACTGACACGATCACGACCGGTCTGATGGATATGGGTTTGGATGTCGAAAAAATCATCGATGCCGAGCCTGATCCCGGGCTGGGTAATGGCGGCTTGGGCCGGCTCGGTTCGGAATTTCTGGATAGTGCGGCGGCCTTGCACATGGCCCTGAACGGAAATGGGATTCGGTATCAGTACGGGCTGTTCCGGCAAATGTTCGACAACGGCTTTCAAGTTGAAATGCCGGACGATTGGCTGCGCAATGGCAATTCCTGGGAAGTTCGGCGGGAAAACCGGGCCTGTTTGGTCCGCTTCGGCGGTAATGTTTGGATGGCGCCGGATGCCTTTGGCCGCTTGGTACCCCATTACGAGAACACCACCGATGTGTTAGCAGTGCCTTATGATACCGGTATTGTTGGGTATTTGAACCACACCGTCAATACTTTCCGGCTGTGGAGCGCGGAATTGCCCACAGATCCGAGCAAGACTTACAACTTGCAGCAAAAGGAAGATGTCAACGAAATCACGGAAATCCTATACCCGGATGATTCTAATTATGCTGGGCGTTTGCTGCGGTTGAAGCAAGAGTACTTCCTGGTATCTGCCGGCGTGCAAAGCATTGTCCGTCATTACCGCAAGCACCACCGCAACCTGAACCACATGGATGCCACGGTGGCGATCCATATCAACGACACCCATCCCGCGATGGCCATTCCAGAATTGATGCGGATTCTCATGGACGAAGAATTCATGAGCTGGGACCAAGCCTGGGCCCTGACCACCAAGGTCATGAGTTACACCAACCACACGTTACTGGCCGAGTCTTTGGAGACGTGGCCGGTGGACATGGTTGCCCAGACCGTGCCCCGGATTTACCAGATCATTCAAGAAATCGATCGGCGTTTCCGCGGGCTGCAGATTCCCGTATACGGCGAAGAGCGGGTCAACCGCTGTGCACCGCTGGGTGACGGCGTCGTGCGCATGGCCTATCTGGCCGTGATCGGCAGCCATTCCGTTAACGGCGTAGCCAAGCTGCATACCGAATTACTGGAAAGCAGTGTCTTGAAGGATCTGTACCGAATCTTCCCAGAGAAGTTCAACAACAAGACCAACGGAGTCACCATGCGCCGCTGGATTCAAATTGCCAATCCGCCGCTGACCAAGCTCTTGGATACCGAAGTGAACGGCGACTGGAAGCACCGGCCGCTGGATATTATCGGGGTCCAATCTTTTGCCAAGGATCCGACGTTCTTGAAGAAGCTGCAGGAAGTTAAAGCCAAGAATAAACGTTCTTTGGCCAAGAAGATTCGCGAGAAGCTGGATATTTCCGTCGATCCGGACCATGCTATCTTTGATGTGCAGATCAAACGGCTGCATGCTTACAAACGGCAATTGCTCCATGCACTGTACATCATCGATGAGTATCAGCAGATCAAGGCCGGGCAAAAGCTGGCGGTGCCCCGCGTGCACATTTTTGGCGCTAAGGCGGCCCCGAGCTATTACTATGCCAAGGAGATCATCAAGATGATCAACGAATTGGCCAAAGTGATCAACCACGACCCGGATGTCGGTGATCAGTTGCGGGTGATCTTTGTCCCTAACTATGGTGTGTCCGAAGCCGAGGAGATCATTCCAGCAGCGGATGTGTCAGAACAGATTTCTTTAGCCGGTAAGGAAGCTTCTGGGACCAGCAACATGAAGCTGATGGCCAATGGGGCAATCACACTGGCCACCATGGATGGGGCCAACATCGAAATTGCGGATGCCGTGGGCCAAGACAATATTGTCATTTTTGGGATGACCGCGACGGAAGTAGCAGCGTACACCAACTACTCTTCCCAGGCCATTTACGATGGGGACAAGCACTTGCAAAAAGTCGTCAACGCCCTGGTTGATGGGACGATCCCCAATATCGATCGGGAAGGCCGCGACATTTATAATTCCCTGTTGCAGTACAACGATGAGTATTATGTCTTGGCCGATTACGAAAGTTATGCTAAGGCCCAGGACAAGATCACCACGCTGTATCAAGATCCGCAGGCTTGGTATCAAATGGCCGCGATCAATATTGCCAAATCAGGCCAGTTCTCGTCTGACTTGACGATCGCCCGGTATGGCGATGACATTTGGCATCTGACCCGGGACCAGTTCGTTAACTGA
>SRR1151209_00444 glycogen synthase
GTGACTCAGAAACGCAATCAGAAGCAAACCAAGAAACAAGCGCAAAAGCAAATCCAGACCCAGACACCAAAGCAAATCCAGACGCCGACGCCGAAGCGTATCCAGCAGCCGGCACCAGCAGTTCCGCCGGAGCCGTCTCGGGAAAAGGTTCTGTTCGCCGCCAGTGAGGGCGCACCGTTCTTTAAGACCGGCGGTTTGGGCGATGTCGCCTATGCGCTGCCCAAGGCACTGGCGAAGCATGGCGTGGATATTCGCGTTGTACTGCCGTATTACAGTAAGCTGATGCCGGCTGAATATCAGCGCCAGCTCCAATTTTTGGGCAGTATGACGGTGAAGGTCGGTTGGCAAGATAAGTATTGCGGTATTCTGACAATGAAGCTGGGCGATGTCCAGTACTACTTCATTGACAATCTCCAGTATTTCGGCCGGGATGGCCTTTACGGCTATTGGGATGATGCCGAACGGTTCGGCTTCTTTGATTTAGCGGTGCTGCAAATGCTGCAATTCGTTAAGTTCATTCCCAATGTGCTCCACGTCAACGACTGGCAGACGGCGTTCATTCCCGTCCTGCTCCACGACAAATTCAGCTGGATCGAGCCGCTGCGCAATATTCGCACCGTGCTGACGATCCACAATATTGAATTCCAGGGCCAATACGATGCCGTGATTTTGGATTCCGTCTTTGCCATGGGCCGCCAGTACTTCAATGCCATGGGCTTCAACCAGAATGGCGGAGTGAACATGCTCATGGGCGGCATCAACTTTGCCGACCGGGTGAACACAGTATCGCCTAGCTACGCGGAAGAGATCAAGACGCCCGCTTTTGGTCACGGCTTGGATGGGGTGCTGCGCTGGAATGCCTGGAAGTTGTCCGGTATTCTAAACGGGATCGACACGGAGCTGTATGATCCGGAGACCGATCCGCATTTGGCCGCGCATTACTCCGCTAAGGATTTAGCGGGGAAGAAGAAGGACAAAGCGGCCTTGCAAAAGGAAGTCGGCTTGCCGCAAACGAATGAGCCGCTCTTTGTCATGGTATCCAGACTGACCCGGCAAAAGGGGGCCGATCTGCTGGTAGACGTGGTGGATCGCTTCCAGCTGGAGCATAATTGTCAGTTCATCATCCTGGGGACCGGCGATTATGACCTGGAAGAAGCCTTCAAGCGGGTCGCTTACCGCTATCCGGGTGCCTTTTCCGCCCAAATTCGGTTTGACTCCCACCTGGCGCAAACCATGTATGCTGGCGGCGACTTCTTCCTGATGCCATCCGCCACTGAGCCGTCGGGTCTCGCCCAAATGATGGCGATGCGCTATGGGACGATTCCCATTGTCCACGCCACCGGCGGACTGCGCGATTCCGTTCAGCCGTTTAATGAGTTTACCGGCCAAGGCACCGGTTTCTCGTTCAATGATTATCGGGCTGATGTACTGGAAGATATGATGAAGTACGCCTATGATGTTTACGTCAACAAGCCGAAGAGTTATGCTCAGCTGCAGCAGAATGCCATGGCGGAGAACTTCTCTTGGGCGAATGCGTCCCAGGCGTACATTGATCTGTATACGGGTTTGCTGACACAAAAATGA
>SRR1151209_00445 glycogen biosynthesis protein GlgD, glucose-1-phosphate adenylyltransferase family
ATGCGTAAACAAGATATGTGTGCCATTATCGATTTGAATGAACCCAGCGAAGCCTTGGCGCCCTTAACGGACGAACGGCCGGTGGGGACCATGCCGTTTGCTGGCCGATATCGGTTGGTCGATTTTCCGTTATCCGCCATCAGCAACGCCGACATTCGCACCGTCGGCATCTTCCTGCCTAAGTCTTCCCGCAGTGTAGAAGATCATGTTCGTTCCGGTCAAGCCTGGGATATGGACACGATCACCGGCGGGGTCTTTACTTTCCCGTATGTGGCCACCCGGGATTATGATGATCCAACCAATATTCACCGCTACTACGACAATTATTTGACCTTCTTGATCAAATCCAAGAGCGAGTATGTCTTTATTACCGGGGCTCGGCATGTGTCGAACATTGATGTGAGTGCCTTGCTCCAGTTCCACCAAGCATCGCCGAACCCGATCACGGCGGTTTACCGCAGTGTTCCGACCGCGACCGCCAATCCGGAACAAGAAGCCTTTGTTTTGGATGCGGACAATGAAGTGGTTGACTTTGCCCCGAGCAAAGACGTCAAAGAACGGGTATCGAATCACACCAAGCCAATCAGTATGCAGATGTATCTAACGCGGACGGACTATTTGATCGAGCTCCTCAGCCGCGTGCAAAATTCCGGCAAGTTCATTCGTCTGCCCCAATTGATTCACCAAGAGATTACCACGGCGCAAGCCAATGCCTTTGAGTACACCGGGTATTGCGCTACGATTCACGACATTCCCAGTTATTTCCAGGCCAACATGGATATGCTGGATGAAGAGAAGTTCCATTCTCTGCTGTTCAGTCAGCGGGCCATTTACACCAAGAACAAGAACGAAGCACCGACTTACTTCGCGCCGGAAGCGGATGTCTTCAGTTCGCTGCTGGGCACCGGCGGCCGGGTCTACGGCAAGCTGCGGGATAGCGTCCTGTTCCGGAATGTGTACGTGGACCACGACGCCCAAGTCCTGCACAGCATCATCATGCAGGGCTCGCGGATCGGCAATGGCGCCGACGTGGAATATGTCATCATGGATAAGGGCTGTGTCGTCGGTCCGGATGTGAAGCTGATCGGTACGCCGGAAGCACCGATCGTCTTGAAGAAAGGAACCACGATCCTTGACCAAAGCGCGGCGGAAGAGGTGCTGCAATCGTGA
>SRR1151209_00446 glucose-1-phosphate adenylyltransferase
ATGCTTGCTATGATTTTAGCTGGCGGCCAGGGGACTCGGTTAGGCAAACTGACCCGGTTCACGGCGAAGCCGGCTGTACCGTTTGGTGGTCGTTACCGGATCATCGACTTTGCGCTGAGCAACTGTTCTAATTCGGGGGTGAACACCGTCGGGGTCGTGACCCAGTATCAACCGCTGGAACTCAATGCCCATATTCAAAACGGCGCCAGCTGGGGACTGGCAGAGAAGAACGCCGGGGTAACAGTATTGCAGCCCTACGCGTCCAGTGAAGGTGAGAAATGGTTCATGGGGACCGCCCATGCCATTTACCAAAACATCGCTTATATTGACCTGTATTCGCCGAAATACGTATTGATTCTATCTGGGGATCACATTTACAAAATGGATTATGAAGCCATGCTGGCTTACCACAAGGCCCAGCATGCGTCTTTGACCGTTGGTGTATTGCCGGTGTCCATGCAGGAAGCCACCCGGTTCGGCATCATGAACACAGATGAGACCAACCGGATCATCCAATTTGAAGAAAAGCCCAAGCATCCTAAGAGCAATCTGGCCAGCATGGGGATTTACATTTTCAATTGGCAGACATTGAAGAAGTATCTGACCGACAGCTACAGCACAGATGGCCGCATGGAAGACTTCGGTAAAGATGTCATTCCGGCTTACCTGAGCCACAATGAGCCGACTTATGCCTATGCGTTCCATGGCTACTGGAAGGATGTCGGCACGATTCAAAGTTTATGGCAGGCCAACATGGAATTCCTGGAACCTGATAATCCGCTGGATATTGATGATCGCAACTGGCGGATCTATTCTCGGAACGACGCGTTACCGCCAATGTTTGTGACCAGCACCGCCAAGGTCCACCGCTCCATGATCGTGGACGGCTGTTATGTGGCCGGGGAAGTGGACCATTCAATTCTTTCGCAAAACGTCAAGATCGGTACCGGCTCAGTCATTCGCGACAGTATGATCATGCCCAATGCTGTGATTGGCAAGAATGTTTTGATCGACCACGCCATTGTCGGCGAACGGGCGATCATCGGTGACGGCGGCCAAGTCGTGGGCACCCCGGATGATATTGCGGTGGTTGGCTTCCAAGAAGTACTTGGCAGAATGGAGGAGGACGACTAA
>SRR1151209_00447 glycogen branching protein
GTGCAATCAAATCTGTCGCAATTAGAGAAGCGTGCGTATTTATTTAATACTGGCACGTATTACCAAAGCTATGAGGTGTTAGGCTGTCGCCGGGTCACGCCGGGTCAGCCCACCTTCCGCTTTACGGTGTGGGCGCCCCATGCCCAGGGCGTGGCGATCATGGGGGAATTCACAAATTGGGAACCGACGCTGAAACTAGCCCGGTTGGCAAATACCGGCTGGTGGGTCGGGGAGACGGATCAATGCAAAATCAATGACTTGTACAAGGTCTCTGTCACCCAAGCGGATGGTCAAGAGGCGGTAAAAATTGATCCGTACGCCTTAGGCTATGAACATAAGCCCGGGGATGCGGCCATCGTACTGGATCGGCCGGAATTTGAATGGCACGATGCAGCCTGGCTTAAGCAGCGCAAAGCCAAGCGGCCTTACCATGAACCGATCAATATTTACGAGGTCCATTTCGGCTCCTGGCAGCGCCATGATGATGGGTCGTACCTGACGTATCCAGAGCTGGCGGACCGGATGATTCCCTATCTCCACGAATTGGGCTATACCCATGTGGAATTCATGCCGCTCATGGAACATTTGCTGGATGCCTCCTGGGGCTATCAGTTGATGGGGTATTTTGCGCCGACCAGCCGATTCGGCTCGCTGGTTGAATTCTTAACCATGGTGGACAAGTTTCACCAAGCGAATATCGGCGTGATCATGGATTGGGTACCTGGCCACTTCATCCGCAACATGGATGCCTTAGCCCAGTATGACGGTACGGCCACGTTTGAATACGCGGATCCCAACCGGGCCGACAATGTTCGATGGGGGACTTGGAACTTTGATTTGGGCAAAGCTCAGGTCCAGAGTTTCCTGATCTCCAGCGCCCAGTATTGGCTGCATGAATGTCATTTGGACGGTATTCGGGTGGACGCGGTCTCCAACATGTTGTATCTGGATTACGATGAGGGCAAAGAAGGGACCGTCAATAAATACGGGAACAATAGCAATTTGGAAGGCTTGGCATTCATTCGCAAGCTGAACACGGTGGTCTTCCAGTATCATCCGGATATCCTGATGATCGCGGAAGAGGCCAGCGCCTTTCCGCAGGTGACCGGACCGGTCAGCGCGGGCGGGTTAGGTTTTAACTACAAGTGGAACATGGGCTGGATGAACGATACCCTCAAGTTCTTTGAAATGGATCCGTTGTATCGGCGGGACCATATGAACCTGTTAACGTTCAGTTTCATGTACATGGACGACGAACAGTTCATTCTGCCGTTTTCCCATGATGAAGTGGTCCACGGGAAGAAATCCCTGATGCATAAGATGCCTGGGGATCGATATAACCAATTTGCCAATTTGCGCACGATGTTCGTTTGGCTGATGGCCCATCCGGGGAAGAAATTGCTCTTCATGGGCAGCGAATGGGGCCAGTTCCTGGAATGGCGGTTCTGGAGTGCTCTGGAGTGGCGTGATTTGAATGATCCGATGAACAAAGCCATGCAGCACTTCACCGCCCATTTGAATCATTTGTACCTGGATGATCCCGCATTTTGGCAATTGGATCATGATCCGCAGGGGATGCAGATCACCAACGCGGATGATCCGCAAAGCGGGACGATCACGTTCACCCGCCGGAGTGAAACCACGGACGACTTCTTAGTCTTTGTGTTCAATTTGGAGCCGATTCAAAAATCACCGTACCGAGTACCAGTGCCGTTTGCTGGGGAGTACACGGAGTTGCTGAACACGGAAATGAAGGAATTTGGCGGGACTTGGACCCAGCCCCAGAAGAAGCTGATGACCATCGGCCAGCCCTATAAGAGCGAGCCGGATGCGTTGAATGTGATTCTGCCGGCGATGAGCGCGTTGATCTTGAAACCGGTTAACGTGCACCCAGCGGACCAAGTTGCACCACGGAGTAAAGGAATGAAGGGAGAGAAGGAAGTTTAA
>SRR1151209_00448 D-alanyl-D-alanine carboxypeptidase
ATGCAACTGCGTAAGAAGAATTGGGCCAGCCTCATTGTCCTGTGGCTGACCTTACTGTGTTTGGGCGCTGCCGCGCCAATCGCGCAAGCGGCCGCAGCGCCGGTGAATACCAGTACCATCACTATCGGTGCCAAGGCCGGTGTCGCCTTTGATTTGCAGAGCGGTAAAGTGCTGGCGGCTAAAGATGATTTGACCGCTTATCCGCTGGCCTCGCTGACTAAAATTGTCAGTCTGTACGTGATCCGCGACGCCATCAGTCACGGCCGCCTGCAATGGACCGACACGGTCACGCCCAATGCGGCGGAAATCAAACTCAGCCAGGATACGAATTTATCCAACGTGCCCTTAGCCAATCACGCCTATACTGTGCGAGAGCTTTACGATGCTGGCTGGATCTACTCGGCGAACGTGGCGGTGATGCTGCTGGGCAATAAATTGTCCGGTTCGCAGAAGGCTTTTATTAAAGAAATGCAGGACCATCTCGATGCGTTAGGCATTCAAGACGCCACGATTTATACGACCAGCGGGTTGAACAATAGTTTGATTCCGGATAGTCTGCGGGTGCCGGGCACGCCCAGCGATGGCGAAAATAAGATGAGTGCTGCCGATATCGGTCTGGTTGTGCGCCATTTGCTGCAGACGTATCCCGACGTGCTGAAAGATTCTGCGGTGGTGCATAAAAACTTTGCCGTCACCGATACGCAGACTTACGCGATGACCAACTGGAATGCCTTGCTCACTGGCAACTCCTTGGCGCAAAGCGATCTGCCAGTGGATGGGCTGAAGACCGGGACGTCCGATCTGGCCGGCCAGTGTCTTGTTGCCACCATGCCTTGGCAGGGTCGGCGGCTGGTCAGTGTCGTGCTCCATGCGGATGGGGCCGAAACCGATAATGCCAAGCGCTTCACTGCCACTGCAGCATTGCTGCGCGCAGTAAATCAGCAATGGCGGCCGGTGACGTTAACGCCGAACAATACGAAAATTGCCAAACTGTCAGTAACTGACGGCAAACAGGATGCGGTGGCCGTGGGCCTGGCTAAACCAGTCGTGGCGTGGCAGCACAACGGCCAGTTGGCCACCCCGGTTTTGGCCATGGGCAGGAAAGCGGCGACCAGCGCCCCGGTACAAAAGGGTGATCAAGTGGCCAGCACGTCTTTGGCGGATGATAGTTTGGGCTATTTGCCCCGGGTCAACACCCAGCAAGTCAATTTGATTGCTACCCAGAATGTGGGCAAACTCAATATTTTTGAACGGTTCTTCCGCTGGTTAGGAAATTTGTTCTGA
>SRR1151209_00449 two-component system sensor histidine kinase
ATGATTCCAAAAAAAGTAAAACTGACCGGCCGTGAAAAAAGCGAGCTGATCATTGAAGGTATCGTTACCGTCGTGCTCCTGATTTTGCTCAACTTTGCCGTGCTGGTCTTGATCACCCAGGTGCTGAACAGTTCACCCCGGGTCCAGGATGGCATTTGGCTGCTGAAAATTGGCCTGAACCAGAACAACACACTGCAACTCTGGAGCTGGCAATGGCTATTCGTCTTTTTGATGGTCATCGTCGATGTAATCGTCGTCTGGTGGCGGCTGATCCGCCGCTATCACCAAATTCAGATGCGCCATGTGATTCGGGAACTGCATTACATTGCCGAGGGACATTTGGGCCACCGAATTCCTTTCTTAGTGAAAACAGACCTGCAAAAGGTGATTGATTCGATCAATGCCCTGGTGGATTCTACGGTGCAATCCATGGATGAGGAGCGGCAGATTGAGAAATCAAAGGATGAGCTGATTTCTAACGTCAGTCATGACATTCGCACCCCCTTGACGTCGATCATCGGTTATCTCGGTCTGATTGAGGACCGTCAATATCATTCCGAAGAAGAGCTGTTGAAGTACAGCCACACGGCCTACGTGAAGTCTAAGCAGATGAAAGTGCTGGTAGACGACTTGTTTGAATACACCAAAGTCCGGCAGACTGGCACTCATTTGAATACGACCGAATTTTCACTGACTAATTTATTGGCGCAGCTAGCCGCCAGTTTTGAGCTGGAGGCAGAGAAGAAGAAAATCAGTATCGATATTGATACCACGCCTAATCCGCTGGTCATGACGGCGGATCCGGAGAAACTGGTGCGCGTGTTCAATAATCTGCTGGTGAATGGGTTGAAATACGGCAAGGGGGCGACCCACATCTGGTTGACGGCGCAACAAGTCGGCAGCGAGGTGATCATCAAGGTGGCTAACGACGGCGCGGAAATTCCCAATGATTCGCTCAGCCACCTCTTCGACCGGTTCTACCGGGTCGAGGAGTCTCGCTCCCAGGAAACCGGCGGATCGGGGCTGGGCTTAGCCATTGCCCAGAGCATCGTCGCGCTTCACGGCGGATACATTTATGCCACCTCCGATGCCAAGATGACCAGTTTTGTCATCTATCTCCCGGCCGCGCCCGGTAAGCCCGTTGCCAAACCAGACGCCATTAAGCAAGTGGAACAAGCACGTCATCAGAAAGTGGGAACTCAAGATCATGCAACTGCGTAA
>SRR1151209_00450 two-component system response regulator
ATGACAAAAATACTAATCGTCGACGACGACAAAGAAATCGTCGAATTACTCAACATCTACGTTAAAAATGAAGGCTACGACAGCGTCCTTGCCTATTCCGGCAAAGAAGCGATGACCAAACTCGCCACCAACCCCGACATCGCGCTCATGATCCTCGATATTATGATGCCCAGCATGTCCGGCATTGACGTGATCAAAGAAGTCCGCAAAGACTCTCAGATCCCAATCATCGTGGTCAGTGCCAAAACCGCCGATATGGACAAGATCAAAGGCTTGATCACCGGTGCCGACGACTATGTGGCCAAGCCTTTCAATCCCTTGGAAGTCATGGCCCGAGTCAAATCGCTGCTGCGCCGCAGTGCCGGCCAAGTGACCAATGAAGCGCCCGAGACGTTATCGGTGGGCCCGTTGAACATCAATAAAGATTCCCACGAAGTAACTACCCTGACCGGGAAGACCATTCAATTAACTGCTTTGGAATTCGGTATTCTCTACTTATTAGCCAGTCATCCGAACCGGGTTTTTTCAGCCGATGAGATTTTCGAACGCGTCTGGCAACAAGAATCCATCGTCAGTGCGAAGACCGTGATGGTCCACGTATCCCACTTGCGGGACAAGATCGAAGCGGCGACCGGCGGCGAAAAGGTGATCCAGACGGTTTGGGGTGTCGGGTATAAGGTTGAGGCTTCATGA
>SRR1151209_00451 hypothetical protein
ATGGCTGAAGAAACAGATTTCCTATTACGTCAAATCAAAGGCATCGCCGGCCAACTCGGCTACATCCTCGGCAAACGCGCCGAAGGTACCGAATCCGCCATCATCTTCCCCGCCAACAAACCGCCCCTGCCCTACCAAGACGTATTACGCGAACTGCTCCACACCCAGCACTACCAAGAGGCACTCACGAAGTTCACTCAGATTCGTTATGCGATGGAACAAGACGACTACGTCAAACTGGGGTTATGGCTCTATGCCGCTTTGCTCCAACTGCCAGAGAAGGAACGGACTGAAGCCGGACTGACAACTGCTGAACTGCAGAAGGGGCTGAATAAGTTAGCGGCAATTCAGGGAGAAGTATAG
>SRR1151209_00452 inosine-5'-monophosphate dehydrogenase
ATGTCTAATTGGGATACCAAGTTTGCCAAAGAGGGTTTAACGTTTGATGATGTGTTATTGATTCCGGCCGAGAGTCATGTACTGCCCCGGGATGTGGACCTGTCTGTTCAGCTGGCGGATAACCTGAAGCTGAACATTCCGGTCCTTTCTGCTAGTATGGACACCGTCACCGAAGCACCCATGGCCATCGCGATGGCCCGTCAAGGCGGCTTGGGCGTGATCCACAAGAATATGACGATCACGGAGCAGGCCGACCAGGTCCTGCAGGTCAAACGCAGCGAGAGCGGCGTCATCACCGATCCGTTCTTCCTCACCGCCGATCGTCCCGTATTGGCCGCCGACACGTTAATGAAGAAATACCACATTTCCGGTGTGCCGATCGTCGACAACGAAGAATCCCGCCAATTGATTGGCATCGTGACCAACCGGGACCTGCGCTTTGTCGATGATTACTCCGTCACCATCGATAGTGTGATGACCAAGGACCGCCTGGTCACCGCGCCGGTCGGGACTTCTCTGGACGAAGCCGAACTGATCCTTCAGCGCCACCGCATCGAGAAGCTGCCCCTGGTGGATGATGACGGCCGCTTGAGCGGTTTGATCACGATCAAGGATATCGAGAACGTGAAGAACTACCCCAACGCGGCCAAGGACAGCCATGGTCGGCTCCTGGCTGCCGGGGCAGTCGGTGTCACGAAAGATACGATGGAACGGACCGAAGCGTTATTTAATGCCGGCGCGGACGCCGTGATCATCGATACCGCCCACGGTCATTCCGCTGGCGTATTGAAAAAAATTGCCGAGATTCGCGCCGCCTTCCCGAACAAGACCTTGATCGCCGGGAACGTTGCCACGGCTGAAGGCACCGCTGCTTTGTTCGACGCCGGCGTCGACATCGTCAAAGTCGGCATCGGCCCGGGCTCCATTTGTACCACCCGGATCGTCGCCGGTGTCGGTGTACCCCAAATCACCGCCATCTATGATGCGGCGACGGAAGCCCGCAAGCGGGGCAAGGCAATCATCGCTGACGGCGGAATCAAGTATTCCGGTGATATTGTCAAAGGCTTAGCCGCTGGCGGCTGGGCCGTCATGCTTGGCAGCATGCTCGCCGGGACCGATGAGGCGCCTGGTGAATTCGAAATTTACGAAGGCCGCCGCTTCAAGTCTTATCGCGGTATGGGTTCCCTGGCCGCCATGTCCCAAGACCACGGCTCCTCCGACCGGTATTTCCAAGGCAACGTGAAGACAACTAAGAAATTAGTGCCGGAAGGCATTGAAGGCCGCGTCGCCGCCAAGGGTGCCGCTGCTGATGTCCTCTATGAAATGATGGGCGGTGTCCGTTCCGGCATGGGTTACGTTGGCGCCGCGAATCTCGCCGACCTGCGAGACAACGCCCAGTTCGTCCGGATCACCAACGCTGGCCTGCGGGAAAGCCACCCCCATGACGTACAGATCACCAAAGAAGCCCCGAACTACAGCCGGGCATAA
>SRR1151209_00453 membrane protein
TTGGATCCACGGGAACGTAATGCCCAGGCCCACGAAAAACAACAGGAAAAGGTCGTCCACCTGTCCAAACAGGAGGAGATCGACAAGCAGATCGATGCGATGAGCACTCAAGAAATCAGCGCTGGTCTTTCCAAGCGCAATGCGGACTATGTCTTTCAGCTGCGCAAATCCTTGAGTGATGCCGGTTATTCAGAACAGAAAATCGATACCGAAATGGCGCTGATCCTGCCAGAGATCATGAAGGCCCAGCGCCGAGGGACCCCCGCCAACAAGCTGTACGGCGGGCCCACGGTCAAGGCGTATGCAATCACGCATAAACCCAAACCGGTAAAGAAGACCCCGTTTTGGCAGAAATCGTTGGATAGTGGTCTGATGTTCTTGGGCATTCTGACCTTGATGAACGGGATCATGAGCTATTTTGCCAAGGCAAAAAACAGCACCGGGGCGACCGGTATTCTGAGTATGGTCGTGATCTCCGTTGTCTTTGGTCTGGCTTTCACGGAAATGAACGATCTGATGCGGCTGCCTAAGAGCAAGCGGCCCAAGATGTGGAAGATGGTGGCCTACATGGTGGGCTTGCTGGTGGTGGCCATGGTGGTCCTGTCGCTCACCTTCTTTGTGCCGAAGGTGATCAATCCGGTCTTGCCGGCCCCAGTATTACTGGTGCTGGGCGCCGCGGCATTCGGTGTGCGCTACCTGCTGCGCCGGTATCTGCACATCACCGAGTCCTTCTTTATGCCGGCACCGCCAGCGGACGACAAGTAA
>SRR1151209_00454 GTP-binding protein YchF
ATGGCATTAACAGCAGGTATCGTCGGACTGCCCAACGTCGGCAAGTCCACATTGTTTAACGCAATTACGAAGGCCGGGGCCGAAATGGCCAACTACCCCTTCGCCACGATTGACCCTAACGTGGGGATGGTGGAAGTGCCCGACAAACGTCTCGCCCGGATCGATGAAATTATTCCGGCGAAGAAGATCGTTCACACCACCTTTGAATTCACCGACATTGCCGGGATCGTCAAAGGTGCCAGCAAAGGGGAAGGCCTGGGCAACAAGTTCCTGGAAAACATCCGCCAAGTGGACGCTATTGTTCACGTCGTACGGGCTTTCGACGACGATGACATCACCAGTGTGACCGGCAAGGTCGATCCCGTGGACGACATCGAAACCATTAATCTGGAATTGAGCATCGCTGACTTGGATTCCATCAACAAGCGTTTCGGCAAGGTAGAGAAGGTTGCCAAGACGAAGGACAAAGCGGCGCTGGCCGAGCTGGCTGTTTTGCAAAAGATCAAACCGGTACTGGAAGACGGCGGCTCCGTACGGTCTATTGAGTTTAACAAAGACGAGCAAAAAATCGTCAAGGGCTTGTTCCTGCTCACGGCTAAGCCGGTGCTGTACGTGGCCAACATTGCTGAAGACGACATGGCCGATCCGGAGCAATCCAAGTATTATCAAGCGGTCAAGGATTATGCGGCCAAGGATAACGCCGAGGCTATCGGTATTTCTGCTAAGACGGAAGAGGAAATCGCCGAATTGCCCGATGCGGACAAGCAGGACTTCTTGGAAGCCGAAGGGGTGACAGAATCCGGTCTGGATCGCCTGATTCGTGCGTCCTATCATTTGCTGGGTCTGGCCACGTTCTTTACGGCGGGCGGCCCGGAAACTCGGGCCTGGACGTTCCACAAGGGCATGAAGGCGCCGCAGGTCGCAGGGGTCATTCACTCCGACTTTGAACGGGGCTTTATTCGAGCGGAAACGGTGTCCTTCACCGATTTGGATAAATACGGATCGATGGAGGCCGTCCGCAAAGCCGGCCGCCTGCGCTTGGAAGGTAAGGATTATCTGGTCCAAGACGGGGACATCATCGAGTTCCGCTTCAATGTGTGA
>SRR1151209_00455 hypothetical protein
ATGTTTGCCCTAGGTGATTTAGTACAAATGAAGAAACCCCATGCCTGCGGCACGAACCGCTGGGAGATCCTGCGGGTCGGCATGGACATTCGCATTAAGTGTATGGGGTGCGGGCATATGATCATGATGCCCCGCCAAGAATTTACCAAGAAGATGAAGAAAGTATTGACCGCGGCAGCGGACGTGGCGGCTGCTAATGAGCCCCATTACGTTCAGCCGCGCCCCTTAGATCCGCCCAATACAGGACTGTAA
>SRR1151209_00456 chromosome partitioning protein ParB
ATGGCGACTAAGAAACGTAAAGGACTCGGCCGGGGCATTGATGCCCTGTTCGCCGATATCGAAACCGGTGAGAAGGCTGAGGAAGTCGTGGCCGAACTGCCCGTGGCGGATATCCGCCCGAACCCGTACCAACCGCGCCAACGATTTACAGATGACAGTTTACAGGAACTGGCCCATTCGATTGAACAAAACGGTGTCTTGCAGCCGATCATTGTCCGGAAGAGCGTCAACGGTTATGAATTGATCGCCGGGGAACGACGGCTGCGGGCGTCAAAGATCGCCCAGAAGACCACCATTCCCGGCATCGTCCGCCAACTGGATGATTCCACGATGATGGAAGCAGCAATTCTGGAAAACTTGCAGCGGGAGGATCTGAACCCGCTGGAAGAGGCGGAAGCCTATGACATGATGCTCAAACGGCTGCACTTGACCCAAGCCGAGGTCTCCGAGCGGTTGGGCAAGAGCCGGCCGTACATTGCCAATTATCTGCGGATCCTGTCCCTGCCGGCACCAGCGAAGAAGTACTTAGCCGATGGCGAATTATCCATGGGCCAGGCCCGGACTTTGCTGGGGTTGAAGGACAAGGCCCAGATCATGCCGGTGGCTAAAAAGACGATCAAGGAATCCTTGACCGTCCGCCAATTGGAACGGCTGGTCAGCGAGATGAACCAGACACCGGCTAAGAAGCACGCCCCCAAGCCCCAACGGTCTAAGTTTGTGGAAGCCACCGAGGAACAACTGCGGCAACGGTTCCAGACCAAGGTGGCCATCCAGGAGAGCAAGGCCGGGAAGGGCAAGATCGAGATTCCCTTTGTCTCCACAGACGATTTGAACCGCATTTTGGATGTGCTGTCCATTTCTCTGGACGACACCGACTAA
>SRR1151209_00457 chromosome partitioning protein ParA
TTGGCGAAAGTAATTGCCGTAGCAAATCAAAAGGGCGGCGTGGGCAAGACCACGACGACCATTAATCTGGGCGCCGCACTGGCTGAGATGGGCAAAAAAGTGCTGCTGGTGGATATCGATCCCCAGGGTAACGCGACCAGCGGGGTAGGAATCGAAAAAAGCTCCATTCAGCATGATGTCTACGAAATTTTGATCGATGAGGCACCGCTGGCCCCGGCGATTCGGCCGACGGAGCGCAAAGGGCTGGACATTGTTCCGGCCACGTTGCAACTGGCTGGGGCCGAGGTAGAACTGACCACTCAGATTGCCCGGGAGACCCGGTTGAAGAATGGCTTGGCTCCGGTGCAGGGACAATATGATTATATTTTAATTGATTGTCCCCCGTCCCTGGGCCAGCTGGCAATCAACGGCTTCACCGCGTCGGATCGGATCTTGATTCCGGTCCAAAGTGAATACTACGCCCTGGAAGGGCTGGGCCAGCTGCTCCAAACCATTGATTTGGTGCGCAAACATTTCAATCCGGATCTTGCCATCCTCGGGGTCTTGATGACGATGTTTGATGCCCGTACGAATCTGGCCGCTCAAGTGGTGGCGGAAGTGCAGCAGCACTTCGCTGACAAGGTGTTTAAAACGATTATTCCTCGGGCGACCCGCTTAGCGGAGGCCCCAAGTTTTGGGGAGTCGATCATTGATTATGACAGCCAATCCCGGGGTGCAACAGCTTACCGGGAATTGGCCAAGGAGGTGGTGGCGCGCTATGGCGACTAA
>SRR1151209_00458 chromosome partitioning protein ParB
ATGGCATTTTCTTTCTTCAAGAAAAATACGCACAAAGCGCAGAAGCAGGAAACCAACGAGGTAGCGGATCAACAGCAGACGGTGAATCAAGTCGTGATGGTGCCGCTGGGCAATATCGTGCCCAACCGGTTCCAACCGCGCAAACACTTCAACGATGCGCGGATCTCAGAATTGGCCGGGACGATCAAGGAACACGGGCTGCTCCAGCCCATCGTCCTGCGGGAATATGAATCAGATCATTACGAAATCATTGCGGGTGAGCGGCGCTTTCGAGCGGTGCGCAGTTTGCACTGGAAAGAAGTGCCGGCCATCGTCCAGAAGATGAATGATGAGGAGACGGCGTCCATGGCACTGGTAGAAAATCTGCAGCGGGAACAGCTCTCGCCGATTGAACAAGCCCGGGCCTATGCGGCCTTGATGAAGCTTAACGATTTGACCCAGGAATGCTTGGCGCAGCAGATGGGCAAGTCCCAATCTTTTGTGGCCAACAAGCTGCGCCTGCTGAAACTGTCTGACGCGGTGCAAGAGGCCATCATGGATGGTCAGATCACCGAACGGCACGGCCGCGCTCTGCTCCAGTTGGATGATTTGCAGCAGCAGCTGGCGTTGCATAAAGTACTTCAGGATGGGCTGAACGTGAAAGAAACGGAAGAACTCGTGGATCACTTGCTGCATCCGGAACCCGCTGCGCCGACGCGGCCCGAACCAGCAGCACCAACAGCGGCCGAAACTGAGGCGGACACCACTGAGCATACCGCAGCGCCAACGCCGAAGAAGCGCCCGGCAAGTCAGCCGAAACAACGGGTGCGCAGTACCCATAGTACCGATCCCCGGGTGGCTATCAATACGATTAAGAAGTCTGTCGCGATGGTCCAGGAGGCGGGAGTGCCGATCACGTATTCCGAGAGTGACGACGATGCCGGCCACCACATTCAGATCACGGTCCCGACGGCCGATAAAACAGACACAGAGTAG
>SRR1151209_00459 16S rRNA methyltransferase GidB
ATGACGCCGCAAGTTTTCCAAGAAACGCTGGCCCAGCAGGGGCTGACCCTGACGGCTGCGCAGATGGCGCAGTTTCACCAATATTTTGAATTATTGGTCGCCGCGAATGAAAAAATGAATTTAACGGCGATCACCGCTGAAGGGGACGTCTATTTGAAACATTTCTACGATTCCCTGACCCTGATCCAAGCGGTGCCTGCGTTGGCGACTGCACCTCTGGCGATGATGGATGTCGGCAGCGGCGCAGGTTTGCCGGGTATTCCGGTGAAAATTGCCTTTCCTCAAATCTCCCTCACGATACTCGATTCTTTACAAAAGCGAATTAATTTTTTGAACGATGCGGTCGGCCAATTGGATCTCACCGGGGTAGCCTTGATCCATGGCCGCGCCGAGGATGCCGGCAACAAGCGCAGTCCCCAGCGAGAGGCCTTCGATGTCGTGACCGCCCGGGCGGTGGCGCCGTTGAATGTCTTGGCCGAGCTGACCTTGCCGCTGGTCAAAGTCGGCGGGGTCTTCGTCGCCATGAAGGGCAGCAGTGCCCCAGCGGAAGAGGCGGCGGCCGAGTATGCGGTGGCCCAACTCGGGGCCAAGCTCGAACAGGACGTAGCGCTGACCTTGCCGGAAGAAGCCGGCGAGCGCCACTTGCTGGTGTACCGCAAAACACGGCATACGCCCAAACGGTATCCGCGCAAAGCCGGCACACCCCACGCTGAGCCGCTCGTTCAGAGTCATTAA
>SRR1151209_00460 phosphinothricin N-acetyltransferase
ATGGGCACGACATTATGGAAGAAGTTGAGGATTATCGCCATCACCATTCGCCTTGCCACCGCTGCCGACGCGTCCCGCCTAGCAGCCATTTACGCCCCCTACGTCACCGGTACTGCAATTACCATGGAATGCACGCCGCCGACTGCTGAAGAATTTGACCGGCGCATCCAAACGACGCTTCAGCGTTACCCCTACCTGGTTGCCGTGGATGATCAGGGAATGATTCAAGGGTACGCGTATGCCAGTGCTTACAGCTTCCGCACTGCCTACGATTGGGCCGCGGAGGTCTCAGTATACGTTGCCCAAGACGCCATCGCCCATGGTATCGGCCGCCGGTTATACCAAGCCTTGGAGGCCGCCCTGCGCCAGCAGCACGTCGTCAGCCTCGGCGCCTGCATCACGGCGGATAACGCCCGCTCTATCCGCTTTCACGAACGGGACGGCTACACCCAGCATGCTTTATTTCCCCATTTTGCCTATAAGCTGGACCAGTGGTGGGATGTACTGTGGCTGACCAAGGTGCTGACTCCGGGCAACACGGCCCCGCAGCCCTTTGTTCCCTTCGCTGAAATAAAACGCTAA
>SRR1151209_00461 hypothetical protein
TTGAAGAAAATGATACCAACTGTTTTGGTTCTGCTTGGCTTGCTTGCCCTGCTCGCCGGTTGTACCGCCGGCAGCCAGCCCAAGCACGCTGCCGCCGCCACGATCCCGGTCATCTATGAATTGCGGGAAAACAACCGGGCCTTTGCCAAAAAGACGATTCAGGTACCCAAAAACAAAGCAGTCGTCTTAACGGGCTTGCAGAAAGGCTGGTCAGTCAAAGCCGCCAACGGCTTCATCACCAGCATTGCCGGCAAGAGCCAAAACACCGCCAAGAAGATCTACTGGCTGTACACCGTCAACGGCAAAATGGCCAGCAAGGGGGCTGCTCAGCAGAAAGTCCAAGCCAAGGATAAGGTCGTCTTCAACCTGGCCCCGACCAAGTAA
>SRR1151209_00462 membrane protein
ATGCCGGTCACTCACAATCGTACCCGCCAGGTCACCCTCCTCGCCATGCTCACCGCGCTGTGTGCTGCCCTGCGTATTGTCAAGATCCCCATTCCCAATGTCCAGCCGGTAACGGCGATTCTCATGCTGGTCACCCTGCAATTGGGTCTTGCCGCCGGCCTGATCCTCGCCGTGAACACGATGGTCCTGTCGAACATTTTCCTGGGTTTCGGCATTTGGACCATCCCCCAGATTGGAGCGTACGCCGGGTGTATCCTGCTGGTCGGCTTTCTGGCCCGCGTGACGCCGCTGCGCCGCTGGTTTTGGGCCCAGCTCACTCTCTGCGGTCTGCTCGGATTTCTCTACGGCTTTCTCGTCAGCCTCGGCATGGCCGTCTTTGGCCAACTCAGCGGCTTAGGCCTCTGGGCGTATTATCTAGCTGGCATCCCCTTTGACGGCTACCATGCTGCCGGAAATCTAGTATTCTATTTTGTATTGAAGAAGCCATTGGTGCTAGCCCTGACCAAGTATCAGAAAAGCGGTCAAAACTGA
>SRR1151209_00463 hypothetical protein
ATGGAATTAGCAGGTAAAAAAATTGCCTTCGACGAGGACCTCAGCGACGCCCAAATCAAAGATTTGCATGAACACTATAACCAATTGTGGGATACGTTGAAAAAGACGTTTGAGTTTAAGGACGACAAGCGCCAGTTGCAGGTACTCTATGAAGAGGCTGACAACGAGCATACATACGAGTCCGGCTATTTCGTTTTGCAGATTCGCCACTTCGGCGATCAGTACCGGTTTGACGAGTTCAACATCACCATCAATAACCGCAGTGTGTTCAATGACAACCCGGATGAATTGGTGATCCAACTGGCCAAGTATGATGATTGGGATGCGCTGACGGCCGATGCCGTCAAGCATGCCAAGGCTTGGGTGGACGAGATGAATAAAGAAGCGAATAAAGAAAAGAAAGAGCCGAAGCGGGAATTAACCGACTAG
>SRR1151209_00464 amino acid permease
ATGGCAGCAAAGAAGAAACAAACAGAACTGATCAGTTTATTTCAACTCGTGATGCTCGGACTGGGGTCGCTCATCGGCTCCGGCTGGTTGTTCGGGGCCTGGGAAGCGGCGAAGGTCGCCGGGCCGGCAGCACTCATCTCCTGGGTCATCGGCGCGGTGGTGATCGGCACCATCGCCTACAATTACATCGAACTGGGGACAATGTTTCCCGAATCCGGGGGCATGAGCAAATATGCCCAGTACACTCATGGGTCGTTACTGGGCTTCATCGCCGCCTGGGCCAACTGGGTGTCGCTGATCACCCTGATTCCCATCGAAGCCGTGGCCGCGGTGCAATATATGGCCTCTTGGCCCTGGTCCTGGGCCCGCTTCACCCGCGGTTTTCTGCAAAACGGGACGATCACTACGGTGGGGCTGTTGGTGGTCTTCGCGTTCATCGTCGTGTTCACGCTGCTGAATTATTGGTCCGTGACCTTGCTGACCCGCTTCACCAGTTTTATTTCGGTGTTCAAGGTCGGCGTGCCGCTGTTGACGATCATCATGCTGACGATTTCCGGGTTTCACCCCGGCAATTACGGCCACACGGTCCAGGCGTTCATGCCTTACGGCACTGCACCGATTTTCGCGGCGACCTCGGTATCCGGGATCATCTTTTCGTTCAACGCGTTCCAGACCGTGATCAATATGGGCGATGAAGTAAAAAAGCCGGGCAAAAATATCGGCAAAGGGATCGCCATTTCACTGGTAATCAGTGCGGTCTTGTATATCCTCTTGCAAAGCACGTTCATCACGGCGATGCCGCCCCACCAGCTGGCGAAATACGGCTGGCAAGGGATCAACTTCAATTCGCCATTTGCCGATCTGGCCGTCCTGCTGGGTCTGAATTGGTTGTCTGTCCTGCTTTACATGGATGCCTTTGTTTCGCCATTTGGTACCGGCGTGTCGTTTGTCGCCTCCACCGGTCGGGCGTTGCAGGCCATGGCGGGGAACAATCACATTCCCCATTTTGTCGGCAAAATTGATGCCCGCTACGGGACACCGCGGGTGGCGATGGTGGTCAACGCCATCCTCAGTATGGCCATGGTATCCGTGTTCCGTTCCTGGGGTACGCTGGCCAGTGTGATTTCCACGTCGACGCTGATTGCCTACCTGACCGGTCCCACGACTGTCGTGTCTTTGCGTAAAATGGCGCCGAACTTCAAACGCCCGGTCACCTCGGCCCACCTGCGGATCATGGCCCCGCTGGCCTTCGTGCTGGCGTCGTTGGCGACTTATTGGGCGAAATGGCCGACTACCGTGGAAGTCATCTTAGTGATCCTGCTGGGCTTTCCGTTCTATCTCTACTTCGAATGGCGGACGGGCTGGGCGAATACTAAAAAACAGGTCCAGGGCAGCGCCTGGCTGCTGACGTACTTGATTTTTCTATCCGTAATGTCCCTGATCGGCAGTCAAGAGTTCAATGGTTTGAACTGGATCCATTACCCCTATGATTTCTTAGTGCTGATCATCGGCGCGCTCCTGTTTTATTACTGGGGCATCCATAGCCATTGGGAATCCAAGTCGTTTGGCCGAGCCAAGATGGTTAATAAGCGGGTCAAACTGCCAGCAAACAAATAG
>SRR1151209_00465 CvpA family protein
ATGCTCGTTAACGTGATCCTGGCTTTTCTCTTCCTCTTCGCGATTTTTCGCGGCTGGTCCCGGGGTATCGTCGCTCAACTGGTGCATCTCGGCGGCAGCCTGCTGCTGTTCTTCATCGCTTGGTGGTACAACAAACCCGTCGGCGAGTGGCTCAGCGGCCTCTGGACCAAGTCCCATCCCGAAAGCACGGCCTTTGCCGGGGCAGCGGGCAATGTCATCGCCTTTTATCTGATCATGACCATCGGCGGCTTGATCATTTGGTGGATCACCCGCCGGACCCGCTGGTTTACGAAATTTCCCGTCGTCCACCAAATCAACGCCTTGCTCGGCGCCCTGCTCACTTTAGTCATGACGGTCATCTTCGTCACCTTGACCCTGGCGGTGCTCAGCCGCTGGCCGAATAACGACCTGCAACTGGCCATTCTCAATTCTTCCTGGGCCCAATGGCTCCTGACCCAATCGCAAATCGTGTGGCGGGACGTCTTGGCTTGGCTGTTCCACGTTTCGGCCAATGATCTGACTATGGCCTTTGCCCTCTTGCCGTAA
>SRR1151209_00466 glutamine amidotransferase
ATGGCAGAACCAATCAAAATTGCGTATCTGTACGAGGATCTAATGAATACTTACGGTGATTCCGGGGACGTCAAGATCCTGCGCTTCCTGTTGAAGCAGCAGGGCTATGACACCACGGTGACCAACGTCAGTTTAGGCGACGACTTTGACGCCAATGATTACGACTTCCTATTTTTCGGCGGCGGTCAAGACTTCGAACAGACCGTGGTGGCCAAGGACTTGCAACGGCACCGGGAAACCATCAAGGATTACATTGAAGCCGGCAAACCGATGCTGTGCATCTGCGGTGGCTACCAGTTCCTGGGTACCTACTACAAGATGAGCGACGGCACGGTGATCAAGTGCCTGAATATTTTGCCGCTGCACACCGTCTTCAAGGCCGATGCCCGAATGATCGGCGATACCAAATTCATTACGCAATTTGGGCCGGCCCAGGCCTTCGAGAATCACTCCGGCCGGACGTACTTTGATGACCAGGACAAGCTGAAGCCCTTCGGCACGATGATTGAAGGCTATGGCAACAACCCGGATGACCACACCGAGGGCATGCGTTATAAAAACGTCATCGGCAGCTACTCCCATGGGCCGCTGCTGAAGAACTTGAACATCGCGGAAGGCATCATGAAGCTGATCATCCAAAATCATCAGGATCGATTAGCCCACAGCAAAGAAGCCGTCATGGCGTAA
>SRR1151209_00467 hypothetical protein
ATGAATACATATTGCACAAGACGCTGGCGGGGACAGAGGCGTCTCTTTTCGATTTTTTTTGCACTGATTGCGATGTTGATTTTTGTTGGATGTTCTAGGGGAACTGTCCAGGCGGAGAATTTGGATTTGAAGGATCCGACTGACACGACCAAGCCGGCGGTGAATATACCGAGTATTGCTGATGGCGTAGCTCCTGACGGAAATGGCAATGTGGCCAGCGGGATTGCCCCGGCGGGAGTCACTACGCCCATGCAGTCGCCCATTGCCGTTTATCCATTAACGGGTTTGACACCTTACGATCCGGCGTATTCTGACAGCATCGGCGGCTTCCGCCATTTGGATCCAGTAACCTCGGATTTCAAACTAGTTTATCGCCGCAATGCAGTACCAATGAGCTTTAATGATTCACAGACGGACATGCAAAAGAAAAACGGCAATGTTTGGGTGCCTGATTTGCAATCTGGGGAAGAAGCCTATAAAGGACACTTTTTGCAGGCCGTCGGGACCGTTAACGTGCACGTGATGGTCTATAAAAATTGGGATGAAACTAACAATGCTGTCAATGGTAGTGCGCGTTATGGGACAAGCGGCAGTAATTCGGCATTAGAGAATTTGTTGTTCGGTAATTACGGTGTCATGGTGCGGTTCAAAATGGAGAAGGGGGTCAACGCGGCCGCAATCTCAAAAGCCATTGTTTGGGATCGGGCTTATTTTAAGCTAGCCATTGATGTGCCGCGGATGACTAGATATGTTTCCCGTATCTATGTGCCGATGCAATTCGATCATACAGTGTATTTGGATGCCCATCACCCCAACGTTTTCTATCTCAAAGTAAAGGGAATTCCGGTCAATGTCGAAGACATTCCCTCGGACATTGGGATTGGGTCGATGGTCAATATGCGCGGTATTGCACCCTATGGCACCACACATACCAGTAAAGTAACGGGGGCGCAACCAGCAGTCCCCAGCACGGTTGATTTGGCGGCTTACCGCAAAGCCGTTCCAGCCGCAAAAGATTTAACAGATGCAAAAATAAAGAGTCTGATCCAGCAGGATTTGCGGGATTATCAGAACAATGTCAAAACGTACACGGGTAATTCTTGGCAAAGCGGCACATTCAAAGAAAACAATTATCCGGTGGTGCCAGCCGCGGCGCAGAAGACCTGGCAGCCAGGGAATAATGGCGCCTATGATTTGTTGAAATCGCAGTATCAAGTTAATTCGTATTTGGATGCTGGTACTATTACCAGCCAAAGCCTCTGGTCACCGGGGGAGGATCTTACAACACATAATTACAGTTATGGTTATCCCTTTACGTATTCGCTACTGGATGCCCTATACTCACTCAATAGTATGCCCAACTCTTTTCCGTTTTATTGGAAGACTCTTGTTAATGGCGTCACTAACATTATTTCGCAAGATGGTTTTGCTGGCTCTTGTTTCGTCAACTTCTTCATCGATATGGATAAATACGACGGGAATTTAGATGATCATTCGCCCAAACAAACGCTCACAAAGGGCTTTTTAATGCCATCAGCACAGGTCAACCATCAGTACAATTTGTCCATGGACATCGTGGGGAGCGATCAATTAGTTGATCCCAAGCCAGTGACTGCAGCAACGGACGACAATAATAATGTGGTTACCGCCTATGACAATTTTGGCCCGCATAACACACCGATGGATCGGGCTTTGATCAAATCAACGTATTATACCGATGCGCATGCCACGGATCCTGGATATTTGTGGAAACAAGCAGCTACACCGTCTAATGATACGTACTTCAATTCAATCCCTGCCGCCATGCGCTGGAATCAGGATCCCAAGCAAGAGGCCAATAACCGAATGTATTGGGCTGATGAGGGCAAAGTGGGCGGTAATATTAATTTCTCCGTCGCTATGAATAGTTGGAATTCTTATGTGTCCCCCTTTGACTGGGACAACAAAATGAATATCGATAATACTAACGTGAGCGATAGCGGGACGATCAAGCCGTGGGAGGTGGTCCTATTGCCGCCTAAGAACACACCCAGTTCCGCTGCTTTGCCCACCCGCGATGGTTCAAAGAGTTACGATCAGCGCAGTGCCACCTTGGACATGGCGTCGACGGGCGGTTTACTGGCGGGTGATTTGCCAAACCAAAACACCATGCTGCCTTATCCGGCGTACACGCCGCGGAAAGATACGGATGTTGTCAGTACCTCCCGGTTTGCCCGAGTCGTCAATTATTACTCGAATTTTGAAACAGCAGACGCGGACACGGATCCTGCCAACTGGGGCAATAAGCCAGCCTTGAACACCCCTGACCAAGTGTATGCCAATACGGGCACGTTAGCCCAAACGGTCAAGGCGGTGAGTACCGACGTCAAGGATAATCAGGGCAACGCAATTACGACGCTGCCCACCGTCGGCAACAATTTCAAGGATAACCTGCAAGTACGGTATTCCGGTTTCATGGGCGACGGGGCTTATATTCGGCCGGCCACCCTCTATGTGCTGCAAAAGCGGTTCATGCCGACGATCAATTTGACGAATCGAGTGTACAACGTGACTGCTGCTCAGCTCGCCAAGGGCATCACGATTGACGGCAATTGGACGGCCAACTGGCTGCCAGCAATGGCTGTTGGCGGCAAAGTCGCCGCCGGGGTAGGCAGTGACAGCACTGTGACCGTGGGCGATTTGACGGACAATAATCCGGGCAAGACCGGAACGTGGACTAAGACGACCAATCCGGATAACTCGGCTGAGGCACCGGGGCCGCACGCCTTCGCGTTCACCGTCAATGACCAAGCGGACCACACTGTACCGGACAGCAGTGGTACGCTGGGGGTCGCTAACAGTGTTGGGCCCCACGTGATCACTGTGCGGACGACGATTACCTATACGTACAAGGGGACCCAATACACCAGCAACGTTGATGCCCAGCAAATCGTCAATGTAGTACCTGATGGATATGACCAGATTAAGGTCAACCAGAGTATCGTGACTGATCCGGATCATTATGGAATGTATACCTGGCAAGAATATAAAAATAAGATTGGGGCGGGCACCTTCGTCCCCAATGATTATTACAATTATGTCAGTCCCTATGACTCGATTCGCGGCTACGTTCAGCCTACGGATCAAGTTCGGATGCGGGCCCGTGTCGTTATTCCAACAACGCCGCCCTTTGGCTTGCTGAAAAATGTCAAGGTATCAGTGGATATGCCGAAAACTAACGATCCAGCGCATCCGTACTTTACCCTCAGTCCGGGAGCAACAGCTTTCGGCGAGACCGGGCGAACTACCAAGTCGTCAATGACGGTGACTAAAGCAGGGGGAATGCCTGCGCTTGGCTCGGCGCCATTTACAACGGGTTCGACCGCAGGAATCGATACCAGCAATCCGGCGATCACCAACTTTACCCATGTGATTTATGGTCCTGGTATTAATGGCGGCCTCCTAAACGGTCAAGTGCTAGAAATCATGTACACGCTCAATGTGCCTAACACAAGTGCCGCCAACATTCCTGCTCAACAAGTGATCCGGTCTACTTTCTCGGCGACAACCGAGAGCGGTACACCGATCACGTTGGGGTCTAATGCCGTTTACCTTTATTCGGGCGGTGACAACACCTATGGCCTGCTTCATGTGCCGGACTTGGACTTTGGTCAATTGCCCAGTACCGCCGTAGGGACAGCCCAAGCGCTGCCTGCTGATCAACAGGATAATGCCTACTTCGAAGCGTTTGACAATCGGGCGGTCGAACCCATTGACCCGGATTCACCCACCCGGGATCCTTGGTATCTGTATGCGCAGATGAGCGGGTTCCGTCCGGTGGGCGGTACCGGCAGCATCAGCGGCTCCACCATCACGTTCAACGACCTAACCACAGGCAGTACGCCGGCCAACGGTACGGTGACCGCCGGTGGTTCCCCAACCAAAATTCTCACCCGTCCTGGCGGCAAGTACCCGGCAGGTTATCGGCGCAATGTCGGCAACACGACCTTCACCGTGGGAGATAACGGCGGCGGCTTCAGCGGTTTCACCGGCGGCAAGTACCAGGCCACGGTGACCTACACCATGACTCCTGATGATGGCGGCAGCACCCTGAAATAG
>SRR1151209_00468 glutamine amidotransferase
ATGATCGGCGATACCAAATTCATTACGCAATTTGGGCCGGCCCAGGCCTTCGAGAACCACTCCGGCCGGACGTACTTTGATGACCAGGACAAGCTGAAGCCCTTCGGTACGATGATTGAGGGCTATGGTAACAACCCGGATGACCACACCGAGGGCATGCGCTATAAGAACGTCATCGGCAGCTACTCCCATGGGCCGCTGCTGAAGAACTTGAACATCGCGGAAGGCATCATGAAGCTGATCATCCAAAATCATCAGGATCGATTAGCCCACAGCAAAGAAGCCGTCATGGCGTAA
>SRR1151209_00469 hypothetical protein
GTGACAGCGGCTGAGCTCAAGAAGGGCATCACGATCGATGGCAACTGGACCGCGGATTGGACACCCGCGTTAGCCGATAACGGTAAAGTGTTAGCCCATGCCAGTGACAGCAGCGACTTTGCTGCGGATGATCACGAAGCACTCAAGGCCGGCACGACCGGAGCGTGGACGAAGACGACGAAGCCAGATAACTCAGCGGAAGCACCCGGACCGCATAGCTTTTCGTTCACGGTCAATGACGTTTCGGCCAACACTGATCCGTCGAAATCTAGTGACGGTTCAATTGGGATTGCCAATACGATTGGTTCCCATGTCATCACCGTACGGACGAAGATTGCGTATGCCTATCAGGGCAAGCAGTATTCGAGTTATACTGATGCCCAACAAATCATCAACGTGGTGCCCGATAGCTACAACCAAATCAATTTCACCAAAGGCATTGTGACGGATCCCAATGAGGGGAGTACGGCGCAAATCACGGCGGTTCAGTATCAGTCATTTGCGGAGGAGATGCCATCGACTAGTGATGCCGCATTTAATCAGTTTGTCAATTTTGCATCGCCCTACGATACGATCAGCAGTTCAATTCAGCCGACTGATCAAATCCGGATGCGGACCCGGTTTGCCGTTCCTTTCGCGGCGGGGATTGAGCAGCTGAAGAATTTCAAAGTGACCGTCGCCATGCCCAAGACTAATGATCCGGCTCATCCGTATTTTACGATGAATACCGCTCCCGGCGACGATCCAACGCAACTGGTAGAGTCGTTTACGAATCGGCAGATGACTGACTTCAAGGGCAGCAGTTGCACCCCTGATCAAACAGTCAATCCGACACAATACACATTCACGTACAACGTGAATCATGATACCGGTTCATCTTCGGATAATTTCCTTAGACCGGGCAACGTCTATGAATTGTTGTATACACTGAATGTGCCGGCGGTCAGCCTGCAAAACGTTCCGGCCCAGCAAGTTTTGCGCGATACGTTCACTGCGACGACGGCGAGCGGACAGGATATTTCGTTGAGCTCGAACGCGGTGTATTTAAATGCTGGCGGGGACAATACGTATGGTTTGCTGCATGTCCCGGATTTGAATTTTGGCCAAGTCAGCAGTACCACAATCGGTACACAAAAGGAGTTAGCTGCAGATCAGGAATACAACCAATATTTTGAGGCGTTCGACAATCGAGCAGTGACTCCTGGGAATCCGAATGCGCCGATTCGCGAACCGTGGGCTATTTATGCCCAATTGGGCGGCTTCTCAGATACCGCTGGGGGTACCAGAAGCATTACTGGGTCGACCATTCAATTTGATTATATGGTGCAGTTTCCACCAACATCGCCAACTAGTGGGACGCTGACCGCTGGCGGGGCACCGGTTAAGATTTTGGAGCGACCAAGCGGTCAGTATCCGGCCGGCTTCCGGCAGAATGTTGGCCAAACCATCTTCACTGTAGGAGATGACGGCGGCGGTACCAGCGGCTTTATCGGCGGCAAGTACCAGGCCACGGTGACCTACACCATGACTCCTGATGATGGCGGCAGCACCCTGAAATAG
>SRR1151209_00470 hypothetical protein
ATGATTACGCATTTTAGCAAACGCCGGAGGGGCACCAGGCGTTGTTTTTCGAGTTTGTTTGGTTTCACGGTATTATTATTGTTACTGGTTTGTCCTGGTCGACCCGTCCATGCCGAATTAATGGATTTACCGGATCAAACGGATCCGACCAATACCAGCAAAACGGCCAACAATATCTCATCACTGGCTACAGGGATGAATAAAAATCTCGTGACAGGCGACACCGATACGACGGTCACTTCTGGCATTGCGGATGCAAAATATGATTTTTCAAATTATCAGATGCAATCACCGTTGTCGGTATACCCGTTACGATCATACACACCATACAATCCTAATGTGTCCCGAGATTCTTCCGGCAACGCGAATGGTGATTATTTTCACGATCAAGCCAATACTAACCGGAAGGTATATTCTGCTTTTAAGGTGGCGTATCGGCGTTTTGCTGTTCCGCAAAGTTTAGCCGATTCCACAACGGATATGGAAACAGAAAAGGCTGGAAATAACGGTAAGGCGGTGTGGGTCCCAAATTTGCACAGCTATACCGATGCCAATGGCAAGACTCAAAAAGAAGAAGCCTATCAGGGCCACTTTTTGCAAGCTACAGGGGTGGTTAATGTCCATATCATGGTTGACACTGCCTATGGTAATGCAATGAACAATATTTATGATGGCAATTATGGCGTTATGGTCCGCTTCAAGATGGAAAAGGGCGTTAATGCTGCCGCCATCGCCAAAGCGATTGTTTGGGATCGTGCTTACTTCCGGATGGCCATTGACGTCCCCAAGATGTCAACGGACCGGGTCACCAGAATTTATGTGCCGATGCAATTCGACCATACAGTTTATCTTGATCCTAATCACCCGAATGTTTTCTATTTGAAAGTTAAAGGGATTCCCCTTGCTAATGACAATCCAACGACGACATCATTGGCCGGGATGACCGTGTCGCCCAACCTGACCCGGGGGGTATTGCCTTTTGGTACAAGCCGGGGGGCCAATCCAGCCGTTGTCGCCAATACGCGTACTAATGCCAACGGCAAAGTGCAAGATAATGCCGATGCGGTACCGCGAATCGCGGCTGGATTCTCCGCAACGGATATGCAAGCCTATTTAACCAAAGTGCCAGTTGCCAAGAATATTCCCGGTCTAACGAAAGACAGCAGCGGGAATGTTGAGAACACGACGGTTAATTTAGCACTGGTCAAAAACTTTATTCAACAGGATCTGCGGGATTTCCAGAACAATGTCAGTACCTATACTGGTTCCATGGCAGGTCATAATTATGCTGATGCCGGTTATCCCACCGTTAGCGGTGATCCCAATGGCAATCCGTATGCCAGTGCTCAGAGCTCTTGGGCAAAAGTTCAAAAAAATGCTGATGGCAGTTGGGTCCGTACCAACCCATTAATGGATCCGAGTTACCAAATTAATAGTGTGCTTGATTCGAATGCCGTCCAAACCGAATGGTTGTGGAATCCTAATGCACCTTCATCTGGAGCAGGTACGAGTCCTACTAAAGGGTATAGTGTTGGTTATCCATATACGTATTCGCTTCTGTCAGCGCTGTTTACGATGGCCAACGGCAACAACTACTCTAGTGATTTGCCAGGGCGATTCGCCCAAATGGCAAATCAAGCTGCAGTCGGCTATATTGCGAAAGACGGTTTTGCCGGATCCTGTTACGTCAACTTCTTCATCGACATGGACAAATACAATGGCAACTTAGATGACCATTCGCCCGCCAAGACGTTGACGAAGGGAATGCTGATGCCGTCAGCACAGAAGAATCACACCTATAACTTGTCCATGGATATTGTCGGCAGCGATAAGCTGGTTGATCCGCAGACCAAGACGACAGCGACGCCCGCTGTATCACCCCATGATACGCCGATGGATCGGGCTTTGATTCGACCTGACTACTACACGGAAGATCCATCACATTTGAATGCCGCGGGTAAGGTCCTGCAACAGTATTTATGGGCCGTCCCAGCAATTCCGCCCACATCGCAGTATGTGAGTCAAATTCGCCAAAACGTGCTGCAGACGACCGAGCAAAACAATACCTGGACCGTTAAATCCGAGTCTGGTGCAATTCCCTGGAATCAAACACCACCAGCAGAAAGCACTCGGGGCGGCAAGGGCGGCTTCTGGGTGATGGGCACTTGGCAAACCAGCCTCTATTGGAACGATACACTCGGCGGTCAAATTGTGGGGGCTGCCAAGACAGATAATAATGGCTTTATTCAAACCACCACGGTCAATGGTAAAACGGTACCCGTGGATGGCACCATTGGTGTGAACACCGATCCTGACCGCACTGATGCCTTTGCCGTCAGCATGAACAGTTGGAATTCCTACGTATCGCCGTGGGATTGGAGTAAGGCCCTCAATACCGACAACACTCAGATTCAAGCGACGAGTGCTGTAACCAATCCGGCCGATCCCAACTATGGCAGTACAATACCATGGGAAAGTGTCACGCCGCTGGGCTCTCCCAACTGTACGGCGGGCGACAGCAGTGCTTTGCTGACCAAGGATGGATCAAAGAGCTATAACGCCCGCAGTGTCACCCTGGAAATGGCAGCCAGTGGTTTGTTGTCGTCCAATTTGCCGCAATCCAGCGACATGACGTATGGGGCTTATGATTCGAATGCCATCACTAAAAACACCGTGAGCACCTCTCGCTTTGCCCGAGTGGTAAATTATTACTCCAACTTTGAAAACATTGGCGGTGCTGATACGGATGCCTATAACTGGGGTACTAGGGAGGGCCGGAACACGCAGAGCCTGATCTATACCAAAGATGTATCCGGCATTCCAGTGGACAACCAGCCCCAAGTCGTTAATCGGGTGAACGCTGATGTCACGGATAGCGATGGCAATGCGGTGACGGTACCGACCACGACGTCACCGATTCCCAAGAATCTGCAAGTCCATTATTCAGCGATCATGGGGACGGGGCGTATACGCGTCCGGCCACCCTCTATGTCATTCAAAACGGCTTCACGCCGCGTGTTAACCTCACCAATCGGGTCTATAACGTGA
>SRR1151209_00471 5-methyltetrahydropteroyltriglutamate-- homocysteine methyltransferase
ATGACCACAACGATTATCGGCTATCCACGCATTGGTGAAAAACGGGAATTAAAGTTTGCAACGCAGAAGTATTGGAAGCACCAGATCACCGCAGACGAATTGCACACCGCCGGCCGGGAGCTGCGCCAGCACCACTGGCAAACCGTCCAAGCCGCTGGTATCGATCAGGTACCCACGGGAGATTTTTCCTTCTTCGATACAACCCTGGATACCGCCTTTCTGCTGAACCTGGTGCCCCAGCGTTTCAAGGCGTTGGATCTGAATCCGTTAGACGAATACTTTGCGCTGGCCCGGGGCTATCAGGGGGACGCCGGGGACGAAAAGGCGTTGAGCATGAAGAAGTGGTTCAACACCAACTACCACTATATCGTGCCCGAATTCGACCGGGATACCGAGATCCAAGTGGTCGGCACCAAACTGTTTGACGAGTTCGCCGAAGCTAAAAAGTTAGGCATCAATGCGCGGCCGTCCCTGATCGGCCCCTATACCCTGCTGCGGCTGAGCCGCTTTTTAGACGGCTTGACCCCCGATGACTTTCTGCCTTCCTTGGCGGCTGCCTACGCGCGCATTATTACGAAGCTGCGGGCGCTGGGCGCGGATTGGATCCAACTGGATGAACCCGCCTTGGTCTATGACCAGACGGCCAAGGACCTGGACCGCTTCACCCAGCTGTACGATACCATTCTGGCCGCCAAGGGCGACGGGCATATCCTGCTCCAGACTTACTTCGGCGACGTGCGGGATTCTTACAAGCTGATCACCACCCTGCCCTTCGACGGGTTGGGGCTGGATTTCATTGAAGGGCCGAAGAATAAAGACATTGTGTTAGAAAATGGCCTGCCCGATTCGCTGACCTTGTTTGCCGGCGTCATCAACGGGAAGAATATCTGGCGCACTAATTATCAAAAGGCCTTGGCCCTGCTGGCTGAACTGCATCAGCCGACCACTCGGCTGGTGCTGTCCACCTCCTCTTCTTTGCTCCACGTGCCCTACACCGTCCGGCATGAGCACCATATTCCCGACGACGAGAAAAAATACTTAGCCTTCGCTGAGGAGAAACTGGCTGAGCTGGTGGATCTGGACCACATTCGCCAAAATGGGACTGACACCCTGGCCTACCAGGAAAATGCGGCGCTGTTCGCCGCCCCGCGCTACGTGGAAAACAAAACGCTGAACGCTCAGATCGCGGCCTTGCAGCCGGCAGATTATCAGCGGACCCCGGACCGGGCGACCCGGTTGGCCATTCAGGCCAAGGAATTGAAGCTGCCCCTGCTGCCCACCACGACCATCGGCTCCTTCCCGCAAACGGCGGCGGTGCGCCGCAACCGGGCGAAGCTGCGCCGGGGCGAGATCGATGAAGCCGCATACAATGCCTTCAATGAAGAAGAAACTAAGCGCTGGCTGAAGTTCCAAGAAGACATCGGCTTGGACGTTTTGGTCCACGGCGAATTCGAACGCAACGACATGGTGGAATACTTTGGCGAACAGCTTGAGGGGTTCCGCTTCACGGACAATGGCTGGGTCCAATCCTATGGCACCCGGGGCGTCAAGCCGCCGATCATCTGGGGCGATGTCGCCCGGACCCACCCGATTACCGTCGCTACCACCGTCTTTGCCCAAAGCCAGACCAGCAAGCTGGTCAAGGGCATGCTCACCGGGCCGGTGACCATCCTCAACTGGTCCTTCCCCCGGGACGACGTGTCCAATAAATTATCCACGGAGCAGATTGCCCTGGCCCTGCAAGGTGAAGTCCTGGATCTGGAAAAACACGGGATCAAGATCATCCAAATCGATGAGCCGGCCCTGCGGGAGAATCTGCCGCTGCGCCAAAGCGACTGGTATCGCCAGTATCTGGATTGGGCCGTGCCGGCCTTCCGGCTGGTGGCCAGCAAGGTCCAGCCGACGACCCAGATCCACACCCATATGTGCTACTCGGAGTTCGGTGATATCATTCAGGCCATCGATGACTTGGACGCCGACGTGATCTCCTTTGAAGCCTCCCGGGCAGACTTCACCCTGCTGGACATTCTCAAACAGGTTCACTTCCAGACCCACGTTGGTCCCGGCGTCTATGACATCCATTCCCCGCGGATCCCATCCGAGGAAGAAATCGTTGACATCATTCACCACATCCTGGCCAAGCTGCCCGCCGACAATGTCTGGATCAACCCGGATTGCGGTTTGAAAACCCGGGAAGAACCCGAAGCCAAACAGGCGCTGATCAACATGGTCGCCGCCGCCAAGCAAGTGCGAGGTGAACTGGAACATGCAAATCAACCAACTCTTTAA
>SRR1151209_00472 5,10-methylenetetrahydrofolate reductase
ATGCAAATCAACCAACTCTTTAAGGATCGGCCGGTCATTTCCTTTGAAGTGTTCCCGCCCCGCAAAAATGCCACGGCGGCATCGCTGCGAAAAATGGACGAAACCTTGGCAGTGCTCAGCGACTTGCACCCCGATTATGTCTCAGTGACCTTCGGCGCCAATGGCGCGCTCCAGGCCACCGGTACTCTGGCCACGGCGAGTTATATCAAAGACACCTACGGGATTGAAACGGTCGCCCACTTGCCGGCCAGCCAATTATCCGCCGACCAGATCCACGGCCTGCTGAATGAGCTGCAGGCCCACGGCATTGAAAACATCCTCGCGCTGCGCGGCGATATTCCCGCCGGCGGCCGGTTGAGCAACGACTTCCCCCACGCCTGCGATCTGATCCGCTACATCCACCAGTGCGGCGACTTCAACGTGATCGGCGCCTGTTACCCCGAAGGCCACCCGGAATCGCCGGATCTCGCCACCGATATCCATTATTTGAAAGACAAAGTGGATGCCGGCGCCAGTCACTTGATCAGTCAGCTCTTCTTCGACAACCAGGTCTTCTACGATTTCATTGCCCAGGCCCGGGCAGCTGGGATCACAGTACCGATCCAGGCCGGCATCATGCCCGTCATCAATGCCCACCAGATCGAACGGATGGCGACGATGAGCGGCGTCGCCCTGCCGGAGAAGTTCACTCGGATGATGGCCCGCTTCCAAGATAACCCGGTGGCCATGCGGGAAGCCGGCATTGCCTATGCCGTAGACCAAATTATTGATCTGCTGGTCCATGGCGTGGACGGCGTCCATCTCTACACGATGGATAACGCCGATGTCGCCCAAAGAATCTTCGCGGCCGCTGAACAAGTCATCCACGCTTAA
>SRR1151209_00473 hypothetical protein
ATGCCAGAGAAACCAGAAGTCAAAGACATCCAGGATTATCTCAACCAAGCCAGCGTTGACGCGCGGCCATTGCTCACGGCGTTAGACCACTTCATCAATGAAGAATGGCCCGGCGCTGAACCGACGATCAAGTACGGCCAGCCTTTCTACTTATTGAATGGCCAGCGGCTGAGCATCGCGGCGTATCAAAAACACGTCTCGGTGTCATCCAATCAAGACGTGCCGCAAAAGCTCGCTGCTGAGTTTACCAAGGGCGGGTACGACGTCGGGGCGAAACGCGTGAACATCGCATTTCACCAGGATATCCCAGAAGAACTGCTGCACCAATGGTTGCAGCATATCATTCAATCTGTTGAGGCATAA
>SRR1151209_00474 hypothetical protein
ATGGCCTTTTTATTTCAAAAAAAGCGCTGGCTCAAAATCACCGGCGCTTTGATCATCGGTATTTTAGTTTGTACCTTAGCCTACGCCCGAGTAACCAACGCGGACGGGTCGGCGGCCGCGGCGTATGCCCAGGTGTGCCGACGGGTCAAACGCTTGCCGCGGCGGGCGACCCGCTCTACGATCATTCACCAGTTAGGCGAACCCAATAGTCAGGTGCTCACCCCTGGTAAGCACCGCCAGACCATGCATTGGCGCTATCCCAAAGTTGGGCAGGTGACCATCGTTTTGGACCACGATCGGGTGATTTCGATTCAGAAGAAGGCATATTAA
>SRR1151209_00475 xanthine/uracil/vitamin C permease
TTGGATACTTATTTCCAACTCCAAGAGAATCACACCACCCGCAGTCGGGAAATCTTGGCCGGAGTCACGACATTCTTCGCTATGTCTTATATTTTGTTCGTGAATCCGTCTGTTCTGTCCCAAACGGGGATGCCCAGCCAGGCGGTTTTCCTGGCGACCATCGTTGCTTCAGCTATCGGGACAGCCTTTATGGGATTGTTTGCCAATGTGCCTTACGCCCTGGCGCCGGGCATGGGGCTGAATGCATTCTTTACGTATACCGTTTGTTTTGCTTTGGGTTTTAAGTGGCAGGAAGCCCTGGCATTGGTTTTCATTTGCGGCCTAGTCAATATCACGATCACGGTCACTAAGATTCGGAAAATGATTATTACTGCTATTCCAGAGGCACTGCAGCATGCGATGGGCGCTGGGATCGGGGTATTTGTGGCCTATATTGGTTTGAAAAATGCCAATATTCTGCAATTCACCAGCGATGCCGGCAGTATTGCATCGATCAACGGCAAGGCCTTTTCTGCTGGGACGACCCATTTTAAAGGCGGGATCACGTCGGTTGTGTCTAATGGCGGGATTGTCCCGGCTCTGGTCAACTTCACTCAGCCCGGCGCGCTGCTGGCGCTGATTGGGCTGACGATCGCGATTATCCTGATGGTGAAAAAGGTTCCTGGCGCCATTATTTTAACGATTATTATCACCACAATCATCGGGATTCCCATGGGAGTGACCGACCTGCACAACTTGGGCACGAATTCCTTGGCCAGTGCCTTCGGTCAACTCAAAATAACGTTTGGGGCCTGTTTCGGCAACCCTGGGATGCAGTCCTTGTTCAGTTCCTGGTCCCGGCTGCCGCTGGTGCTCATGACGATTTTTGCCTTTAGTTTCTCAGATACCTTCGATTCACTGGGCACCTTCATTGGGACCGGCCGGCGGACGGGGATCTTTTCCGATGAGGATATGTCCGACATGAAGAATGGCAAAGGCTTTTCTTCGAAAATGGATAAGGCTCTTTTCGCGGATTCCGTAGCCACTGGATTTGGGGCCATTTTCGGCACGTCCAACACCACAACCTATGTTGAATCCAGTGCTGGCATCGGGGCTGGCGGCCGGACAGGGTTGACCAGTGCGACGGTGGCCGTGCTCTTCATCATCAGTGCCGTCTTTGCACCGATTATTTCCGTGGTACCCACTCAGGCCATTGCCCCGGCACTGATTCTGGTTGGGATTCAGATGCTTGGTTCCTTCGCCAATATTGATTGGACAGATCTGACTGCTGCCATCCCGGCGTTCATGGCTTCCATCTTTATGGGGCTGTGCTACAACATTTCGTACGGGATCGCCGCCGCCTTTATTGCCTACTGCTTGATCAAGCTGATCACCGGCAAGGCTAAAGAGGTCCATCCGATTCTTTGGATCGTCACGATTCTCTTCATTCTGAATTTCGTCGTTTTAGCAATTCTTTAA
>SRR1151209_00476 hypothetical protein
TTGAAATTACGTTCTTGGTTCTTGCAGTTCTGTTTGGCCGTTGCCTGTGTACTGGCGGTTATTTTTTGCCTGATCGTCTTTCCGCGCATGACGGGGAAGTTGATGGACATCTACCGCCACCCAGTGGCGTCTTGGTTCTTCGCGGCGGGCTGGTACGGGGCGGCTTTGGGCTTTTTCGTCGGCGCCGATCAGGCTTCCCGCTTGCTGGTCGCGGCCAATCGGCACCAGGCCTTCACCCCGCGGGTCGTTCAGCTGCTGCGCCGTTTTAAGTGGGCGATGGCCGGGGCTGCAGCCAGTCTTTGCCTGATCCTGCCGCAATTTTTCGTCGCCGCCGATCAGGAAGATGCACCAGGTCTATTTGTTATTGGTTGCGGCATTGTCGCCGTGCCATTTGTCGTCGCGGTATTTCTGGCGGTCCTGCAACGCTTGTGGCAAACGGCTCTCACTTATAAGGAAGAAAACGACTTAACAGTTTAA
>SRR1151209_00477 hypothetical protein
ATGTGCTGTGTCTTTATCTTTCCGCGGGTCCCGGAACATTTCGTCTACCAATACCATAACTTACCGGTGGCGGTTATTTTCACAGTTGGCCTTTATGGTGCCGCCGCAGCGTTCTTTGCGGCTGCTTGCTACTCGTCCCGCCTGCTCAGCGCATTGACGCATCGGCAAGCCTTCACCATCCGGGCGTTACAGTTGCTCAGCCGGGCAAAATGGGGCGTTGTCGCAATGACTGGGAGTTTGTTCCTGTTTTTCCCGCAAATCGTGGTCATTCTTATTCAAGGAGAAGATCCCGGCTCCGCCATCGTGTTTACCGGCATGGTGGTAATTGCTGCGGTGGTCGCCGTTTTTTTAACCATTCTCCAACGCCTCTGGGAAACAGCGTTGCAAATTAAAGATGCTAACGACGCGATTATTTAG
>SRR1151209_00478 transcriptional regulator
ATGCATATTCAAGTCAATCTCGACCTGCTGCTGGTCAAACGGCACATGACGCTCACCGAACTCGCCGATCAAGTCGGCATCACCATCGCCAATCTGTCGGTGCTCAAAACGGGCAAAGCCCGGGCCATTCGTTTTTCTACCTTGGCCAAGCTCTGTGCGGCTCTGGAGTGTCAGCCCGGCGACATCTTGCAGTTTGTTCAATAA
>SRR1151209_00479 diguanylate phosphodiesterase
ATGGATACGCACGAAGGCATCTACCGTTATTTCATCCAACCGCAGCTGGACATGATCAACAACTCGTTGATCGGCTACGAATTACTGATGAAACAATACACCCTCGCCGGGTGGCGGCCGCCTAAAAGCTTCGCGGCCGTACCCGCCGAAATCATCGCCAGTGTCCTCATTGCTACCACGCGCAAACTTGCCTTGAAGATTGGCTCCGTCTCCGTTAATCTGAATCGGACGCAAATGCTGAATCCGCAAATCAATGAGGCCTTGATTCAGGCCCAGAGTTATCTGCGGCCAGTACGGTTAAATGTGGAACTGACAGAAGAACCCACCGATCAGGGCATCACGATCACGCAATTGATGCCAATGATCAAGCAATACGACGAACGGGGCATGGAAATCAGCCTAGACGATGTGGGCACCGGCCAGAATCAGCTGGCGGATGTGCAGCCTTTGCTGCCCTACGCTAGCGAAATGAAGTTTGCCCTGCAAAATTTCACCACGGGGTTGGCTGACCCTAATCTGGTGAAGCAGCTGGTCTACTGGCGGGACATCGCGGCCGCCCACAGGCTGCGCTTTATTGTGGAAGGCACCGAAACGGCGGAAGATGATGCCCTCCTTGACACCCTGCACATCGACTTCCGCCAGGGGTATTATTATGGTAAGCCCCATTTACTGAAGATCCACCCGACCGATCCCGGGCAATAG
>SRR1151209_00480 NADH oxidase
ATGAAAGTCATTATCGTTGGCTGCACCCACGCCGGTGTCGCCGCTGTGCGCCAAATTTTTCAAGAATATCCCGATACCGAAGTGACGATTTACGAGCGGGACAATAATGTCTCGTTTCTTTCCTGCGGCATTCCCCTGTATCTCAGCGGCCAGGTAAAACGCTTGGAAGACATGTTCTATGCCACCCCGGCGGACTTGGCTGCTCTTGGGGCGAAAGTCTGCATTCGCCATGACGTGGTGAAGATCGATACAGCAAAAAAAGATTTAACGATTGAAAACTTAGAGACCCATGAAATATTCCACGATACATACGATAAATTGATCATGACTACTGGTTCTTACGTGGTCGTACCGCCGCTGATGGGCATTGACCATGAGCGGGTTTTGCTGTGCAAAGATTATTGGCAGGCCCAGGCGATCCACGACACCGCCGCGCAGCACCGGCGGATCGCCGTCGTGGGCGGCGGCTATGTCGGGGTTGAACTAACCGAGGCTTACGCCCAAACGGACCACGACGTGACCTTGATTCAGGGCCATGATCAGATTCTCAATAATTATATTGACCAAGAAATTTCCGGGGAAATAACGGACTTGTTGACGGACCACGGTGTCCAGATTCACCTCAATGAGCGGGTCCAGGCTTTCAGAGCGGATGAAAAGACTGGCGGCCTCCTAATTGACACCGGCGACCACGCGTACGCCGCGGATCTCGCTATCGTTTGCACTGGCTTCATGGCCAATACTGACCTGCTTCGGGGTCAGGTTACCATGGACCGCCATGGGGCGATCATTACGAATGATTACCAGCAGACTTCCGATCCGGATATTTACGCCGCGGGGGATGCCTGCACGGTCCGGTTCAATCCCACCGGGAAACCGGCCTATATCCCGCTGGCGACTAATGCCGTGCGGCAAGGGATGATCGCTGCTCGTAATCTGTACGGCCATAAGCAAAAGTTTCTCGGTACCCAAGGCTCCACCGCCATGATGCTCTTCGGCAATACTCTGGCGACCACCGGGATCACGCTGACCAATGCCCGCAAGTCCGGGATCGACGCGGCCGGTGTTTTGTACCACGCCAACTATCGGCCGGATTTCATGCACCCGAACACGCCGGTAACGATCAAACTGGTTTACGACCGGCAAGATCGGCGGGTCCTCGGCGCCCAATTGTGGAGTCTCCACGAAGTGACCCAGTCTGCCAACGCCGTCTCGATTGCGATCCAAAACCGCAATACGATTGATGATCTGGCGTATGTCGACATGCTGTTTCAACCGCACTTTGACCAGCCGTTCAACTATTTGAACCAAGCGGCGCAGATGGCGGTGGCCCAAGAAACGGCGGCCACCGCTCGCCACCATGCGCCTGCGGCCAGGAAGGACTGA
>SRR1151209_00481 diguanylate cyclase
GTGATGATCAATGCGTGGTTCCAGCAGCCGCTGATCACTGATATTTTTGTGATGCTTGGCGTGGTCCTGCTGAACCAGCTGCTGCTCCGGGGAATTATGAATTTTACAATCAACGCTGGGCAAAAGATCGATTATTCAGTGGGTATTTTAAATGTGGTCAGCGTCGGCTATTTTGCCGTGCTGGCCATCTATTTCCAATACCTCGGTTACGATCTGCAATCCGACGTTGCCCTGGTCAACTTTCGCATTTTGATCTTAATCTACACCATGATCTACCTCGGCCGACGGGGCAGCGCTGTCGTTGTGCTGGCAGATTGTGCCAGTCGTGCCGCTTTTTACGGGTTGACCCTGAATACGTATGAAAGCTGGACCACTGAAGTAACCGTCTGGCTGATCATGGCGCTGATCGCCACGATTGCTAAACGGATCCATTTGCATCTGCTCACCCTCGTGATGGTCATCAACTGTGTCGGCGGCGGCTTTTGGCTGCTGGCCTATTTTCTTCAGTTGCGCCGCGTCGCACCCCTCAGCGGTGAAGCGGCCTTGGGCCATTTTGTCAGTTTCATTATTCTCAACGGCTTGCTGGCCTATGTCTTGCGCGCCTTGGATAATGAAAATAACCACCTCAGCGCGATCACCTACGAAGCCACCTATGATCCGCTGACCCGGCTGCAAAATTACGGCATGTTCGACAAGCATTACGAGGAATTGTTCAAGCGGTATCACCTGCGCAACGCCCCGCTGTCGATGGTTGCCATTGATATTGACTGGTTCAAGTCGCTGAATGATCAATACGGCCACCTTGCCGGCAATCAAGTATTAGCAACGATTGGCCGCTTGCTGGACAAGGAAACGGCGGTCTACCCCGCCGCCACTTGCTACCGGGTGGGCGGTGAAGAGTTCAATATTCTGCTGCCCGGGGTGGCGTTGATTGATGCTGGAAACTTCGCTCGGCATTTGCAGGAAGAGATTGCCGCGACGGTGATCCGCGTCGACGATCAGCCGCTGGCCATTACCGTGTCAGTGGGTGTTGCCCAGCTGTCGCTGGCGGACGCGACGGCCAGTGATTTCTATGAACGGACGGACCGGATGCTGTACCAGTCTAAGGGTAAGGGGCGAAATCAGATCACGGTGGATACCGGCGAGCAGTGA
>SRR1151209_00482 50S ribosomal protein L33
ATGCGGAACTGGATCATGCTCGAGAACAAAGAAACCGGCGAAAAGATTTATCTGACTTCGAAGAACAAGCGTAACACGCCTGATCGTCTGAAGTTGACGAAGTACTCTCCGAAGCTGCGCAAGCGCGTTGTCTTCACAGAGGCTAAGTAA
>SRR1151209_00483 hypothetical protein
ATGATGTATGCTTACCTAATGGGTTTGATGCTAGCCGCCGTACTGGTCATCAATTTCCAACTCTCAAAAGAAAACAAGCGCATGAAAGCCATGTTCCACTTTGACGATAAGGAACTGGTTGAAGAAGCAAAGAAATTGCTGCCGACGAACCATCCGACCGCGGTCGTGCTGGCCTTACGGGAGAATCATTTTCCGCTGGGCATGGTGGAAGCGAAAGGTGCGGTCAATGAAGCTACGAAGCAGTTGAATACTGAAATTTCGGCGGAAAATAACTCTAAGCACTGA
>SRR1151209_00484 6-phospho-alpha-glucosidase
ATGTCCCGTCAAGCCTTGAAACTCGTCACCATCGGCGGTGGGTCCAGCTACACCCCCGAACTGATTGAAGGATTCATCAAACGCCAAAACGAATTACCGATTAAAGAAATCTGGCTGGTAGATATTCCTGCCGGTGAAGAAAAGCTGCGCATCGTTGGCGCCATGGCCCAACGGATGGTCAAAACAGCCGGTCTCGACTGGCAAATCCATCTCACCCTGGACCGGCGTCAAGCCCTGAAGGACGCTGATTTCGTATCCACCCAATTCCGGGTGGGTTTACTCAATGCCCGCATCAAGGATGAGCGCATTCCCGCCAGCTACGGTATGCTGGGGCAAGAAACCAATGGGGCCGGCGGCATCTTCAAGGCCTTTCGGACGATCCCGGTCATTTTGGATATCGTGGCAGATATGAAAGAACTCTGCCCCGACGCTTGGCTGGTCAATTTCACGAACCCCAGCGGTATGATCACCGAGGCCATTGCCACTTACGGCAAGTGGGACAAAGTGATTGGCCTGTGCAACGTGCCGGTGGGCGCGATGCTTTCGGAACCGCCCTTGATTGGCAAGACCCTGGATCAGCTGACCTACAAGTTTGCCGGTATCGATCACTTCCACTGGCATAAAGTATGGGACGAAACCGGTAAAAACGTCACCATGGATATCGTGGACAAAATGTACAGCGATGACGCCGGTCTGCCCAAAAACATCTTCGACGTGCCGTTCTATCGCGCCCAGCTGGACGACATGCAGATGATACCCTGCGGCTATCATCGGTATTACTATCGAGAAGAAGAAATGTTGGCGCATGCGCTGGAAGAATACGAAGGCGTCGGCACCCGGGCTCAGCAGGTTAAGCGGCTGGAACATGAGCTGTTTGAACTTTACAAGGACCCGAACCTGGCCGTGAAGCCGCCCCAGTTAGCCGAACGGGGCGGGGCGCATTATTCCGACGCCGCCTGTGAAGCCATTGCGTCGCTATACGCCAATAAGAAAACCCACATGGTCGTGTCTACTGTCAATCATGGCGCGATTCCCGACTTGCCAGAGGACCACGTCGTCGAAGTATCCGCCCAAATCGGCGCGGCCGGAGCTATCCCCATGGCCTTCGGGGCCCTGCCGCCGGCGGAACGCGGCTGGCTGCAGCTGATGAAAAATATGGAATTGGTTATCTGCGAAGCCGGCGTCACCGGTAATTACGGCTTAGCCCTGCAGGCCTTCACCATGAATCCGGTGATCCGCAGCGGGCATACGGCGAAGCGCATCCTGGATGAATTACTGATTGCCCATCAGGATCACTTGCCGCAATTTGCGGATACCATCGCGAAACTCACGGCAGCGGGCGTAACCGTGAAAGACCCGATTGCCGCCGAATTAGATAAGGAACCGGCAACAGTATAA
>SRR1151209_00485 LacI family transcriptional regulator
GTGATCAGCGGTAAAGGCTATGTGAGCCAAGAAAAGCGCCAGGCCATTCTTGCCGCCATCGATACGCTCCACTATGTGCCCAGCCAGGCCGCGCGCAATATGCGCCGCCAGCAGACCCACATCATCGGTTTTTTGATCAGCGACTATTTCCAACTCGCCGGCGAGTTTCTTACGGCCTTCGGGAAGGCCGCCGATGCGCAGGGCTACCACGTGAATGTCTATTTCACGCAAACCGCCGAGCGGGAACTGACGGTACTTAACGGCCTGATGGATCACAGTCTGGATGCGGCGTTCCTGCTCACTCGGCTGAATCATTGGGACCGGCTCACCCCGTATACCCAATTCGGCCCGCTGGCCACGTGGCAGCGGGTCGATTCACCGGTCATCTATTCGTCTTATGTGGACCATTATCCGCTGTATATGCAATTGCTGCGGCGGCTGGCCGCCCAGGGTTACCGGCGCATCGGCAGTGTCTTCACCGGCACCCGCCACGCCAACACCCAGGCCAAGTTGCAAGCCTTGAAGGACTTCCAAGCTGAAGACCCCGCCGTGGACACGAGTTGGATTCAGTATCATGAAGGCCAGCACGGCGCGGGCAGCCAAGCGGCCGATGTTTGGCTGACTACGCCGCAAAGGCCGGATGCGGTGATTTGTTTTTCGGATTACGTGGCGGCGGCGTTTATTGCCCATCTCCGGGAGGCTGCCATCCGCGTGCCCCAGGATGTGGCGGTGGTCGGCATGGATAACAGCGAGATCAGCCGCTTGATGGGCATCACGACGGTGGACCTGCATATTGAAGCCCAGGCGGAGAACGATTTTGCCTATCTGTACAACCAGCTCAATGAGCCGCAGCAGCCCATGAAGCCAGTCGTGCCGAAAATTATTGAACGGCAAACCACAAATTATTGA
>SRR1151209_00486 N(4)-(beta-N-acetylglucosaminyl)-L-asparaginase
ATGACAATTGCAATGATTGGTACGTGGCGCATGGCGGAGACCGGGATCACCCCGGCGATGGCCGAATTGCGTGCTGGGGGCAGCGCAGGAGACGCTCTGGTAACCGCGATTAAAGCGGTGGAGGATTATCCGTATTACCAATCCGTCGGCTACGGCGGCTTGCCCAATGCAGCCGGTGTGGTGGAAACTGACGCGGCCTACATGGACGGCGATACCTTCCGCCTAGGGGCCATCGCCGGTGCCCGGGACATCGCCAACCCCATCGCGGTGGCGCAAGCGCTGAGCCAGGAAGCGGCTAACAACCTGTTGGTGGGTACCGGAGCCACCGAGTACGCCAGTACCCATGGTTTTCAGTTAAAAAATATGCTGACGGAACGCGCTGGTCAGAAATGGGAACAGAAGCGCCAGGAATTAGCCAGTAAGAACCTGAATCCCTATGACGGGCACGATACCGTAGGCATGGTCGCGCTGGACGCTCAGGGCCGAATGACCGTGGGTACATCCACCTCTGGGCTGTTCATGAAGCGCACCGGCCGCGTGGGCGATTCTCCGCTGCCTGGGGCCGGCTACTACGTCGACAGTACAATTGGCGGGGCCGCGGCCACGGGCATGGGGGAAGACTTGATGAAAGCCAGCCTCAGCTACGAGACCGTTCGCCTGATGGGCACCGGGCTTAGTGCCAGTGAAGCCCTGCGTCAAGCCGTATATCCGTTCATTGATCGGCTAACCAAAATTGGCCAGCATCCCCGGGAATTTTCCTACGTTGCTTTGCGTCAGGACGGCGACTGGGGCATTGCGACGAATGTGGAATTCACTTTCGCCGTGGCTCAGGATGATGGCGCGACGCAAATCTATATTGCCCAGCCCAACGGCGACCAGCCGGATATTCGACCGGTCACGGCCGAGTGGCTGGCGGCAGACAAAGCCCGCCGGCAAGCACCATTAGCTTAG
>SRR1151209_00487 cellobiose-specific PTS system IIC component
ATGAATAAATGGATGGAAAAACATGTCTTACCAATTGCGGTGAAATTGAGCAATAACGTGGTGCTCAAATCCATGCGGGATGGCTTCTTGATCATTACCCCGCTGATCATCGTGACCTCAATCTTCTTGCTCCTGGGCAACTTCCCCATTCCCCATTGGGAAGAATTCTGGACCGGTGTCTTCGGCAAAGGGTGGATCGACTGGTTCACCGCCGTATCCAATGCCGTCTTCAGCTTTACTGGGATGCTGTCTTCCCTGGCAGTCGCCTATGCCTACGCGAAAAACCGCGGCGTGGATGCGATTCAAGGGGCGATCGTGGCCCTGGTCTCCTTCTTTATTTTGACCCCGACCACCATGGTCGTTGGCAAGAAGACCATTTCAGCCGTGAATACAACTTTTGTTGGCCCCAACGGGATCTTCCTCGGCCTGGTCATTGCTTTCGTCAGTGTGGAAGTCTACCGCTTCGCCGTCAAACGGCATTGGGAAATTAAAATGCCTGATGGCGTGCCGCCAGCGGTCACGGCCTCTTTCTCTGCCTTGATCCCCAGTGCCTGCGTCATTCTGGTGTTCTTCTTTGTCCGCTTGATTTTTACGTTCACCAGTTTCGGTACCGCATATCAATTTATTTATTCGATATTGCAAGCCCCGCTCAAGGACGTGGGCAACTCGCTGCCGTCCGTCCTGCTGTATAATACGCTGTCCTCGCTGCTGTGGTTCTTCGGGATCAACGGCCCGGCGGTGGTCAACAGCGTCTGGTCACCGATTTTCTTCGTGCTGACCCAGGACAACCTGCACGCGTTCCAGCAACATCAGGTGCTACCCCATATTTATACCCAGCAATTCATTGATATGTTCACCACCTTTGGCGGCGGCGGTTCCACGTTGAGCCTGCTGATCGTCATTCTCTTCTTCTGCAAGTCCAAGCGCATGCGGGAACTGGCGAAACTGGCCTTGGTGCCGGGGATCTTCGGCATCAACGAACCAATCATCTTCGGCTTGCCGGTCGTCCTGAACCCGGTGATCGCGGTGCCGTTCATCATCACGCCCGTTTTGAATACTTTGATTGCCGGGCTGTGCTTCACCTGGGGTTGGATTCCGTATACCAACGGGGTGAATCTGCCCTGGACGACGCCCATCGGTTTCTCCGGCTGGCTGACCACCGGCAGCTGGCGGGGCGTGGTATTGCAGTTTATCCTCTTGATTCTCGGGTGTTTGATCTACTATCCTTTTGCCAAGGTTCAGGACCAGCAGTATTTGGAATCTGAATTGAAGGCCCAACAAGCGTGA
>SRR1151209_00488 dipeptidase PepV
GTGAAACCATTAGAGCAGAAATTTGAACAGCGGCTGGACCGTGATTGGCCAGCGATTACCGCCGCCCTGCGGCGCTTGATTGCCGTGCCGTCCGTAGAGGGCCCAGCAGCGCCCCGTGCGCCCTTCGGTGTCAACCCCCGGCAGGCGTTGACCACTGGGTTAGAAATTGCCCAAGAAGCCGACCTGACCACCGGCCTGGCTGGGGACGCCGTCGGCTGGGGCGAATACCGTTCGCCAGCTGCCGCCACGGATGACTACGTCGGCATCGTCGGCCACTTGGATGTGGTGGCTGCCGGCAGCGGTTGGCACACTCCGCCCTTCGAGTTAACGATTACGCCGACTCAGTTCTTGGGCCGCGGCGTTTTGGACAACAAAGGGCCCTGGTTGTCTGCCCTCTGGGCCCTGCGCTGGCTGGCGGAAGATGGTGCTCCGCTCAAGCGGCCCGTCCGCGTTCTCGCTGGCAGCAATGAAGAAAGCGGCAGTCAGGATATTCCTAAATACCTGGCCGAGCAGCCCGCGCCCATTTGGGGCTACACCCCCGATGGCAAATATCCCGTCGTCTACGGTGAACGGGGCATCCTGCGAGGCGCGATCACCTGGCCCATCGACACTGCTGTGCTGGGTCCGCAATTCGCCATCAGTGGCGAATTCTCCCCGGCCATTGTTCCCGACCGGGCCGCCCTCACCTTCCCGGATGGTCATCAAGAACACTTCCACGGGAAGAAAGCACCCAGTAACGCGCCAGAATTAGGCGACAATGTTTTAGATCACCTCACTGCCGCCGGTACCCAGCTGCCCGGCGGCGCCGGCGACTTGTTCCAGTGGTATCAAGCGCACTTTGCGGGGGCCTTTGCTGGCGAACACGCCAATATCCGCTTCACCGATCCGGTGAGCGGCGCACTGCAATTAACGCCGTATCGTATTGCGCTTTCTGGCGACCACCTCACTCTGGCCTTCTCCATCCGTTATCCCTTAAATACGACGGAGGACGAAATTGTCAGCAACTTGCGCGGCCTGCTGCCGGCGGGGGCCGCCTTGACGGTGACCAGCCGCATGGCCCCGGTCAAACACGACCCCCACAGCCCGTTCATCCAGGCTTTGGCCAAGGTATACACCGATATCACCGGCACCGATGGCTCACCGGTCACCACCACCGGCGCCACTTATGCCCGCAGTATGCCCAATATTGTCGCTTTCGGTCCTTCCTTCCCCGGGCAAAAGGGGATCGCTCATAAGGAAGACGAGTGGCTGAATATTAGCGATTTCCGCCGCATGCTGGTGATCAATTACCTGAGCATCCAAGCCCTCGCAAACCTATAA
>SRR1151209_00489 cation transporter
ATGGCCCATGTTCATTCTCAACCCACGCCGCCGCAGGATCATACGGCAGCCTTCAAATGGGGCATTGGTTTAAACGCCGCCTTTATCATCATTGAGGGCGGGGTCGGTCTCGCGATGGGGTCTCTCGCCCTGGTGGCCGACGCTGGTCACAACCTTTCTGATGTCTTAGGGCTGGCCATTTCCTGGGCCGCGATGGCCCTCAGCCAGCGCGCGGCCACCAAGAAATTCACTTATGGTTACAAGCGCTCGTCTATTCTGGCCGCCCTGCTGAACGCCGTCATTTTGCTGGTGGCGATCGGCGGAATCATTATTGAGGCCTTGCAGCGTATCCAGCACCCAGCGCCGGTCTCCGGTTGGTCCGTGATCATCGTGGCGGCTGTCGGGGTGGTGATCAACGGTTTGACCGCTTTTCTCTTCCTTTCTGGTCAGAAACACGACCTTAACATTCGCGGCGCCTTTCTCCACATGGCTGCCGACACTGCCGTCTCCGTCGGGGTCGTCATTGCCGGCTTCGTGATGCTGTATACCGACTGGTACTGGCTGGACCCAACAATCAGTCTGATCATCGCGGTGATCATCCTGATCACCACTTGGCATCTGCTGATGGATGCCGCCCGGCTCTCCTTGGATGCCGTACCAAAGAATATCGACTTGGATAAGGTGCGGGAATCGCTGCTGGCAATCCCCAGTGTAATTGAGATCCACGACCTGCACATCTGGCCGTTGAGTACGACCGAGAACGCCTGTACCGTCCATCTGGTGCGCAACACCATGGCGGATAACAACGCCTTCCTGGAACGCTGCGACCGGCTGCTCACGTCCCAATACGATCTTTGTCATGTCACCACCCAGGTTGAGCTGGGCCGGCTGACCGATGAGTCCACGGATCATTCAGTATAA
>SRR1151209_00490 hypothetical protein
ATGAATGCCAGTGTTGCGATTCAAGTACTGCCCATGTATCCGGATAAGCAGAAAGTGGTAGCCATTGTGGATAAGGTGCTCGATTATATCAAGTCCACCGGCGTCACTTACGATGTCAGTGCCTTTGAAACCAGCTTGGAGGGCGATTACGACCAATTGATGGACATTGTCAAAGAAGTGCCCAAAGTGGCCGTGAAAGCTGGGGCCGACGCGCAGATGGTGTACGTTAAGATCAACTATTTCCCGGAGAGTAAGGGCTTGACGATTGCGGACAAAGTGACGAAGTACCGGGAATAA
>SRR1151209_00491 ABC transporter permease protein
ATGTTTAATCTATTTCGCAATGAATGGCGCAAACTTTGGGCGAAGAAATCATCCTGGATTCTGTTGCTGATCGCAGCGGTGATCTCTGGTCTGACCGCCTGGGGCGCCAAGGCATTGAACACCAGCTTCACGGTTGGGACCAACGGTGCCGCAACTGGCGGCAGTACTGGCGCAATCAAGGCCGCGGATGCTTTTTCCTCGATCTTTTCCAGCGGGGCCGCCTTTGTCGTGATTTTTGCCATTGTCATGACGGCCATCATCATTACTGAAGAATTTGCCAAAAATACGATCAAAATCTTACTGACTCGGCCGTATTCCCGCCACGCCATTCTCTTTTCCAAACTGTTAGCGAGCTTTGCATATCTGGTTGTTTCACTCTTGACCATCTACGTAGTCGCTGCACTCTTTACCGGGGCGTTCTTTGGCTTCGGCGGCTTGGATAAAGTGGTCGGCCATGGGATGAATTCTTGGCTCTATGGCCTAGCTGATGTCGGGGTGAATGTGCTCAGCAGTATGTTCTACCTGTCGATGGTTTTTGTGCTGGCAGCAGGGATGCGATCCCAAGGGCTGGCCATCACGTTCAGTATTCTGATGCAGCTGGTGCTTGGTATCTTCAGCGGTCTATTGGACGTGCTGATGACGACTAAGAAGTGGTACTGGATCAAGTGGAATCCGTTCAATTTGATGGCTTATAATCCGTTATCCAGTTCGCAAGCAACCGGGGCGGCGGCCTTGAATGTTTGGGGCTGGCTGATTGGCTTAGTGATCTATATTGCGATCTTCTACCTCATCGCCGACTACATCTTCAACCGCCGGGACGTTTCCCTGTCCTAG
>SRR1151209_00492 ABC transporter ATP-binding protein
ATGGCAGATACGACAGACTACGCCGCCAGTGTCGAGCACTTATCCAAGAAGATGCACTACGTTCAGATTTTGAAGGATGTGACTTTTTCTGTGGGTAAGGGCCGCATCCTGGGTCTTTTGGGACCAAACGGGGCCGGCAAGACGACGACGCTGCGGATCATGGTGCATTTGATGCGCCCGACCAGCGGTACGGTGACCATCATGGGGGAAGATGTTGAAAAGAACTTCACCAAGGCCATCGCCCACGTCGGGGCAATGATCGAAGCGCCGGAGTTCTATAATTATCTGACCGGCTTCAAGAATCTGCGCCTCCTGGCAGATATGAGCCGGAAACAGATCAGCAATGAAGATATTAACGCAGTCTTAAACCGCGTCGGTTTGGCCAATCATGGCAATGCCAAAGTCAAGACGTATTCTCTGGGAATGCGCCAACGGTTGGGTGTTGCCCAGGCTATTTTGCACAAACCGGAAGTGTTGTTGCTGGATGAACCGATCAATGGCTTGGATCCGGCGGGCGCCCATGATTTTCGGACGCTGATGAGTGATTTGCGCGATCAAGGCACAAGCATTGTCATTTCCAGCCATATCTTAAGCGATATTCAATCTCTGGCTGATGATTTGGTGGTCTTGCAGCACGGTCAGGTGACGTACCAGGGGACCATGGATGAGTTGATTTCCCACGGCACCAACCACTTGACCTTGATCACCGCCAAGCCGGACGACACGGTCGTCATTTTGCAAAAACTGCAAATGCGCTATACCCGCAAGGCCGATACCTTTGATATTGAGGTACCTGCTGGCGATCCCCATGCGTTCCAGAAGCAGCTGGCTGAAGAATTGTTCAACGCCGGCATCCCGGTCACGACGATGCAGCTGAAGCAAGCCAGCTTGGAAGAGAGCTTCTTGGCGCTGACCAAAGAGGAGGGGGAGAAAGCCAATGTTTAA
>SRR1151209_00493 alkaline-shock protein
ATGACCACAGCAACGATGGACAACAAGCAAATGACCGGCGTGAACAAGGAACTCTCTTTCAATGACAATGTGATCGCTAAGGTCGCTGCCCACGCGGCCAGCGACATCGAGGGCGTCTTAGATCTCAAGGGCAGTATGATGGATAACATGACGAATATGTTCACCTCCGGCGATACCCGCGGGGTCAGCGTGGATGTGTCTGATGACGCTGAAGTGGCCGTTTCCTTCGAAGCCATTCTGGAATACGGCAAGAGTGCGCCAGCCATCTTCGACCGGGTGGTGAACACGGTCTGCAAGACGATTCCGGAACTCACGGGGTTGAAGGTGACCGAGGTTAAGATGAACGTGAAGGACATGCTGACTCGGGAAGAATGGACCGAAGAGACTAAGAAGAACGACGACGATACCCACAAGTAA
>SRR1151209_00494 alkaline-shock protein
ATGGATGCAACGCAAGACGCAGTAACCAAGACACCCATGGTGAGCACGCTGAGCTTTGCCGATGGGGTCATTACTAAGATCGCTGGGGTGGCGATCCGCGAGGTGGACGGGGTGCTGGCCATGACCGGCGGCTTCTTGGACGATATCGCAGATAAATTCCGCAATCAGGTCGACTTGACCAAAGGCATCAGTGCCGAAGTCGGAGAAAAACAAGTTGCCATTGATGTGGATATTGTCCTGGAATACGGGCGTGATGCCCAACAGATTTTCCAAAAAATCTGCGATCGGGTCCGGGACCGGATTGAGGGGATGACCGGACTCACCGTCGTGGAATTGAACGTCCACGTCAGCGACGTATTAACTCGAGAAGCGTGGCGCAAGCAGGCCACAGATAATGCATTGGCGCGGCAGAAGAAGCTGGCCACCCAAGGTGTGTAG
>SRR1151209_00495 hypothetical protein
ATGAGTCGCGCCATGAAATATGCCTTGATTGGCGGTCTGATCACGACGGCCATCATTCTGGCCGGATTCTGGTCAGCCCTATTGATTGTTGCCGTTGCCGGTATTTGCTGGGTGATCGGCGCTTTCCAAAGCGGGGAGATCTTGCCAGTGCTGAAACGCATTCAGCAAATGCTGCAAACGAATTGA
>SRR1151209_00496 hypothetical protein
ATGCGTTCAGGGACGAAAGTCATCTTAACGCTCATGGGACTAGTGGCCTTAATCGCGCCATTACTACTGCTGGTGCTGGCGGCACCGGCAGTGTCCTGGCTGATGCCGCTGCGGCGGTGGCTGAGTGATCAGGCGTGGTTAGGCACCACCGCGGCGATCCTTAGCCTATGGACACTGGTCTATCTCTTGGGGGCGATGTTGCGGATACTCTTCAAAAAGGCGACGACCGATCAATTGACCTTTGCCACTAATCAGGGGCAGCTGCACATTTCGGAAACGGCAGTGGCGAACACGGTGGAACGGGCCGTCGTTGCAGAACACCCGGTGACTCGGGTGGACGCCCGCGTGGCACTGCTCGATCGGGGCCAAAAAGCTCGGGTCACAGTACAAGCGTTCACCCACCACGACCAGGGTCTGAAGCAATTGGGGGCCGACATCGAACAGACGGTGCGGGACAAAGTACAGACGACCTTGGGGATTCCGGTGGAAAGAGTACGGGTCACCGTGGCCCCGGGCAAATCCGCTAACGCCCGGGTGATCTAG
>SRR1151209_00497 galactitol-specific PTS system IIB component
ATGAAAAAGATTCTCGTAGCCTGCGGTGCCGGTGTGGTCACCAGCACGATTGCCATTGGCAAATTACAAGAAGAGTTAGACAAACGCGGTGTGCCTAAGGACGAATACAAGATCGACCAAGCCTCGATCCCCGAAGTACCGTCCATGGCCGATGACTACGATTTGGTCATCACCACCACCCAATACAAGAACCCCAATGGCAAGCCCGTCACTAACGGCCTGCCGTTCCTGACCAATATTGGTCTGGATCAAACAATGGATGAAATTATCAAGCATCTGGACTTGAAGCCCACCAAGTAA
>SRR1151209_00498 galactitol-specific PTS system IIC component
ATGAAGTATATCGTCGATGCCATTATGTACATCGTCAATCTCGGCCCCACCGTCATGATCCCGATCGTTATGCTGATCTTCGGGCTCTGCATGCGGGTGCCGTTTGCCAAAGCCCTGCGGGGCGGTTTAATGGTTGGGATCGGCTTCATCGGGTTGAACGCGACTGTGTCCATCCTGACCAGTGTCATGAATCCGGCGATTAAGAACATGATCGCCATTGCCCACATCAACTTGAAAGTTATTGATGTCGGCTGGCCGTCCGCCAGTGCCATTGCTTATGGGACGGCGGTCGGGGTTTCTATGATTCCCCTAGGCATTTTGATCAACATCATCATGCTGCTCACCCAGACCACTCAGACCATCGATGTGGATATCTGGGATTTCTGGCACTTTGCTTTCAGCGGGTCCTTGGTTTATCAATTGACCCACGACATTGTTTTGAGCCTGTTCCTGGCTTCCGTCAACATGATCGTGATCATGGTCATTGCCGACCGGATGGCGCCGTTATCTGAAAAATACTTAAGCCTGCCCGGGATTTCTATCCCCCACGGCTATGCCGGTTCTTTCGTGCCCAGCGCTATTGTCATTAACTGGATCCTGGAGCGGATTCCCGGCGTGAACAAAATTCACTTGAACGCCGAAGACTTCAACAAGCGCTTCGGTGATTGGGGTGAGCCGACCCTGCTGGGCTTCGTCATCGGCTGTATTATCGGGGCCATCGCCTATGCGGCCGCGCCGGGGGTTAACGTCGCGGATAAGATCGGCAAGATCCTGCTGATGGGCGTGACCCTGTCTGCGGTCATGGTCATCACGCCGAAGATGGCTGCTTTGCTGCTGCAAGGGGTCATACCGGTTTCTAACGCCATCACGGGTTGGACTCAGAAGAAGTTCTCCGGCAAACGCAAGCTGTACATTGGGATGGATACCGCCGTTGGGATCGGCAGTCCCGTCGTTCTGGCCTGCGCGACCTTGATGATTCCGGTGGCCTTGATCTTTGCCTTCATCCTGCCGGGCAACCAATTCCTGCCCACCATCGGGCTGGTCGGCTTCGTCTTCATGTTTCCGCTGATCGTTTCCGTGGTCCACGGCGACTTCTTCCGTTCCTTCATCATTGGGGCGATCAACGTTATTCTGGGTCTGTGGATCGGCACCAACCTGGCGCCGTTGATCACGAAGGCCGCTCGGGCCGCGAAGTTCCCGATCCCCAAGGGCTCTTCTCTGATTTCCAGTATTGACCACGGTTCCGACCCGTTCCCTTGGTTGCTGGTGCAAGTGGCCAACTACAAGTGGGTGGCCTACATTCTGGGCATTGCCCTCTGCGCGGTATTGGTTCTCTGGAATCGCCATCACATCGTTGCCGACGCCGAGACTGGTTCTGCCAAGGCCAATGCGCAATAA
>SRR1151209_00499 galactitol-specific PTS system IIB component
ATGAGCGCGCTGAAACGGGTCCTCATCGTCTGCGGCGCTGGAGTGGTCACCAGTACAGTGGCCATCGAACGGCTTCAGGAAGAAATCAACCGGCGCGGTTTGCAACACCAAATCAGCCTGACCCAGGGCAACTTCCAAGATGCCCTGGCGGATGGTGATACATATGATCTGGTTTGCACCACCACTGTAGTGCCCAATGGCATGCCAGAACATATGCTGTCAGCATTGCCACTGGTCTCCACGGTTGGCGTGGACCAGTTCTACACCATATTTTTTACCAAATTAGGTTTGCCGCAATAA
>SRR1151209_00500 PTS sugar transporter IIA component
ATGGGCTTAATTAGTGAATCACTCGTATTCCCAGAGCAGACATTCGCCAACAACGAAGAAGCGTTGCGCTTTTTGGCGGAGAAATTGAACGCTGCCGGCAAGGTGCATGACGACTTCTTCGATGCCGTTTGGGCCCGGGAACAAAAATTCCCCACCGGTTTGCCGGCGGGCAAGATCAACGTGGCCATTCCCCACGCCGATGCCAAATATGTCAAAGAATCCGCCATCGCCGTGGCGACGCTGGCCAAGCCGATTCAATTTCACAACATGGCCCTGACCGATCAAGAATTACCGGTTAGTCTGATCATGATGCTGGCCATTCATGAACCCCATGGACAAGTGCAGGTGCTGCAAAACGCGATGGCTCTGTTTCAGGATGAAAAGCATCTGGCCCAGTTATTGGCTGAACACGACGCGCATACGTTATTTGCCGACTTGGACAAGACTCTGGCCGGCATCTCGTTAGACCAATGA
>SRR1151209_00501 heat-responsive suppressor HrsA
ATGCGCATTGACGTATATCCGACGACCACCATTGGCTTTCGCCCGACACTGACCGCGGTGGGCGCGTACCTTGCTGCAAGGGGCATTGTGCCGAGTGCGTCTGTATTTTGCGAAACGGCATTAGCCCGCGAACAACTCGGCAGTACCAGTATCGGCGCCGGGCTAATGGTGCCGCATTACATGGCGGCGGGCTTTACCCCCGCGCGACTGGTGCTGGTGCCGATTCATGCCGACGCCAGTTGGGCGGGGGTGGACGGCGAACCGATCCAGCTGCTGCTGATCACCTGCTTTGATCCCGCTATGCCTCAACCGGCGTTCCGCGATCTGCTGCGAGCGCTGGCGGATCCCAACAATGGCGCTCGGCTGATTCAGACACCGGATGCAGAGTTAGCCGCGGTGGCGGCTAAAATGATGAAAATGGAGGACAACAATGGGCTTAATTAG
>SRR1151209_00502 transcription antiterminator BglG
ATGAGAGAACGGACAAAAGAGCTGCTGACTCTGCTGGCCCGCGCCGATGGCTATGTCACCGCTGAAGAACTGGCCAACAGCTTAGCAGTATCGAACAAAACAATTTATCGCCTGGTAGAAAGAATCAATGCGGCCCATACCGAGCCGCTGATCGTGACCAGCCGCGGCAAAGGCGTCAAGCTGTTGAGCGAAAACGCGGCGGCCCCGGTGAAACCGGTGATGCCCAGCGGTCACAGCGAGTTTTCCCCGTTGCAGCGGCAGAATAAAGTGTTGCTGACGCTGTTATTCAAGGCCCCATATTATGTTCAGCGAATTCAACTTTTCGCGGCATATTATGTGAGCGATTCCGTAATTCAGAGTGATCTCACGGCAATCAGCAATTTGCTGGCCGCCGATGAGTTGAAGCTGGTCCGAGATCACACGCAAGTGGCGGTTTCCGGTAAGGAAGAGAACATTCGCCGGGCCATCAATCACACCCTGGAACGGCTCAATTTATTCTCGGTCACCAGTATTTCCGAATTCAGTGCTGGCGCCACCGGTCTGGATAAGTTTGACCAAGCCTTCATCGTGGGCGAGATCAACCGCATTGAGCGCACGATCGACGGCGATATTCCCTATCCGTACAACATTAATTTGTTCTCCCATATGTATACCCTGATCATGCGGGCGCGGAACGGCCGCTGGGCCGAAGCCGATTACCAAATGACCCCGGTAGATGTTCAAACCGCCCGGGATAATGCGGTGCTCTATGAGTTAGCCAAGGTCATCATCGGTGATTTTGACCGGTATCTGGTGACCCAGCTGCCTCTCACGGAAGAACTGAACATCTTCCAGTATCTGCTCTCCATTCAATTGGGCGGGGAAGCGTCGCAGCTTTTGCCCATGGCCCCCGAGGTATCAGCGTTCACCAGATTTCTTACGGACCAAGTGGCCCAGCAGAGCCACCTGGTCTTGGATGCCGCCTCCTTGACGGATCTGGAGCGGCATATTCAGCCGATGCTGAATCGGCTGCGCAACGAGATCACCGTTAAGAACGTCTGGCTGACAGAGATCAAGAAGCAATACGGCGACTTGTTCAAAGTGATTGCCCAGGCGTTGACGGCAGCGGCTAAACATTTTCGTTTGGCCCCGATCAGTGCTGACGAAGCCGGGTTTGTCACTCTGTACTTCGCCCGCTGCATGGAGGAACAGGATCGGCCCAAGCGGGTCGTGATCATGTGTACTAGCGGGCAGGGTACGTCGGAGCTGTTGCGGGTCAAGGTCAACAAGTACTTCCCGGATCTGGTGGTGCCGGCGGTGATTTCCACCGCCCAATATACGGAGGACAATATGAGCACGTGGCATCCGGACGTGGTCTTATCCACTGTTCATGTCCAGCCCATTGATCATGTGCCAGTCCTGTTGGTCAGTGCGTTATTCGGCGATTTAGACCGCACCAATCTGCGGCACATCCTGAATGACCAAGTGGAGGCAGCCAATGCGCATTGA
>SRR1151209_00503 transcriptional regulator
ATGTCATTGGGGGAAAAGCTATTTAAGTTGCGCAAACAGGCCGGCTATTCCCAGGAGACAGTTGCCGAAAAGGTGGGGGTCACCCGGCAGACAATTTCCAAATGGGAAAACGACCAGGCGTTACCGGAAATGATCAAAGGAAAATTATTGGCAGAACTCTATGGCGTTACATATGACAGCCTCGCCAGTGAAATTACTGGCACGCGGACAATCGCCGCAGCAGCGGATCCAACGCCGGACATTGATTGGACCAATGCCTGGAATAGGAGATACCCGGTTTTAACTCATTATCACGACGATCCGAAGTCCCATATCATGCGGTCCCAAGTATTCGGGTTGTACGATGATATTCAGAGAGAATTGGGGCTTTCTGAACTCGATACTTTCCTCGTCATGCGTGATATGGTGTGTGAGCGGTACCGGCAGTATACCCGCAACCGGGGGAAACCTAACTGA
>SRR1151209_00504 hypothetical protein
ATGATCGTTGAATTACAACCCGTCGCCACTACCCGGTACGACGCAGTGTTGAAAAAAGTCGGCAAGCGGCTCGCGGAACAACAGGTGATTGCTTCCCCAGACCTGTTTCTCGCCGGCGTCGCGGCTTGGCCCGGGAAGAACAAGACGCTGGCCAAACAAGGCATCCGAGTGCTTTGCTTTGATCCCCCCACATCCGATGATCCCCGGGTGGTGACCGCTCCGCTGATCAATGAGCAAAGCTTCCAACGGGCAGACCAGCTGCCGCTGTGGCTGGTCATTGTCTTGATCGGGCCTAATACGCATAATCAGCCTGAATTCATTCAGCTTTTGCGTATCCTGGCCGACCCGCAAGCCTGCCGCGAACTGCATCAATTGCCGGTCAGCCTGTTATCCGGTGCCATTCGCCGCCTGCTGATCTTGGAAAACTAA
>SRR1151209_00505 oligo-1,6-glucosidase
ATGAACAAGCATTGGTGGCAAGAAGCGGTCGTATATCAAGTATACCCCCGCTCATTCCAAGACTCGAATAAGGACGGCATCGGCGATTTGGATGGCGTTCGGCAGCGGCTGGACTACATCAAGAAACTTGGGGTGGATGTGATTTGGCTCAACCCGATTTATCGTTCTCCGAACGATGACAACGGCTACGACATCAGCAACTATCAGGCAATTATGCCCGATTTCGGTACCATGGCGGATTTCGACGCGTTGTTGAAAGAGGCCCACGCTAAGGGTTTGAAGATCGTCATGGACTTAGTGGTCAACCACACATCCGACGAGCACCACTGGTTCATGGAAAGCCGCAAGAGCAAGGATAATCCGTACCGGGACTACTACATTTGGCAGGATCCGGTGGATGGTCACGCACCCAACGACTGGAAATCGTCATTCTCCGGCAGCGCCTGGCAGTTTGATGATACGACCGGCCAATATTACCTGCATCTTTTCTCAAAGAAACAGCCTGACTTGAACTGGCGCAATCCTAAGGTGCGCAACAGCGTCTTCGATATGATGAGCTGGTGGCTGGATAAGGGCATTGACGGTTTCCGGATGGACGTCATCAACCTGATTTCGAAGACCAAAGAGTTCGCGCCTACCGCTGAGCACCCCGTACCGCGGCAACCGGCCAACGGGCCCCACGTTCACGAATACTTAGAAGAAATGAACCAAAAGGTCTTGAGCAAGTATGACATCATGACTGTGGGCGAGACGCCCGGCGTCCACCCAGATGATGCCCTGAAGTATGCCGGCTTTAACAGCCATGAACTGGATATGGTCTTCCAATTCGAGCATATGGGAGTCGACAGCGACAAAGAACTTGGGAAGTGGCGCCCGCACCAGTGGCAGCTGACTAACCTGAAACGCATCATGAGCAAGTGGCAGACCGAACTGAATGGCAAGGCCTGGAATTCCCTCTATTGGAACAACCATGATCAGCCCCGGGTCGTTTCCCGCTTCGGCAACGACAGTCCGGAGTTTCGGGTCCGGTCGGCTAAGATGCTGGGCGCGGTCCTCCACTTCCAGCAAGGGACGCCGTATATCTATCAAGGGGAAGAAATCGGCATGACCAACGTCATGAACTTCAACTCCATCGAAGATTACAAGGATATCGAATCCCGCAATGCCTATCGTGACTTGGTAGAGCAGCATCAGGTGCTGACTAACGATCAGATGATTGCCGCCCTGCACCATTCTTCCCGGGACAATGCCCGGACGCCGATGCAGTGGGATGATTCAGTTAACGCTGGTTTCACCCCAGAGGGTGTGGATCCGTGGATCCAGCTGAATGCCAACTACGATACGGTCAATGTGAAGGCGGCCTTAGCTGATCCGGAATCGGTGTTCTACTTCTACCAGAAGATGAACACGCTGCGCAAGCAGTATCCAATCATCACGTATGGTGATTACACATTGCTGGATCCGGATGACGAACAGACCTGGACGTATACTCGGGAGTTTGAAGGTCAAAAATTGACCTTGACGGCCAACTTCAGCAAGGATACGATCACGCGTGATTACGCGGCGGCGCCGGCGAATACGAACTTGATTCTCAGCAACTATGATGATGATCAAGGCAGCACGTTGCGGCCTTATGAAGTGAAGGTTTATCTGACGAAGTAA
>SRR1151209_00506 aspartate-semialdehyde dehydrogenase
TTGGCAGAAAAATCATATACGGTCGCGATCCTCGGGGCAACGGGTGCTGTGGGCACCCGCTTGATCACGCAGTTAGAACACTCCACGATTCCAGTGAAACAGGTGAAACTGTTGGCGTCATCCCGGTCCGCTGGTAAACAATTATCCTTCAACGGGCGGCCAGTTACCGTCGAAGAGGCCACGCCGGCGTCCTTCCAGGGGATCGATTTGGTCCTGGCCTCTGCGGGCGGCGCTGTGTCTAAAGCGTTATTGCCCGCAGCCGTGGTGGCTGGTGCAGTCTGCGTGGACAACACCAGCTACTGGCGAATGAACGATCACGTGCCGCTGGTGGTGCCCAAAGTGAATGCGGCGGCGCTGGCGGAACATCACGGGATTATCGCCAACCCTAACTGTTCCACGATTCAAATGGTGGTTGCCTTGGCGCCAATTCGCCAACAGTATGGGCTCAAGCAAGTGATTGTCTCCACTTATCAGGCAGCCAGCGGCGCCGGGCAGAGTGCGCTGAATGAGCTTTATGCCGAAGCCAAGCAGGCTGTGAATGGCGAAGAAATGACGGCGAACATTTTGCCGGTGAAGGGGGCGGCGCACCACTATCCCTTGGCGTTTAATTTGCTGCCGCAAATTGATGTCTTCCACGATGACGGTTATACCCACGAAGAGTGGAAGATGATCCACGAGACCAAAAAAATTCTGGTGGGCGATAAAAACAGTCCCGACCCCAAAGTGACCGCCACCTGTGTCCGGGTGCCGGTACCCATCAGTCATGGGGAATCCGTCTATATTGAGACAGAACAGCAGCCATCCCCAGCCGACTTGCGAGCGACGCTGACCGCCGCCCCGGGTGTCGTGGTGCAAGATGATCCCGCCCAGCAGTTATATCCCCAATCGCTGACCGCTACCGGCAAACGGGATACGTTCGTCGGCCGGATCCGCGCCGACGTCGAAAATCCCGGCAGCTACAACCTTTGGATCGTGTCCGATAATTTGCTCAAAGGGGCCGCCTGGAACACCGTTCAAATCGCCGAAGAGTTGGTCAAACAGAACCTAGTCCATGTGGCGGCCGGTGATGCCGCTTTGTTTTCTGACCAGGATTAA
>SRR1151209_00507 homoserine dehydrogenase
ATGACGATCAAGATTGGGCTGCTCGGACTGGGCACAGTGGGCGGCGGGGTCATTGATATTTTGCGCGCACAGCATCCCGCCTGGCCGGTCCAGGTCACCCGGGCGGCAGTACGGCACATCACCCCGGCCCGCCAAGCCCAATATTCGAACATCCCGCTGACCACCGATGCGGCCAGCGTGGTCGCTGATTCGACAATTGATGTCATCATTGAAGTGATGGGCGGTGTTGACCCGACCTTGCCGTTGCTAGAAACGGCTTTGTACACGGGGAAGCACGTGATTTCGGCCAATAAGGATCTCATCGCCCAACACGGCGAAGAGCTCGCCCAGTTGGCACTGGCTCAGCACGTGGGTTTTTATTACGAAGCCGCCGTGATGGGTGCCATTCCGATTTTACATACTCTGGCCCATACGTATCCAAGTGACCAGATCCAGCGCATCGTCGGGATCGCCAACGGCACCAGTAATTTCATTTTGACCCAGACCAGTTTCTTTGGCTCCCGGTATACCAGCGCACTCAGAGAGGCTCAGGCCAAAGGCTTCGCCGAGGCGGATCCGACCAATGACGTATCTGGGTTGGATGCCGCCTATAAGCTGGCGATTTTGACCCGCTTGGCCTTCGGTGTGACGCCAACCATGGCCCAGATTCCACGGCAGGGAATCGATCAAAAACTCCCTGACGCCATCGTCAAACCGTTGATCATTGCCGAACGTCGCGGACCGCGTCAACTCATGTTGGCGGTGGGGCCGTATGTGATCAAGCCCAGTAATCCGCTCAGCGGCGTGAACGGCGCCAACAATGCGGTGCTGATTTCATCCACCAACATGCAGGACATGATGCTCATGGGCCCCGGGGCTGGGGCCCGGCCCACCGCCAGCGCGGTATTGGCCGATCTGGCCGACCTCGTGACCCAGATCCGCCAGGGCACGGTGCCGGATCCGTATCATGAACGGACCCGCTCGGCCGCCGACTGGCAGATCATTGCACCGGAGCCGGTCAGCACTGGTATTCCAGTCTTAGCGTAA
>SRR1151209_00508 homoserine O-succinyltransferase
ATGAGTACAGTGACCCGATTGAATGGGCTGACCCGGGATCCGGTGCCGCAACCGACCACTGGTGCAAAAAAGATTCTGGTCTTGAATTTAATGCCCAACCGGGCGGTCACGGAGCAGCAGTTTGCTTCGATTTTTGCGGCCACGGGTTTTCCGGTGACGCTCACGTTCTGTCTGCCGGCCAGCCACCAGATTCGCCGGCATGCCGATCAGCTGCATGCCGCCTATGCCACTTTTCCAGAAATTGAAGACCAATTCTTTGATGGCCTGATCATCACCGGCGCCCCGTTGGATCAAAAGCCGTTCACCGATGTGGATTATTGGGATGAGCTCCAGGAGATTCTGACCTGGCGCCGGACTCACGTTCAGGGCAGTCTGTTTCTTTGCTGGGGCGCCTATGCCGCTGGGGCGGTCGATGGCGTATTTGTCGGCCATGGCATTCCAGAGAAAATTACCGGGGTATTCACGGTTGAAGGGTATACAATGCCCCAATCCCGGTATTTTTTGGTGCCGCTGGCAGCGATTGAGCGGGGCGAGATCGTGGCTGGCAACTTGGACTTGGGCGCTGTGATCGTCACCGACGATACCACCCAATCGACCTATGTGGCCGGGCACTTTGAATACAGCGCCAACACACTGGCTTTGGAGTATTACCGGGATCAGGCAAAAAACGGTGATGCGGCGCCGAAACCGCAGCATTATTTTACCGGCGATAACCAGTACTCCTGGACTTGGCGGGCTGATGCCGTGGCTTTCTATCGCCGCTGGCTGGCGAAAATCACGGACAGTCAGCCGCCGGCAGCGGCGGACACTGGCACCGCTTTGCCAACCATCCCGCTGACCAGTTTGGCCGCGGCCCGGCGCGCTGGTTTGACCCCGTGGCAAGGGGCTAATGTGGACACGTTGATTTATAACCTGACGCCGCATACAGACCGAGTCTGGCTGCTGGACACACCGGCGCATCACGTCGATCTGGCTAATGCCTGGGCAATTTTGCATCATATTCAGCCAGACATTCAAGTCATTGCAACGAAAGAAGGGATCGTATGA
>SRR1151209_00509 aspartate kinase
ATGAATTATCGATTAACTAAGAGCCAATTGGGTACGGCTGGGAGAAAGTGGGCGGAACTGATCGTGAAGGTTGTTAAATTTGGCGGGTCATCTTTGGCTAATGGGCCGCAGGTGGCTAAGGCGGTGGAGATCATGCGGGCTGATCCGCGGCGGCGGGTGATGGTGGTGTCGGCGCCGGGGAAGCGGTTTGGCGGGGATGCTAAGGTGACCGATCTGCTGGGCGAGCTGGCAGCGGCTATTTTGGCGGGGCAGGACACGGCCTCGTTGTTGGGGCAGATTTTGGGCCGGTATCGGAGCATTGCCGATTACTTTGACTTGGCCGGGGAGACCATTGCCGATCATTTTCGCACCCACTTGCGGACCTTGCAGGAATCAGACTATCCCAATTCTGAGTACTTATTAGCGGCCTTTTTAGCCCAGGGCGAGTGGATGAACGCGCATCTGATCGCCGCCGTTTTGCAGCACGAAGGCCTGCCGGCCCGGTGGGTATCGCCCCAGGACTTGGGCATGGTGGTTGCTGGACCGCCGCGGCTGGCTCAGCTGCTGCCGGATAGTTATGACCGGCTGGCAAATTTCTCATTGCCAGCGGATGAAATTCTGGTGGTCCCTGGATTTTTTGCTTACGACGCCCAGGGCCATATTGCCACCTTTGCGCGCGGCGGGTCGGACATCACCGGCAGCATTCTCGCCCGCGGCCTGCACGCGGACTTGTATGAGAACTTTACTGATGTGTCGGCCATCTATGCTGCCGATCCGCAGATCATTGCCCATCCCCGGGCAATCAATACGCTGACCTATCGCGAAATGCGGGAACTTTCCTGTGCCGGCTTTTCTGTTTTTAACGACGAAGCCATTGTCCCGGCCATTCAAGGGAATGTGCGGATCAACGTCAAGAATACCAACGACCCCGAGGCCCCGGGGACGCTCATCGCACCGACCAAAGAGGTCAACCATCATCATTTGATCACTGGAATTGCTGCCAGCAACGGCCATATTGCCCTGTACATTCACCGCTACCTGCTGAACCGCGAAGTGCGGTTCCCCTTGCAAATCCTGCAGGTGTTGGCCAAGTACCACGTAAGCTATGAGCAAATGCCGGCGGGGGTGGATGATTTGACGATTATATTTTCCCAGAAGCAGGTGATTCCCGCGGTTCAGACGGCCATGACCCGGGAGATTCGGGCGGCAGTCCAGCCGGATGTGCTGCGCTGGATTCCGAATTTGGCGATGGTGGTCGTGGTCGGGGAGGGACTGGCGCATCGGACAGATTTGGTGGCCCAGATTCTGACGCAACTGGCCACGGTGGAAATTGCCCCGGTGATCATCAGTCAGGGCGCCGCCCGCATCAACCTGACCATGGGCGTTGATACCACCCAGGCCGCCGCGGCGATCCAAGCGCTGTACGCGCTGAGCGCGGAGGATTATAATAACGCCCAATGA
>SRR1151209_00510 methionine ABC transporter substrate-binding protein
ATGAAGAAATCAATCAAACGCACCCTGATCACCATCGCCCTGGCCTTGCCGCTCTTCTTCTTACTCGCGGCTTGCGGCAGCGGTAAGAGCAGTTCCGCCAGCTCCTCGTCAGCATCCCTAAAGACAGTCCGCCTGGGCATCATGGGCAGTGACGACCGAATCTGGAAAGCCGTCGGCAAAGTGGCTAAGAAGAAATACAACATTGACTTAAAGCTCACCAAGTTCACCGATTATAACCAGCCCAACGCAGCATTGAGCGATGGTTCCATCGACCTGAACGCTTTCCAGCACCAATTCTTCCTGGATAATTGGAACAAAGCCCACAAGTCGGACATCGTCAGCATTGGTGAAACCATCCTGGCCCCGATCCGTCTATATTCCCAGAAAATCAAGTCCGTCAAAGATTTCAAGAAGGGGGACGAAATTGCTATCCCCAATGATGCCACCAATGAAGGCCGCGCATTGAACGTCCTGGCCACCATCGGCTTGATCAAGCTGGACAACAAAGCGCTGCCCACCACGGCCGACATTAAGGAAAACAAGCTGGGCTTGAAGATTACCGCTCTGGATGCGGCCCAAACCGCCCGGGCATTGTCTGATGTCACTGCCGCCGTGGTCAACGATGGTGTGGCCAACGACGCCAAGCTGGACCCGAATTCCGCCCTGTATGTCGAGAAAGTCAACAAGAAGTCCGAACCTTACATTAACATCATTGCCGCCAACAAGAAGGACGCCAAGAACAAGACTTACCTGGACCTGGTCAAGGCCTATCAGACGGAAGCCACCAAGAAGCTCTTGAAGGAAATCTACAAGGGTGCCGACATTCCGGCTTGGGACATCACGCTGAAGTAA
>SRR1151209_00511 acetylornithine deacetylase/succinyl-diaminopimelate desuccinylase
ATGAGTGTCGATAAGCAGCAGATCATCAGTCAATTTACCAAATACGTCGCCATTCCGTCGGTGTCCGCCCAAAAGAAAGGCATCCCGGAAACGGTCGCCTTTCTTAAAGAATTGATCACCAGCTTAGGCGGTCAAGCCGAAGTCTTCTCCGACTGGCCCAACCCGGTGATCCACGGAGAATTCACCCCGGCCCGCGTGACCGCGGCGACGCCAACGATCCTGTTCTACAATCACTATGACGTGCAACCGCCGGAACCGTTGGAATTGTGGGATTCTGAACCCTTCACCCTGACCGAAAAAGACGGCCTGCTGGTCGGCCGAGGCACGGCGGATTGTAAAGGCGACCTCATCGCCCGGCTGTGCGCCCTCACCTTGTACCACGAAGAACACGGCGACTGGCCGTGCCGGGTGAAGTTCCTGCTGGAGGGTGAAGAAGAAATCGCCAGCCAGCATTTAGAGAACTATTTAGAAAAATACGCCGACACCTTCAACGCCGACGTTGTGGTCTGGGAATCCGGCAGCAAGAACGCCCAGGAACAGCTCCAAATCACCGGCGGCAATAAGGGCATTTGCTGCATTGACCTGGTGGCCACCACGGCTGCTGAAGACATCCATTCTTCCACCGCGGCCTACATTGAGGGCGCTGGGGTCCGGCTGGTCCAGGCCTTGAGCACGTTGCGGGCTGTGGGAACGAACGAATTGCTGATCGATGGGTTAGCGGCTAAGATCGTGCCGCCCACGGACCGGGAAAAACAGCTGGTCGCGGCGGAATCCGTTGATCCAGCCGCCATCGAGGCCGCGCACGGGCTGACTCGGCCATTTCTGACCAAGGATATCGCGGGCGCAGCGGCTTTCTCCCCCACCCTGAACATTGCCGGCTTGACCGGCGGTTACGAGGGCGAGGGGGTCAAAACGGTGCTGCCCCACACCGCTCGGGCTAAGTTGGATATTCGACTGGTACCGGATCTGGACCCGGAAGAAGTTGCTGAGTTGGTCCGCCAGCATCTGGCCCGTCACGGTTTCGGTGATATTAAGGTAGAATACTTGATGGGGGAAAAGAGTTACCGCTCCGGCCTGGACGCCCCGCTGGTCACCCGGATCACGGATGTCGCCCAGACGGTCTACGGCAGCGACAAAGTCGAATTGCTGCCCAGCTCCGCCGGTACCGGCCCGATGTACTTGTTTAATCACTATCTCCACGCGCCGCTGCTCGCTTTCGGTGTGGGTTACGCCAAGAGCGGCCCCCACGCTCCGAATGAGAACATCCGCATTAGTGATTTCCATCAAGGCATCGACTTTCTCACCGATATATTCGCAGATTTAGCCAAGTAA
>SRR1151209_00512 methionine ABC transporter ATP-binding protein
ATGGCAACCATCATTGACTTGAAAGACATCACCGTCACGTTCAAGAACAAAGCCAGCACGGTCCACGCCGTTCAGGATGTTTCTTTGCAGGTCGAAGCCGGGGACACTTACGGCATCGTCGGCTACTCCGGCGCCGGCAAATCCACGCTGGTCCGAGTGATCAATTATTTGCAAAAGCCCACCAGCGGTACCGCCATCGTCAATGGCCAAGCCCTGGGCAAGCTGGATAAAGACCAGCTGCGGGTCGCTCGGCGCAAAATCGGGATGATCTTTCAGCACTTTAATCTGATGAATTCCCGCACGATTGCCGGGAACATCGAATATCCCTTGCGCTACAGCAAACTGACCAAGGCCGGTCGGGCCAAGAAAGTACAGGAACTGCTGGCACTGGTCGGACTGAGCGATAAGGCAGACGCCTACCCCGCCCAGTTATCCGGCGGTCAGAAGCAACGGGTGGGGATCGCTCGGGCCTTGGCCAACGATCCGGAGATTCTGCTTTGCGACGAGGCCACCAGTGCCCTGGATCCTAAGACCACTGGGGAAATCATCGACCTCTTGAAACGGCTGAACCAGCAGCTGCACATCACCATCGTTTTCATTACCCACGAAATGTCTGCCGTGAAGTCACTGTGCAACCACGTGGCGGTTATGGAAGCCGGCAAAATCGTGGAACGCGGCGCATTGCTGGATATTTTCTCCAATCCTCAACAGGCGCTGACCCGCGACTTCATCAATACAGCGACGCAATTAGATACGGCGCTGGCAGAAGTGCGCAAGCAGCCAGCGGTGATCAATCTGCCAGCCAATGCCCGGCTCGTGCATTTATCCTACACCGGGGCCAGCACCGACCAGCCGCTGATTGCCGGCCTTTACCAACAATACGGTATCACCGCCAACATTCTGTATGGGAACATTGAATTCTTACAGGATGTACCGGTGGGCAATCTCATTGTTATTCTGACCGGGGACACGACGAAACTGCCCACAGCCTTCTCCCAATTACGGGATCAGGGCGTCACGGTCACCTTGCTGGATCCGAAAGGAGATGCGGTGGACTAA
>SRR1151209_00513 methionine ABC transporter permease protein
ATGTCTATTCTGAATAAGTTTTTACCCAACGTGATGCCCATCTGGGACCAGGTTTGGCAGGCGACCTTGGAGACGCTGTACATGACCTTCTTCTCAGCGATCATCGCAGGAATCTTGGGCCTGATCGTTGGCATCTTGCTGGTGGTTTACGATCAAGGCGGCATCATGCCTCACCCAGCGGTCTATAGCATTCTGGATAAGATCGTGAACATCTTCCGGTCTATTCCTTTTGTGATTCTGCTGGCTGTCATTTACCCTCTGACCCGACTCTTAGTGCACACCACAATTGGGAATACTGCTGCCCTGGTACCGCTGGTCGTGGGGACGATCCCCTTCTATGCCCGCCAGGTGCAAAACGCTTTGGTCCAGGTGGACGGCGGAATCATCGAGGCCGCCCAAGCAATGGGGGCGTCGAATATCGATATTATCTTCCGCGTTTATTTGCGGGAAGGCCTGCCGGATTTGATCCGGGTGTCTGTCTTGACTCTGATTTCCTTGATTGGCTTGACGGCGATGGCCGGGGCAGTTGGCGCCGGCGGCTTGGGCAATCTGGCGGTGTCCATCGGCTACCAGCGGTTCCAGAATGATGTGACCTTTGTGGCAATGATCATTATTTTGATTATGGTGTTCATTGTCCAAGGGGTGGGCGACTGGCTGACCCGGTTGACCACGCATGTATAA
>SRR1151209_00514 hypothetical protein
ATGCTAGCACAACAATCACTCAGCGCTACATACGCGGTCAACAAACCCATGCGGGCGTTCGAACACGTTGACGGCACTTTGCACTTATGTGTGATCAAACCCGGTACTGAGCTGCATGTGGAAACATTAGATGATGACCGTCCTGGCGCTCTCGTGAGCGTTCACCATGCCGATCACGTCGATTACTACGATGTCACCCAAGAAGAATTGTTCAGCAAAGCTGATCCCAAATAA
>SRR1151209_00515 membrane-associated phospholipid phosphatase
ATGATGGAAGAACAAGACAAAACACGATGGTTTGGTATTTCTGCCCTGGTTTGTGTGGTCCTGATGGTAATCGCAACATTTGCGGATTTGGCCATCAGCAATACCGTCATTGACTACGGCAGCTGGTTCGGCACATTTTTCCAAACCTTTGGGGAATTCCCGGTCTATTTTGTTTATATCATCAGCGGCGAAATTGCCATGACTTATGCCTGGCGGAAGAAAGCACGGCCTTTATTCGCCGGCAGTCTCGCCCTGGGCGGGTTCGTCTTGACGGCGTGGCAAACCAAGCAGTACGTCAATGAAGAGGGCAGCTATATCGCGGCGATTCAAAGCAATCTAAAAAACGGTAAACCGATCGGCATGGCCAACAGTGATAGTGCCGCCGGCGCCTTGCCGGTGGCGGCGAATATCACCGTGACCCTGATCTTGCTCGTGGTCATCTCTATTCTGGTCCAACTGTGGCTGGCCAAGAAGAGTGACGCACAAATTGCCCAGCTGATGCTGGTGGCGGTCTTCGCCACGGCCACAGCCTGGTTTGCATCCCAAGCTAACGCCACGCTGAAACAGGATTGGGGCCGTGTCCGGCCCTATGAACTGAATAAAGCCCAAAGCGACTTTACCTCATGGCTGCACCCCAACGGCATCACTGGTCACAAGTCCTTCCCCTCTGGGCACACCATGGCGGCCACGCTGGCCATTGTCTTGTCTTGGTTTGCGACGGGCAAAGCCCGCCAGCGCTGGTTTGTTTTCGGCATCCTCTGGGGCGCTTTGGTCGGTCTCAGCCGGGTGCGGATCGGCGCCCATTTCTTCTCTGATGTGACTTTCTCATTTTTCTTAACAGCCCTGATCATCTACATCTTTGCTGAATTGATAACTTACCTGATCAACAAACGCGAAGCAATCTTACAGTAA
>SRR1151209_00516 DNA-entry nuclease
GTGGCGAAACGCCGTAAACCTACCCATCGCCGAGGGAAGAAACAACCCGTTCATATCACCCTCGGCTCCCTGATTGTCATTGCCATCATTGCCTTCGCCGTCGCCCGTTTTGGCGGCGGCGCGAGTACGCCCAGCGGGACGACCCATTCGGATGCCGCGCCGAGCAGCCAAGTCAGCAGTGCAGCCAGCCAGAGCAGCAGCACGAGTCAAAGCAGCACCGCTGCGTCGTCCTCAGCCGTGGGCGACAGCAACTGGCAGGCCACTTATGCGGCTTTAGCCAAACTGACCTTTCAATCCGGCAACCCGGCCGCGATCAATGTCAACAGCGGCAAGAGTACGCTGGCCATGAGCGCCTGGCAGAGCAACCACATTGCTTATGGCAATCTGGATAATCTGAACCGAACGACCACCGTGACGGCGTATCTGCAACGGTCCAACCTGGGCCGTTCTGCCGGTCGGCCAGCGCAGAAATGGCAGCCCACCGGCTGGCATCAAGAGTATCGGGTGATCAATGGGGACCGGATCCCCGTCGTCAATCGCGGCCATCTGATTGCCTATACGATGACCTTCAATCTGAATAGTGACGGCGTACCCCAGACCGGGGCCGAGGGCAGTTCCGACAACCCGAAGAATCTAGCGACCCAAACTGAATTTTCTAACCAGAAGACGATGCAGGTCTATGAACAAGCCGTGCGGGACGCCTTGGGGCGTGGCGCGCGGGTGATCTATCAGGTGACCACGGTTTTTCGGGGGAATGAATTGATGCCCCGAGGTTATTGGTCCCAAGCCGTATCATCGGATGGTCGGCTGAATTTCAACGTCTATATTTGGAACGTGGAACCGCAATTGCAGTTCGACTATGCCACCGGCAGAAATACGATTGACCGGAACATGCGGGTCACCGAAATTAATCAGTAG
>SRR1151209_00517 membrane protein
ATGGGTGTGATCAGTCTCTTAGGGGTGATCCTGCTGGTCCTGCTCGTGCTGGTTTGCGGTAAGAGCGGGTTGACTATTTTCTTCGGCCTCCTATTGAACTTTGTCCTGCTGTTTATTACTGTGACTCTGTTCGGCCTCGGGGCGCCGCCGGTGCTGACGACGATTCTGGCCAGTGCCGTGATCCTCGCGGTGGTTGTCTTTTTCAGTGCCGCCAGCAACCGGGTGACGCGGATCGCTTACGTTGTTTCTCTCGGGGTGATGCTGATTCTGGCCGGGCTGGCCTGGCTGATCCAGTTCTTTGGCAACATCCAGGGCTTTGGTAACGAGGTTGGGGAGGATATCGGCGGCTTTTCGCTGCTGATCGGGGTGTCCTTTGGCCAGATCGTCGTCAGTATCCTGATGCTGTCAGCCCTGGGCGCCGTCGCCGAGGCCAGTATTGCGGTGACCAGCGGGTTGTTTGAAGTCGCTGATCAAGTGCCGGATATTACCCCGGCCCAGCTGTTCAAAGACGGTCAAGAAATCGGCGGCAAGATCATCGGCACCGCACTGAACACGCTGTTTTTCGGCTTCTTCGGTTCCTACCTGGCGTTGTTTATCTGGTTTGTTCAGTTGCAATATGCCCCAGGGCTGCTGTTCAACGATAAACTCTTCGTCAGCGAAGCGGCCTCCGTTTTGCTTTCCACCGTGGGCGTAGTCGCCACCGTGCCCCTGTCCACCTGGGTCGTCAGTGTGACCCTGCAGCATGAAGCGGCCCAAGCCGCCAGAAAGGAAGATCATTAA
>SRR1151209_00518 membrane protein
GTGATCGCGGTAAAGACCGGCAGCACTAAGAAGAACCTTGATGAACACAATAATACAGATTATCAGACGCGGCAGACGCTGACGGTCAAAATGCTCAATGGCGCCAACCGGGGTAAAACCTACCGTACGGGTAATGTATATACCCGTTCCGGGGCGGTGGATCAGCAGTATCGGACCGGTCAGCAGGTATTTATCAGCTGGCAGGATAAGGCCCGGACTAAACTGGCGATTACGAATCAAAAACGAGATACGGTGATCGTTTTTCTGATTTGGCTGGTGGCCGTTGTCTTGTTGGCGGTGATGCGTTGGCAGGGAGCGATCGCCATCCTCAGTGTGGTGGCAAACATCGCTCTGTTTTTGCTGGCCATTCAATTCGAGCTGCTGCGCTATGGGGCGTCCATGCTGTGGATCTTTGCGGCCCTGAATGTTTTGTTTACGCTGGTGACGCTGCTCCTGATTTTAGGCCCTAAACGGCAGTTTTTGGTGTCCAGCATCGCGACTCTGGGCGGCACCTTTTTAGCCTACGGTATTTTTGTGCTGGTGCTGCAGGTCACCGGCGGTAACGGCCTGCATTATGAGGCGGTGGCTTATGCGCTGCAACAGCCTAAGCCAATCTTCTGGGCCAGTATTATGATTGGCTCCTTAGGGGCAATTATGGATGAGACTTCCGATATTTCCTCCGCGCTGGCGCAAATCGTGATTGAAACCCCAGACGTTCACCGCTGGCAGCTCTTTCGATCTGGTATGACTGTGGGCCGGGAGATCGTGGGGCCACTGATCAGCATCCTCTTTCTGATCTTCATGGCTGACACCTTCCCGATGGCCGTTCTGTACTTAAACAACGGGAACAGCTTCAGCCAAACGTTCACCTGGACGATGTATCTTGGCATGGTTCAATCTCTGGTGAGCGCGATTGGCATCGTCGTCACGGTACCGCTGACGAGTTTCCTCAGTATGCTGTTCTTAGGGGGGCGTAAATAA
>SRR1151209_00519 NADPH:quinone reductase
ATGGTGCCCAAAATGATGCGGGCGATTGCGGCTTTCCAAACGTTGCCAATTCGTGATGAAGCGAGTCTGCAAGATGTTTGGCTGCCTGTGCCGACGCCCAGACCGAATGATGTACTGGTTAAAATCTTGGCGATCTCAGTCAACCCGGTGGATGTGCGCATTCGCCATGCGCTGCACGGCCAAAAGCGGCCGCATGTTTTGGGCTTCGATGCGGTGGGGGAAATCGTCCAGTTGGGCGTCGATGTGCGGGACTTCACCGTCGGCGACCGGGTCTTTTATTTTGGTTCCACCCAGCGCCCGGGCAGCAATGCTGAATATCAGCTGGTGGATTATCGCCTGATTGCCAAAGCCCCCCAGCGTTTGACGCTGGGCCAAACCGCGGCGCTGCCGATGACCGCCGTCACCGCTTGGGAATTGCTGTTTGAACGAATGAGTATCCCCGCCGCGGCGCACGCGACCCATGGGTCCATGCTGGTGATCAATGCCGCCGGCGGGGTGGGCAGTATTTTGGTCCAGCTCGCCCAGTGGGCCGGTCTGGACGTGATCGCCGTCGCCAGTCGCGTCAACTGGCCCTGGCTGCAAAAATACGGAATCCATAAATTAGCGGATTATCATAGTGATTTAACTCCGCAAGTCCAGGCTTTGGGGTACGATATGGTGGACTACATTGCCACCCTGTATGATCCCGTACCTTATTTTGGGGCAATCGCAGATTTGATCGCACCCATGGGCCATGTTGGCTCAATCGTGGCCACCGATGATTCATTGCCGGTGGCCTGGCTGAAGAACAAATCCGTTAGTTTGGATTGGGAATATGTTTTTTCTAAAAGCGATTACGCTTATCAAATGGCGACCCAGGGCCAGATTCTGCAACGGCTGAGTGCCTTGCTGGACGCTGGGGCGCTGCGCTCAACCATTGCCTATAATTTTCACGGCATCAATGCCCGTAATTTACGCCAGGCACAGGCCATGCTTGAAACCAAGAACACGATTGGTAAAATTACTTTACAGGCTCCCTTTGATGGGGAAGCCAAAGCGTTAGACGATATTGTTTGGAAGGATCCCCAATCTTATGCAGATGAAACACTGGTGGCTTTCCCTAGTCGTCGTCCTGATGACGGGGATCGCCGCGCTGGTACTGACTCGGGTCAACGCCACCTGGTACACCCAACCGGTAGGCCAAGTGATCGCGGTAAAGACCGGCAGCACTAA
>SRR1151209_00520 inner membrane protein YrbG
ATGACCGCATTCATCACGACCCTCCCCATGTGGGGCCTCGTTGCGATCTTTCTCTTGACCCTCGTTCTCCTCACCCGGGCGGCGGATATTCTCGTGGATCACGCGATCCACTTGTCCCAGGATGCCGGCATCTCAGACGTCGTCATCGGCGCCACCGTGGTTGCGTTAGGCACCACCCTGGCTGAAGTGGCCATCGCTGTGTCCGCCATCTTTCAAGGCGTGACCGACTTCTCCGTGGGCAACGCCACCGGCTCCGTCATCACCAACATGAGTATTGTGCTGGGCGTTGGGGCTATTGCCGGGACGATTCCGGTCGCGCGGCACAATCTCTCCCGGGTGCAGCTGCTGCTCACCGCGTCCCTGCTGCTGATTTTTGCCGCCTGTCTGACCCTAATGTCTGGCCGAGGATATATTCCCCGCTGGGTCGGGATCGTTTTCCTGCTGCTGATTCCCGCCTATTTGTACCTGATCATTCGCCAGAATAATCAGGATAAAAAGAAAACAGCCAGTACGCCGGTACCGGCACCGCCGGATAAAAAAACAGCGACCTGGGTCCGCCTGCTCTGGATTATCGGCACCGGTCTGGTCATTGCCATCAGTGCTAATGCGCTGGTTGATGCCAGCGTGGAAATCGCTGGCCGGCTGCATATCAGTGACGCCATCGTGTCCGCTACAGTGGTCGCGCTGGGCACCAGCTTTCCAGAATTAGTGACGGCTTATTACGCAGCCAAAGGCGGCTTTGGCGGTCTGGCGCTGGGCAACATCATCGGGGCCAACGTCATGAATCTGCTGCTGGTAAACGGCCTGACGATCGCTTTTTCGCCAGCCACCATATATTTGCCTAAAGTTTTTTACTTCGTGACTTTCCCCATGCTGCTGTTGGTCCTATTATTAGTAGGATGGTTCATCATTGACGGCTCCCGGGACGAGATCGACAACAAAGAAGGGATCGCCCTGGTGGCTGTTTACGGGCTGTATGTTGCTGCCTATATTTTTGTCCTATGA
>SRR1151209_00521 hypothetical protein
ATGAGAAGGGAAGAAAGCATACCTATGGAATCCACTCATGCCGTTGGCTGGTTCGCAGTCAGTGCCGTATTCGGCGTGGCCAGTCTGGTCAGTGCCATTATCGTTGCCAACCCGGCGTTCCGCGGTTTTGCCATTTTATTGGCCGGCCTGATCGCGATGTTTCTGACCACGATCTGCTACACGTTGTACATGAGCAAAGAAAAACACCAACGGCGGCTCGTCCTCACCTTACTGGGGGCCGTCGTTGGTGCATTAACGCTGATCTATATTTTTGTGATGCCCTAA
>SRR1151209_00522 transcriptional regulator/sugar kinase NagC
ATGTCAGATCTCGTAGTCATTGATGTGGGCGGGACGTCGATCAAACACGGCGTACTGCATGATGATCAGCTGGTGAGTCAAGGCAGTGTGCCGACCCCTAAGGATTTAGCGGGGTATTATGCGGCCTTGACGGCCATCGTCCAGCAGGCCCAAGCAGACTATGCACCAGTGGGCGTGGGTATCAGCTCACCGGGGGCAGTGAATAAAAAAACTGGCGTCATTGAAGGCGCCAGTGCGATTCCGTATATTCATAATTTTCCGATTATTCCAGAATTGGAGAAGCACTTTGGCCTGCCCGTCAGTATGGAGAACGATGCCAATTGTGCCGCCTTGGCGGAACTGGCCAGCGGGGCCGGCGCAGGTACCAGCAATCTCTTATTCATTGTGATCGGGACCGGTATTGGCGGCAGCGTCATCGTCAATCATCAAGTGATCCACGGCCGCCATTTATTTGGCGGGGAATTCGGCTTCATGCTCATGGACAGTCACAATACGCTCAGTGATCTGGGCTCGCCGGTGCACATGGCGGAACGCTACACCGCCCGGAAAGCGGACGGCAAAACTTATGATGGCCAGGCCGTGTTTGCTTTGGCCCAACAGGGCGACGCCCTTGCTCAGGAAGAAGCCCGGACTTTCTACAAGGCACTGGCTACGGCAATTTTCAACCTCAGTTATGCCTTTGATCCGGATAAGGTGATTCTTGGCGGCGGCGTGTCCCAGGCTGATTGGCTGATTCCGACACTGAAGCGGTATTTGCAGGATATTCTGGACGAAGTCAAAATCGCGCCCTGGATGCCGGAATTAGCCCTGGCCCATTACCGCAGCCAAGCCAACTTGATCGGTGCCGCGGTGGATTTCCGCCAGAGCCGGCCGGAAGGCGGACAATCAATCAGTTAG
>SRR1151209_00523 major facilitator superfamily transporter
ATGGTAACTCACGATATCCAACTGACCAATGGCCGGCAGCGTACCGCTTTTATCGGCACACTATTGCTGGGCACGTTCGGCATGTCCATCAGTCAGTCGTCCTTATCTACGGCGTACCCCACGCTCATGCGTGAATTCGCCATCCCGGCCAGCATGGTCCAATGGCTCACCACTGGATTCATGCTGGTCATGTGTTTGTTAATTCCCACGAGTCCGTGGCTATTACATAACATTCCATTCAAGAAATTATTTGTCAGTGTCGTGCTCACATTCAGTGCCGGCACCCTGCTCTGCGTCGTGGCGCCAACGTTTTGGGTCCTGGTTTTGGGCCGCATGCTGGAGGCCGTCGCCGTCGGTATTATTTTTCCATCGTACCAAACTGTTCTGCTGATCATCACGCCCGTCCCTGGCCGAGGCAGCGTCATGGGGCTGGCGGGCTTGATCATGGGCAGTGCCCTGGCCGTCGGGCCCATCGTGTCGGGGGTCGTTTTGAACTTCACCAGCTGGCGCGGACTCTTCGTCTTATTCCTGGTGGTCATGGCCATCGTCTTGCTGCTGACTCCCTGGGCGATTCAGGATGTTGTCGGCCAGTATCCCAGTGAGATCGACGGCTTGTCCGTGGTATTGGGCTTGGGCTTTATCGGCGTCCTATACGTGCTGACCGAAAGTGTTTCCGCTGATCCGCAATGGGGTCTTTTAGGCGGTTTGCTGGTGGCCAGTGTCCTGGCGATCGCCTGGTTCATTTATCGCCAGCTGCACCGGGATAAGCCGTTGTTGAATCTGCGGGTCTTCACCAGTGGTATTTACACGAAATCCGTCTTTCTGACCGGAATTTCATACATTGCCCTGATCGTCACAACGATCTTGATGCCGCTGTATTATCAAAACGTGCTGGGCACGTCCGCCTTGGTTTCTGGCCTCGCAATGGTCCCAGCGGCTGTTGTCTTAGCTTTGCTCAACCCGATCAGCGGCCGCTTGCTGGACCGGATGGGCGGCAAATGGGTCGTTTTGATCGGCCAAAGTTTGATCGTTGTCGGTATGGCCGCGATGATTTGGGCCGCCAGCCAACGCCTGCTGGTCCTGTCGATCATCATGGCCGCCTTCATCGAAAGCGGCAACGCCTTCGTCATGATGCCCAGTGTGACCATGGGGGCCAATGATTTACCGGAAGATCTGGTCGCCCATGCCACGGCCGTCACGACCACTGCTCGGCAGTTATTCGGCTCCGCCGGCGTCGCTATTGCGACTGCCCTGCTGACGCTGTTTACCAATCAAAACGCCGGTTTAGGGAAGATTCCCAGCCAAGTCGTCGGCTTCCAATGGACGTTCTTCATCTTCGCGCTGGTTGGTGTCGGTGGCGCGCTGATTGCCTTGACGCTGCCAAAGGGCCAAGTCAAGAATTCCAGATAA
>SRR1151209_00524 hypothetical protein
ATGAAAGCTAAGATAATGACAGCATTGCTGGCGGTGGCGGCTGGATTAGGCATTACGGCGGCCATGCCCAGTACGACGGCCAGCGCGGATACCGCCGGTTCAGTGATCGTTTACGATGGAAATATTGACGGCGTCGTGCGGGTGTTCCAAGGCCAATTACCGCCCAAGACGATGACTTATCGGCAAACATGGGACGGCGGCCGGTATACGATCAGTGTGACGCTGCAAAGTTACCGTGAAGCTGGCGATGGTCAGTATATTGGAATTTATGCTGGTGAGCTGCATCGGTTGGGCGAGCGGCCGGCGGAGTGA
>SRR1151209_00525 thiamine transporter ThiT
ATGTTGAAGAAAAAGATTACCCTCGGTGGTTTGATCGAGGGCGCCATCATGGCCGCGCTGGCCATGGCGCTGAGTTATATTCCCCATAGTATCGGCGGGTTGGGGATTCAATTGCAGTGGGGCTTGCTGCCGTTGATTCTGGTTGCTGAGCGGCGGGGTTGGCAGGTGGGAACAATCGCCGGTTTGATTTGGGGCTTGCTGGATGCCATGCTCCGCGGCGGCAGCAATCTGTTGAACCCGCTCCAGATTATCATGGAATATCCGGTCGCGTTCGGTGTCCTCGGTCTGGCTGGCTTAGTGGCCCTGCCGCTGCGAGACGCTTTGAAGGACCGCAAGTTGGGCATGGCCGTGGGCTATATTTTCATTGGCGGCCTAATCGGCACCATTGCCAAGTATTTCTTCCACTTCATTGCTGGGGTCTTCTACTGGGGTACTTATGCCCCCAAAGGCTGGAATGTGTGGCTGTTCAGCCTGTATGTTAACGGGATCAGTGCTGTTTTGGGATTGATTTACGTGGCGGTGGTCCTGGGCGTACTGGCCTCCATCGCACCGCAATTATTTGTGGTGTCGAATCGGAATCGGCATATTGAAGAGGCTCATTAG
>SRR1151209_00526 alpha/beta hydrolase
TTGGAACGCGAAACAATCACCGACCTAGGGGCGGTTTTGGCCGGCTTCATTGCCGGCGCGGGGTTGCTGCCGGTGTTTACCCGGTTTTCGAAACGGCGGGCGGCATCGCAGAAGGTGGAGGCTCAGGCTCAGCAGCGGTTGGATCTGCCGGCCAACGATGGCAATTTTTTAGTCAAACAAATTCCCACATTATACGTCCACGGATTCCGCGGCGGCGCCCATTCAACCCAGCAGATGGTGGAATCGGCGGCCAAAGCGACCCGCCAGGACAGCTGGCTGCAGGTCACTTACGAGGGCGGCGGTAAAATGTCCTACGCGGGGAATTGGACCAACGACCCGCATCCCATCGTGCAGGTGGTCTTTAAGGATAACTGGGTCGGTACCCGGTTTATTTCGCGTTATTTAGAAAAAGTCCTGCCCGCCCTGCAAGAACGCTACGGCTTCACCCAATACAATGCGGTGGGCCATTCAGTTGGTGCCACAGCGCTGGTGTTTGCCGAAATGCGGAATTACGATAATCCGAAGTTTCCCAAGCTGAATAAGCTGGTCCTGGTGGGCGGTCCCTTTGATGGCGTCGTTGCGTTGGGCGATTTGCCGAATTTCAACCGCTTCACATGGAGCGGCCGACCGATTTTGATGAACCCAACTTATTTAGAAATGCTCTTGAGCCGTAATCGGTTCCCGAAAGATGCCAAGGTGTTAAATGTGTTCGGCAACCTGAACAATGGGACGAATACGGACAAATACATCACCGTGATCTCGGCCAAATCGATTCGGTATATTTTGGCGCCCATCGTTAAGTCCTTCAGTGAAATTGAAGTTCGCGGCTTGCCCGGGGAACACAGCATGCTTCATGATGACTCGCTGGTGCTGAATAAGATTAATAAGTTTTTGTACGGTCAGCCGTGA
>SRR1151209_00527 multidrug ABC transporter ATP-binding and permease protein
ATGGATAAGCATTTACGGCACTATCTCTGGGAATTTAAGGGACCAAATTCATTATTAGTGATCATCGTACTATTCATGGCGGTGACGCAGACCGCCAACGGGATTGGCAGCGCCAATGCCTTGACGGCCCTGGTAGCCGGCCAGTTTCCTAATTTTTTTCTCTGGGTGGGGCTTATGACCGCGGCCTATGCCCTGTACTGCGGCTTAATGGGCGTGCAGCAATATCAGTTTTCGCGCTGCCGGCAACTGATGAATACCGCTATTCGCCGAGACATCACCGCTCGGCTGAGCGATACCAGCTACGAAGTCTTTCACAGCCAATCACCGGCAGTCTATGCCTCTTGGCTGACGAATGATGTCCACACCATTGGGGTCAACGGATTCTACGATGCCTTGGAAATTGTCGAGTCTTCCTTTTCCGTCATCTTTGCCGCGGCAGCCCTCACGGCATACCACTATTCCCTGAGCATCGCAGTATTGGTTTTGGCCGTGGTCGTGTACCTGGTCCCCAAGGCGTTCGACACGTCTTTACAGGCCCATTCACTAGCGATGACCCACGCCAATGAACAGTTGATGGGCCGTATCTCAGATGTGCTGAGCGGCTTTGATGCTTTGAATTTACTGAGCCTGCGCAAACTCCTGGTCAAGCGGACGGTGGCCGCCTCCAACGACGTGGCGGTCCACGTCAATTCCTGGCAAAAAATGTACGGCATTACGAATGCGACGATTTGGGGTACGAGTGCGATTTGCCAAAACCTCGTTCTACTGCTCACCGGCTACTTGGTATGGCAGCACCTGGTCCCTGTGGGCACGGTGAATGCCAGCATGAATTTTGCCGGTCTAATTTTCTCCGGTCTGACCGATGGACATTATTACTCAAGTATTCACTGTGACCTTCGCCGCCATCGCGCTGGCGACATTCCATTATGTTTTACTGCTGACGACCCTTGTTCTGGCTGTCGTGATGTATCTGGTGCCCAAGGTCTTTACCAAACCGGTGCAAAGGCGTTCGCTAGCCATGACTCGCGCCAACGAGCGGTTAATGAACCGGATTTCTGA
>SRR1151209_00528 multidrug ABC transporter ATP-binding and permease protein
ATGACTCGCGCCAACGAGCGGTTAATGAACCGGATTTCTGACGTACTCACCGGCTTTGATGCCCTGAATCTCTTGAATCTGCGCAGGCTCCTCGTACAGCGAACCGTCGCTGCGTCTCAGGATGCCGCAACGCACATCAACGCTTGGCAGTGGATGAACGGGGTTACCACCGGAGTCATCAACGGTGTCAGCGGATTGTGTCAAGATGCGATGCTGCTGCTTACCGGTTTCATGGTTTGGCAGCATCTCGTCCCCATCGGCACGATCAATGCCAGTTTGAATTTTGCCGGCACAATTTTTGCTGGAATGACAGGTATTATGACCTCCGTTATGGACATGGCTTCAGTCGCTCCAATCTTCGAGAAGTTTGCCGCCGTACCTGTCCGTGATACCGCCGGCCGAAAACCCGTCGGCCGCTTCCACACCGCCTTGCAGATGCAGGATATCACCTTTGCCTATGATCCAAACAGCCGCCCAATTCTCCAGGATTTCTCACTGACGGTGGCTAAGGGGCAAAAATACGCCCTGATTGGCCCTTCCGGCAGCGGCAAGTCCACCGTGCTGAACCTGCTCATCGGCAATCTGACCGACTATCAAGGCACCTTACGTTATGATCAAACGAATTATCAGCACATCACGCCAGACAGCCTAATTAACCAAGTGACCTATCTGGATCAAACACCGTTCATGTTCAACGATACGCTGAAAAATAATCTGACCATGAATGAACCGTATTCGGACGAGACCATCGCTGCGGTGATTCAGCGGGTGGGCTTAACCGATTTGGTGGCCAGTTTGCCCCAGGGCTTGGCCACGATGGTGGAGAAAGACGGCCGCAACCTGTCCGGCGGGCAAAAGCAGCGTGTCGTCCTCGCTCGGGGATTGCTGCAGGGTCGGCAAATCGTCTTCACGGATGAAAGTACCGCTTCCCTGGATCCAGCATCAGCGCAAGCGATTGAAAAAATGATCGTCACCGATCCGCATTTGACCGTGGTCATGGTCACCCACCATCTGCGGCCGACCATTGCCCAACAGGTGGACCGGGTGATTGACAGCACCGAATTCGTTCCCGCTTAG
>SRR1151209_00529 hypothetical protein
ATGAAGAGATGGGGATATTCACTTCACTTTGAACTGCGCAAACGTCCCTGGGTCTGGCCGGTCGTCTTGCTTTTGACAATTGGGTTGAGCGTTGGCTTTTGGCAGCAGCGGCAAGCACGGACGCAATTTATACAAGACTATGCAGGTCGTTTAGAGAAATGGTATACGCCGCACAAAAAAGCTGGCAAGGCAGAAATAACGGCCTTTAAACGGTCACCAGCCGCTTACCACCAATGGTACATGGACTCGCTGGCGGTCAATCTGCAAAAGAAACCGCAGACGATGGCCCTAGACGGATTTGGGGTCCGTATTTATAATGACATCGATACTTCTCGTGGTGCGTTATCTGCCAGCATCAGTCGGACATATACCCAGTTTCTATACATGAAGCAACACAAAATTGCCCCAATGTATCCAGATAGTCTGAATGTCGAAACCAGTACTGGCGATTTGGCCGGACTCAACAATCAATCAACTCAGATGGTGCTGCGCGATAATCCCCACTACTATTTGCAGGGCTGGTATTACCTCTGGTACTTGATTCGCGCCAATAGTGTCATCCTGCTATTTTTGGTGGGTATTCTACTGACAGGCCGCCAATGGGCGAAAGAACTGGCCAACAAGAAAGCCCACAGCGATTGGTTGCTGCTGCAAGGACAACGGACGTTGACACAACTGGGAAACCAATTTAGTATCATCTTCTATACGTTTGCTCAGATTGTTCTGTTACCCCTAGGACTGGTTACGCTCGGGATTGGACTCGGCGCCGGCTGGGGCGACTTGCGCTATCCCGTGTTCGGCTTTTCCAACCCTGAGGGCCTGGGCCTCGCCGAAAGCTTTATGCCGCTGCGCAGTTATCTGTTCCAAGCATTCGGCTTAATCATTTTGCTGATCCTTTTTCTCACTTTGCTGAACATGGTCTTCGCTCAGTTATTCCGGAATAGCTGGCTGACGACGGTGGGCCTGTTGCTGGTAGTGGGGATCACCCAAGTGATGCCGGCAATTCCAAATTTTCCGCTGACCTATTTCCGAATCAACGAGACGATTACCGGTATCTTGCAGAAAACCGCGGATAGCGACGCGTTACAGCCGCAAAGTGCGCTGCTCAATTTGAGCTGGTGGTGTCTGGCTCTGTTGATCATCGTTTTGCTGCCCATCATCAGCCAGCAATTCCACCAGTTTTGGCGGACTGCCTCACACCGGTACCTGCAACAAGCGTAG
>SRR1151209_00530 XRE family transcriptional regulator
ATGATCGATCAGCTTGCTAAGCGCTATGGCCAGATATTTCACGAAATCAGAGTGCGCCGCTGCCTAACGATTGATCAGGTACGCGGCGGGTTGGACGCCAGTACCGTGTCCCGGTTTGAACGCGGCCTGGCGATGATTTCCACGGCTAATCTAATTGCCCTCCTGCATTCAGCGGGGATGAGCGGCACCGAATTTTTCAATATCGTTGGTGCCTTACAACCCACGGTGATTGAACGATTCATGGACGATATTCAGCTGGCCGATCGGCGGGCGGATCGGCCAGCTCTGCAAGAGGCTGTGCAGGTGCTTAAGCAAAATACGGAGGGGAGCATTCCGGCTCAAATCTTGGTTATGGTGGTCAATGGGGCAATCACGCGGATCACTGTGCCGGAGTATCAGTTTGCAGCCACTGACCAGGATCGGATTGCAGATTATCTGACAGAAGAGCCGACTTGGTTCAAGCTGGAATATTTTATTTTCAACCAAGCCGTACCGTCGCTTTCGGCGGCCTTGAACCTGCGCTTGTACCGGAATATGATGCGTTCTTTTGCGGCCAATCAATTGCCGGATTACACCGGGTTGGTGGGCTCGTCGCTGGCTAAGCTGGCAGTGGTTTGGCTCCGTCAGGGGGATTGGAACACGACGTACCGGATGATCCATGATGCCAAACAGTATCTGGCGGGAGCCAACAGTGTGCTGATCACTTACCGGGCCCAATTGATTGAACTGGCGGCCAACTACCTGGACGCTCGGGACGGGGATTATTTGTTAGCTATTAAAACCAAGCTGGCTTTCTTTCAAACCGTTGATCCAGCGATCTACCAGGCCGATTTGCGCTGGCTACGCTTGTTGCAGGTACCGGTGTGA
>SRR1151209_00531 membrane protein
ATGATGACCACCCAAAACAAAACGCAACCTGTCAATTTTATCCAAGCCATGAAGCTTTTCTACACCAGAGCGTTTGATTACAGCGGTAGGAGCAGCCTCTCGGAGTATTGGTGGTCAGTACTGGGCGCTTTGCTCATTATGACTATTCCCACAATGCTATTTGCATGGGCAAGCGGCAATGCAGATACCACTACCGGCAATCTGTGGTTAGTAATGGTTCCCGAAGCCTGGCACAATGCACCAATCTGGACGGGTATCTTCATCATTGCTTTTGTCATGGCCGTTGTTCCCATGATGGCCCTGATTGTACGCCGCTTTCACGATGTCGGCCTCTCCACGTGGTGGGGCGTTTTACTGGGCATCGTCCCTTATGTCGTCAATGCCAGTCAAATCTTCCGTCGCAACGGCATCGTCTTGATTGTGATTCTAATTGCATCAATGCTTGATCTGTATATCATTTGCAAGCCGAGTGCACCGACTGAGTAA
>SRR1151209_00532 hypothetical protein
GTGGAGTATTGTCCAAATTGTGGCTACCCTGTGAGCTCACAACAGAACTTTTGCCAAAATTGCGGTTATCCGTTAACGGAACGGGCCCGGCAAATGGTCATGGGGGTGGCCCAGTTAAAGTTGTTGCAGCCGATTCAAGGGGATGGCCAACAGGGGGACCAATCCGCGACTGCAATCCGGACCAGTGAGCGCACAGTACCACAAAATGGGACTTTGGGTTTGACGGCGGATACGCCGGCAGAACCCAGTCCGGTGCAACCGGAGGAGCCGACTTTCTCCAGTCAGCCGACCTGGGACCAAGGCCAAGGGCAGCCCGCGGCTAATCAGGCAGCCGCTGATCAATACGATCAGGCTCCGGTTTATCCCGGGTTCACACCGCAACCGGCCCAGCCGGAACCAGCCAGTGCGCCCCAGGATCAACCGTGGCAGCAGCCGCAGGGATCCGGGGCCCCGGCTGATTTCGCTGGTCAGAATAATTCCTATGCGGCCCCGCAGCAGAACGCTAACTATTATGGCACGCCCAGCGGCAATGCCTATGCTCCGGTAAACGACCAAGTGCCGCCGCAGCAACCGGATTACGGTGCGCAGCAGCCCGCCTACGGGTCAGCCGCACCAACGGATACCGATCCTTACGGCAGCAGCACCGGGGCCAATTATCAAAGCGCTCCGCAGCAGCCGCAGGCCCAGCCGGCAGACGCCTATCAAGCACCGAATCAGGGGCAGGATGGACCATACCAGCAAGCACCTGATCAATACGGCCAGGAGGCTGCTCAGCCGCAAGCACCGCAGTATGATACGGCCAACAACTACGCCGCTGATACTGCTTCCGCTGCCCCAGACAGTGCATCCGCGGCCAGCAGCTACGACCCAATCAATAATGACTACGGTGCCGCACCGACTGATCAGACTGACCAAGATCAGGATCAGTACGCGGACGACGATGAGGCGGCTGAGCCCAAAGAGAAGTTCCATATCGGCGTGACCGATATCTTAGGTGCCATCTTCTCCTTCGTGGTGATGCTCGGAGTTTATATTCCAGGCTACTTCTCTAATACTGCCAGCTTGGTCGACTTCAGCAATGGCACCTCACTGCTGAGCAAGATGCAGTTGACATCACCCGCCGCGCTGCGCTACCTGCTCTTAGTGGTCGCCGCCATTGGCCCGCTGATTTTTATTGTCTTCAGTTTCTGGAAACGCCGCTCCTCACCGCTCATCCGGTTCGGGGCGGGGGTCTTCAGCGTCATCGGCTACGCGTTCCTGTTCGTGCTGATGTTTGCTAAGGGCGCCATTACCACGGTGCAAATTCAATCCACCGGGTTTGCATTGATTGGGTATATCTCCCTGGCTTGCCTGTTGGGCGAGTTTATCATTGGGCTGGTTGACCTGATGCGGTCTTAA
>SRR1151209_00533 multidrug ABC transporter ATP-binding and permease protein
ATGCGCCAGATGCGGGGAACAAGTAATAATAACCGAGGCCGGGCGCGCAAGCCGGAACATACCTGGCGCACGCTGGGCCGGCTGCTGCAATATACCTTTGCCAGTTCCCGGACCATGTGGGTGGTGTCGATCATCAGTATTATCGTTGCCGCTTTGTCCGCTTCTTTGGGGTCAAAGTTCATTCAGACTCTGATCGATAGTTACATCATGCCCCTGACTAAAGAAGCGACGCCGAACTTTGCGCCGCTGATTCAAGCCATTGCCATCATGGCGGCGATTTATTACACCGGTGTGATCGGTACTGGCATTTTCACCCAGTTGCAAGTGATCATCGGCCAACGGGTGCAGAAGCAGATTCGGGATGAAATGTTTGAACACATGCAGTCCCTGCCCATGAGCTATTTCGACCGCAATGACGTCGGCGATATCATGAGCCGCTACACCAACGATGTGGATACGCTGATGCAGATGATTTCGCAAAGTATCCCGACATTCATTCAGTCGTTGTTCAACATGGTTTTCGTGCTGATTATGATGATTTTGATCAGCCCGCTGCTCACCTTACTGTCGCTGGTTGTTCTAGGATTGAGTATCATCTTTGTCCGGGTCTTGTTCTCCCAGTCGTCCCGGTACTTCTCCGCCCAACAGCGGGCACTGGGTACGGTGAACGGTTATGCGGAAGAAATCCTTAACGGCTTGAAGGTCGTCAAGGTTTTCTCCCACGAACAGGCGGTGCAGAAACAATTTGATACGTACAATTCTGGGTTGCGCAATGATTCCGCAAAGGCCAACGCATACGCGACCATGGTCTTTCCCATCATGGGCAACATGTCCAACCTGCTGTATGTGCTGACCGCTGTGGTGGGGGGCACCTTGGCCGTCAATAACGTGATCACCTTGACCCTGGGCGGTCTGGCCGCTTTTCTGCAACTGAGCCGGGGCTTTACCCAGCCGGTTGCTCAGATCTCGCAGCAGGTCAATTCGATCATCATGGCCTTGGCCGGGGCAGAACGGATCTTCGGTCTGCTGGATGAAAAGCCGGAAAGCGATGACGGCAAAGTCACGCTGACGAATATGAAGAAAGACGCCGCCGGCAATCTCGTTCCGACCAAAGAACATACCGAGAACTGGGCCTGGCAAGTCGGCACGCCAGTAAAGCTAGTGCCCGTGCAAGGCGTTGTCGAGTTTAAAGATGTGAACTTCTCCTATTATCCTGGCGTCCAGATTCTGCACGACATCAACTTGACCGCCAAGGCTGGGGAGAAAGTCGCCTTTGTCGGGGCCACCGGGGCCGGGAAGACGACGATCACCTCGATGATCAACCGCTTCTACGATATTGATTCCGGTCAGATCACCTATGACGGGATTGATATTCGGGAGATTAAAAAGGCGGACCTGCGCCGGTCGCTGGCCATCGTTTTGCAAGAGACCAATTTGTTCACCGATACGATCATGAACAATATTCGGATGGGCAATCTGGATGCCACCGATGATGAAGTGATTGCCGCGGCCAAACTGGCCAATGCCGACGAGTTCATCCAGGAATTACCCAAGGGTTATCAATCCACGATTGACGGGGACGGCAGCGACTTGTCCCAGGGCCAGCGGCAGCTATTGTCGATTGCCCGGGCCGCTGTGGCCGATCCGCCCGTGATGATCATGGACGAAGCCACTGCCAGTATCGATACGCGGACTGAACGGGCTGTCCAAGCTGGGATGGATAACCTGATGAAGGGCCGCACCACATTTGTTATCGCCCACCGCTTATCCACAATTTTCAACTCTGACCTGATCATTGTCCTGGATCACGGGAAGATCGTTGAACGGGGGAATCATGAACAATTAATGGCGCAACACGGCGAGTATTATCAATTGTATACAGGCTCGCTGGTACTTGAATAA
>SRR1151209_00534 multidrug ABC transporter ATP-binding and permease protein
GTGGTTAAAATACTACTGAAATCCGTGCGGGAGTATAAATGGATGTCTTTGCTCTCGCCGCTCCTCGTGACCATTGAAGTCATGCTGGAAACTTATATTCCTTTTATTATGGGAAACATCATCGATTACGGGATCACCCCTGGCAACCTGGGCTATATCAGTTCCTGGGGGATGGTCTTGGTGGGCTTGGCCGTGGTCTCCTTGATCGTCGGTGCCGGAGCCAGCTGGTTCTCCAGCCATGCTGCGGCCGGTTTTGCCCAGAATCTGCGGCATGATGAATTCGCTCAGGTGCAGAAGTTCTCGTTTGCCAATATCGAGCATTTCTCCACGGCCAGCGTCGTGACTCGGTTAACGACCGATATCACCAACGTGCAGCAGGCCTACCAGATTTCAATCCGAATCGCCTTTCGGGCCCCGTTGATGTTCATCTTTTCGATGATCATGTCCTTCCGGGTGAGCCAGCAGATGGCCTTGATTTTTGCCATTGTCGTGCCCATCCTGGCAGTCGTTTTGTACCTCATCATTCATACGGCATATCCGCTGTTCAGCCATGTTTTCCGCCAGTATGATATTTTGAACCGGGTCGTGAACGAGAACTTGCGGGGTATTCGAGTGATCAAGACCTTTGACCGGCAAGAGGAAGAAATCAATAAGTTCAAGGATGCCAGCAACGGCATCTTCACGATTTTCTCCAAGGCCCAACGGCTGATGTCCCTGAACGCGCCGGTGATGACCTTCATGATCAACACCACGATGCTGATCGTTTCCTGGGTCGGGGCCCAAATGATTGTGGGCAAGTCCTTGGAGACTGGCCAGCTGGTCGCGCTGTTTTCTTACACCATGAGTATTCTGTTCAGTTTGATGATGCTGTCGAACATCATTACCATGCTGTCGGTGTCCCAAGCATCAGCCAACCGGATCGCGGCGGTGCTGCAAGAGAAGCCGTCCATTGTGGACCCGGCCAAGCCGGTGACCACGGTGAAAGACGGGTCAGTCACCTTCGATCACGTCTCCATGACCTATCTGCACGCGGAGCATCCCAGTGTGGCTGATGTGTCCCTGCAGATCAAGCCTGGCGAATTTGTCGGGATCATTGGGGCGACCGGCTCCGGCAAGTCGACATTGGTCCAGCTGATTCCCCGGTTGTACGATGTCACCAAGGGCACCGTGCTGGTCGGTGATGTGGATGTGCGCAACTACGCCTTGCGGCCATTGCGGGATGCCGTGGCCATGGTGTTGCAGAACAATACGCTGTTTTCTGGTACGATTTATGAAAACCTGCGCTGGGGCGATCCCAATGCCACCGACGCTGAAGTGGAAAAGGCAGCTCAAATGGCCCAGGCGGACAGCTTCGTCCAAGAGATGCCCAAGAAATACGATACCTATATTGAGCAGGGCGGGAGCAACGTATCCGGCGGTCAGAATCAACGGCTGACCATTGCCCGGGCCTTGCTGAAGAAACCCAAGATCCTGATCTTGGATGATTCCACCAGTGCCGTAGATACCGAAACCGAAGGAAAGATCATGACCGCGCTCCGGACTGAATTGCCGGATATGACCAAGATCATGATTTCCCAGCGGATCACGTCCATCGCCCAGGCCGACCAGATCATCGTCATGGATGATGGCCAGATCAATGGCGTTGGCACCCACGAGGAACTGTTGAAGAGTAATGCCATTTATCGGGAATTGAATAATTCCCAGCAAAAGGATGTCCAAGGTACGATCAAGGAAGGAGGGGACAGCAATGCGCCAGATGCGGGGAACAAGTAA
>SRR1151209_00535 hypothetical protein
ATGCGTGTGCTGTGGCGTTTCATCACATTTCTGTTTCAACTCGCCATTGTGGCCGGCCTGGTGTTATTATTGCTGGTCGGCATTCGCAAATGGCAAACCTACGATCAAGTGCACCGGGTCAGTCAACTGATTTCTGAACAGCAAAACACCAGTGCCAGCGCCCCCAAGGGCTGGTCGACGTTGGAAAGCTGGTGGCTGGCGGATGAGAACGGCCAAATCGTTTATAATGCGCAAGCGTTGCCGAAATACCAAACCGAAGCGGCCAGCGCCGCGGCGTGGTGGAACAAGGCCGCGGGCCGCACGATTATCGTCCCCCAAACCACCCAAGCAGCAGCGGACGTTTACCTGGCACCAGTGCAAAGCAAGTACCTGTCCTTCTCTGGGCTGGCCAGCAACGGCCATAAGATCCTGCTGAATACCACGGCGCAAAAAAACAATACCAGCGACACGGATGTGATCAACATCTTCATCCACGAATTCGGTCATGCCCTGGGGCTGGCCCATGCGCCGCAGAGCTATAACGACGTGATGTCGCCGTCGCAAATTGCCTCCGGCCAAGTACGCCAAGTGTCGCAATACGATCGGGACGCGTTAACCGCCGCCCTGGCCCGAATCAGCAAAGTGAAGGCCCAGGGGGTCACAGATCAGGCGTACACCGCGATCGCCGGCCAGCAGCCGCTCACCAGCAGCGGGTTAACTCATTTGGATGACCCGGTGCAAAATGCCCGGCAGCCCTTAGTGGACGTGCTCACCCAAACGATTTCCCGCATCAGCAAACAGGGCGAAACCGACGACGCCACTTTGGCCAATGCCAAGGAGTATGTCCAGCGTCTTAAATATAACGAGGATGTCAGTGACGCGACCATCCATGGCGCAGAAGATACCTTGCATACCCTGGCAGTTAATTATCATTTGGAAAAGTATTTCCCGTTTGCTTTCAATCAGGGCGGCCAAAGTACGGCCCATAACGACGATTTACGCAGTATTCTCGGCAACGATTAA
>SRR1151209_00536 hypothetical protein
ATGGCAGTTGAAGACGGTACAGCGGGCGATCCTAAGGACATCGAAATGACCATCATGTTGGACAAGAAGATGAACGAAGAGTTCGACTGGAGCGATAGTAAGCTTCCAATCCGTGATGCTCTTTGGGACTACTACATGGAGAAGAACAATCACAGCACTGACAAGACTGAGAAAGACATGGAGCCTACATTGGACATGTCCGACGATGACGTTAAGGCATTGGCTGAGAAACTTCTCAAGAAGTAA
>SRR1151209_00537 pyruvate kinase
ATGCGTAGAACTAAAATCGTTTCCACGGTCGGTCCGGCCGCCAATACTACGGACATTATGGTGCAGCTGATCAAGGCTGGCGCGGATATTTTCCGTTTCAACTTCTCCCACGGCGATCACGAGGAACAACTCGGCCGGTTTAAGAAGGCCCACGAAGCCATGCAAATCACCGGCAAGCGGATCGGTTTGATGCTGGACACCAAAGGTGCGGAAATCCGCAGCTCCGATGTTAAAGAAGACGGCAAGATCCACTTTAACGTTGGCGACAAGGTCCGTATCGGCATGGACGCCAGCATTTGGACCAGCAAGGAATTAATCGGGGTCAGCTATGCCGGCCTGTACGATGACGTTCATGTCGGCGGCCACGTCCTCTTCGACGATGGCTTGCTGGATATGAAGATTCTGGAAAAGGACGACAGCAAGCGCGAACTGGTTACCGTTGTCGAAAACGCTGGCGATTTGGGCGGTAAAAAGGGTGTTAACGCCCCTGGCGTTGAGATCAACCTGCCGGGGCTGACTGAAAAAGACCGGGACGATATTACTTGGGGCTTGCAACAAGGCTTCAACTACATTTCTGCTTCCTTCGTCCGCAAACCCAGTGATGTGCAAGATATCCGGGACTTGGTTGATGCTGGTCCGAATCCGCATGTCATGATCATCCCGAAGATCGAATCCCAAGAAGGCATTAACAATGCCGATGCCATTCTGGCCGTCTCCGATGGCTTGATGGTGGCCCGGGGCGACATGGGTGTCGAGATTCCCTTCGAAATGGTTCCGCAAGTACAGAAATCCCTGATCCGCAAGGCGAACATGGCCCACAAGCCGGTTATCACGGCGACGCAGATGCTGAATTCGATGCAGGAAAATCCGCGGCCGACGCGGGCCGAAGTCGCTGACGTCGCTAACTCCATCTATGACGGGACCGACGCGACGATGCTGTCCGGCGAAAGTGCCAACGGCAAGTACCCGGTTGGGTCTGTCGCGGCCATGGCCCGGATCGACGAAGCCACTGATGAGGATCTGCCGCAGCACTCTGTGATCATGGACGCGTTCAACGCCAATGACAGCATTACGGATACGCTGGGCTACTCAGTCGTTTCCGCGGCTGAGCGGGTTGGCGCCAAAGTCATCGTGGCCGTTACCGCCAATGGCTTTACGGCCCGGAGTATTGCCCGCTTCCGGCCCAATATTCCGATCATTGCCTTGACCTTCACCAACGAAGTCGCTGATTCCTTGATCCTCTCCTGGGGCACGACCCCGATCGTCATTGACGATACGGAGAACATCAATGAGATCTATGCAACGGCGGAAAAGGTTGCCGTGAGCGAAGGCTTGCTGGAAAAGGGTGATCGCATGGTGATCACGCTGGGTATTCCGTTTGGCAAGTCGCACCATACGAATAATATGTATGTTCGGGAAATCGGCGAGGATTAA
>SRR1151209_00538 hypothetical protein
ATGACTAGGTCCAAGAGCATTGGGAAGTACACTTTGATTTTCATTGCCGGTCTGTTGGCTGGTATTGTTTTACGGGCACTCGTTGGCTACTTCTTCCCGGGATTCCCTGGGGTGTGA
>SRR1151209_00539 glucokinase
ATGATGGGTAATGCAATTTTTGCCGGGATTGACTTGGGCGGGACCAACGCCAAGGTCGCTTTGTTCGATGATCAGCTGCATCAAATTGGTGAGAAACGGGCACCCAGTCGGGCGACCGAGAGCGCCGATATTATTTTGGAAAACTTAGCCGCGTTATTAACGGGGCTGCTGAAAGAAACCGGGACTGACCCCGAGGATCTGATGGCCCTGGGAATCGGAGTGCCGGGACTGATGGATGTTCAGGCCGGGATTTCCCATTATCTGGCCAACTTCCCCCAATGGCGGGATGTGCCGGTGGTGCAATGGTTTGAAAACCGCCTGCATATTCCGGTCGTTTTGGACAACGATGTGCGGATGAATACGTACGGCGAATGGTCGGAAGGGGCCGCCAAGGGCGTCCAGAATGCCATCCTGTTAACCTTGGGTACGGGTGTCGGCGCCGGTATTATTCTGGAAGGCAAAATGCTTTACGGCACCACCGATAGTGCCGGGGAGTTGGGGCACATGTCGATCAACGCGAATGGCCGCCCGTGCAACTGCGGCAACATCGGCTGCTGGGAACGCTACGTGTCCGCCACGGGTCTGATTCAAACGACCCAGGAAGCTATTGCTAAAGCCCCGACTAGTGTGCTGGCGGAGTGGCAGGCTGAGGGGCAGCCGCTAACTGGTAAAATGGTTTCGCTGGCTTACGACGAAGGGGACGCCGTCGCCCATGAAGTGATGAATCAAACCGGCGAATGGCTTGGCGTTGGCCTGGTATCGATTATCAACGTCTTCAACCCGGAGCGGATCATCATCGGCGGGGGGATGGCCGCTGCCGGGAAACGAATTATGACACCTGCCCAAAAGTACATTGACGCACATGCCCTGGCCCAGCCGCTGGCTGCCGCCAAAATCGTACCCGCGGCCTTAGGCGATCGAGCGGGTATGGTCGGGGCTGCCGTCCGCGGCCGGGCTAAATGGGCTAAAAATAACGCCTCGTGA
>SRR1151209_00540 hypothetical protein
ATGGAATTGAACATCACGGGGCTCCCCGATTCGTTGCGCCCCGCTATTGATCTATTGGCCCCGCGGTGGGACATCACGGTGACCGCGGATGCTGAGTTGACTGTGACCCTGGCCCCAACCGCCGGGACCTTGACCGTGACCCGGGCAGACACCGCCGGGACCATCGGGTATCCCGGCGGTGCCGCGGCGCTGCGCGGGCTGACCGAGTGGATCGCCCACGCGCAAAACGAACGGCATTTCAGCTACCAGGAGACGCCAACCGCCGCGACTGTGGGTCTATTATTGGATATTCGCCACAATGCGCAATTAACCACCCGCGAGGGTCAGGCGTTGCTGCAGCGCTTGGCGATGCTGGGTTACACCGCCTTGACTGTGATCACCGGTCCGAATACGCTACTGGACAGTGATCAGTTAAATACAGATGCCCAAATTTTGCATATTGCCCAGACAATATTGACTGCTGTACCGGACAAAGCACCGGCTGGCACCATTTCTCTGCATATGGACCAGGGCCTGGCTCCCAACCAGGGCGTCATGGTCGCCGCGGCCCAAGCAGCGGCTTTGACCCGACCCACTGAACTATGGGCTGCCGCCGCTTTCACCGATGGCGGCGAGACACCAACCCGGGCGATGATGCTTGGCTTACAGGCTGTGGCGGAAGCGGCCTATGCGCCGGAATTAACCAAAGACTGGCTGGCCGCGCAATTCTGGCTCATGCAGCACGAAGACTGGGATGGTTTCTATGCCCTGGATCAATTCGACAACTTCAAGCGCCGGGGCAAGACGAACATCCAAGGCGCCAATCCTAGCAAACTGCTGCTCTACATGGACTGGCTGACCCCGCGGTTCTGGGCGAACTTCAGCGGCGTGGATGCCGAGAAGCACTATCGGGTGCTGGCAGAGAAACTTGGCGGGGCGGTCACGACCCAAACCACCCGGCCGCTGTATGCTTATTATCAGCAACTGGCCCGCTTTCTCAGTCACAAAGCCCACCTGCTGGACGCCATTCAGGACGCCTATCGGGCCGGTGACCGGGACGAAATGACCGGGGTGATCGCCGAGCTGCAAGCGCTGGCCCGCCGCCTGGATAAACTGCATGATGCCCGCCAGACCCTGTGGTTGGTGGAGCGCTCGCCCATCGGCTGGGAGGTCGTGGATAACCGCTTCGGCGCGCTGAAGCAGCGCCTGTTAACGGCAGTGGAGCGGCTCAGTGCCTGGGAAGACGGCCGCTTGCCCGAGCTGCCGGAAATGACTGCCCCCTTGACTGCCATTGCCACCGAAAAAGGCGGCAAATTAGGGTTTGCCCGCTACCACGACATCATCAGTCCATTTCCCCAAGCATAA
>SRR1151209_00541 hypothetical protein
ATGGCCCAATTCGATTATCGCATTGACGAACAAACTGAGTACAACTTGGGAGACACGCCGTCGCTGGTAATGCTGACAGAACGGAATTACTTAATGTTCCAAGGCACCGGTGAAGCGCAGCTGGCCAATCCGGAGTTCAAGGATGCGGCGGCCGCAATGTACGCCTTCGCGGCGGGCATCAAGGAACAGGCGCGGCACAGCAAATTGATCGACTGGTTCCGGGACTATGTCCCCTATCCGCTGAGTGTGTACCGAACCCCCCACGGCGCGTACACAATGCTGATCAAACAGCCCAATTTCACCGTCCCGGAGCTGCTGACCGCGGCGCAGGCCGCCGCTGGTCCGCTCACAGCGGCGGCCCGGCAAGTGGCATATCGCCGCACTGAAGAAGGGGTGGAAGTACAGCTGCTGCAAAAGGGCCCCGTTACCGAGGCCAGCTCAGTCTTCACCACTTTGACGGACTTCATGCAGGCCCACGGGATGACCCGGGCCCAGGACGGCTACCGGACGGTGTATCTGGATAATATTCTCACCACGCCGGCCGATCAAGTCCGCACGCTGGTCCGGATCCCGGTCACTGTCCGGGATCCGGACGCTGGGGATTATGAGATCGCCCGTAATTAG
>SRR1151209_00542 phosphoribosylaminoimidazole carboxylase catalytic subunit
ATGGCAAAAGTTGCAGTCGTCATGGGTTCAGCATCCGACTGGCCCACGATGCGAAATACGTGTACCACGTTACAGCAATTGGGCATCGCCTATACTGCCAAAGTCATTTCCGCCCACCGGATGCCAATGGAGCTGCAGGCCTTTGCCAGCGGTGCCCGGGCCGCCGGCTACGCGGTGATCATCGCCGGTGCCGGCGGCGCGGCCCACCTGCCCGGCATGCTGGCGGCCAACACGACTCTGCCGGTCCTGGGCGTGCCGATCCAGAGCCACGCCTTGAGCGGGATGGATTCGCTGCTGTCCATCGTTCAGATGCCCAGCGGCGTGCCCGTGGGCACCCTGGCCATCGGCAATGCCGGCGCGATCAACGCCGCCCTGCTGGCCGGTCAGATCCTGGCCTTGCAGGATCCAGCCTTAGCCGATCAGCTCACCGCATACCGTACCGCCCAGCACGATGCAGCGGTGGAAAGCGGGGCTCAGCTCAGTGACTAG
>SRR1151209_00543 phosphoribosylaminoimidazole carboxylase ATPase subunit
ATGCAGCGGTGGAAAGCGGGGCTCAGCTCAGTGACTAGGGAAATGTTTCTGCCGCCGGCCACCATCGGGATCGTCGGCGGCGGTCAGCTGGGCCAGATGATGGCCCTGGCGGCCAAAGCCATGGGCTACCGGATCATCGTCCTCGACCCCACGCCCAACGCACCGGCGGGTCAAGTCGCCGACGACCAGATCGTCGCTGCTTACGACGACACCGCCGCTCTGCTGCAGCTGGCCCAGGCCAGCGACGTCCTCACCTATGAGTTCGAGAACGTCAACCTGACCACCCTGCGCAAGGCCCAGCAATACACCGCGCTGCCCCAGGGGACTGAACTGCTGGCCATCTCCCGGGACCGGATTCGCGAGAAGACTTTCTTGGAGAACCACGGCCTGCCGGTCACCCCGTTTGCCAGCGTGCCCACCGCGGCTGCACTGCCCACGGCCATCGCCCGCATCGGCTATCCCGCCATTTTGAAGACCACCACTGGCGGCTACGACGGCCATGGCCAGCAGGATTTGACCAGCCCCGCCGATCTCCCGGCCGGGCAGGCACTAGCCGCCAAGCAGCCCTGTATTTTAGAAAAGCGCCAGGCCTTCTCCCGGGAGTTATCCATCATGGTCACCCGGGACGGCCACGGTACGGTCCGCTGCTTCCCGGTCGTGGAGAACCGCCACGCCCACCATATCCTGCACACCACCCTGGCCCCGGCGCCGCGGCTGTCCGCCGACAAAGCGGCAGTCATCGCGGCGATGGCCGAACGCATTGCCGCCAGCCTCGACCTGGCCGGGGTGCTGGGTATCGAACTATTCGATACCCCCGCCGGCATCCTGGTCAACGAATTGGCCCCGCGACCCCACAATTCCGGCCACTACTCCATCGAAGCCTGCAACCTGTCCCAGTTTGCCGCCCATATTCTGAGCATCTGCGGCCTGCCGATCCCGCCGATTCGCCAGCGCAAACCGGCGGTGATGCGCAATCTGCTGGGCGCTGACCTGACCAAAGCCAAACAGCTCTGGCCGGCCCATCCCGAGTGGCATTTCCACGATTACGGCAAGGCCGAGATCCGCCCCGGCCGCAAGATGGGCCACATCACTGTTGTTGCCGAAGACCGCCAATCGATGACGGCTTTGACTGAATCCGTTAATTGGGAGGATACATCAACTCATGACTGA
>SRR1151209_00544 phosphoribosylaminoimidazole-succinocarboxamide synthase
ATGACTGAAGCCACTTTGATTTATACCGGTAAGGCCAAACAACTCTACAGCACCGCTGATCCCGACGTTTTAAAGGTCGTTTACCTGGACCAAGCCACCGCTTTGAACGGCAAAAAGAAAGTGCAGATCCAGGGCAAGGGCCCAGTCAACCTGCAGATTTCCAGCCTATTATTTCAAACCGTCGCGGCGGCGGGTATTCCCACCCACTATATCGCCACCGACAACGCCACCACCATGCGGGTCTACAGATGTGCGATGCTGCCGCTGGAAGTGGTCTTCCGCAATTTTGCCTCCGGTCATTTCGAAAGCAAATTTCAAGTCCGCCACCTGCGGCCTTTCTCCCCAGCCATTCATGAGTATTATTACAAGTCCGACACGCTGGATGATCCGTTCATGAACGATGATCAGATCAAAGCCCTGCGGATCGCCGACCAGGCCACGCTGGCGCAGCTCCGCACCCTGACCGATCAGCTGAATGCCCTGCTCACTGCCCGCTTTGCCAAAGCCGGCATCACGCTCGTGGACGGCAAGTTTGAATTCGGTCGGCTCAGCGACGAAACACTGGTCTTGGCCGATGAACTATCCCCGGACAACTTCCGCTTGGTGGACAGCCGAACCAAAGAGTCCCTGGACAAGGATGTCTTCCGCCAGGATGAAGGCCCGTTAGTCCCTGTCTATGAAGAAGTGCTGCGCCGGTTAACCGAAAGCGAGGAATAA
>SRR1151209_00545 phosphoribosylformylglycinamidine synthase
ATGTTTAAAGCCAAGATTTACGTCAATTACAAGCCGTCTGTTCTGGATCCGAAAGCCGAAGCAATCAAGACTGCTCTGACCCGGATGAACCACCAGAATGTTCAGGACGTCCGCTACGGCAAGTACTTCGAACTGCTGCTGCAGGGCGACGATGAAGCCGCCGTCCGAGCCCAGGTGGAAGAAATATGCGACCAATTGCTGGCCAACGTGAACATGGAGACCTATCGCTTCGACCTGGAGGTGGCTTAA
>SRR1151209_00546 phosphoribosylformylglycinamidine synthase I
ATGCGAGCCGCGGTTATCACGTTCCCCGGGTCCAACTGCGATGAGGATCTGCAATGGGCTTTGGCCCATGTCTGCGGCATCCCCGCAGATCTGGTCCCCGCCAGCCAGGAGACGCTGGCCGGCTACGATGCGGTCTTTCTCCCCGGCGGTTTTTCCTACGGCGACTATCTGCGCAGCGGCGCCATCGCTCGGTTCTCACCGATCATGACCGCCGTGCAGGATTTTGCAGCCGCGGGCGGTTTCGTCGTCGGCATCTGCAATGGCTTCCAGATCCTCACCGAAGCCGGTCTGCTCCCCGGTGCCTTGCAGTGGAACACGTCGCTGCACTTCATCTGCGCCCCGGCCCCGCTGACGGTGGTCAACACCGCCACCGCGTTTTCGAATCACTATGCCGACATGGAGAGTGTCACGCTGCCCATCGCCCACGGCGAGGGCAGCTACTACGCCGACCCGGCGACCCTGGCCGAGCTGGAGGCCAATCACCAAGTGGTCTTCCGCTACCAGGACAACCCCAACGGCAGTATCCACGACATCGCCGGCATCACCAACCGCGCCGGCAACGTGCTGGGCATGATGCCCCACCCGGAACGCGCCGTCGAAGCCCTGCTTGGCGGGACTGACGGCCGGGGGGTCTTTTATTCCTTATTGAACGCCACGAAAGGAGCCGCCGCCCATGTTGCAGGTTGA
>SRR1151209_00547 phosphoribosylformylglycinamidine synthase II
ATGTTGCAGGTTGAGCTGAGTCCTGAAGAAATCCGCACCGCCAAACCATACCGCCAATGGGACATGACCGATGCGGAATACGACCGCTTCACCCAATTGATCGGTCACTTGCCCACCTTCACGGAAGTCGGCTTAGCCAGCGGGATGTGGAGCGAACACTGTGCGTATAAATACAGCAAGCCCGTGCTGCGCCAGTTCTGGACCAAGAACGAGAATGTCGTGATGGGCCCGGGCGAAGGCGCCGGGGCCATTCGCATCGGCGCGGGCAAGGTCGTCGTTTTTAAGGCCGAGAGCCACAACCACCCCTCCGCAGTGGAACCCTATGAGGGCGCGGCCACCGGTGTTGGCGGCATCATCCGGGATATTTTCTCCATGGGCGCCAAGCCCATCGCCGTGCTGGATTCCCTGCGCTTCGGCGAATTGACCGACCCCCGCACCCGCCAGCTGCTGGACCAAGTGGTCGCCGGCATCGCCGGCTACGGCAACGCCATCGGCATTCCCACGGTGGGCGGCGAGACCGCCTTTGACCCCACCTACGCCCGCAATCCCCTGGTCAACGCCATGTGTGTCGGCATCATGGACGAAGACCAATTGCAGAAAGGCCGGGCGGCCGGGGTGGGCAACGCCATTCTCTACGTTGGCGCGAAAACCGGCCGGGACGGTATCAACGGCGCTTCCTTTGCCTCCGGCACGTTCTCCGACAGCGAAGCGGCTGACCGGTCGGCTGTTCAAGTCGGCGATCCCTTTATGGAAAAACTGCTGGTCGACGCCTGCCTGAAAGTGACCAATGATCACCAGGACATTCTCGTCGGCATGCAGGATATGGGTGCCGCCGGGCTGGTGTCTTCCAGTGTGGAAATGGCCGGCAAATCGGCCAGCGGTATGGCCTTGGATCTGGACCTGGTGCCCCAGCGGGAACCGGACATGACCTCCTTTGAGATCATGCTGTCTGAATCCCAGGAACGGATGCTGTTGTGTGTGGCGGCCGGCCATGAGGCCGAGATCCAAGAAATTTTTGCCCGCTACGGTCTGGATGCGGTCGTGATCGGCCGAGTCACTGCTGGTCACCAGTATGTATTGACCCACCACGGCGAAACCGTCTGCGACATCCCCGTGTCATCCTTGACCAGCGATGCGCCGGTCTATCACCAGGCCGGTCAGCAGCCGGCCCGCTTGCAGGCCCCCGCGCCCGACTGGCAGCCGGTGATCACCGATGTGACCGCCACGTGGACAAGGCTGATGAACCAGCCGACCATTGCCAATAAGGCCAGCCTGTTTAGCCGCTATGATGCCCAGGTCCAGACGAATACCGTCGTCCTCCCCGGCAGCGATGCCGCGGTGCTGCGGATCAAAGGAACCGACCGGGCCATCGCCATGACCACCGACAGCAACGGCCGCTATGTTTACCTGGACCCGTACATTGGCGGTCAGCGCACGGTCGCCGAAGCCGCCGCTAACCTGGTGGCCAGCGGCGCCACCCCGTTGGGCATCACCGATTGCCTGAATTACGGTGATCCCACAAAACCGGAAATCTTTTATGAATTGGAAACGTCCGCCCAAGGGATCACCGCCGCTACGAAGGTTTTCAATACCCCGGTGATTTCCGGCAACGTGTCGCTGTACAATGAAACCAATGGCACCGCCATTTACCCGACGCCGATGGTCGGGATGGTCGGACTGATCGAGGACATGACGACGATCACCACCCAGGACTTCAAGCAAGCCGGCGATCTTGTCTACCTGGTGGGCACCACCCAGCCGGATTTCAGCGGCAGTGAGATTCAAAAGCTGCTCACCGGCGATATTGCCGGCCGGTTGGCCGACCTGGACCTGGCCACCGTGAAGCACCAGCAAGACCTGGTTCTGGCGGCCATCCAGGCCCATCTGGTCACCGCTGCCCATGATTTGAGCGAAGGCGGGCTGCTGACCGGTTTGGCTGAAATGGCCTTCGCCAACCAAATCGGCGCGGACCTGCGGGTGGCTGTGCCCACCAGCTGGCTCTTCGCCGAAACTCCGGGACGCTTCCTGATCACCATTGCGCCGGAGAATCAGCCCGCCTTTGAAAAGGTCCTGGGCAGTGCGGCCACTCTATTGGGCCGGACCACAGCGGCGCCGCAAGTCACCATTGCCGCGCCGAACCGGACGTTCTCCGCGTCTTTGGCTGACTTGCACCAGGCTTGGGAGGAGGGCATTCCGTGCCGCATGAATTAA
>SRR1151209_00548 amidophosphoribosyltransferase
GTGCCGCATGAATTAAAGGAACTCAACGAAGAATGCGGCTTATTCGGCGTCTGGGGCAACCCCCACGCGGCCGCCATCACCCACCTCGGCCTGCACACCCTGCAGCACCGGGGCCAGGAAGGGGCCGGCATCGTCGGTCTCACCCCCGCCGGGCTGCGCCGCCACTACGGCCTGGGCCTGCTCAGCGAAGTCTTCACCAAACCCGAAGACATCGCTGAGTTAGCCGGTCCGGCCGCGCTGGGCCATGTGCGCTATGCCACTGCCGGCGGCCGGCTGCTGGAAAACATCCAGCCCCTGCTGTTCCGGTTCAGTACCGAAGCCATGGCGCTGGCCCACAACGGCAACCTGACCAACGCCCGCACGCTGCGCCGCGAATTGGAAGACGACGGTGCCATTTTCCATACCACCAGCGACACGGAGGTCTTGATGCACCTGCTGCGCCGCTCCCCAGCTGCCACGTTCACCGGCCAGTTGATCGACGCCCTGAATCAGGTTCACGGCGGTTTCGCCTTTGAACTGCTCACCGAGCATGGCCTGTACGCCGCGGTGGACCCCAATGGGTTCCGGCCGCTGGTGCTGGGCACTTTGCCCGATGGCGGTACCGTGATCTGCAGCGAAACGGCGGCCCTAGACGCGGTCGGCGCCGACTTTGTCCGGGACATCCAACCCGGGGAATTGGTCAGTGTCACTGCCAACGGCGTCACCACCCAGCAGTACACGACCAACACTACGCTCAGTGTATGCTCCATGGAATTTATCTACTTTGCCCGCCCTGACTCCCAGATCCACGGAGTTAATGTCCACCAGGCCCGGCTCGCCATGGGCCGGCGTTTGGCTCAGGAACAGCCAGCGGATGCGGATATCGTCGTCGGGGTGCCGAATTCGTCGTTATCAGCGGCCCTGGGTTACGCCCGGGAAAGCGGCATCCCCTATGATTTGGGGCTGGTGAAAAGTCAGTATGTCGCCCGCACCTTCATTCAGCCGACCCAAGCGCTGCGGGAAGCGGCCGTTAAGCGCAAGCTCAGTGCCGTCCGGGCGGTCGTTGAAGGCAAATCCGTCGCCCTGGTGGACGATTCCATCGTCCGGGGGACGACGTCGAAACAGCTGGTCCGGTTACTAAAAAACGCCGGAGCCAGGGCGGTCCATTTACGCATTGCCTCGCCGCCGCTGCGTTTTCCCTGCTTTTACGGCATCGACATTCAGTCCACCCGCGAACTGATGGCGGCGAATCACTCGATCAGTGAGATGCGGGATATTCTCGGGGCCGATTCCCTGGGTTTTCTCTCTACCGAGGCCTTGGAAGAAAGCGTCAATCTCGATCCCACTGCGCCCCACCGCGGCTTGTGCGTGGCCTACTTCACCGGTGAGTATCCAACGCCGCTGTATGATTACAGCGCAGAATTACAGAAAGAATTGGCTCTGCTGCACATTAAAGTATCGGAGGTTTCTGCCTAA
>SRR1151209_00549 phosphoribosylformylglycinamidine cyclo-ligase
ATGGCCATCGATTACACCCAAGCCGGCGTGGATATCGCCGCGGGGGAAGAAACGGTCCAGCGGCTGACCCCGCTGGCCTCGAGCACCTATGACGCCAATGTCCGCACCGGGGTGGGCAGCTTTGCGGCCGCCTACGCCTTGCCGCAAGATTCTAGTCAGCTGCTGGTCAGCGCCACGGACGGGGTGGGAACGAAACTTCTCGTGGCTCTGGCTCAAAACAAAGTAGACACCATCGGCATCGATCTGGTGGCGATGATCGCCAACGATCTCTTGACCACCGGCGCCCAGCCCTTGTTCTTCCTGGATTATCTGGCCGTGGACAAACTGCGGCCGGACCAGGCCACGCAGATTCTCGCCGGCATCGTCGCCGGCTGCCGCCAGGCGCACCTGGCCTTGATCGGCGGAGAAACCGCAGAAATGCCCGGCATCTATCCAGCGGATCATTTCGACCTAGCCGGCTTCGGGGTCGGCCAAGTGGCCGCCGCCGAGCAGCTGCCTGCCGGTATTCAGGCCGGCGATGTGCTGCTGGGTCTGCCCAGCAGCGGGCTGCACAGTAACGGCTTCTCTCTGGTCCGGCAGGTCTTGCCGATCACCGATGGCGCGCTCCTGACGCCGACCCGAATCTATGAACCGGTTATCCGGCCATTGCTGGACCAGCACCTGCTCCATGGCTTGGCCCACATCACCGGCGGCGGATTGCAGGAAAACGTGCCGCGGATGCTGCCCAAGGGGTTAGCGGCCCGAATCGATCCGGCGGCCTGGACCTGGCCGGCGATTTTCACCCGCTTGCAGCACACCGGCGGCCTCTCGCTGGCCACCATGCGCCAAACCTTCAACTTAGGTATCGGTATGGTTCTGGCCGTTGCCCCGGAAAAAGCGACCGCTATCCCCGCCGCCATTCGCCTGGGCGCGGTGGTACCCCGCACCCAGGCTGCCTTGGAATGGGGGCCGGTTGCATGA
>SRR1151209_00550 phosphoribosylglycinamide formyltransferase
ATGAAACGGCTCGCCGTCTTTGCCTCGGGCAATGGCACCAACTTTTTAGCCTTAGCCGAACACTTCCAAACCAGTACCCACGGGGCCGAAATCGCCGCCCTGGTCTGCGACCAGCCTGGCGCCCCGGTGATTGCCAAGGCCGCCCGGTTCGGCATCCCCGCTCATGTCTTCAATTACCGCGACTACCCCACGAAAAAAGCGGCAGAACAGGCCATACTGGCTGCTCTGCCCCCCGTGGACCTGGTCGTCTTGGCCGGCTTCATGCGGATCATCGGTCCCACCTTGCTGGCCGCTTTTCCCCGGCGCATCGTGAATCTTCACCCCGCGCTGCTGCCAGCGTTCCCCGGGCGCACCGGTATTGCCGATGCGTATGCCTATGGGGTAAAAATCACCGGCGTCACCGTCCATTACGTAGACGCCGGCATCGACACCGGCGAGATCATCGCTCAAGAACCGGTCCGGATTCTGCCAGGAATGACCGAACCAGAGTTAGAGCAAGCAATCCATGCCACTGAACACCGTCTCTTACCTGCCACTATCGAACAGCTCATTACGAAAGGATGA
>SRR1151209_00551 bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase
TTGCGTCGTGCATTGTTAAGCGTATCGGATAAAACTGGTTTAGTAGAATTTGCCCAAGGGCTCATCGCGCAAAACTTCGAACTGCTCACCACCGGCGGCACCCGGGCAGCCCTCACCGCCGCAGGCGTCCCCAGTACCGAAGTGAGCGACATCACCGGCTTCCCGGAAATGCTGGACGGCCGGGTGAAGACCCTGCATCCGGCGATCCATGCCGGTATCCTCGCCCGCCGCGATCTGCCGGCCCATATGGCGGCTCTGGCCGATCAGGGGCTCGCCCCCATCGACCTGGTGTGCATTAACCTCTATCCCTTCGCGGCAACAATTAAGAAGCCTGGTGTGACCCGGGCCGAAGCCATCGAACAGATCGATATCGGCGGTCCCACCGCTTTGCGGGCCGCCGCCAAGAACGGCGCCAGTGTTTGGGCGGTCGCTGATCCGGCTGATTATCCCGCCGTCCTCACCGCTTTAGCCGCGGACAACACCGATTTTCGCCAGCAGCTGGCCATGAAGGTCTTTCAAATAACGGCCGCTTACGATGCCCAAATTGCCGCCTACCTGGCCGATGATCCGTTCCCGGACCGCTTCACCCCGACCTACACCAAGCAGCAAAGCCTGCGGTATGGCGAAAACAGCCATCAGCACGCCGCCTTCTATGCGGCCCCCGATGCCCCGGCGGATTCGTTAGTCAACGCGGCCCAACTGCACGGCAAAAAACTTTCGTATAATAATATTAAGGACGCTGACGCCGCCCTGCGCATGCTGGCGGAATACCCTGATCGGCCCACCGTTGTCGCCGTGAAGCACATGAACCCCTGCGGCATCGGTCAGGGGGCGACGATCGAGGCGGCTTGGGACAAAGCCTACGCCGCCGACCCAATGTCCATCTTTGGCGGCATCATTGCCCTGAACCGGCCGGTGGACGCGGTGACGGCCGAGAAAATGCACAAGCTCTTCTTGGAGATCATCATGGCGCCGGCTTACGACGCTGACGCGCTCAAGATTTTGGAAAAGAAAAAGAACCTGCGGGTCCTGACGATTGCCTTGCCCGCAGAAGATGCCGCGCCGCGGTATGAAACAGTTTCTGTCACCGGCGGCTTGCTGGTTCAGGAAAGCGACACCCGCTTGGAAGGACCCGATGATCTGACCGTCGTTACCACGACCGAACCGACGGACGACCAAATCGCCGCGCTGCTGTTTGCCCAGAGTGTGGTCAAACACGTCAAGAGCAATGCCATCGTGGTGGCTAAAGCCGGTCAGACATTGGGTATCGGTGCCGGTCAGATGAACCGGATCGGTTCTGTGGAGATTGCGCTGAAGGAAGCCCAGCAGAACCCGAATTTTGCCGGGGCGGTCTTGGCTTCGGATGCGTTCTTCCCAATGAACGACTGTGTGGATTATGCGGCGAAGCATGGGATTCGGGCGATCATTCAGCCGGGGGGGAGTATTCGGGACCAGGAGTCGGTGGATAAGGCGAATGAGTATGGGATTGCGATGGTGACGACGGGGGTACGGCATTTCCGGCATTAG
>SRR1151209_00552 transposase
GTGGAACTGACCAAGACGGTCAAAATACAGATCAAGCTGACTGCGGCAGCAGATGGGGACTTGCTGCGTCAGGCCATGGAACAGTATTGCTTGGCCTGTGACGCCGTCAGCCGCTATGTGTTTGACCATGGTTTTGTACTCAACACTACGAAACTGCAAATCGTCCTGTATCGCGACCTGCGAACTCAGTTTGGGCTGAAAGCCCAAATGGCACAGTCGGTCCTGCGAACCGTGACCGCTCGCTATAAAGCAGTGCGCACTCAGCTGAAACAGAAGCCCTACCGCTATCAAGACGAAGCCGGCAAATGGCAAAAACACGCTAAAGATTTGACCTGGTTGTGGCACCCGATCAGCTTCCAGCGGCCGCAGCTGGATCTGGTCCGGCGGCGGGATTGGGCCATCCGCAAGGACGGCTCCTTTTCCCTGAACACATTAGACCGCCGCATCACTGTTTGGCCGGTACTGAACCATTGGCGCGACTATTTTGACGGCACCTGGAAACTCGGTACCGCCAAGGTACTGACCAGCGGTGGGAAGTGGTATCTGCACATCGGCGCGACCAAAGAAGTGCCGGATTATACCCAGGACCAGACTGTCCACGTCGTGGGCGTTGACCGGGGGCTGCGCTTTCTAGCCACTGCGTTTGACGAGACCGGTCGGACCATCTACCGGTCAGGGACCCGGGCACTCAACAAGCGGCGGCGGTACAAACACTTGCGGGCCAAACTGCAAGCCAAGGGGACTAAATCGGCGAAACGAGTCTTGAAACGGATCCGTCAGCGAGAGAACCGCTGGGTGTCGAACGAAAACCATCGTGCGGCTAAGGCACTCGCTGACTACTATGGACCAAAGACCCTGTTTGTGCTGGAAGACTTGACTGATGTTCGCTTTGCGACTGAACAGGTCGCTAAAGACCGTCGCTATGAACAGGTCAGCTGGCCATTTTACCAGTTAGAACAGTTTCTGATTTACAAGGCCGCCGCGCAGGGCAGCCTTGTGTTGAAAGTGCCGTCTGATTATACCAGCCAGCGCTGTCCGCAGTGCGGTGCGATCAATAAGCAGCAGCGGGATCACGACCACCATGAATACCGGTGTGCCTGCGGCTTCCAGGCTAATGACGACCAGTCGGCCGCCATGAACATCCAGCAGCTGGGCAACCAGTGGCTGACCGGTACTGCTAAGCCGCGCTACACGCGCAAGCGGACCGGCTAG
>SRR1151209_00553 phosphoribosylamine-glycine ligase
ATGATTGAAATCATGGGTTTCCTTGCCCCATTTATCATGAACAACATTCTGATCATCGGTAACGGCGGGCGGGAGAGTGCGCTGGGGTTGAAGTTTCTGCAGTCGCCGCAAGTGGCGGCGGTTTATGTGGCGCCGGGTAATGCTGGGATGCCGCGGCTGGGTTTGGTGCCGGTGGATATTGACGTTGACGACTTTCCGAGTCTGATTGCTTTTGCGCGGCAGCATGCGATTGCTTTGACCTTTGTTGGTCCGGAAGTGCCGTTGGCGGCGGGTATTGTGGATGCGTTCCAGGCGGCGGACCAGCCGGTGTTTGGGCCGACCAAGGCGGCGGCGCAGCTGGAGGCGAGCAAGGCCTTTGCCAAAGCCTTCATGGAACGTCATCAGCTGCCCACGGCGGCGAGCCGGACGATCCATTCGTTGGCGGCGGGTCAGCAGACCTTGATTGAAGCCGGCGTGCCGCTGGTCTTCAAAGCCGACGGGCTCGCCGCTGGCAAAGGCGTGATCGTTGCCAAGACCAACACGGAAGCAGAGGCAGCGCTGGCGCAGCTTTATGCCCGGGACCCCAATGCCACCGTGGTGGTGGAGGAATGTCTGACCGGTCAAGAGGCCTCGGTGCTGGCGTTGTATCACGACGGTACCTATGTGACCTTACCCTTGGCCCAGGACCACAAACGCCGCTTCGATCAGGATGCCGGGCCGAATACCGGCGGCATGGGCGCGATATCTCCGGCCCCGCAGTTTACCGCCGACGAACGGGAAGCTGCCCGCCACTTAGTCGCTCAAACCATTGCCGGGATGGTCAGTGATGGCCTGAACGGTTCCGGGGTACTGTACATTGGCTTGATGTTCACGCAGAAAGGCCCCAAAGTCTTAGAATACAACCTGCGTTTCGGCGATCCGGAAACCCAGGTGCTTCTGCCGCAGATCAAGAATGATTTCTATCAGCTGATCACAGATCTGCTGGCGGACCGGCCCACACCGTTAGAATTAGACGGTAAAACCTACGTCGGGGTGGTCGCCGCCCATCCGGAATATCCCGGCGGCGCGATGAACGCCTTACCATTGGCCGACGTTCCCGCGGATTGGCCCATTGGCCGCTGGCTGCCCGCCGGCGTTCAGGAAAAGGACGGCCGGCTCTTCTCCCATGGCGGCCGCGTCTTCACAGTGATCGGGAGCGGACCGGATCTGGCCAGCGCGCAGGGCAACGCTTATGGGGCGATGGCTGAAGTGCAAGGCCCGTTGGCAATTCGCAACGACATTGGCGACAAGGGATTGGATTAA
>SRR1151209_00554 hypothetical protein
GTGCGAACAGAGAAAAACTTCAAGCAGCTCACATTGCAACCGCGTATATTCTTGATTATTGCCATTTTTTCCTTCAGCACCCAGTTTGTTCGACCGTTGGTGCCGCAACTCAGCGATTGGTTGTTTATCCTGCTCTGGGTCATATTGACCATCGTTGTCGCCATTGTCCTCAGCATCACCGTCACCCGGGTGGTCGTCCCGCCAGTCAACGACTATGATCAGCCAGGAACAACGCTGGGATCCATGATACTGGTCGGCGCGTCCACACTGATTTATCAAAACCCAACTATCACCGGCACTTGGCTCTTTGCCCTGCTTTGGACGATTGCCTGTCTTCTGGTTACTTTTTTAATTGGCCGGATTCCCCGCTTACCCCGGTATTTGCGTGATAAGACCCTGCCCATGATGCTGATTTTCCCCGGAACAGCGTTCTTCGTCCGCAGCCTGGTGCCATTTACGCACCGCTTACCATTTTTACTAGGCTGGACTACTCTTGGCTTTTATGCGGCCATCCACATTAATCTCTGGCTGACTCGCCGCCGGCCGCGCTGGTAA
>SRR1151209_00555 glycerophosphodiester phosphodiesterase
ATGGGATTTCGTAGTATTCGCTATACCGGTCAAGCCCTGCGGGAATTCTTCCGCCACTGGGGCAGTTATTTTATTCTAAGCTTCGTTGTCGGCGAAGCAATTAGCCAAATCATCGTACCGCTCCTGCGCTGGTCCAGTCAGATGATTTTGCAGGCCAGCGGCATCGCGTATGTGTCCTACAACAATCTGGGCGAGATCATCACCCAGCACACCTGGGGCGCGCTCGAGCTGCTGGTGATGTTTTTTCTAGTGCTGTTACTAGTCTATGCCCAATTTGCCATGCTGCTGACGGGGGTCGATAATATTGTCCACCAGCGCCAGCAGAATTTGCGGTCGGTCTTCGGTGAAGCCATCCGGGATCTGCAGCGGATTCGGCCAACGACGGTGCTGTTCTTTGTCTTTTACTTTATTCTTGTCATTCCCTTTGCTGGCGGGATCATCAACTCGGCATTACTGGATAAAGTGCGGATCCCAGAGTTTATTCTGGATTTTCTCAACGAAAATAACTTCTACGCCATGTTGATCGGTATCTTTTATCTGATCATGCTGTACGTCGGGATTCGGCTGATTCGCGTCCTGCCCCACATGATCTTGGACGACCAGCCGGCCGGTACTGCCTTGCGCAATAGTTGGCGGGAAACCAAGAAGCACTTCTGGTTTTACTTCTGGCGGGTCACTTGGCTGACCGCGGTCGTGGCCGCCGTGCAAGTCTTGTGGACGGAAGGTCTGGTGGGTATCCAGACGTACCTGGATACTTCCCAGCAGACGTTTGCCTATGCCGGTTCAATTATTACCATGGCGACACTGCAGGTCGGCGGGGTGTTCATCATGGCGCTGACGACCACACTGTATTATCTCGTTCTGGTCAGTCCGGACGCCGTGACCAAAGCGGCACCCGCACCGATCAGTGTTAAGGAACAGAAGAAGCGCAAGCGCTGGCCCCGGGTCATCGCCGGAGTGGTCATTGTGCTTGTGGCCATTGCTTACCTGATTTATAACGCCGTCTACATGGCTGGCGGCTTTGATTACAACCCCATCACCATTTCCCACCGGGGCGTGGACGACCATAATGGTGTTCAGAATACCATTCCCGCCTTGGAGAAAACTGCCAAAGAGAAGCCGGATTATGTCGAAATGGATATCCATGAGACCAAGGACGGTCAGTGGGTGGTCATGCATGATGAAAATTACGAAGCCTTAGCTGGCGTGGATAAGACCCCGCGGCAACTGACTTTGGCCCAGGCAACTCAGCTGACGGCCAAAGAAGACGGCCATTCGGCGCCAGTGGCTAGTTTCGATGCTTACTTGGCAGCGGCGGAACGGCTGCACCAAAAATTAGTCGTGGAAGTCAAAACGACACCTCACGATTCAAAGGGCGCGATCAACGGCTTTATCCAAAAGTATGGGGCCCGCCTGATCAAAGACCATAACCGGGTCCACTCGTTGGATTATCGAGTGATTGCGGCCATTAAAGCCCAAGAGCCCAAGTTGTACGCCAGTTTCATCCTGCCCTACGACATTGTCTTTCCCCAAACCAAGGCCAACGCCTACACCATGGAGTACACGACCTTAGATGTTGATTTCATCAGTCAGGCTCAGGATCAGGGTAAAGAAGTCTGGGCTTGGACGGTGGATGATCCGGACAAGATGGAGGAAATGATTTTCATGGGTGCCGACGGGATCATCACGGACAACCTCAGTGATTTGCAGCAGACGATCAAGGACCAAGTGAACCATCCCAGCTATGCGGCCCGACTGCGGGTTTATGGCAACCAATTTAATTGGAACGGATTGAATGGGGCGGAGAACTAA
>SRR1151209_00556 esterase
ATGACCGATGTCAAAATTACCAAAGATGTGATCTATGACCCAACGCACCAATTACCTACCGATATCTACACCACCGAGGTCGTGACGGCGCAGTCGCCGGCGATCATCATTATCCATGGCGGCGGCTGGTTCCGGGGCGATAAGTCCAAGGAGTCTGACTTGGCGGAGATTCTGGCTGAAGAAGGCTACTTCACCATCGTGCCCAATTACCGGTTGGCGCCAAAGGACTTGTTCCCCGCGTCTCGGGATGATATCGAGACTGTTTATACCTGGTTGAAGCATAGCGATTATACCTTCAACCACAGCAAGATCGCGGCCGTTGGCGCGAGTGCCGGCGGTAATTTGTCCGGCGAGCTGGCGTTGAAGTTCGGTATTCCGGCTGTTTCCTGGTCGGGGATCTTCGACCTGTACGATTGGGTGACAAAACACCCCGACGTTGTGGCTGAGCCGGATACCAAGCAGGACGCCACCGTCTTAGCCAGTGCCCAGATCGACCAAGACGGCGCCCACGATGCGTTCTACAAATGGTTCGTCCTGAACTATGTCAACGGCGACCTGGATCAATTGAAGGAAGCCGATCCGATCCAACGGGTGTCGGCTAAGTCCGGCCCGATCTACTTCGCTAATTCCTTGAACGAATTGGTGCCGATCAGCGGCGTACAGAAAATGCAGGATGCCCTGAGCCAGGCCGGGGTGCCGACCATCAGTCAATATTTGACGGGAGCCCGCCACGGCAAGGCCTATCAAGCTGATGTGCTGAACAACACGTTGGATTTCTTCAAGAAAGCCTTACAGTAA
>SRR1151209_00557 hypothetical protein
TTGGTGATTTTGGGACTCATGGCAATCGGCGGGGGCTGGTATTACCACGAGAATTACACCGGTGAGGATTATTACGTGAAGATCACCACCAACGGTGAAAAATTGCGGGACACCGAAGCCCCAGCGGCGTATCAAGTTTATTACGAGTATGCGCTGCCAGCCTTTAACGAAGCCGGTCAGCAGCGGCAGGTCACCTTCGATGCGTTTCGAGACAATCCGTTACGCCGGAATGCATACCTGAAGGTGGCATACAACCATACCCGCGGCGTAATTTTGAGTTATGAAGAGGTCCAGCAAAAAGACATTCCCAAAAAGGCGGCCAGCAAACTGAATTAA
>SRR1151209_00558 antimicrobial peptide ABC transporter permease protein
ATGCTTTGGAAACTTGCACTCGGCGGCATTAAGAGCCGTCTCAAAGATTATGTCGTGCTCTTTTCCGGCTTAACGATTTCTGCCGCGATTTTCTACATGTTCCAATCGCTGGCCAGTAATCCGGAGTTCTTGAAAGCTAATTCCACTCTGGGGATGATCGTGTTCATTTTCTACTTCGGGTCTGTTTTGTTAGGCATCATCACTTTGGTTTACATATTGTATGCCAACTCGTTCTTATTGACGATGCGCCAGCACGCCTATGCGATGTTTATGATGCTGGGGGCTAAATCTCGGAAAATTGCCCAGTTGATTTTTATCGAGACTGTCGCAGTCGGGTTGATTGCCACCGTGGTGGGCAGCGCCATCGGCGTGGGCTTGACGCAAATTATCAGTCAAGTACTGGTCAAACAGATGGACATTTCGATCACGAAGTTTTCACCCTGGAGCACCAACGCAGCCATCGTCACTGGCGTGTTCTTCCTGGTCCTCTTCGCCATTGCCGCGCTGTATAATGCGGGCAAGCTGGTGAAGACGCCGGTCTTGAATCTGTTGAATCAGGATAAGACGCCGACCCGTTTCAAGCGCAATCCGGTCCTGTGGGGCATTGAAGTCGTCGCTGGATTGGGCTTACTGGCCATTGGTTACTTAAGCATGGCCAATCTGAACACGCTGCAGCTGCTGGGCATCGGTATCGCGCTGGTGACCATCGTGTTGGGCTCCTACTTCGTGTTCGATGCTTTCTTCCTGATGATCATTCAGCTGCTGCGGCGGAATACCAAATTCCGGTTAACGGGCTTACACAGTTTTACCCTGGGTCAATTGAGCTTCCGCATCCGGGACTTCACCCGGCTGCTGTCCATGGTGTCCATTGTCTTCGCCTTGGCGCTGGGGGCGATCACGGTTGGCTTAGGCTTCCACGACCAGATTCAATCCATGGCCGCGCAGGTATCGCCCTATGATTTAGTCCTGCATGATCCAACCAGTAAAACGGCCAGTCAGGCAGACGCGCTGAAGCCGACCAGCGTCAGCACCTACCGCTATAAAGTCGACGGCAAAACGATCTACTTCCTGGCTGACGATTTCAACAAGGCGCCTTACAAGATGTTTAATCCCAAGCAAAACGCGGACGGTTCCTTCAGTGTCCAAAAACAGACCTATACCGGCACGGAAATGCTGAAGAAACCGGATAGTTACACCGGCACACTGCGCGGCTTAGCCGTCGCCAGCGCTGATGCGGCACCAATCAAAGTGGTCGATGCAGCGACCTACGCGAAGACTGCCGGTCAGGCGCATACGGTCTCGCTGTACGTCACGAAGGATTTCATGGCCAGCAAGGACAAGCTGAAGGCGCTAGTGGCCGCGGATGCCGCCCGCCAAGGGGGCAAAGTCGCCACCATGGATATGAACCAGAAGTATTCAGTCTATGCACTGTACAACAGCATGATGTCCGGCTTCGAATTCATGGGGCTGTTCCTGGGTATCGCCTTCTTGGCCATGCTGGCGTCCTGCCTAATGTTCAAGATCTTGTCCAGCGCTGCCAGTGATGCCCTGCGCTACCAGATGCTGGAAAAGATCGGCACGCGGCGCAGTTTGTTGAAGCGTTCGATTCGCCAAGAAATCGGCGTACTGTTCTTACTGCCAGGCGTGTTGGGCATCATCCATGTGCTGTTCGGCTTGCAGATGTTCAAGGTCACCGATCTGCTGCCGCAGCCGTACCACAACATTTGGCTGCCGTTTCTGATTTTCTTAGTACTGTATGTTTTGTATTATTTCTTAACAGTGCAGCTATACAGCGGCATCGTGTTACAAGGCCGGGGGGCCGAAGACTTCCAACGGGGTGAATAA
>SRR1151209_00559 antimicrobial peptide ABC transporter ATP-binding protein
ATGGCCAATGTGGTAGAAGTTAAAAAAGTACGGAAAGTTTACGGTAAAGCGAATGAAAAGCAGACAATGGCGCTGAAGGATGTCTCCTTCAATGTTCAGGCCGGGGAATTCATCGGTATCATGGGAGCGTCCGGTTCAGGCAAGTCCACCTTACTGAATATCCTATCGACACTGGATAAACCGACGGCCGGCGATGTTCGGATCAATGGGCAGGACGTGACCGGCTTGAAGGGCAATCAGTTGGCGGACTTCCGCTCCCATGAAGTCGGGTTCATTTTCCAAGATTTCAATTTGCTGGAGAATCTCACCTCCCGGGAAAACATTGCGCTGCCTTTGTCATTGCAGGGTGTCAGCGCTAAAAAGATCGCGCCTCAGGTACAGAGCATTGCGGAAAAGCTGTCGATCACTGAGATTCTGGATCAATACCCCACGGAAATTTCCGGCGGCCAAAAGCAGCGGGTCGCGGCGGCCCGGGCCCTGGTCGCCCAACCGGCGATCCTGTTCGGGGATGAACCCACCGGTGCTTTGGATTCCCACAGCGCCCGGGAATTGCTGGATACGATGACATCGTTGAATCAAAACGACGGCGTATCGATCCTGCTGGTCACCCATGATCCGTTTTCGGCCAGCTACTGCCAGCGCATTCTGTTCATTAAAGATGGCGTGATCGGTCAGGAGCTGAAGCGGAAAGATCAGGACCGCACGGCATTTTATCACCAGATTCTGGACGAACTTGGGACTTTTGAGGACTAG
>SRR1151209_00560 XRE family transcriptional regulator
ATGGATGAACGGTTACGCACGCTGCGTCAGCAGCATCAGCTGACGCAACAGGAACTGGCAGAAAAGTTACAAGTCAGCCGGCAGACGATTTCCAATTGGGAAAATGGCCGGTCAGCACCGGATCGGGTCAATATCGCCGAATTGGCGAAAGTATATCAGCTTCCATTGGAAACTCTGCTGGGTACATCGGTCCATGCCAAGCCGGCACCAACTGAACAGGAACGGCACATGACGCTCTTCGTCGTGGTGTTGATGTTTCTCTCGTGCATTACCCCGCTGGCGGCGATTCTGTCGCTGTTTATCGTCATCAGCTGGAAAGACCACCTGCCCCGCCTATTGTACCGTCTGGCCGCCGTGATTTTAACCATTCTTTCGTCAGTGAACGTGATTCTGATTATCGCGCTGATCGTCTTCTTTCCCTTCTAA
>SRR1151209_00561 hypothetical protein
ATGCGCTCATTACTATCATTCTTGTTGTCCCAAGCCGACACCATTTGCATTGTCTTACTGTCTATCGCCTTAGTGAGTATGAGCATCACCCAAGACCAGTTGAAGAAAGAAGTCAACGAGTTAAAGAACCAAATCGCCCAATATGACCAGCACATCCAGAATACAATGTAG
>SRR1151209_00562 hypothetical protein
ATGCTGGCAATCTTCAATAGTGCGGAATTACCCGTGGTTTTCGGATACGGGGGATTAGTAGTGCTGGCCTTTTTTGCCTTGTTTCTGGTGTGCTGGCTGATTGAACCGCGGCGGTTGCTGAACGGGACGCTGTTCATGGCCTTTTTTGTTATCTTCTGGCTCTGGCTGGGGACGACGATTATTTACACTAGGAATATACTCTTGATTTACATCACTGGGGGCCTATTCCTAATCACTATGGTAATTCTAGGGCTCATTTGGGGGACTTCGTTTATTTGGCTGCTATGGAACGCTTGGATCGTCTGGCGACGGGAAAGCCATACGCTGGCCAACATGCTGACGCTGTTCACCGGCTTGGGTCTGCTGATTCTTTGGGCGCTGACGGCATTTCTCAATCGGCTGCCCGCCTGGCTGCAGGTGATCGTGGGGACGGGCAATGCCCTTATGTACTACGGTACGTTGCTGCTGTTCAATTTCGTCTTCAGTCTGATTCTGTATCAAATGTACCCGATTCCTTACAAGCAGCAGTACATTATCGTCTTGGGGGCCGGCCTGCTCCATGGGGACACGGTTTCTCCATTGCTGGCGGCCCGCATCGAGCGGGGGATGAAGTTTTACTACCGTCAAATTAATAAGGGTCGGCCGGCGCCAAAAATCATTTTCTCTGGCGGGCAGGGCGCTGATGAAAAAATATCCGAAGCCGAAGCGATGCGGAATTACGCTATTGCCCATGGTATTCCGGCGGGGGATACACTGTTGGAAGATATGTCCACCACGACCCAGGAAAATTTGCGTTTCTCCAAGGCCTTGATGCAGAAACGGGAAATTGGGAAAGGCCGCATTCGCGCCATCTTTGTTTCCAATAACTATCATATTTTTCGGGCGGGCATGTACGCTCGGGCGGAGGGCTTGCAGGCGAATGGTCGCGGCGCCCACACATCGTTTTATTACCTGCCGAACGCTATTCTGCGGGAACTGATTGCCGTGACGCTGATGCATAAGCGGCGGCACATCGTTGTGGTGGGAATTATTCTGTTTTTTGCCGGATTATCGTTCATTATATCGTTTATCCACTAA
>SRR1151209_00563 membrane protein
ATGTCAATTAGTCGGTTTCAGGCCTTCAGCGATGGCGTTTTTTCCATTCTGATCACCATTCTTGTTTTAAATTTCAGCATTCCTGCATACACAGCGGGGCACTTGGCGGCAGCGGTTGTCAACCAGTGGCCGACCATGGCCGCTTATGTGGTCTCTTACTTCTATGTGGGCACCCTGTGGCTGTTTCACCACGACTACTTCAACACCTTGACCCGGATCGATCGCAACGTGAATATGCTGAATCTGCTGATTTTATTCAGCATCACCCTGATCGATTACCCGATGTCCCTGGTCGCCCATACGCTGGCCATCCGGAACACCCAGGACATGCGGGTCGCTTTTATCCTGTACGATCTGGTTGCCCTGTTCGTGTCGCTGACCTTCTTTCTGATGTATGTCTATCTGCATCGGCACATGGATCTCAAGGCGCCCCACGTGACCACTGATTTTTACACCACCATCAAGTTCGACCCGCTGCGCAGTGTGGCGATCTACGGGGCTTCCATCATCGCCGCGTTCTTTTCCATCCCCTTGTCCGCCCTGCTCCTTGTTCTAGGGATTCTCTTCCACTTCTTTGCTTACTTGCGGATGAGCGGCAATCTGCGCAAGGCTAAGCCGATACCCGCCACGAAGAACTAG
>SRR1151209_00564 metal ABC transporter substrate-binding protein
ATGCGTAAATTATTGAAACCATTATTTGTGTTGATGGCGGGCCTGTTACTGGTCTTGACGGGGTGTGCTCAGAACGGTAACGCCAGTTCAGCCAATAGCAAGATCACTTATGTAACCAGTACCGATTTCTATGCGGAGCCGGCCGCGGCGGTCTTAGGCAGTCACGGCAAAGCCGAACCGATCATCCACAGCACCAGTGTGGACCCCCACGACTTTCAACCAACCACGGCCGACGGCAAGACCGTCGCGGCAGCAAACGTCGTCCTGGTCAACGGGCTGGGGTATGACCACTGGCTGAATAAGCTGGCGGCCAACAGCAAGGCTAAGCTGCTAACGGTGTCGACGATCGTCGGCGCCAAGAACGGCGACAACGAGCACCTGTGGTACCGGCCGGAAACCATGGGCAAGGTCACGGATGCCCTGGTCAAAGAATTCAGCAAGCTGCAGCCCGCGAACAAGAAGGACTTTGAAGCCAATGGTGCTAAGTACAAGAAAGAATTGGCCAAACTGACGCCGCTGATCGATGCTAAAAAGACCAGCAATCACGGGGAAGTTGCCGTGACGGAGCCGGTCTTTGGCAATATGCTGGATGCTCTGGGCTACAAGGTGATGGACGAAGCCTTCGCCAACGCCACTGAAGACGGCAATGATCCGTCCACTGCGGTTTATGCCAAGGTGGAAAAGGCCATCAAGGATAAATCCATCAAGTTCTTCGTGGTCAATACCCAGACCACCAGCAAGGTGATCACCCAATTGACAGACTTAGCCAAGAAGAACGATGTGCCCATCGTGCGGGTCACTGAAACCAAACCTAAAGGTGTGGACTATGTGCAATGGATGGCGAAGCAGTTGAATGAGATTCCGGCTTCTGCCAATAAATAA
>SRR1151209_00565 cation efflux family protein
ATGGTTGCGAAGAGCATCGTGATGTTATACGACAAGCGTCATCCTCAAGCGGATGAAGAGAAAAAGCGCACCAGTTTGGGCAAAGTGGCCGGCTTTGTCGGCCTATTGTCGAATATGCTGTTGTTTGCGATCAAGCTGGCCATTGGTCTCTTCTCAGGGTCCATCGCCATCATGGCTGATGCATTCAATAACCTGTCTGATACCGCTGGTTCCATTGTCACGCTGGTTGGTTTCCGCATGGCCGGCATGCGCGCCGACCGCGGTCATCCGTACGGTCATGAGCGGTTCGAATACATCAGCGGCATGCTGGTATCAATGTTAATGATTTTTGCCGGCTTGGACTTCGTGCAGAGTTCTATTGAAAAAATTCAAAACCCCACCGCGGACAATATTACGCTGATCGTGCTGGTGACGTTGGTCGCCTCCATCTTAATTAAATTGTGGCAAAATTTATTCTACAAAGAGATGGGTGCCACCATTGAATCCGACACACTGAAGACGACCGCCTTGGATAGTCAGACTGACGTGGTAGCGACTTTTGCCGTCCTGGTATCGGCCTGCCTGTCTCAATTTGCCCACTTGAACATTGATGGCTGGATTGGGTTGTTTGTCGCCCTGTATCTGATTTATGAAGGGGTCGACAGTATTCGCGGATCTGTGAATAACCTGGTCGGCAGCCGCCCGTCCGAAGAAGAAGTGCAGCGGTACACCGATCAGTTGTCGACTTACGATGAAATTCTCGGTTTCCATGACTTAATGATTCACCATTACGGTCCGACTCAGATCTTTGCTACTGTGCATATCGAGCTGGACAGCCGCTGGTCTTTGAACCAGGCCCACGAAACGATCGACAAGATTGAGCGGGATTTTCAGAAGGACCTGAACGTGGAGCTGGTGGCCCATATCGATCCCATCGATATTGATGACCGGCTGACGGCGGAGATGTACGAACGCCTGCAAGCCATCATCAAGTCCATCGGCGGGGGCCTGCACACCCATGATTTTCACATTGAGCATGGGCCGCACCACACCCGCATCGTCCAGTTCGATGTCGTCGTGCCGGATGACTATCCTGAGGACGACAAGACGCTGAATCTGCGAATCTTGGCAGACTTGCGCCGGTACTATCCGAATGTGACGACGGAGATCGATTTCGACCATAATTACATGGGTCATGATCATACAGTCCTATGA
>SRR1151209_00566 alpha/beta hydrolase
ATGCAAGAAAAACGTAAAAAGTGGTCATTACGCAAGAAACTCACGGTCATCATCAGTATATTGGTGGTGCTGTTCCTGGTCGTCCTTACCGGCGCCAGTCTGTATATGTACAATTACGGATTCGTCCCGGGGAAGAAGGACTTTCTCAGCAATAAGAAAGACCCGGTGCTGGACCGGAACAAACGCTGGTTAGCGGCAACGAAGAAATTCACTTGGCATGAAACCGCGGCCAACAGCAACTTGAAACTGGTGGCGGATTATGTCCCGGCAGCCAAGGCGACGAAGAAGACGATCGTCGTCGCCCACGGGTATATGGGTAAGAAAGAGGATATGGCGAATTATATCCGGATGTTCCACACCATGGGCTACAACGTCCTCGCCCCCGACGATCGGGGCCATGGGGCCAGTCAGGGCAATTATGCCGGTTATGGCTGGCCGGACCGGCTGGATTACATTAAGTGGGTCAAACAGGTAATCGCTAAGGACGGCCAGCAAAGCAAGATTTCGCTCTTCGGCGTCTCCATGGGCGGTGCGACCGTGATGTTCATGAGCGGCGAAAAACTGCCCAACCAGGTCAAAGCGATCATCGAAGACTGCGGCTATTCGTCCATCCACGATGAACTGGCCTACGAGTTGAAAGAACTCTTCGGCTTGCCGCCCTTCCCACTGATCAACACGGTGAATATCGTCGCTCAAATCCGCGCCGGCTACAACTTTGATGACGGCGACGCACCCACTGCATTGAAGAAAAACACCCGCCCAATTTTCTTCATCCACGGCGCCAAGGACACCTTCGTCCCGACCAAGATGGTCTACACCAACTACAAAGCGGCCAAACAACCCAAACAACTCTGGGTCGTTCCCGGTGCCGCCCACGCCCAATCCTGGGCCAAGCAGCCGAAGGAATATCAGCGGAAGGTTACGTCTTTCTTAAACGAATACGGACAATAA
>SRR1151209_00567 cation-transporting ATPase
TTGGCCACCGAAACCGAGAAAATCACCCCAACAGATCTCCACACCGGGTTAACCACTGCCCAAGTAAAAGAACGCAACCAACAGGGCCAGCGCAATATCGCGCCGAAACCCTTGACCCGCTCGATCGGTCAGATCTTGCGGGAAAACATCGTCACCCTGTTTAACATCATCAACATCGTGCTGGGTATCTTGATCGTCAGCACTGGTTCCTACAAGAACCTGTTATTCCTGCTGGTCGTCGTGGTCAACACCGTGATCGGTACGTTTCAAGAAATCCGCGCCAAACGCCAGGTGGACAAGGTCTCTCTGCTGGCCCAGCATCCGACCACCGTCTTCCGGGACGGCCAAGCCCAACCCATCGATCAGGAAGTCATCGTCAGAGATGACCTGATCCAATTGACCCGCGGCGACGCGGTCCCTGTAGACGGCATCGTCCGGGCAACTGCGGGCATCGAAGTGGACGAATCGCAGATTACTGGCGAGTCCCGGCCGATCCGGAAAAACACGGGCGATTCAATCACTTCTGGCAGCTATCTGGTCAGTGGGAATGCCACGGTGCAAGTGACTGCTGTGGGCAGTGCCAGTTTTGTCCACAAACTGGCCAGGGAAGCCAAACAGGAAAAGAAAAACAACAACAGCCAGCTGCTTAATACCATCAACCAGATCATCCGGTTCATCACGTATGCGCTGGTCCCGCTGGGTCTGCTGCTGTTTCTCCGCAGCTGGCAGCATGGCCGCACGCTGAACTATTCCATTCTGCGCACCAGCGCGGCGATGGTCGGGATGATCCCCGAGGGATTGGTCCTCTTAACTTCCGTTGCTCTGGCTGTCGGCGCAATGAACTTGGGCAAACGCCGGGTGCTGGTCCGCTCGCTAACCGCCATTGAAGCGTTGGCCCGGGTCGACATCCTTTGCTTGGATAAGACTGGGACGATCACCACCGGCAAATTATCCGTCACTCAGCTCAAAGCCTTTGCCGGCCAAACGACGGACCAAGTCCGCGCGTGGCTGACCAATGCCGTTTACACGATCGGCGACGACAATCAGACGGCCACAGCGCTGAAACAGTATCTGACCAAACCCCAGCAGCTGCCCGCGGCCAGCCGGGTCACCCCTTTCTCGTCATCCCGCAAGTGGAGCGGCGCAGCGTTCGCCGACGGCAGTGTGCTCTTGGGAGCACCAGAGTTTATGTTCAAATCCCTGCCCGCCGATATTTCCCAGGAAATAACGACCGCGGCAAAGAACGGCTTTCGAATCATCGCTGTTGCCCATAGCAATATCGTGATGACCGACGACGAGATTCCTGCGGACCTGCAATTGGTGGGGCTGGTGTATATCGCCGACGAGCTGCGCAAGGAAGCCGTTGGCACTTTTGACTACTTGCGCGCCCAGGGCGTAACCATTAAAGTCATTTCCGGCGACAATCCCCTGACCGTCGCCAACGTGGCCGGGCGGGCGGGCATTCCCCACGCCGATGCGGCTATTGATATGAGCACGGTGGGCGAGCAGGCCAACTTCGATGATTTAGTCGCCCGCTATACCGTTTTTGGCCGGGTCACCCCGACTCAGAAGCGCAGTCTAGTCCAGGCCTATCAACGGGCCGACCACACCGTGGGGATGACCGGCGACGGCGTCAACGATATTCTGGCCTTGCGAGAATCCAACTGTGCCATCGTGATGGCCGGCGGTTCTGAAGCCGCCCAGGAGATTGCCGACTTTGTGCTGTTGGATGCCGACTTCGACGCGATGATCTTCGTCTTGAACGAAGGCCGCCGGGTCATCAACAATATTGAGCGGGTTGCCTCTCTGTTTCTGGTCAAGACAATTTATTCCATCGCATTGTCGCTGATCAGTGTGATCTTCAGTTTGGAATATCCGTTCATTCCCATCCAACTCACCCCGATCTCTGCCTTGACGGTGGGCATCCCGACTTTCTTCCTAGCTCTGCAGCCGGATTATCGGCCCATTGCCCGGAAGTTCTACGAGAACGTGATGATCACCGCTGCTCCGGGGGCCCTCAGCGTTGTCTTCTATGCTCTGCTAATGAGCTGGATGCGTGGTCTGCTCGGGTTGAATATGGATACCACGGGGACTTTGACCGTCCTGCTCACGGGGCTGGTCGGCTTCACCGCTTTGGCTGCCGTTTCCCAACCGTTTGATCGGCTCAAGATCCTGCTGATCAGTGTCCTGGTGGCTGCCTTTGCCTGTATCTTCCTCTTCCCCGTGGGCCAATCGTTCTTCTCCCTGGTCTCCATCTGGGACACCGGCAGTCTGCTGCTCTGGATCCCACTGGCGGTTTCGGTTCCTCTCTTGTTCATCATTCTGCGGAATGTGCTTAGTGATTATGTATTACCAAAAATTGCGTGGCGTTAA
>SRR1151209_00568 hypothetical protein
ATGACAGTTTACAATTTACAAACAACCAATGGTAAAGACGTGGCCGTGGATATTGTCATTCAAGGCAGTCAAATTGTGCTGACGATTGGGCAGAATACACTCACGTGGCAGGCGGAGGACGCCGGCAAGGCGTTTTTAGCCACTCCCGAAGAGGCCATCTGGCCCGGCGGTGAAGGTGCTGGCACCCCGATTCTGGCCAATGCCGTCGGCCGTGCCGTCTTCACTGAATTGAAGCGGCCAGTGGATCTGGGCAGTACCGAAACCGTCAGCCAATTTGTGGACCGAGGCAATACCGCTGGGGTCATTCCGGTGCAGATCCGCGCCTACCGATTCACGGATGACGACGTCTATCACGTTCATTTCTTCCACGAAGACAATACCGAGCGCCGCCATTATTCGCTGTATCGGGAACTGCCCCAGGTGCTGGTGGACCAGATCATCGCGGCGGATCGCTTATTCGCCTTGGACTTCACCGACAAGGTCCGCGCCGCCATCAGCGGTAAGGCTTTGGGCGCGTTTCTCACCCACTTGGCCGCGCTGCAGCCGGGTGAACAGAAATCGTAA
>SRR1151209_00569 NADH-flavin reductase
ATGAAAATTGGTGTCATTGGCGCTACTGGCCGAGTGGGCAAACTCATTACGGCGGAAGCTTTGAACCAGGGGCATCAGGTGACGGGCTTTGTGCGCCACATGACGCTGGCCCACGATCCTCGACTGAAGATGGTCCAAGCGGATCTCTATGCGCTGGCGCCCCGGGATATCGAAAACCTGGACGTCTTGGTTTCGGCCTTCCGGGCCCCCCGTGGTCAGGAGCGGGACTACGTCACGTCGGTAGAATCCTTAGCCAACTTGTTGAAAAATAAGCCGGTTCGCTTGCTGGTCGTGGGCGGGGCCGGCAGCAGCTTCACTGATGCCCAAAAAACGATCCGCTTTTATGAAACACCTGGGTTCCCCGAAAGCTTCTATCCCACCTCCATGTACATGGCCCGCAGCACCCAAGTGCTGGATTTAGCCCCCGGATTGCACTGGACTTACGTCAGTCCGGCGGAGTACTTCCTGCCGGATGGCGATCGCACAGGCCACTACCAGAGCAGCCCGGGCATCCTGCTGCGGGATAAAAATGGGAAATCGGCGATCTCCATGGCTGACTATGCCATTGCGATGCTGGATGAAATCGAGCAGCCCCATTTTGAAAATTCTCAGATGAGTGTGGCCTGGTGA
>SRR1151209_00570 ribose-phosphate pyrophosphokinase
ATGGTTAAGAACGGTAATGTACCAGAATTGAAGTTGTTCGCGCTGAACGGCAATCCTTCTTTGGCCCAACGTATTGCAGACGCGGTCGGGTTACCCTTGAGCGGCGCAACGATCAAGCATTTCAGTGATGGTGAAATTCAGGTCAACATTGATCAGAGTGTTCGGGGCGATGACACCTATGTGATTCAGTCCGTGGCCGATCCGGTCAACGAGAACTTCATGGAATTGATGATCATGATTGACGCGCTGCGCCGGGCCAGTGCCCGGACGATCAATGTCGTCCTGCCCTATTACGGCTACTCCCGGGCAGACCGCAAGACCCGTTCGCGGGAACCGATCACGGCCAAGCTGGTTTCCAACTTGATCGAGATGGATGGGGCTACCCGGATCGTTGCGCTGGATCTGCATGCAGAACAGATTCAAGGGTTCTTTGATATCCCCGTGGATCACCTGCAGGCCATTCCGCTGATCGCCACTTATTTCTTGAAGCAGAACCTCTGTGAGAATAAGGATGACCTGGTCGTGGTTGCGCCGGATCACTCGACGACGAAGCGGGCCCGGGCTTTGGCCGAATACTTTGGGGCGCCCATCGCCATTGTGGATAAGCGGGACGAAACGGATACGACCATTGACCCGATGGACATTATCGGGGATGTCAAAGGCAAAACAGCCATTATTGTTGATGACATGATCGATACCGGCACGCGTTTGGCAGCCTCCGCCTATTCATTGCAGGCGGCCGGCGCCACCCGGATTTTGGCCGGCATCACCCATGCCGTATTCTCTGCCGGAGCGGTGGACAAGATCGAGGCTGCACCGTTGGAACAAATCGTCTTCACCGATACCATTCAATTACCCAAGGATAAAGTGCGGGACAAGTTCGTGCAGTTGTCGGTGGGCCCGCTCATTGGCCAAGCTATCCGCATGATTTTCCAAAATCAATCGGTGGATGAGTTGTATGATGCGCGCAGTGCTCAGGATATGTTCATGATCAATGATCTGAGCAAGGACACCGCGGTGGAACAAGAAGACCGCTAA
>SRR1151209_00571 oligoendopeptidase F
ATGACTGAACCGACTGCCCTGCTCCGGCGCCAAGACGTGCCCCAACAATACACCTGGGACCTCACCGCGCTGTATCCCACAGAAGACGCCTTTAACCAAGCGCTGCAAGAATTTGCTGCCTTGACTAAGCAATTTATCGCCGATTACACTGGCCAAATCACGGATGCGGCGAGTGCCCTCAAAGCTTTGCCCGCGTATGCCAAGATTCAAGAAATGCAGGACCACTTGGGCACCTATGCTTTTCTGCCCCAATCCACGGATCTGACCAATGCCCATTACCGGGCCTTAAGCGTCAAAGCCGAGGATGTGTTGACCCAGGCGAATACCGGCTTAACTTTCTTCATCAGTGCGCTGTCTGAATTGAGCGATGCTGCGCTGGATCAAATTGCTGCAGCCAATGCAGATTATGCCCCCTTGGTCCGGCATATTCGCCGGGATAAGAAAATTCGGCTGGCCCCCGCCACTGAAGCAGCCCTGGCGCAACTAGAACCAACGCTGGACGCCTTTGCGACCATTTATGGCCAGACCCGCTCCGCCGACATGCATTTTCCAGACTTCACAGTGGCCGGCAAGACCTACCCGCTGTCCTTCACGATGTATGAGGATCTGTATGCTTACAGTCCGGACACCAAAGTCCGCCGGGCGGCCTTTGCGGCTTTCTCCCACGTCCTGGCCCAGTATCAGAATACGGTAGCAGCAAATTATTATGCCCAGGTGATGAAAGAGAAACGGCTCGCCACCCTGCGCGGCTTTGATAGCGTTGTCGATTACCTCGTCTACGACCAAGAAGTGCCCCGGAGCATGTTTGACCGCCAAATCGATTTGATCACCAATGAGTTCGGCCCAATCATGCAGAAATACGTCAAACACCTGCAAAAGAAACGCGGCTTAGACCAGATGACCTTCGCCGATCGGCTGATCGACCTGGACCCGGACTTTGCCCCCAGCGTGTCCATCGATCAGTCCAAAGACTACATCAGCAAAGCCGTCGCCCAACTAGGCCAGCCGTACCATGACATAATCATGCACGCTTATCCCGAACGCTGGGTGGACTTTGTTGGTAACCAGAGTAAAGAAACCGGCGGCTTTTGTGCCCAACCCTATCGCGTCCATCCGTATATCCTGATGTCCTGGACCCATGAACTGGCCGATGTGTATACGCTGGTCCACGAACTCGGCCACGCTGGCCAAGGCATCTTGTCCGCCGAGAAACATGGTCCGCTGGCGTTCACGCCTTCCGGCTACATCATTGAAGCCCCCTCGACGTTCAATGAACTCTTGCTGACGAACAGCTTGATCAAGGGTACGGACGATCCGCGGATGCAGCGTTTTGCTTATACCAAGCTGCTGACCAACACCTACTTCCACAACTTCATTACCCACTTGCTGGAAGCCGCCTATCAGCGGGAAGTATACGCCATGGTCGATCGCGGCGAAGCGTTCGATGCCAAGGATTTGAACGCCATCACCCGCACCGTGTTCAAGCGCTTCTGGGGCGATGCCCTCCAGCTGGATGACAACAGCGACCTGACCTGGATGCGCCAGTCCCACTATTACATGGGCCTGTATTCCTACACGTATTCCGCCAGCCTCACTGTATCCACCCAAGCCTTCCTGCGCATTCGCGATAACCAGCCCGGCGCAGTGCAAAACTGGCTGGACTTCCTCACCTTAGGCGACAGCAAAGACCCAATCGACTCGGCCAAAGTAGCCGGGGTCGATATCACCACAGACGCGCCGTTGCACAATACCATTCAGTATCTGGGCAGTGTCGTGGATCAAGTGATTAAGCTGTCCCAGGAATTGGACCATTAA
>SRR1151209_00572 hypothetical protein
ATGGGTGCATTCTTTTACAAAATTAGTTATCTCCTGTACCGCTGGCGCTGGGCATGGGCCGCGCTGGCGGCGATCCTCTTCGTTCTGTTTTGCGGGTGGACAATTTCCAGCGTCGTTCACGATTTAGCGGCACCGATAATTGACCCCCAGGTGGCAGCCAGCAAACAGCTCAACCAGATACTCAATGAGCAGTCACCCAAAGAATTGATTAAAGTTAGCCGCGGGGCCGATACGTACACCTACCGTTGCTTAAAACCATACCGGCATCACCACATCAGAGTGGTGAATTTCAGTGATGATATCGGCCGCGGTTATCACTACGGTAATCTGGGACGTTACAAGGGGGCACATATTCAGATGCGCCATCTTAGCGGCAGTCAGTACAAACTGCTGCGTATCAAGATTTCACCGAATGACGACTAG
>SRR1151209_00573 hypothetical protein
ATGGATGTGGAAAAATATATCAAAGCCCATATGTACGGCACGCCGTCGGTGAATCCTGATGACAAGCGGGAGTTTATGGGCAACTTTCGGGAAAATGTGGCGTTGGCGTTGACGGTGGGCCAGGTCGTTGGGGCGGTGCCGGTGGCGTTGGTGCAGCGGACGATGGCGGCTTATCCGACGGGGCATATTTATATTAATGGCCGGTTGGGGTCGACGGTCCAGCATCAGCTGCTGCACTTGGCACTGGCGGCGGATTATCCCTTTACTTTGATTACCCAGGCGGGAGTGCGGGTGCACCAATCAGCCTTGCAGGATGGGGATATGGCGGTGGTGATTGCAGATCCCCGGGAGCCGATCAAGCGGCGGCTGGTGATCTAG
>SRR1151209_00574 glycosyl transferase
TTGGAACCGCTCATATCCATAATCGTCCCCGCATATAATCTGGAGGGCCTGCTGAACCGCAGTGTGCAGGCCTTGCTGCAACAAACGTACCGGAATATTGAGGTGCTCATCGTGGACGATGGCTCCACCGACGAAACGTACCGTATTGCCCAGGAGTTCGCCCAACTGGATTCCCGGGTACGGGCGTTGCAGATGCCGAGCAACGTGGGCATTTCGAAGACGCGTAATGCCGGTATGGCAGAAGCCCGGGGGGAGTTTTTGACTTTTTCTGACGGTGACGATTGGACTGAACCGACTCAGATGGCGTGGTACATGGATCGGTTTGCGAAGTACCCCCAGGCCGCGATGGTCGCCTGCGGATTTGTCATTGAGCCCAGCGGCAAGCGGAATCAGTCGCGTAAGCGGGGGATGGTGGATCAGAAAGAAATGCTGTCTCTGGTCAGCCGGCCCAGCGGCCCGGTGCGCGGGTATACGTGGAATAAGTGTTACCGGACGGCCATTATCAAGAAACATCACCTGACCTTTGATGATGATGTGAAGTTGATGGAGGACGCGCTGTTTAATACGCGGTATATCATGCATGGGCAGCACTATTACATTGAGAACACGCCGTTGTATCATTACGTGCAGCGCGACGGGAGTGCGATTCATACGGGTGTAACGGTGACGAAGAAGGCGCGGGATATTATGGTGGTGAATGCCCGGATGCAGCATATTATTGCGGCGGGGCGGGAACGGCAGAGTAAGAAGTCGAAGCAGTCGATTTCGGATTGA
>SRR1151209_00575 protein-tyrosine phosphatase
ATGACTGAGTTAACAAATCGGGTCGTCCCGGTGGCAGGAAGTGTCAATCTGCGGGAGCTGGGGGGCATCCCGACCGCGGACGGGCACCGCATCGTCCCCAAACAAATTCTGCGCTCGGGCAGCCTGAGCGGTGTGACCGAACAGGGCAAGGCCCAACTATGGGACTATGGGGTGCGGGTCGTCATTGACTTCCGCTCCAAGAGTGAAACCATCATGGCCCCAGATCAATTACCCGGCCGCGTTCACTACTACCATGATCCGGTCTACGCTATGACTGCCGGCGACCAGGACAGCGCCTGGCAGCGGGTGAAGAATTTCTTCAACCACAGCGAAAGAAGCCGCGCGGCGGACTTCGATTACGCGCCCGGCTTGGCCGGTCTGTACCAGCAGATCATTTTGGATCCTTTCAGTCAGCATGCGTATTCTTTCATGTTCCAGCAAATGCTGGCCAATACGACACCGGGGCACAGTGTCGTCTTTCATTGTGCCGCGGGCAAAGACCGCACCGGCATGGGTGCTGGTTTGATTGAAAAGGCCCTGGGCGTCTCAGATGAGCTGATTACCCAGGACTACCTGCTGACAAACCTGGTGCTGGGCGGCATGAGCGATGCGGCCATCGCTAAATATCTGCAAGATCCCCATGTCGACGAACGCATCAACAAGATGAACTTGATGATGGGCGAAAGCGACGCGATGCCGGGTATCTTCCAGGCAATTGACACCGTCTACGGCAGTTTCGCTGCTTTTTGGCGGGATGCCCTGCGATTATCCGATCAGGATCTCGCCGATCTCAAGCATCATTATTTAGAATGA
>SRR1151209_00576 hypothetical protein
GTGAGGACGACGGAAATCAATAACCCCCAGTGGCCGTATCGCCACCCGTGGCTTTTTACGCTGATCTTTTTCGTTGGCTTCATGGCGCTGACCGTGCTGATCAGCTGGATCCTGCACCAGCCGCTGACGGGGCTGTTTATTAAACAGCCGGCGGTCAATGCCCTGTACATGACCTTAGTGATCACGCTGTCAGTGCTCCTGCCGCTGCCGAAGTGGTCAACGAACGAACGCTTTTTGCTGTATTCGGCCATTTTCTGGATAATCATTTTGATCGACGCCTATGCCTTAGAGGGCAATCGGTTCTATTGGTCGGGCTTTGGGACGTTAGCGCTGATTTCCCTGCTGCCGGGATTTGTGGCTTCATTTGTCGTGGGCAACCACATGCAGCGCCGCTTGGCAAAAGAAAAGGCCGCTTCCCAGCAGCCTGATGACCCGAAAAAAGAGACTCATTCTAAATAA
>SRR1151209_00577 poly(glycerol-phosphate) alpha-glucosyltransferase
ATGCTGTTCTTTATTGGTAATGAAACCCCTAGTACCACCGATACGTTTATCCCCCAGAGCGTGGACCTCGCGCTCAGTTTGGCGGCCCGCGGGGTGGCCGCGCGGGTCCTGACTTTGAATTATGATCGGATGCAGGCGCGCACACCGGTCAGCGGCGACGCGGCCGCACTGTGCCTGAATCTGTGGGACGAATTGCAGAAAGTCGGGCAGCAGACCAAGCGGACCTTGACGTTTCGGGATCTGCACCTGGGTAATAAACAGGATTGGCAGATCAATTTGGCGACCCAGGAATATACCGTGGCCGGCCAGCGCTGGGCGGTTGTACACACGATTGCGGATTCGCCCCAACTGGATTATGTCGATTATTATGGCGGGACGGACGAGGTACGCAAGCGGGATTTCTACGACCGTCGCGGCTTTCTGTCCGTCAGTCAGTATTTGAATCCGGCCGGCGAAGTGCAGCAGGAGATCTATTGGGATGTCCATGGCCAGGCGGTCCTGGAGCATTTCTTTGAACCGGTTGCCCATCAAGCACCCCGGGGCGGGATGGTGCTGCTGCCGCATTTTGGCGGTAAGCAGATGATCTTTCCAGCTATGGCAGCGGCGCTGGGCGCTTTGGCCCAAGCGGCGGTGGTGGAAACGCATCAGGCCGGGGCGGCGACAATGGTCGCGCAAGACACCCCCGCGGTCTTGGCAGCAGTCGCCCAGATGAGCCTGCCGCGGGTCTACGTCTTTTCCCACCATAGCAATCTCACCCAAACGGTGGAGACCAATGCGCTGTGGGACCATGTGCAGACTTTGTTCAGTCAATTTGCCGGGGTGATCGTGCCCGACCAGCTGCTGGCCACAAAATGGGCGGCCCGGACCGGACAAACCATGACGGTGGCCCAGTTTCCCAAACATGCCATTTTTCCCACTGAGGCGGTACTGCCGCTGCCCAAGCGCACGCCGGCTTCGGTACTCGCTTTCTTGGATGATGACCCCCAAGGCAGCGGGCTGAAGGCTTTGATGACCTTGTTCACCACGCTGCGCCAAACAGTCCCCAATGTCCGGCTGACGATCTACCAGCCGCATTTGGGCAGTACGCCGCTGCCCACCGCCAGTAATGAGCAGGGCGGCAGTGTCCAGTTTATTAGTACGGCGGCGCAATGGACCGCTGCTTTGGCCAGCCATCAGGTCTACGTCAGTGTCGCTGATTTTCCGGCGGCGGCGATGATGATCAGTGCGTTGGCCCACGGCCTGGCCGTCGTGGCCGCCACAGACCACGCCGGGGCCGTCACCCCCTTTGTCCGGCCGGGAGAAAACGGCGCCATCGTGCCTGCGGCGAATACCCAGCAGTTCGCGACCGAAATCAAAACGCTCCTAGGGCATAAAAAAAGTTTAAACACGGCCCAGAAAACGTCTTTGGCCCTGGCCCAAGGGTATACTGAGGACGCTGTCATCAGTTCATGGCAAGCTATCGACAAAGCAGGTGAGGACGACGGAAATCAATAA
>SRR1151209_00578 hypothetical protein
ATGAGCGAGCCGATGGCGAGCACTAATATGGCGACCGTACTCAGCACCAGCCCCACCGTAATGACGAAGGGGCTGAGCAGTAAGGTGGCAATGGCCAAGATGACTGCAGTGCCGGCCCAGACCAGCACCGCGGTGACCACTGACCACGCGCCGAACCAAAGCCAGCTGGCCCACCACAACAGGAGGGCGATCAATCCGCCGAAGAGTATCCAGTAG
>SRR1151209_00579 alpha/beta hydrolase
ATGCCAACCATGAAAAAAATGCTTCAAGTCGGCGCGCCGGTGGTGCTCACGACCACGACCGCTGTCATTTCCGCCTTGTTATATCAATATGCCTTCAAGCGGGCGGATAAAACCGTCATGACGACGCCGTTACCGCCGGATTCACCCTATTATGACGCTGATCAATGGTTCTTGAACACCCCCAAAGAAAAATGGTGGCTGAACCATGATGACCCGGATCAGGAAATTCAAGCCTTTTATTTACCAGCCGCGCAGCCGTCAAAGAAGGCCGTCATCATTTCCCATGGCTACAAAGGCCAGGCACGGAAGATGGCCGCCAGTGCTCGGTTATTCTGGGAGGACGGCTACAATGTCTTGATGCCGGATAACCGGTCCCATGGCGGTTCCGCCGGCAAGTACATCAACTTTGGTCTGCTGGACCGCTTGGATTACCTGGACTGGATCAACCAAGTCATCGGCCGGTTGGGACCGGACTGCGAGATCGTCCTCTTCGGCATCTCCATGGGCGGGGCCACCGTCATGATGGTCAGCGGCGAGGAATTACCGCACCAAGTCAAAGCAATCATTGAAGACTGCGGCTATTCGTCTGTGGAAGAGGAACTGACCTACCAGATGCGCTCCCAGTTCCACCTGCCTAAATGGCCGTTTTGGCCGATCATCAGCGGTATCAATCGAATCACCCTGGGGTTGTCGCTGGCGGACAGTGTGACCAGTATCAGTCAGTTGAAGAAGAATACCCGGCCGATTTTCTTCATTCACGGCACCGCTGACACCTACGTGCCCACGTCCATGTGTATTGACTGTTTCAATGCCACCTCAGCGCCCAAGGACATGTGGCTGGTACCCGGAGCGACCCACGCCAACTCGTTTGCGACGGCTCCGCAGGAATACGCCGCCCGGGTCAAGCGCTTCTTGGCGCAGTATGTGCCTAGTGAGCAGTCACCTGCATTACCGAGCGCGCAATCATCACTTCTTCGTTCGTCGTCACAACCAGGGCCTGCACAGCCGACGCCGGCGTCGTGA
>SRR1151209_00580 acetate kinase
ATGCCAAAAGTATTAGCCGTGAATGCCGGCAGTTCTACGTTGAAATTTCAAGTTATCGCCATGCCTGAAGAGACGCTCCTCGCGTCCGGCGGTATCGATCGGGCCAGCAGTCCGGATGCCGTTTTGACGATCAAAGATGCCCAGGGTCAGACCCATGAGAGCCGCGCGCACTTAGAGAATATTGACCACGCGGTGGACACACTGCTCACCACCCTGGTCGCCCAGGGGGTGCTGACCAGTCCCGACGAATTGGCCGGCATTGGTCACCGGGTCGTGGCCGGCGGCGAGAAATTTGCCGCGCCGACGCTGGTGACGCCCCAGGTCTTAAAGGACATTGCCGCATTAGCCGAATACGCACCGCTGCATAACCCTAGCGAAGCAGCTTATATTGAAGCCTTTGCCCGCCGGCTGCCCCAGACGCCGGCCGTCGCGGTGTTCGACACAGCGTTCCACCAAACTATGCCCAAAGTCAATTATCTCTACAGTATTCCGATGACTTACTATCGCCAGTTTGGTGCCCGCCGTTACGGTGCCCATGGCACCAGTCATGCTTATGTGGCCCACGAGGCGGCTAAGCTGCTGCACCGGGACTTGGCGAGTTTGAGGCTGGTCACCCTGCATCTGGGCAATGGGGCCTCCGCCGCGGCTATTCAGCGCGGCGCGTCCCTTGATACATCCATGGGCTTCACGCCGCTGGCCGGCTTGACCATGGGCACCCGCAGCGGGGATATTGATGTCTCCCTGGTGGCTTATTTAGCCAACAAGACCCATCAATCCTTCGCCGATATGGTCCAAATATTGAACGACAAATCGGGGATGCTGGGATTGACGGGTCTCTCATCTGATTTCCGGGACATTGACGCGGCCGCCCAAGCAGGCAATGAACGGGCCATCTTGGGTGAAAAAGTCTTCATTAACCGGGTCGTGAAATACATTGGCGCCTATACCGCCGAAATGGGCGGCCTGGATGCCATTGTCTTCACCGGCGGCGTTGGGGAGCATCGCGGCTCCTTGCGCCATGGCGTTTTACAGCAATTAGCCTACATGGGGATCGTGGAAGATCCAGCCCAAGTCAACGCCCAGGCCACGGCTTTTCTCACGACGCCGGCGTCGGCTGTGCAGGCCCTGGTTGTGACGACGAACGAAGAAGTGATGATTGCGCGCTCGGTAATGCAGGTGACTGCTCACTAG
>SRR1151209_00581 oxidoreductase
ATGAAAATCGCAATTATCGGGGCCGGCCCCCGGGGGTTAATGACCCTGGAGCGTCTGGTCGCCCGGCATAACCGGGATCATTTCCCGCTTTCGGTCACATTATACGATCCAGCCGGTATCGGCGGCATGGTTTGGCAGCCGGAACAGCCGCTGGCCTTGATCATGAATACCATCCCCATTCAGATCACCCTGTTCACGGATGCTTCCGTGACTTTGAGCGGCGGTCCCCTCACCACTGGACCCAACCTCTACGAGTGGAGCAAACAGGTGGCCCCGGACTGGCTGCCCAAACAGACCTGGTCCACGACCCAGGCCCTGCGCCGGGAAGCGGCCCAACTGTCCGAACGCGGCTATGCCACCCGCGCATTATACGGTGCCTATAACCAGTGGTTCTACGAGTTCGTCCGCGGTCAGGCGGCCGACGCCGACATCACCTTCCAACCCGCCCAGGTCACCGATCTCCAGTGGCAAAGCCCCACCGCGGTGCGGCTCACGGCGGGCCGCCAACATACCACCGTCAATGGGGTCGTCATGGCTCTGGGCTACAGCGAAAACAAGCTGACGGATGAACAGGAAAAGTTTGCCCGCCATGCGGTCCAAAACGATCTGTTGTATATCCCGCAGCGCAACCCAGCCGACGCGGCGCCGCTGCTCAAAAAAATCGAAGTCAATAACAAAAATGGCGAACGGGTCATTCTGCGCGGGCTGGGGCTGAGCTTTTTTGACTACGTCACCCTTTTAACGACCGGCCGGGGCGGCACGTTCGCCGCCGATAAAGACGGCCGCTTGACCTATCGGCCCGCCGGCAACGAACCGCATATTTACGCCAGCTCCCGCGGCGGCTTCCCGTACCGGGCCAAAGGTTACAACCAAAAGGCTGATGGCGAAGAGGACGTGCCGCAATTTCTGACCCCGGCCAAATTGGCCGAATGGCAGGCGGCCGGGCACGTCTCCGGATTGACTTTCTGGCATCTGCTGCAAGCCGAAGTGGAGTACGTCTACTACAGCTTGCTGGTGCAAGAACAGTATCCGGCCATTGACTTGGCCCAGCTGCAGGCGGCTATGCGCGCCACGGCCCATCCGACCCGCAGTGCCAACCAGTTCGGCGTCCCAGCCGCTCAGCTCTGGGATTGGCCGAGTTTGATCAACCCCGCCCAAAATACGGACGCCGCCAGTTTCCCCCGCTACATTCAAGATTACTTAACCCGAGATTACACCGAAGCCGCCCGGGGGACCAAGACCGGCCCCCTGACCAGTGCCTTGGAAGTCTTCCGGGACATGCGCGACCCGATTCGTCAGGTGGTGGAAAAGGGGCTGCTCAGCGATACGGACTATTGGCAGATTTTCTTAAAGGAATTCCAGCCAATCAATGATTTCCTGTCCATCGGTCCGCCGGCGCACCGCATCCAAGAACTGGCCGCCCTGGTTTCCGCCGGTATCGTGACCCTGGTGGGTCCGGCCATGACGGTTGAGACAGAGCCGCTGGGTTTCACAGTCCGCTCCATGAAATACCCCGCCCGCCAATATCGGGCCAGCAGTCTGATCGAAGCGCGGCTGCCAGCCGTCAATTATCCCACCGCGGACAATCCGCTGATTCAGAGCCTGAATAAAAACGGCCTGCTTCAGCCCCACACGCTGCATCTCAACGATCAAGTCCAGCCCACCGGGGCAATCAGCGTGGATCGTCAAACCGACGCCTTGATCACTGCCGCCGGCGATCCGTTGGCCAACGTCTACCTCTACGGTGTCCCCACCGAAGGCCTGCACTGGCTGACAACTGCCAGTCCCCGGCCCGACGTGAACGACGTCACCTTGAAAGAAACCGACGCTTTGGTCAATGCGCTCGTGGGTCAGTTAACTCGGTCGGAAGACTGA
>SRR1151209_00582 hypothetical protein
ATGCGCAAGTTATTTCGTTTTCTAGCGATTTTGATCACCGCCGTGGCTGGCGCGCTGCTCCTGTCCACCCCAGCCCACGCCGCGGATAACTGGAGCCAGCCCATTGTTACCCTGGGCACCAGTCTAACGGATAGTCAAAAGAGCGGCACCATCAGTACCTTAACCGCCCCGCTGAATGGGGCCAGCTATAACACGATCACCGTCACCGGAGATACCCTGGTCAAATACCTGAACCCCAGCGGTTCATCCTTCACCAGCAGTTCCGGCGTCTGGTCCAGTGCCGCCGTTCAAAAGACCAGCAGCGGCAGCGGTATCAACGTTCAGATCCTGCCCTATAACGGCAAGAACAACATTACCCAGATCACCGCGGATCAGTATAAAAACGCCGCGCTGACCGCCGGCGTGACGGATGCCAATATCTACGTCACTTCGGCCGTGCCCATTGACGGTTCTGGCGCCCTGGCCGGCGTTTACGCCGCCTTTGCCCAAAACGGCGATGCGTTGAACCAGAAACAGGTCACTGCCGCTCAGAACGAAATGAGTACCCTGAACGACATCAACCAGGCCAACAAGGGTAAGGACGGATACTCCGATGCCCAGTTGAACAATGCCGTGGCCGGTGCTAAGGAAGAAATGGCGCAAAAAGGAACCAGCATTTCTACTGGCGACATCACCACCATCGTCAATAACCAGCTGAACAAGAACAATCTGGGCACCATCATCAACAATAACCAGAAGCAGCAGATCATCAACATTCTGGTGGAGATCCGTAATTCCGGTGCCCTGAACAGCAGCAGCTTCAAGGAACAGGCCAGCAAGGTCATGAACGATATTCAAAGCAATGCCAAGGGTATCTTTGATAAGCTGAATACTCAGGAGAACCGGAACCTGCTGCAAAAGGTCTTGGACGCCATCGGTCAGTTCTTCCAGAACGTCTGGAACCAGATCGTGAACTTGTTTAAGTAG
>SRR1151209_00583 DNA-binding protein
ATGGAAAAAGAAGATTTCTTGGAACCGCGCGTGCGCCAAGATCTTACTTTCGTTCAATACCTATACACCCATAACGGCCATGCCACCCGCAAACAAATGGCCACTGATCTGCAGGTGGATCCGCGCTTAATTGCCGACCACATGGCGATCCTCGGGGATCAGCTGAATAACCTTTTCCCTAACGCCCCATTCCACTTAGGGTCGCCGGAAGCCGAGTATATTCTCGACCTGATCAACCTGCCCACCCTTGATGACGTGACGAACATGCTGATTCGAGACAGTTCTGCGTACCAGATATTGATCTACATTTTCTGGCACAACGAGTTCACCATGACCGCCCTGCAGCGGGCCTTATTGATGAGTTCATCCACTTTGTTCCGCCACGTGACTCGCTTGAACGAGTATTTGGCAGAGTTCCATTTGGTGATTCGCAATAATCGTTTGCAAGGCCGAGAATTGGATATTCGCCACTTTTATTACCAGTTGTTCAGTGTCGTCAACGGACATGATGCCCGCTTGACCAATGCCAACAATCCGCAAATTGAGGAATTTATCCATGACTTTCAAGAAGAAGTCACCGGCCGATTGCCCCAAAATACGCGGCAGTCGATCCGCATCTATTTGCATGTCGTGCTCCAGCGGGTTTCGCTCAACCATCCGCTGAACGACAACACCGGGGCCTTCAAGCTGTCACTGATCCAAGACCTGCCCAAAGTGCAGGAAATGTTTGCCATTTGGGACCGGGTCTTCGCCAAAAACACCCACATTGCCACGGAATTTTGA
>SRR1151209_00584 resolvase
ATGCGGATTGGCTTTACTCAAGGGGATCCTGCTGATTGTGATTTTCGACAGCAGATTGTGACACTGACAGCAACCGGTGTTGATAGGCTCTTTTTAGAAGAGACCGCTGTCCCTGGTACGATTGGCAATCAATTACACGAGATGCTGGACAGTTTGCAGGCAGATGATGTAGTGGTCATTCCGTCGCTGGCAGCATTAAGCGCAAGCAATACTCAGCTTATTGAACTTATTGATCAAATTTATCAAAAGAATGCTGTGTTGGATGTCTTGGATCTTAGGACATTTCAACAGAACACAACGTTGAAGATGCAGCGTATTCTCACGGCGACGGTGTTAGAGTCACTGCGCTATGCGCAAAAGATGGAACGCAAGCGGCGGCGCGAACAGCAACGTAAGGGCATCATTTCTGCTCAGGCGGCGGGACGCTATCGCGGTAAGCAGCTGGAGTATTCGGATACCGCGCCGGATCCGAAGAAGCGGGAGATTTACCATCAGATTGTTTCGCTGCTGCAAGCGACGCCGCGGGTCGGTGTGAGTGAGATCATGCACCGCACTGGTGTTGCTCGACAGACCGTTTACAATATTAAACATCGGCTCGAAAAGAAGTAA
>SRR1151209_00585 sucrose operon repressor
ATGGCAACGCTGAACGATGTGGCCAAGGTGGCAGGAGTTTCTCCCACCACCGTGTCCCGCGTGATCAATAACTATGGTGCGTTAAGCGAGAAAACAAAGACCAAGGTCTTCGCCGCCATGCGCGAGCTCAACTATGCGCCAAACAACCTGGCCCGCTCGCTTTCCGGTAAGAAAACCCAGCTTGTCGGCCTGATTTTTCCTTCCGTGAGCAACCCCTTCTTCGGCGAACTGGTGGCAACGCTAGAGAACTCTCTCTTCGCCGCCGGCTACAAGACGATCCTCTGTAATTCGGCCAACAACGCCGACAAGGAACGGGCTTACCTGCGCATGCTGGCCGCCAACCAAGTCGACGGCATCATCACCAGCACCCACAACTTAGGGATTACTGAGTATCAGAAAATTGCGCTGCCCATCGTCGCCTTCGACCGGAATCTGGCGCCAACGATCCCCATCGTCATCAGCGATAACTATCAGGGCGGCCGTATCGCCAGCGAAGCACTGATTGCCCAGGGCTGCCGCCACATCGTCATGCTGGTCAGCTCTGCCGGTACCAGCGAACCGACCAATGCCCGGCAGCAGGCCTACGCCGATGTTATGGCCCAACACGGTTTAACACCCACAGTCACACCGCTAGGTTTCAACACCGTCGCCAGTGTGAAACGGATAACGATTCGCACTATGCTGCAGAATCAACCCATTGACGGCATCTTCTGCAGCGACGACCTCACCGCGCTGCTGGTCCTGGAAGAAGCGGCTAAACTCGGTATTGACGTGCCCACTCAGTTGAAAGTAATCGGTTATGATGGCACACAGTTCATGCGGGACTACCATCCAGAGCTGGCCACCATTCAACAGCCCTTCACCGGCCTCGGCCAGTTGCTCATTGCTACTTTGACAGCCTGCATCAACGACCAACCGCCTAAGCACCTTGCTCCCTTGCCGGTACAACTCCGCCCCGGCGAAACACTGAACGCTGATTGGGCATAA
>SRR1151209_00586 sucrose-6-phosphate hydrolase
ATGATTGACGAATGGACCACTGAATTACGCTATCGGCCCTATAGAGACTGGCCGGCCAAATACTTGGTTAATCTCCGCAACCAGGTACAGGCGTCGCCTTGGCGTCTGCACTACCACATCCAGCCAACCACCGGCCTCCTCAACGATCCCAACGGCTTCAGCTTCTTCAACGGCCGCTGGCAGCTCTTCTATCAAGCCTATCCTTTTGGTCCAGTACACGGTCTGAAATCATGGGTCCGGATGAGCAGCACCGACCTCATCCATTGGCACAACGACGGCGAAGCCCTCATTCCAGACACGCCCTACGATGCCCAGGGGGCCTTCTCCGGGTCTGCTTTACCGATGGACGATAAGCTCTTCCTGATGTACACCGGCAACGTCCGCGACCACGAATGGCACCGCCATTCGTATCAAGTCGGCGCTTGGCTGGATACAGCGGGCAAGGTCACCAAATTGCCTGAGCCGTTGATCAGCACCCCGCCGACTGGATTCACCAATGAGTTCCGCGACCCGCAGATCACTCGGACAACCGAAGGCGGCTATCGTGTTCTGATCGGCGGCCAATCTGATCAAAAACAGGGTTTTCCATTGATCTATGAAGGCCCAAGTATTGATACGCTGCGCTTCAAGGGTATCCTCCATACCGGCCGGGATGCCGGTTACGGCTTCATGGTGGAATGTCCCAACTTAGTAAGTGTTGACGGTCACCAAGCGTTCATCTTCTGTCCCCAAGGTCTCAACCAGGGAATCGCTGCCTATCAAAATATCTTCCCGAACATGGTCATCACCGCGGACGATGTGAACTGGGACACCCGGACGCTGATCAATCCAACCACGCCCGTCAATCTCGATGAAGGTTTCGACGTCTATGCCTCCCAGGCATTTGTCGCACCAGACGGCCGCACGCTGCTGAACAGCTGGATTGGTCTGCCGGGCGCGGACGCACCGGACACCAAAGACGGCTGGGCTAACTGTCTGAGTCTCGTTAAGGAGCTTCACTACCGCGACGGCCAACTCTATCAATATCCCGTGGCCGAAACCAAGAGCCTGCGCGGCGAAGCCCGGCCGCTGACGATTGCCGGCAATGATGAGACCTTCATCGGCACCGGCGACCACTATGAGCTGGCCTTGCATTCAGATAGCCAAGTGCCGGTGACGCTGACCATTGCTGGCGTGAAGGTCACCATTGACCAGACCAGCGGTACCGTCATCGTTGACCGCAGTCATGCCGGTGTCCCGTTTGCTGAGAAATACGGCACGACTCGCCGCTTCTCTCTCCCCGCCGGTCAGCCTGTCCTGCTGAACGCATTCGTCGATACCTCCGTGATGGAGTTATACTTTAACCACGGTCAGAAAGTCTGCACGGTCCGGTTCTTCCCGAAGACTCCGGCAGACCTGCTGCGAATCGAAACATCAGCGCCCAACGCGGTGCACGCGACGCTGTATCCGCTGACGGCACTGAATATCAACAACAACTAG
>SRR1151209_00587 PTS system, sucrose-specific IIABC component
ATGAAGCATGACGAAGTTGCCAAACGTGTGCTAGCGGACATTGGCAAAGACAACATCCAAGCCGCTGCACACTGTGCCACGCGGTTGCGGTTGGTACTGAAAGACGATAAGAAAATCAACCAGACAGCGTTGGACAATGACCCGGATGTAAAAGGTACATTCGAAACCAACGGCCAGTACCAGATCATCATCGGACCGGGAGATGTCGACAAGGTTTACGACCACCTCATCCAACTGACTGGTTTAAAAGAAGCGACGACAGATGATTTGAAGAAAGTCGCTGCATCAGCCGGCAAACAAAATCCAATTTTGAATTTATTCAAGCTGCTTTCTGATATTTTTATTCCGATTATCCCAGCCTTGGTTGCTGGCGGGTTGCTGATGGCGCTGAATAACGTCCTCACTGCGCCGAATCTGTTCGGCGCCCAATCGGTCGTACAAATGGTGCCTGGTATCAAAGGCTTCGCTGACATGGTCAATGCCATGGCTTCTGCACCGTTTGCTTTCTTACCAATCCTAATTGGCTACTCCGCCACGAAACGCTTCGGCGGTAATCCTTACTTAGGTGCCACGATGGGCATGATTATGGTCCTGCCGTCACTGGTCAGCGGCTACAGCGTTGCCGCTGTGCAAGCGGCAGGCAAGATGCCCTATTGGGACGTTTTCGGAATGCACATTGCTCAGGCCGGTTACCAAGGCCAAGTACTGCCAATCCTCGGTGTTGCCTTTATTCTGGCTACTTTGGAGAAATTCTTCCATAAGCACCTCAAGGGTGCAGTCGACTTTACCTTCACACCGATGCTGGCAATCATTATCACTGGCTTTCTGACCTTCACCATCGTTGGCCCTGTTCTGCGGACTGTCAGTGATGGTTTAACTAGCGGACTGGTTTGGCTTTATAGCACGACCGGTTGGATTGGCATGGGTATTTTCGGTCTGTTCTACTCCGCTATCGTCATCACCGGTTTACACCAGACTTTCCCCGCAATCGAAACACAGTTATTGGCACAAAAAGCCACGACTGGCGGCTCCTTCATCTTCCCAGTCGCTTCTATGGCAAATATTGCTCAAGGTGGCGCGGCTGCGGCAATCTTCTTTGCAACCAAAGATAGTAAGCAAAAGGCGCTGGCTTCTGCATCCAGTGTTTCCGCCATGTTGGGGATCACCGAGCCAGCAATTTTCGGGGTTAACTTGAAATTGAAGTTTCCGTTCATCTGTGCGGCCATTGCTTCTGGCATTGCTAGTGCAATGCTTGGGATGTTCCATGTCCTATCTGTTTCTATGGGACCGGCTGGTTTGATTGGTTTTGTTTCCATTGCTACCCAATCAATTCCTTTATTCCTGCTTTGTGCGGTTGTTTCTTTGGTTATTTCTTTCTCCACCACCTTCGTTTATGCCAAGCGTGTCCTAAAGGCACCGGCACAACAACCTGAAACATCCGACGTGACCGGTGAACCCGTTGCACCGACTGTCAGCGACGAAGTCATCGTTGCGCCTGTCACCGGCAAAGTCGAAGACATTAGCAAAGTCAACGACCAAGTCTTCGCTACCGGCATCATGGGCAAAGGCATCGCAATCGTCCCCGACTCTGATCAAGTTGTTTCTCCAGCGACTGGTATCGTCACCGTGGCTTATCCGACGAAGCACGCTTACGGCATCAAGTCCAATGACGGTGCTGAGATTCTGGTTCACTTGGGCATCGACACCGTGAACTTAAAGGGCGAACACTTCGCGAGCACCGTCCAACAGGGCGATCAAGTCACCGCTGGCGCTGAACTCGGTACATTCGACCGCACTGCGCTGAAACAAGCCGGTTACGATGACACAGTCATGGTCGTCATCACCAATACCGGCAACTACGCTGACGTCCAGCCGATCTCGCAGGATACTGTCCAGGCCGATCAGCAGCTCATTGCTCTGACCGCGCCGTCCGCCAACGCGCCCGTTGCTGCCAACATTTAA
>SRR1151209_00588 hypothetical protein
ATGCTTAAGAAGAAGATCGCGTTACCGTTACTTAGCGCCGCACTCTTGCTCACGTTAGGCGCGTGCAGCGCAGGTAACAACCAGAGTGCTGCTTCCAGCAGTACATCGAAGACTGAAACAGTTAAGAAAGACAGCGGCTCAAAGAAGAGCAGCAGCGAGTCCGAAAGCTCGTCCACGACCAGCAGTTCATCCTCGGATAGCACCAGCAGCAGTTCATCTGCTAGCAGTTCAAGTACTGCCAGCAGCTCAAGCAGTACAACGGCACAGATTACCAGCTCCGACGCGGCTATCAATGCATTGAAGCCCACCGCCGCTGCTAAGTTTGCTGCGGACGCGCCGCTCGTTTATGCATTCGATCAACAAGTCAATGTGAACGGCAAGTCTGGTTACCAGATTGAAGTCGGCAAGAACAACGGCCGCAGCACGGTTGCCTTGTACAACGTGTTCACCGACGGCACGATTCAGCTCGTTAAGGTTTACTAA
>SRR1151209_00589 1,4-beta-N-acetylmuramidase
TTGCACCATTCACGCAAGATCGTTCAGAAGCTGGGTATTGCCCTGTTACTCGGAATTGGGGTCGGTACCGCCACCTTCGTTTCGAACGCTGACGCCGCGATCGTTGGCCAATTTGCCGACGTCGCCAGCTATCAGCCAGATGACGTTGTTTTCTTTAAGTCTTTATCTACCAATAAAATCGCCGGGGTGGTCATTAAATTGACCGAAGGCAGCGCTGACGGCGCCGCCTACGTCAATCCTAAGGCTGGGGCTCAAATCAAAGCGGCCCAAGCAGCCGGTTTAAAAGTCAGCTTATATCATTATGCCCAGTATAGCGGCGCACAGGATGCAAAGAATGAAGCTGACTTCTTTGCGGACACCGCTGCCAAATATAATTTAGGCACAGATACCGTTGTGGTGGCTGATGTGGAAGATTCTTCACTACCCGATCCCTACAATGACACCGTCTCCTTCCAGAGCCAGCTTGCCGCCCGCGGTTTCAATAATCAAGTCACCTACTCCATGGCCTCCTGGTTCTGGGCCAACAAAGTTCCCCGCAATTATCCGATTTGGGTAGCAAATTATGGCGTCAATATGCCTGGTGTGGACAATGCGACGGCCTGGCAGTACACCAATAATTACAATGGCCAGCACGTGGACATGAGTTATGATTTCGGCGGCCTCTTTACTGGGACTAGTTCGAGCAGCACCGGTGGCACCAATATTGATACTGGCACGCCGACCACCCCGACGGTGACTCAAAACGCGGTGGCTCAGATCAAATATGTACCCGGCTACGGCATTGCGCTCTGGAATGGGTATGCCAGCAGCCGTTCCTATGCGGGCCGCACATTGAAGCACGCTAGCCGCTGGAAGGTCCTCAAGCAAACGCAGGTTGACGGCCATTACTGGTACAACCTAGGCGGCAACCAATGGATCGAAGCACAATATACAGACCATCCTAATGGTTTCAGCTCGCTTTCGTAG
>SRR1151209_00590 1,4-beta-N-acetylmuramidase
ATGCACAGTTCAAGGAAGAAACGGGTCCTGCTGACCGCGTTTCTGACATTCTTCGTTGCTTTGTTCGGTTTCAATTCAATCGCCCAAGCAACGACATACGGTATGTTCGCTGACGTCGCCAGCTATCAACCAGATGACGTTCTTTTCTTCAAGAATCTTGCGACTAATCAAGTGGCCGGCGTTGTCGTGAAGATCACTGAAGGCAGCGGCAGCGGTGCCTATGTTAACCCGAAGGCTGCCAACCAAATTGCCTCTGCGCAAGCAGCAGGCCTGAAGGTCAGCCTATACCACTACGCCCGGTATAACGGGGCGAGTGCGGCGAAGGCCGAAGCTGATTTCTTTGCTGGCCAAGCCGCAAAATATGGTCTGGGTAAAGATACCGTTATGGTTGCCGATGTCGAGGACAATTCCTTGAGCAATCCTTACGGCGACACGGTCACGTTCCAACAGGAATTGGCTCGGCTAGGCTACAACAATCAAGTCACTTATTCCATGGCCTCTTGGTTCTGGGCCAACAAACTGCCCCGCAATTATCCCATTTGGGTCGCCAACTACGGTGTGGACAAGCCCGGTGTGGACAACGCTGCGGCGTGGCAATACACCAGCAACTACAATGGTCAAAGCGTCGATATGAGCTATGACTTCTCAGGCATCTTCACTACCGGCAGCAATACCGGCACGACGGCCCCGAGCACTGGCGATACCGCCACAATCAACTACATTCCCGGCTATGGTATCGCGCTGTGGAACGGTTATGGTGCCAACCGGACTTATGCCGGCCGAACATTATTGACCGGTTCAAAGTGGAAGGTACTTGCCCAGACTTATGCCGACGGTGAATACTGGTACAACTTGGGCGGCAACCAATGGATCCAAGGCAAGTACACGTATGCGCCAACCGGCATGGACGGCGTGACCACGATCAACTCCAACGGGTCATCTAACTCCAAGGCCATCACCATTAAGTATGTCCCGGGCTACGGAATCGCCTTATGGAACGGCTACGGTGCCAGCCGCAAGTACGCTGGCCGGACATTAGCCAACGCCTCCAGCTGGGCTGTCTACGGTGAGAAATACGTGGATGGTGAATATTGGTACAATCTTGGCGGTGACCAATGGGTTGAAGGTCAGTACACTGACAGCCCTAACGGCTTACCTGCTTTCCAATAA
>SRR1151209_00591 cystathionine beta-lyase
ATGACTAAAGATCAATTTGAAAAACCGCTGGATCCCGAATTTCCTTTACATGATGATTCGCTCACTGTCCAAGGGGCCCCCGCCCGGCACAACGAATACGGGGCGATCATGGCGCCAATTTTCCTAAGTACCACGTATCGGCTCGAAGATATCAACCAAGCCGGCCCATATGAATATATCCGTACTCAGAATCCCACCCGGCAAAAGGCGGAGGACGCCGTGGCCCGCTTGGATCATGCCGATCACGCTCTGGGTTTTGCCTCCGGCATGGCCGCCATCGCCACCGTCTTTGAACACTTCCATCCGGGGGACCACATCCTGTCTTCCGCCAATATCTACGGCGGCACGTACCGGTTCTTCCTCGACATTCTGGGGCCCCGTAAGGTCGATTATGACTTCATCACCGACTTGAGCACCCTCTCGGATGCCGACTTCAAACCGAATACCAAAGCCGTTTTCCTCGAGACCCCCGCCAACCCCACGCTGCGGGTCTACGACATCGCGAAGATCGCCGAGCTGGCCCACCGCCACGGCGCCCTGCTCATCGTTGATAACACCTTCATGACCGGCTACTTGCAGAAGCCGCTAGCCCTGGGCGCCGATGTGACGGTCTATTCCGCCACCAAGTTCTACGGCGGCCACGCCGATCTGAACGCCGGCTTCATTACGCTGAACGACACCGATTTGTACAACGAATTTTTCTTTTATCAAAATACCCTGGGGGCCACGCTCAGTCCCTTCGACAGTTATACCCTGCTCCGAGGTATTCGCACACTAGCGATTCGCTTGGACCGGCAGCAGGAGAACGTCAAGGCTGTGATTGGCGCATTAGAAAAGCATCCGGCCGTCAGCCAAGTCCTGTATCCCGGCTGGTATTCGCCAGATGAAGCCGCTATTCAAAAGAAGCAAGCCAAGGGCCTGGGCGCTGTGATCTCCTTTGCCGTCAAACCGGGTGTTGACCTGGGTGTCTTCTTCGAGAAACTGCAAATGATCGACCTGGCTGTCAGCCTAGGCGGCGTGGAATCCTTAGTCTGTCGACCCACCACGATGACCCACGCGCCCTATCCCAAAGACAAGCTGAAAGAAATCGGTGTACGCGACAATCTGGTGCGCTTCGCCGTCGGTATCGAGAATAAGGATGACATTATCTACGACCTCTCCCAAGCGCTGACCATCGCCCAGGAGAGCGATGAAGTGCTGGATAAGAAAGTGGATATCCAATAA
>SRR1151209_00592 cystathionine beta-lyase
ATGGCAATCGAATTAACCCCGGAAAACAAAGCGTTTATTAAAACCCACCTGGTGGATCGGCACCACACCAATACTTTGAAGTGGGATGCCTTAGACGACCGGTTCGGCAACCCGGACCTCTTACCGCTGTGGGTGGCGGACATGGAATTCAAAACGGCCCAGCCAGTCCGGGACGCCCTGGTCAAGCGGGTGGAAGAGGGCGTGTTCGGCTATTCCTACATTCCGGACAGTTATAAAGCCGCCTTCATCGACTGGCAGCGGGACCGCCACGGGATTACCGTCAAGCCGGAATGGCTGCGGTTCGACACCGGCGTTGTCAACTCCTTATACGGCCTGGTCAACTGGCTCACCGAACCCGGCGACCCGGTGCTGATTTTTCAACCGGTGTACTATCCCTTTGCTAATGCTGTCACCGACACCCACCGCAAACTGATTTCCTGTAATTTACTGGATACACCCCAGGGGTGGCAGGTGGATTACGAAGCCTTGCACAAGATCATCACGGAAGACAAGCCCAAACTGGTCATCTGGTGCTCACCCCACAATCCGGTGGGCCGAATCTGGAAACCTGAAGAACTGGAAACCATTTTGACGCCATTGGTGGCCAACGGCATCCCAGTAATTTCAGACGAGATCCACGAGGATTTCGAAATCGGCGAGCAGCCTTTCACCTCGGTTCTGGATGTCGCCGACGGCCGCTTTCGGGACGGTGTCATTGTGGTCAATGCCCCGAGCAAGACATTCAATCTGGCAACTTTGCTCCACTCCCATGTGATCATTCCCAACGCGGCCTGGCGCAAAGACTACGACAGTTTCATTAAATCCATCCACCAGACGGAACCCAGCCTGCTGGGCGTGGTGGCCGGCGAAGCCGCCTACCGTTATGGTGCAGCCTGGCTGGATCAAATTCTGCAGATCATTCGCTATAATGACGGGCAAGTCCGCGAGATCTTGCGCCAAGCCCCCGGCGTGAAGCTGCATCCGCTGGAAGGCACCTACCTATTGTACGTTGATCTCGGCCAGTACATCCCCGCGGACAAGATCCGCGACTTTGTGCAGAATCACTGCCACTTGGCAGTGGATTACGGCGCCTGGTTCTCCCCGCAAACACCCACCTTTATTCGGTTGAACCTGGCCACCGACCCGGCCATCGTGGCCCGCGCCGCCAACCAGATCGTCACCGCCTTGCAAGAAACAGTACCGGCCCTGTAA
>SRR1151209_00593 5-methyltetrahydropteroyltriglutamate-- homocysteine methyltransferase
ATGACCAATAGCACACTAACGAAAACCGTTTATCCGTACCGTTACGACCAAGTCGGCAGCCTGTTGCGGCCCGCCCGGTTGCACCAAGCCCGAGCAGACTTCGCCGCCGGCAGGATTGACCAAGCCGCCTTGACCCAAGTCGAAGATGACGAAATCAAGCGCATCGTCGATAAGCAAGTGGCCCTGGGCTACAAAGATGTCACCGATGGCGAATTCCGCCGCTCTTGGTGGCACTTGGATTTCTACGCCGGATTGAAAGGTACAGAGTTCTTCACCCCAAAGGAAGGCTGGGCCTTCTCCGGCGGCGAGTCCCGACCGGGCGGCGTGAACGTCACCGGTCCCGTCGCCTACAACCCGGAGCACCCGTTCTTCCGGGCTTTCCAATATCTGCAAAGCATTGTACCCGCTGGCGTGGCGGCTAAGCAAACTATTCCGAGTCCGTCCGTTTTCTTCCCCAGTGAACCGGCCCACATCCTCAATCATTATTATGAGAATGTTCAGGATTTCTACGATGCCTTGATTCCCACGTACCAAGAAACCATCCAGCATTTCTATGACCTCGGCTGCCGCTACCTGCAATTAGACGACACGGCTTGGGGGATGTGGGCCGCCTTCGCACACAATGCCCATGAAAAGGTCCTGCAGCCAGAATGGGCCGCCCAAGCCAAGGAAGCCGTGCGGGTAATCAACGCAATTATCGCCGCCAAGCCCAAAGACTTGACCATCACGATGCACATCTGCCGGGGCAACTACAAGTCCCAATGGGCCGGCGCCGGCGCATACGATCCAGTAGCTGATTACTTAGCTGCACTGAACATTGACGGTTTCTTCTTGGAATATGACGATGAGCGCTCCGGAGGCTTTGAGCCACTAGCTAAGATCAGCGCCAACGGCCAGCATCAGCGGATCGTCTTGGGCCTGGTCACCAGCAAACGGTCGGAATTGGAAGATGAAGACGGGTTGAAGGCCCGGATCAAGCACGCCAGCGAGTTTGTCCCCTTGGCGGACCTGTGTCTATCCACGCAGTGCGGTTTTGCTTCCACTGAGGAAGGCAACAACCTGACGGAAGCCGACCAGTGGAAGAAACTGGCTCTGGTGGCCAAAACCGCCAAGGATGTTTGGCCTGACGCTCAGTAA
>SRR1151209_00594 glycosyl hydrolase family 31
ATGACGATTTTTACTAAAGGACCGAATTACTTAGAGTGTCAAAACGGTAATGAGCGCTTGCGGATCATTGCGTGGGGCCAGAATAGCTTCCGGGTGGTGGCGACACCCACAGGGCCGCTGGATCTGGCCTGCAGTGCGCTGCTGCCGACCGATACCGCCGCCACGGTGACGGTGGCTGACGGTCAAGCCATGATTACAAACGGCACACTGCGGTGTGTCATTGATAACCATGATTGGTGGGATCGCACCGGCCGTTTGCGGTTTTATAATGCTGCCGGTGACTTATTGCTGGAAGAATTGAATCCTGGCGGTGCCCTGCAGCGTCAGGCCCGCCGCTTCGAGCCGCTTTCTGGTGGCGGCCAATACGCCTTAACCGCCTCGTTTGCCGGTCAACCGGCAGCCCATTTTGCCGGTATGGGCCAGTACCAGCAGACCATCGCCGATCTGAACGGCACCACCCTGGAGCTGGCCCAACGCAACTCCCAGGCATCGGTCCCCTTTTATTTGGCCAGCACCGGCTACGGCTTTCTTTGGCATAACCCGGCAGTCGGGTCCGTGACTTTCGGTAAAAACGTGATCGAATGGCACGCCCAAGCCACCGCGCAACTGGATTACTGGATCACGGCCGGGGATACCCCCGCCCAAATTGAAGCGCAGTACAGCGCCGTTGTTGGCCGGGCACCGATGATGCCGGTCTATGGCCTGGGTTTCTGGCAATCTAAACTGCGTTACGCCACGCAAGCGGACGTCCTGGCGGTCGCCCGCAAGTACCATGAACTGAAGATTCCGGTATCCGTCCTGGTCATCGACTATTACCACTGGCCGCGCTGCGGGGATTATCGCTTTGATCCCCATTTCTTCCCGGATCCAGCGACGATGGCCGAAGAATGTGCCCGTTACGGGATCAAGCTGATGGTGTCGGTTTGGCCGCAAATCGATGAGCGCAGCGAAAATTACGCCGATATGCGGGAACGCGGCCTGCTGGTCCACACAAATCATGGTCTGCCTGTGCAGATGAAATTCCATGGGAATAACGAATTCTACGATGCGACAAATCCGGCCGCCCGCCACTATGTGTGGGATAAGGTGCAGAAAAACTATGGCGCGCACGGGATTCATCTCTTCTGGCTGGACGAAGCGGAACCAGAATTCAGCACCTACGACTTTACCAATTACACATATTACGCCGGCAGCGTGCTGAGCACAGGCAATCTGTATCCCCGGGAGTACGTCCGCGGCTTTTATGAGGATGAAATTGCGGCTAACGGTCATCCCGAAGTCAACCTGGTCCGCTGCGCCTGGGTCGGCAGCCAGCGGTACGGTGCCTTGGTGTGGTCCGGCGATATTCATTCCACCTTCCAAGATCTGCGCAATCAGATCAGCGCTGGCTTGCACATGGGGATTGCCGGCATTCCCTGGTGGACCACCGACATCGGCGGATTCCACGGCGGCCGGCCTGACAACCCGGCGTTCCGAGAATTGCTGGTGCGCTGGTTCCAGTTCGGCGCTTTCTCACCGGTGATGCGGATCCACGGTGCGCGGCAACCGATGACCAAGGTCTACAAGGCCGATGGCGAAGAAACGGAAGCAGCCGGTGCGCCTAATGAGGTATGGAGTTTTGGCCCCGAAGTGGAGAAAATCCTGACGAAGTTTATTCGGATTCGGGCATTGCTCAAACCGTATCTAGAGAAAGTGATGACCGCGGCCCATGAAACGGGCGCACCGGTGATGCGGCCGCTCTTTTATGAGTTTCCTAACGATCAGGCAGCGTGGCCCGTAAACGATCAGTTTTTACTTGGCGCAGATATCTTAGTCGCGCCGATCGTCCATGCTGGCGACCGCCAACGCGAGGTTTATCTGCCGGCTGGTGCGGAATGGACCGACGCGCGGACCGGCCAGCATTATGCTGGTGGTCAGCGGTGGCAGCGGCTGCACCGCTGGATAGTCTGCCAGTGTTCTTGCGGGATGGCCGACAGACGGAACTGCAGGGGCGCCTGTAGTGATCATGGTTCGCATTTTCCACTCTTGACACCGCCCCCTTTTCGCCCTATAGTCAATACCAATAAAGCAAATACGAAAAACTGCTGTGAGAAGATGAGTAGAAGCACGCGGTGTTCTCAGAGAGCCGGTGGGTGGTGCGAACCGGTAATGCCAACGCGTCGAACATGGTCTTTGAGCGATTCCGGTGCCAAGCTCATATGCGAGGCGGCGGTGGGTGCGCCCATTATTGCGTCGGAGTATCGTCCTGATCGTACTAAGGTTACGGTTTGGACTGCACTCGTGAGGCTGGAGGTGTGA
>SRR1151209_00595 AraC family transcriptional regulator
ATGACGAATCCCGCGATGGCCCTCAAAGAGCCGACCCGGCACGGGACGCTAACGCTGCCTGTGGCTTGGTACGGTCACGCCCGCCGCAGTTGGGACGGGTTCTTTTTCTTCCCCCATTGGCATGATGAGCTGGAACTATTCACGGTGGAGAAAGACCAAATTGAACTGATCATCAACGGCCACGCCCGGGTAATGGCCGCCGGCACTACCGCGCTGATTCCCGCTCGCGTGATCCACGCGGCCCATGTGGTCCCGGCGTCGCCGGTGGCTGCCCAATTTTCAGCCATCGTCTTTGCGCCGCGCTTTATTGCCAGTGAAACCACTGATGCGGTGCAGGCCGTATTGACTAAGACCCGAACCGTCGCAACGGTCACCCCCGGAATGGTCAATCAGGCTGCGCTGGCCCCGTTGTTGGATCAGTTTGCAACGGTCTATGCCGCGACGGCTCCCGAGCGGCCGTTGCTGCTCAAGGGTTTGCTGCTGCTGATTCTGGCCCAGCTCTTAACGAATCCGATTCCCGACCCGTGGCGGACCACCCAAGCCCGGCTGCAGGAGCAGCGGCAGAAACAAATTTTGACCTATCTCAATGCCCGTTTCGCCGAACCGCTCACCGTCCCCGGGTTGGCCGCCGTCATTAATCTCAGCCCGGAACAGTTCACCCGTTTCTTCAAGGCGGCCTTTCACCGGACTCCGATGGCTTTTTTGCTGGCCTTTCGCCTGCAACAAGCTGCCCTGCTGTTGCGTCAGACCGCCGCGCCGATCACCGACATTGCCTTCCAGGTCGGCTTTCAAAGCGCCAACTACTTTGCGGCCCAGTTCAAGCGGCACTATGGGCTTTCCCCCACCGCTTTCAGAAAAATGACTGAATAA
>SRR1151209_00596 magnesium and cobalt transporter
ATGACGACCGAGGACACATTTCACTGGCAAATCATTAACGGCAAACAACCCGCGGAGCAGACCTTGCTGCGCACGAAATATCACATTACCGAAGAAGTGATCACTTACGCCCTGGACGAGGACGAATCGCCCCACGCGGAGCTGGACCGGGCGACGGGGACTTTCTTACTCATTTACAATGTGCCCCGGAACCAGCCGGAGGATGACGTCTATGACGCGCCGCTAACGTTCATCATCAAGGGCATGACGCTGCTGGTGGTGGACAACGGGACGACGCTGCGGGTATCGGATAAATTGTACCGGACGCTGGCGCAGACTGATACGACGTCCCCGTTCAGCGCTCTGTTCACCTGCTTGGTCAAGCTGACTGACATGTTTGCACCATTAGTGCAAACCGTGGACAACGAGCGCAAGGCAATCGTGCCTGAACTGCGGCGGCATACGACCAAGAAGGCTCTGCTGCGGCTGTCTGACTTGAGTCTGCGGGCGGACTATCTCAGCCGCTCTGCCAAGCAGAACACGATGGTGCTGCGCCAGGTCCATGCCCATCCGATTTACCAGCGTTTCACGGTCGGGGAGGAAGAACAGCTGGCCGATGTCGTCATTGAAGCGGACCAGGTTTTGGAGATGGCGGAGCTGTCTTCCCACACTTTGGATCACCTGTCCCAGACGTATGATTCAATCTTGAACAATAATTTGAACGACGTGATGAAATTCATGACAGTTTGGAGCCTGCTGCTGACAGTGCCGACGATTGTCACCGGATTCTATGGTATGAACGTGCCGTTGCCGGCGCAGCATAGTCCCTGGGGCTGGATCATTACCATCGGCATCACGTTAGCGCTCTGGCTGGTGATGGGTGCCTTCCTGCACCGCTGGATGAAATGA
>SRR1151209_00597 hypothetical protein
ATGGTCACGAATACATTATTGTCCCGCTACCGCACGCCGGACCATTACCTTCAAGGCGCGGACATGGCCCGGGTGACCGTGACCGATCCCGGATTGCAGCACGCGGCGAAACTGGAAATCGCCTATCTGCTTAGTTTCGACCCCGCGCGCCTGCTGGTCGAGTTTCGCGCCACCGCAGGATTGCCCACCGGCGATGCAAAGAATTACGGCGGGTGGGAAAACGGCCCGGCGGCCGACCGCAATCCAGATGGGACTACCAGCCCCACCCGCTTCACTGGTCACTTTGTGGGCCACTATTTGTCTGCCTTGAACGAGGCCTGCACCGCAACGACTGCGACCCCCGAAGAGAAAAAGGCCCTGACGGCTAAATTGACCACCCTGGTGGACGGCCTGGCCGCCGCCCAAACGGCGTATGGTCAAGCGCATCCCGAATCAGCGGGTTTCATTCCGGCCTTTCCAGCAGCCGCCCTGCCCGATGGTGCGGATGGCTTGCTGGTGCCTTTCTACAACTTGCACAAAATTCTGCAAGGCCTGGTGGACACAGCGACGATGGGGCCGACGGAAACGATCCGGGCAACGTCGCTGACTGCGGCCAGCCGTTTCGCGGATTTCATCAATGCCTGGTACGAAGCGCATGCGGCGGTTGATATGCTCAAAACCGAATACGGTGGGATGAACGCGGCGCTTTATGAGTTGTTTGCCCTCACTGGCGACGATCAGCACGCAGCGGCTGCGCATCTGTTCGATGAAGTGCCGTTGTTTGCCCGCTTAGCGGATAACGAAGACGTGCTGCCGGGCTTGCATGCCAACACCACGATTCCGAAACTGATTGGCGCGCTCACGCGGTATGTCGTGTACACGGAGAATCCGCTGTATTATTTCCGCCTGTCTAACAAAGACCAGCTGGCTCTGGATATTCTGTATCGCCAAGCGGCCGAGAATTTCTGGCAGATGGTCATCGACCATCATACTTACGTCATCGGGGATAACTCGCAATCGGAGCATTTCCACTCCCCGGATGCGCTGTGGCAGGATGCCACGACCAACGGCACTGAAGACGGCGGGTATAACGATAATTCCACTTGTGAGACCTGCAATGCCCACAATATGCTGAAGCTGACCCGGCTCCTGTTTCAAGTCACCGGTGATGCCCGCTATTCGGAGTACTACGAGCATACCTTCAGAAATACGATCTTGGCTTCCCAAGATCCAGACACCGGCATGACCACTTATTTTCAGCCAATGCAAGCCGGGTATTCCCGGGTGTTCGGCGTTCCTGGCACGGGCTTAAACGGCAGCACCGCCCAAGGCGAATACTGGTGCTGTCAGGGGACCGGTATTGAGAATTTTGCCAAACTCAGCGATTCGTTGTACTTCATTGATGACCACGATGTGTACCTCAACATGTTTTTCAGCAGTACGCTGATATTGCCGGAACTGAATGCCAAAATCACGCAGACGGCAGACCTGCCCAAGCAGGCGGCCGTGCACATCACGATTGACCGGTTGAATCCTAGCCAGCCCCTGGCCTCGTCCCTGCGGCTGCACTTGCGGATTCCGGCGTGGGCCAATCATGACCTGATTTCTTTGACCGCCGGCGATTTCACCCGCACCGCCGAGGACAAACCGGCGGACGACTGGATCACCACTACTGTGAATGATGGCCCATTAGATTTGCTTTACACGATTCCGGCGGTCTTACGGGCGGTCGCCAGTCCGGATAATCCCAATTGGGTAGCTTTCCAATTCGGCCCCACGATTCTCGCCGGGGCATTGCCCACAGATCAGGACACCCCAGGAGATTACGCTTATGGCGGGGTGAAAGTCCGGGTGGCCAAGTTCTCCCAGACCGCCCATGCGGAAAGTCTGCTGGTCCCTAAAGACGGGTTTACTCCGAAGACATGGTTATCCGTGTTGGATGACCATGTGATCCGGGTGGACGATCCCGACGACGACCAGCCGCTCACGTTCAAGCTCCGCGGCTTGGCCCAGGGGAACGGCTTAATACTGCATCCTTACGCTGAGTTGAACCGCAACTTCTACGCAGTGTACTGGGCCCTCGCCCAAGCCGATTCCGATGCGTATCGCCTGATTCAAAAACAGGCGGCCGCCGCCGCAGCGGACGCCCGCCGGACCATCGACCGCCTGCTCCTCTTCGATAACAACAACGCCGAGGCCGGCAAGCACTATGCGGTCAGCGCCGACGCCACCGTGGGCAACTACGCTGGGCACACCTATCGCACTGCCGGCAGCAACGGCTGGTTCAGCTATAACCTGCAAGTGGATCCGGACAGTGCGGTCAATTACTTGGCTTTGCAGTTCAACACGGCCGACGCCGGTCAGCGGGCGGTCATCGCGGTGGGCGGTGCTTCGATCGACACTGTGACCGTCAGTGCTGAACCAGCGAACGGATTCTATTGGGCCTATCTGACCCTGCCGGATGACGTGCTGGCGTTGGCCGACGCCACTAATCTGGGACCGCACACGGTGACGGTGCAGTTGAATGGGACTGGTGAAACCACGATGCCGCGACTGTTTGGGATTAAGACATTGAGAGAAAAGCCAATTTAA
>SRR1151209_00598 hypothetical protein
ATGCGACTGGAATCAATGGGGCAACGACACGACGCGGGGATGTTGCCGAAATGGATCGTGAGCTTGATCAATCATCGGAGTGAAAAAGTAGCGGCTGTCCGCCAATCGCTGGTGCGGGCGGAATATCTCGGCCTGACCTGGCTCGATCAGCAAGTCGTACCGGTCTCTCGGGTGCAAGGAACGATTGGCACGGAGCACCAGCAACTGGCTAAGGTTCAGGAAGCTCTGGTCCTGGTGGATCTCATCCCCGACTATTGGGTCATTGCTAAAATCGAAGCAGATGACCGCTGGCTGATCGTTAATCCCTATCTGTGCCTGTCGTTTGGCGTCAGCTTTCGAATTGCCGGCGGCCAAGTCAGCATTCAGACTTTCTATACCCCCATTACGGCCGCTGATGGGACGGGCCGGCGGGCCAAAGCCGCGGATATCTTGGAGGCGATTACATTATCGCCGTTAGGGACTGATCCAGCAGTGGGTCTCTTTAGCGAAACCGAAGGACTCACGATCCCGGATGTGCCGGTCACATCGTTCGTTTCGCCCAAGAAGCTATTGCAATTAGAAATCAGCGACGCTGCCGCGGCGCACTACCTCAATACCCTGAGCAGTGCCTGGCCGGAAGCCACCGCCGTCCCGGCCAATCAGGTGATGGACTTCACGCCGTTGGCGGAAGCGACTCAAGCCAAGGGCGTCCGCGGCCGGCGGGCAAAAGTAATTCAGAACCTGATTGTCGACGCCGGACTAATTTCGACCTATTGGCAAGTCCGCAAGAGCCGGTCCACGTTTACATGGCAATTATTCAATCCATTTGTTGGCCGCCACGTCACGGTGGTTTTGGACCGGGGCGACGTGCCGCGGATTTATAAATACCAACTGCTCAGCATGAAGCACGTCATGACCGATATTACCACTCATTATTTGCTGGAGGCGGCGCTGCTTGCGCCGTTTTAA
>SRR1151209_00599 ArsR family transcriptional regulator
ATGAAATTACCGCTAAACAAAGATGCATTACCCATTCTCTCGGCATTGGCGAGCGACACCCGCATCGCCATTATTGAACAGCTATCGAAGCGTAAAATGAACGTGGGAGAGTTAGCTGAGGCCCTGGGGATCAGCCAACCCGTCGCCGCCAAACACATTAATGTGCTGGCCAAGGCCGGGATCATTAAAACGCAGCGGCTGCCAGGCAAGCAAGGCGTGCAAAAGCAATCAGTTCTGCGGGTGGACAACATCGATATCGAGTTTCCCCGAAAGGTCAACTTGGCCTATGAATCAAGCACCATTTCGCTGCCGGTGGGCCAATATACGAGCTGCCACGTCACGCCAACCTGCGGGCTGGCTACGACCAAAGGCATTATTGGCGAGCTGGATGAACCCCGCTACTTCATGGATCCCCAGCGATTCGATGCTAGCATTCTCTGGTTCACCACCGGTTATGTTGAATACAATTTAGTCAATCCCATCAAGGATACCCAAAATCTGGAGATGATCGACATTTCGATGGAACTGGGGTCCGAGTTCCCCCAGGGGAATAACAACTGGCCCTCCGATATCACATTCTCTTTCAACGGCCAGGACATTGGTCTCTACACCAGCCCCGGCGATTTCATCGATAAGCGCGGCTACTATAATCCCGATTGGTACGATTCCGGCATCAACCAGTACGGCGTCAAAGTCACGCTGCGCATCACTAACGGCGGCTGCTGGATCAATGGCCGGCAAGTCAGCGAGTTTTCGTTTGACGACGTCGCCATCACCAAGCCCCTGTGGACCTTCCGCATTGCTGCTAAGGAAGATGCCGCCAACGCCGGCGGATGTACGTTGTATGGCAAGGGCTTCGGCAATTACGATCAAAACATCGAAGTGAAGTCCTACTACACGGACAAGGATGGCGATTCGCTCACCTATGACGAAGATCGCCAGACAAAACAAACCGAAGCCAACATGGGCATGCCCAACAACCTGGCCGAATAA
>SRR1151209_00600 alpha-N-arabinofuranosidase
ATGAAGGGAAATTTGACACTGGATGCTCACGCGACCGTGGGCAAGGTTGATCCGCGCCTGTTCGGTTCATTTATTGAACACGTGGGGCGAGCCGTCTATCACGGCATTTATCAACCGGATCATCCGAGTGCCGACGCCGATGGTTTTCGTCAAGACGTCATTGATTTAGTTAAGCACTTGCAGGTACCGATCATTCGGTATCCGGGCGGGAATTTCGTTTCTGGGTTTAATTGGGAAGACAGTGTTGGTCCCAAAGATCAACGCCCGCGCCGCTTGGACTTAGCTTGGCGCAGTGTGGAGACCAATCAGTTCGGTTTGCACGAGTTTGAGGCATGGGCGAAAAAGGTCAATGCGGATACTATGATGGCGGTGAACTTAGGAACGCGCGGTATTGATGCCGCCCGCAACCTGATCGAGTACACCAACTTTCCAAGGGGTACTTACTATAGTGACCTGCGTCGCCAGAATGGTGCAGACCAGCCCTTCAATATTAAGACGTGGTGTCTTGGCAACGAGATGGATGGGCCTTGGCAAATTGGCCACAAAGATGCCACGGATTACGGGAAATTGGCCAATGAAACCAGTAAAGCCTTGAAGTGGGTGGACAGCAGCATTGAAACGGTTGCCTGCGGCTCATCAGCGTTGGACATGCCGACTTTTGGGCAATGGGAAAACACAGTACTGAACATTGCTTATGACAATGTGGATTATTTATCCCTGCATCGCTACTACGGTAATCGGGACGATGACACACCGAATTATTTGGCCCAAAACTTGGATTTTGATGATTTCATCAGCGGCGTTGTTGCAATGTGTGATGCAATTAAGGCCCGGAGACACAATAAGAAGCAAATCAACCTGTCCATGGATGAATGGAATGTGTGGTACCACTCCAATCAGCAGGATGATGAAACCGCACCTTGGCAGGAACATCCGCACTTATTGGAAGATATTTACAACTTTGAAGATGCCATTCTTGTGGGATCATTATTGATCACGCTGCTGAAACACGCTGATCGGGTCAAAATTGCCTGTCTGGCCCAGCTGGTCAACGTGATTGCGCCGATCATGACCGATGATAACGGCAAAGCATGGGCCCAGAGCATTTTCTACCCGTTCATGCAAGCGTCGACGATGGGGCGGGGCACGGTGCTAACACCGATTACCAGCGCCGAGACATACAGCACCAAAGAATTCCATACCGTATCGTACCTCGACAGCATCGGTGTATTGAATGATGCCGGCAATCAAGTCACCGTCTTCGCAGTGAACAAGTCCTTAGATACGCCCATGCAGCTCCATGTGGATGCGGGCACTTTCGACTTCAAGCAGGTCACCGGGGCCACGCAGTTTGCCGGCTATGCGCCGAAGCAAACAGCTCAGGATGCTGCTATGCATATTGCTCCCAATACGAAGTACACACTGGATGCGCCAGGCTTAACTATTGAATTGCCGCCGCTGTCTTGGAACACGGTACAGATTGCGGTGTAA
>SRR1151209_00601 glycerol-3-phosphate ABC transporter substrate-binding protein
ATGAATCAGTTTGGTAAAAAGCTTGGCTTAGCCGCGTTAGCAGCAGTTACAATGTTGAGCTTGGGCGCCTGCGGCAATAATTCTTCCTCGGCCAGCGGCAAGTCAGCCAATGGTGAGAACAAGATGACCATGTGGACGTTCGTTGATGCCCAAGGGGATTTCTGGAAAGATGCCGCCAAGTCTTGGAACAAGACGCATAAGCAAAAGATTGATTTGAAGGTCAATGTACTGCCCTTCGATCAGATGAACCAGAAGCTGACGGTGGCCATGCAATCCGGTTCCGGCGCACCAGATCTGGCGGACGTGGAACTCGGACAGGCAGCCACACAATTGAAAGCCGATAAGCCGCCGTATTATCCGTTGAATTCAGCATTAAAACCGTATGATGGCAAGCTGGTCAAGTCGCGGCTGGACAACTTCTCGAAGAACGGTAATGTTTACGGCCTGGATTATCACGTTGGGACCACGGTCACTTATTACAACACCGATATTATGAAACAGGCGGGCGTTGACCCGACCAGTATTAAGACGTGGGATGACTACGTGAAGGCTGGTAAAGAAGTGAAGGCCAAGACTGGTAAGTGGATGAACGAAGTTGAATACAGCGCCTATTTCCAATTCGACTCCATGACTGCGCAACAACATGCCGATTACGTCACGAAGAGCGGCAAAGCTGATTTGGCTAATCCCGCATCCGTGCGTGCTCTGACTGAACTGCAAAATTGGGTTTACAAAGACAAGATTGCTCGGCCGGCCGTTGGCGGCAGCCTGGATAACGATCAGTTCTTTGCTGAAATGAACAAGGGCAATGTGGCTTCCGTGACGATGCCTTCCTGGTACATGGAACGGATGGCCGATAATATGCCGAAACTGAAAGGTAAAGTGGCGATTGAACCAACCCCTGTCTTTAAAGAGGGCGATTACCGGTCTGCTGGCGGCGGCGGTACTGGCACAATGGTCACCAATCAGGCTAAGAATCAGAAACTGGCGGCTCAGTTCGTTGTTTGGGGTAAAGCCAGCAAAGACCAAGCGTACAAGATTTGGGAAAAGCTGGGCTTCGATCCCGTCCGGTATGATATTTGGAGTTCCAAGCGGATGAAGGCTGACAACAAGTACACCGAATACTTCGGCAAAGATATCTTTGATACCTTCGTTAAATTGGAACCGGATGTCCATTCTGTGACCAAGACCGCCAAAGTATCTCCGGCCTTGCAAGACTATCTGTTGAAGAACACGATGCCGTCAACCTTGCTGCATGACAAGATGACGCCGAAAGCCGCGCTCGAAAAAGCAGATTCTTCCTTGAACTAG
>SRR1151209_00602 sugar ABC transporter permease protein
ATGCAAAAGCCAAATTCGGAGGTGAGTGGTGTGACCAATCACGAAGATGCCGATTCACGGCCCAAAGTCCGGCGGATCAAGTGGGACCGAATTGCCCCGTACCTGTTTGTCTCGCCATTCATTATTTCGTTTCTTGTATTCTCGTTATATCCGTTTATTAGTGCCGTGATCATGAGCTTCCAGCAAGTCAATGGGTTCAGCGACGTCAAGTGGATTGGGCTGGCCAATTATCAGCAATTGTTCAAAGACGGCGATTTCTATGCTGCGCTGTGGAACGTTGTCCGTTACGGCTTCTGGACCATCCTGATTCTGATTCCGCTGCCGATGCTGTTGGCCTATATCATGAATCAAAAAGGGATTCCCTTTAAAGGATTCTTCCGGTCAGTGTACTTTGTGCCGGTATTAACTTCGTCCGTCATCGCTGGGTTGATTTTCAAATATGCGTTCAGTGGTGAAAAGTCTGGGGTATTTAATGAATTGCTGCATGTCTTCGGGGCTGGTCCGTTGGATTGGTTGAACGGCTCGCACACTGCGATGTTTGCCTTGGTGGTCATCGCGGTCTGGCGCTGGCTGGGGGTCAATATGATTTACTTCCTCTCCGGCCTGCAAGGCATCTCCCCTGAACTCTATGAATCAGCCTCCATGGATGGCGCCAATTCGTTCCAGAAATTCTGGTATGTGACGATCCCGATGCTCAAGCCGATCACCATTTACGTCTTGACCATTTCTATCATGGCCGGTTTCTCCCTGTTCAATGAGTCATACGTATACTGGGGTGCCCAGTCGCCGAACAATGTCGGGACAACGCTGGTGACCTTGATTTATAAAGCCGCCTTCTCCCAAGGCAACTTTGGTTACTCGTGTACCTTAGGGGTGGCGCTGTTCGTTATCGTGGTTGTCGTCAATGCCGTCCAGACCAAAGCCATGGGTCTGTTCAAGGATGAAGCTTAG
>SRR1151209_00603 sugar ABC transporter permease protein
ATGGAAAGTATTAAAACACAAAATCGTCTCAAGACTACCCTCAGCGTGTTGTTGATGGTCTTCCTGGCTATCCTGGTCATGGTGCCGTTCTACTTTATGATCGTATCGTCTTTTAAAGACGTGTCAGTTATCTTCGCCAACGGGATCAACGTCAACATCGATTTCAGCAAGATGAACTTCGACAACTACAAGTCGCTATGGACCAATCAAAACGGGATCTACTGGTCCTGGTATAAGAACAGTTTGGTCATCACTGTGGTCGAAACGGTGCTCGTTCTAGTCTTTACATCGATGGTCGGTTACGGTTTGGCCCAATACGATTTCAAAGGGCGCAAATTCATCTTTGCCCTCGTCTTGGTCATGATGATGGTGCCGCCGTCTATTCTGCTGCTGCCGCTGTACAAGTTAGTGACGCAGCTGGGCTTAATGGACAGTTATGCCGGGGTCATTCTACCTTATGTCGTGCCAGCGTCTTCGATTTTCTTCTTCCGCCAATTCTGCATGGGCCTGTCCCGGGAATTCGCCGAGTCTGCCCGGATTGACGGCTGCGGTGAGTTCCGGATTTTCTGGCAGATCTATGTGCCGCTGATGAAGCCGGCTTTTGGGGCCATGACTATCCTGACCACCATGAATGCGTGGAACGACTTCCTGTGGCCATTGGTTGTAATGAAGTCAACGGAGAACTTCGTGATTCCCGCCGGCTTAATGTCAGCGATGACGCCTTATGGGAATAACTACAAGCTGCTCTTCGCCGGCAGTGTCATGTCCATCGTACCGATCCTGATCGTCTTTGTCCTCAACCAGAAGCAATTCATCGAAGGGTTAACCGTCGGTGGGGTGAAAGGATAG
>SRR1151209_00604 hypothetical protein
ATGAAGAAAAATGTGGTCTATGACCTGATCAACGTGTTCTGGCGCTTTCTGATCTGCAGTGCCTGTTTTTACTTAACGAACGTGTTTCTATTGGTCCTTTTGTTCACCGTGCATTTTACAGTGATTACCGCGCCGCTGTATCTGATTGCTTTAATTATTGCCTATCCCGCAGTGGGGGCGATGGGCGACTTGCTGCGGGACCATCAATGGACCAATGAAGCCGTTCAAGGCGCCAAGCGATATTGGCACTACTACTGGGTCAATAAATGGAAATACATCAAGCTGGGCCTGCTCTTTACGCTGGTTTTCCTGTTTTTGGCGGCAGACCTCTATGGGGCCAATGTCATTATGAAAAACGGCCTATTTATGCCTTTGGTGCTGGTATTAAGCATCATTGCGCTGGTGGCGTTTAGTTGGGTGATCGGCATTCAGTCGTACTTCCAGATCGACGTGAAGAATAGTCTGAAGATGGCCTACTTTGCGGCCGGTCACTATGCCTTGCATTCGGTTTGTTTGATTGCCTTGATGTTCCTCATCTACATGGCGTTCTCGTTCATTCCCCAATTCATTATCTTCATTGTTGTACCGCTAGTGATCCAGGGTATTATGCTGATCACGCAAAAGCCGCTGCACCAGATTCAGCAGCAGCTGAATGTGGAGGTGTGA
>SRR1151209_00605 hypothetical protein
ATGCCGCGTTTAGAAATTGGCCTGATCGGTGCGGGCACCATCACGGCTATTACGACAGTGGTGTGGTATGTCTGGCAAATCTTTCACATGCCCGTTGAAGAGCGGGTGGATTGGCATAACTTAGTCCAGAAAAAAGGGTCCATTTGGCGTAACGGCGCCAATTGGCTATTGATCGTGAGTCTCGTATTGCTTGTCGGCGGTTATATCGCCGGTGTTTAA
>SRR1151209_00606 glycerol-3-phosphate ABC transporter ATP-binding protein
ATGGTAAAAGTTGATTTAGACCACATCTACAAGCACTATCCCGCGGCCCCAGAAGATCAATATGCGGTGGGCGACTTTGATCTCCACATCCAAGACCAAGAATTTATCGTATTCGTTGGTCCTTCGGGTTGCGGTAAGTCGACGACGCTGCGTATGATTGCTGGATTGGAAGATATTTCCAAAGGTGATTTAAAAATCGGCGGTCAAGTCATGAATGATGTGGCCCCCAAAGATCGGGACATCGCCATGGTTTTCCAGAACTACGCCCTGTATCCGCATATGACCGTGTTTGATAACATGGCTTTCGGTCTAAAACTGCGTAAATACGAAAAGGCTGACATCAAGAAGCGGGTGGAGGAAGCGGCTCAGATTCTTGGGCTGAGTGATTACTTAGATCGCAAGCCAGCGGCTCTGTCTGGTGGTCAACGGCAGCGGGTTGCGTTGGGCCGGGCCATCGTCCGGGATGCACCGATCTTCCTGATGGACGAACCGCTGTCTAACTTGGATGCCAAGTTGCGGGTAACGATGCGGGCAGAAATTGCCAAATTGCACCAGCGGTTAAAGACAACCACCATCTATGTAACCCACGACCAGACTGAAGCCATGACCATGGCGGACCGGATCGTTGTTATGTCCATGGGTAAAGTTCAGCAAATCGGTACACCGGCCGAAGTTTATGATCGGCCGAAGAACGAATTCGTTGCCGGATTCATTGGTTCTCCGGCGATGAATTTCTTTAATGGGCACCTCAAGGACGGGTATATTTCAAACGGTCAAGGCCTCCACTTGCGGGTTCCTGACGGCCGTTTGAAGGTGTTGATGGACCAAGGATATAACGATAAGGATTTGGTATTGGGCGTCCGCCCCGAAGACATCCACGCCGAAGAAGCCTTCATCAAGACCTTCCCCGACGCCACAGCGAAGACTGAAGTAGTCGTATCTGAATTGCTCGGCGCGGAATCCATGCTGTATGCGCGGGTTGATCAAACTGAATTTGTGGCGCGGGTCGATGCCCGGGATTATCACAAGCCAGGCGACACAGTCACCATGGCGTTTGATCTGAACAAAGCACATTTCTTTGACAAAGAAACGACCGATGCAATTTATGAACAACCGGTGGCAACTGTCGCTGAAGCATAA
>SRR1151209_00607 AraC family transcriptional regulator
ATGCAATATTTGAATATTCCCCTCAAGACACCCGTGCAGCACATCCGCAGCGGCCAATTTAATGCCGATCTGGGCTGGCGTCACCATCGCTTTATCCACCGTTCAGACACAGAAATTCTAATTGGCTTGGCCGGCCGGGTGGACGTAAACGTTGCCGGCACCGACTACACACTAGCCGCCGGCGATGTGCTGACCGTTTTTCCCCACGAAACCATTGTGGGTACCCGCGGGACTCTGATACCAAGCCGATTTTTCTGGTGTCATTTCATTGCGCCAACCCAGGTCAGCACCCGGCCAATGCGACAAATAGCTGTTCTGCCGCGCTTCTTTCACCTACGGGATCTAGCCAAAGTATTCATCAATATCCAACAGGTGCTCGACGTCGCCCACAATGAGTATTACTTGGCCCAGGCGGCTGATTATCAGACCACGATGCTCATAATTGAGCTGGCCAACCGGGCCTGGGCTGCCCGCCAAAACGTAACCGGGGACCACACTCAAATCAAAGAATGGATCCGGACCCACATGAATGAGTCTCTCACCGTAGGCGCCATTGCTGATCATTTCAATCTCAACCCGGATTATATGACTCGCATTTTCAAGCGTGAGACCGGCATGCCGGTGATTGAATTCTTAAACAGTGTGCGGTTAGACTATGCCCGCTATTTACTGCTAACCACGACAGATACGGTGCACAGTATCTGCCACCAGTCTTTTTTCAATGACGCCAAATATTTTTCGCGCATTTTTAAGAAAAAGTTTCATCTGACACCCAGCGCTTATCGTACGGCCTATACCCATACTTTCGTGAATAATCAGCAGGTCGATCCTGGTGGCGACATCAATCAGTACGTGGCGTTGATTGAAAAAAGTCAAAAAGAAAACAGCCGCCATTAA
>SRR1151209_00608 hypothetical protein
ATGATGGACAAGCGATGGCGGACTAAGGTCGGCACAGTATTGCTGACAGCGGCCGCGGCCTTAAGCATCGTTGGCTACCAAGCAGCGCAGGGCCAACCGGTACAAGGCGCAACGACCACCAGCAGCGCAACCGGTGTAAAGCAGCCGGCAGCCAGCGGACAGGTAACGACAACTAAGACTGATAAAGGGTATGATATGCAGAATAATCTGTTTAAAGTTTCCGTTGGTCAATATGGTGAAATCAGCGGGTTGTATTTGGCTAACGATGCCTTCAAAACCAATTACGTAATGAATGAAACGGATAATCCTAAGCAGGCCACCCCAGGTCATGAATGGGTGGGCGAGCTGATGTTTCGCACCAAGCCAAGTGGTGCCAAGGATTGGCAAAAAGAGTATACCAACAAAAGCGGTGATGTCCGCAAAGTCTCGCTGGACGGCAATCGGGTCGTCGTGACATATACCAAGTCCGGGACGGCTGGCGGGATTAAATCCATGACCGTGACTGAGACGTATGCTTTGGTCGGGGATAACCTGCAATGGTCGATCAAAGTACAGAACACGACAGCTAACACTCTGACGATTGGTGATATGGGGTTACCGCTGCCGTTTCGGGAGTATTGGACGTATCCGCCCAAGGAGGGCGAAAGCCCATCGCAAACGGCCTATGAAGGCAGCACGCTATTTCACAGTTTTGTCGGTCAGGATGCATCCTACATCTACGTCAATCGCCCCAGCGGGGTCGGCAATTACTTAGTCATGACACCGGACCAAAAGAGCGGCGCTGGCTTTGAATATCAAGACCACTGGATTGACGGGACCAACGGCCGCACTGCCGATGAAAAGAATTGGTGCATGGATCAGGGCGATTGGGCTAACGGTCTCAATGTCTTTTATATCCATTCAGCGGCAATTAAAAATCAGAATGAAGGCTATTTGCCAAATACTGCCTTGACGCTTAAGGCCGGCGAGAGCAAGACCTATACGTTCAATTTTAATGCGGCAGAAGACAAGAAAAGTGGTCAATCCACTGCGATTGCTGATCAGGACCATTTGAAATATGACAAGTCGGTCGCAGCCACCTTGTATCAAAAGAAAATCATGGATGCTGTTTCCGTACCCAGCATGGTTCTGACCAAGAACGATCAAGGCGTGGCCACGGGAAAAAATGTATCTGCACACGTCGGTGGATAA
>SRR1151209_00609 beta-L-arabinobiosidase precursor
ATGTATCTGCACACGTCGGTGGATAAGAAGGATATTTCCTTCACCTATCAGTGTATGCACACTGGCTCGATTCACGGCGGTACCCACAATATTATGGACACGAAGGGCGTGAAGCACGTTGAAAACGGCGCGTCGGCCACATTTGCCGAACGTAAGGTGATTGACGGCGAGCAGTACTTGATTTACAACGTTAAGTTTTCTGAACTTGGTCCGAACAATATCATTGTGCATTACTCAGTAGATGGGCAGGAAAAGAAAACGACGCTGCAATATACGGTCATTGATAATCCGCAGACGGCACTGGCGGACCATGCTGATTTCTTGCTTAAAACGCAATGGCAAACACCGGGCAAGTTGCAGGACAAAGTGTTCGATGACTGGATGATGGATACCAAGAGCAAGCGCAATGAGTTCGCTGGTTATTATGGCTGGGGTGACGATTGGGGCTTGACCCACGCTACGTTCTTGGCCGAAATGAACAGTATGACGCCCAAGGTTAAGCAAGTTCAAGCCATTGATGAGTATTTGGATACGGCCATTTGGAATGGATTGATGCAAGAGCATCACGACGATTACCTCATCAATGATTTCTTGATGAAACAGCCTAACACCACGCCGACATACCGCGGCTTTGCCTATCCGCATATTTACAATACGTACTTTGCCATGTATAAGATTGCCAGCCAATATCCTGATTTGATTCAGTATAAAGACAAGGCTGATACTTATCTGCTTCGCGCTTACCACATTATGAAAGCCATGTACGCTGATGGTGTGGGTTACAACTGGGAAACCGGGACGATGGGTGAAAGCAGTACGCCGGCCATCATTCAAGCACTGAAGGACCGAGGATATGCAGCAGAAGCCCAAGACATTACGGATATTATGGCCAAGAAATACCAGAACTTTGCTAAGGACAAGTATCCCTATGTGTCTGAATATCCCTACGATAATACCAGTGAAGAAGCAGTTTACATGCTGGGTCAGCAAAATAACGATCAGAATATGATGAGCATGATCGATCTGAAGACGCGAGCCTCCCGGGGTGTCCAACCGGTTTGGTATCGCTATGGGGTGACGACGCCGATTACGGGTGAAAACTGGTTTACTTTCCAATACAGTTGTGCACTCGTCGGTATTGCCATGGACGATTGGCTGCGGGTGCAAAATAATGGCTTGAATCAAGCTGATTTAGGCTTGGCCGAGCGAGCCAACTATGCTGGTAAACTAGCCAATTTAACATTGATCAACAGCGGCCAAATGGATTCAGATCCGGCCAATATTGGGACGACCTCCTGGACGTATCAGGCCCAGCTGGGTAATTATGAAGCACTAGGGACTGGCGGCGGCAACATGCACAATGGGTGGCGCCAAATGTCTGGTGAATCTGATCTGGCCCTCTGGGGGGCATTGCAAACCATGTCCGCCGATGTGGTGACCGATCCCGTCTTCGGTTTAACCGGTTATGGGGCGACTGTGCGCAAGCAGGGGAGGCTCTACTTCATTAAGCCGGAAGATGGTCTGCGGCAACGGGTCAACCTGATTAATGACAAATTATCGTATGCCTTTGCGAATGACAAGTATACCCAAGCGGTCATTGATCCCACCACGCAGAAAGCCCAGTTCCAGCTGACAAATACGGCCGGCGAGGCCCACGATGCCAAACTTGTGATTACGCATCCGCAAGCTAAGACGCAGGTCTTCACAGTGATTTACAACGGGAAAACCGTGGGTTCCTTCGAAGCCAATGGCACCAAGATAACGGTGACGATTCCAGTGACCGCGGCGAAGAAGGGCTTGCTTACGATTCAGCCGGGCAAGCTGCTGACAAATACCAAGCCGACAGTGACCGTGCCTGACAAGCTGACCACCTCAATGAGCCAAGCAAATGATGTTCGGTTAATCGGCCATGCGGAAGACAAGGCGACTCTGCAAAAGCAGCCAGCCGCAAAATGGACAGTTGTCCAAGCGCCGGAAGGCGGTAAAGCAACCTTCTCAGCAGCCGACAATGCAATCACCTCCGCGCAGTTCAATAAGGCAGGTCATTATGTTGTGCAGTTAACAGCAACGGGGGCCAATCAAAGCACGGCAAAGACTGTCAGTGTCGATGTGCAAGCTGATCAGCCTTTACCTGAGACTGTGGCCCGTTACGGTTTTGACGTGACTGATCAGGATATTATTGCCCACCGGTTACCCAATGAAGCCGCCGGTGGTCCCGCCGCAGAACTTTATGGTACAACGGATGACTTTAGTACGGTAGCTGGGAAAACTGGCAAAGCACTCGCTATGAGCGGCAAAGTCGCGGGCTATTTGCGGCTGCCGGCGGCAGTTACTGAGCGTCTGCAGGAAACAACGCTCAGCCTCGATGTGCGGCTGAGCGGTCGGCAGGTCACGGGTACGACGATTTATCAGTTCGCTGATGAGCAGCAGTCACTTGCGCTGCAGGTCAACGGCAGCAACGAGCTTTATCTAAACGTGAAGGACGCAGGTAAGACGGCCAAGGAGATTCATACCGGAGTCGCGCTGCCTGCTGATCAGTGGGAGAATATCACGCTGACCCTGACCAACCACGGTGCCGCCCTTTACTTGAACGGCAAAGTAATCAAGACACTGCCCCAAAGTACTTTGACGTTGGGTGCACTAGGTAAGGTGCAAAAGAATTATATTGGCCGCGCCACTAGCCAAGCCGCACCCTGGTTCCATGGCGCATTGGACAACTTCGTACTGCGCAGCAAAGCCTTAAGCGCAGCCGAGATTAACAAGCTGTATGGCAACGATGAGGCGTTAACAATTAAATCCTTGGATCCGGCCACAGCCGTGACCAGTGTGAAGACTGCCCCTCAGCTGCCCCAACAAGTGCAGGCCAATTATAGCGATGGCACCAAACGAGCGATTGCTGTCACTTGGGCGGAGGTTGATCCTGAACAGTATGCCAAAGCAGGCTCCTTTAAGGTTACTGGAACAATTGCTGAGAGCAAGGCACTATCAGCAACAGTCACTGTGCAAGTGGTTGCTGGTAAAAAAGAGAACCTGGCCAAGTCGGCTACCCCAACGGCAATTATCGATACACCGGAAGATTTGGGCGGCGTAAAAGGCTTAAATGACGGGTTTACACCAGCAAATTCAGATGATCGGAGTCATGGTGTCTGGCACAACTGGCATGGTGATCAAACTGCGGATGCCTGGGTCCAATATGCCTGGAAACAGCCAGTTTTACTGACAGACACAAATGCGTATTACTTCTTCGATGGAAGCAATTTTGACCCCTCCGCAGCACGTTTCCAATATCAAGACGACCAGGGCAAGTGGCAGGATTGCCAGAATGTTCAGGGTGCCGGAACAACTTTGAATCAGTTTAACAAAACGACATTTACACCAGTAACCACCAAGACTTTCCGGATGATTCTCACCCCCGGACATTTGGGTATTGGGGTCATTGAGTGGCAAGTGAATGGGTATACGGTGCAGTAG
>SRR1151209_00610 hypothetical protein
GTGAAAAAGAAATTACGCATGACGATTCGATACGTTGGCGTGGCGGCTGCGGCACTCTTAGCAGCAGCTCCGCTGATCGCGCCAGCAGCCGTACAGGCGAGTACAGCTGGTGTTGTGGTCAGCAACGGCCAGCAACAGCCGAAGGATATGGGCAATCTGTATATTGGTGCGCCAGCAGTAGAACCAGGCAAGGGATTGGCCAACGTGGCTGGTGATGATTCGATTGGGTTGACAAGTGGTGTGTTGGCACAATTATTAAAAGATTCAGCTGCCGCATCCTATGTGAACGGTGATGATGCAACGGCGAACCAAAGGCCAGATTTGGCGGCACAATCTGAGCAGGGCCAGTTAAACCCCTGGTGGGAAGCAATTCGCGAAGATTTAACGACTAATGGGACGCACTTGGTTGATATGAATCAGGGCGATCCCGATACTGGTGTGTTTGTGGCAAAGGGGGATTTCTACCAAGCTATTCAACTTCTTCCTGATCAATCCGATGAATACAGTAGCTATCAGCAAGTACTCAAACAATTACCAGATAAAGTTCAAGGTACTGTGACCACAATGGTGAAATCGGAGAAGTCCGGGTACATTGGTCAATCGAATCTTTATGCGCTATTCAATGATGGTGGAGGCAATCTCGGCGCTTATGCCACTTTCTGGCTGGTCCGGCAATTGAATGTGATTCCTAAACCCATTGCTCAGTTAACATACAATGGGCAAGCACTCGCCGCTAACAAGGTCATTGGCAAAGATGTCCCCTTTACCGCAGCCGACAAAACAGCTTTTACCACTGGCAGCTCGGTTGAGGCCACTGATCAAGCCTATCAAAAGATGGTCCAGAGTGGCGCTTTAAAGGTCGCCAATGGTACATTGGCGGATGTATCACCGGCCGCGATTCGCACTGCGGCGGTGCAGGCTGGCGTCAAGTTCGTCAGCGATAATAGCAAGGATCCTGGCTACAATACGTATAAACAGGCCGGTCAAGTGTTCACGATTCCAGTTACCGTCAAAAATGAAGATGGGCAGTCTGCCATGACAGTTAAATTACAAGTCACCACGCAAACACTGCAAGTGGCCTGGCACCAGGGCAATCAGTGGACAGTCAACGCCGAGGTTGGTGATACGGTACCGGTTGGGACATTAACGAAGAATTTGGGTGTCACTGTGAACGATAAGCCAGTGACTAAACCAAAATTTCAGGTGAAGGATCAGTCAGGTAAAGTCATCACTGGGAACTTGAATACGCAACAGGCTGGAGACCAGTAA
>SRR1151209_00611 bacterial Ig-like domain (group 3)
GTGGTGATTTTGAAAGTCAGCAAGCACGTTGTACCGCCAGTAATCGTGGCGAAAGATCCGGTCTTCACGTTTGACACCGGCTTTGTTAAAGATCAGACGGTTATTCAGGGCGGATCATTTGATGAAACCGCCGGTATTCATGCCTGGACGGACGCTGATCAGACAACGCCGATTCCCAGCAGTGATTGGCAAATCACTGGTCAAGTCAATACCCAGACGCCTGGGGTGTATCACTTAACTTACACGATCACTAATCCAGTGGGCGGTCACACAGCGCAATTGCAGCGGCAAATCACAGTAGCAGCCAAGCTGACCGAGCAGGCGCAGCAAGGAGTTGTTAAAGTGACCAACAATGCTGGGGCAGTGCTTTATACCAATCCGGAAACGACCAATGCTGCCGGGCGGACGCTCAGTCGCCAAAGCAGTTGGCGGTACTTCGGTGTTGTGCGCGATGCCGCCGGTCAAATCGTTGCTTATGATTTAGGCGGTCATCAGTATGTTAAGGCAGTTGATGTGGCGGTACCGGCAAGCAAGCCGCAGAATGGCGTCTTCACGGTACGGTATCCGGCCCATCCCAAGTGGGCAATCGCAGTCTATGATGACACCTTGCACACGCAAAAGTTGATTGCAGCGGGGTCAATTTGGCAGACGTACGGCAGTGAAAAACTGGCCGACGGTCACTCCTACTACAATCTTGGTGGGCATCAGTGGGTCCGGACCGACTATGGTTACTGGCATACCAAGTGA
>SRR1151209_00612 hypothetical protein
ATGGCAGAAGCACGCTTCTCAACACACTTTAATCAGCACGGAGCCTTGGTGAAACTAACTAATTCCCGCGACGCCAAACACATGAACTGGGTGGTCTCACCGGATTATCTCACATCCGTCGGCTATCACGATGATGACAAGCTTTTTGGTGAATTTTCACTCTCAATCAATGGCCGTGACTATCGCAGCATTGATTTATCCCCGACTATCATGGCGGCGGCGAATAAAACCACGGTGGACTACACTCTGCCGGACGCCCAGGTCGCTCTAACTTATACTGACCAGACCGATCGGCTGGTTTGGGATGCAGCCTTGACTAATACGACCGACAAAGCAGTTCAGGTCGATCAATTCTCAGTGTGGGCCTCACTGGCCTATATCATGTTTCGCAACAAAGACGTCCAGGTCAATATGGACGACTCAGCCGCAGTGTTCCCGTCGATCTCCAAGAACTTTACCAAACTGGCGGCGATTCGACGGGGTAATGCTGGTCCGCACTTAGGGGTGTTCCAAACCGCTGGGATAGTGCAATCGGTGGGCACTTATAGCGAATGGACCAATCGTTTCTTCGACAATGTATCACCCTCACTGGACGGGCTGCTGTTTCACGAGATCGTTTTGGCCGGGGGATATCCCGCCAGCCGGGCGCCTAAAAAGGATTGGATTTATCCCCATCGGCCGATTCAGCTGGCTATAGGGGAAACGAAGCATTGGCAATTCGTATTGACCGATTTTGATCACGCTGATGATTTTCAGGCGACAGCCTTGGCGTTGGGCCAGCCAAAGATTCAATACGCGCCGTTGGCTTTTGCCGATAAGCCAGTGACATTCAGCATCACATTGCCGCAGGGCAGTGCCCTCCAGGCACTTGCTGTGCGGTATAAAGCAGATGACGTGGTAACTGAGGATATCACCGTTAAGTATCATGGTGGCCAAGTCACATTCACCCCAGTGGGGCTTGGCGAACACGAACTTCTCCTCACATTGGCCGACGGACGGCAAGATATGGCGGTCTTTAATGTGACGGCAGCTATCGATCAGGTTATTCAGCGGCGCACCCAGTGGCTGACGGATCATGCTTATTTAGGCGCCGAAGGAAAACCGGCTTACGCTTTTGGCCCCATTTCTAACCAGGGGGAATCACTGGGTAAGCTGAGCTTCATCTTGCAATCCAACCTATTGCAGCCCACGGCTGATACCGCTCGGCAAGTCGAAGCCGTGGAAGCCAGCGCTGTACATTACGTCCGCAATAAGTGGTTCCAGAATGGTGATTTCACTCAGCCAGTCAACTTGTATGGTGATTTCTATCGGGACATGGATTTTGAATACATCGGCCACATTTATTACTTGCTGTCCAAGTGTCCTGCCGAGTGGCTCCATTTGGAATCAGCTAAAACGTATTTGCAATGGGCGGCACAAGTCTTCGAGTTGCGGGTTGATCCAGAGATGCACACAATTCAGCGGGGTAAAGAAGAAGCACAGATGCTGGGCGTGTATTTCCTATACATCAATGATCTGCTCCATGACTTGAAAGACAAAGGATTAACCGAAGAGTATACCGTGATCAATACGTGTTGGCAGCGGGCAGTGCAACGGGTCGCCAAGGATAGCCCGCAATATAAGGCGGCGATTACGGAACATTTCTATGACAACGCTGGGTTTGGCCCAGCTACCGGGGCACTAGCTGCTTCAGACAGTCTGGCAGCGGCCCGCCGGTACGCTGAATTGTTGAAAGCCAACATTGGTTTCAGCAATGACTTTCGCGCTCAGGCCCCTGATCGTTGGTGGGAGGCACAATCGTATATGATCCATGCATTGTGGGGCGGTATCGTCGCCGCATCCGCGTTAATGGCTTACGAGCACTTAGGTGACGCAGAATTACTAGAGGGTGCGTACCGAGCCACTGTCGGGGTACTCTACATGTATGATGCCAACGCCACGACAATTGATCGCCCCATGACCCCGGGGGAGGCAGCGTCAACTTATTCCATTGCTGGGCCCAATTTGAATCGGCCGGATCTATCCCGCAATCGGTTTGGCCAATCGGCATTTGCCAAAGACGGCGGTATTTTTTCTCGACTATTTCCCGAGGGCGATACGGGTGCTGCTGATTGGGATATGGGTGAAGAAATGGCGGCGTATCTGACCGGCTTTGGTCAGAAAACCTACGTCTACGTGGACGATGCCAATCAGCTGCATGTGGTGAACGGCCAAGCTGAAAAAGTTGCTGCTGATCACTATCGAATCACCAGCGATGCCCCCTATATTCACGAATATCTGAACGTTCCGTACCACCAGACACTGCAAACAACGGCAGCTGAAGTGACCTACAGCATCCAAGACGGTTTTTCTGCGTAA
>SRR1151209_00613 hypothetical protein
ATGAAAGTTCTCTTTAAACCCGTTGGCGGCCAGTCCCCGGTGGCCTGGCTCTTGCAGATCGGCCTGCTGGCCGTGGTTTGGGCCGTATTCAAAAAAACGATGACCCACACCACGGCGTTGCTTATCGCTGCGGTATTGATCATCGTTTTGTTTGGTAGTTTTGCGTTGACGAAACGGTTTGAGGAAAAGGAATAA
>SRR1151209_00614 AraC family transcriptional regulator
ATGCGCCACTTCAAAGCCACCACCGTCCTGTCACCGTCCGAGTACCGCTTGGCCAACAGCCGCATCCACTTGAATAACCCCAATGTCGATCCCCAGATTCCGATCCCTAAGCGGATCGCCGATAAAATCAATTACATCCCCGAGAATGGCGACATTCCCGAATAG
>SRR1151209_00615 hypothetical protein
GTGGACGGCAGGTCTGACGATGTCGTCAATGAAGATGGATTTGTATTTCTGACCATCGACGATGAGAACGTCACTCTCGATTTGAAGCTGGACATGAGCGTGAAGTTCATGCGGGCCAGCAACCGGGTCCGGGCGGACTTCGGGCAGGTCGCTATCCAACGCGGTCCGGTCGTCTATGCGGCTGAACAAGAGGATAACGAAGCCCCGCTGTGGCTGTACAAGGTTAACCGCGGTGCCAAGACCGAAAGCCACTATGAAGCCGGTCTCTTGGACGGTGTCGAAGTCGTCGAAGTCGCTGCTCAGCGCGAACCAGAACAAGACGTGACGGATGATTTGTACACGGATGCCCCAGATGTACCCGCTGAAGAAACGCAATTGACCCTGATTCCGTATTACGCTTGGGCCAATCGGGCAGACGGGCAGATGCAAGTTTGGCTGCAACGCGGCAGGTAA
>SRR1151209_00616 succinate-semialdehyde dehydrogenase
ATGGCATATCGTACCGTTTATCCATATACTAACGAAGTATTGCAGACGTATGATCCAGCGACCGACGCTGAGCTGGAGCAGGCGTTGGCTGCCGGCCACGCTCTATACAAGCAATGGCGGGATGCCGATCCTGCTCCGCGGGCGCGGATCCTGCGCCAAATTGCCGCGCGTTTGCGTGCCAAACGCACTGAATATGCAACAATCATGACCCATGACATGGGTAAATTGATCGGTGAATCGGAGGACGAAATTGATTTGTGTGCGGCGATTGCCGATTATTATGCAGAACACGGACCAGCCTTTCTGCAACCGCAACCGCTGCCAACGAACCAAGGCAAGGCGTACTACGTGCGGCAGGCGACTGGGGTATTGGTAATGGTGGAACCCTGGAACTTTCCGTTCTATCAAGTGATGCGGGTCTTTGCACCGAACTTCATGGCGGGAAATCCGATGATTTTGAAACACGCATCCATCACACCGGGATCAGCTGCAGCATTTCAGGAACTCGTGACTAGTGCCGGTGCTCCGGCCGGTGCACTGACTAACTTGTTCATGTCATACGATCAGGTCAGTAAAGCCATTGCCGATCCACGTGTGGCCGGCGTTGCGCTGACCGGTTCTGAACGGGGCGGCGCAAGCGTAGCCGCGGAAGCCGGCAAAAACTTGAAGAAGTCCTCTATGGAGCTGGGCGGTACCGATGTATTCATCGCCCTCGATGATGCGGATTGGAACAGGGTTTACAAGTTAGCTCCGGCCGCCCGGCTAGCCAATAGCGGTCAGGTCTGCACGTCCGCCAAGCGGTTCGTTATTGCAGCCAGTCACTATGATGAATTCTTGGAGCATCTGAAGGCAGCGTTTGCCCTGCGCAAGCCCGGCGATCCCCTGGATCCGTTGACGACATTGGCGCCAGTATCGTCAGCGAGTGCGAAAAAGAAGATTCAAAGCCAAATTGATGAAGCAGTGGCCAATGGTGCCCAAGTCTATTATGGCAATGAACCGATTGATTTGCCTGGTCAGTTTGTCCAGCCGACCATTTTGACTGGATTAACGCCGGATAATCCGTTGTACAGCCAAGAAATATTTGGTCCCGTGGCCGAGGTCTTTAAGGTCGATAGTGATGATGAGGCGGTGGCCTTGGCCAACGATTCAAATTATGGTTTGGGCGGCGCTGTGTTCTCCCAAGACCAAGCTCGGGCAGAAGCGGTGGCAGCCCGCATTGAGACTGGCATGACGTTTATTAACCAGTCCTTGCGCAGCGTACCGGAATTACCTTTTGGCGGCGTGAAGAACTCCGGTTATGGCCGGGAATTGAATGAATTAGGCTTTAGTACTTTCACGAATGAACATTTGATCGTAGCGGCACCGCAAGACTAG
>SRR1151209_00617 muramidase
ATGACGAATAGAAATGGATTATTGCGGACCGGCACAGCGTTATTACTGGCGGGCACATTAGCTGCGGGGCCGGGTCCGGCGGTGGTCAGTGCCGCAGCAGCGGATAATGCGCCGGTCACGGTGGACCAGCAGGCAGCGGAGCCAACGGCGGCCAAGCAGCCAGCCGGGCAGGAGACCCCTAGCCAAAAAATCAGTGAGACCCTGCGCTTTCGCCTGCAAAATGGTGCCCCAGCCAGTTATGGCACGCCATTGACGATTGAATTCTACGATGCTCAGGCCCCGGAGAAGCCGATCAGTACGAAAGAATTGGCGGCCACCCAGGACGAAACACCCACGGCAGCCAATTCAGAGATCACGATTTCTGACGCCGATGGGTTCCAACCCGGGAAGTCCTACGCCATCAAGCTCAAAGCGGGGGACGAGGCGTGGCAGGCGGTTCCGGGGACGATTGTATTCACAGCGGCGAAGGAGGCGGCACAGATCGACGTTGATCGATTTGCACTGTTAAAAGGGGTCAAACAGTTTCAACTGGTAGATGAAGCTGGGCAGCCGGTGCAAGCCGTTGTCCGGGCGATTCCAAATATTGTCAACGGTGAGCAAGAAGCTGATATCCAGCAAAGTAATGAACAGGGGCTGGTCACTTTTTCAACCGCTGACGCGGGCTTCCAGCGGACGGTGATTTATCACCTGGCGGTTGAGGGATATACGTTCACTGATGGCGTACTGAATTGGAATCTGCTTGGGGGTGAAAAGGGGACCGACGTGACCAAGTTAACGGTGGCTAAAGTCGACCCTCAGCCCGTACCAGTACCGGATCCGTCACCGGTTCCAGCGCCGCAGCCAGTACCAGCCCCTGACCCAACGCCGGCACCGCAGCCAGCCGACCCGCGCACCAGCGTCACTGGGGCGGTTTATATTGCCAGCGGCACAGCGCCCCAATATCACTGGGATGCCCAGACTAATCAGTTAACACCGAAAGACGCCGCCTTTGATTTGAACCAAGGAACGGGCTGGCAGATTGCGTGGCGGCTGGTAACGTCCAACGGCGATGTGTATTACAGTGTAGCCAATGACAGCTATGTCGCGGCCAAAGATGTGGTCCGCACGCAAGGCTTTCGGAAACTGCGCGGCGTGGTGACGGTGAACGCATCTGGTGCTGCTTTGCGGCAGGGTACGACTGACTCGGACGGCGCAATCAGTCGGCAATTACCCGCTGGTTCCCAGTGGCAATTCTATGGGATTGCAAAAAATGCCGACGGTACCAGTGCGTATTTGCTAGGCGGCAATCAATGGATCAGCACGACCCAAGCAGACATCAGCAACGGCCGTACCCATGGGGTGTTTCGCGTAGGCGCCGCCGCAACGGAAACGGTTGACCGCAACGGCCAGGCGCTGGCCCGCACCTTGCCTGCTGGTTCCGGTTGGCGCGTGGCCAGCCTGCGGACTTTCCACGGTCAGTTATATTATCAAGTGGCTGCCAATGTGTTTGTGCCGGCTGTGGCCGGAGCGTATCAAGCCCAGGACTGA
>SRR1151209_00618 oligopeptide ABC transporter substrate-binding protein
ATGATGGTAAAGAACAAGTTTGTGATAGGCGCGATTGGCATATTGGCGGCAGCAGCGGTCGTTTTGGCTGGGTGCAACAGCCAAAGCAAGGGCAGCAGCGCGGCCAGTACCAGCAGTACCGCCAGCCAGCAAAAAACATTGAAGATCCTGGTATCCGCCGAGATCCCCCAGCTGGATTCAGCGAAGAGTTATGACGTGGTCAGCGACAGTCAAATTTTCAATTTCCAGGAAGGGTTGTATAAATTGGGCAAGAAAGACGCCGTCGTGCCGGCAATCGCCCAGAGCCAGCCCACTGTCAGCAAAGATGGTCTGACCTATACGATCAAGCTTAAAAAGAACGCCGCCTGGAGCAACGGTGCCCCGGTCACCGCCCAGGACTTTGTTTTCGCCTGGCGGCGGGCGGTGGATCCTAAGACCAAGTCTCAGAACGCGACCAAGCTGTTTTCCCTGGCCAATGCTGAGGAAATCAATGCCGGTAAAAAGCCGTTGACCGATTTGGGGGTCAAAGCAGTGGGGGACGATACCCTGCAAGTGAAATTAGCGATTGCCAATCCCTATTTCCTGCGGGAATTGACGGGCACCAATTATTTCCCGCAAAACGAGAAATTTGTTAACAAGGTTGGCGCCAAGTACGGCACGGCAGCCCAATACGTCCTGGCTGACGGCCCATTTATCATCAAGGATTGGAACGGCACCAGCGACAAGTGGTCTTTCGTCAAGAACCCGCATTACTATGATGCCAAACAGGTGAAGCTGACCAAGGTCGATGTATCGGTGGTCACGAATGCTGCTACCCAGGCCCAGACCTTTGATCAAAAGACGGCGGATATCACGCCGGTATCGGGTGAATTTATTGAGAAATACGCTAAAGATCCAGCATATCACCGCATTTCTTCCTATGGCACCAGCAATGTGGAAATTGATACGACTTCTGAGGGGCATCCGGAGCTGGGGAACGTCAACTTCCGGCGGGCGCTGTTCTACGCCGTGGATCGCAAGGCACTGACCGGTCAGGTACTGAAGGACGGCTCGGTGCCAGCAGTGGGCTATCTGGCCCCTGGGGCGCTGCGCAACCCGGCCAACGGCAAGGATGTCAATACGGAATTGGGCACGCTGACGTATTACAGCAAGGCCAAGGCCCGCAAGTATCTTGCGCTGGCCAAGAAGAAATTGGGCAAGGATAAATTCACACTGACCTTGAAGGGCAGTGACACCGATGCGGGCAAGCGGACAACCGAGTACCTGCAATCCGCCTTCCAAAACGCCCTGCCCGGCGTGACCGTTGATGTGCAAAATATTCCGGCCAAGTCCCTGTTTGCCTCGTTAATGTCCTATAACTTCCAACTGGACACTGGCGGTTGGGAAGCTGAGGCCGATCCGTCCGTGCTGCTGCAACAGTTCACCACCGGCTACACCCACGACCATGGCGGCTTCAGCAACAAACAGTATGACCAGCTGGTCAAAGATGCCCAGGGCAAAGACGCCGCCAATGCCCAACAACGGTATACGGATCTGAAGGATGCCCAGAAGATCTTGTTGGACCAAGCCGTCGTTGTACCGCTGTATCACTCAGCGACGAATCTGTTGATCAATACGCAGCTCAAGGGTGTGCAGACCCACGCCTTTGGCCAGACGTATGATTTCTCCCGGGCCTATTTTAAATAA
>SRR1151209_00620 hypothetical protein
TTGCCGTTGTTTGCTGATCTCAGCGACATCGGTCTATACATGGACCAAGTGATCAGCGAAACAAATCGTTACACCATGATGGTCACCGGGACGGAAGTCACCAAGTCCATGGTGAACAGCTACGTCAAGCAAGGCTTGGTTTCCCGGCCCGACAAGAAACGGTACGGCCGCACTCAGTTAGCCCAGATCATCCTGGTGACGCTGCTCAAAACACTCTATTCACTGGATGTCGTCCATCACTATCTAACCACTTTGACTGCTGAGCTGTCCTGGGAAGAAGCTTATGATTTATGGGTACGGGCATACAACGCTCAGGCTGCGGCAGAAACTGACGCGGCTGTGCCGCTCACCACACCAACGGCTCAATCCGCATCGCCGGCCGTCCGCGAACTTGTGCACTTAGCCACCAAGGCCCTAGTTGCCCAGCGGGTCAGCGATGCCCTGGTACAGGCGATGTACACCGATGCAGACACCGGGCCGGCGGAAAAATAA
>SRR1151209_00621 arabinose metabolism transcriptional repressor
ATGGAGAAAAAATACGAGATCGTTACCGCGACCATTCGGGAGTGGATCACGGGTGGACGATACCAGATCGAAGATAAACTACCAACAGAATCTGAATTAATGAGTCAATTCCAAGTAAGCCGGCACACGGTCCGCAAGTCGCTATCTGACTTGGAAGTGCAGGGCTTTATCTACCGTATTCAAGGCGGCGGGTCTTTCGTCGCGGATTACAAACACAACGCGAACCGCAGCGAGGCCCACACCAAGACGGTGGCGGTCTTGACCACCCACATCACGGACTACATTTTCCCGGCCATCATCTCGGGTATTGAAAGTCAGCTGTCGGCAAATGCTATTTCCATGCTGCTGTCCAGCACGCAAAACGACGAAACGCTAGAGCGGAAGAATCTGGAGAAATTCCTGGATGACGATATTCAAGGGGTGATCGTGGAACCGACGAAGAGTGCCTTTACGATTCAGAATGAGGCGTTCTACAAGCGGTTTACCGATGCCCATATTCCTATCCTGACCATCGATGCTAAATCGAATAACGAGACCATTCCGTATTTCATTATGGATGATTTCAAGGGCGGCGTGATGGCTGCCCAGGCATTGATCGACGCCGGTCACGAGCATATTCTCGGGGTCTTCAAGTCCGATGATCAGCAGGGCATTTTGCGGATGAACGGTTTCAGCGAAGCGTTGCAGAAGAGTCAGGGCAGTATTCGCGGCGAGGTGCTGCTGTATCAATCCGAAACCGGCGAAGCCAAGCTGAAACAGCAGATCACCCATATCTTGCAGGAGACCGATCCGCCCACCGGGATCGTCGGCTACAATGACCAGATTGCGCTGGTAGCGTACAACGCCGCCCGCGCTGCAGGCTTGCAGGTGCCCGATGACGTCTCGCTGGTCGGCTTCGATAATTCCCTGTTGGCATCGCGGTTGGGCATCCGCTTGACCAGCATCAACCATCCGAAGTCTCGGATGGGCCAGGATGCGGCCGAGTTGATGATCAAAATGCTGCAGGATCCGTTACATGATTTCAGCGAGGAGGCTAAAATCTATCCGCCAGAAATGGTCACCGGCGACTCGGTGCGGCCAGTGCTGGGGGCACATGATCAGGCATCAGGCGAATAG
>SRR1151209_00622 alpha-L-arabinofuranosidase
ATGGGAACAGTTTATATCGACGATCATCGGCCGCTGGGCCGCATTAATAAGGATATTTATGGTCAATTTTCTGAACATCTGGGCCGCTGTATTTATGGCGGCCTGTGGGTCGGGCCGGATTCGGACATCCCGAACACCAATGGGTTGCGCAATGATGTGGTCACCGCGTTGAAGGATATTCAGGTACCCGTCCTGCGCTGGCCGGGCGGCTGTTTCGCCGATGAATACCACTGGCAGGACGGCATCGGCTCGAATAGTCAGCGCAAGACGATGGTCAACAATAACTGGGGCGGGGTGACAGAAAATAATCACTTCGGCACCCACGAGTACTTCGAACTGCTCCAGCAAATCGGCGCAGCGGCGTATATCAACGGCAATGTCGGCAGCGGCACGGTGCAGGAGATGCAGGAATGGATCGAGTACATGACCATGAACGGTACCTCGCCGATGGCCGATTTGCGGGCGAAAAATGGCCACCCAGACCCTTGGCCGGTGAAATACTTCGGCGTTGGCAACGAAAGCTGGGGCTGCGGCGGCAACATGCGGCCGGAATACTATGCAGACTTGTATCGCCGCTACCAGACCTTTGTCCGGAATTATGATCCGGCGCACCCGCTGACGAAGATCGCCTGCGGCCCCAGCAACGATGATTATCACTGGACCGATGAAGTGATGAAAATCGCCGGCCACTACTTGGACGGCATCAGCCTGCATCATTACGCCCTGCCCTCAATCACCTGGAGCGGGAAGAAAGGCGCAGCGCTGAGTTTCCCGGAGCAGGAATGGGTGTCACTGATGCAGAGTGCCAATGAAATGGAAGAACTGATTACCCGGCACAGTGCCATCATGGACAAGTATGATCCGGACAAAAAGAAGAGTCTGGTCGTAGACGAGTGGGGCAGCTGGTATGACGTGGAACCGGGGACGAATCCGGGCTTCCTGTATCAGCAGAATACCATTCGCGACGCGTGTGTGGCGGCGTTGACGCTGCACATTTTCCAGCACCACGTGGACCGCGTGCATTTAGCCAATATCGCCCAGATGGTCAACGTGTTGCAGGCGATGATCCTGACGGACGGCGCCAAGATGATCAAGACGCCGACGTATTACGTCTTCAAGATGTTTTTGGATCACCAGGACGCCACGGCGTTGAATACCCAAGATGACCTGCCAGATACGGTGACCACCTCAGTATCAAAAACGGATAAAGGGTATCTGCTGTCCCTGGTGAATTACGGTTTAACCGCGGCAGAAGAGGTGCGGTACGCATTCCAGACCCACACCGTGACCGCGGCCCAGGGGGAAATCCTGCACAGCAGTACCATGGATGCCCATAATGACTTCGAGGCACCGGATGTAGTCCAGCCGGAAGCGATGACGGCGGGGCTGACCCATGATGCCCATCAGGTGACGGTAACGATCCCGCCGATGAGTGTCGTGACGGTCCATGTCCAATAG
>SRR1151209_00623 hypothetical protein
ATGTCCAATAGAGTGCCCTGCTGGACTTGCGGAGATTTGGTCCAGACCGATCCGAATCAAGTCGCGGAAACCATTGCGGACCAATTAGCCCTGGAAGTGGGTAATATTGTGCCCGCAGCGGTGCGGGATGCCCGGCTGGCCGTGTGTACGCAATGCCCCTTTTTCCAAAACGGCACCTGCACCCAGTGCGGCTGCTATGTCCGCTTTCGCGCTAGTTTAAAGAACAAACACTGTCCTCTGAATCATTGGTTTGACGATAAGTAG
>SRR1151209_00624 alpha-galactosidase
ATGGCAGAAAAAGCCTTCCGATCCTGGGCGCCCACCGCGCCTATGGGTTGGAACAGTTGGGACTGCTTCGGTGCATCTGTCACCGAAGCCGAAGTGAAAGCCAACGCCGATTATCTGGCCAACCATTTGAAACAGTCCGGCTACGAGTATGTCGTCGTGGATATCCAATGGTACGAACCCCACGCCGATTCGTCGGTCTATCATGCGTTTGCCGATTTGGCGATGGACGATCGGGGCCGCTTGGTCCCGGCTGCCAACCGCTTCCCGTCCGCGGCCAATGGTCAAGGGTTTGGTCCCTTGGCGCAATACGTGCATGACTTGGGTCTGAAATTCGGCATCCATATCATGCGCGGCATTCCCCGCCAGGCTGTGGCCCAAAACGTGACTACCGCTGGCGGCTACCATGCCCGGGACATTGCGGCCAATAATATTTGTCCCTGGAACTCGGATATGTACGGACTGGACATGACCAAACCGGGCGCTCAAGAGTACTACGATTCCTTGCTAGCGTTGTACGCCAGCTGGGGCGTGGACTTTATCAAGTGCGACGATATCGCCGAGTCGACCCTGTACGGTATGCATCGGGCTGAGATTCACGCGTTGCGTCAGGCCATTGACAAGACTGGCCGGGAGATCGTCCTGAGCCTGTCGCCTGGTCCGGCGAATATCAATTATGGGTACTTCTTGCAGGAAAATGCCAACATGTGGCGGCTGACCGATGACTTCTGGGATACGTGGCGCCAGTTGAAGGGCATGTTCCCAGTGGCCGCCAAGTGGGCGCCCATGGTCCGCCCGGGCACCTGGCCTGATCCGGATATGCTGCCGCTGGGGGCGATCCGCCAGCGCAGTGTCGACGGTGGGACCAAGCTGCCCCACACCCGCTTCACGACGGATGAGCAGAAGACCATGCTGACGCTGTGGGCACTGTTGCGAGCGCCATTCTTCTTGGGCGGCGATTTGCCCCAGACTGGCGATGAGCTGGCCTTGATCACAAATCAGGCTGTCTTGACGATGCGCCAGGAAATCACTGACGCCCATGAAGAGCAGGCGACAGATACGATCATATCGTGGCAGGCCCAAAGTGCGGCGCACCGTTACTTTGCCTTCTTCAATATCAGTGATGAAGACCAGCAGGTGAGCGCACCGACTGAGCAATGCACTGAATTGTGGCAGGGAACGCGGCTTGATCCGTCCCAGGACGTGACCGTCCCGGCCCATGGTGTGGTGTTATTGCGCGCGTAA
>SRR1151209_00625 MerR family transcriptional regulator
TTGGATAATGTGATTATGAAGCTCAAGAGCCTGAATATCTCGATGGGGATTGGTGAAACGAGCCGGATTACCGGCGCCACCACGACCCAGATTCGGTATTGGGAGAAAAAGGGGCTGATCCACCCCATCCGCCATGAAGAAGGCGGCAATAAACGTTATAGCCTGAAAACCCTGACGAAAATCATCATCATCAAGAATTTCATCGACGACGGCTATACGCTGGCCAAAGCGGGGGAAATGATCAAAACCCATTATCAGGACGTCGACACCTTCCGCACCATTGTGTCTCAGCGCCTGGTGGGCCTGAGCCATACGGATAACGTGACCCGGGTCAATTTAGGGGAAATCGACAATGACCCCGGTTTCGATTTGGTGATCGAAACGCGGGGTCAGGACGTTAAAGTGTTGAAGCGGGCGCGGCAAGATTAA
>SRR1151209_00626 major facilitator superfamily transporter
GTGCAAGTAAAAGATAACAATGGCCGCCCCGTCAACGTCGCGATGCTCGTCGTGACGTTGATCACGGGTGTGTTCATTACGGTATTAAACCAAACAATTTTGGCGACGGCCTTTCCAACTTTAATGAAGGCCTTCGATATTTCCACCGCCACCGTCCAATGGCTGACGACCGGATTTCTGATGGTGAACGGGATCATGATCCCGGTTTCTGCCTACTTAAGTGCTAAAGTACCAACAAAATGGCTGTACATTGCGGCGATGAGTATGTTCGAATTGGGCACGGTCATTGCCTTTATGGCCAACAGTTTCCCGATGCTATTGATTGGCCGGCTGGTGCAGGCCCTGGGCGTCGGCGTGACGATGCCGTTGCTGCAAAACATCATGCTGTCAATTTTCCCCATGGAAAAACGCGGTACCGCCATGGGCTTAGCTGGGATCGCCATCGGGGTGGCGCCGGCGATTGGCCCGACCTTGTCTGGATTTGTCATTGACAATTTCGGCTGGCGGACACTGTTCGGGATGATCATCCCGGTCGCGGCGCTGGTGCTCATTGCATCGTTCTTCTTTATGCGCGATGTGCTGCCGAATACGAATCCATCCATTGATGTCCTATCGCTGATCGAATCCACGATTGGGTTTGGCGCCTTGCTCTACGGTTTTTCTGAAGTGGGTAACAAGGGCTGGGGTGATCCCATCGTTCTCGGCAGCATTGCCCTGGGCGCGATCGTAATTGCGCTGTTCTCCATGCGGCAATTACACCTCAAGAACCCCTTCGTCCAGATTCGGGTCTTTACTAACCGCACCTTCACGTTATCCACGATTCTGGGGTCCATTGCCAACATGGCCATGGTGGGGGCTGAAATGGTCATTCCCTTGTACTTGCAGATCATCCATGGCAAATCTGCGTTGGAATCCGGCCTGACCCTGTTACCGGGGGCGCTGTTGATTGCTTTGATGAGCCCGGTCACTGGCGCGGTCTTTGATCGCATCGGTGCCCGCCGCTTGGCGCAACTGGGGCTGTTCCTGCTGGCCATTGCCACCGTCCCCTATGCCTTTATCACGGCGACAACACCGTCCATCTACATTACGGTACTTTACGCCGTACGAATGTTTGGAGTTTCCATGGTCATGATGCCGTTGACGACTAACGGCATGAACGCCTTGAGCGGTGAAATGATTCGCCACGGCACGGCCGTGAACAACACCGTGCGGCAGGTGGCGACCTCGATGACCACGGCGATCATGGTCTCTGTCTTGACCAACGTCACCAACAGTGCCAAACCAGCGGCGAGCCTTTTGAAGTTAGACCCGCTGGCCTACAAGCATGATTTCTTCAATGCCACCTTGTCCGGCTATCACGCGGCGTTCTGGATCGCCACCGGCTTCAGTGCCGTGGGCTTCATCCTGGCTTTCTTCTTGAATAAGAAGGAACATTCCAAGGATGTGGACGTCGCCGAGCTGGCTGATGCAGATAGAAAGGAGGCGGCAGAATGA
>SRR1151209_00627 hypothetical protein
ATGATTCTCTGGATTCTTGGGATTGGCGTTCTGGCGCTTTACTTGAGCTTCATTATGATGAAGAAAAGCGCGCTGCGCAGTATCTTCATCGCCGTCTTCGGCATTGTCATGCTGGGCGCACTGCTGCTCATTACGCTGAATGATCGTAGTCACTTTGGCATGACGCAAAAAACAACGACGACCACGCAAACGATCACGTCGGCGTCACCGAGCAAACAGCTGCCGCTTCTGCTCTATCAAAATGTCGGCACGAACGGCAAACGGCAGGTCTATATTTATAAACACGACAATAAAACGACTCACACCACAGCGGATTATGCGGTGGTGAACCGCGTGCAGCAGAGCAGTTCTGCTGCGGCTCAGGTGACAAAAAAGCGGACCGAGTGGCGATATAGTTCTAACTTTTACAGTGTGCTCTTCGGAAATGAAAATGACGGTCTATTCGTTAAACAGACAAACACGTTCACCATTCCGAAGACTTGGACGACGTTGACCACGGCCCAGGCCAAAGCTTTGGCCAAGCGGCTGAAAGGCTTGCAAAAGCCTACCGCGGCACAAAAGGCCCAGATGCAGCAGGCCATTGCCGCCCAGGTCGCCGCGGCCCGGGCGAAGAACCCGACGATGACGGCAGCCCAGCAGGCGCAATTGGTTGAACAATTGACTGCAAAGATGCAGCAGCAGGCGGTTCAAGACGCTATTGCGGCGGTAAAAAAATAA
>SRR1151209_00628 hypothetical protein
ATGCGTATCGGTTGGCGGGTTATTTGGCACAAGCACCACTGGAGCATCGTGATATTCATGCTGGCAACCCTGGCGCTCACTGGTTTCTCTGTGGCGGCCTTGTATAGCGCCGCGGCTGAGCAAGGCCAAACACTGCGAGAGTACGTCCGTCAGATCACTTTCGGTCAAACGAGTCCGTTTGCCAATGTATTGTGGTTGCTCATTCTCACGGCGGTAATTGCCAGCAGCCAAATTCATCAAGACTTGCAGCAAGCTGGCGTGAGCGATCAAGATCGTTGGCGTTTAATGGGGCAATTGGCCTTAGGCGGTGCCTTGTGGTCAGCCACTTTGGACATCGTCGAAACAACATTAATGTATCGCTTCTATACCGACACGGTTACTGCCGCGTGGCCATTGCCCTTGCTAGGGGCAGCTTATTGGCTGATTCATTTGGGCTTCTATTGGGCCGCATCCTTATTGACTTTGTGGATCGTCCAGTGGCCCCACGCAGTACGACACCGGTTGTATTATGTCTTTTTGGGTTTCTTAACAATCCAATTAATTGGCACCTCATTCCGTACAAACGCACTCGTCATTACTCTTTCGCATGCCTATACAAGTGTTGAACGCTTCTTGAATCGCACACCAGTGCTAGTTCTGCTGATCATGTTGGGTGTGAGCAGTCTCCTGGCTTGGTGGGTCCAGGACCACCCATTACCGGCTAGCCCCGTTGAACCCAGGCCACACCGGTCATCTAGTCATTAA
>SRR1151209_00629 hypothetical protein
ATGGCACGCGGTTGGGCAGTTATTTGGCACAAGCACCACCGGGGGCTGTTTGTGTTTTTGGTTGGGACACTCTTACTGACAATGATTCAGATTGCGTCAATGTACAGTTGGGCCGGCAAGGAATCTCTGCCGGAATTTGTTAAACATATCAGCAGCAGCGGTACGAGTCCGTTCAGTGCAGTGTGGTGGCTGATTTTGTTGATTGTGTTCATGGGCGGCGATGCCAGTGCACTGCAAAAAGAGCTCAGTGCAATCGGTCTAACTGATCAGCAGCGCTGGCGCTTGATGAGCGTGTTTGCGGCTGCGTTGGCCGTTTGGTCTGCCACATTGGCGATTGCCGACCGGACCCTCACCTATTTGTATTATACCGATACCGTCACTGCTCCTTGGCCTTTGCCGCTGTTGGGCGTGACCGCTTGGCTGATTCACTTCGGCTATTACTGGCTGGCCGCACTGCTCTGCCTACGGGCAGTACAATGGCCTGAACGCTGGATACAGTATTTAGCCTACTGCCTGATCGGTTGGATCACGGTGCTTTTACTGATCAGTTTCTTCCCAGCAACGAATATGATTCGTTATCAGGTCACCACTTTTTTGAATCGAACCCCCATCCTAGTCCTAATCGTTGAATTCAGCGCAATCGCTGTTCTTTCTTGGCGGATTCAAGCGCATCCCTTACCGGTCAAGCAAGATCGGCTATTCCATAAAGTATCAAAACCAATGTGA
>SRR1151209_00630 phage infection protein
ATGCGGAACGTGGGTAAGCTTTTCGTACTGGATTGGAAGCGGATCGGCAAAACGCCGCTCGCCGCGCTGCTGATTGCCGCGCTGGTGGTGATTCCCAGTCTCTATTGCTGGATGAACGTGTGGGCGTTGTGGGATCCCTACAGCAATACCCAGGATTTGACCGTGGCGGTGTACTCCGCCGATCAGCCCGCGACCTTTCAGGGGAAAAAGGTCGCCATTGGCGATGAATTATTGAGCCAGCTGAAGAAAAACAAGAAACTGGGCTGGCGTTTCGTTAAGTCCAAACGGGCGGTCCAAGACGGGGTACGCAGCGGCGAATATTACGCCGGGGTGGTCGTGCCCAAGACCTTTTCAGCGGACTTGCTGACGTTTGTGCAGGGCAAGATCCATAAACCGCAGTTGGAATATTACGTCAACGAAAAGATCAATGCGATTGCCCCCAAGATTACCGGCACGGGGGCGGCGACTTTGCAGAGTACGATTTCTGACCAGTTTGTCACCACTGTGGCGGAAGCGGTAGGCACAGGCTTCAATAAGGCCGGCATCACACTGGGGGACAATTTGCCCCTGATTCGCCGGTTCAGCAGTTTGGTGACCACGACCAATGATCAATTGCCGACGATTGAAAAATATTTGACCGAGGTCGGTGCGCTGCAAAATAAGATGCCTGAGATTCGCCAGAAGCTGCAAGCCGCCAATGATATGGCCGGTTATTTACCGGAGATCAACCAAATGGCACAAAAGCTCACGGCAGCCAATGGTTACTTGCCCCTGGTGGCCGATGCGGGCAGTTTAGCCACGCAGGTCCAGGGCAAATTACCTGAGGTCCAGCAAGCCGGCGATCAGCTGAATACGGTGGTGACCCACTTCAGTGATCTATCGGCAGCGGTGAAAAAGGCCGCCACTGTTACCAGCAATGGTCTGACGGTCATCAATCAAGTTGATGGCACCTTGCCCGCCCTGAATGAGTTTGGCAAGAATGCTCAAGCAGCCATTGCGACAACCAAAGATGAGGTGCTGCCGAAAGTGACGACCGCCTTGGGTATTGTGCAAAATGCTGCCGATTCGGGGCTGACTTTGATTGCGGCTGCCAATACCGCGCTGAGCGCTGATTTAACGACGCTGCAAAATCAACTGCAAAGTCTGGATAGCAGCAGCGATACGGCTGCGGTGAAACAGGCGATGGCGGTTCAGTTGACGGCATTAGCGGAGCGGCAGGAAAAGACCGCCGCGAATGCGACCAGTTTGGCCGATACTCTAACCCGGTTGGAAACCAGTTATAACCAGTTGACGGGCCGAGAGGAGCACCCCTTGGCGGCGGCCATTACCCAACTCAGAACAGTGGCCGCTCTGGCGACCAAGATTCAGCATGATGCCGCTGATTTGAGTGCCGCCCTGCCGAGTATGGACACGGCGGCGATTCAACAGCGGTTGGCTGCGCTGACTGGAACGGCGAGCCAGTTTGCCCAGGCTGCCCAAGACTTGCAGGCCAGCGATCTGAGCAGCAGCGTACAAAAACTGATCACAGCCTTCAGCAACCAATTGGCCGCCGCCGGGACGACGCTGACGACGATCAATAATCAGGTTCTGCCGGCCATGCCGGCACTGCTGCAAGGAACAAAATCGCTGCTTACCCAGGCCAATGAATTTTTGACAAAAATGCAAACCCAGCTGCCGGCCCTGCAAAAAGAATTGACGGATGCCAATTCTTTGCTGAATGGGCACATGCAGCTGATCAAGAGCGGCATCACGACGGCCGCCGATTTGTACCGCAATGACTTCCCGGCGCTGAAGACCAAGCTGATGCGTGCCACTGATTTCATCAATAATGATTTGCCGGGTGTGGAAAATGAATTGACCAATACGCTGACCCTGGCCAATACCAAAATGCCGGTCCTGCAAAGCGGCTTGAATGACGCCCAAACACTGATCACCAATGACTGGCCGACGCTGAAGGAAGCCATTCAAAAGGGCGCGGCCGCTATTCAAAAGGGAGAGAAATCCGTTGATCTCAGTCAGCTGCTGAAGCTGCTCAGCCGTGATGCCGCCAAGGAAGCCAATTTCTTGGCCACGCCGGTGACTTTGACCCAGCATACGATGTACCCCATTCCCACCTACGGCTCACAAAGCGCGCCATTCTATCTGGCCCTGTGTATTTGGGTCGGGGCTTTGCTGCTGGGCGCACTGCTCAAGATGGAATACAATCTGCCCCCGGAACTGGCCGGCGTTACCGTGAAACAGCAATACCTCGCCCGCTGGCTGACGTTCGCCGGGTTGGGCATGCTCCAAGGACTGATCGCGGCGCTGGGCAATCTGTTTTTGATCCATACTTACGTGGTGAATAAACCCTTGTACCTGGTGTTTGCGATGTTTCTCGCGCTGGTCTTCGACTCGATCCTGTACATGCTGGTCTCCCTATTCGGCAATATCGGCAAGGGGATCGGGATCATCATTCTGGTCCTGTCCATCTCCGGTGCCGGCGGGAACTTCCCGGTCGTGCTCTCCAGCCATTTCTTCCAAGCAATCAACCCGTGGCTGCCGTTTACCTATGCCGTGAATCTGTTGCGGGAAACGGTCGGCGGGATTTACTGGTCTCACCTGTGGCTGGACGTGGCCGCCTTGACCGCGTTCGGGTTGGTGTTCTTCAGTCTGGGCATTTTGCTGAAGGAGCCGATCCGTCCATGGATCGTGAAGATGAATAAAATGGTGCACAAGTCGCAAATTATTGAGTAA
>SRR1151209_00631 major facilitator superfamily transporter
ATGACGTCATTTAAAGTACGCAGTTTTGTCTTGATCCTGCTGGCGTTCGTCCTGGGGTGCAGCGAGTTCATCATCGTGGGTGTGTTGGACGACATCAGTACGGAGCTGCATGTCGGGGTCTCGACGGTGGGTTATCTGGTGACGATTTTCGCGCTAGTTTATGCGGTCAGCACGCCGTTTGTCACGTCGGCGGTGGGTCAGCATACCCTGTATCGGTTTATGCTGTTTTTGATGGGGATCTTCATCATCGGCAACGTGCTCAGTGCGGTGGCGTTCACGTACCCCGTGTTGGTCGTGTCCCGAATCATCACCGCCATCGTGTCTGGGCCGCTGATTTCCATCGCATTGACGTTTGCTAATTACATTGCGCCAATAAGTAAGAAAGCCTGGCTGATTTCCTGGGTCTTCTCTGGATTCAGTATTGCCTCGGTCTTCGGCGTGCCGCTGGGTACCTGGATCGCAACGGCGGCCGGGTGGCGGATGTCCTTTGCGGCAATTGTTGTCGTCAGCGTGCTCACGATGGCGCTGATTGCTTTCTCCCTGCCGCGGGATCTGCGCCAGCGGCGGCGGACGCAAGCAGCCGGGCAGGGGCAAAGTGCCGATGGCGTCATGGCCCTCTTCAAGGATCGGCGGATCCAAATTGGTATGCTGATGCCGATGGTCAGCATTGCCGGGGTCTATGTGGTATACACTTATCTGCGGCCGCTGCTGTCCCGCAACCTGGGCTTCACAACTAATGTCGTCACGATCCTGCTGTTCATCTTTGGGGTGATGTCCCTGATCAGCAACCAGCTCAGCGGCCGGCTGGCTGACAATGACGGCCTGCTGAAGATGCCAAAGATTTTCGGCGCCGAATTGGTGTTGATGCTGCTGATGCCGCTGGCGTTGACGAACCGGGTGACCGGTTTGATCGCGCTGATGCTCATGGGCGTCGTGATGTATCTGATCAATTCACCGATTCAGATGCATTTTCTGGGCGTGGCCGAACGGGATTATCCCCAAGCCATTGTCATGGCGTCGTCTCTGAATTCCATCTTTGCCAACTTCGGCATTGCCCTGGGCAGTGCCACGGGTGGGTTGATCGTGGACCATTTGAGCATGCGGGTCACTGGGTTTGGCGGGGCGGTGTATATCTTGGCCGCACTGCTGCTGGTAATTTGGTTGAATCGGGTGAATAAGCAAGCGGCGGAGGCGGTGCCAGTAAAGCAGGTGCCGACTGGGGCAGCCGCTAAAGTGCAGAAGGGTTAG
>SRR1151209_00632 hypothetical protein
ATGAGTTTCAATCTGGATCCCGATGAACTCGCTCATTTGATTGATTTATTGCCACCAAAAGACCTTTCCCGGATACGAAAGAATCTGCGTAAAGCCTTGGTACACGACCAAATCGACGACCACTTGCAACAAGTCCTAAATTATCATGACGACGATTCAGCACCGGCAAAACCGAAATCCTAA
>SRR1151209_00633 hypothetical protein
GTGAGTTATAAATTACCCGATTCCGCCACATTTCAGAAATGGCTAGATGGGCTAAGCGACGAAGAACGCGAGCAAATCCGACAAGAATTACGTCATGATTTGGCGGTTGCTAAAAAATTCGACGAGAATCAGAAGAAATGGTACGGCACTTCAAAAAGCCCAGATACCGACTCTGCACCAAATAAGAAGTCCGCGCGGCCTTAG
>SRR1151209_00634 hypothetical protein
TTGACGGGTGATAACATGCATGCACTTTCAATCAAACAGCCCTATGCTTGGCAGATTCTAACCGGCGATAAACCATACGAATATCGAACGTGGTTGCCGGGCACAGTGCAGCAGTTTCTATTGGTCAGTTCCAGTCAGCCATCAGCGATGGACTTCGGCTGGGGCTTGGCCAATGGCTATGCGCTAGCGGTGGTGGATATCACCGGCACACCGCAATTGGAAGACGATGGCAGCTATGCTTGGCCGGTCAAAGTGCATGCGGCGGTGACTCCTTTTCCGGTGAAAGGCAAACTGCATTTTTACGAGGTCGCAGACGCTCAAATCCACCAGCACCCGGAATGGGCAGCAGATCTCTGGCAGTATCAGCGCGGCGCATCAGTCAGCGAGAACTCGGCGTTCTATCGCGACTACTTGGCCCCGCTGGCGGCTATTGGGTTCAGCCAGATGCCGCTGAAGTACCAGAAAATCTACAATACGACCCGGAGTTGGGAAAAAGTCGGGGCGGTGTGGGCGCAAGCCAAACGGCAATAG
>SRR1151209_00635 hypothetical protein
ATGAGTCGAAGTTACAAACATTTTCCCTGTGTGAAAGATTTTAACCGTGGAATGAAGGCCGCCACGAATCGGCGGCTGCGGCGCGAGCTGAAGTGCGGCGTGTTCGATGAGGTCATGGCCGGCAAGAGCAATGCCTATCGGCGGCTGTTTGAGAGTTGGGATATTTCCGACTATGCGTTTCGGAGCAGTGCGCAAGAGGCACTGCAACAGACCCGTGATGTGTATCGGTGGACTACTGTTTACAGTACTACCGTAGTGGATATTAAGGATCGAACAACTTGGATTGAAAGTGAGAAACAGCTTTGGATGCCAGTGATCGTACCTGTGAGTTTTCGGGAAACGGACCAGGTGCCGGCCAATTGGCATCCCCGACACCCCAGTGCACGGGCTTGGCGGTTGAATCAGAATGTTTGGCAATATGTGCGGGACTATTTACGCAAATAG
>SRR1151209_00636 membrane protein
ATGACGGTTACTTATCACGTTGCCAAAACTGGCGCAGGTACCAATCCCGGCAGTGCCGCCGCCCCATTTCTCACCATTCAGCAAGCAGCAGACATCGCGGTGGCTGGCGATACCGTGCTGGTCCATGCCGGTACTTACCGCGAGTGGGTCAAGCCGCGGCACAGCGGTCTGAATCAAAACGAGCGCATCACATACGCCGCCGCCCCAGACGAACACGTCACGATCAAAGGCTCAGAAGTGGTTAGAGGCTGGCAAAAACAAGCCGGCGCAGTCTGGGCCGTGACGGTACCTAATACGTTTTTTGGGGACTATAATCCCTTTGCTCACGCCGTTGACGGCGATTGGCTGGTGTACCCAGAGGACTGGTCGGCCCACGAGGGAGACGTCTACCTGAACGGCCATTCGCTATTTGAGGCGCATTCTTTAGACGAAGTGGCGCATCCGCAACGCCGAGAAAAGAACCCGTTCCATCTTTATTGGGGTTTGGACGAGAAAATTCTAGATGCGGATGGCACCGTGTTTGTTTGGTATGCTCAAGTTGATAATGAGACGACGACGATTTACGCCAACTTTGGCCCGGCTGATCCCAATCAAGAAATTGTGGAGATCAATGTCCGCCGGTCCTGCTTCACGCCGGAGGCGATTGGCCGCAATTACATCACGGTCCGCGGTTTTGAGATTTGTCAGGCAGCAACGCCCTGGGCACCGCCGACAGCTGACCAATTGGGGATCATCGGGCCCCACTGGAACAAGGGCTGGATCATTGAAGATAATGACATCCATGATAGCAAGTGTTCCGGTATCAGTCTGGGCAAAGAAGCCAGTACCGGCGACAACGACTTCACCAAAACCCGGCGCAAACCGGGCTATCAGTACCAGATGGAAGCCGTCTTCAAAGGCTTAGCGGCCGGGTGGGATAAGGCCCGCGTGGGGTCCCACATCGTGCGCCATAACCACATCCATGATTGCGGCCAGACTGGCATTGTCGGCCACATGGGCTGTGCCTTCTCGGATATTTACGGCAACGACATTGCCCGCATCGCGATGAAGCGGGAATTCTGGGGCCATGAGATCGGCGGCATCAAGTTCCATGCTGCCTTGGATGTTCAGATCCACGACAATCATATCCATGAGTGTACGCTGGGCACTTGGCTAGACTGGCAGACCCAGGGCACGCGGGTGGCGCGCAACGTATACGACCACAACGACCGGGACCTCATGGTGGAAGTCAGCCATGGGCCTTACCTGGTCGACAACAATATCTTTGCGTCGGGGTACAACTTCGACAACATGTCCGAGGGTGGGGCCTACGTCAACAATCTCTGCTGCGGCGCAATTGGTCTCAACAAAGTGCTGGACCGGGCGACCCCGTATCATTTTGCCCACACCACTGAAGTGTTAGGCACCCAGCCGATTTATGGCGGGGACGACCGCTGGTATCAGAATGTTTTCGCGGGCAGAAATGACGACCGGTTATACGGCACCGCTGGCTATAACGGCCACCCCACGTCTCTGGCAGCATTTATTCAGGCGTACGAGGCGAAAGGCGGCGACGTTGAGACCTATGCGCAACTGGCGCAGCCAGTCTACATTGATGCCAATGTGTATCTGCATGGGGCTAAGGGCTACGATGAAGAGCAGCACAGCGTGAGCGATGCGGTTGATCCCCAGATCAAAATCAGCGAGGAAGCAGACGGCTTGTATCTGACCATCACGCTGCCGGCCAATTTCACCCAGGTGCCCACCCAGCAACTGGATACTGCCGCACTGGGCGTGCCCCGAGTTGTGGAGGAACCGTTTGAGCATCCAGACGGCACACCGCTGACAATTGACCGTGATCTGACCGGTGCGGCGCTGTCCGGCAAGCCGATTCCGGGTCCTATCCAGGCTTTGCAAGCGGGTCCTAACCATATCAAGGTCATGGCCAGAAACTAG
>SRR1151209_00637 L-arabinose isomerase
ATGTTGTTAACAGTACCCAATTACAAATTCTGGTTCATCGTCGGGAGCCAAGCCCTGTATGGTGAAGACGACTTGAAGTCTGTCCGTAAGGATACCGAGGTCATCATCGAGGCCTTGAACGATAGCGGCAAGCTGCCTTATCCGATTGAATTCAAGGAAGTCGCCATTGACGCCGAGACCATCACTTCTGCGATGAAGGAAGCCAACTACCGCGACGACGTGGCCGGGGTCATCACTTGGATGCACACATTCTCACCGGCCAAGAACTGGATCCGAGGCACGAAGTTATTGCAAAAGCCGCTGCTGCACCTGGCGACGCAATTCCGGGAAGATATTCCTTGGGATACCATCGATATGGACTATATGAACTTGAACCAGTCCGCCCATGGCGACCGGGAATACGGCTTTATCAATGCCCGCCTGCGCAAGCATAACAAGGTCGTTTACGGCTACTGGAAGAACCCGGAAGTCCAACAAGAGATTGCGGACTGGATGGACGTTGCCGTTGGTTACAACGAAAGTTTCAAGATCAAGATTGCCCGCTTTGGCGATAACATGCGGAACGTCGCCGTGACTGAAGGCGACAAGGTTGAAGCCCAGATCCAATTTGGCTGGACCGTTGACTACTGGCCAGTTGGCGACTTGGTTGAAGAAATCAACAAGGTTTCTGAAGCCGACATTGATAAAGAATACGCTGACTTGGAGAAGAAGTACGATTTGGTGCCGAGTGCCGGCGACAATGATCCGGAATTCTTCAAGGATCATGTCCGTTATCAATTGAAAGAAAAGATTGGAATCGAACGCTTCTTGGATGCCCGCGGCTGCACGGGGTTCACCACGAACTTCGAGGATCTGCACGGCTTGAAGCAATTACCGGGGTTGGCTGTGCAATTGCTTCAAATTGAAGGCTATGGGTTTGGTGCTGAAGGGGATTGGAAGTCTGCGGCATTCGGCCGGTTGTTGAAGATCATTGCCCACAACAAGCAGACTGCCTTCATGGAAGATTACACCTTGGATCTGCGCCCGGGCCACAATGTTATCTTGGGCTCGCACATGCTGGAAGTTGACCCGACTTTGGCCAGCACCAAGCCGCGGGTTGAAGTACATCCTTTGGGTATTGGCGACAAGGAAGACCCGGCCCGCTTAGTATTCGACGGTTCTGAAGGCGACGCGGTGGACGTGACCATTTCTGACTTCGGTGACGAATATCGGATGATCATGTACGCGGTTGACGCCAAGAAACCGAACGTTCCGGCACCCCATCTGCCGGTTGCCCGTCAGCTCTGGGTACCGAAGGCCGGTCTTAAGGAAGGCGCGACCCAATGGATCCAAGACGGCGGCGGTCACCACACGATCCTGACCTTAGCCTTGAGCACCACGCAATTGGCTGACCTGGCCACGATGTTTGGTTTGAAGTATTCTGATATTAAGTAG
>SRR1151209_00638 L-ribulokinase
ATGAGTAGTGAAACGATCAAGCAAGAGATTCAGGCCGGGCAGACAGTCTTAGGCATTGAGCTGGGCTCGACCCGGATCAAGGCGGTCCTGATCGACTCCCACTTTGAGACGATCGCCGCGGGCAGCTTCACCTGGGAGAATAAGTTCGTGGACGGGATCTGGACCTATCCGTTGAAGGAAGTTTGGCAGGGGCTGCAATCCGCTTATACCGAATTGACCAACAAGATTCGCGCTGAGTACGGTGTTTCCGTCACCCAGATCGGGGCCATCGGGGTCAGCGCCATGATGCACGGCTATCTGGCTTTCGACAAAAACGGCCAGCAACTGGTACCGTTCCGCACCTGGCGCAACAACATTACCGGCGAAGCGGCGGATCAGCTGACAAAGCTGTTCAACTTCAACATTCCCGAGCGCTGGAGCATTGCCCACCTGTATCAGGCCATTTTGAACCAAGAAAAGCACGTGGATCAATTGGACTTCATGACCACGCTGGCTGGTTACGTCACCTGGCAATTATCTGGAGAAAAAGTCATCGGCATCGGCGACGCCTCTGGCATGTTCCCAATCGACGAACAGACCCATGATTACAACGCCAAGATGATCACCCAATTTGAAAGCTATACCGGCGTGCTAGGCCATAATATCAAGATTCGTCACCTGTTCCCGAAGGTCCTGCTGGCCGGTGACCGGGCGGGGATGCTGACGGCTGCCGGTGCTAAGCTGCTGGATGCCACCGGTACCTTGCAAGAGGGGGCGTTGATGGTGCCGCCGGAAGGCGATGCCGGAACCGGCATGACGGCGACTAACGCCGTGCGCAAGCGGACCGGGAATATTTCTGCCGGGACGTCCGCTTTTGCCATGGTCGTATTGGACAAACCATTGAGCCAAGTGCACCGGGATATTGACATCGTCACGACACCGGATGGTGCGCCGGTGGCGATGGTGCATACCAACAACTGTACATCGGACATCAATGCCTGGATGGGGCTTTTCGCTGAGTTTGCTAAAGCGACTGGCCAGCATTTGAGCGCCGATGAGCTGTACAAGACCCTCTTTAACGAATCTACTAAGGGTGATCCGGACTGCGGCGGCGTGTTGAACTTCAGCAACGTCTCGGGTGAAAATATCACCAATATCCAAGAGGGCCGGCCGCTGTTCGTGCGCACGCCGAACTCCAACTTCACCCTGGCCAACTTCATTAAAGCCCAACTGTATTCGGCTTTTGCCCCGCTGAAGATTGGGATGGATATCCTGACGAAGAAGGAACACATCCACACGGACGCGATGATCGCCCAGGGCGGCATCTTCCGGACCCCGAAGATTGCCCAGCAAGTCTTGGCCGATGCGTTGGACATTCCGATTACCCTGATGGCGAATGCCGGCGAAGGCGGCCCGTGGGGCATGGCGGTGCTGGCCCTTTATGGCCTAAACAACGCCGACCACGAGTCGTTGGCTGATTACTTGGATCACCAGGTCTTCGCTCAGCCGGAGAGCACGACGCTGGATCCGGTGGCGGCTAATGTGCAAGGCTTCGACGACTATATTGCCGTCTACCAGAAGGCGCTGCCGGTGGCGGTGGCCGCGGGGGACGACATCCAGGATTACCAGCCGAGCAAGCAGGTGACAGAATGA
>SRR1151209_00639 hypothetical protein
ATGACCGACACCGACGGCGGTTACTTGTTCGTTCATTTCACCGGTACGGAACACCACGCCAGTGATGAACAAATCTATTTTGCGCTAAGTCCCGACGGCTTGCACTGGCATGATTTGCACCAGCAGCAGCCCGTCCTGACCTCTGACGTCGGTGAGATCAGTTGA
>SRR1151209_00640 Na+/xyloside symporter related transporter
ATGTGGCAAGGCTTGTCGTATTTTATTTTTGCCCTCAGCTATGTTGTCACTAATTCACTGTTCGCCTATTATTTCCAATACGTTTTAGACCGCACCGATAAATTCTATATGGTAGGCATTATCACCACCGTCTTGGGCATTATCTCTGTCGTTCTCTTCCCCAGCATTGAATTGGCCGTCAAGCGGCGGGCAATTTATGTTGGCGGGATCTGCTTAATGCTGATCGGCTACGTGACCTTCCTACTAGCAGGAAGCAATCTGTTCCTGGTGTATATCGCGGTGGGTGTTTTCTTCTTCCCGTATCCGATGATTTTCTTGGCCGCATTAATGACGATCACGGACAGTGTGGAGTATGGCCAATGGAAAAATGGAACGCGCAATGAATCCGTGACACTGTCCGTCCGGCCGCTGATCGATAAGCTGGCCGGGGCACTGGCCAACGGGATGGTGATCCTGGCGGCCGTCAATTCCGGGATGGTCGGGAAGGCCAAACCCAGCAATATTCACCCGGACCAGCTGCTGAAGTTCAAAGGGTTCATGTTCTTTGCCCCGATGATCCTGTTGGTGCTGGCGGCGTTCATTTACTTAGCGAAGGTCAAGCTGACGGAGAAGAAGCACCAGGAAATCGTCAATGAGTTGCAAGCGAAGCTGAGTGCGGAGCAAAATAACTAG
>SRR1151209_00641 NADP oxidoreductase
ATGACGATTAAACGCGTGGGTATTTTAGGCGCCGGAAAAGTCGGCATCGTTCTCGCCGGACTCGCCTTGGATGCAGGCTATGAAGTGCGCATTTCCGGCTCCGGGGCGGTCGAAAAGATCGCCCTAACCATCAAGACCTTGGTTCCTGGCGCCATTGCTTCGGAGAACGCCGACGTCGTCGCCAACAGCGACATCATTATTCTCGCGATTCCCCTCAGCCGGTACAAGAACATCGATCCTAACTTACTCAAGGGCAAGCTGGTTATTGATGCCATGAACTACTGGTGGGAAACTGACGGCATTCGCGAAGAAGTCCTGGATCCATCAGCCACGTCCAGCGAACAGGTCCAGGCCTACTTCAAGAGCGCGACGATCGTCAAAACGTTCAACCACATGGGCTACCACAACTTGCAGGAAGAAGCTCGGCTCAAGGGCGACCCGAAACGCAAGGCCCTGTTCGTCACTGGTGATGACCGCGAGGCCGTCGATACCGTGGCCGCTTTCGTGGACAGCATGGGGTTTGACACCGTCGTCCATTACACGATCGCCGACGGCATCATGACCGAACCCGGCAGTCCCCTCTTCGGCGCCAGCCTGCGCCATGACGAATTGAAAGACATCATTGATCATTTCGATCAGACTGAATTTGGTAAGAAAATCGCAGCGCAGACCCATTAA
>SRR1151209_00642 luciferase-like monooxygenase
ATGGTAGATATCGATCACTTAGAATTCGGGTTGGAAACGTTCGGGGACATTGTCGCCAATGAAGATGGCAGTTTACAGACGGCCGCGCAGTCCATTCGGCAAATCGTCCGGGAAGGCCAGCTGGCCGATGAGCTCGGTTTGAGCGTCATGGGCGTCGGCGAACATCACCGGCCGGATTATAGCGTGTCCAGTCCGGAAACCGTCCTGGCCTCGATCGCGGCGGTAACCAAGAACATCAAGCTGGCGACAGCCGTGACGGTGCTCAGTTCCGACGATCCAGTGCGCGTTTATGAACGGTTCGCCACCCTGGATGCCTTATCCAACGGCCGCGCCCAGGTCATGCTGGGCCGCGGTTCGTTCACCGAATCCTTCCCATTGTTCGGCTACGATCTGACCGATTACGATGATCTGTTCAACGAAAAGCTAGGCTTGTACGACCTGTTGCGGAACGAAAAGCCGGTTACCTGGTCGGGCAAATTCCGTGCCTCACTGAAGGATCAAGATGTCTACCCGAAGACCGAACACGGCAAGCTGGAAACCTATATCGGTATTGGCGGTTCGCCGGAGTCGATCATCCGCGCCGTAAAAGTCGGTTACAAAGTGATCATTGCCATCATTGGTGGCCAGGCCAGCCGCTTCAAGCCGTATATTGATCTATATCATGCCGCGGCGCAGCAGCTGGGCAAGCCGGAGTTTCCGATCGCCGTCCACTCCCACGGGTTTATTGCAGATGATGAGGATGACGCCTTAGAAGTGGCCTACAAGAACATCAAGGCCAACTTCGACCGGATCGGCCTGACCCGCGGCTGGGCACCAATGAGCCGGGAACAATTCGACGGCGAAACCAAGGTCGGCTCATTCTACGTGGGCACCCCAGAAATCGTCGCGCAGCGCATGGCTCGGACGATTGACCAACTCGGCCTGGGCCGCTTCGATATCGTCTACGGTGCCGGCAACCAAACCGCCGCCCAGCGTGAACGAATGATTGAACTGTACGGCACAAAAGTCGTCCCCCGGGTGAAGGAAATCTTAGCAGAAACGGCGGCGGTGAAATAA
>SRR1151209_00643 hypothetical protein
ATGGTGTTACAAAAAGTGCGACGCGCTGGTGTGGCAAAAGTTGACGATGAATTTTCTCTCGGTGTATACTTGATGTATACAGAGGGAGATGAGCAGATGACGGTAAAAATTCGCAAGGTCGGCAATTCCAATACGCTCACCGTGCCAAACACGATTCAGCCGCAAGCAACGGAATATGATGTCTATCAAGGCCGGGATGGCGTGATTGTTTTTGTACCTAAACATCAGAATCCTTTCCGCGATGAGGAATACATCAACACCCATGATTTGACGCAAACCGAAGAAATCGGAGGAACGCTCATTGGCCGCGAAATTCCAGAAGACTGA
>SRR1151209_00644 PemK family growth inhibitor
TTGGCCGCGAAATTCCAGAAGACTGACGCCTACATTCCAGATCAGCAAGACATCATTTGGCTCGATTTTGATCCGGCGGTGGGGCATGAGATTCGAGATCGGCGGCCCGCGGTGGTGCTGAGTAATAAAGGGTACAGCCAGCTGACCAACCTGGTGGTCGTGGCGCCGATTACGCATGCCAAGAAAAACAAATTGCGCAAGAACGGATTTTTTGTCCCGGTCAATACAGAAGACATTGACGGGTACGTTAATCCATTGCAGTTTTTCACTTACGATTACCAAAAACGCCGGGCAGAATATGCTGGCTTTTTGCAAACAGCGGATTATGTCACCGTTAAACAGACTGTGTTAGACATCTTGGATTAG
>SRR1151209_00645 2,5-diketo-D-gluconic acid reductase
ATGTCTGAAATTCCTACGATTACTTTGCGTGACGGTTTACAATTGCCAGCGATCGGCTTCGGCACCGCCGGTATGCGCGGTGCGCAAGGCGTCCAGGCCATCGATAGTGCGATTAACCAAGGCTACCGGCTGATCGATACCGCCTACAATTACGAGAACGAGGGCACGGTGGGCGCAGCGGTCCGCCGGAGTCCGGTGCCCCGGTCGGATTTGTTCATTTCTTCTAAGCTTCCCGGTCGTTATCACGAATACGGCAAGGCCGTCACGGCCATTCAAGAATCGCTGTACCGAGCGGGCTTAGACTATTTCGATCTGTACCTGATCCACTGGCCGAATCCGGAGCGGGATCAGTACGTGGATGCCTGGCGGGCGTTGATCGATGCCCAGAAGTTCGGCTTGATCCGGTCAATCGGTGTCAGCAATTTTGTCCCGGAATACTTAGATCGGTTGGAGAAAGAAACCGGTGTGTTGCCGGCGGTGAACCAAATCGAGCTGCACCCGCACCATAGCCAGCCGGAGCAGCGGGACTATGATCGCGCCCACGGTATTGTGACTGAAGCCTGGAGTCCGCTGGGCGGGAAGGGCCCGAAGACGCAGCGGATTCAAGAAACCTCGGTGCTCCAGGATTTGGCAGAGAAATACCACAAGTCCGCTGCCCAGATTATGCTGCGCTGGGAGCACCAGCTGGGCGTACTGCCTTTGCCGTTGTCCCACAATCCCGGACGGCAGGCACAAAACTTGAATATTTTTGATTTCAGTCTGACTCCTGATGAGGTGCAGGCTGTCACTGAACTTGATGGGGAACGGCAGGTCACTGGTTACGGTGATCCGCGGACCCACGAAGAATTGTAA
>SRR1151209_00646 transcriptional regulator
ATGGCCCAGCCGTTGAGTCGACTCACAAACCAGTACAGTACGTTCACGTTTGCCACAGCCAAACGTTTTGGTGTAACCCAGGCGATGCTGCAAAAGGCAGAACGACATGGCGGCTTACGCCGCACTGAACGGGGCGTGTTTGTCGTCACTGGGTTCCAGAGTGATGCCCTCACCTTACTGAGCCAGCGGTTCAGCTTGGGGGTGTTATCGGGTACAACTGCGCGACAGTTTTACGACTTGTCAGATGAACTGCCGGCGTATTACGAAATGACCTTTCCCCGGGGCTATCACAATCCCAGTCTGGCCCGACATCATGTGCGTCCGCGTTATCAGATCTCGCAGCGGTACCAGCTAGGAATTGAAGATGCGCCCACACTGACGGGTAATCCGGTGCGGGTGTACTCAATTGAACGAACGGTGTTGGAGACATGGGAAGATAAAAACGTTGACGTGGAAGTGCGCCAACAAACAGTACAAGAGTTTATCCGCCGGTACCGGCAGGATTACCACCGACTGGCGGAAGTTGTCCGGCTTGCAACGGTCCTCTATCCCAATACTGGCTTAATTGCCACCCTGGAGGTACTTACCGGGTGGCAAAAAAGTTGA
>SRR1151209_00647 hypothetical protein
GTGACTATCGGCGACAAAACGACTTATGGCAGTCAGCCGACATTTATTCTGCCGGTGGGCGACCAGCTGTTGTACTGGGGCGATCGGTGGAATGCTGAAGATTATGATCAGTCGGGGTATGTTGTCTATCCGCTGTCCTTCCAGGATCAGCGGATGATCATGACCCCGACTAAGTCATTTGAACGCTCCAAGGAACATGTTTAA
>SRR1151209_00648 glycoside hydrolase, family 43
ATGCTGACTGAACAAACGAATGGTGCTGTCTGGACCGATGCCGCGGGTGCCCCGCTACATGCCCATGGCGGGACGATCATCAAGGTGGCGGATACGTATTACTGGTACGGTGAGGACCGGCGGGAAAATTATTACGTGAGCTGCTACCGCTCCACAGACCTGATCAATTGGGAATTCGTCCGGCACAGTCTGACCACCGAATCGCCCATGGCCAAGACCCGGGTCCGGGCCACGCTGAACCTGGGCAATTCGCAACACAAGGTGAACTTGGAACGGCCCAAAGTACTCTACAACCCGCAGACCAAACAATATGTGATGTGGCTGCATTACGAAAACGGCGTAGACTATCGGGAAGCATCCGCGGCAGTGGCTACGGCGGCCAATCCGGAAGATGAATTTACTTACCACGGGTCCTTCCAACCCTTCGGCTTCATGTCCCGGGATTGCACCCTGTTCCAAGATGAGGATGGCGCGGCCTACTTTATTTCTACGGCTCGGGATAACGCCGACATGCACATCTATCGGCTCAGCGATGACTATTTGAACGTCCAGCGCTTGGTCAATCGGTTGTGGAACGGCGAATACCGGGAGGCACCGGCACTGTTTAAGCAGAATGGCCGGTATTACATGCTGAGTTCGTTCTGTACCGGCTGGGCGCCGAATCAAGGGCAATAA
>SRR1151209_00649 alpha-L-fucosidase
ATGGCACATACACTGCAAGAAATTGACGCGGTCATCGCCCAGGGCCCGTTTCACCCCACGTGGTCGGAACTCGCCACCAACACCGTTCCTGCCTGGTGGGCGCACGCCAAGTTCGGTATTTTCAGCCACTGGGGCGTCTTTACGGTGCCCGAATTTGGCAGCGAGTGGTATTCCAGAAATATGTATATCCAAGGATCCGCGCCGTTTAAGCATCACGTGGCGACATATGGTCCCCAGGATAAGTTTGGTTATAAGGATTTCATTCCCCTATTCACCGCCAAGGAATTCGATGCGGACAAGTGGCTGGCTCTGATTCAAGCCTCGGGGGCGCAGTACTACATGCCAGTGGCCGAGCACCATGACGGCTTCCAGCTGTACAAGAGTACCTTGTCCCACTACAACAGTGTTGAAATGGGGCCGCATCGCGATGTGATTGGGGAGTTGCGCCAGGCGACACTGGCCCGCGGGCTGCATTTCACCCTATCCAATCACCGGGCCGAGCACTGGTTCTTTATGAGTCATGGCCGGGAATTCCCCAGCGATATCCATGGCGAGTTGAAGCGCGGTGATTTCTACTGGCCTGCCATGCCGGAACCGAAAGACCACTTTGATACCCGCAGTCAGCCTTATCCTACCCAGGAATACTTGGAAGATTGGCTGTTGCGGAACTGTGAGCTGGTGGATAATTATCAACCCGAGCTGGTGTATTTTGATTGGTGGATCCAGCACGAAGCCTTCAAGCCGTATCTGTTAAAATTTGCGGCCTACTATTACGACCGGGCGGCCGAATGGGGCAAGCAGGTATCCATCTGTTACAAGAACCAAGCCATGGCTTGGGGCAGCGGTATCAAAGAAATGGAGCGGGGCGGTTTCAATACAGCGCAGCCGTTCCATTGGCAGACCGATACGGCCATTGCGCGGAATTCGTGGTCGTACACGACGACTTTGGACTACAAGGAAGCACCGGAGATTCTGTGCACTTTGATCGATACCGTCAGCAACAACGGTAATTTACTGCTGAACTTTGGCCCGAAAGCCGACGGCAGCATCGCCGATAAAGACCGGCAGATTCTGACAGCGATTGGGGCTTGGCTGAAAGCCAACGGCGCAGGCATCTATGGTTCCTTCCCTTGGGAAAAGTCAGCAGAGGGACCGACCCAAGCGGCCAGCGGAGCGTTCTCGGATAGCAAAGCCCAGGTGTATACGCCTGAAGATTTCCGGTTCACGAGCAAGGATGGGGCCATCTACGCCTATCAATTGGCGCCGGGGGAGCGCACAGAGGCCGTGGTAAAGACCTTTGCCGCGATGCCGGCGGGCCATGAGGATGAAGGGTACAACGGCATTATCAAACACGTTGAACAGTTGGGCGTTGGCGACGTGCCGTTTACCCGGGACGAGGCGGGGCTGCATATTGCCGGGCAAACGGTTGCTGATGGTGTGCCGCGCGGGTTCAAGATTATTTCTGAATAG
>SRR1151209_00650 hypothetical protein
ATGACAGAGAAAAACGATCCCGCCAGCGCTCGCCGGCGGATGCACAGCCCGAATAAGAAAACCAAGGCCCGCGCCTTGAAGATCCTGAAAGAGTATAAACGGGTCAAACGCCACGCCCGTTACGTCGCCATGGCCAACGGGAGCAGTGAAGAGAAATGA
>SRR1151209_00651 iron ABC transporter substrate-binding protein
ATGAGAAAATGGCTCAGTCTCCTGGGTATCGCTCTAACCGCTGTCAGTCTCGCGGCCTGCGGTACGCACCAAGCAGCGAAGAGCGCCAACGTCAGCGTTGAATCCAGTCAGCCCACCAAATATCGCCGGGTCGTCGTGTCCACGGGCACGATTGCCCAATATTTATCGGCTCTCCACGTCCCCATGGTGGGGGTGCCGCAGGAAGATAACGTGCCAGCCAGTCTGAAAAAGCTGCCGACCATAGGCCAGCCGCGGCATGTTAATTTAGAGAAAGTAGTCAGTCTGCACCCGGATCTGTTCATTGGCGACGCCGCCATGGCGAATATGACCCAGCAAGCCCTGGCTAAACAGAAGATCAAGACAACTTACTTAGATAATATGAGTTACGACAAAGTGATGACCAACATTGAGCGGCTGGGCAAGATGTTTGGCCGCCAAGCCCGGGCCCAAGCCATCGTCAAGCGGATGCGGCAAAATGAAGGCAAAGCCGTGGCCGGAGCGGCGAAATTAAAAGGAAAGAAGGTGGTGATTCTTTTCGGTACCGGAGAAAACTTCATGGTCGCCACGAAGAACTCCTATCTGGGCAGTTTGCTGGGCAAACTCGGGGTCCACAATATCGCGGACGATCTTGTTCACGCCCCGACGCCTTACATGCCGATTAGTATGGAGTCCGTGGTGGCTAAAAATCCAGATTATATCCTAACGCTGGCCCACGGCAATAAGCAGGCAGCGACCGCGGCGTTCAAGCAAGAAATGGCCAAGCCCATCTGGCAGACCACCGCAGCTCGCCAGCAAAACCACGTCTATGCGTTGGCTGATCAGACTTTTCCGGTGACCGGCAACATCCACGCCGACACCACGTTGACGAATTTAAAGGATTTGTTGCTGTATGGTCCGCAACAGTAA
>SRR1151209_00652 iron ABC transporter permease protein
ATGGTCCGCAACAGTAAACAACGATCTTTGCTGGCCTTGGTGCTGGGCCTCCTGCTTCTGGTCAGCGTCCTCCTCAGCGTTGGCTCGGGCAGTGTCCATATCCGGCTGCCAGAGATTGCGGCGATCCTGCGCGGGGCCGCCACCCCGAACGCCGCCGTTTTCACTCAGATTCGCCTCCCCCGGGTGAGCTTATCGCTCCTGGCGGGTATCAACCTCGCTTTAGCCGGGCTGCTCCTCCAGACCGTGCTGAAGAACCCGCTGGCTGATCCGGGAATCATGGGGATCAATGCCGGTGCCGCATTTGGCGCCACTTTGATCATGCTGCTGTGGCCCGCCGCTACGGCGGCAGTACCGTTGGTCGCCTTCCTGGGGGGAATGGCGGCCTTCTTGCTGATTGTGGGCTTTTCTTGGCGGCGGAATTTGTCGCCGGTGGTCCTGATTCTCGCCGGGGTGGCAGTGAACACAGTGATCAGCGGTGGCCAGTCCGTGCTGACGACGCTGTTCAGCGATCGGCTGCAGGGGGTGGTCACTTGGCTAAACGGCGACTTGAGCGGAAAAACATGGGGGCAATGCGGTCTGCTGCTGGTCTATGGGGTGCCGGCTTATCTGACCGTCTTGCTGCTCAGCCGTCAGCTGAATGTATTGAGTCTGAATGATAACGCCGTCGCCAGTCTGGGGTTGCCGGTACGGCGGTATCGGTTAATGTTATCAAGCGTGGCGGTGTATCTGGCCGCTATCACGGTGGCCCAAGTCGGGCTGATTGGCTTCGTCGGGTTGATCGTGCCGCATATCGCCCGCTTGCTGGTGGGCGGCAATCATCGCTGCCTGTTGCCGTTTACTGTCCTGCTAGGGGCCGTGGTTGTTTCCTTTGGCGACACTCTCGCCCGAACCATTGTCGCGCCGGTGGAACTGCCCGTCGGTACGATTATGGCGATTTTTGGCGGCCCTTTCTTCTTATTTCTTTTAATCCGGCGAAAAGGGGGTACAGTTTGA
>SRR1151209_00653 iron ABC transporter ATP-binding protein
ATGATGACTGGTAAAGAACTCACCTATCGCTATCCCGGTGCGGTTCAACCAGCGCTTCAACAAGCCACGGTGACACTGCCGCCGGGCCAAATCACCGCGTTGATTGGCCCGAATGGATCGGGCAAAAGTACTCTGCTGCGCTGCCTGACTGGCACACTGACGCCGCAACAGGGCACTGTTTGGTTGCAAAACCGGCCTTTACAGCATCTGCCAGCCAGACAGCGAGCTCAGCGGATTGCCGTGGTCCAGCAGGCTAACCAGGACCAGCCGCTGCTGACGGTGGAAGAAATCGTCCGGCTTGGCCGGACACCTTTTCATCGGCTCTGGTCGTCCTGGACGACGGCCGACCAGCACGCTGTTGAGCAGGCTTTGGCCAATACCGGCTTAACCGATTTGGCTGACCAGTCGTATACCGCCTTGTCTGGCGGTCAGCAGCAGCGCGTTTGGCTGGCCATGGCATTGGCTCAAAAACCGGCTGTGCTGTTTCTGGATGAACCGACAACATATCTGGATATCCATTATCAGCTCGGTTTGCTGCAGACATTACGCCAATTGAGCCGGACTCAAGGGCTGACGGTCGGTTTGATCCTCCATGATTTGAATCAGGTGCTGCAGTTTGCTGATCGGACCTACTGTGTCCAAGCGGGGCGGATCGTTGCCGGCGGGAAAACAGTGACGGTTTTGACCCCGGCCTTGATCCGTGATGTTTTCCAGGTTGAGGCCAAACTCATCAGCGGTACTTTGGCACTTCATTAG
>SRR1151209_00654 membrane protein
ATGGAGGAATCAGCAGCAGCGAAACCGAAGACCATGGATTATGTATACCGGGTATCAGCCGGAGTGGCGAATGCCATTTTGGTGTGTTTGGGGATTGGCCTGTTGTTGCAGTCCATCGCCAATTTTACTCATTGGACCGCGTTGTACCAAATTGGGGCGATTGCCCAGGTCCTGCTCGGACCAGCCTTTGGTGTGGCGATCGCCGTCACATTAAAAGCTAATACGCTCGTTACTTTCAGTGCCATGATCAGTTCGACAATTGGGGCGAACGCGGCCTTTTTCACTCAATCTGCCACGAATGGCATCACCGCGACGGGACATGCCTTGCCCCAGGCCGCTGGCGGCATCGTATTGACCACCGGTCAGCCGATTTCGGCCGTTGCCGCGGGCTTAGTGGCCGTCTTGATTGGTAACTACTTAACCGGCAAGACCCCATTGGACATGATGCTGGTCCCCTTGGCGGCCACGTTCATCGGCACCGTGGTTGGCTTGGGCTTGGCCGCAGTCACTACCCCGGCCCTGGTCTGGTTATCGAAAGTCATTGCGAACTCGATGCAAGTCAATCCATTAGTCGGATCAATGCTGGTCTCTCTGGCCTGGTCCATTTTCTTAATGACCCCGGCATCATCGGCGGCACTGGCGGTAGCCATCATGCTCGACCCGATCTCTTCCGGGGCAGCGTTGATTGGTACCACCGCACAATTCGTCGGCTTTACGATCATGTCTTTCCGCAGAAACAATCTGGGCGCGAACATTGCCCAGGGCATCATCACGCCGAAAGTGCAGTTCGCCAATTTGCTAGCGAATCCGCGTTTGGCAATTCCGCCGATGGTGGCCGCGGTGGTGGCGGCCCCGATCGCGACGATGGTCTTTAACTTCCAGGCTACGTATAAATTAGCCGGCTTGGGGTTGAACTCCTTGATTGCGCCAATTGCCTTGGCTTCCCCCAACATGGGCATGTTCTGGGTCTATCTGCTCATGGGTGTGGCCGTACCAGCGGTCATTTCGCTGACTTTGTTCAAGTTGGAAGCGAAACTGGCGTGGGTATCTGAGGAACAATTGCATCTGGAAATCATTTAG
>SRR1151209_00655 hypothetical protein
GTGGCCAGTCATTATCTTGCCCATTATGTAGCGCAATATGGTGGCCAGCCATTTGCGCAGCAGCCGTTCAACGAAGTGGACGGTTTGATTTGTGCTGTGCTGTCGTACATGGATTTCAGCCGGCTGTATACAACGAAGTATCATCGGCTGGGCGACTTAGCGCTTGATCCGGCGATGCAGCGGCAGATGACGGCGCACACCTATGTCCCGGCGCATTACTTAGCGCTGCTGCGGCTGCTCACCGCCAGTCCCCGCTTCCGCGATGTTCAGTGGCACCAGTGCCGGGAACAGTTCGATGCCGCGGCCGCCCAGCAGTTTGCGGCAATGACGCTGGAACTTGCGCCGCAACAGTACTATATTGCCTTTCGCGGGACAAATTCGACGATCGCCGGCTGGAAGGAAGACTTAAACATGTCTTACCTGCCGGTCGTGCCCTCGCAGCGGGCCGCCACCCGTTATCTGCGCGATATTCAGGCCGCCTTCCCCGGCCAATATTATCTCGGCGGTCACTCCAAGGGCGGCAACTTAGCGGTTTACGCCGCCCTGAATAGTACGCCGGCGGCCCGGGAAGACATCGTCCGCATCTTCAATTTTGACGGACCGGGTTTCCTTCCTGATCCAGAGATGGAAGAGCGGTATGTACTGCTGGCACCGCGGATCACCAAATTGGTGCCCCAGGCCTCAATCTTTGGCATGCTGCTGGAACCGCACCAGGATTTCAGTGTGGTCGACAGCGATGGGTTCACCCTATGGCAGCATGATCCGTTCACCTGGCAGGTGCGCGGCCGGCATTTTGTCCGTCGCCCCAAGACGGATTTTCTGTCGCAGTACACCCAGGAAGCCGTCACCCAATGGCTGCAAAGCATCCCCCGGGAAGAACGGGGCACGGTGCTGGCGTCTCTGTATACTGTGGTGGATGCCACCCACGCCAGGACCACCCATGATTTGTTCACAGTACGGCACCTGCGGGTCATCCATCACGCCGTCCAAGCTGTACCGCCGGCAACCCGCCAGCAGTGGCGGCAGGCAGCAGAGAGTTTATGGCATGCCTTGCGGCCGGAATTCAAGAAGCCTGTTCATTAA
>SRR1151209_00656 hypothetical protein
ATGACTGATGAACGAACATATTGGTTTGACACGATGCAGCGCATCGCATCGCCGGTGCTGCATAGTCTGGCGAACGAGACACTGCACAGCGATTTGCCAACGGAGACGCCACCATTGAAACCGTCGGCCCTGCTGGAGGCGTTCGGCCGCACCATTTGCGGCTTAGGCCCTTGGCTGGGCGCAACGGATATTCCAGAAAACGAAAAGGCCGTGCAAGCCGAGTTCCTCGATCTCTATTACCGCGGCCTAGCCAACGGCATGCGCCCTGAATCCCAAGATTACATGCCCATCGTCGGCGACCATCAACCGCTGGTGGATATGGCGTTCCTCGCGGACGGCATTCTGCGCGGCGGGGACCGGATGATCGACGATATGCCGGAGGATGTCCAGGATGATTTTCTGTACGCCCTGCAACTGACCGCCCAAATCAAGCCGTATGAATCCAACTGGGTGCTCTTCAGCGTGCTGGTGGAAATCATGCGCTGGAAGCTGGACGATCCAGCTTATTCCCAGCAAAAGATCGATACGCTGCTGCAAAAGATGATGCAGTGGTACCGCGGCGACGGGATCTACGGCGATGGTCAAAACGTCCACGTGGACTACTACAACAGTTATGTCATTCACCCGCTGCTGGTGGACGCGGTGACGTATTATTCAGACGCGTACACCCGGTCTATTCGGGACGTTGTCTACCAGCGTGCCGCGCGCTATGCGGCCACGCTGGAACGAGTGATTTCCCCCGAAGGTACATTCCCGGTACTGGGCCGGTCCATCACCTATCGCTTTGGCGCATTCCACGCCTTGGCCCAGGCGGCCTGGCAGCATAACCTGCCGGAAAACGTCGCGCCCAGCCAAGTGCGGGCAGCGCTGACCGCTGTGATCCAGCGGACCATCACCGCCACGGATATGTTCGATGCCAACGGCTGGCTGAATATCGGTTTTTACGGCAATCAGCCAACCATGGGCGAGGGCTACATCAATCACGGCAGTGTGTATCTGTGCAATACGGTGTTCCTGCCGCTGGGCTTGCCCGTCAGCGATCCGTTCTGGGCTGATCCAGCCAAGGACTGGACTGCGAAGGCTATTTACGGCAACGCACCAGTCCCGCGCGATGAACCAGTGAACTATTAA
>SRR1151209_00657 glucuronyl hydrolase
ATGACAGAAGAGACAAGCGCACCCGTCTGGGTCACGACCGCGATTGCTGAAATCATCGCCAAAATGCCCACCGTGGCCGCCCGTAATGCCGGGGCCATGCCCTACACCACTGACGACCAGGGCCGTTTTATCGATTTGAGTACGAAGGATCCCACGTGGTGGACTAACGGTTTCTGGGGCGGCTTAATGTGGCAGCTTTACCATGTCACCGGCACCCAGGTTTACCGGGACAACGCCGAAACTCTGGAACAGCAGCTGGACGCCAACTTGATGCAGGCAGACCGTTTGGACCACGACAATGGCTTCAAATGGCTGCCGACTGCGGTGGCAGACTATACGCTGACCGGTAACAAGGCCTCCCGCAACCGAGGTCTGCTGGCCGCCGAGAATTTGGCCGGCCGCTTCAATCCCCTTGGCAACTTCATCCGGGCCTGGAACGACAACGGTGACGGTCACATGGCCGGCCGGTTCATCATTGACTGCATGATGAATCTGCCCTTGCTGTATTGGGCCAGTCGGGAGACCCACGATCCCCGCTTCAAGTTTGTGGCGGAGAAGCACGCGCAAACAGCGGCACGGTATTTGCTTCGGGCCGACGGCAGCGTTAACCACATGGTGGATCTGGATCCAGAGACCGGCGCGTATATCGACGTCCCCGGCGGTCAAGGCTTGGGCGAAGGCTCCAGCTGGACCCGGGGCCAAGCGTGGGCGCTGTACGGTTTTGCCTTGAGTTACCGGCACACTGGCGACCCGGCGTTCTTAGCCAGCAGTCAGCAAGTGGCGAACTACGTCATCTCCCGGATCCCGGCAGATGGCCTGCTGCCGGTGGACTTTGCTCAGCCTGATGACTGGGAAGACACGTCCGCTGGCGCGATCTCGGCCTGCGGGCTGCTGGAATTGGCTCAGCATGTCGAAGATGCCGATGCGGCCGTCTATCGGGCGGCGGCGTTGCGTCTCCTCCAAGCGTTGACCGAGCAGCGGGCGCATTTTGAGACCAGCACGGACTTTCTGTTAGAGAAAGGTACGGCCGCCTATCATGATGCGACCCACGAATTCCCGATGATTTACGGCGACTATTTCTACCTGGAGGCTCTGTTGCGGGTCACTGGGCAGGCTCTGTTTATCTGGTAG
>SRR1151209_00658 4-deoxy-L-threo-5-hexosulose-uronate ketol-isomerase
ATGAGTTTCAACATGGTTACCCAGTATGCCCACAGTCCAGAGGACATTCGCCACTACGACACCGATAAGCTGCGCGAGCAGTTCTTGATGCCGAAGTTATTCGAACCCGGCAACATTTTGCTCACTTACACTTACAACGACCGCATGATCTTTGGCGGCGTGACGCCGACGGATGAACCGTTGGAGATCAAGCTGGACAAAGGTCTGGGTGTCGACTTCTTCCTGCAGCGGCGGGAACTCGGCGTGATCAATATCGGCGGCGAAGGGACGATCACCATCGACGGCCAAACTGAAGAGATGGTCAAGCAGGATGGTTACTACGTCGGCATGGGCACCAAGCACGTAGTCTTTGCGTCGAAGGATGCCGCTAAGCCGGCTAAGTTCTACGTCGTATCAACGCCGGCCCATAAGACGTACCCGAACAAGAAGCTGCCGTTTGCCAACGCCCTGTCCAAGCCGATGGGCGATCAGGCCCACATGAACAAGCGGACGATCTACAAGTACATCGATGCCAGCCAAATGGATACCTGCCAACTGCAGATGGGTTACACCGTCTTGGAAGATGGGTCCGGCTGGAACACGATGCCAGCGCACACCCATGCCCGCCGGATGGAGACGTACATGTACTTCGACTTCTCTGATCCTGATGCTCGGGTCTTCCATATTCTGGGTACCCCGACTGAAACGAAGCATATTGTGTTGAGCCCGGAGCAGGCTGTGGTCAACCCCAGCTGGTCCATCCACTGCGGGATCGGCACGAGCAGCTATTCGTTCATCTGGGCGATGTGCGGCGAGAACCAGACTTATGACGACATGGATGCCATTCCCATGCAAGAACTCAAGTAG
>SRR1151209_00659 hypothetical protein
ATGCTGCAATTGACGATTCTGAACGCCCAAGGCGCAATCCGCCAGGGTAAAAACGACTACGATGACGCGCCCAAGGACCTGCACAACACCGGCAGCGACAGTGTCTTTTTAGCCACCCAAGCCCTTACCTATGCAGATGGCGACATCATTCGCCTGCAAGTGGATCGCGTGCCCGGATACTACGTGGTGCAGTTTGACGAAACCTTGGCGCCCACCCTGGTTTATTTGACCACCCCGATTTGGGATTACCCAATCGATCTCAGTCAAAATGCCCAGGACGCCCGGCCCGAGGCGGCGTTTAAGACCCAGCGCCATTACCTCAGTGCCCGGCGTGCCTGGCCGGAGGAGACCGACACTTACCGGGATTGGGCTTTGAATCCCCACGACCAGCCGCAAGCCACCGGTATCTTCCCCCATGCCCACGCTAACGTGGAAACCCGCAACGACGCGACTTTCTTTGCTCAAAACGCCATTGACGGCGTCTGGGCCAGCAATCTCCACGGCGAATACCCCTACCTGTCCTGGGGTATCAACCAGGATCCCCACGCTGCTTTGACCGTGGAACTGGGCCGGCCGGTCATTCTCGATCGGGTCGGGGTCGTCTTGCGGGCCGATTTCCCCCACGACAGCTGGTGGGACACCGCCGTCCTTACTTTTTCTGATGGCCAAAACGAGGTCCTGACCCTGCGCAAGACCGGAGAACCGCAATACTTCGATTTTGCCGAACACACCGCCACCGCCGTCACGTTCCATGATCTGCATCGGGCGGACCCTGCGTCCCCATTTCCGGCGTTGACTGCCCTGCAATTCTTTGGCCGAAATGCATGA
>SRR1151209_00660 beta-galactosidase
ATGGAACAAATACAATTACGGACGTGGCGCTTCAGCCATACTGACGCCCAATCGACCTGGCAAAAAGACTTCGATGATACTGACTGGGAACGGGTCAGTGTGCCCCATGATTGGAGCGTTCATGAACCCTTTGATCGGCATAACGCCAGCGGCACCGGCTACTTAAACGGCGGCGTGGGCTGGTATCGGGGACATTTCTCCCTGACGGCGTTATCCCGCTCAGACCATGATACGGTGATCCTGAAATTTGCTGGGGCTTACCGCAATAGTGACGTCTGGGTCAATGGCTATCACTTGGGCGGCCGGCCTTCCGGGTATGCGGAGTTCAGCTTCGATATTACGGATCTCTTGGCGGATGCCCCGGATGATGATCTGGTCATCGCCGTCCGGCTGACGCGGCAGGAACTGGCTGATTCCCGCTGGTTCAATGGCACCGGGTTGAATCGGCCCGTTTATCTGGAAGTTCACCAAGCGCTGATGATCCCCGATTACGGGACAACTTTCACCACCCCGGCGGTCACTGCAGACCAGGCGACGGTGCAAATTCGTCATCAGGTCCGCAATCGTTTAGTAAATACGCACCTCGTGACCGTCACGGATACACTGACTCGCCTTGATACGGACCAGACAGTGTCATTGACCCATACAGAAACGATCAAAAGTAATGAAGAAAAAGTCGTCACCAGCAGTACCGTGCTGCCCCAACCGGCCCTGTGGTCGGTGGATCATCCCCATTTATATCGGTTGACGACCACGCTGACCAGTGACAGCAGTGATGTGCAAAGTACGTACACCCAAATTGTCGGGATCCGCAATGCCGCGTTTGACCCGAATACTGGCTTTCACTTGAACGGCCAGCCGCTGAAAATCAAAGGTGTGTGCCTCCATGAAGACGCTGGCGTGCTGGGCACGGCGGTACCGGCCTCCGTTTGGACACGCCGGCTGTTGGCGCTGAAGAAAATGGGGGCCAACGCGATCCGGATGAGTCACAACCCGCATACGCCAGCGCTATATGATTTGTGCGACCAGTTGGGCTTCTTGGTCTTCGACGAGGCCTTCGATGAATGGGAGAACCCGAAAAACAAGTGGTGGCAGGGGCACAACGTGTATCCGCCGAAGTTTGGCGGCTATGCCCACGACTTCCCCCACTGGCACGCGGCCGATCTGGCGAACATGGTCCAGCGGGACCGCAATCACCCGTCTATCATTGCCTGGAGCATCGGCAATGAAGTCGATTATCCCAACGATCCGTATGCCAATCCCTTGTTTAAAGAAATGACCGGCAACAATGATGCTAATAAACCGGCCGCCGAACGGGAATATAATCCGGATCGACCGGATACCCGACGGTTGAGCGTGATTGCGGCTGAATTGGCGAAGATCGTTAAAGCCAACGACGACACCCGGCCGGTAACCTTAGCCGCCGCCTTCCCGGAACTGTCCGCCCGCACTGGTCTGCTCAACGCACTGGATGTCGTCGGCTACAACTACAAGGAACACCTCTACGCTCAGGATCACGAACGCTTCCCGACGAAGCCCTTCATCGGCAGCGAGAACGGTCACGACTATGCCGCCTGGCGAGCGGTGACTGACCATGAGTATGTCGCCGGCCAGTTTCTGTGGACCGGTATCGACTATCTCGGCGAGGCCCAGGGCTGGCCGATCCACGGGTCTGGCGCGGGACTGCTCACGCTGGCCGGCTTTCCTAAGACACCTTATTATTTACGCCAAAGCTGGTGGGCAAAAACACCCGTATTAAAGATGGTCACCGTTCCCCAAGGTACGTTACACTATCCATGGGAACCGCTTTATCGGCGGTGGGACTATGTACCTGGTTCAGTCATTACCGTCCGCTTCTACACGAACTGCCAGCACTTGCAGCTGACCCTGGGGACTACCCCGCTGTCGGCGCCGGTTTACGATGCCAAACACGGCTATTACGAAACCACCATCGCCTACAAGAATGAGCCGCTGCTGGTCCGCGGGACGTATCAAGGCGCGCAAGTCACCGATACGCTGGTCCCCGTAGGTGCTCCTGCTCAGCTGCACGCGGCGGTATGGTCTGATCCCCTGGCCCCGCAAACCGCTGACGATGATGTTTACCAAATCGAAATCACGCTGCTCGACCAAGCCGGCCATCCCACTGAAGCGGAACAAATTATCCATGCTGCCGTGACCGGCGGCACACTGCTGGGGCTGGAGAACGGCAATCTCGCGGACACGACCGACTACAGCGCCGATTATCGCCGGACACTGGCGGGGCACTTGGTCATTTTTGTCCGCAGTACTGACCCCGCTCGCACCACGGTCACCTGTCAGACCAACGGCCTGGCTCCCGTCACGATGACGTTGCAATAG
>SRR1151209_00661 sugar ABC transporter permease protein
ATGTCCTATGGGGTGACGATCTTTATCACCGTTGTGGGCACCCTCTTGAGCCTGATCCTGAGTGCAATGATGGCCCATCCGCTGTCCACCGGCCGGTTGAAGCTGGGGAACACCATCAACTTTTTGGTGTACTTCACGACGCTGTTCGGTGCCGGCTTGGTGCCGAGCTGCCTGCTGATCAGCAAGTAG
>SRR1151209_00662 hypothetical protein
ATGCCGTGGCAGAGGGCCCAAAATGATCAAGCCCGGCCAGCGGCAGTCCAGGCCGCAACCAGCGACGCCGCCTGCAGCCAATTCGGGAAGGTCCTCGATCAACATCTGGCGGTCAAGAAAAACGACTATATCGCCGTGCGCGCGGCGGCTAACCAGAAACAGATTCATGAAACGGCGTACGATCAAAGCTATCCCAAAGACAAGATCATTGTACGCGGCGGCCACCAGCTGGCCTTAGCCGGTTTGGTCAAATCGGTAACTGGCCAATACGGATTGCGGATCCAATCTAACGGTACCGCCAAGATGCTGGTGAGTGTCAGCAATGAATCTGGCACGGCGTATCAGACGATTGCACTGCCCGATACCCATGGCCAATGGGTGACCCTGGCCTATTCCGATTCAACCGTCCATTCAGCGTAA
>SRR1151209_00663 hypothetical protein
GTGATTGGTAATTCGGCCGTCACGGTGGACTTTGCCGCGCTGAAATACTTTAACCAGCCCGGCGGCACCGTTTTGGTCGGTGAGCAAACCGCTTGGTCGGTGACAATCACCAATGCCACTCGGCAGGAACCAGCCGGAATGATTTTGGCGGCAGATGGCCGCAGTCTGCATTGGCAACCCGCTAAGGTAAGTGTATACGAGGCGGTGATTGCAGCCGATGACGGCACTACGATCGTGACCAAGACACTCACGCTGAACGTTGTCCAGGATCGCCAAGCAGCCTACGATCAGGTCCATGCCACCGTCGGCAAAGAGCCCTATTCAACCGACTTCCCGTAA
>SRR1151209_00664 hypothetical protein
ATGCCACCGTCGGCAAAGAGCCCTATTCAACCGACTTCCCGTAAGCTTTGGCGGCTTATTGCACGACGCTTCAACAATCCCACCCTGAGCGACGGCAGCCTGAATTATGTCGCTTCTCCAGATATGGTGACCACTTATGTCGGTGATCAGCAGCGAACAATTAATCTCACCCGCCTGCTGGACGACGATCCCGGGTCAACTAATGGTGATTTCAAAGCACCCCAGATCTTCGACTTTGGCCCGGACTTCCGCGTGCGGCCGACCTCGTTCATGATCCAAGCCCGCACCGGCTTCCCGCACCGCAGTCAGGGGACCAATGTTTACGGCTTTTTGGACGGAAAGGCCTGGACGAAGTTGACGGAACACATGACGGATTGCGTGACCATGCCGCAGACCTTCCCAATGGGTAAAGACAAGCAGGCCGCTTACCGCTACTTGAAGTTCCAAGTTGACGAACCCGTTTTGCCGACGGATCCGGCTTATCCGGGGGTGATTGATTACGGGGAGATCCATGTGTTTGGAGAGCGCACGCTGATGACGAAGTGA
>SRR1151209_00665 sugar ABC transporter substrate-binding protein
ATGAAGGGCTGGAAAAAGATTGGCCTGACCTTAATGGTCACAGCTACTGCATTAACACTAACGGCATGTGGAGGCGGTTCGTCCAATACCAGTGGGGAATCCAATGGCAAGGTAACCATTCAGTTCATGCACTGGGGCGGTACCGACACATACAAGGGCGACTATCAAAAGCGGATTGAGGCCTTCGAAAAGGCTAACCCAAAGATCAAGGTTAAGACCATCACAGTTGGCGACAACTACGATACCAAGCTGCAGACCATGATTGCCGGGAACAAAGCACCGGATGTTGCCCAGGTAGCCGAAAACGGGACTGGCTTTGCTTCTAAGAATGCATTTATTGATTTGGATCCTTACATTAAGAAAGACAATCTCGATATGGTTAAGACGTATGGCAATGCGTCTGCGTTGTACAAGTGGAAAGGCAAGTTTTTCGGTATGCCTGACCGGGGCGGTTCCGGTATTCTTATCTACAACAAGAAGATTTTTGATAAGGCCGGCTTAGCCTATCCGAACGACAAGTGGACCATGGAAGACTTTTACAAAGCAGCCAAGAAGCTGACCATTGACGGTACTGGCAAAGAAAAGAAGCAATACGGTACGCAGGTCGCTGACTACGTCCTTGGCTGGGGCGGCGCAATGATGAGCAATGGCGGCTCCGTCATCAATGCTGCCACAAAGAAAGCAACGATCAATTCACCCGAGAACGTGAAGACTTTTGAAGAGTACAACAAGAACTTCAAGGAATCCAGCATTCCTTACCAAGTTTCTGAAGATAAAGTTAACCGGTTCCAAGGCGGTAAGGTAGCCATGATTCTTGATGGTATGTGGCAAATTCAACCCAGCATGAAGCTGAAGGGTATGGAGTTTGACATTGCTCCGATGCCCGGCAAGTACACTTGGTCCACTGGTTCTGCCTTGACGATTTCTCGGCAGTCCGACAAGGCTCACCAAGATGCGGCTTGGAAGTTTATTAAGTACATGGGTAGTTACAAGGCCCAACAGATTCTGGGCAAGAACTTGATGGACTGCCCGGCTAACTTGCAGGTGCTGGATTCTAAGGAATTCCAGAATCAAAAGATCATGGGCAAGACGGTCAATATGGAGGCCATTGCTGAAAACCAGCGGAAGGTCAAAATTGATGGCATGCTTAAAGGACCGTGGTACGCTGAAGCAATGACGGAAACGTCCAATCAGTTGAAGGAAATGCTTCTTGGTCACCAAACTCCGGCAGCAACGCTTAAGTCTTTACAATCTAAATTACAGACAATTGTGAATAAGTACTAA
>SRR1151209_00666 sugar ABC transporter permease protein
ATGGAAGCAACCGAAAGAAAGACAATGGATGAGCGCAACACATCCATGGCCAAGAAGCGGGAGCGGATGAACCGCAACTGGTTTTTCTTCTTCATATCACCTTGGCTGATCGGTTTTCTATGCCTGACTGCAGGCCCGATGATTTTCTCGTTCTTTATGAGTTTTACTAACTGGGATTTGATGACTCAGATGAAATTCATTGGTATTCAGAACTATGTCAATTTATTCAAAGATCCGATTTTCTTAACTTCAATGAAGAACACGTTCTTGTACGCTGCCATCAGTGTACCGTTGAATCTGCTGCTTTCCTTAGGCATGGCGTACTTGTTGAGTTTCCACTTGAAGGGCATGCGGTTCTTCCGTACTCTTTATTACCTGCCTGCGATTGTGCCGGCGGTAGCTAGTACCATCCTATTCACCAATATTTTAGCCACCAACGGTTTGCTGAACAAAGCATTGAGCTTCATTGGTATTCAAGGGCCGTCCTGGTTGCTGAATAAGAATATCGTTCTGCTGAGCTTCGTGTTCTTGGCGGTATGGGGCGTTGGGGCGACCATGGTTTTGCTGCTCTCCTCCATCAATAGTATCGATGACGCCATGTACGAGTCAGCGACACTGGACGGAGCAACACGGATGCAGATGTTCGTGCATATTACATTGCCCCAGATTTCGCCGGTCATCTTCTTCAACTTGATCACCGGGATTATCGGGTCCTTGCAAACTTTCACCCAGGTTTACTTGATGACTAAAGGTGGACCGGATAACGCCAGTCAAATGATCGTGCCTTATCTGTATACCAACGCCTTTTCATATTACCGGATGGGATACGCGTCAGCGATGGCTTGGGTATTGTTCTTCGTCATCTTGATCCTGTCGGTTATCGTACTGAAGTCATCCAGCGCGTGGGTATTCTATGAACAGGAGGTTAAATAA
>SRR1151209_00667 sugar ABC transporter permease protein
ATGCTCGATCGAAAAATGAAGTGGTATCACAAGCTGTTTATTTACGTTGTTCTGTGTGCGATTGGCTTCGTCCTGTTTGCCCCGTTCATGTATATGATTTCAATCTCTCTGGCCGGCAAACAGACCAACGCTGTTCAAAACTTCAGTTTCTTCCCTAAAGAATTTTATTGGCAGAACTACCGGACACTGTTTGGCAACATGTTCGGCGGTGAATATCCGATTGGGACTTGGTTCCTGAACACGTTGTTCGTCGTGGTGTTGAGTATTATCGGTCAGATGTGGTCCAGTTCTTTCGTGGCCTACGGTTTCGCTAAAATGCAGTACAAGCATAAGAATGGCTTCTTCCTGTTACTGCTGACAACCATGATGCTACCTGGTCAAATCACTTTGATTCCTGTATTCATCATCTTCCGTAACTTGGGCCTGTACAATACATTGTGGCCGCTGATTATTCCGCAGTTCTTCGGCTCGGCGTACAACATCTTCTTCACGCGGCAATTCATGACCGCTATTCCTGGCGAACTATACGAAGCTGCTGAATTGGATGGGCTGAATTACTTCGGCATTTACCGCAAAATCGTGCTTCCCCTGGTTATGCCGGCATTAGCGGCGATCGCAATTTTCACGTTCAACTGGGCGTGGGGCGATCTGATGGGTCCGTTGATTTATGTGTCAGATTCAAGCAAGTTTACGCTCGCCTTAGGGGCAGCCAACTTGTCCGCAGCGACCAACCCCAGTGGTACGATCAATACCTCGCTGGTTATGGCCCTGTCCTTCTGCTTGTCCATCCCACAGATCGTCATCTACTTCTGGGGTCAGAAGTACCTGTTCAATCTCAACTTGGGCTTGGGTAACAGCGGGAGCAAATAA
>SRR1151209_00668 hypothetical protein
ATGCATCACCAAGAATTCATGTACAAGCTTTACCACTATTCAAGTTACCTCAATTACATTATCTGGATATTTGAAGTGAATGCGTTGATGCTCGTGCTGAATACACCGCTCATTTTAGCGGCGATTGGTTTCCGCTTGAGTGTGGCGACTCTACTGCTCTACGTGGTGTGCACCTTGCCCGCTGGGCCAGCGCTATACGCTGGCTTGTCCGCATTGGCGCACGCCGACACAAATAATGGTGTGGTGAAATCGTTCTTCCGAGCCCTCAAGGAGAAAGGTCTGACCATCCTCAAATGGTCAGCCATCCCAGTCAGTGTGATCTGGTTAATGCTCTTCAACCTCTCTGTGACGGGGAAGATTGGCAGCATGGAACTGCTGTGGTGGCTGAATGTTGTTTTGCTCGCTGTGGCAGCGGCGTTCACAGTCAATGTAGTTATTGTCCTTGTGTCGTGGCCGCTATCGGTTAAGGATGCCGCAATTCTCACGTTGAAACTGAGCGTCGTTAAGTCGTTCCGTTATTACATGAACCTGATTATCATCGTTGGGACTTTCATTTTACTGAAGCTGTTTCCGGTGTATATCGTACTGTTTGGTCCGGCACTAGCTTTACTGCTGTGCAAGGTGAACTTCCAACCGGTCGTTGATTACGTTAATAATCGGCCGGAAAATAAGTAA
>SRR1151209_00669 hypothetical protein
ATGTATTGCCCCGCAGTAATCTGGCGGGGTATTTTTCTGGTCAAAAAAGTAATCTTGACAATAGACCAACCAGGTAATTTCAGCGTGGAGATCAATAAGGATCGGTTCCACAATCTGTACGTATTTGCTGGGGGCATTGAAGAGGCACCGGCGCGGGATGCGCCTGGGATTTTGCACAATACGATTGGCAACAGTGCTAATGATCAAATCGCGGCGCAACCAGTTAATCGACTCGTATACGTGGATCCAGGCGTGTACTACATCGGTAGTTACATCTGGGAGATTCCCAGTGATACGCGGGTGTATCTGGCTCCTGGGGCCGTCTTGATGGGCGGTTTAGCGATTCGCCAAGCCCGCAATGTGCATATTTTTGGCCGCGGAGTCGTTTATCAGGGCCATCTTGATCCGTATTATTATGCCGACGGGTTGACCATTGACCATGCCACCGACGTCTCCATTGCACTACACGATTGCCATGGGCGGCAGTGA
>SRR1151209_00670 glycosyl hydrolases family 28
ATGCCACCGACGTCTCCATTGCACTACACGATTGCCATGGGCGGCAGTGACGGAATCACGATTGATAACGTGAAGACCTTCAGCTGTTTAGTCTGGTCGGATGGCTTTGACATGATGAGCTGCAGTCATGTCACGATTCGCCGATCTTTCCTGCGGACGTCGGATGACTGCATTGCTATCTATGGCAGTCGCTTCACCAATTACGGCGACAGCCATGATGTGACCGTAACGGATTGCGTACTCTGGGCAGACGTGGCGCACCCGATGAATATGGGTACCCACGGCGATGCGGTCCACGATGGCGACGTCATCGAAAATATCCGTTTCGAAAACATCGACGTCCTGGATCAGCACGAATTTCAATCCAATTATCTGGGCGTGATGGCGTTGAATCCAGGGGACAAGAATACGATCCACAATGTGATGTTCAAGAATATTCGCATTGATGCCCTCGAACACGGACGCGTTTTCGATGTTGAGGTGAAATACAACAAGGATTACAACCCGGCCCCAGGCCGGCTGATCGAAAATATTACCTTTGAGTATATTCACATCACCTCTGGTCCGGGGGAAGAAGTTTCCCTGGTGGCTGGGTATGACTCCACGCATCCGGTACGGGATATTCTGTTCAAGGATATTTATCGAGATGGGGGAAAAGTTGCTGATCTTTCCGCCGCAAATATTTACGTTGGTGATTACATGAGTCAAATACGAATTGTGCAGAAAAAGACCTGGCCTGCCGCAGCTGTCATCCAGCTGTTTAGCTCGGCTATTTACCCAGTATCAGAAGTAAACATAATATCATGTCAAAACGTCCAAGCCAGGCTGGTGTCTCAGTCTGATTTGGACGTTTTGGTTTAG
>SRR1151209_00671 multidrug ABC transporter ATP-binding and permease protein
ATGACCCGCTACTTCAAACAATTCTGGCCCAGTAATCTGCTTTACTTGGGACTGACGACCATTACCTCAATCCAAACGATTCTTTCTGCTCTGCTTTCTGCTGCCCAACTGAACGCCCTCATCAAGTTCGACTTCCCGCTTTTCCTGCGTTGGGTGCTGTGGGATGTCGGCAACTTCATCATTTTGCTGGCCATGTATTACTGGCAGGCCATGCTGCGGGCGAAAACGACCCAGAAAATGGACAACGCGGTTCGGGATGATCTCACGAACCGGATCTGTGCCCTGCCCTACACGGCGTATCATGCCCGCCAAACAGATGACTACAGTTCCTGGCTGAGCAACGATATCAACCAGATCGAGACGCAAGGCTTTACCAACGTGTATTCGCTCGTCGATAGCGGCCTCATCGCGTTATTTTCGCTCATCACCTTGGTTACTATGCATTGGACTTTAGCCGCCGCGGCTTTGGGCTTTAGCGGATTGATGATCGTCGTCCCCGTCGTCATGCGCCGGCACATGGCGAAGGCCAGCCAGTTGGTCAGTCAAAAAAATGAGCACTTCATGCAAGTGGTGAATGACCATCTCAAGGGATTCGATACCCTGTTGGCCTTGAATCACCAGCCGTTGCTGCATGCCTTGATCCACGACGCGCAGCAGCCCTTAGCCGCCGCCAAAGTACATCAGACCAAGATCCAGGCCATCGCCAGTACGCTGGGCAATTTCACCAATATCACCGCCCAGATCAGCATCATCTTTATTACCGCCCTGCTGGCCTTCCAACATATCGTTTCCATTGGTTTGATTCAATCCACTGGCACCCTTTCCTTCCGCGTCTTCAGTATGCTGGCTAGCCTGTCTTCTCAGCTCACCTTGATCAGCGGCACGAATGCCCTGTTTACCAAATACGATCAGCTGCCCGCCCCGGCTGCTAAAGAAAGCCAAGTGCTGTCCACCGTGACCAGCGGTTTCGTCCTGCGGGATTTGACCATCACCTATGGTCAGACCAAAGCCGTGGCCGACTTGAATCAAGACTTTCGCCTTGGCGGCAAGTACGCCATCGTTGGCCCCAGCGGCAGCGGCAAATCGACCCTGTTCAACCTGCTGGCCGGCAAACTCACGGCTTATACCGGCTCGCTGACGCTGAATGGCCAAGAATATCGCACATTGAGCACCACAGCGATTCGCGACCAAGTACTTTATCTGGACCAAATCCCCTACATCTTTTCCGGCACGGTACGGGATAATCTCACTTTGGGTGATGACTATCCAGACGCGGCTTTGATCGCCGCCTTGCAGCGCGCGGATCTTTGGGACCAGGTCCGCCGCCTGCCCCAGGGCCTAGACAGCGGCGTGGGTGAAAATGGCCGGACGTTCTCCGGCGGCCAGCGGCAACGGCTAGCATTAGCCCGGGGCTTTCTGCGGCATAAACAAATCGTCCTGATGGATGAAGGCACGGCCAGTTTGGATAAAGACCAAGCGCTGAAAATCGAGGAAACACTGCTGGCCGATCCGAAATTGACGGTCTTGATGATCACGCACCAGTTGTATCCGGAAATCGAGCCGCAGCTGACCGGCGTCATTCGCATGATGCCCCGTCGTGAGCAACCGGAGCCTGCCCCAGTGGCGCACTTAGCCTAA
>SRR1151209_00672 metal ABC transporter substrate-binding protein
ATGTCCAAACTAAAAAAGCTGATTAGCTGGCTCGCGATCGGTCTGCTCGGCATCACGCTGGCCGCCTGTGGTCAGCAAAAGAGTACCCCGAACAAAAGCAGTGCTGTGCACGTCACCAATCGCCAAGTGCGGGTGGTGGCCACCGATACGATCATCGGCGACATCACCAAAAATATTGCGGGCAAGCATGCCCAAATTCACGTCATCGTTCCCACCGGCCAGGATCCCCACGAATACGATCCGCTCCCGGCGGACGTCCGCAGTACAAGCAAGGCAGATGTCATTTTCTACAATGGCGTCAATTTGGAAAATGCGCCCAATGCCTGGTTTACCAAACTGCAAAAGAATATCGGGCCAGCCGCCAGCAAAAAATCCCACGCCGTGAGCGACGGCATTGATGTGATTTATCTGCAAGGGAGAAATGAAACCGGTAAAGAAGATCCCCATGCCTGGCTGAATCTGGCCAACGGCATCATCTATGCCAAAAATATTGCCATTCAGTTGAGCGCGGTCGATCCTCAGCACAAAACAGATTATCAGCGCAATATGAAACGGTACACCGCCAAGCTTGCCCGGTTGGACGCTGCGGCTAAGACGAAATTCGCCAAGATTCCCGCGAATAAAAAATTGATCGTGACCAGCGAAGGCTGCTTCAAGTACTTCAGCAAAGCCTACAACATCCCGTCTGCTTATATTTGGGAAATCAACACGGAAGAAGAAGGCACCCCGGATCAGATTTCGTCTCTGGTGCGCAAGCTGCGACAAGTCAAACCCAAGTCCCTCTTCGTGGAGAGCAGCGTGAATGCCAAACCGATGCAGACCGTTTCGAAGGATACCGGCATTCCGATTCATTCCACTTTATTCACCGATTCGATTGCCGCGAAAGGCAAAACCGGGGATAGTTACTATGGGATGATGAAGTGGAACCTGGATAAAATTGCGGAAGGGTTGCGTGTGGATTAA
>SRR1151209_00673 hypothetical protein
ATGCAACAGGCGCAGGTTTCTAAACACCGTTGGATTGTTGGACTGCAGTTTTTTTCAATCGTTTGGTTTGTTGCCTATCTGGGCATCATGCTATTTTATCCGTCACTTGGGCCGACTGTCACTAGACTTTTGGACCGGGCGGCCACTGCCGTGTTGGTGTGGGTTGGAATCGTTGGTTTCCCAGCGTGCTCCGTTGGGATGTTTGTTTATCTTAGCCAGAATACCAAACGCGGGCATGTGTTATGGACGTTTTTCGCTAATTTGGCGCTGTGGATCGGATTGGCCACGATACTGTGTACTTTGATTTGGGGCGGCCACTGGATTGATGTTATTAATTTGAACACACCAGCACCTGTCCCTGATGTACCTTTCGGATAA
>SRR1151209_00674 rhomboid family protein
ATGGCTTTTGAAAGGCATTTGTTGAAGGTATCGCGTGCAACAGAGAAAGACCTGCTTGCCGCTGAACGAAAACTAACTGGCCATCATCGTTCAGATGGTACGACCACCAAGAGTGTGCGGGGTACTCTCCCGGGCAAGCAGACACCCATCTCTACAAAGACTAAGGGAATTTTAACTGCTCGTATCTGGGATGAACGGATGTTAAGGATTGAGGCCGTGTTTGTTGGCGGTTATTTTCTGTTGATGATTATTTGGCCACCGGCCTTTGGCTTCTTGCCCCTGGTGCTGGTTACGATTGGTCTTGTGTGGCTCATTGCAGAGATCCTAAGTCGGGTGTTACCGGGCACTGCCTTTGGCGTATGGTGTGCACACAGCGTGCTCCAGTCAGTGCAATGGTTCAAGGCGGTACCGCCGTGGGCGACTTTGGGATACCTGGGTCTAGCCCTGCTGGCTTGGGCAGCGCTGGCGTTGCTTACTGGCAAAACCAATGATTTCCAGACGACAAGCCCTTATCGCTTGGGTACAATGGTGCCATTGGTTGGGCCGTTATTATTTCCAGCGGGCAGAGAATTAGCAACTGTGGCCGAATTCTTCTTCGGAATTTTGACATTGGGAACCTATTCAGAACATTTCTTGGGCCATCGACGGTTTTTCTTGATCGTAGGTGGCACTTATACGATCATTCAATACATTAGCGTGGCTAATCATTTTCAATACGTTATGCTTCAATGGATGATCTTGGTCCTGGTGGGCATTTCAATCGTTGGCGTGTGGCAAGGCCGATCCTGTCCGGCCTGGTTGCAGGCCAGCGCGTCTGTTATTGGTTATTCGTGGGTAGTGCGATCGTTGCCGCTGGATACTGATGCACAGATTGCTTTTGTGACTTGGCTCAGTTTAGCGATGATCCTCGCTGGCGGTATCGCTGCCTTTGCAGTCATGCGAAAGCAGCGGCAACTTCGCCGTGTTGCTTTGAAGAAGTTACCGTCTGTTCCATGGGTGACAATCGGCTTGGACGTTGTCCTCATTGCTTTTTTTGTCATCGAAGTAATCGTTAGTGGGGGCTTAGATCAGTCCAACATGGTGAACCGTGAGGCACTCGCATCGCTGGGATTACCCAATGAGATTGACTCAGTTGGCTCAGCCGTGAGGCAGATGTTAATTTATTCGTTTCTACAACAAAGTATCGGCCATCTTGTTGGAAACTTGATTGGGGTTGCCATTGGTGGACTCGTTGTTGAGCAATTTTTCGGACATGGCCGGGCATTGTTTGCTATCCTACTCGGTGGATTTGGTGCGTCTTTGATCCGGTCAATCGTGACCTTGACATGCAGTGAAGGGGTGTCTCTCTCATTCAGCGTGGGTATCGGTGCCTCCGGGATGGGCTACGCAATACTGGGGACCGGATTAATATCAACGGTTTTCGCCAAGAATATTGCGACAGGGACCAAAGCCATATTTTACTTTCTCGTGTTTCGTAACATTCCATACGCAATATCGGCAGTGATCACTGGTGGGTTGATCAATCCGACGGCGGACGTAGGGGATGATGTCCACGTTTACGGTTTACTTATTGGTTTGGTTGTTGGCGTATTCTTTTTACTCTGGCATCGATTTGTGGTACGTCGGCCATTGCCAGGTTTGAATACAGACTAA
>SRR1151209_00675 ribonuclease III
ATGGTCGATGCAGCATTTGTTTCTGAGTTGCGCGACCGGTACGGGATCGAGTTCAAGAACTTGCGTCTGTTGGATGAGGCTTTCACCCACTCGTCGTATGCGAATGAGCATCCTGAACTGGGGTTGCGGGATAATGAGCGACTGGAATTTTTAGGTGACGCGGTCATGGAATTGACAGTGTCGGAGTATTTGTACAAGCGTTATCCGGATTGGCCGGAGGGTGAGCTGACGCGGTTGCGGGCGGCGAGTGTGTGCACGCGGAGTTTTTCGATGTTTTCTCGGGAAGCCCATTTTGACAAGTATATTCGTCTTGGTAAAGGAGAAGAGCAGTCTGGTGCCCGCAAACGGCACACGTTGCAGGAAGATACCTTTGAAGCCTTCAACGGTGCGCTTTATCTTGACCAAGGCAAAGATGCGGTCGTGAAGTTCTTGGAGCAGATCATGTTTCCGAAGATTGCGGCGGGGGAATTTTCCGCGGCAAGCGATCACAAGACGTTTTTACAGGAGTACCTGCAAAAGAATGGCCCAGTGGCGATTCAGTATCGTTTACTCGATGAAGAAGGCCCGGCCCATGAGCGCAAGTTTGCGGTGGCCGTGACCGTGGATGGTCAGGAACTGGCTCGGGGCGAAGGCCGTAGTAAAAAGGCGGCTGAGCAGGACGCGGCCAAGAGGGCTTTGACGCTGTTGAAGGCGCAGGCTAAGCAGGCACAGTAG
>SRR1151209_00676 chromosome segregation protein SMC
ATGGGTTTAACGCGCCTACAACTGAAGGGATTCAAATCCTTTGCGGATACGACCACCATCGAATTTTCGCCGGGTATCACGGGGATCGTCGGGCCCAATGGGTCCGGTAAGAGCAACCTTTCTGAATCCATGCGCTGGGTCATGGGCGAGCAGTCGGCCAAGGGTCTGCGGGGCAATCAGATGGCGGATGTGATTTTTGCCGGAACGGAATTGCGCCCGGCCGTCAACATGGCGGAAGTGACGATGGTCTTCGACAACCATGATCATGCCTTGAAGTCCAATTTGCCCCAACTGGTGGTCAAACGGTCGCTGTATGTGGACGGCACCAGTGAATATGCCATCAATGGCAAGGTTTGCCGGCTGAAAGATATTACTGATCTGTTCATGGATTCAGGGCTGGGCAAAGGCTCTTTTGCAATCATCGGCCAGGGACGGGTGGATGAAATTCTAAACTCGAAGCCGGAGACTCGGCGGGATCTGATTGAAGAGGTTGCCGGAGTTTATAAGTATAAAGTCCAGAAGAAACAGGCTGAGGGCCAACTGGCCACGACCATGGACAACTTGAACCGGGTCTTCGATATTACCCACGAGATCAAGGAGCAGCTGGCGCCGCTGGCCGAGCAGGCGTCCATCGCCCGGGATTACCAGAATCAAAAGAGCGAATATGACAAGCTGAACAAATTTGTCCTGGCTGGTGAAATCACGACGCTGACCCAGCAGCAGGCGGCCCAAGCTGACCACTTGGCTGAATTGAAAGGGACCCAAGCTAAGCTGGAGGCGGCTATCAAGGCCGGTCAGGCTGATTTGGCGACCAATCAAAACGAAGTCGCCACGCTGGATGAGCGCTTGACGGCTGCCCAAGAAGACTTGTTGGCCAACAGCAAACAATTGGAGCAGAAAAACGGTCAGTTGAAGCTTGCCCAGCAGCAATCCGATTACGCGGCGTCGACCCGGGCGGAGAAGCAAGAGGCACTGGCCCAGGCTAAAGCTGAGCTGGCAGCGGTGACGAAGACGCTGGCTACCCAGCAGGCGGAATTGGCCAAGCAGACCGCGGCGCTGGCTGAAAACCAGACTGCTCAAGACCGGTTGGCCAACGGCGACGATGCCGGCAAGGACAAACTGCAGCAGCAGCTAACGGACTTGCGCGCCCAAACGGTGGACGCACTGCAGCAGCAAGCAACTGTCCGTAACGCGCTTGGTGAGATCAAGAAGCAGCTGGCTCGGCTGGGGGAAGATACCCCGCTGGAAGCTGTGGCCACTGCAGTACCGGCAGCGTTGGCCAAAAGCGATCAAGATTTATCTGCCGCCAAGCAGGCTTTGGCTGTTGCGGAGGAAACATTGGCGGGCACCGAGCATAACCACCAAATCGGTCAAGAGCGATTGGATGCGCGGCAAAAGCAATGGTATGCTGCGCTGGAGATTTATCAACAAGCCAAGGCCCGTTTGGGGTCTTTGCAGGAGATCAACGAAGACTATGGCGGGTTCTACGCCGGCGCCAAGGCGGTGCTGCAAAACAAAGCGCATCTGGCCAGTATTCACGGCGCAGTAGCCGAACTGATCAAAGTACCGGCCGATTACACGACCGCCATCGAAATGGCTGCCGGCGGGGCGTTGCAAAATATCGTGGTCGACACGGAGCGCAGTGCCACCCAAGCCATCAATTATCTCAAACAAGCCCATGCCGGTCGGGCGACGTTCTTGCCCATGAATGTGATTCAGCCGCGCCGGATCCCCGCCAATGTGCTGGCCACTGTGCAGACGATGCCTGGGTTTATCGGGGTCGCCAGCAGTTTGGTGGATACGCTGGACCGCTACCGCAATATTGTTGATAATCTGCTGGGCCAGCTGCTGATCGCCCAAGATTTGGATACAGCCGTGGCGATTGCCCGGGCCAGTCAGCACCGGTACCGCATCGTCACGCTGGCCGGCGACCTGATCAACCCCGGCGGCTCGATGAGCGGCGGGGCCAACAAGCGCAACCAAAGCGGTGTCTTGGCCCGGCGGGCGGAAACAGACAAGCTGGCCGATCAGGTCAAACAAATGTCCGCGGAACTGGATAAGCGGCAGAGTGCCATTAAGGAATTACAGACCAAACTGGCGGGGTTGAGCGACGACCGGACAGCCCAGCAGGCTCAGGTGAGTCAGCTTCGGACAACACTGGCTGAGCAGCAGGAGGAGAACCACCGGCTGCATGAACAGGATGCCCTGGCAGCGCAGCAGCGCAGCCTGCTGGCGAAACAGCAGGACAGACAAGCGCAGCAGCGCCAGGAGCTGACGAGCGAGCAGCAGGACCGGGAAACTGAATTGGCGCGGGTTACCGATCAGCTGGCGGCACTCAAGCAGCAGACCGCCGCGGTGACTGATCAGATCAACGCGGCCGAACTGTCTCAATCCGAGAAATCAGAGCGGCTCAGCACCCTGCGGGACACGGAAATGCAGCTGAGCCAGACCAAGGCCCGGCTGGACACGCAGGTGGCCACGGCCCAGGAACAACAAGCTGGACTGATCGCTCAGGTGCAGCAATTGACGGATTTCTTAACTGCTAAGGATGCGCCGACGAGCCATATCGATACGGCCGCGCTGCAGGCGGATATCACCGACCTGACGGGTGCGATCGATCACTATTCACAACAGATCAAGACCTGGCAGCAGGATAAGGCCAAAGCGGCCGGTGCGGTCAGTGCCGCTCAAGCCCAAGTGGATCGGGACCAGGAATTGCGTCACCAGACTCTGGCGGAGCAAGAAGACGTCGCCGTGGCAGTGGACCGGTTGAAAAACCAGACCAACACCCGTCTGGCATCGCTCAGTGAAGATTACTCGTTGAGCTACGAAGCGGTCCAGGCTGATTTGCCAGCGGATTTCGACTTGCCGGCAACGCAGAAGCGGGTGAAACTGCTGAAACGGGGCATTGATGAGTTAGGCCCAGTGAACCTGAATGCCATTGCCGACCAGGAACGGCTGCAAAAGCGGGCCGATTTCTTACAGCAGCAGCAAGATGATTTGCTCGCCGCCAAGAAACAGCTGGAAACCACGATGGACGAAATGGATAGTGCCGCAGCAGATCGCTTCCTGGCGACCTTCCAAGCGGTAGCCAAGGCCTTTGCCCGCATTTTCCCGATCATGTTCGGCGGCGGTGCGGCCGAGTTAACATTGACCTTGCCCGATGACTTGCTGCACACTGGGGTAGACATCACGGCCCAGCCGCCGGGTAAAAAATTGCAGCAGCTGTCTCTGCTCAGCGGCGGGGAACGGGCGCTGACTGCCATCACTTTGTTGTTTGCCATTCTGCAAGTGCGGCCGGCACCGTTTTGTGTGCTGGATGAAGTGGAAGCGTCTCTGGACGATGCCAATATCGACCGGTTTGCCCACTTCCTGCAGCAGTATCAGAAGCATACGCAATTTATCGTCATTACCCACCGGCGGGGCACCATGGTTGCCGCGGATCGTCTTTACGGCGTTACGATGCAGGAGTCGGGGGTCTCGAAGATGGTGTCTGTATCATTGAAGGAATTCGCTAATTCATAA
>SRR1151209_00677 cell division protein FtsY
ATGGGACTTTTTGATCGCCTGCGCAAGGCCTTTGGCGGCCACGAATCGGAAGAAGAAAAGGCATCGGCGGCCGCGTCGGCGAGTGCCGAAAATACTGAGAGTGCAGCCGAAAGCAGCGCCTCAGCGGCTGCCAGTATCAGTGCGGCCAGTACGGCGGCTGAATCAAGCACCGACGCATCGGCTTCAACCGTTGCGTCGGCCGCGGCGAGTGTTTCAGCAGCGCCGGAATCAATGGCTGAATCATTGTCTGCGGCCCCAGAGTCGGCAGAAACTTCAGCCAGTGCGGCGGTGCCCGAGGCGGCTTCTGCTGAAGCAGAAACGGATGAGGCGCCGGCTACTGAAGAGGATACTCTAGAACGGTACGACAAAGGTCTGGCCAAATCCCGGACCTCTTTTGGCGACCGCTTGAACCACTTTCTGGCCCGCTTCCGTTCCGTGGACGATGCCTTCTTCGATGATCTGGAAGAGACCCTGATCGAAGCGGATGTTGGCTTTGAAACCGCCATGCAGATCACTGATGAACTGCGGGACGAGGTCAAGCTGCGCAACGTGAAGAAGAAGTCCGATGTGGCCCAGGCTATCGTGGAAAAAATGGTTGATCTATACGGCGATGCGGGCCAGGGTGAAGACAATAGTCTGCACTTTGCCACCGACGGGACGCCGACGGTCTTTCTCTTCGTCGGGGTCAATGGCGCCGGCAAGACGACGACCATCGGCAAGCTCGCTCACCGTTTCCAGGAGGCGGGCAAGCACGTGATTCTGGCCGCTGGAGATACCTTCCGGGCCGGGGCCACAGAACAGCTGGTGGAATGGGGCCGCCGCGTTCACGTACCGGTGGTGACCGGTCCCGCGGAAAGCGATCCGGCCGCGGTCGTCTATGATGCGGTGCACGAGGCCAAGGAGCAACAGGCCGATATCGTCCTGGTGGATACGGCCGGCCGATTGCAGAACAAGGTTAATTTAATGAACGAATTGGCTAAAATCAAACGGATCATTACCCGGGAATTGCCAGAGGCCCCGCAAGAGGTCTTGCTGGTGCTGGATGCCACCACTGGGCAAAACGCCTTGAATCAAGCCAAGGAATTCACCAAGACGACTGCCGTCACGGGAATCGTGCTGACCAAACTGGACGGCTCCGCCAAGGGCGGCATCGTCTTAGCCATCCGCAACGAACTGCATCTGCCGGTGAAACTGGTCGGTTTGGGCGAAAAGATGGGCGACTTAGCCGACTTTGACCCGAATAAATTTGTTTACGGCCTGTTCAAGGAACTGATCGTCCAATGA
>SRR1151209_00678 DNA-binding protein
ATGACGGAAGCCCATGATGACGCGGAGCTGATCAAAACGCTCCGGATGAATGAATTGTTTGATTTTTACGGGGACCTCTTGACGGCGAAACAGCGCCGCTACATCGAGCTGTATTACGCCGACGACCTGTCCCTGGGGGAGATTGCTGAGGAATTTTCGGTTTCTCGTCAAGCCGTGTATGATAATATCAGGCGGACGGGCAAGCTCCTGGAAGAATATGAAGCCAAGCTGCATCTGCTGGCCCAATATACCGGGTTGGATGACGCGGCGACGGCCTTGCAGCAGTATGCGGTGGTTCATTACCCGACCGATACACAGCTCCAAACGCTGGTGACTGCGCTGCAGCAGCACCTGGCCCGTTAA
>SRR1151209_00679 signal recognition particle protein
TTGGCCTTTGAAGGATTAACTGAACGACTCCAAAATGCTTTCAGCAAATTACGACGAAAGGGGAAAATCACCGAGAGCGACGTCCGCGATATGATGCGGGAAGTGCGGCTGGCGTTACTGGAAGCCGACGTTAACTTCACCGTCGTCAAGGACTTCGTGAACACGGTGCGTCAACGCGCCTTGGGCGCTGACGTCCTCGATTCCCTGACTCCCACGCAGCAAGTCTTGAAGATTGTTAACGAGGAACTGACGAAAGTCATGGGGGACACCGCGGTCCCGCTGAATAAGTCACCCCATATCCCCACGATCATCATGATGGTCGGGCTCCAGGGGGCTGGTAAAACAACCACCGCTGGCAAGTTAGCGCTGAAGCTGAAGAACGAAGAACATGCTCGCCCGCTGATGATTGCAGCGGATATTTATCGGCCGGCCGCTGTCGATCAGCTGGTCACGCTGGGTAAACAGATCGATGTGCCGGTCTTTGAACAAGGCACCGACCACGATCCGGTGGATATTGTCAAAGCCGGCTTGGATCAAGCGGCGCTGCAAAAGAACGACTACGTCCTGATCGATACCGCCGGCCGATTGCAGATCGATGAGCAGTTGATGGACGAACTGGTACGGATCAAAGCGTTGGCCCACCCTGACGAAATTCTGCTGGTGGTCGATGCCATGACGGGGCAAAACGCAACCGAGGTGGCCAAAGGGTTCAATGACCAATTGGACATTACCGGCGTTGTCCTGACCAAGCTGGATGGCGATACTCGGGGCGGGGCAGCGCTGTCGATTCGCGCTGTCACCGGCAAACCGATCAAGTTCACGGGGCAGGGTGAAAAGCTGGAAGATCTGGATGTCTTCTATCCCGACCGGATGGCCAACCGTATTCTTGGCATGGGCGACATGATGACCCTGATCGAGAAAGCCCAAAAGGACTATGATGCCAACCAGGCTGAAAAAATGGCCGAAAAGATGCGGGAAAACACCTTTGACTTCAATGATTTCCTGGATCAAATGGGCCAGATTCAGAATATGGGTCCCGTTCAGGACTTAATGAAGATGATTCCTGGTCTGGCCAATAATCCAGCTGCTCAGAACTTGAATATCGGCGATAAGGACATTGACCACCTGAAGGCCATTGTCTATTCCATGACGCCCCAAGAGCGGGAGCAGCCGGAATTGCTGAACCCGTCCCGGCGTCGCCGGATCGCCGCCGGCAGCGGCCGCAGCGTCCAAGAAGTGAATCGGATGATCAAGCAGTTCAACATGTCCAAGGAAATGATGCAGAAGATGTCCAAGGGCAACATGAGCGGCATGGAGGGCATGTTCGGCGGCGGCGTGCAAGGCAAGCTGGGCCAAATGGCCATGCGCTCCATGGCCCGCAAGACGAAGAAGAACAAGAAGAAGCGGCTGAAGAACGTGAAGCGGTTTAAGACGCATAAATAG
>SRR1151209_00680 30S ribosomal protein S16
TTGTCCGTTAAAATTCGTTTGACGCGCATGGGTTCGAAACGTAAGCCATTTTACCGTTTAGTCGTTGCTGATTCACGTTCACCGCGGGACGGCCGCTTCATCGAAGAAGTTGGTTACTACAACCCGTTGACTGAACCGAAGACCCTGAAGATCGAAGAAGACAAGATCATGGACTGGCTGCAAAAGGGTGCGCAACCCTCTGACACCGTTCGTAACTTGTTATCGACTCAAGGCGTCATGAAGAAGTACCACGAAGCCCGTTTCGCTAAGAAGTAA
>SRR1151209_00681 RNA-binding protein
ATGGTAGATATCGAACATTTGATTCGTTCTCTGGTGACCCCTTTGGTCAATGAACCGGACGCGATTCAGATCAACCGCCGGGAGACCGAGAGCTTCATGGAATTCGATTTACGAGTGGCCGACGCCGATGTCGGTCGCGTGATCGGCAAACAAGGCCGCATTGCGCAAGCTATTCGCACGATCGTTTATTCCGTCCGCAGCCCTTACGACAAGCGGGTCCGGTTGAACATTGTCGATCAGAATTCATAA
>SRR1151209_00682 transposase
ATGCCAATCAAAACACACAAGATACGGATCTATCCCAACGCCGAGATGGCCACGGTCATCATTGAGCTGATGGACTATAACCGTTTTTGCTGGAACAAAGGTTTGGCCGCATGGAATGACATGTATGACGCGTCATTAGACATGGCAAACAAGAAATTGCGTCCTAGCGAATGCAAAGTCCGAGACGAGCTGGTGAAGAACAAAACCGACTGGCAGCATCAGTTTTCAGCACGAGTGCTCCAAACCGCTGTCCACCGGCTGCATCAAGCTTGGCAGAATTTCTTCAATCCCGCTATGCCGGACGCTCACAAGCCTAAGTTCCATCATAAGTGGGATCCCAAGCAAAGCTTTACAACGGATCGAGCGGTTATTACCGGCAAGTACCTGACCTTGGATCGGCCGCACGCAGCCAGCCATCGGTTCAGCGCTATTAAGATGGCGGAAGAATTACGTTTTACTGGCGAGATCAAAACCGTGACGATAACCAAGCGCGGGAAAAAGTTCTACGCCAGTGTCAACGTATTGGTTGAAGATACCCCACATCCGGCTTTCTATGACTCCTGGGACATCGTCGGCATTGATGTGAACGTGGGCCATATCCGCTGGAACGGCGGGGACGTCAACACCTTCACACCACGCATGGCAGCGTTGCATCAACGCATCAAATATTACCAAAAGTGTCTGAACCGGAAACGGCGGAGAAATCCCAGCGTCTACCGGTCCAAGACCTATCAGCGGATTACAGCAAAGATGAACCGCGCCTATGAGCAGGTACATGCGTTGCAGGATGATCTGATTCACAAATTCAGCCACATGATTATAAAGAATTATCCTGTTCCCTGTTTAGAGGATCTGGATGTCCACAGGATGATGATGGACGGGAAGAAAGTCAAAGGTCTTCAGCGCGGTCTCTTTCGCCGCTTGCGCACAGCAATCGAGTACAAGGCAGCTTGGCATCACCGCAATTTGGTGATTGCCAATCGTTTCTTCCCGTCAACGCAGCGCTGTTCAAACTGCGGCTGCATCAAAACCAAGGAAAGCTATGGCGGTAAGATGACGCTTCAAGGCGACAGCATTTACCACCAGCATGACGTTTACCGCTGTTACGAGTGCGGTCTTGTCATTGACCGAGACGATAACGCTGTGCAAAACTTGATTCAGTATGTGGCGGGGCTTACGCCGGAATGGGAAACCGTTCAGAGATGA
>SRR1151209_00683 16S rRNA processing protein RimM
ATGACGCAATTATTCCGGGTCGGCGAAATCGTCAATACCCAGGGCATCAAAGGCGAAGTCCGGGTCCTAACCGTGACCGACTTTCCCGAGGAACGGTTCCAACCTGGCAGCCAGCTGGTTGTCGGCCAGTCCGCTGCGACAGCCGCCACACCGGTCACTGTTGAAAGTGCGCGGCCGCATAAGCAGTTCATGCTGTTGAAATTTGTCGGCATCGATTCGATCAATGACGCCGAACCGCTAAAGAAGCAAACACTCTTTGTTTCTGACGCTGAACAGGGTGACTTAGCTGAAGGTGAATTCTATTACCGGCAGATCATCGGGTTAACCGTCCTTGAAGAAGAGACCGGCGAAGAGCTGGGCACCGTGCGCGAGATCCTCTCCCCAGGGGCTAACGACGTATGGGTGGTGGCTAAAGCTGGGACACCGGACCTGTTGATTCCCTACATCCCCCAAGTCGTGCATCGCGTTGATTTGGCTGCGGGTAAAGTGTACGTCGAGTTAATGGAAGGGATGCGGTAA
>SRR1151209_00684 tRNA (guanine-N1)-methyltransferase
ATGCGCGTTGATGTGTTGACCCTGTTTCCGGATATGTTCGCCACCTTGCATCAGTCCCTATTGGGCAAAGCCCTGGAGAAGGAATTGTGGCAGCTGAACGTCGTGAACTTTCGCGACTACACCCACGATAAACACCAGCACGTGGATGATACGCCCTATGGCGGCGGGGCCGGCATGCTGCTGAAGCCGGAACCGATTTATGAGGCCATGGATGCCCTGCCCAAGCTGCCCAAGCGCCGGGTGATCCTGCTGGATCCAGCCGGGCGGCAGTTTAACCAGACGGTGGCCGATGAGTGGTCCCAAAGCGAGCAGCTCGTCTTTATCTGCGGTCACTACGAGGGCTATGATGAACGCATCCGCGGGCTGGTCACCGAGGAGGCCTCGCTGGGCGACTTTGTCATCACCGGCGGGGAACTGGCCGCCATGACCATGATTGACGCCACTGTGCGCCTGCTGCCTGGTGTATTGGGCAACGAAGATTCACCAATCACCGATTCCTTTGCGACGGGTTTGTTGGAATATCCCCAATACACTCGCCCGCCGGAATATCGGGGGATGAAGGTGCCGGAGGTGCTGATGAATGGCGACCACGGCAAGATTGGGCGCTGGCGGTATAAAGAGGCGTTACGCCGCACTCTGGAACGCCGACCGGATTTATTGCGGGACTATCCGCTGGATAAGATGGGGCGCGAGCTGCTGCGGGAGGTTAAGGAAGAAGAAAATACGCACGAGATTGATGACCAGTGA
>SRR1151209_00685 hypothetical protein
GTGGTTCCAACGAAAAAGCATTTAGTCATTATTGGTATTTTAGAAGTTTTGTACGGCGCCGTGTTTACCCTGTCGCCATTGTTCTCCTTTGACGGCAGTCGTTTTTCCTTTGACCTGGCCTTGTTTCTTACCGGGGCGGCATTGAATTGGGGACTGCTCATTTATAATGTAGTGGCCGTTTTTCTAGATCGCAAACATGCTGGTCTGTATGCCATCTTTCCAGTTGCCTGGATTCTCATGATGGCGGCCGAGATGATGTTGTATAACAATCGTGCATTGGCGCCGCTGTTTACTTACGGGCATCCCATTTTTACAATTCTCCTCGGTGTTTCCTTAATTATTATCTGGCGTCGGGGAGCACATAAAGTCATGGCTCCCGCGCGTTAG
>SRR1151209_00686 hypothetical protein
ATGAACAAGCAGATGCGGATCGTGGGTATTCTTGAACTGATTTTCAGTATTGCTTTCGTGCTGCTGATTCCTGCCCAACACGGCAGCAGCACGGTGTTTATCTTGAGCTTGTTGATCGGTGGGGCGCTGCTGGTCATTTTGCCGATCGCGACGATTATCGCCGCGGTCCGCGACCGCACTCATGCAGGCATTTATCTGATTTTTCCGATTTTGTTAGCCGTTATTCTATTGCTTCATGGTGCGTTGGAGACCGAGTTCGAGATGGTCCTGGACTATGGCTTGCCGGTAGTGGCGGCGGTTTTGGGCGCAATAATGATTTTTCTTAGCCAACGGGAGAAGAAGGGCACACCGGCGGAAAATGTGGCCCGCTATTATCGGTTGCTGCCGATCGTGGGCATTGTCACCAGCGTGGTTTTGATTGCACTGGTGCGTCTGGTCAATGGTTATGTATCCTGGCTGGGCTATCTTTACTGCTTGTTGCCGATCGTTGTTTACTCCGGGTTATCTCTGGTACATCGGTGGCGGCACACGCCTAATCAATAG
>SRR1151209_00687 hypothetical protein
ATGGGGAAAAATCAAATTCGGCTGTTGGTGATGGGTATTTTGCTCGCTGTCTTTGGCGCGTTCTCCACGCTCAACGCGGCGTTTACCCTCGTCAGCGTACCGTTGAGCATGACTCATATGGAACGCGACCTTTTAATTACTCTTCTGATTGGCGCAATCATTGGCCTGCTCATGATTCTGGTGCTGATTGCCAGTTTCGTGTTCGGTATTTATGACCGGCGCAATCGCTGGCTGTATTGGGTGCCAATAATCGTACTGGCGGTGGTCGGGATTATCACGATCAAATGGCCGCTGCCGGCCGTTCTCCAGTCTGAATATCTGGGGACAGTGCCAATCCTGTTGTGGGGTGTTTGGATGATTTTGCGGGCGGTTCAGAACAAGGTCAGCCCGGATCCAAGCCAACAGCAACGATATCCTAAGCCTGTCGGACGCTAG
>SRR1151209_00688 hypothetical protein
ATGACACTCATCAAGTTTCTGCTCAATGCCGTAACAGTTATCGCCGCGTTGATCACCATAGTTGGAAACGCGTGGATTCTGTTCGCTACTATTCGGAAAATTCCCGTTTCCCGCCGAGCGAGCGTCATTTCATTTGTCTCGCTCATTGTCATGGTGGTCATGAGCGTGGTGCTGGACTGGCTGCATTGGCGTTAA
>SRR1151209_00689 50S ribosomal protein L19
ATGAATCCATTAATTCAATCAATTACGCAAAAACAATTGCGCGATGACATTCCCGACTTTCGTGCCGGTGATACGGTGCGGGTCCACGCCCAAATCGTCGAAGGTACGCGGGAACGTATCCAGCTTTTCGAAGGCGTTGTAATCAAGCGCCGGGGCACTGGCATCAGTGCTTCCTACACGGTTCGTAAGATCAGCAGCGGTGTTGGTGTAGAGCGGACATTCCCGCTGCACTCTCCCCGTGTTGCGAAGATCGAAGTCATTCGCCACGGCCGTGTCCGTCGGGCGAAGCTGTACTACCTGCGTGCACTGCGGGGCAAGGCTGCTCGGATTACCGAGAAGCCGCGCGTCTAA
>SRR1151209_00690 hypothetical protein
ATGGCGCAACGATTTGTATATGTTGTCTATTACGCTGATACGGCGAAAAAAGAGCCAGTATTCCGTTTGCTCCGAGTCTTTTCGACCCCGGAACGAGCGGCGGGTTTCGTGGCGATTCTCGAACGGGCACCGTACGCAGAAATGCCGGTGCCGGAGGGCCGCTACGCCGTTAAACGGGTCCGCATGAATTAA
>SRR1151209_00691 LexA repressor
ATGGCCAAATTAGGAGAGAAACAAGCAGAAATTCTGCAGTACATTTATGACATGGTGAAGGACCGCGGGTATCCGCCGACGGTCCGGGAAATTGGGGCGGCGGTTGACTTGTCTTCCACGTCCACAGTGCATGGTCACTTGGACCGGCTGGAACGCAAAGGCATGATCAATCGCGACCCGACTAAACCGCGGGCAATTGAGATCACTGAGGACGGGCTGGACGAATTGGGTGCGACCCGGGATCGAATCCCCTTGTTGGGTACTGTAACGGCCGGTGAACCGATTTTGGCCGTCCAAGAGGCCACCGAGTTCTTTCCGGTACCGCCTGATCTGCAAAACGATGGCGATTTGTTCATGCTGCAGATCCGCGGCGAAAGTATGATCAATGCCGGCATCCTCAGCGGCGACAAAGTCGTTGTTCGCCGCCAGCAATACGCGGATAACGGCGACATCGTCATTGCCATGACCGAAGAAAATGAGGCAACCTGCAAACGCTTCTACCGGGAGAAGGATCACTTCCGTCTCCAACCGGAGAACGACACTTTTGCGCCGATCATTTTGCAAGAAGTGACGATCCTCGGCAAAGTCGTTAGTCTGTATCGCGAACACGTTTATTAA
>SRR1151209_00692 hypothetical protein
ATGGCAGAACAAACTGAAGAAGAAAAGCGCTTGGCACGCATTAATGAACTGGCCCACAAAGCAAAAAAGGAAGGCTTGACCGCCGATGAAGAGCGGGAACAGCACGAACTGCGGGAAGCCTACCTGGCCAACTTCCGCGCCGGCTTCCGCCAGACCATTGAGCACTTGAAAGTGATCGATGAAGAGGGCAACGAAGTGACCCCGGATAAGCTCAAGCGGGTCCAGCGTGAAAAGGGTATCCGGAAGGATTAA
>SRR1151209_00693 hypothetical protein
ATGATGCCCATGTGGTTGGCAGTGTTGTTGATCATTCTAGGAGTTGTCGGCGGAGCCGTCCTAGGATTCTTCGGCGCGCGGCGGTATATGAAAAATTATTTCCGAGATAATCCCCCCATCAACGAAGATATGCTTCGTTCGATGATGATGCAAATGGGTCAGAAACCATCTGAGAAGAAACTCAATCAGATGATGGCCTCCATGCGTCAACAGGAAGCCAAGAAATAA
>SRR1151209_00694 multidrug ABC transporter ATP-binding and permease protein
GTGGGCATATTTAAAAAGCTGGGCTGGTATTTTAAGCAGGAGCGGAAGCGATATCTGATCGGGATCTTAGCCTTGGTGGGGACCGCCCTGGTGAACCTGGTGCCGCCCCGGGTGATTGGGATTCTGGCCGATCTGTTCGACCAGGGCCACATCACCGGCAACGCGACATGGTGGTGGATCGGCTTGTTATTAGCCGCCGGTATTTTCCAGTACCTCTTCCGCTTTGCTTGGCGGAATATGATTTGGGGCGGCGCAGCGACCCTGGAAAAACAGCTGCGGTCTCGGCTATTCTGGCACTTCATGCAGATGGACGATACCTTCTTCCAACGTCACCGGACCGGGGACTTGATGGCCCATGCCACCAACGACTTGAATGCCATTCAAAACGTTGCGGGGGCGGGCATCTTAACGTTCGCCGACTCAATCATCACTGGCGGGTCGACCCTGATTGCGATGATGATCTTCGTCGACTGGCGGCTGACTTTAGTGGCAATTATTCCGCTGCCGTTGTTGGCGGTCACCGCGCGGCGGTTGGGTATGAAGCTGCACGCGGCGTTCTCTGAATCCCAGGCGGCGTTTTCGCGATTGAACGATAAAACCCAGGAATCCGTCTCAGGGATTAAAGTCATCAAAACGTTTGGCCAAGATCAAGAGGACGTCGCCGACTTTAATAAAATCGTCGACCGCACAATTCTCATTAACAAGCGCGTGAATCGGCTCGATTCACTGTTTGATCCCGTGACGAGTCTGATCATTGGCGCCACTTATGTGATTGCTATCATTTATGGCGGGACCATGGTTAATGCCGGCACCATTACCATTGGCTCGCTGATTTCTTTCGTCGCTTACGTCAATGCCTTGATTTGGCCGATGTTCGCTATTGGCCGGTTATTCAACGTGATTGAACGGGGCAATGCCAGTTACGATCGGGTGCAGGAACTGCTTCAGGAAAAGTCGGAAGTCGTCGACAAACCGAATGCCATTACGAAACTGTCCCATACCAACATTGATTACGCCCTGGATCATTTTACGTATCCCGGCGCGCACAAGGTCACCTTGCAGGATATTCGCTTCAATCTGCCAGAAGGCCGCCAGTTAGGCATCGTCGGCCGGGTTGGGGCCGGCAAGACGACGATCATCAAACTGCTGTTGCGGGAATTTGACCAATACACCGGCGTGATCAAGATCGGCGGCCGGGATATCCGGGATTACACGCTTGCGGCGTTACATAATGCCATCGGCTATGTCCCTCAGGACAACTACTTGTTCTCCACGGATATCCGGAATAACATTCGTTTCTCGGCTTATGAGAAGGACCAGCCGGCCGTGGAGGCGGCGGCCAAGACCAGTGCCATCCATGACGACATTCTCCAATTTGCTGACCAGTACGATACGCTGGTGGGTGAAAAAGGGGTATCACTGTCCGGCGGCCAAAAGCAGCGGCTTTCCATTGCTCGGGCGGTCATCGCTGAACCAGATATTTTGATCATGGACGATGCCCTGTCGGCGGTGGATGCCAAGACTGAAGAACAGATTTTATCCGGTCTGCAAGAGGATCGAGCCAATAAGACGACGATCATCGTCGCCCAGCGGCTCAGTTCGGTCATGCATGCCGACGAGATCTTAGTCCTTGATGATGGTCGAATCACTGAACGCGGGACCCACGACCAGTTGCTCGCCGATCACGGCTGGTATGCCGAAATGTGGGCAGAACAGCAGCTCACCCAATCAATGGAAAGGAGTGACGCGTAA
>SRR1151209_00695 multidrug ABC transporter ATP-binding and permease protein
ATGGCCGCAAAGAATCCTTACGAATCCGCTTGGAATCAGCATATTCCGGTCAAAGAACAGATGAAACTCACTGGCCGGCTGATGAGTTTTGCGAAGTACTACAAAAAGCAATTCATCAGCGCCATCATCCTGTCCTTTGCTCTGGCCATTATCAACATCTGGCTGCCCCGGGTCATTCAAGAATTCATGAATGGCGCGCTGGCCAAACATAACGCGACCACGGCTACGATCCTTGGTGCTGGGCTGGTTTATGCCTTGGGCACGATCGTGAAGGCCATTGTCCAATTCGGCAGCAACTTCACCTTTTCCATGGGGGCTGAACGGGCGATGGAAGACGTGCGCCGGCAATTATTCGCCAAGCTGCACACCCTGGGCATGCGCTATTTTGATTTGACCCCGGCCGGTTCCGTGGTCTCACGGGTCACTAACGACACCATGACACTCACCGATTTTTGGAACGTGTTTATGTCCCTGCTGGTGGGAATCTTCTCCATCGGTACAGCGCTGGTGGCGATGTATATCAATAACCCAACGGCGGCTTGGATCGTGGCAGCGTTCATTCCCATCCTGCTGCTGGCGACCTGGTTTTATAACCGATACAGTTCAAAGGTGTATCGCCATATGCGGGCGAAGCTGTCCGAGCTGAACGCTAAGCTGAACGAGTCCATCGAAGGGGTCTCGATCATCCAAAACTTCGAGCAGCAGAAGCGGGTCGACAGTGAATTCGAGGACGTGAACAACGATTACTTGGATTCCCGCCGGGCAATGATCAAGACTAACTCGCTCCTGCTGTCCTCTTTTCTGAATCTGATCTACGTCTTTGCCTTGACGGCCGTGCTGATTCATTTCGGGATCATGGCGGAGACGGCAGTGGTCGCGGCAGGGACTGTGTATGTCTTCTCCAGTTACATTCAGAGTTTCTTCAATCCGCTGGGCAACCTGATGGATCAGTTGCAGTTCTTCCAGGATGGCGTCGTGGCTGGCAGTCGGATATTTCGGATTCTCGATAATAAAGAATTGGCGCCGCAGCAAAACCCTGGCGCGGATGCCGTCGTCCAAGAAGGCAAAGTAGAATTTCGCCACGTGTCCTTCTCTTATGACGGTGAAAACGAAGTGCTCCACGACATCAACTTTGTCGTGAAGCCGGGTGAAACCATCGGCCTGGTGGGCCACACCGGGTCCGGCAAGAGCTCGATCATCAACGTCATGATGCGCTTCTATGAGTTCTACCAGGGCCAGATCCTGATTGACGATCGGGATATTCGCGATTATCCGATTGAGGAACTCCGCCGCAAATTAGGTCTGGTACTTCAGGATTCCTTCCTGTTCTACGGAGACATTGCCTTCAACATTCGCTTGTTCAACGACAAGATTTCAGATGATGAAGTGAAGAAAGCCGCTGAATTCGTCCAGGCTGACTCGTTCATCGAAAAATTGCCGAACACCTATCACGCTCGGGTAATCGAGGGCGGGGCGCAATTCTCCAGCGGCCAGCGGCAATTGATCTCTTTTGCCCGCACTGTGGCAGCGGACCCGAAGATCCTGGTGTTGGATGAGGCGACTGCCAATATCGACACCGAGACGGAAACGTTGATCCAAGACGGCCTGCGCAAGCTGCGGCAGGGCCGTACGACCATTGCCATTGCCCACCGGCTCTCCACGATTCGCGATGCCAGCCAAATTTTAGTGCTGGATAAGGGACGGATCGTTGAAGCAGGGACGCACGACGAATTGTTGGCCCAAAAAGGTAAATATTACAATATGTACCAATTGCAAATGGGGAAGGGCGATCTTTCCCAAGACTAA
>SRR1151209_00696 glutamine ABC transporter substrate-binding and permease protein
ATGCAGCGCAAATCCTTTGTCACAGGATTATTTGTCATCTTAGCGGGTCTTTTTCTCACGTTGTGGTCGGCCAAACCGGCGCAGGCGGCGGAGAAGCACTATACGATTGGGACGGACGTTACATATGCCCCCTTCGAATTTGCTAATGAAAAGAACCAATACGTCGGTATCGACATTGATCTCATGAATGCAATCGCGAAGACGGAAGGGTTCACGGTGACCATCAAACCCGTGGGCTTCAACGCTGCCGTACAGGCGTTGGAGGCGGGCCAAATTGATGGGGTGATCGCCGGCATGTCGATTACGCCGGAACGGCAAGAAAAGTTCTTGATGAGCAAACCCTATTATAATGTGGGCGTCGTGATGGCGGTTAAACAGGGGAGTAAGATCAAGAGCCTGAAACAGTTGAAAGGGCAGCGGGTAGCCATCAAGACAGGCACCGCTGCCGCCAACTATGCCCTGAGCGTCAAGGATAAGTACGGCTTTACCACCGTCACCTTCGATGATTCCAACAACATGTACCAAGACGTGACGACGGGTAATTCAGTGGCCTGTTTCGAAGATTCCCCAGTCATGCAATATGCCATCAATACCGGTTTGAAGCTGAGCATCGTCACTAAACCAGCAAACCCTACTGGGTACGGCTTTGCCACCAATAAGAAAAATACTGAATTGATGGCCCAGTTCAATGCAGGCCTGAAGAAACTGAAGGCGAACGGCCAATATACCAAGATTTTGCAAAAATACTTAGGGACCGGCTCTAAAAAGTCCCAAGCGGCGGCTAATAAAAAGACCCAGGAAACTGACCGGTCCTTCTTCGGCTTGCTGAAAGCCAACTGGGGCACATTGATGGGCGGGCTGCAAGAAACCCTGCTGGTAACTGTGGTGGCCATCATCTTTGCCACCATCGTCGGCATTCTCGTTGGTTTGCTGGGCGTTTTACCCAATGCCTTTGCCCGGGGCATTTCAATTACCTTTATCTATATTTTCCGCGGTTTGCCGCTGCTGGTGCTGGCCCTGTTCATTTACACAGGCGTCCCCAGCTTGATTGGCGCCAAGGTGCCGGCCTTCCTTGCCGGGATCATTACGCTGACCTTGAATGAAGGGGCATATACCGCTGCCTTTGTGAAGGGCGGTATTGAAGCCGTGGATGTGGGTCAAATGGAAGCGGCCCGTTCCCTGGGGCTGCCCTTCGGCAAGGCCCTGCGCAAAGTCATTTTGCCGCAGGGTATCCGGATCATGGTGCCCAGTTTCATCAACCAGTTCATCATCACCCTAAAGGATACGTCGATTCTGTCGATCATCGGTATCCTGGAATTGACCCAAAGCGGGAAAATTATCATCGCCCGGAATATGGAAGGCTTCAAAATCTGGACGATGGTCGCCTTGATTTATCTCGTTATCATTACGCTCCTCACTTGGCTGTCTAACTGGGTGCAGAAGAAGGTGCAAGCATAA
>SRR1151209_00697 amino acid ABC transporter ATP-binding protein
ATGACAGAAGAAAATACCGATCGCGTGCAAATGCAGGATGTCTATAAAGACTACGGTACGAACCACGTCATTAAAGACGTCAACCTGAATGTCAAGAATAACGAAGTCGTCGTGCTCATTGGTCCCTCCGGCGCCGGGAAGAGTACGGTGCTGCGCATGATCAACGGCTTGGAAACCACGACGAAGGGACACATCCTGATCGATGGCGCTGACATCAGCCAGCCCCATGTGGACATCAACCGTATTCGGGAGAAAATCGGCATGGTGTTCCAGCATTTCAATCTCTTTCCCCACATGACGGTCCTGGAAAACGTGATTTTAGCACCGGTGGAGTTGAAGAAGGCAGATAAAGCCACTGCCACCGCGGAAGCCCGCAAGTTTCTGGAAACCGTCGGCCTAACCGAAAAAGCCGACGCCATGCCTGCTTCTCTTTCCGGTGGCCAGCAGCAACGGGTCGCCATCGCTCGCGCTCTGGCCATGCATCCCGATATCATGCTCTTCGATGAACCGACCAGCGCCCTTGACCCCGAAATGGTCGGCGACGTCCTCCAAGTCATGCGCCAACTCGCCCAACAAGGCATGACTATGGTCATCGTCACCCACGAAATGGGCTTCGCCAAAGAAGTCGCCGACCGCGTCGTCTTCTTCGATGGTGGACAAATCCTAGAACAGGGCACCCCAACAGAAATCTTTGACCATCCAAAGGAAGAACGGACTCAGTCGTTCTTGAATAAGGTATTGCAGGCCTAA
>SRR1151209_00698 hypothetical protein
ATGGGCTCAGCCGTGGGAACCACACAGCGGCGTTTTTTGCCGCTGATGTGGTTAGGCGTCTTGAAGACCGCGGTCTTTGCGGGCTTCAAGCGCCGTCACGGCTAG
>SRR1151209_00699 1-acyl-sn-glycerol-3-phosphate acyltransferase
ATGCTCTACCGCATCTTCCGGGTCATTATCCGGTTTGTCATTTTCGTATTAAATGGTCACATGGTGGTTTTGGATAAGGAAAAGGTACCGAAAACACCCTATATTCTCGTTGCCCCCCATCGCACCTGGTGGGAACCAGTGTTATTCGCAGTGGCGGGCAGTCCCATGGAATTCTCTTTCATGGCGAAGGCGGAGTTGTTTCACAATCCGATCATTCGCTGGATCTTGCGCAACGCGCATGCCTTTCCGGTGGACCGCGCCCACCCAGGGCCCAGCGCGGTAAAGACGCCGATCAATAATTTGCGGAAGAATAATTTGTCCGTAATCATCTTTCCTACGGGGACGCGGTATTCCAACGACATCAAGGGCGGCGCGGCGCTGATTGCCCGATTGGCCGGGGTGCAGCTGGTGCCGGTGGTGTATCAGGGGCCGTTGACGTTCATGAATTTGTTGAAGCGGCAGAAGATGATTATTGGGTTTGGTGATCCGATCACGGTTTCCCGGAAGGGACGGCTGGATGATGCGGCGATTGCGGGAATCGACGCTGAGATGCGGGCGGCGTGGCATGCAATTGATCAACGGATCAACCCGGACTTTGTGTATGTGCCAGATAAGAAGAAGGCGGAGTTGGAGCACGAGGAAGGGAAACTATAG
>SRR1151209_00700 methyltransferase
ATGACTGATCGCTTATTACCCGGAGAACGGATCGATCAGCTGAATAGCGGCGGTATCGAAATTATTCAGAATCAGTCAGTCTTTGCGTTCTCCTTGGACGCCGTGCTGCTGGCGGCTTTTGCCCAGGTGCCGCCCACTGGTCGGATCGTCGATTTAGGCGCGGGCAACGGCGCCGTCGGGTTATTTGTGGCGCGGCGGACCCAGGCCCGGATCGATTTGGTCGAAATCCAGCCCCTGCTGGCGGATATGGCCCGCCGCTCCGCGGCACTCAATGGCTTGGCCGACCAAATCACGGTGCATACCATGCCCATGCAGCAGGCCCCGGGGGTGATTGCCAAGGACAGTGTCGACGCTGTCTTAACGAACCCGCCGTATTTTAAGAATGTTCCCACCAGCAAGCGCAACCCGAACCCGCATCTGGCAATGGCGCGTCATGAAGTGGCGGTTTCTTTGGCTGAAGTGGCTGCGGTAAGTGCGGCGTTGTTGAAATTCGGCGGCAAACTTTTCATGGTCCATCGGCCGGAGCGGCTGGACGAGATCCTGCCGGCGTTAACGGCGCACGGCTTGGCGCCTAAACGGGTACGGTTCATTTTTCCGAAACCGAATAAGGAAGCGAATATGGTCCTGATCGAAGCAATTCGCGGCGGGAAGCCTAACGGTGTGCGCATTGTCCCGTCATTGATCGTCCACGACACAGCGGGGAATTATACCCCGGAGGTGGCCAATGCCCTCCGGAACGACTGA
>SRR1151209_00701 hypothetical protein
ATGCCCTCCGGAACGACTGAGTTGTACTGGTTCTACGTCTTGTTGTGCGCTGATGGGTCGCTTTACGGCGGCTTTACGACTGACCCGGTGCGCCGGGAAGCGGAACATAATGCCGGTACGGGGGCCAAATACACCCGCACCCGCCGGCCGGTCCATCGAATCTACCAAACTTCATTCAGCAGCAAACACGATGCCTTGAGTGCGGAGGCCAAGTTCAAGCGTTTGACCCGCCGGCAAAAGGAGCACTTTTTGACCATTCGCGGCGTGGTTTGGTGA
>SRR1151209_00702 30S ribosomal protein S2
ATGGCAGTATTATCAATGAAGCAATTGCTTGAAGCCGGCGTGCACTTTGGTCACCAAACCCGCCGCTGGAACCCGAAGATGAAGAAGTATATCTTCACTGAACGGAATGGTATCTATATTATTGACCTGCAAAAGACGGTCAAGATGGTCGACACGGCGTACAACTTCGTCAAGGACGAAGCAAGCAAGGGTGCGGTCTTCCTGTTTGTCGGTACTAAGAAGCAGGCCCAAGATTCCATTGAAGAAGAAGCGACCCGTGCTGGTCAATACTACGTTAACCACCGTTGGTTGGGTGGTACTTTGACAAACTGGGAGACTATCCAGACTCGGATCAAGCGTCTGAAGGACTTGAAGAAGATGGCCGAAGACGGCACTTTCGACGTCCTCCCGAAGAAGGAAGTTTCCTTGCTGAACAAGGAACAACAGAAGTTGGAACGGTTCTTGGGCGGTATCGAAGATATGCCTCATTTACCGGACGTGATGTTCATCGTTGATCCTCGTAAGGAAGACATCGCTGTTCACGAAGCCAACAAACTGCACATTCCCATCGTGGCCATGGTCGACACGAACACGGATCCGGATCCTATTGATGTGATTATCCCGTCAAACGATGACGCGATTCGTGCGGTTCGTCTGCTCACTTCCAAGATGGCTGACGCCATTGTTGAAGGCCGTCAAGGCGAAGACAATGCTGACGCTGACCAACAACAACCGGTTCAACCCGCTGCTGCTGAGGGTGACCAACCGGCTAAGGATTCCATGGAAGATATCGTGGAAGCTGTTGAAGGCGACAATAGCGACGCTGCCGACAGTGCCAGTGATTCCGCTAATAACTAA
>SRR1151209_00703 translation elongation factor Ts
ATGGCAGTTTCGATTCAACAAATCAAAGAGTTACGGGAAAAGACCGGCGTCGGCATGATGGACGCTAAGAAGGCTTTGGTTGCTACTGATGGCGACATGGACAAAGCCGTTGATGTATTGCGCGAAAAGGGCATTGCTAAGGCCGAAAAGAAGAGCGACCGCGTCGCTGCTGAAGGCTTGGCGCATATTTCGGTTGCCGGCAATACGGCAGCAGTCATTGAAGTCAATTCGGAAACCGACTTTGTTTCCGCCAATGACAAATTCCAGAATCTGGTTAAGGGGATTGCTGACGCAATTGTCGCTGGCAAACCGGCCGATATGGATGCTGCCTTGGCCTTGAAGATGGGCGACGACACGATCAAGGCGGCCATTACGGAATTGACCGCCGTTATCGGCGAAAAGATTTCCCTGCGCCGCTTCCAAGTCGTCGAAAAGACGGACAGCCAAAACTTCGGTGCTTACCTGCACAATGGCGGCCAAATCGCCGCATTGACCGTGCTGGAAGGCGCTGACGAAGAGACAGCGCGGGACGTGGCCATGCACGTGGCGGCCATCAATCCGAAGTACTTGGATCAAAATGCCGTTCCGGCTGATGTCTTGGCACACGAAAAGGCTGTCTTGACTGAGGAAACAAAGAACGAGGGCAAGCCCGAAAAGATTATCCCGAAGATCGTTGAGGGGCGGATGCGCAAATATCTGTCCGAAATTGCTTTGGCTGATCAAGAATTCGTTAAGGATCCGGATCAGACCGTGGCTAAGTATGTCGCCAGCAAGGGCGGCAAGCTGGTTTCCTTTGTCCGTTATGAAGTCGGCGAAGGGATCGAGAAGAAGGAAGAAAACTTCGTTGACGAAGTGATGTCCCAAATCAAGGGCTAA
>SRR1151209_00704 uridylate kinase
ATGAGTGGGATCAAATATAAGCGCATCGTTTTAAAAGTCAGTGGTGAAGCTCTCGCCGGTAAAGAGGGTTTCGGCATCACGCCGCCAGTCATTGACCGAATTGCTAAACAGATCAAAGCAGTCCACGAATTAGGCGTCCAAGTGGCAGTCGTCTGCGGCGGCGGCAATATTTGGCGGGGCGAAACCGGTGCTGAATTAGGTATGGAACGGGCCCAAGCAGATTACATGGGCATGCTGGCCACGGTCATGAATGCCTTGGCCCTGCAAGACAGTCTGGAACACATGGATGTGCCGACGCGGGTGCAAACGTCTATCGAAATGCGCCAGATCGCTGAACCCTATATTCGTCGTCGGGCCATGCGCCATCTGGAAAAGGGCCGCGTGGTGATTTTCGCCGGCGGCACGGGGAACCCGTACTTCTCCACGGATACCACTGCGGCCTTGCGCGCCGCCGAAATCGGCGCCGATGTGATCTTAATGGCCAAAAACAACGTGGACGGCGTTTACTCCGCCGATCCGAATAAAGATCCCAATGCGGTCAAATATGATGAATTGACCCAACTCGATATCATCGCTAAGGGCTTGAAGGTGATGGATGCCACCGCCAGCTCGTTATCGATGGACAATGATATTCCTCTCGTCGTCTTCAACATGAATAAGCCGGACAACATCGTCCGGGTGATTGAGGGCGAAAACATCGGAACGACGATTAAAGCCGAAGCCGATGAAGAAAAGAAAGGAGCACATTAA
>SRR1151209_00705 ribosome recycling factor
ATGGCAGAAGAAGCATTATTAAAGCAGGCAAAAGAGGACATGAAAAAAGCCCAAGACGCGCTGCGTCGAGACTTGGCGGATATCCGGGCCGGTCGGGCCAACGCCGGGCTGCTCAACCGGATCAACGTCAACTATTACGGGGCACCGACGCCGTTGAACCAAATGGCGGCCATCAATATTCCGGAACCCCGGGTACTGATGATCACGCCGTACGACAAGTCCTCACTGAACGATATTGAGAAGGCCATTTTAGCCTCTGATTTGGGTTTGAACCCGGCCAATGACGGCAACGTCATTCGCTTGGTCATTCCCCAATTGACCGGTGAACGCCGTCAGGAGCTGGCTAAGGAAGTCGGCAAGGATGCCGAGAACGCCAAGATCGCCGTCCGCAATGTCCGTCGTGACGCGATGGAAGAATTGAAGAAAGCGGCGAAGAAGGGCGACATCAGTGAAGATGCCCAACATGATTTGGAAAACCAAGTCCAGAAGCTGACCGATGATGCCGTCAAGGGTATCGATAGCATCGCCAAGGATAAGGAAGACGAGATCACCGAAGTCTAA
>SRR1151209_00706 UDP pyrophosphate synthase
ATGGCAAGCACCGAAACAGCACCGCTGCCCGAGCATGTTGCTATCATTATGGACGGCAATGGCCGGTGGGCCAAGGCCCGCCATCTGCCCCGGGTTGCTGGGCACAAAGAAGGCATGGATAACGTCAAGCGGATCGCCATCGCAGCCAGTCACATGGGCATTAAGGTCCTCACGGTTTACGCCTTCTCCACTGAGAATTGGCGCCGGCCCACTGAGGAAGTGAATTACCTCATGGGCTTGCCAGTCAAGTTCTTCAATCACTACATGCCCGACCTGATGGCAGAAAATGTCCGGGTCGAAGTAATGGGTTATTTGGATGAACTGCCGGCGGCCACCCGCCAAGTGACTTTGGATGCCATGGCCCAGACGCAAAACAACACCGGCATGATTTTGAATTTCGCGTTCAACTACGGTTCGCGCCGGGAGATCACCACCGCGGTGCAGCAGTTGGCGGCGCAGGCGGCAGCCGGTGCAGTCAAGCCGGCGGACATCACAGAAGCAATGGTCAGTGACCATCTCTTCACCGCCCAATTAGGCGCCCTGGCTGATCCGGATCTCTTGATTCGGACTAGCGGGGAGGAGCGGCTGTCGAACTTTTTGCTTTGGCAGGTGGCCTATTCAGAATTTGTCTTCACCGATGTTCATTGGCCGGACTTTACCAGCAATGATTTAGCCGCGGCGGTGGCCACGTACCAGCACCGGCAGCGGCGTTATGGCGGCTTGAAGACCAAGTAA
>SRR1151209_00707 phosphatidate cytidylyltransferase
ATGCGGCAACGGGTAATCACAGCAATATGGGCATTGGCAATATTTTTGCCCACGATTTATTTTGGCAGTTGGGCCATTGAGGTCCTGGCGATTCTTTTGGGCCTGATCGGCCTGTCGGAGTTCTTCTTGATGCGCAAACGCATCGTGGTTTCGCCGGACTTCATCATCGCCGGTTTCGGGATCGTGGTCATGATCTTGCCCGCCGGCTTCTATGGCTGGCTCAAGGGCTGGCTGCCCAACAACGTGTCCCACTGGTTCAATATCACGGAGTTTCTGATGATGCTGTTCATGTTAATGCTGGTGATCACTGTCACCAGCAAGAATCGCATCAACATTGAAGATATTGCCATTTCCACCCTGGCCATGGCTTATCTGGGCGGCGGTTTCGGCGCCCTCGTCATGGTCCGGAACCAGGGCAGCTTTATGAAGCTCTTGTTCGTCCTGCTGATCGTCTGGGTCACCGATTCCGGCGCCTATCTGATCGGCCGCAAGCTGGGCAAACATAAGCTGACGCCGATTTCGCCGAACAAGACTTGGGAAGGCTCCATCGGCGGCACGGTCAGCGCCGTGATCGTCGGCACACTTTACTGCTTGGCGGTGCCTGAAGTTCAGGTTTACGCTCTGTGGCGGATGATTCTGATCATTTTGATTCTGTCCATCGTTGGCCAATTTGGCGACTTGGTGGAATCGGCGTACAAACGCTATTTCGGTGTCAAGGACTCGGGCAAGATTCTACCCGGTCATGGCGGAATTCTTGACCGCTTCGATTCGTTGCTGTTCGTTTTGCCGTTAGTCCAAATTTTCGGCTTAATTTAA
>SRR1151209_00708 metalloprotease RseP
ATGAAGGGTATTATCGCATTCATCCTGGTCTTTGGGATCATCGTGCTGGTCCATGAATTTGGCCATTACTTCTTCGCCAAGCGGGCGGGGATCCTGGTCCGGGAATTCTCCATCGGTATGGGGCCCAAGCTCTTCTGGCATCGGTCCCACGGCACGACGTATACGATTCGAATCTTACCCTTAGGCGGGTACGTCCGCATGGCCGGCGCGGCCGATGATGAGGACGAAATTGAACCAGGCACGATGGCCACCCTGGTGCTGAACGATGCCGGCGTGGTCACCTCGATCAATACCAGTGACAAGGTGACTAATGTCAACGGTGTGCCGCTGCAAGTGTCCAAGAGTGATTTGGAAAAAGAACTCTGGGTTGAAGGTTACGAAAACGGTGATGAATCGGTGGTCAAACGCTACCCGGTGGATCACGACGCGACGATCATCGAGCACGACGGTACTGAAGTACAGATCGCCCCGCTGGACGTGCAGTTCCAGTCGGCCAGCCTAGGCCGGCGGATGCTGACAAACTTTGGCGGACCGTTGAATAATTTCTTGCTGGGAATCATCACGTTTATTATCATCGCTTTCGTCAACGGCGGGGCACCGAATAATAGTCAGACGATGATTGCCCAGATTGAGCCTGACATGCCCGCCGCTCAGGCCGGCTTCAAGGCCAAGGACGTGGTCCAAACGGTGGATGGCCAGCGGGTAGGGGATATTACGGATTTTTCTAAACACCTGCAAAACAAGGCTGGCAAAACGGTGAAGATCCAGGTGCTGCGCAACGGCCAAACGAAAACACTGACGGTTAAACCGGTCGCGCGTACCGTGGATAAGAAACAAGTGACTCAGATCGGGGTGGCGGTCACCGGCAGTTTAGATACCTCGTTCACGGCCAAACTAAAATACGGCTTCACGGAGACGTGGTATATCATTACCCACATTCTCCAGATCCTGGGTTCATTCTTCACCGGCGGCTTCAGCCTGAACAAGCTGGGCGGCCCGGTGGCGATCTACCAAGCGTCCAGTCAGGCGGCCAGCTTCGGCTGGCTCTCCGTGGTGACGATGATGGCCAGTCTGTCGGTGAACCTGGGCTTGATGAACCTGCTGCCGATTCCGGCGCTGGACGGCGGCAAGCTGCTGCTGAATGTCGTCGAGGCCGTGCGCGGCAAACCGATTTCTGAAGAAAAAGAAGGCGTGATCACCTTGATCGGTTTCGGGCTGCTGCTCCTGTTGATGATTGCAGTCACCTGGAACGATTTCCAACGGTTATTCACGCACTGA
>SRR1151209_00709 prolyl-tRNA synthetase
GTGCGTCAATCCAAAATGTTAATTCCGACCATGAAAGAAACCCCGTCTGATGCAGAGGCCATCAGTCATCAGCTGATGCTGCGCGGCGGTATGATCAAGCAGGAAGCTGCTGGGGTGTACGTCTATTTACCCTTGGCTTGGCGGGTCTTGCAAAAAATCCAGCACATTATTCGCGAAGAAATGACGACGATTGATGGGGTGGAAATGCTGCTGCCCACGCTGATCCCCGCTGAATTGTGGAAAGAATCCGGCCGCTACAGTACCTATGGGCCAAACCTTTACCAGCTGAAAGATCGCCATGATCGCACGCTGCTCCTGGGCCCGACCCATGAGGAAACGATGACGGATATTATCCGCAGCAGCGTGAAATCGTACAAGAAACTGCCGCTGCTGTTATACCAAATTCAGACGAAGTATCGGGATGAGGATCGGCCGCGCAACGGTCTGCTCCGGGGCCGGGAGTTCATTATGCAGGACGCGTATTCTTTCACCGTGGATAACGATGACTTGGACACGATTTTCAACCATGTGGAAAGTGCCTATGTTAATGTCTTCAACCGGGTCGGTTTGAACTACCGGGTGATCATCGGTGATGCCGGCGCTATGGGCGGCCGGGATTCCAAGGAATTTTCCGCCATTGCCCCGATCGGTGAAGATACCATCGCTTATTCTGACGGCAGCGACTACGCCGCGAATTTGGAAATGGCCACTAGTCAATTGCCGGCCGTACAGAATCACGAAGATCCCCAGGCGTTGCAAAAAATCGCGACGCCCGGTGCGCAGTCGGTGGAGGAAGTTGCCGACTTCCTGCATGTGGATACGGACCAGATCATGAAGTCCATTCTGTTCATCGCCGACGAGAAGCCGGTACTGGCCTTGATCCAAGGAACCCATGAGATCAACGATGTCAAGCTGAAGAACTTCCTGGATGCCGCTGAGCTGCGGCTCGCCTCGGATGATGAAGTGCAACAGTATCTCCATGCTCCGGAAGGTTCTTTAGGACCCGTTGGGATCGACCAGGATATTCGTATTGTCGCCGATTTGACCATTAAGAACATGGTCAACGCTTTTGTGGGCGCGGATGAAGAAGGCTACCATTTTGCCAACGCCAACGTGGATCGGGATTACAAGCCGGACGACTACGCGGACATTCGCGTCGCCCAGGCTGGTGAAACATCACCCGACGGTGAGGGCAAGTTGAAGTTCACTAAGGGCATCGAGATTGGCCATATTTTCAAGCTCGGCACCCGTTACTCTAAGATCATGAATGCCACGGTTTTGGATGAAAACGGCCGCTCAGTACCCGTTGTGATGGGCAGTTACGGCATCGGCGTATCCCGGCTGCTGTCGGCCATTGTCGAGCAGCACAACGATGAACACGGCATCATTTGGCCTAAGGCGATCGCGCCATTTGACATTCACGTCGTACCCGTTAATATGAAGAACGACGACCAACGGCAATTAGCCGACGAGATCGACGCCGCTTTAACGAAGGACGGCTATGAAGTCTTGCTGGACGACCGTAATGAGCGGGCCGGCATCAAGTTCGCCGATGCTGATTTGATCGGTATTCCGATCCGGATCACGGTGGGCAAGAAGGCTGCCGACGGTATCGTCGAGGTCCATTTACGGGCCACCGGCGACAATATTGAAGTGAAGAAAGAAGAACTGAGCAACGTCCTGCCGATCTTGCGGGCGAAGTTGGACGGTCAGTCTGCTGAATAA
>SRR1151209_00710 DNA polymerase III alpha subunit
TTGGCATTGTCACCTGAAGAAATGTTGACCCAACTCCTCGACCAGATCCACTTTGCGGTCTCCGCCGATGGCGGGGACCGTTTTGCTGGCGGCGCCGTGGAGAAGGTCATTGTGCATGAACAGACCAAACAGTGGGAATTCGTGCTGCGTTTGCCCCAAATCCTGCCATTCTCTGTGTATAGTGTCTTCCTCGCTGATCTGACCAAAGCGTTTGCGGATATCGCGTCCGTGGCGGTTCGGCTGCACGTGGCCCAACCCGAATTTGACGACCATTTGCTGGCTGATTATTGGCCATACGTGGTGAAAACCTGTGCCGCCTCGTCCCCTGCCCTGGCCCAAGTGAATGCCCCGCAAATGCAGGGCGACCGGGTGGCGATCAGTGTCGACAACGAAGTAGTTAAAAATTATGTCGTGGAAAACGCACTGAGCTGTGTTGAAGAAGCCTATGCCCGGTTGGGCTTCCCGGATTTCCATATCCACGTCTACGTTGATGAGTCTGCGACCCAAGAAAAAATCGACGCCATGCGCCAGCAGCAGGAACAGCAAAACCAAGAGCTGGCGACGCAAGCTCTGCTGAAGGCCCAGGAAAAGGCCGCAGCCGGGCCGGCTGGTAACGGCAGTGGGGCCCCCAGCGGCGATGGTGTCCACATCGGTAAGCCGATTCCCGCTGATGCGCCGATTCGCCAGATGGCGGATATCACCGAACCAGACCGGTCCCTGGTGGTTCAGGGAAACATTTTCTCCAGTGAAGTTCGGGATCTGCGCAGCGGCAAACAAATGCTGCTGTTTGAAATCACTGATTACACCTCTTCCTTCAAGGTCAAGGCCTTCTCCCGGGAAACCGGCACCGATCCGAATTTTGCGCAAGTGGCTGTCGGCCAATGGGTGAAAGTCCGCGGACCGGTGGAAGAGGATAAATATTCCCAAGAATTGACCATCAGTGCCTACGATGTTCAGACGGTGGCCCACGCGGCGCGGCAAGATACCGCTGCGGGGGATAAACGTATCGAACTCCATCTGCACACCACGATGTCCCAGATGGACGCTACTAATTCTCCCACCGATTACGTCAACCAAGCGGCGCAGTGGGGCATGCCGGCGATTGCCGTTACTGACCACGCCGTCGCCCAGGCATTCCCGGAAGCCCACTCGGCGGGCTTGAAGAATAAGATTAAAGTCATGTACGGGGTGGAAATCAACCTGGTAGATGATGCCACGCCAATCGCCTACAATTTGCGCGATCAACCGCTTACCGGTGACGAAGAATATGTTGTATTCGATATTGAAACCACCGGGTTGTCCGCACCCACCGACCGGATCATTGAAATTGGCGCGGTGAAGATGAAGAACAACAAGGTGTTGGCGAAATTCGATGAATTCATCAACCCCGGCTTTCCGTTAAGTGTGACGACGATCAATTTGACCACAATCACCGACGAGATGGTCCAAAGCGGCGGGTCTGAGGAAGAAATTATCAAAAAGTTCACCGACTTTGTGGGTGACGCGATTGTCGTCGGCCACAATGTCACCTTCGATATCGGCTTCATCAACGTCGCCCGCAAGCGCTTAGGCTGGCCGGCGGTACCCAATCCCATCGTCGACACGCTGATCATGTCCCGCACCCTGCATCCAGAACGGGGCCGGCACACCCTGGACAGCCTGTCGCGGGTGTATAAGATCACTTTGACCCAGCACCACCGGGCCTCTGACGATTCGGAAGCGACGGGCTATTTGTATTTTGCATTGCTGAAAGAAATGATGGCCCGCTTCAATACCGCCAATGTCAATCAGCTGAATGATCACGCGGGTGAAAAAGAAGCCTGGAAGACCGGCCGGCCCAGCCACGCTATTTTGATTGCGAAAACCCAAGCCGGCTTGAAGAATCTGTTCAAGATCGTGTCCTTCTCTTTGACGGATTATTTCCACCGGGTGGCCCGCGTCCCCCGCAGTATGCTCAACAAGTACCGGGAAGGAATCATTGTCGGCAGCGGCTGTGCAGACGGCGAAGTGTTCACCGCCATGATGCAAAAGGGGTACGAAGATGCCCGCAAATTGGCCGAGTATTACGATTATCTGGAAGTCCAGCCCCATGCAGCTTACCAGCCGCTGATCGCCACGGAATTGATCAAGGACAACGACCAGCTGGAAGACTTGCTGAAGAACATGGTGAAACTCGGCAAAGAATTGGACAAACCGGTGGTGGCCACCGGTGATGTGCATTTCATGAACCCGGAAGACGCCATCTACCGGGAGATTTTGCAGCGGTCGATGAAGATCAACGCCCACCGCAAGCTGTATTTCCCGGATCTGCATTTCCGGACCACGGATGAAATGCTGACAGACTTTGCTTTTCTGGGCGAGGAAACAGCTCATCAGGTCGTCGTTGATAACACCCATACGGTGGCCGATTGGGTCGCTGACGACATTACCCCGGTGAGGGACAAGCTGTATACGCCGCATATGCCCGGCGCGGAAGAAGATATCCGCCGACTGACCATGACCCAGGCTAAAGAATGGTACGGCGATCCGCTGCCAGATATTGTCCAGGCCCGCTTGGATAAGGAACTTAAGAGTATCATCGGCAACGGCTTCTCGGTCATCTACCTGATTGCCCAGAAACTGGTGCACAAGTCCAATAAGGACGGGTACTTGGTTGGTTCCCGGGGCAGTGTCGGCTCCTCTCTGGTCGCGACTATGACCGGGATCACCGAAGTTAATCCGCTGCCGCCCCATTACCGCTGTCCGCACTGCCACTACTCAGAATTCTTCAACAAAGGGGAAGTTGGCTCCGGGTTTGACTTGCCGGATAAGAAATGCCCCAAGTGCGGCACGGAATTGATCAAAGAGGGCCAGGATATTCCCTTCGAAACTTTCTTAGGGTTCAAAGGGGACAAGGTACCCGATATCGATCTGAACTTCTCCGGGGACTATCAGCCCATCGCCCATAACTACACCAAGGTGCTGTTCGGCGAAGACTACGTGTACCGGGCCGGGACCATCGGCACGGTGGCGGAGAAGACCGCCTACGGCTATGTCCTGCATTACCAGGAAGTCACGGAACAAAAGATCCGCGGCGCCGAGATTGATCGGTTGGCGGCGGGCTGTACCGGGGTCAAACGGACCACCGGCCAGCACCCGGCGGGGATCATCGTTGTGCCGGACGACATGGACATCTACGATTTCACCCCGATCCAGTACCCCGCAGATGATACGGATGCTGCTTGGAAGACGACCCACTTTGATTTCCACTCCATCCACGATAATATCTTGAAGCTGGATATTCTGGGCCACGATGACCCGACCATGATCCGGACTTTGCAGGATCTTTCGGGGGTCGACCCGAAGACAATTCCTTACGACGATCCAGGTGTGATGGGCCTGTTTTCCGGTACTGAACCGCTGGGCGTCACGGAGGACCAGATTCAATCAAAGACTGGTACCCTGGGGATTCCCGAATTTGGGACCCGCTTCGTTCGGGGAATGCTGGAAGAAACCCATCCGACGACTTTTGCTGAATTGCTTCAGATTTCTGGTCTGTCCCACGGGACCGATGTCTGGCTGGGCAACGCCGAGGAGTTGATCCAAAAGGGCGTCGTCAAGCTGAAGGATGTCATCGGCTGCCGGGATAACATCATGATGGACTTGATTCACTGGGGCCTGGATTCCCAGTTGGCCTTCCAGATCATGGAGCACGTCCGGAAGGGCCGGGGGATCCCCGACGAGTGGCAGGATAAGATGCGGGAGAATAAGAACATTCCTTCCTGGTACATTGATTCCTGTTTGAAGATCAAGTACATGTTCCCCAAGGCCCACGCCACTGCCTATATTGAAATGGCGCTGCGGATCGCCTGGTTCAAAGTGTACTATCCGTTGGCATACTATTGTGCCTACTTCTCCGTGCGGGCCGACGACTATGACCTGGTTGCCATGACCCACGGCAAGCAGACCATTAAAGAAGCGATGCAGACAATCAACGACAAAGGCAACGACGCGACAGCCAAGGAAAAGGGCCTGCTGACAGTGCTGGAGCTTGCCAACGAGTGCTGGGAGCGGGGCATCCGCATCCAGATGGTGGACATCAATCAGTCTGAAGCCCAAGAGTTTAAGATCGTCGATGATCACACACTGCTGGCCCCGTTCAACGCGATTCCTTCCCTCGGGGACCGGGTGGCCAAGAATATTGTCGCTGCCCGGGCAGAAAAACCGTTCCTGTCGAAGGAAGATATTTCCGTTCGCGGCGGGGTTTCCAAAACGATAATGGAATATCTGGACAAGAATGGCGTCGTCAACGACTTCCCAGACGAAAATCAGCTGTCTCTGTTCTAA
>SRR1151209_00711 ribosome maturation protein RimP
ATGAGGATGGTGACATCCTTAGAAAGGGGTGCTGTTGTGGCCAAACAATCAATTGTGGATACCGTGACGCCGCTGGTGCGGCCAATCGTTGAAGCGGCCGGCTTGCAGCTGGTCGACGTGGAGTACGTGAAGGAAGGCAGAAGCTGGTACCTCAGGGTTTACGTGGATAAGCAGGGCGGCATTGATGTGGAAGAAATCGCTAAGGTTTCGGACCCCATCAGTACCGCGATGGATACCATCGATCCTGATCCGTTCCCAGAGAAATATATCCTGGAGGTCTCTTCGCCCGGTGCGGAGCGGCCATTGAAAACTGATGCTGATCTAGAAAAGGCTGTCGGGGAGTATATCCATATCTCCCTGTACCAACCGGTGGACGGTCAAAAGGTATTCGAAGGCACATTGCAGACGCTGACGGCGACGGAATTGACCTTGGTGATCAAGGATAAGACCCGCCGCATCCCGCGCACTTTTGCCCGGGACGCCATCGCCCACGCCCGCTTAGCTATTGAATTTTGA
>SRR1151209_00712 transcription termination factor NusA
ATGAGTGCTGAAATGCTCACTGCGTTAGATGAGTTGGAGCGTCAAAAAGGCGTTAAAAAGGAGGTCGTGATCGATGCGATCTCCGCGGCCCTGGTTTCGGCTTACAAGCGTAATTACGGTCAGGCCCAAAATGTAGAAGTGGACTTTGACAATAAAACCGGTGAATTCCACGTCTATGCCGTCAAGGAAGTCGTAGACACCGTTTTTGATTCCCGGTTGGAAGTGGCCTTAAAAGATGCCATTGCCATCAATAAGGCTTACGAAGTGGGGGACCACATCCGCTTTGAAGTGACCCCGGAACACTTTGGCCGCTTAGCCGCCCAAACCGCTAAGCAAGTCATCATGCAGCGGATCCGCGAAGCTGAACGCTCCATCGTGTATGACGAATACAGTCAATACGAAAACGAGATCATGTCCGGCGTCGTAGAACGCCGTGATAACCGCTTTGTCTACGTCGACCTGGGCCGCATCGAAGCCGTGCTGAGCAAGCAGGACCAGATGCCCAACGAAAGCTACAACGCCCACGACCGGATCAAGGTTTATGTATCGAAAGTCGAAAACAGTCCCAAGGGCCCGCAAGTGTTTGTTTCCCGGACCAATCCCGATTTTGTCAAACGGCTATTTGAACAAGAAGTCCCAGAGATTTACGATGGCACTGTAGAGGTCGCGGGTATCGCTCGGGAAGCCGGCGATCGGACCAAGATCGCGGTCAAATCCAATGATCCCCACATTGATCCCGTTGGTACCTGTGTCGGACCCAAGGGTCAGCGGGTTCAGGCAGTGGTCAATGAACTGCACGGCGAGAACATGGACATCATTCAATATGAAGATGATCCCGCTGAATACATTGCTAATGCCCTGAATCCGGCGGAAGTCATCGCGGTGCAATTTGCTGATGACGACGAGCGCAACTGCACGGTCATCGTGCCCGATGAGCAGCTTTCTCTGGCCATCGGCAAGCGCGGCCAGAATGCCCGCTTGGCCGCTCGGCTGACGGGTTACCGTATCGACATCAAACCGGAATCCGAAGTTGAGTTCGTGGACGACGACGGCGACGTTGAAGACCCGGATACGCCACAGACTAATGGTGATGAGAAATAA
>SRR1151209_00713 hypothetical protein
ATGGCCAAAGCAAAGAAACAAAAGAAAGTACGGAAGATCCCGATGCGTAAGGATCTGCTCAGTAATGAGATGAAACCGAAGAAGGAAATGGTGCGCATCGTCCGCGATCCGGAAGGCACCATCAGCATTGACCCCACGGGCAAAAAATCCGGCCGCGGGGCCTATGTTGCCCTTGATCCAGCAGCCATTGCCGCGGCCCAGAAAAATCGGGTCGTAGAGAAGGCACTGGCAGGTAACGTCACGGATACTTTCTACGATGAATTATACGCATACGTCGATCACCGCAAGGCACGGGTCGAATTGTTCGGTCCCGACGCATGA
>SRR1151209_00714 50S ribosomal protein L7ae
ATGACGCCAATGAATACCCAGAAATTAATGAATCTGATCGGTCTCGCCCAGCGCGCTTCCCGGCTCATTGTCGGTGAAACCCAAGTCTTGACGGTTGTCCGCAGCCAGCAAGCGAAGCTTGTTATTCTGGCAGCAGACGCCGGCGCAGCCACTGCGAAACGGATCACGGATAAGTGTGCCTTCTACCAGATTCCCCTCACGCAGGCTCTCACCAGCACTGAATTGACCACCGCCCTCGGGCGGCCGCGAAAAATCGTGGCGGTCATGGATGCCGGGTTTGCCCGCAGCATGGAGGCCCTTATGTAA
>SRR1151209_00715 translation initiation factor IF-2
ATGGGGAAAAAGCGTGTCTACGAATTCGCCAAAGAAATTAAAGTACCCAGTAAACAAGTCGTTGAAGCGGCCGAAAAGGCCGGTTTGACCATCAATAATCACATGGCGATGATTGATGATGCCGGACAAAGCAAAGTCCGGCAGGTCTTGCAGCAGAGTACAAGTCAATCAGCCCCGCAGGCTGACAACAAAGTACAGCAAGCAAGTCAACCAAAATCACAGAGCAAGGATCAGAAGGACACCCATACAGGCAAGACAAAAATTCTCGTATCGGCTATCCGGCGACCTAAGAGCAAACCGAATGCGGCCCACGCCAGTGTCCATGGCGTGAAGACCACCACCGGTGTGCCTCGGGAAGACCGGCACACTTCTTCTACGCGGCGGGAGCAACCCCGTCGGCAGCCTGCCGTTAATGCAGCGCCCGCGAAGCCTCAAGAAACACCGCGGCCCGTCGCCAAGCAGGATCAGTCGACCGCCAATACTGCCCGTCCCACTCAGTCCACTCACAGACAGGAGCCTAAACCTACGGTAACCACTACCCAAGCAAAGCCTAATAATAATAATCAGCAGCATGCCGCTGCGACCAATCAGCGTACGGCGAGTCCCGCCCGGAACCAGAACCAAAGCACTGGCCGCAGCCAGAGCCAAGGACAAAACCGGACCCAGGGTCAGAATCGCCCTCAGGGTCAAAGCCAAAGCAATCGCAGTCAGAACCAAGGCCAGAAGCGGAATCAGGGCCAAAGCCAAGGACAAAACCGCGGTCAGCAGACCCAGTCACGGCCGAATCAAGGCCAAGGGCAAAGCCAGAATCGCAGCCAAGGCCAAGGGCAAAATCGGAAGCAAGCGCAAAACCGCAACACCAGCAGTAATCAAAGCCGCAGTCAATCCACGACCGCGACGACGGATAACAGCCGGCGGACGCGCAACCAAGGCGGCAGCAATACCGGCAATAGCCGTTTCAATGATAACCGCGGCGGTAACAGCAATCGTCGCAATCGCCGGAACAAGAAGGGGCGCCGTTACAATAACGAACCGCGCAAGGTCATGCCGGCCCGCAAGGATCGGCCGTTACCTGAGACTCTGGTGTATACCGAAGGCATGAACGCTCAAGAATTGGGCAAGGTATTGCACCGGGAACCGGCAGAAATCGTTAAGAAGCTCTTCATGCTCGGCGTGATGGTCAACCAGAACCAATCTTTGGATGACGATACCATCGAGTTGCTGGCCGCCGATTACGGCATCAACGCCCAAAAGAAGGTTGAACAAGATATTTCTAATCTGGACGCCCTCTTTGAAAAAGAACAAAAGAACACCGATCACTTAGTTGCCCGGCCGCCTGTTGTCACTATCATGGGGCACGTTGACCATGGTAAGACAACTTTGCTGGACAAATTGCGCCATACCCACGTCACCGAGGGCGAAGCCGGCGGGATCACCCAGCATATTGGGGCCTACCAAACGAAGCTTGATGGCCGGGTAATCACGTTCCTGGATACGCCAGGACACGCAGCCTTCACCGAAATGCGGGCCCGCGGCGCGGATGTCACAGATATTATCGTTCTAGTCGTGGCCGCCGATGACGGCGTCATGCCCCAGACGATTGAGGCCATCAACCACGCTAAGGCGGCACATGCGCCCATGATCGTGGCCGTGAACAAGATCGACAAGCCAGGGGCTAACCCGAACCACGTCATGGAACAACTGACCGAATACGGGTTGATTCCGGAAGACTGGGGCGGCGACACGATCTTCGTCCAAATTTCGGCCAAATACGGCAAGAACTTGGATGAATTGCTGGAAATGATTCTGCTCCAAGCCGACGTCATGGAATTGAAGGCTAATCCGGATCAGCCCGCTGTAGGGACCGTTTTGGAAGCCAAGCTGGATAAGGGCCGCGGCCCTGTTGCTTCCTTGCTGGTACAGCAGGGAACGCTGAAAGTCGGCGATCCTATCGTCGTTGGCGATACCTTCGGCCGGGTCCGGGTTATGACCAATGACCGCGGGCGCCGGATCAAGGAGGCCGAGCCGGCTGAACCGGTGGAAATCACTGGGTTGAACGACGTGCCCAACGCCGCTGATCATTTCGTTGTCTTCTCTGATGAAAAGACGGCCCGGGCTGTTGGTGAAGAACGCTCGAAGAATGCTCAAGCCGAAGAGCGGGCACACAGCACCCACGTGACTCTGGATAATCTGTTCGAAACCATGAAGGAAGAACAGATGAAGGAAGTCGACGTCATTATCAAGGCCGACGTCCAAGGTTCTGTTCAAGCTTTGGCCGATTCATTACAGAAGATTGACGTCCAAGGCGTGCGAGTGAACATTATTCACCAGGCCGTCGGAGCGATCAACGAAAGTGATGTCACCTTAGCCGCAGCGTCCAACGCGATCATCATCGGCTTCAACGTGCGCCCGACGCCGCAGGCCCGAGCCCAAGCCGATACCGACGATGTGGATATCCGGCTGCACCGGGTGATCTACCAAGCCATTGACGAAGTCGAATCCGCCATGAAGGGTAAGTTGGAACCGGAATACAAGGAAAAGGTCACTGGGAACTTACAAGTCCGGGAAATCTACAATGTGTCCAAGATTGGCACGATTGCCGGGTGCTTGGTCACTGACGGCTTGATTACCCGTGATTCCGGCGTCCGCTTGATCCGGGACGGCATCGTTATTCACGAAGGCAAGCTGGCTTCCCTGAAGCGCTTCAAGGATGACGTGAAGGAAGTCCGCCAAGGCTTCGATTGTGGTTTGACGATTGATGGGTACAACGACATCCACGTGGACGACCAGATCGAAGCCTACGTGATGGAAGAAGTACCGGTCAAATAA
>SRR1151209_00716 ribosome-binding factor A
ATGAAACATCGTATTGGCCGAGTTGAATCAGAAATCCAGCGTGAAGTCACCGACATCCTGCTCAAGCGGGTCCGCGATCCGCGGGTTGAAGGAGTGACGATCACCGGTGTGGAGGTCACTCAGGATCTGCAATACTGCAAGATCTATTACAGCATTCTGTCCGATCTAGCGTCGGCGGCGGAAAAGGCCCAAGCTGGGCTGGATAAAGCCACCCCGCTGATTCGCCGGGAGTTGGGCCATCGCCTGACGACATACAAGATCCCTGAATTATCGTTCCATCAGGATCCGTCTGTCCGGTATGGTGAACACATTGATAAGCTGATTCGCCAACTGCATGTGCAGGATAATGATGAAAGCTAA
>SRR1151209_00717 multidrug ABC transporter ATP-binding and permease protein
ATGATGATTAAAAAAATGACAGATAAGCACTATTCAATCTGGGAAAACCTGCGCTGGTTCAATATTCAGCGGCGGGGTATCGCCGACCATTTAAGATGGTGGCTGCCGAGTATTCTCGTGATTCAATTGGGCATCACCCTGGTGAGCGCGGCTGTCCCGGCCATGCTTGTCCGGTTGCTGGGCCAGCACACGGGGTTGCCGCTGGTCGCGCTCTTGATGATCGGGATCGGCTTAGGGCTGGGATGTTTGCAATTCAGCCAAGCCGTCTTAGATACTTTCATGCGGATGGCCAGCAGCGCGGTGCGCAACGAAATGTTTGCCACGGATGGCGGCGACTACTTGCACATTCCCTATGTGGCTGCCGCCGACGCCCAAGTGCGGGCCAAGCGAGCAGAGAGTATGAATTATGGTTATGGTGGTGATGAGTCGGGAGTGGGAGTATTCTATAACACCCTTGTTCATACCGTGCAAAATGCTCTGATGATCCTGGTTGATGCCGTAATCCTGGGGCAGGCGTCGTGGTGGATCGCAGGCGTAATTATCGCCACGACACTCCTCGCCTTCTATCCTCAACAATCTTTCCAACGGTTCCGCCGGCAGCAGCAGAAGGTCATGGAAGATCGGTGGACCCCCGGTAAATATATTCAACGTTCCAGTTTTCAAGAAGAGAATGGGAAGGATATCCGGCTGTATCACATGGCGGGGTGGTATCAGGGCAAGTACGATCAATTTGTGGCGGCCACCAACCAGACCCAAACCAAGATTGAACGCCGCCAGTTCTGGGTCAGCAGCGGGTCGGCCTTGTTAACCTTGATTCGAAATACTGTAGGCTACGGTGTCTTACTCCTGCTCATGGTCAATAAACAGGTGAGTATCAGCCAATTCACTTTTATTTCACCTTGTTGA
>SRR1151209_00718 multidrug ABC transporter ATP-binding and permease protein
ATGACTGTCGAAGCCGTTCTGACTCAGTATGGCCTCCTCAAGGGGGCCAATACGGATGTCAACACCGGACGCCGCTTTCTGGATTGGGCCGAGGCAGTCATCCAAGATATGCCCCAGGGCAAAACCGTCCCGCATTTCGATGCGCGCAAGCCGCTCACGGTGGTGTTTGACCACGTCAGTTTCACTTACCCGGACGGTACCGCCCCCGTCCTCAATGATATTTCCTTCACGCTGCATGCCGGTGAGCGTATTGCCCTCGTCGGCCTGAACGGGGTCGGTAAAACAACGATCACCATGTTGATGATGGGGTTGTTAACGCCTAACAGCGGGACCATCACGATCAATGACATTAATATCCAGGATATTCCGCCGGCCACGCTGCGCAGCTATTTCGCGCCGGTTTTCCAAGAAAGCACCGTATTTGCCGGCAGCGTCGGCTATAACGTTGCAATGACGCGGGACTACGATGAACAACGGGTCCGAAATGCCTTGGCGGAAGCGGGCTTAACTGCGGATATCGACAAATTAGCACATGGTCTCCAGACAGAATTGACTAATTACATTCAGGACGATGGCGTGACGTTATCCGGCGGGTAG
>SRR1151209_00719 multidrug ABC transporter ATP-binding and permease protein
ATGATTGCCCGGGCATTGTACCGGGATGCGCCGATCCTGTTACTCGATGAGCCCACTGCCGCGCTGGATGCGTTGGCGGAAAGTGCGTTATATCAAAATTATCAGAAAATGGCGGCAGGCAAGACCAGCCTGTTCATTTCGCACCGGTTGGCGTCCACCCGGTTCTCAGATCGCATTCTGTTCTTACAATAG
>SRR1151209_00720 multidrug ABC transporter ATP-binding and permease protein
ATGCCAACCTGCTGCGGCCGCATTCCGTTGCGGTCCAAGCCGCGTTGGCCGTGGTCACCCTGCTCCAAGGATACGCCGCCGTCCTTCTTAGGGGTACTGGTCACGCAACTGACCGTGCCCAACGTGACGATGGCGCAACTATGGCCGATGACGGCGGCCTTCCTGGGCACCATCTTCGTCCTTGCAATCATCGGCTATCGGTTGACGATGCATGCCAACGTGAATGCCTGGGGCTCTTGGTTCGGCATGCAAGCCATGACCAACAAGAAGATGCTGACAGTGACCTATCCCACGTTCATTGATCCAAAATTTCGGGATGAGTATGCGGCAGCTAACACCAGCATTATGTTTTCTGGCGGTTTCGGCCGGTTTGTCACCCAAGTCGTCAATAGCGTGTGCGGTCTGATTGCGGCGGTTGTTCTTTCTGGTGCGTCACTCGTTGCGTTGTTTACCGCCCGCAGCCAAGAAACAACCGCCTTGGCCCGATTTTCTAATTCACCGTGGCTGTTGGTGCTCATGCTAGTAATTATTGCGATTCCAGTGGTCATGGCCTTTCCTTTGGCTAAATTGAGCGGCAAATACATGCGGAAGTTCTATAACTTCAACGTGCAGTTTAACCGGATGGGAGCGTACTACATCCAAACCGTGTTTGACGATTATGTCATTGGCAAAGTGATTCGAATTTTTGACCCCCTCGATCACTTGCTGCACCATTTTGCCAAAGAAAATCGAACTCAAATCAGCGAAGACAACAAAATGCTGACCCAGGCCACTGCCGCCCGCAGTCTCAATAATATTGTACTGAGCGTTATTATCGGAATGCTTTACGTGGTCGTCGGCATCAAAGGCTTGGCTGGGGCAATATCGATTGGGGCCGTGATTGCCTATGTGGGTTATCTGCAACAGGTGATCGGTGCACTCACCACAATGATGGATACGATTGGCACGAGTGCATCTATCTTGAAGGGCTTGGATCAATTCATTGATTTCATTGAATATCCAGATGCGCCCGCCAAGGGGAGGCTGCCGATCGAGAAACGGTTGGATAATAACTATGAGATCAAAGTAGACGATGTGAGCTATCGCTATCCGGGCACTCAGGAGTGGGCATTGCGCCACGTGACCCTGCAATTCAAAGTCGGCCAACGGTTAGCGCTGGTTGGCCCAAACGGTAGTGGCAAGACGACGCTCATTAAGCTCCTGACCCGCTTGGCAGAACCAACAGAAGGCCGAATTCTGTTGAACGGCATCGATATCCAGAAATACGATATTCACGAATATCAGCAGATTTTCGCCGTGGTGTTCCAGGATTACCGGTTGTTTGCCTTCTCAGTCGCTGATAATGTCGCGGTGAATACCCATAAGGATCCTGAGCGCATTCAGCGGGCATTGACCTTGGCCGGAGTGTGGGACAAAGTAGACAGAATGCCGAAAAAGACAGAAACCAGCCTCACCAAGAATATTGATCCCGCGGGGGTGGACATCTCCGGTGGGGAAGCACAGAAAATTGCCATTGCCCGGGCCTGGTACAAAGACGCGCCATTCATCATTCTCGACGAACCGACTGCCGCTCTGGACCCGGTCTCGGAATATGAAATTTACCAGAAGTTTGATGACCTGATGGAGAAGAAAACGGCAATCTACGTTTCCCACCGCATGAGTTCGACCCGTTTCAGTCAGCGCATTGTCGTTTTGGACCACGGCCAGATTGTGGAGGACGGGACCCACGCGGCGTTGATGCAGGCGCAAGGGTTGTATTACCGGCTCTTTGAAGCTCAGGCGCAATACTACACGGCCGACAAAATTAAAGCCGAACGCAAAAACGCCGATGCCGCGTACGCCATCGACTAG
>SRR1151209_00721 two-component system sensor histidine kinase
ATGATCGGGCAACTGTTATGGTGCACCCTATTCTTCACCTTAGGCGGTCTGCTTTGGCTGAGTGCGCACCCGGAAAAGAAACCGTGGTGGTCGGGGCTGGCCCTGATCCCCATCGCTACACTGCCCTTCATTATCCCCTGGGGCGGCATTCTCGCCGCGCTGCTGGTTCTGGAGCTCTATGCTTGGCTGGGCCGCGATCCGCTCCATGCCCGCTGGCCGGATATGGTGTTGGGCGGTTTACTGGTACTCGCGGCGCTGGCCCCGATTTGGTTATCGTCGCCGAAGAGTACCGCTGGCCTATTCACCATTGTCATCAGCGCCTGCATCGTGCATATTGCCCGGGGACAAACCTTTCGCCCGCTGTGGCTGCTGCTGAGCGGCACCGGTGCGATTTTTGCCGTCCTCTTTTTCATTTCAGACACACCAGCGCGCTTCTTGCTTCTTGGGCTGTGGCTGCTTACCGTGAAATTGGTGACCGGCCTGCTCACTTATTTGTTCCAGCAAACCGACATGGTCTATGCCCAATCACTGGATGGCATCATGGCCAACTACATTAAAGAAGTCAACCATCTCTATGCGCAGATTCGCGGCTGGCGCCACGATTACCACGATCATTTGCAATCGCTGAAAGTCTATCTCCACGACGGCGACGTGGCCCAAGCGCAGCATTATTTAGGCGAATTGGAGACTTCCCTGGGTGATATCGAACAAATCGTCCGCTCCGGCAACCCGATGCTGGACGCGGTCCTGAACGCCAAATTAACCATGGCCAAGAACCAGCAGATCCCGATGAATGTGAAAGCCTTTGTCGGCCCGCAACCGCTCATTAAGGCTGTTGATTTGGTGGTGATTCTTGGCAACATTTTGGACAACGCCCTGGAGGCCATCGAAGCCCAGCCGGCAACGGACGACCGCTTCCTGCGGGTCTACATTGCGATTATGAAGCAACAGCTCTATATTTCTGTGACCAATACCCGACCGGCGGATCAATATATCAACTACGATTATGCATCGACGAAGAACGACAAACGGGGCCTCGGCATTCGCCGGATCAACGCGCTGGTCGAGAAATATAACGGGATGATCAACCGGCAATATGAAGAGGGCGTGTTCGTAACTGAGATCGCCCTGCCCTTACCCACAATAAGTCAAAAAGCCGCCGCCAGCACGGACTGA
>SRR1151209_00722 two-component system response regulator
ATGGAAATTGCCATTGTGGAAGATAATCCAACGATGCAGCAGACCCTCACGGATATGTTGGCTAGCTTACACCGTGATTTAACTTGGACTGTCTTCGCGTCAGGCGAGCAGTTCCTGTTTGCCTGGCCGGATCATCCCCACTTTGATCTGATTCTGCTGGACATCAAACTGCCTGGTATGGACGGAATGGCAGTGGCCAAAAAGATTCGCGCGCAGGATGCAAAAATGCCCCTGGCTTTCTTGTCCAATTATGATGACTACGTCTTCGACGGCTACGATGTGAACGCCTTAGATTACATTTTGAAGCCGATCACTCCGGAGAAACTGACCAAACTGCTTGATCGGGCCGCCGCTACCGAGCGGCCGCCATTCATTATCCTGCCCCTGGCCGACGGATCGACCCAAGTTTACCTGTATGACATCATGGCCTTTACCGTGGATGGTCACTATTTGACGGTCATCACCCAAGAACGTCAAGACGCCTTCAAAGACAGCATTCAGAATATTCGCACCCAATTGGACAATCGCTTCATTCTGACCCACCGGTCGGCTTTGGTGAACATTGACCACATCCGCACCATTGGCAAAGACACGGTCACTTTGGCCAACGGGGTCGCCGTACCCCTCGCCCGGAACCGGACGCAAGCGGTCAAGCAGGCCTTCTGGGAGCGGTTCAGAAAGTTGGCGCGGCAATGA
>SRR1151209_00723 tRNA pseudouridine synthase B
GTGATCAACGGCTTTATCCCCTTGCATAAGGAAGCAGGGATGACGAGTTTTGATTGTGTGGCAGCGGTGCGCAAGCTCGCCCGCCAGAAGCGGGTGGGGCATGGGGGCACCCTGGATCCGGATGTGGATGGGGTGCTGCCGATTTGTTTAGGGGTCGCCACGAAGCTGGTGGATCGGCTGCAAACCATGCCCAAGACCTACACGGGTGAAATCACTCTGGGCTTCGCGACGGATACCGAGGATTTGAGCGGAAAAGAAATTGCCCGCCAACGGCTGACGGCGCCGTTTACCGAGCTGGCCATTGATCAGGCGATGGCCTCTTTTCAGGGCGCTTACGATCAAACCCCGCCGTTATATTCTGCTGTGCGGGTCAATGGCAAACATCTCTATGAATACGCCCGGGCTGGCGAGACGGTGGCTCGGCCGACGCGGACGGTGCATGTGTATCATTTCGACCGCACGAGCGCCCCTGTCTTTAATGAAGAAACCGGGGAGCAGACTTTTTCATTCACAGCACAAGTCGCGAAGGGGACGTATATCCGGACACTGGCCTCCGATTTGGGCCAGCGGCTGGGCGTGCCGGCGGTGATGAGTCAATTGACTCGTCAGGCCAGCGGCGGCTTTCAATTGGCCGAAAGCGTCACATTGGCCGACTTGGCGGCCGCACCCTTAACTGATTTTGTGCGGCCGATCCAGGCAGTGTTTTCGAACATGCCGATTGAAGACTTGACCCCGGCGGCCTGGACCCGGGTCCAGCATGGCAATTACCTGCGCTTAACCCGTCCTGCGACCGATGGCAATGAGCTGTTTCTTCGGTATGGTGGGGACATTCAGGCGATTTACCGCTATGAGACCCAGACCGGCACCTGGCGGGCGGCCCAAATGCTGCTGCATGAAACAACGGGAAAGGAGGCGGAGTGA
>SRR1151209_00724 riboflavin biosynthesis protein RibF
ATGGAAGTCATTTCCTTAGCCAGCCCAGTGCCAGATACGGCGGCATACACCACGCCGCGGGTGCTCGTGTTAGGCTTCTTTGACGGCGTCCACCGCGGCCACCAAGCGGTGATCGCCAAGGGGCGGGCGATTGCGGACCAGCATGGCTGGCCGCTGAGCGTGCTCACTTTTGCGGATCATCCGGCGGTGATTTACCGCGGGGCAGACCGGGCGACTTTTGAATACTTATCACCCATCACTGAAAAGACGGCTTTAATGGCCCGCTTCGGCGTGGATCAGCTTTTTGTGATCCATACGGATACCAGTTTCAAGCAGGTGACGTCGCAACAATTTATTGACCGGTACGTGGTCGGGCTTGATGCTCAGATCGTCGTGGCCGGCTTCGATTACACCTTCGGCCCCCGGGACGTGGCCAATATGCAGACGATCGATCAGTTTGCCCAGGGCCGCTTCCAAGCAGTGGCCGTACCGCCTGTGGCCTTCAATGACATCAAAGTTGGCTCGACGGAAATTCGTGAACTGCTCATCGCCGGCAAGGTGGATCAGGCCAACGACCTGCTGGGCTGGACCTATTGCAACACGGGTACCGTAGTGCATGGGTTGCAGCGGGGGCGGGAGTTGGGCTACCCGACGGCCAACCTGGCTGTCACACCCAACGAAGTCGTCCCCGGTATCGGCATCTATGCCACTCGCTTTTTTGTCCGCGGCCAGTGGTACCCCAGCATGACCTCCATCGGCCACAACGTGACATTTGAACCGAATCAGCCCCTCACGGTGGAAAGCAACCTGCTGGACTTCAACGGCGATATCTACGGTGAACCGGCCAAAATCGTCTGGGATCACTACCTGCGCGGCGAGGTGAAATTCTCCTCCGCCCAGGGTCTGATTGACCAGCTAGCCCAAGATGCCGCCCATACACGACAGTATTATGCAGAAAGGACCCAACCCTAA
>SRR1151209_00725 coproporphyrinogen III oxidase
ATGGTGGCTGCGTACATCCACATCCCGTTTTGTGAACATATTTGCTACTATTGCAATTTTAATAAGGTTTTCATCCAGGGCCAGCCGGTGGATGACTATATCACGCGGTTGCTAGAAGAAATTAAGATGGTGTTGGCTGAATACCCGGATGAATCGATCGAGACCGTCTATATCGGCGGCGGGACACCGAGTGCGTTGTCCCCGGAACAGATGGACCGGCTGCTCAGCGGAGTCAACGACCTGCTGCCGCTGCCAGCTGGCGGCGAATTCACCATTGAATGCAATCCCAACAACTTGCTGACCATGGATCTCCTGCACGTGTTCAAAGACCACGGGGTCAATCGCTTGAGTGTCGGTGTCCAGTCGTTTGACGACGCGGTGTTGAAGAAAATCGGCCGCACCCACCGGGCCAAGGACGTGTACACCGCCTTCAAAAATGCCCGGGCGGCCGGCTTCGACAACATGTCCATGGACCTGATCTACCGTTTGCCGGGGCAGACCTATGATGATTTTGCCGATAGCTTGCGCCAAGCGGTGTCCCTGGATCTGCCCCACTATGCAACGTATTCCCTGATTCTGGAGCAGCGAACCGTATTCTATAACCTGATGCGTGCGGGCAAGCTCCACCTGCCCAGCGATGACACGGAGGCTGACGAGTATGAACTGGCCATGGATTATTTCGCCGATCACGGGCTTCACCAATACGAAATCAGCAACTTTGCCAAGCCCGGGTACGAATCGGTGCACAACAAGAAGTATTGGCAGAATGAAGACTACTTTGGCTTCGGCGCCGGCGCCTGGGGCTACCTGGATCGGGATCGCTACCATAATTTCGGCCCGATTCAGCAATATCTGAACCCGTTACGGGCGGGCAAGGTGCCGGTGTTTGCCCGCCAATTGGTTTCTCCCGAGGAACAAATGGAAGAGCAGATGTTTCTTGGGCTGCGCTTGAATGCCGGGGTGGACCGCCAGCGTTTTGCCCAGCGCTTCAAGATGACCATCGAGGACGTGTACGGGCAAACGGTGCCGGAACTCGTCGCCCAGGGATTGGTCACCGATGATGGCCGCCATGTCGCGCTGACCAAGCGGGGCCGCTTCATCGGCAACGATGTGTTTGAAAAATTCTTGCTGGATGATGCCGATTAG
>SRR1151209_00726 heat-inducible transcription repressor HrcA
ATGCTGACCAAACGTGAGATGTTGGTGTTAAAGGAGATTATTCGGCACTATAACGAGAGCGGCCAACCGGTGGGTTCTAAGACCATCATGGGTTCGCTCCCGATGAAGGTCTCCAGTGCCACGATTCGCAACGACATGGCGGCGCTGGAATCGGCGGGCTTGATCGAGAAGACCCATTCGTCCTCCGGCCGGGTGCCGTCCGATACCGGCTATCGGTATTACTTGGACCATCTATTGCAGCCGACGATGGTGGATTCCGATGATTTGAATATGATTCAGACCATTTTCCGCCAGAAGTTCTATCAAGGCGATGAATTGGTGGCCCAGTCGGCGAAGATTCTTTCTGAACTGACCCACTATACAGCGATCACGCTGGGGCCGGAAGTGGGCGTCATGCACCTGGAAGGCTTCCAATTGATGCCGCTGGGTAATCGCCGGGTCTTGGCCTTGCTGATTACCACCTCCGGGCAGGTCGTCAATAAGACGTTCGTGATCCCGGATACCGTCACTGGTGAACAGCTGGAGGCGGTGATGCGGGTGATCAATGATCAGCTGGTGGGCAAGCCCATTGCGACGGTCATGAATCAGCTGGACAGTCATTTGATCCCGCTGATCAGTCAGTATATTCACTCGCCGGATTTCTTTCTGGATGTGGTCCATGGGATTCTCAGCGAAGCCAGTGCAGACCGCTTCCATATCAGCGGCAAGATGAATATTCTGGATTACGCCCACATGGACGATGTGAATCAGCTGAAGTCGCTGTATCATCTGATCGATACAGATGATCAACTCGCGGCGCTCCTGGGGCTGAACGATCCCGATGACGACACCAAGCCGCCCACTGAGCACGGGGTGACCGTGCGCTTGGGTCATGAGTTCCCGAACCAATTGCTGGCCAACATGTCGTTGATTCGGGCTACGTACCACGCTGGCGAGTATGGGGATGGCATGATTGCGATCCTCGGTCCGTCCAGCATGCCGTATTCCCGAGTGATCGGGCTGCTGGATTTATTCCGGGATGAGCTGGCCCGGCGCATTGCCGATTACTATCGTGATCACGGATAA
>SRR1151209_00727 heat shock protein GrpE
TTGGCTAAGGAAAGAGAACACGAGACAAAGAAGAAGGAAGATTTTCCTTCTGAAGATCACGTGCAAGAAAAAGATACCGCGGCTCAAATCCACGCCCATGTCCAAACTGGCCGGAAGAAACAGCCGGAATCCACTGAGGACAAGGTATTGGATGAAACCAAGGCAGACCTGGATGATTTGATCAAGGGCCTGTCGACCGCCGCGTTGGAAAAAGAAAATAAAGAGTTAAAAGACAAAGTGGCCCAACTGGAAGATAAATACTTGCGGGCTGAAGCAGAGATGCGCAATATGGGCAATCGCCAGAAGAAAGAAATCGACGGGATGATCAAGTACGACGGCCAAAGATTAGCCAAGTCGATCCTGCCGGTGGCCGATAATCTGGAACGGGCCTTGGCCGCTGAAGTCAATGCGGACGGCATGGCCCAGCTGCACAAGGGTGTGGAAATGACCCATGAACACCTGATCCACTCCTTGGCCGAGAATCACATTACGGAGATCGCGGCGGCGGGTGAAAAATTTGACCCGACCAAGCACCAGGCGGTTTCCACTGCACCGGCCGACAAGGATCATCCAGCCGACACGGTCGTGCAAGTGCTGCAAAAGGGCTACATGCTGCGGGATCGCGTCCTGCGGCCCGCGATGGTCGTTGTCGCCCAGTAA
>SRR1151209_00728 molecular chaperone DnaK
ATGGCAAAAGTCATTGGTATCGACTTAGGCACCACCAACTCCGCAGTCGCTGTTTTGGAAGGCGGCAAGCCAAAAATCATCGCTAACCCAGAAGGCAACCGGACCACACCGTCCGTTGTCGCCTTCAAGGATGGCGAGATCCAAGTCGGGGAAGTCGCAAAACGGCAAGCAATCACGAACCCGGACACAATTTCTTCGATCAAGCGCCACATGGGTGATCCGAATTACACCGTTAAAGTCGGCGATAAGACGTATAAGCCCCAAGAAATCTCTGCGATGATCCTGCAATACATCAAGAACTTCGCCCAAGATTACTTAGGTGAAGAAGTGAAGGATGCTGTGATTACCGTGCCGGCATACTTCAATGATTCCCAACGGCAGGCCACCAAGGATGCCGGGACGATTGCCGGGTTGAAAGTCGATCGGATCATCAACGAACCGACCGCTTCCGCTTTGGCTTATGGGGTCGACAAGGACGAGAAGAAAGACGAGAAGATCCTGGTCTATGATCTGGGCGGCGGCACGTTCGATGTCTCCATCCTGGAATTAGGCGACGGTGTCTTCCAAGTCCTGTCCACGAACGGTGATACCCACCTGGGCGGCGATGACTTTGACCGGCGCATCATGGACTGGCTGGTCAAGGACTTCAAGGCTGAGAACGGCGTTGACCTGAGCAAAGATAAGATGGCTTTGCAGCGGTTAAAGGACGCGGCTGAAAAGGCGAAGAAGGATCTGTCTGGCGTTACCAGCACCTCCATTTCTCTGCCGTTCATTTCCGCCGGCCCCAACGGCCCGCTGCACTTGGAGAAGCAATTGACCCGGGCGAAGTTCGATGAATTGACTTCGGATTTGGTTGAAAAGACAAAGATCCCGATGGACAATGCCTTGCGCGATGCCAAGTTGACTTATGACGATATTGATAAGGTGATCTTGAACGGCGGCTCCACTCGGACACCGGCCGTGCAAGATGCTGTCAAGAAGTGGTCTGGTAAGGAACCTGACCACTCCATCAACCCGGACGAAGCCGTTGCTCTGGGCGCCGCCATCCAAGGCGGGGTCATCACGGGTGATGTCCACGATGTTGTCCTGCTGGATGTTACGCCGCTGTCCTTGGGTATTGAAACCATGGGCGGCGTGTTCACGAAGCTGATCGACCGCAATACGACGATTCCGACATCCAAGTCGCAAACGTTCTCCACAGCCGCGGACAATCAACCGGCTGTTGATATTCACGTACTGCAAGGTGAACGGCCCATGGCGGCGGACGACAAGACCCTCGGCCGCTTCCAGTTGGCGGACATTCCGCCGGCACCCCGCGGCATTCCGCAGATTCAAGTGACGTTCGATATTGATAAGAACGGCATTGTGAACGTGTCGGCCAAGGATCTGGGCACTGGCAAGTCCCAGAAGATCACCATCCAGAGTTCGTCAGGTCTGTCTGATGAAGAAATCAAGAAGATGATGGCTGAAGCCAAAGAGAACGAAGACGCCGATAAGAAGCGGAAGGAAGAGGCTGACCTGAAGAACGATGTCGATCAGCTGATCTTCCAGACCGATAAAACGTTGAAGGAACTCAAGGGCAAGGTTTCTGACGACGAAATCAAGAAGGCCCAAGATGCCGAAGATGCGTTGAAGAAAGCGCAGCAAGCCAACGACTTAGAGGACATGAAGACGAAGCGGGACGACTTGAACAAGATCGTGCAAGACCTGACCGTGAAGCTGTATCAACAAGCCCAGCAAGAGCAGCAAAAGTCTGGTGCTACTGATGGTTCTGGCTCCGCTGACGGCAATCAAGACGGCGGTGATAAGGGCAAGGACGGCGGCAACAGTGATACGGTTGACGGCGACTTCTCCGAAGTCCACAACGACGACAAGTAA
>SRR1151209_00729 molecular chaperone DnaJ
ATGGCGAAACGTGACTACTATGAAGTGTTAGGAGTCAGCCGAGACGCAAGCGATGACGACATCAAACATGCTTATCGCGAATTGTCGAAAAAGTGGCACCCCGACGTTAACAAAGCCCCGGATGCGGAACAGAAATTCAAGGAAATCAACGAAGCCTATGAGGTCTTAAGCGATCCGCAAAAGCGGGCCCAATATGATCAGTACGGGCAAGCCGGCATGAATGGGGCCGGTGCCGGGGCTGGCGGTTTTGGCAACGCTGGCGGGTTCGGCGGCTTTGGCAATGCTGGCGGAGCCGGTGGTTTTGGCGGTTTCGACGACATCTTCTCCCAGTTCTTCGGCGGCGGCGCGACCACGCAAAATGCGACGGCACCCCGGCAAGGACAAGATTTGCAGTATCGGATGGATCTAAGTTTCAAAGACGCCATCTTTGGTACGGATACGGAGATCCAATATGACCGCACCGCGACCTGTCAGACCTGTCATGGGTCGGGCGCCGCACCGGGAACGAGTCCGGTCACCTGCCATAAGTGCCATGGGTCAGGCTACATTGAAATTCAACGCCAGACCCCGATCGGCATTATGCGCACCCGGGAAGTCTGCGATGTCTGCCACGGCACTGGTAAGGAAATCAAAGACAAGTGCCCGACGTGCAACGGCAGCGGCCATGTCCAAGAGAAGCACACGCTGAAAGTTAAGGTCCCTGCGGGGGTCGATGATGGCCAGCAGATGCGTCTGGACGGTCAGGGCGATGCTGGTGAAAACGGTGGCCCCTATGGCGACTTGTACGTGGTTTTCCGTGTGCAGCCGTCGAAGGAGTTTGAACGAGACGGCTTTGAAATCTATGTCACCGTACCCATCACCTTTGCCCAAGCGGCATTGGGTGACGAGATCAACGTGGACACCGTCCATGGTCCGGTAACGCTGAAGGTGCCAGCTGGCACCCAATCCGGTACTAACTTCCGCCTGCGCGGCAAGGGCGTGCCCAAGTTGCAGGGCAGCGGTAATGGCGACGAGCACGTTCGCGTGCAAGTGATTACGCCGAAAAACATGAACCCCAAGCAGCGCGAGGCGCTGGAAGCCTTCTCTGCTGCCGGGGGGGATAAGATCAAACCGCAGGAAAAGAATTTGTTTGAAAAGATGCGGGATAAACTGCGCGGCGAAGAGTAG
>SRR1151209_00730 MarR family transcriptional regulator
ATGACACCAGAAATCGGACGGTTATTGAAGATTGCCAGTAATCGGTTGTCTTGGGGGCTGGATCAGTATGCCCGACAGCATGGTTTGACGGGGACCCAGATGTCTTTTCTGGATTTTTTGTACCGCCGAACCACTGCCGGTCAGGTCGTCCTGCAACGGGACATTGAACAGGAGTTTCAAATCAAACGTTCCACCGCCACACAGGTTTTGCAAACTATGGAGACCAAGGGATTGATTACGCGCCAGAGTGCGGCCCAAGACGCCCGGCAAAAGGAAGTGCTGCTGACCGCCGCTGCCCAGGATCAGGTCCAGCTGGTGCGGGACTATATCGAAGCATCGGATACAAAAATTACCGCTGGCTATTCTGCTGCCGAAGTCAGGGTAATTACCCATTTTCTGCAACACATTGCTGAATTGAATAAGGAGGAAAATTTTGACTGA
>SRR1151209_00731 major facilitator superfamily transporter
GTGCTGGGAGCGATTGTTGCTACCGGGGTGATGTCCTTGTGTGGTACGATCGTGGAGACGGCGATGAACATTACATTCCCGACGCTGATGCGCCAGTTTGGCATTGGCACCAGCACTGTCCAATGGATGACGACACTGTACCTGCTGGTGGTCGCCATCATCGTGCCGCTATCAGCCTATCTGAAGCGCCGCTTCACGACGAAGGCGCTGTTTATCACCGCCAACAGCCTGTTCATCATCGGCGTGCTGACGGATGCGCTGGCGCCGTCCTTCGCGGTATTATTATTAGGGCGGGGGATTCAAGGTCTTGGGACCGGGATCGCGCTGCCGTTGATGTTCAACATCATCATCGATCAGGTGCCGATGGCTAAGCTGGGCTTGATGATGGGGGTCGGCACCTTGATTACTGCCGTTGGTCCAGCCATCGGGCCCACCTTTGGCGGGTTCGTTGTCGATACTTTGGGCTGGCGCCACATCTTCGTGTTCTTGCTGCCGCTATTGATTGCGTCGCTGATCTTGGGCATCATGACGATTCGCCAAAAGCATCCCACTCAAGCGGCCAGCCTGGATTGGCTCAGTGTGTTGTTTTTAGCTGTGGCCTTTGTGGCCATGATTCTGGGCTTCTCCAATCTCGGCAGCCGGGCTTTCTTAAGCTTGACCCTTGGCGGCATGCTTCTTCTGGCGGTGGTGGCCTTTATTCTTCTGGGTTGGCGGTCGCGGCAAGTGACACCGATCATCAATTTTTCGGTGTTAAAAAACAGCGGTTTTTCTTCCCTGACCTTCGCCTTGTTTGCTTTCCAGATCGCGACCATCGGCTTATCCTTCATCGTGCCGAATTATATTCAACTGGTGAACGGCGCCAGCGCTAACTTGGCTGGTCTGCTGGTCCTGCCCGGTGCCTTGCTGGGCGCGGCGATGTCACCCTTTGGCGGGCGGATCTACGATAATTGGGGGGCCAAGCCGCCACTACTGCTGGGAATCATTCTGGCCCTTGGGGCGAACATGACCTTGATGGTCTTTGCTCAGAGTCTGAGTAATTGGGCGATTGCCGTTCTGTATACGGTCTATATGCTTAGCCTGGGCTTGTCCTTTGGTAATCTGATGACGGAAGGGCTGTCTTATCTAAGCGGACTGACAAAGAGCGACGGCAATGCGATCATGACCACGGTCCAGCAGATCTCCGGCGCAATCGGCACAGCCATTGTCGCCGCCATCGTTGCTCTGGGTCAGGCGGCACCCCATGTTTCCCGAGCAGTTGGGACCGCCAATGGTGCCCAGCACGCCTTGCTGTTTGTCGTCGTCTTGCTCTTGATTGCTCTGATTTTATTAGTCAGAGTATTGTTTTTCAGAAAAGAAGCGAAAGGATGA
>SRR1151209_00732 NADH-flavin reductase
ATGGAAATTATTGTGATTGGAGCTACTGGTATGGCCGGGTCGGCAATTGTTCAAGAAGCAATTAAACGGGGCCACACGGTCACGGGCATCGCCCGGTCGGCCAAGGAGCTGGCGCAATTAGCGGCGGCCAACCCAGATTTAAAGACGGTGGCCGCGGATGTCTTCGCTTTACCAGAAACGACTTTTGCCGGGGCAGATGTCACCGTGGATGCTTTCGCGACTGATCCAGCCCATGCATACCGGCATGTTGATTTGGCAACCCGCCTCGTGGCGATGTTCCGGGAAACGACTAAGCCGCGACTGGTCTTCATTCTCGGCGCCGGGTCGCTCCAAACCGGCACTGATCGGCACTTGTTGGTCGAAGACTTGCGCAAACTCCCGCAAAGCGAGTCTTTCATCGCGATTCCTGGAAATCAGTATATTGAACTGCAATTCTTAGAGACCGTTACTAATGTGGACTGGGTCGGTATTTCCCCCAGTCAGACATTCAATGCTGGACCTGCCACTGAGGCCCTTCTGGGTACGGATACCCTGCTGCATAATGCGGCTGGCAAGTCAGAAACAACCAGTGGGACAATGGCCGTCACGGTTTTGAATGAAATTGAAAAACCGGCTCACCGCAATACCCGGTTCACGGTAGCCAACCAATAA
>SRR1151209_00733 glycosyltransferase
ATGATCAAACATTGGTCACGATTAGATTTTGGTGCACTGGCGATTTACCTGCTGGTGGTAATTGGCGGCCCGATTGCGATTTTAGCAAGTATCGCCGATTCTTTTGCACCGTTCATTCAGCATTTCGGCTGGTTCCTGTTTCTGTTAGTGATCAGCATCAGTACCTGGGTCTTGCTGCTCACGATGTATTACATCTTTCTGACGATTTTCGGTTTCGGCCGTGCCCGGCGGGATTACCCGTTGGCGGCGCCCCGGAGCCGTTTTCTTGTTTTGATCCCGGCGCACAACGAAGAGACGGTTCTCGGCGCGACTCTGGCCAATCTGAAACAAATCGATTATCCCCGGGCGTTGTACCGCATCGTGGTAATCAGCGATCAATCCACCGACGAAACCGCGGCCATCGCCCGCCAATTTGGGGCTCAGGTGATTGATACCAATCGCCGTCTTTTCCGGCGGGTCGGGGTCGGTAAGCCGGCCGCCTTGCAATATGGACTGGATACCTTAGCAAATACTGGTCAGCTGCGGGCAGCGGATTATGTGCTGGTGCTCGATGCGGACAATTTCGCCGATCCGTCAATCTTACGGGAACTGAACAGCCAGTTTATGGCAAAGCCGTATACGGCTATTCAGGCTTATCTGGACAGCAAGAACGATGATCGGCTGTTATCCTTGGGTTACGCGATGAGTTATTGGACCATGAATCGCTTCTTTCAATTGAGCAAGTATCGGCTGGGGCTTGATAACAGTATCGGCGGCACCGGTTTTGCGGTCAATGTGGACTGGTTGGTGGCCCATGACGGCTTTCAGTCCCGCAGTTTAACCGAGGATCTGGAGATGGAGATCCGTATCGTGGAAAGCGGCGGCAGCGTTGGCTGGAATCACTGGACGCGGATTTATGACGAAAAGCCGGAACATCTGCGGGCCAGCATGGTCCAACGTTACCGCTGGAGCCGCGGCCATTGGTACACTGCCTTCCATAATGTCGGGCCGCTGCTGGCCCATTTCTTTAAGTCAGGGGACGTGCGCTATCTTGATCAGATTAATTATCTGTTCTCCATGCGGCAAAACATCCAGTATCTCTTGGCCTTGATCTTTGTCCTGGGGTGGGGGATCAGTTGGGTCGTTCCGCAAGGCGGGGCATATCCGATGTGGCTGGCAGATGTGGAACGCAGTTACTTCGTACCGATGACACTGATCAATTGGGCGATCCTTCTGGAGGGATTCCTACCGATGATTGCGGGATACTGGTACGATGCCCCCCATCGGTTGGCTCAGCTGCCCAAGGCGTTGGTGGCGTTCTATTGGTTCTCGCTGACTTATTTGGCTGATCAACTTGTCGGGTTGGCGACCTTCCCCAATCAGCAGACCTGGAGCCATACCCGGCATGCACTGACCACGCCTCATCGGCACTGA
>SRR1151209_00734 translation elongation factor LepA
ATGGATCAGCAGCAAATGATCGACCGGCAAAAACACATTCGGAATTTTTCCATCGTGGCCCATATTGACCACGGCAAGTCCACCATTGCAGATCGTATCCTCGAACTCACCCATACGGTGGCCGAACGGGATATGACCAACCAATTGCTGGACACGATGCCCTTGGAACGCGAACGGGGCATTACCATCAAGTTGAACGCAGTTGAATTGCACTACCACGCCAAAGATGGCGAGACGTATATTTTTCACCTGATCGACACGCCGGGACACGTGGACTTCTCCTATGAAGTCTCCCGCTCCCTGGCCGCCTGTGAAGGGGCGATTCTGGTCGTGGATGCGGCCCAGGGCGTCCAGGCGCAGACATTGGCCAACGTTTATCTGGCTCTGGACAACGACCTGGAGATCATTCCGGTGATTAATAAGATTGATCTGCCCAGTGCTCAGCCGGACGTGGTGAAGCAGGAAATTGAAGACATGATCGGCATCGATGCCTCCAATGCCGTGCTCGCCAGCGCTAAAGAGGGCGTTGGGATTCCCGAACTGTTGGAACGGATCGTCCATGATGTGCCCGCGCCAACAGGCGACGTAGAGGCCCCCTTGAAGGCGTTGATTTTTGACTCTAAATACGACAACTATCGCGGCGCAGTGCTCAGTGTCCGTTTATTTGATGGCACCGTTAAAGTTGGCGACCAAATCGAATTGATGAGCACCGGCAAAACATACGAAGTGACTGAAGTCGGCGTGATGTCTCCGGATGCCCAGCCCCGGGAAATGCTGATGGCGGGAGATGTCGGCTATTTAGCGGCATCAATTAAGACCGTTCAAGACACCCGGGTCGGTGATACGGTGACGTCCGCCGTCCATCCGGTCGCCAAGCCTTTGCAGGGTTACCGCCAGATTCAGCCGATGGTGTATTCTGGGATGTATCCGGTGGAGAACGCCAAGTACGGCGAATTGCGGGAGGCCTTGGAGAAACTTCAGCTGAACGATGCTGCTTTGGAATTCACCCCTGAAACTTCTCAAGCGCTGGGCTTTGGTTTCCGTTGCGGTTTCCTCGGTTTGCTGCATATGGACGTGGTCCAGGAACGGTTGGAGCGGGAGTATGATCTGGATTTGATCATGACTGCCCCAAGTGTGGACTACCACGTCATCACCACCGACGGCGACACCCACGTGGTGGACAATCCGGCGGATATGCCGGATCCCACTACGATCAAGGAGATTCAAGAACCCTACGTGAAGGCCGAGATCATGGTGCTCAGCGACTATATCGGGGCGGTCATGGAATTGTGCCAGCGCAAGCGGGGCGAGTATGTGACGATGAATTACCTGGATAAGTACCGGGTGAGCATTGTGTACGAGATGCCCTTGTCTGAAATCATTTACGATTTCTTCGACGAACTGAAGTCCAGTACGAAGGGCTATGCTTCCCTGGATTATGATTTGATCGGCTATCGCGCCAGTGATCTGGTGAAGATGGATATTCTGATCAACGGCGAACCCGTCGATGCTCTGAGCTTCATCGTGCACAAAGATTTCGCCTATCAGCGCGGTCGGGATATTACCGCCCAGCTGAAGACGACCATTCCTCGGCAGCAGTTCGAGATTCCCATCCAAGCGGCCATCGGCAATAAGATTATCGCCCGAACGACCGTGAAGGCGTATCGGAAGAACGTGCTGGCCAAGTGTTACGGCGGCGATATCACGCGGAAGCGGAAGCTGCTGGAGAAACAGAAAGCTGGGAAGAAGCGGATGAAGGCTGTGGGAAATGTCGAAATTCCGCAGGAAGCATTCATGGCGGTGTTGAAGACCAACGAAGACGAGACGCACGACAGATAG
>SRR1151209_00735 hypothetical protein
ATGGCCGAACACAAACAACGTACGTATCACATTCTCGCTGCCCTCTATATTGCGGCGTTTTTCGGCTTTGGTTTCTTCTTTGTGGCTTATGCCATGTATCGTCACCCTTGGTTTAATTTGCTCGCAATCGTTATCCTGGGCGGACTTCGCTTTGTCATCTGGCTGATCCATGACCCACCGCGCAAGCGCAGTGGGAAACTGCCGGGATTCTGGAAATAG
>SRR1151209_00736 glycerol uptake facilitator protein
ATGGATTTTTCACTCATCGCGCGGCTCGCCGCAGAGTTTATTGGTACTGCCATTATGATCATTCTCGGTAACGGGGCTGTTGCCAACGTCGACCTCAAGGGCACCAAGGGCAATGGATCCGATTGGATGCTGATTGCCGTCGGCTACGGGGCCGGGGTGATGATTCCCGCCCTGCTCTTCGGGAGCATCTCAGGCAACCACATCAACCCGGCGTTCACCATTGGGCTGGCCACCGCCGGGCTTTTTCCCTGGGCTGAAGTGGCCCCGTATATTGCGGCCCAAATGCTCGGGGCCATTGCTGGCCAACTGGTGGTCATTGCCGCTTACAAGCCCCACTATGACTTGACTACGGAGTCAAACAAGATTCTTGGCACGTTTTCCACGATTGATGCTACCGGCAGTCATTTGAATGGGTTCATCAATGAATTTATCGGTTCATTTATTCTTTTTTTTTCCGCCCTTGGAATCACCAGGGCCCCTTTCTTCCATAATAATTTGGGCACAGCCCATCTGGCTTTGGGTTTCTTAGTCGGTACGCTCGTCGCTTCCCTAGGCGGCCCGACCGGCCCGGCCTTGAACCCGGCCCGGGATTTGGGCCCGCGGTTAGTTCATGCGTTGTTTCCGTTGAAAAACAAGGGCGACTCCCAATGGGAGTATGCATGGATTCCGGTGGTTGCACCGTTTCTGGCTGGGATTACCGCTGTTGGATTGTATAAAGTCATTTTTATGTAA
>SRR1151209_00737 hypothetical protein
ATGAGTACGGTAATGATTGGCTTGATGGTCGTTGGGCTGACGATGGCGGTGATCGGTTTATTCTGGCTGATCATCGCGGCAATACGCCGCCGGCAACTGCAGCACCCGGCCCTCGTTTTAGGGGTTGGCTTACTGGTCACCCTGCTCACCTTCACGGGTCTTGGTGCGGTCGTCAGCGGGGACCGCAGTCAATCGGCCGCGGAAAAAACGGCGGCGGAACAAGCTGCCAGTGCCCGCTCTAGTTCAGCGGCGCAGGCCAGCAGCCGAGCGGACGCGCAAGCGGCCAGTCAAAGCAGTCGGGCAGCCTCAGAATCGGCCGCTTCCCAATCAGACGATGCCGCCCGGTCGGCATCGTCTGTCCAAGAGGCGTCCCGGGCCAGCGCCGCGGCGGCATCGCGCTCAGCATCATCAGCTCGCGAAGCGGCCCAGTCCGCCAGTGCTGCTTCAGCGTCTCAGGCGGCCGCCTCAGCACAGTCATCCTCTGAGGCAGCTGCCAGTAGTCAGTCATCCGCCTCTTCGGCCTCAGCCGTGGTCGGAGACTCCAGTAATCATACGTACTATCCGGCTAACGCCGTACCCAGTGATGTGCCGGCTGATGCCCGGGTCAATTTCACCGATAGTCAAACCGCCGAGCGTGCCGGATACACCTCGGCGGAGTAA
>SRR1151209_00738 hypothetical protein
ATGAAGAAATTGGCATTGATCGGTATCACATTACTCAGCGCGGTGGCATTAGGCGCCTGCAATTCAGGTACGACCCAGAGCGGGGCCGGCAACATCACCGTCACTTCGGGTTTCAAAGATGATACTGTCAAACGCAGCGGCTATTCAGTGAAAATTGACCAGGCCAAGGTACTCAAGGCGAATAGTAAAGGAAACGAATCGGACCATGCGGTTGTGGCCATTTATTACACACTGAAAAACACCAGTGGTGATACCATCACTCCGGATACCGCATTTAACGACACCTTAACAGTTACTCAAGGCAAGAAGACGCTAGACCCCAACGGTGTCCCGGCGGACAAGTTCTTGACCGTGGCCAGCACGCCAGTGAAGAAGGGCAAGTCCGCCCAGGCGGCTATGAACTTTACTTTGCAGGACAAGAAGACGGCTGTTAAGCTGACGGCCCGGAATGGCGCATTCGGCAAGGTCATTGGTGAAGAAAGTATCGATATTACAAAGTAA
>SRR1151209_00739 LacI family transcriptional regulator
ATGGCCACGATCAAAGATATTGCGGATCGGGCCGGTGTCTCCAGTGCCACGGTATCGCGGGTACTGAATTACGATCAATCATTGAACGTTACCGAGGAGACCCGCCGAAAAATCTTCCAAGTGGCTAATGAGTTGCAGTACTCGAAAGCGCACCGGAAGCAGCCGCAGCAAAAACGCATCGCTATTGTCCAATGGGTCGATGAAGCCGACGAATTAAGCGACCTGTACTACCTGTCGATTCGGATGGGCGTCGAAGAAGCGGCGGCGGAGCAAGGATATTCGGTCATCCGCTTATTCCATTCCTTTGGCGCCAGCGAACTGAAGAATGTCGCCGGCATCGTTGCCATCGGCAAGTTCGGCGATCATCAGCTGAAAGAGCTGAAGGCCTACCGCCTGCCCCTGGTGATCATTGACGACGACGTGCTGGAGCGGGACATCAACTGTGTTGTCTCTGACTTCACTAACGCTGTCAATCAGGTGGTGGATTTCTTCATCAGTCACCACATTGAACGCATCGGCATGCTGCGCGGGGTAGAGAAAACCAGTGAGGGCAATGAATGGCCCGATCCCCGCCCCCACGTCTTCACCACCGCACTGAAACGCTTAGATCTGTTCAACCCTGATTGGGTCTTTGAGGGCGCGTTCAATCCAACCTCCGGCGAGGCGATGATGGACGAAGCGTTAGCCAAACTGGATGACCATCTCCCCCAGGCCTTCTTCGCCACCAGCGATGCCCTGGCGATTGGCGCCCTGAAATCGCTGCGCCGGGCCGATATCGCCGTCCCAGACCGGGTCGCGCTGATCGGGTTCAACGACATTTCCATCGCCAAGTATCTGGAGCCGCCGCTGACCACGGTCCACGTGGACACCGAAGCAATGGGCCATCAGGCTTTTTATCGCCTGAGCCAGTTGATTGAAAATGCAGTGCCGGAATTGGCCCAGAAGATCACCATGGCTACCCACCTGATCATCCGGGAATCCACGCCGCAATAA
>SRR1151209_00740 galactose-1-phosphate uridylyltransferase
ATGGCAAAGACCGCACTTGTGGCGGCATTCGTGAACGCAATCATCGCCGCCAATCCGGAATATGAAGCCGTCGATGATGTTTACCTGAACAATCGGATTCTGGCCCTCGTGGGTGATGACGCGCTGCCGCTGACCACCGTAACGACGAATGTGATTGACTTGAAAAATGAATTAGTCGATCACGCCGTGACCACTGGCGTCATTGATGATTCCCAACCGGACCGGGATATCCTTGGCGACCAGCTGATGGATCTCTACACCCCCACTCCGGGCATAGTGAATCGTGAGTTCTGGAAACAGTATCGCGACTCTCCCGAAGCCGCCACCAACTATTTTCATCACTTATCCGAGGCCAACGACTACATTCAAACCCGCCGGATCGCGAAGAACATTCGTTATCTGACGCCTACGGATTACGGCAAATTGGAAATCACCATTAATTTGTCCAAGCCGGAAAAGGACCCCAAGGCGATTGCGGCCGCGGCGCAGCAGAAAAACACCAACAATTACCCGCAATGCCAGCTCTGCTTACAAAACGAAGGCTACAAGGGCCGGCTGGACTTCCCTGCCCGCAGCAACCACCGGATCATTCGCTTCGATATCAACGGCCACCACTGGGGGTTCCAGTATTCCCCTTACGCCTACTTTAATGAGCACAGCATCTTCTTGGATACGATCCATGAACCGATGCACATTAACCGGCAGACGTTTGTAAATCTGCTGCATATCGTCACGGTATGGCCCCACTACTTTGTCGGCAGCAACGCCGACCTGCCCATCGTCGGCGGCTCAATGCTGAGCCACGAACATTATCAGGGCGGCCGGCACACCTTCCCGATGACGGTGGCGCCGCTGGACAGCACCTTTGCTTGGCCCGCCCACCCGGACGTGACCGCTGGCATCGCCCACTGGCCGATGTCGGACATTCGCCTGACCGCACAAACCGCTGAGGCATTGATTCCAGCTGCCGAAGAAATTCGCGCCGCTTGGCAGAACTATTCCGATGAGGGGCTAGATATTCGGTCCTATACCGAGGGTATTCAGCATCATACGGTGACGCCGATTGCGTCCCGCACCGCGGATGGCGGCTATCAGCTGGATCTGGTGCTGCGGGACAATCAGACCTCTGACCAGTATCCGGACGGCATTTTCCACCCGCATCAGGACGTGCAGCACATCAAGAAAGAAAATATCGGCTTGATCGAAGTGATGGGCTTGGCCGTCTTACCGGCCCGGCTCAAGAGTGAATTGGCCGAAGTGGAGAAATTCCTGCTGGGCCAGAAGAATGCCATGAAAGAGTATCACCGGCCCTGGGCCGAACAACTGGCCAAGGATAATGCCGGGCGCATTTCTGCCGCCTCCGTTGAAGATATCGTCCGCCAGGCGGTGGGCCGCGTCTTCCTGCGGGTGCTGATGGATGCCGGCGTCTACAAACGGGACGCTGCCGGCCAGGCCGGGTTCCGCAAATTTATCACACACGTCACAGAAGCTAACTAG
>SRR1151209_00741 UDP-glucose 4-epimerase
ATGACAGTATTAGTATTAGGCGGCGCTGGCTACATTGGGTCCCATACGGTAGACCGCTTGGTGGACAAAGGGTACGACGTGGCCGTGGTCGATAATTTAATCACCGGCCACGAAAAGGCGATCAACGCCAAAGCGCGTTTCTATCAAGGCGATGTGCGGGACAAGCTTTTCATGCGCGAAGTCTTCGACAAAGAGAACATTGACAACGTGATCCACTTCGCGGCCTTCTCCATTGTGCCCGAGTCCATGAGCGATCCATTAAAGTACTTTGATAACAACACCTACGGCATGACCGCCCTCTTGGAAGTCATGCGCGATGCCGGCGTGAAACGCATCGTCTTCTCCTCCACCGCGGCCACTTACGGTGAACCCAAGCAAGTGCCAATCAAGGAAACCGATCCGCAGATTCCCACCAACCCATACGGCGAAAGCAAGCTGGCCATGGAAAAGATCATCCACTGGGCCGATGCGGCTTACGGCATCAAGTTCGTCGCGCTGCGCTACTTCAATGTGGCGGGGGCCAAGGATGATGGTTCTATCGGTGAAGACCACCATCCGGAAACCCACCTGATTCCCATCATTCTGCAAGTGGCCAAGGGCCAACGGGATAAGCTGACCATCTTTGGCGGCGACTATCCCACCAAAGACGGCACCAACGTTCGAGATTACGTCCACGTGATGGACCTCGCCGATGCCCATATCTTAGCGATGGAATACTTGAAGCAAGGCAATGACTCCACCGCCTTCAACCTGGGGTCTTCCCACGGCTTTTCGAACAAGGAAATCGTTGACGCTGCGCGTAAAGCCACCGGCAAGCCGATTCCAGCCGAAGTTGGTCCGCGCCGGCCAGGTGATCCGGCGACTCTGGTCGCTTCCAGTGAAAAGGCCAAGAAGATACTGGGCTGGGAGCCGCAATATGATGACATGGAAAAGATCATTGCCACGGCTTGGCACTGGGATCAGACTCATCCCAACGGCTATAACGACCGGCGCTAA
>SRR1151209_00742 galactokinase
ATGAATCATTCAGAATTGCTGGAACAATTCCAACAACAGTTTAATACCCCCGCAAAGGCGATGTACTTCGCACCCGGGCGGATCAACTTAATCGGCGAGCATACGGATTACAACGGCGGGCACGTTTTCCCCTGTGCCATTAGCTTAGGCACATACGCCGTTGTCGCGCCCCGGACCGATCACGAATTTCGGCTGTATTCCGCCAACTTTGCGGACAAGGGGATCATTTCTGTTCCCTTGGACGAGTTAGAAAACAAAGCAGGTTACGATTGGGCCAACTTCGTTGTCGGCACCACGAAATTTATGGCGGAATCCGGAACCATTGATCACGGGCTCGACATCTTCTTCTGGGGCAACTTGCCCAACGGTGCGGGTTTGTCCTCCTCCAGTGCACTGGAACTCGTAACGGCTAATTTATTGGCTGACCAGTTCCAGATTACGATGTCTCCGGTGGACATGGCTAAACTGGGCCAACGGGTGGAGAATCAATTCATCGGTGTTAATTCCGGCATCATGGATCAATTTGCCATTGCCATGGGCCGCAAAGACCACGCCATTCTATTGGATACAAATACCATGGAATATGCCTATCAAAAATTAAACTTAGGCGATGCCAAGATCATCATCATGAACACCAACAAGCGGCGGCAATTGTCCGATTCCAAGTACAACGAACGCCGAGCTGAATGTGAAAAGGCCCTGGCCTTGATTCAAAAGGGCGACGACGTGAAGAGTCTCGGTGCCCTGTCCTTGGAAGAGTTCGACGAATACACCTACCTGATCAACGACGGCACACTGATCAAGCGGGCGCGGCACGCGGTGGTTGAAAACCAACGGACCATGGAGGCTGTTGATGCCCTGCAAAACAACGACTTAGCCCAATTCGGCCGGTTGGTCAACGCCTCCCATGTCTCCTTGGAACATGATTATGAGGTGACTGGTATAGAACTGGATACCCTGGTCCATACCGCTTGGCAGCAGTCTGGCGTGATCGGCGCGCGGATGACTGGCGCTGGTTTTGGCGGCTGCGCCATTGCTTTAGTGCATGACGATGCGATCCCGGCCTTCGAAAAAGCTGTTGGCGACACCTACAAAGAGAAGATCGGTTATACGGCCGACTTCTATGTCGCCGAAATTTCCGACGGCCCGCACCGGGTTGAACTGTAA
>SRR1151209_00743 sortase
ATGAAAAAAGCAGGCAGGCTCGTACTGCGTATTTTTTTAGGTTTGGTCTTTGCTATTGGCTTGGTGCTTATTTTTAATGAACCAATCAAGAACTGGTTGGTCAGTACGATGTCCGAGCGGCAGATGAACGTCAGCCGCCAGCAGATCCAGCAAAATGAATTGGCCAAGGGCGAATTCGATTTTTCCAAAGTCAAAAGCATCAATACCCAACAAGTCGTTCAGGCGGCGGTGAAAAGCGATGCCAGTGTGATCGGCAAGCTGGCCATTCCGGCTGTGGGCATGCACCTGCCCATCGTCAAAGGCCTCAGCGACACGGCGCTGTCCACCGGCGGCGGCACGATGAAACCCGATCAAGTGATGGGGCAGGGGAATTACGCCCTGGCCGGGCACTACATGACCAACAAGGGCATTTTGTTTTCTCCTTTAGAAAGTACCCAACTGGGTCAGCGCATCTATCTGACCGATCTGGAACACGTTTATACCTATGAGATCACCTGGAAGAAAATCGTGGACCCCACGGCTGTCTATCTGATCAATGACGTTGCGGGGACGGCCATGGTCACGTTGATCACCTGTGCGGACGGCGGCGTGAACCGCTGGGCGGTGCGCGGACATTTGATCAATACGACGGTGGCTAACAAGCAAACGTTGGCGGTCTTTGCACCGTAG
>SRR1151209_00744 single-stranded-DNA-specific exonuclease RecJ
TTGAATCGTTTTACGTGGACGGCACCGCACCCAATCACTCAAGAAGATCAAACTCTGGCCGCAGCCATCAGCCAACCGGTGACTGTGGCTCATTTATTGCGCACTCGGGGCCTCACGACGGCAGAAGCGGCCGAGCATTTCCTCGCGCCGCAATTGACCGATCTGCACGACCCGTTTGCTCTGCATGATATGACCAAGGCCTGCGACCGAATCAAACAGGCCATTACGGCAGGGGAAAAGATCACGATTTACGGCGACTATGACGCCGATGGCATCACCAGCACCGCAATCATGCAGGAAACGCTGGATAATCTTGGGGCGGATGTGCATTTCTATATTCCGAATCGCTTCACCGACGGGTACGGACCGAATCTGGCGGTTTATAAGTATCTGGTCGAAACCGGAACGCAGCTGATTATCACTGTGGATAACGGCGTGACCGGTCACGATGAAGTGGCTTACTGTAATGATCATAATGTTGACGTGATCATCACAGACCACCATGAATTGCCGGAAACTTTGCCGGAAGCGACAGCGATCGTTCATGCCCGCTATCCGGACAGCACGTATCCCTTTGGTCAGCTCAGTGGGGCTGGTGTGGCCTTTAAAGTGGCTAGTGCGCTGATGGATACTGTGCCGGTTGACCTGCTGGATCTGGCGGCGATTGGGACGATTGCCGACGTTATGCCCCTGGTGGACGAAAACCGGGTGATTGCCACCTACGGCTTGCAACAGCTGCAAAAGACCGATCGCTTGGGCTTACAGGCGCTGTATCAAGTCGCCCAAATCGCGCCGGAAACCATCGACGAGGAAACGGTCGGCTTTGCTTTGGCGCCGCGCCTCAATGCGCTAGGCCGGGTGGATGATGGGACAGTGGGCGTGACGCTGCTGACCACCTTCGATCCCGACGAAGCCGCCCAGTTGGCGCAACAGGTGGATGACACGAACAGCACCCGTAAAACATGGGTGAAGCAAATGGCCGATACCGCGCTGCGCCAAGCGCAAGACGCGGATCACGCGGCCCGGCGGACTTTGGTCATCACCGGAGAAGGGTGGCACGAAGGGGTGTTGGGTATCGTCGCCAACCATGTCGCGGAAGCAACGGGTAAGCCGACCATTGTGCTCAGTCGCGAGAAGCCCACGGATGATTACAAGGGTTCCGGTCGTACTGCCGGCGACTACAACTTGTTCGCAGCACTGAATCCCCAGCGGGACGCCTGTGTCGCTTTCGGCGGCCATGCGGCGGCAGTCGGGCTGACGGTGAGTGCGGCTAATGTCCCGGCGCTCGCCCAGGCGATGGAGGATGCCGCAGTGGCCCAAGACTTCAAGCCTGGGGCCAAACCGGCCCAGACGGCCGATCTCAGTGTAGCGGTGGATGAGCTGACCATGACCTTTTATGATCAGCTGGCGGTTTTGGCCCCCTTCGGTAATACCAATCCGCGGCCGATTCTGGCGGTAGTGCCAGACTTGATCCGGGGGGTCCAAACCATGGGTCAAACCAAGGATCACCTGCGCTGCCAAATCGTGGGCACCAAACAGAGTGTCAATACAGTGGGCTTCAATTTGGCCGCTATGGGTCCCAGTCTGGTGGGAGCAGATGACGTTACCCTGTACGGAACGCTCCAGCAGAACACCTGGAACGGTAAAACGACCGTGCAGTTTCAACTGCTGGATGTGGTCACGGCCACACCCTTGCTGAACGATTGGCGCTCCAATACACTGCAACGTTCTCAATTTTCTCTTGATGCCGCCTATGTCTTTTTCCAAAAGGCCTACGCCAAGCGACTGTCTAATTACCTCCAAGACCAACCCCGAATAATGTTTGACGACCCGCAGATCAGACAGTACACTAAGCTAGTGCTGGTGGACGCGCCCACGAATCTCGCCCAGCTGCAAACCCTGGGGCAAAACGTCACCCCCGAACAGGTCTGGGTCATTTTCTATGCGTCCCAAGCTCGGCGGGATGAAGCCTTGCCCGGAAAGAAAGTCTTCGGGCAGGTCTTCAACCTCTTCAAAGCCAAGCAGCGGGTCGCTCCCAAAGACTTGCCGGCCCTGGCCGCGCAAGTTCGCCTAGATGTGCCCAGTCTCCGCTTCATTATTCAGGTATTCTTCGATTTGGGCTTTCTGGCCATGGCGGGCGATATGATTGCTTTCCAAGCCGACCTGACGCCCCAAGCGCTCACCGCCGCGCCCCATTACCAAGCCCGGGTCCAGCAAATCCAATTTGCGCAGACTCTGCAAACCGGTTCTTGGGCCAAGGTGCGCGCGTTGCTCAGTGACCAATTTCATTAA
>SRR1151209_00745 adenine phosphoribosyltransferase
ATGTCGATCAATTTTAAAGACTACGTGGCCAATGTGCAGGACTTCCCGGAACCAGGGATTATTTTTCGGGACATTTCCCCGTTAATGGAAGATGGCCGGGCTTATGCCGCCGCTACAAACGCCATCGTGGATTATGCGCGGGCGAAAAATGTGGAAATGGTCTGCGGCCCGGAAGCCCGGGGCTTCATTGTCGGCTGTCCGGTGGCATATAAGCTGGGGGTCGGTTTTGCCCCGGCTCGGAAAAAGGGCAAGCTGCCTCAACCGACAGTATCGGTGACTTACGATTTGGAATACGGCCAGGCATCGTTATATATGCACAAGGACGCCGTCAAGCCCGGCCAGCGGGTGCTGGTCGTGGACGATTTGATGGCCACCGGCGGTACATTGGCTGCGACAATCAAACTGGTGGAAGAGCTGGGCGGCATCGTTGTCGGCACCGCCTTCTTGATCGAGCTGACGGACCTGCATGGCCGGGACAAGATCAAAGGGTACGATATGTTCACTTTAATGCAGTATTAA
>SRR1151209_00747 integrase
ATGAAAGCCATTCGTAAGGCAACGCTCTTTGCATACCCTATTTTACCAGATTGGGAGGTAAACACAATGGCAAGCTTTCGCAAACGTGGGAAAACCTGGACATATTATGTCTACTACAAGGACAACAATGGCGACAAGCAGCAGTTGAATCATGGCGGCTACCCCACCAAAAAAATGGCCCAACTTGCGGCGGCAGAAATTGAGCAGCAGTACCGTCATGGCGCAGACCTGACTGCACACAAAATAAGCCTGATCTCGTACTGGGATAAGTGGATTAAGCTATACAAAGCTGGCAAGAATGCCCCGATCACCGAGCGCCGGTATTCTACCATCCGTAAACAACTAGTGGCCCACTTCGGTGAAGACACACAGCTCAACAATATTTGTAAAAATGATTGGCAAGAATTTCTGAACGAGTTTGGTGCTGACCGCACGAAAGACACGGTCAGCAAGCTCAATGGATATGTTCGGGCGATGGCTGAAAGTGCGGTCGCCGATCGGATAATTTACTCGAACTTCACCAAAGGAACAGTGCTGACTGGTTTAAATGGCAAGCCACGTGAGTTGAAGTATTTGCAACTGGATGACTTTGCTAAGCTCATCAAATACTGCACCAAGCACGCTCGCTTGCGGAGCGTCTACAATTACATGATCATTACCGGTGCCTTGACTGGTGCACGTTTTAGCGAGGTTGCTGCGTTGCAATGGCCTGACATTGATTGGGATACCGATACTATTCATATTACCAAGAGCTGGGACTACACCTATGGCGGCGGATTTAAGGCCACTAAGACGCCAAGCAGTGTGCGAGACATATCTATGCCTCCAGAGTTGGCAACTATACTGAAGCAATTACAGACGGCACAGCAGGAACGTTCACTTGCCACAGGATATCGAGACCCTAAACACATGGTTTTCCGTAACATAAGACACGAAGTACCCGGTGATAGTGCGATTAACAAGGCTCTCCACCAGGTCGAAGACGATTTAGGTATCACACCGCGGATTACATTTCATGGACTGCGTCATACTCACGTTAGCTATTTGCTGTCGCAGGACGTGGATATCTACTACATTTCGCAACGGCTGGGGCACTCCAATATCGAGATAACCATGCGTGTTTACAGCCACCTGCTGGATCAAGCCCGCAAGTCCCAGGACACTAAAGCCTTGACGGCCCTAAGCACTTTGGCCAGTTCTTAA
>SRR1151209_00748 hypothetical protein
ATGAAGAAGGCTGTTTTAGGATTATTGTTAGGATTGACGTTGCTACTCACGGCGTGCGGGCCAAATCCATCAGCCAGCAAATCATCAAGTAGTAAGGCACGTTCGGAAAGTGTGGCCAAAGCTAAGGCAGCGTCCGTTTCAAAGCGTAAAGCAAAGGCCAAAGCGGCAAGTATCGCCAAAACCAAAGCAGATAACGAGTCTAAGGCCAAGGCGTCGAGCCAGTCGGCGGCGGATGCAAGCAGCAAGTCTGCCGCACAAGCAGCCGCCAGCAGTTCAAACGTTGCTGCACAACAGGCCTCTAGTAGTTCAAGCGCGGTTCAACAGTCAAACACTCAACAGCAGGCGGCACAAAGTTCTTCACCTAATATTCAAAATCAGAGCGGGATCTCTTATGACACAAACACGCTGACTGGATTTCTCAATACTTATGGTGTATCTCCTGCCCTGTACAAGATGCAACATGACGGGATGTCTGCAAAAGAAGCGCTGAACAGCCTACCCGATGAAATGCTGACCTTTGGCGAGCAGCAAACCAAATGGCAACTGGATCATGGTGGCAAGCCCGATGGTCAGCAATAA
>SRR1151209_00749 repressor
TTGGACGACATCAAGACAATATTTGCGAAGAACCTGCAACAGCTAATGGATTCTCGCGGCGAAAATTTGACGGAGCTGTCTGATCGCATTGGCGTCGCCTTCTCGACAGTATCGGACTGGTTGCATGCTAACAAAATGCCTCGCAGTGGGTCATTGCAAACAATTGCAGACCATTATGGCGTTAACATAAGCTATTTGACCACCGATCATAACCAACTAAATGTTTCCGGGATTGGCACGTACAAGTACATTCCCGCCGGTATTTCAGCCGGCGTTCTGTGCAGTGTGGATCCATTCACCTCCGATGAAATTGAGTCTATCCAAATATCTGACAAGGTTCTCGGCAAATATGCTGGCGACACAGATCTCCTGATGATGCATGTTAATGGGGAGTCGATGGACCAAACAATTCCCGATGGGTCTCTTATAGCTGTCAAGGCTTACAACGATATTCAGGATCTTCAAGACGGAGATATTGTTGTGTTTGCAGACGCCGGTGATTATGCCGTCAAGTACTTCTACAATGACCGCGAAAAAGAGATCATTACCTTTGTCCCAGATTCCACTGACAAACGTTTTCGGCCAATCACCTATACATACGAAGAACTGCAAGACGAAGATGTCAAGATAATTGGCAAGGTAGTGGTTTACGTGGTCGTTCTGTAA
>SRR1151209_00750 transcriptional regulator
ATGGACATTCCTGAAAAAGTGCCAGTCTACTTGAAGCACACACTAAGAGACCTGCGAGTTCGCAAAGGGCTTCCCCAATCTGATGCAGCAAAAATGATGGGTGTAACAGAGCCAACCCTTCGTCGTTGGGAAAAGGACTCGTCTGATCTAACAATGCAACAGATCTGGAAGATTAGCAAAATTTATTCAATCCCTCAAGACTATATTTTTTTTGGAAGCAATAACGCTTTTAGCGAAAAACTTGATGAACAAAAGGAGGTTTCTAAATGA
>SRR1151209_00751 antirepressor
ATGAACGAATTAACACCAATCGAGAATCAAGGCCAGCGAGTGCTGACCACAGAGCAGCTTGCAGAGCTCTACGGAACTACGTCGGATCGGATTGCGGATAACTTCAAGAAGAACCGCGACAAGTTTATCGAGGGCAGCCACTTCTTCAAGCTAGAGGGCCCGGCTTTAAAGGATTTCAAGGACAAAGGGTTAAATTCACCCCTTGTCGGGAAGAACGCCAAGAGCCTGATTCTTTACACCAAGCGTGGTGCGGCCCGCCACTCGAAGATGCTTGGCACGGATAAGGCCTGGGATATGTTCGATAGCCTGGAAGAAAATTATTTTAATCCGAAGCCCCAGATCAATCTACAAGGTCTCAGCCCGCAAACGCAGTTTGCCATCCAGGCAGCTCAAGCCATGGCTGAACAGGAACGCAAGATAACTCAAATCGACCACAAAGTTGATGCCATCTCCGAAATCGTCAGCACATCCACAATGGACTGGCGGCGAGCTACCCGGGACATCATCACTAAGATTGCACATATGCGTGGAGATGACTATCAAGCCACACGGAACGATATCTACAAGGATGTCGAACAACGAGGTGGGTGCAGCTTGAGTACACGGCTTACCAATCTGCGGAACCGAATGGCTGGAGAAGGCCAATCTTTATCGAAGCGAAACAAGACTAACAAAGTTGATGTTATTGGCAACGACAAGCGGCTCATCGAGATTTACATGGCAGTTGTTAATGATCACGCCATTAAATATCGCGTCTGGGACAACGAATATTAG
>SRR1151209_00752 hypothetical protein
GTGACAAGTATCAAAGTGCCAAAGCAGATCAAGCTCCAAATGCTTGATGACATGATCAGCGTTGTGGAAGACCGCATCTCGGAAATTGGACACTCTTTTCTTCCTGGGCAGACTGATATTCTAATTGACCTTGGAAGCTCCATCGGTCCAAAGGGCGGCCCATACTCAACAAAGTCTACAGACAAGATGGAGCTAATCGATGATTTGGTTGCTGAACTAAAGAAGTTAGCCATCATCAACGACTACCTGAATGCGATGTATGACTCGACCGAAGAGCTTCCGGATGAAGTAGATGTAGAGACGAAGAAATGA
>SRR1151209_00753 hypothetical protein
ATGAAAGCATTTGGTAGCGATTTTGACAACGTAAAGGATGCACTTGGTGACTTGATTGATATTGTTGAGGCACACGATTTCAGGAATGAGGATGGAACACTTATGAGCGGTAATGATGTTCTGGAACTTGTCTCCGAAGACGTGTATCAAATTGCAGATTTGCTTGGTCTTAGTGATCTGTACCTAGATCAGCCGGTAAAACATGATAACGAGAAGTAG
>SRR1151209_00754 hypothetical protein
ATGAAATTAACAATTGAATTCAGCACCACCGAGTTACAAAAAATGCTCCGGGCCATTGCGGGTGGCCAGGAGCACGAAAAGTTTCGTGTCAATATTGATGGTGACGGCATCCACTTTTCTGATTCTGAGGGAGAGCTTAAGGCCAGTGCCGATGGCTCATTCAGCCAGGGACCTATCGACTGA
>SRR1151209_00755 hypothetical protein
TTGCCACAGATCATAAAGTTTGAAGACATCCCGGTAAATGATTTGAAGTATGAGTACATCTCGGCGGATGCCATGTCGCTTGAACCCAAGATCCTATTTCATTCACGAATTATGAAGCAACATATGAGTGAACGAGATGGTGTGGTTTACGGCTATCAAGAGTGGGAGGATGGGCACAAGCTCTTCTTAGCCCGCAAAGAGCACGGGTCTGATGCTGCAACTTACGTAAAGACAAACTACGAAATGCAGCAAATCAGTCGATAG
>SRR1151209_00756 hypothetical protein
ATGCATACGTATATCGTTTCGTGCGATCTCGATGCTTCAGCGCATAAATACAAAATTTTTTCACATAAAATACGAGAATATCCAAACTGGACAAGGATCACATTTTCGTGTTGGTGTATTAGAACCAACAAATCAGCACCCATACTATGCAGCGAGCTTAGAGAAGTCCTAGATTACAATGACAGCTTATTCGTGGCTGAACTGGCCCAAGAGGCAACCTGGTTCAACTTGCCCGAGGAAGTTACCAAATGGCTTAAAAATAATTGCTGA
>SRR1151209_00757 hypothetical protein
ATGCTGCTGGGGACAAAAATAGAAGCCAACGTCAACGGAATGGCTTTGATGATCCAACTGCCAACTGGGCTTCACGTCGTTGACGACGAATATGTGGCTGAACATGATACTGCTCTCGCAAGAGCAGACATGGCTGGCTGGTGGACAATGCCGGAATTGGTAAAACGATATCACCAGAATCCAACTTGGTTTGCAGACAACGTGTTTCAAGTTCCGCGGTTCATGAAAGTTCTGCGAGGGCAATGTGTAATGTACCCGCGTGAAGGCGTCAAGGGCTATACATGTGAGCCGGAAGCATTTGGAGAGTTCATGAAAAAGTGGTTTCCGGAAATCGCCCAGAATGCAATCAAAGGCGGCAAATCTTAA
>SRR1151209_00758 hypothetical protein
ATGCTAACCAGTATTTACGAAACGTCAGCTACTCATTTATATCGGGAAATGGTCGGTGATCGGCAAGACAACGTGGAAGCACTGACCAAAATGATTATCGAGGGCGAACACTTCAATGATGATGAGGCTCTGACATACTCGGTGCGAATCCGGTTGTTAACTGAGTACATCGACGAAATTGAAGCCAATGAAAAGGCCGCAGACGCTGGCACGTCTACGGTCAAGAAAGGAAATTAA
>SRR1151209_00759 hypothetical protein
ATGGCTACATTATACGATTTGCAGGGTGCTTACGCTAGGGTGGCAGCATTAGTTGCCGACTCGGAGAGCGACCCGGAAGCAATTAAAGACACGCTGGCATCCATCAAGGATGGCATCGAGGAGAAGGCGGTTGGCACGCTTACGTCATTAAGTCGGTAG
>SRR1151209_00760 hypothetical protein
ATGAAACCAAAAACAGACGTCACACCGCAGAACAAGCTGGTCATCGTCCGGGGCGGCAAAAAGTCACAGGGCACTATGCCTATCTTTATCTCGGCCGAAATGCATCAGAAAGTTAAGGCAGTCGCCGCCGACGCCAACTTATCGCTGAGAGACACAGTGGAGACCATGCTGTTGTGGGCGATGGATAATCTCATTATCAAGGATTCTGACGGGCACCATGTATAA
>SRR1151209_00761 phage helicase
ATGTATAAGCTGCGCAACTACCAGCAGCTTACCATCAGCCGTATCGTCGGCGCCATGCGTGAAGGCAAGCGAGCCATCATGGTGCAGCAGCCACCTCGCACAGGAAAAACAGTCATCATGGCCGAGATTGCTCGACGGGCGACGCTTAAGGGCAACCGGGTGCTATTCGTGGTCCATCGCAAGGAGCTGGTGGACCAGGCGCGGCAAACCTTTAAGCGCAATGACGTTGACATGTCGCTGGTCACCATGGGCATGGTTCAGACACTTACACGGCACACCGGCACCATCCCTAAGCCAGCAGTCATCTTAATTGATGAGGCCCACCACGTGTTGGCAAAGTCCTACCGCCGGATCATCGACGCTTTTCCCGATGCTGTGCGGATCATGGTTACAGCCACTCCCTGGCGCATGAGCGGGGCGGGTTTCGGGGATGTAGCTGACTGCCTCATTCCCGGTCAGCAGATGGGCTGGCTCATCAAAAACGGCTTTCTGGCACCGATCCGGTACTTCTGCCCGCCGAGCATCGAGACAGTTGGACTCAAACTTAAGGCGAACGGCGAGTTCGACGAAGCGTCCGTTGCTGACGCCATGAAACCGAAGGTATTCAGTAATGCCGTGAAGATGTATCAGGAACACGCTGATGGCATGCAAGCCATCGCTTACGCATACAACGTGGCCTCAGCCAGGCACCTGGCCGACAGTTTCAATGCGGCCGGCATTACGGCGGCAGAAGTTGACGGGGCCACCCCAAAGGAGGAGCGGAATCGGCTCATCAAGCAGTACCGCGAGGGGAAGATCACCGTCCTGACTAATGCGGAGCTGTTCACTGAAGGACTGGATTTACCGAATGTGGATTGCGTCATCATGATGCGGCCAACGCAATCGCTTTCGCTGTTCCTGCAGTTTTCCGTGCGAGCGATGAACCCGCGAGAAGGGAAGACGGCGATCATCATCGACCACGTGGATAACCTCAGCCGCTTCGGCCTACCCACCGACGAACGTAATTGGCAGATGGCGGGTGAGGGCAAGAAGAAAAAAACCGTAGCGATATTCCGTCCCCAACGACCTGCCCGTATTGCTTTGCAAGTTTCTACCGCAAGGGCCGAACGACCTGTCCGTTTTGCGGACACGCTTTGGCCAAGGAAGACAACAACGACGGACCGCAGCACGTTGATGTGGACCTAG
>SRR1151209_00762 helicase
TTGGCCAAGGAAGACAACAACGACGGACCGCAGCACGTTGATGTGGACCTAGTGGAAGTCACCCCATCGGCGGCCGCCCAGAAGCGTATCAAGATTGCCCGCATGATCCGATCGAGTGAATTGTACAAATGGCTGGCCGATAAACGGCCAGAACAGCTGGAGAACTATCTCCAATTACAGTATTACGCCAAGCTGCACGGTTACAAACCCGGCTGGGCGTGGTACCAGGCTAAGAAAAGAGGTTTTATCCGTTGA
>SRR1151209_00763 phage NTP-binding protein
TTGAGTATTCTGCCACCGAACGAACCGCAGAAAACCATCGACGTGCCCCACAACTTCTTCATCTGGGGGGCGACGATGAGCGGCAAGTCTTATCTCGCCGAGCATTTCCCTAATCCGCTATTTCTCAACACGGATGGGAACGCTCTGGAGAATAAGGCGCCCTCGATCCAGATTCGCAATATTAAAGGGCCCAACAGTACCCTCCGGCAAGACGTCATCAAGCAGCTGGACGAAATCATCCTGGCACTCATGAACGAAAAACATGGTTATCAGACCATCGTGGTCGATGTCGTGGATGACCTGGTCGTCATGCTGGAGCAGGCCATCGCTATCCGGAATCGGGTGGAGACGCTGCCTGATGTGCCGTATGGCCGCGGCTTCGCGATGTTCAACACGATTTTTCAAGAATTTATCTTGGAGCTTAAAGCGTTGGATATGAACGTCGTTTACATTAGCCGGATCGCCGAAGTGAACGACGGTGTCGGTACCGAGACGCGGAAAATTCCGAGCCTGAAGACAAAATATTACAACGTGATCAACGGCAACTCGGACCTGGTCATCCAAACCAAGCGAGTGGGCACCAACTACATCCGCCGAATCACCGACCAGCGGCGGAAGTATTACCGTGACGACATCACGGACAAGGGCATCTTGCGTGTCCTCAACAATATCCCTGGCGTGTTTTCTACACGCCCTCAAACTAAAGGAGAAGATAAATAA
>SRR1151209_00764 hypothetical protein
ATGAGTTTACTCGATAAAGCACAAGAAGTATTAGCCGGTTTTGATGCAACCAAGGACAGCGCCAATTCCTTCGAGGGGCTGCCGTCCGGGAAATATACCGTCATCGTCAACACGATCGACCACCACGTCACCCCCGGCGGCTGGGACGGTCTGCGGATCATCACCGAAGTCAATGCTGGCGAACACGTCAGTACCAAGGATTACAACATGTTCAACCTCGATGAGACCACCGCGAGTGGTAAGAAAGTCCCTGACAGCGTCATCTCCAGCCATATTAAGCTCATCGCCAAGTTGGCGAACGCCTGCGACATTACCCTTAAGCCGGAGGACTGGGAGGACATCGACCATCTAGTGGCGGCCTTCAACTTCGGCCAAGCGATTGGCAAGATCGTCACGATGGACCTCACCGTGCGGGAGAACAAGAAGAATCCTCAGTACCCGTACAAGAATTACGATTTCGAACCAGCCGAACAGCCGGAGCCCATTACTGTCGATGATAAGGACCTGCCGAAGGATCTACGGTCCAATGATGACGACCTGCTGGGCGACGCGAAGAGTGACGATACCGACATCGATGACGACGATCTTCCCTTCTGA
>SRR1151209_00765 bifunctional DNA primase/polymerase
ATGAAGAATCTTGTGAATTATGCTAAGTATTACGCACGAAACGGATTCTACGTGCTGCCCATGGTGGACAAGAAACCGCTCATCACTTTCGCGGATAAACCCGCGCTGACCGAATCAGAAATTGAAAAAATCTAG
>SRR1151209_00766 bifunctional DNA primase/polymerase
GTGCGGACCGTTGACTTCTTCGTGGTCGACATCGACCGGCATGAAGGGGGAGCCGACGGATTCAAATCAATTCGGGAGCTGAAACATTTTAACTGGTTTCCGAAGACGCTCATGCAGACAACGGCTCACGGCGGTAAGCAGCTGTTTTACCGCAAGCCTCAAGGTACCGAAGTCAGTCAGCATATCGGTTGGCTGCCAGGGGTGGACATCAAGGCCCACATCAATAACTACGTGATGATTGCCCCCAGTACCGTCGGCAGCGGACAGTACAAGTGGGCCAACAAGCTGCCGATGGCTGAACCGCCCGCCGCTCTCATTGAGGACATCAACCGTGACGTGCCGGCAGAGGCTGCCTATCAAGGGCCAGCCGCCTTCAAGGGCCACAAGTCCAACACGGCGGAACTGTTTGAGCAGATTGTCAAGGGACTCGGTGAGACCGGCGGCCGGAACAATGCCTTAGCCACCTTCGTTGGCGCTTTGCTGATTCGTAATGTGGATCCGCAAGTGGCCTATGAACTGGCTAAGCAGGCCAATGCCAACACGCCCAAGACACTCGATGAGAAGGAATTCGAGAAAACGTTTGACAGCATTATCAAAACAGAGCTGCACCGACGGGAGATGATGAAGCTTGGCCAACAAGAAGGCAATGCAGCAACTGGCGGCGAAGCAGAATAA
>SRR1151209_00767 virulence-associated protein E
TTGGCCAACAAGAAGGCAATGCAGCAACTGGCGGCGAAGCAGAATAACGTTGTCCCGATGACCATTAATTTCCGAGTCAACACGAAAACCGGAATGCCGGTCCCAAACAGTATTAATAACGTCGTCCTGGCCCTCGAACACGATCCACTGCTGATGAACACGTTTCGGTACAACGAATTCACCCACGAGGTAGACGTGGTGAAGCCAATCCAGCAGATGCACATCGCTAAGGGTCAGATGGTCGATGAAATCGTCTCTCTCTGCCTGAACTATCTGGAGAAGAAATACTACGTGCTGTTCAACGACAAGGCCTTCAACGCCGCAATGATCCAGGTCTCGCGGGACAACGCGTACAACCCGGTGAAGGAGTACATGGAGAGGGCTTATCAGCACTGGGACAAGAAGGAACGGGCGGATTCGTTTCTGCCGACATTTCTCGGGGCGCCGATGTCTCCGGTGACCACGCTCATTACGAAGCTGTTCTTCGTCGGAGCGGTGGCCAAAGTCTACCAACCGGATATGAAGTTCGATTACGTGCTGGACCTAGTCGGCGGTCAGGGCGCTGGGAAGACGACGCTGCTGAAGCGGATGGGCGGGCAGTATTACACCGACCAGTTCACCGACTTCAAAGATAAGGACAGTTACGCGATCATGCTGCGGGCGTTGATCCTCAATGACGATGAGATGACGGCCACCAACAATAGCAGCTTCGAGGACCTGAAGAAATTCGTATCCGCTGAACAGCTGGAATTCCGGTCACCATACAATCGACGGCCAGAACGGCGGGCTAAGTCTTTCGTGATGGCCCGGACGACCAACGAAGATACGTACCTCAAGGATAAGACCGGTGAACGCCGGTTCCTGCCGATCATGGCCGACTTGGACGCACAGGTGTATCACCCAGTAACGGACCTAAAGCCACCTCTGGTGGAGCAGCTGTGGGGCGAATTCGTCAGCTATTACAAAGCCGGGTTCAGCTTCGCGCTGACAAAAGACCAGGTGCAGATGCTAGAAGAACATCGGCGTAACTTCATGTATGTAGACGCAGTGGAGGACGAGATTGAACGTCTGCTCCAGACCTGGCACGACGATTTCATTACCAGTAATCAGCTGGCGTCCTTGATGGGCGAGAACAACCTGGTCACTAATCGAGCCCTGGCCAAGAAAATCAAGTACATCATGGACAACCAACCGGGATGGAGAGCCAAAAAGAAGAGGATTGACGGCCTATCCACTCGGGGCTATGAGCGGCGGGTGGTCACTAGTGGTCACTAA
>SRR1151209_00768 hypothetical protein
ATGACAGCAGAAGCAAAAATTCAAAACGATATCCGAGTGGCTGTCTCGAAAGCTGGACATTCAATTTTTCGGGCAAATGTAGGCACGGTTAAGCAGAGCGATGGACGGTATTTTACCACAGGATTACCCGGCGGATTTCCAGACCTGTTTGGTTTCCGCAAGGGTGATGGGAAGTTTTTCTTTATTGAAGTAAAGAACGAAACCGGCCGTTTACGACCGGACCAGGAACGCTTTGCGGTGTGGCTAAGCACGAAGCCGGTACTGTACGGTGTCGCCCGCTCTGTGGAAGACGCACTGAAAATTATTGAAGGAGACTGA
>SRR1151209_00769 hypothetical protein
ATGACACACCACATCGGAGAGACCGTCCGCTACGTAGGACCGATACCAAGATTCAAGGGTAAACGGGGCCAGGTTATCGGAAAAGGATCAGGCCGTTGGGATTGGTTTGTTGCGATAACGGACGAAGGAATTGTCAACGCAACTAACGAAGACTTGGAGGTATCTATTTGA
>SRR1151209_00770 aminotransferase
ATGGAACGACATTTTGAACCAATCGCCGAGTATACCGGCCCAATGCCCCAACGGGCAACTGCGTATTCTGCCGGTTACGACATTGCAGCAGCGGGAACGGTGGTCATTAAGCCCGGCAAGATTGTGCTGATTCCGACGGGTATCAAGGCGAAACTTGGTCCCTATGAGTATTTGGAGCTGGTTTCTCGATCATCATTGCCACGCAAGCGGCACTTGGTAATGCCGAACAGCATCGGAATCATCGACAGTGACTACTACCCACACGAAATCATGGGTCAATTCTGGAACATCGGTCAGGTGCCAGCTGTCATCAATGCCGGCGACCGCATCATGCAGGGTATTTTCCGCAGTTACCTGTTGACCGACGACGATACAGCCACAGGCGCCCGCAATGGCGGTTTCGGCAGCACAGGGGGTAATTGA
>SRR1151209_00771 hypothetical protein
ATGGCGGTTTCGGCAGCACAGGGGGTAATTGATGTGGCTAGGCTATCGGAACATCCAGAACTGATGGAGCAAATCATTAAGCTGGAAAAGGAGCACGCCCCACGAGACGATCCACGGTGGGTCCCAATCCATGCAGCAATTGAGAAAGAAGAGCCGCGTAAGAAGAAAAATGTGTCTGTAAGCAAAGCAAAGAAATCTGATCAGGCGGAACGCATTGCTTATGTTAGAAGCCAAATTCTTCAGGGTCTTTCGCCATACGAAATTGCTGATATTTCGGGTATCTCACCGTCCTGGATTAACAAGTTGATGCATGATGTCCATATCCACCGACCACCGATTGCACATTTTCGTCTGTACAATTTTGAAACCGAGGAAGAACGGTACCTGGGAACTCAGGCTGAGGTAATTAAGCTTTTCAAGCTTTCGGCTTTTAGGCTGGGACTGGACAAGCATAACACGGTATTTATAGGGGATTGGGCGATCAATCGTGGACGCTGGTACCAAGATAAATATGGCAAGTGGAACAGAACGGAGAGTAAACGATGA
>SRR1151209_00772 hypothetical protein
ATGAATAAGGAAGAAGCAAAGCATTTTGTACGGAAGTGGTATTTAGACCACGGACTTACCATTGGCGGGTTAATTGAAGCGATGGACGGTATGATCGATGCTATCAATCCATATCCTGAAGAAACCGTATTACCCAAAGTGGTGGGGGACTGGGTAGGTAAATGCACGGGGCAAGGTGTGCCAGAATGGTTGTTGAATATGTCCATGATGCCCAGAGAGGTAAGTGTTTGGTTAAGGAATAAAGGTAATTATGTTGATGAACATCACCAGCAGCTGCTTATGTACGCCTATTTATATGGCTGGGTCCCAGAGCCACAGCCTGACAAATTGTACCGAGTTTACGTGCCCGGGACAGACCAAGTATACGTGTATACCCACCGGGTTTGGTCTGATCGTAAGGTCCACCTAGAAGTTCAGGGAATTGAAGAGCAAAACGACGACCTGACTGAACTGTTTACGGAGCGGCAGATTGATGAATTGAAATTGCAAGACTACGAACGGGAAGAGGCAAAAGGCTATGTCAAATAA
>SRR1151209_00773 hypothetical protein
ATGCGTGAGCGTAAACTGAAATACTTTAAGAAACTGCTGCTAAACGGAGCACCGTCTGTGTTGGGTTTTATCGGGGCGCTTATTGCACCACTGCTGTGGATTAAAATTGCGTTCGTGATTTTTGCGATTGGTGTGTACGTGTTTCTTTCATACACACAGGCAGCGGCGATGATTGATAACGACGATTTTCACGAGAGAATCGGAGCGTCGATTGAAGGGTTGAAACAAGCTGGCCTGGTTCCCAAGTCAATTAGGGTTAACGGGAAGCCAATTGATAAGGAGTAG
>SRR1151209_00774 hypothetical protein
TTGGAAGAACTGTCGAAGAAGAAACTCGCCGCTTTAGATGAACTGTTTGAGGATTTCCAGACTGTGAACCACCAGATTGCCGAAAAAATTTATGAGATTGACCATCCATGGACACCATCAGATCAGAATGTTGGCGGCGGGCGTTCATCTGCAATATCACGGCCCCAAGAAGCGATTTTGCAACGGCGGGAGTCCAACAAACGGCTGCAATACTTAATTAGTTTGCGGGATGACTGCAACCGGGCAATTGCCAGATTTGACAAGGAGCAGCGCCAAATTTTCGATTTGCGATATTGCTCATCAAATTACTACGACTGGGACACCGTGGGCAATCTGATTGGCTATGCCCATTCTCAGATTTACCGGAAGCGATATGCCATGCTTTGGCTACTAGCTGAGGAGCGCGGAATGGTTTCGCATAAAGATGGTACTAGAAACGCTATTAATCCCAGTTTGAATCAGTGA
>SRR1151209_00776 seryl-tRNA synthetase
ATGCTGGATATGAAATTGATCCGGGAGAAGCCGGATTGGATCAAGGAACGCCTAGGCACCCGGGGCATCAAACCGGAAGAAATTGACCATCTCTTGAAGCTGGACGAGCACCGGCGGGAGAAGATCACGGCGACTGAAGAACTCAAGGCCGAACGCAACAAGGTTTCTGATGAAATTGCTGCGACGAAGCGGGCCAAGGGCGATGCAAGTGCTGAAATTAAGGCCATGCGGGAAGTAGGCGGCCAGATCAAGCAGCTGGACAAAGAACTGGCCGATTTGGAAGACAAAGTAACCTATATTCTGGTGCGGCTGCCAAACATCCCGAAAGAAGACGTGCCGATTGGTCCCAATGAGGACTATAACAAAGAAGTCCGCAAGTGGGGCGCACTGCCCACCTGGGACTTTACGCCCAAAGCCCACTGGGATATCGGGGAAGACCTTGGTATTCTGGACTTTGATCGGGCTGCCAAAGTTACCGGCGCACGTTTTGTCTACTATAAAGGATTGGGATCTCGGCTGGAACGCGCCATTTACAACTTCATGCTGGACGAACACCAAAAGGAAGGGTACCAAGAAATCATTCCGCCGTACCTGGTCAACAAAGAGTCCATGTTCGGCACTGGCCAATTTCCTAAGTTCACCCAGGACGTGTACACGATCATTGATGAAGACGAACCGTTGACCTTGATCCCGACCGCCGAAGTACCGCTGGCCAACTACTATCGCAGCGAGATCCTGGACGAGAAGCAATTACCCGTTTACTTCACCGCGCTGACGCCGTGCTTTCGGTCCGAGGCCGGCTCTGCCGGCCGGGACACCCGGGGATTGATCCGGATGCACCAGTTCAACAAGGTAGAAATGGTCAAGTACGTGAAGCCGGAAGAATCTTGGAACGAGTTGGAGAAGCTGACCAACGATGCCGAAGAAATTCTGCAAAAATTGAAACTGCCGTACCATGTTGTTGCACTATCCACGGGTGATGCCAGTTTCACCTCTGCGAAGACTTACGATTTGGAAGTTTGGATTCCTGCTCAGGATACGTATCGGGAGATTTCCAGCTGCTCCAACTGTACAGACTTTCAGGCACGCCGTGCCCAAATCCGGTATCGGGATACGGCCGGCAAAGTACATCTGGTTAACACCCTGAACGGTTCCGGTTTGGCCGTTGGTCGGACTGTTGCTGCCATTTTGGAAAACTACCAGAACGAAGACGGCAGCGTCACTATTCCTGATGTGCTGGTTCCTTACATGCACGGGATCACCAAGATCACTAAAGAAAATGCATCCGGCTTAAATTAA
>SRR1151209_00777 hypothetical protein
ATGCTCGAAGTGATCAACCGTGAAAAGGGCCGATCGTTTACCATTAACGATTTGGCCCAGCTGCTGGACATGAGCTATGCCAAGACGTACAACACCTTTCAGGCCCTATTAGAGGACATCGATGCACTCAGCCACGGTGAGTGGGTTTCCCATACCATGGCGACGATCAACGGTACCGACCTGGGCATTCCCCTGGATTGTTACGCCTCTTCTTACTCAAACGTTCCGTTGAGTTCCAGGTCTTTGACTACGCCGTTCAATCGGCCCGGGCAAACCTAG
>SRR1151209_00778 hypothetical protein
TTGCGGAAAATTGCCTCACTGCGCCACTTCTTCGAAACCTACAATATCAACTGGTCAACCACGACCCTGCAGCTCAAAGGGGACAAAAAGCAGATTCGGTTCATCCTGAACTCGATCTACTGGGTCGCCTTCCATGCGCAGGAATGGCCTTTCCACACGGTCAAACACGACGATGTCGTCCGGATGCGCAAGGATATCCAAACGCAAGAATTCAATCCAGTCACTTCGCTGCAGCTCGACATGTTTTTAGGCCTCTGCCGCACACGGGTGGGCACCGGCTACCCCATGACTTCCATGGCCACATACCAGCAGATTTTTCCGGATCAGAATTACTTCACCGCCCCCTTGTTGGAGCAGCGGATGTATCCGACTCTGGACAAGCTGTCCCTGAATAACGAGAACCAATTCCTGCAGTTCTACTTCCACATCGTATTGAGCTCCCGAGAGAACGGCAACGAGTCCTTCGCTGAGCTTTACTACTATTTGAAGAAAATCGGCGGCATTGCCTGGGACTTCACTCATAAATTCTTCGACTTCCTGCGCCCTTACCAGCGCAACGATGATCCCAGTCTGAACGACAATCACCTCCTGGTGGCCAACTTCGCCAGGACGGTCGTTTCCGTCCTGGTCATGACCGGTCACCGTTTCGGGCTGGACGACTTCAACTCCGCTTATTTTCTGGATGACAGTACATCGGCCATGTCGAAGCTGATGTACAAGTACTTCGACCAAGAGACGGGCAATCCAGAATTTGCGCCGTTACGGCCTTATCGCCAGGAACTGCACCATAATTTGGTGCTGCTTCTGGCGCCGTATCTGCAATCCGTGCAGTCTGATGACAACGTCAAGGTATATCTTTTGACTGAGCACAATGGCTTCTACTCCCGGGTATTGGAGATCTTCCTCCACGATATCGGCTTCGTGCACATCATGGCAGAGACTTCAGACCCGGCGGATGCAGATTTGATCATCAGCAGTTTGGCCAATCCGAAGCTGCTGGAGGATGCGCTGCATCTGGATCCGAGCAAGGTGTTCATTTGGTAA
>SRR1151209_00779 hypothetical protein
ATGGATTCAGCACTACTATCAAAGGTATTGACAGACCGGATTAAGGGTATTAGGGAGAACCCGGCATTGCAGGCCTTAGCGCAACTGGACGAACCATCCAGCAACGAACCGCGGGTAACGCAATACGTCGCCTACACCGATTTCACGACTGCAGAAAGTAAGAGGCAGACTGCATCGATTTATGTATTCACACCCTATATGAATCTGGATGCCCATCAGCACCCAATCGTGGAATATCAGACGCAGCTGATGTTCCACTTCGATCCGTGGACTAAGTCGATCCACGTGAGTGTTCTGGAAACGCTGGGGGCAGCGTCAAAGCTGGCTTTCTTCGATTATCAAAATCATGGTTTAGCCACTGTGGCGTTGCAAGCCTTGATCGGCTTGGGCCGCAAGAATGGCTTCCATAACATTGACGGTGTGGTATCGTCTTTCGACGGGCACGATGATCTGCTGCGGATCAGCGATGTCTTGCAGAGAGTCGGGTTTACCGTGCAGACTGACCCGGAAAATCCGCATGTTGGCGAGTATTCCTACGGGCTAAGCGCATAA
>SRR1151209_00780 N-acetyltransferase
ATGGAAAACACTGTTCGTTTACGCCAATTTGAAGAAAAAGACGCCGCCGATCTATTTGACTGGGGAAGCAAAGTGAATTTCTCACCGGCAGTCAACTTTTACCCTGTCCGAAGTCTGACGGATGCTCAATTCCGGGTACACGCCTTCGCTCAGGATGACCAGATTCAAGCAATTATGGTCAATCGGCACAACGTCGGGTACTTAGAGTTGCTGGCCCACGATGACGGGGTGAGCGAAGTCGGCTTAATCATTGACCCCGCGTTACGCGGTCAGGGAATTGCTTCAGCGGTGCTCAAACAAATAATAGGAAGACACACGCCAATAGCGGCCGTTGTTGATCGAGAAAATGATCCAGCTAAGGCTCTTTTCAGGAAGCTTGGCTTCCATATTTCCGCAATTTTACCAAGCTGGTTCAAGGCCGATCCCAATAAGTGGGAAATTTGGATATGGAAATAG
>SRR1151209_00781 acetyl esterase
GTGCAAGAGATTAACCAAACATTGACTGAACCAGCTTTCTTCAAGTGCTTTGTCCATGCCCCGAATCCGGAGATCAAGCGGACTAAATACCCGGCCATCATGATCGTCCCGGGTGGGTCATACACCCATATTCCGGAACATCAGGCAGAGGACTTGGCGTTGGCCTTCTTTGCTCGGGGGTTCCAGGCGTTTTATTTACGATACCACTTCATCGGCGAAAAGACGCCCCTGCTGCCAAGTCCGGTCTATGATTTAGGTCAGGCCTTGGCGAATATTCGCGATCACGCTACTGAGTGGGCGGTGGACCCGAGTCAAATTGCTGTCGCTGGTTTTTCCGTTGGCGGTCAAGTGGTGAGTTTGTACGATACGATGCGGTCAGAGGACTCCTTTGCCAAGGATTCCGGTATTGCTGAGCCAGTAAAACCCAAGGCCGTTATTCTGGGGTACAGTGTCACTCGCTTGGACGACAACTTCCCGCCGCAGGATAAGATTCCGATGCATCAGTTAACGGACGATGTGCCGAGTACGGACGCTCGGAATCACAATGTGGCTCAGGCCAGCCCCACGTTTATCTGGAACACGGTAACGGACAATGTTATCTCGCCGTTGAATTCGTTGGATTATGCGACTTCTCTAGTCAAGAATAATGTCAGTGTGGAGTTGCACACCTTCGTGGAAGGACCGCACGGCTTAGCGCTAAGCAATGTCTTGACCGCGTGGCGGCCAGGTACTGATTTGCCGCACGTGGCCCACTGGGTACCGCTGGCTTTGGAATGGTTACGTTATTTGGGGATCGACACGATTCCGGTAAACTAG
>SRR1151209_00782 poly(glycerol-phosphate) alpha-glucosyltransferase
ATGTTTGATTTCTTTCTCGGTAATCTGCATGTGCCGCAACGTTCAAATACAGTCAAGGAATGGTTGGCCAATTATTCTGGCAGCGCAACTGACTTGGGTACCGATGTGGTTGAGGGAAACATCCAAGTGCATGGCTGGCGTGTAATCGACGGCGATCAACAGTTTTTACTCCGCGAAGATGTCCAGAGCGGACAAATCAGTTCCATTGTGTATGGTACAACTGCCAACTTTATTAAGCACAGTGAAATCTATGATGATCGCGGCTTTAAGACGCTGGATAATATCATGGGTGCCGATGGCCGAGTGACGGAACAACGGTTCTTCTCACATACTGGTGAGCAAATCATTATTTGGCGTTTGGACGGTAAAGGCGCTACCCGATCGATTTTCTTGAAACATCAGGGTGAACAGCGCATATTTATGAATAATGACGGTTTGATCACATACTTTCTGGACGTTATCAATCAAGAAAACGGCGGGGACAACCTGATTATCAGTGACCGATACGAAAATACGCCCGCCCTGGCGCGAATGAAAACGCCAGCGCGGCGTTACGTTTACATCCATAACGTCCATGTGTCTGATCCGACCGATCCGCTGCACGATCCAAAGCTGAATTATAACTATGCCTATGTTCTCCAACATCCCCGCCAATTCACCGGGATGATCACCCCGACCTATCACCAGGCCAACGATATCAAGCAGCGTTTCGGTAAGGACTTGAATGTGGTTGTCATCCCCAGCGGTTCAATTGAACCAAGCAGCAACCGGATTGCAATCAATGACCGCCCGCGCCAGCATCATATCTTATCTGTAGCGCGGATTTCTCCAGAGAAACGACTAGATCTGCTGGTTCGCGTCGCAGCTCTAATCAAGAAACAAATTCCGGATGTTATTTTGGATATTTACGGTTTTGTCACTGATCCGCGCAGCGGTATCATTTTGAACAATACCGTTAAAGAGACGGACATGGCTGGCAGCGTTCATTTTTACCCATATACAGACCAGATCATGCCAGTCTATGATGAGAGTACTGTACTGGCCCTAACCAGTGCCAATGAGGGATTCGGTCTCGCTCTGATTGAGGCTGAAAGTCGCGGTGTACCACTCGTTTCCTTCGATATCAACTACGGTCCTAATGAAATTATTGAAAACGGCAAGAACGGCTATCTGATCAAAGATGGGGATATTGACGATATGGCTGCTAAAATCATTACCATCTTCAAGGACCCGTTCTTAAACCAAAAGTTGAGTACCGGTGCGTATGAAGCAACGAATAAATTCTCGTCGGCTAACGTTTGGCAAGCATGGCAGAACATCGCAAAAATTGACACTCAGACACCGATTAAGTAA
>SRR1151209_00783 hypothetical protein
ATGAATGCGCAAGATGAATTGAATCAGATCGAATCAACCCTGCATCACTTGGAGCAGGAACGGCTGACCGCGACCCGCCAAATGGGGACGCAGTCCGGTCAATTACGGCAGCTCGCGGACAAGTTCGAGCAGACGCTGCAGCAGACCAGTGAACAAATTGCGACCCAGCTGGATCGCTTGACCAAACTGGCCGACGACAGTCAAAAGACCAGCGATGATTTAGATGCTGGGATCGCCAGTGACCAGCAGGCCATCGACGAGCCGCCGGATTTTGACGGGCAGATCCAAGCGTTACAGGAAAGAATCGATGACATCAACCGCACGACGATTCCCAATCACCAGCAGGAGCTCCAGCCGCTACTCACCGAGCAGAAGGATCAGCGTCACCAGCAGTCCCTGCTGCAGGATAAAATGCAGGGTATCGTGGCCGAAGAAAATCGGATCGCCATTAAGATCCGGAAGGCCAAGAATCTGGAAGAGATGATTGCCCTCACTGCTGAACAGCAGGGCAGTATTGATTCCCTGCGCGGCCAGCGGGAGGATCTGACTAATCAGATTGGCCAGATTCAAGCCACGTTGCATGATGGCCAAGCGGCTATTGATGCAGTCAATAAGAAAATTGAAGCGGCCCGGGATCAAGTCAAGACTTGGGACACCCAGCGCAGCCAGCTGCAGGAGGCCAAGCGGCGCCGGCCAGCCCAGGTGGCCCGGCTAAAGCAGCAGATCGCGAGTTTAGAGAAGCAAAAAGAACAGGTCAACCGCACAGCCCAGGCCATTGATGACCAGCACCAGCAGGCGCGGGATGTGCAAAATACGTTGAGCGAACAGCTTGCGACGATTCAGCCCCTCTTAAATGTGCTGAGCAAAGATGTGGCTGGGATGGAGACTATCCCGAATATCCCCCAAGCTGCGCCCCGGGTGAGCAGTGCAGGCAGTGCGCCGAGTGCGCCGCCATTACACGCTGCTCCATTGACCGCACCGACCCCGGCCCAGCAGCCAGCGCCGCAAACTAAAGTCCGCCCGGCCGCCCTAGTTTTCCCGATGCTGCCCAGAGACCCGGCCCAAGCAGCGATCCTGCGCGGTGTCGTCGGCCGCTTGCTGCAAGCCGGCGAACAGAGCGTTCACCTGTACACGACCGCCTATGAAGAGGAAGACTCCGCCCGGCTGCTGCAGCTGCTGGGGAACGAACAGCCCCAGTCTTTGGCTTGGACGAATATGTATACTGCCTTGCGCCAGACGAAACAACCGGCTGCTGCTCCGGCAAAACTGAACCTGCAGCCTGATTGGCACACCCAGGGGACACCGGACAACGCCACGGTGGAATACCTGGACGGGCAAAATAATTTAATGGCTCGGGTGCAATACCGTTCCAATGGCTCAGTGCGGATGGTGACGTATTTCAATTTGCCGGGCAATGCCCAGCGGCGGGACTTCTGGGACGCGGCCGGCCACGTGGCCGTTACTCAGTCGATCAATGCCAATACCGGCCGGGTCACTAATGAGAACTTCTATCGAGTGGACGGTTCCGTTGTGCTGATCAAGGAGTATGGCACCGACGCAGAACACATTCATGTGTTGGATGAGCAGCGCAACGTGATCCAGGAATTGGCCAGCGATGTGGAACTCGCCGCTTGGTGGCTGAGTCAGATTTTACCAGCGGACAGCCAATTGATCACTGAGGCTGATCCGATGCTTGTGTTGAATAAGGCACTGCAGGCGCGGACCGACATGACGCTGGTGCCGATTCTAACGCCGGAGTCTACGCCCCAAGCTTGGGCAGAAATCCTTGGCGGGGATTTGGCAATTCAGACGGCGTATGTCAGTGATCCGAACTTGCTGGCGGCGGCGCGGACGACATTGCCTGAAACGGATATTGAAACTTTGTAG
>SRR1151209_00784 chromosome partition protein Smc
ATGGCAACGGATAAAAAAGGGGCACAATCAGCGGCGATCCAAACGGCGTTGGATGTGATTAACGCAAAGGTCGATCAATTACAGCCGTATTTTGCTCACAGCCAAACCCGATTGGTGCAGGTGGCCAAAGAATATTTGCGGGGGCTGTATGAAGCCTTAGATAAAGTTGGGGGAGAACAGGACCGGGTGCAGGATCAGCTGGCCGCGGTACAGGCCCAGATGCAGCATTATCAGCAGGTGACGGCGACTATTCAGCAAGCGGTGGACGATCCCCAGTTATGGCCGCGGCAGCGGCATGCATTGCAGCTGCAAATTGACGAGCTGACTCGGCAGATCAGTGCGCAGACCGAACAAGAGGGCCAGCTGCGCACCCAGCGGGAAACGGCGAAAAATACGGTGCAGTCGCTCCACGGCCAGCAGGACATCCTGCACAGCAGTTTGCAGCGGCAGGAAGACGCCATTCGCCAAGAAACCGATCTGGTCAAGATCACGGAAATGGTTGCTGCCCAAGAATCCCGAGCGGCGGACAGCAACCGGCAATTGGCTGAGCTGGCCCAGAAAGAACAAGCGGCGGCGGCAGCCGTAACGGATCTGACCAGCCAGTTGACTCGAATGAATGATGACTTGTCGGCGAAGATCAGCCAGCGGGCGGTGCTTGTGAAACAGGCCCACGCGTTAAGCGCAAAGATCAACGCCCCAGTGTCGATTCAGGATCAATTGCGCGACAGTCAGCAGCATCTGACCGATCTGCAGGATCAGATTCAGGGATTGGAAGATGGCCTGGTCCGGTTGAGCCGGGGGGAAGATCGGCTGACCCAAACCATTGGTCAGGTCCAAAAGACCATGACCAGCGGATTAGTCGATGGCGCCGCGCTGACTCGGGAAGCGGTGCAGCAGGTACCAACAGCGGTCGAGGCCGCCCCAGCGCCGGTCAATCCCAGCGGGGCCGACCCCACGCCAATTACTAATCAAGCTGTGACCCCGGCTGCAAGTACCGGTCCGATCCCTTTGACTGACGAGGGTGCATTGGCCCTCAATTTGCCAACGACACGGCCGTACTTGATCGTCCTGACCACACTGCCCACCAAATTGGAACCCGTTCTGCTCCAGTACTTGCGGGCGTTGTTCCAATTCTTAGGCGCCCACCGAATCCAGATTCGAGTGCTTGTGACGAGTTATACGGCTAATTTTGTGGACCGAATCAGCCGCTTCTTGAATGAAGTTGGCACCCAGGCCAATGTGGAATTTGCCTCTTTATTCGATACCCTCCAAGGCGTCGGTAAGGCCAAACCATTTGCGGCTAAGGAATTACCGGTAACGGTGCCTTTAAAGCGGGGCAAGGATGACCCGACGATTCGCTCTGGGACTTACGCCGCGGTCGGCGACTATCGGGCGTACTATCGGCCCGATGGTACCCTGAATTGGATCGGTTACAACGTGGACGCTGAGCATTATCTATATGATTACTTTTCTCCCCAGCACTTGCTGCTGTACACCCAGATCATCGTGCACCAGCGGGATGTGAGCGAGGTAACCTATTATCGGCGGGATCGCGGCCCGGTGCTGAAGCTTCAGTACACCAAGGGCACGGCAGCAGTGCAGACTTTCTTCAATCAAGCCACCCAAGATTGGCCGTCAATGGCGGCCTTCATAGCGGATTGGCTGAGTCATGACGAGACCGCTCGGGCAAGCACGGTGGTGGTGCCCGGCGACGACCCATTGTGTCCGGAAATTATCAAAGGCAGCCTGCGGGAGCAGACGATTCCACTATTATCCGATCGGACACTGACCGACCCGAATCTTGGGGCTAAGCTGAGCGGTGTCCACTGGTTGCTGGTGCCTACCCGGCAGGATGTTGACCAAATTCAGCAACTCGCCGGCTGGGCGATCCCAGTCGTTACGATGGATACCCTGACAAGCGCTGAACATGTGGCAAAGGAGCAGAGAAATCAATGA
>SRR1151209_00785 hypothetical protein
ATGACAACTAATCCATCAAAACGCCGGTTATGGCCGTCTCTTTATAGTGAAGAAGAGCCGGTCGGTGATATCAATGCTTGGATCAAGATCCTAGCAACGATCTGGTTCATTTACTTATTGTTTAATACCAAGAATCCGTTGAGTATCTATTTCACGCCATCCTTGACCGAGTTTCAGATGCATGGCAGTCTCGGTTTGGATATCCGGGTGATTGCGGCCGGCCTGCTGTTCCTTGGTTTAGTGCTGGGCAGTGTTTGGTGGGCGTTTGGCGGGCTCGGTCTGCGCCGGCTTTTCCCCCAATGGCGGGTGCGGGACACCTTTCTCACCCTCTGGTATGGCTTGCTGACGCTGATCTTTAACGGTATCGGCCGGTTATTTGCGGATTTTGTCCAGGCTCATTATGTCGACAACTCGTCCAGCGCCTTGGATATCGGGGAAATGGCTTCCTGGCATAATTACTGGATCGTGACGGTCCGGTATATTTTGATGATGGCCGGGCAAGTGATCGCCTTGATCTTGATATTCTTAGCCCTCTATCAGCTAGGCAAACGCTTCTTGCCCCAGAATAAGCGGTTCATACCGGAGCTAACCAAGTTTCTGGCCAATATTTTGGCGGCGCTGGCCTATGCCGGCCTGATGACGACGCCAATCAATCCCAACTTCATGCAGAACGTGTGGCTGTCCGGGATGCAGGCGATTCCCATGCTGTGGGCCTACCGGCACACCCGGAATGTGCTGGTGCCGATTTTGGGCCTCATCATCCTCAACCGCGCTTTCATTGCACTGCTCATCGCGTTTTCTGCCTGA
>SRR1151209_00786 hypothetical protein
ATGCGGATCACGAAACAAAGCTGGTGGATACTGGGGGTCACCGTCGTACTGACAGCGTTATTTCTAGGCTATTATGGCTGGGGCTATCGGTATTTAAAATTAAAAGAAACCGAACCGCCAACCACGGCGACGACAACGACCACTGCCCCGGTGTATAGTCAGGCGCAGTTTGAGAAGACGATGAAAAAATACAAGGCCTTTGACGCCTTTGCCCGGCTCACGAGTGTGGCTGATATTGAGAGCGGCAAGAGTTCGCTGGGCGGGTACACGGATTTTCCCATTATGCCCGGAACCAACGCGACGCAATCAATCAGCGTTCAGGATGGCAGTCTCGAAATGTGTACGACTATGACACCCCAAGGTGTGGTCGTGGCGGGTCAATATCTCATTACATCAGCTTACGATCATGACGGCTTCCATAATTCCGTGCTTTACGTCCAAGATTTGAAAACCCGCCGGTATATTAAGACGGTGGTGCTGAAAGTCACGCCGCATGTCGGCGGAGTGGCCTATGACCCGCGCAACCAGCTGGTCTGGGTGTGCAGCCAGCGTAATCGCCAGTCTGAACTGGTATCGATCAAGTTGAGCGATATTGAAAAATACGACTTGAATAAAACGAAGAAGCCCATTGCGTATCATCAACGAGCGCTGCTGGGATCAATCACCCGGGCGTCTTTTGTCACTTACGATGCCGGCAAGCTGTATGTTGGTTCGTATCGCACTGGCAACATCCAGCACTATCAGCTGAGCAAGAATGGCCGCTTGACCGGCACCAACTCGATCAAGGTGGGCACGAATATTTTCGAGACGATTACGAACGCCTTGCTGAAGCAGGATGTTTTGACCCAAGTCCAAGGAATGGCCTTCTACAAGAATTACATCATTTTGTCCCAATCATTTGGTCCCGGGCGATCCCGGTTGTGGGTCTTTGATAACCGCAATCGGTCGGTCTATCGGGAGTCGGATGCGTTGGCCCGATTCTACGCCCCCTCCCACCTGGAACAGATTTCGACCAGCGGCGGGACTCTGTGGGCCAACTTCGAATCGTCGGCGCGGGCATATCGCGGAACCAGCCATGACCACATCGATCGGCTCGTCCACCTGAATTTGGAATCGTTCAAAGCCATTGTTGATGCGGAGCTGCAGCAGAAGGGAGCGGCAACGAAATGA
>SRR1151209_00787 Pnp/Udp family phosphorylase
ATGGGTTTAAGTCTTTTCAGAAAGCGTGATGATTCGATGTCTGAGTTACCTATTTTGAATTACGATCCGACCCAAAAGGCGGTCATTAACCCATTCCGGCATGAGGGATATCACTTTCCGCCAAAAATGCTGCTGGCTTTTGTGACACCGGATCATTTAGCTGATTTCTACGCGGAGTATCATGCCCAAGAGATCGGCACTCTGCTGACTTTCTCGAATGTGGTCCGGGTGCAGCAGATTCGCTTCCACGGGGAAGCCATTGGTATCTGCCCCGCGGTGATCGGCGCCCCGGCTTCGGCCCAGATCATTGATTTCTTGATTGCTTACGGCGCTAAACAAATTATTGCGGTGGGTTCCTGCGGTGTTCTGCTGGATAAACCGGAAAACACCCTGCTGGTAGTGACCGAAGCACTGCGGGATGAAGGCACTTCCTACCATTATTTACCGGCAGCGCCGAGTATTCGGCTGGATGCGGACATGGCGGCTGCCATTCAAACCAGCCTGGCCAGCGTTGGCCAACCGGCCAAGCCGGTCAAAACGTGGACTAACGATGCCTTTTTCCGGGAAACGCCTGCGTTGATCAAGCAATACACTGCCGCCGGCTATGAAGTCGTGGAAATGGAATGTGCCGCTTTAGCCGCCATCGCCCAATTCCGTGGGGCCAAATTCGGTCAAATTTTGTTTACCGCCGATTCACTGGCTAATCAAGAGAACTACGATGCCCGGGACTTTGGCCGGGCGTCGCATACCCGGGTGCTGGCACTCGGCGTCAATTGTTTGGCCGATTTGAATTAA
>SRR1151209_00789 transglycosylase associated protein
ATGCATTGGTTATGGGTATTGATCGTTGGCGCATTGATTGGGGTAATTGCCGGAGCAATTACGAGTAAAGGCAAGTCCATGGGCTGGATCAGCAACATTCTGGCCGGCTTGATTGGCTCTTCGATTGGTCAAGCCATTTTTGGCAGCTGGGGTCCGCAATTGGCCGGCATGGCCTTGGTCCCGTCGATCTTAGGTGCTGTCATCCTGGTTGCTGTGGTGTCGTTCTTTGTTGGACGCAGCGCAGATTAA
>SRR1151209_00790 hypothetical protein
GTGGGAGAAATCATTCATAGTATTGGGCCATGGGGAGTCGTGGCCCTCTTCGCTGGCGCCGTCGGTCTGCTGATCTTTTTTCATCGGCTCAGGAGCCGCCAATCGTTTGGTCGATGGGCGCTTTTAGCTGCCATCCTGTTGCTGACAGTCGGCATCGCTGGCTGCGGTACATCAGACCAGTCGGCCAACACGGCCAATACAGCAAGTGTCAAAAAGCTGACTGCTAAGGAAAAAGCCGCTCAGGCGGAAGCCAAATCATTAGCCGCCAAGAAGTCCAGTCAAAACGCTGTGGCGGAATCACTCAGCAAAAAACGCTCGGACTTGGAAGACGAACTGGCCGCCAAAGAATCTGCAAAGGCAGAAGCGGCCAGCAAGGAATCTGCACGCCAGGCGGCGGCCTCTTCTTCTGCCGCTGCCCAATCGTCTTCACTGGCGGCGGCAGCTGAGAGCAGCAAACAGGCCGCAGCGGCCGAAAGCAGCAAACAGGCGGCGGCGAGCAGTTCCCAAGCCGCTGCTGCCGCCCAGCAAACCCAGACGGCCCAAAGTCAACGGGGCGACATGAATACCGCCGAAACCGGAACTATCGTCGGCAACGTCAACTCCAAGATCTACCACGTACCCGGTCAGGCCGGCTACCGGATGAATTCCGCCAACGCGGTCCACTTTAATACGGAGCAGGATGCCATCAACGCTGGTTATCGGAAAGCATTGCGCTAG
>SRR1151209_00791 DNA-entry nuclease
ATGAAATTACGCAAATTAATGCCGCTGGTGCTGGCCGCCGCTTTTTTCTTCGCAGGCTGCAGCACTGGCCAACCAGATAACCAGGCCGCCCAGCAGTCGTCTCTGCAAACCACGGTCAGCCGCTTAGCGCAGACCAACAAAAACACCGCCGCTAAGATCAAAGATCAGGCGGAGTCCATGTCTTTGGACAAAGAAGTGATCAGTGAGCTGGAAAAGAAGCTCAGCAAACAACCGGCAGCACCAAAACAGGAGAGTGCCAAGCCGACGGCGGCCGCATCAAGCACTGCCGCCCCAGACCTGGCCAAGCTGAATTATTCCGGCACGCCGGAAATCACCGTGAACAACAACGATCCAGGTTTTTCAGCCAGTGACCAAAGCACCGCCAAGGGCGGCTGGGAAAGTTACGCCGACCTGGACAGCTTGAACCGGGCCCAGGCGGCCAACGCTCTGTTAAACCGGTCCTTGATGCCTACCAGCAAACGGACCGCCCTCACTTGGGACCCCACCGGCTGGCGGAACAAGCGCACCGCCCACGGCTGGCTGTATAACCGCAGCCACCTCATCGGTTTTCAGTTGTCTGGCGAGAACAACAACCCGAAGAACCTGATTACCGGAACGCAATCGTTGAATAATCCGCATATGCTGGCTCATGAGATGGACATTGCCTACTATTTGAAGCAGAGCAATCAGCACTTCATCCGCTATCAAGTCAAGCCGGTCTATCGGGGTAACGAACTCGTTGCCCGCGGCGTGCAGATGCGGGCCCAATCCGTCGGTGATAATACGGTGCGGTTCAATGTGTATATTTTCAACGTCGAACCGGGCTATACGATCAACTACACTGACGGTACCAGTGTAAAAGGCTAA
>SRR1151209_00792 D-xylose proton-symporter
ATGACTCAAGATTTGACTAAGCCCCAGAGGCGGCGCTTACGAATCATTTCGCTGATCGCCACTTGCGGCGGGCTGCTCTTCGGGTATGATACCGGCGTGATCAACGGGGCGCTGCCCTTTATGGCGCAGCCCAGTGAATTGAATATGAGCCCGCAGATGGGAGGCCTGGCAACCAGCTCGCTGACGCTCGGCGCGGCCCTTGGCGCTATGGTCATTGGTCGAATCGGCGACAAGCGCGGGCGGCGCTGGACGATTCGGATATTAGCGGTTATCTTTGCCTTGATGACAACCCTCAGCGCACTGGCTCCCAGTGCTTCAGTCCTCGCGCTGGCGCGCTTGTTTCTAGGCGTCGCGGTCGGCGGGGTATCTGTCTTAGTACCAAGCTTTCTGGCAGAAATTGCCCCGAAAAGCATTCGCGGCCAGATGGTCACTCAGAATGATCTGATGATCGTGACCGGCCAGCTGCTGGCCTTCATCCTGAATGCGGTACTCGGGACGACTTTTGGTACCGTCCACGGTATTTGGCGCTGGATGATCGTGCTGGCCACGATCCCAGCAATCGTGCTGTGGATCGGGATCAACTTTGTCCCAGAATCACCCCGCTGGCTGACGGCCCACGGTAAACGAGGCGAGGCTCTGCGGGTGCTCCACACCATTCGTTCCGAGCACGAGGCCCAGTTAGAAATGGCAGAGATGAACCAGGCGATGCAGGCCGAACGAACTACGGCCCGGCCGAGTTTTAAAGACCTGGGTACGCCCTGGATCCGCCGATTGGTACTGATTGGCATTGGCCTAGGCGTTACTCAACAGATTGCCGGAGTCAACATCATCATGTATTATGGGACGACTATTCTAGAGGCATCCGGATTTGGCCGGGATGGCGCGTTGATCGCCAATATTGCCAACGGGGCTGTCTCGGTGGTTATGTCCCTCGTGGCGATTCGGATCATGGGCAGTGTCAAGCGGCGTACGATCTTGATCACGGGCCTGGTCGGTACTACCGGGGTGATGGCCGGCATCGCCTTGGTCGTGAAGTTTCTCAACGGCAGCGCCATCCAACCCTATGTAACTGTTGGCCTGACGATGCTGTTCCTCGCATTCTTCCAAGGCGCCATTTCACCCATGACTTGGCTGCTGCTGTCAGAAATTTTTCCCGGCCGGCTGCGCGGGCTCGGGATGGGGTTCGCCACGTTCTTCCTGTGGCTCAGCAACTTTCTGGTGGGCGACACCTTTCCCATCTTAGTCCATAACCTGGGTATGGCCGGCTCCTTCGGCGTATTCGTGGGTACGAACCTGGCCGCTTTGGTGTTCGTCATTAAGTGTGCGCCGGAAACGGCGGGCAAGTCTCTGGAAACCATTCAACAAGAGGCAGAAATGACCGGACAGACGCCGCGCTATGCGTTGCGGCATCCAAACAGCCGGTAA
>SRR1151209_00793 DNA-3-methyladenine glycosylase I
ATGGCAGAAGAAGCAAACGGAATTAACGAGTACCATCAATTATTCGGCCACGCCACCCATGATCCGCAGGTGCTGTTCAAATTTTTAGTGGTCGCTGTGTTCCAGCCCGGCTTGAGCTGGAAGGCCGCCGCCAGCAAGCTGCCGGAGTTCGACCGGGTCTTTGCCCATTTTGATGCCCAGAAAGTAGCCGGTTACGATGAAGAAACGATCGAAGAAATCGAGAATGACCCGGCGATGATCCGCAATCCGCGTAAAATCCGGGCCATCGTCCAAAATGCCCGAGCAATCGTTCAGCTGAATCCGGAGTTCAAAGACTTTGCGGATTACCTGTGGTCATTTCAAGGAGCGGATGGAAAGACCGTCGCCAAGGACATGAAGCAGCGCGGCTTTACTTTTGTTGGCCCAACCACCATCCAATTAATGCTCGTCGGTACGGGAATCGCCCCGCACCCAATGAAATAG
>SRR1151209_00794 cystathionine beta-lyase
ATGTATGATTTTGTCACTGTCCCGCCTCGCCGCCACACGAATTCAATCAAATGGAACGTTCAGGACACAGAACTGCCGATGTGGATCGCGGATATGGAATTCGAAACCGCGCCGGAGATCAAGGCGGCGCTGCAGACCAAAGTGGCCGCGGGTATTTTCGGTTATGAAAAAGTGCCGGCCGAACTGTTCACCACCGTGGCGGCTTGGAATCAGCGCCAGCATCATTTTTCTTGTCCGCCGGAGTGGATGCTGTTTGCCACCGGTGTGATGCCGGCGATTGCCGCCATTATTCGGCGGTTGACCAATCCCGGAGATAATATCGTCTTGCAGCCGCCGGTATACAACATGTTTTTTAACGCCGTGGAAAGCAACGGGCGGCATATTTTAGCGAATAATCTCATTTATGATGCCCATGACTTATCCTATGCCATTGATTTTGCGGATCTGGAGAAAAAACTGGCGGATCCCCAGACGACCATGATGCTGCTGTGCAACCCGCACAATCCCATCGGCAAGCTGTGGTCTCGCGACGAACTGATCCGGATCGTGACGCTGTGCCGAGATAATTCAGTGACCTTGATCAGCGATGAGAGCCATCGCGACTTGGTATTGGCTGACCATGACTACGTCTCCATTGATTCCCTGCCGGCCGATTTGATTCAGCACACAATTGCCACGGTATCGCCGAGCAAGACGTTCAATCTGGCCGGCTTGCACGCGGCCATCGTGACCATTCCCAATCCCGCGCTGCGGGCGATCGTCGCGCATGGTCTGGCGGTGGATTGGCTGGGGGAGCCCAATCTTGTGGCGATTCCAGGCACCATCGCAGCGTATTCTGAAGGTGACGCCTGGCTGGCCGCTCTGAAGGCGCACTTGCGGAACAATGTTGTTTTTGCTCAGGATTATCTTGCGCAGCGTTTACCGCAGATCAAATTTGCCGTGCCGGAAGCTTCCTATCTGTTGTGGTTGGATTGCACGGCTGTGACCAGCAACAGTGCTCGGCTGAATGACTTCCTGCGGGAGAAGACCGGTTTGGTCTTGGCGGCCGGGACGGATTACGGCGCCGCCGGCCGGCATTTCCTGCGAATGAACATTGCCTGTCCGCAGACGATGCTGGCAGACGGGCTGGCGCGGTTGGCGACCGGAATTCAAGAGTATCAGGAATAG
>SRR1151209_00795 aspartate-ammonia ligase
ATGCATCTCACGATTCCCAAAGAATACGATCCGAAGTTGTCTATCCGCCAAACCCAAGAAGCCATCCGTTATATTCGGGAAACCTTCCAAGACGAGTTTGGTAAAGAACTGCATTTATCCCGGTTATCAGCACCGATGTTTGTGGAAAAATCCACTGGCTTGAATGACAACCTGAATGGGGTGGAAAAGCCGGTTTCGTTTGATATGGCCGATCTGCCGGATGAACGGATCGAAATCGTCCATTCCCTGGCTAAGTGGAAGCGGGTGGCGCTCAAACGTTATGGCTTCGGGATGCACCAGGGGCTGTACACCAACATGAATGCCATTCGCAAGGACGAAGACCTGGACAATTTCCACTCGATTTATGTTGATCAGTGGGACTGGGAGAAAGTCATCGACAAAGACGAGCGCAACACGGATACTTTGAAAAAGACCGTTCGGGAAATTTTCAAAGTCATCAAGCACATGGAGCACGAGGTGTGGTACAAGTATCCCCAAGCGGTCCATCATTTACCGGACGAAATTCATTTTGTTACCACGCAAGAACTGGAAGACCGCTGGCCGGATAAGACGCCCAGCGAACGGGAAGACGCGATCACCAAGGAACTGGGCTGTGTTTTCCTGATGCAGATCGGTTGGCCGCTGAAGTCCGGCAAGCGCCATGACGGTCGTGCACCGGACTATGACGACTGGACGCTGAACGGTGATATCCTGTTCTGGTATGAACCGCTGCAGCGGGCGTTGGAGATTTCCAGCCTGGGTATCCGGGTGGATAAGGACGCCATGCTGGCCCAGCTGAAGTCCGTGGATGCCGAAGATCGCCTGCGCCTGCCATATCACCAGATGATCGTTAACGAAGAGCTGCCGTACACCATTGGCGGCGGGATCGGTCAATCACGGTTGTGCATGCTGCTGCTGGGCAAGGCCCACGTCGGGGAAGTACAGGCGAGTGTTTGGCCGCAAGCAATGATCGATGAGTGTGCGGCCCATGATATTCATATTTTGTAA
>SRR1151209_00796 aminopeptidase N
ATGGCAGAATTGAAGCATTTCTATGAAACATTCCAACCCAAACATTATGATGTCTATATCGACATCGATCGGGAAAAGAAACTGATTTCTGGTAAGACCACGATCACCGGCGCCGCCCAGGCACAGGAGATCTCCGTGCACCAGAAGTATCTCAAGGTCTCTGCTGTCCAGGCTGGCAATCAAGACGTGCCGTTCACCACGGACGACCAGGCCGATGCCATCCGTATCACCTTGCCGGCGGCTGGCGACGTGACGGTGGCGATTACTTATACGGCGCCGTTGACCGACACGATGATGGGCATTTATCCATCTTATTATCAGTTGAACGGTGAGAAAAAGCAGCTGATCGGCACGCAGTTTGAAACGAATGCGGCCCGCCAGGCTTTCCCCTGTGTCGATGAACCGGAAGCCAAGGCGACTTTTGATTTGGCCATCAAGTTTGACGAACATCCCGGCGAAACCATCATCAGCAATATGCCGGAGAAATCTGAAAAAGACGGCGTGCACTATTTTGCCACCACCGTCCGGATGTCCACGTACCTGATTGCCTTTGCTTTTGGCGAAATGCAAAGCAAGCTGACCAAGACGAAGAGCGGCGTTGAGATTGGCGTGTTCGCTACCAAGGCGCACCAAGCTAATGAGCTGGACTTTGCCTTGGATATCGCGAAACGGGCAATTGAATTCTACGAAGATTTCTATCAAACTCCGTATCCGCTGCCGCATTCTTATCAATTAGCGCTGCCGGACTTCTCGGCCGGTGCGATGGAGAACTGGGGCCTGGTGACATATCGGGAAGCACTGTTGCTGTTGGATCCGGACAATACCGCGTTGGATACCAAGCAGCTGGTGGCCACGGTCATCACCCATGAATTGGCGCACCAATGGTTTGGTGATTTGGTGACGATGAAGTGGTGGGACGATCTGTGGCTTAATGAAAGTTTTGCCAACATGATGGAGTATGTCTCTGTTGACGCCCTGCAGCCGGATTGGCATATTTGGGAGACGTTCCAGACTTCTGAAGCGCCCGCTGCACTGCAGCGGGATGCCACGGATGGCGTGCAATCGGTCCATGTTGATGTGGAAGATCCGGCCGAAATCGACTCCTTGTTCGATGGGGCCATTGTTTACGCCAAGGGCGCGCGGCTCTTGGTCATGGTCCGGGCACTGATTGGTGACGATGCCTTGCGGGCCGGCTTGAAGAACTACTTTGCGGCTCATCAATACGGCAACGCTACGGGTGCTGATCTGTGGTCCGCTTTGGGGGTAGCTTCCGGTTTGGACATCGGCGCCATTATGCATTCTTGGCTGGATCAACCCGGTTATCCGGTAGTAACGGCCGCGGTCAAAGACGGTCAGTTGACGCTGAGCCATAAACAATTCTTTATTGGTGAAGGTCAGGACGTTGGCCGGCAATGGCAGATTCCGCTGAACAGCAACTACGATGCGGCGCCAGCCATTATGAAGGACAAAGAAGTGACGGTCGGCGATTACGCTAAGTTGCGGGCCGCCGCCGGCCAACCGTTCCGGGTCAACGTGGGCAATAATTCCCATTTCATCGTGAAGTATAACGACACGCTGATGCAGGACATTTTGACGCACACCGATGAACTGGACGATATCGCCAAGCTGCAGTTGTTACAAGATCTGCGCCTGTTGGCAGACGGCCGCCAGATTTCTTACGCGACGCTGGTCCCGCTGCTTCCCCGGTTCGCGGATAGTCATGCGGCAGTGGTCAACACGGCCCTATATCGCGTCGCAAGCAACCTGAAGCGTTTCGTGACCCCCGATTCGCCGGAAGAAAACCAGCTGAAGGCTTTCTACAATCAGCTAAGTGCCGATCAATTGGCTCGTTTGGGCTGGACGCCTAAGGCCCATGAATCCAACGATGATCAGTTGACCCGGCCGTTTATCTTGAGTGCGGCATTGTATGGCAAGAACGGGGCAGCCATTGCTGCTGCCCATGACTTGTTCAAGGCCAATGCGGACAAGCTCGCCAGTTTGCCGGCGGACATTCGCTTTTACGTGCTGGCCAACGAAGTCCATGACTTCGGCAGCGCCGATCTGGTCGATGAGTTGGTGGCGGCTTACCGGGAGACCACCGACGGCAGCTACAAGGGTGATTTGCGTGCCGCTGTGACCCAGACGCCGGACAAGGCGCTGCTGGCTAAACTGATTGGTCTGTTCAAAGATCCCGATACCGTCAAGCCCCAAGACTTGCGTTCCTGGTTCTACGGTATTTTAGCCAACCATCACGGCGAACAGGCGGCTTGGGATTGGCTGCGGAATAACTGGCAGTGGCTGGAAGAAAAGGTCGGCGGCGACATGGAGTTCACAACCTACATCACCGTTGTAGCCAATGTTTTCCGCACTCGGGAGCGCCTGAACGAGTTTAAGGCCTTCTTCGAACCGAAGCTGAATACGCCGGGGCTGACTCGGGAGATCCAGATGGATACCAAGGTTATCGCCAGTCGGGTAGACTTGATTGAAGCGGAAAAGGCTGCGGTGAACGCGGCCGTAGCCAAAGCTATTCAATAA
>SRR1151209_00797 hypothetical protein
ATGAAGACATGCACTTTTATTAATCGAGAATTGACAGAATTGGAACTGAACGCGCTTTGGCATGCGGCGACGGGCCATCCGCTGGCGGCTGGTCACGCCGTTCAGCCCTGCACACTGATTTTGGCCGGTCATGACGCAATTTTTAAACTGGCGCGGTGTGCCCGGTTGAACGGCGGCGATGCTGCCTTTTCTGTTCAGCAGGCCATGCGGGTCACGACGCCTGAATACCTCAATTCAGAGGAGGTAGACAGCATCATCGCCCGGGTCATTCGGTGGAAAAGCGGTTCCCAGGCCCCCGTTTGTAGGCCAAATGTCGTATAA
>SRR1151209_00798 acetyltransferase (GNAT) family protein
GTGCACCAGTACCTACATGACCAAACAACCCGTCAGCGCCGGGTCTTCATTGCAGAAGAAGCAGGAACCATTGCCGGTTACGTCACATTGCTGCCAGCGGCGCTCACCGGTCCGTTCGCGGATAAACTGCCCGAAATCAGCGACTTCAACGTCTTCACCAAGTTCCAGCGGCACGGTATCGGCAGCACTTTACTAGATGCCGCCGAACAAGCCGCCGCCCAGCTCGCCGCCGCTGTCAGCCTCGGCGTGGGTCTGCATGCTGGTTACGGTCCGGCCCAGCGGTTATACGTCAAGCGGGGGTATGTCCCTGACGGCAGCGGTGTTTGGTATCAAGACAAACCGCTGCCGATGAACGCGCTGAGCCGCAATGACGACGATTTGGTGCTCTATATGAGCAAGGCACTGACTCCCGAAACAAATTAG
>SRR1151209_00799 hypothetical protein
ATGAAGATCATTTGGACACTGGTTACAATTGTCAGTCTCATTGCCCTGATCTACGGTATCTGGCAGTGGATCCGCTCAGCTCGGGCTGGGCAAAATAATCGAACTGCTAAAATCATCACGGCGATTGCAGCTGTCTTGTTTTTCATCAGTATCAAGTCAATCATTGGGACACTGATTGCGGTGACCGGCATGCTAGCTCTCGTTTCCGGCATTTGGCGCTTGTTCAGAAAACGAACAGCTGGCGGATCATTGCTGCTCATCATTATCGGTATTGTACTTGTCATGGCAGGCACGACCCTGGTTGGTCCATCGTCAAATCTCCATGAAGATGCTGCTGACTCAACACAGACCTCGCCCGAAGCAAAATCGTCAGCGGCCGAAGAAGAAAGCAGCGCAAAGGCTGAGTACGAATCTCTGACCGCAAAAGAATCGTCAAGTCGAGCGGAAGCTGCTGAATCCTCCAGTCTGGAAAAAGCCGCGGCGGAACCGTCTGCTGCGGCCAACTCGTCTGTTGCTCAAGCCGAACAGGCGGCTGCGTCGTCATCACAAGCAGCTGCTCCGCAGAACACCAACGATCAGCAACTGGTTTACATCACAGCCACCGGCTCAAAATACCATTTCAATCGCGGCTGTCGCGGTCTGCGCAATGCTAATTCTGTATCGACCATGAGTTTGTCGGATGCAACTGCTCAAGGATTGACTAAATGCGGATTTGAATAA
>SRR1151209_00800 hypothetical protein
GTGATCAATCAGGCTCAGGATCTACGGGGGATTGGTATGGCAGAAGACACCCGGGTTTGGGTGAGTGACGCTGTGGAGTTTGTTGCCGAATGGCGAGCATACATCCTAGACGGTACGGTAATTGATGTTCGGCCGTATGCCGGTGATTATCATTTTTCCTTTGATGCCACGGTGTTGGACGCCGCGGTGACTGCTTGGAACGACGCGCCCGCGGCTTACAGTCTCGATATTGGTGCCACTGAGGATGGAAAAACGTTGATTGTTGAAGTGAATGATGGGTATGCGCTGGGAAGTTACGGTTTGAGTCCGTATAAGTATGCGGCTTTCTTACAGGCGCGGTGGCAGCAGCTTGTTGCGCCGTTCTTTGCAGAAAACGACGTCTTTGTTGTGCCTGATTCTCTCTGA
>SRR1151209_00801 hypothetical protein
ATGACAGTCTACGTAAAAGATACCCAGTTTCCAATTGAAGCCAATGTGAATCCTTATAACGCGGCGCTTGGCTTTTACCTGCGTGGTGAAGAGGTCATCCACTACCGGGAACAGAAAGAGATCGGTACATTCAACATCGACGACATTCTCGTTGATTACGTCACTGAGACTCAAGCCTTTCTGGCGGCGATGGGGATTCAGGTGCCGCATTTCGACTATCCAACTGCCCTTCAGCCGTATTCGGCAGAAATGTGCACCAAGCCAAATTGGAAGACATCATCAATAATCCGAGTTCTTGGGGCGTCTTCATCAAGCCGGTTTCTACGGCGAAATGGTTTACCGGCCGGGTGA
>SRR1151209_00802 hypothetical protein
ATGGAATCTTTGGGTATGCTTATTTCAACAGCCGGAATGATCGGCTTTTTTGTTGGGCTTTGGCAGTGGCGGCGGGCTTCGAAAGCTAAGCAAAACACGCGCCAACCTAAGACCATTACCGGCGTGTCAGTCATTCTATTCTTCATTGGTGCCGGCTTGCTAGGCTCCACGAGTCTTCTGGGGACCATCGGCGTGCTGCTGTCGGTTTGCGGCGGCTATTTCCTCATCACGAGCATCTGGCACCTCATTCGCTCTCGAAAGACCGGGGCCGGTAAACGGCGTTCAGTCATCATTGCCGTATCGGCTGCAGTCGTGTTCGGTATTGGCAGTACAATGGTGACTGCTTCACCCGAGGGTAAGGAGGAAGCGGTGCGGTCAGAAAAGGTTGCAGAACAGGCTAAAGCACAAAGCGCCGCGGCTGAGAGTTCAAAAAGGACGGCCGCCGAGCGAGACTCTGCAAAAGCTAAGCAAGACGCCAAGAAGCAGGCCAAGGCCAAAGCACTCGCCAAGTCTCAGAGTCGTTCGAAAGCTGCTGCTAAGTCCTCACGAAAAGCAGTCGCCACTGCCAAACGGGCCAAAGCTGCTAAGGCCGCAGCCGCTTCCTCGAAATCCACCCGTCAGGCAGCCGAATCGTCCAGTCGGGCTAAGGCGTCGTCAGAATCATCAGCTGCAGCAAGTTCGTCCATTGCCCAAGCAGCAGCAGTAAGCAGTTCTCAGGCTACAGCGGCGTCTGAAAGCAAAGCCCAAGAAGCCGCGGCCGCTTCATCCGTCACTGAAACCGCTGGGCAAACTGACAACGATCAGCAAACTGTATATGTCACCACGTCTGGCAACAAGTACCACTTCGACCAAGGATGCCGCGGCTTACGCCGTGCTAATTCTGTTTTCACAATGACACTGGCCGAAGCCCGCCTCAATGGATATAGTAAGTGCGCATTCGAATAG
>SRR1151209_00803 hypothetical protein
ATGACCGAGATTCGCGTAGATGTTCGCAGAGAACTAATCGACTGGGCTTTTGAAATTACTGATTTACCTCCAGAATCCCAGCACAAGGCGTTACAAGACACCAAGTGGCTGCAAGAAAACTTCACGCATTACCTCCAGCCAACTGTCAAGCAGCTCGGCACTTTTGCGACCCGTCTCCATGTCCCCTTTGGTGACCTCCTCCTCGACAAACCACCAAAACTGGAAGATATTCGCCTCGCGTTCCGGACTCAAGAAAATGCGCCGGCGCAAGTCAGCCTCACAGTGCGCGACGTCATTTATGAGATGCAACGGAAACAGGCTTGGTTTAAAGAGAACAGCCAAATTGCCACACACAAGCTAGCATTTATTGGCAACGCGGCAGTAAGCGATGCCAACGAAACATTGAAGGTTGTGAACCGCTATCTCGTATTGACTCATTTCTCCAGTCCGCGAGATCTATTCAAAGACCTCAGAAATCAGCTTTCCGAAATTGGTATCTTAGTGATGCAAAAAGGCGGTGCCGGCCTAGGGACTAATCGACCGATTGAAATCAGTGAACTCCGGGCATTTGTTCTTCTCGATGATTATGCGCCGTTGATTTTTATCAACCAAAAGGACAGTTACACCGCTCGTATCTTCTCCCTGATCCATGAGTTCATCCATATCCTTCACGGCACCGATGAACTATTGAGTGGAAATGATCGTGACATCGTTGAAGAACGACACATTAACAAAGTGGTGGCGGCATTCCTCATGCCAGCACTTGAGTTTAAGATGCATTTTGACAGTAACAACATTGACCGAACTGCACGATACTTTGGTGTCAGTCCTCAAGCCGTCGCCATCAGAGCACAGAGTTTGCGATTGATCAACAGTACAGATGATGTGAACTACATGCCACCAGTCGTCCCGCCCAAAAGCTCTGGCGGCGACCCCTACAACACCGCACTGAGTTACAACGACCGCAGATATATGTCTGCCTTGGTTGCTGCCCAAGAGAACGGTACTGTTTTGCCCACTGAGGCTGCATCTTTGATTGGAATCATCTACAAGATGCTTGACCGCACGATCGAAATCTTTAACGAACGAGAGGAAGCATCATGA
>SRR1151209_00804 Reverse transcriptase (RNA-dependent DNA polymerase)
GTGTTACAGATTGACCTCAAAAGACTTGTCGGAATTGTGGGTGATATACCTAATCAGTATTCAACTATTACCCGACCTAAAAAGGATTCGGGAGAACGCATTGTTCATAATGCTCACTTCGAACTCAAGCGTGTTCAACGGAGACTCTTTACTTTGTTGCGAAGAGTAAAACGGCCCAACTGGTTGATTTCTGGAGAAATAGGAAAAAGTATTACCGACAATGTTCGTCCACATCTGGGCGGAACGCAATTGCTAAAGATCGATATAAGTGGTTTCTTTGATAATTGTAGTAGGGAATCTGTATATCAGTTCTTCCACGTCCAAATGGCACAACCATCAGACGTGGCAAAGATATGTACGGATTTGTGCACACTGGAAAATGCAGTTGTTCAGGGTGCGTCAACGAGCATGCTTATTGCGTTTTACGCCAACCAGTCAATGCTGCAAGAATTACATGAGCTTGCGGAGGATAACAGTCTTATCTTTACCGTGTATGTCGACGACATTGCATTTTCTAGTTCTCATTCTTTCCAGGCTTCCGACATCTTAGATCAGGCAACTAGGATAGTTTCTGCGTACGGATTCCGTGTGAAAAACAAAAAAGTAAGGGCATACAATGATTCGAGACCAAAGCTTTTGACGGGAGTCATTATAACAACAACGTCAAAAATGGCGGTCCCTAATTGTAAACGCAGAAAAATTTTGGATGATATGACTCAGTACCGACGATCCACAAATCCAGCGGAACGGCGGTCAATGCGTAGCAAGATTCTGGGCCAAATAAGCGCTGCTCAACAAATTGAACCGGATTTTTTCACTGGAGTGAAAAACCAACTCAAATACGAAATGAGAATGGACGAGGATTAA
>SRR1151209_00805 transcriptional regulator ClgR
ATGTTTGGTGATACATTCCGACAATTACGGACAATATATGGATATTCTGCAAAAGAGCTGAGCCAGAAATTGAATATTTCCCCTAGCTACCTTTCTGAGATTGAAAATGGACGAAAACGGCCATCATTGACGTTACTCGAAACGTTTGCAAAGGCATTCAATTTGCAGTTGTCAACTTTGGTGTTGCTTACTGAGGAACAAGAACAACTCGCAAACGAAGGTAAAAGTAAATTGATGATACGACAACTGATTTTAAAGACATTGTCAAAGTATTCGGGTGAATGA
>SRR1151209_00806 GMP synthase
TTGGCACCCAGCAATGTGGATGAAATCATTGTGTTGGATTACGGCAGTCAGTACAATCAGTTGATCACCCGGCGCATCCGGGAGTTTGGTATCTTTTCTGAACTTAAGTCCCATAAGATCACGGCAGCAGAAGTGAAGCAAATTGCACCGAAGGGGATCATTTTCTCCGGCGGCCCGAACAGTGTCTACGACGAAGGGGCCTTCGATGTGGATCCCGAGATCTTTGAACTGGGGATTCCCATTCTGGGGATCTGTTACGGCATGCAGCTGATGGCCCACAAGCTGGCCGGCGGCAAAGTAGAACCCGCGGATAACCGGGAATACGGCCACGCCGATATTACCGTCACCGACCCGGAGGCCGTGCTCTTCAAGGGCCTGCCCACCGAACAATATGTTTGGATGAGCCACGGCGATCTGGTTACTAAGGTGCCCGACGGCTTCAAGGACGTCGCCACCAGCCCCAATTGCCCGATTGCCTCCATCGCGGATGATACCCGCAAATTCTACGGCATCCAGTTCCACGCCGAGGTTCAAAACACCGAATATGGGCACGAGATCCTGCACCGCTTCGCCTTCGACGTCTGCCACGCCGAAGCCAACTGGAGCATGCAAGACTTCATCGACCAGCAGATCGAGAAGATCCGGCAGACCGTGGGCGATAAGAAAGTTCTCCTCGGCCTCTCCGGCGGGGTCGATTCCTCCGTCACTGGCGTGCTGCTGCACAAGGCCATCGGCAATCAATTGACCAGTATCTTTGTGGATCACGGCCTGTTGCGGAAGAACGAAGCAGACCAAGTTATGGATAGCTTGGAAGGCAAGTTCGGCCTGAACATTATCAAGGTCGATGCCCAAAAGCGGTTCCTGGATAAGCTGGCCGGCGTCAGCGATCCCGAAAAGAAGCGGAAGATCATCGGCAACGAGTTCATCTGCGTCTTCGACGATGAGGCTGCTAAGCTGAACGGCGGGTTTGACTTCCTGGCCCAAGGCACGCTGTACACGGACGTTATTGAGTCTGGTACGGATACCGCCCAAACCATTAAGTCCCACCATAACGTCGGCGGCCTGCCCAAGGACGTGGACTTCCAGCTGATCGAACCCCTGCGGACACTGTTCAAGGACGAAGTACGGGAGCTGGGCGAGAAACTGGGCATGCCCCATAGCCTGGTATGGCGTCAGCCGTTCCCCGGCCCGGGTTTGGCTATTCGGGTCGTTGGCGCGGTCACGCCGGATAAGCTGACGATTGTCCGCGATTCTGATGCGATTCTGCGGGATGAGATCGCCAAGGCCGGTCTGGATAAGGACATCTGGCAGTATTTCACCGTTCTGCCGGGCTTCAAGTCTGTCGGGGTCATGGGTGATGGTCGGACGTATGACTACACCATTGGGATCCGGGCGGTGACGTCAATTGATGGGATGACGGCGGACTTCGCGAAGATTCCTTGGGATGTACTGCAGAAGATTTCTGTGCGGATCGTTAATGAGGTCGCGAATGTTAACCGGGTGGTTTATGATATTACGAGTAAGCCGCCGGCGACTATAGAGTGGGAATGA
>SRR1151209_00807 pantothenate kinase
GTGGCAGTAACACGGAACTATTACGAATTCGATCGGGAGCAGTGGGCCAGTTTGCACGGGCCTACGAAGCGGGCGGAAATCACGGACGCCGACTTGCAGTCGGTGAAGGCCTTCAACGATAAGATCTCATTGGCCGACGTGCGGGAGATCTATTGGCCCCTGCGCCGGCTGGTTTATCTGTACTTCAAGAACTTTCGGCAAAAGCGCCAGACCCTGGCGCACTTTCTGGACACCGACGTCGGCCCGTCGCCATTCATCATCGGCATTGCCGGCTCGGTGGCGGTGGGGAAGAGTACGACGGCCCGGCTGCTGGACTTGCTGCTGCAGCGGGCGTATCCCAAGCTGACCGTGCAGACGGTGACCACCGATGGGTTTCTGTATCCCAACGCGATCTTGACGAAGCGGGGGATCCTGGACCGTAAGGGATTCCCGGAAAGCTACGACATGGGCAAGCTGCTTGAAGTATTAGATGCCATCAAAGCCGGGAATCCAGACGTGCTGGTGCCGGCGTACGACCATCAGACCTATGATGTGCTGCCGGACAGCCAAGGCATTCACGTCCGCCAGCCGGATATCCTGATCGTCGAAGGGATCAATGTCCTGCAGCTGCCCAGCAACGCCCAGATCTACGTCAGCGATTTCTTCGATTTTTCCATCTATGTCGATGCGAATCCGGCGCTGGTGGAAGAATGGTACTTGGACCGGTTCGGCCTGCTGCTGGACACCGCGTTCACGGATCCGAACAACTATTACTACCAATACGCCATCGGGGATCGCCAAGCCGCTTTCGCCATGGCCCGCCGGGTCTGGCGCGACGTGAACCTGAAGAACCTGAAAGAATTCATTGAGCCGACCCGGTCTCGGGCCGATTTGGTGCTGCACAAGACCGCCCACCACCGCATTGACGAGGTCGACCTGCGGAAGTACTAG
>SRR1151209_00808 hypothetical protein
ATGTTCGCGATCGGCATCAAAGTAAACAACCGGATGATGTATTTGGGCAGCCCAGACCATGAACGGTTCCGTTACGGGCTGCATCGGTTCCCAACGGACGCTAAGGCGTTCAAAACCAGTGAAGAAGCTAAGAAATTTGCGGATGATTACTTCACCCATTCTTCTCGGTGGGAAATTGTGCCGTTGCCGCAAAAGTAA
>SRR1151209_00809 esterase
ATGGCTGCAAAATTGATTCTTCTCGGCGACTCCATCTTCGCCGGCTGGCGCAACGGCCAGATGTCTACTCTGTTGAAAGACCGTTTAGCCGGCCGCTTGCCCCGCTATGACATCGTCATGGCGGCAGTGCCCGGTGAGACCACCGACGAGGCGCTGAACCGGGTGACCCAGGATACCGCCGCCGGGGAGCACGACCTCGTCGTCATCGGCTACGGTGCCAACGACGCCAGCAATACGACTAACGTCACCGCGGACGATTTTTACGATAACCTGCGGACCATGATTGAAATCATCGGCCCCGATTCTGTGATTCTCCTCACGCCGCCCTTCGGCGATCCCCAGCGGCTCCAGGACCGCAACCAGGACAGTGTCGCCGGCTACACCCAGGCGGCCAAAGAAGTCGCAGATAAAGAGAACGTTCTGCTGGTGGATCTGCACCAGGCGATGGTGGCTAGTCCTGACCCCCAGGCCCTCTTAGCCAGCGATGGTCAGCATTTCACTGACCTGGGCTACGACCTGCTGGCCGACTTGATCGTCAGCAGCGTCCACGCTATGGAGAAACGCTAA
>SRR1151209_00810 ATP-dependent DNA helicase
ATGGCACAGGACGAAAAGGCGCTGGAACAGCGTCATCTGGATACGGTCTTGGAAAAGTTAGACACAGCGGAAAAAAAGCTGGAGAAACAAATTCACCGGGCCAAATCCGAAGAAAAAAATATTGATAAACATTTCAATGATGATGTCCACCTCTCCTTTGGCAGCGATACGACAACGATGGAGACAGCGATCACCATCCATCAGCAGCAGCAATTGCTCCAGGAACGGGACAACGCCTGGCGCAACTCCGATTTACAGCTGAAGACCGTGCAGCGGCTGCAAAAGTCTCCGTACTTTGCCCGGGTAGACTTCAAAGAGTCCGGCGAACCCCGCCGGGAGACGATTTATATTGGCCTGGGGTCGTTCAGCGACCGTAATGATCATTTCTTGATCTACGATTGGCGGGCGCCGATTTCTTCTATCTACTATGACGGCGGCTTGGGCCACGTGACCTACCAAACCCCGGACGGCGAACAGTCGGTGGACGTGTCGCTGAAGCGGCAGTTCATCATCAAGGACAACCAAATCGTCAATTTGTTCGATACCACCGAAACTATCGGCGATCAGATGCTTTTGGAAGTGCTGGGGGAAAAATCCAGCACCCAGATGAAGTCCATTGTGACGACGATTCAGCAGGAGCAGAACAAAATCATTCGGGATACCGATTCCGATCTGCTCTTTGTGCAAGGGGCTGCCGGGTCCGGGAAGACCTCGGCGATCCTGCAGCGGGTGGCCTATTTGCTGTACCGCTATCGGGGCAACCTGACCAGCAGTCAGGTGATCATGTTCTCACCAAACCAATTGTTCAATGACTATATTGAAAACGTCCTGCCGGAACTGGGCGAGCAGAACATGGTTCAGATGACTTACCAGCAATATACCAACCGCCGCCTGCCGGCCTTGGCAGCAGAGAGTCTGCAGCATCAATTCGAAGTACAATTGGATACCGATGCTAAGAAGATCCAGCATTTCAAGCAATCGCTGGAATTCTTCAAGGCGACCCGGACTTACGCGTTGCACTTGAACCATGAGGGCATGCATTTCCGCAATCTGATGTTTCAGGGCAAGCCGTTTTTCACCAAGCAGCGGATCAGCGAGATCTACTACAGTTTCAATGCCAATTACAAGCTGATCAACCGCTTGGAGGCGACCAAGGAACGGCTGGTGAACAGTTTGAACCACCGGATCGACAGCGAGACAAAGGCCGATTGGGTGCAGCAGGCAGTGCAGGATCTGGATTCCGAAGATTTGCAGAAAATGTACCGGACCGTCGACCAGGAATTTGCTAACTCCGATGACGAGTACAAGTTCCTGGCCCGGCAGATCGTCACCAATGCCTTTCAGAAAGTTTATAATGCCGTCCGCCGGAACCATTTCTTCAATATCCGGATTCAGTACATGGCCTTTCTTAAAGCAATTCCGGAGCTGGTCGATCTGGCTAAGTGGGGAATCACGCCGGCCATGTGGGACGCCCACATTGAGCAGATGCGGGCAGTCCTCAGTGACCGCAAAATCGACGCGGACGATGTCACGCCGTTCCTGTACTTATATGACCTGATCACCGGCCACCACACCGACCGCCACATGCGCTTTGTCTTCATCGACGAGATTCAGGATTACACCCCGTACCAGCTGGCCTATCTGCGCTACCGCTTCGGCAAAGCCCGCTTCACAATGCTGGGGGATTTGAACCAAGCCATCTTCACCAAGCAGAGCGATGGCGACTTGCTCGGCGATGTGGCCACACTGTTTGATCCGGAGAAGACCAATGTGGTCCAGCTGACCAAGAGCTACCGGTCCACTGAGCAGATCACGAACTTCACGAAGGCATTGCTGGTCAACGGCCAGCGGATCGATGCCTTTGATCGGGCAGGGGACCTGCCGAACGTCTATATCGGCGCGACAGAAGCAGATCTGCTGGTCCGGCTGGAGAAACAAATCGGCATGAATGATAGCTCTGGGCTGACCACCGCCATCATTACCCGGACGCTGGAAGATGCTCAGGCGCTGTATGCCCAGTTGAAAGACGGCGGCGTGGCGGCCACGCTGATCAAATCCGAGAACCAGCGGCTCGCTCCGGGCGTGATCATTGTGCCGTCCTTCCTGGCCAAGGGACTGGAATTCGACGCAGTCGTCATGTACCAGGCGAATACCGCCAACTACGGCAGCGAAGACGATCGGCAATTGATTTATACGATTGCCTCGCGGGCAATGCACCGGTTGACGATTCTGGCCAGTCCGGACCTGGCACCGATTTTAGCGAATGTACCGCAGGACCTGTTTACCCAGGAATAA
>SRR1151209_00811 hypothetical protein
TTGAACAAAAAATCGCTATTTCTGGGCGGCATCACGCTGATTGGCCTAATCATCGGCATCATCACCCGGCATTATGCACTTTGGACCCTGGGCGCGCTTGCCCTGGGGTACGTCTTTACTTTCTGGCTGCCGCGTCTGTGGACAGCCTGGCAGCATCGTCGTCAGTGA
>SRR1151209_00812 aldo/keto reductase
ATGACAGAAGTTTATCGGGCTGATGATACCCGCTACGATAATCGGACCGCGATTCGCCGTGCCGGGGATACCGGTCTGCAATTGCCGGCCGTCTCCCTGGGTTTGTGGCGCCACTATAGCAGCAGCGATCCTGTACTGGACCGGGAAAAGGTGATCCTGAAGGCCTTTGACGAGGGCGTTTTCTCCTTCGACTTGTCCAATAACTACGGCAAACCAGAAATCGGCAGTGCCGAGCGGCTCTTCGGCGACATTTACCGCCGCAACCTGAAGCCTTATCGGGATGAGCTGGTGATCACCACCAAGGTCGGTTTCAAATACGGCGTCGGCCCTTACGGTGAATTCGGCAGCCGCAAGGCCGTGATGCAGAGCATCGATACCAGTCTGGAAAAAATGGGATTGGATTATGTGGATATTTACTACAGCCACCGGCCAGACCCAAAGGTGAAGTTCGAAGAAACCGCTCGGGCCTTGGACGCCGTTGTTCGCGCCGGGAAGGCGTTGTATATCGGCATTTCTAACTACACCGCCGCTCAAACCAAGGAAATGGTCGGCTGGTTCCAGAAGCTTGGCACACCCTTCGTGGTCAATCAAGTCTCTTACAACATGTTTAATCGCACGGCGGAGAAAGATAATTTCCTAACAACGATGAAAGACTTGGACGCTGGGCTCGTGGCTTATGGACCGCTATCCGAGGGCTTGCTCTCCGACCGCTACTTGGCCGGCATCCCTGCCGACTTCCCGATTCACTGGTCGAATACGGAGACTTTCGCCAAGGGCAAAGATCACGTTGTCGCCCAATTAAACGACTTGAAGAAAATCGCCCAAAACCGGGACCAAACCCTGTCCGAAATGGCGCTGTCCTGGCTCCTGCGGGATCCGGTGGTGACCAGTGTGATCATCGGCACGACCAGCGTGGATCATTTGGAAAGCAATATTAAGGCCGGGAACCAGACGACCTTTACGGCGGATGAATTAGCAGCCATTGAGGCGATTCTGAATCGTTAA
>SRR1151209_00813 phosphoketolase
GTGCGTACTGATGAGAACGAGACACAAGCCGCGGCAACTATTTTTCACACGCTGAATTATCTAAGTGCCGCAATTCTGTACTTAAAGGACAACATTCTCTTGGACCGGCCGCTGACTGCCAGCGACTTGAAGCAGCCGCCGCTGGGCCATTGGGGTACCGCCCCAGCCCAGAATTTAGTGTGGGCCGGGCTGGATCAGCTGTTGAAAAACTACGACACCTCTGCTTTGGTGGTCACCGGTCCCGGTCACGGCGGCCAAGTGCCGCTGCTGAACAGTTTCTTAGAGGGCAGCTACACCAAGGCGTATCCTGAAGTGCCCCAAACCAAGGCGGGCTTGCTGACGCTGTTTCGCCGGTTTGCCACCCTGCATCATGCGACCCATCCTGGGCCGGATGTGCCCGGCGTGATCCAGACCGGCGGCGAGCTGGGGTACACGCTGGCTCATGCGGCCGGCGCCGTGCTGGACAGTCCGGGGACCCGGGCGGTGGCCTTGATTGGTGACGGCGAGGCCGAGACCGGGCCGTTGGCGGCGAGTTGGCAGGTCAGCCGGGTTTTGAACCCGCAGCATGACGGCGCGGTTTTCCCCATCGTACTGCGCAATGGTTTTGCCATGGCGTCTCGGACCGTCTTCAGCGAAATGGCGCCGGAGGCCGTTGAGGCCTTCTTTGACAGCCAAGGCTGGGCACCGCTATGGGTCTCTTTGACCCCCGGCCAGGACATTCACCACGCCCTGTATCTGGCACTCGCCCAAGCTTGGGATAAGATGGCGGCTTGGCAGAGAGGCGTTGACCAACCCCTGCCGGTATTGATCTTGACCACGCCCAAGGGCTGGACGGGGCCGGAGGCCGGCGAGGCAGCTAGTCATCAGCTGCCGATCGCCATTGATCCAGATGACCCGGCGGCTGGCTTGGCGGCGTTAACCAAATGGCTCCAGCCGCATCGACCGACCGCTCTATTCACCGCCGAGGGCGCCCTCAGCCCCGCCTTTCTCGACTTGCTGCCGCCCAAAGAACGGCGGATCACGAACAACCCGGCGGCCCACCACCACTTCCATCGCTGGCGCCTGCCGGACTTGCCGGACCGGCCGGTGCCTAAGCGCGGTGCCCGCAGCGAAAGTCCAACGGCGGTTCTCGGCACCTATCTCAATAGTCTGGCACCGGAACATCGGCTGCACCTGTTGAGCCCCGACGAACTCGGTTCCGTTCACCTGAACAAGCTGGATCAGCCGGCCACGGCCAATGTGGTGTCCGAACACCTGGATGAAGGTCTGCTGGAGGGCTATACCCTCACCGGCCGACAGGGGCTGTTCACCAGTTATGAGGCCTTCTTGCCCATCGTCGGCAGTATGGTTGCCCAGCATGGCAAGTGGCTGCAGGAGGCCCAGCGCTTCCAGTGGCGGGACACGGAGCCTAGTCTCAATCTGCTGGCCACTGGCGATGTCTGGGAACAAGGGCATAACGGCTACTCCCACCAAAACCCGCTGATGCAGGATATTGTGGCCTCACTGCCCGCCAGCACGGCGACGATCTATTTGCCGGCGGATACCAACATGCTGCTGGCCAGTGCCCACCGTGCGCTGCGCAGTCAGCACCACGTCAACCTGATCGTGGCCAGCAAGAGCGCGATGCCTGATTGGTTCACCACGGCGGAGGCCGCTGCGCTGGTGCATAATGGTGTCGATACCGTCCCGTGGGCAACGATCCATCCGGAGAAAAAGCCGGATATTGTGCTGCTGGCCGGCGGGATGCGGCCTTTCGCCGAAACCATCGGGGCGGTCCATTTGCTCCATACAGCGGATCCCGCGCTGGCGATTCGCGTCGTCTGTCTTGTCCGGCCCCTCGTCCTGCGCCAATCTGAGCAGGACCCCAACGGGTTGGCCGAGGCGACCTTCAACAGCCTCTTCCCCCAGGGCGTACCAGTGGTAGCCGCCTATCCCGGCTATCCCGCTTTGCTGGCCAGCCTGCTGTACGGCCGGGACCACGCGCCCTTCGACCTCCATGGCTTCAACAATCAGGGCGGCGTAACGACGCCGGCGGTTTTGACCGCTTTGAACGGACTGGATCGATACAGCCTCGCCATGGCCGCGTACCGGCAGCTGGATCGTCAGCCCAACGACGCTTGGTACCATGCCCACAACGCGCTATTTTCCGCTGAACGGGCCTTGTCCCCGCTCCCGGATAAGGTAAAATAA
>SRR1151209_00814 prolyl aminopeptidase
ATGAAACAAGGTACAACGATCATCACCCTGGATAATGGCTACCATCTTTGGACCAATACCCAAGGCAGCGGCGACATCCATCTCCTCTGCCTCCATGGCGGTCCTGGCGGCAACCACGAATACTGGGAAAACTTCGGTGAAGAGCTTTCTGATATCGGCGTCCAGGTCACCATGTACGATCAGCTGGGCTCTTTCTACTCCGATCAACCGGACTATTCCGACCCGGCCATTGCTGAGAAATACCTGACCTATGATTATTATTTGGACGAAGTGGAAGAAGTTCGGCAAAAACTGGGCTTGGACAATTTCTACCTGATCGGTCAATCCTGGGGCGGTGCATTGACGATGATGTACGCGCTGAAGTATGGTCAGCACCTGAAAGGCGCGATCATTTCGTCCATGATCGACAACATCGACGAGTACTTGACACACTTGAAGCAGATCCGTGCCGCGGCGCTGCCCAAGGAGGACGTCGAGTTCATGGAACAGTGCGAGGCCAATGGCGACTGGCATAATAAGCGGTATCAGGACTGTGTCGAAGTGTTGAACCGGGAATACGTTGACCGCCGCTACCCGTCACCGATCCAGCATCTGATCCCCACGATGGCCACGGCCGTGTACAACGCCTTCCAGGGCGACAACGAATTCGTGGTCACCGGCAAGCTGAAGGATTTCGACCTGCGCGGTCAGTTGAAGAACATCCAAGTGCCCACGCTGCTGACTTTTGGCGAACATGAAACGATGCCGCTGAGTTCCGCTCGGCGCATGGCTGAGGACATTCCCCATTCCCGTTTGGAAACGACGCCGAGTGCGGGACATCACCACATGATGGATAATCCGCCGGTATACTTCAGCCACTTGAAGAAATTCATCTTGGATGTAGAAAACAACCGTTTCCCAATGTAA
>SRR1151209_00815 phosphoglycerate mutase
ATGAAAACAGTTAACGTCTATCTGATTCGCCACGGTCAGACCTATTTCAACAAATACAACAAAATGCAGGGCTGGAGCGATTCGCCCCTCACTCCCGCAGGGATCGCCGGCGCCCACACCGTGGGGGAGCGTTTGAGCCACATGACCTTCACCCACGCTTACTCATCGGACACCACCCGCGCGCAGCACACAATGGACATCATCCTCAGCCACAACCTGAATACCACCATTCCGTACAAGACGACACCGCTGTTCCGGGAACAATTTTACGGCTACTTTGAAGGCGCCGATTCCGCGCAGACCTGGTACGCCATCGCGATGCCCCACGGTCAGCGGAATTTCGGGTCGCTGCTGCAGCACCATTCATTGGACGAAACCAAAGACTTCATGCACGCCGCCGACCCCTTCCATGATGCCGAGAACGCCGTTACTTATTGGACCCGGCTGATGAAGGGCTTCAAGATGCTGCGGGAAGAAAACCGCCACGGCGACAATGTACTCTTGGTTTCCCATGGCACCACCATCCGCAGCATTACGGACAAATTCGGCAAAGGCCAATTTCCAGTGGAAGAAAGTCCGAAGAATGCCAGTATCACCAAATTACAGCTCACCGATAGCGGTATCACCGTCGTATACTACAACAATACCGCAGGCTTGTTGCAGTGA
>SRR1151209_00816 hypothetical protein
ATGTCTACTTTAGAAAATGACTTTTTACAATTCGTACTGGTACGGACCCAAGCGCAAGCACAGGACAAGATGACAGAGTTGATTACGGACCATTTTGCGGCGGAACATGCCGGCCACGTTACGGGCAGTGACGTGATCGAATACTTAACGTCGTTGTTCTCAATGATCAAGCCCGAGGCCGTTAGTGACGTGAATGACGTCATGGACGCCAATGGCAACTTGATCCCCGAGAATCACTACATGATGGTCCCGTTAGCCGCTTAA
>SRR1151209_00817 GTP-binding protein
ATGCAAGATACAACGATACAAACCATCCCGACGATCATCGCCGGCTTAGACCGCCAACAGGCGGATTTTGATTACACCATGACTGAACTGGGCGAACTGGTCACTGCCGCGGGTATGACCGTCTCCAGCAAGGTCACTCAACGGGCCGACCACATTGACGCCGCCACTTACTTCGGTAAGGGCAAAGTGGAAGAAATGGCCGCCCAAGCCCGGGGTGAAGACGTGCCGATCATCGTCGTCAATGATGATTTGACCCCGTCCCAGACCCGAAATTTGGAAAAAATCACCAAGCTGTCTGTCATGGACCGTACGGAATTGATTCTGCGCATCTTCTCTTCTCGGGCCCGAACTCGGGAAGCCAAGCTGCAAGTAGCCATTGCCCGGGAAGAGTACGCCCTGCCCCGGGTCCACCCGTCTGCTAATCCCCTCGACCAGCAAGGCGGTGGCCGGGGTGCCAGCGGCGGCGCTACGGCTAACCGGGGGGCTGGTGAAACCCAGCTGGAACTGGACAAGCGGGTCATCCGCAAACGGATCACGCACATGCGCAATGAGTTGAAGGAGATCATGCGCGCCCAGGACACGCGCCGGGACCGCCGGATCCATCAGGCCCTGCCCTCCGTCGCGCTGGTCGGCTACACCAATGCCGGCAAGTCCACAACGATGAACGGCATGCTGCAGCAATACGGACTGACCGACAAGCAGGTGATGGTCAAAAACCAGCTCTTCGCGACCCTGGATACCAGTGTGCGCAAGCTGCAATTACCCAATCACCGTCATTTCCTGCTCAGCGACACCGTCGGCTTTGTTTCCCACTTGCCGCACCATCTGGTGGAATCCTTCAAGGCGACCCTAGCCGAAGCCCGGGATGCGGATCTGCTCATCCAAGTCGTCGACTTCGCCGATCCCCACTACCGGGAAATGATGGCCACCACTGAGGAGACCCTGAATGCCATTGGCGTCAAGGATATCCCAATGCTCACCGTCTACAACAAGGCCGATTTGCGCTCGGATACCCATTATCCGGACCGCGAAGGCATGACCTTGACCCTGTCCGCCACGGACCCCAACTCGATCCGCCTGCTGGGTCAGACCCTGAATGAGCTGCTCTACAAGGACTACGTCACCACTGACCTCCTCGTGCCCTTCACCAAGGGCGATGTCGTGAACTACTTGCGGGACAACACGGAAGTGAAGTCTGAGCACTACACTGACGACGGCACCGCCGTCACCGCAGTGCTCGGCCCCATCGACCGCGGCCGGTTTGCGGAGTATGTCCAGGCGGCCGTAGCAGCGGCGAAGTAG
>SRR1151209_00818 glutamine ABC transporter permease protein
ATGGGTGATTTTGCAGGTGCTTATCAATGGGTGAATATCCGCTATCTGCTCCAAGGATTGTGGGTCACCGTGGCCTTGTCCGCCGTCTCGATCGTGTTCAGCTTTATCATTGGGTCGGTGCTGGGACTGTTGCGGTACATGAAGATTCCGTTCTTATCTAAAATCGTTGGTTTCGTCATCGATATTATCCGGAACTTGCCGTTGCTGCTGATTCTGTTCTTCACTTACTTCGGCTTGCCCAGCTTAGGAATCCGACTGGATGCCTTACCGGCGGCCATGGTGGCGATGACGGTCTTTGAATCAATGATGCTGGCTGAAATCATCCGGGGCGGGATTCAAGCTGTGGATCCCGGCCAGATGGAGGCTGCTCGGAGTAATGGGCTCTCATACGGGCAGGCGATGTTCCATATCATTTTGCCCCAGGCGTTCAAAAAAATGATTCCGGCCATCGTGTCCCAGCTGATTTCGCTGGTCAAGGATACGTCCTTGGCGACGATCATTGTGCTGCCGGAGTTAATGTACCATGGTCAGGTGATTTATGGGCAGAACACGAACTACATGGTGCCGATCTTTATTGCACTGACGGTGCTGTACTTCATCGTCTGCTTCTCGTTGTCGCTGATTTCGCGGTATTTAGACCGGCGGTTAGCGGCTTAA
>SRR1151209_00819 glutamine ABC transporter permease protein
ATGTGGACCATTTTTACCAATAATTTCGGCATGTTTATGGAAGGGCTCGGCTATACGCTGGGTGCCAGCTTGCTGTCGCTGTTCTTCAGTTTGATCATCGGGACGATCTTTGCGCTATTGCAGATCAATCCTAGCCGGACGGCGCGCATCTTTGGCCGGATCTATGTGGAATTCTTCCGGAACGTGCCCTTGCTGGTCATCACGATGTTCTTCTACGTCGTGATTCCCCGCCTCGGCATTCCCCTGAGCGGATTTGCGGCCGGGTCCATCGGCTTGACCCTGTACACTTCTGCGTTCATTGCAGAGACCGTGCGGGCGGGCATTCAATCCGTTGACCCGGGCCAAATGGAAGCGGCGCGCAGCAACGGCATGACCTATGTCCAGGCGATGCGCTACATCATTTTGCCCCAGGCCATCAAGATCACCGTCCCGCCGCTGGGCAACCAGTTCATTAACCTGGTCAAGAACTCTTCCGTCTTGGCCTTTGTCGCCGGGTTCGACTTGATGTATCAAGGCAATTTGATTGCCTCCACCACGTTTGAAACTACCACGACCTATGCCATTGTCGGGATACTGTACTTAATCATTACTCTGCCGATGAGTTACGGTATGACCTACCTGGATCATCGCTGGTCTGGTAGAAACACGAGAGAGGAGGCTTAA
>SRR1151209_00820 glutamine ABC transporter substrate-binding protein
ATGCGCAAATTTAGAAACTGGCTGTGGCTCTTGCCGCTGCTGGTGCTGTCCGTTCTGTTGAGCAGTTGCGGCACCAAGTCCGTGGCCGATGAGGATATCCTGGACCGCGCCCGGGCAACGAATTCCGTCACCTGGGGGGTCAAGAATGATACCCGGCTGTTCGGGCTGATGGACATCAGCAGCGGCGAAATCAAGGGCTTCGATATTGATATCGCTAAAGAAGTATCTCGGCGGATCTTCGGCCAAAACGTTAAGATCAATTTGGTGCCGGTCACCAGTCAGACCCGGATCCCGTTGCTGAAAAACGGGAACGTGGACGCCATCATTGCCACGATGACGAATACACCGGATCGGCAAAAGGTTGTCGACTTTTCAGATACTTACTTCAACGCCGGCCAAGCGCTGCTGGTGAAGAAGGGCAGTCCAATCAAGAGTGTCAAAGACTTGAATAAGAACACGAAGGTCATTGGGGTCCAAGGATCCAACTCCGTGCAAAACATTAAGAAAGTCGCGCCCGACGCGCAGGTCCTGCAACTGAGCGATTACGCCCAGGCATTCACAGCTCTGCAATCAGGTCAGGGCGATGCATTGACGACCGATAACGGGATCCTTTACGGGATGTCCGCCGACAATCCTGATTACGTGGTGGTCGGCGGCACTTTCACTAAGGAACCTTATGCCATTGCCGTCAATAAGGGCCAACGAGATTTTCTGGACCAGATCAACGTCGCGCTGTCATCCATGCGGACCGATGGCACATATAAGAAAATCGAAGACAAATGGTTCGGCAACATCGCGGGCTTCTCGGATGGGGGGTTGAAATAA
>SRR1151209_00821 glutamine ABC transporter ATP-binding protein
ATGTCAATGATTGAGTTTCATGACGTCGAGAAGTATTATGGCAAGTTTCATGCCCTTTACCACATCAATCTCACAGTTGAAAAAGGTGAAGTGGTTACAATAATCGGACCTTCGGGCTCGGGCAAGAGCACCTTGCTGCGGACAATCAATGGCCTGGAACGAATCAGCTCCGGTCAATTGATCGTCAATAATTTTGATTTGGCGGATAAGAAAACGGACATGAACCGGACCCGCAAAAATGTGGGGATGGTTTTCCAGCATTTTAATTTATACGCCAACAAATCTGTCTTAGACAATATCACCTTGGGACCGCGGCTGGTCTTGAAGGAATCCAAGGATAAAGCCGAAGAAGAGGCACGAGCGCTGCTTGATCTAGTCGGTTTATCTGAAAAGGCCAAGAGCATGCCCAACCAGCTCTCTGGCGGCCAGCAGCAGCGGATCGCCATCGCCCGTTCCTTGGCGATGAAACCCCAAGCGATCCTGTTCGATGAACCGACCAGTGCGCTGGATCCGGAAATGATCGGCGATGTATTGAACGTTATGAAGAAAATTGCCGAGCAAGGCATGACAATGATCGTCGTGACCCACGAAATGGGCTTCGCCGAAGAAGTGGGCGATCGGGTCGTCTTCATGGATAACGGCCACATTCTGGAAGATTCCAAGGACGTCAGAAGTTTCTTTGAGAAACCCAAGGACGAACGGGCGCAGGAATTCTTGAGCAAGGTCATCAACCATTAA
>SRR1151209_00822 guanylate kinase
ATGGCTAAAAAGAAGCACAATGAACTGTGGATCATCACCGGGGCGGCGGGTACTGGGAAAAACACCGTCAGTGAGTATTTGTATTCCCAATATGGCATTCCCCGGGTGCTGACCCACACAACGCGGGCTCCGCGGTCAGGGGAGCAGAACGGAGTCTCGTACTACTTCGAAACGCCGGAGACGTTTGCCCAGAAGCACCTGATCGAGCAAGTCACTTACGATGGTCATCAATACGGCTCGTCCCGGGAAGCCTTGCAGAAAGCCTGGGAGAAGCACCGTATCGTCAGCTTGGTACTGGACACCGAAGGCGCAAAGAGTTATATTGAGACCTTTGGCAATCACATCTTCTTGCTGTTTATTACGGTGCGTCATCCCGACAGCCTGCGCCAACGCATGATTGATCGCGGCGATCAGCCCGTAGCCGTTGAAGCTCGGCTGCACAGCCCGGAGTATCAGCGGGATCTTAAATTACCAGAAGAACTGGTCCCGGTCGCCCACCTGATCCACAACGATACATGGGTAGAAGCAAAGCAGGAGATTGACGCCTTACTCAAACGCGAAGCGGTGCGCATGGCGTCCGAAGAACTCTAA
>SRR1151209_00823 secreted cell wall DL-endopeptidase
TTGAAGACAAGTAAACAATTTTTGCGGGTACTGAGCGTTCTAGCATTAAGCGGCACGTTAGCCACCAGCCTGACCAGTGTGGTTCGGGCCGATAACATCAGCGATACCAAGGACAAGATCAGCAGCAACAAGAGCACAACGTCCCAATTACTGGCCAAGATTCAGGATCAGCAAAAGACGCTGGCGAAGCTGAACAATCAAGTTTCTGAAAAAATCAATGATATTGATGCCAACCAAAAAGCAATCGCGTCAGTGACCAAAGAAATCGCCGCCTTCGACACGAAGATCAGTGCTGCCCAGAAGCAGGTCACTGATCGGACCGACGTGTTGAAGAAGCAATTGGTGGCTTTGCAAAAACAAAGCAGCAATTCTATTTCCGGCAATGTTTACGTGGACTTCGTTTTAAATAGCAAGGATTTCTCCGATTTGATCAGCCGTTCCATGACAGTCAATAAGCTGAGTGCCGCTAACAAGGATGCGTTGGATGCCGTCAACGAGGCTAAGCAGCAATTGTCTGACTTGCGTCAAGACAAGGCGGACAGCAAGCAATCCTTAGAGGATAAGCAAGCGACCCTGGTCCAACAGAAGAATGATCTGGAAACTCTGAAGACCAATGCCCAGAAGCAGCAGGACGCCTTCAATAAAGAATTAGAGGACCACAAGGGTGAATTAGCCGCTTTGCAGGCCCAATTGAGCCAGCAGACTGCTGACGCCGCGAAGAAGGCCCAGGAAGACGCGGCTAAGCAGGCCGCGGCCCAAGCAGCAGTCGCTCAGGCCGCAGCCAGCGCGGCAGCCGCTTCGGCGAGCAGCAGTTCTTCGGCCAGCAGCCAAAGCAGCACGCCGACCAGTACCGTAACCACCGGTTCGAACCAAGGCAGCTTGATTGCTAACGTGCAGCAATATCTGGGTGTACCTTACGTTTGGGGCGGCACTACGCCGGCCGGCTTTGACTGCTCCGGGTTGATCTACTATGCCGCCCAGCAGGCCGGTATGAGCCTGCCGCGGACTTCCCAAGCCCAGAGTACCCTCGGCACCCAAGTCTCCGTCAGCGACCTGCAGGCCGGCGATCTGGTCTTCTGGGGCGGCGTTGGCTCCGCGTACCACGTCGGCATCTACATTGGCAATGGCCAATACATCCACGCCCCGGCGCCTGGTCAAAATGTGACGGTCGGCAATGTGGCTTACTTCCGTCCGGACTTTGGCCGCCGCATCTAA
>SRR1151209_00824 transposase
ATGCTTTACGCAGGGATTGACGTGGCGAAGAACAAACATGATGTGGCAGTGATCGGATCAGACGGAACGGTTTACGTCCGCCACCAAATGATCACCAACAACATCGAGGGATTTATCCGGTTGAAGGAGACCTTAGACAACCTCATCAAGGCAACAGGTGAAGATATCCAAGTCGGTCTAGAAGACACCGGTCACTACTGTTACAACATCATCTCGTTTCTTCGCGAACATCGTTTCTCAGTGTTCAGTTACAACCCGTTGATTATCAAGGAATTCGCAAAGTCGGCCACTTTGAGAAAAACTAAAACCGATCGTAAGGACGCCATGACTATTGCACGTAAGCTCCTCACAGATGTGGATAAGGTGCATTTCGAAACCAATCCACATATGATCGAGCTTAAGTACGCCACACGCTATGTCGCTCGGGTCAAGCAGGATCTAACGAAACAGAAGATACAGTATATTCGCATCTTGGACATTACCTTCCCAGAACTTGTGAAAACGCTGGGTGGAAAGAACGACATGGCACACACACAGTACGTTCGTGCGCTGCTTAAGGCTTACCCGTCGCCCAGAGAGCTATCTCGGGCCCATCTGCGTACTCTCACCCATTTGGTCCAAGAAGCCTCTCAAGGCCGCTACGGACGAGACCGAGCTATTCAGATCCGCGAAGCAGCGAAGCACACGGTCGGCCAAAATTCGGCTGCTCTCCGTTTTGAACTTCTCGAAACGATCAGCGCAATTGCTCAGTTAGAGGAACGCAAAGCCACTGCCGAAGAAATGGTTAACGAAGTGATGCAAACCATCAAGAGCCCATTGCTCACTGTGCCTGGTATTGGCAACACCTTGGGCTCGATTATACTCGCAGAATTGCGCAATATTGCCAGCTTTCGCTCACCTGGACAGGTTCTAGCCTTTGCCGGCTCTGAGCCCTCAGTGAGTACTTCGGGTGAGAACCAGGTTGAAACGGGGCACATGGTTAAGCGGGGATCGCCGCAGCTACGATGGGCCTTGAACCAGGCGGCCCGGCTCTGTGCACAATACTCACCGAATATGCGCAGGTATTTTGACAAGAAGCTAGGCGAAGGCAAGCACTATAACGTGGCACTTAGCCACGTGGTGAAGAAGCTTGTTCGAGTCATTTTCCACATCTTGAAATACAACGCAGTGTGGGAGGAGGAGAAGCTCATCGTGAATCAATAA
>SRR1151209_00825 cell wall teichoic acid glycosylation protein
ATGGATAAGCTGCGGCATCTCTACCACCAGTACCATGATTTCATCATGTACGCCTTCTTCGGCGGTTTGACCACCCTGGTGAATTTGGTCACTTTTTGGGTCCTGCATGAAACGTCGCTGCATCTCGGCTGGGCTCTAGCCAATACCATCGCCTGGTTTTTATCAGTGACTTTTGCCTTTTTCACCAATAAAACTTGGGTCTTCCGGTCACCCTACACGACGGCAAGTGCCTTTTTCAAAGAAATGTTTTGGTTCTTCGCCGCTCGTGGCGTAAGCTACCTGGCTGACATGGCCATCATGTGGGTTGGTATCGACCTGTTCCACGCCAACGCGATGCTGACAAAGATCGTCGACCAAATCGTGGTCATTTTGATGAATTACGTTTTCAGCAAGTGGATCTTCCACAGCAGTGATGCCAATACCAATATCCAAGAATCAGCAGAAAAGAAGCAAGAGGAGTAA
>SRR1151209_00826 bactoprenol glucosyl transferase
ATGGCCACAATCAGTCTCGTCGTCCCCTGTTATAACGAGCAGGAAGCATTACCGATTTTTTATGATACGGTGGAAAAAGTCATTCACGAAAAGCTTGCCGACTACGCGGTCGAATATCTTTTCGTCAATGATGGGTCCGCCGATAACACGCTGAAGGAAATGCGCCAATTACAGGAAAAAGATCCAGACCATGTTCATTACATTTCTTTCTCCCGCAACTTCGGCAAGGAGGCCGCCCTTTACGCCGGCTTGCAGAATGTCGGCGGCGACTACATTGCCGTGATGGACGTGGACCTGCAAGACCCGCCTGATTTGCTGCCGCAGATGCTCTCCGGCATCCTTGATGAGGGCTACGACGTCGTCGGCACCCGGCGGGTCACCCGGGCTGGCGAACCACCGATTCGCTCCTTCTTTGCCCGGATGTTCTACCGGCTGATCAATAAGATCTCGAAAACAGAAATCGTTGACGGTGCCCGAGATTATCGGCTGATGACCAAGCAGGTCAAGGATGCTATCTTGTCCGTCACGGAATACAACCGGTTCTCCAAGGGCATCTTCGGTTGGGTCGGCTTCAAGACCAAGTACATTCCTTATGAAAATGTGGAACGCGTTGCCGGTGAGACCCACTGGTCCTTCTGGAGCCTGTTCAAATACTCCCTGGACGGCATCGTCGCCTTCTCCGAGACTCCCCTGGCCATTGCCTCCTTCGTTGGCCTGCTATCCTTCGTCGGCGCCGTCTGCGCCTTGATCTTCATCATCGTCCGGGCCATGATCAACGGCGACCCCACCCCCGGCTGGCCCAGCATGGTCTCCATCTTCCTCGCCGTCGGCGGCCTCCAACTCCTCTGCCTCGGCATCGTCGGCAAATACATCGGCAACATCTACCTAGAAGTCAAACACCGCCCCATTTACATTGTACAGGAGAAAAAATAA
>SRR1151209_00827 glycopeptide antibiotics resistance protein
ATGAGCGTTTATGTCAACGACCTGCGCTCGGCGGTCTATGCGTTTCCGGTGTTAGCGTTTATCATCGCGCTGCCGTTTATGTGGTGGCATTATCACAAATACGGCGCGGTGTCCCGCTGGCGGGTCTTTTGGACCTATATCTTCGTTTTCTATCTGCTGTGTGCGTATTTTCTGATCATTCTGCCGCTGCCGGACCGGGCGGTGGTGGCGAAGCTGACCACGCCAAAGTATAATTTGGTGCCGCTGACGTTTATTCGGGAGTTTTTGAAATACAATCCATTGCAACTCGGCAACGTGCACACGTGGAAGACGGCGCTGCTGGCGCCCACCGTAATTCAGCCGGCGTTCAACGTGGCGCTGACGATTCCCTTTGGGGCCTTTCTGCGGTATTACTTCCATCGGCCGTGGTGGCAAGTGATCATCAGCAGTTTCTGTCTGTCGCTGTTCTTTGAATTGACGCAGCTCAGCGGGCTGTACGGCGTTTATCCGCGGCCGTACCGGTTGTTCGATGTGGACGACTTGCTGCTGAATACCACGGGCGGCTGGATCGGGGGCGGCTTGGCCCGGCTGGTGATGCCGATTTTGCCGACGGACGCGCAGATGGATCACAGTGCGGCCAAGCGCGCAGAAAATGTCTCGATGTGGCGGCTGGCGGGGTTCGTTGTGGACTGGCTGGCAGCGCTGCTGCTGGCTACGCTGATTGGCGTGGCTGTGAGCTTGATTGGGCGTGTTTCAGCACCGGGCTGGCTGACGTGGGCGGTACTGTTCCTGTGGCTAGTGAGACCGCCGACGTTTGGCCGACAGACGCTGGGGATGCGCACGGTGCGCTTGCAAATGCGGACGATGCAGGACAACCCAGTGTATTGGTGGCAACCGGCGGTGCGGTTCCTGGTGGGGTATGGCGTGCCGGTGGGAGTGCTGTACGGCACTGCGGAATGTGTCAATGCGATCAACGGGATCGGCTTCAGCCGGTTTACCTGGGCTGGTGTTGGAATGTTGGCGGGGTTGTTGGTGCTGTCGCTGATGTTTGGTGATTGGTTGTTGGCGTTTGTCATGCGGAGTCATTTGCTGGTGTTTGAGTGGGTGACGCGGACGAAGCTGGTGAACAAATAG
>SRR1151209_00828 tyrosyl-tRNA synthetase
ATGGATTTAATTGAAGACTTGCAATGGCGCGGGGCCATTAATCAGCAAACCGATGCCGAGGGCTTACGGGAAGAACTCAAACAGCATCCCGTGAGTATATATGTTGGGACCGATCCCACGGGGGATTCTTTGCACGTCGGCCACTTGATTCCGTTTATGATGCTCAAACGGTTCCAGGAAGCCGGCAATCACCCGGTGATGCTCATTGGCGGCGGCACCGGCTCCATTGGTGATCCATCGGGGCGCAACAGCGAACGGGTGCTGCAATCCATGGACCAGGTTAAGGAAAACCAGGAAAAGCTGACCAATCAGCTGGTTAAATTGTTTGGCACCCAGGACTTCCAAGTGGTGAACAACTACGACTGGCTGTCTAAGATTTCAATCTTGGATTTCCTGCGGGATTACGGCAAATTATTCTCCGTGAATACGATGCTGAATAAGGAAGTCGTGGCCAGCCGGTTGGAGACGGGGATTTCATTCACCGAATTCACTTACCAGATCCTGCAATCCGTCGACTTTCTGCATTTGTTCCGGCACAACGACGTGCAAGTCCAAATGGGCGGCGCGGATCAGTGGGGCAACATCACGGCCGGCGTGGATTTGATCCACCGGATCGAGGGCCCGGAGACAAAGGTCTTCGGCTTGACGATTCCGCTGATGCTCAAGGCCGACGGTACTAAGTTCGGTAAATCTGCCGGCGGGGCGGTGTGGCTGGATCCGAAGAAGACCACGCCCTACGAGTTCTACCAATTCTGGCTCAATCAGGATGATCGGGATGTGGTCAAGTACTTGAAGTACTTCACGTTCTTAAGCCATGAACGAATCGATGAACTGGCGGATGCCGTTCAGGAGGCCCCGGAGAAGCGGGAGGCCCAACGGACGCTGGCGCAAGAAGTGACGAAGTTCGTCCACGGTGAAGACGCGGTGGTCACTGCCGAGAAGATCTCCCATGCGCTGTTCTCCGGCGATCTGCGGGCCTTGACGGCGGACGAAATTGCCCAGGGCTTCAAGGATGTACCCTCTGTGGACGTGCCCAGCGGCCAGACTGGCATCGTTGAGTTCCTGGTGGATCTGACCCATATTGAGCCGTCCCGCCGGCAAGCCCGGGAGGACGTCCAGAACGGGGCAATCTATGTGAACGGTGAACGCCAGCAGAGTCTGGACTTTGTGGTGGATACGGACGCGGCTTTTGGCGGCCATTATGTGATCATCCGCAAGGGGAAGAAGAAGTACACGTTGGTGAAAGTGCAGGCGTAA
>SRR1151209_00829 glycine betaine/carnitine/choline ABC transporter permease protein
GTGCAAGGCATGAATTTGTGGCAGCAATTGGTGTATTATTTCACCCACAACGGCCAATATATCCTGGATCAGTTTAATCGGCACTTCCTGATCTCAATTTACGGGGTGATTATCGCCGCCATCGTGGGGATTCCCATTGGCGTGTATATTTCACGGCACCGGCATCTGGCCGCATGGGTCGTCGGAGCGGCGAATGTGATTCAAACCGTACCTTCCCTGGCGATGGTCTCGATCATCATGCTGGGCTTAGGGCTTGGCGTCAACACCGTCATTTTGACCGTGTTCCTCTATTCCTTGCTGCCGATTATTAAAAATACCGATACCGGGATGCGCAATGTGAATCCGGATATTCTCGATGCTGGGAAGGGGATGGGCATGACCCGGTGGCAGATTTTGCGCCAGATCGAACTGCCCTTGTCCTTGTCGGTCATTATGGCAGGTTTGCGGAATGCACTGGTCCTGGCTATTGGGGTCACCGCTATCGGCTCCTTCGTCGGCGCCGGCGGTCTGGGCGATATCATCATTCGCGGTACCAACGCCACCAGCGGCGGCGCCATCATCCTCGCTGGGGCATTGCCCACAGCCTTGATGGCGATCATCTCCGATGGGGTGCTGGGCTACCTGGAACGGCACTTCGCGGCGCGGACCCAGTAA
>SRR1151209_00830 glycine betaine/carnitine/choline ABC transporter substrate-binding protein
ATGAAAAAGACATTGTTTAACAAGCTCACCTTCCTGTTCGCGGGGGTATTGGCGGTCGTATTCCTGGGCGGTTGTTCCTTCAGCTGGCCCGGTTTAGCTGGTACATCGGCGGATACCATCAAGATTGGCTCGCAGAACACAACGGAACAGCAGATCATGGCGAATATGATCCAACAAATGATTCAGCATTACGATAAAGACACGCCAACCACGATTCTGAATAATCTGGGTTCCGGCAATGTCAGTTTCCAAGCGCAAAAGCGCGGCGATACCGACATGACCGCTATCCGGTACAACGGGACCGACTATCAGACGGTGCTTGATCTTAGCGGTGAAACTGATCCCAAAATTGTTAATGATCAAGTGTTCAAGCTGATGCAGTTGCGTTACCACATGACCTATTTTCCAAGCTATGGTTTCGCGGACACATACCAATTCATGGTGAGCCAGAAATATGCCAAGGCCAATAATCTGAAGACGATTTCGGACATGAAACGGGTCGCTCCAGATATGAAGGTCGGTATCGACCAAATTTGGGCGAACCGCCGAGGGGACGGCTATTCTGCTTTCCAAAATACTTACGGTTTCAGTTTCGGCCACGTTTATCCGATGCAAATCGGGTTGGTCTACGATGCGCTGGAAGCAGGCAAGATGGATGCCGTCTTGGGCTATTCCACTGACGGTCGAATTCGCAGCTACAATTTGAAGCTCCTGCAGGACGATAAGCATTTCTTCCCGCCTTACAAGGCCAGTGTTGTGGTGAACGATGCCGCCTTGAAGGCCCATCCGAAACTCAAGGGAATTTTGTCCCGGTTAAATGGCAAAATTAACTTAACCACGATGCAAGAACTGAACTATCAAGTGGACAACAACCTGGTAGAACCGGCCGTGGCGGCCCAACAGTTCCTAGAGAAGCACAACTATTTTGAGAAAGGGGCGGATTAA
>SRR1151209_00831 glycine betaine/carnitine/choline ABC transporter permease protein
ATGGTCACCTTTCTTAATCAATACGGCGGTCAGCTGATGCAGGAGCTGGGCGAGCATATCTACATTTCTGCTGTCGCCTTGGCCTTGGGGGTCATTGTTGCGGTACCGCTGGGCATTCTGCTGACGCGGGCGAAGAAAATCGCCGGTTTTGTCATCGGTTTGACCAGTGTCTTGCAGACAATTCCTGCCATGGCGCTGCTGGCCATGATGATTCCAATCTTTGGGATCGGCACCACGCCGGCAATCGTCGCGCTGTTCATTTATTCCTTAATGCCAATCTTGCGGAATACTTATATTGGTATGTCCGACGTCAATCCGAACTTGTTGGATGCCGCCAAGGGTATGGGCATGAGCAACTGGCAGTCCATTAAGTGGGTTGAGTTTCCCCAGGCCGCGGGCGTGATCATGTCCGGCATTCGGCTGTCGGGGACTTACGTCATTGCCTGGACCGCCCTAGCATCTTATATCGGTGCTGGCGGTTTAGGGGACATGATTTTCAACGGCTTGAACCTGTACCGTGGCGACTTGATTCTGGGCGGCTCCATCCCGGCCATCATTCTCGCGCTGGTCGTTGACTGGCTGCTGGGCTTGGTCGAGAAGAAAGTCACTCCGGCCACTACGCAGGAGGTGTGA
>SRR1151209_00832 glycine betaine/carnitine/choline ABC transporter ATP-binding protein
GTGGCGCTTACGGCATTCCTCGAAATTTCCCATCTGCGCAAAGTATATGGAGATAATGTTGCAGTATCTGACTTTAATATCTCCGTGGAGCGGGGGGAATTCATCTGCTTCATCGGTACTTCCGGTTCTGGGAAGACAACGACGATGCGGATGATCAACCGTATGAATGAACCAACTTCAGGAACAATTAAAATTAATGGTGAAGATGTTACCAAAATGGATCCGGTGAAATTACGCCGGCGCATTGGTTACGTGATTCAAAATATCGGCCTGCTGCCCCATTTGACCATCAAGGACAATATTCTGATGGTGCCCAAGATGCTGAAATGGGATCAAAAGCGCATGGACGAACGGGCGGTCGAAATGATCAAGATGGCCGAATTGCCCGAAGACTACTTAGACCGCTATCCCAGTGAACTCTCCGGCGGCCAGCAGCAGCGGGTCGGCGTGGTCCGGGCCTTAGCCGCTGATCAGGAATTGATTTTAATGGATGAACCCTTCGGTGCCTTGGATCCGATCACCCGGGACGCCCTGCAGGACTTGGTTAAAGACCTGCAAGAACGGCTGGGCAAGACCTTTGTCTTTGTCACCCATGATATGGACGAGGCCTTGAAGCTGTCGACTCGCATCGTGGTCATGTCCCACGGGGAAGAAGTCCAGGTGGATTCGCCGGAAGAAATTCTGCGCCACCCGGCCAACAAATTCGTCGCGGATTTGATTGGTGAAGATCGTTTGATTCAAGCGAAACCGACGATCACCACCGTTGGCCAGATTGCCCGGCCGGCGGTCTCCATCGTGCAAACGGCGACCTTGCGGGAAGCCTTGACTTTGATGCATAAGACCCGGGTCGACACCTTATTGGTCACCGATCCCGATGGTATTCTGCGGGGCTATGTGGACTTAGAAGTGATCAATGACCACTTCCGGACCGCCGACACCGTTGAATCGGTCATGAACCCCAAGGTCTTCTATGTCCGCCAAAGTGCGGTCATTTCGGACACCGTGGACCGGATCTTGAAGCGGGGTTACCGCAACGTCCCGGTCGTGGATAATGCTGGTAAATTGACTGGCATCGTTACCCGCGCCGCCTTAGTCGACATGGTGTACGATGCCTTGGGCAGCGGCACATCCAACGATGACGGCCAAGATCGCTCCACAGACGGTCCGCGCACTGACATCGGCACCACCGATGTTAAGGAAGGCGCCCACGCCGTTGACCCTACCCCTGACGATAAGGAGGAGGTGCCTGCCAATAATGGTCACCTTTCTTAA
>SRR1151209_00833 hypothetical protein
ATGTTACAAGCACTCAATTTTGAAATTAACAGTTATTTAGAAGGCCACGCCAGCGTGAGCGTTACCTTCACTGGGGATGAGGTCCACGTGGTGATTCACAGCACGGCGCGGCCCGCACACAACGGTCGGACGACTTATCCAGCCAATTTATGGATGGCTTGGCGCCGCCGGTTCACCAGTTTACATATTGCACAGTGGCATCCGGAATATATGACCACGAATCTGACCGTACGGGATGGGGCACGCTGGTCAGTGCAGTATCAGATGGATGATGTATGGCATACACGCCGCGGCGTTACCCGGCTGCCCCATAACTGGCTGGCTTTTTTACGCTGGCTGGACGTGATCGCCCCGATTTTTTTCGTCGGGGAAGTGGACGATCTCACACTGGGGTATCGTCAGGGTTTTCATGTAGAAAAAATGCACATTACTCGGCCTAATCGATCCATTGTGCTCACCCGGGACTTGCCCTCGGGGGAGCATACCAGCTTTTTGACAGTCCGTCACCCGGCGGTATTGGACCTGTTGGATGATGTGTCGTTCACAGCGGCTGATACCAAGTGTATGACGCCGGGTGTCCTGAATAAGACTAAACCGGGATACTTTCTCATGGCGACTATGCACCATCAAGAGCCGCTGGCGATTCAAGGCTTGCACGGAATCGCGTCGTTGCCGGGAAATTGGGATGATTTTCTGGATGATCTGCAAGATCTGCTGGCCAGTGAGAATGATTTCAGTTTATTCACCGATCGCCCAGACAGCATTGTTGGGCGTGCATAA
>SRR1151209_00834 dipeptidase
TTGGCACATAGTTTGAAAATCAAAGGGGTCTTTCAGTTGCGTATTAATCGTTCAAGTTGTACTGCTGTATTAGTCGGAAAAGAAGCCAGCGTCGACCATGCCACCATGATTGCTCGAAATGAAGATGCCGAGGGCGGAATCAACCCCAAGCGGCTGATCTATGTGCCTGCCCAGACGGCCAGTCGGGAATTCAAGTCCACCTTCAACGGCTTCCACGTGCAATTGCCGGGGGATGCGCTGGGCCACACGCTGACACCGATGGCTGACACCAGTACAGACGGTGAATGGGGTGAGTCGGGCATCAATAGTGCCAATGTGGGCATGAGTGCCACGGAAACGGAGTTCACCAACGCCGCCATGCTTGGGCTGGATCCGCTGGTTCCGGACGGCATCGGTGAAGAAGCGATGCTCAGCTGTGTGCTGCCCTTTGTGAAGACCGCTCAGGAAGGCGTGGAACGCTTGGGTCAACTGATCAGCGAGTTCGGTACCTGTGAGAGCAACGGGATCGCCTTCAATGACGTCAATGAAGTCTGGTACTTTGAGACCGTCGGCGGCCACCACTGGGCGGCTCAACGGATCCCAGACGATGCCTACGTGATTGCTCCGAACCAAACCGGTATCCAGGAGATCAACTTCGCGGATTCGGCGAACTTCATCACGGCGCCGGACCTGCAGGCCTTTGCCCAAAAGAATCATTTGAATACAGCCCGAGAAGGGTTCAACTTCCGTGAAATCTTCGGTGAAGATCTGCGCAGCGACCGGTTCTACAACACACCCCGAGTTTGGGCGGCCCAGCGGCATTTCCAAAAAGATCTGCCGGAAGTACCGGAATCCCGGGAATTGCCGTTCATTCAGCATGCCCCGCGTAAGATTTCGGTGATCGATGTGGCGATGGTTTTGTCCGACCACATGCAGGGGACGCCCTACGATCCTTACGGGCGTACTGGTACAGATGAGGAAAAGAGCCGCTATCGCCCAATCAGCATGAACCGGAATCAGGAAATGCATATTCTGGAGATTCGCAGCGACGTGCCCGCAAGTTATCGAGCAATTCATTGGCTGGCAATGGGAATGAATCCGTTCACGTTCCCGCTGCCGTTTTATGCCAATGTCAGCGATACGCCGGCGTTTTTCAAGAATACCACGAACGATGCCACCACCGAGAATTGGTACTGGCTGAATAAGATCATTGCCAATATGGTTGATCCGTTGTTCACCAAGCGAGATCAGGACGTCATGAACCGCATCCTGAATTTCCGCCGTGCGGGCTTTGCCCTGGGCAGCGGTACAGTGGCTAAGAATGATGCTGGTTTGGCGGCCAGCACCGCTGACGCCACGGCCCAATTGACGGCTGCCAATCAGGCCATGGCGGACCAGGCTGTTGCCCTGACAAAGGCTTTGCTGACGGACGTGACTACGATGGCCGCGGACCGGTTGACCCTGCAATTTGAAAAGGGCGGCGAAATGTAA
>SRR1151209_00835 esterase
ATGATCATGACGAAAAGTCAGGTAGTGACCACCACCGTATACTCACCAATCCTGGGGATCGATTGGAATTACGATGCCTATCTGCCAGCAGGTTACAACGACAGTACACTGAGCTATCCGGTACTGTTCATGCTCCACGGCTTGTACGGAAACCACCGCAACTTGCTGGAGCGCTTCGATTCCCAGCAAATACTGGACGATTTATTTGTTCAAACCGGGCACGCCATGATCGTGATTTTTGTGGACGGATTTAATTCCTTCTATATTAATGCGATCAACGGTATGGCGATGGAAGATGCCATCATGCACGACTTGGTGCCCGCTATCTTTGCCCGTTACCGAATTCTCGGGGGTGCCAGCCGCCACGCCATCGGCGGAATTTCCATGGGCGGTTACGGCGCCGCCCGCCTCGCACTGCGTTATCCGGATGTGTTTGCCCACACGGCGCTGATTTCGCCGGCAATTTGGGAACATATTCCCAGTAACAGTCCGTTCCGTCAGTCACTGCACGCCTTCACGGATGGCCAAACAAATTGGGCGGATAAAGTGTACAATGCCCAGCTGCCTGTCCACGATGTCCATCACGGCAAAGGCCGAGTCGATTTTTATGTGGCGACCAGCGGTGATGACCAGACGGTGCCGGTGCATGATGTCCGGGACTTTGTGACGGTGCTGCAGGAAGTTGGTATTCCGACGGTTTATGTGCAGGATCAGGGCTTTGATCATGGCTGGGCGTATTGGCAGATGGCGACGCCGTTGGCGTATCGATGGGTACTGGCACACGTAACACATTGA
>SRR1151209_00836 glycerol dehydrogenase
ATGGATATTGACGAAGAAATTCGACCGGGGACCAACCGTTATGTTAGTGAAGAGGGGGCCACTGCCAATCTGCCAACACTGTTGACGGGATTCTCTCATCCAATTATCATCACCGGGGAGAAATCCTATGCCGCTTACCAAGCCCACACAACCAAACCGTTGCGCTTGCCGGTGTATCGTTATGACGGTTCAGCCAGCGATGCGGATGCTGCCCGTATCGCCGCGGAAGCAAAGCACGCCGACATGATTATTGCCATTGGCGGCGGCCGGCTGCTGGACACCGCGAAATTGGTGGCTGAGATTTTCGACTGTGAATACATTACGGTACCGACATTGGCGTCAAACTGCGCACCGTATACGCCGATCGGCGCCATCTACAATGCCGTCGGCCACACCTTTAATCGCGTCGCCTACTTCCCCCGAGCACCTTACGCTACCGTGGTGGATTGGGATATTATTGCCACTACGCCGGAGGATTACTTAGTCGCCGGAATCGGTGATACATTGGCTAAGTGGTACGAGATGGAGGGTATTACCCGGCCTCGGCGGGACAGTCTCACGGCTTTCAGCCAGCTGGGGTTTAGCGCGGCCCAAACGATTCGGACGATCCTGCAGCGCGCCGCGGTCCCAGCAGTCGTTGCCCTGCGCAAAGGTCAGGTAACGGCGGACCTGGTCGCCATTGCCGACACGATCATTGGGATTGCTGGCACCGTCGGCGGTTTTGCCGGGGCGGACGGTCGCATGGCTGGGGCCCACGCGATCCATAACGGGCTGTCCTATGTTGATGAAACCCACGAAATTCTCCATGGGTCGAAAGTCGCTTACGGTATCCTGGTGCAACTCGCCTACACCGGGGACGACGATGAGATCCGTGCACTCCTGCCGTTTTACCAGCAGGTCGGCCTGCCCACGAATCTCAGTGATCTTCACGTCGTCCGCGACTTAAAGGTGAAAAAGGCTCTCGTCGCCGACTGGGCCGCCGCCGATACAGAATCTTTCCGCTTAATTGACCCAGACATTTCGTCAGAGAAGGTCCTGGCGGCGATGGACAAGGTCGAAGCTTTAACTGCCGCGCCCTTGGTGGATGAAGGGTGA
>SRR1151209_00837 beta-1,6-galactofuranosyltransferase
TTGCGAAAATGGATCACAGATATCATTCAAGGCGAATCCGCCGATGCAACCTCCCAAGCCAAGGATGACATCACCGCCATCGGCATTCAGAACGGGTATGCGCCGCTGCACATTTTTCGCTATAACAGCGATTACGAATCCAATCAAGCCATTCAGTCCCGCATTGACGGGATCACAGCAGCCGTCACCAACGGCGATCTTGTGGTATATCAATATCCCGTCCTGATCAGCCCCCGCTTCGATCAGTTCTTCATTGATCAAATGCATAATCGCGGCGTCAAAGTCGTTCTGCTCATCCACGATGTCGAATTTCTTCGGGGAACCAATATTGGCAACAGTATTGATGAGATCCCCTATTTTAACAAAGCTGATGCTCTGATCATTCACAACCCAATTATGGGCGCCAAGTTACGAGAACTTGGCGTCAATGTCCCTATGGTCTCTCAATATCTCTTAGATTATCTGGACAATAACCACGACTGGCACCGCCTTTTTACGTCTCCTGAAGAGTTTACCAAGACCTTGGTTTTATCCGGTAATCTTTTCAAATCATCTTACTTAACAGAGTGGCACGAAGAAACTCCTATCTCAGTGTTTGGCGTTGCCGATGATGCGATTCAGAAAGGACTCCGGGATAATCCAAAAGTAGAGTATCATGGGGCCCTGCGCCGGGATGATCTGATCAATCAACTGCCTAAGGGGTTTGGCTTGGCCTGGGACAGTGATTCTTGGATGGGTCATTACGGAAGTTATACGAAATACAATCATCCCCATAAAGTATCGCTCTATCTTTCCCATGGCATGCCAGTGATCGTCTGGAAGCAGGCAGCAGTGGCACCGTTTATCGAGAAAAACCATCTAGTGCTGACCATCGGCAGTCTGGATGAAATTGATGGGCTGCTAGCAAATCTAAGCGACGATGAAATCAAGGATATGCTGGTACACGTCAATAATATGGGCGTCTTACTTCGAGACGGCTACTTTACCAACCGAGTGCTTGCAACAGCGGAGCAGCAGGCTTTCGTTGGTGACATTAATTTTCAGTAG
>SRR1151209_00838 hypothetical protein
ATGAATTATGAGCTGATTAATGGGGTCTCGCCCCAAAGTCCCGCGTGGCCGACATTCAAACAGTGGGCCAAGGAAGAAAACGCGCCGTTCATTGTTCTTCAGCCATTGCCGGGGCTGCTCGGCGTGGCTAAGGAACAAGATATCCAACTGCGCAGCGTCATCGACTTTGTCACGAAGCGGCGGTATGCAAAAGATTCTTATCGCTTTTTTAATGAGGCACCAGTGCCTGACGGTGCAGAGATTTTCATGAGTGGCGACGGTGTCATCAGCATTATTTACGAAGGCGAAATCATCGGCTATGTGACTACTTATGCGAATACACGGCGGGCAGTCAAACAGATTGATTATCTCAATCCGGACCAGACGAAGGACTTCACGGAAGAGTATGCCTATGATGGCAATCAATACAGCAATTTGTTTTACTATGACAACACGCTGCAGCAGATCCAGTTTTTAAATAATGACGGCCAAATAGTGGTGCGGGAGTATCTGTACGATGGGATGATCAATATGATCACGATTGAGGACCCAATCACCGGTAAAGTCGTGACCCAGTATGATGACTTGACTCGTTTTTTGACGGCCACTGTAGCCAAAATGGTCACGGCCCACGATACCGTCCGCATTCACTATATGGGCGTTGAGCTGAACGTGCTTAAGGATTCGCCGGCTCACAATGTGCTGCGGCTGGCCGAGGCGCCTTTTGATGATCAGGGGACAGTCCGCGGCTTTCTGCTGATGATTCTGAAGGATGAGATCAACTATGTGCAGGAAGTGGAAGTGTCCCGGGCCGCTTATCAGGCACTCACCGTGCAGAATATCCCCTTGGAGAAAGCGACAATTATTGACGATCCATTGAGTGACCCCAAGTAA
>SRR1151209_00839 poly(glycerol-phosphate) alpha-glucosyltransferase
ATGAATTTCTTTGTTAACGGCACCATGGGTATCGGCAATTCCGGCATCGAACACGCTGAATTTTATCGGGCCAAACTTTTCGATCAGGTTGGCTTAGAATACAAGTACGTTTTCGTTGATTTGGCCCCCCAATTACGGGAAGCCATGGCCGAGTGGCATATTGCCAACGAGACAGTTGCCAATATGTGGGAGTATTTCACTCTCGGCGATCGGTATTTGACCAACGGTGTAACGCGTGAGTTTAAGAAAAAAGACGATCTGGTCATCGACAGTACCAAGACCCATCGGAAGCGGGAAACATGGACACCCAGCGGTTTGCGAATCGTAGAGCATCTGGTGAAGTACCCGAATAAACACGAAAAAACGGATGTCTTACTGGTCAGTACAGCCCGGGTGGAGATTTTTTCCCGAATTGATGGCCGACGCAAGGTTGAGTTTGAATACGTGGACGATCCGCACCGCAAGTTTCAAATCCGCAATATCCATGTCTATGACTTAAACGGCCAGCATCTATTCTTTCCCAATGAAATGTTGGCGCGGCGGTACTTTTTCCATCAGCTGGCGCGGGTCTACGCCGAACATAATGTCTTCATGATTGACCGTGGGGAACGGAATGAAGTGGCTCTGTATGCGCCCAAGATACCGAATGCGACGGTGATCCATGTAATCCACGCAGACCATCTCACCAATCGCGACGATCCAGCTAAACCGCTGTGGAACAATTACTACGAATATCTGTTGACTCATTTGGATCGCGTGGCGAAAGTGGTGGTGGCCACCAAGATGCAGCGGGCAGACTTACTGCGGGACTTCCCCCAGGAGGGCGATAAGTTTGTCGCGATTCCGGTCGGCGGAGTGCGGGACCAAGCACCTGCGAACATTGACCATCCGCTGACGGCGCCATTGAAGCTGATCACGGCATCCCGGCTATCTCCTGAAAAGAATGTTGATTTTATTGTCCGGGCAGTGGCCAAGGTCCACGATGAGGGTACGCCGATCACGCTGGCGGTGTATGGTGACGGGATCAAGAAGCCCCAGTTGGAGAAATCAATTGCGGAACTCCATGCTGCGGACTACATCACTTTGGCGGGCCAGTCCAATCATCTTGAGGATCTTTACCCACAGTATGATGCCTTTATTTCCGGATCATTTTCTGAAGGCTTCGGGCTGACCTACATTGAGGCACTGAACGCGGCCTTGCCGGTTGTGTCATTCAGTGCCCGCTATGGGGCCCTGGAGCTTATTGAGAACGGGGTGAACGGATTCTTGCAGCCGTTTAAACGGAATGATGATCAGTACGATATTGATCAGTTAACAGAGGGCTTGCATCGTTTACTGGCCGCCGACTATCCGCAGCTGCGGAAGAACACACAGCAATCCGTACGCGATTACCGCGATAGCGTGATTGCGAAGAAATGGCAGGTGCTGATCAATGAATTATGA
>SRR1151209_00840 hypothetical protein
ATGTCGCGTGATTTGACCAAAGAAACTACTGTCTCAGTGGCGTTGCAAGCTGGTATGATAGGGATAAAAGTGAATGACGCCAGTGCAGTCAACGGGCAAAACTTGGTCGTACTGCCCAATCGGTTTGCGGCCATTAGCGTACCGGTACTCGCTGGTCAATCGACGGTTGCGGTGTTTCAGGCACCCGATCAGGCTCAAATCGAGCAGGTCCAAGCAGCCCTGCAAGCGGGGGTGCCGGTGCGGCTCCAAGTGTTTGGCCCTGGCCTTGGCGGCTGGGCTGATCAGTTGCGGCCGGCGCTGTCACCCAACTTTTCGTTTCTAGACAGTGAGGGAAAAGCATGA
>SRR1151209_00841 2,5-diketo-D-gluconic acid reductase
ATGGCTAAAATTAACGCACACAGTCTAACGGATACTTACACGCTGACTAACGGGGTGAAAATTCCGGTCATTGGCTTCGGTACTTGGCAATCTTCACCAGAGGATGCTTATAATTCGGTTAAGTGGGCTTTGGAAGCCGGCTATCGCCATATTGATACCGCGGCCACTTATGAGAATGAAGAAGCTGTTGGTCGTGCGATTCGCGATGCTGGGGTGCCGCGGAAAGAACTGTTTGTCACCACGAAACTGTGGAACGAACAGCGTAATTCCTACGATGATGTACTGCATGCCTTCCGGGATTCCCTGACGCGGCTGGGCTTAGACTACATTGATCTGTACTTGATCCACTGGCCGGAACCGGCTGCTCATCATCAGGATTGGCAGCATTTGAATGCCGAGACGTGGCGGGCCATGGAACACATCTATCATTTGGGCAAAGCCCGGGCGATTGGTGTATCGAATTTCTTGGCGCACCATTTGGATGAGCTCGCCAAGACGCAAAAGACACCGCCGATGGTTAACCAGATTTTCCTCAATCCCCATTCTCCACAACCGGACATGGTCGCTTACAATGCAGCTCACGATATGCTCAGCGAGGCGTATTCGCCGCTGGGCACCGGGGAATTGCTGAAGAATGAAACGATTGGGGCGATTGCCCAGAAGCATGGCAAGTCCCCGGCTCAAGTGCTGGTACGCTGGAGTTTAGAGCAGGGCTTCCTGCCGTTGCCGAAATCCGTGCACCAGAATTACATTCAAGCCAACGCGGACGTCTTTGATTTCGAATTGGATGAGGATGATACTCAGAAGATCGGCGCGTTGGCCGGACAAGGCCGGCAGCGGCAGGATCCGACAACGTTTGATTTCAATAAGCAGATTCCGTTTTTGTGA
>SRR1151209_00842 hypothetical protein
TTGGAGAAAAGTAAAACGCTGTTGCGCCGGGGCTGGCAGCTCTGGTTGGCCCTGGTGGCCGGAATCAGCACGCTATTATTCGCCGGCACGTCGGTGCTGTACCATAATATTTCATTGCCTGATCCGAACTATTATTTCACTGCCGCCCGCATGATCATGAACGGCAAGGTGATGTACCGAGACATCTTTGAGCAGAAGGGGCCGCTGGTGTATTTCACCCATGTCATTGCCCTGGCCATTACTCCGGGTCGGCGGGATTACGGCTATTCGATCATTGAATTCCTGTTGATGTTTTTCCTGCTGTGGTTCACCTACCGGATCATGCGGCTGTATTTGCCCCGTATCTGGGGCGCGGTGCTGACCCTGCTATTCCCGGCGGTCTTCTTGCAAAACGCTTTGTTCCGGGAGGGGGACACGGTGGAGATCACCAGCACGGTGATCATGATGGGGGCTTTGTACCTGGTCATGCGGCAGATGGTTCAGCCGGCGCACCGGGTTCGGTTCTGGGAATCCGGGCTGCTCGGCATGGGCGTCGCGTGGATCCTCTGGAGCAAGTTTTCGTTGGTGTTAATGCCCGGTATCGCAGCGCTGGTGCTGGTCGCAGTGGTTTGGGGCAATCAAGGCTGGCGCCAGGCGCTGCTGCACACGGGACTGGGGCTGCTGGGCTTCGTGCTCATCACCGGTCCAGTCTTGTTCTATTTTTGGCACTATCGGGCTTTGAATGATCTATTTAACGTGTATTTTTACTGGAATCTCAATGCTTATACGGAAGCGGCCAAATTACCGTTGGCTGGTGCAATCCTGTATGGGGCATACTTAGGCGTGGCCAATGCGCTGATGTCCTATCCGATCCTGATGTGGGCGGCGGTGATCGGTCTGCTGGGTGTGTTCCTTGGCCCCTTCACCCCGCGCAAGGGCTGGTATCGCTTGGGTTTGTTCTTGCCGCTGTGGGGCGTTATGTTCTCCGTCGGCTATCCGCATTTGTTGGGGTATTACATCTATCCCTTGGTCATTTTTGTACCCTTGGCGCTGCTGACAGCGGCGAAGCTGATCCTCTTTCTTTATCCCAAGCTGGCAGAGTGGCAGCCGCGGGGTTGGGCGACCGTGGGGACGTGGCTGGCGCTGACGGTAGTGACCCTGCTGATTGCCGCCGGATTCAACAACACGCCCCAACAATCCCGACTGTTTGAGAAAGAAGATCCGGCCATTTTTCAATTCATGGCGCCGGTGCGTCATGATCCCAAGGCCAGCATGATGCTGTTTGGCGTCATGGATTATGGCTTCTATTATTACGGTGGGAATAAAGAGCCGGTATCGAAGTATTTCGCCGTGTACAATTTGGATTGGAATAAATTTCGTTATCCGTGGAAGGATTGGGATCAGCGCTTGGCGGACAAGAGTGTGGACTACGTGGTAACGAATACCGCCCGGGCCCACTCGAATGGCCATTTGCGGAAGAATTATAAGTATTTGTCCACTGTGCATATTCAGGGGCAGGCGTTTGACCTATATCACGTGCGCAACTAA
>SRR1151209_00843 hypothetical protein
ATGCTGGGCAAACGCCTGCGACGTTGGCTGTGGCCGACGGCTTTGACCATCTTGGCGGCCATCGCCAATATTCTTTATTCCGGTGTGTCGTTTATTTATTATCCGATCACGCTGCCGGATCCGAATTGCTACCTCACTGTCGGGCGGGCCATGGCCGCCGGGAAGGTGATGTACAAAGACATTTTTGATCAAAAGGGACCATGGACCTATTTTCTCCACTGGTTCACGATCACCATCACGCCGAATCAGGGCGATTACGGTTACCTGATTTTCGACATTTTCTTCACCGTGCTGATCCTGTGGTTCGCCTACAAGATCATGCGGCTGTATTTGTCTTTCCAGTGGAGTGCGCTGCTCACGCCGGTTTATCTGGTGCTGATCATGCAGCCGTATTTCTATCCCATGGATGACACGGTGGAGATTACCTGTATGCCGGTGATGCTGGCTGCCATTTATTTGGTGCTGCGTCAGGTCCGGCAGCCTGACCGGTTGGTTCATTGGTGGGAATCTGGGCTGCTCGGCGTGGGTCTGAGCTGGATTTTGTGGACTAAGTTTTCGTTGATCCTGCTGCCCGGGGTGGCCACATTGGTGCTGATCACCTACGGTTGGCGCGCTCAAAGTGCGCCAGAAGCACTGCGGCACATTATTTGGGGAGTGATTGGCGCTTTGCTCCCCACGATCCCGGTGATCATTTATTTTGCTGTCAACCATGCGTTCAGTTATCTTTTCCATTATTATTTTGTGGTTAATTTGACGGCCTATAGTCCCGCCTCGTGCATGATTCTGCCCTTGGCGATTTTGCGGGGCATGACTTACGGTATTTTTCACAACTTGACCAGTAATTGGGGTCTGGGAATCGCAGGCGTATTATTCTTTCTTAGTTTTTTCGTCGGACCAGTGGCTCCACGGCGCTGGGGCGATCGGCTGGCGATTTTCCTGCCATTCTTCGCCGGGCTGTTTGCGGTGGCGTATCCCCAATATGGCGGCTATTATGTCTACCCCGATTGGGTGATCGCGCCCATCGCCGCCGTGACCGGGGCGTGGTCATTGGTGAAAGCCTTCCCGATGCTGAAAGGCTGGCAGCTGGCTGGTCGCCATCTGGGTTTTGCCTGGACTGGGGTGGCCTTCACCTTGCTGTTGGTTCTGGCAAGCTTGAACACCACACCGCGTCAATCGTGGCTATATAACAAAGACAAACCGGTTTTTGACCAATTCGTCGCGCCAATTCGCAAAGATCCGAACAAGGACGCGTCGCTCATGCTTTACAACGTGATGGACCAGGGGTTCTATTATTTTTCTGGGAACAAGATTCCGCCGACTCGCTATTTCACCCACTACAACATCAAGGATAAACAGTTCCCGGAGTTGAAGCAGGATCTGAACAAGCGGCTGCGGGCGCGCTCGGTGGATTACGTGATTACCCGGCACGGGACGGCTAACAAATACCGAAAGTTCAAGGTGGCTAAGGTGATCAAGCAAAATTACCGGCTGATCAAGACACTGCCTTATTGGGGTATGACCTATGATCTGTACCAGGCCAAGAAGTAG
>SRR1151209_00844 membrane protein
GTGAACGTCGTGGATTTTGATTACCAAAGCCGCCCGGCCCGGCGGTGGGATTGGCTGCTGGCTTTTGGTTTAGCCGCCGTACTCTTTTTCGCCGCCGGCATTGTTGCCCAGGCCAATCCGCTCACCGGCGGCTCGTGGCTGGGCGGCGATCTCAGCCAGCAATACGTGTCTTTTTTTCAATATTATCGGCATGTCTGGGCGGGGGCGACGGATCAGATTGGGTATAGTTTCGCCAACGGTCTGGGCGGCAGTATGGCTGGCAATTGGGCCTATTACTTATTGAGTCCGTTTAATTTACTCACGCTCTTATTTCCTGCCAGCCAAATTCCGTTGGCGTTGTATGTCTTGGTGTGGTTGAAAATCAGTTGTGCGGCTGCGGCCATGAGCTTCATGCTGCGCAAAGTCGAACCGACTTTGGAGCGGACCATCAATCTGGCACTGGCCATCAGTTACGCCATGATGGGCTATGCCATTATCTACCAAATGAATCTGATGTGGCTGGACGGGGTGATCTTGCTGCCGCTGCTGGTCTGGGCGTTACGGCGGCTGCTGGATCAGCGCAGTTATGTGCCGTACACCTTGCTCTTGGCATTGGCTGTCATCAGCAATTACTACATTGCTTATATGCTGGCGGCCTTTTTGGTCCTGTATTGCCTGTACATGGTGATCATGTCCTGGGCGGATTGGCGCAAAGCGGGCAAACAGATAGTACGGTTTGTTTGGGGCTCGCTGCTAGGCGGGCTGCTCAGCATGGTCGTGGTGGTGCCCACTTTGCTGGACCTGCTGGCCGGCAAGGGGACCCAAGCCACGCCGCATTTGCCGCTCATCATGCAGGGCTGGACGCTGGTACCGACAAAACTGATTCTGGGATCGCCCAGCAACGGACTGCCTAACGTCTTCATCGGTACGCTGGCCATGTTTGCGTTTGTCGGCTATTTCTTCAGTACCCGCTTTGCCTTGCGGGAGAAGATTGCCGGCGGGCTGGTTGCCCTGATTTTAGCTTCCGGGTTTCTGTTTAATGCGGTCAACCTTTTTTGGCACGGCATGCAGCTGCCCCAGGCCTATCCGTTCCGGTTCAGCTTTTTGGTCAGTTTCTGGTTGATTTATCTGGCGGCTACTCAGCTGACGCAAATCGATTATTGGCATTTTGAATCCTGGTTTCCCAGCACACTGGTGGGCGTTGCTGTGCTCGGCTACGCCTTCTTGATGCGTCATCGGGTGGTGGGTATCACCTGGTCCCGGCTTCTGCTCAGTGCCTTTTTCTTTCTATTAATCATGGCGACGGTCGTTTTGTGGGAGAAGCGGAGCGAACGGCTCTGGCGTTGGCTGGTGCTGCTGGCGGTAGTGGGCGAGTTTGGCGCGAACGCAGCGCTGGTCGCCCGGCAGATGGTCCGCGTGCCGACGGCCACGTATACCGAGTATTATCAGCGGACGCACCAGTGGGTGCAGACCGTCCAGAAACAGGACGACACGGCTTTTTATCGGTTGGATAAGAATTTTGTGCGGGCTAATGACCGAGGCGATGCCTTTGGTCAGGACTATGCCAGTGCATCGGTCTTTACGTCGAATACGCAGCCGGCCATCGCCAAGTTCTACACGGCGGTGGGGCTGCCAGCCTATGGTTATTGGGCGGCCTATACGAATGGTACGCGGTTGACCGATACGTTCTTGGGCATCAAGTATTTTGCCACGACAACGCAGCAGACGACACCGGCGGCTAATTTTACGAATTACGGCCAACGAAACGATTTGGCGACCCAGCCGATTACGACTCAGCAGAGCAAGGTCACCGTGCGTGAAAACACAGACGCGCTGCCCCTTGGCTTCGCGGTACCCAGCAACATGGTGACCCCGACGTACCAGACTTTGGATATCTTGGGCAACCAAAACAATTTATTCAATGCCCTGACTGGCGCGGATGATGCCTACTTCACGCCGTTGACCGCAACCGCGCCGAAATTGACCAACGCCGTATTGACCAAGTCGTTGACTGGTACGACGATCACGAAGAAGAATCCGGCCAAACCGGCCCAGGCGGTCTTCACGATTGCTGCGCCGCGCCAGCTGCCCACTTACATCACGATTGATCAGAGCTTGCTGAATACCGCTCGGGTCACCCTCAATGATCAGACCATCACGTTTTTCCCGGCCCAGTACGCCCCGGTACCGTTGGGGACGCTGCCCCGGCATGGCCGGGTTACGCTGACGTTAAATTTGCTCAGCAACAAGATTCAATATCAAGCCATGCAAATCGATCAGCTGCATCCAAATATTTTACAGGAGGCGGCAACGAAGCTGAAGCAGCAGTCATGGCGGCTGCGCAAGGTCAAAGCCAATGAATTGGCCGGCGCGATCACGACGACCAGAGACCAACAGCTGCTGACGACGATTCCGTACAGTCGGCGCGGTTGGACTGCCACGGTGGACGGCAAACCAGCCGCTATTAAGCAGGCTTTGAATACGTTTATCAGCGTGCCGCTGAAAGCTGGACAGCATCAGGTGGTGCTGCGCTACCGGATTCCGGGTATGCGATTGGGCATCGGCCTCAGTATCGCCGGTCTGGTTTTGCTGATCGGCACCTTGATCATCGTCCGGCGGAAGCGGCCGGCTGATGGCGACGATGAGATTCAGTAA
>SRR1151209_00845 ribokinase
ATGACCAATCGCATCGTGATCATCGGCAGTATCAATGTGGATAATATTCTGCACATTAACCGGCTGCCACAACCGGGAGAAACCATCGCCATGTCGGAATATTCCCAGGCCGCCGGCGGCAAGGGGGCCAATCAAGCCGTGGCCAGTGCGCGCAGCGGGGCGGCGACCACGTTCATCGGTCGGGTCGGTGACGACAACAACGGTTGGCTGATGATTGAGAAACTGAAGCGGGAAGGCATTGACGTGCGGCACGTGATCACCAGCCATACGCTGCCCACGGGTCAAGCGTATATTCTATTGCAAGAAAGCGGCCAGAATTCGATTATTATCGACCATGGGGCGAATTATCAGGTCATGGTGGAAGACGTTACCGCTGCAGCTGACGCCATCCAAGCCGCGGATTTTGTGATCACCGAATGCGAGACGCCGATTCCCGCGGCCGCGGCGGCGTTCCATCAAGCCAAGGCAGCCGGGGTGCGCACCATTTTGAATCCGGCCCCGGCGAATCAGCGCTTGACCCCCGAATTGTTGGCCCACACGGATATTATTGTGCCCAACGAGACCGAAAGCGGCACGCTGACCGGGATGCCGATCACGGATCAGGCCTCGCTGGCCGCGAACGCTGCTTACTTCCGGGAGCGGGGCGTGGCTACGGTGTTGATTACACTGGGTGATCAAGGTGTTTATGTGGTGACAGATACGGGGAGTCGGCTGCTGCCGGCTTTCCCCGTGCACGCTGTCGATACCACGGGTGCGGGAGACGCGTTTATTGGCGCGCTCGCTTCCGAACTCCGGCCCGATTTAAGCAATCTGTACGCCGCGGTCCAATATGCCCAGCGGGCATCATCCTTAGCTGTCCAGGGACTCGGGGCGTTTCCGTCAATTCCGCATCGGCTGGCCGTTTTGGCCGCTGCCAAGAACGCTTAA
>SRR1151209_00846 ribose operon repressor
ATGAGCACAATACAGTACACTGAAAAGGAACGCAATACGAGAGTTCGCAAAAATCAGTTTGCTGCTGGTAAAGGAGGCATGGCTAGCTACGCCAAAAAATCGCAACCGGCCAAACGTATGAATGATTATCTGGATTTGAATGACGATGCGCTGGTGCGGTACCCTAATCCGTCCATTGGGGTAGTGGTGCCGACCTTAATGAACCCGTTTTTTCCGAAAATGCTTAGCGGGATCGCAGAAACGGCCCGGATTCAGGGCTATTACACGGAGGTGTTTAACGCCGCGCAAGACGGCGGAGATTGGACGAATCTGGCGGCCCGCTTTGCCCAAGGCCGCCAGCAGGGCTTGATTCTCGCTGCACCGAAAGTGACGGAGAAAATTGTCCGGCTGATCGCTGAGACCGAGCCCATGCCCTACGTCCTGACGGATCAAGCCGATGATGTTCCCGGAGCCTTGCGGGTGGCAGTGGATGACACCACCGGCGGCGGTTTGGTGGTGGACCATTTAGTGGGATTGGGCCATCAGCGGTTTGCCATTGTCTGCCCGCCCCAGCTGCCGTTCAATATGGCCGCGCGCTACCGGGGCTACTTGGATGCGTTAGGCCGGCACGGTATTCCGCGGAACGCGGTGACTTATGTGTCGGCCCCCCTGACCCGGGAAGCCGGGCAGGCCGCGGCAGCGCGGATCGTGAAGCTGCCCGGGATCACCGCCATTATTACCATCAATGATGATTTAGCCATTGGCGTGTTGAAAGGACTGCATGAACTGGGCAAGCGGATTCCCCACGATTATTCAGTCGTCGGTTACGACAATACGGACCTGTCGAATTATGTCACGCCGGAATTGACCACGGTGAATCAGCCGGTGATGGACCTGGGCCATGCGGTCGCTGATTGTCTATTGGCCAAAATCGAGCGGCGAGAGCCGGAGGTGCCAGCGACACTGCCAGTGGAATTAGTCGTCCGGGCCAGTTCCGGCCGGGCAAAACTCGCCTAA
>SRR1151209_00847 ribose-5-phosphate isomerase A
ATGCTGAGCGAAGTCGATCAGAACACGATGAAGGAAAAGGCCGCCCAACGCGCCGCAGACACCGTATGGTCCGGTATGCGCTTGGGGGTGGGCACTGGATCCACTGTCAAGTTCTTCATTGATGCCTTAGGCAAACGGAGAAAAGAAGGCCTGGCACTGGGCGCGGTGGTCACCACCTCCGACCGGTCCCGGCAGCAGTTAGAGAGCCTAGGCTTCACCGTCGGCGAACTCAGCGACGTGGAGCATTTGGACTTAACCATTGACGGTGCCGACCGGGTGGACAGCCACCTGGACGGCATCAAGGGCGGTGGCGGCGCGCTAACGATGGAGAAGAACGTCGCCGTTCATTCTCTGCACAACACATGGATCGTGGATGAGTCAAAAGTGGTGGATCATTTAGGCGGCTTCCCCTTACCTGTGGAAGTATTGCCGATCAGCGCCAAGCAAGTCTTCAATCAATTCGCCGATGAGGGATTGCTCCCCCGGTTCCGCACCACCGATACCAACGAGCGCTACGTCACCCATTACGGCAACTTCATCATTGATTTATACATTGATCCCCTCCCCGCCCCGCGCGGGCTGGCCAGTTACCTTGACAGTACCGTCGGGGTGGTCGAACATGGCCTGTTCCTCGGGATCTGCGACACCGTCATCATTGCCCATGAGGACAATACGATTGAGATAAAGAAGCGGCAATAA
>SRR1151209_00848 membrane protein
TTGAAGAAGTTTAGAGAACACCACATTCTCGCCCTGATTGCCTGGATCGTGATCGTTGTTGCGGCCCTGATCATGATGCCCAACGTCAGTCAGCTGACCCGGGATAAGGGCGCTATCAAGCTGCCCAACGATGTGGAGAGCCAAATTGCCACGCGCATCGAGAAGAAAGCGAACGACAATAAGACCGTCCGTACATATATTGCCGTGTTCAACAATGGCAATCAGAAGCTGTCCGCCGACCAAATCAAGGATATCAACACGACGATCAAGGATATTCATAACGTCAAGGGCTTGTCTGTCCGGGGTATTACCGCCCCGAGTGATAACGCGGAAACTAAGAAGCAGCTGGTTTCCAAGGACGGCACGACTCAGATGGCAATGATCACGGCGAAAGCCAATGGCCGGGTCGCAGTCCAAAGCAAAGCGCTGGAAAAACAGGTCAAGACCAGCGGCTTGAAGACCTATATCACCGGTTCCGACGTACTGAACGATGACTTCTCGACCATCACCGAACAAGGTATTCAGAAGACTGAAATCATTGCCATCGTCTTCATCTTGATCGTCTTGATCATTGTCTTCCGTTCGCCAATCGTTCCGCTGGCTTCGCTGATCACCGTTGGCGTGGCCTTCATCACCAGCTTGAGCATCGTGATGAACCTGGCTCAGTCCTTTGATTTCCCCATCAGCAACTTCACCCAAGTGTTCATGGTTGTGGTGCTGTTCGGGATTGGGACAGATTACAATATATTGCTGTATAACACGTTCAAAGGCAACTTGGGCGAGGGCCGAACGCCGGTGGAAGCCACCCGGCGGACACTGAAATACGGCGGCCGAACGATCCTGTATTCTGGTTTGTCGGTCCTGATTGGTTTCACCGTGTTGGCCTTGGCCAAGTTCTCGTTCTACCAATCTGCTGTTGGGGTCGCCGTTGGGGTTGCTGTGCTCTTGCCGGTCCTGCTCACCCTGAACCTATTCTTCATGAGCACGCTGGGCGAACGGCTTTTCTGGCCCACTGGTACCAAGGGCCGCGAATCCGAAAGCCGCTTATGGCACACGCTGTCTAAGTGGGGCTTAGCCCAACCAATCATCACCATCGCCGTCATCGTCATCGCTGCCATCCCGTTCCTGTTCACGATGAATCAGACGCTGAATTTTAATAATGCTGACGAATTGCCAGAGAGCATTCCCTCGAAGGTCGGCTATCGGCTGATCCAGAAGCATTATTCCAAAGGGATGACCGCACCATCGACCGTCTATATCGAAAGCAAGCGGACGCTGAATACGCAGGAAGACCTGGCTGCTGTGGATGATTTGACGCAGTACTTACAGGCTGAAAAAGGGGTCAAGACCGTCGCTTCGGTCACTCAGCCGGGGGGCAGCAAGATTTCCCAGCTTTACCTGAAGAATCAGCTGAGCACGATCGTTTCTGGTTTGAATCAGTCCACGAAGGGCATGAAACAGATTCAAAGCGGGCTGAGTGACGCCAATAAGCAGCTGACTAGCGCGAATGTGCCGGCCCAAACTGCTCAGGTACAACAATTGGCCAATGGCACCCAGCAGCTGCAAAGCGGGGCCGGCCAGTTGAATGCCGGGGTCAGCCAGTATACGGCAGGTGTCGGCCAAGTGAATAACGGCGTCGGCCAAATGCAGAGCCAGGTACCGAGTTTGACTAGCGGCGTGAGCCAGTTGGCCAGTGCGACCCAACAATTGCAAAGCGGGGCCAGCAGTTTGAGCCAAGGCATCAATCAATATACTGCTGGCGTCAGCCAGGTGAACAGCGGCGTTGCGTCGCTGCAAAGCAAGACGCCGGCATTGACCAGCGGGGTCAGCCAACTTTCTGCTGCTGGCACGCAATTGCAAAATGGGCTGAAACAACTGAATGCCCAAGTTGCCCAACTGGCCAGTCTGAATAGCCAGCTGGCGCAATTGGCGGCGAGCACTGGCGCCTTGAGTACCGGGGCCACCCAGCTGAATAGCGGCATCAGCAGCATGAGCGGTCAATTGCCGACGCTGGCCAGCGGGGTAAACACGCTCGCCAGCGGCAGTCAGCAGTTAGCCGGTAACGGGACGGCACTCAAAAGCGGGGCCAGTGCGCTGAACAGCGGCACGACCCAGGTCAACAGCGGAATCCAGTCGCTGAATGGCCAGCTGCCAGCACTGAGCAGCGGCGTCAATCAGCTTGCCCAAGGGACCGGTCAGCTGGCCAGCCAAAGCGGCACGCTGAATAACGGAGCGTCCTCCGTATCTGCGGGCACCCAGCAGGTCAACGCTGGTGTGCAGCAGATGAATACTAAGGTTAAGGCCCTGGCAACTCAAGTTGCTCAGTTGCAAAAGGGCTTAACCAGTGCCACTGATGGATTGACCACTCTGCAGCAGGGCAATGCCACGATGAAGGCATATCTCAGCGGCCTGCAAAAGTCCTATATGGGAGATAATTTCTACATTCCCCAGGACACGATCAAGAGCAAGACCTTCAAACCGGCCTTGGATAATTACATGGCCGATGACAACAAGATCACCACGTTGACAATGGTCTTCAAAGGTGATCCGGCGACGTTGGCAGCAGCTAAGCGGGTACGAGTTATCCAAAGTGATCTTAAGGCCAAAATGAAGCATGGTCCGTTGAAGGACGCCACGGTGGCGGTGGGCGGTCAAACGTCGCAAACTGCCGACCTGCAGGAACTCGCCAACGGCGACTTCCTGCGCACGGCGGTGATCATGGTGGTCGGGATTGCCATCGCTTTGATGGTTGTCACCCGATCGATCATTCAACCGCTGACCATTCTGGCAACGCTGTTGATGGCTTACGTCACTTCGTTGAGCTTGACCCATATCGTGACGAAGGTGTTCATGGGTGTGCCGCTGCTGACGTGGAACACACCATTCTTCTCCTTTATCATGCTGATCGCGCTGGGGGTAGATTACAGTATCTTCCTGATGATCCGCTTCCGCGATCTGCGGGTAATCGAGCACAACACCGCCAAGCGGATGCTTAAAGCAGCATCCGTCATCGGCGCAGTCGTGATTTCCGCCGCCGTGATCCTCAGCGGCACCTTTGCCGCGTTGATGCCTTCGGGTGTCACGACGCTGATTCAAGTGGCCTTGGCCGTGATCATCGGGTTAGTGATCCTGGTCATTACCCTGCCGCTGATGCTCTCGGCAGCAGTGGAATGGGTCGCTCGGTCCCAGAAGCTGCCGAAGAAGGGCAGCAGTGCATATCAGGCAGAGAGTGAAGCAGCCGGCGATGGGCAGAAGGCTCAGCCGACAGATAAGAAGTAA
>SRR1151209_00849 TetR family transcriptional regulator
ATGGACAAAGTAACCAATACCAAAGGAGACGCGATCTTAGAGGCGGCCTTGCACTTATTTGCCACGCAGGGTTATGCCGAGACCAACGTTCCGTCAATTGCTAAGGCTGCTCAGGTCGGGGTGGGCACGGTTTACCGCTACTTCAAGAATAAAGACAGCATTTTGAACCATCTCTTCCAGAAGGTCCTGGCCGTTTTTCTCTCTGAAATTCAGGAAGCAGTGGATGAGCATGCAGATATTCAGGCCCAGTTCAGCCAGTTGTTCGATGCTTCAGCCGGGTTGATGCTGAACTACACACCTGAACTGCAATTCATGAATCTCAATGTTTTTAATGAGGTCTTGGATGACGATAGCCGGGCTGCCAGAGCAAAAGTGATCACGTATTACACTGATTTTCTCCAGCACGGTCAAGACGCGCACATTTTTGTGCACAGCAGTCCAGATGTTCAGCTGGTTCTGCTGTATGGCAGCGTGCAGACGATGGTCAGTTTCCTTTGGGCGAAACATCGCTTTGCTAAAATTCCGCCGGCAGACACGCGGAATATTCGGCAGTTGAAGAATCAATTATGGAACGCACTCACTGTGGAGAGGAAGATTTTTGTTGAAGAAGTTTAG
>SRR1151209_00850 phosphoglycerol transferase
ATGAGAAAAAGGCTTTATCAGTTCTGCTACGGGCTCATTGCGGTGGGCGGCGGACTGGTGATTTACCTCGGCGTCCTCTTATTAAGCCGAGCTTACGCATATTACGCCTGGGAGCCTGGGCAGAAAGCCGTGATCTGGTTTGGCCTGCACGCCGGGAACGCCGTCGTGCAGCTGATGATCCCGGTGCTGTTTGTGTTAGCCGGTTTTGTCAGTGCCCGCAAACGCGGATCATTGGCCTGGCCGCTCCAAATCTGGCTGCGCACGGTGAGTACCTTGATCCTCGGCACTGCCGCTGTTTTCATTGGTTTGAAACAACTCACGCTGCCGGCCATGCATAGCAGTTTCCTGCCCCTGACCCGCGGTGTCAGTGCTGTGTTCACGGGCTTTATTATCAGCTTGATCGTGCAACCGCTTTTCTACCGGCTACTGGAAAGGTTCGGTCCGTGGCCCGGCTGGCTCTTAACGGCCGCGACGCTGGTCGGCGGGTCGATTTTAACTCCGGCCCAAGCGGATTATGCCAGTTTTCGGATGCTGCCGCTGATGGTCGGGCTGTTTCTATTCGGCCTGGTCCTCCAGCGCAGCCGCTTTAATCAGCTGAGCAGCGGCATGGCGGCCCTGCTTGGCACGGCGACCCTGCTTGTCACCTGGGCCAGCCAGGCCGGTTCGGGCAAGTTGTCCCTGTATTACGAAGGGGATTACCGGTTTATGGATCAGTTGGCCGGACCGTTCAGTCTGCCGGTGGTCTTGACTGCGGCGGCGCTGGTCGTTCTGATTACCCGCTGGTTTAATGAAAAACAAAGCCAAAACTTGATTACCATGCTGGTCATCAGTTTCACTGTGGCCCAATCGCCGTTCATCGGGCAGACCTTGATGGCCCCGGCGATGCAGGCCACTGGCAATAACTTGGTGAACTTTGGTCTGTTGTCGATTGGCCTCGCCCTGATGCTGAGTTTGGCTGCCTGGGCCTGGACGATTTTTAGCGGCTGGCTGTTTCGCCGGTCGTTGGCGGTTCTCGATACGCGCTTGGCCTTCACCGCCACCGGCGACTACCGGACGGGCCTGCCGGCTCTGGGCCGGGCGATCATTGCTTGGCTGCGCCGCAACTGGCCGCCCATCATGCTGGTGGCGGTGTTCTACCTGACCGTTTTTGCTTCCTTCCTGGCCATGTCGCCCAACGGCAAGATTTCCATGGGGCTGAAGGGGGAGACCCAGCCGATTTTGAGTTATTTGCTGGTGGACGGACAGAAGTCCATCGTCTACACCAGCCTCTTTCTCATCGCTGCGTTCTTCATCCTGTACGTCCTGACGACCCGCTTCTGGGTCAGCTTTCTCCTCACCGAAACGATCTACGCCGTCTGGACCGTGGCCAACGCCATCAAGATGGTCTACCGCTCGGCGCCGATCACCCCGGCGGACCTGCACGAGTTGACCGCGCTGCCGGAGTTGATGGCGATGCTGGGCAAGCACACCGTGTGGTGGGTCCTCCTCGGGCTGGCGGTGCTGATCACCGTGATCGTGGTGTTAGAAAGAAAGCTGCCGCGGAAGATCCGCGTCAATTGGGGCGTGCGCATCGGCGGCGTGATCCTCGGGTTCGTGCTGCTCCTATCTCCGGCCACCGCCAATTCGCCGACTTCCTATTCCCGGTTGTTCAACTCGGCGATGGGCAACGGCCAAGACGTGATCACGCCGCTCAAGGGCGTCCAGCGCAGCGGCCCGCTGCTGCAATTCGTTAATGCCGTGGATATTCAGGTGATGGACAAGCCCAAGGGCTATTCCGAAAGCCGGATCCAGGCGATTCTCGCCAAGTACGCGCGGCGGGCCAAGGCAATCAACCAGACCCGGACGACGAAGATTGGCGATCAGACCGTGATTTTCAACCTGAGCGAAAGCTTCACCGATCCCAAGCAGTTTCCCGATGTCAAAGTCGGCGGGGCAGATCCCATGCCTTATATTCGCCAGCTGACCAGTGAGACCACCGGTGGGCACATGCTGAGTGCGGGCTATGGCGGCGGGACGGCGAACATGGAATACGAGGCGTTGACCGGACTAGTGATGGGCAACTTCTCGGCGAATGTGACACCTTTTTCCCAAGTGATTCCCCGAGATACCAAGGTGGCGTCGTTCAATCAGAATTTCCCATACTCCGCGGCGATTCACCCATACAACGGCACGTTCTACAATCGGCCCCAGGTCTATAACAAGATGGGTATCGACAAGTATTCTTATCTCGGCAGCAAGTACCCCATCACGAATCAGAGCAAGATCCAGAAGAGTCCGTACCTGTCGGATAACACCGCGTATGCCAATGCGCTGAATCAGATCAACGCGAAGCAGAGCGGGCAGTTCATTGAACTGGTCACGATGCAGAATCATATGCCTTACGACAGCTACTATTACCCGAATAATCCATACCAGGGCAAGGTGACCGGGGCGGCGTTGAAAGAGCAGAGCATCGCGGACGCCTTTGCGACGTTTACTTACGGTATCAGTCAGACGGATCAGGCGGTGGCGAAATTCATCAAAGCCCTGGATCAGATCAAGAAACCAGTGACAGTGGTCTTCTATGGTGATCACTTCCCGGGGATCGTGAACAACAAGTATCTGACCCTGCGCCCGGTGCGAATGCATGCCACGACGTTCTTCATCTACTCGAATAAAGCCAGCAAAGCCCACAACACAAAATTGAAGAATACCAATTATGTGGGCACGAACGACTTTATTCCGCTGGTGCTGAAACATCTTAATGCGCAGGTGTCCCCGTATGAAGCACTGCTCACCGACGTGGACCACGATCTGCCAATCATGTCCATGCCGCCTAATCAAAAGAAAAACAAAGCGGGCAAGGTCAAGACCAGCCCGGCTTGGGTAGGCGACGATGGTGATTGGTACAACGTGAAGAAGATGACGGCCAAGCAGAAACAGCTCTACGCCGATTATCGGATGATTCAATACGATATCACTGCGGGGCGGCAATATGCCTTGCAGGATAAAGCGTTTATGACGAATCCGGGGAAGAAATAA
>SRR1151209_00851 hypothetical protein
ATGGAGAAAAAGGATCATTATCGGTTATACAAGTCCGGGAAACGCTGGTTGGCCGCTCTGGTTGTGACCGTTGCTGCGGGGGCAGTGCTGACCACAGCAGGGCCGACCGTTCAGGCGGCTGGCACAGACGACGCCGCTAAGGTCACTGCGGCCGAGCCGGCATCCTGGGAAACTCAGTTGGCGGCGTTGAAGAGCGCGGTTGCTGCAGGTAATTGGGGTAATTTGACTGTTAACAACCAGACAGTATCTGCTGTTTTGGCGGGTGTCACGGATGAGGCAAGTTTTAACAGTGTCTGGAGCGAAGTCGCCCAGACGATCATCAGCAATACCGTGGCTAGCAAGTTTGCCAAGCCTGCCGACCAAACAGCATTCATTCAAGCCCAATCTACCAATGCGCAATATGCAGGCAAGACAAACGCCGAAGTGCTGAGCGAAATCATCCAGTCCGGTGCCGCTGCGCCTGACTTTGGCGCTGTTCTGAATCACTTGATTACATACACAACAACGGAGGCTGATCAATTCCAACCCGCTACTGATGATCCGGTGAAGACGAACAAAAACAACCTCACCGCGTTCTTGCAAGCCAACAGCAAAATTGGACAGCTGCTTGTAGAAAAGAAAGATGGCACCACAACGACGGTGACCGCAATAGTCGCCCAAGCTGCAGACGCGGATAGTCTAGCCCAAGCCTGGTCAGCGGTTGCCCAGGCCGTAATCACGAATGAAATGCAAGCTAAGCTGAACCTGCCGGATACGACATCTGCGGCCAGTCGAAATACAATGAGTAAACTGCTGGCGGCTAAAGCAAATGGCGCCACGGTAGCGAATAATCAGGTTTTGGCCAACGTAGTCGCGGCCAACACACCATCAACGGAGAATCCGGAATTGAATGTCGCCACGGCGATGGGGAATATTTGCGAGGCAGTTGATAGTGCCGTTGCTAATACTCAGCTCGCTGCTGATTGGCAAGAAAACAAGGATAGCCTGCTGGCATTTTTGCAGAGCAGTAATCTAGGGTCATTAACCGCCCCGACTGCGGGCGGATCATTAACGGCTTTGGTAAATGGTGTTCAGGACACCGCTGGCTTGACTAAAGCATGGGGGGAAACGGCCCAGGCAGTTTTGATCAATGAAATGCAGACAAAACTGGGTCTTGCTGATACAACATCTGTAGCAAGCCGCAGCAAACTTGCTGATTTGCTGAATACTAAATCTAGCGACACCCATTATTCCGGTGACACTAATGGCGATGTGTTTGAAAAAGTCATTGCAGCCAACACGCCGTCTGCAGCCAATCCGACGCCTAACTTTGCAACGCTGGTCACCAGCTTGAGGAGTTACGTGACTGATGCAGTGAAGGCCGAAAATCTTACTGGCCAAAGCCAAGTCGTCATCCGCGACTGGGCTAATGGCGTGATTATCAATCAGCGCTCGACCTCGGTCACAAGCGGACAGACGATTCCGCTTTACGCTGCCGCGCATGATGGACTCAGCTTCGACTCGGTGAAGATTGACGGTGTGACCCAAAGCACCACGAACGGGACATTGAATTTCTCCCGGACGTTCAGCCAAAGCACGACGTACTACGTGGATTATTACTTCATAAAGTCTACCGGGTATACTGAAAAGGATGCTCGGGGCACGGTGTATATCAAGAACACTAACGGTGCTGCTCTTTACAGCAACATGAACATGACGGCACAGATCACCGATCGCAATCTGAAACAAGGGACGGCGTGGGCTTCCTATAAGAAGGTCTATGATGCCCAAGGCAATGTGGTCGGCTACAACCTGGGCGGGCAGCAGTACGTCAAGGCTAGTGATGTGCAAGAAACACCGATTGGCGATGTGACGACTCAGACTTTCAATGGCGTGGTCAGTGTGATCAATCCGTGGACCCCGGTCTATTCGGACAGTGCGATGACCAAGCAGATCAATAACTGGACCTGGGATGCCGGGACGTGCTGGCAGGTTTTCCAGAAGGTCTTTATTGACGGCAAACTCGCCGGCTATAATCTGGGCGGGCAGCAGTTCATCAAGGCCAATGCCGTGCAAGAAAGCACGACCCCGTCGACGCCGCAGCAGCAGATTATTCCTAACAGCGGCGTCGTCAGCATCATTTCGCCCTATGGTGCGCGGGTATACAGTGACGCGGCCATGACCAAGGATACTGGTCGGGTATTGCCCCAGGGCGCCCGCTACCAGTACAACAACGAAGTCTACACGAAGGGCCAGCTCACCGCGTTCAATGTGGGCGGCAATCAATTCATCAGTGTTGCTGACATTGCGACCCAAATTCCGCTTTACGGTGGTTCTGGCACCTTCACGGTCCGCTACCCGGCGAATCCGCGCTGGGGTGTGGCGGTCTTGGACAGCAATCTGCAAGTTCTGAAGATCATCCCCGCCGGCACGCACTGGCGCTCTTACGGGATCGGCATTCTCAGCGATGGCCGGACCTATTACAGTCTCGGCGGCAACCAATGGGTACCGACGGATTACGGCTTCGTGCAGTAA
>SRR1151209_00852 hypothetical protein
ATGTTCAAAATGGGTAATCAGAATCGTTATGACCAAGATATTAAGCTGCATTACAGGATGTACAAAGCCGGTAAGCGCTGGATCGTGGCCGGTGTCGCGGTGATGAGCTTCAGTTTGGTCCTGGCGGGCAAACCGCAATTTGTCCAGGCGGCGGTTGCCGAACCGCAGACGACGAGTGAAGTGGCAGCCAAGGCGAAAGCAGACCAGCAATCTGGTATTGCAGCAAACGCCGCAACCAAAACGGCGGCACCGGTCAGTCAAGCGTAA
>SRR1151209_00853 beta-galactosidase
GTGACAGAACGGGTGCTTTCTATCGATGGCTTTCTTCATGGGGGCGACTATAACCCAGAGCAATGGCAAGCAATGCCAGAAATTCTGGAAAGGGATATTGCACTCATGCAGGAGGCCCACATTAACACTGTGACGGTTGGGATGTTTTCTTGGGCGGCACTGGAACCCCAAGAAGGCGACTACCACTTTGAATGGTTGGATCAGGTCTTTGATCGGATTGAGGCCATCGGCGGTCACGTTATCCTGGCTACCCCCAGCGGTGCAAGGCCGGCCTGGATGGCTAAGAAATATCCAGAAGTGTTACGGACTGATGAGTACGGGCACCATCTTGAATTCGGTGAGCGGCATAATCACTGTTTCACCTCGCCGATTTACCGGGCAAAGGTGGCGCAAATTAACCGACTGCTGGCTGAGCGTTATGGTCAGCGGCAGGGCTTACTGCTTTGGCATGTCTCGAATGAATACGGCGGCGAGTGTCACTGTGCCTTGTGCCGTGCTGCATTTCAAGATTGGCTGAAGGCCCGCTATGGCACGTTGGGCAAGTTGAATACCGCTTGGAACACCGCGTTTTGGAGCCATACGTACGACACGTGGAATGAAATTATTCCGCCGTCACCTACTTCGGATAGTACCTTAAATGGGTTGAATCTCGACTGGCGGCGGTTCGTGAGTGATCAGACGATGGCCTTTTACCAAAATGAGATTGGCCCGCTACGGGCAATTACACCCGATGTACCAATTACGACAAATTTCATGGCAGATACAGCAGATATGCTGCCCTTTCATGGTTTGGATTATCAAAAATTTGCCAAGCAAGTCGACGTAGTGAGTTGGGATTGCTATCCGCAATGGCACAACGACCAAGAGAGTGATGCGGTCATGGCGATGAAGGTATCCATGATCAACAATTACTACTATCATCTGAAAAATCAGCCCTTCTTGATTATGGAGTCGACACCAAGCCAAGTTAATTGGCATCCGTTTAATCGGGCCAAACGGCCAGGAATGCATGAGCTATCGTCGTTGCAATTGGTGAGCGAGGGAGCTGACAGTGTGCTCTATTTCCAGTTGCGCCAGTCCCGGGGAGCGTCGGAGCAGTTCCATGGCGCAGTGATTGGGCATGATGGCAGCGACCAGAACCGGGTGTTTCAAGCGGTAACGAAGGTTGGGGCGGACTTACAGCAGCTGCAGCCTGTAGTGCATGCCAGTAAGGTTCCTGGACGGATTGCAATTGTGTACAATCAGGAAAGTAATTGGGCATTGGACGACGCCAAAGATTTCGCCCAATCGACTAAACGGTATTGGCAAACTCTTCAGGACCACTATGCGTATTTCTGGATGCGCAACATCCCGGTGGACGTAGTGACCACGGACGCGGATTTGAACGCATACCAGATGGTTATTGACCCCATGCATTATATGATGTCTGAGGCGTGGATGACTAAGCTGAAGGCGTATGTTCAGGGCGGCGGTACTGTTGTCGGCACCTATCTGTCGGGGATTGTGGATAAGCGAACGTTGGCCTATTTAGGCGGCTGGCCAAAACCATTGCAGGACATTTATGGATTGAAAGTATTGGAGACGGATACGCTATACCCCAAACAGAAAAATGGCACGGTACTCAATGATCAGTTGTTTGTATTCAAGGATTACTGCGCAGTAGTCAAGGATCAGGGGGCCACGACACTAGTCCAATATACTAAGGACTTTTATGCAGATACACCGGCCGTTACCCGGAATAAATTTGGTCAAGGGACAAGTTATTTTCAAGCAGCCCGCGGCGGTGCCGATTTCTTAACGGCATTCTACGATCGAGTGCTCGCTGAAGTCGGTATTGATACTGAACACTTGGTGAAAGCTGATCAGGGCGTGTCAGTTCAACAACGGCAGAGTGGGGATAAGCTATTTACTTTCGTTATGAATTTTACTCAGGCAGAGGCAACTTACCAATTACAACAAACAAGCACGGACTTGTTAGGCCAGAAAACACTCCCACCGGGGGATCATAGATTGCCCGGGTATGGCGTGGCGGTTTTCCAAAGTGATAGAAAATGA
>SRR1151209_00854 sugar ABC transporter permease protein
ATGAAGAAAAGTATTGCCAAAGGTCGCATCATTCGTCTGACGGTGACCTACGCCATCTTGATTCTTGTGTCCCTAATCATTCTGTATCCCTTGGCTTGGACAATTGGGGCAAGCTTTAATCCGGGCAACTCATTGGTCAGTACATCACTGATTCCAAAGAACCCGACGCTCAGCCATTATGTCGAGTTGTCGAAGACAAGTGCGACCTTCTACTACTTTCAATGGTTTCTCAATTCACTGAAGATTAGCTTGATTACGATGGTTCTATCAGTGTTTCTTGTTTCAATTACGGCCTATGCCTTTTCCCGCTTTGATTTTCACGGCAGAAAAAACGGTTTGGTGATGTTCTTACTGCTGCAAATGATTCCGCAGTTTTCTGCCTTGATCGCGATCTTTGTTTTAGCCCAGATGCTGCATTTGGTCAACAGCCACATTCTGTTGATCCTCATTTACACTGGCGGTATGATTCCCATGAATACGTACTTGATGAAAGGCTACTTCGACTCTATTCCCAAGGACTTGGATGAAAGTGCCAAAATCGACGGTGCCAGCAACTCCCGAATCTTCTGGCAGATTCTGATGCCCTTGGCTAAGCCGATGCTGGCCGTTGTGGCGATGAACGGCTTCACGGGACCATTAGGGGACTTTGCAATATCTTCCGTTGTTTTGCGGGAACCGAAATCTTATACGCTGCCGATTGGCTTGTATAATTTGATTTCTGACAAAATGGGGGCCAGCTATACGACGTTCGCGGCGGGTGCAATTCTGATCAGCATTCCCATCGCAGTAGTCTTTGTACTGTTACAAAAGAACTTCGTAACAGGCTTAACACAAGGAGGAACAAAAGGGTGA
>SRR1151209_00855 sugar ABC transporter permease protein
ATGACCGTGCAAACTGTTTCTGCACCACCTAAGACCCGTCACGCCCGAACGGCGGCACTGCTATCAATCATTCCGGGCGTCGGGCAACTGTATAATCGACAGATCATTAAGGGCATTTTCTTCCTCGTGGTTACAGGTCTTTACGTGGTTGGCTTTGCTGACCTGTTCAATATGGGCTTTTGGGGATTAATCACCTTAGGGGTTGAAGTGCCCCGGGATAATTCGGTTTTCTTACTCGCTGAGGGCTTGGTCGCTGTCATTGTCGCCGCAATCGGTTTGTTCTTCTACGGGGTGAATATTCGCGATGCCCACCAAATCGGCAAAGAGCGTGATCAAGGGGCTGCGGTACCAAGCTTTCGGGAGAGTTTTTCCAATTTAATTCATCGGGATTATCCCTACGTGATTATCAGTCCAGGTATTCTTCTGCTTTTGTTCACTGTTGTTTTTCCGATTTTATTCAGCTTCGCGCTCGCTTTTACGAATTATGATTTGTACCATACCGCTCCGGCACATCTGGCCAGCTGGGTCGGATTGGAAACTTTTAAGAAGATTTTTACCGTCGATATTTGGCGGTCCACATTCATCGATGTCCTCGGTTGGACGGTGATCTGGACGGTGGTGGCCTCCACACTTTCCGTTACCATCGGGATTTTAATGGCCGTGCTGGTTCACCAAAAGGATCTGCGCTTCAAGAAACTATGGCGTACGATTTTGATTCTGCCGTGGGCCGTACCGGGGTTTGTGACCATCTTGGTGTTTGCCGGACTGTTTAATGACAGTTTTGGAGCCATCAACAACAGCCTGCTGGCATCCCTGGGAATTCACAGCATTCCCTGGCTGACGAATGCTAATTGGACCAAGGTGGCGCTGCTCTTCACACAAAGCTGGTTAGGCTTCCCGTACATTTTTGTAGTGACCACGGGTATTCTGCAATCAATTCCAGAAGACTTGTACGAAGCCGCTATTTTAGATGGGGCGACGGCGTTCCAGAAGTTTCGCAGCATTACTCTGCCGTTTATCCTCAGCCAAATGGCACCGATCATCATTACCCAATACACGTTCAACTTCAATAATTTCAACATCATCTATCTATTCAACGCCGGAGGCCCGGCAGTTCCTGGATCAACGGCCGGTGGGACGGATATTCTGGTGTCGTGGATTTATAAGTTGACGATGCGGTCCAGCCAGTATGCACTGGCAGCGGCATTAACCATTATGTTGTCTGTTGTGGTAATTGGTATTGCACTCTGGCAATTTAAACGCACGAATTCATTCAAGGAGGGTTAA
>SRR1151209_00856 sugar ABC transporter substrate-binding protein
ATGAAAGGATTCAAATTTGCTGCATTAGCGACCACTGCAGCTGCGGCGGTACTGTTATTAGCTGGATGCGGCCCCCAAGGGTCTAACTCTGCAGGCAGTAGTCAAGATACAGGGAAAACTAAGCAGCTCGTTGTATGGCAGGATAAGAATAAGGCCAAGGGCAACACGGCGGCATTCAAAGCGTTCGAAAAGGCCAACAATATCAAGATCAAAGTAGTTGAGAAAACCTATGCCAATCAACTGGAAGACTTGCGATTGGACGGGCCGGCTGGTACTGGGCCAGATGTTCTGGCGGTTCCAGGAGATCAAATTGGGACTGGTGTGACTGAGGGCCTGCTTAAGCCATTGAGTGTCTCAAGTTCGTTGAAGAGTTCCTTCACGCCCTCAGCAATCAACACCCTCACTTTGAAAGGTAAGACGTACGGGTTGCCCTACGCAGTAGAAAGTACAATCCTTTTCTACAATAAAGACCTGGTTAAGCCAGCTGATTTGCCCAAGACAATGGATGAATGGTACGCCCTGTCCAAGAAGATGACTAAGAACGGTAATTATGGGCTGCTCGCCTTGTGGGATCAGCTGTACTATGCCATCAGTGTTATTCAACCCTACGGTGGTTACGTTTTTGGGCAGGATAGCAAAGGTAATTATAAGCCCACTGATATTGGCTTGGCGAATGCCGGGGCCATCAAAGCCGTTGATTACATGGGCAAGTTCTACAAAGAAGGGCTATTCCCTAAAGGAATTATCGGGGATAAGGGCACCGATACTTTGGACTCTCTATTTACTGAAGGCAAGGCAGCCGCTGTGATTTCCGGTCCCTGGAACTTCGAGCCCTACACGAAGGCCAAGGTAAATTATGGTGTCGTACAGTTACCGATGCTGGCGAATGGCAAGCACATGTCCTCCTTTATCGGTGTGAAATCATACTCAGTTAGCGCCTATTCCAAGAACGCAGCCATGGCTGAAAAATTGGTTAAATTCTTGGCGAACGAAAAGAACAGTAAAACTCGCTATGAGATTACTCAGGAAATTCCGGCGGTCAAAGCTGTTGTTGACAGTACGGCAGTGACGAAAAATGAAAAGGCGACCGCCGTTGCTGAACAATCCAAGTATGCCAAACCGACACCTAATATTACTGAAACGAACCAAGTTTGGGATCCGACCAACTCTGCGCTGCAAGTTGTGGCTAACGGCAAACAAAATGCTCAACAGGCAATGACTCAAGCAGTCAGCACCATTAAGTCGGCGATCAAAGCAGCTAAGAAATAA
>SRR1151209_00857 LacI family transcriptional regulator
ATGGCGACAATTAAGCAGATTGCCCAAGCGGCGGGATTCTCTCCCACCACCGTTTCCCGAATTTTGAACAACGACAACTCATTATCCGTTACTCAAGAAACCCGCGAAAAAGTTTTGCAAGCAGCCAACTCGCTAGGTTACGGCCGCGACCAGATTCCCCGGGTGCCCTATCGCGTGGCAGTCTTTTTTTGGATCACAGCGCAAGAAGAACTCGACGATGTGTACTTCAATACCTTGAAACGATCGCTGCAGTTCTACGGAAAAACGTATGGTTTATCCTTGGAGTTTTTTGAAAAAGGGCAGTTAGATGCTGCCCAAGTTGCCGACTTTGATGGCTTTATCGCAGTTGGCGCATTTAATCAGACTGAGCGGGCCATCTTGGAACAAATTTCTAATAATGGTGTCTTCATTGATTCGAACCCCCGCATCGGCCACTTTAATTCTGTTCAGCCGGACTTTGAACAAATCATTTCTGAAGCGCTGGCGCTCTGTCAAACCGCTGGAATGACAAAAGTCGGTTTCATCGGCGGACAATATTTGAATCCAGATACTAATCAATTTGAGCCCGACAGTCGGGAAAACATCTTTCGCAACTATGCCTCACGGGCTGGCCTGCTGGATGAAAAACTGATCCATGCTCACGATAGTTTTTCGGTGACCACCGGACAGGTGCTGGGTAAACAAATTGCCGAAAATACATCGGCTTGTCCCTTGCCCAATGCCTTCATTGTCGCCGCCGATCCCATTGCTGTGGGTGTTTTACAGGCTTTCTCTGCCGCAGGTATTCTCGTGCCGCGGGATACAAGTCTCTTGAGCATCAATAATATTCAAATGGCTAAATACACCTCACCGCCCCTGAGTACATTTGCGATCAATCAAGACGAACTTTGTCGGGCGGCTTTGGCCCGACTCATTGACATCATGGAAAATCCCGAAAAACAAATTTATCAGCGCACCTTGGTGAGTGCCTACTTGGTTGCTCGCGGCAGTTTTGTTATTAATCAAGCAAACTAA
>SRR1151209_00858 transcriptional regulator/sugar kinase NagC
ATGCAAAGATACGTTAGCTTCGATGTTGGCGGAACAACGGTCAAACATGCCTTAGTGGACGATCAGGGAAACATTTCCAACAAGCAAGCATTTGAAACTATTGATAGTGCTGATGAGTTACTCAGCCAGATGATTGGGATTATTAACAAGGCAAAAACAAAAGAAACGATTTCAGGAGTTGGAATATCCGTACCTGGAATTGTCAGGGATGATGGATACATGATTACGGGTGGGGCCATCAAATCCTTGAACGATTATCCATTGGCACAAACACTGGAACGTGAAACGGGATTGCCAGTTGCAGTAGAAAATGATGCCAATGCTGCTGCAATTGCCGAACACTGGTTGGGGGCTGCGCAAGGTGTAGGAACGTACCTAACGGTTGTTTTGGGAACTGGTGTAGGCGGTGGTATCGTCATTGATGGAAAAGTCTACCGTGGCGCACATGGCATGGCTGGAGAATTTGGGTGGAACATTATACATGACATTGATCCAACCTGTGAATTGGAGCATTTTTCCTTAAATTGGCATGCATCGGTCGTTACAGGACTTGTTGATCGATTCAACAAGAGTGTTATCCAGGCATTTCCAAATACGGAAAAGGTGGAGGATGCTCAAATTATTCTCAAACTTGCCGCCGATGGTGATCCAATTGCTGGAATTGCAGTGTCTGATTTTCTGCGCGATGTTAGTATTATGATTATTAATTTATTTGCTAACTTTGATCCAGAAAAAATTTTAATTGGCGGGGGAATTAGTGCCAACGACGGATTTATGCACACGCTGCAGGATACAGTCGATGAATATATCACGCGGCACGAAAGCCTTAATCGCATTCGAGATACTGCACTGGGCCACATCGAAACAGCAAAATTACGGAATGATGCCGGATTGATTGGTGCGGCATACCGGATCAAACAAAAGCTTTAA
>SRR1151209_00859 ribose operon repressor
GTGAGTGACGTGGCCAAAAGGAATACGATTAAAGATGTAGCTCGGCGAGCCAACGTCTCGATTGCGACAGTCTCTAAAGCGCTAAATAATGTAAACGTTGTTAAGCCTGAGACAAAAGCACGAGTCATTCAAGCGGCTAAGGATCTGAACTACGCCCCTAATTTGATGGGCCGGCAATTGCGGTCGGGTACGACTAAAATGCTCGGCTTATTTACAGACAGCGTTAGCGGCCCCTATTTCTATACGTTGGTCGAGGCAATCTCTCACGAAGTCGCTCGTCTGGGTTATGGCATGCACGTCGTTATTACACATGATCATCAAGCGCTGATGGACTCAGTACTGGGTGGGATTGTGGATGGCACAATCATTTTTGAGCATACGATTGATGACCATGATATTGGGCAAATTAAGGAGCATTCGATTCCTACGGTTTTGCTTGATCGAGTTGATTCAGCTGAAAAAATGTGCAGCATTACCTTTGATTCGTTTAAAGAGGGTTATGAAGCAGGAAAATATTTACTGAATTTGGGTCATCAAAGGATCTGCTACGTTGCCGGTCTGGATAATAATTACGACAGCAACATGCGGAAGGCCGGATTTCAGAAGGCTGTTGAGGACGCAGGCTTGGACCCCAATACGATGCCTATTCTTCAAGGAATGTTTGAGGAAGAAGCGTCCTATAATGCTGTAAAGTCGTATCTGAATAAGACAGAGAATCTAGTTACCGCATTTTTAGCCAGTAACGATTTAGGAGCGATTGGGACCATCAAAGCTATTCAGAATGCGGGCTACCAAGTACCCAATGATTTTAGTGTTATTGGTTTTGATGATATTGACGTCGCTCAATATTTCAGGCCACCAATTACAACTGTGCGTAATCCAATTGCACGTCAAGGCATAATGGCCGTTCGACTGCTGATCAACATGCTCAATGGTGGTGATGGCGGTAAGGAAGAAAGATTAGAAGGTAAGTTGATTATTCGCGAGTCAACATCTTTACCACGAAAAAAATAG
>SRR1151209_00860 hypothetical protein
ATGATCCGGATTGACAGTAAGTTCTATCACGGGCTGGAATCGATTTATCGATTGCTCGTACTGAATGCCCTGTTAGTGCTCTTCAGTATACCCGTGGTGACCATTGGTGCTTCACTCAGTGCATTCTTTGCAGTGTTGCGTGAAGACCAGCCCCGAGGGTTTATCCGTGGATTCGTCAGAGCCTTTCGGCAAAACTTCTTTAAGACTTTATTGCCTTTGGGATTTTCGCTAATGTCGATTGTGTTTACCATTTCACTCTATCTGAGTGGTGGGAGCCAAAGTGGGTTCTTCTGGTTTCTGCGCATTATCTTCACCAGCTTTCTGGTGTGTTTCAATCTGAATGTATACCTGTTGCAGAGTCAGTTTCGGACAAAGCATGCATATGCATTGCTCCGTTCCAGCTTCTTCTTCACGGTACTTACATTCATGCGTACCGTCCTATATCCGCTCGGAATTACGTTCTTGGCTTGGTTAACAGTTAAATATTTAGGAGACTTCCTGATTGTCATTATCTTGGCTGCGGCCTTGGCAATATACCTGCGGCTGGTAAAGAAGCCGTTAACACGATTCCTGGATTTAGGGTTTGGAAAAGCAGTAGGGAATTAA
>SRR1151209_00861 hypothetical protein
ATGAAGATGAAGAAGGTATTAGTTGCGTTAGCAGCCGGGTTGGTTTGTGCTATGACGCTGACTGCTTGTGGTAATAGTAATAGTTCAAGCAATGCGGATAGTCTTCCCAAGGCACGGTTTACACCGAATAAAAAGGTGCCAAGCTGGCAGAAAGACACTAAACATTCTGCGTCCCTTACTTGGTATGTCAACTTTGACTGGTACAAACGTGCCGGTTGGGGAAAAGACACCGTTTCTGCGCAAATCAAGAAGGATATGAACATTGACGTGAAGTTTGTTGCCGGCAACGATGACAAACTAAACACGATGATGGCTTCCGGCAAGCTGCCCGATCTTGTGACTTTTGATCGTCAGCTGGCCGTGGCACAGAATGCAAAGAAATTTGCGTTACCATTGAATACTTTGTCCAAAAAGTATGATCCATACTTCCTTGCGACAGCAGCGAAACCGCAAACTGTGAAGTGGTATACGCAGCCGGATGGTAACCTTTACACTTATCCGAGTTTCTCGACAAATGAGGATGATTATAAGGCTGGGAACGTCGTGGCTGACCAAGTATTCATTGTCCGTAAGGATATCTATGAAAAAATTGGCAAACCCAATATGAGCACTCCTGAAGGCTTCTTGAAGGCACTGCAGGAAGCAAAAAAGGCTGTACCTAAGACTGATAATGGCACTGCTTTGGTTCCGTTTGCTTCTACTGCTCTAGATATTCAAAATGGTGGAGACGGAGCACTTGGCGGTACATTACAAGACTTCCTGCGCATTCCAGTTACTAAGGATGGCAAGTGGTATGATCGGGATGCCGATCCTGAATACCTCACATGGTTGGATACATTCCGTCAAGCATACTCAGAAGGATTAATTACCAACGCGCAATTTGCGGACAATGACAATACAATGAAGGAAAAGATGACGCAAGGTACGTACTTCGCCTATCTCCATTCCAACACTAAGGGATTGAACGAATTCATGGCCGACAACAACCGGCGCAATCCCAAGCAGACGTACATTGCCGTTGATGGTCCGAAAAACTCCAAAGGACAAGAACCGCAATTCACAGGTGGATCTATTTCAGGATGGACCAACACATTTATCACCAAAAACACCAAGGAACCACAAAAGGCAATGGAATTGTTGACTTATATGGCTTCCAAGTATGGCACGATGGTAACTACCTTTGGTGTTAAGGATAAGACGTACACCATGAAGGATGGCCAGGCAGTACTTACCCCAGACGTGGAAGCACTACGGAACAAGGACGCAGCAACCTATGATAAGAAACAAGGAATGGGCAGTTACTGGGAAGTAGCCGATGATCCTTACGCCATTTCAATGGGTGAGAAGCCAGCTACAACTATTTCCCAAATGGTTGAATGGGCGAGTAATAAGGTAGCACCCCGATTTGAAGTGGAGAATATTGATCCAACACCTGGGACGGCACTCGCACGTAATTTAACTGCTATCAACACAGATCGAGTGCAGACCTTGGTTAAGGTCATCAAGGCTGGTTCCAAGAGTGAAGCTGACAAGATCTGGAAAGACTTCCTGGCTCGTCGGAAGAATAACAACTGGGACGAAATTGTGAAAACACGTAACGAGCAAGTTGCAAAGAATATTAAGAAACTGAAGTAA
>SRR1151209_00862 sugar ABC transporter permease protein
ATGCGAAAAACTAAAGAAGAGAAGATCTTTAACTTTGTGAATTTAGTCTTCATGGTCTTCTTCACCATTATCATTGCGTTCCCGTTAATCAATATTGTTGCGCTGTCATTCAATGATCCATTGGATGCACTCAAGGGTGGAATCTTCCTGTGGCCAAGGAAGTTTACTTTTGAAAGCTACTCTACTGTTCTGGAGAACCACGCGATTTATCTTGCGTTTATTGTTTCGGTGTCGAAGACGATTGTGGGAATTGTGTTGCATACATTTGTAACCGCAATCACTGCATATGCTTTGACTCGGGAGGATCTGATTGGCCGTAAATGGTTTGAAATCATGGGTATTTTGACCATGTTCGTCAATGGTGGGATGATTCCGACATTCTTGGTGTTCAAGTCGTATGGTTTGCTGAACAACTTCTGGGTATATATCCTACCAGTATTATTCAGCTTCTATGATGTCATTATCATGATGAACTTCTTCCGTGGAATTCCACGCTCGTTAGAAGAATCGGCCGAAATTGACGGTGCAACGCCATTCACTGTATTTGCCAAAATTATCATTCCACTGTCATTGCCAGTTATTGCAACTATTGCGCTGTACCATGGCGTGTATCAGTGGAATGATTATATGACTGCGAATATCTACGTTAATAATGAAAACTTGTTCCCACTGCAGCAGCTTCTTTACAAGATCGTGTCTGAAAACTTATCGCCAACTGTTGCTACAGGGACAGCGGTGGTACGCCAGACCACATCGCAATCTATGCAGCTGGCAACAATGGTTATCACGACGATTCCGGTCGTTGCAGTTTACCCGTTCTTACAAAAGTACTTTGTTAGTGGATTGACGCTTGGGGCTGTCAAAAAGTAA
>SRR1151209_00863 ABC transporter permease protein
TTGGAAGACTCATCGACTACACACAAAAACAAGAAGCCAAGCTTCTTCCGTCGGTTCAAAGATCAAGCGTTCTATCAAGCTATGATTTGGCCATCAGTCATTTTGATGATTTTATTCAATTTCATCCCAATGTATGGCCTGATCATCGCATTCAAAAACTACACGGTGTTAGATACCATTGGTGGAGCACCGTGGGTAGGGTTTGAATATTTCCAAGAGTTCTTCAAAGATCCATTGTTCTGGACAGTTATGAAGAACACGTTTGGAATTGCGTTTTTCAAAATGCTGATTGGTTTTCCGGGAGCCATTATGCTGGCTGTCCTGATCAACGAAGTAGCTAACGTACATTTCAAAAAATTTGTTCAGACAATTTCGTATCTGCCGCACTTTCTATCATGGGTAATTCTCGGTGGAATGGTTATCATGTGGTTATCAGACACTGGTTTTCTGAACAGCCTGTTAATGGATCTCAAGGTGATCAGTAAACCCATCGAGTTTATGGCAGATCCAAATAAATACTGGGCAATTGCCGTATTGTCTGATTTCTGGAAAGAAGTTGGATGGGGAACAATTCTGTACCTTGCTTCTATGACCGCTATTGATCCGTCGCTGTATGAAGCAGCCAAGATTGATGGCGCGACCAAGTGGCAACAAATCATTCACATTACAATTCCCGGAATTCGTCAGATGATTGCATTGAACTTGATACTCTCCATCGGTGGGTTGTTGGGATCCAACTTGGATCAAACGTTGGTATTACAGAACTCTCTGAACTACGCGTCAAGCGAAGTGCTGAATTCTTACGTGTTCAAAATGGGTATTAAACAGGGCAACTTCTCATATGCTACAGCGGTCGGGATCTTTGTATCAGTCGTATCCTTAATCCTGATTGTTTTGAGCAGATGGGGTACTAGAAAGATTTCTGATAAGAGTGTGTTCTAA
>SRR1151209_00864 beta-glucosidase
TTGGAGAAGAGGGAGCTCCAGAGCCTAGTCGACAAGATGTCGTTGAAAGAGAAAATCGGTCAGCTGACGCAGTTCACACCACAGTATTTGGGGCGTGAAGATGGTGAGCTGACAGGTATCATGGGCGATTTTGCTGTTGACCAAGTATATCTGGACAGCCTTGGATCAGTGCTGAACGCGACCGATCGGAATGAAGTTATTGCGATGCAACGCGAGCACTTGAAAAAGGATCGTTTGAAGATACCATTAGTTTTTATGCGCGATATTATCCATGGATATCGGACAACGTTTCCTATTCCGTTAGGGTTAGGGGCGACGTTTGACCCCCAACTTGTTGAAGAAGTGTCTCATGTTGCCGGTACTGAATCAGCTCGAGAGGGAATTCAGGTGACGTTTTCGCCCATGGCTGATTTATGCCGTGATGCGCGTTGGGGCCGTGTCATGGAAGGCACCGGTGAGGATCCAGTCCTTAACGCGCAGATGGCAGCGGCGATGGTTCGTGGCTACCAGGGCGCACCCGGAGAGCTAGTTAAAGATCCAACGCGTATCGCTGCTTGTGTTAAGCATTATGCCGGTTATGGTGCGGTACTGGCCGGGAGAGATTACAATAATGTTGATTTTTCACGGCTATCATTGTATCAAGACTATCTGCCTGCGTTTCAGGCAGCCATAGAGGCTGGGGCCAAGCTGATTATGCCAGCATTTACCTTATTTGAGGGACTGCCTGCTACCGCAAGCGAATATCTCTTGAAGAAGGTATTGCGCGAGTATTTGAAATTTGACGGCGTGGCCATTTCTGACTGGGGTTCAGTTGGAAAACTCCTCACGATGCATATTGCCGACAGCCAGGAACGTGCATCAGAGCTGGCTCTAAACGCTGGATTGGATATGGACATGATGGCTGGAGCGTTTGTCCGTGGTTTGTCTGATGCTGTTGCGGCTAAGAAAGTTGCTGTAGAAGATGTGGACCGAGCAGTGTTACGGATGTTGAATCTGAAAAATGATTTAGGCCTGTTTGAAAACCCGTATCGATTTATTGATGCACACGAAACACTGCCCCCGGCACCTAGTTCTGAATCACGCCGATATGCGAGAGTCGCAGCAGAGAAAAGTGTTGTTTTACTAAAAGATAAAAACGTTTTACCAATTTCAGTAAAATCGCACATTGCAGTGACTGGGCCATTGGCTGCGTCACAGAGGATACTAGGCGCTTGGAGTTCATATGGGAAGCATGATGACGCAGTCTCACTGTATGCGGGATTAAAAAACCAGTTTGAGAATGTTAGTTTGATACCTGATCCAATTTCAAGCGATCCTGCGGATTATGCCAATTTTGATGTCATAATCGTTGGGCTCGGAGAACGAGAGGACGACTCAGGAGAATCAGCATGCAAGACTCGTATTGAATTGCCGGAGGATCAGGTGGCATTGATTAGGCGGTTACAGCACACTGGCAAACCGATTATCGGCGTCATTTTTGCCGGACGGCCGCTTGCGTTGACGAATGTCGTTCCCTATTTAGACGGGTTGCTTTATGCATGGTTTCCTGGCACAGAAGGTGGGAATGCCTTGGCCAACTTGATCAGTGGCAAAGCTGTTCCAGAGGGTCATTTACCGATGACATTTCCACGTACGACGGGCCAAGTGCCAATTTACTACAATGAACCACGTAATGGATCGCCGGCTGATGATCAGCATCCAACAAAATTTACTTCACGGTATGTTGATTGTCAGAACTCACCATTGTATCCGTTCGGTTACGGCTTATCTTATGGACATATTGAGTACGGTAAGCTGCAGGTTAATCAGCCGGTTTTGACTGATGATCAGCCAATCCAGATTACTGTCGCGGTAACTAACGATTCTGATTACCGATCATCGACTTTGGTTCAATGTTACGTAGGCTCTACCATTACTTCAGTTGTCCGTCCGGTCTCTGAGCTGAAGTCATGGGTCAAGGTTGTTTTGGAGCCAAATCAAACTGATCAAGTAACACTTACTATTTCAGTTGACGATCTGGCTTATGTTCATTCAAACTTGGAACGCTTTGCAGACAAAGGTGATTTCATCGTTCGAATTGGGGAAAACGCTGAAGAATATCAAGAGTTGACGCTTGCTTATCAGTAA
>SRR1151209_00865 membrane protein
TTGGCCCAAGCCGAGAGTACGGAGAAGCAGGCTGAGGCGCTGCCCAAGATGAACGAAGCTGGTAAGCTGCAAATGATCATTGATAAGCTGCCAGAGATTGCCACCGCGCTCACGGCACCGTATGCGAATGTCGATAAGATCGTCCAATTCAGCGGTGCCGGGGATGACAGCATTGGTAATGCGGGCGTGACGGGGCTAACCAAGACGTTTGCGATGGTTAAAGAAGCGACAGGAATCGATTTTGCAGAGCTGATTAATGGATCGCTGACCCAGCAGGCCGGGAATAAACAGTTAGTATCTGCAATCAAAGAGAATCGAGGAAAAACTCGCAGTACAGGTCACGACGCCGAGGAGACTGCTGCACACACGCACTAA
>SRR1151209_00866 membrane protein
ATGGTTGAAGAATTCATTGCTAATCCCGTCATTTGGGCCGTCGTCATTATTATCCTGTTGCTCTTCATCGTGGTTTCCCGCTACCGGAAGCCGTCGCCGGACAAAGCACTGATTATTTCCGGTGCACTGCTCGGCAGCAAGAACGTGTACAAGGATCCCAACGGGTCGAAGCGTATCAAGATCATCCAAGGCGGCGGGACATTTCTGATCCCGGTACTGCAATCGGCAAAGGAATTGAGCATGTCGTCCTTGCAGATCCAGATCGAAACGCCGGAAATCAACTCCCAGCAACAAGTTCCCATCGCCGTGACGGGGGCCGTGAACGTTAAGGTGGGCAACTCGCTGAAAGAGATCGCCACTGCGGCGGAGCAATTCCTGGGCAAAGAGAAACAGGAAATCATCAGTGAACTGACCGCCGTCCTGGAAGGCGGTACCCGGGACATCATTGGCCGGATGACGGTGGAGGAAATTCTGGGCAACCGGGAGAAGTTCTCACAGGAAGTCCAGGGTCAAGTGTCCGATTATATTGAAAATATGGGTTTCCAGATCATTTCGTTTACCTTGCAGGAAATCAAGGATTCTAATGGCTACATTGAGAGCTTAGGCAAACCTCAGATTGCAACAGTCCGGCAGGAAGCCCAGATCGCCGAGGCCAATGCCGATCGGGAAGTGCGGATCAAGAAAGCCAGTGCTGAGCAGGAAGCCACGAAGGCCGAACTGGAGCGGGAGACCGAGATTGCGGACGCCCAGAAGGAAAAGTCCTTGAAGATGGCCGACTACCAGAAACAACAGGAAGTCGCCAAGGCCGATGCGGAAAAAGCCGCAATGCTGGCGCAAAAGGGTAAAGACATTGCCGAGCAGGAGCAGAACATTGCCATCCAAGCCAAAGAAGCCGATCTGAAGCGGAAACAATACGAGGCCGAGAGTAACACCAAGGCGGACGCGGATCTGTATGTGGCGAAGCAGTCCGCTGAGGCGGAGAAGGCCCGACAAATTGCTCAGGCCGAAGCCTAA
>SRR1151209_00867 hypothetical protein
ATGGAGGTGGAAGCGATTAATAATCTCATAGCTATGTTCTTGACCTGGCCGTGGTGGGTCCAAGTGTTGGCCATTCTGGCGGTGTTGTTCGTGCTGATCGTACTCATCAACGTCCTGTTGATCCCCTTTGGTATCATCGTGAACCGGCTGACCAGCAATCGAGAGAAATCGCTGGCCACCCATCCCGATGACGACCTGATTGGTCGAGTCACTGTGCCCATTGAGGGAGACCAAAAGGGCCAAGTGAGCCTGCTGATTCCCGGGGGTACGGTGAATCTGCGGTCCGCCAAATTATACCGGGAAGAGGAACGGGCGGCCAATTTGCGGCTGGAAAAGGGCACGCTGGTCGTCATCGTGGAAGAAAAAGATGGTGTGTTGTATGTCATCAAAGCAGATCTGCAAAACAAGGAGGCGTAG
>SRR1151209_00868 AraC family transcriptional regulator
ATGTACAAACACGAAGTCGTCAGTGCCGATCCGGGCCTGCCGTTCAAAATTGTGATCCATCAGGGGCAAGAATCAGCCATTGTCCGCCACTGGCACCGGGCACTGGAGATTGACTACATTATTGCTGGCCGGGCAAAATACACCATCGCTGGCACTGAATTGGCAGCGGCACCCGGCGATGTCATTGTCATCAATACCAATGTCGTCCACGCCATCTTGACGGAACCGTTGCGGCCGGCCCGAGCAGTGACCCTGTTGCTGCCCTATGACTGGCTGCGTCAGCAAATTCCAGATTATGACCAGTGGCGATTTGCCGTACCCATTGGCAGTCAGCACCCAGGCCCGCCCTCTGCCTCTCTGAAGGCATTACAGGCCGCATTGCTCGATATCGATCAGACAGAAAACGGCGTGCACAATGCAACCATTCGCCGCCTGAACCATCTGCGCGATATTTACACCGTTTTGAGCCTCCTGATGACCCACTTTGCTGAGTCCGACAATTCAGCCAACACGCTGGCAACCGCGGCGAGTTTAGCACGGATGAGCAGCGTAATTACCTATCTCACAGAGCATGCTAACGAGCCCTTGACCTTGCCGGCAGTGGCCGATCAGGTACACTTGTCGGTCGGCTACTTGTCCCGAGATTTCAAAAAGCAGATTGGGGTGCCATTAATGACCTATTTGAGTCAGTTGCGGCTGCAAAATGCCTACGATTTGCTCACCAACTCCGATCTGCCCATTAGCACCATCGCCGATCAGACTGGCTTTCCCAACGAGAAATCATTCCGCCAGCGATTCACCAAAACATACGGGCAACGGCCAAGCGCCTACCGTCAAAATTTACGGAGGTCAAAAATTGACCGTTAA
>SRR1151209_00869 major facilitator superfamily transporter
ATGACCCGTTCAAAGCCATCATCCATTTGGTTCAAGGCGGCCCTGCTGTCCATCTCCATGATGCTGATGATTGCGCCAAACATTGCGGCCGCTTTGCCGCTAATGGCCAAAACGTTCTCTGACCAATCCGCCTCAGCCGTTGACACCCTGTCTACGATTCCGAACTTAGGCATCATTCTGGGGATTGTGTTGGGTAATGTGCTCGCCACCCAGCTTGGGGCCAAGCGTACCGTCTTGACCGGTTTGGCCGTGGCCCTACTATCCGGGCTGGTACCCGTCGTCAGCAACAGTTATTACGTGGTCCTCGCTGCCCGCCTCATTTTCGGCATTGCCGTGGGTACGTTCAATTCGTTGGCCATCAGCCTCATTTCTGACTACTATCGCGGCGATGAATTAGCCGCGATGATGGGTTACCAGAGTGCTATTTCGTCCCTGGGCAGTTCCCTGCTGTCCTTCGCTGTCGGCTATCTGCTCCTCTTTGGCTGGCATGCCACGTTCCTCATCTATGCTATTGCCCTGCCGATCATGATCCTGTTCGGTCTGGTGATGCCCAATGATCAGCCGGCACCAGCGGCGAAAGATACCGCCCAGACCCCGAAAACCAAGCAGCACATCAATGCCGCCGTGATCCTCATTTCGCTGCTCACGTTCTTCATCTATGTCTTCTTCATGGTGGTGACCATCAAGCTGGCCGGTCTGCTCACCGCAAACCATCTTGGTACCGCCAGTCAGGCGTCTGCTATTCTCGGCGGGTTTACCCTCGTAACCATGTTGATGGGCTTGCTGTTCGGCCGCATCTATAAACTGCTGCAAAATAAGATCCTGCCTCTCGGTTTCATCTTGATGGCCGTTGGCTTCTACTTAGTCAGCACAGTGAGCAGCCTCGCCATAGTAGCCGTTGGTACAGTAATCATCGGCATCGGCTTCGCCGTCAGTATTCCCTACATCTATACAATCATCAACGTGGCCGCACCAGCCAACTCTAAGAATCTGGCCAGTTCGGTCATGCTGATCATGACTAACGTCGGTGTCTTTCTCTCCCCGACCATCGTGAACGCGCTCGCCAGCTTGACCGGCAAGGACGAAGCCGCTGGCAGCATGGTTGTCGCCAGTATCGGTTTCCTGATTTTAGCCGTCATCGTCGCCGCCGTGGTCATCAGCCAAAAACGGACAAAGCCAACTGTCCAAGAAACAAACTAG
>SRR1151209_00870 esterase
ATGTTAGAAATAGCAGCATCATTATTACCCACCGTCCCCGTTGTGAATACGAGTTATACGGCTAAATTAGTCCCCGGGCAGAAAACGGCCGGCATTCTCGACCCCCACGCCAAAACGGAAATCACCCCTAAGGAGGCTGGTCAGCCGGCCGACCCCTCGGGCATTCCCAACGTCCAAGCCGCCCGGGCCGCGATGGGCTGGCCCACCGCCCACTATACAGTCCGCCATCCGTTGACGATTGAAAACACCCAATTGCATGGCGTTGTCGTACGTACTTATGTCCAAAAAGAACTGGCCGCCGACACACTGCCCGCAATCCTGTTTATCCACGGCGGCGGCTTCTTCGGCGGCAGCCTGGACAACGTGGAGCAGCCTTGCCGCCTGCTGGCCGATGAAGGCCGCGTCCGCGTCATTTCCGTGGATTATGGCTTGGCCCCGGAGCATCCCTATCCCCAGGATGTCATTGATAACTATAACACCCTCACGGCCCTTCACCATCAGGCCGCCGCACTGCATATTGATGCCCACCGCATCACGATCATGGGCGATTCTGCCGGCGGCAATCTCACCTATGTCGTGAGTCTGTTGGATCGGCAATTAGGCACCAACTACATTGCTAGTGCCGTAGCCCTGTACCCCGTCACGTATCAGGGGCATCGGCCTGTTTTGCGCCAGCAATTCGACGATCCAGCCCACTGGCAGCCGGCGCAGGACCAAGACCTCATCACCAATTATATCCGCGGCTTTGCCCAGAGCAGCCCGTTGATCGATCAATGGTATGTCGGGGACGCTGATCCAGAAAGTTGGTATATTTCACCACTGAATGCGCCTTCTGAGCTGCTGGCTAAATTGCCGCGCACGCTGTTCGTGGTAGGCGAGTTTGATCCGCTCCGTTTCCAGGGTGAAGCATTCTACAACAAGGTGAAGGCAGCTGGCGGCGATATTCGTTATATCCGGTATAACGGGATGGTGCATGCGTTTATGGATAAGGTTGGCGATTATGTACAAGCTGAGGATAGTTTGCGGGAGGCGCTGAAATTTATCGATGAGGAGTAG
>SRR1151209_00871 fructokinase
ATGTATGCGGCAATTGAGGCAGGCGGTACTAAGTTCGTATGTGCGGTGAGTGATCACCAGCTTAATATCGTGGAAAAGATTCGAATTGCGACGACGGATCCGCAACAAACGCTAAGGCGGGTCTTTGCTTTTTTAGATCAGTACGACATCGAAGCCATTGGTGTTGGCGCATTTGGCCCGCTTGATTTAGATAACCAATCAAGTCATTACGGGTACATCACAACAACACCAAAAGCAGGGTGGCAGGAGTTCAATTTTCTTGGTGTACTTAAAGGCCATTTCGAGGATATTCCAATCATTTTCACTACGGATGTCAATATTGCCGCTGTTGGTGAACAGCGACTAGGGGCCGGTCGCGGCGCCCAAAATGTTGCCTATTATACAGTGGGGACTGGCATCGGGATGGGCTTTCTCTATCACGGGGCGTTGTATGACGGCCGGGGGAATTTAGAAGCCGGCCATATTCTGGTGCGCCGTTCCAATGAGGATAAGTTTGCCGGCGTGTGCCCGTATCATCGTGATTGCTTGGAGGGAATGGCTTCCGGGCCAGCGATGGAGAGCCGGTGGGGGTTAAAAGGGGCAAATATTCCCACTGATTCATTTGCTTGGCGGCTTGAAGCTAATTATCTCGCCCAGGCATGTATGATAACGACGCTGTCTTTATCACCAGACATCATTATTTTTGGTGGAGGTGTGTCTAATCGGTCAGAATTATTTCCCTTGATTCGCAGCGAGTTTTCTAAGATCTTGGGCGGATATGTCACGACCCCCAATTTGGCGCATTATATCGTTCATGCCGCATTAGGCAATGATGCCGGAATTGTTGGCGGATTGTTGCTGGCGAAAGATGCAGCGGTCAAAGTCAGCACTTCAGCGTTAGCGCCGGACTGA
>SRR1151209_00872 glycoside hydrolase, family 38
ATGACTTTAGATGAAACGACGTTTTTGCGAAAAGCCGACCAGCAGCTCGGGTATCTGCATGAGTATTTCTATCGGGACTTTCAGTCGGTAGATGCCCTTGAGATCACGGAAGACAAGCGTGAGGACAAACGTTGGCTGCCTGAGAATGCGGAATGGCGGCCAGCTGCGATTGGTGACCACTGGGAGGGACGTGATCGATATTATTGGTTACGTTTCAAACTCGCATTACCACAGTATTCTGCTAATCAGCACTATGTCATGCACATGGACTTAGGCCGCACAGGCGGCGGTAACAACTCCGGTTTTGAAGGCTTGGTTTTCCTAAACGGTGAACCCCACCAAGCAGTAGACAGCAACCATGAAGACATGTATCTCGACCATACCTTTAGCGGCCAGACGTTGGATGTGGCCATCAAACTATGGACTGGTTTGGAGGGCGGCGGTGCACCGGTTATTCAGCACTATGTATTGCGAGCGCTGCAGGCCGGCATCATTAATCAAACCGTGGTGGATTGTTATGACTATCTGTGGAATATGGTCGGTGTGATCCGTGAAATGGATGCCGACGAGCCCTTGAAATATGATTACATCAGCGTGGTGCGTCAGTCCTTTCGAACTTTTGATTGGGCGCAGGAAACAAGTGCGACAATCGGCGAAACTTGCCAAGAAGTACTGACGCACATTCAGCGCTTCATCCAAGAGCATGCCAATCAAAAGAAGCAATATACGATCACTGCAGTGGGCCATACGCATATCGATGTTGCGTGGCTTTGGCGTTTACGCCATACACGGGAGAAGATTGCTCGGTCATTTTCTACGGTTTTAGAGTTGATGAAAGAATATCCGGACTATCAGTTCTTTCAGTCCACACCGCAGGATTATGCATTCCTGGAAACTGATTATCCCGACTTGTACAAGCAAATTCTCCAACGGATCAAAGAAGGCCGCTGGGAAGCTGATGGGGCTACGTGGTTAGAACCGGATACCAACCTGCCCAGTGGAGAGTCGCTGACCCGGCAATTTCTATACGGCATGGGGTATTTCCACGACAAACTGAATGCCAAACAGCATGTGCTGTGGCTGCCTGATGTATTCGGCTATTCAGCTGCCTTACCGCAAATCCTGCAAGAGTTTGGTATCCCCAACTTTATGACGACCAAAATCAGTTGGAATGATACGAATCGCATGCCCCATGACACCTTTTACTGGCGAGGAATTGATGGCTCACGGGTATTGACCCATTTCATCACCACGGTAGAATCAGACGCTGACTTTAATGATCCGATGCAATGGCGCTATACGTACAATGGTGATATTACACCGCGGACTGTGTTGGGGACGTATCATGTGTATGCTGACAAGCAGATTAATGATGATTTGCTGCTGAGCTATGGATATGGCGATGGTGGTGGCGGCCCGACTCGGGAACAAATTAAGAATATCGATATTATTAATCAGTTGCCTGGCATGCCCACTGTGAAGAATGGTCGAGTGGATGATTACTTTGCCCGATTGCAGGATAAACTGCACCACACTGATGCACCAGTCGCTGAATGGGACGGCGAATTGTATCTCGAATATCATCGGGGAACGTATACGTCGCAGGCGAACATCAAGAAGTGGAACCGAACAGCAGAATATGCGCTGCGTCGGTTGGAAATGAGTTATGCGACGGCCTATGTTGAGCAGGACGTCCCGTATCCGCATCAAGAGATTCGGGACTTATGGATCATCTTGCTGCGCAATCAATTCCATGATATCCTGCCGGGTTCTGCAATTCATGAAGTGTATGATGATGCTCGGGAAGAATTCAAGCAGTTGTTTGCCGGGGTGGCTGATTTAGAAGCTAAACTCAATCAGCAAGTGACGACGTCGCAGGCCGGCCAAGTCGTTGCCCGCAACTTTTTGCCATGGGATGTTGAAACGCTGATCAAGTTATCTGATGCTGACCGGGATGGCGCGGTTAATACGGCCAATGGTGCGTATGCTTTGGCAACTATCCCCGCGCTGGGCAGTGCCGTCGTAACTGGGAAAACGCCGCCGCAACAGAAGACAGCCGTGGTGAGCAACAACACAGTGCGCACTTCGTATTATCAAGTCACTTATGATGCCACGGGACTGCTGACTTCAATTACAGATATTCGCAATCACCGGGAGGTTCTGGATACGACGTTGGGCGGCAACGTACTGACCCTGTATGAGGACCGGCCGTTAGACTACGATAATTGGAATATTGATGTTGATTATCCTGAAAAGGCGAAGCAGTTACAGGCGCAATCGGTGGATGTCGTTGAGAATAATCCTCTGTTTGTGGATTTGGCAGTCCACTACGCCTTCGGCCAATCAACGATGACGCAAGTTATCCGGTTGTATGCATTCTCTCCGCGCATTGATTTCATTACCGACGTTGACTGGCATGAACGACAGGTGTTATTGCGCACTGCATTCAACACAAACATCGTATCCGACAGCGCCCGGTATGATATTCAATATGGCAACGTCACCCGCGCCACGAATGATAACACGAGCTGGGATCAAGCCAAATTTGAAACGGTTGGTCACAAGTGGGCGGATTTATCAGAGCGCGATTACGGCGTGGCATTATTGAATGATTGTAAATATGGCTATCGGGTCAAGGGCAAGCAAATGTCTTTGACGCTGCTCAAGTCAGGCGATTATCCAGATACGACCGCTGATGAAGGCCAGCATACATTCACCTACAGTTTGCTGCCGCATGAAGGCGACTTTATTACCGGTGAAGTGGAAAAGGCTGGCGAGGAGCTGAACGACCCAGTTGCCCTCCTGACTGACGTTGATCAGGATTCATTAACTCCCTTGTTTGAATTGGACAGTGAAACTCCTGTTGCATTGGATGCTGTTAAAATCAGTGAAACTGGTAACGATTTAATTGTCCGGTGTCATGATTATACCGGTACAACGGGGACCGTGATGCTGAAACCGCACTTTAAGTATGATGCGGTACAGCGTGCTCATCTCAACGAGCAGGAAGCGGAGGCGCTGACGCCTGATGAAAATGGCAATGTATTGGTGAACTTCAAGCCATATAAAATTGTGACATTACGGTTCACTCTAGGATAA
>SRR1151209_00873 glycerol-3-phosphate ABC transporter permease protein
ATGATGAGGGAAAACAAAACCGTGCGTTTTGTTCAATACGTTGTTCTGGCAGTCATTGCGCTGCTCTTCCTGTTGCCGCTCCTTTGGATGTTGTTCTCGTCCATTGATACGCACGCCATTCAAGCAATTCAACTGCCCAAACAACCGACGCTGGCTAACTTTATGGCGATTTTGACCGATAGCAATATTATGCGGTCATTCGGTATCGGATTGCTGGTTTCTGGTTTTCAAGCCATCTTCGTGGTTTTGATCAGTGTCTTAGCGGCCTATCCATTATCGCGGTATCCGTTGCCTTGGAAGAAGCCGTTCCTGCTGTCGATCCTATTTTTGACATCATTACCGATGACAGCGGTAATCGTACCGGTCTATCAGATGTTTCTATACCTGAAGTTCCAGAACTCGTTGATTGCCACAACAGTATTTATGATTTCCACCAGTTTGCCCTACGGTATTTGGATGATGAAGAACTTCATGGACTCAGTGCCGCATGAGTTGGAGGAAGCAGCCTGGATCGACGGATCAACCGTCTGGGAAGGGGTGCGAAAAGTTGTTTTACCGTTAATGCTGCCAGGTATCTTTACAATTGGTATTTTCACGTTCACGGGTTCATGGGGAAACTTCTTCGTACCGTTCATTTTGATCACATCACCAGAAAAGCTGCCCGCATCAGTTACTATTTTTCAGTTCTTTGGCAACAACGGGTTGGTCAACTACGGCCAACTGGCAGCGTTCTCCGTGCTGTACACACTGCCGGTCGTCATCCTGTACACCTTTGCGCAACGGTACATGTCTCAGGGGTTCAGCTTTGGCGGTGCAGTGAAATAG
>SRR1151209_00874 sugar ABC transporter permease protein
ATGGACGCTTCAAATGTCATTAAAAATAAGCCGCATAAAACACAGCAGCAGAAGACTGAGCGGCGGCTATCAGTTTGGCTGATGCTGCCCAGTATGATTCTTTTGTTGATATTCTTTCTAACACCGATGATTTTGACCGTGGTATTTTCCCTGACTAATTTATCATTGACGGGGGAGGCCGCATCGTCGCTGCACTTTATCGGCTTTCAGAATTATCTGCAAATGTTTAAGGATCCTGCCCTGGCTACGTCCATCTGGAATACGATCGTCTTTGTCCTTTTTTCCGCGGTCATTGGGCAATGTTTCTTCGGCTTCCTCATTGCCTTCATGATGCGGGGGAAGAACAAGACATTCAGACGAATTATTGGGTTGATCATTATTGCCGCGTGGGTGACTCCGGAAGTTGTTGTTGGTTTCTGCTGGGTGGCCTTCCTTGGCGATAACGGCACCTTGAATATGCTGGCCCACAATTTATTGGGAATGAAACCAGTTGCTTGGCTCTACACCTTCCCTATGGTCAGCATCATTATCGCCAACGTTTGGCGTGGTACCGCCTTTTCCATGATGGTTTTCCAGACGGCATTAGATGATATTCCCCAAGAAGTGGAGGAAGCGGCCGTGATGGATGGCGCGACCCGCTGGCAATTGGTTACCCGAATCACTATTCCCATGGTTAAGGGAACCATTGCGACCAATATTATGCTGGTCACATTACAAACATTGGGTGTATTCTCTTTGATTTACACCATGACTGGCGGTGGGCCAGAAAATGCAACGAGTACTTTGCCCGTCTTCATGTACAAGCAGGCGTTTGTCAGTTACCAATTGGGTTACGGAACTGCAATTTCCCTGGTGCTGTTACTCATTGGTGCATTGGCCAGCCTCCTGTATATGAAGATCCTCAAGGTCAAAATTTAG
>SRR1151209_00875 sugar ABC transporter substrate-binding protein
ATGAAGCTAAGTAAATGGGCACTTGCTCTTGGCATTTTTACCAGCGTTGCACTTTTAGCCGGGTGCGGTTCGGGTTCAAGCAATAGTTCAGATGGGGTAACAACAGTTAAAGTCGCTTGGCGGGCAACAGGTAAGGGCGACAGCATGTACCGGATCTATTCCAAAAAGTGGATTGCTGATTTCGAGAAGAAGAATCCAAAAATCAAGATTTCGCTGCAACCAATCAACGCGTCAGAAGGCGATTATTTCTCTAAGCTGGATCTGGCAATGAAGTCCGCAGATACCACACCGGATATTGTCAACGAAGATACGTTCATTCTGCCAGCGGATGCTAAGGCCGGCTACTTGGAGCCATTGGATTCCTATGTGGCAAAATGGTCCGACTGGGATAAGTTCACGGCTGCTTTGAAGAAAGGCAGTCAAGGTTCTGACGGCAAACAGTATGGTATTCCGGGAACGACAGATGCCCGTGGTATCTGGACTGACCTAGTAGTGACAAAAAAGGCCGGATTAGCTGCCGATTGGGCACCGAAGAGTTGGGCCGATATTCTCACTGCCGCTAAGAAGATTAAGCAAACGCAGCCGAATGTTATTCCCTTCGCCATGGGTGTTTCGACGACCAACGGCGAATCTGTATCGATGCAAACATTTGAACAGTTGCTCTACGGTACTGGAGAAACACTATACAACGAAAAAACTAAGAAGTGGAATGTCAATTCTAAGGGCATCCTGGCCACATTGAACTTTATTAACCAGATTTACAACAAGGATAAAACCGGGCCAAGTTTGTCTGTTGTCATGAGCAGTAATTACGGTTCTACGATCTTCCAAGATCGGATTCCCAAGAATCAGGTGGGGATGGCCATGGATGGTATCTGGAACACAGGGAATTGGTCCAAGGATGGCGCAGCACCCATCGCTAATATGACTAAGGTGTTGGCCTTCAACTTGATGCCGACAGAGAAAGGACAGAAACCCGGATACGTAACAATGGCTGGCGGCTGGTCTTGGGCATTACCTAAGAATTCAAAGAACAAGAAGGCCGCTTGGACTGTGATGAAAGCCATGAATACAAAGCAGCTAGCAGTGACTCGGGCATTGCAGGAAGGTACGTTGACAGTTCGTGATGACGCAGCCAAAGATCCTGAATACTTGAAGAAGCCGTTTATTAAAGAGGCCACTCAGGCTCTGCAGAATGCTCACTTCCGGCCCAAAAACGACTTGTACCCTAAGGTATCGATTGCAATCCAGCAAATGGTTGAGTCGGTAGCTGCCGGTCGGAAATCACCGAGCGACGCCGCTGCTAAGTATGCAACTGACGTGAAAGGCATTGTCGGCGATTCAAACACAGATACGCAGAAGTAG
>SRR1151209_00876 arabinose metabolism transcriptional repressor
ATGGAGTATTCAACATACAAGCCGCTTTACGAACAAATCTTTGAAGATCTGAAGACTCAAATCAACGCTGGCCACTATCCGATCGGCGAAAAGTTGCCGCCCGAAAAAACACTCATGGGTACTTATAAAGTAAGCCGTATCACCGTCCAAAAAGCTGTCAATTTGTTGGCCTCCGAGGGCATCGTCACCCGCCGGGCCGGCGTGGGGACCACCGTTCTTAAGAAAACAGAGCTTTCGCCGCACAAAAAAATGCTCGGCGCTATTTTGCCGGGCATCTTGGAAAGCTTTGGTGCTAAATTACTGATTGGTCTCACGGACGCCGCAGCCAAAAAAGGCTATCCACTCATTATCAAGTTTTCTGGTGAAGACGAAGATCAAGAAAATCAATGCTTGCAAGAATTGCTTGACGCCCACGTCAAAGGGATCTTTATTAATCCGTTACAGCGGTCTTTTTATGACCCGCTGCTCATGCAACTTATTCTAAAGAAGTTTCCAGTAGTCGTTATTGATAAGCAGCTTGTCGGCATTGATGAAGTCTTCGCCGGGACTAACCATTTAGCGAGCGCCCGCCAACTAGCCCAACAAATCAGTGCCCTTGGTCATCAAAACATTTGCGTAATCGGATATCATGACGTTTCTAATTCCACTCTAGCTATTCGGCAGGAAGCATTCTCCCAAGTATACGCTACAACCGATTATCCGCTGAAGGCCAGTGCGTTTGCTCATATCATTGAAACCACTTATGCCCATCACGACGGGAAAAATGCGCTGGCGGAAGATATCCAGCGCATTAAAGACTGTATTATGACTAACAAGCCAACTTGTTTGATTGTTCTGGACAGCTATATTGGCTCATTGGTGCGCGAAGCCACTATGGAAATGGGCCTCTCCGTTCCGTTAGATATCGGTATTGCCGGATTTGACCCAAATAATGATATTATTCGCAGTGTCCGTTATACCTGCATTGTCCAGGATGAAGAGGCCATCGCCGCATCGGCGGTAGACCTGATGACCAAAATCTTGACCAATAAACCATTAGCAAACCGCACAGTGAAGCTACCGTCACGCTATATTGACTACGGTACTGTCGTTAATCGCGGCCTGATGCATGTGATCCCGTAA
>SRR1151209_00877 arabinan endo-1,5-alpha-L-arabinosidase
ATGAAACTCAATCGCGTTACGCGCTGGCTTGCCCTGCTGGGTGCGGTGCTGTTGGCTGGGACAGCCGCAGGATGTCAAAAGCAAGCAGCCGCGGCCCCGGTCGCCCAGAAATTAACAGCCCCTAAAGCAGCACCGGCGACGGTCCACGATCCGTCCATTGTGCAAACCAATGGGCGGTATTACATCATTGGTTCCCACATGCAGTTCGCCTCGTCTAAGAATCTGATTCAGTGGCAGCAATTATCGACGAGTGTGAAAGATACCAAACTGTTCAGCAATATCACCGCAGAATTGGGCCCAGCGCTCAGTGATGCAGAAACTGATACGTTTTGGGCAGGCGATATCGAACAGTTAAAGGACGGCAAATATTACATGTATTATTGTGCCTGCCAAGGCAGTTCGCCAACTTCAGTGTTGGGCGTGGCCGTGGCGGACAAAGTGACTGGCCCCTACAAAGACCAGGGCATTATCCTGCGTTCCGGCGGCGCCATCAAAGACGATGCCGCGTATGACGCCACCCAACAGCCCAATGTGGTCGATCCTCACGTGTTCCATGATCAGACGGGTCAACTGTGGATGGTTTACGGATCATATTCCGGCGGGATCTTTATCCTCAAGATGGACGAAGAGACAGGCAAACCGTATCCCGGCCAAGGCTACGGCCAACGGCTGCTCGGCGGCAACCACGTCCGCATCGAAGGGGCCTACATGCTCTACAACAAGCAGACCGACTACTACTACTTATTCCTGTCCTTTGGCGGGCTGAGCGCTGATGGCGGCTATAATCTGCGGGTCTTCCGCTCCCGCCAGCCGAATGGCGGATTCGTTGATGTTCAGGGGCAGCAAGCTGCCGATATTCGCGGTAAATTAGGCACGACCTTCGATGATGCCGCTATCCAAGACTACGGCAACAAGCTCATTGGTAATTTCACTTGGAAAGAGGGCAGCAAGCAAGTGGGCTACGTGTCGCCTGGCCACAACACCGCCTTCCAAGATAAACAGACCGGGAAGTATTTCGTGATGTTCCATACCCGCTTCCCCGGCCGCGGCGAATATTATGAAGACCGCGTGCATCAGATGTTCTTTACCCGCGACGGGTGGCCGGTACTGAATCCGGCGCCCTATGATCAGGAAACCAAGACGAATTACACGACCAAGCAGGTCATTGGCGATTATCAGATCGTCCAAATGAATAAACTGATCACTGAGGATCCGGCGACGGCAAAAACAACGACGGTCGATCAAGATGGCAAACTGACGGGGAAAGTAACCGGCAGCTGGACCAATAAGAACGGTCAGGCAACATTGAAAACAAATCAAACTACCTACTCGGGAGTCTTCATTTCCTCCTGGGATCCCTATCAGAAAGCGCAGACGATGATGTTTAGCGGGACGGATGCGCAGGGCGAACCGGTCTTTATGCGGCGGATGGTGACGCGATAA
>SRR1151209_00878 ArsR family transcriptional regulator
ATGGAACTAGATATCTCAACCCGCTCCTTGGCTGCATATAAAGCGTTGGCCAGTCCAGTCCGGTTGGAAATTATTCAGAAACTCTCGCACCGTAAAATGAGCGTTAAGGATTTAGCTAAAGAATTGAACCTGAGCAGCGCGATCGTTTTGATGCACTTGGGGAAACTCGCCGAAGCGGGTCTCATTGGTTTTGAACGCGATGGGCACAATAAGATCTCCCATTTAAAAGTGGACAAGATCAATATCCGTTTTCCGCAAATGATCTACCCCGCTTTCGACTCGTATACGGTCCAATTGCCCGTTGGCCATTTCACCGATTTCGAGGTGACTCCTTCATGCGGCATGGCTGGTCAAGATGACTTCATCGGGAAAGTGGATACGCCCGGGTACTTCATGGATCCCGATCGGATCAATGCCGGAATGATTTGGTGGACCGCCGGCTTCGTTGAATATCAGTTCCCGAACTATTTGGGGCAAAACGACAAACTCGAAATGCTGGATTTGTCCATGGAACTGGGTTCCGAATTTCCTTTTTCAAACAACGTTTGGCCGTCAGATATTACCTTCTCCATCAATGATCAAGAAATCGGTACTTGGACCAGTCCTGGCGACTTTTCGGACATTCGCGGCAAATACACCCCGGCCTGGGTGCCCGATAACGTGAACCAATACGGCATTATGAAGACTGTCCGAATCAATCATGACGGCAGTTTCTTGGATGCCCAACCATTCTCCGACGTGACGCTGGAGGATCTCGACCCCCATGTCTCTTCCTTCAAGGTGCGCTTTGCTATCAAGGAAGACGCGGTGAATCAAGGCGGCTGTACGATTTTTGGCAAAGGCTTTGGCAACTATGATCAAGATATCGAATTAAAGCTATACCATAGTTAA
>SRR1151209_00879 arabinan endo-1,5-alpha-L-arabinosidase
ATGGAACTAACGGCACTGCTGGCAGAAATTGGGACCCGCGGTGTGCATGACCCGACGATTATACCTGATTCCCGGGGCTATACGATGTTTTCTACGGATACCATGATTGACGGCCAGCCGACCCAAGGGATTCAGCGCCGTCATTCGCCAGACTTGATTCATTGGAACTATCAGGATCAGGCGCTGTCCGGTGTACCGGCAGATGCCCAAGATTGGAGCCAGGCGCAAGGATTGTGGGCACCGGAAGTGGTGTCTGGACGCAATGAGTATCGGCTGTATTACGCTGCCTCAACGTTTGGTTCCCGACGGTCAGCCATCGGGTTAGCTACTGCGGCTGATTTGGATGCACCGTTCATACCCCAGGGACTGGTACTGACAACCGAAGGCGGCCAAGATCAACGGAATGCACTGGATCCCAATGTGATTCAAGACGGTAAGCGGCAGTGGCTGTGTTACGGGTCTTTCTTTGCTGGTATTTATCTGGCAGAGCTGGATCCGGCTACCGGCATGTTAAAGAAACCTGATGACCCGGGAGTGCGCATTGCCGCTCGGCCGCGGGCTTTGAATAACGGTTCGATCGAAGGGCCGTTTATCTATCATTCGCCCCTGACCGGGGAGTATTACCTCTTTGTCTCGTATGATTCCTTGGCTTATTCGTACAACATTCGGGTTGGACGAGCCAAACAGATTACTGGACCATACCGCGATTTTCAAGGACACAATTTGATTGCAGATGATCCGCTGACGGCCGATCAAGTCGGTACGAAAATCTTGGGCAGCCGGCATTTTGCTGGCGAATCGGCCCAGCTGCTTGCTCCGGGGCACTGTTCAGTGCTTGATGTCGGCCCAAAGCAGTATCTTGTGTACCATAACCGGGCAGTAGCCGGCGGACCTTCATTCGGGTTGGTCAGCCAGCTGCATTGGACGGTGGACGGCTGGCCGGTGGTGAGTCCCGAGCCGGTCTACGGCGCTGCCTGTTCAATTTCGGTCGCGCAGCAATCGGTGGTTGGTGATTGGGACATTGTCTCTTTGACTGCGTCCACTGATCCCATTGAGAGCCAACGGGTCACCCTCACCGCCGCGGATGTCGAGCAAGTCGGGCCGGAACAATTCGTTCTGGTCGGGGTTGGTCATGGTAACGTATGGCAGGAATACGATTGGGCGATTGATCAGCCCCGAGTCGTATTTAGCGGTATCACGCCGCAAGGATGGGGCGTTTTAGGCAAAAAGGCCGGTTAA
>SRR1151209_00880 hypothetical protein
ATGTGGGCAACGAAAATCATGGATGTATTATTAGCGCTTGAGAAAGTGCTGATGATCAGTCTGTGCCTGCTGCTGGGCACCTTGGCCGGACTTTTTATCACCGGTATTTTGCCCGCCGCAGAAGCGGCACTCTATACGATTCAGCGGATGCTGCAAGACCATGAATTGGGCGTGCTGGCGTTGGCGAAACTGTTTTACCAGCGTTATCGGACTCAATGGCGGCTATTGCTGAAGTTATCGATAATCAACACCATCGGCTCGCTGGTTTTGCTGCTGGACTGGTACGCCGTGCTGGGGTTGAAGCTGCCGCTGCTGTGGCCGCTACTGGTGATCACCCCGTATTATGGGATGGTGATGCTGAATCTACTGTTACTTAAAGGTAGTGATCAGCCGACGTTCCAGCATTTGAAGCAGGCATTAGTTTTGCCGTTTGCCTTCTTTGGCCGGTACATCGGCGTCTTGGCTGTCTTTGCCTTGGCGGCGGTCATTAGTTTGCAGGTCAGCCCCATCATTGGGGCGGCTTTGCCGGGTGTGTACTTAGTTGGGATTTATTATGCGCTGCCAGTTAAGCTGACCGCGCGGGCAACAGTATCTCAAAAGGAGCGGCAGGCATGGAACTAA
>SRR1151209_00881 sugar ABC transporter permease protein
GTGTTAGCAAAATCAAGTACGCATAAAATGTCCCAGAAGCAGACGACCCGGATCGCAGATTTCTTCATTTACATCATTTTGATTGCCGGCGGCGTCTTAATGGTTGGTCCGCTGCTGTGGATGATTTCCACATCATTGAAAGACAAAACTGGAGTCTTCCAATTGCCGCCGCAATGGATTCCCAATCCGATTCATTGGGATGCCTATCAGCGACTATTCCATTTATCACAGTTGCAAACCGGCTTCATGAACACCATCATTGTTTCGCTCTCCGTGACGATTATTGGCTCGTTTACTTCCTGTATGGCCGCCTTCTCGTTCGCCAAATTACGGATGCCCCATAAGAATGCCATGTTCCTGCTGCTTCTGGTAGGTCTAATGATCCCGTATCCCGCAGTGATGATTCCCCAATTCATGATGTTCTCCACAATTGGGTGGGTGGATACGCTGAAGCCGCTGATCATTCCTGGTTTGTTTGGTAATATCACGATGATCTTTTTCCTGCGGCAATATCTCCAAGGCATTCCCGATTCGGTCGTTGAGTCGGCCAAGATTGACGGCGCCAGTTATTGGACAATCTTCTCCCGAATCATTTTCCCGTTAATGCGGCCGGCCGTGGCTGCCCAGTTTATTCTGTGGTTCATGGGTGCCTGGAACGATTACCTGGGGCCGTTAATTTACTTGAATTCTCCAGAGAAACAGACGTTGCAGGTAGTCATCGCCAACTTAAGCGCGACGTATGCCACTCAAACGGACTATCCGTTGATCATGGGCTTATCGTTCATCTCAATGCTGCCAATTTTGATCATCTTCTTGATCTTCCAGCGGCAGATTATTGAGTCCGTGGCCTTGTCTGGGATGAAGAACTAA
>SRR1151209_00882 sugar ABC transporter permease protein
ATGGAATCGACAGTTAAAGATAAAGCCCCCGTTGATGGGCGTAAGAAGCGGCGGGCCCACGATTCGTCGCTATATAAAAACGAGCACCGCGTCGCATTTTTGATGATTTTACCGCCGGTGATCGGTTTTCTGATTTTTACACTATTCCCAGCCGCTTACGCAGTATTTGCTTCATTCACTGATTGGAATGGCATTGGCCAAATGAACTGGGTAGGCCTACGCAACTTCCAGGTGATGCTGACCGACAACTATTTCTGGAAATCGTTATGGAATACATTCTTTATGATGATCGGGATTCCGATTGGGTTGATTTTGTCCTTCATCCTGGCGTCGGCATTATCCCGAGGCTTAAAGGGGACGACGTTCTTCCGGACCATCTACTATATTCCAGTTATTTCTTCGTTGGCCGCCATCGCCATCATGTGGCAATGGGCTTATAACGGGGACTACGGCTTGGTTAACCAAGTCCTGGCACTGGTTGGGATCAAGGGCCCGAACTGGCTGCAAAATGTGCACACCGTTAAGCCGGCCATTGTGGCGATGAGTGTCTGGAAAGGCTTGGGCTATTCGATGCTGCTGTACCTGGCAGCAATTCAGAGTGTGCCGCAGACTTTCTATGAAGCTGCTGAACTTGATGGGGCTAACTCATGGCAGAAATTCAAAAACATTACTTGGCCGATGTGCAAACCAGTGACCTTCTTCTTGGTAATCACGAATATCATCGGCGGGTCGCAGCTCTTTACCGAAGTCAATATCATGACCCCGACCGGCGGTTCAGAGTTTAGTTCCGCAACCATCGTTTGGTACATTTGGCAGAAAGCCTTCAAGAACTTCCAGATGGGTTACGCGTCGGCGATGTCCATTATCTTGGGTATCATTATCTTCATTGTCACGGCTTTGCAGTTCTATCAGAACCGCCGGTCGGATTACAAACTGGGATAG
>SRR1151209_00883 sugar-binding protein
ATGTCAAAATTTATTCATAAAGTCATGCTGGGAGCTATGGCCTTGCTTTCGGTCGGCCTGCTCGCTTCCTGCGGCAGCAAATCGACAGGCTCAGCCAATGGTAAGCACCAATTGACCTTTATGTTCCGGGGTGGGGATGCGGAAAAGAAAGCCTATGGCGAGGCCATTAAGGCTTACGAAAAGGCGCATAAAGATGTATCCGTCAAGATCATCATGACCAGTGCCGACAACTATGCAACGAAGCTGCAAGCGGCGATCTCGGGGAATAAGACGCCGGACGTCTTCTATGTTGAACAAAACAACTTGATGGCCTATGCCGACAACGGTGTTTTGCGGGATATCTCCAAAGACGTGAAGGATTCCAAAGTTGATTTGAACAACATCTGGAAATATGGTGTGGACAGCTACCGTTACGATGGCAAGCAAGTCGGCAAGGGCGATCTCTATGCGCTGCCTAAAGACGTGGGGCCTTTTGCACTAGGCTACAACAAGACTATGTTTGAGAAAAATAACATTCCGTTGCCAGACAAGGATAAAGCCTACACTTGGGAAGAATTCGTCAAAGTAGCCCAAAAGTTGACGAAGGATACCAACGGTGACGGCAAGATCGATCAATACGGCACTGGCTTCAACGTTGTGTGGTCCTTGCCGGCATTGGCTTGGAGTAATGGGGCTGACTGGATCAACAAGGACAAGACTAAGGTCACTGTAAATACGCCGAAGTTTGCCCATGCCCTACAAGAATTCGCTGATTTACAGAACAAGTATCACACCACACCGTCTGTCAAGGAGTCCCAATCGCTGGACACCTACCAGCGTTGGATGCAGGGGCAATTGGCTTTCTTCCCGGTTGGTCCGTGGGATTTGCCGACATACAGCAAGCTGAAGTTCGACTATGACCTGATTCCTTGGCCGACAATGAGTACGGGCAAGCCTGCCGCTTATGTTGGTTCCTTGGGGATTGGTGTATCGAAGAAAACCAAGTACGGCAAGGATGCTGCTGATTTAGCCATCTACCTGTCGACAAACCGGAAGGCCCAACAAATTTTGGTGGACAATATGATTCAGATTCCGACGTTGAAAGATATGGCTAACAAGTGGGCGAACGAAAAAGACCACGGCAAGCCGGAAAATCGTCAAGAATTCTTGGATATTGTTGAGAAATACGGACGCGGCCTGCCTGGCGCAACGACTTACAACGCCGAATGGTACGACATGTTCTATACCGACATTCAACCGGTACTCGATGGTAAAAAGACTGCTGCCCAGTTCGTCAAGGAAGAACAACCGAAGATGCAATCTAAACTTGATGCAGCTAATCAGCAAAAAAAGACTGCCGAAGCAACCGCCGGCAAATAA
>SRR1151209_00884 alpha-N-arabinofuranosidase
ATGGCAACTTGTGATCGCTACATTAACCCGTTAATTGTTCAACGGGCCGACCCGTTCATCTACAAACACGAAGATGGGTATTATTACTTCACCGCTTCGGTACCGGCCTATGATCGGATCGAAATTCGGCGGGCCCGCACGCTAGAAGGTTTAGCCCATGCCGCGCCGCGTACCGTGTGGCGGAAACATGACCAAGGATCAATGAGCCAGCTGATTTGGGCGCCGGAGATCCACTACATTCAGGGGAGCTGGTACATTTACTTTGCAGCCGCTCCCAGTACCGGGCCTGGGCCAGACGGACTGTTTCAGCACCGGATGTTCTGTATTGCCTGTGAGTCGCAAAATCCCATGGCCGGTGAAGATGCATGGGAAGAAAAGGGTCAGATTCAAACTGGAATGGATACGTTCAGTCTGGATGCCACTGTTTTTGAACACGCCAACCGCCTGTACTATGTCTGGGCCCAGAAGGATCCCCAGATCAAAGGTAATTCCAATCTCTACATCGCGGAGATGGCTAACCCTTGGACACTGAAGACCCAGCCGGTCATGTTGTCGAAGCCGGAATTCGATTGGGAGACGCAGGGGTTCTGGGTAAACGAAGGCCCGGCCGTGATCCGTCATCAAGAGCATCTCTTCATGACGTATTCCGCCAGTGCCACCGATGCGCATTATTGCATGGGTATGTTGAAAGCCAGCGTCGATGCGGATTTGTTAGATCCGGCCAGTTGGGCGAAATGGGATCATCCGGTTTTCCAGAGTGATATGGCGGAAAAACAGTACGGGCCTGGCCATAATTCATTCACCATTGCCGAAGACGGTCATACCGATATGCTGGTTTACCATTGCCGGGATTACACCGACATCAAGGGTGATCCGCTGTTTGACCCGAATCGGCACACGAAGATTCAACCATTCACCTGGGATGCTGCGGGCAACCCGGATTTTGGCAAACCGGTCCCGTACAATTACAACATCACGCCCGTCGCGATGTAG
>SRR1151209_00885 major facilitator superfamily transporter
ATGAAGAAAGATAAAACGTTTCGCCAAATGGTCACACTGCTGACTGCGAATTTCTTCGGCATGTTTGGCAGCGGCATGCTGTCGTTTGCTATCGGGCTGTACATATTACACAAAACCGGGTCGGCCTTGGGGATGGGCATCACGTTGATGGTCGGACCGCTGGTGGCGTTAGTGCTGACGCCGTTCGTTGGCTACATGGTGGATACCCGCTCCCATCGGGCAATCATGATTGGGGCACAGATCGGTACCAGTATCGGGCTGCTCCTCTTTGCCCTGGCCTTCATGTGGTGGCCCGCATTCTACTATCCAGAAGTAATTGGGTTACTGATCATTCTAACGATTACCGACCGCTTCCTGAGTACGGCGCTGTCTGCCAGTCTGGTTACTTTATTTCCCACAGATGTGCTGCAGCGGGTCAATTCGTTGAATCAGTCCGTATCGTCACTGGCTCAACTGATCAGTCCGATTATCGGCGCGGTTATCTACTCGTTTGTATCTATCGGTGCGTTTGCCTTGGTCGAAATTGTTTTCGAACTGCTGACGCTGGTGTGCATCCTGCGACTCAACTTTACCGTGGCAAAACCCGCTGCTGAATCGGCAACGGCCGAAATACCCGCCACACCGGCGGCTAAAGAATCGCTGCTGGCCAACTTCGCTGAAGGGTTGCGGTATTTGCAAGGCAATCGGCTGATCCTGCTCTCCTGTCTCTTCGGCGCGGGCATCAACTTTCTCTTCGCCGCTGTCAATGTCGGCCTGCCGTACCTGCAGGTCACAGTGCTGAAGATGCCCAATACACTATATGGAATTACGGATTCCGGTTTCGCTGTCGGCATGATCCTCGGCGGGGTCGCCTTGAGTATGATCACGCTGAAACACCACCCGTTTCTGGTCTCTCTGTGGGGGATCATGCTGCTCGGCAGTGTCCTGACCTTGCTCGGGGTCCCGGAACAAATGGCGTGGCCCATGATGGGGAACGTATTCTTCTACGGGCTGCTGAATGTCGCCAACGGCATTATCCTGGTGGTCATCAATACGCCGATCAGCACGATGATGCAAAAATTGATCCCACAGGCCATGCAGGGCCGCGTCTTCATGCTGACTGGGACCATCTCCAGTTTGCTAATGCCGCTGGGCACATTGGTCTTCGGTTTTCTCTTTGACCGAATGGCGGCATGGATCATTCTCTTGGGGGTGGGCTTACTGACGCTGCTGATGAGCTTCATTACCGTGGTTTATGTCCAGCGGACGGCACTGTTGGCAGAGTTTCCCGCATAA
>SRR1151209_00886 hypothetical protein
ATGGCAATTAATGGTGCATTACATCATGTGGAGGTCTATGTCCGTAATTTGGACAATTCCAAACAGTTTTATGACTGGCTGCTCGTGGATCATCTGGGCTACCGCGTCTATCAGCAATGGCCCAGCGGCATCAGTTATATTCTCGGCGAAGGCACTTATCTGGTCTTTGTCCAATCTCAGAAACTGCAACAGGCGTACAACCGAACGAACGTGGGGCTGAACCATTTGGCATTTAATATGGTCGGCCAAGACGCCGTTGACCGGTTGCATGCTGACTTAGGCCGCTTACCATACCATGAACTTTATGCCGAGCGGTATTCGTTTGCCGGCGGGCCGGATCATTATGCGCTGTATCTTGAGGATCCGGACCGGATTAAAATTGAGATTGTAGCCGTACTGGCCTAG
>SRR1151209_00887 transcriptional antiterminator
ATGCGGATCGTCAAGATTCTGAATAATAACGCCGTCATCTCCCGGGATACCGGCGGCAGTGCCGTCGTTTTAATGGGTACTGGGATTGGCTTTCAGCGTAAGCCGGGGGAAAGCATTCGGCCTGCTAAAAATTTGCAAACCTTCGTGCTCAGTGACCCGGAGGAATCGGCAACTCTGATTGAGCTGTTGCGCTCATTCCCGCCTGAAGAATCGGAAATCGTCCGGGAAAGTATTGCCATCATTAAAGAAGGGCTGGCCAAGCCGCCGGCCCCGACCATCGTCCTCACCCTCACCGATCACTTGCATCAGGCGATTACCCGGGTGAAGAACGGCGAGGTGCTGCCTAACCCGTTACAACCGCAGATTCAGTCGTTCTACGGTCCAGAATTTGCCATTGCCAAACGGGTGGTGAACCACATCCGCACCAAACACGGTATTGCCCTGCCGGATGAAGAGATCGGCTACATCACGCTGCATATTGTGAATAGTGAAAATAACCGCACCACCCTGCAGGAAACAGTCGCCGTGACGAGTTTGGTCGCGGAGATTCTCGCCCTTATCAAACAGTTTTATGACCAACCGCTGGATACCGACAGCGATGATTATCGCCGGTTGATCATCCACCTGCAATTTTTTGCCCGCCGCTTCATTGAACAACGCGACTTCACGACCACGACCGTGGATATCTCCGAGCTAGTGCGCACCAAGTTCCCCGAGGCATATGCCTGCGCCACCGCCATTGATGCTTTCTTGCAGCAAAAAAAGCGCCGGGGGATCGGTGAAGCCGAGAAGGGCTATCTCACTATTCACATTGCGCGTCTCACCACCCAACCTAATCATTGA
>SRR1151209_00888 hypothetical protein
ATGTCAATTTGGAGCCCTGCGCCAGCTAAAAATTGGGAGAGCTATTACCCGCTGGGCAGCGGTCGTTTGGGGGCCATGATTTCCGGCGATACCCGAGAAAACACCATTGTCTTGAACGACGACCGCTTATTCAGCGCCCCGCGCAACCATCGAGTCAACCCAGACGCGGCAGCGCACGCGGCCAAGGTCCGCGACTTATTGTTTGCAGGCAAGGTCATTGAAGCGGAGGAATTGGCTGGTCCGACCATGTTCCCGGCCCCAGCCAAACAGGCCAACTATGAGGTACTGGGCCAGTTAAAGATCAGAAACCGCTACGTGGACTATTTTGAGAAACCCGTCAATTACCGACGCACACTCGATCTGGATACGGCGCTGTATACCCAGGAATATACCGGCCGCCAGGATGGTCACACGTTTGAAGCCTTTACTGCCTTAGAAGACCACGCCTTATACGGCCACTTCACGGCCACCAATAACGTGCTCGCCTTGAATTTCACCCTCACCCGGACAGAGGAACGGTACGAACGGGTCAATCGGCTGGATGATCATACCATCCTGATCAGCGGCCACTCCGACGGTCTGCACGGCCGCCACTTCGGCATCAAGCTGTCCGTTTTTGCTCCCAGCGGTTTCGTGACTGTTTACGGTAATACCATCGTCGTCTCCGAAGCCCATGACTGCTGGTTCCGAGTGACCAGTGCCGTGGTCCCCACCAGTGACCCCTTCTACCCTGACTTTGCCCAGCAAGTGCCGGTCACTGCAAGTACCTACGCTGATGTGAAGGCAAAGAACATCACGGCTTATCAGGCCCTTTATCAGCGGACAGACTTCAGCTTGCCTGACGACCCGGCCTTGGCCCAGCTGCCCACCGCTGATCGGTTGGCGCGGCTGAAGAAAGGAGCCGAAACAGATCCGGGGTTGATCGTTACGCTGTTCAACTATGGCAAATATTTGCTCATTGCCAGCAGCGAGCCAGGGACCCACGCGGCTAACCTGCAAGGAATTTGGAATCAGGATCTGACGCCGGTCTGGGGCAGCAAGTACACGATCAATATCAACACAGAAATGAATTACTGGCTGACCGGCCCTTTGAACTATGACGCCCAGGAAAAGCCCCTGGTGGACCTGTTTCTGCTGGCTGTTGACCGCGGCCATGACACGGCCAGAACGATGTATGGTTTGGCCGGCAGTGTCATTCACCACAATCTAGACATTTACGGCGACGGTGCGCCGCAATCCACCACGATGAGCGGCACACTGTGGCCCATGGGCGGCGTGTGGCTCGCCAATGAATTGTGGCGCCACTATCAATTCAGCCGAGACGAAAAACTGCTCACGCGAATCTACCCAGCCTTCAAAGAACTGGCCGCTTTCTATAATGCCTTCCTAGTCAAAGATCCAGATGGTTATCTCGCCGCAGCACCCAGTGTGTCCCCAGAAAACTACTACGTGGTGGATGGTCATTATATTGCTAGTTTGAGCTATGGCACGACCATCGATAATAGTTTGTTGCGCGAGTTCTATGGGGCGTTGATCTGGATGGCCCGGCATCTGGGGAAAGATGCGGACTTGCTCATTGCTTGGCAGAAAGTGTTAGACCGGATTCGGCCCACGGCGATCGGCCCGGACGGTCGAATCCGCGAATACGTCCATGATTATCCAGAAATCGATAAGGGCCACCGGCACTTTTCGCCCTTATATGGTCTCTTTCCGGGAGATGAATTCACGACGCCGGAACTCAAAGCGGCCGCCCGCAAGTTCATCGACTATCGGCTAAAGCACGGCAGCGGCCAAACCGGCTGGAGTCTGGCCTGGGTAATCAACCTGTTCGCCCGCCTCGGCGATGGCGAAGCTGCCTGGCAAGCGATCAACCGGATGTTCACCCAATCGACCCAGGATAACCTGCTCAACAGCCACCCGCCGTTCCAAATCGACGGCAACTTTGGTTTCAGTAACGCCATTGCTGAAATGATCGTCCAGAGTACGCCGACAGAAATCACTTTATTCCCGGCGCTGCCTGCTGCCTGGTCGACCGGCCATCTGACCGGTGTGCGCACGCGGGCGGGCGTAATTTTGGATATTGCCTGGGCCAATGGCTACCTGACAGAGTGCACGATACATGGCGATTTGCCTGCCGCGGTGCCTGTCCATCTGGCACCGCAATATCTTGATCCCAACAAGCCTAATCCGCTAGAGAAAGAAGGACATGATCATGGATAA
>SRR1151209_00889 beta-glucoside-specific PTS system IIABC component
ATGGATAACAACAAACTTGCCCAAGAAATCGTTGATAAAATTGGCGGTAAAGATAACGTCAACAGTTTGGTCCACTGCGTCACCCGACTGCGGTTTAAACTCAAGAACGAGGATTTAGCGAAAACCAGCGAAATCAAGAGTTTGGATGGCGTTGCCACCGTCATTCAGCAGTCTGGCCAATACCAAGTCGTCATCGGCCCCAACGTGGCCGATGTCTATGACGAAGTGATTCCGCTGCTCGGCAGCAATGTCGGCGGTGGCGAAGTGCCGGCTGACGACATTGTGGCCGCCGCCAGCACCGCTGCCCCTGCTAAAAAAGAAGGGCTGTTCAGCCGCCTGATCGATGTGATTTCCGGCGTGTTCACCCCACTGCTGGGCCTGCTGGTGGCTAACGGAATGATGAAGGGGTTGCTGATCATTCTGGCAGCCACCAACATCGCGCCGCAAAAGTCCGGCACGTTCCAGATCCTCAGCATTGTCTCCGACTGCTTCTTCTATTTCTTCCCAGTGTTCCTAGGTTATACAGCTATGAAGAAATTTGGCGGGACACCCTTTATTGGGATGGGGATTGGCGCAGCATTGATTTACCCGCAGCTGCTCACGATCATGCAGCAAAAGCCGCTCTACTATCTGTTTGCCGGCACACCGTTTTCGTCACCGGTTTACTTGACTTTCTTCGGCATTCCGGTGCTGCTGGTTAACTACGCAACTTCCGTGATTCCGGTTATCGTCGCCAGTTACGTCGCGGCCCAACTGGAGAAACGCATTAACAAACGAATCAACGTCAATATGCGGATGTTCTTCGTACCTTTTCTGCTTTTCTTGATCGTCATTCCCTTGAGTTTCATTGTCATCGGTCCAATTACCAGCTGGATTTCCCTTGGCTTGGGGGCCGGTGCCCAGTGGCTGTTCAATCTCAGTCCTATTATTTTCGGCATGCTCTACGGCGGTTTGATTCAATTCCTCGTCATCTTCGGTGTGCACTGGGGCTTCGTTGCTCTATCTCTCAACAACTTGACGACGTTAGGCTACGATCCTATCACGATTATGGGTGCACCCTCCGCATTGGCCCAAGGCGGCGCGGCGTTAGCGGTCACCCTGCGGACGAAATCTAAGAAAGCCAAAGCTACCGGCTGGTCAGCGTTCGTTTCTTCCCTCTTCGGTATCACTGAACCCAGCGTCTACGGGATCAACCTGCCGCGGAAGAAGCCCTTCATCTTCGCTTCGATTGGCGGAGCTGTCGGCGGGGCGATCTTCGGTTTGCTGCAAATTCGGCAGTATGCTTATGGCCCGGGCGGGCTGCTGACTTTCTTAACGATCATCAACCCGAAACAGGGCTTCACCAGCACCATCATCTTTGCGATGATTGCCTGTGTGGCGGCATTCGTCGTCGCCTTCACCTTGACGTATGTCTTCTTTGACGCAACAGAAGAGGACGCTGTGGATGCTCAGGTTGAGCAGACGGCAGCGGAGGCAAAGGCAGAACAAATCGCGTAA
>SRR1151209_00890 LacI family transcriptional regulator
ATGGCAACCATTACGGATGTGGCAAAAAAGGCGGGGGTGTCCGTCGCGACGGTCTCCCGGGTGATCAATAACCGCGGCTACCTGAGTGCCAACACCAAGGCAAAAGTGCAGGCGGCCATGGACGCCCTGCATTATCAGCCCAACATTGCCGCTCGTAACCTGCACGGTAAAGCAACCCATACAGTGGGGGTGGTGCTGCCGGATATCATCAATCCTTTTTATGCTGAGTTATTCCAAACTGTGGAGCAGCAACTCTTTGCGCTGCACTACCAAACGATGCTGTGTACGACCAACGGTGAACCGGAGAAGGAGAAAATGTACCTGCGGCTGATGGCGGCCAACCAGGTCGACGGCATCATCAGCAGTACCCATAATCCGGATCTGGCCGATTATCAAAACCCGACGGTACCTACCGTGGCCTTTGACCGGGTACTGTCACCGACCATTCCCATGGTCGGCAGCGACAACCAGGCTGGCGGCGAACTGATTGGCCAGTATGTGGCCCAGCATCAGCCCCGGCGCTGCTTGATCTTGGCTGGCAGCCAGGAAGATCTCGCACCGTTATCCCCGCGCATCGCCGGCATGCGGGCGGCATTAACCGCACCGATCCAGGTGGATCAAGTGGCGCTGCCCTTTGATCAGCCGGCGCCTGTCCGCAATCAACTGATTCGCCACCAGCTGGCGGCCCATGACTACAACGCGGTGTTGTGCACCGATGATTTAACGGCCATCACCGTCTGCGAGTCTTATTCAGACGGCCAGCGGCCGCTGGTTACGGGATTTGACGGGTCAAAATTCATTCGCCAGTACTATCCGAGTTTAACGACGGTGATCCAACCGTTGGATGACTTGTGCCGGCTGGCGATCCAATTGCTGCGGAACAGCATGACTGGGAATGCGGCGGACGTCACGACGTATCAGTTGCCGGTGACGCTGCATATTGGGCAAAAAAATGAATGA
>SRR1151209_00891 sugar ABC transporter substrate-binding protein
ATGAAGCAGGTCCGGCAGTTATTAGCCATTATCATGCTCAGTGTCGCCAGCATTATTTTGTTAAGTGCCTGTGGCACCAATCAAGAAAGCAGCGGGGGTAAGGACATCACGATCAACATCTTGCAAGGCAAGGTGGAAAATAATACCCAGTTCAAGCAGATCGCGGCCCAATATGAGAAATCACACCCGCACATCAAAGTCGTCATTACTTCCGTGGGCGGCGGTACCGACTATCTCAGCACCCTGAAGACCCGGATGTCCGCCGGCGATGAACCAACGATCTTCTCCGTCGCCGGACCGGCCGAAGTATCGCAGTTCCGGACCAAAATCACGGACGTATCCGACACTAAGGCGGCCAAATTAGCCTTGCCGGGCACCCTGGATGCTGTGAAGGAAGGCAATAAAGTTCTCGGCCTTCCTTTCAACTTGGAAGGTTACGGTTTTGTTTATAATAAGAAGATTTTCCGCGAAGCCGGCATTGATGCGGCGAAGCTCACCACTTACGACAAGCTGCTGGCCGCAGTGAAAACGTTGAACGCCCAGAAGAAACAACTCGGGCTCAAAGGCGTCTTCTCCCTGCCCGGTCAAGAGACTTGGGTCATGACGAACCATCTGGGCAACGTCTTCATTGCGCCGGATTTCAACGGCAACGTCAAGACTGCTTATACCAGCAAGAAGCTGCCCTTCACCCGAGAGAAAGAATACAAGCGGATGCTGGATCTGGAAAACGACTATTCCGCCGGCAATGTCATGCAGACAGACTATTCACAGCAAGTATCGCAATACTTCGGCTTAGGTCAGGTCGCCATGATTCAGCAGGGGGACTGGATCTATCAGACCGTCGCCCAAATCGATAAGAAATTCGCGGCAGACGGCATCGGCATGATCCCGATTCCCGTCGACGGCTACGCCGGCAAAATGCCGGTGGGCGTCCCGAACTACTGGGCCGTGAACAGCACCCGGCCAAAGAAAGAACAGCAAGCCGCTAAGTATTTCTTAGACTGGCTGTACACCACCGCGCAGGGAAAGAAAGACGTTGTCGATCTGTTGCACTTCGTTCCTGCCTATAAGGGCTTCAGCGGCATGAAGATGCAGGACCCGCTGTCTGAAGCGGTCTTCCAGCATACCCAAACGAAGCAAACAACCGGCTGGGTCTTTGCCGGCTATCCCGTTTCCTGGGAAGCAGACAATCTCGGCCCGGACGTCCAGAAATATCTCTCGAAAGTCATGTCTTGGAACGATCTGGTCACCGATGCGAAACAAGCATGGGCGAACCTGCAGTCCACGAAGTAG
>SRR1151209_00892 sugar ABC transporter permease protein
ATGTTGAAAACAAAAAGCAAAGCCTATTGGTTGTTTCTCGCACCGGCCTTGATCGGCCTCCTCTTGGTGGTCATTGTACCGATGCTGCTGGGGTTGTTTTACTCCTTCACGGATTGGAACGGCTTGTTTTTCACCAAGTCGGTGGGGTTCTCGAATTATGTGGCCGCCTTCCGTGATTCCGGCTTTCTCAACGCCTTCTGGTTCACTGTGAAATACGCCATTGTTGTTATTATCTCGGTGAACGTTATCGGGCTGGGGCTGGCTATGCTAGTGACCCAGCGGATGAAAGGGGCTAATGCCCTCCGGACGATTTTCTTCATGCCGAACCTGATTGGCGGTTTGATTCTCGGGTTCATCTGGCAATTCATCTTTGTCCGGGTTTTCGCGGCAATTGGTACGGCATTACACATCAGTGCCTTGACCGGTTGGCTGTCAAATCCCCAAACCGGCTTCTGGGGCCTGGTCATCCTGACCATCTGGCAGATGTCCGGCTATATCATGCTGATCTACATTGCCTACTTGGAGGGCATTCCCCAGGAAATCCTGGAAGCAGCAGAAATTGACGGCACCACGCCTTGGCAGCGATTCCGCTACATCACCTTCCCAATGGTCGCACCGGCTTTCACCGTCAGTCTGTTTCTCACTTTGTCCAACAGCTTCAAGATTTACGATCAAAACCTGTCCTTAACGAACGGCGGTCCGTACCTGTCGACCCAAATGTTATCGATGAACATTGTGCGGACTGCGTTCACAAACAACAAGCTGGCCTATGGGGAAGCCAAAGCCATTATCTTCTTCCTGGTCGTCGCGGCGATTTCGCTATTGCAAGTCTACTTTAGTCGTAAACGGGAGGCGCACTTATCATGA
>SRR1151209_00893 sugar ABC transporter permease protein
ATGAGTAAACGGGTTAAAAAATGGTTATTGGGAATCCTCGGCCTCGTTTTGGGTCTGTTGTGGCTGTTCCCGTTCTATCTGATCCTGACCAACAGTATGAAGACGCCCAAGGGGATTTTTTCCAGCGTTATCGGCCTGCCGGTCAACGGTACTTTCAGCAACTATACGCAAGCCTGGGCGGCATTGGATTTCATCCGCTCTTTGTTTAACTCCTTGACGATCACCATCGTCTCGGTCGTCTTGATCTGTCTGGCTAGTTCCATGGCGGCTTACGCCATTCAACGGAACCACAGCAAAGTATCGAACGTGATCCTGATGCTGTTTGTCGCCGCCATGCTGATTCCCTTCCAGTCCGTCATGATTCCGTTAACGACGATCTTTGGGAAGGCACAAATGCTGAACATCCCTGGCTTGATCTTCATGTATCTAGGCTTTGGGGCCAGCCTGTCGATTTTCCTCTACCAAGGGGCGATTGCTGGGATTCCTGAAGCCCTGGATGAAGCCGCGACTCTAGAAGGGGCCGGCCACGGCCGGATCTTCTTCACGATCATCTTGCCGATGCTGAATCCCATGACCGTTACGGTCGCCATCCTCAACATTGTTTGGATCTGGAACGACTATCTGCTGCCGAGTTTGGTGCTGCCCCAGAGCGGCTACACCATCCCGCTGCAAACATTCTTCTTCTTTGGTCAGTTCACGAAGCAATGGAACCTAGCACTGGCTGGGTTGATGCTCGGCATCCTGCCCGTCATCATCTTCTACTTCTTCGCCCAACGCTGGATCATCAAGGGTGTCACAGACGGTTCGGTAAAGTAG
>SRR1151209_00894 hypothetical protein
ATGTTGTCTTTTCTGAAACGCGATAGCACCTTGATGATTGCTCTGGATTGGCTGGCTCAGCTGGTCCTGATCAACCTGCATTGGCTGAGCATCAGTGGTGTGTTCTGGCTGCTATTGGCGGTGCAAGTGTTCCTGACGGTGCCCCAAGCGGTGCTGATATCGCCGTTAGCGGCCGCCGCGGCGTTTGCCCTGCTATTGCCAGCCACTGCAGCCATGTTCCAAGATATTCACGCTTGGCAGGACAAAGAGCCCTTGCGCTGGCGGATATTTTGGCAAAACTGGCGTGCGGCGCTGCGAACCCATTGGCGCTTTAATCTCCTTGGCGCCGCCGTCATGACGATCCTGCCGCTTTACTGGCGTTTGCTGGCGAACATCGTTTTTGCTAGGGCCCTTATTCTTGGCATCCTGGTCACCGTTCTTGCAGCCACCCTCAATTTGTGGGTGCGCGGCTGGCACACGCCAATGCGTGGCTGGGCCATTGGCCGCAGCCTGCTCAGTGCCGCCGCCGTCCTGGTAATCTTCGGCCTGACGTTCCAGTTAAAGTGGGGCTTCGTATTTTTACTGATGGGCGGCAGTCTCAGCGCCCTCGTGAGTTATTATCTACTAGAAAGAAGGAATCCCGAGTGA
>SRR1151209_00895 oligo-1,6-glucosidase
GTGACACAGTGGTGGCAAGAAGCCGTTGGTTACCAGATCTACCCGAAGAGTTTTTTAGACAGCAACAGTGATGGCATCGGCGATATCGCCGGTATTGAGCAGAAAGTCGACTATCTCAAACAGCTTGGTGTGGGGTTCGTTTGGCTCTCTCCCTTCTACCCCTCCCCCAACGTGGATAACGGGTACGATATCAGCGACTATCAAAATGTCGATCCCGCTTACGGCGATCTGCCCAGTCTGCTGGCGTTGTTCGCCAAGCTGCATGCGGCGGGCATTAAGGTGATCATCGATTTGGTGGTGAACCATACCAGTGATCAGCATCATTGGTTCCAGGAGGCCCGTTCTTCCCGGACCAATCCGTACCACGACTGGTATATCTGGAAACCAGGGAAAAACGGCCAAGTACCTAATAATTGGCAGAGTATTTTTAAAGGGCCGGCTTGGACCTATAATGCTGCCACTGATGAGTATTACATGCACACCTTCGCGTCCGCCCAACCGGACTTGAATTGGGAAAATCCAAAAGTGCGCGCGGCCGTGTACAAGATGATCCGCTGGTGGCTGGATCAGGGCATTGACGGCTTCCGCATTGATGCCATTGGCCATATCAAAAAGCTGCAGACCTTTGCGGATGTGGCTCAGAGCGACGAGGCCTACACCAACGTGCACGGGCTTTTCGACTACTTAAAAGAATTACGGGATATCTTCCGCGAATATCCGATCATGACCGTCGGCGAAGCAGGCGAAGTGACGCCAACCGAGGCCTTGCCTTGGGTGAACTTCCAGACGGGTTTTATGAACATGATTTTCACTGGCGACCATATTAACTTTTGGGAATCCGATGGTGCATCGTCCTTAACGGTGCCGAAACTGGCCCATGCACTGACGAAGTGGCAAGAACAGTTGGCCGGCAAAGCCTGGAACGCGCTGTTCGTGGAAAATCACGATTTACCCCGCGCAATCAACGTGTATGGCGATCCGGTGCACTACCGGACCCGATCGGCGAAGGCCATCGCGCTGATGTATTTCTTGCTGCAAGGCACGCCGTACATCTATCAGGGCCAGGAACTGGGGATGACCAACTATCCGTGGCGGTCCGTCGACCAGATGAACGATTTAGCCGCGAAACAGGAGTATGCCTTCCGTCTCCACGAAGGCCAAACGGCGACTGCCGCGCTGCAAGCGGTCAGCGACCATTCCCGGGACAATGCCCGGACACCTATGCAGTGGACTGCGACTGGCGGCTTCACGGCTGGCCGGCCATGGCTGCCGGTGAATAAAAACACGGTCGATGTGAACGTGGCTGCCGAAATGGCGGATTCGAATTCGGTCTGGCATTTCTATCAGCAATTAATTGCCTTGCGGGCCGGCCATGCAGCGTTGATCACTGGTGACTACCGGCCCGTCTTGATTGACGATGACCAGATCTTCGCGTATCGCCGCGTGGGCGCCGCTGAAGAATTCCTGATCGTCGTTAATCTCAGCGGCCGGACAGCGGCTATGCCGGCGGCAGTGGCCGACTTTAACGGTCAGCGGCTGATGCAAACAACGGCCCTAGGTCAAACAGACGAGCTGCCCCCCTATGGCGGTGCGGTGTATCAACGAGCGAGAAAGGCGAGGGATTAA
>SRR1151209_00896 sucrose phosphorylase
ATGAAAAATGGCGTTATGTTAATTACGTATGCGGACAGTATGGGTGACAACATCCACGAACTGCAAAACGTGCTGGATAAGCATTTCCGCGATGCAGTGGATATGGTCCACCTGCTGCCTTTCTTCCCGTCGTCTGGCGATCGGGGCTTCGCGCCGATTCGGTACGACGAGGTGGACCCGTGGTTGGGCACTTGGGCCGATGTGGAAAAACTGGCGAAACACTATGCGCTGATGACCGACTTTATGGTCAATCACATTTCTAAACACTCGCCCCAATTCCAAGATTGGGTGGCTAAGCACAATGATTCCCAATGGCGGGACTTATTCCTGGACTGGGACAAGTTCTGGCCCGCGGGCCGGCCGACCCAGGCTGATATCGATCTGATCTATAAGCGAAAGGACAAAGCACCCGTGGCCCCGGTGCACTTCGCGGATGGCACCACCGGCCAGGTGTGGAATACCTTCGGCGAAGAGCAGATGGATCTGGACGTGCGCACGGCAACGACCCAGCAGTTCTTTAAGGACACGCTGGAGAATTTGATCAGCCACGGGATGAATATCATCCGACTGGACGCGTTTGCCTATGCGGTGAAGCAGCTGGATACCACCGATTTCTTCGTTGAACCAGGGATTTGGGATTTACTGCAGCAATTGCAGGATGTCGTGAGGCCCCACGGCGTGACGCTGCTGCCAGAGATTCATGAGCATTACACTATCGTTCATAAGCTAGCGGAGCACGGCTATTATTGCTACGACTTCGCCTTGCCGATGATTCTGCTGCACAGTCTGTACCGCGGCGATAGTCAACGGTTGGCTCATTGGCTGAAGATTTCGCCGATGAAGCAGTTTACCACCCTGGATACCCATGACGGCTTAGGTGTGGTGGATGCCAAGGACCTGCTGACGGACGACGAGCTGAACGATACGACCAATGAGTTGTACAAAGTCGGCGCGAACGTGAAGCGGAAGTATTCCAGCGCGGCGTACAACAACTTGGACATTTACCAGATCAACACCACGTACTACTCGGCGCTGGGCGACGACGATGCCGCCTATCTGCTGGCCCGGGCGGTGCAGATGTTTGCGCCGGGGATTCCCCAGGTGTACTACGTCGGCTTGCTGGCGGGCCGGAATGATTTGGCCCTGTTGGAGAAGACTAAGGAAGGCCGGAACATTAATCGGCATTACTACACGGCGGCTGAAGTCGATGAGGAAATGGCGCGGCCGGTGGTGCGGCAGTTGCGGAATCTATTGGTATTCCGGAACAATGAAGATGCCTTTGATTTAGAGGGCAGTATCGATGTTGCGACGCCGAGCGACCATGAGATTACGATTACGCGGAGTAATCGGGATGGCAGTCGGACGGCTAAGCTGGCGGCGGATTTTGCGACGAAGCGGTTTGTGATTACGGTGAATGGTGAAAAGGTCACCTTATAG
>SRR1151209_00897 transcriptional regulator/sugar kinase NagC
ATGGCGACGCGTTATCTCAGTATCGATATTGGCGGTACGAACATTAAATATGCCCTAATGGACGGGGCAGGAAAAATTCTAGAAAAAGGTACTGAACCGACTCCTAACGGTGGCTTGCTCCAGTTCATGGCCATGCTAACAGAAGTGGTTAACCGCTACGCTGATCAGATCAAAGGAGTCGCCGTTGCGGCCCCTGGGAAGGTTGGTGTCGATCACAGGACGATTCACTTCGGCGGGGCACTGCCATTCTTAGATGGACTCGATTTACGTAAGGCCTTGGCAGGCGTGTTCGACGGACCAATTGTCGTGGAAAATGATGGGAAAGCAGCTGCTCTGGCCGAACTCTGGTTGGGCAATCTGAAGGGCATTCAGAACGGTGCGGCTATTGTTCTCGGCACTGGGATTGGTGGCGGGGTGATTCTGGATGGCCGATTGCTATACGGCAGTCACCAACAAGCCGGCGAGTTCAGTTTTATGTCGAGCCACTACGACGAACCTCAATTCATCAAAGCAGCGGCCGGCAGTACTGGCTCGGCCGTACGCATGGTGCGCACGATTGGAACGGTGGCGCAGCTCGCTGATCCGGGGGATGGCCACGCAGTCTTTGAATTGGTCAACGCGCAAAAAGAACCGGCCTGGACGATTTTCAAAGAGTTTGCCCAACGTATTGCTGCACTGATTCTGAGCATTCAAGCCGTTGTTGATGTAGACCGCTATGTGATTGGTGGCGGCATCAGCGCCCAGCCTATTGTGGTGACGCAAATCAATCAGGCTTACTCGGATCTCTTGAAGGAGAATGAGATCATCGAGAAAACACTGACCCGGCCGGAGATCGTGACGGCAAAATTTCAAAATGATGCCAATCTTTTTGGCGCGCTATACAGCTACCTGCTGTTCATGGACAAATAA
>SRR1151209_00898 hypothetical protein
ATGAAAACTGTTGAACAATGGCGGCCGTACGAGTTGACCCTTACCGGGCCGACGGAGGGCAATCCATTTACTGATGTTGACTTGCAGGCTGAATTCAGTCACCAAGAGCGAACGATCACCGTTCATGGTTTCTACGACGGCAACGGGCAGTACAAGGTACGTTACATGCCGCAAATGGTAGGCACTTGGCAAGTTCGGACGATTGCCAATGTCGCTGAGTTGGATAATCAGACGGACACCTTTGAATGTGTCGCAGCCGCTGGCGACAACCACGGTCCGGTAGTGGTACAAGGAAAAACACATTTTGCCTATGCCGATGGCACGCCGTATATGCCATTTGGTACCACAGCCTATGCGTGGGCCTTCCAGAAAAAAGAATGGCAAGAGCAAACCATTCAAACGTTGAAGGAAAACAAGTTTAACAAGATTCGCATGACTGTCTTTCCCAAGTATTATAACTACAATACGACTCAGCCGGCGCTCTACCCTTATGCCGGCCAGCCCAAGAAGGTTTCGGACACGTTCGATATTGATTCCTGGAACGTGAAGCCAGAAGATATTGGTTTTGACTTTTCCCGCTTCATTCCCGAGTATTTCCAAGCACTGGAGAAGCATCTTCAAGAACTAGATGATCTCGGCGTCCAAGCCGACTTGATCCTCTTCCATCCCTATGACAGCTGGGGCTTTGCCCGCATGGGGGAGAAATTCAACAAACTCTATTTGCGCTATGTTATTGCCCGTTTTGCGAGTCTGAAGAATGTCTGGTGGTCACTTGCTAATGAATATGACCTCATGGCGCTGGTCGGTCAGATTCCATTGACTGCTTGGGATGGCATTGGTCAATTTGTCTATCAAGAGGATCCCAGTGCACATCTGCTGTCAATTCACAATTTTTACGATCCGCCGCAGCACAAGGGCACTCGGAACAATTGGTATGATTATTCTAAGCCTTGGATCACACATGTCAGTGTGCAAACGGACAATCTGTATTTTGTTCCCCAGTGGGCAGCGGATTACCAGAAACCTGTCGTGATTGACGAATGCCGCTACGAAGGCAATATTGAGTTCGGCTGGGGTGATAATTCAGCGGAGGGTATGATGGATAGTTTCTACCGCATCGTCCTGCGCGGCGGGTATGCCACCCATGGTGAAACTTATATTGATCGGCCAAATACGACCCAGTCCATTTGGTGGGCGCATGGCGGGGTCCTGCGAGGCCAAAGCTATTTGCGGATTAACTTCTTCAAACAATTATTGGATGACAACCATTTCGACTATGTTAAGCCAATGGCTACAGAGGGTCCGCATTGGGAGCTTGCTGTGGGTGAGTCGGCAGATGAGCAGCATGTTTTAGCTTATCTGGGGGACAACCAACCGGAATTCGAGATCTTCGACTTTCTTCTTGCCGGCAAGGAATATACCGCCCAACTTGTTGATGCGTGGCACATGACAATTAAAACGCTTCCTGGGATAATCGACAGTGGAACGATGTTTAAGCTGCCGCGCGGCAAGTATCAAGCCGTGCTGCTCACGCTTAAAAAATGA
>SRR1151209_00899 major facilitator superfamily transporter
ATGAGTGATTCAAAACCCGTCGTTAATAAAACGCTCTTGAAGGTTGGGATCCTAGCCACATCGCTGATGCTTCAGGCAGCGAGTGCAATTTCTGTCGCAGTGACCGGTATGACCAAAGCGTTTGATGGCCAAAGCACCACGTCAATTCAGGCATTAGTGACGATTCCATCGTTCTCTATCATGCTTTTCGTCCTGGCCAGTACTTGGATCGTTAAGCTGATTGGCAAGCGCAATACTGTCGTACTTGGTCTTGCCTTGGCCCTGATCGGTGGTGTCGGGCCGGCATTCGTCGATAACTTTACAGTAATTGAAGTGTTTCGGTTCCTGTTTGGTGCAGGTACCGGGATCTATACGTCGTTGGCCGTCAGCTTGATTGGTGATTTCTTCAGCGGTGATGAACAGCGCAATCTGCTGGGCTTGCAATCGGCTATTTCTTCCTTAGGTTCCAGTTTGTCGACTTTCGTCGCCGGCTTGCTGGTGGGTATTAGCTGGCAGAGCACGTACTTGGTTTACTTCGTTCTGTTACCCGTTATCATCATCTTCCTGATTGGTTACCCGCGTCAGCCGAAGACGTCTGCGACTGCGGCGCAATCAACTGCTGAGACCCAGAGCGGCAAGGCCGGCAGTAAGAAAATTTCAATCTACGTTTTGGCCGGCATGCTGATTCTGTTTGTTTATTTCAACGCCATGATGGCGCTGTATACCAACTCGGGGCTGGCTTTGCAAGAAATGCACATGGCCAACCAAAATATGCTAGGTACTTCGCTAGCAGTTGCCGGGATTATCGGCAGTCTGATTACGATGCTCTATGGCCCAATTTATCGAGTACTTAAGCACGTCACCCCCATCGTATTCTGCGGTATCGGTGTTGTTGGGTTCTTCTGGATGAGCCATGCGACCAGCATGCTGTTTTTTACCATTGCCGCAGTTATGGTATCATCCACGGCAATCTTGATTCCTTATGTTTACGGTACTGTGATGGATAGTGTGCCGGATTCTACTAAGAACTTTGCTATTTCGTTGGCTATGGTCTTGAATAACTTAGGTGCGTCGTTCTCGCCGTATACTCTGTCGTTCTTGGGCAAGACATTCCAGATGACCAGTTATTCCGACTCGTTTGTAATTTGTGCGGTCATCATGATTCTGTTAGCGGTGGCCTTTGGTGTTATGCTGCTGAGCCGCAACCGGGTAGCAGCAGCATCCCAATCAAAAGCTTGA
>SRR1151209_00900 LacI family transcriptional regulator
ATGGCATTGAAGATGAGTGATATTGCGGAAATGGCCGGCGTGTCAAAGACGGCTGTTTCGTTGGCCTTAAACGGCCGGGATGGGATCAGTAAAGAAACTCGGGAGAAAATTATGGCGGTGGTGAAAGAAGCCGGCTATACCCGCCAACGGAAACGGCGGACGCCGTCGAAGCGACTACTGGGGGCGGTGACTTTTCTGGTGGTGACCACACCAGCAGTGGTTCGGGATAACTACCGAGCACTGCCGTTTTTCAGTAGCTTGATTTCGTCGTTATCGGCGAATGTCGCGGAGTTCGGCGGCACTTTAAATACAGTGACCATTGATGCCACACACTTGCGCGAAGGGCTGCAACAGCTAGATAGTGAAGACCAACTAGGCGGAACCATGGTTCTGGCGACAGACTTGAAGGCGGACCAAGTGCAACTGATTCAGCAGCAGATGCGCCACGTCGTATTTTTGGATACCTACTATGAAGACATCACCGCGGACTTTGTCACCATGGATAACTATCAAGGCGGCGGGATCGCTGCGCAGCACATCTTGGATAAAGGCTATACAGACATCGGCTACTTTGCTTCTGACAAGATGATTTCTAACTTTTCCGGCCGCCGGCAAGGCTTCCGCAATACGCTGGCTAAACAAGGGCTGCGCGTGAGTAATGACCATTTTTATTTTATTTCTCCGACCGAGTCTGATCCTAAAGGATTGGATATGAAACGGCTTGGTGCAAGCCTGCCGGAGGCTATTTTTTGCGAGGACGACTACATTGCAATCCGCCTGCTAAAAGCCGCTCGGGCAGCGGGAATGCGGGTGCCGGAAGATTTAGCCATCATGGGGTTTGACGACATTTATGAAGACACTCTGGTAACACCAGAGTTAACGACGATTCATGTGCCGGTGGAGCAAATGGCCAATCAAGCCACTTACCAACTGCAGAAGCAGATTTCGGCAACCCAGTGGAATCCACAGAAGGTGCTAGTATCAACGCGACTGGTTAAACGGAACTCGCTATGA
>SRR1151209_00901 fucose isomerase
ATGACCGATCAAATCAAAATTGGCTTCGCACCGACGCGCCGGAACATCTTCAGCGCTGATGCAGCCATTGAATACGCTGATAAAACCCGCGCCAAACTCGATGAATTGAAGGTAAACTACGTCGACATCAAAGACGCGAACGCAGACGGCCTGCTGTACGACGATGACGGCATGCATAAAATCGCGGCCAAATTCCAGGCAGCACACATCGATGGCCTGTTCCTGGCCAACGAAAACTTCGGCACTGAGTTTGAATGTGCGCGCCTGGCCAAACAGTTCAACGTGCCGGTCCTGCTGTGGGGCCCGAAAGACGAAGCTCCGGCTGCCGACGGTTCCCGGCTGCGGGATACCCAATGCGGTCTGTTTGCCATTGGTAAAGTGTTGCGGCGCTTCAATGTTCCTTTTACCTATCTGGTTAATGTCGATATTGACGACCCGGAATTCACCCGCGGCGTCGAAGACTTTATCAAAGTTTGCAACATCGTCAAGACCTTCAAGCAAACGCGCATCCTGCAAGTCGGCCCGCGGCCGTTCGATTTTTGGTCCACGATGGTGAACGAGGGTGAACTGCTAGAGAAGTTCAACATTTCTCTCTCCCCCATTCCACTGCCGGAATTAGTCGATGAGATTCATGACTTGCAGGACAAAAAAGATCCGGATATTGCCAAGACTGTGGCGTATCTACGGGAGATCGCTGACGTGCAGATTGCCGATAAAGATCTGAATATGGTAGCGGCCTTGAAAGTCGCCTTGAAGCGCAAAATGGTTCAATACGGCTGCAACGCCGGCGCAATCCAGTGCTGGACAGCCCTTCAGAATGAAATTGGCATTCTGCCCTACGCTTCAGAATCACTGCTGCAGGATGAAGGGATGCCGGTTACCTGTGAAACAGATATTCACGGCGTGATCTCTGAACTCTTAGTTGAAGCCGCCACCATGGGCGAGCACCGCGCCATCTTTGCTGATGTGAACTGCCGCCACCCCGAAAATCCGAATGGTGAGTTGCTGCAGCACTTAGGCGTCTTTCCTTTTTCAACTGCCAAGAACAAGCCGATTCTGCCCAAGTCCCATTTTGTCTTCGATTATCCCGGCTCGGTCGGCTTCGAAGCCCAGGATGGTCACTACACCTTATGCCGCTTTGACGGCGATCACGGCGAGTATTCACTCCTCCTGGGCAACGCGGAGACCAACCCTGGGCCCTATGAGCAGGGCACTTACGTCTGGCTGCAATTCGCCAACCTGAATCGGTTTGAGACCAAACTGGTCTACGGCCCATACATTCACCATATCGCGGCCGTTCGAGACGATGTTGTGCCGGTACTGTATGAAGCCTGCAAGTACTTGAACGTAAAACCGGATTTCTACGACCCTATCGAAGAGGACGTTCAGGCGTACCTGCGCGGCGACATTACTTCGATCATTAAGAAATAG
>SRR1151209_00902 transketolase
TTGGATATTCAAGCGCTGGAACGCAAAGCAGCCGAGATGCGCAAAACCACCTGGGAAATGATTTATCGGGCACAAAATGGGCACACGGGCTCGGATCTGTCCTGTGCCGACATTCTCGTCGCCCTCTATTACCAGGTACTGCATCAGACCGCTGAATCATTCTCGGATCCTGACCGAGACCGCTATGTGCAATCGAAAGGGCACGCCGTTGAAATCCTGTATAGCGTGCTGGCCGATCGCGGGTATTTTCCAAAAGAAGACTTATTGACATATTCCCAATTTAATTCCCCCTATATCGGTCATCCCACGAATCATATCAACGGTATCGAGTTGAATACCGGCTCCCTGGGGCATGGTTTGGCCCTGAGTGTTGGCATCGCCAAGGCCGGTAAATTGGACGGCAGAGATTACCACGTCTATACCCTGATGGGCGACGGCGAACAAGCGGAAGGCTCCGTCTGGGAAGCGGCGATGGCGGCAGGTAATTTCCACCTGGACAATCTCACCGCCATCATCGACCATAATCGTCTGCAGATTAGCGGCCTGACTGTCAATGTGATGAATAGCGAACCGCTGGCCGACAAATATCGCGCCTTTGGCTTCGACGTCGTTGAAATCGACGGCAACGACATGCGTCAGCTCGTGGATACGCTGCAAACCCGCAATACCCCGGGGCGGCCCAAGCTGATCCTGGCCGATACGATCAAGGGCAAGGACATCAGTTTTGCTGAAAATCGGCCGGAATGGCACCACAAAATTCCGACTCCCGAACAATATCAGCAAGGCTTAGCCGAATTAGATGAACAGATTGGAGGGCTCGTCCATGCCAAATAG
>SRR1151209_00903 transketolase
ATGCCAAATAGTGCGAAAGTCGGCGACATCATTTGTACTGAATTAATTGCCGCCGCCAAAAAAGATCGGAACATTCTCGCCTTAACCACCGATTCCCGCGGGTCAGCGTCGCTCAATCCCTTTGCCCGAGCCTTGCCCGACCAGCTGATTGAGATTGGCATTGCGGAACAAAACTCTGTGACCATTGCGGCCGGTTTGGCCCACAGCGGCAAGCGGCCCTTTGCCTTCTCCCCCGCTGCTTTCCTCACCATGCGCAGTGTGGAACAGGTCAAGGACGACGTGGCGTACTCCAACACGAACGTCAAACTGATGGGCATCTCCGGGGGCAATTCCTATAGCTATTTAGGTAATACCCACCATTCCCTGCAAGACTTGGCGATCACCCGGGCCATTCCGAATTTGGAGGTCTACATGCCGGCGGATCAGTTCCAGGCCCGCGCCTTGATGCACTACCTGGTGCAGTCTGAGCACCCGGCTTACGTGCGCATCGGTAAGCGGGCACTGGCGGATATTTACACCAGTGAAGCCGCGGCCTTCCAAAGGCCTGGACAGGGCAATGTGATTGCTGACCACGGAAATGATATTGCCCTCGTGGCGGCTGGTGAGACGGTGCAAGTTGCCCTGGATACGGCGGCCATCCTCACCCAACAGGGAATTCGGGCCCAAGTCATCGACTTGGTCAGTATTAAGCCATTGGACACTGACCTACTCAACCGGGTAGCGGACCAGACTCACCGGATCGTGACGATTGAAGAACATTCGATTTATGGCGGTTTGGGTTCCGCTGTGGCTGAGGCGCTGGCCCCGCGCGGCGACACCAAGGTCGATATTATCGGTTTCCCAGATGAGCCAGCCATTGCCGGTACCCAGGACGAAGTGTTCAATTACTACGGGATCGATGCTGACGATATTGCTGCCCGCACTGTCCGCCAGCTGACTCACTAA
>SRR1151209_00904 glycerol kinase
ATGGGCAGTTATATGATTGGGCTTGATCAGAGCACCCAAGGGACAAAAGCCATACTGTTCAACGATCTTGGCAATATTGTCTATAAACACGCGCGCAGCCACACCCAACTGATCAACGACCAGGGTTGGGTCAGCCATGATTTGGATGAAATTTATGGCAACGTCATCCAGCTGATCAATGATCTGGTCGAACACAGCCACGTCCCCGTGCGGGATATTGCCGGTGTCGGTATTTCTGTGCAACGGGAAACCGCCGCGGCTTGGGCTCGGGACACCGGGAATTCCCTGGCCAATGCCATTGTGTGGCAGGACGCCCGGGCGGCCGCGATCACGGACCAGCTAACCGATGCCGCCGATAAGGTCAAAGCCAAAACCGGGCTGCCGTTGTCGCCCTATTTCACCGCTGCTAAGTTTGCCTGGCTGCTGCAAAACGTCCCAGCGGTCAAACAAGCAGCGGATACCGGCAACCTATGCCTGGGCACCATGGATTCCTGGCTGCTGTATCGCCTGACCCGCGGCCAGGCTTTCAAGACTGAGCCTTCCAACGCCTCGCGCACACAACTCCTCAACATCCATACGGTGGCTTGGGACGCGCAGCTCTGCCAGCTTTTCGGTGTCCCGCAGGACGCGCTGGCGGCAGTGGTTTCTTCTAATGCCCTGTTTGGCGAAACCACTTTCGACGGGATTTTTCCCCAGCCCATCCCAATCCACTGTATGCTGGGCGACTCGCAAGCAGCCTTGTATGGTCACGGCTGCACCGCGCCTGGCGACGTCAAGGCTACAATCGGCACGGGCTCATCCGTGATGATGAACATCGGCGACCAGCCCATCCAATCGGCTGATGTCGTGGCCTCGATCGGTTGGCGCATCAACGGGCGGACCGCCTACGTCGCCGAGGGCAATATCAACTATGCTGGGGCCGTCATCAAATGGCTGACCGAGGATGTCCAGCTCATTCAGTCGGCGGCCGAGGCTGAACCGCTGGCCCGCCAAGCAGTCGCGGCGGATCAGACCTATCTCATCCCGGCCTTTTCCGGTCTCGGCGCGCCCTACTGGGATGCCACGGCAACGGCGACACTGACGGGGATGACTCGTACCACCGGCCGGGCAGAAATTATCCGCGCCGCCCTGGATTCGATTGCCTACCAAATTAGTGATATCCTGGCGGCAATCGACCAAAAGGCGGGGCAGCCGACAACGCTCAAAGTTGACGGCGGGGTCACGGCGAACAGCTATTTGATGCAATTTCTAAGCAACATTGCCAATGTCACCGTGTCGGTGCCGGACATCGAAGAGTTGAGTGCTTTCGGCGTGGCTTACTGCGCCGGCCGGGCCTTGACGGTGTATGGTCAGCTGAAGCTGAATACCGTGTTGAACTATCACCATTACCAAAATGCCATTGATGATGATCAGCGCCAGAATTTGTTGGCGGGGTGGCATCGGGCAGTTCTGGGAGTCTGCCACGAAGAAGCAGCCCCTAGAAACCACAACAACCGCCACCAGGATAACCTGATGACGGCTGAAAAAAGCTAA
>SRR1151209_00905 maltose phosphorylase
ATGGCGAAAATTGCCGATCAGTATTTTACAGTGGACCCCTGGCAGGTGCAGGAAGAAGGATTTGACCCGAACCATGCGCGCGTAGCGGAATCGATTTTTTCGATTGCTAATGAGTATTCTGGCGTCCGTGGTTATTTTGAGGAAGGATACAGCGGAGACCACTTGTTAGGCAGTTACTTCAACGGGGTTTACGAAAATAATCCGGAAGACCATTCCATTATTTATGCGGGCATCTCCCGCCAAGGCCATTTCATGGTGAACGCGACAGATTGGCTGTTTACCCGAATTAAGGTGGACGATGAACAACTGGATTTGGCTACCAGTGATGTGGATCGGTTCTCCCGGGTGCTTGATTTTCGCAACGGTGTATTAGAACGTCAATTTGTATGGCGCACCCGCACGGGTAAAGAACTGCAATGTACGTTTTCTCGCTTTGTGTCTATGACCGAAGCGGCGTCATGTTACCAGCGGATCACTTTAACCCCATTGAACTTTGCAGGTGAGATCAACATCACGAGCGGGCTGGATTTTGATACCCGGCACGGTAATTCAGAGAAGTCATTCTGGCGGATGACCAAGCAGGAAAACCAAGGCAACAGCTTTGCTGGATTGGGGCAAACGATTCACACGAATAAACGGATCTGTTCGCGCGCCACAATTCTTGGTTTGCCAGTCGAAGACGGCAAGCCAATCATTGACCGCAACCGGTTTGTTGGTACCCAATACAATGTCACCTGCGAAGCGGGCCAAACATTGGCGTTAACCAAGCTTGTAACCAACACGGTTGAGCGGGATCCAGCAGTCGCTGATGCCCAACTGTGGTCACAAAATGAAACGGCTCACGCTGCCCAGGTAGCGATGGGTTGGGATGCGGCGTTAGCCAAACAAAAACAGTTTTGGCAAGCGTTTTGGGCTGCCCATGACATTGAGATTGACGGCGATCCCCAGAATCAACAAGGAATTCGCTACTGTATGTTTGAAATGGCCCAGACTTATCATGGTGAAGATCCGGCCAACAATATTGGGGCCAAGGGATTGACCGGTGAGGCATATGGCGGATTGGCGTTTTGGGATACAGAGACCATGTGTCTGCCTTTCTATCTGTTCAATGACATCCAAGCGGCTAAGAATCTATTGGAATTCCGTTACCGTACGCTGCCGCAGGCAAAGGAACGGGCTGAAATGGTGGATTGCCGCGGGGCCAGTTATCCAATTTCCACCATCAATGGTCATGAATCCACCGCCATGTGGCAGCATGCCAACACCCAGCTGCAACCCAGCACCGCCGTGGCTTATGCCATTTGGCATTATGGTCATCTGACGGATGATCATGATTTCTTGTATACCCACGGCATCGAAATGCTGGTCGAAATTTCTCGCTTTCTTTATTCTCGCGGCGATTGGAGTCAAGTCACGCATCAATTCAGTTTCTATGGCGTGATGGGACCGGATGAGTTCCAGGTGATGGCAAATCATAACGCATATACCAATTATATGGCGCGTGAAACGTTCCGGTACACGATACAGTTATTGTCAGGAATGCGGGAGAATGTCCCTGCTTTAGCAGAACAGGTTGTCCAGAAGACAGGCGTGTCTGCGGACGAGTTGACGGCATGGCAAAAAGCCAGCGACCATATGGTTTTCCTAGGCGATAACAACGGGATGATCGAACAACAGGCCGGTTTCTATGATTTACCCCATGTGGATATAGATCAGATCCCAGTAAGTGATTTTCCGTTGTACGATCACTGGTCTTATGACCGGCTGTTCCGCAATGACATGATCAAGCAGCCGGACGTTTTGATGTTACAGTTCCTATACAATCATCAATTTACCGAGCGGTCTAAGCGGCTTAATTATGAATATTACGAACCGCGCACGATTCATGAATCATCCCTGTCTCCATCGGTGCATTCTATTTTGGCTGAAGAGCTGCACAAATTTGACGATGCGTACAAGTTCTTCCAATTTGCGACGCGCATGGACTTGGACAACTACAATCGCAATACCCGGGATGGACTGCATACCACCTCCATTGCTGCCGCGTGGCTGAACATTGTTTATGGTTTTGGCGGTTTGCGCAGTGATGGGCCGACGTTGACTTTAGCACCAAGTATCCCGAAGCAATGGCACCAGTATTCTTTCAAAATCACTTATCGGCGAGCTAATATTACCGTACAAGTGTCGCCAGATAGCGTTTTGCTTTCCGCTAGTCAGGACATCGCCTTGCAGGTGTATCAGCAACCGATGGTGATCAATCAAACACCGCAACGAGTGAAAATTCCAAAGCAATGGCGGACACCCGCAACTGTGCCCGCCATGTAG
>SRR1151209_00906 maltose phosphorylase
ATGACGTTCGATAACCTGACGGGACAATTATTTTGGCCAACGCCGCTAAAGGACTGGCGGATTGAAGAACATGGCTTTCAACCGGAGGCAGTAATCAAAAATGGCAATAAATTTCTAACAGCTAATGGCTATATGGGTTATCGCGGCACGTTGGAAGAAAATGGCGCAGCTGAGTTAGCGGCAGTTAACCTGAGCGGCGTTTACGATCAGCGCGGTACGGCTTGGCGTGAACCAGTGAATGCACCTAACCCATTTCATGTTGTTACTCGAGTCGCCGGACAGGTGCTCGATCCATTGCAGCATCCAATTAGTGACCATGAACAAGTTTTGGATATGGCGGCGGCGGTCCATCATCGGCGAACAACATTCTCGACTGGTAACACATTAGTGACCATCACGGCGAACCGTTTTTTGGATATGGCCCAGCCACAATTCATGTTTTTGGAGTATATCGTTCAAGTTAAACAGGCAACCGTGATTTCAGTTACTGCCGGAATTGACAAACAAATTTGGGATATCAATGGACCGCATCTAGTTGATTGCCAATCATGGCGAGAGGATTCCGTATTTGGTTACGGCGGCCAGACTGGAGAAAGTCAGCTGGCGGTGACTACGTTAAGCCGGATACTGGTCAACCAGGGAGAATGTAACGATATCGACAGGCCGGATCAAGTGGGCCAAACAATCGCTGTAACGGTAACCCCTGAACGACCGCTGTGCTTACTGATCGCGGCGGCCGTCACTACAGGACGAGAAACTGATGCCCCCATTGCGGCATTGGCAGACACGTTAGCCAGCTATACACCGGAGACAATTGGCCAAGAGTATAACCGTCATTGTCAAAAGCTGGCAGCATTGTGGCACACAAGCGACATTCAAATTGAAGGCCCCCAGCAGGACCAAGTGGCGCTGCGCTACAATATCCTGGCATTGATGATGATTGCCCCGTTGGCCGGCAGCCAGTTGTCCATTCCGGCACGCGGTTTATCCGGTCAAACGTATAAGGGCGCCGTGTTTTGGGATACCGAGTTGTTCATGACGCCATTCTTTCTCGCCACCCAGCCAGCGGTAGTACGTGACCTAGTGGCGTATCGGCTCAAGGGTTTGATTGGAGCGAAGAAAAAAGCGGTGGAATATGGCTATACCGGTGCATTTTATGCCTGGGAAAGCCAAGAAGATGGTTATGACGCCACTTCCGATTACAATGTCACCGATGTCTTTACCAATCGGCCAATGCGCACCTATTTCAAGGACAAGCAGATCCATATTTCGGGAGATGTGGCGTTAGCAATTTGGCAGGCCTTCCAGTGGTTACAGGACCCGGCGATTCTGTCCCAGGGCGGCGCAGAGGTCATTGTTGAATGTGCCCGCTTCTATGTATCCTATGCGACGGCGCGGTTGGATCGGTCTGAAGTTGCGTTCACGGATGTCATTGGCCCCGATGAGTATCACGAACGGGTAAGTAACAACGCCTTCACGAATCGCGTGGCATTAGCAACGATTGAAGCGGCGTTGGCTGCTATTGCGTATTTGCGAGAAAACAATGCGGAGTATTTGGCGAAGATAGCCCAACAGTGGCAGTTGACGGATTTGCTCCCGTTGTTTACAGAGACTGCAGCTCGGATTCGATTACAAACACCTAATGCAGCTGGTGTGATTTCGCAGTTTGATGGTTATTTAGCGTTAGCTGATGACTCGATTGATACGGTTCGAAGCAGATTGCTCAAGCCTAAGGAATATTGGGGTGGCGCTTACGGTGTGGCCAGTCAAACACAAGTCATTAAGCAAGCCGATGTCGTCATGATGCTGGCCGTTTTTCCAAATGATTTTTCGTCAGATATTGTGCGCGCTAATTGGCAGTATTATGAACCGCGGACGGAACATGGATCGTCATTGAGTTACAGCATGTATGGGCTGATTGCGGCGCAGTTGGGTATGACGGCGCCAGCATATGATTTCTTCCAGAAGACAGCAGCAATTGATCTCACTGGGGAAAGCAAGCAGTGGGCCGGTACGATTTATATCGGCGGCACTCATCCAGCAGCCAGTGGTGGTACGTGGCGTTTGGCGGTGGAAGGCTTTGCTGGTCTGCACGTTGAAAATGATCAGTTGGTTGCCACCCCGCACTTGCCCAGTCAGTGGCAGAAAATGGCCTTTCGAACGTACTACCAAGGTCACTGGTACCGAGTGAACGTCACTGCAGCCGGCGCGGTAGTGAGCATTGCAGATGATGAAAAGATAGGAGTGGACGACTAA
>SRR1151209_00907 hypothetical protein
ATGTCTGATCTGTTCAAGTATGGCAGTCCATTCATGCAGAAATTGGAACTGATCACCAATTATCTGCTGCTCAATTTGCTAATGCTGATCAGCGCGTTGCCCATCATCACTTTGGGAACAACATTGATCACCGGCGTGGAACTCAGCCGCAAGATGCTGGACAAGCAAGCGGTGAAAGTATGGCGAGATTACTGGACGCTATTCAAGACCAACAGTATAAGCGGCTTGTTCTTGGGCATCCAGATACTGGCGATTGGTGGATTGCTGGTAGTCGATTGGTTATTCGTTAATCACCTGCCAATTGTTGTGCGGCTTCTTGTGGTTGTACTGCTGTTTATCCTCTCTGTTGGGGCAGTGCTGCTTTGTACCACGGTAATTCCCTATGCGGCGCGATATAACGACTCGTTCCGGCATATTTGGAAGAATGCTTTGCTGATCAGTATTCAAAAATTCCCGTGGGTTATATTGGCCAGCATTCTCTTGGTCTTACCTTTGATTTTCTTGATGGCGGGAGTTCCCGGTTTTGTCACGGCCATTTATTGGCTGACTTTCATTGGCTTTGGTGCTTATGCATTTGGCACAGCCTTGATCTTTCGACATGTGTTTAATCAACTAGAAACACGAACGGAGGTTCCGCTACAATGA
>SRR1151209_00908 lipoprotein LipO precursor
ATGTTTGGCAAGAAGAAAATGTTTCAGTTGGGGACAGTCATGCTGGCGTCTGCTGTGCTGCTGGCCGGTTGCGGCACCGGCAGCAGTTCGTCAAATGCCGATGACAGTAAGAACACGTCCTTCCGGATCGCAACGGTGCGCTGGTCGGATTGGGGCAAAGCGTTCTTGAAAGGGTTTGTCGCTAAGAGCGAAAAGCAAGCCGGAATCAAGGTCAAGTGGGATGTATACGTCAACTCAGATTGGGGAGACAAAAAGTCTGTTGTGATGTCCGGCGGCGATTTACCTGACGCATTCTGGGGATCAATTGCCTTATCGGATGCCGAAATCGCCAAGAACCAAGACAGTTTCATCCCTTTGGAAAAGTATATCAAGGACATGCCGAATTTACAGAAGGCCTTCAAGCAAGATCCTAAGTTGAAGGCGATGGTTACCTCCCCGGATGGGCATATTTACTCCTTACCCAAGAAAACACCGATGCGGCCGTTAATTGCCAACCAGCTGTTCATCAACAAGACTTGGTTGGACAAACTCGGCTTGAAGATGCCGGACACTTACGATGAATTCATCCAAGTTTTACAAGCTTTCAAAGATAAGGACCCCAATGGCAATGGTAAGAAGGATGAAATTCCTTATGGTGCTGGTAACGATGATTCCATTTTGAACTTCATTCAGCCCTTTGGTATTTTTTCGCCGAACGCGGCTGCTCAAAACATGGTGATGCAGGACGGCAAACCAGTCTTCCAGCCCACTTCACTACAATATAAAAAAGGATTGACCGCGATGGCCGATGCCTACAAGAAAGGGTTGATCGATCCGCAAATCTTCACGGAGGACACTTCCCAGGCACAGGCTAAAGTACAGGCCAAAACAGCGATTGTCGGGGTTGCCCCAGGTTGGACAGCGGATGCTGTATTTGGTGCCAATGCGGATCAATATGTTGCTTTGCCGCCATTGAAAGGACCAGATGGCAACCGATACATTAACTCTGATCCAGATCATCTGAACTACGCACGCAATGAGTTCTTGGTGACAAAGAATGCCAAGAACGTCAAGAAGCTGATGCAGTGGGCAGATAAGTTCTACACCGACGATGCCAGTATTCAGACGTATTACGGCTCATTCGGTATTGGGACAAAGAAACTGTCTGATGGCAAGATTCAAGTACTGACACCACCTAAGGGTCAATCCAGCGACATCTTCGCTTGGACGAATTCCTTCCGGGATTTTGGCCCGAAATACTCGCCGACCAGTTTCGACAAAGACGTGGTTCTGCCGAAGTCTAACGGCGACTACACCAAGTTAGCTTTGGACAAGGAATACCGGAAGTATGCCAAGCCGGCATTTCCGAACGTCACTTACACCCCGGAAGAGTTGCAGAAGATGTCTCAGCAATATACGGATATCAGCACTTATGTGACGCAACAATCCTCTAAGTGGGTCACTAAGGGCGGCGTTGATAGCTCTTGGGATGATTATGTAAGCAAGTTGAACCAAATGGGTCTGAAGGATTTCGTCAAGACTCAGGTGACTGCCTATAACCGTTACGAGAAACAGCTGAATAAATAG
>SRR1151209_00909 sugar ABC transporter permease protein
TTGGAGCTTACCAAGCAAAAGCCAAAGCGGCGCACGCAGCATGTGACGCACATTGCCCGATCAGGTAAAGACAGAGCCTTTGACATCGTCAATTACGGGTTTGCCATTCTCTTGATTTTAGCTATCATCTATCCGCTTTGGTTCATTATCATCGCTTCGTTCAGCAATCCTTCCGATGTGGCAACTGGTCAGGTGTGGTTCTGGCCTAAGCATTGGTCGTTGAAAGGGTACGAAGCGCTGTTCAACCAGCCGATCATTTGGCGCAGCTATCTCAATACCATTCTTTATACAGGAATTGGCACGCTGTTCGCTTTATTGGTTAATATTCCTGCGGGCTATGCACTGTCCCGAGATGATTTGCTGGGTCGGAAATGGATCAATCTGGCCTACGTGATTCCCATGTTTATCAGCGGCGGCCTGGTACCAGTTTATTTGACTGTTAAAGGGGTTGGGCTGCTCAACTCATTCTGGGTGATGATCATTCCCTTCGCGGTATCGCCATACAACATTATCGTTGCGCGGACGTTCTTCAAACAAACGATTCCGGCCAGTTTATGGGAAGCGGCTCAAGTTGACGGTTCGGGTACATTCCGATATTTCTTTCAGATCGTCATTCCGTTATCCAAAGCCGTACTGGCGGTGGTGGGGTTATGGACGGCCGTCGGTATCTGGAATCAATGGTTCAATGCGTTGATTTACTTGCAGGATCAGAACCTGCAACCATTGCAGTTGATTTTGCGCCGAATCTTGATTACTAATCAGCAATTGGCAGGGAACACGACAGGCCAATTGGCGGCGGAGCTGCAACAACTGGCCGATATGATGAAGTATGCATCAATCGTGATTTCGACCCTGCCGATTATGGCGTTGTATCCATTTTTACAGAAGTATTTCAACCAAGGTGTCATGCTTGGTTCAGTCAAAGGTTAA
>SRR1151209_00910 ABC transporter permease protein
ATGGCAATGCAGGCAGTTCAAACCGATGGGGCACTACGTAAAGCAATGAAAAAGAAGCATCGCAAGACGATGCTGCGCAAGAGTTTACCGCTTTACGTGCTGCTATTACCATCTGCCATTCTATTACTGGTGTTTGCCTATGTCCCCTTATATGGACTTGTGATGGCGTTTCAAAACTATTCACCAGCGTTAGGGGTCTTTCGCAGCCCATTTGTTGGTTTTCAGAACTTTATTCAGTATTTCAACTCGTACCAGTTTGGCATCACGCTGCGTAACACGCTGTACATCAGTGTGTACAGTCTGGTCGTGAATACGCCTTTACCGGTGGCCCTCGCCATTATGGGTAATCAAATGCGGCGGGAAGGCTTCAAGAAGACGTTTCAGGTGATTTCGTATTTACCTCACTTCATTTCGACGATGGTGATGTGCGGGATGGTTCTGATTTTCTTATCACCGCAGACGGGCTTAGTAGCTAACCTGTTCCACTTGTTTGGGGCTAAATTACCGGACCTGATGTCAGACAGTGGGGCCTTTGCCCATGTCTATGTATGGAGTGATGTGTGGCAGAACCTTGGCTGGAACAGCATCATTTATATCGCAGCGCTCTCAGGAATTGATCCGACTTACTACGAAGCAGCCACGATGGATGGGGCGACAACATGGGAAAAAATCCGTAACATTGATTTACCCATGCTCATGCCGACCATCATGATTCTGCTCATTATGAGTGTCGGTAATCTGCTCAATGTTGGCTTTGAAAAGGTGTTATTGCTGCAGAACCCTTTGAATTTAGCGGGGAGCGAGATCATATCCACTTACGTCTATAAGATTGGGTTGCAGAATTTCCAATACAGTTTATCGACTGCTATTGGATTGTTCAACACCGTGATCAATATCATCTTGCTGCTGGGTGTGAACTGGATTTCGAAGAAAACGACCGATACTGGGTTGTTCTAG
>SRR1151209_00911 two-component system sensor histidine kinase LytS
ATGAAAAAGCATGGGGACTACTCGGTATTTCGTTACGTACGCGTCATTATGGTCATTCTCGGGGTGTTGGGGATGTTGAACATCGGCTTAATTCTATTCACCATCTCCGCTTCCCAGACAGAACAGACTGCCCGGTTGCGCCAGACAACGGCAGCGTATATGCAGCAAACCAGCCATACGGTCCGGGCTGTTGATCACTTTATGACGTACACCATCGTCAACGATGATGACCTCACCTTGTTAACGACTATTCCAAAAAATGAGCAGTCCTATGATGCCATTAAGCCGCTGGAACATATCCGTTCCCGGGTCTTTGATTTCCAGTATTCCAGTGGTAACGCCTATCAATTTTTCATCTACTCGCCCAGCAACGATTTCTTCGCGAACATTTCTCCACTGGAGATGTCCTATGACCGATACTTGGCCATGCAAAGTCACGTCCGCCGAGAAAAGTCTGATGCCTCTTGGCAGCAAGTCACGTTACTCGGAAAAATCTACCTGCTGCATCGCTTAACCTACGAAGGGGCCGTGTTGTATTGCGTAATCGCGCCAGAATCGCTCACGGCACCATTGCGCCAGAGTACATTACGTTCCGGCGATGGTGCCTACCTGAGTCTGAACGGACTGCCGTTAACCAAATCCCCTAACACGCGCAAAGCCGCAACCGCCCGCCAATTAAACTTTAACGGCGAGGATTACAACCTGCCATTTTCACTCCACATCACAGTTCGCCAATTCAATCTGCCAGAGCAATTGACAGTGATCCAAATCGTCATCGTTCTGCTGTCTACTGTGATTGGCATTCTTGCCTTCGTTGGTGTTGTGTATCTGTGGCGCAACTTTGCCATTCCGTTACGCTCGTTTTCTTCAGCATTGTCGGTCATCACAGAGGACAATGCCGACGAAAAAATCAAAAACTACCGGATCAGTGAAATCGATGCGGTTAACGAACAGATTCGGTCGCTGCTTTCTCAAACCAAGAAGTTGAAGTTGTCACTGTACGAACAGGAAATTGCGCAAAAGCAGTCGCAAATCCAATTGATGCGCATCCAGTTACGACCGCATTTTTATCTCAATATTCTCTCGACAATCGACAGCATGATTCAAATCAGTGAAACCAAGAACGCCCATGCCTTGATCATGGCCACGACCAAATACCTGCGCTACCTGCTGCGGACTAATGCGGATTTAGTTCCATTGGCGGAAGAACTGCAATTAGTGACGGAATATGTCCAAATCCAGCAAATTCGTTACGGTCATGACGTACTGGCCCTCTCTGTGACTGTACCGCCGACACTGCATCTTTACTGCGTACCGCAACTCATCGTTCAGGTCTTCGTTGAGAACGCTGTTAAGTATGGCGTGACTTTTGACCAGCAAACCCAAGTTGGTGTGGCCGGCAACCTCGTCACGCATCATGCACAAAATTATCTGCATCTGCGGGTCAGCAATACTGGCCCATGGTTCCCTGATACGCTGCTAACTCAGCTCAACGAGGGCCATCCGCCATTACCCTCTCAGGGCCAGCATATTGGCATCGCTAATGTATTCAGCCGATTACGGATGTTGTATGGTACTGACTTCGCGCTGCACTTTACAAACTTGGATACTGGCGGGATCGCTATTGATATTGAAATACCCGCCCACACCGGAAAAACACCAAAGGAGTTGGCTCATGATGCAAGTACTGCTCGTAGATGA
>SRR1151209_00912 two-component system response regulator
ATGCAAGTACTGCTCGTAGATGATGACCGGTACATCGTTTCGGCCTTGGAACAACAAATTGACTGGCAGCCATTGGGCTTTACAAAGGTCTGGACTGCTTATAACATGGTCCAATCACAGAAGATTCTTGCTGAAGAGGCCATCGATTTGGTGGTCTCCGATATCGAAATGCCCCAGGGCAGCGGCCTCGAATTACTGGCTTGGATGCGCAAGCAGAAGTTCTATCAGCCGCTTTTCGTCTTTTTAACCAATTATGCAGACTTCAACTATGCGCAAAAAGCCCTGGAATACCAAAGCTTTGATTATGTTTTGAAGCCCGTTGATCCCGATGAGTTTACGTTAACAGTGAAAAAGGCTGTGAAAAGAATTCAGGAAGATGCTGCCCGCAGAACCGCCGGCAGTACTCAGCCCAGTACCATTTGGCGGCAGTATGTAACAGGCCGTATTGACTCAGCTGACCAAGCCAAGCTGCCGCAGCACACTTTGAACATTGTTTCGTGGTGTCATGCCGACCACGCCACTGATTTGACCCATGTACAGGAAGTGATCTGGCGGCTGTATCATGACCATTTCACCTTTGCTGCGTTTCAATTGGTATCATTCTTTCATATTCAGGATCGCAACTATGGCCTGATTTTCAGCACTCCTAGTCGTTCAGAGAATACTGGCAGTGCACAGCAAGCGGTCCAACAATTTCAACAAAAACTCAAGGAATTGGGTATTTCAGTTTCTCTATTGACGAGCCCACCGGTACCATTTACGAAACTACCGCAAACTTATTCAGAAATTCACGACATGGCTGAAAAAAGGGCGATTCACCGGGGAACATTGATGTCTCTAGCTGATTACCAGCCGCAAGCAGACACCTATGTTGCTCCGGACTACAACCAAATTCGAACATTATTAACAGCCCATAACACCGATGCGGTGATTGCCTACTTCCGGGATTATCTTCGCCGGACTGATGCTGCTGGCCACCTGACCCGCGACAATCTCGCCCGACTGCGCGAAGATTTTATCCAATTGATGTACGTCGCACTTCAGGAACAACAGATTTCTGCCCATGAACTGTTCAAGAATGACACGTTTGCCCAGCTGCAGAAACGTTCTCTCAATAGTATTGAATCCTTGCTGGAATTCATCACTTATCTGGTCAAAACAGCCGTCACCCACATGACATTTATTGACCGGCACGACAATGTCGCATTGCAACTCAAAAATTACATTGACCAGCATCTGGGTGATGATCTGTCCCGGGAAGTTTTGGCCGATCTCGTCTTTTTGAACCCGGATTATACCGGTCGGCTATTCAAAGAGGAATACGGGCTTTCACTTACCAGTTATATCATCCACCAGCGCGTCCAACAGGCGGAATACTTGCTGATTCACACCAATCTGTCAATCCAAAAAGTTGCGGAAACGGTGGGGTATACTAATTTCTCTTACTTCACAAAAATGTTTAAACGAGTAACCGATATGCCGCCCATGCAATACCGGCAATCCCACCAAAAGACTTCCTCATAA
>SRR1151209_00913 glutathione reductase
ATGGTTCAATACGATTACGATGTGTTATATCTCGGCAGCGGTCACGGCGCTTTTGACGGCGCTGGCCCGCTGGCCGCAACAGGGAAGCGAGTGGGGGTCATCGAAAGCGACATGATCGGCGGCACCTGCCCAAACTACGGCTGCAACGCCAAGATTACGCTGGACGCGCCGGTGGTTTTGCAACGGGCCGCCGAACGGATGCAAGGCATCGTGGATGGCGCAGTGACCATTAATTGGGGCAATTTGGTCGCCCACAAGCAAGATGTGATCAAACCGTTGCCCGACGCTATTGGTCATGCATTGACCGGTGCCGGCGTGACCATGATCAACGGCCGCGGCCGGTTGACGGACGCCCATACGATTGAGGTGGCCGACCAGACCTACACGGCGGATAAAATCGTCATTGCCACTGGCCAGCGGCCGCATCGCTTGGCAATTCCGGGGGATGAGCTGGCCCATGACAGTCGGGCGTTCATGGACCTGACCACGCTGCCCAAGCGCATTGGCATTCTCGGCTCCGGCTACATCAGCATGGAATTTGCCACTATTGCGAACGCGGCGGGGGCGGAGGTTACCGTGTTCATGCGCGGTGACCAAGCTTTGCGGGAGTTCCATCAACCATTCGTCAGGCAAGTCATGGCAGATATGGAACGGCGTGGGATCACGTTTATTCCCAATGCCCAAGTCGCTGGTCTGGAGAAAATCACCGACGGCATTGCCGTACACTATGGTCAAAGCCAGAGCAAGACCGTGGACTGGATACTCGACGCCACCGGCCGAGTACCCAACATTGAGGAGATCGGCTTAGAGGCCGCCGGCGTCGCCGCGACGCCCCACGGCATTACGGTCAACGACCATCTCCAAACTACGGCGCCCAATATCTATGCCTCCGGTGATGTGCTCGACAAACCGCAACCCAAGCTGACGCCCACCGCCACTTTTGAGTCTTATTACCTGTTTCAGTTGCTCAGCGGCCAAACCACCGCGCCCATCGACTATCCGGCCATTCCGTCGACGGTGTACACCACGCCGCGAATCGCCAAAGTCGGCGTGACTCCGGAACAAGCCGCCAAGGGCGATTATCAAGTGGTCCGCAATCATATTCCAGATGATTGGTACCGTCAAATTGATCAGGAAACACTGGGCGATAACGTACTGATCTATGACGCTGATCATCATCTTGTCGGCGCCACGGAATTCAGTGCCCAAGCTGAAGATGCCATCAATACGTTGCTGCCGGCAGTGGTGTTCCAGTATACGCCGGCTCAGATGTGGCGGCTGGCCCATATTTTCCCATCGATCAGTGCCTCGGCGTGGCATAAGGCACGTTAA
>SRR1151209_00914 sortase
GTGCGGTGGATCAAATGGCTGAGCCGCATCCTGATCGGCGGTGTCTGTGTTTGGGCCGGCCTCGTGCTGTATGGTTATCACTTGACCCAGCAGCGCTCAATACCGCCTGTGGCGATAGTCGGTCGAAACCAAAGGGCGGTGACCGCCCGCCGGCACCGGCTGATTACGCAGGCAGCCTATCCCCACACCCTCGCCCGGGGGCATAATCCAGCTTATGCCCAAGCCCTGATTCAAGCCGATCAGTATACCGCCCAGCAAGCGATTGGGCTGGTCTGCATCCCGGCGGCCAAAATCATCCTGCCAATTTTCCCTGGCACCAGCGACTTCGCCCTATTGAACGGGGTGGGGACATATTGGCGCAATCAGCGGCTGGGTCAAGGCAATTACGTGGTTGCCGCCCACAATTTAAGCGGGCAGAAAGCGTTGCTGAATCCGATGACAGCGGTCAAGCCGGGCCAGCACATCTATCTTACTGATTTTGTTCATCTCGCGACCTATACGGCGGTGAGCAATCGGGTGGTGACGGACCGGCACAGTGAGTTGTTGGCCGTACCGGGTCCGCATCAACCCGCTGAGGTCACCCTGTTCCGCTGCGTTGGCGGCATCGGCACGCCCTGGCGTGAAGTACTGCAGGGGCGGCTAACCAGTGAGCAATGGCTGAACCAGGCAGCGCCAGCCTTGCTGCGGCAGATGCGGCTCACAGTTAACGGAACAGTCACTGCCTATCAGGTGAGCCGCAGCCGGTCTGCCACGCCGCTGGCGCGCTGGGGCCTAACAAATTATCAAAACATCATGCACCAGTGGGGCTGGGCAGTGGGTGTACTCATCGCGGCTTGGCTTATCGATGTGTTTGGCACACTGCGGCAGCGTCGTGCACCAGTGTCCCATTAA
>SRR1151209_00915 hypothetical protein
TTGACCAAAATTAGACGCTTATATCTTATCCTTTGGGGAGTATTGCTCAGTCTGGTTGGCGCTGCCTTAATCGCTCAGCCAGTTGTTCAAGCAGCGGTCGCCGATTGGCCCAGCTACTGGCAAGCCGGAGATTATCCCACGGCAAATACGCCGCTGAAAGACGATCACCATCCGCAGACCATTGTCGTCCCAGACGCTGAAAAGGCCGAAGCAATCAAAGGGGATTACAGCTTTATCCCGAATTTCACTTCCCAAACCCAAGTCTACCTGGTGCAAAATGGCCGCGCTCAGCGGCAATCGACCTGGCGTACACACCAAGTATTTAATCAGGCTGACATTGATGCCAGCCATCCCTACTTGTATTACACGAACGTCGGGTTCTATACCCCCGCGGGATCGAATACACCAGTGGCCATCGACATTAAAGAGACTTTTGAACACGTGAATTCTCAACCTAGCGGGATTTGGCCCCTGCAAACGCTGGGAAAAACCTGGTTTGGCCAAAATTCGGTGATCACCGACGATCCGGCGGGCGGCGAGTTGAACTTTGACCGCAGCATCGGTTCGAATCTGCTGTCTGTGGCCCATACTTACGACGGCACCACGACATCACTGGCGTTACCACAGTCTTACGGATATCGGCCGGCCACTATCCGCATTGAGTTCTATAGTCATCCAGTCTTCAATAACGATTATGCTGGTCAGGGCACCCCGCTGAAGGATGGTCAAGTGAATCCGGCGGTGGTACAGCCGGCCCAAGTGGCTGGAATGCTGACATACGGGGATATCGACAACGATGAATCGGTGGACGTCAAATCCGATGCCAAACTGAATAATGTGTATGTAACCAACTATTCACCGGGCTTTCTTCCCTTTATATCCGATCATTCAGACCCCGTTGCCGGGCGCGTGGTCAACGATCATGAACTATTCTTCGGGTCCACCTGGCACGGCGGTTTGCTGGGCCGACCGGACGCGGCCGCGACGGATCAGAATCATTGGGTCACCTTCACTTATCAGCCGACCCATGATTTGTATTTATCGATCAATGCGTCCCACTCCAAGGTTCCTTACTTTCCGCGCAGCTTAGTCCCAGTGGAATTTCCGCCGCCGGTCAAATTTGGCTTGATTCTGCCTGAACGCAAGCCGGCGGTGACTGATCAAGGTGTATTGTCCCCAGAGAAGCTGGTGAACCGGCAGATTGAGTGGCGGGCCGTATATACCGTACCCGTGCGGGTCTATAAGAATGCCGAACGCAAGGTGCAATTTATCGACGACTTGCCCCGGCCGATGACGACTGCTGTCCAGTTGCATAGTACCTGGTGGGGCCAGCAGCCAGGGGCTAATATTCGGGTTATTCAGGAAGACACCCAGAAAGATGTGACGGATTGGTTCGACTTTCAAGGCACCCAGCTGGGTAGTGATGGCCAGCCGCACATTATCGCGTCGGCGCTGTCTTCCACGCTGAATAACCACACTGACGACTTTACCAAGAGCTTCTATGGGCACAACTATTCTTTGGTCATCACGGCCACGATTACCGATAAAAACCAGTCGGTGGCAGACATTGCCAGTCACTACAATGCCCAGACCGGCGAGTACACCTTCGCTAATCAGGCGTGGCTCGTGGCGACCAAGCGGATTCAAGAAGGACCGGATACCTTCACGTTTGTGGATGACAAAAAGCCGTCGAACGTGGCCCATGTCAAATTCAGTGGGGTGCGGCCGGTCCACGTCCTGTATGCTGAAGCCGACCAAGCGGGCAATTTGGCCTTAGACGACCAGGGCCGCCCTAAGCTGCAGTTTCGGGCGGATAAAGATTGGCAATATCCAGAAGGGGCCAGCCTGGACAAAATCAAACTGGCCGAACCGTTCAACGTGGCGGGCAAAACAGCAGCTGGGGAAGATTGGGTGCCGCGGCAATTTACGGATCACCAGCAAGTCTATACATTTGTCAAAATCGACAGCGCGGCCGATGCCCGCCGCCTAGCACCATATCAAACTGCCGATTGGCTGAATCGCCGGACTGACGGTCGGTACAAGCACCATGACCAATATATTCTGGCCCTCTACCAGCGCAAGCCGACCAGGGTACCGCTGGATAAAACGGTGAACACGGGCCATCACACCGATGGCCAGACTGGCGATGACACTGAAAAGGTCACCACCGGCACCGTCGGCCATGACGTGACGTGGAATCTGGAAACGGGAATTGCTCAAAATATCGCCGCAGCTAAAGACTTCATCATGACGGATCAATTAGACCCGCGCCTGGATTTCTCGGGAATCAAAGGATTCCGTTTAGGGTATTACGATTCTGCAGATAAAGTCGCGACCTTGCACGACGCGGTCAAGCTGGACCTGGCGGCGGGGACGGATTATACCGTGACCCCGGCACCGGGTCAGGGCGGCACAGTGACGATCACCTTCACCCCGGCCGGGCGCCAAAAGTTGGCGGCCAGCGTGACCTTCAGTCCGACGAAATTCGATGCCGGCGGTAATGCGCTCGCTTATGCCAAAGCCGACACTCAGCAAGCGCACCCGGTGGTGCTGGTCACGGACTTAGGGACCAAAGTGAATAAGCATGTGCTGGATAAGGGGAACTATGGGCCAATTGACAATAAATTTACCGTAACGATCAATGGTCAAACCACACCGCCATCTGATGATCCCCAGGTACCGCCGATTCCGGATAAACCGATCCCGCCGAATACACCGGTGACGCCTAAGGTGCCAAAAGTCTACTTCGTCAACGTCGGCGCGACTAAAGTCAGTCAGGAAGATAACCAGGCAGCGTTGGCTGGAGCGACATTTGCCATCGCCGATACGGCAGAAAATGCCCGGACGGGGCATTATATCCAGGTGACACCGGAAGGGCGTTATGTCTATCCCGGCGACGACCATTATGGCGACCCGGCCAACCAGCCGCTGACCCAGGAAACGAATCAAGCCGGATTGGTCACCTTCCAAGGATTGAAAACCAAAGATGCCCAGCAGGCGGACAATCAGCAGGATGTGCAAAAAGACTTCAGCCGGGCGTATTACCTGGTCGAAACCAAGGCACCAGCAGGTTACGGCTTAATTAAAAAGCCGATTAAAGTGATTGGGGCGGTAATTAAAGCAGCCGATCCGGCGGTCGTAAAAATTGAAGACCCCCGGCATACGCCCGTGACCCCAAGCTTCCCAGCCGCTGGTGCTGCCAGCCTGTTACTGTTGGGCAGCATCATTATGACGGCCGGCAGTCTGGCCGTGATCGTCAAGAAGAAAGCCGGCGCGTAA
>SRR1151209_00916 hypothetical protein
ATGAAGACCATTTGGCGCTGGCTGATTATGCTGGGCGCGCTCTGGACCCTGCTCGGGCCATTACCGGTCGCCGCCGCTGGAACATCTGCGCCGCAACCGCCAGCACCGACTTATCATGTGCAGCTCACCGCGCGCACGATTGATCAGCAAGCTGCGCCGGGCGTGCCATTCTCGCTGGTGCCGATTCACGCGGCGGGCACTCAGACCGTGGCGGCCGCCGACGCGCGCACCTACACTGTATTGGGCCCAGCCCAACGTCAAGTTGCAGACACGGCTGGTCTGGTGCAGTGGCAATTGCCAGCGGGGGATTATGTCGTCACGCAGGAACGATCGCCGCAGTATCAAGCAACGCTGAAGCCGTTTTTGATCAGCTTGCCGGCCATGGCCCAGGGCAGCCAATTGACCATCACCGCAAAACCAATCCGTACTGTGCCGGCAGAGCCAACCACCCCGCCGGTGTCCCCCAGCCCCGCCGCTCCGGCTATCTCGGGCAGCACCGGCGCAGGGCAGCCGTCCGTTAGCCCGGCAGTGGGGACCAAACCCATCCTGCAAACGGCGGCCAGCGTCACGCCGCCTTGGCCGCTGGTGATCATCGGCGGTTTGCTGCTGGCCGGGCTCATTGGCCGCGGGTTCGTGCTGCATGATATACGAAGGAGGCGCTCAGTTGACCAAAATTAG
>SRR1151209_00917 sortase
ATGAGAAGATCACACCGCCGCTCCCTAAAGCAGCGCGTCTATCGCTGGCTTTATCGGGGGCTGCTCAGTTTGGCCGTCGGCGCGGCCCTCTATGTGGTCATTGCGGACCAATTAACGGCTGCGCAATGGGGGCAGGCCACGGTGCGTTACAGCCGCGCAACGGCCCAGATGAGTGCTGCGGCGATCAGCCGTCAGCGGCAGATGGCGATCAGTTATAACGCCATGGTGCGCCGTCGCCAGCAAGGCGATGAGACCGCCCGCTCAGCTTACCGCTATCGGCAGATTCTTTGGCTGGATGCCCAAGGGACCATGGCCACGCTGACGATCCCGGCGATTCACTTGAAAATGCCGATTCGTCATGGCACTGATGCCCACACTCTTGAACAGGGTATCGGCCATTGGCCGCGGTCGTCACTGCCCATTGGCGGTATGAGCAATCGGCCGATCATTACCGGCCACAGCGGCATCGCCGGGCAGATACTGTTTACCAATATTGAAAAACTGCGGCGCACCGATACGTTTTACATTCAAGTCTTGAACCGGACTTTGAAGTACCAAATTACCAAGATCAGCCGGGCCCGGCCGCAGCAAATCACTCAGGGCAATATTGTGGTCGGGCAAGACGAAGCGACCCTGCTCACGTGCTGGCCGATTGGTATCAATACGTATCGCTTGCTGGTCACTGGCCGCCGGGTGCCCTATCATCCTCGGGATGAGCACCAGCCCGTCGCTGTTCGGGATTGGTGGACCATTGATCACCTGCTGCTGTTGGGGTTAGTCCTTCTGGCCGGGGTGGGCAGTTTACGTTATGTGCACAAGAAATTGAGGGGGAAAAAGAAATGA
>SRR1151209_00918 hypothetical protein
ATGAAAAAACATTTCTATCATCGCTTGGCCATTAGCGGGGCACTGGCCATTACCTTGGCCGCACCAGCAGCGTTGACACTCGTTGCCGCTGGACCGGTCGTCCGCTTGGTGGATGCGGATCAGATTTCGAACAATCCCATTCCGGATAAAACGACTGATCGACAGTTGACGATCCATAAATACCAATTGCCTAAGGACTTTGATACCAGCAAGCTGATGCCGGGCAATGGGAGCATCGACGACGCGAAGAACTTGCCCGCACAGGCCAAACCACTGGCGGGAGCGAAATTTACGGTTCAAAAGATCGAGCCTGTATCTGGGCAGAAACTGGATCCCAACAATTCCGGATCCTACACCGTGGATAGCACGTTTGCCGTACAGACGATGACGACCGGCGCGGACGGCACGGCATCGCTCAATTTTGGCCCGGCCGATGGGACGTATCTCGTGACTGAGCAGGAAACGGACGCGACCAAGGGATTGAAGATGGCGGCGCCATTCTTTATTGCGGTGCCGTTAACGGTCCATCACGTGGATAAAGATGGCGAGACTGATCAGGGCACGCAACTGAACTATGACGTGCACGTTTATCCGAAGAACTATATCGATAAAGGAATTCCCATCGATAAAACGGTCAACTCCGGCCACCATGAAGACGGTAAGGATGGTGATGACACGGAAAAGGTCACCACGGCCACGGTTGGCCATGACGTGACGTGGAACCTGGAAAATGGCATTGCCCAGAATATTGCCAAGGCCAAAGATTTCGTCATTACGGATCAATTAGACCCGCGCTTGGATTTCTCGGGAATCAAGGGGTTCCGTTTGGGCTATTACGATCCGGCGGATAAAGTAGCGACCTTGCATGATGCAGCCAAGCTGGACCTGACGGCGGGGACAGATTACACCGTGACCCCGGCACCGGGCCAAAGCGGCACGGTAACGATCACCTTCACCCCGGCGGGGCGCCAGAAGTTGGCGGACAGCGTCACCTTCAGTACGACTAAATTCGATGAAGGCGGTAATGCGCTCGCTTACGCCAAGGCGGATACCAAGCAGGAACACCCAGTGGTGCTGGTCACGGACTTAGGGACCAAGGTGAACAAGCATGTCCTGGATAAAGGAAAATACGGCCCAATCGACAACAAATTCACGGTCACCACTGACGGCAAGACCACGCCGCCGTCTGACAATCCCCATGTGCCGCCGATTCCGGACAAACCGACCCCGCCGGACACGCCGGTGATTCCTAAAGTGCCGAAGGTCTACTTCGTTAATGTCGGCGCAACGAAAGTCAGTCAAGAAGATGCCAAGGCGTTGGCCGGAGCGACATTTGCCATCGCCGATACGGCAGAAAATGCCCGCGCTGGCCGCTATATTCAAGTGGCACCGGACGGGACGTATGTGTATCCTGGTGACGACCATTATGACGATCAAGACAACCGACCGCTGACCCAGGAATCGAATGCTGATGGGCTAGTTACTTTCCAAGGTTTGAAGGCCAAGGATGCCCAACAGGCAGATGATAAACAAGACGTCAAAGCAGACTTCAGCCGCCCGTATTATCTGGTTGAAACCAAAGCACCCGCGGGTTACGGCCTGATTAAAAAACCGATTGAAGTGACTGGGGACCCGGTCGCAGCGGCTGATCCAGCGGCCGTGAAAATTGAGGATCCGCGGCACACGCCGGTTACACCGGATTTCCCCCTTACTGGGAGTCAAGGACTGCTGATTGTCGGCGTGATTATCGTGACTGCCGGCGGATTAGCCTTTGTCGCTAAGCGCAAGAGTGACGCAGCACGATAA
>SRR1151209_00919 AraC family transcriptional regulator
ATGACCTACATCCATAAATTGGTCGATGTACCGGTTCTTGGCAATTTACCGGTGCAGTATATTATTTCCGAGGGCAAGAAAGATGTTGAACCGGTCCCGAAACACTGGCATGCGGCATTAGAAGTCAATTGTGTGCTGCGTGGACAGGCTAGTGTTTACATGGCTGGGCAAACCTATTTGATGCAAGCTGGTGACGCGTTGGCGATTAATTCTTTTGCAGTGCACGCCGGTCAAATTCTCTGCCATGCAGAAGCTGATTACCGAATTATCACCTTTCTATACCCGATTGAGCGGCTCTATGCTTTGATTCCCAATTACAACGCGCTGGTGGTATCGCTGGCTCCAAGTGATGAAAGGACCCCGGCACAGCAGAGTGCATACCATCAGTTGTATCAGGCATTCGACTTGTTTTATCAATTGGAGCAGGGCGAGCCCCCGTTTTTTCGCATTGATCAGCAGGCGCTCTGCTATCAGATCCTATACCTGTTGTTCAAGAATTTCTCCGCGCGGCGGGCACCAGACACCCAATATATTCCGAATCGGTGCAGCCACCCGCAATTATACGAAGTAGTGGACTACATCTTGAAGCACTACATGGAGCCGCTGCATCGCGATCAGATTGCTAAAGCCTGCGGATACTCCACCCGGCACCTGGCGAATCGGTTCAAGGCCACGTACCAATTGAGCTTGATGCAATACGTCACTCGTATCCGGGCACTCAAGGCCATGCAGCTGCTGCAAACCACGGAACAGCCGCTCAGTTGGATTGCGGCTAAAGTTGGTTTTTCTTATCCCTATGCCTTAACCAAAGCCTTCAAGCACGCCTTTGGGCTGACTCCGACTGAATATCGCAGACTGAAGCTGCGGCGTAATTAG
>SRR1151209_00920 hypothetical protein
ATGCATTTACGAGCGATGCAATATGCCATTGCCCAATGCGTGACCGCTCCGGGCACCTTAACCTGGGCAGAATTGGGCTATTGGGCTGATCACTACAACGACGGCAACCCAACGCTAATGCGGTCAGAGCAAGAAGGGGTGGCAGTCCATGACCTACATCCATAA
>SRR1151209_00921 hypothetical protein
ATGTCTGTAAAACTGGAAGAAGAGGAATTACAGCAGCTATACCAGGATGCCCATCAATCTCAAGGCCGGCTATTGAGAGGGGGGACAGAGCAATGCATTTACGAGCGATGCAATATGCCATTGCCCAATGCGTGA
>SRR1151209_00922 endonuclease/Exonuclease/phosphatase family protein
ATGCCCACATTACGTGTCGCCACCTACAACATTGCCGCCGGCCAAAACCCGGACCCGCAAGCCATCAATCGCCTATTCACGGAAGAAAACCTCGACCTGATCGGTGTCCAGGAAGTTGACCGCCATACCCGCCGCAATCCCTATGATATGCCGGCGGCCATCGCTGGTACCCGCTACCACGCCGCCTTTGCCCCCGCCATCCCAGTCATGGGCGGGGATTACGGGATTGCCCTTTTCTCCCGTGAACCACTGCTGAATGTTACCAATCATCACTACGCTCATTTTGGCGAGGAGAAACGAGTGTACCAGCATGGCGTTTATGAAGTTGCTGGGACCCCGCTGTCCGTCTACAATACCCACTTGTCGTTTGAAACACCGGCCCTACGGCAACTACAGGTAGCGGAATTGACCGCGGCGATGCACGCGGACCCGATTCCCCGGCAAGTCCTGTTTGGTGATTTTAATATGGATCAAAGCCACCAAGAGTGGGATTATTTTGATCCCGCCCTGCGCCGGGCCAATGGCGGGGCCGGCGGCTGGTTTGATACTTTCAACGGCCGGGACGCGGGGATGCAGTCGTTTGCCATTGATAATATTCTGGTGACCCCAAATATTCAGCTTAGCCAAGTTCGCGTCCCCTCGCGTATTTTGTCCGATCATCAGCTGCTGGCGGCAACGTTAACCTTTTGA
>SRR1151209_00923 hypothetical protein
ATGCTGAATCCAGCACAGTTTCCGGCCATGTCAATCACCACTGGCGGGCACACAAAAGATAACCTGCGCCAAGCCCTTGATCAAGCAGGTATTCAGTGCAACGCCCATGCCGATGCGCTGTTCGATGACCCACGCTTTACGATTTCCCCAGAGCCGCACGCGGCGACCGTACTGTTTATCACCGTTGCCGAGCTGGGGTTGCCTAAAGGCGCCAACTTGCCGGCTATCTTCGCCCAAGCAGAGAACAGCGGCTTGACTTTATGTCCCCTGGAACTGGCCGTTGATCTGCGGCTCCAATGGCGTGACCAAGGTCAGAGCACCAATCACGACCTGCACCGGCACGAGGCACCCCAGGGAGCCGTGACGGTGGCTTCCCCGGTGGCCGATCCGGATCCCGGGCAGCCTAAGGGCTACTACCTGCGCAACGTGGGCGGGCAGCTTTGGCTGCGGGGGTATATTTGTGATGATGAGTATATTTGGCAGCCAGCGGATCAGTTTGCTTTTCTTTCTAGAAAATAA
>SRR1151209_00924 uracil-DNA glycosylase
ATGTCCAATGCCACTGACATCTTTACTGCTATTCAAAACGATCCACAGAATCGTGAGTTTACGAACCAAGGCATCCAACCTCTGTACCATATTGAACCCCAAGCCACGATCCTATTGGTCAGCCAAGCCCCCAGCCGCAAAGCACAACAGGCAATGACTTACTGGGACGACGCCAGCGGCAGGCGGCTGCGGGAGTGGATGGGCGTGACAGACGAAGAATTCTACCACTCGGGGGCAATTGCTGTGCTGCCGCTGGACTTTTATTATCCTGGCAAGGGCAAGCAGGGCGACTTGCCGCCGCGCAAGGGTTTTGCTGAAAAATGGCACCCGCCGTTGCTGGAATTGATGCCGCATATTCAGTTGACCTTACTGATTGGACAATATGCGCAACGGTATTATCTGGGCCGGCGGCGGAAAAAGACATTAACGGACACGGTGGCACATTATGCGGAGTATCTGCCAGATTATTTTCCATTAGTACACCCATCACCGCTCAATTATGGTTGGATGAACCATCATCCATGGTTTGCGGAACAAGTTGTCCCCGCGCTGCAAACTCAAGTCCGCCGACTAATCTAA
>SRR1151209_00925 hypothetical protein
GTGACTGAGGATAGTTTGATTTATCGGTTTGGCGAGTCGGTGAAGCGAATTTTCTTCTTCTCCGTCTTTTTCCTCATCATGGGCTGGTACCAGGCGCCGGCGCAGCTGCCGGAGCTGGGTATTACCAACCCCTGGATGCGTGATCATGATTTGGGGCTGGCCTTGGCCGAACTGGCTATCACCGCGGTTATCGTCACCTACTTCTTGAACCGGTATGTCAGTCAGCTGCGGCAGTGGAATCCCAAGGGCTTTGGCCGCCAGCCGCTCAGCTGGCGGCGGTTGGCGGTCTCTGGCGGGGGCTTTTTGGCGTTGGCCGGATTAGTCTATTTGGCGACGCGGCCGCCGTTGAATGGATACGCTGCGGTTATTCGGGGGCAGGTACACAACATTCCCATTACCACCTGGGTGGGTCAGCTCGTGGCGGCGCCGTTGATTGAGGAATTGCTCTACCGCGGGATTTTCATGAACTATTTCTGGAATCGGGATAACCCGGCGTTTCGCGTCTTGACGATACTTTCCAGTGCGGTGATCTTTGGCCTGCTCCATGAGTTCTCCTGGTCCCTGGCCCTGCTGTTCTGGTGCGAAGTGGGCTTCATCCAAGCTGGTATTTACGAATATACCCGGGATCTGCGCTATGCTTGGGTTGTACACATCGCCATTAATTTCTGGGTGGTGTGGTTGCTGCTGTGA
>SRR1151209_00926 CAAX amino protease
ATGGCCTCATATCAAGTCCCTATTGAAAATAAGCTGCCCATGCCCCATCAAGAACCGCCGCGCAAGCGGATCAAATCACCGAAGGATATTGCTGAACGACTCCTTTTCCTGGTCATTGCTATCGTCTTGATCTACGTCCCGCAGGTGCCGATGTCGGTGGTATTGGTCCTGAAAAAGCGGGGCACCCCAGCGAGTATGCCCTTGTACATCGCGATGTTCGCGCTGATGATTGCCTTGTATATTGGGGCGGTCTGGCTGATGCGCTTCCTCATTCACCGCTACACCGACCAGCCGCTGGTCCGCCGGTGGGAAAAACGGGACGCCTTATATGTGGTGCTCGGCTATTTGGCGATGTTCGGGGCAAAACTGATCCTGCTGCCGTTTTACACCAGTATTTCCGGCGAACAGCTGACGAAGAATGACGCGGTGATTCGGGGAATGCTGAAAGACGGCAACCAGATCATTTTCATGATCGTCTTCATGACGGTCATCGCCGCGCCGATTTTGGAAGAAATGGTCTTTCGCGGGTATGTCATGACGGCCTTTTATACGCGGAATCCAATCTGGCCGATTTTGATTTCCGGCGTGCTGTTTGGGCTGGTCCATCAGAATAACAACATTGCGGGCACGCTGATCTATGTCGCACTTGGCGCTATTTTGGCCTATGTCTATCGCCGCACCGGGAATATCACCGTCAACATCGGGCTGCATTTTTTGAACAACGCCCCGATGATCTTTATGGCGCTGCAATTTATTAAGTAG
>SRR1151209_00927 hypothetical protein
ATGATGGAGCGGTTAATACGATGGACGTTTGAGGTGAGCGGCCGGGATGAGTACCAGAAGGCCGAGCTGAATAAGATTCTCAGCGGGAGCGCTGTGCTGGTCTATTGGTTGTTGTATCTGGGTATGTTTGCCAGTTTGATTATTGACGGTTTTTGGACGCACTACGTTACGGCGGGGTCAATGATCTTAGTAATTATTGCGCTCGTATGGGGCATTATCATTAACGTTCAAATTCGGAAACATGGTCTCTATCAAATAGAGGCGGCCAATGAAGAAGATTTGCAGAAAATTTATCGGCGCATTAATTTTCAAGCTGTGCGGGATACGATTATCGCTGGTATCAGTGGGTACGCTGGCTGGTCATTAGTAAGTTTTGCAATGTCAGCGCAATACTGGCCAACGATTCGTGAGACAGTGGTTTTTATGGTGGTATTTGTTGGTGTTTACGCGGTGACAACTTGGCGTTATCGCCGCCGCCAAGTCATCAAAGCCTGGGAGGACAACTAA
>SRR1151209_00928 XRE family transcriptional regulator
ATGAACCGCATTCGACAATTCCGGCAGGCCCAAGGCTGGTCCCAACTAGCCCTGGCGCAGCGGGTCGGCGTGACCCGGCAAACCGTGAATATGATTGAGAACAACAACTATAATCCCAGCTTGGATCTCTGCATTCGCTTAGCCCAGGCGCTGGGGACGGATCTGAATACCTTGTTTTGGTTTCCGGAAGGATTGGAGGGCGAGGAGTCATGA
>SRR1151209_00929 Cro/Cl family transcriptional regulator
ATGTCAGATAACTCACCCCTAGCCGGTAATCTGCGGAATCTGCGCGCTCACTTTGGCTATACGTTGGAACAAACCGCCGAAGGGGTCGGCGTCACCCGTCAAGCCATTGCTAAATGGGAAAGTGGGCAATCAGTCCCGGATATCACCCACGCCGATGCGCTGGCCCAGTTTTACAACATTTCGTTGGACGATCTCATCCATCACGATACCGAAAAAAGCGGGCTCGGCATCCCACCGAAGGGAAAACACCTCTTCGGCACCGTCCAAGTCGGCGAACGGGGGCAAATCGTGATCCCCAAAAGCGCCCGGGACCTTTTTCAGTTGACCAAAGGGACCAACCTCGTCGTATTAGGCGACGAAGAAGGCCCGCTGCCGGGGTTGGCCCTGGTCAAAAATGACGTTTTTCTCAATCAAGCGACGGCCTACGCCCATATGGGCAAGGGGGTGCCCCATGACCAATGA
>SRR1151209_00930 multidrug ABC transporter ATP-binding prrotein
ATGACCAATGATTCTTTGCTCACGGTCAGTCATCTGACCAAACGCTACTCGCAATTCACACTGCAAGACGTCTCTTTCACCATCGCCCCAGGAACGATCATGGGCATGATCGGCGTCAACGGGGCCGGAAAGTCCACCATATTAAAGAGCATCGCCGGGTTAGTGCAGCCCGACGCGGGCACGATGCAAATCGCTGCCCCGGCCAACCCGGCCGTGATGCTGGGCGAAACGGTTTACTACCCCGAGAAAAAGCTGGCAACGATCACCAGGACGACCCGCCAGTTCTATTCCCAATGGGACGAGGAACAGTACCGCTATTACCTGCATTTCTTCGATCTGGATGACCAAAAAAAGGTCAAGGAACTCTCCACCGGTATGCTGATCAAATACCAGCTGGCCGTGACCATGAGTCACCACGCGCCGCTGCTCATTCTCGACGAACCCACCAGCGGCATTGATCCCGTCTCCCGGGACGCGATTCGCCAGGTCTTTCGCCACTACGTCGCCGACGGCCAGCACAGCATTCTCTTTTCCACCCACATCACCACCGACCTGGAAGCCATCGCGGATTCGATCACTTACATCCATGCGGGGGCCGTGCTCTACTCTGCCGCCAAACCCGACTTCATCGACCATTTTCGCCGCCAATTCGGCCTGAGCGCTAACGCCCCGCTGACCTTTGATGACATTATGCTCACGATAGAAAGGAAGACCATTGATGACTCGGCAATTCCTGCGTAA
>SRR1151209_00931 hypothetical protein
ATGACTCGGCAATTCCTGCGTAAAGAATATCTGCTGGCGGCCCATCCCACCACTTGGTTCTTCGTCTGGTTGGGCGCTTTGGTGCTGGCCCCCGCGTATCCGTACAGCGTGGTCTTCTTCTTTGCCATGCTGGCCCCCAGTTTGGACTTGGTCTACGCCAAGCAGACCAACGACATTCTGTATACGGCCCTGTTACCAACCGGCAAGGCCGGCGTAGTGCGGGGCAAAGTGCTTTACACGTTTACTTTTCAAACGGTCATGCTGCTGTTGACGATTCCTTGGGCGCTGTTGCGGACGCTCTACATCCAAACCAATCCCGCGGGCATCACCGCCAATGTCGCCTATTTTGGCTTTGGCTTGTTGGCCCTCGCCGTTTTCGACTACCTGTTTCTCACGGGTTTCTTTAAAACTGGGATAAAAATCGGCTGGCCTTACTTCTGGGGTACGCTGGCTGCCTTGATCCTGCTGGGCGTGATGGAAACACTGCCGCATCTGCCGGGGCTGCGCTGGGTGGATTCGGTTCAACCCACGGCGCTGCTGCTGCAATCACCCTTCCTGGTGGCGGGGATCATGGCCTTTATCACCAGTTTCTTCGTGACCATGCGCGTCAGTATGCAGAATTTTCAACGGGTGGATTTATAG
>SRR1151209_00932 hypothetical protein
TTGAATTTAGCAAACCACCAAGCTTGGCTCATCGATTTCTACAAACGCCACGATTGGTATCACTTTTCACCCTTTGTCTACTTGAATTTTCTAACTGAAGAAACCGGCGAAGTCGCCCGTGCGATCCGCGCCTTGGAAATTGGCCGCCATCATCCGGGAGAAAAGCCGCAGACACCGGCCGAAAAGACCGCCAACCTGAAAGAGGAACTGACTGATGTGTTAGACCAAGTCTTGGTCATTGGTGCCAAGTTTGGCATTGACCCGGAGGCATTACTGGCCCAAAGCGAAAGCAAACTCAGCCGCCGGTTTAATGAGGAACAGCCCCATTAA
>SRR1151209_00933 hypothetical protein
ATGGATCTCGCAGCGTTCAAAACACACTATTACTACAAAACGGATCTGATCGCGTTATGCCGCCAGTATCAATTGCCAACCAGCGGCACCAAGGCGGACTTGAATCAGCGCCTGGACGCTTTCTTTTCTGGCCGACCGGTGCGTCAACGGGCTGAGTCGGCAAACCGTGGTCAAAAATTGACTGCAGCCCAGTTGACTCTGGAAACACCAATTATTGGGTCAGGTTTTGCGTTCAACGCAGCTGCCCGTGAGTTTTTTGCCGCCTATTTTCACGTGAAACACTTTCGCTTTACCAAGTCCATGGCCGTGTATAAACGGCAAGTTGACGCAAAAAAAGATCAGACCGCAACGATCGGCGATCTGATCCGGGTCTATCAAGAAACTAAGGACAAACCGGCAGCACAACGGGCGTTCTTGGCGAATAACCCCGAAGAGCAGACCTATCAGTGGAACAACTTTGTCCGCGATTTCTTCGCCGATCCGCAGACGGCGGTGTTCCATGACCGGCTGAAAGTCGCCGCCATTCTTTGGCAGCAAGTGAAACGATCAACCGACGCCAAGGTGTATCGCCCTCAGCTGGTGACGCAATACGGGCCATTGATTGCCCAGTATCGCCGTCCTTAA
>SRR1151209_00934 abortive infection protein
ATGCGGCTACTCGTTAGCAAAATTAAACAGCATAGTATCGCCAGTATCATCACTTTTTGGTTGCTGATGTTTGTCTTTGACGAGTTCATCTCGAGTCCGCTCATCGGTCTGATCAAGGCGCCGGATATTGTCTTGGACGTCATTTTCAAAACGCTGGAATTGACGGCCGGAATTCTATTCAATCAGTGGCTTACCCGGCAGCCCATCCATTGGCGGGCGGCCATTGGTAAAAACAGCATCATCATGCTGGCCATCATGGCCGCCATCATGGTCGGGGCAACGGTGAGCAAGCTGAACAATTTAGCTGACGCGACGATCGTGGCAGTGATTGCCGCGGGGCCGGAAGAGTTCCTATTCCGCGGGGTGATTTTCGCCAGTCTATTGGCTAATTTAAAAATACAGGCACTGCCGCACCGCGTCTGGGCCGCCATTCTCTTGTCCAGCGCCATGTTCAGTTTGTACCACTTCGGCAATATCGTTGATCAAGGGCTGTACTTTACCCTGATGCAGATGATTGAAGCGTTCGGCATGGGCTGCCTGCTGAGTGCACTTTATGTACGTAAGGGCAGTCTGCTGTTCCCAATGGTTCTCCACGGTTTTATCGACTACACAATTACAGTCACTCAAGGGTACGCGACAGTGATCACCAGTGCTGGGAACCCCGCTGGGACGTTATTGGCGGCGATATTCCACATGGTGTTGTACATTGGCTTGGCCGTTTTGATCTGCAAACCGGACAGTGACAGCCAGTTGCGGGGGCAGGTCGTGGCCGTAGCTGGGCGAGATGTGTAG
>SRR1151209_00935 peptide ABC transporter ATP-binding protein
ATGGAAAATAAAAATACGATTGAAATGCACCATATCGACAAGACCTTTGGCCATGATACCAGCAAGATCCAGGTCCTGAAGGATATTGAGTTCACCGCCCAACGGGGAGAAATGAGCCTCGTGATCGGGCCGTCCGGCTCCGGTAAAAGTACCTTTCTCACTATTGCCGGCGGCTTGCAGACGCCGACGGCCGGGGACGTGCGGGTGGAGGATACACCGCTCACGGCGATCCCGGTGAAGCAGCGGGATGCGCTGCGATTGAACAAGATCGGCTTCATCCTGCAGGCATATAATCTGGTGCCTTTCCTCACCGTGCGGGAACAGTTCCGCTTCGTCGACCGGATCAAGGGCGCCACGCACATGACGGAAGACGAATTGATGACGCTGCTGGCCGATCTGGGCATTCAAGATTTGATCACCAAGTATCCCAACGAACTCTCCGGCGGCCAGACCCAGCGGGTGGCGATTGCCCGGGCGCTGTATCCGAATCCCGAGATCGTACTGGCCGATGAACCGACGGCCGCGCTGGATAGTGAACGGGTAACGGTGGTCGGTCAATTGCTTCATGATTTGGCCAAGAAGCACAATAAGTCGATCATTGTGGTCACCCATGATATGCGGTTGAAGCAATATGCAGACCATATTTATGAGATTTTGGATGGCAGTATGCGGCAAGCCAGTTAA
>SRR1151209_00936 antimicrobial peptide ABC transporter permease protein
ATGTACTTAGCCTGGAAAGAAATCAAGCACGAAAAGCTCCGCTACGGTCTGATTATCGGGATGATCCTGCTGATCAGCTACTTAGTTTATATTCTCAGCGGGCTGGCCTTTGGGCTGGCTCAGCAAAACACCGAGGCCATTGATTCCTGGGGCGCACAGAGTGTGATCCTGGATAAAGACGCCAACACCAGTCTGCAACAGTCCATGCTGACGAAGAGCCAAACGGATAAAATGACGCTGACGAAGAAAGAAAGCTATGTCGGCCAAAGTGCCATCGTTGCCAAAGAAGCCAAGCATGCCAAAGTATCCGCCCAATTCATCGGGTTGGACTGGGATCAGTTCATTGGTCAGAAGCTGGTATTGACCAGCGGTCATAAACCAACTCAGGCCAACCAAATCGTCGTGGATGATGGGTTCAAGACCAGCAACTACCAGCTCGGTGACAAGATCCAGTTCAACTCAAATACGGAAACCTATACCATCGTGGGCTTCACCCACAATGCCAAGATCGACATCGCCCCGGTGGTTTATGGCGACTTGAGCACGTGGCAGACATTGAAGAAACTGCCGGATACCTTTGTGGCTAGTGGGATCATTTCGCAAAACGCCAAGTACCAGCCCGGCGTTGACCAGCTGAAGAATTATTCGGTGGCGGCATTCATTAATAAACTGCCCGGCTACAGTGCCCAGAACATGACCTTCACGTTCATGATCGCCTTTTTGATGATTATTTCCCTGGTCGTCATCGCCGTGTTCCTGTACATCCTGACGATTCAAAAGATTCCCAATTACGCGGTCTTGCGGGCTCAGGGCGTCCCCGCCAAAGTGCTCGTCAGCAATACCATCAACCAAGCGCTGCTGCTGGTCTTTGGCGGCTTAGCCTTGGGCGTCGGCTTGACGGCGTTGACCGCGGCCGCGCTCCCGGCGGGCGTACCGATTGCCTTCAACTGGCCGATCCTAGGCGGGGTGACCATCGGGATTCTGTTGACCGGCGTGATTGGCGCGCTGATCCCCGTGAAGTTGATTCTCAAAGTTGATCCCGTCAGCGTGATTGCCTAA
>SRR1151209_00937 TetR family transcriptional regulator
ATGCCCACGGCCACGTTTAACAACTTGAAACCGGAAAAAAAGCAGCTCGTTACCCAAGCGCTGCTGCGGGAATTCTCGGCGCATCCCTTTGCCGACGCCCAGGTAGCGCGGATCGTCAAGGATGCTGGGATTGCCCGAGGCGCTTTTTACAAATACTTTGCGGACCTGGCCGACGCGTACGTCTACCTTTACGGGGTGGCAATGCGGGACATTCACCAGCATATCGATTTTCAGCAAGCCTCGGGTTACACTGCGGCCGGGTATCTGGCCTATACGGAGCAGTTCCTTGCTTCACTGGCCGATAACCCGTATCGCGATTTGATTCGCCGGCACTTTACTGAAAACGAAGGCGCGCTGCCGATCCCGACGGCGCTGAACACGCCGGAGAAATTAGCGGCCCTGCCCGCTGATGAATGGGCGGCCACGATCCTCAGCCACGAGGTGATTCGCCAGATCATGCTGTATCCGGAATTAAAAACCAAATTACTCACTAAATTCACGCATACGCTCCATCAATTGGAAGGAAGTCATCGTTAA
>SRR1151209_00938 mannose-specific adhesin, LPXTG-motif cell wall anchor
ATGCGCACGCACTATCGTTTTCAGATACTGAGTTTATTAGTGCTGGCTTGGCTGCTGCTCTTGGGGACTAGCGGATCGGTTATTGCCGACACCACCCAGCCGGTCACGGTGACACCGAGCAATACCCAGACATTTTTCTCCACCAGAGGAACGGCCCACATTGATCGCAGCGCAGATGGCACGTGGGGTGATGTCACGCTGACCAACACAGACAGTCAATCCCAGGCGGGGGCCGCAACGCTGAACACCCGGCTGGATTTTTCGAAGAACTTTTGGATGCGGTATGACGTGAACTTCGGGGACTGGAACAGCAACGATAAAAAATCGGACGGGATGAGTTTTGTGCTGTATCCCGGCCAGCCGGGAGCGGTCGGACTGTTTGGCGGTAATGTGGGAATTTCCGGCCTGCCCTATGCGGAAGGTATTAAATTTGATGCGTATACCAACCGAAATCCCGGTACTGGTCATGCCGACATCTGGGATATGTCCACTAATCGGTGGGTCGGTGTCACACCACCAGCAAATTTGCCCGGTGCGGACCCATTGAATAAGACTCAAGATTACGTCCAACGCAACCCAGAAACGACTCATAAAGATTTCAATACCTTTCCCGGAAATGGTCCATTGATTTACGGAATATATAATTATATGACCGTGAACAAGGCCCGCTACCCGAATGATCTTTCTGATTGGCAAATGAATACTGCCAAACTGCCAGGAATGGTATTTTCTGATCCCGATGCCGATCCTGCTACAGTCGCTGGGGCGACTCCGCCCTATGGCGCTTTTATCGAAACCAATTTGTCTGGCTTTACCCATATATACAGCACGTACAGTAACTCTCACTCGCTGCCGACCCTTGGCAGCGGCCGGATCGACGGGGCCCGCGCATTGAGTGCCGCACAATTCTATGATAACCAGTGGCATGCTATTCAAGTTCATTACTACGTTAATGCCAGCGGCGTGGGTACCCTGATCGTGGCGCTGCTGCCGAAATCCTGGTCGCAGTATACTTACGCCACCGACGCGGCTGGCCTGGCCGCCGCCGAAGCCGCCTCAGGGACCAATCAATGGACTCAGCAATTCACGATCAAGAACCTTCCCGCCGGCAAGTACTATTCGTTGAATATTTCTGCCTCCACGGGAGCCGCGCCCTGGAACCAGAAGGTCCGCAACTTCAACGGTTCATATACGCCCCAGCCGAACACAGCAACGGTGCGCTACGTGGACGAAAACGGGACTGACCTCCAGGATCCTGATACATCTTATACCGATCCCAACCTGGTCAATCCGGCGCTCACCAAACCAAACTTGCCCAAACAGCTCACCAAGGCCGGCCAGACCTACAGCTTCGACTACGGCAGTTATTTGGCATACGACGGCACGGAAAGCAAAGGGGCGACGCTGCTCACCCCGAATGTCAGCGGCGGAGTGGCGGGGACGCTCACTGATACCGGCGGTACGACGATGACGTATACCGGGCAGTATGGCCAATCCTATAAAGTCATTACCCTCTATTACAAAATGACCAACCCGCTGCCGTCACTGACCGGCCGGTACACATTGAACGGTACCGCTATTCCGGCCGGCCAGGCGGTGCATTTTGGCGATCTTTTGAATTATCAGGTCACCCTGACCAATCCGGCCGGCGGCGCCTCCCGGTGGGTCGGTACGAACCTGGCGGTGACGCTGCCGGATGGGCTGACCTTGGCCGGCAATGCCCCCACCGCGCAGGTCACTTTCAACACACAGCTGTCCACTGTGCCGTCGCCCCTCACCGTGACCACTGACACAACGGTGAGCGGATCAACGGCGACCGTCACGATTCCCAGCAAGACGGCCGCCAGTAACGATATCGTGCGCAACAACGGCATCGACCTCTTGACCGACGCCGCCAACAGCAGCGCCATCACGATCACTCTGCCGGTCCTGGTCACCAAACAGACCGCCGGTACGCTGACCGCCGCCGTGCAGGCGACCGACCGATACGTCCATCAGACCAACGAGACTCCGGCTGTACCCACGAGCTACTACAGCAGTATTCAGAAATCGCTGGACACCCTGACCGTAGCCGCTGCGGTGATTCCGGCGCGCAGTGCAATGATCCCGATTCCGGTACGCACGAACGAAAGCTTCATTCCCGTGCCCAGCGCGTCTTATACCCAGCGCGCCGTGTACGGAGCAGGCGCGGCCACTTGGCTCGGCACCGGCGATGTGAGCTTGCCGGCATCAGGCAATCAAATCAATCTGACCGCCGCCGGTATTCAGAAATTACGGGCCGCGGATTATATTCCAGTCATCACCGTGTATACCAACACCACAGGTCAGCAGTGGACCGAAGTCTACTATGTTTATGAGCCGCTATCGACCTGGATGCCGGATGCCGGCTTGCGCCAAACTGTGGCCAGCGCTTTTAACAAGGGTTCTGTAACGATCAATACGCATTTCTTCGATACGCCGCAGACTTATCTGAATACCGCCGGGGTCACTGGGGTCATCACCACCGATGATGCCACCACCCAGTTGACAAAATCGCTGATGCCGAAGCTGACTGGGCTGACAAACCAGCTCAATACTGCCGGTACAGGGGTATTGGGTGCTGGGGCATGGAATATGACTAACGGCGTTATCGGGCTGGAATATGCCAGTAACCTGCAAGGGCTGGCCATCTATGGGCCCAGCCTGTTGCAAAACACAGGGACCCATACCACCACCGGACAGACCTTCCGCACGCTGCTCAACCAGCTGCAAACGCCTGTCCTGGGCCAATCAGCCCCGATCCAAAGCTTGCAGACAGTGGATCTGTCCGGCTATACCGCGACCGCGTTCACCGGCTCAGGTACGGCCGCCATGCCCAGCCTGCCCAAATTGCAAACTCTGAATCTGGTGGCCAACGGCTTGGCGGACGCGGATGTGACCACGGCGATCACGGGCACCACAGCCCATGACCTGGTGCTTTTCTTCCAGCAAAATAAGGCCGCGCTGCGTCAATTGACTCTGGCATCTTACGCGGCCCCGACCAAGCCCAAGATGGACCAGGCCGCTTTGCAAAATAACATCCAGGCGGTGACCACGGCGGGCACGGCCATCAACCAGCAGGATATGGTCATGCCGGGGACCACCACCTGGTCATTAGCCAGGGCGGACACCCCCGACCAGATCCAAGTTAACGTCCCGGACGTGCGGCGCACGCTGACCACCGTACCGCTGGGGACCAACCCGGCCAGTGCGGTGAGTGATTATCAAAACGTCGCGGTCACGGTGTACGACCGCGACCCGACCAACACCACCGATACCAGTACCCCACTGACTAACGTACTCACGCTGAAGGCCGACCAAAGCGGCTACGTGCTGAATTATACCAACTATCTGAAGGCCAGCCAGTTGCGTAACAACCAGCTGTACCTGAAGCGCACGTATACGACTGGCGGGACCCAATATTCACTCTGGACGAAAATCGGCCTGAGCGGGATCGATTATTTGCAGGTCGATACCTTGAATTTCGGCAAGCGTCAATTACGGGCCGGCCAGTACCCCAATAACGGGCACGACGACAGCACCGGTCCAGATCCCGGCACTTATACGCCGTTTACCATCACCGTAGGCCGGACCAGCGCCAGCACGCAATCAACAGTGGGGATTTCTGCCAGTCCCTTCACCGGAAAAGCGGACACGCTCCCCGTCAGCTCACTGGCGCTGCATTATGTCAGCCAAAACAGCGCGGCGCCCAATACCTGGACGATTCCGGCGGATGGTTCGGCTGGTCAAAGTGCGGTGTGGACGTTCGTCAACACGGCCGCGCTGCTCGATACCAAAACCTTTAATGTCGACCTGAACGTGCCTGCTGTCAGCGGAATTTCTGCTCAAAAGTACACCGCCACGATCACCTACACGCTGAGCAACGTCCTGCGCTAA
>SRR1151209_00939 hypothetical protein
ATGGCCAAAACAGCGGCCCAACTCGCGCAAGAAAACACGGCGCTGCGGGCGCAATTAACGCCCGCAAACAAAACCTATTATGAGTCACTGATGGTGTACATCCGCTCCCAGGCGGTGGGAAAAGATGAGCTGGCAGTGGAACAAGAACTGCTGGCAATTCTGACGGATATCCTGGCGGCCCAGCAGGACGGCCGCACCGCTGAAGCGTATTTCGGTAAGAATCCCCAAGAGACAGCCGATGACATTTTGGCGGCCCTACCCAATAAGTGGCGCGACTTGCTGAATCTGGTACTCTATGCCGGCGGCGCCTGTATTTTGTTGATGGCCTTGCCGATGATGATAGATCCGGCGAAGCCGGTGGATGTGGGGGCCGCGTTGTTTATAGCGGCTTACTGCTTGATCATCATCGTGCTGCTCAGCCGCCTGTTTGGGCAAAGCAGATACGGCCGCCCGCTTAGTGATCGAACAGCTAATTGGCTGCTTATCGGCTTTTTGCTCCCAGGTATCCTTTTTGGTCTCTTAATGAAAACCGCGTGGCGCTTCTATTTTCCAGGCGTCGGCGGGATCATTTTGATTTTCGCCTTCCTGCTGATCGTGGGTATTGTTTTCTGGCGCAAGGAAAAGAAGAACTGGAAGGACTCGTTAATATTTTTGGTTCCGATGAACGCCATTATTGGGATCATTCAGCGAATACCAGCCGGCAATCGATATTTTAATCGCACACCAAATGGCCGCTATGTGATCCTAGCGGTCTTTGGCGTGCTGTTTATTGTGTATTACATCCTGGTCTGGTGGTTTTCCCGCCGGCACCGCTCCCGTTAG
>SRR1151209_00940 hypothetical protein
ATGACCACGAAGACGAGTCGACTCGCTGATGAAAACAACACTCTCCGGGAACAATTAACCCCGGATAACAAAAAGTATTACGAAGATCTGCTGCTCTATATGCGCACCCGCGCGGTATTGAAAGACAGCGCCGTTATTGAGCAGGAATTACTGACTATTCTGACGGATATTATCGCCGCCCAGCAGGATGGCGTTGCCGCGGTTGATTATTTCGGCAAACAGCCCCAGGAAACGGCGGATGATATTTTAGCGGAAATCCCCAATCACTGGGTCAATATGGTGAAAATGGTGGGCGCCGTTTTGGCCGGCTACTTTTTGATTACGGCAATCCCGTCCCTGACCCTGCCCAGTACGCCGGTGGATATCGGCACCCTGCTGCTCACGGGCGTGTATTTCACTCTTGCTGCTTTAGGCATCGTGACGTATGTTGGCCGGACCACCTACCAAAAGCAGCACCAATGGGGGCGGTGGGGTTGGGTCGTGCGCTGGTTAGCCGCCTGTGTACTGATTGCTCCCGGTTTCCTGCTGACGTTCTTTTTGAAAACACCCTGGCGCATTTATCTGCCTGGACTCATCGGCATTGTACTGATCAGTATTCTGCTGATTGCGCTGGCCGTCGTTTTCTGGCGGCAGGACGATAAAATTATGTGGGCGCCCTTTGTCCCCATCGTCGTGATGATGGCGTTGATTGGCATCGTGACGCGGGTACCAGCCTGGCAAACCTTTTTGTTGAAGACGACGCCGGGTCGGATCGGGTTAGCCGGGGGGCTGGTCGTCGCGCTGCTGCTTTTCTACGGATTGATTTGGCGGATGCTGCGGCGGGCAAAAGACTAA
>SRR1151209_00941 PadR family transcriptional regulator
ATGGCCCAGGATTTGCACAGCCAGATGCTGAAAGGCGTGCTGCAAGGGTGTGTCCTAATTATTCTCAGCCGCGGCGAATACTACGGTTACACGCTGAGTCAGGAGCTGGAGAATTACGGGTTCGCTGAGATTCCCAAGGGTACGATTTATCCGCTGCTGATGGCGCTGGAGAAAAAGGGCCTGATCACCAGTCAAATGCGCCCCTCGCCCGACGGCCCGGACCGGAAATATTATCAAGTGACCGCCGCGGGGACAACCGCCCAAACTGATTTTGTTCAGCAATGGCACCAATTGACCGACCATGTGACCCAGTTATTGACCGCAGAGGAGGGAACCGACCATGACCACGAAGACGAGTCGACTCGCTGA
>SRR1151209_00942 ABC transporter ATP-binding protein
GTGGATATTTTGACAGCAACGGACGTTACCAAGCAGTATGGTGCGACCACCGTGCTGGATCATCTGAACTTCGCCATTCACCAGGGAGAAATACTGGGTGTATTAGGAAAAAATGGTGCCGGGAAAACCACGTTGATCAAAATCCTGCTCGACTTGATCGATAAAAGCAGCGGAACGGTGGGTTATGTCCTGATTGGGCATTTGATGTATCGCTACATTTATCATGCCAGTAAACGGTCTGGTATCGATAATGCCTACTAA
>SRR1151209_00943 adenylosuccinate synthetase
ATGACAGCAACGGTCGTGGTCGGGACCCAATGGGGCGACGAAGGTAAAGGTAAGATTACGGATTTTCTCAGTCAAGGGGCGCAGGCCATCGCGCGGTACCAAGGCGGCGACAACGCGGGACATACCATTAAGACGGACGGCCACACGTACGCGCTGCGGCAGATTCCATCGGGTATCCTGTACCCGGATAAGACGGCCGTGATTGGGAACGGTGTCGTGGTGAACCCTGAGAGTTTGGTCGAAGAGCTGCACCGGCTGCACGATGCCGGCGTGACGACCGATCACCTGAAGATTTCTAACCGGGCCCACGTGATTCTGCCTTACCATATTGAATTGGATAAGCTGCAGGAAACCGCCAAGGGCGCTGACAAGATCGGTACGACCCACCGCGGGATCGGGCCGGCTTATATGGACAAGGCCGCTCGGGTCGGGATTCGTATGGCCGACCTGCTGGAACCGGACACCTTCAAGGAGAAACTGACCGAAAATCTGGCTGCCAAAAATGAGCTGATCACCAAGATCTACAATGGTACGCCCCTGAAGTTTGCGGATATTTATGATAAATTTGTTGAATTCGGCAAGGAACTGGCTCCGTTCGTAACGGATACCAGCGTGGTCCTAAACGACATCCTGGACAGCGGCCACAATGTGCTGTTTGAAGGCGCCCAGGGCACGATGCTGGACATCGACCAGGGGACCTATCCGTACGTGACTTCTTCCAACCCCGCTGCTGGCGTAGGCTCTGGTTCTGGTGTGGGTGTAACCCATATCAACCGGGTCGTCGGGGTGGCCAAGTCTTACACGTCCCGGGTTGGTGATGGCCCGTTCCCGACGGAATTGCTGGATGAAATCGGCGATACGATTCGGGATGCCGGCCATGAGTACGGTGTCGTGACTCACCGGCCCCGCCGGATCGGCTGGTTCGATGCGGTGGTTCTGAAACATGCCAAGCGGGTCGCTGGGCTGACTGATCTGGCACTGAACTCCGTCGATGTCCTGACGGGGTTGAAGACTGTTAAGATCGGCGTCGGTTACAAGCTGCACGGCGAAGTGATTCAGCACTATCCGGCGAGCTTAAAAGAACTGGCCGCCTGCGAGCCGGTTTACGAAGAACTGCCGGGTTGGGATGAAGACATTTCCCATTGCACGACCTTGGCAGAACTGCCGGAAAATGCGCGGAACTACGTTTTGCGGATTCAGGAATTAGTCGGTGTGCCGCTGGTGACTTTCTCCGTAGGGCCGGATCGGGAACAGACTCGCGTGCTGGCAGATGTTTGGGAACAAGAACCGCAATTTGCGCGGTAA
>SRR1151209_00944 replicative DNA helicase
GTGAATAACGAGTTGATCGATCGGACGCCACCACAGGATAACGATGCCGAGCAATCCGTTCTCGGCTCCGTTTTTCTATCCCGTGATGCCTTGGTAGAGGCCATGGCCTATGTGACGGCGGACGATTTTTACAAAAAAGCCCACCAATATATCTTCGCGGCGATGGTGGCCCTCACGGATCGCGATGAAGCTATCGATATCGTGACGCTGAAAAACGAGCTCGCCACCCGTCAGCAATTGGCGGACGTGGGCGGAATCACTTATCTGGTCGACCTGGCTAACATCGTACCCACCGCGGCTAACGTGGTGTACTACGCGAAGATCGTCAAGCAGAAGGCGACCCTGCGCAAACTGATCGACACGGCGACCCATATCGTTCAGACCGGGTACAACCCCGACAGCGATGTGGAGGATGTGCTGGATAATGCCGAAAAAGAGATCATGGCGGTCTCGGACACGACCCAGCAAAATGGCTTCAAGCCGATCAGCGATGTCTTAAACGATGCACTGACCAAAGTGACTGAACTGTCGAAGAACAACGATGAGATTACCGGCCTGTCCACCGGTTACCGGGATCTGGACCTGATCACAGCGGGCCTGCACGAGGATGAATTGATTATCCTCGCTGCCCGGCCCGGGGTCGGAAAGACCGCGTTTGCCTTGAATGTCGCCCAAAACGTGGCCACCAAGTCGGACACTTCCGTCGCTATTTTCAGTTTGGAAATGGGGGCAGAACAGCTGGTCAACCGGATGCTCTGTGCGGAAGGCAGTATTGAGGCCAACCACTTGCGGACCGGCCAACTGACCGATAACGAGTGGGAAAGCCTGATCGTCGCCATGGGCAGCTTGTCCAAAGCCCAGATCTTTATTGATGATACGCCGGGGATCAAGATGGCCAACATCCGGGCTAAGGCGCGGCGGCTGGCTAAGGAGCAGGGCAATCTCGGCTTGATCGTCGTCGATTACCTGCAGCTGATCGAAGGCAGCGGTCAAGAGAATCGCCAACAGGAAGTATCGGCAATTTCCCGGCAGCTGAAGATGCTGGCCAAGGAATTGCACGTGCCGGTCATTGCCCTGTCCCAGCTATCCCGAGGCGTGGAACAACGGCAGGATAAACGGCCGGTGCTGTCTGATATTCGGGAATCCGGCTCCATTGAACAGGATGCCGATATCGTCGCTTTCCTGTACCGGGACGATTATTACCGGGATGAGGACGGCGATGATGATGATAATTACGGCGGCGGCGGTGGCGGTAACGCCCCCAGCAGCAGTGAGGACGAAGACTCCGATGCCGGGGTCGTGGAAGTGATCATTGAAAAGAACCGGTCCGGTGCCCGGGGAACGGTGAAGTTGCTGTTTATTAAGTCGTATAACAAGTTCTCGTCGATTTCGTACGCGCAACCGGCGTGA
>SRR1151209_00945 50S ribosomal protein L9
ATGAAAGTCATTTTCTTAGAAGACGTACGCGGTAAAGGCAAGCGCGGCGATATTAAGGACGTTCCGGACGGATACGCCCAAAATTTCTTACTGCGGCAAGGCAAGGCCAAGGAAGCAACCCCCCAAGCCATGAGCGAATTGAAAGGCAAGCAGCGCCGGGAAGCACAGCAGCGGGCGGCGGAATTGGCTGAAGCCAAGGAATTCAAGGCGAAGATCGAAGACGATAAGACGATCGTCCAAATTCAATCCAAAGCCGGTGAAGACGCCAAACTGTTCGGCTCCATTCCCAGCAAGCAGATTGCCCAAGCCCTGGATAAGCAATTTGGGCTGAAGGTCGACAAGCGCAAGATCGATCTGCGCGAACCGATTCGGTCTTTAGGGTACACGAATGTCCCGGTTAAACTGGCTCCTGGTGTGGATGCGGTGATCCGGGTCCATGTCACTCAGCAGAATTAA
>SRR1151209_00946 DHH family phosphoesterase
ATGAAGAACGTGTTCCAACGCATCAAGCTTCCGGCTTTCATGCGGAATGCCCGAGTGATCACGATTTTTGCGATCATTGTGGGCCTAGCGCTGGCGACGATTATTTTGAGCTTCTTCAACTCATTCTGGATCGGCCTGGCGTTGACCATTCTCTTTCTGGCCATGGTCGTCAGTATCTACTACGCCGCCGAGGTCATCACCCAGGACACCCAGAAGTACGTCTCCGACCTGACCTACCGCATCAAGCGGGGGGAGCAGGAAGCGCTGATTCAGATGCCCATTGGCATCCTGTTGTATAACGACCACAAGGAGATTCAGTGGACGAACCCTTTCTTCCAGCAATATATTGGGAAGAAAGACATTCTGGGCAAGACGCTGGATAATGCACTGCCGGACTTAGGTCAGTTTGTCGCCAAGTACAGCGGCGACGACAGTCCCCACCAGATCAAATGGGGGGACAACCAATTTGATATGATCGTCCAGGATGACCTGGGGGTTATTTACTTACTCGACATCACCAAGTACGCCAAGATCGAAGACCAGTTGGCCGCCCAGCAGGTGGCCATTGGGCAGGTGTTCTTGGATAACTATGACGAGATCACCCAATCGATGGATGATCAGGCCATTTCGAACATGAACAACTACGTGACCAACAAGCTGACGGACTGGGCGAATCACTACCACATGTTCCTGAAGCGGGTGGACGATGATCACTTCTTCGTGATGGCTTATATGGCCCGGTTGCAAGAGGCTGAGCACGATAAGTTCAAGATTCTGGACGTTATTCGTCAGGATACATCGAAGCAGAACTATCCATTGACCCTGTCCATCGGCTTTGCCTATGGCAACCCGAACCTGGCCACCTTAGCCAACGATGCCCAATCCAACCTGGACCTGGCCTTGGGCCGGGGCGGCGATCAGGTCGTCGTCAAGGCTCCGGATTCACCGGCCCGCTTCTTTGGCGGCCGGACCAACCCGATGGAGAAACGGACGCGGGTGCGGGCCCGGATGATTTCCCAGGCGTTGCAGGAAATCTTCAAGCAAGTGGATAAAATCTACGTCATGGGCCATGCCCGGCCGGATATGGACGCCATTGGCGCCTCTCTGGGGATTCGCCGAATCGCCGAAATGAATGGCAAGGAATGCGACGTGATCGTCAACGCCAACGACGTCCACTCCGATGTGCAGCGCCTGCTGCACCGGGTGGAAGAACAGCCCGAGGTGGCCAAGCATATTTTGACCCCGACGGAGGCGCTGAATCAGGTAACGGACAAGACGCTGCTGATTCTGGTGGATCATTCCAAGCCGTCGATTTCAATCTCGCCGGAACTGTGTCAGCGCCTGTCCCAGCGGCTGATCGTCATCGATCATCACCGGCGGGGCGAGGAGTTCCCAGAGAATCCGATGCTGGTGTATATTGAACCTTACGCCAGTTCGACCTGTGAATTGATCACCGAAATGTTTGAGTACCAGCCGAAAAACGTGCCAGGCTTGAGCAAGCTGGAAGCAACCGCCATGCTGGCCGGGATCACCGTCGATACCCACAGCTTCTCCCTGCGGACCGGGACGCGGACATTCGATGCCGCTTCCTATTTACGGTCGGTTGGTGCAGATAGTACACTAGTACAGGAACTGCTCAAAGAAGACGTCAATAACTTTATCCAGAAGAATCACCTGATCGAGACCATTGAAATGGTGGAACCGAATATGGCACTCTGTACGGGTGAGGAAGATGAAGTCTATGATCCGGTCGTGGCGGCCCAGGCGGCGGACACGCTGCTGTCGCTGGCCGGGATCGAGGCCTCCTTCGTCATCGTCAAGCGCATTGACGGCGTGATCGGCATTTCTGCCCGTTCCCTGGGCAAGGTCAATGTCCAGGTGATCATGGAAAAGATGGGCGGCGGCGGTCACTTATCCAACGCGGCCACGCAAATTAAGGATTCAACCATCGCCCAAGCCCGCCAGCAGTTGAAGGATATCTTGACCCAGCTGGTCGCGGCTGACGAAGAGTAA
>SRR1151209_00947 hypothetical protein
ATGAGCGATATGATTATTATCCGCGGCAATTCCGGTTCCGGTAAAACGACGGTGGCCCGGGCGCTGCACGACCGGCTGCCGGGTTCTTTACTGATTGATCAGGATGTGGTCCGGCGGGATATGCTGCAGACCCACGATCACCCAGGCAACCCGAGTATTGATTTAATGGAAACCATCGCCCGCTTTGGCCTGGCCCATGAACAGATCGTGATTCTGGAAGGCATTTTGAGCAAAGCGGTGTACGGCGACATGCTCACCAGCCTGGCTCAGGATTTTGACCGAGCTCAAGCCTACTATTACGATTTAACCTTGGCAGAAACCATTGAGCGCCACCAAACGCGATCCCAAGCCGGGTCGTTTGGCCCAGATGCGCTGGCTAAATGGTTTCTGCCCCATGATGTGCTGGGCTGGCCGGAAGAAGTGCTGATTCCGGCGAGTTGGTCGATTGCCGAGGCAGTGGCCGAGATGAGCGGACAAAAATAA
>SRR1151209_00948 L-serine dehydratase alpha subunit
ATGTTTTATACGATTAAAGAGCTTGTTGAACAGAGTGCTGATTATCCGTCAGTGGCCGCGATGATGGTGCACATGGAGGTTGAAAATACGACGCGGAGCGCGGACCAGATTCGTCATTTGATGGGTAAAAATCTGGACGTCATGGTGCGTTCGGTCAAAGAGGGCATCGCTGGGGTGAAATCGGTGACCGGGTTGACTGGTATGGAAGCTAAAAGGATGGATCAGTACCTGACCGCCGGCGATTTCCTGAGCGGCCAGCCCATTCTGGAGGCGGTGCGCAATGCCATCGCGGTCAATGAGGTGAATGCCAAAATGGGTCTGATCTGTGCCACGCCCACCGCGGGCAGTGCCGGCGTCTTAGCCGGGGTTTTGCTGGCCGTCCGGGAGCGGCTGGCCATGACCCGGGACCAGCAGATCGATTTTCTCTTCACGGCTGGGGCCTTCGGGCTGGTGATCGCCAATAATGCGGGGATCGCTGGGGCCGAGGGCGGCTGTCAGGAAGAGGTCGGTTCCGCCAGTGCCATGGCTGCCGCTGCGCTGGTCTGCGCCAAGGGCGGCACCGTGGTGCAGGCGGCCAACGCGGTGGCGATGACGCTGCAGAACATGCTGGGGCTGATCTGCGATCCGGTCGCTGGTCTGGTGGAGGTCCCCTGTGTGAAACGCAACGCCCTGGGGGCCAGTCAGGCCATGATTTCCGCCGACATGGCGCTGGCCGGGTTGAAGAGTGTGATCCCGGTGGACGAAACGATCGAAGCGATGCGCCGGGTCGGTATGCAAATGCCCAGTGCCTTCAAGGAAACTGCGGAGGGCGGACTGGCCACGACGCCGACGGCCTTGAAATTGAAGCAGCAGATTTTTGGTGACCGATGA
>SRR1151209_00949 L-serine dehydratase beta subunit
ATGCCAGACGTCAGGTTCCACAGTGTCTTTGATATTATCGGCCCCGTGATGGTCGGTCCCAGCAGTTCCCACACCGCCGGCGCGGCCCGGATCGGGAAAGTGGTCCACGATATTTTCGGCGATACGCCGGAAAAAATCACCGTTTATCTATATGAATCGTTTGCCAAAACATACCGTGGCCACGGCACCGATGTGGCGATCATCGGCGGCTTGTTGGGCATGGCCCCGGATGATCCGCGCCTGCCGGATTCTTTAAAAATCGCCTACGACCGCGGCATCACGGTGGGCTTTGTCCCGAAGAGCGACAAGGTGGACCACCCCAACACTGCCCGCATTGTGCTGAAGAAGGGCGACCGCAAACTGGAGGTCACCGGCGTATCCATTGGCGGCGGCAACATTCAGATCACGGAAATCAACGGCTTCAAGATCACCCTGAGTATGGGCACCCCGACGTACATCACGATCCATGAGGATGTACCGGGGATGGTCGCGCGGGTGACCCGTATCTTTTCTGAAAACAACATCAACATCGGGACCATGACCGTGACCCGCTCAGCCAAAGGAGAGAAAGCCATCATGGTGCTGGAAGTCGATGACTACCAGCCAGGGATTCTCGACCAGTTGAAGCAGCTGCCGCACATGATCAATGCCACCTATTTCGAATAA
>SRR1151209_00950 hypothetical protein
ATGGACTGGGGACCAATCTCTGAATGGGCGGCGGCAGTGGCCGAACTGCTGGCCGTCAGCGTCGCATTATTTCTACCGTATTATACAGAGCATCGGAAAGAAAAAAGAAAGATCCGCAATCTGCGGGTGGCCATTAACCATCTCAGTCAGCAGGCGCTGGCTGGCGAAAAAGACGCCGTCGTCACTTTGGAAATATTTCTCAATGTGTCTTTTCTGACCACTAGCAGTGCCGAAGCGGAGCGGTTGATCGTCGCTGGCCGCTTGATTCTGGATTCAATCAAGGCGTTGCCGGATAAACAGGCAGAAAATTATTCGGCGGCGGTCCAGCAAATCAACAAGTTAGTCGCGGCTATCAGTACCCCGAAACACCGGTCAAAGGCGAACCGGTAA
>SRR1151209_00951 ADP-ribose pyrophosphatase
ATGGCAGATTACATCAAAGAAATCCGCGCCTTAGTGGGACACAAACCGATTCTGCTCAATGCCGCCGGGGGAGCGGTTTTTAACGACCAGGGGCAAATCCTGATTCAACAGCATACCGATAACCGCACTTGGAGTCTGCCCGGCGGCTTCATGGAATACGGTGAAACCTTCCGGGAAACTGTGCTGCGGGAATATAAGGAAGACAGCGGTCTGGAAGTTAAAATCGACCATCTGATCGGTGTTTTCGACCAAGGCTTCACCGTTTATCCCAACGGCGACGAGTGCCAGGTCATTTCGGCCCTCTTCGCGGTCACCCCCATCGGCGGCAAACGAATCACTGAGGAGCAGTTCGAAACCGTCGGGACGGATTACTTCGATGAAGACAATCTGCCCCCGCTGCTCAATCAGCAAACCGCCAACATGATCCATGCCGCCTTCGCGGATTGGCGCAAGCACCACAAACAAGAGAAAGCTAGCGATTAA
>SRR1151209_00952 hypothetical protein
ATGCCGCCTTCGCGGATTGGCGCAAGCACCACAAACAAGAGAAAGCTAGCGATTAATTTGGCCCAAAAGAAATTCTTCAACCACGAACCGCTTTTCACCGCCCGGAGCTTCGGCCTGGGCTGGAACATCAACATCCATAATCCCATTGGCTTGCTGATTTGCGTTGCCTTAGCGGCGGTGATCATCGGTATGGTGATTTTCAGTATTCTCCATAATGGGTTATAA
>SRR1151209_00953 agmatine deiminase
ATGGAAAAACGAACTGGATTTTTATACGTCGCCATTTTTGTACTGGCAGTTATTATCGGTGGTGCCCTGCTGCTTGGCCGCCACCGGTCCGAGGCGGGGAGAGAACAGATGGGCACACCAACGATTTACACCGCTCTGCCGAGTCAAACAAATGGCTACTACCGGCCCTTTGCTGGGGCGCTGAAAAGTTTCAGTGCCCAGCTGAACGCTTCGGCTGCACCGGTGGTCACCATCACCAAACAACACTTAGACCAGCCCACCAGCCGCTTCACCTACGACGACATTTGGCTCCGGGACGTGGCGCCGGTGATCACCACCCATATGGTGAAATTCCGCTACGCGCCCAGCTACCTGGCCAAGGCCGACCGCACCTATTTGGACACCCGCTTTCGCGCTTGGTTGAAGCAGATGCACTTTCAATACCGCACCAGCGATCTGGTACTGGATGGCGGAAATTTGGTCTGGAATGGGCACGATACCGTTATTTTGACCGAACACGTCTTCAAGGATAATCCCGAGTGGTCCCGGCAGGAAATCGTCAGTGAGTTGAAATACCAGTTGAACGTCAGCCACGTGATCATTATTCCCGCTGAACCGGGCGATGTGCTCGGTCACGCCGACGGGATGGTCAAATTTATCAATGCCCGGACGCTGTACGTCAGCGACTTCTCCGGCGATGACGTCCTGGTACACACCGTTGAACGCCGCATCAAGGCCGAGCTGCCCGCCGCCAAATTCGTCATCCTGCCTTCGGCTTACACCGCCAAGGATCAATATGATCGTAAAATTACCTCCGCCAAGGGGTTGTATATCAATATGCTGGAAACACCGGACACGATTTACGTACCGCATTACGATCTGCCGGCCGATCAGCGGGTACTCAAAATTATACGCGCCCATACAGCGAAGAAGGTCGTGCCCATTGACGTGGCCAAAATTTCCACCACCGGCGGTTCCGTGCACTGCCTAACATGGGACGTACCGGCGCGGCTGATGCCGGCCCATTAA
>SRR1151209_00954 two-component system response regulator
GTGACCATGGAACGAATTCTCTTAATTGACGACAATCCCGACATCGGCGCGATGCTGGACACTGTCCTGGGCGACACGTACGCCATCACCAAAGCCTATTCGGGGACCGAGGGCCTGCTCCAAACTCAGCAGCAGGCGTTCGATTTGATCCTGCTGGACCGCATGCTGCCGGGGAAAAATGGCGAGGCAGTGCTGCACAATCTGCGGCAGACTTTGACGACCCCGATCATTATGCTGACGGCGTTGAGTGATAAAGACGACATCGCGCGGCTATTAATGGCTGGCGCAACGGATTATGTCACCAAACCGTTCAACATTAAGGAATTGAAAGCCCGGATCGTCGTCGCGCTGCGGCAAAACGCGGCGCCCGCAACGAGCACTGCCCCGGCGGCGGTTTCGTTTGGCCCATTCACCTTGGCTGAGAAGGACTATACCCTCCATTGGCAGGACCAATCAGTCGACCTTAAAAAGAAGGAATTCGACATTTTGAAACTCCTTTTCCAGCATCCCGGCCAGGTTTTTAGCAAGGAAGCCCTATACACCCAAGTGTGGCACGAACCTTATTACGGGGATGAAAATACCGTCAACGTCCATCTCACTAACCTGCGCAAAAAACTACGCCAACTCGACCCAGACCAGGAGCACATCGCCACGGTCTGGGGTATTGGCGTAAAGCTGGTCTAG
>SRR1151209_00955 two-component system sensor histidine kinase
ATGACGACAATCGGCTGGATCCTCCTCATCGCCATGGCTGGCGCGTGCCTCGCTTATTTAGTGTACATTTTGCTGGCAATCCGCGATTTGCGGCACCAGGTCAACGGTATCGCGGCCAGCCGCACCAACAACGACGTCCGCACGGCCAGCCGCAATCCGCTCATCGTCAATCTCGCCAACGCCATCAATACGCTGTTGACTGATCAGCGCCAGGAGCGGGCCGACAACGCCGCTGTGGCGAAACAAATCGATCAGGCGATCAATAATATTTCCCACGATTTACGGACCCCATTGACCGTTGCCAGCGGCTACGTGCAGTACCTCAGCGAAGAAAAACTGCCGCCCGCTAAAGCTCAGCAGGTCCTCACCCAGGCCGAACAAAATCTGGAGACCGTCAATACCCGCTTGGAATCTCTGCTGGAATACAACCGGATCACAGAACACCGCTTGACCGTGCAGGCCGAGAATTTTGACCTGTCTGCCCTGGTCCAAAACGCGCTGCTCACGCTCTATGACGCCCTGCAAACAGCTGGTTTCACTGTCACCCCGCAAATCACCAGCGGCGTCCTGGTCCATCTGGATCAAGAAAAGACCCGGCGCATTATCCAAAATCTGCTGGGCAATGCCCTGATCCATGGGATTAAAACTTTGCACGTCACCTTATCCCAACACCCCGCGGCACCCACCATCACGCTCACTGTGACCAATGGCATCGCCCACCCCATTACGCACTTGGAGCGGCTGACTGACCGCTTCTATACTGAGGACCTGGCGGGGCAAACGGGCAACTCCGGCTTAGGGTTATATATTACCCAACACTTAGCGGAATTGATGCAGGGACAACTAGCATTAACCACTACAGCCACCGCCTTCACCGCCACCGTGACTCTGCCGCAGCGGATCGCTTCAACGCCGAAAGCACCCTGA
>SRR1151209_00956 hypothetical protein
ATGAAAGTAATTAACGTATACCCACTGCCAGATAAGCACTTGATTGGTGTCCCGGTTAGTGAGCGGGCCCTTCTGCCCAAACAGCGTCAGGCCACAGCCCCAGTCACGATGAGCACGGAACAAGTATTTCTCTTGCCCGAATCTGAGTACAACCTCTTTACTCATCATATGGAACGCCGGTACACGGAAGGCTTTCAGATCAACACAATACTGCTTCAGGATCTAATACACTGGCCTGATGATTGGCATTACGGTGATGCCGTAGTGTTCCTCACTGATCCGAGTGAGGAAATGACGGGGATGCTGAATAAGTTGTCCATTTCGTTTAAACAAACCGTGGGCGAATCCGATACCTGGGCGATCGCAGCCAACCAGTATCCCAAGTTATTCGATATTTATACGACGACGCACGAATTTGATCAGCGAAAAGCCAAAATGGTAGCGATTCCGGGTATGCTCCACACACCTGTTCCAACTCCGATCAGCTTCCCGAAACTCATTGAACTCGCAACACAATATTATGGGCTACCTAGATTAACTCTAATGATGGCCACGATTCTCCAGCATACCAAAAGCACACCGTTTTCTGTCTCTCTTCCAGGGCTCACGATTAACGGCGACAAAGATACCCTGGACGTCGTTTTTTTCCTGTAG
>SRR1151209_00957 glutamine amidotransferase
ATGGATTATCAAATCGATCAGATTCCCAGCGAGTGTGCATTATTCGTGCTGATTGGCGGTAACTCCTGGGCTGTCAATAATGAGCCGTTGAAACAATTGATTACCAGTCGGCTACATACTGACCAACCGGTGGCAGCAATTTGCGGTACCGTGGATTACTTAGCACGAAATGGGCTTTTGAATCAGTATCAGCACACAGGCAACGCCCAATATCTCTGGCGGGACTATCGCGCGTACCAAAACCAGAATGGCTTTCTGGCACAACAGACCGTATGGGATCGCAACCTCGTTACGGCAAATGGGACGGCGGTGCTGGACTTTACTGAAGCAACGCTCAAAATGATTCGGTTTAAGTCAGCTGAACAGGTGCATCAGGATGTCGATCTTTATCGGCTGGGCTTCTACGAGTATTGTCAGAAATATGGGAATCCGTTTGTATAA
>SRR1151209_00958 hypothetical protein
ATGGATGTTGTATTAGAAGCAAGAAACGTCACCAAGCAGTACCCGCAACAATTAGCCTTGGATAATCTGGAAGTTTGTGATGATGGATGA
>SRR1151209_00959 MerR family transcriptional regulator
ATGACTTATTCGATTAAAGAAGCAGCGGCCTTGACCGGCCTATCGGTTTATACGCTGCGGTTTTATGACCAGCAGGGATTATTGCCCTTTGTGGGCCGCAATCAAGCAGGCTACCGCGTGTTTACTGATTCTGACCTGAATATGCTGCATACGATTTGCTGCTTGAAAAATACCAACATGGCCATTAAAGAAATTCGGCAATACGTTGCTTACTGCATGGCTGGTCCGACGACGATTCCCGCGCGGCAGGAATTATTAGCCAAGCAGCGGGCAGCCGTGTTGGCTGAACAGCGTCGACTGACGGCCAATCTCAAGGAGATTGACTACAAGCTGGACATCTATCTGGCCCCAGATGCAGTGGCAATCATTACCCAGGAGCGCCGATACGTGCAGGCAGAAAAAGCGGCGGCTGGATTACCGGATCCTTATGCCGCAGCGGAATTAAGAGATAGTTAA
>SRR1151209_00960 polysaccharide biosynthesis family protein
ATGACTCACTATCTCGTAACCGGCGGCACCGGCTTTCTCAGTGCGCACCTCATTGCCCAATTGCTCACCCAAGGCGCGTTTGTCCGGACCACGGTGCGTTCCCTGGAGAAGTCCGATCAAGTCCGACAAACTATGGTCGACAATCATATTCCGCACTTGGATCGGCTCAGCTTCGCCGTCGATGATCTGAACACAGACGCCGGCTGGGCCGCTGCCATGGCCGATATTGAAGGGGTGTTCAGCGTCGCTTCCCCCGTGTTTATGGATCATCCCCAAGACGCAGCTGCGGCCATGCGCCCCGCGATTGACGGCGTCCAACGGGTGATCAAAGCGGCCCAAGGGGCGTCCGCCGCTTAG
>SRR1151209_00961 polysaccharide biosynthesis family protein
ATGACCGCTAATTTCGGCGCAGTGGGGTTCAGCAACCTTGATCCACAGCACGTGACCACCGAAGCTGACTGGACCGATCCAGACCAGCCTGGTTTGTCGCTTTACGAAAAATCCAAATTATTGGCCGAAAAGGCGGCCTGGCAACTGATTGATGCGCCGGACAACCATCTCGAATTCGCTACGATTAATCCAGTCGCCATTCTTGGCCCCGCATTAAGCGCCCACCTGTCTGGCAGCTTTTCCATTCTCACCAACCTAATGAATGGCTCGCTCAAGGTCGTACCGCCCATCGCGCTGAACATCGTTGACGTCCGGGATGTCGCAAAATTGCACATTTTGGCCATGCAAACTCCAGCCGCCAATCACCAGCGCTTTATTGCGGCCGCAGACGGCATGATCAGCATGCCGCAAATGGCCGCGGTCATTCGGCAGTATGTCCCAACAGTTGCAGATAAGCTGCCGCGACACACGCTGCCGGTTTGGGCGTTGCATTTGGCCGCTCATTTCAACCGCACGGCGAAAGAAGGGGATCTCTTACTGCGGGTCAATCATCATGTCAGCAATCAAAAGGCCCGGACTGTCTTGGGCTGGGAACCGCTCGGCAGCATTCAAGATACCCTGCAAACCACCTTAGCCAGCATGGCCCACTATGGGGTGTTGTGA
>SRR1151209_00962 hypothetical protein
ATGGGCAGTGAGCCAGACCAGCACGCGGCGGCATTAGCCGCCCAAACCAGCACACCCGCATTTCACCGAGCCTTAAAAGCGGCCGTCCAAGCCGGCCTGCCCCAGGGGGTGCAGCTGACGGCGGCCAACTATGCCCGCTCCAGTGCCAGTTCGTATTGGCTGCTGCGCTGGTCCAGCGCCGCAATGCCTCCTATCTGGCTCACCCTGCGCATCGCGACCCACCCCCACTGGCTGACCCAAGTCCAGCAGGTTGAAGTGGTGCGGCCGGCGCTGCCGAACTTAACCGGCCTCTCGGCGGCCGTCCGCCAAGCATTGGCCAGCCCGGCGGCGGCCGCTGCCCGGTATCAGTTCACGCCGCTGGAATTAGCTGTTTTGCGCCAGCTGCTGGTCCTGGCCGATCACAAGCTGGTCTGGCTGGTCCAGATGACGCCGGCCATCGCTGCCAGCCACAAGGGCCGCTCCTTTGATTTGCAGAACGACTTTCGCCGCCTGCCGCTGTTTCTGGGCGACCGCAACAACGTCAACAACTTGCTGGTACCCGTGTCTGCGCCGGCTTTTCAGGACAAATTGATCGACTTTTTCGGGGCCAACCTGCTGTTTTCCCAGTTTTCCAGTCATTATATGTTGAAACTCTTGCCCACGATCCAGTGGCTCAAGCCAATGCTGGCCGCGGATGCGCGCATTGTCCACTGGCCGCCGCAGTTGGCGGCGGCGTATGGGAAGAATTTTATGACGACGGTGGCGCAGACAATTCATCGCGCCGATCACAACACCCCATAG
>SRR1151209_00963 membrane protein
ATGTTTCAGAATTCGCATAGTCGGCTAGTCGCTATTTCCGATGGCGTCTTTGCCGTGGTGTTAACGCTGATGGTGCTGGATATCGATGTGCCCGAGCGGATCACTTGGGCCACGATGAGCGCGACGGGGTGGAAAGTACTGCTTTACATGATCAGCTTTGGGGTGGTCGCCCAATACTGGATCTATCATCAAGAGCTGTTCCACGCTATCAAAGAACCGACCATTCAATTGCTGGTCTACAACTTCATTTACTTAGGCTTTATCTGTTTGACGCCGTTTGCCACCAGCTTTCTCAGCGATCATCCCCGGGAGCAGGCTGGGGCGCTGATGTTTGCCGGGGTGATCTTCCTTGTTGACGCCGTGCAGTTTATTCTCTTCCGGTTGGTGATCCGCGCTGGCGGCGGCCGGGCGCAGTTAACGCCGCATGATCAGGAGGAGTATCGCGGGGCGGCCACGATGCTGATTATCAGCGGGGTTTATATCGTGATCGGACTGATCTTGCCGCAATGGCTGCTGCTGGTGATCGTTCTGGGGCTATTCGGCCGGACGGTGCAAACACATCTATGGCGGCGGTGGGCAGCGCGTCATGGGCAGTGA
>SRR1151209_00964 sulfite exporter TauE/SafE family protein
ATGACCCTCACCCACTTCGTCTTCCTTCTCGCTGCCGGCATTATCGCTGGTTTGCTCAGCACGATTGCCGGCTTAGCGTCCCTGGCTTCTTACCCTGCACTGCTGATGATCGGCATCCCGCCAGTCATCGCCAACGTGACCAACACCGCCGCCCTGGTCTTCACCGGTATCGGCGCCACCTTCTCATCCCTGCGGGAATTGAAGGGCCACTGGGTCGAACTCAGCCGCATCCTGATTCTGGTGACCATTGGCGGGGTCATCGGGAGTGCTGTCCTGCTGCTGGCCCCGGCTTCCAGTTTTGAGAAAGTCGTCCCATTCTTCATCGGGGCTTCCGGCGTATTGTTACTGGCGAGCGGCCGGGCTCCGAAGAACCCTGATTTAACTGCCGCTACCGGCCCCCGGGCGGCCACCAAGGGCCAGCAGGCGTTGGTCATCTTGGCTATGGTGTTTATCGGCGCCTATTCCGGCTACTTCGGTGCCGCGGCCGGAGTTATCATGCTGGCCATCCTGGCGATGATCTCCACCGAACGCTTCACAGTGATCAACGCCGAACGCAATGTCGCCGGTTTTGCCTCTAATGCGATTGCGACAGTGATTTACGCCTTCACCACCCACATTGCCTGGCTGCTGGTCATTCCGCTGGGACTGGGCCTGTTGATCGGCGGCTACATGGGCCCGGCCATCGTCCGGCGGGTGCCGGTGAAACTGCTGCGGGTGGTCATTGCCCTGGCGGCGTTTGGCCTGGCGATCGACTTGTTTATCAAGGCGTATTTTTAA
>SRR1151209_00965 cold-shock protein
ATGCAAAACGGTACAGTTAAATGGTTCAACGCTGACAAGGGTTATGGCTTCATCACTGGTGACGACGGCAAGGATGTATTCGTACATTTCTCCGCTATCCAAGGCGACGGCTACAAGTCTTTGGACGAAGGCCAAGCAGTATCCTACGACGTTGAACAATCCGATCGTGGCCCGCAAGCTACGAACGTTGTTAAGCACTAA
>SRR1151209_00966 hypothetical protein
ATGGAAAAACGTCTTAGTGTATTGGCGCTGGCGCTGCTGGCAGCAGGGGTGCTGGGCGCGTGCGGCAACACCAATCAGGATGCCGCAGCCAGTGGTACCAGCAGTCAGGTCAGCCAGAACAAGCGCAGCAGTGAGAAGAGTTCGTCTGCGTCGACCAGCAGTAAGCAGGTCAGCAGCGACACCAGTACGAGCAGCAGTTCAACTAGTCAAAGCAGTTCTTCAGCGGCGGAATCCTCCGCCGTCAACAGTCAGCCAACCGACCGCATTCTTCGGATCAATACCACGGCATGGGATATTTACCAAATCACCAGTGCCGAGGCCAAAAGCGGCGCGCGGCTGCCTACTGTCTACATCCTATCTGACGGCCCGCGCTTCGAGAGCAAAGGCCCGACCGAATGGCTGTACGTAAACGTCACGGACGCCAGCGGGGCGCAACTGGCCAAACAATTGGTCAACAAACCCCAACTGGTCATTGACGGCAAGACCCTTAAACCGCTCAAGCAGTACGCCCTCCGGCCGGAACAGGTGCGGGAAGACCACGACATTATGGATGAATATTTGCAGTGGAATTCCCACTGGTTCATCGAAACACCGACTAACTTGTATGTTTATCAGCAGTAA
>SRR1151209_00967 single-stranded DNA-binding protein
ATGATTAATCGGGTAACGCTGGTGGGCCGCTTGGTGCGGGATGTGGAGTTAAAGTATACGCCGGGCGGAACTGCGCGGGCATGGTTCAATCTGGCAGTGACGCGTAATTTTAAGAACGCCAACGGTGAACGGGATTCTGATTTTATCGAATGTACGGTATGGGGCAAGTCGGCGGAATCATTTGTCAACTTCACCTGCAAGGGTTCTCTGGTGGGAATTGAGGGCCAAATTCGGACACGCAGCTATGAGAAAGATGGTCAGAAAGTTTACGCCTCGGCAGTCTCGGTGGATAGTTTTGCTCTCCTGGAATCAAAGGCCATAACTGACGCCCGGCGTGCTGGCCAGCCAGTAACAACTGCTGGAAAAGACGACAACGTCTTCGTCGCCGCGGGCAATGGCGAAAACATCGACATCGCCGATGACGACCTGCCATTTTAA
>SRR1151209_00968 30S ribosomal protein S18
ATGGCAGGACAACGTCGTGGTGGCCGTCGTCGCCGTAAGGTCGACTTCATCGCCGCTAACCATATTGAATATATCGACTATAAAGATACCGAACTGTTGAAGCGGTTCATCTCCGAGCGGGGCAAGATTTTGCCGCGTCGGGTTTCTGGCACCAGTGCCAAGAACCAACGGAAGATCACCATCGCTATCAAGCGGTCACGGATCATGGGCTTGTTGCCGTTCGTTTCTGAGGAAGGCTAA
>SRR1151209_00969 single-stranded DNA-binding protein
ATGATCAATCGTGTGGTATTAGTGGGTCGCTTGACCCGGGACGTTGATCTGCGCTACACCCAAGGCGGCACGGCTGTTGGCCGGTTCACTGTGGCAGTAACGCGGAACTTCAAGAATTCCCAGGGCGAGCGGGACTCCGATTTCATCAATTGTACGATGTGGCGGAAGGCGGCGGAGAATTTCGCTCAATTCACCCGCAAGGGATCGCTCGTCGGCATTGATGGCCGGATTCAAACTCACAGCTATGAGAATCAGCAGGGCCAACGGGTCTTCGTCACCGAAGTGGTGGCCGATGACTTCGCCTTGCTGGAACCCAAGTCGGTCACCGATGCCCGGCCGCGGGATACTGGCAGCGACAACCAAGGCGGCAACCCGAACCAGGGTCAGCCTTACGGTGGAAACAACCAGTCCTCCTACAATGGCGGTCAAGGGAATAATCAGAGCCAGCCTCCTTTGAATCAGAATAATGGTAATTCTGCGGCCCCCAATGCGAATAGCGGGGCGCCGAAGAAGGATGACTCCTTATCCGATCCATTTGCGGATAACGGCCAGCCTATCGACATCTCTGATGACGATTTACCGTTCTAA
>SRR1151209_00970 30S ribosomal protein S6
ATGGCAACACACTACGAAATTACGTACATCATCAAGCCGGATATCGACGATGATGCCAAGGCCGCTTTGATCGAACGGTTCGACAAGGTTCTGTCCGACAACGGGGCAACAGTAGATGATTCCAAAGACTGGGCAAAGCGTCGTTTTGCTTACGAAATCAACCACTATCGCGAAGGTACGTACCATATCGTCAACGTCCACGCGGACGACGATAAGGCCATCAACGAATTCGATCGGTTGAGCAAGATCGAGCCGTCAATTTTACGGCATATGATCGTTACCCGAGAGGATTAA
>SRR1151209_00971 hypothetical protein
TTGGCCGCGTTGGGCAAAACCGTTCGTAAAATTCGAAAAAACAAAGGTCTCAAACTCATGGATGTCGCCGACAATCAGCTGACGGCGTCTTTTCTCTCGAAATTTGAGCGGGGCCTTGCCGACATGAGTACCAGCCGCTTTTTGCATCTCCTGGACCGTATCTTTACGACTCCCGAGGAGTTTTTCTACATTCATAATGGGACGCCGACTGAGAAAAAGGCCAGCACAGACGGCTATTACAGTCGTACAGCCATGCTGGACCGCCTATTTGGTAATTACCTATCGCTGGATTCACCAGCGGACATTCAACAGACGCTGACGGATTTGACCCGCCGGGAAAGGGCGGCCGCGGCGCAGTATCAGGCGGCCCCCACACTGCTGAATGTGCTCCATTGGCGTATCCAGCAAGTCATGCGGCGGATGGTCACGCGCCTGGAACAACAGCGGCCGCTGACCAGCCTGAATAATACCGGGCAGTATTCTGCGGAAGCCCAGAATTATCTGTACAATGTCAGCGATTGGGGTGAATTTGAACTCTATGTGTTTACCTTGTTTTCGCTGGATATGCAGGTGGCCGATGAGCGGCGATTGTTCAAGGTGGCGGTGAAGCGGAGCAAGAAATATAGTACGTTTCGCGGGGCACCGCACCTGCGGTTTGATATGATTGCCAATCAATTGTTTTTGGAAATGAATCGCCGGGCTTACCCGGTCGCGGCGGAGTATTTGGAGCAATACAAGGCAGCATTGGTTGCTGATCCCAATGCTGAACACGAAATTATGTATTGCTTCGTCCGGGCCTGGTGGCTGTACCGGACTGGTCAGCGGGAGACCGCGGCCACGGTGGGCCAGGGCGCCATTCGCTTAGCCACGGCGCTGCGGATGACCGATATCGCTCAATACGTGCAGAACGAGTTAACGCAGATCGCCACCCACGGGCCGGAGGCGGATTACACGTTTTTCCGCCTCGTTATTGAGTGA
>SRR1151209_00972 transposase
ATGACCCGCAGTTATAAGACTAAACTCCACGTGGCCAATGATGCCCAGAATGATTTTTTGGTCCTATGCATGGCTGTTAAACGTAAACTGTACAATCTTTATCGCAGCGTGCAGTTTGGCTTGCTGGAAACGCGCAAGCGGCTTTATCCAGACTACGACGCTTTCAAAGAACTGCCTAAAGAAACACGGAACCAGTTTTATATCTCTGCGGCGGAGTTTGAGAAGGTGTTCAACCACGTTATCCGGGTCAGCGGTTCCTATCCGGCCTGGTGGGATCAAGCCCCGCAAAAGACTCGAAAGCAAGCCTTTCGCGATGCTGAACGGGCTTTCCAGAACTATTTCAAAGGTCTAACAAAAGAACCGCGCTTCAAGGGCTATCACGCCCGCCAAGTTACTTACTTCAGCGGTTCGATCCGCGTTCAGCGCGACCGCATTAGATTACCACTGATTGGTTGGCTGCGGCTTTCTGAATTTGGTTATTTGCCCACTGATGACCGGCTTCAGAAAACTGGATATCACATCACTGGCTGTTGGGTCAGCCGTTGGGCGAATGATTATTGGGTGGTGGCTACCGATGAGCCGGCACCAACACGGCCGGTCTCTTACGCGGATACCAAGTTAGGCCTGGGCATTGATCTGGGCATCAAAGATATGGCTATTTTGAATACCGGCAAAAAGTTTATCAATATTGCCAAAACGCCCTATTACTACCACGTGGAAAAGATGAAGAAACGCTGGCAGGCCCGGTTGGCACGGCGCAAAATTGCGGCCGAAAAGAGTTTTGCCAAGAATCACCCGCATCAAAAGGCTGGCTATCTGACCAGTCGAGGCATCGAAGAGGCTCGATACTATCTGGCCCGCTGGTCAGCTAAACTGGCAAAGATCAACAAGGAAACGGTACGCCAAGCCATTGCTCAAATTGTTCAGCTTAAACCGCCGCATATCACCGTGGAAAAACTCAACATCAAAGGGATGAAGGCCAATCCCAAGCTGGCGCCCAGTTTGCAAAAGCTGGGACTTGCTTACTTCAAGACCTGGCTCACGTGGCAGTGTCAAAAGCACGGTATTGAATTGCGTGAAGTCGGTACCTGGTATCCCAGCACCAAGTTATGCAGCACCTGCGGCACTTATAATCGAGCTCAATTCCACGGTACGATGGCAGATCTGGCCGTCCGCCAATTCATTTGTCCGCACTGCGGATTATCCATCGACCGCGACGTTAACGCTGCGATCAACTTGCAACAAGCAACAGACTATACGGTCCTTACGGCAACTGAATAA
>SRR1151209_00973 multidrug ABC transporter ATP-binding and permease protein
ATGATTGTATGGCGTTATGGAAAGAAATGGCAGTTGTTACTTTACTTGGTGATCAGTCTGGCAGCCAGTGCGGCAAATGTGGGGATGGCCTGGATCTTATCCCGGTTCATTGCCGCAGCGACCGCCCGAAATTTGAATATGTTTCTGGCCAGCGCTGTCTTTGCCTTGGGTATCTTCATTGGTCTGGGCGTGGCACAATGGCTGTTAATGGTGATGAACGCGACGATCATTCGCACGGTGAATCTGCGGATCAAAACGATCATGATCCGCTACATGGTGGATGATGAACCGTTGACCACCGATAGCGGCAAGGATATTTCGTTCATGACGAATGATCTGAAGCTGCTGGAGACGAACGGCACCACCAACGAGCTGCTCATCCTAACTGACGCGTTGATCTTCGTCGGGGCGCTCGTTGGGGCCTTCGCCTTTGATTGGCTGACGGCGCTGGCCTTCTTCGTCGGTAATCTGCTACCGGCCGGGATTTCTGCCCTGACCCAGGGCATGATCGGCCACGCTTCCGAGCAATGGTCCGCGGCCAATGCCTCGTGGACCGGGCAGTTGAAGGACTTTCTCGCTGGTCTGGACACGGCCCGGGCCTATCAGGCCAACGGCGCGGTGAAGAAACGCACCGGTATTCTAGCGGCGGCGCTGGAAGGCCGATTGTTCCACATGAACTTTCTGATCGGCACGGTGCAAGCGGTGGCGATGGTCTTTGCCCTGGTACTGGGCGTGCTATTCCCCTTCGGCGTTGGGGTCTGGCACATCATCATCGGTGGGTCGACGCTGGCCAGCTTCATTGGGGTCGTGCAATTGTCCAATGATATGCGCAATCCGCTGCTGGAGGCGCTAGACGCCTATAATAAGCGGGGCGCGACAAAGCCTGTGCTGAAGCGGATCAACGAGGCAAATACTGCCCTGACAGCGACCACCGACGACGGCGAGAACTTAGCGCCAACTGCCACTGGTGATTTGGTCATGCAGGATGCCACTGTGAAAATTGGCGACAAGCCGATTCTGCAGAATGTGAATCTGACGATTACGCCGGGGGAGAAAGTCTTGCTCATGGCGCCGTCTGGTTTCGGTAAATCGACGCTGTTGCGGGTCCTGCAGGGCGAGATCCCGTTGGCCAGCGGGCACTACACCGTGGCGGGTATCCCGGCGGCGAAAATCAATCGAGTCGCCCTGCGCAAACACTTTGGTCTGGTCAAACAGACACCGTTTCTCTTCAATGACACGTTACGCTACAACATCACGTTAGGCGCGGAGTTCTCCGATGCGGCCGTGATGACCGCCGTCGCTGACGCCGGTCTGGGTGATCTGGTCGCGGATAAGGGACTGGACTACCAAGTCGTCGAAAACGGCCAAAACCTCTCCGGCGGCCAGATCCAGCGGATTGAAATCGCCCGGGCGCTGCTGCGTCAACGGCCGGTCCTGCTGGCTGATGAAGCCACGTCGGCCCTAGACGATCAATTAGCTGATAAAGTGCGCCGGGAATTTCTCAGCGGACCGGAAACATTAATTGAGGTCGGGCATCAGGTGCCGGCGGCGGTCCAGGCCCAGTACGACCGGGTTATTCACCTGGACCAGATCAGTACCGCGCAATCTGCCTAA
>SRR1151209_00974 hypothetical protein
ATGGCTGAATTGGGTGCTACCGTCCGGCAGATACGCCAGAACAAGGGATTGACTCTGGCTGAGGTGGCCGATGAGCAGATGACGGCCTCGTTTCTTTCAAAATTTGAGCGCGGCGTGACGGATATCAGTACGGATCGCTTTCTCCATGTACTGGATCGGATCTTCACGACACCGGAAGAATTCTTCTACGTTCATTTGGGCCCGACAGCAACCAAGACGTGGGGCCAAGACGGTTACTATAACCGCAACACGATGTTTCGCCGGTTGTTTGGTCAAGGCTTGCACCTCACGTCGAAAGCAGAGGAACAGCAGACTCTGGCCGATGTTACGGCTCGGGAACAAGCCGGCTTTGCCCGGTATCAGAACGCGCCAACATTGATCAATACGTTGTACTGGCGGGTGCAGCAAGTAATGAAGCAGGAAGTCGTGAGTGTTTTGCATGATGAACCGCTTTTTATCAAAAAACATAGCACAGGCGAGTATTCTCGCGAGGCTATGCATTATTTGTACAATGTGAATGATTGGGGCGAATTTGAACTCTACGTTTTTGTCATTTTCGCGGCAGCGATGCGACCGGATGATGAGCGGCGGCTGTTTCAAGTGGCGCTCAAGCGCAGTCAGAAATACAGCAGCTTCCCCGCAGCGCCTAAACTGCGGTTCCATCTGATTTTCAACCAGCTGTTTCTAGAAATGAACCGGCAGGCGTATGCCGTCGTTGCTGAGGAGCTGCCTCAATACGCAGCACTGCTCACCGCGGATCCTGATGCGGAACAGGAGATCTGGTATCGGTTTATTCGGGCGTGGTGGCTTTATCGAACCGACCATCAGGTGGAAGCGGCGGCGCTGGGTGATAGCACAGTTAAGCTGGCCACGACGCTCCGAATGACGAAAATGGCCCAATTTGTGCAATCTGAATTAGCAGTCGTCGCTACCCACGGACCGGAACATGACTTTTCGTTCTTCCAGCAAGTGGTGGAATGA
>SRR1151209_00975 hypothetical protein
ATGCCTAGCCCCAATTCAACGCTGCTCATAAATAACGAGGTATTCCGCGTAGTGGCGGCCGTAAAAAAGCGGGTCGTAATCCAGGCGTTTCCCACATTACTGATGCTAGAAAATATGCTGATCAGTAGATAG
>SRR1151209_00976 transposase
ATGGAAGTGATTATCGAGCGCGTTGCCGGTATCGACGTCCACCAGAAATCAATCACAGTCAGCACCTTGATCGGTGCAGCTGACAAGAAACCCAAGCGAAAACTGAATACGTTTGAGACGACTACTGATGCTTTAAAAGCATGTGGGCGTTGGCTTGAACATCAAGAGGCCGATGTGGTAATTATGGAAAGTACTGGCCAATATTGGCGGCCAGTTTGGAAGATTCTTGAGACCTTCGGTTTCAAGATGATCTTGTGCGACCCCCGGATGATCAAAACCATGCCCGGCCGAAAAACGGATCGGCTAGACGCTGAGTGGATTGCCGAACTCGGCCGGTGTGGCCTGGTCAGTCCCAGTTATGTGCCTACAGCTGAAATCACGGAATTACGAGAAACCACGCGTACTCGAAAAGCGATGGGCCACGATGTCACAGCCTATCGGAACCGTGTCCACAATATTCTGCAACGTTCGAACATTAAGTTGACTTCGTTCGTTTCCGATATTTTTCACGGTTCCGGTCTGAAGCTGGTCAACATGTTGATCAACGGTGAGAAGATCGACTTGGACAGCGTGGCCGCCAATATGCACGGTGGGATGAAACATTGTCCAGAACAAATACTTCGTGCCATGGACGGTGAGTTAACCGCCAACGACCGCAAACTGATCGGTATCAATATGAATCACCTTGCTTATCTGGACCAAGCTCTTGCCAAGCTGGATGAGTTAATTGAAGAACAGCGAAAGCCCCTTTGGGACCTGTATCTTCGCCTGCAAACCATCCCGGGTATAAGCGAGAGAATCGCGACCACGATCATAGCGGAAGTAGGTGCCGACGTTACTGCTTTTGAAAACGGCCACGCTTTGGCCTCTTGGGTAGGCTTAGCTCCCGGAAATTACCAGTCAGGCGGTTACACCCGCAATGCGCGGATCACGCATGGTAATAAATATCTGAAAACAGCCATGATTACGGCTGCTTTGGGTGCCAAGGCCCGAAAAGAAGGCGGCCTGAAGGACTTCTTCTATCGGCTCTCTTCTCGCATGGGAAAGATGAAAGCCATAGTGGCCCTTGCTCATAAGATGATCCGCATTGTGTACGTCATGATTCGAGAAGGATCCACATACGAAGAGTACAAAGACCAAAACCGTCAGATTCAACCGGTAATTGTTTCTGGCTAG
>SRR1151209_00977 multidrug ABC transporter ATP-binding and permease protein
ATGGGTATTTCTTATTTGACACAAAAAACCATCAGTCGCGCGTCCCAACACTGGTCACAGGCGAATGCAGCCTGGACCGGGCAACTGAAGGATTTCTTAGCCGGGTTGGATACTGCGCGGGCCTATCAGGCCAATGGCGCAGTTAAAAAGCGTACCAGGACATTAGCCACGACGCTGGAGAACCGACTTTTTCACATGAATTTTTTAATCGGTACGGTGTCCGCCAGCGGTCTCACTGCGCTCATGGTCCTGGGGGTTTTGCTACCCTACCTTATGGTCTTGGGATGTGGCGCGTCATCCAAGGAACTTTGA
>SRR1151209_00978 multidrug ABC transporter ATP-binding and permease protein
TTGACCCTGGCAAGTTTCATGGGCATCGTGCAATTATCAAATGACCTGCGCAATCCCTTGCTGGATGCACTTGATGCCTATAACCAGCGGAATGCCGCTAAGCCAGTGTTGAATCGAATCCGCACGGCAGAAAAGGCCATGGCGGCGGCCACGGATGCTGGCCAGGCACTGCCCCAGACTGCCGCTAACAGTTTGATGATTGAGCATGCCACCGTGAAGATTGCGAACAGGACCATTTTGCACGACATCACGCTGCACATCACCCCCGGAGAGAAGGTATTGCTGATGGCTCCCTCTGGTTTTGGTAAATCCACACTGCTCCGGGTTCTCCAGGGCGAAATCCCTTTGGCCAGCGGCACCTACACAGTGGGCGGCATTTCAGCCAGCCAGATCAATCGTGTCGCTTTGCGCCAACACTTCGGGCTCGTGAAGCAGACACCTTTTCTATTCAACGATACTCTGCGATACAACATTACTTTGGGTGCATCATTTTCTGACAAAGCCGTGATGACTGCAGTTCAAACTGCCGGTTTGGCCGCACTGGTCGCGGATAAGGGCCTGGATTACCAAGTCGTCGAAAATGGTCAAAATCTCTCTGGCGGCCAGATCCAGCGAATCGAAATTGCCCGGGCGCTGCTGCACCAACGACCGGTCCTTTTGGCCGATGAAGCCACGTCGGCCTTGGACGATCAGCTGGCCGACAAGGTGCGTCGGGAATTTCTCAGCGGGCCGGAGACCTTAATTGAAGTTGGTCACCAGGTGCCGGCGGCAGTGCAGGCCCAGTATGACCGGGTTATTCACCTGGATCAGCTGAGTGCACAGTCGGCTTAA
>SRR1151209_00979 ATP-dependent DNA helicase RecQ
TTGGCAAACACAGAGGCAGAACAACTACTGCAAGAGAAATTCGGGTACGATCACTTCCGGACGGGTCAGGAACAGGCCATTGATCGGGTGCTGGCGGGGGCTAACACGCTGGTGATCATGCCCACCGGCGGCGGCAAGTCGCTGTGTTACCAGATTCCAGCGCTGCTGCTGCCGGGGTTGACGGTGGTGGTGTCGCCTTTGATCGCCTTAATGAAGGACCAGGTGGACGCGCTGAACGATAACGGCATCCCGGCGACCTTTATTAATAGTGCCATCGATTTTCGAGAAATTGACGAGCGCCTGCGCCAAGCGGCCATGGGTGAAGTGAAGCTGCTCTACGTGGCCCCGGAACGCTTTGAGTCCGATGAGTTCGTGGCTGCGTTGAACGGCATTCAGATCAGCCTGCTGGCGATTGATGAGGCCCACTGTATTTCCCAGTGGGGCCACGATTTCCGGCCCAGTTATTTGGCGCTGGCCGCGGTGCCGGAACGGCTTACCAGCCATCCGGCGGTAATCGCGCTGACGGCCACCGCCACACCGCGGGTGGCCCAGGATATTCGCCAGCGGCTGGGGATTCCAGCGGCTGGCTTGATCAATACTGGGTTTGCCCGGGATAACTTGAGCTTTCAGGTGGTGCGGGATCAGGATGAAGACAAGTATCTGGTGGACTATTTAAAGAAAAACCCGAATCAATCCGGGATTATTTATGTGAGTACACGGAAAGAAGTTGATCGGCTCTACACGCTGCTCGCCCGGAAGAAATTGCCGGTGGCCCGGTACCATGCCGGCATGGCTGATATGGACCGGGCAGCCAGCCAAGAAGACTTCTTATTCGACCGCAAACCGATTATGATCGCGACCAACGCGTTTGGCATGGGTATTGATAAGAGCAACGTGCGTTTCGTCATCCATGCGCAAATGCCCAAAGACCTGGAATCCTACTATCAGGAAGCTGGCCGGGCCGGGCGGGATGGGCTAGAGAGTGACGCTATTTTGCTGTTCAAACCGGCGGACGTGCAACTGCAGCATTTCTTCATTGAACAATCTGATGCCGACGAGGCCCATAAGCACCTGCAGTATCAAAAATTGCAGACGATGATTCAGTACGCGAATACCGATCAGTGCCTGCAACAGTTTATTCTGCGTTATTTCGGTCAAGAAGATACTGAACCTTGCGGCCGGTGCAGCAATTGTTTGGATACTCGGGAAGCGGTGGATGTGACCACGGATGCCCAGAAAGTGCTGTCCTGTGTGGTCCGGGTGCATGAACGGTTCGGCAAAGTCGTGATTGCTCAGATCTTGGCGGGGGCTAACAACCAGCGTATCCGCCAGTGGCGCTTGGATGAGCTGTCGACTTATGGGCTCATGCAGCATCAGCGGCAAAAGGAGATCAGTACTTTCATCGACTTCTTAACGGCTGGGGGTTGGCTGGTCACTAAGGGCGGCCAGTATCCAACACTGGCACTGACCCAAACTGGGGCTGCTGTGCTGCGCGGGCAGGAGAAGGTGTTCCGTAAGACGGCCATCAAAGCCCGAAAGAGCTTGCCGGCTGATGACGCTACCTTTGAGACGCTGCGCCAAGTCCGCCGGCAACTGGCAGAAGACACCAAGCTGCCGCCGTACATGATCTTCCCGGACCAAACGTTGAAGGCAATGAGCAACGAGAAACCGCAGACCCTAGAAGAGATGTTGGCCATCAAGGGTGTGGGCGAAATGAAGCTGGAGAAATACGGCCAGATTTTCTTAGACGCGTTGACTGTTAAGCCGACTGTGCACTCAGCTGATCCAGGTGAATAA
>SRR1151209_00980 hypothetical protein
ATGCGCGGTTACGAAAAGACGAACAGTATTGAAACAGATATTGTGCGCTTTGGCGTTTCTTTTCGTCAATCCCTTGGTTTTATTCGGGTTGCTGACGGGACCAGTCTGTCCAAAAACAGCCGAATGACACGAAACCAATGA
>SRR1151209_00981 ATPase component of ABC transporter with duplicated ATPase domains
ATGTTATTACTGCAAGCCAGCCAAATCACTAAACAATTTGATCACGAACCGATTTTCACCGATATTTCCCTCCAGCTTGCCGCCGGCGACCGGGTCGCCCTGGTCGGCGCCAACGGCACCGGCAAGTCCACCCTGATGAATATCCTGCTGGGCAGCGAGCAGCCCGATGCCAGCGTCGTCAGCCGCGCCAAAGACGCCACCATTGCCCACCTGAACCAGCAGCTGATCGATACCACCGCCACCGTCACCGCCTTTCTTGGTGCCAGCCAACCGGCGTTGACCAAACTGCAGGACGCGCTGCGCTATTGTGAAGACCAGATGAGCCAGCCGGAGGCCGACCTAGAGAAAATCCTCGCCCGCTATGCCGACCTGCAACAAAACTTTGAGGAACGGGGCGGCTATGCCTTTGCGGACCGGATCAACACCGTGATGAAGGGGCTGGACATTTGGCCTTACCGGGACACACCGGTCAATGCCCTGTCCGGCGGTGAACGGATGCGGGTCGCACTGGCCCAATTGCTGCTGTCCGATGCCGATTTTCTGCTACTGGACGAACCCACGAACCACTTGGATACCGCCGGCATCGAGTGGCTGGAGCAGTTTTTGCTCAAAGGCAAGACCGGTTATTTAGTCATTTCCCACGATCGCTTCTTCCTCGATCGGGTCACCACCCAAACCTGGGAAATCGAAGACGGCGAGCTGGTCACGTATCCGGGCAATTACTCGCGGTATGTGACGCTGAAGGCCGAACGCCTGGCCAGCATTCAAAAAGACCACGACCTGCAGGCCAAAGCAATTCGGAAACTGCAACTGCAGATTCGCCAGTATCGGCAATGGGGCAACGAGAGCCAAAACGAGAAGTTCTACCGGAAGGCCAAGGAGCTGGAAAAGCGCTTGGCGAAGATTCAAGTCATTCAAGTACCCCAGCCGCCGAAACACCGGCTGCAGGACGTCCGCACCGCCGGCCGGTCCGGTAACGACGTCATCACCGCCAAAGATTTGGGCGCCGCGTTTGGCGACCGGGTGCTTTTTGACCATGCCGCCTTCCAGATCCACCGCGGCGACCGGGTAGCGGTCACTGGCGCCAACGGGACGGGCAAAAGCACGCTGGTCAAACTCATTCTGGGCGAGCTGCCACCTACCAGCGGTACGGTGAACCTGGGGGCCAGTGTGCAGGCTGGCTATCTGCCCCAGAATCCGCAATTCGACCAGCCCCAGGACCGGCTGCTGGCCCATGTACAAGCCTTTATGCCCAACGAACAGGCGGCCCGGCAAGCCATGGCCCGCTTCGGTTTTTTCGCTGAAGACGCCGCCCGCCGGCTCCAAGACCTCTCTGGCGGCGAACGAATTCGGCTGGTCCTGTTACAGCTGCTGCAACGGAAAATCAACTTGCTGATCCTGGACGAACCGACCAACCACCTGGACATTGCCGCCCGGGAGGAAATCGAGACGCTGTTGGCGGACTATTCGGGGACGCTGCTGATCGTTTCCCACGATCGGTATTTGCTGCGGAAGCTGTGTGATCAGGAGCTGCATATTGCGGAGCAGCGGATCGTGCAGCGGGATTGGGATACGGCAAACTAG
>SRR1151209_00982 ATPase component of ABC transporter with duplicated ATPase domains
TTGTTAACTGTAACGAATGTCTCCATGACTTTCTCCGATCGTAAACTCTATGAAGACGTTAATTTAAAATTCACACCGGGTAACTGCTACGGCATTATTGGGGCCAATGGCGCCGGCAAGTCCACGTTCTTGAAAATTCTGTCCGGCGAGCTGACCCCGACGACGGGGACGGTGCAGCTGGATCCCCACGAGCGGATGAGCAATCTGCGGCAGGACCACTTTGCCTTCGATGACCAGACCGTGCTGAACACGGTGATTCAAGGCTATGAACGGCTGTATGCGGTGATGCAGGAGAAGGATGCCTTGTACGCCAAGGCGGACTTCTCTGAAGAAGATGGGCTCAAAGCAGCTAATTTGGAAGCTGAGTTTGCGGAAATGGACGGCTGGAACGCTGAATCCGACGCGGCCCAACTGCTGCAGGCGCTGGGCATCGGCGACAGCGAGCACACGAAGCTGATGCGCGAATTGCCGGAGGGACAAAAGGTCAAGGTATTGCTGGCTCAGGCACTGTTTGGTTCGCCGGACGTGCTGCTGCTGGATGAACCGACTAACGGGCTGGATCCCGAAACCATCGATTGGCTGGAAAACTGGCTGGCGGACTACGACAAGACTGTCCTGGTCGTCAGCCATGACCGGTATTTCTTGAATAAGGTCTGCACGATGATGTGCGATGTGGATTTCGGCAAAATCGAAATGTTCGTCGGCAACTACGATTTCTGGTTGGAATCCAGCAAGCTGGCCCAGCAGCTGCGCTCGAACCAGAATGCGAAGAAGGAAGAACAGATCAAGCAGTTGCAAGAGTTCGTGGCGCGTTTCTCCGCGAATGCCTCGAAATCCAAGCAGGCGACAGCCCGGAAGAAGCAGCTGGATAAGATCACGCTGGACGATATCAAACCCAGCAGCCGCAAGTATCCGTTCATTAAATTCGAACCGGAGCGGCCCCTGGGCAATGATTTAGTCCGGGTGGACCACGTATCGAAGACGGTGGATGGCGTTAAGGTGCTGGATAACGTCAGCTTCACGCTGCGCCCCGGCGATAAGACGGCGATCATTAGCCGCAACGACGTGACGGCGACGCAGCTGATGCGCCTGCTGGCCGGTGATGACCAGCCGGACACCGGCACGATCACCTGGGGTGTAACCACAAATCGGGCTTACATGCCGAAGGACTTGACCCCGGAATTCAGCGATGACTCCCTGGATATCTTGTCCTGGCTGCGCCAGTTCGTGAAGAGCAAGGAAGAAGACGACAACACCTTCCTCCGCGGTTTCCTTGGCCGGATGCTGTTCTCCGGCGACGAGGTGCTCAAAGCCACGCCGGTGCTGTCTGGTGGTGAGAAAGTCCGCAGTTACTTAGCCAAACTCATGCTCAGCAAGGCCAATGTGCTGCTGCTGGACGATCCGACGAACCACTTGGATCTGGAAAGTATCACCGCGCTCAACGACGCGCTGATCGACTTTACCGGGGCTGTGATTTTCACCAGCCATGACCACCAGTTTATCCAGACGATTGCCAACCATATTATTGAAGTGGGTCCGCTGGGCGTCGTGGATCGGGCGGATATGCATTATGATGATTTCTTGGCGCATAAGGTGGCACAGGAACAGGTGGCGGCGATTTATCCGCAAGATTAG
>SRR1151209_00983 transcription regulator
ATGACAGCATACGGGCAGACTGTTCGCCGACTCCGGCTAGGCCAAGGATTACCGCAAAAGGCAGTTTACAGCGGCATCGTGTCCCGGTCGTTTTATGCCAAATTTGAAAAGGGCCAAACCAACATCGGTGCTGACAAATTGTTTGAAATTCTGCGGCGGCTGACGATCAGTCCTAATGAGTTCCTTTTCCAGCATCGCGGGATGCGGCCGCCGGCGATTCAACAGCTTTCTAGACAAATTGACCAAGACTACCAAGCTGGCGACCTCCAGGCATTGCGGGATTTCTATACGGCGAATCGCTATCACCGACTGCCGGAAATGCGGGCGTTGGCGTTGCGAGCATATACGGGCGTCTATACCGCAAATCAAAATATATTGCACATGAGCAATGCGCCCATCGCGGAAGTCCAGGCACTGCTGGCCCAGACGCCGCAGTGGACTTTGAGTCAAGCGCGCTTGATTATTGAAACCAATCTGCTTATTCCGCTGAGTAATCCGCAGCACCAGGCCTTTTTCCGCCAAGCGGTGGCAACGCTGCGGGACTACCTGGCATTTGATGACCAGGTGGCCAACGATTTGGGCGGGGCCTATTTGAACGAGATTCAAACCCAGCTGATTGCGGGGCGGTTGCCCGCTGCGGCCACCCTGGCGGCCGAATTGCAGACGCTGAGTGCGCAAATAGCCGCCACGACCATCAAATTGACGGCTGCCTTTTGTCAGTATCTGATTGGATTGTATACAGACTATCCAGCAGTCGAACCGCAGCTCACGACGTTTTTAGCCTGGTGCAAGCAGCTGAACTTGCCCGACACCCGCGACTTCGGCCTCATTGCCGCGGTCCATCGCGACCGCGGCCGCAATCACTATGACCGCCACCAGTATTTCGACCATCGTGAATAA
>SRR1151209_00984 peptidase family S41
ATGGATTACGAGAAGATTTTCGCTGAGATTGAAGATATCATGCACGTAGATTACGCTGGTGCATCAGACAAGCAGGACTGGCCGGTGAAGCGGCCAACCACAGCGGTGTTGCAGCACATCCCGGATGAGGAATCATTCGTGTACCTGGTGCAGCACTACTTGCAGCAATACCGGGACAATCACGTTTTCTTCAGCAACGATCGCGTCCCCCAGGTTACCGTGGGCTTCACTACCCGCCGGTATGGGGCGGCCCTCTACGTATTGACCGCTGACCAGGAGAAACGGCTCAGCGTCGGCACGGCAATCACGGCGATTGATGGCCTGCCGATTCCAGCAGTGGCTGCTGCGCACCAATTGGAACTGGACCCGGTACCTGAACGGCAGCGGTTCAAGACCATTTTACTGATGGCCAAGACGATCACCCTGGCCGATGGTCAAGCATTGCCGCTGCACCACTTCCCGCAAACTGCAGCGCCTGCTGTATTTGCCTATCGCCAATTGCAAGCCGACATGGGTTACGTCAAGATGACCAATTTTACTGATTACACAGCCATTCATGAGTTCTATCAGCATCACTTGACTCAAATTACTGCACTGCCCAAGCTGATTATTGATGTGCGCGTGAACAATGGCGGCGATGATCAGAATTTCTATCCATTATTGGCAGCGATGTTCACTGGCACCGTCCCGCATTCAGCGATTTCTCCAGATACCGGCATGCAGATCAACGCGACTCCGCGTAATTATCATAACTGGCAGCGGGCGGTCGCAACCATACTGCCCAACGTTGATCCAGCGCTGCAGCCGACTCTAGAAGATTTCATCCAAATGCTGAAAGATCACCAGCACGACGGCTTGATTCCATTCGAACTGCCTGACACTGATACACCTGATGCACCCATCCAAGGTGATGTTCAGCCGCATCAAGTCGTGGTGCTGAGCGATTATGATTGCGGCAGTGCTGGGGATTCCTTCGTCATGGCCGCCAAGAAATCACCCCAAACCACGGTTATCGGCCGAGCAACTTACGGCGTATGGGATTATGCCAACGTAACTACTCAGGATTGGGACCATTTTCATCTAATGTATCCTGTTAGCCGCGCTGACTGGATCGACCGAGGCGAAGGGATTGACCACGTTGGTGTGCAGCCGGATATTCATTTGCCATGGACGCCAGCAATGATTAAGGAGGACAAGGATTTGGCGTTTGCTGAACGATTCTTAAACAAGCGACGCTAA
>SRR1151209_00985 arsenate reductase
ATGCCGCAGGTCTATTTTCTCTGTACCGGCAATTCCTGCCGCAGCCAAATGGCGGAGGGGTTTGCCAAGGCAATGTTAGGCCCCGCTTGGCGGGTCGCCAGCGCCGGGATCGAAGCCCACGGGCTGAACCCGTTGGCAGTCCAAGTGATGGCTGAGAAAGGGATCGATATTTCCCATAATCAGTCGAAAGTCATCGACCCGGATTATTTGCAACATTCTGATCTGGTCGTGACCCTGTGCGGCGATGCCCGGGACCGCTGTCCGGTGACGCCGCCGGCCGTTGAAAGGCAGCATTGGCCTTTGCCGGATCCGGCAAAGGTGCAGGGCACCGAGGCGGACAAGCTGCAGGTTTTTCGGGCTGTTCGTGATGAAATTCAGGGACGGGTAAAGAACTTGATTCGTCGATAG
>SRR1151209_00986 hypothetical protein
ATGAAGGAAAGGTCTAACGCCGGAGTGATCGTCTTGGCGCTGGTGGCGGCAGTGGTTTATGCTGCAACTATTTATGCTTTTGGTTATTCCCTTTACTGCTGGTATAAACTGACACAGCCATACTTTGGGGTGGATTATGCCCTGGGGCAATATTTCGTCGCCATGTGTTTGGTCCTGCTAGGGATTTCAAGCCTCTTCCTGGCCTTTGGTTTAAGAAAAGCCATGCGGCCCGTCGCTGCTCCGCCGCTGGTAAAAGGGTGCTTCGCATTTGGCCTCGTCGTTTCTGCAGGTGCATTAATTAATGTCGCGGTGGCAATTCTGTTTCTGGTTGTTTTTCCGGCAGTTTTGTCTCGACTCGGGCAGCAACCACCCTATTGGCGGCCGCCAATGGTATAA
>SRR1151209_00987 hypothetical protein
TTGACAACAACCAGTCAGTTAACAGTGTTTTTCGATCAGGCATTTTATCGTGGTGTTTTTGAACGCACCATCAATGGCCATTATCAAGCCGCAAAAGTGACTTTTGGTACGCAGCCGCCGACGTACAACCAAATTCAATCCATGATTGCCGGCCGGTGGTCAACACTGACTTGGGCTAGTGGTGACCAGACAACTGCGTTAGCCAGCTCGGCGCAATCGGCGCAGCAGCGCAAGCGTCAAGCCCGCCAGGCGATACGCGGCCGGGGCAGCAGCCCGCAGGCCAAACAGGTTTTGAAGCTGGCGCATAAACAGAATTTGGTGCTTAAGAAGAAGCGCCGCAAGGAAACAAAACAGGCCCATGCGCTCAAGGTACGGTTAAAGAAACAAGAAAAACGCCTTGCAAAACATCGCGGCCACTAA
>SRR1151209_00988 amino acid permease
ATGAAAGCAGCCACAAATCAGAAAAACGAACTCGGTTTCTCAAGTATTATTCTTCTAGGCATTAATGGCATTATTGGTTCAGGTATTTTCCTGCTGCCCAATGCCGCCGCTAAATTAATGGGGACGGCCAGTATTTTTGTCCTGATTTTCGACGCGCTGCTGGTCTTCGCCATCGCGTTGTGTTTTGCCAAGTCGGCGACGTATTTTGAAGCCAACGGCGGCCCATATTTGTACGCCAAGGATGCCTTTGGCGGCTTTGTCGGTTTCGAAGTCGGCTTTGTCACCTGGGCGATCCGGATCATCGCGGAAGCTACCATGGCCGTCGCTTTTACGACTGCGCTGGGTTCGATCTTCCCGTATGCCGCCACGACGATTGGGAAAGACGTGATCGCCGCCACTTTGATTATCCTGCTGGCGATCATGAACATTGCCGGCGTCCGGGTATCGAAGGTCGTGAACAACGTCATCACGGTGTCCAAGCTGATTCCGCTGGTGCTGTTCATTGCCATTGGTATTTGGTTCATCAAAGGCGGCAATTTTACGCCATTATTCCCGGGCGGGCACTACACTAGCGGCAGTTTTGGCCCCGCCGCCGTCACCATGTTCTATGCCTTCACCGGTTTTGAGGGCGTCGTGGTCGCCGCTGGTGATATGCGCGATCCGGAACATAACCTGCCTCGCGCTCTGGTGATCGTGATGCTCATCGTGTTGGCCTTCTACTTATTGATTCAAGTCGTCTGCACCGGTATTCTGGGTGCCGACTTAGCGAATTCCACCACCCCGATTCAAGCTGCCTTTGGTCGGATAGCCGGCAGTTTCGGCAGTGCGCTGGTCGAGGCCGGCACACTGCTGTCCACCGGCGGATTGCTGGTCGCCTCCAGTTACATCACGCCCCGGTCCGGGGTAGCGCTGGCGGAAAACGGCATGATGCCCCCGGCACTCGCCAAGGTGAACAAAAAAGACGGTCCGTGGGTATCGATCATCGTCTCCTCCACCCTCGGCTTGATCGTGGCGCTGTCCGGGACCTTTAACTACTTAGCACAAATCAGCGCTATTTCCCGGTTTGCCCAGTATATTCCCACCTGTTTGGCGGTTCTGGTCTTCATGAAGACGAAGAAAGGTGTCCCGTCGAACTTCCACCTGCCGTTTGGTCCGGTGATTCCCGTCTTGGCCATTGTGGTCAGTATTTGGCTTTTGACCCAAGTGACGCTGATCCAGTTTGCTTGGGGCTTTGGCGCCCTGGCCATTGCGGTCCCATTTTATTTCTTGATGGCGTACAACAAGACTCGGCGCGAGCGCCAGGAAGCGGAGTAG
>SRR1151209_00989 glutamine amidotransferase
GTGAAACCAATTATTGCGATTACAGCAGATTCCTTAGTCAAGCCGTCGCCGGTGATCAACGAAAACATCGCACCGTTTGCACCGCGCCAGCTGGTAGAGGGTATTTTGGCGGCCGGGGGGATTCCCATTGTCTTGCCATTCCCGGAGGATCCTGCCGAGGCGGCGGAGGCCGCCCAGGCCGTGGTCGATACGTTTGACGGCCTGGTCATTCCTGGTGGGCCGGACATTGACCCCACGTTATTCGGTGAAGAGCCCATTCCCCAAATCGGCCGGACCAACTACGAGCGGGACGCATACGAAATCGCCCTGATCAAGGCAGCCGCATTGAAGCATAAGGCCCAACTCGGTATCTGCCGGGGCATCCAGATCATCGATGTCGCGTTTGGCGGCACCTTGTATCAAGATTTGGGTACCCAGGATCCCGATTGCCAGATTCAGCACAGTCAGAAAGCACCGGGCCAATTTCCGACCCACCATGTGACCACTACCCCCGGGTCGCAGATCAACGCCATTATCGGTGCCAAGAGCAAAGTGAACTCCCGCCATCATCAGGCTGTTCGAGCCGTGGCCACGCCGTTTAAAGCGACCGCCACAGCGCCGGACGGCGTCATTGAAGCCATCGAGCTGCAAGAAGGCGACGATATCCTGGCCGTCCAATGGCACCCGGAAAACATGTGGCAGCGGGATCCAGCGGCCCTGGCTTTATTCCAGGATCTGGTCGCCCGGGCCGGCAAGAAAGCGTGA
>SRR1151209_00990 DNA-binding protein
ATGTGGATCGACTTTTTGCTTATCACCCTGCGCTTCTGTGCGCTGGGCGTGCTGGCGACGCTGGTCGGGTTAGGCTGGCTGGCCGCGGAGAAGCGCTGGCGCCGGGTCGGGCACGATGCGTGGGTCAGTCTTATCCTGCTGATCCTGGCTTACGCCACCCTGTACTTTCTGCTGCCGGAACCGAGCCTGGCTACAACGATCATGGCCAACTTAGGCAGCTTCGTCATTGCCTGTGTCGTGCAGTCGCTCTTCCTGGGCGCCATCAGCACCAAGGAATTTGCCACTCTGGTGACCGGGGATAAAAAGGCCCGGGCCGCTCGCCGGGTGGTCGGCGATTCTAAACCGAGCAAATTATTCAATCGCGGTATCGGTCTGGGCATCGGCCTGGCCGTTTTGGCTGTGCTGATTTTTTCCCTGATGAACGTCTTGGACGCCAAGCGGGTGGCCCTGAATGCCCCGGTAACGACGTATGCCTCCACGGCCAAGGCCCCGCTGCCGGAAGTAACCGATACGAAACGGCAGGCGCCGGTGGTCAATACACCGGCCACGGTCTTGACCCAGGTCAATAACTCCCTGAGTAATATCCCCAACGCCAACGTCTACTCCGTGGACCATGTCCGGGCCCAGGTCTATCGGAATAAGCTGGTCTACGTGGCGCCGCTGGACTTTGATGGCAGTTTCTGGCGCTATCTGCGGTATAAGCAGGTGGACGGCTACTTTATCACCGACGCCACGAATAAGTCCGCCGATCCGAAGTTTGTGAAAAAGCCAATGCGCTACACCCCGGCAGCCTACTTTGGCCGGGATGCCCAGCGGCTGATGTACGCGGCCACCGCTAATTCCGGTTACGTGCTGATGAACAACGCGCCCCAACTGGAAGTGGACGACAGCGGCAACCCTTACTACGTCAGCACCCTGGTCCAACGTTACGGGGTCACGAATCGTCAGGACTACCGGCATAAAGGCGTAGTCACGCTGAACGCCGTGACCGGCGCCCTGCATTTCTACAAAAACTTGAAGGATAAGCCGAAATGGCTGGACGTTGCGGTGGATCCCACCACCGCCAGCGGTCAGATCGGGGCCTGGGGCCGGGAACGCAACGGCTGGTGGAACGCCAACGGCTTCGGCGGTGCGCGCCAAGGTGTCATGGTGGCCGTGACCGGCGCCGGCACCGAGGGCGATGACGAAGACGTCACGCCGATGCTGTACAACGGTCAGATCTATTATCAGCAGTCCCTGACCAGCGCCAAGTCCGCCCAGACCTCCGTCATGGGCTACGCCTTCACCGACGCGGCCACCGGCAAGAGTTACTACTATAAGGAAAATGCTGATGCGATGACCCCGGACCGGGCCCAGCAGCTGGCGAAGGACATGATGAAACAGACTGGTTGGAAGCCGAAGATGCCGATGCTTTACCGGATCGCCGGCAAGCCCACGTGGGTCGTGTCCATGCTCGATACCAGCAATGCCTTCCGCAGTTACGTCTACTTGCTGGCCTCCGGTAACGGCACCCAGAACACGGTGGCCACCGGTACCGACGCCGACACGACGCTGACCAAGTACCTGGACCTGTTCGGCGACAGTTCGGCCGCCACCGCCAGCGGCGGTAAGAAAGAGAAGGTCCAGGGCACCGTCTTCCGCACCAGCATTGACGGCGATACCCTGTACCTGATGCTGAATGATAAAAAAGTCGTCTACAGTGTGCCGCTTAAAAACGATCCCTTCGCCCGCTTTATTCAACCGGGCGACACCGTCAGTTTCACCGCCCGGGTCAGCGACACGACCGGGTTAGCAACGACCAAGGTAGCAGACGACAAGCTGCCGCAGTAA
>SRR1151209_00991 beta-lactamase
ATGGATTTCGATTTTTCAGAGTTAGAGAAAATGAATACCGCCGCTGATTTCAACGGCGCTCTGGCAGTAACCACGCCGGACCGCGTGCTGTATACGGCCAGCCGGGGCATCGCTGATTACGCGACGGGTATCCCCTTCACGTTACAGACCACCAGCGGCATCGGCTCGGTGAGCAAGCAGTTTCTCGCCACGGTCGTCCTGATGCTGGCCGCCGAAAAACGGCTGCACTTGACAGACAAGCTGGCCGAGTACCTGCCGGAATACCGCTTTGCCGATCAGATCACGCTGCGCCAGCTGCTGAACATGGCCGCCGGCGTGCCGGATTATGTTGACGTCGTGGTGGACCAAGTCGTTGCGGGCCGGCCCATCGCCACCCCCGACGACGATCCCCAGGTGAACCGGGCGGTGGGCGAAAACATCCCGCTGACCCAGGCGTTGGCCCTGATCAATCCGCTGCCGCTGACCTACACGCCGGGCAGTGAGAGCCGTTATTCCAATTCCAACTACTTGCTGCTGGGGACGGTGGTGGAACGGATCCTGGGTGCACCGTTAAGCGTGATTTTTGCCCAACGCCTCTTTGCCCCCCTAGGCATGACGCAGACTAAATTAGGCACCCAATACGCCCAGGCCGACAGTTATCTGCGCACGGCCGACAACCGCTTGATTACCATTGGCCGCGGTCACCATACGGCCGGCGACGGTGGGATCATCACGTCGATCACCGACCTCACTCGCTGGGCCCAAGCTATTTTGCAGCACCGCTTCCTCGGCCCTGCCGTGTGGCAGGAAGCGATGACGTTGTATAAGGATTTCTACGGCTTTGCCTGGCTGCGGCGCGCCGGATGGTCCTGGCACGGCGGCCGAGTGCTGGGCTTTCAGGCAGACATTTACGTCGCGCCAGCGCAGCAGTTGGCGACCACGTGGGTGTATAACGTAACACCGGTGGATGATCCGCGGTTGGCGACGTGGTATCAGCAGCGGGACGCGTGGCACGCACGGTTACTGTAA
>SRR1151209_00992 hypothetical protein
GTGAAATTGAGTAAACATGTTCTTCTTGCCGCCACTTTGCTGAGTTCGGTTGCCTTAGCGGCGGCACCGCTGGCTGCTACCAGCCAGGCGGCGGCCAGTGCCGTGACGACGGCCCCAAAGACGCAGAGTGAGGCCCTGCCGAATCCGACGACAGTGTACGTCAAACAGGCCAGCGCCCCGGTTTATTCGGATGCCCAGTTAACCAAGAAGACCGGTCGCACACTGTCCTTTGGCAGTGGCTGGCGGGCTTTTACTAAGATAACCACGGCTAGCGGTGATTTGTCTTACAACGTCGGCGGCAATCAATACGTCGCCGCAGCCGATGTGACGACCGATCCCAATAGTGTGTCTACCGTTCAGAAGCAAAACGGCGTGGTTTATGTGGCGAATAAAGCGGGTGCGGATACATATTCTTGGAAGACCGGCAAGGTGAATGGCCATCTGGCCTATGGTACGGGCTGGCGCTATGGCACCGTCACCACCAATGGCACAACCCGAGTGACTGGTTACTTTGTCAGCAGCGATCAGATTTTGCAGGTTGAGGATGTGACTGGGGCAAAGCCCGGCAGCACCAGTACGACAACCGATCCCAGCAAACTGGGCCGCGGCGTCTTCACAGTGAGGTACGCTGCGCATCCGAGTTGGAGCATTGCGAAATACACCTTGAGTAATGGGACACTGAAGTACGCTGGTTCCCTGCCGGCTGGTTCACGCTGGTTAGCGTACGGCACGATGCAGATTGGCGGTCAATATTACTTTGATTTAGGCGGCCAATTCGTTCCGGTCACTTATGGCACGTTTGCACCAGCGAAGTAA
>SRR1151209_00993 hypothetical protein
ATGATTCTCCAGTCGGTCACTGTCCCAGCTGGCTTGTTCAGCTGGGGGAATATCGGCGTTTTGACGAAATCGATTAAACACTGTCCTCTTGATGGTCTAAATTTGAAGCAACACTATAGACCAGATGTGTATGCATTTGAGGACATTTTAGAAAGCAGCAAACAAGTCATGGCAATTGAAGAAAGTTGGCCGCAGCAGGTCCAGCACTTGATCGCCCAGCGGCGATTAGACCCGGCGGCCGCCATCGAGAACGCCGACCGCGTGATGCAGCGGGAGTTCATTTATGATCATCCCTACGATATGGAGCCGACCAATGTGGTTTACCACATGGACCCCATCACGTGGCAGCAGACGCCCAACGGCGATCCGGAGTGGCTGTATATGTTGAAACGGCAGGAATATTTGCTGGATCTCTTGCTGGCCAGCCAGGCGCAGGATGATCCAAAGTATCTGGCAGATGCCAAGACCCTGATCATCGCCTGGATCGACGCCAATCTGACGCTGCCGAAGACGTGGCGGACAATTGATACCGGCATCCGGCTGATGAATTGGGCGCCGGTGGTGGAGGCGTTAATGCAGGCAGAAATGCTCACGGCGGCCGACCAAGCCAAGATTCAAGATGTCGTGACTCAGCAGATGGCCTATCTGCGTGCGCATTTCACCGACCACTATCTGCTATCCAACTGGGGCGTGCTGATCGTTACCGGCCCCCTGGTCTACGGCGTGCTGCATCCGGGGTCCTTGACCGCCGAGGATATGCAGTGGGCGATGCAGGAATTAGAGACCATGTGCGATTTGCAGATCACCGATGACGGCGTTCATTGGGAGCAATCGGCGTTGTACTTCTTGGAGGTTTGGCGGGATCTGTTGGCGGTGCAGATTGCCTTTGACCGCTATCGCCGACCAGTACCGGAGCTGGTGACCCGCAAGCTGCTGGCGATGGACGACTTTGCCGCCCAGTATGTACTGCCGAATCACCAGTTGCGGCAGGTTGGGGATAGTGATGCGGTCCAGATCGACAGACTGATCCAGACAGCCAACATGTGTCTGCATCGCACCACGCCGCTCACGCCCCATATGGCGCCGATGCTGGACTATCTCTTAGTCAGCATTGGCCACCTGAGTCATTTCCATCTCACTGATTTCAACTATTACCCGATCCACAAGGTCGTGGACAGTCCAGCCAGCGGGAATTACTTCGGCCGCTCCTCGTGGGAAAGCGACGCGGATTACTGGCATGTGATCAACGGCAATATCGGCAGCGGTCACGGTCACGCCAACCTCGGCCACTTCGATCTGGTGTTGGGCGGGCAGTCCGTCGTGGTTGATCCCGGCCGCTACACTTACGTGGACAGTCCGGAGCGGCGGGCGCTGAAGGATGCCGCCGCGCACAACACGGTCCTGCTTAATGGCGAAAACTACGATCCGCCGACAGACAGCTGGTCGTTCCAATCTTTAGCTGAACCTCAGGCCGGCATGGTTTTCCATGGGCCGGGTTTGAGCGTCGTGACCAGTATTTACCGCGTCGCGCCTGCTGGCGGGACTCCGGGGACCATCACCCGCCAGTTTATCTGGCTGACGGAAGAACATACCTGGATCGCCCTGGATAGTGCGGTGGCGGCGGGGGAAAACCAGATGACGATTCCGCTGAACTTTGCGCCAGAGTTGACTGTGACGGCTCAGGGGGCTGGACATTGGCAGGCTGGGTCAACCACCATCATCAGTCATGCCGCCGGCGGTACCGTCAGCGATGAACTGTATTCGCCCAAGTATAACCAGTTGAGCAAGTTGCAGCGGCTGACGCTGACCCAGGATTTCACAGACCAGGGCTTCAACGACCTGGTCATCGCGCCGACGGGTATCTGGCAGGACGTCTCGCTGCTGACGTCGCGTCAGGCTGGCAATACGTCCGCCCAAGTGGTTGATCCGCGATATTGTTACGGCGTACGGCTGACCACCCCGCGGGGCGACAAGCTCTACGTGGTATGGCAGAAAGAAAACACCACGGTCGGTGATCTATTGTACTTCGTGGATGATATTCCAGTGTTTGGTAATTTGACCGTGATTCGTCAGGATCATACCGGGCAGATCAGTCGCCAGATCGTGCGTCTGTAA
>SRR1151209_00994 transposase
ATGCCAATCAAAACCCACAAAATCCGAATTTACCCCAACGCCGAAATGGTCACGGTTATCACTGAACTGATGGACTACAACCGTTTCTGCTGGAACAAAGGGCTAGAGACTTGGAACGGAATGTACGAAGAATCGCTGCTCATGAAGAACAAGAAACTGCGACCCAGTGGGCGTAAAGTGCGCAACGAACTGGTGAAGAGCAAAGCCGACTGGCAGTACCAGATGTCAGCGCGCGTGCTCCAAACCGCAGTCCATCGGTTGCATCAGGCCTGGCAGAACTTCTTTAATCCGAACATGCCGGATGCCCGCAAGCCTAAGTTTCACAGTAAGCGAGATCTCAAGCAGAGTTTTACGACCGACCGGGGGGTAGTGAACGGGAAGTTTCTGACCCTGGATCAGCCTCGCGAAAGCACTCACCGCTTCACCAAGATCAAGATGGCTGAGACCCTGCGTTTTACTGGCGAGATCAAAACCGTGACGATAACCAAGCGCGGTAACAAATTCTATGCCAGTATCACCGTCTTAGTTGAGGATCTGCCCCGGCCGGTCTTTACCAACAGCTGGGATATCGTTGGCGTCGACGTCAACGTGGGCCACTTCAGCTGGAACGGTGGCGAAGTAAACACCTTCACTCCCAGGATGGCGGCTCTGCATCAGCGCATTAAGGTTTACCAAAAGCGCTTGAATCGGAAACGACGGGACAATCCCCACCATTTCCGGTCCAAGAACTATCAACGGTTGAAGGCTAAACTGAATCGGACTTATGAGCAGGTCTACGCTTTGCAGGATGACTTGATTCATCAGTTCAGCCACCAAATCATCCGGGATTACGCCGCTCCTTGCTTGGAGGATCTCAACGTCCGATCCATGATGATGGATAAGAAAAAGGTCAAAAGCCTGCAGCGCAGTCTCTTCCGCCGGTTCCGCACAGCGGTTGAATACAAGTCGCTTTGGCACCATCGCCGCCTAGTGATCGCGGACCGTTTCTATCCGTCGACCCAGCGCTGTTCCAACTGCGGTTACATCAAAACCGAAAACAGTTACGGCGGCAAGATGACGCTCCAAGGCGACAGCATTTATCATCAGCATGACGTGTACCGCTGTTATGAATGCGGGCTGGTCATCAACCGGGATGAAAATGCGGTCCAGAATTTAATCGCATTTGCGGCGGGGCCACCGCCAGAATGGGCAACCATTCAGAGATGA
>SRR1151209_00995 glucuronyl hydrolase
ATGCTTGAAGACAAGACACGCTATATCGACACTACTCCCGGTTGGGCCACAGCCGCCTGGGACAAAAGCCTAACCAAATATCAGCAAATGGTTCCCCGAATCGGTTCAAAAATCCCTTATATTCCGGAAAACGGCCGTTACACCGACAAAGGCGAAGATACCTATTGGTGGACCAATGGCTTCTATGCCGGCCTATTGTGGGAACTATACGCCCGCACCAAGGACCCGCAGTTCAAGGCCGCGGCCCGCGTTCAGGCGGACCGATTAGATGAACCGCTCCATGGGTTTGTCGGCCTGCACCACGACGTCGGCTTCATGTGGCTCCATGCCGGTGTGGCGGACTATCGCTTAACGGAAAACGAGGCGGGTAAAGTCCGGGGACTGATTGCGGCCAATATTCTGGAGGGCCGTTACAATCCCACTGGCCGCTACCTGGTATCGTGGAACGAAAATCGGCCCGGGTGGGTGATCATCGACAGCCTGATGAACATCAACATCTTGTATTGGGCCAGCCAAGTGACGGGCGATCTTCGCTTCACCCAAATGGCGGTGGCCCACGCGGACACGGTGTTGGCCAACCACCTGCGCCCGGATGGCTCGGTGTATCACATCGTGGCCTTCGATCCAGATACCGGCGCAGTGGCGGATCGTCCCCAAGGGCAGGGGTATGCCCCGGAGTCTTCCTGGACCCGGGGGCAGGCTTGGGCTATTTACGGCTTTGCGCTGAGTTACTTGCATACCGGCGATCCGCGTTATTTGGCCGCCAGCAAGCGGGTGGCCAACTACTTCTTGGCCAATACCGCGGCGGTGGGGGACGAAGTGGTCGTTGATTTCCGCGCGCCGGCCACGCCGGTGTACACTGATACCAGTGCCGCCGTGATCGCGGCCAATGGTTTGCTGCTGTTGGGTCAAGTCAGTGATGCCGGGGACCAAGCGCTGTATCGGGACGGCGGCGTGCGCCTGCTGAAGCACGTCACGGACAACCACACGGATTTTGATCCGGCTGCCGATGGCATCGTCCAGGGCGCCACGGCCATGTACCACAGTGCAGAGGAGCGGGACGTGAATATGATCTACGCGGATTTCTTCTACATTGAAGCATTGCTGAAATTGCAGAACGATCCGTTCCTAATCTGGTAG
>SRR1151209_00996 Heparinase II/III-like protein
GTGTTAACTATCAAAGGTCTGCATAATCCATTGACAGGTGCAATACATCAACAAGCAATTGAGGAACGAAAGCGGCCATTACCGGAATTAACGTTGGCGGACTTTCTAGCGTTTAAGCGTACAGGGGACCGGGCGGCCTATGAGCAAGCGTATTTTGCCCGTCGCCGCCGGCTCAGCGTATTTGGCACGGCGTGGCTGCTCGATCCAACGGAGGATAATAGTGCGGCATTAGCTGATATTCTTTGGTCAGTCTGCCAGGAACCGACCTGGGCCTTGCCGGCTCACTTCTTTAAAGCTGACGGGGATGGTCTCAAGGCACCGGGTGCGTTTGCTTCGTTCTTAGATCTCTTTGCAGCCGAAACCGGTCAGACGGTGGCATATTTGCTTGCGGCGGCACAGGATCACTTGCCGCCGGAGCTGACGGCCTGGGTGCGCTATGAATTGCAGCGCCGGATTTTCACTCCTTTTTTAACACAGGATTGGCAGTGGCTGTATCGGCACAATAATTGGGCGGCAGTCTGTTCGGGGTCCATCGGAATGGCAGCTTTAAGTTATTATTCTGGTCAATCGCCGGAACTGGCAAAAATACTGGCGAAAGTGTCAGTGGGCATGCAAAATTTCTTGGCTGGTTTCGGACCAGATGGCGCCAGTGAAGAAGGAATTGATTACTGGGCGTACGGTTTTGGCTATTATATTTACTTCGCTGCGCAGCTAGCTCGACAGACTGGTGATAATCATTATTTGAGTGCTCCCAAGGTCAAATTAATTGCGCGTTTTCCGTACGCAGCCAGTTTATTTCCTAGATACTATGTGAAATTTGGAGACACACCGACGCGTACCCCTGACTTGCCCAGCGGCTTGCTCAGTTACTGTACGCGGCATTTAGGGGCACCATTGCCTGCGCCAATTCATTATAGTGCGTTAGACAAAAACGGACGGTTTGCGGTATTGCTGCACAACTTGGCCTGGACCGATGAAACTTTGCCAACGACCCCCTTGGCCGCTGAAACGACACTGGCGACAGTGTCTTGGCGGTTGAGCCGAAGAAAAGATTGGGCGTTAGCGAGTAAAGCAGGAAACAACGGTGTTTCCCACAACCACAATGATATTGGCAGCTGGGAACTACTCACATCCACAATGCCGGTAGTTACCGAGTTGGGGTCAGGCGAATACACCCGCGACTATTTTGATGATCATAAACGGTATCAACTGCTCGAACCGCGCAGTTTGGGGCATAGTGTTCCACTGATCAATGGCCATGAACAAATTGCAGGGGTGGGTGCGCGAGGTACATTACAAACGCCTGCTGCAGATGAGACAATTATTGATTATGCAGCGGCATACCCATCAGCTGCTCGAGTGGTAAGTTTGACACGGACTTTTCTGACCCGAACAAATATGATCCTAATTACAGATACGACTGAATTTACTACTGCCGAGAACAGTTTCAGTGAAGTTTTGATTCTGCCAACAATGCCGCTGCGTATTCCCGGCCAGGATAATTGCTGGCAATTGGCTGCTGATTGGCAGCTTCAAGTCAGTGCCGGCGGTCAGTCTGTAGTTGAGAAATTGACTACACAGGATCATTTGGGCCAGTCGTATCATGTTTTTCGCCTGCGAATCACATACCAGTTTGGGAAAACAGGACGAGTAATGCTGCAATTGTCACTGCCACAAACCAGCGCACAGCGACATGAGGAGGATAACAATGCTTGA
>SRR1151209_00997 LacI family transcriptional regulator
ATGAAACATATCACAATGAAAGATATTGCCAAAGAGGCAGGTGTATCACTCGCAACAGTGTCTTACGCATTAAACGGAAACACTGGAGTCAGTGCAGCGATGCGACAGAAGATACTGCAAATCGCAGAAGAGTTTCAGTATGTGCCCCATATGTCGGCACAAATTTTAGCCCGCAAGACGACGCCGATCGTGTGCGGTTTAGTCCGTTCGTTTTCTGGTGTCTTCAGTAACGAGCTCTGGGACGAGATGCAGGACGAGTTTCAAAAAGCCGGCTATCTTTTGGTGGCTGTCAATCGATTGCTGCCTGAGTTGATTGGGTCTGATCTATTTCGGGGAATCGTTGTGCTTGATTTTGATATCACCGACCAAGAACAGGCAATCATTGATGCCCTGCATGCACCCACCGTGTATTTGGTGGGTACCCATTCGCCTGCCAAAGCACAAGTAATGATGGATAACCAACAAGCAATTACTCTGGCATATGGTGAATTGGCAAAAAGTGTTCATCAGCGCCTTTGCATTCTCAGTGGTAGAGAGACTTCTATCAATAATTATGAACGGCTCAACACGGTTAAAAAACTATACAGTCGGGATCACCCGGGAACCGACGTAGATTCGGTGGTGTTCAGTGCGGATTTTTCGTACGCGAATGCTTATGATATGAGTGCCGATCTGTTGGCTCGGTTTGATTCTTTTCTGTGTTTCAACGATGTGATGGCCATGGCCATCTACAAGGGCGCCTTTGAAAAGGGACTGGTAGTCGGGCGTGATCTTTCCATCAGTGGATTCGATAACAGTATTCTGGCATTCAGTGCCTCCCCCGGGTTAACCTCCGTAGGCTTTGATGGCCATCAGTGGGCTCAGGAGGCGGTCCACCAATTCAAGGCTGCCGTGCGCCATGGGTCCGATAATATACCAGCAACGTTAATTTCACCGACAATGAACGTCAGGGAGTCGATCCGGTACAAAGAGATTAGCGAGAATTGA
>SRR1151209_00998 hypothetical protein
ATGAGTCCAGAATTGCAGTTTTTCATGATTACCGATACGCATGCGGCTGCTCGGCCGACCGCGGGAGTTAGTAATGCTGATATCGCCATAGCTGTTCAAAACATGCGCAAGATTGCACCAGCGGCATTACTGATTCATGGCGGTGATTATACGACGATGTCTGAAGCGGACGTCTTTGCTGAGCAATTACAGATTTATGCCGCCGCTGGTTTTCCTGCCTATCAATGTACGCTGGGTAATCACGATGTCCGCGGACGCAAGAATGGTCAGGCAGAACGGCCAGATGCCCAAGGGTGGTTGGATGATTGGAAGATCGATTGGCGACCTGAAACTGATCGTTTGGCTGATGTGCGGTTTGCACCATGGCGGGAAACAACCCGCATTTTTCAAGATTTTCAAACCGAAGTTAATGGTGGTGCACAACTTTATGGTCAAATTGCAGTGGATGGTTTTCGTATCCTCCGTCTGTGTACTGAACGACCGTTAAAAGATCAGTGCTGGCTATCATCGGAACAGCTGACTTGGTTGGATCAGTCACTAGCAGCCATCCGCCAAGAGAGTACCCGACCAATTGTTGTTATTTCCCATCAGGCGCTGACGGGGACCCATTCACGTTCTGAAGAATACGGCGGTTTTGGCGAACAAGACAGCCAGGTCAAAGAAATACTGGGCCGTTACTCGGAGATTGTTTTCCTGTCTGGGCACATCCACAACGGTTTAGGCGTCGCAAAAGTATTGCAGGCCCCCTTTGGCTTGCTGGTTGATGTACCGTCATACACCACTCCTGATGTAGGATTGCCAATGGCTGGCATATGTATTCTGGCGACGCTCACCCCGACCATGTTGCGGATTGAGCCATATTTTATCGGTACCGAGCAGTCACCTGATGCGCGACTGCTGAAGGAATACCAAACGGTGCTAGCAATTTAG
>SRR1151209_00999 hypothetical protein
ATGCGTATTTTTACGGATCAAAATAATAAAGTATATCAGTTCATGGGCCGCTTGGTGGATTTGTTTATCTTGAATGTGCTCTTCATTTTGACATCCCTGCCAGTGGTCACCATTGGCGCGAGCCGTGTAGCTTTGGCGACGGTGTCGATCAAGCTGCACCAAGGAACGAACGAGTTTGTCGTGACCACCTATCTAAGGGCTTGGCTCAGCAATTTCGGGCGCGGCACAGCGTTATTCGGGGTCAATCTGATCGCTGGAACATTGCTCCTTGGCGCGTACCGTTTACTGCCGCTCCTGCCATTACTTGGCTATTTGATTAGCGTAGTGGGAATTTTGACAGCGTTATTCATTTTCATTCCGGCAAGTCTCTACAGCTTTGCTTATGCCGCTTATTGCGATGACGGTTTTTGGCCGACGCTCCGGGCTTGTCTGTTGGTGACCCTAATCAAGTGGCAAAACAGTCTCATTCTGGTGGTTGGTTTCGTGGCCCTCGTGTGCCTGATTACATTCAGTTTCTTTGGCGCATTATTGGTTGGCTTTGGCTTAATTACGATTGGATTTTCCGGTTTGGCAGTGATCCTGGCCGGTATTTTCCGCCGGAGTTTCCAGCCTTTTGAAGGAAATCGCCACCAGCATCAGGCAAAGGAGCTTCAGCTATGA
>SRR1151209_01000 sugar ABC transporter permease protein
ATGTTGGTGCGGTCCAAGGAACTATTGCAGGAAACAACCGGTGATCGAATCTTTGGGGTATTCAATACAGGCTTTATGGTGCTGCTCATTATTGCCTGCCTGTATCCCATCTGGTATGTCATTTGCGCGTCGTTTTCCAGCAGTGGGGCAATTCAGGCTAATGTCGGCAAACTGTTATGGCCTAAGAATTTCAATTTTGGCGCGTATAAAATGGCGCTGCAGCATCCATTGATCTCGTCGGGCTTTAGAAATATTTTCCTGATTTTACTTGGCTCGCTGCCGCTGCAAATGGTCATGACGATTCTATGCGGGTATTTTATGGCAGCCCGCCGGGTCATGTTTAAAAAATATATCGTCGGCATGTTCATGTTTACGATGTTTTTCAGCGGTGGGCTAATTCCCAGCTTTTTGAACCAGAAGAGTTTGGGCCTGTATGACAACCTGTGGGCTCTGATCATTCCCGGCGCGTTGAGTTTGTACAATGCGATCATTTGTAAATCGGCTATTGATGGTATTCCCAACAGCTTATTTGAATCAGCGTACATCGACGGAGCAAATGACTTTACAGTCCTGACAAAAATCGTAATTCCGTTGATCAAACCGACGTTGGCGGTTTTGCTATTGTATTACGGCGTTGGTACGTGGAACAACTGGTTCAGCGCGTCGATCCTTATTGAGAACAACAATTTGCTGCCGATTCAAAATATTCTGCGGGCGGTGCTGTTGGCTAATGATCAGACGCTCAATTCCGCTGCGGCCAATACGAACGACATCAATACTTTTGCGGAAACGATCAAGTATGCGGCCATTGTCATTTCTACCGTCCCCATTTTGATGATCTATCCATTTTTACAAAAGTATTTTGTCAAAGGCGTCATGATCGGTTCCGTCAAAGAATAG
>SRR1151209_01001 ABC transporter permease protein
GTGCTTTCGGGAATTTGGCAAGGGGTTGGTTGGGATTCGATTATCTATTTAGCGGCTCTGTCTGGCATCAACTCTGAATTGTATGAGTCCGCCCGGATCGATGGGGCGAGTCGGTTACAGCAGATGTGGCACGTGACATTACCGGGCCTGCAACCCACTATTATCATATTGCTGATTCTGAGAATGGGCAGCTTGCTGAGTGTTGGTTTTGAGAAGATCCTGCTACTCTATTCTCCATCAACGTATTCTGTGGCCGATGTCATCTCGACGTACGTGTATCGGATGGGTATTCTGAACGCCGATTACAGCTATTCAGCAGCCATTGGTTTATTAAATACTTTGGTCAATGTCACTTTGCTGCTGATCACCAATCGGATCGCCCGGAAAGCAACCGGCCACGGCCTGTTCTAG
>SRR1151209_01002 ABC transporter permease protein
ATGGAAGCACAAGTACCGACCAATCAGAAGCCAAGTTCTTTGTCACCGGTAGTGCAGAAGCCGCCCTTCTCGGCGCGGGTCAAAGATGACTGGCACGATAATAAGATCAAGTATTTAATGGCGCTCCCAGTTATTATCTACTTTCTGATTTTCTCTTATAAACCCATGTACGGCTTGCTGATGGTATTCCAGGACTATACACCGCGTCTGGGTATCAGCGGCAGCACATGGATCGGCTTTGACAACTTTGTTCGATTTTTCAACGACCCGAATGCGACCCGAATTGTCGTCAATACGTTTAATATTAGTATTTGGAGCTTGATTTTTGGCTTTCCGGCGCCAATTATTCTGGCCCTGCTGATCAACGAGATCAAGAACAAAGTCTTCAAACGAACTGTCCAGACAATTTCGTACATGCCTTACTTCATCTCGCTGGTAGTGATGTGCAGTCTGATCAAGTTCTTTACGCAATCAGACGGACTGATTCCTGACTTTCTAGCTTTCTTCGGAGTTCAACGAACCAATCTACTGGCATCACCGGGTGCCTTTATACCGATTATGTGCTTTCGGGAATTTGGCAAGGGGTTGGTTGGGATTCGATTATCTATTTAG
>SRR1151209_01003 lipoprotein LipO precursor
TTGAGGCCAGTGATTTCCGCATTTATTTTCGTCACACCATTGCGTTATCTGCGAAACAAGGAAGAAGGCAACAGAGTGCAGGCGGCACTCTCAATGGAGGTAAAAATCATGAAGGCATCGAGCAAGATTGGACTGCTCATGGCAGCGGTTGGGGCAATGATTGGCCTGGCGGCTTGCGGATCGCAATCCGACACATCATCAAGCAGCAAAACGTTGACTCTGTGGTCAGATCAGGAGATTCCCGCTACTGTGGTTAAATCGTGGAAAGAATCACCCTTTCACACCCAGTTAGCAAAACAAACTAAAATCAAAGTAAATTGGCAGTTCCCTGCCAGTGGCGCAGATTTCAGCCAGGCATTCAATCTGTTAATTACACAGAAAAAATTGCCGGATATGATTTGGCACGGATTCTTAGGCAGCGCAGACCAAATGATCAGTGATGGCGTGCTCATGGATTTGAGCAAGGATCTGCCGAAGAAGGCGCCCCACTATTGGGCGTTTTTGAAGGCGCATCCTGAGTATATGCGAGCAATGAAGACGGATAGCGGCAAAATTTATATGGCCGGTTTCTTCCGAGAGACGCCGCAGCAAACAACCTTCATCGGTCCGGAAATTCGCCAGGATTGGCTGGACGCCAATAACCTGAAAATGCCAACGAATATTGCAGAATGGGAAAATGTGTTCAAAGTATTCCATGACAAATACAATGCCACTTTGGGTTTTGTCCCTGACTGGACCTTCAACCCAGGCTTTGCCGGTGCATTTGGAGCCCATGCCGGGCTGGATCCCAATTCCTATATCGATGGAAAAAAGGTGAAATTTGCCCAGACTCAGCCGGAGTGGAAGAATTACATTGCTTGGCTGCACAAGATGTATGCTGAAGGCTTGATCGATAAGGACTTTGTGACTGCTGACGGTAATTCTTTGCAAACTAAAGCGACGACCGATAAAGTTGGGGTTATTTTCAATCTGCAAAGTGTTGTTTCAAAACTCAATACCGCTGCAGCAAGTAACAAGTCCAGTGCGAAATGGGTTGGCGCGCCATATCCGAATCAAGCCAATGGCGAGAAACCGACCGCAATTTACATGATTGATATGTACAATACGCAGGGTGTTGGGATTACAACGTCCATTTCAAAAGATAAATTGGACGCCGCTTATAAGTGGATCGATTATCCTTATACTAAGGAGGGCCAATTATACTGGAATTATGGTGAAAAAGGCGTGTCTTGGGAAATGAAAGATGGCAAGCCGACCTTCACGGATAAGATGACGAAAGGTAAATATGACTTGCTGACCCAAACCCAATTGTATACCCGCAACACGGGGAACGGGCTGGGCGTCCAGCTGCTGGATATGATTCGTCAACGTACCGATGCGTCATCGTTTAACGCCGGCAAGACTTGGTACAACGGGAATAAACAGGTACGGCAGGCAATGTATCCTTCTGCCGTAAGTTATACCCGGCAGGAATCCAAAGAAATTGCCCAAATCATGAACACCATGGGGACCTATGTCAAAGAGCGGGCCATCAAGTTTATTACGGGTGAGCTGCCTATGAGTCAGTTTGATTCATTCATGACTGGGTTGAAAAAACAAGGTGTGGATCGGTATCTCAAGATTCAGCAGGATGCTTATGACCGTTACCTGAAACGGCAGTGA
>SRR1151209_01004 NADH oxidase
ATGAAAGTAGTCATTATTGGCGGCGTCGCTGGCGGTATGTCCGCAGCTACTCGCTTGCGCCGGTCGGACGAAACCGCAGAAATCGTGGTGTTGGAGAAGGGCCCTTATGTGTCCTTTGCCAATTGCGGGCTGCCTTATTATATTTCCGGGGAAATAACCGATCGGGATGATCTCATCGTTGAATCACCCCAAGCATTGCGGGATCGGTTCAACCTCATCGTGCGGTCGAATCATACGGTTACCGCCATTGATCCGCAACGCCAAATCGTGACCGGCATCACCGCTGGCCAGCCTTTTTCGGAGAGCTACGATAAACTGATTTTAGCCCCCGGCGCCAGTCCCGTCGTGCCGCCAATTCCAGGATTGAAAGAAGCCAAGAACGCCTTTGTGCTGCGCAATATCCCCGATTTGGACGACATCATGACTCACCTGCGCACCAATCAGCCGCGCCGCGCCCTCGTGGTCGGCGGCGGCTTCATCGGATTAGAAGTGGCCGAGAATCTGCGCAACCGCGGCTTGGCAGTGACGATCGTTGAGCAGGCGCCCCATCTTTTACCGCCGTTGGATGAAGAAATGGCCGCCTTCGTGCAGCGGGAGCTGACGAATCATGGTGTCCAAGTGATTACCGGGCAGGCTGTCACGGTGTTTACGGCCGGTGGCCAGCAGGCCCAACTGGCTGATGGCCGAACGCTGACCACTGATCTGACAATTCTTTCCGTCGGCGTTCGACCGAATACTGAGGTGGCCCAGCAAGCCGGCATTAAAACGGGCTTCAAGGGCGGAATCATCGTGGACGACCAGTATCAAACCAGCCAACCCAATATCTATGCCCTCGGCGACGCAATTCTCGTCACTCAGCAAATCACTGGCCAGCCAGCGCTGATCTCGTTGGCGTCGCCCGCGAATCGGGAAGGCCGGCAAGTGGCCGACGTGATCGCCGGATTGCCCCAAAGAAATCGCGGCAGCATCGGTACTGCCATCGTCCGGGTCTTCAATACGACCGCGGCAATGACCGGCCTCAGCGAACGTGCCGCTCAACAGGCCCAGCTGCCCATGCAAGTGGTGCACGTCCTCGGAAAAAACCATGCGGGGTATTTTCCAAACGCCACCGACTTGAACCTCAAGTTAGTGTTCAATCCGAAAACCGGTGAGCTATACGGTGCCCAAGCGGTCGGTCCTGACGGTGCGGATAAACGGATCGACGTCCTGGCTACGGCTATCAAGGGCCGCCTCACCGTCAGCGATCTGCCGGAATTGGAATTAACCTACGCGCCGCCATTCGGTTCGGCCAAAGATCCAGTGAACATGCTTGGTTATGCGGCAGAAAACCTCATGGCCGGACTGAGTGAGCACATTCAGTGGTATCAACTGGCGGATGCATTGGCTCGGGGAGCGATACTGCTGGATGTGCGTGATCCCGATGAAGTCGCCGAAGGTCATTTTCCCAAGGCCTTGAACATTCCCTTGAATGATCTGCGGGCTCGGCTTGGCGAGCTCGATCCGAGTCAGGCTTACATTGTGAGCTGCCGCAGCGGTCAGCGGGCGTATATTGCAGAACGGATCCTACGGCAGAATGGGTTTATGCATGTGCGCAATCTGGATGGGGCGTATCAGTTGTATCAAGCGGTGCGGCCTGACGACCTTATTTATCCGCAATAA
>SRR1151209_01005 hypothetical protein
GTGGAACCGATCAATAATGGGTTTTCGCCGGATTCAAAAAAGCAGGACGCCATTGAAGCCCAGGATGAGCGCAATCGGGTGATTAACGAACGCAGCCGCGCGCAAACGATGCGCATCATGTTGGGCGTGCTGATTACCGTGAGCGTGCTGGGCGGGATCAGCTACATTTTTATCCGAACGGCCGTCATCTTAACAATTTTTGCTCTCGCAACGGCCCTGACGAACCTGTATTTCTACGTCTGGATCGGCACAACGGTGTACTACAATCGCAAGTTATAA
>SRR1151209_01006 hypothetical protein
ATGTACGAGACCAACAACAAAGAATTGTTTTTCCAGTATTTAACACCGTTTTTGATTATTTTGGGTGTCGTTTTGCTTTTTAACTTGGCATCGGCGCTGATTGAATTACGTAAAGATTCGCGGCGAGGACTATCAGGCAAGGAGAAGGCGGCCAACTTTTTCCATAATTTGGCCCTAGGCATTGTCGATTTCGTGTTGAACTTTTTTCCTTGA
>SRR1151209_01007 integral membrane protein PlnU
GTGGTTGTTAAAAATATCGAAAAAATATTGCGTTATGGTGCTGCCTGGTTCGCGGCATGTATTTTGTTCATTGTCATTGAAATCCCGTCAATGGCCGAAACCTTGTGGCCGGGAGAATCCGTCCATTCGTTTTCTTTAGGCCGCCATTGGTTATTATTTATCCTGGCCACAGCAGTTATCGGCGTTATTGCGTTTGCCTTTGCCCGCCATGTGAGTGATGACGAAACACCTTGGCGCAGCCGAATTAGTGGCGACCATTGGCGCTTTGCGGCACTGATGCTGGTGTTAGGATTTGCTGGTCAGACACTATTATCGTTCTTAGCAGGGCCTGATCATTCTGGAGACGACATTCTGTTGGCGATGCGCAGCAGTCTCGCACCAATCACGGTGTTGGCACTCGTCGTGGTCTCGCCGTTTTTAGAAGAGATCTTGTTTCAAATGATTATTCAAAACGGTCTGCTGGTGAAACTGGGCGGTATTGGTTCAGTATTCGTGACGGCGCTGCTTTTTACCTTCGTCCATGGTTATGGCTTCTCCCTCGCCACCGCCGCGCTATTCTGCTCGGTGCTGTCGTATGGGACGACTTATTATGTTACCAAAGATCTGCGTTTGGCAATTTTGGTACATGGCCTATCTAATTTGTTGTCGCTGGTGGTCAACATGCTGGGCATTGCTTGA
>SRR1151209_01008 prebacteriocin
ATGAATACTAAAGAAAAGAAGCTCTTTCAAGCGTTGGATCAGGCGTATATGGATCCTGATGTGAAAAAAGATCCGAGTCTGACGGCCATGATTGAAGAAAACGCTGAGGTCCTCAATGCAAGTGATAGTAACGACGCATATATCCATGCTGTTGCCAATCTGGCCAATGGCATTTCCCAATATTATTTGACACACCGTGGCGTACCGGAGGTTTTGATGAGTATTTATCAGCTGATCAAGGCGGACATCCCGGAAGCGCATGTGGATGCGGATTATTACCGGAAGAAGGCAGAAGCAATCGGACTTAGTTTTTTCCCGGTCATCTTTCATTAG
>SRR1151209_01009 abortive infection protein
ATGCGAAATAGAGCTGGGTCAACGATTGTCCGCCTAATTATTTTCCTGATTGCCGAGTTTTTTATCGATCAAGAAATAGTCGGCCGGTTTGTATCGTTCTTTAGATTATCCGATTTAGCGAGTATTGCGTTCTTTAAACTGCTGACGCTGGTCACGATTATCTTTTTAGTCAGGTTTGTGCTGCGCCAACCAATCGGCTTCAAGCGGCCAACCACGAAGGGCGGTTGGATCTTTTGGATCATCTGGGGGTTGGCCTGTTTGGGTTTGACGGTCTTGCTGCCGCAGCACTTCTTTGCCGCGGTTATTATTGGTTTGTGCGGGGCGGTGCCGGAGGAATTGATGTATCGTGCGGGCGTCTTCGGCGTTATATATAACACTGTGAATGGTCCAGAGCGCAAGAAGCCGCGGCTCTGGGTACCGTTGCTGCTCAGCAGTCTGCTCTTTGCCGCCAGTCACCTGATTAACTTGCAGACACAAACTGCGTTCGGCACCATGTTGCAGATTGTGCAAGCGTTCGGCATGGGCGTGCTCTTCTCAGCTGTGTATATCAGAATGCAGAACATTCTCTATCCGATGGCAGTTCATTTCTTTATCAATTTCATGGTGACTTCGATTAATGGCTATCCCGTCCCGGCCGCAACGGCCAAGGCTCATCCTTCAATCACTCCAACAATCGTGGCTTTGGTCATCTATTTGTCCGTCGCGGCCATTGTCCTCTTTCGAGCTCACCGGCCCAGCCAATTGGGTACAGAGACGTGGCGTTAA
>SRR1151209_01010 XRE family transcriptional regulator
ATGAGCCAATTTCTACTGCATTGTGGTCAATTGCTCAATTCAATCCGTCAGCGGCGCAATCTATCGATCAACGATATTCGGGGTGACGCGACCCAACCCACCGTTACGAACTTTGAACACAGCCATTCCGATATCGGCCTGACCAATTTTCACACTCTTTTGACTAATATGTATATGAGTACCGACGAATTCTTTGTTCTGGCCGATCCCGGAAGTGATTTGCTCAGCCGCTTCGCCCGCACCTTGCGCCATGCCAGCAACCATGATGATCTGGCCGGACTGGCGGCGTTGCGTGAGGAAGTCATCACTGCCTATCCCGGCTCTCGGAAAGATGGTCCAAAAGATATGCTGCTGCTCAGCATTCAAGGTATGGCCGGTTTTATTAAAGACCACGCTTTTATGTTTTCAGAAATCGATGCTTCTCGCCTGCAGCTCTTTCTGAATCACGGCCAAACCTGGTATGACTTGGAATACACCATATTTGCGGTCACCGCGCCGTTTTTGCCCACTCCAATCATGGTCCAGCTCGCCGATGCGATGCTGGCCTCGTTCCATACCACGCATATTCCCGATTACGATGTGGCAGTAATGGGAACGTTGTTTAATATGTGTTTTGCCCTATTGGCCCGGGGCGATAAAACCCAAGCGGTCAAATTGCTGCAGCGCACGCAGCAGGGCGTCCCGCAGACCCGTGATCCCTTCACTGCCTCGCGTATCTACTTGCTGACGCAAGCGTTCACCTATCTCGGCAATCATTCTCCAGAAGCACTGCACCACATTAAAATGATCGAGGACAGCTGGGCTCTCTTTGATCCGCAGATGCGAGAAAGTGATATGCAATGGCTGTCTCAGTTGGGGATTAAGTTATAA
>SRR1151209_01011 hypothetical protein
ATGCCCTGGTGGGGCTACTTTTTCTCTGGCGTACTCGCAGTCGTCTTTTTCCGGCTCGGTGAGTATAGCCAGCGGCATAAAACAAAATAA
>SRR1151209_01012 hypothetical protein
ATGGAGAAAAGCATTGACCAATGGCTGGATACAATTCTGCTTCTACTCATCTGCGGTGCCATTTTGATTTTAAACCAAATCGGTTACCCCTCTCTCTTAACCACGTTGGCTCAAGGTATCTTGGCCGCTGCTGCAGTCATCATTGCCGCTAAGATGGTCCTCACCGTCGTACGTCAACGGGCACAAGCTAAGCATTAA
>SRR1151209_01013 CAAX amino protease
ATGGCGCTTCATTATCGGCACAAACCAGACCTGCTGGGGTTTTCTGGCGAACACATCGGCAAAAACCTAGTCGCCGGCACGGTAGCCGGTCTATTACTGTTTTCTCTAATTTGGCTGATCGTTACTCTGCTGGGCGGGTATCATGTCACCACCGTGTTTCATTGGCACCAAGTATTCTGGCTGATCCTATTTCTATTTGGTTACGGTGTGCAAGCGACCTTTGAAGAAATTGTGTGCCGCGGTTATATCATGGGCTATTGGCTCAAACACAATCGGCTTGGCCTCGCATTTTTGACCAATGCGCTATTCTTCACCGTGCTGCACGTGGCCAATCCAGGCTATGATCTTTACGCAATGATTGGCTTGTTCTTATTCAGTATCGCCATGTCTGCATTGCGCTTGCTGACCGGCAGTATTTGGTTAGGATGCGCTTTCCACGCGATCTGGAATTTTGCGGAGGGCTGTATCTTTGGCACATCCGTTTCTGGTCTTTCCAGTACCGGCTTGGTCTTCACCTCAACGAATACAACGCCCGCACAACTTCTAACCGGCGGCTCATTCGGTGTTGAGCGCAGCGGGATTGCCCTGATTGCTTACGGCTTAGTGTCAATTCTGCTCATTGCCCTTTCCTGGCCTCGGATCACGCGTGCCATCGATGACCGAAGGAGCGCCGCCCACTCTAAATATTCTTATCAGTAG
>SRR1151209_01014 oligopeptide ABC transporter ATP-binding protein
ATGATGGCTGACGACAAAACATCGAAAAAAGACGACCGGGAAATCCTGGTCAAAGTAGAACACCTTGTCCAAACCTTCAATAAAGGGAAAAAGGACGAAGTGAAGGCCATTCAAGACATCTCCTTCAATATTTACAAAGGCGAAACGCTCGGTCTGGTGGGTGAATCCGGTTCTGGTAAAACCACCACCGGCCGCTCCATCATCCGCTTGTACCAGCCTACCGGGGGCGATGTGCTCTTCGAAGGTCAAAACATCGCCCGGCTGCGCAACGGCTCCAAGGCCATGCTGGACTTCCGGCGCAAGGTCCAGATGATCTTCCAGGACCCCTACGCATCGCTGAATCCCCGGATGAAGGTCAAGGATATCATCGCCGAAGGCATCGATATTCACCACTTGGCGAAAAGCAACGCCGACCGGGACAATCGCGTCAACGCCTTATTGGACGAAGTCGGCCTGAACAAAGACCACGCCACCCGTTACCCCCACGAATTCTCCGGCGGCCAGCGGCAGCGGATCGGGATTGCCCGCGCCCTGGCCGTAGAGCCGGAATTCATCATCGCTGACGAACCCATTTCGGCCCTGGACGTGTCGATCCAGGCCCAGGTCGTGAACCTCTTGAAGGATATTCAGGACAAGCAAAACCTGACCTATCTCTTCATCGCCCATGATCTGTCCATGGTCAAGTACATTTCTGACCGAATCGCCGTCATGCATTACGGCCGCCTGGTGGAATTGGCCAGTGCCGATGAAGTTTATAACCACCCCTTGCACCCGTATACCCAGAGCCTGCTGTCCGCCATCCCGATCCCCGACCCGGAGATCGAACGCAAGCGGACCCCGATTCCCTACGATGCCAGCAAGGTGGAGGACGAACGGCGCCGGCGAATGGTTGAGGTCTACCCTGACCACTTCGTCTTCGCCGCGACGGATGAGGTTGCCGGGTATAAAGCCGCGGCAGTGAAGAGTCATTTGGTTGACCATCCCCCACTGGTAGGGACGACTACGGATTAA
>SRR1151209_01015 oligopeptide ABC transporter ATP-binding protein
ATGGCAACTAACAAACCAGCTGAAGAACCGATTCTGTCCGTTAAAGACCTCAAGATCGACTTCCGCACCTTCGCCGGTCCCGTCCACGCGATTCGCGATGTCAGTTTCGACTTGAAGAAAGGCGAAACCCTGGCCATCGTTGGCGAATCGGGCTCCGGTAAATCCGTTACAGTGCGCTCGATCATGGGGCTATTGGCCAATAATGCGCATATCGCCAGCGGCCAGATCATGTTCCACGATGCAGACATTTTGAAGAAAACCAAACGCCAACTCAATGCCATGCGAGGCAATGATATCGCCATGATTTTCCAGGATCCGATGACTAGTCTGGATCCGACCATGCCCATCGGTAAACAGGTCGCCGAACCCCTGCGCCTGCACACGAATATTTCTGAGAAAAAAGCCCTGGCGGAAGCCGTCCGGGTCTTGAAGCTGGTGGGGATCCAAGATGCCCAAGAGCGGCTGAAGGACTACCCCCACCAATTCTCCGGCGGCCAGCGCCAACGGATCGTTATCGCCATCGCGATCATCAACCATCCCCAGATTCTGCTGGCCGATGAACCGACGACCGCCCTGGACGTGACGATTCAGGCCCAGATCATTCATTTACTGAAGGAAATTCAAGAAAAAATTGATACCTCGATCATCTTCATTACCCATGACCTGGGAGTTGTGGCCGGGATCGCTGATCGCGTCGCCGTCATGTACGCCGGCAAGATCATCGAATACGGCACCGTGGATGAGATTTTCTACAACGCCCAGCATCCGTATACTTGGGGCCTGCTGGAGGCGATGCCGACGCTGGAGACCAACTCCGACCGGCTCTACGCCATTCCCGGCACGCCGCCGGATCTGCTGGACCCGCCCAAGGGCGACGCCTTTGCCCCGCGCAATCCCTTCGCCATGCAGATCGACCTAGAGCAGCAGCCGCCCTTCTTCCAAGTGTCCCCGACCCATGCGGCCGCGACTTGGCTGCTGTATCCCGGCGCGCCAAAGGTTGAATTACCGCCGGAGATCAAACGCCGGCGCCAGATCTGGGAAACGCAATTTGCTGGTAAGGAGGCAGAATGA
>SRR1151209_01016 oligopeptide ABC transporter permease protein
ATGGCTGATACAAAAGAAAACCTGCAATTGGGGCCCGACGCATTCAAACACGTCGCCACTAACACCCAGGCCCAAGAAAAAATTGCCGCCCCGTCACTGACGTTTTCCCAAGACGCGATTCGCCGGCTGAAACAAAATAAGTTTGCCCTGATCTCCTTCTGGATTCTGGTGATCATCGGGATCGTTGCCCTGTTGTCGATTTGGTTCTCCCCCGCCGATCCCAACCGGCAGCACCTGGCTTATACCCACTTGCCGCCGAAATGGGGCAACCTGAACATTCCCTTTATCAACGGCTACCGTAACGGCATTGATATGTACGCCAAAAATGGCGTGCCCAAGGGTACCTATTTCTTCTTAGGTACCGACTACCTCGGCCGGGACATGCTGTCCCGGGTTCTGGTCGGCACCCGGGTTTCCCTGTTCATCGCCCTGCTGGCCACATTCTTTGACCTGACCATCGGAGTCTTCTACGGGATCATTTCTGGTTGGAAAGGCGGCACCACCGACACGATCATGCAGCGGATCATCGAAATCATTTCGTCCGTGCCGAACTTGATCGTCGTCATCTTGATGCTGCTGGTCTTCAAGCCCGGCTTGACCTCCATTATTCTGGCCATCGCCATGACCGGTTGGGTGACCATGGCCCGGCTGGTACGGGCTGAGACTTTGCAATTGAAGGATCAGGAATTCGTGCTGGCCGCCCGGACACTGGGCGAATCCAGTACGAAGATTGCCTTCAAGCACCTGATCCCCAACCTGAGTTCCACCATCATCATCCAGACCATGTTCACCATCCCGTCCGCCATCTTCTTCGAAGCCTTCCTGAGTTACATTGGGATCGGACTGCCGGCGCCGACGGCTAGTCTGGGGACGTTGTTGTCCGATGGTCAGAAGGTCTTGCAGATCTATCCCAGCGAGCTGGTTTTCCCTGCCGTCGTCATCGTTGTCTTGATGCTGGCCTTCAACCTGCTGGCCGACGGTCTGCGCGACGCCTTCGACCCGCGCAGTGATAATCGATAA
>SRR1151209_01017 oligopeptide ABC transporter permease protein
ATGGTCAAATACGTGCTTAAACGGATCGGCTATCTGCTGCTGACGCTGTTCATTGTCGCCAGTATCACATTCTTCCTCATGAAGCTGCTGCCTGGGACCCCCTTCAATAACCCGAAGATCCCCGCGGCTCAGATTGCCATCCTGCGTAAACAATACGGACTGGACCTGCCAGTCTGGCAACAATACCTCAATTATATGGTGGGCATTGCCCACGGTGATTTTGGCGAGTCCTATCAATTTGCCGGTCAAACCGTTTCTTACCTGATCTCGACCCGCATCGGACCCTCGCTGCAACTAGGGGTTCAGGCTATGATCATTGGGACCCTGCTGGGTATCCTGCTGGGCGCGATCGCCGCGATCCGCAAGAATACCTGGGTGGATGCCACCGCTACGATTTTCGCCATCATCGGCCGCTCCATCCCCAACTTCGTCTTTGCGGCCCTGTTGCAGTTCTGGTTGGCTTACAAATGGCGGCTCTTCCCCATCGCTTTGTGGGACGGCTTTTCATCCAGCATCCTGCCCACCCTGGCCTTAGCCATGGCGCCGCTGGCCAACACGGCCCGGTTCATGCGGACCGAAATGGTGGACGTGCTGAGTTCCGACTACATTGAATTGGCCAAGTCCAAAGGCGAATCTCAATGGCAAGTTGTCGCCAAACATGCAATGCGCAATTCCATGATTCCCATCGTCACCATCATTGGCCCCATGGCCGTGGACTTGATGCTCGGGTCTCTGGTCGTCGAGAACGTCTTCGCCATCCCTGGCATCGGCCAACAGTTCGTCCAGTCGATCACCACGAACGACTATCCAGTCATCATGGGCTTGACCATGCTTTATTCCGTCATGCTCACCGTCGTCATTTTGATCGTCGATATTCTTTACGGCTTCATTGATCCGCGAATTCGCTTGTCAGGGGAGGGTAACTAA
>SRR1151209_01018 oligopeptide ABC transporter substrate-binding protein
TTGCAGCCGGCAGTCGCCAAGTCAGTGGCGAAGCCGACCGATAACGGCACGGTATACACCTACAACCTGCGCAACAGCAAATGGAGCAACGGCGATGACGTGACCGCCAGCGACTTTGTCTTTGCCTGGCGGCGCACCGTTGACCCGGCGACCAAGTCCCAATACGCCTACTTGTATTCCGGCGTGAAGAACGCAGACAAGATCATGGCTGGCAAGGCTAAGGCCTCAACTTTGGGCGTTAAAGCTTTGAGCAAGGACAAATTGCAGGTTACCTTGGAACACCCGATTCCCTACTTCAACACAATGCTCGTCAACCCCGCTTTCTTCCCGCAAAGTGAGAAAGCCGTCGGCGAATATGGCAAGAAGTTCGGTACCCAATCCAAATACTTAGTTTTCAACGGCCCTTATAAGCTGACCGGTTGGAACGGAACAAACAACTCCTGGAAAGAAGTTAAGAACCCGACTTACTGGAACGCCAAGAACGTGCACATTGATCAAATCAACGTGACTGCCATCAAAGATCCGTCCACAGCGATGAACCTGTATCAATCCGGCAAGCTGGATGATGCGTCGCTGACTGGCGACCAAGCGGCAGTTGCAAAGAGCAAACCCGATTATCAAGGGGTTAAACAGGCATCAACATTCTATCTGGAACTGAACGAGAAGAAGATCCCGGCTTTCAAAAATACTAAGATCCGGCAAGCCATTGGGATGTCCATCAACCGTGAGGAATACATTAAGAAGGTCCTGCAAGACGGTTCCATTGATGCCCCGAACGTGACCCCTCAGGGGCTGGCCCAGGATCCCAGCACCAAGGAAGACTTCTCCAAAGAAGCTGCGAAGGGATATAGCCAATATACCCAGTACAATCCTAAAGAAGCTAAGACATTATGGACAGCCGGATTGAAAGAGGCTAATCTGAAGACCTTGAGCGTTGAACTGCTGACCGACGATACCGATAACGCCAAGAAATCCGGCGAGTATCTCCAGAACACTTTGGAAAAGAACCTGCCTGGTTTGAAAGTCACCATCGCCACAGTACCGTTCAAGACCCGCTTGAGCCGCAGCCAAAATGGCCAATTCGATATGGTCATGGGTGGTTGGAGTGCCGACTTCCCCGATCCCATCACCTTCCTGGATCTGTTCACCACGGATGGCAGCTACAACGACGGCAAATGGTCTAACGCCCAATACGACAAGCTGATCGAACAAAGCAAGACCACCTATGCTACTGATGCTGAAAAGCGTTGGCAAGCCCTGATCCAAGCGCAACAGATTTTGACCAAGGAACAGGGAATCATCCCGATCTATCAACGGGTCCAAGCCCACTTGGTCAACCCGAAGGTCCAGAACTTGAAGACCGCTCCGGGTGGTTCATATAACTTCGTTGGTGTCACGCTGAAGAAGTAA
>SRR1151209_01019 oligopeptide ABC transporter substrate-binding protein
ATGAAACACCGATATTTTGCAATTATTGGCACCGTCGGCCTGGCTGCCGCGCTGCTGCTCACTGCCTGTCAAGGCAAGTCAGGGGCCAACGCCAAGAGCAGTGCGGACACCACCTGGTCCCGGATGGAAAAAGACGTGATCACTACCATGGATCCGTCCCTGATCACCGATTCCGTCTCCGGCCAAGCTGCCGCCGACACCTACGAAGGTTTGTACCGTTACTATGGCGCTGAGTTGGAGCCCGGTGTCGCCAAGAGTGTCGTCAAACCGACCCAAAACGGCACGGTCTACACCTTCAAATTACGCAATTCCAAGTGGAGCAATGGCGACCCTGTGACCGCCAAGGACTTCGTCTTCGCTTGGCGGCGAACCGTTGATCCGGCCACTAAGTCCCAGTATGCCTATCTCTACACCGGCATCAAGAATGCCGACCAGATCATGGCCGGCAAAAAGAAGGCGGACACCCTGGGCGTCAAAGCCCTGGACGACCACACTTTCCAAGTTACTTTGGAACACGCCATCCCGTACTTCGGTACGATGATGGTTTCTAACGCCTTTTATCCAGAAAATCAGAAGGTCGTGGACCAGGCCGGCAAGAAATTCGGTACCCAATCCAAGTACCTGGTCTTCAACGGCCCCTACAAGCTGACCAAATGGAATGGCACCGGCAACAGCTGGACGGAAGTCAAGAACCCGGATTACTGGAACGCCAAAGATATCCACGTCAATAAGATCAACGTGCAAGTCGTCAAGGATGCTTCCACGGCAATGAATCTGTTCCAAGCCGGCAAATTGGACGACGCCCAGCTTGATGGCGATCAAGCCGCCCAGGCAAAGTCCCAGAAAGATTACAAAGGGATGAAGCAATCGCGGACTACCTATCTGGAATTCAACCAGAAGAAGATCCCGGCCTTCCGCAACACCAAGCTGCGCCAAGCCGTTTCTCTAGCTATTGACCGGCAGGAATTCGTCAAGAAAGTCTTGGATGACGGCTCCATCAGCACCGATACCGTCACCTCTTCCGGATTAGCCAAAGATCCCACCACTGGAAAAGACTTTACCAAGAGCCTGACCGCTAGCACGGCCCAGTACACAGCTTTTAATTTAGCCAAGGCGAAGAAGTTATGGCAGGAAGGGCTGCAAGAGACTGGTCAAAAGAGCCTGGACATCACCCTGTTGAGCGATGACACCTCTGCGGCCAAACGCAGTGCCGAGTACTTCCAGAACGCCCTGGGCGAACTGCCTGGCTTGAAGATCTCGGTCCAACCTGTACCATTCAAGACCCGGATTGCCCGCAGTATGGCCGGCAACTTCGACATGGTCATCTCCGGCTGGGGCGCGGACTTCCCGGATCCGATCTCCTTCCTGGACCTGTTCACCACTGACAACACCTATAACTTTGGCCATTACAGCAACAAACAGTATGACGCACTGATTGCGGCATCGAAAACCACGGACGCCACCAACGAAACCAAACGGTGGACCGACCTGCGTCAAGCCCAAGAACTGCTGACCAAGGAAGAAGGCATTGTCCCCGTTTACCAAATGGTGCAATCCCACCTGGTCAATCCGAAGATGCAAGGGATGACGTACAGCCCAAACAACCTGTACAATTTCATCGGGGCAAAAATCAAGTAG
>SRR1151209_01020 exonuclease SbcD
ATGCGCTTCATGCATACGGCGGATTGGCATATTGGCAAGCGATTGAATAGTTTTGACCTCTTGGCGGACCAGCAGGCGGTGTTCACCGAGATTCGGCAGATCGCCCAAGAGGAGCAGGTGGATGCGGTGGTGATTGCCGGCGATGTATACGACCGGGCTTTGGCGAATGAGGAATCGGTGCACGCGGTGAACGAGATGATCCAGACGCTGAACTTAACGGACGGGTTGCCGCTGCTGGTGATCAGCGGCAACCATGATAGTCCGGTGCGTCTGGGGACGGGCAGCCCATGGTTCAAAGCAACTCAATATTATTTGCATACGACGCTGGCCCAAGCCATTGACGAACCAATCGTATTGGGAGACACCCAATTTTTCCTGCTGCCGTTTTGGCAGCCCTTTGCGGCCCGGCAATATTTCGGGGATGAGCAGTTAACGACGGTGCCGTTGGCAATGACGGCCATTGTCCAGGCCATGCAGGCTAAATTTGTTCCTGATAAGAAGCATGTTTTGGTCGCCCATTTCTTCGCGGCCGGTTCCAGCCAGACGGATTCAGAGACCACCAGCCGGGTAGGCGGTTTGGACGCTGTGCCGGTGGATCTGCTGGCGCCCTTCGATTATGTGGCGTTGGGCCATTTGCACAGCCATCAGGCGCTGCATGAAGACAAGGTGCGCTACAGCGGGTCGCCGTTGAAGTTTTCGGCTTCAGAGGCGAAAGATACAAAGGGCGTGTGGATCGTTGATACCACGGCGGGGAGCATTGATTGGCGGCCGCTGACGCCGCCCCACGATCTGCAGGCGATCACGGCCAGCTTTGCGGACTTGACCAAGCCGGATTATCTGCCGCCGGATCAGCAGCAGGACTATTTAGCAATCACGCTGACGGATACGGAAGTGATCCCCAATGTGATGCAGATCCTGCGCAGCCAGTACCCGCATATTTTGGAAATCCAACGGGCCCATGGCCGGGACCGGGCGGCGGATACACCGGCCCTGACAGTGCGCCGGCACTTGGATCCGCTGACGTTGGCGGCGGACTTCTATACGGAAATGCAGGAGAGCGCGCCGACTGAGCGGCAGAAACAATGGCTGGCTGAAACGTGGGCAGAAATGGGGGCAGAGAAATGA
>SRR1151209_01021 exonuclease SbcC
ATGATTCCGTTAACCTTGCACGTGCATAATTTTGGTCCGTATGTGGATGAAACGTTGGATTTCCAGCGCTTCGCGGAGGTGCCCCTGTTTTTGATCAGCGGCAAAACTGGCAGTGGGAAATCGACCCTGTTTGACGCGATGCGTTTTGCCTTATACGGCGATACTGCCGTGGACAGTGGTGAACGGGAAGGGGCGGCTCTGCGCAGTAATTTTGCGGATGAAACGGAACCGTCTCGGGTGGTGTTCACGTTTACTCAGAATGATTTGCGTTATGTGGTCAGCCGGGAACCGAAACAGACGCTAAAGAAGAAGCGGGGCGAAGGGTATAAGACCTATAACGCCACTGCTAAGCTGGCTATCTACCATGGTGATGAACAAAAGAATGAATTCATTAAGACCCGGGACGTGGATACCCACCTTCAGGATTTACTGGGTTTAACCGCGGAGCAATTCACTCAAATTGTATTATTGCCCCAGGGCGAGTTCCGCAAATTTCTCAATGCGGATAGTAATGAAAAGGAAAGTGTTCTGCGTCAGCTGTTCGGGACCGGCAAGTATCAGCGCTGGGGGGAGATCATTCGCCAGCATGCCCAGAGCGCGCAAAGTGCTGCCAGTCACGTGGACGAGCAGCTCAGCGGCGTGTTGGGCCAATTGCCTTGGCCAGACACCATGGTAGATGACGTGACACCATACTTGACCAGCCCATTGAATTATCAGACCCAATGGACGCAATTCTTAGCTGATCTCGCGGATACTCAGCAAAGCGCCGAGCAAACGGCCAAGACCGCGCAACAGGCTGCGCAACAGACGCTGGCCGCGGCCCAAGCGGCATTGCACGCCGGCCAAGATTTGACGACGCAGTATCAGAATGCTGCGGTCTTGCAGGGGCAGCAAGCCCAGCTGACCAGTCAGCAGCCGGCCATGACGGATTTGGCGGGCCATATTGCCCAACTGGAATTCAGTCAAACCGTCCGGCCGGCAGCCCAGCAGATCACTGATGGTCAGGACCACCAGCGGCAGGCGGCGGCAGCAGAAAAAAAGGCCCAGGCGCAGCTGGTCCAGGCCCAGGCCGCGTTACAGCAAGCCGATGAGCAGCTCGCCGCGCTGACAGCGCAGCAGCCAGCCATTGATCAGGCTAAACAGCAGGCGGCGAAGCTCACTGATTTGCTGCCCCAATTTGAAAAAGTGGCAAATGCACGCAAAGCCGCCGCTAAGGCAGAGAAGGTGTTTGCCGCCGCCCAGGCCGCGGTCACGGCGCAGAACAAAGCCTTGCAGGAACAGCAAATGGCATTGCAGCAGGCCCAGACCACCGCCGCGCAGCAGCCGGCGTTATTGACCCAGCAGAATCAGCTGGATGGTCAAAAACACGATTTGGCCTTGGCCGAGGAACATCTGCAGACGGTGCGCCAGCACTGGCAGACTTGGCAGCAGGCCGCTGGTCAAGCAGCCGCTTTGGCCGACCAAGTGCAAGCCGCGGCGCAGCGATCCGAACAGGCAGAAGCGGCTTACCGGCAAACCAAGAGCGACTGGTCCGCAGGACAAATTGCGCGGCTGAGCCAAGACCTGATACCGGGGACACCATGCCCGGTATGCGGCAGTACGGAACACCCCCATCCGGCAGCGAGCACGGTGACCACGCTGGTCAGTGATGCAGCGCTGGACCAGGCGGAGAAGGCGTGGCAGCGGGCCAGCGCCCAAGCAGCCGAGCTGACCAGTCAGCAACGGCAATTGACCGCCCAGACGGCCGAACTTGCTGACCAATTGGCGGCGGTCTGGCGGATTTATCAGCCAGCGGTAGAAACGCCCGTTGCATGGGCGGACACTTTGACCGCCGAACAGCAGCGCTTGGCAGCGGCGCGGACGGATCTGACCGCGGCCCAAAAGAAGACCCAGCAGGCGCTCCGCGCCGCGACAGCAGCCAGTCAGCAGGTTGACCAACGCCAGCGGGCACTCGTCGCGGGCCAAACTGAATTGACGACGGCCCAGACGGCGGCGAACACCGCCGATAAAGTGATGGCCCAGGCCCAGACCGCGTTGACGGATGCCCAGAGCCAATTGCCCGCGGATTATCCGACGGCGGCGGCTTTGCAACAGGCCATTACGACGCTGCAGACCCAAGCGGCGGCCCATGACCAGGCCCTCAAGACCGCCCAGCAAACGAAAGAAACCCAGCACACCCAGGTCACGACCTTGACCACTCGAATCACCACTGGCCAGCAGGACCAGACTGATTGGGCCCAGCGGGTCGCGGCTTATCAGAAGCAGTTAACGGCGGCTTTGGCAGCCCATACCCCAGCGGTGACCGCTGCCGAGTTGCCGGCCTTGTTTGCTGAATTGCCGCAACTGGCCGCGCTGCGGCAAAAATACACAGCGTACCAGACCAGCGTGACGACCGTCGCGGCTCAATTGGCCCAAGTGACGGCCGCCATTGCCGAGCGGCCGCGATCCGATGTCGCCGCGCTGCAAACCGCAGCAGCGGCCGCCCAGACCCAGACCGATGCCGCTAATCACGCGGTGTATGAAGCCCAGACGGCGCTGGCCCAAACCCAGGCCGCCCAAAAACAAATGACCAAGCTGGTCAAAGACCAGGCCGATCAAGCGGCCATTGCGCGGGAATGGGCCCAGCTCAGCGAAACCGTCAACGGCAAGGGGGCCATCAAGCTTAGTCTGGAACGGTATGTACTGCGAGCTTATCTGCAGGAAGTCCTGCGGGTGGCCAACAGCCGGCTGGCCCGTCTGACCAATGGCCGCTATGAACTGCAGCTGCACCGCGAGAACGGAGCGTACGCCACAAATACGGGCTTAGAGCTGGACGTCTACGACGATAATGTCGGCGCCACGCGCAGTGTGCACACCCTGTCCGGCGGCGAGAGTTTCTTAACCGCCCTGAGTCTGGCGTTGGCTCTGGGCGAAGTGGTGCAAAACGAAAGCGGCGGGATTCAGATCAACGCGCTGTTTGTCGATGAAGGATTCGGTTCGCTGGATGAGGATGCCCTGGCCGGAGCAATCGATGCACTGCAGTCCATTGAAGGCCAGCAGCGGCTGATCGGTATTATTTCCCATGTCCGCGAACTGCGCCAGCAGATTCCAGACCAGCTCTGGGTCGAGACCGAGGGCGATGGCCGCAGTCGGCTGCACTATCCCAGCAGCAGTGAGATCGAGGCGAAGGCCTTATGA
>SRR1151209_01022 restriction endonuclease
ATGAAATGGGCCTGTGCCTCTTGTACCCTGCGCTGGCCCGCGGCGGCCTTTATTCACGATGGTTTGGCCGACAGCATTTGTGCATTGTGCCGCACCCATCAAATTAGTGGCCCGGATTTTGCCAATCCCGCCAGCCAGCTGTTTGCCCAAGGCACGGGTCTGACCTACGGCGGCGGCGACCAGACAACGGGGACCCCGCTGGCCTTCACCAAGGCGGCTCGGCGGCAAGCTGAGGGCCTGGCGGACAGTTACGCGGCTGCCCCGCCTGCTGTACGGCAGGCGCTGCCCGCGGCCGCTTTTGCGGACCAGCTTTGGACGATGCTGCAAACGCCGCCGGCCGCCTGGCCCAGCGGCGATCTGCCCACCGTGCTGGCCGCCTGGGGTTATCCGGTGCAGCAGCTGTTTGATCAAAACACGCTGGACCTCACCACCCGCCAGTACATTCGGGAGACCTATCACCATGTTTGCCAATACTGCGGCCGTTACGGCAATAGTGTGGATCACATGAATCCCGTCAGTATCAGCGCCGACAACACCATCGCTAATCTGACCCTGGCCTGTGCGGAATGCAACCAGCTCAAAGGCGACATGCCCTACACCGAGTTTGTCCGCATTGACGCCGCCACAGCGCCGTTGAAAACCGACTTGTGCCGGCTGGAAAAGGTCCAGCGCACATTCAAAGCCCAAGTAACCAGCTTGCAGGCCCAGCTCGCCGCTCTGACCCACCAGGCCGCCGATCCCGCGGCCCCCGGCGCCAATGTCCTGCGCCAGCAGATCAAAATGGCCCAGGACTTGCTGGATCAGGCTAAGTCCGACAGCAAACACATCAGCGCCCAGCGGGCTGCTTATGTGCACAGCCAGTGGGCGGTGGCACAATACCAGGAAGAGACGAGGACGTGGGAGTAA
>SRR1151209_01023 magnesium and cobalt transporter
ATGATTGAGCAGCACCCGTTACCCCATGGTCAGGAATGGATCGCCATGATGACCCCCACCACCGCAGATTATCAGGACTTAGAAAAGAAATACGGCCTGCCGCCGCGTTTTGTGCCGTACCTTAACGACATGCGGGAACGCGCCCGGTTGGAATACGACCAGGCCAGCGGCTACTGGCTGCTGGTGTTCCGCTTCGTGAATAAAGAAGCCGCTCCCGGCGGTTTTTTGACCCTGCCCATCACCTTCGTCTTCAACGCCAGCCGGCTGATCAGTGTGATTCCCGACACTGATGGCACCACCGTCGTCAGGCAGCTGCAGGAAGTGATCCAGAGTGCCGCCGAAGCGGACACCTCGATCTTTATGCTGCTGTTCGACCTGCTCTTCGCCCTGAGTACCGATTACTTCGACGTCCTCGACAACATCAACGACGAGCGGAGCAAGTTGGAAAACTGGCACAAACGGCCGACCAACGAACAAGTCGCTGCCCTCACCCGGTTAGCCCAGCAGACGGTCTATTTGACGACCGCAGAAAACAACAATTTGATTGCCATCCGCCGGTTCATGATGGCGACAAATTCCGTGGCCGATCCGTTGGCCCTGAACGCGGAAGAAAAGGAACGGCTCGACGACGTGCTGATCGAAATTCAGCAGGGCCAGCAGATGGCCCAGATCGCCGCGGACATCATCGACCGGGTCACCGACGGCTTCAGCAATGTCCTAAACAACAATCTGAACGGCACCATGCGCTTCCTCACGGTGTGGAGTATTGTCCTGATGATTCCGCCGGTGATCACCGGGTTCTATGGGATGAACGTTGCCCTGCCCTTCGCCAACCGGCATGATGCCTGGCTTTGGACGATTATTTGGTCACTGGTGGCGATCATTGTATTGGGGATTTGGTATATTTTGTACGATAAACGGCGCCGGTAG
>SRR1151209_01024 ABC transporter substrate-binding protein
ATGAAAAAACGATATTGGCTTTTAACGGTAGTGAGCTTGGTCCTGTTGCTGGTTCTGGGGGCCTGCGGGTCGCCGGCGCAAGGCAGCAGTCAGGACAGTAAGAAAATTAAGATTGGCATCCTGCAATTAATGAACCAAACCGCTTTGGATGATGCCCGCAAAGGATTTATCGCGGAACTCGCCAAGGCCGGCTACAAGGATGGGAAAAACATTTCGATCCATTACGTCAACGCCCAGAACGATCAAGCCAACCTGAAGAGTATGAGTGAAGAATTGGCCAAGGATAAGAACACGGTGAATCTGGCCATTGCGACCCCGGCCGCCCAAGCGCTGCTGCAAGCCGACAAAGATACGCCGCAACTGTTCACCGCCATCACCGATCCCGTGGAGGCCAAGCTGGTGACCAGCTTGCAGCATCCCGGCGGCAATGTCACCGGCACCAGTGATCTGGTGCCGGTATCCGGGCAGATCAAGCTGCTCCACGAATTGTTCCCCAAGGCCAAGACCATCGGCCTGCTATATAACGCCGCGGAACCTAATTCCTTGGTGCAGGTGAAGATGGCCAAAGCGGCCATTGCCAAGTTGGGGCTGAAGAGTACGTCGCTGACCGTGGCCAGCACCAATGACGTGTCCCAGGCGATGACCTCGCTGGCCGGCAAAGCCGATGCCATCTACGTACCGGCGGATAACGTCGTCGCCACGGCCATGGCCACGGTGGGCAAGATTTCTGCCGAAAAGAAGGTCCCGGTCGTCCCCGCCGCCAGCACCATGGTTCCCGCCGGCGGGATTGCCACCAACGGAATCGATTATGAAAAGCTTGGTGCCCAAACCGCCCAGATGGCGATCAAAATCATCAAGGGCAAAAAGGCTAGCGCGATCCCAGTACAATTACCCAAAGATATCACGCTGGTCGTGAATAAAAAATTGGCGAAGGTCTTCAAGATCGACCCCGCCCAAGTCGTTAACGACGCAAAATAA
>SRR1151209_01025 ABC transporter substrate-binding protein
ATGAAAAAGCATACTGGATTATGGCTCGTCTTTACGGTCGCACTGGCCTTGCTGGTCAGTGCGTGCGGTACGAAACAAAGCAGTGCCAGCGGCAAGGATGCCAAGGTGAAAGTGGGTATTCTGCAGCTGATGGACCAGAGCGCCCTGGATCAAGCGCGGAAAGGGTTCATCGCTGAACTGAAAAAGGAAGGCTACACCCAGGGCAAGAATCTGACGATCGATTACGTCAACGCCCAAAACGATCAAGCCAATCTGAAGAGTATGAGCGAGAAGCTGGCTAAGGACAAAAATACCGTGAACGTGGCCATCGCCACCCCGGCCGCCCAAGCTCTGTTGCAAGCGGATAAGGATACCCCGCAACTGTTCACCGCCATCACGGATCCGGTGTCCGCCGGACTGACCACCAGTATGCAAAAGCCCAGCGGCAACGTGTCCGGCACCAGCGACATGGTGCCCGTGGCAGGGCAGATCAAATTGCTCCACCAATTGTTCCCCAAGGCGAAGAAGGTCGGCTTGCTGTACAACGCCGCCGAACCCAATTCGGTTTACGCCATTAAATTAGCGAAGGCCGCCATCAAGAAACTCGGCTTGCAGTCCGTTGCCAAGACCGTGGCTACGACGGCTGATGTCCAACAGACCACGACCGCTTTGGCCAGCCAAGTGGATGCCATCTACATCCCGGCCGACAACGTGCTGACCGCCGCCATGGCCACGGTGGGCAAAGTGTCTGAAGAAAAGAAAGTCCCCGTCATCCCGGCCACCGGCCCGATGGTCAAACTGGGCGGCGTGGCCACTAATGGGATCGACTACACCAAACTGGGCGCCCAAACCGCCCAGATGGCCGTGAAGATCATCAAGGGCAAGAAAGTCACCGATCTGCCGGTGGAAACCCCCAAGGACGTGAGTCTGGTAGTCAATGACCAATTTGCCAAGCTGTTCAACGTGGATCCAGCCAAGATCGTCAATAAATAG
>SRR1151209_01026 ABC transporter substrate-binding protein
ATGGGAAAGCAGCGCAAGTTGTGGGTCGTCTTGACTTTGGCCCTGGCCCTGTTGGTCAGTGCCTGCGGTAATCAGAAAAGCAATGCCAGCGCCAAAGAACCAACAGTGAAGATCGGCATTTTACAGTTAATGGACCAAAGCGCCCTGGATCAGGCCCGCAAAGGTTTCATTGCGGAATTGAAAAAGGAGGGCTACGTTCAAGGCAAGAATCTGACGATTGATTACGTCAACGCCCAGAACGATCAGGCCAACTTGAAGAGCATGAGCGAAAAATTGGCTAAGGATAAAAACACTTTGAATTTAGCCATTGCTACGCCAGCCGCCCAAGCCCTGCTCCAAGCGGACAAGGACACGCCGAAGCTGTTTCACAGCGATCACCGATCCGGTATCAGCTGGCCTGACCACGAGTTTGACGAAGCCCAGCAGCAATTTCACCGGGACCAGCGACATGGTCCCAGTCGCCGGCCAAATCAAATTGCTGCGCCAATTGTTTCCCAAAGCCAGGAAGGTTGGCCTGCTGTATAA
>SRR1151209_01027 ABC transporter substrate-binding protein
TTGCTGCGCCAATTGTTTCCCAAAGCCAGGAAGGTTGGCCTGCTGTATAACGCCGCCGAGCCCAACTCGGTTTACGCGATTAAATTAGCCAAGGCCGCGATCAAGCAGCAGGGGTTGCAGTTCGTCGCCAAAACAGTCGCCACTACGGCGGATGTCCAGCAAACCACCACGGCCCTGGCGAGTCAGGTAGACGCTATCTATATTCCCGCGGATAATGTGTTAACGGCCGCGATGGCCACGGTGGGCAAGGTTTCCGAGGAGAAGAAAGTCCCGGTCATTCCGGCCACCGGCCCGATGGTGAAATTGGGCGGCGTGGCCACCAACGGTATTGACTTCACTAAGCTCGGCGCCCGCACGGCCCAGATGGCGGTCAAGATCATCAAGGGCCAGAAAGTCGCTGACCTGCCGGTGGAAACGCCCAAGGATATCAGTTTGGTAGTCAATTCTAAGTTCGCTAAACTGTTCAACGTCGATCCGGCGAAAATCGTTAAGTAA
>SRR1151209_01028 ABC transporter permease protein
ATGGATATATTGTTATCAAGCATCTCCCAGGGCCTGATTTGGTCAATTATGGCCATCGGGGTCTATCTCACCTTCCGCATCCTGGACATTGCCGATATGACGGCCGAGGGGGCTTTTCCCTTGGGCGCGGCATTTGCGGCCAGCTTGATCGCCAACCACGCCAACCCATGGCTGGCTACCCTGGTCGGGATGCTCGGCGGGATGGCGGCCGGCCTGGTTTCCGGCTTGCTCTACACCCGCTTGCGGATTCCGGCGCTGCTCACTGGGATTTTGACCCTAACCGGCCTCTATTCCATCAACCTGCGGATCATGGGCAAGGCCAACATCGCGCTGCTGAACCAAACGACAGTGTTCAGCGCCTTTGCTCAATTCAGCAGCACGATGCAGGTGATCATTGTGGGCGCCTTGCTGGTGGCGGTGATCATGGTGCTGCTGGTGCTTTTCTTCAATACCGAAATGGGTCTGGCCGCCCGGGCTGTGGGGGATAACCCGGACATGAGTGCCGCTAACGGCGTGCACGTGGCCAACATGCAGATCGTGATCTACATGATCTCCAACGGACTGATCGCCCTGGCGGGGGCCCTGATGGCCCAGTCCAACGGGTATGCGGATATCTCCATGGGGGTGGGGACCATTGTGATTGCCCTGGCGGCGATCATCATCGGCGAAGTGCTGGTGCGGAATCTGACGCTGGGCAAACGGATTTTGACGATTATTATCGGGGCCATCATCTATCGGTTAATTATTGCGCTGGTTCTCTGGGCCGGAGTTGACCCTAACGATTTGCGGCTGTTCTACGCGGCCTTGTTGACTGTGTTGCTGGCAGTCCCGCTAATGCGGCAATTGACCAAGCAATACAATCGGCGCCGGGCGAACCGCATCCATATTAAGTCGTTGAATGCCCAAGCCGCTAAGGAGGACAAGGCAAAATGA
>SRR1151209_01029 ABC transporter ATP-binding protein
ATGAAAAACACACCGGTATTAACCATCCGCGACCTGCATCAATACTTCGAGCAAGGCACGATCAACGAGACCCACGCTCTGCAAGGCATCAACTTAACGATCACCGAAGGCGAGTTCGTGACGATCATCGGCGGCAACGGGGCGGGCAAGTCCACATTGCTTAATTCCATCGCCGGCACGCTGCCCATCGACACCGGTCAAATCGTGTTGGACGGCAAGGATATTACCTACGATTCCGTCACCAAGCGGGCCCGCTGGATCGCCCGAGTCTTCCAGGACCCGAAGATGGGCACCGCGCAACGGCTGTCTGTGGCCGAGAATATGGCCCTGGCCGCCAAGCGCGGCGAACACCACTCCCTGTTCCGCTTCGGCACCCCGCGCTCAGCCCGCCCGCGGTTCCAGGCGGCTTTGAAGCGGCTGAATCTGGGTCTGGAAGATCGGTTGGATACCGAAATCGGACTGCTTTCCGGCGGTCAGCGGCAGGCCATCACCTTACTTATGGCGACTCTGCAAAAGCCGGAGATGCTGCTGCTGGATGAGCACACCGCGGCCTTGGATCCCAAGACCAGCGCCACTGTGCTGCACCTCACCGAGCAGCTGGTGAACGAAGAAGACCTGACCGCCCTGATGATCACCCACAACATGCAGGATGCCATCAAATACGGCAACCGCTTGTTGATGCTGGACCACGGCAAGATCGTGGTGGACATTGCGGGGGAAGAGAAGAAACATCTGACCGTGCCCCAACTGCTGGACTTGTTCAATAAGGCCAGCCAGGAAGAGCTGACCGATGATGAATTGTTGTTGAGTGCGGATAAGTGA
>SRR1151209_01030 RNA polymerase sigma factor SigV
ATGGCAGAAAGCGAGTTGATTAGTCAGGCCCGGGCGGGTGATGGGGCGGCGTTGGGCCGGCTGCTGCGAGCCCGGCAGGATAAACTGTACCGCACAGCGTTTCTCTACACCCGCAATCAAGTGGACGCGCTGGATGTGGTGCAGGAGACGGCGCTGCAGGCCATGCTGAGTATCAAGCGGCTGCGGCATCCGGAATACTTTGACACCTGGCTGATCCGGATCCTGATCAACAGCGCCTATCGGCTGATGCGGAGCAGAAAACCGGTTGGGGACGAAGCGCCCGCTGCAGCGGCGAGTCCGGACAATGCGGCCGTGCTGCATCTGGATCTGGTCCAGGATTTGGCCGCCCTGCCGGCGAAACTGCGGGACGTGGTGATCCTGCGTTTTTTCAATGATTTAACACTGCAGGAGATTGGCCGGGTGCTCCATTTGCCAGTGGGTACCGTCAAGAGCCGGTTGAACCGCGCCCTGCAGGGATTGCGGGAGAAAGGAGAGGTCATTCATGAGTACGACGACGGATTTTCAAAAAATAACTGA
>SRR1151209_01031 hypothetical protein
ATGAGTACGACGACGGATTTTCAAAAAATAACTGAGCAAATCTCAGTACCGACCAACCTGGTGGATGCGGCCATTACCCAAGGGATTCAGGCGGCAGCGCCCCGGCGCAAACAGCACCGGCGCCGGATCACAATCGGCTTGGCAGTTGCGGTGCTGTTGTTGGGGGCTGCCATCACCCCCGCGACCATTCAAGCCGGGGGGATTGTGCCGGCCTTTACCCAGTTGCTGGACCAAGATGGGGCCAAAACGCATAATTTTGACCCGACGATGAACATGTTGCTGGGAAATCTCTACAATCAGGGTCTGTACGACAAAGTGAGCGTACCAGCGCAGAGGGTCGGCAACGTCCAGGTTCAGCCCATTGGTACGCTCAGTACGGCGGGGGTCGTGGCCGTTTTAATTGATTACACCGGGCCGGGCATGCAGCCGGACCAGTTGCGCCGGCAAACCGAGCAGGTGGATCAGGTCAGCGGTCAGCATATTATTGATACAGAAAGCAATTTTGGCAAAGTCGCGCTGGGCCACTACCGGCAAGTGATTGCTTTTTACACCCAGGGGACCACGCCAGTGCAGGCGATCAATCTGCAGCTGGGGAAAATTAATGGCACCCAGCAGACGCTGGCCTTCAAACAGTTGCCGGTGACCCAACGGCCGTTGCAAGAGACCGTGATTAATCAGCAGAGCACGGTGAAAGCAATCCACGGTGGGAAGATCACTGGCCGCTTGACCACCATTCAGCAAGCGCCGGAAGCCCTGGTGGTGAACTATACGCTGGTCTTTAGCCAAGCCGGCCTAAGTGCGCGCTGGTTGGAGAACTACAGTGAAGCCGCCTGGATTTCTGAAGCGACGGTGTATGACGGCCAGAATAATCTGGGCCTGTTGGAACTCGGCAGCGGCGGGCAGTTTTTACGCACCAAGACGAATGCGGGGCAAGTCACCAGCCAGTTTCAGTCCATTTTTGCAAAATCCTACGGCAGCCTAGGCGATCAGCACTCATTAAAGGATGCGCCAGCGGACGCTGTCGTTAAGTTTAGGCTGGAAATTCCGGGCCGGCGGCCGAATCGTCAACAAGTTGGCACTTTCACAGTGCCGGTGCGCCAATTGCTGACTAAGTGA
>SRR1151209_01032 sulfite exporter TauE/SafE family protein
ATGACAATTGGTGTTTTCGTATTTCTGATCATCGCTGGCGTGCTGGGCGGTTTGCTGGCGTCTATCGCCGGTTTGGCTTCACTGGTGTCTTATCCCGCGCTGTTGCTGATCGGTATTCCGCCGGTGGTGGCCAACGTGACCAATACCGCGGGCTTGGTTCTTTCTGGGATCGGGGCCACTGCCTCTTCCACCAAAGAATTGCGGGGCGAGGGCAAGACCGTCGCGGGGCTGGTGGCTCTGGCGTTGAGCGGCGGTATTCTCGGATCGGTGCTGCTTTTGGTGGAACCGGCCAGTACCTTCGAGCACGTGGTGCCGTTCTTCATCTTGATCTCGGGGATATTGCTGCTGGTGTCCGGCCGCCAGGCGGCGCGCAAGCCAATTGCGGCATTGCGGGACCAAAACAAATGGGGAGTGGCGGCTAAGGCATTGGGAATTTTTCTTGTGGGTGCCTATACTGGTTATTTCGGTGCCGCTGGCGGAGTTATTTTGCTGGCGATTCTGACCCTCACTTTGCCCCAACGGTTCGCAGTGTTAAATGCTTTTAAAAACGTCATGGCTTTTATGGCGAATGCTGTGGCGACGGTGATTTACGCCGCCCGGGGCAAGGTGGATTGGCTGCTGGTCATCCCGCTGGGCTTGGGCTTCCTCGTTGGCGGGTATTGCGGCCCGGTCGTGGTGCGTCATGCCCCGGTCAAGCTGCTGCGTACCCTGATTGCTTTTGGTGCCTTTGGCTTGGCGGCGTATCTATTCGTTAAAGCGTATTTCTAA
>SRR1151209_01033 hypothetical protein
GTGGAGACCGGTGATCTGTGTTTGTTTTATGTGCCCTACCCAGAGGATTCAAGCGGTGACGGTAAAACTCGCCCGGTCGCCGTTCTAGCACTGAGCGATGGTGAGCATGTATTGCTGTACACCGTCACAACGAAGTACGAAAATAAATCAGCAACAATTAAGAAGCAGTATGCGCCGATTAAACAATGGCAACAGGCTGGTCTGGATCATCCCTCATGGATTGATGTTCGGGGTGTCTTGCGGGTTCCCCGTAAACTGTTGGAACAACGGCGTGTCCTGTGGGTTGGCCGATTGACGGCCGAAGACATGACTATTTGGGCTGATTACATTCGGCGTCGCGGTAAACGCGCATAG
>SRR1151209_01034 RelB/DinJ family addiction module antitoxin
ATGGATACGAAAGAACCTAAGCGCCGGATTCAAGCTAAAATTGATGCGGATACCGCAGATCAAGTGGACGATGTATTGCGGCGGCTTGGTTTATCCCCGAGCACGTTGGTTAATGCGCTCTATAAGCGGGTTGCTGCAGAGCATCGGATTCCCTTCGAGCTTGAGTTAACACCGCGGGAGGTGGCCGCATCCCGTTTGGCAGATGCCGCTAAGGATGTGCGTGCTGAGACGGCGACAACGCAAGAAGAACTCGATAGGTGGTTGACGGAAAGTGGAGACCGGTGA
>SRR1151209_01035 oxidoreductase
ATGACACAGTACAATTGGGGCATGATTGGGACCGGCTGGATCGCCCACGAAATGGCCGATGCCTTAAACACCGTGAACGGAACGATTTATGGGGTGACCGATGTCAATCCGGACATGTTGAAGAAATTTGCAGCCGAAAAGCACATTCAGCACACCTATGCGACCGCTGAAGCGATGATTGCCGATCCCAACATCGACGTCATCTATATCGCCACGCCGCACACGTATCACTACCTGTATATTAAGGAAAGCCTGAATGCCGGCAAGCATGTCTTTGCGGAAAAGGCGATCACGGTGAACGCCAAGCAGTTTGACGAAGTCCAGCAGTTAGCGCGGGCGAAGCACCTGATCCTCACCGAAGGCTTAACCTTGATGCACATGCCGCTGTATCAACAAGTGCACGCGCTCATCGCTGCTGGTCAATTGGGCGATATCCATTTAGTCCAAGTGAACTTTGGCAGCTTGAAGGACTACGATCCCAAAAACCGCTTCTTCAATAAAGCCTTAGCCGGCGGCGCACTGCTGGATATCGGCGGCTACGCGACGGCCTTTGCCCGCTCCTTCCTCGCTTCTCAGCCCAACGTCACGCTGACCACGGTCAAGTTCTTTGAAACCGGCGTGGACGAACAATCCGGGATCATCCTGAAAAACCCGGAGCAGCAGATGGCCGTGATGGCCCTGTCGCTGCGGGCCAAGCAGCCCAAGCGGGGCGTGATCGCCGGTACCAAGGGGTATATTGAAATCGACAACTATCCCCGAGCCACCGAGGCCAAGGTGACGTACACCGCCGATGCCCACGAGACCACCACCACCGTCCTGCAAGCTGGGAACGCTGATGACGCGCTGGTCTACGAGGTGCAGGATATGCAGCGTTACATTGACGCCGGCCACGATGACGGTCAGTTGCAGTTATCCCATGATGTCAGCCATATTATGGATGACGTACGCAACGCCTGGGGGATGAAGTTTCCCTTCGATTGA
>SRR1151209_01036 ribose-5-phosphate isomerase A
ATGGCCGCTGCCTACATCATTCTAGCCCCGGCCGAACGGGTCACCGCGCAGCTGGCCGCGACTGTGCCGCTATGCCTGGAAGTGGTCCCGCCCTGTGTCTCCCAGGTGCTGCGCACGGCGGCCCAGTTAGGCTTGCGTGCTAAACAGCGGCTGGCCGACAATTACGCCGGCTATGTGCGCACCAGCCTGGGCAACGCACTCATCGATTGTTTTGCGCCGGACTGGGACCAGATTGCCGACCTGAGTACCGCGCTAAGCCAAACAAACGGTGTCATCAGCACCTCGTATTTCTCCGGCTTAGCGTCCCTGATTCTGGCTGAAGCCGCTGATGGTTCAGTCACACAAATAAAGAAAGGTGACAAATAA
>SRR1151209_01037 ribose-5-phosphate isomerase A
ATGAAAATCAAATTCGCAGATGACCGCTTGACTAAATTTATTTTCAAAGATATGATTTATATGAAAATTAGTTTCTCACATAGCCAAAGAAAGCAGATGATTTTTATGACTCCGAGTATTCAACAGGCGTTACGCCTCATCCACCCCGGCATGATCGTCAGTCTGGGCGGCGGACGGCATATGCAAGCCCTCGCCGACGCCCTGGCGCAAACACCGATCCCCGGCATCCAGCTCACCAGTCCCTCGGAATTGACCCTGGCCTATTGTCAGCAGCGCAACCTGCCGCTGGCCGCTGTGCCGACCCGCATCGATATGGCCTTCGACGGCTGCGACAGCGCCGACACCAATCTGAATCTGCTAAAAAGCAACGGCGGCATCCACACTTGA
>SRR1151209_01038 RpiR family transcriptional regulator
ATGGCTGAAAATATTATTGATGTACTTTACAGCAGGCAGCCGGGGCTCTCGGCGACGGAACGCAAAATTGCAGCGGTCATCCTGGCCGACCCGGGCAAGACGGTGAACATGACGATTTCAGAACTGGCCCAGGCCGCGGCGGTGAGTGATGCCTCAGTATCCCGGTTTTGCCGGACTCTTGGACTGGCCGGTTTCCATGAATTGAAAATTGAATTGGCTAAGGTGGCGGAGGATAAGGACAGCTACTATCGCCGAGTGGATCCCAATGACTTGGAAAAGTCGCTGCAAGGCATCGCCCAGAATAAGGTGGCGGAGATCACCGGGACCTTGAGCCGGACGCCGGCAACGACGGTGCGCCGGATTTTGCAGGCGCTGCAAACCGCCAGCATGGTCCAGGTCATCGCGGCGGGCGGGACGTTCCCGGTGGCCGCCGACGCGGTGTATAAATTCAATCAATTGGGCATTCTGGCGGTGGCCGACCAGTCTTGGGAAACGGCGATCGGGCAGACGATGAATTTACCGAAGCAGGCAGTGATGCTGGTGATTTCCAACTCTGGCGAGACTCGGAATTTATTGAAGCAAATGGCGGTGGCCAAGGATCAAGGCGTGCCGGTCATTGCCATCACCAACCGAGCAGATTCGCCGATCGGGCTGCAAGCCGATCTGCATCTGATCACAGCTGTCCGGCAGCAGATTCTGCAATCGGAGTATTTCTTTTCCCGGGTGGCGGCGATGAGCGCCGTGGAGGCGCTGTTCTTGCTGCTGCTGGCACAAAACAAACCGTATCTTGACCATATCAAGCAGCATGAGGCCTTGGTGGCCGCGACGAAGCTGTAA
>SRR1151209_01039 LacI family transcriptional regulator
GTGAAAGTGACGATCAAAGATATCGCCGCCGCCACCGGCTTATCCACCGCCTCCGTCTCCCGCATCCTCAATCAGCGCGGCCGGTATAGCGCCGCTTCGGCGAAGCGGGTGCATGATGCAGCGGCCGATTTGGGTTACTTCAAAAATCGATCGGCTGCGGATTTGGCGAGTCAGCGCAACCATACGATTGGCGTCATTAATTACCCGGCAGAAACGAACGCCAACGATCAAGTCATTCAGGGCATCATGGCAGAGGCCAACCGGCTGGCGATGGATGTGATGATCATGTATGCTGCTCGGGATGATCAAGCCGTTATTGCCAAGACGGTGCAAAATATGATTGAGCGCCGCGTATTTGCGGTCATGTTTTTGTCCGTCCGGCCTGATCAAGCGATTATTGATACACTGCGCCGAGCCAATATTTATCCCCAAGAAGTTGCCAGTGCCAGTGATTTGAATATTTCTTCCATCTCGTCGGACGACTTTCAAATCGGATATCAAGCGACTAATCTCCTGTTTCAGCGTGGCTATCGGCGTGTTGCCTTTGCCGGGGCTGATCCGCAGCAGGATATTATTGGCCGCTATCGCTATGCCGGTTATACCGCGGCTCTGCAGCAACAGTCCGCCGCACCGATTTTAACCATTAAAGGCGTTATAATCTTTGCCCGAATATGA
>SRR1151209_01040 alcohol dehydrogenase
ATGAAATTCATGGCGACGCCGCCGGTTAACGGGGATCTGTCTGAATTGATCGTCTATCCGCAAGATTTCTTATTCCCCATTCCCGATAATATGAGCTACGAAATTGCGACCTTGAATGAACCGTTCTCCGTGAGCATCCATACGGCGCAATTGCTGGACATTAAGCCGGGTTCGTCGGTCTTCATTTCAGGCGGCGGTCCAGTGGGGCTGCTGGCGATTTTGGCGGCCCGGACCTTTGGTGCGAAACAGATCATCGTCAGTGATACGCAAGCGCTGCGACTGTCGACGGCCAAAAAGATGGGCGCTGATCGGGTCATTAATGCCTTAGAGGAAGATCCGCGGGACGTGATTCCGACGCTGACCAATGGCGAAGGCGTGGATTTCGTCATTGAAGCATCAGGCAATCCCAAGGCGGAACGGACGGCACTGCGCACGTTGAAGCGCGGCGGCAAACTGGCATACATTGGTGTGCCGACCACCGATGCCGTTCCGCTGGATATTCTGTTTATGACGGACCACGAGACGCAAGTCTTCGGTGTATTCCGCTATGCCAATACGTATGCGCTGGGCTTGGAGATCTTGGAAAAGAATATGGCGTTAGCCGAAAATCTGCTGACGGATTTCTATCCGTTAAGTGAAACGAAGGATGCGTTGGAAAAGACCCGGACGGATAAGGGCGACTCGCTCAAAGTCGTGATCTACCCGAACGAACAGCTGCGGCATAATTAA
>SRR1151209_01041 XRE family transcriptional regulator
ATGCGAGTGAATATTGGGCCGGTCTTAGTGGTCCAGCGCAAAGAGCGGGGGATCACCCAGCAGGAGCTGGCCGATTTTATCGGCGTGTCCAAGGCGGCGGTTTCCAAGTGGGAAACCGGCCAGACCTATCCGGACATTACCCTCCTGCCGGCCCTAGCGGCTTACTTTGATTTACGGATCGATGATCTGCTGGATTACGAGCCGCAGTTATCAGCAAAAGAAATTCGGACCATTTACGGGTCGTTAAAGGCGGCTTTTGAAACTGATTCCGGGGCCGAGGTGCTGCGCAAGATTCGCAGTTTTGTTCGGCGGTATTATGCCTGTTACCCATTTATTGAACAAATGGGTTTGCTGCTGCTGAACCATTACGATCTGCTGCCCGGCAAAACGAATGAAGAGAAGCTGGCCTTGTATGCGCCAGAGGCGTAA
>SRR1151209_01042 XRE family transcriptional regulator
GTGCGGGTGCGGGAAAACGCCCAGGATGTCGCTCTGGTGACCCAGGCCCGCAGCTTAGAGGGGTACACCTTGATTATGCAGAACAAACCCAAAGAAGCACTGGCGTTACTGGGCACACGCACGCCGGCTTACCTGCCGGCCGAGAGTCTGATCGCCACGGCGTTCCAGCAATTGCAGCAAATTCCAGAAGCCCAGGCCGTCTATCAAAGTGCCCTGGCCCAAGACCTCAGCATCATGATGAGCCAGTTCGCCAATTACTTGCAGCTATTGATAGGGGACCCGCCTAAGTTTGCGGAAACCTATCGGCGCGGCACCGGTGTCGCTGCCGTGTTCCACTTCGACCAGTTGAATCCGGTGGCGATGATGAATTTTCAACTCTCTGCCGCCGCCGGCTTTGCCCAACAAAAGCAGACGGACGCGCTGTTCCAGGCGCTGACGGCCTTTGTCGCGCTGCTGACCCGCACGGTGTTTCCCGTGAAACTGCACGGCGATGACTATTTTGACCAGATCGATGATTGGCTGGACCATCTGGATCTGGGCACGCAGCTGCCCCGAGATCCGATCCAGGTGCAGGCCAGCTTGCGGGATTTTGTGCTGGCTAATCCGCTGCTCGCCCCGTATCAGGATGATCCCCGGTTACAGGCCTTGCAGCAGCAATTGAAGGAGAAAAATCATGAACAATAA
>SRR1151209_01043 hypothetical protein
ATGAACAATAATTGGCAACTGTTGATTAAATATTTACCCATCTTTATTCCCATCATTATTTTGGAACTGGCGCTGATGATCACGGCCTTGATCCATGTGCTGCGCCATCCCCACTACCGGTTCGGCAACAAAGTCTTGTGGATCATCATCGTGGTCGTCTTCCAAATCATCGGGCCAATCGTGTATTTTGCCTTTGGTCGGGGAGACGATTCCCGTGGATGA
>SRR1151209_01044 ABC transporter ATP-binding protein
GTGGATGACATTTTGACCGTCCAGCACGTGCAGAAATCCTTTGGCAGCAAGCACGTGCTGCAAGACGTGGACTTCAGTATTCCGACAGGCTCAATTTTTGGCTTTGTCGGCGAAAATGGCGCGGGCAAGACCACGACGATGCGCATGATCCTGGGGTTAGAAAAGCCCGATAAGGGCACGATCACCGTTGGCGGCGAGCCGGTGACCTTCGGCGCGACCAAGACCAACCGAATCACGGGCTACTTGCCGGATGTCCCGGCGTTTTACGATTATATGACACCTGCTGAGTACCTCGATTTGTGTGCTCGCATTACCGGGATTGATCAGCGCCGCCAGCGGATTGCTAAGATGCTTGACTTGGTGGGCTTAAAGCCGGACAAACACCGCATCCGCGGGTTCTCCCGGGGAATGAAACAGCGGCTGGGCATTGCCCAGGCGTTATTGAATGAACCCCGGCTGCTGATCTGCGACGAGCCGACCAGTGCGCTGGATCCAGCAGGGCGCAACGAGTTCCTGGAATTGCTGGCGTCGTTGCGGGGCCAGGTCACGGTGCTTTTTTCCACCCATATCCTCAGTGACGTGGAGCGGATCAGCGACCGGGTAGGCATTCTCCACGACGGTCGGCTGCAGGCCTGCGATACCCTGGTCAATCTGCACAAGCAGTTCGGTCGTTCCCAAATCGTGTTGACGCTGGCAGATGGGGCGACCGCCCAGCGCTGTCGCCAGGCGTTGGCACCGCTGGCTGTCCAGGCCCAAGGCACAATAGTGACCGTGACGTATCATGGCGATTATGCCGCCACGGTCAGCCAGATCTTACGGGCCCTGGTGGCGGCCAATATTGCGCCGGTTAGTCTGCAGCAGGAGAACCCGACACTGGAACAAATTTTTTTGGAGGTGATTGGTGATGCGCACGCTGCCCACGATGCTTAG
>SRR1151209_01045 hypothetical protein
ATGCGCACGCTGCCCACGATGCTTAGAAAAGAACTGCTGGAAACCTGGCGCACCTATCGTTTTTTGATTCTGGCGGTGGTGTTCTTGATTTTCGCCTTGATGAGTCCGCTGATTGCCAAGCTGACTCCGGACATCATGAAAATGAGTTTCGGTAAAAGCCTGGGTATCCAGCTGCCCAAACCCACCTCGGTGGATTCCTGGACCCAGTTCTATAAAAATATCGGGCAGATGGGGATCTTTGTAGTAGCAATCATGTTCAGCGGCACCATGAGCCAAGAGCTGGGCAAGGGGACGCTGGTCAATCTGGTCACGAAGGGCCTGCCCCGCTGGGTCGTGGTCTGCAGCAAATACATCAGTCTGCTGCTGCAGTGGGTCGTGATCTTAACCGCCAGCTTCCTAGTCACCTGGGGGTATACCGCTTATTATTTTCCAGACCATAAGACGCCCCACATTTTCTTGGGCTTTTTACCGCTGCTGGTGTTTGGTATGTTCTTTCTGGCGGTGATTCTATTCGGCTCGACTCTGGCTCGGAACAGTTACAGCGGGTTGCTGTTCACCATCTTAGTGATGGGCGTGCTGTACCTCGTGAATCTCTTTAAAGCCGCGCAGAACTATAACCCAGTCACATTGATCGGCGATAATATGGCCATTACGCAGGGGACGAAAACGCTCGTGAAGATCGCCCCTGGGATGGCCGTTGCAGTGGCCGCCGCGGTTTTGCTGGTCATTGGGGCGGTGGCGGTGCTGAACCGGCAAAAGCTGTAA
>SRR1151209_01046 lipase
ATGAAAAAGGTACTGCGTATTTTGCAGGGTGTTGGCAAATGGATCGGTTTTGTTCTGCTTGCGTTTATCACCGGGATCGTGATTTCATTTAACACGTCGCCGAAGCTGTTCGCCTCCATCATCGCCCAGATGCCGCAATTGGCTAAGGTGGGCCCGTCGCCTAAGGGCTGGGACCAGTATGAACGGCAGGTGGACCGGCACAGCAACATTGTTTATCCGTCTAAGTACACGAACAACACTCTGGATCTTTATACACCAAAGAAGAACCAGGGCAAGCAACCCGTGATTTTTTGGCTGCACGGCGGGGCGTTTGTCTCCGGCAGTAAAGAAGGCGTGCGGGATTGGGCCTATAAGATGACTGCGACCCAAGGCTATAACGTGGTCGCCGTTAATTATGAGGTCGCGCCTAATGCCCAATATCCCGACCAGATCATCCAACTGGGCGAAGCGATCCACTACTTCCAGACCCATCAAGCGGACTATCCGCAGTTGGACATGAACAAGATCATTATTGGCGGCGATTCCGCGGGGGCCCAGATGGCCTCGCAGTATATCGCCGTCCAGACCAATCCGGCGTTAGCCAAAGATATGAATCTGACCCCGCAACTGCAGCCGAAGCAGATCATTGCGGCGGTGCTTTATTGCGGTCCGTACGACATGAAGACGCTGGCCACGATTCAAAACAAGGCCTTGCAGTTCATGGTCAATCAGCTCGGCTGGGCCTACATGGGCAGCCGGGACTGGGTCAACTCCGATATGGCGCGCCAGTCGTCAACCACCGATCAGGTCACAGCGGATTATCCGCCGACGTTCTTAACAGACGGCAATACCGGCTCCTTTGAAGGCCATGCCCAGAAACTGGCCTCGGTCTTGAAGGCCAACGACGTACCGGTGTCTACGTTATTCTTTGGGCCGGACCAAGCTGTCTATCATGAATATCAATTCACGCTGCGCTCGAAGAACGCCCGCCTCGCCTTCGACCGCACGACCGAATTCCTTAATCAGTATCGCTGA
>SRR1151209_01047 NADPH-quinone reductase
ATGCGGACACTGGTTTTGATTGGTCACCCAGATTTGGCGCATTCGGGTACCCAGGCTTTTTTGCAGGCGGCGGCCGGGGCGCTGACGGATGCGGATGAATGGGATATCAGTGCGCAAGGGGTTCCAGATTCGGCTGAAATTTTACGGCTGCAGGGTGAAATGCGCCGTTATGACCGTTTGATTTTTCAATTTCCTTTATACTGGTATAGTATGCCTGGGGTCTTCAAACAGTGGCTCGACACTGTTTGGACGACCCCCTTTGTGTCTGGCCGGCCGGGGGAAGCGCCCCCCTTGGCTGGTAAGGAGCTGGGCATCGTTGTGACCTTCAGTCAGGCGCAGCAGGATTACCGGCTGGGCGGCCGGGAACATTTCTCCCTCAGTGAATTATTGCGGCCCATCGCCGCCTTGGGGCTGGCCGCTCAGATGCAGCTGCTGCCGATTTTCCCAGTGGCCCAATTTGGGTACATGACGGAGCGGGAGCGCCAGCATCTGCTGGTCACCTATGCCCAGTACCTGAGCCTGCCCGCTGGCGCGCACTTCGCGGACCGGGCCCAGTGGTTTGCGGCGTGGCTGACGCAGCATGCCAGTGCCCACAGCGATTACGCGGCTTGGGCGGCGGCCTTGACCGCCCAGCAGGAACAGTTGGCGGATTTACATGATACGTTGGCTGAAATGCGGCGGGAAGAGGATGATGCGTTATGA
>SRR1151209_01048 hypothetical protein
ATGATGGACGGAGAACAACAGGATGCGCTAGCGGCCGCGATTCGCCAGCAGGCTCAGCAGACGGCAGATTACGTTGACCGGGCGGTACTGCTGGAACTGGCGGATTTTGCGGAAGCTCAGCAGCGGCGGATCACGACGACCGGCGGCGAAATCGATGGCCGGTCGTGGGACCACGAGCACTGGTAA
>SRR1151209_01049 GDSL-like lipase/acylhydrolase family protein
ATGGAATGGGCAGCAGGGAGTGCGAACGGATTATTTCCAGGGATTCATTTTAGCGGCCGCTGGGTTCCCCGGCGCGTTGCTGAACAGGACGCGATGTACACGACGAATCTCGGAGCCGCCGTTCATTTCCAGATCGACGGAGCCAGCAGTACGATTCTGCATTTTGTGGAAACACCGCGGCCGGTTCCCAGTCAAATTGCAATTCAAATCGACAACGGCCGGTTTGTGCATTTTGATTTGGCCCACGCGCCGGTGATGCTGGCCACCACGCCGACGACCCACCAGATCACGGTGGTAATGTCGGGGAATACGGATAACGATCCGGTCTGGGCGGCTGACCAGGATGCAGGCTTTGCCTTTACCGGGGTCACCCTGCCCAACGGCGGCTGGTTTTCACCCATTGTCCCGGCTGGCCCGCGCCTGACGTTCATCGGCGACTCGATCACTGCCGGCTGCTGGGTGACGGGCAAGCAGCCCAGCAAAGACTACCGGGCGGAGGCCGCGTATGCGGCCCTCACGGTAGCCCGCATGGATGCGGAAGAGACCCGCATTGCCTACAGCGCCGCCGGTGTCTTGAAACCAGGGACCGGCGGGGTACCCCGGGCGAAGGATTTCTTCGGCCATCTGGATAACCGCACGCCCTGGGCGGTGGATACCGATCAGGATGCGGTGATCATCAATCTGGGAACCAATGATCGCAGCTATCCTGTGGAGCAGTTTGTCACAGCGTATGTCCGGTTAGCCGCCCAACTGCGGGGCGTCTACGATGATGTACCAATTTTTCTGATGATCCCGTTTAACCAAGCCTTCGCTGAACCGATTCGGCATGTGGCCAGGCGGGGGGATCGGTTGCAAATTATTGAAACCAAGGATTGGGACATTGATACAACCGATGGCACTCACCCCAATCTGGCCGGCCACCAAACCGCCGCGACCCATTTGGTGGGGGTACTGCAAAAGGCGCTGCAGCATAATGAATAA
>SRR1151209_01050 pyridoxamine 5'-phosphate oxidase
ATGGCAAAACTGACACCAGAGATGAAGGACTTAATGGATAAGGGCTTGGCTTTCTTGGCCACTGCCGATGAAAACGGTAATCCCCAAGTCGGTCCTAAGGGAACCATGCGGGTCTATGATGATGAGCACCTGATTTATAACGAAGAAACCGGCCGCCAAGCCTGGCACAATATCCAAGCCACCGGCAAAGCCGCCGTGGCGTTCCACCCAACCCCCGGTCTGAAGGGTTTCCGGGTTGAGGGCAAGGCCAAGACATACACTGACGGCCCGTACATGGAAGCCGCCAAGAAATTCGTTGAAGGAACTAAATTGCCGCAACCGCTAGCCGCGGTCATCATCAATGTCGACCGGATCGTCACCTTGGATGCTGGTCCGGATGCAGGTAAAGAATTGGCCAACGATCCAGTTAAGGATTAA
>SRR1151209_01051 glyoxalase
ATGAGTGAAACCGCATTGGCACCAGAAAATACGCTGCTCGGCGTGCACCACGTCACCGCCATTACCAGTGACGGTCAAAAGATTTTTGATTTCTTCGCCAAGATTCTCGGGATGCATTTAATCAAGAAGACAGTGAACCAGGACGATGTGGAAACGTACCATCTGTATTTCACAGACGATAAAGGGGCACCCGGTACGGATATGACATTCTTTGATTTCCCGGGGATTCCTAAGGGTATCAAAGGCACCAATTCGATTTCCCGGGTTTCTTTCCGGGTTCCGAATGACGCGTCCCTGGCGTATTGGGAAAAACGGTTCACGGAGCACAACGTGGCCCATGAAGCGATCAGTACCCAATTCGGGACAAAGGTATTGCCGTTCCATGATTTCGATGATCAGCAGTATCAATTGATTTCTGACGAAGACAACCACGGGGTGCCTGGCGGTACGCCGTGGCAAAAGAGCCCGGTGCCGCCGGAATACGCCATTCAGGGGTTGGGCCCGGTGCGGGTCACCGTCTATAATCAGGAGCACTTTGACCTGTTGCTGCGGACCGTGATGGGCTTCAAGAAAGTAGCCGAAGAAGGTCAGTTTACCCTGTATGAAGTCAACGACGGCGGGCATGGCGGTCAGATCGTCCTGGAACATCGGGAAGACCTGCCCCTGGCGGTTGAGGGCTACGGCAACGTGCACCATGCCGCTTGGCGGGTTCCGGATCGCGGCCGGTTGGATTATTGGATCTATCGGTTGAAGTCCTTCGATTTGCCCCAATCGGGCTATATTGATCGCTATTACTTCAAGTCTGAATACTTCCGGGCCGCACCGCAGATTTTGTTTGAAATTGCCACCGACGGCCCGGGCTTCTTGCAGGATGAAACCTACGAAGAAGCCGGCATTCACTTGGAGCTGCCGCCATTTTTGGAACCCCATCGGGCAGAGATTGAAGCCAATCTGCACCCGCTGAACACGGAGATATAG
>SRR1151209_01052 phospholipase/carboxylesterase
ATGGCCCAATTAGGAGACGATATCTTTTATACCTACCGGCCGGGGCGGGCGAACTATAGCCCGGTCCTGCTGCTGCATGGGACTGGCGGAGAAGAGACTGATCTGCTGGACATTGGCGCTGGCCTTTTTCCGGACAGTCCGTTGATTGGGCTGCGCGGCCGAATCCAAGAAAACGGCCAGACCCGGTACTTCAAACATACCCCCACGGGCGGTTTTGATGCTCAGGATCTGGTCGCGGGTGAAAAATGGCTGCTGACGAGTATGGTGGCGTTGTTGAAACACCTCGATCTGCCGGCGGCGCCGCCGATCGTGATCGGATATTCCAATGGGGCGAACATTGCAGCAGACTTGATGCTGCGGGGCGGGCCGGTGTTCCACGCGGCGATCCTGCTGCATCCGATGGCCGTCAGTGATCCTGTGCCTAAACGGGATAATACCCCGCTAGCCGGGATTCCGGTCTGGCTGTCCCACGGCCGGGACGACCGCATTGTCCCGGTGCCCACGTTCAACGCCTTGGTCCAGGGTTTCATTGACCAGGGCGCGCAAGTCTTTACCCATGCCAGTGATGCCGGCCACCAGATCACGCTGCAAGAAATTGAAGGGGCCCGCCTCTGGCTGGACCGGTTCGAGCAGCCTGACGATACTGAAGGAAAGCAGTGA
>SRR1151209_01053 NADPH:quinone reductase
ATGCAAGCATTCGGCTTTGACAAGTTTGGCGGACCCGCAGTCTTCCAAACCATTGAAAAACCAACCCCGACGCCCAAAGCGGGCCAAGTCGCCATCGACGTGATCGGTTTCGGCTTTAATCCCTATGACGCCAGCCTGCGCCGCGGCGATCAAGCCACGGCCCGGCCGCTGCCGTTCCCGATCATTCCCGGTCAGGATGTCGTGGGGAAGATCAGTGCCCTCGGCGAAGGGGTAACAGACTATGCCATCGGTGATATCGTAATGAATCATCGGCCCCTGCGCGGGTACTCAGAAGTAGTGACGGCTTCTTTGGCCAAAGTGGCGCCGAAGAGTGCCGCGCTGTCCTTCCTGGATGCAGCCGCTCTGCCCAATGTGGGCACGGTGGCCTATGCGCTGGTCCATTCTTTGGGCCAGTTGCAAAAGGACCAAAACGTCGCCGTCATTGGGGCCAGCGGCAGCGTGGGCAGTCTCGCGGTACAGCTGGCGAAATATGCTGGCGCCCGCGTGCTGGCCATCGCTGGTGAACGGCACAAAGATTTTATTCATTGGCTGACGCCGGACGATGTGTATTATTACGACGGGGTCGCCAAGCGGGATAACGCTTGGGCCCAGCGGTTCGACTTGGTTGTTGACGCGGCCACTATGGGGGCCAACGGCGAGTTGGCCGCTTGGCTGGTAAAACCGACCGGTATCGTGACCACCGTGGGCGAAACCAGCACGATCCCAGCCGCGGCCGGGGTGACCCTCCGAGCGGCCGGCGGCAAGCAGGAGACCAGCGACCATGATATTCTCATGTATTTCAATCACATGGCGGATACCTATGGCCTGACGATGCGCGTTGCCGACAATGTACCATTCAGTGCTGCCGGTGTGCAGCAGGCCCATGAACTGCTGGATCAAGGCGGCGTCCCGGGTAAGATCGTGGCGGTCCGGCCCCATGGCCGGACAACGCGGCACACCCCGCCGAAACAATAA
>SRR1151209_01054 alanine racemase
ATGGTTGTTGCCCAGCACCGGCCCACGCGGCTCCTCATTTCTCAGCAAGCCATTGCCCATAATCTGGCCGTTGTGCGGCAAGTGTCCGGTTGCCGCACCATTTTTATGGCCGTGAAGGATAACGCCTATGGCTTCGGCTTGCTACCGGTCAGCCGGGCCGTCCTCGCCGGCGGCGCTCAAGGATTGGCGGTCGCGGTACTGGACGAAGCCCTCGTGCTGCGCGCCGCCGGGATCAAAGCGCCGATTCTCATCATGTCCTTGCTGGATGCCCAATACGCCCAAGCGTGTGCTGACCAGCAGGTCATTGTGACCGTAGCCAGTTTGGCCTGGCTCCAAAAGGCGCAGCACAATCTAACCGGTACCGCGCCGTTACTGGTTTCCCTGGGCCTCGATACAGGGATGGGCCGCATCGGCTACCGGAACCGGGCAGAAATTGAAGAGAGTATCCGCTTTCTGCAGCAACACCCAACCCAATTTACCTACCAGGGGCTCATGACCCATTTTGCCGATTCGGACACCGTTGAAACAGATTATTTCCACCGCCAGGTGCGCCGCTGGCACGCCCTCACCGATGGCCTGCCCCAGCCGCCCATGGTCCACGTGGCCAACTCCGGCGCGGCGATGTATCACGCCGCGGAAGTTCCCACCGATATCATTCGGATCGGGACCGTGGTCTACGGGATGGAACCCTCAGAGGGCACGATGCGGCCCGACAATTATTTAGACCAGATCGAACGGTTGGAATCAGAATTGATCATGGTCAAGCACGTGCCCGCCGGTGAGGGCCTGTCGTACGGTCATACTTATGTCACCCCCACCGCGGAATGGATCGGCACCATCCCCATTGGCTACGGCGACGGGCTAAGCCGCAAATTGAAAGGCTTCCCGGTACTGATTCAGGGTAAAAAATGCCCGATTATCGGTAATCTGACCATGGATGCGCTCATGGTCCGCCTGCCCGGACCGCTGCCGGTCCATACGCCAGTCACCCTGCTTGGACAAGATGGCGATCAGCGCCTAACGTTAACCGATATGGCCCAGCACACCGGCATTGCACCGTGGGAATTATCGATTCGGTTTGCAGAACGGCTGCCCAGAAAATTAGTGGACTAA
>SRR1151209_01055 hypothetical protein
GTGGAGATCAGAAAACAAGTTATCGGCGGGGCGCTTTTGCTGCTGTCGAGTGCAGTTTTGGTCGGGTGCGGGTTGGAGAACCGCACGGCGAAGGCGGCGACCGTGCCAACGACCAAGAGCGGTCAGCATTGGTCGCGCTTTGACCGAAAATTGGCGGCCGCTCAGCACACGGCCCAGAAGAATCGGCCGGCCTTGCTGGCGTCACTCAAGGGATTGAAACCATTTTACAGCGGGGCCGCGTATCTGACACCGCTGCCGACCAAGCTGAAAGACGAAGCCCAGCGGGTCAACACCGTGCTGCGCGGCACCATTGTGCAGACCGACTTTGCGACTTTTGATAACACGGCGCATACGGTTTATACCCTTTTTGTGACTGCCGTGTACCAGGGAGACAGTGCTCTCAAGGGTCAGGAAATCGGTGTTCTGACTGCTGGCGGCAAGATCAAGAATGCCGAGCTGGATGCCCAGCGCCAACAGAAACTCACCGCTGCTGAATTGCAGGGAAGTACGCTCGTCCGTGCGGATGGGTTTGACCCGGCCGCCCCAGGGGACGAGATCGTTGCCACCCTGACCAAAGTGCACAGCAATGCGTTGAACCGAGCCGTCTACTTAACGATTTCACCGGAATGGCTGTTTTATCGGACCGCCGGGACCCAGAACTTTGTCATGCATGCCCAGCCCATCGCAGCAGAACTGACTGCGGGGCAGCATGGCACGGTGGTCACGCCTGATACGGACAGCGTGAAAGGCCGAATCGTGGCGGATGTGCAAGAGATGGTGGCGACAGGCCGTATTCCTGAATAG
>SRR1151209_01056 amino acid ABC transporter substrate-binding and permease protein
ATGTCGCATTTACTGAAGAAGTGGTGGGCCGCTCTAGCGGTCCTGGGGTTGTTAGGAATCGGCTTGGCGGCTGCGGGCAATACGTCCGTGCAGGCCGCCAGCAAGGACAACGGCGAGTTCAAGGTCGGGATGGAAGCGGGCTATGCCCCGTTCAACTGGACCCAGAGCGACAGCAGTAATGGGGCCGTGAAGATCCAAGGCTCTAACGAATACGCCAACGGGTATGATGTCCAGATCGCCAAGCGGATCGCCAAGGCGCTGGGCAAAACACCGGTGGTCGTGAAAACTGACTGGGACGGCCTGCCGCCGGCCTTAACGTCCGGCAAGATCGATGCCATTATCGCCGGGATGTCCCCGACGCCGGAACGGCGCAAGACGATCGACTTCACCAATACGTATTATGTTTCCAACATGACAATGGTCGTCCGGAAAGACGGCAAGTACGCCAATGCGACATCATTAAAGGACTTCAAAGGGGCCAAGATCACTGGCCAATTGAGCACGTCGGATTACGACGCCATTTCTCAAATCAAAGGGGTTATCAAGGAACCGGCGATGAATAACTTCCCAGCGATGCGGGCGGCCATTGAATCCGGCACGATCGACGGCTATGCGTCCGAAGTGCCGGAAGGCAGTTCCGCGGAAGCCGCGAACCCCAACTTGAAGATGATCCACTTTGCCAAGGGTCAAGGGTTCAAGACGAATCCTGATGAAAGCGACTTGGCCATCGGGGTGCGCAAGGGTTACGAGTACAAAGCTAAGATCAATGAAGTGCTGGCCGGAATTTCCCAAAAACAGCGGACTCAGATCATGAACGAAGCTGTGGCCAATCAGCCGTCCACCGGCAACACCGGCAATTGGTTCGTCAGCTTGATGAAACAATATGGCGGCATGCTCCTGCGGGGCACCGGAATGACCATTTTGCTGGCGGTCGTTGGGACCTTGGTCGGCTTCATCATCGGCCTGCTGGTCGGTATCATTCGGACCATTCCCCGGCCGCGCTCCATGGGTAAGCGGGGCATCCTGCGTTTCTTCGATTGGCTGCTGGCCGTGTACATCGAAGTCTTCCGGGGCACGCCAATGATCGTGCAAGCGGCTGTCCTTTATTACGGCTCTGCCCAGGCGCTGCACTTGAGTATCGACCGTACCGCTGCGGCCCTGATCATTGTGTCCATCAATACCGGGGCGTATATTTCTGAAATTATTCGGGGCGGTATTACCTCCGTGGATGATGGCCAGTTTGAAGCCGCCAACGCGCTGGGCATGACCCATTTCCAAATGATGCGCAAGGTCATTTTGCCCCAAGCCGTGCGGAATTCGCTGCCGGCCGTGACGAATGAATTCATCGTGAACATTAAGGATACATCGGTACTGAGTGTCATTTCGGTTTCTGAACTGTTCTTCTCCGGGGAAACCATCGCCGGACAGAACTTCCAATTCTTCCACACCTACCTGGTCATTTCGGGCATTTACCTGATCATGACCTTCACGATTTCCCGGCTGTTCCGGTTGATCGAGAAGCACATGGATGGGCCGAAGAACTATAACGTGATGAATAATCAGATGCAAGTCGAGACGCCGAAGATCGGTGCCGCTACAAGCAGAAAGGACGCCTAA
>SRR1151209_01057 amino acid ABC transporter ATP-binding protein
ATGAAAGACGAAATGATCTTGCAAGTGCAAAACCTGCATAAGTCCTTTGGAGACCACGAAGTATTGAAGGACATCAATTTGGATGTGCATAAGGGCGAAGTCCTGTCGATCATCGGAGCGTCCGGCAGTGGGAAATCCACCCTGTTGCGGAACATCAATCTGTTGGAGCAGCCCACCGGCGGCGATATTCGCTTCCATGACCAAAGCATCTTAGCCGATGATTTCGATGTCACGCTGTATCGGGCGAAAGTCGGGATGGTGTTCCAGAGTTTCAATCTGTTCAATAACCTGGATGTGCTGCAAAACGTGATGGTCGGTCAGACCACTGTGTTGAAGCGGAATCCGGCTGAGGCTAGGTCGCACGCCATGGCGTTATTGGAAAGTGTCGGTATGGCACCTTACGTTAACGCCAAGCCGGATCAGCTCTCCGGCGGCCAGCAGCAGCGGGTTGCCATTGCCCGGGCGGAAGCGATGGATCCAGAAGTGCTGCTGTTCGATGAACCGACGTCAGCGCTGGACCCCGAGATGGTGGACGAGGTCTTGAACACCATGTCCAAGCTGGCCCACACGGGACTGACGATGGTCATCGTCACCCACGAGATGCAGTTTGCCCGCGATGTGTCGGATATTGTCTGCTTCATGAATGATGGGGTGCTGGCCGAAAGCGGCACGCCAGAGCAGATCTTCGAACATCCGCAGGAACAGCGGACGCAGGAGTTCTTGAAGCGGTATATGAGCCGCGTTTAA
>SRR1151209_01058 hypothetical protein
ATGGGCATCATTAACCGCATCACCAAGCGGACCTTACAGGGCGAAATGAGCCGAACCCTGCTGACAATTTTCTCCATGGCCATCGCCGCGACGCTGGTCGTGGCCACACTGGTGGGGTTTACCAGCGGTCAAGACAGTCTGTACCACGCTGAACTGAAAAAGACTGGCGGCATGCAATTTGTGATTCGCGATGTCCCCCGGCAAAAGGCGGCCAAATTACGGCAGAATGCGGCAGTGGAAAAGTCCCTCGTCTTTGCCAACTTGGGCCGGTTCACCTTACCCAAAGCTCAGGGGGTCACGGACCCAACGACCAAAACGCCGGAACTTGTGGCCATGGATCAAACGGCGCTCACGCAATTGGCCAAACCGTTGCTGGTGAGCGGCCGGGTGCCGCGCAATCATACGGAACTAATTGTTCCCACAGATCTCGCGACAAAAAAATCGCTGCTCGGCCGGTCACTCACGCTCCAGACTGCCCATGGCGAGCAGCGCTTCACCGTCGTCGGTACGATGTACGGCTACCAACAGTTTGCCCGGGCGTACCGGTGGATCACCGCGAACAGCACCCGCAGTGCGGCCACGCCAACGGTCCACGTCGCTGGCAGCCTGACCTATATCAAACGGCTGCGCAGCCAAGTGGCGGCGTTGGCCGACCAGGCTGGCGTCAGGCCGCGTCAAACTAATATTATTTATAACGAAAATGCGCTGACGATCATCGGCGCTGGCGCCGATCTGATCAATAAAGCCGCCCTAACCGGCTTCTTAGCGCTCGTTCTGACCGTCATTGGGTTGGCCGCCGGCATCATGATTTATACCAGTATCAACTTGGGTGTGTGGGCCCGAATCCGCCGCTATGGCCTGCTGCGCTCGCTGGGCGCCACGCCCCAGCAGATCCGGCAGCTGGTCTATCGGGAGGGCATCGCCTTGATTCTGCCAGCCTTAGCCATTGGATATCTGGCGGCCTTGACCGGTCTCGCCGGGGTCATGGCCTTTCTCAACCGCCGGTTCGCGACGGCCGGCATGACCGATATGCACCTCGTCCTCAGCCTGCACCCTTGGCCGCTGCTCGGCAGTGCCCTCTTCATGCTGCTGATCACATTCCTCGCCAGTGCCCGGCCCGCCGCCAGAGCCGCCCGGGTCGCACCCTTAGCCGCCGTCCGGGACAATCTGACCGCGCCGCATCTGCGTGCCCGACAGTTACGGCCCAGTGTGTGGCAGCGGCTGATGCCCACCCCCTGGGGGCAATTGGCCGCGAAGAATTACCGGCGCAACAGCGGCACCCGCTGGACGATGATCACCGCGTTAACGGTCTCCATTGTCATCTTTATCGGCTTCACCAGTTTTATTCGGACCGCACTGCAGAGCACCACGATCACTTATGGAACCGGCATTGATGTATCAACCACGCTGGTCAATCGTACCGATACGGCGCCTTTGCAGCAGCTGGCGACGCTGAAAAATGTTAAAGAAGCCGCGGCGGTGCAGGTCAGTACCATCCAATTAGCCCAGCGGCCGCAGGGATTCAGCGATATCTACCTCAATCTGCTGGTGGTGCCGCCAGCGGTCTTTGCCCGCTACTTCGATAATCAAATGACGCTGTTGAACCGGGCCGTTACCACAGTGTCCGCCAGCGGTCAGCATCAAGAAAGCTGGGTCTTTCCCCAAACGGACCCGCCTAGTTCGCTGATCATTGACCGGCACACCACGCTGCCCGTTGCCCAAATGATCAAGGCCAATACGCCCATGTTGCGCGCCATCGCCAGTGATCGCGGCGGCCTGGTCATTTCCCAGGCCCAGTATGCGCGGCTCCGCAAAGGCCGCAGCAAAACGATGACCCCTGTGAGCGAAACAGTCTTCATGCTGCGCTTGCGTGATTTGAAGAAACACCGCAGTACCGCCGCCCAGGTGCAGGAGATCCTCTCCGCGCCCTACATTTACGATCGGATCGCCGAAAACCAAACCAACGACAGCTTTATCCTGGCGGCGCAAGTGATCGTCTATAGCTTCCTCGCTTTATTAAGTTTGGTCAGTCTGGCCAACATCATCGATCATATCTTTGCCAATCTCTTGCAGCGCCGGGGTGAACTCGCGATGCTGCAATCAATCGGCACGACCCCGGCCCAAGTCACCCGCATGCTGGGGCTGGAACATGGCCGGCTGCTCCTGATCAGTCTCTTCTGGGGCAGTGTGCTGGGCGCTGCGCTGAGTTACGCGCTGCAACGCCAAATCGGTTCGATTTATGAATTGACTTTCGTCCCACCCTGGTCCGAAATCGCCGCGGTCGCCCTCGTCCTGCTCACCGTCTGGCTCGTTTTCGCAGGCGTCAGCTACCGGCTGGTGCGCAAACAAAACATTGACCACTGGCTGCGCTTGACGTGA
>SRR1151209_01059 hypothetical protein
ATGATGGGCATCATTAACCGGATCACCAAACGGACCTTACAGGGAGAAATGGGCCGGACACTGCTGACGATTTTTTCCATGGGGATTGCGGCAACGCTGGTGATTGCGACACTGGTGGGATTTACCAGCAGTCAGAATAGTTTGTATCAAAAACAGTTGAAAGACACCGGCGGTATGCAATTTGTGATTCGTAACGTGCCCCGGGAGAATGCAGCAAAACTCCGGCGCAATACCGCATTTCAAAAATCGTTGGCCTTCGCCGAATTAGGCACGATGAAGCTGCCTAAAAGCATTGACGCCTATGGTGATCCGGCTCCCTTGGTGGCCATGGACAAAGCGGCACTGCGCCAGCTGGTCCAATCGCAACTCGCGGTTGGCCGGTTGCCGAGAAAGAGTACAGAGTTAGTCATTCCCACTGACATTGCCTTGAACCAATCCGCGATCGGCAAAACCATCACAGCGCAAACTCAATCTGGGCCTAAACGCTTTACGATCGTTGGGGCGATCAACAGTTACCATACGTTTAACAGTGCCTATTTATGGATCACTTTCACCAACTCGGTCACATCGGCCAAAACGGTCAGCGTGGCCGGTGCATTGACTGACGTTAACCGCATTCGGTCACGCCTGGCGGCACTCGCCCAGCAAGCTGGAGTCAAGCGCCCCAAGGAGAGTGTCCTCTTCAACGAAAGAGCATTGAGCCTGCTGGGCGCCGGTACTAATCTCACCGATAAGGCGACCATTGTCGGCCTGCTCACCATAATTCTGACAATCATTGGGCTCGCCGCTGGCATGATGATCTATACCAGCATCAATCTCAGTGTCCGTTCCCGTATTCAGCGGTACGGCTTATTGCGTTCCATTGGCGCAACACCGAAACAAATTCGCCAACTCGTTTATCGAGAGGGACTAATTTTGGTACTACCCGCACTGCTTCTTGGCTACCTCGCCGGCATTGCCGGCCTAGCGGGGGTTATGGCCTTCCTGAATCAGCGCTTTGAAGCGAGCGGTGCAGGAATCCATCTGTACTTGACGATGAGTCCTTGGCCTCTGGTCGGCAGTGCGCTATTCATGATTTTAATCACGTTTTTGGCCAGTGCTCGGCCAGCCGCCAGAGCCTCACGGGTCGCCCCTTTAGCTGCTGTCCGGGACAACATGAGTACCGCCCGCTTACGTCAACGTCATTTGCGCCCCGGTCTTTGGCAGCGGCTGATGCCGACGCCGTTGAGCCGGCTGGCCGCCAAGAATTACCGCCGTAATGGCGGCACCCGCTGGACTATGATCGTTACTTTAAGTATCTCAATTTTGATTTTTGTCGGCTTCACTAGTTTTGCCCGCTCCGTTTTACGCGACACCAGTAATGATTATGGCGGGAGCACTGATATTATTGTCCAGGCCAATAACATTGCGATGGCCGGTCCGTTAAAACAAATCCAGGCCTTGCCAAACGTCAAAAGCGCGATTGCGGTTAAGCATGATAGTCTGGAATTGAAGAAACGAGAATCTGGATTCGACAGTCAGTCCGTTGACGTCTTGGTTGTCCCCAAAACCGTCTTTGCCCAATACTTCAACAACCGCATCACGCTGCTTAACGCTTCTCAACGGCGAATGAACAAGGACGGCCAGCGCAAGTTATACTGGCTTTTCCCGGCTAATTTTACTGGGACACTAACATTCGCCCACAATACCGCAAAGCCCATTACTATCGCGCAAACTGTCGCAGCGGATACCCCGATCCTGCGTTCCTTGGCTAATTACAGTGGGGGTATCGTCATTTCAGAGGCGTACTATGCGGACCTTTTTAAAGGGAAAAGGAAAAACCCAATCCTCCAAACTGGATTCTATATTCTGTTAAAAGATCGTAAAAAGCATGTGCAGACAATGGCTCAGCTGAAACAAATTATTCCCACCAGCAACTCCTCTGACCAAGTCGCAAACAATGAGCAAAACACCAGTATCCTGACCGCGCTACAGGTTATGGTTTATGGTTTCCTCACTTTGCTCAGCTTAGTCAGTCTGTCAAATATCATTAACCACATCTTCGCCAATCTGCTTCAACGGCGGCGCGAACTGGCTATGCTCCAAGCCATCGGCACTACCCCCGCCCAGGTCACACGGATGTTAGGGATTGAAAATAGCCAGCTATTCCTTACCAGTCTCATCTGGGGCAGCGTGCTGGGGACTGCGCTCAGTCTGATGCTCCGCCAACAGCTTGGCGGTGCTTACGAGACGGCTTTCACCCTGCCCTGGCTGGAAATCGCCATCGTCACCCTCGTCCTGATCACCGTCTGGCTGATCTTCGAATGGGTCAGCTACCGCATGATCCGCAAACAGAATATCGACCACTGGCTGCGGCTCACCTGA
>SRR1151209_01060 ABC transporter ATP-binding protein
ATGGCAATTTTGACCGCGCAGGAGTTAACCAAACAATACTCAGGGGAGGAACAACCGGCCCTGAACCACGCCAACCTGGCGATCGAGGCCGGGGAATTCGTGGCGATCGTGGGACCGTCCGGCTCCGGCAAATCCACCCTGCTGCACTTGCTGGGCGGGGTGGACAAACCCACCAGCGGCACCGTCCACCTGTACGACACCAACGTCTTTGAATTGAACGAAACGCAGCTCGCTATTTTTCGCCGCCGCCAAGTCGGCCTAATCTACCAATTTTACAACCTCTTACCCGTCCTCACCGTACAGGAAAACATTACGCTGCCAGCAGATCTAGACGGGCGTAAAGTACCCGCTGATGAATTGGCCGAACTGTTAGAAATTCTTGGCCTTACCGATAAGGTCCAGTCCCTGCCCAGCGAACTTTCCGGCGGCCAGCAGCAGCGCGTCGCCATTGGCCGGGCGCTGGTCAACCATCCCGCCATCGTCCTGGCTGATGAACCCACCGGCAATCTGGACAAGCGCAATTCCCAGGAGATCATGGACCTGCTCCGAGCCGCCAATACCAAGCGCGGCCAGACGCTGGTCGTCATCACCCACGATCCCGAGATCGCCGCGCAAGCCGACCGGGTGATGACCATCACCGACGGCCGGCTCACGGGAGGTGGCGATGATGGGCATCATTAA
>SRR1151209_01061 two-component system sensor histidine kinase
ATGGCGAAGATTAATTGGTGGCGCGCCCCGGAGACCCGCAGTGCCTGTTTATTGGGCGTGGGCCTATTGGTGATATTCGGCGTGAGCGAGGCCGTGCTGTGGTGGTTAGCCGACACGAGCCCCGTTCCTTTTGTGGTGCTCTTTATTGTAGCCGCGATCCTGACCGGCCTCTGGATCATCCGTTGGAGCCGGCGGACCATGGCCGGTCTGCAGCAGGCCAGCGACCAGTTAGCCGCCGCCAGGCACGGACAGGCCAACTATGCCATTGCGCTGAACGACGAGGGCCTTTTTTCACAACTGAACAATCAGGTCTACCACTACGTGCGCCAAACTGAAGCACTGCGCAGCGACCTGCAGCGGGATCGGGACCAGCTGAGTCAGGCAATTACCGATATTGCCCACCAGTTGCGCACCCCCATCGCCACCATCGGCAACCTCAGCGAGTTATTGGCGGCAGATAACGTCCCGCTGACCAAGGCCGAGCTGATCCGGCAAAACGACCGGCTGGCCCAATTAGTCGCCCAGCTGATCCTGCTGGCCCGCATCGACACCCACACCCTCAGCCAGCAAAAGCAGCCGATCCTAGTGGATACCCTGTTGAAAAGCAGTCTCAACCCGCTGCTGCCGCTGATTAGTGATAAAAATCTCAAAATCGCATGGCAAGTCCCGGCCACGCTCCAAGTCCAAGTCAACCCGGACCTGTTTCGCGAGGCGGTGATTAACGTCTTGAAAAACGCCAGCGAACACGCCCCGGCCGGCTCCACCCTGACCATCGCCGCGGCGGAAACGCCCATGGCGGTCACCATCAGCTTCACCAACCAAGGCCCCGCCATCGCGCCCACGGACCTGCCCCGCCTCTTCGACCGCTTCTATCGCGGCGTCCACAGCGATCCCAACAATATCGGCATCGGCCTGGCCATCGCCGCCGGCATCGCCCAGGCCAGCGACGGCCACCTGCAGGCGGCAAACACAACCGCAGGCGTGACTTTCACTTTCTCGCTATACAAGTAA
>SRR1151209_01062 two-component system response regulator
TTGGACTATCTGATCATCGAAGATGAACCCACCCTGCGGCAAACCCTGGCCACCTACTTTGCCCGCAATGCCGCCGTCACGGCGGTGGGCAGTTTGGCGGCGGCGACCCAAGCCGTCCAACAGCAGAATTACACTCTGATCATCCTCGACCTCACCCTGCCCGATGGCGACGGTCTGGCCTGGCTGCAAGAATGGCAGCCTTTGCTCAGCAGCAAGATCCTGGTCCTCACTGCTAACGACAGCGAACGCACCACGTTGCAGGGGTTGGCCTTGGCCGATGATTATGTGGTTAAACCAGTGAGCCTGCGGATATTGCAGGCCCGCATTGCTAAACTCCTGCCGCCGGCCACGGTAACTTATCACGGGGTCACTCTGGACAGTACGGCCCGGACAGTGACGTATGCCGGCCAACCAGTCAGTTTAAGTGCCAACGAATACCGGCTGCTGGCCTACCTCTTCGCCCATCCCAACGCGATTCTCACCCGGGAGCAGCTCCTCGCCGCGGTCTGGGATATTCAAGACGCCTTCGTTGAAGACAACACCCTGACGGTGGCGATTAAACGGCTGCGGCAAAAACTGGAAGCCGTACCCAGTCAGCCGCAATTGATCAAGACGGTGCGGGGAATGGGGTATTTTCTCAATGGCGAAGATTAA
>SRR1151209_01063 CAAX family amino protease
ATGGATAATCGCAATCCCATCAACGAACCAGCACCATATGTTGACTGGCGCAAATCTGGTTTAGCGCTGCTTATTCTCGTTGCTGAAATAGCCATCGAACTGCTGGCCCAAGCGTTCAAAATCAATCTCCTCGCCCAGTCGATCATTCTTTCCGCGGCTGGTCTCCTGACCATGGTCGGCATGATGTACCTCTACTGGGACATTTTGCGGCCAGCCTGGACGGCGTTTCGTACCCACCTGTGGCGGCGGTTGATTCTGCTGCTACTGCTTTCCATCGGTATCAAAATAGTCGTTGCCATTATCATGCTCATTTTAGCGTTGGCCTCACCGCTGAAGTCGTCGCCGACCACCACGACCAATATTGCCCCCATTGCGATGAATACCAAAGCGCTCTTCTTCGCGCTGACCCCATTCTTGCTGGCCGCGCCGTTTTATGAGGAAATATTCTATCGGCACGTCCTGTATTATCAATGGCGGGCCCGCCGCGGCTGGGGTGTGATCATGCTGTTCATTTCTTCTGTTCTCTTCGGCCTAGCCCACTGGAGCAACGTCGGCGGCCATGCGCTGTTAACTGTCCCATTCATGCTTTTGGGGTTGTCTTTTGCCTTGATTTATCGGCGGCAACAAAACATTTGGTACAATATCATTACCCACTTCATGTACAACGCCTCCACCGTATTGTTGTTGGCCGTGGGTCTATTGCTGGTTTAG
>SRR1151209_01064 hypothetical protein
ATGTCCGCACCCCCGTCGGAACACCCTGCCGTACCAGAGGCACCGATCAATTATCGCCAACTGGGCCTTTTCTGTTTACTGTATTTCATCAGTTTTCTTGCCACTGTCGGCTATACTTGGCTCTCCTGGCCACTCTATATCGATGCTGGGATCACCATTATTATTAATGTGGGATTGCTTGTCTTGGTCCTGCGTACCTACGGCGCTTTCCTAAAACAGGCTTGGCCCGCCTTCCGCTACCACATTGGCCGCCACCTCGCATTGACCTTTGCCTGGATGATTGGGCTGAAAATCATCAATGCAATCGTAACAGCCATTGTCACCGCGGTCTCAAATACTACTGCGATTTCAGTTGTCCCACCCACGCCGGAACTTTTGAAAACCGCGTTCTGGCTCATCTTATCCTCGGCCCCAGGCTTACTGATTGCACCCTTTATTGAAGAAATCTTCTTCCGCCACTTGCTCTATTACCAATGGCGCGGCCGTAAAATTGCGCCGGTCATGTTCTGGCTCTCGGCGACCGTCTTTGGCCTGTGGCACTGGAGCAACGTCGCCGGTCAATGA
>SRR1151209_01065 hypothetical protein
ATGCCAAAACAGACTCAAGATTTGTCGTCGCGCTCCGGCGGCTTAGCTGAATACAAGCAAGCCGTGAAGAAATTGCATAGCCCGCAACAGTTCGCCAAGGAAATGGCCGCGTTGGGGTTTACCCAATTTCAGAAAGGACCAAACCGGTGA
>SRR1151209_01066 cadmium transporter
ATGCTGAATACTATTATAACGGGTGTCACGGCCTACATTTCTACCTCACTGGATTATTTGCTGATTTTGATGGTCGTCTTCGGGGGGACACCCAAGCACCAGCGGGGTCTGGTGTACGTCGGCGACCTTGTCGGCACCAGCATTCTGGTGGGCATCAGTCTCATTTTAGCCTATGCCCTAGGCTTTGTCCCCCAGCCCTGGCTGCTGGGCCTGTTGGGCCTGATCCCGGTCTACATGGGCATCCATTTGCTGCTGGGCGAAGAGGAGGACGCGGATGAGAAAGTCGACGCGGCCATGGCACAACACATGAATGTCATCTGGAAAGTTGCATTGATCACCGTCACTACTTGCGGTGCCGATAATATCGGTATCTATGTCCCGCTGCTCACCCAGCTCAATCAGGGTGCTTTGCCGCTCCTGCTCATGACGTTTCTCGTCATGCTCACCCTGTTTTGCGCCACCGGTTTGCTCCTGAGCCGCATCCCCCAAATCGCCCATCTGTTGGACCGTTATGGCCGCTATATCACCGCAGCGGTCTATTGCCTCATCGGGTTCGGAGTCCTCTGGGAGGGCGGCACCGTGCAGCATCTTTTACATCTTTAA
>SRR1151209_01067 ArsR family transcriptional regulator
ATGTCGGACCAAGAGTCAGCGGCCACCCCGCAATTAATCAGCAAGCGTCAGCTGAAAGAAGCAGAACGCATTTTCAGCCTACTCAGTCATCCCACCCGGTTACAGATGCTGTACGTATTGGAGCAGCAGGAAATGAACGTCACCCAACTGGGCGCGCTGCTCCATCTGGAACAGTCCGTGGTTTCCCACCAATTAGCCCAATTGCGCCAGCACCAGCTGGTCAGCGCCCACCGGGTAGGCCGGGCTAATTTTTACCGGTTGGATGATCCCCATATTTTGGACATCATCAACGAAATGCTGGCCCACGCCGACCATGTTTCCCGCGGCAAGCCCCATGGCGAATGA
>SRR1151209_01068 hypothetical protein
ATGCAAAAAGCAAAGAATATTCTGTTTGTTAACGAAAAAGGTCCCAATACCAAAGCGTATTTGATCAGCAGTCCCAATCAGGATCAATGTCAGGCCATCGTGCAAGCGGCGAGTGCCGAAGAGGCAGTGAAGCTGGCGACTGGTGAGGTTTGGACCTATGATCACCTGTCTAAGAACGTCCAACGGGCGGAATACTTGGATGATTATGATATGTACACTGATCCAGACACACTGATGCCATTGCTGCTGGCCCATGGCTGGGCCTTCAACGTCAATGATCCCAAGCATTTGATCGACAAGCGGGATTTGGACAATGTGAAGCAGTATGGTTTTGGCAAGTACACCCAGATGGTCAAAAACGACGAAGTTGATCGACCGTGGATTAAGTAA
>SRR1151209_01069 hypothetical protein
ATGACTGAAATTGACCGCCTCATTCAAGCGATGATTGAGAAAGACCCCAGCATGGCGGCGGGGTTTGCTGAAGAGGGACGCAAATTGGATGACGAAGTTAAGGTGGCAGACCGGCGAGATGCTCGCTGA
>SRR1151209_01070 pyruvate oxidase
ATGCAAAACACAGTTCCGAACCCTGTACCAGAAAAGAACCAAACCGGCGCCGGCGTGGGGACCGTCCCGGCGTCTGTGGCCATGCTTAAAGTGATCGAAGCCTGGGGTGTCGACCACATGTACGGTTATCCGGGCGGCTCGTTCAACTCGACCATGAACGCCCTGGATATCGAAAAGGAACGGATGCGCTACATCCAGATCCGCCATGAGCAGGTCGGCGCGCTGGCCGCTGCGGCGGACGCCAAACTCACTGGTAAGATTGGGGTTACCTTCGGCTCCGCCGGCCCAGGGGCCACGAACCTGCTGACGGGACTGTATGATGCACGAGAAGACCATGCGCCGGTTTTGGCTCTGATTGGTCAAGTCCCCCACACCAACATGAACTACAACTACTTCCAGGAATTCGACGAGAATCCAATGTTCGCCGACGTAGCCGCCTATGCCCGCTTAGTCATGACGTCGGAAAGCCTGCCCTACATCGTGGACAAGGCAATTCGGGAAGCCTACAAACACCAAGGCGTGGCCGTTGTGGTCATTCCCAACGACTTCGGCTACGTGCAAATTCCGGACGAGCTCTACAGTTCAGTGTCGCCCACTGACCATAAGGATCGCCCGCTGCCCCAACCCACCGATTTAGAAGTGGATGCCGTATTAGAAATGGTCAAAGCCGCCAAACGGCCGGTCTTCCACGTGGGCCGCGGCATTCGGGACAATGGTGCCAAGCTGGTTGAATTGTCGAAGAAATTACAGATTCCCATCACCGTGACTGGACTGGCCAAGGGCTTGATTCCGGACGATTACGAAGGCAATCTGGGCATGTTAAACCGGGCCGCCTCCAAGGCCGCCGACGAGATCTTCGCCGTGTCTGACCTGGTCATCGCCATTGGCGCCGACTTCCCCTTTGCCAACGCCATCTATCGCACCCACCCGTTCAAATTTGTCCAAGTTGACGTGGATGAAGCCCAATTCGGCCGCCACCACTACTTGGATCAGGGCGTTTGGTCAGATGCCGGGGCCTTTGTCGATAAGATGCTGGTCCGCAGCACCGACGCCGAACCCTCATCCTTCTTCCAAGCCGCGGTCGCGGATATGCAAAACTGGCAAGCCTACTTGGATCACATGCTGGATCGAGAAACCAGTCCGCTGGAATTCGAGCAGATCTACCGGGAGATCAACAAAATTGCTAACGACGATGCTATCTACTCCATTGATGTCGGCGACAACATCATCAACAGCTTCCGCTATCTGAAACTCACCCCGAAGAATAAGTGGGTTATTTCCGCCCTCTTTGCCTCCATGGGCTCCGGTGTCCCTGGAGCCTTGGCTGCGCAATTGAGCTTCCCCGACCGCCAAGTCTTCCACATTGCCGGCGACGGTGCCTTCTCCATGGTCATGCAGGATTTGATCACCGAAAAGAAATACGACCTGCCGATCATCAACATCATTACTTCCAACGCCAGCCTGAACTTCATCAAGTCCGAACAGGACGACATTCCGATGAACCACAGCGGTATCTTCATCGAAGACCAAGACTTCGCGATGATTGCTCGGGGCATGGGCGTAGAAGCCGTGACCGTACGTGCATCCAGCGATTTGCCTGCCGCCTTCGCCAAGGCCCTGGAAGTCACCCAGGCCGGCCGGCCGTTCCTAATCGACGCCAAGATCACCGACAAGCGCGGTATTCCAGTAGAAGAACTGGAATTGAAGCAGCAAGACGGTACCTGGGTCGAGACGGTTAACCCGTCCTACAATGCCAACCGCGCCCTGACCCATATCAGCAGCGTCCAAGAATTCTTCGCCGAGTACGACGGCGGTGAATTGAAGAGTTTGCCAGAGATTTTTGCAGAACATAATGTACCGACTGACAAGTAA
>SRR1151209_01071 alpha/beta hydrolase superfamily protein
GTGGTCCGCTTTGTGAACATTGCCTCCGGCGGCGCCCGGGCTGACAGCGATCTGGCCGATTTTCCCAAGAACATTGCCGTGCTGGCCATCGGCGGCAATATTTGGGGCACCCGCAGTGACTGGCAGGTACCGCTGGCTTCCGTCCAGCATTTTGCCAAGACCATTCCCCAGGCCAAGCTGATCACAATCACCGGGTCCCCGCTCACCGCCTACCACAGTGCCCTGCACCAGAATCCCCAGGTGGATCGGGATATCGCCCAATTTCTGTTCCACTGA
>SRR1151209_01072 alpha/beta hydrolase superfamily protein
ATGACCAAAAAAACGCATCGCCGCTGGCCGCGAGTGGTCGGTTGGACCGCTGGTGTCCTCAGCGCCATGGCAATCGGCGGCACCGTGTGGTGGCAAAGCCAGCTCAACGCCATTCGCCACCTGACCGTCCGGCAAACAGACATCGCCACGGTATTCATTCCCGGTTATAACAGCAACTCTTGGACATTTTCGCCCATGATTCAGCGCTTCGCCCGCTACGGCATCGCCACTGATGCCATGACCATCAACGTCAGCGCGAATGGCCACCTGGCCATTACCCGCCGGGCGGCCCTGAACCAGCGCAATCCGCTGATCAATATCATTTTTGCGGATGCCCGCAATCCAGAGAAACAGACGACCCAATTGCACCGCATCATGACCAAACTCTACACCGATTACGGGGTGCACCAAATCAACTTAGTTGGCCACTCCATGGGCGGTTTTCTAGCCACCCGTTACATTACCCAGCCGCCCACCGCCCAGTAG
>SRR1151209_01073 aggregation promoting factor
ATGATGATCACAACAAAAAAACATTCGGCATTAACAGCATTCACCGTGGTGGGCGCCATCACAGCATTAGCCGGCGGCGGGAATATGTGGGTCTCGCTGCCCATGGCCCCGCACTTGGTGGAAGCAGCTGAGCCGACCGCCTATACCCCGAATATCACGGTGGTCAAGAACTTGATTCTCACCGAGATCAATCGGCTGCGGGCGCAGAACCATTTACCGGCGCTGAAGCTGAACAATACGATCACGCTGGCTTGGTCCAACGGTATCGTGGCGAAGAATGCGCAACTGCCGCATCTGCAGCATGATCCGCTGCAGCCGACGGTATTGAACAAACTGGGCTTCGCCCTTACTGGCGAGAACCTGGCTTCGACGCCGGTGGGCGTGACCCGCTTGTTCGGCAATCTGCGCAAGCCCGCGATCACGGACGACCAGACCCTGGCCGTGGAGACGGTAGCCCAATATTACGACGATTATGGGGTCGCCGATTATGGTCACCGGAAGAATCTGTTGAACCCGTACTTTACCGATGTGGGCATTGCCTTTGCCTTGAAGAAAGACACGGATGGCAATTACATTGTCTACAATGCCTTGGATTTTGGCGGCAACGTTTCAGCCAGTCAATATAATGCAGCGGCGGCTTACTTTAACTACGCTCACCAGAATGGGTTGAGCGCGCAGTATCCCACTGTGTATCAACCGTCCAATCCAGCGACCTTGACGCCCGCCCTGATCAAGACAGCGGCACCGAAACGGGTGGCAACGGTTGATTATCGCGGCGGGGTCGGCCTCTTCAATGGCTATGGTCCCAGTGCGCGGTTCACCAAACGGATGCTGCCCAACGGTACCCGCTGGCTGGTGAACGCCGTCGCCAAGGACAGCGTTGGCCGAACCTGGTATGAAGTAGGAGGTAACCAATGGATCGATGCGAAATATGTCACAGTCAATTTCTGA
>SRR1151209_01074 membrane protein
ATGACTTTTCGTCAACTCGGATTATCTATCTATCCCGATCACAGCAATTTCGCAGAGGATGCCAAGTATTTAGACCTGGGTCACAAATACGGCTTCACCCGGATTTTCATGTCCATGCTGGAGGCCACCGACCCGGAAGCCACCAAGGCCAAGTTCAAGAAAATTATCGACTACGGTAACAAGCTGGGGTACAAAACTGTCCTGGACGTTGCCCCGCACATTTTCGACCAGCTGGGCATCAGCTACTCTGATCTGAAGGTCTTCGCCGATTTAGGTGCCGCCGGCGTACGTTTGGATACAGGTTTCGATGGCGCGACAGAAGCGATGCTGTCGTACAATCCCTATGGTTTGATTATTGAGTTGAACATGAGCAACGACGTGGCCTATTTGGATAACATTCTGAGTTATCAAGCCAATGAGCCGTTTATTTACGGCTGTCACAATTTCTACCCGCAAACCGGGACGGGGCTGACCTATGATTTCTTCGTCCGGGCCAGCGAACGCTTTAAGAAGCACGGCATCCACACTGCTGCCTTTGTTTCCAGCAAACACGGCGATCAAGGTCCGTGGAACGTCAACGACGGCCTGCCCACGCTGGAACAGCACCGGCACCTGCCCATCGCTGTCCAAGCGAAGCAGCTTTTCGCCACCGGCTTGATCGACGATGTCTTGATTGGCAATGCCTATGCCAGTGAAGACGAATTGAAGGCGCTCAGCGAACTGAATCGCTACCAGCTGCAATTCGACATTGATTTCGTCCCGGCCGTTAATGCGGTGGAAAAGGACGTGGTCTTGAAGCCCCAGCACTTCCGCCGCGGGGACGTCAATGCCCTGGTCGTTCGGTCCACCATGCCGCGGGTCACTTATCAGGATGAACCCAACCCGCCCCATGACAATACTATCGAATTCCAGCGGGGCGACGTACTGGTCGGCAACGATGATTTCGGCCACTACAAGAATGAATTGCAGATTGCGCTGGAACCCCATCGCGATCCGCGCAAGAACAAGGTCGGCCGGATCAACGAAAACGAGATCAGCCTGCTGGATTACGTCCACCCCTGGACCAAGTTCCGCTTTGAAACTCATCATGAATGA
>SRR1151209_01075 hypothetical protein
GTGAAAAAGCGAGTGTTGGTCATCGTTGGGCTGGTTGTCGGGGTGCTGGTCTTGGCCTTTGCCATTTGGGGGCCGCCGGTGACCGTACGGTTTACGTATACGGTGCAGCAAACACGCAGTCCGGAGCTGGACCGAGTGCTGCGCCGGCAGGCGGTGCATATTATCCAAGATGGATCACGGACACCAGAGCTGCCGATTGATGCTCGGCAGCAAGCGGCGGTTGCGCAGCAGCTGATGGGCAGTTACCGGTATATTGCCGCGACCAGCGCCCCGCTGTTTGATGCGTTTCGGGCTGGTCAAACAACGATCCGCTATCAGCGGACCAGCAGGTTAGTGACGCCTGGGCAGCCGACCAACGGGACGTATCTCAAGAAGGGCGATACGCTGTTTGGCGGGGCAGTCGGCTCGGCGACGGCCACGGAGAATGGCTACTATACGCTGCACGTGAGGACTACCCGGCAGCACGTCCAAAGTGCGGTATTGGGCCATCCCCGCGGTGCCGGCCGGAATGAGTGGGTAACGATTGCGGCGGATCCTTTCTCCACGGTGGTTGCTACGGATGCCTACCTGCAGCGCATGGATCACTGA
>SRR1151209_01076 hypothetical protein
ATGACGATTACAGAGCTTGTTGCCGCCATGGCGGCGAAGGAAACACCGATTACGATCACTGAACCGGCATTGCTTGATTTGGTATTTGGTTTATCCACGCATTTCAATCAAAATTCGCTGCGCAGCATGGCAAGCGGGGCACTGACCGGCATGTTCGTGAGCGGCCCGTCCGCGGCCAGTGCGTCCATGCCCTATATGCAGAGTAAACAGGTAGAGGATATTGAGAAACAGTTGCAGAAGACCAAACGGTTCCCGATCGGTTTGACCTTGACTGAAAATCACTTACCGATCGGTACTCATTTCACTCAAGATATTGATCAGGTGCGGGCGATTTTAGCCGCTGCGCCGGAGTATCTCATTACTTTGGTCAGCGCGCACCAAATCGTTTTGGACCGCAAATAA
>SRR1151209_01077 serine protease
ATGAGTAAAAAGAATGATCAGACGACCGTTAAGAATCATTACCAATCCAAAATCGTCCTGTTAGCCTTATCCACTGCCCTGCTCGGCGGCGGGGTTGGTGGCGGTGTCGTTTATGCAGTCAACCAAAATCAGCAAACCGCCACCACAGCCGCCGATACGACCACCAGCACTGCCGCCACCACGAATCTGTCCACCACGACAGCAGCCAGCGGCACCGCCAGTGCGGCCTATAAGAAAGTCGCTAACGCCGTGGTTTCTGTCATCGCGACCCAAACCAGCACTGACAGCGGCCAATACGCCGGTTACGGGTATGGCGGGTACGGTCAGGGGCAATCCCAGTCCACCACTTCTGAAAGCGAAGGCAGCGGCGTCATCTTCAAGAAGAGCGGTGACAAGGCCTATATTGTCACCAACAACCATGTCGTTGACGGCGCCAACAAACTGCAAGTCCTGCTGAACGATGGTACCAAAGTCACCGCGACGCTGGTCGGCACCAGCGCCAGCAAAGATATCGCCGTCTTGGCCATCGACAGCAGCAAAGTGACCACCACAGCCAGCTTCGCCAATTCCAGCACCATCAGCGCCGGTGAATCTGTCTTGGCCATCGGCTCCCCGCTGGGGTCCGAATACGCCAATACCGTCACTGAAGGGATCGTCTCCGCCACCAGCCGCACCGTGACTGTTGCTGAAGATGATGATAGTCAAAGCACCACAACGATGAAGGCCATCCAGACCGATGCGGCCATCAACTCCGGCAACTCCGGCGGCCCGTTGATCAACCTCAACGGTCAAATCATCGGGATCACCTCCATGAAGCTGTCCGGGGAAACCTCCAGCGGAACCACCGTAGACGGCATGGGTTTCGCCATTCCCAGTAACGTCGTCGTCGCCACGATCAACAGCATTATGAATAGCGGCAGTCAAGCGTCATAA
>SRR1151209_01078 D-alanine-D-alanine ligase
ATGAAAATCGTAGTCTTAGCCGGCGGCCGCAGCACAGAACGGAACGTCTCTTTGTCGTCGGGGGCGAAAGTCGCCAACGCTTTGCGGTCCAAGGGCCATGAAGTTGCCTTGGTTGATCTGTTTCTCGGCTTGGATCTGGAACATGCGGGCGCCGTGGAGTCCCTTTTCACGAAAGAACAAAGCCAACCCAAATACGAAATCTCCGATGAAATCTTGACCGATGAAGCGATCAACGCCCTGCGCACCGACGGCACCCGCGGCCTGTTCGGCAAAAACGTGATGGCGGTCCTGGAACATGCCGACATCGTCTACATGGGTCTCCATGGGGAAGATGGGGAGAATGGCAAGGTCCAGGCGGTCCTGGATCTGTCTGACATCAAGTACACCGGTTCCGGCACCTTGGCCTCCGGCGTCGCCATGGATAAAAAGGTCTCCAAGGAGATCATGAAGTATAACGGCATCCCCACGGCGGACTTTATTGCCGTGCGGGAGGATCAGCGCCATTCGTTCACGATTCCCTTCGGCTACCCGATCGTGATCAAACCCAGCAACGGCGGCAGCAGTGTGGGCACCCACATCGTCCATACCGCCGACGAACTGGACGCCGCACTGGATGATGCCTTCCGCTTCGACGACGAAGTAGTCATTGAAGAATTCATCAAGGCCCGGGAATTCTCGCTGGGAATCGTCAACGGCCAGGCCATGCCGGCGATTGAGATCCAAGTCAAAGACGGCTGGTACGACTTCAAGCACAAATTCCAGCCGGGGCATACTGATTTCATCACCCCGCCAGATATTCCCGATGATGTGCATCGCGAAATGCAGCAACTGGCCTTGAAGACTTTCTCCGTCTTAGGCATGGCCAATTACGGCCGTATCGACTTCTTCTGGAACGCCGACGGACTCTATGTCATCGAAGCCAACTCCCTGCCCGGAATGACGCCGCTGTCCCTGCTGCCGCAAGAAGCGGAAGCGGCCGGCATCCATTACGCTGACTTGTGCAACAGCATCGTCATGGGCAAGTGGAATCTGTACCAGCACAGCAAGCGCTAA
>SRR1151209_01079 membrane protein
ATGCGTAAAATTACCAATCATATTGTGGGCCGTTATGTTGTGTTTGCCCTGGCCCTGGCAATCATTGCAGTCAGTATCAATCTGTTTTACGCGCCGCATAACGTGGCCGCCGGCGGGGCGACAGGGATCGCAGTCCTCGGTGAAGTGGCCTTTGGCTGGCCAGTAGCGCTGACCACTTTGGCGGTGAATCTGCTGATGCTGGTGGCAGCCTTTATTTTTCTGGACAAGGCGACGACTGGCCGGATCATCCTGGGCAGTTTTGCGCTGCCCTTGATGTTGGGTATTATTCCTCAGGTTAAAATCGTCAATGACCGGTTGCTGGCAATCATCGTCGGCAGTGCGATTTTTGCCGTCGGCGTCGCGCTGCTGTACCGGATTGACGCCTCCAGCGGCGGGACGACGGTGCCCCCGCTGATCTTCCGGAAATACTTCGGGGTGAAAACTTCGGTGGGGCTGCTGGTCGTCGACTTGATCGTGTCCCTGGGCAACATTTTTGTCAGCGGGATCGAAGCCTTTATCCTCGCCGTTTTCTCCATCGTATTGACCAGCATTATCATGAATTATATTGAAACTGGGCTGGACCGGAAAAAGACCGTGTTCGTGATGAGCAATACGGCCCTGCCCCAGATTAAGCAGGTCGTGAACGAACAATTACCCCACGGGTTAACGGTTTTACCCGTGACCGGCGGTTTCTCTGAAGCACGGCGGGAAATGTTGATGATTGTGGTGGAACAGGCGGATTATCAGTCCTTGACGAAGCAGATCCTGGCCATTGACCCGGAGGCGTTCATTACGGTAGCTGATGTCGCCGCGGTCCACGGGGGAATTTTCTAG
>SRR1151209_01080 hypothetical protein
ATGGCAAGTGTATCGATTCCAGAAGATTTGGCCCAAGCGGAACAACGGGCCAAAGAGTTGCAGTCCCGCAATATTGAAACGACGGTGGACGCGGTGATCCAGCAGGCGATCACGGATTACGTCCAGGAGATCTTGATGGAGGGCCTGGAAGGGTCCTACGTCACCACCCATTTTGCGGATGATCAGCTGACCATTACAGAGGACGCCACCGGCAAGGTGCTGACGACGATCCCCGCACCAGATGGCGGCTTTCAAGCGGCCTTCCGCAGTCAGGGACGAATGCTGATGCAGAATTTGGCGAATAAGGTTCAGGAGAAGTTTCGGGATCGGATTATTCGCGGGTAG
>SRR1151209_01081 small heat shock protein
ATGGCGAATGATATGATGACGCGTCGGAATAACAATGATTTGATGAGTGACGATCCGTTCTTGGATAGTTTATCCCATCGTTTCTTCGGCCCGATGTCTAATTGGATGGATTGGTTTAATCCGGCAATGAACACCACAGCTGTTAATGGATTGCGGACTGATGTGAAGGAAACTAAGGATAATTACATCACCCGCGTTGATATTCCGGGTGTCGACAAGAACGACATTAAACTGAATTATCACGATAACGTATTGAGCATCAATGTGGTCAAGAAGGACGTGGCAGACCATGCCGATAAAGATGGCAACGTCTTAATGTCCGAACGCAGCTACGGTGCAATGAGCCGTAGCTATCAACTGCCTAACGTTGATGTGAATGGCATTAAAGCCGAATACACTAATGGTGTGCTGACAGTTACCCTGCCAAAGATGTCCGTGGATAACGAACACAATCACAACATCGACATTCAGTAA
>SRR1151209_01082 multidrug ABC transporter ATP-binding and permease protein
ATGTTCAAATCGACGATCTGGCGAATGCTGCGCTTCTTTGCCCGCCAACTGGCTGACGCCAAACATTACTTAGCCCTGGTGATGGTCATGCTCGTGGCTACCGCCGGGATTCAATACGCGATTCCGCGGATCACCCAAACAGTGATCGATAAAATCATTCCCCAACAGGCGGTGTCTCTGCTGCTGCTCAGCGTCAGCGGGCTATTGGGCCTGACCGCCGTCAACGGCCTGCTATCCGCCGGCAGCAGCTACTTACTGGCCCGGGTGTCGCAAAACGCGGTCTCCCGGCTGCGCAACACCCTGTTCACCCATGCCCTGGGGCAGGACTTCGCCTTCTTTGAAACCAGCAAGACAGGGGACTTGATGGTGGTGCTCACCAGCGACGTCAACGCCCTGCAAGGATTACTGTCACCCAACGCCTTGGGCCTGGTGGGCAGCGTGCTGACCGCGCTGATCGTCCTCGTCATCATGTTTACCCAGAACGCCCTGCTGACCGGATTGATCGTGCTCACTTTTCCAATTCTATTTATGGTTAATCTCTTCTTCACCCGCTTAATTCGCGGCGCTTGGCGGCGGGTGCGGCAATCTTCCGGGGTAATGAACAACCAGATTCAAGAAAGCCTGGCCAATATCCTGCTGATCAAGAGCATGGCGACGGAAGACCAAACCGCCGATACCTTTGCCCAAGTCAATGAGGATAATCGGAAAAATCAGCTGGCCGCCACAAAGTATTTCGCCGAGTTCTCTCCGCTGATCGACTTTGTCGACTATCTGGGTACCGCCCTGATCATCGGCGTCGGGGCTTACCAAGTGATGGGCAAGAACTTCACCGTTGGCGGTATCGTCGCCTACCTGTCCTACTTAGCGATTCTGCAAGCCCCGGTGCGGTCCTTAACCAACTTGATCGATCGATTCCAGCAAGCCGTCGTTTCCTACGAACGGATCGAAAATCTGATTGCTCAGCAGCCCCAAGTCATTGATCCGCCTCTCCCGCAAACGCTGGCGCCATTCCATGATGCCGTGGCGTTTCAACATGTTGATTTCCACTACAGCAACAATGTTGCGATTCTCAAGGATGTATCTTTCACCCTGCCCAAGGGCGAAACCGTCGCTCTGGTTGGCTCTTCAGGCGCCGGTAAAACCACCATCACCAAGTTGCTGGACAGGTTCTACGATGTCACCGCCGGTGCGATTACTTTTGACGGCACCGACATTCGCCAAGTCCGCCGCCATGATCTGCGCCGCCAGATTGGTGTTGTTACCCAGGATGTGTTATTACTGGACACGTCGATCCGGGATAACATTGCCTACGGGCTGGGCTCGGTCACCGATGAAGCCATCTGGTCCGCTGCTGATGCGGCCAACATCACCGACTTTATCAAGTCCTTGCCGGACGGCCTGGATACACGGGTCGGCGAACGGGGCGTGCGCTTATCCGGCGGGCAGAAGCAGCGGATCGCCATTGCCCGGATTTTTCTCCAGGATGCCCCCATTGTGATTCTTGACGAAGCGACCGCAGCCTTGGATAACGAGACGGAACGCTACATCCAAGACTCCTTTGATCGGCTGATGACCAACCGGACCAGTCTGGTGATTGCCCACCGATTATCCACCATCCAACACGCCAGCGAAATCTTGGTTCTGGAGCATGGCGAAATCATCGAACGCGGCACTCACAAGGAATTATTAGCTAAGAACGGCCGCTACGCCCAGCTCTACGCCTTACAGTTCAAGTAA
>SRR1151209_01083 membrane protein
ATGGATAGATTCGATTCTCCCCGCCGACGGTTCCGTTGGCCATTGGCCATTTTAGGGGCCATCTTCATCGTGTTGGGCTTATGGGCGTTCAGCCGGCCCGGCGGTGCTATTAGCGGGATTGTTTGGGCCTTCGCCCTGGGGATCCTGTTCAAGGGCGTGATGGACATCGCCGTGTGGTATGACATGGGCAAGGCCGGCGTCAAGCGGCCGACCTATGTGCTGCTGACTGGGATCCTGGATATCCTGTTCGCTATCCTGTTGTTTGCCAACAGCCTGCTGAGCACTTTGTTCATGGCTTATTTGTTCGCCGCGTGGTTCCTGGTGGACTCGATTGCCTCCATTGCGGCGGCGGATTTCTCCCTGCACCGTACGTTTAATATTGTGATGGGGATTCTGGGGATTATTGTCGGGATCGCAATGCTGTTTAATCCGCTGTATTCCGTGATTACCCTGGCCTACTTGGTGGCGGCGTACCTGCTGATCTTCGGCGTCATCCTGCTGACCCGGGCGTTCTGA
>SRR1151209_01084 recombinase RecA
ATGGCCAAGACAATTGCGAAAACACAGGATCTCGTGCAGCTCAAGGAGAAACCGGAACGGGCCAAGGCATTGCAAAAAGCGTTGGCGGATATTGAGAAAGAATACGGCAAAGGCGCGATCATGAAAATGGGGGAGAAGCCCAACATGGACATCCAAACCATTTCCAGCGGTATTCTATCCTTGGATATGGCCTTGGGCGTCGGCGGGTTCCCCCGGGGCCGGATCGTTGAGGTCTACGGTCCTGAGAGTACCGGGAAAACGACCATCGCTTTGCAGACGGTGGCGGAATGCCAAAGAGAGGGCGGCACCGTCGCCTACATTGATGCAGAAAATGCCATGGACCCGGTTTACGCCAAGGCGCTGGGCGTGGACATCGACAGCCTGCTGCTGTCCCAACCCGCCAGCGGCGAGGAGGGGCTGGAGATTACCCAGAAACTGGTCACCTCCGGCGCCGTGGACATGGTGGTCGTGGATTCGGTCGCCGCGCTGGTACCGGCGGCAGAAATTGAAGGTCAGATCGGGGACAACCACGTCGGTCTGCAAGCCCGCTTAATGTCTCAGGCTCTGCGCTCCCTCGCTGGGGAAGTGCACAAGACTAATACTCTGGTCGTCTTCATCAATCAGCTGCGGGAAAAGATCGGCGTGCAATTCGGCAGCCCAGACGTCACGCCCGGCGGTCGGGCGCTGAAGTTTTACGCCACGATTCGGCTGGAGGTGCGCCGGGGCGAGTTTGTCAAAGACGGTAAGGAAAACGTCGGCTTCGTCAGCAAACTTAAAGTGGTGAAGAACAAGGTTGCCCCGCCGTTTAAGGTGGCCGAGACCACCATGTACTTCGGTCACGGCATTGAAAAGAATGCGGATATGATCGCTCTGGGCAGCAGCGATGCCTTCGCGGTCGTTAAAAAGAGCGGCAGCTGGTATTCTTACCAGGATACGCGCTTAGGCCAAGGGCCAGTGAATGCCGCGAAGTTCTTGAATGATCATCCCGATACGGCCGCCGCCATTGAGGCGGATATCCGGGCCAAGGCCGATCCGCCTAAGGATGATGACCGGACTAAGCCTGCGCCAGACGACAAAGAGCCGGCACCGACCAAGCCAACGGCCGCGAATACCACCAAGACCGAAGATATTGAAAGTACGCCTGCGGCACCGGCCACCCCGGCGGCTTAA
>SRR1151209_01085 metal-dependent phosphohydrolase
ATGGATCACTTACCAGCAATTATTGACCTAGCCCGCCAGCAAGCGGCCGGCGATCAGTCCGGCCACGATTTTGCCCATATTCAACGGGTGGCGGCCAATGCCCGCCAGCTGTTAACGGCTTATCCCGATGCTGACCAGGACTTGGTGTTAAGCACGGCCTATCTGCATGATTACTATGATGAAAAGCTGGTCGCCAATACCACGGCGGCCAAAGCCGCGCTGGTCCAAACGCTGCGCACCGCAGTGGGGTTAACCCAGGAGCGCATTGATCAAATCACCTTCATCATTGACCACATGTCCTTTAGTAAAAACATCGAGACCCATCAACACTTGCCTCTAGCCGGCCAGATCGTCCAAGACGCCGACCGCCTGGATGCCCTGGGCGCTGTCGGCATCTTCCGCGCTATCCGCTACGGCGCCACTCATGGCAATCCCGACTACGACCCGCATATTCCGCCCCGCCAAGAACTGACCGCCGCCAATTACCGCCAGCCCAGCACGATCGTCAATCATTTTTACGAAAAGCTGTTTAAGCTGGCCGCCACGATGAATACGCCAATTGGCCGACAAATGGCAACCGAGCGGACAGCGTTCATGAAGCAGTTTATCAAAGAGTACTTCCAAGAGATCGGCAAATAA
>SRR1151209_01086 alpha-1,2-mannosidase
ATGTTACGCATTGATACCCGCCAAGGCACTGCCAGCCATCCTGACTTTTCCCACGGCAACACCCTGCCGCTGACCGGGGTGCCCTGGGGGATGCACTATCTCACGGTCCAGACCAACGGGGACCGGGGCGCCTGGTTCTTCGACCCGGCCAGCCGCCAATTCGAAGGGATCCGGCTGACCCACCAGCCTAGTCCGTGGATCGGTGATTTCCAGCACTGTCTGTTCCGGGCCACGACCAATAAAGCGGCCGGCACGTACCAGCCGGACCGGGCCACTTTTTCCCCGGCGGTCATCGATATTTACGATGAACCGCACCAACTGCGCACCCAGGCTACGGCGACCGCCCGGGGCGGGGCACTGCGGTACACCTCGGCGGCTCGGGAGTTCACCTTCCAGATCCAGGCCCCGGATCGTTGGACGATCGTCCACCAGGATAATCGCGGGGTGGTCCTGCAGCTGCAAAACCAGACCGCCAGCGCCGATCCCGATTTCAGCATGTACCTGGCGGTCAGCTGCGACACCCCGTGGCACGCCGAAGATACGCCCCTGGCCTACACCATTTCCAACAGCCAGCCGGTGGTCATTCATTTCACAGCGTCCTTCATTAGTGCCGAGTACGCCCAGCGGGCCCTGGCGGAACTGGAACGGCAGCCTTTCACCAAGCTGGTGGCGGCGAATACCGCTGAGTGGGAGAAAAAGATGGCCCTGTTCACGGTCCAGGATCATCACGCGGACCGGGTACAAACTTTCTACACCAGCTGGTACCGGTCCCTGCTGTTCCCCATGCGTTTCTATGAATACGACGCGGCCGGCGGGCCGGTGCATTACAGTACCACGGAACGGCGGGCCTTGCCGGGCCGGTTGTACACCAATACCGGGTTCTGGGATACTTACAAAACCACTTTCCCCCTACTCGCCCTGGTGCAGCCGACTCAGTATGGGTACTTCTTGGAAGGCTTCTTGAATAGTGCCAAAGAAACCGGCTACCTGCCCAAGTGGCTTTCCCCCGATGAACGGGCGATGATGCCGGGCACGATGGCCGATGCGGTGGTCGCAGACGCCGTGGACAAAGATATTCGGCCGGATCTGTGGCCAGATTTATTAACTGCAATGGTCCATGGGGCCGAGACCCCCAGCGACGATCCCCATTATGGCCGGCCTAATTTGAAAGATTATCAAACCTTGGGCTATGTGCCAGCAGATATTCCCGAAAGCGTCAACCAGACTTTGGATTACGCCTATTCGGACGCCCTGATCGGCGTGGTGGCCACAAAATTGCAGCGGCCGGACATTGCCGAGGATTACGCCCCCCGGGGCCAGAACTATCGGCATTTGTTCGACCCAAAATTTGGGCTGATGCACCCCAAGTCGCGCACCGGGACATTCTTAAACAGCTTCAATCCCTACACGTGGGGCCAGGGATTCACTGAAGGCAGTGCATGGCAAAACAGCTTCGCCGTCTATCAGGATATCCCTGGACTGATCGACCTGGCCGGCGGGCCGCAGGCCTTCCTCCATACTCTGCACACCCTGGCCAACGCCGCACCACGCTATAATGTGGGCAGCTACCACGGGGTGATCCACGAAATGGCCGAAATGAGTGCCATTGATTTCGGCCAGATCGCCATTTCCAACCAGCCCAGCTTCCATATTCCCTATCTCTTTGCCCTGGCCGGCGAGCCGGCCAGTACAGAGCTGCTGGTCAAGCAGTTGCTGCTGCATGCGTTCAATGCCGGACCGGCGGGCTTCCCCGGAGACGAAGATAATGGCTCCATGAGCAGCTGGTATATCTGGTCGGCGCTGGGCTTGTATCCGCTGCGGCCGGGCTTTGGTGATTACGTCTTCGGTATTCCGCTGTTTGACGAGGTGACCATTCAGCTGCCGACTGGACCGCTGACGCTGACGACCCAGCGGAATCAGGACTACCGTCTCTTCGTTGATGCGCGCCAGCGGGATGACCGCGCAGTGACCGGCCCGACGATCACGCACCGCGATTTGCTGGCGACTTGGCAATTGACCACGACCCTGGGGCTGCTGCCCAAGGGGTAA
>SRR1151209_01087 GntR family transcriptional regulator
ATGACAGCCAAATACCAAGTAATATACCAATCCCTGCGCCAATCCATTCTCTCTGGCCGATTGGCGCCCAATACCCCGCTGCCCAGTGAAAACGCCCTGGCCATCAAATACGGCGTGAGCCGTATCACCTCGAAACGGGCGCTGAATGAACTGGCCGCCGCGGATCTGATCTACCGGGTGCAAGGGGTCGGCAGTTTCGTCAAGGGCCACCGCACTAGTAACGGCTCGCGCCGTATTCTGCTGGTGATCCCTTTCGCTGACAGTCACGGCATCGGCAATTACGAACAGGGCATCAGCGACACCCTGGCCGATACAGATTGGGAACTGTTGAGTATGCCCAATCAGCAATTCGCCGCGCTGCCGATCAAGCAGATTCAGCAGGAATATGCCGGGGTGCTCTACTATCCCACCACCCTCAGTGCCGATACCGCGCGGCTCATTACGCTTTACTTAGCCAAGATCCCCATCGTGCTGCTGGATAAAACCATTCCTGGCGTCGCGATTCCCAGTGTGACGGCGGATAACGAGGCCGGCGGGCAGTTGGCCGTCCAGCATCTGCTCAAGCTGGGCCACCGGCGTATTGCCTTTCTCGCCCGGACCAACTTCTGGGACACCTTCACCGGTACGGTCAGCGCCCGCTTCTTCGGCTATCTCAATGGCTACCGGGATGATCCGCCAGCCGCCAGTGATCCGCTGGCCTGGGCCCAGGCCCTGACCACCCGCGCCCTGCCCAGTGAACGGGCGGCTTTCCTGCGCCAAGAAAAAATCAGCGCCGTCGTGGTGGAAAATGATTTAGAAGCCCTGCGCTTCATGCAGCAACTCAAACAATTGGGCTGGTCGCTGCCCGCTGATCTGAGCGTGGTCGGCTTCGATGACTTGCCGGCGGCTCGCTTGCAGGAACCGGCCCTGACCACGATCCGCCAGGATTTTGTCCAGATTGGAACCGAAGCTGTGAACACCCTGCTGGCTCAAATGAACGATCCGGCGGCCCGTCTGCCGGAGCATAAACGCGTCCCGGTTACCCTGGTGACCCGGGCATCCACTGTGCCATTCAACTAA
>SRR1151209_01088 glycosyl hydrolase
ATGACCTCATACGTTACCCCCGCTGTGCAGGGGTTTGTGGACCAAGTCCGGACCCTTTGCGGCCGCAGCCACGCCGATTGGGCCGACATTTTTGCCCGGACCTTCACCGACACCTTAGCTAATGCGATGAAACCCGATGGCCCGGACCGGATCTTCGTGCTCACCGGCGATATTCCTGCCATGTGGCAGCGGGACACCACCGCTCAGATTCGGCCGTATCTTGTGTTGGCCCAGACCGATACTGGGATGGCCGATATCATCAGCCGGGTGGTGCAGCGGCTTTTCTTCAATATGGATCACGATCCGTATGCCAATGCCTTCAACCTGAAAGCCAATTATGCCGGCCACCAGAGCGATGCGACGACGATGACGCCCTGGATCTGGGAGCGGAAGTATGAGCTGGATTCTCTCTGCTATCCGGTGCAACTGGCCTATCTGTTGTGGCGCAACACCGGGCGGACGGATCATTTCGATGCCCAATTCCAAGCGGCGATCAAGAAAATGATCCATGTGATCCGTACCGAACAGCATCACGAGACGTCACCCTACCGCTTTGAACGGACGGAAGACCGGCCGGAGGATACGCTGATTGACGGCGTCGGCCGACCGGTGGGCTATACCGGCATGTCCTGGAGCGGTTTCCGACCCAGTGATGATGCGTGTGTTTATGGGTACTTGGTGCCGGCGAACATGTTTGCCGTCGTCGTGCTGCGCCAGCTGGCCGACATTTACACCGACGTACTGAAAGACACCGCCAGTGCCGCTGATTTTCTGCAATTAGCCCAAGAGATTCAAGACGGCATTGATCAGTACGGCACGGTGAAGAACGCCGCCGGTGAGACGATTTACGCTTACGAAGTAGACGGTTTGGGCAACGCCTTGGTGATGGATGACGGCAATGTACCCAATCTGCTGTCCGCACCGTATCTTGGCTATGTCGAGGCCAGCGATACCGTTTATCAGGACACCCGCCGGACGATCCTCAGTCCGGAGAATCCTTACTATTATAAGGGCCGGGTCGGCGGCGGCTTGGGGTCGCCCCACACGCCGCCGCACTATATTTGGCCGATCGCCCTGGCCATGGAAGGGTTGACCACGGCGGATCGGACGGAGAAGGCCGCGTACTTGGATCTGTTGACGCGAACCACCGGCGGTACCGGCATGATGCATGAATCCTTCCAAGTGAACGATCCCACCCAATACACCCGGGAGTGGTTCTCCTGGGCCAATATGATGTTCTGTGAGCTGGTCATGGACTACGTTGACCTGCGTGTGCGGCAGTAA
>SRR1151209_01089 alpha-mannosidase
ATGGCGAAGAAAAAGGTATTTGTTATTTCCCACAGTCACTGGGATCGCGAGTGGTATATGGCTTATGAAGACCATCACATGCGGCTGGTACAGCTGATCGATGATCTGTTTGACTTGTTTGAAAACGATCCGGATTTCAACAGCTTCCACTTGGACGGTCAAACGATCATTCTGGACGACTATTTAGCCGTACGGCCGGAGAAGCGGGCAGAACTGCAGCACTGGATCGACGCGGGCAAGTTGCGTATCGGGCCGTTCTACATTTTGCAGGACGACTTCTTGATCAGCGCCGAAGCCAACGCCCGCAATGCCATCCTCGGCCGGCGCTTCTCTGACAAATGGGGCCAGCCGGTGCCGTTGGGCTATTATCCGGATACCTTTGGCAATGCCGGTCAGGTGCCCCAGATGTCCCGCTTGGCCGGCCTAGATACGGTTGCCTTTGGCCGCGGCGTGACGCCGACCGGGTTCAACAATACTACTGGTCCCTTGGGGGATTATGACTCCACGTATTCCGAAATGTATTGGCAAAGTCCAGATGCGTCCAAAGTGCTGGGCATTCTCTTTGCTAATTGGTACAGCAATGGGAACGAAATCCCGGCGGATCCGGTGGCGGCCAAGCACTATTGGACTGAGCATCTGGCGGCGGCCGAACGGTATGCCGCTACGCCTGACCTGCTGTTCATGAATGGCGTCGACCATCAGCCGGTGCAAAAGAACTTGAGTCAGGCCCTGGCCGTGGCCCGGGAGTTGTTCCCGGATTATGAGTTCATCCATTCAAATTTTGCTAACTACATTGCGGCCCTGAAGGCCGATTTACCCGCCGATCTGACCACGGTTAAAGGGGAGCTCACTTCCCAAGCAACCAGCGGCTGGTATACCCTGGCCAATACAGCGTCCAGCCGAGTGTATTTGAAACAACAGAATACAACGACCGAACGGTTGCTGGAAAACCATGCGGAACCCTTGATGGCGCTCAGCAGTTTGACTGAAGACAGCATGCAGGACCGCTTGACCTATGCCTGGCAGACCTTACTGCAAAACGATCCCCACGACAGCATCTGCGGCTGTTCCGTGGACCCGGTGCACAAGGGAATGCTGGATCGCTACGCCCGCGCCCAGGAAGTGGGCACATGGCTGACGAAAACGGCGCTGACCAAGCTGGCTGGGCAGATCGATACCCAAGATTTCCCCGCCGCCAGCAAGCCTTTCTTAGTGATCAACACCGCCGGGGCAGCCAAGACGGCCGCGGCCACGGTCACAGTGGAGTGGGCCCGGGCGCCCTTTAGCGCCGGCAGCCCGCAACAGCAGTATCGTAAACTAGAAGAAATCCGGCAAAATCTGCCGGCCTTGCAGGTCATTGATGCGTCCGGCCAAGTCGTGCCGGCGCACATTTCTGACACGGTTGTCCGCTTCAATTACGACTTGCCGGACCGCGCCTTCCGGGTGCCTTACATGGGCTTGTACATCTCCGTGACCCTGCCGGTGACCGTGCCGGCGTTCAGCTGGCAAGGCTACGCGCTGACGACTGGCGAAGCCGGCCAGGATATGGTGACTGAGGATCACGGGACCACCTTGCACAACGAGGCGCTGACCGTGGCCTTGGCCGCTGACGGCACAGTGACGATGAATGGGACCAAACTGGTCTTCACGGATACCGGGGATATTGGTAATGAATATATTTATAAAGCAGCGGAAAACGACCAGCCCATCCCGGCCGGTCCCGCCCGGAATATTGTCCGGACCAACCGCAATGGGGTCCAGACGCTAGCCTATGACCAGACCCTGACCATTCCGGTGGCGGCCGATGCCCAATTGGCCATGGAACAGCAGAGTGTGACCGATATTACCCAACGTCATGCCGTCCGCGGCGGCGAGACCGCCGAGCTGGTGCTGCATGTGGTCCTGACCTTAGCCGGCGAGAGCCGGCAGCTGCAGATTCACTTGACCGGTGACAACCAGATGCGCGACCACCGGATTCAAGCCCGCTTCGTGACGGGGATTCAAAGCGATCATCATCAAGCGGAGTCGATCTTTGAAGCAGTGACCCGCCCGAACACGCCGGGCAAAGCCTGGCGCAATCCGGAAGATCCCCAGCACCAGCAGGCGTTTGTGGATCTCAGCAACGATCAGGTTGGGGTGACAGTAGGCAACTTTGGCCTCAACGAATACCAGATCGAGCAAAAGACGGGGACCATTGCGGTGACCTTGCTGCGCTGCGTTGGGGAAATGGGGGATTGGGGCTACTTCCCGACACCCGATGCCCAATGTCAGGGGCCGTTCCATGCCGATTTAACTTTCCAGACGCACACCGCTGCGGCCGCTGATACCCAGGCGACCTGGCAATTGGCCCGGGCCGGGCAGATCGGCCTGACGACAGTTCAGCTGCCCGCCGCGCAAACGGGCACTTTGCCGAATGCTAACACGTATCTGACCGTGGATAATCCCGCCTTTGCCGTGACCGCCCTGCACGTCAGTCCGGCCAGCGGTGATCTGCTGGTACGGGGGTACAATCTGACGGATGTGCCCCAGACCGTGGCGATCAGCTATCGCGGCGCGCTCCCGACCGACGTCGTTGATTTCTTGGAACATCCGCTGCCGGCCAAGCCGGCTGACCCCTTGCGGCCGGCTGAGATCCGCACGTATCGGTTCAGAAAGGATTAA
>SRR1151209_01090 polygalacturonase
ATGATCGCTACCCAATTCATCATCACGGATTACGGCGCTGAAGCCGGCGCAGACACTGTCCAAACTAAGCCGATTCAAGCCGCCATCGACGCCTGCCGGACAGCCGGCGGCGGGACGGTGGTGGTTCCCGCCGGCCGGTTTACCACGGGCAGTTTGCGTTTGTATAGCCATATCACCTTGCACTTGCAAAGCGGGGCGGTGGTGCAGGGCAGCAGCGACTTGGCAGAGTACACCAATTTTGGCGAAACGACGGATATTCGCTATTTGAGCGATCCACGGTATATCCGGGACTGGCATCTGCCCCCGTATTATTTTCAGGCGCTGCTCTGCGCCTATGATGCCGTGGACGTAGCCATTACCGGCGATCCCGGCAGTTTGATTGACGGCAGCAGTGTGCGGGATCCTAACGGCGAAGAACACTTTCGCGGACCGATGGGCATCGTGCTGGCCCGAGTCCAAGGCGTCCGCTTGCAAGGTTATACCTTGGTCAATTCCGCGAACTGGGCCAATGTACTGCCTGCCTGTCAGGATGTCGTAATTAATGATGTGACCGTTCTGGGCGGCCACGACGGTTTTGATCTGCATCATGCTCGCCATGTGACCATCGCGGGGTGCCGTATCGAAACCGGGGACGACTGCCTCGCCGGTTACGATATTCAGGACCTGACGGTGCGCGATACGTATCTGAATACTGCCTGTAACAACCTGCGGGTCGGCGGTACGGGGATCGTCTTCGACCACTGTACATTCCGGGGACCAGGGAAATTCCCCCATCTCCTGGATCACAACTTCGACACCCTTAATGTGTTCATGTATTTCGCCATGCAAGTGGATCCCGTCACCACCACGGCGGCCGATGTGACCATCCGTAACGCCAGCATTGACCACGTGTCTCACTTGGTGACCTACCTGCAGGGCGAACCAACGGCTCTGCAAGATGGTCCCGCCCTCCAATCATTGACGTTCGACAACGTTCAAATTGCTAATATCACAGAAACGTCGCTGTTTGTCGGCCGCAGTGAAAATGCAGCGCTCCGGTTGAAAGAATGTGTGATTACACCCACAACCAATGTGCCGCTGCTGCACATCGACGATCACGTCCGGCTGACGCTGGATCACGTCTTTTTCACCGCCCCAACAACGTTCTTGGTCACGGACGGGCCGACACTGACGTTCAATGGGTTAACTGATTTTTCACGGTAG
>SRR1151209_01091 sugar ABC transporter permease protein
ATGAATGAAGCAACGGTCGATCCCCATAAACCATCGGAGGAAGTACACATTCACCCTAAAGCCCGAAAGAACCGCAATACATTTTTCGGTCACCTTTGGGATAATCGCGTGTTCTTCCTGTTTGTGGCGCCGGGATCTATCTTCCTAATCTTGTTTTTCTACATCCCAGTATTGGCCAACGTGGTGGCCTTCAAAAACTTCACGTACAGTGATGGCGGCTTTGTCCAAAGTCTGCTGAATAGTCCCTGGTCTGGTATTGATAATTTCAAGTTCTTCTTCCAGTCTTCGGACTTTTGGATCGTGATTCGGAATACAGTCGGGTACAACATGACCATGCTGATTCTCAATTTCTTCTTTGCGATATTCTTCGCCATTGTCATGAGTCAGCTGCGTAACCGAAAGCTGCTGAAAGTGTATCAGACCAGCATGCTGTTCCCGTACTTCTTGTCTTGGGCTATCTTGGCATTCTTCATTTTTGCTTTCTTAAGTCCAGACAAAGGGGTGTTCAACTCCATAATCAAATCTTTCGGCGGCAAACCGATAGACTGGTATAACGATCCGACCTGGTGGCCGTTGATCATTATCGTCATGGGTGTTTGGAAAGGCATCGGGTATAACTCGATTCTGTACTTCGCCACCGTGATGGGTATTGATCCGTCATACTACGATGCGGCGATGATTGACGGCGCCAACAAGTGGCAGCAGATTCGTCACGTCATTTTGCCGCACTTACTGCCCATCGCGACCTTGATGCTGATTTTGAACATCGGCGGTATTTTCCGCAGCGACTTCGGACTGTTCTACTTGGCACCGAAACAGTCTGGCTCATTGTTTAATGTCACGCAGACGTTCGACACCTACATCTACCGGGCCCTAGCTCAAACCAATGATATTGGGATGGCTACTGCTGCCGGTCTAATCCAGTCAGTGGTGGGCTTGCTCCTCTTGCTCATTGCCAACTGGGTAGCTCGACGATACGAACCTGATTCAGCACTGTTCTAA
>SRR1151209_01092 sugar ABC transporter permease protein
TTGCGGCAAAAGAAACGTATTTCTGCAGTGGATATTCGCAGCTTCAGCAGTGGGGCCAACCTGTTCTTCAATATTTTTCTGGCAATCTTTGCTCTCAGCTGTTTGTTCCCGTTCTTCTTTATCATCATCATTTCCCTGACCAAGGAAAGTGATCTCACGTTGTTTGGCTATCAGTTCTGGCCAAAAAACTTCTCGATCGCCAGTTACGTGTATTTGAAACAATTCGGCAGTCAAGTGGTGCAATCCTTATTCGTCACGGTATTTATTACTGTAGTCGGGACAATCATGAACACTTTGTTCTCGGCCACGTATGCCTACGCGATTTCTCGTAAGGATTTTCGTTACCGGCGCTTCTTCACGATTTTTGCCTTGATCTCCATGCTATTCGTGCCTGGGATGGTACCTACGTACCTGATCGTTACCCAGATGCTGAATCTGCGGGACAATATCTGGGCGCTGATCCTGCCGATGGCTTTCGGGGTATGGAACGTCTTGATCATGCGGACGTTCTACATGACCCAGGTGCCGGATGCGATCATCGAATCGGCCCGGATCGACGGCGCCGGTGAGCTGCGGATCTTTTCCAGCATTGTTATCCCGCTGTCCGTACCCGGGATTGCCACCATCAGTTTGTTCACTGCTCTGGCTTACTGGAATGATTGGATGAACGCGTTGTTGTATATCAATAGCGATAATCTAGTGCCGTTACAGTATCTGCTGGTGCGCATTCAGAATAACATGGCGGCGTTGGTCAAGGCGGCCACTCAAGGGGCCAGCGTCGGGGCCGCAGCGGCTCAAATTCCGACGGAAGGTACCCGAATGGCCATGGTCGTTATTGCGACTCTGCCGATTGCGTTGACCTATCCGTTCTTCCAGAAATACTTCGTTAAAGGTATGACCATTGGCGGGGTAAAAGGTTAA
>SRR1151209_01093 sugar ABC transporter substrate-binding protein
ATGAAACAATGGCGTAAAGTTCTAATCGCCGGTATGGCGGCTAGTATGGCTTTGATTCTGGGCGCCTGCGGCGGCTCTGGCAATAGTTCCACTGGAGCCAACAAGGTGACCGTCAGCATGTATATGCCAGGCGATCAGACCAAGAACTATAAGGAAGTCATCGCGGCTGCTAATAAACAGTTGCAGAAGAAGTATCCCAATATCCAATTGGACATGAAGTTCATCGGTTGGGGCGACTATACTCAGAAATATTCCGTCATGGTGACTTCTGGGGATTCTTATGACCTGGCCTTCGTCCAACAATATCCGACCAACGCTCAAAAGGGTGCGTATGCGGATATGACCGATTATTTGAAGAATGGTGTCGCAAAGAAAGCTTATGAGGCAGTTGATCCGGCTTATTGGAAAGGCCTGACGATCAAGGATAAGATTTATGCCTTCCCGGTTAACGCGAACGTATTTGCCCAGAACGCCCTGGCCTTCAACCCAACATTCATCAAGAAGTATAACCTGGATGTCAGCAAGGTTCATTCTTACGCCGACGCTACGGAATTGCTGGCGACAATCAAGAAGAACGAGCCGAATGTTGCACCGTTTGGCATTGGTAAGGACTTCAAATTATCTGACAAGGCACTGGAATATCCGTTGACCAACAACTTCCCGCTGGTAGTTGATTCTTCCGGCAAGGACACCAAGATCCACAACATCTATGATCTGCCTGAAACACAGAAGAACTTGGCTGTACTCCACGAGTGGTATGAAAAGGGCTATCTGCCCAAGGATGCTGCAACGTCCACCACGGGTTATGACTACGCTGAGGATACTTGGTTCATGCGCCAGGAAACAGTTGGACCGTTCGACTATGGCAACACTGCCTTGAAGAATGCTTCCGGCGGTAAGGACATTCAATATCAACCGATTACTGATCCGTATAAGAGTGAAGCACAATCGCAAGTTGCATTGTGGGCCATTTCGAAGTCTTCCAAGCATAAGAAGGAAGCTATGCAGGTCCTGAATGCTTTGAATACTGATCCTAAGCTGTTGAACACGATTGTTTGGGGGATTCAAGGCAAACAATGGAAGTTCACCGATGAGAAGAAGGGTAAGATTGAAACCCTGAAGGATTATAAACCGGGCTACTTCATGGGTGCCTGGATGATGGGTAACAACGCCATCCTTTACACGCAGAACACCGTCACGGACGCCATGATCAAGACTCGGGATGACAGTATTAAGGCGGCTAAGGAATCTGCTATGCTGGGCTTCAACCCGGACACTACCAGCATCAAGACCGAGCTGTCTAACATCGCCAACGTATACAGCAAGTACGGCCCGCTGCTGGATACCGGTACAGCTGATCCAATTCCCACCATCAAGAAGATGGATGCAGAATTGAAGACGGCCGGTATCGACAAGGTGATTTCCAACGTACAGAAGCAGTATGACGAATTCTTAGCAAAGAAGTAA
>SRR1151209_01094 membrane protein
ATGCTTGGTAAATTGAGTCAAAAAGTTTTCGTACAGGTTTATGTCCTGATTTTGTTGAATCTATTCTTCTGGGCGTTCACCTTCATCGGCGGCATCGTGTTGGGCGTTGGCCCAGCGTTACGGGTGATCAGTGAACTGTATCTAGACAGCCAGAGCGACTACCAGAACGTGAAATTCAAGACGGGGTGGCAGTACTTCAAACAGTATTTTTGGTTGGCTAATGGTCAGTTTTGGGGCTTTGCCGGTATTTTTGCCCTGCTCGCTTACAATCTATTTCTCAGTGCCCAGTTAACTGGATTCTGGGTACTCCTAGTGCAATTTATCTTGTTCTTTGCCTTAGCCGCGGTCTTGGTCACTGGCGGGTATACACTATTGCTGGTTAGTCGGTTTGATGTAACGACAAAGAACGCCGTGATGCTAGCCATCGGTCAGTTATTTCAGAATTTCACGCAATTCTTACTGACCATTATCGGTTTAGCTGCGATTGGCGCGGCCAGTTACTTCTGGCCGGGACTGATCATTTTTCTGACAGTAGCCACTGCTATCAGATGGTTGAATTATTGCGGCCGGCGCTGGTACGCGCACATTAACACTTTGCTTGCTAGTGGGCATTAA
>SRR1151209_01095 histidine kinase
ATGCATGCCAGTTTTCGCCGGCTGGTTCGGATTTATATTATGATTCTAGCGGCATGTACTGTGCTGGTCGCAGGCTTAGCTGGCTTCCTGCAGATTCGTTCCTTTGACCACACGCTCGCCCAGAATCAAGATTTGGCAGTCAATCGGGTTGGAGAAACCATTGAACGGTACCAGAATCTGACCAATGATTTTGCTACCCAGCTGGCGGCAACGGCAGATGATTTAGCGAATGTGGATGTCTTTTTCCATGCCTCTTTGGCGGATTATGCCACCTACGCCATTGATCATAGTCAGGGCAGTCAATATTTCTTTCTGCCCAATGAGGTGACCACCCTGCTGATTCGCTACCCGATGATTACCAAATTACGAATTCAGGTACCCAACTCAAATGAAACATACGTGGTGACGCAGAAAGAAAAGGGGGGCAGTTTAGTTCGGGAGCAGCAAGATATTACCGGCTTTACGCTTACTGCACCGCTGATCAATTCCATTACGCTAAAAAATGCGGGGACCTTGTCGTTGACGTTTGATCCGGACTATTTACGCCGAGATTTGACTCAATTGCACACGCAGGCCCACTTACAGGTGGCGGTGGTCAGCGATACGAATCGATTGCTTTTTCACTATGTGGATAGCCAGGTGATTGCAAGTAATGAGCGGAAGGTGGCGACGACGGCCACCAAGGGCTCGCTACAGGAATTGTTGCAAAGCCAGGCGTATCAGGGTCGCATGGAACCTTTAGGGACAAACAATGCCGTAGCGGTATTGGTGAATAGTGATGCGCACCGCAATCAGCTGTGGGGCCTCTTGGCACCAATTCTGACCTTGGCGGCAGTTATGCTGGGTATTTTGATTCTTTCGCTCTTCCTCACTTTCCGCCGCTATCAAACCCAACTCACCGCCATGATCCAAAAAATGCACCAAATCGGTAAAGGCCAACTTGGTGAGCGCTTGGCAAAGACAGGCAACAACGATGACCTCAACGTCTTAGCGACCGGCGTCAATGATATGCTGACAGAGATCAATCAGTACGTTTACCAGATCTATCAGCTGAAGATTGCCCAGCAGGACGCCAACATGAAGGCTCTGCAGGCTCAGATCAACCCGCATTTTATGTATAATACACTAGAGTACATCCGCATGGCGGCACTGGATGCGGGGCAGCGGGATTTGGCCCAGGTGGTATTCAGCTTTGCCAGTCTGCTGCGCAACAACACGGATCAGGGACCGACGGCCACGCTGGGTGACGAGCTGCGCTTTATTGAGAAGTACATTTACTTGTACCAGGTGCGCTATCCGAAACAGTTGGCTTATCAGATCCGGGTGCCGGATGATTTGCAGCAGCTGGTGATGCCGAAATTCACCTTGCAGCCGCTGGTGGAGAACTATTTTGTGCATGGTGTGAACTTTGCTCGGCAGGACAATGCGATTTCGATCACGGCGCGACATGTGGGCGACCACGTGGAAGTGGCGGTGATCAACAATGGGCAGTCTTTGAGTGAAGCGGAGTTGTTGCGGGTCAACCAGCACATTGTCCAGCCAATTGAGGGACCGCCCCAGTCGATCGGGCTGCAAAATGTGTACGCCCGGTTGGCCCAATTTTTTGGCGACAGTGTGGCGTTGACGCTGCATCGCAACGCGTACGGCGGGATCACCACCACGGTGGTGTTTCGGCCGCGGTATCAGAAGGGAGAGGAGCAGCATGATCGCCACGATCCTGGTCGATGA
>SRR1151209_01096 two-component system response regulator
ATGATCGCCACGATCCTGGTCGATGATGAGTTTATGATTCTGCGGGGGTTGCAGAAATTGATTGACTGGGAGGATTTGGGATTTCAGATTACTGGTACGTTTCAAGACCCGGCGGGGGCGCTGAGTTTTGTGCGCCATGAACAGCCGCAGCTGCTGATCACGGATATGAACATGCCCACCATTGCCGGGCCGGACTTTATTAGTCAGGTCCGTCAGGTGCAGCCGAACATCGCCATTATCGTACTGTCCGGCTATGGCGACTTTGCTTATGTCCGGGCAGGTTTGCAAAATGGCGCACTGGATTATTTGCGCAAGCCGGTGGATCCCGATGAACTCACGGCAGCGTTGGCGAAAGCTAAGAAGCAATTGACCAAGCAGGCTGAGCGGGCCCAGGACACTTTGCTGGCGCGCCAGCAGCAGGTGCAGCACTTGCTGACGGTGGCGACGGGACATCAGGATAGTGCAACCGTAGCCGCGTTGGAATTAACGGAAGACACGCTGGCTGAACAGGTCCGGGTCGTGGCGGTGCTGCGGCCGGAGCGGGCGGTGCTGGCTGACTTTTTGGCCCAATCACCGCCGGTGGTGGGCTATTTCTGGTCTGGTCAGGATGCAATTATCCTGCTGCGGGGTGACAGTGCCCATGTCCGCTACTGGACCAGCATGCTGCCCCGGGTCGTCGGTTCCCAGCAGCGGCCGATCTTAATTAGTCAGCCCACCACCTTTCTCAGCCAAGTTCACGCGCTGTATGTGACGATGCAGCAGGCGGTGGAGCAGGCGTATTTCTACGAATTGGCCGCCGGGCTGGTGGTCCTGCCCACCGAATCGCTGCCCCAGGAGCCGAGTTTGGACGAGGTGGCGGAACAGTTGCGGGGCATGGCCCCGGCTGAAATGCACCGGGCCTTGCTGGCGTTGAATGCCCGAATTCGTCGCGATCCGGTCGCGGTGCCCTATGTCCGGCAATTGGCGCTGGTGTTTTTGATGGCCGTCAATCCCGATGATGATGAGCGGGTGCATCAAATCAATACTGCCCCCACGCTGGCGAGCCTGCATGACCTGCTGCTGGAGGCGCTGGATGCTGCGGCGGCGGTCACGGACACCCGTTATTCAGACAGTGTTCAAACCATGCGGTCACTGGTCAAGCAGTATTACGCTCGGCCGTTGCAGCTGACCGATATTGCTGAGCGGCTGCATTTGAATCCGGTATATTTGGGCCAATTGTTCAAGAAGGAAACCGGCCAGACCTTTTCCCAATATCTGGCTGACTGGCGGATTACCCAGGCTAAGGTTCTGCTGCGCCAGGGTCAGTTGGACATTGGTTTGATTGCGGAGACAGTGGGCTATCAGAATAACGGTTATTTTTACAAGGTGTTTAAAAAGCAGGTTGGCGTATCGCCCCGGACTTTCCGGGAACAGAATCGGCTGGTGCGAGTTTAA
>SRR1151209_01097 cytochrome bd biosynthesis ABC transporter ATP-binding and permease components cydD
ATGTTCAAGCAATTGTTTCGATACGGCCGCGCTGGATTAGGCGGTGCCCTGCAGCAAGCGGTCAATGAATGGCTGCTGCTTGTATTGCCCGTCCTCACCGGCGGCGGTATTCTCTATTGGTATATGACCCGCCGCCTAACTTGGTGGAGCGGGGTACTGCCCCTGGCGTTGTTAATTGCCTGGGGGCTTTATAGTCTATTGCCCGGGGCCCAGAAGCGGGTCCAAAAGTGGAGTGTTCTAGCCAAACGGGAGATTCGCCGGGATTATTTGCAGGGCCTTTTTTCGCCCCAAATGACCGCCAGCGGTGACTTCACCAGCAACAAGGTGATTCAGCGGGATCTCGGCGGTATTAACCGGCTGGATGCCTTTTATGGCACCTTTTTCCCCGGTTTGTTTGCCAGCGGCTTGTCCTATTTGCTGCTGATCAGTCTGGCAATCGCCTGGCACAGCTGGCTGCCGCTGCTGCCCATCGCCTGTTTCCTGTTGATGGGCGTGGGGATGATGCTGCTGCAAAAGATCAGCCCCAACATTAATCGCCAATATTTGCAAAGCTTTGTCCAGCTGGGCAGCCGCTTTCTGGATGATCTGGGCGGCATGAGCACGCTGGTGATGTACGGCGCGGCCAAACGGTACCGGGAGCGTTTCGCTAAGGATGCGGAGTTTTTCCGCGGGAAGACCATGGCGCTGCTGAAGTATCAGCTGCAATCCCTGTTCATTCTGAACGGGCTCGTTTTCGCCGGCATGGGCGCGGGCGCGTTTGTCCTGTGGGGACCGTTGCAGGCCGGCCGCTTGACCTTAGTCCAAGCCAGCGTGCTGTGGCTGCTGTTGGCGCAATTGCTGGTGGCCGAGCGGCAGCTGGGGTATTTCTTCCATATTGTCATGAGTACCCGGCCGGCTTTAGCCAATATTTTTCGAATCATCGCGGCTGGTCAGGAGACTCCTGGGGATGAGACCCGCGGCACCTTCCGGGGGACCATCAAGACAGTGCATTTCCATAATGCCGCATTTGGCTACGCTGACGGTCCGCGCCTCTGGTCCGATGTGTCGCTGACGCTGCAGCCTGGTCAGCTGTACGGGCTGGTGGGGGAAAACGGCACTGGCAAGAGTACGTTTGCTCAGGTCCTGCGCGGTCAGTTAGCCCTCGTCCAGGGCAAAGTCACTTTTGACCGGCGCAATGCCGCTGCTTTTTCCCGGGCGGATTGGCTGAACCATGTGGGTTATTTGGATGATCGGCCGTATTTGTTTTCGGGGACGATTGCTGAAAATATTGCATTGGGTGCGGCTGACCAGCCGGATTGGTGGGCCCAGGTAACAAAGCTCGGGCTATGCCAATTCGCGGCAGACTTGCCGGCGGGCCTGCAAACGCAAATCGGTGAAGACGGTCGTTTTCTGTCACCGGGGCAGCGTCAGCAGATTGCCTTTGCCCGGCTCTTATTAATGCATAAAGACATTTATATTTTCGATGAAGTGACGGCCAATATTGATGCAATGAATGCCCAAATCATTATGGCCGCGATCAAGCAGCTGAGCCAGCGGGCCATTGTGCTGTGTATCACCCATGAATGGCGGGCGATCGATCAGCTGGATGTGATTTACTTCCTAGCGGACGGTCAAATCACCAGCGGGACGAAACGGGTATTGGCTGTGGACAACGCTGCCTTCCGCCGGTTATTAGATACGCAAAAGGAATTGGAGGCGGCGGGATGA
>SRR1151209_01098 multidrug ABC transporter ATP-binding and permease protein
ATGATTCGACGCATGTTAACGTACGTGGGCTATCTCGTGCCCGTTTTGATTTTCAGCTGGTTTGCTGGGCTGATTGCTGAGCTTGGTCAGGTCTTCGTGGCTTGGCAGGCCGGGCGCCTGTTCATCAGCGGCAGCCAAAGTGTCCGCCCGCTGCTCTGGTGGCTGATCGGCGGCATCCTCATCGCGGCGATCGGTGCCTTTGCCGAGCAATACGCGGGGCACTATGTGGCGTTCAAGGCCCTGGCCGATCTGCGCAACGTCGTGTACGCCAAGGTGCAGCGCCTGGCCCCGGCGGGACTGGATAATCAGCGCTCCGGGGATCTGCTGAAAGCCGTAGGCGATGATATTGAGGCGATGGAAGTATTCTATGCCCATACCATTGTGCCGATTGCCATCGGTGCGACCTTCACGCTGGTACTGGCTGTGACATACGCCTGGTACGATCTGGTGGCTGGGCTGCTGGTGTTGGCGGCTAGTATACTGGTCGGCGGTGTTTTGCCGTTATACCGGTACCGCCGGCTGCGTACCGCCAATGCCCGCTTGGCCCAAGTACAGGGCGAGACCCAACAGCAGATGCTGGAGGCGGTGCGCGGTCGGGATGCCTTGCTCCAACTGCACGCCGCCGGTCAGAAAATGGCTGCCGTGGATGCCCAGTATCAACAGGAAGGCCCGGCTCAGCAAGCGGTGGGTGTTTTGAACGGCCAAAAGGGTCAATTGGCCTGGCTGGTCATCATTGGCACCTGGCTGGCGCTGGCTGCTTGGCTGGGTGTCCGCACGCACTTTTCGCTGGCGGTCTTGCCGCTTCTTTTGGCGTTTCCCTTTGATTTTCGGCCCCTCCTGGCGTTGGCTAATTTGCCAGACAGCTTGAGTAAAGGACTGGGGGCCACCAAGCGGGTGTTTGTTCTGTTGGATACACCGGAACCGAATCAGACAGATGGTACTCAGGCGCTGACGGACAACATTGCGGACGTGCAGGTGGATCATTTGACCTACGCTTATCCCAATCGGGCCCAGACGGTCTTGCAAGATGTGAGTTTGCAGCTGCGGCAAGGCCAGATTGGCGGTATCGTCGGCGTCAGCGGCGCTGGCAAATCGACTCTGGCCAAGTTGCTGATGAAATGGTACCCGGCACCAAAAGGGACGATTGCCATCAACGGCGTGGATGCGGCCGATTGGCAGACGGCGACGGTGTGGCAGGAAATTAATTATTTGCCCCAGCGGGCCCAGATTTTCCACGCCACAGTGCGCGAAAACTTGCAATTAGGGGCAAAGAACCTGACCGGGGACGCAATCAAGCGGGTCCTTGCCCAGGTGAAACTCACCGAGCGCATTGACCGGATGCCCATGGGCTTGGATACCGTCTTGAATGCGGACAGCGGTCTGTCTGCCGGCGAACAGCAGCGGCTGGCCTTGGCCCGGGCCTTTCTGCACCCCTCATCATTACTGATTCTAGACGAACCAACCAGCAATCTGGATGTGATCAATGAACAGATCATTCTCAATAGCATTCGGGATTACTACCCTGGGATGGTCCTGATGATCACCCACCGGGAAGAAACGCTGGGCTTCTGTGATGTCGTATGGCGCTTGGCCGATGGGCAATTAACTGTTGAGAAGTGA
>SRR1151209_01099 hypothetical protein
GTGTACCTGTTGCATCGAATTTACAACCAAACATCGGCTGCCATGCAGATCCGATTATTGGAGGAAGAAAACAAGTTATCGATTGGCTATGCCGCTTTTGTTTTGGCAGGGGAGGGCGACACCCTCATCGGGCATGCTCGGACTATGGCCAAGGCGGATTTTGCCGTATACTTCGCGGCCCTGGGCCACAAGATGGGGCTGCCCTGGGCGACCCGGACCCGCAGCCACTGGTTGTATTATTTTCTCCAGTTAGAATCGAATGATACGGTGGTTGTGCCTACCCATACCGGATTTGCCATCTATCGGGTCACAGGCGCGCCGGAGGTGGTGCCGACCGTGGCGCGGGAACATGATGTCGGCTTCACCGTGCCAGTCAAATTGCTGGTGAACGATCCCAAGGGGGCAGTGGGCGCTGCTTTGACCGACGCGATGCGGTTTCGCGGGACGGACTTGATGCTGTCCGGCCAGGCGACCCAGGATATTGATGGGTTAGTCGCTGGGCAGGACACCACGGTGCCCGAACCGGCCGCGGCCGCCGTGGCGGCTGTACAAGAGACGCTGCAGGGATTGCACCCGGCGCAGTTCACGGAGATCGTGGGCCGCTATTTACGTGCCATGGGTGCGGATGAGGTGCGCTATCCAGCCGCTGATCCTAATGAAGATGAGACCCCCGTTGATATTTTGGGTGTCTTCCGCAATGTCGGCGCGGTGATTCTGGTCCATGCCCAACAGTATTCCGGCACCGTACCGGAAGCCGGAATTCAAGAGCTGGTCGGGTTCCAATACACCACTTTTGAAGGGTACGACGCCATGGCGGTCATCAAGTGGTTTGTCACCACCGGCCATTTCCCGGAAGATGAGGATGAGGCCGTGGGTTATGTGCAGGAAAATCGTGTGCAGGTCTTCCAGGATACAGATCTGGCCAAGCGGCTGGTGATTAGCGGCGTTGATCTGAATTTCGCAAAGGCGTAA
>SRR1151209_01100 NUDIX family hydrolase
TTGGCCAACATTGTTTTAGAACGACCCTTGATCACAGTGACCGATATTGTCTGGGGCTTTGACCAGACAACCCAGCAGGTCAATGTGTTATTGATCAAGCGTGCTGACCAGCCGTTTCAAAATTTCTGGGCCTTGCCGGAGACGGCGATGCGCGTCCATGAAAGTGCCCATGAAGCCGCCCTGCGGTTGATTCGGGAAAAAATCGGCTTGGATCTGTCGGCATTCCACGCCGAGCAGCTGGCCACCTTTACGGCGCCGGACCGGGCCCCAGGGGAGCGGGCGCTGTCTTTGAGCTACATGATTTTTCTGCCCCAATTGCCGGAACTGACGCCCGGGCCCGGGGCCTTGGCGGCGGCTTGGTTTGCTTTGACGCCCCAGACCAATGGCCGCTTCCGGTTCAGCCGGGCAGGGCAGCAGTTTACCACCTTGGCGGCGGATGAGTATCTGCGGGATCAGACCCCCACCACCGGTCTGGCTTTTGACCACAACTGGATCTTGACGGTGGCCTGCCAGCGAATCGCCAATAAGTTGGACTATCAGCCCACGATCCTGTTGATTTTGGGCCCGACGTTCACCCTGAAGCAGGCTCGCCATATTTTTGCCCAATTCGGCCAATCGGAGCCGGACAACTCCAATTTCTTACGCAACCACAAGAAACTGCTCACGCCCGCGGGGTCACGCCCCCAACCAGGGCCGGGGCGGCCGGCTAAAGAATTCCGCCTGGCCGATTTCTGA
>SRR1151209_01101 enolase
ATGGCAGTTACGATTAGTCAGGTCCATGGACGCGAAATTTTTGATTCTCGGGGCAATCCCACTGTGGAAGTGGATGTCCATTTGAGCGATGGCGGCTTTGGCCGTGCGGGGGTACCCTCCGGCAAGTCCACGGGTGAAAATGAAGCCGTGGAATTACGGGACGGCGGCAGCCGGCTTGGCGGCAAGGGCGTGTTAAAGGCCGTGGCCAACGTCAACGGCGAGATCAACAAGCGGCTGCAAGGCGTTTCACCCTTCAACCAAGCGGAGATCGACCATATTTTGATTGAACTCGACGGCACACCGAACAAGGGCCGCCTAGGTGCCAACGCCATTCTGGGTGCGTCCATGGGCGTGGCCCGGGCCGCGGCGGATTCGCTGCACGAACCGTTGTATCGCTACTTAGGCGGGGTCGATCTAGAATTGCCGCAAACCTTCCACAACGTCATCAACGGCGGGGAACACGCCGACAACGATATCGACATCCAGGAATTCATGATCACGCCCATCGAGCGGAAGAACTTCCGGGATGGCTTTGAAAAGATCGTCAACGTGTATCATCAACTGCAAGCCAACTTTGAAAAGGAAGGCTTGTCCACCGGCTTAGGTGATGAAGGCGGCTTTGCGCCGAACCTGCCTTCTGATGAAGCGGCGATTCAAGAGCTGGTCAAGGCCATCAAAGGTGCCGGTTATGAACCGCGGAAGGAAATCGGCATTGCCTTTGATGCCGCGGCCTCCAGCTTTGCCCAAAAGGATGGCACGTACTTGTTTGAAGGCAAGAAGCGTTCTGCCGATGAGATGGCGGCTTATTACGAAGACTTGCTGAAGAAGTATCCGGCCATTGTCTCTATCGAAGATCCGTTTGGTGAAAACGATTGGGACAACTTCGCTAAGTTCACGCAAAAGAACAAGGATCGGGTCCAAATCGTCACCGACGATAATGTCTGCACGAACCCGACTCTGATCCGCAAGGCCATCAAGGCCGGCCTGGCCACGTCCTTCCTGATCAAGCTGAACCAAATCGGGACTGTGAGCGAAACGATGGAAGCCATTCGTTTGGCCCGGAAGAATAACTGCACCGTCATGGTGTCCCACCGGTCTGGTGAAACCACGGACGACTTCATCGCCGACTTCTCCGTCGCCATGCACGCGGAGCAGCTCAAGGCTGGTGCACCGGCCCGGGGTGAACGGTTAGCCAAGTACAACGAATTGCTGCGGATCGAGGAAGAATTGGGCGACCAAGCGAAGATTGCCACCTTCCCAGACAGCGTCGACTTAGACTAA
>SRR1151209_01102 cadmium-/manganese-transporting P-type ATPase
ATGGAAGAAAAATATCCGCAGGTGGGGCTCGCCCCAGAAGAAGTGGCGGCGAAGCAGAAGGAGTTTGGGGCGAACCAGCAGCCAGCGCTGCCCACGGCGTTTTGGCGCCTGGTGCTGAACGGATTGTGGGGACCGCTGCCCTGGCTGCTGGAGGCGGCCATTATTCTGGAATTCTTTTTGGGCAAGGGGCTGCAGGCGACATTTATCCTGTTGCTGCTGGTTTTCTCTGCCGTCGATGGGGCGGTGCAAAAGAAACGTTCGATGAAAGCGCTGGGCGGCCTGCACGCCGATCTGCGGACCCAATCCCGGGTGAAGCGGGGTGACCAATGGGAAAATATGCCGGCCGACGGCTTGGTGCCGGGGGATATTGTCCACGTGCAGCTGGGAGACGTGATCCCGGCCGACGGAACGGTCCTGATTGGCGGCCTGAGTGCCGACCAGGCGGCTTTGACCGGTGAAAGTGCACCGGTGGCGAAGGCCGTTGACGATCCCGTCTATGCGGCCGCCACGGTCGTTTCCGGCGATGCCATTGTGCAAGTGACTAAGACCGGGACCAACAGCAGTTACGGCAAGACCGCTGAATTGCTGACCCATGCCACCGCACCGGGCCGGTTGGAGAAATTACTGTTCGGCATTGTCCGGCTGCTGGTGATTCTGGATGTGGCTTTGGTGCTCGTCTTGACCGTCACCGCGCTGCTGCGGGGCACGAGTATCATGTCGCTGCTGCCGTTTCTGGTGATTTTGTTCATCGCTACGATTCCGGTGGCGATGCCGTCCAGTTTCACCGTGGCCAACTCTGTCGAAGCATCACGATTAGCCAAGAAAAAGATCCTTGTCAGCGGACTGACGGGGATTCAAGAAGCAGCATCATTGGATGTGCTGCTGGTGGATAAAACTGGGACGCTGACCCAGGACCGGACGGCCCTTGCCGCTGTGTCTGCGTTGGAGCCGGCCAGCTATAATGAGGATGCCGTATTGACTTTAGCGGCCGCCGCTTGCGATCCCCAGGGCCGCAGCAGTATTGAACGCGCGATCCGCGAGGGCGCCGCGAAAAAGGGTACTGTTTTAACCCCGACGTCGTTTACGCCCTTTGATCCGGCGAAGAAATATTCAGCCGCCACGGTGACTTGGCAGGCGCATGATCATCAGGTGCAGCTTGGTTCGCCGACAATTTTGATGCAGGCCGCTCAGGTACCGGACAATTTGCGCGCTGAACTGGCAAAGCTGACAGCCACCGGTGCACGGGTCGTAGCGATCGCCGCGGATGGCGTTATCGTTGGCCTAATCGCCATTGCCGATCCCATCAAGCCCGATGTGCCAGCGCTGATCAAGCGGCTGCGCACCCGGGGCGTGCAGGTGATCATGCTTACCGGTGACACCCGGGCCACGGCCCAGGCGGTGGCGCAGCAAGTCGGTCTGCAGGGGGCCATTGGTACGCCGGCTGAGATGGACCAGGCGCCCCGGGATTATGCCGGATTTGCCAACGTCCTGCCCGCGGATAAGTTCCGGCTGGTCCAAGACTTGCAAAAAGCCGGGGCCGTCGTCGGCATGCTGGGTGATGGGGTGAATGATGCGCCAGCGCTGAAGCAGGCCGATGTGGGGATTGCCGTGACCACCGCCACGGATATTGCCAAACTGGCCGCCGATATTATTTTGACCGAACCCGATCTCGGGGCCATCAACGATGTCGTTGATTCCGGCCAGCGGGTCTATCAGCGGATGATGACCTGGATCATCACTAAACTGACCCGGACGGCTCAGCTCACGATTCTGCTGACGTTCGGCTACTTGTTCACCGGTTTCTTCCCCATTTCTCTGAGCATGATCGTTTTCATCGTGATGATGAACGATTCTGTGACTCTGACGTTGGGGACGGATCGGACCTACCCCAGCGACCGGCCGACCCGCTGGCAGTTGGGTGATTTGGCCAAAATTGCTACGGGTTTGACGTTGGGCTGGCTGGTGCTGGGCTTCTTGCTGCTGTGGTACTTCGAGTACCAGCTGCACCTGTCCGCTGATAGCACCAGCACACTGCTCTTTGCTTATCTGATCTTCTCGGCCATGGCCACGATTTATATGACCCGGACGCGGGGGGCCTTCTGGCGGGCAGTGCCGAGCCGTACCGTGCTTGGTGTCACCTGTCTCAATATGGTCTTAACAACAGTCATGGGGCTGACCGGGTTCATCACTCCGCGGGCACCGATTGGGCCGTATTTGCTCGTGATCGCGGGCGTGATTGTCTTCGCCGTGTTACTGGATCTGCTCAAGCAGGCGTTTTATCGCCAGCAAGCGGCGTGA
>SRR1151209_01103 N-formylglutamate amidohydrolase
TTGGACTTAATTACGATTCAAAACCAACATACCCATCGTTACCCCGTTGTCATCAGCCTGCCTCACAGCGGCACTTGGCTGCCGGATGACATGCGCCAAGCACTCTTACCCGGAGCCATTCTGGCCAACACGGACTGGTTTCTGCCCGCCCTGTACGACTTTCTGCCCGCCACTGGTTTCACGACCCTGACCAATCACGTCAATCGTTATGCGGCTGATCCGAACCGATCGGTGATCGTTGCGCCGGCAGGCAGTTATCAGCGGACCACGGTATACCAGCAAAATACGTTTGGTCATCCGCTTTACGCCGCGCCGCTATCATTGCCGACGATCGAACACCGCCTGGCCGCTTACTATCACCCGTATCGCACGGCGTTGCAACGCTTATTAGCTGATAAAATCGCCGCGTTCGGTCATGTCACCCTGATCGATTTGCACAGTTTTGCGTTCTACCCCGGTCAGCCCGGCATCCATCCCCAAGACATCGTCCTGGGCAGCGAACACGATCAGACCAGCAGCAAGGCCTTCCGCATGCAAGTGACCGCCGCACTGACGACTGCCGGATTTACCGTATCCGATAACTATCCTTTCCGCGGCGGCGACATTACCCGCCACTACGGCCAAGACCCCCGGGTCACGGCGTTGCAGATCGAACTGAATTATCGCTGTTATATCGGCAATACCCGCCGCTATGGTGAAGAAGAACTGACGGATTATGACCCTGCGCTGTTTGCTGCTGCGTCACGCCGCTTGCTGGCGATAAAACGCCTGCTTGAGCAGATCCAGTAA
>SRR1151209_01104 dTDP-glucose 4,6-dehydratase
ATGCATATTCTTGTGACCGGCGGGGCCGGGTTTATCGGCAGCAGCTTTATTCGCTTCATGCGCCAGCGGCATCCTGATGATGTGCTGATCAATTTGGACGCGCTGACCTATGCGGGGAATTTGAGCAACCTGGCGGATGTGCCTGAAGAGGCACACTATCATTTTGTTCACGGTTCTATTCTGGATCACGATCTGGTGGTACAGCTGATTAAAAAGTACCAGATCGACGCCATCGTGAATTTTGCTGCTGAATCCCATGTGGACCGCAGTATTGCGGATCCGCTGGTCTTTGTCGATACCAATATTCGCGGTACGGCCACGCTGCTGGCGGCGGCCCGGGAGACCAGGATCGAGCGGTTCCTCCAAGTCTCAACGGATGAGGTCTATGGCAATATTCCCGGCACCGGCTATGTGACTGAAGCAGCCCCGCTTCACCCCAGTTCTCCTTACGCCGCCAGCAAGGCCAGCGCGGACCTGTTGGCGCTGGCCGATCACCATACCTATGGCCTGGATGTGGTGATCACCCGCTGTGCCAATAACTATGGTCCGTATCAATATCCTGAGAAGCTGATCCCGCTGATGATTCAGCGGGGCCTGACGGGCCAGTCGCTGCCGGTGTATGGCGACGGCTTGAAAACCCGCGACTGGCTGCACGTGCTCGACCATTGCCGGGCGATTGATCTCGTGCTGTGCCATGGGCAAAGCGGCGAGATCTACAATGTCACGGGAAACAACGAGCACGCCAATTTAGAAGTTGTCCGGCGGATCATTCAGCAGCTGCATATTGACCCGAGCTTGATTCAGCATGTGCCGGATCGGTTGGGGGATGACTCCCGGTATGCGCTGGATGCGACGAAGATTCGGGACGAACTGGGCTGGGCGCCAACGGTGGCTTTTGCCCAAGGCATGACGGATACCATTGCGTGGTATCAGACGCATCGGAGTTGGTGGCAAGGGTTGAATCAAGGCTAA
>SRR1151209_01105 chromosome condensation protein CrcB
ATGACGTCTACACGCGCTGCGCAATGCAGTGGCTTGTGGACGTCATTTTTTCGTGGAAGGGGAAACAGTGTGAAGAAGATGGGCAGTATCCTCATTGTATTTTTGGGTGGCGCTTTAGGCGGCCTCGCCCGGTATGGTTTAAATCAATGGGTGGGTGACCCAACAAGCCTTTTAGGCACCACCATTGAAAACTTAACCGGCAGTTTTCTTCTGGCGCTGTTAACGGCCTATGCCGTGGACAGTGATTGGCCCGATGCACTGGTACTGGGCCTGGGTACCGGGGTGATTGGCGGGTATACCACGTTTTCTACTTTGATGCTGGCTACGATGACCAATATCCGCCAAACCCCAGGGCGGACCTTGGGTTTATTTCTGGTGAACCTGCTGGGCGGGTTAGTGCTGGCCGGCTTGGGCTATTACCTCGGCGACCGGGCCACTGAGCGACGGGAGGGGGAGCAATGA
>SRR1151209_01106 camphor resistance protein CrcB
ATGATTTGGTTTTGGCTTGCTGTCGGTGCCGGGATTGGTTCGGTGCTGCGATATGGCGTGACGACGCTGGGTAAGCGCCTGTGGCCGGGCCGGCCGTGGGCGACGATGATCATCAATGTGCTCGGGGCTTTTGCGGCCGGCTTGTTCAGCAGCCTGGCCGGGTTATCGCCGCTGGTGCAAACGGTCCTGCTCACTGGTTTGTGCGGCGGGTTCACGACGTTCTCCACGTTTACAGTGGATATGGTCATTCAATTGCGGAACCGGCAATGGACCTGGGCGCTGGTGTACGAAATCGGGTCCGTGGTGCTCGGCTTGACCGCCGTTTGGCTGGGGATGCTGGTTGGCGCATAG
>SRR1151209_01107 4-carboxymuconolactone decarboxylase
ATGGCTAAAAAACAAACCGCAGGTCGCGACAACTTAGGCGACTTTGCGCCGAAATTTGCTGAGCTCAATGATGATGTCTTGTTTGGTGAAGTGTGGTCCCGGGAAGATAAAATGTCCGCCCGCGACCGCAGTCTGATCACCTGTGCATCATTAATGTCTCAAGGATTATTCCCGCAATTAGAATCCCACATGAAACTGGCGAAACAAAACGGCGTGACCAAAGACGAAATGGTCGAACTGATCACCCAGCTGGCCTTCTACGCCGGCTGGCCCAAGGCATGGTCCGCCTTTGGTTTAGCGAAAAAGATTTACACGGATTAG
>SRR1151209_01108 4-carboxymuconolactone decarboxylase
ATGACAGACCAGTCTGTCCTGGCCGGTTTTGAACACCGCACTAATCCGCTTGTGCATGCGGTTGACCATGCGGGGGCAATGCACCTGACCCGCGACCGCCTATTGATTCCGCTGATTGCCAGCGTTTGTCAAGGTGTTCAGGCACCAATCACCGCCCAAACTGAAGCAATCCTCGCCGCTGGGATTGATCCGCAAGTCATGCTGGAAGTTGTTTATCAACTGACCCCCGTGGTCGGTACATTACGCGTCGCCCAGGCCCTGCCGGCGATTCAGCGGGTCTTCACTGACCAGCACGTGGCCGTGGCGGCCGCCGTCCCGGATCAGGCACCCGACTTTGGCGGCCAGACCCAAGCGGAACTTTACGGCACCGAGATCAAGCATTTGCTGCACGACTTGCCAGACGGCGCTGGCGACTTCATTCCCGCAGCGTTGACCAATCATTTCTTCAATGATTACTACCGCTACGGCGTGCTCAGCGTCAAAGACCGGGAACGCTATGAGCTGCTGGCCCTGATTACCTTGAACGTGGACTTTCAAATCAAAGCGCACGCCCGGGGTAGTCTCAAAGCCGGGAATACGGAAAGCGAGCTCGTCTGGTCCGCCATTCAGCTGCTGCCCTATATTGGTTTTCCCTTGGTCATTAACAGCGTCCACGTGATCCATGACGCTGCGACGGCCTTGGCTGAATAA
>SRR1151209_01109 LytTR family transcriptional regulator
ATGACAGACAATACAGAAAAAGGCGGCCTTTTCGGCTTAGGCGACAAGAACACCGCGTATCAAAAATACTTTATTGATCAAAGCTACTTAAACGGGTTGATTGCCGCCGATGACGACATTGACGTGCAGGTGGCCAATGTCACCTTTGAACCGGGCTGCCGCAACAATTGGCACATCCATCATGACGGTTTCCAGCTGTTACTGGTCACTGCTGGCGAGGGCTGGTATCAGGAAAAGGGCCAGCCGGCGCAATTGCTCCACCCCGGTGACACTGTGGCCATTCACCCGGGCGTTGAACATTGGCACGGGGCGACGAAAGACAGCTGGTTCAGCCATATTGCCATCACCAAAGGCACGACTGAATGGCTGGCCCCAGTCACAGATGCCGAGTATGCTGAATTGGGTACCAAATAA
>SRR1151209_01110 LysR family transcriptional regulator
ATGGAATTGCGGACTTTACGGTATTTAGTGGCGATTGCCGATGCGGGGACGATGACCGCGGCGGCCCAGCAGCTGCATGTTTCCCAGCCGGCGTTATCCCGGCAGATGATGGATCTGGAAGATGAGCTGCACACGCCGTTGTTTGACCGCTCCGGGCGCGGCGTCAGCCTGACTTCGGCGGGAACCTACCTGGTGAATCGGGCCCGCCAGATTTTGACCATGGCCGATAGTACTGTGGCGGCATTGGACCAGCAGACGCCGCTGAGTGGTCCGCTGACCATTGGGTTAGGAGAATCGCCGCTGAATCAGCCGGTCCTGTCAGCGGCCGCTCATCTGGTCCAGCAATACCCAGCGGTGCAGTTGCGGCTTTATAGCGGCAACGCCGACGATATTTTTGAACGGCTGGACCATGGCTTGCTGGATTTTGGCGTCGTCATTGATCCGGCCGATAAGAACAAATACGCCTGGGCGCCGCTGCCCGGGCGGAATGTCTGGGGCCTGGCTATGCCGGCCAGTGCGCCGCTAGCCAAGGAATCGGGCATTACCCGACAGGAGATGCTCCAATTGCCGCTCATGATCTCGGAACGCGCGGCGGTGCAGCAGATGTTAGAAAACTGGCTGGGCGCACCACTCAGCGCAGATCAAATCGTTACCCGCTACAACTTGATTTACAATGCCGCGCTGCTGACGAAGGCTGGGGTGGGGTACGCGGTGACTTTGCGCCATTTGCTGGATCCCACGGACCGGACGTTGGTGTTCGTGCCGTTCACGCCGACCCTGACCACCGCGATGACCTTGATCTGGCCGAAGAATACACCGTTATCCCCAACGGCCCGGGCTTTTCAGCAGATTTTTAGCACGCAAAACCCTTAA
>SRR1151209_01111 muramidase
ATGAAGAAAAAGTCATGGCGTACTTGGTTACGCACTGCCGCAGTAGCGGTCGGCGTGCTGGTGGGCGGACTGTTGGCCAGTCCGGCCAGTACCCAAGCCGCCGCGCGGAATGTCGGCACGGTGAATTATGTGCAAGGTTACGGTATTGTGCTGTATCAAAAGCCGGGGAGCGGGGCGTTACCCAAGTATTTAAAGACCAACAGTCGTTGGCAAGTCTTTTCCGGCGGGCAAGCGGGGAGCGACTATTACTTCGGTCTAGGCGGTGCACAGTACATGTCCGGCCGTTATTTTGACCTGCAGAACGAAACAAGCAGTCAATCCCTCAATGCCGTTGGCCGGGTGAAATACGTGCCGGGATACAGCATTGCCATTTGGAATAAGGCGACCAATGGCCGCCAACCGGTACCGGGTCGCAAGCTGCTGCATAACTCCGCTTGGCGTGTATTCGGTCGCAAGGTGGTCAACGGTCAGTCCTGGTACGAATTGGGTACAAACCAATGGATTCAGGGCACCTATTTCTATTTGACTAAGGAGACCAGCCGCGGGGCTAAGGCCTACACGACCAAGCCGGAAGATTTAGTGAATAATCCGGAATCATCGAATCCTGGCCAACCAGAAACCAACCCCGGTCACAGCGACTATGAAACAGTCTTTGTAGCCGCCACGGGCAATAAATATCACTTCAACCGCAACTGCCGCGGGCTTTCAAACGCGAACCAAAGCACGCTGCGCAAGATGACCCTGAAAGAAGCCAAAGCGAAGGGCTATACGCTTTGCAACTACGAACACTAA
>SRR1151209_01112 NADH oxidase
ATGAAGGTCATCGTCGTTGGTTCTTCCCATGGTGGTTACGAAACAGTCCGCGGTATTTTGGCTGAACAGCCCGATACTGAAATTCAATGGTATGAAAAGGGGGATTTTCTCTCCTTCCTCTCCTGCGGGATGCAGTTGTACTTAGAGGGTGTCGTGAAGGACGTCAATTCCGTCCGCTACGCGACCCCGGAAGGCATGCGTGCCCAGGGTGTGCACGTCTTCACGCGCCAAGAGATTACCCAAGTGGACGCTGCAAAGCATCAAGTCACGGTCCACGATTTGGCCCACGATACGACTCGGACAGAAAGTTATGATAAATTAGTGCTCTCCGTTGGTGCGGTACCGGTCAATCTGCCGGTACCGGGCAACGATTTGAAGAATGTCTACGCCATGCGCGGCCGGGATTGGGCAATCAAGCTCAAGGCCAAGACCGTTGACCCGACGGTGCAAAATGTCGTCGTTATTGGGGCCGGTTATATTGGTGTGGAAGCCGCTGAAGTGTTCGCGAAAGCAGGCAAACATGTCACCTTAATTGATATGATTGCCAGACCGCTGGGCCTTTATCTGGATGCGGAATTCACCGACCGGTTAACTGAAACCATGAAGGCCAACAACATTTATCCGGCCACCGGCCAACTGGTGAAGGAATTTGTCGGCCACCAAGGGGCGGTGCAGCAAGTGGTTACCGACCAAGGTACTTATCCGGCAGATCTCGTGATCCAAACCGCCGGAATCAAGGCCAACACTGGCTGGCTCAAGGGTGTGGTCGACTTGGATGAGAAGGGCTTGGTCAAGATCAACGACCATCTGGAAACATCCGTGGCCGACGTTTACGCCGTGGGCGATGCCACGAAGGTGCCGTTTGCGCCCACAGACACACCGCAGCAGATTGCCCTGGCCACCAATGCCCGCCGCCAAGGCCGGATCGCGGCCAAGAACGTGCTGGGTGACGACGTCGCCATGCCGCCGGTTTCCGGTTCTTCCGCTCTGTCCGTCTTTGATTACCACTTTGCTTCCACGGGGATCAAGGAAGGTACTGCTGAACGGTATGGTGTGAAAACGGCGTCGGTCTTCGTCACTGACACGACCCAACCCCCGTTTGTGCCCACTGAAGCCGGCAATACCGAAGTCTACTTCAAGCTGACTTATGACCCGGCAAGCCTGCGCGTGTTGGGCGCCCAAATCATGTCCAAGCGCGACGTGACCGCGAACATCAACGCTATCAGTCTGGCGATTCAAGGCAAGATGACCTTGAAAGATCTGGCCTACGCTGATTTCTTCTTCCAACCGGGCTTCGACCGGCCATGGAATATTATGAACGTGGCGGCGCAAAAGGCGCTGCTGGCAGAAAAGCAGGCAGTGACTAACTAG
>SRR1151209_01113 dihydroxyacetone kinase
TTGAAAAAAATATTGAACAATCCAAGTGACCTCGTGCCGGAAATGGTTGCCGGCATGGTGGCCAGTTATCCCCAGTATGTCCGTCAGATTCCTGAAACCACGGCGGTTGTCCGGAACGATAAGGCATTCACCGGAAACCACCCAGCCAAAGTGGGCGTGGTCTCTGGCGGAGGCAGCGGCCATGAACCTTTGCACGCCGGTTTCGTCGGCCTGGGCATGTTGACCGCGGCCGTCGCTGGCCAGGTCTTCACGTCGCCGACGCCGGATCAGATCTACGCGGCGATCAAAGCGGCTGATCAGGGTCAAGGGGTCCTGCTCATCGTCAAGAACTACTCTGGTGATGTGATGAACTTCGACATGGCTAAGGATCTAGCCAGCATCGACGATATTTCCGTTGAATCCATTGTGGTGGATGACGATGTCGCCGTGGAAGATTCCCTGTATACCCAGGGCCGGCGCGGCGTCGCCGGCACGGTTTACGTGGAGAAAATTGTTGGGGCGGCTGCCGAAGCCGGGGCGGACCTCAAGAGCCTCGTTAAACTGGGCAAAGCGGTGATTGAGCAAACCAAGACCATCGGCGTCGCACTCCACGCCGCCACGGTGCCTGAAGTCGGTCATCCCGGTTTCGAACTGGGTCCGGACGAAATGGAATATGGTGTCGGCATTCATAATGAGCCGGGCTATAAGCGGGAAAAGATGGTCCCTTCGGCGCAATTAGCCAAAGAACTGCTAGATAAAATTGGGCAGCAATACACCGGCGGTCTCAGCGGCAAGAAGTTTGCCGTGCTGGTGAACGGCTTTGGCGCCACTCCGCTGGGTGAACAATTTGTCTTTGCCAACGACGTGCTCCAGCAATTAACGGACGCTAAAGCGACGGTCGCCTTCACCAAGGTCGGCAACTATGTCACCTCGCTGGACATGACCGGTCTTTCGCTGACGCTCCTGCAGTTAACAGATGATAAATGGCTGGACTATTTGAATGCACCAGCCGCGACGATTGGTTGGGGGGACACGCGTAATGAACGTTGA
>SRR1151209_01114 dihydroxyacetone kinase
ATGAACGTTGAACAAGTGAAGCAATGGATGCAGTTGTACCAGACAGAAATTGAAAAGAACAAGGACTATCTCAGTCAGCTGGACACCGATATCGGCGACGGCGACCATGGCAACAATATGGCCCGGGGCGTCGACGCCGTGGCCGCTGGATTAGCGAAAGATAATCCAGCTGATTTGGCCCAGACCTTCAAGAGTATTGCCATGAGCCTGATCAGCAAGGTTGGCGGCGCGTCGGGTCCGCTGTACGGCACCGCTTTTCTCGAAATGGCCAAGGCCGCTAAGGACAGCGAAAGTGACATTCCGACTTTGCTGCAAGCGGCTGCCGATGGGGTCGCCAAACGCGGCGGGGCCAAGGTTGGCGACAAGACCATGGTTGATGTCTGGACCCCAGCAGCCCAAGATGCGAAGGCGGGCCAGCTCAACGCTGCCAACATCGACAAACTCGTTGAGGCAACTAAACCGTTACGGGCGTTGAAGGGCCGAGCGTCATATCTCGGCGAACGCTCCATTGGTCATTTGGATCCCGGCGCCGTCAGCACTGGGATGTTGTTGAAGACGCTGCTGCAAGCAACGGCCAAGTAA
>SRR1151209_01115 mannose-specific PTS system IIA component
ATGGCTGCCAATACACAGACCGGCATGGTGCTGGTGTCCCATGTACCCGAGATCGTGGCCGGCATCAGCAAGCTGATTCGCCAAGTTGCGCCGGACATTAACCTGACCACCGCCGGCGGCACCAGCGATGGCGACATCGGTACCGATGCCACCCATATTCTTCAAGCCATTGACGACAATCACGCCGATGAGTTGATGGTCTTCTACGATCTCGGCAGTGCGAAGATGAACTTGGATTTGGTCACCGACATGACCGACAAGACTCTGCACCGCTACGATGTGGCCTTCGTTGAAGGGGCGTATACCGCCGCGGCGTTGCTCCAAGCGGGGGATAGTCGGGCAGAGATTGAGAAGCAATTAGCGCCGTTGAAGATTAAATAA
>SRR1151209_01116 ABC transporter permease protein
ATGGAAAAGGTGTATCACACAACATCTGCAGCTGCGACCACTGTTCCGCGGATCGCCAAAAAGCGCCGGGATAAGGCGCTATGGGATCGGCTGAAGCGTGATCGCTGGCTGTATGTGATGCTGCTGCCGGGGATTCTGCTGACGCTGGTCTTCAAATATATTCCGATGTACGGCGCCATCATCGCCTTTAAAAATTACAATCCGCTGCTGGGGATCCTGCGCAGTCCGTGGGTGGGGTGGGCGCACTTCCAGGAATTCATTTTCTCCCCGAACTTCACGACCCTGCTGCTGAATACGTTCAAGCTCAGCGCGTACGGTCTGCTGCTCGGCTTTTTGCCGCCCATTATCTTAGCGTTATCGCTGAATCAAATCATGAACAAGAAGATTCGGCAGAAGCTGCAATTGATCCTATACGCCCCGAACTTTATCTCGGTGGTCATTATCGTGGGGATGCTGTTTCTGTTCTTGTCGGCAAACGGCCCGATCAACGGGATCGTGACCAAGCTCACCGGCAAGCCAATCATGTTCATGTCCAATCCTGGATATTTCCGAACAATATACATTCTTTCTGGGATTTGGCAGGGAATGGGCTGGGCATCCATCCTGTATACCGCTACATTGGCCGGAGTCAGTACGGATCTCTACGAAGCAGCCAACATGGATGGCGCCAACATTTTTGAAAAGATTTGGCACATTGATTTGCCGGCTCTCAAACCAGTGATGGTCATCAACTTCGTACTCGCCGCTGGCAATATCATGAATGTTGGTTACGAGAAGGCCTATCTGATGCAAACCTCAATGAATATCCCGTCATCTGAAATCATTTCGACGTATGTCTATAAGATTGGTTTGCAATCAGGCGACTATGCATACTCTGCCGCTGTGGGCCTCTTCAATATGATCATCAATGTGGTCTTATTGTTGTTCGTGAATAACGTGGTGAAGAAACTCAACGATGGTCAAGGGTTATAG
>SRR1151209_01117 sugar ABC transporter permease protein
ATGGATATGAAAATGTACTCCAAATTTGACCGGCATGTGCTGGTGGTGAACCGGATCATTATCGGCTTTCTGGTGATCATCACAGTCATTCCGCTGGTTTACGTGACCGTTGCGTCCTTCATGGACCCGGCCACACTGCTGAATAAGGGGATTAGTTTCAACCCAGCAGATTGGACGACCCAAGGGTATCAACGGGTATTCGCCGATCATTCAATTGTCCGGGGCTTTCTCAATTCGATTTTTTACTCATTTGCATTCAGTGTCTTGACGGTTCTAGTTACAATGCTGACGGCTTATCCGCTCTCTAAACCCAGTCTGTATGGTCGGGGACCGATCATGATGTTCTTCGTGATTACTATGTTTGTCGGCGGCGGTTTAATTCCGACATATTTGCTGATCAAGAACCTGGGTATGCTGGATTCGGTTTGGGCATTAATTGTTCCTGGGGCAATCAATGTCTGGAATATTATCATTGCCCGCACCTACTTCAGCGGACTGCCCAAAGAGTTGTCAGAAGCGGCAACAATTGATGGCGCAAATGAAATGCAGATCTTCTTCAAGATCATGCTGCCGTTAGCGAAACCGATTATGTTTGTCCTTTTCCTTTATGCTTTTGTTGGTCAGTGGAATTCGTACTTCGACGCGATGATCTATATCAAAGATCCGAACCTCCAGCCCTTGCAGCTGGTGCTGCGGAATATCTTGATTCAAAATCAGCCCTCCCAAGATATGGTGGGTGCGAGTACAGCAATGGCAGAAATGAAGCAGATTGCGGAATTGATCAAATATGCCACGATTGTAATCTCCAGTTTACCGTTGATTGTGATGTACCCGTTCTTCCAGAAATACTTCGACAAAGGCGTTTTAGTTGGTTCAGTGAAAGGTTAA
>SRR1151209_01118 lipoprotein LipO precursor
ATGTCTATCAAAAAATGGATTGCTGCTGCGGCGATCGTCAGTACCGTGCTCTTAGGGGCTTGTGGGAACAGTGCCAGTAAAGATACGGCCAGTCCAGATTACAAGTTAACCAAGGTTTCGTTCCCATTAAAAGAGAAGAAGACCTTGAAGATGATTTCGCAAAGCGCGGCCCTGGCTCCAAAAGATCCGAACAGCAAGCTGATTTTTCAACGATTGGAAAAAGACACGGGCGTCCACGTGGACTGGACCAACTACAATTCTGATTTTGCTGAGAAACGGAATTTGGATATTTCCAGCGGCGATTTACCCGACGCCATCTTTAACGCTGGCGCTGGTGATTACGACTTGCTGACCTGGGCTTCAAACGGCGTTATTGTGCCGGTGGAGAAACTGATCGACCAGTATATGCCCAATTTGAAAAAGATTTTTGCCGCACATCCGGAATATAAAAAATTATCCACGGCGCCTGATGGCCATATTTATTCCTTCCCTTGGATCGAAGAATTGGGTCAAGGCAAAGAATCGATCCATACGGTTAATGATATGGCTTGGATCAACGTCAAGTGGTTGAAGAAATTGGGCTTGCAAATGCCGAAAACCACAGCGGAATTGGAGCAGGTATTAGAGGCTTTCAAGACCAAAGATCCGAATGGCAACGGCAAGGCCGATGAGATTCCGATGTCCTTCATCAACAACGGCGGCAATGAAGATATGAAGCTGCTCTATGGCGCCTTTGGAGAAGGCGATAATGATGACCACACCATCGTCGAGAACAACGGAAAAGTCGAGTTTACAGCCGATAAGCCCGGTTACAAGGCAGCAACAAAATACTTCAACCAACTCTGGCAAAAGGGTCTGATCGATAAAGAAGCCTTTGAGCAGGACTGGAATGGCCTGGTGGCAAAGGGGAAAGCCAATAAACTGGGGGTGTACTTCACGTGGGATAAAGCTAATATTACGGGAGCCAATGACGACTATGATGCCCTGCCGGTCTTAGCCGGACCAGATGGCCAGCGTCATGTGACCAGAACCAACGGGATCGGTTTCTCCCGCGACCGTTTCGTAATCACCAGTGCTAACAAGAATCTGGAACTGACTGCGAAGTGGGTCGATAAGATGTATGAACCATTGCAATCAGTACAAAACAACTGGGGTACTTACGGTGATAAGAAACAAGCTAATATTTTCACGCTCAAGAACGGCATGCTGCACCACTTGCCGTTGAACGGCACTGCGCCAGGCGAGTTGCGGCAAAAGACGGAAGCAGCTGGACCGTTAGCAGTCTTGAATAGTTACTATGGTAAAGTCACCACGATGCCGGATGATGCCAAATGGCGGTTGGATCTGATGCACAAAACCTATTTGCCTTACATCACCAACAATAGCATTTTCCCTAAGGTCTTCTTCACGAAGAAGGAAACTGATCGATTGAACAAGATTGAAACTGACATGTGGGACTACATTTACCGCAAACGGGCTGAATGGATTACCAACGGTAAAATTGACCAAGAATGGGACGCGTACTTGAAAGAATTGAAACGCGTCGGTATCGACGAATGGCTCAAAATTAAACAGGACGGTTACGACAAGTATGTAAAAGGGACTGATTAA
>SRR1151209_01119 sucrose-6-phosphate hydrolase
GTGATGATTGAACAAACCGAAGCACTGGATCGCGCGAATCGGTATATTGAACAAAACCGGCATCGGGTGAATCCTAAGTACCGCGACCAATACCATCTGATGGCACCAGTGGGCTGGATCAACGATCCGAATGGGGCAGTATACTATCACGGCGCCTATCATCTCTTTTACCAGTATTACCCCTATGCCAGCAACTGGGGTCCGATGCATTGGGGCCACGCGCGCTCCAAGGATTTAGTCCACTGGGAAGACCTGCCCGTCGCATTAGCCCCGGACCAGGCCTACGATCGTGACGGCTGTTTTTCAGGCAGCGCGATCGTGCACCACGATCGGCTGTATCTGCTGTATACCGGACACGTGGTTGAGAATGGTCAAACGTTCCAGACCCAGTGTCTGGCGGTTTCGGATGATGGCATTCATTTCGTGAAATCCCGGCACAATCCGGTCATTGCCGGTGAGTTACTGGGCGACCACGGCTCGATCCATGATTTCCGGGATCCAAAAGTATTTGCCCATGATGGATCGTTTTATGCCGTGGCGGCGACTAAAACTACAGATAACCGCGGCCGTATCCTGCTGTTTAAATCAGTTGATCTCCAGCACTGGGACTTCTTTTCGACGCTGCTGACGGGTACCGCTGAACAGGGCATTATGTGGGAATGCCCCGACTTTTTCCACTTGGACGGCTATGATGTCTTGCTGATGTCGCCGATTCAGATTCCACGCCAGGGTTTGGCGTTCCGGAATGTGAGCTCCACGATGGCTTGTATCGGTCAAATGGATTGGACCACCGGTGAGTTGACCGTACAGACGACCCAGGAAATTGACTACGGTCTGGATTTTTATGCGCCGCAAACCCTGGTTGACGAGCAAGGGCGGCGAATCATGATTGCTTGGATGCAAATGTGGAATCGTACTATGCCCACCCATGAGCTCGATCATGGATGGGCCGGGGCAATGACGCTGCCGCGGGAGCTGCGGGTTAAAGAGGGCCGCTTAATTCAAAAACCGGTGTCTCTGGTTTATGGCCAATTGGAATATTTATCCGGGTCCGAAAACATTGACGTCAGCACCCGGCCGGTCGTTTTTCGCAACCTCGTGGGAGACAATACGTACATGCAAATTGTTTGTGATTTAGCCGAGGCGGCGTCCTTCACGATTCAATTTGCTAAAACAGGCCAGCAAGCGCTCACCCTGCGGTATGTTACCCAGACTGAAGAATTTCACCTTAGTCGGGCGGGCTTCGGCTATCCTATTACGGGTGATGAACGCCAGCCGCTGAATTCCCGGGCCGTACGGGTTCCGTTGGTCAATGATCAGCTCATTCTTGAGATTTTTCGGGACACCAGTGCGATTGAAGTCTTTATTAATGGTCAGGAAACAATGACCGCAACATTTTATGAAATTGAAAAAGGGCACGACATTGTCTTTTCCGCCGAAGGGCATGCCAAAATCGGCTCTTTTGAAACGGGAAGGGTTCGTGTATGA
>SRR1151209_01120 fructokinase
ATGACACAATACGGGGCAATTGAAGGCGGCGGTACAAAGTTTGTGCTCGCCGTTGCTGATGAAGATAACCAAATAATAGCGAGAACCAAGATTGCCACAGGCCAACCGGATGCGACACTGCGGGCAATCAGCGCGTTCTTTGACGACTTTGCGCTCACAGCTGTCGGTCTTGGCTCATTTGGACCAATTGATCTAAACGAAGATTCGCCCAGCTATGGCACGATTCTCAATACACCGAAAACTGCCTGGCAAGGATATGACATTGTTGGAGAATTGCACCAGCGGTTGCAGGTGCCGGTTTTTGCCACAACGGATGTCAATGTGGCCTGCTTAGGCGAGTATCAGTTTGGCATCGCCCAAGGGGTGCGCAGTTGTGTCTACTTCACTGTGGGTACCGGTATTGGAGCGGGTGCAATCAATCAAGGCCGCTTGATTCAAGGCTTGGCCCATCCAGAAATGGGTCATATGCGGGTTTTGCAGGATCCAGCAGATGATTTTGCTGGCCTTTGTCCTTATCACCGCAACTGTTTGGAAGGGCTGGCAGCTGGCCCCGCCCTGGCAGCCAGAGCCGGCCGGCCGGCTGGTGAATTGCCAGCAGATGATCGGTGTTGGGCAATTGAGGCGGATTATTTGGCCCAAGCTGCTAATACGGTGAGTTTGTTGTTAGCACCGGAGATGATTATTTTTGGCGGCGGCGTGATGAATCAGCCCCAGCTGCTGCCCATGATTCGGAATCGTTTTGAGCGATATAATCAAGGCTATGTGGACCGGCCGCCTTTGACTGAATATCTGCAAGGCGCCAGTCTCCACGACAATCAAGGGGTTTTGGGGTGCTTGGCGCTGGCCCAACAGGGCATGGTGCCCAGCACCGTACTGAATCAGTAG
>SRR1151209_01121 LacI family transcriptional regulator
ATGAAAGCAACGATGAAAGACGTGGCCAAGATGGCTGGCGTTGGGGTCGGGTCCGTTTCCCGGGTAATTAATGGGGAACATGTAAAAGAAACGACACGCACCCGGGTCGAAGAAGCCATCAAAGTTCTTGACTATCAGCCGGATATCTATGCCCGGGGACTGAAAACAAATCGCACCAACACGGTGGCCTTGATTTTGCCAAGTGTTTGGCATCCTTTCTTCGCTGAATTTGCCCTATCTGTGGAATCTTGTTTAGCCGCGCAAAACTATAAGATGTATTTGTGCAATTCCAACGGCAATGCTGAGAAAGAGCGCGAATACATTCAGATGGTGCAGCAAAATAAAGTGGACGGCATCATTGGGATCACCTATTCGGATATTGACCAATATATTTCTAGTAATCTGCCTTTTGTCAGTATTGACCGCTACTTCACCGAAGACGTGATTTACGTGACCGCTGATAATGCCGCGGGCGGACGACTGGCCGTGGATGAGCTGCTCAAACGGCGGTGCCGGCATCTCGCTTATATTGGCGGGTATCAGGAAACACCCAATGAAACCAAAAACAGACGGAAGTATTTTGAAATTGAATGCAACGCGCGCCAAGTGCAATATGATGTGCTGGATATGCTTGAACCGTTGACACAGGTCAACCGGCATATTAATGAGTTCCTGGACGCCCATCCTGGAATTGATGGCATTTTTACCATCAACGACGACATGGCGCTGACCGTCTGCGATGTTTTACAGCAGCGCGGCCAACATGTCCCAGATGATGTCCAAGTCATTGGCTTCGATGGTCAGCGGATCAAAGAACAGGATGACTTTCTCGTGTCCACGATTGTTCAGCCCGTTGCCCTGATGGCCCAGCGATCCGTTGATTCGCTGCTGGCGGTGATTGCTGGCCAGACGGTCGATAATCGGACAGTGCTGCCGGTTGCCTTCGGTGCGAGTTGGACGACGCAACCAATTCAGTAA
>SRR1151209_01122 sucrose-6-phosphate hydrolase
ATGATGCGCCACTGGAAATGGATCGCTGCTGTTCTGTTGCTGTGCTTAGTCGGCGGCGGGGCCTACTTAACTGTGCAAGCCAAAGCCAAGCGGGATAGCCGGCAAATTACCGCGGTGTACCCGCGGGCCAAAGAGAGTTTTGTCGGCGACCCAATGCCATTTTATGATCAGGGAAAATTTTCGATCTATTACTTGGAAGACTTGCGTAATGGCGAAGTCGGCTTCCACCCGTTCAGCTTGCTGACAACGCAGGACTTTTATCACTACACCAATGCGGGGCAAGTGATTCCTTATGTGAACCAAGAGGATAGCCCCGAACGGGCATTGGGGACGGGTTCCGTCATCAAAGATCAGGTGGGTCGGTATCATGCATTTTACACCGCTCACAACGATACTTTAAGTCCGAAGGAAGCCATTATGCACGCTACGAGCAATGACGGGCAGAAATGGACTAAACAGCCTAAAGACACATTCAAAGCCAGTGCCAATTATCAGGCCAACGATTTTCGCGATCCGTATGTGTTTTACAATACCTCAGCTAAAGAATACTGGATGCTGATTGCCACCCGCAACGCCGCCACGGGAGTGATTGCCCGATACACTTCAAAGGACTTAAAACAGTGGCAGGATCAGGGCGTGTTTTTCACTAACGACATGAATAATGATTCCACTCTGGAATGTCCCTCTGTGGTTCAATTCAAAGGCCGCTGGTATCTGGCGTTTTCTGACCAATTTGACCGGCGGGTCGTGCACTATCGGGTGGCTGATAAGTTAACCAGTACGTTCAAGGCTCCGCAACACGGTCAGGATTATGTGGACGGCGCGGGATTCTATGCGGGCCGGTTGGTGACGGACAACCAGCACCTCTATTTGGTGGGTTGGATTCCAACCAAAGAAGAGCATAGCGATCGGCTGAAATATAATTGGGCAGGTAATTTAGCCGTCCATGAGCTGATACCGCACGGCGATACTCTCGTGCCGCAATTGCCCCAGGCTGCGGCGAAGCAGATTACCAATCAGCAAGCAGCTTTAACGGATAAACGGACCAAGCTGCCGATTGCGTCTGCCGCTCGTTCGGTGACCTTAACCTTGCCGGCAAGCAAAAACAAGAAATTGATTTTAAGTGTTGGCGACACTAACCATATCGTAGTGGATCAACGAGCCGGCAAGATGGCCTATTACAACACTGCCTTGACGGATATCGCGCGCGGCAACCCGATGACGGAGACCACTTATCAGGCGGCAGCTGATGGAAAAATCAAAATCATTACCGAGGATGACATTATTGTGGTGTATGCTGGCAACCAAGCCTTTTCTAACCGTATTTATGAAGCCAAGAAGACACCGTTGACGATGCAGCTGCAATAG
>SRR1151209_01123 acetylornithine deacetylase/succinyl-diaminopimelate desuccinylase
ATGAGAATTGCAGAATATGACCAGATCCTAGCTGATCTGGTAGCCATTCCGTCGGTGAATGACCATGAAGCCGCGGTGGCGGATTACTTAGAAAAGTTGTTGGCCAAGCACCATATTACCGCTCAGCGAGTACCTTATGCCCCTGGCCGGGACAACCTCGTCGCTGAGATCGGCAACGGCCAGGGCCCGGTGCTAGGCTTCGACGGGCACGCTGATACCGTGGCTCTGGGGGACCGCGCGAAGTGGCAGACTGACCCGCTGGTTGGCACGATCAAGGCCGGCAAGATGTACGGTCGCGGGGTGACCGACATGAAGGCCGGCTTAGCCGCTGGCGTGATTGCCATGATTCAGCTCCATGACGCCGGCGTTTTACTGAACGGTACGATCCGCTTGCTGGCCACAGTGGGAGAGGAGATCGGGGAACTCGGCGCGCATCAATTGGCCGAACAGGGTTATGTTGACGATATGGCCGGCATTGTCATCGGCGAGCCCAGCGGTGTTGCCAAGGACTTTGTCACCCAGCCGGCGGCGCAAAGTATTTTTCCGCTGTCACCCGAAGAGCGGGATGTCCTGGTGGCCGCTAACCAGAATACAGAGCAGCATTTCGTTGTGGCCGCCCACAAGGGGACCCTGGCTTTCCGCGTTGATTCCGTCGGCCAGGCGGCGCACAGCTCCATGCCGGAGCTGGGGTACAACGCGATCACCCCCTTGCTGACTTTCTACAATCGGGTTCAGCAGTATTTCGAGGACCAAGCCGGGCTGAAAGATCCCATCTTGGGGCCCGCCACACCCGTGGTCACGCTGCTGAATGCCGGCGAACAGATCAACACCGTACCGGCCAGTGCCAGCATGAGTATTAATGTGCGCACGATTCCGGAAAAAACGAATGACGCCATGCTGGCCGATATTCAGGCGTTGGCGGATGAAGTCAACCAGGCTGAGCAGGCGCACTTAACGATCCGCGTCATCAGCAAACTTTCGCCAATGTCCACCGACCCTAACGCCCGGTTGGTCCAGTTGACGAAAAGAATTGGCGAGAAGCATTTGAAACAGCAGCTGCCGGTGATTGGCGTTTCCGGCGGCACTGATGCGTCGCCCATCGTGGATCGCAACCCCAACATTGAAGCCGTGGTGTTCGGACCCGGGAACTTTTCCGCCCATCAGGTGAATGAATACGTGGATATGGGGATCTATCACCAGTACATCAACCTCTACATTGATTTGTGCAAACACTATTTAGCTGGGATGTAA
>SRR1151209_01124 glucose uptake protein
ATGGTCATTACGGGGATTATTTATGCCCTCATCACGGCCGCCTGTTGGGGCAGTATTTCAGTGGTGAGTCACAAAATCGGCGGGAGCAGTCAGAACCAGATTCTCGGAGAAAGTTACGGTATTCTGCTCTTCGCCCTGGTCTATTACTTCATCGAACAACCAACGATTAATTTGGAGACGATGCTGGTGGGCGTGGCCTCAGGGCTGTTCTATTGCTGGGGTCAAAATCAGCAATTTCGCGGGTTGGAAGCCCTGGGTGTATCCATGGGGATGCCGCTCTCGACAGCGGCCCAGCTGGTGATCACGACGCTGGCCGGGGCCTTCGTCTTTGGCGAATGGACCGATCAGCGGGATTATGTTTTCGGCTTCGCGGCGCTCTTGATTTTGATTCTTGGCGCCGTGTTTACGTCTAAGAAAGAAAAGACAGCCGATACGCCAGCGCAAACCGGTAATAAACAGCAAGTGATCGGGATTGTCGCCGTACTGTTGTCCGGGGTGGGCATTTCGCTCTATTCCATCGTGAACAAGGCCTTTTCGCCGGATCCAGCGGCTTTGATTCTGCCCCAAGCTGTGGGAGTACTCATTGAAGGGTTCGCGGCCAGCAGCACGCAGTCGCCCCGCAAGCTCAACAGCCGCTTCACGTATTACAACATTGTCCTCGGTCTGCTCTGGGCGCTGGGTAATTTGTTCTATACCCAGGCGATACATATGAGCGGCCTGGCCATCAGCTTTTCCTTATCCCAAATGGGCGTTGTCATTTCGACCTTGGGCGGCATCCTGATTCTGCGCGAGCACAAGACCCGCAAGGAACTGGTCTATACGCTGATCGGTTGCGGTTTAGTGATTCTGGGCGGCGTCCTGTTGGGCGTTATGCAGGCTTAG
>SRR1151209_01125 hypothetical protein
ATGACAGACGAAGAGAAAAAACAGGTCCAAGCCTTAGTCCACAGTGCGCACCGAATTCAGACCGGTCTGTGGCTGGCGGCCAGTATTTGGCTGCTGGCCTTGGCCGGCGCGATTGGCCAGCAGGTTGCCCGGGCGTTGGGGTATACTGCCCAGCTGCCGCTGGCTGCCGCGGCGGCGATCATCGCGGTGCTTTTGGCCGTCACCGCCTATCCGTTGACCCTTCTGATTCAGCAGCAGCAATTGGCGAAAAAAGTGTGGCAGAGTTTGCCCCAGGAAAAGCTGCGCTCCACCGCTCAAGTAGCCGACCCCATCACTGGGGTGACGGATTTGGGCACCCATTATTTGGTGACGGCCCCGCTGGCTTCGATTACCTTAGAAAAGGGGCCCACTCAGGTGGAGGTCGATCCTCAGGCCACGCAGTCCACATACAAGCAGCAGTCCAGTTATTTCAATATTCATCACTTGAATCACTGGCTGCGGCCGGCCGCGGTGAGCGGTAAAGAATTTCTGGCTGCTTTGCCGGAGGATCGGTATGAACAGCTCGTTAATGCTGATCGGCAAGCAGATATTCTGCATTTGACGCCCGCTGATTTTGCTCAATTGCAACGGACCAGCGAGTAA
>SRR1151209_01126 bifunctional acetaldehyde-CoA/alcohol dehydrogenase
ATGCCAGTAACCACATTGAAAAAGGTTTATGATGCCAATGAATCTGTTGCCACCGAAGTCAACGACTTAGTCGCCGGGGCGCAACGGGCATTCAAGAAATATCAAGAATTTGATCAACAGCAAGTGGACGCTATTTGTCAGGCCGTCGTCAACGCCGCCATCGTCCACTCCCGGGTACTGGCCTTTCTCGCTTGGAAAGAAACCGGCCGGGGCAACGCTGAGGACAAGGCCATCAAGAACATTTATGCCAGCCAATATATTTGGAACAACATTAAAGACGACAAGACTGTGGGCAAAATTGAAGAGGATCCGGCCCATGGGATTACCAAGTATGCTGAACCGCTGGGCGTTGTGGCCGGGGTCACGCCGGTAACGAATCCGACGTCTACGGTAATTTTCAAGATTCTGATGGCGCTGAAGACCCGCAACGCGATCATCTTCGGTCTGCACCCGCAGGCTCAGCAATGCGGTGCCGCGACGATTCGGGTACTGAGCAAAGCGGCGACGGATGCCGGAGCACCGGCCAACCTGATTCAATACATTCACCATCCCAGTATTGAAGCCACGGATGCCTTAATGAACAATCCGCAAGTCGCCATCGTGTTGGCTACCGGCGGTCCAGGCATGGTCAAGGCGGCGTATTCCACTGGTAAACCCGCCTTAGGCGTTGGCCCTGGCAACGCGCCGGCGTATATTGAGCAGAGTGCCGATATCAAGAGTGCCGTCAGCGATATTATGCTGAGCAAGACCTTCGACAACGGGATGATTTGTGCTTCTGAGAACAGTATCATCGTTGATGCCGCCATCGAAGACCGGGTCAAGGCGGAGTTCACGAAGCAGGGGGCCTACTTTGTCCCCGAAGCGGATGTACAAAAACTCAGCGATGCCGTCATTGATCCGCAGCGCCATACTGTCCGCGGACCAGTTGCCGGCCAAACTGCCGAGAAGATCGCCCGCCTGGCCGGAATCACTGTCCCCAGGGGGACCAAAGTATTGATCGCACCGGTCGCCGGGATTGGCAAGAATTATCCGTTATCCGGTGAAAAGCTGTCCCCGGTATTGTCCATGTATCGGGCCAGCACTCGGGCAGCGGCCTTCAATCTGTGCTTGGCGCTGCTGAATTATGGCGGCTTGGGCCACACGGCTGCGCTGCACACAACGGATAAAGAAGTGATTGCTGAATTTGGTCAATTGATGCCGGCTTGCCGGATCCTGGTCAACCAGCCCGCATCTTTGGGCGGTATCGGCGGTCTGTTCAACGCCTTGACCCCGTCGTTGACCTTGGGTACCGGGACTTACGGGAAGAACTCGATTTCCCATAACTTGACCGATACCGATCTATTGAATATTAAGACAGTCGCTACGCCGACACGCCACCCCAACGATTTGATCAGTGAATTGCGCGGTGTCATTCGGAAGCAGCAGCTTTAA
>SRR1151209_01127 hypothetical protein
ATGAGTTTACAGGACTTTATGGCAAAGATTGCACTGCCGGCCGCAGCGCAATCAATAATTGTGCGTACCCGACTTTCGCTTCCCTGGTGGCAAAAAGCACTATCGGCCAACCCAAGCAAATTTCAAGACCGATTGCTGGCCAATCCAGAATTAGCTTTGGCCGTGCTGACTGATCTGGCGGCCGAGGACAGCGCCTACTACCCGGCCCATGGTCTCAGTCCGCAAGTCTATTACGATTCCTACCGCGACCTGAACCTCTGGGCCCAGGACCATTACGCCAAAACCGGCACATGGGGGATCACGGAAGTCCCTTGGTTGATGCGCACTTTGCAGCACCGACTGGTTCGCCTCGGCCGGTTGCAGTTTGAGCCGTTGACTGCCCCGGCTGACCATCATCTGCTGGCTTTCTCTGATATCTGGCTGAATGTGCATATCCCAGCGGACGGACCGCTGCTGCCGGCAGAGTGTACGGCATCGTTTGATCAGGCCAACACCTATTTTCAGCGTGACTGGTTCTGCTGCCACTCGTGGCTGCTGTCGCCCGATTTGCAACAGTTGCTGCCGGCGCACAGTCATATTTTGGAATTTCAGCGCCGGTTCACCATCGTGGCCTATTTCCCGAACGATCGTCAGGCCGAAGAACGCATCTTTGGTGCCCCGTTGGCTGACCCAGCCAAGTATCCCGAAACCACCTCACTGCAACGCGCCGCCAAACAGCATCTGCTCAGCAGCAGGAAAATTGGGACTGCTCTGGGCGTTTTCCAGTATCACCGCTAG
>SRR1151209_01128 hypothetical protein
ATGACCACTGTTTATCACGCATGTCCCCAATTTGTGGGTACTCATTATTCTTTGCGGCTGGTCACCCCCGCCGACGCCCAAGATTTGTTAGCTGTTTATTCCGACCCGCGAGCAGTGCCGCTATTCAGCAGCGACAATTGCGGCGGCGATGATTTCCACTACACCACTTTGGAAAGAATGCAGGCAGCCGTTGCCTATTGGTTGGCGGAATATGCCGAGGAGGGCTTTGTTCGCTGGTCGATCATCGCTAACAAAACGCAAACCGTGATTGGCACGATCGAGCTGTTCCACCGGGAGGCAGCGGATTATTTCACGGACTGCGGAGTGCTGCGGCTGGATCTGCGCAGTGATTACGAGCAAACCGAGGCAATTGCTGAGATTTTAGCATTGATCGTCGCCCCCGCCTTTTCTTTATTTGATTGCTCTCAGGTCGCCACCAAGGCCGTACCCGCCGCCACAGAACGGATCGCAGCACTGCAAGACGCGGGCTTCACAGCCACCGCTGAACAGTTGATTGGGCACCACGATGGTACGGCGTATGGTGATTACTGGGTGCGCCGAGTTTAG
>SRR1151209_01129 multidrug ABC transporter ATP-binding and permease protein
ATGAATCCATATCAATGGATTTGGCACTATGCGAGACGCTACAAGGGGCGAATGGTCATGGCGGCGGTGCTGATCATCGGTAACGCGCTGGGCATTATTGTGGTGCCCTTGCTCGGCGGGAAAATTATCGACGTGGTCATCAATCAAGGGCATACCGAGCAGCTGCCGTGGATGCTTGGCGTCATGATCGGCACCACACTGCTGCGGACGATCATGCGCTATCTGTACCAGATCCTGTTTGAACGGGTGGGCCAGAACACGCTGTACGACGTGCGCAAAGACCTGTTCAACAAATTGCAGACCCTGGACTTCAACTTTTTCAACACGGTCCGTACCGGGGATATCATGGCCCGGATGACCGGGGACATGGATGCCATCCGGCACTTCGTTTCCTGGGTATCCTATAACGTGATCGAATGTGTGCTCTGGTTCTTCACGGCGGTGGTCGTGATGAGCACCATTTCCTGGCAGCTGATGCTGGCGCTGGTGGCAGTCACGCCGCTGATCGGAATTTTGACGATCATGATGAGCCAATCGGCCCACCCCGTCTTCTTCCAGATTCGCCAGAGCTTTGCCCGGCTGAATTCGATGGTGGAAGAAAACATTTCTGGGAACCGGGTGGTCAAGGCATTTACCCGGGAACCCTATGAAATTCAGAAGTTCGATAAACTGAATAACGAATACAAACAGAGAAACATGGACTCCGCTGCCGTGTCCCGGCGCTACTTGCCATTTCTGGACTTTCTGGCCTCGGTGCTGACGGTTATTTCGCTGTTGCTGGGCGGTTACTTCGTGATCTCTGGGAAGATGACCCTGGGCGATCTGGTGGCCTTCAACGGTTTCATCTGGATGCTGAATCAGCCGATGCGGATGAGCGGCTGGCTGATCAACGATATTCAGCGTTTCTCGGCAGCGACGATCAAGATTCGCCAGATGCTGGGTGCCAAGTCTCGGATTCCGGTGGAAGATTCGCCGGATTATGAACACATTAAGGGGACGGTGGAATTCAAAGACGTGAACTTTGAATATGCCGATGACCCCAGCCAGCCGGTACTTCACGACATCAACTTCAAAGTGACGCCGGGGCAAACCATGGGGATCTTGGGTGAAACCGGTTCCGGCAAGTCCACCCTGATGAACCTGATTACCCGCTTTTACGACCCGACCAGCGGGGCCGTCTTGATCGACGGCAAGCTGGCCAAAGACTATCCCGTCCGCCAGCTGCGGGATCAGGTGACCATTGTCATGCAGGATCAGTTCCTGTTTTCCGACACCATTGCCGAGAACATCAATTATGGTAACCGGGAGGCCAATCCGCGCTTTATTCGGGATATGGCCAGCGTCGCTGATGCCGAGAACTTTATTGAAGAAATGCCGGAAGGGTACGACACAGTTGTTGGCGAACGGGGCGTTGGTCTGTCCGGCGGCCAGAAGCAGCGGATTTCCTTAACCCGGGCTTTGGTCAAGGACCCGTCGATCCTGATTCTGGACGACACGACGTCGGCCCTGGACATGGAAACCGAAGCCAAGATTCAAAAGGAATTGCGCCGGATCACCAAGGATAAAACGACGTTTATTATTGCGACCCGCATTTCGTCCATTCGGCAAGCCGATCAGATCATCGTGCTGCAGCATGGCCGAATCATCGAGCGGGGCACCCATGAAGAATTATTGGCCAAGCACGGCTATTACTACGACACATATCAAAAACAACTCGGTGCGCTGGGCGTGACCCCGGATGCACCGCAAGCAGAGGAGGCGGTCACCAATGGCTAA
>SRR1151209_01130 multidrug ABC transporter ATP-binding and permease protein
ATGGCTAAACGGAATACTTACGATCAAGACGAAGAGCTGGAACAGGAATTTAACTGGGCCTATTACAAACGGCTGGGCAAGTATTTGAAGCCGTACCTGCGTCGACTGCTGGTGGTGCTGGGCAGCATTCTCCTGGCCAACGTGGCTATCATCATGGGACCGTATCTGACCAAAGTGGCCATTGACCAGGCTATCCCCAATAAGGACATGGGTCAGTTATGGCTGATTGCCGGGATCTTTCTGGTGACCTTGATCGTCGCGTTCTTCTGTATGCGGTACCGGATCTGGGCAATCACTGAGATCGGTCAGGACATGCTGAAGGATATGCGGTCGGATATTTTTGACCACTTGCAGACCTTGCCGTTTTCTTACTTCGATTCCCGGCCCCACGGCAAGATTCTGATTCGGGTCGTGAACTACATCAACACCCTGTCGGATCTGCTGAGCAACGGGCTGATCAACTTGATTTCAGACTTGATCAGTCTGATCGTGACTTTGATCTTCATGTTCGTCATTGACTGGAAACTGACCCTGTACAGTATGGCTTTGCTGCCAATCCTGTTCATCTGGGCCTGGGTCATCAAGAACAAACAGCGGGTGGCGTATCAAATTCTGAGCAACAAGCAGTCCAACCTGAACGCTTATATCCATGAAAGTATTGCCGGGATCAAGGTCACGCAAGGGTTTGCTCAGGAGAAAAATGCGGAGCAGCGCTTTGCCGACGTTTCCGAAGAATATCGCTCGACCTGGATGCACGCGGTGAAGATTCAGTTCGCCTTGTGGCCAGGGGTACAAAACATTGCGATCATGACGACCGCCCTGATTTACTTCGTCGGCGTCAACCGTATCGGCGTGGCCGTCACCACCGGGACGCTGATTGCCTTCATCGGCTACATCAACAACTTCTGGAACCCGGTGATCAACATCGGGAACTTCTACAACTCCCTAATCACGGCCACCGCATACTTGGAGCGGATCTTTGAGACGCTGGATGAAAAGCCGGAGATTCAGGACGCCCCGGATGCCTTCGCGCTGCCGCCGATTCGCGGCGACGTGCAGTTCAACGATGTCTCTTTCAAGTACGACCAGGACGGCCCGATGATCCTGCACCACATCAATTTCCATGCGACCCCGGGGCAATCCGTTGCGCTGGTCGGCCCTACCGGTGCCGGGAAGTCCACGGTGATCAACCTGCTGTCCCGCTTCTATAACGTAACAGATGGGGAGATCCTGATCGACGGGGTCGACATCAGCAAGGTCACCCTGAAGTCCCTGCGTCAGCAAATGGGCGTCATGCTTCAGGATACTTTCATCTTCTCCGGGACGATCCTGGATAACATTCGCTACGGGAAGCTGGATGCCACGGAGGAAGAAGTCATCGCCGCGGCTAAGGTCGTGCGGGCGGACGATTTCATCCGCCACCTGAAGAACGGCTACAACACAGAATTGCAGGAACGGGGCTCCACCCTGTCAGCCGGGCAGCGCCAGCTGATTGCCTTCGCCCGGACCCTGCTGGCCGATCCCCGGATTTTGATTTTGGATGAAGCCACCGCGGCGATCGATACCCAGACAGAAATCCTCTTGCAGCAAGGGTTGAACGCTCTGCTCAAGGGCCGGACGAGTTTCATCATCGCCCATCGGCTGTCCACGATTCAAAATGCCGACCAGATCTTCGTCATTGACCATGGCGAGATCGTCGAGCGGGGGAACCATGACAGCCTGATGGCGGATCATGGGGCGTACTTCGATTTGTATGATGCACAGTACCAGATGTTGAAGGCTTTGTAA
>SRR1151209_01131 magnesium transporter MgtC
GTGTTGAACTTGTCGTTGAAGGAAGTTGTTATCCGATTGACCCTGTCAATCATCATTGCCGGTTGTGTAGGTTTTGAGCGGGAGCACAAGAACCGGCCGGCGGGGATTCGAACTCACATTTTGGTCTGTATTGGGGCCACCATTATTGCCTTAACCCAACAGTCGATCGCCGAAGAGGCGTTTTCTTTGGTCCGCGCGTATCCCAAGCTGGCCACGGTGATCAAGTATGATCAGTCCCGGCTCATCGCCCAAGTGGTCAGCGGCATCGGCTTTCTCGGGGCGGGGACGATCATCGTGACGAAGCAGCGGGTCATGGGGCTGACGACGGCCGCTTCGCTATGGGCGGTGGCTGCGGTCGGTATTGCCATCGGGATGGGCTATTATCAGGTGGTTTTTGTCGGCTTTGCGGCAATTATGTTTTCGCTGTCGTTGGTGCAAAAACTGGTCAAGGTGCGCAAGATCAACAACTTGGAAATTCAGTACGTGCACCGGCAGGAGACTAAAGAGTTCATTAATAACTATTTTGAGAAAAAGAATATCGAGATCGAAGATGTCACGTTCGAGGTGCAGATCATCGAGAATGAGCGGATCTATCGCAATACGTTTACCATTGATCTGCCCCGGCTGCTGACGTATGCCGATGTGATCGACGATCTGTCCATGTACCCTAATATCCGAGAAGTGCGTCTGGTCGCGGTGAATGACTAA
>SRR1151209_01132 AraC family transcriptional regulator
ATGCTGGATATGTCCGGCACGGTACCGGAAGTGCTCTACGTGTTTCCTTACCAGAATACCAAGGTCGGCGATAGCCGTTACCATCAGCATGACTTCCCTGAGATTTCGATCATGGTCGACGGGTGCGCAGATTACTTGATTGGGGACCAGCACCATCATATTACGAAGGGACAAGTACTGGTTTTTAATCCGCATACCTGGCATCAAGACAGTCAACCAATGGGGACCTTCAGCTACCAAGTGCACATCGGCTTTCGCAACTTTGTTCTGCCAGGGATCGGCAGCGATAAACTGCCCTTTGCCAATTCCGTGATCGATTTGGGTAATCAGTGGCATGATTTTTTTGCCGTGGTCCATCAATTGATCGACGAAAATCATCGCCAGGCACTGGGCAAGCAGCTGCTGGAACGGGCGATGGTCACTGAGCTGCTGGTGTATTTGCTGCGGGCACTGCCGGAGAACTGTGTCGCCGATGACCAGATCCTGGGCGGCGAGCAGCCGTCGGATTCGCCGGCAGAGGCGCAAGCCCTGGTGACCCAGGCCACCTATTATTTGAATGCCCACTATGATGAGGATGTCTCATTAGCCCGCTTGGCGGCCAGTCTGCACGTCAGTAATGCCCACTTGTCGCGGCTGTTTAAGACGGTGACGGGCGAGACGCCGAGTAATTACTTAACCCGGATTCGGCTGCAGCGGGCGGAGGAGTTATTACAGAATGATCAGTTGACGATCAAGGAAGTAGCCAACCGGGTGGGGTACTTGGACCCGTTGTACTTCTCGAAACTGTTTAAGAAGCACTTTGGCCGCACACCGTCGGCCCAGCGTTAA
>SRR1151209_01133 hypothetical protein
ATGAAAAAGTTGAAATCCCGGCTGGATGCCTATAGTGATGCGGTCATTGCCATCATCATGACAATCATGGTCTTGGACCTGACGCCGGTACTGAAGGACAGTTGGCCGGCCTACTTGAGTCTGGCCAAAGAAGTGGGAATTTACGGGATTAGTTTCGCGCTGGTGGCCAATATGTGGTACCAGCACGCCACAGCCTTTGAGGAAATCGAGGACATGACCTACCGGATCATGGTCTACGATTTCCCTTTTCTCGCCGTCTTATCCCTGACGCCCTTGGCCACCAATATGATGGCTTCGAACACGACGCGTACTACGGTGATGGCCTATGGCATTTTGAACCTCCTGCTGTCCTTTACGTTCCGGCTGCTGGCCAAGGCCATTGTCCATTTTCAATATACGGATAAGTCGCAAATGCGCCAGGTTTATGGAAAAATATACGGCGCCCAGAACCCGCTGTTCATGATTTGGACCGCCGTCTTGCTGGTGATCGCCTGGTTCTGGCCGTTTATCGCTGTCTGGTTCTACCTGTCCTATCCGGTGCGGGACTTGCTGTTCACCGGCAGCACCCGTCAACAGATGCACGACGCGGAGCAACTGACGCCGGATCAGCGGTCGGAGTATTTGCATTTAACGCCAGAGCAGATGCGCAAGTTCCAGCGCCAGGTCCAGCGCTCCCGGCAGCAGCAAGTGCGGCAAGGGAAGAAAGCCGCACCCCAGGACTGGACCAATATTTTACAGCAGTGGCTGGATACGAAAGTCACTCCGGCACCGGATACGGCGGTCAACGGCGATGCCCGGGATGTCGGGCGGCAATTGACCCAGGACCAGTGGCGGGCGTTCGCCATGGCCCAGCGCCAGAACGATCCCCGGGCCAAAGAAGTCAAACAGCGGTTGCAGGCGTTCACTAAGCAGCAGCATGATCAGAATAAAAAAGACGATCAGTGA
>SRR1151209_01134 xylanase/chitin deacetylase
ATGAAGAAAACGGGACGCGTGGTCGTAGCGAGTCTCATCGCGCTGCTGATGGTACTGGGGGGGATTGTCGGCGGCGTCGCATATTATCGGCATGCCGCGCAGCCCGTCGTCCATGAGCGGGTGGCCCGAGTCCGGACGAAAGCTAATAGCAGTACCAGTCGGCAGGCCAGCAGTCAACCAAAGCCACGGAAAAACGTCGTTCAGGCGGCCGTGACCAGTGACCGGATACCATTGAGCAAATGGCAGAAACAAAGCACCCCGGTGCAGCTGCCGATTCTGATGTACCACGACATCGGCCAGGGCAACACCCTGATGATGCCGGCGGACCAACTGAAAAATCAGCTCACTTGGCTGAAACAGGCAGGGTACTATGAGCTAACCCCCGCCGAGGCCTATACGGTGCTTTCTGAAAATAAAGTGCCCCAGACCAAGATCGTCTGGATCACCTTCGATGATGGTTATCGCAGCATGTACACCACCGGTTTGCCGATGTTCAAAGCAACCAACAGCCGGGTGACGATCAACGAAATCAGCGGTTCTGTCGGCAGCAATTGGAACCTGACCGCCGAGATGATCAAAACGATGCAGCAGAACAACGTCGACTTCGCCTCGCACACCGTCAGCCACCTGGAGCTGAACAAACTGGCCAACGCCCGCCAGCAAACAGAATTAACGAATTCCCGCCAAGCGCTGGCCCAGATCACGGGTACGGCGCCCAACACGATTGCCTACCCGGTGGGCCGCTATAACGCCGCCACTTTGCAATATGCCAAGGCCGCCGGCTACCAGATCGGTTTGACCACGACGCCAGGATTGGCGGCTGCCAGTCAGGGCATGTACGCCCTCCATCGGGTGCGGGTCAATCCAGGCCAGACTCAGGCCGGTTTTCTGAATTTAGTCCAGCACGGCTATTGA
>SRR1151209_01135 xylanase/chitin deacetylase
ATGCGTATTCGTAATATCCTCGCGGTGCTCGCCGCAGTTGCCGTTCTCGGCGGCCATATGTCCTGGCAGAGCTTGGACCGGCTGCACCTGACCTGGCTGGATTGGAATGCCACTGTGGGCGATGCGTTGGGTAACGGAAAGACCCCGACTACGGTGGCTGGGGTCTTGAAGTATCACGCCGCGTCGCTGAATGCTTTCCCCCACTGCCGCGCTTTGCTGATATCATCAACAAGGCTGCGATGCGTGCCGCGATCTTTGACGATGCTGGTCACAAAGGGGGAGAGCATTTTTTTAGATAATGGATCAGATATGTGTGTTGCGCTTCTTTTGAAAACAGTACAATATGGGTGA
>SRR1151209_01136 esterase/lipase protein
ATGGAACTGATTCAACAGACTCTGACCACGCCGCTGACCCAATCGGCCACCTTGACCGGCTATATTCAGACGCCGAGTGCAGAAATGCCGGGGAAGGACCACCGGCCGGCAATCTTGGTGATTCCTGGCGGCGGCTACACGATGGTCTCCGACCGGGAGGCCGAGCCGGTGGCGCTGGCCTACGCCAGTCATGGTTTCCAGGCCTTCGTCCTGCGGTATTCTGTCTTGCCGGTGGCCTGGCCGGCCCAATTGCTGGAAGCCGCGGAAGCGATGCACCAGATTCGGGCGCATGCCGATGCCTGGTATTTGAATCCGAATCAAGTGGCGACGCTCGGCTTTTCTGCCGGTGGGCATCTGGCGGCCGGCTTGGCAACGCTGGCAGACCAGCCGTTTATGGTCAAACAGGGCTACCAGGCCGCGGATATTCGGGCGAATGCGCTGCTGCTGGGTTACGCCGTTGTTTCGTTGAGCGCGACGGCGGCGGTTCACGATGGCCCAGATCCGATGCAGCAGGCGGTGCATGCCCAGGATGGGCCTTTGCTTAAAGAAGCCACGGAATTACAGCAGCAAGTCACGGCGAATACGCCGCCGACGTTCCTCTGGGCGACTGCCACGGATGCAGTGGTGCCGGTGCAGAACAGTCTGCAATTTGCCAGTGCTTTGGATCAAGCCAACGTGCCATTTGCGCTGCACATCTTTCCTCAGGGACACCATGGGTTGTCGTTGGCTAATGCAGTGACGAACGGCCGCCTCGGCAATGACTTGGAGCCGACCGTGACGCCGTGGCTGAAGCTGAGTCTGCAATGGCTGCAAGTGACCTTTCCGGACGCAGCCATTACGGCTTAG
>SRR1151209_01137 sugar O-acyltransferase
ATGACTGCACTTGAAGAAAAATTTGCCCGGATGGCGACTGGCAAACCCTATAACGATTTAGACCCGCAACTGATTGCGATCCGTGCTGAGGCCACGCGTCTGACCACCGCGCTCAATCAGGCAGCAGATATCCATACACGCCTTGCCCGATTCCGGGAGCTGGTCGGCAGTGCCGGGACTGACCCGATGATCGAACCAAACTTCCGGGTGGAGTTTGGCCGCAACATCCACGTCGGCGACCACTTCTATGCTAACTATGATTGTGTGCTGCTGGATGGCGCACCGATTACGATTGGCGATCGCGTGCTGTTTGGCCCCAAGGTCGGCCTTTACACCAGCAACCATTTGCTTGATCCGACAGAACGAGAGGCAGGCGGCTGCACCGCGCAACCGATTACGATCGGTGACCGGGTCTGGCTGGCGGCTAACGTCACCGTGCTGCCCGGCGTGACCATTGGCGCTAATACCGTTGTTGGGGCAGGCAGCGTGGTCACCCATGATCTGCCGGCGAACGTGGTCGCCGCGGGTAATCCATGTCAGATTCTGCACGAAATTACTGCGACGGATAAGACAGGATTCAATGGCGTGGACATGGGGTGA
>SRR1151209_01138 molecular chaperone DnaK
ATGACAGTAATTGGTATTGATTTTGGGACAGCCAACGCAATGGTCGGTTATTTTGACGGCCATGCTGCTCGGATCATTCCTAATGCATGGGGTGCCGAATTGACACCAACTGTGGTCAATGTTGCCCCCCAAGGCGAGGTGACCGTGGGGGCGGTCGCCAAAGCCCGCGGCGCTTTAGCCCCGCAGGCCACAGCGGCTGGGTTTAAGCCGTTTTTGGGTACGCGTAAGCGTTATGTGCTGCGCGGCCAGCAGTACACACCGATCGAACTGACCGCTTTAGTCCTTAAGAGTTTGCGGGCTGATGCAATCCGCTATCTTGAGGAACCGGTTAGTGAGGCCGTATTGAGTGTACCGGCTTATTTTGATAATCGGCAGCGAGGGGCGCTCATTGAAGCGGCTAAGTTGGCCGGGCTCACCGTCGTTCGGCTAATTGGTGAAGCCACTGCGGCGGCATTGGCCGTTCAAGCCGAGCCGACTGAAGTCCAGCGAATCTTGGTCATGGACATGGGGGCCGATCAGTTCACTGTCAGCTTGCTGCAACGGGTGGAAGGGACTACCCAAATCATGCAGCAGGCGGTGGCCAATCACTTAGGCGGGAATGACTTCACCCACGCACTGGTGGCGGACTTTGCCGCTGGCGCGCATCTCACCGGGATCGATACAGCTGCTTACCAGCAGTTGTTCGATCAGGTGGCGGAGCTGAAAAAGACCGCGCCGACTGCAGCTAATACGCTGACCGTTGGGGATCGGGACTACGCGTATGGTGTGACTGCAGCCCACTTGAAAGACGTATTTGCGCCATTGCTAGGGGCAATGCGCGTACCGTTGGCGCAAGTTCTGCACAGTGCAGGACTGCGCCTCACGGATATCGATCAAGTGGTGTTGGCTGGGGCTGCCGCCCAGCTGCCGGCGGTGCGCCAAGAAGCGGTGAAAATGTGCCGCTGCTTGCCGCTGATGAGTGCCATGCCCGGGGATCGGGTGGCCATCGGGCTGGCGACGGTTGCTGGCCAGCCTCAGGTTTACCGGACTCTGCGGGAAATGATTCTCGCGCCGATCAGCGCCCATTCTTTTGGCACGCAAGCGACCCAGGAAACCGCGAACGGGGAAGTCACGGATTTCTTTGTGCCGCTCGTAGATCGGGGCGACGCCTTGCCCGGTCAGGCCGTCTGTTCGTTTACCATTGACTCTGGGGAGAAAATCACGAGTGTGCCGGTGTTCTTAGGGGAACAGCAGCATACTCGGGATAATGTATATTTAGGGGAATTAGCGATTCCCAGTGCCGCGGCAGCGCGGCAGATCACAGTGCAGTTTGCCTTCGATATCAACTTGAATCTGGCTGTAGCAATACGCAACGACACCACCGAGCAAATTGCAACGGCAGTCTTTGTTCTGGATCGGGATGATTTGAATGATCTGGACCGGGCGCGGATACGGTCGCGCGTCGCCGCATTTCAGGTACCGACCAAGGAGGAAGCGGAGAACCAACTGATTCTGACCCAATTGGAACGGCTGAGTCATGAGACGACTGGGTCTGTGCGGGAACGGTTCGTGGCTGAACGGCTGCACTTCCTGCAACTGCTGGCGAAGCAGAACCTGGAAGCAATCAACCGAGCCCGGGATGAATTCGCGGACTTTATTCGGGATATGCAGAGCGAGTACATTCTGTAG
>SRR1151209_01139 pyridoxamine 5'-phosphate oxidase
ATGGCTACACTCACCACTGAAATGAAAGAAATGCTGAAAAATCAATTGCCCTTTTTAGCAACTACCAGTGCAGACGGAAAACCGCAAGTTGGACCAAAGGGGTCCTTGCACGTTCTAGATGCTTCCCACCTCATCTATTTCGAACATACTTTCCGCCATGCTTACACCAATTTGCGGCACAATCAGCAGGCCGCCGTCGCCGTAGCTGATCGTGCGGCTCAGAAGGGGTTTCGCTTCGAAGGCACAGCGCACATCCATGAAAATGACGACTACGCCAACCAGGTGTTGGGGAAAACCAAAATTTTCGACCGCTTTCCGCGCGCTGGCGTGGTGGTCATCGATGTGGAGCGGATCTTCAAACTAGACAACACGCTGGAAGCGGGAACGCAGCTAGCCTAA
>SRR1151209_01140 hypothetical protein
ATGAGCGACTGGTGGCTAATCTTCATGATCATCATGGACGCGGTATTGCTGACAGGCTGTATCGTCTCCATCTTCTGGCAAGCGCAAATTGTATTACGGGCGCACTATAATTACTGGCCATTTCTGCTTGGCTTAATGGTCGTTGGCTGGGGCTGGACCGGCACTGGCATTGCCAACAATTGGGTCCGCTGGCTGCTCGTTTTGTTTCTCGCCGGTTTCCTGCTGAATTGTATTCAAGCTGGCGTCGGCGGGATCGGCGACAAGCGGCTGGTGAACAACGGCTTTATTTCCAGTGTGATTCGTTACGACCGTTTGGCCGGGATCACGCTGGTGCCAGTCACTCTGCCCAACGGCAAGGACCGCGTGGTGGCCATCTTCATCACCACCACGCAGCGCCGGATTCAACTCACATTCTCCCAAGCATTGCCGACGATTCAGGAAGAATTGCGCAAGTTGGTCCCCGGGTCGACCCCGATTGAAATTCAGAATATTGAACAATAG
>SRR1151209_01141 pyruvate oxidase
ATGGCTGATAAAATCAACGCGTCAGATGCAATGATCAAGGTATTGCTCGATTGGGGGATCGATACCATTTACGGACTGCCTGGTGGTTCCTTCGACTCCACCATGAACGCCCTGTATAATTTGAAGGATCGAATGCATTACATTCAGGTTCGCCATGAAGAAGTTGGGGCTTTGGCGGCTGCCGGACAAGCGAAAATCACGGGGAAGATCGCTGCTACCTTCGGCTCTGCCGGTCCTGGTGCGGTGCACTTGCTGAATGGGTTGTACGATGCGCAGTATGACCACGTGCCGGTTTTGGCCTTGGTTGGTCAGGTGCCAACCAGCATGATGAACACCAGCTACTTCCAGGAAATGAACGAGAACCCGATGTTTGCGGACGTTTCTGTATACAACCGGACGGCCATGACAGCGCAACAACTGCCGGCCGTCGTTGATGAAGCCATTCGGCAAGCAATTCGCCATAACGGTGTCGCTGTGGTGACCATTCCGAAGGATCTGGGCTGGACACCGATTGAAGATAACTATGTCAGCTCGGCCTTTACTTATCAAAAGGCAATTCTGCCGGAACCGGATCCTGATAAGATTGCGGAAGCGGCGAAGCTGTTGAATGCCGCCAAACGGCCGTTGATTTACATCGGGAAAGGGACCAAGGGTGCTGGCAAGGACGTTATTGCCTTGTCTGATAAACTCCACGCGCCGATCATGTCCACAGCGATTGCCAAGGGTATCGTGCCCGATGACACACCGGCTTACATGGGTGCGGCGGGCCGAGTCGCTACCAAGCCCGGGATAGAGATTTTGCAACAAGCCGACACCATTATCACGCTGGGGTCCGATATGCCGTTCCAAGGTTACTTTGAAAAACCGGATGCCACCTTTATCCAAGTGGACATTGACGGTACGAAGTTCACGCGCCGCCACAAGGTTGACTTGGCCATCTTGGCGGATGCCAAGAAGACCGTGCAAGCCTTGCTTGAAAAGGTTGACGAAAAGCCGGAAAGCGGCTGGTACCGCGCAGCATTGGCTAACCGCCAGAACTGGGACACCTGGGTATCCAGTTTCGAAGATGATGATCGCACGCCGTTGCGGGTTGAACCGATCTTCAAGGAAATCAATGCCATGGCCACCAACGATGCCATCTTCCAAGTCGATGTGGGTAACGTCACAATCGACGGCTTCCGCTTTTTGAAGTTGCATGATCAGCAGCGCTTCAGCACGTCTGCTTGGTACGCCACCATGGGTTATGGGGTGCCGGCCGCGATCGGCGCTCAAACCAAGTACCCGGATCGTCAAGTTTGGTCAATCTCCGGTGATGGCGGCTTCACGATGGTGATGCAAGATATTATTACCCAAGTGAAATACAAACTGCCGATTATCAACGTGATCTTGTCCAACCAGAGTCTGGGCTTCATTGAAGCGGAACAAGATGACAGCAAGCAGCCCCACTCTGGAGTGGCCCTGCAGGACGCCGACTTCGGTTTGGCCGCTAAGGCCATGGGTGCCACGGGCTTCACAGTCCACACCCTGCCTGAATTGAAGGAAGCCTTCGCCCAAGCCAAGACAGCGGACGGCCCGGTGGTCATCGACGTGCACATTGCCAACGATCGGCCGCTGCCGGTTGAACAATTGCAGATCGACCCGAAGACCCAAGACAAGGATGCCGTTGCCGCCTTCACCAAGAATTACGAGACGGAAGGTTTGATTCCATTGACAGACTTCTTGAGTAAAGAAAACGCCTAA
>SRR1151209_01142 cardiolipin synthase
GTGAGTATCGCGCTCACCATTTTCGTCATCATAATGATCTTCAACACGGTGGGAGCCATTGTCACGGTTTTCCACCGGCCCCGGAATATTGCCAGTACGCTGGCCTGGCTCATGGTGCTGATCCTCTTGCCCGTGGTCGGCTTTTTACTGTACGCCTTTCTCGGCCGCGGCTTAGCCCAAGAAAAAATATTCGACATCAGCCATGGGGAACACATTGGGTTGCAGCACTTGAAGCAGATGATCCTCACCGACGACAAAGCCGATCCGGATAATGAACGCTCTGACCATACGACCACCCACACGGCCCGCCAGCTGATCCGTTATTTCGTGAACGCCCAGGACGCGCCGCTGACCAAGCGGAACTTCGTCCAGGTGTACACGGATGGGCAAGCCCAGATCCAGGCGATTTTTCAGGATATCCGCGCCGCCAAAGAAACCGTCCACGTGGAGTATTATGCTTTCTTCAACGACAACATTGGCAATCAATTTCTTGATTTATTGACGGAGAAAGCCAAAGAGGGCTTGGAAGTCCGGCTGATCTATGATCCTTGGGGATCGCCGCACACCAGCCGCCGCTGGTTCCGGGACTATGAGGCCGCCGGCGGCCAGGTGGTGCCGTTTATTACCGCGCAAAACGTGGTCGCCAAGACTCGGCTGAACTATCACTTGCACCGCAAGATCGTGGTGATCGATGGCCGCATCGGCTACACCGGCGGTTTCAACGTCGGCGACCAATACGTGGAACCGACGAAGAAGTTCGGTTATTGGCGGGATACCCAGATCCGCCTGGAGGGTACCGCGGTCCTGTCCTTGCAGGAACGCTTTGCCATGGACTGGAACGCCTCGGTGGGCCGTAATGGCGAGCTGATCACCTTCCAGCCGAAATACTTCCGCCATCCTGATCCCAAACTGGACGGCCATGCCAATATCCAGCTAGTCTCCGATGGACCGGACAGCACTGCTCAGATCCTGAAGGGCGGTATGATGCGGATGATTATGCTGGCGGAAAAATCGGTTTGGATTCAGACCCCGTACTTGATCCCCGATGACAGTATGATCGATACTCTGATGGTGGCGGCCGCTTCTGGCGTGGACGTCCGCATCATGATTCCCAACAAGCCGGACCATCCGTTTATCTACCGGGCCACGCAGTATTACGCGAATCTATTGACCTTAACGGGGGTCAAGATTTATATTTACGACAAAGGCTTTATCCACGCCAAGACTGCCGTCATGGACAACAAGGTGGTCACTGTCGGTTCCATGAATCAGGATATCCGCAGTTACGCGCTGAACTTTGAAGCCAATTGCTTCATCTACGATTCCCGCGTGTCCCAGCAGTTTACGGACATCTTTAACGCCGATATCAAAGACAGTACGTTATTGACCCGCCAAGCGATCGCCAAGCAATCACGCTGGCTGCGCTTCAAGCAGTACTTCTCCCGGCTTCTCTCCCCAATTCTTTAG
>SRR1151209_01143 hypothetical protein
ATGCAGATCCAAGTGGCAGAAAATACCCCTGTTGCCGTCACGGTTACCGGTACGGGTCAACCCATCGTTTTCTTGAACGGCTTCGGCGGATTCAAGGAGATCTGGGCGGCGCAAATTCCAGCCGTTACCGCTTGGGGTTATCAGGCCATCACCTGGGACTACCGCGGTCAGGGTGCCTCCGGCGGCGACACCGCCACCAGTCTGCGAGAACTGGCCGGGGACCTGCACACGGTGCTGAATGCGTTGGCTGTGCATGACCCGATTCTGGTCGGTCATTCCATGGGCGCTAGCGTCATCTGGGCGTTTCTGAAAGATTATCCGGCGTTTCCGGTCAAGGCGGTGGTCACGGTGGACCAAAGCCCGAAGATGGTGAACACTCAGGACTGGTGGTACGGTTTTCGGGGACTCGACCGGGCCAGTGTCCATCAGTTCTTCCAACTGATGAGCCGGCACCATGAGACGCTTCAGGGTCTGGATCCGGCAGTCGCCCAACCGTTGCAAGCGGCCGAGCAGGCCCACCCGTTCTTCCGCATCGCCGCGGAGGAACTGCTCAGCGATCACCTGTGCGCCGATTGGCGGCCGGTGGTGGAAAAAATCAGTTGTCCGACGCTAATGATCAGTGCTTTGCAGAGCCCGTATTTCCCTGACGGCTATGCCGACTGGGCGGTCAAGTGGAATCCGCAGATCCAGACCCAATCGATTGATGGGTGCGGGCACGATATCATGGCGGAGGTCCCAGCTGCGTTTAACGATATTTTGCGGGACTTTTTATAA
>SRR1151209_01144 hypothetical protein
ATGAAAAAGGCAGCAAATTGGTTAGTTGCTGTTTTATTGATTGCCGCCCCACCAATTTGGCTAATCTTTCTCGCCGTACTCCAATCGTGGGTACGGGGCCCGGACGCCAACGGGCCTTTGTCAGTAGGACGTATGCTTGGGATCTACTTGTTACTGGGTCTTATTGGGTTTGGCGTAGTCGCAATCCTCAGTATCTTTACTCAACTCTTGCCAAAGCAATTATCAATTACCGCGTTGGCGATAAGTATTCTAGCTGATATGATTCTTTTTTGGCTGATTATTATGGGCTATGCCAGTCCTGTACTCCATGGTCAAACTGCGTATGCCGTTCTATACCTCACTCAATTATTTCCGATAATCATCGGCATCACCTTATTCTTTTTGGCCCGAGTAGTTGCATCGCGAGAAACTAAATCCTGA
>SRR1151209_01145 peptidase
ATGTACTTTCCCATGATGTGGTGGTGGGATCCCACCTTCTATTTAGTTATTATCGGTTTGGTGCTCTCCGGAGCGGCGTCGTGGTATGTCAACAGCACATTTCGTAAATACGACCAGGTCACCAGCCGATCCGGCGCCAGTGGTACCGATGCGGCCGCCTATATTCTGCGATCAGCCGGTATTCACGATGTCCAGATCAACCGGATTGCTGGTAATTTGACCGATAACTACAATGGCCGAGATAAAACGCTGAATCTATCCCAGTCTACGGCAGACTCCACGTCTGTCGCCGCCATTGGCGTGGCAGCCCACGAATGCGGCCACGCGGTGCAGGACAAGGTCCGCTATTGGCCCATGGCCCTGCGCGCCGGTATTGTCCCCATTGCTAATCTGGGCTCGTCACTCGCCCTGCCAATCATCTTAGTGGGCGTGCTGCTTGCCCATAGTCAATTGTTAATCAACATCGGCATCGCGGCCTTCTCCCTGGCCCTGCTCTTCCAACTGGTCACCCTGCCAGTGGAATTCAACGCCTCCCGCCGCGCCGTCAACATCCTCTCCAGCTCACCGCTGCTCTCCGGCGATGAAGTCGTGATGGTGAAGAAAGTCTTAACCGCAGCCGCTCTGACCTATGTGGCCGCTGCGCTGACGACGTTCCTGCAATTGCTCCGGTTAATCATTCTCTTCGGCGGCAATCGAGATAATAACTAA
>SRR1151209_01146 hypothetical protein
GTGGAACAATTTGAAAAGTACCATCCAATTATGACTCCCCGGTTTACCTTCGATTGGCTGACCGTCTCCACGGTGAAAGACGTGTTTGCCCTGCGGCATGATCCGGCGGTTGCCGCCCAAACGAATCGGCCGGCAGACGCCGACATCAACCAAACCGTCGATTACATCAGCCACACCATGGTGGCCGTCATGCGCAACCGGCAGCTCACCTGGGGCATTACCGACCGGAGCGCCAAACAATTCGTCGGTATTTTTTCCCTCGACCCCATTGATGAAGACAGCGGCCAAGCCGGCCTGCACCTGGAATTGGTGCCTAAAGAACTGACGGCGGCGAGCGTGCGGGAAATCATCGGCCATATGTCGGCCTTTGCCTTTGCTGAACTCGGTCTCAGCTCCCTGACGATTTGGGTCCCCGCCGGCGATACCACGGTGCAGCCGACCTTAACGGCGCTGGGCTACAAGCCGGCGTCATACACCGGCGACGGTGCACCGGACGACTTTGATCTCTATCAGATCAGTCGAGCCGTCTCCATTACGCCGCCGGGCACTGAATAA
>SRR1151209_01147 ribonuclease HI
ATGGCAAAGAAATATTATGCAGTGGCGCGGGGTAAAAAGACGGGGGTCTTTACCGATTGGCCGACGACCCAAAAATTGGTGGCCGGGTTCCCCGGTGCCCGCTATAAGAGTTTTCCGACCCGCACGGAAGCGGCAGCGTGGGTGGCGGCTGGGGGACCCAAGACGTCCAGTAAGCCGAAAGCCGCCGCGGCGGTCAATGCGCCAAGTCAACCGCAAAAAAAATACACCGTCGCGTTATGGAGCGACGGCGGTTCGCGGAATACCGGCAACGTTGCCGGCGGTCACGTGAAACAATCGGACGTGGCGGCCTGGGCCTATTTGCTGGTGACCCAGGATAAGAAGAAATACAGCGGCTCGGCAGGCGAATTTGGCGCCACCAACAATCGGATGGAAATCATGGGCCTGCTCAATGCGCTGCGCCGTTTGGAACAATTGGGCTTGAACCAAGAGCCGATTTTAGCCACGCTGGATTCCCAATATGTGTTGAATGCGATCAATAAAGGCTGGTTGCGCGGTTGGCAGCGTCGCGGCTGGCAGCGGGCGAATAACCAGCCGCTGGTGAATGCGGAATTATGGCGGGAACTGGCGGCAATCTTGCCGCATTTCTCACAGTTGGATCTGCAGTGGACCAAGGGCCATGCGACGAATTCAGGGAATGTGTTTGTGGATACGCTGTTGAATCAGACGATGGATGCGCTGCTCAAGGCTCGGGCAGATCAGTCCTGA
>SRR1151209_01148 hypothetical protein
ATGAAGAGTGAATTGTACAAGAACCTGTATTTGGGCATGACCCAGTTCAGTACACGGATGCGCAGTTATACCCACGCGGTGATGGACTTTTTAGCCAGCAAATTCGATATTTCCACCATGCACCAGGAACTGCAGCTGATCTTCTTCACTGAACTGACCACCTTGGCGCTGATGCCGGGGACGATCACCAACGCTCACCAGCTGGTGTACACCGCCATGCAGGGCGTGTACTGGAAGCCGGAATCCGGTCAGATGAAGTTCATCCACGTGGTGATCTCCCGCCTGCAGCGGCTCTCCACGGCATTCAGCGCACCCGGAGCAGAAGCGGTCCTGACCGAGCGCTTGACCATGACCCTGCTGCTGCTGCGCCATACCCGCCGCCAGTACCGCATCGGCCTCTTGACCAGCCACGACCTGCCCGTTAATTATTACCTGCGCAAGGCCCTGAACGAACAGATGACTGCCAACTTCAACGTGGTCGTCACCAACTACGATTCCACTCAGAGCTACGATATCATCCTCACCACCAGCATGGAGATGGCGGATCTGATGGGCATCAAGAATGACCTGCCCCTGATCCAGATGCAGGACTTCGGCACTGGTTCGGATTTCGTCGTCTTGTACTGGTATCTGGATACTCTGGTTTCCGGCTATCTCAGGACTGATCTGCCCGAGCCTTGA
>SRR1151209_01149 cellobiose-specific PTS system IIC component
ATGGATCACATCACTAAGTTTGTCGAAGAGAAAATTGCACCGCCGTTAATTAAGTTCTCCCAATACCGCTATATTCAAGTGATTCAGCGGACTGGGCTGGGGATCATGAGCCTCTTGATCATCGGCTCCATCTTTACGCTATTATCCGCCTTCCCAGTCCCGGCGTACCAAAACTTCATCGGCGGGTTCAAAACGACGCTGGCCTCGGCCGCCGGGGTCGGCACCGCCTTTATCGCCCTCTATACCGTCATCACCACCTCATATGCGCTGGTGGAATGGTATAACAAAAACAAGGGGGAAAAGACGGATATTATTCAACCGATGATTCTGGCCGTTGCATCGTATCTGTTGATCAACCCGGTTCAAACAGTGAATACCCTGGTTAAAGGCAGCAAGACGCCGGTGCCGTTTGCCGGTTTACCAGTCACTTATATGGGCGCGATCGGCGTCTTTTCTGCCATCATGGTCGGGATCCTCAGCGTCGAAATGTACCGTTTCTTCATTCGCCGGCACTGGACGATCAAACTGCCGGAAAATGTGCCGCCCATGGTCTCCAGTTCCTTCAGTGCCTTGATTCCAGCCTCCTGTGTGATCATTATCTGGTGGCTGTTCCGCTTCGTCTTGAATCTGGATTTGCCGAAACTGATCTCGGATATCTTCCAACCGCTGGTCGTTGTCGGGGATACGCCTTGGGCCGTTCTGGTGGCCACGTTCCTGAACCGGATTCTGTGGTCCGTCGGGATCCACGGTGGGAATATCGTCAGCGGTGTGGCCGGCACGTTCTGGACCCAAATGTTCACCGCCAACCAGACCGCGTTCCAAGCTGGTAAGGCACTGCCTTACACCTTCACCAGCGTCTTAATGGATAACTACATCTGGACCGGTGTCTTCCCGTTGGCTGTCGTCCTGCTCACCTGCAAGTCGCAACGGTTGAAAAAAATGGGCTGGCTGGCCCTGCCAGCGGCGATTTTCAACATCGGTGAACCGCTGATTTTTGGACTGCCGATCATGCTCAATCCGTTGATGATGATTCCGTTTATTCTGTCTTCCTTCATCGTCGCCATTGTGGCCGTGATCATGGTGCCGCTGCACTGGCTGCCCATCCCAGTGCTGACGATCCCGTGGATCACCCCGGCACCCATCAAAGCCTTTCTTTCCACGAACGGCAGTTGGGCGGCCGTGGCCTTCGTTGTCGTCGGCTGGCTATTCTCCATGGCCGTATTCTATCCCTTTGTGAAAGCAATGGACAACGCGGAATTGAAGGGCGAGCTGCTGGACGACGATACGGATAAAGTGGCAACAACCAAGTAA
>SRR1151209_01150 hypothetical protein
ATGATTATTGTGCTCAGTCCCTTGATGCAGCAGCAGATTATCGACTTTTTAGAAGCCCAGTCCGATCCATCTTTTAAGTTTGAAAAGAAGAAAGGTATAGAACTGTACTTCACCACGGATGCCGCGGACGCGGAAGCCGCAGCCGATATTGCCAAACAGCGGATCAAGAGTCAACCCACCTTCTCCCCTTTGTTGATTAAGGTGCGCACTGAAGAATATTTGTAA
>SRR1151209_01151 peptidase T
ATGGCAGACACCAAGTATCCCACTTTAATTCCCCGTTTTTTACGTTACGTCAAGATCAATACTCGTTCTGATGAGAAATCAACGACTATCCCGAGTGCAGAGCGGGAAGTTAAATTCCTGCACCAACTGGTTGATGAATTAAAAGAAATTGGGTTATCCGATGCCCGGTATAACGATGCCAACGGATACGTCACGGCAACAATTCCCGGCAATACGGACCACCAGGTGCCGACCATCGGCTTTTTGGCCCACGTGGATACGGCGGATTTTAATGCGGAAGGCGTCAAACCGCAGATCGTCGAAAACTATGACGGCCATTCCGTAATCAAGTTGGACCCTGCCGGAGAATATACGCTGGATCCGAAAGATTTCCCGGCTTTAAAGAATTACGCAGGCCATACGTTGATTACCACCGACGGCACGACTTTGCTGGGGTCAGACGACAAGTCCGGCGTCGCTGAGATCTTCAGCCTGGCCGAGTATTTACTGGCTCATCCGGAGATCAAACACGGCGATATCCGCATCGGTTTCGGTCCGGACGAAGAAATCGGCACCGGTGCCGATCATTTCGACGTCAAGGATTTTGCGGCCGACTTTGCTTACACCGTTGACGGCGGGCCATTGGGCGAGCTGGAATATGAAACCTTCTCCGCCGCCTCGCTGCACGTAGCAATCAAGGGTAAGAATGTTCATCCTTCCACGGCCTACCACACGATGATCAACGCCATTCAATTGGGCATCGATTTTCAAAATAATTTACCCCAAGATGAAGTACCCGAAGAAACCCGGGGCCGCGCCGGCTTCTTCCATCTGCTATCCTTCGAGGGGACTCCGGATCACGCCGAACTGGATTACATCATCCGTGACTTCGAACGGGCCGGCCTGGAAGAGCGCAAGCAAAAGGCCCAGGCCATTGCTGACAAGCTGAATGCCCGCTTGGATGAACCCCGGGTGACTGTGACAATGCACGACCAGTATTACAATATGATCGACGTCATGAAGGACCACATGGACGTGGTCCGCTTGGCGGAACAGGCGATGCACAATCTGGACATCACCCCGGATGAAACTCCGGTCCGCGGCGGCACCGACGGGTCCAAGCTGTCCTTCATGGGCCTGCCGACTCCGAACTTGTTCGCCGGCGGCGAGAATATGCACGGCCGCTTCGAGTTTGTTTCTGAACAAACGATGGCTAAAGCCGTGGATGTCTTGTTAGAAATTGTTCAACTGAACGCCGCTAAATAA
>SRR1151209_01152 Nif3-like dinuclear metal center hexameric protein
ATGACCACTGTCCAAGATATTATCAATCGCAGCGACCGCTTTGCACCGCGGTATTTACGGGAAGGAAATGACCCCACCGGATTTCAGCTGGGGGATCGGCAAGCCGTCGTGCACCGCGTACTCGTCACCCTGGATGTCCGGCCGGAAGTGGTGGATTACGCAATTGCCCAAAATATTGATTTAATTTGGGCCCACCACCCGATGATCTTCCGCCCAGCGCGCAATCTGGACTTGGCTGATCCGCAGAATCGAATGTATGCCAGTTTGCTGACCCACGGCATCAGCGTATTTGCCGCCCATACCAACTTGGATAAAGCAGTGGGCGGCATGAACGATTGGCTGGCAGCGGCCATTGGCTTGCAGGATGTGCAGCCGTTTGCCCGGAGCAACGATGATCCGCTGGAAAAATTGATCGTCTTCACCCCAGCGGACAACGCCGATGTGATGCGCCATGCGCTGGCGGCGGCCGGCGCCGGTCAGATCGGCGATTACAGCGGGGCGTCCTTTACCAATGACGGCGAAGGCCGCTTCACGCCTGAAGCGGGTGCTCATCCGGCGATTGGCGCGGTCGCCAAACCGGAAGTCGTGCATGAAAGCCGCGTCGAAGTAATTTTCCCCCATTCGCTGCGGGCTGATGTTTTGCTGGCCATGCATGAAGTCCACCCCTATGAAGAACCCGCTTATGATATCTTCACTGAAGCTTATCCGGCGCAGCATATCGGTATCGGCCGGATCGGCACACTGCCCCAGGCGCTGACTGTTCGCGATTTGGCAGACCATATTAAACAGGTCTTCGCTTTGCAGGGTCTGCGCGTGGTGGCTAAAGATCTGCAAAGATCCATCCGTCGGGTGGCAGTCGTTGGCGGTGACGGCGGTAAATTCTTCCATCAGGCCCAAGCGGCTGGTGCTGAAGCCTTTGTGACCGGGGATGTGTATTACCATACCGGCCACGACATGCTAGCGGCGGATTTGCCGGTGATCGATCCTGGTCACCACATTGAAAGTATCGTCATTCCCCAGATGAGCGAAAAGCTCGCCGCTTGGGCGGATGAGAACCACTGGGACATCACGGTGATGCCATCACCGCTGTCCACCGACCCCTTTACATTTCTCTAA
>SRR1151209_01153 SAM-dependent methyltransferase
GTGACGCAAGACAAACACACCGCAACGTTATTGTCCGATCGGCTCGCGGTCGTGGCTCAATTTATCCCCCAAGATGCCGTCGTGGCAGATATCGGGACCGATCATGCCTACTTGCCGATTTATCTCATCCATGAAGGGGTGTCTCCCCGCGTTGTCGCCAGCGATGTTGGGGCCGGCCCGGTAGCCAGTGCCACCCGCAATGTGACTGAAGCCCAAGTGACCAGCCAAGTCAGTGTCCGCCAAGGCGACGGACTCAGCACGCTGACGGCGGATGACGGCATCACCTGTGTTGTCATTGCCGGTATGGGCGGGGCGCTGATCACCGATATTTTGGAGGCCGGCCAGTCTGACTTGCAGCACACCGAACGGTTGATTTTGCAGCCGAATATCGGCAGTGACCGGGTGCGCACCTGGTTGGTGCAGCACCGGTACAGCATCAATGCGGAACGGATCATCGACGAAGATCACCATATTTATGAAATTATTGTCGCCGACCCGGTCCAAGAAGCCGTGACGCTGGCGCCAGCTGATATTTTAATGGGACCGCATCTGCGTCAGGAAAAGAGCGAAGTCTGGCGCCGTTATTGGCAGGATCGCCACGACCACAACCAAGAATTATTAGCCGATCTGCGACAGGCCCAAACGGATCAATCGGAAAAGGCTGATCAAGTGAAAGAAGAACAGCAAATGATTGAGAAGGAGTTAGCCTAA
>SRR1151209_01154 hypothetical protein
ATGGATAGTGACAATCCTGGACCGTTACCGGACCCGGCGCATCGCTGGGCATTGATGGCGGTATTGTATGCACTGTTGAGTCTTGTGGGGATCGGCGCCCTGTTTTATGATGCGTTGGTCCAAAAGGACGGCGTGGACGGTTTGATCGTCGTCGGCACCGTGGTTGCGCTGACGGCAGCGCTGGGAAACTGGCAGCTTTACCGGCGGACCCACCGGACGCGTGATGCTCACCATATTTTGCTGTGA
>SRR1151209_01155 transcriptional regulator
ATGATGGTGAAAGAAGACTTGCAGACAGTGACGGAGACTGCTCAGACTCTGGGTATCTCGGCTGACCGGTTACGACGGTTATCCGCAGCCATGGAAGAAAATGGGGCAGCCTTCCCCCGCAATAACCGGCGCGGCCGGCTTTACTCGGCAACGGCGATTCAACAGCTTACCGCCATCACCCAGCGGGTAAGCACTGAACATTTGTCCATCCAGGCGGCGGTACGCGCGGTGCTGGCACCAGTGAATCGTGCCGCCGAGCCCGCCGCCGATTTGGCCGTGACCGTCCAGAACCAGCAGGAAGAAATCAACCAGCTGCGCCAGCTCGTCTCCACAGTGATTGAGCAAAATACGCGAATCCTGGAAATGCTGCATCAGGTGGATCCGAATTTGGCCGATCAGGTCAAAGCGGTGGAGAAGCGTGACGTCACGACTCGGCCAACTGAAATTAGTGCCGCCCCGCCTGCATCTGCCAAACCGCGGACGCACACCTATTTGGATCCCCACGCCGCGGAAGTCGCCGTGGAACACAATGATCGGCCCAAGACCTTAGCGGACATGCAGCTGCCGGCGGATGACCATCCAAAGCGTTCTTGGTGGGAACGCTTTCGACGCTAA
>SRR1151209_01156 RNA polymerase sigma factor RpoD
ATGGCTAAAGAAACCAATACGGTATCCAAGAAAGACTTGACCAAGGCCGTGACTGCCTTAGTTAAGGAGTACCGACCCAAGAAGCAAATCACAAATGAAGAACTCGTTGAAAGAATTGTGAAACCCTTCAAACTCGAGTCCAACGACATTGATGATGTGATGCAGAAGGTCGAAGACAACGGCATCAGCATCGTTGACGAGAATGGCGAACCAGCTGAACGGAGCCTGAAGAAAGAAAAGGCTGTTTCGAAGAAGGAATTGCGTGATTTGTCCGCGCCCACTGGCGTGAAGATCAACGATCCTGTACGCATGTATCTGAAGGAAATCGGCCGGGTGCCGCTGTTAACTGCGGACGAAGAAGTCGAATTAGCCCTGAAGATCGAACAGGGCGATGAAGAAGCCAAGCAGCGGTTAGCAGAAGCCAACTTACGCTTGGTGGTTTCCATTGCCAAGCGTTACGTCGGCCGGGGCATGCAGTTCCTGGACCTGATCCAGGAAGGGAACATGGGCTTAATGAAGGCCGTCGAGAAATTCGACTACCGCAAAGGGTTCAAGTTCTCCACTTACGCCACGTGGTGGATTCGCCAGGCGATTACCCGGGCGATTGCCGACCAGGCGCGGACCATTCGGATCCCAGTCCACATGGTTGAAACCATCAATAAACTGATTCGGATCCAGCGGCAGCTGTTGCAAGATCTAGGCCGGGAACCAACACCGGAAGAAATTGGTGCCGAGATGGATCTGCCTACGGAGAAGGTGCGGGAAATCTTGAAGATTGCCCAAGAACCAGTTTCTCTGGAGACACCCATCGGCGAAGAGGATGATTCCCACTTAGGGGACTTCATCGAGGACCACGACGCCACCAGTCCGGAAGAGCATGCGTCTAACGAACTGCTCAAGGAACAGTTGGAGAGCGTTCTGGACACGTTGACTGATCGGGAAGAAAACGTTCTGCGGTTGCGCTTCGGCTTGGATGATGGTCGGACCCGCACTCTGGAGGAAGTCGGCAAAGTATTCGGCGTCACCAGAGAACGAATTCGCCAAATCGAGGCCAAGGCCCTGCGCAAGCTGCGCCACCCGTCTCGCTCGAAACAATTGAAGGATTTCTTGGATTAA
>SRR1151209_01157 DNA primase
ATGGCCCAAAGAATACCGGAAGACGTCATTGAAGGTATCCGCCAGAAGGCCAATATCCTCGATATCGTTGGCCAATATGTCCAGTTGCGCAAGCAAGGCCGCAATTACTTCGGCCTCTGTCCGTTCCATGAAGAGAAGACCCCGTCATTCTCTGTCGCTCCGGACAAACAGATCTTCCACTGTTTCAGTTGCGGCCGGGGCGGTAATGTCTTCAAGTTCATCATGGACATTGAAGACCTGTCGTTCCCAGAGTCGGTGGCGAAAGTCGCCGAGATGATTGGTGAAAAACTGCCGGATGAATACGTAGGGCCGGCGACACCCGCGGATCCGGAAATTTCTCAGTTGCGCCAGATGCACACTCAAGCGGCGGCTTTTTATCACCATATTCTGGTCAATACCCAGGTGGGTGAAACGGCCCTGGCGTATCTGCACCAGCGGGGGATGGCCGATGATTTGATCGAGACGTTCAATATCGGCTTTGCCCCGGATACCGGTGACGTGCTGTGGCAGTATTTGCACGAGCATTATGATGACGATCTGCTGCGGACATCGGGTCTGTTCACTGAGCAGGATGATGGCCATTTGCGAGATCGGTTCTATAATCGAGTGATGTTCCCGGTGCGGGATCAGGGCGGCCAGGTGGTGGCCTTTTCTGGGCGGATTCTGACCAAGGCCGACAATGCCCCGAAATACTTGAACAGTCCGGAAACAAAACTGTTTGCGAAGCGGCAGGTGCTGTTCAATCTGGATCAGGCCAAGACCAAGATTCGGGATGACCACCGAGCGATTCTTTTTGAAGGATTCATGGATGTGATTTCGGCTTACAGTGCCGGGGTAACAAATGGCGTGGCCTCCATGGGGACCAGCCTCACGGATCAGCAGATTTACGACCTGCGGCGGTTAACGGACAGTCTCGTAATTTGTTACGATGGCGATGCCCCGGGAATTGCGGCGGCCAAACGGGCAATGGGACTTTTGGGCGGCGACCAAGGTTTTAACGTCAGCGCCGTCGTCCTCCCCGATGGTATGGATCCGGATGAATTTGTGCAAAAGCGGGGCGCAGAGGCCTTCCAAAAACAGATCACGGAACATCGGTTGACGCCGACCGGCTTCGGTTTACGGGAGCTGGCCAGCCGCAGTGACTTGACTGGGGACGCCGCTCGGGCGGATTACACCGATGCCGCCTTGACGATCATTGCCCAGGACCCGTCGCCGGTGGAACGAGACGTGCATCTGCGCGGTTTGAGCAAACAGCTGGGGGTTGATTTAGGGGCGCTCCAGGCGTCCTTAATTCAAATCCAAACGGAGCTGCCCAAACAGCGGCCGCGCCAAACAGAACGACGCCAATCCGCCCCCATGGATTATGGTCCGCTGCCGCCGCCCCCGGCGATGCCCGAGCAGCCGCGGCTGTCGCTGGTGGAGCGGACAGAACAGGACCTGCTGGCATTGATGATGGCCCATCCGGAAGTGGTGGACCTAGTCCAGGGCAAGTCGGATGGCACTTTTGAATTCGTGGATGTCAATTATCAGACGCTGTACTTGCTGTGGCAGGATTACTTGGCATCAGGTCATTCAGCCGGTGACGTGGCCGGCTTCAACGACTTCGTTCCAGATGCGGAAAACGCGCTGCTCACGCAAATTGAGATGCGCGACTTGCCCACTGATTATTCGGAAGAACAGGTGACGGACTATCTGCACATCCTGTCCCGGCACCCGCTGCAGACTGAGTTGCATACCTTGCAGCAGCAGCTGCACCAAGCCCATGATAACGGCGACGGCGAACGTGAATTAGCAGTCGCTATGCAGATCATTCAGTTGCAGCAGCAATTGAAGGGGAGACCAGGACCGGTTTCCTGA
>SRR1151209_01158 glycyl-tRNA synthetase beta chain
ATGACGACACATAATTACTTACTCGAAATTGGTTTAGAGGATATGCCGGCCCACGTGGTGGTCCCCAGTGTCCGCCAACTCCACGACCGCATGGCCGCTTTTCTGAAGGACAATCGCTTAGCCTTTGCCGACATTAAAGAGTATGCCACCCCGCGGCGTTTAGCTTTATTGGTCAGCGGTTTGGCAGACAAGCAGACTGACGAGAGTACGGAAAACCGCGGCCCGGCGATGAAGATCGCTAAGGACGCCGACGGCAACTGGACCAAGGCGGCCCAAGGCTTTGCCCGCGGTCAAGGCGGTACTGTGGATGACCTGGAAGAACGCGACGTTAAAGGTACGCCCTACGTTTTCTACCAGAAAAACATCATCGGTCAGCCGGTTGCAGATGTTCTGCCCAAGGTCACGGAGATCATTGAAGCCATGACTTTCCCGACGCGGATGCACTGGAGCCACTATGACTTCGAATATATCCGGCCGATCCACTGGTTCGTTTCGCTGCTGGATGACAAGATAGTGCCATTCAAGGTCCTCGACGTTGAGGCCGGCCGCACCACCCAGGGACACCGATTCCTTGGTCACGCGGTGGACCTGCAAACCGCCACGGACTATGAAGACGCCTTGGCCGACCAATTTGTCATTGTTGACGAGCAGAAGCGCGGCGACGTGATCAAAGCCCAGGTGAAGCAGATCGCCGACGAACACGGCTGGCGCATTGTACTGAACCGGGACTTGTTTGAAGAAGTCACCAACCTGGTAGAATATCCCACGGCCTTTGCCGGTCAATTCGACAAGAAGTATCTGGAATTGCCCGATGCCGTCTTAATCACTTCCATGCGCGACAATCAGCGGTATTTCTACGTCACCGATCATGATGGTCAACTTCTGCCGGATTTTGTCGCCGTTCGCAACGGCAACCGGGAATACCTGGAGAATGTCGTCAAGGGGAACGAAAAGGTCCTTGTCGCCCGGTTGGAAGACGCGGTATTCTTCTATGAAGAGGACCAGCAGCATAGTATTGCCGATTACGTGGAGAAACTGAAGACGGTCATGTTCCACGACAAGATCGGCTCGATGTATGAAAAGATGCAGCGGGTCGCCGGCATTGCCCGTTATTTGGGCAAGCGATTCGACTTGAGCGAAGCAGAACTCGCCGATTTGGACCGGGCCGCCCACATCTACAAATTCGACCTGGTCACCAGCATGGTCGGTGAATTTCCTGAATTGCAGGGCACGATGGGGGAGATTTACGCTAACCTGGCCGGTGAAAAAGAAGATGTTGCCAAGGCCATCCGGGAACACTACATGCCTACGTCGGCCGATGGCAAATTGCCAGCGTCTAAAATTGGCAGTGTGCTAGCGATTGCCGATAAGATGGATACGATCATGACCTTCTTTGGCGCCGGAATGGTGCCCAGCGGGTCCAATGATCCCTATGCACTGCGCCGGCAAGCCTATGGCATCATTCGCATCCTGCAGGACCACAAGTGGCACTTCCCGCTGCTTCGGATCCAAGCCGCGATCGTCAGCCAGTTCCAAGAAAAGAATCAAGTGCCGCATCTGCACCTGGACAAGGTTAAAGGCCTGAACGACTTCTTTGTCGATCGGGTGAAGCAGTTCTTCAGTACGAAAGATACGCGGCACGATATCGTCGATGCCGTTACGGCCAATCAAGATGTCGATCCCGAGGATATGTTCGCTGCCGCCAATGTACTCACCGATCAGGTCGACAAAGAGTCCTTCAAGCCGACTGTGGAAGCCTTGACGCGGGTGTTACACTTGGCCCGGAAGTCCAAAGACGCCGGTGCCCAAGTCGACCCGAGTCTGTTCCAGAACCCTTCCGAACAAAAACTGCATGATGCGGTGGAGACGTTACAAGCCGATGCGCCGCAATTATCAATCGCGGAATTGTATCAGCGCCTGCAAGATCTGCGGCCAATCATCAACGAGTACTTTGAAGAGAACATGGTCATGGACAAGGATCCCAAGATTCGGGATAACCGCCTGCACCAGCTCGCCCAAATTCGAGACATCGCTAAGTTCTTTGGTAATTTGGATGGTTTGATTGTAAAATAG
>SRR1151209_01159 glycyl-tRNA synthetase alpha chain
ATGGCTAAGAAGTTGGACATTCAAGATATGATCTCGACCTTACAGCACTTCTGGGCGAGCAAGGGCTGTATGTTAATGGAGGCCTATGACGTGGAGAAGGGCGCGGGCACGATGAGTCCCTATACCTTCCTGCGGGCGGTCGGCCCCGAACCGTGGAACGCGGCATACGTGGAACCGTCCCGGCGGCCGGCAGACGGCCGGTATGGTGAAAACCCGAACCGGTTGTACCAGCACCACCAGTTTCAGGTGGTCATGAAGCCTTCTCCCAAAGAAATTCAGGAATATTATCTGGATTCTCTGCGGGCGCTGGGCATCGAACCTTTGGAACACGATATCCGGTTTGTTGAAGACAACTGGGAGAACCCGTCCATGGGCTGTGCCGGGGTTGGCTGGGAAGTCTGGCTGGACGGCATGGAAGTGTCCCAATTTACGTATTTCCAAGTGGTTGGCGGCCTGAATGTTTCCCCCGTCACCAGTGAGCTGACCTATGGGATCGAACGGCTGGCGTCCTATATTCAAGACGTGAATTCCGTTTTCGATCTGGAATGGGGCGACGGTGTCCTGTACGGTGACATTTTTAAGGAACCGGAGTACGAACATTCCAAGTATGCGTTTGAAGAAAGCGACCAGGACATGCTGCTGAAGTTCTTCAATGATTATGAAAAGGAAGCCCACCGCCTGATCAAGCTGGGTTTGGTCCACCCCGCGTATGACTATATTCTCAAATGTTCCCACACGTTCAATCTGCTGGACGCCCGGGGCGCGGTCTCGGTAACCGAACGCGCCGGCTATTTAGCCCGGATCCGCAAGATGGCGCACTTGGTTGCTAAGGCGTTTGTGGCCGAACGGGAGAAGCGCGGGTTCCCGCTGTTGAAGCATGCTCAGGAAAATGCCGCAAAGGAGGTCGAATAA
>SRR1151209_01160 hypothetical protein
ATGAGGGATAACATGGGAGACAACATGAGCCAGCAAGTAAAAAATAGGTTGTTTCAGAAAGGAATTGCCTTAAATTCCATTCAAGCGTATGATGTCTATGAATCATTCGTGAGGAACGGGTAA
>SRR1151209_01161 integrase
ATGGCTTCCATTAAGGATTACAAAACTGAGAATGGCAAACACCGTTGGAAAGCAACAGTTTACATCGGTGTTGATCCAAAAACCGGACGCAAGAAATATGCAGTTAGAGGTGGTAAAACAACTAGGCAAGAGGCAATCAGTGCAGGCAAAGAACTTGAAAAGGCAGTGCAAAATGGTGAATTAACAGCTTCCCCTCAAAAAGCCGAGGTCAAACGAAAGTTTAAAGACGTTTGTCACGAATGGTTAAAAGCCTATCAACTTACAGTCAGAGAAAGCAGTTGGTCAAAGACACGAGACTGTTTTAATCTGCATATCTTGCCTGATCTTGGTGATATGTACATTGACCAGATCACGGCACACGATTTACAGGCTGTCGTACAGAAGTGGTACAAAGAATCGCCAACCAATTTCAAACGTTACTTTCGACATGCTAAGCGTGTACTGAACTATGCTGAGATGCAAGACTACATTCTCAAGAACCCAGCCAGAAAAGTGATTGTTCCTAGGGAGCAAGAAAAAGTAGGTGCAATTAACGACTTTTGGGATAGACATCAGCTCATAGCCTTTTTCAATTGCATTAATCCAGACCGTGAGCTGTATAAATATGTACTGTTTCGCATCCTGGCTTATGCTGGGTTACGGATTGGTGAAGCAATGGCACTTGAATGGGAAGACATAGACTTTCGCAAGCGAATAATTAGTGTCAACAAGACGTTCTCTCTTGGACTCCATGGCAGGCTAGTTGTTGATCCACCAAAGACCAGAGCCAGTAGAAGAGCTGTGCCCGTTGATGTGGAAACAATTAATTGGCTAAAGCGCTGGCGAATGGAGCAGGCAGATTACGTCTATGGCTACGTCAGACTGGCAGACCATCATCAATTGCTGTTCACAACCAAAGTTGGTAAGCCGTTCAGAGTCGATAAGCCGAGAATGTGGTTGAGCACTATTATTCGAAACAACAATCTGACCCCCGTCATATCATTGCACAAGTTCCGAAAGAGCTACATTTCCAACCTGCTGATTGCTGGTGTGGCAGTGTCTACGGTTCAAAAACTGGTCGGTCATACTGATCCAACAATCACTCTCCAGATTTATGCTCGTGTGCATCAAGAACAGGAATTTGAAGCAGCAGACAAGTTGGCAGAGTACTTAAAAACGGGCAAAAAATAA
>SRR1151209_01162 hypothetical protein
ATGAAGAAATTTTCAAAAGTTAAGTACTTCGGTGCTGTAGCCGCTGCCTTGTTGGCAGTAGCCCCGATCGCTGCACCAGTAGTTAGCTCGATTGCTTCACCTGCTGTAGTACAAGCTGCTACAACTACCGATGCTCAAAAAGTGTTGAATCGTTACTTTAAGGATTCAACAACGACTAGCCAAAAAAATCTGTTTGAGTTTGTCTCTGGTGAATCGGCTATCACTGCTCCTGAATCCCTTGCGGGGCGGAGAAGTGGTCCGAACCACTTTCTTGGCACTCTGTTGACCAACGGAGATCTGCCTTCTGAGTTCAAGAATTACTATGTGCAGGTTGTGTTCTCTGGATATGAAGGTTATCCTGCTAGTCAGGTTGCCTATGACTTATATGCGCGTGGGGCTGGTACCTATACAGCGACCGTTTATTTGTTCAACGCAAATCCTTCTGGTACGTATGATACTCCAGCGCTTGCTTCTAAAACTGTTACTTTGACGGTTCCTGCCGCTACTGCTACAGTTTCCGGGGTTTCCAGTGTCAGTGATGCGACCGTAGCAAACGGTTCTTCTGTCACACCTTTCCAAACGGTTGCATCAATTGTTGGCTCAACTAAGTTTGCACTTTCAGACGGTTCCACTCGTGATGCTGTTCCTTCTGATTTCGCAACTGGTTTACCAATTTTTGTAGGCTTTACTCAATCATCTAATCCTTATTATGATATCAAGCAGCTTGACGGGGGGATTACTGGTTCAACGTTCAAGACCCCTGGAACTTATTATGCTTTGTTCAGCTTGAGCGATGATGTTGCCGCTTCACTTACAACCGCAGGAGTGACTCCAACCGTTTCTCTTCGCAAGGTTACGGCTACGGTTACGGTTCCGGGCGATAAGACGAAGACGGAGACGAAGACGAACTGGTATGTTGCTCGCAAAGTTGTAGTTGGCGATTATGCTGAGTCTGCTGCTACTGGCACGGCAAACGTCGTCAATGGTCAGGGTACTACAGTTTATAGCGATCCTACTACCACTACTTCAACTGGTAAGACTTTGGATTATGGTTCTGCTTGGAAGGTTTACGGCGTTGTAAAGAACTCAGCTGGTACTGTACTTGCTTACAATTTAGGTGGTAAGCAATATGTTAAGGCGAGTGATGTTTCTTCAACAGCTGTATCTAATCAGGCTGGTGTATTCACTGTTAAGTACCCTTCTAACCCTACTTGGTCTATCGCTGTTTATAACAGTGATCTGAAGGTTCAAAAGTTGATTCCTGCTGGATCAACTTGGACGACCTTTGGCGTCAAGACATTGAAGGACGGTAAGTCCTACTACAATGTTGGTGGCGACCAATGGGTTCGCACTGACTATGGTTATTGGAACGCTAAGTAA
>SRR1151209_01163 phage lysin, N-acetylmuramoyl-L-alanineamidase
ATGTCAGTCAACATTGATTCAGCAATTGCTTATATGTATCAGCTTCAGAGAAATGGCGTTACCTATTCAATGGATGGCAGCCGAACTGGTTCTGATGGCACAGCAGATTGCTCAGGTGCTGTTTACGCAGCATTAAGAGCAGGTGGAATGCCTAGCGCTGGCTATATACTCAATACTGAATCATTACATTCTTGGCTGTTAGCTAACGGTTGGAAGCGTGTGGCAGATGATAGCGACTGGAATGCACAGCGTGGAGACGTTTTCATCTGGGGAAAGCTGGGTGATTCTGGTGGCGCTGGTGGACATACTGGCATATTCATTGACCACAACAACATCATTCACTGCAATTACAGTCATAATGGCGTATCCATAAACAATCATGATGCTTACTGGGCGGCTGACGGATGCCCATATTTTTATGCATATCGCTATGAAGGTGTGCAAACGTCTGTTCAGCCTGTGGACTACAACGTGGTTACTGCTCTGGGTGGATATAACTCAACTTGGCAAGATGGCTATCAACACCAGTCAAGTCACAATAAATTTAGTTATCAATCGCAGTGGAGAAGCTATGGCATCGTGAGCATTAACGGCCTACCGTACTACAGCTTAGGCGGCGACGAATGGCTCGGTCAGTATGCAACTACACTTGCTGGTGTCTGCCAAATCAACTATGTGCCAGGGTATGGCATCATGGCTATAGACAAGAATGGAAAGCAGATTGCTGGTTCAAATGCCGAGTTTAAGACAGGCACTCGATGGAAATGCAGCAAATATTTAACCAGTGTCAAGGGCCAGTGGTGCTACCAAGTCTCAACAACTGAATTCATACCCATCAGATACGCTGTGGGTTGCGGGGCAAAATACTGA
>SRR1151209_01164 holin
ATGAAGATTAATTGGAAAGTGCGATTTTTATCTGTAAAATTTTGGCTAGCTTTAGTGCCGGCTGTTTTGTTGGTTGTGCAGACAGTCGCTGCGGTATTTGGATACAAATGGGACTTTGTTATTTTGAACCAGCAGGTTGCTGCTGTGATTAATTCAATCTTTGCTGTGTTGACTATTCTGGGAGTGACTATTGATCCAACCACTCCTGGCATTGGCGACAGTTCATTAGTTCTTAGTCGTGCATCTCAAGTTGTAGCACCTAGCTCAGCTGTTCAAGTCCCAAATCCCAATCCACAAGGCCAGCAGATTGCTGAAACACCGCTGATTCAGCCCATTTCTGCTGATGACACGAGTGTTTCACATGAAACAGCAGTGAATGGAGCTGATAGCAATGTCAGTCAACATTGA
>SRR1151209_01165 hypothetical protein
GTGCATTTACTTTTTGGAATGAGTATCGATGAATGGGCTGAAATGTTGTCAGCGCTGGCTGTTATTGTCTCCTGTGGAAGCTGGTTGTTCAAACGTATTGCTCTGGACCCACTGCGAGCTGACATTCAGCTCTTGTCTCAGCAAATCGGTCAACAACTAAAAGTTCATGAAAAAGAGCTGGCAGACCTCGAGGGGCAATTGAAAAGTCATGACCACGAGCTAGATTCGCATTCAGTCCGACTGACAAGATTGGAAGACAGAACAGGGATTAAAGGAGACGACAAGCACAATGAAGATTAA
>SRR1151209_01166 hypothetical protein
ATGCTTGACTTCGTAAAGCTGATGTATTCATGGAATTGCCCAATCGAAGGATATGTAGCCAGTGGGGCAATTACAGAAGATGAGTACGAACAAATCACTGGCAAGCAGTATGTGGAGAAGGGTGATTAA
>SRR1151209_01167 hypothetical protein
ATGTTCAAGTGGAAGTTAAATGAAGACGGCACTATTGCACACATGGCTGGCAAGAATGCTAAAGTCGATGGCAAAACAGTGATTGAAGCGGAACCGCCAGCGGGTGATTGCATCAAGCCAAAATGGAATGGCACGGAATGGGTAAGCAATGCTACAGCAGATGATTTAGCGGCCTTGAAAATCTTACAAAGCCAATCCAGTCAACCTAGCTCTGAACAATTAGCCATCAATCAATTAGGCATGATGGTGGCTAAACTGTCTGCAAAGGTGGCGAGTGCTAATGCTTGA
>SRR1151209_01168 phage-related tail-host interaction protein
TTGGTTTACAACAAGCCACAGTTCATTATTCAAGACCCTAACCAAACGGTTTTAGGCTCTACCGCTAACTATTATGATTCAACTCTGACATGGTCATTGAGCACAAACTTTGCAATCTTAACTTTTACACTGCCAGCCAATGATGATGCGTCAGGATTGATGCTTAACAACAATTACATCACGTTTGTTTACCAAAATCGGTCGTGGCGCTTTCAAATTGTAACAGTTGAAGTTGGTGATGATGGCAGCTTTAATGTCACGGCTAATGCTCTAGCCCTTCAATTAATTGATGGTCAAATAGCTGCTGCTGGTGCACCTGCTGACCCACAAACTGCAAGCTATTATGTTGGACAAGCCATTGCTAACACAGGCTGGAAAGTTGGTCGAGACGAAATAGGCAATAGTACGGTGAAGAAGATTAGCTTTTCTGATGCATCGTCTCCAATTGCCCGTCTGTATTCTATTGCTGATACCTTTGGTGTTGAGCTGGATTTCAGAACAGAGCTAGACAATCATTACAATCTGACTGGTAAATATGTAGATATTGTTTCGTCCCTAGGCACTGAACGTCATGACATTATGCTTGGCTGGGGCGAAAACGTAACTTCAATAGAGCGCACGATAGACACATCAAGTCTGGCGACGGCATTAATAGCCACTGGTGCAAGCGGAATCAACCTAACCAGTCTAGACTACACATCAAGTGATGGACGATATAAGTCACCGGCTGGCGTAAGCTACATGATGGACACAGTGGCTAATCAACAGTTGCAAAATGGGGCAGGCTACATCATTGGCACGTATGAAGACGATGGTGCCACAAGTCAACAACAATTAGTTACGGACACAATAGCTCAATTGCAAAAACTTTCAACACCTTCTGTCACGTTCGACACAAAACTGGCTTATCTTCCCGATGATGTGATGATTGGCGACACGCTTTATCTCATCTCAAATGACCCTAACAACATTGTTCGAGACAGTACAAGAGTGGTAGAACTTGACATCTGTCTGGACAATCCAGCAAAAACATCAGCAAAATTTGGTGATTATAAGACACTAGACATTGGAACAAATCTTGACGACATTGTTCAGCTCAAAAAACAAGTTAGTCAAGCTCAGACAACGGCTAGTAATGCTCAATCAACAGCTGAATCAGCAGAAACAGCGGCCAATACAGCTCAAACGATGGCCAATACTGCTCAATCGACAGCTCAAACTGCTAATAGCAATGCTGAATCGGCTCAAAATGCAGCCAATAGTGCTCAATCGACGGCTCAAACTGCTAATAGCGCGGCTGAATCAGCTAAAACAACAGCTAACACGGCTAATAGCATGGCTCAAACGGCCAATAACACAGCTCAAACAGCTCAAACAACGGCGAACACGGCGAATAGTACAGCTCAAACTGCCAATATTACAGCTCAAGCGGCTCAAAAAGCAGTAAATGGAGCCAGCACAATTGCTAATAATGCACTGGCTCTGATTCCGGTCATCTCAACAACAGTTCCAAGCTCGCCACACGAAGGTTTGATATGGTTTGAAGGTGCAGACAGCACACACATCAAGCAGGTTCACCAATACACTGGCGGCAAATGGGTGACTAATGCCATCAATCCTACAGCCTTAAACATTAGCAGCTTGAGTGCATTATCTGCAAACCTAGGCAATGTTACGGCTGGATCATTGAATGCCGTAAATATCACAGGTTCAGACATAACAAATGTCAGCAGCTCTAGTGATTCTGATGGCAATCCGATCACAACAACGCAGACACAGAACAGTGATGGCTATTCAATCGTTACGGACAGATGGAACAATGGCAATGAAATCATTCAGCGAACCGACATTACATCTCTTGGACTGTTCAAAATGATGTGGAATTACAAGTCCAGCTATGATTCAGATAACCCATACACCGGAGCACAGGCAAACGCTGTTATTGATCCAGTCAACAGCTCAATGAGTTTCTACACACCTAGTTTAGGCGACAACTACCTTAACATTCAAGACGCGATTTATAACGTTGGCGACCAAACCTCTTGCGCTTGGTCAGATGGTATGAGCGTTTATAATAACAAGTTTAGCATCGTGAGAAAGGGACATTTCGTGTTTGTGTCAGGGTATGTTCACACGGCTGGGAGCGTATCAGCTGGCTCCAATATCGTTTCCCTCCCATCATGGGCATTGCCGGTAACCGATTTGGTAGTTCCTGCGACTACGGTAAATAGCAATGTTGGTGGAGCGTCGTCAGCTAACTTGTTGCTACAGACTGGTGGATTTCTGACGATTAACTCTGGGACTGTATACAAGTGGGGTTACTTGTCGTTCTCAATTTCGTATGCCGCTACTGACGTGACAAGTTTTATGAATGACTAA
>SRR1151209_01169 phage tail component
TTGGCTGATAAAGGTATGAGCGTGCTGTTTAATGACATTGATTTGTCACAATGGCTAGGCATTACAGGCATAGACATTGAAGATCTGCCCACAACGACGCCGCAAGCAGTAGATATTGGTTTATCACCTGGGCAGAAAATGCTCAGCAACAAGTGGGGACCACGGACAATCACTCTGGATTACTACCTGCTTGACCAAAGCTATAAACATGATTTAGCTGGTGCATTAGGTTCAAGCAACAATCAACCCGCTCAATTGATTTTGGGCAATGACCCCGACAAGTATTACATGGCAGTGCCAGCTGGTGGTGATTCACAAAAATTAACCCCGATCAATGGCATCGTGTCTGGTGGCAGTCTAACATTTGTTTGCTACGATCCATTTATCTATTCCATGGACACAATCTCAGAAACAAATGATGAAGGGAACTCCATCATTATTGACAATCCGGGCACAGTTGACGCTCCAGTAGATATCTCAGCTGTGATGAACAGTGATAATGGTTACCTGTCGGCACAGATATTAAATGGTGGCAGTGAAGCGGCTGGTGATATAAATGGTCAAGTCAAGCCAAATGGAGACAAAGTCAATGTTGATTTTAACGTTAGTTTTCAAAATGGTAGGCTGATTGGCACACAGAACAAATATCCAACCCATCACTTCCCAACTTCACCAATTAACGGCGTGTGGGCAGTTAAATCAATGGGGAATAAATCAGGAAAAGATGAAGTGGCCTATGTAAATACATTCGGCGTCCCAAGCAACCCGGGTTATGGCCAAATCTATGGTGCAAGTCTCTATTTTCCTTATTCAAAGCCATCGACACATGTTCTCAGCTGGTCAAATTTTGATTTGGACACTAGCTACAACAAGGATAAAAACTATGGTGCTGTTGAAATCAGCTTGGTTGATGCTAATGGTGCTGGCATTGCTGGCTACTACTGGAATAAGGTTCAAGGCACGACAGATCATGTCGATTTACAGCTTTGGGTTGGTGATGATGTGGTAGCTGAATGGAATGATGCCAAAAACACGAGCTGGGTACTGCACGACTATCAAGGCCCTATTCAAATCGAAAAAAATGGGGCTGACATCGTTTTCAGCTTCAAGAATAACACTGATAATAGTGGCTACAAACGCACGTTCCACTATGCAGGTCTAGAAAACACACAAGTGGCAGGCGTTCTCTACTATGCTGGACAGTGGTGTGGGCCAAATGGTGTTTTGCCTATTCTCAACCTTGGATTTGGTTATGTTCAAGGCATTAGCTATTCAACCAAATGGCAAACTACAGCCAATCTATTCTATTCTGGCTCAACTGTTGACTTAATCAGTTCTGATGGTCAGCTGGTAAAAATAGATGTGAATGGGCTTCCAGCTTACGACGTGCTAGATCACTCATCAACCCAATTGCTTGTTCCAGCACAGTCCTCGACAACTATTTATCTCGATTGGTCTGACACAGCCACAGCGCCACAAGTAACGGCAACACTTAGACCTAGATATATTTGA
>SRR1151209_01170 hypothetical protein
GTGACACAACAAGTTAATGCAACAATGAGCACAAGTATCGCCCTGGACCTGTTAAGTGCTAGTACATCTATCAAATCTTTGACTTCTGTTGTCCGGTCAAACCAAAGTGCATGGAAGGCCCAAGAAACCCAGCTGAAATCAGCAGGCGATATGGCTGGTGCCGCTCAAGCCAAGTATGAAGGATTAGGCCGTTCAATCACTGACCAACAAGCTAAGATTGATGCGTTAAAGAACAAGCAATCTGAACTCAAGGGTAATACAGCGGATGTTGCACAGCAGTTCTTGAAGTATGGACAGCAAATCGATGCCGCTAGTAAGCAACTGTCCAGCATGCAAGCTCAACAAGAGCGAGCCAAGCAAGCCATGGACTACCAAAAGAGCGGTTTAGCAGGGTTGCAAGACGAATACCGAAAAGCGTCACAAGCCAATCAGACTTATGTCGATCGCTTACAGGCTGAAGGCAGACAACAGGAAGCAAACAAAGCCCAGCTTGATGGCTATAAGTCCAGCATTAGCAACCTGAATGAGCAGTTGAGTAAGCAGTCTGAAGAATTAGATAAGATTGCTAATGCCAGTGGTAAAGACAGTGACGCTTATCGTACTCAACAGAACCGTATCAATGAAACAGCTACATCTTTAGCCAAAGCTAAGGGCAGTATGGTCAGCCTTCAAGACGAAATGAACAAGGCCAATCCTTCGATATTCACCAGAATCAAAGATGCAATCGGTAGTACAAATAAACAAGCCAAAAAAACGCCGGGTCTACTGCATAAAATTGTTTCTGGCGATTTGATTAGTAATGCAATCAGCTCTGTTTGGACAACGATTCAGACGCAGGGAAAAACAGTTTTACAGCAAGGACTGCAAATCGCTGAAGCTGGCGAACAGGCCAAAAGGATATGGACGTCATTAGGCGTATCCAATTCTGGTGCCGATGCCTTAATCGGTCAAATGCGAGAGTTAAAATCTGAGACCAATCTATCCGCTGACCAAGTGGACACATTGCAAAAACGGTTCTATGGCATGACCGGCTCTGTTCAAAGGACACAAGAGCTGACTACTGGTGTGGCTACACTGTCTGATAAATTGAGACTTTCTGGCGATGCTGGTACTTCCATGGCTAAATCATTGCAACGAGCCTTTAATAGCGGCAAGTTGACCAGTGGTGTTTTGACCCGAATGGAGAATGCGGCACCCGGACTTGGTAGCGCACTGGCTCAATCGGCTGGCATGTCTGAAACAGCCTTCAACAAGATGGTAGCATCTGGGAAGATGAGCAGCCAAAAGCTACAAGACCTGATTATTAAAATTGGCGGGAACAGCAAAACTGTTTTCGCTGACTTCGGTAACACTGCCGAGGGTGCTGAGCAGAGATTAAAAGGGTCATGGCAAAATATTGAAGCAGAAATGGCTAAGCCACTTGTTTCTGTTCAATCAACCGGAATCAATTCCATAGTCAATGTTCTTCAATCGTCTGCTGTTCAATCATTGTTCAAGTCAGTGGGTGAAAGCATTGCTAAAATCACTCAGAAGGCTTCGGACTTATTAAACTATGTTGCTGAGCATCAAAAAGATGTAGGCGGCATCGTCACGGACTTAGCCGACATTGTTAAAATCGCAGGGAACTATGTCTGGGACAGTTTCAAAGGCATTTTGAAAGATGTAGCTAACTGGTTTGGTATCAGCGGAAAAAACGCACAGTCTATGAAAGACCCGTTGGCCACCATTCATGACATTCTTGATAAAATTGTTCAGAACAAGGACGGAATTAGAACCACAGTCAACATCATTGCTGGCTTATGGATGACTAAAAAGGCCATTGGCTTTGCTAGTTCAGTTGGAAGAGTATACACCAACCTGAAGAGCTTAGCTGATTCAAGCCTGTTCACCAAAATCGCAAGCAACTTTGGCCTAATCAACAAGGCTGAAAGCACAGGCGATGGTGCTGCACCAGCAATTAGTAATGTTGAAAGTACAGCTTCAAAAGCCAGTCTAGGAAGTCGTGTACTCAAAGGCACGTCTAACCTAGCCGCTACTGGCACTGCTATTGATGTTGGTGGTAGCATTGTATCCTCGCTGGCAAGTAATAATGAACAGCAAAAGATTGCCGCTGTGTCTAAAACCACTGGCACAGTAATAGGTGGTGGGATTGGTGCCGCTGTTGGATCACTAATCGGACCAGAAGGAACTGTGGCCGGGGCTAAGTTTGGCTCTGCGATTGGTGATGCGCTGGGAAGTACAAAGACAGCTCAAACATGGGCTAAAGAAATCAAAAAGTCGATGGATGATGCTTCTAAAGGTATTACGATACCAGCGCCTAAAATCAGTACGGACACTAGAGATTTGGGCGACAGCATGGCTAAGTATACCCAAGCACTGTCTAAAAAATTGGTTATTTCTTTTAGCACCGACCCTAAGTCAATGGCACAGGCTCAAAAATCAGTTAATGATACCTATGCCAAGATGAGTAAGTCAGTTGATAGCTACTATGCTAAAAAAGAAAAAGCATCCGCTAAGGACCTGCAGACGCTGGTAAAAGATGGCGTGCTTACTCAAAAGCAAGCTAACGACAGACTAGCTAAAGAGAAGAAGTCAGACGCCGAAGCATCAAAATCTAAAAAGTCAACATATGCCACCATGGCCAAGGATGCTAATGCCTACTACAGCCAGTCTGAAAAGATTGCCAGTGGTAACACTACTAAGTTGCTGGCACTAGCTAAAAAATATGGTGTAAATAGTAAGCAATACGAAGATGAAAAGAACAAAGAACTGTTAGCTTCATATAAGTCTTATGCTAATCAGTACGCTAAGCAGCAGTTGACCAACAACAGCAAGATTACTTCCATGGTCAGTTCTGGTGCTGACCAACAAACAAAGATATTGGCTGCATTCAACAAGAATAAGAACACGATGTCTCTAGCGCAAATTGATAACACTGCAAAAAACGCTAAGAAAGATTACGATGCTGCAGTCAAGCCAGCACAGCAAGCACGTGATGCCATTATCGATGCTGCTGATACTCGATACAAGAGTACAGTCGCTACAGCTACTCATGAGTACAAAGATACGGGTAGTATTAGCAAGTCTCAGTATGATTCCATCGTTGGGAAGGCACGACAACAACGGGATGACACGTCCTCAGCAGCCAAAGACCAATATTCCAATGTTACGAAACACATCACAAATCAATACAAATCCACAGTTTCTGCCATCTCTAAACAGAAGTCAGAAGCCATCACTCAGCAACAATTACAAGATACTGGTGTATCAACTGAAGCGGCATCACAATCGAAAAGCGTTGTTGGTCATTCAACAAAACAAGCAAACAGCAGTCTGAGAGCTGCCCACCACCAAGCCACTGGCACGAATAGCATTTTCAGCGGTCTAAACAGCTGGTGGAATAAAGTTGTTAAGTTCTTTGGCGGAAGCTCAGCTCCTACTGGCTCTGGAGATTATGGTTATACAGAAATTGGCGGCTTAGCCTACTCCAATGGTGGTGCTGTCAGAAATGGCATGGCATTAGTTGGTGAAGCTGGGCCAGAACTCCAGTACAAACCGGGGTCTGGACAATACAAACTGCTTGGTGAAAATGGACCACAGTTGACTAATGTTGCAAATGGCGACTACATTTTGAACGCTCGAGACACTGCCAAAGTGTTATCCGGTGAATTAGGTCACATCTTGCCCGGTTATTCAAATGGTTTAGGCGATTTGAGCGGCTTTTTCAACGGAATTAAGAGCACAGTGTCCAAGGTTTGGGATAAAGTCAGCAAGTCAGTCAAGGGAATCTTAAAAAAGATTGGCGATCCGCTTAAATTCTTTAATGGCTTGGCTGACAGAATATTCAATGTCAATTCTGTCAAGGACGTAGGCTCAATGGCTCAGCAAACAAGCAAAAGCATGCGAGACCAAGATGTAAAAGGTATAGCTTCTCTGTTCAGCAAGCTCAAGTCATCGGCAAAAGAAATGGAAGAAAGCAGTGTTGCTGGACAACCGCATGCGGCGCAGGCTTGGTTACCGATTGTTGAAAAGCTGATGCAACAGATGGGTGCTAATCCGCCAAATGGAATTGAATCAGAAGCGGCGGCGTTCGTTCGTGAAATCGCACGGGAATCTGGCGGTAACCCAACCATTCGACAAACAGTTTGGGATAAAAACATGGCGAATGGTGACCCAGCAGAAGGATTACTTCAGTTCATTCCTAGTACATTCATGAGTTACGCAGTGCCCGGCCACACCAATATCCTAAATGGTGAGGACCAAATCATGGCGACCATTAATGCTTATATGCATTCAGGTGCATGGGGCAACATTGGTACTGGTGAACAGATTGACTTCCTAGCCAACGGAGCATTAGTCAATCGACCAACTTCAGCCATCATTGGTGAAAATGGTCCAGAATCTGTAATTCCACTAGGTGCAGCTAAAGCATCTCGAGCTTGGCAGTTGTTAGGTCAAGCAATGACAGTAATTAATCGTGGTCAACAGCCTGTTTCTACCACTGATAATAGCGATGTGAGCAGCAAGCTGGACACGTTACATGCTGACTTGGCTGGTTTAACTCAAGCTCTGCAACAGATGGTGGTAGTAAGTGTACTGAATCCTGAAGATGCAGCCAAAGCACTCAACGAGCCACTGACTAAGATTCAAAACACGACAACAAAAATCAATAAAACGCTATCAAGAAACAGCTATCAGAATGGAGGAGCGACAGTAATTGGCTGA
>SRR1151209_01171 tail protein
ATGAAGATTAAAGAACAACTTTTAAGCAACCGTGAACACAATGTAAAGGTATCCAACCGGATAATGCGCAACACACTGAAATATCAGCTTTCTATGGCTGAAGCAGATGATGGCGATGATAAGACTGTGCCAGAAAAATTACACATGAGCCTGGACACAATTTCAAACACTGAACAGTATATCATCGACACACTGAAACTGAATAAAGATGAGCAGGATAAATTGGACGACCTGTCATTTGATGACACGTTACGAATTGCAAATCACGTGGTATTACGTGTCCAAGGCTTAAGCGAAGAAGACATTGAACTGGCAACTAAACAAAGCCAATCTGCGGACAAAAGCAAAGAAGATTAG
>SRR1151209_01172 phage tail protein
ATGGCAACTGTAGGTTTATATGGTATCGCTTTTGGTTTGGTAGACGATAGCCAAAAATTAATCACTGGTACAGGTAAAGGATTGGGCACAGATGGGTTGTACATCGTTGGTCGTGCAGACCTCGGTGGCAAAACAGCCAACATCACAGGTCTGGCTGGTACACCTGTTAAGAAGTATGGATTTAATAGAGTTCAAGCCGTCGACGTTCCGATGGCTGAGCCCAGTGTGGCTCTCGACATCAATGATTTGAATTTTGAAATCAAGCAACAAATCAAGGGCATGATTAATGACCAAAAAGGTGGGTATACCGACCAAGGAATTCAAGCTCATGTCGCCATGCTCATTACGACCCAGACATTAGACCGATTGCACTATGTTTATTATGGATTTGGCGATGGTATCCTTAGCGAGGCTGGCGCCAATCTGCAGACGGACACAAATGCTAGTCAATATGCTGACGATACTTTGACCTATACAGCGCTTACATGCGATGCTTTTAATGGTGCACCTTACAAACTGTACAGTGACCTTGATTCAGCTTTTGATAAGGCACACATGTATTCTGAAGTGTTTGGCGGCTATGCTCTTCCGTCATCCGGCTCTGGCACAGGCTCTAGCACTCCGTCCACGTCTACGACCACGACCACGAGCCACTAA
>SRR1151209_01173 hypothetical protein
ATGAGCACTGTAGATGATGCCGTAACACTATTAAGTCAAGCAAACATTAGTGGTATTGACGCTGTGTATGGTAATAACTTGCCGCAATCAGAGGTAGACAGCACAGATAAAACTGTTGTGTTGATTACTGATGCTGCCAATAATCCAGCATCTTTCGGTAATAACGACTTTTGGGCATTAAATCAAGAGATTGAGGTTCAGATTTGGTACTCGCAGGACATTGATTCAGACCCCGAAGACATTGAAGTCAGCATGATGAAGGCGTTTGTCCATCAGAATTGGCAGGTTGCAGCAGTTAGGCAGAGAACATTAGACCCTGTTTCAAGTCAGCTTTTTAACACATTTTACTTTGGCAGAACAAAAATTTTAGGAGACGATTAA
>SRR1151209_01174 hypothetical protein
ATGGACATGAGTGAAGCACTTGACCAATGGCTTAAACAGGTGAGTAAAGCGGCACAACTGAGCATTAAAGACCAGGAAAAAATAACCAAGGCTGGCGCCGATGTGCTTGCTGATAAACTTCAAGAGGCCACCAAAGAAAAACACCCAGACACTAAGGGTGATGGTGGTGGATATGGCCATTTGTCTGAAGATATTAAGTCTTCCACTGGTGATATTGATGGTGAGCATAATGGACAGTCAGTCGCTGGGTTCGGAGACAAAGCATTCGTTGCCAGATTTCTGAACGATGGCACTAAACACATTCATGGCGACCATTTCGTAGATAATGCACGAGACGATGCCAAAGATGCTGTATTTATGGCTGAAGCCGAGAAATATAAGGAAATTATCGCCAAGATTAATGGTGGTGACGAGCAATGA
>SRR1151209_01175 phage protein
ATGGCAGACATTGATATAAATCAGATTTCGGACGACCTGCTTTCAGAATTAAATCTTGATTCATCTGAGCTGTCAACTATCAGAACAATGGTTACGACAGCCAAAGACGTAGTTAATCGTTCAACTGATGTCAGCACTAATGATTCATTAGTTATTCCGGCAATTAAAACGCTTGCGACAACCATGTATTATGACCGAACGATGTCCAATGGCATGCCAAACGGATTGCTCATGATGCTGGCTCACTTGCAGGCTAATACATCAGCCAATCAACAAAGTGGTGATGACAATGGCAGTTAG
>SRR1151209_01176 phage capsid protein
ATGAATGATAAAAACACGGATATACGAACATTTGATGTCAAAATTCGGGCTGAAACGGGCTTAGACAACGAAAACAGCAACAATCAGGCCGAAAATGGACAAAATATGGCTATTTCAGGCGTTGCAGCGGTGTTTAATCAGCCCTCGATTAAGGGCAATTTTACCGAATATATCGACCAAAACGCCCTAAATAATGTCGATTTGAGCGGTGTTTTACTGCTTTATTCGCACGATTTTTCAAACATTTTGGCACGAGCAGACGCTGGAACGCTTACAACCAGTGTTCAGCAGGACGGATTGCATTTCTCAGCGGCATTACCAGACACACAGTTGGGGCATGACACATTTACAAACATACAAAATGGAAACATTAAGGGAATGTCGTTCGGTTTCACAATTGCTGATGGCGGAGACAGTTGGTCAGTCAACAGTCAGGGCGATACAGTCCATACAATCAATCAAGTCGGCCAAGTCTTTGAGCTTTCATTGACGCCGATTCCAGCCTATACAGAAACAAGCGTTCAGGTCCAGAGAGATTTGGCTCAGTTTTTAAGCAACAAGAAAGAAGACGTGAAGATGGCAGAAAAGCCAGAGGAAAAAGTAGAAACAGAAAACAGAGACGAGCAAATGCGGTCGCTGGAAAAGTTTAAGAAGCAATTAGCAGATTTACAAGCGCAGATTAACACAAAAGTAGTCATTGACCAGCCAGCAGAGGAAAAGCGTGATGCTGAACCAGTAGCACCAGTACAAGCACCTGCCACACCTAGTGATGATGGTACAACAACACAACCAACCAGCGGTGATTTGGTCAGCATGATTGCTACACTGCAACAAGCGATTCAGTCACTCAGTCAGCAACTGGCGGCACAACAAGCACCCACACCAGATGACACTTCAGATGATGGTGATGATGTTGTTCTTGACCAAAAGAAGCCAGCAGAACAGACTGCAGAACAAGACGTAGAACCAAACGAAAATAAAAGAGATGGAGCTAAAGATATGGCTAAAAATTTAACAGAAGACAAAGTAGAAGACGAACAGGTTCGAGACTTCAAAGAATTTTTACGGACCGGCGAAGTTAAGCGCGATTCAGCTGGTTTCGATTCAGCCGCAGGTGAGGCAGTTTTACCGTCCCAAGTCCTTGATATTATGCAACAGCCTAATGACCCGACACAATTGTCTGGATATGTTAATCGAGTAGAAGTTTCAGCGCCGACAGGTAAGTTGCCAGTCATGAGCAAAGTTAATGCTCAATTGGTAACAGCAACAGAACTGGCTGAAAACCCGCAGATTGGTAATGCAACCATCACGCCTGTTGCTTATGATGTTCAAACGAGACGTGGTCAACTTCCTATCAGTTTAGAAATGGCTCAAGATTACCCGAACATTGTTGGTCTGTTGACCCAATATGTTAATAACATCGTCTCATCGACTGAACAACATCAGATTGGGGCCGTGTTGCAACAAGCAACTCCAGTGTCTGCTACTTCAATTGATGACTTGAAAGACAGTTACAACGTTGGCTTGTCGAATTATGGCAGTCGGATGTGGGTACTGAGCGAATCTATGTTCGCAGCTCTCGACAAGGCTAAGGACGCAAATGGTCGCTACCTGTTGGAAGATTCTATTTCTTCTGCAACGGGTAAGCAATTCTTGGGTGCTACTTGCCTTGTTGTCAGTGATGACGTTTTAGGCAATAAGGGTGACCAAAAGGCATTCGTTGGCGACCTGTCTGCATTTGTCCTTGAAACAATTCGTGGCAACGTAAACTTGAGCTGGGCCCGAAACGAACAGTTTGAGCAGGTTTTGTTAGCTGCTATTCGTAGCGATTACAAGGTTGCTGATACGGCTGCCGGCAAGTTCATTACATTTAAGCCTACGGCATCTACCACTTCGACCCCCACTTCTGGTAAGTAA
>SRR1151209_01177 phage portal protein
ATGACAATTCCCTCGACGAACATGTCCAGCTTCATCATTTCAAATGGGCAGATACTTCCAAACCATTTAGTCTCAGCTGAGTATGCATTGAAAAATAGTGACGTTTTTGCCGTGATTAACCTACTGAGTTCAGATGTGGCAAGCTCAACGATTTCAGCGACACCACCTTTTGAAAATGTATTGAAAAGTCCAAGCCCATTGATTAGTGGTTATAACTTCTGGCAGAGTGTAACAGCATCCTTGTTATTGTCCGGAAACGCTTATGTGACTGTTCAGCGTGATTCAAGCAACATTCCAACCCGCCTTGAGCTGGTACCACCATCTGATGTCAATGTGATACTTGCTGACGATGCAAACAGTCTGACTTACACAGTCAATTATCAAGATGAACGTGGAACAATTAACTACCCTGCCAGCAACATGCTACATTTTCGACTGCTTTCAACAGGAAGCAATCAAACAGATTCATTAATCGGAATCAGTCCATTGCAGAGTTTGGTTCAGAGTGTAAACATGCAAGACTTTGCAAGTCAGTTGACACTTTCAACACTGAAGAATGCAATCAATCCTTCAATCAGAATCAAGGTTGCTGAAGGTGCATTAAGCGCTGAGGAAAAAGAAGCAACTCGTGAAGCATTTGAAAAGGCTAACACAGGCGCTAACGCTGGCAGACCACTTGTCGAAGATCAGCTCTATTCATTTGATTCACTTCAAATCAATTCAGACGTGGCCAAGTTTTTAAGCACGATGGATTTTGGTAAAACAGCAGTCGCAGAGGCTTTTGGCGTTCCAAGCAACTACTTAAACGGCGCCGGAGACGAACAATCAAGCCTAGACATGGTGAAAAGTCTGTACAGAAATACTTTACGACGTTACACAATGCCCTTGGAGGGCGAACTAACAGCCAAACTTGGCGTGCCTGTTGATTTTGATGAATCTAGTGCTGTAGATGCTGATAATGGGACACTAATCAGCCAGATTCAGAAGTTGCTTTCAGGGACAACGCCAGCTATTAGCCCTCTGCAGGCACAGCAAATGCTACAGAAACGAGGTGTTCTTTAG
>SRR1151209_01178 hypothetical protein
ATGTTGCTGTTTCTGGCTTCGCTGGTTGCATTTACTGTCGCTGGCTTTTTAATCAATAACATTGTTGGGTTGGTAGTGATGGGAGTTTGCTTGCTGGTTTTAGGTTGGGTATTATCGCCAACTTCACCCCAGACACAAAAGAGATGA
>SRR1151209_01179 phage terminase large subunit
ATGACAGTTGATAAGGCTTACAAAATGCAACGTGATGATGGCATATATGATTCTATCGCCGACAAGTATCGTGACCCAGGGACTGTTTATGCTTTTCAAGTTTTGGAGGGCGAGGTATTAGCTGGCCGAGACATTAAGTTGCAAGCCTTTCGACACCTTCAGGACTTAGCCAGAGCAGAGAGCAATCAGGGCGACTTCCCATTCCATTATTCTCTTGATAAATGCCGGGAGGTTTTAGGATTTGCATCACTATGTCCAGACCCAACCACAGGCCGACCATTACCACTAGCGCTATGGCAGAAAGCATTATTGTGTTGGTCTCAGGGATGGCGAAATGAAAATGATGAGCGTCGCTTCCACCGTGTTATTTTTAGTGTCGCCCGGACCAACGGTAAGACTTATCTGACTGTCATTCTGTTATCCTATCAATACCTAATTGCATCTGCCCACTTTCAAAATCAAGACATGGCATACATTGCCCCAGTTTCTCAGCAGAGTAAAAAAGGCTGGAGATATGTAAAGACCACTTTCAATAGGCTGCGTCACAATCAGTTTGGAGACTGGATGAGGAAGAACAAGGTCAAGGTTGGGGAGGAATCAGTCAAATCAAACACCAGTCAGAACCAGCTGTTACGCTTAAGCGATGAATCTGGCCAGTTCGATAGTTACCACCTAGCTTTTTCTGTCCACGATGAGTGTGGCGATGATGGTCGTATTGGCTTAATTAAAGAAAACAACGGCAAAATCACCAGTGGTCAAGTTCAAACGTTTGATAGTCAATCTTGGAATATCTCAACAGCCTATCCAGACAGCACAAGCAGTCTATTTCTGGACGAAAAGATGCTTCGCAATGCCATGATTCACGATGACCAAAGAGCACTAGACGATAACTTGCTGGTTAATTACAGCCAAGACAGCGAAGACGAGGTAAGTAAGCCAGACACTTGGATTAAGTCCAACCCTCTATTGCCTACAGCAGGTAAAACAATGCTTGATTCAATGACTTCAGAGCGAGACACAAAGAAAAATGATGGCTCAATCAGTGAGTTCATCAATAAGAACCTTAATTGCTGGCTGACGGTCAAAGAAAACCGATTCTTAAATGTTCACGACATTCACAATGCTGTCAGCGAAACGCCACCGATTGATATTCATGGACAGACTTGCTACATCGGCATTGACCTGTCCAAATTGTCTGATGATACTGCCATTGCTTTTGTGTTTCCATACCAAACGTCAAATGAGACACACTACTGGATAGAAGAACATAGTTGGATTCCATTAAACCACACTGCTGGCAATATTCTAACCAAGGAAAAGCAAGACGGAATCAATTATCGCCGAGCTGAACAGTTAGGTTACTGTGACATTGCTAAAAACCGGTGGGGATACATTGACGATGATAGCGTAGTCACGTGGTTGGCAGATTATATCGAAACCAACAGTTTGAGCGTCAAGTTTATTTGCTATGACCCATGGGCAATCAGTGATGTTCTTGATGAGCTTAATCAAGTAAACAAGTGGCCTATGATGCCTATTCGCCAGACTGCACATGACCTCGACAGGCCAACTCATCAGCTACAAAAGGCTTTCAGAGAGGGTCGCATTCATTATTCTGACGACCCAATTATCCAATACAGCTTAACCAACGCCATTCTTGTGGGTAATAGTGCTGGTCTAAAGGTTGATAAGGAACGTTACACCAGCAAAATTGACTGCGTCGATGCTATTGTCGATGCTTTTTCGAGGGCAATTTATGAATACAGTGACATTAACCCTGATTTTGACCCAGCATCAGTCAAGAAGGACCCACTGTCTGGCATGTCAGACGAAGAACGGCACGCTTTCTTAATGAATGTCAGCTTCTGA
>SRR1151209_01180 phage terminase small subunit
ATGGTTGGCAGAAAGATAAAAATAACAACCAATGACAGTGATAGGGCTGACCAGCGTCGCAGAACCGAAGAACTGATAGACAAAACAAAGAATCTGAACAAGTTACAAGAACGAGCACCAAAACACCTATCAGGCGTGGCTAGGTCAACATGGGAAACGCTTGTTCCTCAATTGAATGCTCAGCATCTTGTTAAGCAAATCGATAAGAACATAATGACCGCACTGTGTGAACAAGTCAGCGTTGAGAGACTAGCTTACGAAGCCATTCAAGACAATGGCGTGGTGTTGGAATCAGGTCGGAAGAATCCAGCGTGTCAAGTTTTAGATAGCGCAACGGCAAAGGTCAAGTCATTGGCTGAATCATTAGGATTAAGCCCAGCGGCAAGAGCAAGTTTGATGAATGTCGAGACAAATGACGACGATGGTAACACTGATGACATAGCAGCCGAATTGGTGAAGAAGGGAGATGATCAATTCTGA
>SRR1151209_01181 hypothetical protein
ATGGAAAACGAAAACGAAAACGAAGAGATTGAAAACGCAGAGTTCGATGGAGGAGTTGTAAGAATGTCGGCACAAGGCATGACGTATGAAAGCAACGAAGATAATGAGATTGAAACTGCTGAGTATGCTTGGAAGGTGAACCGAGCAGGACTGTATCAACGTCTGGCAGAACAGATAAACGAAAAGTTGAACCTTGCCATTCAAGGTATGGAGTACGAAGGCATGGTCGACCCATTGGTTCTATACTTTTCCTGTCACGAAATAGCTAGACATTTTTACGACGAACTAGAGAGCCGTGGCTGGTACGTTACTATTGACCAAGACAATGACGTTATCCAAGTCGACATTGTATCGTCCATTGACCAGATGTGTAAGGATGTGGAGGTGATTAACAAAGCACATTACTTTTCTCAAGACGATTTAGCCAGCTTGGAGTAA
>SRR1151209_01182 hypothetical protein
ATGACAGACAAACAGAATGAAGTATTAGTCAACAACAGCAAGAAGTTAAACGGATTCACAATAACAGCAATAGTGATGGCGGCAATGGGATTTTGGATTAATCCATTCTGTATCTTATCAACCATTGGCATTGTGTTCGGCGGCATTGGAATTGCTAAGTCAATAAGCTCAAGGGATAAAACATGGGCAATTATTTCATTGGGATTGAGCATCATGGAGACACTGTTCTGGTTAGTCACCTTTTCAAATGAGCTGGCGGCATTATAA
>SRR1151209_01183 putative HNH nuclease
TTGACTAGCAGACGAAGAAACAGAAGTCAAAACATATGGCATGAGTGCGGCGAACCATTGTGCCATGTCATCATACCAGTCAATGAAAGACATTGTCCAGCACACAAAGAACAGCACGATGACGAATGGCAAAGAAAGAAGAATGAGTATCGCAAGTCAAAGCTAGGGCAAATGTTAAAAGCACAAAAGGCCAAGCAGTATGACCAAACAGAACGAGACCCAGAAGCAGTTGAGTTTTATCACAGCAAGCAATGGCAGTCAGTCCGTGACTATGTTTATTCTAGAGACATGGCGACGTGTCAATCATGTGGCAATGTGGTTCAGGACCGTAAGATTATTGACCATATCATTCCACGTCGCTTGTGTTCAGCTCAAGAAGCATTAGACAGTAGCAACCTTTGGACCTTGTGTTACAAGTGCCACTATCGCAAGACAAAGCTAGAGCAGATAATTAGCAAGGAACAGAACGGAGACATCATCTTGGCTCACCTTGACCGAGCATGGTGGACGAAGGTACTGCGTGAAAAGAAAGAGGTAAAATAA
>SRR1151209_01184 phage single-strand DNA binding protein
ATGAACAATGTAGAGCTTATTGGACGTATTGCAACAGATGTTAAAGCAGGTAATGGTGTGGTCAGCTCACTGATAGCTGTGCATCGGATTTATAAGTCTAAAGACGGAATTGAAGCAGACTTTATTCCACTTTCACTCTTTGGTCATCAAGCTGAAAACTTTTCAAAAATGGTTCAAAAAGGTCAACAGGTTGGGATTGATGGGCAGATAAAAACGAGTGAATATGTTGACCAAAACGGAGAGAAAAGATATGGCTGGAGTGTGGTTGTGTCACATTTTTACTTGCTGAATAGTGGCAGTCATGATGGTGGTCAGCCAAAATTAAGCCAGCAGACAGTGAGTGATTCAACGCATTCAGCATCTCATAATCCACAACAAGATTTGTATAATCAGTATCACCATCAGCAGACAACGCCAACACCTCAGCCAGTCATAAACAAGCAACTTGACGACCTTGACAGTCAGTTAGTGAAAGCAGGCATTCCATTTGACTAG
>SRR1151209_01185 hypothetical protein
ATGAAAGATGAAGAAAGAAAAGCATTGCAAGATTTTGATGAATGGACCCAGACACCAACTATTGACATGCAGGAGTTCATTAACATTCATCGAAGCTATTGCCGTTATGTCGCTATAGACGCTCGTGTGAATTGTCTATACCTACTTTTGGACGATTTCTACGATGCACCACACGATGACCAGAATAAATTTCTAAACAAGTTGTACGAAAACCGGGATTTAATGATGGAGGAAGATAATTAA
>SRR1151209_01186 hypothetical protein
ATGCTGGCAGAGGACACAATTAGAGATATTTTGACCACGCCCACATTCGGCAAGCAGGCACAAACACTGGCCTGTCACCTTCACGAGCCACTTGAAGATGCTAGTCAAGATTTAATCGTTGAATTGCTAGACCACCGTCTTAAATCATGGGCAGACGAAGATGTTGAAGATGCAGTTGTTCGAGAACTGCCAGAGCTTCAATGGCGAATCACCTTTGCTCGCAAGGACGTAGAGCGTAGGACATGGCATGACGAAAGGGTTGAAAAAGACAAAGTAGAAATGTTGGGGCTTACCATTCCACCAGATACACATAGTGAAGCAGAACTAAATGGGGCAATTGAGCGAGCCAATTCAATCCTGCATAATCATATGTCACAAGAGTGGGTGGAATCAGTATTGCGTTACGGAAAGCGAGAGACGATGGCAAGGTTTGGACAGAGCAACAGACAATTTTCAACAAAACTGCACAAGATGACACTTTACTTAACGACACATCGAAAGGACGCAGATACAGATGAAAGATGA
>SRR1151209_01187 hypothetical protein
ATGGAGAAAGAAAATAGAATCGGTTTCGGCGACGTTTTGATTTATTCGGTGCTTTTGGCCTTGGCGATGAAGTGCACAGGCCTTCTAACCGCTTCATGGGTGGCTATTTATCACTTTAGCCTTTTCGTTCTGATTTACCTAGCTGTATATTTCGTCATCGACTTAGTCATTGCTATCATTGACGCAGTTATCAAGAAGCGTGAAGAGTAA
>SRR1151209_01188 phage endonuclease
ATGATTGAACTGGAAGAAAAAGAATCAAAAGTAGTATTTGATACAGACGAGGAATACAGTTTCACGATTAAGCGTAGTGCCTATAAGAATTTATGGGCAGACTGCGAAGGCCATATCTACAGACTGACCAAGCGAGGCGGGATGTTTGAAGTTAAGCCCTATGTCAATAATGCTGGCTATGAAATTTGCTCGGTAATGAATAACGGAAAGAGCACAACAGTTACAGTTCAGCGCATCGTGGCCACGGCATGGATTCCTAATCCACAGCATTTATCAGACGTTGACCACATCGATGCCAATAAGTTAAATAACAGCGTCGACAACTTGCAATGGCTTAGTCATCGAGACAATCTGGCGAGACGGACTGCTTTCAGACCTCAGCATCAAGTGTTGAAATTGCAAGACGGTCATGTCATTTGCTCTTATCATTCAATTTCAGCAGCCGCCAGAGATAATCATCTCAGCTTTTCGTCAGTTCGTGGCAGTGCCAATCATCAGTTGTCATTGGATAAGCCTTACTACTTTGAATTTGCACAGGAGGAAAATTAA
>SRR1151209_01189 phage/plasmid DNA primase
ATGATTTATCAACAGAATGGATTCAAAAATTCAGTAATGACCGCAGTACCATCAGTAGAAACAGACTTTAATCAATTGAAAGAAATGGCTCAGCATCCACAACAAGCAAGCGTGGACGAAAACACTGTTAGCAATTTCAAGGCAGGGCAGTTGAAGTACATCGTGGCAGGAACACTAGATGGTGGCAAACGCTCAAATAATACTTACCACGATTCCAGCTTGATTCTGATTGATTTTGATGAGATTACTGACGAATCAGCATTCATTTCAAAAATTTCTACCACACTCGACAGCATTAGCTACATTTTATGGCCCAGCATCAGTTATGGCTTCAAAGGACCTAGATACCATTTGGCGATTGACCCGTCTCGCCCACTGAAGGATAAGACTGAAAAAACAGCAGTCATCGGAATGGTTAATCAGTTGTTGGGCATTCAATCAGATGAGGCTATGACGACTTGGGCCCAGATGTTTAGTGCACCAATCGAGACTGAACAGAACAAAGGCAAGATTGTCATTCATGATGGACAAAAGTTGGACGTGGACGAAGCAATCAAGAATTATAAGCCAGATGATAAACAGGCAACCAAAACAGCGAAGATTGAGGCCATTTATCATTTTGGAAACTCAGCAAAATATAACGATGAATATGTTCATGAGCTGTTGACTGAGTGGGTGGCTGAAAATCAACTTAGTGATGAAAAGACATTCAGCCAGCTCATGATTCAGCTTATCTCTTACTATCAGCATGGAGACATCAGCGAGGGTGCAATGGAAGATGCAATGGACGTGTTGGCTGGAAACAACAATGACTGGAAAGCAAACAACCAAGTCAAAATGGAAGAACATCTAAAGACAACCTATTCTGCAAATTCTGTGCCGTTCAAAGTCTTATTCAAAACCCTTGTTCCCGTCTATGAAAAAGCAAGTGAAGACAAGTCATACACATCTCAATCAATCTCACTAGCCCTCGTGAGAGACGCAAAACAAAGAAAAGATGAAAAGCAACAAGAATTGGAAGCCACGGACCCAAAGACAAAAAAGGTTGCCAGTCTAGATATTTCGGATGTCGCAGACATTTTACTGGCTGACGTACCGATGTGGATGGACCGTAGCCTAGTCAACTCGCCAATCTTTATGTATGACCCAAGCAAAGGCATTTATTCAGCATCAGAGACATTATTTAGTAACCTTGCGCATAAGATTCAGCCAGCGGCTACACAAAAGCAGATAAACGACATTTACAGCATTCTGAGTGATGATGACCGAGTTCGAGATGGCAAGCCAGCCCATGATAAAATGCTGGTGGCATGCCAAAACGGTGTTTTTGATTTGAAACAGCAAAAACTGACCAACTTCAGCCCTAAATTCCATTTCGTGGCGAAGATTGCAACAGCCTATAATTCAACAGTAACAGAGCCAGTTATCAAGACAAAGAATGGTGAATGGAAGCCGTTAGAATGGCTTAAAACGCTTGCAAATGGCGATAAAGAAGTGCTGACTGTTCTCCTTCAGGTGATTGGTGACGCTTGCCAGAGTAGCTACTCTCGGCGTCAAGCAGTGTGGCTGGTTGGTAACCCAGAAAATGCTAAAGTAAATGGTTCAAACGGCAAGTCAACTTTTGAAGCGTTGGTGGAAGCCATTGTGGGAAACGAAAATACAGCCCATTTGAAAATAGACCAGTTCAGCGAACGCTTTGCATTGAATGAGCTAATGGGACGTGCCCTTGTGATTGGCGACGATGTGCAGGCAGGAAAATTCATTGAAGACCAGAGTGCGTTCAATTCAGCGGTGACAGGTGATACACTGCGTGCCGACATCAAAAACAAACAGCCGGTAAATTTTACATTTTCAGGCACCATTGTTCAATCAACAAACGAAATGCCAAAGTTTAATAACCAAACTGGTGGTACCAATCGAAGAATGCTAATTGTACCCTTTATGGCTCAGTTTAATCTGAACGAAGCCAATGAGGAAATTAAGACAGACTACATTCATCGGTCAGATGTAAGAGAATGGCTGTTGAAATATTCACTGATGCTGACTGGTAAGCTAGACAAGTTCGTTCAGCCAAAGATTAGCCAGTCATTACTCAAGGATTTTGAAAAAGGCAATGACCAAATCGCTAACTTTATGGACGAAAATGAGTTCAAATCGACTACGCTTCCAGTGCGGTGGGCTTACCAGCAGTTTGAACAGTTCTGCATGGACAGTGGTTTTCGTCGCCCGCTAAGCAAGCCCCAATTTTCCAAGCGAATGAATGAGTTTGGCTGGGCTAAAAAAAAGACACGAGTTACTGAAGATTCGTTCGTAGAGGGTAACCAATTCGACATAAACATCAGAGAATATATCGGAAAAGCAGTTTGGTGCCTGGTAAAAGCTAAGCAACAGTAA
>SRR1151209_01190 hypothetical protein
ATGACGATTAACCAGAAAGTTGGATATCCAATCATTCTCCATCCTGAAACAGAGGGCGGCTATTCTGTCGAAATTCCCGACATCAATGGCGGTTCTTGGACTCAGGGCGATTCTATTGAAGAAGCAATCGAAATGGGTAAAGACCTTATTGGCACAATGCTTCTAGACGAAACAGCACTGCCGGCATCAACCCCGTTGAATCAATTAGCGATTCCCGCCAAGTCTTTTGCCGTACTGATTACTGTTGATTTGACCGCCTATCGCCAGACCCATGCCGCCGTTTAA
>SRR1151209_01191 DNA repair protein RecO
ATGGCTGAAGCAGCCGTTGATTTCACCGGCATCGTGGTCTCCCGCCAGGACTATCGCGAACATGATGCCCTAGTCCGCTTTTTAACCCAGCAATATGGGTTCAAGACGTTTATCGCGCGCGGATTGAAGCGCCCTAAGGCGAAACTGGCCGGGGTGACTTTACCCTTTACGCTGGGCGATTACGTTGGCGTGGTGCGCGCCCAGGGGCTGTCCCAGTTGCGGACAGCCAAGGGAACGCACCTTTTTCGCCAACCAATGGCGGATATCGTCATTAATGCCTATGCCACTTATATTTTTGATCTGATCCGCATGGCGTTTCCGGAAGGGCAGGCCATCCCGAAATGGTACGATATCGGCAAAAACGTCCTGCTCGGTTTAGACCGCGGTTTGGATGCTGGTATTCTGGCGAATATCGTCGAGATTCAGCTCCTGCCCGCCTTCGGGGTCGCGCCGCAGCTGCGCGTCTGTGCAATTTGCGGGCGAGACGACCGGCCCATGGATTATTCAGAAAGTGCCGGCGGATTGATTTGCAGCCGGCATTGGGCCCAGGATCCCCATCGGTTCCATGCCAGTGCGAAGACCATTTACTACATGCGCCGCTTTTCGGTGGTGAATATTGGGCAGATCCAATCGATCAAGGTGAACAATACCACGAAGGCAGAACTGCGTACCATCATTGACCGAATTTATAGCGACACGGTGGGGGCGTATCCCCGGTCTAAACGGTTTATTGATTCGCTGGGGCAGTGGAACGAGGATTTCAAACCGTTACCGCCCCGAAATGCAGCGCCAAACGACCAGAGGAGTGACGATCATGACGATTAA
>SRR1151209_01192 GTP-binding protein Era
ATGGACAATAAAGAAAAGCAATTTGTATCCGGGTTTGTCGCCATTGTCGGCCGGCCCAACGTGGGTAAATCCACGCTGATGAACCGGTTGGTGGGTGAAAAAGTGGCGATCATGTCCGATAAGGCCCAGACGACCCGCAATAAGATTCAGGGAATCTACACGACGGATCAGGCTCAAATTGTTTTCGTCGATACTCCCGGGATCCACAAGCCCAAGAACAAACTGGACGATTATATGGATGCCGCCGCAGAATCAACGTTTTCTGAAGTGGATGCCATCCTCTTCATGGTGGCCGCAGACGACAAAATCGGTCCTGGCGATCGGTACATCATGGATTTGTTGGAGAAGACTAAGACACCGGTGTATTTGCTGGTCAACAAAATTGATCTGGTCCACCCCGACACGCTGCCGGAGATCGTTGCCAATTACACGGATACACTGCACTTTGCTGAAGTCTATCCGATTTCGGCGACCCAAGGAAACAACGTAGCCGATATGCTTGCGGGGTTAGAAAGCCATCTGAAACCGGGTCCGCAATACTATCCAGAAGATCAGATCACTGATCATCCCGAGTATTTCGTCGTTGCCGAATTGATTCGAGAGCAAGTGCTGCATCTGACACGGCAGGAGATTCCCCATGCGGTCGCTGTGTTGGTGGACTCGATGAATACCCGGATCGAGGGCAAACTGCAAGTCCACGCCACGATCTATGTGGAGCGGGATTCCCAGAAGGGGATCGTCATCGGCGCCGGTGGTAAGATGTTGAAACAGATTGGAATCAATGGCCGGCGGGAAATTGAAGGCCTGTTGGGCGAAAAAATCAATTTGAAGCTGTGGGTCAAGGTACAGCGCAACTGGCGGGATGACCCGAAGTTTCTCAACCAGTCTGGTTACAACATCAAACGACTGGACTAG
>SRR1151209_01193 cytidine deaminase
ATGGTTTCAGAAAAAGAATTGATCAAGGCGGCGCAGATCGCCCGGGAACAAGCCTATGTCCCGTATTCCCACTTTGCAGTGGGCGCAGCGCTCCTGACCCAGACCGGCCAGATCTATACTGGTTGCAACATTGAGAATTCCAGTTTCAGCCTGACCAATTGTGCCGAACGCACGGCGATGTTCAAGGCGATCAGTGCCGGTGAGCGGGACTTTGCCAATTTAACGGTGATTGCTGACACTGCGGACCCGGTCTCACCTTGCGGTGCGTGCCGTCAGGTGCTGGCGGAGTTTTGTGCGCCGGACATGCCCGTTATTTTGACCAACTTGCACGGCGCGGTGCAGCATACCACCGTCGCTGAACTTTTACCGTATGCCTTTAAGGGAGAGCAGATGTCTGATGGACAATAA
>SRR1151209_01194 diacylglycerol kinase
ATGGCCTCACCCGCTAAGCAAACTGATAAAAACCATACCTTCTTGCAAGCCCTGCGCCATGCCTGGGCGGGTGTCCGGGTGGCGCTGCACGAGGAACGCAATCTGCGCCGAGACGCAGTAGCTGCCATTGTCGTGATCGGCGCGGCGGCTATTTTGCGTGCCCGCTGGAATGATTGGCTCTGGCTGCTGGCTGCGATTTGGTTAGTGATTTTTGCCGAATTGGGCAATACGCTAATGGAAGATATGGTGGACTTTGTGACCAAAGGGGCTTATTCGCCTCAGGCCAAGAAGATCAAAGATTTATCCGCCGGCATTGTATTGCTGACGGCATTTTTTGCCGTGCTTGTGGGGGCCTTGGTCTTTATCCCGCTGGTGTGGGCGTATTTCCGCTGA
>SRR1151209_01195 16S rRNA maturation RNase YbeY
GTGAATTTAGACGTATATGACGACGATCACCTGTTAGACTCAGATTCCTTAGCCATGGTCAAAGACTTGGTGGAATTTGCCGGGAAGCAGCTGCACCTTAAAGAAGATACCGAGATGTCCATCACCTTCGTGACGAAGGAGCGCATTCGGGAAATCAATAATCAATACCGTAACGTGGATCGGGCCACTGACGTGATCAGTTTTGCGATCGAAGACGGCGACGACGATAGCGAGTTTGGCGAACCGCTCGAGGCGTTAGCTGATCTGCCCCGCAACATCGGGGACTTGTTCATCTCACCGGCCATTGCCCAGGAACAAGCGGAGCGGTATGGTCATTCGTTTGCCCGAGAGCTCGGATATACTACTGTTCACGGCTTCTTGCACTTAAATGGCTATGACCATATCAAGAAGGCGGACGAAGCAGTGATGATCCCGCTGCAAGAGAGGATTCTAGAAGCCTATGGCCTCACCCGCTAA
>SRR1151209_01196 phosphate starvation protein PhoH
TTGGCAGAAGCCACGCGTATTGAAGAAACCTACCATCTCAGCGATCCGGCCATGGCTGTCACTTTGATGGGCGTCAATGATGAATACTTACAACTCTTGGCCGAAGGACTCAATGTGTCCATTACCGCTCGGGATGTGGAGATCCATATCACCGGCGAACCGGACGATGTGCACTTAACCGAACAGGTATTAAATGCCCTCACTGACGTTATCGGATCCGGCATCCGGATCGGATCCACCGATGTCATGAGTGCCATTAAGATGGCCGAGCGGGGAACGCTGGAGTATTTCACTGATCTTTACAAGGAAACGATTATCCGTGACGCTAAGGGCCGTAACATTCGCGTTAAGACCTTTGGCCAGCGGCAATATGTGCAAACGATCCGCCACAATGACATCACCTTCGGCATCGGCCCCGCCGGTACCGGGAAAACATATCTGGCCGTTGCCTTGGCGGTGGCGGCGCTAAAGAGCGGCGATGTGGAACGCCTGATTCTCACTCGGCCAGCAGTCGAAGCCGGGGAGTCGCTGGGCTTTTTACCCGGCGATTTGAAGGAAAAAGTCGATCCCTATTTGCGGCCGATTTATGATGCTCTGTATCAAATCATGGGCACTGATCAAACGAACCGGATGATCGATCGCGGCGTGATCGAAATTGCGCCGCTGGCTTATATGCGCGGCCGGACTTTAGACCAAGCTTTTATCATTATGGATGAAGCCCAAAACGCAACGCGGGCGCAGATGAAGATGCTGTTGACGCGGCTAGGATTCGATTCGAAGATGGTCGTGGACGGCGATATCACCCAGATCGACTTGCCTTCAAACAGTGCCAGTGGGCTGATGTCAGCGGAAAAAATTCTCCATGATATTCCCCATATCGGCTTTGTCCACTTCAATAGTGCGGACGTGGTGCGGCACCCGGTAGTCGCCCGGATCATTGATGCCTATGCCGCCTATGAAATGCCCCAACATCCTCAAGAGAACGGAGAACCTAAGCAGTGA
>SRR1151209_01197 dihydroorotate dehydrogenase
ATGGCAGAGTTGACCACAACGATCGGCGGCTTTCATTTTAACAATACAATCATGAACGGAGCGGGTGTTTGGTGTTACGACCGGAAGGAATTGTCCGCGGTCGATACCTCAGCAGCCGCTACTTTTGTGACTAAAACGGCCACTTTGGCCCCCCGGGCAGGGAACCCCAAGCCTCGCATGGCGGCGACCGACCTGGGCTCGATCAATTCCATGGGCTTGCCCAACAAAGGGTTGGACTACTACTTGCAGGTTGTTGAAGAATTCCATCAGGCTAATCCGGAAAAGCCGTATTTCCTGTCAACGACCGGTACCAGCCCCGACGATTTCGGCAAGATCTTTACAAAGATCGCCGCAAGCAATTTCAGCGGGTTAGTGGAATTAAACTTGTCTTGCCCCAACGTCGTGGGCAAACCGCAGATTGCCTATGACTTTGCCGCGGTAGAACGGATCTTGACCCAAGTGACCGGCATTTATCATGGTCCGCTGGGCGTGAAATTACCGCCGTATTTCGATCTGGTGCACTTCCAGCAGATTGCTGATGTGCTGAATCAATTTCCGCTGACCTTCGTCAACACTATCAACAGCGTTGGTAATGGTCTGGTGATTCAAGACGAAACCGCCGCGATTGCGCCTAAGGGCGGACTGGGCGGCATCGGCGGCGGCTACATCAAGCCGATGGCCTTAGCTAACGTCCGCGTCCTGCGCCAGCTCCTGAAGCCCGAAATTAACATTATCGGTACCGGCGGTGTCGAAACCGGCCGGGATGTTTTCGAACTGATCCTGTGCGGGGCCGACATGGTCGGCGTTGCAACCCAGCTGGGCAAGGAAGGACCGAAAGTGTTTGCCCGCTTAACGGAGGAACTGACCGCCATCATGGATGCCAAAGGATACAAGCGGCTGAGCGATTTCCGCGGGAAATTGCAGGTGCCGGAAGCGCGGGAAGTGGCGGTGCACTAA
>SRR1151209_01198 hypothetical protein
ATGAGCTTGTTAGATTCGCTAAATGCCGACATGATTACGGCGATGAAGGCTAAGGATAAAACCACGCTGAGCGTCGTTCGTATGATCAAAGCTGCTTTGCAAAATGAACAGATCAAGGTCGGTCGCGACCTGACTGCTCAAGAGGAACTCGGGGTCGTTAACCGAGAACTGAAACAACGTAAGGAGTCGCTTGAGGACTTTGAAAAAGCCCATCGAGACGATTTGGTCACCGGGGTTAAAGCCGAGATCGCCATCGTCGAGAAATATCTGCCCGCGCAGATGGATGACGCCCAGATTAAGCAGACCGTTCAAGAAACGATCACTGAAGTGGGCGCCTCGGGCAAGTCTGATTTCGGCAAAGTGATGAAGGCGCTCATGCCCAAGGTCAAAGGTAAGGCCGATGGGGCGAAAGTGAACGCCATGGTCAAGGAATTGCTGGGCTAG
>SRR1151209_01199 30S ribosomal protein S21
ATGGCAAAGACAGTCGTTCGCAAAAACGAATCTCTCGATGATGCACTGCGGCGGTTCAAGCGTTCCGTATCTAAGAGCGGTACTTTACGTGAATACCGGAAACGCGAGTTCTACGAAAAACCGAGTGTGAAACGGAAGTTAAAATCCGAGGAAGCGAGAAAGCGTAAGAAGTTCTAA
>SRR1151209_01200 phosphotransferase
ATGACCGAAGCAAAAAAGCTCAACCTGTATGTCCTGTCTGATTCTGTTGGGGAAACCGCCTTCAAACTCGCCCAGGCCGTGATGGCCCAGTTCCCCCACGTGGAGACGACGTACATCCGGTATCCGTTTATGCACACGGAGAAACAAATTGACGAAGTTGTAAAGAAAGCCAGCCAAGACGGCGGTATTGTGATCCACACGCTGGTGACTAAGGGCTTGGCTAAGCAAGTGCATCAAGCCTGCCTGATCCACCACGTGGTGGATTTCGATCTGCTTAGTTCGTTGATTGATGAAATCACCAAAACCACCGGCGAAGAACCGACCCACGAAGCTGGTGCTATTCACCATTTGAATGAAAAGTACTTCGATCGGATTTCAGCGATGGAATTCGCCGTGCTGTATGACGATGGCAAGGATCCCAAGGGGTTCTTGGAGGCCGACGTTGTTCTTCTCGGCCCGTCACGGACCTCCAAGACGCCGCTGTCCCTGTTCCTGGCCGGTAAAAACTTGAAGGTGGCCAACCTGCCGCTGGTGCCCCAGGCCCACATCCCTGAGGAACTGTGGAAGGTCGATCGAAAGAAAATCATTGGGCTGACCAACGATGTCGAAGTCTTGAACAATATTCGCCGGGAGCGCATGATTGCCTATGGCTTGAATCCAGACACAACATATTCCAATGTGGACGAAATCAAGAATGAATTGAAATTCGCTCAAGATCTGTACACCAAGCTGGATTGCATGGTGATCAACGTTGCCCACAAGTCAATTGAAGAAACTGCCGCACTGATTCTGGAACACCTGGGGTTGGATGATTACCAACCCAATTTAACCAAGAAATAA
>SRR1151209_01201 endonuclease IV
TTGTTGCATGATCATCTTGGGGCCCATGTGCCCCTGAAGGGTAAAACCATGTTTGCCGGGTCCGTCCAAACGGCACTCGACTATCACGCCGACGCGTTAATGGTGTTCACCGGTGCGCCGCAAAATACGCGGCGCAAACCGATCGATGAATTTGAGATTGCCCAAGCCCAGACGCTGCTGGCCAGTCACGGCATTGACGATGTCGTGGTGCACGCGCCCTACATCGTGAATTTGGGAAATACGGCGAAACCGGAAAATTATACGTTTGGGGTCCAGTTTCTCAGAGAGGAAGTGGCCCGAGCCGATGCCTTGGGGGCGACCCAAATCGCGCTCCATCCCGGCGCCCATTTGAAGGACACACCGGAAAATGCCATTAAGCAGATCATTAAAGGCTTGAACGAAGTGATCAGTCCGACTCAGCATGCCCACATTGCCATTGAAACGATGGCGGGGAAGGGCACCGAAGTCGGCATTACCTTTGACCAACTGGCCGACATCATCGCCGGTATTCAAAACAATGACAAGGTCAGTGTCACCTTCGATACCTGCCACACCAGCGATGCCGGATACGATATCGCCCACGATTTTGATGGGGTGCTGAACCAGTTCGACCACATTATTGGCCTGGATAAGCTGCAGATGATTCATCTGAACGATTCAAAGAATCCCCAAGGCAGCCATAAGGACCGCCATGCGAACATCGGCTTCGGGACGATTGGCTTCGATGCGCTCCATTACGTCTATGCCCACCCGCAGTTAAAGGACGTGCCGAAGATCATGGAGACGCCCTTTGTCGGTCCGGATAAGAAACACCAATTCCCACCGTACGCTTTCGAGATTCAGATGCTGCGCAGCGGTCAATTTGACCCGGATTTACTTGAGAAGATTCAGGAACACGAAGGAAAATTACCAGAAGCGTAG
>SRR1151209_01202 YitT family membrane protein
ATGGATAGTATCGAAAAAGTAAGCCGGCGGTACCGGAACTTCACGCGGGTATCCGCCGCCCTGTTGTACGCCGTGGCGGTCTCCATGGCGTTGAACTTCTTCTGGGAACCCGGAGGGATTTACGCCTCCGGTGTGACCGGGTTTGCTCAGCTGATGAGTACGGTCTTGGCCCGGATGGGGATCACCTTCCTGGGTACCCCGTTTTGGCTCGTGGCTTTGAACCTGCCCTTATTTATTCTGGCCTGGCGCAAAATCGGTCATCATTTTACCTGGTTCACCATTCTGGCTGTTGTGCTGTCATCATTGTTACTGCATTTTTCACCCATTCGGAAACTCACCGTGGACCCGATTTTATGTGCTATTTTTGGGGCATTATTCAATGGCGCTGGGACTGGCTTTGCGCTGCGCAGCGGTATTTCTACAGGTGGATTGGACATTTTAGGCATCGTGCTGCGGAAAAAGACCGGCAAATCCGTTGGCTCGATCAATATCGCGTTTAACGCCTTGATCGTTTTGCTGTCCGGCTTTATCTACAGCTGGCCCCACGCGCTATACAGTGCCCTGGGAATTTTTATCAACGGCCGGGTGATCGATATGATCTATACTCAGGATCAGCGGTTACAGGTCATTATCGTGACGAACCATCCCCGCACCGTGATTGCCGGCATCCAGGAACAGATGCGGCGGGGGATCACGATCATGCATGATGCCGAGGGCGCCTATCGCCATGAAGAAAAGACGGTGCTGCTCACTGTCATTTCGCAATACGAACTGCGTGATCTCACGGACGTGATGCACGAAAGCGACGCCCACGCCTTCGTGTCAGTGACGCCGACTGTCCGTATTCTGGGCCATTACTATGAACCAAAGAGGGAGTGA
>SRR1151209_01203 peptide methionine sulfoxide reductase
ATGGCAGAAGAAACTGCAATTTTTGCTGGCGGCTGTTTTTGGTGCATGGTCCAGCCGTTTGATCAATATCCTGGGGTGCGGTCCGTGGTGTCCGGTTACACCGGCGGGCACGTGGCTAATCCCACTTACGCCCAGGTCTCTTCCGGCACCACTGGCCACACTGAGGCGGTCGAGATCACTTTCGATCCCGCAGTGCTGAGTTATCAGCAATTGGTCGATATTTATTGGCAGGTGGCCGATCCCACCGATGCCATGGGCCAATTCCAGGACCGGGGCGACAACTACCGGCCGGTGATTTTCGTTAATTCGCCGGCCCAGCGGGCGGTCGCAGAGGCATCGAAAAAGGCTTTGGCAGCGAGCGGCAAGTTTTCTAAACCGATCGTGACTAAGATCGAAGATGCGCAACCGTTTTATCCGGCTGAAGGGTACCATCAGGATTTCTATAAGAAAAATCCGGAGCGGTACGCCATGGAAGAAGCCGGCGGCCGAGCAGCCTACCAGAAAAAATATTGGGACCGCGGATAA
>SRR1151209_01204 peptide methionine sulfoxide reductase MsrB
ATGGCAGAGTCAAAAGAGCAGGATTTAAAGGCAAAACTGTCACCCTTGGCCTATGAAGTGACCCAGCATGCGGCCACTGAACGGCCGTTTTCCGGTCAGTACGATGATTTCTACGAGCCGGGGATTTATGTGGATGTGGTCAGCGGCGAGCCGCTTTTCTCTTCGCTGGATAAATACGACGCTGGTTGCGGCTGGCCGTCTTTTTCCAAGCCCATCGAGAAATTACACACTCATATGGATACCAGTCACGGAATGACCCGCACCGAAGTCCGCAGCCAGAATGCCGGCTCGCACTTGGGCCACGTCTTCACCGACGGGCCCCAAGATCAGGGCGGGTTGCGCTACTGCATTAACTCAGCGGCGCTGCGCTTCATTCCCGCGACCGATTTAACCAAGGCCGGATACGGGCAGTATGCCCCGTTGTTTGAAAAGAAGGGATAG
>SRR1151209_01205 aspartyl-tRNA synthetase
ATGAAACGTACGAATTATGCAGGATTGATCGATGAACAGTATATCGGCCAGGAAGTCGACTTGGCCGGTTGGGTGGCCAAGCGCCGGGACTTGGGTAACTTGGTCTTTGTGGATTTGCGGGACCGGGAAGGGATTTTGCAACTGGTCTTTAGTCAAGAGTTCGGCCCGGACGCGTTAGCCCTTGCTGAACAAATGCGCTCCGAGTATGTCATTCGGGTCCACGGCAAGGTCGTCGCCCGGGATGCCCAAGCGGTGAACAACAAGATGCGTACGGGTAAAGTGGAAGTGGAGATCACGGAAGCTGAGATTTTGAACAAGTCAAAGACACCGCCATTTGACATCGTTGACGGCGTTGACGCCACGGAAGATACCAAACTGAAGTACCGTTATTTGGATCTGCGCCGGCCGGAAATGCAGCGCGGTTTGCGCACCCGGGCCCAAATCGTGAAGTCCGTCCACCATTATTTGGACGACCACGACTTTATTGAAATGGAAACCCCGGATTTGACCAAGTCCACGCCAGAAGGGGCTCGGGACTATATCGTGCCCTCCCGGGTCTATCCGGGCAGTTTCTACGCACTGCCCCAGTCCCCGCAACTGTTCAAACAATTGCTGATGGGTGCAGGCTTCGATAAGTATTATCAGCTGGCCCGCTGTTTCCGGGATGAAGACTTGCGGGGTGATCGGCAGCCGGAATTCACTCAGATCGATATTGAAACCAGCTTCTTAGATCAAAAACAGATCCAGGATATTACCGAAGGTGTCATTGCCCAAGTCATGCACGATGAAAAGGGGATCGACGTTAAATTGCCGTTCCGCCGAATCACTTGGCAAGATGCCCAGGATCGGTTCGGTTCCGACAAGCCGGATGTTCGCTTCGGCATGGAATTAACGGATCTGTCTGACCTGTTCAAGGACTCCCCCTTCAAGGTCTTTTCCGGTGCCGTTGCTGATGGCGGCCAGGTTAAGGCGATCTGCGTCCCAGGGGCAGCGGCCAAGTATTCCCGGAAGCATATTGACGAACAACAGGAATATATCAAGCGCTTTGGCGCTAAGGGCTTAGCTTGGGTTAAAGTGACCGCAGACGGCTTCACTGGTCCCGTCGCGAAGTTTTTAGGCGACCAAACTGCTGAATTGACCAAGCGGCTGGAGGCCCACGACGGCGACCTGATCCTGTTTGTGGCGGCTAGTCGGAAAGTCGTCGCTGATTCTTTAGGCTATCTGCGGACGCATTTTGCCAAGGAAATGGATATGATTCCGGAAGACGAATACGCCTTCCTGTGGGTCGTTGATTGGCCATTGTTTGAATACGACGAAGGGGCCAAGCGCTGGGTACCGGCCCACCACCCGTTCACGATGCCCAACGAAGAAGATATCCACTTGCTGGATACCGATCCGTATAAGGCTCACGCTCAAAGTTACGATATCGTCCTGAACGGATACGAATTAGGCGGCGGTTCCATCCGTATCCACAACGAAGATATTCAATGGAAGATGCTCAAAGCCTTGGGCTTCACTAAGGAACGGGCCTATGCCCAATTCGGCTTCCTGCTGGATGCCATGCAATACGGGTTCCCGCCTATGGGCGGCTTAGCCATTGGCCTGGATCGCTTCGCCATGCTGCTGTCGCACCGGGACAACATTCGGGACGTCATCGCCTTCCCGAAGAACTCCAAGGCCACCGACCCGATGACCAGTGCGCCGCAGCCAGTCACCGCCGAACAACTGGATGAGCTGGGCGTTGAGGTCGAAGCCAAATATCGTAAGTAG
>SRR1151209_01206 histidyl-tRNA synthetase
GTGCTTTTAGAAAGGAAGATTGGCGTGAAGTACCAAAAGCCGAAAGGCACCGCAGATATTCTGCCCCAGGAAGCACAACTCTGGGATGAAGTCGAAGCGAAGAGCCGGGAAGTATTCCGGCGTTACCGCTACGGTGAGATTCGTGTGCCATTATTTGAAAGTTATGATCTGTACGCTCGTTCTTCAGGCGACACCAGTGATATTGTCACGAAGGAAATGTACGATTTCAATGATAAAGGCGGGCGTCACATGGCGTTGCGGCCGGAAGGCACCGCCGGTGTTGTCCGGGCTTACGTAGAGAACAAACTTTATGGCCCAGAATTTCCAAAACCGTACCGGGTCTACTACATGGGCCCAATGTTCCGGTATGAACGGCCCCAATCCGGCCGGCAGCGGGAGTTCCATCAGATTGGCGTTGAAGCCTTTGGCAGCGATTCGCCTTTGCTGGATGCGGAAACGATCCAGCTAGGGGTCGATTTGCTGCATAGCGTTGGTGTCCATGATCTGCGACTAGCCATCAACACTCTGGGCGATCCGGAAACCCGTCAGGCCTATCATCAGGCTTTAGTCGATTATTTCACGCCGCACAAAGCTGAACTCAGTGAAGATTCCCAGATTCGACTGGCCAAGAATCCGTTGCGCATCCTGGACAGCAAGGATCCTCAGGATAAGCCATTGGTGGCCGATGCCCCCTCTATTCTGGACTATCTGACTCCGGCGGCCCAAGCCCATTTTTCTGTAGTCAAAGAATCTTTGGATAAGTTGGGTATTGCGTATGTTGTGGATCCCACGATGGTCCGCGGGTTGGATTATTATAACCATACGATTTTTGAAATTATGACAACATCCCCCGCGTTTGGCAACAAAGAACTGACTGTTTTGGCCGGCGGCCGCTATGACGGCCTGGTCGAACAGGTCGGCGGGCCGGCTTTGCCGGGAGTCGGCTTCGGGCTAGGGACGGAACGGCTGATGCTGCTGGTTCAGCACAACCGGCCGGCGGAAGAAGCGGCGCCTTTGAACGTGTATATTGCATCTTTATCTGAACCGGCCGGTGCTGAGGCCTTGGTCTTAGCCCATGCGATTCGGGAAGCGGGCTACACCGTAGATATGGATTTCTTGAATCGGAAAGCCAAGAGCCAATTCAAGACGGCCAATCGGGAGAATGCGCAGCTGGTCATCACCCTTGGGGAAGATGAACTGGCTCACAGTGCCGCCAGCATTAAACAGATGGCCACTGGTCAACAGATTCAAGTGCCGTTTGCGGAAGTCACCACAGAGTTTCACAAGATTTATCAGCAGTTAGTGGAAGAGGGAAAATAG
>SRR1151209_01207 N-acetylmuramoyl-L-alanine amidase
ATGGCAGCCTTTTTCACCCGTTGTAAACAATTCCTGCGGCGCTATCCGCTGCTCGTATTAGTCACGCTGGTCGCTGTCCTGGCCTTCGGGTTTACCACGGCACTCGCGAACTATAATATGATCACCGTCCGAGCCAGCGTCTTGAACGTACGCCAAGGTCCTGGCCTTTCCTATAATGTGATGGCTCAAGTTTCCGGCGGCCAGAAATACACGATCCTCGATCAGCGCAACGACTGGTATCAGATCCGCCTAGACAACAATCGGATCGGCTGGGTCGCCAGCTGGCTGGTGGATAATACTGAAGTATCCCAAGCGACCAATCGCGTCGGCTTAGTCACGGTGAATGAGGCCAACATTCGCCAGTCGGCGAATACTGCCGCCCAGGTGCTGGGCACAGCGAAAAGCGGCGAGAAAGTCACTGTCCTTTATCAAGCCAATGGCTGGAGCCAAGTGCTGGTCAATAATTCCGTCGGCTGGATGCGCAACGATACGATCAAGCTGACCAATGAGACAGCCAGCACCGTGCAGACCAACGACGGCAGCAATGCACAAGTGTCCCAAGCCGCGATCAAGACCGTGACGACGAAGCAAACGGCTTACTTGCGGTCCAGTCCCAGCGATGAGGCCTCTGCGGTGACCGCGCTGTCAGCGAATACGACCCTCACCTACCTCGAAACGACGGGGCAATGGTACTATGTGCAGACGAAGAGCGGGCAAAAGGGCTACGTTGCCAGTTGGCTGGTGAGTTTGTCAGCCAATGACACCGCGGCCAAGACTATTCCCACCAAGCTGTCAGAAGCGACGATCATGCTCGATCCTGGCCACGGCGGCTCGGACTCCGGGGCTATTGCCAATAACGGCACGAGTTTTGAAAAAACGTATACGCTTGAAACCGCCAAATTGGTGGCAGCGGCTTTGCGCGCTGCCGGCGCCAAAGTCATTATGACCCGAACCAGCGATACCTTTGTTGATCTGGGCCCGCGAGCGGACATGGCTAATAAGGACGGGGTGGACGCCTACATCAGCATCCACTTCGATTCCGCCCCCACTGCCAACCAGGCCAGCGGTTTCACGACTTATTATTACAACCCAAAGAAGGACCTTGGCCTCGCTAAGTCCCTCTCCACTGCCCTTGGACAAGCCTTACCCTTGACGAATAAAGGTGTTTCTTACGGTAACTTCGAAGTTCTGCGGGACAACGACGAACCCGCTGTTCTGCTCGAACTGGGTTATATTAATAACGATACTGACTACAAGGAAATCAAGTCGGCTAATTACCAGCAGCAAGCGGCCAATGCGATTACGCAGGGGTTGTTAAAGTACTTCCAGTAG
>SRR1151209_01208 phosphoglycolate phosphatase haloacid dehalogenase hydrolase
ATGGCAGACTTTCATTTTATCAACGCAATTTGGGATTTCGACGGTACCTTATTTAACACCTATCCAGGCTTGCTGAAGGCTCTGAGCAAAACGCTCAGCGAGTTTTCACAACCGATTCCGGATGATGAATTGTACAAGGAAATCAAGAAGACATCGATTCGCCACGTCTTAGAAACGGTTTCGGTTAAAAACAGCTTGGATTTGCAAGCGATGGAAGACCGGATGCATGCGCTGGAAATTCAGTATCAGCCGGAATCTCCGGAAATCTATCCCCACGCTCGGGAAATCTTGCAGTTGATCAGTGATCGCGGCGCCAATTTCCTGTGGACCCACCGGGATCGCTCAGCGCTGTCCTTCTTGACCACTGAAGGGATGTCCGAACTGTTCACTGGTATCGTCACGGCCAGCGACCGCTTCCCACGGAAACCGGATCCCACGGCCATCAATGCGCTAGTCGAGCATTACGGATTAGATCCGCAAGTGACCGTCATGATCGGCGATCGGGCGATCGATGTGGAAGCGGGCCAAAAGGCCGGCGTGCATACCATTTTCTTTGATGTCGATGGATTCGGCGATACCGCCGGTGCCGATGCGGTGGTGAAGGATCTGGCTGATATTCAGCCATATTTTTTGACCCAAGGCAATGATGATGATGAGAATGCGTACTAA
>SRR1151209_01209 tyrosyl-tRNA deacylase
GTGCGTATTGTCGTGCAGCGGGTCAGCGCTGCGTCTGTCGTGATCGACGGCCAAACTGTCGGAGCGATTCAGCGGGGCTTCATGATTTTAGTCGGTGTGGGTGCCGAGGATAGCCAAGCCGATGTTGACTATCTCGTGCATAAAGTTGCTAAATTGCGCGTGTTCAGCGATCCCGCCGGTAAAATGAACTTGGATCTGGCTGCGGTGAATGGCGCCGTGCTTTCAATATCCCAATTCACCTTATATGCAGATACCGCCCATGGCAATCGCCCGGGCTTTTCAGCCGCTGCCCCGCCGGCGCTGGGTGAGCAGCTGTACAATGCTTTTAACACCGGTTTGCGGAACGCTGGGATCCACGTTGAAACCGGTGAGTTTGGCGCCGACATGGCAGTCCATTTAATCAATGATGGGCCCGTGACGATCATCTATGACACTGAAAAAGAAGGACGGTAA
>SRR1151209_01210 GTP pyrophosphokinase
ATGCCCAAAGAACGTGAATTTACCGCCGATGATGTTTTTGCCATTTGTCACGAATACATGAATGACGACCATCTGGCCTTAGTTAAAAAAGCTTATGAGTTCGCTGCTTACGTCCACAAGGACCAGCGGCGTCAATCCGGTGAACCCTACATTATGCATCCGATTCAGGTCGCCGGTATTCTCGCAGAATTGAAGATGGATCCGGAAACTGTGGCCTCCGGCTTTCTTCACGATGTCGTAGAAGACACCAACGTCACCCTGGGCGACGTGGAAGAAGTGTTCGGCCACGATGTCGCGGTAATCGTTGATGGGGTCACCAAGCTGGGAAAAATCAAGTACCTCTCCCATCAGGAACAATTGGCAGAGAACCACCGCAAGATGCTGTTGGCGATGGCCAAGGACTTGCGGGTGATCATGGTTAAGCTGGCGGACCGGCTGCACAACATGCGTACCTTGCAGCATTTGCGTCCGGATAAACAGCGGCGGATCGCCAATGAAACTTTGGAGATTTACGCGCCGCTGGCCGATCGGTTAGGCATCAGCCGGGTCAAGTGGGAACTGGAAGATCTATCCCTCCATTATTTGAATCCCCAGCAGTATTACCGCATCGTGCACCTGATGAATTCGAAGCGGGGCGAGCGGGAAAAGTACATTCAAAACGCCATTGTGGAGATCAAGAAGACGATCGCCGATCTGAATCTGCACTACGAGATTTATGGGCGGCCGAAGCACATCTATTCCATTTATAAGAAGATGCGCGATCAGCATAAACAGTTTGATGAACTCTACGATCTGCTGGCAATTCGGGTGATCGTACCGTCCATCAAAGATTGCTATGCCGTTTTAGGCGCGATCCACTCCAAGTGGAAGCCGATGCCCGGGCGATTCAAGGATTACATTGCCCTGCCTAAGGCCAATGGCTATCAATCCCTCCACACCACGGTGATCGGGCCCCAGGGCAAGCCGCTGGAGGTCCAGATTCGGACTGAAGAAATGCACCATGTGGCTGAATACGGGGTCGCTGCCCACTGGGCATACAAAGAGGGCGACAAGAGTCCGGTCCATCTGGATCGTAACGGTCAAAAACTGGATATTTTCCGAGAAATTCTGGAGATCCAGGATGAGACTCATGGCGCTGCCGATTTCATGGAGAGCGTCAAGGGAGATATTTTCTCCGACCGAGTCTATGTCTTCACTCCCCGGGGGGATGTCTACGAGCTGCCTAAAGGCAGTGTGCCGTTGGATTTTGCCTATCAGGTCCACTCCGAAGTCGGCAACCATTCGATTGGCGCCAAGGTCAACGGCAAGATCGTGCCGCTGAATTATCAATTGAAGAACGGCGATATCGTAGAAATGCTCACGGCGACTAATGCCAAACCCAGCCAAGACTGGGTAAACATGGTGCAAACTTCCCGGGCCCGCAACAAGATTCGCCGATTCTTCAAGCAGCAGGATAAGGAAGAAAACATCGAGAAGGGCCATGACCTTTTGGAGAAGCAGCTGCTCGATGGCGGCTATGCCCCGAAGGACTATTTGGAAAACCGCCAGTTGTTAGGCGAGATGCTGGATAAATTCAATTTCGGGACTGAAGACGAACTCTTCGCGGCAGTGGGGTACGGCGAATTATCCCCGCTCATCGTGACTAACCGGTTCACCGAAAAGACTCGGAAAGCCAAGGAAGAGGCAGCCCAAAAGGAACGCGAGAAGCAGATCATGGAGACCAACCCGCGGGTGACGACGATTACCAAGGATACGCCGGCCCGGGGAACCATGAAGGTCAAGCATGAAAATGGCGTGGTCATCCAAGGCGTCGATAACCTTCTGATTCATCTCGCCAAATGCTGCAATCCGGTGCCTGGGGATGAAATTGTCGGCTATGTCACCAAGGGCCGCGGTGTCACCATCCACCGGGCAGACTGCCCCAATGTCCAATCCGCCCGGAGCATTCCTGGCCGGCTGATTGACGTGGAGTGGGAAGATGTGTCGGATCCCTCCATGTCTTACAATGCGGATCTGGAAATCTACGGCTACAATCGCAACGGTCTGCTCAACGATGTCCTGCAAGTGCTCAATACCCAGACCAAGAATCTGAACAATATCAATGGCCGGGTCGATCATAACAAAATGGCGGATATCCATGTGACGGTCGGCGTGAGCAACGCTGCCCATTTGGACCGCATGATCAGCAGTATCAAGAATATTCCGGACGTGTATGAAGTGAAACGCGCCCAAGGTTAA
>SRR1151209_01211 hypothetical protein
ATGTGGGCGCGGCCATGGTGCCGCTACCTGGTCGTCGTGATCGGCATTTTCGGTCTCTTGCCGCTGCTGTTCTCTTTGATTGGGATTCCCGTAGTTCAGCGGGTGCTTTGGCTCTTTATGATCCTCAATGGACTGGGCAGTTTTTTAGGCGGCATCTGGCTGCGCCGGTCGCGTACTAGCGGCTGGTGGCTTTTACTCCCGGCAGCGATTTTTGCTCTGCTGGTCCTGTGGCGTTACGCAGACTATAATTACTGGTTTTGTGCCTTGTATTTATGTCTGGGCTACATTGGTTTTGGCTGGGGCAGTACGATTAAAAAGTTTTAG
>SRR1151209_01212 ribosomal protein L11 methyltransferase
ATGGATCCAGGGGAAGCCTTCGGCACCGGCACCCATCCCACTACTCAGCTCAGCCTCGCGTTATTAGAAATGATCATGCGGGGCGGTGAAAGCCTGATCGATGTGGGTACTGGCGCTGGTATCCTCAGTATTGCGGCCACTCTGTTTGGGGCGGCCGGCATCTTGGCCACCGACATTGATGACCAGGCATTGAACGTGGCCCGCCGCAATATCAAACTTAACCCGCAAGCCCGCAATATCCGTCTCGAACCGGCTAATCTGTTGGCTGATGTCACCGAGCGGGCCGACATCATCATGGCCAACATTTTGGCTGAAGTCCTCCTGCCATTGATTCCACAATTACCAGATCATTTGCGGCCCCAGGGCACGGTAATCCTGTCTGGCATCTACCGGGATAAAACAGCGGCGATCACGGCAGCCTTAGCCCAGCATGGCCTGGTTCCCATTTATACCCTGACGAACGGCGAATGGGCGGCCATTGCCGCCAAGCGGCAAACCGAAGTGGGATAG
>SRR1151209_01213 ribosomal protein L11 methyltransferase
GTGCAATGGTTTAGAATCACGGTGGAAACAACGACCGCCGCAGTGGCCGCGGTGAGTGAAATTCTCACAGCGGCCGGCGCCAATGGCGTGCAGGTCGCTGATGCGGCGGATCCGGAGCATATTCAAGCCCGGACCGCCGATGAAGTCTTTGATTGGCGAACCATTCCCCATCGCCAGGCAGGGGCTGCTGTCACAGCGTATTATCCGGTGGATGATCAGGATGCTGCTCGGCTTGCCCAAATTCAAAGCCGGGTGGCTGCACTGCCCCAAGCCGGATTCACGGCCGCTGCGGCGGGTCCGGTACATACGAAGATCATCGCAGATGAGGACTGGAGTACCAACTGGCGCCAATAG
>SRR1151209_01214 hypothetical protein
ATGGTCACATGGCATATGTTTATCATTAAAGGGGCATTTGCCCCCGGCCGGGTATTGGCTTTCTTGCAGCACATCCACGACTCCCGCCAGTTGCTGGGAATGCATGTCAACACACTGCACGTGGATGACGATAGTCCGGATATGACCAGCGTGACATTGGTCTTCACACCGCCGTTTGCTATTTCAGCGGGGCAGATGCGCCAATTGGTGCGAACGGTGTATGCCGTGATCAAACTCGGAGAACGGCCGAAGTTAAAGCAGATGGCGCCGTTGCTGGTCACCGACGAGCAGCAGCTGGGTATTGAGCTCCAAGCCTATCCGATGCAGATTTATGACGTGACCTTAGGTTTGCCGACGATCACGGCCGCCAATGAGAAAGGAAGCAGATTTAGTGCAATGGTTTAG
>SRR1151209_01215 hypothetical protein
ATGCGCAATATCATTACGCCCGCTCCTTACGAGAAGGCCTACACCATTGTTCTGAACCGGATTCTCGCCCGCTTCACCATGCTCGATGACGTGTTCGGCGAATACAAACGGACCGTGTTGAAGATCGTTCGGGGCCGTTGTCTGGCATCCGAGAATCTGCAAGACTTAGCCCGGTATTGGGAGCGCAACTGCCAACAGTTCAGCCGCTTCTTGGACTGTATTGGCCAGACTGCTGCACCGCCGGAATTTCAGCAATTCCATCAAGTTCTCACCGGTGAACTGCGTCATTTTTACAATCAAGTGTGTACTGCCCAGCAAGCCATCAACTGGGGACAGAATTCGTGCTGCCAAGCGACCCTGCAGGATGCATTCAATGAAATGACCTGCATCCGAGACCGGATCGACCATGCTCTGCAAAACGTCAACGGCGTCGCCATGTAA
>SRR1151209_01216 hypothetical protein
ATGCGATGGTTTAAGTTTCACAAAAAAGATGCAACTGATGACGTGGCCGCCCACGACTTCAGCAGTTTGATGCACCAAGTCCGGGAAGATCCTGGTCATCTGCAAGAGGTGCAAAAAGCATTCGCCCGCTTGCAGAAAAACTACACCGGCAAGTCCAAAGCCGGGGACCAAAAGTTAGACAAAAAATAA
>SRR1151209_01217 prolyl-tRNA synthetase
GTGAGTAAGAAGAAACATGGCGAAATGAAAACGCTCGTCGAAAAAATGTTGGACAAGGCCAAAATCAGTTATGTGCCTTTCACTTTTCCGACCCATACCGCGGGTGATGTCCAGCAGCTGGACACTCAGGAAGCCGGTGTTGATCCGCATCTGGTCTACAAAACGATTGTTTTTGCGGGTAATAAAACCGGCCCGGTAGTCGGTGTCGTCCCCTTGGATCGGCGGGTCAGTTTGAAGAAAATTGCCAAAGTATCCGGCAACAAGAAAGTTGAACTGCTGCCGCTGAAAGATCTGGAGAAGACTACTGGCTATGAGCATGGCGCCAACACGCCCATCGGTATTCATGAAACTCATAATTACCCGATCTACATCGATGAGGTGGCCCAAGATCAGCCGCAAATCATTGTCAGCGCCGGCAAAGTTGGCCGCTCGGTGGGCATCGATCCGACCGTCCTAGTCAACTTTGTGGCTGGTCATTTTGCCGATATTGGCGAGGCCGATGAGTAA
>SRR1151209_01218 hypothetical protein
ATGTTTAGTACAAATCGGTCGCGGTATGCGACCTTTGGGGTGGTTTCCGCGGTCCCCGGGACAATTATTGATGAAATATGGCATATCATTGACGACTACTTACAGGGCGTTTTGCCCTTAGAAAATGTGTTGAACTTTGCCTTCAGCAATCGGTCTGGTAAATTAACGATCACGTTTTCTGAGGACGGTACAGATGTAACGATGGGCTTTGATACGCCCTACGCGTATGCCAGCCAATTGCCGAAGACGGTCGTCGCCTATGATGACGGTCAAAGTCAAACAATTATTCTGCCCTCAGAAATACAATAA
>SRR1151209_01219 hypothetical protein
ATGTATACAGTCGTATTGACCACCAACAAGGGTGAACATAAGGTTCAGGACGTAACGCAGGTCGTTGTCACCACGACAACGGTCACCGAAAAGAAGCCCGTCACTGAGTTTCAAAGCGTAGAACACGCCAAACGATTCATTTTCTTTGATGACACGTCGCTATTGTACGGCATTGATGCCAGCAAAGTGAACGAGGTTAAATATTTCAAACAAGAAGCAACTGAACAATGA
>SRR1151209_01220 O-acetyltransferase
ATGAATCAAACAGAAGCACCAGCGCAGATAAACAGCGCGGCCGCGCCAGTCAAAAAGGCCCGGATCGCCTGGGTGGATATTGCCAAAGCAATCGGTATTTTGGCCGTTGTGCTTGGTCATGCCTATCCCCATAAGGACACCCTATACGAAGTGACCTACTGGTGGCACATGCCCCTCTTTTTCTTCATCGGCGGTTTCTTTTTAAAACCCCTCCCCCACACTTGGCAAGCCGTTCGCCGCTTCTTTCAGCGAAAAGTCTGGCCCCTGTATTGGGATTACTTAGTCGCCGGGGCAATCATCATTACCATCAATTACTTTACGGAGCATCGGACTGTCGCCTATTCACTGGATTACTTCCGCCGGCTGCTCTATGGTGGCACCGTCCTGAATGGCTACACCAGCGCCTTCTGGTTCGTGACGGTTTACTTATTGGCCCAAATCGGCGTGGTGGCGCTGATCAGTTACGTCAAACCGCAGTGGCTGCAGTGGCTTGTGGTCATTGCCCTCTTCATCATGGGCACCAGCTACGACAACGCGCAGCAGCTTTTTGGCTTTCCGCTCCCAGGGAACGCTGACGTGACCTTGATGGCCATGTTTTACATGTATGTCGGGTACCGCCTGTTTCCGTTGCTGAAACGCATCGTCGCCTCGCCCGTTTGGCTGGGCGCCTCACTGCTCGGCGCGGCCGGCTTTGCTTGGGCGCAATACGCGGATAAAATCGATCAGGTCGTTTACATGAAGTCGCACAATGTCACCGACGGCCTATTCGCTGCGACGGTCCCCATTCTTTTTGTCCTGGTGGTCATCGGCATTGCTTATCAGCTGGGGGAAACGAACCTGTCTCATCAGCTGCAGTGGCTGGGTAAGCAGTCCATGATCATCATGTTCAGTCACAAGGCAGTTTTTTATATTCTAGAGAAGATGTCCATCACCAATTGGGCCATCTTAGCGCTCTTCGGCGTGATGATTCCCATCACAGGCGTTATCCTATACCGCTTATCCCGGCGCATGTTACAATCATCCTTGAACCTGACGGTGTAA
>SRR1151209_01221 alpha/beta hydrolase superfamily protein
ATGAAAAATAAAAAATGGCTTTGGTTTATTCTGGTCGCGGTCGTCCTGATAGGCGGCGGCGGTCTTTTTTTCTGGTACCAGGCTCAGGCGGCTCGCCCCCAGGCGACACCGGCAGACGTGGGGCATTATCATACCCCGACCTTGTTCGTCCACGGCTTTGGCGGCGGTTACGGCTCGGAAAAAGATATGATTGACGATTTAAGTCAGCACCCAGGATTCCAGCAAGTGCTGCGTTTTGATGTCGATGCATCCGGCCATGTGCGGACCAGCGGACACTGGTCTGTGGGCGTCAAATATCCGCTGATTGCCGTGGTTTTCGCGACCGGCCGGCCAGACGCGCAAGCACTGGTGCCGATCCTGACTCAGCTGAAGAAAACATATGGTATTAAAGCGTTCAACGCGGTGGGCCACTCAGCCGGTTCGGTGGCTTGGGCCACTTGGGCAGTGACCGACCGAACCGCTGCCCAACCGGATTTACACCGGCTGATTACCATCGCCGGCCCCTTCAATGGCTTCCCCGGCATAGATCAGCAGGCCGCCACGGCCACGATTGGCAAAGACGGCAAGCCCAGCTACATTTCACCCAGGTACGCCCCCTTGGTGGCGAACCGGCAGCACTTCCCCACCACCGCGGCCGTCCTGAATCTATATGGCGATTTGGGTCACGGCACGGACAGTCGGGTGCCGGTAGTATCCGCCCGTGCACTGGGTTACATTGTCCGCGGTCGAGCAGTCAGCTATACGGAGCGCGTGATCAAGAATAGCAAGGCTCAGCACAGCCAGCTCCATGAACACAATCCGCTGGTGAACCGCTACTTGTATGAATTTCTCACCACCGGCAAAGTGAAATAG
>SRR1151209_01222 hypothetical protein
ATGCGATTTTCTTGGCGTAAAGCACCGGCGTTGTATGGTCTGGTTTTTCTCTTTGCCTTTGCCGTTGAAGCGGTCATGATTTTCTTGATCAACATGTCTGTTTTCAGTTGGCAGGAATTCATTGCCACGTATTGGGCATTGGCGGCGAAGACGTTTTTCATCGGGATCATCGGCGGTTTATTACATATCCTGTCGTACCTGATTTCCTTACCATACCCCTGGGTTTTGGCTGGGAATCTAGTGGGGCTGGCTGGGTATATTGTGATGTTCATTCTGCCTAACCTGTTCTGGCTGGGGTTGATTCTTCTGGTCATTTCAATTCGGCTGATCATGCACAATAGTCCGCATCACACCCCCGCGATTCATCAAGCCGGACCGATGGGGCGCGAAAGCAATGCGTAA
>SRR1151209_01223 hypothetical protein
ATGGTCTATTTACACGAGTACGTACTCGATCCGACGTGGATCAATCCCGCGCAGATCGAGTTTATCGAACAATCAACCGAGGATGTCCACGTCTGGATCGCTCGGATGGTGTCGGGTAAGATGGTTAAGGTGTCCGAAGCAGAATTGGCCCACATTACGGGGCAAAATGCGGCCGAGTAA
>SRR1151209_01224 hypothetical protein
ATGACCCGCTTAACTGTTGATTTAGACACCGAAAAGACCACAGTCACCCTGCCTGGCGACCAAGGTACCGTCACTTTGTCGGCCGCGCCGCTGCCAGCGCCAGAGCACGGGGTGCAGCTGCCGATCGTTGGCGGCCGCCTCAACTCGGAAACCGTCGCAACAGCGGATGAATACCTGACGATCACCCTGCCCTGGACAACTGAACCGGCCTTTGTGACCCGCTTTCTAACCGCCTGGGCCGCTGGCGAAGAAGCTGCCCTGCCCGCCAACCAGGCGGCCGGACTAGCCGATTATTTTGATCTGTTGATTCGGCTCCTGACCCGCTTGGGCATCCAGTCCGGCCAGACAGTCCCAGCCCCGGCGAAGAAGAAAGCCGCGAAAGCCCGCCACCGATTCGATAAAGCCCTCGCCGACCGGCCCTTCCACGTGGCCCGCCACGGCAGCACAGCCACCGTCTACTGGACTGGGCGCAACGAAATGACCGTCAAAGCCGGCGCCGTGCTGGCCCAGGAACAACTAATCAATCGCGACGGCTCGCTGCGCTACAGCACGAAATACGGCGAGAAGCTGCGCGCCGACCACGCGGCAGCCATCACAGACGGGCAGACGATCGCCGATATTCACTTGCGCAGTGTCAATGAAGTCGGGCTGTTTCTTTATTTTGGCGACACCAACGGCTGGTTGGAACTGGTGGATGATGGCGGCCATACGCTGGATGCGCTAACCAAGGTTGATTGA
>SRR1151209_01225 membrane protein
ATGGCGAAACAACAATTTTCGATCCATAAAGCACTGGCGGCGGGGGCAGTGGCCGGTACAGTTTCTGGTTTGGTCAAGTTAGGGTGGGAGAATATCCTGCCGCCGCGGACACCGGCGCGGGACGCGACCAATCCGCCCCAGCAATTTCTGGAACAACTGGGTATGCCGGCGGAGTTGGCCCACGCCACGTTCACCTATAATGGGCATGAGATCCCCTGGACCAGTCTGGCGATCCATTTCGGTTTTTCGACCAGTCTGGCTATGCTCTACGCCGTGGTGCGCCATTACATTCCGCTGGCTAAGCTGGGCAAAGGGACCGCTTGGGGTCTGGGCGTCTGGTCTGTGGCTCACTTGGTGGCCATGCCGGCGATTGGCACGGTGCCCAAGGTTCAGGATCAGCCCATGGAAGAGCATGTCTCTGAAGCGCTGGGCCATGCGGTGTGGAATTGGGTCAATGAATTAGTGATTGAAGAAATGGAGAACGATAAGAAATAA
>SRR1151209_01226 Na+/xyloside symporter related transporter
ATGCGGCAACACACACAATGGCAGACCCGCTGGCCGGAACGGATCAGTTACGGCCTGAGCGACGCGGCGGACAATCTGGTCTTCCAGGTGATGACCACCTATCTGCTGTTCTTTTATACGGATGTTTACGGCTTGACTGCTGGGGATGTGGCGCTGCTTTTCGTGATTGCGCGGATCTGCGACGTGATCGAATCGCCGCTGATCGGCATCATGATCGATCGCACCCACTCCCGTTTCGGCAAGAGCCGGCCGTTTTTCCTGTGGTATGCGCTGCCCTACGTGGTGTTCGCGGTCCTGACGTTTGTGACGCCGCCCGTGGGCTACGGCGGCAAGCTGGCGTGGGCGTATGTCACATACTTAGGTCTGGGGTTTCTTTACACCACTGTGAATTTGCCGATCACGTCGGTACTGCCGACGCTGTCAGAAAACGACCAGGAACTCACGCTGCTCGGGGTGATCCGCCAGTTCTTCGGCAGTTCGGTGCAGATCATCGTCGCGGTATTCACGCTGCCCCTGGTGGCGTTCTTTGGTCAAGGCAACGAACAGCGGGGCTTCCTCGGCACCATCAGCCTCTTCGCGGTGATTTCTCTCGCCTTGATCCTGAACACGTTCTTCCAGATTCGAGAACGGTTCACCCAGCCGGAGATCGCCCACCAGCCGCTGCGCAAAGTCCTCTCGGCGGCCCGGCACAACACCCCATGGATCGTGCTGTCGCTGGTGATTTTCTGCTTTTGGCTGGTGACGGCGATCAAGAATCAGACGACGGTTTACTATTTCAAGTACGTCTTAAACAACCAGAATCTGGTATCCTGGGCCAACAGTTTCACCTTTGCCTCGCTGATCGGCGTTGTCAGTATCATGCTGATTGCCGGCCGGTGGGGGAATAAACGGACTATGGGCACCGGGATGCTCATCGCGTTAGCGGGCCAGCTTCTGCTGGCCGGTGGGGTATATCTCCGCTGGCTGCCGCTGCTGTTCACGGCGATCGCAGTGAACAGCATTGGCCAAGGCATGATCGTCGGGCTGGTCTCGATCATGATTGCCGATACGATCCGCTATGGCATCGTCGTGTTGGGCGTGCAGGCCGAAGGAATTTTTGCTTCGGCCAATGACTTGGGCGTCAACTTGGGCCTTGGCTTGGGCGGCCTGGTGACTGGCGGTTTGCTGGGCCTTGCCGGCTACGTCGCCAATCACGCCCAGAATGCAGCGACGCTGCGGATGATCGATCTGAATTATGTTTGGATCCCGCTGGGGCTGTATCTGGTGATGATTGGCCTGCTGCATTTCTACGATGAGCAAAAGTTGTACGCGGCGATTAAATCTCGCGCATGA
>SRR1151209_01227 hypothetical protein
TTGGCTATTTCACTATTGTTAAACACCGTGGTAACGGTGATCGCGATTCTCGTCGTCATGGACTTTTGGACCCAGCGGCGCACGCTGTATCAACTGCGGCGGACGCTGCTCAAGGCCCATGCCCAAGCCGACATGGCCCGCACCCGGTATCACCACGAATTTGATCACTCAATTACGGTCGCCGATTTGGCGGCCGGCCTGGCGCTGATTCTTTTAGTACTGGCCTTTCTCAACCTGGCCAGTTTTCTCGCCAGCCTCTGGGCCATCGGCGGCATGATCGTCTTTTCGCTGGCCAACATTGCGCTGGCGGATCACATTCAGGACTTGGCCGACCGGGCGTGGAAACCCCGGGAGATTTTCTATCCAGTCCATTTGCATTCTTAA
>SRR1151209_01228 bifunctional oligoribonuclease and PAP phosphatase nrnA
ATGTCTGATATCAACCCCATCGCTCAAGTACTGGCCGCCATTGCCCAGTACGACACGATCATCATCCACCGCCACATCAATCCCGACCCCGACGCCATCGGCTCGCAAACCGGACTGGCCACAATTCTGCGCGAAGCCTATCCCCAGAAAAAGATCTACACTGCCGGCAGCGCCGCCCCCGGCTTAGCTTGGATCGGCCCGCAGCAGCAGGTCCCGGCCACCGCTTACCCTGACGCCCTGGTCATCGTCATTGACACCGCCAACACGGCCCGCATCGACAGCGACCATTATCAAGAGGCGGCTAAGCTGATGAAGATCGACCACCATCCTAACCGGGAACCCTTCGGCGACATCCAGTGGGTGGACGCCGGCGCGTCCAGCAGCAGCGAGATGGTCTATGATCTGGTCACCTACTCTGATAACCTCGCCATCAGCAAAGCAGCCGCAGCCCCCTTGTATGCCGGAATCATCGGCGATACCGGCCGATTCCTCTACGACTTGACCACCGCCCGGACCCACGAGGTCGCCGCGGCGCTGCTGCGCACCGGGATTGATGCCCCCGCCATCGGCCGCCAGGAGGATCAGTTTTCACCCCAGACCGGCAAGCTGCTGGCTTACGCCTTGGCCCACGTGACCGTCACCGCCAATGGTGCCGGTTCGCTGATTATGGATCAGGCCCTGTTGAAAGAAATGGGTCTCCCCGCCGGCCGGGAACAGGCCGTGGTCGGCTTTCTCGGTAAACTCAGCACGGTGGACCGCTGGGTGGTCTTCACCGAACGGCCCGATGGCAAGTACCGGGTGGAATTCCGCAGCAAGCGCACCCCGATCCAGCCCCTGGCCGTCCGGCATGGCGGCGGCGGTCATCCGTTAGCCAGCGGAGCCGTGGCAGATTCGGCTGATGAAGTGCAGCAGATCATCCAGGAACTCACGGATTTGTCAGCAGCCAATTAA
>SRR1151209_01229 major facilitator superfamily transporter
ATGGATAAACAACAACAGCCAACCAGCAGAAAACAATGGATCGCCTTGACCGCCATGGGTCTGGGCGTCTTCATGGGCCTGCTGGACGTCACCGTCGTCAATGTCGCCCTGCCCACGATGGTCACCGACTTCAAGACCACCTTCACGGATCTGCAATGGGTGCTGAATGCTTACACCCTGGTTTACGCCGTGACGTTAATGATCATGTCCAAACTCGGGGATATGTATGGCCGCAAGAAAATCTTCCTCGGTTCCCTGATCCTGTTCGTCGCTGCTTCTGCCGTGAACGGCATGGCGCCGAGCCTGTTGATCCTCGATATTGGCCGAGGCGTCCAGGCCATCGGCGGGGCCGGGATGATGTCCCTGTCCATGGCCCTGGTCGCTTCGAACTTTGCCGGCCTTGAACGGGGCTTGGCCCTGGGTATCCTGGGCTCGGTCATCGGCATTTCCACCGCCTCTGGCCCGCTGATCGGCGGCTATTTGGTTGAAAACTTCGGCTGGCCCGCAATCTTCTACGTTAACGTACCCTTTGGTATCCTCGCGGTGATCTTGACCATCGTGTATGTGAAAGAAACGCCCAGTTATGGGAAAAATCAAAAGATCGACATCGGCGGGATGCTGCTGTCGGCCATCGGATTATTCGCCATTATTTACGGCTTGATCGTGAAAGAAGCCCATCCCAGCTGGGGCTGGACAAACCCCGAGATCGCTGGGCTGCTGCTGGGCGGTCTGGCCGTCATGGCCCTCTTCATTTGGGTAGAAAGCCGAGTGGCCCACCCGATGATCAATCTGGCGATCTTCAAGGAACGCCACTTTGTCGGCACGGTCATCGTCGCCTTCGCGCTGGGCTCGGGCATATACGCTTATAACGCCTTTCTCACGGCCCTGATGCAGAACTATATCGGTTATTCCGCCATCGAAACCGGCGTGCGCCAATTGACCATGAGTGTCTGGTCACTGGTTCTGGGACCGATCGTCGGCCTGCTCACCGCCCGCTTCTCCAGTAAATGGATGATCAGCGGGGGCATGCTGCTGGGCACCATCGGCTATCTGGCCATTGCCTGGGTCGTCGCCCCCGGCGTTTCTTTTCTGGAACTGTGGCCGGGCATGGTGCTCATCGGGATCACCAACGCTGTGGTCAATCCGGTCTTGAACACGGCTGGCATGGCCGGAGTGGCACCCCACGAGATGGGGATGGCGTCGGGCTTGCTCAATGTCTTTCGCCAATTCGGTACCACCGTTGGCGTTGTTGGGTTGGGGCTGATTCAAAACAACAGCTACGTCAGCCACCTGAACGCCAACCTGCCCCAAGTAAAGATGCCTGCAACCGCCTTGACGGGAATCAAAGATGCCTTGATCAATGCCGGCCCCTTCTCCGGGCACACCATTGCTTTTTCTGCTCGCTTGACCAAGAGTCCCTTCGGTCACCAGATCCAAGCCATCGTGGTGCGGGCCTACGACAACGGGATGATTGCCCTGACCCTCACCGCCGCCGGCATTGCCCTGGTTGGTGCCTTAGCGGCGGTGCTGTTATTGCGCAGCCACCAGCAATCGCAGAAGCTAGACTTGCAAGCGGCGCATCATTAA
>SRR1151209_01230 transcriptional regulator
ATGTACGATTTATTAATTCTAGGGACCCTGATGTCCCGCAACATGTGCGGTTACAAATTACGCCAGGTGGTGGAGAGCAGTTTGATCCCCCGCCGGGAAATTTCCAACGGGGTGATGTACCCGCTGCTGGCTAAATTAGAAGACCACGGCTACATCGAATTTCACACCGATGAGCAGGATCCGCGCCATACAAAGGTGGCTCAAATCACCGCCGCCGGCCGGGCTCGCTTCCTCGCCCTGATGGCGGCCCCCATCGCTCCGGATGCCAAGCGGGAGTCCATGTTCCGCTTCAAATTCCGGGGGATGCCAGCAGTCGACAAGGCCCACCAAGAAGCAATTCTAGATGACTACGAAGCCCAGATCAAAGCCGACCTGGCCACCTATGAAGGCGTCCGTACCCACCTCCAAGAGGTCCTTCAGGCACCCGATACCAACAAACCCTACGTTGACTGGACGATCCGCAATCTCGATCTGAGTATTGCCCTCTGTCACACCAAGTTGACTTGGATCACCGATTCCCGTCAGGCAGTCAATCAGAAAGCAGAGGCCCAATCGAATGGATAA
>SRR1151209_01231 ABC transporter ATP-binding protein
ATGGCGGAGCCTATTTTCACCCTCCACAACGTCGGCGTCGACGTGCCGGAGAGAACGTTATTAGCAGACATTTCATTCACCGTGGCGCCTGGGGAGTTTGTCACCATCGGCGGACCGTCGGGGTCGGGGAAGAGTACCTTGCTGCGGGTATTGGCGACGCTGCTGACGCCGACCAGCGGGACGATTATGTATAACGGGCAGCCCCAGGCCAGTTATGAAAAGACGGCCTATCGGCGGGAAGTATCGTATTGTTACCAGCAGCCGAGTCTGTTCGGCGAAACGGTCTGGGATAATTTGGCTTTTCCATTCCAAATTCGACATGTCGATATTTCTGAAGAACGCATGACCCAAGCATTGGCTTCAGTCCAATTACCAGCGGCGATGCTGCACCAGCCGATCACGGACCTGTCCGGCGGGGAGAAGCAGCGAGTGGCGCTGATCCGCAACCTGCTGTTCACGCCCAAGGTGCTGCTGCTGGACGAAATCACGACGGGATTGGACGCGGTCACGAAAGAGGCTGTCCACGACGTGATTGCCAACCTGAATCGGCAAGGGCTGACCATGATTGCCGTGACTCACGATGAAGTGGAACTGGCAGCAGCGGACCGGCTGCTGACTATTGAAGATGGCCGATTGGCGGTGGCGGTATGA
>SRR1151209_01232 ABC transporter permease protein
ATGACCCAACTCGTGGTAACACCCACCGCGCTGCTGTTCGCTGTCGCCCTGGTGGCAATTGCGTTAGTGATTAGTTTGAAAGAAAAAATCGGCCTGGAAAAGGATCTGATCGTCGGCGTCATTCGGGCCGTCATTCAGCTGACGGTGGTCGGGTATGTGCTGACGTACATCATCAAGGTGAACCAGCATTGGCTGACGCTGCTGATGGTGGCCATCATTGTGCTCAACGCCGCGTGGAACGCCCGCGGCCGAGCCCAAGGCATTCCCCACGCCTTTGCCATCAGCCTGCTGGCGATCACTGCCGCTACCGGCGTGACCATTGTTCTGCTGGTGTTAGCTGGAGCGATTGCCTTTGTGCCTAGCCAGATCGTGCCGATTTCCGGGATGATCGCCAGTAATGCCATGGTCGCCATTGGGTTGGCCTACCGCAGTATGAACAGTCAATTCCATGATCAGCGCCAGGCCTTGCTGGAACGGCTGTCCCTGGGCGCGACGAAGTACCAGACGGCCATTGCAGTGGTTCGGGAAGCGATCCGGACCGGTATGAGCCCGACCATTGATTCGGCGAAAACCGTTGGCCTGGTGAGCCTGCCGGGGATGATGTCCGGGCTGATTTTTGCCGGGGTGGACCCGACCAAGGCGATCATGTACCAGATCATGGTCACGTTCATGCTGATGGCCGCCACCAGTTTGGGCAGCACGATTGCCTGCTACTTGGCGTATGGGCAATTCTTCAATGCGGATCTACAATTACGGACGTTTCGTTAA
>SRR1151209_01233 glycerol uptake facilitator protein
ATGTGGACAGAAGCATTAGGTGAACTGGTCGGGACTTTTATCCTGGTCCTGCTTGGTGACGGCGTTGTCGCCGGCGTTTCATTGAACAAGTCGAAAGCCCAAGGAGCCGGCTGGATTGCGATTACCCTGGGGTGGGGTCTGGCGGTAACGCTGGGCGTCTACTCCGCCGCCTTCATGGGCCCGGCCCACTTGAATCCAGCCGTGACCCTGGCCTTCGCCGTAATCGGTAAATTTCCGTGGGCGTGGGTCGCTCCTTTCATCATCGCCCAAGTACTTGGCGGCTTTCTCGCCGGCGTTGTAGTTTGGATCCAGTATTACCCGCACTGGGCGGCTACCGATGACCCGGCCACAACCCTGGGCGTGTTCGCCACCGGCCCGGCGATCCGCAGCTACTTCGCCAACTTCATTTCTGAATTCATTGGCACCGCCGTCCTGATCTTCGGCCTGCTGGCCTTCTCCCGGGGCAAGTGGACCGACGGTTTGAATCCCATCGGGGTGGGCATTCTGATCACCGCGATCGGTCTCTCCCTGGGCGGGACCACCGGTTACGCCATCAACCCGGCCCGGGACCTGGGACCGCGGCTGGCCCACGCCGTACTGCCCATCGCCAACAAGGGCGACTCCGACTGGGCCTACTCCTGGGTGCCGATCATCGGTCCGTTCCTGGGCGGGATCGCCGGCGCACTGATCTTCGTTCTTTTACCATAA
>SRR1151209_01234 glycerol-3-phosphate dehydrogenase
ATGGCATTTTCTAAAAATACCCGTAAACAAACCATTGAGAACTTAAAGCACACGGACCTGGATCTGCTCATCGTCGGCGGGGGAATCACCGGCGCGGGCGTCGCGATCCAGGCTGCGGCATCCGGCGTGAAGACCGGCTTGATTGAAATGCAGGACTTCGCCGAAGGCACCAGCTCCCGGTCCACCAAGCTGGTCCACGGCGGCATTCGCTACTTGAAGACCTTCGACGTCGGCGTCGTGGCCGACACCGTGAAGGAACGGGCCGTCGTGCAGGGCATTGCCCCGCACATTCCCCGGCCGTTCCCGATGCTGATGCCGATCTACGACGAACCAGGCAGTACCTTTGACATGTTCAGCGTCAAGATCGCTATGAATCTGTACGACCAGCTGGCCGACGTGGAAGGCTCCCAATATGCCAACTACACCGTCACCAAGGACGAAGTCTTGCAGCGCGAGCCGCATATTGAAGCCACCGGTCTGCAAGGCGGCGGTGTCTATCTGGACTACGTGAACAACGACGCCCGTCTGGTGATCGAAAATATCAAGGAAGCCGACGAGCTGGGCGCTGAAGTTGCCAGCCACGTGCAAGCCACTGGGGTCATCTACAATGAGGCTGGTCAAGTCGCCGGCTTGCACGCTAAGGATCTGCTCACTGGCGAAGAGTTCGACATTCACGCCAAGCTGGTGATCAATACCACTGGTCCGTGGTCCGACAAGTTCAAGAGTCTGGATGGGAAAGAAAACCAAGCCCCGACCCTGCGGCCGACCAAGGGCGTCCACCTCGTCGTGGACGGTTCCCGTCTGCCAGTGCCGCAGCCGACTTACATGGACACCGGCTTGAATGACGGCCGCATGTTCTTCGTCGTTCCCCGGGAGGGTAAGACTTACTTCGGCACCACCGACACGGACTACACCGGTGATTACAAGCATCCCCGGGTAGAACAAAGCGACGTGGATTACCTGCTGAAAGTGATCAATACCCGCTATCCGGATGCCCACATCACGATCGACGACATCGAGGCCAGCTGGGCCGGCTTGCGCCCGCTGATTGCTAACAACAGCAGCTCCGACTACAACGGCGGCGGTGCCAACAAGGGCAAAGTGTCCGACGCGTCCTTCAACGCCTTGATCAAGACCGTGGACGACTACGAAGACAAGACCGCCACTCGGGAAGACGTGGAACGAGCCATTTCAAAACTGGAAACGGCCCACGCCGAAGCCGCCGGCCTGACTCCGTCGCAAGTCTCCCGGGGCAGTTCGCTGACCCGGGCAACCGACGGCATGATCACCCTATCCGGCGGCAAGATCACTGACTACCGGAAGATGGCCGCTGGCGCGCTCGCCCTGATTCGCCGCCTGTTAGCTGACAAGTTTCACGTGGAAACTAAGGAGATCGACTCCAAGAAGCTCCAGGTTTCCGGCGGTCACTTCGATCCGACCAACGCGGAAGCTACGATGAAATTCTACGCCCGGATTGCCGCTGATGCCGGCTTGCCGGACGCCGACGCCAAGGATCTGGCCAACCGTTTCGGTTCCAACACCGGCCGGGTCGTCACCTATCTGGAAGGCGGCGCCGCACCGGGCTTGAGTCTCAAGGAAACCATCAGCCTGCGCTACTCCGTGAATGAAGAAATGACCTTAACGCCCGTGGACTACCTGCTCCGCCGGACCAACGCCATTCTCTTCCACGCCGAAACGCTAGCCGCCCTGAAACAGCCGGTTATTGACGAAATGGCCCGCTTGCTGGGTTGGGATGAGGATGAAAAAGCCATTCAACTCGCCCGCTTGAACGCAGCAATCGACGAGAGTGCATTAGCTTACCTGAAGAAGGCCGCCACGCCGGCCATCACCCATTAG
>SRR1151209_01235 glycerol kinase
ATGGCTGAAGAAGAGAAATTCATTTTGGCAATTGACGAAGGCACCACCAGTACCCGGGCGGTGATCATCGACCACGACGGCAAAAAGGTGGCCGATGCGCAGCGGGAGTTCCCGCAGTACTTCCCGCATCCGGGCTGGGTGGAACATAACGCGAATGAAATTTGGAACGCGGTATTATCGACCATTGCCACAGCCTTCATCAACTCCCGCATTCAACCGCGGCAGATCGTGGGTATCGGCATCACCAACCAACGGGAAACGACGGTGATCTGGGACAAGCAGACGGGGCTGCCGATTTATAACGCGATCGTCTGGCAATCTCGGCAGACTAGCGAGATTGCGGATAAGTTGCGGGCAGACGGCTATGCGGATAAGATCCACGATTCCACCGGCTTGCTGATCGACCCGTACTTCTCGGCCACGAAGGTCCGCTGGATTTTGGACCACGTCCCTGGGGCTCAGGAACGCGCGGAGAAAGGCGAGCTGCTCTTCGGCACCATTGATACCTGGCTGACCTGGAAACTCTCTGGCGGGGCCTTCCACGTCACAGATTACACCAATGCGTCCCGGACCATGCTCTTCAACATTCACACCCTGCAATGGGATGATGAAATTTTGAAATTATTGAATATTCCGAAGATCATGCTGCCGGACGTGAAGAGCAACTCAGAGGTTTACGGCAACGCGGCGGCGTACCACTTCTTCGGCAGTACCGTGCCCATTGCCGGGATGGCTGGGGACCAGCAGGCGGCGTTATTCGGCCAGTTGGCGCTGGAACCCGGGATGGTCAAGAACACGTACGGCACCGGGGCGTTCATCGTCATGAATACTGGTGAAAAGCCGACCCTGTCCAACAATAATCTATTGACCACCATCGGCTATGGCCTGAACGGCAAGGTCACCTACGCTCTGGAAGGATCCGTCTTCGTTGCCGGCAGTGCCATCCAATGGCTGCGCGATGCGATGAAGTTATTGGAGAAAGCCGGCGACTCTGAAGCCGCTGCGCTGGCTTCCCAGAGTCAAAACGAGGTCTACGTCGTTCCGGCCTTCACTGGCTTGGGGGCGCCGTACTGGGATTCTGGTGCGCGGGGGGCCGTGTTCGGCATTACTCGGGGGACGACCCGGGAAGACTTCATCAAGGCGACGCTGCAATCCCTAGCTTACCAGTCTCGGGACGTTGTGGACACGATGAACAAGGATACCGGCATTCCGATCCAGACTTTGCGGGTTGACGGCGGCGCGGCCAACAACAACTATTTGATGCAGTTCCAAGCGGATATTCTGGGCATTCCCATTGAACGGGCCGCTAACTTGGAAACCACCGCCATGGGGGCCGCTTTCTTAGCCGGTCTGGCCACTGGTTTCTGGAACAGCACCGATGAATTACAAAACATTGTGGCGATTGGCAAGCGCTTCGAACCGAAGATGGCCGCAAAGGAACGGGACTTCCTGTACGATGGCTGGCAGCAAGCTGTGGCCGCCACCCAGATGTACAAGCACGAACCCAAGGAAGGGTAA
>SRR1151209_01236 small multidrug resistance protein
ATGGCATGGATCTACTTAGTATTCGCAGGCATCTTCGAGGTCGTTTGGGCGACCTTCATGAAACTCAGCAACGGCTTCACCCACTTAGGCTGGAGCATCGCGACGCTGATCGGCATGATTGCCAGCTTCGGGTTGCTATCCCAGGCGACGACCAAGCTGCCCATGAGTCTAGCGTACCCGATCTGGACGGGCATCGGCGCGGTGGGCACCGTCATCGCCGGCGTCGTACTTTTCGGTGATCAGTTGAAGCCGGCGACCTGGTTCTTCGTTGCGCTGCTTTTTGTGGGAATTATCGGCATCAAGCTGACCACGGGCGGTGGCGAGTAA
>SRR1151209_01237 SNF2 family DNA/RNA helicase
TTGGAGTTGGTGGCACCGAAACAAAGTGATTATAACCGGTTGAAAAGAGAAATTGATGCGGCTAAAGCACACATCGGTGCATATGAGTCCATCGTAAAGACAATTAAACCCGATTTGGTAAAGAATGCGGCTCGCCTTTATGAAATTGAAGTCCAAGATGCGATCAATGCGTATCAACTCAACAAATCGGGTGGTAGCGGCTATCAAAAAATCATTAGCAAACTGGCTACGCAAGGGATTGGTACGCTGGGCCAATTACTTTCGTTCTGCCAAAATTCGGATTTTATACTCCCGGGATTCTCCTTTGTCGAGAGTGAGAATTTACGAGCGGCAGCAGAAAAGCTGAAGCAGGATGTACAAAGAAATACAAGACTTGTGATTGACTTTTCCAGATACAGGAAGCTAAGTACTGACATACTGCAGGGAGCTCATCTATGGGGTGAGGTAGACGGATTAGGTGCCAAGTTACGCGTTATAAACGGTGAAAAAGTAGAACCGTTGACCAAGTACTTTAATAAATTTCCGGTCCAACGAATTGGAAATATGCGGTGGTTGTTAACGCGCCGTCAAACGAAAGAAAAGATCATTCGGCAATTTTTCCGGCTGAAAGAGGATACAAATCAGCTAACGGCGATAGTTGGCGACTTTTCAGCGTATTTTCAACAAGTTGTCGGTAGCCAAGCGGATATCGAGGCTGACTTTTTTAGAAATGCCGCTGGCTATTACGCGTTTTTTGAATCTATTGGTTTACCAGGCACACAGGGTACCGAGTCTAGCGAAGACCAATTCGTAAGAATGGCCAGTGGTGCAGACGTGACAGCTGATGGCGCAAGACCAGGTCAAGAACCGCCAATCAACGATGCGTTGCGCCAGATTATGGCGCGAATCAGTCAAATCGACCCGTTGTCGCCCCTACTGAAAGCGCGCTTACGAAATTGGCAGAAGTTCGGAGCCAAGTATATTTTGGCGCAGAAGAAGGTTCTTCTCGGCGATGAGATGGGGCTCGGGAAAACTGTTGAAGCGTTGGCAGTGATTTGCAAATTGGCCGCTCAGGGGAAAACTCATGCACTCGTTGTTGCACCAATGAGTACTTTGCCAAATTGGCGAAGTGAAGTTCATAAACACACCCATTTGCAGGGGACGATTATTCATGGCCCCGATCGAAATGAGCAATTTCAAAAATGGATGATTAACGGTGGTATTGCTTTGACCAATTATGAGACGATGTGGCGGCTTAATCCTGAAGGTGTACACATGACGGATATTTTAATCGCCGACGAGGCCCAGTATGTAAAGAATCCGTTGGCCAAGCGCTCACAGTGTATACATGAAGTAGCCAGAGAGGTGCCCTATGCTGTGTTCATGACGGGTACGCCAATTGAAAATGTTGTGGACGATATGATCCACTTAATTGAACCACTACAACCAAAAGTAGCAGAGTCTTTGCCAAATGGGGTATTTATGACCCCTTCTGAATTTCAAAGAACCGTGGCACCAGTATACCTGCGGCGTCGAAGAGAACAAGTATTGGGTGAGTTACCGGCACTTCAGCAGAGTGATGAAAAGTTTGATTTTGGCGTAGAGGAAGAAGCTAATTATCGGTTAGCGGTGGCAAACGGCAACTTTATGGCCATGCGCCGAGCAGCGTGGACAGGAAAGACGGTACGATCGTCACCGAAAATGGAGCGTTTGAGTGCGATATGTCGGGAAGCACATGCAACGGGACGTAAAGTGCTGGTATTTTCCTTTTTCCGCGCGGTATTACAGAAAATTCAGAATGAGATTCAGGACATTGGCTTCCCAGTGATCATGGGTGGGGTAAGCAGCAATGACCGCCAGGCAATTATCGATCAGTTTAAGGCTTCTCAAGACAGAAATGTTTTGTGTCTTCAAATCAATACAGCTGGCCTGGGGCTGAATTTACAAGAAGCCAGCATTGTCATCTTTTGTGAGCCGCAAATCAAGCCATCTTTGGAGTCTCAGGCATTGTCACGGGCCTATCGCATGGGACAAGCACAGAAGGTGAGCGTGTATCGGTTGTTGACTGAAAACAGTGTCGACGATTTAATGCTGGAGCTATTGGATCGAAAGCGCAGAACATTCGAGAACTACGCTCAGAATTCAACAATGGCAATCTCCACTGCTGAAGCAACGAGTTCAGTAGATGATCACGCAGCTGAGCAGCTCGAAAAGCAACTAATCTCAATGGAACAAAAGCGGCTGGCGGTTTAG
>SRR1151209_01238 hypothetical protein
ATGGATCACAATGCCGAAGAAGCACTAAAAGCTGCCTACGACCAATATTTACGTGAATACACGTTGACCGATGTCACTACCGCTCTCGAAAACAACATTCCGTTAGAACAGGTTCAGCGAACGTACTGTTTCGCAATCAATCCCACCACGACCTATCTGCTTCAACCAACTATTCTCTTCGAGGAGAAGCTGGTGATGGGGATGAATATCGCGCTGGACCCGATTGAGACCTTGTTTCAGGCAGTGTACCTGTTTGACACAAAGACTGGTCAACCGAAACCATCGTTCTTACCCCGAATCAGGAAATACTTCGAGGACCGTCCGGCTGGAATCCCCTACATCTTCGAATTTGTCGACGGGTTCATCATGATTAATCACGCTCATTCCTTGAAGAAAAAGGGGAAAACGCAGGCCCCTCGCTTCATTGCTGAACCAGTCGCCCGGCCGATTATCTATGATTTCTTTGAAGTGTAA
>SRR1151209_01239 hypothetical protein
ATGAAACGAATATCAGCTAGTGCAGTTCAATATCAGTTTTGGTTTGCTGAATTTGTACAATCAATTGGCATGGTCGTTGACTCTGGCGACCTTTCGTTGGTTCGTCAGAAAATCTTAGCCGAAAATATATTTCAAGCGTCCTCTTCAGCGCGTCTAAAGAGCGAGACAAATGTGGTATTGCGCCGGGTAGATTCACTCACTCCGGCGATGCGTGGTTTGTTTGACCGGCTAGATCCAGTCAATCAGCGCATCGTGAATCTCATTGCCATCATGAATACGGAACAGCTGATGTATGTCTTCATGTACGATGTCTTCCGTCCAGAATTAATTCTAGGTGATCGCCAAATTGAAAACTACGAACTTTCTGCTTTTTTCAAAAAGTTACCATTGGAGCATCATGAAGCGGCGCAATGGACGGAGCAGACGATAAGAAGGCTGCAAGCTACGGTAACGCATTACTTACGCAGTGCCCAAGTGGTTAAGGACTATAAGGACGCACTCGTCGTGCAAAACTACTTGCTGGATGAACGGCTAGTCGCCCAGCTACAGCAAGAAAATCACCTGGATTACTTGGCAATTCTGACAGGGAGGACGTCGTAA
>SRR1151209_01240 hypothetical protein
ATGGTACCGCTGAAGAAGAAGTTTCAGGATTTACGAGAAAAGATTCAAAGCCAGTCTTTTCAAGAGAATCGGGGCTTATCGAACGAAGTTGGCTATTATATATTCGACTATGATCCCGAGAAAGAACTATACGTCCGTGGAGAAATTGGCGATATCGTTCGCCAAGCTAAAGCGGCACCAACGGGCGCCACGATCCAAGTATTTAACTTGTACACCATTATGCTGTCCATCATCGACAAATTTGGGTATCGCGAGGGATTCATAGACCTGGAAAAAAGCGATGGCATCACCCAAGTGATTGATTGGATGAACAACATCATGGAGATGAACGAAGAACATAACCTGGTGGTGCAGTACATCAGCGACCATTTGAACAAAGATGGTCCCACCATCGTGTTCATTACCGGTGTTGGGCAGGTTTATCCAATTATCCGGGCTCACAAGGTGTTGAACACCATGACTCAGGTCATTGACCAAATTCCGGTCATGATGTTCTATCCAGGTAATTACAACAGTGTGCGGTTGCAGGCCTTCGGGGAGTTACAGGAAGACAACTACTACCGCGCGTTTCATTTCGAATAG
>SRR1151209_01241 hypothetical protein
ATGCAAATACGCGACTTATTTGTTAAACCGATTGATCGAAATATCCAAGGCGTCATCAAGGTTGGCCAGGATGCAGACGCTAACGTGAAGCAGGAACTAGACGAGTACGTTGTTACCCGGGAATTGAAGGGCCACTTTGACGACTTCTTTGCGGCCTACGAGAAAAGTATCAACCACGATACCGACGAGATGGGAGTATGGATCTCCGGCTTCTTCGGTTCTGGTAAATCACACTTTCTGAAAATCCTCTCCTATCTGTTGGAAGATCGGAAAGTTGACGGCAAGAGCGCCATTGACTATTTCAAAGAGAAAATCAATGACCAGATGACGATCAACCGTATTGAGCTGGCTGCGCAACAGCCAACCGACGTGGTGCTGTTCAATATTGATTCCAAAGCTAAGACTGGTGCCAAGTCAGATGACAATGCCATCATCAATGTTTTCCTGCAAGTGTTTAACGAAATGCAGGGCTTTTCGAGTACCAATTTTTGGATTGCTGAAATGGAGCGCCAATTAGTTGCGCAGGGTAAGTACGACGCCTTCAAGGACAAGTTCACGGAGTTGGATAACACTCACATGGACTGGACGGTTGGTCGGGATCATGCCATTTTCAAGAAAGGCACGATCAAAGATGCCCTAGTGCAAGTCGATGCATACAGTGAAGAGGATGCCCAGGGCTTGATGGATCAATTGACGACATCTTATCAAGTCAGTATTGAGGACTTCTCTAAACTGGTGGCCGCCTATATCAAGAAGACCGGGAAGCGGGTCGTTTTCCTGGTGGATGAAGTTGGCCAGTTCGTTGGGGAAAGCACGCAACGGATGCTCAACTTGCAAACAGTGGTTGAAGACTTGGGCGCGGCTACTCACGGCAAGGCTTGGGTGGTCGTCACTTCCCAGCAGGCCATTGATACCATTACGGACAAAATCAGCGGTCAGGACTTTTCCAAGATTCAAGGCCGGTTTGCGACCAAAATCAGCATGAGTTCGGCCAACGTGGACGAAGTCATTCGCAAGCGGCTGTTGGCAAAGACAGAGCCGGCTACAACACAACTTGCGGCAGACTACGAGGCTAACGCAGCCGCAATCAATAACATGATTGATTTTGACGATGGCGTGGATCGGCCTAAGTTCCGTTCAGGGGAAGATTTTGCGGCGACATATCCGTTCGTTCCGTACCAGTTTAACTTGCTGCAAAATGTGCTCACAGCGGTCCGGACCCACGGCTCTGATGGCAAGCACTTGTCTGAAGGTGCACGGTCGATGCTGTCTCTTTTCCAGGAGTCCGTGGAAGCCATTATGGACGAACAAGATACGGCGCTAGTGCCGTTCAGCTTGTTCTTTGAAGGCCTGCGCCAGTTCTTGGACCACACCCATAGCATTGTGATTGCCCACGCGGTGGACAACGACACCGTTGATCCTACCCATGAAGAAGACAACTTCAACGTTCAGGTACTCAAGGCGCTGTTCATGGTCAAGTACCTGAAGGACTTTGACGCCACGTTGAACAACATCGTGACGTTGATGATTGACTCAGTAGATACTGATCGGGTTGAATTGCAGAAAAAGGTCCAGAATGCATTAGCCATTCTGCGGCAGCAACGGTTTGTCGAGAAAAACTTGGATAACTACGAATTCTTGACCGATGCGGAACAGGAAGTCAACCAGGCCATCAGCCGGGAAGAAGTCTTGCCGGGTGAAATGGAAGACCGGATGGGCAACTTTATTTTTGATCCGAAGACCGGCATTACCAATAAGTACACCTACCCCAAGCTGAAAGGCCGTTACAATTTCACGTTGAATCAATACGTGGATGAAACTCCCCAGGGGCGGACCAACAATGACATGACGATCCAAGTCATCACGTCTTTGGATGGCGCCAATAATCGGAATGAGGCTAACCTGCTGCTTCTGTCCATGGATCCGTCTAAACATAAGATCGTGGTTGATCTGCCGAGCACGGACGACTATCTCGGCGACTTGCGGCGGGCGGAGCAGATTGGGAAATTTGTCATGCTTGGCAACGCCCATGCCGACGCTCGGTTCAACTTCATCAAAGAACAGCGGACTGCTGAACGGCAGCAGCTGTTAGTCAAGGCTCGGGAGCGGATTATGACGGCCTTGGAACAAGCAGACGTTTATGTTGCCGGGCATAAGATTGAGGGCGGCAAAGACTTCCAGGGCCGCTTCACCGACGGCTTGAAGATGTTGGTGGATGATACGTACCGCAGTTTAGGACTCATTGATGCAGCCAAGTCGTCGTCAGATATTACGCAAATCCTGGATCAGGATAATGAGTTGGCAGTATCCACGCAGGAAAACGAGCGCGCGGTCCAAGCAGTGTACAGCTGGCTCCAGCGGACGATGCAAAAGGACAAGCATGTGACGTTGCAGGCCATCTTGAACAACTTCAAGGCCATTCCCTATGGCTATATTGAGGACGACATCGAATGGCTGGTGGCCAAGCTGCTGGCGGATGGCAAGATTCAGGCTAATCTACAGGATCAAGTACTTTCTCCGGTCAATACGGCGTACAAGCCTCAGGATATTGCCAATTTCCTGACCAAGAAGCAATACGCGGAACAGATTTCGATTCAGGTGAAGAAAGACATCAATCCGCGTTACCTGCGGGAAATGAAGGATGTCGCCGATCAGGTTTTCAATAAGCGGTCATTCAGTGCAGCTCAGCCGGATCTGATGGTGGCTGAATTGAAGGAGAAGATTGCCAAGGACAACGGGACGCTGCAGTTTTTTGATCAAAAGAATGGTTCCTTCCCGGGTCATGAACTGCTCAAACAGGGCAGCAAGATGTTCAGTGAATTACTGGCCATCAATGATGCGGAAACTTTCTACGACAAGATCCATACCCGTTATGATGATTTGCTGCAGTGGGCAGACGACATGAGCGATAAGGGAATCATGGACTTCTACTTCAGCGATCAGCAGCAGACAATCTGGACGCGGGGATTGGATGACATCGCGCGGTACAAGGCATCCCATGACTTCTTTACCAGCACGGCTTTGGCTGAGGACTACCAGCAGCTGAACAAACTGCTGAATGAGGACCGAGCTGGACGTGTTATCCAAGAAATTGACGCCGTTCACCAGAAGTTTGTGGATACCTTTGCTAAGATTATGGACGATCACCAGAAACAAGTGACCGACAAAATCCAAGCAGTCAATGAAAAGGCCAAACAGCGGATTAACGATTCTTCCACCGGAGATGACTTCAAACAGCAACGGCTGGCGACGTTGACGGAGCAGATTAAGCGAATTATGACCGAGGCTGAGGAAGCACCGGATTTGACGCGCTTAGAGGCCAAACCGGCAGCAGCTGATGCGGTGTTACGGCGCATTACGCAGAGCTTGGAAAATGAGGAGCAGCGACTAGCAGAAGAACAGAAGCTGGCTGAGAAAGAGCGGTTGGAAGAACTCGCTCGAAAGAAAACAGCCGAGGTGGAGAAAGTATCCCCAAAGCCGAGTTCAGACGAGGAACCCATTAAGCTTGTGGATCCGCTTCCTGCTCCTGGCCCCAATCCGGCGCCTCAACCAGAACCCGCAGCACCTGTTGTTATTCAAACTAAGTATCTTGAAGCCGATCAACTACCCATCGAACGGGAATGGTCCATTTCCTCTGAAGATGACGTAAACCGGTATGTTGAGAAGCTTCGGCAGGCATTGCTGGATCAAGTTAAAGAAAACCAGATCACGAAGTTTACTCTCTAG
>SRR1151209_01242 restriction endonuclease subunit M
ATGGATAAAAAGAAGATTCATGATTTCGCGGTGAAAGCCCGCCGCGAGCTCATCGAGAGTGTTGAGTTAAAGCTGACCCAAGTGGGGATCACCAGAGACGGTGTGAAAGAGAAACTGCCAACATCGACGGCCGAGATTGCCTTCTATGTGCCAAACGACACTGAAGGGGTCAGCGGACTTGACACGTCGCGTCGCGTCGGCTTAGTTCAGAGATTGCAGACAGCAGCAGCCAAGGACGATTGGCAGACCGCTTACGATAATCTCGTAGAAGAGGCCTCGTACACTTGGTTCAACCGGATCATTGCGTTACGATTCATGGAAGTGAACCATTATTTGCCGAGCCGGGTTGCCGTGCTTTCTTCCGAAGAAGGACGGGCAGAACCGGACATTCTGGCTCATGCACTGGAAATCGAAGACGACCTTGGCGGCTTTTCCGAAAAGCAGCGGGATCTTATTCAGCGTGCCCAAGAAACCCAAGAACCAGCGGCGATGGATGATGCGTATCGGTTGCTGTTTTTGAAGCAGGCTAACGCTTTGAACGCCAATTTGCCCCATTTGTTTGAGAAAACAACTGACGCCTTGCAATTATTGTTCACTCCCAGCTATCAGAACGGGGTGATTAAGGAGCTTGTAACTGAGGTGCCGCGGGATGACTTTGACGTGGAGAAGGAGGGGCAGGTCGAGATTATTGGGTGGCTGTACCAATACTATAATGAAGAGCCCCATGATCAAGTGGTGAACATCAATGGTGGACCAGTGAAAACTGATGACATTCCCGCAGCCACGCAGTTATTTACCACCGACTGGGTTGTCCGCTACATGGTGGACAATTCACTGGGCAAGAAATATCTGGAATATTATCCTAATTCGCCAGTTAAGGAGCAGCTCAAGTACTTACTGCCTGGAGACATAACGCCGGATCATTCAGACTTTGACATCACCAGAATCCAAGTGATGGATAATGCCATGGGCTCGGGTCATATTTTGGCCTATGCGTTTGATGTGCTGATGACCATGTACGAGGATCAAGGCTATGCCAAACGTGAAGCAGCTAATAGCATCATTCAGAATAACCTATTTGGTCTGGAAATCGACCGACGGGCCTTCCAGCTCTCGTACTTCTCACTGATGATGAAATTGCGTCGATATGATCGCCAAGCATTAAACCGCAGTGTGATGCCTAATATCCACGTCTTCATTGCTGCCCCGGCAGTAACGGAAGAATTTTTGCATAGTTTGAAAGCAAGTTCAGAAGTGATTGACGAGATTCAAGACATCGCTGCCCACTTTATGGATGCCAAGACTCTCGGCTCGATTATTGAGTTGCCAGCCAATTATGACTATGCTGGCATGCGGAATGCGCTAGAACCAGTTGCGACAGCTCAAAAGATTAGCCTCTTTGGCAACCAGCAGACAGCCCAGCAATTGCTGGAAATCATTGCCACTGCGGAAACGATGACCCAACGATACGATGTTGTGGTAACCAATCCGCCGTACTTGAACAAGATGAACAGTACCCTGAAGAAGTACGTGAAGAAGCACTATAAGGATTATTCTGCGGATCTGTTCTCTGTTTTCATTTGGCACAATATCAACATGGCGAAGACTAACGGCTATACTGGCTATATGACGCCGGTTTCTTGGATGTTCTTGAAATCGTTTGAAAAACTACGGGATTCTGTGCTTACGCTGACGAGTATTGCTAGTTTAATTCAGATGGAGACACACGCCTACTTCGATGAGGCGTACGTCACTATCAATACATTTGTATTGAAGAAAGCAACCGATGAAACCGATAAAGTCGGTACGTATTTGCGTCTTGTCGATTTCACGGGTGGTATGGAGGTACAACGTCAAAAGGTCACGGCGGCAATCGTAGATCCGTCTGTAAACTACCTTTATCGAACTAACCAAGCGAATTTTGAAAAGATTCCTGGAAGCCCAATTATATATTGGTTTTCTGACAAGGCCGTGAGTTTATTTACTTTACCTTTATTGGGTTCCATGTTCAAAGCAGGAACCGGTCTGCAAACTAGCAATGACAAGGAATTTGTCAGGCTATGGTATGAAGTGCGTTATCGATCAATTGGTAGAGAGCACAAATGGGCGGTCTATGATAAAGGAGGCGGTTATCGTAAATGGTATGGAAATACGAGTTTTATAGTTAACTGGGAAAACAACGGTTCTGAAATCAAGTCATACGTATCCAATAAGTACCCATATCTACATGGAAACTATGGGTTCGTGGTAAAAAATGAATCAAATTATTTCTCTACTGGAATAGTGACATCCAAAGTAACGTCTGGAATCCTGGGTTTCCGAGTTGTTACTGACCAAGAAATATTTTCTGCCGCAACTACTGGGGTATTTCCTGACACTAATGTTGAATATTACCTTGCATTGACTAATTCGCCAATCTTGTCAATGACGGCAGAACTAAACCCCACCATAAACTTTCAAGCGAGTGATTTAGAAAAGCTCCCGATAAAGATAGATTCGATCAATCGTGTTAGTCAATTAAGTCAAAAGAATATCTTTCTATCAAAACTGGATTGGAATCAGTTTGAAGAGGCCATGGACTTTTCCGGAGAATGTTTAGTGAGCCACATCGCTGAGCATAATCGAAATTGGACCGTGAAAGCAGCTTTCAACCAGTGGAAACAAGAAGCCCAAGACCGGTTCAATCAACTGAAGAAGAACGAAGAAGAACTGAACAAGATCTTTATTGATCTGTACGGCTTGCAAGACGAATTGTCCCCAGAAGAGTCTGACAAAGAAGTTTCCGTGCGTAAAGCAGATCTGGGACGGGACATCCGCGCCTTCATGTCCTACTTTATTGGAGTCACATTTGGCCGGTACTCGCTAGATACGCCAGGATTGGCATTTGCTGGTGGCGATTGGGATGCTTCGAAGTACACGAGCTATCAACCCAATACAGATGATGTGATTGTACTGACTGACTCGGATTATTTTGGCGATGATCGGGATATCATGCACCGCTTCCGGGAGTTTTTGACGGTTACTTTTGGTGAAGAACATTTGGAAGAGAATCTCACGTTCATTGCCAAGGCACTGGGTAAAGTGGGCGACACAGCGGAAGATCAAATTCGGAGTTATCTGTTCAACGACTTCTACAAGAACCATCTGACTATCTATCAGAAACGACCAATCTATTGGCAACTGGACTCCGGTCGGCAAGGTGGCTTCAAAGCACTGATGTACCTGCATCGGTACGATGGCGACACGATGGCGATGATTCGCACATCGTATTTACACACCCTACAGGCCGCTTATGAAAAGCGGGTGACCACGTTGGACACCTTCATCGCCTCAGAGACCAACACGCGTCAGAAGAACCAGTTGATTAAACAGCGGGACCACACCCGCAAACAGTTGGAAGAATTGGTGAAGTATGACGCTCAACTCCAACACGTCGCCAACATGCATATTGCGATTGATCTAGATGACGGCGTCGTGGTGAACCACCAGAAAGTACAAGCAGACGTCAAGTTATTGACGCCCATTAAATAG
>SRR1151209_01243 integrase
ATGGTCAGTTACCGAAAAAGAGGCAAGGTGTGGCAGTACGAGATTTCGTACAAGGACTTGGATGGTGCGTACAAGAAATTACGAAAGTCTGGCTTTCGCCTCAAGTCTGATGCGGAGTTGGCAGCTAGTCAGGTGAAGTCGCTCTATGCTGATGTACGCCAGTTCAAGGCGGGCGAAATTCCACTGAGCGTCTATTTCGAACGCTGGATAAATCTCTATAAGCGGAACTCTGTGACCAACGTCACTTTCGTCAAGTACGAAAACACGCTGAACCACATCCGCAAGATCTTCGGCAAAATGCCGCTGAAGGATATTACCCGAACAGTTTACCAAGAACGGCTGAACATCTTTGCTCGCGATCACGCGCCCCGCACCGTGTCGGCATTCCATAAGCAAATCAGAGCAGCGCTACTTGATGCGTTGGATGAACACATCATTGCCAACGATCCAACCCGCAAGGCCGTGGTCACCGGGGTGGCAGTTCACCGCTCGAAAAAAGCACTCGATTATGGCGAATGGCAGAAGCTGATCCATCATCTGGATACAGAACAGATTCCAGAAATGATGATCTACTTGGCCGCCGTCACAGGCATGCGGTATGCAGAAATCCTGGGCATAACCACCAATGACATTGACTGGCAGGATGGTACTGTTGACGTGAATAAGACGTGGGACTACAAGTACCACGCCGGCTTCAAGAAAACGAAGAACAAAGCGTCAATGCGTAAGTTGCCGCTCGACTCGATCTCTTTGCATCGCCTGCACATCTTCGTAGAGAACCACCCCACACCACCAAATACACCGCTATTCTTGATTGACGGCCACGCCATGGTCAGTGCCGAAATCAACCAAGTCCTGACAAACAAGTTGCATGCACTGGGACTACCCCGAGTGACGTTCCACGGGCTTCGCCACACCCACGCCTCCGTCCTCCTTTACCAAGGCGTGAGTGTCCTTTCCGTCTCCAAACGTCTCGGCCACAGCAGCATCACGACCACTCAGTCTACATACTTGCACATTATCAAGGAATTGGAGGCAAAAGATACCGATAAAATCCTGGCAATTCTCGAGAATGCATAG
>SRR1151209_01244 type II restriction enzyme methylase subunit
GTGCCGCGGGATGATTTTGATGTGGAGAAGGAGGGGCAGGTCGAGATTATTGGGTGGCTGTACCAATACTACAATGAGGAACCTAAGGATGTTGCCTTCAAGAAAAGCAAGTACGCTGCGTCAGACATTCCAGCCGTCACTCAGTTGTTCACACCAGATTGGATCGTCAAGTACTTGGTTGAAAATTCGCTCGGCCGCTATTGGATCGATGTGCTCCATATACGCGGTGATCAACGGTCTGAACAGGATATTGCCCAGAGTTTTGGTTGGCGATATTTCATGCCCGCTGCTCAGCAAACTGAGAATGTTCAGCAGCAACTGTTGGCGACCAACAGTCATCTGTCAGACAAGAAGCTTCAACAGATCACCTTCTTAGATCCTGCCATGGGTTCTGGCCACATCCTGATCTATGCATTCGATGTCTTCATGCAGTTATATCAAAGCGAAGGCTATTCAGCACGAGAGGCTGCCAATAGCATTGTTACCAACAACCTGTTTGGTCTAGACATTGATCGGCGTGCCTACCAGCTCGCCTACTTTGCAGTGATGATGAAGCTCCGGCAATACGACCGGCGCGCACTGAATCAATCCATTGATCCGCAACTGTCGGATATTCCGCAAACTAATATTCTCAATGATGATCTCAACGAGTTAACCAGAGCCTATGCTAATCAGTTGCCACAGCAACAAGCCAAGTCCTTTCAGGGCACAGTGAAGGAGTTCAACCGGGGCGATGTTCTCGGCTCCTTGATCAAGCCTAGCCTCGATCAAGGAATACTATCTGAACTCCAAACGAGTGCAGCCACAGAGCCAGAATCAGCACAGCTTTCCTTTGCGACGACAAATTTCAATTCTGAAGAAATGTCCCGCATCACCCACGTGCTCACCATCTTGGCTACCCAGTACACAATCGTAGTAACAAATCCACCCTATATGGGGTCTGGCAAAATGACACCGAGCCTTTCAAAGTTTGTCAAAAGGGAATACCCGGACAGTAAAGCAGACTTATTTGCTGTCTTTATGGAATTGGCACAGAAGTTGAATGTCCAGAATGGATATCACGCACTCATTACCCAACATCAGTGGATGTTTCTGTCTAGCTTCGAAAAGTTGCGAGTCAAGCTCCGTAAGAATGTACTCGTCAATATGGCCCACTTGGGTACCCGTGCATTTGAAGAAATTGGCGGCGAAGTGGTCCAATCAACTGCATTCGTGATGAGAAATTCGTCTATACCGAGTTATGTCGGCACATACGAGAGATTGGTGAATGCTCCTTCTCAGACCGCTAAAGAGAACGCGTATTTGGAAATGGTGAAAGATTCCTCCTGCAAGGGTCTCTATCGAACTAACCAAGCGAATTTTGAAAAGATATCAGGAAATCCAATATCATATTGGATTCCGAAAACTGCCGTGGAGATCCTGAATAACACAAAATCAATAGCCAGTGCTTGGCAGTCGGGAGGTAGGCTAAAGACCCATAACAATTTAAAATTTCTGCGTTATTGGTGGGAAATACTTTTAGGTGACGGCCGTTGGAAGCCCATTGAGGATGGAGGAAGTTTTAGAAGATGGGCGGGCAACGATTATATAGTGGTTGATTACTCTCCTGCGGCGATTAGCGCGTATCGGGAAAAGGGAGGGTTACCCAATCAGAAACTTATTGACAAACAGGGCATCACTTGGAATCTAATCACCTCCGCAGACAACGCATTCAGAATTAAACGAGAAGGGAACGCCTACAGTTCGGCTGCCCCAACCATAATTCCCATAGATGATGTAGATATAAGTGACAATACAACAGTGCTTTCTCTTTTGGGGCAACTGAATTCCAAGTCAACTGCTTATATTCTTGAGGGCTTAAACCCGACGCTAAATACAACGATACATGATGTAACAAGACTTCCGCTATTCAAAAGCAGCAACCAAATTGCACTCATAGTGACAGAAAATTTATCAATTTCCAGTGCTGACTGGTCTGAATCCGAAACAGCTGGATCATTTCTAACCTTCAGCCTTGTCACTAATATTGCTGAGCATACGGTATTGGCAATTCACCGTATTCAACAATGTCTTTCCAACATATGCGCTACGATTGAGCATCAGGCCCAAAAATTGACTACTTGGTGGCATAAAATACAGAATGTGCCAAAAAAGTGCCAAATATTTGGATTAGGAGGACATTAA
>SRR1151209_01245 hypothetical protein
ATGGCGGAGCTAGACACCAAGAAGATCGTGGCGGGTATTGAGAAGCTGTTTGCGGACAATAATCACTTTGTCTTTTGGTATGACGCACAGGGCGAGTTTGCGGACAACATTGCGGATATTACAGAGCAGTTGCGGGAACCGGTCGTTATCATGGGGAAAAACGAGCAGTTTAAGACCAAGCTGACGCTGGTGGCGATGGAGCAGCAGGGGCAGTCGGCCTTGGTTTATTCGCCGGCGCCGAAGCCAGATTTGACGGAGAATTTCATGACGGACATGCTTTACTATTCGCGGGAATACACCGCTAATGCGCTGGTCATGCTGCGGCAGGAGTTGCGAGTGCCGGACGAGGATGCCGCGACCTTCCAGGAGCAGAAACGGTTTTTTGCCAGCAAAGACCGCCAGGCTAAATTTCAGAGACTCTATCAGCCGGGCAAGGATTTGCAAATGGCGATCATGGCTGCGCTGGCCGGAGCCAGTGACCACACCATGACGATGGTCTTGCGGGCCGTGCTGCAGGCCGGCATTGGTGATACCAATCCAGTTCTAGCAGAGTTTAAAAAATATGGTCTGCTCACCCAGTTCTGGGAGAACGTGCGGAACGCTTATGGCTTCAATGGCGCCACCAATTCACTGCTGGATTTCACGACGGCCCTGTATTTGAACTTTGCCTATTACCAAATGGAGAAGGATCTGCCGCGAAGTATCGATAATTACAAGCTGACCAGCGCCAACAATGCCGTCACCTTTCTGTCCTTAGCAAGAAATGACCAGACATTTGCGGATACATATCGTCAGTTGGCCGAAACAGTGTGGCAGCATCTTGAAAGCTTCAGTGGTGTTTCCCGGCAGCTCCAGCAACTGGATATCGTGGACTTGCTCAAGACGGATGTGTTTGCCAATTTTGATCGGCAAATTCTGGCTTGGGCCGTCGAGCGATTGCAGGCGGATGATTTTCATGCCGTGGCAGGGACAACACCGTTGGCGGATGTTTTGACCCAGCGAGAAAAGATGTACTTCGGCAAGACGTATCACGACGCATATGCCCTGTTGCGCGCTGCATTGGTAATTCTCACGTACCGCCGGCGTGAGGTAAAAAACTTAGCGGCCGCCAAAGAACAGTACATCACCACTGATTACGCGGTGGATACGGCGTACCGGCATTTCGTTCAGCGCTACGACCGGATTGCCATCGACCTTATGGATCTTCTGGAAGGTATCGCTGACAAAGTGGACAACACTTACGTCAATGAATTTCTCACCCCGACGGTGACAGCTTGGACCACAGTGTTTGATCCGCGAGACGTTGAACCGCGTAGCTGGCAGCGCAGTTTTTATCGGACATTTATCAGTTCTCCTAAGGAACGGATCGTCGTGATTATTTCTGATGCCTTTCGGTTTGAAGCTGCAGCGGAGCTGAAACGCAAGCTGGATGATCAGGATGTCTACAGTACAGAACTCGATACGGTATACTCTGGCTTGCCCTCTGTGACGTATTTTGGAATGCCAGCATTGCTGCCGCATCAAACATTGACGTACCAACCGGACAAGACGGTCTTAGTGGATGGACTCAAAGCAGACACGCTGGAGAAGCGCCGTCAGATCCTGCAAAATCGGGATCCGCAGAGCAACGCCGACCATGTGATGACTTTTCTCAAAGACTGGGATACGCCGCAAAGAAAACAACTCTTGGCGGGGCAAAAGGTGGTTTACTTGTACCACAACGAAGTGGATGCCACTGGTGATGACGCGAAGACCGAGAAGCAGGTCTTTAACGCCACCGAGGAAGCCATCAACACAATTGCGCGGACAATCGGTTTTTTGCGTAATTTAAGTGTAGCGCACATCATCGTGACCGCCGATCATGGCTATCTGTACAAACGGTCTGGTCTGGATTCGGCGGACAAGATCGACATCAGCGGCCACGATCTGGACGTGCTGGGGCAGCGCTATGCAATTAGCAGTGAGACCATCGAGCAGCCCGGGGTGCGGTCACAGCGTCTGGGGGCACTGCTGGATAATGATGATCAGCGGCGTGTCTACTATCCGGCCACGGATAGTATCTTCAAGTCCGCTGGAGCTGGGCAAAACTACGTGCATGGCGGCGCCTCACCGGAAGAAATGATTGTGCCGGTGCTGCACGTGCGGACACAAAGTGGTCGATCCAAGGCCACACCGGTGTCGATCAAGGTTACAGAAGGCGCCCATCGCATCACCAGCCGCAGCGTGATGGTGCCCATTTCTCAAGAAGAACCGGTAACCGACAAAACCACCGCCGCCACCTATGTACTCTACTTTGTCGATAGCCAGGATCGGCCCATTTCTAACGAACAACGCTATGTAGCCGATAGTCGGGAGGATGATCCTCAGAGCCCAAGCCGGCGCCAGAGCTTCTACCTGACCTTGCAGGATCGGGACTTCGACAACAGCGGAGCGTACTATCTGATTATCCAGAATGCAGAAACTAAGGAAGAGATTCAGCGGATTCAATATCAAATGGACTTGACGATTAAAGGGGATTTCGGCTTTGACATCTGA
>SRR1151209_01246 hypothetical protein
TTGACATCTGATAACAAGCAAGAGGAAGAAAAGTTACGAGCGAAGAGTGACGGGGATGTGGCAGTGCCAGCGGAAGCCATTGCTCAGGAGCAAGCGGCAGAAAATGTGCAGACAGACTTGCTGGACAAGTTGGAGGCCTTTTTCCCCGGGCGCTTTGTGCGCAAGGATCTGACCCAGAAGATTAAGGAGGGGGCCAATGTCCCCACCTATGTGCTGGAATTCCTGCTGGGGCAGTATGCCAACAGCTCGGATCCGGTGATCATTGAACGGGGCGTGGAAAACGTCAAGAAGACGCTGGCTAATAACTACGTGCGGCCGGACGAGGCGGAAAAGGTGAAGTCTCGGATTCGGGAAGAGGGAGCGTATACGGTCATCGACAAGATCACGGTGACTTTGAACTCGGATAAGGACCGGTACGAGGCGGCGTTTGGCAACTTGGGGATCACCGGTGTGCCGGTGGATGAGCGCTACGTCCAGGACTATGAACGGTTGCTAGTGGGTGGTATTTGGTCCATCGTGCGGGTACGCTACGACCATACCAGCGATGACCATTTTCTCATTGATCAGCTGACCCCGGTTCAGGTGCCGTCTGTGAACATGCAGGAAGTTTATGATGCCCGGGAGAAATTCACGACCGACGAGTGGATTGACTTGCTGCTGCGGACGATTGGCATGGAGCCCACGCAATTCGATGACCGGGTGAAGTGGCTCATGGTATCGCGGCTCATTCCGTTTGTCGAGAACAACTATAACTTCGTGGAACTGGGGCCTCGGGGTACCGGGAAGTCCCACGTCTACAAAGAATTATCACCCAATTCGATCTTGGTTTCTGGGGGCCAGACAACGGTAGCCAACCTGTTCTTCAATATGGCGCGGCATGAAGTCGGCCTGGTCGGCATGTGGGATGTCGTGGCTTTTGACGAAGTGGCGGGCATTAAGTTCAAGGATAACGACGGCGTCCAGATCATGAAGGACTACATGGCGTCCGGCTCCTTTGCCCGGGGCCGGGACGAAATTCAGGCGTCTGCCGGGATGGTCTTTGTTGGGAATATTAATCAGCCGGTGGACGTGGTCATGCGGACGTCCAATCTGTTTGATCCGTTTCCCGCTGTCATGGCTAACGACACGGCCTTTTTGGACCGGATTCACAACTACTTGCCTGGCTGGGAGATTCCGAAGTATCGGCCGAATTTCTTTACGAACGGCTATGGCCTGATCACGGACTATTTCGCGGAGGTCATGCGGGCCCTGCGGAAGATTTCTTACGGGGATGCCTTCGATAAGTACTTCACCCTGGGCAATCAGCTGAACCAGCGGGACACGATTGCGGTACGCAAGACGGTGTCTGGGATGGTGAAGCTGCTGTATCCAGATGGCAAGTTCACAAAGGATGACATCGCCCAGATTCTGACGTTCGCCTTGGAGATGCGTCGACGGGTGAAAGAGCAGCTGAAGAAAATTGGCGGCATGGAGTTTTACGATGTTAACTTTTCTTACATCGACAAGGAAACGCTTGACGAGCATTTCGTTCCGGTGCCAGAGCAGGGTTCGACGGGATTGATTCCTGAGAATGAAGGGAAACCTGGCCAAGTCTACACGGTTGCTTATGATGCGGATGAACGGTTGAGTTTGATAAAATTGGAGTCGCAGATGACGGCCGGCAACGGGAAGACGAGTTGGACCGGGATCCAATCCAATAGGTTGGCCAAGGAAGAAATGGATACGGCGTTCAATTACCTCAAGGCTAATTTCTCTCAGGTCAGTCAGAATATTGCGCCAGCGCAGCATGACTATATCGTGAACGCAACCAACCTGAATAATGGCGCCATGGCGGCGGAGTTGTCGTTGGCGACCTATGTCGCACTGGTTTCTATTTCGGTTGGAAAGCCGGTCATCGGTGGGTTAGCCATCTTGGGAGACTTTTCCATCGGAGGCACCATTAAGAAAATGGACAGCTTGGCGGATCGGCTGCAGGTGGCTCTGGATAGCGGGGCGAAGGCGGTCTTGATTCCATCGAGTGCCACGAGTGAGTTGGGTACGGTGCCGGGAGATTTGATTGCGGCTTTCTCGCTGAAGTTCTACAACACGATTGAGGATGCGGTGATGAAGGCATTGGGTGTGCAGCAGTAG
>SRR1151209_01247 hypothetical protein
GTGGCAGATTCGAAATACGACGTACAGAATAGTCAGATTGGTACATTATTGGGGTGGATTAACTCTGGGGAGATTGGGCTGCCGGAACTGCAACGGCCATTTGTGTGGCCCTCGACCAAAGTTCGGGATCTAATCGATTCGTTGTTTAATGGTTTTCCGATTGGCTACATTATCACTTGGAATAACCCCAGTATTCGGCTTAAAGATGGGTCAATCTCTGTTGGAAAGAAGATCGTGATCGATGGGCAGCAGCGTCTCACAGCATTAGCCACCGCATTGTCGGGGCAGAAGATTATCGACCGAAGATTTAAGCGGCGGCGGATTAGTATTGCTTTTAATCCTTTGACCAGGGAATTTCAAACGGCTAATGCTTTGCTCCAGAAGGACAAACGCTGGATCAGTGATATCGCGGAAGTTTTTGCGGACGACTTCTCAAGCTTCAATTTCATTACCGCCTATTCCCAGGCCAATGACTGCCCACCAGACGAAGTGGCGCGCGCAATCGATGATTTGAAGCGCATTACGTCATACGGCGTCGGCAATATCAGCCTGTTAGATGCGCTGACGATTGATCAGGTGACTGAAATCTTTAACCGGATTAATTCACAGGGGACCCGACTATCCACTGCGGACTTCATCATGTCTAAGATGTCAGCGGACACTCTGCATCAAGGCAATATTCAACGAAAAATGGTTGAATATTTCACCAATCTGCAAGCTGACGCGTCGGCGTTGTCTGGTATTCAAGAGTCTGATCCAAAATTTGCACAATCGGCGGCAATGCAGAAGATTGCCTGGATCGTGAGTGAAAACACGACCCTTTATCAACCGACCTTTGGCGATATTTTCCATGTGATTTTGGGCAGCCATTTTGGTCGAGGAAAACATGCAGATCTTGTTGCCCTAATTTCTGGCCGTGATTTTGAGACCAAGAAATACACGGAAACAGCCATGGCGGCGGCATATAGTAAGTTGGGTGAAGGAATTGATGACTTTGTTAATCAGTCAGACTTTCGCCGATTTATTATGATTCTGGAAAGTCTCGGCATGATCAGCGGTAAGCTGCAATTCAATGGCACGGCGTTCCTGAATGCTGGATATATGTTGTTTCTGATCTTGAAAGGACAAAACGGCATACCTCAGTCTGTCCGCGAGTCACTGGTTAAACAGTGGATTATTATGTCCGCTTTGACTGGCCGGTATAGTGGTTCCAGTGAAACACAGATGGAGCAGGATAGTCATCTGTTTCACCGTGCTGATGTCGTTGCAGCAGTGGAAAAAGAAATTGCGGATGCACTGCCAGAGACCTATTGGACAATTCAATTACCGAATAATTTAGCCACTCAAAGTACGCAGAACAACGGTTGGCGAATTTTTCAAATGGCTCAGGTACACAACCAGACCGTTGCCTGGTTGGAAAAGGATGTTACGGTGCGGACCGTGATCAGTCAAGAGGGCAATATTCACCATATTTTCCCCAAGGCGTATCTGCGTAAGCATGGCGCACAACAGAATGAGATCAATCAAATTGCCAATTATTGCTGGTTGACACAACCCCGAAATTTACAGATCAGTGATTTGGCACCAGAACGGTATATGAAGGATCCAGCAGTAACTGAATTTTCGACTGCAAAAGGGTTGGCCGAGAATGCAATTCCGGTTGACATCGTGAACGGCAACTTCTCAACCTATCCAGATTTTCTCAATCAGCGGCGGCAACTCATGGCAACCGTGATTGCCGAGTATTTTTCTCGGCTAAAGCCATCAGCGGTACCGGGACAGAGTTGA
>SRR1151209_01248 hypothetical protein
GTGAACTATTACAACGATTTAGGAATTAATCAGGCAGCAGTCTATACGTTTGGCCCAGCAGATGTCGTACAGACAGTCACCAACTTCATCAAAGATCATCCGCAACGGCGGCTGGCCAGTATGCTTGATCCAGTAGCGATTGCAGGAGACCAAGAGGTGTTCCTGGTTTGGTTAAGCTTTGTCGATCCGGAGGCGGAAATGCAATCACCTTTCGCGGGACAGGACATGCATATCTTTCGGATCCCATTGCCGGTGGATGATTCCTTAGTGGGTCGCACGCTGATGCATGGCGCAACCGTGCGGGAAACGGCCATGAAGGCGGCAAAGGCTGCCTATGAGCAGCGGGTACACAACTATCCAGTCGTGTATGCATTTAAGGATGGTTACATCGTCTGCTTTACCCCCGCGGTTTTCCGGGGCTAG
>SRR1151209_01249 hypothetical protein
ATGCCGGAGATCAGTGACCAAGAAATCAAAGACAATATGGATAAAGCGGCGAGTCTGCCAGTCATGGCTGGCGTTCACTATGGTATTGAACGGCCTGATGAGGCGTGTTTTATCCTGAGGGACGGCACTTTAGTGACTGGTGGTACCGCCTTTTGGTATCAAAAGAACACTGTCGGGGTGCTGCAGTTAATGCTCGGCCAATACGCCAGTGACGACTGGCAGTCCATGGTGCGGTCAGCAGGCCTGGTGGTGATTGTGCCAGGAGAGGGCAAGTACCTGGTTTACGATGATCCGACAGAACGGCAAGAGAGGGTCTTAATGGAATTACAGGAATTTTTTGGGTTTGATCTTGGATAG
>SRR1151209_01250 hypothetical protein
ATGCTCAAAACAATCAAAATGGCTTTCGAAAACACAGAAGTCTTAGAACTACCGGCAGATATCATTGATCTCCACCTGACCCATATTACCGAATCAGCGTTTTTGTTCCACCCCGATTATGGCTCAGCACATGAGTCATTCACTAAGAAAATCGGTGAAGGCTACGTGGCGATCCGCAAGGACTGGTTCCCTGCAATCGCGCGCCGGGCCATTGTGGCGGAACGAACCAAGTTGCCAGATGCGTTGGCAACACAGACGCTGGCGGGGCCATATGTATTGGCGCAAAATGTCAAAGACTGGGTTGCGCAAGGACTAACCGATGACGAGATTGTGCCGCAACTCGTGGACCGGTTGACAGATCATTTTGCCCAAGGTACTCCGGCGGATCTCACGGATTTAGAGTTGATTGCAGATGGTGCACCGACTAGGACTCTGGAGCTGCCCTGGCTGGACATTCGAACCAATGATCCATATTCCTGGAGCGACAATCATTACGCCATCAATTTAGAGACGGCGGATCAGTTCGTTGTGCTGTTTGATGGGAATGATCCGCATTTCCAAAATCGTGGTCGGGAGAAAGCAGAGGAGATGGGGTTTGATTTGATTTAG
>SRR1151209_01251 hypothetical protein
ATGTATAAGAATCGGCCCTTGGGACCCTATCGCACGTTGCCTGAGCTCACGGCCAACCAACATTTGATTGGCGATCGCTATGCCACGAGAACCGGCTTGCTGAAGCGGTATCGCGTTGAGTATCGGCCGAACAAGCACGGGGCTTTCTCCGATTCACTGACGTTCCATAAGCGCTTTGAGAGAAAACTGCTGGCTGTGTTTCACGAGATGTTTTCCCAAGCCACACCCGCAGACAGCCTTGCGTATCGGAATTACTTGCGCGGCTACGTAGGTAGTTGGGACTACATTCATCTGTTTTTGCTGGCTGAATCGACCATCCGCCTGCACAAGCATTTTGGCGATACGTTGACCGCGGCAGAACAAGCCTACATGGATGTCCACGCCTCAATTGTGAAACATGATGACGCGATTTTGGAAAAGCCCGAACCAGGCGCCTACTTTGATGAGGAATATCGATTGAACCAACAGCAGGCCCGGACTCTGTTCGACTTGATGCAGGCCGACGTCAAATACGCCATTTTGGCCAAGATTATGATCACTGAGTTAGCTTGGGCCCAACAGACGCACGTGGATGCTGACGATACGAAGCGTGACATGCACCGGTTCATCTCTGGCTACCTCGTACCGCGCATGATCTACGGTCCGCTGGCTGGGCCAGAGGCCGAAACTTGGCGTGAGTTCTTAGCTGACCAGATTGCGGGGTGGTGGGACTAA
>SRR1151209_01252 hypothetical protein
ATGGCAGACAGAAAACCGACACCCATCGCCAAGGTTTATGAAGCCTTGAGTGCTGTTGCAGATCAGCGGGTCACGTTCCCGACGGAGGAGCCGGGCGAGGCCTTGGTGGTGTCGTCGGATCATAGTAAGCAGTATACGGTACGCTTTGGGGACGGATTTTATTCGTCCAACGATAACGCGACGTATTGGCAGCATTACGCCGGGTACCCGATCGTGGCGGTGCTGATCGAGCAGCGCAAGATCGGCTTGCCCAGCAACTCTAAGAAAACTGTGCAGGCCTTTGCCGGTGTGAACTGGAAGGCACTGAATACGGAGTATAAGGACGATTACGCCAAGGCAACGGCGGATTTTCTCAGCACCGCGGATGACCCTAAGGCACTCCAGAAGCTGGTACGGATCGTGGCCGATCAGCTGGGGGCTTTGGACTTCGCAGTTAAGGGGAATCGGGCTAAGATGCGGCAGCCTGAGTACTAA
>SRR1151209_01253 hypothetical protein
ATGTTAGCTTTCACCGATTTTGGCCGGCATTACACCCAAACGGAACTGGCGCGGGCCAAGGAACAGAAGCACCCAACTGTCCACGTTTGGCGCGGAGAGCAGGCTTTCATTAGCTTCGCCGTCGGCCCATTAACGAATGGCAAGATACCTGACATCAGTATTGATCTGCCGACCAATTGGACTGTCGAAATCGGCGTCGTCCGAGAAACGTCGGCATACATCGGGCGGGGGATGACGTGGGGTGAGATTCCTGCTGGACCGAACAAGCCGGCTCCGGATTATGTTCAGCCGCTGGTCGACTTACAGACACCGCCAGCACCGTATCTGAATTGTTTGGCCGCGATTACCGTGCCTGCCGAGGCCTATTCGGAGTTGCCGGTAGAGACCGTTATTCAAGTCGGGGAGGAGACCTTGCCCCTGATTTTGCAAGTTGGTGGGCCGGGCGCAATGCCCCTCGACCCGCAATTGTTCAGCTTGGAATTATGGGAATACCCGTATGCTGTGGCACGTTTCTACCATATTCCGGCGGATCAGCTCTTCGGCCCAGAACACGAGCGGCTGACCAAGGAAAATTTGCAGAAATATAGCGCAATGGGCGGGCATTCGATTACCACGACGATTGTTGAAGATCCCTGGCATCACCAGACCTATGATGCTTATCCCAGTTTGGTGCAGTGGACCCGGGCAGCGGATGGCTTCCATTTTGACTACACAAATTTTGATCGGTATGTGCAGTGGAATCTGGATCTGGGCATTGACCGCAAGATCAAGTGCTTCTCAATCTTGCCGTGGGAAAACGAGATTAAGTACCGGGATGCGCAGGGGGCGTGGGTCACTGAAAAGCCGGCAGTAGGTTCGGACCGCTGGCGGGCGATCTGGACGGCTTTCTTAACTGACTTCATTGGCCATTTGAATGAGAAGAAATGGTTCGACCGGACATATATGGCGCTGGACGAACGGCCCATAGATGAGATGAAGACCGTGATCGATTTTCTGAGTCACTTCAAGACTGCGTCAGGGCAGCCGCTGAAGCTGTCGGGCGCGGTGAATTACCAGACGGTGGCGACGGATGTGCTGGATCATTACCAGGATATTTCGATCAATCAGGCTGATATTGGCGATCCCCATGCGTTCAAGCAATTCGTGGCGGACCGGCAGGCGAAGGGGCTGGAGACGACTTTCTATAATTGTGTCGGCAATTATCCCAGCATGTTTGCGTTGAGTGAGCCGATTGAGACCGCGTATCTGTTGTGGTACTTCGCGTCGTTAGGCGTGGATGGTTTTCTGCGCTGGGCCTTGGACGGGTGGGTTGAAGACCCCTTCAAGTCAGTCAATCATTGGTATTGGGAAAGCGGTGATCCGTTCTTGCTTTATCCGCACCGGGAAGGCGATACCGCGCCGTATCTGTCACCGCGGATCATGATGATGGCCCACACATTAGGCCAGATTCGCCAGTGGCGCTTGCTGGCTGCGAGTACGGCGACTCAGGATACACCTGGGGTGAAGGCACTGACGGCATATTTGGATACGCTGATTGATACACCTTTGCCGGCGAAGACGGTGAATGCGTATGGCGCCGCGGTCGGGGTGGATGAAAATGCGGACCGGCAGTATATGCACAAGACGGTGGCGAAGATTGAGGCACTGCTGGCGAGAGCCGGGATGGAATAG
>SRR1151209_01254 hypothetical protein
ATGGTAATCAGTGATGAACAATATCGGCAATTTCGGGTGCGGACGCACCACTTGGACCAGCGATTGCCGGCCCAGCAGCTATTAACTGCGGCGGGTACGATCGGCTTCCAGAATTCGCCGCCGGGAGCGTGGGAACAGGCGGTGTCTAACCGGATAGCGGATATTGCCGCGGCAGAGTTGCGAGCGATGTTAGAGAAGCAGAAATCCTTGCTTCAGGCTTGGAGCTTTCGCGGAGCGCCGGCGGTTTTTCCGACGCAGGATGCAGCTGTTTTTCTCAACGCCTTAGTGGCTGAAAAGAATGAAGGCCCTTGGATCTATACGGCCGGACTGGTACCGTCGCTGCCGCAGCTGGGGATTGACTACACAACACTGCTAACCGTGGTCGGCCAGGCGACCAAGGCCGTTCTGGCGGACAAAACAATTACGGGCAAGGGCCAGTTGGATGCAGCGATTGCTGATGCGGTGGCGGCTGACTTGCCGGCAGCGAAGCAGGCGGCGTGGCAGCAGCCGTCGCCTTATGGGGCCAAGCAGACCCTGGGTGAGGCAGCGGTGTCTTTCATGCTGCGGCCGGCCAGCTTTCAAGGCCTGGTGGTATTTGGCAAGCGGTCCGGTCAGTCGCCATCGTTTACCAGCCCCCAGCATTGGGGTGTTGACTGGCCGCAAGAGTCTGGGGCGCTCCGTGAGTTAGCCTGGCGGTATGTGCATGCTTATGGACCGACCAACCGCCAAGAGTTTACCAAATGGCTGGGCTGTTCCACTGCGCAGGGGCAGCGGTTATGGGCTTTGATAGCTGGTGAAGTCACAGCTGTTGACGCGGGGAGTGTGCTGACGGCCGATTTGTCTGAATTTCAAAAAAATGCCAGTCCTACTGGTACCTTGCGGCTGCTTGGGCCCCACGATCCCTATCTGGACGCGAACGGCCGGGACTTGCTGCTGCCGGATAAGAAATTGCAGCGTAAAGTCTGGCGGACGGTGGGAAATCCGGGAGCGGTGCTGCTTGATGGGCAGATTGTCGGGGTGTGGCGGCAGCGGAAACAGGGAAAGCAATTAAGTATGACGGTGGATAGCTTTAGACCGCTGACCGGTGAATTGAAGCAAAAAATCACGGAACAGGCGGAGATGTATGCCGTCTTTCTGAAAATGGCGTTGAAAGAGCTTTTGTATCAGTGA
>SRR1151209_01255 aspartate ammonia-lyase
ATGCACTACGAAGAAGATTGTATTGGGAAACTCGCAGTGGCGGACGATGTCTTGTACGGCATCAACACCACGCGGGCATTGCACAATTTCAATATCACCACGGAACGCACGGACAGCCTAATTTTCCAGAGCATGATTCAGATCAAGAAAGCTGCGGCAGTCGTTAACCACCGCGGCGGAACATTGGCCGAGCAGAAGGCGAAGCTGATTGTCGCGGCCTGCAACGCGCTGCTGTTGGGTCAGCACCAGGATGATTTGGTCGCCCCGGCCATTCAGGGCAGTGCCGGCACCTCGGTGAACATGAACGTCAACGAAGTGATTGCCAAGTGCGCCATGCGTATGGCGGACGGCGTGACGATTCTGCCGAATGATGACATCAATCAATGCCAGTCGACCAATGATACATACCCGACCGCGGGCAAGATGGCGATGCTCAAGGCATTGCCGCCGCTGCTGCAGAATATTGAGAAAATGGTGGCGGTGCTGCTGGATCTGGCGGATCGCTATGCCAATGTTCTCAAAGTGGGCCGCACGCAGCTGGAAGACGCTGTGCCGACCGTTTACGGCCATACCTTCCATGCCTATGCGTCGCTGTTCCGCCGGGATTTAACTCGCCTGCGGACTGCCGCCGAGGCGTTGCAGCAGATCAATCTGGGCGGGACTGCTATTGGCACGGGCCTGAACGCCACCGATTACTACCGCACCCACGTCGTCGAGGCTTTGAACGGCATCAGTGGTTTGAAATTGGCGCTGGCGGACGACATGATTGATGCGACCCAAAATACCGATACCTATGTGGCCTTCTCCGGCGCCATGAAGGTGCTGGCGGTGGACCTTTCTAAATTCTGCAACGATCTGCGCCTCTTGAACAGCGGTCCCCAGGCCGGCTTCGGCGAACTGCGGCTGCCCGCGAAACAGGCCGGGTCGTCGATCATGCCCGGCAAGGTCAATCCGGTCATTCCCGAAGTCGTCAACCAGGTGGCGTTCCAAGTTATTGGCCAGGACGTGACCATCGGCATGGCGGCGGAAGCGGGGCAGCTTGAGCTGAACGCTTTTGAACCCATCATGTTCCGCGACCTGCTGCAAAACGAGCGGTTCTTGACCCAGGCCATCGACACGCTGGTGCACAATTGCTTGAACGGGCTGACGGTGAATGTGGAACAGTGCGAAAAGAACGTCCGCCACTCCGCGGTCAGTGCCACAGTGCTGAATCCCTATCTGGGCTATGCTCAAACCACGGCGCTGGTGAAGGAAGCGTTGGCGAAGCAATGCGACATTCAGACTTTGTTGAAAGAAAAGAAAATTCTCGCCCCCGATTTGGTGGATCGTCTCTTTTCTCCCGAAGTGATGACCAACCAAGTTCCGACGACCGAATCACGATTCGTCGCGGAGCGCAGTTCACTGCAGCCCCGCTAA
>SRR1151209_01256 rRNA methyltransferase
TTGAATATCAAAGTGATTGGCGTGGGCAAGCTTAAGGAGAAGTACTTCAAGGCCGGCATCGCGGAGTACAAGAAACGCCTGGACAAGCTGGCCAAGGTGCAGATCGTGGAAGTCGCCGATGAGAAAGCGCCGGAGTCATTGTCCGCAGCGGAGATGGCCCAGGTGAAGGAGAAAGAAGGCAGCCGGATTCTGGGGAAGATCAAGGACAAGGAGTATGTGATTGCCCTGGCCATTGAGGGCAAGCAGCGCAGTTCTGAGGCCTTTGCCAAAGAGATTGCCGACTTGGGCACCTATGGCCATCCTGATGTCACCTTTGTGATCGGCGGAACGCTGGGGTTGAGTCCGGAGGTGATGCAGCGGGCCAATGATACGCTGAGTTTTGGCAAGTTGACAATGCCGCATCAGTTGATGCGGTTGGTGCTGATGGAGCAGATTTATCGGGCGTTTATGATTAATATTGGGAGTCCGTATCATAAGTAG
>SRR1151209_01257 histidine triad protein HIT
TTGACCAATAATTGTCTGATTTGCGACCGTATCAAGCTGATCCAAGAAAACAAGAATCCATACTTTGTCCGTGAGCTGAGTACCGGCTACGTCGTACTTGCTGATAGTCAGTATTTTGAAGGTTACACGATATTCTTGAGTAAACGCCACGTCACCGAACTTCACCAGTTGGCATCAGCTGAGAAATTGGTCTTTCTGGAAGAAATGAGTTTGGTCCAAGAAGCCTGCGCCAAAGCATTTCACGCAGATAAAATGAATATTGAGCTGCTTGGCAACGGGGATGCGCATGTGCATTGGCACCTGTTTCCGCGGCATAACGGTGACACGGCACAGGCCGGACCGGTTTGGTGGACACCGAAAGAAATCATGTACAGTGATGATGTAGTTAAGGACATGCCGCGGTTGAATCGGTTGAGAGCTGAACTAAATGCGGCTCTTGATGGTGTACTGGCTGCCCGTGACTCTGAGGTACAGGCGGTGCGTGAGCTAGCCCTTGATTGA
>SRR1151209_01258 transcriptional regulator
ATGAAATTCGAAGACCAACTGCGTGACCAGCGGCGTAAAGCCGGGCTGTCGCAAGAAGAATTAGCTGAAAAGGTCGGCGTCACGCGGCAAACTGTTTCAAAATGGGAAACCGGCCAGGCTGTACCGGAATTAATGAAGGGGAAGATCCTGGCTGATTTGTTTGGCCTAACCTACGATCGATTAGTGGGTAATGATGTCACCGTGGACAATCCGAATTGGGAACAGCTGTCGGACCAGATTGACTGGACCGGCGCGTGGGCAAAGAAGTATCCGATCCTTCAGGACTATCAGCACAGGACGAAGGCTAGGATGCTGAGCCAAGAAGTTGCCGATCTCTATGATTGGGTGGGCAAAGAACTCGGTCTGAGCGATTTAGATACATTCCTGGTTGTCAAAGACATGGTGTACCAGCATTATCGGACCCACAGAAAACCGGCGGAAAAGTAA
>SRR1151209_01259 RNHCP domain protein
GTGAATCGAGAAAATAAACGAAAACAATACGCTAAAGGCTATTACAAAACACACGCGAACAACGACAGCTTCACCTGCAAAGTCTGCGGCCGGCCGGTCATGCCCAATGGGGCGGGAACGGAGCAGCGCAACCACTGCCCGAACTGCTTGAGCAGCTTGCACGTCGACAACGAACCCGGGGATCGGCAAGCCAATTGCGGCGGCATTATGGATCCCGTGGCCGTGTGGGTGAGAAAGGGCGGCGAGTGGGCGATCATTCACCGCTGCCGGCGCTGCGGTGCGTTATCATCCAACCGTATCGCGGCGGACGACAATCCGATGAAGCTCATGTCAATTGCCATGAAACCCGTGGCAGACCCGCCGTTCCCGTTGGATAAAATCGAAGAAATGACGGCCTTAATGGCAGGCGACGGACAGTTAAAGTTCTAA
>SRR1151209_01260 prolyl aminopeptidase
ATGAAAATTCAAGAAGGCTACATGCCGTTCCACGAATACAAAACATATTACCGCATTGTTGGCGAACCCAACCCGGATAAGGCACCGCTATTGCTGATCCACGGCGGTCCTGGATCCTCCCACAACTACTTTGAGCTGCTGGATGACTATGCCGAGACCGGTCGGCAGCTGATCATGTATGATCAAGTGGGTTGTGGGAAATCGTCTTTGCCGGAGGACCCCAAGGTGTACGTCAAAGAGACGTGGGCTGAGGAATTGATTGCGCTGCGCAAGTATCTGCACTTGGATGAGGTGCATATGCTGGGCCAGTCCTGGGGCGGTATGCTGGAAATGTACTATTTGACCAGTTTTGATCCCCAGGGAATCAAGAGTGTCATGATCGACGGGTCGCCGTCGTCCATTAAGTTGTGGATCAAAGAGCAGCATCGGCTGATTTCTTACCTGAGTTACGAAGATCGCATGGCTATCGCCGAGGCGGAGCGGACGGGTGATTTCAAGAACGTGAAGTATCTGGCGGCGAATGACCGCTATATGGAACGGTATTGCTGGGATGATCCGGATGAAAACTCACCGGAGCCGCTGCGCCGGCCGACCAATGGCAAACGGGCGAGTTTGATTGCTGAAGGGCCTAATGAGTTCACTGAAAATGGCACGATCAGCGACTTTGAGGTCACGGACCAGCTGCACAAGATCCATGTTCCCGTGCTGGTGACTAACGGGACTGATGATCTGTGCACGCCGCTGATTGCCAAAACGGTGTATGACCATATTCCGGGGGCCAAGTGGCACTTATTTGCCAACAGCCGGCACTTGGCGCTGTTGGATCAGCATGATGAATTCATCAGTGTACTGGATCATTGGCTGAAAGAGAATGACTAG
>SRR1151209_01261 XRE family transcriptional regulator
ATGACAATTGGTCAACGGTTAGCGGCCGCTCGGCAACATGCTAACTTAACACAAAATACTGTGGCGGCCGAGTTACATGTCGCCCGGCAGACTATTTCGAGTTGGGAAACTGAGCGTACCTATCCTGACATGACGAGCATAGTCGCGCTGGCCAAGTTGTATCGCCTCTCCTTAGATGATTTAATTCGGGAGGATACTGATTTGATGAAAGCATGGACAAAGAAGGACGCTGCCTTACGTGAGGCGCGTGTGCTGTACCGGGTATCAATGATGTTAGATGTGGGTTTCATGCTGCTCTTATTGGGACTTTGCATCAATGCGCCGGGGTTTGCCATGGATGACGGGGTGGGTTTGCTGCTTTTATTGATGGCCTTCACCAACGTCTTGGCCTTGCCGCGAGCTCGGCGATACTACCAGACAATGCAGGCTGAACAATCGCTGCCCAAATGGGTGTGGCGGACTGTTGTATTCAGCTTGGTCGTTTTAATGATTGTGACTCGAATCTTGCACTTTCGGTATACCATCGCTGTGATTGGTATTGGGTATGCTGTTTTTGCAATGGTTATGTTTTGGCCCGATATGCATCGGCCGTTTCGACGCCATAAAACAGCATAA
>SRR1151209_01262 XRE family transcriptional regulator
ATGATGACGATTGGCCAACGGCTGGCGACGGCCCGGCAGCATAGCGAACTGACGCAAAATGATGTGGCGGCCGTGCTGCACGTGACCCGGCAAACTATTTCAAGTTGGGAAACTGAACGGACGTATCCTGATATTACGAGTTTAGTCGCCCTGGCCGAGCTGTATCACCTCTCCTTGGATAACTTGATTCGGGAGGATAAAGATATGATCAAAGCATGGCAAGATAAAGAGGCAGCACTACGGGACGCGGGAATCATGTTCCGCGTGTCACTGTTGTTGGACATTGGGTTCATTTTGTTTCTCGTAGCGGAACAGTTGGCCGTACCGGGCTTTTCGACCAGTCACGGGCTCAGCTTGTTACTGGTTCTGATGACTGTGACCAACGTGTTGTCATTACCTCGGGTCGGTCGCTATTACCGGGCGTTGCGCGGGACGACTAAGAAAAGAAATCTCTGGGCGCCGACGCTACTGGTGCTTGGTCTGGTTGGCTTGATTGGTGTGCTTAAGTGGACGGCGTGTCCCTATTCGCCAGTCATTATTGCGGCGGGGTATGCCGGTGCCATGGTGCTGCTTTTCTGGCCGTATTTCAAACGGCGGTAA
>SRR1151209_01263 hypothetical protein
ATGCGTATTCTATTCACTATTCTGGTTGTCGCCTATGCCGGATTAATGGCAACGGCCGCACTCTTATCGCGACACAAAATCCCAGCCTGGCTGATTGTCGGCACATTCGCGTTCAGCCTCTGCTTGCTAAGCGGCCTCTTTTGGCCATGGGCCATTCCCCTCGGCCTGGCCGGTCTGCTCGCTGCCGCGGTGGGCAACGGCCTGGCGCTCTATGGGCATGTCCATTGGCCGCATGTATTGGTGCGCGTTCTTCTTTCTGTCATTATACTTGGCTTGTGGTGGAAAATACAAAGGAACTGA
>SRR1151209_01264 zinc-responsive transcriptional regulator
ATGTTGATCGGTGAATTTATCCAGAAGCATCAAACGACGAAGGATACCGTCCGGTTTTATGTCCAAGAGGGGTTGCTCACGCCGGTGCGGCGCGGGCGGAATTATTGGTATTCGGCTGCGGATGAATCAGATTTCGACCAGATCAAGACACTGCAGCAGATGGGATTCTCGATTTCGGCCATCAAGCAAATCCGTGAGCAGCACGAAAAGCATTGCGGTACAACGGAACAATGGCAGTTCAATCTGCATTTGATTGACGACGAGCTGGCTGAAATCAGTGTGCAGGAAAAGCAGCTGGCCGACCGGCGGGCCGGACTGACCGATTTGAAAGAACAACTACTGGCGCTGCTGGACTCAGCAAGCGAAGGAGGAGAAACAACGATATGA
>SRR1151209_01265 GNAT family acetyltransferase
ATGATTACCTATACCTGGCAAAACGACTGGTCTCAGGACCACATTACCGCCCTCTATCAATCGGTGGGCTGGCAAGCATACCTGCAAGACGTGGCGAAAACCCAGCGGGCCCTGCGCGCATCAACTGTCTTAGCCGCGGTGGCGGATGATGGCCGGTTAGTGGGGCTGATCCGCGGCGTGAGCGACGGCGAGACGATTCTGTATATTCAGGACTTGCTGGTGCGGCCGGAGTTTCAGGGGCAGCACATCGGCTCGACCTTGATCCGGCAGTTTTTAGCAAAGTATCAAGATGTAGGCCAGATCATGCTGCTGTCCGAGGCGGAGCCCAAGACGGTGGCTTTCTATCGGTCGCTCGGTTTCTCGCCGGTCAATCCCCAGAGCTATGGCACGGCGCTGGTGAAGGATAGCCGTTATTAA
>SRR1151209_01266 AraC family transcriptional regulator
ATGATTCAGCACGAAAATGTCCAGGTGGTCCCGCGGCTGCCGTTTAAATATTATGTCCATGATCCACTGACCGCGATTGACGTAGCACCTCATTGGCATCAAGGGATTGAGTTGAATTATCTGGTGGCGGGAGCGACCTTGAAGTTTGTGACGGACGGCCAGACAGCGGAGTACCAGCCTGGGGATATCTGGGCCGTGAACCGGCGGGCCGTCCACAGTGCCACCGGGCCGACAACGGCTGAGTGGGACGAGTTCGGACTGATCATTGACGATGACTTTCTCCAAGCGCAACTGCCTGAGAGCGTGAATTGGCGGATCACTTTAGCGGGGCAGAAATCCCAGGCCGCAGCCCCAGCAGCGTATGCCGCCCTGCGCCGGCATTTATTGGCGATTCACGATCAGCTCGCCAAAGGGGTCACCGATGTTGCCCGGTTGGCGATCTTGAGCGAGTTTTATGCTCTGCTGGTGGTTTTACAGGCACATTTCACCGTGCCGTTAGCAGCGGCGGATATTAATCCTAATCCTAGCCTGACTGACACGGTGATGACTTACATCAATCGCGCCTTTGCTGAGCCGACTCTGAGCGGTGCGACGCTGGCTAAGCAGTTCAATGTATCGCTGACGACTTTGAACCAACAATTCAAAGTGAACTTGCAACTGTCGGTCAATCGTTATATCCGCTTGGTGCGGTTGATGGCGGCGCGGCGGCTGTTGCTGGAGACCAACAAAACAGTGGCGTATATTGCGGCTAGTTGCGGCTTTTCCAGTGATAAGACGCTGAATCGCAACTTCAAGGCGTGGAAGGGCCTGACCCCCAGCGATTATCGCCAGGCATTCGCCCGTTATCACAAAAATGATACCCACAGCTTTTAA
>SRR1151209_01267 sugar O-acetyltransferase
ATGGCAGCCACAACAGAACGTACCTTGATGCTTGCTGGGAAACTTTATAATTCTAATGATTCGGAGCTGATCGGCTTACGGAAAAAAGCCCAGCAGGCGATCTATCGCTACAATCAAACAGCACCAGAGGACGAGGACGCACGTGAGGAGATTCTGACCGGCCTAGTGGATTGTCCCAGTGGCGATGCCCATTTGGAAGTGCCGACCCGCATGGATTATGGCGGCAACTTGCATTTAGGCCGCTCGTTCTTCGCTAATTACGGCAGTATTTTCTTGGATGTCGCGCCGATTACGATTGGCGACAACGTGATGTTTGGGCCCGCGGTCAGTGTCTATACAGCGGGGCATCCCGTGGTGGCTAGTGTGCGCAATGAGGACCTGGAATACGGGCATCCGATCACCATCGGCAACAACGTTTGGATCGGTGGCAATGCCGTGATTTGTCCCGGGGTCACGATTGGGGACAATGTCGTCATCGGGGCCGGAGCAATCGTCACCAAGAATATTCCAGCGAACGTCATTGCTGCCGGCAACCCGGCCCGGGTGATTCGACCGCTGACGGCGAACGATGAACGATTCTGGCAAGGTGAAAAGCAGGCCTATTTGGAGGCAATTCACCATGATTAA
>SRR1151209_01268 haloacid dehalogenase
ATGATTAAGTTGATGGCCACCGATATGGACGGCACCTTTCTCCGGCAGGACATGAGTTACGACGATGTATTATTTGCCCGGCTGCATGCTGAACTGCAGCGTCGCGGCATTCGCTGGGTGGTTGCCAGCGGTAACCAGTACTTTCAACTACGGTCGTTTTTTCAAGCTTATCCCGACACGATTTACGTAGCCGAAAATGGGGCGTATATCCGCGATAGCAAACAAATCTATGCCTTGAATGCGTTCACCCCGGCGGCGGTCCAGATGATTTTGCCCGTGGTCCAGGCCTTGCCGGACGTGAAACTGTTGGTTTGCGGGCAGAAAAGTGCCTATGCACTAACGACCACCGATCCCGCCCACGTGGCCGCTGCCCGCCACTATTACCACCAGCTCAAGGTGATCGACAGTTTTGACCAAATCGACGATCAGATCTTGAAGTTCGCGCTGACCTGCCCACCGGAACAGACCCAAGCGCTGGTTGACCATCTGCGGGCAGCGCTAACTGGGGTCGCCGAACCGACCAGCAGCGGGCACGGGGACATTGATGTGATCCAGCCAGGGATGAATAAGGCCGCCGGCTTGCAGATCCTGGGCGACACCTTGGGTATTGCGCTGGCCGATATGGGTGCGTTCGGCGACGGCGGGAACGATCTGGAAATGATCCGGAAAGTCGGCATGGGAGTGGCCATGGCCAACGCGCAGCCGGCGGTTAAGACTGTGGCCGATGCGATCACCACGACGAATGAGGCACAGGGTGTGCTGCAGTTCATTGATGACTGGCTGGCTGTACCGCAATGA
>SRR1151209_01269 major facilitator superfamily transporter
ATGAGCAAGCCGACTGGATTGACGACTGCGAGCATCCTCAGTATTTCGCTGGTCGGCGGGGTGTCGACACTGATCACTGGCATTCTGCCTCAATTGGAGCGAGAGTTCGCCACCGTGTCCACGACGATGGTCGAATGGCTGGTGACAGCGGCGAACATCAGCGCGTTGGTGACGCTGCTGGCGAATCCGTACCTGACGCGCCGCTGGGGAATTAAGAAGGTTGTCGTGACGGGCCTGTGGCTGGCGGCACTGACTGGTGTGATTCCTTTGTTCACCCATGTTTATTGGCTGGTTTTGCTCAGCCGATTGGCGTTAGGGCTGGGTATCGGCCTGTTTTCGCCCCACGCCATCGGCCTGATCGCCCATACGTATCACGGTGAACTGCGCGCCAGGCTGCTGGGCTATCAGACCGGCCTCGGTGCACTGGGCAACGCGCTGTTTCTCGCGTTGGCGGGTCTGGTCGTGGCCTTCAGCTGGCGCAATGTCTTTCTGCTTTACCTGCTGCTGGGCGGAGTGGCGCTGCTGGCGTCGGCCGGGCTGCCGGCCAGCGAGGCAGCGGTCCCGGCGGATCAGTTGGCGGTTAAAAAGCTGCCGGTATCCCGCTGGCTGCTGGTCGCGTTGGCTTTCGTCACCTACCTGCTCATTTGGGGGGTGCAGCTCAAGCTGCCGTGGTTATTCCTGGACCGCGCCTTCGGCAGTGCCGAACTCGCCAATTGGACCCTGTCGGCGATGAATATGGGCGGACTGCTGGCGGGATTGACGTTTGGCCGGGTGCACCGGTATCTGCATCAATACACGCTGACCTTGGGATACGCCGGCGCGGCCTTAGCGGTAGTATTGCTGTTGACGACCGCCAATACACTTGTCGCCGTGGGCAGTGCGGTGTTCTTCAACTTTATTTATTCCTATACCGGCCCCTATCTGGTCTATCGCAGCCAGTTGGATCTGCCGCCCGCGCAAATTGATGCCATGAGCAGCTGGCTGACCATCGCCACAGTAATCAGCGCCTTCTTCGCGCCGCCGGTATGGAACTTTCTGGGCGCGCTCGGGCCTGGTACCGTAACCACCAACGTGCTCCTGTGGGCCGCTGGCCTGCTTGGACTGATCGCGGTGGCCGTCACGGCGTTCTTCCGCCATCAGCCCCAACCAATTCTAGAAAGAGGTAATTCCCATGACCATTAA
>SRR1151209_01270 sugar phosphate phosphatase
ATGACCATTAAACTGATTGCACTGGATATTGATGATACATTACTGAATTCCAAGGGAGAAATCCTGCCCAGTACGATTGCGGCAGTGCACGATGCGCTGGCCCAAGGAATCAAAATTGTGCTGTGTACCGGCCGACCGCTGGCGGGAGTCAAGTCCTTTCTTGCCCAGCTGGGCATCGCCGGCGATGATCAGTATGTGGTGACATACAATGGCGCAATTATTGAATCCGTCGCTGGTCGGGTGCTGGTCAAGCATTTGCTGGATCGGGCGACGTATGTCCGCTTGACCGAGTTTGCTGCCGCCCACCATGTGCCGTTCAACGTGCTGGACGAGCACAGCACAATCTATACCGCGGACCGGGACATCGACTTTATGACGGTCGTCCAAGCCATGGAGAACTCAGCCGGTATGCTGGTGCGTGATCCGGCAGAAATGCCGGCGGACTTTGCGATTGCCAAAGGACTTTTTGTTGGGCGTAGAGCCGTGCTGGACGCCGCTGAGCCCGCGGTGATGGCGGAATTCGGCGACGATTTCTATGCCGTCCGGGCCAGTCCGAATTTCTTGGAAGTCATGGCGCCGCAAGTGGACAAAGGCAAAGGATTGGCCGAGTTGGCTAAACAACTGGAAATCACTGCGGCGGAAGTGATGGCCGTCGGCGATGAGGCCAACGATCTGCCGATGTTCAGTTTTGCGGGGACAGCAGTCGCTATGGGAAATGGTTCAGAAATTGCCAAAGGCCATGCGGATTATGTCACAGGAACGAATGACGCGGGCGGACTGGCGGATGCAATTCGTAAATTAGCTTTAGCACCGGTGAAAAACTGA
>SRR1151209_01271 hypothetical protein
ATGACAGAGGTGACGAAGACCTTGTATCTGATCAGCGGACCGATGGGGGCTGGTAAGACAGCCGTTAGCGAGCAGCTGATCAAGCAGCTGCCGCAGGCGGTGATGCTGGACGGCGACTGGTGTTGGGCGATGGATCCATTTGTCGTGAACGACGCGACTAAAGCGATGGTGATGGACAATATCCAGCACTTGCTGAACGCGTTTATTCAAGCGCCGGATCTGGTCAACATTGTGTTTTGCTGGGTGATGGACGAGCAGGCAATTATTGATGATGTGCTGGCTGGCCTGACCATGCAGGGCGTCCGGCTGGTCAACGTATCGTTAATGCCCAGTGCAGAGAAACTGACTCAGAATATTACTGCTGATATTCGCGCCGGGATCCGAACAGCAGATGCTATTCCGCAGGCCATTGCGCGGCTGCCGAAGTTTGCCGCCGTCAACAGCATCAAGCTGGATACGACGGATCTTGTCCCGGCCCAAGCCGCGGCAATGATCAGCAAGTTACCCCATTAA
>SRR1151209_01272 hypothetical protein
TTGTCACTGACCACTGATCAAAAAGAGGCCATTCAGGAATCCCTGCTGGCCATCGACGATCCATACTACCTGAATACTTTCACCAACGCCGCCGATGAAGACGAATGGTTCCGACTCAACGAAGCGTATATTCAAGATGATCTGCAACGCTATATGCCCGTTGGGATCAACACGCACACACCGGCAGTATGGCGCTGCATCCGAGAACTGCTGCGGCAATTCTCAGCTTAA
>SRR1151209_01273 MarR family transcriptional regulator
ATGGTACTCAACACGTTCCCCGGCGATATTGCCCAGGCATTTTCGGTCATTCACCGTGCTTTTTTACGTGATACAAAACAAGAATATGCCGCACTGGGGTTAAACCCTACCAGCGCGTATATTTTGCTATATCTGGCCCAACACGGTCCCAGTACTCAATCCACATTGGCGCACGCGCTGATTATCGATAAGGGGCAAATTACCCGTGAAATAAAGAAATCGGTGACCCTCGGCTTTGTCACTAAAACTGTTTCAACTACTAATCGCACCGCAAACATTGTGGCAATTACTGCTGCTGGCAAAGCGATACTGCCCACTATTGTCACCATTCGTAATCAGTGGTGGCAAACACGTCTAACGCGCAATCATATCCAACCCGATGCGCCATTTGTACAAAGTATCGAAAAAATACAGGATGAGTTGATTACCCATTAA
>SRR1151209_01274 permease
TTGGCTGAGGCATTAATCAGCTCATTGCTGCCCATTGTTGTGACGTTGTTTTTGGGCTTCTTCGCCGGATGGCGTAAGGACTTTGGTGAGCAGCAAGCTGGTAGTTTAAATCAATTGGTTATGGATTACACTTTGCCGTTAAGTTTGTTTGGCGGTATTATGACGACTCAGCGCGCGGCAATCTTTTCTCATTTAGCGGTTGCCGGCTGGCTGCTGGTGGCAATGGTTGGCGGATATCTTGTTGTTTTGCTCATTGCGCGTTTTATTCTGCATCAGTCCACTGCATTGGCGGCGTTGCGGGCGTTAGCAATTGCGGGGCCAGCGATTCCCTTCGTTGGACCGACCATTCTAGGGTCACTTTTTCCCAGCGAAAGCGCACTGTTGATTTCTCTTGGTGGTTTAATCATGAATATCATTCAGGTGCCATTCACTGTACTTATGCTATCCACCACGAGCAAACAACATACTTCTGCCAGTGCCAATTTGCTTGGTGCGATGAAGAAGCCTGTTGTATGGGCCCCAATTCTGGCATTTATCATCGTTTTGTGCGGTGGTCAGTTGTCGGCGGCCTGGGCCAAAAACTTCACGGTCCTAGGCAGTGCCACGGGTGGTTTAGCACTTTTCTCTTCTGGGATTATCCTGTTTACGAAGCAGCCTAAATTATCGTTGCCCGTGTGGGTCAATTCGTTGGCCAAGGATATTGCACTGCCAGCAGTAATGTTTGTCATTATGCTGGCTGCGCACACCCCGACATCAATTTTGAACATGTCTTTGATGGCGATTAGTATCCCGACTGCGGCCATTGCCACTATTTTTGCCAGCCAATATCACTTGGCCGAGCAGGAAATGGCCTCAACTTTGTTCCTGAGTACCATTCTTTCAGTAGTGACAATGGGGGTTATCATCGTCGTTCGCAGCATCTGA
>SRR1151209_01275 acetolactate synthase large subunit
ATGGAAACAGCAAAACAAATTGTTAAAGTTCTTGAGAACCGAAACGTTAAATACGTCTTCGGGATTCCGGGCGAAGAAAACATCCATTTGGTGGATGCAATCAATCAATCGGATAAGATTCAGTTCATTCTGGTTCGTCATGAACAGGGAGCATCCTTTATGGCCGAAGTATACGGCCGCTTGACCGGACAACCAGGGGTGGCGACCGCGACTTTAGGACCAGGAGCTATCAATCTTCTGTTAGGTGTTGCGGATGCGCAAACGAATTCTACTCCGTTGATTGCGATCACAGCCCAGGGTGGTTTGAATCGAATTTATAAAGAGTCTCATCAGGTCATTGATCTGCGGGCTATGTTCCAGCCAATCACCAAGTGGTCCACGAATATTTATACCGCACAGTCTACTTCTGAGGTAATTACGAAAGCATATGACAAAGCTGTTAATGGTCGCCCAGGCCCTGTTTATGTTGGTATTCCCCAAGATGTTGAGGAACAGGATACTGGTACCCAATTAATTGCCAGTCCTATGCCAGCTGAGACAAATGCACCTCGGCCAGAAGAAATTCAAGCGGCTGCTACGGCGATTCGCCAGGCTAAGCATCCGGTTGTTCTGGCAGGAAATGGAATCATTCGCGGGCATGCCTGCGAGGCAATGACGCAACTGATGAATGCGACGCACTTACCAGTAGCAACAACTTTTATGGGTAAGGGTGTGGTTGACGATCGTTCTCCGTATTCTCTCGGTGTAGTTGGGTTCATGGCCCACGATTATGAGAATTTTGCCTTTGATCAAGCCGATTTGATTGTCTCGATTGGATATGGTCTATCCGAATTTAATCCGGTAAAAATCAATCCTGAGGGTAAAACACCGATTATTCACTTAAATACTTTCACGGAAGATACTGATGAACATTATCCCGTTAAGATCAATATTGTCGCTACACTCCAAGAGAGTATCCCCGCCTTGACCAAGGCTTTGGCTGGCTACCAGGCGCCTGCCTTCACTCCGGCGATTAAGCAGGCCGTGGCAGATGAATTAGCTCAAGGCACAGCTGATAGTGCCGTTCCGTTAACGCCGCAACAAATCGTAAGTGCCACCCGTGAGGCAGTTGACGATCAAGGGGTTGTTCTTGTCGATACAGGGGCATTGAAGATGTGGATGGCAAGATTGTATCCAACATATGCGCCAAACACATGCTTGATCGACAATGGGTTGTCCACCATGTCCTGGACGCTGCCAGGAGCAATTGGCGCAAAGTTGGCCAAGCCAGACAAGCATATCCTGTCTGTCATGGGTGACGGCAGCTTTATGATGAATTCCCAAGAACTGGAGACAGCCGTTCGGTATCATGTACCGATGACAGTGCTGCTCTGGGTCGACAAGGCCTACGGGTTGATTAAGTGGAAGATGGACATGGAGATGGGTCACCACTCCGAAGTTGATTTTGACAATCCCGACTTTATCCAATACGTCAATTCATTTGGTGCCAACGCACATAAAGTGACGAGTCGTAGTGATCTGGTTTCATCCCTGCAACAGAGTCTGGCAAAGGACAATGGTGTCAATGTGATTATTGCACCAGTTGACTATCGCGAGAACATGAAACTGATCAATAAACTGGGAAAAGTAACCATTTCTCTGTAA
>SRR1151209_01276 hypothetical protein
ATGGACTTAATGCATCGTATCACACACGAGAATGATCAAACAAAGAAGTTACTGGCATCCCAAAACAAATTGCCCATTGGCTACGCCGCTTTTGTCAAAAAGAATCAAGCGGAAGAAATCATGGCAGAAGCAGATAAATCGGATAAGCGAAACTTTGCCAGATTCTTCGTTGAGTTGGGAGAAAAGGATGGCTTTGACTGGATGACACCCATGCGCAGCTACTTTCTCTATAACTTTTTGCGGTTAACCGTTGGTGACCGGATTTTGGTGCCGTCTCCAGGGCAATTTAGTATATTTGAAGTGACTGGTGTGCCCGAAGCTCTCACTCAAGATGATGTCAATAACGCCGATTTAGGTTTCGCGGTCACTGTTAAACCGATTGCAGAGCATTTACCCCGTAATAACTACCTTGGATCGGCACTCACTTCAAAGCTCAAATACCGAGGGACCAATCTGGTTCTCTCAACGGCCGAAGTCGATAGATTAATCGAGACCCTCAATACAAAGACCACCATCACCGACTTCTCCGCAACAAAAGATGCCGTTGTTGAACAGGTGCAAAAATATATAATCGATAAGCTAACCCCAGATCAGTTGGAGTTGCTAGTCAAAAACTATTTGGAAAACCTCGGTGCCGACAAGACATATATACCATCAAAAAACGGCCAACGCAATGATAACGATCCCGTTGCCGACATTGACGTCATGGGTCAATTCAACAATTTAGGTATTGCTGTTTATGCTCAGGTCAAGCATCACAAGGGGGCTGAAAGCCATGCCGGTTTCACCCATGCAATAGCTCAACTGGCGGCAAGCAGGTACACTGGGATTCAGGAGTACGATTCGCTTATACCCGTCAAGTGGCTGGTCACAACGGCCAAGGTTGATAGTGAGTGGATAGAAGATGTTGCTCCGCAGAATATTCGCGTTATTCAAAATGACGAATTCGCTACCCTATTGGTTGAAAACGGATTGACGATCAATGCGGATACATTCACCAACACTCCTGAATAA
>SRR1151209_01277 putative N-acetyltransferase
ATGACGAGAACGTATTTTCTAAAAACTCAGCGAATTGGTTTTGCCGTGTGGCAGAAAACCGACTTGCCGCTAGCTAAACAATTGTGGGGTGATCCGCGAGTGACCCACTATATCCACCAGAATGGTGCATTCAATCCAGCAGAGATTGCCACGCGGCTGCAAACCGAAATCAATCAGGAGAAAACTGCTGCAATGCAATACTGGCCGATTTTCAACCTGACCACTGGTCAATTCATTGGTTGCTGCGGTCTGAAACCAGTAGTAAACGGGGCAGAGCTGGGGTACCATTTACGGCCTGAGTTTTGGCATCAGGGTTATGCCGCCGAGGCGGCTGCCGCTGCCATTCATTACGCCTTCAATCAGCTCAAACTCCCGCAATTGGTCGCTGGTCATCACCCGGCTAATCTGGCTTCCGGTATTATTTTAAGAAATCTGGGATTTCACTTTATTGGCACGGAATACTATGCCCCAACAGGGTTGGAACATCCGACCTATGTGTTGGTGAACCGTAGGCAGGTCAACCCAAAAGCAACTCGCTAA
>SRR1151209_01278 N-acetyltransferase
ATGAAAAAAACCGAACGACTCGTTATTAGACCATTTCAAAATAGCCCAACTGATTTGGCGGCTCTGTACGCGATTTTGGCGGACAAGGATGTGAATCGTTTTTTACCGTGGTGGCCGATCCAATCATTGGCAGAAGCGCAGGATTTCTATCAAAAACGGATTGCACCAAATTCTGAGTCCCGGTGGTACGCCATCTGTTTGCGCGATGATGACACACCGATTGGTTACGTCACCATCGGAAAAGGACCGAGCCGCGATCTTGGCTACGGCCTGCGCAAAGCCTATTGGAGTCAGGGCATTACGACTGAGGCGGCCGGCGCTGTCGTCACGGAATTATGGGCGCAACAGCTGCCTTTCATCACTGCCACTCACGACGTTAACAACCCCACCAGCGGCAAGGTGATGCAGCGATTGGGCATGCAATACCAGTATTCCTACAAAGAACAGTGGCAACCCAAAGACATCTTGGTTACTTTTCGGATGTATCAGCTCAATCTAGCGCAAACAGATGCACTGGTATATCGCGAATATTGGGACAAATATCCCAATCATTTTATCGAGCAATTTTAA
>SRR1151209_01279 hypothetical protein
GTGGCAGACGACAAACAAATTATCCAAGCTAAATTTGGTGCTGCTTTAATGCGCCTGCGTCAGGCCCAGCACTGCACCCGTCAAGAAGTTGTCGACCACAATGATATCTCGCTTAACGCCTTAGCCAGTATTGAAAACGGGCAGGCCCTTGTTAAACTGGACACGCTCTCCATGCTATTGCAGTATTACAATACGTCACTGGAAGATTTCTCCACCCAATACGTGGACGCGGCCAACAATTCAGATTTCGCCACGCTAATGCAGCAATCTATCACACCAGATACGCGGTTCTTCATCCTTGACACAAAGGGCGCCACCCCGGCCAACAACTATTCAGACCAAGATTTCTTCCAGTATCACTGGAATGCTCGGCAATTCAATAAAATGCGCACCGGTGATTGGTTTATCTATCGACGGCCCCAAGGCAGTGCCAAATTTTGGTATTTCTTTGGTGCTGGCCAAATCGGTCCGATCACCCACGACACCCAGGGCAACCAGCATGCCCAGATCATCAATTCAATTGCGTTCACCTATTATTTGACTCCGGAAGATCTGGCTGATTTTCCCTGGACATTTCGTCAACGAACACGCCAGGATTGGCAGCATTTCTTTAATCAATACGGCATGACTGAAATCAGACCGGCGGACTACCACGGTCTGCTAACCATTGCTCTGGACCAGATGAACGGCCAATCACTGCCGCCGCTCACCCGCGCAATCGTTAAAGAGGACGTGGCCGTCTACCGCGATATCCACCAGGGTCGATTCGGCGTAACGGAAAAAATTGAGCCGCACAAACAGCGCATCGGCCAGAGTCAGCTCGCCGAACTGGTCCGGTTGAACTACAGCTACCAATGCGCCGTGACCGGTATCCATACCCGTCCACTGCTGATTGCATCGCACATCATCCCTTGGGCCGTATCACCCCAGGATCGGCTGGACCCCAGCAACGTGATCTGCCTATCGCCATTGTGGGACAAAGTGTTCGATCAGGGCCTCATCACGTTCGATGCATCCGATCGCACCATCCGACTAGCCGCCCAAGTGCAAGCGGATAATCAATTGTACCGCGAATTGGCGCCGTTTAAGGGCAGAAAGCTGCATGATCCCGTGCACGATAAACCCAAAGAGGAATTTCTGGCGTATCACAATCAAAAAATCTTCAAGGGTTAA
>SRR1151209_01280 hypothetical protein
ATGACCAAAGTAGTGATGATTGATGATAAGTTGCATGTGGTTTCTGAAAACGAGGCAGAAGCTGCGACGCTTTATATTTCACAGTTGCGCTCTGAAATGGAGGAAGACGCTAGTGACGGCCTCAGGGTTAATATTTTCGAACGCAGGGATTTACAGCTAGCTTGGAAAACATCAACGGCGGCCCAGAAGAAGGAATTAACCGAACTGGTAGTCCGCCACATTGATGATGTGTGGAATAACCATATCCGATTTTCAAAGCGTTCGGATAAGGCTAAGTGGAGCGATCCCTGGGGATATATTACGGTGCGTTGGGTTAAGAATATTTCGGAAAGCGGCATTCTTGGAGCAGAGATTGTTGCTGAAGCGCGCAAAGCATATGAATGGTACACACGCAAGCAAGAATAA
>SRR1151209_01281 hypothetical protein
ATGTCCACAAAAGTCATACCACTTAAAGAGACGTACACCATTCGCGGTGAAGAAATAGCAATAACGGCAAGCGCTCGAATTAATGTAGAAACTGGGAAACCGGTATTCGACCAGCAATTGGATGACGCTGCTATTGAGCAGACGTTTGCCGTATGCCGCGGGCGGCACGACTACTTTTCTTCCCAAGACATCGTCACCTTGCGCAAGCAGATTAACCTGACGCAAAGCGAGTTTGCCGACATGCTGGGGTGGAATCTGACCACGGTGGTCAGCTACGAAGCGGGTGCGCTGCCGTCTGAGGCAAATAACGCAGTGCTGCATGCGCTGCAGGACAAATTGTAA
>SRR1151209_01282 tryptophan synthase alpha chain
ATGAGCGACCTGGCCGATGGCGCAATCATCGGCAGTGCCATTGTTGATTTGGTCCGGCAGCATGGAACGGCGGCACCGCGGTACTTAGCAGCGTATACCCGGGAGATTCGGGCGGCAATTGACGCGGAAGAACCCGCGGCGGCGGCCAAACCGGCATGA
>SRR1151209_01283 transposase
GTGGAACTGACCAAGACAGTCAAAATACAGATCAAGCTGGCTGCGGCAGTAGATGGCGGCTTGTTGCGACAGGCCATGGAACAGTATCGTTTGGCCTGTGACGACGTCAGCCGCTATGTGTTCGACCATGGCTTTGTACTCAACACCACGAAACTGCAAATCGTCCTGTATCGCGACCTGCGGACTAAATTTGGTCTGAAAGCCCAAATGGCGCAGTCAGTCCTGCGGACGGTGACCGCCCGCTATAAAGCGGTGCGCACCCAGCTGAAACAGAAACCTTACCGCTATCAAGACGCGGCCGGCAAATGGCAAAAACAAGCTAAGGATCTGACCTGGCTGTGGTACCCGATCAGCTTCCGGCGGCCGCAGCTGGATCTGGTCCGGCGGCGGGATTGGGCCATCCGCAAGGACGGCTCTTTTTCCCTGAACACATTAGACCGCCGCATCACTGTTTGGCCGGTACTGAACCATTGGCGCGACTATTTTGATGGCACCTGGAAACTCGGTACCGCCAAGGTACTGACCAGCGGCGGAAAGTGGTATCTGTACATCAGTGCGACTAAAGAAGTGCCGGATTATACCCAGGACCAGACCGTCCACGTCGTGGGGGTTGACCGGGGGCTGCGCTTTCTAGCCACTGCGTTTGACGAGACCGGCCGGACCATCTACCGTTCAGGGACCCGTTTGCTCAACAAACGGCGGCGGTACAAGCACCTGCGGGCTAAATTGCAAGCCAAGGGGACCAAATCAGCGAAACGAGTCTTGAAACGGATCCGTCAGCGAGAGAACCGCTGGATGTCGAACGAAAACCATCGTGCGGCTAAGGCACTCGTTGACTATTACGGGCCAAACACCTTGTTTGTGCTGGAAGACTTGACCGATGTTCGCTTTGCGACTGAACAGGTCGCTAAAGACCGCCGCTATGAACAGGTCAGTTGGCCGTTTTATCAGCTGGAACAGTTTCTGATTTACAAAACCGCCGCGCAGGGCAGCCATGTGCTGAAAGTGCCGTCTGATTATACCAGCCAGCGCTGGCCGCAATGCGGCGTGATCAAGAAACAGCAACGAAATCACGACCGCCATGAATACCGGTGTGCCTGCGGTTTCCAGGCCAATGATGACCAGTCGGCCGCCATGAACATCCAGCAGCTGGGCAGCCAGTGGCTGGCCGGTACTGCTAAACCGCGATACACGCGCAAGCGAACCGGCTAG
>SRR1151209_01284 tryptophan synthase alpha chain
ATGAGTAAGTTACGAGAAATCTTCACTGACCACAAAGCGTTCATTCCCTTTATCGTTGCCGACGACCCGAACTTTGCCACCACGGTCGCCAACGTGCTGGCCCTGGCGGATGGCGGTGCCGACATCGTCGAGCTGGGCATTCCCTTTTCTGATCCCTCCGCCGATGGTCCGGTGATCCAAGATGCCGACCTGCGGGCCTTCGCCGCCAGCGTCACCCCCACCTCCGCCCACCGCGTGCAGAAAATTGCCGAAGCCGCCACTGGCTTCATCTACGTCGTTTCCGCTCTGGGGATTACCGGCCAGTGGGATGAGTTCGCGCATAATTTGACCAACCTGGTGGCTCAGATTCGACAGTACACCGATGTGCCAACGGCGATTGGGTTCGGGATTCATGATAAATGGGGCAAGGAAACCCATGATTTCAATCATGGGAGGAATTGCCCCGACCCTTCTTTCTTTGATATAATTTACTTAGCTGACAAGAACAAGTGTGTGGCTAAGGAGGTGCTCATGTGGAACTGA
>SRR1151209_01285 tryptophan synthase beta chain
TTGATAACTGCTTCACGCCAACTGGTCGGCGTAGAAGTGGCCGGTGAAGGTGTTGATACCGACCGCACCGCCGCCACGATCGAGCGCGGCTCCGTCGGCATTTTTCACGGGATGAAGTCTCTCTTTCTCCAAGATGCCAACGGCCAGATTGACAAAGTCTACTCCATCTCCGCTGGCCTGGACTATCCGGGCGTCGGGCCGGAACACGCTGCGCTGGCTAGCGCCGGTCGGGCCCAATACGTGGGCATTACCGATGATGAAGCCGTCGCCGCCTTTGAATACATCGCTCGGGAGGAAGGTATCGTGGCCGCTATCGAAAGCTGCCATGCCATTGCTTACGTGCAAAAAATTGCCCCGATCATGCGTCAGGATCAGATCATTGTTTGTACCCTGTCCGGCCGTGGTGACAAAGATGTTGCCAATATCGTGAAATATAAGGGGGTGGACATTAATGAGTAA
>SRR1151209_01286 transposase
ATGACAGAACGTGTCACACGTTATGAGCTGATCTACAAGATCCCAAACTATCACGCCCGGACTTGCTTAGAGGCCATGCCATACGTTCTGAACACACATGATCCTTATCTATTCCACTCCATCACCTTCGACAACGGTTCTGAGTTCGCCCTCTTGGACCAACTCAGAGGAACAAAGATCTACTACTGCCATCCCTATACACCCAGTGAACGTGGCAGTAACGAGAATGCCAACGGCTTGATTCGAGAATTCATTCCAAAGGGTCAATCACTATGGAAAGTCTCTAAGGAGAAGATTCGTAAGATCCAAGATGTCTTAAACCACCGGTTAAGGAAGTGCCTTGGATACCGCAGCGCAATCGCGGCGCTCCAGGCCTCCCCCCTGGGCCTGGAGGAATCCCTGCCCACTACCTAA
>SRR1151209_01287 hypothetical protein
ATGATTATGGCGATGCTTGATGTTAAAAATTCCATCGATCGGCTGCAATGGACGGTCGATCATCACTTTCTGCACATTCAGGCGCAACACGATTTCATGCGGGCATGGGCGGTGCAATTCGAATTAGCCTACACAGATTTTCGAGTAATCCAAATGGCGCTGCAAATGAGTGGCCCGGAAAATCATGCGCTGCTGGCAAAGCTGGCAAAGAACTACGAAGCGATCTTCCAATACGAGTACGAATTCGCAGCCAACGGCTTGGCGGGATTCAATGCCAAGTATGGCGACCAAATCGATCAATACAAGACATTGGTCACTGAGTTTGACGGAATCATCAAAGAAGTCCAAGCCTTGCAGGCTTAA
>SRR1151209_01288 ATPase component of ABC transporter with duplicated ATPase domains
ATGGCCCTATTGTCTGTCACCCATCTCAGTCATCAATTTATGGATAAACAACTTTATATGGATGCTGAGCTGGTGCTCAACCCCCATGATCGGATGGGTATCATTGGGCAAAACGGGGTGGGTAAAAGTACCCTGATTCATATTATTACCGGTCAGCTCATCCCGGATGAAGGCCGGGTGGACTGGCAAAAACGGGTTCGTTACGGCTATTTAGACCAGTATGCCAAGCTAAGCCCCGGCGTGACTATCAATGGTTTTTTGCACTCTGCCTTCGCTGATCTGTATGCTGATGAAAAACGGATGAACGATTATTATACGGACTATGCCAGTAATGGCGATGCAGATGTGTTGGCCAAAGCGGGGACGATCCAAGAGGAACTGGAAGCCGCGGATTTCTATAACATCGATACCCGGGTGGATCAAGTAGCCACTGGACTAGGACTGGCTGAATTAGGCGCGGATCGGGACGTCACCAAGCTGTCCGGCGGTCAGCGCTCGAAGCTGATTTTGGCCAAGCTGCTGCTAAGTCAGCCGGATGTCCTGCTCTTGGACGAACCGACCAACTTCTTAGACAAGGACCATATCGATTGGCTGATCAACTTCCTGCAGGCCTTTAACGGGGCCTATATTGTGGTTTCCCATGACTATGATTTCTTAGATCAAGTGACAAATGTAATTTGTGATGTTGAATTCGGCAAAATTACGCGATATACCGGCAACCTGAAGCAAGCCTTGAAGTTGCGGGACCTGGCTCATGAGAGCTATATGCGGGAGTTCAATAAGCAGCAGGAGAAGATCAACAAGGCAGAGGCCTATATCCGCAAGTACAAGGCCGGATCACGCTCCAAGAGCGCCCGATCCCGGGAGAAACAGCTGGCCCACGTTGACCGGCTCACTCCGCCAGGCAACACTAAACGGCCGGTGCTGGATTTTCCCTATGTGGATACTGCCAGCGAGATTTTGGTCACGGTCAGCGATCTGCTGATCGGGTACGACCAGCCGTTATTGAAAGAACCGTTGAATTTCTCTGTTGGCCGCGGCGAAGTCGTGGTCTTCGCCGGCTTCAATGGGGTCGGGAAGACGACCCTGCTGCGGACGATTCTTGGCGAGCTGCCGGCCCTGGGCGGTGAAGTCGATAAGTCGTCGACCATGATTCCTGGCTATTATGATCAGGAACTGCACTGGCAGGCACCGCTGGCGTCACCTTTGCAATACCTTCAGGGCATTTTTACTAAAGCCCAGCCCCGGACACTGCGCCAGGCATTGGCCCGGACTGGCCTGACTGCCCAGCAGGCGATGAGCCCCATTCACGAGCTCAGCGGCGGCGAACAATCGAAGGTCAAATTGGCCAAGCTGCTGCTGACGCCCAGCAATCTTCTCCTGCTGGATGAACCGACGAACCACCTGGACGAGGCCACTAAGGACGCTCTGCGCACCGCCATTCAGGCATTCTCCGGCGGGGTCATTCTGGTTACCCATGAAGAGGGCTTCTATGATGATTCTTGGGTGGACAAGGTGTTGGATATTGCGTCGTTGAGAAAATAA
>SRR1151209_01289 hypothetical protein
GTGCGCAAGAATATGATTTCCACCATTATCATGGCTCTGATGGCCTTCATTGCTGGCTTCGTGGCTTTTGCCATCCTGCTGTCCCGAATCGGTCACTATCCCCTCTGGGTCGCCGTAATCGGCGGTATTTTGGGCGGCGGCGCGGTGGCTTATGCGGAATACTATCATTTGCGGCAGCGGGCCAACATCAAAGCCATTGTCCAGGAATATCGGTTGACCAGTGATGATTTGGCACGGATCACCGGGGAACGGAGTACTGATTTTCCCATTTATCATGGCGATCTATCTCTGATCGTGCCGAAGCGGCGCTGGGGCCTTATCGAGAAGAAGCTCCAAACCTGGGCGGCTGAAAATCCCCGGCCAAATATTAAGAAAAAGTAA
>SRR1151209_01290 amino acid permease
GTGGCAGCAGAACAGAAACAATTGCGCTGGTATAACATTGCGCTCTTAGCATTCGTGGCCGTCTGGGGCCTCGGGAACGTCGTCAACAACTTCTATAACCAAGGATTGACGGTCATCGTTTCCTGGATTTTGATCATGATCTTGTACTTTGTCCCCTACACCTTAATGGTCGGTCAGCTGGGGGCGACCTTCCCCGCTGAAGGGGGCGGGGTGACCTCCTGGATTGAGAAATTGTCCGGAAAAAAACTGGCCTTCTTCGCGGCCTGGACTTATTGGGTCGTCCACGTACCGTATTTAGCGCAAAAGCCCCAAGCTATTTTGATTGCCTTTTCGTGGCTTTTCCAAAGCAACGGCAGTTTCGTTAACTCCAACAAAGGGATGATGGTCCAGCTGCTGTGTTTGGTCCTCTTCCTCTTCTTCATGTGGATGTCGTCCCGGGGGATCACGACGCTGAACCGGTTGGGCAGTATTGCCGGGTCGGCCATGTTCATCTTGTCGATTCTCTTCATTTTGTTGGGCGTGTCCGCACCGATGATGACCGGTTCCACCATCGCGACGGCCCATATGGATCAGCTTTCCAGCTATATTCCGAAGTTTGACTTGAATTATTTGACCACCATCGGAATGCTGATCTTCGCTGTGGGCGGGGCGGAAAAGATTTCGCCCTACGTCAATAAAACCCATGATCCGGCCAAGGAGTTCCCTAAAGGGATGATTGCCCTGGCCATTATGGTCGCTATTTCTGCTGTATTAGGCTCTTTTGCCATGGGTATGATTTTTGACGCCCATCATTTACCTGCCGACTTGTATGCCAACGGTGCCTACATGGCGTTCCAGCGGTTGGGTGATTTTTACCATGTCGGCAATCTGTTTATGTGGGTCTATGCGGTGACTAACGCCATGGCTTCCATGGCGGCATTAGCCGTATCCATTGATGCGCCGCTGCGGATGCTGCTGGCGGATGCCGATCCGCATTTTGTTCCCCAAGCATTGAGCAAGAAGAACAAGCATGGCGTTTACATCAACGGCTATGTGATGACGGCAATTTTAGTCGGGATCATCATTGTTCTGCCCGCCTTCGGTATCAAGGGGATGAATGATTTGTATGGCTGGCTGCTGAACCTGAACGCCATCGTCATGCCGATTCGTTATCTCTTTGTTTTCTTGGCCTACATGATGCTCAGCCGCCAACTGAAGAAATTCCATTCCGACTATACCTTTACGAAGAGCAAGACAGTGGGCTTTATCGTTGGTCTGTGGTGCTTCCTCTTCACTGCGTTCGGTTGTATTCTCGGGATGATCCCCAAGGCCGGTTTTGTCCATGATGTTACCGGCTGGTGGTTCCAACTGGGGCTGAACATCATTACCCCCATTGGCTTGCTGGCTTTAGGCCTGTTGTTGCCGATCATTGCCCGGCGCCACGAGATTGCCGAGAAGCTGTAA
>SRR1151209_01291 LytR family transcriptional regulator
GTGGATTCACGCAGTCGTAAACGGCCCCCAGTGCGTCATCGGGGCTTCAAGATTTTCTTTCTGTTTCTCTTCATTGTCCTCGCCGCTGGCGGCGCCTACGCCGCGCGGGTGTTCTATCAGACGAAGAGCGCCATTGATAAGACGTATAACCCCATTGATGATAAAAAGGTCTCGACGACGATTCAGGATAAGAAACCATTCTCGATCCTGCTGTTGGGCGTCGACACGGGGGCTGAGGGCCGAATCGATCAGGGGTCGACCAACCAGGGCGATGCGAATTCGGATACCATTATTATCGCCACCGTGAATCCCGACCAAAATAAAGTCACGATGACCAGTATTCCCCGGGATACCGTTGCAGAGATCGTCGGTCGGCCGCAGCAGGATATTGAAAAGATCAATGCAGCGTATAACTATGGCGGCGAAAAAATGGCGATCAACAGCGTGTCTAAACTCGTCAATGTCCCAATTGATTACTATTTAACAATTAATATGGGCGGTTTGGAGAAAATTGTCGACGCGGTCGGCGGGGTGGACGTGGATAATCCGTTTGCTTTCACGTCGTCATATACGGGCGGTCAGCATTTTCCAAAGGGCGAACAACATTTAAACGGGTCAATGGCCTTGGCTTACGCCCGAATGCGGCATGAAGATACCACCGGCGACTATGGTCGGCAAAAACGGCAGCAGCAGGTCATTAAGTCGATCGTCAAGAATGCTCTTTCAATCGGGACGTTGACCCGGTTGCAGACATTGCTGGATTCAGTGTCCAGCAACATGCGTACTAACCTGACTACTGATGATATGATGAGTATTTTCAGCAATTACCGCGATACGGCGAAGAATATGGTCAGTGCCACGCTGCAAGGTCAGGATGCCTGGATTGGCGACGGTGCCTATCAAGTACCCACCAGTGCAGAATTGCAGAAGGTGTCGGACAATATCCGGACCGCCCTGGGTTTAGAAAAAGAGACACTGAATAATGAGAACATCCGCTTGAATGCCCAGAACCCGAACTTCCAGGTGGGCGGGGAGTACTACATTCCTTGA
>SRR1151209_01292 oligoendopeptidase F
GTGAGTACAATCACCAAACAACCCACCCGGGACCAAGTACCTGAGGACTTAACCTGGGATTTGACCAAGGTTTTCGCCACCGATGCAGAGTGGGAAAAGACCTTTGCCCAAGTGAAAACGGCGGCAGCTGATCTGACGCAGTACGTCGGCACGCTGGGCCAAAGCGGGGCAGCACTGCTCAAGGGTATCCAGGCCATTCTGAGTGTCTACCGGACTTTTGAAAAAGTCTACGTCTACGCCAGCATGCGCAGTGATCAGGACACCGGCAATGCCCATTACCAGAGCTACGATGCCCAAGCCTCGGCGCTAGCCGCTCAGGTGTCCGCCGCAACAGCCTTCATGGAACCGGAAATCCTGGCCATCCCAGAGGCCAAGCTAGAGCAATTCTTCATCGATACCCCCCAACTGGCTGATTATCGCCACTTCATTGAAGTGATCACGGTCAAACGGGCCCACGTGCTGCCCGCCGACCAAGAGGCGCTGCTGGCGGCTGCGGAGGATGTCTTTTCTTCCTCTGCCCAGACTTTCAACGTCCTGAGCAACTCCGATCTGAAGCTGCCCATGGTCAAAGATGAGGACGGCAATGACGTTCAGTTGACCAACGGCGTCTACAGCACCTTGCTGCAATCACCTAATCGGGACGTGCGCAAAGGCGTCTTCCAGGGCCTGTATGCCGCGTATGGCCAATATCAGCACACGTTTGCCAGCACGTTGGCCGGCCAGATCAAGGCCGATAACTATACCGCCCAAGTCCGCCACTACAGCAGCGCCCGGGAAGCAGCCATGGCCCGCAACCATATTCCGGCCAGTGTGTATGACACCTTGATCGAACAAGTCAACGCCCACCTGCCCCTGCTCCACCGCTATGTGGCACTGCGCAAGCGGCTGCTGAAGCTCGACACCGTACACATGTATGACATGTATACTCCGATCACCGGCACGCCCCAGCTCAGCTACACCTTTGCCGAAGCCAAGCAGGAAGCCCGCCGCGCCTTGAGTGTGTTGGGAGAGGACTACTTGAGCCATGTCGACGAGATTTTCAACAATCGCTACATTGACGTGGTCGAAAATAAAGGCAAGCGCTCCGGGGCCTATTCCGGCGGGGCCTACGACACGCCGCCTTATGAACTGCTCAATTGGCAGGACGATCTGGAGAACCTGTACACCCTGGTCCACGAAACTGGCCACAGTGTTCATTCCTGGTATACGCGGCACAACCAGCCTTATCAGTACGGTGATTATCCAATCTTCGTCGCAGAAATTGCCTCCACTACAAACGAAAACATTCTGACGGATTACTTATTAAAGACACAAAAGGATCCCGCCGTTCAAGCCTATGTCCTGAACCACTATTTGGACGGCTTCAAGGGCACCGTCTTCCGCCAGACCCAGTTTGCAGAATTCGAGCACCATATCCACGAATCCCAGCAGCAGGGCACGCCGCTGACTGCCGACAGTATGAGTCAGTTCTACGGCGACCTGAATGCCCGCTACTACGGCCCTGAGACCGCCAAGGATCCCGAAATTGCCTTGGAGTGGAGCCGAATCCCCCACTTCTACTACAATTACTACGTCTATCAATATTCAACCGGCTTCGCGGCGGCATCCACTCTGGCCGCCAAGATCACCAGCGGCGCTGATGGCGCGGTGGATCGCTACATCAACAACTTCTTGAAGAGCGGTTCCTCCCGCTATGCCATCGACACGATGCAAAGCGCCGGCGTTGATATGACCCAGGCCGACTACCTGGAGAACGCCTTCCGCGTCTTCGCTGACCGGCTGGATGCTTTGGAGAAATTAGTCTAA
>SRR1151209_01293 hypothetical protein
ATGATGTCCAGCCCTGTTGAACAAAGCCCGCCACGCCTGTTGACCCCAGGCATTCAAGAGCAAACTCCGGCCTATTTTTGCCGCCTGCTCTGGCACTATATTGATGCGCTGCCCATGGAAGGGGTAGCCGTGAGTCATGAACTGCATTTCTTCATTCGCCAAGAAGCCTGCCAGCCGGCTAGCTTGCGTCCAAGACGGCCCGCGCTACCATCACCGCTGGGACATGCAATTATTTAG
>SRR1151209_01294 Mn/Zn ABC-type transport system permease protein
ATGTTTCAACTCGAATTTATGCGCAATGCCTTTGTTGCCAGCACCTTTATTGCCCTGACCTGCGGGATCATCGGGGTCTTCGTGATCGCCCGGAACCTGTCGTTTTTGGCCCATACATTATCCGAAATCGGCTTTGCCGGGGCGAGTTTCGGGGTCTTCACAGGATTGGCGCCGCTGGACGGGATGCTCCTGTTCACCATGATCTCCGCCGTGGCGGTGGGTGAGATGTCCACGGAGCAATCCCGCCGGGAGGCGGCGATCGCGGCCATTTCTTCTCTGTTCATGGGGCTGGGTATCCTGTTTCTTTCGCTCGCTAACAAGAGCGCCAGCTATGCGACCAATATTTTATTCGGCAGTATTATCGGCATCAGTGTCCACGAAGTGTGGCAGCTGGTCGTGCTGTCGCTGTTTATGCTGGTGGTCATGTTCTTTGCCTACCGCTATCTGGTGTTTGATTCCTTCGACAGCATCGGCGCCCGGGTGCAGCATTTGCCCAAGCATTTCTTATCTATCCTGTTTCTGCTGATGCTGGCGATCAGTGTCAGTATCAGTGCCCAGATCGTTGGCTCGCTGCTGGTCTTCGTCCTGCTGACGCTGCCGGCCTCCAGTGCCCGTTATTTGGTCCATACCGTGCCGAAGATGCTGCTGATTTCGGTTGCTTTGGCGTTGCTGGGCGTCTGGGGCGGACTGGTGCTGGGTTACTATACCAACTGGCCGGTGACGTTCTTCATCGCGACGATTGAAGTCGTCATTTATTTAGGCACACTGTTGTATGCCCGAGTCGCCCAGGGCGATTAG
>SRR1151209_01295 Mn/Zn ABC-type transport system ATP-binding protein
ATGGGACAGCCATTAATTCAAGCGGCAGATTTGAGCCAAGCCTTTGGCGATCGAACCATTTTCTCCCACATCAATTTCACCATTCCCCGTGGGGCAATGGTCAGTTTAGTCGGGGCGAACGGGTCGGGCAAGACAACGCTGACGCGCATCTTGTTGGACATCTTGAAACCTACCAGCGGTCAGGTCACTACAGCCGGTGATGGTCATTTACAGGTGGGTTATGTGCCGCAGTTTCGTAACTTAGACCGGGACTATCCGTTATCGGTCCGCAGTTTTGTCCAGCTGAATCAGCTGGGCCGGCCCTGGCCGTGGCACACGGCGGTTGAAAAGCAGGCGCTGAATCATGTATTGACCGAGACCAATTTGCTTAAGCTGGCAGCCACCCCCTTAGGGATGACGTCCGGCGGCGAGAAGCAGCGGGCATATTTGGCCCAGGCACTGGTGAACCAGCCGGATTTGCTGATTCTGGACGAACCCACCGCCAGTTTGGACGTGGCGGTCAAGCATGAACTGATCGGTTTGGTCCGCCAGCTGAACCAGACCAATGGTTTGACCGTGTTGTTTGTCACCCATGATCTGCCTTTGGCCAAAGAGTTTACGGATCAGTATCTGCTGCTGCAAAACGGCCGCATGAGTACTGGTTCGGCCCAGGCCATCACAGACGACATGATTTCGGATTAG
>SRR1151209_01296 L-lactate dehydrogenase
ATGCCTAAACTAGCAAATATTATTTTGATCGGCGACGGGGCAATCGGTTCCAGCTTTGCCTTCAACTGTCTGACCTCGGGAGTCGGTCAGAGTCTGGGGATCATCGACATCAATATGGAACGGGTTCAAGGCGACGTAGAAGACTTGAATGACGCCCTGCCCTATGCAGCCCAAAAAAACATTTATGCCGCCAATTGCCACGACTGTCAGTATGCCGACCTGATCGTCATCACTGCCGGCATTGCCCAACGGCCGGGGCAAACCCGCTTGGAACTGCTGCAAAAGAATGCCCAGATCCTGACGGATATCTCCCACCAGATCATGTCGTCAGGTTTCAACGGCATCATTCTCATCGCCAGCAACCCGGTGGATATCCTCACCGAACTCGTGCTGCGTATCACCGGTCTGCCCCGTAATCAAGTGATTGGTTCCGGCACGGCTCTGGATTCCGCCCGCTTGCGGTCCGAGATTGGCCAGCGCTTCAACATTGACGCCCGGGCCGTCCACGGTTATATCCTGGGCGAACACGGCGATTCGGAATTCCCGACCTGGGATTACGTCAGTATCGGCGGCAAACCAATCAAGGATTGGCTGCCAGCGGACAAGCAGGAGGAAACCTTAGACGATATCGCCAACACCGTTAAGACTGCTGCCTACTCGATCATCGATAAGAAAGGGGCCACGTTCTACGGCATCGCCACTAGTCTGACCCGGATCACTGCCGCCATTCTTGGCGATCAGCGCTCTGCCTTCGCTATGTCGGTGCACTTGGACGGCGAATACGGTTTGCACGACGTCTCCATTGGGGTGCCCTGCATTATTGGAGAAAATGGGTTGGAACGGGTCATTGAGTTGGATCTGAATCCGACTGATATGAAACGGCTCACCGAATCTGCCGGGATTTTGAAACAGAATCTGGCTGACGTCATGGCCGCCAAGTAA
>SRR1151209_01297 beta-glucoside-specific PTS system IIABC component
ATGGCGAATAAAGACTACACAGATTTAGCCACCGACATTATCAAGGACATCGGCGGGAAACAGAACGTCGATAGTCTGATTCACTGTATCACCCGTCTGCGGTTCTATCTGAAGAAGGATCCTTCCGATGAAGAAACCGCCAAGATCAAGGCCTTGGATGGCGTCATTGACGTCCGCAAGGCTCAAGGGCAGTATCAAGTCGTCATTGGCCCAGCGGTCACTGACGTGTATAACGCAGTCATCGCCCAACTGGGTAATGAATACGCGGATCCGGAAGCCACGGCGCAAGCGGTGGCGGAGACTTCCGCTGCGGCGGGAGCGGCCGCAGCGACGAAGCCGGATCGGAATTTGTGGCAAATGATTGTTGATGGGTTCAATAACTTGATCGGTGTCATCACCGGGGCCATGAGCCCAGTCATTGGCGTCATTGCCGCTTCTGGTATTATTAAAGGGTTGATGGCATTCTTCACATTGCCTTGGTTTAACGGATTGTGGAAGATCTTTGGCCTAACTAGTAAGACAGTTGTTACCACGTTGCCCTATACATTGATAGCGGACATGGCCAACGCCGGGTTTTACTTCCTGCCAGTATTAGTTGGTTATTCAGCAGCCCGCCGATTGGGCGGTGACGTGATCACAGCTGCTACGATTGGTGCTTTCTTAACCTTGCCGGACATGGTTGCTTATGGGGCTAAGTTCACGCAAATGTTTGCCATTGGCGGCTGGAAATTCCAACTGGTTAACTACACTTATTCCATCTTCCCGATGATTTTAGCCGCTTACATGGCTAAGAAACTGGAAGATTGGCTGCATAAGGTCTTGCCGAATTACTTACACATGATCTTCATACCATTAGTCACGATTTTGGCTGTCGGTACTGTGACAATTGTTGTCACGGGGCCAATTATTCAGGGTATTGCCAACGGAATCGGTTCTTTTGTTAACTGGTTGGTGAGTGCTTCTGGTGCCATTGGCGGCTTGGTCATTGGCGGTTTCTATCAGATTCTAGTCATCTTTGGCTTGCACTGGGGTGTTGTTCCGCTGGTCACTCAACAGATTACCAACCAAGGTGCTTCACCGTTGAACGCCATTATTTCTTCCACCATGGTTGCCCAAGGGGCGGCAGTACTAACAGTTGCTTTGAAGAGTAAGAAAGCTAACTTGAAGGAAATTGGGTTTGCCGCGACGATTTCCGCATTCTGCGGGGTTACTGAACCCGCCATTTATGGTGTTAACTTGCGTTACCGGAAGGTCTTCATTTCCGGCTTGGTTGGGTCAGCCGTCGGTGGTTTTATTACCGGATTGATGCATGGGAATATGTATGGATTCACCGGTTCACTGATTGGTTTCCCGTCATTTATTAAGGCGAGTGACATGAACAGCTTCTACGCCTTCCTGTTATCCAGTGCCGCCGCGATCATCGTTTCGATGCTCGTTACCTGGTTCTGGGGCTACACCGACGAAGATGTTGCCGGTGCTGGTATGGCTAAGCCGAAGAAGCCTGGTCAGGCGAGTGCTGCAAAGTGA
>SRR1151209_01298 beta-glucoside-specific PTS system IIABC component
ATGTATTCGCCGGTGACTGGTACGGTGATTCCGCTGAAGAATGTATCTGATCCGGTATTTTCCAGCGGCGTAATGGGTGAAGGCTTCGGCGTCACCCCCAGTGACGGCAATATTCTTTCACCGGTCACAGGGACAGTAACGATGGTGGCCAACACCAAGCATGCCCTCGGTTTCACGATGGATAACGGGCTTGAGGTTTTGATCCATATGGGCGTTGATACCGTGGACTTGAAGGGCAAACCTTTCACCATCTCCGTCAAGCCCCAAGACAAGGTCAGCGGCGGACAAGAAATTGCCACCATGGACTTGGACCAGATCAAGGCCGCCGGACTCGACAACGTTATCATTGTGGTGATCACCAACAGTAAAGACAAGCTGGCCAAGCTGGATGTCGAAACGGGCGACCACCGCGCTGGCGATTTTGTCGGCACCACGGAAGTTAAGAGTTAG
>SRR1151209_01299 GntR family transcriptional regulator
ATGAATGATAATAAATACGAACTGATCTATCGCGATTTGGCAAACAAGATTGCCACGGGAATTTTCGCCGTGGGCAATTATCTGCCCAGCGAGAATGATCTGCGGCGGCAATATGCAGTCTCCCGGGAGACAATTCGCAAGGCCTTGCTGGCCCTGCGCAATGAAGGCAAGATTCAAAAGATTCACGGCAAAGGTTCTGTGGTATTGGGCACGCGTCCGGCCCTTACGTCGCCGGAATTGAAAGGGTTTACTGAAATTGCTGCGAGTTTGGATGATCCGACCAATAGTCGGCTGGTCCAAAATGACAGCGTGTACGTAGACCCGGAGCGGTTCTTCGGGCGAGAAGAGACGATCGTGCGCGCCAATGCGCCAGGCGCTCAGCCTGCTGTATTGATTGGCCGCCTGCGGGAGGTGCGGCATCAGCCGGTGTCGCTTGATCGCGATTACGTTTTAACAGATATCGTGCCGACCCTGCCGGACGATCCAGCAGAGACCTCGCTGTACGCCCACGTTGAAGAAACGGTAGCGCCCATCAGTTACGCCGAACGGGAAATCACCATGACCCAGGCCGATTGGGACGACCATCAATTTCTGGAAGTTCAACTCGGTACCAGTGTCGTGGTGATCCGGCAAAAGGTCTACTTAACGGATACCCGTCTGGCCCTTTTGTCTGAATCACGTTTGGATCCGCGCCAGTTTCACTACCGGGAGTTTGTCCGCCGTCATCTGACCTAG
>SRR1151209_01300 haloacid dehalogenase
ATGGGTCTGGAAAATTCTGCACAAGGAAAGGTGCTGCAAAAACTGATGACTTATCGCCTGTTTGCCGCCGATATGGACGGTACTCTGCTCACGGATAAAAAGACTTTTGATATGGCTCTGCTCCGCCGACTGATTGCGTTCATGACCCCGCGGGATATGTTCTTTGCCGCCGCCAGCGGCAACCAGTATCAGCACCTGCAAACCACGTTCGCCGATCTTCATGACAAAATTGATTATGTCGCCGAAAATGGTGCGGTAGTCGTGGCCCGGGGCCAGATCATTTACGAAAGTCTGCTGCCCAAGGCCACGATCGATCAGTTACTGGCGGCCCTGACCAGCGATCCCATTTTTGCCGGGGCGCAAATCATTCTGTCCGGGCGGGACCACGCCTACATGAACCGGGTTGCCCCCGAAGACGTGGCGATGGCAAAATTCTATTACGACAGTCTGGTCGTTCCGCCGAATCTGCGCGCCGTGGCGGCGAATACACCAATCTATAAAATAGCCCTGTCTTGGCGCGGTCAGGATATCAATCAGCAGCTCGACCGGATCAACCATGCCTTTCCCGGCGTGCGGGGGACCAGTTCCGGCCGGGGCGGGATCGACGTCATTGCTAAGCACATCAGTAAAGCCACTGGCCTGATGAAACTGGAAGAAGCCCGCCAGCTGATGCCGGTGGACGTGATGGCCTTTGGCGACAACGGCAACGATTTAGAAATGCTGCGCCATGCCGGGTGCGGCGTGGCGGTGCAAAATGCCATTGCCCCGGTGAAAAGCGCGGCGAATGTGGTTTTAGAAGAGACCAATAACCAGGATGCGGTGCTGCGTTATATTCAGCGGTATTTGGAAGAGACGTATCAAACGACGATTGACTAG
>SRR1151209_01301 hypothetical protein
ATGAAACGCTTAGGCATTGACGGTGCGGCCACGATTCGGCGGGTAGCGCTGGGGGTCAGCAGTCGAATGGTTTTCGTCGTTTTTATGTTGGGGACGGCACTGCTGACTTATAGCGACGACAGTGTGGCAGAGATGGACCGGCTGGTCAGCTATCTGGTATACGGGGCGGCGGTGATCGGTGTCGCGGCGGCGATGCTTGCGTTGTGGGCGCACCGCACCCTGCAAAATTGGTGGCCGCATGCTGATGCAGAGGAGCAGGCCGCGTTGCAGGCGACGCGCTGGTCGGCTAAAAAGTGGCGCACGTATGTGATTTTATACGGACTCGGCGTGCCAATCTTCGCGGGACTGGGCGGCTGGTTCTGGTGGCAAGCGTTTTGGCTTAAAAAGACGCTCCAAACAGCGCGAGCAAAACAAACAGCGGCCTACATGCTCGCGGTCTTGTTTAGCACAGCGGCTTATTGCGCCGTCATTGCGATCAATGCTTACGTGATGCGGCGGCGGCGACTGCACGGCGATTAG
>SRR1151209_01302 trehalose 6-phosphate phosphorylase
ATGGCAACTATTTCGTTAACAGTCCAGCCTAACGCGCTGCTGCTGCAAAGTACCCGTGGTGAAAAGAGCGTGCCCTTCAGCGGCGATCAGGAACTGACGGCCATTGGCCAGCGATTGAACCAAGAGCTGACTGATATGGGCGCTACGGAATTGAAATTGGCGACCCCCAGTGCGTCGCGCTTCAGTGCCACAGTGGTGGACCTCGCCGGTCGGCGGGTCGATCTGGCCACGCTGGTCACGGACCGGACGAATATTCCGGTGTACGGTAAAGAGAATGGGGTGACCAGCGCAGCGGAGGCCGTTGACCTGGCCAGCCGCCATCTGACTTATTATGGGGTCTACGGCGGTAAAAAGAATTACGGCCAAGAGGCCCTGCTGACCTTGGGCAACGGCTTCTTCGGCCTGCGCGGGGCTTACTTAAGCGTTGACGCCAGCGACGATAATTACCCTGGTTTCTATGCGGCGGGGCTGTTCAATCAGCTGACTACGCCAGTGGCGGGGCACGATGTCGTCAATGAAGACTTGGTCAATCTGCCCAACGCCCAATTTCTGCAAGTCAGCGTGGACGGCACGCCGATCGATCCGCAGCACGCTAAAATCGTTGATGCCTATCGGGACTTGGATATGCAAAACGGCCGCTTGACCTTGGCAACGGTGATTGCCTTAGCGCCGGATAAGCACGTGGTCGTGCGGGCAGAAAAAGTCGTCGACATGAAGGAATGGCACCACTACGCTGTACGCATGACCATCACGCCGTTGGATTTCGGCGGGACGATCACGGTAACCAGCAAACTGGACGGCAGTGTTGAGAACAGCAACGTAGAACGCTACCGGGCCTTCAATTCCCGGCACTTCGACGTGCAAAAATTGGCGGCCCAGGGCGCCACAGCAACCCTGCGGGCGGAGACCAAGAATTCTCACGTGGCGTTCGTTATTGCGACTAAGCTCGCCGGCGCCGAGGACTGGGCCGGCACGGCCCAGGACGATGTCGTTGAACAAACGGCAGCCAAAGAGTTGGCCAGCGGCCAATCCTGGACAGTGACGAAGGATGTCGTGCTGTTCACCAGTCTGGAAAGTGCCGATTTGGATGCCCAAGCAGCGGCTTTGCTGCCGGTGGTTTCCTACGATACGGCCCGGGACAACGCCGCCACGGTCTGGCGCAAGATTTGGCAGACGTCTGACATCGAGATTGAAGGGGATGTGACCAGTCAGAAACTGGCCCGCTTAAACATTTTCCACGCTTACGTCTCCGCTTCGCCCATTGCCAATCCGCATCTGGATGCCTCCGTTGGCGCCCGCGGCCTGCACGGCGAAGCTTACCGGGGCCACGTGTTCTGGGATGAGTTATTCAATATTCCGTTTTATACCCAGCATTATCCGGACTTGGCTAAGAGTCTGTTGAAATACCGCTACCGGCGTTTGCCGGCGGCCCGCCAGTACGCGGCCAGCGAGGGCCATGAAGGGGCCATGTTCCCTTGGCAGTCGGCAATGTACGGCGATGAACAGTCTCAGTTCGTGCACTTGAACCCAATTACCAACCAGTGGGATCCGGACAATTCCCGCCGTCAGCGCCATGTCTCGCTGGCTGTGGCCTACAACGTTTGGTACTACTACCACAACACCCAGGACGTGGTCTTCATGAAGGACTACGGGCTGGAGATGCTGCTGTCCATTGCCAAGTTCTGGCTGAGTATGGCCCAGTATAATGAAAAGACCGGCCGATACGATATTGCCGGTGTCATGGGACCCGACGAATTCCATGAGGGGTATCCCGGTGAAGACAAGGGCGTGACCAATAATACGTACACGAATATTATGGTTGTTTGGCTGTTTGCCCAGTTGCAGAAATTCCAAGATATTCTGCCAGCCGATCTATGGGCCAATAGTGCGAAAAAGGCCGAGTTTGCCGATAGTGACTGGCAGCAGCTGAACAAAGTCGAAACAAAACTGGCGCTGGAAATTTCCCCGGAGGGCATCATTTCCCAATATCAGGGCTACTTCAAACTGGCCACGATCGACTTAGACGCATATCGTCAGAAATATGGCAATATCTCCCGGATGGACCGGATTCTGAAAGCCGAGGGCAAGTCGCCGGATGCGTATCAAGTGGCGAAACAAGCCGATGCCTTAATGGCCTTTTGGAACCTGACGCCCGCCACAGTGGTCAACGTCTTCAGCGATCTGGGTTACGACTTGCCGCCGGACTTCATGGCGAAGAACTTGAAGTTCTGGCTCGCTCGGACGACCCATGGCTCGACGTTGTCTCGGGTGGTTTACAGTGAATTGGCGGCCCAGGATCATAATGCAGCCTTGTCTTGGCAATTATTCTCAGAGGCCCTGTCCTCGGATTACTACGACATCCAGGGCGGTACGACGGCCGAAGGAATCCATCTCGGTGTGATGGGGGCCACGGAAACGATTATTCAGCGGGACTACGCCGGGGTCGATGACCGCGGCGATGTTCTGACGATTACGCCGCATTTGCCGGCCCACTGGCAGTCGCTCCACTTCAAGCGGCTGTACAAGGGTGCTCAGCTAGACTTCGTCATTACCCCTGAGGCGGTGACAGTTACCGCCGACCGGGCACTAACGATCCAAGTTCAGGGTCAGCCGGTCCAGGTGCCTGCGACAGAAGCAACGACGGTGAAGTTAACGAAGTAA
>SRR1151209_01303 YhhN-like protein
ATGGGCAGTAAGCAGATCAAGATTTGGCTGATCGTCATGACGGCATTATTCGGTTACTTTTCATTCGGCGGCCCGGCTGCCAACCTGACCCGCTATGCCTGTGTCGTGCTCGCCGCCGGGCTGAGCGGCTGGTTGTGGGCCCATCAGCACCGGCCGGACCAGCGCTGGCTGACTGCTGGCTTAGTGCTGTCCCTGATCACCGACGCGGTACTGCTTTTTGCGCCGGCCAGTCAGTGGGTGCCGCTGGCGGTAGGCCTGTTTGCCTGGGTGCACTGGTGCTATCTGCGGCGCTTCAACACGGCGCTGCCCGGACCGACAACACTGGCCAGCGCCGCTTTGATTACTGGCGCTTTGGGCTGGCTGCTGCCCGCAGCTATTTTTTACGCGGCCATGCTGCTGCTGGATGCCGCCGGTACGTGGCGCCGCCGGTTGCCGACAAGCCGCGCTACTTGGCTCGCCCGTGCCGGCATTACCGCATTCACAGCCTGCGATATCATTGTCGCCCTAGGCCAGACCGGTCGGATTGACCCAGCCCGGTCGTGGCTGTTTTACTGGCCGGCATTAACCCTGCTCACTTTGAGTGCAAACTAA
>SRR1151209_01304 hemolysin-like protein
GTGGCCAGTGGCCAGTTAGCTCAGAATTTACTCATCATTTTGGTGACGTTCATTGCGGCGTTCTTCTTCGTTGCCGCGGAGTTCGCGTTGGTCCAGACCCGGCCCAGTCAGCTGGAAGACGCGATCAAAAAAGGACAGGGCAACGTCAAGAAATTGAAGCGCGGCCTGCATATGGTTCAGAATTTAAACGAATACTTATCGACCACGCAAGTGGGGACCTCGGTTACCGGCATCCTGTTAGGCTGGATCGGGGAAGGTACCTTGGAAGCAATTTTGATCACCTTCTTCGGTTGGACCCACCTCACCAATGGGCATACCACCCAAATTCTGGGGGCGATCGTTGGGGTGCTGGTGCTGACGTACCTGGAAGTTGTCTTGACCGAAATTGTTCCGAAAAACATCAGTATTGATATGCCTCTGAAGATGCTCATGCGCCTGGTAACGCCGCTGCACATCTTCCATACGATTGCTTATCCGTTTGTGTGGTTGCTGAACACGTCGGCCATCGGCATTGTGAAACTGATGGGGATGGCGCCGGCGGATGAGGAAAATCAGGTCTTTTCGCAATCGGAAATTCTTCGGTTGTCCCAGTCGGCGGTACTCAGCGGGCAAATGGATCAAAACGATGTGTTGTACATGCGCCGAGCGTTCGAGCTGAACGACAAGGTCGCCAAGGACATCATGGTTGATCGGACCAGTCTGACGGTCATTGATGTCACCAGCACGGTCAAGGAAGCATTGCGGGCGTATTTAGAAGAGGGCTATTCCCGCTTTCCGGTGGTGGCCGACAATGATAAGGATAAGATCCTCGGCTATATTTACATTTACGACATTATTCGTCAGGATCAGGTGGACGGTGATTTGCCGCTGTCTCGGATTTTGCGGTCAATCATCAGTGTGCCGGAATCCATGCCGATCCATGACATTTTAATGCAAATGATTCAGAAGCAGACCCCCATCGTGGTTGTTGTCGACGAATACGGCGGCACCAGCGGAATTGTCACGGACAAAGATATTTATGAGGAACTGTTCGGTACCGTGAAGGATGAAATCGACGATGTGTCGGACGAATACATCATCAAGCAAGCCGATGGTACTTACCGGGTCAGCGGGAAGACGACGCTGTATGATTTTGAACGGTACTTCCGAACCGATGTGCCGGAATTCAAGAGTTCCGATGTGATCACGGTGGCCGGTTATATCATCGACCATCATCCAAATTTGGAATTGAACCAGCGAATTACGATCGATCACTTCACCTTCACGGTCGCTGATATTGAACACGGCTTCGTGAACTGGTTTACCGTGACGCCGGGGAAGAAACCGGACGCGGAGTCTGAGGCGGCGACGGAGCATCCTGAGGCGGCGCCGGAGGATAAAAAGGATAATCAATAA
>SRR1151209_01305 proton glutamate symport protein
ATGTTCAAACGGTATCGTTCGATTTCTCTCATTATTCGCATTCTTATTGGGATCGTCATTGGCACGACCTTGGCGCTCATCGTGCCACAGTGGTCGTTTATCAGCATTTTGGGCGACCTGTTTGTGGGGGCACTGAAGGCCATCGCTCCGCTCATGGTCTTTTTTATTATCATGTCGGCACTGGCCCAATATGAGACGGGCAGTAAGAATCACTTCAGCACTGTCATTGTCTTGTACATGGCGGCTACGTTCATCGCAGCCTTGACCGCCGTGGCCGTGTCCTACATATTCCCAGTATCGATTGTTTTCCCTAAGGGGACGCACGTGACTAACGCGATTCCCAAAGGACTAGGACCGATCATTCAAAACTTATTGACCAACGCCGTTAGTAATCCTTTGAAGGCGATCACGGATGCCAATTATCTCGCCATTCTTTTCTGGTCCTTGTTGTTCGGCGTGACGATCCGCAAGACTGGGCCTACGATTCGCCACAGTGTGCAGGAAATTGCTAATACGATTTCTTCCGTCGCGCAATTCATCATTGAATTTGCCCCGTTTGGGATCGTCGGCTTGGTCTTCAACGCCGTTTCCCAAACCGGATTGGCTGGGGTGGTCCGTTACGGCCAATTGGTGGTTCTGCTGGTCGGTACGATGGCCTTCGTTTATTTAGTGGTTTATGCCGGGATGGCCTGGATCATGACTGGGCAGAATCCCTATCCGCTGATTTTTTGGACCCTGAAGGTCAGCGGCATTCCAGCTTTCTTCACCCGTTCGTCAGCGGTGAATATTCCGATTAACATGCAAGCCAGTGCCGATCTCGGTCTGGATGAAAGTTCTTATGGCGTATCCATTCCCCTGGGCGGCTCGGCCAACAGCGGCGGGGCGGCTGTCACCATTACGGTCATGACGCTGGCGGCAACCCACACGCTGGGTATTTCGGTATCCTTCCCGTTGGCTTTTATTCTCTGCCTGCTGACGGCGATCTCAGCCACGGGGGCGTCTGGGATCGCCGGGGGATCCCTGCTGCTGATCCCGATGGCCGCCAGTCTGTTCGGCATCAGCAACGATATTGCCATCCAAGTCGTGGGGGTCGGCTTCATTATCGGTGTGATCCAAGATGCCGTGGAAACGGCTGTCAATTCGGCTAGTGATCTGCTGTTTACGGCTGTGGCCGAATACCATGACGAGAAGAAAGCCGGCCGGCCGGTGGATATTGCCGCGGCCGTCAAGGCGGCCAATGCCCGGCGCCACTAA
>SRR1151209_01306 6-phospho-beta-glucosidase
TTGGCACAGTTTCCAGAAGGTTTCTTATGGGGCGGCGCGACCGCCGCGAATCAGTATGAAGGGGCATGGAACGTGGACGGCAAAGGGCCGAGCACCGCGGACATGCTGACGGGCGGCGACGTGGATCACCCGCGTCACTTTACGAAAACGATTGAACCGGATACTTACTATCCTTCCCACACGGGCAGCGATTTCTACCATCATTGGGAGGAAGACCTGGAGTACTTGCACCGGATGGGCTTCAAGACGTACCGGTTGTCCATTGCCTGGACCCGGATCTTCCCCAATGGGGATGACGCCCAACCGAATCAGAAGGGCCTGGACTTTTACCGCCAGGTGTTCAAACGCTGTCAGGAATACGGCATTGAGCCGCTGGTGACGTTGTCCCACTACGAGGCGCCCTACCATCTGACCGAAGCTTATGGCGGCTGGCAGGATCGGCGGGTGATCGATTTCTTCGTGAACTATGCCCAGACTGTGTTCCGGGAATATAAAGGCTTGGTTCATTATTGGCTGACGTTCAATGAAATCAATATGCTGCAATCCCCGTTCGGGGCATACATGGCCGGGGCGCTGCCGCTGGCTGATGGTGCGCCGCTGACCGCGCCGGTGGGCGTACGCGCCGGCGGCGATCAGTTGCAGGCCCAGTATCAGGCGCTGCACAACCAGTTCGTGGCCAGTGCGAAGGCAGTCCAAATCGGTCATGCCGTGGATCCGGATAACATGATCGGCTGCATGATTGCAGCCGGCGTCGACTATCCGCTGACTTCGAAGCCGGAGGATACCTTCAAGGCTGACATGAGCAATAACATGCGCAACTACTTCTGCGGGGATGTCCAAGTCCGGGGCGAATATCCGGCCTTTGCTAAACGCTTCTTCGATGACAACGACATCCATTTGGATATTACGGATGAAGACCGTCAGGCGATTGCTATGGGTACGGTGGACTTCTACAGTTTCAGCTACTATTCTTCCGGCGTGCAAACGACGACGAATGAGGGCGAGCAGACCGAAAGCAACCAGACGAAGACCAACAAGAATCCTTATCTTAAGTACAACGACTGGGGCTGGGCGATGGATCCGCTGGGCCTGCGCATCACGCTGAACCGGATTTACGGCCGGTACGATATTCCGCTGATGGTAGTCGAAAACGGCTTGGGTGCCTTCGATAAGGTGGAAGCTGACGGCAGTATTAATGATGACTACCGTATCGCCTATCTCCAAGGCCACATCCAGGCCATGGGCGAAGCCATTGCCGACGGCGTTGATTTGATCGGCTACACCACTTGGGGCTGCATTGATTTGGCCTCAGCCGGTACCGGTCAAATGGACAAGCGCTACGGGTTTGTTTACGTGAACCGTAACGACAAGCAGGAGGGCGACTATAGCCGTTCACCGAAGAAGAGCTTCTATTGGTATAAGAAAGTGATCGCCAGCAACGGCACTGACTTAAGCAACGACTAA
>SRR1151209_01307 aldehyde oxidoreductase
GTGGCAGACATTAATGCAAAGAACGCTGGGCAATTCAAGTTTAGTGATCAGTTCACCGTCAACCGCCTCGGCTTTGGCACCATGCAGCTCACAGGCAAGGGGGTCTGGGGTCCGTACGCAGACCCGGACCGCGCTATTGCCGTGATTCACCGGGCCATTGACTTGGGCGTCAATTTCTTCGACACCGCTGATTCCTATGGTCCGTGGTACGCCGATCGGTATCTGGCCGCCGGCTTGAAAGGCGCGGCCAATCGCGACCAGCTCTTCATTTCAGACAAAGTCGGCCAAACCCGGCAAGGCCCCGGTCTCTGGGTCCCGCTGGGCGCACCCCACTACCTGCGGCAGCAAGTCGAAGTGTCTCTGATGACTTTGGGCATCGATCACGAAGATCTGCTCTTCCTGCACCGCGTAAATTCCCACTATTCAATTGCCGAACAAGTCGGTGAATTGCAGAAAATGAAGGACGAGGGCAAAATTCGGCACATTGGATTGTCCCAAGTTACTTTGGATCAAGTCAAGGAAGCCCAAAAGTACGCCCATATCGACGCCATCGAGAACATGTACAACGTGGCCGACCACCATGATGATCCGCTTGTCGACTACGCCGAAGATCAGCACATGGCCTTTGTCCCCTGGTTCCCGTTGAACACTGGCAAACTCACCGGCAGCGACAGCCCGCTGGAAAGCATTGCCCAGAAATACAATGTCTCGCCAGCCCAATCGCATTGGCCTGGCTCCTGA
>SRR1151209_01308 S-adenosyl-l-methionine hydroxide adenosyltransferase family protein
ATGGCAAAGTTAGTCTTGCAAACAGATTTTGGCCTGGTGGATGGGGCCGTGGCCGCCATGTACGGCGTCGCGTTCCAGGTCGATCCGCACTTGGGTATTTACAATTTGACCCACGAAATTCCGCCCTATGATATTTTCGCAGCCTCTTACCGTTTGTACCAAACCGTGAAATACTGGCCGGCCGGCACCGTCTTCGTCTCCGTCGTGGACCCCGGTGTGGGCAGCGATCGGCGCAGTATCGCCGCCGAGACCAATGACGGCCACTACATCATTACCCCGGACAATGGCACCCTGACCCATGTCGCGACATATATTGGTCTGAAGGGCGTGCGGCAGATTGACGAAGTAAAAAATGCTCTCCCTGGCAGCCAGGCCAGCCACACGTTCCATGGCCGGGATATCTATGCTTACAACGGCGCCAAGTTAGCCAGTAAAAAAATCAGTTTTGCCGATCTGGGCACGACCCTGCCGGTGGGCGACGTCGTCCGGCTCCCCTTGGGGAAAGTCACCCAGCAGCCCGGCGAGATTTCTGGCACCATCGACATCCTGGACATCCGCTTCGGCTCGCTGTGGACGAACATTTCGCTCCATGCCTTCCATGAATTGAACATTCACACCGGCGACCGGGTATTGGTGTCGATTTATCACCACGATCACTTGCGCTATCAGAACCAAATGCCCTTCACCCGCACCTTCGCCACCGTCCGTGTTGGTGAGCCGCTGGTCTATGTCAATTCCCTGATCAATATCGGCGTGGCCATCAATCAGGATTCTTTCTCCGACGTGTACCGCATCGGTACCGGGGTCAATTGGCACATCACCTTCGCTAAAGCACCCGCTGCCCCCGCCATTATTTCAGATTAA
>SRR1151209_01309 multidrug ABC transporter ATP-binding and permease protein
TTGATATTGAAACAGTATCTGAATGGGCGCTGGGTCGCCTTGAGCATTTTTCTGGCATTGCTCGCTGGGTTTTCCATTCCGTTCAACACGTGGTCGTATTCCGAGTTTTTTGCCTTAATGGGCCGCCGCCAGCCGAACCGGGTCTGGCCGGAAATTTTCGCCATCGCCGGGATCGTGATCCTGTTTGCCCTGATCGAGTACGCTTATCAGCGGGCGCTCAACCGGAACGTGGCAATTTTCAACCAAAAAGTCCGGGAGCACCTATTGACGGCGGACTTCATCCAGACCAACCAGGCCGGGGTGGCTGATCGGCTGTCTTATCTGACCAATGATTTGACGATGGTGGAAAACAACTACTTGCGCCAGATTTTCAACATTATTCGGTCAGTCGTCACGGTTGTGGTCACGCTGGCCTTTGCCCTGCGCAGTAATTTCGGCCTGACCCTGATCTTTATTGCCTTTGCCAGCATCACGCCGTTCACGCCGAAACTGCTGGCGAAAAAGACGGCGCATCGGGCTCAGCAGTGGAGCGCCCGGGTGGGGCGATATATGACGTTTATGGCGGATGTGCTCAAAAATGCGGACACTGTGCTGCATTATTCGGCCTTAGGCTTCTTTCTGGCAAAAGGCCGGTCCATCATCGGCCAATCAGTTACTGCCCAGCGGCGGCGGGACAATACCGTGGCCGCCAGTAATTTAGTGGCTACCGTCGTTGCCTATGTCTGCATGTACCTGCCCATTGGCTTTGGCGTCATGATGGTCGTCCGCGGCCAATTGACGATCGCCGCCTTTGTCGCGGTCCAGTATGCCAGCAATTGGATCGTCAATACCTTCCTCGGCATCGCCCAATCCCGCAACCAGATGAATGCCACCCGGCCGATGCTGGCCAAGCTGGCGGCGTTCAAAGCCCTGCCGGTCAACCTGTTACGGCTTGATCAGCCCACGGATCGGTTGGGCCAGTTCACGGCGCTGAACCTGGCGGCGGTGACGTTCGCCTACGCTGATGACGCCGCCCAGCCCATTTTGCAAACGATCAACTTAAGGGTGCATCAAGGTGAGAAAGTCCTGTTGACAGGGCCTTCGGGTGCCGGGAAATCGACACTGATCAGCCTCTTGACCGGAATGCGGCAGCCAACGAGCGGCACGGTGCAATTTCAGACCGCCGCGGGTAAAGCGTTTGCCCCAGACCCGACGATGTTTGCCACGGTTTTGCAGGAATCGAATATTTTTAATGACACCCTGCGCTTCAATTTGACCTTGGGCCGCCACTTTTCGTCCGCCGCCATCCAGGCGGCTTTGCAGAAAGCCGGTTTGGCCGCCTATGCTGCCGATCACGGTTTGGATAATCTGATTGCAGAAAGCGGTAATAACCTGTCCGGCGGCGAACGCAAACGGATCGAACTGGCCCGGGCATTTCTCTACAATCGCCGCTTCCTGGTCGTAGACGAAGGCACTGCCTCGCTGGACCCGGCCACCGCTGCCGCTATTCAGCAGATCCTCTTGACCGCGCCCATGACGGTGGTCGAAATCGACCACCACATCGCACCAGACCTCAGCCGGCGCTTCGACGCGCATTATGCGCTGAACGCTGGGCAATTGACGCGGGTGACGGCCTAG
>SRR1151209_01310 MutR family transcriptional regulator
GTGGCTTTATCGTTTGGCGCAACATTCAAAGCATTTCGGTTAGAACAAAATCTAAGCCTCAGCCAAGCAGCGGGGGATATCGTGGGCAAATCATTTCTGTCAAAATTTGAGCGCGGCCAGTCGGCCATTTCTGCTGAAAAGCTCTGGGCGCTGCTGCAACGGATGAACATCACTGTTAGTGAGTTCCAATATCGTGCGCTGCGCTATACCCGGACCACGAGTGAAGCGTTCTTTGCCCAGCTCCGGGAGGCCGTGGCGAATAATCGCCAAAACATCGCGGCCGTCGACAAGCTGATCAGTCAGGCCGAAATTCGCTTCAACCAGACCCGGCTGCCCACTGACCGGGTCAACGCCATTGCCGCCCGGGCGATCAAGTACACGATCCTGAACGGGCAGAAACTGCCCCAGGATCAAATCGACTATGTTGCCGATTATCTCTTTCGCGCAGAAGAATGGCGCAGCTACCACCTGCAAGTGATCAGTTACATGCTCATTTACCTGGCCGATGCCACCCGTCGGCAGATCGCCCAGACGCTGATCACCCAGGCCAGTAAATTTCAGGCCATCGCCGGCAACCGGGAACAGGCCACGGAAATTCTGTTGAATATTTTGGCGTTGATGATTCGGGATCGGCATTTTCAAGAGGTGACTGAAATGCTGGGCCTGCTGGCTAAAAATTCCGGTATTCAGGCTTCACTAACTTCGTCAATCGCGTTTTACGCGCTGAAGTCGGCCTATTGGTTTGTTTCCGGCGAGGAGGCCCGGGGCCGGTCGGAACTGCAGTGGGTCTTTCAGACACTGCACCATCTTGGTGAAGATGAGTATGCCCAAGCCCTCAGCCACCAGTGGTATCAGCTGACCCGCCAGCGTATCGACTACTCGCCGGACATGTTTGACCAGGATTGA
>SRR1151209_01311 nitroreductase
ATGACTGAATTACCTGTAATGCCCTTAACCAAGAACGATTTTGCCCAGAATGTCTTTGGCCGCCGCTCCATTCGCAAGTTTGACAGCGACTTTAAGATCACGCGGGCTGAGATGCAAGAAATTTTGACCCAGGCCGGGCGGGCGCCGTCCTCCATGAATTTACAGCCGTGGCGGTTCGTGGTCGTGGACAGCACCGCAGGAAAGACCAAATTACACGATCTCGTGATGACGAATACGCCGCAAAATGACACCGCCAGTGCGATGATCATTGTGTTCGGCGTAGACCATCCCGAACGCGATGACGCCAAGATTTATGACGCAGCCGTGGCTGCAGGGACCATGACCTCCGCCACCCGGGATGAAGAAGTGGCCGAAATTGACGCGTACTACCACACCATGGGCGATCTGGCCCGGGAGAAAACCATCAGTTTGGATGCTGGGCTGGTGACGATGCAACTGGCCCTCGTGGCCCGGGCCCACGGCTATGACACCTGCATCATCGGCGGCTTCAACAGGGCGGGGGTCAAACAGGCCTTTGCCCCGAACGAGGAGTTGCACCCAGAAATCATTGTGGCCATTGGTCAAGCCGCCGAGAACGGTTATGAAAGTGTCCGGCTGCCGGTGGCGGATACGACGACGTTTGCGTAA
>SRR1151209_01312 hypothetical protein
ATGGGAAAAATAGTGAAGGGGCTATTCGGCGTATTGGTGGCCGCAATCGTATTGCCATTAGTGGGAATCGTGCTCGCTGCGGTCTTCCTCACGGTGTTAGGCGGGGCGGGCTTAGTTCTGTTATTTGCGCTGGCGGTCGTGGTGCTGGTGCTGATTTGCTTGCCGTTGATTATTCTCGCCGTGGTCTGGGCGCTGAGCCGGCGCACCTATGACGACGTGACGGTGACGATTCATGATGATCAGGGCCGCGCTCGGTATCGGATCCATCTGCCGGTGGTCATCAAGGATTGGCTGCACCGTATTTGGCAGCAGTACCGGGCCAATAAACGGGCCGGCCGCGGCGATGCCCTGAATACGGCGGTGGAAACAGTGCTGATGAACGAACTGAAACCGCAAGTGGCGGCGGCGGTAGCCGCCCAGTATTCCGCCGCGGACGGCGAACGGGTGACCCAGGTCACGGACATGCGGCAGTTTGACTTGGACATCAACGACGGCCGCCGCCACGTCCATGCGGGCCGAAACGTCGACAGTCAGAGCTAA
>SRR1151209_01313 alpha-L-rhamnosidase
ATGGCCATTCAAATAACAAATTTACGCGTCAATTTACAATCTTTTCCCAGTGATGTCACTGATGACGCCCGCTTCAGCTGGTGGCTCGCCAGCGATCGCGATAACGACCGGCAGACGGCCTATCAGCTGCGGGTAGCCGCTAATGGTCAACCCAAACCACTCGCCGTCACTGCTTGGCAGCGCGGCCACCGCAACGCCGGTGTGCCCTGGCCGGACTTGGCACCGCTGCTGCAGCCCGGCCAATTATATTCGTGGCAGGTACGAATCAAGAACAGCCAGAAAGAAAAGAGTTCCTGGAGCACCCCGGCGTATTTCATTACTGCCCTGCCCCATTGGTCCGTACCCGGTATTTGGGCCGCGCCGGCCCAGGCTGGCGGTGACACCCTGCCGGCGACTCAGGCCTTTGCCTTCTTACAAAGTCCCATGATTGATCTGGATCCGGCCGGTTATACCAAGGTCGTCATCCGCCTCGCCAGCCGCGGCGCGGACAGTCTGCTCAGCCAAAACGTCGATCTCTTTCTTAACGGCCACGCTGTGGGAGTGGGGCCGGCCCGGCCTCAGGAAAACATCGACGGCAGCGGCGCCCGTGCCTATCACTACAATACATACGACGTTACCGCTGCGCTGGTCAAACACAATCAGCTGGCCCTGCTGGCCACCGCGGCGGATCCCCAGCCCAGCGTGCACCTCGCCGTCATCGGTTATACCGTCGCCGGCAGTATCGTGACGCTGGCCCAGACCGGCCCGGAGTGGACCGGCCTGGACGGGACCACCGCCTTTGGCGACGATGGCACCCGGCTGCGTACTGGTTATTTTGCCATGCCTGCCGAAAATATTGACATGGCCCATTACCCCCGCCACTGGTGGCACGGCACGGCCGCCAACTGGCCGGCGGCCGTGGTGACCCGGCCCAGTACGGTTCAGGACGACGAACGGATCATGCCCTACGCCGCGGAAAACAGTGAACGGCAACTGATCAAGAACCATACCAAGGTTGCTGAAATCACCCCCGGCAACTGGCTGATTGACTTGGGCCGGGAAATCATCGGCGGCCTGGCGGTCAAGCTGACCAGTCCCGCCGCCCAGCGGGTCGTGGTCTGGCAAGGGGAACAGCTCACCGCTGACGGCCACGTCCGCCACCACCTCGCTGCCGGGCCGGACTATATCAGCCAGTGGCATCTGGTCAGCGGGAAGAACCACTTTCTCACCGCCCAGATGAAGAACTTTCGGTATGTTGAACTGCGCGGCTTCCAAGGTACGCTGACGCCCGCGGACATCGCCGGCTGGCAGATCGCCCAGCCCTTCCCCGCTGACGACGGCCGCTTTCACAGCAACGTCCCGCTGCTCAATGCCGCCTACAAGCTGTCCCGGGACACGATCGCCATCACCAATCAGGATCTTTTCGTCGATTCCCAGGCCCGGGAACGCCGGGCGTATGAGGGCGATTTGCTGGTCAACAGCCTGACCAGCTACACCGTATCCCGCAATGACGCCCTGGCCCGCTATTCCATTGACTATCTGCTGGACCACCCCACCTGGCCGGAGGATTACAAGCTGTTCAACGTGGAAATGGTATGGTGGGATTATCTGTACACCGGTGATACCGCCTTGCTGACGAAGCGCTACGCGGTCTTAAAGGCCAAGCTGCACCGCGGGCCGAACAACACCGACAATTACGACCCGGCGATGCATCTGGTCCGGGGCACCGGCCTGATCGATTGGCCCGAACGGGAACGGGACGGCTATGTGGTCGGTACATACAATACCGCCTTCAACGCCATTTACGCCGGCGCCTACCGGATCATGGCCAAGATCGCCACGGTGCTGGGTGAGCAGACGGATATGGCCCACTACGAGAATCGGGCGCTGTTGGTGAAGAAAACTCTGATCGACCGTCTCTGGGATCCCGCCGCTGGGGCCTTCTACGATAGCCTGCAAGCCGACGGTACCGTTACTGCCCACCACGCCAAACACGCCACCGCGTATGCCCTGGCTTACGACGTGACCGATAGTCCGGCGATGACCGCCCAGATGGCCAAGACCGTGTACAACAACGGCGAATTCTTTGGCAGTATTTACTTCATTTACTTCATTCTGCGGGGCTTGATCGACCACGGGTATGGGGCACTGGCGGAAAACCTGCTGACAAATCCGGATGACCGGGCCGACCAAAAGACCTTCGCCGCGATCCTGCACACGTTGCGGGCAACCGTGACCCCCGAAGCTTGGAGCAACCAGAACAAACCGAACCTGACGCTGTCCCACCCCTGGGGCGCGTCGCCAGGGCTGACGATCGTCCAGGGCCTGGCGGGCATTATGCCCCTGCAAGCCGGCGGCTACCGCTTCAGCGTCCGGGTGCAGGTCACGCCGGGCACCACGTTCCAGCTCACCACGCCGTCCAGTCAAGGCTTGATCCGGCTAAACTATCACGAAGAGGGCCGCACCGCCGTACTGGCACTGACCGTGCCGATGAATGCCGAAGCCGTCGTCCGCACGCCAAAGGGCCCCATCGCCGTCGACAGCGGGACCCACACCGTCAGCTATCTGCGGCCGGTGCCCCTTGACGGGGATTAG
>SRR1151209_01314 S-ribosylhomocysteinase
ATGGCTAAAGTCGAAAGCTTCACGTTGGACCACACCGCCGTCAAAGCCCCCTATGTCCGCTTGATCACCGAAGAAACCGGGCCCAAGGGCGATCTCATTTCTAACTATGACCTGCGTCTGGTGCAGCCCAACGCTGACGCCATCGGTACCGCCGGCCTGCACACAATTGAGCACCTGCTGGCCTCCTTGCTGCGCGACCGGCTCAGCGGCGTGATCGATTGCTCACCATTCGGCTGCCGCACCGGCTTCCACCTGATCACTTGGGGTGCACATTCCACCACCGAAGTGGCCCAGGCGCTGAAGTCCAGCCTGGCGGCGATTGCCGATGACATTCAATGGGCGGACGTACCTGGTACGACCATTGAAAGCTGCGGCAATTATAAGGATCATAGTCTGTTCTCGGCTAAGGAATGGGCGAAGAAAATTCTTACTGAAGGGATCTCTGATGATCCGTTTGAGAGACACGTTATCTAA
>SRR1151209_01315 hypothetical protein
ATGCAAAAGGCAAAGGTATTCGGCTTTTACGTGGCGGTTATTACCACGCTTTGTTTGCTGGTGCTCCATCTCGTCAATGTGTCACCGTTTGCCGATCCGACCAGTGAAATGCTCTTGCTGTTAGGATTAACTTGTGCACCAGCCCTCTTTGCTGCCGGTAAGACATACGCTGAGCGCTGGTCCCGCCATTTTTTGCTGCCGTTATTCAGTATCATCATTATTGGTTTAGTCCTGTTGCTGATCTACACCCGTAAGAGCATTATCCAATCTGGACAAGTTGTGAATATGGTGCTGCCTTTACTGTTTCTGATCACAGGCGCTTTCCTCAGTGGTCTGATTGCTGAAAAATAG
>SRR1151209_01316 short-chain dehydrogenase
ATGGCAAATAAAATTGCATTGATCGTCGGTCCAGGACACGCCGGTTTAGGCCAGGCCATGGCGGAACAGTTGGGGGCGCAGGGGTATACGATTGCGCTTATGGGGCGGCAGGCGGAGCCATTGGCGGCGCTGGCCAAAATCTTGGCCGGTGAGGGTGTCACGGCTTTTCCTGTGGCAGCCGATGCGGCGAATCCGACCAGCGTAACCAAGGCTTTGGCAACGATCAGTGCCCAGGGCAGCTTGCAGCTGGTGCACTACAATGCCACCCAGCGGACGACGAACAAGCCCAGTCAATTGACGGCTGCTTTGGTCACGGAGAGCCTGGCCAGCAACCTGCTGGGGGCCATCACCGTGACCAATCTCAGCTTGCCGTATGTGGAAAAGACCGGTAACGGCGTGTTTCTGTATACCGGCAGTGTGGTTGCGGCCAAGCCGGGTCCGACCAATGTGGAGCAGGCCATCGGCAAAGCCGGGCTGCGGGATTACGTTGTCGCCTTGAATAAGGAACTGCATGCCCGGGGCGTCTTTGCCGGCATGGTGACGATCAATACGTATATTCGGCAAGGCAAGGCCGGGCATATGGACCCGACAGTGATCGCCCGGGCGTTCATTGAATTGGCGACGCAGAAGAATGCGGCGGAAGTGCAGTATCATTAG
>SRR1151209_01317 L-ribulose-5-phosphate 4-epimerase
ATGTTAGACAAGTTAAAAACCGAAGTTTACGACGCCAATATGCGCCTGCCCAAACTGGGCTTGGTCACCTTTACCTGGGGCAACGTATCCGGGATCGACCGGGACAAGGGCCTCTTCGTCATCAAGCCGTCCGGCGTTGATTACGGCGATCTGAAGCCCAGCGACATGGTGGTCGTGGACTTGAACGGCAAAGTCGTCGAAGGCAACATGAATCCGTCCAGTGATACCCCGACCCATACCGTGCTGTACAATGCCTTCCCGAAGATCGGCGGCATCGTCCACACCCATAGTGAAATGGCCGTGGCCTTTGCCAGTGCCCGCCTGGATATTCCGGCGGTCAACACGACCCACGCCGATACCTTCTACAACGATATTCCCGTCACCGAACCGCTGACGAAGGAAGAGATCGAGAGTGCCTACGAAGAAAATACCGGCAAGGTGATCGTCAAGACTTTCGCTGACCGCGGCTTGGATTACGACGCGACGCCCGGCTGCTTAGTCGGTCAGCACGGTCCCTTCACCTGGGGCGCGACGCCGGACAAGGCGGTTTACAACGCCAAGGTCCTGGAAGTTTGTGCCAATATTGCCTACCATGCGACGATGCTGACGCACAAGGACATCCATGTGCCCCAGTATTTGCTGGACAAGCACTACTACCGCAAGCATGGGGCCAATGCGTATTATGGTCAGAATAATCCGGACTCGAAGAACCACGCGGCCCGGGAAGATAAGTAA
>SRR1151209_01318 aminoglycoside adenylyltransferase
ATGCTGGCCCAGGTACTGGCGCTGGTGGAACGGGATACCAACGTTCAAGCCGTGGGGGTAGAAGGATCGCTGAATGACCCAGGGAAAAAGGGCGATGCCTGGCAGGACTTGGATGTCACCCTGTTTGTGACTGACGCGGCGCCGAAATATGCGGCCCCTTATTTGGCGCTGTTCGGTACTCCGACGATCGTCCGGCATTTTCACGAAAAGGATCTGTGGGGTCAGGGCGGCGTTTATTGGGAAACTTTTCTCACCCGCTATCCCGGCAGTCAGCGGATGGATCTGAAGCTGGCGCCGGCGGCGGTGATTGACGATTACTTAGCGGCGGAAAGCTTGAATGCAATCGTCTGGCGGCGGGGTATCGGGCCTGTGCCCCCGCGGCCGACGGATGCCAGCAGCTTTTATTTGGCGGCGCCCACTCAGGCTGAGTTTGCTGATCACTGCGCCGAACTGCTCTGGATCGCCGGCAATGTGGTGAAGGGTCTGGCCCGGCACAATTTGATTTACGCGGCCGGTCAATTCAATGATTATTTGCGTCCGGAGTTATTTCGGTTATTGTCATGGCAGGTGACTCTGGAACGCAGCGGTCAATTCGACCCTGGCGTAAGCCATAAGGGACTGTGGGCGGCGCTGCCCACTGCCGTCCGGGATCGGGTCATGGCCACGTATGACCTGCATAACACCCTGGCGATCACCGCGGCCCTGCGCCAGACACTGGCCCTGTACACCGAAACAACGACTGCTATTACCCGATTGGGCGGGCTGCCACCGCTCATTGAATTAGCCCCGGCCCTGGCGCAAATTCACCAGTGGCTGGACCAGCCGCTGGCTGATTAG
>SRR1151209_01319 methylglyoxal synthase
TTGAAAATTGCTTTGATTGCCCACGATGCCAAGAAGCCGGAAATTGTCCGGATCGCCACGGCCTATCAAGAAATTCTGCGCCAGCACGAGCTGTATGCCACCGGCCATACCGGCCAAGTGATCAGCGACGCCACTGGTTTAAAAATTCACCGGTTTAATTCCGGCCCGCTGGGCGGCGACCAGCAAGTTGGCGCCTTGATTTCGGAAAACCAAATGGATCTGATTATCTTTCTGCGCGACCCGCTGACCGCCCAGCCCCATGAGCCGGATGTGAATGCCCTACTGCGGCTCTCCGATGTCTACGACGTGCCCATTGCCACCAATGCCGGCACGGCGGAAGTACTGTTGCGCGGCTTAGCCGCCGGCTTCCTGGATTTCCGGACGATCGTGCACGGGGATGAAGAAAAACATGAGTGA
>SRR1151209_01320 hypothetical protein
GTGTTTTATCAGACCCGGGTCGGCATCGTCGGCATCGTCGCCCCTACCAAGGATCTGACGGTGACCCTAGCGACGCCGGAACCCAACACCAACATTGATTTTCCTAAGACCCGGATCCCCATGCAGACCGGCGTTTTGACCCCGAGGACGCATACCCTGGTGACCCTGTTTCTGGGTGACCGGGAGTTAGAAAGTCTGGTCCACGGCCATATCCAGGTGCCGGCAGTGCAGCTGACCGGCAACCAGTTAACGATTGCTGACCACCCGATTACCCTCACCGAATGGCCGACGGTATGA
>SRR1151209_01321 galactosidase
ATGACCACCACTCTTACGATCACCGGCCGGGACATTCACACCGACCAGGGCGACGCCAATACCTTCAAGGGCTTTGGCTACCTGAACTGCAATAATTCTTCCCGCTTGCTGTTGGATTTACAAATGGCAGCAGCCTGA
>SRR1151209_01322 beta-glucuronidase
ATGGAACAAAGTTTATTATACCCAGTCGTCAATGCCGTCCGCACCGATCAAAAACTGGATGGGCTCTGGCGCTTCTCCTTTGATGCGGTGGGCGTTGGCCCACAGGAGGGCTGGGCCAAGCACTTGCCCAAGGCCGTCGATATGCCGGTACCGGCCAGCTTTAATGATTTCTTCACGGATAAAGATGCCCGGGAATACACTGGGGATTTCTGGTATGAGAAAAAGTTCTTCGTGCCGGCGGATTACCAGGGTCGTTTCGTGGGCCTGCGCTTTGACGCGGTGACCCATCGGGCGACGATCTACGTCAATGGGGTCAAGATCCGCAGCCACGAGGGCGGCTTCCTGCCGTTTGTGGCGGACGTGACCGATGCACTGCATTACGGGGAAGAAAATACCGTGGTGGTGCAGGGCAACAACGAACTGTCCCGGGAAGCCCTGCCGGCCGGTGATACGATCACGTTGAAGAATGGGAAGAAAATGGCCCGGCCTTTCTTCGATTTTTATAACTACTCCGGCATTAACCGCTCGGTCCATTTGATCACCCTGCCGGTGGAACGGATCACCGATTACACGACTGATTTCACCCTGGCTGGGGCGGACGCGGATGTGCACTATACTGTGACCACGACGGGGGACCACGATGTTGTTGCCGTCCTGCGGGATGCGGACGGTCAAGTCGTGGCCGAAAACATCGGCAAACAAGGCACGCTGCACGTGACTGATGCCCACCTGTGGAACGTCCGCGCGGCTTATCTGTACACTTTGACGCTGCAAATCACCAACGACACCACGATCGTGGATGAATACAGTGCCGAAATCGGTATTCGGACGATCAAGATCGTCGGGACAGAGATCCAAGTTAACGGCAAATCCGTGTACCTGAAGGGCTTTGGCCGTCATGAGGATTCTCCTTTCGCCGGGCGGGCTTTTGACCTGAATGTAGAAAAAAAGGATTTCTCCCTGATGCAGTGGAGCGGGGCCAATTCTTTCCGGACCTCCCACTATCCCTACGATGAACAGGTTTATCAAATGGCCGACCGGGAAGGTTTCCTGGTCATCGACGAAGTACCAGCGGTCGGCTTCAAAATGGTCGCGGCATCCTTCCTGGGCGGTTTGAATCAATCCTTCTTTAAGGGCCCTTGGATCAAGCCGCTGCATGCCAAGCATTTGGACCAGATTACCGATATGATCAAGCGGGATAAGAACCACCCCTCCGTCTTTGCCTGGAGCCTGCTGAATGAACCGGATACGGTGACCGAAGAATCGGTACCGTACTTCAAACAGATTTTCGCGGAAACCAAGGACTTGGATCCCCAAAGCCGGCCGCGGACATTCAGCCTGAGCGAGGACGATACGATTGAGACCTCGAAGGACTTGGATTTCCCTGATATCTATCTGTTGAATCGGTATCCGGGTTGGTACCACTACGCCGGCTATCAGATTTTGGACGGCGAAGCGGGCTTACGGGAAGAAATGGACAAGTGGGCCGCCAGCGGCATTAATAAACCCATCGTCTTCACTGAATTCGGCGCTGACACGGAAGCGGGTTTGCACAAACTGCCCAGCGTGATGTGGAGCGAAGAATATCAAGTCGAAGTCTTGGAAATGTTCAGCCGGATCTTCGACAGCTACCCGTTCATCAAGGGCGAGCAGGTGTGGAACTTCGCCGACTTCCAGACGGTGGAAGGCAACATGCGGGTCAACGGCAACAAGAAGGGGATCTTCACCCGGGATCGCCAGCCTAAGGCGGCGGCGTTCTTTTACCATAAGCGGTGGACTAATATTCCGTTGGATTATAAGGCTCAGAAATAA
>SRR1151209_01323 LacI family transcriptional regulator
GTGAAGGCTTTCGCCTATTACACGGAAAGCAGGAAAAAGAAAACGACTACCATCAAAGATATCGCCAATAAAGCAGGGGTCTCGATTTCCACTGTGTCACGTATTTTGAATTTCGACACCACCCTGTCTGTCACCGACGCGACCCGGGCCCGGGTGCTGCATGTGGCGGAAGAAACGGAATATAAACCCCGGCGGAAGAAGACTCCGAAGATCACGACGAAGATTGCTGTGATTCAATGGCATAGCGAGAAGCAGGAATTGAATGACCTGTATTATTTGCAGATCCAATATGCCATTGAGAACACTGTCCAAAGCAGCGGGGCGGCGCTGCAATACGTGACCACGGAAAATTTCAACGAAGCCGTGAACAGCACGTTCTCTGGGATCATTGCCCTGGGCAAGTACGGTCATCAAGAGATGCTGGATATTGCAGCAAAGAAGCTGCCGGTGGTTTTTGTCGGCCAAAATTCTTTGGCGGACGGCTTTGATAGTGTGACCAGCGATTATGTCAGCCCCGTGAAATGGATCATTGATCATTATTTGGCTGCCGGCATCCAGGACATTGGGCTGATCGTCGGCCAAGAAGCCACCAGTATCGGCCATCAGGAAATCAAAGACACCCGTTTGCAGGCTTTCGAGACCTTTGGCCAAGCAGCCGGGGTGTATACTCCGGAGCATGTTTTCGTGGGGGCCTTCACTCCGGAATCCGGGTACGCGTTAATGAACGAAGCCATTGACCAGTTGGGCGACAAACTGCCCCACGGCTTCATTGTGGGTAACGATGCCATGGCCGTGGGCGTGATCCGGGCGCTGAACGAACACGATCTGCCCATTCCGGAGCGGGTCAGTCTAATCAGTTTTAATGACGTGGCCGTGGCTAAATATACGAGCCCGCGGTTATCGACAGTACATGCCTACACGGATCTGATGGGTGCCGGGGCGGTCCAGCTGTTGCAGGAACGGATTTCGGATCCTAAGCGGGTGGCGCGCCAGTTCAATTACGCGACCAAGTTGATTTTACGGGAAAGCAGTAAATAA
>SRR1151209_01324 alpha-glucosidase
ATGGTCCAAGATCCGCAGGCCATTCAGCAAGAATCGTATCATGACGGAGTATTCAGTATCGCCACCACCAAACTGCACGGGCAGTTGAGCTGGGTGAATGACCATATTGTGCGGGTGCGGGTCAGCCAGACTGACCACTTCCCAGATCGGCCGACTGTTCCAGCGGACGTCCAAGTGGATAAAAACGGCGACCACACCGTCGCCACCGGCGGCAGCGGGCAAACGGACGAGACGCCGATCGTGATCAACAACGATCACTACACCCTGACCACCGCCGATGCCTACCAAGCCGATTGGGAAAAGGCCCATGGGACGCTGCACATCAGCGGGCCCCATGGTGCCATCGTCGATCTGCATTTGCCCAGTTGGGACGACGCGGGTAAGACGTGGACCGCTCGGCTGACCTTTTCTCCAGACGAGTACTTCTTCGGCGGCGGCACGCAAAACGGCCGCTTTGCCCTGCGCGGACAGCGGGTGACGATTGCCAATACCAATCTGTGGACCGCCGGCGGGGTTGCCTCGCCGGTGCCCTTCTATTGGTCCACCGCCGGTTACGGTGTGCTGGTCAACACCTTCACTCCGGGGCTTTATGATTTCAGTACCCCCGCCCACGGTGTCCAGTTATCCCACGATGACCCGTATTTTGATGTTTATATTATCCTAGGCCCAGATCCGACCCATCTGATCCACGGCTACCACGAATTGACCGGCAAGCCAGTACTGGCCCCGCGGTTCAGTTTCTATCCGGCCCATTTGAACGCCTATAACCGAGATTATTGGCTGCCGGTAACTAAGAATTCCGTCGGCGCGATCCTTTTTCCGGACGGTCAGTGGTACAAGGAATACCAGCCTGTGAGCGAAAAGACGTTTAACACCGGCTACCGGGCCGGCGCGATCACGGTTGCTGGGCAGACCCTGGTGCCCAACGTGGGCGCGGCACCGGTGACCTTCACCAAACACGATGCACAAGGCAACCCCACCGGGGCGGTACATGAATCGCTGAATGGCGAGGGCGCCAGTGCTCAATTCTCGGCCCGGGCGGTGCTGGATCGGTATCTGGAAAACAAAATGCCGATTGGCTGGTTCCTGCCTAACGACGGTTACGGTGCCGGCTATGGCCAAACGGCCGATTTTGCCGGCGACTTAGCCAATCTGCGGGACTTCACGGCCTATGCCAATGATCAGGGCGTGGCTGTGGGCCTGTGGACCCAAGAAAAACTCCACCCCAATGATCCGGAGCACCCGCAAAAGGGTGAACGGGACATTGGCCAAGAAGTCAGCACGGCTGGCGTCGCCGCGGTGAAGACAGACGTGGCCTGGGTCGGTGAGGGGTATACCTTCGGCCTGCACGCCACCGCCGACGCGGCGGCCGCGATGACCAAAGCCGGCCACGGTCGCCGGCCGTTCATCATGAGTCTGGACGGCTGGGCTGGTTCCCAGCGCTACACCAGCATCTGGAGCGGCGATCAAGGCGGCGATGACTGGGAAAACATCCGCAGCCACATTGCCACGTATTTGAGTACCGGCCTGTCTGGCAACCCCAATGTCGGCAGCGATATCGACGGTATCTACGGCGGTCGCGACCCGCTGATTCAGACCCGGGATCTGCAGTGGAAATCCTTTACACCCATCCAACTGAACATGGATGGCTGGGGCAGCCAACCGAAAAACATGGGCTTAGTCTTTGGCCAGCCTTTTGTTGCGATCAACCGGGCCTATCTGCAATTCAAGACCACGCTGCTGCCTTATCTGTATACGCTGGCCCACACCGCCCGGGAAACGGGGGCGCCCATTGTCCGGCCGCTGTTCTGGCTGGAACCGGACGCCTATACCTACGGCAGTGACACCGATACTGAGTTCCTGCTGGGAGATGATCTGCTCGTGGCACCGGTCACCAGTCCGTATCGCCTCGCCCGGGACGGCAGTGCCCGGGTGCCGCATCTGTATCTTCCTGATCCCCACGCCACTTGGGAAGACTTGTTTACCGGGGAGCGGTATGCCGGCGGACAAACCTTAGCCGATTATCCGGCGCCCCTGGCCCAGACGCCGATTTTCGTCCGGGCTGGGGCCCTGCTGCCCCGGGTACCGGTCCACTTGACCCCCGGTCAATATCCCGCGGATACCCGCATCGTCACGTATTTCCCCGGGCCGCGGCCCAGTGAAACCACCGTTTACAGCGATGACGGCGCCACGTTGGCCTATCAAAATGGCGAATTCGCCACCACGGCGTTGCGTGCCACGGATGACGGCCGCCGGATCATTTTCACTCTGAACGCCACTCAAGGCACCTATACCGGTCAGAACCAAGCCCCGCTTGTGCTCCTGCAAGTGGCCACTGACGCCCGCCCGCACACGATTCAAGTCACCAGCAATGGCGAGACCCGCAAGCTCCGCGAAGCCCTCAAGCCGGTCACGGACGCGCCTAGTTGGCAGATGGGCCCGCTCACCGCCTGGCCGCTGGCCCCCATCGCCCCGCGCAGCGGCATCACCGTCGCCCTGCCGGCCCAAGCCATCGACACCGACGTAACAATTATCATTGATTATTAA
>SRR1151209_01325 nucleoside hydrolase
ATGTCCACACCAGTTATTATCAGTACCGATCCTGGCATCGACGACGCGGTCGCCATCGCCATTGCCCTAGCCGACCCGCAGCTTGACGTGCAACTCATTTGCCCGGTCGCCGGCAATGTCAGTCTGGTCCATACCACCGACAACACCCGGAAGCTGCTCACGCTCCTGCACCAAACCGTCCGGATCGTTCCCGGCAGTCAGCGGCCCCTGCTGCGGCTGCCAATCAACGCCGGCAACATCCATGGTGTCAGCGGGTTGGCCGGTTACGATTTTCCAGCGCCCACCGTCCCGGTGGATACCACGACTACTGCTGCAGCCGCCATGCACGCCGTCGTCAGCCAGCAGCGTGATAAGACCACCCTGGTGGCTATTGGTCCGCTCACCGACATTGCCCTCTACCTGCACCAATACCCCACCGACCGGGCGCGCATCGATCAGCTCGTGCTGATGGGCGGCGCCATCGGCCGGGGCAATTGGGGCGTACTGTCCGAATTCAACTTCGCCGCCGACCCGGAAGCCGCCGACATCGTCTTCCGCTCTGGGGTCAAAATCAAAATGGCCCCGCTGGAAGTCGGCACGCAAGCCAAAATCATGCCCGCCGTGACCGCCCAAATCCGCCAACTTGGCACAGTCGGCGACATGTTTTATCACCTTTTCGCCCACTACCGCGGCGGCAGCATCCAAACCGGGTTGAAAATCTACGACGCTCTGGCCATTGCGTTGTTGACCCAACCCGATCTGTTCACCCTGGCCGCCACCAATGTCACCATCGAAACCCAAGGCACCTATACCGCCGGCGCCTCCTTAGTCGATCTCCAAGACCGGCTGCACGAACGGCCCAACGCCCAAGTCGCTACAGCGGTAAATGCATCCCGATTTACCGACTGGTTCGTAAGTGCCCTGACTCAAACAAAGTAA
>SRR1151209_01326 spermidine/putrescine ABC transporter permease protein
ATGCAAAAAGCCAACCGGTTCTTACTGTTGATACCGGCAGCATTAGGAATTATCGTGTTTGCCCTGTTTCCCTTGATTCAAATCGCGATTCCCACCGTCACCTCCGGGGCAAACCCGATTGCCCTGTATACTCAGTTCTTGCAAAGCAACTACGATCTGCAAGTCATATTCCGAACATTAACGATTGCCACAGTCACGACAGTGATCACCGTCCTGCTGGGCTTGCCCACCGCGCTGTGGATCAGCCGGCAGAGCGTGTCCTGGCGCCAGTTTCTCTCCGTGATCATTCTCTTCCCGATCCTGACCAACGCCGTGGTCCGCAACTTTGCCTGGATCATCATCTTGGGGAAAAACGGCGTCTTGAACAACATGCTTCAGGCTTTACACCTGATCAGTGCGCCGCTCACTCTGCTGTATACGAATACGGCGATCGTCATCGGCTCCGTTTACCTCTTTCTGCCCATTATGATCACTACCCTCGTGGACAGTGCCAATGGGTTGAATCCGGAAATTGAGGAAGCCGCCGCTGTCTTGGGTGCCCGGCCATTCACCATTCTCCGGGAAATCATTCTGCCCCAGATGGCCCCGGCTATTCTCACCGGCGCCATCCTGGTCTTCTCCGGAGCCATGACCGCTTATACGACCCCGCAATTACTGGGCGGCAACCGCCACTTGGTGATGTCCACCTTGATTTATCAGCAAGCGATGACCCTGGGCAATTGGACCAACGCCAGCGTTGTCGCCATGGTCTTGATTGTTCTGTCCCTCATCGTCTTAGGCCTGCTTCGGTGGTACACCGGACGGCTAGATCGGCGGGTGGATCATGCTTGA
>SRR1151209_01327 spermidine/putrescine ABC transporter permease protein
ATGCTTGATCGGCACAATCACGTCCTCCAATTGATCGGCGTCATCGTCCTCGCCCTGCTGATCCTGCCCCTAGGCATCGTCGTCGTGACGTCCTTTGGTACCGAACCGACGATTTCGTTTCCCATTAAAGGGTTCACCCTCGCCTGGTACGCCAACATTTGGACCCAGCCGGCCTTCGTAGACGGCTTCCAGTCCAGTCTGACCATTGCGCTGCTGGCCAGTCTGCTGGCCCTGCTCATCGGGGTGCCGGCGGTGTACGCCTTGACCCGGTTCGACATTCCCCAGAAGGCCTGGTTCCAGACCCTGTTTCTCAGCCCGACGCTGATTCCGGAAATCGTTATCGGCTTCGCCCTGTACCAAACTCTGGTCATCGCCTGGCGCCTGCCGCTGTGGCCCAGCCTGCTCATCGGCCACTTGCTGCTGTGCCTGCCCTACGTCATTCGGCTGGTCACCAGCAGCATGCTGCATCTGGACCCGCACATTGAAGAAGCCGCTTGGACCTTGGGGACCAGTCGGCCGCGGGCCTTTTTCACCATCGTCCTGCCGAATATTCGGACCAGTATCGTGGCGGCGTTCATGCTGTGCTTCATCAATTCGTTCAACAACATCCCGATTTCGCTCTTCTTGAACGGTCCCAGCCAGAACATGCTGCCGACAGCGATCCTGAATTATTTGCAAAACAACTACGACCCCACCGTCTCGGCACTGTCCGTTGTCTTAATGCTCTTCACCGCGGTACTGATGCTGCTGATGGAAAAACTGCTGGGCGTGGGCGCGTTGACCACGACCGAAACCAATTAG
>SRR1151209_01328 spermidine/putrescine ABC transporter ATP-binding protein
TTGGCTCGTTTGACACTCGATTCTTTGGCCATGACATACGGTCACGGCGATCCCATTTTGCACGACTTATCCCTCGCCGTCGCCGACGGCCAGCTGGTCTCCCTGCTCGGACCCAGCGGCAGCGGTAAAACCACGACGCTACGCATCATTGCTGGCCTGCTCCAGCAGACCAGCGGGACGATCAAGGTGGACGACGAAGACATCAGCCGCGTGCCGGTCTACAAGCGCGGGTTGAGCATGGTGTTCCAGAGTTACGCTCTATTTCCCCACCTCACCGTCTTCGCCAATGTGGCTTACGGCTTGAAGCGGCAAAAGCTCAGCAAAGCCGATATTACCGCGAAGGTCACCGCCATTCTGCAAACCACCGGCTTGACCGACCTGGCGGAACGCTATCCCCAGGAACTCTCCGGCGGCCAGCAGCAGCGGGTCGCTTTAGCCCGGGCGCTGGTCGTTGACCCCCGCCTGCTCCTGCTGGATGAACCGCTCAGCAATCTGGACGCGAAGCTGCGGGTGGCGATGCGGGAAGAAATCCGCCGGCTGCAATTGCAGCTGCACACCACGACGATCTTTGTCACCCACGACCAGGAAGAATGTTTCGCCATTTCGGATAAAGTGGCCGTCTTGAACCAGGGGAAGATCGAACAATATGCCGCGCCCGAAGAGATTTATCACCATCCCCAGACGGAGTTTGTGGCCCGCTTTATCGGCTTCGAAAACTTTCTGCCGGTGAACGGTACCGTGGCGGATCATGCCTATCGGGTGGGGGATCAAACCGTCGCCGTGGCGGGGCCCACGAAACCGGATGCCAAGGTCCTGACGATTCGGCCCAATCAGATTCAACTGAGTCCGGATGATCAGGGGCTCAGCGGTCAGGTCACCATCCGCACGTATCTGGGTAGTGCCTACCGCTACACCGTCGATAGTCCTCTGGGTACCCTGCAGATCGACGGCCCCACCGAGACCCCCGTGGCCATCGGTGCCCCGCTGCACTTCACCTTGCCCGCTGACCAATTGCTGCCGTTAGAAGCCTAG
>SRR1151209_01329 spermidine/putrescine ABC transporter substrate-binding protein
ATGAAGAAATTTTCCCGTGCTGCCCTATCTGTTGCTGTCCTCGCTGTCACTGTGCTCTTTGCCGGCTGCGGCAGCAAGGCCGCCGCTTCCGGCGGCAGTCTGTCTGTTTCCACCTTTGGCCTGTCTACAAAACAAATGACCAGCGATATCTTCGATCCTTTCAGCAAACAGTCCGGCACCAAAGTCCAGAGCCAATTCGGCGACAGCAGCCAGCGTTTCACCCAGGTAGCCCATAATCCCAACGCCGCCGTGGATGTGATCGAGCTTTCCCAAAATAACGCTTTGTCGGGCAATAAGAAAAACCTGTTCAAGAAACTCGACTTTTCTAAAATCAAGAACTTCAACACCTTGAGCAGCGCCCAGCAGAAGCTGGCCAAAGAAACGAACAGCGTGCCGTATACCGTGAACAGCATCGGCATCATTTACGACCCCAGCAAGACTGGCAAGATCACATCCTGGGATCAGCTCTGGAGCGGCAAGCTGAAGGGCAAGATCGCGATTCCCGACATCACCACCACCTTTGGTCCGGCAATGCTTTATGTGGCAGGCGACCACGCCGGCACACCGGTGACCAAGGATAACGGCAAGGCGGCTTTCAAAGCCCTGGCCGATTTGAAGCCCAACGTCGTCAAGACGTATACCCAATCTTCCGATCTGGCTAATATGTTCAAATCCGGTGAAATCACCGCCGCTGTCGTCGGCGACTTCGCGGTGGGCATGATTCAAGCCGCCGACAGCAACGCTGTCTACACTGTACCGGCCAGCGGAACTTACGCTAACTATGATACAGCCAGCATTTTGAAGAGCAGCAAGAACACCAAGGCGGCTTATGCGTACCTGAGCTATCGGTTGAGCAAGACGGCGCAGGCGAAGGCAGCGGAACCCAAGTCCTTGAATAATGCACCGGTGAACGATACGGTTAAATTGTCTGCGGCAAATGCAAAGAATAAGACGTATGGGGCCATTGCCAAGCGGGCGAAGACGATTGATTTTGATTATGTGAACAGCCATTTGAGCGGTTGGATCAAGACGTGGAATTCGTTGATGAATAAGTAG
>SRR1151209_01330 adenine deaminase
ATGACAACTGTCGATTTATTACTCACGAACGGGCACGTCTTCAGCAGCGCGCTGCATCGGTTTATTGAGACCGATGTGACGGTGCTGGACGGTAAATTTTACTGGCTGCCGGCACCGGGAACGTTTACCGGGGAGGCGAAGAAAACCATTGATCTCGCCGGGACGTATATGATCCCCGGAATGGTGGATTCGCACATGCACATTGAAAGCTCCATGACCACCCCGACCCGGTTCGGCCGGGCGGTGGCGGCGCACGGGACGACGACGGTGATCGCGGACGCCCATGAAATTACCAACGTGGCCGGTTTGAAGGGGCTGCAGGAGTTCATGGCCCAGCCCAGCGACATTGATGTGTTCTACGCCATTCCTTCTTCGGTGCCCTCCACCAAGCCAGAGCTGGAGACCACCGGCGGCATCATTGGAGTCGCTGAGACCAAGGAATTGTTGAAGGACCCGCGCATTATTTGTCTGGGCGAAGCCATGAACTTCAAAGGCATCACCTCCGAACCGGATTCGCTGATTCGCCAACTGATCGCGGAATGCCGGCGGGAACGGCCGACGATGCCCTTGGAGGGCCACTGTCCCAAGTACACCGGGGAAGACCTGGCCAAGTTTATCTACAGCGGGATCACGTCGGACCATACACAGCAGACGCCCGCGTCGATTTTGGAGAAAGTCACCAACGGCATGTTTGTTCAACTGCAGAAAAAATCCCTAACTGAAGAAAACATTGCTGCCGTCAAGGATCACCAGTTATTTGAGAATGTCGCCCTGGTCACCGACGATGTCATGGCCGACGATCTGCGCCACGGCCATCTGAACAAGATCGTCCAGCAAGCCATCAGCCTTGGGCTGGATCCGGTGGACGCCATTTACATGGCCACCTACACCCCGGCTCGGCACATGGGCTTATGGAATCGCGGCAGCATCACCCCCGGCCGGGTCGCTGACTTTATTATTCTCCGCGACCTGCAGGCCTTCGACGTGGTCGCCGTCTATAAGAACGGTCAACTGGTCGAACCGGCTGCGGACCAAAGTCCCGCTGATCCCCACGCGTTCAGTACGGATCTTCGGCATTCGGTTCAGGCGAAGCCCATTACCGCTGCCGATTTGCAATTGCGCGTACCGGATGACGTCTCAGCAGTCACCGCGAACGTCATCGAGATCGCCGCGGTGGGGACGTTCACCAAACGCGTCCCAGTTAAACTCACCGTTAAGGATCATCTGGTACAGTGGCAGGACGCCGGCTTGGCCTTGCTCATGATCCAGGAACGTTACGGTCACGGCGGCCATATTGCGTTCGGTTTGGTGAAAGGCGCGCTGAGCCGCCCCGGTGCAGTGGGGGCCACATGGGCCCACGACCACCACAATGTCATGGTCATGGGCACGACTATTGCCGATATGGTTGCTGCCCAAAACGAATTGATTGCTGAACAAGGCGGCTATGTCGTGGCGGAAGGCGGGCAGATCGTCGCCAACGCCCCGCTGCCCATTGGCGGCGTGGTCAGCGATGCCCCGATCCCGGTGCTTGGTAAACAAATTGCCGATGTCCGGCAAGCGATGCAAGATCTGGGGTACCATAACACCAACGAAATCATGTCTTTCTCCACCCTGTCACTCCTGGTGTCCCCGGCCTTCAAGATGTCGGATAAAGGATTGTTCGACGTGAAGAGTCAGGTTAAGATTCCGTTGTTTGCTGAATAA
>SRR1151209_01331 aldo/keto reductase
ATGCCCTATAGCCCACTGGCGGCGGGACATTTGAGCCACACTGGTTGGCGTACTGATACGCTGCGCAGCCGGACGGATAAAGTGTCGATGGGCAAGTACGATAAGACCGAAGCGGAGGATTATCGTATTGTCCAACGGGTCGCTGAATTGGCGGCCAAGTATCAGGTATCCATGAGCCAGATCGCATTGGCTTGGCAGTGGGCCAAAGGGGTCGCCGCGCCCATCGTCGGGTTGACGAAGGCCGCCCATTTGGAAGAGGCGGCGGGCGCTCTGGCCGTGCATTTAACCCCTGCGGATGTGGATTATTTAGAGGCGCTTTACCTGCCCCATCCCATTGTCGGCGCCCTGAATCAGAATCCGCCGGCGGGGACAGTCTTGATCGATGAGAAAAAGTAG
>SRR1151209_01332 xylose repressor
ATGACCCCCATCCGCGGACGGGAACTTTTGCACGAAAACAACACGAAACGCTTACTCAGCATGATTTACAGCCAACAGCCCATTTCCCGGGTGGCGATGGCCCGGGCTTTGCACCTGAACAAGTCCACCGTCTCGGCACTCTACAACGAGTTGGATGAGCAGGGGTATGTCCAGATGGTCGGTGCTGGCGATTCCACTAATGTCGGCGGCCGCAAGCCGGTCCTGATCACGATCAACGGCCGCCACGGCTATCTGCTCAGCTTCGACATCGGCTTCAACCACCTCCACATCATGGCCAATTATTTTGATGGCCGGGTCGCCTTTTTCCGCCGCATCCCCACCCGCGGGGAAACGATCCAGCAGATCATCAGCCGAATCGACACTGCAATTCACGAAGCCGCCGATACCTTGCAGACCGACCAGGGATTACTGGGGCTGTGCTTTTCGATCCACGGCATCGTGGACCAGGAAACCATTATCAATTCCCCCTTCATTGATATGGAGGACGTTGATTTAGTCCACGACTTCACTGAAAAATACCAAGTACCCGTGGTTCTGGAAAACGAGGCCAATCTGGCGGCAATCTATGAACGCGACTTCGGCCAGCACACCGACACGCAGAACATTCTGGTCGTCAGTATTCATAAAGGAATCGGGGCCGGCATCATTTTGGATAACCGCCTGTATCGCGGTACCGGCGGGATGGCCGGAGAAATTGGCCGGTCTCTCCTCTTCACAGCTAATGATCTGACCGGCCAGGCTGTGGTGGAGAAAAAAGTCGAGGACTACTGTTCCGAGGACGCAATCATTGACCAGATCAAAGCCTTAAAGCACCTGGATACCCTGGGCCGGGACGAGGTCGTGGCACTGTATCAAGCCCACGATCCGGCGACCGTGGCCACGATCCATGCTTTCACCCAGGCCATTGCCAAGATTATTTTCAACGTCGCCACCACACTGGCGCCGCAAACGGTTTGTCTGAACTCACCGCTGATTGAGGCGATTCCGGAATTGTTGACGAAGATTCAAATGGCGGCCCAGCGCCTGCAAATCAAGCAGCCCATCAGTTTGATGGAGAACACGCATTACGCCACATTGCTGGGGGCTTGCTCCCTCTTGCTGCGGCATGTCCTGGATATTGCCGACTACCAATTAACCTTGCGTCATTAA
>SRR1151209_01333 AraC family transcriptional regulator
ATGCGCCTGGTGTTTACCCATATGAATCAGGATTATCCCTTGTTTTGTGAAAGTATCGGCTACGAATGGCGGCAGGAGGCGATCTTCCGGCCCCAGGGCTATCCGTTTTATCATTGGCTGCAAACCGCCAGCGGCGAGGGTACTGTGACCATCGGCGGGACGACGTATACGCTGCCGGCGGGGGCCGGGATCTTGATTCGCCCTGGCGTGCCCCACAGTTACCGAGGTTCCGGCAATTGGCAGACCGCGTATCTCACCTTTGGCGGGGCGCTGGTGGCGAATTTGGTGACGCCGCTGGGGATGGGCGATTACCGGGTCATTACCGATCTGAGCCAGCCGACCGCGCGTTTTGTGGCGGCACATTACGCGACCCTGGCCAATTCCGCGGTACAGGACCGGGTGATTGCCGAGCTGCTGTTCACCTTTCTGCTCTTGCTGCGGCAGGACGTGGAAATCGGCGCCCGGGGTATGGCGGAAATTGGCATCGTCACGCCGGTACTGCAATATTTGGACGCCCATAGCGGGGAGAAAATTACGAACACCCAGTTGGCGGCCAAAACCGGCTATACGGTGCAGTATTTGACCAGCATCTTCAAACGGTACTATCACCAGACACCGCTGCAATACTTGCAAGAGCTGCGGCTGCGCAAGGCCAAATCGCTGCTGATGACGCACCCGGAGTGGAATGTGTACGAAGTGGCCGAGCAGGTGGGCTTTACGGACAATTCGCAGTTTATTCAGGCGTTCAAGGCGTATACCGGGCAGACGCCGAAGAAGTTCCAGCAGGCGCGCAGCCGGTAA
>SRR1151209_01334 beta-galactosidase
ATGACCCAAACACCATTTAAACAATTCCTATTCGGCGGCGACTATAACCCCGAGCAGTGGCCCAAGGAAATCTGGGCGGAGGATATGCAGATTCTCACCGACGTGCACATGAACGAAGCGACCATCAATGTCTTCAGCTGGGCGCAGCTGCAGCCCAGTGAAGAAACCTATGATTTCAGTACGTTAGACGCCATCGTTGAGACACTGACCCGGGCCAACTTCGACATCGTGCTCGCCACGTCCACCGCCGCCCTGCCGGCTTGGCTGGTGACCCGCTATCCCAAAGTCACCCGGACCGATTATGAGGGCCGCCATGCCCGCTTTGGCGGCCGCCACAACGCCTGCCCCAGTTCACCGATTTTCCGCTTCTACGGCGCTAAATTAGCGGGCAAATTGGCGGAACGTTATGGCCATCTGAAAAACGTGGTTTGCTGGCATATTTCTAACGAATACGGCGGTTATTGCTACTGCGACAACTGCGCGGCGGCTTTCCGGGTTTGGCTGCGCCAAAAGTACGGTACCCTGGATGCCTTGAACAATGCTTGGTATACCCACTTCTGGAGCCACACCTTCTACGATTGGTCAGAAATCGTCCCGCCCAACGCGCTGAGCGACGGCATCAACCACGATCACAACGTTGTCCTTTCTGGGATGGGCATCGACTGGCGCCGATTCCAGTCAGAGGCGCTGCTGCAGAATCTGAAGGATGAAAAGGCGGCAATTCGCCAGTATGATCCAGATACGCCGATCACGACTAATATGATGGGCACCTTCAAGGACCTGGATTACTTCCAGTGGGCGAAGGAACTGGATATCGTGTCCTGGGACAGCTATCCGGCTTACAACACACCCCACAGTGAAGTCGCCATGCGCCATGATCTGATGCGCGGTCTAAAAGGCGGCCAACCGTTCATGCTCATGGAGCAAACCCCCAGCCAGCAAAATTGGCAGGCGTACAATGCGACGAAACGGCCGGGTCAGATGCGGGCGTTGAGCTTCCAAGCCATCGCCCATGGGGCCGACACGATTCAATACTTCCAGTTGCGCCAAGGCCGGGGCGGCACCGAGAAATTCCACAGTGCCGTGATTTCCCATGCTGACCACGACGAAACCCGCATCATCCGCGAGACCCGGGCCCTGGGCAGCGAACTGGCCAAGGTGGGACCGCAGTTAATGAACGGCCGGATTCAAGCCAAAGTCGGCCTGATCTTCGACTGGGACAATTATTGGTCCCTGGAATATTCATCCGGCCCCAGTGTCTCCTTGACCTACGTCGACCAGATCAAGCGGTACTATGCGGCCTTCTACCGGCAAAACACCGCCGTGGACCTGATCCCGACTAATCTCTCCGCCGACCAGCTGGCCCGTTACGATGTCGTTCTGGCCCCGGTCTTGATCATGGTCAAACCCGGCGTCAGCGACGCCATCCACCAGTATGTGGCAAATGGCGGGACCTTTGTCACCACCTACATGAGCGGCATCAACGATGAACACGATAACGTCATCATGGGCGGTTATCCCGGCCCGTTCCGGGATCTGTGCGGCCTGTGGGCGGAAGAAATCGACGCTTTACCGCCACACACGGCCGTCCCGGTACAATTCGGCGACACTAAGACCGGCGGCAGCATCGTCGCCAACGTGTCTCACCTGGAAGGGGCTGAAACGATTGCCGCTTATGGCGGTGCCGACTATTACGCCAACACCCCGGCCGTAACCGTCAACACCTACGGGACCGGCCAAGCCTACTACGTCGGGACCGTTCTGGATACCGCCGGGATGGACGTCCTCGTTGACCGCTTGATTCAAGACAAGCATCTGGATCATTTCACGACGCCGGCCGATGTGGAACTAACCACCCGCCACTATCCTGATTATGCCCTGCATTTCCTGATCAATAATGGCAATCAGACCGAAACGGTCGATACCAGCCGCTTCGCTGGGATGCTGACATTGATTGGCGATGGCCCGGTGCAGGCGACCACCGAACTCGCCCCTTATGGCCTGCTCGTGATTCAAGAAACGAAATAA
>SRR1151209_01335 hypothetical protein
ATGGCGAAGATAGACAAAGAGTATTTGCAGCTTAAAATGACGTTGGAAAACGCGCATCCGCCAATTTGGCGGCGGGTGGTCATTCCGGGAACATACACCCTGGCCGATTTGCGCCGGGTGATTCAGGCTGTTTTTGATTTGACCTCCTTTGGGCCAGCGGAGAACGCGACCCCTAAGTTCCACCGGCGAGTCAAAGCACCCACTGCAACTGGGCTGACCAGCGAAGTGCTGACGGCCAAATATCCCGAGGATACCACCACCGTTTATTCGGTTATTCATGATTCTCGACAGGCCCAGTTGTTGTTAAAAACGCCGAATGTCAAAAATTGGCGGCTGATGATCACGCTGGAAGATGTTTTATCCGCCGCCGCGATCGCAGATCGGCCGACGCCGCCCTTTGTTAATGGCGGCCGGCAAGCGATGCCTAAGACCCGGGGCGGACGGGATACCCCGTATGATCGCAAACAAATTAATCAGGCTTTAAGCGCGGCCATGGCGCCAGACGCACCGGTTGCCCCCGCCGCCTTGCTGCCCAAGACCAAGCCGTTCGTTCGGCGGACACCGACGCCGGAAAGGGATATCGATATGGCTGAACTGGCGCCCCAGATGGATGCGCTGAACGCTTTGATTTCCGGCCAGTCTTTAACGAAAGAGCAGAGCGAGTCGCTGGCTAATTTCTTGAACCGCCACGATGGCGGAGGCGCCGCGGAGAAACCGGCGGAGGCGCCCCGGGTTGACCAGCAGGATATTGATTTTGCCGTGAGTCATCTGGGCGTTAGAGCGACAGAAGACCGGGCGACTGCGGTCAACACGCTGATTCAAGGGTTTGCTGACGGCGGCTTCACAGATGCCCAGAGCAAAGCAACCGCCGCTGCTTTAATGAAGGATAACAAACTGTTCTTGGATATCGATAAACTCCCCGATGAAGATCACAGTTTAGCCGCCCGGGGGGACACGGCCACGGTATATGCGGGCATTTTGGTGGGGGACATGATGAGCACCTTTCTCACCGCCAAACAGCGCCACACCCTTTTTCAGTGGGCAACAGATTATGTCCGTCAGGAAAATCACCTGGCAATTACTTTTCCAGGCAACTTGACCGCGCTGGCCTGCGGCTTGCGCTTCCTTTACGCGGCGGTGATGCATCCGGACTATCCGCCCAAAGTGCTGGGCCAGTTGAAGGATACGTTCTTGATCATCCTCTGGCACTTGCAGGATCCGTTCCTCGGCGACGAGGCGGAGTCCATGGGCTTGATTCTGAATGACCTGGCCAAAGCGCAAGTGATGAAGCCGGCGCCCTTCATGCAATTGGTGCGGGACGTGACCATGGAAGTTGAACGGCGGGTCGACCCGGCCGACCCCCGCACGATCTTCCGGCGCAAGGCGTGGATGACGACCATGCAGGTATTGTTCATCAGTTTGAACGACGATGATGAGGCCTATGACAAGGCCCAGAACTTCATCTTCGACGCTGTAGATAATTATTATCAGACCATGGGCATCGACTTTCTCGGCGATGACGACGACGGGTACGACGGCGAATGGGAAGAGCCGGACGATGACGATGATGATGATGATTAA
>SRR1151209_01336 DeoR family transcriptional regulator
ATGCTGACGAATCAACGTCACGAATTGATCTTGCAATTATTACACGAGTCCGGATTCTGCCAGCTGCAAGACCTGGTCAGACGGACCCATACCTCAGAATCCACGGTGCGCCGGGATCTGACCGAGCTGGCCCAAGTGGGCCTGCTCGAACGGATCCATGGCGGCGCGCAATTGCGCCAGCGGGCCGTGGAAGATGAGCGCATGGCCCAACGGGAACAGGCCCAGCCCACGGAGAAGCAAGCGATTGCCGATTATGTGGCTAGTGCCTACCTGCGGGACCATCAGGCGCTGTTCCTGGACGCCGGGACCACTGTCGCCATGCTCATTCCCCACCTTGCTGAACGCCAGGACTTGACGGTGTACACCAACAGTGTGCAGACCGCCAGCATGTTGGCTGATGCGGACATCGCCGCTTACATCCCCGCCGGTCAGGTCAAAGCCGAAACCAAGGCCATTGTCGGGGCCGGAGCCGCCCGCTTCTTGGGCAGTATCCACGTCGACTTTGCTTTCCTCGGGACCAACGGGATTTCGGCCAAAACCGGCCTGACCACCCCGGACCCCGAGGAAGCGACCATTAAGCAAGTGATGATCGATGCTTCCCGGCAAACCATCGTTCTGGCGGATCACACCAAGTTTACGCAGCAGGCGCTCGTCACCTTCGCCCGGATCGGCGAAGTGGATCGCATCGTTACCGATACGATCCCCGCGTCCGCCCGCCATGATTTTCGTTCATTCACCCATATTAAGGAGTTGACCCAGCATTGA
>SRR1151209_01337 1-phosphofructokinase
TTGATTTATACGATCACGGCGAACCCTGCCATTGATTATGTCCTGCACCTGGACCAGATGACCCTTGGCGTCGTTAACCGCGTGCCCCAAGCCGACCTGCTGGCTGGCGGCAAAGGCATCAACGTATCTCAGATCCTCAACCAGCTGCAAGTCGCCAACACCGCCCTCGGTTTCGTCGGCGGCGAAGTCGGCAAGATTTTGGAGAAACAGCTGGTCGCTAAGCACATTAACGACCACTTCACCCGCATCGCCAACCAGACGCGGATCAACGTGAAGATCAAGGCCGGTGAAGAAACCGAACTGAACGCCGCGGGCCCGCACATCACGGCTGCGGAAAAGGCCAGTTTCTTCAACGAGTTGGCAGCCATTCAACAAGGCGATGTCGTTATCATCTCCGGCAGCCTGCCGGCCAGTCTCGACAAAGATTTCTACAATGAAATCATCGCCCGCGTGCAGCAAGTCGGGGCCGACTTTGCCATCGACACTACCGGCGAACAGTTGCAGGAAAGTTTACCGAAGCATCCTTTAGTCGTTAAGCCGAACCACCATGAATTGGCGGACCTGTTTCACACCACGTTCAAGAGTGATGCCGACTTAATTGCCCACGGTCAGGAGCTGCTGGCCCAGGGTGCCCAACATGTGCTGGTGTCCATGGCCGGCGCAGGGGCTTACTTAATTACCACGGACCATGTGTATCATTCTGCCGCTCCCAAGGGTGTGGTCAAGAACTCCGTCGGCGCCGGCGATTCCATGCTGGCCGGTTTCGTCGGTACGTACACCCAGCACCACGACCCGGTGGAAGCCTTCCGTTACGGCTTGGCTTGCGGCAGTGCGACCGCCTTCTCCGAAGACATCGCCGTTCGCTCCGCCATTGACGCATTATTACCGACAATTCAGATCACAACGATCAATTAA
>SRR1151209_01338 fructose-specific PTS system IIC component
TTGAAAATTCAAGATTTATTGATCAAAGATGCGATGATCATGGACCTCAAGGCCACGACAAAAGAGGCCGCCATTGACGAAATGATCGACCGTTACGCTCAAGTCGGCGTGATTACCGACAAGGCCGATTACAAGACCCACATTATGCAGCGGGAAGCAGAATCCACCACGGGGATCGGCGACGGTATTGCCATGCCCCACGCTAAGACTGATTCTGTGAAGAAAGCCGCCGTCCTGTTCGCCAAGAGCAACGCTGGTGTTGATTTCAACGCCCTGGATGGCCAACCCGTGCACCTGTTCTTCATGATTGCCGCCCCGGCCGGCGCCAACAATGAACATTTACAGGCCCTGGCTGCTTTGTCCTCCCTGCTGATCAATCCCGCGCTGGTCGCTTCCTTGAAGAAAGCCGACACCCCGGACCAAGTGATCAGTCTGTTCAATGACGCCGAAGCAAAGAAAGAAGCTGAAGACGCCAAGGACGAACAAGAAGCAGCTGCAACCCAAGCCGCTGTCGGCACAGCTGATGCCGCCAAGTCTGCTGAACCGGCCGCCGATATTAAGAAGCCCTACGTGGTCGCAGTCACGGCGTGTCCCACTGGGATCGCCCATACTTATATGGCCGAAGCAGCCTTGAAGCAGGAAGCCAAGAAGATGGGCGTCGACATCAAAGTCGAGACCAACGGTTCCGAAGGTATCAAGCACCGTTTGACGGCCAGCGACATCGATCGGGCTGTCGGCGTTATCGTCGCAGCAGATAAGAAAGTCGCCATGGATCGTTTCTCCGGCAAGCACTTGATCAACCGCCCGGTTATTGACGGTATCAACAAGCCCCATCAATTGATCGAAGATACGTTGGCTGAACGCGGGCCGATCTTCCATGCTTCTGGTGATGACAGCGCTGCAGATGCTGGCACAGACGACGAAGACAAGCAGTCCTTGGGCCGCCAGATCTACGCCAGCCTGATGAACGGTATCAGCAACATGTTACCCTTCGTTGTGGGCGGCGGGATCATCATGGCGCTGTCGTTCCTGCTGGAACGTTTGCCCGGGGTTGGTGCTAATTCCATCGTTTTCACCTTCACCAACAGTTTAGGAAACGCTGCCTTCAACTTCTTGGTACCCGTATTGGCCGCTTATATTGCCGAAGCAATCGGCGATCGGCCCGCTCTGCTGCCTGGGTTCGTTGCCGGGTGGATGGCCAATAACACTGGTTTCTCCATCATTGCTTCTAAGAACGGGGTAGCCGGGTTCCTAGGCGGTCTGGTCGGCGGGTTCCTCGCCGGACTGACTATCCTGGTCTTGAAGCGCTGGTTCAAGAATTTGCCTAAGGCTTTGGACGGTTTGAAGCCAGTCTTCATTTTCCCGATTTTGAGCTTACTGGCCATTGGGCTGATGATGTACTTCATCATTAACCCGGTATTCACCGCTTTGAACTTGGCCTTGATCGGCTTCCTGGAAAGTATGGGCACCACCAACACGATTCTGGTTGGTACGATTCTCGGCGGGATGATGGCTATCGATATGGGCGGCCCCTTCAACAAGGCCGCATACGTCTTCTCCATCGGCGTCTTCATGTCCTCCAAGCAGACTGACGGCCGCTGGATGGCTGCCGTGATGGCCGGTGGGATGGTCCCGCCGTTGGCGATTGCCTTAGCCACCACGATTTGGCCGAAGAAGTGGACCCCCGCCGAACGGACTTCTGGTCTGTCCGACTACCTGCTGGGTCTGTCTTTCATCACCGAAGGCGCGATTCCCTTCGCTGCCGCTGATCCGCTGCGGATCATTACCTCCAGCATTATCGGCGCCGCCATTGCCGGCGGTCTGACCCAAGCCATGGGCGTCAACGTACCAGCACCCCATGGTGGGATCTTCGCCTCGTTGTTGGCCAATAAGCCGTTGCAATTCTTGCTGGCCGTGGTTATCGGATCCGTCATTAGCGGCGTGATTCTCGGGTTGTGGAAGAAGAACCGGCCGGATAATGGTCTGGATGAAGTCAAAGCATAA
>SRR1151209_01339 hypothetical protein
ATGTTGCAGGAAAAAAGCAAGGATTACGCAAAGGCCCATCCGGTACTGGCCAAGTGGTTCGTCCAAATAGCGTTGGGCATGGTACTGCTGCCCTTTGTGCTGGTTATTCTCTGGCTCGCCCCCTTGGCGTTGGATAAGTCCACCGCAATAACGGTAACCGGCTTAACCATCGTGGTGTTCGCCAATGTCATCTGGTTTGGGGCGGTCTACTTGACCAAGCACGGGCTCCGGTTTCGCAGGTAA
>SRR1151209_01340 major facilitator superfamily transporter
ATGGCGGCTGTGCCGAGTAAGAAGAAGCAGTACCAAATTATCGGTGTATTGGGGTTATTCTCGCTATTAACGGCGCTGGCGGGTTCGAGTACGAATCTGGCCCTGCCGCGGATCGCAATTGATCTGCACGTGGCCAGCAGTACGGCCACGTGGATCGTGCAGGTGGCGCTGATCACCACAACGATTTTGCTGGTGATGTTCGGTCATTTGGGCGATCTATTGTCGAAAAACTTGGTGTTCACCGCCGGCGGGTTATTATTCACTTTTGGTTCGCTGCTCACCGGCGTGGCCTTTGATATCGTCACAATGCTGGTGGGCCGGTTTATTCAGGCCATTGGCGCAGCGATGGTCATGGCGAACAGTATGGGCATCGTCACCGAGAACTTCAGTGATCAAAACCGGGCGGAGGCCCTGGCCGCGATTGCCATGTTTGTCTCGGTGGGGTCCATTTCTGGGCCGGCCCTGGGCGGGTTGATCATGTCCTTTACCAGCTGGCGCTGGATCTTTCTATTGAATGTCCCGCTGGGGATCATCGGCGCGGTCATTGGTTATCGGGTATTACCGTTACCGCACTGGCATTGGCAGGATATCCGCACCGCCACTGCGGGGGCGAACTGGACCGGCCAGAATCTCTTTACGCTGGGCATTATCCTATTCTTTCTGAGCGGCTCGATTTTCCAGAACGGCTTAAGCCGCTGGCCCCTGGGATTGGGGCTCTTGGTGGTCGGGACGGCACTGACGGCGTGGGCGTTTGTACAGGATGACCGGGCCAAGAAGCCCTGGCTGGCACCAAGCCTGGCGCGCAACCACAATTTTATTGTATCCGTCGTCCTGCTCGGTTTGGCCATGCTGGTCAATGCTGTATCGAATATTCTGTTGCCGTTTTACCTGCAAAGCTTCGGCGGGATGAGCCCCTTGGGCAGCGGCTTGATTATGGTTTTACAGGACGCTACGATGCTCTTGATCACCCCGCTGGTGGGCTGGCTCGCTGACCATTGGGATCGGACGAAGCTGACCATGGTCGGCCTGGCCGTGCTGGTGGTTTCCCAACTGGGCTATATCACCTTCCCCGCCACCATCACTTTATGGCGGATCATTCCGCCCATCGTCCTGAACGGGATCGGTATGGGCTTGTTCTTGACGCCGAATAACGCCATCACCATGGGGGTCGTGGCGCCGGAATTGACCGGGGTGGCGGGGTCCTTTAATTCCTTTTCCCGCACCCTGGGGATGACCATGGGCATCTCACTGGGATCCGCCCTGCTCTTCTTGCAGCTGCCGGGTGTGCGCCAGATCACCCCGGCCCTAGGCGCCCATTTTATGCATGCTTTCGCCGTGGTGTTCTGGATCGCCACTGCGATTTCGTTCATTGCTCTGATTGTCGTGGCTTGGCGCGCTTGGCGAACACCGAAGCAAAGTACAAACTAA
>SRR1151209_01341 multidrug ABC transporter ATP-binding and permease protein
ATGCACTCATTCAATTACATGCGCCGCCAACCGCTGCGCTTACTGTTTTACCTGATCATTGTTCCCATCGCCGCCCTCTCGGAAGTGGGCCTATCCTGGGTCTTGCAGGTGATCACGGACGTGGTTACCGGCAAGCAGCATTTTGACTATGCCTGGCTGTGTGCCGGCATTCTCCTATACATTATTGCCCGGGCTCTGCTCAGCTTTGCCCAGAGTTTCCAGCGTTCCCGCCTGCTGGCCAACGGTAGCCGCATGCTGCGCAATGACCTCTACTCAGCCACCCTGGCCCGTTCGCTCAATCAATTCAGCCGCCATGACCATGGCTTCTTTCTAGCCAAGTTCAACAAAGAAGTCGAAGTCATTGAAGATACCTATTACGGTACAGCGCTGCGCGGGTATTATCTGATCTGGCAGCTGGTCTTCGCCCTGGCCGGCACGATTCTCATTAAGCCCCTGGTAACGGTGGCCATTATCTTGTTATGTATCCCGTCCATGCTCGTACCCATGTTTTCCCAGAAGAAAACCGGCCCGGCCCAAACCGCCGTCGTGGACGCTTCCACCGGGTACAACAACCGGGTGGAAGATTTCATCAACGGTTTTGGTACTGTGAAGTTCAACGCTGCCGGCAGCCGGTTTGGCAATCTCTTCACTAATGCCACCGCTTGGTTGGCGAAGAAAGAAATCCACAATCAATTCGTGATCAAAGTGATCAGCGAACTCCTTAACTTCTTCGACAACATCCAGTACATCGGCACTTGGCTGCTGGGCGGCTACCTGGTCCTTCGGGGCAGCATTACCCTGGGCGAACTCGTCGCTTTCTCCCAATTGATGGTCTTCATTTCCTACCCGCTGTTTTCTGCCGCCGACATGTTGTCGCAATTTTACGGCGGCCGAGCGGTGGTGAAAAACGTGACCCAATATCTGCAGGACGCGGCGCCGGAAACGCCTAAGGCCCACCTACCCCAGCAGATTCAGGCGATTGACTACCACAAGGTCGGGCTGACCGTTGATGACCAGCCATTACTGCAAGGCGTGGGCCTGCACTTGGCCACGGATCGAAAATACTTGATCGTCGGCCAAAGCGGCAGCGGCAAGAGTACCTTGATGCGCCAGCTCTTTGGTTATTATCAAGGTTACACCGGCACGATCACCATTGATGGTATTGATCTGCGGGATGTCAGCTTCAGCGACATCACCAGTCATCTGACTTATGTGGATCAATCCACCTACTTGTTCAACGCGACTTTGGCCGACAACGTCACGGTGTTCCACGACATCCCGGCGGACAAGATCCGCCAGGCCGTGGCCCAATCCGGGTTGCAAGACTTATTAGCCAACAATCCCGACGCCTTGCAGCGGATGCTCAGCGACAAGTCAACCGCGATCTCCGGCGGTGAACGGCAGCGGCTGGCGCTGGCGCGGAACCGGTTGAAGGGGCCCATTTTCACCATCTATGACGAGTTGACCAGCGGCCTGGACCCGCGGATCGCCACTCAGATTGAAGACGACCTGTTTGCTTCGGAGCAAGGCCTCGTGCTGATCACCCACCGTTACAATCCGACAATTTTTGCCAAAGCGGATGACATTATCGTCGTTAACCAAGGACGGATCGTGACAGTTGGACAGGATGATAGTGTGGATGTCCAGCATGCGCTGCAGCAGCTTGGGTTTTTATAA
>SRR1151209_01342 potassium transporter Kup
GTGAATAAACAATTGGCCGGCGTCAAAGATAAGAAGTCCCTGACCCGACTATCCGTGGCTGGGCTTCTGGTCACCTTAGGGGTCGTCTACGGCGATATTGGGACGTCCCCGCTGTATGTCATGAAGTCCATCATCGAAGGCAACGGGGGCATCATGCATGTCTCCGATGACTTCGTGGTGGGCAGTGTGTCGCTGGTCTTCTGGACCCTGTTTTTGATCACCACCGTGAAGTACGTGCTCATTGCTTTGCGTGCAGATAACAATGGTGAAGGCGGGATCTTCGCCCTCTACACGCTGGTCCGCCGGCGGGCCAAGTGGCTGATCATTCCGGCGATGGTTGGCGGCGCCACCCTGCTGGCCGATGGGATGCTGACGCCAGCAGTGACCGTGACCACCGCGATTGAAGGGCTCAAAGGTATCGCCGTCGGTCCGACGGTCTGGATTTCCAACCAGCGGCAAGTCATTTTGACTACGATCATCATCTTGTCTGTCCTGTTCATTATTCAACGTTTCGGGACGCAGATGATTGGGAAAGCCTTCGGGCCGATCATGTTCGTCTGGTTTACCTTTATTGGTGTTCTGGGGCTGCTGGCCACCTTGCAGGACCTGAGCATTCTGCGGGCCTTAAATCCCTACTACGCGATTCACCTGCTGGTGTCGCCAGAAAACAAAAACGGGATCTTCATCCTGGGCAGTATCTTCCTGGCGACCACTGGGGCGGAAGCTTTGTACTCTGATATGGGCCATGTCGGCCGGCGCAATGTGTACGGCTCCTGGCCTTACGTCAATCTCTGCTTGGTCTTGAACTACATGGGGCAGGCCGTCTGGATCGATCAGCACAACCATTCGGAGGTCTTCCAGAAAATGGCGGACTTCAATCCTTTCTTTGAAATGATGCCGGATTCCCTGCGGCTCTTCGGCATTCTCATTGCCACAATGGCCGCAATCATCGCCTCCCAGGCATTAATTTCCGGTAGTTACACGCTGGTATCAGAAGCCATTAAGCTGAAGATCATGCCCCGGTTGAATATCACGTACCCGACCAACCAAAAGGGGCAGCTGTACATCCCAGTCGTCAACTGGGCTCTGTGGGCGGTGTGTATTGCCATCGTCTTCTACTTCCAAACATCGGCTCACATGGAAGCGGCTTATGGTCTAGCAATCACGATCACCATGCTAATGACCACGATCCTGCTTTTCACTTGGCTGCGCAGCCGGAAGGTCAACGCGGGGCTGGCCGGATTGATGCTTTTATTCTTTGGCAGTATCGAAGTGATTTTCTTCATCTCCAGCGCTGTGAAGTTCGCCCATGGCGGGTATGTAACCGCACTGATCGCGGCCATTCTCCTGGCGATCATGTTCATCTGGTACTGGGGCGATCAGATCAAGAACCAGGATACGTTCCGGTCAGACACCGTTTCGCTTTTGGCCTATAAGAACCAATTGGCCAGCCTGCGGGACGACAACAATTTCCCCTCCTTCACCACCAATCTGGTGTACATGACCAAGGTGCAGGATGGCAATCGAGTCAATAAGGATATTCTTTACTCAATCCTGGATAAACGGCCCAAACGGGCGCAAGTTTACTGGTTTGTGACGGTGAACGTCACCGACGAACCGTACACCACGGAATATACGACCGATACGTATGGGACCGACTTCATGGTCAACGTGCAGCTGTATTTAGGCTTCCGCATGTCCCAACGGGTCAACGTCTTCCTGCGGCAAATCATCAATGAGATGATGGCCCGGGGAGAACTGCCCCGCCAGCCGCAACGCTACACGACGATCCCGGATCGAAACGTGGGTGACTTCTCCTTCGTTTTGATCCAGGAAGAGATGTCGCCGGAAACCCAGATCCCGAACTGGGAGCGGATGATCATCCAAGCACGTCTAGCGATTCAGCGAATCACTGTGACCCCGGCGAGCTGGTTCGGGTTAGAGTACGCAGACGTCGTGACTGAGCACATCCCGTTGATTCTGGGGAAGATCTCCTACTCAATGTTGAAACTAAGCCGGCGGCATAAACCGGCGCCCTCCGATGAGATCGAGGATAACGAAACTGAAAATTAA
>SRR1151209_01343 aminopeptidase C
TTGGCAAAAGAAATTACTGCCCAGGACATCGCTGGGTACAAAGAAACGACCGCAAAGACACCGAAGTCCAGTGCTTTGCAAAACACCGTCATGAAGAACGGCATCCTGGCGTCCAGTGAAAATATGGCCAGCCAGGTCGCAATGGATCCGGTTTTCTCCGTTGAAATCGACACCGGCTCTGTTGCCAACCAGAAACAATCCGGCCGCTGCTGGATGTTCGCGGCTTTGAACACAATGCGTCACCCGATTCAAGCCCAATACAAACTGAAGGGCTTCGAATTATCCCAAAACTACACTAACTTCTGGGATAAGTTCGAAAAGTCTAACTGGTTCTACGAAAACATTATTGACACCGCTGGTCTGCCCTTGGGCGATCGGAAAGTTGACTTCCTGTTGGCGACGCCGCAACAAGATGGCGGCCAATGGGATATGCTGATGGCCTTGATCGAGAAGTACGGCGTCGTACCTCAAAGCGTTATGCCTGAAACATACAACTCCTCCAAGTCTAACGAGCTGAACGCTACCTTGAACCTGAAGCTGCGGGCTGATGCTGTTAAACTGCGCACGCTGGTTAAGGAAGGTGCCGATGATACCCAGATTGGTGAAGCTAAGGACAAGATGTTATCCGAAGTTTACCGCATTCTGGTCTATAGCCTGGGCAACCCGCCGACAAAGTTTGACTGGGAATACAAGAACGACGATGGGGACTATACCCGGGATCGCGATTTGACCCCGCAAACTTTCTTCCGCAAATATGTCGGTTGGAATACGCCGGATTACATTTCGATCATCAACTCCCCGACGGACGATAAGCCGTACAAGCACGTCTACACCGTTGAGTTCCTGGGCAACGTCGTGGGCGGCCGGCAAGTACGCCACTTGAACTTGGACATCGACACCTTCAAGCAATTAGCCGTCAAGCAATTGCAAGCCGGCGAGACCGTCTGGTTCGGTTCCGATGTCGGCAAGAGTTCTGAACGGCAAAAGGGGATCATGGACACCGACTTCTATCATGTCGATGACCTCTTCGACGTTGATCTGACCATGACCAAGGCGGAACGCCTGGATTACGGCGAGTCCTTGATGACCCACGCCATGGTCCTCACCGGGGTTGATCTGGTGGACGGCAAGCCGACCAAGTGGAAGGTTGAAAACTCTTGGGGCGACAAGGTTGGGACAAAGGGCTACTTCGTGATGAGCGACAAGTGGTTTGATCAATTTGTTTACCAAGTTGTCATCAACAAGAAGTTCCTGCCAGCTGACCTGAAGCAAGCCTTCGAGTCCGAGTTTGACCAGCCTAAGGTTCTCGCACCGTGGGATCCGATGGGTGCGTTGGCTCTTTAA
>SRR1151209_01344 aminopeptidase C
ATGTCGAAAGTAATTACCGCCGCGCAAATTGCTGCTTATGCCCAAGAAACTCAGGCACAGCCCGCGGCGGCCGTCCTAGCCGGCGCGGTGCAGAAAAATGGCATCTATGCTGCCAGCTATAATCATACCAGTACGCTGGCCCTGGATCCCACCTTTTCCGTCGAAGTGGATACCGGTGCCGTCAGCAACCAGAAACATTCCGGCCGCTGCTGGCTATTCGCCGCTTTGAACATGCTGCGCCACGAGTTCGCCAAGACCCATCAGGTCAAGGACTTTGAACTGTCCCAGAACTATGACTCATTCTACGATCGATTAGAAAAGGCCAACTGGTTCTATGAGCAAATCATTGCCAGCGCGGATCTGCCGAAGACCGACCGAAAAGTCGCTAAGCTTTTGGCCGCACCAGACGATGATGGCGGTCAATGGTCTTATGCCGTGGCTTTGACCCAGAAATACGGGGTCGTACCCAAGAGCGTCATGCCGGAAACGACCAGCTCCGAAGCAACGACACAGTATTCCAATGTCTTGAACACCAAACTGCGTAAAGACGCGATTGCCCTGCGCCAAATGATTCATGAGAACGCCGAGGCTGCGGCCGTGGACGCAAAAAAGCAGGAATTTCTTGCTGAGGTTTACCGGATCACCGCTTACGCCTTCGGTGAACCGCCGAAAGAGTTCACATATCAATATCGGGACGACAAGCAGGAATTTCACACGATTCATACCACACCGCAAGAATTCTTAAAAAACGAATTCAAGCAGGCTTTGGGCGATTACGTCTGCTTTGCCAGCGATCCCCAAAGCGACAAAAGCTACAACACGTTGTATACCGTGGATACCCAGGGCAACGTAGTCGGTGGGACGCCGATGCGCCTGTTGAACGTGGCACCGGACCGCTTGAAGGCCCTCTGCGTCCAGCTGCTCCAGGACAATACCCCAATTTGGTTCGGCTGCGACGTGACAGAGAACATGGATCGCGTCGCCGGCACCCTTTACGGCAACCTGTATGATACGGACAACTTGTTCGGCATTCAGGTCAACCGGGATAAGGCGCTGCGGCTGGATACCGGTCAAGGCATGGTGTCCCATGCCATGACCCTGACCGGCGTTGACCTCGTTGGTGGTCAGCCGACTAAGTGGAAAGTGGAAAATTCATGGGGCGATAAGAACGGGCACAAAGGCTATTTTACCATGGATGACGCTTGGTTCGATGCTTACGTCTACGAGGCAGTTATTCCCACTAAATATATGACCGCCGCCGAGGCCGAAGCGTGGCACGGCGAGGCGCATGTATTACCCGCCTGGGATGCCTTAGATTAA
>SRR1151209_01345 LacI family transcriptional regulator
GTGGCAACTTTAGGGGATGTAGCCGCAAAAGCTCACGTGTCAAAAATGACCGTGTCCCGAGTGATCAATCACCCGGAAAAGGTAACCAAAGAGTTGCGGGATCTGGTTTACGCAGCGATGAGCGAATTGAATTATCAACCGAACTTCGCGGCTAAGGCGCTGGCCAATAATCGGACCCAGATCGTGAAACTCTTTATCTTAGAAAGAATGGACACCGTGGAACCGTACTATATGAATTTACTGGCGGGTTTAGCGGATGCTTTAGATGAAAAAAATTACGCGCTGCAATTGATGACAAAAAATAGTTTGGATGTCGGCACCTGTGACGGTTACGTTGTCACCGGCATGCGCAACAAGGATTACGGCTGGTTGGAAACTGTGGAGAAGCCCATCGTGCTATATGGGGAAAATCAAATGGGCTTAGATTATGTGGACACCGACAACATCTTGGGGACGCGCACCAGTACGAATTATGCATTTGCCTGCGGTTACACCACTGTGGTTTTCGTGGGCATCAATTTGCCTGATTCATTCGCCGAGTCTCGAGAAAAAGGGTATACTCTGGCGATGGCGGCCCATCATGCGCCGCCGAAAGTTTTTCAGATGGACAACCGCTCGCATATTTCAGACCAGGTGATCACTAAACACTTTGCCGAGTTTCCCCAAAACACTTGCTTTGTCTGCGCTTCTGATCGATTGGCGATTGGTGTGGAGCGGGCCGTCCAGCACCAGGGCGGGCAGATTCCGGACGATTATGGGGTGATCGGTTTTGATGGCGTTTTTTTAGATCGCATCGGCTCACCGCAGCTCACCACGATTCGCCAGCCAGTTCAAAAGATGGGGTACGAAACCGGCCGGATGGTGCTCCATAAAATAGAAGAAAACGGTGCCCCCCAGGGCCATGAGGTATTTGTCCCAACCTTAGTGCCCCGGGGTACGACTCGGCCGCCCCAGGAAGGGCAGCCGAAGTAG
>SRR1151209_01346 alpha-glucosidase
ATGGCAGCATGGTACGATAACGCGATCGTCTATCAAGTGTATCCAAAGAGTTTCAAGGACAGCAACGGCGATGGGATTGGTGATTTAGCGGGGATCACTCAGAAACTAGATTATTTCACCCAACTGGGTGTCAATACGCTTTGGTTGAATCCAATTTTTCAATCCCCCCAAGTCGATAACGGCTACGACGTGTCTGATTTTTATGCCATTGATCCGCAACTGGGGACGCTGGCGGATTTCAAAGCTTTGGTTGCCGCCGCCCACGCCCGCGGGTTGCGGATCGTGCTGGACATGGTCTTGAACCATACATCTGACCAGCACCCTTGGTTTCAAGGCGCATTGCAAGGTCCGGACAACCCCTATTACGATTACTACATCTGGGCGGATGGGCATGACGGTCAGAAACCCAACAATTGGGGTTCCTTTTTTGGCGGCAGTGTCTGGACACAGCACCCCACTGTCGCTGATCGCTATTATTTCCACTTATTTGAACGGCGGATGCCGGATCTGAATTGGCGCAATCCCCAGGTGCGGGCGGAAATGATTAAAGTAGCCAAATACTGGGCTGATCTGGGTATCGACGGCTTGCGCCTGGACGCTTTTATCCATTTGGCCAAAGCCGATCTGCATCAGAATTATCCCACTGACGGAGCGGCACCAGTGGTGGCAGAAGGCATGTTTGCCAATTTGCCGGCGGTGCAGCCCTACTTAGGGGAATTTGTTGCTGGGGTCAAAGCCGACCATCCCGACCTCTTCATTCTGGGGGAGGCAGCCAGCGCTACGGTGAATCTGGCGGCAGATTATACTCGGCCGAATGCCAACATGGCGGATGCGGTGATCTCGTTCCGCTATTTCCCCACGAAACCGCGGTCGAAAAGGGATAAAGTGCCCATGGATTATCAGCCCCAGAGCTTAGATTGGCTGAGTTTTAAGCAAGTGATGACTGATTGGCAGCAAACCTTGCTGCCGCCGCGGCGCCTAACACTGTATTGGGGCAACCACGACATGGCCCGGCTGGCAACCCGGGTGGGCAGCCATCGCTATCCCCAGCGGTCGGCCAAATCGCTGGCCACCTTGATGTACTTACAGCGCGGGCTGCCAGTGCTGTATTACGGCGATGAACTGGGGTTGAGCAACGGCACGCTGGCCAGCTTGGCCGCGTTCGGCGACCCCACGGTAACGGCGTTTGCCGATGCGGCCAAGGCGGCGGGCTGGTCAGCGGGACGGATTTTAGAAAACGTCAATGCCACGCACAAATTGACGGCACGGGCCCCCTTGCCCTGGTCCGACGGGGTGGGGCATGGCTTTTCTACCGTTGCCCCGTGGCTGGCAGTGAATCAAAACGGTACGCCAGTCAGTCAGCAGATGGTGGATCCGGACAGCGTCTGGCATCACTATCAGCAGCTCTTTGCCTTGAAGCAGCAACCGCTGTTCACCAGCGGCGCTTGGCAATTGCAGAACTGGGCGCCGTGGCTGTTCGCCTATACCCGCACCCTGGCCAATGAGACGGCATTGGTGCTGGTCAACACCACGGATACCAAACATACGGTGACCCTGCCCAGTGCTTGGGCCGGTGAGCCCAAACAGCAATTGACTGTTGGGACCGTTCAGCAGGCGGCCGATCAGCTGACACTGAGTCCCTGGAGCAGCACAATTTTGACGATCAAGCAGAAGGAGAACTAA
>SRR1151209_01347 alpha-amylase
ATGGAAAAAGCAGCAATTTATCATCGCCCCGAGAGCGAATACGCCAGCCTGTATACCCCTGACGAACTGCGCCTGCGCCTGCGCACCAGGCGCGGTGACATCGCAGCAGTAGATTGCATCTGGGGGGATCCCTATGACCAGGTAGAACGAGACGGTGACTATGCGTGGTCCTACGACCGCACCCCGATGCGCATCATTGCCCAAACGGACGTATACGATTATTGGGGCGTCACCGTCAGCAGTGCCACTAAACGAGTGCAATACGGGTTTGAATTGACTGATGCCGCGAAAGAGCCGACCACGATCGGTTACGGCGATCGGGGTTTCTTCCCCGCCACCCCGGTGGGCATCAAACATGCGGCGATGTTCCGCCTGCCGTATTTCCACGACATTGACCGGATCAAAGTGCCGGAATGGGTCACCCACACCGTGTGGTATCAGATCTTCCCGGAACGCTTTGCCAACGGCAATCCCGGCAATGACCCGGCGGGGACGCTGCCTTGGGCCAGCAAGGAGCACCCAGGCCGTACGGACTACTATGGCGGCGACTTGCAGGGCGTCATCGATCACCTGGATTACTTAAAAGACCTGGGTATCAACGGCATTTATTTCTGCCCGATCTTCCGGGCCCACTCGAACCATAAGTACGACACGATCGATTATTTAGAAATTGATCCGGACTTTGGCGATAAAAATTTGTTCCGCGAGCTGGTCGATGAAGCCCACAAGCGGGGGATCAAAGTTATGCTGGATGCGGTGTTTAACCATATTGGCGACCAGTCTTACCAGTGGCAGGATGTCCTGTCCAAGGGTAAAAAATCCCACTTCGCCAATTGGTTCCACGTTCATTCCTTCCCGGCCCGCTATGAAGCGACCGGCGATTTTGAAGAAGCCAAAAACATTACCTATGATACATTTGCCAATACGCCCCACATGCCGAAGCTGAACACCGCCAACCCAGAAGTGCAGGAGTATCTGCTCACCGTGGCCAATTACTGGATCGAAAACTTCGATATTGATGCTTGGCGGTTGGATGTGGCCAACGAAGTGGATCATCATTTCTGGCGGAAATTTGCCGAGGTCTGCCACGCTGCTAAGCCGGACTTCTACATTCTTGGGGAGGTCTGGCATTCATCCCAGCCGTGGCTCCAGGGCGATCAATTTTCTGCTGTCATGAATTACGCGTACACCGCCCTGATCGAAGACGGGGTGGTAAAAAAAGATATTACGCCGACGACGATGGCCGACCTGTTGAATCAGCAGCAGATGCGTTACGCTGATCAGACCAGTGAAGTGATGTTCAATGTCTTGGATTCCCACGACACACCGCGGCTGCTCACTGTCTGCAAGGATGATGCTGATTTGATGCGGCAAACCGAAGCGTTTACCTATTTGCAAAAGGGGTCGCCCTGTGTTTACTACGGCGATGAAGTTGGGATTGACGGACATGATGATCCGGACTGCCGCAAGTGCATGGTCTGGGATCCCAAGAAGCAGGATCAAGAGATGCTGCACTTTTTCCAAAAGCTGATTGCCCTGCGTCAGAAATACGCGGACGTGATCAGCAAGGGGGACACTGACTGGCGGACAGTAGACGATATCACCGGTTTAGTGCACCTGGTACGCAAATACCATGGCACCCATGTCCACGGAGTGTTTAATTTGGGCGAGAAACCGGTCGCATTGAGACACACGCATAAGGATGAAATTGCGCTGAAGCAAGGGCTGGCCGACAAGCAATTAGCCCCCAACGGTTTCCTGATTTATGTGGAAAAATAA
>SRR1151209_01348 sugar ABC transporter substrate-binding protein
ATGAAGTTATGGAAGAAAGTTGCAGTCGTCGGTACGACATTACTGGCAACCGTTGCTCTGGCTGCGTGTTCCGGTGGTTCCAATTCATCCAATACAGCATCCAACAAATCCAGTGCAGATACAGTGAAGGGCAGTGTCCGTCTTTGGGTTGATACCACTCAGGTACCTTTTTATAAGACAATCGTTAAGAATTTCAACAAGAAGTATCCTGATGTCAAAGTTAAATTGACCCAAAGCCCTAACGGCTCGGCCAATGCCAAGACCGATGTCGGCAAGGATCCGGCCAAGGCCGCTGATGTCTTCGAAGTACCGAATGATCAGTTGGGCCAGTTAGCTGAATCCGGCTACATCAATCCGCTGTCTCCCGATGCTGAGAAGACAGTCAAAGCCAACAACACCGAAGTTTCTGTCACTGGTGTTACTTGGAAAGATAAAATGTATGCCTTCCCGTTCGCTGAACAAGCGCAGACAATTTATTACAACAAGTCCAAGTTAACTGCTGAAGATGTAAAGTCTTGGGATACACTGACTTCTAAAGGTGTGTTAGCCACCGACTTCTCTAACTCGTACAACTTCTATCCAATCATGTTCTCTGCGGGTACTGAATTGTTCGGTAAGGACGGCGAAACCTTGAAGGGCACCACCGCTAATACTGAACAAGGGGTCAATGCTTTGAAGTGGCTGGCTGCTCAAAAGAATAACAAAGGCGTTATGCAGACGTCTAATGCGTTGAACCAGCTTAAGTCCGGTCATGCCCAGGCCATTATCGATGGCCCGTGGGATGCGGCTAATCTGAGGAAGATCCTGGGTGACAACTTTGCTGTTGCTCCGTATCCGACGGTCAAGATTGGCGGGGAAGAGAAGCAGATGCAAGCATTCCTGGGTATTGAAGCCTTCGCAGTGAACTCTCACACGGATGCTAAGAACCAGAAGGCTGCCGCTGCTTTGGCTGAATTCATTACAAATAAGGAATCACAACTGATTGTCTATGAAGAATCCGGTCAGATTCCGACAGACAAAGCGACTCAGGCCAGTGAAAAAGTAGCTAGCGATCCAGTTGCTAAGGCGGTCATGGTTATGTCTAAGCCTGGTTACTCCACGTTAATGCCGAAAATGCCGCAAATGGCTACCTTTTGGGATGCCGCGACACCGCTGATCAATGGTGCATACACCGGCTCCGTCAAGGAAAGCCAATACACGGCCAAGCTTGATGCGTTTGTCACACGGATTTCTAAAGCCAACTAA
>SRR1151209_01349 sugar ABC transporter permease protein
ATGTTTAAGCGTAAAGATAGAAAACCACCGAAAGCGACTTACCGAGAGGTCTGGAGCAAAGGCGGCTGGGCATCGAAGCTCTCGTTTTTCCTCATGGGAATCAGCAGCTTCAAAAATGGTCAGTGGGTCCGCGGGATTGCCTACTTAGGCATTCAAATTGCATTCTTTGGTTGGTTGATTTCTCAAGGGATCTCCGCCCTCAGCATGCTGAGCAATCTTGGGGCGATCAAGACCAAGCAGGTCGTTTTCGACAAGCAGGAAGGCGTTTATATTACTAAACTGCCGGACAATTCAGTTACAATTCTGCTTTTCGGCGTATTAGCTGTCTTGCTTCTGGTGGGAATTATCTTCCTGTATGTCACCAATTTACGGGCAACGAAGAAGCTGTACATCGATAACCGTGATGGTGAGCACATTGAAACGAACATGGAGCAGTTGAAGTCCTTGTTTGATTCACGTTTGCATACCACGTTAATGACGATTCCAATTATTGGGATCTTGGCCTTCACGGTCTTACCAACGTTGTACATGATCTCCATGGCCTTCACCAACTATGATTCGAAACACTCGATCGGATTTTCCTGGACTGGCTTTGCCGCATTCAAGAATGTGTTGAGCGGCGATTTGGCCGGCACTTTCTTCCCGGTCTTAGGCTGGACCTTGATTTGGGCGATCTGTGCCACCGCCACTACCTTCTTCTTTGGAGTGCTGCTGGCGATGCTGATCGAATCTAAGGGGATTAAATTCAAAGGCGTTTGGCGCACGATCTTCGTTATTGTGTATGCCGTGCCGCAATTTGTTTCTTTGCTGTTGATGGCCCAGTTCTTGGATCCTCAGGGCCCGTTGAACAACATTTTGCTGAATTGGGGCTTGATCGCTCATCCCATCAACTTTATCGGGGCATCGGCCAATCCGCTGGTCGCTCGAATTACCGTTATCGTGGTCAACATGTGGATTGGGATTCCTGTCTCGATGCTGGTTTCGACAGCGATTATTCAGAACTTGCCGCAGGATCAGATTGAAGCGGCGCGAATTGATGGGGCTAATGCGTTTCAGGTATTCCGCTCCATCACGTTCCCGCAAATTTTGTTCGTTATGGCGCCATCCTTGATCCAGCAGTTTATCGGTAATATCAACAACTTCAACGTCATCTATCTGTTGACGGGCGGGTATCCGATGAACAACAACTACGTCGGGGCCGGCGATACGGACTTGCTGGTGACCTGGTTATACAACCTGGTCTTCGGGCAAACCCAACGGTACAATGCATCAGCAGTTTTGGGCATTTTGATCTTCATCTTAAGTGCTGTCTTCTCGCTGATTGCTTACCGGCGGACGAATGCATTTAAGGAGGGCTGA
>SRR1151209_01350 sugar ABC transporter permease protein
ATGAAATCATATAAATTACAACGGCGCCTATCCTTGACGTTCCGGTATCTCCTGTTGGTCTTTTTAGCCATCATTTGGCTCGTACCGATCGTTTGGATCATTCTCGCCAGTTTCTCGTATAACGACACCGGCTTTGTGTCGACCTTCTGGCCGGAACAATTCACCATGCAGAACTACATCGGTATTTTGAACAGTCAGCAATTTCCATTCCTGGATTGGATGCGCAACACGTTTATCGTGGCGGTAATCTCCATGGTGCTGTCCACATTCGTCACGATTTCTGTGGCTTATGCGCTGTCTCGTCTGCGCTTCCGGTTCCGTAAGCCATTCTTGCAGATTGCTCTGGTCCTCGGCATGTTCCCGGGCTTCATGTCCATGATTGCTCTGTACTATATCTTGAAGAGCTTCAATATGTTAAATCTGGGCGGCTTGGTCTTGGTCTATGTCGGCGGTGCCGGTCTTGGGTTCTATATCGCCAAGGGGTTCTTCGATACGATCCCCCGGTCCATGGATGAAGCAGCCATCATTGATGGCGCCACTCGCTGGCAGGTCTTTATCCATATTGGCTTACCGATGTCTCGGCCGATGATCGTTTACACGGCGTTGATGGCGTTTATCGGACCGTGGATCGATTTCATCTTCTCCGGTATCATTCTGTCATCTTCCGGGAATGCTCGGACATATACGATTGCCTATGGGCTGTACAACATGCTCCACAGTACCAAGGGATCATCGACCACGTACTTCACCCAGTTTATCGCCGGGTGTGTAATCATCGCGATCCCGATTACAATCCTCTTTGTCATCATGCAGAAGTTCTACGTCAATGGAATCACTGCAGGGGCGGACAAAGGCTAA
>SRR1151209_01351 maltodextrose utilization protein malA
ATGGATTTGCGCAACAGATTTCCGTTCAATTATTGGCTGACAAGTGTTCGGCCCAAGCAGATGTTTATTCACCGTCATGATCTCGGCTGGTTGAAAATGATTCTCACCTGGATCATTCTACTGGCGCCGATGATCATCCCGGTGCCTGTCTATTACGGCCGGCAGACTCAGGTCAATATGGATATTTTGTTGCCGAAAACCACGGAAGCCGTCAAGAAGCAGGCTGTGGATCAGGCTTTGACGACTGCTTTTGCGAATAAAACGACGACTCGACGCGTGCTTTATCAGGATAGTCAAGTTATCGTTGGGCAAAACCTGAGCAAAGTCCAGGCAAAATCGCGACCGGTCAGTATTACGGTGCAGCCCAAGAGCTTTTCACTGCTGGAGGACAAAGCGGCCTTTCAGGTACCGCGGCGAGCCAGTATTCCGTTCCAGTCGGCGAAACAGTACTTTAATCGCCAATGGTATGCGGAGAATAAGAATTTGGTGACCATGTACTTTGTCACTTTGTTCGGGGGCATCGCCTTTGTCACGGCCTTGCTATTGTGGCTCGGCCTTGCCTTCTTCATCTGGCTCACGACCAGTATCCAAAAATACAAAGAGAGCTTAAATCTCGTTTTGAACGCCATGGGCGGCGGTGCCGTGTTGGCCTGCCTCGTGGGGTTTGTGCATTTTGAATTCGGTTCTTTACTGGTGATTTTGTCTTTCTGGACGGTCATCATGATCAGTATTATGTTTTGGCAAACCCGTCTGAATGACGGTTATGTTGCCACGGGAAGGATGCAAACGTATGACTAA
>SRR1151209_01352 maltose phosphorylase
ATGACTAAACGATTATTCGACATCGATCCCTGGCTGATTCGTACCCACAAGTTAGCCACGGACGATATGCGGCTTCAGGAAAGCTTGACCGCCATCGGCAATGGCTACATGGGGTTACGCGGTAACTTCGAGGAGGGTTACTCCGGCGACAGCCTGCGGGGGACGTATTACGGCGGGGTCTGGTTCCCAGACAAGACCCGGGTCGGCTGGTGGAAAATTGGGTACCCTGAGTATTTTGGCAAGGCCATCAATGGTCCTGATTTCATCAGTATGCCGCTGACGATCAACAACGTGCCGATTGATCTGGCGCAGACACCTTATCACGATTTTTACTTGAGCCTGGATATGCACAACGCGGTACTGCACCGTGAGTTCGTGGTGGATCTGCCGGACACTCAAGTCCAGCTGAGTTTTGACCGGTTCATGAGCAACGACGTGAAGCAGGCGGCCGTCATTCGCATGACGGCGACGACCCTCCAGGGCAATGCTGATATCCGCGTGGAATCGCAGTTGAACAGCAATGTCCACAATGAAGACAGTAATTATGAAGAAATGTTCTGGGAAGAGCTGGACCGCCATGCGGACAGCAACGGGACCAGCCATCTGACGGTGATTACCAAACCTAACCCATACGATGTACCCCGTTTCAGTCTGACGCTGAGTATGACCAATGTGCTGGCCAGTCCGGCCCCAGCCACGCGCACAGCCGAGGACAGCAGTCTGCTCGTGCAGGAAGACTTGGCGTGGCATTTAGCCGAAGGGGAGAGCAGTACCCTGACAAAGTATGTCACCGTGGTGACTTCCCGGGATGTGCCCACCGACCAGCAAGTTGCTGCCGGTGAGGAACTGATGCAGCAAGTGGTTAAAAAAGGTTACGATGCGTTGCTGGCTGCTCAAAATAAGATTTGGCAAGAGCGCTGGAACATGGCCGACGTGGTCATTGCCGGTGACGATGTCGCCCAGCAGGGGATTCGGTTCAACCTGGTTCAATTATTCATGACCTATTACGGCGATGATGCCCGGTTGAACATCGGACCCAAGGGCTTCACTGGTGAAAAGTACGGCGGTGCGACGTATTGGGACACGGAAGCGTATATCGTGCCGATGTATCTGTCGGTGACACCGCCTAAGGTCGTGCGTCAACTGCTGGAGTATCGGTACAATCAGCTCTCAGGCGCTTATCACAATGCCCAGCAGCAGGGGCTCAAGGGCGCGTTGTTCCCAATGGTTACTTTCAACGGTATCGAATCTCACAATGAGTGGGAAATCACCTTTGAAGAAATTCACCGTAACGGGGCCATTGCCCATGCCATTGCGCAATACACAGAGTACACCGGGGATCACAGTTATGTGGATGACCACGGCATTGAAGTGCTGGTTGGGATTGCCCGGTTCTGGGCGGATCGGGTGCATTTCTCCAAGCGTCAGGGCAAGTACATGATCCATGGCGTAACGGGACCAAATGAATACGAGAACAACGTCAATAACAATTGGTATACCAACACGATGGCCACCTGGACACTGCGTTACACACTGAAGATGCTGCCGGAGGCTAAGACATCTCAATTGGCCAAGCTGCAAGTGAGCGACGAAGAAAAGGCACATTGGCAGGATATCATCGACCGGATGTATTATCCGGAAGATGAGAAACTGGGAATCTTTGTCCAGAATGATACATTCCTGGATAAGGACGTCCGTCCGGCGAGCAGCATTCCAGCGGATCAGCGGCCGATCAATCAGCACTGGTCCTGGGACCGGATCCTGCGCAGTCCGTTCATTAAGCAGGCGGATGTGTTGCAGGGTATCTACTTCCTGAACGATGAATTTACGATGCAGCAAAAGGAGCGGAACTTTGATTTCTATGAGCCGCTGACGGTTCACGAATCTTCTCTGTCGCCGAGTATCCACGCTATTTTGGCCGCGGAACTGGGCAAGCAGGATAAGGCCGTGGAATTGTATCAGCGGACGGCCCGGCTGGATCTGGACAATTACAACAACGATACCGACGACGGTTTGCATATCACGTCCATGAGCGGCAGCTGGCTGGCTATTGTTCAAGGTTTCGCCGGTATGCGCCAACACGCGGACAAGCTGTCATTCAAGCCTTTCTTACCCAAAAATTGGGAGAAGTACGCCTTCGCCATCAATTATCGGGACCGGATCATTCGGGTCAGCGTGAATGCCGCTGGCTGCACGCTGCAATTGCTGAAGGGTGCGCCGCTGACGGTATGGTTGTATGACAAGCCCACCGAACTATCGGCCACAGTCCATGAGTGA
>SRR1151209_01353 beta-phosphoglucomutase
ATGATTAAAGGGTTTGTATTTGATTTAGACGGCGTGATTACGGATACCGCGAAGTACCATTATGCGGCTTGGAAACAAGTGGCCCACGATGAACTGGGGATTGATATCAATCCCACAGTGAATGAAGGACTGAAGGGTGTTTCCCGGATGGATTCCTTGAACGTGATTCTGAAGTTCGGCGGCAAGGAAAATGCTTATACCGACACAGAGAAGCTGGAATATGCCACTGAGAAGAATGACTTATATAAGTCATTGATCAAACAGATGACGCCAGCAGATATTTTGCCGGGCATCAGCAACTTCTTAAAGGCAATCACCAAGGCGGGCTATCCGATGTCATTGGCGTCGGCGTCCCGGAATGCCCCGTATATCATTGATCGCTTGGGTTTGGCCGAATATTTTTCAGCTATTGTTGATCCGGCGACCCTGACCAAGGGCAAGCCGGATCCAGAGATCTTTGAAAAAGCGGCTGATTTGATCCATACCCCGTATGCCAATACGGTTGGTTTGGAAGATGCTGTCGCTGGGATCGAAGGTATTGAGGCCGCTGGTATGTTTGCCGTTGGTGTGGGCAAACCGGAGGTTCTGGGCAAAGCAGATTTGCTCTTCCCGGATACCGCCCACTTGGATTTGGCAAAGATTGAGGCCGCCTTTACGAGTCAGCGCGGCTGA
>SRR1151209_01354 MATE family efflux transporter
ATGCATGATTTGACCCGGGGACCAATTCTCAAACAGATTATCTGGTTCACGATTCCCTTGTTGATTGGGAATATTTTTCAACAAATGTATACGGTGATCGATACGCTGATCGTGGGCCGGACAATTGGTGTGCAAGCTTTGGCGGCTGTGGGGTCCACCGGGAGTTTGTTCATGCTGATCATTGGCTTTGCCCAGTCCACCACGGCCGGGTTGGCCATCGTTACGGCGCAGCGTTATGGTTCACGGGATTTGCAAGGTGTGAAGAAATCCTTTGCGGCCAGTATTGTGATTTCTCTCGTGATCTCCGCTGTGTTGACCGCGCTGAGTTTGACTTTCACGATGCCGCTGCTTCGGCTGATGCAGACGCCGGAAGACATTATTCACGATGCAGCCAGTTTTATCTCAGTCCTGTTTGGCGGGATTGTAATCGCTGTATTTTACAATTTGTTTGCCAATATGCTGCGCGCGCTGGGCGATTCCCGGACGCCGCTGATTTTCCTGATTCTAGCCTGTATCGTGAACATTGGCTTGGATTTTTGGTTCATCCTCGGGTTCCACATGGGGGTCGCCGGGGCGGGGTACGCGTCTTTGACCGCTCAGGGGTTATCGGCGGTCTTAAGCGGCCTCTATATTTGGCGGCGGGTACCGGTCCTTGTCTTGCGGCGTAAGGATTTTCGCGGTCTGACCAAACAAATTTTTCCGCATATTCGTATTGGTTTGCCCATGGGTTTCCAGGCATCGATCATCTCGATTGGTTCCCTGATCATCCAGATCATGCTGAATACGCTGGGGTCCCAGTCCGTGGCGGCGTACACTGCAGCGGCCCGGATCGATGGTCTGGCGACCATGCCGGCGATGTCCTTTGGCATCACAATGGCGACATTTGCCGCTCAGAATTTAGGGGCTCGTCACTATGATCGGATTCGCCAGGGTGTGAAGAAGGCGTTGATCACTTCGGTGACTGTCTCCATTGTTTTAGGGACCAGTATCATTTTACTTGGCCGTCCCTTGGTGAATATGTTTGTGGGTAATCATCAGCCGCATATCACCAGCATGGCGCAAATTTATTTCCATTTTAATGCCAGTATGTACTTTCTTTTAGCGATTCTCTTCATCGTACGGTATACCTTGCAGGGCTTGGGCCAAAGCATGGTGCCGACGATTGCTGGGGTGATGGAGCTCGTGATGCGGACCTTTGCCGGCTTGATCCTTGTCCATCTTTTTGGATTTGCTGGTGCCTCCGCGGCGAATCCGCTGGCCTGGCTCGGATCGTTGATCGTGCTGATCAGTTCCTACGTGCAGACGATGCGCAAACTGAAGAGTTTGGCCATCAATCAGCCGGTGGCCGAGACGCCGCTGCCCTTGGGCCGTGGCCAGCACCCCTTAGAACAGCATCATCAATCATAA
>SRR1151209_01355 competence protein ComGA
ATGGATGTAACCAAGCAACTCATGGCGCCTGCCATTACGGCTCGCGTGTCGGACATCTATTTACGACCGGACCGCAACGGCTATGCCGTGATCTGGCGGCGGGTCAGTGGTTTGGAGACGGTCGCAGCATTGTCGTTGGCAGAAGGCCAGCAGGTAATCAATGCACTGAAGTATTTGACACAGTTGGATGTCAGTGAGACCCGCCGGCCCCAATCAGGGATGTGGCGATACGGCCCACAGCTCAATGTCCGCGTGGCGACGGTGGGAGATTATCTGGAACGGGAAAGCAGTGTGCTGCGGATTCTTTATCCGTTGACCAAAGAACCGCATTTGTTTTTTCCGAACCAGTTTGCCCTGCTCTGTGATTTAGCTCGGCAGCGAGGCTTGATCGCGTTTGCCGGGCCGATGGGCTCGGGAAAAACAACCTTGATGTACCAGGTGGCGGCGCAACTTGCCCGGCAGCAAGTCGTAATGGCAATTGAAGATCCAGTGGAAATTGCCCATCCCGGAATCAAACAAGTGCAGGTGAACGATACGGCGGGTATGACCTATCCCGTGTTGTTGAAGGCTGCCCTGCGCGAACGGCCGGACGTGCTGATCATCGGCGAAGTCCGGGACGCGCCCACTGCAAAACTGGCCTTCGAAGCCGCTCTCAGCGGCCATTCGGTCTTTACGACGATCCACGCGCGGACCACTGGCGGGATTATTGGGCGCATGCTGCAAATGGGTCTGCCGGCCGAGGTGCTGCGCAACAGTCTGACCGGGTTAGTGTATCAGCGCCTGCTGCCAGGGCAGAATGGGCCGCCGCAGTTATTGTGCGACACGGCGTCCCAAACAGCCCTGGGTCAACTGATCGAACAGCCCCAACAATGTTTCATTGCCTGGCAGCAGGCTCTGCGGACCCTTTACGGAGACGGGCAAATCTCGCGGGAAACGGCGGTGCAGTTTCAATATGCGTAA
>SRR1151209_01356 competence protein ComGB
ATGCGTAAACGACCGGCGAAGATCAAGTATCAGGAAGAAACGTTCTTCATCGTCCAGGTAGGTAAAATGCTGCAGCACGGTTTGGCCCTGCCGGTGGCCATCGATTATATCGCCCGCACCCGGCCGACCTTGCGTACCGCCGCTCGCCGGTTGGGTCATTTGCTGCGGGACGGCTCCAGTCTGGCTGCAGGCATGCGTCAGGTGGGCTTCTCGGCGCCGTTATGCGATCAGGTCGCCATGCCCCAGGCCAATGGCCGGCTGAGCCATTTCTTGATGCGGGTGGGTCGCTTCCAGCAAGGCCAGCGCCAACGGATGCAAAAGCTGCAAAAGGCCTGTGTCTACCCCATGTTTCTGCTGGGCTTTGTAGGCGTGATTCTCTTACTGGTCCGCCTGGTGATTCGGCTGCAATTTGCGGCGCTGGGGATGACCGGGGAGACCGGGTTTAGCCGTTGGCTGACGACTGGTTTCGGGGTGCTGGTGCTGGTTGGCTGTCTACTCGGGTGGTCCGGCTATCGTTGCTGGCACGCGCCGATGACTGGTCAGCGAGTTGCCCGCATTTTCCACTGGCCCGTGGTCGGCAGCACACTGCGCTGCTATATTTATCACACGCTGCTCTATGACTTGAGTATGCTGCTGGGCAACGGTTGGACGATGAAGGAAATCATTGCGCTGCAGAGTGCCTTCGGTGAGGGCTCGCTGGTTGCTGCGCTGCTCAAAGATATGGAGACGGAGTTTCGTACCGGTACGGGCTTTGTGATCATTGTCGACCGCCTGGTTTATTTTCCCAGCGAAGTCGCCAGCCTCCTGGCCCAGGGCAGCAGTGCCCAAGAACTAGCGGGGAGCTAG
>SRR1151209_01357 competence protein ComGB
TTGGCCGACCAATACTATGAGCAGATGCTGACCCGCATTGATAAGTTGATTACGCGGATTCAACCAGCCTGCTTTTTGCTGGTGGCGTTGTCGGTGCTGTGCATTTATGGCGAGTTGCTGCTGCCGATTTATGGGCAGATGCAGATTTTGAATTAA
>SRR1151209_01358 competence protein ComGC
ATGATGACATTTGTTAAGAACCAATGGGTGGCGAAGCGGAAGGAACGGAAGGGTTTCACGCTTTTGGAAATGCTTTTGGTGGTTTTTATCATTGCAGCGCTGCTACTGTTGGTACTGCCTGGATTGATTAAGCAGCAAACGTCCGTAACGGAAAAGACGGATGAGGCGTTTGTGACCACGGTTCAAAATCAAGTCACTGTTTATGCGTCTGATAATAACGGTACATTTCCAGAAAACTTCGACGCACTCAAAGGAGGATATCTTTCCACAAAACAAACTGAGAAGGCAAACGACAAGCTCAAACTTGATAAAAAGACCGGAGAAGTATTATTGAGGACAGACAGTTCCTCCGGAAATGAGCAAGGTTAG
>SRR1151209_01359 hypothetical protein
GTGCAGGCGGCCCGGTATATTTTCGTCAAGCAGGAAACAGAAACACCAAAACCACCGCGGGACGAACCACTCAAGGCCAAGGATTGGATCGATATTCCGGCCACACTCACGGCGACGGTGAATCGGACCAATCCGAAGATCGGGCCGCATGGGGTTGAGAACTGCACTTGGACCTTTCAAGAGATTGCGACTCGCACACAATATCAAATCACAGTCCAAATGAAATGGGGACGATTGATTGAAACAAAGACGTAA
>SRR1151209_01360 hypothetical protein
ATGGCTGAGGCCCTGACGGCGCTCTTCGTGCTGACGGCGGTGGTCATGCTGTATATGGTGGCCACCACCCAGATCAATCGCCAGCTGAACCAGGCCCAGCAAGAAGCCGCTTTGAACGCCGCCCTGCTGTCAGCGATGCGCACCTCGGACCAAGCACCTGTCACCTTGCGTCAAGGACAGCAAGTGTTCCATGCCCAAGTCTCAACAAATGCGGTGATTGGTCATAGCGCTGTTTTCCAAGGGCAGTGGTCATGGTGA
>SRR1151209_01361 hypothetical protein
ATGAAATTGATCTGCCGATTGCTGGGGCGCTCCCGCCGAGGCATGATCCTGCCCACCGCGCTGGTCCTGACGACTCTGCTGTTCAGCCTGCTGGCAATGACCGTCAGCCAAGGCGCCAATCGGGTCCAGGCGTGGCACGAACTCATCGCCAATCAGGAGTTTGACGGCAGCTTTCTGATCGCCAAGGAGTTGATCGGCCAGGGCAAGCAGCAGGGCCAAATTGAGTTGGGTCGCGGCCGTTATGCTGAATGGCACTACAAGGAACGCAAAGTATACGTCACGTTAATGCCCAGCAAATTCGAACAAAACCGGTCCTTGGATAAAATCTATTGA
>SRR1151209_01362 adenine-specific DNA methylase
TTGGCAGAGGCAGACACAGTACAACAGGTTTTTGCACCTTTGGACGAGGCGATCACGACCCTCAGCGATGACTTGCGGGTCTCTTATTGGGCGGCGCTGCCAGAAGAGTTGGCGAACCTTAATAATAACGAGATTCACGTGGAAAATGGGGCGCCGACTGCAGCCGCCATTGCCCAATTAACTGCACTGGGGGACCGGTTCAAAGCGGCTAAAGCAGCAGTGGGGTTGACGGCAACGCAAACAGCGATCCAATTAACGATCGTCAAGGGAATGCGGGAAGCAAAGGTTGACGCCAATTTGATGATTACACCAGAGGCGATCGGCACTCTGGTGGCGACCGTTGCGGACGTGATTTTGGCTGGTGCGCCCAGCACCACGATCTTGGACCCCAGTGTCGGCACCGGCAATCTGCTGCTCACCGTAATGCGGCAGCTGCCGCTGGCCGGGGACGCCCACCGGCACGGCTATGGGGTGGACAACAATGAAGACTTGCTGGCCGTGGCCGATGCCTTTGCACGGCAATTGAACGAGTCAGTGGAATGGTTCCACCAAGACGGTATTGCGCCATTAGTCGTTCCGCCGGTCGACATGGTCGTCAACGAGCCGCCAGTGGGGTATTATCCATTGGACGACGTCGCAAAAGACTTTGCCACTCGAGCTGAAGAGGGCCATTCCTTTGCCCACCACTTGTTTATCGAACAAGGTATGCATTACGTTCAGGATGGCGGTTTCGGCTTCTTCATTATTCCCACGGCGCTATTTAATTCGAAGGAAGCCCGGGGCTTGACCGCTTGGATGGCCCAGCAGACGTATATTCAAGCGCTGCTGGAATTGCCCAAGGGCTTGTTCCAGGATGAGAACGTGGCAAAATCGATCCTTGTGCTGCAAAAACACGGCGGCGCGGCTCAGCAGGCAAAACAGATCCTGCTGGCAGGGATCCCTAATCCGGACGACCACCGGGGCATTGCGGAATTCTTCCAAAACGTACGCGATTGGCGCAAAGATAACATCAAGACCAATCATTAA
>SRR1151209_01363 acetate kinase
ATGAAAATTTTGGCGGTGAACACGGGCAGCTCAACTTTAAAGTGGAAGCTGTATGATATGCCCGCAGAGCATGTGATTGCGGAAGGTATGCTGGACCGGATGGGTCTGGGCGACTCGGTTTTTACAGTAAAATTCAATGGCGAAAAAACCAAAGAAGTGGGCGACATCAAGAACGCTGAAGAGGCGGTCAAAAAATTGATGGCTACGCTGATCGATCGCAAAATTATCGGCAGCTTTGACGAAATTCAAGGCATCGGTCATCGGATCGTTGCTGGGGGCGAAACATTTGAGCATTCGGCGCTGATGACACCGGAGAATATCCAAAAGGTCAAGGATTTTGCGGATTTTGCGCCGCTACATAACCCGGCTGAAGCCGGCGGCATTGAGGCGTTTGCCAAGCTGCTGCCGAATGTGCCCCAGGTGGGCGTGTTTGACACGGCGTTCCATTCCACCATGCCTCAGGAGAATTACCTGTATAGTATTCCCATGGAATACTACCGCAAATACGGTGCCCGCAAGTATGGCGCCCACGGGACCAGCCATCGGTACGTTTCTGCGCGGGCAGCTGAACTGCTCCATGCAGATTTGAGGTCGCTGAAGATGATCACGCTGCACATGGGCAGCGGGGTTTCGGTCACCGCCATTAAAGATGGTAAGTCTCTGGATACGTCCATGGGCTTCACGCCGCTGGCCGGGGTAACGATGTCCACTCGCTCGGGCGATATTGATGCGTCCCTGGTCGCTTATCTGATGGGCAAATTGAATATCACGGATCCTAACCAGATGGTGGATATCTTGAACACGAAGTCTGGTATTCTCGGGCTTTCTGAACTGTCTCCGGATATGCGCCAACTGGAACAAACCATCGATATCCGGCCGCAATCCAAGCTGGCCATTGATATCTTTGTCAACCGAATCATTAAGTACATCGGGTCTTACACCGCCATCATGGGCGGCCTGGATGTTCTGGTCTTCACCGCCGGCATTGGCGAAGGCGATATCAAGATGCGGGCGCGGATCGTCAACAAGCTCAATTATATGGGTGCGAAGATTGATCCGGAACGTAATGACGTCATGGCCAAGGAACGCTTGATTTCCACTGATGATTCCAAGGTCAAGGTCATGCTGGTCCCGACCAACGAAGAATTAATGATTGCCCGGGATACTGTCCGCGTGGCCCAGTTGGATTAA
>SRR1151209_01364 hypothetical protein
ATGACTTTGTTATATTGTGTGATCATGGTCGCTTTGACCATCGTGGTCGTCATCGAACGACGGGCTCTGCGCATTAAAGCAAAACGCCGCTGGTGGTTTACAATACTCTTGTGGGTGGTGGCCTTGGTCATGCTGGTGGTGCCGTTTTGGCAGCATACCAGTCAGGAATATCTGATCAGCGGATTGTTTGTCGCCGCCGTGCTGATTCTTTTGACCCTCTGGCGCCAGGGCTTGGCCGACTTTGCTGTGATCAACGGTATGCTGGCGACCCGGGCTTATAGCGGACTGACCGGTTATCTGCTGGTACCGGAAAATGACACGGTCGCTGCAACGTTTTACGGCGGCAGCGTGCGGGTCACTACATTGCATTTGCTGGCAACCGCTGACCAAATCACAGCGCTGCTCAGCACCCAGGCACCGCAAATCAAACGGTTGACTAAAGCACCGGAAAACCAGTGA
>SRR1151209_01365 hypothetical protein
ATGGCAAGACATCGCCGGCGATTACAGGATGTGGGCCAGATCGTATCCGCTGATCGCATGCGCCAGTACGTGGCCCATGCGCAGTTGGAAGATCTGCAATTTGTCCAGCAGCTGATCGATGAACGGACGGAAGAAATTTTGGCTGAGCAGGGCGCGGGTGAATTCCCCGCCTTTGCCCGGCTGGCCCAGAAACGGCAGGACCAACTGGTCGTGCTGCAGCGGCTCATTGATCACGAGCAGGGGCGGGGCTATTACCAAAAACATGCCACAGCCCCCAGCTTTTTCCACGATTACTTACGGGATTATCCCACTGATGCGATTTTTGATGCGACCCATGAGTTGTGGGATATTGACGACGCCCTGCGCCGGATGCAGGCGGCTATCGGCCCCATCATTCAATGGCAGCGGCGGATCCGCAAGGCCGGGTTCACCATTAACCAAACACGCCATTCCCAGCGCAGCCTGAGCGTGTATCTCTATTTGCCGATTCACCAGGCCGAGGCATTTGCGATTGTTTTTGGGCAAAACTTCGATGTTCCACGGTTTCTGGACATGGTGGCGCATCGGCCGACGAATCCAGAGTTCAGCGTGCGGCTGTCAGACCACGTGACCGGCTTGTACTATAATCAAAGAGAAGGGGCTCAGCGGCGATACCGCGAGGCCGATATCAATCTATACGTATAG
>SRR1151209_01366 glucose-6-phosphate 1-dehydrogenase
ATGACTGAAAAACGGGCATTATTCATCATTTTTGGCGGGTCGGGCGACTTGGCCCAGCGTAAGCTTTATCCAGCGCTGTACGGTCTGTATTATCAGGGCCGGCTGGCTAAGCATTTCGCCGTGATCGGTACCGCGCGGCGCCCCTGGACCGACGACCATTACCACGACATCATTAAGCAGTCGCTGGTGGGAGCGCCGGGGTCAGCGCATCAAAAGACTGAATTTGCGGAGCATTTCTACTATCAGTCCCACGATGTGACCGACGCTGCCCATTATGTCACGTTGCGGGATTTGGCGGAAAAGCTGGACAAGCAATATGCCTTAGACGGTAATCGGGTCTTTTACATGGCGATGGCCCCGCGGTTCTTCGCGACCATTGCGGAACGTGTCAAATCCGAGCAGCTGCTGTCTGACAAAGGGTTCAATCGCTTGATCGTGGAGAAGCCTTTCGGTCGGGATTTTGCCACCGCGAAGCAATTGAACGATGATATTTCCCAAGCTTTTTCCGAGGAACAAATTTATCGGATCGATCACTACTTGGGTAAAGAAATGGTGCAGGACATCATGCCGTTGCGCTTTGCCAATCCACTGCTGGGCCATGCTTGGTCCAAGGACTTCATCGATAATATTCAAATCACTTTGGCCGAAGATATTGGTGTCGAAGAGCGTGCCGGGTATTATGAGACCGCCGGTGCCCTGCGGGATATGGTCCAGAACCATATTTTCCAAATCATTGCCATGCTGACGATGGAGAAACCGGCGAGATACGATGCGGCATCGATTCACGCAGCGAAGCGCGCGGTATTGTCTGCCATCAAACCGTATACGCCGACTCAAGTGCACGACAAATTTGTTCGCGGTCAATATCTTGGCGGGGATGATATTGGGCTGTCTTACCGGGAAGAGGACAATATCGCGTCCGATTCCACAGTGGAAACTTACGTGGCCGGCCGGGTGGACATCGACAACGATCGTTGGCGCGGGGTGCCGATTTATATCCGCACCGGCAAGCGGCTGAAGGCCAAGCAATCTCGGATCGATATTGTCTTCAAGCCGACCAGCGACAATATTTTGCCGACGATCAATGATGCACCGGTTGGGGCCAACGTCTTAACTCTGATCATTGAACCAGAAACCGGGATGCACCTGACTTTGAACGGTAAGGAAATCGGCACCAGCGATGCCGTGAGTCCGTTCAAGCTGGACCACGCGTTGGATCAGGACGAATTAGCCAAAGCACCGGAAGCCTATCAGCGGTTAATGCTGAACATTCTGGACGGCAATAAGCTCACCTTCACCCACTGGGCGGAATTGGCGGCCAGCTGGCACTTCATTGATGCCATTCGGACTGTTTGGGACAATGACAAAGCAGACGCCTTAGCCTTTTACAACAGCGGGACCATGGGGCCGCAACAAGCAGATGATCTGCTGGCCCGGGATCACCGGCAGTGGATCTGGCAGGGCGACACGACGAAATAG
>SRR1151209_01367 DNA polymerase IV
ATGCTAGGCCGATTACCGATTATTCAACACAACGACCGCCGCATCATTCACCTCGACATGGATGCCTTCTATGCTTCGGTGGAGGAACGGGAGCATCCTGAATTTGTTGGCCGGCCGCTGGTGATCGCGCGCAACCCCCGGGAAACCCACGGCAAGGGAGTGGTCACCACCGCCAACTATGTCGCCCGGTCTTTCGGCGTTCACTCGGCGATGCCGGCCAATCAGGCGGCTCAGCTCCTGGCCGGGGAGCCGGTCATTTGGCAGCCGCCCAATTTTCCGTTATACCGCAGTGTGTCTGCTCAGGTGCACCAAATCATGCATCGGGTCACCCCCTTCATCGAACCCTTGGCCTTGGATGAGGCGTATTTGGACGTGGGCGCCCGGTTCCCGGAATGGCCACAGACGGTGCGAGCGGCGGCCTATCTGCAACGCACGATTCGCCAGGAGACTCGGCTGACCTGTTCGGTGGGAATTTCGTATAATAAGTATTTGGCCAAACTGGCGTCAGACTTTAATAAGCCTTTCGGCCGTACGATCATCACGCCGGCGGCAGCTCCGGTATTTCTGGACCGCCTGCCGATTCGCAAGTTTCAGGGGGTCGGGGAGAAGACTGCACCGCGTTTGTTGGCGATGGGCATTACCACCGGGGCGGAGCTGCGCCAGCTGACGCTGACCCAACTCACCGATGCTTTTGGTAAATTCGGTTATATGTTGTATCGCCGCATTCGCGGTGTTGACGACCGGCCGGTGGCCTATGCCCGGGAACGCAAGTCGATTGGCAAGGAGCGCACTTTTGCGCCTTTTCTGACCTCGGATGAAGCCAGCACGCGCCGGATCACGACGTTGGCTCAGGAAGTGGCGGCACTGCTGCAAAGCAAGCAGCGCAAGGGCAGCACGGTGACGTTAAAGATGCGGGACGGGGAGTTTAATACAGAAACCAAGCGGGTGACGCTGAAGGAACCGACCCAGGATGCCCAGCTGATTACCAGCGTTGCCCTGCAGCTCTGGCAAAAATATGGCGCTGCTATCCTGGCTAACGGTGTTCGCTTGCTGGGCGTCACGGTCTCCAGTCTCGTGCCGGTGACCATGGAGAACCTCACGCTGCCCGTGTTTGACTAG
>SRR1151209_01368 hypothetical protein
GTGGCAACAAAACACGAAAAAATTATCCAATATATCGCGGATACTGATATTGGTCAAAAAATATCGGTACGCAGCGTAGCTCGCCAGATGGGGGTCTCCGAGGGAACGGCTTACCGGGCAATCAAGTCAGCAGAAACCGAGGGGCTGGTCGCGACGGTGCCCCGAGTCGGGACGATTCGCGTGGAAAAAACCATTCGCGGGGACATCAAAAACCTGACCTTCGGTGATATTTTGCGAATCATTGACGGCACGCTGTTTGGCGGGGAAACTGGGTTGCAGCATCGGCTGGACCGCTTCGTGATTGGGGCAATGACCACCGATGCGATGCGCGATTATATCACCCCAGGGGCGATGCTCATCGTCGGCAACCGAGAGGACGCGCAGCTGATGGCCCTGGGCAACGGAGCCGGGGTATTGATCACTGGCGGATTCACCGCCAGTCCGGCGGTGGTCGCCGCCGCTGACAAGGCGGCGCTGCCCTTGATCGGCTCAAACTACGACAGTTTCACAGTGGCCACGATCATCAACCGGGCGATTTCTGATCAGCAAATTAAGAAAGAAATCGTCACGGTGGCCGATGCCTATGTGCCCATCGCCCAAACTGCTTATCTCCGGCAAGACGAAACGGTATCCCGCTATCGCCAGCTGGCCAAGGCGGTGAAGCATTCCCGCTTCCCGGTGGTTGCTCGCGACATGCGGGTGGTCGGGGTGATTACCGCGAAAGATCTGCTCACGGCGTTGGCGGAAACCACGCTGGACCGAGTGATGACTAAGAATCCGGTCACGGTGCGCAAAGAAATGAGCGTTGCTTCGGTTTCCCACTTGATGGCCTGGAACAGCATTGAAATGATTCCTGTGGTAGACGCGGAGTTTCGACTCTTGGGGATTGTCACCCGGACGGATGTCATGCGCAATCTGCCCACCCCGGGTCATCAGAGCGAGGGCAGCGACACGTTTTTTGATGCGATCCATACGAGTTTGCGGACCAACGAAGACAATCGCCGCTGGCAGACGATCGTTACTCCCCAGATGACCAACTCACTGGGGACCATCGCGGTTGGCGTCTTGTCCGAAATGATCACGGATGTCGCCCAGGATTTCTTAAAACATAATTATCAAAAACGATCGCTGATCGAACAGATCACGGTCAATTATTTAAAATTGATTCAATTGGAACATCGCGTCCAAATCGTGCCGGAATTACTGGATCTGGGCCGGCGCTCGGCCAAGCTGGAAATTACCGTGAGCGCGGAACACGTGCTCAGTGCCAAGGCGTTCGTGGTGTGTCAAATACTGGAGGAAGAATAA
>SRR1151209_01369 phosphoesterase
ATGGCTGTTAATGAAGCAAGATTGACGGAAATTATCAAGACGATCCAAGCGTACGATACGATCATCATTCATCGCCACGAGCATCCGGACCCCGACGCGATCGGGTCCCAGGGCGGTCTGGCGGAGATGCTGAAGCTGTCCTTCCCAGAAAAAAAAGTCTATGCCGTGGGTGCGGATATTGGCAATCTGGGCTGGCTGAACACGATGGATACGGTGGCCGATGACGTGTATCAAAACGCTCTGGTGATCGTGACTGACACTGCCAATACCCCCCGAATCTGCGATCAGCGCTTCAGCACTGGGAAAGCCTTGATTAAGATCGATCACCATCCCAATGATGATCCTTACGGGGATATCACTTATGTGGACGTTGATGCGTCCAGCTGTTCGGAAATCATTGTGGATTTGTTCCACGCCGGCCACGGCCTGCTCAAGTTGAACGGCGCCGCTGCCCGGCTGCTCTACGCCGGCATCGTCGGCGATACCGGCCGCTTCTTATATCCGGCAACCACGAGCAAGACATTCCGAGCGGTCAGTGAACTCGTGACCTATGACTTTTCCCCGGCAGATGTTTCCCAGCGGATGAACGAAATTAATTTAGGCCAGGCCAGGCTGCAGAGCTATGTGTTCAACCATTTGCAGGTGGATGACCACGGGGCAGCCTGGGTGATCATTCCCCAGGCGGCGTTAAAGGAATTAGGTATCAGCAATGATGATGCCTCGGCCGCCGTCTCCACCCCTGGCCGCCTGCGGGACGTCAAGGCGTGGTTGGAGTTCGTGGAAAACCCCGCTGGACCCTATCGCGTACATTTGCGTTCTAAAGGACCGGTGATCAATGAATTGGCTAAAGCCCACGACGGCGGCGGTCATCCGCTGGCCAGCGGGGCCAAGGCCAAAGACCAGGCAGAAATCGACACCATGATTCAGCAGTTGCAGACCCTCGTGGCCGCTTGGCACGACTAA
>SRR1151209_01370 DEAD/DEAH box helicase
ATGAGCACATTCGCTCAATATAATTTCCCTGATTTCTTAAATCAGGCACTGACCGCGATTCACTTCACCACGCCGACGGATGCCCAAGAGGCACTTTTACCGCCCATCCTGGCGGGCAAGGATGTCGTGGGTCAAGCAGAGACCGGCAGCGGCAAGACCCATGCTTTCCTGTTACCAATTCTGGCTGGTATTCAAACGGCGGAACACACCGTTCAGGCGGTCATCACCGCCCCGAGTCGGGAATTGGCGGAGCAGCTGAAGGACGCGGCGGAACAACTCGTCAGCCGCCAGGAGCCCCAAACCCGAATTTTGCTCGCTGTGGGCGGTACCGATAAGGAGCGGCTGGTGGAGAAAATCGAACACCGCCAGCCCCAGCTGGTTATCGGGACCCCCGGCCGGTTGGCAGATCTCGTGACCAGTCATGTGCTGCAGGTGCAGACCACGCAGTATTTTGTTGTCGATGAGGCCGACATGTCTCTGGACATGGGCTTTTTGACCGATATCGACCATATCGCCTCGGCGATGCCGACCAAATTACAGATGCTGGTTTTCTCGGCGACGATTCCAGAAAAGCTGCAGCCGTTTTTGCGCAAGTACATGCACAGTCCGGAGATGGTGCGGGTGGCCTTAAAGTCAGTGATTTCCCCAACCATCAAGAATATCCTGCTGGCCACCAAGGGCCGGGATCACAACCGGATCATCAATACCTTATTGCATATCGGCCAACCGTTTTTGGCGCTGGTTTTTGCCAACACGAAAGAGCGGGTCGATGAACTCTATGATTATCTGCAAAAACAGGGATTGAAAGTCGCTAAGATCCATGGGGATATTCCCCCGCGGGAACGACGGCGGACAATGAAGGAAGTCCGCGACTTGCAGTATCAGTATGTTGTCGCCACTGATTTGGCGGCCCGGGGAATCGATGTTCCGGGCGTATCGCTGGTGATCAACGATGACTTCCCCAAGGACCCGGAATTCTTTATCCATCGCGTGGGCCGGACCGGCCGAAACGGCTTGGCAGGTACCGCCATTTCTCTTTATGATCCGGAGCAGGAACAGCAAGTGGCCCAAATCGAAGGCTTAGGCATCAGTTTCGTACCGGAAGAATTGAAGGACGGCGAACTGGTGGCGGCTAATGACCGCAACCGCCGCCGGGATCGGCAGGGTGTCGCCCAGGCCATTGACCCCAGTATCAAGGGCATGGTGGCCAAGGAAAAGAAGAAGCGCATGCCCGGATATAAGAATAAGATCCGCAAGGCAATCAAAGTGGATGCCCGGCGGAAACGGAAGATCGCACGAAGGGAGCAGCGGCGCAAATGA
>SRR1151209_01371 hypothetical protein
ATGATGAATCCTCAGCAGTTGAATCGGCCGACCTGGGAGCAGTTAACGGGGGAACAACAGCATTTGCTGTTTACTCAAATCCTGCGGTACTTCGTCAATCCGCTGCTGCCCACGACTGAAATCGCGCCGGTGTGCATCACCGTTCAGGGGAAAAACTTTGCCTCCCAAACGGTGATGATTGCCGGCCAGCGTTACATCTTTGTGCCCGGTCAGCTCCAGGCTCAGCTAGGCTATCAGGTGACCGGGCAAGAAGTGCTGACGCCCCAGTTATGGGATGACGGCAGTGCAGTCTTGGAACATCCGGATTTACCGGCCATGGCGTTGACCACCAATGGCCAGCGGGAGCGGTATTTGACTGATTTTACCACCGCTCCGCGGACAGCGGACATTCCGCCGCTGCTCGTGGCTCAGCAGCCTTTGCCCATTGATCAGCGCAGTGTCGGGCTTTACACGCCCGGGACTGATGATTTTTCAGGGGATGTCGTGACGTTTAAGAAGATCCGCCAAACTGTGGGCAGCCAGTTGCGCCAAGCCCCCCGGGCGATCGTCACCCCGGAAATGAGTATTTATTTCGTGCCCACCGCCGTGCTGGGTGAATATCAGCTGCGCGTCGCGGAGGCACTGCCGCCCATGGTTTTGACCCAGACCTTGGCGCGTCAGGGATTTTCTGTCTTGGCCCCAGATGAGTACGAATACGTGGTCAGCGGCGGTCAAACAACGCTGTTCCCATGGGGCGCTCAGGGGCTGACCGACCTGCCGCCGGTGATTCCCAACCGCTTCGGCATTCGCTTCAGTGCACGTCAATACACAGCGGAGATGACCACGGATTCGCTGACCTGGCGAGGCGGTTGGCCAGTCTCTGGCGGGCAGAAAAAAGTGGAAGCACAACTGCCGTTTTCGGCCTTCTATGACAGCGGCCGGCTGCCCGGTTTTGGCGATCTGCCTTTGCCCCAGCAAGTCTATCATCAGGTGATCCGGGTCTCGTTTGACGACGATGACCGGTAG
>SRR1151209_01372 glycerophosphoryl diester phosphodiesterase
ATGCAAACATTGATTTTTGGTCACCGCGGTTATCCCGCCCGCTTCGCAGAAAACAGTCTTCAGGGTTTCCAGTATGTCTGTGCCCACCACATTGACGGTATTGAAACTGATGTACAGCGCACTAGTGACGGCCACTTAGTCATTATCCATGATGAAACTATCGATCGCACGACCGATGGCAGCGGCTATGTGAAAGACATGACCTTGGCTGAGCTGCAGTCGTGGCATCAAGCTAACGGGGAATCGATTCCTACCTTGGCCCAGTTTCTGGATGCGCTGGGCAATTGGCACGGCCAAATCAACATTGAATTTAAGACCGGCAAAGTTCGCTACCCTGGCATTGAAGCCGAGACCCAGCGGGCAGTCGCGACAGCTGGGCGGACCGACGAGGTCGTCTACTCGTCGTTTAACCCGGATAGTCTAGTCGCGCTGCACGAAATCGCCCCTGAACAACCTGTGGCACTGCTGGCCAAAGAAGCGACCCCGGAGAAAGTCGCACCGGTTCAAAATATTTTATCGGCCTTGCATTTGGAAAAGATGGAAACGCCCAGCCAGCTGCCGGAACGGATCTGGACTGTCAACGATCCGTGGCAGATGCGGGCGCTGTTCCGGGCGCCAAAAGTCGTCGCCATCATCACCGATAAGTTTGAGGAAGCGCAAGACGTCCGCCAGCTGCAAACCAGCAAGCAGACGGCATAA
>SRR1151209_01373 alanyl-tRNA synthetase
GTGCAAGCGCCCTTGAATGCGATGATGTTTTTTTACCGGCAAGAAAGAGGCAGTCAACTGATGAAAGAAATGAGCAGTGCCCAAGTACGGCAAACGTTCCTGGACTTTTGGCAATCCAAGGGGCACGACGTAGAGCCCTCTGCGTCGCTGATCCCGAAGGACGACCCGACGCTATTATGGATCAATTCCGGGGTCGCCACGTTGAAGAAGTATTTCGACGGGACCGTGATCCCGAAGAATCCGCGAATCACCAACGCCCAGAAGAGTATCCGCACGAATGATATTGAGAATGTTGGGAAAACCGCCCGGCACCAGACATTCTTTGAAATGCTGGGAAACTTCTCCGTCGGCGATTATTTCAAAAAAGAAGTCATTCCCTGGGCTTGGGAACTGCTGACGGATCCGAAATGGTTTGGCTTTGAACCGGATCGGCTGTACATGACGGTGTACCCGAAGGATACAGAAACTTACAAATTATGGCAGGAGGCCGGCGTCAAGAAAGATCATTTGGTTTTGGCCGAAGATAACTTCTGGGATATCGGCGGCGGCCCCAGCGGTCCGGACTCCGAAATTTTCTACGACCGCGGTCAGCACTACAACAATGTCGCGGAAGACGATCCAGAAAATTATCCCGGTGGTGAGAACGAACGCTATTTGGAGATTTGGAACATTGTCTTTTCTGAATTCAACCATCTGCCCGATGGCCGCTATGTTGAACAGCCCCATAAAAACATCGATACCGGCATGGGTCTGGAACGGGTCGTATCGATTTTCCAGGATGCGCCGACAAACTTCGAGACGGATCTGTTCATGCCGATGATCCGTGAAGCGGAAACGCTCAGCGGTAAAAAGTACGGCGTGGACAACAACCACGACGTCAGCTTCAAAATCATCGCGGATCACGCCCGGGCAGTCACCTTTGCCATCGGCGATGGCGCGATGCCATCCAATGAAGGCCGCGGCTATGTGTTACGCCGGTTGATTCGCCGGGCTGTCTTGAACGGCAAGAAACTGGGCATCGACAAGCCGTTCCTGTACCAGCTGGTGCCGGTCGTGGGTGAGATCATGAAGAGCTACTATCCGGAGCCTCTGGCCCAAAAGGACTTCATCGCCCACATCATCAAGGGTGAAGAGGAGCGGTTCCAGGCGACGCTGAATGACGGCTTAGATATTCTGGACGGCCGCATTGCGGACCTGCAAAAGGCTGGTGAAAAAGTCTTCCCCGGCGCCGATGCCTTCAAGCTGTTTGATACCTATGGCTTCCCAGTGGAACTGACTGTGGAGTCCGCGGCGGATGAAGGCCTGTCCGTGGACATGAAAGGCTTTAAGGCCGCCATGCAGGCCCAGAAGGATCGGGCTCGCTCGGCGCGGAAAGACGTTAATTCCATGGGTTCCCAGAACAAGCTCTTGATGGATATTAAGGACGAGAGCGAGTTCACCGGGTACGATGAATTGACGACCACCGGCGCCACACTGACCCACCTGATTGTCAAGACGACTGATGGCGACCAGTCAATCGACAAGGAAGTCGACGCCGTCACCAGCGGCAAAGCGGAACTGTTATTCGATAAGACCCCGTTCTACGCCGAAATGGGCGGCCAAGTGGCCGATCACGGGACCATTGAAGACGCGGATGGCAACGCAGTGGCCAAGGTCACTGATGTACAGCACGCGCCGAATGGTCAAAACATTCACTTCGTTGACGTTTTGGGCAATCTTGAAGCACACCAGACGTATACGCTGAAAGTAAATCGGACGTTCCGCTTGGCGGTGCGCAAGAACCATACGGCGACCCATTTGCTGGACCAAGCGTTGCGGGAAGTTCTGGGGGCCCACACGCATCAAGCAGGATCCCTAGTGGAACCCGATTACCTACGCTTTGATTTCAATCATCAAGGCCAAGTCACCCCGGCAGAATTGCAGCAGCTGGAAGATACAGTGAACGCTAAGATTTATGCTGAAATTCCGGTCAAGACGACAGTCACGGATCTGGCTACTGCCCAGAAGATGGGTGCCATTGCGCTGTTCACCGATAAATACGGTGACCGGGTACGGGTCGTGAATATCGGCGACTGGTCGATTGAATTGTGCGGCGGCACGCATGTCAAGAATACTGCCGAGATCGGTTTGTTCAAGATCACGTCCGAATCTGCAATTGGGGCCGGTGTACGGCGGATCGAAGCAGTCACGTCGAAAGCCGCCGTGGCTTACGTCGATCAGCAGATGCAGCTCCTGAATCAGACGGCTCAAATCGTCAAGGCCAATCAAGTCCAGGATACCCCGGAACGGGTTAGTCAGTTGCAAAAGGACTTGAAGCGCACCGACAAAGAGCTGACGGCGCTCCAGGCGAAGATGGCAGCGGCGCAGGCCAATTCTGTTTTCGACAGTGCCGAAACCATCAATGGTCTGCAAGTGATTACGGCCCAAGTGAAGGTTGACGGTATGAATGCGCTGCGGCAAATGGTGGATCAGTGGAAGAGCAAGGATGCGTCCGATGTTCTGGTCCTGGCGACCGCTGCGAACGGCAAAGCCAACTTGATTGCCGCCGCCAATGACAAAGCCCAAAAGCAGGGCGTTAAAGCTGGCAATTTGATCAAAGCCATTGCGCCGATCGTTGGCGGTGGCGGCGGTGGCCGACCGGACATGGCCCAAGCCGGCGGCAAACAACCAGAAAAAATTAATGAGGCGTTAACCGCTGTCAAAGCGGCATTAGGCCAGGCTTGA
>SRR1151209_01374 hypothetical protein
ATGAGTTCACTCGATAAAACAATGCATTTTAGTTTCGCGGAGGATCAAAGCAAGAATGTCCGGGAAACCTTGCAAACCGTTTACAAAGCGCTGGAAGAAAAGGGATACAACCCGATCAATCAGATCGTTGGTTATTTACTTTCCGGCGACCCGGCGTACATTCCCCGCTATAACGATGCACGGACGCTCATTGGCAAACATGAGCGCGACGAAATCATCGAAGAACTGGTACGCACGTATCTCCATCAAGAGCTGAAGTAA
>SRR1151209_01375 Holliday junction resolvase
ATGCGCTTGATGGGTTTAGACGTGGGATCAAAGACTGTCGGCGTCGCCGTCAGCGATCCCTTGGGCTGGACAGCTCAGGGAGTCGAAATTATTTCCATTGACGAGCATCAGCATCAGTTCGGGCTGGACCGGGTGGCCGAACTGGTCGATCAGTACGAAGTCACCGGGTTTGTTCTGGGCTTTCCGAAGAACATGAACAATTCCATCGGTGAACGGGCCAAGAAGTCCAAAGCATATGGCCAGTATTTGACCGATCGGTTTCATTTGCCCGTCGATTTTATTGACGAGCGCCTGACTACGGTCGAAGCCAACCGGATGCTGATTGAAGGTGCAGATGCATCCCGGAAGAAACGCAAGCAGGTAGTCGATAAAGTCGCAGCAGTTCTGATCTTACAGAACTACTTGGATGCCGGCGGCAAGTTGACCAAGTCGGTACAGTAG
>SRR1151209_01376 hypothetical protein
ATGGCAGATAAAAACCACATTCACAATGGCGATAGTTTCGCTGATGACCAACGGCAAATCACGTTAGTCGACGATCAAGGGAACGAAGAGTTATTTGAAGTCTTGTTCACCTTTGATTCTGAAGATTACGGCAAGTCTTACGTCTTGCTTTATCCGGCGGGGGCCAAGGCCGATGAAGAGATCGAGATTCAGGCGTTCTCTTTCACTCCGGACGAGGATGGCTATGCTACTGCGGGTGATCTGTACCCAATAGAGGATGACGCCGAGTGGGACATGGTCGAAGAAGTGCTGAATACCTTCATGGCCGACAACGAGGACGATGAAGACGACGAATAA
>SRR1151209_01377 cell division protein FtsZ
GTGGCTGACGATAAGCGACGCTACAAAGCAACGATTGGCAAAAAGACGTATACGATCGTCGGTCCCGGCAGCGACGAGTTCATGGCGACCGTAACGGCAGTCCTGAATACCCAGCTGGACCAGATCAAGTCTCTGGCACCGCAGTTGACGGAAACGGACGCGGCTATTTTATTGGCTTTTAATACGATTTCAGATTCCATCAAATTGAAGGAAGAGGTCAAAGCACTGCAGGCCCGCTTGGCGGACCCCGACAGCAGCGCGGCGCACCCCCAAGACCAGGAGTAG
>SRR1151209_01378 colicin V production protein
ATGTTGAGTTTGGTAGTTATCTTGATCCTGTTATACGGCATCTATGGCGGTGCTCGGCGCGGTATTTACCTGCAAGGAATGTATACAGTGGGTTATTTTATTGCGCTGATCGCGGCCCTTTTGGGATACCGGGCACTCGGTCCCCATCTTGATTTATGGGTGCCGTATCCGTCCGCTACTATGAACAGTTTCTTTGCTTTCTTCACCACAACCAGCGGTTTGGATTTGGATCAGCCTTATTACAACGCCTGTGCTTTTCTGCTGATTTTCGTGATTGGCTGGCTGATCGTGCATATTGTGATGCTTTGGTTCACGCCAATGCAATTTATGCCGGTCACCGATGCCTTGAACAGTGTTGGCGGGATGCTGCTGGGTTTTATTTGCCAATACATGGCCGTGTTTATGGCCATTTATTTTGTCGCGCTGATTCCCATCGACGGGATGCAGCATGCATTGGCGAATTCCTGGATGGCGCGCATGATGATGGTCACGCCCGGTCTGTCCCAGGTGTTTTTGCACTGGTGGGTTTTGAGCGCTTAG
>SRR1151209_01379 DNA mismatch repair protein MutS
ATGCATACCAGAGTGTTAGCAACTCTGGATTATCCTGAGGTCCTGCATCAGTTGGCCAGCTATACCGTCAGCGATGCCGGTAAGCGGCTGGCTTTGGCACTGACCCCCGATGATACTGCCGGTGCCGTGCAAGAGAATATTGACCGGACCGCGGACGCCATGGCCCTCCACCGCCTCAAGGGCGGGTATCCCATCACTAAAACGGTGGACATTACCCCGCACTTGAAGCGGCTGCAAATCGGCGCCACCTTAAGCGGCAGCGAACTGGCTCAAATTGGCCGGGTGCTGGCGGTGGCTGCCTCGATTAAAAATTTCTTCAGTGATTTTGCTGATGATCAGGATCAGATGCTGCGCGCCTTGCCGGATCTGGTGGACCAGTTAGTGGATCTGCCAGCTGTAACCCGGGCTTTGAATCGGGCTTTGGACGAAGACGGCACGGTATTGGATACTGCCAGCAGCAAGCTGCAGGGCATCCGCACGGGCATGCGGCAAACTGAGGGCGCGGTGCGCACTCGATTGGAACAATACACCCGGGGCAAAGAAGCCCAGTACCTGACTGACGCAATCATTACGCTGCGGGATGATCGTTATGTGATCCCGGTCAAGGCTGAGTATAAGAATCGGTTTGGCGGGATCGTCCACGACCAAAGCGCCAGCGGTCAAACCTTTTACATTGAGCCGCAAGCTGTATTGGAAATGAACAACCGCCTGCGCCAGCTGCAAATTGACGAGAAGCGGGAGATTGAGCGGATTTTGGCTGAATTGGCTGAGCTGGTCGCACCGTATACCAACGAGTTGAAGGCTAACGCGGACATTCTGGCTGAGCTGGATCTGGTGAATGCGAAGGCCCAGTACGCTCGGGCAATCAATGCCACTGAACCGATTATCGATGCGGACCGATACGTGGATCTGATCCAAGCCCGCCATCCGCTGATTGATCCTAAGAAAGTCGTCCCCAATGATATCTATTTGGGCAAAGACTTCCATACGATCGTGGTCACCGGACCCAACACGGGTGGTAAAACGATTACGCTGAAGACCTTGGGGCTGCTGGAACTGATGGCGCAATCAGGGATGTTTATTCCTGCTAACGAAGACAGCCATGTGGCGATTTATGATGAGATTTTGGCCGATATAGGTGACGAGCAGTCCATCGAACAAAGCCTATCGACTTTTTCTGGGCACATGAAAAATATCATCAGCATTCTGCACGTGGCGACTAAGCGCAGTCTGGTGCTCTTCGACGAACTCGGTGCCGGTACCGATCCCCAGGAAGGGGCCAGTTTGGCCATTGCCGTCTTGGATTATTTAGGGGCCATGGGGCCGGACGTCGTCGCGACGACCCACTATCCGGAATTGAAGGTTTATGGTTATAATACGCCGCAGACGATCAACGCCAGTATGGAGTTTGACATCACCACCTTGCAGCCGACTTACCGTCTGCTGATCGGCACCCCGGGCCGGTCCAATGCCTTTGACATTGCTGCCCGGCTGGGCTTGAATCAGGAGATCGTGGATCGGGCCAAGCAGCTGCTGGATGGTGAAAGTCAAAACCTGAATGAAATGATCGGCGATCTGGAAAATCAGCGGAAAGCCGCGGAGACCGAGTATCATGAACTGCGGCATCAACTAGATGAAGCCACGACGCTGCACGAACAGCTGAACACGGCCTTTGAAGAATTTCTCAAAGACAAGGACACCCAGCTGCAAAAGGCCCAGCAGCAGGCAGATAAGCTGGTGGATAAGGCACAAGCCAAGGCGGACAAGATCATCGCGGATTTGCGGCAGGCACAGCTCACCGGCGGCGGCAGCAGTGTCAAGGAAGACAAGCTGATTGCGGCGCGCACCGCGCTGAAAGACTTGCACAGCACACCGTCAGCCAAGAACAATCGGGTCCTGCGGCGGGAGAAAAAGAAGCAAACGCTGCGGCCCGGCGATGACGTCCAAGTAGCCAGTTACGGAACGGTCGGCACCTTGCTCAGCAAGTCTGATGATACCCACTGGGAAGTGCAGCTGGGTATTTTGAAAATGAAGGTACCCACCGATGAATTGACCAAGGTAGAGGCGCCGGAGGACAAAGAGCCAAAGCGGCATATCGTCAACGTCAGCAATCGCGGTCCGGCTATTTCGCCCACCTTGGATTTGCGGGGCAAACGATATGAAGAAGCCATGCATGATCTGGATCAATACATGGATGAGGCGCTGCTGGCCAATTATCCAACGGTGACGATCATCCACGGTAAAGGCACCGGCGCCATCCGCAATGGGGTCCAGGAGTACCTGAAACAGCATCGTCAGATCAAGAGTTACAAGTATGCGCCGCCGGAAGCCGGCGGGGATGGGGCGACGATCGTCGTCTTTAAGTAA
>SRR1151209_01380 thiol-disulfide isomerase/thioredoxin
TTGGTCAAAGCTGTTACAGATAAGACATTTGCCCAAGAGACCGATCATGGCGTTGTCCTGACCGATTTCTGGGCCACGTGGTGCGGCCCGTGCCGCATGCAGTCACCGGTTATCGACAAACTAGCCGATGAGCAGCCAGATGTTAAGTTTACGAAAATGGACGTGGATGAAAACCCGGATACCCCGAAGCAATTCGGTATCATGGCCATCCCGACTTTGATTGTTAAAAAAGACGGGAAGGTCGTTGAACAGCTCGTTGGTTACCAATCCAAAGAGCAATTGACCGCCACGCTCGCTAAATATACTGACTAA
>SRR1151209_01381 D-Ala-teichoic acid biosynthesis protein
ATGAAAGCACAGTGGCTTGCCCTATGGCACCGGCCCGTGTTCCAATTCGTCGTCAAGACTGTCTTTTACTTCATCATCATTCTGGTGCTGACGTATTTGTACAGCTACAGCGGCGTGAACAACAGCAAGTTTATTTACAATGAATTCTGA
>SRR1151209_01382 D-alanine-activating enzyme DltA
ATGATAGATAACATCATTTCTCAAATTGATAAAATTGCGGAGGAGCATCCGGACCGGCTTAGTTACACGTATGAAGACCATACGTATACCTTCGGCGAGTTAGTCGCGGCCGCCGACCGGATTGCTCACTTCCTGCAAGCGCAGCACTTGCCGGAGAAGGCCCCCGTCATTGTTTATGGCGAGCAGACCTTCGCCATGGTGGCCACCTTCCTGGGGGCCGTTAAGGCGGGCCATGGGTACATCCCCATTGATACCCATTCACCCAATGAACGGATCCAGCAGATTCATGACGTGGCCCAGCCGGCAGCTATTCTAGCGACAGAGCACTTGCCGGTCAGCTTCTCTGATTTGCCGATCTATGGACCGGAACAAATGGCGACCGTGCGTCAGCATGGTGCGACTGACTATGACCACGGGGTGTCCGTCCGCGGTGATGAGACATTTTACATCATCTTCACTTCGGGCACGACCGGGGTACCCAAGGGCGTTCAGATCAGCCACAACAACCTGCTGAGCTACGTCAACTGGGCGATCAGCGACTTTTCGCTGCCCGCAGGTGTCCGCTGTTTAGCTCAAGCACCGTATTCCTTTGACCTCTCGGTGATGGATCTTTATCCCAGTTGGGTCTTAGGCGGGAATCTGGTGGCGCTGCCCAAGCGGACCACAGATAATTTCATGCTGCTGTTCAAGGCTTTGCCGGAACTGCACATAGAAGAATGGGTATCGACCCCGTCCTTCATTGAGATTTGTCTGCTGGATCCGAATTTCAAGGCAGAGAACTACCCAGATCTGAAGTATTTCTTGTTCTGCGGCGAAGAGTTGACGGTGAAGACGGCCAATACTTTGATTGACCGTTTCCCAGACGCAAAGATTTTCAATACTTATGGCCCGACGGAAACGACCGTCGCTGTAACTGCTGTGGAAATCACAAAAGCAATCACCGCGAAATACGATCGCCTGCCTATCGGTTATGCCAAGGAAGACACCGTTATGTATGCCATTGACCAAAAGGGTCAGCGCGTTGCCCCCGGTCAGCTTGGCGAATTGATTATTGAAGGACCCAGCGTGTCCAAGGGGTATCTCAATAATCCCGAAAAGACGAAGGCCGCTTTCTTCCAGGATGGTCCCCACCACGCCTATCGTTCTGGGGACCTGGGCTTCGTGGATGCGGACGGCCTGATCTTCTATCGCGGGCGGACCGATTTCCAGGTGAAGCTGCACGGTTTCCGGATCGAGCTGGAGGATGTCGACCATGCGTTAGACGCCCTGGCTCCGGTGAAACAGGCCAGTGTCGTACCCAAGTACAACAGTCAGCACAAAGTAACCCAGCTGGTAGCGTTCGTGGTCCCGAAGAAACAGCCGCTGGATGAGGGGGCCTATGTGGCCGATTTGAAGAAGCAGCTGACACAGACGGCAATGAGCTACATGATTCCCCAACGGATTGATTTAAAGAGCAGTTTGCCGCTCACGGTCAACGGTAAGATTGACCGCAAAGCATTGATTGCCGAGGTCAATCCTTCATGA
>SRR1151209_01383 D-alanyl transfer protein DltB
ATGATCAATTTACAGCCATACGAAAATCCGGGTTACTTCGTTCTGCTGGTGATCGCACTCTTACCAGCGATCATCGTTCGCTTAAACGGGGCCCGGTCGCACTGGTACGAGACGCTGGTTTCCTTTGTTTTCCTGTTTCTGATGTTTGACGGGCGCAAATGGACCCAGGGTGTCGCCCTGATCGGCTACACCATATGGCAATACGCTATTGTCGCCTTGTATATCCGGTACCGCACGAAAAAGGATTCGCCGAATAAATTCAGCGTATTCTTCTGGTCAGTGGTTCTAGCCATCGTACCCTTGACCGTCGTTAAGTTCACACCGCTGTTTGATCATGGTCAGTCAAGTATTATCGGCTTTCTGGGGATCTCTTACCTGACCTTCAAGACCGTGGGTATGATCATGGAAACCCGGGATGGCTTCATCAAAGATTTCCATCCGGTTAAATTCTTGCAGTTCCTGCTGTTCATGCCGACCATTTCGTCGGGGCCGATTGACCGGTATCGCCGGTTTGAAAAGGACTACGACCGGGTTTTGACCCGGGAAAAGTACCTGGACTTGCTGGGCAAGGGTGTGGATCGCTTATTCCTTGGCTTCTTCTACAAATTCATCATGGGCTACATCTTCGGCACGATGCTGCTGCCGAACCTGGAGCGGCAGGCGATGCAGGCCCGGGGCGGTTTTCTTGACTTGTCCTGGCCGCTGGTCGGGGTCATGTACTGCTACAGTATGTACTTGTTCTTCGACTTTGCCGGCTACAGTCTGTTCGCTGTCGGGATCTCCAACATGATGGGGGTCGAGACACCGATGAACTTCAACTATCCTTGGATTTCGCATAATATCAAGGATTTCTGGAATCGGTGGCATATGACACTGTCCTTCTGGTTCCGGGACTACATCTACATGCGGTTCGTGTTCTTCATTATGAAGCACAAATGGATCAAGAACCGAGTGACCATCGCCAATCTCGGGTATCTGCTGCTGTTCATGATTATGGGCGTGTGGCATGGCGAGACTTGGTACTACATTGTGTATGGTCTGTTCCACGCCACGGTGATGATCTTGACCGATGCCTGGATTCGCTTCAAACGCAAGCATAAGGATGCGTTCCCGAGCAATCACTTTACTAAGGCCATCGCCATTTTACTGACGTTCAACACAATTTGTTTCAGTTTCCTGATTTTCTCCGGGTTCCTTGACCGGCTTTGGTTCAGATAA
>SRR1151209_01384 D-alanyl carrier protein DltC
ATGGCAGTTAAAGACACAGTGTTAGATATTTTGAGCGATTTAACCGGTTCTGACGAGGTTAAAGAGGATTTGGACAAGAACTTGTTCACATCCGGTCTGTTGGATTCCATGGGTACGGTGCAGTTGTTATTGGAATTACAGTCGCAGCTGGACGTCAACGTGCCGGTTTCTGAATTTGACCGTACGCAATGGGATACGCCGAATAAGATCATTGCGAAAGTCGAGCAGATGCAGCAACAATGA
>SRR1151209_01385 D-alanyl transfer protein DltD
ATGAAATTGGCCAAACGGTTATGGCTGATCTTCGGGCCCATTCTCATCGCGATGCTCGGCGTCGTCGTGTTGCTGTTTTGGCCCGGCAACTATGGTCAGTCGCGCCAGGACAACGTGGAAAAGGCCGCTGTCTCACTGTCGCCCAATGTCTTTAAGGGCAACTTATTAAAGAGTGCGGCGTTTGACCAAAACTACGTGCCCTTCATTGGGTCCTCCGAACTATCGCGGATGGATCCATTCCACCCCTCCGTCCTGGCGACAAAATATCGGCGCAATTACCGGCCGTTCCTACTCGGATCCGCTGGTACCCAGTCGCTGACCCATTTCTTCTCCTTGCAAACTGCGGGTAAAGAATTAACTGGTAAAAAAGTTGTCGTCATCATCTCACCCCAATGGTTCGTTTGGAATGGGATCCAACGCAACATGTTCAGCTATTACTACTCCAACTTGCAAACCAATAACTTCTTGGAAAAGGCGAAAGCCAACGATCCAATGGCGGAATATGCCGCCACCCGGCTGCTGCAACTGCCGTCTGGATCTTCCAACCCGACTCTGACGGAAGCCATTATTCGAGTCAAGGCCGGCGTGCCGCTGACCAATTGGCAGAAGACTTACCTGCGGTTGTCAGGGCGGCTGTACGATCACGAAGACAGTCTGTTCAGCCAGCTGTTCCTGCGGGACAACCGGGGGACGATCGCGAAGGGCGAAGAAACATTGCCGTCCCAATACGCCCCCTGGGTGTTAGACGATCTGGCGACACAAATGGGGAAGGGCGAAACGACCAACAACCAGTTTGGCATCCAGAACAAGTTCTATGATCAGCGGGTCCGGCCGGTAGTCGGCAAACTCAAGGATTCTCAGATTGGGTTTGACTATGACTACGGTCCAGAGTTTTCTGATTTTCAGCTGCTGCTGGATTTCTTCAGTCGGCATAAAATCACACCCATGTTCGTGATCCCGCCGGTGAATGATAAGTGGGCGAAGTACACGGGCTTAAGTCAGGAAATGCTGGACTTATTCGATCGAAAGATTCAGTATCAGCTGCGCACCCAGGGCTTTAACCACATCGAAGACCTCATTGATCAGGGCAATCAGCCTTACTTCATGCAGGATACGATTCACTTAGGCTGGCGCGGCTGGCTGGCAGTGGATGACGCGGTGCGGCCGTTCCTGGAGAATCAGCAGCCGACTCCTAAGTACAAGATCAATAAGAGTTTTTACACCAAAACGTGGCAGAAGAAAGAGCCGCGGGATATTCCGGATATGCGCGCCGGTAAATGA
>SRR1151209_01386 cell wall-associated hydrolase
ATGTCTCATAGTAAAGCACTGTTCAGTCTTGGTTTAAGCGCCGCCGCTCTGGCTGGCACGTTAGCTCTTGGTCACGGTCAGGCGCAAGCCGCCACGGTTGGTACAACAACATATACGGAGGGCGCCACGACCGTTTGGCAGTCTCCGTCATTCAATCGTCCCGCACGCTATTTGACCGCTGGTCAGCAAGTCACAATTCAGAATACCCAAACCATCAATGGCACGACGTGGTACGAAGTCGGCACTAATGAATGGGTCCCGAGTCTTTATATGAAAACGAGTGACAACACCACAGCGGCGCAAACATCGACAGCCAGTGCAACGGCTGGTTCTGTGAAAGTTACTTATCAGGGCGGGGCCACCACCGTGTGGACCGCGCCAAACAGCGGTAAGGTATCCTCGTACTTAGGTGCCGGCCAAACGGTTTCGTATACTGAAACAGCTCAGCAGAGTAATTTAACTTGGTACCACGTCGCTAGCGGTTGGGTACCCAGCAGCTACGTGACGCCGGCTAACGGTCAGCAGACGACCGCCCCGGCACAACAGGCAGCAACGACAGCCGCAACGATCCAGCAAAGTCAGCAGCAGGCGACTCAGGCGCAGCAGAGTACAGCCACCGCTTATAGTGCCAATACGCAGCAAGCTGCCAGCAGTACCGTGAAGGTTTCCTTCTACGATCCGGCTGTTCTAGGCTCCAGCATGGGCTATAACGGCGTGGCGGCCAACCTGTCGATCTATCCCAAGGGTACCCGCTTGAAGATCACCTTGGCGGATGGCACCGTGCTGCACCGGACAGTGAACGATACTGGTACGTTCGTAGCCAGCAACCCGTATCAAATCGACTTAGCTTGGCCGAATGCCTCTATTCCTTCTTATGGGGTCACCACCGCCTCTGTATCCGTTGAATAA
>SRR1151209_01387 hypothetical protein
ATGACCAATTCTTTGTACGATCAATTGCACCAAAGCCGCTTCAGCGTTGCGCTGCTGCGGGATGTCGCCCTGCCCATTGCCTTGGGTCGGGACCACACGAATTTAGAGTACTGGCTGGGTAAACAAATCGCCCGGCAGCTCCCGGTGAGCAACGAAGATCAGCTGCCCGTCATTGCCGCCCAGGCTGACTTCGGGACCTTAACCATTACCCATGACCGGCGGGCCAGCATCACTGGGACACTCACCGGACCCGTGGTCACGGGCCGTCTCGCCCAGGCAGCGACTCCTAGTTTTGCGTTAGAAACCGGCTGGCTCGCCCAAGAATGGCAAATGCTGACGGGTGTCTTCACGGAAGCCACCTACAGTATTCAAAAAGGCCAGGTCCTGATCAGTCTGCATCAAGATGCTAAGGAAACTCTGACTGCGACTGAACAAACCCACGCCGAACCAATCACGCCGCTGCAAACCAGCGCCGACCAGCCCCAATCGTAA
>SRR1151209_01388 glutamate racemase
GTGCGTTCAGATCCACGACCGATTGGCTTTATGGATTCCGGCGTGGGCGGTCTCACCGTCATCAAGGAATTCGTGCGGCAATTACCTAATGAAAACTATATCTTTATCGGCGACCAGGCCCGCATGCCTTACGGTCCGCGGCCGGCGAAACAAATTCAGGATTTTTCTTGGCAGTTGACTAAGTTTTTATTGCAGTTCGACGTCAAAATGGTTGTTTTTGCCTGTAATACCGCGACGGCTGAGGCCCTGCCAGTGATCAAGCCGGCGCTGAATGTGCCCTTAGTCGGCGTGATCCCCCCGGGTGTGCGCGCCGCAATCCGGTCGACCCGCAACGGTCATATCGGAGTGATCGGCACGGCCGGTACGGTACGCTCTCATGCCTATGACCGGGCGATCCATGCCCAGGCGCCGCAGGTGCACGTGACGACGATGGCTTGCCCCAAGTTTGTCCCGGTGGTGGAAAGCAACCAATATCGTTCCCCGGTCGCGAAAAAAATCGTAGCCGAAACGCTCGGTCAATTGCCTGACAAGGACATTGATACTTTGGTTCTTGGCTGCACCCATTATCCCTTGCTGCGGCCGCTGATTCAGAACTTCATGGGGCCGGACGTGACCCTGATCGATTCGGGGGCGGAAACAGTGAGTGAAATTTCGGCTCTGTTGGATTACTTTGACATTCGCAATTTGGATCACACTGTATCCGCAGCACCCAAACTGTTTACCACCGGTTCGCCAGATATGTTTAAAGATATTGCAGAAGACTGGCTGGGGATGACGGCGCTGCCCGTGGCCCACGTCGCCGTAGAAGACTTGCCGGCCGTTCCGGCAGCGAAAGAAGGGATCGAATGA
>SRR1151209_01389 glutamate racemase
ATGACCATGCCGAAGATGTTGGTGGTCGCCACCAAAAATCCGGGCAAAGCCCGGGAGTTTGCCAAAATGTTTGCTCAGGCGGGCATGACCATTAAAACGTTGCTGGATTATCCAGATGCCCGCCAAGTGAATGAAACTGGGCATTCCTTTAAAGAGAATGCTCAGTTAAAAGCAGATCATTTTGCCCATGAATTGCAGCTGCCCGTGGCGGCTGATGATTCCGGCTTGATGATCGACGCGCTGCACGGAATGCCCGGGATTCGGTCGGCCCGCTATGCTGGTGATCATAACGATGCCGCCAATAACGCTAAGGTGCTTGTGGAAATGGGCGGGCTGCCCCGCGACCAGCGGGGGGCCACATTCCATTCCACGTTGGTTCTGGCTTGGCCGGATCGGCCGACCGCCGATTTGATCGTCTCTGGCGAGGTGCGCGGTGAGATTTTGACCGTGCCCCAGGGCGATAACGACTTTGGCTACGATCCGTTGTTTTATTTCCCACCGCTGGGCAAGACCTTCGCCGAGATGACCCCGGAAGAAAAGAACGGCGTCAGCCACCGGGGCATTGCCATGCGCCGTTTAGAGCAGCAATGGCCGGTCTGGTGGGCGGCCCAAGAGGAGGATCAGGCATGA
>SRR1151209_01390 metallophosphoesterase
ATGAAAGCACTCGTCGTGTCAGACACCCACGGGGACCACAATATTTTGGAGACGATCCTTGCCCAATTTGAAACTACCGTGGACGCCTTCTTTTACTGCGGTGATTCAGAACTGACTGCCGATGATCCGATTTGGCAGAAGATGTACGCCGTCCGCGGCAACATGGATTTTGATGCCGGCTTTCCCATGGCCCGAGTGGAAAAGGTCAAAGGGATTACGGTGTATGAGACTCATGGCCACCGGCTAGGCGTTTCCATGGGCACCGCTCGGTTGGAGGAGCGGGCCCATGCAGTGAATGCAGATTGTGCCTTTTATGGACATACCCATACCCTCGAAGCGCATATGGCCGACGGGATGCTGGTACTTAATCCGGGGTCGATTTCTCAACCGCGCAGCTATCAGCAATATGGCGGGACGTGTGCAGTGGTGACGATCAATGCCACCACCGCGGATGTAGTCTTCTACGACCATCAGTTGACGCCTATCCCCAAGCTGCACCAAACGTTCCAACGCTGA
>SRR1151209_01391 hypothetical protein
ATGATCATTCCTGAGTTACAACGTTTCCTTTTACAAAATAGTGAACATTATTTGATTCCGGCGGATGTGGTCGCTAATGTCAATATGGATAACCGGTTAGGCCATGCTTTTTTGGTCCTGACGAAAGTCCGCTACGCCAAGATCCCGGTGCTGGATAATGAGAGCCACTTCATCGGTTTTATTTCGTTAGCGATGATCACCGATAAAATGCTGGCGCTGGACCATGTGTCGTTGGAGCCCCTGGATCACTTGAAAGTGGCGGACGTGGTCGAACGGCCGGATTCCGACAGCATCGTCAGTGATTTGGTGGATATTGAAAAGATTCTCCATCTGCTGGTCGACAATCCCTTTCTGCCGGTGGTGGACGACGATGGGATTTTCGTCGGGATCATTACCCGGCGGGAGTATATGAAGAGCTTCAATGAGCTGGTGCATAATCTGAATAAAGAATACGATCTGGTGCCGATTCAGCAACCGGTGTCCAGCGCGATGAAAGGACCGAAGTAG
>SRR1151209_01392 NUDIX family hydrolase
ATGACGTTAGAAGTTTCCACTGGTGCGGTGGTGTATCGCCGGGTCAATGGTGAGTTGCAGTACTTATTGGAAGAAAGTGCCACGAGTCATTTTTGGGGGTTCCCCAAAGGCCACGTCGAAGGCGACGAAACTGATGAACAAGCGGCAGAGCGGGAGATCCGGGAAGAAACCGGGCTGCACGTGCACGTGGATACGGCTGATTTTAAGCAGGTCGACGAGTATCCGCTGCCGAATGGGAACCAGAAGCGGACGATTATTTACTTGGCCGAAGTTCATGGTGATCCGGCGATCACGCGGCAGGCGAGTGAGATCAGTCATATTGATTGGTTTAACTATGAGGATGCGCACATGACGCTGACGTATGAGTCGTTGAAGGTGATTTTGGAAAAGGCGAATGAGTATCTGTTGAAACAGTGA
>SRR1151209_01393 membrane protein
ATGCTCATGAATATGATCAAAGGCTTCCTCATCGGCATCGCCCTTGTCGTTCCTGGCCTCTCTGGGTCCATCTTTGCCGTCGTGGTGGGAATTTATGAACCCTTGCTGAATAGCGTCAACCATTTCCGCAGCGACATCCGCCGCCATTCCCGGTTCCTCGGACCAGTGGCCGTGGGCGTCGTGGTGGGTATTCTCGCCTCCACCAAACTGGTCCTCTACTTAACCGAGGCCTTCCCCATTTTGGCTTACGCCTTCTTCACGGGTTTGGTCTTGGGCGTGATTCCCTTTGTCCTGAAGAAAATGCGTCAGATCCGGTTCAACCCCCTTTACTTGCTGCTGAGTGTCGGCGGCTTTATCATTATCTGGCTGCTGGCCCAATTGGGTGACACCACCAGTACGACCAGCGTGGCGATTCGGCAAGTGACCAGCATGGCCGATGCCGGCCTGCTGCTGTTTGCTGGGCTCTTCTCCGTATCCTTGATGGCCATTCCCGGGATCTCCGGGTCCGTCATGCTGATGGTGATCAACCAGTACGGCACCGTCTACTACGCCGTCAGTCAGCTCACTGATGCCGCGGCCCTGCTCCTCCGGGGCAACGGCCGGGCCTGGGGGATGATCGGCACGAGCCTCCTGGTGCTGCTGCCCTTCATGATCGGTGCCGTCGTCGGTCTCATCCTGATTGCTAAACTGATGGAATGGCTGCTCAAACACTTCCCCGCCCAGGTCTACTACGCCGTCCTGGGCGTCGTCATCGCCGCCATCGCCATCCTCCTCCAAACCGGCGTCCTCCCCCCATTCGCCACCATGGCCGCCAGCCAACTGACCATCCAAGTCATCGGCGCCTTCGTCCTTACAGTATTGGGTGTGATCTCCGCTCTATTCTTCGACAAACCGGAGGAGAAAGTCGTGGAAGAAGAAGTCCGCGCTTTGTAA
>SRR1151209_01394 small-conductance mechanosensitive channel
GTGTTTTTAGCCGCAAACAGTGGGACGAGTGACACCTTAGACACTTGGGAGGCTTTTTTAGCCAAATTTCGCTGGCAAAATATTCTGGCGGTACTCGCTCAGAAAACCCTGACCATCCTGTTTTACACCATCCTCTTCGTTATTCTGCGGAAAGTGGCGCGAGTGGCATTGCACCATCTCTTTCGCCGGTATAGACAGAAGGGCAAGTATGCAGTGGCCCGCGTCGCCACTATGGATACCTTAGTCACCAATGGCACGAATTATGCCCTATGGTTTTTATATTTCTATGCGATTCTGTCAGCGCTCGGCGTTCCAGTCGGTACATTGATCGCTGGTGCTGGGGTGATTTCCCTCGCGTTAGGGCTGGGGGCTCAAGGCTTCGTCAGTGATGTCGTCACCGGGTTCTTCATCCTATTAGAAAGACAATTCGATGTTGGCGATGTCGTTCAAATTGGCGAAATCACTGGCACCGTGACCGCCATCGGCATTCGGACCACCCAAGTCACCAGCTTCGACGGCACGTTGAACTTCATTCCGAACCGGAATATTTCCATCGTGGCTAATAAATCTCGGGGCGATATGCGGGTTTTGATCAGTGTCCATGTCTTTCCAGCGACCCCCATTGACCAAGTTCAGGACATCATCGCCGCGGTGAATAAAAAACTGGTACCGAATTATCCGGATATCACCGACGGTCCCCACGATTTGGGTATCACCGACTTGGGCAAGGGGGACTTAGCCCTGCAAGTCCAGATGAAGGTCAAAAACGGGGCCCAGGTCACGGTGCAAAATGCGTTTCTGTCTTCTTACCTGCAAGCTATTCACGAAGCGGGCATTGATCTGCCCACCAGCACGCTGAACCTAACCAAATCTTAG
>SRR1151209_01395 chemotaxis protein
ATGTCAGGTGGTGAAATTGCAGCGTTGATTGCGGCCATTGCTTTTCTTCTCTTGGTCGTGTTCCTGATCTCAACGCTGCTGAAGGTCAATAAGGCATTGGCCAGTGTTAACGAAACGGTGGCCCAAACGACTAAGACGCTGGATGTGGTCACCGGCGACGTGGACGTCTTGACCCAACAGGTGGAGGCGCTGCTCGTGAAGTCCAACACCTTGCTGGATGACGTGAATGGTAAGGTGGCCGACACAGATCCTTTGTTCAAGGCCATTGGTGAGCTGGGAGAAACGGTTTCAGATCTGAATTCCAGCTCCCGGCACTTGGTGGCTAGTGTCAAACGCGGCGGCAAGCGCACCGCAGAGGTCGGTATAGCCAGCAGAGCGATGCGGTTGTTCCGGCGTAAATAA
>SRR1151209_01396 hypothetical protein
ATGGCGAAAAAAGGGCATTTCTTAATTGGTTTCGTGATTGGCGGGGCAGTGGCATTCGCTGCTGCGACGTTGCTGGCTCCGAAGACTGGTGCACAGTTAACTGATAAGTTGAAGAAAAAGAGTGCAGGCGGCAAAGATCGGGTGATGGATTATTATCGTTATGCTACCGATTTGGGCGATTCCCTGCGGGATCAAGCGGGTGACAAGATCGAAGATTTGAAAGCGACCTTGGCTGATCTTACCGGCAGCATCAATGCCAAGCACGAAGAGGCCATGAAGCCGGACCGTGACGCTTTTGATGCCGCCACCGATGCATTAGGCGATGACTTAGGACAGGCGGAAGACAACGCCGACGATGAAGACTTTGATGATATTGTCATCGACGGGAAGTCAGCCTTCGAAGCGGCCAAGGAAAGTGCCGACGCGGATCAATCCCAGACCGCAACTGATACGAATCCGCAAGCCGTTGATCCGGCCCCAGCGGCTGAACCCGCCCAACCCGCGGCTCCAGCCAGCGCCGTCCAGACTCCCGAAACGCCGCAGGCGCCAACAGATTCAGCCGACCAACAATAA
>SRR1151209_01397 proline dipeptidase
ATGAGTCACTTAGAGCAACTTCAGCACTGGATCACTGAGCAGCACGTGGATGCCGCCTACATCAGCGACCCTACGGATATCAACTATTTCACAGGTTTTTACAGTGAACCGGAGGAACGTGTTTTGGCATTGTTCGTCTTTCCAGATGCTGCACCATTCCTGTTTACGCCAGCACTGTCCGTGGAAGCAGTCAAGAAAGCAGGCTGGACTGGGGATGTTTACGGGTATCTGGACCAGGAAGATCCGTTTGCCTTGATTGCTGCCCATATTAAAGAACGCAGCCGGACAAATCACGCTTGGGCGATTGAGAAGGACGTGCTCCCCTTCGGTCGGTATGAAGCTATCCAGCGCGAATTTCCAGACGCGGTCTTCCCCGCTGATGCCTCCCGGTTCATTGAACAGCTCAAGCTGATCAAGTCGCCGGCAGAAATTGCGCTCATGGAAGCCGCCGGCCGTGAAGCGGATGAATGCTTCCGGGTCGGCTTCGACGCGCTGCGCACCGGTATTACAGAACAAGGCGTGGTGGCTGAAATCAACTATGCGATGATGAAGCAGGGTGTGATGCACATGAGCTTCGACACCATCGTCCAGGCGGGTGTCAACGCTGCTGACCCCCACGGTGAACCAACCGCTGCCCAGGTCGCACCCAACGAACTGGTGCTGTTCGACCTAGGCACCAATCACCAGGGATACATGAGCGATGCCAGCCGCACGGTGGCCTATGGCGAACCGACAGCCAAGCAGAAAGAAATCTTTGACGTCTGCTTGGAAGCGCAATTAACTGCCATGGATGCAGTGAAACCGGGCTTGACCGCGGCAGAGCTGGATAAGATTGCCCGAGATATTATCACCAAGGCCGGTTATGGGGAGTATTTCATCCACCGCTTGGGTCACGGTATTGGGACCTCTACCCATGAATTCCCATCGATCATGGCGGGCAATGAGATGGTCCTGCAACCCGGCATGTGCTTCTCCATTGAACCAGGAATCTATATTCCAGGAGTCGCTGGCGTGCGGATCGAAGATTGTGTCCACGTTACTGAGACTGGCGGTGTACCGTTTACCCATACGGATAAGCAGCTGCAAGTGATTCCGGTACGCAGCTAA
>SRR1151209_01398 catabolite control protein A
ATGGATAAACAGACTATTACAATTTATGATGTCGCACGGGAAGCTAACGTCTCCATGGCGACTGTTTCCCGGGTCGTCAATGGCAACCCCAATGTCAAGCCCGCCACGCGCCAGAAGGTTTTGAAGGTCATCGAGAGACTAGATTATCGGCCTAACGCTGTAGCTCGTGGATTAGCGAGCAAGAAGACCACCACGGTCGGCGTTGTGATCCCCGATATCACGAACATTTACTTCTCCACCTTGGCCCGCGGGATCGATGACGTGGCGACGATGTACAAGTACAACATCATTTTGGCTAACTCTGATGAGAACAGTCAGAAAGAAGTCAGCACGTTGGATAACTTGTTTGCCAAGCAGGTGGATGGTCTGATCTACATGGGCCATAACATTTCCGACGCGGTGCGGGCAGAATTCAGCCGGGCCAAGACGCCCATCGTGCTGGCCGGCTCGGTTGATCCTGACGAGCAGGTCGCTAGTGTCAATATCGATTACAAAACGGCGGTGAAAGATGCCGTGGTACTGCTCTTGCAAAAGGGCGCGAAGAAAGTTGCGTTTATCTCCACCGCGATGAATGAACCGATCAACGGCGAGTATCGCTTGGCTGGCTACAATGAAGCATTAGCGGAGGCCAAGATTCCCTATGATGGCAATCTGGTCTTCGAAACGGATTATAATTTCCGCGCGGGTGCCGCATTGTGGGATAAGTTGCAGGCCGTTGGCGCCGACGCCGCCTATGTCGCTGATGACGAGTTATCCGTCGGTGTGCTGGATGGTGCCTTGGATCACGGCGTGAAAGTGCCGGATGATTTCCAAATCATCACCAGCAACAACACCTTCCTGACCGAGATCACCCGGCCGCAATTGAGCTCCATTTCCCAACCACTGTACGATATCGGTGCTGTGGCCATGCGTTTGCTGACCAAGATGATGAACAAGGAAGCTGTGACGGACAAGACCGTGCTGCTGCCGTTCACCATTGCCGAACGCAACTCAACCAAGAAGTAG
>SRR1151209_01399 hypothetical protein
ATGTGGCTATGGTCAGTGATCATTGGGGTGATTCTCTTTGTCGTCCTCTTGATCTTTGAGTTCATTTACTTGAGCAATCACTTCAAGGCTAAACGGGCCAAGCAGGACATGGCCAAACACCGTTTTGACCATGCGTGGCTAGGCCGCAGCGGCACTGGGTACATTGGGGTTGCCGGCCAGGAATTGGTTGTTTATAAGACCCCCCAGCGCCAAACCAAGTTTGCCTTGGGCAAATTTTTTGTGTTTACCCAAAAGACGCGGGTGGATTTCAATACCACTTATGGACCGTTGACGGCTCAGCAGCAGTTGTGGGGCGTGATCCTCACGAAAGCAGACTTTGCTGACTTCACCCACTGGCTGACCGACCATGGGATCCTGGTCACCCCGCTGACGAAGCTGATGGCGGATGTCCAGGCCGTGATTCGCGAAAAGGGTACCAGTACCCGGGATCAGGGATCAGTCAAATAA
>SRR1151209_01400 GntR family transcriptional regulator
ATGGCTAAGTATGAACAACCACTGCACGAGCAGCTCGTCGATCTCTTGCGCGAGAAAATTACCCACGGATTGCAGCCTCATGATCGGCTGCCGTCGGAGCGGGAACTCAGTAAGCAGTATCAAGTCAGCCGCAACACAGTTCGGATGGCGTTGGATGAGTTGGAAATGATGGGGTATATTTACCGCCAGCACGGCCGCGGTACGTTTGTCGCTAACCGGTTGGCCAATCCCACCGACTTAACCACGACGTACAGTTTTTCGGATCAGATGCGGGCCATGGGGCGAGTGCCCCATACCGATATTGTGTATCTGAAATTAATGGAAGCACCCAAGTTTTTGGTTGAAAAAATGCATGTGCCGTTGGGTGCACCAGTGTACAAGCTGAAACGGATCCGTTGGGCAGATGACGTGGCGATGATGGTTGAACGAACATTCCTGCCAGCCGCAGTTTTTCCCCAACTGACCACTGCCCGGTTGACCAACCACTCGTTGTATCACTTGATGCAAACGGATTACAATGTGGCGATTCAGCGGGCAAACGAGGCGTTTTATGCTGGTATTATCAGCGCTAAGGATGCGCATCGATTGGGTGTGCCCAGTGGTTCGCCGGGACTCAATGTTCAGCGTACCACGTATGATACCCAGGATCGGGTGGTGGAATACACCTTAAGCGTGTCCCGGGGCGATCAGTTCGTTTATCAAGTGCATCATGTGAATCCCGGGATTGCCGTTCGGCACCCGGCGATCAATGACTAA
>SRR1151209_01401 PTS sugar transporter subunit IIA
ATGACTAACAGAATGGGGTGTTCAGTGTTGATTGGTATTATTATTACCGGCCACGGTCACTTTGCCAGCGGTATTGTCAGTACGATCAAGCTGCTCAGCGGCAGTCAACAGAAATTGAAGGCCGTTGATTTTACCGAGGGCATGACCGCAGAAGAATTACAGACACACTTAACCAAAGCAGTCAAGGATTTAGGCGATGTGTCCGGGGTCGCGTTCTTTACCGACATTCCCGGCGGCACACCGTTTAATCAGGCGGTTTTGTATCACACACAGCACAAGGAAACGACCGTCATGGCTGGTACCAATGTGTCCATGGTCATGGAAGTTTTGTTCCAGCGGGAGCTGTCCGTCGGCCAATTCACCACGGTGGCCCTTCAAGCCGGCAAGGCCGGAGTTGTGGCCTATAAGAGTCGGCCGCGGCAGGCGGCAGCAGACGATGAAGACGGTATTTAG
>SRR1151209_01402 tagatose-6-phosphate ketose isomerase
ATGTTTGAGAAATCCACAGCAGAATTAACGAAGATGGGTGCCCAGATTACCACGAAGGAAATCAAGCAGCAGCCTGATTTGTGGGAAGAGGCATGGTCGAATTACGAGACAATGACGCCGGAAATCAAGGCGTACCTGGATCGGATCAAAGCCGAAAATCCAACGGGTGTGCGGGTGATTTTCACTGGCGCTGGCACTTCGGCTTACGTTGGCGACACGATCACCCCGTATTTGAACCGGACCGGTGATCGGGCCCACTTCCAATTTCAAGCAATTGCCACGACAGATTTAGTTTCTGCCCCGTATGACTACTTCGAAGCGGATATGCCTACTGTGCTGGTGAGCTTCGCCCGGTCTGGAAATTCCCCGGAGAGTGTCAAGACCGTCGAATTAGCTGAGCAGCTGGTCAAGACGCTGTATCAAATTACGATCACGTGTGCACCGGAGGGCCATTTAGCGCAACGGGCTGAGGGCGAGAAAAACAACCTGGTGCTGCTCCAGCCAGCTGGTGCTAACGATCAAGGTTTTGCCATGACCGGCAGCTTCAGCTGCATGGCTCTCACCGCCGTACTGGTCTTTGATACTCACAGCAGCGAGGCCGAAAAAGGCCAATATGTCAAGACGATCGCGGCCATGGGCCGAGAAGTCGTGGCTCGGGAGAGCGAACTGCAAAGTTATGTGGACGAAGACTTTGACCGAATCACCTACTTGGGGTCCGGCAGTCTGGGCGGTTTGACCCGGGAAGCACAGCTCAAGATTTTGGAGCTGACGGCGGGTAAGATCGCCACTGTCTTTGATACATCCATGGGCTTCCGCCATGGTCCCAAGAGTTTCGTCAACGACCGTTCGCTGGTCTTCGATTTTCTGAGCAACAACACCTATACCCGGGATTACGATATTGATGTGTTGGAGGAAATCAACGGGGACCATATCGCGAAGCGGATCGTCGGTATTGGGACTGATCACGGCCGCCAGTTCAGCGGCGAAAACTTCTTCTTCGCCAAGGGCACCCCAAATCTGCCGGAAGCCTATCAAGCGCTGCCGGACGTCATGGCCGCGCAAACGATTGCTCTGCTGAGTTCCATTAAGGTCGGCAATACACCGGACACACCGTCTCCCACCGGTACGGTGAATCGGGTCGTCAAAGGCGTTATTCTGCATGATTATCACGCATAG
>SRR1151209_01403 N-acetylglucosamine-specific PTS system IIB component
ATGGCAACACCCAATATTCTTGTAACCCGGATCGACAACCGCTTGGTTCATGGTCAAGTCGGAATGACTTGGGTCAACACCATCGGCGCCAACCTGGTCGTCGTCGCCAATGATGGTGTCGCGAAGGACGACGTCCAGCAGAACCTGATGACGATGGTGGTGCCGGATACGGTGGGGATGCGTTTCTTCAGTATCGACAAGACCATCAAAGTCATTGGCCATGCGGCCCCGAGTCAAAAAATCTTACTCGTTGTTCGTACCCCCCAAGATGCGCTGCGGCTCATCAAAGGCGGGGTTCCCATTAAGAAGCTGAACATCGGCAATTTGCACTTTGCGGAAGGGAAGAAACAGCTGTCACCGACGATTTCCGTTACGGAAGACGATATTGCAACATTTAAGGAGCTGCACGATCTGGGCATTGAGCTCTCCGTGCAGGGCATTCCGAACGAGAAAGAAACGGATATGATGGATTTGCTTGCAAAGGCGTAA
>SRR1151209_01404 N-acetylglucosamine-specific PTS system IIC component
ATGCATGACGTCACAATTTGGCAGGCGTTGTTAGTTGGTTTATGGGCGGGGATCGCCGCTATCGACCAATTCAACGGCCTGACGCATATTCACCGGCCCATCGTGACCGGTGCCGTCATCGGTATTATTTTAGGGCAGCCGACCACCGGGATCATTACCGGTGGTACCCTGGAACTGGTTTGGGCTGGCATGGTGCCTCTGGCTGGGGCGCAACCGCCTAACGTCGTTATAGGCGGGGTCATTGGGACGCTGTTCGCCATTCTGTCTGGGTTAAGTCCCACGACAGCCGTCGGCGTGGCTGTACCGTTCTCCGTCGCAGTGCAAGCGCTGATCACCTTGCTGTTCACCGGGATGGCGCCTGTGGCCCATGCCATGGATGTGGCCGGGTTGAACGGCGACACGAAGCGGTTGGATTGGATGGCCTGGATCGAACCGGCAATCCTGTTTGTTGGGTTCTTCATTATGGGCTTCCTGCCGGCATTGTTCGGTCAAAACGTGATTACGCCAGTAGTCAAGTCAATTCCGCGCTGGATTCTCGGCGGGTTCCAAGCCGCCGGCGGTATTATGCCCGCCGTTGGGTTCGGGATGCTGCTGAAGATCATGTGGAAGATCGAGTATGCACCGTTCTTTGTGGCTGGTTTCATTGCCGCGGCGTATCTGCACATGGAGATTTTACCGATCGCGCTGCTGGCTGCGGCCTTCGCGGCTTACGACTACTTCGCTAATCAGAACCGCAAGAGTTCTGGTGGCGGTGGCGGTCAGACAGTACCGGCTGGGCCCACCACTGACGATGATGAGGAGGATTACAGCAATGGCATCTGA
>SRR1151209_01405 N-acetylglucosamine-specific PTS system IID component
ATGGCATCTGAAGAAAAAACATTTAAGGATGTAGAACAGACCCAGATTCCTGATACCTACCAAGACCCCACGGTCCGCAAGGTTATCACGGAAAAGGATCTGCACAAGATGGTATGGCGTTCTCTGATGCTCCAGTCATCCTTCAACTATGAACGGATGCAGGGCGGCGGCTGGACGTACAGCTTGATTCCTGGGTTGAAGAAGATCCATACCAACCAGAAGGACCTGGGCTACTCGTTACTGGATAACCTGCAATTCTACAACACCCACCCCTTCTTGGTGACCTTCATTCAAGGGATCATCATCGCCATGGAAGAAAACAAGGAAAACCGGTCCACCATCCGGGGCATCAAGGTCGCCTTGATGGGTCCTCTGGGCGGTATCGGGGATGCCCTGTTCTGGTTGACGCTGCTGCCGATCACCGGTGGTATTGGCGTATCGCTGTCTGAACAAGGCAACATCTTCGGCCCTATCCTGTTCTTGATTCTGTTCAACGCAGTCCACTTTTTCCTGCTGTTCTGGCTGATGGATTATGGGTACAATACTGGGACTCGGGCCATCGCCACAATGCGGGAGAAGACCCAGGAAATCTCTCGTGCAGCAACTATGATCGGATTGGCTGTAGTCGGCGGGTTAACTGCTAGCTATGTCAAGTTCGCCTTCACTGGGACGAACAATGTTGTTGCCATCGGGAAGATGAAGATGAACATCCAGACCGGGATCATCGACAAGATCATGCCGGCCTTGATGCCAGTGGCTTACGTCTTCTTCTGCTACTGGATGCTGAAGAAAGGGCGTTCACCGCTGACGCTGATTGGTATTACCTTGCTGATTGGATTAGTTGGTGCCGCCGTCGGTCTGTTCGCATGGCCGGCAGTGATCAAGTAA
>SRR1151209_01406 N-acetylglucosamine-6-phosphate deacetylase
ATGAGTTATTACATTCACGCGGCAAAGTTTTTCTTACCGTCAAACGCTGAAAACGGCGGCTATTTGGAAGTCACCGACGAGGGTAATTTTGGCCAGTATTTTCCAGAAAGCCAGAAACCGACCGGTAAGATCGTCGAAAAGGCCGGGCAATGGATCGCCCCGGGACTGGTTGACACTCACATTCATGGTCTTTTAGGCCACGATGTAATGGACAACGACTGGGCCGGCATCCAGGACATGAGTCAAGGTTTATTGAAAGCCGGGGTGACGAGCTGGCTGCCCACGACGCTGACGGGATCCTTTGACCAATTAAACGCGGTATGTGAGACCATCGGAAACCACGCTGGGGAAGAGAAGGGTGCCAAGATTCAAGGCATCTACTTTGAAGGCCCGTTCTTCACGGTGAAACATAAAGGGGCCCAGAATCCGAAGTACTTCACGGATCCGAGCTACGATAAGTACGAAAAATGGCAATCTTCCGCTAAGGGATTGCTGAAGAAGATTGCCATTGCACCGGAACGGGACGGCGCCGTGGAATTTACCCGCCGGGTCAGCCAAGATGGCACCGTGGTCGCCTTAGGTCACAGCGACGCGACCTTTGAACAGGCACAAGCCTGCGTCGAAGCCGGGGCCACCGTTTTCACCCATACCTTCAACGGTATGAGCGGGTTGAACCACCGGGCACCCGGCATGGTCGGGGCGGCGATGTTCTTGCAGCGGGTCGATGATGAACTGATCTGCGACGGCCACCACATTCGGCCGGAAGTGGCTAATATTTTGATTCGGGAAAAGGGTCCGGAACATGTCGCCCTGATCACCGACTGCATGCGCGCCGGCATGATGCCCGATGGCGACTATGTCTTAGGCGAGTTCCCCGTTTACGTCAGGGACGGCATGGCGCGCTTAAAGGACGGCGACAGTTTAGCTGGTTCCATTCTGAAGCTGAATGAAGCCATCAAGAACGTCGTTGACTGGAACTGTGTGACCCCCCAAGACGCCGTCTTGATGGGCAGCTACGTCCCGGCGAAGTCCAGCGGCATCGCCGACCAATGCGGTCAGATCCTCCCAGGCCGCGCCGCCGACTACATCGTGTTGAACGATGACATGTCGTTAGCTGAGACTTACCTGAACGGTCAGGAACGGTATAACGCCGCAGAATAA
>SRR1151209_01407 adhesin
GTGCCAGCAGCAGAGACAAAAGCACAAGATGCCGCGAAAACGGCGGAGAATACAACGGCGGTTAAGTCTGCCATAAAAACTAATACATCAGTTTTGAACAATACAACCGCTCAGGCATCGGTACAGGCGCAATTACAGACAACTGATCAGACTGACCAAGTACAGGCTGCTGGTACGAAGGCGGCGGCTAAGCCTGCCGATTCAGCAGCAACGCCCCAACAGCTGGCCGCGACTGAGGATGATACAAAAGCAGATACCCAGAATGACGCCAAAGATGCCAAGACTGACACCAAGACAGATACCAAAGCCGATCCAAAGGAAACAGCTGATGACGACTATCAAACCGCTAAAGACAAAACCGACCACGCCAACGCGCTAGCCGCCAAGGCCAACCAAAGTGCGGCAGCACTGCAGGCGCTGCTGAAAGATCCTAAACCTGACGACACGGCTTGGCTGACGCAAGCCAACGCCGCGTTGAACGATTTAGCCAAGACGTCCAGCGATTTCACCGGCACCAAGATCAATACCGATGAGGTGGTCGCTGCTTACCAAGCCGCCCTTAATAATTTGCCGAACCAGCCCCAACCGAGCGCAATTCAGAAAGTCCAAGTGGGCAGCAAAGATGAAGCGGCGACATTGGCCAATTACAGCAAGCTGGTGGACGCTTATACCAGTCAAGTGAATACCATTTTGGCCAAAGTCAAAAACGGGCAGGCCAATTACACCACGGCCGAAGCGCTGCAAGCCGCGCAAAAGCAGTTGAAGGCGGCTGCTGATCAACTGAATGCGGCAATTAAGCAAGCTGTCGATAGTGCCAATAATGGCGATACCGCAGCAACCGAGCATGCCGTTACTGCGCCGGACACGACCGGCCGGACCCTGGACGACTACAAGCATGCCTATGACGATGCGTTAACCGCCTACAATTCGAATGTCGCTGTGTATAACGACACCACAATGGATCCGATGCAAAAAATCGATCCAGTGGGCACGAATCCAGATACCAGTACCACGCCCGATCCAACTAAGAATCCAGCCCAAACGGATTATGACCAGTTCAAAGATGAAGTCACCAAGGCCGCGGCTCAAAATAATGCGCACAACCACTATGCCGCAGCCAATGCGGCGTACAACAAGACCCAGACGGCTTTGACCGGTTTGGCGAGTACCGTTGGCGCCTGGCAAACGGCCGCTGATAATTACAACAAGATGGTCGCTGGTGTCAACGATGGCACACAAGTGACGACGGCCGATTTAACCGCTGGGCAGGCCGCTGTCACCAAAGCCCAAACGGATTTGGCGACAGCCGTCAACCAATTTGCCTCAGTGAATGACACGTATAACCAGGCACTAGCCGATTATCAAACGGCGCTCAATGATTACACCGCGAAAACCGGCAAAAATGCTCAAACGGCGGCGCTGGGTTATGGTTCTAGTGACGCGAATAGTACCTGGAATCAGTTCCAAAGCACGATCACCAAACTGCAAAACGACTTCACCGGGACAGACACCACAGCGGTACCGGCGCATAATGAAGCCATTATGCAGCAGAATTTGGTTAAATTTCAGGCCATCCAAGATATTGGTGCGGCGGCCCGCAACTTACAAGTTAAAGTCGAGCAGATTAACGCTGCCGCTAAGGCGCAGCAAAACGCGGTGGATACTTGGAATTCTGATATCGCCGCAGCGAAAGCCGACGGCCGCTGGGCTTTCTTCTTCGAGCAGCTGCATCTGGCCGGGGATGATTTAACGGCAAAGGATTACCAGTATATTGATGCGGTCAATGGCACGACGACACCGATTACCAGCACAACCGGTAAAGCGGATTATGGCAAGACCTACACCGATATTCAAGTTGGCCAGGCGATGGTCAATACGGATACTGATATTGCCAAGGATGCGACTAAGGCCAGTTATGCGTCTGCGGTCACTGCCTATCTCAAGGCAGTCAACGCCTACAATGCAACCGTGACTAAAGCGGAGGATAAACTCAGCACCGGCGATCCCACGGATGCGGCCACCGCAATCAAGGATGCCAATAATTTAAAGAACGGTCTGGAGGGCACGAATGGCTTTTCTGTCCAGTATCAGAAGCTGATCAAGACTTTAGCCGGTTTGGCGGCTGATCCGGATCAAAATGCTCAAGCTCTGAAAACCTTGGCTGATCCCCAAAAATTAAGTATGGATGGTTCAACTTCCCCTCAAAAAAAATATAATTCGAAGGTACAAACACTGATGGAAGCTGTGGTTTTTTCGTCAGGTACTTGGAATGATGCCTTACAGCAGAACTTTAATAATGCAACCTTCATTAATGACCAGACCTTTAACCCAACACAGTATACAGTGATCGATGACAAAGCCGCTCATCAGCTGTCAGCAGCGTCCCTGAAACGGATTTTTGAGGGCCAGTGGAACGACCTGGATTATAATCCCATCGGCTTCACGCTCCAGCCTACTTATACGCAGGATGGCAAAAAGCACTATTTAGCGGGGTATGGGATTTTCCAAGGAACCAATTCAGATGGTGATTTAAACGGTACAAATCAGATTTATACCTTCACGAGTGCAGATGCGGAACAAGAATTTGAAAAAAATGGATTGAAGCTCAGTGGTGATTCATCGCAAAATAGTTATGTGATTTTTTATTACCTGTCCGAGACCGATTACAGTCAGATGATCCCGACACCAACACCCGCCAAGGCGACCAATGTTAACCCGGTCAAGACACCAAGTCTAACGATGACGTCAGTATCCGCTTATGGCCCGAGTACAGCATTACCGGCACCCACAACGACCGATACGGTCACCGCGAATGGGCCAGCCTACCTCGCTGGGACACCAGCGACGCCTGATTATCAGTCGCCGGATAAAACGATCCAAGGGGCACCCACAATCACTTTGAATCAGCCCAAAGCACCGAGTACTCCGGGAACACCGGGCGGCCCCGGCCCGGGTACGCCAGACGATCCCAGTGCGCCAACGACACCGAGTGATCCTGGTACGCCAGGGGAGCCAAGTACCCCGGACCAACCGGGGACGCCGACGACACCAGGTCAGCCAGGCACACCAGTGACTCCTGGTCAGCCGAGTAAACCCGGCACGCCGATCACTAGCGGACAAACTAGTCAGCACGGCAGCCAGGGCGGGCAATGGCCCAATCTGACCAGCAATGCCCAGCAGGCAGGCCAAGTGCGGGGCAGCCGGCGGACACTGCGCCAGGTCGTATCGCTTCCTGGACACCAGCTGGCACGCACGCGGTTACCGCAAACCGGGGAGCACCGCAGCACCGGCTTGATGGCCATAGGTGCGGCCCTGATGGCTGTGTCCTTAGTCTTCGGCCGGACCTTGACCGTTCGCAAGCGGCGGCAGGATTAA
>SRR1151209_01408 multidrug ABC transporter ATP-binding and permease protein
ATGTCTTTACTGCATTATTTTGGCCAGCGCCGCGGGCGCTTGGCCCTCGTCATCGCGATTATCGTGGTCAACGCCGGGCTGCTGACGCTGGGCGGCATCGGCAGTGCCACCGCGCTGACCGTGATCGTGAAGCGCCAAGCCGGGCCCTTCTTTGTCTGGGTCGGCGTCACCATCGCCGCTGATTTAAGCTACGCGGTGCTGCTTTATTTTCAGACCGTCCAAAAAACGAAACTCACTCAGGAAATCGACACGCTGATCCGAGCCGATGTTGCCCAGCGCCTCGGCGCCCAGGATTATGCCGGTTTCCACCACGAAACCACCGCCACGTATACCTCGTGGCTGACGAACGACATCAGTACGATCAACGAATACGGCATCGGCGATCTGCTCATGATCATCCAGCAAATCGCCGAGATCATTTTCAGCGGCACCACCCTATTCTTCTTCCACTGGAGTCTGCTGGTCACCGTCCTGGTCTTTGCCGCGGCAATGGTCATCTTCCCCCGGGTCTTCAAGGCCTGGATGGACCGGACTTCACTGGCCCGCACCAAGGCCAACGAGCGGCTGGTCAACGTACTGGAGGACATGCTGAACGGGTTCGACACCTTATTCATGACCAATCTGACTAAAGTCTTGGCGGAGAAAATCGTGGCCGCCTCCCGGGATGTGAATCACCACTACATCGCTTTCGGCCGGGCCAGCGGGGCGATGTACGCCAGCACCAACGGCCTGTCCTTTCTCAGCCAGCTGCTTTTGCTGGCCCAGGCCGGCTGGCTGATCCTGCGCCGGCTCACGCCTGTCGGCGCCATCAGCGGCGTACAGTACTTCGGCGGGACGATCTTCGCTGAGCTCAGCGGGATCGCCTTCAACTGGCGGGAATTCCGCTCGGTGGGGCCGATCATGGATAAATTGGCCAGTGCCGGGGACAAACCAGTCCCGGGAACGCCCGCTGATCCTTTGTCGGCACGGCCCACCGCGCTGCAATTGACCGACGTCACCTACGGTTATGCCGATCGGCCGGAAAAAGTGCTGCGCCATGTATCACTGACAATTCCGGTCGGCCGCAAACTCATCCTAACCGGTGACTCCGGCACCGGCAAGTCGACCCTGCTGGGTATCATCAGCGGACAAATCACCCAGTACACCGGGGACGTCACGCTGGCTGGTCAGAATTATCGCGACTTGCCTCAAGGTGCCCTGCATGACCAGTTGGCCTATGTGACCCAGGAACCGTATATTTTTAATGCGAGTTTCACGTGGAACATTACGCTCGGCCGCTCTGTACCAACCGCCGAGCTGACCCAGGTTTTGCAGCAAGTCGGCCTGACCCCCTTCGTTGACGGCTTGGCCCAAGGCTTGGAGACCGTTTTGACTCATAACGGCACCGACCTGTCCGGCGGGCAGAAGCAGCGGATTGCATTGGCCCGTGCTCTGGTAAGCGGCCGGCCAATTCTGCTCTTGGATGAAGCCACGTCCGCACTGGATAAGGATGCCAGTCTGGCCCTGGAGAAAAGCCTGCTGACGATGCCGGGATTGACGATCCTCATGGTGACCCATCACCTGCGGCCGGAGATCGCGGCGTTGGCGGACCAGGTAGTCGCCCTGAACGACATTAACCAGTAA
>SRR1151209_01409 deoxyadenosine kinase
ATGATTTATATTCTTGGCAGTATCGGCGCAGGCAAAACATCCCTGACGCGTATCCTCGCCCAGGATCTGCAAGCACCGGCGTACTATGAAGACGTGGAAAATAACGTCATGATCAGCAACATGCTGAAGAAATTTTATTCAGCAGGCAAAGAAACCCGGAAGACCGAAGGCACGATTTTGCAGATCGCCTTTCTCACCTTCCGCTACCAGCAATTGAAGAAAGCCGTGACGCAAACCAACGCGGTCATGGATTCATCCTTGGAATCCGACTTCATCATGGCTTCTCAGCTCCACCAAAACGGCGAGATCGATGATACGGACTTCAACATCTACATCACCCTGTCCCAGGAAATGCAGGCCAACGTTAACGGCAGCCCATGGAACGGGATGCCGGACTTGGCGGTGTACCTGAAAATCGATCCGGACTATGAGATCAGCGAGATTGAAAAGCGCGGCCGGGCGATGGAGGACATCCACACCAAGCCGGACTTGGTCGCTTACTACCAGCGGGTCAACCAGGCTTACGTGGATTGGGCCAAGGGCTATACCCGCTCGGCCATGGTGACGATCGACCGGGATCAGTATGATTTCGTCAACGATCCGGCGGCTAAGGTGCATGTGCTGGACCAGATTGAGCAGAAATTGATGGCGCTGGGGAAGCTGTCCCGAACGGACTATCAGACGATTTTGGCGCGGCGAACCCAGGCGGTCACGGCTGTGTTGAAGAACAGCCAAGCCAGTTAA
>SRR1151209_01410 nicotinamide mononucleotide transporter
GTGACACAAGTCCGCAATTATTTCAGTTGGTTAGCCCATCAATTAAAAGGCTGGCCGCAGCAGAATTACTATTTATTTTGGTTCGCTCTGGGCTGTCAGATCATGACCCTGGTGAACAGTCCGATCACCCCCGTCGCCGTAATCACCTTCATCGGCACCACGCTTGGCGTGCTGTGTGTCCTGGCAATCAACGCAACCAAAGCGGTCAACGGCTGGTTGGGTCTGCTCAGTGCCGCCTGCTTCATGTTTGTTGGCTTCACGGCCAAGAACTATCTGTCGATTTTTGAACAGACCGCTTACGTGCTCACGCTGGACATTCCGGTATTGATCAGTGTGCGGACCTGGAATGACGACACGAAGGATCACCTGAAGACCTTCGCCGCCAAAGAATGGATCGTGTCGATTCTCTTCACCCTCGCTGTTTGGGCAGCCAGTGCCGCCCTGATCGGCCGCTTCACCAATGATCCCCGGCCGATTTACGACGGTATGGCCTTCGCCATTTCCCTCACCGGCGGCATCGTCTGCTTCCTGCGCTACAACAACCAGTATTTCTGGTGGCTGTTCAGTGGAATCGCTCAATTGATCCTCTGGTCCGTCACGTTTGCCCAGGGCGATGCCAGTCTGGGCATGGCGATCAATTCCAGTATTTACGTCCTCAACGACATTCTTGCCTTCACCGTCAGTCCCTGGTTCAACGCCGGCCGCAAGCGCTTGGGTTTGAAAGAAATCCAGTCCCATTGA
>SRR1151209_01411 hypothetical protein
ATGTTGTGTTTAGGCGTTATTGATTCTGAAAATCTAATCTTCAGTGATAGCGGCATATTTATTCACTGGTATATAACAAATCCCACTTCTGAGGAAGTGGGAAAACGCAGTACTGATGGCTATCTAGGCAGAAAACCGCTCAGATGGTATACTATTTGGGCAGAGCTTGCAGAGACGGCGGCTACATTCTGA
>SRR1151209_01412 DNA mismatch repair protein MutS
ATGACAATTGCACTGATCGTGATCGGCCTAATCGCCCTCATCGGTTTTTGGCTCTACATCAGCGATCAGCGCTTAGGCAGCCGGCTGACCCGGGAATGGGGGGAGCTGCCCGAATCGTACCAGGGCAACGCCGAAGCCAGTTTGAAAGAGGCCTATGAAGCCCAGCGGCGGATGGTCAAATACGACAGCCGCATTGACGATCTCACGTGGCACGACCTGGACATGTTCCGCGTCTTCAAGCAGATCAACGCCACCCAATCCAGTATCGGCGCCGAGCGGCTGTACAGCCGGCTGCGCGGATTCAATTTCGGTGACGCCGCGGTCAACGAACCGCTGATTGATTTTTTCACCCAGCATCCCCAGGAACGGCTGAAGGTCCAGAAGGATTTCTCCCGGCTGGGCCGGGTCGATCACAACCAGAGTCAGAACTACCTACTGCATACCACCGAGAGCAGTCTGCACGGTATCACGAAGTACGTGATCATGGGCGCCATCCCGCTGGTCTCTTTGGTGGTACTGGGGGTGTCCTTTCCCCTGGGCAGCGCCAACCTGATTCCCGCCAGCGGTATGGTTCTGCTGCTTAGCGCACTGTTCAATATCATTTATTTTCAAAAGGAAAAGGCGACTCTGGAGGGCGAATTGACCGCCATGAGCTATCTGGTGCGGACCATCGTCACTGCCCAGAAGCTGGCGAAGATCAAGACCCCGGTCCAGCAGGAGATTCGCGATAACCTGCGGCCCCTCGCCGCGATCACCGAGTTTGCCTTCGCCTTTCGCACCACCGATGCCAATGAAATGGCGATGCTGATGGATTATATCAACGGTCTCTTCATGCTGCCCTTCATCGCCTACAACTTCGTGCTCAAGCGGCTGCAAAACAAGCATGACGCCGCCCTGAATTTGTGGGCGAGTGTGGGTGATTTGGAAGTCGCCATTGCCATTGCCAATTACCGGCTGGCCATTCAGGATACCTGCCAGCCCGTCTTTCGCCCCGGCCCGGTGACCGCCGACGCTTTGGTCCACCCGTTGCTGCTGGACGCCGTAGCCAACCCCGTCAATTGGCGCCGAAACACGATCATCACCGGGTCTAACGCTTCGGGCAAGTCAACCTATGTGAAGAGCGTGGCGGTGAATTGCATTCTGGCCCAAACGATCAACACCTGTACCGCCAAGTCCTTCGCCCTCCAACCCGGCAATGTCATCACCGCCATGGCCGTCCAAGACGACCTGGCCCAGGGCGACAGCTACTTTGTGGCAGAAATCAAAGCCATCAAACGGCTCCTCGACCTGGTCGCCACCGGCCAGCACTGCTACGGCTTCGTGGATGAGATCCTCAAAGGCACCAATACCGTGGAACGCATCGCCGCTTCCGCCAGTGTGGTGGCTTGGCTGAACCAGTATCCGAGCCTGGTGATGATCGCCACCCACGATAACGAACTGACCGAAATGCTGGCCGCGACCTGCGACAACTGGCATTTCCAGGAAACCGTCACAAAGGACCACGGCGTCGAGTTCGACTACCTGCTGCGCCAGGGACCGGCGACGTCCCACAACGCGATCGCGCTGCTGGGGACGATGGATTATCCGGAGTCGTTGATTACGGAGGCCAATCAGCTGGCGACGGCGTTTGAAAAGAGCAAGCGGTGGCCGCAGGTGGAGTGA
>SRR1151209_01413 multidrug ABC transporter ATP-binding and permease protein
ATGCAGCGTTCAGCAGCACTCACTTCCCGCGCCCAAAACAGTGCGGGGCCAAAGAAATTTAATATGAAAAGCTTTCTCAAATTAATCAGGTCAATCAATCCCCACTATTGGGAACTCGCAGTGGGCCTAGGCCTGGGCCTGGTCGCCACCGCCGGCCAGTTACTGGTACCGACTTTGGCCAAGTCGCTGATCAACCAGCTGGGCCACGCCATCAACAATACGATGGTGGTCACGATTCTGATCCTGTTCATCGGCTCTGCGTTGGTCAGTGCCGTATCCGGCGCAGCCTTGGGCATCTTCGGTGAAGATGTGGTGGCCAAGCTGCGGGATAAGCTCTGGTCTAAATTGCTAGTGCTGCCGGTGACTTATTTCGACACCACCAAGTCCGGCGAGACAACTTCCCGCTTGGTCAATGATTCGACCCAGGTGAAAGACCTGTTGGCCAATTCAGTACCGCAAATGGTCACGTCGTTGTTCCAACTGGTGGGCGCGTTGGCCCTAATGCTGATGATGGATTGGCGGATGACCGCGATCATGTTTGCTGTCGTCCCGCTGTTCATCTTGATCTTCATGCCCGTGGCAACCCAATCCCGAAAGATTGCCTTTGCCCGGCAGGATAATTTGGCAGCGTTCAGCAGCGAAGCCAGCGATGTGCTGGGCGCCGTGCGGCTGGTCAAGTCGTCCAACGCAGAAGCCGTGGAAGGCCAGACTGGCCAACAGCGCATTCACCGGCTATACAAGTTGGGCATCAAAGAAGCCGTTTATGACGCCATCGCCCAGCCAATTACGACCACGCTGATGATGGGCATGATTGTTGGCGTATTGGCCTACGGTGCTAGCCGAGTTGTTACGGGGTCAATGAATATGGGTACATTATTTGCCTTCCTGATGTACCTCACCCAACTGATCGGTCCGTTCGCCACGCTGGGGCAGTTCTTCTCGGCCACGGCGAAGGCCAGCGGCTCCACGGCGCGCATCAATGAGCTGTTGAATGAACCGGAAGAAGCACGCCAAGGCACTCCCTTGACTGATATCGGTGGAGAGACTTTGGCGATGCAAAATGTGAACTTCGCCTACGAAGCCGATACACCAGTACTGAGGAATGTATCCTTCACTGCCGCCCCCGGTCAGGTGATCGCCTTCGCCGGTCCCTCTGGCGGCGGCAAGTCCACGATCATCAGCCTGTTGGAACGATTCTACACGCCGGATAGCGGGCGGATCATGATCGGCGGTCAAAATATCGCGGATGTTGATGTGGCTGCTTGGCGAGAGAAAATCGGCTTGGTCGGCCAGGATGCGACAATCATGGCCGGCACGATCCGGTATAATTTAACCTATGGGGCCAAACAGACGTATACCGATGAGCAATTGTGGCACGTCCTAGATATGGCGTACGCCAAGGACTTTGTCCAGGTCATGCCGGCGGGGTTGGATACCGAAGTCGGTGAACGGGGCGTTAAGGTCTCCGGCGGTCAACGCCAGCGGCTGGCCATCGCCCGGGCATTCTTACGGGATCCGCAGCTGCTGATTCTGGACGAAGCAACTGCCAGCCTGGACGCGGAGTCTGAAATGATGGTGCAAAAAGCCCTAAACAAGCTGATGCACGGCCGGACAACGATCGTCATTGCCCACCGCTTGAGTACTATCGTCAACGCGGATCGCATCTACTTTATTGAAAACGGTACGGTCACCGGCAGCGGTACGCACCAGGCGCTGGTCGCCAGTCATCCGGTGTATCGGCAATACGTACAGGATCAGTTCGGGCAAGTGGCTTGA
>SRR1151209_01414 MarR family transcriptional regulator
ATGACTCAAACATCAGAAGTAATTCTCAAAACATTCGTTGATTTATTCCAAAAACGCTCATTCCGCGGGGCAATCGCCAGCGCCTATCGCTTTAATGGCGGCGCCGAGCAGCAACCCAACCAGATGCGGGCGCTGCAATTACTCGCCGATCGGGGCGAGCTGACTAACAGTGATCTGGTGGAGAGCTTGGATATTCGGCCGAGCTCGGTGAGTGTCTTGGTCCAGAAGTTAGAAAGTGCCGGTCTGGTCGCCCGCCATGCCGCCCCCGACGATAAACGGGTGCAGCTGATTGGGCTGACCGATGCCGGGCGCCAGTTCGTGCAGACAACGAAACAGTTGAAAAATGATCTGCCCAGCCAAGTTTTCAGCGCCTTAAACGATCAGGAGCAGGCAGATTTGCTGCATTTATTGCAAAAGCTGGACGCGGGGCTAGCCGATCAGGATGATCTGGATTGGCCAAAGGGCCGCCAGTTTGATGATATGCGGACTTGGGCCGAACGGTTCCGCAAGGCCGGCGGCTGGCACGGGTTTGGCGAGGGACCGCGGGGGTTGGGCCGGTAA
>SRR1151209_01415 RelE/StbE family addiction module toxin
ATGCTGACGCCTAAAGACACTGCGCACTTTCGCCGGGACTTCAAGCGCCTCAAGAAAGACGGCTACGATATGCAGCAATTGCACACCGTTGTGAATCTTATTGCTGAAGAGGGTCACAAAGAGCTGTTGCGTAGTCGATACCACGATCACGCGTTGAGCAGCAGCGAATGGCGCGGATACCGTGAGCTCCACATTACACCGGACTGGCTGCTCATCTATCGCATCGTCAAAAAAGATCTCATCCTGGTATTAGTGCGCACCGGCAGCCACAAGGAATTGATTAGCAAATGA
>SRR1151209_01416 RelB/DinJ family addiction module antitoxin
ATGGCAACAGATACTAAGGATAAAGGGCAAATCACGTTCCGTGTCGACAAAAGCTTGAAAGAAGACGCTCAGAAGCTGTACGCAGATCTTGGGATGGACATGACCACGGCCATCACCCTCTTCCTCAAACAATCTTTGCGTGAGCAGGCATTGCCTTTCCAGGTATCGCGATTCAATGCGGATACCATGGCTGCATTACTTGAAGCACAAGATTCCAAGAAACTGAAGACGTACAAATCGGTAGACGATTGGTGGAAACAGAACAATGCTGACGCCTAA
>SRR1151209_01417 hypothetical protein
ATGGCTCAGATCATGTTTTTACCGTTGGACGAACGACCGTGCAATTACGCTTATCCGTTGCGAATCGCACAACAAATGGCGGACATCAAGATGATCGCGCCACCGGCAGACATGCTATCCCATAAAAAAAAACCCGCCGACACCCAGGCGTTACGCCAATTCGTTTATGACCACACCTGGCGCAGCGACGTTCTGATTCTGCCGACAGAAATGCTGCTGTATGGCGGATTGTTACCATCGCGGCGACATCACCTGACGGCCGCCGATCTCAGCGGATATCTGCATTATTTACGGGCAGTGCGCGATGCCGCGCCACGGGCCCAGATTTACGTGTCCAGCCTGATCATGCGCACCCCGCAGTACAACAGCAGCGATGAAGAACCGGATTATTACGCCGAATGGGGCAAGAAGATCTTTGATTACGGCGTGCAATTAGATAAAACCGGGCAAACGACCACCGAGATCCCGGCGGACATCATCCAGGACTATACGACGCGCCGCCAGTTCAACCGGGAGGTCATCCTGGCCCTGCTTCAACTGGTGCACGAGCGGGTGATCGATTTTATGGTGATTCCCCAAGATGATTCCCATCCATACGGTTTTACCGCCATGGATCAACGTGTCATTTATCCTCAGATCAACCAACTGCGCTTGAACAATCGCGTGCTGGTCTATCCCGGCGCCGATGAGAGCGGATACGAGTTACTCGCCCGCGCGGTGAATCATCTGCACCACCAGACCCCGAAGTTCTATCCGTTGTATTCCTCGATCCATGGCCCATTAGTCATCCCGGCGTATGAAGATCGGTCAATCGGGGAAAGTCTCAAGTCCCACATCCTGGTGACCGGCAGTACGCTGGTCGGCACGCCGCGGGAGGCTGACGTGATTTTGGCCTACAACACACCGGCTAAGACCCAGCAAGAAGCCGCCGACCAGGATCACGCCGATATCAGTATGGCTCGGGAGCGCAACCTGCCCTATTTTGTCGATACCATTCGTCGCTTCGTTAATGAAGGGAGAAAGGTGAGTATCGCCGACAGTGCCTTTGCCAATGGCGGCGATCGCCAGTTGCTGACGATGCTGGCGGATCGGCCCAAATTGCTGCCGCATTTGCTGAGTTACCGGGCGTGGAACACCAACTGCAATACTCTTGGCAGCGTCCTCAGCGAGTCAGTGATCGGCCGAGAAATTCCCAACCAGCCGCGTTTGGCTAACCTCGTGGCGACGCTGAGCGATGATGTCTTTTATCAAGCTAGTATCCGCGCCGAGTTGACCCAGACGCTGCTGCCAGAATATCAGCTCAGCGCTTCTGATCTTGGCAAACACCAAAATATGGTTGCTCAAGCTGCCCGGGAAGGTATCGTGACCCTATACCGGCAGACAGTGCAGCGCAGCGGTCTACCGCCCCTGAAGAAAGCGCAAGTGAGCGTCACTTTTCCTTGGCAGCGCATGTTTGAGATCAACTGCACGGTTCAATTAAAGGAGGAAACCAAACTATGA
>SRR1151209_01418 beta-glucuronidase
ATGACAATACCTCGTCCAGAACATCCGCAACCCCAACTGGTCCGCCCCGACTGGCTGAACTTGAATGGCCAGTGGGATTTTTCCATTGATGCCGGCAACAGCGGTCGGGAGCGCCGGTTCTTTGCCGACCATCAATACGAACAGAAAATCACCGTGCCATTCTGTCCGGAAAGTGAATTGAGCGGCGTGCACCACCAAGACTTCATGCCCGCCGTGTGGTATCGGCGCCAATTTCAAATCACAGAAGCCCAGGCGGCTCAAACTACGCTGCTCCATTTTGGCGCCGTGGACTACGCCTGTGAAGTTTGGGTCAACGGGCAAAGCGTCGGAACCCACCGCGGCGGGTATGCCTCTTTCAGCTTCGATATTTCCGCCGCAGTCAAACTGGGAGAGAACACCGTCGTGGTATGGGCGCAGGATGAGGTCCGTACGCCGGGACAGCCCCACGGCAAACAGAGCACGACCTATGCCTCCCGCGATGTGTTCTATAGTCGGGTGACCGGCATTTGGCAAACTGTCTGGTTGGAATTTCTCCCCCGGACGCACATCGTTAACGTACAGTATTATCCGAACTTGGCGGGGCAAAGTATCGGCGTGCAAGTGCAACTCAAAGGTACCGCCAGCCTGACCGTTGATGTTAGTTATGCCGGCCAGTCCTGCGGTACCGCCACCGTTCAGGGGCAAACGGGCGTCGTCACGCTCAACGTGCCGCTCACTGCGCTGCATCTCTGGGAGGTCGGCCATGGCCGGCTGTATGATGTCACGCTCCACTATGGTGCCGATCAAGCAACCAGTTATTTCGGCATGCGGGATATTCAGATCAAAGGCAACCAGTTCCTGCTCAACGGCCAGCCGGTTTTTCAGCGGCTGGTATTGGACCAAGGCTACAATCCCCAGGGCATTTATACCGCCCCCACGGATCAATTCCTGGCCGACGATATTCAGCTGGCCTTAAAGGCCGGCTTCAACGGCGCTCGGTTGCACCAGAAGGTCTTCGAACCGCGCTTCCTCTATCATTGTGATCAGGCCGGCTTCATTGTCTGGGGCGAGTATGGCAATTGGGGTACGGACGTGGATGATGCCAGCGCCCTAAGCCACGTCTTGCCAGAATGGCTGGAAGTGGTTCAGCGGGACTTCAATCACCCATCAATTATCACCTGGTGCCCTTTCAATGAAACCTTGCAAAACCGTGACCGGCCCACCGGGGATATTTTGCTCCAGACGATTTATGCGTTGACCAAACAAGCCGACCCCACCCGGCCGTGTATTGACACCAGCGGCTTTACCCACACGGTGACAGATATTTACGATATCCATGACTACATCGGTGACGGGGATGAATTGGCGGAGAAATACGGCACATTGGCCCAAGGTGTTCTGCCGGATGTCCGCCAGATTAACGGTCAAGGCGACGCGACGAAACCAGTACTGCTCAGTGAATATGGCGGCATCCGCTGGTCCCCGGATGATTCCGGCTGGGGGTACGGCGATCAGCCCCATAGTGTGGCGGACTTCATCGCCCGCTACCGCGGCATCACCAACGCCTTGCTCAATAACCCGCAGATGTGCGGCTTTTGTTACACCCAGCTCTACGATGTGGAGCAGGAGAAGAACGGATTGTACACGTATGATCGGCAGCCAAAATTCGATCTGCCGACGATTAAAGCAATCACGTCGGCGCCAGCAGGTTATGAGGGCGCACCACTCTAG
>SRR1151209_01419 sugar ABC transporter substrate-binding protein
ATGAAAAAGCACTTGATTCTGACGGCATTAACCGCTGTCTCCGCCGCTTTTCTCCTTTCTGCCTGTGGTTCCGGTACTGGTAATAAGACCAGCTCCGGCAGTGGCGGCGGCGAAAAGACGATCACGCTGCAAATTGGCGGCAAGGAAGATACGGAGCCGACATCGCAATATATGCGGTCTAAGAAGTGGGCCACAGACTTCAATAAGGCCCATAAAGGGAAGATTCAAGTCAAAATTGCCAGCGGCCGTGACCCGCAAGATACATTGACTGCTATTTCGGCCGGGTCCACACCGGACATTTTCTCCAACTATTGGAATAACGTCCCGCAATGGGCATCATCCCACGCCATCTTGAACCTGACTAAGTACATCAAGAAGTCTACGATCTTCAACAAGGATGACTTCCTGCCGTACGCGACGAAGATGGCTTCCACCCCTGAGGGTGTGCAATATGCCGTACCCAGTTACACCGAGTCGTCAGTCCTGATCTATAACCGGACGATGCTCAAGGAAGCAGGCTACAGCGAACCGCCTAAGACCTTGGATGAATTGGTGGCCATGAACAAGAAGATCACCAAGACTGAAAACGGTAAATTGACCCAAGCCGGGTTCATTCCGGACCAGCCGTGGCTGGATAACGTCGCCTGGCCGGTAGCAACCGGTGCGCAATGGGTGAATAAAGAAGGCAAGGTCACTTTCGACACAGCTAAGATGCGCAAGGCATACCAGATTCAAGTCGACATCATCAAGGACTTGGGCGGTTATAAAGCTGAGCAGCAATTCGTTTCTTCCATCGGTAAGATTCAGGAAGCATCCGACCCGGTATTGAATGGCAAGATTGCCATGATGCTGGTGCCTGACGGCTGGTTGGCCGCTTACTACAAGTATGGCAAGAAAGTCGACTGGGACGTTGCGCCGTTCCCGAGTGATTCCGGCGAAAACATGATCACCATCGGCACTTACTGTATCAATGCCAAGACCAAGAATCCGGATGCGGCATGGACGGTTCTGGAAGACTTCACCAGTGAAAAAACACTGAAGAAGTACTTCTTGGATGGCGACTTTAACAACGGCTCTATCTGGGCCCGCAAGAGTCTGATCAACGCGTTGGCGACTTCCAAGAAGTATCCGGCACAAATCAGAACTGTCGCGAAGAACTTGGAAACAGAGAAGCTGCGCGGTTTCGCCATCACGTCCTATACCAACGAGTATCTGGACGAAATCACGAAGGAAATGTCTGATGCTTTAGCTGGCCGGCAATCCGTTGCGGATGCCGCCGCCAAAGTACAAAAGACAATGGAAACCAAAGCGAAGTAA
>SRR1151209_01420 sugar ABC transporter permease protein
ATGACCGCACCGAAAACTAAATTTTGGAAAAAATCCAATACGGAGGAAAACGGCATTGGCCTGTTGTTCTCCATGCCTTGGATCATCGGGTTTATCGCCTTTCAGCTATATCCGATCATCCAAGCAATTTATCTGAGTTTTACGGAATATAACCTGTTCGATGACGCCAAATGGGTGGGCCTGAAGAACTATGTGGACATGGTGTCTGACGCGAATGTCTACTTAGCCCTGCGCAACACCCTGTATATGGCCGTGATCGGCTTGCCGATCACGATCTTGGTCTCCATTGGCATTGCGCTGCTCCTCAACTTCGGCATCAAGGGTTTGTCGTTCTTCCGAACGATTTACTATCTGCCCTCCATTGTGCCGCTGGTGGCCGCCGCGTCTGTCTTTATTTGGGTGCTGAATCCTGAGTTCGGGCTGTTTTCCCAGGCGTTATCGCCGTTCGGAATCACGGTACCGTCCTTCATTACGGATCCGGCCTATACCAAGCCGGGGTTGATCATCATGGACAGCTGGCGCAGCGGCCAAACCGCAATCATTATTCTGGCGGCGCTGCAAGCTATTCCCCGGACCCACTATGAAGCCGCTGATTTGGATGGGGCCAATGCGTGGGACAAGTTTTACCACATTACCCTGCCGGGGATTTCACCCACGCTGCTATTTGTTTTTATCACCGGTTTGATCGGTAGCCTGCAGTACTTCACCCAAGGGTTCGTCTTTTCTTCCATTTCCAACGGCGCGTCCAACATTGCAGGCTACGGTCCGGCCGGGTCCTTGCTGTTCTATGCGACGTATCTCTATAACACCGCGTTTAAGTATATGAAGTTCGGCTATGCCAGTGCGTTGGCCATGGTGCTCTTGGTGCTGATCATTATTCTCACCCTGATCACCTTCGCTATCTCCCGCAAAGCCGTTAACTACGCGACGGAATGA
>SRR1151209_01421 sugar ABC transporter permease protein
ATGAATAATACAACAACTGCTAACCACCTCACCGCGTTGAAGGTTAAGAAAGTCATCAAGCGGACCATTCCCTACATTATCATCTCAATCGTGGCGATTGTCTTCGTCATGCCGCTGTTGTGGATGATCAACACTTCGCTGAAGTCTTCAGCGGAGGTGTTTTCCACCACCTCCGGCTTCTTCCCGCGGGTCCCGCAATGGGATAACTACGTGAAGGTCTTCCAACGGATGCGGATCGGGCTGTACCTGAAGAATACGCTGATCACCTCGGTACTGCCGACGATCGGCCAACTGATTTCAGCGCCGATGACAGCCTATGCCATTTCGCTGATCAACTGGAAGGGGAAGAAGATTCTATTCCCCATCATCCTGTTGACGATGATGATTCCGGTCCAAGTGACGCAAGTTACCTTGTTCGGGATCTGGTCCAAGCTGAACATGGTCAACACCTTCACGCCGCTTATCCTGCCGGCCTTCTTTGGCGGGGCATACAACATTTTCCTACTGCGGCAATTCATGATGGGGTTGCCTAAGAGTTTGATTGAAGCTGCGAAAATCGATGGGGCAAGTCAAACTCGTATTCTGTACCAGATCATTTATCCGTTGTGTAAGCCGGTATTGATCACAATCGGGCTGATGACCTTCATGGGGGCGTGGAACGATCTGATGACGCCGCTGATCTATTTGTTCGATAGCGACAAGCTGACTCTGGCGGTGGCCCTGCAACGGTTCCTGACGGATGCTAATAAGCAGTGGGAACTGCTGATGGCGGCATCGACGATCTTCACAGCGCCAATCATTGTCCTGTTCTTCTTCGGGCAGCGCTACTTCATTGAGGGAATCGTCACATCTGGATTGAAGTAA
>SRR1151209_01422 hypothetical protein
ATGCTGGACTACGATAGTCCTTTGGGGCGGATTTTTTCCACAGTCGCCAATTTGTTATTGCTGAATTTCATCTTCATTTTGACCGCACTGCCGCTGATCACTGTCGGCGCCAGCTTGACCGCCCTGTATACCGCGACGATCAATTTGGTCCGGCAAGACGGAGAGTCGCCGGTCAAGGTCTACTTCCGAGCTTGGAAGAAGAATTTTGGCCGCAGTACCTTGCTATGGCTGGCAAGTCTCATGGTGTTGGCTGTGATGGTGCTGGATGCGTTATTTTTCCGGCGTATCGGTTTCCCAGGGGCCAGTCTGCTGTTCTATTTCAGCGTCGTCTGTATCATTGCGTTCCTGGTCGTGCTGACCTATCTTTTCCCGGTGCAGAGCACTTTCTACACCACGTTTTGGGCGGCGTTTAAGAACGCGGCACTATTCCCCCTGGCTTTTCCGGTGGACGCGCTGATCCTGTCTGCGATTACTTTTGTACCGGTGGTCCTGCTCTTGACTCACTTTGCGCAATTGTTGATTGGGTTCTTAACCCTCTATGTGTTCATTGGTTTTTCGCTTCAGGCCTACATCAACGCGTTTATTTTCGACAAGATCTTCAAACAATACACGGGGGCCGTCGGCGGTAAGTTTGCCGTGAAGCGCTAG
>SRR1151209_01423 hypothetical protein
ATGCAGTTACAGGAGTTGTGTCAACGAATCGATATGCCGGAATCGGTCACGACCCAGCTAGTCGCAATCGACCGGCAGCGGGCAGTGCCGGTGAGCCGGTGGCAGGCTTTTTATCGCGGCCTGGCCGAATTTGAGCCTGATGAGGCGTTTTATCACAAGCTGCTGGCCGTCGCGCCCGATGATGCGTTGGGGTTCAACGTGCTGTGGCAGTCGCTGAATTTGGCGCTGCAAGCCGCTGACATTTACCGGCAGCGGAGTATTGCCGATGAGATTTACGCGGCTACGATGGGCTTCTTTTCCCGGACCGTCAAAGAAGGCCGCTTGGAACAGGGGATGTATTGTTTTCCCACTCGAACCTGGGGTATCCGCCAATTGCAGTTGCGGGAGTTTCGGCTGGGCACCCTGGAATTTGAAAAAACACCGACAGGCGTCATTGAGATCCACATTCCTTCGGATGCTGATCTTGACCAGTCCCAGCGCTTGGCGGCGTATGCCCAGGCGCGGCAATTCTGGGGTCCGGCGTATACCGATTATGAGTGCTTTTCGTGGCTTTTGTCCCCAGTACTCAAGCAGATTTTGCCGGCAAAATCGCATATTCTGCAGTTTCAAAGCGATTTTCGCATTGAACGGTGGGACAAAGAACAGGGTGATTACCGCAAGTGGATTTTTCATAATTCGCAAGCGCCAATCGCTGATCTCCCGGAGACCACATCGCTGCAACGCAGTGTAAAACAATTGCTGTTAAGCGGGGGAACGATTGGCGCCGGGGTGGGAAAATTAATTGTGTAA
>SRR1151209_01424 F5/8 type C domain protein
ATGAAGAAACTGTTGGCATTCTGCTTACCATTGGCTTTTCTTGCACTTGGCGGTTTAGCCGCCCCGGCGAAGGTAACCGCCGCTGATTCAAGCATCACAAATGACGATCGGGTCACCCCGCAGCAAATCACCACTGTGCTGAACGGGTCGGCAACTGATCCCACGAAGGAGGCCGTACGCTTGACCCAAGGTGCTGGATACACTACGAGCATTAAGAGTGCGGCCCAATATACGGACACCGACACAAAAGAGTTAACCGATGGCGCAGTGGCCACCGACCAGAATTTTACCGATCCGATTTGGTCGGGTTACGCAACCAATGGTCAAGACTTGGTTGTGGAAATGAACTTAGGGAAGGACGTGGCCGATATCAGCCGCATTGGCGCGAACTTGGCCCTGGACCAGGATGCTTCAATCGGTGTACCGGCAGCGATGGAAGTATGGGCTGCTAATGCCCAGCATGATTACGCCTTGGTGGGTAAAAACATCCCGGCGGCAGACGCCAAATTGCCCGCGGGAAATACCTATACGGCTGCTGTGACGCTCCAGCAAAGTATCACCGCTCAGCGCATTAAACTGGTTTTCAAAAATCCGCGCCATGCGTGGATTTTCTTGTCGGAAGTTTATGCGGATAAATTGACTGGTGTGGCGGCGGATCCTATGGAACCAGCCAATTGGCCGGGGTATCACTATTATCCAGAAGTGACATTACCGATGACCAATGGGAGTCAAACCACCGACCAGAACCCGCAAGCGACCGTTAATTTGGCGGCCGGGCTGCACTATGGCGTGGCTGAAAAAGCAACGCTCAATGGCCCCGACGCCATACCTTGGTTCAATTCTCTGCCGGCGGCGACGCCGGCATATCCTAACGATGCCAATCTCAGTCTGACGGACGGCAAGTACGCGGCCAAGCCGGATATGGGTGACGACCCGTTACAGCCCTGGTTCCGGTTTACCCGGGGCGAGTCGCGGGATGTGTACTTTGATCTAGGCCGGGCGGCCGCTGTATCCGGCGTGAAAATTGGTTTTCTGAAGCAAACATCGAAGGGCATCCGGCTGCCGCGCAACGTTGATGTGTATTTATCCAACGACGGGCAGAACTGGATGCCAGTGTTCTACGGTAAGGATTATCAGAGTAAGGATGCAGACGCCATTGTGCGGCGTACGGATAACTTTGATAAACCCTATGCGGCCCGGTACGTGAAGATTGAGTTCGAAGTGGCCCCGCATATTTATACCGATGAGATTGAGATCCTGGGCAAGCAGTCTACGGCTGGGGCGAGCACGCTGACGCCGCAGCCAGAGCCGCAATATCCTAACGCCTATGCCTCACCGACCAAGTTTGGCTTGCAAAACACGATGTTGGCTTATATTCCTGGTGATCCCAGCGATAAGCAGGGGGTGCCGCGAACGGTTGACTGGTACAAGCCGTATACAGCATACATGCAAAACGGCCAGATCAAAGACACGATGTTTGATTCCTTCTTGATGCTGCCGTATCTTCATTTCCTATATGATGGTGAAAATAAACGGCCGTTGACGAAGAAGGATTGGCAAGGCTACATCACGAATCAATTTGCTGACCAGTACAATGTCAGTGCGTTGAATCAAGCGGTGGGTGAAACCAAAGCGGCGCTGAATAAGCCTGATTATCAGGCTTCAGTGATCTTGCCGCTGTTTTATCCGGTCCAATCCGTCAAAGATTTCGGCATTGTGAATGGCCGACATTTAAATTTTGCCAACACACAGAATCGTTATTTGGCGCTGCAGTGGATGGTGGATGAACAGTTGAAGGAATTCCAGGCGAAGGGTTACAAGAATCTCAAGCTGAATGGGTTCTATTGGTTCACCGAAGAATTAGACAACGGCGATCCTGAGATGGAAAGCATTTTGCAGCAGCTGACGAATTATGTCCGGGAGAAGGGTTACATGACGTCGTGGATCCCATACTTCCAAGGCAGCGGCTACCAGCGCTGGCAGGAGATGGGATTCGATTTAGCAATTTATCAGCCAGGATATGCCTTTGATGCCTCAGTACCTAAAGCGCGGCTGTACGAAACGGCCGCTAAGGCAAAACAGCTGGGGATGGGGACGGAGTTCGAAGTGGAAGGCGTGACGCCGACTTCAGTGACCCGCTTTAAGGATTATCTTTATGCCGCTGCTCGGAACGGTACCATGACGGATGCCGTGCATATGTATTACCAAGGCAGTGTGGATGGTGCAGTTTATGACAGTTACCAGTCCAAGGACCCGTATCTGCATTCTTTATATGATGATACGTACAAATTTGTGCATAACCAATTCACGACAGCGGTGGCAGCGCCGACTGCGCAATGGCTGATCGGCAAAGAGAACGGGACGATTTCAGGCACGATCACAGGCACCCCGACGACCGCAATCAAGGGTTATCAGGTGGTCCTGGATCCTAAGTTTGGGTCCGTCAGTCTCACGGCGGATGGGCATTTCACTTACACGCCGATCAAGGGTTACGTTGGGTCAGACAGTATCTCGGTCATCTATGACTATGGCTATCAACAGAGTGCTCCGACGACCATCACGTTTAACGTACAGTAA
>SRR1151209_01425 Melibiase
ATGGTTGACCAAACACCGCGCTATGTACGGGTCCAGAATGCGGCGAATGAGTGGGAGGGTCTGACCCAAGACCGGAGGAACCACTGGACGAATGCGGCATACACCGTGGCGATCGATGAACATTTGGCGGTCACCATTCGGGCAGCCCAGCCGATCCAACGCATCCAACTGGAATGGGCGGCGGATTTCACCGGTCCCTGGCTGTTTCTCGGCGATGCTTTTGAACGGGCTTATGGCGATCTGCATTTCGCCCCGCTGGACGAAGAACGGATCTGCCATTGGTCCATGGCGGCTCGCCAAGGTGCGCTGGCGCGGTGTTTTGGCGTGGCGGTGCAGCCCAATGCGCTGTGTGCCTGGCAAGCGACGGCCGCTTCCGTGACGTTGTGGCTGGATGTGCGCAATGGGACGGATCCGCTGGATCTGCATGGGCGGGTCCTGGACTGCTGTACTTTGGTATTGCGGGAGTATCCCGAGACCGACACTGATTATTCGATGCTGCATGCATTTGCCCGGGCAATGTGCCCGATATCGCGCCACAGTGATGAGCCGATCATCGGCATCAACGACTGGTATTATGCTTACGGCGCCAATACGGCGGATCTGATCATCCAGAACGCGCAGTTGGCCGCGGCGCTCGCGGACGGCCTGGGGGTTAAACCGTGGGTGCTCATCGATGACGGCTGGGAGAGTGCTTACGATTCGCAGACGGAGTACAACGGCGGCCCGTGGCAGACCGGTAATGATAAGTTTAGCGACATGGGCAGCGTGGCACAGCAAATTAAGGCTGCGGGGGCTCAGGCCGGCCTTTGGTTCCGGCTGCTGCTGGTCCAGTCAGCGGCAACGAAGACGATGGTATTACATCGAGACCAGGATAGTCTGTTTCTTGATCCCAGCCATCCCGCCGTCCGCAAGCAGGTGGGCGCCGACATTCAGCGTTTCACTGAATGGGGTTTCAAAATGATCAAGCACGACTTCACCACTTATGATATCTTTGGATTGCAGGGAGTGGCGATGGGCTTGAACTACTTTGCCCAGCCGACGCATTTCTACGACAAAACCAAGACGACGGCGGAAATCATTAACCAGTTCTATGCCGCGATTCGCCAGGCGGCGGGAGCAGCGTTGATCATCGGCTGCAACACGATCTCGCACCTGTCAGCGGGCGTCTTCGACATTATGCGTGTCGGCGACGATACCAGCGGCCGCCATTATCAGCGCACCCGCTCCCGCGGGGTCAATTCATTGGCCTTCCGGCTGGCACAGAACGACGTGTTCTACCAAGCAGATGGGGACTGTGTGGGCATTTCGGACATGATCCCTTGGGTCGAAAACCGGAAATGGCTGCAGGTGTTGGCCCAGACCAAGACACCGCTGTTCATTTCCTGTGATCCCACGGGATTGACGGCAGAAATGCAGGCTGACATTCGCCAGGCTTTTGCTCAGCGGATGCAAGCCCAGCAAGACGGCGGCAGTGTGCCCGCCGGGTTGGCCGCGGGTCTGTACCCGACCCGGTGGCGGAATCCGACTACCGGCCAAGTAACTGATTTTGCCTGGTTCGACACCCCGCGCCAGTTTTACGCCAGCTTCCCATACTATTGA
>SRR1151209_01426 alpha-glucosidase
GTGACAACACAGCAGCAAATCACCGGAGACAAGTACCGGTTTACGGTGCTGACCCCCAGTCTGATTCGCATGGAATATTCTGAGTCCGGCCAGTTCGAGGACGGCTTGACCCAAGTGGTGATCAATCGCGAGTTCCCCGCGTTCGACTTTAAAGTGATCGACTATCCGGATCGGCTGGATATCGTGACTGAATTTCTCCATGTCCATTACAACAAGCAGCCGTTTTCCGGCGGCGGGCTGTACGTCGAATTGTTGAAGAGTGCCAGTTATTGGGAACAGACTTGGCATTACGGCCAAGCCCTGGATACCTTGAAGGGAACTGCCCGGACGCTGGACGGCGTCAACGGCGCGATCCCGCTGGGGGACGGTCTGGTTTCACGGACCGGCTTCAGTATCTTGGACGATTCTGAGTCGCTCTTGCTGGATAATGCCGCCAATGACGGCCAGGGCGCGGTGAAGCCGCGGCCGATTGCGGAGCAGGATTTCTATTTCTTCGGCTATCAAGACCGGTATCTGGAAGCCCTGCACGATTACTACGTCCTCACTGGCTTCCCACCACTGGTCCCGCGCTTTGCCCTGGGCAACTGGTGGAGCCGCTATTGGCCGTATACAGAACAGTCCTTTACCCAGCTGATGGATAAGTTCCGGGACTGGCATATTCCCCTGAGTACAGTTTGTATCGATATGGACTGGCACTTGGTGGACATTCCAGCGCAATACGGCAACGGCTGGACGGGTTACAGTTGGAATAAGAAATTATTTCCGGACCCGCCTAAGTTCTTGCAGTCCCTGCACGATGACGGGTTGAAAGTGGCCTTGAATGTCCATCCTGCTTCCGGGGTGCGGGCTTACGAGGATGCTTATCCGCGCATGGCCAAACGGCTGGGGCTGGATACGAAGAATGAGCAACCGGCCGATTTTAACCTGATCGACCCGAACTTCCTCAAGTCCTATTTTGAGGACTTGCACCATCCCTTGGAAGACGAAGGCGTCGACTTCTGGTGGATCGATTGGCAGCAGGGGACGGAGACGGGTCAAAAGGGTCTCGATCCGTTGTGGCTGCTGAATTATTATCACTACAATGACAGTGTGCGCCGCCACGGCCAGGATGCGCTGATCCTGTCGCGCTATGCCGGACCAGGCAGTCACCGCTATCCCATCGGTTTCTCCGGCGACACGTGGATCACCTGGGATTCGCTGCAATTCCAGCCATACTTCACGGCCACTGCGTCCAACATCGGCTACGGCTGGTGGAGCAATGACATTGGCGGCCACATGGCGGGCCAGCGGGATGAAGAGCTGGAGCTGCGCTGGATGCAGCTGGGCGTCTTCAGCCCCATTAATCGGCTGCATAGTTCATCGTCGCTGTTCATCAATAAAGAGCCGTGGACTTTCTCCGCACCTTATGATCAGTACATTGTTCAGGCACTGCAAGCCCGGCACCGTTTGCTGCCGTATTTGTACACCCACGATGTTCGGGCCCACGAAGAAGGCATTCCGCTGATTTTGCCGGCGTACTATCAAGAACCGGGCAATGACGAGGCGTATCAAGTGCCCAATGAATACTTCTTTGGGGAGAAAATGCTGGTAGCCCCGGTGACGACGAAGCAGTCGCCGGAATACCGGATGGCCAAGACTAGCGTTTGGCTGCCCAAGGGAACCTGGTATGATTTCTACCACGATTGGGCTTATCAGGGGGATACGACCCTTGATGTGTATCGGGCGCTGAACGAAACGCCGGTGTTTGTCCCAGCAGGGGCCGTGATCCCGTTGACCGCAGCAGATGAAGCGACCCAGTTCGGAGCAGCCTTGCCGGAAACGATCGAATGGCATGTCTTCCCGGGCAGCGGCCAACAGCACTTTACACTGGTGGAAGACCAAGACGGCCAACGCTGCACCTCTACGGTGACGGTGGATTGGACGACGGAACAAGTGACGCTGACGGTAGAGGGTGATACGGCGGTGCTGCCCAGTAATCGGCAGCACGTGATCGTCTTCCACGGCGGGGCCGTGGCGGCGGATAGTACCGACCAAGCCGCGATTACCGCCGGTCAGTCGTTATCCTTCATCGGTTTCCCGGAGGATCGGACGGATGACTTGCAGGACGAGGCGTTGCGCCGTATTAAGGCGGCATGGACGAGTACACAAACCAAGGAGAACGTGTGGCGGATCATGCAGGGCGACGGGTCACTGCCCCATAAGCTGAATGCGCTGCGCAAGGCGGCCGATCCGTTCTTCGTGGGGATGATGTATGAGCTGCTGTATTGTCAGGAATCACAGGAAGTTTAA
>SRR1151209_01427 acetyl esterase
GTGCACTATATCCAAAAAGTCATCACTGAAGGCCCGGACACCGCCCAATTCACGGGCTATGTCATTGACAATAATCATGAAATGGGCAGCGACCGCGTTCGCCCGGTCGTGCTGATCTTTCCGGGCGGCGGTTACGAGTTCATTTCGCCCCGGGAAGCAGAACCAGTGGCCCTGAAGGTTCTGGGTATGGGCTATCATGCTTTTATCTTAAAATACTCGGTTTATCCGGCACTGTATCCCACCGCCCTGCGCCAAGCGGCCCAAGCGATTCTGCTGATTCGGCACAACGCCGCCGCGTGGCACGTGGACCCGGACCGCATCATCGTCCTGGGCTTCTCCGCCGGCGGCCATCTCGCGGCCAGCTTGGCCACGATGTGGTCGGCCCCTGTATTGCAAGACGCGGCCAGCGATCCGCGCCTGTTGCGGCCCAGCGGTCTCGCCCTGGCCTATTCTGTCCTGACTGCTGGCCAGTATACCCACCAGTCCTCCATTGACCATCTGCTCGGGCCGGAGAAACACAATCCGACCTTGCTGCATGATGTCAGTCCTGAGCTGCACGTCACGGCCGAGACACCGCCAACATTTCTTTGGCACACCATGGCGGATGACTTGGTCCCGGCTGAGAACTCACTGCAGTTTGTGCAAAGGCTGCGCTCTGCCGGGGTGCCGGCGGAGCTGCACCTTTTCCCCAACGGCGGCCATGGGTTGAGTCTGGCAACGGACGAAACTCGAACGCCCAAGGGAACAGAAGTTGACCCGCAGGTGGCGATCTGGCCGACGTTGTTTCAGAACTGGGTAAAAGAAAACTTTTCTGCATAG
>SRR1151209_01428 RpiR family transcriptional regulator
ATGGACATTCTCAAGACGATCGAGCGCACGTTTAACGCATTTCATCCCAAAGAACGCGCCGTGGCGCTCTACGTCGTCAATCACCCCCGGGACGTCCGGGAAATGAAAATTACTCAACTGGCCCAAGTCACCCACACGTCCATCGCGACGGTGAATCGGTTCAGTCAGAAAATCGGCTGTAAAAGCTACGCGGATTTTAAAATCCAGCTGGCCGTCGTCACGACGGAACAGCGGCCGGTCCCGGCCGCCAATTCCGACGACACACTGCAGCAGATCAACGAATTCTACAAGCACGTGATCAACAAAAGCGTCGAACGCCTGGACGAGGAGACCATTACCCAAGTAGTGGCCAAAATCTCCCAAGCCCGCAAGATTTACGTCTACGGTATCGGCAGTTCCGGGCTGACGGCCAAGGAATTCGAAACGCGCTTAAGCCGGATGGGGTTAACGGCTTTCGCCTGCACCGATTCCCACAGTATGAAAATTGCTGCCTCCCTGCTTACGGCGAAAGACCTGGTCATCTGCATCTCGATCTCTGGGAACACCGTGGAAGTCATTGAGGCCGCGCAACTGGCCCGCCAGCAGGGCGCGACGATCATTTCGTTCACCAGCTTCCAAAAGAGCAAGCTGACCGAAACCAGTGAAATCACGGTCTTGGTGTATAATGCGCTGTTCCTGAACCGGGAGAATTTCATCAATTCCCAGTTCTCGCTGATGTACCTGATCGACGTCCTGTCCGTTTATCTGCTCCGCGATCCGGCGCACGCGGCCGACATGGCGCGAACGATCTCGGTCATTCATCCTCGGTAA
>SRR1151209_01429 transcriptional regulator/sugar kinase NagC
ATGGCCCTGCTTGCGCTGGATATTGGCGGTACGACGATCAAACATGCCCTGTTCACTGAAGCCGGTGAGCGCATCACCGCAGTACAAGAAACGCCGACGGAAAAGACGGCTGCGGACAATCACATTGCCGCCCAAGCCGGGACCATTTACCAGGCGTACCACCACTCTGGTATCACCGGTGTCGCCATCGCCAGTGCGGGCGTAGTTGATCCGGACACCGGCACGATCGTCTCGGCCGGCTACACGATTCCCGGTTACACGGGCACGCCGTTAAAACAGAGTGTTGAGAACAGCACCGGTGTCCCCTGCTGGGTCGAAAACGATGTGAATTGTGCCCTGCTCGGCGAGTTGTGGCGCAATCACTATCCCCAGCAGCATATTTTCTGTATGACCATTGGTACCGGCATCGGCGGCGCCATTCTGATCAACGGCCAGCTCTACCGCGGCGCCAGTTTTGGTGCCGGGGAAGTGGGTTACGTGAATCAAAACGGCCAGGATTTCCAAACCTACGCCAACACGCAGGCCCTGATCCACCGGGCTGCGGACGCTGCCAATCAGCCCTTCACCACCGGCTATCAGGTCGTGCACGCCTTTCGTGACGGCAATCCCGATGTGCAAAACGCCGTACAGCTCTGGCTGGACGGCATCGCCAGTGAACTCGTCAATATCAATCATTTACTGAAACCCGAATTATTCATCATTGGCGGCGGCATCATCGAAGGCGCCCCCGAGTTCGGCCAATTGCTGGACGCGGCGTTTCGCCAGCGGCTCACCGCGCAGCAATACGCGGCCACCGCCCTGAAGACAGCCACCCTAGGCAACGAAGCCGGGATGTATGGGGCTCTCTACCACTATTTACAGAAAGAGGCGGCGCATGGACATGGACATTCTCAAGACGATCGAGCGCACGTTTAA
>SRR1151209_01430 N-acetylmannosamine-6-phosphate 2-epimerase
ATGGACTTGAATACACTCAAAGGCCACCTGATTGTCTCGTGTCAGGCATTGCCTGATGAACCGTTGCACAGCAGTTATATCATGTCCCGTATGGCCAAGGCCGCCGAATCGGCTGGGGCGGCGGGGATCCGGGCCAACTCAATGATCGATATTCTGGCGATCAGGGAGGTGGTCTCTTTACCCATGATTGGCATTATCAAGCGGGAGTATCCGGGATCACCGGTGTACATCACGCCGACGTCGCTGGAAATTGACCAGCTGGCGTCCTGCGGGGTGGAAATCATTGCCATGGATGCCACGAACCATCCCCGTCCGGAAATGCCGCTGGCAGAATTAATCGCCTATGCCCGGGCCAAGTATCCCCAGATTCTGCTGATGGCCGACACGGCAACGGTGACGGAAGCTTTGCAGGCGCAACAGCTGGGGTTCGATATTATCGGCACGACAATGCACGGCTACACGGCCGAGACCCAGGGGCAAAACATTGCTGACAACGACTTTGCTTATCTGAAACAACTGATTCCAGCGGTCACGAAACCGGTGATCACCGAAGGCAAAATCGATACGCCAGAAAAGGCGCGGCGGGCCCTGGATCTCGGGGCATTCGCTGTTGTGGTCGGCGGCGCGATCACCCGCCCGCAGCAAATCACCAAACGGTTTGTTGCAGCCATTGATCAGCCGGAAGAACAGGAGGCGTGA
>SRR1151209_01431 HNH endonuclease
GTGGTTCAAAATAGAATATTTGTCCTCAATCAGGATGGGCAAGCATTGATGCCCTGTCGTCCGTCAAAGTGTCGGCATCTGCTTCATTGTAATCGTGCTATCATAGTCAGCCATACTCCGTTCACCATCCAGTTAAAGTATCAGTCGGGGTCTTGCTTACAGGACGTGTCAATTGGTGTTGATTCAGGTCAGCGACATATTGGACTTGCAGTAACGAGCAACGAAAAAGTGCTTTGGCAAGGAGAAGTGACTCTGCGACAAAATGTAAAAAGCCTTTTAGATACACGTCACATGTATCGACACACACGTCGACAGCGACACACACGATATCGAATGGTACGCTTCTCGAACCGAAAGCCTAGAGATATCCGCTTGGGCGTGTGGTTACCACCATCCGTTCGACAAAAATGCGAGCACAATATCCAATGGATTAATCGAGTGCGTAATGTTTTGCCACAAGCTGATATATCTATTGAAGTGGCCAAATTTGACGTACAAAAGTTGAAGGATCCGACCATTCACGGTATCGGGTATCAACAAGGCGACGCCTTTGGTTATGAAAATGTGAAACAATATGTTCTAGAACGTGATGAACATACCTGCCAATTGTGTAAACGCAAAATTGATACCGAGACGAAGAAAACATTGAAGTTGCACATTCACCACATCGTTTACAGGAGTAAAGGCGGTACTAACGCAGCCACGAATCTGCTGACGGTATGTACTAAGTGTCACACAGATCGAAACCATAGAGCCGGCGGCCCTCTTTATGCGTTATTTGAGCAAAAAAAGACAATACCACCGCTTAAAAATGCCACATTTATGAATATGTTGCGTAATCGATTGCTTACCGCTTTTCCTGAGGCGCATTTCACCTATGGCTACATCACAACGGTTCAGCGAAAAAAGTTGGGTTTGGCAAAAGCACATTATCGCGATGCTGTAGCAATCAGTGGAATTCAACAAATTATTGAAGAGCCAAAATCAGTTGTGATGTTTGATCAGTTTCGGACGAAAAAACGATCATTGCATGAAGCAACGGCACGCAGGGGGCGAAAGCAAAAGAATGTTACTCAAAAACGAGTGAAAAAGAATACGAAGAAAGTAAAAGGTTGGTGCTTGAACGATTATGTTCGAATCAGTGATGGACGTTGCGGGTTCATCACCGGGTTTAGTGGTCTCTGGATGGCTCATATTAGGGATCGTCAGGGTGGTTTGGTTAAAAAGCTCGTGAGTCTGACTAAGCTTGCCTTTCTTCATCACACAGGAACTTGGAGGTGTACAACTTTACCAACAGATGTCTATGACATGCAATAA
>SRR1151209_01432 sugar ABC transporter permease protein
ATGCAAACAGAAAAGAAAACACGCAACATTGGCAAATATATCCTGTTGACCGTCGGCGGCATCCTCATTCTGATCCCGCTGCTGGTCACCGTCTTCAGTTCCTTCAAGACCACGAAGGACATCATGGGGAATTTCTTCTCCTTCCCCAATCCCGGTACACTGGATAACTACCGGCGGCTGTTGGCCGACGGCATTGGCGGTTACTTCTGGAACTCCACGGTGATCACCGTCATCTCGGTTCTGCTGGTCATGTTCTTCGTGCCCATGGCCGCCTACTCCATTGCCCGGAACATTTCGAAGAAACGAGCGTTCAGTCTGATGTACAGCTTCCTGATCCTCGGGATCTTCGTGCCCTTCCAAGTCATCATGATTCCCATTACCGTCATGATGAGCAAGCTGGGCTTGGCCAACATGTGGGGGTTAATGCTGCTGTACCTGACTTACGCGGTACCGCAGACATTGTTCCTCTACGTGGGATTCATTAAGATGGGCGTGCCCGAGAGTCTGGATGAAGCCGCCGAAATTGACGGTGCCAGCAAGATCACGACCTATTTCAAGATCGTCTTCCCGATGCTGAAGCCGATGCACGCGACAACGCTGATCATGAACGCGTTGTGGTTCTGGAACGACTTCATGCTGCCGTTGTTGATTTTGAACAAGGACTCTAAGATGTGGACGTTGCCGCTTTTTCAATATAACTATCAAGGCCAATATTTCAACGATTACGGACCCAGTTTCGCATCGTACGTCGTTGGGATCATTACCATCACGATTGTCTATGTCATCTTCCAGAAGAACATTATTGCTGGGATGAGTAACGGAGCAGTAAAGTAA
>SRR1151209_01433 sugar ABC transporter permease protein
ATGCGTTTACAGAAATTTATCAGTAAATATTGGGGTTGGTTGTTCCTGATCGTCCCCGTCCTATTGCAGCTCATTTTCTTCTACGTGCCGCTGATTCAAGGGGCGTTCTACAGTTTTACCGACTGGACCGGGCTGACGTATAACTTCCACCTAGTCGGTTTCAATAACTACAAGATCCTCGCCACCGACCCGAAGTTCATGAAGGCCATTGGCTTCACCATCATCTTGACGCTGGCCATGATCATTGGCGAAATCGGTTTGGGCATTCTGTTTGCCCGGGTCCTAAACGCCAAGTTCCACGGCCAAACGTTCTTCCGGGCCTGGTTCTTCTTCCCGGCCGTCCTGTCCGGGTTGACGGTCTCCTTGATTTTCAAGCAGATCTTCAACTACGGCTTGCCGGCAATCGGTTCGTTCTTTGGCATCAAAGCGCTGGAAACCAGTTTGCTGGGTACCGCTGGCGGCGCCATCGTGGCCGTGGTCTTCGTCATGATCTGGCAAGGGGTGGCCATGCCCATCGTTATTTTCTTAGCCGGGTTGCAGAGCATTCCCGAAGAAATCAAGGAAGCCGCCCGTATTGACGGGGCCAACGACACTACGATCTTCTGGAAGATCGAACTGCCCTACCTGCTGCCGAGTATCTCCATCGTCTTCATCATGGCGCTCAAAGGCGGGCTGACGGCCTTCGATCAGATCTTCGCCTTGACGTCCGGCGGTCCCAGCGACGCCACCACGTCCTTGGGCCTGCTGGTTTACAACTACGCCTTTAAGAACAACCAGTACGGCTACGCCAACGCCATTGCCCTGGTGCTGTTCATCTTGATCGCCATCATTTCGCTGATTCAGATCAAGGTATCCCAGAAGTTCCAGATCGATTAG
>SRR1151209_01434 sugar ABC transporter substrate-binding protein
ATGAAGCATTGGTTGACAAAGATCCTCGGCATCAGCCTGTTAGCCGCCAGTACCACCTTGCTGCTCAGCGCTTGCGGCAGCAACCAGAACAGCAGTAACGGGACAACCACCATCGAATTCTTCAACCAGAAGAAGGAAATGTCCACGACCTTGCAGCAAATTGCGACGGACTTCGAGAAGAAGAATCCAAAGATCAAGGTCAAAGTCACAAACGTCCCTAACGCGGGGGATGTATTGAAGACCCGGGTGCTCGCTGGTGATGTGCCCGACGTCATTAACATCTATCCGCAAAACATCGATTACCGGGAATGGGCGAAAGCCGGCTATTTCGAAGATATGACGAAGGCCCCTTACTTAAAGAACATCAAGAACAATTACGCCCAGCAATTCGCCATTAACGGCAAGGTCTATAACGCACCGCTGACTGCCAACGTGTACGGGTTCTTTTACAACAAAACCGCCTTTGCCAAAATGGGGCTGAAAGTACCAGAAACTTGGGCTGAATTCGAAGCCCTCGTTAAACAGATCCGTGAGCAGGGTAAGACGCCCTTCGCTCTCGCCGGGACTGAAGGCTGGACACTGAACGGCTATCATCAGTTGGCCCTGGCCACCGTTGCCGGCAGTGCGAAGAAAGCCAATCAAGTTTTGCGGTTCAGTCCGGTGAACGGTATCAAAGCCAGCAACCCGGTCATGCAGCAGGATTTCAACCGGCTTGATCTGCTGCGCAAGAACAACGCCGCCCAGAATAACTGGCGCGGGGCCAGCTACAACGACGCCGTCGTGGCCTTCACCAAGGGTGATGCCCTGATCATGCCCAACGGCTCCTGGGCCTACCCGGTTATTCAGCAGCAGAAACCCAAGTTTAAGGTCGGCACCTTTGCCTTCCCGGGTAAAGAAAAGGGTGAAAGCCTCACCGTGGGTTCCGGCGACTTGGCCCTGTCCATTTCATCCAGTTCCAAACACAAAGCCGCGGCTGAAAAGTTCGTGGCCTACATGACTACGCCCCAAGCGATGCAGAAATATTATGATGTTGATGGGTCGCCATGTTCTGTCATCGGTGTCAAGCAGGCGGGCGTCAATTCGCCGCTGGGCGGCATCACCAAGTACGCCTTTACCAAGCATCAATTCGTTTGGCTGGCCCAGGATTGGACCAGTGAGAATGATTTCTTCACACTGACCACCAACTACCTGTTGAACGGCAGCAAGTCGGATTTGGTGAACGCGTTGAACGCCTTCTTCAATCCGATGAAGGCCAGCAATTAA
>SRR1151209_01435 alpha-galactosidase
ATGGCAGACTTGATTGCATTTGACGCAAAAACGCAGGTATTCCATTTGCATAACCAGCAAATCAGCTACATATTCGCCATCGAAGACGGCGGTGTGCTCGGCCACTTGTACTTTGGCCAAGCGGTCGCCGGTTACCACGGTGAACGGCACTACCCCCGCAAGGATCGCGGCTTTGCCGGCAACTTGCCGGTGGCCGAGCCGGAACGCGGCTTTTCGTTAGACACTCTGCCCCAAGAAATCAGCAGTCGCGGCGAAGCGGACTTTCGCATTCCAGCCTTCGTGATTCGTCAGGCCGATGGCGCCCAAGCCAGTCGTTTTGTCTATGCGAGTCACCGAATCGTCCCAGGCAAACCCAAACTGCCCGGTCTGCCTGCCGCTTATGTGGAATCACCCAATGAAGCGGCCACCCTGATCGTGACCGTCGTGGACCAGCCTAGTCGCTTACAGGCTGACCTGTATTACACCATTTACCGCGACCGGGCAGTCATTGCCCGCTCCGTGTGTTTCCGCAATCCGGCTGATCAGCCCGCCGTCACTTTGGAACAGGCTGCGTCGGTCCAACTCGACTTCCCCGCCGGCGACTACCGCATGCTATCGCTCCCCGGCGCCCACGCCAACGAACGTCATCTCCAGAAAGAAGTCGTTGGTTACGGAATCAAACAGTTTGCCAGCACCCGCGGCACCACCAGCCACCAAATGAACAACTTCATCGCCCTCACCGCCCCGGATGCTGATGAATTCCACGGCGATGTATATGGCGTCGACTTAGTTTATTCCGGCAACCACGCCCTCACGGTGGAGAAAGATCAAATCGATCAAGTCCGGGTCGTCGCCGGGATCAATCCCGCTGGTTTCACCTGGGAACTGGCCGGCGGCGCTGAATTCCAGACGCCGGAAGCCCTCCTCGTTTATTCCCACCAAGGGCTGAACGCCATGAGCCAGACTTACCACCGCCTGATTCGGGAACGCGTGGTCCGCGGCCGCTACCGCGACCAAGAACGGCCGATCCTCGTCAATAACTGGGAGGCCACCTACTTCGATTTTAATGAAGCAAAATTGCGGCCTATCGTGGATGCCGCCAAGAAACTGGGCATCGAAATGTTTGTCTTGGATGACGGCTGGTTTGGCCACCGGGACGATGACACCACCTCTCTGGGCGACTGGGTCGTGGACAGTCACAAGTTCCCGCTGGGCTTGAAGCATTTCGCCGATTACGTCCATAACCAAGGTCTGAAATTCGGTCTTTGGGTCGAACCAGAGATGATTTCAAAGGATTCTGACCTCTATCGCGCCCACCCCGATTATTTGTTAGCGGTACCAGGACGGGCACCATCGCCGAGCCGCTTCCAATATGTGCTAGATTTAAGTAGGGAGGATGTACGCGCCAATATTGCCGGCCAGCTTTCTGACTTGCTTGATCAGGGTTACATCGACTACATCAAGTGGGACATGAACCGGCATCTGAGCGACATCTATTCCCACGCTTTGCCGGCTGCCCGTCAAGGAGAAGTGCTCCACCGCTATACACTGGGGCTCTACGCGCTGCTGGAAGAGCTGACCACCAAGTACCCTGACGTATTGTGGGAAGGCTGTTCCGGCGGCGGCGGCCGGATTGATACCGGTTTTGCTTACTACATGCCGCAATCCTGGACCAGCGACAACACCGATGCCATTTCACGCTTAGGCATCCAATACGGCACGTCTCTGGTCTACCCGCCCAACACCTTCACCGCGCACGTGTCGGTCAGTCCAAACGAACAGACTGGCCGCAGCACGTCTCTGGCGACGCGGGGCAACGTGGCGATGAGTGCTGTGTTCGGGTACGAACTGGACCTCACCAAGCTGACGAAAACAGAACAGAAACAAGTCGCGGCCCAAGTCGCCGCGTACAAGCAGATCCGCCCGCTGATCCAATTCGGCCATTTTCTCCGGCTGGAAAGCGGCAATGATTATGCCTGGATGTTTGTTTCTGCCGACCAGAACGAAGCGCTGCTGTTCACGTTCCACCTGCTGAACAACGGCCAGCCGGCGTTCCATATCGTGAAAATGGCCGGACTGGATCCGGCAAAGCAGTATGAAGACACTGCCACCCACACCGTTTATGGCGGCGACGAGCTGATGCACATGGGGTTATATCAGCCCTTGCAGCGGCAGGACTTCACGACACACCAGTATCATTTCAAAGCGATCAATTAA
>SRR1151209_01436 AraC family transcriptional regulator
ATGGAGTTTGAATACAAGCGGGTCGATATTGAACATGTAGACTGTAACGTTGTTTTTTATGGCCGAGAGCAGACCCGCCCTAACTATGCGTTCGGGGGAAACAACGTGCGGGACAGCTACGTACTCCATTACATCGTTTCCGGGAAGGGCCGGTTCGCCAGTGCCGGCCGCAAATCCGTGGCGCTGGGAGCGGGGGATTGCTTTTTGCTGCCGCAATCTGTGCCCTGCTTTTACCAGGCCGATGGGGAAGACCCGTGGGCCTACGAATGGATCGGGCTGACCGGCATGCATTTGGGGGAGTTGTTCGACCGCAGCGGATTAGCGGATAAGTATTGGCTGCGGCATGTTGACGGCAGTGCCTTTCAGGAGCAGTTCGCGGCGTTGTTTCAGGGCCTGCACAGCGGGCGGGCGGCAACTTTGGCCAATGAGCTGCAGGTCCAGAGCCAGCTGTACGCAATGTTTTATGCCCTATTAACGGAATTTCCGGGGAAAGGGGCGCAGGAACGGGTCGGCGCCACCGCCACGATGAACCAGGCCGTCGCTTTTATGCGCCAGAATTACCCGCGGCGCTGCAATGTCACCGACGTCTGCACCGCACTGCATGTGTCCCGAACCTATCTGTATACTCTTTTTCGCCGGTTTGTCGGGATGAGTCCGCAGCAATATTTAACCCAAATGCGGATGGACGAGGCAAAACAGCTCTTGCGCACGACTGATAATGCGGTGGATGAGGTGGCCGCTCGGGTGGGTTACAAGGATGCGTTTACATTCTCGAAAGCGTTCAAGCGGGCGGTGGGAGCGAGCCCGCGGGAATATCGGCAATAA
>SRR1151209_01437 hypothetical protein
ATGAAACGCACGTATGCAACACTTGCTGCAGCGGCGCTCTTGGGGATTAGTGGGGCATTGGTACCGGCTGCAACGGTACACGCGGACGGCCCTGGCCCGGGGACGGCGGACTACAACTTGAGCGCCAACACCAGCGTGACCAGTGGTCAAAAGTTCTTTGAGGCGGCTCAGGGCAACAGTGCGGCCACGGCTAAATCAACGGCCCAGTTCACAGTTGAGGGCGGCACATTGCAATTAATCGCCGTACCTGACTTGAACTTCGGCCAGATCCCGCTGACAACGATCGTTAGCAGCGGTGATAAGGCGTTGGAAAACAACTTGGTGAGCAGTGCAGACACTGATGCCACGTCTAAAAACGTGACTGCGTTTGACGGGAACAGTTCTGGCAAACTAATTGTTAATGACCTGCGCGGGATCACCGGCGGCTGGACTTTATCGACTACGCTGGGCACGCAGTTTACTTCCAAGACAGCCGGTGCACCGGCGCTAACGGGGATCACATTATCCTTAGCAGCCACGGGGACCAACCAAGTGAACGGGACAGTCTCCCTGGAAGGTAACGGCATTGGCGCATCCCCTGTTGATGTAGCGACGGCTACCGGTGCTGATCAAGGTAAAGGAGCCACAACTTGGGATGTCAATACCGCGGCTAACGCGAGCTTAAAGTTCCCTGGCCAAAGTGCTTATATTCCGGCAAGTGCGATTTATCAGTCGGACATTACTTGGACTTTGACCGCTGGCGCATAA
>SRR1151209_01438 hypothetical protein
ATGGTCATTAAAAAGCGCTGGATCGTGCTGCTGATGATCTTTTTGGTGACGCCGCTGCTGATGCTCGGATCAACCAACACGGTGCGGGCGGACGACACAGCGACTGGCGCGCAATTCTATCTGGCGCCGGTTTATCCAGCCAACCAAACGGACAAGACTTTGGGTTACTTCGTCTTGAAGGTGACCCCAGGGCAAAAGGGGTCAGTCAGTGTTCAGGTGCAAAACACGAGTAAAACCAATACTCGGAAGATCCAACTGACACCGACGGCCGCCACCACGAGCGACGCTGGCCAAATCAATTACTCGCCAAGCCCCAAAAAGGCGGACCCGACTCTGGCACACCCGCTGAATCGGTTATTTTCTAAACCGGTAACGATCACCATTCCGCCGGACGAAAGCAAAGTGGCTACCTTCGAATACATCATTCCAGAAGCTGGATTCAAGGGCCAGATTCTTGGCAGTATTCATGCACTGGATGTGACCGAAGAAAAAAGCACCACGGGCCAGTTTGGCCTGCACAATAAATTTGCGATGGCGGTGGGCATCATTCTGAGTCAGAATCCGACCCAGACGTTGGCCCCGGATCTCAAGCTGCAGCAAGTCCGGCCGGGAGTGAGCAATAAGCACCCGGCAATTTTGGCCCGGATACAGAACCGTGCCCCGCAGCTTTTTCGCGGCATGACGATCAATGCCAAAATCACCAAGCAGGGCGAGACGAAGACGATTTATCAGTACAAACTGAAGGACGGGTCCATGGCCCCGAATTCCAACTTTGACGCACCAATTTTGGGCGATGAAAAGGGAATTCCGGCTGGGGATTACACATTGACGATGACAGTTCAGGCAGAGGGGAAGACCTGGCGGTTTAAACGCAACTTCACCGTGACCGACAAAGAGGCGGCGAAACTCGCCGGCGCGAATAATGCGGGCAACCAGCAGCCGCCATGGCAAAAGTGGCTTATCTGGGCGGCTATCGCCTTGGCCGTGCTCATTGCCGGTTATGGTCTCTACCTCCTCGGCGTGCGAAGGGGGCATAAAAATGACACGGCGGATGCGCACCATTCTTAA
>SRR1151209_01439 hypothetical protein
ATGACACGGCGGATGCGCACCATTCTTAAAGCAAGCCTTATTTTGAGTTGCGGTCTTATGCTGGGTCAGGTATTGTCCCCCGATCAAGCGCGGGCCGCGGACAGCACCGCTCAGTTCACGGTTGTGGATGACCGCACCGTGCCGCCCAAGGGTGATGAAACACTGCCGGAATCAGGTATTAAGCCCGGCGGAGACAAAGACACTGGGCATATTCCCCAATTGAATGAACAGACCAGCCCTTGGCTGGTCATTATTGGGGTGGAATTAGTTATTTTGACGGGGATGGGCAGCTGGCATTTACGGAAGAGGGGGCGGCAACAGTGA
>SRR1151209_01440 protein translocase subunit secA 2
GTGAAGAAATTTCTGTTGAAGCTCCTGGTGGTACTGAGTTTAGGCATACTGGCTGGCAGTGTTTTGGCTGCCCCAGTTATGGGAGTACTGACGCCGCAGGTAGCAGAAGCGGCTGACACGCCGCCAGCACCGCCGAATACGCCGAGCCGGGCTGGGTGGTCGTTCAACTTGCTTTTAACTTGGTTGATCACCAACGGAATCACAAGCCAGCCGGCTGACGCGAACTTCGTCGAAGGGACATCAGCTAAAATCGACTTTGCTTCCACCTATGATAAGAAAGTATGGCTATTAGACACCAACGATGTTACTGGGGTGACCACTCAAATTTATCGAAATGGTGCTTGGTCAGCTTACTCTGCTGCACCGACCATTGTTAAAAAGGCACCGACCGCCAATATCACGATGGATTTGGGCAGTAATTTACCAGTAGGGACCTACTATTTTCAGTTTACGGTAAATTATAATGGCGGGATACGCAATGCGTACAGTGAAAGAATTAAAGTGACGATTGTGCCGGCCCCTGAAGATGCAGTTAGTATTGGGCCTGTGCCGCATCGATCGGTGATTTTCTGGGGTGAGAGCACCGATATTGATGCCAATTTGCTGCCAGAAAATAGCACTTCTGTCGTTACCTGGACGCCCCCTGCGGCGAACATGGGTAGCCTGGCTGTTACAACCGGACTGGTCACTCGTTTTGCTTCGACCTTAATTGATGCAAATGCAACGGATGAGCGACTAAATAATGATAATGGGTTGCCGGCAACGATTGGCGCAACAGCAACTAATACAGTCAGGCCGGGTACGGTTAATGGTTCGACACAGGTGATCGTTGGTGGCTTGGTGAAACAAGATGCGATCGCCGGCCGCAGCTTTTCTTATACGCCGGCGGCGTTAGATGGTATTACGTTCCCCCAAGGGATGACGCCAAGCTATCAATGGACGGTGTATAATGCTAATCGGCAGAAGGTAACGACTTCAGCAGTACTCAATAACCCATCGTTTTCTTGGTCGAGTGTAGTGAAACCGCCAGTATCGGATCGTTATTACCTTCAGCTGAATATTATATTAAAGGGGAGCGGCAACACGGTTACTTGGCGATCAAACATGGCCCCCTTGGTGGTATCGACGCCGGCATCCCAGCTCATCGCCGTGCCGAACTTGCGCTTCATGAATTATGTCGATGGTGTATTCCGTACACCAACGATTGCTGACTTCTATCAGGCTAGCGGTGTAACGCTGCGTTATTCTCCACTGACTACGCAGGTTGGCAGGGGGACTTACGATGGGAACAATACCGGCTTTCTCGCTGTCCAAACAGTAGGCCAGAACTGGAACTTGTCAGTGCAAGCCAGCGGGTTTACCCATCAGCTATCGGGTCTGTCGCTACCCACTAATCCGACATTGACGCTGGCCGTGCCGCTGGCTAACGGCGGATCACAGGTCGTGTCTGTGCCAACTGGGGACGCGGCAGCACCGGTCACAGTGCTGGCTAACCAAACGACGAATTATTCCGGCAATCTCAACAGTGCGACGACCCTGCAAGTGCCCCAGACCAGTTTCATGCTGACGGGGAACTACCAATCCAATCTGACTTGGACACTGACGCAGGCACCTTGA
>SRR1151209_01441 hypothetical protein
ATGGCTTGGTTGCGGGAACTCACTGTAGACAATGTGACCGTAATACTGACTTTGAACAAATTACGGCTGCCATTTCAAGTACAGGCATATCAGCCGTCATTGTCGATGATTGATCGGATGCTCAAAGTCACTTTTGCAACAGACCATCTGAAGGTCGGCGACGAGTTGGTGATGCATTTGCTGAATGCTGACTTGGATTACGATGACGAAAGTTCTGACGACAGTGCGTATCAAGTAGTTTATCGTCAAGGCAGCGGCAATAACTATGTCGCTGCCTTGGCTGCAGTACCGGATCCGTTGCGGCAGGCGTCATACATTCAATGTGCGGCAGACGAACAAGGTATTGTCCTCGATCTATTGCGGGGACTGCAACCTGAGGAAACGCTCTGCTTTGGTATTTTTACCGGATCAACGGAGGATAACGATGATGTGTGGGATGCCATCTCCGATGTAGGCAATCCGGCCGAATGGAGGGCACCCACGGTCTTGCCGTCTGATATGCACACTTTGCTGTGGCCAGAACAAGACACAGATGGAATTCCAGCTACGGAAGTGAGCTTGTTCGAGATGCCGTCGACACCTTCGGCAATACCGAGAATGCAGTCTGTGGTGAAGCGCGGGAATTCGTTGTCGTTATATGGTAAGACCGGGACACCCCGCGGGCGGTATTTTGAATGGGAATCGTGGCGGCGCAGTCAAGGAGGCGGCAGAAAATCCTAA
>SRR1151209_01442 hypothetical protein
ATGGGAATCGTGGCGGCGCAGTCAAGGAGGCGGCAGAAAATCCTAATCGAAACTTTTCAACGGCGATCTTTTCTGAAACAACGAAGTGACGTGTTGACAACGCCGCGGACTCGGGAAATATGGCGGGACGATGATTGGGCACAATTTGGTCGGGCATATCAATGGATGCGGGGTCAATATAGTCAGCGTGTACAGCCATTACCGCCAGCAAAGGCATTACTTTGGGGCTGGCCCAGTCCCCGTTTTGAAGACATGCAGTACAAAAGATTGAATGATCCTCGGACGGCTTCTGTACGTATCTGGGCGGAGGTACCAGATGACTTGATTCTTTCCAGTAATTTTGATGGATGGCACTATATATTGAGTGAATTACGATTTCATCGAAATAACACAGATATGCCTATTACTCAGGACTGGGAAACACTATTTGATCGACAATGGCTGGTGGCCCATGACTTCTACAACGAGAAATATTCTGGTGACCAAGTCGTCTTCCCCTACATTCGCCGCGAATGGATTCAAAAAGTGAAATATTTCCGCGGGCAATATTAA
>SRR1151209_01443 TetR family transcriptional regulator
GTGTCACGCCAAGTTCTCTCATCAGAAAAAATCATTGCCCAAGCCATAACGCTGATCACCGCCGACCAGACGCCGACGTTCTCAAATATTGCCCGCGCCCTGGGAACCCGATCCCAAGCCTTGTATAGTTATTATCCCAATCAAGATGCACTGCGCGCGGCGGTTTTCTTGCATGGTGTCACCGAACTCACCGAGGTGCTGAAGACTGAGCTGTTCGGTTTATCCGGCCGGACGGCGATTTTGAGATTTGCCCAAGTCTGCCGGACTCTGGGGCTCAAGAATATTCGACTCACCCGCTTTATTCTGACAACCCCGCGGCATTTGCAGGAAGGCACGGCCACTACCGCCGTGGTTGCGTTGAACGACCTATTAATGCGGTTATGTGCAGTCTACAGCACCGATCAGGCCGACCAAATTGTCATCGCCCGGACTCTGCGCAACTTGATCGTGGGTGAGGTGATCAACGTTGGTGCCGGATGGTTTCATAATACTGCGGTACCGGCAAGTACCAGTTTTGATCGGATGATTGCGCAGTATTTGGATGTGTTAGGAAATTAA
>SRR1151209_01444 TauE/SafE family sulfite exporter
GTGAATATTGTATTGCTCATTGCCGTTGGTTTCATTGTTGGTCTGTTCGTCATCAGCATGGGCGGTGGTGGCGCGGCCATTTACTTAGGCGTGCTGACTGCCGTCTTTCATTTAGCGCCGGATCGGGCAGCGGCCACGTCGCTGATTACTGCCCTGCCATCGCTGGTCATCGGATCGTTCGGCTATTTCCGGCAGGGCAAGATCAACTTCCAACTTGGCAACCAGATGCTAGTGGCCGCTTTGCCGGCAGTGATTGTCGGGTCGCTGATTTCGCCGTACATTCCAGCTACTGTTTATCAGTGGATCGTCGGCGTGATTTTGTTTCTACTGGGCGTTCAAATTTTTATGCAGCGCAATCACGGCAGTAAGCGGGACACCGCCCAGCCCAGCCGGCTGAAGGCCAGTCTGTACGGGGTTTTGAGCGGCTTAATGGTAGGTGTCGCCGGCTTGAGCGGCGGTGGGCCAATTCTGGCCGGCTTGCTGCTGATGGGACTCGATATGTTTGCCGCAGTCGGTACTTCGTCCTACGTGCTGGTAGGCATGACGTTGGTGGGGGCCCTATTGCATCTGTCTGGCGGTCGCGTGGATTGGACTGCCGGCATTGGGTTAATGATTGGCGCGATTGGCGGGGCCTTGCTGGCACCTTTCTTATTGAATAAATTGAGTCAGAATGTGCACGCCCAGGGATATCTTAAGCTGTTCATCGCGGTTCTGCTGATGATCATGGGCGTAAAGACCGTGTTTTAA
>SRR1151209_01445 alcohol dehydrogenase
ATGAAAGCAGCAGTAGTGCGCGCCAACTCCGATGGGTACGTGGACATCGTCGACAAAGAGCTGGGGGAACCCGGTTACGGTGAAGTGAAGCTCAAAATGGAATATTGCGGTTTGTGCCACACCGATATTCACGTGGCCTCCGGGGATTTCGGCGCCGTGCCCGGCCGAATCATCGGCCATGAAGGCGTCGGCCGGGTGGTCGCCCTGGGACCGGGCGTCACTAGCCGCCACTTGGGCGAACGGGTCTCTGTGGCCTGGTTCCAGTCCGGTTGCGGCGACTGTGAATACTGCAACACTGGTAACGAGACCCTGTGCCGGGCTGCTAAGAATTCTGGTTTCTCCGTGGACGGCGGGATGGCTGAAGAAGCCATTGTCGCCGCCGACTACGCGGTGCCCGTCCCGGATGATCTGGATCCGGTCCAAGCCACGTCCATCACCTGTGCCGGCGTGACCATGTACAAGGGGCTGAAAATGACGGATCCCCATCCCGGCGAATGGGTCGCCATTGTCGGGGTCGGCGGCCTGGGCAATCTGGGCTTGCAGTATGCCCGCAATGTCTTCGGCCTGCACACCATCGCCATTGATACCAGCGATGAGAAACTGGCCAGTGCCAAGGAACTGGGGGCCGACATGACCCTGAATCCGTTACGGGATGATATCGTTCAGATCATCAAGGACAAAGTCGGCGGGGTCCATGCCGCCGTAGTTTCTGCGGTGAACAAGACCGCCTTCGATACCGCCATCGAAACCCTGCGGCCCATGGGCCGGCTCGTGAGCATTGCCCTGCCGGAGGGCGACATGCAGCTGAACATCATCAAATCTGTGTTGGATGGCATTGTTGTGGTCGGCTCCCTGGTCGGTACCCGCCAAGATCTGCGCGAAGCATTCCAGTTCGCAGCGGAAGGCAAAGCTGTGCCGATCGTGCAGACGCGGCCACTGAGCGAGTTGAACGCGATGATTGACGACATGAAAGCCGGCAAGATCATTGGCCGGGACGTGGTCGATTTTTCTCTGGCATAG
>SRR1151209_01446 TetR family transcriptional regulator
ATGAAAGACGTGACGACTGATCCGCAAAAAGTTGAACGGATCCTGCACACGGCCATGGTCGACTTTGGCCAGCAGGGTTTTCTTAAAACCAAAACGGACGATATTGCCGCGCAAGCTGGCGTCTCGAAGGGTCTGCTCTTCCATTACTTCGGCAGCAAGCAGGGGTTGTATATTGACACGTACCACACCGCCTTTGACCGGCTCTACACCATCGTTGACCAGCAGGTCTGGACTGACGCCACTAGTTTGACCGACATGGTTACCCGGGCGACGCGCTACAAGATCAAGTTGCAATTGCAGTATCCCGTCGAATTCCGCTTCCTGATGCAGGCCTATATTGACACGCCCCACTTTCCGCCGCGATTGCAGAAAGAAATGAGTACGATGATGCAGCGCACGCAGGAAATCGGCAATCAGTATATTGCCGGTATGATGCAGAAAATCAAGTTGCGACCGGGAGCCCGCATGGCCGACGTGCTCGCCGTGGTCAACGCTGTGACCAGCAGCATCATGGTCCAGGCCGAAAAAGACATCGCGACTCATGGGTATACGAAAATTGAAGAATTGGAATCACTGATTGAAGATATCAATCGGCAGCTGACCATTGTGGAGCATGGTTTTCTGCCCGATTAG
>SRR1151209_01447 ABC transporter permease protein
ATGCTGCGCAGTGATCGCCACGTCGGCTTCCTGCTTCGGGCGAACTTGAAACAGAATCTGAAGTATTCACTGGTTTGGATCGTCATTCTAGAAATGATGGTGGCCAGCGGTGCCTTCAAAATGCAAACGATCATGGAATCCACCGGCAAAGGCGTGCAGGATCTGCTCAACATGCTGAGAATGCCTGGCATGGCCGGGCTGTTCGGGGCGATGCCCAAAGGGGTTGCCTTGAATTCCGCGACCGTCTTTGCCGGCGTCATGATGGTCTTCATGGTCATCCTAGACGCCCTGTATGTCATGCCGCTGATGGTGAAGAACACCCGCGGACAAGAAGAAAGCGGCCTGTTGGAAATGGTCCGGGCCCGCACTGTCGGCCGGACCGCGGCAGTGGCCGCCGCCCTGTGCGAACTGGTCATCGTCAACGTCATTCTGTTCGTACTCTATGTCGGCACCATCGTCAGCCTGAACTTGAAAGGGGCCGATTTCAATGGCACCTTCCTGTTCACTCTCGCCTTGATCGCGGCTAATCTGATGTTTGGCGTCTTCACCCTGCTGATTGCCCAACTGGCCAGCACCGCCCGCGGCGCCAACATGATCGCCTACACCGTCCTCGGTGCGGCATATCTGGTCCGCACGGTGACCGATATCGAAAACACTGATTGGACCTGGCTGTCGCCCATTGGCTGGGCACAAAAAACCAACGCCTATTCCGATAACAATTACTGGCCCGTCCTGCTCATGTTTGGCGTCACCCTGCTCTTAGCAGCCGCCGCCTGGCAATTGGCCAAAAGCCGGGACCTCGGCACCGGTATTTTGCCAGAACGTGCGGGCCGGGCTCGTGCCGCTGGTTATCTGCGCTCTATCCCGGCGCTCCTGTTCCGCACCACCTGGGGCGTTGTCCTCGGCTGGCTGATTGGGGCCGTGGTCGCTGGCGGCATCTTTGGCGGTGTATTGAACAGTGTCGGCGATATTTTGAAAACCAATCCGCTGTACCGCCAAATGATGAGCGTCACCCAGGTCAACGCGGCGAACAAAACCATGGTGCTGTCCTTCCTGGCGCTATATATTCTGTTGTTTGTCGCCTTCGGAGTCGTCGCTGGTGCCCAAGTCGTCTTTCGGCTCAAGGAAGATGAAGACAAGGGTTATCTCGGCGTGATCCATGCCACGAAGCAAACCCGGCAGACCATCAGTCTCAGTTATTACCTGATTGGTCTAGCGGTCTCCCTGGTCGTATTCGTCGTCGGCATCCTGATGGTCTACTACACGGGAAATGCATCTTTGAAAGACCCGCTAGCGGCAGAATACCTGACGCGGATGCTCGTTGCCGGCCTGCCCGCGGTCTTTGCCCTGGTCAGCTTGGCGACTCTTCTAGTCGGCTGGGTGCCGCGACTCAGCGCGGTCTTCTGGGTCTATATGGGCATCGGCCTGCTGGTGCAAATGTTTGGTTCACTGCTCAACCTGCCCAAGGATAGTGGGAAATTCTCACCTTTTGGCTGGCTCAATCAAGCGCCGCTGCATGCTGTGCAAACACCATGGTTAAGCGCCATGATTATCATCACCGTCGTCTTCCTCATCCTGGGTGTAATCGGCTACCGCCAGCGTGACGTCGCATGA
>SRR1151209_01448 ABC transporter ATP-binding protein
ATGGCAACGAATATTATTGAACTCAATCATGTGAAGAAAAACTTCGGCCGGACCCAGGCCTTGAAGGATGTCACCTTCAATCTGCCTGCCGGCCAAGTACTAGGATTTCTCGGTCCCAATGGCGCAGGAAAATCCACCACGATTCGGATCCTGCTGGGGATGCTCAAACGTGACGGCGGCGACGCCACGGTCTTTGGCGAAGATCCGTGGCACAACGATCTGGCGATCCATCCGCGAATCTCGTACGTCCCCGGGGATGTCTATCTGTGGCCCAACCTGTCTGGCGGCGAGATCATTGACCTGCTGCTGCGGCTCAACGGTCAAGACCACAACGCCAAGACCGATGCCCTAATGCAGGAATTTGAATTCGATCCGAAGAAGAAGGCTCGCACCTATTCCAAAGGGAACCGGCAGAAAGTTGCGCTGATCGCTGCCCTATCCCAAGATGCCGAGCTCTACATCTTCGACGAACCGACCTCTGGTCTGGATCCGCTGAACGAACTGACTTTTCAACAGGAAGTATTGAAACTGAAGAAAGCCGGTAAGACCGTGCTGTTATCCAGCCATATTCTGTCGGAAGTCGAAAAAATGTGCGACGCCATCGTCATCATTCGGGAGGGTAAAATCATTGAACAGGGCAACCTGGCCCAGCTGCAGCATTTGTCCCGCCTGCGCATCCAAGTCCAGACGGACAAACCGCTGAGCGCGCTGCAAAAGCAGCCTGGGGTTTATGACTGGCACGAAAGCGATGCCCATACCCAAGCCGACTTCGCGGTGGATCACGATGCGCTGGCCGCGGTCCTGGCCGCCCTGACGCCGCTGGGTGTTGTCGACCTGCAATCGACCCCGCCAACTTTGGAAGATTTGTTCCTGCACTATTACTCCGATCAGGGGGTGAGCCATCATGCTGCGCAGTGA
>SRR1151209_01449 LysR family transcriptional regulator
ATGGAATTACGGGTACTCAGGTACTTCACGGCGGTGGTCACTGAACGCAATATTTCCCGCGCTGCAGAAAGGCTGCATGTTTCGCAACCGACCATTTCCAGACAATTGCAAGACTTGGAAGACGAACTCGGTGTGACGCTATTTAATCGCGGCAGCCGAACGATTGAATTAACGAAGGCCGGGGAGTACTTCGCCGCCCAAGCCCGGCAGATCCTTGCCCTTACAGACAAAACTGTGGCCAACATCCAGCAAGACCAGGGCATCACCGGCGAGGTCTTCATCGGCAGTGCCGAAGCGCCGATGATGGCCACGGTCGCCAAGGCCATTCAAGCGCTGAGCCAAACTGCCCCACAGGTGCAAACCCGCTTGTACAGCACGGATGCCAATGATGTCCGCCGCCGGATGCAAGCTGGCCTTTTGGATTTCGGGGTCGTCATGGAACCCACAGACAAAACCGGCTATCACTTTCTGCAATTGCCCGGAACAACGCAGTGGGGCGTCCTTGTCCGGCGGGATTCAGCCCTAGGGCAAAAGTCAGTCATCACCCCCGCTGATCTCCAAGGCCAGCGGGTGATCATGTCGCAGCAGAAAGGGGCCGCGGCGCTGATTGCTGACTGGCTGGGCACCAGCACGATCCAATACACCACCGTGGCGACGTACAACTTGTTATATAACGCGTCGCTGCTGGCGGCGGCTGGAGTCGGGACGGTGCTGGCTTTGGCCGGCATCATCAACACCGCCGCCACCAACCTGATCTTCGTGCCGCTCAGCCCAACCGTGGCCGTCCACGCTAGCCTGATCTGGTCCCAAGACATGCCCCTCTCCCCGGCTGCCGCAGCATTTCTCGCCGCCATCAAAAAAGATTGA
>SRR1151209_01450 short-chain dehydrogenase/oxidoreductase
ATGATCAAAGATAAAGTTGTTGTCATTACCGGCGCATCCAGCGGGATCGGAGCGGCCACGGCTATGCTGCTGGCGAAAAAGGGTGCCAAAGTCGTGCTTGGGGCCCGACGGGAAGATAAGCTGAAAGAACTCACTGCGGCCATTACGGCGCAGGGCGGGAATGCAGTCTATCAAGTGACCGATGTGACTAAGCCAGCAGACAATGCGGCTCTGGTCCAAAAGGCCAAGGATACCTTCGGCCGAATCGACGTCATGTTCCTCAATGCCGGGCTGATGCCGAATTCGCCGATGAAAGAATTGCAGACGGATCAATGGAATGCAATGGTGGACGTCAATATCAAGGGCGTGTTGAACGGCATTGCTGCAGCTCTGCCCAGTTTCAAAGCGCAAAAATCCGGCCATTTTATTGCCACGTCATCTGTGGCCGGCTTGAAAGCCTATCCCGGCGGGGCAGTATACGGCGCCACCAAGTGGGCCGTGCGGGACTTGATGGAAACGCTGCGGATGGAATGTGCGCAAGACCACGCCAATATCCGCACCGCCACCATTTACCCGGCGGCAATCAAGACAGAATTGCTGAAGACGATCACGGATAAGAGCACCGCGGAAGGTATGCAGCAGCTGTATGATACCTACGAGATCGGTCCGGACCGGGTGGCTAATGTCGTGGCATTTGCCATTGACCAGCCGGCGGACACCAATGTTAATGAGTTCACGATTGGACCGACGAACCAGCCGTGGTAA
>SRR1151209_01451 esterase
ATGAGCACATTTTGGACCCCCACCATGCAAACCTATTACCAGCAACTGCAGAATCTACAAGATTTCAGTACAGTTGACCAGGACCAGGGCGTCACTCGTCTGGACCGGCGAATCACCGCCGCCCCCGACGGACATTTTGACCCGCTGATTGCCGCCTTTGAAGGCCATGACCCGCAGCCGCGTGTCGTTCATATTCAAGCGCCGGCCCACTTTTCACCCCAAAACGACGCCCAGCAGCAGGCTCTGGCGGTGCGTCAAACCATGGGCATTCTAAATGTGAACCTCGCCCCAACGATCACAGAAGAAACACTCTCCACCGCAGTCCCGATTACCGTTTATCAGCGGCCTTATGCCGCTCAGCGCCAATGCCTGATTTTCCTCCACGGCGGCGGTTTTATCGGCGGTTCGGATGCTGTGGTGGCCAATTTCTGTAAAGGTCTTGTGGATCACAGCGATGGCCGGTTGGCAGTATTCAACGTTAATTACCGGTTGGCGCCGGAGGCAACTCTGGACGACATGCAGCGGGATGTTGATTTGGCCGTGCGCTGGGTCCACGACCACGCCGCGGACTACCACGCCCCCGCCGATGCGCTGGCCATTGGCGGCGACAGTGCTGGGGCGACCTTAGCCTTGGAAGCTGCGTACCACGACCGGGTGGTTAACCGCCACTGGCTTACCCATGAGATCCTCATCTATCCGCTCATATCCTTCACTGCCCGGACTGAAGTGTGGCCGCTGGCCAATTACCACGTGGCCCCAACAGACGAGGCGCGCCTAGCCGATCGGTTAACCGGGATGGTCCAGCTGCGTAAAATGCTGATCAATATCTATCCTGGCAACCGTACCCTGCGCGACCCGCTGGTTTCACCCGGGGAAATCTCCGACGATTGGCTGCGCATATTCCCGGAGACCTTGCTGATGACCCCGGAATTTGACTACTTGCGGCCCCAAGGCGAAGCCTTTGCTCGCCACTTAGGCGCTTTGGGCGTCCCAACGACGGACGTCTGCTACCGGGGGATGGACCACGCCTTTATTGATAAATACGGTATCTATCCCCAGGCTGAAGATGCGGCGATGGTGATCAATCATTGGTTAGATATCTCCCAAGGAGGAAAAAATGAAGCCTTTTAA
>SRR1151209_01452 major facilitator superfamily transporter
ATGGCACATCAAAACCGTGACCAGCCGCTCTTCAAGCTGGCGCTGCTCTCATTATCCAGTATTTTAGCCATTGCCCCGTCACTCGGTCCGGCCATCCCGGAGGTGGCCAAGCACCTGCCCGGCGTATCGGCCGCGAACATTGAGATGCTGGTTACCATTCCGAACTTGGGTATCATGATTTTTGTCCTCGTCAGCGGCTTTTTTGCCAGTCATCTCGGCGAAAAACGGATGATCATGTTTGGGCTGCTGGTAGCGACGGTGGCCGGATTGGCACCGCTGGTCACCAATAATTATTTTGTCATCCTCAGTTCCCGCTTCCTGCTCGGTGCAGGTATCGGTTTAGTCAATCCTTTGGCCTACAGCCTGCTCAACATTTTGTACACCAGCAATGAGTCGGCTACACTGCTGGGCTACGCCAACGCCATCACGTCGCTGTGCGGTGCGGTGACTGCGGCGGTGGCCGGTTATCTGGCCTTGATCAACTGGCACGCTACGTTCCTGATTTATCTGCTGGTCTTGCTGCCGCTAGGGCTGTTCGCCTTGGCTATTCCCCGCGACTTCTTGGGGGATACCCAAACACCGGCGGAGAAAGCTGCACCAGTTAAAACTAAAACCTGGGTGGGCTGGCCCGTCTTGCTGCTGGCGGTCGGCCTGTTTCTGTTCTATGCCTTATTGTTTGCGTTATATATCAAGGTGCCGACCGCACTGATTGAAAATCGGATCACCACGCCCGGGGCGGCCGGTTTGATCGTATCCTCATTTACGATTGCCGCGATGGTTGTCAGCCTCGGCTACGGCCAAATTTATCGGCATCTTGGCCACTACACTATCCTGATCAGCATGCTGGGCGTCGGGATCACGATGATACTCCTGGCCGAGAGCCGGACCGCCGGGCTGGATTATCTGATCAGCGCCTGTTCCGGTGTCTTCTTTGCCTCCACCCTGCCTTATGCCTTTATGCTGGGCGCCCAAATTTCGCCGGCGCATGCCGAAAACCTCACGTCGTCAATTCTGCTGATTGGAATCAACCTTGGCGTCTTCTTGTCGCCCTATCTGTTCAACTTAATGAAGCTGATCCACCCTGATCTGAGTGCCAATACCAGTCTCCTAATTGCCGGAATGGGGATCGTTCTTCTCGGGCTGGCCTTCTTCTTTGCCAGCCCCACCGCCAGAAAGGAAGCGCCTGTACAATGA
>SRR1151209_01453 AraC family transcriptional regulator
ATGAAACCAGGCAAGTCGTTGGCTCAGTTTTTCTGGCGGCAAAAGAAAATCTCAACCAGTTATTTTCTATCCTTGATCTTTGTATTTTTGATTCCTTTTGTCATCTTAGCGGTCAGCTTTTTGGTATTTTCCGAAAGCATCCATCAGAACAATCAACAAGCGGTCCACACAAAAACGCTGGATAATGCCACCAGCGAACTCAATGACCAGTTGGACCATCTCCTCATTGCCGCTCAGCAAATCGGCATGGACACAACGATCAGTACCGATGACGTTCATATCGATACCGCGATTGACCTCCAATCCGCACTTGCCCGCTATCAATTGAGCAGTTCCCTCATTGACAAGCTTTTGGTCTTTTACTATCGGGATCCAGCGCAACTGTATTCGTCGGACGGGACATATGATATTGATGCCGCCCTGTATAAATACGGCCTCGCGAACACTGAGAAGATGCCCGGTAAATTTCAAACATTATACACTGACAAACCCTTGGTGCTAGCAGCCAAAGGTGAAGGGCTCAATGGCGATCTCAACATTCTGGTCCCCGCCGCCGGTTCTCTAGGCAGTGCACCCTACGCCACCATTATTTTCCATCTCAACGGCAGTACGATCCAGCACATGCTGGATCAATCCGTCGGTGCGTCTGATCAGCTGCTTGTGCTGGCCCACGATCAGCAAGTCTTAGTCAGTACGGACTATGGCAAACTGAAATTGCGCGATTTAGCCGCCGGAGCGGCCCCCGTCCCGCTGACCCAGCTCACTGCTGCTGCGCGGAAAAACGGTATGCAGACCACCACTGCCAGCGCCACGGGGGATTTCTTCACAGTCACCTCAATTGCCAGCAAAGCACACCTCGCAGCCGTGTTTGGCGACTTTGTCGGCCGCTATTTCTGGATCTTGATTCTTCTAGGCGGCATCGGATTTCTATGTATCCATATCCTTGAGCGGCGCCAATATCAGCTGATCGCCGATATAGAGAAGAAATTCCCCGCACCAGCCACCGCTTCAGCTGGCCTATCGGAACAGGAACAATTACAGCGCACCATCACGACGTATGTTCAGGCCCATCAGACAATCGAGCAGCAGGCCCTGCAGCAACTCCCCTTTGTCCGGGAACAGGTATTTCAATCGCTGCTAACTGGACGGGTCGGTCTACCGGCTGATCTGACAACAAAATTGCAGCTGGCCCAGGTCAGCCTGCCATTTCGTTTTTTTACTGTTGTTCTATTTTCCGCAGCTACAGACGAAACCGTTGATCATATTGGCCAATTCGTCATACACACTAATTTTGCGTACTATGTGACGGCGCCGATTGGCAACAATCAGCGCGCCATCGTGTTAAATCACGGCGAACGGGCCAATAGTCAAGCGCTGCTTTCCGAAATTGTCACTGCAGATGATTGGCAAGGTGTCGCGGCTTTCTACTTAGGCGGTACGGTCGATAGTATCCGCGAAATTCATACTAGTTTTATTCAGGCCGCTTCGTGCCTGCTGACCACTGAACCGACTCCCAATCAGAAATTCTACATCTTCCGACACTTGCCAAAAAAGGCTATGACGCCGGCCTTCTTAGACACGGCCGATCAACTCAAACTGGATACGGGTATGTTAAATGGTAATCCGCAGATGGCACTGGCTGCTTTTGAAGATATATTTGCCGCGGTGCGCACCGCCTTTGACCCAGACATGCAGTTTGACCTCGGCTCAGCCATGCTCATTACCCATATTCTCCAGGCTGATTATCAGATTCATCATCGCCTTAATGAGCCATTATTGCGCAATCTGCTTGCCAACGAATCACTGGCAGATCGGCATTTGATTCTCAATCAGGCCGTCCAAGATATTGCAGAGGCCGCTTTGAGCCAAGAAAAACGAATCACTGCCAATAAAGACGCCAATTTAGAACAGTATATTGTAAGCCACGCCGCTTCTCCTGATTTCTCCTTATCCGAAGTTGCTGATCATTTTGGGCTATCGCTGCCCCATGCCAGCCGATGGGTCAAAGATGTCACCGGGCAAACTTTTACTGCGTATTTGCAGCAATTGCGGTTTGACCGAATCAAAGAAGCGCTGGTTGCCACAGACGCCCCCATCAAAGATATCATTGAACAGAGCGGCTATTACGATTTGGCCAATTTCACTCGTAAGTTTCGCTCAGTCGTCGGTCTGCCCCCTGGCCAATATCGAACCGTAATGCGGCAGAAAGGCCAAGATGCATAA
>SRR1151209_01454 hypothetical protein
ATGGAGATGCCCAAGTCCATCCAGCGGATTTATTGGTTAGGCGAACAGATTCTGCTGGGAATTAAGCTGCAACTCTTATTTCTAATTGGTTTTCTAGCCGGCGGTATTATTTTGGGTTTCTTTCCAGCTCTGACGGCAACAATGAAAATCTTATTGCGCCGATTTTCTGAACCTGCGCGTGACAATCCCCGCCAAAACCAGCTCAACCCGTTATGGCACGAATATTGGACGTATTACCGGCATGTGTTTTGGCAAGTCAATGGCATTTCGGCCATGACTGTCGCTGTGACCGCCATCATCGTGCTCGACTTCGCCGTCAACCGCTTATATTTGAAATCGGCAGTAATTCAATTTGTTCTGGTTGTTCTAAGCGTGCTCGGTTTGTTGTTCTGGATTTACCTTTATCCCGTCTATAATCGATATCAGCTCACTTTTTGGCAATATTTCCGGCAAACCGCCATCATCGCATTGTCGAATATCCGCTATTCTCTGGCCACTTTTGCGGCATTATCTGGCGCCACGGCTATTTTTACCCTGTTTCCGGCATTGTTGACTTTGGCTATCGTGCCACTTTACCTGACACCCATTGTTTGGTTCATCTATCAGGCCTGTGCCCACGTCGAAATGAAAGTCAACTATGCTGGCGGCGGTGATCCGCAATGA
>SRR1151209_01455 endo-beta-N-acetylglucosaminidase F2 precursor
TTGAACAAAGGACAGCCGATCTTGGCCGCTTATTACCGTTCCTGGCGGGATAAATTTTCGAATTCCGCCAATCCAAACTACTTTTCCGATCTGCCCCCGGCAGTGGACATTGCGATTATCTTTCCCAATGACGAAGTTCAACCCGCCTTTTGGGCCCACTTGCCCGCGGAAGTCGACACGTTAATCGCTAAGGGCACCACCGTATTGCGTACGCTGTTCGTAGATGCCTTGCTGCAGCCGCACTTTCAGTTAGCAGAAGATGCAGCCCCGCTGCTCCCCTTCACTGAAAACGATGCGGGTTACGCCGCCCGGGCTCAGGAAATCCTGACCCGGTACGCGGCTCTGCCTGGCATTACTGGCCTTGTCATTGATGTTGACCACCCGCTCAGCGCCTCAGAAGTCCATCGGGCAGCTGGGGTCTGGCGGGCTTTAGCCGCTCGGTTGCACGATCAAAAGACTGGTGGCGGTATGCTGGTCTTTGACCATGATATCTTGACCGACTTTTCGCCCCTCTTTCCAGCCGTGGCGCCATTCACCGATTATGTCTTCGTGGATTGCTACGGATTGAGCCTCGCTGATGTTGAGCGCCGCTGGGCCGATTATGCTCCGTATATTGCCCCCCAGCAGTTCATACCCGGATTCTCGTTTTATGAAGAACGGGGCGAATACTGGCATGATATCTCTGGTCAGCTCGCCGGCAGCCATGCAGCAGATTTGATTAAGTGGCAGCCGATGGGCGGCACGAAGGGCGGCCTGTTTGCTTACGCCGCCGACCGTGACGGCATTACTGAAGGCAATGATACCTTACAGTACACGGATTTTAATCAATTGAAGAGCGTCAAGTCATTACTTCTGCAAAACACGCAACAATAA
>SRR1151209_01456 ABC transporter permease protein
ATGGCGAAGGAACTCAGTCCCGCACCGCTTCCGATTACTAATCGGCGGTTGCAGAAGAAGCACTCATTTAAAACGCTGAAAGAAAAATGGCAATTGTACGCGTTGATTCTGCCAGCATTTCTGTTTCTCGCAATCTTCGCTTATGGACCGATGTACGGTGTGCTCATTGCATTTAAGAACTATATTCCATCATTAGGTATTTGGGGCAGCCCATGGGTGGGCTTCAAATATTTCCAGCAGTTTTTCAGTTCCTACTATTTCTGGGACTTATTACGCAACACCCTGGGGATCCAGGTTTACGAATTGGCCATCGGCTTCCCGTTACCCATTATTCTGGCATTAGCCATTAACGAATTGAAAACGGGGTGGTGGAAAAAGTTTACTCAAACAGTGACCTACGCCCCCAATTTTATTTCAGTCGTGGTTATGGGCGGCATGCTCATTGCCTTCCTGGATCCCTCAACGGGGATTATCAACCACTTGTTGGGCGTCATCGGCATTAAGCCGGTCTCTTTTATGAGTGATCCTCGATGGTTCAAGACGGTGTACGTCCTTTCCGATGTGTGGCAGCAAACTGGCTGGGGATCGATCATTTATTTGGCTGCGTTGGCCGGAGTGGATCCCGCCCTGCATGAAGCCGCTATTGTTGATGGGGCGTCTCGTCTGCAACGCATCTGGCATATCGATTTGCCGGCCATCGTACCAACCATGGTCATTCTTCTCATTCTGAATGTCGGCAATCTGTTCTCCATGGGATATGAAAAGATTTTGCTGCTGCAAAATCCGTTGAACCTTTCTTCTTCCAATGTCATTGCGACATTCGTTTACAACCAGGGCTTGATCAACGGTGAGTACAGCTACGCAGCAGCGGTTGGCTTGTTTAACTCGGCAATTAACGCGATTTTGCTGATTGTCGTCAACCACATTGCTCGCAAAGTTTCGGATACCAGTCTGTGGTAA
>SRR1151209_01457 sugar ABC transporter permease protein
ATGCATACGTCAAAATTGATTAAGGATACCCCGACCGACCGCATCTTTCTGTTCGTTCTGTATATTTTCATTGGCCTCGCTGTGTTGATCGTCCTGTATCCCTTGATTTATATCATCAGTGCCTCCGTGAGCAGTCCGTTGGCGGTTAACTCCGGCAAGATGTGGCTGTGGCCAGTCGGCTTCAATCTCGATGGGTACAAAGTCATTCTGCAATATGGTGATATCTGGCGCGGCTATATGATGACCATTTTCTACACGATCAGCGGCACCATGGTCAGCCTGTTCATCACTATTCCTTGTGCCTATGCCATTTCCCGCCGGGACTTTGCCGGTAAGAAGTGGTTCACCAATTTTATGCTGATTACGATGTTTCTCAGTGGCGGATTGATTCCAACCTACCTACTGGTCCGCAATCTAGGCATGCTCAACACGGTTTGGGCGATCATCATTCCTAATGCAGTGTCAGTCTATAACATCATCGTGACGAAGTCGTTCTTCCAATCCACCATTCCTTGGGAGATGCAAGAAGCGGCCAAGGTGGATGGCGCTAGTGATTTTCAGATTTTCTTCCGCATCGTCCTGCCATTATCGGCTCCTATTATTGCTGTCATGGCCCTGTTCTATGGGGTAGGGCAGTGGAATGATTATTTCAACTCGTTGGTGTATTTGCAAAACAAGAACTTATACCCGTTGCAGATGGTGTTGCGGCAGATCCTGGTCTTACAGGACATGCAGCAGGGCTCAGCCACGGGCTCAACGATTTCGCAAAGCGCGGCCCAAGCGGCGTTCAGTAAGGAACAGTTGGTGGCGGTCATTAAGTATGGTGTCATGATCGTGTCGTCATTGCCCGTCATTATGGTGTACCCGTTATTGCAACGGTATTTTGTCAAAGGTGTTCTGATCGGTTCTCTGAAAGGATAG
>SRR1151209_01458 beta-N-acetylhexosaminidase
ATGGAAAAGAAAAAAATTGGCCGCCATGTGCTGGCCGGTTTGCCTGGACTAACAGTGGACGACCACACCCGGCAGCTCATTCAAGAGTGGCATATTGCTGGCGTGGTACTGTTTGCCCGAAATTTCAAGGACGCCGCGCAATTCCAAGCGTTGACCACTGAATTGCAGCTCATTGCGCAAGCGGCTGGCTATACCCAACCATTGCTCATTGCGCTGGACCAAGAAAATGGTGTGATTCGTCGTATCAACCGGGATGCCAGCCTGTTTCCCGGTGCGATGACCATTGCGGCCACCGGTGAACCGGCCAATGCTTATCGGATGTATCGCGCATCCGCGTTAGAATTACGGGCCCTGGGGGTCAACTGGAATCTGGCCCCGGATGCGGATGTGAATACCAACCCGGCCAATCCGGTGATCGGGGTCCGCTCTTTCGGCGCCGACCCCCACCGAGTCGCCGCCTATGTCCAACAAGCGGTCCGGGGCATCCAATCGGCGGGGGTGCTGGCGACTTTGAAACATTTCCCAGGGCATGGGGATACAAGTGTCGATTCCCATCTTGGCTTGCCCGTCGTCGATAAGTCCTTGGCTGAATTGCTGGCCACGGAGCTGGTGCCGTTCCGAGCGGCCAGCAAGAAGTCGGCCAGCATCATGCTGGCCCATATTCTGCTGCCCCAATTAGGGAATGACCGATTACCGGCCAGCCTGTCGCCAATCGTGATTCAAGATGTGCTGCGGCGGCAGCTCGGATATCGCGGCGTAATCGTCACTGATGATTTAGAAATGCAGGGCGTCCAATCCGTCATGGCCCCCCCCGCAGCCGCTTACCAGGCCTTGCACGCCGGGGCAGACCTGGTCATGATCAGTCATACAGCGGCCTTGCAGACGGCGACGCTGGAGTATCTGGCTGCGCACCAAGCCGAGCTGTCCTTGGACGCCAGTGCAGACCGCATCGCAACTATGATCCAAACTATTGGTGAGCCGCCAGCCATTTCCTTGACCACATTGCGCCAGCGGCACGGGGAGGCCATCCATGACGTGTACCGTCAGGCGGTCACCGTTGGGCAGGAAGCAGCACCAGCAGTAGTGTCAACGCTCCGCACCGCTCAGCATATCGTCCTGGTCACCAACCAAATTACTGAATCAAAAGTGGTCGATTTCACCCAGCGGCCGAATCTGCGCGGCACATTCCGGGCAGTTTTCCCCAAAGTTGACGAGTATCAGCTGGTACCAGGGGACACAGAGAAAATTTTAGCCGCCGCCAATGCCGCCGATGCCGTTTTTCTCCTCACCCAAAACATTCAAAATAGCAATAACGATATGGTCCGCTGGGCAAAACAACTGCCGGCCGCTGCCTGCCGAAAAACGATTGGCATCAGCGTACGCAATCCTTACGACCAAGTGCATATGCCCCGGTTAGCCGGATATTACGCGCTCTACGAACCCGCTCCGATTGAAATCGCGGTCCTGCTCAGCCACTGGTTCACCGGCCAACCCTTGTCGGGTCAATTACCCGTGACCCTCGCGCCGTGA
>SRR1151209_01459 chorismate synthase
TTGCAGTATTTAACAGCCGGGGAATCCCACGGACCAATGCTCACCGGTATTCTTACCGGCATGCCGGCCAATGTCGCGCTGAATATTTCTGCCATCAATCAGCAATTAGCCCTACGCCAAAACGGCTACGGCCGGGGCGGACGGATGAAAATTGAACAGGATACCGTCACAATCACCGCCGGGATGCGTGCTGGGAGAACCACCGGCAGCCCCTTAGCACTGCTCATCAAAAACCGGGACTATGCCCATTGGCAAAAAATCATGGGCGCAACTGCTGACAATCCCGATCAGTTGCGGGTCGTGACCCGACCGCGGCCGGGGCATGCCGATTTAGTAGGCGGTCTGAAGTATGATCAACAGGATCTGCGCAATATCTTAGAACGTGCCAGTGCCCGCAGCACAGCGATGATCGTGGCGTTGGGCAGTATTGCCGGACAATTGCTGGCTCAGCTGGGAATTCACGCGATCGGTTACGTCACTGGATTAGGCGGCCAGACTCTCGCAGATACGGAATGGCCAACAAACATGGCAACACTGCGCGCGGTTGTGGAGAGCAACGATATGCGGCTGCCGGATACCAGCCAAGTGGCGGCGTTCCATGGGGCTGTGGACGCGGCTAAAGCAGCCCACCATACGATTGGCGGGCAGATCACGGTCCAAGTGGCCGGATTGATCCCCGGTATTGGATCAATGCAGAATTGGCGGGAACGGCTGGATGGCCGCTTGGCCGGAGCGATCGTCAGCATCCCCGCCATCAAGGCGGTGAGTTTCGGCGACGGCCCAGCCTTAGGCGAGATGGCCGGCAATGCCGCCCAGGATGATATCACCTGGACCCCGCAAGGCGGCTACACGCGGGCATCCAATCATCTCGGCGGCTTTGAAGGCGGTATGACCAACGGCCAGCCGCTGCTGATTCACGCCACGATGAAGCCGATTCCCACCCAGCCGCGGGGCTTGCCGACAGTGGATATTGCGACCCATGAAACCGCCCAAGCCGTTAATGAACGGGCGGATGTAACGGCCGTGCCGGCGGCGAGTTTGGTCGCCCAGGCGTTGGTTCAGCTGACGTTAGCCCAAGAAATCACCGCGCAATTCAGCAGTGCCACATTGGCCGATTTGCGCTCTAGTTATCAGCAGTTTGCCCAGCGTATGCAGGATCGGAGGAATGACTAA
>SRR1151209_01460 3-phosphoshikimate 1-carboxyvinyltransferase
ATGGATCATACAATACAAGGATCACTGCGGCTGCCGGGGGATAAAAGTATTGCCCACCGGGCGCTGATGATCGGCGCCATCGCCCAGGGCGATACGACCATTGACCACCTGCCGGATGGCGGCGATGTGGAAACGACCATTGATGTACTGGCGGCACTGGGGGTAACCAGTGAACGCAGCGGCCAGCACATTACTGTCCACGGGTTAGGGGGCTTTCACTGGCAGACTCCAGCCAATGCCCTAGCGATGAACAATTCGGGGACAACGACCCGGCTGATGCTCGGGTTGTTGGCCTGCCCGCCAGCGCCGCTGCTGCTCACGGGGGACGCTTCCTTGAGCCAGCGGCCCATGGCCCGGATCACCGACCCGTTGCGCTTGATGGGGGCCCAAATGGCCACCACTGAGGGACATTTGCCTATTCGCATTCATCCCGTGCGGACCTTGCACGGAGCCGATATCCAATTAACAGTTGCCAGTGCCCAGGTAAAATCCGGTATCCTATTCGCCGGTCTTCAGGCCACCGGCGATACCACCGTTACGGGCCCGGTGCATACCCGGGATCACACGGAACGGCTGCTGCAAAAGGCAGGCGCCGACATTTCACGGACAGGCCTCACGGTACACATCAAACCGTTGCAGGCCCCCTTGCAGCCATTGCAGATTGATCTGGCCAGTGATTTCTCCACGGCGGCGTTCTGGATCGTCTTGGCGACACTGCTGTCAGATAGTCAACTGCAATTGCCCGGGCTCTCCCTGAATCCCACTCGAACGACGCTGCTCGATATTTTGGCGCGCATGAATGGCGACTTTCAAGTGGTTGATTTTCCCCAAGCCGCTGCGGCTGAACCAATGGGGACATTGCAGGTCAACAGTGCCAAGCTGACCAGCACCACCGTTGATGCGGCAGAAAGTGCCCGGGCCATTGATGAATTGCCTTTATTGGCCCTGGCCGCGACCCAAGCAGCGGGCCGCACGGTGATCCATCATATTGACGAATTGGCCGTGAAAGAATCAGACCGGCGGGCGGCCACCGAAAGCATTTTGCGCTCATGCGGCGCGACCATTGACCGTCAGGGGGACAGTTGGGTCGTCCCGGGTCCGGTGGTCCTGCACGCACCCGACCAATGGCCGGATTTGCCGGCGGATCACCGGATGGCGATGCTGCAAATTGCCGCTGCTCTGGTGGCAGGCGCACCGGTGCCAACCACCGTGCCGCCTGTTGTCGCCGTCTCCTATCCTGAATTGACCTATGACCTGACGAAGCTGGTGACCTCGAGATGA
>SRR1151209_01461 shikimate kinase
ATGATGCAGCAGCTGGTTCTGATCGGCTTCATGGGCGCGGGAAAAACAACGCTCAGTCAAGCGCTGGGGGCGGCCACCGGATGGCCGGTGTATGACACCGATGACTTGGTTGTGACCGCCGCCCACCGCTCAATCAATACGATTTTTGCCCAAGAAGGGGAGACTGGTTTCCGCCAACGGGAACATGCTGCCCTGGAAACCGCTTTGACCCATACCCCGGGCATCATTGCCACCGGCGGCGGAATCATTACCCAAGCCGCTAATCGGGCCTTGCTGGCCGCATTAGACATTCCCGTCGTGTTGCTCACCGTGACCCCGGCAGAAATTAATCGCCGCCTAGCCGGCACGACCGACCGGCCGCTATTCAAAAAAGATTGGCCGGACCTATTGCAGGACCGTCAGCCATGGTATGAAACCAGTGCCAACCGCATTCTGCCGACAACCGGTCGACAAGTTGCCGATTTGGTCAATGAGCTTCAACACTTGTTAGTTGAGGAGGGCGCGGCGAATGACTGA
>SRR1151209_01462 diamine acetyltransferase
ATGACTGAGCAGCCCCAATTTCGAATCACCCCCGTAGACGGCCATAATCTGTGGCCGGTCCTCAAATTGAAAGTCGCCCCGGAACAAACTCAGTTTATTGAGACCAACGCGCAATCCTTAGCGGAAGCTGGATTTGATAAACGCTTCGATTGGCACCCCTATGCATTGATGGTGGCTGACACCGTCGTCGGCTTCGCCATGATTGGCGCGCTCAATACTGAGGAGCGATACATTTGGCTGGATCGGCTCATGCTTGATGCACAGTATCAGCATCACGGGTGGGGCGGAACGTTTTTAGAACTGTTGAAGGCCTTTATTATGACCAACTGGCCTGTCGATACAATTGTTTTGAGTTACGAACGTGAGAATACGGAGGCCGAACGATTCTATTTTCAGCATGGCTTCCGCGATCTGCACCGAGTGGACGATAATAACGGGGAGAAAATGGCGGTTTTTGGCAAATAA
>SRR1151209_01463 histidinol phosphatase
ATGCCGCTTTACGATCAGCACATGCATACCCAGTATTCTTTTGATTCTGAGGCCCAGTTGAGGGACTATTTGGCGCAAACTGCGGGGCCGGTCATTACGACGGAACACTTAGAATTCGCCAATCCGGACGACGACGGCCGGGATGATATCCCGGACTATGCGGCCATGCGGGCAACGCAGCAGAAACTAAGCCGGAAATTCCCCAACCGCTTGTTACTCGGCATCGAGGCGGGATATTACGCGCCCGCCGTCAATCAGTTGCGGGCGTATTTGGCTGCCCACCCCTTCGATCTGACCTTGCTGAGTTTTCACCATGACGGCCAGCATGATTTTCAGGACGCGTATTTTCAAACGATTCCTTTACACGCCCACGTACTCACGTATTACCAGCGGATGCTGGCCGGGCTGCAGGATTTCCACGACGCCGATGTATTCGCCCACTTTGACTATGGGCTGCGGATCGTGGATGTAACGCCGGCGCAACTGACAGCCTGGGCGAAGCCAGTGCTGGATCAGATCTTTGCGCTGATCCTGCAAAACGGTCTGGCCTTTGAAGTGAACACCAAATCAATGTTCAAATGGCACAATGCGGCTCTCTATGATCTGGTCATTCCCTGGTATCAGGCCGCCGGGGGCCGGTTATTCACAATCGGCAGCGATGCCCATGAAAAAGAAAGCTACCGCAACCATTTTGCGGAGGCGGTGGCATTGCTGCAGGACCACCATGTGGACCAGATCGCGACGTATACTCAGCATCAGCCGACCATGGTTGCCATTTAA
>SRR1151209_01464 cyclic nucleotide-binding protein
TTGACTGAACAAAAAGTTGAACGTGCCGTTCGCTGTCTGGTAGATCAAAAACCTTTTGACTTAGCAGACGGTGTGTTCCTAGGAGACTTGGAAGGTCCTCTCAGGGCGTTGATTCGTCGGGACTTCCCAAAGGCGACAAACCAAGACTTTATTTGTAGTGAGCATTTGGTCCATTATCGGTTACTGAAAATGGATCAGATGATTGCGAAGGACTATGATCAAAACCACAAGCTGAATAAGAAGTTGACCCGGGTTATGCAACGGGATACTTACAATGTGGTGGATGTCCGTGAGCAATTGGAAAACTCGCTTACATTTGGTCAGCGTGTTGCGGATGCTGTTGCGCACTTCGGGGGCAGTTGGCCGTTTATCATCACCTTCGTGTCCATCATGGTCGTGTGGATTCTTGTGAACGGATTGCATCTGTTCGGTGTCCATTTTGATTCGTTTCCGTTCATCCTGCTCAACCTGTTCTTGAGTATGGTGGCCGCGATTCAAGCACCATTGATCATGATGAGCCAGAATCGGTCCGGTGAATATGACCGCATGGAATCACGCAACGATTACCATGTGAATCTGAAGTCAGAAGAAGAAATTCGGATGCTTCACTCCAAGATCGATCACATTATTCAAGAAGATACACCCAATCAAATGCAAATTGCGAAAATTCAAATGCAGATGCTGGGTTCCATCGAGTCCCAAGTCGCTGAACTGCGCCGGTTGCAAACCGAGCTGGAAGCGACTGCGCGGGCGGATATGCCGGTGGATCCAGAATCTGGAAACCAAGGACATAAGTAA
>SRR1151209_01465 dipeptidase
ATGACAACAAAAGAAAATCAATTATGGCGAGCCTGCACCAGTATTCTGGTGGGTAAAAATGCCAGCGCCGACGGGTCCGTAATCATCGGCCGCAACGAAGACAGCAAACCGGCCTGGCCCAAGCATTTTCGGCAAATGGCGGCGCCCATGCCCTACACCTTCACGTCCAAGGATACCGGCTTCACCATCAAATTAACCGAACCCGGGGTCCGCTACACGGCAACGCCGGAATGGACAGCGGAATACGGCGTCTTTGCCGAAGATGGGATCAACGGTTACGGAGTCGCCATGAGTGCGACCGAAAGTGCCTATGCCAATCCCCGGGTGCTGGCGTATGACCCGCTGAACCCCAAGGGTATTGGTGAGGAAGCCATGATCACCGTGGTTCTGCCCTACATTCATTCCGCCCGGGAAGGTGTCACGCGCCTGGGCCAAATCGTCAGCCAATACGGTACCAGTGAAAGCAACGGGATTCTCTTCGCTGATCAGCAGGAAGCTTGGTATTTGGAAACCGGCTCTGGTCATCATTGGGTCGCCCAGCGCATTCCCGACGATGCGTATGCGGTGGTCGCTAATGAACTCAGTATTGAAGCCATTGACTTTGCCGATACGGATAACTTCATTGTGTCTGATGGCATCGCTCAATTTGCCGCTGACCATCACTTGTGGCGTGAAAACACCCCCTTCATCTTCCGGGACATTTTCGGCACCAATAATGCGGCTGATGCCGTTTATAACTGGCCCCGGGTCGTTGCCGGCCAGCAATTGCTGACACCAAGTGCTGGCGCCCAATTCGGTCAAACCAATTTGCCTTTCCTGCGCCGACCGGATCGGCCAATCCAAATCGACGATGCGATGCGCGTCCTGGCCAACCACTACGAGCAGACGCCTTATGACCCGGCCACAAAGAGTTCGGATGCCCACAAGTACCGGCCCATCAGCCTGGCCAACACCCAAGAGTCGCATCTGCTGCAGTTGCGGCCCAACGTAGACAACAGCATTGCCGGAATTCATTGGTTGGCGATGGGTGTCGCTGCTGAAAGTATCTATGTCCCCTTCTATGCTGGCATTACCGACACACCGGCCGACTATCAAAAGGGCGCCCTGCCCTACAGTGCTGATTCAGCGTACTGGCGCTACAAGCTGCTGGGCATCCTCGCCGACCGCGATTTTGGCCGCCATAAGAAAGCTCTTGGCGACTTGCAGGACGCACTGCTGGCCAAGCACCTTGGGCTGATTGCCGCGACGGATCAACAGCTTGCAGAAGCTGCCGACGTCCGGGCTCTGGTGACGACAGCAAGCAATGAAGCTGCCCAGATTGCCCGGGAGGCAACGGATCAATTGATTGCCGAGCTGATTACTGAGGCGACCAAGGTATCGCCGCTGCGGTTTCAAGTTGATCCGAATTTGTAA
>SRR1151209_01466 4-oxalocrotonate tautomerase
ATGCCCTTAGTGCATATCGACCTGCTTGCTGGCCGGTCAGAAGACCAGCTGCATCAACTGGTCAAAGACGTGACCGCCGCCATCGTGAAGAACACCGGCGCACCGGCTGAACATGTCCACATCGTCCTGAACGAAATGGCGAATAATCGTTATTCCGTCGGCGGCGTGATGAAAGACGAAGACCAGTAA
>SRR1151209_01467 haloacid dehalogenase
TTGTCAAGAAAATTGATTGCGCTAGACCTGGATGGAACTACCCTGAACGAAGCGTCCCAGATTAGTGAGCGCACGCGGCAAGTGCTGCAAGCGGCGGATGCGGCCGGCCATATCGTGACCATTGCCACCGGCCGGCCTAACGCCGTGAGTGTCCAATATTACGATGCGTTGGGTCTCAGTACCCCGATGATCAACTTCAATGGTGCCTTGGTCCATATTCCCCATCAGCACTGGGCGGGCGAATACGAGCGGCGCCTGCCCCAACAGGCGGTGGGAGAAATTCTCGCCATGCGCGACCGGTATCACATCGGATTGGTCGCGGCTGAAGGCAAGAACATGATGCTGGTGGATACGGATGATCCCTCCTTGCTGGACAGTATGCCGATCTCGGTGGCCGAAAGCCGGCCATTGTCGGCGGCTTCCCTGCCGGCTGCACCCACCTCATTGATGGTCGTCATTCCCACGCAGGCGGGGGTTGATATGGCCGCCGAGATCATGGCCGATTTTCCCAGTGTGAACGTCAATACCTGGGGCGGGCCGGAGAATCGGGATCTCAGCGTACTGGAAATTATCCATGCTGGTGTGGAAAAGACCACAGGCATCAACTATTTAGCAGAACGGTACCACATTCCCCATGAAGATATCATGGCCTTTGGCGATCAGTTTAATGACCTGGACATGCTGCGCCATGCCGGCTGGGGTGTCGCCATGGCGAATGGCACCGATGCGGTCAAAGCCGTGGCCAACGATGTGACCCCATTGACCAATGAGGAAGACGGCATGGCGAATTATTTAGCCGACTACCTGCACCTGCATGTGGATGCTTTGCTGGCTCAAAAAAATGCCTAA
>SRR1151209_01468 RpiR family transcriptional regulator
ATGGCGGCGAATATGTTGCTGGCGATCCAAGAACGGCTGCCCGATTTCAGCGGGGCCGAACGTGCAGTGGGGAAGTATGTGCTGGCCCATCCAGAAAAGGTATTGCAAATGAACACCAAGGCCCTGGCCCAAGCGGCCGGGGCCAGTCCGGCCACCGTGGTCCGTTTTGCCCGGCGGATGGGGACCGCAGGATATGCTGATTTTAAAATTCAATTATCCGCCGAACAGCACACCGATCCGTTGCTGCTGCAAGAGATCACGCCCCATGAGGATCTGGCTATGATGAAGGATAAGCTGTCATTACGGATTCGCCAGACGCTCACGGATACCAACCAATCGCTGGCCAATGACCAAGTGGACGCGGCTGTCGCCCAATTGGCCGCTAGTCAAAGCATGAGTGTTTACGGAATTGGGGCATCGCTGTTGGCAGCGACAGACTTTGTGCAGAAATTTTCCCGGCTGGGCCTGGCCCCTTTTCTGGGGCGGGATATTGATGAAGTGATCGCCCATCTCGTGAACCAACCGGCGCCGGGCGTCGTTGTGCTGATTTCCAACAGTGGGGAAAATCCCAACGTGGTGACGATTGCTAAAAGTGTGCCGGCAGGGCTGACCACGATCGTCTTGACTAAAGCCCCCAAGAGTACGCTGGCGAAAATGGCAGACATCGTGCTGGTCACACAGCCCACGTCGATTACCGGACAAATGCGCACCGCCGCCACCACCAGTTTAATGGCCCAGCTCTACGCCATTGATTTAGTGTATTACCGGTATTTCCAGCGGCGCTACAAAGACCACGTCCAGCGCATTCAAACCTCGTTTGAGACGCTGCACCGGGTCCAACCTCGCCGGCATTGA
>SRR1151209_01469 membrane protein
ATGCTTGGTATTTCTGCGTATCCGAAAGATATTGATCCTGATTATTTAAAGCAGGCGGCGGCCGCGGGGGTCCGTGAGGTATTCACCTCGCTGCAAATCCCTGAAGACACCCCGACGGAATTCACCCAGGGACTGCGCACGTTGCAGCAGGCCGTCCATGCCCTGGACCTCAACGTCATCGTGGATATTTCCCCGGCCACGTTCAAAAAGCTGGGGCTGGCTGACAATGATTTCAATGGCATTTATGCTCAGGGTTTCCATTCCTTGCGGCTGGATTACGGCTTTGATGACCCGGCCTTGATCCGCAAATTGCAAAAGCACTTCACAGTCGTGCTCAACGCCTCCACCGTGCAAGTTGATTTTCTCAACGCCTTGCAAGTTGAGGGGGTAGATTTGCGCAAGCTGGTTGTCGCCCATAATTTCTATCCAAAACCGGACACAGGGCTGACAGCGGCATATTTTGCGGAAAAGAACAAGCTGTTCCAAGAGTGGGAAATTCCATTGCTGGCCTTCATCCCCGGCGATGGTTTGAAGCGGTATCCGGTCTATGCTGGGGTACCCACATTGGAACATCAGCGGGGCTTCAACTCTTACGCGGCATACTTAGAAATGGCCCTGCGTTATGGCGTCGAGTGGATCTATGTGGGGGACAGCCAGTTAACCGCTCAAAGCCTGGCATGGATCCAACGGTTCAGCCAAGACGGCGTGATCACCTTGCCGGTGGCGGGGACGACCCAGCTGCCCAGCGACCCGCTGAAGGTTCGGCGGGAAGTGAGTCCGGGAATGGTCCGGATCCAAACGCCGCGCCAGGCGACCCCGGTTGGCCCAGTGTTAGATCGGCCAGCGGGGACCGTCACGATTGAGAACGATCTGGCAGGCCGATACCACGGCGAAATTGATATTGCCAAAACAGACCTGCCGTTTTCACCCACCAGCAATTATTTGGGGACGATCCCGGCACCTTTCTTACCGTTACTGCCGCTGCTTGACGGGCAGCACCCGGTGCAATTTACCGCTTTGTGA
>SRR1151209_01470 hypothetical protein
ATGGCAGAAGAGAAACCGAACAAGGAAACGGAAGCATTAGACGACCGAATCCTCACTGCACTGGAGGACGTCATCGATCCGGAATTGGGGATCGATATCGTCAATCTGGGATTGATCTACCACGTGGACGTGGACGACGACAACAACTGCGAAATTCAGATGACCCTGACGACCATGGGCTGTCCGTTGTCGGACATGCTCTACGACGCAATCGTGGACACGGTGGAGAAGAAGGTGCCGGAAGTGAAGGACGTGGACGTGCAATTAGTTTGGTATCCGCAATGGACTCCGGAACTCATGAGCCGTTACGCCCGAATCGCTTTGGGGATTAGTCAGTAA
>SRR1151209_01471 oligopeptide ABC transporter substrate-binding protein
ATGATGAGTTTGAAGAAATGGGTTGTCCTGAGTGCGGCGGGGAGTGCGCTGCTCTTGGCTGGGTGCCAGAATGCCAAAGCCGATAACACCAATGCCGCCGGGGCAACGTGGTCCCGGATGGAAAAGGACAATATCACGAGTATGGATCCATCCAAGGCAGTGGATGGGATTTCGGCCCAGGCGATTACGGATACGATGGAGGGATTGTATCGCTACGGCGGGACGGATCTGCAACCGGGCCTGGCCAAAAGTATTGTCAAGCCGACGCATCAGGGCACCGTTTATACCTTCAAACTGCGTTCCGCAAAGTGGAGCAACGGTGATCCAGTGACCGCCCAGGACTTCGTTTACGGCTGGCGGCGAACGATCGATCCGAAAACGAAGTCTCAATACACTTATTTGTACACGGGAATCAAGAACGCGGATGCCATTATGGCCGGCAAGAAAAAGCCGGCGACGCTGGGTGTGAAGGCCCTGGATCAGCACACTTTTCAAGTGACATTGGACCATCCGATTCCGTATTTCAATACCATGCTGGCCAGTTTCTTCTTCTATCCAGAAAACGCGAAAGTAATCGCCAAATATGGCAAACAGTATGGGACAAAAGCCAGCACTCTGGTCAGCAACGGCCCCTACATTCTGAAGAACTGGAACGGCTCCAGTACCAGCTGGCAGGAAGTTAAGAATCCAACTTACTGGAACGCTAAAAAAGTGCACATCAAACAGATCAATGTAACGGCGATCAAGGATGCATCCACGGCGATGAATCTCTTCCAATCCGGCAAACTGGATGACGCCATTATTTCCGGCGATCAAGCCGCCCAGGCAAAGGCAATGCCGGATTACAAAGGGCTGAAACAGACCGCGACCACGTATCTCCAACTGAACGAAAAGACCGAACCGGCCTTCAAGAACACCAAGATCCGCCAAGCCATTTCCCATGCCCTGGACCGAGACGAATTTATTAAGAAAGTCCTGCAAAACGGTTCAGTTGCCGCCACCGGCTTTACACCAATCGGTTTGGCCAAGGACCCGACTACCGGCAAGGACTTCAATCAAGAAGCTGCGGCCACCACAAAACAGTACTCGACCCACGATACAGCGTTGGCGAAGAAATTGTGGACTGACGGGTTAGCCGAAACCGGCAAAAAGAGTATTACCACCACATTACTGGTGGGAGACGGCACCAGTGACAAAAAGACGGCCGAGTATATCCAAAATGCGCTGGAAACAGCGCTGCCCGGGATGCATGTCAACGTCAGCGCAGTGCCCGCCAAGACCAAGCAGGACCGGGAATTTTCCGGCGATTTCGGTATGGATCTAAGCGGCTGGATCGCAGATTTCCCGGATCCCATCACTTTTTTGGATTGTATGACCAGCGACAACACGTATAACCAGGGGAAATGGAGCAATGCGCAATACGACAAACTGATCAAAGAAAGCAAGACCACGTATGCAACCCAACCGGCGAAGCGGTGGCAGGTCTTGCTCCAAGCGCAGAAGCTGTTGACTCAGGAACAGGGGATGATTCCGTTGTATCAGACGGTGGAGGCCCATCTGGTGAACAAGAAGATTTCTGGGATGACCTATGGACCGACGAATTACTATAATTTTGTCGGGGCGAAGATCAAATAG
>SRR1151209_01472 hypothetical protein
ATGAAAATGAAAAAATTGCTGCTGACAGTGGCGGCGGTAGTGTTCTCTGGATTAGTCGCAACCGCCTGCCAACCGGGCAATCCAGACACATCTTCGGCCAATATCAGTGCCACCGTTTTTAGCGGGGTGCTGACCACAATCGCCGGCCAGAATGGCCATGGCACTGCCGGCATTGACGAGCAGCGTCTGTATCGCAACATTGCTGAATTATCGGCGAAGAAGCAAGGCTTAGCAAAAACCGTGTTGACCGACGTGATCAACCACAGCGGGTCAGTCATTCGCGGCGGATTAAAAATCGCAAACTATCGGCCAACTAAATCACTCACCAAGGCGCAACGCGACGCCTTATCCAGAGTAAACCGAGAAATCAAAAGTATCCGGATAATCGAAAGTTTGACGACAAAGGCGGGCAAGCGGGTTAAAAACGGCGCCCTGCACAATGGCGACAAATATGTCGTGACGGTCAAGAATACCTATTCGCAGGGAGCGTTTAAAGAAGCGGCGCAACATGTTGTCGTGAGTCGTTTAACCCGTTAG
>SRR1151209_01473 aspartate aminotransferase
ATGGCATTAATCGACCATATGAAAAAAGAGCTGGGCGCACTGAAGCCCAGTGATATTTTGGCTTTCAACCACGATATCAGCCAAATTCCCGATATCATTAAATTGACTCTGGGCGAACCGGACTTCAATACCCCAGACCACGTCAAATTGGCAGCCATTGGCGCCATTCAACAAAATGACAGCCACTACACCGCCTCTGCCGGCCTGCCCGGTTTGCGCCAAGCAGCGAGTGATTTTCTCTACAATAAATATCACACCCGCTACGACCCGGCGACCCAGCTGCAAATTACTGCTGGCGTCACCGAGGGCGTGTTTGCGACGTTAACGTCGATCTTGAATCCTGGGGACAGCGTGATCATCCCGACTCCGATTTTCCCGCTGTACATCCCCATCACGATGCTCAACGGCGGCGAACCGGTTTTCGTCAATACCGCCGAAGACGGCTTTATTCTGCATCCAGAAAAGTTAGCCGCCGCCATTGACGCCCATGCGGACAGCGTCAAGGCCATCGTGCTCAACTTCCCGACTAATCCCACTGGCGTGACATACAGTCGCGAAGACTTGGAGAAAATTGCTGACGTCGTGCGGGGCAAAGATATCTTTGTGATCAGCGACGAAATCTATTCTGAACTGACTTATTCCGGCCAGCACGTGTCCATGGGCGAGATCCTGCCTGAGCAAACCATTGTCCTCAACGGGGTTTCCAAGTCCCACGCGATGACCGGCTGGCGGATTGGTTTGATTGCCGGTCCCGCGGACATCATGGCCCAAATCGGTAAGGTCCACCAGTTCATGATCACGTCGGCGACCACCAACGCGCAAGTGGCCGCAGAGGAGGCCTTCAAGAATGGCCAAGACGACGCGGAACCGATGCGCCAAGCCTATATTGAACGGCGGGATTACCTCGTGCCGGCGTTGGAGAAAATGGGCTTCTCCGTCGCCAAACCGGACGGCGCATTCTATGTCTTCGCGAAACTGCCCAAGCAGTTCGGCACCAGCAGCTGGGACTTTGCCCGGGCGCTGGCGCATGAGGCCAAAGTGGCGGTGATTCCTGGGGCTACTTTTGGTCCCGGCGGTGAAGGTTATGTGCGGATTTCTTACGCCACCAGCCTCGACTTGATCAAAGAAGCCGTGAAGCGGATGGCGGCCTTCGTGGCGGCACACCAGTAA
>SRR1151209_01474 PadR family transcriptional regulator
ATGGGGATGCAGATCAGTGCGGAATTACTGGACGGTATCGTTCTCGCCGTGGTACAGCAGGCCGATACTTACGGCTATGCCTTGACCCAGCAGATTCAAGAGACGATTGATATCTCGCCGTCCACGCTTTATCCCGTCCTGCGCCGTTTGAAGGCCCAAGGAGCGCTGAGCACCTATGATAAGCCGTTTGGCGGTCGGAACCGGCGGTATTACCAGCTAACCCCTTTGGGTGCCCAAATCCTGCGGGATACAGAAAAAAATTGGCGGACACATAAAGCGCAAATTGATTATTTCTTAACTAAATTGGAGCCAAAGGAGGGTGCCCAATGA
>SRR1151209_01475 hypothetical protein
ATGACCATTGCAGACTATTTCGCCGAATTGACCCGGCTGCTGGCCCCATTGACAGCGGATGAGCGGACGGAAGCCATCGAGTATTTTCAAGATTATGTCGCGGATGCACAGTTTTCCGATGGTGCAGCTGTGACAGCTGAACTGGGCAGTCCCCGGCAGCTGGCGCTCAAGATTTTAGCCGACTATTCCATTAAAAGCAGTGCCGCCACGTCAGCGGATGGTGAAAAAGTATCTCCTCGGGCTAACGCCCGGCAAATTTGGACGATCGTCCTCGCCATTCTTTCGGCACCGATGTCGATTCCCGTCGCGATCATGATTTTTGCCCTGATGATCGCGCTGCTGCTCATCGTCAGCGCCCTGTCCGCCGCTTTGCTCATCGTCCTGGCCGGACTCTGCCTGACTGGTCTGTTTGTCAGCGGGTTTGCCCTGTGGAGCGGTATTTGGTTAGTGTTCAGCGATCCGATGATCGGTATTTCTTATCTCGGTTTGGGGCTGGCCGCCGGCGGGGCCGGAGTCATCTTGATCCCGGTATTGAAATGGGCGGCCCAAGGCCTGGCCAGCGTCTGGGCGGCGTTCTTCCGCTGGCTGTATCGTAAGGTGCGCAGACAACGTCAGGAGGCGATTTAG
>SRR1151209_01476 hypothetical protein
ATGTGGAAAAGGCTTTTGCAAATAGGCACCGGCATGCTGTTTATTGGTTTAGCATTATTGGCCATTGGCGGCTTAAACCACGGGTTTCAACCAGTGGCTATCGTATCTGGGCGGCCAATGGTGTCCCGAGTGACGACTAAAACGACCAATTTGGCACCATTCACCACGATCACTGCCAAAACTGATGATCTGGATGTTGTCGTTAAAAGCGGTTCGCACTACCAAGTTAAAGTCACAATGCTGACGGGAACGGGTATCACCAGCCGGGTACGCGCTGGCGTGCTCACGCTAGCCCAAACCGGCGGGGCAGATCTGGGCATGCTGTTGGGACATACCCCCACACCGCGAATCACCATCACCGTACCAAAAAATAAAAAGATACAAACCGCTAAGATCCGCACCGAGGATGGGGCATTACGGTATACCGTCCCGCAAACTGGCCGCTTGCGATTGGCATCTGCCAGCGGCGATATCACTGTTAGCAGCGCCCAGGCGGACCAGACCGAGATTCGGACAGTGTCCGGCGATATTCGGCTGACCAAAACTCAGCTGCACCAACCGCAAGTCACCGCCCAAGACGGGACCATTACCGTCACGCAGGGAACAATTCGCGACGGTCGGTTCCAACTCAGCAGCGATGATTTCATCCTGCGCAACAGTAAGCTCCTCGGTACGACCCGCGTGCGCAATGCATCTGGTGAAAATCGCGTGATCGGCACCGATACCGCCCAAGGGTACCGCCTGCAGACCCGCTATGGTGAGAATACGCTATTTACCCGGACCACCGAGAAGCAAATCGTCACGCACAATTGGTCCGCCGCCAACCGGATTGAATTGATCACGCAAAGCGGCGACAACCGGGTCACGGCGCGCTAA
>SRR1151209_01477 ABC transporter ATP-binding protein
ATGGAATTAACGATTGATCACGTCACCATGCAATTCAAAAATAAGCTGGCCCTGAATGACGTCAGCTGTACCCTGACCAGCGGCCAGTTAGTCGGTTTGATCGGCCCCAACGGCGCTGGTAAATCGACGCTGATGAAAATTCTCGCGACCTTGCAGCATCCCACCAGCGGGAGCGTCCGCTTGGACGGAGTGGATATTCGTAAACACCCCCGGGCGATGAAACGGGTGCTGGTCTATATGCCCCAGCAAGTGCCCATCATTCCCCAGCTCAGTGCAGTGGAATATCTGCGCTATATCGCGGCGATTAAGGGTTTGCCTCGCGTGCAGGCCAACGACCAGATCAAATCCTTGCTAGTGCGGATGCATCTGGCGGATGCTGCCGGCCGCTGGTTAGGTGATTTTTCCGGCGGGATGCAACAGCGGGTCGGCCTGGCTGCGGCTTTACTGGGCGACCCCCAGGTAATCATCGTTGATGAACCGTCGGCAGGACTGGACCCCATCGAACGGATCATGATGCGCAATTTACTAAGTGAACTGGCCGAAAGCCGCATCGTTCTGCTGTCAACGCATATCGTTTCCGATATTGAAGCCGTGGCTAGCCGCCTGCTGCTGCTTAAAGCCGGCCAGCTGCTGTTCCAAGGCTCCGCGCCGCAGCTGATCAAAGCCGCAACCGGCCATGTCTGGGAGTATGTCCTGCCCCAAGGCGAACATCCCCAGGCCAGTCAAGCAGTGAGCGAAATGCGCCAAGCCGCCGACGGGATCCATATCCGCTTGGTGGCGCCCAGCGCCCCGACCAAGACCGCCGTCACCGTGACGCCGACCCTGGAAGACGCCACGCTGAGCGCACTAGAAGGGCGGTGA
>SRR1151209_01478 hypothetical protein
ATGTTGACGATGATGGTCACTTCCTTTAAAGAACGGGCCCGGCGGTCGTCATTCTGGCTGTTGATGGGCGTTGTCGTTGTCCTGGCCGTGTTAGCCACGCCGCGCTCTGACACCGCCATGAAAGTAATGGTCTTGGCGCCCAAGATCTATCGGCAAGCTGATAATCCAACTTGGCTGCCGGTGTGTGCCGCCTCGATCTTTGGTACTTTCCTGCCGCTCTTTGGTTTTGGGGTAGTCGCTAATGCCCTGCAAACGGATCGGGAGCAGGGGCTGTGGCCGTGGGTTGAAACCACTCGGTTTGCTCGCTTGCGCTATGGTTTTGCCCATTTTGGAGCGAATTGCCTGATCCTGCTCACGATGCTGCTGCTCACGATCTTGGCGACCGGCGCGATGATGGTTTTGCGTTTTCCGGGGCAGGGCATTCCCGCCGCCACGTTCATCTCACCGTTTTTGGTGCTGATTCCCAGCATTATTCTGCTGGCTGCATTGGCGCTGCTGGGCGAAAGTGTCACCGCCAAACGGCACAATGGGTTGATTGCGATCTATATGTTCGGCTTGTTTTATGTCTTTGCTCTGCAATTGACCGACCCCACCAATTTTTGGAGTCTCCTATTGAATCTGAGCGGTAATAATTACGTCCAAGACGTGATCGATCAATCCAGCATCCAAGCGACCGGCCGTCCGATCACCAGTATGCAGCTGCTGAGCAACTATGGCGGCACGCAGGGAACCCATACGTTGATCATGACGGGCGTGCACTGGACCCGCGGCATGCTGCTGATGATGTTGGGCGAAATTATGGTCGCGCTGGCGATTGCTGGTGTTGCGGCCCTCTTGATGCATCGGGCGCGCCGTTGGCGCAAAGTGCGCCCAGAGCCGACCGCAGCCACTACGCCAAAAACCGCGCCAGTGCCGTATTCGCCAGTGTCCGAGACACATTTTTCTTGGCTGGCGGTGCTCCGCGGCGAAGCCCGCTGTCAGTGGCAGGATCGCTCGCGGCTCTATCGCTGGGCCTTGCTCGCCGGCTGGCTGGTGATCTGGGTCATGCCGGAAACTGCCCGCCAGCAAGCCGGTCTGCCGATTTTATGGCTCTTCAGCCTGCCTTGGCTCAGTGATCTGGGCACGGCGCCGAAACGCTGGACCGCCTGGCTGCCCACCATGCCCCACGCACCCCAGCGGCAAAAGGTCGCCGAACTGATTGTTGGGGCGGCGACGGCGGTGCTGTTAATGCTGCCGTTCCTGGTCCACGCCGGCGCCGCCGTACCGCAGCTCCTGCTGTTCGCCCTGGCCAATGCCGTCTTCGCCCAAGGCTTGGCCAGTCTATTGAACAATGGCCGCCTGTTCACCATGCTCCTGGCCATGTTCTGGTTCCTTTATCTCAATGGCATCCCGGGTATGATCAGCTTCAACCGCTTCTCCCTGGCCGAATCCGCCGTCTATCTGCTGGTGATCGCGGGCAGCCTCGGCTTGACGTTTGCTGCCGAGTACCGGCGCCAACTCAGTGCCGCCAATTAA
>SRR1151209_01479 AraC family transcriptional regulator
ATGCAGCAAGAAACTTTGATTCGGATGACTGGTCTTCATGACCAGGATCTTGATTTGTTATTCACCGGTCGGGCGCTTTGTTACCCGGACCACAGGTACGGACCCGGCGCGCGGCCCCATTTTCTATTGCATTTTATCGAAAAAGGCCGCGGACAGTTGACCATCCGCGGCCGTACATTTTATCTTCATGCTGGCCAGGCATTTTTGGTGCGGCCGGATGAATTAGTCACTTACCAAGCCGACCATCACGATCCCTGGACTTACGATTGGCTGGCGTTTACGGGGTCTTTTGGTGCCAAAATTGTCCAAGAGCTGGGATTTCGTTTCCCGTTTCCGGTGATGACGATTCCCGCACCAGCGATGCACCAAATTTTGAAACGGCTTCAGACCCTGCGGACGACTTACCGCCCGACGACGGTCCAAAATCTGCGCGGCTTGAGCACGGTACTGACCATATTCGCTCTGTTGGCGCAAGTGCACCACCCTGGCCAACCCGCAGAGTATGATCCGGGAGTAACCGGTTTTTCATCCACTGCTTGGGCGCATGTGACCAAGGCCGTTGCCCTGATCGAACGCAATTACGCCGAGCGGCTGAGTGCTGCCGCCCTCGCCCGCCAGCTGAACGTCAATCGATCGTATCTCTCGACGATTTTCAAACAGTTCACTGGGTTGACCATCACCGATTACATCACGACGTTCCGTATTTCCCGCAGTGAGGAAATCCTATTTACGACTGACTGGCCGATTGCCGAAGTGGCCCGGGTCAGCGGCTTCCGCACGACAGCTTATTTTTCTCGGGTATTCAAGGCCCAGACGGGGTTCGCCCCGTCGGTCTACCGGCAAAGCCGGTTAAGTCAGCCAACCAGCCACATTGGGACTTAA
>SRR1151209_01480 alpha-glucosidase
ATGGCAACCGTTCAACAATTGCACAGTACGTTGCAGCAGCATTTAACAATTCCAATTCATCAAGGTGAATATTGGTATGGCGGGTGCGTCATGGATGGACCGGTTTATCCGTTCACCCAGGGGAGCGACTACCAGTTAGACATGATTCACCTGAATACGCCGAACCAAGTGGCGCCAGCATTCATTTCTACGGCAGGCCGCGCGCTTTGGAGCGCGCAGCCATTTAATCTTCAGGTCAAGGGCAATGATCTGGAAATCGCCGGGCGCTCAACGCTCTATCTTGATGAATCCGGCCATAATTTAAAGGACGCGCAGCAGACCTTGGCCCGGCAGACCTTTACCCTAGGTAAAATGCCGCCGGCTGAGTTCTTCAAGCTGGCCCAATGGAACGACTGGATTGAATTGATGTACAAGCAAAACCAAGCCGATGTGCTGAAGTACGCCCACGGTATTGTGGATCACGGTTTTGCCCCGGGCATCATTATGATCGACGACCTCTGGGCGGAATATTACGGCCGTTGGGAATTTTCCATCCGCAAGTTCCCGGATGCCAAGGGCATGGTCCAAGAGCTCCACGACATGGGCTTCAAAGTCATGGTCTGGACTTGCCCGTTCGTGACGCCAGACACGCCGGAATACCACGACTTACGGGATCAGCACATGCTGATTGAAAAGGCTGATGGGACCCCGGTCATCCGCGAATGGTGGAACGGCTACGGTGCACTGCTGGATCTATCGAATCCTAAGACGTATGCCTGGTACAAACATGCCCTGACCAAATTACAGACCGAGACCGGGGTCGACGGCTTCAAGTTCGATGCCGGCGATGCCAAATTCTACGACGATGACGACCGGTCCGTCATGCAACTGAGCAAGACCGAGCAGACCCAGCTCTGGGGCGAATTCGGCCTGGAATTCCCGTATAACGAATACCGGGTCAACTTCAAGAACCAAGGCGCGCCGCTGGTCAACCGCTTGCAAGACAAGTCCTTTGAGTGGGGCGTCAACGGATTATCGGAATTGATCCCGGATACGCTCACCCAGGGGCTGCTGGGGTATTACTATAACTGTCCCGACATGATTGGCGGGGGTGAATACACCAGTTTCTTGGGTAAGAAGGGGCATCTGGACCAAGAATTGATCGTTCGTTCAGCCCAATGTGCCGCCTTAATGGCCATGATGCAGTTCTCCGTTGCTCCATGGCGGGTGCTGGACAAGGAACACTTGGATCTCTGCATCCAAGCCGCCAAGTTGCACCACGACTATGCCGATTATATTATTGCGTTGGCGCAAAACGCCGCCAAGACCGGGGAACCGATCACCCGGCCGATGGCTTATGAGTATCCTGAAACACCGTTGGCCTTTGCCAAGACCCAGTTCATGCTGGGGGCTAAGCTGTTGGTAGCGCCAGTGCTGGAGAAGGGGGCCGCCCACAAGACGATTTACTTCCCCGCCGGCAAGTGGCAATCCATTCATGATACTCACGATGTCGTCACTGGCGGCGGCGAAAAAGATGTGCCTGTTGATTTGAGCACGCTGCCTGCTTATCAGAAAATTGATTAA
>SRR1151209_01481 major facilitator superfamily transporter
ATGGCTGCACAAACACAACCGAAAAAGAATGGACTATTGCTCCAATCCGCACTCCTGTCCATTTCGCTGGTTTTGACGAGTGCGTATGCCATTTCGGCCACCTTGCCGGCAATGCAAAAGGCAATGCCCGGACAATCCCTGGCCTCATTGGAATCGTTGGCCACGGTGCCGACGTTCTCTGTCACGGTGATGGTCCTGCTCAGCAGCTGGATCGCCCGCAAACTCGGAGCGAAGAACACGGTGGCGTTAGGTCTGCTGCTGGTGGGGGTCGCTGGGATCGTCCCGGCATTCACCACCAATTATCCAACAATCTTAGTTTCCCGGATCTTGCTGGGCGCCGGTTTCGGGGTGTTCAACTCCCTGGCCGTGTCCTTGCTCTCTGTGTTCTTTAGCGGGGAGAAAAAGGCCCAGTCCATTGGTTTTCAAAGCGCGTTTCAATCCATTGGGAACGCAGCGATGACCTTTGTTGCCGGGTGGCTGCTGACGATCAATTGGCACCTGTCTTATCTGGTGTACTTGATTGCCTTCCCGATTTTGATCCTATTCTGGTTCTTCGTACCGCAGGTCAAATCGATGGAAAGTACCGATCAGACCGGTCACAAAGTTCAGCAGCATATTAATCTGAAAGTCGTTGGTTTGGCCTTAACGATGTTAGCCTTTATCTGTATTCAGGCTGGCTTCAATGTGCGTATTCCGACCATTGTCGTGGATGCCGGCTACGGTACCGCCACCGGCGTCAGCACTTGGCTGAGTGTGACGACCCTGATGGGCATGCTGGTTGGCTTCAGCTTCGGTATGCTGCACAAGGCAATCCACCAATACGTCTTCATGATCGGCGCCGCCTGCATGGCCTTAGGCAATCTGCTGGCCGCGTATTCCAGCAACTTGTGGCTGACCGGGATCGGCACGGTGCTCGTCGTCGGTATCGGCCCGACACTGCTGGGTTCCTACGCCTTCAACCGCGGCACTGAAGTCGTGGAAGCCGGTTCAGCAACATTGGCGACCTCGATCCTGCTGGTCGGCTGCAACGTCGGCGGCTTCTGTGCGCCGTACGTGATGTCCGCCATTGAAGGGCTGGTCCACAGCAGTACCAATGTGCTGATCGTTTTTGGTCTGTTTTCCTTGGCCATGACCGTCATCTTAGGCGTCGCGGGCATGCGGCTGCACAGTGCTGCCCACGCCGCGCCAGCGCAGTGA
>SRR1151209_01482 hypothetical protein
ATGGTATGGTTATGGGTTCACTTAATTGCTTGGATCGTCTTAGCGGTGGTGGTGGCCATCGGCTTATTGCGCCGGTCAGCTAACGTGACAACCTGGGCCATGACTGCCCGGGTGCTTTATTTGATTTCAATTATCAGCGGCATCGTTCTGCTGCTGCGGGTCTGGCAATATAATCCTGTGGGCAGCGTGATCAAAGTGCTGCTGGCGCTGGGCTTTATCGCGTTTATCGAAATTGCTTTTGCGCGGAAGCAGCAGCACAAACTGAACAACACGCTGCTGTGGGTCGTCTTCGGCTGCTGCTTGGTTGTTGGGATATTTGGTTTGTGGCTGGCCCAAGGGCGGCCGTTCGTCGGTTAA
>SRR1151209_01483 hypothetical protein
ATGACAATGAAAAAAATCACGACTGTTGCTGCCTTGGCACTCAGTCTTTGCTTAAGTACCAGTGTCCTGACACCCATCGCGGCGGTTAACGCAGCCGACGCGCCGACCAGTCAACAGGTCGTGCCGAAAAACGGCGTCGCTACCATTCACAACGCGGGCACAGAGGGCGCGCCGGTGATGGCCCTGAGCAACAGCAGCATGAATCCCGCCGGCCATAGTTTGGCCAACAACACCCAGTGGCAGATCTTCGGTACCATTGATCTGAATGGGACGAGCTACACCAACGTCGGCGGCAACCAGTGGGTCAACAGCATGTATGTGGCCGATGCCGCGGATACCCCGGCAATGACGCCGGCATCCTTCGTTGGCCGAATCAATTACGTGCCGGGTTACGGCGTCCGGTTGTTCCAGATTAACGGCAGCACGGTGACCAACACTGGCCGTTATTTGCAGCACGGGACCACGTGGAAAGTCTCGGGGACCATCACCATCAATGGCCGCGGTTACACTAATCTGGGCGGCAACCAATGGGTCGAATCCCAATACATCGTGAATGCGGCAGACAGCAGCGCAACCGATGACAGCACCCTGCCCAATGGTACTTTTGCGGTTATTTCCTATGCAAAAGGCTACGGGATCGCCGTATGGCAGCAGAACAGCAACGGTACATTTTCTGTCGCCAACCACGCGCCGCTGACCAACGGCACGCGCTGGGCTGTACATAAAAAGACCACGGCCAACGGCAGAACCTATTACAACCTTGGCGGCAATCAGTGGATTCAAGCTGACTACGCGGTCGTCGGCCGGGCCACCGGCGATGCCTTGACCTTGGATGTTCCGTACGTCAGCCAATATAATCCTGTCTTCGCGCCGTGGGGCTGTGCAGCCACCGCCATGAGCATGCTGCTGGGTTACGACGGCGTCACGATCGACAAGAGCTTCCTGACATACGCCCAAGATCATCTGCCCATGTATCCTGGCAATCCCGGCGGCCAGAAGGGGAATGTATACACCGGCGCAGGCTTCGGCTGGGTCATCGGACCCAATGCGCTGACCGACTATGCCCACAATTGGGATAAGAAAGTCGTCAACGTTTCCGGCGCATCCACCGAAACCATCAAACAGCTGGTCCTCACCGGCCACCCCGTTTTGTATTACGGCTGGTCTTCCTACCAAAACCTCAAGGCCGACACCAACCGCAACCACTGCAAGGTGATCTTAGGTTACAAGGATGGCCAATTCCTCGTCCACGACCCGCTGTACAGCAACAGCAGCAAAACAGCCGGTCAAGGCGGCACCAAGGAACTCGGCTACAACAACGGCTACGACCAGGGCGCCATCTACTGGTCCACAATGAGCAAGTTTAACGCCGAATACAACGGCCAGGCGCTGTCTGTGAATCGATAA
>SRR1151209_01484 dipeptidase
TTGAAAAATCTGAAAGCATGTACCTCCATCCTCGTGGGTAAAAAAGCCTCCCTCGACGGGTCAACGATGATTGCCCGCAACGACGATACTTTCTTGCCCCTGACCCCGCAACGGTTCTACATGGAACCGGCTGTCCATGACCAGCCAGGCCGCGTCTTGAAGTCCTGGCTCAACGACTTCCAAGCCGAACTGCCCGCTGACAGTTACCGCTACAACGCCGTACCCAATGTTGACTACAAGCATAAGGGCTACTACGACGAAAGCGGCATCAATGAGAAGAACGTTGCCATGAGCTGTACTGAGAGTACCTATGGCAACGAACGCAGCTTGGCCTACGATCCGTTGAACACGAAGGACGGGTTGGACGAAGACTGCATGCAGACTATGGTCCTGCCGTACATCGACTCTGCCCGTCACGGGGTTAAGTACCTCGGCCAGCTGATTGCCAAGTTCGGCTCCGCTGCCGGCAACTCCGTACTGTTCTCCGACCACGATGAAGTCTGGTACATGGAAATCGTCACCGGCCACCACTGGGTCGCGCAGCGCATTCCCGATGACTGCTACGCTGTCGCTGCCAACGAAGTCGCGATCCAAGATGTGGACTTCAGCAAGACCGACGACTTCATGTGGTCCGACGGGATTCAGGACTTTGTTGAAAAGTACCACCTGAATCCAGATTTCAACCGTTGGAATTTCCGCCACATCTTCGGGACCTTCGACGAAAAAGATCGTCATTATAACACCCCGCGGGTATGGTACATCGAGAGCCGGTTGAATCCGGAATTGGAACAGGATCCCGAAAGTGGGGAACTGCCCTTTATTCTGAAGCCGGCGAAGAAAATCTCCACCGACGATATCGAATATCTGCTGGGTTCCCATTATAATGAGACCCCGTTTGATCCGTTTGGTCACGGCAGTGAAGCCGACCGCCTGCGTTACCGGCCAGTGGGCTTGAACCGTACCCAGAATTCCCACATTTTGCAGCTGCGCAACGACGTGCCGGAAGCGTACAGCGCGATCATGCACATTTGCGAAGGCTATCCGACGTTCGCGCCGTACGTGCCGTTTTACACCAACGCCAACGATACCAATCCCAGCTGGTCCCACACCCCGATGACCCACGACTACGAGAGCGCTTATTGGCTCTACAAGTCGTTGTCCTTCCTGGTGGAGAGTGAATACAGCAAGTTCGTCCAAAAGGACCGGGATTACTTGAAAGAGGGCCGCCGCCACAAGCGCGAGCTGATCGTCGAAATCGACGCCCAAGCCGCGGACATCAAAGATCCGGCCGATCTGACCGAATTCTTGACCCGCCAGAACTACAAGATCGTGGCCGATTACCGGGACAAGGCCAAGGACCTGATGAGCGATTTGATCATGGACGGCATCAATTTGTCCAAGCTGACGTTCAATATGGATAAGAATCTTTAA
>SRR1151209_01485 hypothetical protein
ATGGCGTTATCAAAATTTGCAGAACAAATCATCCGTTTCCAGAAAACGCATGATATGACAGACGGGGAAATGGCGTTTTCCAGCCACTTTTCCGTTGAAAAGATCCACGAGTTCAAGTCCGGTGAAGCAACGCCCACAGCGGATGAAGAAAAGAAATTACGGGAATTCATGAACAGCAACTAA
>SRR1151209_01486 hypothetical protein
ATGGCAGATAACACTTTAGCCGCGTTTCCGCAAGGAGAATTTGCCGCTTTTTCCACCGCGAAGATGTCCCATTTCTTACCGTATCGCCAGGGAATGGACCAGAAGACGATTGAACAGTTCTTCGGTCCGGACTTGGGCACGAAGGCAGATTATGACTCCACCCATCTGGTCGTCTTCGACCACGGGCGGATGCTCAAGGTGGATCCCGGCGAAATCGTTGCCAAGTTTCCAAATGGTAAATACAAAGTGATCACGATTGATTATTACAATAAAAATTTTAACGAGCCCATCGTCGTTGACGACGATCCCGGGGTCGACAGAAAGCAGGATGTTACCCAGTGA
>SRR1151209_01487 glutamyl aminopeptidase
GTGAGTAAAGAAGAATCCATCGCGCTGATTCGCGATCTCAGCAACGCCAATGGTGTCTCCGGTTTTGAAGACGATGTCGTCCAAATTGCCAAGGACTATATCGATCCCTTTGCCCAGGTCACTGAAGACCATATGCGCAATTTGCGCATTGCCCGCAACGGCAATACGCAGATCAAGCCCCAATTGCAATTGGATGCCCACAGCGATGAAGTGGGGTATATGATCCAAGCCATCAAGCCCAACGGTACGATGCGCTTCGTCACTGTCGGGGGCCAGGCGGCCGTCACTCTGCCGGCGCACAAAGTCCGCATTCGCAATAACGCCGGCGATTGGCTGCCTGGGATCATTACCAGCACGCCGCCGCACTTCATGACTGCGGCAGAGCGCCAGACTTTACCGCCGGTAAGCGCCTTGACCATTGATGTCGGCGCCACCAGTGCCGCTGAAGTCCGGGAAAAATTCGGCATTGATGTCGGTGCACCGGCTGTACCGGCGGTCAACTGCGAATATATTCCCCAATCTGACGTCTTATTAGGTAAGGCCTTCGATAATCGGATCGGCACCGCGCTTCTGCTGGAAACGATTAAGGAATTGGCTGACCAGGACTTGGCGGTTGATGTTGTTGGGTCGCTTTCCAGTCAAGAAGAAGTCGGCGAACGCGGCGCGACCGTCATGGTCCGCAAGATCAAGCCGGATCTGGCCATCGTCTTTGAAGGCGCACCGGCCGATGACACGGTCATGCCGGATTATATGATCCAATCCGGCCTCCACCGCGGTCCGATGCTGCGGGATTTCGACTCATCGATCATCGCCAACCCCCGCTTCCAGCAGCTGGCCATCGATACCGCTAAAGAAAACCACATTAAATACCAGCGCTCCGTTCGTTCCGGCGGCGGCAACGACGGCGCCGTGATCAACCTCTACGGTGGCGCAGCCACCATCGTGATCAGCGTCCCAGTCCGCTTCGCCCACACAGCGTATTGCTACATCGCCTATGACGACTTCGCAGCGGCGAAGGAATTGGCGGTTACATTGATCAAGAAGCTGACACCGACAGTTATCGATCAGTTCTAA
>SRR1151209_01488 signal peptidase I
TTGAAGGATTCGAAGCAGACAGAGCATCAGGAAGAGGAAGAAAGTTTTGGCCACTGGCTGGTGCAAACGATTGGTCTGACTGTAGTATTCGTTGGTATTGTGGTGCTGCTTTTCACCTTTGTATTAGCCAACGATCAAGTATCCGGACCGTCCATGCAGCCCACCTTTGAGTCGAATGACCGAATCATTGCGCTGCGGCACGACAAGATCGATCGGGGCGACATCGTGATTTTGAAGGCACCGGATGAACCGGGGGCGTTATACATCAAACGGGTCATCGGGATGCCGGGTGATACGCTGCAATCAAAGAATGATGTGATGTACATCAATGGCAAGAAATACGCTCAGCCTTTCTTGAAGGAATATGAGTCGGAGCTGCCCAGCGGGACGTTGTATACGGAAGATTTCACGCTGCAATCTCTGGGTATGGGCAGCAAGGTCCCGAAGGACAGTTACTTCGTCATGGGGGATCACCGGAATGTGTCGAAAGACAGTCGACGGATCGGGTATATTAAAAAATCCGCGATCGTCGGGGTCGTCAAGTTACGGTACTGGCCGTTGAACCAGATGAAGGTATTTTAA
>SRR1151209_01489 hypothetical protein
ATGTCAATCGAATGGAAGCAGGAAAACACCGTCACCCATGATGGTGCGAATCCAGAAAAAGCCGTCGCCACGCAGTCCATCGTCCCTGGTTCAATTTTGCTGCCGGCCATGGCCGCGGACATCAGTTGGGCGGATTTCGTTAAGACCTGCCAAGCGGCCTGGTTCCCAGGGACGGGCGACTTGATCGCTCCCCCGCCCCTGCGCGTTGGGACCACAGTGGGGGAAATCCCAGTATGGGAATTATTTAATGGGGACACCTTGAACGGAGCAGATTTCAGTACCCTTTGGTATCCAACCACAGAGGGCCCCTGGTTCACTGAAGGCACTGATTGGTGGGAAGCTGCCGCAATTCTGAATGTTGCCCAGCGGTTAAAGACGCCGGCGGCAGTACGGACTCTGCGGACGGGGGACGCTTTGGCCCAGCGCTTACTGGCCATCCAGCAAGACGCCCAGCACCAAGTTTGGGCACCGGGGGCGGACGTGGATGCCACTGGAATCGCCGACCCCGCCAGCGACTCGCTGACGGCCCTGGGTATTTATACCCTGCTGGCCTATATCTGGCAGGCTCAGGGCCGCCCCAATGCTTTGACCTTTGTCACCACGAAGGGCAGCCCGGCCTTGTCCCAAGCCCTTGAATGGGGCCGTATCAATGGTTATCCGTGGCATACACAGTTAGCCGATCCGCGGATCGATCCGGCGGTCGTTGAACAGTGGATCCGCCACGTACAAGTGACCCAGAACTATACCCTAGGGGCCGATGCGGCGCTTTCGCTGGCAACGGCCGAAAAAATGGCGCAGGCCGTCGTGCTGGCGAATTTCCAACCGTATCTGACGGCCGATGTGCTGCTGTCCGCCGTGACAAATCGGGAACATCCCCACGATGCCCTGACGGCGAGTCAGATTCTCAGCACCATCATCGCCCTGCCGCTGCCTAAAGTATTTCGTAAATTACGCCGGACTCAACCGTTAACATTGCCGGCTTTAGACGCAGACCAATGGCAGCAATGGCGGGCCGCGGCCCAGGCCGACGCATAA
>SRR1151209_01490 SAM-dependent methyltransferase
ATGATTGGAGAAACGTATTGGTACCGGCTGGCGGCCCTGGTGGATCGCTTTAGCGCGGCCGCACCCGGCTTGCGCGGGCGCTGCCAGCGCATGCAGCAATTTGCGGCGGCCCTCGCCCAGCGGCAGCTGCCGCCTCAGGGATTGCCCGATTTGACTTTAAGCGCAGGCGAAATTGCGGCATTACTCGTTGCTTTTCCTAATGAGACCGGGGCGATCCGCACTCTGGACCGGTTGTTTAATGAATTTCGCCACGTGATCCAGCGCCAGTTCGGCGTTTGGGCGATGCTTACTGCGCCCTTTGCGGACACTCTGGCGGCCGCTTGGCAGGGGCGGCGGGTCGTGGAACTCATGGCAGGCAACGGTATGCTGTCGGCGGGTTTGGCCCAGCGGGGCGTGACGATGACCGCCACTGACGACCGCTCCTGGGTAGCGGCGAACGGCACCGGGCAAGATCCCTGGTATCCGATTCAGGACCTGCCGGCTACCCAAGCCGTGGCGGCGACGCTGGCCCAGACGGACGCTTATGTGTGGGCCTGGAGCCCGGACGGGGTGCCGGTGGACTGGGCTGTACTGCAGCAATTACGGGCCGCTCAGTTTGCCGGCGATCTGCTGGTCATCGGCGAATTTCGCGGGGTCACTGATTCCCAGGAATTTTGGGATCACGCCCACCTGCACACTACCCCATTGACGCGGGCGCTCAACCGCCAGCTGCATCAATTTGATTTAATCAACGAACGGGCTTTTTTAATCAGTTAA
>SRR1151209_01491 hypothetical protein
TTGAAGATCAAACAGAAACTCGTGCTCCTGCTGGGCAATTTCTTGGCGTTCTTTCTGATCGTCTGGGCGTTCAGCATCGGCGACCAGCAAACTTATCAGGATCGGCTGAACCGCAACGGACTGTCCGCCGCGTCGCTGCGCGTGCACACAAAAAGCCGGGAGACAGTGCCGACCTTGCTGACGAAGTTAAGTCAGAGCGGCCTGACCAATTATCAAGTCCAGATTGCTGACCCGCTGCGCAAAAACGTCACCTACGTTTATGGGGCCGGGGACTATACCCAGCTGCCCATCAGTTCCGGCCGCATGCTGACCGATTCAGACTTCACCGCGCCTGTGCCTTTCGTGGTGGTGGGCGATACCGTGACCCAGCGCTTGTATCAACCGGCGACCCAGAAATATTATTATAATGGCCATCAGTACTTAAGCGTCGTGGGCACCGTGGGGGCCGCCCAGAAGGCGGACATCAATGACCATGTTTTCATCTCGCTGTCCACCGCCCAATCGGCGTTAAAGAAAGCCCTGCGCCACTACACGATCTACATCGACGGTACTTTGGCCACGACGAAGCAGAAAACCGCGAAAAAACTGTTTGCCGCGACCCGGTTGACGAAAGCGAAGTATGCCCTGGTCTCGACCGCCCAGGGTGACGTTAATCCGCTGGTCTGGACCATCTTGATTCTCGCCAGTGCGCTGCTGCTCGTACTCTTGCTGGCGCGGTATTATATCCAGCTGCAGCGCCAGCAATTGAACGGCAGCCGATTGGATCATCTGCTTTACCGCCACCTGCAATACGGCTACATTCGCCAATATTTCCTGTATGCGCTGGTGGGGATCGGCGGCGGCTATTTTCTGGGCTCGTCGCTGCTGTATTTACTGAGTTATCAGCAAATATTTTTGACCGTCGCTCTGTACGGCCTGCTCCAAGCCGTACTGGTCGTTGCGGGCATCATGCGTACCAAACAGCGCCATGTGTTGACTGAAGTAGAAGAAGATGATGAAGAAGAGGCAGAAGATAATGAGTAA
>SRR1151209_01492 23S rRNA methyltransferase
ATGAGTAACCTACCGGCCGGTTTTGCAGAGAAATACCGCCGCTTGCTGGGACCGGAAGCAGACGCCTTTTTAGCCAGCTTTGACCAGCCGGCGGAGAAAGGCTTCCGCCTAAACCCGTTGCACGGCAGTGATTTGCCGACGCCAGCGGCAACGGATCAAGTACCGTGGAATCCGCTGGGCTATTACGGCAGTGTAGGCGGCAGCGACCGCGCCTTTTGGACAGGCGCCGTCTATTCCCAGGAACCCAGCGCCATGGCGGTGGCCCCGCAGCTTCAAGCCAAGCCCGGCGAACGGGTCTTGGACCTGGCCGCTGCCCCAGGGGGAAAAACCACCGACCTGATTGGGCAGATGCAGGATACCGGCTTGCTCGTCAGCAACGATATCGACCGCAGCCGGGCCAAGATTCTGAGTGAAAATGTGGAACGCTGGGGCGCCGCCCACACCGTGGTGACCAGTGCGCCGCCGGCAAAATTGATGGCGGCCTTTCCCCATTTCTTCGACCGGATCCTCCTCGACGCCCCTTGTTCTGGGGAAGGGATGTTCCGTAAAGACCCGGCGGCCATGGGTTATTGGCATCCGGACTACCCCGCTGAATGTGCGGCCCGGCAGCAGGATATATTAAAAAACACCATCCCCATGCTGGCGGATGATGCTGAATTGGTTTATTCCACGTGTACGTTCAGTCCGGAAGAAGACGAAGAGATCATTGCTTGGCTGCTCGCCACCTATCCTGGACTCAGTGTGGTGCCGATCCCGCTGGTGGGCGGGATGACTGGCGGCCGGCCGGATTGGGCCGACGGCAATCCCAGTTTGCAGGGCTGCGCACGGCTGTTTCCGCAACTGGTCCGCGGCGAAGGGCATTTTGTGGCCCATCTCCATTACCATAACCCCGCGGCAGCACCAGTCGTGACGGCTGCGCATAAGAAACGCCGGACCGCGGCCACCGGGATCCGACCGCTGACCCGAGCGGAAAACGACTTATTTACCACGTTTTGGCGGGCCACCATGGTGGCCGCCGTGCCTGCCGGCGTGGCGATGTTCGGTCAGCAGATCGTGGCCCTGCCCCCAGCCTTCCCAGATCGGGCAGCGGGGCTGACCATTCTTCGACCGGGCTTGATCATCGCCGATGTGAAACGCGACCGGCTGGTACCCAACCACGCATTGGCAATGGCCTTGCCGGCGAGTGCCTGGCGCTATCAGGAAGCTTTGACTGACGCCGCCGCGGCCCGCTATCGTCACGGCGAAACCGTACCGACAGAAACGCCGGGCCGGCAGTGGGGCGTATTGACCACCCATGGCGTCGGTTTCGCCGTCGGTCATTTTGTGAACGGCACGGTGAAAAATTTCTATCCGAAAGGGTTGCGAATTTAA
>SRR1151209_01493 isopentenyl-diphosphate delta-isomerase
ATGCCGACGAATAAACATCCCTATCCGAATAACCCCTATTCCCGCCGTAAGGATGAACACATGGCGCTGGCCACACGCTATACAGGGACGGGCAACGAGCTGGATCAAATCCATTTTGTCCATCAAAGTCTGCCGACGGTGGCCGCTGATCAGGTCGATTTGAGCACGTCCTTTCTCGGTCAGCACTTCCCCACCCCGCTGTACATCAACGCCATGACCGGCGGCTCAGCCCGGGCAAAAGTGGTCAACGGCCAGTTGGCCACGATTGCCGCCCGACTGCACCTGCCCATGGCGGTGGGGTCGTTATCGGCGGCGCTGAAAGTCCCGGCGCTGGCGGAGACCTTCACGATTGCTCGGGAAAACAATCCGGACGGTTTTCTCATGGCTAATATTGGCGCGGATAAGACCGTTGCCGATGCTGAGCAAGCCATTGCGCTCATCGGCGCCGACGCGCTGCAGATCCATCTGAACACGGTGCAGGAAACGATCATGCCTGAGGGTCAGGTGGTGCCGAATTGGCGCGCCCATATCCAAGCCATCGCGGCGGCGGTTTCTGTCCCCATTGTGGTCAAGGAAGTCGGTTTTGGTATGAGCCGAGATACGTTAACCGCATTGCCCAGAATCGGTATCACCACGGCGGATATCAGCGGCCGCGGCGGGACCAATTTTGCCGAGATTGAAAATGCCCGCCGCCCCGGTCGCGATTTCGCCTATTTAGCCAATTGGGGGTTAACCACTGCCCAGAGTTTGCTGGAAAGCCAAGACTTCCCCGGGACGGTGTTGGCGTCTGGCGGTATCTCGGATCCCTTACAGGTATTAACGGCCCTGCGCTTAGGCGCCAGCGGGGTCGGTGTGGCCGGCTGGCTGCTGCGGAGGCTGCTGGACCAAGGGCCGGAAGCAGCGGAGGAACAGCTGCGGACTTGGCTCGCCCAGCTTCCGCAACTGATGGCTTTAGTCAACGCGGCCAATTTATCAGCATTAAAAAAGCAGCCCATCTGGTATGATGAGCCGCTGCTCAGTTACGCCCAGCAGCGTCGCTTATCGCTGCCTTAA
>SRR1151209_01494 diphosphomevalonate decarboxylase
ATGACCGCACCGCAATGGGCCCGCGCCCATACCAATATTGCCTTGATTAAATACTGGGGCAAAAAAGACGCGCAGCTGATGCTGCCGGCTAACGACTCGCTCTCGTTAACGCTGGCTGATTTTTATACGGACACTCTGGTGCGCTTTACGGACAGTATCGCCACCGATCAATTCGCACTGGACCAGCAGCCCATCACCGGCCAGCCGCTGGCAAAAGTGACCCGCGTGTTGGATCAGGTACGGCAATTAGCCGGCATCACTGCCCCGGCCGTGGTGACCAGCCGCAATCATGTGCCCACCGCCGCCGGGTTGGCCAGTTCTGCTTCCGGGATGGCAGCACTGGCCGCCGCCGCGGCTCAGGCTGCTGGGTTGACCCTGGATCATCCGGCATTGAGCCGGCTGGCCCGCCTCGGGTCCGGTTCAGCGACCCGCTCCATTGACGGGGGCTTCGTCCGCTGGTTTGCCGGGCATAACGATGCGACGTCTTACGCCGCACCGGTACCGGCGGCCCCGGCCCTGCTGGCCGATATCCGGGTCGTGGCCGTTGTGTTTTCTGATCAGCCCAAAGCAATCGGCAGTACCGCCGGCATGGCCCGCACCGCCGCGACATCGAGTTATTTTCCGGCATGGACTCAGCGGGCGGCGGCGGATCTGCACCGGCTGCTGCCCGCGCTGACCGCGGGCGATTTCGCCCAAGTTGGTCAAATCGCGGAGGGTAACGCCTTGGCGATGCATGCGGCAACTTGGGCGGCGGATCCGCCCTTCACCTATTTTCTGCCCGCTACACTGGCGTTGGTCCAGGGGATTCAAGTCTGGCGGCAAAGCCAGGGAGTGCCAGTCTATGCCACCGTGGATGCCGGGCCGAATGTGAAGCTCTTGACCCGCGCGCCCCACGTCGCGGCGGTGCAGCACTGGCTGGCGGCTCACTTTCCCACTGCCCAGGTCGTCGTGACCCAGGCCGGGCCGGGAATCAGTTATTATCCTGCGGGCAAGGAGGTCGATGCGTAA
>SRR1151209_01495 mevalonate kinase
ATGCATACGGGAATTGGCACCAGCCATGCCAAAATTATTTTGATCGGTGATCATTCCGTGGTTTACGGCGAGCCGGCGATTTGTTTGCCTTTGAAGGCGGTCCCCTGCCGGATTACGGTGGCCGCTCAGCCCACTGGCGAACCGGATTGGCTGACCACGTCCTTTTTCACTGGACCGCTGCCCTCGGCCCCAAGCAATTTACATGGGCCCTTGGCGCTTTGGCGGACGCTGGCCGAGCATTTGCGGATTGCCGAGCCGCTGCGGGTAACGATCGACTCCCAGGTGCCGACCGCCCGGGGCATGGGCTCCAGTGCCGCCACCGCGGTTGCTTTAGTGCGGGCCTTCTTTGATTATGCCCAGCAACCACTGACGGACGCGGATTTGCAAAAGTGGGCCGCCGTTTCGGAGGATATTATCCACGGCACCCCCAGCGGTATCGATGCCGCTACGGTGGCCAGTGCTGTTCCTATCTGGTTTATCAAAGACCAGCCGGTGATTGCTTTGCCCGACCCGCTGCGCGGCGTCCTGGTGATTGCAGATTCCGGCAAGCTGGGTGAAACCGGCCCAGCGGTGGCAGCAGTGAGAAAATTGCGCCAAACGCGGCCCAGCCAGACCAACGCAGCAATCGCTGAGTTAGGCCAGATTGCCGCCCAAGGCCGGGCGGCAATTCACCAAAACAACCTGGCCGCGCTGGGCCGGCTGCTGGATCGGGACCAAGCCTTACTGCAGGGCTTGACGGTCAGCGACCCGCTCTTGGACCAACTGATTGCTGCTGCCCGCCAGGCCGGCGCCTTGGGCGCTAAGCTCACCGGCGGCGGTCGGGGCGGCTGTCTCATTGCCCTGTGCTCGGATTTGCCCCACGCTGACCACGTCGCCGCTGCTTTGCAGCAGGCGGGGGCGCCGGCGACCTGGATCGATCCGCTGGATTCGGAGGTGCAGTCATGA
>SRR1151209_01496 ATP-dependent helicase/nuclease subunit B
ATGCAGAAACCAACGAATTCCCCGCGGGTCACACTGCTGCTAGGGACGGCGACCCAAGACAGCCAGCATGAGCTGGTGACCGATATGGCCCGCCATGCCGCAGATTGGGCGGCCACCGGCCAGGCGGGCCAAATTTTTTATCTCGTGCCCAATCATATCGCCTATGAAATGGAGCGGGTCACTTATCAGGCCTTGAGCCGGGAACCGCCCTTCAATGGGGAGCACGTTCACGCCTTTCAAAACATTCAAGTACTGACCGTGAATCGGCTGATCTGGTATTTTTTGCAGACGGATCCGCAGTTCTCTCGGCTGACGGCCACCGATACAGCGCAGACGATGATTTTGACCAAAGTCTTGCTGCAATGCGGCGATGATCTGCAGCTTTTCCGGGGCGAAACGCGCAATCCGGGCTTTCTGGAACAGCTGCGCGTCCAGTTGGGCGAGCTAGCTGATGCCGGGATCGATGCGACCATTCTCGACTCATTGACCGGCAGCGGCGGCAGCCAGGAATTTCAAGCGAAGATGCACGACTTAACGATTATTTTGCGCGCCTACCAAGAGGAGCTGGGGCGCTATTTTGTCACGTCTGACGAGATGACCCAGTACGCCATGACTCAATTCGCCGCGCACCCGGAATGGCTGGCCAATACGCAACTGTATATCAATGGGTTTGACCATCTAGACGGGCAAACCTTGGCGTTGCTCGGCACATTGATTCCGCAATGCCAGCACACCACGATTGCCCTGGTGGGGGATCAATATGACGGCGACACGGAAGAAATGCCCGCCGGACCGGGGAGCACGCCATTTTTCACGCCGAGTACCCAGCTGCGCCATCAGGTGCAGCATTTGACCCAAAGCGTGACGGGAATCCCTGCTCAAGTGCGGTATACCCGCACGCCCAGCGCCCATCAACCCGCCTTGGTCACGCTGGCCCATTACTGGATCAGCAATGCTCGGGGACAAACGGCGCCAACGCCGCCAACAGCCACCGCTGCGGTCCGGCTATGGCAGGCCGCCAACCGGCAAGACGAACTCACCGCGGTCGCGGCGGAGATCCATCGCCTCGTGGCCAGTGGCGATTACCGGTACGGCGATATCCGGATCTTGACACCAGACTTGGAGAAATACGAAACCATCATTGCGCCGACTTTCCACCAAGCGGCTGTACCGTATTTCTACGACCGGGCATTGGCGATGACCAATCATCCGCTGGTCCAGCTAATCAGTGCGCTGGGGGAGCTGCTCAACGATAATGTGACCTATGCCAATCTATTCAGCCTATTGCGGACCGAACTGCTTCTGCCCGCGGCTTTGGCCGCTGAGGCCCAGCATGAAAACGCGGCGGGGCAAACCACGCCAGCGTATTTACGGGTGTTCCGGGACCAAGTAGACGCGGCCGAAAACTATTGTCTGGCCCATGGCTTGCGCGGCTCGCAGTTCAGTGCCGAGGCGCCCTGGCAAGAGCTGACCCATACGCCGACGGACGAGGATGACGCCGCTGATGTGCAGACCCAATTATCCGCTGGTGAACCGATCCATGTCTTCTTGCGGCAAGAATTGCTGCCATTTATTGCGGCCCTGAAAGAAGCGCCAGACGGTCAGCACGCGATGACCGCGTTGTATCAATTTCTGACTGCCCACGGCCTGATCACCCAACTCGCGTTCTTCCGCAACACCACGTTGGCGGCAGGGGATCCGGTGGGCGCCAGCCGGCCGCGGCAGGCGTTTGCCCAATTCACCCGGTTGCTGGATGAATACGTGGAAATCTTGGGCAGCGAGCCCTTTGTCCCGGATACCTTTGTGGCCATTTTTACTGCCGGCTTCACGGCCGCCAGTTATGCCCAGATCCCCGCGGTGCTGGACACGGTCCAGATTGCCGATACTGGGATCACTGTGCCGGCGCCGGCGAAAATCACCTTCGTTATCGGCGGCACAGCGAATGCGCTGCCGGCCCCGGTAGAATCCACCACGCTGCTGAACGACAGTGACCGCGCGGCCATCATCGCCGGCCAGCAGGCCTTGATTGCTGCTCAGCCGGATAGCGGAGCAGTTTATCCGACGTTATCCCGCGGAACCGACGATGTATTGGCCGCGGCGGAATATATGGCCTACAAATCGTTCTTCAGCGCCACCGACCGGCTGTATCTAACGTATCCGCAGCTGCAATCGGAGACCAGTCAGCGGATATCGCCTTATTTTGCACGCATTCAAAACTATCTCGGCTTAACGCCGCGCACCGTTGATTTCTCTGGGACTGCCTTAGCCGCCTCAGCTGCCCAGCCGCAAATCACCGCCTGGCTGGCAACGCCGGCGCTGGCTGGCAGCTGGACCGTGAAGGGGCTGCGGGAAAAGCAGAGCGACCCTTATTGGCAAGTCGTCGCCCAGCATCTGCGCCGGCAGGGGACACCAGCCGTTCAACAGCACTACCAGTTTATTTTATCCGCTCTGCATTACCAAAACACCGTCGGCCAGCTGGATCCGGCGATCGTTCGGGATCTTTACGGCAAACGGCTGAACGTGTCTGTATCCCGGCTGGAACAGTATTATCAAAACCCGTACGAGTATTTTCTCCATTACGGCCTTGGCGTGACGGAGCGGCCGACCTATGACCTGACCCCCGCCGAAACCGGCAGCTACTATCATTGGGTCCTGGACCATCTGGTCAAGCGGCTCCAAACCCAAGCCCAGGACATCACGGATTTGAGTCAGCAGGAGCTGCACAGCATTGTGGATGACATTGCCGGCAAAGCAGTGCATGAGCCGCTCTTCGCTATCTTGAACGGCTCCGGGCGCATGAAGTTCCTGCGCCAGCTGCTGGAACGCACCTTGACGTATATGGCCTGGCTGCTGCAGCAGCAGGCTGCCCGGTCGGCTCTGCGGCCCTTAGCGACCGAAGTCCAATTCGGTCAAGTCGGGCAGCCGGACAGTTTGCCAGCGCTGACCTATCCTTTAGGGGCTGATCAATCGGTGCGGATTCGGGGCAAGATCGACCGCATTGACGGATTCCGCGGCCCCAACGGCGAAGATTTCTTGACCGTGGTTGATTATAAATCCTCCGAGCATCAATTCGACTACGGCCAAGCCTTGACCGGTCTTTCATTGCAACTGCAAACCTACCTCCAAGCACTGCTCAATGCCCTGGGTCAGGTCCCGAATTTAGCGCTGCCCAGTACCGCCACCGTGGCCGGCGGCTTCTATCTGCATATTAACGAACCGCTGCTGCCGATGAAGGATGCCTTGAAGTGGCAGGACAGCGATCCGGCGCTATTCACTCAGCAAATGCTGAAGCAGAACCAATTCAAAGGAATCGTCCTGGCTGATGATACATTCCTAGAAAAGGCAGACACCAGTCCGGACCGCAACGTAGTCCTGGCCGGCAGCCGGGTGACCAAGAAGAATGGCTATACCAACAGCAACGCATTAAGTGCCGATCAGCTGGCCACGATTCTGGCCTACAATGCGGCGATGATCCAGGCGGCCGCCAAAAATATTTTAGGCGGAAAAATCGATCTGCAGCCCGCACGATTCCCCAACGGTGAATCTGTGCTGCGTTTTTCTCCCTATACCAATATTATGTACTTCGACCATATGCTGCCGGAAAATAAGTATCGGGAAATTATTACGCAGGATAAACAAGATGCGCTGCAACGGATGAGCGAGTTGTTAAGAAAGGAGCGGGATCATGAGTAA
>SRR1151209_01497 ATP-dependent helicase/nuclease subunit A
ATGAGTAAGACACAGTTCACAGCCAGCCAGCGGGCAGCGATCGACCACGCCGGCCACAACATTCTTGTCTCGGCCAGCGCTGGGTCAGGAAAGACCACCGTGTTGGTGGAACGGGTGATTCAAAAACTTTTGCGGGGCGGAGATATTGACCATTTGCTGATCGTCACCTTTACCCAGGCCGCGGCGGCCGAAATGCGCGATCGGATTCGAGCAGCACTGACCAAAGCGGTGGGCAACGACGCTTATGCTGCGCAGCGCAAGCATCTCCGGCATCAGCTGGCGGTCTTGGGGTCCGCGGATATCGCCACCTTGGATGCCTTTTGTGCCCGGGTCGTGCGCCGCTTTTATTACGTGATCGATTTTGACCCGGCTGTGCGCACCCTGGGGGACGATAATGAACGGCTGCTGCTGTGGCAGCAAGTTTGGGAACGGGTGCGGGACCGCTATTACGACGCCGGGGACGCAGACTTTCTGCGCTTAGTGGGAAACTTTACCACCGGCCGCTCAGACGACGGCCTCACCGACTTGGTCATGCGGTTGTACACCAAAGCCATGGCCAGCCCGGACCCCGCCGGCTGGATCCACCGCTTAGCCCGGCTTTATGATTTTCCGCTGACCACCGCCGGCTTCAACCAGTCATTACTGCTGGCCGAAGACCAGCCGGATAATTTGCGCGCCCACGTGACGCAGCTCTACAGCGATTTGCTGACCGCTTACCGTCAACAATTAGCGGCCATTGCCGATATACCAGATCTGGCCAAACTGCGTACCTATGGGGCTAAGCAAATCACACCGTTAACCGCCCAATTAACCGTCCTGCAGCATGGCGATTGGGACGCCATGCGCCATGCCCTGCAAGCGGCCAGTGACGCCATCGGTGCCCGGTTCCCCGCGATTTCAAAAAAAACCGCGGAGGAATCGAGTCTGGCACTCAAAGATCAAGTCAGTGCGGCCCGGGATGATTTGAAGAAGGCGATTGCGGAACTGCAAGCCGGGCCATTCCTCTTGAGTGCTGCCGATTGGCTGCCGATCATGGGTCAGGCGCAGGCGATGGCCCGGAAGCTGACCGACGTGCTGCTGGCCTTCGGTGAAGAATTAACCAAAACCAAAAAGCGGCGGGGGATCGCTGAATTTGCGGATATTGAATTGGCGGCGCTGCAGATTCTCCAGACCACCACCCAAACCGATATCCAGCCCAAACTGTTTTATACCGAAAAATACACCGAGATCATGGTGGACGAATACCAGGATACCAACCCGCTGCAGGAAGCCATTTTAACCACCATTGCCGCCCCCGACCCGGGCAATATGTTCATGGTCGGCGACATCAAGCAATCGATTTATGGCTTCCGCCAAGCGGACCCGTCGCTGTTTGCCCATAAATACACGGCCTACGGCGATGATACCAATGACAGTGAACGAATCGTGCTGGCAGAGAACTTCCGCTCCACCGAAGCCGTGGATAACATGGTCAACTACCTCTTCCAGCAATTGATGGACCCGGCGGTGGGCGACGTCGCGTACGACGCCAATGCCCGGCTGCAATACGGCGCGACGTATTATCCAGCCGCGGCGGCCCAGACCACACAGGTCCTGCTGGTCACCGATCAGCCCGTCACCGACGATGATCCAGACGCAATTCCGCTTACCGGTATCACTGCCCAGGCCGCGGTGGTGGGGGACAAGATCAACGCCCTCATTGCCGCTGGCACACCGGTGTTCGATAAGACCACCCAGGGTACCCGACCGCTGCGTTATGCCGATATTGCTTTGATCGTGCCCACCCGAGGGGACAATCTGGATATTTTGGACACCCTCAGTGATCGCGGTGTGCCCGTCGTCATGAGCGATGCCAAGGAATACTTCCAAACCACGGAAATCACCGTGATGCTCAATTATCTGAGCCTCATTGATAATCCTCGGCAGGATATCCCGCTGGTCGGTTTACTGCGCTCGCCCATTGTGGGGCTGACCAGTAATGAACTGGCCCGAATCCGTATCCACCACCCCCAAGGGCCGTATTATGCCGCGTGGCAGGCCTATGTCGCCGATCAGGCGCTGACCACACCGCTTCACGACCAGATGACGGCCCTCGCGGCCCAACTGGACCGGTACCGCACCCTGAGCAAGCAGGTGCGCATTGCCGATTTGATTTGGCAGATCTACGCTGATACCGGCTTCCTTGATTATGCCGGGGGAATGCCCTCAGGGAAACAGCGTCAAGCCAATCTGCACGCGCTGTATGAACGCGCCAATGATTACGAAAATAACGGCTTCAAAGGAATTTTCAACTTCATTCGATTCATTCACCAAGTGCAGGAAAACGACCAGGATCTGGCTATTTCCCCAGTTACCAGCAGTGACGATAATGCCGTCACCGTGATGACCATCCACGGCAGCAAGGGCTTGGAATATCCCGTAGTGTTTCTGCTCAATGCGCAGCACAATTTCAACCGGATGGATGAACGGGCCCCAGCCATTGCTCTGAACCAGGGCGGGGTAGGGCTGAAGGTCAACGACTTTGCGGCCCATATTGCCTATACCACCCCGCAGCATTACTACGCCAAGCAAATGATCCACGGAGTCGGCCAATCCGAAGAATTGCGCAAACTTTACGTTGCCCTGACCCGGGCGCGTCAGGCCCTGTACGTGGTGGGGTCAATCAAAGAGGACCCGGCAGCGCTGGTGAAGAAATGGGGCGCGGCGGTACAGCCGGAAACGACGCTGCTGTCCACGACCAAGAGAACCGGCGCGGCCAGCTTTCTCGATCTGATGATGCCTGCTTTGCTGCGGCTGCCCGCGGTCAATGACACCTTGGCTGCTGACGGAGCCATTACCCCTGATCCGCAGTTGGGCACCCCGGCGATCACCGTTGCGCTCGCTGCCCCCCAAGCGGCTGGCCAACGGGTGCAGGCGGCCCCGCAGCAACTCATCGTGCGGCCGGAAGATTACCCAGAATTGCAGCAGCAAGCTGCTCGCTGGCAGCAGCCCTACCGCTTTGCTCAGGCCACCCGCACGGCGGCATTCCAGACGGTCACGGAAATCAAGCGGGCCCAAGACGACCCGGTGCTCACTGACACCCGCTTGACCACCACCGAAGCCAGCGGTTATACCCAGTCGCCAGCCTTCCGGTACGTGAAAGACGACGAGTTCACGCCGCCGGCCTTTCTCACCGATCAGGAGGCGCCCTTAGCCACAGCGGTGGGGACGGCCACCCACTTGGTGTTCCAAGAACTGGACCTCAGTCAAGGCCAAGTGACCGTTGCCGCCGTCAGCCAATTGATCGCCGACCTCACCACGGCCAAGCAAATCGACCCGCGGGCGGCGAAACAAATCAGCGCCGCCGGGGTGGCCGCTTTCTACGCGACGGAACTAGGCGCGCTGCTCCTCGCTCATCCCCAGGCGGTTCACCGGGAGATGCCGTTTGCGCTCTTGCTGCCGCCCAGCGAGGTCTTCCAAGCGGCCGGCCCGGCTCAGGCTTTCCCAGCCGATGCCAACATTCTGATCCATGGTATTATAGACGGGTATATCGCATTGCCTGACCAGGTCATCCTGTTCGACTACAAGACGGATCACGTCCAAGGCCGGCAGGATCCAGTGGGGTATTTGCAAGATCAATATCGGTTGCAGCTGCAGTACTACGGAGCGGCCCTGGGGTCGATCCTGCACCAGCCTGTAACTGCCCAGTACCTGTATTCAGTTGCCTTGCAGCAATTGATCCCGGTACCGGTAAGAAAGGAAGAATGA
>SRR1151209_01498 ATP-dependent helicase
ATGCGGCAAGGCCAACTCTATGCCGTGGTGGATCTGGAAACCACGGGCACAGATTACGCCAGCGGGGACCGGATCATCCAATTCGGCTGTGCGCTGGTGAAAAACGGGAAGATCGTGGATACGATCGCCCAAAATATCAATCCCCATCAGGCCTTGCTGCCGGCGATTCGGAATCTGACCGGGATTCGCGACAAAGAACTGGCCAGTGCGCCAGATTTCCAAGAGATCGGTCCGACGCTCCATGGCTTGCTGGACGGGGCTGTCTTTGTGGCCCACAACGTCAATTTTGATTTGCCCTTTATCAACGCGGAATTTGCCGGTCTGGACTTGCCGCCCATTGGTGAAAAAGCATTGGATACAGTGCAGCTCGCCCAAATCCTGCTGCCTTTTGCCCCGAGTTATAAATTGTCCGATCTGACTAAGCTGTTAAGCATTGAGCACGACGATCCCCACCAGGCCGACAGTGACGCCATCGCCACGGCCCACCTGTTTTTGCTGCTGGATGAACGGCTGCGGGCCCTGCCGGCAGTGACTCGCCAGCGCTTGGCGGCGATGGGCCAGGGGCTGCTGCGGCAAACCGGGGATTATTTGGCCCTGATGGCGAAGGCCGGTGATACGGCGGCGCACGCGGCTGGTTACACGATTACCAATGGGTTGGCACTGCGCCGCGAGCAGGAAGCTGCGCCGGCGGCCCCGACCCATGTCGCGTATCCCAGCGGCAAAGCGGCCATGACCCAGCTGCTCAAACCGCGCTTTACCGTCCGGGCCCGGCAGGTCAAAATGATGGATGCCGTCTATCGTCATGCTCAGCACGGCCAGACGCCGCTGCTCATTGAGGCCGCGACCGGCAGCGGCAAGTCGCTGGGTTATTTGCTGCCGCTGCTGATCCACCAGCAGGACAGTCAGCAGCAGATCATCGTCACCACTTCCACGCTGGCCCTCCAGGATCAGCTGGCGCAGCAGACCCTCCCGGCGATTGCCGCCATCATGCACACCCAGTTGCGGGTCGAGATCGTCAAGTCGGATACCCATTATATTGACCTTGGCCAATACTACGGACTGCTGGGTCGGCGAGATTTGAATACCGGCGAGCAGCTGTTGATGATGAAAATCCTCGTCTGGCTGACCCAAACCACCACTGGCGATTTGCAGGAACTGCAGCTGACGACCTATCGCTCACCACTGTTCACCGCCATCGTCAGCGGTCAAGAAAGCCCGGCCGATTCCCCCTGGGTCAGGGTCGACTTTCTGCGCCGGGCCCACGCCCGCCAGGATGCGGCCCAGGTGCTGATCACCAATCATGCCTACTTCACCCGGCACTACGATGAAACGCCCTTTGCGCGCAATGCGTTAGTGGTGGTCGATGAAGCCCAGCACGTCGCCGACAGCGCCGTAGACGCCTTGATGGCCAAGGGTAATTTGCCCCGCATGCTGCGGTCGCTGCACCAGATCAAAGGGGCGATCGATGGCGTGATTCGCCAGGAACAGTGGAGTAACGGCGAATTATTCCGCTATCAGGTCGTCTCCGTGGGCAACGCTGTTGACTTGCTCACCAGCCGCTTCAATGAACTCCAGGATTTTCTATATGCCCAGGTCATTCAGGGCAATATCGTGCGCAGTGAACGCAATCAGCCGATTCAGCGGCTCTGGCAGCCGGATGCGGTGGCCTGGCAGACACTGACCCGGTATCTGACGCAGATCGACGATACGCTGCTCCAACTCTTCACGGCGCTGACCCAGCTGCAGCGTTATATCACCAATCAGGCGGAACACTGGTCCCAACGGGTCACCGCCATGACGGCCACCATCAGCGCCGCGGCAGAAGACCTGCGGCCCTTAACCGATGACCTGGATCAGCTTAGCCGGATCCAGATGGCCAGCCATCCCAGTGCCGGGTTTGTGATCCAAATGCGTAATTACGGCGATCTGCGCTCTGTCTCGCTCCATTGGGCACAAGTCGATATCCGGCCGTTATGGGCGGCCGTCACCCGTCGTTTTGCGCCGTTTATTTACGTTGGCGCCACGCTGCGGGTCATGGACAACTGGCAGCCGTTTTGCCAACCGTTGGGCATCACCGACGCCATTAAGATGGTGCTCCCTAACGGCTTCGCCTACAAACGGCTGGGCCGGGTCTTCATTACCCCGGATGCACCGGACATCAAAGAGACGCCGCCCGCCGAGTACGCCCATTATGTGGCCGGCATGATCGAGCAATTGAGCCGGGCAAACCATCAGCGCATCCTCGTCCTATTCAATTCCCTGAGTCTGATCCAACAGGTTTTCGATGAGATGTCCGAACTCAGTCTGATCGGTCAGCGGGAATTGCTGGCCCAGGGCGTAACCGGTTCGGTGGAAAAAGTGATGAAACGGTTCAAACTGGCCGACGGCGCGATCTTGCTGGGTGCCGCTACCTTCTGGGAGGGCATTGATCTGCCTAACGACACCCTCCAAATTTTGGTCGTTACCCGGCTGCCCTTTGAGCCGCCGACCCGGCCGCTGACTCAGTTGCGGGCTAATTTCATCACGGCCCAGGGGGGCAACCCGTTCTATCAGGACGCCTTGCCCCGAGCCACCCAGCGGCTCACCCAAGCCTTTGGCCGGCTGTTTCGCTCCCGCCAAGACCATGGGGTGCTGATCATCTTGGACCGGCGCATCATGGCCGAATCCTGGGGGCACCAGATGCTCCACGATTTACCCCGGACAGTGCCTAAGGTGCAGCTGCCCAGTGCCGAAATTGCCCAAGCCACCGCGGACTTTCTCGCCGGCATTCCCGTAAAAAAGGTAAAGACGTAA
>SRR1151209_01499 hypothetical protein
GTGCGTTCCAGTTGGCAAAAATGGGCCTATTGGGGCACGATGCTGATCATCGTCGCCACCATTCTCAGTATCTATTTCGTCGCCACCGCGCCCCGGCGCAATGCTGAAAATCAGGCTCGGGCCGTCGCTGAGCGGGTGGCCGGGGTCACTGAGCCGCAAGTGTTTTACTTATTCAACCGCAATGAAACGGACTACACCATTGGCGGCAAACAAAAGTCCGGCCGGCGGGTGTTTGTGATCATCAACGCCAAGTCCGGCAAGACCCGCACCCTCGCCGCCAGCGGCGGGCTGAGTGCCAGTGCGGCCACAGCCCAGGCCCGGGCGGCTAATAACCAAGCGCCGGCCACCAAGGTCGCTCTGGGGCTCTACAAAGGGACCCCCGCCTGGGAGGTCACATTGCGCCAACGAAACGGCAGTTATCGGTATGTCCTGCTGAACTTCAAGACCGGGGAGACGGTCAAGGCATCATGA
>SRR1151209_01500 asparaginyl-tRNA synthetase
ATGTCTGAACCAGAACACATCAGTATTATCGATTCGCCGGACCACGTCGGCGAAACCGTCCGCATCGGCGCATGGCTGACCGATAAACGTTCCAGCGGGAAGATTTCTTTCCTGCAGCTCCGGGATGGCACCGCCTTTTTCCAAGGCGTCGTCGTGAAGAACGCCGTGTCCGAAGAAGTCTGGAACTTGGCCAAGGAAATGCACCAGGAGGCCAGCTTCTGGGTCACCGGTGAAATCCACGAAGACAAGCGATCCCACTTCGGCTACGAAATCGAGATCAGCAACATCGAAATGGTCGGCGAATCGGAAGGCTATCCGATCACCCCTAAGGAACACGGAATCGAATTCCTGCTGGATCACCGCCATCTGTGGCTGCGCTCCCGCCGGCCGTTTGCCATCATGCATATCCGGAACGAAATGATCCGGGCCACCTATGAATTCTTCAATAAAGAGGGCTTCATCAAGATGGACCCGCCGGAAATCACTGATGCCGCACCGGAAGGCACGACGGAACTGTTCCACATCGATTATTTCGATAATGATGCCTATCTGTCCCAGTCCGGCCAGCTGTATATGGAAGCCGGGGCAATGGCTTACGATAAGGTCTTCTCCTTTGGCCCGACGTTCCGGGCTGAAAAATCCAAGACCCGCCGCCATCTGACTGAATTCTGGATGATCGAACCAGAAATGGCTTTTATGCATCAGGAAGAAAGCCTGGCCATTCAGGAACGCTACATTGCTTTCCTCGTGCAAGGGGTGCTGGACAAATGTCAGTACGACTTGAAGCTCCTGGACCGGGATCCGAAGATTCTGGAACGCTACACGAAGACACCGTACCCGCGGATCACCTACGATAAGGCGATTGAAATGCTGCAAGCGGGCGGCTTCAAAACGCAATGGGGGGATGACTTCGGTTCGCCGGAAGAGACCTACCTGTCCGATCAATTCGAGCAACCGGTCTTTGTGTTGAACTATCCCAAGAGCATCAAGCCCTTCTACATGAAGAGCCACCCGACGCGGGATGATGTTTATATCTGTGCCGACTTGCTGGCGCCGGAAGGCTATGGCGAGATCATCGGCGGCAGTGAACGGGAGACCGATTATGAGACGCTGAAGCAGAGCATCATCAAAGCAGGGCTGAGCGTGGATGAGTATGAATGGTACTTGGATCTGCGCAAGTTCGGCAGTGTGCCGCACAGCGGATTTGGTTTGGGCTTGGAACGGGCGATTACTTGGATCTGTCATTTGGACCACTTGCGGGAGGCAATTCCGTTCCCGCGGATGATCAACCGGTTGAAGCCGTAA
>SRR1151209_01501 DNA replication protein DnaD
GTGGATTTTTGGCAAGATTTGGTGCAAGCGCCGTTGATTACGGTTTCTGATCTGGTATTGCAGCATTATCGGGCGGTCGGGATGTCGAATCGGCAGCTGATCGTGTATTTGCAAATGCTGAGTTTTGCGGCCCATGGGGAACAGTTTCCGCCGGTGGCGGAGATCGCGCAGCGGACGGGGCTGGCAGAAGATGCGATCTATACTGCGCTCCACGAGATGCTGGATGCGGGCTTCATTGATTTGCGGTCACAGGAAAATGCCGCGCGTAAGCGGGTAGACTGGTACGATTTGACGCCGCTCTATGCCCGCTTGCAGGAAAAGCTCGCCCAGCCGGTCGCGGGGGCCGTGCCGGAGGACGCCGGTGCGCCGGCACAGACCCCGCTCACCCGCCAGCGGTTATTTGACGAAATCGAAGTGGAGTTTGGCCGGCCGTTATCGCCGATCGAACAGGAAACCATCAGCGCCTGGCTGGATCAGGATCATTACGCCCCCGAGCTGGTTTCTCTGGCGCTGCGGGAAGCGGTGCTCAATCAAGCCTATTCGCTGAAATACATGGACCGGATCCTGTTGAACTGGGAGAAGCGCAACATTCGCACCAAAGCGGATGTGGAGCGGGAACGAGCCAACCGGAACCGGTTTTAG
>SRR1151209_01502 endonuclease III
ATGACAGAGTTATGGTCAGATGATCGTTTGCGCTGGGGCATGCACGAACTATTCAAACTGATTCCCAATGCCCTGGGTGCGCTGCACGCTGAATCGCCATACCAATTATTGATTGCGGTGATCTTGAGTGCCCAAACCACCGACGCGGCGGTCAATAAGGTAACGCCGGCATTGTTCGCGGCCTATCCGACACCAGCCGCCCTGGCCGCCGCCAAACCTGCTGATATTGAGCAGTTCATTCATACGATCGGCCTGTTTCACACGAAGGCTAAACACATTCAGGAAACCGCTCAGCAGTTGGTGACAAATTTCGACAGTACCGTTCCGCACACCCATCCAGAGTTGGAAAGTCTGCCCGGGGTCGGGCGCAAGACCGCCAACGTGGCCTTGGGCGATGCCTTCGGAGTACCCAGCTTTGCCGTGGACACCCACGTTACCCGGATCTCCAAGCGGCTGCCTGCGGTGTCAGATAAGGCCAGCGTACGCGACATCGAGCGGCGCTGGACAACGGCCTTGCCTGAAACAGAGTGGGTACAAGGGCACCACACGCTGATTCTTTTCGGCCGGCAATACTGCATGGCCCGAAACCCGCGGTGTACTGAGTGTCCTTTAGCGCCATATTGTGCCACAGGGAAGCAGCGACTGAGCCAATAA
>SRR1151209_01503 cell surface protein
ATGAAATTTACGACACTTATTAAGACGTCGATATGGGGTATCCTTGTCTTTTTTTTATTTCTTTTGAATGCACCGACCGCAACTGCCGCCAGCAGTCTCAGCAGTGGTGGCGCTCCGGCGTTAAGTCAGGGCTTATTACCCGTACAATCGACCAAGACGCCGTCAATTACAAATACCATCTCGTCGTTAATTACAACCACAGCAGCGCAAGTAACCACTAAGATTGCCCCCCCGGAAAACGCTTCCACTACTAATTGGTGGGATATTTCAACAGACGGGACGCTCACCATTCACAGCGGCCACACACTGAGCTTTACCGATACACAAGGTGGGCAATGGCAGACTTGGCCATGGACTGACCAAGCCAGTACAATCAAAAAAGCAGTGATTGAACCCGGGGTGTCGGCAGAACAGACACTGGGGTTCTTGTTTGCCGGGTGCACTAACCTGACCGACGTCGAGGGATTAAGTAACATTAAAGTTAATACCGTTACCACACCCGGGCATCCTGCTGTTAATACATTGGCGATGATGTTTCAAAACTGCAAGTCATTAACCACGATTAATTTAGATGGATTGGATACTAGCTCAGTGACGAGCATGGATTCCATGTTTTCGGGTTGCAGCGCTTTAACCAACTTAAACCTCACCAAGCTCGATACCAGCAGTGCGACTTATATGGGAAATATGTTTGATGGTTGCAGCGCTTTAACCAACTTAAACGTCAGCAACTTCGATACCAGCAGTGTGACTTATATGGGGTACTGTTTTCTGGATGTGGTGCATTAA
>SRR1151209_01504 cell surface protein
ATGTTTCATATGTTCGATAGCTGCAGTAAGTTAACCAGTTTGGACCTTAGTACATTCGATGCTCATCAGGTGACGAACACAGATGAAATGTTTAGGTATTGTTCAGCGTTGAAGCAGCTGACGTTCGGAAAAGAGTTTGTGACGAGTCGGGTGACCAACATGTTTTGTATGTTTCTCGGTTGCAGCTCGCTTCCGTCCCTTGATTTGAGCACTTTTAACACGAGTCAAGTCATTAATATGGAGCAAATGTTTAATAGCTGTAATTCACTTGTTCAGCTTGATTTAAGCAGTTTCGATACGCATAATGTAACCAGTATGGCTTTTATGTTCAATGGCTGTAGTAAATTGTCCAAGCTCAATGTGACAAGCTTTGATACCAGTAAAGTAACTGATATGCAATTCATGTTTTACGTATGTAATAGTTTACCCAATCTGGATCTTAGAAACTTTAATACGAGCAACGTCACTAATATGCAGTATATGTTTTCTTTTGATTCTAATCTAAGCGCACTTGATCTGACTAGCTTCAACACTAGCAAAGTCACGAACATGTATTGGCTGTGTAACGGAGATAGCAAACTCAAAACCCTGAGCCTTACCCCGAGCAAATTTGATACGGGTCAGGTTACGTCAATGAACTCCATGTTTGGGTCCTGCAACAGTTTAACAGCATTGGACGTCAGTCAGTTTGATACCAGGAACGTCACTAATATGTCCAATATGTTTGCCGGTTGCAATCAAGTACCCGTCCTAGATGTGAGTCAGTTCAACACCAGCAAAGTCACCACTATGGCTGCTATGTTTAACGGGTGCAATACTGTGTCTGTTCTGGACGTGAGTCAGTTCAACACCAGTCAAGTCACTGACATGAGTCAGATGTTCCTCAACTGTTCTGCTGTGACGCAACTTGATATGCACAACTTCGATACCAGCAAAGTCACTAATATGTACGATATGATGAACGGATGCACCTCATTAGTCCAGGCAAACGTTAGCAGCTTTAATACGAGTGCCGTCACCAGAATCAGCGGCTTTTTCAAGAATGACAGCAAGCTTCTGACAGCCGATCTGAGCAACTTTGATGTCCGGACCCTCAGCAACCATGATGTGGGTGATATGTTTGCCAATTGTACGAGTTTATGGAAAGTATCAGTCGGCGATAAGGCCCAGTTAGGTCAAGGAAATAATGGCAATCTGCCGCCGCATAGTGCTGGGGCAATCGCTCAGAACAGCCCGGATCCATATACCGCAGGCGCCGGCTGGCAGGAACTCGGGACAGCCGCTAATCCGCTAGAGGCCAATGGACCTCAGTTCAGTGCATCGGGTAATTCGGTTACTCCTGGCACCTTAATGTACCTGTTAAGCCAGCCCAGAGCGGGAACAGTTAATCCGGCCACGGGTAAAGCTGTGTGGACCTATGTTTGGCAGCCCCAGCGCTGGTGGAACATCACTGGCGACACCTTGAATATTGGGACGCAGCCCCATGCGCTGAATCTCACCAATGATAAGTATTCGACCAACAATAGCTGGCCCTGGTCCAGCCAAGCGGATGCCACCGGTGTGAAGCACATTAATCTGGCGGCTACTGGTTTAAGCGCCGAAGGATCGATCAGCGGGTTGTTTAAAGGACTGAGCAATGTCACTGACATTGCCAATTTGCCTGATTTGGATGCCAGTAAAGCGACTGATACCAGTGATATGTTCAATGGGTGTGCCGCATTGACCAGTTTGGATTTAAGTACTCTGGATACTCGGCAGGTCACCACCGAAACTGGGATGTTTACCGGGACAACGCACCTTTGGCAATTGAAACTGGGGCCCAATTTCAAGACTACGACCGATAATCTTGGTTTAGGCGGACCAGTCGCCGGCACTGTGATCAGCAGTACCGATGCGGCTGGCCAGGCCCATTCGTACACGATCCAGGCCACGGACACCGCGTGGCAGGAGCTGGGCTCACTTGGGACTTTGCTATCGCCGGCAGGTGACACATACACGCCAACTGATCTGATGAAATTGTACAATGACGGCACGCGCCCGACGACGGTCCAGACTTATGTTTGGCAGCAGACCGGCGCCGGGACGATCGGGTTATCCATGACGGGCAGTTTCGATTACGGTAAACATTTCCAGCCGATATTCGGTGCGTTGGACTTGCATAATCTGCAGCCGTTCGCATTAACTGTGACGGATACTCGGGCAGACCGCGCCCAGATGCAGTGGCACGTGGATGCCACCGGGTCCGACTTTGTCAGTGATGACGATCCTAGTGTCAAGGTGTCGCCCAATCCCTGGCGCTTCAACGCGGGCAATGGGGTACTGCAACCAATGTCAACGCCAATTACGATTTGGCAAAACACCAGTACCAGTACCGATACGACCTATCCTAAAAGTTGGGACACCAATCCTTTTGAGCTGGACTTCCCGGTGGGGAGTGTCCCACAGATCGGCAAGTACCACGCTACGATTACCTTTACTTTGGCTAACGGCTTATCCTAA
>SRR1151209_01505 cell surface protein
ATGAAGCTTTTAACAAACATACAGACATTGATTTGGGGTATCTTTGTCTTTTTTTTAATTCTTGTAGCCAATGCGCCGATCGTGTCTGCCAGCAGCAGTATCAGTAGCAGCACTCCGCCGTTACTGGATCAGGGCGTATTGCCCACGCAATCCACCCAGACACCGTCAATCGCCGACACCATTTCGAAAATAATTGCCACTACACCAACGCCGGCAACAATCAGGGCAGCGAACGCAAACAGCGATGACAGCAGCGATGATAACAGTTGGTGGAATATTTCAGCTGACGGAACGTTGACTATTGGCGGCAACCATAATCTGAACGAAGGTAACACGGGAACCAACTGGTGGTCGAATTGGCCATGGTACAATCAACGCGCTTCAATCAAAAAAGTTGTCATTGAACCCGGCGTAACCGCCACCCAAACTCTTGGGTACTTATTTCAAGATTGTACTCAGCTGACAGAGGTTGATGGATTAGGCAACATCAAGGTCAAAACGGATAATATTACCACCGCCGCGGTCAACACCATGTATGGTATGTTTCTCAATTGCAGTTCACTAAAAACCGTTGATTTTACAGGGCTGGCGACAAGCAGTGTGGCAAATTTTGGAAGCATGTTTTCTGGTTGCAGTTCACTAACTAGTCTGGACCTTAGCTCATTGAACACAAGCAGCGCCACGAATATGGCCTCCATGTTTTCTGGTTGCACCGCACTATCTACCCTAGACCTCAGTTCATTCAACACCAGTAACGTTACCTCTATGGCCGCCATGTTTTCCGGTTGCACTGCACTATCTACCCTAAACATCAGTTCATTCGACACCAGTAACGTTACCTCTATGGACGGTATGTTTCACAGTTGCAAAAATCTGCCAACGATTGATGTCACCAAGTTTGATACCAGCAAGGTAACCCTTATGGGCGGTATGTTTTACGAATGCGGTAGTTTGACTGACTTGAACGTTACCAGTTTCAACACGGCGAAGGTCACCTCTATGTCGGCCATGTTTAGTGGATGTAACAAACTGTCGAAACTTGACGTCAGCAAATTTAATACCAGTAACGTCACCGATATGGGTGCCATGTTTAGTGGATGCAACAATCTGCTAGCAATTGATGTCAGTAAGTTTGATACCAGTAATGCCACCACTATGAGCGGCATGTTTAGTGGATGTAGAAGTGTGACTATCTTAGATGTCACTGATTTTAATACGGCTAACGTCACCTCTATGGCCAGCATGTTTTACGGGTGTAATAAGCTGCTAGCAATTGATGTCAGCAAGTTTAATACCAGTAATGTAACCAATATGGCCTCCATGTTTTTTGGATGTAACAATCTGACGGGGCTTGCTGTTGGCGGGTTTGACACCCGTAAGGTTCAAAGTATAGACAGCATGTTTTACAATTGCAACAATCTGTCAGAACTTGACGTCAGCAAGTTTGATACCAGTAAGGTCACCTCTATGGCAAACACGTTTTACAATTGCAACAATCTGAAAACGCTCGATGTCAGCAACTTCAATACCAGTAATGTTGTCTCAATGGTTGGAACGTTTTCCGGGTGCAGCAAGCTAACAACACTAGACCTGAGCAATTTTGATACAAGTAAGTCTTCTGGTAGCAACAAGGGCAACAGTGCGCTTTTCGGCTGTAACAGCTTATGGCGCCTGTCGGTGGGCGACAAAACAACGCTAGTTAATTCGAACGGTTTGCCGAATCACGCTGCCGGAGCAATCGCGCAAAACGATCCGACCTATAAAGCAAACGCGAGCTGGCAAGAGCTGGGTGTCGCCACGAATCCGCTTGAAGCAGCGGGTGCCCAGTTCAGCAATTCCACTGCCTTATCGGCTGAATTGGCGACGCCGCGGGCTGGCACGGTCAACCCCACCACGGGTAAGCCGGTTTGGACTTATGTTTGGCAGCCGCAGCGCTGGTGGAACATCACTGGCGATACTCTGAATATCGGTACCGAGCCCCACACGCTGAACTTCGCGGCCGATAAATATTCGACGGATACTTGGCCGTGGTATAGCCAGCGCAGTGCGATCAAGCATGTAGTGCTCGCCACCAGCGGGTTGAGTGCATCGGCTTCACTCCCCGGACTGTTCAGCGGACTGAGCAACGCCGTTGATATCACGAACCTGAAACAGCTCGATATGAGCCAGACGACTGACATCAGCAATCTGTTCAATGGGTGTGCGGCCTTGACTCGGTTGGATTTAAGCGCCATTGATACCCGGCAGGCCACGACTGAAACTGGGATGTTTAGCGGGACGACGCACCTGTGGCAGCTGGTTTTGGGACCGAATTTCAAGACGACCAGCGACGATCTTGGATTAGGCGGACCAGTCGCCGGCACTGTGATCAGCAGCACCGATGCGGATGGCAAAGCCCAGTCGTACACGGTCCAATCCACGGATACCGCTTGGCAGGAATTGGGTCCTTTGGGGACTTTGCTGTCGCCGACCGGGACCACCTATACACCGGCCGATCTGATGAAGCTGTACAATGACGGCACGCGCCCGACGACGACTCAGACCTATGTCTGGCAGCAGACCGGCGCCGGGACCATTGGTCTGTCCATGACGGGCAGTTTCGATTACGGCAAGCATTTCCAGCCGATATTTGGTGCACTTAATCTGCAAAATTTGCAGCCGTTCGCACTCACCGTGACGGATACTCGGGCAGACCGCGCCCAGATGCCGTGGCACGTAGATGTCACCGGGTCCGACTTTGTCAGCGATGACGATGCCAGTGTGAAGGTGTCGCCCAATCCTTGGCGGTTCAATGCGGGCAGCGGGACACTGCAAACCATGTCGGCACCAATTACGATTTGGCAGAACACCAGCACCGGTACCGATACGACCTATCCTAAAAGTTGGGACACCAATCCTTTTGAGCTGGACTTCCCGGCAGGCAGTGTGCCGCAGATCGGCAAGTACCATGCAACGATTACGTTCACGCTGGGCGATGGCTTGTAG
>SRR1151209_01506 cell surface protein
TTGCATTTCGGAACAAGATTTATCGGCCTATTAAGTTGGAATCTCCTCGTCTTTCTATCGGTCATTTTTTTAAAAGCGGCGGTCGTTTATGCCGATAATGATTTTGGTAAAACGGCTGCGCCGCTGCTTAATCAAGGCCCAGCCGTATTGCCGGCACCGCGTACACTGCCGCTCGGGATGACGATCTCGCAGCAGATTGCTGCAACGCCGATGCAGCCAGCCGTCAGACCAGTACTGCTGGCTGATGCCGCCGATACGAGCTGGTGGAATATCTCGGCGGACGGGACATTGACGATTGGCGGCAGCCATAATTTGAGCGAACTGGATACCCAAACGCCCAATTGGCAGCAATGGCCTTGGTACAGTCAACGGACAGCGATTAAGAAGGTCGTTATTGAACCGGGCGTGACCGCTACCCAAACCCTTGGCTTCTTGTTTGAAGGCTGTACTCAGCTGACTGATGTTCAAGGATTAGGCAATATTAAAGTCAAAACCGACAATTGGAACACTGCGGCAGTCAACACCATGTATGGTATGTTTCTCAATTGCAGCGCCTTGAAGTCGATTGATTTAACCGGTCTGGTGACGACCAGTGTGACTAATTTTGGGCATATGTTTGCTGGGTGCAGTGCGTTAACTAGTTTAGATCTCAGCACTTTCAACACCAGCAGTGCAATTGATATGTCGTCCATGTTTTCAGAATGCAGCGCGTTAACCAAGCTCAACGTAGGATCTTTCGATACGGGCCAAGTGAGGAACATGGATTCAATGTTTAATCAGTGCACCGTGTTAACCAATCTAGACCTCAGCGCCTTCGATGTTCGTCAGGTGACCACAATGGCGACGATGTTTAGATATTGCAAGGCCTTGAAGCAGCTGACATTGAGCGGCAAGTTCGTAACCAGCAATGTGACCACCATGTTTGGTATGTTCCTCGGTTGCCAAGCACTGACGCAGCTGGATTTAAGCAGTTTCGATACGAGCAAAGTCACCAGCATGCAGCAAATGTTCAATACCTGTTCCAGTCTGACTGCACTTGATCTCAGCAGCTTCAATACGAGCAATGTCACGGACATGGCCTATATGTTCAATGCCTGCAACGGACTAACCAAGCTCAACATCAGCAGTTTCCGTACCGGCAAAGTGAAATATATGCAGTTCATGTTTTACGTTTGCAGCAGCTTGCCCAACCTAGATGTTGTCAACGCCGACGATAAAATGACATTTTTTGCCGATTAG
>SRR1151209_01507 ABC transporter ATP-binding protein
ATGAAGAAAATTAACGCAGCAGTTCGCGAATTGGGCAGCACGCTGCACCTGATGAATAGTCTGGACAAGAAGCTCGTCTACTTGATGCTCGCCACGAGTTTGCTCAACGCCATGAATCCATACGTGCTGATCATTGGCAACACGCAGCTGTTGAACGCGATGGTGGCCCGCCGCTTTAATACGGCGATCCGCACCGCCGTGGTGACCTATCTGTTAGTGATCGTGGTCGGGTTAGCTGCCCTATTTATCCGTCAGACCATGCTGGTCAGTGCTGCCCGGGCCAACGAAGTATTAAAGATACGGATCCATGAAGCCTGGGAGCAGGTGGACTTTGCGACACTGGAATCTAAGGAATACTTCAGCACGATGAACAAGAGCGAGTCCTCCTTCCGCTATTCCGGCGGCGTGCGGGCGTTTTTTGCCCAGCTGCAGCAGTCTTTAGAAAATGTGCTGGAGATTATCACTGGCATTTCGCTGCTGGCCTGGATGGTTGTCTATCGCATTACGGAACAGCAGACTATCCTCTATGCCACGATTGTCGTCGTGGTCGGACTGATTTTGCTGGAAGCCGGCCTTGGGTGGGCATATCAGCATTTGACCAAACAGAACATTCAGATCTTTGCGGCCCTGATGGTTTTCCCGCGTTTACAATCTAAGTGCAACACATAA
>SRR1151209_01508 multidrug ABC transporter ATP-binding and permease protein
ATGCACAGTTATGGGGATTGGACTTATATTATGCGGCTGTTTGGCAAACAGCGGCGGGCGGCTAAAATACTATTATTTCTAATCGATTGTATTGTCGGAGCGGCCTACGCCGGGTTCGTGGTGTCTTTCCCGGCCCTCGTGGTGCATTTGATTCAACAGCCTATCCTGCCAGGGCTGAGTACGGTACTGGTTATTCTGGCGATTGCGCTGGTCGGCTACGGGCTCAATATCCTCGATACCCATCTGCAAGACGGGTTGACCCAGTTCACGTTTGATTTTCGCTTCGACTATATTCCGGTATTCTCGGGTTTGATCTTTAATTGGCGCCAAGCGGATATTGATTCGGTCCAAGGCAAAGCTGTTATCGATCAAGCCTATGAAGCAATTTATAACGGCGGCAACGATGGAATCGGGGCCGTTGTGGACAATACCCTGCAGGCCGTCCGTACAAGTATTCAGGTGATCATTGTCGCTTTGGTGTTAGGCTACTTTAACCCCTGGCTGATCCTGATTGTGGCGGCAATCAACTTGGTGGAATACGCGTTGCAGCGGATCGCTAATGCCTGGTTTGCCAAGCATAAACAGGAAGAAAACCAGATCGCCAGTTACCAGAGCTATTTCACCCGGATGTTAATGAAACGCAGCAGTGGGAAAGATATTCGGCTGTTCAACCTATTTCCGCTGCTGCACCAGCACTTCACAGTATTGGCTGACGGCATTGTTGCCTGGCAGCAGCGCTATACCCGGGTCACCACGCTGGTCGGCGGCTTGCAGGTCGCGGTGAATGCTCTGGGTATTCTCGGCACGCTGTTGTTTCTGATCCAATCCCAGACGGTCAGTATTGAAAACATCATCGTCTTCATCACTGCCATGCAGGTGCTGAATGCCCGGTTCACGACCATTCGTCAGGCATTGTCTGAAGTGGGCCGTAATCTGTCGTACGCGGCGAGTTTCCGGGCTTTCTTGGGGTATGCCCAGCCCCTTGAACCAACTCCGAACTTGCCGGCAATTGACCAGATCCAGTCCGTGCGCTTGCAGGATGTCTCCTTTGCGGTGGGCTCGGCCACTCTGCTGCATCATGTATCGTTGGCGCTGGCTGCTGGCCAGTCCCTCGCCATTGTGGGAGAGAATGGTGCCGGCAAGACGACGCTGATCAAACTGATCTGCGGTCTGTATCCGCCGACTGCCGGGACCATCACCATTAACGGCCAACCGCGCACCGCCTGGTCGACCGCATCGCTGCGGGACCGGATCGCGGTGGAATTTCAGGATGATATCCTGCTGCATTTTACGATTGCTGAGAATATTGCCTTGGTGGTACCTGAAAAAATTGATTGCGACCGGGTGGATCGCATGCTGCAGGAAGTGGGTATGCTCGATTTTGTTCAGCATTTATCCCATGGTGTGCGCACGATGATTGGCAATGAACTAGATCCCGATGGTATTTCTTTGTCAGGCGGGCAGAAGGAAGAGCTGCTCTTTGCCCGGGTATTGTACAAAGACGCCGACTTGAATATTCTGGATGAGCCCACGGCAGCCCTGGACCCGCTGGCTGAAAAGCAGTTCTACGCCTTGGCCAGTGCGAAGCTCAAGGACAAGATGGTCATTTTCATTTCGCACCGGCTGGGTTCCTTGACGGTGCAAAGTCAAATCATGGTGATGAAGGATGGCCGGATCATCGGTCTGGGTTCCCATGCCGAGCTGCTGGCCAGCTGTACGTATTATCGGCAATTGTGGGAAGCTCAAAAGACGCTGTACGCGGCGGGTGATCAAAATGAAGAAAATTAA
>SRR1151209_01509 anaerobic ribonucleoside-triphosphate reductase activating protein
ATGGATCGCACAGAAATTCAAAAGCACATGGCACAAGAGAGCAAACGCAGGATCGCGCGGTTGCCGAAGAATCCCAAACCGCAGGAATGGCTGGCCAAGGACTTATCCTTGGGCTATTACGCCAGTTACAAGCCCTTCGTGATGGTGGACGGGGAAGGTGTCCGATGCAGCTTGTATGTATCCGGCTGCAAGTTTGCCTGTCCCGGCTGCTACAATGCCGTCGCGCAAAACTTCCATTACGGTCAGCCCTATACGGATGCCGTTCAGGACAAGATCCTCGACGATTTGTCCCATTCCTACGTGCAGGGCTTGACCCTGCTGGGCGGCGAACCGTTCCTGAATACCCAGGTCTGCTTGAAGCTGTGCCGGGCGATTCGGGCCCGGTTCGGCCACACTAAGGATATTTGGTCTTGGACCGGGTATACGTGGGATGAGTTGCAGCAGGAATCTGATGACAAACTGAAATTGCTCAGTATGCTGGACATTCTGGTGGACGGCCGCTTCTTGGAAGCGGAGAAAGATTTAACACTGCAGTTCCGCGGGTCCAGCAACCAGCGGATCATCGATGTGCCGGCATCATTGAAGGAAGATAAAGTCGTTATCTGGTCGCGCTTGGTGAAATAG
>SRR1151209_01510 ribonucleoside-triphosphate reductase
ATGTTAGAGGTACACACGGTTACGACCAAAATTAAGAAGCGCGACGGCCGCATCGTCAATTTTGACGCGAGTAAAATTCAAACGGTGATTACGAAGGCCGCCCAAAGCGTGGGGAAGTTGTCCCCAGCGGATACGAATGCCATCGATGACATCACCAATGATGTGACGGCAAAAATTCAGGACCGCTATACGGCTGACGTCGAAATCTCTGAGATTCAAAACATCGTGGAGCAATCCTTGATCAATGACGGCAAGTACGATTGGGCAGAAAGCTACACCCAGTACCGCCTGCAACAAGACCTGAAGCGCAAGCAGCGGCGGGACGTCAATTTCCAGATCGACCGGCTGTTAAGCAAAGACAAGACCGTCGTTAACGAGAACGCCAACAAGGACAGCCGGGTTTTTTCGACCCAGCGGGATCTGACCGCTGGGGCCGTCGCCAAGGCGATCGGTCTGAAGATGCTGCCCAAGGCGGTGGCCAATGCCCACGTCCGCGGTGACATCCACTGGCACGATTTGGATTACACGCCCTACATGGCTGAAACCAACTGCTGTTTGATTGATTTCAAATATATGCTGACCCACGGCTTCGCCATCGGCAACGCCGAAGTGGAACCGGCGCACAGTATCGGAGTGGCGGTCACCCAAATGACCCAGATCATCGCCAATGTCGCTTCATCCCAATACGGCGGCTGTTCCAGCGACCGGACCGACGAAGTGCTGGCGCCGTTTGCGGAGAAGAACTACCAGAAGCATTTGAAAGAAGCCCGCGAGCTCACCGACGATCCGGCCAAGGTAGAGGCCTTCGCTAAGGAACGGACCCGCAAGGACATCTATGATGCCTTGCAAACCTTGGAATATCAGGTCAACACCCTGTATTCAACCCAGGGCCAGACGCCGTTTGTGACGGTTGGGTTTGGCCTGGGCACCAGTTGGATCGAACGGGAGATCCAGAAGGATATTTTGAAGATCCGGATCTTGGGTCTGGGCAAAGAAAAACGCACGGCCATTTTCCCGAAGCTGGTCTTCACCCTAAAGAAGGGCTTGAATCTGCACCCCGACGATCCCAACTACGACATCAAGCAGCTGGCCATTGAGTGTGCCACCAAGCGGATGTACCCGGATGTGTTGTCCTACGACATGATCAAGAAACTGACCGGTTCCTTCAAGGCACCCATGGGCTGCCGCTCCTTCCTGCAAGGCTGGACAGATCCCAAGACCGGTGAAGAAGTGAATGCCGGCCGGATGAACCTGGGGGTGCTCACCGTAAACCTGCCCCGCATCGCCATGGAATCCAAGGGCAATCAAAAGAAGTTTTGGGAGATCTTCGAAGAACGGATGAACATCTGCAAACAAGGCTTGGTCTACAAGGTCCAGCGGACGAAAGAAGCGACCCCGGAGAGTGCCCCGATCCTGTACAAGTACGGCGCGTTTGGGCACCGCTTAGCGTCCACGGATACTGTCGACTCCCTGTTCCGCAACAGCCGGGCTACTGTTTCTTTGGGCTACATCGGCTTGTATGAAGTCGGCACGGTGTTCTATGGTCCCAATTGGGAACACGATCCTGAGGCCAAGGCCTTTTCGGTCAGCATTGTCAAGTCCATGGCCGACCACTGCAAAGCTTGGGAAAAAGAATACGGCTATCACTTCTCCGTTTACGGCACGCCCAGTGAATCCCTGACTGATACGTTCTGCCGGGACGACCGAAAGAAGTTCGGCATCGTCAAGGACATCACGGATAAGGAATACTATACCAACTCCTTCCATTACGATGTGCGGAAGAAAGTTACGCCGTTTGAGAAGCTGGATTTTGAAAAGGACTATCCCCAGTACAGTGCCGGCGGCTTCATCCACTACTGCGAATACCCGAATTTGAAGCAGAACCCCAAGGCGCTGGAAGCCGTGTGGGATTATGCCTATGACAAGATCGGTTATTTGGGGACCAACACGCCCATTGACCAATGCTTCAAGTGCGGTTTCAAGGGTGAATTCAAGGCGACCGCCAAGGGTTACGAATGCCCGGAATGCGGCAACCATGATCCGGAAACCTGCGATGTGGTCAAGCGGCTTTGCGGCTACTTGGGCAATCCCAACAAGCGGCCAATGGTTCACGGCCGGCAGGAAGAAATCATCCACCGGGTGAAGCACATGAGCTTCAGCAACGATCAAATCGCCAATGCGCGTTATTAG
>SRR1151209_01511 NADPH:quinone reductase
ATGAAAGCATTCGGTTTTACCCAAGGCGGCGGACCCACTGCCTTGCAGGAATTCGATATTGCCGCTCCGCACCCGGCCAATGATCAGGTTTTGATTGACGTTGCCGCCATCGGCCTAAATAATCGGGAGCGCCTTTCCCGGGAACAGGGCAGCTTAGGCGGTCCGACGATTCCCGGCCGGGACGCAGCCGGCATTGTGACCGCCGTCGGCAGCAATCATGCAACCTTTCAAATCGGCGACCGGGTCGTGGCCCATGTCCAGCAAAGCTATGCCGCCCAAGTCACCGCATCGGTACGCAGCACGGCCAAACTGCCCGCACAGCTCAGTTTCACCACCGCGGCTGCACTAGTGACGCCCGGAGTCACGGCCTTACCGCATTGTCTATACCTTTGGCCGCATTCGAGCCGGTGA
>SRR1151209_01512 NADPH:quinone reductase
GTGATTGTCAAAGGGGCTTCCGGCGGCGTGGGGTCTCTAGTCGTCCAGCTGGCTAACCAGGTCGGGGCGACCGTCATCGGCGTAGCCAGTGCTCGGAATCAACTGCTGGTGGAAAAATTGGGCGTGGATCGCTTTGTCGCTTACGATCAAGCGGACATCAGCACCGCCCTTGCCGCCACCGCCGACATTGTCGTCAATGTGGCGATGAATGGCGCCGGCGGCGACCAGGACGTGGCCATGGTCAAACCCGGCGGCCGCATCATTTCAGTCAGCCATCGCTCCCCGCGGTTGCCCGCCGGCATGACCTTCCAGCATACTTATCCCGGGGATGACACCGACAGTGCGGCCCTGCCCCAGCTGGTCCAAGAAGCCGCGGCAGGTCAGCTGACGGTGCCGATTGATCACGTGTTTCCTTTCACTCTGGCGGGATTTGTGGCCGCCCATGAAGCATTAGACAGCCAGCACACCGGCCGGATCGTCGTCGCCAAAGAACTGCCCACGTTATAA
>SRR1151209_01513 Na+/H+ antiporter
GTGGATCAAGTTTTTATTTTTATCTTGATGCTGGCTGCCGTGGTTGTGGCCAACGTCTTAGCGAAACACCTGCCCAAGATCCCGCTGCCCTTCTGGCTCATCGGCTTGGGCATGGGATTAGCCATTTTCCCTTTCTTCCGCAACTTTACTCTGGACCCTTCGGTGTTCTCCTTTGCCATCATCGCGCCGCTGCTGTTTAACGAAGGGCAGAATGCCTCCCGATTATGGATTGGCCGCACGCTGGGTAATATTTTCTCCCTGGCGGTGGGCCTGGTGCTGATCACCGTCTTGGTGCTCGGCTTCGGTCTGAGTACAGTCACCTTCATTCCCTTGGCGTTAGCCTTCGCGCTGATTGCCATCGTTACCCCCACCGACGCATCGGCAGTCAATGCCATCAGTCAGACCAACCCGTTGAGTGAGGGGCAGCTGCTGATTTTGGAAAACGAGTCGCTGTTCAATGACGCCGCCGGCATCGTGGCCTTTGACCTGGCTCTGGCGGCGTTTATCTCCGGTCAATTTTCGCCCCTGCAAGCCACCGGCCAATTCCTGTACGTGGCCATTGGCGGCATTCTCTTCGGGGCAATCGTCGGCACCTTGATCGTCAGCCTGCGCACCCAGCTGATCAAGTGGGGCGATGACGATCCGATCATCATGACCACCTTGCAATTACTCACCCCGCTGCTGATCTATTTCTTTGCCGAGGAATTGGGCTTCTCCGGTATCCTGGCCGTGGTCGCCGCCGGCATCGCCCATGGGGTGGAACGGGACCAGCTGCGCTTGACCAGCGCTCGGATGCAGATCGTCTCCACCAACGTCTGGGAAATGGTCAGCGGGATCCTGTCCGGCTTGGTTTTTGTTTTATTGGGCGTGACCTTGCCCACCGTGATCAGCGACGCCTGGTACGGAAATACCTTCCTGCTGTTGAACATCATTGGCCTGGGCATCTACCTGAGCAAACTGGTCCTGCGGATTCTGTGGAGCCGCTATCTCGTCCATGTGCCCCGCACCAAGCACCGCTGGCGCGATGCTTTGATCATCGGCTTTGGCGGCGCCAACGGGACCATCACGCTGTCCTTGGCCTTTTCCATGCCTCGCGGCGTCACCCTGCGCAATGAATTGATCTTCATGGCCGCCGTGGTGATCATCATCAGTCTGGTCGTCCCGCCGCTTGTCTTCCCCCTGCTCGTGAAAAAACAGCCCGTCGCCAACAAACAGCATGTGTGGGTTCGGCGGATGCTGGCCGAGGGTATCAAGGCCATGCGGGAAGAGACGGAACGCCCCGCTGAAGCCCAGATCGTGCTGGACAGTCTCGCCCAGGAACGGATCCTGGATGACGCGCCGAATCGCCGGGTCCAGCAGACAATTTTCCAGGACACCATTGATACGGAGAAAAAAACCATTGAGGCCCTGCGCCAGGCCAAGACGATTACGGACGATGAAGCTCATTACTACAACAACTTCATCGACTTGAACGACTTCACCGCCGACCAGCGGATCTGGAAGAATCTGCTCCTGCGCACCCGTTTCACGTTGCACATGGGCCATATTTATCGCGATCTGCGCTCGGTGCAGGATGCCTTTTTGACCAGCCCCATCAACCTGGAACCGATCTTCTGGAAGAAGCAGTTTACCGCCCACAATGAAGACATTCTGCCGATTGAAAAAGCCGGCTATGACGCCGTGATGAAACGATTGGGGACCCTGGAAGACAAAGACAACCGCGCGGAAGTAAACACCATCCGCCGCTTCTACCGGGACCGTCACCGCCGGGTTCAAGTCGACGCCGTGGACGGCGACATCATTTATCAAATGTTTTTGAAAGCATTCCACGCCGAGTACGAGTTGATCCAAGACGCGTTGGCGAAGAATGAAATCACTTCCGAACTGGCCGAACGCTTGCAGCAGCGGATCACCTTCGACGAAATTACTTACCTGCAAAACCGCAGCGCCTTCCAAATTTAA
>SRR1151209_01514 ArsR family transcriptional regulator
ATGGATATCAAACAATCAGCAGCCACCAGCACAGAAGAATTTAAGCGCCGGATCTTCTTTGCCCTGTCTGAACCAGGACGCTACACGATCGTGCGCATGCTTTACCGCGTCGGCCACGAAATGGGCTGCGGCGAACTGAATCAGCATATCGAGATCGATAAGTCGACCATGTCCTACCACCTGCGCACCCTGCGGGAGATCGGCCTGGTCACGACCCGCACCCAGGGTCGGGAGAAGTTCGTCCAGCTCAATACGGACCGAATCGATGCGGTATTACCGGGCTTACTGGCGAGTCTATAA
>SRR1151209_01515 major facilitator superfamily transporter
ATGCGACTGAAAAGACTTTCACTCCTCTTTTTCTTGATTACGTTTATTATCGGGACGGATACGTTCCTGGTTTCGCCCTTATTGCCGACGCTGACCCAGTATTACGGGATTCCTGAGCACCTGTCCGGTTTTATTGTCAGTGCCTACGCGCTGGGCTATACCCTTTCGGAAATTGTTGTCGGCCCCATTTCAGACCGGCATGACCGGCGTCGCATTCTGCTCATCGGCTTGCTGATCTTCGCCGGCGCCACCGCTCTGGGCGGCTTGGCCAATACATACCCCATGATGCTGGCCGTCCGTTTCTTAGCCGGTCTGGCCGCCGCCTGCGCCGGTCCGCAAATCTGGGCCGCCATCCCGCTGCTATTCCCCAAGGATCAGGTCGTCAAAATGATGGGCTATGTCTCTGCTGGGTTAGCTGTGGCGCAAATTGTCGGTGTGCCGCTGGGCAGCTTTTTGGCTGCTGTCTCTTGGCGGTTCCCGTTCTTCTTTGTCGGCACAATTGCCCTGCTGTTGACCCTGCTCAGCGCCCGCTATCTGCCCAGCTTGAGCAGTGCGGATGACCATGAGTCAACCGCGGTGTACCGCCAAGTCTGGCACAATCGGCCGGTGGTCAAGCTGCTCTTTGCCTATTTCCTGTTCCAGATGGCCAATTTCTGCGGCTTCGCGTTCATTGGCACCTGGTTTGCCAAAAGCTACGGCTTATCCGTTTCCCTGATCGGCAGTTTGATGCTGGTCATCGGGATCGGCCAATTCATCGGCAGCCTGTTAAGCAGCCGCTTCGTGCGCTGGCTGACGCTGCCCCGGGCATTCGCCCTGGAATTTCTGCTCTTCATCATTGGCTACATCATCTTGCCAGTGGCGCCCGCGGCCTGGGTGGCGGCATTGATTCTGGCGTTCATCTACTTGATCGGCGGGGCCATATTCCCGCTGTTCATGTCCACCTTGCAGGCCCAAGCCGGTGAAACCCGGGGCACGATCGCGGCCTTGGCGAATGCCGCGATGTACTTGGGCGAGGCCATCAGCGGCGGGATCGGCGGCTTTCTTATTGCCAACTTTACCGGTTTCTACGGCGTCGCCTGGTTCACCGCCGCCGGGGTCATCGTGGCCGCCCTGCTTTATGCGGCTCAAGGCTACTTTCGGCCAGCGCATGATATCAATCATTAA
>SRR1151209_01516 membrane protein
TTGATCGAACCAAAACAACATCGTCTGCCCTGGCGCCAGCGTCTCTCTTTCCGCCGGGATTTGGGTAATCGATTAAACGTGCTGCGCGCTGGCGTGATGGGCGCCAATGACGGTATTATTTCCACCGCCGGCATCGTCATGGGGGTCGCTGGGGCGAATATGTCCGCCACCGCCTTGATGCTGGCCGGCGTTTCCGCCATGATCTCCGGCGCTCTCTCCATGGGCGGCGGCGAGTACATGTCCGTTTCTGCCCAGCGGGACCTCCAGGATTCGATTTGCCAGAAGGAACAGGACCAGTTGAAAAACGACAAAGACGCCAGTTTCCAAGGCATGTATCAGCATTATTTGGCTAAGGGATACGCCGCTGAAAACGCGGCGGCCATGGCCCACAGCATCGTGAATAACGAAGACATTGCTACCATTCTGGCTGAGAAATTCCAGATCAAACTGAATAAACTGCTCAATCCTTGGCTGGCCGCCGGGGCGGACTTCTTTGCCTTTATCCTGGGTGCCCTGCTGCCGCTATTATGTATCACGCTGATCCCCAATCCTTACAAAGTCAGCGTGACGATGGCCGCTGTGGTGGTCTGCCTCTTTGGGACAGGCTACACCAGCGCCCGCTTGAGCCGGGTGCCGGCGCGGAAGGGTGCCTTGCGGAACATGATCGTGGGATTGTTGACGATGGTGATCGGATTTGCGATTGGGTCGTTGATTGGGTAA
>SRR1151209_01517 hypothetical protein
GTGGCGAATGTTTATATCCACCCCACTGCACCCGAAATTCAGCAGTTAGTAACCAGTCTTGGTGGGCCCGCCCAATCCGCCATGGATCTGATGGCCGCGGCGCTGGACTGGTTTGACACCGAGCAGATTCAGTACAGCCGGCTCAATGCGCCCTTTGCGCCACTCCAGCGCAGCGATCTCGATGTCGTGCACTGGCATAGTGGCACCTGCGGCGACTTCAGCAATCTGCTGGTCAGCCTGTTGGTGGCGGCCGGGCACCCGGCGGCCTATGCGACGGTGCAAAAGGACTGTTACGGCGATTGGCAGGATCACATTTGTGCAGCCACCCAGATGGCCGGCCGGTGGGTATTGATCGACCCCACTGATCCATACCGGAAATTTCACGGCCTCGATTGCCCGCATCAAACTTATAAATTGCTAACGCCAGCAGAAATGACGGCCAAGTTCCGTCAGGACGAAACCACCTGGACAGCTCAAGCCGCTGAGTGGGATGATCCGTGCATGGCGGGCGTGCTTTATGCCCCGTGGCTGCACAACCAAACAGTCATGGAAACCGAAGACAGCGTGGGGTCCATTTTTCTTCTGCTGTCTTTGCCCGCTGTGCATCACTGGCGGCTGGACGCCTACTATCAATGCTATACGGCGGTCCGCGGGTTCTCGCTGATCCGCCGGGTGATCACCCCGGCGAGCAGTGTGTATCAGTTTTCTGAACACAGTCCCGCCCATATCTGGGATGAAAAACAATGGTCGCTGCCTACTCCGGTCCGAAACTTGCCGAAGAAACTCGTCTTTGCCAGTGAACAGCTGGATGAAGTATTGATTGAAAACAAAAAAGATTTAGAAAGCGTTGTCCACCGTGCCGCTCAATAA
>SRR1151209_01518 hypothetical protein
ATGAATACTGAAGATAAAGATTGGCTGATGCGGCAGGTGCGAGCCTTCGCCACGGGGTTAGGCGCGCTGTTATCCAAGGATTCTTTGCGTGATTTTTTGGAATACAAGCACTATGACAGTGCAATCATTACGGATGATGACCTGGATGCGCTGATTGTCTATGCCCAGTTCCAACGGCTGGCAGAGGCTCGGCAATTATCAGCGGCCGATTTGGCAGCCGCCAGCGGTATTGCCGCAGATCGCCTGGCGGCGTTTACCAAGGGTACGGCCTTACCCACCACGGCGGAACAGCGGCAGATGCAGGAGTTTTTGGACCATGCGGCAGAATAG
>SRR1151209_01519 ABC transporter ATP-binding protein
ATGATTTACTTAGCCCAATTTTTCTTTCCCGATGAAGACGCGGAGTGGCGGTTCTTTATTGATTTGAAAAAGAAAACCTATAACACGTATTATCCCTTCCAGGTCTTGCCGGATAAGGGCTTGACCCAAATCAATTGTGCCCCGATCACCATTCTGAATGGCGGCAATGGGTCGGGGAAGACGACCGTGCTGAATATTATTGCGGAAAAACTGGGACTGCACCGGGAAGCTCCTTACAACCGGACCAATTTCTTTGAAAATTATTTGGATCGAACCGACGCCACCACAGTGGGCACGGTACCGAAGAAGAGTGCAATCATTACCAGTGATGATGTGTTTGATTACATGCTCACGATTCGCCAGGCCAATCAGGGGATCGACCGCCAGCGGAACCGCCTGGAGGATGAGTATTTAGCGACTAAACACGCCCGCTTCCAGTTCAACGGCCCCGAAGATTACGACCAATTGAAGTCCATCCTGGAGACCCGCAGCAAGACCCAGTCGCGCTACATCCGCGACCACCTGATGCGCAACTTGAAGGAGGGGTCCAACGGCGAGAGCGCCATGGCCTATTTCACCGATCGGATCAAGGAGAACGCGCTGTACTTGCTGGATGAACCGGAGAATTCGCTGTCCCCGGAGAAACAGCTGGAGCTGGTCAAATTCATCACCGATTCAGCTCGGTTCTTCGGCTGCCAGTTCATCATCGCCACCCACTCGCCGTTCCTGCTGGCGCTCCCGGAGGCGAAGATCTATGACATGGATACGACGCCGGTGGCGGAGAAAAAAGTGGACGGAACTGCCTGA
>SRR1151209_01520 NADH oxidase
TTGAAAATTATCGTGATCGGTGCCACCCACGCAGGCACCTTCGCTACCCAACAAATTCTCACCGAACATCCCGACTACGCCGTGACCGTCTATGAACGCAACGACAATCTGTCTTTCCTTTCCTGCGGGATCGCCCTGTGGGTCGGCAACAATGTGTCTGACCCGAACAAAATGTTTTACTCCAGTCCAGACGCCTTGGCCCAGCTGGGCGCGACCATGCGCATGGAACATAACATCACCGCCATTGACCCCGACGCTAAAACGATTGCCGCCACGAACCTGGTGACCGGCGAGCAAGTAACCGACCACTACGACAAGTTGGTCTTTACTCCCGGTTCTGCCCCGGTGATTCCGCCGATTCCCGGCATTCAAAGCGAGCGCGTCTTCCTCTGCAAGAACTGGACGGACGCCAAGAAACTCCATGACAACGCCCAGTCGATCAATTCGGTCGTCGTCATCGGCGCCGGATATATCGGGGCGGAGCTGGCGGAGCAGTATGCTTTGAGCGGGAAAAAGGTCACCCTGGTAGATGCCTTCGATCGGGTCCTGGCGAAGAATTTCGACCGGGACATCACCAATCGGATCGAAGCCTTGTACACGAAACACGGCACAGCATTAGCCCTGGGGCAAAAGGTCACCAGTTTCACCACTGCTGCCGACCAGATCACGGTCACCACCGATCAGGCCGCCTACACCGCCGATATTGCCGTGCTGGCTGTCGGCTTCCGGCCCCGCACTGAACTGCTGCAAAACCAGGTCGACATGTTGGCCAACGGCGCGGTGATCACTGATGCCTACATGCAATCCAGCCGACCGGAAATCTTCGCGGCGGGCGACTCCGCCGCCGTGCACTACAACCCCACTGGGCAGGACGACTACATTCCGTTGGCGACGAATGCGGTGCGTCAAGGAATCCTCATCGGCAAGAACATTGCTGCACCCACTGAACGATACTTAGGGACTCAGGCGTCCAGTGCCGTGGCCCTCTTCGATATGACGCTCGCCGCCTCCGGCCTGACCGCCGCGGGTGCGGCTGCCCGAGGAATCACTGTGGACAGCGTCACGATCGAGCAGAACTATCGGCCTGAATTCATGCTGACGACCACCCCGGTGGCGGCTTCTTTGACTTGGGACCCGACCACCCACCAAGTCCTGGGCGGCGCCTTCTACAGTGCCCACGACGTCTCCATGTCGGCCAACATGATTTCCATGGCGATTCAAACCAAGATGACCATTGAGACCCTGGCCATGGTCGACACCTTCTTCCAGCCCAACTTTGATCAACCGATCAACTGGGTCAACGCTGTGGCCATGGCGGCGGTGGAAAAAGCCAAACAAGCCGAACCGGCGATTTAG
>SRR1151209_01521 DNA-binding ferritin-like protein
ATGAGCAAGACACAATTCCCCAAGACCCAAGCCCAACTGAACCAGTTGGTGGCCGATTTGATGCAGCTGCAGACGAACATTCAGCAGATCCACTGGTACATGCGCGGCCGGAATTTCTTCCGCCTGCACCCGCTGATGGACGAGTACAAGGACCAGATGGCGACCATGCTGGATGAGATTGCCGAACGGCTGATTGCCTTGGGCGGGACACCCTATGCGACGACCCACGAATTTATTGACCACACCGGGTTGCCGGATGAAAAGATCGGCTGGAATCAGTACAGCCTGTCGGACCTCATGGATCGCCTGCGCAAGCAGATCGAATACTTGCGGGATCAGTTCCAGAAAGGCATCGAGATTACTGATGATGAGAAGGACTTCCCGACTCAGGATATGTTGAATGGGTACAAGGCGGACATGGATAAGATTATTTGGATGCTGAGTGCTTATTTGGGAGAAGGTCCGTTGGCTGATTAA
>SRR1151209_01522 PadR family transcriptional regulator
ATGGCTGGTGAACGTATTCCCTCCCAAATGCTCAAAGGGATTCTCGAAGGCGCGATCCTATTGATCATCAGACAAGGCGAAATTTACGGCTACGCCCTCCACGAGAAATTAAGTACGCTGGGATTCGGTGACATACCTGAAGGGACCATTTATCCTTTGCTGCTGAAAATGCAGCGCAATAAACAAATCATTGGCGTCCGGCATCCTTCCACCACGGGACCGGATCGCAAATACTATCACCTGTCAGCCACCGGCGAGCGAGACGCAGCACTATTTGCCCAGCAATGGATGCAGCTTGCTGCTGCGATGGACCAACTGACCCAAGGAGGCGCACTATAA
>SRR1151209_01523 hypothetical protein
ATGAAGACAAAGATCGAAAAAGAGAACGACGCCCGTATGACCCGGCTTAAAGGCCTGAACCATCTTTACATCGAAGAGCTGGTTGGGTATCTGCGCAACCAGCCGCAAAAAGATTATCTGGCGTTAGAAGAGACGATTGCGGACGTGATTGATAATGCGGCTGACGCTCAGACCCATGGCCGCTCGGCACGTCAGTATTTCGGTGCGGACGCCCAGGCTGCCGCCAAGGCAATTGCAGAAACCATTCCAGCGGCCAGTCTTAGTGAAAAGCTGGTATTCTTTATTCCTTTGTTCAGTATGTTGATGAGCTACACGATTTATCCGGCGATATTACAACCGACCATCCAGTTTGATTGGGGCAGTCTGGTGGGAAGCTGGATGTTTATTATCATGGCTTTCTTGCCGTGGATCGTCTCATTTGACCAGCATCGAATCATCTTGTTTCTCCTGTTGTTCCTATCTTTACCGCTTGCTTCAGTAGGCTACGCCTTGGTTACGCACCAACCACCTTCCCATTTAGCTATTTTGTTGTCCACTTGGCCGGTGGCTGCCGCTCTGCTTGTGCTCATGCCGCTGTTATTCCTCTTGATGGCGTGGTTAATGCGTCCGCTTCGAATTGTGCCGCTTTCGTGGTGTGTCTTGAGCAGCGCCGCATCCATTTTTGGCTTTCTGCTGCACTACTGTCCCGTTTTTCGTGAACCCATCCTGTATTGGGGCATTAACAGCATTCTGATTATCGCAGTGCTGGCACTGTTTATCTGGCAGCTCAACCGCACCCCGTTGTACCGCCAGCAGATTTCGCAATTACAACCGCCGCAATAA
>SRR1151209_01524 hypothetical protein
ATGATGGTCGGACGCAAAGTAACCAATGCAGAGGTAGTGCTGCCATTCATCGAGTTGCTGATCATATTAGGGGTGCTCTTACACGGGTGGGTGCAGACAGTCATGCCGTGGTTCGCTACGATGATGGTCCCGCTCACCGTGATTGTACTGCTTTGGACCTGGCTGACGGCGTGGCGTCATGATGGGCAGTGGCCATTAGTGGACCACATCATGATGTCTGTGCTGATTCTGCTTTGGCTGGCTGATTTGTACAGTCGGATGATGCTTTCAGGATTGATCTATGATCGTGTCGATGGTATCGCCATTATTGCCTTGGCACTTTATTGGATTATCCACGGCGTTGGTTCTAATTGGGCGGCGAATCATTCGCGAAAGAGCATCAAATAA
>SRR1151209_01525 FAD/FMN-containing dehydrogenase
ATGGCAACATTTGCCGCATTTTCAAATACTGATATTCTGCAGGATCTGCGCAGTCGAGTCAGTGCTGGCGCCGTCGTCACGGATCCGGCCGAGCTGAAGAAGTATTCTTACAGTGAGAACATGACCGGTGAGGGCGCGGGATTAGCCTTGGCCATTGTCGAAGCCCAAAATACAGCGGATATCCAAGGCGCTTTGGCGACGGCGCGCAAGTACCATATTCCGATCGTACCGCAATCTGCCCATACCAGTACCGTCATCGGGGCGGATGGGATTCCCGGCAGTATTATCCTTTCTACAATCACGATGAACCACATTCTGGAAATTAGTAAGGCCGATTCTCTGGCTGTGGTCGAACCCGGCGTGATCAACGGCGACCTGGATCAGGCAGCGCGCAAACAAGGGATGTTCTACGCCCCGACCCTGGGTCAAAACTGA
>SRR1151209_01526 FAD/FMN-containing dehydrogenase
ATGAGCACCGTACGCTATGGCGCCACTAAGGACAATATTCTTGGTCTCAAAGTTGTTTTGGCCGACGGGCGGGAAATCAAAGTCGGCGGGCGAACCTTAAAGCAGGCTTTTGGCTATGATCTCACGCAACTCTTTATCGGCTCTGAGGGTACGCTGGGGATTGTCGTGGAAATTACGGTGAAACTGTTGCCCATTCCGCTGGGAACGCCGCTGATGGGTATGGCGTTCTTCCCGACGATGACCCAACTGGCCGAAGCTGTCGCGGCGATTCGGATTTCCGGCATCGGTCCCACGATGTTAGAAGCCCTAGACGGCAACACGGTCGCGGCGCTGGATACGTATCGGCACACCCATTACGCCGACAACAACGAATCCATGCTGATTTTCCGCATCGACAGCAGTACGGCTGAAACCGAAGCACTGCTGGAGAAGATGCTGACGACGCACCAGGGCACGCACATCAGTGTAACGACGGATCCGCAGGCTCAGGCTGATCTGCAGCAAATGCGGCGGGATATGCTGCCGGCCGTTTTTGCCGGGCAGAACCACATCATGGAAGATATGGCCCTGCCGTTGTCGCAACTGGCGCCGATGATGGATTACATTGCTGAATTAGGTGCCCAGCTCGGGCTGAAGATCTATACCGCCGGCCACGCTGGTGACGGCAACGTACACCCCACGCTGGTTTGGCCAGCGGATGAAAAAGACGTGCCGCCAAAAATCGTCGAGGCACTGCAAGCCATGTTCCACAAGACGCTTGCGCTAGGCGGGACGATTTCCGGCGAACACGCCGTCGGAATGATCAAGAATCAATGGAACAATGCTGAATTGGGACCAGATGTGGACTATTTACAACATCAGATCAAGGCACTGTTCGACCCGATGAATATTTTGAATCCAAAACGCAAGATCAATTGA
>SRR1151209_01527 hypothetical protein
ATGAAAAAGTACATTAACAACGAAGCGGCTGACAAGCAGCCAGCGAATCCGTGGCACAACTCGAATTTCCGGATGCTGCACGCAGCTGTCTGGGGTATTTTCATCCCAGTTCTGTTTATCCTCAAGTACACCCTGCATTTATTCTAA
>SRR1151209_01528 ABC transporter ATP-binding protein
ATGCCAAACCCTATTATTAGCCTGAACCACGTGGCCTTTGCCTACAATAAACAACCTGTCCTGCGGGACATTAACTTGACCATTCAACCCGGTGAGATCATTGGCCTGGTCGGCCCCAACGGCGCGGGTAAAACCACCCTGCTGAACCTGATCCAGGGCATCCTGCCCTACGCCGCCGGGATCACCGTGTTCGGCGGGCAGCCGGGCAACCCGACCGCCAAAGCGGCCACCGGCTCCATGCTGCAGGGCAACCTGAAGCTGCCCCGGGTGCATGTTGCCGAGCTGATCAGTTTGATTGGCGACCAATACACCCACCCGCTGCCCACCAGCGAGGTCCTGGCCCTGACGAACCTCACCGCCCAAGCTAACCAAAACGTCGCTACCCTCTCTGGCGGTCAACTGCGCCGGGTGACCTTCGCCTGTGCCATTGTCCACCAGCCGCAGCTGCTCTTCCTGGATGAACCCACTGTGGGCATGGACGCCCAGGCCCGCCAGGAATTCTGGGACCTGATCAGCCGCATGCGGGCGCGGCACGTCACGATCATCATCACCAGCCATTATTTAGAAGAGATCCAGCACGTGGCCGACCGCATCGCCATCCTGCGTCAGGGCCGCTTCGCTTATGTCGGCCGCTGGGACCAGCTTCAAGCGGCCCACAACGGCGGCCAGATCAGCTTCACCACACCGCTGCCCCCGGCCACCTTTTCCCACCTGCCTGGTGTCACCCAGGTGGCCGCGACGGCCGATCACCTCACCTTGCCCAGTCAAGACACCGATCTCACGGTGCAGGCCCTGGTGCCTTTCTTCCCCGATCTGCACCACTTCACGGCCACCCGCCAATCTCTGGAAACCATCTACCTCGATTTAGTGAAAGAAGACGACAAAAATGAAGAAGTTTCTCAACCAACTGCAGTTTGA
>SRR1151209_01529 ABC transporter permease protein
ATGAAGAAGTTTCTCAACCAACTGCAGTTTGATGCCAAGCGGCTGTTCCTGCGCAACCCGCAATACACGTTCTTTGCCATCGCCATGCCCATCGGTTTCTATATTCTCTTCACCAAAGTGATGAGTTTTGGTACCGCCAGTGAGATGACGGCCTTTGCCCGCAGCTACATGGGCAGCATGATCGTCTACAGTGTCGTCATCGGTGCCTTGTTCAGTTTGGCGGCGCTGATGCAGCATGATCGGCAGGTGGGCCTGGTGCAGACTCTGCAGCTAACTCCCAGCGGAACAACCTATTACTACGCCTCGCTAATCACCCTGATGGGCCTGCTCAACGCCCTGTCGGCGCTAGCGATTATGCTCGTGGCGGTCTTCGTGAACCAGGTGACCCTGTCCTTGACCACGGGGCTGGGCGTGCTGGTGATTGCAGTCCTGGGCAGCATCCCGCTGATGATCCTCGGTGTGCTGTACTCCCGCGTCCAATCCGTCGAACTGCTGAATGTCTTGAGCAACCTGACTTCATTCCCCCTGGCCATCATCAGTGGCCTCTGGTGGCCCCTGAACCTCCTGCCGACTTGGGCCCAGGCCATCGGCAAAGTGACCCCGACTTATCTCACGAATCACCTCTTGACCCGCTTTTTGGCCGGTCAAAGCCTGCCCGCTCATGATATGATGGGCATAGCCGGCTGGGCCGGGGGCATGATCATCCTGCTCTTTGTCCTGGCTACCTGGCAGAAAAAGGCAAAGGTCGTGATCCAGCATGGCAGCAAAGAAAGCCAGGCATCCGTACAATAG
>SRR1151209_01530 two-component system sensor histidine kinase
ATGGCAGCAAAGAAAGCCAGGCATCCGTACAATAGCCACATGGGCCGCGTGATCGGCTATGTATGGCTGCTCTATTTTCCCTATTCAATTCTTGATTATCTGCCCCCCAAGCAGCCCAGCGATTACCTTTGGCTGGCTGTGGCGGGGGTGTTCCTGGTCAATTATATTCTGGTCATGGAACGACCGAACACCTGGCGCGTCACGATTCCCCTGGAAGTCTTGGCCTGCTGTTTGTTTGCCATCTTTGCCCAGGGCTTCTATTTGCTGATCTTCCCCGGCTGGCAGGTGGCCTCGATTCTGAGCAATTATCCCAAGCGCCTCTTTGCCGCTTTTCTCGTCGCTTACTACGGCTCCTTGATCATTGGTATCGCTGTACTGTATTGGCAGCACACCACCATTAACTGGAGTAGCTGGAGTGGCGGCGCTATCTGGGCCTTCATCTTTCCCGCTGTCTCGCCTATCTTTTCCTATTCCTTCTCCAAATCCATCACCCGCTCGATCCGGCTGGCCCAGTCCAATAGCCGCCTGGAAGCGGTGGTGCGCCGGGGGGAACGGGAACGAATTGCCCGAGACCTGCACGACAACCTCGGCCAGTCCTTCTCCATGATCACGGTGAAAGCCCAATTGGCCCAAAAACTGTTGGCCAAGCAGCCGGACAAAGTGGCCGGCGAACTCCAGGACATTGCCGCGACCAGCCGCCAGAACCTGCAGCTGGTACGCAACATCGTCAACGACCTGCGTCAAGAGAGTCTGGCCGACGTGCTCCTTGCCCAGGAAAAGAACCTGCGGGAAACTCGCATTGCCCTGTACACCGAGGGGGAGCAAGCCGCCGATGCCTGGCCGACCAAATGTCAGGTCACCCTGGCTGCCGTTTTGCAGGAGGCGATCACCAACGTGATTCGCCACAGCCATGCCCGTCAAGTGACGGTAACGTTCACGGTCACCCCGGACCAATACCGGATGGCCGTGCAGGACAACGGGATTGGCAAAGATTACCACCGCACCAACTCCCATGGCGTCAGCGGCATGATCGAACGGGTGGAACAGGAACAGGGCAGCTTGACCATCGTCGCCAATCACATCGGCACCCTGGTCACGGCCACATTGCCAAGAAAGGAGTCGCACAGCGCATGA
>SRR1151209_01531 two-component system response regulator
ATGATCAGTTTGTATTTAGCTGAAGACCAAAGCCTGCTGGCTTCTGCGCTGGCCCAACTATTAGATTTGGAAGATGACCTCCACGTACTGGGCACCGCCGCCGACGGCCAGCAGGCCTGGCTGGACATTTCCCGGGAAATACCGGACATTGCCATCCTGGATATTGAAATGCCCAAAGCCACTGGGCTGGACGTGGCCGATTGGATCCACCAGGCGGGTATCAAAACGAAGGTCATTATCCTCACGACTTTCGCCCAGCAAGCCTACTTCGAACGGGCGGTCAAGGCCCAGGTCAACGGCTACTTGCTGAAAGATTTGCCCAGTGATGATTTGGTCGCGGATATCCGCAAGATCCATGCCGGCGCCACGATTTATTCCCCTGAATTGGTGCAGAACATGGTCACCGCCAGCAAGAATCCCCTGACTGAGCGAGAAATGGATGTACTCCGCGCCGCGGCCGACGGTGCCAGCACTAAAGAAATCGCCGCGGTTCTCTTTTTGTCAGAAGGAACCGTCCGCAATTATCTTTCCGCTATTTTCAGCAAACTCGCCGTCCACAACCGGATGGAAGCGGTCCATTTGGCCCAACAAAATAAATGGCTCTAG
>SRR1151209_01532 major facilitator superfamily transporter
GTGAAAAGACTACGAGGATTACGCGATTTACAAGGGTGGCAGCGGAACTTGGCTGTCCTTTGGCTGGGGACGTTCATTGCCGGCATGGGCTTCAGCGAGATCTCCCCATTTCTGTCCCTCTATGTGTCAGAAATGGGCGACTTCACCAAGAGCGAGCTGTCCATGTATTCCGGGGTAACGTTCGCTGCCACCTTCCTGGTCGTGGCCCTCGTGTCGCCGCTGTGGGGCCGGCTGGCCGACCGGCGCGGGCGCAAGCTGATGCTGCTGCGCTCCAGTCTCGGCATGGCGTTCATCATTGGCGCCACCGGCTTTGTCCACAATATTTGGGCCTTGATCGGCCTGCGGGCGCTGCAGGGCCTCGTGTCCGGGTATATTCCCAACGCCAGTGCCCTGATTGCAACCGAAACGCCGAAGGAACACAGCGGGGCGGCCATCGGTATTTTGACCACCGGGATGGTGTCTGGGAACTTGATTGGGCCCGTTTTGGGCGGCTTTCTTGCCCAGGTCTTCTCCATCCGGCTGACCTTCGTCATCACCGGATTCCTGCTGCTCATCGTGTTCTTCTTAAGTCTGACTCTGGTCCACGAGCACTATCAGCCGAGTCCGGCATTATTGAACAAACAGAAGCGGCCATCCCTGTTGAGTCAGGTCAAAAACCCCAAAGCGATCATGACCCTGCTGATTTCGACCATGATCATTCAGGTCGGCAACATGTCGGTCTATCCGATCATCAGCCTGTACGTCAAAGAACTGATGCATAACGTCGGGCCCATCGCTCTGGTGGCGGGTCTGATCGCCGCGCTGCCTGGTATTTCCAACTTAATTGCCGCCCCCCGATTGGGCCGGCTGGGGGACCGGTACGGCAGTGGTAAGATTTTAATTTTCGGCTACATATTTGCCGTGCTCATGTATATTCCCCAGGGTATCGTCGGCAGTGTCTGGGCCTTAGCCTTCTTCCGGTTGATGATCGGTGTTTCCGATGGCGCCCTGTTTCCCACTGTCCAGACCTTGCTGTCCAAGGGCACACCCCAGGATTATACTGGGACAGTGTTCAGCTGGAACCAGTCTTTTCAGGCACTGGGCAGTGTCATTGGGTCACTGATGGGCGGCTTCGTCACCAGTTTGTTCGACTATAACGGGTGTTTTCTCTTCACTGCCGGCTGTCTCGCCTTGAACTTCATTCTGGTCATTCTTTTTATTCCCGAATTGCGCTTAAAGAACTTGCGCCGCGCCCAGTAA
>SRR1151209_01533 hydrolase
ATGGATCGTCCCTTGAAGACTGTCCCCAACCTCACTTCCCAACTGCGCCAAGACATTGTGGAATCACCGAAAGTCATTCGCAACGCGTCTGGCATTCGCTTGTTTGGCCAGCGCATCAAAAGTATCGTCTACACCACTGATGTGGCCGTGATTGCCAACTGTGACGCCGATGCCGTGTTAGCCGTCTATCCTTGGACGCCGAACACCCGCATCCTCGATGCCATCAGCCGGGTATCTAACGTGCCCATTCTCGCCGGTATCGGCGGCGGCCTGACGAAGGGCCTGCGTTCTGCGACCGTCGGCCGATTTGCGGAAGAAAACGGCGCCCAGGCTGTCGTCATGAACGCTCCGGCCACCATGACGACCATTGCCAGCGTGGAGCGGATCGTGGACGTCCCGATCATTTACACCGTGGTCAACCGCAATACCGATCTGATTTCCCGGGTCCATGCCGGCGTTGATGCCTTCAATGTCGCCGGCGGCAAAGACACCGCCGACTTGGTCCGCTGGGTACGGGAGACGCTGAAAGACACGGATCCCAACTTCCCGATCATTGCCTCCGGCGGCCGCACCGATGAACAGATCAGTGCCACGATCGCCGCTGGTGCCAACGCCATTACCTTCACGGCGTACGGCATCTCTGAGCAGACTTTCCATGAAAAAATGGAGCACTATCGCGACGAACATCAAGAAAATGAGTAA
>SRR1151209_01534 myosin-cross-reactive antigen
ATGGCTCGCAAACAAAAAGCAATCATGATCGGTGCCGGTTTGGCCAACATGGCGGCAGCGGTTTATTTAATTCAAGAGGCGCATTGGTCTGGGGATAATATCACGTTCTATTCCCTGGACGATCACGGGAGTAACGACGGCTCCAGTGCCACGACCCAGGCGGATGAATATTGGAACAAGAACCATCCGTTGGAAAATACCAAGGGTTACGTGGCCCGGGGCGGCCGGATGCTCAACTACCGGACGTATGTTGATTTGATGGACTTGCTGGACCGCATTCCCAGTGTCACCGAAGAGGGCATGACGGCGGCAGAAGATACCCGCGATTTTGACGCCAAACACCGGACTTTCGATAAGGCTCGCTTGCTGGAGGGCGGCAAAGGCATCATCAACGGTGGCCACCTGGGTTTGGATAACAAGGACCGGATGCTCCTGACGAAGCTGGTGATGATGCCGGATTCTGAGGAAGAAAAGCTGGACAATGTATCAATCGCCGACTACTTCGCCGATGATCCGCATATGTTCCAGACGAATTTCTGGTACATGTGGGAAACTACTTTTGCCTTCCGCGTCCAAAGCGCCGCCCAAGAACTGCGCCGCTATATGCACATGATGATCTATGAGTTTACTCAGATCGAGCACTTGGTTGGTGTCAATCGGACCCGGTACAACCAGTACGAAAGCATTATGCTGCCGCTGGTCAAGTATTTGCAGGACCAGGGTTGTCATATTGTGCTGAACCGCCGGGTCACAGACTTTGATTTCCAAGACACGCCGATGCAGGATGAGATCACAGTCACTGGCATCCACATGACGAATACCGAGACCGGAGACGAAGAACACGTTGATGTGCCCGACGATACTGCTGTGCTGTTCACCAATGGCTCGATCACCGATTCCACGACGATGGGGGATTACGATACCCCGGCGGGTGAAAACATGGACTACGGTGCCGCCGCGTCCCTGTGGAAGAAAGTTGCCGAACGTTTCTACAACGTAGGCAATCCTGACAAATTCTTTGCGGATCGCAACGCCAGTGAATGGACCAGCTTCACTTTGACCACAAAGAATCATCTGCTGCTGGAAGAAATCTCCCGGATCACCACTCAGCAGCCGGGGAATGCCCTGAACTCCTTCTTGTCCACGACGCCGATCACCAATCTGGGTCAAAAAGACGTGAACATGTCCATCGTGGTCCACCATCAACCCCACTTCACGACGCAGAAGCCGAATGAAACAGTCATTTGGGGCTACTTCCTGTATCCCCGCCGGCACGGCGAGTTTATCGATAAGCCGTATATCGAAATGACCGGTAAAGAAATGGCCCAGGAATTGATTGGCCAATTGGCCAAGGTCGATCCGGGTCCGGGGAACATCAAGGACAAGGAAGACGAGATCCTGGCCAGCATCATCAACAATATTCCAGTACACATGCCCTATGCGTCCGCGTTGTTTAATAACCGGGCCAAGAGCGATCGGCCGCTGGTGATTCCGGCCCACTCCACGAATCTGGCCTTCACCGGCGAGTTCGCGGAGCAGCCGTTCCAGATGGTCTTCACGGAACAAAGCGCTGTCCGTTCCGGCGAAATTGCGGCCTATCACTTTGCGGGCATTCCAATGTCCCACTTAGTGAAGACCCCGCGCTACGACAAGGATATCCCGACCTTGTTGCGGGCATCAAAGAAAATGTTTGAATAA
>SRR1151209_01535 hypothetical protein
ATGAAAAAAGGTACAGTATGCAAATTGCTCGTCGCATCGGCGTTGATCGCGGCTACGGCGTATTTAGCGAGAAAATCAGAATTATTCACGGATGACGCGGCCGCTTATGCCCCGTTTGAACCGAAACAAGATTAA
>SRR1151209_01536 TetR family transcriptional regulator
ATGAGATGGTGCGTCATCGCCAAGGATGATACCCAATGGCGCTTAGCCGAAGCGTTAAAAAAAGACATGGAAACCATGCCGGTGGACCGGATCACGATTGGCCTGCTCACCCAGCAGGCCAAAGTTACCCGGAACACGTTTTACTACCACTTCACTGACATTTACGATCTATTGGAATGGATCTATGAGCAGGAAGTGGTCACCCAGCTGTCCGGGTACCTCAAAGTAGATCGCTGGCAGACGGCGTATCGGATGATTCTGGATTATATTGCCGCGAATCAGCAGTTCTGTTTGCAGACCTTCCGTTCCGTGGGCCGCGATCTATTGGAGAACTTCCTGTACTCTGCGGCCAGCAGCATGGTCCGCGGGGTGGTAGAGGATGTGGACCCCCAGGCGCCGGCGATGCTGGAACAGAGTATCGTGAATTTCTACGGCTGGGCGCTGGTGATGCAAGTGGTGCAATGGCTGCGCAATGATTTGCAGGAAGCACCGGCGGATCTGATTCGCCGGGCGGAGATCATGCTGGACGGCAGCGTGGCCAACGCCATCAAGAATAGCCAGGCACAATAG
>SRR1151209_01537 AraC family transcriptional regulator
ATGCGAGCGGTAATCACTGACCAACGGACCTTGGCCGCCCAGGAACAAGTACGGCTGCCCTTTGTTCGCAATCAAGTATTGGCGATGCTGGTCAACGGCCGGTTGGCCGACGAACAGACCGTGCAGCGGCTGCTGAATTTGGCGCAGGTACACTTCTTCCACCCGCGCTTCCTAGTTGGCATTCTGCCGGATACACCGGCTTTGGCAGAAAAGGTGTTGGGCGATCCAGTGGTGGCAGCCGCCCAGACCGTGTATTTCATTCACCCTAGCGATCAGGCGCAACTCATTGTACTGGTCAATGACGATGGGCAAACACCGCCAGCCGCGGTGTTGGGGGCCGTGCAAGCTCAGTTAGGCAGTGCTCCGATGTTTGCGGGCCGTTCGGTCACCACGCCGACTGCCCTGCACGACGCCTATATTGAGGCAGTGACGGCCCAGATGACGAATCGGCCTCGGCCCGGGGAAACTGTGAGCTTCTATCAAGATCAAGGAGCACTGCAGTTATTTGATGCGGCCAATGAGTTGAAACTGACCAACGCTTTAGCCCAGGGAAACAGCGTGATGGCCCAGGAGGCCTTTGTCGCTTTGTTTAATCAAGCCAGCCAAAACTGGTCGCCTACAGCCCGCTTCGATTTACCCATGGCTAATCTGATCAGTCAAATTCTGAAAGCAGATTATCATAAGAATCGTCAAGTCAATACAGCACTAGTCCAGCAGCTCTTAGCTGCACCATCCTTCAGCGTGCTCTACGCTCTATTGCGCCAAACGGGGCATGCGTTGACCGCCGCTGCGCCTGCACCGGTGGTTAAAGATAATGGCGCCGAGTTGCAGACGTATATCGCCGCCCACGCTAGTGATCCTACTTTGTCACTGGTCGATGTCGCCGATCATTTCAACTTATCGGTGCCTTATGCGAGCCGGCATATCAAGGAAATTACCGGGATGACCTTCACGACCTACGTTCAAGATATTCGGATGGAACGGATTCAAACCGCTTTGGAAACGACTGATATACCCATTAAAGATATCGTGACGGCGAATGGTTATTACGATGTGGCCAATTTCACCCGGAAGTTCAAGAAACTATTGGGCGTCACCCCTGGCCAGTATCGTCAATTGCATAAAAAGCCGGCCAGTGCTGCGGATGACGGGCTGGTCTCATAA
>SRR1151209_01538 hypothetical protein
ATGCGGCTTAGTCCGCTGGCGCACTGGCGGCCGCAAAGATTGTTGTGGACGTATCTAGTGTCGTTTTTGCTGATTTTTATCCTGCCCGTCTTTGTGCTGACCGCCAATTGGTTGAATCGGGAGTGGCAGGATCAGAGGACAGAACAGACTGCCCAGCAGGAACGTACACTAAGGGCCATGACCACTGAAATCGATGATGCGGTGAACCATATGCTGGTGACCACGAATCAAATGGCGCTGGACCACGCCCTGGCCCCCACGAATCAGGAGTATTCTGCGGTGCGCAGTGTGACCGCAGCGTTGGCCCGGTATGATTTGAGCAGTCCGCTGATCAACAAGATTTTTGTGTACTTGACGAGTCAGCCAGATGTTTTCTTTGCAGCTGATGGCACGTACGATGTCGCTCCAACGATGTACAAATATGGAATACTGGCCGGCCGGGCGGGGGTGAAGGCCGAGCAGAATCTGCTGCACACGCTGCGGCCCCAATTGCTGTATACACCCACGGCAAATCCGGAGCGGGGACAGTTGACGTTGGCGGTGCCAATCACCGCGGCCCCGGGCGCCCACTCCCGAGGAACAGCGTTCTATGTTTTGAATACCACGGCGGTACGAGAGCAGCTGCAAGCAGCAGCACCGTCAGCGAACCAAACCTTGGCCTTGGTTGTCGGGCAGGGACGAATTACCGCTAAACCGGTAGTGGCAGGGAAATCGCTGCCCCAAAGCACGCGTTGGTCAGTGTGGCAGGCACTGACAAAGGAGAATCGCTTGACGGTTACGCGGCAAGCCGGCCAAGGCCGGCTGTTTAACGTGGTTTCGGTAACCACTAAACCATCACCGTGGCCGCCATTATTGTCTTTGCTGGTTCAATATGCCTGGCTATTTGCTGCGCTGCTTGTTGGCGGCGATTGTTCCGGGAACAGCTGCTCAGCCGGTGGATTTGCCGCGGCTGGCGGCCGCTATGCGAGCGGTAATCACTGA
>SRR1151209_01539 hypothetical protein
TTGATTGTGTTGCTGATCATAGTGCTGTCCTATTGGCTGTATGTGCTGACCATTTATGGCCGTTACAATTTACGCTTCTGGCAGTACTTCCGCCAAGCTCTGATTATCTCGGTGGCCCGGTTCACGAATACCTTAGCAATTATTGTGGGTTCAGTGCTGGCCACGGTATTGCTGGTGATTTTTCCCGCCCTGAGCCTGATTGCCCTGGTGCCGCTGTATCTGGCGCCTACCGTGTGGTTCTCGTATCAGTCGTGTCTGCATGTGGAAGCGGTGCTCCATTATGCGGCTTAG
>SRR1151209_01540 hypothetical protein
ATGAATGAACCACGGGGTATTATCCGGTTATCGGTGAGGGTGGGACAAACACTGCTGCTCGGAACAAAGCTGCAAGTGTTGTTTATTCTGTTTACGCTGCGCGGTGGTTTAGTGCTGGGTCTCTTTCCAGCATTAGCAACGTGTACTAAGGTGATCTTGCGCCGCCTGGCAGCCAAGCCAGCAGATGTCGGGGCGTTATTTGGGGACCCCCGGGATACATGGCCAGCATTATATCAGGAGTTTCGCCAGTTCTATCGCCAGTCCTTCTGGGAAGTGAATGGAATCGGTTATCTGGGTGTGCTGGCCGTTGTCGTGTTGGTGATTGATTTGGCGGTTAATGCCGCTTTCTTGCGCTCGGCCCGCTGCAATATGGATTGA
>SRR1151209_01541 hypothetical protein
ATGATGCAATTGCATTTCACAGATTTACCCACAGATTTACGGGCTGGGGTAGCGATTATGGCCCCTCGCCTGGGATTTACCATTGGCGATACAGGGACCACGGTTAGTATCGCCAGTACCCCGAACGGCCCGTTGCAAGTGACGGTAGAAGAGGGTACCGCCCACATCGGTTATCCCACGCGGGCAGCGTTCTTCCGGGGGTTGACGGCCTTGGTCCACGCCCTGCAGCAGGATGAACCATTGGCCATCACCGAAACGCCCCGTTTTGAAACCGCCGGGCTGATGCTGGATATGTCCCGCAATGCAGCGCTGACGGTGGCCGGTTTGGAGGACATGCTGGCAGAAAGTGCTCGAGTGGGTTTGAACTCTGCCCTGCTTTATATGGAAGATGTTTATGCTGTACCCGAGTATCCCTATTGGGGCTACCAGCGCGGCCGCCTGACCCAGGACGAACTGCGAGCCGTGGATGATTTTGGTGATGCACTGGGAATCGAAGTTATTCCGTGTATCCAGACGTTAGCTCATTTGCTCAATCCGATGAAGTGGCCATTCATGAATGATATTCGCGATACGCCGGGAATCTTGCTGGTGGATGAACCGAAGACCTACGCGTTTTTGCGGACAATTATTCAGGCGGCGAGTGCGCCGTTTCGGACAAAGAAGATCCATATCGGGATGGATGAAGCCCATGAATTGGGACGGGGCGTCTATCAAGATCGGCACGGGTTAGTTGATCGGACAGAGATTATGCTGAAGCATGTCAAGCAAGTCACAGCAATTACGGCCGAATTGGGTCTGCATCCAATCATGTGGAGTGACATGTGGTTTGAAGCTGCAGGGTATGGTTATGATAATCCGCAGACGCGTTTCCCGGAGGCTTTGAAAGCGGCTATTCCCGACGTGGAGTTGATGTATTGGGACTATTACCGCGATGATGAGACACTCTACGAGCAGCTGATTGCGAAACATCAAGAGCTCGGCCGCCCGGTGAGCTTGGCGACAGGTGTGTGGACGTGGAACGGTATCGCCCCGAATTACGGCAAGACAATGGCGACGATGGATGCTGGCATGGTGGCAGCGAAGGTTATGGGCCTGAAGACAGTTTATGCCACGATGTGGGGCGATGATGGCGGCGAAACACCTTTTACTGCCGCTGCCCTGGGCATTCAAAACTTTGCTGAGCAGGTCTATCACCAAGTTGTCCGTCCTGGGATATTGGCCACTGCGTTTGCGCGATATCAAGGGAAGAAAGCCGCTGACTATCTGGTCCTGGATCAGTTCGATCAATTGCCTGAATTGACCCCGCACAATCCGGCGGCGACAAATCCCAGCAAGATCGTGCTCTATGAGGATCTGCTCAGTCCAGTATTTGCGGCGAACACCGCCCATGTAGATTTACTAGGCCATTACCAACAGCTGGCTGCCCAATTGCAGAAGATCGTAATCAAAGGCCAGCCGGATCAAGCTGGACAGGACATCTTTGTTTTCTACTCGTTCTTAGCCACTGCTTTGGTGCGGAAACTGCAAAGTATTGCCGCTATTCGTCAGGCCTATGACGCTAAGGATCGAGCAGCAATGGGAGTTGCTGTCGCCGGCCTGAACGAGTTGCGGACGGCCCTTACGGCGCTGCGCGATGCCCATCGGACGTGTTGGTTTGCCCTATACAGTCCGTTTGGCTGGGAGGTCTTGGATATTCGCTATGGTGGACTGCTCAGTCGGGTGGATTCGGTGCAATGGCGGTTGCAGTAA
>SRR1151209_01542 hypothetical protein
ATGCGCCGCTTTGCGGGGATTATCATCGTTGGTCTATTCATTGTTTTGGCTGTTGGCGGGTACTGGTTTTACGCCGTGGATCGAACCCCGGTGACGACTGAAGGACAGGCGGTGCAAACGGTATTAAAGAAAAACTTGACGGCTGTCAATCAAGGGGATGTCGCCGGCTATTTAGCCACGATCGTCCCCAGCCAACGGGCTAAGACGCGGGCCGCGGTGACCAAAGCGTTGACAAAGCGTCAGACCAAAGTGAAATTACGGCAGTTTCGGGTCCAAAAACAAGCTGGTAGTAGAATCGCGGCTAAAATCGATGAATTACAAACTGATCAGCGCAATGGCCAAGCCCAAGTATTGGAAGCCAATGTATCGTTCGAACGGCATCAAGGGCGTTGGTATATCGCCCAGTTGGTTGTCTTCAATGCCGTTCGGGCCCATTAA
>SRR1151209_01543 alpha-L-fucosidase
ATGACGAACACTCACCGCGGCGATATCGAAACCGTCGCAACGGGTGCGTGGACCCCGGCCGATTTCGCTGCACTGCCCCTGAACGACTATACAGCGTTGCAAAAACGCTGGTCCTGGTTCCAGGATCAAAAAATCGGGGTGCTGTTGCACTGGGGGCTGTATAGTCAGGCCGGCATTGTCGAGTCCTGGCAACTATCCGACGCTGATGGTTGGGCCCGCCGGCCCAAAGCTTGGCGGCCGAACATGACCCAATTGAAGCATGACTATTGGCAATTGGCAGATCATTTTGCGCCTACCCGTTACGACCCGACTCACTGGGCGCGCTTGTTTCGCCAAGCCGGTCTACGCTACGCCATCTTCACCACGAAACACCACGACGGTTATACCCTCTACACCACCAACGCGAGCGACTACCATACCACAACCGATCTATTTGCGCCCTTTGCCCAAGCAATGCGTGCCGCCGGCATCGGTGTTGGCGCCTACTATTCAAAGGCCGACTGGCACCAGCCGGATTATTGGCGGCCAAACGGTCAGCCTAAACACCGGGGAGCGGATTATGCGCCGTCGAACAATCCGGCTCGGTGGCAGCGCTACGTTGATTTCGTCCACCAGCAGCTGACAGAAATTGCCACCCAGTACGGACCGTTGCGCATGCTGTGGCTGGACGCTGGTTGGGTCGGCAACGCCCGCGAGCCGCTGAACTTTGATCGCCTGCTGCCGGCGCTGCAACATCAACAGCCGGAAATGCTCCTGGTAAACCGTACCATGGGCGGGCGCTGCGAAGAATACGTGACACCGGAACGGCAGGTACCGACTCTCACGCAGCGGCCAACCTTGCCCTGGGAAAGCAATTTACCATTGGCCAACAACTGGGGGTACGCGCCTTACGATCACTACAAGCCCTTCGGCCAACTGTTGAGTGATGTCTTGCAGGTCATTACACTGGGCGGCAATATCGTACTCGGCGTGGGGCCCAAAGCAGACGGCACCCTGCCGGCCCCCGCGGTCCAGCGGCTTAAACAATTAGGCGGCTGGCTAGCGCTGAATGGTGCTGGCATCTATGGTACCCGGCCGGTCTGCCCGGTTGTCATGCAAGCGGCACAGCAGCGGCACCTGGCTATCACCCAAGACGACCACGCCTACTATATTTTCTTCAAGCGGCGCGTACCCGATCGTCAGCTCGATTTGAAATCGCTCCATCTGCCGCTGTCAATCACACAGGTCACCCGCCTGGGCCTCACCGCTGCGCCATTACCGCTCGCCAACCAGATCATTCAACTGCCTGGGACACTGCGCCAAAGCCGCTGTCCTGGGTTGCGGCTCACCAAATTAGAAAGGAGTTGA
>SRR1151209_01544 ABC transporter permease protein
ATGGCGGCTTCCGCCCAAAGCATTGTCAAACCCAGTAACACCAAGAAACGGCGCCACGCATTGTTCGACCTGAAACGGATCAAGAAGAACTGGCGGCTGTATGTCCTCATTCTGCCCACCTTCCTCTGTTTCCTGATCTTCAGTTATATCCCAATGTATGGGGTGCTTATCGCCTTCAAAGATTACGTTCCAGTCTTAGGCATCTGGAACTCCCCTTGGGTCGGCTTCAAGTACTTTAACCAATTCTTCCAGTCTTACTACTTTTGGGATTTGATTCGCAATACGCTGGGTATCCAGATTTACGGGTTGATTGTTGGTTTCCCGCTGCCCATCATTTTGGCCCTAGCCTTGAACGAAATGAAAGATGGCTTCTGGAAGAAATTCAGCCAAACCATCACCTATGCACCAAACTTCATTTCCGTCGTGGTCATGGGCGGGATGATCATCGCCTTCTTGGACCCGTCCACCGGGATTATCAACCACGCGATTCAAGCCCTTGGGTTTCAACCCTTGGCCTTCATGAGCGATCCCAAGTGGTTCAAAACCGTTTATGTCTTATCCGGTGTTTGGCAAGGGACTGGGTGTGGGTCCGTCATTTACCTGGCTGCCTTGGCCGGGGTAGACCCTGCGCTGCATGAAGCGGCCATCGTCGATGGGGCCAGCCGAGTTCAGCGAATCTGGCACATCAACCTGCCCGCCATCGTTCCCACCATGGTCATTCTGCTTATCTTGAACGTCGGCAGTCTGTTCTCCATGGGCTACGAGAAGATTCTGCTGTTGCAGAATCCGCTGAACCTATCCTCTTCCAACGTCATCGCCACCTTTGTCTACAAGCAAGGGCTGTTGGACGGCCAATACAGTTATGCAGCCGCGGTGGGCTTGTTCAACTCCGCCATCAACGCCATTCTTTTGATCGTCGTGAACAAGATTTCCCGGCGCGTGTCGGACAATAGTCTGTGGTAG
>SRR1151209_01545 sugar ABC transporter permease protein
ATGCATGCCAATCACTTGATTAAAGACACCCGGGGCGACAAAGTCTTCAAGTTTTTCCTCTTCATCTTCATTGTCCTGGCTGTCCTGCTCGTACTTTATCCCCTCATCTATATCGTCAGCGCCTCCGTCTCCGACCTGCAGTCAGTCAATTCTGGCGCCATGTGGCTGCTGCCCCATGGATTCACGCTGGAGGGGTACAAAGTCATCTTGAACTACGGCGACATCTGGCGCGGTTACGGCATGACCATTTTCTATACGGTCTCCGGTACACTCGTCAGTCTGGCCCTGACTATCCCCTGTGCGTACGCCATTTCCCGCCCAGACTTCTCTGGCAAGAAATGGTTCACCAACTTCATGCTCGTCACCATGTTTGTCGGCGGCGGCCTGATCCCGTCCTACTTGCTCATCCGCGCCCTTGGCTGGGTGAATACCGTGTGGGCAATCATTATCCCCGGTGCCGCCAGCATCTACAACATCATCGTAACCCGCAGCTTCTTCCAAAGTTCCATTCCCTGGGAGATGCAGGAAGCGGCCATCGTTGATGGCGCTACTGACTTCCAGCTGTTCTTCAAGATCGTTCTGCCGCTATCCGCCCCGATCATCGCCGTGATGGCCCTATTCTATGGGGTCGGCCAATGGAACAGTTACTTCAGTGCTCTGGTTTACCTGCAAAACAAGAACCTCTACCCTTTACAGATGGTCCTACGCCAAATCTTAGTCCTGCAAGACTTGCAGCAAGGAGCAGCCACCGGTGCCACCGTCACCCAATCTGCTGCTCAGGCCGCGTTCAGTAAAGAACAGCTTGTGGCCGTCATCAAGTACGGTGTCATGATCGTTTCGTCCCTGCCCGTCATCCTCGTCTACCCCTTCCTTCAGCGCTTCTTCGTAAAAGGCGTCCTGATTGGTTCCCTGAAGGGTTAA
>SRR1151209_01546 lipoprotein LipO precursor
ATGCAAATTCGCCGCTTCCTCGCCACTGTCGGCCTCAGTGCTTTAGCAGTGCTCGCTCTCGCCGGCTGTAACAGTTCAACGAATTCCAACTCCGCTCAAAAAAGTGATGTCAAAGTCAACACCACTGGTTTTCCCATCGTTGACAAACCGCTGACCATGACCTTGATGGCTCCCAGCACAGGCGTTGTCAACTGGAACGACATGGTCGTGCTGAACGACTACGCGAAGAAAACCAATATCAAATTTAAATACACTACCCCGCCCAGTTCCGATTTCGCTACAAAGTTGAACCTGGCCTTCGCCTCCCAAGATTTACCGGACATTATTTACGGCGCCGGCAGTGCCCTCACGCCGGCCAACGAAGTGTCCTATGGCGAACACGGGCAGCTGCTGCCGCTGGAGAAATTGATTCCCAAATACGCGCCGAATCTGGACAAATTAATGAAAAAGGATCCTAGTATCCGCCAATCCATCACCACTCCAGATGGCCACATCTATGCGCTGCCGCTGATTTCCCGGGGGGCTACGTCATCCTGGTATATCGGACAATTGTGGTATAACGGCGCCTGGTTGAAGAAACTCGGCGTCAAGACCCTGCCGAAGACTGCCGATGAATTCTACGACTTGTTGAAACGGTTCAAGAATGAAGATCCCAAAGGCAACGGCAAAGCTGACGAGATCCCTTTGAGCGACGTCAAGCTGACTAGTTCCCGCTACTGGCTGATGTCCATCTTCGGCCTTCTCAGTAACACGGTCCAAAATAACGGCGACAAGGTCGTTTACACGCCGACAACTAAGAACTACAAGGAATACCTGACCTTCATGCATAAGTTATTTGCTGAAGGTCTGCTGGACAAAGACACCTTCGCCCAATCCGACGACCAAAAGAAATCTAAGGGCCAATCCAACCGGCTCGGTGTCTTCAGCGATTACTTCTCCTACTTCACTACCGGCCGGACCCCAGAACAAGCAATTGCTGATCCCATGTGGCAGCCGCTGACCAGCGACGTTTCGCCCAAGGCCGTCGTGCCGGGTAATCCCCGCTTAAATCGGGGCGACTTCGCCATTACGAAGAATAATCCTTCACCGGCGGCCTCCTTGCGCTGGGTGGACTACTTCTACAGCGACAAGGGTGCTGTCTATCTGAATCAAGGGCCGGAAGGCTACATCTGGAAGAGCGCCAAGAATGATAAGGGTCAAGACGTCCGCGTTTTTGCCAAGGGTGTGACCCCGGAAAACATTGAAGATAAACGGAGCAAGCTCACCCCCGATTATGGTTTGACCATCCCGGCGCTGGCCTCTGACCGCGATCAATACAGCATTCGCAAAGATCCCAACGCTCCGGCCATTGACGATTTCACCAAGTTCATTCGGACCGAAACAAAAGAAAAGATCGATCCCTATGCCCGTGTACCCTATCCGCTGGTTTACCTGACTAAGCAGGAACAAGATTCCATCAGTTCCATCAGCACGGACTTGCAGACCCTTGTGGAAGAATCCGAAGCCAAATTCATCACCGGTGTGACGCCATTGTCCGATTGGGATAAATACGTGAAAACAATCAAGGGCATGAACGTGGACCAATACGTGAAAGTCTACCAAGCGGCTTACGATCGCTGGAAGAAATAG
>SRR1151209_01547 6-phospho-beta-glucosidase
ATGACACCCAACACCCCCTTCCCCGCCAATTTCCTCTGGGGCAACTCCGTCTCCACCATGCAAACCGAAGGCGCCTGGGACGCCGACGGCAAAGGCCGCTCGGTCTACGATATTCGCCCCGCCACCGACCACAGCAGCGACTGGCAAGTGGCAATCGATGACTATCACCGGTACCCCGAAGATATCGCCCTGATGAAAGACTTGGGCATGACCTGCTACCGGTTTTCCATCTCCTGGAGCCGCGTTCAGCCGAACGGTACCGGGGCTTTCAACGAAGCCGGTATCGCCTTCTATGAACGGCTGATCGATGACTTGCTTGCTGCCGGCATCACGCCTATGATCTGTCTTTACCATTTCGATATGCCCTTGGCTTTGGCGGAAAAGTACAATGGCTTCATCAGCCGGGAAGTCGTCGTTTACGCCCGGGAAATGCTGCGCCGCTTTGCCGATCGGGTGCCCTACTGGCTGACTTTCAACGAACAGAATCTGTATGGCCTGACCGACAGCTTCATTATTTCCGGTTACCTGCACGGCGACAAGACGCTTCATGATCTTTACCAGATCCAGCACAACGTCGCTCTGGCCCATGCGCTGGTGACCCAAATTGTCCACGCTGATTTTCCCCAAGCCAAAATTGGGGCGATGATCGCCCACCAGCAGATCTACCCGGCCACCCCCCATCCCCAGGATGTCTGGATCACCCAGCAATATCACACGTTCGTGAACGACAACGTCATTCGACTGGACACCCAAGGGACCTATATCCCCCAGGTTGCCCACTACATGCGCACCCATGGCATGGGCGATATTCTCAAAGAGTGTGAGCTGGCGGAATTAGCCGGTGCCCGCAGCGATTTTGCGGCCATGAGTTATTACTGGAGCAGCACCTTTGACCACACCAAACTGCCAGCCAACACCGCACCCAACTGGTACAACCAGTATGCCGTGAAGAAAAATCCGTACCTGGATGCCAACACCTGGGGCTGGCAGATCGATCCCACCGGATTCCGCAGCGCCCTCAACGCCCTGTACCAGCAAACCGGCCTGCCCATCTTCCCCATCGAAAACGGCATCGCCGCGAAGGAAAGCTGGAACGGCACCGACGCCATTGACGACGGCTACCGCATTCTCTACCATCGCGCCCATCTCCATGCCCTGCAAGTCGCGATCACGGAAGACGGGGTGCCGGTGATCGGCTATCTCGGCTGGGGCTGGATCGACATTCCCAGTTCCCAAGGGGATATGGAAAAGCGTTACGGCGTCGTCTACGTCAACCGCGGCAATCACGACCTGCGCGATATGGCCCGGGTGCCCAAACGCAGTTACGCCTGGCTGAAGCAGGTGATTCAAAGCAACGGCCGCCAGCTTTAA
>SRR1151209_01548 hypothetical protein
TTGAATTATACGATTTCTCAAGACACGGCATTCCCCACTGTCACCCTGCATCTGAGTAAGGGCGAACAAGTACAGATCGAACGGGGCAGCATGATTGCCCACAACGGTCAGGTGCAATTGGAAGGCCATATGAACAGCAATGGGAAGAAAGGTCTGGGCGGTATGCTCAGTGCCTTGGGCCGCAGTGTCACCAGCGGTGAAAGCTTCTTCATTACCACAGCGACCGGCACTACCGACAACGGCGAGTTGCTGATTGCCCCAGCGAACCCCGGCGCTATTCGGGAACTGAAGACCGACGGCAGCCAGCAATGGCGCCTGAATACCAGCGCGTATCTGGCCAGCGACGCCGGGACCGGTTACCAAATGGTGCGGCAAAAGCTGGGCACCGCTGTCTTCGGCGGTACCGGCGGCTTTTTCGTCATGGAAACCCAAGGTGCCGGCACGTTCCTCGTCTCCGGCTACGCGGACATCATTGAAGTCAATCTCGATAATAATGAGTACGTTGTCGATAACAGCAACGTCGTTGCCTGGAGCCAAAGTCTGAACTACAACATCGAAGTCGCCAGCGGCACCTTCGGCTTCAAGACCGGCGAAGGCCTGGTCAACCACTTCCAAGGCACCGGCAAGATCTTGATCCAGACTCGCAGCATTGAAGGTCTGGCCAACCTGCTCATGCCCTATCTACCCGATAACAGCAGCAATAACTAA
>SRR1151209_01549 Mn/Zn ABC-type transport system ATP-binding protein
ATGCTCGAAATCAAAAACCTCACCGTTGCGTATAACGACATACCAGTGTTTGCTGATGTTGCCGTTTCATTTAACAGGGGCAAAATCACTGGCATTATTGGACCCAATGGTGCGGGTAAATCAACCCTGATCAAGGCCATCCTTGGCCTGGTCAAAAGTCAAAGCGGCACCGCCGACTATAATGGCGAACCGCTCAAACATTTTCAGAAACAGATTGCTTACGTGGAACAGCGTAAAGATTTAGATTTGACCTTCCCCGTGGACGTCTTCACCCTCGTGCAAACCGGCACGTATGGCCATCTCGGCCTATTCCGAAATCCCGGGAAGAAGGAAAAACAGGCCAGCCAGGCGGCGCTGGTGCAAGTCGGGTTAGAGGACTTCGCCACCCGCCAAATCGGCAACTTGTCCGGCGGTCAATTGCAGCGGGTGTTTGTCGCCCGGGCAATTGTCCAACAGGCCGATATCATTATTTTGGACGAACCTTTTGTTGGTATTGATCTGCAAAGCGAAACAGCGATCATGAAAATCTTGAAGCAGTGGCGGGACGCGGGTAAAACCATTATCGTCGTCCATCACGACCTGAATAAGGTATCCCGCTATTTCGATGATTTGGTCGTGATGAATCACGGCATTATCGATTACGGCCCCGTGCAGCAGGTATATAATGCCCGCAACATTGAACGGGCCTTCAGTGCTGATCTTTCCTCCGTATTATTTACAGAAAAGGAAGTGGCGCGATAA
>SRR1151209_01550 Mn/Zn ABC-type transport system permease protein
ATGTCTTCAATTATTGATTTCTTCACAGCGCTCAGCCGCTATGATTTCTTACAAAGCGCACTGATCACGGCCATTATGGTCGGGATGATGTCCGGCATTATCGGCAGTTTCATCATCCTGCGCGGCATGTCCTTGATGGGTGATGCCATTTCCCACGCGGTGCTGCCCGGGGTAGCCGTGGCCTACATGCTGGGTATCAACATCCTGCTGGGGGCCTCAGTATTCGGCATCCTGGCCGCCCTGCTGATCGGTTTTGTGGCTTCCCACAGTAAAATCAAAACCGACACCTCCATCGGGGTGGTGTTCAGTGCTTTCTACGCGCTGGGCTTCATCCTGATCTCCATGGCCGAAAGTTCGACGAACCTGCACCACATCTTGTTTGGTAACATCCTCGCCGTCAGCGACTCCGATATTATGACCACCGCGGTGGTGCTCGGCATCGTCCTGCTGTTCGTCGTTTCTTTCTACAAGGAACTGCTGATCACGTCGTTTGATGCGACCTATGCCCAGACTTACGGTCTGAACGTCCAGGCGCTGCACTACGGCCTGATGCTCGTACTGACCCTGGTGACGGTCTCCGCCTTGCAAACCGTGGGAATCATTCTGGTCGTCGCCATGCTCATCACGCCCGCGGCCACGGCGTACCTATGGACAGATAAATTGTCCACCATGCTCGTACTCTCCGCCGCGGTGGGTGTCGTATCGTCCATTGCGGGGCTGTACTTCAGCTACACGCTGAATTGGGCTTCGGGTCCGGCCATCGTGCTCGTTGCCGCAGTGCTGTTCAGCATCTCGTTTGTCTTCTCGCCAAAGCAGGGCTTCATCAAGTTCCCCGCCCAAGCGCGCAATAAGCCGAACGCCCGCGGCCAGCAATTGCTGAAAGTGCACACAACGGCTAAAGCAAAGGAGTTGCAATAA
>SRR1151209_01551 metal ABC transporter substrate-binding protein
ATGAAAAGAATTATTGCGACATTCATTGCCGTAGTCATGATGATCGGCGGTGTCTTCCTCTTTTTGAATAATCGCGGTGCAAGCCAAGCGGACGCGCAAAGTCCCTCGGGCAAGCTGCGGATCGTGACCACGAACTCCATTCTGGAAGACATGGTGCACAATATCGGCCAAGACCACATTGAGCTCTACAGCATTGTCCAGCGCGGTACCGATCCCCATGAGTATGAACCCCGCCCCACCGATGTCTCCCAAGCAACCGAAGCCGACATTATTTTCCATAATGGCTTGAATTTAGAAACCGGGGGCAGCGGCTGGTTCTCGAAGTTAGTCAGTACCGCCCATAAGGAATTTGATCAGGAGGTCTTTGCGGCCAGTGCCGGCGTCACTCCCCAACATTTGACGACCAACGTTAATGAAGAAGACCCCCACGCCTGGCTGGATCTGGCCAACGGCATCAAGTACGTCCAGACCATGACCAAGGTAATGAAGGAAAAAGATCCGAAAAACGCCACCTACTATCAGTTGAATGCTGATAAATATATTACCCAGTTGCAAAAGCTGCACAACACAGCCCAATCACAGTTCCTGGATATTCCAGAAAAACAGCGGCTGCTCGTTACCTCCGAGGGGGCCTTCAAATATTTTGCCAAGGCCTACCACGTTACCCCGGCCTATATCTGGGAAATCAACACCGAAGCCCAGGGGACTCCGGAACAAATGAAATCGGTGCTCGCCAAGATCGACAATTCTGACGTGCAAAGTCTGTTCGTGGAAACTTCCGTCTCCCCCAAATCCATGAATAAAGTCGCCAAGGAAACCGGTTTGAAAATCTATTCCAAAATTTTCACCGACTCCCTAGCGAAAGAAGGCACTACCGGGGACACGTATTACAGCATGATGAAATGGAACTTGGATAAGATCCATGCGGGCTTAACAAGCCAAACCGACTAA
>SRR1151209_01552 hypothetical protein
ATGGTTACCCGATTAATTAGTGCCGATACCAGTGAAATCTTAGGAATGAAAGCCGCCGAGCTGAAGCAAAGCATCAAGGCCAGTGAAGGCCGGGTCGTGCTCAGCGAGAATGTCGTCGGTCATGAAGTCGGTGATGGTATCACCACCTCCGAAGTAGCCGCGGCCTTTGGCGCCGATCTGATCCTGCTGAACGGCTTGGATGTGCTGAATCCTGTTATCTTCGGCCTGTATCCCAACGAAGGGGCCAAGGTTCACCACGACGGTCAAAGCATCAAGCGCCTGCAGCACCTGGTCGGCCGACCCATCGGGGTCAATCTGGAACCCGTGGATGTCAACGCCGACATGTCCGAGACCCGGTTGGAGATTCCGGAGGGCCGGATGTCCAGTCGTAAAACGCTGACGGAAGTCGAAAAACTAGGCTTCAATTTCGTTTGCTTGACCGGCAATCCCGGTACGGGCGTGACCAATGCCCAGATCGCGGCCAATGTGAAAGTGGCCAAGGAAGTCTTCTCTGGCCTGATCATTGCCGGTAAGATGCATGGCGCAGGGGTCAATGAGCCTGTCGTCAGTCTGGACGCGGTCAAAGACTTCCTGGACGCTGGCGCGGATGTGATCCTGGTGCCGGCCGTTGGGACTGTCCCGGGCCTAACTGACGAAGAAGTGCGGGCCGTGGTGAAACTGGCCCATGCCCAGGATGCGCTGGTAATGAGCACGATCGGGACCAGCCAAGAAGGGTCCGGTGCCCACTATATCGAAGAAGTCGCTGTCCGGAATAAGATCAACGGCGTCGATATTCAGCATATGGGCGATGCCGCTTGGGGCATTCAATCGCCGTTCGAGAACATTTATGCCTTAAGCCGGGCAATTCGCGGCGAACGGCATGCGATTCAGCGCATGGCGCGGTCAATTAACCGGTAA
>SRR1151209_01553 cellobiose-specific PTS system IIC component
ATGGATGATAAGGATAGCTCAAGCCGTGGCCTGAACGGCTTTATCGAGAAGCATTTGATGCCCATCGCCATTAAATTGGGCGGGTATAAATGGTTAGTCGCCATTCGGGACGGGATTGCCGTCGCGATGCCGCTGATCATTGTTGGTTCCTTCTTCATGATTCTGAATAGTTTCCCAGTTCATCAGTTCACGGACTGGTTGGCTAACACGAAGATCAACAGCGTCTCCATCGCTCAGGTCTTTGCCAAGATCACCAATGGGTCTTTTGGTCTGTTAGGGGTCATTGGGGCCTTCGGGATTGCCGATAGTTACGCCAAGCAGTATCACACCGACGGCAAGTCCGCCGGGATCATCGCCGTGGCGTCGTTCTTCGTCGTAACGCCCAGCATCTTCACCGGCGGCAAAGCCCCGGCAGAAGGAATGCCCTATGACTATTTAGGCAGCAAAGGCCTGTTCATCGCCATCATCATTGGCCTGGTCAGTGGTTGGGTCTTCCAGTGGTTTATTAATAAAGGCATTCGGATCAAGATGCCTGATGCCGTGCCGCCGGCAATTTCTGATAGTTTCAGTGCCCTGATCCCAGGCGCTGTGATCGTCACCTTCTGGGGTGTGATTTACGCGATCTTTGCCTTCGCCGGCTGGGGCAGCATCCATGATGTGTTCCTGCACATCTTCTCCAAGCCGCTGAGCCTGTTGGGTGATACGATCGGCGGGACGCTGGTGGCCATCGCCTTAAACAGTATCTTCTGGTTCGTGGGGATCCATGGCGGCAACGTCATCAATACCATCTTCTCCCCGATTTGGCTGATCAATGCAGGGGCCAACAGCAAGCTGACTGAAGCGCACCATTTGGATCTGGCCCACGGGGCGCACATTATTACCCAACCGTTCATGGATAACTTCGTTTACATGGGCGGCGGCGGTGCCACCTTAGGCTTGGTACTCGCCATTGGGATCTTAGTCTTCATGAAGCGGTCCAGCCGCCAGATGGAAGTGCTGGCGCCGCTGACGATCACGCCAGGCATTTTCAATATCAATGAGCCGACCATGTTCGGTCTGCCAGTGGTTTTGAATACCACATTGATCATTCCCTTTATCTTGGCCCCGATGGTGAATGCCTTAACGACTTGGGGTGCGATGAAAGCCGGCTGGGTACCGCTGACGACTGGTTCTTTGGCCACTTGGACCATGCCGCCGATCATCTCCGGCTTCCTGGTTACCAGTTCCGTCATGGGCAGTGTACTGCAGGCGGTCAATATCGTCATTGATGTCTTGATTTACCTGCCGTTCCTGCTGAACTTAAACAAGCAGCAGATCGTTGAAGAAAAGGGCGACGACGCCAAAAAGGCGGCCGCCAACAATTAA
>SRR1151209_01554 manganese transporter
TTGTTCTTGAATGAAAACAATCCGAACCATCGGCATAAGCTGATCGAGTATGCCAACGGTCCTTCGTTGGAAGAAATCAACGGAACCGTCAAAGTCCCGAAGGGCAAAGGCTTCTGGCGTACCTTGTTCGCCTATTCCGGCCCTGGCGCGCTAGTGGCCGTTGGCTATATGGACCCCGGGAACTGGTCAACGTCGATCACTGGTGGTCAGAATTTCCAATATCTATTGATGTCGGTCATTCTGATGTCGAGTTTAATTGCGATGCTGCTCCAATACATGGCCGCTAAACTCGGCATAGTCACCCGGATGGACTTGGCCCAGGCAATTCGGGCCCGCACGAGTAAAACCTTGGGCATTATTCTTTGGATCATGACCGAATTAGCCATCATGGCCACTGATATCGCGGAAGTCATCGGGGCGGCGATTGCCCTGTATCTGTTGTTCCATATTCCGCTAGTCATCGCCGTATTCATCACCGTATTCGATGTCTTGCTTTTATTGCTTTTGACCAGAATCGGCTTCCGGAAAATCGAAGCCATCGTTGTCTGTTTGATTCTTGTCATCCTATTTATCTTTGTTTACCAAGTGGCATTATCCGATCCGAACTGGGGCGCTGTGATCCAAGGGTTTGTCCCGAACGCTAAGACCTTTGCCACCTCCCCGCAGATTGGCGGCGAAACCCCCTTGTCCGGTGCCTTAGGGATCATCGGGGCGACAGTTATGCCGCATAACTTATACTTACACAGTGCCATTTCTCAGACCCGGAAAATTGATCACAACGATCCGGATGATGTGGCCGCCGCTGTTCGTTTCACCGCTTGGGATTCCAACATCCAATTAACCGCCGCGTTCTTCGTTAACGCCTTGCTGTTGATTATGGGGGTTGCCGTCTTCAAGACTGGGGCCGTCAAGGATCCGTCCTTCTTCGGTTTGTTCCATGCCCTGTCTGATACCTCCAAGCTGAGCAATCCGCTGCTGATCAGCGTTGCCAAGTCTGGGGTACTCTCCATCCTATTCGCCGTTGCCCTGTTGGCCTCCGGCCAGAACTCCACGATCACCGGGACCTTAACTGGGCAGGTCATCATGGAAGGCTTCATCCACATGCGGATGCCGTTATGGGCTCGTCGGCTGGTCACCCGGTTGATCTCCGTTGTCCCGGTATTGATCACCGTCGGCATGACGACTGGCGAAACCGAAATACAACAGCACGTCGCGCTGAATAACCTAATGAACAATTCGCAGGTATTTCTAGCCTTCGCTCTGCCCTTCTCCATGCTGCCGCTGTTAATGATGACCGGCAGTCGGGTCGAAATGGGCAAGCGTTTCAAGAACAGCGTCATCCTGCAAATCCTCGGTTGGATCTCAGTTATTGGTCTGACCTTCTTGAACATGTACGGCTTGCCTGATTCCATCACTGATTTCTTCGGCGACAATCCGGCAGCGGCTCAAGTGCAAACAGCACATCTGATTGCCTACATATTGATTGCAATTGTACTGGCCTTGCTGGTCTGGACAATTATCGATCTGTATCGGGGCAATCAACGGTATGCCGCCGCCTTGGCAGAAAAGGCCGCAGAAGCTAAAGCCAAGGAAGACGCATCAGCGAAGGGAGTGTCCGCTAATGGATCAGCAAACTAA
>SRR1151209_01555 universal stress protein UspA
ATGGATCAGCAAACTAAAATCATCAAGCACATCTTGGTCGGCGTGGACGATTCACCGGATGCCCTCACTGCCTTTCAATATGCCCTGCACCGTGCTAAGCAGGAAGACACGGAGCTGACCATTGTATCGATTCTGGAAAGCCACGAAATGAATGTGTTCCAGGCCCTGGATAAAGATTATGTCCACGGCCAACGGGCAGAACTGGAAGAGCATATCAAGAAGTACCAGCAGCTGGCCAAAGAAGCGGGGATCAAAACCGTTAACGCGGTCATTGCCGAGGGTGATCCCGGCGACACCATCGTTAACCAGGTGATTCCCGCCGTGAAGCCGGACCTGCTGATCGTGGGTGCCCGCTCCAAGCAAGGCATTGCCAAACACTTTGGCAGTCAGGCCGCCTATATGGCGAAATACGCACCGATCTCGGTACTGGTCGTGCGCTAA
>SRR1151209_01556 phosphonate ABC transporter substrate-binding protein
GTGCAATCAGTGAAATTCGGGAAGAAGTTGGCCTTCGCCGCCAGTGCGGCGGGGATCGCGTTAGCGTTAGCCGCCTGCAGCAATCCGGTCACCGGCGCAAATGGAACCACGAACGGCAGTGACAAAACCATTTCTGTTGTTTTTTTGCCCAGCGATTCAGCAAAAGAAGCCGACGCCGCGCGCCAGGCGTTGACCAAGGAGATCCGCCAGGCCACCGGCAAGAAGGTCGTTGTGCAAACCACTACAGATTACAACGTCGCGATCCAGGCCATCGCCTCCGGCAAGAGCCAAATTGCCCTGCTCGGCCCTGTCGGTTATATCCAAGCCCATCAGCAAAACAAGAACGTCGTCCCCATGGTCACATACTCCGGCAAGTCCGGCACATTAAAGGATGCCTTTTATCATAGCTATCTGATGGTGCCCAAGGACAAAGCGGCGGGGTATCAAGACAGCGGCACCTATTCCTTAAAAAACATTAAAGGGCAACGGATCTCTTATGTGTCTAACACCTCCACCTCTGGCTTTGCGATTCCCGCCGGCGCGATCCAAAAAGAGTTCAAGCTCAAGAGCACCGATGCCCTCGCCCAAAGCGGCCAATTCTTCCAAAAAGTCCTTTACGGCGGTTCCCATCAAGGTTCCGCGGTCAATCTGTTCAAAGGAGACGCCGACGTGGCAGCCTTTGACGACATGGACCTGCTGAGTTACGGCAAGTTCACCAACAACTCCGCCGCTGGTGCCACCTTCACAGTCAATACCGACGCGCCGGCCCCCTTTGACGCTGTGCGCGGCAAGGAATCCGTGGCTATTGCCGCGTATCAAGTGCAAAACGAACCGCTGGCCGTGAACAAGAGCGGCATTTCTGCCAGTGATATTAAAAAGATCACCACGGCCTTGACCAGCAGTCGGGTGGCCAACGATCCGCTGTTCTTTGCCCCGGCAGAGGCCAAGACCCACAGTCTGCTGCCCAAGGACGGCGACACCAAGTTCATCAAGATCAGCGACGATTGGTACAAACCGACCCACGACATTCTCTGCGAATAG
>SRR1151209_01557 phosphonate ABC transporter ATP-binding protein
ATGCTGCAAGTACGGCACCTATCGAAAATCTACACAGGCAAACAGCCCTCTTTAGACGATGTTTCCTTCACCGCTCAGCCCGGTGCCGTGACGGCCATCATCGGTCCTTCCGGTGCCGGCAAGACCACCCTGCTGCGCAGTCTGAACCAGCTGATCACCGACGATGCCGGTGAAATTCTGCTGGAGAATATTGATCTGCGCCAGCTCAAGCGCCGGGACCTGATGAAACAGCGGACCAAGATCGGTATGATTTTTCAAAACTATAATTTGATCGAACCGCTCACCGCCCTGGAGAATGTGCTCCACGGCAGTCTGGCCCGCAAATCCACCCTGGCTGGGGTGCTTTCCCTTTATTCCCGCCAAGAAAAGGGGGAAGCGATGGCCCTGCTGGCCGATGTGGGCTTGCAAGAATTCGCCTACCATTATGCCGGCGACCTGAGCGGCGGCCAAAAACAGCGGGTGGGTATCGCCCGGGCGTTGATGCAGCATCCGACCATGATGCTGTGCGACGAGCCGATTGCCTCCCTGGATCCCCGCTCCACGGTCATCGTCATGGATATTCTGCGCCGCCTCGCCGATGCCCAGGACATGACAATCCTGATCAATCTGCACCAAGTGGATATTGCCAAGGACTACGCCGACCACATTATCGGCTTGAATAGCGGCCGCGTCGTCTTTGACGGCCCCGTGGCTGAGGCGACTGCGGCCGCGATGGCGGCGATTTATGCCGCTCCGGCCCAGGCTGCTGCCGCAGCGGGGTGA
>SRR1151209_01558 phosphonate ABC transporter permease protein
ATGCCGCTCCGGCCCAGGCTGCTGCCGCAGCGGGGTGAGCCGATGACGATGACCAGTTTTTTCCGTAAAAAGCGGCTGCATCTGACGCTGCTCATCAGCTTGCTCCTAGCGGCTTACGCCGCGGCCGCGCTGATCCTCAATTTCAATTCCCTGTCATTTTTGTATCTGCACTTAGGGATCGACTGGCTGGCGGTCAATTTCATCCCCAATAGCCAATCGCTGCAGTATTGGGGCAATATCCTGGAAGCCCTGGTCCGCACGCTGCTCGTCGCGGTGGCGTCCACCAGTGTCGCCGGGGTCTTCGCTCTGGGCCTCGCGCTGCTCGGGGCGCAACCCACCGGCCCGAATGCCGCTCTGCGCTGGCTGATCCGCGGCTTCGCCTCCGTACTGCGCAATATTCCCATCGTCGGCTGGGCGCTGTTGCTGTTGTTTTCGTTCAAACAAAATGACTTCACCGGCTTCCTTGCCCTGTTCTTCCTCAGTCTGGGCTTCCTCACCCGGGCGTTCATGGAAACCATCGAAGCCATCGATGTGGAGAAAATCCAGGCGCTGCAGGTCACCGGGGCCAATTACTGGCAGGTCGTCGCCCAGGCTGTACTGCCGGAGATCCTGACGCCGGTATTGTCGTGGCTGCTGTATATGATTGAAAACAACATCCGCGACGCGACCCTGGTCGGTCTGCTCACGGGGACGGGCATCGGCTTCGTCTTTGATCTGTACTACAAGAGCCTGCGGTACGGTCCCGCCGGACTGGTCGTCTTGGCGATCATTATGCTGGTAATTGCCGTGGAAACAGTCTCCAGCCTGATTGAAAGGAGGATCGGAATGATTGCTGATTAA
>SRR1151209_01559 transposase
ATGCCAATCAAAACACACAAGATACGGATCTATCCCAACGACGAAATGGTTACTGTTATTACTGAGCTGATGGATTACAACCGCTTTTGCTGGAACAAAGGCTTGGCCGCATGGAATGACATGTATGACGCGTCGTTAGCCGTGGCGGACAAGAAACTGCGGCCTAGCGAGTACAAAGTCCGCGACGAGCTGGTGAAAAACAAAACCGACTGGCAGCATCAGTTTTCAGCACGGGTGCTCCAAACTGCTGTCCATCGGCTGCATCAAGCCTGGCAGAATTTCTTCAATCCCGCTATGCCGGACGCTCACAAGCCTAAATTCCATCATAAGCGGGATCCTAAACAAAGCTTTACGACGGACCGGGCGGTCATTACCGGCAAGTACCTGACCTTGGACCGGCCGCATGCGGCCAGCCATCGTTTCAGCGCCATCAAAATGGCGGAAACTTTACGTTTTACTGGCGAGATCAAAACCGTGACGATAACCAAGCGCGGAAAAAAGTTCTACGCCAGTGTCAACGCATTGATTGAAGACACTCCACGACCGGCTTTTTATGACTGCTGGGACATCGTCGGCATTGATGTGAACGTGGGCCATATCCGCTGGAACGGCGGGGACGTCAACACCTTCACACCACGCATGGCAGCGTTGCATCAACGGATCAAGTATTACCAAAAATGCCTGAACCGGAAACGGCGGAGAAATCCGGGCGACTACCGGTCCAAGACCTATCAGCGGATTAAAGCGAAGATGAACCGCACTTACGAGCAGGTGCACGCGTTGCAGGATGATCTGATCCACAAGTTCAGCCACAAAATCATCAAGAATTATCCCGTTCCTTGTTTAGAGGATCTGGATGTCCACGCGATGATGATGGACGGGAAGAAAGTCAAAGGTCTTCAGCGCGGGCTCTTTCGCCGTTTACGCACGGCAATCGAGTACAAGGCGGCTTGGCATCATCGCGATTTGGTGATTGCCAATCGTTTCTTCCCGTCAACGCAGCGCTGTTCAAACTGCGGCTATATCAAGAAAGAAGAAAGCTATGGCGGCAAGATGACGCTTCAAGGTGACAGCATTTACCACCAGCATGACGTGTATCGCTGTTACGAGTGCGGTCTTGTCATTGACCGAGACGATAACGCTGTTCAAAATTTGATTCAATATGCGGCGGGGCTTACGCCGGAATGGGAAACCGTTCAGAGATGA
>SRR1151209_01560 phosphonate ABC transporter permease protein
ATGATTTCAAATTCCGAGAAACCCGTCATTCTGGCCGCGGCCCCGCCGCCACGGCCGGTGAGTCTACACCGCTGGCGCGACAAACGCCGGCGCTGGGTCTATGGCACCCTGTTGGGTCTGACCGCGATCACCGCTTACGCCCTGCCGGCCATCATGCCCCAGGGCTTGAACCTGGCCCGGGCCAGCAGTGACTTGGTGCGCAACATCCAGATTATGTTTTTCCAGCCCGCCGCCAATAACGCCAGTGCCGCCAGTCTCTTATTTGCCTTAGTGCAAAGTATTGCCTTGGCCTTCTTGACGACTTTGATCGGCGCCATCTTTGCCTTTCTGCTCGCCTTAATGGCCGCCCGCAACTTGGCGCCTCGCTGGCTGATCCGCACCGTGCAAAGCGCGATGGCCTTGATCCGGGCGATCCCCACGATCCTCTGGGTCCTGATCTACAGTACCGTGCTCGGTTTGGGCGCTAACGCCGCCGTGATCGGGCTGACCTTCCACAGTGTCGCTTATCTGGTCAAAGTTTACGCCGACAGTATTGACGAATTACCCGCCGATACTCTGGGTGCGCTGCGGGCCATGGGCGTCCGCTTCTGGCCCTTAGTGACCCAAGCCATCCTGCCCACGATTCGGCCCAGTCTGCTCAGCTGGACGTTTATCCGTTTTGAGATCAACTTCGCCAACGCCGTCGCGGTGGGCGCCGCCGCCGGAGCTGGCGGGATCGGCTACCAGCTCTTCATGGCCAGCGGCTTCTACTTCGATTTTCATGAGGTCGGCCTGATCGTGTATCTGATCCTCGCCTTCACGATTCCCTTGGAAAGCGTGTCCTACCGCCTCCGCACCGCCTATCTCAACCGCACTGCCCATTAA
>SRR1151209_01561 phosphonoacetaldehyde hydrolase
ATGATTCAAGCCATTGTATTGGATTGGGCCGGGACGACTGTCGATTACGGCAGCCTGGCCCCGATCATTGCCTTTCAAAAGGCCTTCAGTCACTTCGGTATCACCATCACCACGGACGAGATTCGGCAGGATCTGGGGCTGGATAAACGCACTCATGTGGAGAAAATGTTCGCCGACCCGGCGATTCAAGCCCAGTGGCAGGCCAACAATCCCGGTGAGTCATTAGCTGCCGGGATCGACCAGGTCTACGCCCGCTTCCAAGTCAAAATTGATGACGTGCTGGTGGAATATGCCGCGCTGAAGCCGGGAGTCAAAGACCTCGCTAACTTCATGCAGGCCCAGCACATTAAGCTGGCGACCACCACCGGTTACACCCAAGCGATGCTGGACCGCATTCTGCCAGTGGCCGCCGCCCAGGGGTACGCGCCTAAGGTCAACTTGACCGCAGAACAGACCAACGGCATCGGCCGGCCCGCTCCGGACATGCTGCTGGCGGCCTTGGCTCAGCTCCAAGTGACTGACCCGCGCGCTGTGCTCAAAGTCGGCGACACGATCACCGATATCCTCGAAGGCAAAGCCGCCCACGCCATCAGCGTCGGCGTAGTGATTGGCGGCAATCTCATCGGCTTGCCGGAAATCGCCTTTGATGCCCTGCCAACGGGTGAAAAAGACCGCCGCGTCAGTCACGCCCGCCAGGCCCTGTACGCGGCCGGGGCCGACTACGTCATTGATACCCTGGCCGATTTGCCGGCACTGATCACCGCCCTCAACACCCTAGTCCCCTATCAGGCCCAGCCGGCGCCGCTGCTGCTCACACCCGGCCCGCTGACGACCAGCCCGGCCGTAAAGCGGACCATGCTCATCGATCACGGTACGTGGGATGACGAGTACAAAGCGCTAACCGAAACCGTCCGCCAGGAACTGCTGAGCGTCGCTCAGGCCCCCGCTGCAGACTACACCACCATCCTAATGCAGGGCAGCGGTACGTTCGCCGTGGAAGCCGCGCTCGGCACCGCCGTACCCCACAAGACGGGGTGCTGCTGA
>SRR1151209_01562 2-aminoethylphosphonate-pyruvate aminotransferase
ATGAACGGCGCTTACGGCCGGAGAATGGGCCAAATTGCTGACTACTACAATATCGTCCACGTGGACCTGGAATTTGCCGAAGATGAACCGGTCACGCTCGAAAAAGTCCTGACTGTTCTGGATGACCATCCCGAAGTGACCCACTTCGCCACTGTCCACTGCGAAACCACCACCGGTATCCTCAATCCCATCGATGCCATTATTCCGGCAGTCCATGCCCGGGGTGTTGTGACCATTGTGGACGCCATGTCCAGCTTCGGCGGCGTGCCCATCGACACCGCCGCCCTCGGCCTGGATTATCTGATCAGCAGCAGCAACAAGTGCATCCAAGGCGTGCCCGGCTTCGGCTTCATTATTGCCAACCGTACCGCTCTGGCTAGGACTGAAGGCAATGCCCGCTCGCTGTCTTTGGATCTTTATGATCAAAACCAAAGCTTCAACCAGCAGCACGGCAAATGGCGCTTCACCTCGCCCACCCACGTACTCTATGCTTTCCATCAAGCCCTGCAAGAACTCGCCGCAGAAGGCGGCGTACCGGCCCGGTTTGCCCGCTACACCCGCAGCGAACACCAGCTGCGCCAAGGTATGCTCGCCCTCGGCTACGCCCCCGTTATCGCGGAAGCCGACCAATCCCCGATCATCACATCGTTCAAATACCCCAGCGCCGCCTTCGACTTCCACGCGTTCTACGCGTACTTAAAAGACCGCGGCTTCATCATCTACCCCGGAAAAGTCTCGACCATCGACAGCTTCCGCATCGGAAATATCGGCGAAGTCTACACCGGCGACATCCAGCAACTGTTGCGCTGGATCAAAACGTACAGCACGGTGCGGGTGCAGTCTGGCAGAAAAATAGACTGA
>SRR1151209_01563 YitT family membrane protein
ATGAGCGGGGCGACGATCAAACGGGAGGGGGCGCCGCTGCTGCTGATCTTGCTGGGCAACTTGCTGATTGCCTTTGGCTATGCCAAATTCATGGTGCCCAGCAATATTATCAGCGGCGGAGTGACTTCCCTGAGTATGGTGCTGGCGCGGCTGACACCCTTGAGTGTCGTGACTTGGACGAACATGATCACGGTCGGCTGTCTCGTCTTTGCGTTGATTTTCTTAGGCCGCACGAACTTCATTCGGTCTATTGTCAGCAGTTTTGCCTACATGGGCTTCTTTGCCCTGTGGACCTGGTTGCCGCTGAATTTGGCCCACTGGCCCTGGCTGGATGTTCTGTTGGCAAGCTTGTTCATTGGCGCGGGATATTATTGCTGTATTGCGAGTAATGCGTCGACGGCTGGGTTGGACGTGTTTGCGCTGATTGCGGCACACAAAAACCCGCAGCTGAATGTGACGCTCATGCTGCGGGTGATCAATGTGGTGGTGCTGCTGGGGAGCACGGTGGTGTTCGGCTGGGCAGCGCTGGTGTGGGGCTTGGCGTTTACGTTCCTGTATTCAGGCCTGATGGGCTGGCTGTTGCGGCGGTACCGGCCGTTTCCGAAGGTGAAGACGACGAAGTAA
>SRR1151209_01564 hypothetical protein
ATGACGGCGACTTTGCAGGATGCGGCCTTGACGGCTGCTCAGCGGCCGGAACCAACTCCGGGGACGTGGCAGGACAGTGAACCGCCCACATTTTTACCGGGACAAACGGCGACCCGGCTGGACTATTTCTTCGTCAATGACCGGGTCCAGGTGCAGTCGTATGCCGTGGATACCACGCTGGCGCCCACAGGCCAGTATGCCTCGGACCACTTCCCTGTGACGGTTACGGTGATGGCCCGATGA
>SRR1151209_01565 endonuclease/Exonuclease/phosphatase family protein
ATGGTTTCAATTACAACGTATAATATTCGGTTGGATACAGACGACGATCACCCCTGGCAGTGGGCGGCACGCAAGCCGTATGTATTGGCCAATTTGCAGCGGCTGGACCCGGACATTTTTACCGTGGAAGAGGCGGAACCCCACCAGTTAGCAGATCTGCGGACGCTGACGGCGTACCGCGGTTTTGGTGTGCCGCGGGAGAACACAGTGGATCAAGGCGAAGCGGCGGCGATTTTTATTAAGAAAACCAAGTTCGACGCGTTGGCGGAGGGTCATGCCTGGGTATCCAAAACGCCGGACAAACCGTCCATTTATCCTGGGGCTTGGACGTATCGCATGTTCCAGTGGGCTAAGCTGCGGGATAAAACGGATGATACGATTTTTTATCTGGTGACGGTCCACCTGGACCATGTGTCCGTGGCAGCCCGAAACTTTGGTGTGCAGCAGATCCTGGCCGCGTTCGCCCAGGAACGGGCCGATTATCCGTTTATCGTGACCGGGGATTTCAATATGACCCCACGGATGAGGCTTACCGGACGATGA
>SRR1151209_01566 IclR family transcriptional regulator
ATGCCTGAAACCACTGAAAAACTCTACGGCACCGTCCTGATTAAAGCAAAAGAAATCATGGACTTCACGCTGGCCGCAGACGAAGCACCCACCCTAATGACCATCAGCCGCGGCACCGGACTGACCAAACCGACGGCCTTGAAGATCCTCACTACCCTCTGCGCCCTGGGTTTCATGCACCGGGATGACGAAAGCCGCCGCTACTACCTGGGCACCCAGTTCATCCCCTACGCCACCAAAGCAATGAGCAGCTTCAATATCCGCGATGTCGCCTTCCCCGCTCTGGAAGCCTTGCGCCAAACCACCGGCGAAACGATCAATCTGGGCGTCTTGGAAAGCAACCAGGTGATGCTGATCGAGAAGTTGGAAAGCCCCAACTCCATTAAATTGAAATCCACCATCGGCGGCCGCATGCACTTGTATTCCTCCGCCATGGGCAAAGCAATCCTGGCCACCTTCACTCCCGACCAGCTGGCCGCCTACCTGCACCGCACCACTTTGCAGCCGGTGACCCCGCACACGCTCATCACCCCCACCGCCTTGAAACACAACATTCAAGAAATCAAAGACCGCGGCGTGGCTATCGATAACGAAGAAAACGAACTGGAAGTCTTCTGCGTCGGCGCCACGATCTACCGCCACGACCGCCTATTCGGCGCCTTCAGCGTCTCTGCCCCCAAATACCGCGTCCCCGAAGCCGCCCGAGCCGAACTGATCGACCAAGTGCGGGCGACTCAGGAAGCAATTACTGCTGAAATATAA
>SRR1151209_01567 Fe-S cluster biosynthesis protein
ATGACAGAAATCAAATTAACGGATTCCATGGCCCAATTACTCAAGGGTGACCGCTTTGCTGGCAAGACTTTGCTCTTAGTCACAGATGATGGCGGCGGCAAGTATTCCTTGCAGGGCGGGGCGTGCAGCATTGGCGCTAACTTCACGGTGATCATTTTGGATCAGCCGGACCCTGATTATAGCGTACCGCTGAAAAACGATGCCGGGATTCCCTTGTATACGTCCAACTATGACCTGACTTTCCTGGGTCATGGCTTGACGATGGATTATCAGCACTACACGATTTCCTTGAAGGATGATTCCGGTCTGCTGGATGGCGGCATGCGAATCGCGAAGGGCACTGATGTATTGGCGGCCTTCAAGCAAGGGATTACGGTCAGCGGCGCGACGTGCTAA
>SRR1151209_01568 2-dehydropantoate 2-reductase
TTGAAAAGGAAGCTGATTATTTTGAAAATTGCCATTGCAGGCGCCGGTGCCATGGGCGGCCGATTCGGCAGTATGTTGTCGACGACAGAGAATCCCGTCACGTTTATTGATTTGTGGGCGCAGCACGTTCAGGCGATTAATGCCCACGGGTTGCTGGTTCATACGGATCATGGCGATGAACGGGTCCATGTCCCCGCGTATCTGCCGCAGGATGTCCACGGCAGTTTCGACTTGATCGTGTTATTCACCAAAGCCATGGGCATTGCGCCGATGCTGACGGCGCTGAAGCCGGTCATCACGCCCCAGACGCATATTTTGGTGCTGGGCAACGGGATCGGCAACATTGAGACGATCAGTCGCTTTGTACCTAAAGATCAAATTATCGCCGGAGTGACGGTCTGGTCGGCCGCTTTGAACGGTCCTGGCGAAATCACCATGAAGGGTGACGGCGGCGTGACGCTGGAAGCCCTCGGCAGCAATGAGGCCCCATTCTTCAAGCAAGTCGTTCAAGTTTTGCAGGATGCCGGGTTGAAGCCGACTGCCTCCCATGATGTGCTGGCCGCTATCTGGCGTAAAGCCGCATTGAACTCGGTATTGAATACGTATTGCACGATCCTGGACTGCAATATCGGCGAATTCGGGCAATTGCCGGACCACGATGCCATGATCGACGGCGTTCTGAGCGAATTCAGCCAAATTGCTGCCAAGCAGCACGTGCATTTCGACGCGGCCGACACGAAACAATTGATCGTGGCGCAATTCCCAGATGGCAAGAATGGGCTGCATTATCCGTCCATGCACCAAGACATGGCCAAAGGCCGTAAGACAGAAATTGATTTCTTGAATGGCTATATTGCCAAGGTTGGCGCGCGGGAGCATATTGCCACGCCAATCAACGCAATGCTGACCGCACTGGTGCACAGCAAAGAGAAGTTGAACGAATTACAAAGCAGTCGGGAGAAAGTCGCGACACCGGTTTAA
>SRR1151209_01569 major facilitator superfamily transporter
GTGACCGTTACCCATCGCTGGCTGGCGCTCAGCACGCTGGGCCTGTTCTTCTTCATGGTGATTGTAGACGGCAGTATCGTTACTATTGCCGTCCCCGCCATGGCGGCCGGTTTGCACGTGCCCACCAGCCAAATTAACTTGGTCATTGCGATTTATCTCGTCGGGATCAGCGGCTTGCTGCTCACCTTCGGCCAACTGGGCGACCAGCTGGGGCGGATCCGCTTATTCAAGTGGGGCACGCTGCTCTTTACCATCGGCTCGGCCTTGGCCAGTCTGGGTATCAGTTTGCCTTTAGTATTAGGCGGCCGGTTGGTCCAAGCCATTGGGGCCAGCATGACGATGGCCAATAGTTACGCCATCGTCACCGACATCTTCCCCATGGCCTTTCTGGGCCGAGCCTTGGGTGTCGAGAGTATCTTCATCTCCCTCGGTGCCCTGGCTGGTCCAGGCCTAGGCGGTTTGATTCTGGCCTACCTATCTTGGCACGCCATTTTCTGGATCAATATCCCCCTCGGCCTGTTCTGTCTGATCGTCGCCTGGCGGGTCTTTCCCGCCAGCAGTGCGCCCGCCCAAACGCCGACAATTGACTGGCCCGGTACCCTCTGGCTGATCACCGCTGCCGCGAGCTTCTACGTATTCACCAGCACATTGCTGACGCAGGCGGTGATCACGCTGCTCAGTCTGGGCCTATTTACGGTCGCTCTGGTGCAATTCAGTCAGGTCGAAAGGCGCGCTGTCAAACCGTTGCTGGACTTCGCGATTTTCCGTCACCCGCTGTTCAGCCGCAGCCTGCTCGCGTCATTCATGAGCTTCATTGCGGCCTACTTTTTCACCCTGCTGGCCCCCATCTACCTGCAAGTCGTACTGCACACCAGCAGCCAGCTCACGGGGCTGATCCTGATGATTGCGCCGGCAATTGCTCTTGTGGCGAATCCCATCGCGGGCTGGCTAACGGATCGGTATCCGCAAGTCCGGGTGATGCAGTGGGGCATGGTCTTGCTGGTCTTGGCCGAAATCGGCCTCGTTCTCAGTAACGGCCAGCACGAACCCTGGGTGTTGGGCAGCCTATCGATCCTGATTTCCATCGGTACCGCCGTCTTTAGCACCCCCAGCAATACACTCACCATGAGCAGTGTGCCAGCAGAACAGCGGGGCATGGCCGGGGCGACCAACTCATTGACCCGAGAATTCGGGATGGTCCTCGGCACGACCTTGGCCACCACTACTTATTACGGCAGTCTGTCCGTGCTGGCCGGCCGGGCCGCCCTGACCGTCACGGGTCAAGTACCTCAGCATTTGCTCCACGCCCAATCCGTCGCCTATCTCGCGGCGACAATTCTACTGGTTATCGGCCTCTGGCTGATTCGTTCAAGAAAGGTGATGACAGCATGA
>SRR1151209_01570 MarR family transcriptional regulator
ATGACCGCAGAAATTGATGCGCTCATTTCGCAATTGAATATCACAGCCCGGCGGGTTCAAGCGTACCTCAACGTCAAATTGAAGCCGCTGAATCTTACTGTGAATAACTACTACTTTATTCTCAAAATCAATCATGATACCCCGCTGACCCAGGATCAGCTCTTCAAGCGGATCTATCTCAGCCCCAGCAACGTCACCCGCCGGTTGTCCCAGCTGATTGATCTGGGCCTGGTGGAAAAGCAGCGCAGTGCCGCAGACGGGCGTTCCTGGACGGTGACCCTCACGCCAGAAGGCAAGGCCCTCGTGCCCAAGGTTGAAAGGATCTTGGCCCAAGTCAACACCGATGCCTTCGGCGACTTGCCGCCTGTACAACAGTCGGAAATGATTGATGCCTTGAAGTTGATTGACCACAATTTAGCCTAA
>SRR1151209_01571 hypothetical protein
ATGTCCAAATCCCTTGACGTGTTAGGCAAGCCCCAATCCGACTTGCAGATTCCTGACGGTTTTGTCAACGCTGCTGAAGATACTCGGAGCCGGAACGGTGAAGCTGTTTCAGTCGTCCGCTATCAGAAACCCGGCCGGGTCGTCATGAATAATCCCCATGTGACCGCCATTTTCGGCCGCGACGGGCGTTTGATCAGTTACAACAATTTTGCCGTTGACAGCGATGCCCCGCTGCCCGCTGAAGAAGCGGCGGTGCACCAAGCCGCCCGCTTATTCGCCGCGCTGGACCCGCACTACGCCCGCGGCCTGAGTTTCATGCGGGTGGACCGCTACAACCGGCATTTCACCGACGACCATGGTGTACAAGTCGAAATCCCGGTACTCTGGGTGAAATTCGCCCACCGGAACGGGTCTTATAACTGGGTCTCTGTCGGCCCCGGCGGTCAAATCATTGAAATGGAACGAGAGTCTGAGTGGGATTACTTCCGTTCCCGCCGAGCCACCGAAGAATGGAACTACGACGACTGGGTACTGGCCCGGGCTGGTAAAGGACCGCAATTAGCAGCACCCGAGGCCCTCGCCTAA
>SRR1151209_01572 hypothetical protein
ATGGATCAATTCGATACTCTGATTGAACAATTGGGCCAACTCAATGAGCGGGCCCGTCAATTGGAAGACGTGGACTACATCACCGCGTCCTACAAGGGCTTCAGCAACGAAGGTCTCACCTTGGATGAAGTGAAAGACCAAATCACGGAAGTCCATCACCAAATCGCCACGCTGGAACGGCAATTGGACGACATGTCTGACGACTTGTCCTAG
>SRR1151209_01573 hypothetical protein
ATGGCTAAAAAATCTTGGGTGAGTAAAGCGTATTGGGGCTTCTACATCGCCAACTTCATTGTTATCCTCATCTATCTTGGTATCTCCTGGTGGCTTTACCAGCAAGCTCCGGATCGTATCCCAGTGCACTGGAATACGGCTGGTAAAGTGGATAGTTACGGCAACCGGATCGAAATCTTTATTGCCTGTCTGATCCCGCTGATTGGGGTCATCCTGCACCCCCGCTTGGTGGACCGCAAGTATCCTGAGTCATCCGGCTCGAATATCAGTACGAAGGCAGCTTTTGCGGTGATCATGGTCGTTTTATGGGTCGTAAGCGGAATTTTGCCGGTGATGGTTTATCAGTGGATCGGCAGCCATTAG
>SRR1151209_01574 hypothetical protein
TTGTACGACAAAAGAAGAAAAATCATGACATGGCTCACTCGGGGAGTGCTCCTGCCGATTCTATTTGGCATGGTCATTTTGACCATAGTGGGGAATGCCCAAGCAGTGACGATTGGTAATGTCCTCGACAATACTGGACCAACTGCGCCAGCGGATATGTACACGATTCCTGGGCTCGGCCGGGCTCGGCAAAAAGACGAAGGGTCCTATGTAAAATCCGGGACTGGTTCTAGCGGTACCCCCATTACCAATGGGACAACTGGAGCTTGGGTTGGCAAAGCCACCGAGTCGCCGACCATTATTACATTTCCGGAGAGTGCCGATAATCACGGCAGTTCCTGGTTCAGCATTAACTATGTAGACAAAAACGACTTTATCGACTTTAATACACCAACACAGGCCAATAATTTTTATGTGGACGGTGCCGCTAATTACAATAAAAGTAACGTACAAAGCCTGATGAAGGATGGTGCGATTGATAAAGACGGCCTTGCCGGCCCGGTCCTGAAAGATGGCGAGACATTCGACGGCGGCTTTTTGCAGGTGACAGGGAACGTGCCGATTTCTGCTCAAATTGCACAATCACAGACATCTGTTGATGCAATCATGGCCGGCAACTGGGGAGTCATGGTCCGCGTAACACTGCCAGAGGGAATTGATGCCAAGTCTTTAGGCGGTGCGATTGACTGGGGCAAGTCTTACTTTTACCTGACGTTAGATTCATTTACATGGAAGTTCTTGTGGTTCGATCTTGCCCAAATCAAAAACTTGAACTTCCCTTTGCAATTTGACCATCACGTTTATCTAGATAAGGACAAGACCAACGTTTTTTACTTAAAAGTAAAGGGCATTCCATTTACTTATGATGTGTCTGAAGATAAGTCAACCGCCAAACTGCAACTCCAGCGCGGGACTGCTGATTACCTCGACTATCTTCATAATCGGTATATTGACGGAGACGTCGCGAGACCATTGGATAATCTAACCGCCGATGGGGATACAGACACCACTGGTTCTGGGGACAATGTACAACCTCAATTCATTTCTCAAAGCGGTGGTAAAGGGACCGTGTGGGATCCTTTCTACGGAATAGTCCACGAAACTGGCGGTGCTCTATTGTCTTGGGTCGCTAGTTGGTTCTCTTCCAGTCCAATTTACGAGACAGGTAATATCGGCCGGACCCTAACCCTCCTGAATGCGGCGGACCCGACTACGGACCGTGCTATCGTTTCGAAAAACTCAATTACCAGTGGACTCATTGGGATTATCGTAAAGGCCATTTCAGCCTATTTCGTTGATAATGATTTTAAAGGATCGGCCCATATCAACTTCTCCTTCGACATGTCGAAATACACCGGCGATCAGAATAAAGCTTATCAAACCATCACCGGTGGTCGCCTGATGCCTGCACCTTATGCAGATGGCCGTTTTAATAAAGGCAGCACGATGGGGAAGAACGACACGGATGACAAAGATCGACGCGCAATTGGTATCTCACTCTATGGCAGTAACACTCTGCTCGATCCTTACAGCGTTTTAGCGGGCAAGGACCGCTCCAAACCTAACGCTGACCTGCTCAGCCAGCTCAAGGCCGGCACATCACCGCTGGACTACGCCGTCATCGACGAGAGCAAACTGGACCTTGGCGCCGACCATAGCCAAGAAGACGTCCGCGACTACCCTGTCTACACCAACTTCACCTCCTGGACGGCCTTCGTCTCGCCTTTCGACAACAGCAAGACCGTCGACACACTGCACTCCAGCGGTGATCCGCTGGGCAGCGACATGCGCGCGCGGACGGCCACGCCGAACAGCTACTCGGATGGGATTTTAGTGAATGACGGTCAGCCATTCACCGTGGATCAGAATTACACGACCGCTGACTACGCGCCAACCACCAAGTCAGCGACGGACAAGACGCTGGTCAAAGCCGGCGGGATCACCCCAGAGCGCTACGCCCAGGTCTATCAGTACTATGACTATAGTGGCGCTACGCCGGTGCCGAATCCCACCAGAGTGTACACAACGACTGACAACGCCCTCTCCTTGAACGTTGCCACCGATACTAACGCGCCGCTCAAGTACAATGGGAAGATCACGAAAGGCTTCCCTGACAACACCTGGGTCTATGCCGGCAAGTACAACGTCTTGCCAGTGGCTGGTACGTCGTTGGCCCTGAACCAGGATATCCGCCCGGAAATGAACCTGACGGGCGACCAAATTTACGTCCTGGATAAGAGCCAACTGATTAATGATAAAACACTGAAAGAAGCCCTTGGTACGTGGCGAGATCGGTTAACGATCGGCACCGACACGATGACCATCACGACGTACCCCATTGCGTCAGATACCGCGCTGGGGACGGCCACCACGGATCAGCTGGTGCCCAGCGCCGACCTGCACGATATTGACCTGCATCTGGGAGATTCCGTGAATTACGGCTTCGAGGGCGATCCGCCCTATGGCGATCTCACCGCCGGCTTGACGATTCCACCGGTGGCCAGCACCGACAACGGCTTCTATGGTCTCGTGAAACTGAGCCGCAACGCCGACGTGCCAATCAACGTCAAGACGGCAACACCAACACTGGACGCCGGTTCGGCCGATTTAGCCAATAACGCCAACTTCCTGGTCCTACTCCGAGACGACACTGACGGCGCTAGCTGGACGGCGGAGCACCACTACACCGACTCGGCCAGCACGATCCATTTCTTCTACCAGAATGGGGACCAAGCCAAGGTCGGCGGCACAGTGAAAAACACCGGCGATGTCAGCAAGCAGACCTTCCAGATCATGATTCCCCGGGTCACCGGCACGACCATTTCTAATCTCGCGGTTACCGCCCCAGATGGCAGTGCCGTGCCGGAGGCCAACATCACCAAGATGACCAGCAACACCGACCTGGACAAGTACTACCAGCGGTACCTGGTCAAGATGCCCAGCTTGGTGATCAAGGATCAGGCCTTCACCTTCAGTTACACCTACCAGGCCAGCGACATTGCCAACATGCCCGAAAGCACGACGCTGCAAACGGTCATCGGCGATGAGAACGGCAAGGTGCTGGCCCGGACCGGCAACTTGTACCTGAAACGGATGAAGACCGTGGCCATCCTGCAAGTACCCCAGTTCGACTTCGGCAAGCAGACACTGCCTAAGTCTGAGCAGCAATACGGTTTGACGGATGACAGCAAGAAACTGGCGCAACTGGTTATCCAGGATAACAGCCAAGCCAATAATACCGGCGCGCTGAGTTGGCGGGTCACCGGCCGCCTGTCTGCATTTGCCAACCCGGATGCCAGCGAAGCGCACACCGATTTCAAGTTAGACCTCGGCCTGCCAACGATGCCGGCGGATTACCAGTATCCCACAGACCCGGACTTGAAGGCGCCAATCGTTGCGAACCACACACCGGAGACAATGCTCTCGAACAACGTGACGCAGCAGCTGTTCTTCCTGAACCGAGTGCTGGAATCCACCACCGATGCTACACCGCTAACGCTCACGTACGCGGACGCCAAACTGACCGTACCGAATACCGTGGTCAAGTCTGGCAAATATGAATCGACTGTGACTTATACCGTCAAGGACGGGTTGTAA
>SRR1151209_01575 cellobiose-specific PTS system IIC component
ATGAATGGGTTTGAAAAATTTCTAAACAAGTATCTGGCCCCCATCGCCAATAAGATGAATGCGAATACGTTCTTTTCGACACTGGCCGGGGCTTTTATGCGCACCCTGCCGGTGACCATAGGGGTCTCGGTAATCTTGATTATCTACGGGTTGCCGATTCCGGCTTGGCAGCAATATATTTACGGCTCGGATCTGAACAACCAGTTCAACGCCGCCATCAATGCGTCGATGAATGCATTGGGGATTTACGTCGCCTTCAACTTTGCCTACTTGTATGCCAAGCAGAAAAAGATGGATGGTTTGAATGCTGGGTTGTTGTCCGTTGTCGGTTTCTTGATGCTGATGCCGCAGGTGATCAAGACGGGTAAAACCACAACGGTCTCCGGTTTTTTGACCAATAATACCGGTGGCGGCGGTTTGATCGTGGCAATTTTAGTCGGTTACATCACGGCGAAATTGTTTGTGGTCCTGACGGAACATCACTTCACCATCAAGATGCCCCAAGGGGTACCGCCAATGGTCGAGGAATCCATGAGTCCAGCCTTGATCGGCATCGTGATTCTGACGCTGATGTTTGCGCTGCGGATGGTATTCTATGTAACGCCATACCACGATATCTTCACCATGATCAGCAAGCTGATCCAGCTGCCGCTGCAAAATCTCACCGGGAACGTATGGAGTGTCATCGTGCTGGCCACGCTGACCAACGTCTTCTGGTTCTTCGGTCTGCATCCGTCCCTAATTCTGGGGATTGCCAGCCCGATTCTGATGTCGCTGCTGACTGAAAATATTAATGCACTGGCGGCACAAAAACCGCTGCCGTATTTGGCCGCGGGTATCGTGTATGTGATGACCAGCAACATCTTTGGCGGCCAGGGGCAAACGTATGGGCTGGTATTCGCCATGTCCCGGGCTAAATCTGCCCGCTATAAGCAATTATTTAAGTTGGAAGCTTTGCCGGCGCTGTTCAACGTGAACGAGCCGTTAATTTTCGGTTTTCCAATCATGCTGAATCCGATTTTCTTCCTGCCCATGCTGCTGGTGGCGCCGGTTTCCGGTTTTGCCACGTGGGGCATGATCAAGCTGCTGGGAATTACGAAATATCTGGCGTCCGCTCAGCTGCCGTGGACGACACCGGGACCGATGCAGATCTTCATCCTCGGCGGCTGGCAGCTGCTGCTGGTGATGGTTGTGGTGCTGGTCCTGAATTTCTTCCTATGGTATCCGTTCTTCAAAATCGCTGACCGGCGGGCGGTGCTGGAGGAGCAGGAAGCAACGCAAGCATAA
>SRR1151209_01576 hypothetical protein
ATGCCTAAAGCAAGCTATTTGGAATTAAAGAATGTCCTACACACCATCAACAAGGGCGGCAAAAACAAACAAGAGTCAGCTGAGGAGAAACGCAAAGAATTGATGACGGAGTTTGTCAAACGGACGACTGCCAGATCTGCGGCGGTCGACCAGCAGACCGGCTCAAAACCGGGCAAAGCCAAACCAGTAAAGAAAGAAAAGCCGGCACCCATCAAGGCCGCGCGCCCGGAGGCAGCAAAACCGAACCGCGCCGCGGATCAGCAGGAGCTCTATCGGCTTAAGCATCATCTGGCCAAGGCCCGCCGCGGATTGGTGGCTCAGCAGGAGGCCATCCAGGACTTGAAACAGAAGGTGCTGGCGGAACAGACAACCGCCACACAGTGGCAAGAAAAATATCAGACTGCCGTCACGGATATGCAGTCAGCCCAAACAGCGAACATTGCCGCCCACCGAACCATCCAAAGTCTGCATGACAAAAAAGAGTTGCTAGCCAAACGGACTGGCAAACTGCGCCAAGAAAACAAGGCCCTGCGCACCCGCCTGGTCAATGCCAACCGGCGCAACAAGGCCCTGCAAGGGCAATGGATCGCTATGAACCAGGAGCAATATATTGCCGCCTACCGCCTGTGGCAACAGGAACAGTCACCCTATGCCGTTTTGAAACGTAAAACTATTCCAGCGCTAACCAATCAGATTGCTGAATTGAAAACCGAAGTCCAGCAGCAAATCCAGAACACTAACGAACTGCGCCAAGTCTTCACCAACGAAGCCCGCTGGCGGCCAATCGGCAAAGTGGCCGTCGAGCTGTTTGCCCCACTGGTCTCTTACGACCAACTGAAGAAGATCCTAACGATTCTCAATGAGAACCGGACCAAACCGATCCAATACAAACGCCCGGCCACGGTGACGCCTGCGCCCCGGCCGGCGAATATTCCACTCACCGATGTCGCCCGCATCAAAGTGACCACGCCCGCCGAAAGCCAGGATGCGGACTTGGTCAAAGATGTCCTCGCCCATACGGAAACGGCGGAGTCGACTGCACCGACCGCGCCGACCACCAAAAAATCGCTGCACTTGGCCTTAGATCGCTACAGTCAGCACAGCAAGGTCCGCCCGGCTAAACCAAAAAAAGAGACGCCCTTGCCGGAATGGTTGGAAAATCCCCAACTCTTCCAGGACGTCCCCATCCATATTCTGACCTGGCAGGATGCCCGAGGCATCCGCAATCGGCTTAAACAATTGGGTGCGGTGACCCGCGTCGAACGGCCCGATGCCATGTCAATCAATCAGATCCGCCAAATTGCGTACAGTGAACCTGACGCCATCATCATTGCCGACCGTACCAAGGCCCACCATGCCACCGTCCAAGCGATGAAGGACATTCAGGCGGACCGCGCCGCCGACCATGCCGAAACAGTCATTGCCGACAAAGGCATTGGGGCCACGTCCACTCTGCGTACGATTTATGATATCCTGCTGGGCCGCTGGAGCCGCACTCGGGCCTTAGAAGCAGAGCTGATTAACCGCGAAACCCCATCTGAATAA
>SRR1151209_01577 hypothetical protein
ATGACGAAAGAGCTGGCCGCATTGGTGGACGCCAGCCCATTGGCAATTACGGATAACGAGCTCACCTTTATGCTGGATCATATTGGCGACCCGGACGGCCGGTTGCGGGATGAAATCATTTATACACTGTTTGGCCGCGGTTTTTTTGAGGGCGGCTTTGACGCTGATCAGCGCAAAGAAGTGGCGGCGACAATATTGCAGCGCAATGACCTATGGCGGGACATTGACCGGCCCGATACCGACGCCGTTTTTGGCCGGACGTTTACTGCACTCGTCGGGACGCTGATCCTGAATTATGACGGCGAACACGCCTTTTTGACGACGGAACAGCGTAATACCTTCTTCCAGTGGGCCGTGACGTATTTGCAGCGGGAAAAAGATTATCGCGGCTATGTTTCCGGCCATGGTTGGGCCCATGGGGTGGCCCACGGGGCGGACTTTCTGGGGGCAGCGGTGCATCATCCCCAGTTTCGCCACACCTTGATTCCCGACGTGCAAAAAAGCGTCGTCACGGTGTTGAACCGAATGACGACGCCTTTCTTGGATGATGAGGAACAGCGGCTGGCCGCTGCGCTGGTGCTGGGCCTCAATGCGCATAACATTTCACTGCGGGAGTGGACCGATTGGCTGGCGGTGGAGCACACGTATCTGTGGAACAAGTATGCCAATGACAATCTGGCCAGCTACTACCGCCTCAGTGCATGGCTGCGAATCATGCAGAATGCCTATTTTCTGCTGCATGATGATGATCCGGCCCGTCAGCCTTGTTTGGCCTTTATCAATGATTACTTTATTCAGATGGGGTTTCGCGGTTAA
>SRR1151209_01578 acyltransferase
ATGCATGAAAAGAAATCAAACGGTAAGAAAATTGCGGCCATCATCATTGCCATCTTGGTCCTTGCTGTCGCAGGCGGCGGTATTTGGTACGGCGTTCAGGCCAACAATAATCGGGTCCAGGCGGAGCAGGCAGCGAAGAAAAAGGCGGCAGCCGCCAGCAGCGCGAAGAAAAAGGCGGCAGCTGAATCCAGCAGTGCGGCAGCCGCTTCGTCCCAGGCAGCGGCTGATCCGTTATTCGGCAAGTTGAAGCAATATGGTCTGACCTATCCAGAATTGCAGTATGCCAAGACCATGCCGGTGACCTTCGTCGGTGATTCCGTGATGCTGGGCAGCGAGAGTTTCCTTAAAGAAATCTTCCCTAAGATGACCATGGCCGCCGACGTCAGCCGCCAGGCGTATGGTGTGCCAGCGGTGCTGAAGAAGCTGAATAGTGAGAATAAGCTGGCCGACACGGTTGTTCTCGGCGTCGGCACTAATGGGACCTTCACCGCCGATACGACCAAGGAGATCATGGATGTGCTCGGCAGTAAGCGGGACGTCTTCTGGATCAACGTGCACGTACCCAGCCAGCCGTGGGAAGCCCAGTCCAATGCACAGATCAAGAATGCGACGGAGAAATACAAGAACGTCCACCTGATTGACTGGTACACCGAGGCTAAGAACCATACCGACTGGTTCGCAGCCGATGGCTTCCACCCCAGTACGGCTGGCCAGCCGCACTATTACACGCTGGTGGCGAAGCAGGTATTGCAGCAGGCGGCTAAGTAA
>SRR1151209_01579 phosphoglycerate mutase
ATGACTCAAACTTTGTACTTGATGCGCCATGGTCAAACCCTATTCAACGCTCAGCACCGGATCCAGGGCTGGTGTGATTCGCCATTAACAGAAAAAGGCATCGCCCAGGCCAAGATTGCTGCCGACTATTTTCCTGATAATGGCATCACCCTGGATGCGGCCTACTGTTCCACGGCAGAACGGGCCAGCGACACCTTGGAATTGGTGACCCAACTGCCCTATACGCGGGTGAAGGGGTTGCGGGAATGGAACTTTGGCGCATTTGAAGCCCAGCCGGAATACTTGAACCCGCCGCTGCCTTACAATGATTTCTTTGTTCGGTATGGCGGCGAGAGTCAGGACCAAGTGCAAGACCGATTGAGCAAGACAATCACGACCATCATGGCCCACGATCCGAGTCAGCACGTTTTAATGGTTTCCCATGGTGGGGCAATTGCTAACTTCTACCGGGCATGGCAGCAATATGAGGCAATTCCCTTCACCGGGCATTTCGGAAACTGCTGTATCCTAACCTTCACTTTTGACGGTCAGCATTTTGTCTTACAAGCCGTGTTCAACCCCGACTTTAGCGAACTTGACGCGCCTTACGCCCAGAAATAA
>SRR1151209_01580 hypothetical protein
ATGGCCCGACCAAAATCCATGACCGAAAAAGTGACAATCAATATTGACCCCGTGGACCTGGGGTACATCGACCTGCTCGTCGACCAGGGGTTCTACGGCAACCGCAGCGACTTTATCAAGAACGCGGTGAAGACCCGGCTGCACGATTACGACGACCAGTTCAAAGAAATCCAGCGCAAAGAACGCAATACCGGCGAATGGGTCGTCGGCATTACCCGCATCGGTCAGGCCGATGTCGCGAAGAACCTGGCCGAACACCGCCAGTCCGAGCTCCATGTCATCGGCTACCTGACCATTGACCGGGATGTCGATCCCGACGAGCTGCAGGCTGCCTATCCGAAAATCACCATCAATGGCGTGATGAAAGCCCGTAAGGAAATTAAAGACCGGTATGGTTACTAA
>SRR1151209_01581 hypothetical protein
ATGATCCGCATCCAGCATTACACTGACCCCACCGATATCAAAAACAACGCGGAACGGCCAAGAATCCAAATTGATGTTAACAAGCCGCGGCTGTTTATCGCTCTGGTCGTCGGCATCGTCGCTCTAGGCATCATCCATCATCGTCAACACCGGTAA
>SRR1151209_01582 multidrug ABC transporter ATP-binding and permease protein
ATGATTGAAATCCACCGCAATGATTCAGTCGACGAGACGCCGGCAGAAGCGCCGACTCCCGGGTTCCACGTCACCATGAACAAACCCAAGACCCGGCACCTCAAACAATTGATCAAAACTAATGGACAAAGCCGTACCCTGCTGCGCTTTGGCGCGGTGGTCCTCGTTCTGAGTGTCCTTCTTTCCCTGATCAGCCCCCTGCTCATTCGCCGGCTGGTGGATCAATTCCGCCATGGTGTGGATTGGCGGCTGCTGATCGCCATTGGCGCGTTGATGATTGGCAGCACCGCCCTGGCCGCCTGGGGCAACTACCTATTCTCTGCCGCTGGTTTGGCCATCGTTAAGGAAACGCAAAATCAAACACTGGCCAAGATTCTGGCCAAACCAGTGGCCTTTTTCGACCAAACCCCCTCTGGTCAACTCACCAGCCGGCTGACTAATAACTTAGACCAAATTAAGAATTACTACACCGCCGGCTATCCCAGCCTGATCAGCGGTATCGTCACCATTATCGGGGCCGTGGGGATGCTGGTTTACATGAACGGTATTCTGACGCTGCTCTTAGTCGGCGCTCTGCTGATCATGTACGGCCTGCTCAGCGGCCTGGCCAATCAGCTCGGTGCGCCGATGGACGCCTTTCTGGATGAAGCTGGGCACTACACCGCCGGCATCACCGAGGCGTTTGCCAATATTCGGCTGATCAAGGCGAATACTGCTGAACATCAGATCACCGCCGCGAGCCAGGACCAAACCGCGGCCATGCGCCGGGAAGGTCTGCGGGTGGCCAAGGTGATGTCCCGGATGCAGCCGATCATGTCCACCATCTTACTGCTGATTCTCGGCGGCACCTTAGCCGTTGGCGGCTACTTTGTCAGCACCAACCGGATGACCAACGGCACCCTGATTTCTTTCCTCGTCTTAGTCATCCAGGTAGCCAACCCGATGCTCAACTTCAGCAGCTATTCAGCCAGTCAGAAAGAGGCGGACAGTGCCGCGAAGAATCTCCTGGCGCAATTAGCTGCGGCTGGCGAAGACGACTCGCCAAAAGAAACCAAATTGCTGACCACCCAGCTGCAGCACCAGCCGCTGGCGCTGCACCAAGTCTCCTTGGATTACGGGAACGGTCACGGAGTTCACAATCTCGATTTGACGTTGATTCCGAACCAGCTCTATGCCTTAGTTGGTCCCAGCGGTGCCGGCAAGTCCACTTTGATGGCGATGCTGGAACGCTTCTACACCCCTACCAGCGGGACACTGCAAGTAGGCGATACCCCAGCTGCCTGCTTTGCCCTCACCGCTTGGCGGCAGCACCTGGCCTATGTCCCCCAAACCAGCGAGGTGCTCAGCGGTACTTACCGGGCTTACTTGCAACTGGCGGCCCCGCAGGCCAGTGACGCCGACCTCAACCAGGCCCTGGCCGCCGTTCAGCTGACTGATTTCATCGCCTCGCTGCCCGCGGGCTTGGACAGTCAGATTGCCGAAGCCGGCACCAATATGTCCGGCGGGCAGAAGCAGCGGCTGACGATCGCCCAGGCGTTGCTGAAAAAGGCTGATATCTATCTTTTCGACGAGATCACTGCCAATTTGGATGCCGATTCTGAGGCCATCATTCGCGACCTCATCCGCCAATTGGCCGCCACCCACACCGTTCTGGCCGCCGCTCACCGGCTGTCCAGCATCCGTGATGCCGACCAGGTCATTGTCTTAGAAAATGGCCGAATCACCGGTCAAGGTACGCCTGCTGAGTTATTGACCCGCAACACGACCTATGCCCGCTTCGTCCAAGAACAAAGCCTGGCCTAA
>SRR1151209_01583 nucleotide binding methyltransferase, putative
ATGGCGCGCTCCGAAGGCGGATTGAAAGCGGCCGGCGAATGGCAGACGCTGCGCAGCGTCCTACCGGATTTCACCGGCAAGACTGTGCTGGACCTCGGCTGCGGTTATGGTTGGCACTGCCGCTACGCCGCAGAACATGGGGCTAAACAGGTCTTGGGCATTGATGCCTCAGAAAAAATGATCGACCGGGCCAAGGACATGACCAAAGATGACCGGATCACGTACCAGGTCATGGACATGACGGCAATTGACCAGCTGCCGGACCACTATGACGTGATTCTCAGCTCGCTAGCCATCCATTATATTCAGGATTACGCTGGTCTGGTCGCGAAAATCTGGGATCGGCTGGCGACCCCAGGCACCTTCGTAATGTCCGTGGAGCACCCAATTTTCACCGCCCAGGGTAAGGAAGACTGGGTCACCGACGCTCAGGGTCAGCGGCTCTACTGGCCGGTGGACCGCTACTTCGATGAATCCAGCCGAGAAACTGATTTTCTGGGCCACACGGTTAAGAAATATCACCGAACGCTGACCACTTATCTGGAAACTCTGCTCCATCAAGGTTTCCGCTTAACTAACGTGGTCGAACCGCAACCGCCGGAAGCATTGCGCCATAACGAGGACATGGAAGACGAGTGGCGGCGGCCAATGATGCTGATCATTTCGGCCAGCAAGGACACCCAGTAA
>SRR1151209_01584 hypothetical protein
ATGGCAATTAAAGATGAACCCAACGGCGTCCTCTATACCTATCTCTACCCCCGCTCCTTTAGCGGGGTCGTCCAAGCCAACGCAGCCCGAGCCGAACTCCAGCGGCGTGCTTTGAACGGTGATGCCCAGGCTGATTTCTTCCTGCGGGCGCGGACCCCGGCCACTTTCTTAAGCGGTGATGACGGAACGGCGGCGGAAGCGGCGCCGGTACCGGCGGAAAAAGCCGCGGCCAAGGGCAAGAAGAAAGATAAAGCCAAGGACAAGGATAAGAAGAAAAAGGGCAAGAAGGACAAAAAGAAGAAAAAGAAGGACAAATAG
>SRR1151209_01585 phosphoglycerate mutase
ATGCGGACAATTTATCTCATTCGGCACGGGGAGCCGGATACAACCATTCATGACGATGTACGGCGGCCGCTAACACCGGCTGGTGAGCAGCAGGCCCTGGATTTGGTACCATTATTTCAAAACGTTACGCTGGATGCCGTCTATGCCAGTCCCTTCACCCGGGCTCGGACCACGGTGGCGCCGCTGGCATCGGCCCATGATCTGGCGGTTCAGCTGGACATGCGGCTGCAAGAACGCCAGCTGCCTGGTTGGCTGAAGGATTTCTCAGCGTATGCCAAGCAGCAATGGCAGGACTTGGATTATACGCAGCCCGGCGGCGAAAGTATTCATGCCGTTCAGCAGCGCTACCTCTCGTTTTTCAATGGCCTGCCGGAAGCGGGCACCTTCGCCATCGGCAGCCATGGGATGGCGATGAGCAGTATTGTGGAATATGTTAATGCGGGGCAGGGGGCGGCTTATTTTGACACGATTCAGGGCCATTACGGGGTTGTTCTGCAATTGATCATGGCTGCCGGCCAGCCGCCGCGAATCACCCCTTGGCCGACCCGGTAA
>SRR1151209_01586 GNAT family acetyltransferase
ATGACGAAGAATGCGGTGACAATACGGCCAGCCCGCATTGACGACGATTTCGCGGCGGTTCAGGCGCTTTACCTGCGCACCTGGCGGACGGCATATCGCGATCTTTTGCCAGCGGGCTTTTTGGGCCAACTATCGGTGACCAGCTGGCACCCGCAGCAGCGCTGGCAGCGGACTTTTCTCGCCATCACGGCGGGCGGCCAGATCGTTGGGGTATGCAGTTACGGACCGGGACGCCAGCCGGTACGCCAAGGGTGGGGCGAGATCTATTCGCTCTACGTTGATCCGGACTTTGAAGGTCAGGGCATCGGCGGACAATTATTTACGGCGGCGATTAAGCAGTTGCAAAGTGACTACACCAAGCTTTATTTGATTGTTTTAACGAATAATCAGACGGCCCGGACATTCTACGCGCACCATGGTTTCCATGCTGTGGGGGCAGCAGAAGATACAGATACACCATTTGGGACCATCCACGAAATTACGTATACGAAGGAATAG
>SRR1151209_01587 ribosomal-protein-serine acetyltransferase
ATGTTTTCATACGCAATCGATGACCACCTGGCGCTGACCCTGCCCCGGCCGGCGGCGGATGCGCAGGAAATATTTACGCTGATCGACGATAACCGGGCAGATCTGGCCCAGTGGCTGCGATTTGTCCCGCGGTTGAAAGTTGTCGCGGATGAACAGCGCATTTTAACTACCATGCTGCAAGCGTATGGTAACGGTGATGCGCTGACTACGATCATTCGACTGGATGGGCGTGCTGTAGGCATGATCGGCTATAACCATTTTTATGCATCCACGCATAGCGCGGATATTGGGTATTGGCTAGCTCCCGCAGCCCGGGGGCAGAATATCATGCACCGGGCCTTGGCAGCGATGCTGACCATTGGCTTTCAAGAGTATGATCTGCACAAGGCGGAAGTGGTGGTATTGAAAGAAAATGAACCCAGCAACCAGGTGGCGCTGCACGCCGGTTTTCACCTGGATGGTAGGCTGCGCGCAGCGGAGTATATTCGGGGAAAATACCGAGACGGTAATTTGTACTCGCTGCTTCAGCCGGAATGGTCCAGAAAGCAGGCCCAGTGA
>SRR1151209_01588 nitrate/sulfonate/bicarbonate ABC transporter substrate-binding component
ATGAAGCATAAACGAATCCGTCTCGCCCTCTTGCTGATTGGCCTGCTGGCTTGGTTGTCTGTCGCTTTCTATGGCTACCGGCAAGTTCACGCCGACAGCAGCAGTTCTTTAACCACTGTGACGATTGGCTACCAAAAGGGTGATCCAGTCGATATTTCCCGCCAACGCGGTGAATTGGTCAAGAAAATGAAAGCCAAGGGTTACAAAGTGGTCTTCAAGGAATTCCAAAACGGTGCAGCGCTGATGACGGCACTGAAAGCCGGCAGTATTGACTACGCCCGGGCTGGCGATACACCACCGGTCACCGCCCAGGCGACCGGCACTCAGATCGCCTATATTGCCGCTGGTGCTACCAAGGAATATGGTACGGGTATTCTGGTCGGCAAGAATTCTGGAATTACCACGCTGAGTCAACTGAAAGGCAAGAAAATTGCCTATACGTCTGGCACAGCAACACAAAGTTTGATCATTAAGGCCTTGAAGAAGGCCGGTTTAACCACTAGCGATGTCGCTCTGGTAGACATGAGCCAAAGTGCTGCGAGTGTGGCTTTCGCCAAGGGGCAGGTGGATGCCTGGGTCACTTGGGATCCTTATACCGCTACTGCCCAGGTGCAAAACAATGCCGTACTGCTGACGAACGGGACGGGCTTAACCAAGAATCGGGACTTCCTCATCTCGACCCAAACTTATGCCGCCAGTCATACTACCGTCAGCAAGTACCTGGTCAGTTGCCTTAGTGATGATATGACCTGGGCCCAAAACCACAAGAGTGCGCTGGTGACTATGCTTAGCAAAACCTTGGGCTTGTCCAAGACGATCGTTGAAAAAACCGTGAATCGCCGCACCTTCTCCATGCAGGCGTTAACGAATACCAGCAGTATCGTCCAGGAACAGCAAGCAATTGCGGATTTACTTTATACAGAAGGAGTGATCAAGACGAAAGTGACAGTCAAATCGGCGTTTCTGACTTGA
>SRR1151209_01589 acyl-CoA synthetase
ATGAGCACACTCACCGATCGTCTGTCTCTGCAACTGATCAATAATCGTCAATATCCCATCGTGCGGGATGAAGGCCTGGCGGAATGGTTCACCGGCCGGGAATTAGAAGAGGACGTGGCCCGGTTAAAGGATGTCTTCACTGCCCATGACATCGGTCATGGTGATGTGGTTCTAGTCTGCCTGCCCAACAGTGCCGTGCACCTGGTGATCAACCAGGCGCTTTGGGAACTTGGGGCGGTGGTCCAGCCGATTTCGGCGACTACACCAGGGCCGCAGATCCTGACCATTCGCGCGGAATATCACTACCCGGCGTTCATCGCGGACCCGGATCATTTGGCGGTTTTACCAGCGGGATGGACCGATACTCCGGTAGCCTTGCATACCCAAGCACCGTTGTTTCTGTACACAAAAGCTGAATGGGCGACAGATAAAGCGGCTGTCAAGCCCCAGGTCGCCGGTGAAGACGACTTGGGCATGATCCTGCAAACCTCCGGAACCACCGGCAAACCTAAGCGGGTGGGGGTCACTCACCGCCAAATGCTGAACGCCGCTAATCACGACATTGCCAGCCATCAGTTGAGCGAAATGGATACCACTTTGATCGTGATGCCGATGTTTCACGTCAATGCCCAGTTGATTTCGGTCCTGTCCACCCGCCTGTCCGGCGGCAAAATCGTCATCGCCCCAAAGTTCAGTGCCCATTTATTCTGGCAGCAAGTCAGGGACAGTCACGTCACTTGGACGTCCGTAGTCCCGACGATCATCAGTATTTTGTTGTTGAATGCGGGCGCCAATGCCGCCTATTCCCCGGACTTGCGCCTGCGCTTTGTCCGCTGCTCCTCCTTTGCCTTGCCGGAAGACAAACTGCGCGCTTTCCAACGGCGCTACCATACCCAAGTGATCGAAGGCTATGGAATGACGGAATCAGTCAGTCAGTGCACCGTCAATCCGTTTAATGCGCCGAAGGTCGGCTCCGCCGGCAAGCCCTATGCCACTGACTTACGGATTTTACCAGTGGACCAGAAGCCGACCACGAAGCCCCGCGTACTCGGTGAAATCATCGTCCGCGGCGATCACGTAATCACGGACTATCTGGACCACAATCCAGATGCTTTCTGGAACGGCTGGTTTCGCACCGGTGATTTGGGCTATCTGGACGAAGATGGCTACCTTTACGTGCAAGGCCGGACCAAGGAGATCATCAGTCATGGGGGCGAAAAAGTGGCTCCGGCCGAGGTCGAAAATATCCTAAGTGAGTTGAATTTCGTTGCCCAAGTGGCTGTGATCGGGCTGCCGGACCCGCTGTATGGGGAAAATGTCACTGCCGTCGTAGTCAGCACCACACCTGGGCAGCATGAACAGGAACAGACCCAGACACTGGCCCATTTTGCCCATGCTCATTTGGCAAAATATGAGCGGCCCACCACGATCATCTTTCGTGACACGCTCCCCCGGAATGCCACCGGCAAAGTATTGCGGCCGCAATTAACGAAGGAGCTCAGCCGGAACGGGATCGCCCATGAAGCATAA
>SRR1151209_01590 acyltransferase
ATGACCGAGACGCCAGCACCAGCCAAAAAAGGCCACCGGCCCTACCTCCATGAAGTCGATCTGATGCGGGTGATCTTCATCGGCGGCGTCCTGCTCAATCATACGACCACCGCCTTTCAAACGAATATGAGCAGTACCAGCGGCCAACGTTTAGGGCTGCTGGCTACCCACCTGATGATCCACTTCACGCGCATGGGCTTCATGTTCATGACCGGTCTGGTCTTGGCGCTGGCCTATTTTTCAAAGGACATTCATTGGCCGGTGTTTTATCTGAAACGGTTTAAAACGGTCACTGTTCCGTACGTTTTATGGAATACCATCTTGCTGGTCGGGGCTACCGCTCTGGGTGTGGGTGCTTTTACTTGGGCGGCATTTGGCAGCACCTACCTGTCAGCCTTGCTTCATGGTGACCAATTCTATCTGTATTACCTCATGGTGACGATGCAGCTGTATCTGGCGTTTCCGCTGCTCCGTCTGTTATTCAAGAAAACGGCCCATCACGGGCGCATTCTCCTAATTAGTTTCGTGGCCCAATTGGCCATTGTCAGTTTTATTAAATATGGTTTACCCACCATTAACACCAGCAATTGGCTTTGGTGGTTCAAAGCTTATGGTGTAAATGTCGTTACCTATCAATTTTACTTTATCGCTGGTACCTATACGATGTTGCATTATCAGCAAATCGTTGACTTTATTGATCAGCATATCAGGGTCATTGCCAGTCTAACCGCTGCACTATCAATCGGCACGATTGGCTTGTACGCCTTCAACCGGCTGGTACTGGGCTTGAATCACACCGCGGCGGTATCACCGCACCAGCCATACATGGTTGTCTACGACGGCTTGATGATCATGACCGTGTTCTGGCTCGGTCGGCGGTACGCCCAGTGGCGGCAAACGACCCAGCACCGCGGATTGGATCAGCTGATTCAAAACGGCGCGAAGGTATCTTTCGGCATTTATCTCTGCCAAACCATCGCTGTCAGCTTGCTCAGCGGGATCCTCGGCCAGCTGCATTTAAGTGACACAGCACTGCTGCTTCTGCTGCCCCTGGGGTATGCTTTTGTTCTTGGTTTATCGTTTCTCATTGCCTGGTTCTGTTATCGCGTGCCACCGTTCGGCTGGCTGATTGGCCGGCCGCAACCTTGGCACGCTGGGAAGAAAGGAGTTCTTCACTATGAGCACACTCACCGATCGTCTGTCTCTGCAACTGATCAATAA
>SRR1151209_01591 nitrate/sulfonate/bicarbonate ABC transporter ATP-binding protein
ATGACTGAGCCATTAGTCACTTTACAGAATTTAGAGAAGCGCTACGGCCATCGCATGGCGATTCACGACGTAAGCCTGCAGCTGTACCCCGGCGAAGCGGTTGCTCTGGTCGGGATGAGCGGCGGCGGGAAGAGCACAATTATGCGCCTGATCGCCGGGTTAGAAAAGCCGACGGGCGGCCGCTTGACATACCAAGATCCGGCCCCCGTGATGCGGGTGATGTACCAAGATGATCGGCTGCTGCCGTGGCTCACGGTGCAGGACAATGTCGGTTTCGGCCAGCACGGACAATGGGTCACGGACCTATTGGCGGCGGTCGGGTTGAGTGAAGCCGCTGAGCAGTACCCCGCCCAACTCTCCGGCGGCCAGCGGCAGCGGCTCGCTTTAGCCCGGGCATTACTGGCCAAGCCGCAGCTGCTGCTATTGGATGAACCCCTGGGCGCCTTGGATGCTTTGACTCGGCGTAAAATGCAGGATCTGATCATGCGCATCTGTGCGGAGCGGCACCTATCATCGCTGCTCATTACCCATGATGTTCAAGAGGCAGCCCGGATGGCCGATTGGATCATTGTTGTCAAAGATGGTACGAACGTCTATCAAACCGCTGGCGCCAAAGGTCAAGAGGCAGCGACCGTGGCGAAAGTCGGCGAAGATGTGTTACGGGTGATTTTGGATGAGCAGGTGAGGGCATGA
>SRR1151209_01592 nitrate/sulfonate/bicarbonate ABC transporter permease protein
ATGGATAATGTCACCACGATTACCACGCCAGAGACGGCCCGCCGCCATTGGCGGTTCCCAATGGCCCAATTGCTGCCCTGGCTGCTGCCGGTCACGTTCCTCGCCCTGTGGCAGCTCAGCGTCAGCAGCGGCCTGATCACCAGCAGTTTGGTCCCGTCGCCCTGGGCGGTTTTCCAAGACGGAGTAGACCTGTGGCAAGCGGGTACGTTGCCGACCAATATCAGTATCAGCTTGTACCGGGCCACGGTGGGCTTCGTCATTGGCGGCGGGCTCGGCTTCCTGCTCGGGCTGCTCAATGGCTTATCTAAGCGCAGCCGGGCACTGCTGGATACACCGCTGCAAATGCTGCGCAACATTCCTCATTTATCGCTGATTCCTGTCGTTATCATTCTGCTGGGCATTGGTGAAACGGCCAAGATTTCGCTAGTTGCTATCGGCGTTTTATTTCCGATTTACATTAATACTTATCACGGTATCGCCAACAGCGATTCGGAATTGCTGGAGATGGGCCGCAGTTACGGTCTATCGAAATGGCAGCTGTTTAGTAAGATTATTTTCCCCGGCGCCTTGCCGACCATCCTGATGGGAGTCCGCTACGGACTGGGGATCATGTGGACCACGCTGATTGTCGCTGAAACCATGTCTTCCAATTCCGGCATCGGCTATATGGCGACCAACGCGCAGGAATTCATGGATATGAAGACCGTCCTGCTCTGTATCGTACTCTATGCGCTGCTGGGCAAGCTGTCTGACCTGATTGCCAAGGGATTGGAGAGTACTTTTCTCGCTTGGCGGACGAAAGGGGTGACCATTAATGACTGA
>SRR1151209_01593 sugar O-acyltransferase
ATGACCCAAATGTCTGAACAAGAAAAAATGCACTCTGGCGATTTATACCTGCCTAACGGCGACGCCATCATGCAAGAACAATTCAAAGCACTGGATAAACTGTACGACTTCAACCAAACCCGGCCGACAGAGATGGCCCGGCGGGCGGTCCTGCTCCACGATATGTTCGCGGAAATCGGCGATAATTGCTACATTGAACCGCCGCTGCACGCCAATTGGGCCGGCTATTTCGCCCATTTTGGCCATGATGTCTATGCCAACTTCAATTTGACTTTAGTGGACGACACCCGCATCGATGTGGGCAGCCACACCATGCTCGGCCCCAACGTCACCCTGGCCACAGCGGGCCACCCGATCCTGCCGGAATTGCGGGAAAAAGCCTACCAGTACAACATGCCGGTCAAGATCGGGGCCAACTGCTGGCTGGGGGCCGGGGTCATCGTCCTGCCTGGGGTGACGATCGGCGATAACTCGGTCATCGGGGCCGACAGTGTGGTCACCCACGATATCCCGGCTAACGTCATCGCCTTTGGCAACCCGTGTCAAGTACACCGCCCGATCAACCAGCATGACCGGGACTATTACTGGCGGGATAAGCAAATCAAGTGGGCCGAAATTACGCCGCTCAGCGGCCGTAAATAA
>SRR1151209_01594 3-hydroxybutyryl-CoA dehydrogenase
ATGACTCTTAAAAAAATCATGGTGGCTGGCGGCGGGACGCTGGGCAGCCAAATTGCCTACCAGGCAGCCTTCCACGGCAAAGACGTCATTCTCTACGACATCAGTGATGAGGCCTTGATGCAGGCGCGGGAACGGATCGAAAAATTATCTCCGTCCTACTAA
>SRR1151209_01595 3-hydroxybutyryl-CoA dehydrogenase
ATGACGGATCAGGCGGAGAGCCGGATCCAATTAACGAAAGACATGCCCGCCGCCGCGGCGGATGTGGACTTAGTGATCGAATCGATTCCAGAAGTGCCTAAAATCAAGAAGGCATTTTATCAGCAACTCGCCCCGTTATTGCCAGAAAAAGCCTTAATTGCGACCAACTCTTCCACGTTCCTGCCCTCCACGTTTGCGGCCGATACCGGCCGGCCGGATAAATACTTGGCCCTGCATTTTGCCAATACCATCTGGCTGCGCAATACCGTGGAAATTATGGGCCACCCGGGCACCGACATGGGTGTCGTCAATGCCCTCTTCGATTTCAGCCGGGAAATCGGCATGATTCCGGTGATTCTGCACAAGGAACAGCCGGGATACATTTTGAACTCGCTGCTGGTGCCTTTCCTGAACGCAGCGTATAAACTCTGGGGAACCGACGTAGCCGATGCCCACACCATTGATCGCGTTTGGATGCTGGCTACCGGTGCTCCCCGCGGGCCATTTGCGGTCATCGATGTTGTTGGACTGCGGACCTCATACGAAATCTTCTCCCAACAAACCGATCCCGTATCCATCGCTGTAGCGGCGAAGATCAAGGACCGAATCAACCGCGGGTATCTGGGGATGGAAAGCGGCCAGGGCTTCTATCACTACCCGAATCCCGAATATATGCAATCCGGCTTTTTAACCGGCGAAGGCAGAACCACAACGTTAGCCTAA
>SRR1151209_01596 biotin biosynthesis protein BioY
GTGACATTCCACGTGAAACATAAGGATATTGCTATTATCAGTCTGTTTATTGCATTATTGATCGCATTAGGCTTCATTCCGCCGTTACCGGTGGGATTTCTACCCGTGCCGATCGTCTTGCAGAATTTGGGCGTACTCTTGGCGGCGGCGCTGTTAGGCCCTAAGCGGGGCACGATCGTAGTCGCCCTGTTCTTCTTGCTCGTCTTGGTTGGATTGCCCGTGCTGTCCAGCCGCAGTGCTGGTATCGCCGTTTTCTATGGGCCCAGCGGCGGCTTCCTATGGGGGTGGCTGTTGGCACCAGCAATTTATGGTCTGGGCGACCGACTGTTGGGCACGCATCACGGGCTTTGGCAGCGGGGGATTCTGCTCTGGCTGAGTGGTGCCGTGCTGGTGGATGGCTTGGGTGCTCTGTGGCTCAGCATTGGCCTGCACATGCCGTTGACCAGTGCCTTGATGGCCAGTCTGATTTTCATTCCTGGCGACACACTCAAGACTGTGTTGGCCACTTTGGTAGCCGAACGCGTCCAGCACGCGTTACCGGTGCACGACTAA
>SRR1151209_01597 bifunctional biotin-[acetyl-CoA-carboxylase] ligase/biotin operon repressor
ATGTCCTTAGATTCGACCGCCATCGCGGCCTGGCAAGCCGGCCCCCGACTGCCGCTTACAGTATTCCGGAAAATACCGTCTACGAATGGGTATGCCAAGACGTACGCTGCCAGCCATGCCGTCACGACAGCGCAAGCATTTTTGGCTGAAGAACAAACGGCCGGGTACGGCAAACGCGGCCGCACTTTTTATTCACCGCCGGCTACTGGCGTATACCTGAGTTTGCTAGTGCCTGCTGCGACGGTGACGCCGCTGGCGCCAGGACTGCTTACCACCGGTACAGCAGTCGCTGTCGTCACGGTGTTGCAGTGCTTCTTTCCAGCGGCCTTGTTTCACGTGAAATGGGTGAACGACATTCTGGTGGATAATAAAAAATGCGGCGGTATTTTGGTGGAACAAACGCACCAGGCCGTCGTCATCGGGATTGGGTTGAACTTATTCACGCCGCAGTTTCCGGCGGCGATTCAGACCAAGGCGGGGGCGGTGACCGAGCAGCCCGTGGACCGCAACATTGTGATTGCGGGTCTGCTGGATGCCCTGCAGGCACTGTTACCGGATTATCACACGGGCATGTTCTTGCCCGCTTATCGGGCACTGGCCCCCATGTTGGGCCGACCTGTGACCGTCCAAGTTGGCGAAACTGTTCTCGCTGGCACCGCCACAGCAATCAATACTGCCGGGGCATTGGTGGTGACTGCTGCTGACGGTCAGCAGCATGTACTGACGGCTGGTGAAGTGACCAAGGTCACACTGCCGGCAAATGATTATAAGGGGTGA
>SRR1151209_01598 enoyl-ACP reductase 1
ATGGCAGGATTATTGACTGGTAAACAGATCGTCGTCATGGGGGTGGCTAACCCGCGCAGTATCGCCTGGGGCTGTACCCAAGCGATGCACGACCAAGGGGCGACTGTGATTTTGACATACCAAAATGACCGCATCAAAAAGAGTTTGGCCCGGTTTGTCCCTGATGACTACCCGCTGATCGAGTGCGACGTGGCCGATGATCAAAACATTGAAGCAGCCTTCCAAGAAATCGGCGAACGGTTCGGCAAAGTGGATGGCGTGCTGCACGCCATTGCCTATGCCGATCGAGAGACCTTGCAAAACGGTTTGGTGCACACGACTAAAGACGGCTATGATTTGGCCCAAAATGTCAGTGCGTATTCCTTTATTGCCGTGGCCCGCTATGCCCAGACGATCCTGAATGATCCGGCTGGTTTGGTGACATTGACCTACTTTGGTTCTGAACGGGCGATTCCCAATTACAACATGATGGGCGTGGCCAAAGCGGCGCTGGAAAGCAGCATGCGGTACTTAGCTGCCGAATTGGGCGAACAGCACATTCGGGTGAATGCTATTTCGGCGGGGGCCGTGAAGACGCTGGCCGTGACGGGGATCAAACATCATGGCGAACTGTTGAAGCTATCCCAGGAACGGACTGTGGACGGCGAGAGCGTGACGACGGCAGAAATCGGCAACGTAGCGGCATTCTTGATGTCCGATTTGGCCACCGGCGTGACCGGCGATGTGATCTATGTCGATAAGGGTGTGCATCTCAGCTGA
>SRR1151209_01599 acetyl-CoA carboxylase, carboxyl transferase subunit alpha
ATGACGACTAATCAGCAGCACGAGGCATATGCAGCAGTTCAAGCGGCCCGCTCGACGGCTAAAATTCAAATCCAGACCCTGATCGATGATCTCATCGCGGATTTCTTCCCCTTGCATGGCGATCGCGCCGGTGGGGACGATCCAGCTGTGATTGGCGGGATCGGTCAATTGGCTGATTTGCCGATCACAGTGGTTGGGATTCAGAAGGGCCGCACGACTCAGGAAAATATCGAACGCCACTTTGGCAGTGCTTTGCCAGAGGGCTACCGCAAATCACTGCGGCTGATGAAGGAAGCGGCCAAATTTCACCGGCCGGTCCTGGCCTTGATCAATACGCCAGGCGCCTTTCCCGACAAGCATTCGGAGGACTTCGGCCAAGGCGAGGCGATTGCCCGCTGTCTTTTAGAAGGCATGCAGCTGCCCACCCCGATTCTCAGCGTGATTGTTGGTGAGGCTGGCAGCGGCGGAGCGTTGGCCTTGGCCTGCGGCGATGATATTTGGATGTTTGAACACAGCACATACTCGATCCTTTCCCCGGAAGGGTACGCCAGCATCATGTGGAAGGACGCGACTCGGGCCCCCGAGGCCGCCGTGAAATTAGGCCTCACGCCTAAAGAACTTTTAGCAGAACACATTGTGGACCGGGTGATCACCGAAGTGACCAATGCCGCGCAGGCCAAGGATTTAGCGACTGCCCTGCATGCCCGGTTCACCGCCCTGATGGCTTTGCCCACCGCCGAATTACTGGCTCGGCGCCAAGCCCGTTATCGAAAATTCTAG
>SRR1151209_01600 acetyl-CoA carboxylase, carboxyl transferase subunit beta
ATGTTACAGCCTAAGTTCACACCGCCCACCCCGGCGGAGTTGGCCAAGCGCCGGAGCGCAATTCCGGACCGGTTGACCCAACGCTGCCCGGTTTGCGGCAAGACGTTTTTCCGGTTTCAGGCGGGCCGCTTTATGATCTGTCCGAATTGCGGCTACGCCCTGCGGATCACGGCGCGGAAGCGGGCCAAATTACTGTTTGACCGCTTCGCAGAGACCCACAAAGACATCACGGTGCCGGACCGGTATACCGATCCGGCTTACCGGGAGAAAATTGCTCAGGCCAAGAAGAAAACCAAGCTCAAGGAAAGTGTCTTGACCGGTTGGGCGACGATCAGCGACCAGCATTTCGCGGCGGGCATCATGGATCCGTTCTTCATCATGGGCTCATTGGGCAGCGCCACGGGAGAGAAAATCACCCGGCTGTTTGAAGAAGCCACCGCAGCCAAAGCACCAGTGGTCCTCTTCACCACGTCCGGCGGAGCCCGGATGCAAGAGGGTATCATGTCCCTAATGCAAATGGCGAAAGTCTCAGCGGCGGTTGCGGCGCACAGTGCGGCGGGCTTGTTGTACATCACCGTGTTATGCGATCCCACTACCGGCGGAGTAACGGCGTCCTTTGCCATGCAAGGGGACATCATTCTGGCCGAGCCGCATGCCCTGGTCGGCTTTGCCGGCCGGCGGGTGATTGAGCAGACGATTCACGAATCCTTGCCCAATGACTTTCAGCGGGCGGAGACGGTATTACAGCATGGCTTCATCGACGCCATCGTCCCTCGGGATCAGCAAAAGGACGTGCTGGCGCGCTTGCTGCGCTGGCACCAGCCCCAGGAGGCAGCGGTATGA
>SRR1151209_01601 acetyl-CoA carboxylase, biotin carboxylase subunit
ATGACCGGGATGTTTAAGAAGGTACTGGTGGCCAACCGCGGTGAGATTGCCGTACAGATCATTCGCGCCCTCCACGAATTGGGGGTGCAGGCCGTCGCCATCTATTCCAGTGCAGATAAGGATGCCTTATTTGTTCAGTTGGCAGATGAAGCCATCTGTATCGGCGGTCCGCAGCCCGCGGATTCCTATTTGAACATGTCCCAGATCCTCAGTGCTGCCAATCTCACTGGGTGCGAGGCCATCCACCCGGGGTACGGCTTTTTGTCAGAAAACGCAGAGTTTGCCCGGTTATGCGCTGAATGCCATATGACCTTCATTGGCCCGTCGCCCACGGTCATCGACCGGATGGGGGACAAGGCCAATGCCCGGGAAACGATGAAGACCAGCGGCGTACCGGTGATTCCCGGTTCCGAAGGGACGTTGGCCGATGTGGCGACCGCGGTCCAAGTGGCGCAGCATATCGGCTATCCGATTTTGTTGAAGGCAGCCGAGGGTGGTGGCGGTAAAGGTATCCGCACAGTGCAAAGTGCCGCTGAACTGCCGGCCGCCTTTCGTGAAACCCAGCGAGAAGCCCGCCTGAACTATGGCGATGATCGGCTTTATATTGAAAAGCTGATCACCCATGCCAAGCACATTGAGATGCAGGTAATGGCTGACACCCAGGGGCACGTGGTTTACTTACCAGAACGGGACTGCTCGCTCCAGCGCCACCACCAGAAAGTGATGGAAGAAAGTCCCTGCCGGGAAATCACGCCGGCGGAACGCGCTAAGCTGGGGGCCATCGTAGTCCGGGCCTGTCAAAAAATCGGCTATACCAACACCGGCACATTTGAATTCCTGATGGATGCCAGCCACCACTTCTATTTTCTGGAAATGAATACCCGCTTGCAGGTGGAACATACTGTGTCGGAAGAAGTCACCGGGTTGGAACTGATTAAAGCGATGGTTCGGGTGGCGGCTGGCGAGGCCTTGCCGTTCACCCAAGCGGACGCCGCCGTCAAAGGGTATGCTTTGGAGTGCCGCATCAACGCGGAAGACCCGCGTCACGGTTTTCGGCCGTCCCCGGGCACACTGCATAAGCTGTATCTGCCCACCGGTACACTAGGCGTGCGGATCGATACCGGCGTGACCACCGGCAGCGTGGTGCCGCCTTATTACGACGCAATGATTGCCAAACTGATCGTCCATGGCCAGGATCGGGCCACGGTGATCACCAAGATGCAGCGGGTGCTGGGGGAATGCCAGCTGATCGGCATTGCCAGCAACCGAGATTTCTTATTAGCCCTGCTGGCGACGCCGGAATTCCAGGCGGGCACCGGCACCACCGATTTCATTACGACGGCGTTCTTACCGCGTTGGGAGGAGACTGCGGATGTTACAGCCTAA
>SRR1151209_01602 3-hydroxyacyl-ACP dehydratase
ATGATACCGAATGTGCAAGATGTGATTCCCCAGCGTTACCCATTTCAACTGATCGATACATTCACGGACGTGCAGCCCGGTCAGGCGGCCACCGCCCGAAAATTGATTACGATCAATGAGTGGTTCTTCGCCGGCCGCCCGGCAAACCACTTGACGATGCCCCGGCCGTTACTGATTGAGGCACTGGCCCAGACCGGCGTTGCCGCCGTGCTCTGTCTGCCGCAATTTGCCGGGGATGACGTTTTGTTCGGCGGTATTCGCGACGCCCAATTCAATGACAGCGTGCGGCCGGGAGATGTCCTGACTTTGCATGTTGTATTGGAAAAGATCAAAAAGCCCTTTGGCCTAGGTCATGGCCAGATTATTCGAGCTGGTGAAGTGGTTGTTGACGCCCAGTTGATTTTAGCGATTACAGGAAAGGAATGA
>SRR1151209_01603 acetyl-CoA carboxylase, biotin carboxyl carrier protein
GTGAGTAGTTTGGAAGAGAAGGATATTGAACGCTTATTGGAGAAATTCGATGCGTCCAGCCTGCAAGAGTTTGAAATGACCCAGGGTGATCTGCACTTGGCCTTTTCGAAGCGCGCTCAAGCGGCCACTGTGGTCCAGGAAAGTGTACCAGTGGTCAGCGATGCCGCACCGGCTCCTGCAGCCCCGGCCAGTACGAGTACCAGCACATCGGCTCAACCGGCGGCCGTGCCCGCGCCCCAGCCGGACGCGGGCACCCCGGTCCCGGCGCCCCTGGTGGGGGTGGCTTACTTTGCGGCCGCTCCGGATAAGCCGCCATTCAAGCAAATCGGCGATCATGTTGATAAGGGCGAAACAATTTTTGTCATCGAAGCGATGAAAATGATCAACGAAGTGCCCAGTCCGGTCAGCGGAACGCTGGTCAAGCGGCTGATTGATGACGGCACAATGGTGGAGTACGACGAACCAGTCGTGACCATCAAGGAGGACGCGGCTGAATGA
>SRR1151209_01604 3-oxoacyl-ACP synthase 2
ATGCAACGTGTCGTTGTTACCGGGATGGGGGCTGTCACCCCCGTGGGGAATGATGTCCCTACGTTCTTAGATCATCTCATGGCAGGCCAGATCGGCATTGCCCCGATTACGAAATTCGATGCCAGCGAAACTGGGATCACTATGGCTGGCGAAGTCAAAGACTTCGACGCCACCAAACGGGTGGACCGTAAAACCGCCAAGCGCAACGATCTCTTTTCTGTCTATGCCCTGTACAGTGCCCATGAAGCGATGGCAATGGCTGGGTTGGCCGCGGACAGCGTTGATCCGGAACAGCTCGGTGTCATCTGGGGCTCCGGCATTGGCGGGTTGACTACCATTCAAGATCAAGTGATCAAGATGCACGACAAGGGTCCGCGGCGGGTATCACCGCTGTTTGTGCCCAATTCCATCATTAACATGGCCGCCGGCAATCTGGGGATTGAATTCGATGCCCAAAATACGAGCCAGGCCATCGTGACGGCCTGTGCGTCGGCGACCAACGCCATCGGCAATGCCTACGAGTATCTCAAAGCCGGCAAAGCGGACGTGATCATCACCGGTGGATCGGAAGCGTCTGTGAACGAGATCGGTATCGCCGGCTTCGCGTCACTGACGGCCCTGTCCCGGGCGACAGAAGCGGACCAGGCTTCCTTACCCTTTGATGCCAAGCGCAACGGGTTCGTGCTGGGCGAAGGCGCGGCCGCGCTGGTTTTGGAGACTCTGGATCATGCCCAAGCCCGCGGCGCCAAGATCCTGGCGGAAGTAGTCGGCTACGGGACAACGTCCGATGCGTATCATATGACCGCGCCGGATCCCACCGGGAAGGGCGCCCAGCGGGCCATGGCTCAGGCCATCGCCGAAGCGGGGATTACCCCGGCTGACGTGGATTACGTCAATGCCCATGGCACCGCGACTCAAGCCAACGATAGTGCAGAAGCGCAGGCGATCAACCGGGTCTTTGGCGCAGACAGCAATGTTTTGGTCTCCAGCACCAAGGGCATGACTGGCCACCTGTTGGGCGCAGCCGGGGCTATTGAGGCCGTCGCCTGTGTTGGTGCGATTCAGCGCCAGCAATTGCCAATGAACATCGGCGTCCATGAGCAGGATCCCGAATGCCCGGTGACACTGGTCGACGAGACAAATAATCACCGCCCGGTCCACTACACCATCAGCAACTCTTTCGGTTTTGGCGGCCATAACGCCGTCATCGCCTTCAAGGAAGCGAGTGAGTAG
>SRR1151209_01605 3-oxoacyl-ACP reductase
ATGGCTGAAGAACAACCCGTGGCCTTAGTCACCGGCGCCCGCACCGGCATTGGCCGGGCCATCGCTGAACGGTTGCAACAAGACGGTTACCGCGTCGCCCTCAACGTCCACCGGGCGCTGACTGATGACGAACAGGCTGAGCTGGGCCAAACTTTCCAACCACTGACGGTGGTCGTGGGCGATGTCGCTGACGAAACCGCCGCCGAGGCGATGGTCAGTCAAGTCCAAGACCAATTCGGCCGCTTGGATCTGCTGGTGAACAATGCCGGATTGAACCGGGATACGTTGCTCACCCGGATGAAAGCAGCCGACTTTGAGCAAGTCGTCCATACCAACCTGACTGGCGCCTTTCTCATGACGAAATATGCCTTAAAACTAATGCAAAAGCAGCGCGCCGGCAATATTGTCAACATTAGCTCCATCGCCGGCCTGCGCGGTAACATCGGTCAGGCAAATTACGCCGCCAGCAAAGCGGGTATCATCGGCCTGACTAAGACCGCCGCCCGCGAAGGCGCCCTGCGCGGCGTACGCTGCAACGCCGTTGCTCCCGGCATGATCCACACCGCCATGACCGCGGCTATGAGCGAAAAACGTCAAGAAGAGTTTGCCAGCCAAATCCCCCTAAAACGCTTCGGCGACCCCACCGAAATCGCCGATGCGGTCGCCTTCTTGGCCGGTAATGCCTATATCACCGGGCAAGTACTGACCGTGGACGGCGGGCTAACGATTTAA
>SRR1151209_01606 ACP S-malonyltransferase
ATGACCCAACACTGGACAGCATTGTTCAGCGGCCAGGGCCAGCAATTTCCGGGGATGGGGCAGGATCTGTATGCCCAGGAACCGATGTATCGGGAGACCGTGCAGCTGGCTGAGGAAACGACTGGAATCCGGTTGACAGATCCGGCGGTCTGGGACGATCCGGCTCATATTCCGGTGGCCATTGTCACGTTGAGTCTGGGGCTGTTCCGGGTGCTGCGGCAGGATATGCCGCTGCCCCAGGGTGCGCTGGGCTTGAGCCTGGGCGAATATAGTGCCTTGGCGGCTAGCGGGATGCTGCCGCTGGCGGCAACCTTCCCGCTGGTGCGGGATCGTGCCGAGTATATGAATGCGGCAGGGGGGGCGAACCCCGGTGTCATGGCCGCTGTGTTACGCAGTAACGCTACCATGGTAGATGAAGCGTGCCAGCAGGCGTTCAGAGTTGGTCCGGTTTATCCGGCGAACTACAATACCCCTGGCCAGACCGTGATCGGCGGAGCTCCCGCTGGCGTGGCCGAGGCCACCCGGCTGCTCAAGGCTCAGGGCATCAAGCGAATCGTACCGTTGAAGATTACAGTGGCCTCCCATACCCCATTCATGGCTCCGGCCAGCGATCAATTGGCTCGGCGACTGACAGATGTGACCTTCCAGGCTGGCCAGTTCCCGGTTTGGAGCAACACCACGGTGACCCCTTTCGCCGTGGATACCGTGCCGGAGGTACTGACCCAGCAGTTGGTTTCGCCGACCCAGTTTGGGGCCGATCTGCAAGCCAGCCAAGCCGCTGGGCAGACTCCTGTGGTTGAAATCGGCCCGGGAACCGCGCTAACCAAATTTGCCAGCAAGACCGTGCCGGGTATTGTCGCATGGCACGTGGATAGCGTTGATACGCTGAATGCATTACGCAAGAATTGGAGTGAGCTGAATGGCTGA
>SRR1151209_01607 acyl carrier protein
ATGACAAACGAAGACGTATTGGCAAAGATTACGAGTATTATTGCGGACCAATTGGATAAAGACGCCAGCATCATTACGCCAGCCACAAATTTTAAAGAAGACTTGGACGCCGACAGCTTGGACGTGTTCGAAGTAATCGACAAGATCGAAGACGCATTCGATATTGAAATCGACAGCGACGAGAGCATTGCTACGGTGGGCGACTTGGTTTCCTACGTGACCAAGCAGTTGGCGGCTTAA
>SRR1151209_01608 3-oxoacyl-ACP synthase 3
ATGACTCCAACCCCAAGCAGTTTTACCATTCTGGCTAGTGCCGGACAGGTTCCGGCAAAGGTTGTCACCAATGATGACCTGGCCGCCCGGATGGATACGTCCGATGAGTGGATTCGCCAGCGGACGGGCATTCATACCCGGCATATTGCGGGTGATGATGAGTCCACCAGCACCCTGTGTACCACAGTGGCGCAGCAGCTTTTGCATCAGGCCGGCATTGGCGCCGACCAGCTCAGTTACATTGTTGTGGCGACAATGTCGCCGGATTATGCGACCCCGGCCACCGCGGCCCAGGTCCAAGGGGCCATTGGCGCGGCCAACGCCGTAGCCTTCGATATTTCAGCCGCGTGTTCCGGTTTTGTTTACGGACTGCATCTAATGCAGCGTCTGCTGGCCGGGCCAGACGTACATTACGGTCTGGTGCTGGGCGGGGAAACGTTGAGTCGGTTGGTCGATTGGACTGACCGCAGCACCGCCGTGCTTTTCGGCGACGGGGCCGGCGGCGTTCTGCTCAGTAATCAGGGCTCTGGCCAATATCTAGGCCGTGATCTGCGTACCCTGGGCGACCAGGGGGCGTATCTCACCGCCCGGGCGTTGCATGGTCAGGCACCGAGCGATGCCTTTCTGCACATGAACGGGCGCAAAATCTATACGTTCGCCGTGCGGGCAGTGCCCCGGTCCTTGCAGGCCGCTGTCGACCAGGCCGGGTTAAGCTTGGATCAGGTAGATCATTTTCTCCTGCACCAGGCCAACGCCCGGATCATCACTCAGGTGGCCAAAGAACTGGATCAGCCCCTGGACAAATTTCCGATGAATATTGCGGCAGTGGGCAACACGGCCGCCGCCAGCGAGCCCTTGCTGCTGGCCGAGACCATTTCCGGCGGCCAGATTCAGCGAGGCGAAGTCCTTGCCCTGTGCGGCTTTGGCGGCGGTTTGACTGTCGGGACCGTGGTATTGCGCTACTAA
>SRR1151209_01609 MarR family transcriptional regulator
ATGATCGACGAGAAGAAGACGTCTGAAGCAGCGCGCAAGCAAGACCAGAACTATATCAACAATGCCTTAGTGGATGTGTATGACAACATCATGCGATTTGAGGAGCAGCAAATTCGGGGCAGCCGTTTCCGGGATATCAATGCCCGGGAGCTGCATATCGTGCACGCCATTGGCTTGCATGACCACAAGACCACCAGTCAGGTGGCCCGGGAATTTCGGATGAGCAAGGGCACGCTCACAGCGCATCTGAACAATTTGGAGCGCAAGGGTTACATTGAGCGGCACCGTAATCCGGATGATCGGCGGGTGATCAATCTTGGCCTGACCAGCAAGGGCCGGCTGCTTTACCGGGTGCATGATGCGTTCCATCGGCGCCTGGTCAACAGCTTCTTGGCTGGGATGGACGATGATGACCGGCAGCTGATCAAACAAGCTTTGATGAATCTAGAAGAATTCTTAGATGAGGCACAGAAGAAATGA
>SRR1151209_01610 3-hydroxyacyl-ACP dehydratase
GTGCACGTACTTGATGCTGCGGAGATCATGCAATTGATCCCCAACCGTTATCCGATCCTGTATATGGATTACGTGGATGAATTGACTCCAGGCGAATCCATTGTGGCCACAAAGAATGTGACCATCAACGAGAACTTTTTCCAAGGCCATTTCCCGGGTAATCCGGTGATGCCCGGGGTACTGCAAATCGAGTCCCTGGCCCAAGCGGCATCGATTCTGATCCTCAAGACCCCGCGCTTCCAAGGCAAGACCGCCTATCTGGGCGCAATCCATCAGGCTAAGTTCCGCCAAGTAGTGCGGCCGGGCGACGTGCTCAAGCTGCATGTGACGATGCTGAAGCAGAAGGATAATATGGGTAAGGTGCAGTGTACCGCCATGGTTGGCGAGAACAAAGCCTGCGAAGCTGAACTGACCTTTATCGTAGAGGAGGCGCAGGCCAAAATATAA
>SRR1151209_01611 malate permease
ATGCTCAAAGCGCTCACCGATACACTGACGAATATGAACGTTGTCAGCGCCGTGACGTCGACGATTTTCATCATTCTGTTGGGCTTCTTCTTACGCCGGCGGGGTATCTTTTCTGATTCCCTAGGCAAAACCCTCTCGAAAGTCGTACTCACCGTGGCTCTGCCCGCTCTGGCTTTCAACTCATTCATGCAGCCCATTGATCCCGATACCCTGCGGCAGGGGATCAACGTACTGATTTGGGGCATCATCATCTATGTCATCTTGATTCTGGTCACACCGTTCATGTATTTTAAGTCCGATAAGGATAAGAAATCCGTACTGGCCGTTCTGACCACGTTCGGTTCCACGACCTTCTTCGGTATTCCCATCGTCGGGGCTGTCTGGGGCGCCAAGGGTGTGATGTACAGCTCCATCTTCAACATCGGCTATCGGATTTTCCTTTATTCCTATGCCTACATCAAGCTCTCCGGTCTGAAACTAGAGGCCAAGAACATCAAGACGATGCTGCTGAACCCCATCGTCATCGCCACCTTCCTAGGCCTATTCCTGTGGCTCTTCCAAACGGCTGCGCCGCAAGTCACTGTCCCAGCAGCAGATGCGACTGGCAAAATGGTTACCGTGGCCTTTTACCGAATTGACCAAACCGCCGTCTGGCTGTTTAAACCGCTATCTTATTTGGCGGCCTTGGCCTCTCCTCTGGCCTGGTTGGCCATCGGGGTCACTCTGGGATCCGTTTCCTTCAAGGAAGCAGCGACCGACAAGACCAGCTGGTACTACTCCTGGAATAAGGTCGTTATCGTACCGCTGATCAACCTGGTACTGTTGTTCCTGCTCACCGCAACTCACATTTTACCGGTGGACAACGTGGCCTTGGCCACAATTATCGTCATGATGGCCACTCCCACGGCAGCAGTGGCCGCGGCGTATGCTATCGGCTTCGACCATGGGGCATTGATGACCAGCAACGCCAGCTTCATTTCCACCTTCAGCGCCGTCATCGCCATTCCGCTCTGGATCGTTGTGCTGCAATTGATCAAAGCGGCCGGTATGTTCGGCGGTTAA
>SRR1151209_01612 D-lactate dehydrogenase
ATGGCTTTTAAGATTGCTTGTTTCGGGGTACACGATTATGAGGTGCCTTTCTTCAATAAATTAAACAAGTACAATTACGACTTGAAACTGATCCCGGCCTTACTGACTCACGACAATGTCGGCGAAATTGAGGGGTGCGACGCGGTGCTTCTGCGGGGCAACTGTGTGGCGGATGCCCAGAACTTGGCCAAGATGCACGAGTATGGTATTGCCTATGTGTTCACCCGGACCATCGGCTATGATCATATCGATCTCAAGGCCGCGGCCGGCTACGATATGAAAGTTGCCCGTGTCCCTGGGTATTCCGCCTATTCCGTAGCCGAACTGGCCCTGACTCTGGGGATGATGCTGTTCCGCCATACAGCCTATGCCACGGCGAACACCGCCCAGGGCGACTATCGTGTGACTCCCACCTACTTCAGTAAAGAAGCCCATAGTTCCACGATTGGCATCATCGGCACCGGCCATATTGGCGTGACCGAAGCCCAACTGTGGAAAGGCATGGGCGCGACCGTCTTGGGTTATGACGTCTACCAATCCGATGCGGCTAAGGCGGTCGTTGATTTCGTCAGTCTGGACGAATTGGTCACGAAGTCCGACATCATTTCTCTGCACGTGCCCTACTTCCCTGGTCAAAACGACAAAATGATCAACGCCGAGCTAATCAGCAAAATGCAACCCCACGCGGTACTGGTCAACACTGCCCGGGGTGAACTGGTCGACTATGATGCGGTCTTGGCCGCGTTGAAAGACGACCGCTTAGACGGGTTCGCCAGTGATGTCCTGTTGGCGGAAGGCCAAATCTTCGGTAAAAAACTGGCTGGCAACGACACTTTGCCATTGCCCGTTCTGCGCGACTTGGCCAGCCTATATCCTAAGGTGCTGTTCACCCCGCACATGGGCTCACTGACTGAACCGGCGCTGGAAGGCATGATTTCTGTCAGCTACGAGAACTTCAATACAGCCTTAACGACTGGGCATGTACCCAATGCAGTGACAGCCAAATAA
>SRR1151209_01613 hypothetical protein
ATGGAACACACTAATGAAGTGTACAAAGATATTGATCCACCCAGCGTTTGGTTGAGCGCACTTGTTCTGGCAGTATTCATGATTTTCGCCGCATTGGTCGTACATAGTGGTACTTGCTTAGCGGATGCAACTGAGACCAATTATTCACCAGTGCGCTCGAATCAATTTTTTTCTGAAAGCAAAGTTGATGCTAACCGCAGCAGCGCACTCTTGAAATATCGGGCGCTGCCGATCCAAAACTTGGCGGATGCGAGCGGCCGCTATGCTGATGCAATGACCGATTATGATGATGTGGGCACATATAACACCATTCAAGCCATAAAAGCCGCGGATAATAATGTGCCGACAATTGTGAAAACTGCTGATCAGTTGATTGCCGCGCTCACGAATAAGAATGTCCATTACATTCAACTGGGTGCGAATATTTTAATGAGCGGCAGTGCAGTTTCTGGGTATCAATCGCGGAGTATGCTTTCGGCCACGAGCGGTAATGTTCCCGCCCGTAATTTTGTGATTGACGGTAATCAGGGGCAATATACGTTAGAGGGGAATTATTGGGGAAACGAGGGCCCGGAAATATATCTGAATAACACGTTTCAGGGCACTGTGGCATTCAACAATATTCAACTTTGCGGCACCAGTTACTGGGGACCATTAACTTTGCGGGATCAGAATGGGACTGCGGCGCAAAATACTAAACTCATTTATCGCAACATTGATTATCAAGGATCGCAGTTAACCGCGTCGTATTACGCTAATGTGACTTTTACGGGATACAATACGGTATACTGCCAGAAGAGCTACACTGGACTGGACAGCAGCAACAATTATAGCCGCACCAAAGCAGTCACTGGGTATGCCTATCAAGAAAATATTGAGGTATCGAGTGTTACTTTTGCTAAAAATACTGTATACATCGGATCAAGTGATGGCTCGGGTTGTATTTCTCTTGGTAAATGGATTAACTACAATGGGGCGGCCCTGATTGATCAAAACGCGCAGGTCACTTTATCTAACGCTGGCAATCGCGGGTTCACGGCGTGGACGCAGGGTTTACTGGTTGTTAATGGGACGCTGACGGTATCGCCGTATGCCACTTTAAATGTTAATTTAAACAACAACACGATTTCTGGCACACCATACAATGGTATTACTGTAGATAATTACAACTCAGTCAAGAGCAACTTTGTAATCGCCGATCATGCCGCCGTTAATATTAATTCAGATGGGCCGTATAACTCGTATCAGTCGGGCGGCTCGATTGGTACTGCCAATATTGGCGGTCCATTAAGTATTGGCACCTCGTCCACGGTGAGTGTGGGCCAATTTGCCCAGCTCAACGTATCTGCAATTCACTGTAATACGCCTAATCCAGTGATTGATGGGGCCAATGGATCTAATTTTCTTTTATCCCAATACGCGCGTTTTTCTTTAACGCACACGAGTAATGGCACTGCTGCCAGTAATAAGACTAACGGCTTGCTGTATATGGGGTCGGGGTCAAACTTTCAATTCTCCCGGGCTTTTTCTGTCAATGTCGAGGATGACACTACCGCTGCGACTTATGCGGCCAATGGCGGCACTTCACCGGCGCTGGTATATAGTCCGTCCGGCACGCTGAATGTGGACACGCAGAATGTTTATACGTGGAATAAGGGCAACACGAATTGGGGCACAGACAGCAGCTGTTGGAATAATTTAGCCAACTACGATGCGCTGTACCAGAGTATGTTTAAGATGTCATCGGTCTATGCTTCTTCTGGCTGGCGAAGTTCTACTGGCAGTTCAACGGATCAGGGATCGCAAACGGCTTTTTCGGCCTTCAACACGGACAAGCTGCAGCGGGTACAATACACTTATGTAGCCAGTGTCAATATCAATTTGAATGCTTTAACGGATAAATCAACGACAGTGACGGGGACGGTCACTACCTTGGACGGACTCACCGGCGCTGAGAAACCCCTTGCTGGTGCCTACGTACGGGTGAGCGGGCATGTGAATAATAAAAATAGTAATGCCATTTGGACCAACGGCACGACGCCGACCTATACTGCGGCGCAAGTTAATGCAGATCAACCAATTGCGCCAGCGACGATCGTCTCACCAGTTGCGAATAACCCGTCACTGGGCACCCAGTATACGGCCAATTTCAATGCGGTTTCAGGAGCTGATGGCCGATTTACGATCAACACTGCCGGCAATGCGCCCTTAATGGCAAGCAATCCCAGCGATACCGCTAATGCCAGCCCAACAACGAATGGCCGGATTCAGGCCTATGCGTTCAAAAACGGTAATGATAGCAGCACCAACACGCCCGTCACCGATGCCACACCGCCGGTAGTCACGCCGTATGGCAGCAGTGAGGCGCGTTCTGCAGTGGCGGCCGCCAGTGCGCCGCTGAGTGCCGCTAGTTTTATTAAAACGGCAACGGATTTCGTCAGTGCAACGGGCTCCAATATTTGGAATAAGGCGATTACTTATCAGTATGACAACAGTAAAAATGCGGCTGATCTGTGGTCCGCTGCCGGCACTAACAAACCGGTATATATTATTGCTGCGGATGATCAGGGTAATACGACCGAGGTACTCAGTTATGTCAATATCTATCAGACGACAAATGCCATTCTTGTTGGCAAACCAACAGTCGTCATGAAACAACTCTCTACGGTGCCCGCGAATTGGCGGCAGTGGTCAATTGATACCAATCAAGTGACGGCTTTTAAGATTTTGGCGAATGGCACGATCACCCAGATTCCGACCAGTCTTATTCAGTCAACTGCCTCGAATGCAATCAACCAGCTGGGACAGCATCAAATACAGTACAGTCTGCCTGCCAGTTATGGGGCACAAGCAGTAACCGGGATGGTAACTTTTAAGTCCGATACGCTATCCTTGAAGGTTGATGCCAACCCCCTTGATTTTGGCAAGCATGCGTTCAATATTGTTGGTGCACTTTTCCAACCGGTGAACAGTACTTACGCAGTACAAGTTGATGACGATCGAGTGCAGACAAGCCAACCGTGGTCCTTATCAGTTTCAGCGACCCCCTTTGTCAGTCAATCGACGGCTGTCCAAGTCTCCACCGAGCAGCTGAACCTGGGACTAATGGATCAAGCAAACTATTTCAACAGCATTATGGGTACGCCATTTACGGTGGCCAATGACCAGACAGGGTCGCAGACTTTCGACTTTATCAATGGTCCGCTGGACTTTTGCTTGAATAACGCGACTGGTTCCAGCGGCTTGAACGGTCACTATACGGCGACAATGACGTGGGTCTTAACGGACGGATTATAG
>SRR1151209_01614 translation elongation factor P
ATGACAGATGCAATTGAATTAAAAGCCGGGAATGTGTTCCAAAAAGACGGCAAATTGATTAAAGTATTGGAAACCAATCACCACAAGCCTGGCAAGGGCAACACGGTGATGCAGATGAAGCTGAACGATGTCCGGAGCGGTTCCATCGTCCAAACAACGATGCGGCCCACTGAAAAAGTTGAATTGGCCGAAATGGACCATAAGAACGCCCAATATCTGTACAGCCAAGACGATACAGCCTACTTCATGGATACGGACACTTACGATCAGTATGAGCTGCCCCTTTCCCATATTTCGGAAGAGGTCAAGTACCTGGTACCCAACATGCAGGTCCAGCTGGAATTCTTCGAAGGCGAACTGATCAGCCTGGATCTGCCGACCACGGTGGATCTGAAAGTCACCGAGACCACGCCGAGTATCAAGGGCGCCACAGCCGCCAGCGGCGGCAAGCCGGCGACCATGGAAACCGGGTTGGTCGTCCAGGTACCGGACTTCATTCAAACCGGTGAAGTGTTAACGATCAATACAACGAACGGGGCGTACAAGTCTCGGGCGCAAAACTAG
>SRR1151209_01615 histidine triad protein HIT
ATGACAAATTGCATTTTCTGCCAAATTATTGCTGGGGTATTGCCGAGTTACCGCATTGCCGAAAATAAACAGGCCATCGCGTTTTTAGCGACGGCCCGCGATATGGATGGTCACATTCTGGTAGTCCCGCGCCAGCATATCCAAAGTATTTTAGACTGCGATGATGCGACTTTGGCCGCGGTCATGCAGCTCACCCGCCAAATTTCAGCCCATCTGGTTCAAGCCTGCGGTTATGCCGGCGTCAATTTACTCAACGCCAGCGGGACCAACGCTGGCCAGTCCGTTCCTCACTTTCACATCCATATTCTGCCGCGCCGAACAGGCGACGGGATCAATGCGTGGCCCGCCCTGCCCGGTGCGACTGAAGATTTAGCAACTATCGCCCAACGGATCAGGCTAAACTAG
>SRR1151209_01616 microcin C7 resistance MccF related protein
TTGGACAGCTTGTACGATATACTGACGACGAACCGGTATCCCGATGAAGCTCGGGCGGCGGCCGCCTATCAGATTTTCCCGGCAGCCGACGAATGGCAGGGTAAGATTTTGTTCATTGAGACCAGTGAAGACCGGCCGAGTCCGGCACTATATCGGCGGATGCTGGACAAACTAGATGAGCAGGGGGTACTGGCGGCGGTCAACGGGATCATTGTCGGGAAACCGCAGGATGAGCAGTATTATGCGGACTACCAGGATATTTTGACTAAGGTCACGGCGTCGTACGAGACGCCAATTCTCTACAACGTGAATTTTGGCCACGCCTATCCCCGGACAATATTGCCGTATGGGGCATTGGCCAAGATCGACCTGGACGAACCAGGACTGACGATTGAAGAGCCGTACTTTAGCGGGCCGATTGATCAACCAGCGGCTAGTTTAGCCTGA
>SRR1151209_01617 microcin C7 resistance MccF related protein
ATGCACAAGGAATGGACAATTAGTCAAATTACTCAAAAAACAGCCCAGATGATTGCCGATGAGTGGCATTATCCGGGCCAATATGCGTTCTACGACATGACAGCCGATCCGGAAGATTATGCAGAATTGGTTAGCCCAGAGAAACGGGGCGATCTGTATTGGCAAGTGACCGATACTGATGGCGCCGTGATCGGCTTCTTTGTGGTAGAACGGGTCAATGCGACGACTTGTGAAATTGGGCTGGGGTTGCGGCCGGATCTCACTGGGCATGGGTTGGGCCAAGCATTTGGGACCTGTGTTTTAGACTTTGTCGGCCAGCACTTTGCTTATCGCCAGGTCAATCTGGCCGTGGCGGTGTTCAACAAGCGGGCGATCCGGCTGTATCATCGTTTGGGCTTCCATGAAGACGGGACTTACATGCAGGCAACCAATGGCGGGCACTATGAATTTATCAAAATGCACCGGGAGCTGCATCCGGAGCACCTGAGCAAGCCCGAGCCGCTCCAACATGGGGATCACGTGGCCTTGGTTAGCTTGTCCAGCGGTATTTTAGGCGAGCAGGCGGCCAAGCATCAACGCACGTTGGCCGAAAAGCGGCTCCACGCCGCCGGTCTTGTGCCGGAATACATGCCCCACGCCCGGCGCGGATTAGATTACTTGGCGACCCATCCAGAGGCCCGGGCGGAAGACTTGAAACTGGCTTTCTGGAATGCACAGATCAAAGGGATTTTCTGTGCCATTGGCGGTGACGACACCTATCGGCTGCTGCCGTATTTGATGACGGATCACTCGTTTGTTTGTGCGGTCCAGGATACGCCAAAAATCTTTTCCGGCTTTTCAGATATCACCATCAATCACTTAATGTTCTATCGGTTAGGGATGCAGAGCTTCTATGGGCCCAATATTTTGAACGATTGGGCAGAACTCGATAAGCAGCTATTGCCGTATACAGCGGAGACCCTGAACCATTATTTCACTAATCCGGCGCGGACGGTGATTCCGTCCAGCCCGGTGTGGTACGAAGAAAGAAAGAAAGGATTTTTCTGTGCGCGCGGTGGACACGCCCCGGGTGAGTCATCCAGAGACTCACGGTTACGAAGTGCTGCGCGGTACTGGCCAGGTCTACGGCCGGCTGCTGGGCGGTTGTTTGGACAGCTTGTACGATATACTGACGACGAACCGGTATCCCGATGA
>SRR1151209_01618 GNAT family acetyltransferase
ATGACTGTAACGATTCGCCCGCTCCAGCAAACCGATATCCAGCTGCTCTGGCAAATTGCTTACGGGGCTGGCCATGAAGAATGGCAGAACTGGAACGGGCCTTATTTTCATGACGCGCCCATGACCGAGGATGAAATGCACGCTTGGGCGCATGATCCGTTTAAGAATGGGATCTTTCTGGATGACCGTCTGGTAGGAGCTGTTTTTGCGTATTATTCAGACGGTATTCTGGAACGTTGGCTGGAAGTGGGTATTGTGGTTTACGTTAACGACATCTGGGGGCAAGGCGTGGGCACAACGGCGCTGCGCCTGTGGCTGGACCGGGTCTTTGGTATGGTGGATTTGCCTCATGTGGGTTTGACGACGTGGTCGGGGAACATTCGGATGATGCGAGTGGCGGAGAAAATCGGCATGCGCGAAGAAGCGCGCATCCGGCAAGTACGGTATTGGCAAAATCAGTATTGGGACTCGATGAAGTATGGCATCTTACGCGGCGAATGGGAGGAAACGCGTTATGCACAAGGAATGGACAATTAG
>SRR1151209_01619 putative transcriptional regulator
TTGAAATATAAGCGGCTGAGTGCGGATCCCAGTGTATTCGGCATTACTCGCGGACCGCACCGGCGGGTAACGGGGCTGCGCCGGGAAGAAGTGGCCGAGCGGGCCCATGTCAGTACTGATTGGTACGCGCGCATCGAGCAGGGCCGATTGGGGGCCAATCCGTCTCCGGAAGTGTTGGCCGCCCTGTGTCGGGTGCTGCAATTGAGCCCCGCCGAAACGCGTTACGTGTTTAATTTGGTGGGCCAGCGTCCTCTGGAGCGGCCAGTCAGCGGTGTCAGTGCGGCGCTGCGGGACCTCATGCTGGCCCAGCTGCCGCGGCCGGCGTATCTCATGGATCGGCAGCTGACGATCGTGGCGTGGAATCCGGCTTTTGCGGCAGTATATGGTAATTTGACCGGCCAGAGCGCGCTGCAGCGCAACGCTGTCTGGCGGATATTTCATGATCCGTTCTTACAGACCGCCGTTGATGATTGGCGGGAAGTCGCCCATTTACAAACTGCCCGGTTTCGCCAGATTTACAGCAGTGATGCCGATTCCGCCTTTCTGTATCGGGTATTTACGACCATCAAAAACAACCCCGTCTTCCAGGAAGCGTGGGACCGCTTGGCGGTGGCTGAACCGGATGAAATGCGCTTTTTGTTAACATTTTCAGAGAATAGTGATTTATACTTAGTCGAAACAACTTTGCAGACCCCAACGGGTGAGTATTATCTGGCAGTACAGAATGCCGGCGACACCCCGACTTTGATGACATTAACTCAATTAGGAGAAAACATATGA
>SRR1151209_01620 glyceraldehyde-3-phosphate dehydrogenase
ATGACAGTAAAAATTGGTATTAATGGGTTTGGCCGGATCGGCCGCCTCGCATTTCGCCGCATCTTAGCGTTACAGGACACAAACGATATCCAGGTGGTGGCGATCAACGATCTCACCTCACCGACGATGCTCGCCCATTTGTTAAAGTATGATTCGACCCACGGTACACTGGCAGCCACCGTCAGTGCCACCGAGCACGCGATTATCGTCAATGGCCAAGCCCTTACGGTGTATGCCGAACCAGACGCCAGCCAGCTGCCCTGGGTAAAAAATGACGGCGTTGACTTTGTTTTGGAATGTACCGGCTTTTACACCTCCCGGACGAAAGCCCAGGCCCACCTGCAAGCCGGCGTCAAGCGAGTGCTGATCTCGGCCCCCGCTGGGAACGATGTCAAAACCATCGTGTTCAACGTGAATGACCAGATTCTGACCGCCGCCGACACAATTGTCTCCGCCGGCTCCTGCACGACTAACTGCCTGGCACCGATGGCCGCAGTCCTGGATAAAGAATTCGGTGTTGCCGCTGGCACCATGACCACCGTCCACGCCTACAGGTCCACCCAAATGCTGCTGGACGGCCCCGTCCGCGGCGGCAACCTGCGCGCCGCCCGCTCGGCCGCGGTGAACACCATCCCCCATTCCTCCGGCGCGGCCAAAGCGATCGGCTTGGTGCTGCCCCAGCTGAATGGCAAACTCCAAGGCCACGCCCAGCGTGTCCCCGTCACAGACGGTTCGCTGACCGAGCTGGTGACGATCCTGAACCAAAAAGGATTAACCGCCAATCAGGTCAACGCCGCCATCCAACCCTATACTCAGGACAATCCCAGTTTTGGCTGGAACGCTGACGGTATTGTTTCCAGCGACGTCATCAATACGACGTACGGATCCATCTTCGACCCTACCCAAACCAGCGTCGTCACCGCTGGCGACCAGCAACTGGTGAAAACCGTAGCCTGGTATGACAACGAGTATGGTTTTACGTGCCAGATGGTCCGGACATTGCTGAAATTCGCCCAATTGTAA
>SRR1151209_01621 TetR family transcriptional regulator
ATGTCGCCACAAGAATTGAGTCGAAAAAAGCTGTTGGCTATTTTTCAAGCATTGATTCGATTGCTTGAAGATCATCGGATGAGCGATATTTCGGTGGCTGTATTGTGCCGCGAGGCAGGCGTCTCACGGACTTATTATTATCATCATTTTCAATCGTACGCAGATATTATTTATCAAGAAAACATCATGAGTGTTGTGCAGTATATGCGGCAGTTGCCAGATCAGGGGATTATCACCACGACAACCATGTTTACCCGCTATTTTGAACTCGCTGCTCAATCGCGCGATACCCAATTGACCCTGGTGAAAGTTGGTCTGGAGAGCAGTCTGATTCACTCGTTTGAATCAGCTTTTGAGTATTTGGTAAAGAATGATTTGGTCGTTAAGGCCCACCCGTCGCGTATCGGCAAGAAATACTGGACAGAGTTTTTAGCGGGTGCTGTGGTCAATATGGCAGTACGCTGGCTGCAAACCGGCATGGGTGAAACACCAGCGCAGATGGGCCGGTTTGTCAGCAACTTTGTGGGCCTGACAGAATAA
>SRR1151209_01622 major facilitator superfamily transporter
ATGAAAATACTGCAACAAAAACTCATCGTACTCGCAATGGCCATCAGTATCTTTCTCTGTGTCCTGGATACTACTGTCATGAACATTGCACTGCCTGCTATTCAAAGCGGGCTGAACGTGAATCTCTCAGATTTGTCTTGGGCGCTGAATATTTATACGATCACCTTCGCTGTCTTCACTATTCCGTTGGGCCGGGGCGCCGATATTTTTGGCCGGCACAAGGTTTTCTTAGTTGGCTTATTGCTTTTCCTGATTGGCTCGGCATTATCCGGGGCGGCAATGAATGTGCCATTTCTAGTCACTGGCCGCGGCATCCAAAGTTGGGGGGCGGCCATCATCTTCCCCGCCGGCATGACCATCGGGATTACCAGTACCAGTTTGCAAAAACGGACGGGAGTCGTCGCTACGCTGGGTATCATGCAAGGTCTAGCCGCCGCCATGGGGCCGACAATTGGCGGCATTATCACGCAATATCTTGGCTGGCGCTGGGTATTCATGATCAACCTCCCATTAGGTATTCTCGTTGGCTTGCTTTGCTTACGTTACCTGAATTTCAAAGACGAGCAGCGGATTGCGGCCCAGATTGATTATGCCGGTATGGTACTGTCGATGATCATGCTGTTCACGTTGACTCTCGCTTTGATCAACGGTAATGCCTGGGGCTGGGCTAGTCCGCGGATCATTGGTCTATCGATTACCAGCCTGAGCGCCTTGATTCTCTTTGTCATCGTTGAGCGGCACGTCAAATCGCCAATGATTCCTCTACGTCTATTCAGGGATCGGCAATTTACCGGGGCGGCTCTGGCCGTGATCATTACCGGTATTTTCCTCGTCGCCGTGATGGTGATTCTGCCGACATTTTTCACGAAGGTCCAAAACCACAGTGAACTGCAAGCTGCCTTGATGATTACGCCCACTTCCGCGATGATTTTCTTATTTTCGCCCCTGAGCGGTTTTCTGATCAAAAAGCTTGGCCCGCGTTTAGTGATCTTTACCGGCTTTATCAGTATGTTGGCCGGCTATGGGGTGCTCTATATCATGGATCCTAACATCTATCAGCAAGTTGTTTGGGCTTGTCTGCTAATTGGGATTGGTTTCGGCATCGTGGCTGGACCCATCGTTGTCTTGGGTGCTTCGGACTTCACGGGGGAATTACTGACGGCCTCGCAAAGTGTTTTGGGCCTATTTCGGCAAATTGGTTCTGTCCTAGCCGTCGCCATCTTTGTCTCTGCGTTGACGGTCAACTTAACGAACGCCAAGACGGCCACCATCGATCAAGCGGACCGCATCATCAATACGTTGACCATCAATAGTGCTGCTAAACAAACAATGAAGCAGCAGGTACAAACGCAAATGGCCGCCGAGGGTGGTTCAACCGGCTCGACAAAAAAGAAATTTATCTCGGCGCAGCAAGAAGACACGCTGATTCGCACCACCTATGAAAAGGAAATCACCAAAATGCAGGCAACCGGGACTATTCTTCCGGCAACAGTGAAGGATAAAATCCATGCTCAGGTGACCAAGAATGTCAAACAGGCCATTAACAAGGAAAATCAACAGATGACCGCCGCCGTCAGCCAAATCAAGACAACGGCCAAGAACAACATCACGAATGCCTTCATGATGCCCTATCGGCAAGCCTTGGTATTCCTCGCCTTAGCAAGTTTTATCTGCTTGCTGTTTGATCGCAAGCAACCGTATCAAGCAAAGCTGGCCAGCCGGTCAACAAAATAA
>SRR1151209_01623 hypothetical protein
ATGGCAGAATCAGAAAAGAATAATCTCAAAGTCACTATTCCACATCAAATCGTCGACGAGTTGGCGCTGAAATCGGGGGACGACGTCAAGATCCACATTACCGACAACAACGTCGTCATCGAAAGCGGCACTGAGAATCCAGAGAAAACAGATATCAAAATTCGGTGGTTTGTCCTGCCTGCATTGATTGCCACCATTATTTTCCTGAGCTTCTTCTTGATCCGTCAAGAAAACTTGATTCCCTTAACCGGCCGGCTGTCCATCAGCGCGGCGGTAATCATTCTGGGCGTGGTTAGCGGCGTCATTTCCTTCGCCACGTTCTACATCCGCAACCATCAGCAGGACCGCAATCGGGCCTTGAAGGGTCTGTACTGGCGTAATTTTCCAGTGATCCTGCTGTCCTTCACGATCATCCTGGCCTTGGCCCTGCTGGCGATTTTCTGGTTCATGGGCATTCTCTTCAAGGGCGCCGCCTTCGACCCCTACACCGCCAGCGCGCTCTTTCTGTTGTTCACCATGACGATCAACTACTTCATGATCTACGCGGCGCTGCATATCAATTCAGAAATGATGGTGCGCCTGCTGATCACCGTCATTGTCAGCGGCGTTCTCGCTTCCATGGTGACCAACAGCGACAATCATTGGTGGGAAACAAACCTGAGCTTTCTGGGCACGAAACACGCCAATTACAGTTGGCAATTCAATCTGACCTTGATGGTCTCGGCCTTGCTCATGGTCGGCTTGATCGATTACCTCTTCGTCTGGCTGCAGCGCAAGTACCAGCACAATCTGGGCTTGAACATTCTGCGGGTTCTGCTGACGATCATGGCCTTCTCCCTGTTCGGGGTCGGCGCCTTTGCCAATAATGGCGAGGGTCTGCTCCACCTGCTCCACGATATTGCCGCCTGGGGTCTGGTCACCGTCCTGGGCTTGACGGTCATCCTCATCCGCTGGCTGCTGCCCAAGGGCTCCCGCCAGTTCCAGATTATTTCGGACGTCATCGTCCTCCTGCTCTTCATCGACTTCGTGCTCTTCAAGTACGTTGGCTACTTCTCCCTGACTGCCTTCCAGCTCGTCGCTTTCGATTTGGCCTTTTCTTGGATCCTGCTGCTTCTTGGCACGCTGCGCCGGCTGTCGCACCGGGACGACCTGACCATGACGGTCCGGTTAGAGGATGACGAGGCAGAAAAGCGGTCATGA
>SRR1151209_01624 beta-lactamase
ATGATGCTAGCGGACTATCTAGCCGCAGTGACCCGCTTGAACCAGCACGCCAGCTTCAATGGGGCGATGCAGGTCGTGACGCCCAGGCAGGTGTTGTACGCCTATGCGGCCGGCCTGGCCAATATTGAGAAAAACGCGCCGTTCACCAGCCGGACCGTGACGGGCATCGGCTCCTTATCGAAACAATTTTTAGCCATCGCGGTCATGCACCAAGTGACCGCTGGCCGCCTGCACCTCACCGACCGCGTCGCCCAGTTTCTGCCCGACTATCCCCAAGCAGCCGCCGTCACGATCGCCGATTTATTAACCATGGCCAGCGGCATTCCGGATTATCCGACTTTGCTTCAAAAACAGCACCCGACTGGTGCACGCGCTGCGGCTTCTGATCCGCAAAGTGTGCGCCGGTTGGGTGCTGATTTGTCGTTAGCTGACTTATTGGTCTTGCTGGATGATCACTTCTTGGCCTTTACCCCAGGCAGCCAAGGGGCTTATTCCAATACCAATTACTATCTGTTAGGGCTTATTCTAACCAAGGTGTTGCAGAAACCATTGGGGCAAATTCTGACCGACACTGTTTGGCAGCCGCTGGGATTGACCGCCACGCAATTAGGCACCCAACACGCCCAGGCCGCCAGCTATCTGCCTTGGGATGATGAACTGCTGTTCATCGGCAAAGGACACCACACTGCCGGCGACAGCGGCATCGTCACCTCGGCGGCCGACTACGCACGCTGGCTGCAAACCATCCTACAACGATCGGAAAGCCTGCTGCCGGCCGCGGCCTGGCAAACGCTCTTCACCATTCAGCACAACTTCTACGGCATGGGCTGGTTCCGTCATGGTCCGTGGTTTTGGCACAGCGGGCTGATTCTAGGTTATCAAGCCGACGTCTTTTTGTCTTTTAAGCACCAGCTCGCTGTGTTTTGGTTTACCAATGTTCGTTTCCTCACTGCATCCGCCCAGGATTGGAATCGCCAGCAACGGATCTGGTTGGATCAGCTCACTTAA
>SRR1151209_01625 GNAT family acetyltransferase
ATGAGTGAAGATATTAAGATACGCCGGTTAACGGCGGCAGACGATGACCAAATGGCGGCCATCGTGCGCAATTCTTTGAGTACCGTAGGCTTGGCGATTCCCGGCACGGCTTATTTTGATCCTGAATTGGCCCATTTGAGCCGGTATTACTCGGCTGACGAGCGGCGGACTTATTTTGTCGCGGTCCAGGGGCAGCGGGTGTTGGGCGGCGCGGGTATTGCCCAGTACAGCGACACACCGCAGATCGCCGAGCTGCAAAAAGTCTACGTGGATGAGATCGCGCGCGGGCACGGCTTGAGCAAGCAGCTGGTGGCGGCAGCGCTGGCCTTTGCCCAACAGGCCAACTATGACTGTGTCTACCTGGAGACACACCATACCCTGACAGCCGCAATGCATGTATACCGGGAATTCGGGTTCAACCCCTTGCTGCAGCCGCTGGGTGCGGCGGTGCATAATGCCATGGATTCGTTTTGGCTAAAATGCTTTAAGTGA
>SRR1151209_01626 hypothetical protein
ATGGTGCATGATCGGAATGAATTTCGCGCCTGGCTGCTGGCTAATCATGCGCTGGCCCAGGAGTGCTGGGCGAATGTGAAACGCGGTATCCCCAAGGACGATAATACGTTTTGGTACGTGGACGCGGTCGAAGAAGCCATGTGTTTTGGCTGGATCGACAGCACGTATAAGCGGCTGAGACCAGATCAACCCGCGGTGCAGCGGTTTGTACCACGGCAGCCCGGCAGCAATTGGTCGGAGCTGAATAAGGCCCGATGTCGGCGGATGATCCGTCTAGGCCGGATGACAGCATTCGGGCGGGCAGTATTGCCCGATATGGACCGGTCCCATTTCAAAATAGATCGCCGCATCAAGCGGGCATTAAGGCGGCGTCCCGGCGCGTGGGACTTTTTCTGCCAGTGTCCGCCGCTGTATCAGCGGGTACGCGTGGATACGATTCAGATTAAAGCCAACCAGCCCAAACTGTTCCACGCCCGGCTGCGCAAATTTGCCGATGCCTGTCAGAATCATCAATTGATTGGTCAGTGGAATGATGGCGGCCGGTTGCGAGACGACGACTGA
>SRR1151209_01627 hypothetical protein
ATGAGTTTATCACCCAACGAAAAAGAAGCCACTAAGGAGGAGTTTCGCGCCAACATCAAGCTAGCCGGTCTGACGCGCCCGGCCATCGCCGCCGATCTCGGTATTTCCGCGGCCAAGTTGGAACGTATCCTCAATTTACATCAGCGTTCCTTGGAAGATGCGTGGATCTTGCGTAATTACCTGCTGACTAAAATAGAAGAGGCTGGCGGTCAGCCGGTCCCGTTCACAGCGCTAAAGGGTGATCCCGAAGACCATTGGTTCTTGGACGCGGCGACCATTCACCACGGTAAAATGACGCCGGGAGATGAATAA
>SRR1151209_01628 hypothetical protein
ATGAGTACAGAAGCTGAACAAAATGAAGCATTCATCGAGTGGTTGAAAAGCGGCACAGGGGATTTTCCAGAGGCCGTGCCGTTGTTGGGCTTGGCCAAGCAGGAACAGGGTGTCGCCAAGGATTTACAACTGGGGGCGGCGCAAGTGGTCCTGGCGGCCGCTGGGACGTCTTTTGAGCGGTATGCCGTGGCGTATTATTATCCCCACCAGCAGCTTTTAGTGTTGAAGCAGGGCGTGCCGACGGCGGCCTCCTTGGCTGGCGTGACAATTACGTCGCTGGTGGCCCAAGTGGTGAGCTGCTATGCATCAGAAGTGGATCAGGCTTGGAATGACGATACGGTTAGGGCCACGGACATTTACGTCGACCATATCGGGGTGGATCCGCAGGCCAACAGGTTGGTGGATCGGACCGGTCAATTTGCCGCCCTGGCGCGCCAACAATGGGAATACTGGTTGATTCACGGTAAAGTAAAGCCGTTCACGCCCACGTCCAAGAACGAAGCGGTGGCCCGGGCATTCCAGCCCTTTGCGGAACGTCTGGCCAGTCAGCCAACTTGGATCGCGGAACTGGGCAATGGTTTAACCAAGGTCGTGCCGGCGGAGGAATTGAAGGATATTTTCCAACAAATCAGTACCGCCGCCAAGCGGAATAAAGCCATTGCGATGGTGCAGGATCGGTTGCAGCAAATGGCCTTGCCCAGCGATATTTTGAATACCGCTGCCCGGACGCTGATCAAGTTGGCGACGGATGGCCGAACTGATCCCAAGGCCAAGCTGACTTTTGTGTTCGGTAAAGACAAAGATGACGGTACATTGCAGTTGCCGTTAAGTCACATCGTTACCGAACCGTCCACTGAAGTGCCGACACCGGCTCTGTTTCACGGGGAACAATTTGTCCCACTGATCGAGAGCCCCAACGATTACGATGATGCCTATATGAAATATCAGTCGCTGATTGAGGACTTGAGCGATACTGTCTTCAGCGAGGACAGCATTCGCTGGGTACCGAAAGTCGACACCAACCACGACTATCTGTACTTCCCGTTTGTGCGGGCGATCAAAGCGGACACACAGATCTTGTATACGCGGCCGGATGGCGTGCTGGATGCTTGGCGGCAGATGTTGGCCAAGCAAAACTAA
>SRR1151209_01629 hypothetical protein
ATGAAAGACCTTGAAGTCGGGCAATCCGTGATTGCCTCGAGTTATACCATGGAGGACCACCGTTTTTCCAAGCTGCCTGGGAAGGTTGAGGTCGTCTTAGAGCAATCTGTCATCATGTCGGTGGCAGACCAATGGCTGGTCAACAATGCCAATGGCCGGATTTGCGTCTCTAAGAAGAAACTCTCGGCCGCCGATAGCGATGAGCAGTGCACCGCCAGCTAG
>SRR1151209_01630 queuine tRNA-ribosyltransferase
ATGACAGCACCAGTACGCTATCGCTTAATCAAAACTGAAAAACACACCGGCGCCCGGCTGGGTGAATTGATCACGCCCCATGGCACCTTCCCCACGCCCATGTTCATGCCAGTGGGCACCCAGGCGTCCGTCAAGCTGATGAGTCCAGAAGAGCTGAAAGAAATGGGGGCTGGGGTCATTTTATCCAATACCTACCACCTGTGGCTGCGGCCGGGTCCGGAAATCGTTAAAGAGGCGGGCGGACTGCACAAGTTTATGAACTGGGATCAGGGGATTTTAACTGATTCCGGCGGTTTCCAAGTCTTTTCTCTGGCGGAAAACCGGGATATCACCGAAGAAGGGGTCCATTTCCGCAGCCATTTATCCGGTGAGAAAATGTTTCTTTCCCCAGAAAAAGCGATTCAAATCGAAAATGACCTGGGGCCGGATATTATGATGTCCTTGGATGAATGTCCGCCGTTCTTTGAGAGTTACGAGTACGTCCGGGATTCTGTGGCCCGAACCAGCCGCTGGGCGGAGCGGGGGCTCAAAGCGCACTGTAATCCGGACACCCAGGGCCTGTTCGGGATCGTCCAGGGCGCCGGCTTCCAGGATCTGCGGGAGCAAAGTGCTAAGGATTTGGTCAGTCTGGACTTCCCGGGTTATTCCATCGGCGGGTTGTCCGTCGGCGAATCCAAGGCCGAAATGAACCACGTCTTAGACTTCACGACCCCGCTGCTGCCGGAGAACAAACCTCGCTATTTGATGGGTGTCGGTAGTCCAGATGCCTTGATTGACGGCGTGATCCGGGGGATCGACATGTTTGACTGTGTCCTGCCGACTCGGATCGCCCGCAACGGCACCGTGATGACCCATCATGGCCGTCTGATCGTCAAGAATGCTAAATACGCCCATGACTTCACTCCCCTGGATCCCGATTGCGATTGTTACACCTGTACCCACTACAGCCGGGCCTATATTCGTCATTTGATCAAAGCCGACGAAACCTTCGGCCTGCGGTTGACCACGTATCATAATTTATACTTCCTTATCCATCTTATGGCCGATGTGCGTCAAGCCATTATGGATGATAATTTAATTGAGTTCCGGCAGAATTTATTCGACGAGTACGGGTATTCCGACGCCACGACGAAAAACTTCTAA
>SRR1151209_01631 preprotein translocase subunit YajC
TTGACTATTTTTACAGCAAACATTGCAGCTGGTACCTCGGCTGGCACTGGTTTCGGCGGTATGGGTATGATCGTGATGATGGTGATCCTGTTAGGGGTCATGTACTTCACCATGATGCGGCCGCAAAAGAAACAACAGCAGAAGCGCCAGGAAATGCTCAACGAGATGAAGAAGGGCGACCGGATCGTCACGATCGGCGGCCTGCATGGCGTGATTGATACCATCAACAAGACCGACAAGACGGTCGTTATTGACAGTGATGGCATCTATTTGACCTTTAACCTTGGTGCGATTCGCACGGTTCTGCCGGCAGCCACTGCCACGGCGGATGAGAATCAAGCAACAAGTGCTAACGACGCCAGTGCCACGACGCCTGACACGCCCAACGATGCCGCCGCAGACGACAAGTCCAGCGACGACTCCAAAGACGCTCAGTAA
>SRR1151209_01632 hypothetical protein
ATGACTGATCCTGTATTCTTTAATCCCGGCGGTCAGAATGTACCCATGGCCCCGTACTACCAATACAGTCCGTACCATAATCCATGGATCATGCAAACCGAGGATTTGGCCAATACCCAATTGGTCGTGTACGTCCAACCGGATGGCCGATTGAAATTTGTTTTCCAAGCCATTCACCCGGAAACTGATACAGCAGAAAATACAACCCAGCAGTTGCAGGGTTGA
>SRR1151209_01633 bifunctional acetaldehyde-CoA/alcohol dehydrogenase
ATGCTCGAGACTGTCAAAAAGAACCAACCCACGAAAGAAGCGACTCCAACTGTTGATCAGATGATCAATTCTTTGGTCGACGATGCACAAAAAGCGCTTAAAATCATGGAAGGCTTCGATCAAGAAAAGATCGATCATATTGTTCATGAAATGGCAATTGCCGGGTTGAACGCCCACATGCGTTTGGCCAAGATGGCGGTGGAAGAGACCGGCCGTGGTGTTTACGAAGACAAGGCGGTCAAGAACATGTTTGCCACCGAAGAAATCTGGCATGCCATCAAGGATGACAAGACGGTGGGCGTCATTGAAGATGATCAGCAGCACCAGATTATGTACATTGCTGAACCCGTCGGTGTCATTGCTGGGGTAACCCCGGTAACCAACCCGACCTCCACGACGATGTTCAAGTCCCTGATCAGTATCAAGACCCGTAACCCGATCATCTTCGCTTTCCACCCGAAGGCCCAGAAGTGTTCAGCGGAATCTCTGGAAGTTATCAAGAAAGCAGCCATCGCTGCTGGCTTGCCGGCGGGGGCATTGAGCTATGTGCCGATCCCCAGTATCGAAGCCACTAAGACATTGATGAATCACCCGGGCGTGGCGACGGTCCTCGCGACTGGCGGCCCCGGCATGGTCAAGTCTGCATATTCCACCGGTAAGCCCGCCCTCGGCGTTGGTGCCGGGAACGTACCGGCTTATATCGAAAAGACAGCCAATATTCGCCAAGCCGTTAACGACATCGTGTTGTCCAAGTCCTTCGATAACGGCATGATCTGTGCATCTGAACAGGCAGCCATCGTTGACGCGGAAATCTATGACGAAGTCAAAGCAGAATTCATTCGTCAAGGTGCCTATGTTTTGAAGAAAGACGAAGTGCCTAAGCTGAGCAAAACGGTGATTTCTGAAGAACGCCACGCTGTTAACCCGGACGTCGTTGGTAAATCCGCCAACACCATTGCCGAATGGGCTGGGCTCAAAGTGCCCAAGGGCACGCCGGTATTGGTTGCCGAAATCAACGGTGTCGGTGACGAATTCCCGCTGAGCCGGGAAAAATTATCGCCGGTATTGGCTTTGATCAAGGCCAATGGCCACGAAGACGGCTTCAAGAAGGCCGAAGAAATGCTGGAACTCGGTGGGATGGGGCACTCTGCTTGTATCCATACCGATGATGAAGACCTGGTTGTCCAATACGGATTGCGCATGAAGGCTTGCCGAATCCTCGTGAACTCCCCGAGTTCCGTCGGCGGTATCGGTGATCTGTACAATAACATGATTCCGTCTCTGACGTTGGGCTGCGGCTCCTACGGCATGAACTCCGTTTCCCACAACGTCGGCACCATTGACTTGTTGAACATCAAGACAGTTGCCAAGCGCCGGAACAATCTGCAATGGGTGAAGCTTCCGCCTAAGATCTATTTCGAAAAAAACTCCGTGAACTACCTGGAGAAAATGCAGCACATCTCTCGGGTATTCATCGTTGCGGACCATGGGATGGAAAAGCTGGGCTACGTTAAGATCGTCGAAGACGTACTGAAGCTGCGCAAGAACCCCGTTCAATTCCAGACTTTCTTGGATGTTGAACCGGATCCGTCCAGTGACACGGTCTTCCACGGCCAAGCTGCAATGAACGACTTCAAGCCGGATACCGTCATTGCCATCGGCGGCGGTTCCGTCATGGACGCGGCCAAGGGGATGTGGATGTTCTACCAAGCTCCGGATTCTTCCTTCTTCCGCGCCAAGCAGAAGTTCTTGGATATTCGTAAGCGGACCTACAAGTTCCCGAAGCTGGATGATGTGAAGCTGATCTGCATCCCGACAACTTCTGGGACTGGTTCTGAAGTCACTCCGTTCGCCGTCATCACCGATAGCGAAACCGGCGTGAAGTACCCGCTCGCCGACTATGCGCTGACCCCGAATGTGGCAATCGTTGATTCTCGCTTCATCGAAACGGTGCCGAAGACTGTTGTGGCTGACTCTGGCCTGGACGTTTTGTGCCACTCGATTGAAAGTTATGTATCGACCATGGCTTCGCACTATACCCGCGGACTGAGTTTGCAAGCGGCGAAGATCGTCTTTGATAACTTGAAGAAGAGTTATGACGGCGACCAAGAAGCGAAGAGTGCCATGCATGATGCTTCGACCATGGCCGGGATGGCCTTTGCCAACGCCTTGTTGGGCATCAACCACTCCATTGCCCACAAACTGGGCGGCGAGTACCACCTGCCCCACGGCCGGGTGATTGCAATCACAATGCCCCATGTCATTCGTTACAATGCGAAGATGCCTGAAAAGCGGGCCGTATGGGCGAAGTACAACTACTTCCGGGCGGACGAAGATTACGCAGAAATTGCTCGGTACTTGGGTATCCGCGGCAATAGCACCGAAGAACTGGTCAACAATCTGGCCGATGCCATCGTGAAGTTGGCTGAGAGTGTTGGCGTGAAGATGTCCTTGAAGGATCAGGGCATCAGCAAGAAGGCGGTAGACGATGCAGCGGATCGGTTAGCCGAACTGGCTTACGAAGATAACTGCACGATCACCAACCCGAAGGAACCGTTGATTGCGGATATGGCGCAAATCATCCGGGACGAATGGGCTGGCCCGAAGTCTACTTTCTAA
>SRR1151209_01634 hypothetical protein
ATGGGGCTCAGCCATGGAAACGGCAATAATCTCGCCCGCACTTGGCGAGATTATATGCCGTTAGGCGACTTTGAGACCGCGTTCCTCAGCGGGCTCAAAGCGCCGTCATGGCTAGCTACGCCTTCGGCTTCGCACTTGCTGCGCTTCGCCAGCCCCATCCGCCGCAGCTTGCGGAGCACTTGGCACGGCAGTCTGCGCCACCTTTCTTTACTCCAAAACAAACAGCGCCGCCGGACCCATCAAGTCCAGCGGCGCTGTTTGTTTTTATATTAG
>SRR1151209_01635 3'-5' exonuclease
ATGTTCAAAGAAGTCAAGAATGGGCGGCAGTTTGCCGGCCAGGCCATCATCCAAGGAATTACCGTCAAGGCGGCCAAGAACGGCTCGCAATACGCCGACGCCAATCTCACCAACCACGACGAAACAGTGCCGGTGAAAATCTGGGAGATCCAGCCGGACTCAATCATGACCTACAACAACAAAGCCATTGATTTTACGGCAACGCGCTCCGATTACAACGGCAAGCTGCAATTCGTTCTGGATTCTTTCTCTATTAATCCGACTTTGCAATTGCGGGACTTGCTGCCGGCGAGTTATTGGGACAATGCCCAATTGAAGGAAGGCTTCAACCATTTCCTGATGAAGATCACCGACCCGATTTATCAGCATCTGGTGCGCACGTTATACAACGACACAGACGATGCCATCATCGATAAACTGAGCGAAATGCCGGCTGCGATTCGGATGCATCACGCTTTCATTGGCGGACTGTATACCCACACCCTGTCCATGGCTTATGAAGCCGAGGGAATTTTGACCCACACGATTTATGCCAAGACCATCAACCAGTCCCTGCTCTACGCTGGTATTCTGCTCCACGATTTGGGCAAAGCCTTCTGCTACACAAACGCCACCGACCACACAGCCACCAAGCAGGCCAACCTGCTGGAACACGTCGCTATCATCGATGGCATGATTGTGGACTACGCCCGCAATACATTGCACTTGAACTACGCCGCCAGTCTTAACGACGAACATATTCTCAACCTGCGCCACCTCGTCCTCTCGCACCACGGCAAACTCGAATACGGCGCCGCCATCAAACCCGCCACTCCCGAAGCCATGCTTCTCCATCATGTCGACGACCTCGACGCCCACATGGAAATGATGCGCATGGCCGAAAGCGACCTCAAACCCGGCACCGTCGCCGACCAACGCAACTTCGGTCTCGACGGCGCATTTGTCTATCATTCAACTCTGTAA
>SRR1151209_01636 ECF RNA polymerase sigma factor SigW
ATGGCAATCGATCCGGTAATGGCCGAGGAGTTGGCGACCACATATGGCGCGGCATTGTATGGTTTTTGCCGTAAGTTGGCGTTCACCCGCCAGGATGCAGATGATTTGTACCAACAAACATTTCTACGGCTGCTGGCGATGCCAGCACGCGTTGACCTGAACGATACCCCCCGGGGGTTCCTGATGGCCATCGCCGCCCGCATCTGGGCTGATGAACGGCGCAAATATGCCCGGCGGGAGCGGATTGCGCCAATACATTCGGGGTGGGACGTGGAGACGGTGGCTGGGGCGGATACCGGTGGTGGTCAGCTCACTCAGCAGGAGCTGCAGGCCGACGTGCAGGCAGGGGTCAATCAGCTCGCAGACAGCTTGCGGGTCCCGGTGCTTTTGTATTACATGGGGGACCTGTCCATCGCCGAAATTGCATCCGAGCTGCATATTCCGGCTGGCACAGTGAAGCGCCGCTTGTTTCAAGCGCGGCAATTATTACGGCAAGAAATGGAGGCTAACGGCTATGGCGAAGCATAA
>SRR1151209_01637 hypothetical protein
ATGGCGAAGCATAACAACGATTTTGATCAAACCTTGCGCACTGCGCTGCACCATGAGGAGGAACCGCCAGCGGCTTTGCAGCAGGCTGTCTTGCAACAAATCCGCCAGCATCAGCCGCAGCCTGTTGAACGACAGATTCCGGCATTGTTGATTGCAGTGCTGGGGGCGATGCAGACGATTTCCATGGTGGCTATGGTCATCTTTTTTCTCCCGTCGACGCTTGTCTTCGAGTGGGCCGCTCGTAACTTAGTTGGTCTGGCCGGACTAATGATTATCGCTGGTTTTGTGCTGGCTTTTTGGCTGAAACGCAAACAGAAGGAAGGGGTACCGTCATGA
>SRR1151209_01638 hypothetical protein
ATGATGAGTTATAACTTGTACTGGGGCTTGCCCATGGTCATGATCGTCATTTTTGTTTTGCTGTTGCTGAGCACTGTACTGTTGGGCATTTGGACATACAAAGATGCCCGGACACGCAGTCTGGATGCCGGCATGTGGACAGTGGTCGTGGTGCTGATTCCCAATTTGATTGGCCTGCTCCTGTACTTCTTAATTGGCCGGCGTCATGCCCAGGTCACTTGTCCCCATTGCGGGGCGAAGACCGATGCCAGCCAGCCGTATTGCGGTCACTGCGGCCAGTTGCTGGGCGATGCCGCCAAGACCAGCTTCACACCGACCAGCAAGGCCCCGCTGATAGGTGCGATCGTCGCAATCGTTCTGGTCTTTCTCGGTATGCTGGGCATGTTCGGCAGTTTAGCCTTTTCCCATGCGATTGGGTCGGCATCCTTCGTGCCCACCCAAACGGTGAAGAATGAAGGAAGCTGGAAATTCGATGCTGATCCGTTTAAATGGTGA
>SRR1151209_01639 hypothetical protein
ATGCTGATCCGTTTAAATGGTGAACGAACCCAAACAATCACGGTGAAGAAAGGCGCCGATAAAGTATTCACCGTCGATCGCCAGCTCACCAGCGGTAAAGTGCAAGTCGGGGTGTCCGTTGATAAAGATACTCCAGGGCGCCTGATTGACGTGCAAAATGGCGAGCCCTATGACTTTAGTCAATGGACGCAGGGAGATTCGATTATCTTGCATCTTTATGGAACTGATGCAAAAGGTAAAATATCCGTCACTTGGCAGGGCCAGTGA
>SRR1151209_01640 hypothetical protein
ATGACCAATCACAAATTAGGCCGCGGCAGTCTGGCTTTTCCCTTTCTGCTTATATTTATGGCCTTCAACATGGTCCATCTGGTTTATCCGCAAAAAACGACGTTAGGCCTGCTGCTTTTGCCGAATGAAGCACTCGAAGAGGTCGTTTCCCTGTTACTGTTAGGCGGCGCCATTTATCTGGCCTGGCGCTATCGGGATGATCTCTTTACTGGCGTGACCCGTTGGCTGCTGAAAGCGCTGGGTGTGATTATGTTGGGTATTGTGGTGATTATTCTGTTGGGCGAAATTTTTAGAGATTTTTACATGATACGGTATCAAAAACGATCATGCCGGCAAAAATCGGCATGA
>SRR1151209_01641 hypothetical protein
ATGGAACAACAAGTTAAACCAAAGAAAACGAAGAAGACCCATTATGTCTTGGCGGCGTTGGCCGGTCTGTTGGCATACTTCGTTATTGCAATGATTTGGCCGCAGACCAGCCAATGGTCCAATGATCTCGTCAAAGTTGTCCTTGATTTCTTGACGGGTCGGTAA
>SRR1151209_01642 GMP reductase
ATGAATGTATTTGATTACGAAGATATCCAATTAATTCCCAACAAGTGTATCGTGAAGAGCCGTAAGGAATGTGACACATCCGTCACCCTTGGCGGCCGCACTTTCAAGATTCCGGTGGTCCCCGCTAACATGCAAACCATTATTGATGACCCCCTGGCGATGTGGTTAGCCAATAATGGCTACTTCTACATCATGCACCGGTTCCATCCGGAGACCCGGGCCGATTTCGTAGCCAACATGCACGATCACGACTTATACGCCTCCATCTCCGTCGGCGTGAAAGACAGTGAATTCGATTTTATTGAAGAATTGGCGGCTAAAGAACTGGTTCCTGAATACATCACCATCGACATTGCCCACGGCCATTCCCAAGTCGTGATCGACATGATTCATCAAATTAAGAAGTACTTGCCGCAATCCTTCGTTATTGCCGGTAACGTCGGCACACCAGAAGCCGTCCGGGAGTTGGAAAACGCCGGCGCTGACGCCACAAAGGTCGGCATCGGACCAGGCAAGGTCTGCATCACTAAGCTGAAGACCGGCTTTGGTACCGGCGGCTGGCAGCTGGCGGCTGTGCAGTGGTGTGCTAAAGCAGCGCGCAAGCCGATCATCGCTGATGGCGGCATCCGCCACAACGGCGACATTGCCAAGTCCATCCGTTTCGGCGCCACGATGTGCATGATCGGTTCCCTCTTTGCCGGCCATGAAGAAACACCGGGCCAAAAGGTGACCGTCGACGGCGAACAGTTCCAGGAATACTATGGCTCAGCGTCTGAGTTCCAGACTGGTTCCCACCATAACGTGGAGGGCAAGAAGATGCTGGTCCCCGTTAAGGGTAAGATTTCTGATACGCTGAAGGAAATGCAAGAAGACCTGCAATCCAGTATCTCTTACGCCGGCGGCCGGGATTTGGAATCCCTGCGGAAAGTGGACTATGTTGTTGTGAAGAACTCGATTTTTAATGGTGACGTGTTCTAA
>SRR1151209_01643 transcriptional regulator
ATGGCAACCGTATTACACCACTGTACCCGCCTGGTGCCGCTGTTTGCGGATCTGTCGCAATCGGCGAAAGACGAGATTGACGCCCTCACCCAGGATCGGCAGTTGCAAAAAGGCGAACAGATCACCCGTCCCGGCGACGGAGAGCGGTTAGTCGTGGTCGCCCATGGATTGTTGAAGACCTACCAGCTTTCTGCCAGCGGCAAAGAACAATTGCTGTCGATCACCAAACCGGGCGGTTACGTCGGCGAACAAGCGCTGCTCGGCGCGCCAAATCCCAACGCCTACACGGAAGCCTTGCAGGCCAGCACGGTCTGCTTCATTGACCGCAGTGACTTCACCCGGCTGCTGCTGGACCATCCCCGCTTAAGCGTGGCCCTGCTCACCGCCACCGCCAAAAAGATCCAGCGGGCCGAGCAGCAAACCGGTTATCTGGCGGATGAATCCGTCCCCGACCGGATCCAGGCTTATCTGCAGGATCTGCGCACGGAGGCTGGCACCGATACCGTGACAATTCCCTTCGCTTGGAAAGAACTAGCCAACTATTTAGGTACGACGCCGGAAACCATGTCTCGACAGTTGAAGATCATGACCACTGCCGGCATGATTTCACGGCAAGGTAAAACGATCACCTTTTTATGTCAATGA
>SRR1151209_01644 DNA-binding ferritin-like protein
ATGACCACTGCTGAAATTGAGACCGCCTATGCGGCGGAACAAAAACAAGTTGATCACGATCACCACGTCCCCTCAGCCGGCGCCATGTGCGGCCACATTATTGCCAACAACGTCGTTCTCGCCACAAAGATCCAGCAAATGCGCTGGACGCTGACCGGCGCTGCCCAGGCTGCCGACGAGAAGCTGCTCTGGCAGTTCACCAAGGACCTGACCCGCCAACGGGACAGTTTGATTTCTGCCCTGCTCGACGAAGGGGAAAACATTCCCACAACGACCGCCGAATTCACCCAGTACACCATGCTGAAGGAAGACCCGCGAATCAAGTACGCCACCGCCGACCAGATGATGGCACTTGTGGTTGAAGACCTGGACACCAGCATGATGTTCATCACCCGGGCCATTGCCCTGGCAGAACAGGAAGAAAAGCGGCCCCTGGCTCTGGAGTTGACGCATCTGTTAGGATGGTATCAGCACAGTCTGCGCCAATTGCAGGATCGCCTGGGCCGACCCTTGACCGCTGGCCGCCCACTATTGGCCGAAGACGATGATGATGACTAA
>SRR1151209_01645 copper chaperone
ATGCAAAAAGTAACGATCAAACTCGGCGGCATTACCTGCCCCAGCTGCCTGCAAAAAATTGAAGGGGCCATGCACCAAATTAACGGCGTGCAAAGCGCCAAAGTCTTATTCAACGCCAGCAAACTGAAGGCCGTCATTGACCCGGCCCAAACTGACGCGCAAATCCTGGCTGACGCGGTGACCAAGCTGGGCTACTCCGTCGCCGCAATCAAGAAACAGGAGGCTTAA
>SRR1151209_01646 cation-transporting ATPase
ATGTTTGTTCAACAACATAAATATCAGCTCATGGTGGCCGGTGGCGGGGCAACGGTGTTGGGCTTGGCAGCGAGTCAATGGTTGGCGGGCCCGGTGGGGGCCATACTATTGATTCTTGGCACACTGTTAGCAGGCGCGCCGATTGCCTGGAACGCATTGGCGGCGTTGCGGGTAAAGGTGATCAGCATTGAGCTCTTGGTGACTATCGCCGTGGTCGGCGCGCTGATCATCGGTGAGTATAACGAAGGGGCCATCGTCACTTTTCTCTTTCTCTTCGGGGATTGGCTGGAAAGCAAATCATTAGCCAAGACCCGCAGCGCGATTGAGGACTTGGCCACGGCGCTGCCGGCCACGGTGAAGAAAATCAATGCTGACGGCAGTCAAATAGATACTGCCGTGACAAATTTGGCTGTTGGCGACACAATTCAGCTGGCCCCAGGGACCACCGCCCCAGTGGACGGGCAAGTAATCGGCGGCACGGGGCTGCTGGATGAATCCCGGATCACCGGTGAACCGGAGGAGCGCCGGAAAACTGCCGGTGATCCGGTCTATTCCGGCAGCACAGTAACCAATGGCAGTCTCCAAGTGCAGGTCAGTCAAGTCGGCGATGACACAGTCTATGGCCAAATCATTGAGCTCGTCGAAGACGCGCAGGATGCGCAATCACCAGTGGCGTCGTTCATTCAGCGGTTCGCTAAGTGGTATACGCCGCTGGTCCTGCTGATTTCTCTGACGGTAGGTTTGATCACTCGGGACACCCGCTTGGCCATCACAATTTTGGTGCTCGGCTGCCCCGGGGCCTTGGTGATCGGCGCACCGGTGACCAACGTTGTCGGAATTGGTACCGGGGCCAAACAAGGCTTGCTGCTGAAAGGCGGCGACGTGGCCAGCGCGCTGAATCAAATCGATACGCTGGTGTTCGACAAAACTGGGACGCTCACCGCAGGTCGGACCAGTGTGCAACATGTTGATTGGTTCGTTGACCCGGCAGACAGAAAGCAATGGCTGGGGCACATTGCTGCCGCTGAGAAACAAAGCAGCCATCCCCTGAGCCAAGCGCTCATTACTTACGCCGACCAACATGACGCCGCTGCTGATGCGGCAGCTTCCGAAGCACCGCAGGTGGTGGCTGGTCAAGGCTTGACCGTCAGTACACTGGCTATCGGCAATGCCCAGCTCATGACCAGCCGTGGGGTCAGCCTACCGGCATTACCCGCGTCCACTGCTTCTCTGGTTTATGTTGCGGCTGGTACGGACTTGATTGCCCGATTTGCCATCACCGACCCCGTCCGACCGCAAGCTCGGGAAACCATGGCGGCATTACGAAAACAAGGTATCCAGCACCTCATCATGCTCTCCGGAGACACACCAGCGGCCGCCCAACGAATTGGTAATCAGATTGGTCTGGACGAAGCCAAAGGCGGCCTGCTGCCGGCGGATAAAGCCGCCTACATCAAGCAGCTGCAAGCTCACAGTCAGCATGTCGCCTTTGTCGGGGACGGGATCAACGACAGCCCCTCTCTGGCCCAAGCCGATGTCGGTATCGCCATGGGCAGCGGCACGGACGTGGCCATGGACACCGCAGACGTTATTCTGATGAATAATGCCCTGCCCGCCTTGAATCGGCTTTTCACACTGGCTCGCCGGATGACCCGCAATGTCACAGAGAACATTGCCCTGGCTGTGGGCACCGTTGCTCTGCTTCTGCTAGGCTTGATCGCCGGTTTGGTGACCATGGGCAGCGGCATGCTGGTTCATGAGGCCAGTATCTTGCTGGTGATCGCCAACGCACTGCGGCTGCGCCGCATTCCTCAGAAAAAAGCAGCAAACTTGACGCCGGTCAATTTTTCTAACGCCGTTGTGCCGGATAATAACCATGAAAGCCATTAG
>SRR1151209_01647 HAD family hydrolase
ATGGGCTTTTGGCCAACCTGGAAAGTATCATCAATCTTCGCTGTCACCCCAGCACAACTCCAAGCTCGGGGGAAAAAGTATGTCCTCACAGACCTGGACAACACTCTGATTCCCTGGAACCAGAAGGACGCCCTCGACCAAGTTCGGACATGGGCCAGCACGCTGGCCAAGCAAGGGATCCAGGTGATCGTCGTGTCCAACAACAACCACCATCGCGTCGCTGAAGCCTTGGCCGACTTGCCGATTCAGTTTGTCGCCCGGGCGCTTAAACCGTTACCGGTGGGCATCAAACGCGCTCTGAAAGAATTCCGCATTGATGCGTCAGAGGCGGTGATGGTTGGCGATCAATTCTTCACCGATGTTCTCGCCGGGTCGCTGGCGGGCGTGGACACGATCCTGGTTGCTCCCCTTGTTGACACTGACGGCTGGAATACGCGCATTAACCGCCTTCTAGAGAAGCCCTTGCGCCACTTGATCCGGGTCCACGATTGGACAAAACCGTGGAGCAGCGAAAATCATGAGAAGTTTAGATAA
>SRR1151209_01648 GTPase
GTGGAGGCTAACACATTTACTCAGTTGTTGAATGCGCTGGGTGCTGTGGACGCGCTGATCGTCAATGTGGTGGATGTATTTGACTTCACCGGCAGTGTCATTCCGGGTTTGCACCGCTTCGTCGGTCATAACCCGGTTATTTTGGTCGGCAATAAAGCTGACGTTTTGCCCCATTCGGTGAAGCGCCGCCGGGTGACCGACTGGCTGCGCCGTCAGGCCCATGCAGTGGGTTTGCGGCCCGAAGCCATTCAACTGGTCAGTGCCGCCAAGGGCTGGCAGATTCCGGAATTGCTGGAATTAATTGAAAAGGAACGGCGGGGCCGGGACGTGTATTTCGTCGGCACGACGAACACCGGCAAGTCTACGCTGATCAATGCGATCATTAAGGAGACCGCCGGCATTCAAGATTTAGTCACCACATCCCGCTTCCCGGGGACAACGCTGGATCGGATCGAAATTCCCCTGGATGACGGTCAAAAGCTGATCGACACCCCAGGGATCATTCAAACTCAGCAGATCGCCCATATTTTATCCGCCAAGGATTTGAAACTGGTGGCGCCGCAAAAAGAAATGCGCCCGCGGGTTTTCCAACTGCAATCCGGTCAGACACTCTTTTTAGCCGGCTTAGCCCGGATCGACTTTGTTTCTGGTGCAGCCGGCAGCTTCACGGTTTATGTGGACAATGACCTGTTGGTGCATCGGACCAAGCTGATCAATGCGGATGCCTTTTGGGACAAACACCGCGGCGAGCTGCTGGCGCCGCCCAGCACTGCGGAACTGGCTGATTTTCCGGACATGCACCACGAAGAATTTACGCCGCCGGATCGGTCGGATATCGTTATTGCCGGCCTGGGTTGGGTCAACGTGCCCGGCCGCGTCGTCGTGGATGTGTATACACCCCAGGGCATCGGGGTCGGCGTGCGGCCTTCTTTGATCGGCAACAACTAA
>SRR1151209_01649 RNA-binding protein
ATGGCATTAACTGGTAAACAAAAGCATTACTTACGTTCCAAGGGGCAGACGATGAAGCCCTTGTTTCGAGTGGGCAAAAACGCCATCACTCCAGAATTCATCGCTCAAGTTGACGAGGCACTCGCCAAGCGGGAACTGATCAAAGTCTCTCTGCTGCCAGCGGCCGAAATATCACTGGACGAAGCGCTGACGTCTCTGACCAACGCGCTGCCCAGCATCATGGTGGCCCAGACCATCGGCAAGACCGCGCTGCTCTATCGGCCGGCAGAAAAGGAGAAGAACCAGCACATCTCCGCGGAAGTCAAGGCCCTGGGGCGGTCCTAA
>SRR1151209_01650 nicotinic acid mononucleotide adenylyltransferase
ATGGGGAAGAAAGTACTCAGCGCCGCACCGACGACGCACACGGCCACTCGGGTCGTGTCGGTCCAGGCGCCGGTGATTGCCACGGAAATCAAGCGGGTACTAGTCCAAAGCATCCGCGGCCACCAGATCGGTATTCTCGGCGGCACGTTCAATCCGCCGCATTTGGGCCATTTGCTGATTGCAGAGGGGGTCGTAAACGCTCTACACTTAGATCGGGTATTGTTTATTCCAGATGCCCAGCCCCCGCATATTCAAGGTAAAAACACGATTCCGGCGAAGGATCGGGTCGCCATGGTGAAAGAAGCCATCGCTGACAATCCCCATTTCTGCTTAGATGAACTGGAAGTACGGCGGGGCGGCAAGTCATTTACAATTGATACGATCAAAGAATTGAAACGGCGCGATCCGCTGGCCCAGTATTACTTCATCATTGGCGCGGACATGGTCAACGATTTGCCTAATTGGCATGAAATCGATAAACTGGTCCAGATCGTCACCTTCGTGGCCGTTCGCCGGCCCGGCGTAACGATCCACAGCAAGTACCCGGTAATTTGGGTGGATGTGCCCCAAGTGGCCATTTCGTCCAGCGGTATTCGCGATCGGGTGGCTAAAGGCGAATCGATCCGCTACCTGGTCCCGGATGGCGTTGCCGCTTATATTAAGGAGCACAAGTTATATGAAAAACAACACGCTTGA
>SRR1151209_01651 hypothetical protein
ATGAAAAACAACACGCTTGAGCCCATCGTGCCCTATGATTGGGACGAGCTAGAGAAACGGGTGGCCGCCCGCATGACGGCCAAGCGCTTCGCCCATTGTCAGCGGACCAGTGTCGAAGCGGTCAAGCTGGCTGAGCAATACGGCGGGGACATTCAACGGGCGAAAATTGGCGGTCTGGTTCATGATTACGCTAAGCAGATCCCCGATGCCGATTTTATTCAGGCGATTCATGACCACCATCTGCCGGCGGCGTTGCTGGATTACGGCAATGCCATCTGGCACGGTATCGTGGGGATCTATTTCATCGAAGATGAATTGGCTATCCACGACCCGGCGATTTTGCAAGCCGTTGAGGAACACACCACTGGCGCTCCGGAGATGCCATTGTTGGCCCAAATCGTTTACATGGCTGACTTCATTGAGCCCGGCCGCCATTTTCCCGGGGTGGATGACGCCCGCGCCGTCACGGCCAAGAGCTTGCAAGCCGGCGTGTTGTTTCAGCTGAGTCATGAACTGAAGTACCTCGTAGAAAAACAAGAGCCGATTTATCCGCTCACATTCACCAGTTATAATGCCTGGGTGCGCCGTATCGGCCACCCGGCGGACAATTAA
>SRR1151209_01652 ribosome silencing factor RsfS
TTGACAAGTGCAGAAAAGTTACAAGTCGCTGTAGAAGCGGCCGATAAGAAGCATGCCGAAGAGATCGTCGCATTGAATATGGAAGAAGTCAGCCTGTTGGCGGATTATTTCGTCATTATGCACGGCAATTCTGAACGTCAAGTCCAGGCCATCGTTGAGGGCATCATTGAGGCGGAAGAGGCTGCTGGGGTGACCGTTCAAAGCGTCGAGGGCAAGAAAGATTCCCGCTGGATGCTGATCGATCTGGGTGACGTGGTCGTTCATGTGTTTACCAAGGAAGAACGGGCATTTTATAATTTAGAGAAGCTGTGGTCTGATGCCCCGCTGGTGGATGTACACCAATGGATCACCGCGTAG
>SRR1151209_01653 SAM-dependent methyltransferase
ATGGATCACCGCGTAGATTACAGCATCTTCGCCCAGGTCTATGACCGCCTGATGGATAAGGATATGTATCCCCGGTGGCAGCACTACGTCCAAAGCAGCATGCCCGTTGGGATGACGGGAACACTGCTGGATTTAGGGTGCGGCAGCGGGGATTTTGCCGTCCAAATGGCTCAGGCCGGCTGGACGGTCACTGGTCTTGATCTATCGCCGGAGATGCTGACTCTGGCCGAAGCGCGGGCTGAACAAGCGGGTGTGGACGTGACCTGGGTTCAGGGCGATATGCGCCGCTTGACCGGTCTGGGGACATTTGATGCGGTGACTAGTTTCGATGATAGTTTGTGCTATTTGCCGGATCTCACCGCGGTTCAGGAAACTTTGCTGGCCGCCGCCGGGGTTTTGGTCCCTGGCGGATACTTCTTCTGCGACGTACATTCGCTTCACCAGACCGACGACGTTTTTCCGGGCTTCATGTACAACGATATTACCGAAGACAGTGCCTTTCTTTGGACCACCTATGCCGGCGAGCTGCCCCACAGCGTGGAGCATGAATTGACTTTCTTCACTTATGATGAAGAAATTGATGGATACACCCGGGCGATGGAAATTCAGCATGAGCGGACGTACCCATTAGCGGATTATCAGCGGGGGTTGACCCAAGCGGGACTTATCGATGTACAAGCGACGGCTGACTTTGGCACTGCCCCAGTGACTGCGGATACGACCCGCTGGTTCTTGCAAGGGATCCGACCGCATGCTTAA
>SRR1151209_01654 nucleotidyltransferase
ATGCTTAATGCAGTAGGCGTGATTGCGGAGTACAATCCTTTTCATAACGGCCACCGCTACCAATTAGCAGAAGCTCGCCGGTTGAGCGGAGCGGATGTGACTGTGGTCGCCATGAGTGGGAATTATGTGCAGCGCGGCGAACCGGCGTTGTTTGATAAGTGGATCCGAGCCCAAGCCGCGGTGGCTAACGGTGCCGATTTGGTGGTGGAATTGCCGCTGAACACGGCGGTTCAGCCTGCAGACCGCTTTGCGCAAGGGGGCGTTCAGGCGCTGGCCGCGTTACAATGCCAGGCATTAGCCTTTGGCACTGAGCAGCCGGACTTGGATTATGCTGATTTGGGCCGGCAAATTGCCGATTTGCCGGCCCATCCGGCGGGTTTTGTTGATTATTCCCAGACTTACGCCACCCAGCTCAATACGTTCTATCAAGAAACGCTGCACGTTACCTTGGATGACCCTAACGTTATTTTGGCGTTAGGTTACGCATCAGCCAATGCTCAGCTGGCCCAGCCGCTCGCGCTGATTCCGGTGCCGCGGGTGGCCGTGGCTCACGATGCCGTTCAGACGCGCCAGCAGTTTGCCAGTGCCAGCTGGTTGCGGGATCATCCAGCGGCCATGGCTGACTTTGTTCCAGCGGCGGCCTGGCCGCTGTACCAGACAGCCCAGTGCAGCCGGTGGGCTGACTTTTGGCCCTATTTGCATTATCGGTTATTGACGATGTCCCCTGTTGAATTGCGGGAAATCTATCAGATGACCGAGGGCTTGGAGTACCGTTTCATTCAACAGAACCGTCAGGCGGCCAGTCTGACTGATCTGTTGAAGCGGGTGAAGACTAAGCGCTTTACGTACAGCCGGTTGAGCCGGGTTTCGCTGTATACGCTGCTGGCTTTGCACACTGATGCCATGACGCAGGTCGCGGTGCCGCTGCGCATTCTGGGCTTTACTTCAGCAGGGCAGAGGTACTTGAAGCAGATCCGCAAAGCCAGCGGGGATACGCTTTTAACCCGGGTCAATGCCCAGAGCGGGGCGGACACGGCACCTTATGGCTTGACGGTTCAGGCTGACCGTGTGTATACATTAGTTAACGGGACTGAGCAGAATTTTGGTCGGGCCCCCATTCGGAGAGAGAAAGGATGA
>SRR1151209_01655 DNA-binding protein
ATGTTACAGTGGACCGAGGCCGACTTGCGCAAGCAGGGCAATCGGGAAATTCAATTTGACCGGGATGTTCCGCTAATGCCGGAAATTGCTGAACGGTTTGAAGACATTAGCGATGCCTCAATTTATCACGTGCAAGGCACGATCAGGGCAGATGGCGCCGGCTGGTTAGCAACCGTGCACGCTACTGGGGAAGTGACGGCCCATTCCACCCGTTCCCTCGCTCCAGTACGGGTCGCCCAAGATTTTACCTTTACCGAGTTATGGATTCCTCAGGAACAATGGGGCAGTGAACCAGCAGAGAAGCTGATGGATACCCACCAAGCGCTGACCATCCCCATGGCCCATGATATGATCGACATCTACGGCGCCGTCAGCGATCACGTTGTTCTGGAACTGCCGTCACAGATTCTCACTGACGAAGAGGCCAAACAGGATGTGATGCCTGCCGGACAGGATTGGCATGTTATTTCTGAAGCCGAATACGAAGCGCAGAAGAAGGCGGATGCCAAGCCGAATCCAGAGCTGGCCAAATTAAAGAGCCTGCTCCAAGATCAAGAAAAAGACGATAAAGACGATACCGATCAGCATAAAGACTGA
>SRR1151209_01656 6-phosphogluconate dehydrogenase
ATGGATAAACCACAAATTGGGGTCATTGGCATGGCCGTCATGGGTAAGAATCTGGCTTTGAATATTGAGAGCCGCGGCTATACAGTCGCTATCTTCAATCGGACCGGGTCGAAGACCAAGGCCGTCGCTGAGGAACATAGCGACAAAAAGCTGGTACCCAGTTATACACTCGAAGATTTCGTGAATTCATTGGAAAAGCCGCGCCGGATCGTGATGATGATCAAGGCCGGCAAACCGACCGACATGGTTATCGGCGAACTGCTGCCGTTGCTGGACAAGGGCGATGTCCTGATTGATGGGGGCAATACCTTCTTCGAAGACACGATGCGCCGGAACGCGGAACTGGATAAATCCGGGATCAACTTTATCGGCATGGGTGTTTCCGGCGGCGAGCTGGGGGCCTTGGAAGGTCCTTCCTTGATGCCGGGCGGCCAAAAGGAAGCCTATGATTTAGTTGAGCCGATCTTGACTAAGATTTCCGCTAAGGCTAAAGATGGCGCCCCCTGTGTGACCTATATCGGACCCAATGGTGCCGGCCACTACGTGAAGATGGTCCACAACGGAATTGAATACGGCGACATGGAATTGATCGCCGAGAGTTACAACTTGCTTCGGAACCTGTTGGGTGAAACCCCGGAGAAGCTGGCTGATACCTTTGCTGAATGGAACAAAGGCGAATTGTCCAGCTACTTAATTGAGATCACAGCGGATATTTTGACCCGTAAAGATGATCTTGGTACCGGTAAGCCGATTGTCGACGTGATCTTAGACGCTGCCGGCAACAAGGGGACGGGCAAGTGGTCTTCTCAGAATGCTTTGGAACTTGGCCAGCCGCAAACGCTGATTACCGAGTCCGTGTATGCCCGTTATATTTCGGCCTTGAAGGATGAGCGGGTTGCTGCCAGCAAAGTCTTACCGGTCCACACTGGCAAGGCAGACATTGGCGACAAGGACAAGCTGATCGAAAAGATTCGGGAAGCTTTGTATTTTGCTAAGATTATGAGTTATGCGCAGGGCTTCGCCCAGATGAACGCGGCCTCTAAGCAATATGATTGGCACTTGAATTTTGGTGAGATCGCCAAGATTTGGCGCGCTGGTTGTATCATCCGGGCGCAATTCCTGCAAGAGATCACCAGCGCTTACGATCGCGATCCAGAGTTGGGCAACCTGTTGCTGGATAAGTATTTTCAAGATATTGCGGACAAGTATCAGCAGAGTGTCCGGGACGTCGTTTCCCTGGCCGTTCAAGCTGGGATCCCGACGCCTGCATTCTCTGCCGCCATCAACTACTACGATTCTTATCGCAGTGCTGTATTGCCGGCCAACTTGATCCAGGCTCAACGGGATTACTTCGGGGCGCACACCTATCTGCGCAACGACCGCGAAGGCGTGTTCCACTATACTTGGTATAAAGAACAATAA
>SRR1151209_01657 two-component system response regulator
ATGCAAAGTATATTGATTATTGAAGACGAAAAGAATTTGGCCCGTTTCGTCGAACTCGAATTGCAACATGAGGGCTATAAGACAGAGGTCCACAACAATGGCCGGACTGGGTTGGAGGCAGCACTGAAGCACGATTGGGACGCAATCCTGCTGGATCTCATGCTGCCCGAACTGAACGGCTTGGAAGTCTGCCGGCGGGTGCGCCAGCAGAAGAATACGCCGATCATCATGATGACCGCGCGGGACTCGGTCATTGACCGAGTATCTGGGCTGGATCACGGGGCCGATGACTATATCGTTAAGCCGTTCGCCATTGAAGAACTGCTGGCCCGCTTACGGGCGCTGTTGCGGCGGATCGACATTGAGAACGCTCATTCTAAGAATAAGCAGCACACCATCACGTATCGGGATCTGACCATTGAGAAGGAGAACCGAATCGTCCGTCGGGGCGACGAAGTCATCGAATTGACCAAGCGGGAATATGAATTGCTCTTGGCCCTGGTAGAGAACATCAATGTTGTCCTGTCGCGGGATGTGCTGCTGCGCAAAGTTTGGGGTTACGATTCCAGTGCGGAAACTAATGTTGTCGATGTCTATATCCGGTATCTGCGGAATAAGATCGACGTACCCGATAAGGCCAGCTATATCCAAACCGTCCGCGGCACCGGGTACGTGATGCGTTCCTAA
>SRR1151209_01658 two-component system sensor histidine kinase
ATGGATAGAGCCGAACAGAAAACAACCAAGCCGCACCGGATAGACTGGCGTCTCTCCCTGCGGACGAAGTGGACGCTGATCGTGGCTGGCACGATGGTCCTGTTCTTTGCCATCTTTGCCGGCGTGCTCTATCAGTCGGTGGCGCAAATTTTGCTGTCCCGGGAACAGGGATCCGTGCAAGATACCTTGACGGCGGTGGAACAACGCTTGGCCCCGTTAAAGGGTGAAGTAACCATGAATAGCGTGAATCCACTGCTTAATCCCAATTACATTAATGCGGATACGGATAGTTTGCCCATTCCCAAGCAGCAGACTAATTTCTTCTCAGACTCTCTCATTGCAAAGCTGTCGCGGGAAGATATTACCGTGTCTGTCTACGATCTCCATGGCGGATTGGTCTTCACGACCCGCTCGCCGGAGGCCAAATATACCAGCCGCACGGCCGAAGGGTTTCAGTATACCCGATCAGATGGCGGTAAGCATCTGATCGCCACCCGGCAGGTGCACTCGGCCACCACCAATGACCATATTGGGACGGCGATCGTCTATGACCGGATGGATACATTTAATGCCAGTATGCAGCGGCTGCTTTGGCAAATTGTCCTCATCGGGATCTTAGTTTTTGTTTTGATCGTGATCGTTGCCCTCGTTTTGATGAATAAGCTGATCAAGCCGATTCGCCAAATGACGGAAACCATGACGGTGGTCCACGATGACCCGAATACCGATGTCCGGGTGCCGGCGCTGAAGGGCAATGACGAGCTCAGCCAATTGGTGGGCGAATTCAACGGGATGCTGGATACGATACAACGCTATATCAAACAGCAGCAACGGTTTGTCCAGGATGTGTCCCATGAATTACGCACCCCCGTGGCGGTGCTGGAGGGTCATTTGCAACTGCTTAACCGCTGGGGCAAAGACGACCCCCAGGTGTTGTCTGAATCTCTGGGCGCATCGCTGCAGGAGCTGGATCGAATGAAGCATTTGATTCAAGAAATGCTGGATTTGACCCGAGCCGACAATGCGGCCACGACTTATCCCAATGCCGTGACGCTGGTGCTGCCGGTATTGAAGACGGTCTACAACAATACGGTTATGCTCCATGGCGACTTCCAGATTGAAAAAGACTTCGATTTGGCACCCGATACTGCCATTCAGATGTATCGTAACCACTTCGAACAAGTCCTGATCATTCTGCTGGACAACGCGATGAAGTATTCCCGCAACCGGAAAGAAATCCACTTGAGCGCTGCCACCGATCAATCGACGGTATCGATCGTCGTCCAAGATTTCGGCCGAGGCATTGCGCCCAAAGACTTGCCCCAGATTTTCAACCGCTTCTACCGGGCCGATGAAGCCCGGTCGGACATGGATGTGTCCGGAAATGGTCTGGGCTTGTCCATCGCCCATCGGCTGGTCACGGAATACGGCGGCGATATCACCGTCGAATCCGTGGTTGACCACGGGTCCGTCTTCCGCATCGACTTGCCGCTGTACAAGGGCGAGCTGCCGCCGGAAGAGGCCGCGGAGGCGAAGGATGACCATGACGACGATGACGAGCTGCCGCCGGGGATCATTAAAATGTCGTAG
>SRR1151209_01659 preprotein translocase subunit YidC
GTGTTGAAAAAGAAATACATGCGTTATGCCCTGATCCTGGCCAGCTTGGCCGTGCTTCTGGTCGTTCTGGGCGGCTGTGCCCCGCAGAACATGACGACTATGAAACCGCCCACCAGCGGACCAATGGGCTGGACTTATCAATACTTAGCGATTCCGCTGCGCCACTTCATGGCCTGGTGCGCTAAAATGATCAGCGGCCCCAACGCCTATGGCTGGGGCATCCTGATTTTGACCGTGATCATTCGTTTGATCATTATGCCGCTAATGCTCCATCAGCAAAGCAAGACGACCTATCAGCAGGAAAAAATGGCCGCTATTCAGCCTCAACTGCAATTACTGCAGAAGTTCCAGAAGCGGGATGACCTGACTATGGAACAGAAACAGCAGTTATCCGTAAAGCAAATGGAATTGTTCAAGAAAAACAATGTTTCCATGCTGGGCGGCATCGGCTGTTTACCCATGCTGATTCAGCTGCCGATTCTGTGGGCGTTGTATCAATCTATTCAATTCACTCCGCAAATTGCCCAAGCCACTTTCTTTGGGATCAACCTGGGCCAGCGTAACTATCTCATCGCCATTTTGGCGACGATCGTCGCCGCTGCCCAATCTGGCATGATGCTGATCGGCGTGCCGGAAGCCCAGAAGAAAACCATGATGACTACTCTGTTTCTGGCGCCTTTGATGACCATCATGTTCACCCTCTTCCTGCCAGCAGGTTTGGGTCTTTACATGTTAGCCACCAACCTGGTCATGGTCTTCCAGCAAGCAATCACCACCTGGATCATCCAACCGCGCATGAAAGCCCGCGCTGCTCGGGAGTTGAAAGAAAGCCCAGTCGTGCAGGTCGTGACGGAGGATATGTTCGGTACCCCCGCCGCTTCAACGGAAGCCGGCGGTGCCGCCGCCGATCCCGCCCTCACTGCGATCCACGAACGCAACCGGGAACGCAATGCTGGGAAACAGCAACGGCCGCGTAATTCTTAA
>SRR1151209_01660 acylphosphatase
ATGCGCGCAGTCAGTTTACATGTTTTCGGTCGGGTCCAAGGCGTCGGTTTCCGCTGGTTAACCAAGATGGTGGCGGATCAGCTCGGCGTCACCGGTTTCGTGAAAAATGAATTCGACGGGTCCGTCTACATCGAAGCCGCTGGCGAAGAGGAACCATTAGATAAATTTATTGGGGCGATCAAGGCCTCTCCCACCCCCAGCGGCAAAGTGGACCGGGTGGACGAAAAAGAGCTCTCTCCCCTGCCCAGTTACCGCGGTTTCAAAGTTACTGGCTGA
>SRR1151209_01661 rRNA methyltransferase
TTGGAATATATTGAATCCGTCCACAATGACCAGATCAAAACGGCCATTAAGCTGCAAACCAAGAAATACCAAACCAAGAGCGGCAGCTACTTTTTAGAAGGGCCGCACTTAATTGAAGAAGCGGTCAAAGCTGGTGTGGCATTGAAACAGCTGTTCATCACCGAGAATCATCAAGATGACCACATTGTGAAACAGTTCTATGATCAAAGTATCATGATCAGCGACCAGGTGGCCAACCACTTGGCCGCCACTGAAACTAATCAGGGGATGTTTGCCATCGCTCCCATTCCCGACGTCAGCCTGCCCGCGCAATTGACCGGCGGCTGGTTGCTCTTAGATGCTGTGCAGGATCCGGGTAATGTCGGCACAATGATTCGAACCGCCGACGCAGCCGGCTTTGCTGGGGTGATCATCGGGGTCGGGACGGCATGGCCGTTTAATCCCAAAGTTGTCCGGGCGATGCAGGGCAGTCAATTCCATCTGCGGCTGGTCCAAGCCCCCATGGCGGATGCGATCAAGCAATTGCAGGCTGAACAGGCACCGGTTTACGGTACATTGGTCAATGATGCGGCCGTTGACTACCGGACGATCCAGCCAACAGCAACGTTTGGCCTGATCATTGGGAACGAGGGGGCCGGGATGGATCCGGCGTTAAGCAGTCAAACGACTGCCAACTTAGTCATTCCGATTCCGGGCCATGCCGAATCGCTGAATGCGGCCATCGCTGCTGGTATTCTGATGTTCCACTTCGTTGCCTAA
>SRR1151209_01662 HD family hydrolase
TTGTCTAAGCTTCCTTGGCAAGAAAACGAAGAGTACCGCAGCTATGTGGATGATCTCCTGGCTACCCCCCAAGTCCAAAAACTCGCTGAGTATACGCAGCACCACTACACAGATCGCTTGCAGCATTCGATCACCGTTTCCTATGATAGTTATTTGTTGGGTAAAAAATTACATTTGAATTGTCGGGCGCTGGCCCGCGCCGGTCTGCTCCACGATATGTTCTATTACGACTGGCGCAATACGAAATTTGACTTAGGCACCCACGCCTATATCCATCCGCGCATCGCCGTGCACAACGCTGAGAAGATCACCCCGTTGTCTGATATGGAACGGGATATCATCCTCAAGCACATGTTCGGTGCCACGGCCGCTTTGCCGCGCTATAAAGAAAGCTGGGTCGTTTCCCTCGTGGACGACTACGCAGCGGTCAAAGAATTCAGCAAGCCCACTGCCCGGCGGCAATGGCGCGAACTGAAGAAACGCTTGATTTCGACCTTTTAA
>SRR1151209_01663 HxlR family transcriptional regulator
ATGGAAAGTGAAAAAACGGTCGTGGCCGTTGAACCGTGCAGTGACGCAGGTTTGTGTCCTAAATTTGCCAAGATTTTCAGTATTCTTGGTAAAAAATGGAATGGCTTGATTATTGAGGCATTGCTCAAGAACGGGAATCAACGGTTCAAAGAATTAGCGGCAATGGTGCCGACTTGCTCTGACCGGGTCTTGGTCGAGCGGCTGCGAGAATTGGAAACCGAGGGCTTCGTGGAACGGGTCACGTATCCCCATTCCGCGTTGATCGAATACCGGTTGACTGACCGCGGGGCTTCCCTGCAGCCGGTGATGGGGGCCATCCACGAATGGGCGGACCAATGGATCACACCGGAAGAATGCCAATAG
>SRR1151209_01664 phenylalanyl-tRNA synthetase subunit alpha
ATGGCTTTACAAGATGAATTGACCAAGATCCAGACAGATACCTTGGCCCAGATTGCTGCTGTTCAGGACTTGAGTGGCTTGAACGATATTCGGGTCCAGGTATTAGGGAAGAAAGGCGCGCTCACGGGCGTTCTGCGGGGGATGAAAGACTTGACCCCCGAAGAACGGCCCAAGGTGGGCAGTTTTGCCAACACCGTGCGGGACGCGCTGACCGCGGCCATTGAAGACCGCCATGCGGCGTTAGCGGCCGCGGCGCTGCAGGCCAAGCTGGCGAAAGAGACCATTGACGTGACCTTGCCCGGCCGACCCATTCACCGGGGTACAGAACATGTCCTGGATCAGGTGATGGACGAAGTGGAACAGCTCTTCATGGGAATGGGCTATCAAGTCGTTGACGGTCCGGAAGTCGAGACCGAACACTACAATTTTGAAATGCTGAATGTCCCCAAGGACCACCCGGCCCGGGATATGCAGGATACGTTCTATATCACGCCGGATGTGCTGCTGCGTTCGCAAACCAGTCCAGTGCAGGCGCGAACGCTGGAGAAGCACGACTTTTCTAAAGGACCGTTGAAGATGATCTCCCCGGGCCGGGTTTATCGGCGGGATACTGACGATGCCACCCATTCCCACCAGTTCCACCAAGTGGAAGGCTTGGTCATCGACAAACATATCACCATGGCCGACTTAAAGGGAACGCTGGAAGTCTTGGCCAAGCACATCTTTGGGGCGGACCGCAAGATTCGGCTGCGTCCCAGCTATTTCCCGTTCACCGAACCCTCCGTGGAGATCGATGTTTCCTGGGGGCAGACGGCGGGCAGCGATGACGTCACCAGCAAGGACAACGGCTGGGTCGAAGTGCTGGGCGCCGGCATGGTTCACCCGAATGTCTTGAAGAGTGCCGGGGTGGACGCTGATGTTTACGGCGGCTTCGCCTTCGGCTTAGGCCCAGACCGGTTCGCGATGCTGAAATACGGCATTGAAGACATCCGGAATTTCTACCTTAATGATCAGCGGTTCTTAACACAATTCGAGCAGGAGGACTAA
>SRR1151209_01665 phenylalanyl-tRNA synthetase subunit beta
GTGCTAGTTTCTTACAAATGGTTAAATGATTATCTGCCGGTTACTGAAGATCCCATCAAATTGGCCGACCAAATCTCCCGGACAGGGATCGAAACGGAAGAAGTTTTCCTGCGCGAAAAGGGCATGAAAAAAATCGTGGTGGGCCACGTCTTAGAAAGTGTCCCGCACCCGAATTCCGACCACCTGCATATTTGTCAGGTGGATGTGGGCGATACGGAACCCTATCAAATCGTCTGCGGCGCGCCTAATGTGGCCGCTGGGCAATATGTCATCGTGGCCCTGCCGGGTTCCTGGATCGCCGGCCACACGAAGATCAAGAAGAGTAAGATGCGCGGCGAAGTCTCCATGGGGATGATCTGCGCCTTGCAGGAAATCGGCTTCCCAGAAGCAGTTGTCCCCAAGGCTTACGCCAATGGGATTTATGTCTTCAATGAGCCCCACACGCCGGGGGAATCCGTCTTTCCGCTGCTGGGGATGGATGATCCTGTCTTGAATCTGGATATCACGCCCAACCGCGCCGATACTTTAGGCATGCATGGGTCTGCCTGGGAAATTGGGGCCATGCTCAACGAGAAACCGCATTTCAAGGAACCGCATGCGGTCGAAAATGGTGATGAGATCACCACGCTGCTCAAAGCAGCGGTGCCGGACCAAGCGGACGCGCCGAGTTATCATTTGCGCCTCGTCCAAAACGTCCAGGTCAAGGAAAGTCCCCAATGGCTGCAGGTTCGGTTATGGAATGCCGGTATTCGGCCGATCAACAACATCGTGGATATCACTAACTACGTGATGCTGGAATACGGCCAGCCGCTGCATGCCTTTGACTATGATAAGCTGGCCCGCAAAGAAATTGTCGTTCGCCATGCTCGGCAGGGTGAACAGCTGACAACTTTGGACGGCAATGACCACGACTTGGTACCGGATGATATCGTGATCACGGACGGGGAAACCCCCATCGCCCTGGCGGGAGTCATGGGCGGATTGAGCACAGAAGTCACTGAAGGCACCCATACGGTGGTCTTCGAAGCCGCTGTTTTCCCGCCGACGCCGATTCGCAAGACGGCCCAACGGTATAACCTGCGGTCCGAGGCGTCCAGCCGGTTTGAAAAAGGCACGAATCATGCGGATGTTTTGCCAGCACTAACGCATGCCGCCCAATTGGCAGAGGAAATTGCAGACGCCAAGACGGCAAAAGGAATTTTGTCACCTACCGCCATGCAAGTATTGCCCGTTATCGTAGATATTTCAATTGATCGCATCAACCATGTGCTGGGGACGCAACTGTCCGTGGATATGGTGAGAGACATCTTCGATCGGCTGGGCTTCGATGTTCAGGAAGCAGATGGTTTATTCACCGTCAGTGTACCGCCTCGCCGCTGGGATATCAGTATTGAGGCCGACTTGATTGAAGAAGTCGCCCGGCTTTACGGCTATGACAACTTGCCCAGCAATTTGCCAGAAGCAACGACCACTGTCGCTAAGTTCACCCCCATTCAGCAGTTGATCCGTTACAGCAAGCGGACCTTGCTGGCGGCCGGCTTGAACCAAGCCATCAGTTATGCGTTGGTCAATGAGCATGAAGTCACGCAATATATCCAGACCAATAGCGTTCCGACTCGGATTGATTGGCCGATGACTAAAGATCACGTGGCCCTGCGCCAAAGCTTGATTCCTGGCTTAATGGATGATCTGGCGTACAACATTGCCCACAGCGTGAAAAATGTCGCGCTGTTCGAGCAAGGGCGGGTCTTCTTGAAGGACGATGCCGCCACAGTCCGGCCTAATGAAGTGGAGTACTTGGCTGGGCTCGTATCTGGCGATTGGCAGAGCCGTGCTTGGGATACCGCCACCCAACCCGCTGACTTCTATTTAGTCAAAGGGATGGTCGATGAGCTGCTGGCGCCGTTGCGGTTGAGTGCTGCAGTGCGGTACGTGGCCACGGATCGCCATCCGGAGATGCACCCGGGGCGCACGGCAGACATTTTCTTAGGCGATGCTCTGCTGGGTTTCGTCGGGGAAGTGCACCCCGCCCAGACGGCTGCTATCCATGCGGCGGATACTTTCATTTTCCAACTGAATCTGGATCTGCTGCTGAATGCGGCGAAGACGCCGCTGCAGGCGGTACCGGCACCGAAATATCCAGCTGTGACCCGGGATATTGCCTTGCAATTGCCGGAGGATGTGACCAACGCTCAAGTACTGGCCATCATCCACGACCAAGCGGGCGCGTTCTTAGAGGATGTCCAACTGTTTGACGTCTACAAGGGCGACAAGCTGCCCGCTGGGACCCAGTCGCTGGCTTATACGTTAACATTCCGTAACCCAGAAGATACATTGAAGGAAGAACAGGTCAACGCCGCCTTCAAACAGGTCAGCGATGCGCTGGTGAGCGACTTGCATGCTGAGATCCGGTAG
>SRR1151209_01666 aminodeoxychorismate lyase
TTGAAGTCAGAGCAAACGCCCAAGAAACACGATGCGGGCAAAGAAGGGTCGCCGGCCCCGTTAGACGCGGCTGAACAAGCAAGTCAACGGGAAACCAATCGCCAGCAGGAACAACGCGTGGCCAATAAGATCGTGGTCTGGATCGTCAGTATCCTGGCCGTTTTAGCAGTCGCTATCGGTATTTTGGGCTATCGTTATGTGCATACCAGCTTGCAGCCGTATAATACGGCGGACACGAAGACAGTGGCGGTGAAGATTCCCATTGGTTCGTCCAACAAGGAAATTGCCGTTCAATTGGAGAAGCACAAAGTGATCCGCAGTGCCACGGTGTTCAATTATTACGTGAAGACCCATAACTACGCGGACTTCACTGCCGGCTGGCATTCCTTCAAACCATCTATGACCTTGGACCAAGTCGTTGCCCAATTGCAGAAAGAGGGCTTGGCTGCGGAACCCAAGGACCGGATCGGCCGGATCTTGGTCAAAGAAGGGGTGACGGTGGAAGACATCGCCGATTCCCTGGCCAGTCAAACGAAGAAAAACAAGAAGTGGGATAAAGCGTCCTTCCTCAAACTGATGAAGGATGACACGTTCCTGAACACGCTGTACAAGAAGTATCCAAAACTCTTGAGTTCAGCCCAGACTGCTAAGAATGTCCGCTATCATTTAGAGGGGTATTTAGCGCCTGCGACCTACGACATCTATAAAGACACCAGTCTGAAGGATTTCGTGACGATGATGGTCCACAAGTCCCAAGAGGAACTTTCCCCGCTTTACAAATCAATTGCCGCCAAGAATCTGACTGTCCAACAGACACTCACTCTGGCTTCATTGGTAGAGCGGGAGGGGGTCAAGACCGAGGACCGGCAAAAGATCGCGGGCGTCTTCTTCAACCGGTTAGCGGTGAATATGCCATTGCAGTCTGATATCTCCGTGATGTATGCGTTGAATGTGCATAAGACACACTTGACGAACAAAGATACCAGTGTGGATTCACCCTACAACTTGTATATCAATAAAGGTTACGGGCCCGGGCCATTCAACAACCCCAGTTTGAATGCCGTCCAAGCGGTTTTGGCGCCGAAGGATCGGGATCAAAACTATTTGTACTTCCAGGCAGATCTGAAAACCGGGAAGATTTACTATTCCCAGACGTATGAACAGCACACAAGTACAACACAGGATTTGGGGCAGTAA
>SRR1151209_01667 uridine kinase
ATGATGATTGATTTAGGCAGTGAACACGGCACCGCCGGTAAGAAACGACCCATCGTGATCGGTGTGACCGGCGGTTCCGGCAGCGGCAAAACCACGGTTAGTCGGGCTATCTTTGATGAGTTCGCCGGCCATTCGTTATTGATGCTGCAGGAGGATTCCTACTACAAGGCATCCGCCGCACCATTCTCAGAACGGAAGAAAATTAATTACGATCATCCGTTGGCTTTCGATACCGACTTGCTGATCGACCAGATCAAACAGTTGTTGCGGTACGAGCCAATCGAGAAACCAGTATACGATTACAAAGATCATAACCGGTCTAAGCAAGTCGTCCGTCAGGAACCCAAAGACGTGATTATCCTGGAGGGGATTTTGATCCTTTACGATCCGCGCTTGCGGGATTTAATGGACATCAAAGTTTATGTGGACACCGACGACGACATTCGGTTGATTCGCCGGATGAAGCGGGACATGCACGAACGGGGCCGGTCGCTGGATAATATTATCAATCAATATTTGGCCACCGTGCGGCCGATGTATCACCAATTTGTTGAGCCGACCAAACGTTATGCGGACATCATCATTCCAGAGGGCGGTCAGAATCAAGTGGCGATCGATTTGCTAGTCACTAAAATTCGTGACATTTTTGCGAGACAATCTGGCTAA
>SRR1151209_01668 transcription elongation factor GreA
ATGGCAAATAAAACATACCCGATGACAGCAGAGGGTAAGAAAAAGCTGGAAGATGAATTGGAACAATTGAAGACTGTCAAACGGCCCGAAGTTATCCAGCGCATCAAGGTCGCCCGCGGTTTCGGCGATTTATCCGAGAATTCGGAATATGAATCAGCGAAGGACGAGCAAAGTGTTGTTGAATCACGCATTTCTCAAATCGAGGAAATGCTGCACTTTGCCCAAGTTGTGGACGTCAACTCCGTGGATGCTAATGAGGTATCTGTCGGTAAGACAGTCACTTTCCTGGAAGACGGGGAAGATGAACCGGAAACTTACCAAATCGTCGGCGCAGCCGAAGCAGATCCATTTGCTGGTAAGATTTCCAACGACTCACCGATCGCCAAGGCCCTGATTGGCCGCCATAAGGGCGATCATGTGGCGATCAAGACGCCCGGTGGTGAAATGGACGTCGCGATTCAGACGGTTAAATAA
>SRR1151209_01669 transporter
GTGCGCTTTTTATGGTGCTTAATCGCGATCATCGAGACCGCCAGTATTGCTTTCCTCGGCTGGCAAATCGTCACTGACCCCATGGCCTTGATTCTTGTCGTCGTCGGGACCCTCTTACTTGTCGGCGGCCACCACTGCCAAAGCCCCCGCGAAGGCAGCCGCATCTTCGGCATGATCTTCATCGCCATCGGGATCACCATGAACAGCGCTTTTTGGGCCTTCTTCGTGATTACCCTCCTGGCCATTATGCTGCTCCTGACTACGATGGGCGGCGGGTTGCACAAATGGGTGCCCTGGCGGCGGAAACAGTACGTCCACTTCAAAACGACGGCACCCAGCGGCACGCCGCCGCCCATGCGCAAGTCACCCTGGTTTGGCGGCACGACAATTGGGGAGACTACTTTTCCATGGGACGATATCAATTTTGTTTCCCTTTACGGTGACACGATCGTTGATTTGGGTAACACCCTGCTCCCGGAAGATCAGGATAATTTCATCATGATTCGCAAGGGCTTTGGCCGGACGCGGATCTTAGTTCCAGTCGGGGTGGCCATTGAATTAGATCACAGCGTTGTCTTCGGTACCGTCCAATTTCTTGATGAGACTTACCACCTCCAGAACGAACGGCTGCAGCTGCACCATCAGGATGCGGATGGCAAGCAGCGAACGATCAAAATTGTCACCAGCACCTTAGTTGGTGATCTGGAGGTGCGGTACGTATGA
>SRR1151209_01670 two-component system sensor histidine kinase
ATGAGTCGGTTACAGAAAGTTGTGTTAGCCATTGCGTCCACATTATTGACCTTTGCCTTGGTCACCGGGGTCTTGGCTTATAGCGCCTACCGCGTCGGCAACTGGTCCTTGGTGGAACGCGAATTGACCCAGCCTTTCCTCGGGGTACCCTTGGTGCTGGGCTTTTTTGCTGTGGCGCTGGTCTTAGGGCTGGCCCTCACGACGCTGACTTCGCTGGTCGTCCGCCGCAACCTGCGCCACACGGATACTGCGTTGGATGCCTTACTGGCTGATCAGTACGATGATACCGCTTTTGCCCCGCCTGCCACGTTCATGACGTCCACCAATGTCGCCGTCGTCGAAAAACTGCGCCGCTTGCGGGATAAACTCCAAACACTGCAGGCCAATATTCAAACGATGGCCGATCAGCCAATCATTATGGGCAACCAGACCAAGGAAGAAATCCTCCAGGATGAACGGCATCGCTTGGCCCGTGAGCTCCATGATTCCGTCAGCCAGCAACTGTTTGCGGCCACGATGATGCTTTCGGCGCTGAATGCCACCGCAGCCAAGGAGGATTTGCCGGAAACGCTGACCAAACAAATTGTCACCATCGAAAAGGTAATCAACGAAGCCCAATCCGAAATGCGGGCGCTGCTGTTGCATCTGCGGCCCATCAATTTGGAAGGCAAGAGCTTGCAGGCAGGGATCATTTCGCTCTTGAACGAATTGAAGACGAAGGTGCAAATCAAGATCACCGCCGACATCGCGCCGCTAAGCCTGCCCAGTGCCATTGAGGATAACCTGTTCCGCATCGTCCAGGAGTTGCTGTCCAACACCTTGCGCCATGCCAAGGCGACGACGGTTGAAGTATACTTAAAGCAGATTGGCCAGACTGTATTGTTGAAAGTCGTGGATAACGGTGTCGGGTTCGAGCAGAAGACCGCCCAGGCCGCCGGCAGTTATGGCCTGCAAAACATCAGCGAACGAACGAAGAGTATGGGCGGCAGCTTGCATATTGTCAGCTTCCCCCAGCAGGGAACCAGTGTGGAAGTGCGGGTGCCCATCGTAAAGGAGGATCGGAATGATTGCTGA
>SRR1151209_01671 transposase
ATGCCAATCAAAACACACAAGATCCGGATCTATCCCAACGCCGAGATGGCTACGGTCATTTCCGAGTTGATGGACTACAACCGCTTTTGCTGGAACAAAGGCTTGGCTGCATGGAATGACATGTACGACGCGTCGTTAGCCGTGGCGGACAAGAAATTGCGTCCTAGCGAATACAAAGTCCGAGACGATCTGGTGAAGAACAAAACCGACTGGCAGCATCAGTTTTCAGCCCGAGTGCTCCAAACCGCTGTTCACCGGCTGCATCAAGCTTGGCAGAATTTCTTCAATCCCGCTATGCCGGACGCCAACAAACCCAAATTCCATCATAAGTGGGATCCCAAGCAAAGCTTTACGACGGACCGGGCGGTTATTACCGGCAAGTACCTGACCTTGGATCGGCCGCACGCGGCCAGCCATCGGTTCAGCGCCATCAAAATGGCGGAGACTTTACGTTTTATTGGCGAGATCAAAACCGTGACGATAACCAAGCGCGGGAAAAAGTTCTACGCCAGTGTCAACGTATTGGTTGAAGATACCCCACACCCGGCTTTCTATGACTCCTGGGACATCGTCGGCATTGATGTGAACGTGGGCCATATCCGCTGGAACGGCGGTGACGTCAACACCTTCACGCCGCGGATGGCGGCGCTGCATCAACGTATCAAGTATTACCAAAAGTGTCTAAACCGGAAGCGGCGGAGAAACCCTAGTGATTACCGGTCCAAGACCTATCAGCGGATTACAGCAAAGATGAACCGCGCTTACGAGCAGGTGCACGCGTTGCAGGATGATCTGATTCACAAATTCAGCCACATGATTATAAAGAATTATCCTGTTCCCTGTTTAGAGGATCTGGATGTCCACAGGATGATGATGGACGGGAAGAAAGTCAAAGGTCTTCAGCGCGGTCTCTTTCGCCGCTTGCGCACAGCAATCGAGTACAAGGCAGCTTGGCATCACCGCAATTTGGTAATTGCCAATCGTTTCTTCCCGTCAACGCAGCGCTGTTCAAACTGCGGCTGCATCAAAACCAAGGAAAGCTATGGCGGTAAGATGACGCTCCAAGGCGACAGCATTTATCACCAGCATGACGTATATCGCTGTTACGAGTGCGGTCTTGTCATTGACCGAGACGATAACGCTGTGCAAAACTTGATTCAGTATGCGGCGGGGCTTACGCCGGAATGGGAAACCGTTCAGAGATGA
>SRR1151209_01672 two-component system response regulator
ATGATTAAAGTATTGATCGTGGATGATCACGAAATGGTCCGTCTGGGCATCAGCACCTACTTGGGAGTACAGGATGATATTGAAGTCGTAGGTCAGGCCGTGGATGGGGTCGAAGGAGTTAAAATGGCCCTGGAACTGCATCCGGATGTGATCCTGATGGATGTCGTGATGCCCAACATGGATGGCATCGAAGCCACAAAAAAGATCCTCGCCCAGTGGCCCAAGGCGAAGATCATTATTTTGACGAGTTTCATTGATGATGAGAAAGTCTACCCGGCCATTGAAGCCGGCGCGGCCAGTTACATCTTGAAGACGTCCACGGCCGAGGAAATTGCATCGGCCATTCGGCAAACTGCCCAGGGCGAATCGGTGTTGGAGCCGGAAGTGACCAACAAGATGATGCACCGCATGGCCCATGCTGGCGAGAAGCCCCTGTATGAGGATCTGACCAATCGGGAGATGGAAGTTTTGACCCTCATCGCCCAGGGCCGTTCAAATCAGGAGATCGCGGATGAATTGTTTATTACGCTGAAAACGGTGAAAACCCATGTATCCAATATCTTAGCGAAGCTGCAAGTGGAGGACCGGACCCAGGCAGCAATTTACGCTTTGCGCCACCACTTGGTCGATGACGGCGATAGCGCCACGGGTGATCCGGCTGACCAATAA
>SRR1151209_01673 bacterial membrane protein YfhO
TTGCGTTATTCGTCTCGGCACCACCGCACCAGCCCGCGCTGGCCGCTCGTCTGGAGCTTTGCGGTCCCTTTTTTGTTCATTATTGGTTACTTTGCAGTTCAGCGGGTCTGGCCGTTGGGCAACCAAAGCGTCATGACTGTGGACCTGGGCCAGCAGTATATCGATTTCTTTGCCTATTTTAAGAAAACTTTACTGGCCCATCCAGAAACGTTTTTCTACTCCTTCAGCAAGGGCCTCGGCGGCGAAATGATCGGTACGTTTGCCTACTACTTGCTGAGTCCCTTGAATTTCCTGCTCTTCCTATTCCCAGGCACCAGTCTATCCGTGGGCATCTGGTTGTTGATGGCTTTAAAACTCGGCTTAGCTGGGCTGTTTGCCTGTGTGTATTTGCGCCAGCCGGAACGGCATCTGGCCCCAGCGGTCCAGGCCGCTTTAGCTGTTAGTTACGGCTTGTGCGCCTACCTGATCGTCAACCACTACAATGTCATGTGGCTGGATGGTGTTTATTTATTACCCCTCTTACTGGTCACCCTGGAATGGCAGCGGACCGCTCGGCGAATCTGGGCCTATCCGCTGCTGCTGGCGGTCACTTTCATCGTCAACTATTACATAGGTTACATGATTGCCTTATTCCTGGTACTGTACTGGGTCTGGTACCAAAGCCAGTTTGCGGCTAATTTGCGGACATGGTTGCGCCAGGGCGTGCGGTTTGCCTGGACGTCTTTGCTGGGCGCGGGCTTGAGTCTCTTTATCCTCTTACCGACCCTGTTTGCCCTCAGCGATTCCAAGGGTACCTATACCGTCAAAGCAATTGATTGGACGATCGAATATAACCCGCTCAAGCTGCTGCCTAAAATGGTCTCTGGGGCCTATTCCTTTGATCAAATGTCCTCGGGCCAGGCCAACATTTATACCGGCATGATTGTTTTGCTGGGGGTGATCTTGTACTTCTTCAACCGCTGGGTACCATGGCAGGAAAAGATCGTCGCCGGGGGCATCTCCCTCTTTTTGCTGGCCAGTTTATTCTTTCAGCCTTTTGATTTATTGTGGCATGGTTTCCAGTTTCCGGTATGGTATCCGTACCGTTTCAGCTTTGTCGTCAGCCTGTGGGGCATTCTGCTCACAGCCAGAGTCTGGCCGCTGCTGCCCCAATTCCGGGCTTGGCAAGGCTGGCTACTGCTGATCCCTGGCATCGTGATCGTCGGTTACAGTGCTTGGCAGCTGCCCAAGCTGGAATTTATCCATTGGCCAGCGATTCTGTTCACCGGCGCCTTTGCCGTGGCCGCTGTCTGCTTAGTCGCCCTGCACGACCGCAGCTGGCACTGGTGGCCGTTAGCCCTGCTGCTTTGCGTGACCTTAGAAATGCTGACCAACGGGGTGCTCAGCCTGAATCAGCTCAGCTACATCAGCCAAAGCGACTACGCCAACTACACCAATAATTTGCAAGCGGCAGTTTCTAAAATTCAAAAGACGTCGCCTGAACCGTTCTACCGGATCGGCAAGACTTTTGAACGGACCAAAGACGATGCGATGCAGACAGACTTCTTCGGCGGGTCTCACTTCAATTCGATGATGGAGCCGCGTCAGCCCAATCTATACGACCGGTTAGGTTTACCGGCTGGCGATGGTCAGATTTCGTACACCAATGGGACCTTGATTACTGACGCGGTATTAGATATGCGCTATTATTTGCAGGACACCAAGAGCTATAGCGTATTGGACAGTCATGACCTGGCCGGCCACCCGATGATGTTTCCCAATGCGTACCGCCCGGATCTGGCCTTCTACGACCACGTAGCGACGCAAACGATGACCGCCACCTATCGCAATCCCTACGCCCTGTCGTTAGTGTACGCCGGCTCTGACCGCGCCCTGAAGCATGTCCGGCTGCCGAACTATCCATTGTCCGAACAAGAAGCCTTGATGAATGAACTCACTGGGAGCCAGGATTGGCACAGTCTGTTCATTCCCATTTTGCACCCGACCATCACCACCAGCAACATCAAAAAAGATGACAACGAGACGATCAGCGGCACATTTTACCGGAGTAATAAGTTGAAGCCGGCGACGGTCACCTATTCCTTTATCGCCAGCAGCAACGATCCGTATTACGTGACTTTCGGCAACAATATGCCCATTAAGGACATGACGATCCGGGTCAACGGTCGTGAAGTGAAACAGTACGACTCTTTCCGGTCTCCCGTCGCTTTCAATCTAGCGGCGCACCATGCTGGGCGCCGGGTGACCCTCAGCTTCACATTCAGTAATAACGACTCCGTCAGCATGGACGGACTGGCTTTTTACCGCTTCGATCTGGCTGAATTTGAAAAAATGGACCAGCAGCTGCAGAACCAGGCCGGCGAGATAACCAATTTCAAACAGGACGCCATCACCGCCACGGTCACCACCACGAAGACCGCCCCCACGGTGTATACCTCGATTCCGGCCAGTCCTGGGTGGCAAGTTCTGGTAGACGGCCAGCCGCAGAAGACCAAGCAATTGATGAATACATTCGTCGCCTTTACCCCGAAAAAAACCGGGCGCCACACGGTTCAAATCCGTTACGTGGCACCCGGCTGGCGGGTCGGTGTGACCGGCTCGCTCCTGGCATTGATCCTATGGGGGCTAGTGGTGTTCTTTGATCGAAAGCATTATTGGTCAGCCGGATCACCCGTGGCGCTATCGCCGTCATCGACCAAGTGGTGGCGCAAAGCGTAA
>SRR1151209_01674 penicillin-binding protein 2B
GTGCATTCTCCAAATCAGCAAACACCGCAACGTAAAAAATCGAAAATTCCCTTTCGCCTGAATTTTCTCCTGCTTTTGGTCTTCCTGTTATTTGCGGCCTTAATGGCGCAACTGGCTTATTTGCAGGTGGTCAACGGGGATATGTTCCAGGCCGAAGTGGAGCGGACAGACAGCTCAGTCGTCACGAAGGACGTGGCCCGGGGCCAGATTTATGATTCCCAAGGGCGCCTCTTGGTGGGTAACGAGCCGGAAAGTGCGATCACGTATACCAAGAACGTGTCCGTGACCGCCGATAAGATCCGCAAAGTGGCTGACAGTCTCGCCAAATTGATCACCATGCCCAGCGGCACCAAGCTGACGCCGCGGGAAAAGGTGGATTATTATTTGGCGGATAAGAATAATCTCAAGGCCGCTGACAATGAGCTGACCAAAGATCAGAAGGAAACGCCAAGTGGGGATGCCCGGTCAGCCACTGTTCAGTATCAATATGAAGTGGCCAATACCATGAAGAAAAATATTACTTTAACGCCTCAAGAGACCAGCGCTGCTGAAATTTATGCGCGAATGGCCGGGGCATACCAGCTGTCTACCGTGATGATCAAGAACCGGGACGTGAGCGCCGCGGAAGTGGCTAAAGTATCTGAGCATTTGACCGAAATTCCCGGCGTCAGCGTTGGTACCGATTGGGAACGCTCCTATCCTAACGGTGATTCCATGCGCAGCGTGATCGGCTCTGTTTCCTCGGAACAGCAGGGTCTGCCTGAGGATGAAGTCAATACACTCCTGGCCCAGGGCTATTCTCGGAATGACCGGGTCGGTACGAGTTATTTGGAAAAGGCCTACGAACCAGTGCTGAAGGGCACCAAGTCCCGTACCCAGGTCGATGTCCACGCCAACAATCTGGTCACCGACGCGACTACTCTGTATGGGGGCAAACCTGGCGATAATTTAAATTTAACGATTAATAGTCAATACCAGAGTATTGTCGAAAAAGTTTTGAAACAGCAGTTCGACCGGGCCAAGAGTGCCGGCGACGCCACTTATTCAGACGGGGCCTATGCGATTGCAATGAACCCGAAGACCGGCGCCATCTTGGCCATGGCCGGCGTGCAGAATGATCCGAAGACTAAAAAAGAATCGGATGATGCCCTGGGCACCATCAATCGCAACTTCGTCATGGGGTCGGCCGTCAAAGGGGCCACCGTGCTTGGCGCGCTGATGGATGGGGTAATCACTCCCAGCAGCAATACCCAAGTGGATGATCCCATCTACTTGCCGGCGACACCGGTGAAGAAATCCGTTTATCCGGCTGGTACGTATTCATCGCTGAATGCGGTCCAGGCGTTGGAAGTTTCCTCCAACATTTACATGATGAATTTGGCTCTGAAGATGGGTAAAGCGGCATACGTGCCCCATACCTTGATCAATTTCAAGGACAATATTTTCACCATTATGCGCCGGTATTTCGCAATGTTTGGGCTCGGCACCAAGACTGGGATCGACTTGCCAGGTGAAATCGGAGCTTATCTGGGCCCAACCACCAATGAAGAGGGCATTCTGAATTCTGGGAAAGCGTTGGACCTTTCTTACGGGAACTATGATCAATACACATTAGTTCAGATGGTTCAATACATCAGCACGATTGCCAACGGCGGTTACCGGATGAAACCCTATCTGGTTCAGTCCATCCAAGAAAATGGCACCCAGGGTCAAAAGGGCGCCATCGTGGACACTACCCAGCCAACCATTTTGAACCGGGTACCGTTCACCCAGGATGAGCTGGATGTCGTCAAGCAGGGGATGTACAACGTCGTCCACGGTTCCATGGCCTGGGGTACAGCCCATCCATTGAAGGATATCAAACCAGCGATGTCGGCGAAGACCGGTACTGCCCAGTCCTTCTACATTGATCCAGACAACCCGACGACGAATCCGCCAGAAACCACCAACTCCAGCTTCGTCGGTTTCGCGCCCTCCAGCGACCCGCAGATTGCGATCGCCATCGTCTTCCCGAATTTGGACGTCGATTCCGAGGGTAACTATAACCAGGAAGTGGCCCGAACGATGATTGAACAATACTATAAGCTGAACAACATTAAGTGA
>SRR1151209_01675 5-formyltetrahydrofolate cyclo-ligase
ATGACATTAACGAAAAAAGCGTTCCGCCAGCTGCAAATTCCCCGAATGGTCGAATTTGCCAAGACGCCGGCGTTTAAAAGGGAGAGCCAGCAGTTGCAAGATGATTTACTGGCTTGGCTGGCTGCCCATCCCCAAGGCAGCGTCGGCTTGACCATGGCCGGCGGTATTGAGGTACCGACGGCGCCGATCATTGATCAATTGCTGGCCGCTGGGCGCCCAGTGTTATTGCCTAAGACATTTCCAGATCGGTCCATGCATTTTGTGCCGTATCATGGCGGCGCTGACGAATTGGCCCGGACGGATTACGGTATCCTAGAACCGGTGGCTGATGCCGATGTGGTGCCGGCCATTGTGGTCGTGCCAGGAGTCGCTTTTGTTCGGGGCAGCCATGCCCGGGTCGGTTTCGGTGCCGGCTATTACGACCGGTATCTCGCCCGCCACGCCGCGGCTATCATGCATACGATCACGCTGGCGACCACGGTGATGCTGTTCAATGCGCCCACTTGGCGCGTCGCCGAACATGATGTGCCGGTGGGCACGCTCCTAGAAGGGAAGAGAATTAATGAACAATAG
>SRR1151209_01676 membrane-associated serine protease
ATGAACAATAGCCGGATTCGCTGGTACATGACCCGCCTCAAACTGATGCCGTTCGTCACTTACGGTTTACTGATTGCCACCGTGTTGATGTATTTAGCCGAAATACTGCTGGGCGGTTCCGATAATTCCGCTGTTTTGCTCCAAGTCGGCGCCAACGTCGGCCAGCTGGTGGCCCAGGGCGAATGGTGGCGGCTGATCACCGCGATGTTTATCCACATCGGCCTGCTGCATATCGCCACCAACGGTGTCATGATCTATGCCGTGGGCACCCAGATCGAGGGTTTATTCGGCCATTGGCGGATGCTGGTCATTTACTTTGTCAGCGGCATCGTGGGTAATTTGACCTCGTTTGCCTTTGGCAGTATGAACAGCATCTCCGCAGGGGCATCCACTGCCCTGTTCGGCTTGTTTGGCGCTTTCCTGTTCCTGGGCGTCGGCTACCGGCAGGAACCGTATTTTCAAATGGCAGCCCGGCAATTTTTGACGTTGATCCTGATCAATTTAGTATTGGATCTGTTTATGCCGTCGATCGATATCTTTGGCCATATCGGCGGCGCCCTAGGCGGCTTTCTCATTGCCATGGTCTTGGCTTTGCCGGCCCGCTTCGGGAAACTGCCGGTATGGCAGCGGATCGCGGGCACGGTGGTCCTGCTGGCCGCAGCAGGTGTCTTAGGTTATTTGGGGATGGTCCGCTATGCCGGGTGA
>SRR1151209_01677 hypothetical protein
ATGCCGGGTGATCATCCCATGCGCACGCTTTATGACGTGCAGCAGCTATTGGAACGCTTTGGCATCTTAGTCCATTTGGGGAAACGGCTGTGGGATATCGAGTTGATGACAATTGAGCTTGAACACGTATACACAGCCGGGCTCTTAGATGCTAAGATATATGTGAAAGCCCGGGCGGTGTTGCACCGTGAACGGGAGTATGAGTTGCGCATGCAACAAAAAAATCATGAAAGCAGTGGAAAACAGCATGACAGATAA
>SRR1151209_01678 glucokinase
ATGACAGATAAAAAACTGATCGGGGTCGACCTCGGCGGTACCACGACCAAATTCGGCATTCTTACGCCGCAGGGGGAAGTGCAGCAACGGTGGAGTATTGAAACCGACATCTTGGAGGATGGCAGTCATATTATCCCCAACATTATCGATTCTATTCAGCACCACTTGAAACTGTACGATATGCCTGCTGACCAGTTTTCAGGAATCGGCATGGGGTCGCCCGGCTCAGTTGATTTAGCAGCGGGGACAGTCAGCGGCGCATTCAATTTGAATTGGGAAGGCACCGTTTACCCTAAACGGGACATTGAGGCGGCGACGAATATTCCCTTCTATATTGATAACGATGCCAACGTGGCAGCCATGGGCGAACGCTGGCAGGGTGCCGGCGACAATGATCCCAACGTGACTTTCGTTACTCTGGGTACCGGGGTTGGCGGCGGCATCATCGCTGACGGCAGACTGCTCCATGGCGTAGCGGGATCCGCTGGCGAGTTGGGCCACATTACCGTTCAGCCTGGCGGTTATCTGTGCACCTGCGGCAAGCGCGGCTGCTTAGAGCAATATGCCTCGGCCACCGGCGTGGTCCATATTGCTCGGGATATGGCCGAAGAATATGCCGGTGATGCGAAACTGAAATTCATGCTGGATGATGGTGAAGATATTACCTCAAAGATCGTCTTCGACTTGGCCAAAGAGGGTGACCCCTTGGCACTGAAGGTCGTGGATAAGGTCAGCTTCTATTTGGGCTTGGCTCTGGCTAACGTCGGCAATATGCTGAATCCGAAGTATATCGTCATTGGCGGCGGTGTCAGCGCGGCCGGCGACTTCCTGCTGGAACGGGTGCAACGGAATTTCGAAGAAAACACCTTCCCGAATGTTCGCCAGACCACGTCTTTGCGGTTGGCCACGTTAGGCAACGAAGCCGGTATCGTCGGCGCGGCTTCCCTGGTCTTGGCCGACCACGCACAAACAGAAGAATAG
>SRR1151209_01679 rhodanese-like domain protein
ATGGTGTTAGCAAGTTCATTTAATCAAGGTATTTGGATCCTGAACGGGTTCCTTCTGCTGATTGTATTGTATATGATCGGTTCGCCGACATATTACTGGTGGCGCGGCCGGCAGTTGAAGGGTGCGTTGACCGAAGAAGAGTTTGAAAAGGGTCGTACCCGGGCTCAGATTATCGATCTGCGGGAGCGTAAGACGTTCGATACGAAGCATATTTTGGGTGCCCGCAGTATGCCGATGGCGTCGTTAAAGCAGGACATGGGATCACTGCGTAAAGATTTACCGGTTTATGTTTATGAGAGCGGCACGAATCTGGCCATTCGGGCGGCTCTGCAGCTGAAAAAAGCCGGTTTTACCGAAGTTCGCTGGCTCAAGGGCGGCTTCCGGGAATGGCATGGTAAGACGAAGGGCAAAGCTGTTGCCTAG
>SRR1151209_01680 hypothetical protein
ATGGCAAAGTCTAAATTTGGGCGCGGTTTCCTGTTTGGCGTTCTCGCTACTGCAGGCGCCGTTGCTGGCAGTGTTTATGCCTTTAAGAAACAAGTCGTCGAACCCAGCGACGCCGAAGTCAGCCGGATCGAAGATAATCGTAAACGGGCCAACCGTAAGGCCCATCAGGCTCATCAGGGATAA
>SRR1151209_01681 GNAT family acetyltransferase
ATGGGCATTACGATTCGGCCATACCAGGCCGCGGATGAGCGGCACTGGGTGTACACCAAAGCGTTGGCGTATCTTTTTTCGCCTTTTTTTGACGATCAGGAAACAACGAAAACAATTTTAGATCCAGAAGTATATCAGGCAGCCTGCGAATTAGTGGCGATCGATGACGCGACGCAACAACTGGTGGGTTTACTGGATATCGGCGTGTTCACCCAGGAAATGAGCGAGGACAATTTATATTTTCCCACTCGGAGATTGGCTTATTGGGAAAATTTTGCCGTCCATCCGGATTGGCAGCACCGGGGCATCGGCACTCAATTGTTCATGGCCGCAAAAGCCTATTTGGTGGCCCGCGCCGTTCAAGCACTGATCATTTTTACCCGGGATGATGCCGGGACTAATCAGTTGTATCAAAAGTTTGGCGCGCGGCTGTTAACGCGGGATTATCTGGTCATTGGGACACCAAAAGTTGCTGATTTGCAGCTGGGTTTTCGCGTTGACCGCGCGCAGCAACGGTTGATCCTGACTAACCGGCAAACAGGGCAGCCCCTGACCCACTATTTGCGCGAAGGGGTGTATATCGTGACAGATAAAGCCGCCGTGGGTGAATTTGATGCAGAGCGGGTGATTACCGAGCATTCGTATGTGCTGGAGCTGACCGATCATGGATAA
>SRR1151209_01682 tRNA delta(2)-isopentenylpyrophosphate transferase
ATGGATAAAGTCATTATGATCGTCGGCCCCACCGCAGTGGGAAAATCAGCACTGGGCATTGACTTGGCCAAACAATTCAATGGCGAAATTATTTCCGGAGATTCGATGCAGATTTTTCGTCATCTCGATATCGGCACCGCAAAAGTTCTGCCTGGGGAAATGCAGGGAGTTCCCCACCACTTGCTGAACATCCGCAATCCGGATGAAAAATTCTCCGCCCATGATTTTCAACAGGCTGCCGGCAATTTGGTGCGGAAAATTACTGCCCGCGGTCATGTACCGATCATTGTCGGCGGTACCGGCTTCTATTTACGGATGTTTTTGCTAGGGTGGCAATTAGGCACGGAGCGGCAGTCAAATCACATTACTGATGGACTCAATGATGAAGCAGCCTGGCAGAAACTCAATATCGCTGACCCCGCCGCCGCGGCTAAAATTCCGGTCGCGAATCGCCGCCGGGTTGAACGCGCCCTCGCGGTCATTGCTGAAACGGGTCAGCTATTTTCGGATCAAGGGGATGATTTGACGCCGGCCTATGATGCCTGTGTAATCGGCTTGAATACCGAACGACAGCAGCTTTATGCCCGGATCAATGCCCGGGTGGACCAGATGATTGCCCAGGGTTTAGAAAAAGAAGCCCGCTGGCTGTACGCCCAAGGCGGCGCGGATTGGCCAGCGGGGAAGGGCATCGGTTACCGGGAATGGTGGCCGTACTTTACCGGTCAAGCCAGCTTGCCGGCCACGGTCGACCGCATCAAGGCCGACTCCCGGCATTACGCTAAGCGGCAGCTGACGTATTTCCGTCACCAGCTCCCGGTACATTGGTTCAACTTGCTGGAAAACCCCGCGGAAGAAAATAAAATCAAGCTGCTGGTCGCGAGTTTTTTAACGCGGTGA
>SRR1151209_01683 glutamine synthetase repressor
ATGCGTGAGACAGAAGTCCGGCGGTCGACCCCGGTGTTATCAATTGGTACGGCGTGTACGATCACTGGCCTGACGGCTCGCCAAATTCGCTATTATGAGTCCCAGGGCTTATTGAAGCCCCATCGGACGGCTGGCGGTCAGCGGCAATTCTCCATGAATGATGTGGATGTGCTGTTGGCGATCAAGGACGATTTGGCCGCAGGGTATACTCTCGGTCAAGTGAAGGAGCGCCGGGCGAGCGAACGGAATAATAATCTTTCCGATGAAAAAGCCCGGGTGCTGCTGCGCGACGAGATGTTGCGGACAGCCGGTTTCTTGAATGATACAGAATTTCCTCGTAATTAA
>SRR1151209_01684 glutamine synthetase
ATGGCGCGTGCACAAATTACGGCAGACAAGATTCGGGAAGCCGTACAGGAACAAAATGTTCAATTTCTGCGATTAATGTTTACGGATATCAACGGCATTATCAAGAACGTGGAGGTGCCTGTCGATCAGTTGGAGAAGGTATTGGCCAACAAAATTATGTTTGATGGATCGTCCATCGACGGCTTTGTCCGGATCGAGGAAAGCGACATGCTGCTATACCCCGATTTGAATACGTGGCTGGTCTTTCCGTGGGGATCCGAACACGGCAAAGTTGCCCGCTTGATTTGTGACGTACACAATCCGGATGGCACACCGTTTGCGGGGGACCCTCGCAACAATTTGAAGCGGGTATTGGCCGAAGCTCGGGAGGCCGGCTACACCACCTTCAATATCGGACCAGAACCGGAATTCTTCCTCTTCAAATTGGATGAGGAGGATCGGCCGACTTTGGAACTGAACGACAAGGGCGGCTATTTCGACTTTGCCCCCGTCGATCTGGGTGAAAACACCCGGCGGGACATTGTTTTAGAGTTGGAAAAGATGGGCTTTGAAGTCGAAGCCAGCCACCATGAAGTCGCTCCTGGGCAGCACGAAATTGACTTCAAGTACGCTGATGCCGTAACTGCCGCCGATAACATCCAGACGTTCAAATTGGTCGTCAAGACGATTGCGCGCCAGCATGGCTTGCACGCCACGTTCATGCCCAAGCCTTTGGCCGGCATCAACGGCAGCGGCATGCATATCAACATGTCCTTGTTCAAGGGCGACAATAATGCTTTCTTTGATCCGGATACGGACGACCAATTATCGGCCGAATCCCGCCACTTCCTGGCTGGTTTGCTGACGCACGCGCGGGCACTGACCGCCGTTAATAATCCGACTGTCAATTCCTATAAGCGATTGGTGCCGGGCTATGAAGCGCCGGTTTATGTCGCTTGGTCCGGCCGCAACCGCAGTCCGCTGATTCGGGTACCCCAATCCCGCGGTTTATCGACGCGGTTAGAAATGCGCAGTGTTGATCCGACCGCTAATCCTTATCTGGCTATTGGCGCGATCTTGGCGGCCGGCATGGACGGCTTGAACAACAAGCTGACCCCGGCAGCACCAGTGCACCGCAACATTTACCGGATGACTCCTGAGGAACGCAAAGCCAATCACATCACCGACCTGCCCTCCACGCTGCACAATGCGTTGAAGGCGTTGGCGGCGGATGAAGTAGTCATTGACGCCTTGGGACCGCACCTGTACCAGAGTTTCGTTGATTCTAAGCGCATGGAGTGGGATGGCTACCGCCAGTCCGTCTCCAAGTGGGAACGGGACCAATATCTGGAGCTGTATTAA
>SRR1151209_01685 chorismate mutase
ATGACTAAAGAAAATGAAATGCAACAGCAGCTGAGTGCATTGCGCGATCAGATCAACGCGTTGGACACGCAGATCGTACCGCTGCTGGAAAAACGGTTGGCAGTGGCCGAGCAGATCGCGCAGGTCAAACACGCCGCGCAGCTATCGCTGACAAATCGGGGCCGGGAACAGATTATTTTAGACAAGCTGAGCAAATCCGTCACGGACCCGGTTCACGCCCGGTATTTGCGGGAACTGTATCAGGATATTTTTCTGATTTCGAAGCAGTACCAAGCCCAAGTAATCAAGGGTTTGCAGGATCAAGACCTGAAACTTGAAAGCCCGAAAGTGCACTGA
>SRR1151209_01686 NAD-dependent deacetylase
ATGTTTGACCTACAAAAAGCCATTGATACCGCTCATAATATTACATTCATGACCGGGGCCGGGGTGTCCACCCATTCAGGGATCCCCGACTATCGGTCCAAGGGCGGTCTGTATGCCAACAGCGCCGATCCAGAGTACCTGCTCAGTGCTGAAAATCTGCGGGACCACCCCGAGAGTTTCTATGACTTCGTCAAGAATCGGATGTATTATCCGGATGCCAAACCCAATGTCATCCATGAGAAAATGGCCGAGATTTCTAATGAAAAGGGCACGATCGTTACCCAGAACGTGGACAATCTGGATATCAAGGCTGGGGCCAAGCACGTGGTGCAATTCCACGGGACGCTGTACAAGGTCCATTGTCAAAAATGCGGCAAGCAGGTGCCCTGGCAGGATTACTTAAAGGATATGCATCATCAAACCGATGACGGTATTCTCCGGCCGGATATTGTGCTGTACGGGGAGGGCATCAACCAGCAAACCTTGATCAACGCCGTCCAAGCCGTGCAATCCGCCGATTTGATCGTTGTTGTCGGCACGAGCTTCCGAGTTTATCCCTTCGCCGGTTTGATTCAATATGCTCGTCCGGATGCTGTTTTGGTGGCTGTGAACAAGGAAAATATTGCGGCCGGCGATGACATTCATATGATTCAAGCCGATGCCCTGTCTGTTTTTGAAAAACTACATGCCTAA
>SRR1151209_01687 hypothetical protein
ATGTCACAGAAAGTAACCTACACGCTTTCTTACCTCTTTATGATCCTTGTGCTCTTATTTTTCATTGTTGTGGCGTACCACATGGGAGTGTTATTGTACCGGACACTGCCCAATGTCTTTATCGGCAACTTCGGCGGCCGTTAA
>SRR1151209_01688 hypothetical protein
ATGAATACAGACCCTGAATTAAGCCAACCGGTCCAAGAACTCCTGAAGAACATTCGCGAGCACTTTCCGGCCCAAATCACCATCCAAGTGGACGACCAGGCCAGCGGCCGGATCAGCCATGATGCCGCCCAGCAGGAAATGCAAAAAGACGGTTCGATGATCCTCCACGTATACGATCAAACTGATTTGAATTACACCATATCCCATGAATTGCTGCACCTGGAAATGTACCTGAAGGGCTTCCCGGCCATGGGCCTGCCGGTCACCACCAGCGATCCCCATTTGGATGACCAAATCGCGGCCACCGGCGTGGCGATTTATAACAGTGCCAGCCACCTGATCATCGGCGCGGAACAGCGCCGTAACGGGATCATCACCAAAGAGACCGAACAAGCCTTCATCCGCGGTATCAGTGACGTGGTGCCGGCTGAAGAGCCGAACGCCGATCAAGGGGATGATCCGCGTTTCTTCTATCGGGTCCTGACCCTGCTCGACGGCCTGGCCTTCTTTGCTGACCACGAAGACAGTCTCCCAGCCGAATGGCTGCAGATGTACCCCGAAGCGTTCAAGTATGCTCAGCGGCTGTACGCGACGATGACCGCCAAGGTGATTGATTCGCCATTTGCCCTGCGCCGGGCGATCGTCAAGACCTTCCGAGACTTCGACGCGATGCTGGATGAACTGGGCTACATGCCGATGCCCCACGACCAATTCGTGGCCCTGTCGCCGGTCCTGAGCGAACGCCAGACCAAGCTGGAATTCCGTCAAGTCTTCGACATTCTGCACACCGATTATCTGAATCGGGAGACAAAAGAAAAGGCCTTTCTCGCGATCGGAAAAAGTGATCGCCAGATGGCCTTTGCCCTGCCTTTGAAAGAACTGAGCCAGGATGCTGCGTTGAAGATCTATGATCAAAAAGCCGCCGACATCCTGAAACAATTCCAAATCGGCTATGCGCTGCGTAATTAA
>SRR1151209_01689 phosphatidylethanolamine-binding protein
ATGGAAATTACATTGCCTTGGTCTGGTGCGGAAATGCCGGACAAGTACGCAAAATACGCCCCGCAAGAGAATACTCGGGACGGTTTTCCAATTGTTTCATTCCCCTTTGACATTAAAGATGCCCCGGTGGATACGCAATACTTTGCGTGGTCCCTGCTGGACTACGACGCAGTCCCGGTGGGCGGGTTCATCTGGATCCACTGGGTCGCGGCGAATCTGCCGGCGGATGTGATGCAGATTCCGGAAAACGCCAGTCAAAGCGGCGCCCTGGATTTCATTCAAGGCCGCAACGCCAATGCCGGCGCGATGGTGCATAATCAGGATCCGCTGATCAATCAGCACTACGTCGGTCCGCAGCCGCCGGATAAGACCCACGACTACACCTTGACGTTGTATGCGCTGGATTCTGCTCTGCCGCTGAAACAAGGTTTCTGGTATAACGATTTCCGCCGGGCGCTGCGCAATCGTGTTTTGGCCACGGCCCAGGTCGAAATTCCTGCTCGGTCGTAA
>SRR1151209_01690 dihydrofolate reductase
ATGACAATGACAAAGGAACAAGATAAGGTACCAAAACGACGCGTCATTCTACAGATCGCCCAGAGTTTGGACGGCTTCATTGCGGAACGCAACGGCAGCACGGAATGGCTCACGAAACTAGATTCCACGGAAGCCGAAAGCGCCTATCAGCGCTTCTACGGCTCGATCGATACCGTGATCATGGGCCGCAAGACCTATCAACGGGCATTGAAGCTGGCCGGCAGCTATCCTTACTCAGATAAAAAAGGCTACGTCTTCTCCACGTCGCTGCACGATACCGATGATCCCACCACCGTCGTGGCCGGGAACGTGGTGCAGTTCGTTGAGTCGTTGAAAGCCGAAAAGGGCGACGACATCTGGCTGGTTGGCGGGGCTGACATTTTCACCACCCTGCTCCAAGCCGGGTTGATTGACGAAATTATTGTGACCATTGCTCCGGTCTTGTTGGGCGATGGCATCTCCCTGGTCAGCCACGATTTGCCGGATGTGGCGCTGAAATTGCAAAACGGCCGGCAGCTTGGTCAGTTCATCCAGCTGACTTATAGTATGGGTAACGCGAAAGGCTAA
>SRR1151209_01691 MarR family transcriptional regulator
ATGGAAAATGAAATTTTTACTGCACTATTGCAGATCGTCACATTCTTCAATCAACCCGCCAATGATGAACATATCCTGGCGGCCGCCAATGCCCCCCGGGACCCGAATTTATTGCCAATTATCGTCCGCGTCGGCCTGCAGCCCCACGTCCGGGTGGGGGAGCTTGCCAGCCAGCTTGGTAAGACCCACTCCTCCACCAGCCGTCAGCTGACCAAGTTCGAAAAGCAAGGCCTGATTCAAACCGAGGCAGCTGCAGATGACCGCCGCGCCCGCACGGTCATCCTCACTGCTACCGGACAATCCCTCTACGACCGCATTACTGCCGTCCGGGCCGCCAAGATCCATGCGGTTCTGGCCAACGTACCCAGCGATCAGCAAACGGTCATGCTGCGGAGCCTGCAACAGATTGCGGAGTTGCTGGCGCAGGTAAATTAA
>SRR1151209_01692 hypothetical protein
ATGTCTTTTCCGATGTCGGCGCATTTGCGCAGTTTTCATCTCCACGTCTTAGACCAAACGCATCAGTTTGGGCTAGAGGTTGAGGACATGTCCGATGATGAGTTGAGACATTTCAAACCAGATAAGATCGTCAGAATCAACGGGCAGGAGGTTTGGCTCTTTTCGCAAAGCGACTACCCCAAGATCAGTGACTGGTTTACCACCAAAACAAAAGCCCAAGCTAAGACGGTTTCCGACGTGGGCTTCTTTCCCGTTCTCTTGGCCCAGGCCATCCATCTGCCTTGGCCGTGGGCGCCGGAAACGCCGATGATGATCACCATGGATAATTACCCGGAATTAGCCAGTGTCCTGTTGGCGGCGCATATTCGTCTAGATGATCACTACCGGCTGGTCCTGCCGTCGGCCCAGTACAGCCAATTGGCGACGCTCATCGCGGCCATCGATCAGATTGACGAGGCTAAGGAAAAACTGACGAATCCTGACCGTATTAAGTCGCCCATGCCGTTCAAGCTGCCCGAGCTGACTAAAATTGCCCAGGTAATCGACGGCTTACCACGGATGCTTTGGTATGTCGCCACGGCCGCGGTTGATGCCCACGGTGGGCAGGCCTTTGAAGAGACGTTCCCTGGACCCCTGACGATCCATAGCGACGGGACGCAGGACGGTGTGACGATTGAGTTCTGA
>SRR1151209_01693 NADPH-dependent FMN reductase
TTGGAAAAAGTGGGATTGCCCTTTCTGGACGAACCCGATATTCCAGCCCATGGTCACTATACTCAGGCGCACACCCAAGCTTGGAGTGCCACCATTCAACAGTACGCCGGGTTCGTTTTGCTCTTCCCTCAATACAATTGGGGCTACCCCGCTGTACTCAAAAACGCGCTGGATTATCTGTACGCCGAATGGGCCCACAAGCCGGTGGCGACCATTGTTTACGGCAACCACGGCGGCATGCAGGCCCAATTGGCCATGCGCTTCGTGATCAGCGGGCTGCACATGATCCCGCTGGCGGTGAATCCGGAATTGGTGACGAATGACAGCATGTTGAATGACGCTGGCGACTTCATCGATGTGGATCAGGCACTGGCGCCTTCCGCCGGTGATATGCACTTGCTGACGACAGATTTCGAAAATTTCTTCACTGCGCGTAAGCCCGCATCGTCAGCAACCCACTAA
>SRR1151209_01694 exopolyphosphatase
ATGGAAAATCTAGCTGTGATTGACCTGGGCTCCAACTCGGTGCGCATGACGATCACTGAGATTCAAGATGATCGGACGACCAAAGTGGTGGCCGAGGAGAAAGAAATGGTCCGCCTGTCCGAAGGGATGGGCCCAGAAAAGATTCTCCAAGAAGAAGCCATGGCCCGCACGATTGAAGCAGTGAAAAAGTTTGCGGCCACTTTCCGCAAGCTGCCCAATGTGCACCTCAAGGCGATGGCGACGGCGGCGACCCGCCAAGCCAAGAACCAGTCCGACTTTTTGACTCGGCTGACGAAGGAAACCGGCGTCACCGTGAAAGTGATCAGCGGCGAGCAGGAGGCCTACTATGACTACTTGGGCGTCACTAATACTTTGCCGGTGGTCAATGCCGTCATCATGGACACTGGCGGGGCGAGTATCGAATTGATCTTCATGATTCAACGCCATGTCCAGAATCTGATCAGTATTCCCATGGGTTCGGTGAGTCTGACAGAAAGTTATCTGGACCCGGAGCACATCACCGCCCCAGCACTGTTCAAGATGACCACCGCCATGGACCGGCTGTACAATGAGATCTGGTGGCTGGACAAGGCAAAGAACCTGCCGATTATTGCCCTGGGCGGTTCCAACCGAACATTGGCCAAGATCGAACGGCGGGCAGACAAGACGCCGCATTTTGAAAAGATCCACGGTTTCCGGATGAGTACCGACCAAGTGAATCGCGTGTTCAGCAACGTCATCGGAGCTGATTTGGAAGAGCGGAAAGAAATCCCCGGATTGAGCAAAGACCGGGCCGATATCATCGTCGGCGGCATGGTGCCCATCGTCAAGCTCATGCGGTTCTTAGATTCCGACCGCATCACCTTTTCCCAGAGCGGTCTGCGGGAAGGCGTGCTGTACGAGCGGTTGCAAGAATTGCAGCTGTAA
>SRR1151209_01695 polyphosphate kinase
ATGGACTTGGCAAAGCCTGAGTATTTCTTTAATCGTGAATTATCGTGGCTCGACTTCAATTCCCGAGTCTTGGAAGAGTCGCGGGATAAGGATAACCCTTTACTGGAGCGGGTGCGCTTCTTAGCCATCACCCAAAGCAATCTGGATGAGTTCTTCAATATCCGGGTGGCCTCCCTGCACAAGATGGTGCGGGTGGGGTACACTGGGACGGATGCCGCGGGCTTAACGCCCCAAGCGCAATTGGCCGGGATCAGCGAAAAGACCCATGCGATGGTGGAGAAACAGTACACCACTTTGAACCGGTCGCTGCTGCCGAAATTGGCCGAAGCCGATATTCACCTGCTGCACTTTGCAGACATGCGTCCGGCCCAAGTTGACTTCGTGGATAACTATTTCCACCAAACCGTGATGCCGGTCCTGACCCCGTTAGCCGTGGACGTGTCCCGGCCGTTCCCCTTCATCGCCAATAACACGCTGAACATCGCGCTGCGCCTGGCCAAGAAGAACAGCAAGAAGGACAAATCCTTTGCGCTGATGCAGGTACCGGATGTCTTTCCCCGGGTGGTCAAACTCCCCGGCGGCGACAATGTCTTCATTCTGCTGGAAGAAGTCATCAAGCATTATATGGATGAACTCTTCGTCGGCTTCAGCATCAAGGCCATGGGCCTGTTCCGCCTGACCCGGGACATGGATCTGGACGTGGAAGAAGAGGATGCCTCCGATTTAATGAAAGAAATCGAGAAGCAGCTGAAGAAACGCGAGCGGGGCGGCGTGATGCGCATCGAGATCGATGCCGACATGGACGACCGGCTGGTGAAGCGGCTGACCAAGGAATTGAACTTGACTCCGGATAGTATTTATCCGGTCAATGGGCCGATCAACCTGAAGTTCCTCGGCCAATTGATCAAGGCCATCAGCGGGCACCGGGATCTGCTTTTCCCGAGCTTCACCCCCTACGAGCCGGCACCGTTGACTGAACACAGTATGTTCTCTCTGATCGCCCAGCATGATATTTTTGTTCACCACCCCTACGATTCCTTCGCGCCGGTGGTCAACTTCATTAAGCAGGCGGCCGAAGATCCCCAGACACTGGCCATTAAGATGACCCTCTACCGGGTATCGTCCCATTCCCCAATCATTACCTATCTGAAGCAGGCGGCGCAAAACGGCAAGCAGGTCACCGTGCTGGTGGAACTCAAGGCCCGCTTCGATGAAGAGAATAACGTGCACTGGGCTAACGAGCTGGAACGGGCCGGGTGTCACGTAATCTATGGTCTGGTTGGCTTGAAGACCCACTGTAAGCTGACCTTGATCATTCGGCAGGAAGAAAACGGCATTCGCCGGTACATGCACATGGGTACCGGGAACTACAACGACGTGACCGCTCGGCTGTACACTGACATGGGTCTGTTCACGGCCGACGTGGACATGGGTCTGGACGCGTCGAACATCTTCAACATGCTCTCCGGCTTCTCTGAGCCGCCATATTTCCACAAGCTGGTGATTGCCCCCATTGGTATCCGCAAGTTCTTGCACGAGCAGATCGATGACGAAATCGCCAATGCCCGGGCAGGGAAGAAAGCCTTCATTCAAATGAAGATGAATTCTTTGTCTGATACAGATATGATTGAGAAGCTGTACGAAGCCAGCGCCGCGGGGGTCGAGGTTCATCTGCTGGTCCGCGGCATTTGCAACCTGCGGCCCGGCATCCCGGGAATCAGCGACAATATCACGGTGCATTCCATCGTTGGCCGCTTCCTGGAGCACAGCCGGATCTACTATTTCTACGCCGATGGAGAAGAGCATGTCTTCCTGTCCAGCGCCGACTTGATGAACCGCAATCTGTCCCGCCGGGTCGAACTGCTCTTCCCGCTGCTGGTGGACGCGGTGCGTCAGCAAGCCATCAACATTTATAACATTCTATGGGACGACACGGTGAAGACCCGGGTCCTGCACAACGACGGCACGTGGACCCACGTGGACGGCCGCGGCCTGCCCCGGCTCAACGCCCAGGAATACCTGCTGGCCCACGCGCAATCCATTGCCGATACGCTTTGGCCAGAACTCGAAACCGAGAAGAAACGGGTGGACGATGAGTCGCCTCGCCAGTTCATTCCATTGATGAGTGATCCAAGCAAGGATGACGATTCAGGAAAGAAGGATTAG
>SRR1151209_01696 exopolyphosphatase
ATGGCAAAAGGAACAGGCATCATCGGCTTCGTGGTGATTGGTGCCCAGGCGGTCTTCATCCGCGCAGTCGATCGAAAGATGCACGTGGTGGAAAGCGCGCAGACCGATGTGGATATCGGGGAGGATATTTTCACCAACCAGCGGATCCAGCCAGCTACGGTCAATCGGGTCACCGAGGTGCTGAACCAGGCCAAGCTGCTGTTCGCCGGGGTCGGGGCCGAGGCGGTGCACGTCGTCGCCACCCATTCCGTCGCTGAAGCCGCCAACGCCGAATTTGTCCGTGAACAGCTCCAAGATCGGACCGGTCACGATATTATTTTTGTGAATCAGAGTCAGGAATCATTGTATCGAAATCTCGCGACGGACGCGTTTTTGCCGAATTTCAAGGAAATTATTAAAACGGCGGCGATTTTGGTCGATATTTCTTCCGGCAGTGTGGAATTGACCTTCTACCGCGACCGCCAGTTTATTTTCTCCCGCACGCTGAAACTCGGGCCGCTTCGGGTCTTTGAAGTGATGCGGGACGTCAAGCGGCATGTGCCGAATTACGATGAGGTCTTGCAGGACTACATCAACAGCCAGATCCGGGACTTCACCCGGATGCTGCCGGTGGACGGGGATTATCCGACCATGATCGTCATGGGCTCGGCGCTATCGATTATGGAACATCTGGTGCCGGCGGGGAAACGAAACACGCTGATGCAAGTGGCCGATTTCAACGACTTCTATGGTAAAGTGGTGCACAGCAGCGATCAGTATCTGCGGGCTCATTATCAACTGGCCGATTCGGACATGGCGCAGGTCCAACCGGTATTGTTATTAGTGCATCAAATGCAGGAGTTTTTCCATACCACTCAGTTGGACATTACCAATCTGAAATTAGTCGACGGGCTGGCGGTGATTTATGCGCTGCGCCAAAGCAATGCCAAACTGCTGATCAAGCCGGAAGAGCAGATCATCCGCTCCGCCCTGGCCTTATCTGATCGGTACCAGGTCGACACCGCCCACCGCAAGCAGGTCACAACCTTTGCCCTGCAATTGTTTGACCGGCTGCGCAAGCTCCACGGACTGGACAAGCGGGAGCGGTTATTGTTGGAAATTGCCGCGACGCTGAACGACATCGGCAGTTTCGTGGACGTCCACGAGCATTACCGCCACTCGGATTATCTCATTCAAGCCTCTGAGATCCTGGGCTTGTCCACCGAGGAACAGCAAATGGTCGGCACGATCACCCGCTTCCACAGCACCGATTCGCCGAGTATTGAGGAGCTGCAAGAGTCGCCGCTGCCCAATACCAAGCGCATGGTGGTCGCCAAACTCGCGGCGCTACTGCGTCTGGCCGATGCCATGGATGTGTCGCGGCAGCAGAAAATCAGTAAGATCGCGGTGTCGGTGAAACCAACAACGGTCCAGATCACCGCCACCAGCACGGATGATATTGAATTGGAAAAATGGTCCTTTGCCAACCGGGCGGATTTCTTCGCCGAAGTGTACGGGATTACAGCAGAATTGAAAGGAAAAGGTCAATATGGACTTGGCAAAGCCTGA
>SRR1151209_01697 beta-glucosidase
ATGTTAGGTAAGAAAAAAGAATATCCAGTACCAAACGCGTATGGTTTAACACCGGCCGAGCAAGTCAAACTCACATCCGGTGCTGATTTTTGGGGCACCGAGGAATTTCCGGCCGCCAATATTCCGCGCTTCCGCATGAGCGATGGGCCCCACGGGCTGCGGTTTCAACCGGGGGCCGGGGACCACTTAGGCATCAATGCCAGCGAGCCGAGTACCGCTTTTCCCACCGGCAGTGCCTTGGCCTGTACCTGGGACCCGGCATTAGTGGTCAAAATGGGTCAGGCCATCGGCCAAGAAGCCCGCTCGCTCCACGTTGATATGGTCCTCGGGCCCGGGGTGAACATTAAGCGCAACCCGCTGTGCGGCCGGAACTTCGAATATTTTAGTGAGGATCCGCATCTGGCGGGGAAATTGGCTGCCGGGTGGATCGACGGCATTCAGGGTGCGGGCGTTGGTGCGTGCCTTAAACATTTCGCCGCCAATAACCAGGAGGATGATCGTCTGCGCTCCGATTCCCTGGTGGATCCGATTGCTTTGCATGAACTCTACCTGGAGGCCTTCCGTATTGCCGTGATTGAGTCCCAGCCGGAGGGCGTGATGTGTTCCTACAACCGGATCAACGGGACGTATGCCAGCGATAATGCGTACCTATTGAGTACGGTCCTGCGCCGGCAGTGGGGCTTCAAGGGTGCCGTCATCACGGATTGGGGCGCCCTGAATGACAAAGTTAAGGCGCTGAATGCGGGGACCGATTTAGAAATGCCCGGCGATAAGCATATGTTCGATCAGCAGGCCTTGGCCGGATTAGCGGCCGGTCAGCTGAAACCGGAAGCCTTGACCCGAGCGGTGGCGAAGATCGCTCAACTGGCTCAGAAGCAACGGCCGGCGTTCACCGGCGATCGGGCGCAGCTGCTCCGAGAGAATGCCCGGCTGGCCGAACACATTGAAGAACAGGCCGCCGTCTTGTTGAAAAACGACCACACTATTTTACCGTTGCAGCCCAGCGATCGAATTCTGGTGGTGGGCGAGATGGCTGACGCGACCCGCTATCAAGGGGCTGGATCATCCCATATCAATGCCGCGGAAGCCGTGTCGATTCTTCAAGGCCTGGATGCCGCCCACGTTGCCTATACTTATCAAAACGGTGCGGATCAAGCGGCAACTCTGGCCGCTGCCCGCACCGCCGAGTCTGAAGGCTTCGATCGCCAAACCATGGCGCTGCCCCAGGACCAGAACAACTTGATCTCCGCGATTGCCGCGGTCAATCCCCGGGTCGTCGTGCTGCTGGTCGCCGGGGCGCCGGTTGAACTGCCCTGGGCAGACCAGGTCCAAGGCCTGCTGAACTTATATCTCGGCGGCGAACGCGTCGGCACGGCCGCCCAGCACCTGCTCTACGGCACCGCGACGCCCAGCGGCAAACTGGCCGAAACCTACCCGCTGCATTACCGGGATGTTCCGTCCAGTGCGCTGTATAACCAGAACAACGGGTCGGTGGGTTACGCGGAAAGTGTCTATGTCGGCTACCGGTATTACGATAAAGCCCAAGTACCGGTCCGTTTCCCGTTCGGCTACGGGCTGAGTTATACCACCTTCGCCGTCACCAATGTCCACCTGGACCAGGCCAGCATTAGCCCTCAGGGGACCATCCGCGTGACCGCCACTGTTAAGAACACCGGTGACCGGGCCGGTGCTGAAGTGGTCCAGGCCTATGTGGGCAATGACCCGGACGCCGCGTTGACGCCGCTTAAGACACTGCAAAGCTTCGCCAAAGTCGCGTTGACTCCAGGCGAGGAAAAGACGATCACGCTGGCATTGCCTGCCCAAGCTTTCAGCGAATGGGACGATGCCCAGCAAGCCTACGTTTTACCGACTGGCACGAGAACCGTCATCGTCGCCACCAGTGCGGCGGCCGCCGATATCATTACGACACTGCCCGTCACGCTCCAAGGTGCCGCTGCCAGTACCCGGCCGACCCAAGTGCCGGCATGGTACCGCCAGCCCCAGGGCTTGCCCAGCCTGACCGATTTCACAGCGATGAGCGGCCTGACGGTCACCCCGGTACGTACGCCGCAGCCCGGCGAGTATACGCCGTACAATACCCCCCGGGAGATGAGCCGGACATCCTGGGCGGTGCGTCAAGTCACCGACGCCATCGAAAAGAAACTGGTCGGCACGACGCAGCCCACAAGTGTCGAGGACCGCTTTATGCAGACAATTCTCCTCGACACGCCCATCATTCGCCTGGCCCAGCAATCCAGCGGGTCCTTCCCGTTACCTTTGGTCAATCGGCTGGTCGCCTTGGCCAACCGCCACTATACCGGCCTGGTGACTGGGCATCGCTGGTGA
>SRR1151209_01698 hypothetical protein
ATGATCACGAAAATTGAACTGCGCCTGGCCGGCTTATTCGGTCCGCCGACTGTCTATCAGGCACGTATGACCGCCGGGGCGGTCACGGTCACGCTGGCCAACGAGACTGTTGAGGCCGAGCCGGCCGTGGGCCAGACGCTGACTGGCAGCGATGCCCGCCAGTGGCTGGCCCGGCTGGCTGCCCTGCATTTGCCGGATTGGGCCGACCGCTATACGCCGGAGCCGGGCCAGGTGGTCCCCGCTGGGACACAATGGACGTTGACTTTGAATCAGGATGACGGCGCCCAGCACGTCATGACCGGCGACAGCGTCTATCCGCAAAATTGGTCCGCCCTGGTGGACTTGCTGCGGCAGGCCGCACTGGCGCCCAACGGTCATTTACAACCGCCGGTGCGCTGGCAGTTTGATTTCGTCCGCTTCGCCGATTTGCATCTGCCCCAATTCCAAGGCGCAGGCGACATCCTCAGCCGCAGCACGATCTATCAAGAGACCATCCTGATCGACGCCGCCCAGCAAACTCTGTACGTGGCAACCCGCTACCCCGACCCCCAGCCCAGCCATACGGAAACTTACCAAAATGCCAGTCTGGTCACAGCGCTGATCCCGGCAGTGGCGGATGTCCTGGCGCCTTTGGGCAATCTGTCGACGATGCGGTTGGATACCACCGTGGACCCGGACACGGCGTTCGGTATTATCCTCACCTATCCGGAAAACGAGCAGATCGTGGTTCAGACCGACGCAGATGATCCAGCGATGCTCACTTTCTGGCATCAGCTCAAGCAATTGGTCACCACCGCCATCACGGCCGCCCAGCGGGAAAGTGCCAATGCCTGGCGTCAGCTGGGGCCGGCAGTGGCCGAGTATTATGTCGCGGTGACCTTCAACCACGGCGGCAAGCCGTACACCTACAAGACCGACATTCCCGATCTGGATATTGATGATCAGGTAGTCGTACCGGTGGGCGCCAATGGCCACACGCTGACCGGCACCGTGGTGGATCTCTGGGACGATGTGCCGCCGGATCTCGCGATTCCTGAATCCGTAATCAAAACCGTGGTCCGTCGGGCGGATTAG
>SRR1151209_01699 aldo/keto reductase
TTGCAATATGTCAATATTGGTCACAGCGGCCTGCGGGCCTCGGCCATTGGCCTAGGCCTGATGCGGGTCTCCAAGAAGAGTGACGCGGACGCGGCCCAACTGGTCGCCACCGCCATTGATCACGGCATTAATTTCTTTGATAACGCCGATGTTTACAGCCAGGGCAAAGCTGAAGAAAAATTCGGCGCGGCCTTGAAGATCGCGGCTGTTCCCCGGGAAAAACTGGTCATTCAAACCAAGGTTGGGATTACGGATAAACGCTACGATTTTTCGAAAGACCACATCATCGAAGCCGTCAACGGCTCACTGGAACGGATGGGCTTGGATTATGTCGATTCCTTGCTGCTGCACCGCCCAGATCCATTGATGGAGCCGGATGAAATCGCTGAAGCTTTCTTACAATTACTTAATCAGGGCAAGGTCCGGCAGTTCGGCGTATCGAACTTTAATCCAATGCAGGTGGCACTGGTGCAGCAGGCCGTGCCGATGAAGCTCATTGCCAACCAGTTGCAGCTGAGCATCATGCACACCGGCATGATCGATTACGGGATGCATACCAATATGACCGATCCCCGCAGCGTGGACCACGATGGCGGCATTCTGGAATACAGCCGACTGCACGACATGACGATTCAAGCCTGGTCGCCTTACCAGTACGGCTTCTTCGAGGGTGTCTTCATTGATAACCCGAAGTTCCCGAAGCTGAACGACAAGCTGCATGAATTGGCGGCGAAGTACGGCAGCAACGTTAATGCCTTGGCCGCCGCTTGGATTCTGCGGATTCCGGCGAATATGCAGGTCATTGCCGGGACGATGAATCCGGAACGGTTGGCGGAGATTGCTGATATTGATCGGATTAAGCTGACGAAACAGGAATGGTACGATATTTACTTTGCGGCGGGTAATGATTTGCCCTAA
>SRR1151209_01700 hypothetical protein
ATGTCTCAGAAGGTTCACAACGGTAAGAAATTTGGCAATTTATCCTTGCCCTTGGGTTTCATCGCGTTGGATTTGTACTTGCTCTTTCTGAAGGGCGTCAGCAATCCTCTCCAAGTGACATTGATTTGGGTTAGTCTCATTATATTCGTCCTTATCGCTGTTACACCAATCCGCAAGCCCAGTCGGCAATCATAG
>SRR1151209_01701 hypothetical protein
ATGCCCAATTTAGATACAGAACTCAACCAAATCAAAGAATTGAGAAACAAACTGAGCAAACACCAGCCGCTTTCGCCAGATCAGCGCCAGCGTCTCGCCCAGAACGTGCGCATTGATCATGTCTGGTCTTCGAATGCCATTGAGGGCAGCCCGCTGAGCCGCGCCGAAACGGCCACCATTCTTAATTCTGGGATAACGGCCGCCGATGCAGCAAACACTGCTACGGTTGAGGCAATTGACTTGAATGAAGCCTACGTATACATGATGGCCTTGGCACAGGGCGACCGGCCAGTTGTTATCACGCATGCTCTCATGCGCGACTTGAATCGCCTGCTGACCCGCCACACGACGATTCCACAATCTGCGGCCGGGGTGTACCGGTCAATCGATGTGTGGCCCAATGGTTCTGAAGACCGTCCTTATACCGCGCCATTTGAGATTCGGCCGCAGCTGGATGCCTTACTCCAGTGGGCCGATTCGGCGCAGCAGACTGCCTCACCAATCATCTTTGCGGCTGACCTGCATCAGCGTTTCGTCGCCATTCATCCCTTCATTGACGGCAACGGCCGCACCTCGCGGCTGTTGATGAATCTGGTTTTGGTCAACGCAGGGTATCCCGTGATCAACATTTTACCCGATACTGCCAACAGAAATGCGTACATTGCCGCCCTGGAAACTGCCCGCGGCGGTGATCCAGAACCGTTTGAGCGATTGATTGCGGCTTACGTCAAGAGAGTACTGGTGTACGCGAATAACGCAGTGGTCGCAAATGGAAACAATAAGAGCGCTGACCAGTGA
>SRR1151209_01702 filamentation induced by cAMP protein Fic
TTGCCAGCGTCTTATCCAGATAAATATCACCTGACCAAAGACCAGAATCGGCGGTACGCACGCCAAAATTTTGTTAATCTGGTGCATACAAATTCTCGTTTCGAAGGCGTCAATACCACACTGCCGCAAACTCAAACCATTATGGACGGCTTAGGCGTTGACGGGGTATCGATTGACGACATTAACGTAATCGTTCAGCTCAAAAAAGGCTGGCAGCTGATCACTGAAGATGACGCGTCGTTGACGCTTGCGTTCGAAAAGAAAATCAACGCGATTGTCGCTCTGCATGATTCTCTGGCGCCGGGCGAACTACGCACCGGCCAGGGCGGGGTCGATGTCGGTACTGCCGATTACTTTACGCCGCCCGCCGTTGATCCAAATCAGGAATCACGTTTTTTAACTGACTTGATGCAAGATGACCAGCGCAGTACCACCGACAAAGCGTTGACGCTGCTCTATCACAATATGCGTCAGCAGCTTTTCTGGGACGGCAACAAGCGCACTGCAACCTTGGCGGCCAATAAGCTCATGATCGACCATGGTGCCGGGCTGATCAACGTGCCCTTGAATCTTTGGCCGCGGTGGAACGAACTGATCAGTGCGTATTATCAAAGTGCCGATATGACGGCAATCAAAGAATGGACATATGCCCACGCGATTCAAGGCGTGGCTTTAAACTAG
>SRR1151209_01703 hypothetical protein
ATGATTCCAGCAGCAGTAGTAAATAAGCGTCGACGACAAGGGCGGTGGGGGAGTGTCCTCGCCGCCTTTGCGGTGCTGTGGGGTTTATTCATGCTGGCGCGACCCGTACAGGCCGCCAGTTTGCCAACCGTGCGGCCGGCCAACGGCGTGGCGGATGCCGCGGAAGTGGTCACCGCGCAGACAGCGAAGCAGCTGACGCAGACGAATGCCGCTTTGGCGAAACAGCCCAAGCAGCTGCAAATTCTCATCGTGACCGTGCCCCGGGACAAATCCTTGGTCAAGACTGAGAAATTTGTCCGGGCGCATTACTTAACCGACGGGACTTACCGCGTAGCGGTGTTGTACGCGCCTAATAACGGCCGGCCGGCGGCGCAGATCGTGACCAGCCATACCCTCAGTACGACCTTAACGAAGGCCATTACCGACCGTATCTTGACGGAAGCCGCGCCCAAGCTGCGCAGTCGCAAGAGCGCGGCCCTGAATGCGGGGTTTGCCCAAATGATTACGGCTCTGCAGTCCGTTATGAATAAACTGTACCATTATCCGCAGGCCGCCGACGCCCTGAGCGATAAGCAGATCCAGAACTATGTGTACGGCAATCGGGATAATTTGTTTACCCCCAAGGGGATGCTGATGGTGCTGGCCGTGATGGGCGTGCTGTTCCTCTTCCCCGGCCGGCGGCGCGATGCCAGCGGACGCTTGCGGCCATGGTGGCAGGGCAGTCATTTGGTGGATGAGCACCCGGAGGATGAAGACGATGATGAGACGGAAAAAGACGAGGATAAAGATCCGCACAAGACTAAGGAGTGA
>SRR1151209_01704 LemA family protein
ATGCAAAATGGGAGTACTGATAACAAACCGCGCCGCAGTTATCTGCCGTGGCTGATCGTCTTGGCCGTGATCGTTGTATTGGGTATCTTTGGGATTTCCACGTACAACGGGTTGGCCAAACAAAGTCAGTCCGTGGATAGCCAGTGGGCCAACGTGGAGACTGTCATGCAGCGCCGGGCCGATTTGATTCCTAATTTGGTCAGCGCGGTGAAAGGATCCATGAAGCAGGAACAGAAGGTCTTCGGGGATATTGCGGCTGCACGCAGCAATTATTCCAAGGCCAATTCGGCCTCGGATAAGATGAAGGCCAATGCCCAGATCGACCAGTCCGTGGGCACGTTGATTTCGGCCATTCACGAGAGCTATCCGCAACTGGAATCCAACAACAACGTCAAGACTTTGATGACGGAGCTGGAGGGCACTGAAAATCGGATCGCGGTGGAACGCCGGCGCTATAACACGGCGGTCCAGTCGTATAACACCAGTGTGGTGACCTTCCCGCGGAATGTGTTTGCCAACATGACCGGCCAAGGCCAAAAGCCTTATTTCAAGGCTGAGACTGGAGCGGACAAGGCGCCTAAGGTGGATCTGGATGATTCCAGCAGCAGTAGTAAATAA
>SRR1151209_01705 tryptophanyl-tRNA synthetase
ATGGCAAAACACATTTTACTGACCGGTGACCGGCCCACCGGCAAATTACATTTAGGCCACTACCTCGGATCGCTGAAGAACCGGGTGGCGATGCAGAATTCCGGCGATTACGAATCCTTCGTAATGATCGCCGATATGCAGGCGCTGACGGATAACGCCAATGACCCGCAAAAAGTCCATGATTCCCTCTTGCAGGTTGCGTTGGACTATTTAGCCGTTGGCTTGGACCCGGAGAAGACCACGATTTTTGTGCAATCCCAAGTCCCCGCCTTGTCTGAACTGACGATGTATTACTTGGATCTGGTCAACCTCGGCCGATTGGAACGCAATCCCACCGTCAAGACCGAGATCAAGCAGAAGAACTTCGGCGACGGTGTACCCGCCGGCTTTCTCATCTATCCGGTCAGCCAAGCGGCCGACATTACGGCCTTCAAGGCGGACACGGTGCCCGTCGGCGACGATCAGGAACCGATGCTGGAGCAGGCCCGGGAGATTGTTCGGACGTTCAACCGGACTTACAATCACGATGTCCTGGTTGAACCCAAGGGCGTCTTCGCGCCCAAGGGCCAAGGCCGCCTGCCTGGTCTGGACGGTAATGCCAAGATGAGTAAATCGCTGGGCAACGCCATCTACCTGTCCGATGACGCGGACACGATGAAGCAAAAAGTCATGCAGATGTACACCGACCCGAACCACATCCACGTGGAAGATCCAGGCCAAGTTGAAGGCAACACGGTCTTTACCTATTTAGATGCGTTCGATCCGGATACAGCCAAAGTCGCGGAACTCAAGGCCCAATATCAGCAAGGCGGTCTGGGCGATGTGAAGCTCAAGCGGTACTTGAACGATGTCTTGGAGAGTGTCTTCGGTCCGATTCGCGACCGCCGTGCCCAATACGCCAAGGATCCCGCCGCTGTTTTAGCAATGTTGAAAAAAGGCTCTGACCACGCCCGGGCAGTGGCCGACCAAACCCTGCAAGAAGTTCGGGACGCCATCGGTCTGAACTACTTCACCCATTATTAA
>SRR1151209_01706 S-adenosyl-l-methionine hydroxide adenosyltransferase family protein
TTGGCTCATTTAGTTTTACAAACAGATTTCGGCCTGATGGATGGTTCCGTCAGCGCCATGTACGGCATCGCGTATTCCGTCGGCCCGCAGCTGGCGGTACACGATTTGACCCACAACATCCCGCCCTATGATATTTTCTCAGCGTCCTACCGGCTCTACCAAACGGTCCGATTCTGGCCGGAGAGCACGGTCTTTGTGTCGGTCGTTGATCCCGGCGTCAGCAATGACCAGCAGCCCATCGCGGTAGAAACCATGGACAACAAGTTCATCGTCACCCCGGATAACGGCACGATCACCCACTTGGCCCATTACCAGGGGTTGCGGGCGGCGCGTTTAATTCAGACCCCGACCAGCCAAGCGCTGGCTGCCTTCAACGAGGAGCATACCTTCCGGGGCCGGGATCTCTATACGTATATCGGGGCGGCGCTGGCCAGCGGCCAGCTGCGCTTCGAGGACGTCGGCCCGCTGACCACGCCGGATCAGCTGGTCCGGCTGGCCCTGGCGCCGGTGACCACCGGCCCGGACCAGGTTACGGGTGCGGTAGACATCACCGACCCGCGCTTTGGCTCGGTTTGGACAAATATTCCGGTGACAGCGTTCAATAAGCTGGGCGTCAAGACCGGCGATACCGTCAAAGTGTCGATTAACTACCACGATCAGCTGCGCTACCAGAACACGATGCGCTACACCCGCTCCTTTGCGTCCGTGGTGGTCGGCGAACCGCTGGTGTACGTCAATTCGCTGCTGAATCTGGGGATTGCGATCAATCAGGCATCGTTTGCGGATCTTTATCACATTCAAGCGGGTATTGATTGGGTCGTGACGATGAATCCGACCCAGCCCCAGACGTTTCCGGGGGCGTAA
>SRR1151209_01707 ATP-dependent DNA helicase
TTGTTAGATACAGAACGCCAACAGGAACAAGCCCGGGTCGACCGGGTGTCCCAGATTATCGCGCAGCAGCTGGCCGCCGCCCAGGCGGAACTGGCCAGTGCCAAGGCCGAGACCCGGCGCTTGGATGAGAACTACGGTGAAAACACCAAGGTCAACACCTTCGAAGTCGATGACCGGATGGAAACCAACGCGGCCGTGCAGCAGCAGAAAAACATGATCGCCGGGCAGATGGAAAGTGAGCGCATCCTGCAAGATACTGAGAAGCGGCTGACGCTTTTGTCAGCATCGCCCTATTTTGGCCGCATCGACATCGCCGAAGACGGCGACCAGAATACTCTGTATATCGGCACCGCCACCTTAATGGATGGCGACGATCATTTCCTCGTCTACGATTGGCGGGCCCCGATCAGCGCCCTCTACTATAATGGCACGCTGGGACCGGCCACCTACGATGCCCCCATGGGCCGCCAGCGGGTGGATCTGACCCGTAAGCGCCAGTTTCAAATTGAAGACGGCCACATCGAGAACATGTTCGACACCAACGAAACCGTCGGCGATTCCGTTCTCCAGCACGTCCTCGGCCAGCAAACGGACGAGTACATGCGCAACATCGTTTCCACGATTCAAAAAGCGCAGAACGACATTATCCGCAACACCGACGCCGACCTCCTGCTGGTACAGGGCGTGGCCGGTTCCGGCAAGACCAGCGCGATCCTCCAGCGGGTCGCGTATCTGCTCTACCACGCCCGCAACCAGCTGGATTCGGATCAAATGATCCTGTTCTCGCCCAACCGGCTGTTTTCCAGCTACATTTCTAAAGTCCTGCCCAGCCTGGGCGAAAAGAACATGCGTCAGGTCACGCTGGCGGAGTTCCTCGGCCAGCGCTTCGAAGGATTGCATGTCGAATCCCTCTTTGAGCGTTTCGAAACAGATATGACCAGTTTGCCGGAGACCGCCCAGAGCATGCGCCGATACAAAGAAAGTCCGGCCTTCATGACCGCGGTGCGCCAGTATCTCCAGACCACTCCGCCGGAGACACTGCAATTCACGCCGATCAACTTTAACGGGGAGATCTTCTTCAGTCAGGCAGAGATCCAGCGGATCTTCATGAAACTGCCCGCCCAGATGCGCTTGGCCGATAAGTTCCTGCGAACCAAGAATATTCTGATCACCCGCTTGAAGAAACGGCTGCGCCGGTTAGCCCGGGAGGAAGAAATTGAAGACGAGGTATCGCTCCTGGATGATGCGACCCTGGCCGCGTGGACTCGGGATAAGGAATTTGCGTCGCCGGATGACGAGCTGCATTTTCTCGCCCGCAAGTTGGTCTTCCGCCGGTACGAGCCGGTGTATGATGCCATTTACAACAATTACTTCCTCGATATTTACCAACAGTACGCGGCCTTTCTCGCCACCGCCCGGCCGGCGGCAATTGCTCCCAAGGTGTGGACGGAAATGATCACCGAATTCGGCCACAGTATTGAACGGCATGTCCTGCCCCTGAGCGATGCCGCCCCGCTGCTTTACCTGCGGGATCTGCTCACCGGCGGCGGGCAAAACCACAGCATCCGCTATCTCTTCATTGATGAGATGCAGGACTATTCCCTGGCCCAGATCAGCTACCTGCGCCACGCCTTCCCCAAGGCCCACTTCACACTGCTGGGCGATCGGGATCAGGACGTGTTCAGCGCTCACTATGAGGCCGCCGACCGGCTGGCGGCAGTCCGGCAGATGTTCCGCGGCGGCCGGATCAGTGCCCACACGCTGAACAAGAGCTACCGCTCCACGGAAGAAATTACCAATCTGGCGAAGGCCCTGCTGCCCGACGGCAGCGACATCACCGCCTTCGCCCGCTCCGGGGAGAAACCGACTTACATTGTTTGTCCCCACACTGAAGCCATTGCGGCCGTGTCCCGGGAAGCCACCGCGCTGCTCCGGCACAACAAGACCGTGGCTATTTTAACGAAAACGGCGCAGGAGGCCGAATCCTTGTACGCCCGCTTATCCAGCGAAGTACCGGTTAAGCTCATGAGCGAACATGACCGGTCTCTGGCCGCCGGTATTCTGATCCTGCCGATTTACTTGGCGAAGGGCTTGGAATTCGATGCGGTCATTGCCTATGATATTTCGGCCTACAACTTCGGCGATCGCGGCACAGCTGATGTCTTGTACACGATTTGTTCCCGGGCAATGCATAATTTAGTGCTGATTGGCATCGACCGGCCATCGCCGCTATTGCAAAACGTACCGGCGGCGCTGTTCCATTATCAAGATCTGCGGCCGACTCCAGCGGCGATCTAA
>SRR1151209_01708 hypothetical protein
ATGATGATTCATCATGCGAAACAGCTCACAGCAACAGTATTAAGCAGTGCCGCATTATTGTTGATCCTGTCACCGGTCACCGTTGGCGCCGCCGATACGACTGGGGCCGCGGCTGGCGGCGTCGGGCCAGGCGATAGCGGCTATAACTTGAGCGCCGATACCACCGTCACCGCGACGGCGAATTACTTTGCCGCGACGACAACTGCTGGCGCGGTGGCCAAGTCCACCGCGGAGTTCTCCGTCTTGGGCGGCGCCTTAGAGCTGACCGCAGTGCCGGATTTGAGCTTCGGTCAAGTCAATGCCGGGACGATCCTCAACGGCGGCGATCAGAAATTAACGAATAACACCGTCACGACTCCCAGCGACACCGCGAAGGTCACGTCGAAGAACTTCAGTGCCAACGACGGCAATAGCGGCGGCGCACTGGTCGTTGACGACCTGCGGGGCACCGGTGCGGGCTGGAACCTGACGACGCAGCTGGGCGCATCGTTCACCGCCCCGGATGCCGCCCCGCTTACCGGCATCACACTTTCCTTGAACGCGCCAGCCACAGCACAAATCGGCAACGCAGATACCCTCAAGCTGGCCGCCACCGGGATTGGCACTGAGGCCGCCAAAGTAGTCACGGCGCCCAGCGGCTTCGGCATCGGCCGGACCAGCTGGAGTTTGACAGGACCGGACGCCGCGGGACTGCACTTTGCTCCCCAAAGCGTGAACGTCCCGGCCAACGCCATTTACCAAACCGACATCACGTGGACGCTGAGTACAGGCGCCTAA
>SRR1151209_01709 cell surface protein
ATGAGACGACCCAACGGGTTATTGCTTCTACTACTTTTTATTTTACTCGGCACTGGCGGCCCAATCGTCCAAGCGGCCGCGCCGCCAGCGGGGGCGGAATTTTACATTGCGCCAATCTACCCGCGCAACCAGACGAATCTGAAATTGGGCTATTTTGCCTTGAAAGTGACCCCAGGCCAGTCGGCTACCCTCAGCGTCCAGGTGCAAAACATCAGCAAAACCAGCACCCGCACGATTCGGGTCAGTCCTACGCCGGCGACCACCAGCAGCAGTGCGGAGATCAACTACACGCCCACGGGCAAGCCCAAAGACCCCACCGCCCAATACACGCTGAACCAGCTCTTCTCCCGCCCCGCAACCGTCACCCTCAAACCGGGGGAAGGCAAGGTCGTCACGTTCCAATATATCATTCCCAAAGACGGCCTCACTGGCCAAATCCTGGGCAGCATCTATGCCCTAGACGAAACAAGGGCCGCCGACAGCGGCACCCAATTCGCCCTGCAAAACCATTTTGCCATGGCCATCGGCGTGCTCTTGGCCCAGGACCCCGCCGCCCAGCAGCCGGTGACCTTGACCCTGCGTACCGTGAAACCGGGGATCACCAACCACGTCCCGACCATTCTAGCCAATGTTGAAAACCAAACCGCCCAACTTTTTCGGGGGATGACCGCCACAGCGACGGTGACCAGATCCGGCAGTGACCGGGTATTGTATACGAAAAAAATCATCAACGGGGCCATGGCTCCCAATAGCAATTTTGATTTGACCATTCCTGCCGACACGCACTTGACACCGGGGCCGTACACCCTCATCCTCACCGCCAGCGCCATGGGCCAGGTCTTCCATTTGCGTCGTAATTTCACCGTATCCGCAGCGGCTGCCCAACAGCTCACCGTGGCCCAACCCGCCCGGACCAACGCGTGGGCCGCCTGGCTGACCGCCATCGCCGCCATTTTGGGCGCGATGATCATTTTTTGGATCGGCCTATTAGCGAGAAATAGAAAGGGGAGCGATCATTATGCGCCAAAACACGGTTAA
>SRR1151209_01710 hypothetical protein
ATGCGCCAAAACACGGTTAAAACAGTTGGCAGTCTGGTGGCCAGTGCCGCCTTGTGGTTTTTGCTGGCTGATCCGGCCCGCGCCGACCAAAGCACGGTCCAGTTCACCGTGGTCAATAGTCCAACCGGCCAAAAGATACCGCCCGCTGGCAATAACGCACCACCCGGCTGGCAGACCGTTACGCCGGCCGGCAGGCTGACACCGGGTGATACCCCGCCGGGCCGCTTTCCCCAGACCGGGGAGCAGATCGATCCGTGGCTGCTGATTATCGGCGGAGAATTGGTCATGCTCAGCGGATTGGGACTGATCACTCTGGCGCGAAAGCGGGGCGGCCATCATGCGTAG
>SRR1151209_01711 protein translocase subunit secA 2
ATGCGTAGAAAAGGATGGCGATGGCTTGCTGTTTGTTTGAGCCTGCTGGTGTTTATCCTGACCGCTGTCCCGGTGCAGGCAGCCGACCCGCCAGCCCCGACTCCGGAAAACCCCGTTAATGCCGATGGGTGGACATTCCAAATTCCATTGTTCAACGACTGGATCACGAATTATGGATTCCTTGCCCAGCCGAATGATGCCAACCTGGTACAAGGAGTTCCTTTACGGATCAGTATGCTTACCACGATGTCGTCAGGACTGTCATTGCTGGGTCATACAGGCGCTAAAAGTGTGAGCCGGGTGATCGTCCGCCAAGCACTCAACAGTATGATGTGGGTGACCAATCCCGGCCCCAAAATTACGTTGAGCCAGAACGAACCCAAGGAAACGATTACCGCTGATTTTGGGGTGGCCCAAACAGCGGGAATCAATTTCTATCAGTTCACGATCATCTACACCGATGGCACCCAAATCTATAGTCGCGTAGTCAAAGTATCCATTTCCCCAAAAGCAATTAGTGCAACAGCACTCAATCCGCAAACGACTACCCCAACCATTTTCTGGGGTCAAACCGCGGATATTACTCCTGGTCTCACCCCCGCCAACAGCACCGCTCAAATTGCCTGGACGATGCCCCCGGCGGTGGCAATCTGGGAACGATTATGCCCCCAATGGGACTGGCCACCCAGTATAATTCTGCGATCCCTGCTCTGA
>SRR1151209_01712 protein translocase subunit secA 2
ATGCCCCCAATGGGACTGGCCACCCAGTATAATTCTGCGATCCCTGCTCTGACTGATTCCCTGATCGCCAATAATCCTGCCGGTTTCCCAGTCAACATTTCAATCACCGCCAAGAATGCTGATGGTACGACGGTGCAAAACACTGCCACCATCACTGTCGGCGGTTTAACGCCGCAAGCCGTCGTGGCCCGAGAAAATTTCACTTACTCGCCGGCTGCTCTCAATCCTGCGACCTTTCCCGCCGGGATGACACCCAGCTACCAGTGGACCGTGATGGACAGTAATTATCAACCCGTTACGCCTGCTGGCGCAGTGACCAACCAGGCCACCTTCTCCTGGACCAAGGTGCCGAATAACGCTGCCACTTACTATTTCTTACAGCTGACAATCACCTTCACCGATGGCGGCGGCCATACACTGAAATGGCAGTCGAATGACACCATCCTCCAAGTCGTCGACCCGCCGCCCTATCTGCGGGCCGTCCCCAATATGCGTTTCCAATTATTCCGCGACAACGCCTACACGCTGCCGACAGCGGAGGACTTGAACGCCGCTGGCGGTACCACCCTAGCTTATCAACCCGACACTGGTCAGCCGACCAATACTTTTGATGGCAAAAATCAGGGATTCATCCGCGTCGACGGGGATCACTGGACCCTGTCATTGGCTGCCAGTCCGTTCACCAACCGCACCACCGGCGATGTCCTCACCGTTACGCCCACATTGCACTTGGTCTGGGCTAACGGTCAGGCAGCGGTGCCGGTGGACGGCACGAATACGGTTTTGGTGCACAACCAAACTGATAACTTTGCGGCCACCCTCAGCACCGATTCCACGCTGTATATTCCCCAAACTGCCCAGGTGCCCGGCGGCACGTATCAGTCCCAGCTCACCTGGACCGTGACCATCGCCCCATGA
>SRR1151209_01713 hypothetical protein
ATGGACGAGACGACACAACGCGCGGGTCAGTCGTGGACCCAATTCTTGATTATTGGCATTTTATATGGCGGTTTGCTGTGGTACCAGTTCCAGTACGTTTTGGTGAAAAAAGTGACCATGCCGGCGCTGGCCATTTTCGTCGGTGCCGCCGTGATTTTGGCAATCATTGCCCTCGCCTGGACCCATCATGTCCCAGCGGCGGGCGGCGCCCCATTCTTTGCCAGCCGCGTCTATTGGCCGATGATCGGCGTGCTGCTGGTGATTACAGCGGTCCGCTTCGGCGCCGCGTATCTTCATTTCCAATCGGATTTTCCAGTCCTGCCGGTCCAACGGGTACTGCGGAACATGAGCGTCAACAACCGGGCCATCTTCAGCGCCGCCTTCGTGTTCGTCGTGCCCCTGGTGGAACAAACGCTGTTCACTCGGCTTTGGTTCAACGCCCTGTGGACTAAACGCCATTATGCGCTGCTGACGATTGCCATCCTTTTGGGCGGCCTCATCCAAGGCGTGCTGGTTTCTCCGGAAGCCGTCATCGGCACTGTTGTAGCCATCGGGATCGGCTGGTTCATTTCGTTTCTTGGCGGCATCACCCAGAATTTCTGGGCCGCAGTCGTTGTCCAAGCAGTGAGCAATTTCCTGCTGGTGTTTATTTATTAA
>SRR1151209_01714 oligopeptide ABC transporter substrate-binding protein
ATGAAATTTTCAAAGATTCTCGGTATTATTTCGATCAGCGCAGCGGCAGTCTTGCTCGCGGCGTGCGGCCAAAGTGCCACCGGCAAAAACGGCAGTGCAGGCACTGCGAGCCAAGTCGCGACGATTCAGACCAGTTCAGAAATTCAAACTCTGGACCCGGCCCAAGCCACTGACGGCGACAGCTTGACGGCAATTTCCAGCAACAATGAAGGCTTGTACCGCTTGGACAAGGACAGCAATCCGATTCCGGGCATCGCCAGTAAGGTAGTGACGCCGACGGATGATGGCAAAAAATACGTGATCCCGCTGCGCCATGACGCCAAGTGGGCTAACGGTGATCCTGTCACCGCCCAAGACTTTGTCTATGCCTGGCGGCGGGTCTTGACCCCCAGCACAAAAGCATCCTATGCTTACTTATTGGACGGCATTCAAAACGCCGCCGCGATCCGCAACGGCAAGGCCGATCCCAGCACCTTAGGGGTCAAGGCGGTGGACAAGTATACCCTGCAGATCGACATGGCCGTCGCCGTGCCGTACCTGCGCGTCCTGTTCGCTTTTCCGACTTTCTTCCCGGTCAATCAACAATTCGTCGAGAAGCAAAACGGCAAATTCGGTACCTCGGCGGATACGATCCTGGCGAACGGACCGTTTGTCCTGAAGAATTGGAACGGCACGGGCCAGAGCTGGCATTTACTGAAGAATAAGACTTATTGGGACGCCAAGACGGTCAAACTGACCCGGCTGAACTTCCAAGTGGTCAAGGAAACGGCCACGGCGTATAACCTGTTCACTTCCGGCAAGCTGGACGACATCACCCTGACTGGAGATTACGCCCAAAATAATCAAAACAACAAAGATGCCGTTGCCCGGCGCGGTTCGTCCATCCGCTATCTGCAGGTGAACACGAAGACCAAGGGCTTGGCTAATGCCGATGTCCGCAATGCAATTTCCCAAGTGATCGACCGCAAGAACCTCGCCAATAAGGTCTTGGGCGATGGCAGTGTACCGCCTCTGGGCATGATTCCCCAGGGCATGTACCAAGACCCTGTCACCAAGAAGGACTTTGCCCAGGAAGCCGGCAACCTCGCGCCAACGAATGTGAAGAAGGGCAAGGCCCTCTGGAATTCCGTGAAGGAGAAAGTTGGCGGCAAGCTGAGCATTCGCCTGCTGACAGAGGACGATGATGACGCCAAGGCCATTGCGGAGTTCATTCAGGGGCAAATTGAAAACAACCTGTCCGGCATTTCCGTTACCCTCACCACGATGCCCCAAAAGGCAGCAGATGCGGCGGCACAGCAGGGCAATTTCGACCTGTATTTGAAGAACTGGGGCGCCGATTATCCGGACCCGACCACGTTCCTGGACCTGTTCAAGGGTAATTCCAGTTTCAACTGGACCAACTGGCACGACAGCCAGTACGACACCGCGCTGGCTGCTGCTGAAGGCGCCGACGCCGGCGACCCGGTCAAGCGGACCAAGGATCTGCAGGCGGCGCATACGCGGCTGATGGCCGAAAAGCCGGTCATCCCGCTTTTCCAGCGCTATGTCCTGCACTTGAATAATCCCAAGGTGAAGGGCATCGTGTACTTCCCGACCAGCTACCATTTTGACTATAAATATACCTACGTGACCAAATAG
>SRR1151209_01715 hypothetical protein
ATGACCCAAGTCGAAGTTGAACAATTATTGGCCTGTGTTAGCCAGGCCATGCCGATTTGGCGGACCTACCGCGCCCATCCAGAGCACGCCAAGTTTTATCGGGACACGGCCGGCGAGCCAGTCGGCCTCCTGGTGTTCACCACTAATGCGTTTCATCCCCACGCCCTGGGGATGGCCGTTTACGCCCCCGCGGCCGACTTGTTTCCCCAGATTTTAGCCGATGCCCAAAAAGAAGTCCACCGCCAGCACAAAGACCGGCTGGTCACTTGGGAGTACCGGCCGTTCAGTGCCTTCACCGATTGGCTCCTGGCCCAACAGGGATTCGCCGTGTGGCGGGAAACAGTAATGCCCACGGTGCAGTTGGCCGACATCACGGTATCGGTTGCGCCGAGCGCTGACTTATTGACCTTGGCGGACATTCAAGCTGATCCAGAAATACGCACGCAATTACTCGCCATGAGCTTGGCGGATTACCGCCGCGTCCACGCCATCAACCCAATGGCGGACACGACGCCCCAACAGTGGGCGCAGACCGTCTTCCCCGATGTACTGCCCAGTGCGCCGCTGGCGCTGGTCCGCCAAAACCGCGTTGCCGCATATACCTTTCCCTTCGAAGACGATCCAGGCATATTGACCTTCGGCTGGCTGGGAGCGGTCCGCGCTGCCGATCTCTGGCCGCTGCAAGCCGCCCAGATCTGCTGGGCCCGTCAGCAGGGGATGACCGGCCTGAGCGGCGAGTTCGACAGCACCGATCCGCTGGCGCTGGCCACGTATCGCCATTGGCCGTTTACCCCCGCGCCGGACTACACGATGGTGGGAAAAAACATAACGCTTGACGGACTTACTTTTACCCAGTAG
>SRR1151209_01716 cyanate permease
ATGACGAATCACGCAGTTTCAAAACGAACCGGCAGTACGTTGTTTTTTCTGCTGGTCATTCTCATTGGGGCTAATTTGCGAACGGTACTCACCACCGTCCCGCCAATTTTGACCAATATTCAACGTTCTTTCCAAATGCCCAGCTGGTTTCTGGGCAGTCTGACGACGATTCCGCTGATATGTTTCGCCCTGGTGTCGCCGCTGATGAATGGGTTGACGAAGAAATTCGGCGTCATGCCGGTGGTGATCACGGCGCTGATTATTTTATCGGTCAGTTCTTTGTTCCGGGTGTATTCATTTCCATTTCTGCTGTTGGGGACTTTACTGATTGGCTGTGCCATTGCTGTGCTGAATGTGCTGTCGCCAGTATTGGTGGCGGCCCTGTACCCCAATAAAATCGGGATGATGTCCAGTGCATATCTGCTATCGTCCACAATTTTTTCCGCCGCCTCGGCCGGGTTCAGCGCGCCCTTAGCCAACATCTTGGGCTGGCCGGTGACGCTGCAAGTATTGACCGTCTTTCCAGTAGTGACACTGATCGTGGCCATTGCGGTGCGTCTGCTGCCCGGCAGTCAGCAAGCTCTGGCGGCACCCGCGCCGCTACCCGCTCAAACGCCGCCGGCTAAGCCCCAACAACCCGTGTGGCGGCAACCGCTGGCCTGGGCCTTGACCGGGTTCATGGGCTTGCAGTCTTTGCTGTTTTACACCATCCTGACGTGGCTGCCGACGATTCTGATGAGTCACGGCTTTTCCCAAAGCAACGCCAGTTTGCTGCTCGGTTTGCTGCAATTGGCCGCCGTTCCGATGGCTTACATATTCCCGAACTTGGCCGGCCGGCAGACTCGCCAGGCACCGCTGATCTGGGCCATTGGCCTGCTGTTCCTGCTCGGTTTAGGCGGGCTCATGCTGCCAGCGCTGCCGTTAGCCGCGGCCCTGGTGGTCTGCATCCTGCTGGGCTTTGCGACTAACGCCGCCTTCACCATGGCCATGTCGCTGTTTTCACTGAAGACCAAGACTCCCCAGGAAACGGCTGCCGTTTCCGGCATGGCCCAGGCCATTGGTTATTTGGTGGCCGCTGGCGGGCCGATGCTGGCGGGCTTTCTCCACAGTGTCTGGGGCAGTTGGGCGCCAGTGATGCTCGTGCTGCTCGTAGTTGCCGCCATCCAGACGTATTGCGGGCTGCTGGTGGACCGGCAAGAAAGTGTGTTTGAATGA
>SRR1151209_01717 hypothetical protein
ATGAGTCTCGAAGACAAGATCAAAGGCAAGAAGGATCAAGTAACTGGCAAGGCTAAAGAAGTCGAAGGTAAAGTAACTGGCGATAAAGCACGTGAAACCCAAGGCAAGGCTGAAGGATTGCTCGGCAAGGCTAAAGAAAAGCTGGGCGATGCGAAGGACTCGGTACGGGATGCAGTTGATGATGCGAAGGATAAGCTCCACAAGGATAAGTAA
>SRR1151209_01718 hypothetical protein
ATGGCTAACCAAAAAACAAATCACCCCAAAGCAGACGACCGCACAGGGACGGTGGACACCATCGCCCAAGCGGAACAACTGCTGCAAGAAGCCACAGTCATGGAATTTGCCACACTGGATAAGCGCGGCTTTCCTAATATCGTCGCCCTCACCCCGCTCAGACCGCAGCGCTCAGTGAAGCAGGTCCTGTTTTACACCGATCGGGACACGACCACCATACATAACATTGTGGAATCCGGCAAAGCTAGTATCTATTGCTTCAACGAACGGCACCATTGCTCCGTCGCGCTGCAAGGCTACGCCGGCTTGGTCAGCCGCAGTGAGGTGCAGAAGAGTTTTATGGCCGATCTGACCGCTTATCAGCAAAGTTTGCACTACGCGAACCCCGTGTTCCTGCGGTTTACCACGATTTTTGTCAAGGTCCGGTATCAGGATAATGTGACCTTCCAGAAGTTGTTGGACCATGAATAA
>SRR1151209_01719 phage lysin, N-acetylmuramoyl-L-alanineamidase
ATGACCGTTAATATGGATCGCGCATTGGCCTTTATGGAGGCACTTCAGGCCAACCACGTAACTTACAGCATGACCGGCAGCCGCACGGGGGCAGACGGCACTGCCGACTGTTCTGGGGCTGTATACACCGCGTTGTGTGCCGGCGGTGCACCGGTTGCGGACACTGTCCTGGATACGGAAACGATGCACGGCTGGTTGTTGACCAGCGGCTTTGTTCTGCTGGCTGAAAATATGCGTTGGCCCGCTCAACGCGGTGATGTCTTTATTTGGGGCGAACATGGGAAATCAGCCGGCGCTGGTGGACATACTGGTATTTTCATCACTGATCACGATATTATTCACTGCAATTATTCCCACAATGGGGTATCCGTTAACAATTATGGGCAATATTGGAATACCGCGAATCGGCCGTATTATTACGCGTACAGATACTCAGGCAGCTAA
>SRR1151209_01720 hypothetical protein
ATGCAAAAATCAAGTCTTTCCATTGATGAAGTAACCCAATACCTTAATACCTTAGGGCTTGGTGCTGTGGATGGTGACGCATTACATCAGTTTGCTTTAAAAAAGCTTGCTAATGCCAAGGAAATCGTTTCTCGCCGGAATGTAAACCACCATGTTGTTGGAGCTTTCCATTCTGACACCCCATGA
>SRR1151209_01721 hypothetical protein
TTGAAAAGTCAAGAATACGCTTTTCCAGATAAATCGGTTTTGGTGAACCACGTATACAGCCGGTTAGATAATCCAACGCTTGTAAAAGTTCAGAAGAGCCTCTATTTGTTATGGGCCTATTACAGTGCCACCTATGGAACACTTTACCCCTGTGGCGATGTGGACATTGAATATCCAAAGGCACTTTTCAAACCAGACTTTCGGGCTTGGCGGTATGGTCCCGTGGACGAGACGGTATATGCAGAACAGAAAAGTGAAAGCTTTTCTAAAGAGACTGCTAAAGAATATATTCCTAGTAAACCATGGGACACTGAAGTCATCAGCTTTGTAAATGACTTGCTTAAAGATACCAACAAGGTAAATGACTTTGGATTGGTAGCACGAACGCATCAGGATAAGTCTTGGTCAAGCGTCTATAAAGAGGGGGAACGTTATATAGCTATCGATCCAAAGGAAATTAAGAGCGAATACATTAACAAGATTAAAGAAGCAAGTGTCGTCTAG
>SRR1151209_01722 phage lysin, N-acetylmuramoyl-L-alanineamidase
ATGTCGTTCAGCATTGATGCCGCAATCAATTACATGTATCAGCTGCAAAAGGCTGGGGTCACGTACTCAATGGATGGCAGTCGCGTTGGCACAGATGGCACAGCTGACTGCTCAGGCGCTGTTTATGCATCCTTGCGAGCAGGTGGAATGCCTAGCGCTGGCTATGTGTTAAACACCGAATCCATGCACAATTGGCTGTTAGCTAACGGCTGGAAGCGGGTAGCCGACAACAGCGGATGGAATGCCCAACGCGGCGACGTGTTTATCTGGGGCAAGATTGGCGATTCTAGTGGTGCTGGTGGGCACACAGGTATCTTCATTGATCACGACAATATTATCCACTGTAATTACAGTCATAATGGCGTGAGCGTTAATAACCATGATGCTTACTGGGCCGCCGATGGCTGTCCATATTTTTATGCGTATCGGTATGCCGGTGCGCAAGAAGCAGATCAAGGAGATGATAACGATATGGATTTGAGCAAATTGACTAGCTTGGCGCCAGTCACTGCATACGGTGTGGCCTGGATCACCAACCCCAACGGGGCCGCCTTGTGGGATAACTCTGGCAAGGTGCTTAAACACCTGCCTTACGGAACATCTTGGGTCGTCGAAGACGTCAACAAAGGTCGGCTTAACGTGGGCGGCTGGATCGACCCGGCAGACGCGGTAGTCAAGATCAACAAGGGCGCCGCGGGCGACTGGTCAGGCACCGTGGTCCGAGTGACTTCTGACGGTGCATACACGCAAGCTCAGCCCAAGCCTAATCAAGCAGGTGTCCAGTATTTGCCCAAAGGCAGTCGCTGGAAGGTTGTTGATGTAAGCAAGGACGGGAATTACGTCAATATCGGCGGGTACGTTGATGCCAACAAAGTGAACATCGAACTGTAA
>SRR1151209_01723 holin
ATGAAGATTAATTGGAAAGTACGTTTTTTGAGCGTTAAGTTTTGGCTGGCCTTGGTGCCAGCTATTTTATTGGTCGTGCAAGCGGTCGCTGCGGTGTTTGGCTATAACTGGGACTTTGCGAGCCTCGGAAAAGAGCTGACTGGTGTGATCAATGCAGTATTCGCCGTGCTGGCTATTCTTGGGGTAGTAACTGACCCTACGACAGCTGGTGTTGCCGACAGTGCCCAGGCACTCACTTACAGCAAACCAGCTAAGGATACCGTGCCTGATCCGGTACCGGCTGAACCGCTGCAAGCTAATGGGCAGGGCCAGCTGGTCAAGGATACTCTGCCAGACGGCTCTGCCGCGGACACCACTACGAATGGAGCTGACAGTAATGTCGTTCAGCATTGA
>SRR1151209_01724 hypothetical protein
ATGCACATTATTTTAGGTCTGTCGATTGCTGAATGGGCAGAAACACTGACTGCCCTCGGGGTGCTGGTGAGTGCTGGCAGCTGGCTGTTTAAGAAAATTGCTCTGGACCCGCTGCGTGAGGACATTCAGCGCTTGTCCGAGCAGATTGGGCAACAGCTCAAGGTCCACGAACAAACACTTGCGTCGATCAACGGGCGTATTAAGGAACATGACAAAGAGCTCGGCAGCCACTCGGAACGAATTACCCGTCTGGAAGACCATGCAGGAATTAAGGAGGACAAAAATGAAGATTAA
>SRR1151209_01725 hypothetical protein
ATGGACAGATTTGTGTTGATGTATTACAAGATGGGGTTGTTCGATTTGCCAGCGATGCAGCTATTCGTACAAACGGGTGAAATCACCGCTGACCAGTATAAGCAAGCAACTGGCGAGGATTATGTGGCCCCGGCAGCATAG
>SRR1151209_01726 hypothetical protein
TTGGCAGAAACAGACACGTATAAACAGGTCTTTATGACCTATCCAGTTCAGCAGCAGGATGGCAACTTTTATCATATTGATTATGTCCCCCAATATGTACCAGTTGAGTACCCCAAGACGACTGACCCGATCCCATCCGAATTGCAAGGCAAAATCCCCAAATATGACTGGCAGACGAGTGAATGGATTGATTCTCAAATTGACCCAACCACTGCAGCCATTACAGCTCTGCAAGCAAACGCTGCACTGCTCATGGCCCAGTTTTCAATGATTAAAAGCACACTGACAGGATTGCAGAAGCAAGTTGCTTCATTAACTAATCCAGCAACAACCACTACTACTAAGGAGGCATAA
>SRR1151209_01727 serine/threonine-protein kinase PknD
ATGCCAATTTATTATGGTGGTAAAAAAGTCAAGTCGCTGTATTTTGGTGGCAAGAAGATTGCTAGTGCTTGGTATGGCGGAAAATGTGTGTACCAGGCATTAACGTTTTTACCCAACCCAACACAAGTGTGGCAGTGGCAGGCGCCAAGCGCTGTGCAATCGGTAGCTGTAGACAGCCAATTTAATGTTTATGCTAGCGATTACAGTAATAACGTTACCAAGCTGGACAGCACAGGCAAGCAAGTGTGGCAGTGGCAGGCGCCGGACATTGTGCGATCGGTCGCAGTAGACAGCGAATTTAATGTTTATTCCGGTGATTGGAGTAATTATGTTACCAAGCTAGACAGCACCGGTAAGCAACTGTGGCAGTGGACGGAACCGGCCGGTGTGGGCTCGGTGGCTGTAGATAACCAGTTAAACGTTTACGTTGGTGGTTATGGGCCTACCATTGTCACCAAGCTGGACAGCACAGGCAAGCAAGTGTGGCAGTGGCAGGCGCCAAGCGGTGTGCAATCGGTAGCTGTAGACAGCAAATTCAACGTTTATGCAGGTGATAGCAATTTCCATAGCAGCGGTGCCTGTGTTACCAAGCTGGACAGCAATGGCAATCAATTGTGGCAGTGGCAGTCCTCGGGCTCTGTGTTATCGGTCGCAGTAGACAGCAAATTTAATGTTTACGCTGGTGATGGCGATGGCGGCGTTACCAAGCTGGACAGCACAGGCAAGCAAGTGTGGCGGTTAAGGGTACCAGGTGATGTGAACTCGGTGGCTGTAGATAGCCAGTTTAATGTTTATGCCGGTGATACCAGTAATAACGTTACCAAGCTGGACAGCACAGGCAAGCAAGTGTGGCAGTGGAAGGCGTCAAGCGGTGTGCAATCGGTAGCTGTAGACAGCAAATTCAACGTTTATGCAGGTGATAGCAGTCTTCACATTACTAAGCTGAAGACGGCAAAGCAATAG
>SRR1151209_01728 hypothetical protein
ATGACGCTGCCAAACCTGACACTGACAATGGACAAGCGAACGAACAGCCAGCAGACGCTGCACCTGCGGCAAAGTGAGCGTGGTCTGAGTTTAACTGCTCAGCTGCTTGACTATGATGGTACGCCTTATGATTTGACTGGTATGCTGGTCAGATTCAAGGATGCTAAAGCCGGCGGGAAATCGGTATCTGATGACAATGTGACCGTTTCGACTGACCCGAAAACAGGTGTCATCACGTATCCAATTCACAGCCAAGTGTTTGCCGCAAACGGGATCGGCTGGTTTGAAATTTACAGCGATGCCGTGACGTTGATTGACAGCACACAGAACATCAAAATTGTGGTTGAAAAGGATATTCCTGCCGCAATCGATAACAGCGACTACATCAGCGGATTGTCTGGCCTTAAGGCTCAGCTGCAAGGCATCATCAATAGTGCCCAGCAGACACTAGATAATGCAGTTTCAGGCGCCAACACCGCTGCTAGTAATGCAAATCAAGCAGCGCAAGCAGCACAAGCATTGGCTAACGACATTCCTAATAATCCTAAGTATCGTGGGCCACAAGGAATTAAAGGCGACAAAGGGGACAAAGGCGACAAGGGTGATACTGGTGATACTGGCCCGGTTGGACCCGTTGGCCCTGTTGGCCCTGTTGGACCGGCTGGGAAAGACGGCAAAGACGGTACAGGCATACAAATCAAGGGTTCTGCTGATTCTGTCGATAAGCTGCCGACCACAGGTTACACAGCCGGAGACACCTATCTAGTAGCCGGCCACCTTTATATTTGGAAAGGCAATAGCTGGGCCGATGCTGGCGAATTACAAGGGCCGCAAGGAATTAAAGGCAATGATGGCGATACTGGTGCACAAGGACCTGTTGGTGCACAAGGCCCGCAAGGCCCCGCTGGTCCAAAAGGAGACAAAGGCGACACTGGCCCACAAGGAATTAAAGGTGATACTGGTCCAACTGGCCCACAGGGTCCACAAGGTCTGCAAGGACTAACTGGTCCAACTGGCCCAGCTGGCAAGGATGGCACGACACCAGATTTAACGCCATATCTCAAGACCGCTGACGCCGACAAAAAATACCAGACTGCGACGCAGGTGCAAGCAGTCGTGGATGCCAAGATTGTGTCTGTGGCTGATGATGCGACAGCCACCAGAAGCTCAGCTACAAATACTACTGCCCTCTATCTTGTTACGGAGGCGAGCTAA
>SRR1151209_01729 aggregation promoting factor
ATGGCGGACAATGCTGTAAGATTTCCGCTGATTTTTGAACATAGCTCAGATGACCAATCCACCCTTGGAATGGGGTACGTGGAGCACGTGATCAGCTGCCAAGTGGAATCGGTGTATGATCAATTTCCGCAAATGACACTGATTTGTGAATACACGCAGTTTAACGCCGACCGCTTGCTGAAAGATAGGACTTTAATGGCCGATGTGGGCGATGGCTGGAACAAGCAGATGTTCCGCATCAATTCGGTCGAAAGTGATTGGTCAGACAATCAGCGCGAAATGACGATTATTGCTACTCATGTGGCGAGCGATTTGTCTGGTAACGTGCTGACCGCCGATGTAAGCACGGCCAATGCTAGTCCTAGCCAAGTATGGTCAATGGTAGCGTCAAATTTAGCCGAGCCAACTGATGTAACGGTCAACAGCAGCATTACCGATGTGGCCATCGTGAATTGGAATGCCACTCAAATTGACCAGCTGAGCAGCATTCTCTTCGGTCGAGACGCTAAAAGCCCAACCTTTACGTCTCTTTATGATGCCGAGTGGTGGTTTGATAATTACCAATGGACGTTCGAGCATCACGTCGGGCGAGATACAGGAATTGTTATCAAGTATGGCCAGCACCTGAAGTCACTGCAGAACCAAGACACAATCGCTGGTGTATATACTGCTGTTCGGCCAATAAGCAAATATACGCCCGGCCAGACGGCTGGAACCGGTGATGACAGTAATGTCATTGCATTAGACGGTACAGCACTGATTCAGTACGCTGGCACTGGCGGTCTACCAGTCTATGACACACCATTCAAGGGTCAAATAGCAACAGGCAAGACACTGACCAATGGTTCACGATTTAAGATTTTTAGCTATGCCAAAAATGGTACAGTCAATGACCACACTTGGTATAACCTGGGCGGTAAGCAGTGGGTAGACGGCAACTATCTCAGCTTTGACAAAGGACAAACAGGACAGTTCCCCAGCACCGTGGGTAACAAGGCCACAGGCAAGGGCACGATTGCAGCTGGTCTGGCTGACAAACCAGGGGTAATTTCTAAATATGATGGTGTAATTACAGTCAATTACGTAGGCCCCGGCAAGGTAGCCATTTGGAATAGTCCATGGGTTAGCCGTCATGTGACGGGCAGTTATATGGCTAATGGGTCAGCGTGGAATGCTTATGGCAAAGCCACCGACGAATCAGGCCAGACTTGGTACAATCTGGGCGGTAATCAATGGGTCAGTGCTCAATATGTCGCGCTGGACAAAGCTAAAGACTATGCCTACCAAAAAGTACGTGGGATCGGCACAGCCAAGGTCGATAAAGGCAAGATTGCGTTGTGGAACCGGCCCAGCTTTAACGGCTCGATTGTCCGCATGATTAGTTCCGGCACTCGCTGGCAAATTTACGGTGAAGCATCTGGCGAAAACAACAACACATGGTATGACCTTGGTCGCAGCCAATGGATCGATGGTCAATACATGGATTTTTCGGCTGCCAACGCTGTAGAACCAAAGCCAGTAGGTGGCGACAGCAGCAGTAGTGACACGAGTAGCGACACATCCGACACAGTATGGAGTTACAATTCTCCGGGCGTGTGGAATACTCGTGTTAAGCAGTACACCACAGGCAATCAGGTCACGATTTATGGACAAGGTAGTGGCGGCGGTGCCACTTGGTACAACATCGGCCATAACGAATGGATTCAGGCGGATTATCTGACGTTTGGCAATAACACCGATGTTGATCCAAGTGGGTCCGCTGATGACATGACTGCCGAAGCCACCGAAGTCACGGTAACCCTGCCAGAAAAATACATTGCCGTACCGATGCCAAATGGTCAGCAGTATGAGCATCAGCGCATCGTCAATTTCGACGCAAGCCAGTACGGTATTACCACGGTGGACGATTTGCGATCCATTACACAGGCGTATATCCGGGACAATAACATTGGCAAACCACAAATCACGCTGACCATCGATTATGATGAGCTGCAAGGGCATTACAGCAATCTGGCAAGCGTCCGGCTGTATGACACAGTGACGGTATTTCTGCCTGAAATTGGATTAAACATCAAGGCCGAAGTCACTAATGTTATTTATGACACACTCTTGCAGCAGAACACCCAGGTGACCATTGGTAATCGTCCGCTAACAACGACAGATGATCTGGCGGCATGGGTCAAGAAGGCGGAAGACAAGGCTAGCACGGCGGCTCAGAAAAACAGTAAAGCCATGGATGACATGGACTTGGCTTGGAAAAGAGCGATCGACACGACCAATGCAGCGTTTAAGGCCGGTGATGCCAAGACTGCTGAGCAGCAGACAGAATGGGAAAACCAATTCAAGGAGACTATCGATCAAGACATCAACAGTTTCAAAGATTATGTTGGTGGGCAAGTCCAAAGCGCCAATGAATTAGCCAGCATCGTGCACTACAACAACAACGACGTCACTTTTTACAACGGCAGCGGCACACAAGTTGGTAGCCTAGGCGCTGGCGGTCTGGTTTATACCGACCCTAGCACGGGCAAGACGACTTCTGTTGTTGATGCTAATGGCAACATCGGAGCTAATTACATTGTCGGCAATTCGATCACGGGTACTGTGATTCACGGCGCAGAAATTGACGGCGGCACGATAGACGGAGTTGATTTTATTAGGAGCAAAAGTGGAGGCAGTTACGCTGTGATGTCTTATGCCAATGGATTTTCTATTAGCAATGGGTCAGGGACCAGCGCCCTAGGACCGACCTCATTAACAATTCAAGGAGAATCACTGCAGCTGATTGATGTCAAGAACTTACACTATTTACTACAAAAGAATGGGATGGATCATGGATAA
>SRR1151209_01730 hypothetical protein
TTGACAGCCATTGGCGGTATCACATGGAATGGGCAAAACAGCGCCGACCTAGGCCTAGCAATTACCTACGACAGCAGTCAGCTGGCTGGTGGGCTATTCTCATCGACGCTCACACAGATTGGCGGCCAGTCAGCGGCAGTTATCCAGGCCAACAACCGGTTTGATAACGTGTCCCAAGTGTTCAATTTAACGACCTATCGTCCAGTTCAGCAGTCTGATATTGCTCCGCTTCATCGAGCGGTTGAAGACTGGTTGTTTTCAGGCATCGATTTAAGCCGGTATCAAAGACTGGCGTTTGACGGTTACCCAGATTATTACTGGCGAGCCGTGCCAAGTGCCCTGACGCCGTTTGCGATTAACAAGGGGGTAATCACATTCTCGGTGACATTTAGCTGTTTGCCTTATGCCTATGAAACGGGAAGCGATAAATACCAACCAGTCAGCACCGGATCAGTAATTAACAACCCACGGCTGTATAGTGCGTTGCCACTATGGCATGTTAAGGGCACTGGCAATGGCAGCTTCGTGCTGAATGGCGTCACGTACAACTTCCTGGGGCTCAATGGCGACCTGTATGTTGATTCAGACACTGAAGAAGTTTACGACGCGGCTAACAACTATCAGCCTGGCATGGTACAGTTCGACAACTATGCGTTTCCAGTTCTCGCTACTGGCAAGAACACGTTTGGAACGATTACAAACATTACATTAGAGGTGATGCCAAGATGGCGGACAATGCTGTAA
>SRR1151209_01731 hypothetical protein
ATGACACAACAAATTAATGCGACAATGTCCACATCAATTGCCCTGGACCTGGTCAAAGCATCTGAATCGGTTAAGAGCCTGACCAGTCTAGTTCGTTCGTCACAATCGGCATGGAAGGCCCAAGAAGCCGAAATGAAGTCTGCTGGTGATGCCGCTGGTGCGGCCCAAGCCAAATATGAAGGACTGGGCAAATCTATTGAGGGTCAGCAAGCCAAGATTGACGCTCTAAAAGCTAAGCAAAGCGAACTCAAGGGTAATACTAGTGAAACAGCTCAACAGTTTTTAAAGTATCAGCAACAAATTGATGGTGCCACTAAGCAACTGGCCAGCATGCAAGCCCAGCAAGAGCGAGCCAAGGCAGCAATGGACTATCAAAAGTCTGGATTAGCCGGCTTACAGCAAGAGTACACAGCGGCTGCACGGGCAAATCAAGCCTATGTGACTCGCTTAGAGGCTGAAGGCAATCAGCAAGAAGCTAATAAGGCCAAAATGGAAGGCTATAAGTCCTCCATTACCAATCTGAATGAGCAACTGTCTAAACAGTCTGCTGAGCTGGACAAGATTGCCAGCGCTAGTGGCAAAGATTCTGATGCATGGCGAACACAGAAGACGCGTGTTGACGAGACAGCAACCAGTTTAGCAAAAGCTAAGTCTTCTATGACCGGCCTGCAAACTGAAATGGACAAGGCTAATCCGTCTATTTTCAGCAGAGTTAAGGAAGCCATAGTAGGGACAAACAAGCAAGCCGAAAAGACGCCGAGCTTACTTCACAAAATTGTTGAGGGTGGCTTACTCACCAATGCCATTACGAGCGGCTGGCAACGGCTAAGCTCAGGCATTACTGACACGGTAAAGTCTGGGCTAGAACTTAACGAGGCCGGAGAAAAGTTAAATATGACGTGGGAGAACATGGGCAAGTCGGCCAATGATATCCATATTCTTTCCAGGCAGATGTCATATTTACGCAGTGAGACTGGTGCAACCGGTGGCGAAATTAACAACATGCAAACCACCGTTGATACCATGACGCATGGTGTCACAGATAAAACTATCGTCATTAGTGCTGGTATTGCCAGCATTGCCACGGCTTCGCACAAAGGCGGAGACGGCATGGATTCCTTGTCTAAAGCGATGACACGTGTCGTTGCTTCAGGCAAGTTAACAACAACAAACCTCGCCAAGCTTGAAAAGCAGGCGCCTACATTAGGCGCACAATTAGCCAAAGCTGCCGGAGTCAGTCAGGATTCATTTGCCAAAATGGTTGCTGACGGTAAATTCAAGTCTGACGACTTCATGAACTTGGTTTATAAAGTTGGGGCAACGAGCAAGAGCACATTTGACCAATTTGGGAAAACTAGCGAAGGTGCCATTGCGCAACTGTCAGGTGGTTGGACATCAATCAAGGCTAAGATGGCAGCACCATTGCTTGATGTTAAGAATAGTGGCATGCAATCACTTGCTGGGATTTTGACATCATCTGTCGTTCAAAGCGCTGCTACTGCACTAGGTAAGGGACTGGCAGCTATTGCTAATTGGGCCAAGAATGTTCTGGACTATGTTTCGGTGCACAAAAAAGATGTTACCGATATTGGTAGTAGCTTGTGGAGCATCGCAAAAACTTTTGGATTAGCTATCTGGAAAACAATCTCATCTACCATAACTGGACTGGCCAAAGGATTTAATTCTTTAACTGGAAACTCACAAAAGTCTGCAAACCCACTGCATCAGGTAGCAGCAGCACTAAGCAATATCGCCAAGAACAAGAGTGGCATTCAGACAACAGCTAAGGTAATGCTGGCGATGTGGGCAGCAATGAAAATTGGCAAGGCGGCAATTTCCGGAATCAGTGCAGCCGCAGATCTTTATGCCAAGCGTGCCGACATCATGGCTGTTTCTCAGAAAGCATTAAATCTAGTAGTCAAAGCCTCACCATGGATTGCGCTTGCCACAGTCATCATCGCTGTGGGCGTGGCATTGGTTAATTTGTACAAGCACAACGCAAAGTTTAAAGCCTTCGTCGATGGCATTGTAAAATCTGTTCAGAACATGGCCAAAGGAATCGCAAAGTGGTTCGGTCAGTTGCCACAATTTTTCAACAACGCTATAAAGTCAGTCGTTAAGGGCTGGAATGGTTTTCTAAAGACCGTTAATGGTTGGGGCAAATCAATTGCATCTGTTTGGAATAAGATTTGGACGCCAATCGCAAAAGGCATGTCTGCTGTTTGGGCAGGCGTGGTCAAGGTCACTAAGGTCGGTCTGAATGTGCTCAAGATGGCGATTGTAATTCCAATTGCCCTAATCGTTGGTTTAGCCATCAAGGCATGGCAGAAAATTGAAAAGCCCTTCATGGCAGTGTGGAATGGCATTGCTAAATTCATTAAGCCTATCTTGAATGGCATCGGCAAGTTCATCACCAGTACATCCAAAACAGTGTCTAATGTGTGGAACAAATATTGGCAGGCCCTTGCCAAGTTCTACTCTGGCATTTGGAACACGATTGTTAAGGTTGGCTCGGCGGCTTTTAATGCGGTCCATAAGGGAATTAGTTCGTTCCTGTCAGCTGTCAATAAGGTGTGGACCGATTCATGGAACGCCATCTCTAAATTCTTCAGCAGCATTTGGAATGGTATGGTCAAGTTCTTTACGCCGATCATCAATGGCATTTCAAGCACAATAAGCAATGTGGTTAATGCCATCAAGAAGACGTGGAACACCGTGTGGGGTGCCATTTCTAAATTCTTTGGTGACACATGGAATGGCATGGTCAAGTTCTATTCACCAATCATTCACGGTATTTCAAGCACAATTGGTAGTGTCATTAACACAATCAAAAAGGTGTGGAAAGACGTTTGGGGTGATGTAGGATCATTCTTCGGCGGCATCTGGGACGGCATCAAAAAGGCAGCGGAAAGCGGCATCAACTTTGTGGTCAGAGTTATTCGTACTGGCTTGTCGGCAGTCAATGACGTTCTTGGATTCTTCGGGGTTAAAAAAGTTGGCTTACCACACTATGTACACTTTGCCCAAGGCGGTAAAGTCGGCGAGAATGGTACGCAATTGGCTATGGTCAATGATGACGGTAGCGAGCATTACAAAGAGCTGATTCACAAGAAGCGCACCGGTCAATGGCTTTATGCTGAAAAGCGTAATGCTATTCTTCCTCTTGAAAATGGCGACCATATTTACAATGGCAAAGAAAGTAAAGCCATTGCAGATATGTATGGCATTCCCGGCTTTGCACAAGGCGGCATCATCGGCAGTTTGTGGGATGGTGTGAAGAATGCATCATCTTGGGTCGCTGATAAGGCTGGCGATGTTGGTAAATGGATTGGCGATAAAGCAACTGCAATCACTGACTGGATTGCACATCCGATTAAGCACGTTACAGCACTGATTGAGAAGTCAATCAGCGGATTAATTAACTCAGCGCCAGTTAAAGCGTTTGGACAGCTCGGCGAGGGCATTTTCAAACATGCTTATAACGGCATTGCTCGCTGGATCAAGAAACATCTGGAAACTGTTCAAAAGTCAATGGAATCAAGCAGCGTTGCTGGCCAGCCAAAGCAAGCCCAAGCATGGTTACCTGTTGTTGAGCGGCTAATGAGGCAAATGGGCGCTAATCCGCCAAATGGTATTGCAAGCGAAGCCGCTGCGTTCGTGCGTGAAATTGCACGTGAATCAGGTGGCAATGCTTCAATTCGCCAGACAGTTTGGGATAAAAACATGGCTAATGGTGATCCAGCCGAAGGGTTGTTACAGTTCATTCCTAGCACGTTCATGACTTTCGCTGTACCCGGTCACACCAATATTTTGAACGGTGAAGACCAGATCATGGCGACCATTAATGCTTATATGCATAACGGGCAATGGGGCAACATTGGTACTGGCCGACAGATCAACTTCTTAGCCAATGGTGGATTAGTTAATCAGCCACTTTCAGCCATTATCGGAGAAGATGGCCCTGAAACAGTATTGCCGCTAGGCGCAGCTAAAGCAAGCCGTGCTTGGCAGCTGCTGGGGCAAGCGGTGAGCAACATCAATCAGAATTTGGGCGCTTCATCAACCAACAATGGCCAATTAGACAGCGATATCAGCGACAAACTAGACACACTCATCAGTTTGTTCGCGATTGTTGCCCAGAATAGCCAGAGTGATAACACGCCAGGGATTAGCAGCAACAGATTTGCTGATCAATTAGCCAAGATGTTAGCACCGAAAATGCAGCAGCAGCTAACTAATCAGAAATTAAGAGGAGGTGTAATTATTTGA
>SRR1151209_01732 tail protein
ATGAAAATTAAAGTAACGGCAATTAGCAATCGGGAACACAATGTAAAGACGACCAATCGGAACATGGAGAAGATGTATGACCTCCAGCTGCTCATGGCTCAGGCAGATGACATTCAAGATAAAGAACCAATTGAGATCATTAAGATGCAGCGCGATATGTTGCACCAGTCCATCGACTTCTTGACCACCGTTCTTGGGCTGAATAAGCAAGAAACGGACAAACTTGGAGATCTAGAATTCGCCGACACTATTCAGGCAGTTAATTACACATTTGAGCGGATGATGGGCATGAGTGATGAAGACATCGATTTGGCTAACAAGAAAGAGCAGGCCGCGGACAAAAGCGACAAGGATTAG
>SRR1151209_01733 phage tail protein
ATGGCAACAGTAGGCTTATATCAAATCCAGTTGGCTTTGGTAGATGAATATCAAAAGCTTGTTTCTGGTACTGGGACAGGATTAGGCACAGACGGTATCTATACTGTCGATCACAAGGATTTAGGCACCAAAACGGCCAACATTACAGGCTTAGCAGGCACGATCGCTAAGATCTATGGCAACAACAACGTCCAAGACGTTACCGTTGGTACTTCAGAACCATCAGTAGCTTTGGATATTAACAACTTGGATTACCAAATCAAGCAGCAAATCAAGGGCTTTGTTAGTGATAGCAAGGGCGGTTATACCGACGAAAATTTGAAAGCTCACGTGGCATTGTTGATTACAACTCAAACCATTGACCGCTTGCATTATGTTTACTATGGATTTGGCGATGGCATCATGACTGAAACCGCAGCTAACATTCAGACTGATGCGGCAGCAGAACAACGTGTTGATGATAGCTTAACGTATACAGCTCTTTCTACTATTGCCTTTAACAATCAGCCGTACAAGATTTATAGCGATCTTGATAGCAAGTTTGATAAAGCTAACATGTACAAAGAGGTATTTGGCGGATATGTATTGCCAACGCCACCAGCTGGTGGGTCAGTTTCTGGCACAGGATCTGGCACAACACAAGGCTAG
>SRR1151209_01734 hypothetical protein
ATGAGTGCAGTAGACGACGCTGTATCTATTCTCAGCCAAGCAAATATCTCTGGAATTGACGCAATCGAAGGCAACAACCTGCCGCAGGAGTTGGTAGATAGCACAGATAAAACAGTTGTGCTGATTACTGATGCTGCTAATGATCCAGCATCTTTCGGAAATGATGACTTTTGGGCGCTGAATCAGGAAGTAGAAGTACAGATTTGGCACTCACAATCGCTTGATTCTGATCCTGAGGCCATCGAGATCGCCGTGATGAAGGCATTTACTCATCAACATTGGCAGGTAGCGGCTGTCAGGCAACGCACGCTAGACCCTGACACACAGCAACTTTTTAACACGTTCTATTTCAGCAGGACAAAAAACATTTAA
>SRR1151209_01735 hypothetical protein
ATGGACATGGATGTAGCACTTGATCAGTGGCTGAAACAGGTGTCTAAAGCCGCGCAGCTGAGTATTACAGACCAGGAAAAAATAACAAAAGCTGGTGCGGATGTGCTAGCTACCAAGCTCACTGAAGCCACCAAGGAAAAACATCCGGATACTAAGGGTGATGGCGGTAAGTATGGCCATCTGTCAGCCGATACTCGGAGTGCTGCTAGCGACATTGATGGTGATCACAATGGGAAATCGACCGCTGGCTTTGGTAGTAAGGCATACATTGCCGGTTTTCTTAATGATGGCACTAAAAAACTACGTGGTGACCATTTTGTAGATAATGCAAGAAATGATGCTAAAGACGCCGTATTTGCGGCTGAACAAGCTGAATACCAAGCAATTATCGCCAAGCTGAACGGTGGTGGAGATAAATGA
>SRR1151209_01736 hypothetical protein
ATGGCTAATTTTAAAGCGGCCGATTTCAGCCGAACTGTTGAGCTTGGTTCTCCACAGTCACATAAAACTGGTGCCGGCATTAATATCACCAGCTTTGTTCCCGCTTATAGCCTGCATTACAAGCAGCAGAAACGGACACTCACCCAGCAGTACACACTTGTGGGAACACGCTTGGATAATTCCATCACAGTTATTGTCAGGCACGATATACGTAACGCAAGCCAACAGCAGGCAAGAATAGATGGCATCGTGTATGACATTTCAGACATTAGTCCAGACGACAGTAACGATGCTATCCGGTATGATTACCTGACCCTCACGAAGATTACCAAGGGGGCGTAG
>SRR1151209_01737 hypothetical protein
ATGACAGACAAGTATATTGCTGGCCAGGGAGTCACCCCGGAAGACATACAGCAATATCTTAATCTTGATTCCGATGGGGATGCTTCGGTTCTTGCTGGCATGATCAGTACCGCAGAAGAAGCAATAATTGGGGCTATTGATGACACGATTGACGTTGGTATATACAGGGAATACCCATTGTTTAACCAAGCCGTACGTGTATTGGTGGACTTCATGTATTACTCACGCGGTACCCTATCCGATCAAACCAAGGCCTATCCGCCCAGCTACGCGTACATGATCAACAGTATTCGCTGGAAGATTCAGCGTGATCAAGCGGCAAAGACTGGTGGGAATAATGGCTAA
>SRR1151209_01738 phage capsid protein
GTGCTTATTCCGGAAGAGATCGTCTATGACCCTACCGCAGAAGTAAATTCGGTTGTTGATCTGTCTACATTGGTTACCAAGACCCCGGTTACCACCCCTAAGGGCACGTATCCAATCTTGAAGCGGGCGACTGATCGTTTTTCTAGTGTGGCAGAACTGGCCGAAAATCCCACGCTTGCTGAGCCTGAATTTGAACAGGTGGATTGGTCTGTACAAACATACCGTGGTGCAATTCCACTGTCTGAGGAAGCTATTGCTGATTCTAAAACAGATCTTACCGCACTCGTTGGCCAGTCTATCAACGAAAAGTCCGTCAACACTTACAATGCGATGATTGCGCCTGTATTGCAGTCATTCACAGCCAAGGCAACAACCACTGATACTCTTGTAGATAGTCTGAAGCACATCCTGAATGTTGATCTTGATCCAGCATATAGCCGTTCGCTTGTGGTTACCCAGTCCTTGTTCAATACGCTTGATACGTTGAAAGATAAGAATGGGCGTTACTTGCTTCATGATGCGTCTGATTCAATCACCGATGGTACTGCTAAGGGCTCTCTTTTGGGGGTTCCAGTATATGTTGTTGGCGACACGCTCCTTGGCTCGGCCGCGGGTGATCAGAAGGCATTTGTTGGTGATTTAAAGCGCGGTGTTCTGTTTGCAGATCGCCAGCAAGTCACTCTGGAATGGGAGGACAGCAAGATTTACGGGCGTTATCTTGGTGCCGCATTCCGGTTTGGCGTCGAAAAGGCCGATAGTAATGCCGGATATTTTGTAACGAACACAGATTCTGCATCTGGTTCAGCGTCTGGTTCAGCATCAGGTACTGGTAAGTAA
>SRR1151209_01739 hypothetical protein
ATGGAAGAGTCATTGCAGCGCATCATCAATAAGATTCAAGCCACTGAGCAGAATCCGCTCTTCACGCTGTTCTCTTTACCAGACAACGAGAAAGCCGAACTGACCCAGCTGCCGGATGGGTTGCAGCGGGCGATCCTGCTGCTGACCGCCGGGACCGTGTCCGGCAACAACAATGCGGTCCGGGATGATTTGATTGGTAAGAGTGTCCACGTCGCGGATGCCCATGCCAAGTCGATTTCAGTATTCGGTTCCTACTATCCCTTTGAGCTCATTGACCACGACGCCCAAGGCGACTACGTGATCATTTCCGCGGAAGACAATGTCTTGTACCTGTTGTCCAAGCACGGGCTGCAGGATACGTGGGAAACTGAGTTTTAA
>SRR1151209_01740 hypothetical protein
GTGGACGATGCAGAATTGCGGGCCAAACGGCGGGAAGCGATGGCGCGTTATCGTCAGCGCAACCCGAACCTGAATCAGTATGTATCATTGCGTTCCAGCGCCCGCTCGTTCTTACGGAATAACGCAAACTATGCGGATACCTTGGAACTGATCTTCCTGGCCACCCAGCGGCAATTGCAGCTGGGGGAGACCATGGACGACGAGCTGGCGGCGGCCTTCCAGAAGTTCTGGCGGGCATTGCAGCAGCACGCTGAAGAGCCGTTAACGGAACGGTTGACGGTACAGTTAGCGGCCCAAGCCCAGGATGCCTTTCATCAGGCATTCATCTGGCGCCAGTTGCGGGGCAACCTGGAACTGGTGGGTGAGCATCTAGCCTTGACGATCGCCTTAGACGACACCACCGTCACTGGTCAGATCCTGACTTTCCGGACCGATGGCGGTCTTGACGAGGAGGCACTCTAG
>SRR1151209_01741 endopeptidase
ATGTTACAACGATTCTACGCTGCTGATAAAGGTGTCTACGGTTCAAGCGGCGTTGCGTACAAAGACGATCTATACGAAGCAGTCAACGGCAAGTGGGAGAAGAAGGCTAAGATTCCTGCTGACCGAGCTGGCGTCGGTGGATTCAATGATTTAAGCATCGACGTTGAGAATAAGCTGATTAGCGACTTGAACAAGATGGGCGAGCTGGAATCGACGACGGATAAGCCGGAGCTGCAAGAGGCGGTCCGCTTCTTCCAGTTGGCATTGGATTTTGGCCGGCGGAAAAAGCAAAAGATGGCACCGGTGATGCCGCTTTTGAAGCGGACCATTGAATTGAAAGATTTCGCTGATTTGAACGCCCAAGCGGGTTCCTGGTATGAAACCTTCCCGGTGCCGTTCCAATTCTCAGTGGAACCAGATATGAAGGACACGGCCCACAACGCGGTGTACGCCTATGGCCCGGGCTTGATCCTGCCGGATACGACCTATTACGCCGACGATAATCCCAATCGGGACACGTTGTTGGCCACCTGGCGGGAGATGGCAGTGAAATTGCTAGTAGCCGCTAAGTTTTCCGAGAAAGATGCTGAGCGGATGGCCGATGGCGCGTTGAAATTTGACCGCAGCCTCGTGCCGTTTTCGAAGTCCGGGGAAGAATGGGCAGATTATCCGGCGATGTACAATCCGGAGCCGCTGGACAAGTTTCTGACCCATTCTGAAATGCTCAATTTCCGCAAGTTTCTGGATGATCTGCTGCCGGAAGAGCCGGGTCAGATCATCGTCACAGAGCCTCGCTTCTTTGAACACTTCAACGAAGTCGTTAATGCCCGCACCTTCCGGCTGCTCCACGATTGGATGATCATCCGTTTCTTGATCCATGCGTCCAAGTACTTAAGCAATGATCTGCGCAAGGTGGGCGATACGTTCCATCGGGCGATCACTGGCAGTCAGAAGTCGCCGAACAAGACGAAGAGTGCTTACTATGCGACCAATGATTACTTCGATGAAGTCATCGGTCAATATTATGGTGAGAAATACTTCGGCGATGACGCCCGCCAAGATGTTCGCAAAATGATAGACACGATGATCAAGGTTTACGAAGATCGGTTGGCTCATAACGATTGGCTGAGTGAAGCCACCCGTAAGAGCGCCATCGACAAGCTGGAGAAAATTGTCGTCAAGGTCGGCTATCCCGACAAGCTGCGGCCGCTGTACAGCGAGTTCAAAGTGGATCGCCAAGCGAGTCTGTTTGATAATGTCCAAGAATTTGATACCCTGATTCTGCGGGATATGTTCGCCAAACTGGCGAAGCCGGTGGACCGGACGGAGTGGGGCATGCCGGGCAGTCTGGTCAATGCCCAATATGATCCATCCAGAAACGATATCACCTTCCCGGCTGCGATCCTGCAATCGCCGTTTTACAGCTTGAAGCACAGCGCGTCCCGGAACTATGGCGGTATCGGCGCCGTGATTGCTCATGAAATTTCCCATGCCTTCGATAACAACGGGGCGAAGTTCGATGCTTACGGCAACTTGAAGGATTGGTGGACTAAGGAAGACTTGGCCAACTTCATGAAGCGCACAGAGGCCATGGTCGCCGAATTCGACGGCCTGCCGTATGCCGGCGGCAAAGTGAACGGCAAGCTCATCTTGGGTGAAAATGTCGCCGACCTCGGCGGGATGTCCGCGGCATTGGAAGCCGCGAAGCAATCCAAGGGTGTCGACCTGCGGGCTTTCTTCATTAACTGGGCGCGGGTATGGCGGGGCAAGTACACCCAAGCCAATATGACCGCGCGGTTAGCGACCGATCCCCATGCCCCCAATGTCCTGCGGGCCAACATGCAGCCCCGGAACTTCCAAGAGTTTTACGATGCGTTTGACGTCAAGCCAGGCGACGGGATGTACATGGATCCCAAGCAGCGCGTCCACATCTGGTAA
>SRR1151209_01742 cellobiose-specific PTS system IIC component
ATGCAATCATTCATCAAATGGATGGAGAAGCATTTCCTGCCGGTCGCGACCGTCATTGGCAATCAACGCCACTTAGTCGCTATCCGGGATGCCTTCGTCTACACGATGCCCCTGATGATTCTCGGGGCCTTCGCCGTTTTGCTCAACAACTTGCCGATTCCGGGATTCCAAGACTTTATGAACAAGATCTTCTCGGAACAAGTCGACAAAGCGTTCATTTGGACAAAACTCGGAGGTAACATCTGGAACGGGACCTTCGCGGTGCTGTCCGTCTTCATCGCCTTCCTGGTCGCCTATAACCTGGCCACCAGCTATAACTTATCCGGTCTGGCAGCCGGGGTCGTATCCGTCGGTTCGTTCTTCACCGTCGGCGGGATGGCCGGCATGGATTCCAGCGGTTTGTTCATTGCCTTAATCGTTGGTCTGCTGTCGACTGAAATCTTCCGGATTTTGACCGGTAACAAGCACTTGATCGTCAAGATGCCCGACGGTGTGCCGCCGGCTGTTGCGAAATCCTTCGAGGCCTTGTTCCCGGCGATGATCACGATCATCTTCTGGGGCTTCGTGACCACCCTGTTCAACGCAGCCCACATCGCTAACGTGGTGACTTGGTTCTACAAGATGGCGCAACAACCGTTCATGGGGATGGCTTCGTCCTACCCGATGGCCCTGTTGTTAGCCTTCATCACCCCGCTGCTGTGGTTCTTCGGACTGCATGGTGCGAACATGATCGAACCGCTGATGCAGACGATCAACGCCCCGTCCATCACCGCCAACTTGAAAGCCTTCAAGGCTGGTAAAGAACTGCCTTACATCGTTAACAAGCCCTTCTTCGATTCCTTTGTCAACATGGGCGGTACCGGTGTCACCATCGGCCTGCTCATCGCGATCCTGTTAGTGGGTCGGAAGAACAAGCAGTACATGACCGTCGGCGCCTTAGCCGGCGCGCCTGGGATCTTCAACATTAACGAGCCACTGACCTTCGGCTTGCCGATCGTCTTGAACCCGATTCTGTTCATCCCGTATATCTTAACCCCGATGATCTGTGTCACCACGGCCTACTTCGCCACTGCTGGCGGACTAGTGCCCGCAGCCATCGCGATGCCGCCTTGGGTAACGCCGCCGATTATCGGTGGGGTCATCGCCACCGCCAGCTGGCAAGGCGGCGTCCTCGCCGCAGTAAACATCGTCATCTCCGTGGCTATTTACTCCCCGTTCGTCTACATGGCTACGGTCATTGCTAACCGGGAAGAAAAAGAAAACCTGACCGATAGCAACAGCAAGACCATCGTTGACGGCAGCACCCCGGCCGGCGACACCGCTAAGGACAGCAGCGGTCACGCGACTGTCTAA
>SRR1151209_01743 mucus-binding protein
ATGTTTGGGAATAAGGTACATCACGTGCTCCATAAGGTGCACAAACGGTGGCTGGTAGTGGGAATCACGGCACTGGCGCTAGGTCTGACCACCACGCTGACCACCGCCAAGGCGGCCGATACCGTCAGTATCAACTATGTTTCCGGATACAGTGTTGCCGTTTGGCAGCGTGCCAATGGCGTGCAGGCCACCAGTAAGAAATTACCCACCGGCACTCGGTGGGCGAGTTATGGTGCAGTCCAGCAAGGGGATAACGGTTTCTACTTGAACGTGGGCGGCGACCAGTGGATCGACAGCAATTACGCCGATTTAGCGGGTGAAAATTCCAGTCAGGAGCTGCGTGGTGTCGTCACGATTCAGTATGTCCCGGGCTATGGCATTGCCGTATGGAATAGCGCCAGCGGCGACCGCCAAATTGTGCGGCGGGCGGTGCTGCGTCACGGGACACAGTGGCAAGTTTATCGCCGCGCCGTGGTCAACGGCCGTACCTGGTACAACCTCGGCGGCAATCAGTGGATCGACGGCGGCTTTGCTAAGTTGACCGCTCAGCAATATCGCGGGCCGAAGACCTATCAAAGCGGCGGTCCCACCGTGATTAAGCCGACCGAACCGACGAAACCGGCGCCGAGCACGCCGATTGTCCAGAAAGTGAGCTATCGCGTCGTCACCCGGGATCAATATGGGACGATCGTTTCTACCCGGATCTATGAAGGCCATATCGGCGATACGATCACCATCGGCGCCGCCGGGATTGACGGCTACACCCTCAACGACGGCAGCACCAAAACAATTCGCCTGAGTGCGGACAGCGGGCAGAACGATATTGATTTCACGTACACCCGCAATACGCCGAGCAATCCAAATCAAGGCAGCTATGTCCCGCCGGCAGTGACGCAGCAGTATGTTAACTACCGCATCCTGGCGGTGGATGATCAAGGTCAGCCAATCCAGGGGTATATCCCGACGACGGGCAGCAGTTTGCCGCGCGCAGCTATTAATGCCCCGACCATTCCCGGCTACACTGTCAGTGGTGCTCGGACGATTAATGTGGGCGTCAACGGCGGTGACGTTAAGTTTATTTATACCAAAGACGCCGTAAAAGATGTCAGCTATACGATCAAGGCAGTGGATGACCAGGGCGTCGCAATTGCTAGCTTCACTTCTGACACCAAGTCTGGCCAACCGGGGGCGACGATCAGTGCGCCCTCGATTACCGGGTATACCGCCACCGGCGCCAGCACTGCACCGATTCCGATAGCCGGGGGTCCGATTACCTTTAAGTATACGAAAAATACCCCGACGACACCGGCGACGGTGACTTATCAAATTAAAGCGGTGGATGAGCAAGAGCAGCCGATCACGGCTTATACGGCCCAAGATACCTCCGGCAAGCCCGGCGATAGCATCACGGCCCCGACGATTCCCGGCTACACGATTCAAGGCAGCAGCACCGCCCAGATTCCAGCCACCGGCGGCCCCATCACGTTCAAATATACCAAGAATGCGCCAGCTCCCGTAAGTTACACGATTAAAATCGTGGATGAGCAGGGCAACCCCATCACGGGATACCCCGACCAAACTGGCCAAGGTGCACCCGGCACGCCCATCCCTGTGCCGCCGGTCACCGGGTATACAATCAAAACCCCGACTACTGCCACAGTACCGGCCGCCGGCGGGGTGGTCACGTTCACTTATACCCAAGATGCTCCGGCAGTGACGACCGTTAAGTACACTATTGCCTATGTCGATGAGGACAAGCAGCCCATCACCACGACTAATCCGGCCAGTGGCGAAGGCAAAGTCGGTGATCCAATTTCTGCCCTGCCGATTCCGGGCTATACTGCCCCCACTGAAACACAAACGCTGAAGTCGGACACGACCGCAGTGACTTTTGTGTACAAGAAAGATGCAGTTACGCCAGCAACTGTGAACTATACAATTGCTTATGTGGATAAAGATGGCAACACTATCACCACGAACAAGCCGACCAGTGGCTCAGGCCCAGTCGGCGATCCAATTTCTGCACCCGATATTGATGGCTATACCGCAACTGCGGAGACGGCCAAGCAAACGTTAGCGACCGAGACGACAAAGATTACGTATATCTACACGAAGAACCCGGCGGCTACTGTTAAGTACACGATCGAGTACTTGGACCAAGCTAGTGGGGCCATTACCACGAGCGAACCGGCTAGTGGTGAAGGTAAGGTCGGGGATTCTGTTACTGCGCCAAGCATTGACGGGTACACGGTCACCGCCGCAACGGCCAAACAAACACTGGCCGCGGATACTGCGAAGATTACGTTCATTTACACGAAGAATGCACCTGCCACCGTCACGTACACCATCAACTTCGTCGATCAATCAAACGGAAAAGTCCAAGACCCTCAGACTGGCGTCATTGGTAAAGTGGGTGACACCATCCCAGCGCCGACCATTACCGGTTATACAGCATCAACCGCTGCGCAAACATTGAAAGCTGATACGACAGAGCTGACTTTCGTTTACTCGAAAGACGCACCCGCGACTATGAATTACACGATTCAATATTTGGAAGGCGGAAACGCCATTACCACCACTGAACCGACTAGCGGTGAAGGTAAGGACGGCGACTCAGTCACCGCACCAAACATTCCCGGCTATACCGCCGATCCTTCTTCGGCGAAGCAGACGTTGCAAGCTGATACGACAACCATTAAGTTCACGTACACCAAGAATGCTCCGACAACCGTTACGTACAGCATCAGCTATGTTGATCAGTTGGGTGCAAAGATTAAAGATCCTCAGACCGGCGTCGTTGGCAATGTGAACGCTGACGTTACGGCACCCGATATTGACGGCTACACGGCCGATAAAGCGACTGCCACGCAGAAGTTGAAGGCCGATACGACAGCCATCAAGTTCACATACACGCAGAACGCACCCGCCACCATCACGTACACCATCAACTTTATCGATCAGGGTGGCCTAAAGATTCAAAATCCTCAGACTGACGTCACCGGTAAAGTGGGCGACGAGATTACCGCCCCGGATGTTCCCGGGTACACTGCGCCGACAGCCAAACAAGTGCTGCAGGCGAATACAACTGCACTGACCTTCACTTACACGAAGAAAGTTGTGCAGACCACCGTTCAGTTTGTTGACGAAGCATCGGGGAATGCAATTACTGACGCCGCAATCGTCACGGCAAAGGGGGATTATCCTGCTCAGAAGGTATTGACTGGAAAAGACGGCAACCTGTATATCATTTTAGATGGTCAAAAACTGAGCGTTGATCCCGCAACACAACAGTCGTTGACGATTAAATACAGGCTGATTTCCGCAAAAGCCGTTGCGGTGGACGAGAGTGGTAATACAATTGCTGTGCTAAAGGACCTAGCACCGATGTTGCACAGTGACAAAGGTTACACCCTGTCTTATCTTGTTCCGTCCCAGGTATTCGATACTCAAGGCAACCAATACGACGTGGTACGTGCAGATTTCGCTGGAAGAACTCTTACGGGGATTCTTCCTGACAGTATCACAGCTAGTTATGTACCCTACACGTTCACTCTTCAATACAAGAAAAATACTGCCCCAGTTGCCAAACCCACGCCTGAAGAACTCGCTAGAATCACTGAATTACAGCATGCTTACGCTGCACTGGCGAAACCGGTATTGGATAATAACGTCTACACTGCTTTGCCATCCTATAAGCCCTTCGATGCGGGTAGCACGACGCTTGGTTTCCAGCAGCAGACAATGGCGGTATACAATTTCTTCCGCAACCTATGGGGATTGCCGGCGGTGACCGCTGACCCGACGGTATCTGGCATTGATCAAGTAGCGTCCAGTTTCATGGCCGGCTACATGGCCGGGTTGCAACACGTTGTTGACGGATCTGATGGAGGCACGGTATATACTAAGCCCAGCGACATGAGCGACAGTGATTGGGCGAAGGTTAAAAAAGGACTGACTTCCAATCTAGCAACTGCAAATGGGTCAGGAACAACAGTAGACGAGCTCATTATGGGGTTCCTTGCAGATAATCATAACCTTAAAGGGAATGATGCCGGTCATCGGCTTAATATGCTACGGCCAAGTCTTCTTACTAGTGGCGTTGGTGTAGGTTTTTCCGCGAATGCTGCAGCAACTGGTCAAAAGGGCACGCCGAATCTAACGCTGGATATGTGGAGTGGAGCCTCTTCGGGAGCGACTTACACAGCTGACAATGGGGTAATGTTCTATCCTGGTACGAGCGTCTTCCCGATTGAGTTGTTACCGTCGGGCACGCCAATTTCAGCCGCATCATACGGCAATATTGACCTAACTGCCGTAAACAAAGTAACGGTTGAGAATCTGACGGCGCACAGTAGTCAAGACATTACTGGTGAGCAATTAATTCTTGCCGGAACAGGGACGGAAAATCCTGTATATGGATTTGCTAGGACGACATTGACTGCTTCAGGATATGTATTTGCCAACAGGCAGCAATATCGGATCACTTTCTACGGTGCTGGCCTCCCCGGCGGCAGTATCTCAACCACCTTTACGACGTTCTCCTTCGCGGGATAA
>SRR1151209_01744 hypothetical protein
ATGAAGAAATCAACAGGCTTGCTGTTCAGCACGGCCTTACTGGGTATCGGCTTGACTCTGGCAGCACCTGCAGTCGTGCAGGCTGCGGACATCGTGCCGATTGCGGCCGTCACCAAGGCGACTGTCACCAACAAGCAAGGTGAAGTGTATCGGACTGCCGATACCACTAAGATTGCAGCTTTCGATGATGCCGAACTGACCAAGAGCAACGGGAAGACAGTTCAAGGCTTCAATGTGAACGGATATGCGTGGGTGTTCCAGTATGCCTATGACCAAATTGCCACGGATGCTGCCGGAACGATCACGGCCTACCATTTTGCGGACGGCTGGGCGTCGGCAAAGGACTTCTCAGTCAAAGACCCTACGGTATACCAGGTGGAGCAATGGTCCGGCGTGGGGCAAGCGGATGCCAAGAGTCCCGCGGTCGTATACTCTGATCCTGGTTTAACGAAACCGACAGGTAAGACGCTGCCAGTGAACAGCCGTTGGCAGTATTTCTCCCGGTACAATGCCATGGTCACAATCAATGGCCAGACTGGCGTGGCCGGTACGTTGTCTTACAACTTGGGCGGTAATCAATGGGTCGGCGCTAACTTCAGTGTGGATACCGACGCGGCTGATTTCACGGTAAACCCGGTCCGCGGCACGATCATCGTAACGAATTCTAAGGGAGTTAAGCTGTACAGTGATATGGCGCAAAGCAATCCCACCGGCCGGACACTGCCGGTGGGTTCTCGCTGGCAAGCGTACGCCACTATCAACGATAAAACGGGCACCATCACTGGCTTCAGCCTGGGGGGCAATCAATATGTTAATAATGCCGACACCAGTATGATTTTATTTGCCAGTGGTACGTTCACTGTCCGTTATCCGGCCGCTCCAAGTTGGGGGATCGCGGTCTATAACGGTCAGCTGAAAGTGACCAAGACCATTCCTGCCGGTTCCCGCTGGCGGACGTTCGGTCAAATCGAACGGCTAGTGAATGGCCGCACGCAAAGCTTCTACAATATTGGCGGCGACCAATGGGTACGTACGGATTACGGCACCCATACAGCTAAATAA
>SRR1151209_01745 hypothetical protein
GTGAAGAAAACAATTGGTTTACTGTTCAGCGCAGCGGTGTTCGGCGTCGGCTTGGCAACCATTGCCCCGACAGCCGTGCATGCGGCGGACGCGACACCGACTGCGGCAGCCGCCAAGGTAACCGTGATCGATAAGAAGGGGACAACGTATCGGTTCGCCTCAGGAGAGGCCTCCTCACTGGCGGCATACGAAGATGCGGCCTTGACAAAGAAGACTGATAAAGTATTGGCATCAACCGTGGTTAATGGCCGTGATTGGGTTTGGCAAAATGAGTATGACCAAGTGGCGACCAACGCGCAAGGCACCGTGACCGCATATCATTTTGCAGAGGGTTGGGTCGCAGCGGCGGGATTGGATACGACAGATCCCACTCGGTACAAAGTCGATACCGACCAGACAGGTAATGGGGTTGTAAGCTCGGCCAAGGCTTCGATAGTTTATGCCGACGCGCAGTTAACTAAAGCGACCGGGAAAACTTTGCCTGTTGGCAGTCGCTGGCGTTATTACAGTACCAATGAAGCACTGGTACAAATAAATGGTGAGTGGGGGGTCGCAGACCGGGTGGCTTATAATCTCGGCGGCAACCAATGGATCAGCAAGCAAGACTTTCTTGCGGATGCCAGTGCTGAGTTTTATCCAACGACCAATATTGGCGAAGTCTTGGTTACTAACCCTAACGGCGCCAAACTATACAGCGACTTAGCCCGGACTAAGTTTACTGGCCGCACCTTGTCGTTCGGTTCACGGTGGCAGGCACCCGATTCCATCATGAGCAATACAGATGGTACGGTTGGCTGGGGCTTAGGCGGATTGCAGTACGTCAACAAGACTGATGTCAGTCCCGTCTACCGCTTTGATGCCGTCTTCACGGTCCGCTACAAAGCTCACCCGACTTGGGGCATCGCCGTATACAACAGCAAACTGCAAGTGACCAAAACCATTCCGGCCAATTCCCGCTGGCGGGTATTCAAACAGTTGCAGCGCCGAGTAAACGGGACCAATACAACGCAGGAATATTACAACATTGGCGGCGACCAATGGGTACGGTCGGACTATGGGACTGTGGCGCCTAAGTAA
>SRR1151209_01746 universal stress protein UspA
ATGGCTCAAAAAGAAATTGAGGACTTCAAAGTCAGTACCCGCCACTTTAATCGCATCATGATCGCCATCGATGATGACGATTTTATTTCGTCTCGGTTTGCCTTTGACTATGCCTGTACGGTAGCCAAAATCTATTCCGTGCCCCTGGCCATTGCCTCTGTGATGGAGACGGGCGATTTGAATGTCTTCCAATCCCTGGATCCAGAAACCCTGGCCGAGCACCGCGAAGCCGTGGCCAATGATTTGAATGCCTACGTCGAGAAAGCCAAGCAGTTCGGCATCCTCGACGTCGTGCCGCTGATTGGGGAAGGCAAGCCGGGCAAGGTCATCGTGGACGAAATGGTGCCGCAGTTCAAGCCGGACCTGATCGTGGTTGGCAGTGAAACCCACAAGGGCGCTCGCCACCAGACCATCGGCTCCGTCGCCGCCTTCGTTACCCGATACGCGCCGTGCACCGTCATCGTGGTGCGGGACCCCGCTGCGGGCCCGAAGCCGACCGATGAACCCAGCGAGAACAAGAAGAAGTAA
>SRR1151209_01747 carboxylate--amine ligase
ATGACACCAGAATTTACCCCCATTATTCTGGGGAGTGACATGAACGCATACGGGATGGCCCGGGCCTTCCATGAAGAATACGGCATCAAGGTGCACTGTATTGCTTCCGACCCGCTGGCGCCCACCCGCTATTCCAATATCTTGACGCTGGAATTTCACCACGGCTTCGAAGAAGATCCGGTCTTCATCGATACCATGCACGAAGTGGCCAAGCGTTACGCCGACCATCAGGAGCCAGTGATTTTGATTGCCATGGGCGATGCCTATGCAGAACTGCTGGCCAAGCACAAGGAATTTCTGCAAAAGACCTTCGTCGTGCCGGTGGTGGACTACGCGCTGCTGCGGAAGCTGAACAACAAAGAGAGCTTTTACCAGATCGCCGAGGAACACGGCCTGCCGTATCCCAAGACCAAGATCATCACCAAGGCCATGTACGAAAAGAAAGAAAATCTGGACGTGCCTTTTACCTATCCGGTCGCCTTCAAACCGGCGAATTCCGTGGAATGGCTGGATATCCAATTTGAAGGTCGGAAGAAAGCCTTCGTGATCCACTCCGAAACGGAATACTTAGATATTTTAGGCAAAATCTACGACAACGGCTATACCAGCGATATGATCCTCCAGGAGTTCATCCCCGGCGATGACTCCAACATGCGCACGCTGAACGCCTACGTCAGTCAGGACCATCAGGTGAAGCTGCTGTGCTTGGGCCACCCGCTGTTGGAAGACCCGACCCCGGCCGCCATCGGCAACTACGTCACGATCCTGCCGGAATACAACCAGGACGTGTACGATGTGGTGCAGAAATTCTTAGAAGAACTGAACTTTACCGGCTACTGCAACTTCGATATGAAGTTCGATCCCCGGGACAATACCTTCAAGTTCTTCGAAATCAACCTGCGTCAGGGCCGCTCCAGTTTCTTCGTCACCCTGACCGGCTACAATCTGGCCCGGTTCGTCGTGGACGACTATGTCACCGGTACCCTGGCTGACGCCCCGACGGTTTACGCCAATAAGATCCAATCCCAGCACGTGCTGTGGATGGGCGTGCCGGTCAAGCTGTTCAAGGATTACGCGGTGGACAATGAGTTCAAGCAGCAAGCCCTCCAGCTGATCGATTCCGGCCGTTACGGCACCACTGTGTTTTACAAGAAGGACATGAATATCCGGCGGTGGGTGCTGATGAAGTACATGTTCCATAATTACATTCCGCGCTATAAGAAGTATTTTGAAGAAAATAAAGGCCGCGATATTGGGCGGTAA
>SRR1151209_01748 glycosyl transferase
TTGATTCCTAAAAAAATTCATTACGTTTGGGTCGGCGGCCATGACAAGCCCGCTGATATCCAGCGCTGCATGGCCACCTGGCGCCAGCATCTGAGCGGGTACGAGATCATTGAATGGAACGAAAAAAATTTCGATCTGACCCAGAATCAGTTTGTGCGAGAAGCCTATGCTGCTAAGAAATGGGCCTTCGTCAGTGACTATATCCGGGCCTCAGTGATCGAACAATACGGCGGGATCTATCTGGACACCGATGTGCTAGTCCTGGATGACTTGACCAGTCTGCTGGGTGACCGGGCCTTTGTCGGTTTTGAAAACGCCCAGTATCCCTTCACTGCTGCCTTTGGTGCCGAAGCCCACCATCCGCTGGCGCAAAAGATGCTGGCGGAGTATGACGACGCACACTTTTCTTTTGATAAAAACAACCAAATGGCCGGTGTGAACACCAAGTCGGTGTCGGATATTCTGATCAAAGATTTCCATTGCGCTGCCAACAATCAGGAACAACTGCTGACGACCGGTATCCACGTGTATCCTGACACGGTGCTGTGCAATCCCAGCGGTCAATCGCACACGATCCACGTGTTTACCGGTACCTGGATGGAGGGCCAAAAGCCTCTGAAGCGCCGGGTCAACAAGTGGTTCAAACTGCGCCTGACGACGCCGCGACGGGCGGCGTTGTACCAACGTATTTTCCGATAA
>SRR1151209_01749 glycosyl transferase
ATGGCTGACCAATTGATTTCCTTGATAATGCCCGTCTACAACGATGAAGACACCGTGCTGGCCACCCTGCGGTCGATTATTACCCAGGACTACCGGCAGTGGGAGCTGATCGTGATCAACGACGGCTCCACCGACCGCACGCCCCAGCTACTCGGCAAGTTTATCGCTGATCACCCCACCGCGCCGATTACGATCATTAATCAAGAAAATGCCGATCAGCTCAACGCGATCATCGCCGGTATCAATCTGATCCGCGGCGACTTGGTTTATATCATCCATGGGGACGATCTCTTGGCCGATGATGGGGCCTTGGCCCGAATGAACGCCAGCATGCAGGATCCGGACCTGGACGGGGCGATGGCCGACCTCTTGACCATTGATCACGACGGCCGGGAAGTGGGCCGCCAGACTGTGCAGAAGTACGCTGTGGCGCCCTATATCGTCGGTCAGCAGACACTCTGGCTGGGCCGCAATCTCTTTGTCGACTTTGCGATTTGGCGGACGCGGGTATTCTGCGACAGCGTCCAGGCCAATTACCTGACCTGGAATACCGTCGCCTGGCTGGATTGCCGGGTGACCCCGCCGCGTCAGCTGCGCATCGCTAATGCTCCCCAGCCCTTCATCCGTTACCGGGTGGGGGACGGCCACTACATCGACAACCCCATCGGCATACTGAACGTGATCAACGGCGAACTGCGGACCTTGGTGTCCTTGCTGGCCAGCTATCGGGCTCCCAACTATGCCCAGCAGTACCGCCGCTTCCGGTTAGCCAATAAGCTGCATCTGCTGAACTACTACCGGCCGCGAATCAAACCGGAGCAGACACCGCGCAACGAGGTGGCCGGGATCATCCGGTTGGCCTTGAGCAAATATCCCCAGCTGCCGACTAATCCTTACACCCCGGCCTTGATCGGCTTCTACGCCGCCCGCGGCGAGCGCACGATCCATTTCAGCCTGCCGTCTGATTTCACCGTGTGGTACGGTAAGGACATGCGCGTGTTCAACACGGCCATGCAAAGCGACGAGCTGCCGGACACCTACGGCGAATTATTCACCCAGATGATTCACGGCTTCACCACCATGATCGTGCCGGCGGGCCAAGGCCTGATGATGCAGGACGTTCTGCATTTTCTGAATATCTGGCCTTATGTCACCGTGAAGGAGGAACAAGTTTGA
>SRR1151209_01750 glycosyl transferase
ATGACGAAGGTCCTGCACATCAATGCCGGGTTAGAAAACGGCGGCGGCTTGACCCACATTGTGGCATTGCTCAGTAATTGGGATCACCACGATGTCAGTCTGCTGGTCTTCGCTGAAGGCCCAGTGGCGGCAGCGGCCCGGGCGGCGGGAGTCGATACCCACGTCCTGCATTTTAACAGCCGGTATAATCTCGGTATTCTCAAAGCACTGGCCGACTTCATCAATGCCGGCCAGTACGATATCGTCCATGCCCACGGAGCCCGAGCGGTGCTGTTTCTGCGCTTGATTCGCCGCCGTATCCATTGCCTGAAAGTGGCCACGGTGCACAGCGACCCGACCCTGGACTTCATGGGCCGGGGACTCATCGGTGAGGCGTTCACCAAGCTGTATATCAGTTCCTTACGCTTGATGGACCACCTGTACCCGGTGTCCACGCCGTTTTATGACCGGCTGCGGGCGTTCAATATTCCCGCGGACAAGCTGACCCTGATCCTCAATGGGATCACCTTCAGCCCCCAGGCGCCGGTCAAGGAACCGCACCAGACCTTCAACATGATCTACGTGGCGCGCCTGCACCCGGTGAAGGACCACGCGCTGCTGCTCAATGCGCTGGCTCAGGCCAAATTGCCCCAAGCCCGCTTGCTCCTGGTGGGGGATGGGCCAGAAAAGGCAAAGCTCCAGCAGCAGGTCGCTGATTTAAAGCTGACGGCCACCGTGACTTTCACCGGCTTTCAAACGCCCACTCAAATTCAAACGCTTTACCCGCGGATGGACCTGGCCCTGCTGACCTCCATTTCTGAAAGCTTCCCCTTAGTCTTGCTGGAAGCGGCCAACGCTGCCGTACCGGTCCTCAGCAGCCGGGTGGGGGACGTGACCAAACTCGTTGCGCACCCCGACTTGGGTTTCCTGTTCCAGTCCGGGGACCAGGCCGATTTGGTCCGCCAGCTTCGGGCCGCTTACCATGACTGGGAGTTGGGCACGCTGGCGGCCAAGGGCGATGCCCTGCGGACGTATGCCGCCGCGCATTTCTCCCTGCAGCAGCTGCAGGACACGATCTGGGATAGTTATGCCGTCCTATTGAGAAAGGAACTTAACCATGGCTGA
>SRR1151209_01751 WecB/TagA/CpsF family glycosyl transferase
ATGAGCCGAGTCAATGTATTGGGTATGACCTTCGATAACTACACCATGGCCGAGTTTGTCGACCGCTTGGGCCGGCGCCTGGCCAAGCAGGAGGGCACTTTCATTGTCACCGCCAATCCGGAGATCGTGATGTACGCCCGGGAACATCCGGAGTACCAAAAACTGGTGGATGAAGCGGACTTCGTTACTGCCGATGGCATTGGCGTGGTGAAAGGGGCCGCCATGCTGGGCACGCCCCTGAAAGAACGGGTCACCGGCTATGACTTGATGGAGAAATTACTGGCGCTGGCGGCCACTGAGCACTATCCAGTGTATTTCATCGGGGCCAAGCCGGGCATCGCCGATCAAGCCGCTGCCAAAGCCCGCCAACGTTTTGCCGGGCTGGACATTGTCGGCACCCATGACGGCTATTTCCCGCTGGGGGATGCGGGTGTGACCCAGCAGATGATCGCGGCCAAGCCGGCCCTGGTCTTTGCGGCCATGGGCTATCCCCGTCAAGAAGAGTTCATCGCCGGCATGCGGCGGCATTTGCCGGACGCGCTCTTCATGGGCGTGGGCGGCAGTTTTGACGTACTTTCCGGCACCGTGAAACGGGCGCCGGGCTGGATGCAGCGGGCCCATTTGGAATGGTTCTACCGTCTGCTCAAGGAGCCGACCCGATTCAAACGGATGCTGATCCTGCCCCGTTATTTGGGCGTTGTCCGGCGGGAGGCGAAGAAGCGATGA
>SRR1151209_01752 PST family polysaccharide transporter
GTGCGAAAACTATTCCGAAATTTCTTTTATAACGCCGTCTACCAGCTCTTTCTGCTGCTGGTGCCAGTCATCACCACGCCGTACCTGTCCAATGTGGTCGGCCCGGCTAAATTGGGTATTAACAGTACGGTCAACTTCACGATCCAGTTCGTGATGGTCTTCGGCGCTGCCGCTATGGGCCAGATTGGTACGCGAACGATTGCTAAAGCGTGGGGCAAAAAGGACCACGAGGAACTTCGCGCCGCCTTTTGGGGCTTGTGGTATATCCAGTTCGTCCTGAGCGCGATCACCATCAGTATTTTTCTGTTCATCATGCTGGTGATCAAGCCGCCGTATTGGACCTATTTCCTGCTTCAGCTGCCATTCCTCTTAGGCACGATGTTCGATATTTCCTGGTTCTTCCAGGGAATCGCCGACTTCGGCCGGGTCGTGCTGCGGAATACCATCGTCAAGCTGGTGTCTGTTGCCTTTATTTTCTTACTGGTCAAGAGCCCCGATGACCTGTGGAAGTACATGCTGATCCTGTCCCTGGGCAATCTGCTGGGCAGTTCGGTGTTCTGGTTCACGATTCAAAAATTCGCCGGCCGGCCCAGCCGCGGCGGTTTCTACCACCTGCGTCAGAGCCTGATCACCATCGGGATTCTGATGATTCCCCAGCTGGCCACTCAGGTCTACACCTCACTGGATAAGACGATCCTCAGCCTGTTCCAGCCCGCCGCCCAGGTCAACTTCTACGATTCCTCGCAGCGGATTGCTAACTTGGTCCTGTCGGTGATCACCTCCATTACCGTCGTGATGATGCCGTATATGGCGGCGTCTCGATCGGACGACCAGCAGCGCTATTTGAAGAAATCCTATGAGACCACGTTGGTCGTCGGGCTGTTTTTCATGAGTATCATCATGGCCAACACCCGCCAGTTCGTCCCGTGGTTCTTCGCTGAAAGCTATAAGCCGATGATTCCACTGATGGAATGGATCTCCTTGAGCATCATCTTCATTCCCGTCGGCGGGGTGTTTGCCAACCAGTTTGCCCTGGCCATCAATCGGGATAAACAGTTTGCCATCCCGGTGGTCGTCGGCGCCGTGCTGTCGCTGATTCTGAATTTCACCTTCGACCCGATCCTCGGGGCCCACGGGGCGACGATGGATATTTTGATCGTCGAATTCACCGTTATGGTGCTGCGGGTGTGGATCGTGCATATGGACTACGACGCCAAGGACGTCTTCCATGACACGCCGAAATATCTGGTCATGGGGGCGATCACGGTGGGCGTCGGCTTCCTGCTGCCGGACTTGATTCCGTCCACATTCTTCAACATGGCCTACAAATCTATTGTGATGTTTATTCTGTACGCAGCCATGTTCGCCCTGGGCCGGTTCGAGCTGTTCGGCGATATTAAGCGGGTCGCGACCCGTATGTTAAGGAGAAAATTGTCATGA
>SRR1151209_01753 CDP-glycerol glycerophosphotransferase
ATGGCCGCATTCAAACAGAAATTATTCGCATTCTACCTCGGTGTCATGAAGTGGGGGTGCAAACTCATTCCCACCAAACCCAACACCGTCACGATTCTGAACGGCGCCGGTCTCTCCGGCTCCAACGCCATGAGCTTCTACCAGTATTTAAAAACAGAACACCCCGAACTCACCGTCAATTTGATCAGCGGCTTTCCCAGCGCCCATTTGGCCTTCAGCACCTGGCGCCAGATTGCCCAAGCCAAGGTCCTAGTGGGCACCCACTGGCCCTTCAAGATCCACCGCGGCCAGCGCTTCGTCCAGCTGTGGCATGGTATTCCCTTGAAGCGGATGGGGTACTTGGCCCTGAATGAAGACCCGGCGGCGCAGGAAAAAAGCCACCGCTATTGGTGGCGGAATGTCGACTATTTAGCAAGTTCCGGCCCGCTGTACGATACACTAATGAGTGCCTGCCAGGGCTTAGCGGCCCACCAGTTTCTGCACACCGGGTTTCCTCGAAACGATGAATTTCAGCTGCCGAAAGCCACCCTCAAAGAGCGGCGGGCAACCCTGGCGGGGCTGTTCGCGGATGGAGTGGTCACCGACCAAACCAAGATTTTTTTCTATCTGCCCACCTTCCGCATGGAGGACGGCGCGACCGAACTGTCAGTCCAGCTCAAAACCGGCAACATTTTCGGCTTGAGCGACTTTGCTATGGCCGCGTTTGAACAGCAGCTGGCCGACAATAATATCGTCATCCTGGCCAAGCTGCATCCGGTGGAGGAGCGCCAGGTCGATCCGGCCAAATTCGCCACCGCCCACCGGTTGAAAGTACTGACCAACGACTGGTTCATTGATCAGCATACCGAGCTGTATCAATTCCTTGCGGCCACCGACGGACTGATCACCGATTACTCCAGCGTTTATTTGGATTACCTGTTGCTGGATCGGCCCATCGTTTTCAACGTCCCGGATCTGGCTCATTATGAGCAGACCCGCGGCTTTTTGCTGGCGCCCTATGATGATTACACTCCGGGTCCGAAAACGACCACCACGGCGGAACTGGTCCAGGCGTTGACCCGGGATAGCCAGGCCGATGCGCCGCTCCGGGCTAAATTACGCGGTCAGATGTATCCCCAAGGCTTGAATCCGGCTTGTCCGCAAGTGTATGACCAGATCAAGGGGTGGCTGTAG
>SRR1151209_01754 hypothetical protein
GTGAACGTACGTAAAATTCTCCATTGGGCGCTCATCGCCTATATTCTGATCCAACCCTTCATGGAAATTATCTATTTCTATCAGGGCCGCTTGGCGACCCTTGGCCCCGTGACGATTCCGACATTTGTGCGGGTGCTTTGGACACTGGCGATGGTGCTGCTCTTCCTTTGGATGGAGCGCAAGGATAAATTTGGCTGGGGGCTCTTTGCCTATGGTGTTCTGGTCGTGGGTTATTTGGGCCTGCACGTGTTCCTCACGCGGCATGCTTTAGCTGGCGTCACCGACGGATTCCATTACAGTATCAGCACTGAACTGGGCTACGTGATCCGGGTCCTTTTCCCGATTTTGATCCTGATTATCAGTTATCGGGTGCCGGTCTATGAGAAAACTATGGAATGGATCACCTGGGTCGTGGGCCTGTTGTTCAGCGGCACCATTGTTCTCAGCAATTTGCTGGAAATCGCCGTCGCGTCTTACAACAAGGCCGAGTCGATCCAAGGCAACATCTTCGATTGGTTTAACGCGGTCAATCCGCTGGGTTATACCCGGCTGGCCTCGGACGGGTTCTTTCTGTTTGCCAATACCACCTCGGCCATTCTGGCTCTGTTTTCGGCCTTGATGATCTACTATCTGATTAATCAGCCCCGCTGGTGGAAATACTGTTTTGTGGCTGTGCAGTTGCTGGCGTCGTTGATGATTGGGACCCGGACAGCAATTATCGGTTTTCTTGCTTCTCTGATCTTGGTGACCGGCGCCGCCTTGTTCTTCGATAAGCTGCACTTCCGTAGGCAGGATGCCGGGCTGCTGTCCTTTGTGACCATCAGCATGTTGGTCTTCGGCTTCCTCTACCCCTATTCGCCGGCCGTGGCCCGTGGCGGGTCCAACACCGCCGCTGAGACCCGGACGACTACCCAGCGCAAGTCCCAGAATCCGGTGATGAACCAGATCAAGCGGGCGATAAAAGATGACCCGCAGGACGCCCAGCGCTTGCAGCACAATTTCGTCGCCACTCAGCTGAACATCGTGACCACGTATGGCAATGTCGTCTCCGCCACCAACCCCTGGGAACATTACCCAGCAGACTGGTTCCAACTAATGAATTGGCCCGGCGGCCAACAGATCAACTACCGGCAAGTAGAGAAATTCAACGTGAACATTATTGCCCGGGAAATGTCCAAGCCGATTCGGCTGCTCTTTGGGATCTCCTATACCCGGATGACTTACTTCATCTTCAATTATGAACGGGACTTCCTGAACCAGTTCTATACCCTAGGCATTCTCGGACTGCTGATCTTCCAACTGCCGTTCATCATCGCCTGCCTGTGGCTGGCCTGGCGCTTCTTCCGTACGCCCGGTCAGTTCAACTTCCTGAACTTCAGCTACCTGTTGGGCATGGCGCTATTTTTCGCCAGTGCCTTCATGACCGGCAATGTCATCGACTCACTCACCGCCGCCAGCCTTGCCGCTTTCTTCCTCGGCCAGCGCTTGCGGGCAGTGGCCTGGAGCCAAGCCGTGCCAGAGCAGCAGAATACGATCCCGCGTCAAATTAATTGA
>SRR1151209_01755 hypothetical protein
GTGAAATTATTCATGAAACGGTTGGGTATCGCCGTTGCGGCCATGGCGGTGTTGGGCGTAGGCTTCTTAGTCATGCTCAAAGCCGGCCGGTTGGCGGCCACCCACAATAGCAACAGTGCCCGCAATCACATTTATACGACCTTGAAGCAGAAGAATGCCTATCGTTTCCCCACCGGCAATCTCACGGTGCTGACCAGTGACGGCAATGCTTTGCTGAAACCGGATCTGAGTTTTAAAAAAGTGAAGAACAAGAAGCATCCGGCGGTGGGCTACCGCATCTTTGCGGCGACCGTCAATCCGATTTTGTTCACCAGCGAAGTGCATATTCCAGCCAACCTGCGCAGCGGCGATCTGATCAAAATCCAGCTGCCGTTCCCGGCCCGGATGCTGGGCGGTTCCACGAAGATCACCCTGCATACTGCGCAGACCGATGTCCGCTATACCGGCAATAATTTCGGCATCATCGGCGACAGTCGGACGTCGAAAGAAATCGGTATCATGGTGGATTATGCCTACAAACCGAATAAGAAGAAAACCAAACGCAATGATTTTACCCAGCTGAAGCCGGCCGCAGGGACGACCGTTCCTGTTACCATTAGCACAGAACGGTCTCAGCCGACTCCGGGGATGCAGTCGGCCACGATTCGAGCTGAAGCGGCGGATTCTTTGAACTGGAAAAAGCCAAATTACCGGGCGGGCGAGCGAATTTTGAGCTTCCATGTGTTGGCCTATCAGGCCGAACCAACTTTGGCCGAATTGAAACTCACCCAGGACGGTCAGGACATCAGCAGCAAGGTGCAATACACCCTGGCCCCGGAGAGTACAAACCTCACGGGCTTGCGCCGCTATACGGTGACCCTGACGGCCGTGGCGGCTATCACTGGCGCCCCGGTCACCGGCCAGTTCCAGATTCACGGCGATTTGGCCCTGAGCCGGTATTATCCTGGCGATAGCTTCTCTCAGTATGGGTATTAG
>SRR1151209_01756 asparagine synthase
ATGTGCGGAATCGTCGGCTTTGTCGATAAAACCGTCCTTGATAAGAAACCGGTCATCGAGGACATGATGGAAATGATCAAACACCGGGGGCCAAACTCCTCTGGGGAATACATCAACGACCAGATGGCGCTCGGCTTCCGCCGCCTGAGTATCATTGACTTAAAGGGGGGCACCCAGCCGATCTATAACGAAGATCGCAGCCGGGTGATCATCTTCAATGGTGAAATATATAACTACGCCAGCATCCGCAAGGACCTGATCGCGGCTGGCCATATTTTTACCACCCATTCCGATACTGAAGTCCTGCTCCATGGGTATGAAGAATATGGCATGGAAGGGTTATTGAAGAAAATCCGGGGGATGTTTGCTTTCCTGATTTGGGACGACAACAACAAGACCCTTTACGGGGCCCGGGATTTCTTCGGCATCAAACCCATGTACTATTATAAAGACGGCGATACCTTCATGGTCGGCAGCGAAATCAAGGCGTTTTTGAAGCACCCGAATTTCAAGAAGGAATTAAATAAGAAAGCCCTCAAGCCGTATCTGACGTTCCAGTATTCCGGCTTGGATGAAACGTTCTTCAAAAATGTTTACCGCATCCCGGAAGGCCATTATTTCACATACCATGATGGCGACTTGAACATCAAGAAATATTGGGATATGGAATTCAAGGCGAACAGCCTGAGCCTGAATGACACCATTGATGCCATTGACAAGTCCATCCAAGAATCCGTGGAAGCCCATCGGATTTCCGATGTACCGGTTGGTTCACTGCTGTCCAGCGGGGTCGATTCCAGTTACATCACGAGCTTGTTACGGCCGGAGCACACGTATTCCATCGGCTTCGACGACAAGAAATACCATGAAGGGACGGCTGCCAAGGAATTGGCAGACAAGCTGGGTTTGGAGAATACCTCTGACGTGGTGACTGCCCAGGAGGCATTCAACAACTTCCCGCTAATCCAATATCATCTGGATGAGCCCGATGGCAATCCGTCCTGCGTGCCGCTGTACTTCCTGACAAAGCTGGCGTCCAAGGACGTCACTGTCATTTTGTCCGGGGAAGGCGCTGACGAGTTGTTTGCCGGCTATGCTGACTACGGGTTCCATTCCAAGTCCCACATCATCCGGGCCTTCTCCGACGGTTTGCGCCGCCTGCCCAAGGGTGTGAAGACCAAGCTGGCCCACAGCTTAAAGAAAATGCCGAACTTCCACGGCCGCCTGCAATTGTACACAGCGACTGCTCCGGCTGAAGAATTCTTCATCGGCCAAGCTCGGATCTTCAACGAAAACGAGTCCGACAAGCTGCTGCAGCCGGCGTTCCGGCAGAGCGAACCAGTGCATGATGTGGTCATGGATAAGTACAAACGGGTGCGTTCTTACACCGATGACGTGAAGAAGATGCAGTATTTGGACCTGCACCAATTCATGGCCGGCGACATTTTACTTAAGGCCGATAAGCTGAGCATGGCCAACTCGATGGAGCTGCGGGTGCCGTTCCTGGATAAAGAAGTGGCTAAGGTGGCTGCCGGCATTCCCACGAAGTACCTGCTGAACAGCAAGGACTCCAAGTATGCCATGCGCGAAGCCGCTAACCGCCACTTACCCAATGAATGGGCCAGCCGGCCCAAGCTCGGTTTCCCGGTACCCGTTGCCGCTTGGCTGCGGACCGAGAAGTTCTACAAGGAAGTCCGCAATCTCTTTGCTCAGGATTGGGTCAAGGAATTCTTTGATCAAGACGCCATCTTGCAGCTGATCGATGACAACTACCAAGGCAAGATCGACGGCCGCCGCAAGGTATGGGTCATCTATACCTTCCTGGTATGGTATAAGGTCTTCTTCATCGATGACACGATTCCCCAGTTCATTCCAGATCCGGCCAAGAATCAACAGGCCGCTCCGGTCGCTGCTGCGGCAGACTAA
>SRR1151209_01757 serine/threonine protein phosphatase
ATGGCATTCTTGAACAAAAAGCAGCAGGTGCCAGCCCCTAATTTGGATACGACCCCGCGTGCGTGGGTGGCTAAGGCACTGGTTCCATTCCAAAACCAGTTGAGCCAGCTTACTCGGCCAGGAGAGACAGCAAGCTTGGCCGTGATTACCGACACCCACTACAAAGCCGGCTTCAGCGCCACTCTGTATGGGGTTAACGGTTTGCAGCACACCAAGGAATTCGTCGCGGACGTGGCCAGCCAGCCGGGGGTAGACGCCTATGCCCATCTCGGTGATTTGATCGACGGCAGCGAAGCTCCGGACATGTCCCGTCAGCACCTGCAAGACATTGTCGCCGCCATGGACCAGAACTTGGGCAAGCCGTTCTACATCGCCAAAGGCAACCACGACGATAACGATAAGTTCGACGAGCACCAAGTCGCGCGCCGGGCGAGTTTTCAGCAGACTACTTTTGCGGACGTTGTTTTTCGCGCCGATTACCGGCAACCCCAACTCCAGCGCTTCAGTCAGCGCCATGGAGTCGCCTGGCTGGACGTGGGGCCGGTGCGTTTTTTGTTCATCAATACCAGCGACATTCCTTACCGCTTGAATCGTTTTGGCATTAAACAATATGATGTGAAACTCAATCTGGCGGTGCGTGAAGCGCAACTGGCCGAGATCATTCAGATTCTGCAAATGTCTGACGATCGGGCGATCATTGTTTGCGGGCACGGCAATCTCCTGAAAGCTAACCACCAAAATGGCCTGCATTACAACGGGCCGACCGTCCACGAACTGTTTCGGGCGTTCAATCTCCATGCCCAGGGGCACATCGACAATCACGCCAAGAATCCGGATTTTCAAATTACGCTGCCCTTTGACTTCACCCATATCCGCAACGCCCGGATCACCGCCTATGTTTGCGGCCACCGGCATATTGAACAGACTTTCTTGGACCACGATATTCGCTATTTGCTGCTGAATTGTGCGGCCATCAGCGGTCGCGGCCACCAGTTGACCACTGGGTATAATGCCCGCTGGGACCGGCAGTACGGCCAGCCCAGTGAATATGCCGGCTACACGCTGGTCGCCGACCCGGCCAACCGCCAGCTGTCCGTGTTGGGCTATGGCGCGGCTACCCCCTTGCGCCAATTTGCCATGTGGTTTCCTGAGGCTTAA
>SRR1151209_01758 hypothetical protein
ATGAGTTTACGTGATGATCTGCAAGCACTTGTGCAAGATGTAGGCGTGCATGGCCCATTTGTTTCACTGTTCATGCCGGTGCATCCAGAAGATGTCACCATGGAGAAGGATCGGGCCCAGTTCAAGAGCTTGGTCTCCCAAGCCCAGACCGAGTTCGGCGAGCGCTTCCCAGATGCCGAATGGCGTCCGTATGGTGAGAAGTTTGCCTTGATCCTGGCTGAGCGCCAGCTCATTAGTGGGACTAATACGAGTATGGCCATCATTGCCGGACCGGATCGCGTGTATCAATACTTCATGCGCCTGCCGTTGAATCCGGAAGTGAAGATCACTGAGAACCTGTACGTTTTACCAATCATTGAGAATGATCAATACAATATTAATTACGACCTGTTGGCTTTGGAGAAAGAAAGTTTCCGGGTATTCTCCGTTCATGGCCACGATGTCACTGAAGTGGATCTGCCAGACAAGGCACCGACCAAACGGTCTGCCGCTATTGGAACTGAATTGAAGAACGGCAGCGACTTGCAGCGGTCCAGCGGCACCAAAGGCAGTTCCGTCTTCCATGGCCGGGATCCTAAGGAAGAAGCCGATCGGGCCGATGAGGAACGCTACTTCAAGATGGTTGACGACTGGGTTCGGGCCAACATTTCGGTACCGACCCATGCCCGGGTTATCTTAATGGCCGTTGATGAAGTCCAAGGCGAATACCGCAAGATTTCCAAGAGCGGGGTCCTGATGGATCAGCCGCGGGTGGCGAAGATGCCGCCTAAGCTGACCAAGGATGTGCTGCATGACATTGCCGTCGACTTGGAACAGGAGTTGCGGACCATGGCCAAGGGCCAGTTGCAAAAGGCTCTGGACGACGCCCGTTCCGGCAACCGTTACAGCTCTGCCACGCCGGACATCGCCCGGGCGGCAGTCGAAGGCCGGATCGACACGCTGGTGGTTAAGCGCGGCGCATCGGCCCACGGTGCCATCGGCTTTGATCACACGGTTGATCGCGAGAGCGAAGAAGCCCGCGCCAATAACCTGCTGAACGACATTGCCGTGGTTGTTCTGGGTTATGGCGGCCACGTCTTCGTCCAAGGCGATGATGGCTTCAAGGACAAGGAAGTCGCCCATGCTATTTTGCGGGGGCGGATTGGGTAA
>SRR1151209_01759 pyrimidine-nucleoside phosphorylase
ATGGTGGACATTATCCAGGCCAAACGGGATGGCTTGGCATTAACGAAGGAGCAAATCGATTTTGTGATCACCGGCTACACCCGGGGGGACATTCCGGACTACCAAATGAGCGCGCTGCTCATGGCGATTTACTTCAAAGATATGAGGGCCGTGGAGATTGGCTATTTAACGGACGCAATGCTGCATTCCGGGGACGTGCTGGATCTCAGCACGATTCCGGGAATCAAGGTCGATAAGCACTCTACCGGCGGCGTGGGGGATAAGATTTCTATTCCGTTGGCGCCTTTAGTGGCGGCGGCCGGCGCAAAGAATCCGATGATTTCCGGCCGCGGCCTGGGCCACACCGGCGGTACACTGGACAAGCTGGAAGCCATTCCGGGATTTGACGTGGACCTGAGTGAGGCCGACTTCATCAACGAAGTCACCCAGATCGGTACGGCCATCACCAGTGCCACGGGCAACCTGGCGCCGGCGGATAAGAAGATTTATGCACTGCGGGACGTGACCGCGACGGTGGAGGCCATTCCGCTGATCAGCAGTTCCATCATGAGTAAGAAATTGGCGTCCGGCACCGACGGCCTGGTCCTCGACGTGAAGACCGGCAACGGGGCGTTCATGAAGACGGAAGCGCGGGCGGCGGCCCTGGCCCAGGCCTTGGTGCGTATTGGTCATTTGGCCGGCATCAAGATCATTGCGCTGATCACGGATATGTCTCAGCCGCTGGGTTACGCCATTGGCAATGCGCTGGAAATCGCTGAATCCATCGATATTTTGAACAATCAAGGGCCGGCGGATGTCCGGGAACTGACCCTGACCTTGGGCAGTTATATGCTCATGCAGGCAGAATTGGCCGATGATTTGAGCGGCGCCTGGCATATCCTGGAAGCCAGATTGGCTGACGGCAGCGCACTCGCCAAATTTAAGGAAATGATCATCGCCCAGCACGGCGACGCCGGCGTGGTGGACGATCCCACTAAGCTGCCCCAGGCCAAGCACGCGATTCAGGTGCTGAGCGGCCAGGCCGGGGTGGTCACCGGGATGGATACCGACCAGCTGGGGATCGCCAGCATGATCCTGGGCGGCGGTCGGCAAAAGAAGGGCGATGTCGTGGATCCGGCGGTCGGCTTGATGCTCCACAAAAAAATCGGCGACTCGGTGGCGAATGGTGAATTATTGGCCACGATTTATGCTGAAGAACCCCAGCGGCAGGATGTTGTGGATATGGTTACCGGCGCAATCCACATCGGGGATGCAGCCAGTGCGCCAGAGTTGATCCACCAAGTGATTGAATGA
>SRR1151209_01760 mannose-specific adhesin, LPXTG-motif cell wall anchor
ATGTTAGGAGGACATATTTCCCACCATAATTCCCACTATATTTCCCATTTATTAAGTTCGGTCTTACTAGCTTTTTCACTATTATCGGGTTGGCTAAGCGTCTATAAAAGTCCGATAGTATTCGCTGCGGATGCCAGCCCAATTGTCGCTGATCCCGCCCACACGCAGGACTTTTTTTCGGCCTTTGGTGATGCTTCCGTACAACGGGCTGCTGATGGCAGCTGGTCGCAAGTGGTCTTAACGCCGGCCCAAGTCAACCAAGCTGGGGCCGTGACTTTGAACAACCGGCTAGATTTCAGCAAAAGCTTCAATTTAAAGTACTCCATGCTGCTGGGTAACAATGCCGGCCAAGGTGATGGTATCTCCTTTGCCCTATATCCGGGTCAACTCGGTGCAGTTGGTATGTTTGGCGGTAACATGGGGGTTGCCGGGCTGCCTAATGCATTGGGGTTTAAGTTTGATAATTACACCAACCAGGCTGATAACATGGTTACTAATGGGACCAATGTCGATACAGAGTTTGGCTTCGGAAAATGGGCCACTCAAGTCTCTAAACCAGGAACGCCTTCCTATGTTGCCGGTCAGATCAACCCTTACACTGATACGGTCAAATACGCTGAGCACCTGCGCCAAAATAACAGCAGCGGTGCGGTCTGGGGGACCGTGGACCAAAATCTGAACATATTCGCACCATATGGCTCATTTATTGAAACAAATGAGGCGGGTTACCTGAAAATCATGGATCATGATTCCAACCACCTTTTCCTCAGAAACAACGTAAAAGACACGCTCCCAAGTGTTCCAATAAACACGTTAGGAATCCCGGGCAAGGTGATCGATGGTCCTGCTCGGCTCACCACTGATCTAGCCGACGGTAAATGGCACAATGTGCAAATCGATTATCAAGTTGCTAACGGCATCGGCACATTCACTGTAAGTCTCTACCGCGATACCACTTATACCAATCTCAACAAATCTTGGACGGCATGGATCGATATTGCGGAAATGAAGAAGAAAACCAACAACAAGCCCTATTTTGCCCTCAATATTGCCGGTTCTAATGGATCCTCAACGGCTAATCAGGCTATCAGGAATCTCTATGCAGAATATACACCTGAACCAGGGGCCTTTACGACGCGGTTCGTGGACGAAAACGGGACGACAATCAAAGATGCCATTAACCAAGGAGGCTCCGATGATTTAGTGACGAGCGGCACCCAATTTACTGTTGACATTCCCGGAAAATATACACGTACCAAAGATGCATTAAAGGGTAATTACAAATTTGATTACGCTACTCTGGAGACCTATGACGGCTCTCCGACCATTCAGAAAGTGAAAGTTGACCCAACCATAAAAGGTGATAATTATACGTTCACGGATACTTACAAAGCCCCGTATCGGCGGCTCAACGTGTATTATAAAAAAATCGACTCATATCCTACGGTGGCGGCGAGTATCGCGGCTGGGCAGAAAAGCATTGCGAACGATACGGACACATTGGTCGTCGACCAGCCGAACACGCCGATTACGTATGAGTATACACTGGCTCTGCCGAAGTCTGCTCCGGATTCTTGGAACAAGGTCACCGTCCAGACCATGCTGCCGGCTGGTTTACTGCCAACTACGACCACTGCAATTGATCAAAACGGTAGCGTGATTCCGATCACTACCAGCCAAGAAAATGACGGCCACACTAAGGTGACGCTTGGGCCAATTGATCTGTTCGGTACCGCAGCGTTTTCCCAGCCCAACACAGTCAAAATTAAACTAACGCTTAACCCCATCATTCCACTGACCGGAGCGATTGAAACAACGGCTCAGGATACGTACAAGCAGGATATATCAACAACCCCGCAACCGCCGACCAGCTACTGGGAAAACCAGCCCCCAAAAACAATCAGACACATAGAAGTTAGCGGTACTCAGACAATTGCTCAAGAGCCCATTGAGATGAATGGCCGCAAAGAGAATCGTGTTGTCTTTAAAAATAGCCAGCTTCATCTGCCGGCCGGGGTAACTCAGGTGGACACCGCTGAACGGATTCAGTTACCCGACGGACTGCTGTCTAACGACATCACCATCACCAGAACAACTGTCGCCAATATGCTGCCGACAGTAGCGGCTGAGCTCACTGCCAGCGGCCAAAAGAAACTGACCGGCAGCGATTCAGTGCATGTGGGCGTGCTGTATTCTGGAAAAGATGCTAAGGGGATTACCTACTGGTGGGTGGTCGATTACGTTCTGTACGAGCCGCTTAACGTTTGGATGCCAAGCCAAGAATTGGCCCAGTCAGTGGCTAAGCAACTTAAAATCACCAGTGATACAGTGCTTCAAAAATCAATGATGAAGAATCTTCAGTCGTTTACCGATACTGCCTCAAAGTGGACGATCGCCCAGGATCCCACCGGCCTGGAATACGCAACCAGCTTGCAAACTTTCGATGCTCCTGGCACAAACGCTGCCGCCGAGCAGGTCAAGGACAGCTTCCGCCGCCTGCTCACGACATTTGCCACTGATCGCGGCCAGGCTGGTACACCGGCCGCAACGTTGACCACCCTGACCCTGTCCAACTATCCCAAGGAAGTGTTCATGCCCACCGCGCCGGCAACCAATCAGCTACCGGAGTTGCCGGCGCTGACAACCTTTACGGCTACCCAGGATGGACTGGAATCGGCACAACTGACTAGTCTTAATTCAAAGGACAGCGATCTCGCCGCTTTTCTAAGCCAGCCCGCCGCACCCAAGTTACAAAAGTTCGACATTTCCAACAACGAACCAGCAGTCGGGAATGCTAATCCAACTCGAATCCCTACCCGAATCATTGGTCCGGCGGCCATCGCTAAAATTGACCAGACCAACATGATCGTACCCGGCATCGCGCTGTCTGTTGCAGTAGACAAGGACGACCCGAATAAGATCACGATCACGTCCCCGAAAGACGGTAACGGAAACGCCATTGACTTGCGTACTAAACTAAGCACACTGGCCCTAGACTCCGGCGCAACCGTCCCGTTCACCGCCGCTGATGCAGCCAAAACAACCGTTGAGTTCTTTGACCAAGGCACCAGCAAGCCTTCGGACACCAACGCCGACTTGACCAAATTCATTGACAAACAGCACCCAGGCCAGTTGAATATCAGGTACCAGGACTATGCCGCTAATACCAAGAGCACAACCGGCACTGGTTACCTGCGCTTCAGTTACCCGAAGGACAATGCCACCTATTCTCTGTGGATGCCCACCACGATCACAGGGCAAACCGCCATCGCCGTCTCCGGCAGCCTCGACTTTGGCACACGTCGGCTCGCCGCTGGCGACTACCCGAATGATGGTCACGATGACATCGCCGGGACAAAACCTGCAGAGCCCGCAGTACCCATCAAGATTACGACCGTGTACAATCCAAAGTCCCAAGTCACTGTGCAAGTGACTCCGTTTGCAGCGGGATCCTCGACCGTCAACACGTTCATCCTCCGGTTAGGCAGCCACGACATCCCTGCGATTGGCGAAGGTGGCAGTACTGTCCTCCCTGAGTTGACCAACGACACAGGCTTGGCAGACACCCAGAACTACACCGCCGTACTTCATGTCCCTAATACCGCGGGCATCCTGACCGGCCAAAAGTATTCGGCGGACGTAACTTATACTCTTACTGACGGTCTATAA
>SRR1151209_01761 adenosine deaminase
GTGTCTGGCTTCAATGAAACCATTGCCCATCAGTTACCAAAAGTTGAATTACACTGTCATCTCGACGGATCGATTTCGATTCCAACGATTCGGGAAATTGCGGACATGCAGCATATTCCAATCCCGGCCACGGACGCGGAACTGGCGGAGAAAGTCATTGCGCCGGCTAATGTCCAATCCCTGGGCGAGTATTTGGAACGGTTCGATTTCATCGGCCCGTTGCTCCAAGTGCCCGAGGCGCTGACTTTGGCGGCCTTCGATGTGGCTGCCCAAGCAGCCCGGGAAAATGTCCGTTACTTGGAGGTCCGTTTTGCCCCGACCCTGTCCACCGACAAGAGCATGACCGAGGCGGATACGATCATCGCCGTAGCCAAAGGGCTGGAACGAGCGAAAACCGAACTGGGCATCACCACCCGGATTCTGGTCTGCGGCATGCGTCAGCAGCCGATTGACCGGGCCATTGCGGCTTTCACCGCGGCCAACAGCTTGCGGGACCGGGGCGTGGTCGGGGTGGACTTTGCCGGCGACGAAGCCCATTTTCCGCCGCGGACGATGCAGCCGGCCGTTGACTACGCCGCTGCCCATCAGATTCCATTGACGTTCCATGCCGGCGAATGCGGCTGTGTGGAGAATGTCGTGGAGGCCATCAAGCTGGGGGCGAAGCGGATTGGCCACGGCACGGCAATCCATGGTCACGCCGATGCACTGGCCCTGGCGCACGCGCAAAATACCCTGTTCGAGATCTGTCTGACGTCGAACCTGCAAACCAAAGCGGCAGTGGACATCACCCATTTCCATTACCGGGATCTGGTGGCAGCGAATGTACCCTTCAACATCAGTACCGACAACCGCACGGTGTCCCACACCAACCTGACCCGGGAATACATGCTGTTCCATCAAGAGTTTGGCCTGGAAGCTGCTGATTTCCAACGCAGCAATCTGATTTCCATGGCCCATGCTTTCGCGGACCAAGCCACGATCGATGCAGTGACCAAAGAATTGAAAGCAGACTATGCCCAGCTGGCATTGCCCGCACGTTAA
>SRR1151209_01762 hypothetical protein
ATGGAAGCAACTGCAATCAGTGAAATGGCTGACTGGCTGGAAGACCATGTGGACGATATCGTGGGTAAGAACACGGCGCTAGATACAGACAAAATTTACGCGTTATTAGATGCCCTGAAGGTCCTGCCGCGGCCGGTGGCGACTTATTTGGAGATGACCCAGGAAAAGTATTACGAGGACGGCTCCAGCCATGACCTGGATCTGGATGGCGGCAAAGCCTTAGTCGGTGAAGTACACGATCGGCTGATGGTGAACCACGTAGACGGCACCCTGCCGGAGAATCAGATCCGCTTCACCTACAACCACGAGGACGTTTACCAGGATGGTTACGCGCCGCGCCGGGATTGTCAGATCCTGATGTATGCACTGGAAGTGCTGGGTGCCGTCGCCGGGGTCCATGGCTTTGATTTGTTCGCGGACAACGTCAAGAGCGACGCCGTTGTTTCCATTGCGCTGTCGGCCAAAACGCTGGCCGATTGGCAGCAGCAGACCGCCACGGTTTAA
>SRR1151209_01763 hypothetical protein
ATGCCAACTGTGAATAATAGACTATTGCCCATCGTGGATTATCGCGGCCGTCCTCTCAATTTGCAGCCCTACGTCACCTACACGATGCACTTAAAGAATGGGTACATCGTTGCCCTGACCGCCGACCAGCGGGTCGAGCGGGTTCCGAATCTGCTGAACGGTACCACTTACTAA
>SRR1151209_01764 drug/metabolite transporter permease
ATGATGTGGGGTGTTTCCGGCCCGATGTCGCAGTTATTGTTTGCCACGGACCATGTGTCTGTGCACTGGCTCATTGCGTCGAAGATGATTCTGGCTGGCATCATCGTAGTCGCTGGGGGCTTTTTGACCCAGAAAGACAAGATGCTCGGCATTTGGCGCAGCTGGCACACGATTCTCGCTTTGCTGGCTTTCACCGCTGTCGGCATGGTGTCCATGCAGTTTATTTACTACCAGGCCATTGCCGTGTCTGACGCGGCCACCGCGACGATTCTCCAGTTCATGTCGCCTATTCTGGTAGTCGTGTATTTGGCTTTTGCCGAACACAAATTGCCGTCTCGTATTGACATGAGTGCTGTGGTCCTGGCGATTCTGGGGACCTACTTGATCGTCACGCGGGGACACATCGGCCATTTGGCTGTGACGCCCGTGGGCTTGTTCTGGGGGATTGCCGCCGCCTTTGCGGCAGCGGTGTATACCCTGGGACCGCGGAACTTGATCCGCGAGTTCGGCGCGATTTCCACGGTGGGCTGGTCCATGCTCATTGGCGGCATCGCCATGGCCCCGACCGTGCCGGCTCAGGAATGGATCCCGCATCTCAGCACGCCGGGCTTGCTGGCCTATCTCTTTATCCTGATTTTTGGGACAGTGATTGCCTATGCGATGTACTTGGGCAGTCTGCGTTTTACCAATGCCACGGTGGTCAGTGTCCTGGATTCCTTCGAACCCCTCGGCGCGGCAATCCTTTCCGTGGTGATGTTTAACCGGCACTTCAGCATTGCCGAATTGTTGGGCATTTTACTGATCATCATGACGGTGGTGGGCATGTCGTTTCTGCCCCAGCGCAATGTGCAAATGGCTCAAGCCGCTGCGCGTACCGCGCCAGTCCCGCCGAATCTGCAGCCGGCGGCAGCACCGCTGCACCGGGAACGGCGGATGGCGAAACCATGA
>SRR1151209_01765 universal stress protein UspA
ATGGCACAAGAATATCACAACATTTTAGTCCCCTTGGACGGTTCTGCAGAGTCCGAGCGGGCGCTCAATAAAGCCGTGGCCGTTGCCCAGCTGAACCATGCCCATGTCGATCTCCTGCACGTACTGGATACGAAGCAATTCGTTGGCAGCTACGGCGGTATGATCACCGAAGATACGATCTATCAATTGTCCGAGGATGCGCAAAATTACTTACAGAATATTGCGGATAAGCTGAAAGAAGAGGACGGGTTCACCGACGTCGCGATCCACGTGCGGTTCGGCAACCCCAAGACGGTCATTGCCAAGGACTTCTTGGAGGATCACCACAATGACCTGATCATGATTGGCGCCACCGGTTTGAACGCCGTCGAACGGCTGCTGGTCGGTTCCGTCACGGAATATGTCAATCGTCATGCGTTATGCGACGTCCTGGTCGTCAAGTCCGGCTACGCCAAGGCCCAGGATGAAGCCCGCGCAGCGAAGAAAGAAGCGGCGAGAACGCCGAAGTAA
>SRR1151209_01766 glycerate kinase
GTGCGAATTATTGTGGCAGCGGATGCGTTTGCCAAGACGATTGACGGGGTGATGACGAGTCAATTGCTGGCGGATGGGGTGCAAACGGCAGCACCATTAGCGGAAGTGGATGTTTGGGCGTTCCCGCCGGCAGGGCGGACATTGCATGCACTGCAGCGGGCCCTGGGCGGTGAATTTCAGGAGACCCCGGTGGTGGATGCGTTTTGGCAGCCCACCCGCTTAACCTATTTAGTAGTGGGGGAAGGCAGTCAGCGGACGGCCTATGTGGAGACGGATTGGTTATTTCCGGGGCTCAATGAGGGGACGGCCGACGAAGTATATAATGCCACCAGTTTTGGCTTGGGCGAGGCGCTGCTGCATTTGATGATTGCTGGCATGCCGCATATTGTCTTAATTATCGGCAAGCGCATGATTTGCGACGGCGGGATCGGCATGCTGCAGGCGCTGGGGGCCGTGATCGGTGATGATCAGGGCCAAGACGTGGGCAGCGGCCGCAATCCGTTATTGGTGATGCAGGGCATCGACGCCAGCCGGCCAGCGCTTTTGCTGCGCAAAGTGGATCTCACGATCATGACCGACAATTACTTTACGTATACCGGAAAGCAGGGCTTTGTCGGGTTATTGGCGGCGCATCATCATTTCACCGCGGCCCAGCAAAGGGAACTGAATCGGCAATTGGCGGCGGCTCAGCAGTTGTTGGCTGATACTTGTCATATCCCCATTCGGGATGTACCGGGAAGCGGTGCAGGCGGCGGGATCGGCGGCGCCCTGCTGGCCGTCGGTGCCCGTCAGCCGGTGGATTTTGCCCCCTGGCTGGGGGAACAGGTCGGCTTTATGCCGGTGCTGGCCCAAGCAGATTTGGTGATCACCGCGGCGCCGGTCTTAACGCCGGTGATGGGCTTGATGAGCGGCGTGGTGCCGCTGGCCCGGGTTGCCCAGGCCCATCAGGTGCCGATCGTGCTGGCCCTGCAGCCCGACCACACGCCGGATCCCGGCCTCAGCGAGCTGTTTGCCGATATCTATTTGACCCGGGTCACCGGCTTGATGGGCAGTGAGCGCAGCGGGGTCTGGCGGCGCGGATTGAAGGTTGCCGGCAGTGAACTCGTGACCCGCTTTGAGCAGCGCCGCCAAATGGCAGAAAAATAA
>SRR1151209_01767 protein tyrosine phosphatase
TTGCCAATTACAAGTGGGTTCAATTATCGGGAGTTGGGGGGCTACCCCGCCGTTGATGGAAAAACGGTGAAATTCAATAAATTAGTCCGCTCAGCTGGGCTGGATACGCTCAGTCCTGACGATCAGCAATTTCTCTACGATTACGGTGTCCGGTTGGACATGGATTTTCGCTCAACGGAGGAAAGAAAAAATCAGCCGGATAAAGTACCCGCCGGGGTACGCTACGATTTCAACCCCGTCTTGGCGGAAGATGAAACCCAGAACTCAAAAACGGCCGCCCAGTTGCAGGCGATGATGCGTGAGGATCCGGGAAACGGCTACCAGCACATGCTCCAGGTTTACCGGGACATGGTCCAAACCACCCACGCCCAGGACGCGTACAAGCATTTCTTCGATGCCCTGCTGGATAACGAAAAAGACGGTGAAGCCGTCCTGTTCCACTGTGCGGCCGGCAAGGACCGTACTGGCATGGGCGCTTTCTTTTTCCTCAGCGCCCTGGGCGTCCCTGATGACATCATCACCCAGGACTACTTATTGACTAACGAGACCAGCAAGAACCGCGTTGCTGAAGTACTGGCCGAGGTACGCAAGAATGGCGGGAATGAAACGATGGTCACGAACATTAAGGCGCTCTTCACCGTCAGCACCGACTATCTCGCCACCGCCCGCCACGCCATCAAGAATATGAGCGGCGACGTGCAGCATTACCTGCGGGATGTCTTGACCCTAGGTGACGACGACATCCGCGACTTGCAGCGGATATACCTGACGAAGTAA
>SRR1151209_01768 epoxyqueuosine reductase
ATGCACGCCGACTTAAAACAGCAAATCATTGCCGCCAGTCAAACGATTGGTATCGATAAAATTGGTTTCACCACCGCCGCGCCCTTCACCGACCTGAAGCCCAGTCTGGTAGCCCAACGGGAAAAGGGCTATAACAGCGGCTTTGAACACCAAAATATCGACGAACGGGTCTATCCGGACAAGATCTTCAACCAGCCCCGCTCGATCATTGCCATCGCCCTGGCCTATCCCACTCGGATGCACCAGCGTGCGCCCCGCAGCGAGTATAAACGCGGCTATTTTGCCCGCGCCTCGTGGGGCACTGATTACCACACGATCCTGCGCGCGAAGATGACCCAGCTAATTGAGAAAATTCGGCAGTTGGCCGGCGATGATGCCAGCATTGCCTTCAAACCGATGGTGGACACCGGCGAGTTAGTCGATGTGGCCGTGGCCCAGCGGGCTGGCTTGGGTTTCATTGGCAAAAACGGTCTGCTGATCACCAAAGAATTCGGCTCCTGGGTCTATCTGGGCGAGATCATCACCAACATCGATTTCCCGCCGGATACGCCGATTCCTTGCCAATGCGGGGAGTGCACTCGTTGTATTGACTTCTGCCCGCCCTCAGCGCTGCTGGGCGATGGCCATCTCAACGCCCAGCGCTGCCTATCCTTTCAGACCCAAACCAAGGGGATGATGCCGGCCGAGTTCCGGCCGATGATCCGTAACGTGATCTACGGCTGCGATATCTGCCAACTGGTCTGTCCGTTCAATAAGGGTAAAGACACCCATTTCCACCCGGACATGGAACCCGATCCTGAGGCGGTCAGTCCGGAACTTGTGCCGCTGCTGGACATTTCGAACAAGCAATTCAAAGAGAAATTCGGTGCGCTGGCGGGCGCGTGGCGGGGCAAGAAACCGCTGCAGCGCAACGCCATCATTGCTTTGGCCAATATGCACGATCGCAGCGCGGTGCCGAAGCTGCTGGAAGTGATCGACAAGGATCCGCGCCCCGTGATCCGGGGCACGGCGGCTTGGGCGGTGGGTCACTTATTGAAAAATCAGAACGCTGAAATCAGCGCATTTCTCACCACTGCCTTAGCCAAAGAAACTGACGCGGATGCTCAGGCCGAATTCCAGCAGGCGCTGCGCGCCATCGCGGCATTGCCCGCTTAA
>SRR1151209_01769 hypothetical protein
ATGAAACTCTATCAAGCATTGACCCAGGTCACCGTGGATGACGCGATGATCGATGACGTCACCAATTTCAAGATCACCACGGAATTACAGACGCCGCTGCATTTCACGCCGCGCCAGATTTATCACTACATCGACTCGGTGCTGAAACCCGGCGCGCACCATGATGAGAATAACCTGCGTTTCGTCACCGATGCATCCTTTATCGCGGCAAATTATGACTATCAGAAAAACGACTTCACGGCCAACGCCAAAGCGTTTGACGATAAAGTCGCGTTTGCCCAGCGGATCACGCTGGATCTGAACCGGCACTGCAGTGTGAATGTGTATCCGGAGAAGAAAGAATTTCAGATCATTTTTGTGGATTAA
>SRR1151209_01770 major facilitator superfamily transporter
ATGCAAGAATTGAAACTCCGCTGGCTGCTGACGGGATCGCTGCTGAGCAGCATCGGAATGAGTTTTATTTGGCCGTTGACTAGCATTTATTTGCATAATCGGTTGGGCATTTCGCTGACCACTGTGGGCGTCGTGCTCCTGCTGAATTCCTTGGCCAGTGTGGCCGGCAGTTACGTGGCGGGAATGGCCTATGATAAAGCTAATCCTTACTGGCTGCTGTTGAGCGGCGTGGGGACAGCCTTTGTCACCCTGGTCGTGCTGGCCTTGCATCACGGCTGGCCGATGTTTGCCGTCTTGCTGTTTGTTCTGGGCATCACCTCCGGCTGGAACCTGACCCTGGTCAACGCCATCGGCACCGGAATTCGCCGGTATGACGGCCGGTATGTGTTCAACATGCTGTATTTTGCCCAAAACTTGGGTGTGGTCGCCGGCACAGCCATTGTCGGTTATGTTTACCACATCAGTGTAACGCTGCTGTTCGCCATTGCTGCTGCCTTGTTTGCCTTCTTTTTCGCCCTGGTATTTTTCACTTATCGGCCAGTGGGTCACCGGGCCGTCCGGGTTCGCCGGGCAGAGAGTGCAGGAGACCCGCAGCCGCTTCGGCTGCCCAAATGGAATCGCATTGTCCTGATCGCCTTCTTTGCGGCGTTATTGATCATTTGGACCATGTATCAGCAATGGGTATCTAACCTTTCCGTTTACATGACCGATCTCGGCATTCCGCTGAGCCGCTACAGTATGTTGTGGACGCTGAATGCCGGCTTGATCGTGGGTATTCAGATTCTGCTGAATACGTTGTCGCACAGTGGCAAGTATTTGATCTATCAAGTTTTCTTCGGCATCACGATGGTCGCTTTATCCTTTGTTGTCTTGATTTTTGCCAAGAGCTATGCCTGGTTCGTCCTGGCGATGACGGTCCTGACCATGGGCGAGGCCACTGCTTTCCCGGCGATTCCCGCTCTGGTCAACGATCTGACACCATTGGATTTGAAAGGACGCTATCAAGGCATGGTGAATGCCTGGGCCTCTGCCGGCCGGGCATTGGGGCCGTTGTTTGGCGGGGCGGTGATCGACGCCACGTCGTACACAACACTGTTTATCGTCGCCACCGCTGCTGTGGGGGTCGTGCTGTTGGCATTGGCGACGCTGTGGCTGCTGGTACACCAGCGATTGACGGTGTTTAATTATTGA
>SRR1151209_01771 glycosyl transferase
GTGACCTTATTAAGTGCCGTTGTACCTTGCTATAATTCGGAAGACTACATGGATCGCTGTATTGACGCTTTGTTAACAGGCGGACCGCAGGTGGAGATCATCATCGTGGATGACGGGTCCACCGATCGGACCGGAGCAATCGCTGATGATTATGCGGCCCGCTTCCCGGAAAGTATTCGCGTCATTCACCAGCCCAATGGCGGCCACGGGGCGGCAATCAATGCGGGCGTGCGAGCCGCTCAGGGTAAGTATTTCAAAGTGGTCGACAGCGACGATTGGCTGGACCCGGCGGCCCTGCAAAAAGTCTTGGCCGAGTTAGCTGCGAACACGTTCGACATGCTGATTTTCAATTATGTCTATGACAAAGTCGGCAAAAAGCACAAGCGGGTGATGCAGTTCCGCCGGGCACTGCCCCAGAACCGGCAATTTACCTGGCAGGACGTTAAGCTGCAGCCGGGCAAATATATCCTGATGCACTCCGTTATTTTCCGCACCGCCATTCTTCAAGACATGCATCTAACCTTGCCCCGGCATACGTTCTACGTGGATAACCTGTTTGTTTTTGAACCCCTGCCCCATGTCCGGACCATGCGCTATCTAGACGTTGATTTATATCATTACTTCATTGGCCGGGCGGATCAGTCGGTGAATGAAAAGGTGATGGTCAAACGGATCGAACAGCAGCTGCGAGTCAATCGCGCCATGATCACCTATTATGCTGACTTGCACCTGACCGATCCCCACCTGGCCCGCTACATGCAGTCCTACGTCGGCATTGTGACGGGAATTTCGTCCATTGTTTTGCTGAACGAGGGCTCCATGGCCAGTCTGACTCAGCGTCATGCCCTGTGGCAGTTCATGGCCCGGGCGGATCCGGCCTTATATCGCAAGGTCCGGCACAGCTTGGTGGGCTGGGGTGTGACCCTGCCCGGCCGGGTCGGTCGGCGGATGTCGTTGGCGGTCTACCATATGCTGCAACGTTTCTACAGCTTTAATTAG
>SRR1151209_01772 UDP-galactopyranose mutase
ATGAAATTATTGGTTGTGGGGAGCGGTCTGTTCGGGGCCGTCGTGGCCCGGGAACGGGCCCTGGCGGGGGATCAGGTCACGGTGATCGAAAAGCGGGACCACATCGCCGGCAATATTTATACAGAAGACATGGCGGGGATTCAAGTCCATCGCTATGGCGCCCATATTTTTCATACTAACTCAGAGCGCGTGTGGCAGTATGTCCAGCAATTTGCCACCTTCAATCGATTCACGAATCAGGTCATCGCCAACTATCATGACCGGTTATTCAACTTGCCGTTTAACATGAATACCTTCCATCAAATGTGGGGCGTGACGACCCCGATTGAGGCCCAGGCGAAGATTGCCGAGCAGCAGCAAGCTGGTGCCACCCGCCGGCCGCACAATCTGGAGGAACAGGCCATCGCCCTGGTGGGCACAGACATCTACGAGACGCTGATCAAGGAATACACGGCCAAACAATGGGGCCGGGCACCCATTGATCTGCCCGCGTTTATCATCCGCCGTCTGCCAGTCCGCTTTACCTATGACAACAACTACTTTAGTGACATCCATCAAGGGATCCCCGTGGGCGGCTACACGCAGATCGTGGCCAAGATGCTGAAACTGCCCACGATCAGCGTTCAGCTCAACACGGATTTTCTGACCAAGAAAGCGGCTTATCTGGCGGACTATGACCGGATCGTTTATTCTGGAATGATCGATGCCTTTTTCGATTATCAATTCGGCGCGTTGGGTTACCGCAGTCTCCGCTTTGCGACGGAGCTGCTGGATACGCCGAACTTCCAGGGCAACGCGGTAATCAATTATACTGACGCGGAGACGCCTTACACCCGAATTATCGAGCATAAGCATTTCGAATTTGGTGCCGGCAACCGCCAGCAAACGGTGATCACCCGGGAATATCCAGCAATCTGGACGCCGGGGGCGGAGCCCTACTATCCGATCAATGATCCCGAGAACGATGCGTTGTTCCAGCAGTACCGCCAGTATGCAGCCACGGCGGCCCCCAAGGTGATTTTTGGCGGCCGGCTGGGAGCGTATCGATATTACAACATGGACCAGGTGATCGCGGCGGCGTTGCAAGTGGCGCGGAATGAGCAGCTTTTCAAGTAA
>SRR1151209_01773 hypothetical protein
ATGCCTCATAAACAAAGAAACCATTGGTTGTCAGTGATCCTAGTCAACGTGATCATTTTGATCCTGATGCACTTATTCTGGCCGGTCCGCATTCTGGTCACGATCATGTCAGTGATCGTGGTGCTGATCGTACTTTATGTGGTCGTGCAATTCATCATCGCCATGGTCACCTATCATCCGAAGAAAGAACCGAAGCAATAA
>SRR1151209_01774 hypothetical protein
ATGAGCACTATGACACACAAGGAGCGCCAGAAAGTGGGCCGTCTGCTAGCTATTAAATTGTTGAACAATAACGTGCCAGAAGACGCGCCAGAGTGGCAGAAAGTACGCGACCTGCTTTGCGGTAAAAAAGAGAAAAAGGCAAACAAGCGCCCAGCTAAAGTAAACGGCACTAAAAAGCGCCAGTTAGAAGCCATCAAAAAGCGCAAGCAGATATATCCAAGACTCATTGAGCAAGGATATGCTAACTGGCAGATCGGGGCCAAGCTAGGAATATGCAGGTCCGTTGTATCACACGATCTTATGCGCTTTGGCTTGCAAGCTCACCAGCGCTATCACTGGCGGGCAACAAATACAGCAACTAAGAATACTGGCTATTATATCAATGCATCAAGCTTGCAGGCTGATACAAGAATAGTCAAAGCACTGTGGCGTATCGACAGGAAAGCTGTTGTTGGTCCGTGGCTGATCGAGCGCGGGTGCTGGTATCAGGACAGCCAGGGCAACTGGTATGAGGCACCGAAATGA
>SRR1151209_01775 phage DNA replication protein
ATGGCAGACGGAGGCTGGATAAAGCTTTACAGAGTATTGCTAGATGACGACCTCTGGATTGACTGCACACCGGTTCAGAAAGTCGTGATGATAACGCTGCTGTTGATGGCCAACCACAAGGAACGAAAGTGGATTTGGCAAGGTAAAAAGTTTGCCGCCAAGCCGGGACAATTGGTTACGTCTCTTGAATCAATTAAAGGAAAGGCAGGAAAAGGCGTCAGTATTCGAGCTGTTAGAACGTCATTGACCAAGTTCGAAAACGTCGGTTTTTTGACAAGCGAATCGACAAACTCTGGACGCCTTGTAACCATTGCTAACTGGGCAAAATACCAAGAAGGCATTGAAGAATCGACAAACGAGTTGACAGGCAATCGACAAGCAACTGACAAGCAAGTGACAACTAACAAGAATGTAAAGAATGATAAGAATGAAAAGAAGGAAGATAGTCAGCATTCCCGCAAGCGGGAATACGCTGACGACTCCCCTGAAATGATTGAGGCTGTTTACCTATGGGAAAAGATCAAAGGCAACAATCCAGAGCACCGTAAGCCCAACCTGCAGTCATGGGCTGATGACGTCCGAAAAATGAATGATCTTGATCACCGTCCGTTTGAAAAAATCCACAAGATGATTGACTGGTGTCAACGAGATGGATTCTGGAGCACTAACATTTTAAGCGCTGCTAAATTGCGGTCTAAGTATGACACCATGGCCGCTCAGGCAAACAGCAAATGGCAATCGCGTAATCGTCCCATCACTCCGAAGACGGCGCAGCCAGCTTGGGCTGACCCGGATTACAAGCCAGACACAGTCAAGCCAACAGACTTAGTAACAAAGCAGCGGCTGGCTGAGCAGATGGCTAAGCTGCGAGAGAATCGAGAAAAGCGAAAGAAGAGCACGAGATGA
>SRR1151209_01776 phage single-strand DNA binding protein
ATGGCATTTTCAATGGACTATTCAAAAGCCACCGAGGGCGGTGTGGCTGACGGCACTTACGAGGCAGTGATCAAGTCCGCCCAGTTCAAACTCACCAAGAGTGAGAAGCAGTACATCAACTTCGATCTGGTGATCCGTAACGATATTGACCAGCATTACAAAAATATGCACGTCTTTCAAAAGGTTTGGCCAAAAAAGGGCACTCGGGACTACAGCATGGGCTATCTATTCATGATTGGCATGAACGCAGGCATTCCGAATAAAAAGGAATTCGCGTCAATTGACGATATGCTTGCAGACTTCGCTGGAAAACCAGTCAAGGTATCTGTTAAAAACGAAGACTCGGAATACAACGGCAAGACCTACACCAACCTGAACATTAAGAAGTGGGCCAAGTCTGAATTTCCAGATGTGCAGCACAAGTGGAAGACCGAGAAAGAAGAATCAGATGACGACGCCCAAATGGCTGATCCGTTTGCTGAAAGCAGCAAATCTGTCAGCATCAGCGACGACGATCTTCCATTCTGA
>SRR1151209_01777 phage NTP-binding protein
ATGCAACCGATTGTGTCTGCAAAGAGCCTTAACCGTACCAAGAACTGGCGGGTGCTCATCTATGGCAAGCCTGGTGTCGGTAAGACGACTGCGGTTCGCCACTTGACTGGAAAAACTTTGGTACTTGACCTGGACGATTCGAGCAAGGTGCTTTCCGGTGCGGACAACATTAATGTACAGCCATTTGACCGGACGAAGCCAATGGTCGAGATGAACGATTTCGTTACTCACTTAAACGACATCATCAAAGGGTATGACAACCTGGTCGTGGATAACATCTCTGCATTTGAAAAAGATTGGTTTGTTGAACAGGGCCGGAAGAGTACCAACGGCATTGGTAACGAACTTCAGGACTACAGCAAATGGACAAACTACTTCGCCCGGGTCATGACGACTATTTTCATGGATGCAGATCTCAACGTCTTGGTCACGGCATGGGAGAATACCCGCGATATCACAGCAGCATCTGGGCAAGCATTTTCCCAATACGCACCAGCCATTCGGGACAGTGTGCGGGACAGCTTACTGGGTCTGACCGATGTAGTTGGCCGGTTGATCGTTAATGCGAAGACTGGCGGGCGTGGTGTCATCCTTGAAGGCACCGACGCAATCTTTGCCAAGAACCGACTGGACAATCGCAAAGCTGCATCCATTGAAACATTGTTCGATTTTGGCAAAGTCAAAAGTGAGACGGCGAAGAAAGAGCCAAGTGCAAAAACAACAGAGAAAGCGGAGGAATAA
>SRR1151209_01778 hypothetical protein
ATGAATAGCTTAAACCAAAACGAAGTATCTGTCACGAACTTCGGTGTCAAATTTACGCCGGCGTCTCTGGCTATCCAGAATTATGACGCCATGGTTGAGCAGACCAAGGCTATTGCCGCCAAGTACGCTAATCTGATGATCACTGAACGGACACTCAAAGCAGCCAAGCAGTCACGAGCTGATCTGCGCAAGTTTCGGGGCGCTATCGAGGACAAGCGCAAGGAAGTTAGACGGGAATATGCCAAGCCTTATGACGATTTTAAGGACAAGGTGGATGCACTGACTAGCATCATTGACCAGGCCATTGCCCCGATTGACGAAGGCGTGAAGGGCTTGGAAGAACGGCAGCGGCAAGAACGGGAAGAAGCCGTGCGTCAGGAGATCAAGACCATCACGGAATCCCGTGGCTTGGTACCGGATGACATTCAGTACGATCAGCACTGGGAAAACAAGTCATTATCCAGCATTGAGCGCACCCGTCAAATTGCGGCCGCAGCCGATTTCGTCAAAAGCCAGAAGGAAAAGCATGAGGCTGACCGAAACGCAATTGCTCATTACGCCAAGGCATTGGATGTTGACGCTGGCGGCTGGCTCGGAATGGTTGACCAAGGTGTTGAGATGACCGACGTCATGGCTCGGATGGACAACTATGCTGAGCAGCAGAAGCAGGAAGCAACGAACGAGAAGCAATGTCAGGAAGCACAAGCAGCTATTGACGCCCTGCACCAAAAAAAGGTCGGTGAGCATGTGGTGGACACGGAAACCGGTGAGGTCATGGACGCCGTGCCCGATAAGTACAGCTACGTTATCGAAGTCTCTGCCACGCCGTACGAAATGGCCGCGCTCACAGCCTACATGACTGAGAACGGTATGTCCTGGGCGGTGAAGTAA
>SRR1151209_01779 hypothetical protein
ATGATGCCTAATTGGTTGTACTACATCAAGGATTACGAAGCGTTCGAAGAAAACTTGGACCGTGTCCGGAATTATGCCACAGAGGTAGACAATGACGTTTTTATCGATGACGCTTCGCCGGAAGCAGATGCCACAGCGTTGAATGTTGCACTTGATGTCCTGGACGCACAAATCAATCGTGCAAAAAAAGCCGCCGACGGGGAAACGTCAGACGGCAATGTGAAAGGGAATGTTTTACATGAATAG
>SRR1151209_01780 hypothetical protein
ATGGTGGAACCAATTGATCAGTATCGGTTAGAGACAGCCGAAGCATACCGAGCACAAGCGTCAAGCGATTGGCAGAAGCGGTTAGCAGACAGCATTTACATGCGGTTGTTGATCAGCTACCGCAAGAAAGAAATGGAGGAACAACGATGA
>SRR1151209_01781 hypothetical protein
ATGATCGATATGAAGATCGACAGTCACCATTACACGGCACTAGACGATGAAGAGTTTGCGGAGTACCAGCGGCTTAAGTCAGCAATCAGCCATGAAAACCTGCATGGTGTTTGGTCACTCCGCCAAGCTTATAAGTACATCGGCAAGGATTACAAATTCATGCAGTGCATCCTGCGCAGTACTGATGGGCATGAGCTGCTTAAGAAAGTTGTGATTCCCAGCGATAAAGCACACGGCCATTATGATGTGTTTGCTGATGAATTTATTGATATTTGGGACAAGCATAAGGCCGACTTGGTGCTCATTGCTCGGCGAATGCGGCCAATATTGTACCCAGAAACGAGGCGATAA
>SRR1151209_01782 hypothetical protein
ATGAAGCTAACAATTGAAGCCAGCACCACCGAGTTACAAAAAATGCTCCAGGCTATTGCAGGTAGCCAGGAGCACAAAGAAGGGTTTCAGCCTAGCGACTCTGAAAGCATTATCATGCCGCTATCAAGTGAGGGTGCAAAAAATGCGCGGGACAAGCTTTCGGGTGCAGTGAGAGCACTTAACGAGTTATCTGAACATTTCTCAGCACCGGTACTGCATGGACACTCTAAGATTTCAGCAGACATGAGTACGAACGTGACATTGGACGTCACAGATTTAACCAGTCTGCTTCACCAAGCAATTACCCAAGCAAAGCAATTACAGACAACGATGAATCAAGTGAATGAACTTATGAAAGGCCAGTTTGGCGGAGCACCAATTCCGCAGTTGCCTTCTCGTTCATAG
>SRR1151209_01783 phage antirepressor
ATGAACGATTTAACGCCAATCGAGAATCAAGGCCAGCGGGTGCTGACCTCTGATCAACTAGCGGAACTGTACGGAGTTTCTACTAATGTGATCAAGAACAATTTTGCTAACAACCGAGACAAATTCATTGACGGCGTGCACTACATCAAGCTAGAAGGCAACGCACTCAAGGAGTTCAAGAGCCAAGTCAAAAATATTGACCTACCTATCAACAAGTTTGCAAGTACCTTGTATCTCTGGACCAAGCGCGGCGCCGCTCGACACTCGAAGATGATCGGCACTGACACGGCCTGGGATGTGTTCGACAGCCTCGAAGAGAATTACTTCAATCCTAAGCCTAAACTGCTTGTGCCACAGTCGTTGCCAGAAGCATTGCGGCTAGCGGCGGACTTAGCCGAGCAAAAAGATCAGGAACGTTCTGGCCGCCTGATTGCTGAACAGCAGGTCCAAGAGCTGAAGCCTAAGGCGGACTACTACGACATGATTCTGGCGAGCAAAGGTCTTGTGACCACCACGTCTATCGCAAAGAACTATGGCATGTCAGCCAGAATGTTCAATTCTCTCTTGCACAATTGGGTCATTCAGTATAAGCAATCAGGAAGTTGGTATCTGTACAGCCAATACCAAGGCCATGGTTACACACACACAGTGCCAGTACCATACGTACACGGTGATGGCCGAGTAGACATTCATCCCAACACCAAGTGGACGCAGAAGGGACACAAATTCATTTACGAGTTTCTGAAAGCACGTGGAATCTTACCAGTAATCGAGCGAGAAATGGAGGAAGCAAAATGA
>SRR1151209_01784 hypothetical protein
ATGAAGAACCCGGGATATAGAAATTTGAAAGGATGGCTTGTTGCACAGGGCATTTCTCAAAATAAAGTCGCATTCGTTCTTGGGACGACTCCAAACTATGTGAATAAGAAGCTTAACGGAACTGGTCCAGACTTCCGCTTGTCAGAGGCTCGAAAGCTTCATGGTACTCTTGGGGCACCCATGGCATATTTTTTTGAGGTTGATGTTCCTTTTTCGGAACAAAAGGAGGTTTCACGATGA
>SRR1151209_01785 peptidase S24-like protein
ATGGCGAAATCCTTATTTGGCAAGAGGCTACACGATCTTAGACTACTTAAAAAAATGTCCCAGCAAGAGCTTGCTGACAAACTCAATGATTGGGCGAAAGAACACGATCCAAGTAATCCTTCTGCTATCAGTAAAAGCATGATATCACGTTGGGAAAACGGCAATACTGATCCTCAAATGTCCTATGTTAGGCTCGTGACTAAATACTTCGGGGTTAATCCTGAGGTGTTTATGAATGAATCCTGGTCCCTGGAAGACGACGTCGTTGATAATTCGGTAAACAAAAATGTTTTCACTAGAGTTAACAACATTGTACCTATATACAACCAGCTTCACCCCGCCCGCCAGGAAAAGGTGTACAACTACGCCAATGATCAATTGAAGCAACAGCAAAACGAAAACGTGATCTCACTCGACGACGAGCGCCAAGAACGCCAGCCGATGCTTCTCCATATTGCCGGAACTGTATCAGCTGGGACAGGCGAGTATCTTCCCGACGATGATACGGGCGACGACATTCCATTCAGCGGACCTGTTCCGGATTATGATTTTGCTCTCCGCGTCAATGGTGATTCTATGGAACCGATGTTTGAAGACGGCCAAATAATCTTCGTAAAAAAATGTGATGATTGCGATGTCCACAGTGGTCAAATTGTCATTGCTGATCTTAATGGTGATGCGTACGTCAAAAAGATCGACATCCAACCAGATGGCGTGCGCTTGGTTTCATTGAACCCTAAGTACAAGCCAATACTTGTTGAGAGCTTTGACGACTTTGCGATTCAGGGGATCGTAATGCTATAA
>SRR1151209_01786 hypothetical protein
ATGAAGCAAAAGAAGAAGTTTTACAAGCGTTGGTGGTTCTGGGTTTTAGTGGTGATATTGATTGGCGCAATTGGATCTGGAATTGGCAACCAGGGAACTGACGATTCAAGCACGTCAAAAGTACAGAAAAGCTCCTCATCAAAGGTTGAAAAAACCTCGTCAGCCAAATCCTCGTCGTCTAAGCAAAGCACGTCTGCTAGCTCAAAATCTTCTGCACCAGCAAACACTGCAAAAGAAGTGACACTAAATACTGGGGAATGGACCGTTGGCACTGATATTCAGCCTGGCAGATACACAATCACCCCTGTATCCGGATCTGGTAACCTAACTAGCACGGGTAGTGGTCAGGGTACGGATATAAATGAAATACTGGGACAAGATGATGGCATGGGAGTTGCTTCAGTCACCACAGACTTGATTAGAGGAGAAAAAGTGAAGCTGGATGGTATTCCTCAAGCTAAGTTTTCTCCTGTTGTTTCCCGGAACAGTGCTAACACAACCGCACTCTCTACTGGCACTTGGATTGTTGGTAAGGATCTCAAGGCTGGGCGATACAATGTTTCCCCAGATAGTGGTCAAAGCGGTAACTTCACTGTTGATGGGTCAACTTCTGTCAATGAAATATTAGGGGACGGCGGCACAAGCAAGGTTACAATGACTGTTAAAAACGGAGACGTGATCAATGTTTCTGGTATGACCGGAGTGCAGCTTTCACCATATAATTGA
>SRR1151209_01787 integrase
ATGGCTGAGATCAAGAAACGTGGGTCAAAGTGGCAGTACCGGGTGTTCTACACCGATCCGGATACTGGTAAGCAAAAGTCCAAGTCTAAGTCTGGATTCGAAAAGAAGAGCGATGCAATCGCAGCGGCACGGGAACTGGAAGTTGATAAGGAACATGGTGCAACAATATCCGAACGGGACATGACGTTCGCAGATTATTACGCTCAATGGATCAAAGACACCAAGTTGGGACGGTATTCATATCAAACGGAAACATGGTATAAGCGGGTCCTCAAACTAGTCCAAGAGGGATTTCCCGGTGTGCCGCTTGCCCAGATCAATCGGCGCAAATATACCAAATTTTTAGACGATTACGCTGCTGATCACTCCAAAGAATCAGTGGATAAGACAAACACGTTCATCCGGGCCATGGTCAGGGATGCCATGAGCGAACGCATCATCTTCACGGACTTCACCGCTGGCGTCCGCAATAACGGTAATCCCGGCAAGCGGGAAGCCGACAAATATCTGAATGAAAACCAACTGAAGAAGTTGACCGATGTCGTCGAGAAACACCTATCCCCTACTGCCATTACCACTTATGAAATACTGACAGCCATTTACACCGGTGCGCGATACGAGGAAATAGCAGCAATCACCTGGGACCGAATCGACTGGGATCACAAGCAGATCACTTTGGACCGAGCATACGATTATGTACAGCGCAGCGGTTTTAAATCAATGAAAACCCCAAACTCTATTCGCACAATTGACGTGTCTCCCCGTTTGATCCGGGCCTTGTCACAGCTCCATACGCAGCAGCAGAAGCGTTATATGCAACTGGGGTATAGAGATAAGGACGGGCTACTGTTTCGTGGCCAGCAGCTTGTAGTGCCGTCAGACGGAGGAGCTAACAAAAAGCTCAAAGAATTAGAGGAACAGGCTGGCATACCGCCAAACCAACGCGTTACATTTCACGGCTTGCGTCACAGCCACGCCAGCTACCTGCTGGCCCACGGAGTCCAGATCAGCTACATCTCCAAGCGGTTGGGACACGCCAACATTGCTTTGACTCTTCGCGTATACTCCCATCTTCTCGAGGAAACGTACAAGGAAGAAGCGGCCAAGTCCTCCGACATCCTAAGTCAGTTGTAG
>SRR1151209_01789 phosphoglycerate mutase
ATGACAGAAATTACGCTCGTGCGTCATGGCGAGACAAACTACAATGCCCGGGGCCTGATTCAAGGGGCCAGCTCCGACATTCCGTTGAATGAGACTGGCCAGGAACAGGCGGCCCAGCTGCGGGCGCACCTGGATATGAGCCGGTATGACCGCATCATCAGCAGCGACTTGTTGCGCGCCTTTTCCACTGCCCGAATCCTGAACAAAGAAGCGAATTTGCCCATTGAACAGGACGATCGCCTGCGGGAACTGAATCCCGGCGATTGGGACGGCAAGGCTGTTGCGCCATTAAAGAAGGAATTTCCGGGGGCATTTGATGATCTCGGCTTTTTGACTCCGGATTATGCCACTGTCGCCAACGGCGAGACTTTCCCGGCTGTACGGGACCGGCTGCTGGATGGGGCCAAGAGCTATATTGAAAAGTATCCCGACGGTCATCTGCTGTTTGTCAGTCACGGCTTCGCGATTCGGGCCCTGGTGGCTGAATTGCTGCATCTCGCTGATCTCTATCAGCTGGCGCAAATGCAGAATACCGGGGTCGCCCGGGTCGTTGTGCATCCCGATGATTTGTTGACCCGCCTGGTTTTCTACAATCGCGGTTTCAGTAATCAAATTATTTAA
>SRR1151209_01790 phosphoglycerate mutase
ATGGAAATTTACTTAATGCGTCACGGCGAGACCCGGGCGAATCACGACTTGATCATCCAGGGCGACAGCAATGCCCCTTGGGCCCAATTGACAGCGGCCGGCCGAGCCCAAGCGGCAGGGATGCACGACCGCTTAGCAGCGCTGCATCCGACCCAGATCTTTTGCAGTCCCTTGGACCGAACTCGGGAGACGCTCGCCCAGGCCCTGGGCGATGTCCCCGTGACCTTCGATACTCGGCTGCGGGAAATTCATTACGGTAGTTTTCAAGGGCACACTCAGGAATGGGTGAGGACCCTGTATCCTGAATGGTGGCATGCCGCGGTGGGCAACGTCCTGTCGGGCTATGAATCGGTGAGCGGCGGCGAGTCCTTTACCGATGTGGCCCGGCGGACCATGGCCTTTCTCCGCAGCATCCCGGAACAGGCTGGACCGGTGCTGGTGATCACCCACGGCTTCGTGATCCGCAGCGCCCTGGCCGGTATCCTCGGGGTGCCGGAGACGGAGACACTGCTGGAACCGCCCAACGTGTCCCTGACCCGGGTAACGCGTGATTGCGATAATTTTGCAGTATGGTACTATGGCCGTTAG
>SRR1151209_01791 hypothetical protein
GTGGCAAGAATTCAGGCGGCGGAACATTACACGACGGTGGAGGCCTTCCGGGCAATTATTCGGACCCGCATTTTGCGGCTGACCCGGACGGAGTTTCTGAACGATCCCAACGACACCCAGGTGTGGAGCCATTTCATGCAGAAATTTGTGAACGCTAATCAGCAGCGGATCGCGCAAACGGTCAATGCCATTGCCGGTGATGATGGCCCGCAATTGCTCCAGCTCTATTGGCACGCGCCCATTGAGGGTTTCATGACGTTCATGCAGCAGCGCATCAAGCTCTACGTCATGGCCCTGTCTACTGATGAAGACGCTATTCCAATGTGGAACTATTACGGTTACGGCGGCATGGAAATGTCGTTGGACCTGAACGGGTTCATGCAGGATCTGCAAGGCCAGCTGCGGCCCGGCAGTCATGAATACATTGGGGCCTCTCGGGTGATTTATGTGGACAGCCATGCGAATATTACCAAGGCCCACATTGCCAGCGACTTTCAGGATTTTCTATTGGCGGACACGAACAACTTGGATCTGTTCACGGCGGATCGGGAGGCACTGGCGGCTCGCCATCAGCCCACCGATGTGTTTGAACGGACCGACCTGGGCCAATACATTGATGACTTCATCGAGTCGTATATTTGGTCCCTGCGCTATCTGGCGAAGACTCAGCGGGTGATCGGCATCACCACGACACCCGCTGAGATTTATACCCGGTTGTTTGAAAATGACACCAGTGCGCGGGGCGAATACGCTTGGAAGAAAGATTTGCTGTTGCTGTTCGTAATGCTCACGGCGGCAATGAAGTCGGATAGTTACAGTTACGAGAAAGAATATCGGGTGTTCTACTTTGACGCGAGTCTTTCTGAGACGCCCCAGAAACAGGAGAATTTTGATATTCAAGCGCTGTCGGGGCAAAAGTATTTACGCCCTTACGTGGAACTGGCGGTGCCTAATTTGGCCGATTACTTGACGCGGGTGACGTTATCGCCCCAGACCCAAAACCTGCCGGTGGATGTGCCGGTGTATCTGGACGTGATCCAATCTTTATTGCGCCAATATGGCTTCCAGCACGTGACGGTGGCCAGTTCTCAACAACAGATTAGGTGGTAG
>SRR1151209_01792 hypothetical protein
ATGGTGATGGATCATTTAGTGTTGCTTTGGTTATTGGGGTACGCCGCGGTGGTCGCGGCCGTCGCCTTCGGCCGGGCTTTCTTGGGCCGCGGTGGGCGCCGGTTCCAGACCCATTGGGAGAATTTCCTGGGGAGCTTTCTCCGGGGCGTCTTCCTCCTCGTGGCGCTGGCGATTATCATGTTCGGATCGTTGTAG
>SRR1151209_01793 metal-dependent transcriptional regulator
ATGTCACCGAATAAAGAAAACTATTTGAAGACAATCTTTGAATTGGAGCACGATCACCAGAAGATCTCCAACAAAAACATTGCCGACATTTTAAACGTGAGCGCCCCCTCGGTCACTGAAATGCTCACCGCGCTGACGAAAGAGGGGCTGGTTTTTCATACCCCTTATAATGAAATCTCGCTGACCGACGCCGGTTTAGCCCGGGCCCGGGAATTGGTCCGCAAACACCGGATCTGGGAAGTGTTCTTAGCCGACAAACTGCACTACGCCATGGCGGATGTGCATCAGGCCGCAGATATTTTGGAACATGCGACCGACGACCGGTTGGCAGATCGGTTGAACGAGTTTCTGGGCCGGCCCAAACGCTGCCCCCATGGCGGCATTATTCCTGGCAATTCTGACATCGAAGATGACTCGGATATCACCCTGGGCACGCTGGCCCCGGAAGATAGTGCCACCCTGCAGCGGGTGATCGACAATCACGATTTTCTTAAATACTTTGAGGATTTGCAGTTGCGGTTGGGCGAGCGGCTGACCGTCGTGAAGAAAGAACCGTTCAGCGGGCCTTTTATTGTGCAAACGAGCGACCGGGCCACCGTGGCGATTTCTGAAAACGCGGCGGGCTACATGTTCGTCACCGACGTGCACTATCACACCAAGACACCAGACCAAAAGACAGAATAA
>SRR1151209_01794 excinuclease ABC subunit A
ATGTCAGAAAAACCAGATCATATTGCTGTTCGCGGGGGCCGGGTGCACAACCTGCGGAATATTGATGTGGACATTCCCTTGAATGCCTTCACCGCCATCGCTGGACTCTCCGGGTCCGGCAAATCGTCGCTGGCCATGGGCATTCTATATGCTGAGGGCTCGCGGCGTTATTTAGACGCCCTGTCAACGTATACCCGCCGGCGAATCAGCCAGGTGGGCCGGGCCGACGTCACCGCTGTGCACCATATCCCAGCAGCCATTGCCCTGCGTCAACGGCCCAACGTGCCTAACGAACGCTCCACCGTGGGCACCATGAGCGAAAGCCTGAACGTGCTGCGGTTGATGTTTTCCCGGATCGCGTCCCATCGCTGTCCCAACGGCCATCAGCTGCCGCCGAGTATTAAGATTGCCCAGGCGGCCGCAGTGACCGGTGAACACATGGGCGAGATCACCTGTCCCATTTGCGGCGTCACGTTTCGGCCGCCTTCCGCCGAGGACTTCGCCTTCAATTCAACGGGCGCTTGTCCCACTTGCGGCGGCACTGGGGTGCTGCGCCAGCTGGTGCCGGAGCGGCTGATTCCGGATCCGACCGAGACCATTGATGAAGGCGCTGTGGCCTCTTGGCGCTTGCCCGGCCGCAACTTTATGCCGGACGTCGCCCGGGCCATCGGCGTGCGCACCGATGTTCCGTTTGATCATTTGACGAAGAAAGAACAGCACACCGTTCTCCACGGGGCGAAAAAAGGCTATCCAGTGGATCTGCCCAGCGCCAACGGACGGGTGTTCCACATGAACAATGCCTTGTTCGAAAACGCCTACAATGCGGTGGAAGACACTGCAGCGAAGGCCACCAACGAGCGTACCTTGGCCCGCTTGGACCGGTTTTACGCAATGACCGTATGCCCGACCTGTCACGGCAGCCGTTTCAATCCCAAGTTGTTCACCGCTTTGATCAACGGCCAAAATATTGCTCAGATCAGTCATCTCACCCTGAGCCAGCTGCAGCACTGGAACGATGAACTCGCGGATACATACGATACCGAAATGCGGGCGCTGGTCAAAAATCTCAGCCGAGAACTGCGCGGATCTTTAAAGCCCTTGCTGGATCTCGGTCTGGATTACCTCACCCTGGACCGGGCGGGCAACACCCTGTCGACTGGGGAATTGCAACGGCTCCAGCTGGGCCGCACCCTGCGCAGCGAAACCAACGGTGTCCTCTACGTCTTGGACGAACCCAGTGTTGGCCTGCACCCCGCCAACGTGGCCGGGTTGGTGGGCATCATTCAGAAACTGATTGCCCTGGGCAACACCGTGGTGGTGGTCGATCACGACACGAATCTGCTCAATGCAGCTGACTACATGGTGGAAATGGGCCCCGGGGCCGGCCAAGACGGCGGCACGGTGATCGCCCATGGGTCGCTGAACCAAGTGGCGGCGAGCAAAGCGTCTCATATCGCGCCCTTCTTAACGGGCCAAGCACCGGTGATCGTGCGCCAGCAGACCGCCCCGGACCAGTTAACGGTCCACGGCACGATTCACTTGGCGATCAACGACTACAACAATCTCCATGGGGTCACCATTGATCTGCCTAAGCGCCGGCTGATCGGCATCTCCGGTTTCTCCGGGGCCGGCAAGACGTCGCTGATCCTGGATAGTCTGATCCCCGCGATCAAAGCCCAGCGCAAGCACGAGCCGCTGCCCCGCCAAGTTACGGCATTGACAGCCAAGGGCATCCGCCGTGTCGTCAGCGTGAACTCCGTACCCGTAGGCAAGAATGCCCGCTCCACTGTGGCCACCTATTCCGGTATCTTCGACCATATCCGAGCGCTCTTTGCGCAAACACCTGCGGCCCAGGCCAAGGGCTGGGATGCGGGCCACTTCTCCTACAACACAGAAGGCGGCGTTTGTCCCAACTGCGGCGGTACAGGGACGATTTCTTTGGATATCCAGTACCTGCCGGATATGGTTGAAACCTGCCCAGTTTGCCACGGTAAACGCTATAATCCAGAAACCTTGGCGGTGCAGTGGCATGGCCTGAGCATCGCCGATGTGCTGGATCTGTCGATTCGCGACGCACTGCCCCTGTTTCAAGACGATCCGGCGATCGCCGCGATTCTGCAGCATCTGGCCGATATGGGACTAGGCTATCTGATCTTAGGCGAAAGCACCCCGGCCATCTCCGGCGGCGAAGCCCAGCGGCTGAAGCTGGTCACCGAAATGGGCCGCAACCAAAAGAGCAGCCTCTTTGTCTTCGACGAACCCAGTGTCGGCTTGCATCCAGAGGACGTCCGGACCCTGCTCAAAGTATTCGAATCATTGCGGAAACAAGGTGCGACGATTATTTACATCGAACATGATCTGGATATGCTGGCCAACGCCGACTATCTGGTGGATCTTGGTCCCCGGGGCGGCGATGCAGGCGGTAAAATCATCGCGGCCGGCACCCCGCAGCAGGTCGCCAAGACGCCAGCCAGTATCACGGGCCGGTATCTCGCGAAGCACCTGCATTAA
>SRR1151209_01795 hypothetical protein
ATGAGTGACAATGGGGAACAACAGGCAGTCAGCGATAAAGTACTGAATGCGTTTGTGGATTTCTACCTGGCAGAACAGCAGAACGAAGAGTTGGATCAGATCAGCCAATGGGATGACCATTATGTCATGGCCAGCATCAATGAAGTGCTGCAGCTGAGCAGCTACTTTAACCACGAAGATAAGAAGGCCGCGCTGATTCGTGAGAAGCGGGCGGAACTGGAAGAATTGATCAATACCTTGATCGACCAGCACGGGGCACCGAATTCCAGCGATGAGGCCCAGTGGCTGGATTGGTACCAGCAGCACTTGGACAGCCTGTATTCCGGCGGTCGCAAGGGCGAATAA
>SRR1151209_01796 branched-chain amino acid permease
ATGGAGAAACCAAGATTACGGGGACGGGACTTAGGATTTGTCGGCATTATGCTGTTTGGGATGTTTTTTGGCGCGGGCAATTTGATTTTCCCCATCTTTATGGGGCAGCAAGCCGGATCGCACGTGGGAATGGCTGTTCTCGGCTTTTTGCTGACCGGGGTCGGGCTGCCCTTGCTGGGTGTGGTGGCCATTGGCATCACCCGCACGGATGGGGTATTTGGTTTGGCGAAGGCCGTCAATCGGCCGTTTGCCTATTTGTTCACGGTATTATTGTATTTGGTCATTGGGCCGCTATTATCCACCCCGCGATTGGCAACGGTTTCTTATGAAGTGGGCATTCGCCGCTTTGTTTCCCCGGGGCAGCAGACTTTGGTTCTGGCCGTTTTTTCGGTCATCTTCTTCTTCACCGTCTGGTGGTTCTCCCGCAAGCCGTCGCGGATCATGGAGTACGTCGGTAAGATCCTGACGCCGACGTTCTTGATCCTTTTAGGCGTCTTGATGCTCACGGCGCTGCTGCGGCCGTTGGGCGGGTTAGGCCATGCCGCGGTGGGGACATACGTCAGCCATCCGTTGAACACCGGCTTCGTGGAGGGCTATAACACCATGGATGCCCTGGCTTCGCTGGCCTTCGGTATCGTCGTCATCGACACCCTGCGCGGACTGGGCGTCAAGGAACCGAAGCAGATCGCAGCGAATACGATTCGCGCCGGTGTGATCAGTATGGTCCTGATGGGGGTGATCTATGCTGGTTTGGCGATCATCGGCGCCCAATCCCGGGGGGCGTTCTCCCCGGCAGCCAACGGCGGGGTGATTCTGGCCCAATTGGCCGAACATTATTTTGGCCGCTTGGGCAGCTGGCTGCTGGCGATCATCATCACCTTAGCCTGTTTGAAGACTGGGGTAGGGCTGGTGACAGCCTTTGGCGAATCCATGCATAAGCTGTTTCCCCGGATTTCCTATAGTGTATGGGCCATCATTGCCGCGGGGCTGCCGACAGTGTTTGCCAACGTAGGTTTGGATGGCATCATTGCGTTGTCCATGCCAGTGCTGAACCTGCTCTATCCGTTAGCCATCATCCTGATCCTTACCGCGCTGGCCAGCACGCTCCTGCCTGCCCAGCGCTGGACCTATACCTGGGCAATGATGTTCGGCCTGATTCCGGCGCTGCTGAACGTCATCACGGGGCTGCCGGCGAGCTTGCAGCATTGGTCCGTGTTGGCGGTCCTGCTGCACTGGGGCGAAATTTTGCCGCTGTATCAGGCCGGTTTCGGCTGGGTATTGCCTGCTGTCCTCGGCTTTGCCGTCGGCGCGTGGATCGATCACCGACGCGCACGTGCGGGCGCTTGA
>SRR1151209_01797 membrane protein
ATGGCTCAGCACCCTAACCACCCGCCCGTTTTCCCGCTCCATGAACAGCTTCCCGCCGCCATGATCCTCGCCGGCGTGGGCGGCTACATGGATGCTTTTTCATACTTATTACATGGCAATGTCTTCTCCAGCCTGCAATCAGGGAACGTCATTTTGCTCGGCATCCACCTTGCCCGGGAGCAATGGGCCAGCAGCGGCCACTATCTGCTGCCCTTAGCCGCTTTCTATCTGGGGGCGTTTTTCATCACCCTGCTCGCCCCCTACGTGCATAAACCCGGGCAGCGGCGCACCCACATCATCGGGGTCAGTATTGAAATCATCATTCTTTTGCTCACTGCCCTGTTTGGCGCCCGCTTGCCGGACACCGTGGTCATCGCGATGATGTCGTTCACCGCCGCGATTCAGCTGAGCGTCTTCCGTAAGATGAAAGGCCAGCCATATACGACCACCATGACCACCGGCAATATCCAGGCCAGCGCGGCTCATTTGGCCAATGCGGCACTGGGCACCTCCACCTTGGCCGGCCACCGCAGCTGGGACCGGATCGCTGTCGCGCTGGGCTTCGGCCTCGGGGCCTTCCTGTCGGCCAGCCTGGTGCCGCAGCTGGGCCAGCACGCCATCATTGGCGGGGCGGGATTGCTGGTTATCGTGCTGATTCTGCTGCTGCGGGAGAAGCCTGAATTGACCGCCTAA
>SRR1151209_01798 aminotransferase
ATGACAAAATTATTTGCAGAACGGACAATCAAGGCTGGAGAAGCTGGGATCGCCGACGCCTTTGCGGCCAGCAACGATGCCAATCTGATCTCCTTTGCCGGCGGGTTCCCGGATGCCGCGCTGTTCCCCAACGCGGCCATGGGCGCAGCTTTCCAGCACGCTTTCACCGACGGGTCCCAAAACATATTGCAATACCACGACAACCGGGGTTACTTAAAATTACGGGAACAACTGGCGGCACGCTTGACGGACGACGGTACGCCGACTCAGGCCGATGATATTATTTTGACCCAGGGCGCGCAGCAAGCCATCGATTTGGTGGCCCGGATGCTGATCAACCCCGGCGACGGCTTAGTCGTTGAAGCGCCGACTTACTTTGGTGCCTTGGGGGCCTTTGATAACTACGGCCCGACCTATTATGAGGTTCCGATGCAATCTGACGGTATGGACATGCATGCGTTGCAAAAGGTCCTGATGGCCCATCCCGTCAAGATGATCTACACGATCCCGGATTTTCAGAATCCCACTGGTATCGTCATGTCCTTGAAGAAGCGGCAGGAACTGCTGCGCTTAGCTAAGCAGTACGACGTGGTCATTTTGGAAGACTCTCCGTACCGCTGGCTGCGCTTCACCGGCGAACAGCTGCCAACGCTGCAATCCCTGGATACCGACGACCGGGTCATTTCTTTAGGCAGTTTCTCGAAGATCCTGGCTCCGGGGCTGCGCCTGGGCTGGGCATCCGGCGGTAAGCGTTGGATCGACGCCATTGCCAACTTGAAGAATGGGGCGGACTTAGAGAGTCCCTTCATGACCATGGTGGCCGTTTCTGATTATCTGGCCGAGAACAGTCTGGATGACCACTTGGTCCAGCTGCGCCGGACGTACCAGATGAAGAAAGACGCGATGGTCAATGTCCTGCGCTGCAATTTGCCGGCGGGCTTTAAGGTCAACGATCCCCAGGGCGGGTTCTTCGTTTGGTTGACTGGGCCAGCAGACGTGGATATGGGTCAATTGCTTAAAGATGAGGTTTTGCCCCATGAAAATATTGCCTATATTCCGTCCCGCAATTTGTATCCGTCGAAGAGTGTCGTAAATGCTGCCCGGTTGAACTTTACCGGTGAAGACGTGGCAGCCATTCAAACCGGTGCGGCCCGGTTAAGTGCAGCGTTGGCGCAGGCGGTGGTACAGCCGGCGACAGCGGCTGGCTTGTCCTAA
>SRR1151209_01799 LysR family transcriptional regulator
ATGGCAGATTTTGCCTATCAAGTCTTTACCGAAGTTGTTCAACAAAAAACCTTCGTGGCCGCTGCCGCGCGGCTGAACGTCACCCCCAGCGCGGTGAGCCACTCCATTGCCCAGTTGGAAGCGACCCTGGGCTTTCCCCTATTTATCCGGCACCGGACCGGCGTCGAACTGACTCCGGATGGGGCGACCATTCTTCCCGTGATCCAGGATATTTTGAACAAAGAAGCCCAACTGCAGCAAGTCGCGGACAGCATTCAAGGGCTGAATTCCGGACTCGTGCGGTTGGGCGCATTTAGTAGTGTGTGCATCAATTGGCTGCCGGGGATTATTCAAAACTTCAAGAAACGCTATCCCCAGGTCGAGGTCGAAATCTGGCAGGGCACCTTTCCCGAAATTGCCCAGCAGGTGCGCCTAGGCAGTATCGATATCGGCTTCTCCACCCTGCCGGTGGAAGAAAATGTCCAAGTCGAACCGGTGGCGGCGGATACGATCCGGTGTGTCACCCCCACCGACTTTCAACCCGCCAACGGTGAATTCGTCACCGGCGCGGATATCGCCCACCAGCGCTTCATCCTGCAGCAGGCCGACTACGACGGTGATACGAAGAAAGCCCTGGATCGCTACAACGTTACGCCAAACTCGCTGGCCTATTCCATCGATGACCAGTCGATCTTGTCGATGGTGGAGAGCGGCCTGGGCTTTGGCATTCTGCCGGATCTGGCATTGCAGAAGCTGGTGGGGAACGTCAATGTGTTTCCGTTCTCCGAAACCTTCCGCCGGACGATCTGCGTGCTGACCCGGAAGGAAACGCCGGCTCCGTCGACTAAGAACTTTCTGACTGCGATCCATACGTACTTAGTGGGGGCATACGGTCAAGATTACTTAGGCCGGGACTAG
>SRR1151209_01800 amino acid permease
ATGGAAACGCATGGCGAAAAAGGTGCCCAGTTGGGGCTCATTAGCATCATTCTCTTAGGCATCAATGGCATTATTGGTTCTGGTATTTTTCTGCTCCCTAATCAGGTTGCGTCACTGATGGGCACGGCCGGTATCTTTTCTCTCATCTTTGATGCGCTGCTGGCAATCAGCATTGCCATGTGTTTTGCGCAAGCCGCCACCTATTATGATGAGGATGGCGGGCCGTACTTATATGCCAAGGATGCTTTTGGCGACTTCGTTGGATTCGAAGTCGGCTTCGTCACTTGGGCAATCCAGATCATCGCGGAAGCCACGATGGCCGTGGCCTTCGCCACCGCATTGGGGGCGACGTTCCCGGCGCTGGCCAATATCTGGGCGAAGAATATCACCGTGACGGTGCTGCTGGGGCTGATGGCTCTGATGAACATCGCCGGGGTCAAAGTGTCCAAAATCGTGAACAATATCGTTACGCTGTCCAAACTGATCCCGCTGCTGCTATTTGTCACCATGGGCATTTTCTTCATTCATGGCGGCAACTTCACGCCGCTCTTTCCCCATGGGCACTATACCGCTGGTCATTTCGGAGCTGCAGCCGTCACGATGTTCTACGCCTTTGCCGGATTTGAACGGGTCGTTGTAGCCGCAGGGGATATGAAGAACCCGAAGAAGAATCTGCCCCGGGCCCTGCTGATCATGGTCGGAATCGTCTTGGCGTTCTACTTATTAATTCAAACCGTCTGCACGGGTGTCCTGGGCGCCAGCGCCTTGGGGCACACGACTGCGCCGATTCAAACCGCTTTTGCCAAGTTTGCCGGCGGCTTCGGTAATTCTTTGGTCGCGGCGGGTACGCTGCTGTCCACGGGCGGTTTCTTGGTGGCTTCCAGCTACGTCACCCCGCGTTCCGGGGTGGCGCTGGCCGAACACCACATGATGCCCAGCATGATTGCCAAGCGCAACAGTAAGCATGCGCCGTACGTGGCCATTCTCATTTCCATCGGCATCAGTATTCTGATCGCCTGGTCTGGACAATTCGGTTATCTGGCCCAGATCAGTGCCGTGTCCCGGTTTGCCCAATACATTCCCACCTGCTTGGCGGTGCTGGTCTTCCGCCGCACCCGGGCGACGGCCGCGGATCGTTTCCAGCTGCCGCTGGGACCGGTGATTCCGGTCGTCGCTGTCGCCGTCAGTATCTGGCTGCTGTTCCAAGTCACCGCGTTGCAAGCCGTGCTCGGCTTAGGCGCTTTGATCGTTGCCATCCCGTTCTACTTCCTGATGAGCCGACAAGCCGCCACCGCCAAGGATCTGTCCTAG
>SRR1151209_01801 hypothetical protein
ATGTGGGCATCATGGAACTGGCTGGGCGTCGCATGCTGGACGCTGGCCGTCATCATCTTGATTTTCGCTGTACACAATATCCGTAAACGTCGATTAAAAATGCTGGTTACCCAACGGCGGCATTTTTCGGCCGCTAATTTCGGTCTGGACTTGCTGCTGATCGTCATCGTCGCCGCCAGTTTCGGCACGATGATCTACGCGACTTTCTTACACACCGACACCATTGCGGACAGCAGTGCCATTCAGTTGGACTACCGCTACCGGCCGCTGGTGATGCAAACCAGAGGCGACCAGGGCTACCTGGTGCGGGTGCACAACGGCAGCGGCCATACCCCGATCCAAACGTATACGTATTGGACGGAAGGCTCCAAGTACCAGATCAACAGCCGGGACGCAACGATCTCCACGGGGAAGAAAATCGTGCCAGCAGAAGCCGCCGCATATCCTTGGCCGACGAAGTCCATGGAGCGGATGGAAAATAACACGCGGTCATCCTTTGTCGCGGTAATCAAAGCAACGTACAAGAACACGCCATTCAACGGCCTGGGCATGCACGCCGGCCGGGCAGCAAGCTACCACGAAATTATCCGGATCCCGAGCGACTTATTCGTTTATATTGATAATCCGGCGACGAAGTAA
>SRR1151209_01802 hypothetical protein
ATGACGACAGAGGCGTTGGAGTTAGCGGCCTGGTTTATTGTTGGTATGACGGGGCTGTACTATGTGCGGGCCCAGCCGCATTTCCTTTCGCAAGGGGGCAATCTGTTATTGAGCGGCGTGGATATCCTATTGATCGTGGGTGCCAGCTATCGTCTGCCCATTGCCAGTGACGTGACTCGGTCAGCGATCGCGGCAATTGCGATTACGCTGCCCGCGGCGGTGGTGATGGTTTGGCGCTGGGCGCGGCAACGCCGGCGAACGGCGGCGCATCACTAA
>SRR1151209_01803 glutaredoxin
ATGAGTGAAGTCGTAATTTATACCCGTAACGGCTGTATGCAATGCCGGATGACTGAACGCTACTTAAAGGAACATAACGTACCTTTTGAAGAACGAAACATTAACGACGAGCCCCAATATATTGATCAATTGAAGGCTCAAGGCTTCCGTTCCCTGCCCGTCGTCATGGCCAAAGATGCTGACCCCATCATGGGTTTCCGGCCGGACTCCTTGAAGGCGCTGGTCGGCTAA
>SRR1151209_01804 ribonucleoside-diphosphate reductase subunit alpha
ATGTCACTTAAGGACTTGGACATTAAAGAGGTTTCGTATTTCAAACTGAACAACGAGGTGAACCGGCCGGTGGACGGCAAGATTCCCTTGAACAAGGATAAGGAAGCCTTGGCGGCGTTTCTTGACGAAAACGTCAAACCGAACTTGAAGCACTTTGACTCGATTTTGGCTAAAATCGACTACTTAGTGGCCAATGACTACTTAGAAGAAGGGTTCATCGACAAGTATCCCCGCCAATTCATCAGCGACTTGTACCAACGGCTGGTGGATAACCACTTTCAGTTCCAGTCCTTCATGGCCGCTTACAAGTTCTACAACCAGTATGCGATGAAGACCAACGACAGTGCCGAATACTTGGAAAACATCGAGGAACGGGTCCTGTTTAACGCCCTTTATTTCGCCGATGGCGACCAGACACTGGCGACGAACATCGCCGACGAAGTCATTAATCAGCGCTACCAACCGGCGACCCCTTCTTTCTTGAATGCGGGCCGCGCGCGGCGGGGTGAATTTGTGTCCTGTTTCTTGATCCAGCTCACCGACGATATGAACAGTATCGGCCGGGGCATTAACTCCGCCCTGCAACTATCCCGGATCGGCGGCGGGGTCGGTATCGCCCTCTCCAACCTGCGGGAAGCCGGCGCGCCAATCAAGGGCATCGAGGGGGCCTCCAGCGGTGTCTTGCCGGTTATGAAGCTGCTGGAAGACAGCTTTTCTTACAGCAATCAGCTGGGCCAGCGGCAGGGCGCCGGGGCGGTCTATTTGAACGTCTTCCATCCCGACATCATCCGCTTCCTGTCGGCGAAGAAGGAAAATGCTGACGAAAAGATTCGGGTCAAGACCCTGAGCCTGGGCGTGGTCGTCCCGGATAAGTACTACGAACTGGTGCGCAACAACGAGCCGATGTATCTCTTCTCCCCATATTCTGTGGAACGTTACTACGGCAAGCCGTTTGCTTACGTGGATATCACCAAGGAATATGACAACATGGTAGCCAATCCCGACATCAAGAAGTACAAGATCCAAGCCCGGGATCTGGAGAACGAGATTTCTAAGCTGCAACAGGAGTCCGGCTATCCGTATATCTTGAATGTCGATACCGCCAACCGGGACAATCCCATTGACGGTAAGATCGTGATGTCCAACCTCTGCTCCGAGATTCAGCAGGTGCAAGTTCCGGCGCAGATCGGCGACGACCAAGAATATACCAAGATGGGCGTCGACGTCAGCTGCAATCTGGGCTCCACCAATATCTTGAACTTGATGCACTCCCCGGATTTTGGCCACTCCGTGCGGGTAATGACCCGGGCCTTGACGTATATCACCGACCACTCCAACATCGTGGCCGTCCCGACCGTGGCCCACGGCAACAAGCTGAGCCACTCCATCGGTCTCGGGGCCATGGGGCTGCACACCTTCCTGGCTGTCAACCACATGCACTATGGTTCTAAGGAAGCCCTGGATTTCGTCAGCACCTACTTCATGCTGCTGAATTACTGGACCTTGGTAGAATCCAACAACATCGCCAAGGAACGCCACGAATCCTTCCATAACTTTGAGAAATCCAAGTACGCTGACGGCACCTACTTCAATAAGTACATCGACCACAGCTTTGCCCCCAAGACGGCGAAGGTGCAGGCGTTATTCAAGGATATTTTCGTCCCGGCGACAGCTGATTGGGCCGCGCTGCGGGACAATATTCAAAAATACGGTCTGTACCACCAGAACCGGCTGGCCGTTGCCCCCACTGGCTCGATTTCGTACATCAACGATACCAGTGCGTCCTTGCATCCGATCACCCGCTTAGTCGAGGAACGGACCGAGAAGAAGAACGGCAAGCTCTACTTCCCGGCGCCGCATTTGAGCAACGATACGATGCCTTATTACACGTCAGCCTATGATACCGACATGCGCAAAGTCATTGACACGTATGCCGCGGCGCAGCAGCATGTCGACCAGGGGATGAGCTTGACCTTGTTCCTGCGCTCGACCATGCCCGAGGGGTTGTACGACTGGAAGCACGAGCCGGAACAAACCACCCGGGACTTGAGCATTCTGCGCAACTACGCGTATTATAAGGGTATCAAGTCGCTGTACTACGTCCGTACGTTCACGGACAATTCGCAAGAGATTGGCAGCAATGACTGCGAATCGTGCATTATCTAA
>SRR1151209_01805 ribonucleoside-diphosphate reductase subunit beta
ATGTCTGACACAAGCACTCACTACTACAAAGCCATCAACTGGAACGCTGTTGAGGATCAGATCGATAAGTCGACCTGGGAGAAATTAACCGAGCAGTTCTGGCTCGATACCCGGATCCCCCTGTCCAACGATCTGGACGATTGGCGCACCCTGTCACCCATGGAGCACACCCTGGTGGGTCACGTCTTTGGCGGACTGACCTTGCTGGATACGCTGCAATCCCAAGACGGGATCGACCAGCTGCGCAAGGATATCCGTACCCCCCAAGAACTCGCGGTGTTCAACAACATCCAGTTCATGGAGTCCGTCCACGCCAAGAGTTATTCTTCCATTTTCAGCACGCTGAATACGGCGGAAGAAATTGACGAGATCTTCACTTGGACCAACGGCAATCCATATCTGCAAAAAAAGGCCCGCACGGTCAACGAAATCTACCAAAACGGCACGCCGCTGGAGAAAAAGGTCGCCAGTGTTTTCTTGGAAACCTTCCTGTTCTATTCAGGTTTCTACACCCCGCTGTATTACCTGGGGAACAACAAACTGGCTAACGTCGCCGAGATCATCAAGCTGATCATCCGGGACGAATCCGTCCACGGCACTTATATCGGCTACAAGTTCCAGCTAGCCTTCAATGAGCTGAGCGAGGACGAACAGGGCCGCTTCAAGGACTGGATGTACGATCTGCTCTACGACCTGTACGACAACGAAGAGAAATACACCGAGATGCTGTACGGCGACATTGGCTGGGTGGACGAAGTGGAGACCTTCCTGCGCTACAACGCCAACAAAGCGCTGATGAACCTGGGCCAAGAACCCCTCTTCCCCGACACCGCCGACGACGTGAACCCCATCGTCATGAATGGTATCTCCACCGGGACTGCCAACCACGATTTCTTCTCCCAGGTTGGGAATGGGTACCTGTTGGGCCATGTGGAAGCAATGAGTGATTCAGACTATGATATCGGTCGGCCGAAGAAGGACGACAAGAAGTAG
>SRR1151209_01806 streptothricin acetyltransferase
ATGCCGGAAAATAAGAAAATAGAAATTCGTCAATTGACCGCCCAAGACGCACCAGCACTGCAACTGCCCAATGAGCCCTTTGCTTTGCACGGGCGGATGATCGTCACGCGGGGTGCTGCGGCCTGGCATGCTCAGTTTGAAGAAACTGACTCGGCCGCCACGCAAACCTTTCCCGATGAACATTACCAGTTTGCGGAGATTGCCAAGAACGGCTTTGCGCTGGGCGCCTTCGACCAAAACAAACCCGTCGGTCTGGCCACCTATCAAGAGGCGTTCTTCAAGTATCTGTACTTGGACGACTTGAAGGTGAATGCCGCCTATCGCCACCAAGGCATTGCCCGCCGGCTGATTCAGGAGGCTGCGCCCGCGGCTAAACAGCGCGGGTACGCGGGGATCTACACGGTTGGTCAAGACAACAATATCGACGCTTGCCGGTTCTATCTCGCTGCCGGGTTCCAGATCGGCGGGTTGAATACCTGCGGGTATGACCACACGCAGCAGGAGGGGAAACAGGACATCTATTTCTATCTGGACTTTTAG
>SRR1151209_01807 membrane protein
ATGGCAGAACGCAAGAAAGAAATGAACGAGGTCGAACGCCTCATCGGGCAGATTCTGCGCATCGGGGTCATCGTCTCCGCCATCGTGATCGTCATCGGCTTAGCCGCGCTGTTCATTGAAGGCGGCAGCGGCTATCCCGGTGATACGGTGCCCCTGGGTTTCCGGGCGATGTTTGCTGGCGTGATGCAGTTCAAGCCCTTTGCTATTATTATGCTGGGGTTGTTTCTGCTCATCCTGACCCCCGTTCTGCGGGTCGTGGTGTCGATTTACGCGTTCGCTGTAGAACGTGACACATTGTATGTCGCGATCACGACGATCGTGTTGATTATTCTAGTGATTGCGATGGTGATTGGTTATGCCGGAAAATAA
>SRR1151209_01808 permease
ATGGTTGTCCAACAAGTCATTGAATTGGCCGCCGTCGGCCTGCTCGCTGGTATTTTCGGGGCCATCCTCGGGATCGGCGGCGGGATGATCATCACCCCGGTTTTGACGATCATGATGGGCATCGACATTAAGTACGCCATTGGGGCCAGTATCATCGCGGTCATCGCCACCAGTTCTGGGGCAACAATCGCGTATATCAAGGATGATCTGCTCAATTTGCGGGTCGCCATGTTTCTAGAAATTGCCACGACCATTGGGGCGATCACCGGCGCGCTGCTTACCGGGGTCATTCCCCATGCGCTGCTGTACGTATTCTTCGGTTTACTGCTGATTTATTCCAGCACGAACATGATCCGCAAATTGCGGGGGACGGCCGATGAGCGGTATCAGCCGGTTCAGCCGGACAAGTGGTCAGAAAGACTAAACTTGAACGGCAGCTATCGGGACATTATCGAGCATAAGAATGTGGATTATGAAGTGAAAAACGTTCCCGGCGGGTTCGCCATGATGTACGGGGCCGGCGTTGCTTCGGGTCTGCTGGGCATCGGCAGCGGGGCGTTCAAAGTCATTGCCATGGATACGATCATGAAGATGCCCTTGAAACCGTCCAGCGCCACTTCCAATCTGATGATGGGGGTCACCGCCGCGGCCAGTGCAACGGTCTATTTCTTCAATGGATCGATTCAACCCCAGATTGCTGCGCCTTTGGCGATCGGCATTCTCGTGGGGGCCACGATTGGCACGCGAATCATGCAGCACTTGCGGCCGCGGGTCATTCGGATGATTTTTATCCCCATTTTGATCTATATGGGTCTGCAAATGGCGCTTAAAGGATTCGGGGTGACCATCTGA
>SRR1151209_01809 hypothetical protein
GTGGAAATTCAAGTACAAAAAATCGTGGACATGGTGCCCGCTGAACAGATTCGCACCATCACGCTGACGAAGACGCCAGCGGAGATCAAGAAGGACGGCTTGGCCGCGGCCCTTGGTGAGCTGCTCGACAACTTCGAGGCGAGTGTGGCGGCGAATGAAATGACCCAAGCCAATCTCGATGTCGCTACGGAGGTACCGGTGGCTTTTCGCCTGGAGACGAACGTCATTAACCTGCCCCTGGCCGACAGCAACAAGCTCTATCAGTTCTTCGATTTGGACGCGACGGCGGCGGTGAATGTCTACCTGATCGTGGAGTCGGAGGATATTAATGTCTCTCATTTGCGCATCGATGAAATTGCGCCGGTGGATACCTTCTTGAGTGACCAGGATCAGGTGCGGGCCCAAATCATTCAAGCGGCCCAAGAAAAGTGGGATTTCTTACAAACGGTCGAGCACCCGACGCCAGAAGAAAAAGCGGCGGCGGAGAAGGCCGAAGCGGCGAAACAGGCGGCCGCAAAGCCAGCACCGAAGCGGCGAACGACAACCCAGAAGAGTCCGGCGAAGAAGACGACCGCACGCAAGAAGGCGCCAGCCAAAAAGGCCGCAACCCACAGTACCACGGCGGCGAAGAAAGCGCCAGCCAAGAAGACCACGACCCGCAGCACCACCGCGGCGAAGAAGGCCCCAGCGAAAAAGACAACCACCGCCAAAAAGACGCCGGCTGCCCGGACGCGTGCCAAGAAGACCACGGAGGATTAG
>SRR1151209_01810 CAAX amino terminal protease self- immunity
TTGAAAGAAAAACTTTTCCACTCGCGGTGGTTGTATCTGACCTATATCGGACTGGCACTCATTGTTTACCGGCTAACGTTTTCTAGCTTTGCATTATCGATGCAGGGGTGGGGCTATCTGCTGGGTGAGGTAGTTGCTTTAGCGGCAGCCATTATGCTGATCGGGCTAAACAAGAATAATCGGCAGCAGTTGTTAGCGTTGCCGCCTAAACAGCCTTATCGACAAGTCACTGGCCGAGAGCTTGGGCAGTGGTTCATGATTCTGCTGTTGTTACAGTTTCTCTTTGATCCCGCTATGTTTGGCTTTCTCAGTCGCAGCTATGCAAAACTTGGACCGGCCTTCGCCGAGGAGGTGCACACCTTCTTTGCTTTACCCAGCTTAAGCGATTATTCAGGATTGGTCATTACCGTGATCGTTGCTCCAATATTTGAGGAGATACTGTTCCGTGGTGTCTTTCTCAACGCGTTGACGCGATATACTGATGGCTTTGCCGTTGTTGCTTCAAGTATTGCGTTTGGTATTGCCCACGGTAATTTGATACAAGGTACTTTTGCCTTCTTTTGCGGTATCTTGTTTGGTTGCGCATACTTGCAGTATGGGCTGAAAGTAACTATTCCTTTACATATGTTCATGAATGGCGTACTGGGGACCTTAGCAGATGTCGCGTTTGTCCAGTTGGGCCTGCCGAACAATACGATTGCAGTTGTACTCGGGGCCACTTTTATTATTGCTGCAATCCTTTGGCTGGTCATTAGATGGTTGCCGCGCGTACGTTGGTCAACAAACAATTGGGTGACATTAGGGTGGTTAGTCATTTCGCCCACCTGGATTATTTATGCCATTGTTGCGGCTGAATAG
>SRR1151209_01811 acetyltransferase
ATGTCACCAAAAATCATCCCCATCACCAGTGACGACTTTGAATTCGTCGAAGATCAGCTGGACGACTACAATATTAAAAGCAAACCGCTCACCCAGTCCAAGCCGTTTGTCGGCTGGCGTTACGCGATCAAAGACGGCGACCAGATCATCGCCGGCATTATGGGCTATTCGTCCTACTACCGGATTGGCTACCTGGATACACTGTGGGTTGATCCGCGCTATCGCCGGCAGGGTCTGGGGCGGGCTTTGCTGCAACAAATCGAACACGATCTGCACGACTATGGCTGCCAGGTCATCCATCTGGAAACATTTGATTTCCAAGGACCAGAGTTTTACGAAGCCAATGGCTATACCCAGTTTGGCGACTTGTACTACCCGAACGCTGACCTGCACGAGTTGTATTTTCAAAAGACCTTTGCTGAGTAG
>SRR1151209_01812 hypothetical protein
ATGACCCAGGAAGCGGGATCTCATGTGCAGCTCATTCAGCAGAGTACCCCGAAGACTAAGCCGGGCGTGAGTGAAGCAGAAACAACGGCTAAGCTGCGTAATGACCTGGCGCATTGGCAGGCCGCTCCCATTTCGGCCGCGACCTTGCGCATTTTACGGCAACGGGCGTTTCAATTACGGTTGCGTATTGTGATTGCTATCGTTTTGGGCATCACCATCTTTGTTTTGGAGTGTATTGGTTCGATCTATTATCTCTTATTGCTCTTTTGCCTTGTTGAAGTCATCACCATCGGCGCGATTATTGTGGATGAAATTCGCATTACTATTTTGCGGCGGCATTCAGGCATTCGCTGA
>SRR1151209_01813 multidrug ABC transporter ATP-binding and permease protein
ATGCGTCAATACTTTTTGAAACATACCGGATTAACACTATTGGTTACGGTTTTACTCATTATCTGTTCTGCGCTGCGTGTTTTTCACGGGGTAGTTAATGCCTATGTGCTTGACGGTTTGGTCGCCAAGAGTATGTCACGATTTCTATTTTGGACCGGCATCGACATTGGGTTGTTTCTCGTTTTGTCCATTTTCTTATTCGGCACGATGTACCTGGAAGGGGTATTGGTGCAGAAAATGAATTTGGACCTGCGGTTGACGATTACGCGTAATATCACTCATGGTGATTATGCATATTTTCACCGGCACGATACCGGCACCTATGGGTCGTGGCTGACCAATGATATTACAATGATTGAAGACCAGGGCTTTCAAGGTTATTTCTATATTGTGCAGTTTGTTTGCGACACCGGGTTCACCGTGGCGGCGCTTATTCAGTTCCATTGGTCGCTGGTCATTGTCTCTATTCTGTTGGGATTGATCACGTATAGTGCCCCGCAATTATTGGCCAAACCGATGAAACAGACCAATATGGCGGTGACCCACGGCAACGAACACTTTCTCAACCAAGTGCAGTCGTTTCTCCAAGGCTTCGATACGTTGTTCGCTCTGAATCTGCAGCAACGGTTGGTTGATCAGATTGCCGGCAGTGCGCGGAAAATCGCCGGACTGCGGGTGAAACAGAACACGGTGAAGGCCGGGATGGGGTCGATCGCCGGTTTGGCCAGTATTGTGAGTCAAGTGGGAATCAGTGCTTGGACTGGCCTCTTGGTCCTGTGGCGGCTCACCTCAGTCGGGGCGATCATGGCCACGGGGAATCTATCCTTCAATCTTCTGAACAGTATGGCTAACCTTGGTCCGCTAGCCGCCCAAATGAAGGCTGTCCAGCCGTTATTCGCTAAGTATGCGGCCCAAGCAGACAATCAATCGGCAGAAAAGAGAACTATTCCCGCCGACCAGGCCCAATCGATTGCCCTTGCCCAGTTGAGTTATCAGTATCCCCACACCAGCAAGCCGGCCTTACAGCCCCTTTCGCTCACGGTGGCACCCGGGACCAAAGTGGCCATTGCCGGACCCTCCGGAGTCGGCAAATCCACACTGCTGAACATTCTGAACGGCAAACTGCCGGATTATCAAGGCACGGTGACAGTCGCCGGCGTCCCGCTGAAGCAAATTGCCGGCCGGTCGCTGCGCGATAATGTGCTGTATATTGACCAATCGCCGTACGTCTTCAACGGAACCGTGCGCGACAACTTGGCATTAGGCCAAACTTTCTCCGATGAGCAGATCATGACGGCATTACGCCAGGCTGACTTAGGCGATTTTGTCCAGCAGCTACCCCAAGGCTTGGCGACCCCGGTGGGCGAAGACGGCCGATTATTCTCTGGCGGTCAGCGGCAGCGGTTGGCGCTGGCCCGGGGAATTCTGCGCCAGCGGCACATCATGCTGATCGACGAGGGCACCAGCAGCTTGGATACCGCTAGTGCATTGAAGGTTGAGGACAGCTTCCTTAAACAACGGGGGCTGACGGTGATTTTCGTTACCCATCAGCTGCATGCGCAAAATAAAGACCTGTTTGATCAAGTGGTAACGCTGGCATAA
>SRR1151209_01814 hypothetical protein
ATGCCTTATGGGACTTTGATTCGCCAAATTCGCCAAGCCAAACACATTCGATTGGCCGATCTCGCCGATGACCAGCTTTCTGAAGCACTGCTCTCCCGCTTCGAACGGGGTCAGACCGACATCACGCTGACCAAGTTTTTACACCTGCTGCATCGGCTGCATGTGACCCCGGAAGAATTCGTCTTGCTGGCTGATCAACCCCGGCGTATTGGACCAGATTTTTTTGGCCATTTTTCTGACTTCTACTTCCGGATCGATGCCAGCGGTCACATGGAAAATAAAGAAAAAGCGCTGCTGCGGGCGCAAAATCTCGTCACCGTGACTGCTCAAGACTATCGGACGGCGCCCACCCGCTGGCACCTGCTCAACTGGCGCGGCGCGCAGATCCATTTGCAGCGCGCGAAACACAACTTGGATATGCCCGATACCGCCGTGATCGATCTGACGCCCGTACAGGAGTATTTGTTGAATCTGGACATGTGGACGGCGGTGGATATGCAGGTTTATGCCTTCTTTCTCAGCGAATTGGCGGATGACGCCAACCATCTGATCCTGCAAGCGGCGGCGAAGCACATTCCAGAGCGGATGCTGGATTCGTCCTGGCAAAGAATTTTATTTCCTGCGGGTGAAAGCCAATTCATGGCGTTTATGGTGCATGGCAAGACGGCCTATGCGCGGGATACCTTGGCAATTTTAGAGCAGATCACGGCTAGATCACCCAACGCCATGGACGGTCAGGTCCACCTCATCTTTCTCACCGGCTGGCTGGCCTTCGTGACTGGTTCTGACCAGACCGCGGGCCGGCAGAAAATGGATCAAGCCATTTCGATCTTCACCATCTTAGACCACAGACTCGAAGCCAGCCGGTACCGGCAGCTCAAAGAACAGATCACCGGCGCTGACCCAACGCCTATCCTGCCGGATATCTGGCTATAG
>SRR1151209_01815 sugar ABC transporter substrate-binding protein
ATGAAGAAAACTAAGCTTCTTGCGCTTGTCACGACACTCGCGCTGGCCGCGATCCTTGTATTAGGCGGCTGCAGTACCAGCAATAGTAATTCCAGCAGTAGCAGCAGTGCAAAGAGCAGCAAGCCGATTACGATCACATACTGGCACCGGATGACCGGCAGCTGGGATAAGGCACAGCAAAAGCTCATTGATAAGTTCAACAAGTCGCAGACCAAGTATAAAGTCGTCGCGACCTCCCAGGGCTCCTACGATGCCCTGCAGCAAAAGATCATGGCCGCCGCCAAGTCCAAGACCTTGCCGACCATGGCCCAGGCCCCGTACACGAACATTGGTGATTATGTTAAGAGTGATCTTCTTCTGCCGCTGGACAGCGAGGTCAATTCCGGCCCCAACAAGCTGTCCGCGTCTGAGAAGAAGGATATTGTGCCCGCTTTCTGGGCCACTGGGACGTATCAGGGTAAGCAATATGCGACGCCGTACTCCCTGTCCACCCGGGTACTTTTTTACAATGAAGACCTGTTAAAGAAATATAACCTGCAAGTACCGAAGACGTGGGAACAATTGGCTTCCTACGGCGATACGCTGAAGAAAGACAAGCTCTACACCTTGATCTTCGACAGCAGTTACGATATGGAACTGGAAGGCATGGCCTATGCCGCCGGCAGCCAGTTCGTTACCCCGAAACTGAAGGTCAACATGGACAACCCGAAGACCGTGGCCGCAGAGAATACGATCATGGACCTGATCAACAAGGGTTACGCCCGCACGGCCCAGGAAGACAAGTACTTCTCCTATCCATTCGCAGCCAGCAAGACCGTCTTCGGTATCGGTTCTTCTGCCACCATCCCAGCCCTGCTGCAGCAGGCCCCCAAGACGCTGCACTGGAACACCGCGCTGGTGCCCACCTATAACGGCAAGTCCACGTCGGCGCTGGCCGGCAACGTCAACGTTGTCTTCAAGGGTGCATCCAAAGCCCAGCAAGATGGCGCTTGGGCGTTCATGAAGTTCTTGATGAAGACGGACAACACCGCCCAATGGGCCGTTGATTCCGGCTACACGCCAGTCACCAAGAGCGGCGTCAAGAGCGACATTTACCAGAACTACTTGAAGAAAGTACCGCAGTTCAAGGCCGCTGCGGAAGCCAATGATTATTCATTCGCTTCCACCATCTTTGCCGGTTACGGTGAATTCCGAAACAACTTGTTGGAATTCGTCGACCGTACAGTTACCAACAAGTCCGACCCTACAGCTGGGTTGAAGGATTTGCAGACGAAGACGGAAAAAACCATTCAAGAAAATAAGTAA
>SRR1151209_01816 XRE family transcriptional regulator
ATGGCTCTGGAAGGGACATTATTTCGCAAACTGCGGCAGGATCGGGGAATCACACTGCAGCAGCTGGCGGATAAGATGAACAGCGTGGCGTTCATCGGCAAGTTTGAACGGGGCGAGACGCGGATCAGTTTCGACCGGCTGGAGCATCTGCTCAGCCGGATCAATGTGCCGTTTGAAGAATTCCTCTTCTTGCGGGCCACCATGCGCGGCGTAGTGCCGGCGGTTAAGATGGATATGCTGCGGGGATTCTATATCACGGCGGATTATCCGCTACCGTTGAATCAAGTCTGGCAAGTGATTGCCGGCCACGAGGGGCAGGAGACGGCCGCCGACTTGGCGGCGCTGGATAAACTCGCTGCCAGCTTGGACCAGACCACTCGCTGGGGCCAGCTGTTGGCCATTTTTGTCGCGATCAGCCGGGCGAATGTCGAAAGCAACATCCAAGGTCGAACCGATGACACCGCGACGCTGATGACGCAGTTTCGCCAAATGACCCGGCCGGTGGTCAGTTATCTGTACGGGATTGAGAACTGGGGCAGTTTTGAGCTGGTGATTTTCCAACTATTCCAAGGCTTCTTAGAACCGGCCACTACCCATCAACTTCTGGGCACTGCGCTGGCGGCATCCGCCAAGGAGGCGCCGCTGCCCCTGGTGTATAAACTGCGGCTGAATATTTTAGCCAGCGCCTTTCGCACCTTTATCCAATTTGGTCACCGGCCCTGGGCTAAGGAATGTCTGGACCAGCAGGCTGACTTGGTGCGCAACACGGGCGAATTGATGGAAGCCACCACACTGCGCTTCCAGCGGGGCTGGTACGTGATGTACGCGGAAGATTACGACCAGGGTAAAGAAATGTGCGATCAGGCAATCAGTATTTTTCGTATTTTGGATCAGCCAGTGGTAGTCGAACGCTTCCTGATGTGGCGGGACATTATTATTGAGGGATACCATAATCCCCAGGCCCCCAAGCTGATTTGA
>SRR1151209_01817 major facilitator superfamily transporter
ATGCACGAATATCGCATCAACCGCGGCTACCGGGCGCTGATCAATGCCAGCTTGTTGAACGGCATCGGCAACGCCCTTTACAACATCGTTTTTGTCATCTATGCCAGCACCTTGCCCTTCAAGACCTTGGCTGTTTCCCTGGCCAGCTTTGCCACGCTGATTCCCACCTTATTGATGCTGGTCACCGGCTTCTGGGCGGACCGGGCGGCGCAAAAAACCGGGCGGATGATCATCGCCCGGGTCTTGCAATTTGGTCTCTTTCTGCTGTTAGCGCTGCTGATTCAACAACCAGGCAGCCTCCTGATTTTTCTGATACTGCTAGCCATCAACGTGGTATCCGATATTCTTGGCCAATACGCCAACAGCCTGGAGCTGCCAATCTTCCGTCACCTCATCGCAGATACTGAGCTGAATAGTGCGATGGGCTTCCAAAGTGCTACGCAAACCACGATTGCCCTGATCTTCCAAGGCGTCGGGGCTTGGGCGATCGTGCTCCTGCAGCATAACTTTGCGTTGTTCGGAGTGATCAACGCCGTCACCTTCCTCGCCGCCGCCTTGGTCATTGCCCAGCACCGCCAGCTGCTGCGGTCCGCCGAGCCTAAACCCAGTACTGCCCGGGCGCAAACGTTCCACGCCAGTTGGCAGGTCCTGCGGGAGACAGTCCGCACCAGCCCGTTCATCGGCTTGAGCCTGATCCTCGCCTTCCTCGCTAACGGCCTGGCAACCAGCATCGACGGTTTGCAAAACGTCACCCTCCTGCGCCAGCCGCACTATTGGCTGGGCAACTACGGTAATACGATCGCGTTGCTCAGCATCGTCTTTTCCCTGGGCCTGATCGCCGGTGCACTCTTCAGTCAGGATTTTTGTCAGCACCTCAGCATGCTCACGCTGATCAGCCTGGTCCTCCTGGGGGCGGCCCTGCTGGGCGTCAGCTTCCTGCTCAATTGGGGTATCTGGGCGGCGCTGGTCCTGAACTTCGCCATGGCCTACCTGCTGGGCAAAATCAATCCCCGCTTCAGCAGCATCATGCTGTTGACGGTCGATGCCGACCATCTTGGCGCCGCCATGGGCGCCATGGTCACCGTCGTGATGCTCGGCGCACCCCTGGGTCAAGCCGTTTTTCTCGGTATTGCCAACGCGGCCGGCCCGGCACTGAGTTGGGCGATCTTCGCCCTTGGCTCTGGGCTGGTGAGTATCGTGGCCCTTATTTTCAGCCGGCGGGTGAGCGATCCGTCACTGACCATGCAGCCCGATACACTTTAG
>SRR1151209_01818 hypothetical protein
ATGATACTTAAATCCAGATTATTGGGCCGTAATGCACAAAATGTCTCTCCAGACGAAGAAGACACGTTGAATCAAACAACGCAGAAACTGCGCACCGATCTTGAGCGAGCGTCGATACCAACCACTTCACAGAAAACTGCCAAAATTATTCGGTCACGTAAGTTTCAGTTGCGTATGCGGATTGCCGCGGTCTGCATACTGGCGCCAATTACGCTCTGGTTAGAGCTAACCGTCCAACTTTACGGCATCTTGCTGTTGGGGTGTCTTGTTGGCACAATAGCAATCACCTTCGTAGTCATTGATGAAATCATCAGTACCGTTGGCCGCTGGCGGAAGAAACGCCAATAA
>SRR1151209_01819 serine/threonine protein kinase
TTGGAAAGTATTGACACGATTATTGAAAAGAATGCATGGATAGCCGATCAACTCACGACAGATGTTGAATATGACCAATCCGCTTATAAAGTGCATGCAGATGGGGTATGGCGATTCTTTTTGCACAATAATGGAAGCTTACCTGCGGAAGGGTGGAAGGGGCACATTTCTATAGGCATAGACCATCTTCGAAAAGTTCTTGGATTAGTAATTCCAATTTTCGAAGCGTATAAATGCTCGTTTAAAATTCCATACAATTGGAAGATTGTTTCAGCGCTTCTAAATTCGAGAGCAAATCCAGAAAGTGCAAATAAAATAATCACTTTTTATCCGGCTAACGACGCGATTTTTCGCCGTTTAATTGTGGAGTTGTGCAACTCTTTAAAAGGGTATGAAGCACCAACTATCTGCTCAGATTTTCAATGTGGATTTCATTCTCCAGTCCACTTTCGTTACGGTGCTTTTCAAAAGATGATAGAGTATTCAGAAAACAAGCATCGACTAGTTTATTTACGTCACGACCATACAGGGCAGCTTGTTGAAGACTCGCGAGCTCCCTTCTTCTCCACCCCAGAGGATGTTGAATTTCCCTTTTCAGATGATGAGTGTAAGCAAAATGGTTTCAATATGCCGCCAATTAATGCCAACAATGAGGTTAACAAATACTGTTTTCAAAATGTTCTCCACCGGGCAAATCGAGGCAACACATATCTTGCCGTTATGCGGGATAGACATTCCACAGTTGTTCTTAAACAAGCAAAGCCATATATATATGAAGCCCAAAGCTTGAGCTCTATTGATTCTCTGCGTCATGAATATTCAATGATGTGTCGATTCTCAAAGTCTGGATATACCGCATTACCCATAGAACAATTTCAATGCAATGGAGATTGGTTTATCTCCGAACACTTTTTAAGTGGGTACTCACTAGCAGAATACGTTGCAGAGAATGGGCCTTTGCCGCTCAAACGAGCTGCTGAACTGGCATCACAAATGGTCAAGATGGTTCGCTACTTTCATTCTGAAGGAGTCGTTATTTGCGATCTTTCCCCGAATAATGTGATCATTGTTCGGGAAGGAATTAAACTAATCGATTTGGAATATATGCAGGACATCCAGTCAGATGCTGTTCGGTCGGGCGGAACTCCTGGGTTTTGGGACCTTAGCCATGAGGGGAAAATATTGGGCAACAGTGACGATCGATTTGCCTTGGCGGCTATCTACTTTTTTATGCGTACACAAACAGTGCTTGGTATGGAACGACTCTCGGGGACATCTGAGCTTTTAGAGAAGACACACATCCTGATTTCTTCTGGTGTACTGAATTTATCTGACGAGAAAATAATCAAGAGCTTGTTGGGCACTGTACCAGTTGAAAAGGATTCCTCTTGTATTGATGAAAATCTCTCCCGAAAGGTCCGACTCCGTTTTGTACAAATACAGAAGGAAATGTTGAATTCAAAAGATTCTCATTTCTGGTCCAAGACGCCATTCGGTGAATATGTCGATTGGCGATCGCATCAGCACGGACTAGCTGGTCTGTTAACTGCGATGCACGAGATCAACGTCAATTCCAATACCAAACAATTGCTATTAAACAAAATTACAAAGTCCTTGTTTCCCATTGCACGGTTCCGCGATGCAAGTATGCTTTTTGGCGCAGCGGGTGTACTCAAAGCATTAACGGATATAGCCTACGACGGGGTTAATAGACCTCTTGAACAATTGGAAATTGATAATTTATTTGATCAAATTCGTTATGCTGAGACTGGAAAAAAGTGGGATTATGCGACTGGAGAAATTGGCTTGATTAAAGCAGTCGCACACCTTGAGAGGCATAATCATCAGACACGCTATTTAACTTTCTTACGTCAGCGGATGGACCGTCTATATTTCAACGCGAACGAAATCATTCGACAATGTTGCCAGCATACAAATAATTTGACCTATTTTGGCTACGCTCATGGATTAACCGGCCTGGGCAATGTGTTTTGCAGCGTCGGCAGGTTTTTGGGGAACAATGAATTTGTTCGTAAGGGAGATGAAATATTTGAAATCGTCATCAATGCTACTAGCTTCTATCTTGATACGAATCCTGTATCAGTGATGGGTTTGTCCTGGTGCGAGGGAGTAGCTGGTATTGGTAGTGGAATCATACGAGCCTACAGTCAAACTCTCAATGGGACTCCCATGAATTCCGAGGTGTACGAATTCATTGAAAAACTGATCAGGTATTTGCATTCTAACTTTCATATTCAATCACTGCCGTTATGTCATGGAATGGCCGGCACATTGTCTTTTCTTAACGATTGTCAGGAGTTCTTATCCAGTTATACAACCATGAAAGCCGCTCGTGACGTTGCAGAATACATGGTTGCCACTGTGGGCGAGAAATTCCGCTTTACCGACGAAACTATGATGACTCATGCGATGGACTATGGTGTTGGACAGCTGGGGTGTTTGACACAGTTATATCGGTATGATCGAATCATGCATGCTAGTGCAGGTAACGAGACACAACCCACACGACAAGGGAGGACAATTTAA
>SRR1151209_01820 hypothetical protein
GTGGATAGCAATATGGATGTTGGAGACACCCTCAAGAAGTTTCGAACTGCTAAAAATATTAGAATGAACGATGTTGCCGATGAAACTATTTCGCAACCGTTTCTTTCAAGAGTTGAACGGGGAGAATCAGATATCAGTGTGAGCCGCCTTAATCATTTACTGCAAGAACTACACGTCACGCCCGTTGAGTTTTTTGCCGCCGCAAATTCAACCCCCGGTTATCAGGATCCGGATGACGCATACTTTGGATATTTCCCCCAACTAATGCTGGACAGTAGGACAGTGCATGATGTTAATTTACTCAAACTACGACTAGCTAAATCAAAAATACTCCTCGCAAAGGTACGTTCTGAATACCAAATTAAGCCCAGCCAATGGCGACTAATTACATGGCGTAGTGTCCAGCTTTTTGTCAATCGTATTTATTATCACCTTGACCCTAGTAAGATCGGTTTCATAGACGTTGCGCCTATCCAATCCTATTTGCTGAATTTAGATTCATGGACGCTTATGGACGTTATTGTTTTTTCATTTTTTGCCGATCAATTAAATTCTTCCGTGAAATTACGGCTCCTCAAATCTATGAGTAGCCATATTCCTAATAGTGGTGTGGTCCAATCTTGGTCTTCCATAATGACCAGCATTGTTTTTTCCTTGTTTCAACAATTCATGGTTGCAAATAAAATTGATTTTGCGTATTCTGCTTTGAATATCATGGAGGATATACGAAACCAATTTAGCCATACTGATGATGAAATCACTCTTCTATTCATGCGAGGATGGCTTCAATATGCCAAAAATGGCCAAGAAAAAAACGGGATTCGCCAGATGAACGATGCGGTTTCGATTTTGGCTATTTTGAAATACACTCAGGCAGCAAAAGAGTTTCGTCAATTAATTGACCAAATAATTGGCAATGATCCTACTCCAATTGTTGGAGACGCCTGGTTCAACTGA
>SRR1151209_01821 XRE family transcriptional regulator
ATGATGACGGCGGGACAGGCCGTGCGGCAGATTCGGTTGGATAAACATATGGCCTTGCGGGAAGCGGCGGGCGAGGCCATTTCAGTGGCGCAATTATCGCGCTTTGAGACTGACCGCCAGGATCTGGGAATTAATGTACTCCTGCAGGTGTTAACCAACGTCAACAGTAATATCACAGAGATGCGCCACGTCCAGCTGGCCGGCGAATCCGATATTGCCGTTGACCGGCTGGTGGCCCAGTTGAAGGCCCAAGGCAAATCACCAGCAGAGTGGGCTATGGCTGCTCAGGCTGACCTGCAAAAGTATGCCCATGACCCGACCCGCAGACTGGAGCGGCTGGTGGCCGGCGCCCTATGGATCTATCTGACGGAAAGCTACGGTATCCAGCCCGCCATACCAGCGGACAGTCGCCGCCGTTTGGTGGCCGAGGCGCAAGGCTATTTAGGCCGTGTTGAGACGTGGGGGGTCACGGAATTGAGCTTGTACAATCTGTACAGCCCAACGCTGGCTGATGATGATTTGTTCACGCTGATGAAGCCCGCGTTGAGTCGGGGCAAATCGTATATTGGCCTGTATGAGTATTTTAAGATCGTGCCCTTTATCCTCAACACCAATTTTTCTATTTTCGTCTCCCACAATCGCTTGGATTTAGCCACCGCGACATTGCGCATGACTGAAGACTTTCTGGCGGATGAAGGAAGCGGCATCGTCGCACCGCGGATATTTTATATCTTCAATCAAGGGCTGCTCCTGTTTAAGCAGGATCAACCAGCCGCGGGGCGGCAAAAATGCGCAGAAGCGATCAGAGTTGCCCGGATTTTTGACGAGGATACGGTGATCGGCGTGCTGACGGGGCGCCTGCAAAAGTGGGAGAACCATTATCAGGAGGCAGGGTTTACTAATATTTTAATCTGA
>SRR1151209_01822 two-component system response regulator
ATGGAGGCTGGGCATTTGAAAACAACGCTATTACTCGTGGAAGACGAGGAAGGTCTCGCTGATTCTTTACAAACGGAATTTGAAATTGAAAACATGACGGTACTGTGGGCTAAAGACGGCTTGGACGCGCTGGCCCAATTCAAAGCGCACGCCGACCAGATCGATCTGATCATCCTGGACTGGATGCTGCCGCGGCTAGACGGGTTCAGTGTGCTGCGCCGCATCCGCCGGACCAGCCAAGTGCCGATTATTATGCTGACAGCCCGGGATTACATCGGCGACAAAGTGGCCGGTCTGACCGGCGGAGCGGATGATTATTTGACCAAGCCGTTTGAAATGGAAGAACTGCTGGCCCGGGTGGCTGTAGCCCTGCGCCACAGTCATGCTGGACCGCAAACGGCCGCCGTCTACCATTTGGATGATTTAACAGTGAATACTGAAACTAAACGAGTCGAGCGGCACAACCAGATCGTGCTGCTGACGCCGCGGGAATATGAACTCTTGCTGGCGCTGCTGACCAATCAGGACCAGGCCTGCACCCGGGACGACCTGCTGAATAGTGTGTGGGGCGTGGACTTCCAAGGTCAGCCCAACATTGTCGACGTTTACGTCCGCGAATTGCGCGCCAAGATCGATACGCCAGACGAAAAGAAACTGATCCATACAGTCCGCGGGACGGGCTATATGATTTCTGACAATGTTGCCGCGGGGTGA
>SRR1151209_01823 two-component system sensor histidine kinase
ATGGGGAAGCACAAGCAAACCAGCGCAGCCATTATGCTGCGCAATTTAGTCGCCATGGTGGCGGTCATCACCCTGTCTTTGGGGGTGGCGATCACCATTGCGGTGGGCCATCAGCTGCTGCGCGAAACCGCAGTGGCGTCTGTTGGCCTCGTGGAGAGCGTTAAGAAACGAACCATCGACGGCGATGATGACTGGGAAAATTGGCGCAAAAACAGCACCTTAGATACCAGTTCCAGCTATGTCGTCGTGACGAATATGCGCAAAGACGCCAAAGTACGGCATTATTATTCACCGAATACAAAAAAACTGCTGGCCGTGCCGCCCACCGCGGTCCCGCTCTTTCGTAATTTGTACTATCAGCCCCGCCAGGGCGTTTTGCTCTACCATCAAATGGCCCACGCCCGGGGCATCCGCTACGATCTCTGGCAAAGTCTCAACAGCCAAGTGAATATTCTGGTCCGGGTGATGGAAGTGACGGTAATCATTCTGGTTTTGACCCTGCTCATCAGTCCGTTCTACATTCGCCGACTGGCCCATCGGCTCACTGATCCGCTGCGGTCGCTGTCCGTCAGCACTAAGACGATCCAGGCCTCGGAGGATCCCGGGGCAACGCCTTTGCCCGTACCGGCTAAGCCCAGCGAAGTCACCGATCTGGCCGTCAACTTCAATGCCCTGCTGGCTCAGCTTCACGACCGCCAGGAGCAGCAGAAGTTTTTCATCATGAACGCCGCCCATGAACTGCGCACGCCAATTGCGACCATTCGCAGCCATGCCCAGCTCATTGACCGCCATGGCACCGATCACCCAGAGATTATCCCCAAGTCAGTGCATTACATCACCGAGGAGTCCCGGCAGATGCAGGAATTAGTCAACGAATTGATTACCCTGTCCCAGGCGGACCAAATGGCCGGGCCAGCACCGCTGCTGGACTTGTCGCAAACCGTGACAGCCCAGTTAACAGCGCTGCTGCCCACGGTCAAGCAAAAAATCATCAGCCGCATCGCACCCAATTTGACCATGCGCGGTACAGCATCGGCGATCGATCACATTCTCGATAATTTGGTGGGCAACGCCGCCAAGTATTCCCCCGCCAACAGTACGATCACCGTCACGCTGCATGCAGATGCTGCCGGCAACAGCGTCTTGACCGTCGCCGATCAGGGGCGGGGCATCAGTGCTGAGGATAAGCCGCACATTTTTGATCGATTCTACCGCAGTGCCGATATCCGCGGCTCAATTCCCGGCACCGGGCTGGGCCTGGCCATCGCCGCCCAGCTGGCCAAGGTCAGCGGCGGGCATTTCACCATCACCGACAATCAGCCCCAGGGCACGATCATTCAGCTGACCCTGCCGCCAGCTAACAATACCGCCCCCAATCAATAA
>SRR1151209_01824 hypothetical protein
ATGGCCGCTCATTCAGCAACTTGGCCGCCGCACCCGTGGTCTGCCGACCTGCGGACACTGTTCACCGCGGCATTGGGTGAATTTTCAATGTCCGCTCTGGGTAAAGATATTTCATTTCCAGTGATCATTCTGGCCACTTTTTTCTTATTTCTGAGCCTGCCGGAAGAAGCGGGCCGACCTGATTCTTCCGCGGCACTGCTGGTCAGTTTGACCGTTGGTATGCTCATTCAATTCACGGCTTGGTTATTTAACATTCCCCTGCTGATTATTGGGCTGGGCAGCCCCGTGATTGCTGGCCTCTTCTATGGCGGCACGGGCCGGTATTGGTCGGCGCACCACCGCCAATTGATCAAACAGATTGGCCTCACCGTCGGTACGGGTTTGTTCTTCGTCTGGCTGGTAACTTTACCGATACTCGGGGCTGGCCTGGTCGGGATGGTCCTCGGAACTGTGCTGGGCGTTACGCTTTACCACCGTCAACCCGCATTCACTGCTCTGGCCCGTGTCACCCTCGCAGCCGGCAGCGGCATCGCTCTGGGCACTGTTTTTACCAGGCATTGGCCGACTGTCAATATCTGGCTGGCCCTCCTCGGCTACTGTCTCTTCCTGCTGGTCTGTTACTGGTCTGCCATCCGTCACGAATCAAAGGAGTTCTAA
>SRR1151209_01825 membrane protein
ATGAGCGCTAAGTCAAACCGCTTGATCGGCGCCCTCTTATTACTGCTCTTCGGCGGTCTGACGGTGGCAGTCATGGGCCATGCGGTCTGGGTCACGGCGCTGGATCAGCAAGTGCAAACCGCCTTAATTCCAGCAGAAAGCCCGTTGAATACCGCTATTTTCAACATCATCGCCTTCTGCGGCAGTCCCGCCATCGTGTTGAGCTTAACCTTTCTGCTCTGTGTTTATCTTTGGCGGCGGGGCGCTGGTCAGCGCAGTCTTTTGCTAGGCGGCTTGCAGTTGACCATTGCTGCCGGGGCCGAACTGGTCAAATTCATCGTGCAGCGGCCGCGGCCCACCCAACAGCTGACCGCCGATACAGGGTTCAGTTTTCCCAGCGGCCACACAGTGTGTACCGCGGTCCTGGTCTTTTCCATCTTGCTCGTGATCATTCCCCTGATCGATGACCAGGAACAAGCGCTGGCGGCGACCCTAATCGGCATCGTGTGGATCGGGTTGGTCGCCGGCTCCCGGGTGTATCTGCGGGATCATTTTGCTTCTGACATCTTGGGCGGCCTGCTGTTCGCCAGCGGCTGCTGGCTGCTGGCCCGGCCATTCGCGGCCCGGGTCAGCGCTCGACTGTACCGGTTAATCTCGGCAAGATTGCAAAATCATCAACAAGAGAGGTGA
>SRR1151209_01826 hypothetical protein
ATGCGTAAAATCAAGCGGCCGGCTTTTCTGCCTGGCCTACTAGCCCTTTGCCTCATTATCGGCGCGACCAGCGGCCTGCTGCGAACCAGCACCCGCTTGGTGACGGCGGCCGCGCTGACCGTCAGCGTCTTGGTCCTGGTCGCGGCGCACTGGCTGGCGCCGATTCTGAACGGGCTGCCCCGACGGCGGATCAACCAGGTGCTCGGGGCCGGTCTGCTCGTGATGGTGATTGGGCAGATCCTCGTCTTGACATTCATGCCGGTGACCGTTTACCACGATGCCTATCGCGTTTTGGCGCAAGCCGACAAAATGGCCGCGGGTCACATGACTTGGAACATCACTTACTTCTGGCGCTATCCGAACAATGTACCCATCACATTTTTTCTGTCGCTTTGGCTCCGGCTGACCAACGTACTGGGCCTGTCCACCAACCTGGCCGTCCATCTGCTGAGTCTGATCCTGCTGGATGGGTTCATCCTGTTAGTATTGGCCACGATTCGCCGCGTCACCCAACGGGCCAGCGTTTTAATCGGCGCCTTTGCCCTCATGGCCGCCACCCCGTTTGCCTATACGTATTTTCTGCAAGTCTTCTATTCTGACTTGCCCGCCATGCTGGTGCTGCTCGTGATTTTCCGCACGCTGCTGCTTTGGCCGACCAAAACCCGCCGCCAGCGGATCATCAATGGTACGCTCTTAGGTATCGCCGTTTTGTTCGGCCAACTAACTAAGCCGAACCTGATCGTTTTGCTGCCGGCAATCGCCGTCGTCGGCTGGCTGGTCTTTCGCCAGAAGGCCTTGAAAGCGACCGCTCTGGGCGTGCCGCTGGCCATCATTCTGCTAGGCTTTGCTCTCAGTACGCCGGCAACCCAGATGATCCGCAAGGCCAGCAATTATCAGCCGCATACCGAATTTGCCCTGCCGGTCACTTCCTGGCTGCTGATGGGGGTTAACACCAGCTCGCAGGGGATGTACAGCGGTACCGACGTAAGCCATGAGATCCAATTATCCAGCAAGACCCGGCAAACCTATGATGTCGCCACAATTACAGCACGGGTCAAGAAATTAGGGATCAGCGGCTTGTTTCAATTATGGTTGACGAAACTGCGGACCTTTTTCACCGTCCGGGATATTCTTACTTGGGGGGACGGCGGCTTCCGGGCCGCACCCGCGTGGTATCAAAAACACGCCGCCTTCATCGAAGCTTTGACCGCACTCAGTTACCAAATCGCCACCGACGCGCTGCTGTTCTTAGTTGCTTGGCGCTTGTGGGGCTGGCGGCCGCAACTCCGCGCCCCCCGCGATGCGGTCCTGCTGCTGACGATTGTCACCGCGCTGGGGTATATTGCGTTCCACACCCTGCTCTGGGAAGTGGAAGAACGCTATGGTCAGGTGCTTCTCCCGCTGCTGCTCTATCAGCTGGCCGCGCTGCCTGTCCCGGCCCGGCAGACCGACCAAACGCAGCCTGACCTGGCTCTTGTGGCCCTGGCGGCAGCGCTGACCGCCCTGCCGCTCTGGGCGCACACCATCGTCACACTTACTCCGCAAAGCACCGTCGTCGCTGCCCAGCGCAGTCAATTATCCACCCAATACCACGCGAAGGCCGCGACGGTAGCGCCAGGCACGGTACTGACGGAAAAGGTTGCCTTGAATGGTCCGGCCACGTACTTTTCGGTCCAGATCCACCTCAATACGACAGTACAGGTGACCTTGCGCAATGTCCGCACTAATCAAGTGTACCGCCTGCACCGCAGCGGTGATGTATATCGGTGGACCAAGGCCCTGCCCCAGGGTACGTATCAAATTGCTGTTAAAAATACGACGAGCCAGGACCAGCGGGTCGATGTCGTCCGGACCTATCACTATCAATTAGCGAGTCAGCCGCTCGTGGTCAACGGCCATGTTCATCCGACTGATTCGCTGATCTACACCAGCCTGAACCAAACGAAAACAAATTAA
>SRR1151209_01827 peptide methionine sulfoxide reductase
ATGGCCGAACAATCGACGGATGCATTGCGCGATATTTACAACCTGATTTTGAACAAGGGCACTCGGGATTGGGAGCGCCAGAAATTACAACAGGCCAAGACAGAGATAGAAACCGGTGCGGCCATCCCTGCGACTTTGGAACGGCTGGAAGCCGTATTGCGGCCCCTGGCCAGCCGCAATAATCTCACCCCGGCAATGACCGACTTTTATGCCCGGCTCACGAATGATCCACTGGGCGACATGGCCTTCGATTTTACCCGCCATGAAGCGGCTGATCTGCCCCATGAAGATCGGGCCATCTTTGGCGGCGGCTGTTTCTGGTGTATGGTCGAGCCGTTTGAAACGATGCCTGGGATCGTGTCGGTGCTGTCGGGTTATACCGGCGGACACACCGCTGAACCGACCTACGATCAGGTGCTGACCCAGACCACCGGCCATGTGGAAGGGGTAGAAATCATCTTCGATACCCGGGTGGTCACATATGCCCAGCTGGTGGCATTGTATTGGCAATTGACCGACCCCACCGATGCGGGCGGCCAGTTTGAGGATCGGGGAAACGAATATCGGCCGGTGATTTTTGTCCGGGATGCCGTTCAGCGGAAAATTGCAGAACAGTCGAAGCAGGCCTTGATTGCGTCTGGCAAATACCGCCGGCCCATCGTGACCGCAATCGAGGCTGCTAGTACTTTTTGGCCGGCAGAGAACTTCCATCAGCAGTTCTATAAAAAACAACCCAAACGTTACCGGCAAATCGAAAAAGCCCGTCAGCAGTATCTCACTTGGCAAAATCTGCAAGGGCGGCTGCGGCGAGCACGTTAA
>SRR1151209_01828 ATPase component of ABC transporter with duplicated ATPase domains
ATGTTAGCCATCCAAATCAATCATTTATCATTTCAATTTTCCGATGCCGCCGAACCGCTTTTTACCCTGCCCCAGCTGACGGTGAATCGCCGCCAGCGGGTCGCCATTATCGGTCCCAACGGCACCGGCAAGTCAACGCTGCTCAAGATGCTGGCGGCCAATGATGATCCGCGTATCCAAGCCGTTGGCAAAATCGGTTATGTGCCCCAGCTGAAAGACTTCAGCAGCGAAAGCGGCGGTGAACAGGTTAAACGCGAAATCTTCGACGTCCTGGGCGAGCAGCCCGATATCCTGCTGCTGGACGAACCGTCAGCCAATCTTGACCTGCTCAATCAGCACTGGCTGGCCCGGGAGTTAGCCCGCTTCGCTGGCACGCTGATTGTGGTCAGCCACGATGAAGCCTTGCTGGCCCAGCCTTTTGACCAGATCATCGTCTTCGGCGGCCCCACAGTGACCGTCTTCACCGGCGACTACGCCGCCTACCGCCAGGCTGAACAACGCCAAGCACAGAAGGCCGAGGCAGCGTATCACGATTATTTAGCAAAGAAAAAGGCATTAGAAATCCAAGTCGAAAAGCGTCTGCAGCAAGCCCATCGTTTGAAAAAGGGCAACACGCGCAAGCTCAGCAATTCTGATAAAAAAGCGGCGGGCTTAACCAGTCACGACAAGTCGGAACGGAAGAAAGCCCAAACCGCCATGGCCTTGGAACACCGGATCGATCGGATGGTGCCCCCAGATCGGGTGAAGAAAGAACGGCCGCTGCATTTCAAAGACTTAACCGCCCCCCAACTGGCCGGGCATACGATGCTTCGGGTCAGCGGCTGGACAGTGGTCCGCGGGAAAAAGACGCTGATTCAAAACATTCAGCTGAAAGTGCCCGCCGGCCAGCGAGTCGCCATCACCGGGCCCAACCAGACCGGCAAGACCTCGTTCTTCAAAGACATCATGGCCCGGCCGCAACCCGTCTGGTGGAACCAGCTGGCCCGCATCGGTTATTTTGCCCAAGACCTGGACACTTTAGATCGCGACCAAACCCTCTGGGAGAATGTCGCCGGCCACAGTTACCAAGATGTTCATCTGATCCGCAATCTGCTGGCCGGACTGGGCTTTCCACCAGCGCAATGGACCCAAAACGCCGGTACCCTCAGCGGCGGCGAGCAAGTAAAAGCCAACTTAGCCCGAATTTTGGTCGGTGATTACAACTTCCTGCTATTGGATGAACCCACCAATTACTTGGATCTGAAAGCCATCGACGCCCTGGGCACCTTTCTAGCCAGCTATCCCGGCACCTTGCTCTTAATCTCCCACGACCAGACTTTCACTCAGCGGGTTGCCCAGCAAATCTACACGATCCGCGATCATCGGCTAGTCGATCCAGAGCGAACGGCGCCAGTGCATCTGACCAGTGAAACTAAGTTATTGCTGCAGCACCAAATCGATGCCCTGATGGCGGACCCTGAGGCGGATATTGCCGAGATTCGGGCGTTGCGCCGGCAGTTAGCAGAGGCCTAG
>SRR1151209_01829 acetyltransferase
ATGATGATCATTCACCCGCTTGCCCCCTATCGCCAGCAAGTCGTGCCCCTGTTTCAACGCCTGTGGGGTGCCACAGATATGGTGGTTTCTTCCGGGCAGTATGATATCCGAAACCTAGATGGTTTTGTTGCCGTGGTTGAGCAGCAAATCGTCGGCGTTTTGAGCTATGTTATCAAACCTGATGAACTCGAAATAATTTCGCTGGACAGCCTGCGGCCGAACCAGGGCATTGGGTCGCAATTGATGCATGCGGCGGAACAGCTGGTGCAAGAACAGCAATTACAGCGGATCGCCGTCATTACGACGAATGACAATCTGCACGCGCTGGCGTTCTATCAGAAAAGAGGCTATCAAATCAGGGCAGTATTCCCTGATGCGGTAGCAAAAGCCCGCGCGATTAAACCCGAAATCCCGCTAGTCGCGGAAAACGGCCTGCTGATTCGAGATGAATTACAGTTAGCAAAAAAAATCCAAGAATAA
>SRR1151209_01830 carbonyl reductase
ATGAAGCAGACGAATACGTTAATTACTGGGGCCGATAAGGGTATCGGCTTTGAAACAGCCAAGGAACTTGGTCAACGGGGCCAGCATATCCTGCTCGGCGCCCGCAATGCCCAGCGGGGCCAAGCGGCCATTGAAAAATTGCGGGCGGCGGGCGTCGCCGCAGATCTGATTTTACTGGACGTGACCGACCAAACGACTATTGATCAGGCCGCGCAGACGATTCAAGACCGGTGGGGCTATCTGACAGTTTTGATCAACAATGCCGGAGTTGCCTTGGATCATCATGAAGCGCCGGAGAAAATGCCCATGGCGGTGATTCGGGCGGATTTTGATGTGAATTTCTTCGGCGCGGTCGCCGTCGCGCAGACGATGATTCCTTTGCTGCGCCAGGGCCAACCAGCCAAGATCATTAACGTTTCCAGTAATATGGGGTCTCTGGGTTTGGCCAGTGATCCCAAGAGCCGGTTCTACCGGGCTAATTCCTTGGGTTACCAGTCGTCCAAGGCCGCGCTGAATATGGCCACGATTTCGCTAAGCAAAGCCTTAGCTCCAGAGATTACTGTGAACGCCGTCAATCCGGGCTATACGGCCACAGAGTTTGGCGGTTCCTGGGCGGGTGAACAAACTGTTGCCGAGGGTGCAGCGAAGATCGTGGATCTGGCGCGGGATGAGGCACCCCGAGTGACGGGCCAATTTGTGGAAACTGCGGGGCAGCTACCGTGGTAA
>SRR1151209_01831 adenylyl transferase
ATGACGAAAACAACGAAATTATTACGCCGCTTAGCGACCGGGAGTCAGAATTTGTTGGCGGACAACCTGGTGGGCGTTTATTTGCATGGATCCTATGTGTTGGGCGGGTATAACCCGGCGGTGAGCGATTTGGATTACATTATGGTCGTGATGCGCCGGTTGACGGTGAAAGAAAAGGCCGACTTGATGCATTTCACGACTGAAGAACTGCTGCCGCTGGCGCCGGCGAAGGGTTTGGAGTTCCACGTGTTGTTGTTGGCCCACACGCGGCATTTCCGGCATCCCATGCCCTTTGATTTTCATTTCTCCGAGTACCATCGGGCGGAGTATTTCCGTGATCCGGAGGCTTATATTGAAGGAATGCAGGGTACGGATCCAGACTTGGCGGCCCATCTCATGGTGATTCAGCAGCAGGGCCAGGTGCTCACTGGTTTGCCCATTAAAGATGTGTTTGCCCCGGTGCCGCCAGCGGCTTATTGGCAAAGCATTGTTTTCGACATTGCGGATGCCACGAAACAGATTTTGAATCAGCCGACGTATGTTACCCTGAATTTGTGCCGTGTTTTGGCCTATCGGGAAAATGGGGCAGTGCTGTCCAAGCAGGCAGGCGGCGAGTGGGGTGAGAATCATTTGCCCAAACTCTATCAGCCCTTGGCTTCCTATGCTCTGGCGTCTTATGAGGGAGACGAAGACTTGAAGACAGTGGACGGGACGATGCTGGACCATTTTGGCCCGCATCTGCTGATTCGGTTTGCCCATGAATGTGTTTCGGTGGCGGTGGATGCGAGTCAGAAAGGCGGTCAGCAATGA
>SRR1151209_01832 N-acetylmuramic acid 6-phosphate etherase
ATGGATCTGAGCAAATTGACGACCGAGACGCGCAATCAGAAAACCATGCATTTGGACACGATGTCCGTGCATGAATTTGCCGCGGCAATGAACGCCGAGGATCAGACGGTCCCCGTCAGTGTCAGCCGGGCGTTACCCGCCATTGAACAAGCCATTACAGCCATTATTCAAACTTTTAATCATCACGGGCGTTTATTTTACATCGGCGCCGGTACCAGCGGCCGCTTGGGCGTTTTGGACGCGGCAGAGTGTGTTCCGACTTTCGGCACTGATCCCGAAATGGTGCAAGGGCTGATCGCCGGCGGCATGCAGGCGATGACCGTCGCCGTGGAGGGCGCGGAAGATTCCGTATCGCTGGGCCGGCAGGACCTGATCGATCACAAATTAGCCGCGGTCGACACCGTTGTCGGTATTTCGGCCAGCGGCCGCACCCCCTACGTCGTTGGCGGGCTGGATTACGCTGATGCCATTGGCGCCACCACGATCAGTATTGCCTGCAACGACAACGCGGTGATCAGCCAGCATGCGCAAATCGCCATCGAATGCCCGGTGGGTCCGGAAATTCTGACCGGATCGACCCGGTTGAAGTCCGGGACGGCGCAAAAGCTGATCCTGAACATGCTCTCCACCGGGGCCATGGTCGGCATCGGCAAAGTTTACGGCAACTTGATGGTTGATGTGCGGCCGACCAATGAGAAACTGGTCGAACGCAGCAAGCGGATCATCCAACAAGCCACCGGCACCGACGCGGATGCGGCGGCCGAAGCTTTCGCTGCCGCGGGTGAAAACGTGAAGCTGGCCATTGTGATGGTCTTGACGCAACTGCCTAAAGCGGCAGCGGCTGAACGGTTGCAAAGGGCCCATGGGTTCATCGCCCAAGCGGTCAAGAACGAGGAGGAATAA
>SRR1151209_01833 sucrose-specific PTS system IIABC component
ATGGCGCAAGATAAATATGCAACGATGGGCGCGGCGATTTTCGCCGACGTCGGCGGCCCGAGCAATGTCGCCAAACTGATCCACTGTATGACCCGGGTGCGGATGACTATCATTGATGAAGGTAAAGTCAAAATGGCCGCGTTGAAGAAAATTCCCGGCGTCCTCGGGGTCGTGCAGGAAGACACCCTGCAAGTGATCCTCGGCCCCGGCGTCGTCAATAAAGTCGCCCAAGCCATGGTCGACAGTGTCGGCGTCGGCCTGGGTGAACCATTCCCCACTGGTGGGCATGCGGCCAATAAGAGTGCCGTGGAAGCCGTCGCGGCAGAGACCCATGCGGCGCAGAAAGCCAAGCTGAAACAAACTTGGTGGCGGGCCGCGTTGAAGCACATTTCATCCATCTTTATCCCCTTAATTCCAGCCTTTGTTGGGGCCGGGTTGATCGCCGGTATTGCTGGCGTCATGGGCAACATGCAGACTGCCGGGATGATCGGCAAGGATATGACCGAATTCATCACGGTGCTGAAGGTCATCAACAGCGGTCTATTCTTTTACTTGAATATTTATGTCGGAATCAATGCCGCCCGAGAATTCGGCGGCACCCCTGGCCTTGGCGGCATCATTGGCGGACTGACTCTATTGCCGGGCCTGGTGGCACCAATCCCAATTCTCAATATTTTCAACGGCCAGCCGTTAGCCGCTAACCAAGGCGGTATCATTGGCGTGCTGTTTTCCGTTTGGATCATGTCCATGGTAGAAAAGAAGCTGCACACCTGGATTCCTGACTCCCTGGATATCATCATCGTCCCAGTGACCACACTGCTCGCTATGGGAGTTTTCACCATTTTCCTGGTCATGCCGTTGGCCGGACTGGTTTCTTCTTCCCTCGTAGGCGGTATCAATTGGGTCCTGAAAATAGGCGGGGCCTTCTCCGGCTTCGTTCTCGGTCTGTTCTTCCTGCCGATGGTCATGTTCGGTCTGCATCAAATTTTGACCCCGATCCATTTGGAAATGATCAAAGAATTAGGATCTACCCCCCTGCTGCCCATTCTGGCCATGGCGGGTGCCGGCCAGGTCGGTGCAGCGATTGCGCTGTGGGTCCGGGCGCATAAAAATAAGCAGCTCACCCGGATGATCAAAGGCGCGCTGCCAGTTGGTATTCTGGGTGTTGGTGAACCGTTGATCTATGGGGTGACATTGCCCCTAGGCCGACCGTTCATTACCGCCTGTATCGGCGGCGGGATCGGCGGGGCCGTCATTGGCGCCATCGGTAACATCGGCGCGATCACCATCGGCCCGTCCGGCATGGCGCTGATCCCGTTAATTGCCCACAACCAGTGGCTGGGCTATGTCTTTGGCCTGCTGGCCGCTTACGCTGGCGGTTTCGTGGCGACTTACTTCTTCGGGGTGCCCAAGAGCGCCATGGTGGCGAAGAATGAAGACGGCACCCTCGTCGGGGCCGGCGCTGGTGATGTCGCGGTGGCCGATGATGCCGACGCCCCAGTGACCGCCGGCACGACCCAATTCGTCGCCCCTGTCCAAGGCCAGCTTAAACCATTATCCGCCGTTCAAGACGATGTCTTTTCGACGAAAATGATGGGCGACGGCTTCGCGGTCGAACCGGCCATGGGGACCATTGTTGCCCCAGTGTCCGGCACGATCGTCAGTGTCATGGATACAAAGCACGCCTGGACGATGAAGAGCGATACTGGCTTGGAAATCATTGTTCACTTGGGACTGGATACCGTTGAATTGAAAGGTGCGCCCTTTGACTTAAGCATCCGCAACGGCGACCATGTGCAATTTGGCCAGCAAGTCGGGCTGATGGACCTGGATGCCATCAAGGCGGCCGGCAAAGGGACGACAGTGATGACGATTATTACTAACATGGCCGCCGTGGCCAACATCACGCCCGTCACGCCGCAAGGGATTGAAGCGGGCGCGCCAACCATTACCGTAACCACCAAGTAA
>SRR1151209_01834 protein tyrosine phosphatase
GTGACCGTGCCTTACGTTCTACCAATTGAAAAAGGCCCCAACTTTCGGGACCTGGGCGGCTATCAAACGACTGATGGCCGCACGATTAAATATCACAAACTGATTCGATCCGGCCGGATGAATAAACTCAGTGATCAGGATCTGGCCTTTCTCACCGATTACGGCGTCCGCACGATCATTGACCTGCGCTCGCCCAAGGAAAAGCAGCAGTGGCCTGACCGGGTCCCAGCTGGCGCCCGCTACGAACTCAACTCAATTTTCCCAACGGATGAAACCCAAGTCAGCAAGTCCATCGTCGAGCTGCGCAAACTCTATGATAAAGACCCGGTGGCCGGCTTCATGAACATGGTCAACACATACCGGGACATGGTGAGCCGGGGCAGTGCACAGCGTGCGTTCCATCATTTCTTCGAGATTCTCTGTGCCCACGACCAGGACAATGACGCCGTGCTCTACCACTGCACATCGGGGAAAGACCGCACCGGCATGGCGACAGTCTACCTGCTCACCGTGCTGGGCATCCCGGCGGCCACGATCCGCGCGGACTATCTGCTGTCCAATCCCCTGCTGCACAAGAATCGGCGGGACCGGTTAGCCGCCTTGCGGGCCGCTGACAGCAATAGCGCCCTGATCGCCACCACCCGGTCGCTGGCGTCGGTCAGAAATGAGTATCTGGATGCCGCCTTGGTCAAAATCGAAGACGACTACGGGTCCTTACCAGACTATATTGAAAATCAGCTGGGCGTCGACAACCAAATGCAGGCACAATTACGGCAGATCTATCTAAAGCGATAA
>SRR1151209_01835 N-acetylglucosamine kinase
ATGTATGTGATTGGAATTGACAGTGGCGGGACGCATATCGTTGCTATTGCGTTTAACGGTGAAGAACAAATCGCTCAGGCAGAAACTGCCGGGGGCGGGAATATTGCCCTGGATGCGGCGGGGACGGTGCACCGAATCGTCGGTACAGTTGAAAAAATATTTCAGCAGCTGCCCGCGGCAGCGTGCGCTGGTATCTTAGTCGGCATTGCGGGGGTCGCCACGGCCGGCGGTCAGGACCAGGTGGTTAGTGCGTTGCATGAATTGTTCGCCGGCCCGGTGGTGGTGATCAGCGACGCCGATTTGGCGATGCTGAACGGTCTGCATGGTAAAAATGGTGTTGTCGCCATTGCCGGGACCGGCTCGATCGTGCTCGCCCAAACACCCCAGGGCCGCCTGCGGGTCGGCGGTTGGGGCTGGCGGTTTGGTGACGAGGGCAGCGCTTATGATATTGCGCGCCGGGCGTTCCAAACGATTCTCAGTGCCCGGGATCATGGCCGCGTCAGTCCGCTGGAAGTACCTCTGTGTGCTGCGTTGCAGGTGCCAGACTACCGTGCGGCCGTAAGCCGCACCTACCAAATGGATCGTGGGACCTTCGCCGGGTTAGCCCGGGCGGTGGCGCAAGCCGCCACGCCGGCTAATCTGGATGCCCGCGGGGCCGTTATTGATGCGGCGAATGCCTTATCAGACCAAATCACGCTCGCATTGGTGCGTACGCGATTACCGGCGCATGCGACTATCGCCTTGACTGGCTCTGTGCCGGCGAACAATGATCTCTATTTCCAAGTCGTAACCGATCGGCTGGGCAGTCATCCCCTGCGCCGGCTGCAGGGCAGTAATGCCCCCGGAGTGCAGTATTATCGCTTTAGATAG
>SRR1151209_01836 cellobiose-specific PTS system IIC component
ATGGACCGTTTTATGAACTGGGTCGAAAAGAAGCTTGTCCCGCCAATGGCTAAAATTGGCGCGCAGCGTCATTTGTTAGCCATCCGTAACGGGGTTATCTCTACATTATCATTAATTTTAATCGGCAGCTTCTTTTTAATCTTTGTTAACTTACCCTACAAACCGTGGGCCGACGCCTTAGCGCCATACTCAGCCACGATTGCCCTGCCCTTCCGGATGACCATGGGGCTGATGGCGATTTACGCTACCTTCGTCATGGGCGCGGACTTGGCCAAGTCTTACAGCTTGGATTCAACGACCGGCGGCATTTTGTCTTTAGGCACGTTCTTTATGCTGCAAATGCCCGTCAATGTCCTGACGCCGAAGAAAGCGCCGCTGGGGTTCGTTTTACCGATGTCGAATCTGGGCTCGGCCGGTATGTTTACCGGTATTGTGTCCATGATTTTTGCCGTGGAAGTCTACCGGTTCTTCAATGTGCACAAGATTACCATCAAAATGCCGGAGCAAGTCCCGCCTGCCGTGGCCCGTTCTTTTGAAGCATTGATTCCTGGGGCGGTCATTATTATCGTGGCTTGGCTGGTCCGGGACATTTTCAAGTTTGACGTTAATGGTGCATTGCTGGCTTTGTTCAAACCAATTACCGGCATTCTCGGGAATAATTTATTTGGGGTCCTCTTACCGATGTTCCTGATCCACTTCCTGTGGTCCTTCGGAATCCACGGGATGAGTATCGTGGGGTCAGTCGTCCGGCCCATGTGGCTGGTCATGCTGAGCGCCAATGCCGACGCTGTGACAAAGGGCGTCAGCCGTACTCACCTGCCTTACATTGCCCCAGAACAATTCTACCAGTGGACTGTCACCATTGGCGGGGCGGGGGCAACGGTCGTTGTCGCCGTCATGTTCTTGACGATTTGCAAGTCTAAGTTCTTACGCGAAGTCGGCGGTTTCTCCCTGGTGCCCGGAATTTTCAACATCAATGAACCCATGATCTTCGGTGCTCCCATTATTCTGAATCCATATCTGATCCTGCCGTTTAACTTAGTGCCGCTCGTTCTTTCGACTATTTCTTACTACGCCGTTAAATTGGGCTTGGTGAACGGCTTTACGACCTATCAGGCGTGGACGCTGCCGGCCCCGATCGGCGGTTATCTGAGTGCGGGGAACGACTGGCGGATCATTATTCTGATTGTTGTGAACTTAATCGTTGCCGCGATTATTTACTACCCATTCGTGAAGGCTTACGATAAAAAGATGGTTGCCGACGAACAGGCTAAGGCGGAGAAGCCAGAAGCGGCTGCGCCGGCGGCCGCAGCAAAAGCGTAA
>SRR1151209_01837 hypothetical protein
ATGCTCTATTGGCTGCTCGTATTTGGCGCATTCCTAGTGGTATTGGGTTTGACCCAATGGTTGCTGGCCTGGTTGAAACAACACGGTGTGCATATTAACCGCTGGATTTTTGGCCTGGCTGCCTTTCTCGTCGTGATGATTCCCCATGTCGTGGTCAAACATGTGCCAATACCCGTGGACGCTATTCTGTACATTCTGTGCGCCGTTTTCGCCATCGCTTTTATGACAGAATCCCACACGGTACTGTTGCATTACGAGAAAGAACATCCCAACACCCCTGCAAAGTAA
>SRR1151209_01838 serine hydrolase
ATGATTGAAAACACGAAGGCCATTAACGATGTCTTGCAGACGGCCTTGGCAAGCCGATCCGTGTACGGTATTTCATATGCGCTGATTGGTCCAGAACAAAACGAGTTACACTATCTTGGCTTTCAAGGACGGGAAAATGACGCCATCCCATTGGCACCGGACATGCTTTACGACTTGGCTTCACTAACGAAAATCGTGGGCACGACCACGCGCATTTTACAGCTGATTGGCGCCAACATTATCCAGCTGACCGATCCGGTGGGGAAATACGTCACTGGGCTGCGCCAGCCGCAATTAACGATTGGCCAGCTTCTGTGCCACGACAGCGGCCTGCCGGCAGACATCCCCAATGCTCTGGATTTATCCGCTGCCGGGCTCATTGAAAAAATCAAACAGGCGCCGCTGATTGCCGCACCAGGTACGCAGACAATCTATTCGGACCTGGGCTTCATTCAATTAGGCTGGGTGATCCAACACATCGATGGTGATCTGGCAGCTAGCTTACAGGATAACGTCTTTGCCCCGCTGGGCATGCACGATACAGGTTTCAATCCAGCTATTGCGAATGCTCGCCGGTTCGTGCCCACCGAGGACGTGCCGGCCCGCGGCGGTGTGCTGCGCGGCCAAGTCCATGATGAGAAAGCTGCTGTTCTGCATGGTGTGAGCGGCCATGCTGGGCTTTTTGCCCCACTGACCGACCTGACGCACTTTGTCCGCATGTATCTGCAGGCCGGCCGGTATCAGGGTCAGCAAATCTTGCCGCCGCAAGCCTTTGACTTGCTCCGCCAGTATGCTGCCAACGGCCGCACACTAGGCTGGCAATGCTGGCAGCCCGGCGGCACCCGGCTCTGGCACACTAGTTTCACCGGAACGTCGATCGCCTTGGACCTGACCGCCCGCACCGGCTTCGTGTGTCTGACGAATCGGGTGTATCCTACCCGGAACAACCAAAGCTGGCTGAAATGGCGGCGATTGGCGGTCGGGTTGTTTTTCAATGGGTTAGAGAAAATTAATTGA
>SRR1151209_01839 LysR family transcriptional regulator
ATGAATATTCGGCAGTTAGAAATCTTCACTGCGGTAGCCGAAACGGGGTCGATCACCAAAACCGCGGAGCAGCTTTATCTTTCGCAGCCCGCGATTTCGAAGACCATTCGCGAGCTGGAGACAGATATTGGCGTGCCGCTATTCGACCGGATCGATAACCGGCTGCACCTGAATCCGGCGGGGCGGGCCTTTCGCATTCGGGCGACGCGGCTGCTGACGGAGTTTCATGACCTCGCCAGTTTCGGCGAACAGACCCAAGCGCTACCGTTGCGCGTGGGCACCAGTATGACGATTGGCCAATTGTCGCTGCCAGCGGCGGTGACTGAATTCCGCAAATTGTATCCCGATACGCCGCTGAAGATTTATTCAGAAAATGTCCAACGAATCAAAGCGCGACTGCTTAACGGCGATGTGGACGTGGCGTTCCTCGAAGGGTTTGCCTCCAGCCAATCTTTTACCGCCCTGCCGATTTCGGAATATCCGCTGCTGGCCGTGGGAGCGCCGCACCTCACGGCAACAGCCCAGCTGACCAGGGCGGAGATGCTGCAGGTGCCATTCTTGTTGAGAGAATTGGGCAGTACCCTGCGGGATCATTTCGACGAAACGATGCACCACATCGGTATCGATATTGAACCGATGCTGCAAAGCACCAGCACCGCCGTTTTGATCAACGCTGCTAAGGCTGGGTTAGGCCTGACCATCTTGCCCTCCCCCTTTGCCCAGCCGTATCTGACCGCCGGAACGCTGCAGCGGTATGAGTTGCCGGGCCAAGAGATGCGGACAGTGAACTATGCCATTACACTGAAAGGCAGTGCCGTGAATGCCGTGCAGCAGGCCCTGGTGGACTGTTTTAAGAAAGCCCAGTGGCATGAGTCGCTGTAA
>SRR1151209_01840 putative chromate transport protein
GTGCATAAAAACTGGATCCTGTTTAAAGTCTATCTACTCGCCGGCACCTTCACTTTTTCTGGCGGCATGGCCATGCTGCCGGTCATTGAACGCGAACTCGTCGGGAAATACCACCTCATCGAACGGGATCAGCTCTACGAATACGCCACCCTGTCCCAGACCTTTCCCGGGGTGATTGCCTTGAATAACGCCTGTTTTGTCGGGAAGAAAATCGGTGGCACGGTCGGCATCATTGCCGCCAGCTTGGGGGCGATTTTGCCCGCCTTTGTCTTGATGCTGGCGGCCACGATTGCCTACCAGATGATTCCCCAGGAGGGCGTCGTGCTGAGTATCATGGCCGCTATTCGGGCCGCCTCCGCGGCCTTCCTCTTCAGTGCCGCCTATAGTTTGGCCCGGTTCAATCTGAAAGATGCCCCGACGATCATTCTCGCCGCGGCCTGCTTCCTGTTGACTGTGCTGAACCTCGCCAACGCGCCGACCTTGATTGTCATTGCCGGCATCGTCGGGATCATCTTGAGCCGGGTGAAGCAGGTGCGCCGGGTATGA
>SRR1151209_01841 putative chromate transport protein
ATGATCACGATATTTTTGACCTTCCTAAAAATCGGCTTTCTCGGCTTTGGCGGCGGCTACGCAATGCTGTCGCTGATCTTCCAAGAATCAGAAAAACTGGGCATGACGGTGCAGCAATTTGCCGACTTGAACGCATTGGACGGTTTGATTCCCGGACCCATCGCCATCAATTCCGCCACTTACCTGGGTCAGCTATACGGCGGCTTCTGGACCGCGGTCGCCGCCACCCTGGCCGTTTGTGTCCCCTCGTTTATTTTTGTTCCGTTATTTCTGCACTACGAAGACAAAATCAACGATAACTGGGTTTTGACCGCCATTCTAGACGGTATCAAACCGGCCTCGGTCGGTTTGATCTTGGCTGTGGCTTTATCCCTCATGCTGCTTACAGTCTTTGGCATCAACGGTTTGGGGGAATGGGCCAAAGCGTCGCTAGATTGGACCAGTTTGCTGGTGCTTGGGGTTGTGTTCTTCCTGGATTCAAAGTACCACGTTAATCCCGTGTGGCTGATCCTGCTGGCCGGCCTTCTCGGCGGTGTGGTTTACTACCTGTGA
>SRR1151209_01842 two-component system response regulator
ATGCAGCCAAAAGTACTGCTGGTGGACGATGATCCAGGAATCATCCAATTAGTGCAGCGTTATTTTGATCTGATGCTGGCGACGTATGGCTTGCTCACCGCGGATTCCGGCGGCGCCGCCATTGCCCAACTGCAAAACGATCCAGATTTGGTTTTGCTGGACGTGAACTTGCCGGATACAGATGGGTTTGCCCTGACCAGCCGCATCCGAGCAGTGACCAGTGTCCCCATCATTTTTCTCACCGCCCGGGTGACCGATGCGGATAAAGTCCGCGGCTTGGGTGCCGGGGGCGACGACTACGTGACGAAACCATTCAGCCTGGCTGATCTGGGCGCCCGTATTCAAGCGCGCCTGCGCCGCGCGAGTGCCCCGGAGAAACGAGCCCAAATCGCGGCATTCGGCGATCTCATCATTAATTATAGTGCCCAGCAAGTCACCGTGGCCGCCCAGCCCTTGGCGTTAGAAAAGAAACAGTACGATTTAGTGGCCTTCTTGAGTCTGAACCCTGGTCAAGTCTTCAGTCGGGAACAGCTCTACGAAAAGCTCTGGGGATTCGACGCGGTAGGCGATGACCGGGTGATCACCGAACACATTCGCCGGATTCGCCAGACATTCGCCCAAGCCGGGGCTCAGTGTCCGATTGATACAGTTTGGGGAGTGGGCTACCGATGGTAA
>SRR1151209_01843 two-component system sensor histidine kinase
ATGGTAAAATTAACCAGCTGGCTGCGCGATCAGCCAATTAAAACAGCGTTATTGCGGCTCATTCTGGCAGGTACCCTGATTGCCGGGCTGAGCATTGTGGTGTATCTGCTGCTCTGGAATGCGTTGATCTCCTTACTTGCCCCCTATGTCACCCCCACGTGGCTGATTGCGGTGACCATTCTCTTTGTGACTGGCGCAATTGGCGGCAGCCTCGCCATCCTGATTGCCATCATGACCGCCGCGGCCCGTCTTTTTTATCGCGTCAAACTGGCTGACCCGCTGCAACAGCTCGAAACCGGTGTCGCCCGCATTCAGGCCCAGGATCTGGATTTTCACCTGACCCCAACTGCCCCCGATGAATTAGGCGCTTTGGTCCAGGCCTTTGAAAAGATGCGCCAAGCGCTGCAGGATGCCTTGCAAACCGCCTGGCGTTTGGCGGATGATCAAAAGCAAGTGAACGCGGCCTTCGCCCATGACTTGCGGACGCCATTGACTGTCCTGCAGGGCAATATTGAATTACTCACCTTGCAAAAGGCGGGCCAGCCCCTGAATCCGGATATTATGCAGGATATGCAGCAGCAGCTGGACCGCATCAACCACTTTATTCAAACTATGACCCACATTACGGCCATCCACAATATTGCCCTCAGCCCCACCCCAATCAGCCCGTCTCAATTAACGCACCAGTTAAAGGACGAGGCCCAGAAGCTGGCCGGAACGATTCCTTTCACGTGGCATGAAGAACTGCCTACCGCCCCTGACCACCCGCTGGCCGTCGCCCCGGCCGCCATCCTGGAGGTATTCGATAATCAATTGACCAATGCCTTCCGGTTTGCGCGCACAACAGTCGGGATCACGGTGACTGTGGGTAAGAAAACCGTCGAGATCGCCGTCTGCAACGATGGCCCGTTACTCACCCCGGCAGAGCAGGCTAACGCCCAGCTGCCTTTCTTCTCCAGCGGCAAAGCGGCTGACCATTTAGGCGTCGGCATGTATATCTGCAAGACGCTGTGTACCGCTCACCATGGCAGTTTCTCAGTGGCCAATACAGCCCACGGCGTCACGGCGACGGCCCGGTTCGCTTATTTGTAG
>SRR1151209_01844 ABC transporter ATP-binding protein
ATGGATACGATTCAAATCAATCATTTAACCAAACACTATCGGGGCAAAGACACTCCGGCCTTGAATGACGTGTCGCTGACGATCTCGGCGGGCATGTTCGGCCTGCTGGGAAAAAATGGCGCCGGCAAATCCACGCTGATGCGGATCTTGACCACCCTGGACCAAGCCACTGCCGGCAGTATTCAGATGTGCGGCATTCCCATCACCCAACGCGCCGCCATTCGCGCGCAAGTCGGCTATCTGCCCCAAAATTTTGGCTTCTATCCGACCATGACCGTCAGCGACGCGCTTACGTATTTGGCTATTCTGGCCCACGTGCCGGCCCGCGACCAGCAGCGGCGCATTGCCAGACTGCTGGCGCAAGTGAATTTGACCAAGCAGGCCCGGACCAAGGTCAAAGCGCTCTCCGGCGGGATGCGCCAGCGGCTGGGTATTGCCCAAGCCCTGGTTAATCAGCCGAAAGTCCTGATCGTGGACGAACCCACTGCCGGTCTGGACCCCGAAGAACGGATCCGATTTCGCAATCTGCTGGCGGAGTTTGCCCAGGAACGGATCGTTCTGTTGTCCACCCACATTGTTTCAGACATTGAAGCGACCACAAACCGGATTGGTGTGCTGGATCAAGGCCACCTGCTGTTTACGGGCACCACCGCCCAATTGCAAACCCAGGCGGCCGGCCATGTTTTCGCCAGCAGCTTGTCGGTGGCTGAATTAAGTGCCTTCAAAGCCCGCTACGAAATTAGTGAACAAATCGTGCAAGGCGATACGGCCCACATCCGATTTCTGGCGACCGCAGCCATGCCCGGTGCCAGCACGGTGGCGCCGACTTTAGAAGAAGCGTACCTGTATTTGCAATCGCGGCCCACCCGCCAAGGAGTCCGCCAATGA
>SRR1151209_01845 hypothetical protein
ATGAAATTATTCTGGTTGGAATTCAAGCGGTTTACTACGAGCCTGGCCTTTGTCCTGTATACCCTTGTCACGGTTGGGTTTATCCTGCTCAACGTTTGGCCCATGATCGATCGGGGGCTGGCGACGGCACCCGTGAATCCGACAGCCCGCTATGATCTGATCACGACTACCGATTTTCATGCCCTAAAGACCAACGCGCTTGATCAGTTAAAAGAAGAACACGCTGACGATGCGTATGTGACATACCCTTTCGGCTTTGCGAAAAACGTGACCCTGACTGCCGGGGCGCAAGTCAAAGTGGAGCAGGCCCTGAATCAGGCACGCCAGGCGGATACTCGCCGCGGCTTGGAAAAAGCACTCGGTCCCGTTGACCAGTTATTGGGCGGACATTCAGATTATCAAGCAGCCAATTTGCAGCGATTCGCGGTCCGCCCGATGACGCTGGCCGAAGCCCGCCGCGACCACACTCTCATCATGCGCAAAGACCGAATCACCGGAACCTATGCCCGGCTGTTTGCGGATATTGCGAGCATCATCGTTTGTATTCTGCCGACCATTGTCATCATTGCCTATTGCTACGCGGATCGGCGTGCCCAGATCCGGCCGACCATGCAGGCCAAAGCGATGGGCACGCCCAAATGGCTGGTGACCCGGTATGCCGCCAGCGTGGCCGGATTATTGATCCCTGTACTCATGACCGCCTTGCTGCTGCTTGGCCGCGTGATTTTGCTTTATCCCGGGGCCGCACTCGATTACTGGGCATTCTTTAAGGCTGCCGGCTTTTGGGTCCTGCCCACGCTGCTGGTGAGCACGGCCGTCGGTTTTCTCAGTGATGCCCTATTTAGTAATTTCACCGGCTTTGCTCTGCAAATCGGCTGGTGGCTGATCACCATGATGATTGGTGCCCACCAAGTGATCGGAAATTACGGTTGGCTCCTGATCCCGCGGCACAATTCACTGCACAACGTGAGTTTCTTTTATGCCCATTACTCAGAATTAGCCATCAACCGGTTAGGCTATACCCTCTTGGCCATCGTCTTCTTAGGGTTGACCATGGTGCTGATGAATCTACAGAGAGAAGGAAAATATCGTGGCTTCCACCTTCGGCCGGCTCGCCGTTAA
>SRR1151209_01846 hypothetical protein
GTGGCTTCCACCTTCGGCCGGCTCGCCGTTAAAGAAATTCGGGCTAATGAATTATTCCCCAGTTTACTGGCGATCGCCTTTTGCGGTATCATGCCGATCCTATTCACCATGCACCCGACTACGATCACCCAGGCCGCGTTACCCGGCGAATTGTTCATGCCGCTGGCCGCCATCTTCTGTTTCGGCGGGATTTTCCTGCCGGAACAGGTCGCCGGGGTGACCGACGTCTTGAATAGCAAACGGACGCAATTGGTTTCCATATACATGATTCGTTTTGGCTGGTATACCGTATTGCTTAGCATGATCAACCTGCTGCTGATCGTCGGCTATCAACTACCGAACTTTGCGGGCGTTTTGTTCTTTGATTTCGTCACTAAGGTCCTGTTCGTTGGCAGCCTGACTGTGTTCAGCTACGCCGCGTCCCGCTCATTGGCTGCAGCTTACCTGATCCCGACGGTCTACTTTGCCCTGTGTGTTGGCTATCCGCACCTCGGACCGTTGAATCTATTTATCTTGATGCGTCAGCAGTCGTGGACAGATAATTGGTGGCAGCTTGGGGTGGCGGTCCTCTTATTGGTGGGCGGGTTTGGTTTAGTCACAAAACGGGCTGTGCGGTCTTAG
>SRR1151209_01847 hypothetical protein
ATGCCTATGGGCAATGATCAAACTCTAGCGAGAGGGGGTGCTGGGTTGTCTGATACCGATGTGCTTACCGTCATGATTGCATTCGGCAGTTTAATGCTGCTGCTTGTCGACGTGATGATTAAGCTCATCGAACTACACGACAATCACAAAAACGACCGCCAGTAA
>SRR1151209_01848 DNA topology modulation protein FlaR
ATGAAGATCATGCTTATTGGCAATGCCGGTACCGGTAAATCCACCCTGGCCCGCTGGTTAGCGGCGCAAACGGGCTATCCGGTGATGTATCTGGATCAGTTCTGGCATACCACGGATTATTCAGCAGAAGCGAAACAATGGTTTATCCAGCAGCAGAAGAATTTCTGTGCAGCCCACGACAACTGGATCATTGACGGCAACTACAGTGGTTCGATGGCGGTCCGCTTGGCTGAAGCGGATTTGGTCATTTGGCTGCAAGTCAGTCGCGTGCGATCCATCATCCGGGTCATTCGCCGGTCTTTGCGCTACCGCCGAAATAAAAATAGCCGCCCAGATATGGCGGCGGCGTTCACGGAACATTTTGACAAGGACTATTGGGATTTTCTGCTGTATATTTGGCATTACGACGGCGATAAGTTGAGAAAAGTGCTGGCGGCGCAACAGCCCGCACCACGGCTGATCGTACTGCGCGGCACGCGGGCGAAGGAGAAATTTATGGTGGATTTCAAACAGCAAGAATTTAGTTGA
>SRR1151209_01849 FMN reductase
ATGCAGGTATTAGGAATTTACGGCGGTCAAGACGCCAACGGGCTGACTGCGACAGTGGTGAAAGAAATTTTGAGCGCAGTTGAAGCTCCGGCCACCACGGAGTTTATTGATCTCAATACATTTGATTTGCAGCCAGAAAGTCCGCACCGGCCCAACCCGGATCTAGATCAATTGGCAGCGAAATTGCAGGCCGCCGACGTTTGGGTATTCGGCGCACCGACCTATTACAGCACGATTCCCGGCCAACTGAAGCAATTCTTTGATGTCATGCGCCACCGCTGGACGCGGATGACGAAAGCTGGAGACAGCTTACCCAATGGAGTTTTTCAAAACAAGCATTATGTATCAGTGACCAGCTGTTTTGCGCCGACGGGGGATAATCTGTTCACCGGCCAAACTGATCTGACGCTGCGGGCAATTGATGGGGCGATGACGCTGGCCGGGGTGCACAAGATCACTGAGCTGGTTTGTCCCAACACCTGGCGGCAGCGCACGCCCACGGCAAAGAAACTGGCTCGGGCGCAGGTAATTGGGCGGCAGCTGAGTCACTATCAGCGAAAGGACGATGAAACTTTGAAACGCTATGGTTTACTCTTCTGCATGATTGCCGTGATGGCTCTAGCAACCATGGGTATTCAACAACTCTGGCCGGCACTGACCAACGGGTTTTGGCTGCGCTACGTGAGTTTTGTAGTCATTTTCTTTGTACTGTTGGCGATCATTCTGCATGTGATGACATTCATGCGGCATAAACGCGCATGA
>SRR1151209_01850 16S rRNA methyltransferase
ATGGAAATCACGTACCAAGGAAAAACACTCAGTTTTACCAGCAATCAGGAAGTCTTTTCTCCCCACGGTCTTGATAAGGGCACAGAGGCGATGCTGGATCAGGCGGAGGTGCATGCCGATGATAGTATTCTGGATCTCGGGTGCGGCTTTGGCTTCGTCGGAATCTATTACGCGGCAACTCTGCCCCAGGCGCAGGTGACGATGGTAGATATTGACCCCAACGCCGTGCAGCTGGCACAAGCCAATGCGCAGAAAAATCATGTGACGCCCACAATCAAGCAGAGCGATCGGCTCACTGCGATTGCAGATGCTCATTTCGACGTGATCTTGTCGAATCCGCCGTATCATGAGAACTTTTCCGTGCCTAAGCATTTCATCGAAGACGGCTATCAGCAGTTAAATCCTAATGGCCGTTTCTACATGGTCACAAAGCGCCGACCATGGTATGAAAACAAGATTCGGACCGTCTTTGGCGGAGTGAAAGTCAGCGAAGCCAATGGCTATTTCGTTTTCTATGCCCAGAAACGGGTCGGCGAAACTCGGGGGCATACTCATGAGAAGAAACACACCTTATCAAAGAAGCTGCAGCGCAAGCTTGATCGGGCAGGAAAACACTGA
>SRR1151209_01851 holin-like toxin
TTGTCTGTCACCGATGTGCTGACGATCATGCTCGCATTTGGCAGTTTCGTACTGTTACTTGTCGACTTGATGCTGAAGCTCATCATTTTCTACGACGACAATCAAAAAAACGACCGTCACTAG
>SRR1151209_01852 major facilitator superfamily transporter
GTGAACTGGCACGTATTCAGTGACACTTTTTCTTCCCTTCGTTCCAAAAACTTCCGCCGCTTCTGGATTGGCCAATGTATTTCCGTTATGGGCACCTGGATCCAGCGGACGACGCAGACTTGGCTGGTTTACCAAATGACCAAGTCCGCCTTTTTGGTGGGCCTGTTGGCCGCCGCCCAGTTTGTCCCGATCATGGCCCTCACTCTAGTGGCGGGGACGTTAATTGACCGGTATCCGAAGCGGCGTATTCTGTTGATCACCCAGGCTGGCTTTTTGGTCCTGGGGGCAATCATGACCACCATTACCTACTTGAAGATCGTGCAATACTGGCAGATCTTGCTTATTGCCCTGGGCTACGGCATTCTGCAAAGCTTCGATACGCCCACACGGCAGTCTTATGTCATTGAGTTGGTCGGCAAAAAGGACTTGATGAATGGTATTTCGCTCAATTCATCCATTTTCAACCTGGCGAAGATTGCCGGCCCCTCATTGGCCGGTATTCTGATGGTTGCGCTAGGCGTAGCGCCGTGTTTTCTCATCGACACGTTGAGCTACATCGCGATCATCATTGGTCTCTTGATGATCCATCAAGAACACCCTGTGGCCAGCCACACGCCACGGCATATTATTGTTGATGTCAAAGAAGGCCTGGCTTACGTTGTCCACCACGACAATGTCAAGCTGAGTGCCGAACTGATGATGATCATCTGCACGCTGAACTTCAACAACAACGTCATTATTCCGATTTACGCCCAAGAAGTGCTGGGCCGCGGTGCCCAGGGTTATGCCAACCTGCTGTCAGCCACTGGAATCGGCTCGCTCATCGCCGCCTTCTTAATGAGCTACCTATCCCGCTTTGGCCTGCGGCGCGACCTATATTTGATGGTTGCTATGGGCACGGCGCTGGTCCAATCATTGATGATTTTCGTCCGTGTATACTGGCTGGCGATGATTTTTATGGTGGTCATTGGTTTCTGCAACATGGTCTTTTTGAACCAATCCAACGCGGCCTTCCAATTCTCCATTCCAAATGAATTGCGCGGGCGGATCATGAGCGTGTATGTCCTGCTGAATCAGGGGTCCACCCCCATCGGCAGTCTCTATTCCGGTGGGTTAATGGACGTGGCCGGCGGCTTGTGGGGCTTTCCTGCCTGCGGTTTGCTGGCGCTGGTCTTAGCCGTGCCGGTGCTGCTTAGTCATCAACGGACGGTCAAACAATGGTTGAATACATGA
>SRR1151209_01853 penicillin acylase
ATGTGTACATCAATGCAGATCAGAGCCATCGAGGGTGACGTCTTTTGGGGCCGGACGATGGACTTCGCGGATACGTTTTTCCATCAGAATGATCCCAAAGGCGGCATCAACTTCCCTGGGAAAATCACCAGCTTTCCCCGCGGCGTGAAAGTGCCAAGCCAGACCCCGGATTGGACGACGCAATATGCTGCCAGTGGTGTTGGGGTTGCCGGCACGGCCGGCTTGTTTGACGGGGTTAATGAACATGGCCTGGCCGGTGACATGCAGGTGCTGGTCGAGGCCACCACGGCATCGCCGGAGTCCTTGAGCCAACGCGGCTTGAAGGGTGTCTTTGCCACAGAATATGTGGCTTACATTTTGACTACCTGTAAGACGGTGGCGGATGTCCGCGCCGCAGCGGCGAAGACGGGCATTCTGGCAGATGACGCGGCCAAGGGGATTCCGCTGCACTATGCCTTTGTGGATGAAACTGGGGCCGGCGTGGTGTTGGAACCGACTGATCATGGGGCATTCAAGGTTTACGACAACATTGGTGCGATGACCAACAGTCCAGAGTACGGCTACCATACGACCAACCTGCGCAATTACGTTTCTCTGGACGCCATCAACCGCGGTCAGGGGACTAAGCTGGGTGATTACCAGGTCCAACCCATTGAATTCGGGACGGGTTACGGCATGTTTGGTTTGCCGGGGGATTATACATCGCCTTCCCGCTTTGTCCGGGCCATGGTTGTTTCCCATAACCTCCCGCCGTTTCACCGGGCTGACGGTATTCAGCAACTCTATAACTGCTTCAAGACAGTGATGGTACCGGAAGGCTTGGGCCGCGATGCGGATAATGAAAATCGGACCGATTCCACCCAATATTGGGCAGGCTTCGACCTGGCTAAACGGACCATGACGGTGCAGGATTCCCACTACATGACGCCGACGGTCAAGACGGTGGATCCGGATATCACCGAGATCACCTACCAAGACTTGAATAAAGACTATGTGGCGCACGTTCTGTAA
>SRR1151209_01854 glutamate 5-kinase
ATGACAGAAAAGAGACCGCTGACTTGCCGGCGCATCGTCGTCAAAATCGGCACGAGCAGTCTGATCGACGCCGCCACAGGCCAGATCAAACTGCGGACGATCGACCGCCTGGCCTTCACCCTGGCGGCGTTGAATCATCAAGGCTGCGACATGGTGCTGGTGACTTCCGGGGCGATCGGGGTCGGCCTGACCCAGCAGCGCCTCACGGAACGGCCCAGCAGTATTGCGGAACAGCAGGCGCTGGCCGCGGTTGGGCAGTGCGAACTGATGCGGCTCTACAGCCAACGGTTCAATGATTATGACGCGCAAATTGGCCAATTGCTGCTGACCCACGATGTCTTCGATTATCCGGTCAGCCGGACCCACGTCATGGACACGATCGATGCCCTGTTGGCCCACCGGATCATTCCGGTAATCAATGAAAACGACTCGGTGGCTGTGGATGAATTGGACCACCGGACGACCTTTGGCGACAATGATCAGCTGTCGGCGTTGGTGGCCACCCAGATCGGGGCGGACCTGCTGATCGTGCTGTCGGACATTGATGGGCTCTATGACCAGGATCCACGCCGCCACGCTGATGCTCGCCGACTGACCACCGTGCATCACCTGTCGGAAGACATCCTAGCTGGTGCCGCTGGCAGCGGCAGCCGCTTAGGGACTGGCGGCATGGTGACGAAGCTGAAGGCGGCTGGCCGCATGATGCAGGCTGGCGCCCAAATGGTTCTGGCCAGCGGCGCTGATCCGCGCATTATTTCCCATATTATCGCCGGCGAAAATGTCGGCACTTGGTTTGTGCAGAAAGCAGAGGTTGAACAGTCATGA
>SRR1151209_01855 gamma-glutamyl phosphate reductase
ATGATCACCACGTTAGAAGAAATGGGCCAAGCCGCCCAAAATGCCGCCGCTGAATTAGCTGTTTTGCCAGCGGCCAAAAAGAATACCGTCCTGAACGCGATGGCGGATGCGCTGGTGGCCCATCGCCAAGCAATTTTAACGGCCAATGCTGACGATCTGGTCAATGCCGCGGATCTGCCGGCCAAGTTCGTTGATCGCCTGCGGCTCACTGATGCTCGTATCCAAGATATGGCCACTGGCCTGCGCCAGGTCGCCGGACTGCCGGATCCCACTGCCCAAGCGGACAAGGGCTGGACGACGGACGCGGGGCTGCACATCGTCCAGCAGCGCGTCCCGCTGGGGGTCGTGGGTATCATTTTTGAAGCCCGGCCGAACGTGACCGTGGATGCTGCCGGTCTCACGTTCAAAAGCGGCAATGCCGTGATCCTGCGCGGCGGCAAAGAAGCTCTGCGCAGTAACATGGCCTTGGCGAAGGTCTTGCAAGACGTGTTAGCCAATCACGGCTTGCCGGTGGCCGCCATTCAACTGATCACGGATACCAGCCACGCGACCGCCCAAGCACTGATGCGCTTAAACGGGTACGTGGACGTCCTGATTCCCCGGGGCGGCGCCGGTTTAATTCAGACGGTGGTCAAAAATGCGACCGTTCCGGTCATCGAGACTGGTGCCGGCAACTGCCACATTTATGTGGATCAAGGGGCCGACTTGCAAATGGCAGAAAATATCGTCGTCAATGCCAAGGTCCAGCGCCCTTCCGTCTGCAATGCCGCCGAGAAGCTCTTGATCCACCAGGACGTGGCCGCTGATTATCTGCCGGTATTAGCCGCCGCCTTGCGCGCCCATGGGGTCGAACTCCGGGGCGACGCGCGGGCCCGAGCGATCGTGCCGGACATGATCCCGGCCACTGCAGCCGATTGGGATACCGAGTACAACGACTTGATCATGGCGGTGAAAGTGGTCGATTCTCTGGATGCAGCCATCGCCCACATCAACGCCCACAATACGAAGCATTCGGAAGCCATCATCACCAATGATTACACCGCCAGTCAACGCTTCCTGCAACGAATCGACGCTGCCTGCGTTTACGTGAACGCTTCGACCCGGTTCACCGACGGCTTTGAATTCGGCTTTGGCGCCGAGATCGGCATCAGCACCCAGAAATTGCACGCCCGCGGGCCGATGGGCTTGGCCCAGCTGACCACGACCAAATACGAAATTCGCGGGGACGGCCAAGTGCGGGCATGA
>SRR1151209_01856 hypothetical protein
ATGGATCTGCTGGACATGAGTCGATTGATGCGCCTCATTGAGCGCTTGGGGAATGTGGTCATCAGCAGTGGACTGCTGCTGATGACCAATCTGCCGTTGGCTTTTTCGCTGGCCTTTATTCCCATTCAACGGAATAATGTGCTGATTTTAATCGGCTTGAGCGTAACGCTGGGGCCGTCTTTGACCGCGCTGAATTATGCGTATTTCCATGGGGATACGCTGGTCCGTCATTTCTTTAAGGGGTATCGCGACAACTGGCGGCAGGCGTGGGCATTGTTCAGTGGGCTCACCGGCCTGCTCCTGCTGTTCACTTACGATAGCTTGTTTGTCTTAGCCAATCCGCAATTTCAATTTTTCCTGATCCCATTGGTGTTTGTACTGGCATTCCTCGTGCTCTTAGGGTTTTACACGGCCCTGCTGTTGGCGCGCTATACGGGGTCGATTCGAAATCAGGTGCGCAATGCAGCTATTTTGACTGGCCGCCATGGTTTTCGCAATATTGGGCTGCTGGTCTTTGTCAGCAGCGTCTTCCTTGTGACCAAGGCGACGAATATGCCGCTGCTGCAATTATTGCTTGCTGGCGTGATTGCCATTGGCAGTTTCTATTGGCTCCGGGGGACGCTGGAGCGGGTGATTAGTAAACCATAG
>SRR1151209_01857 histidine kinase
ATGATTCGGCCGTGGCAGCGCTGGTCATTGTGGGTCAAGATCTTCGTGTCCATGTTGGCCGTATCGGTGCCGGTGATTCTGCTGCTGGGGACGATTTCCTTTGTCCAAGGCCACGAAATGGATAAGGAAACCACCCAGACGTACCTGAAAAACGAAGTGGACAGCAGTCTGGAGATCATGAAGGGCAAGGCAACCACGGCAGAGGGTATTATCAATGCACTGTCGTTCAACAACGCGATTGGCAACACGTTCGAGAGCCAGGCGACGCAGCGGGACATTTATGCCGCGTATCTGAACTTTCGAGATTACGTTGATCCAACTCAGAAAGTGTTGATGACTCTGAATCCGGATTTGCAGCGGATCGATTATTACACGGATTCCCAGGTCGCAGGAATGCGGGAAAATGTCCATAGTTTGCAGGATAAGACGAATCCGCCCTTTGTGGCCAAACTGGGTTATTCTGAGAATCCCCAGTGGTTCGCCGATAGCGATCATGTCTACGCGATTCGGGCTTTTCCCATTTCGATCACCCCGGAGACCCATACACTGGTGATGCTGACGTATGACCGGCCGACGTTCTTTGCGCCGTTGGTAAAGAAAAATGCCATGCTGATCTTCACGGTGACCAACGCGGCGGGGCAGACAATTTTTACCGACAAACGGTGGAACAGTCGGCAATTCACCGCTGGCGGCCCAGCGATCCGCATTGGCACCACGGGCTGGCAATTGCGGATGCAGTATGATGGGGCGCTGGATCGGGATAACCGGATCGTTTCTTGGACGATTATCGGCGTGATCATCAGTCTGGTGTTGATCATGCTGCTGACGCGGTATTTCACCAACATGATCAGTGCTAATTTTCGCCGGTTGAAGGGTAACATTCAGCAAGTGATTGCCGATCCAGCCCAGAATGTTTCTTTCACCACGAATGAACAGGATGAATTCGGTCAGTTAAGCAATTCGGTGGGCGCAATGGTGGACCAGTTGAAGGCGCTGAATGACCAGGCAATGCAGGCGGAGATTGAGAAGCAGAGCAGCAAGTATGATGCGTTGGTCAATCAAATCAACTCGCATTTCTTGTACAATACGCTCTCGATGATCGATTGGCAGGCGCGGCAATCAGGCAATCCCGTGATCAGCATGGCGGTGCGCGAATTATCGACATTCTACCGGACGACGCTGAATCACGGCCACAGCGGGAAACTGTTGAAGAATGAAATTGACAACATTAAGGCTTATATTACGCTGCAGCTGGTCCTGCACGATACATTTCAGGTTTCTTACGACATTGATCCCCGCCTGCTGCGGGCGAGGGCCATCAACCTGATGATTCAGCCCATCGTCGAAAATGCCATTGAGCACGGTCTGCATGAAGAAAAGGCAGACGCAGAGATTTTTATCTCTGTCCGCCAGGAAGCAGATCAATTGTGGGTCCAGGTGACCGATAACGGGGTCGGCATCGCGCCGGCACAGCTGCCGCTCTTGCTGAGCCGGGAGGCGGCGGGGTATGGGCTGCGCAATGTGGATCAGCGGATCAAGTTCTATTTTGGCCCGGCATATGGCCTGACCATTGATAGTCAATTGGGTGTGGGCACGAGTGTCACGATCAAACTGCCATTATTGATTGAGGAGGAAAAAACCAATGGATCTGCTGGACATGAGTCGATTGATGCGCCTCATTGA
>SRR1151209_01858 chemotaxis protein CheY
ATGAAACACGTCTTGTTGGTCGATGATAATCAATTTGAACGGGATAATATTCGCCAACAGATTCAAGACCAGTTCCTGGATGTCGTGATCCATGAAGCGGATAACGGGCTGACGGCCCGGCGCTTCACTGATGCTCATCCCATTGATGTATTGGTGACTGACATTAAGATGCCGTTGATGGACGGGGTGGAGCTGATCAAGCAGATTCGATTTGTGAACAAACAGGTCAAAATCCTGGTGATCAGCGGATACGATGACTTTGCCTATGCCCGCGGTGTGCTGCCCTACGACGTCAGCGACTATCTGTTGAAGCCGGTGAACGGCGTGGAGCTGCGGGATGCACTCGGCAAGTTTTTGTCGCCGAAAGACGCCCCGGCGGCGGTATCGCCGCCGGTGGCCCAAGTTCTGCAACTGATCGAAGACGAGTATGCGACCAATCTGACTTTGGAGTATGTAGCCGATCAAGTGCATCTGGTGCCCGCCTACCTGGGTTCATTGTTTAAGAAAGAAGTGGGTCACAGCTTTTCCCGCTATCTGAATCAGCTGCGTTTGCAAAAGGCAGCGGAATTACTCAGCCAGACCAACATTCGGGTCGTGAACGTGGCCGCCTTTGTCGGGATCAATGATCCGTCGTACTTTGGCAAGCTGTTCCGCCAAGAATACGGCGACACGCCGGCCAATTATCGGAAGAAACAGGGCCAAACGGTATGA
>SRR1151209_01859 sugar ABC transporter permease protein
ATGGTTCGTTCAAAATCATTAGGATCGCGACTGGTCACTATCCTGATTTATGCGTTGATGATCCTGGCCGCCTTTCTATCATTGGCCCCATTGGTTAATACGATCGCTATTTCGTTCAGTTCGGGGACAGCAGCTGCCTCGGGCAGTGTGAATTTCATTCCGGTGCAGTTTTCTTGGCAGTCGTATGCCAAGATCATCGCCGACCATGCTTTCTGGCAAGCATTCGGGGTGTCAGTCATGCGAGTGCTGGTGGGCGGCTCGCTGAGTCTGGTGCTCACCGTGCTGATGGCCTTCCCGCTATCCCGCTCCCAGGAACAATTTCCCGCCCGCAATATTTACATGTGGGTGCTGATCTTTGCCATGCTTTTCAGCGGCGGGATGATTCCTACGTATATGGTGGTCTATAAACTGGGGCTGATTAATTCGTTCTGGTCCCTGGTCTTGCCTGGTGCGGTGAATATCTGGAATGTCATTTTAATGATGAATTTCTTCAAAGGAATTCCCAATGCCTTGGAGGAAGCGGCGGTGATCGACGGGGCGTCGCCGTTGCAAATTCTGCTGAAGATTTATTTGCCCTTGGCGATTCCGTCACTGGCCACGATTACCTTATTCACTGTGGTGGGGTACTGGAATGATTTCTTCAGCGGCTTGATTTATATCAATGATCAGACGAAGATCCCGTTGCAGACGTACCTGCAGCAATTGAGCATTCAGGCCCAGAACCTGACAATGATGAGCAAAGAAGAGATAATGGCATTGGCCCGGGTGTCATCGCTTTCACTCAATTCGGCGAAGATTCTGGTCTCCATGATTCCCATTTTGCTCATCTATCCACTGATGCAGCGATTCTTGGTGAAGGGATTGGTGCTTGGTGCCGTGAAGGAATAA
>SRR1151209_01860 ABC transporter permease protein
ATGGAACTGACGATGCACCGCAAAAAGAAGCTGATCAAGGCGCGGAAACCGGCTGCCCGTAAATTTGTGATGGCCTATCATTTGATGCTGCTGCCAGGCATTATTCTCCTGATATTATTCAACTTCTTACCCATGTTTGGAATCATCATGGCGTTTCAGGATTTCGTGCCAGCGCGCGGTTTTTTGCACTCCACTTGGGTGGGATTAGCCCATTTTCAATATATGTTCAGTTTGCCGGACAGCTTTCAGATTTTCAGAAACACCATCGTGATTGCTGGCGGGAAAATCATCTTTGGCACTCTGGTGCCCATCATTTTTGCCCTGCTGCTCAATGAAATTCGAGTGAAGTGGTTCAAACAAACGGTACAAACCATCGTGTATCTGCCGAACTTTCTTTCTTGGGTCGTTTTGGGGGCTGTGTTCACCATGATTCTGGCCAATGAAGGGATGGTCAATCAATTCCTAGGAATTTTCGGTATTCAGCCGATTTCGTTTCTGGCCAGCAATACCTGGTTCCAGCCAATCATGATCATTACCGATGTTTGGAAAGGCTATGGCTACGCCACCATCATCTATCTGGCGGCCATGACCAGCATCAATCCTGACTTATATGAATCAGCGGCGCTAGATGGGGCGAACCGGTGGCAGAACATGATTCATATTACGCTGCCAGCAATCATGCCAATGGTTATCCTGGTGGCGACGTTGAGCCTGGGGAACATCCTCAGTGCCGGCTTTGACCAAATCTATAACCTGTACAACCCCATTGTGTATCCCACCGGGGATATTATCGACACCTATGTGTATCGCTTTGGCTTGCGCGGGGCGCAGTATTCCTTCGGGGCGGCGGTCGGGTTGCTCAAGTCGGTGATCAGCCTGGTGCTGATCGTGATTTCGTACAAGCTGGCGAAGAAGTTTGCCCACTATACCCTGTTTTAG
>SRR1151209_01861 sugar ABC transporter substrate-binding protein
GTGGAAATCAAAAAGATTGTGTTCGGCATGGGGGCAATCGCCGTGACGGGCTTGCTCCTCGCCGCTTGCGGTGCGCAAAATAGTGCCGACACCAGCACAAAGGTGGATACTGCAGAACTGAAGCCTTACGGGAAGTACAAGGAGCCTATTACATTTACCATTGGCAAGCAGCAACGGGACCGGTCATCGTTGTTCAAAGGTGATACGATCAACAATAACCCGGCGACCCGCTACTTGAAGCAGGAAACCAATATTTCGGTGAAGATTGCCTGGGAAGCCGCCGACTTCCCGCAGAAGGTGTCGCTGGTCATGTCCACGCAGGATCTGCCGGATGTGATGGGAGTGTATCAGGACCAATTTACTCAGTTGGCGAACAATGATTTGCTGGCCGACCTGACAGAAGTGTATAAGAAGGCTGCCTCACCTACAGTCAAGAAAAACATGTCGTCCTATTCCCAGAATATGATCAAGATTGCCAGCCGCGACGGCAAACTGTTGGGCATCCCGTCGCCCTATCCATACGGCGAAGAAAACATGCTCTGGATTCGCAAGGACTGGTTGGATAAGGTAGGCCTGCCGGTTCCGGAAACATTGGATGACGTCGAAAATGCCGCGAAGACATTCATTGCTAAAGATGTCAGCGGGACAGGCAAGACCATGGGGATTACGTTGACTCCGCAAATTTCTGGCCATGATGGGGCGCAGATGGATGGCGATCTGTGGTTCAACCAGTTCAACGCCTTCCCCTCCAGTATGATCAAAAAAGACGGCAAAGTGGTTTACGGCAGTATTCAACCGGAGACCAAACAGACGTTAACAATGCTGGCCCGCTGGTATAAAGAAGGGCTGATTGACAAAGAATTTGCCACCCGCACAGATGATGAAAAGAAGGCCTTATTAGCTAAACAGATGGGGATCTATGTTGCGCCATTCTGGGGATTAGATTTCACGAACTCATACGAAGCAGACAAGAATGCCAACTGGATCGCCATCCTCCCGGTATTGAAAAAGGGCGACAAGTTTATCTCGACCCACCCGGCGCCTGTTTTCCGCTATATCGTCGTGAAGAAAGGATACAAACATCCTGAAGCGGTGATGCGGGCCATCAACAATGTTGTGGACTTCAACGAGAGCCGCGGCTCGGCCAATGCATTCCGCCGGGCAGAAGCCAAGAAGGCCGGCCAGCCGGCAGTATCCCTCAGCTGGCTGCTGGATCCCATCGACGTGCAAATTACCAATGCGCATAGTACTGATTCGGTCACGATGGATAAAGCACTGAAGAATAATGATCCGTCTGGCCTGAAGGATTCGCAGATCAACTCCTATTCCTTGATCAAAGCATATATGGATCATAAGGACCGTAAAGGACTGGAGACCTATTTAGCCTCACAAGTAGGCGCTAAAACGGCGAACAGCAAGAATGTTACGTTCATTGATAAAGCCTTCTACGGCCAGACCAAGGCTATGACCCAAATGGGCCCGAACTTGCAGAAACTGGAAAACGAAGCCTTCATCAAGATCATCATGGGCCAAGCACCAATCAGTTCCTTTGATACGTACGTTAAACAATGGAAAGCCCAGGGCGGCGATACGATCGTTAAGGAAGTTCAAGACGCTGTCGACAAGGGTCAGGTGCAATAA
>SRR1151209_01862 hypothetical protein
ATGCCATTCACCCCAAGGGCCAATGAACCCCGCCTGAACGACATGAATGGTGTCGGCGTAGTCGTGCCAAATCGTCGTCAGCTGGTCAATGTGGGTCAAGGTTTGGGCCAGGGTCGGTTCCTGCACCCGGGGATGGGCGTCGTCCCACACGTAGGCAAAGCGCAACAGAGCCTTGATATGGTGGTCCCGCAGCATTTGCAAGTAGGCCGTCATGCGGTCAAAGGCGGCCCGGTCCAGCGGCTTATCCTTGTAGTCCGTTAA
>SRR1151209_01863 hypothetical protein
GTGATTCCGCAGCAAGCGGTCAATGAACGGCCGGCTGGCGATGGTCGGTGTCTGGAGATAGATCGGATTAGCCCAGAACCAAATCATTTCGCCGTCCTGCAAGACGTAGGCGCTGTCCGCCAGGTAGCGCTGATATGCCGGGGAGGCTGGGTCGGTGCCGCCGATATTCCATTCGTGGGGGACACCGATGAGAAAGTCGTCGTGGTATCCCAGCCGGGCTTGGTCGGCAGTACTGAGGTACGGCGCGTTCTTGGTTTTCATGTCGTCCATCCGCAGCTGCACCTGCAGTTCTGCTGGGACACTGTGCAGGATCGCCTGTAA
>SRR1151209_01864 toxin-antitoxin addiction module toxin component MazF
TTGGCGCAGGAAGTGAATCGCGGGGACGTTTATTACGCGGATCTTTCCCCAGTCGTGGGATCCGAGCAGGGCGGTTCGCGACCAGTATTAATCGTACAGAATGACGTGGGCAATCATTTCAGTCCCACTGTTATTGTCGCGGCCATTACCGCCAAAATTCAAAAGCCGAAGATGCCGACCCATGTGGCACTCACACCAGCGGAGGACGGCATCGACCGGCCCTCCGTGGTGCTGCTGGAGCAGATTCGGACGATCGACAAACAGCGTTTGAAGTACAAGGTGACCCATTTGCGGCGGACCAAGATGGTCGCTGTGAACCGGGCTTTAGCCGTGAGTGTGGGCATTCAGCCCATTCGGCACGATCGGTAG
>SRR1151209_01865 hypothetical protein
ATGGGAAACAAAAAAATCCAGATCCATTTGGATGCATTGCTCAATGAACAGTTGCGTACCTACAGTCATACGAATATGGTGGATGAAGAGACCGTCATTAACGCTGCACTCCGCCAGTACTTAGAAGCCGCCCAGCCCCGATCCAGCGAGCTGGCCGCCGGGTACAAAGAGATGGGTCCGATCAATCGGGCAATTTCCGCCGACTATGCAGCGACGGAAGAAAAGGATGAGCGGCGCATTATTTAG
>SRR1151209_01866 alanine racemase
ATGGTAGTGGGTAAGTTGCGGCCGGCCACAGTAACAGTGGACCTGGCAGCGATTCGGCATAATGTTAAGGAAGAAATCAAGCGGTTGGACGGGCGCAGTGAATTGTTTGCGGTGGTCAAGGCCGATGGCTATGGTCACGGCGCTGTGCCGGTGGCTCGGGCCTGTCGGGCGGCTGGCGCCACGGGCTTCTGTGTGGCCTTGCTGGACGAAGCCCTTGAATTGCGGGCGGCCCATTTTACTGAACCAATTCTGGTGCTGGGCATCACTCCGGCCAATGAGGCGGCCATCGCGGCGGCCAACGACGTATCATTAACGTTCGGCACCCTTGAGTGGCTCCAGGCGGCGGCTGAGAACTTAGCCGCCCACGCCAATACACCATTGAAGGTGCATATTGCCTTGGATACCGGCATGGGTCGGATCGGTTTTCGAGAAGAAGCTGATCTGAGGGCGGCTTGCGATTATTTGACGGCCCACCAAGACACCTTCATCACCGAAGGAATTTTCACCCATTTCGCCACGGCGGATGAAAAGGATACGACGTATTTCAAACAGCAGGCCAAGCGGTTTAACGAACTGGTCGCTGTTTTGCCCAGTCGGCCCAAGTATGTCCATGTGTCAAATTCCGCCACCAGTTTGTGGCATGCGGCCTGTAATGGCAACATGGTCCGCTTCGGCGTCGCCATCTATGGCCTGAACCCCTCTGGCCGAGGTATTCCGGAGCTGCCGTATCCGCTGCAGCCGGCCTTGAGCTTGACCAGCGAATTGACCTTTGTCAAAATGCTGCACAAGGGTGACGCGGTCAGTTACGGAGCGACGTATCATGCGGCCGGTGACGAATGGATCGGCACTGTGCCGCTGGGTTACGCCGATGGCTGGCTGCGCCGGCTGCAAGGGTTCCACGTGCTGGTCAATGGCCAGCCCTGTGAGATTGTCGGCCGAATATGTATGGACCAGTTCATGATTCGCCTGCCGGAACAGCTGTCAGTGGGGACGACCGTTACGCTGGTGGGGGAAGATCATGGCGCCACAGTGAGCATGCAGGACGTGGCCGATTACTCGCATACGATCCACTATGAATTATGCTGCATCTTGACACAACGCTTACCGCGCCGGTATATTAACGAGTAA
>SRR1151209_01867 4'-phosphopantetheinyl transferase
ATGATTGCAGGTATCGGTGTGGATATCACCGACATTGATCGGGTGCAAAAAGCAGCCGGTCGGCGGGATGGCTTCGCGGAACGGATCTTGACCGCTGCTGAATATGCGGTCTACCAGACCCTGTCCGAGAAACGTCAGGGTGAATATCTGACCGGCCGCTTTTCCGCCAAAGAATCCTACAGTAAAGCCTATGGCACTGGTTTCGGCCCCATTGGCTTCCAAGACATTGAGATCTTGGATAACGATAAGGGCCGCCCGGTAGTCACCAAGCACCCCTTCGCCGGTATCGCCCACGTATCCATTTCCCATACGGATACGATGGCGATGACGGAAGTGATCTTAGAAAGAAGTGACACTTAA
>SRR1151209_01868 DEAD/DEAH box helicase
TTGAATTTTAATGAACTAGGCTTAGACCCCACACTGCTCAAGGCTATCTCGCGCGCCGGCTTCGAAGAAGCCACCCCCATCCAGGCAGGGACGATCCCTCTGGTGTTGGCGGGTAAGGACGTCATTGGACAAGCCCAGACCGGTACGGGGAAGACAGCCGCTTTTGGTTTGCCGTTATTACAAAAGATCGATATGAACAACCGGGGCGTCCAGGCCATCGTTATTTCTCCCACGCGGGAACTGGCCGTGCAGACGCAAGAAGAATTGTACCGCTTAGGTAAAGACAAGCACGCCAAGGTGCAGGTCGTTTACGGCGGTGCCGATATTCGCCGGCAGATCCGCAACTTGAAGGAAGGTCCCCAAATCGTTGTCGGGACGCCCGGCCGGCTCCTGGACCACTTGAACCGCCACACCTTGAAGCTGGAAGGCGTGCACACCGTCGTTCTGGATGAAGCGGATGAAATGCTCGACATGGGCTTCATTGAAGACATCGAGAAGATTCTGACGTACGTCCCGAATGCCCACCAGACGCTGCTCTTCTCGGCCACCATGCCGGGACCGATCATGCGCATCGCTGACAAGTTCATGCACGATCCGGAAGTCGTTAAGATCAAGTCCCAGGAATTAACCGCCGATCTGATCGATCAATATTATGTGCGGGCCCGGGAATATGAGAAATTCGATGTCATGACCAGCCTGATCGACGTGCAAGATCCTTCATTGGCCCTGATCTTTGGCCGGACCAAGCGGCGAGTCGATGAACTGACCCGTGGCCTGCAAGCCCGCGGTTACAACGCCGAAGGCATCCATGGCGACTTGTCCCAGCAGAAGCGAATGGACGTCTTGAAGCAATTCAAGCATGGCCAATTGGACATTCTGGTGGCTACTGACGTCGCCGCCCGGGGCTTGGATATCTCCGGTGTGTCCCACGTCTTCAACTACGATATTCCCCAAGATCCAGACAGCTATGTCCACCGGATCGGCCGGACGGGCCGCGCTGGGAAGCACGGGGTATCGATTACCTTTGTGACGCCCAACGAAATGGGCTATCTGCGGACGATCGAGGAATTGACCAAGAAGCGGATGGAACCCCTCAAGCCGCCGACGGAAGCTGAAGCCTTAGCTGGTCAGCTGGCCAGTGCTAAGGAAGACATCGTGCAAACGATTGCTGATGACGACTTGGAGAAGTACGACGATGTGGCGGAAGAATTGCTGGAGCAATATACCCCGCTGCAACTCGTATCGGCTTACTTGAAGAGTGTCAGCAAGGATGCATCGGATGTCAAAGTCACGATTACACCGGAACGGCCGCTGCCGTTCCGCAAGGCATCGCATCACCGCTCTGACAAGCAGGGCAGCCAGCGCCATTACGGTAAGAACCGGAATAACAACCGGCGTAATGACCGGGACAACAAGCGCGGCTATTCCCGCGGCGGCAGCCGGTCCAGCGATACGAAGCATAATTTTAAAGCCCGTTCAAAGACGAACGCTTAA
>SRR1151209_01869 UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D- alanine ligase
ATGCATTTTAAAGTATCCGAAATTGTGAATGCCCTGCACGCCCCAGCAGTGGCCAAGAAGTTTGCTGATCGCGAGGTCACCGGGGTCACCTTTGATTCCCGCCAGATCGATCCGGGCATGCTGTTTGTGCCGCTGATGGGCGAACGGGACGGCCACGAATTTGTGCCCGCTGCGATTGCCGCCGGCGCTGCCGCCACCTTTTGGCAGGCGGACCATACCGAGAACGTGCCGGCTGATTTTCCCGTGATTCAAGTGGCCGATCCGCTGACTGCCATGTGGGAATTAGCCGCCCATTATCTGCATAAGATCAATCCCAAGGTCGTGGCCGTGACCGGATCCAACGGCAAGACGACGACTAAGGACATGATCGCGACGATTCTGGCTACCCAGTATAACGTGGCTAAGACGTATGCCAACTACAATAATAAAATTGGTTTGCCCTACACGATTCTCAATGCCCCGACCAACACGGAAGTTTTGGTACTGGAAATGGGCATGGACCGGCCTGGGCAAATTGCCCATATGACCAAGCTGGCTCAACCAGACGTCGCTGTCATCACGATGATTGGCGAAGCCCATATTGAGTTCTTTGGGACGCGGGATAAAATTGCCGATGCTAAGATGGAAATTGTCCAGGGGCTGTCCGCCGATGGGACGTTCATTTTCAACGGTGATGAACCGCTGCTGCAAGAGCGGGCTAAAGCAGTGCCGCAGAACAAAAAGACGTTCGGCGACACAACCGCTAACGATATTTATCCAATCAGCGTGCAAGCCGATGCCCAACAGACACAATTTGTGACCAATAAATGGGCTGACGTGACGTTCACCATTCCGATGATGGGCGAGTACAACATCTTCAACGCCTTGGCGGCGATTCAAGTTGCCCGTCAGTTCCATGTTTTGCCGGAGAAGATTGCTCAGGCCTTGCGCAAGTTTGTGCCAACTGCCAACCGGGCGCAATGGATCAGGGGCGACGATGGCGAACAAATTTTGTCGGATGTCTATAATTCTAACCCGACGGCGGTGAAAGATGTTCTGCGCAGTTTTGTCCAGGTGCCCACGGATGGCCAGCGGATCATCGTGCTGGGGGATATGCTCGAATTAGGCGACCATTCTGCCGCGCTGCATGCCGGTTTGGCTACCGCAATCGATCCGGCGGAGATCCAGCAGGTCTTTCTGTATGGCGAAGACATCAAGGCTTTGGCCGAAGCCCTGCAGCCAAAGTATTCGGCCGGCACGCTGCATTATTATCCCGTGGGGGAGCAGGATGCGCTGCTGCACGACCTGCAGGCGGTGATCCACAATCCGGACTTGGTCCTGATCAAGGGCAGTCATGGGATGCATCTGGAAAATGTGCTGGCGAAATTGTGA
>SRR1151209_01870 D-alanine-D-alanine ligase
ATGTCAATGCATAACACAGTTTTCTTGCTTTACGGCGGAGTCAGTTCAGAGCATGACGTATCGGTCCTGAGCGCCCGGTCGGTCGTTGAAAATATTTATTACGAATACCATGACCTGGTGCCTGTCTATATCACGAAGCAAGGCCGCTTTTTAAGCGGTGCGTCGCTGACGGCACCGCTGCCGGACAGCACCTCCCTATACTTAGAAGAAGGCAGTACGCCCCAATGGCGGCAGGCCAAGACTTCTGTGGGTGTCCCTTTGGATTGGCGCCGGCTGCAGGCCGACAACGTGATCGTTTTCCCCATGCTGCACGGGACTAATGGTGAAGATGGAACGATTCAAGGCTGGCTGGAAACAGTCGGCGTCCCTTACGTGGGCAATGGCGTACGCGCCAGTGCCAGTGCGATGGACAAAATTATTTCTAAACAGATCTTTGCGGATGCTGATTTGCCCCAAGTACCTTACGAATGGATCGACGACACGGCTTGGAAAATGCAGGCGGCGCGGACGGACTTTCTTAACCGCGTTAAGGGCGGGCTGCTGTATCCCCTCTACGTGAAGCCGGCGAACGCCGGGTCCAGTATTGGGATTACCCGAGTGACGGAGGACGCCAAGCTGGCTGATGCCATTGACTTTGCGTTTCACTATGATGACCGGATCCTTGTTGAACAAGGTGTACCTAACGCCCGGGAGATCGAATTAGCTTTGCTCGGCAACCGGGATGACCTGAATATGTCTGTACCGGGTGAGATCGGTAAGACGCGGTCTTTCTACGATTTCAATGCCAAGTTCGTTGAAGGCCAGACCAAATTGATCATCCCCGCCAAGCTGCCGGAGGAGACCACGTCCCAGTTGGAGAAAATCGCCCAGACGGCCTTTATGGAACTTTCTGCCGCCGGTCTGTGCCGAATCGATTTCTTTGTCAGCGACGGCGGTGATGTCTTTATCAATGAAGTCCAGACGATGCCGGGCTTTACCCAATATTCCATGTATCCCTATTTATGGCAGTATACCGGCATCAACTACGGCGATTTGCTGGAAGAATTGATGACGTTAGGCCAGAAACAGTTTGACCACCGGCGGAATATTGAGAAAAACTATTAG
>SRR1151209_01871 hypothetical protein
ATGGTGAATACAGTGCTGTACGTCCATCTTGAGACAGTCTCAAACCTAACCGTCTCGTATGGTATGAACGCCGACGATTTTCTCGCAGGCATGCCCGACATTCCCCACCATTTACTGCTGCTGACGCCCGTCAACAGCCAAGAAATGGTGGATCCCCATACTGGGTTCAATGTCATCTCCGGCGAAGAAGACGTCGCCGCTTATTTGAAGGACAGCAAAATCAGTCCCAAAAAGTGGATCGATTACCAGCACACCCTTTATCTTGATCAGATCACCCCGCAAGAGGTGGCCGAAATGCTCTATTTAGGGCATGCGTACAACCACATCACACCACCTTTCTACTACAAGTTGGGCAACCAATACGTCTATTTGGATCGCCCGGACGGGACCCAAAAGATCTACTATCGGAACTTGGATCAATTCTTTGTCAGTCTGGATCATGCCATCGCTCGGCACGTGCGGGAGCGCGAAGTCGAGCAGCGATTTTGGCGCAAGCTGCGCAACGACACGATTGCCCCGCTGCCGGATCATCTGTGGGTCACGTTGCGGCCGTTATTGATCGACGGCGTGCTCTTCAGTTTCGATGATATTCGTGTGCATCAGAAGGATTACGAAATTCCGCTCTATCAATTGAAACGCAAACTCCTGTTAACGGATCAAACGTGGCTGCGGGGCGAGGATGATCTCGTCGGATCCTTGAAATATGCCCGAAAACAGCAGAAATGGCGCTTTGTGGCGCCCAGCACAGAAAGGAACGGGGAAGATGTCAATGCATAA
>SRR1151209_01872 hypothetical protein
ATGGAAACAGCTGCAATCTTGCGCCGGTTTTGCGCAAGATTGCAGCTGTTAGGCGACTTTGAGACCGCGTCCCTCAGCGGGCTCAAAGCGCCGTCATGGCTAGCTACGCCTTCAGCTTCGCACTTGCTGCGCGTCGCCAGCCCCCTCAGCCGTAGATTGCGCAGCATTGGCACGGCGTACAACGCCCTACCTAACCGTCTGCATCAAAAAAAGGCCCCCTGA
>SRR1151209_01873 50S ribosomal protein L31
ATGAAGCAAGGAATTCATCCCGATTACCACGAAGTTGTGTTCATGGACTCATCCACGGGCTTCAAGTTCGTTTCTGGTTCGACGGCTACTTCCAAGGAAACGATTGATTATGAGGGTAAGACATATCCGTTGATCCGGGTCGAAGTTACTTCTGATTCCCACCCGTTCTATACTGGGAAGCAAAAGTTCACCCAAGCCGACGGCCAAATCGATCGGTTCAACAAGAAGTATGGTTTCACCGACACCAACAAGAAGCCGGAAGAAGAAACCGAAGACGCCAAGTAA
>SRR1151209_01874 UDP-N-acetylglucosamine 1-carboxyvinyltransferase
ATGAAAAAAATGATTATCCATGGTGGTAAGGCTCTCGCCGGATCGGTAACGATCGGCGGCGCCAAGAACAGCACGGTAGCCTTGATTCCAGCAGCTATCCTGTCCGAAACACCGGTGGTACTGGATGGTGTACCCCATATTCAGGATGTGACCAACCTCATGGCCATTCTGGGTGAAATGAACGTTGATTGCAGTATGACCGAAGATACACTCACGATTGATCCGACAAAAATTGAATTTAAACCCCTGCCCAACGGCAAGATCAAGAGCCTCCGCGCTAGTTATTACTTCATGGGGGCGTTATTAGGGCGCTTTGGCAAGGCCGTGGTCGGCCTGCCTGGCGGGGATGATATCGGTCCCCGGCCCATTGACCAGCACGTCAAGGGATTTGAAGCCCTTGGCGCAGTAGTCACCAATGATAACGGCGTGGTGGTGATCGAATCGCCCACTGAGGGACTCCATGGCGCTCGCATCCATTTCGATATGGTATCTGTAGGCGCGACTATCAATGTTATTCTGGCCTCCGTGCGGGCTCATGGCCGCACAGTCATTGAGAATGCCGCCAAGGAACCTGAGATCATCGACTTGGCAACGTATTTGAATAACATGGGCGCTGTGATTCGGGGGGCCGGGACTGACGTCATTCGAATCGAGGGCGTGCCCCATTTACGCGCTAAGAATGCGCATACAATCATTCCTGACCGGATCGAGGCCGGGACGTATCTGGCCATCGCCGCCACAGTGGGCGAGGGCGTGATCATCAAAAATATTATCAGTGAACACTTGGATGCTTATTTGGCGAAACTGGAAGAAATGGGCGTCAAGATGAAAATTGACGAGGACAGTATCTTTGTCTATCCGTCAGGCGACTTAAACACCGTCCAGATCCGTACCGGGACATACCCAGGGTTCGCCACGGATCTGCAGCAGCCAATCACGCCGCTGCTCATGAAGGCTCACGGCGAAAGCCTGATTACCGACACGATTTATCCCAAACGCGTTCGCCATATTCCGGAATTGCGCCGGATGGGGGCGGACATCAAGACTGAGAACGACGTGATCATTATTCACCACGTCGACCATTTGCATGGGGCCGTTGTTTCCGCGGATGAGATCCGCGCCGGTGCTTGTTTGATGCTGGCCGGACTGATGGCCGATGGCACGACGACGATTATTAATGTGGAAAATATTTTGCGCGGTTATGACCGCGTGGTGGACAAGTTGCGGGCGATTGGCGCTGATGTGACCATGGCCGATTACGAAACCGCCGATGAACACTGA
>SRR1151209_01875 CTP synthase
ATGACCAAGTATGTATTCATTACTGGTGGGGTTGTATCCTCACTGGGCAAGGGTATCGTTGCTGCGTCACTGGGTCGTTTATTGAAGAATCGCGAGTTGAAGGTGACCTTACAGAAGTTTGATCCCTATATCAACGTGGATCCTGGGACCATGAATCCTTACCAGCATGGTGAGGTATTCGTGACCGAGGACGGCGCGGAAACCGATCTGGATCTTGGTCACTACGAGCGCTTCATTGATAGCAATCTGAACCAGTATTCAAACGTCACAACCGGGAAAATTTATTCTGAAGTATTGGCCAAAGAACGCCAAGGCGAGTATTTAGGCGCCACGGTGCAGGTCATTCCGCACATCACCGACATGATCAAGGACAAGATCATGCGGGCCGCCACCACGACGGATTCTGATGTCGTGATTACGGAAATCGGCGGTACGGTGGGGGATATTGAATCCCTGCCGTTCCTTGAAGCATTGCGCCAGATGAAGTCGGAAGTCGGCGCCGAAAACGTCACCTATATCCACGTGACCCTGGTACCGTACTTGCGGGCCGCTGGTGAAATGAAGACTAAGCCTACCCAGCACAGCGTTAAGGAACTGCGCGGTCTTGGCATTCAACCCAACGTTTTGGTACTGCGGACTGAAAAGCCGATCACCCAGGAAATGCGGGATAAGATTGCGACGCTTTGTGATGTTGATCCGGACGCGATCATCGAGTCCCGGGACGTCAGCGTACTTTACAGCTTGCCGCTGATGCTCCAAGCCCAGGGCATGGACCAGATCGTCTGCGACCAATTGCATATTGATGCGCCGAAGGCCGATATGACGAAGTGGAAGGCTTTGGAACAACGGGTCAAGCATCTGCACCACAAGACCAAGATCACCTTGGTCGGCAAGTACGTGGAGCTCCAAGATGCGTATATTTCGGTTACCGAAGCCTTGAAGCACGCTGGCTTTGCCTATGATTCAGAAATTGAATTGACGAAGGTCCAATCGGAGAATGTCACTGAAGACAACGTGGCCGAATTGATGGCTGGCGCCCAGGGAATTATCGTTCCCGGCGGCTTCGGCAATCGCGGGGTTGAAGGCAAGATTTTGGCGATTCAATATGCTCGGGAACACAATGTACCGTTCCTTGGGGTCTGCCTGGGCATGCAAATGGCCACTGTAGAATTTGCCCGTCACGTCGCCGGTCTGCCGGAAGCCAACTCCACCGAAGTAGATCCAGAAACGCCGGATAACGTCATTGACTTGATGCCGGACCAAAAAGACGTCACCAAGTTGGGTGGGACGCTGCGCTTGGGTTCCTACCCAGCCAAGCTGAAGCCCGGGACGCTGGTATCTGAGGCCTATGGCAATCAATCCGTGATCATGGAACGTCATCGCCATCGCTACGAATTCAACAACAAGTATCGGGATCTCTTCGCTAAGAAGGGCATGATCTATGCCGGCGTGTCCCCGGACAATCGCCTGGTTGAGATCATTGAATTGCCGAAACTCAAGTTCTTCGTTGGGGTCCAATACCATCCCGAATTTCTCTCCCGGCCCAATCGTCCGGAACCGATCTACAAGGCCTTCATTGGCGCGGCTTCGGACCTGCCGGAAGTTGATAACCAAGACGTCCGGGAAGAAAGCAGCGAAACAAAATAA
>SRR1151209_01876 DNA-directed RNA polymerase subunit delta
TTGAATCTTGACGTTTTTAAGGGCGAAAATAAAGACGAACTGTCGATGATCGAAGTTGCCCATGCCATTCTCAAACAGCGTGGTGAAACCATACCGTTTGCTGATTTGGTCAACGAGATCCAGAACTATCTCGGGAAGAGTGACGAGGAAATCCGGGATCGTTTATCACAATTTTATACGGATCTGAATGTCGATGGCAGCTTTATCTCCCTCGGGGACAATGTCTGGGGCTTGCGCTCTTGGTATCCCTTTGATTCGGTGGATGAAGCGGTCAACCATGGCGACGAAGACGATGAAGATCGTCCGCGCCGCAAGAAGCGCAAGAAGGTCAATGCCTTCCTGGCAGATGTTGACAGCGATGATGATGTCATCGACTATAACGATGATGATCCAGAAGACGACGATTTCGACGATGACGATGATGAAGACGACGCAGACGATGATACCGATGCGGCGCCGGATAAGTTCGTTAAGGATGTGCCGGCCGATGATGATGCCGACGACGATGACGATACTGACGATAGCTTGACAGACGGTATCGAAGGCCAACTGCAGGAGTTTTCGGACGACGATGACGACACGGATGATAGTGCCGACAACGGCCCGGATTTCTCCGCCGATGACGATTCGGCCAGTGATGACAGCGATGACGATGACGACGATGATGACTCATCGAAGGCCAAGTAG
>SRR1151209_01877 hypothetical protein
GTGGTTCTAGATTCAGCAATCCCGATCAATATCCATTTAGAGACGAATATTACCCAGAAGGGCGAAGAAGAGCATCACGTGTACGACGAGGAGGGCACGCTGGCCCAGGTGGGCAGCAATATCTACATCCGCTATGCAGAAAGCGGCCCGAATGACGATAACCAGCCGGTTACGTTGAAATTGATGAGCAATGGCGATGTGCAGGTGACCCGGGGCAAATCCAGTGGGGACACGTTTTCCAAGTTGTTTTTCAGCGACGGCAAACGGGTCATTGCCAGTTATCGGACCCCCTATGGGATGCTGTCCATTGAAACCCTGACCCAGACGCTGCAAGTGCGGCTGCGGGAAGATCCGTTGGCTGGGCAGATCGATATTGCCTATCAGCTATTGGCCGGCGGGGAGTATATTGGGGATTACCAGTTGCAATTGATTTTCCATGCCTAG
>SRR1151209_01878 HD superfamily phosphohydrolase
ATGTATTCTTCACCTTTACTGCCGCGGGAAAAAGTTTTCCGCGACCCCGTGCATAACTATATTCACGTCGAGCACAAGGTCATTTTAGACCTGATCAATACCACTGAATTCCAACGGCTCCGCCGAATCAAGCAGCTGGGCACGAGCTCGTTCACGTTCCACGGGGCGGAGCATACCCGCTTCACCCATTCCCTGGGGGTGTACGAACTAACCCGCCAGATTTGCAATAACTTCCGTCATAATTATCCCACCAAGGCACCTGGTGACGGTCTGTGGGATGATGATGCCAATCGATTAGTCGCGCTATGCGCGGCGCTGCTCCACGACATTGGCCACGGCGCTTATTCCCATACCTTCGAGCATATCTTCGGCACCAACCACGAACACATCACCACAGAGATCCTAACCTCGCCGGAAACCGAAGTGAACCAGGTGCTGCGGGCGATTGCCCCAGATTTCCCGGAGAAAGTCGCCAGTGTCATTGACCATACCTATCCCAATCCCCAGGTTGTGCAGATGATTTCCAGTCAGATCGATGCTGACCGGATGGATTACCTCCTGCGGGATGCTTACAACACCGGGACCAAGTATGGCCTTTTTGACGTGACCCGCATTCTGCGGGTGATGCGCCCCTATTCCGAGGGCATCGCCTTCGAAAGCGATGGGATGCACGCGGTGGAAGACTATATTATCTGCCGCTTCCAAATGTATCAGCAAGTCTATTTCCACCCCGTTTCCCGGGGCATGGAAGTCGTCTTGCAGCATTTGCTACAACGGGCGAAATACTTATACGAACACCACCAGCTGGGGGAATTGACTCCCACTCTGCTAGTGCCGTTCTTTGAAAATGACTTTACCCTCCATGATTATCTCAATCTGGACGACGGAGTCTTAAACACCTACTTCATCTATTGGCGGGAAGACCCGGACGACACCTTGCGCGACTTGGCCCACCGCTTTTTGGACCGCAAACCGTTCAAGTCGGTCACCTACTCTCAAGAAACCCGGGCACTGATCCCCAAGATGCGGGACTTGATCAGTGCCGCCGGTTTCGACAAGGATTACTACGCCGCCTTGAATGACAGCTATGATCTGCCCTACGATGCCTACGATCCGTCATCTAAGGAACCAAAGACGCAGATCGAAATCATGGCTGAAGACGGCAGCCTGCGGGAATTATCCACCCTGAGTATGCTGGTGGCGGCTATTGCCGGCCGTTCCACCGGCGATGAGCGGTTCTATTTCCCGAAAGAAATGCTGGCCAAGAGCGATGGCGGCCTGTTTACCCCAATCTATCAAGAATTCCAGAGCTATATCCATAACGGCGCTCTGGCGTTTCCCCAAAGAAAGGAATCAACCGATGACGACCTATAA
>SRR1151209_01879 sugar phosphate phosphatase
ATGACGACCTATAAAATAGCAGCTGTGGACCTGGATGGCACGCTGCTCAATGAACACAGCCAATTGAATCCCCGCACCATTGCCGCGGTCAAGGCAGCCAAAACCCGCGGCGTGCACGTCGTGATCTGCACCGGCCGGCCGATGACTGGAGTGCGCCATTTCCTGGAAGACTTGGATCTGCTGGGCGATGACGATTATGTGATCACTTTCAACGGCTCGCTGGTACAAAAAACGGCTGACGAAAGCGTGCTGGTCCGGCATACGCTGGCTTACAACGATTACGTAGACCTCGAATACTTGGCCCGCAAGCTGGGCAGCCACATGCATGCTGAAGACGATCATTTCATGTACACCACCAACAAGAATATCAGCCCGTATTCTGTGGGGGAAAGCTATCTGGTGCAAATGCCGATCCATTATCGGACGATTGACGACTTCGCCCCCAGTAAGCGATTCTCCAAAGTGATGTTTATTGATGACCCGGAGATCGTGGATAAAGTCGCCCACAGTATCCCGCCGGAATATCAGGACCGCTACCACTTCGTCCGATCGGAACCCTTCTTCTTGGAAGTGCTCAATCCTAACGCCAGCAAGGGCAATGCCCTGAAAGGCTTAGCCAAACGGCTGGGCGTGCCCATGGCGCAGGTCATGGCCTTTGGCGATCAAGGCAACGACCTGAGCATGATCGAAGCCGCCGGCACCGGCGTTGCCATGGCCAATGCCACGGACGAAGTCAAAGCAAAAGCCCAGATCATCACCGCCTCCAATGTGGACGACGGCGTGGCCCAGGCTCTAGAAAAATACGTACTGGCGGATTAA
>SRR1151209_01880 NUDIX family hydrolase
ATGCCAGACATTCCGACATTTGGCACGTTACCGAAAGACATGCCCTATGCCACGCGGATCGGGGCCTATGTGGTGATTCCCGATACCGCCCGCCAGCGGATCTTAACGCTGGCGGCCCCCAATGGGGCGCTGATTTTACCCGGGGGCGAAATGGAGGCTGGGGAGGATCAGCAAACGACCCTTACCCGGGAATTGAAGGAAGAATTCGGGGTGACCATTGATCCGCCGCATTATTTGGGTGAAGCCGCCGATTATTACTATTCTCGGCATCGCCGAACGGCGTATTATAATCCCGGCTATTTCTTTGCGACTACCGGGTATAAAAAAATAGCCCCCCCATTGGAGGACTTCAATATTATGACCTGGCAGCCGATTGTCATTGCCCAATTTGCCCTGAAACGGGCGTCCCATCGCTGGGCGCTGGACCGCTGGCTGCACCAGCAGGGCATCGACTGA
>SRR1151209_01881 membrane associated transglutaminase-like protein
ATGAGCCGTTGGACAACGCGCGCCTTAGGGGCAGTGGGTATCCTGCTTCATGCGCTCTTGCTGATACTCGCCGTGCCCACCTTTGTGAAGGTCAATCACTTGGCGGCTGAATGGCCCCTATACCTCTATATTGGCCTCGCTATTCTCTGCGTGCTGCCCTGGCGCTGGCAGCACCGCTGGTGGCCGTTATCCCTTGGCGGACTGGTTTTAACCGCCTTTATTCCGATTTACCTGCTATTTCCCGGCCGCAGTCAGTTGTCGGCGGATTGGTTTGCCATGCTGGCGACTCGGTTTCAGGACAGTCTGCAAAGCTACTTCATTCAATCCTCTGCGACCGTGCCGCCGCTGCTAAGCTTGGTGCTGATCCTGGCAGTGGTGGCGGCGTTGATGATTCTGTTTGTTCGCTATCGGCTGTGGCCGGTCACCCTGATCGTGCTGGTTCTGTACCTCACCGCGGTGAATATTTTCAATGGCGATGACTTGACGGTGACTGTGCTCCAGCAGTTTCTGGTGGCCATTGTTTTGGCTTTGGTGCAGCAATTGCAAAAGCAGCGGCTGCGCTGGCCGCTGGTGGCGGTCGCTGGATTGGTGGCCGCGGCGGCCGGCGGGCTGCTCCAGGTGGCAGCGGCACCGCATACGACGTTGAATGCTCTTACTGCTCCGCTGGTGGATAATACAGCCGTTTTGCGCAATCAGCTGAATACAGCTGGTTTCTTCCAGTCTTTGGAACGGTTCGGTGCCGGGGATGCCCGCACTGGTTTTTCTGAAGATGATACGGATCTGGGCGGGCCGCTGTTCGATGACAACTCAGTGGTTTTTACCGCTGAGGATTACGAGGATCACTATTGGCGTGTCGAAACCAAGGATGATTACACCGGTCGCGGCTGGATCAGCAGTATCGGTGATAGCGGCAGCCGATTGCAGGGCCTGCCGACCACTTTGCCGGCTGGCGGGATGACGGCCCCAGTCAGTACGACCCGCCACGTGCTGACCATGGCATTTACGGCAGCCAGTGATTATGTACCGCTGCCTTACGGGCAGCTCACTTTGGACTCTGTGGATCAGCAGCAGCGCAATGTCTTTATGGGCTGGGCGACCACCCGGAATCGATTGATCACGGGCGGGCGGCTGCGTCCCTTGGCTGGGGTGAGCCGATTGACGGGCAGCTATCAAAAATATCGTTACACGATTCAACAATTGGAGAATGCGCCGAGTCCGATGATGACTGCCGAGCCCAACCAATTTCGAACGGATCTGGAATTGCCCAAATTGGTGACTAAACGGACACGCCAATTGGCCCAGCAAATCACGCGCAACGCGGCGACATATTATGATCAGGTTACTGCGATTCGCGATTATCTGCGGGATGGGGTCCAGTTTATTTATTCGAAAGTAGACACGCCGCGGACGCCCAAAGGCCGTGATTATGTTGATTATTTTCTATTTTCCAGTAAAACGGGATATTGCGATAACTTCTCCTCGGCAATGATTGTGCTGCTGCGCAGTGTCGGAATTCCCGCCCGCTGGGCCAAAGGTTTCAACGGCGGCAACCAGGTGGGGCAAGCCAGCGGTGGCCGGTATACCTACCAGATCCTCAACTCGGCGGCGCACTCTTGGCCAGAAGTCTATTTCAGCGGTATTGGCTGGGTTCCGTTTGAACCCACCCCGGGGTTCACCAATCCTGATGAGCGTCAGCAGACGGCGCAAAACACCGACGACACCAGCAGCAGTACGAGCAGCAGCAGTGTCAGCAGTACGAGCAGCAGCAGTACCGCCGCGCGGCGCAGCAGTCAGCAAGCCGCTGCCAGCATCAGTACCGCCCAGAATCTGACCAGCACCCCGGGCGCGCTGCCCTGGCCGCTGATTGCTCTGGGTATCGGTGCGGGCAGTTTGGCTTTAGCTGGGGCTCTGGCCTTTTGGCAGCGCCGCCGGTTAAGGCTGCATTGGACCCAATGGCGGCTGCGGCATGCCGCTGAGCAGCCATTTCCCACTGTCTTTCGCCGGTTTGACCGCCAGGCTCGGCATTTCCTGTCCCGACCGGCGGGAGAGACCTTGGCCGATTATTATCAGCGCTTGGGCCAGACCCTGCACCTGCCCGCGGATCATTTCGCGCCGGTGGTTGAAAACGCCGAGTACTTGCTTTACAGTGGGACCAACGAACCGGCACCCGTGATTACGGCGGCAGAACTGACTGCTCTGCAGACGGCCGTCGCCGCGATGCTGGCCGGTTTGAAGAAAGGCAGATGA
>SRR1151209_01882 hypothetical protein
TTGCTGAGCAAAGGCCGACGGGTCGTGGTCCCGGCTGACGTGACGGTATATCCGTCGGTGCCGGCAGCACTGGTCCGCCAGCTGCTGCCGATGTTGAGCGCGCTGCGTGCCCGCCAGCGGGCCGGGCTGGTGGACCCATATTCGCTGCAGGGTTACCGCCAGTATATTCCCGGTGATCCCTTGGGGGTAGTGGATTGGCGCGTGTCTGCCCGGGTCGGGCATACGATGATTCGAGAATTGACGCCGGAGCCCACCCCCTTTGTTCACGTGGTATTCAACGCCAATGCGCAGACATTCAATGAACAGGAATGGGCGTTATTCTTTGGCCTGCAGCAGGCGACACGCAATTGGACCAATGTTTGGTATTGGTGGCCGACCCAGGCCGGTACGTGGGCCCATGCCCACGAGGTATCGACCCAAATTGCCGCGGCGTATCAAGCGCCAGCGGCGGCTGCGGTCTGGACACCGGGAGAAACCCCGTTGCGGGATGCCACTATTGTGGCCATTGGCGCCCCGCTGGCTACCAGCGGGCAGGGCACGCAGATCGTACAGGCGGCGGTTGGACCCGATGGCCGTTTGACCGGCAGTATGATTCAACGAAAGGAGCAGCAGTCATCATGA
>SRR1151209_01883 hypothetical protein
GTGATTGCTATGGGGAGGATCAAACGGTTTGCTGGGATGCTTCTGTTTTTGCTGATTCTGGCCGGCAGTTTTGGTTTAGCGGCCATCTTTAATACGACGATGATCTGGGCGGTGTGGTACGCCTTTGTTTTCGTCTTTTTGCTGTGTCTCGGTCAGCTCATTTGGCCGCTGACCAGTGTGGTTTGGCGATTGCGGCCGGTTGAACGGCCGGCCGATACGCCTTTTTCGCTGACTGGGACGGTGGCGAATCGCCGCTGGTGGCAATGGCAGCCGCAATGGCAGGCGCAGGACCACACGGGCTGGCTGGCACCAGTCACGCTGCTGGGCAAACGGCCAGCGGCGATCAGTGTTCAGGCCTAA
>SRR1151209_01884 MoxR-like ATPase
GTGATCATATCAGATAGTGTGAGTGCTAAAGAATGTATTGACGCCATTGCCGCGAATGTGGAGCAAACGGTTATTGGCAAGCCTGAACAAGTTATGCTCACGATTGCCGCCATGCTGGCGGGTGGGCATGTGTTGTTTGAAGACATCCCCGGGGTCGGGAAGACCACGCTAGTGCGCAGCTTGGCCAACGCACTGCAATTGCCCTTTCGGCGAATCCAGTTTACTCCAGACCTGCTTCCCAGCGACATCATCGGGGTGACCATCTATGATGAGATTCAGCATGATTTTTCATTCCGTCGGGGCCCCGTTTTCACGACGGTACTCTTAGCGGATGAAATCAACCGGGCAACGCCCCGAGCTCAGGCGGCTCTGCTGGAGGCCATGGCAGAACGAAAAGTTACGGTGGATGGCACAACTTATGGATTGAGTCCAGACTTTTTCGTCTTGGCGACGCAGAATCCGACAGATTATGAAGGAACCTATCCATTGCCGGAGGCTCAGATCGACCGCTTCTTGTTCCGATTATCTTTAGGTTATCCGAATGAGCAGGCGGAGCGGCAGCTGCTGGCTGGGGCGGATCCGGCAGCCCATATCGAAGATGTCGCACCGGTAATTGATGCTGCCGATCTGCATCATTTGAAAGAATTGGCAGCGGCAGTTCACGTCAGTGATGGGTTGATTGACTATGCCTGGCACCTAATTGATGCCACTCGTCAAGATCCCCGCATCCGTTTGGGCATTTCGCCCCGGGGCGGCATGGCCTTGATCAATGCGGCGAAGGCCTATGCGCTGTGCATGGGTCGGGAGTATTGCATCCCGGATGATATCCAGACAGTGATCGGACCGACATTTCATCATCGTTTGATTCTGAACCAGGGCAGTGTGGGGGATGACCCGATTCCGGGCATCATTGCAGATATTCTGCAAGCGACGCCTGTACCGACGGTGTGA
>SRR1151209_01885 large-conductance mechanosensitive channel
ATGATCAAAGAATTCAAAGAGTTTATTTCCCGAGGGAGTGTCATCGACCTAGCCGTCGGCGTGCTGATTGGGGGTGCCTTTAACGCCATCGTCACTTCACTGAACGATACCCTACTTTCCCCGTTAGTCGGGTTATTCACTGGCGGGCTGAGTCTAGAGAAGAACTTGATCCTGACGATTGGCAAAACCCATCTCCGCTTCGGGGCATTCTTGCAATCGGTGATCACGTTCTTGATTACGGCATTCGTCATTTTCTTGATCGTGAAGGCCTTGAACAAGCTGCGCAAGCCGAAAAAAGCGGCTCCAGCCGGCCCGACTGAGGCGGATTATCTGCGGGAGATCCGGGATTTGTTGGCAGAGAAGGAAAAGCAGGAGTAA
>SRR1151209_01886 ribose-phosphate pyrophosphokinase
ATGGTTGAAAATCGTTTCGGCGAGAAATTAAAGATTTTTGCACTGAATTCGAACAAACCCTTAGCTGAAGGCATTGCGAAGACAGTGGGCGTTGAACTCGGCAAGTCGTCCGTCAGCCGATTCTCTGATGGTGAAATTCAAATCAACATTGATGAAAGTATTCGGGGCGCAGACGTCTTCTTGATTCAGTCCACGTCGGCACCGGTGAACGATAATTTGATGGAACTGCTGATTATGATTGACGCCCTGCGCCGGGCCAGCGCTCGGACCATCAATGCGGTCATTCCCTATTACGGCTATGCGCGGCAAGACCGCAAGTCCCGGGCTCGCGAACCGATCACGGCGAAGCTGGTGGCCAACATGCTGCAGCGTGCTGGGGCCGACCGAATCGTCGCCTTGGACCTGCATGCAGCTCAGATCCAGGGATTCTTCGATATTCCGGTCGACCACATGATGGGCGCGCCATTGCTGGCCAGTTACTTCTTACAGCACCACTTGAATGAGGGAGCCGTCACTGTTTCTCCGGATCACGGCGGCGTGACCCGGGCGCGTAAAGTGGCTGAGTTCCTGAAGACGCCGCTGGCCATTATCGATAAGCGCCGGCCGCGGGCAAATGTGGCCGAAGTGATGAATATCATTGGCCATGTCGAGGGCAAACGGGCGATCATTATCGATGATATGATCGATACTGCCGGTACGATCACCTTGGCGGCGCAAGCTTTGAAGGATGCTGGTGCTACTGAAGTCTATGCCAGCTGTACTCACCCGGTATTATCCGGCCCGGCTATTGATCGAATTCAAAACTCCAGCATCAAACAGCTGGTGGTGACGGACTCGATCCAGATGCCGCCAGAAATGAAGATCGACAAGATGGTCCAAGTGTCAGTAGCTAAGCTGCTGGGCGAAGCCATTGTTCGAATCTACGAAAACGAGCCGGTCAGTCCGTTATTCAGTATTCAGCATCAGTTACAGAATCAAGCCTAG
>SRR1151209_01887 UDP-N-acetylglucosamine diphosphorylase/glucosamine-1-phosphate N-acetyltransferase
ATGGAACCAAGGTATGTCGTGATCTTAGCCGCTGGTATGGGCACCCGGATGAAGTCGGATGTGCATAAAGTACTGCATAAGATTTGCGGCCGGACGATGGTTGAACATGTATTGACCCAGGTCAGTCAAGTGCAACCGGAAAAAATCATTACCGTCGTTGGCCATGATGCCCAGGATGTTAAGAAAACACTGGGCGACCGGACTGAATATGCGGATCAGCCGGAGCAGCTGGGTACCGGCCACGCAGTGCTGCAAACGGCCCCGCTCCTGGCGGATAAAGAGGGCGTCACGCTGGTCGTCAGCGGGGACACACCGCTGTTGACCGCCGCGACACTGAACAAGTTGCTGCAATACCACACGGAGAAGGGCGCCAAGGCAACGATTCTGACTGCCGAAGCGCCGGATCCCACGGGTTACGGCCGCATTGTCCGCAACGACTTAGGAATCGTGGAACGCATTGTGGAACAAAAGGATGCCAGCCACGAAGAAGCAGCCATTCAAGAAATCAATACCGGTGTGTACTGCTTCGACAACCAGGCCCTGTTTGCGGCGTTGAAGCAAGTCACCAACGATAACGCCCAGGGTGAATATTACCTCACCGACGTGATCGCCATCATGCGGAAGGCCGGCGGCATCATTGCGGCTTACCGGATGAAGAATTTTGAAGAATCCATGGGCGTTAACGACCGGGTGGCCTTGGCCGCCGCGACTAAAGTGATGCAGCAGCGGATCAACCACGACTTCATGATGAATGGGGTGTCCATGATCGATCCGGCGACGACTTATATTGATGTCGGGGTGCAGATCGGTCAGGATACGATCATTGAACCCGGTGTGCAGATTCAAGGCCAGACCACCATTGGCCGGCATTGTGTCGTTGGCGCACACTCCCTGTTAGTGGACGCAACGATTGAAGATAACGTGCACATTACCAGTTCGACCATTGAACAGGCCACGATGCACCGGGGCAGCGACATCGGCCCTAATTCCCACTTACGGCCCAAGGCCGACATCGGCGAAGACGTCCACATCGGCAACTTCTGCGAAGTGAAGAACGCCACGCTGGGGGCGCGCACCAAGTTGGGCCATCTGTCCTACGTCGGCGATGCCACCCTGGGCAGCGATATCAACGTCGGCTGCGGGGTCGTCTTCGTTAATTACGATGGCGTGAAGAAATGGCACACCACGGTTGGCGACAAAGCCTTCATCGGCTCCAATTCGAACATTGTCGCGCCGGTGGAAATTGCGGATCATTCCTTTATCGCCGCCGGTTCCACCATTACCAAGGATATTGCCTACCACGCCATGGGGATCGCCCGGGCCCGGCAAGTCAACAAGTCCGATTTCTGGGACAAGTTACCGTTAAGCAAGAGCTCAGAGTGGAAATAA
>SRR1151209_01888 purine operon repressor
ATGAAAGTAAAACGTAGTGAACGCTTGATCGATATTACCCAATACTTAATGGCCCGCCCCAAGACCCTGATCCCTTTGACCTTCTTCTCCGCCCGGTATGAATCGGCCAAATCTTCGATCAGTGAAGACTTGGCAATCGTAAAACGGACCTTTGCGACCCGGGGCACGGGTATTTTACAAACTGTTCCCGGCGCCGCTGGCGGTGTCCGCTACATTCCCGCAGTGAGCCGCAATTTTGCGGAAACATTCTTGCAAACGATGGCCGCTCGGCTGGCTGAGAAAGAGCGCCTGCTGCCCGGCGGGTATGTCTATCTGTCTGATCTCCTGGGCCAACCCACGGTACTCAACGATATCGGTCGGCTGATCGCCACCCAATATGTTCGGACGCCGGTGGATGTCGTGATGACCGTGGCTACCAAGGGCATTCCCATTGCCCAGGCGACCGCCAGTTATTTGAACGTGCCATTCGTCATTGTGCGGCGGGACTCCAAGGTCACCGAAGGCTCCACCGTCAGTGTGAACTACGTGTCCGGTTCCAGCAATCGAATCGAAAAGATGGAGCTGTCCAAGCGCTCCTTGCGTGAAGGCGCCAAGGTCCTGGTCGTTGACGACTTCATGAAGGGCGGCGGCACGGTCAACGGCATGCGCACCCTGATCAATGAATTCGATGCGGAACTCGTTGGCATCGCCGTTTTCGCCGAGGCCATCTTCTCCGGCAAACCCATGGTGTCTGATTATTCTTCCTTGTTACGGGTGGACGATGTGGACACCGACGCCCAAACCATCGTCGCCAATCCAGGCAATTATTTAGAAAAAACCACGTTCTTGGAAGATTTGACCCAAGCCGTGACCGAACGTTAG
>SRR1151209_01889 multicopper oxidase
ATGGCACATAAGACGTACACGGATTACTTTTTCGACAAGAGTGCTTTCAACACGTTGGATGGGGGCTATGTTCCGCTGACCGTCAATCATGACGCACCGGCTAAGCCGCTGGCCATTCCGGCGCTGCATCCCGCCGATAGCGAGGACGCCAACCACGTGGAATATACCGTAACCGCTCGCACTGGCGAAGTGCAGATGCTGCCAGGCAAGCCGACCAAAACGTGGGGCTATGACGCTAACGTGCTGGGCCAGACGATTGTCTTCAAAGAAGGCCAGGATGTGACCATCCACCTGAAGAATGACCTGCCGGAATTGACCACGTTCCACTGGCACGGCTTGAATGTGCCAGGGCCCTATGTTGACGGCGGCTGCCACGCCCCGGTCTATCCGGGCGAAACCAAGGACATTCAGTTCACGGTGAAACAGCCGGCGGCCACACTGTGGCTCCATGCCCACCCGTGTCCCGAAACGGCGGTCCAAGTCTATCACGGTTTGGCCGCGATGGTCTTGGTGCAAGATGCTGAAGAAGCAAAGCTGCCCTTGCCCCGCAACTATGGCGTGGATGACATCCCCGTCGTCTTACAGGATCGGCATTTCAATCAGGATAATCAATGGGATTACCAAGCGGATTACGATCCCGATGGCGTCCAGGGGCCCACGGCCGTAATCAACGGAACGGTCAACCCGTACTTTGACGTGACCACCACCCGGGTGCGCCTGCGCCTGCTGGATGGCGCCAACCGCCGGGAATGGCGGCTGCACTTCGGCGACAACCATGAGTTTGCGCAAGTGGCTTCCGATGGCGGTATTTTACCCAGCCCGGTCTATTTCACCCATTTGATGCTGACCTGTGCTGAGCGGGCCGAGATCGTCGTAGACTTCAGCGACTATGCCGTGGGCGATACGGTTGCCCTTTATTCCGACGATGTGCCGTTGCTGACTTTCCGCATCAAGGCCAAAAATGATAACGGTCATGGTGAACTGCCCGAGAAATTGGCGGACATTCCCCGGCTGCAAGCAACCCCAGGGCTGCCGATTCACAAAGTTGTCATGTCCGGCATGGATGAAGCGGTGGAAATCGATGGCAAGAAATTCGATATGCAGCGCATCGACAGCACTCAAGACCTGGGTGTCACGGAAATCTGGGACGTCACCAACACCAACGATATGCACGGCGGCATGATTCACCCGTTCCATATCCACGGCGGGCAATTCCAGATTATTTCCCGGGACGGTCATGATCCGTATCCCAACGAATATGGATGGAAAGATACCGTCGGGGTGAATCCCGGCGAGCACGTCCGCTTCGCGATGAAGTTTGACTTTGCCGGTGTCTACATGTATCACTGCCATATTTTGGAACATGAAGACGGCGGGATGATGGCTCAGATCGAAGTCATCGACCCCAGCGAGCCGCGGCCCAAGTACAAACTAATGGATCACCACACGTTGATGACGGCCTTCGCCAAAGAACGCGGCGTCAGCATGGATGAGATGTGGATCGGCGCCATGAACTCGTATAAAAAGATGGGCATGCACATGTAA
>SRR1151209_01890 ArsR family transcriptional regulator
ATGGCAAAGAAAAAGAGTAAAGCAGAACAAGTCAAGAAAATTCAAGAACGTACCGCCGCTGAGTTCCGCTCGGATATCGGCCATCTGAATGCCTTGGCCAGTCCCGCCCGGCAGAAGCTGCTGCTCCTGCTGGGGGATAAGTCAGATCATGGGCTGACAGTGAATGAATTGGCCGACGAGATCAAAATGTCGCAGCCCGCAACCTCACACCACTTGAAGATCCTCAAGGATATCGGCATGATCGATGCGTACAAAGAGAAGAACAAGGTGTATTATTATTTGACCTTGGACGACACGATCAAACGCCTGCAAGCCATTCACGATGTGCTCCAGGACCGGGTCCAATTTATCGAGCGGCCGGGCGATAAAAACACGCAGTAA
>SRR1151209_01891 4-diphosphocytidyl-2C-methyl-D-erythritol kinase
ATGAGCGAAATAATGGAACGGGCAGCCGCCAAGATCAATCTGTCGCTGGACGCCCTCTATGTCCACGCAGACGGATTGCATGAATGGGAAATGGTGATGACCTGTGTTGACCTGCACGATACGATCCACCTCACGCCTCGGGCGGACGGTCGGATACGCGTGCGCACAGACAGCCTGTTTTTACCCGAAGACAGCCGCAACTTGGCGTATCGGGCGGCGGTGCTCTTGCAACAACGATATGCCCCGGATGCCGGGGTGACCATCGACATTGAAAAACATATTCCGGTTTCAGCTGGAATGGGCGGCGGGTCCGCGGATGCCGCCGCGGTTTTGCGTGCCTTGAATCGCCTCTGGCAGTTGGGCCTCGACCGAGCGGCGTTAGCCCGATTGGGTCTCACACTGGATTCCGATGTGCCGTTTTGCGTTTATAGCGAAACAGCCCTGGTCACTGGCCGGGGCGAGATCATCCACCCCTTGGGCCAAACCCCGGATTGCTGGGTGGTGATTGCCAAACCGCCGGTGCCAGTGTCGACGCCGCAAATATTGAATGAGGCCGCTCGGCCGGAGCGCTTGCCCCATCCGGATACCCAGCGGGTGATTGCCGGCATCCAGGCCCAGAATCTGCCGCTGATGGCCGGCGGCATGGGCAATGCACTGGAAACTATCACGGAGGATAAAATTCCGGAGATTCGCCGGATCCGCCAAAAGATGCGTCAATTCGGTGCGCTGACGGCACAAATGACCGGCACCGGTCCGACCGTTTTTGGCATCGCCGCCACCCATAGCCGGGCTCAGCGTATTTATAACGGCTTGCGGGGCTTTGTCCCGGAAGTCTATGTTGTCCGTCCTCTCAAACGCCAAACAAAGGAAGTTACAGCAGAATAA
>SRR1151209_01892 Veg-like protein
ATGCCAATTACAATCGCGAATATCAAACATCGTTTGGATGAGCGTTTGGGCGACAATTTAACCGTTGTGGCTCAGGCAGGACGGAAAAAGATCACGCGACGCCACGGGATTTTGAAGGAAACCTATCCAGCGGTGTTCGTCGTAGATCTAGACCCGGCGACCAATGCGTTCAAACGCGTATCTTATACCTACACGGATCTGTTGACCAAGTCCATCGAAATAAACTTCGATGATGGCACAGCCAATACGAATAAAACGACATGTTAA
>SRR1151209_01893 dimethyladenosine transferase
ATGACTGACGATTTGCGGATTTCTGATCCGGCCCGGACGCGGGAGATTATGGCCCAGTATCACCTGCGGCCGAAGAAGAGCCTCGGCCAGAACTTCTTGACGAACGGGCGGGTGCTGCAAGATATTGTTGATGCTGCCGAGCTGACCAAGCAGGATGCAGTGATTGAGATCGGCCCAGGGATCGGCGCGTTGACCGAATACCTCGCCCAGGCAGCGGGGCACGTCACAGCCTTCGAGCTGGACCAGCGTTTGCTGCCGGTGTTGGCAGACACCCTGCATGACTATACGAATATTGACATCGTCCACCAGGATATCCTGGCTGCTACCCCGGCTCAGTTATCGGCCCTGGCCCCCGAATTGAACATTGTCGCTAATCTGCCGTACTATGTGACGACGCCGATCTTGATGCATTTCCTAGAAAGCGGCCTGCCGATTCGGCGGATGGTGATGATGATGCAAAAGGAAGTGGCCGATCGAATCACCGCGGCACCAGGGGGCAAAGAATACGGCTCACTGAGTATTGCTGTGCAGATTCGGACTAAGGCCCGGATCGCCATGACCGTTTCCCACACGGCATTCAATCCGCCGCCCAAAGTGGATTCCGCCGTCGTAGTCTTTGACTTCCTGACCGAACCGCTCGTCCCGGCAGCGGATCAGGCGTACTTCAATCAAGTTGTGACCGCCAGCTTTGCTCAGCGGCGAAAAACGATCATGAACAATCTGCTGAATTGGTACGGCAAGACGCCGGCACATCGCGCCATATTGACTGCTGCATTTTCTCAGGCAGGCGTTGCGCCAACCGCTCGGGCTGAAACTGTTTCCATTGCGGAATTTATAGTGTTGAGTAAAAAGTTATCCGAACAAAAATGA
>SRR1151209_01894 ribonuclease M5
ATGATCAAAGAAGTGATCATCGTGGAAGGGCGTGACGACACCAAACGGCTCCAGGAAGCCCTGGGGCCGGTGGATACCATTGAGACCCACGGCTTTGCCCTGCCGCCGGATACACTGGCGGCGATCAAAGAAGCCCAGGCCAAGCGGGGGATCATTATCTTCACGGATCCTGATCATCCCGGGGAGAAGATCCGCCGCCAGATCCTGGCTGCCGTCCCCGATGCCAAACAAGCTTTTTTGCCCCGCCAGGCCGGGATCCCGGTGAAGCAGGGGACCATCGGCGTTGAGCACGCCAGCAATGCGACAATTCGCGCTGCTTTGGCTCAGGTGTACACGCCGGTGAGCCAGCCGAATACCGCCGATCCAGTCACCGAGGAGGACCTGCTCCACCTTGGGCTGACTGGCACGCCCAATGCTGCGGCGTTGCGCAATTACGTGGCTGACACCCTGCACCTGGGCCACGTGAACGGCAAACAACTATTGAAACGGCTCCACGCTTTCGCCATTACCCCGGCCCAGTTGGGGGCGACAGTGCGCGCGTGGCCTGGAACAGACAGAAAGGATACTATCCATGACTGA
>SRR1151209_01895 TatD family hydrolase
ATGGCGATCGTGGGCAGTGACGCCGAGCTAAACCAGGGAGCCCTGGATTTGGCTCGGCGTTTTGCCCATCTTTACGCCGTTGTGGGCTGGCATCCGGAGAGTGCCCGGCTGTATACGCCGGCCGCTGAAAAGGTGCTGCGCAGCCAGCTGGCCCAACCGAAGACCGTGGCCATCGGCGAAATCGGGCTGGACTATCACTGGGACTCCAGCCCGCACCCGGTCCAGCGCCAAGTCTTTGCCCGCCAGCTGGCGTTGGCTGCCGAATTGCACCAACCCGTGGTGATCCATACCCGGGAGGCGATGCAGGACACGTACGATATTTTACGCCGCAGTGCCGTGACAGAATTTGGCGGCATCATGCACAGCTTCAACGGCGGTCCAGAGTGGGCGGAGAAGTTTCTGGCGCTGGGCATGTACGTTTCTTTCAGCGGTGTGGTGACGTATAAAAATGCCCAGGACGTTCAAGCCAGTGCTCAGTTGGTGCCGGCGGACCGGTTGCTGGTGGAGACTGACGCACCGTATTTAGCCCCGCTGCCCCATCGCGGCGAACGCAACGAACCAGCGTTTACCGCGGATACAGCCGCCTTTTTGGCCCAGCTGCGGGATGTCCCCGCGGATACGCTGGCGGCCCAGACCTTTGCCAATACCGAACGGATTTTTCGGATCACGGAGGTACCAGCATGA
>SRR1151209_01896 methionyl-tRNA synthetase
ATGTCTGAAGCAAAACCCACTTTCTATATCACGACGCCCATCTACTACCCGTCTGGGCAATTACACATTGGCAATTCCTACACCACCATCGCTGCCGATACGCTGGCGCGCTATAAACGGATGCGCGGTTACGACGTTTTCTTCCTCACCGGCACCGACGAACATGGCCTGAAGATCGAACAGAAGGCCGAAGCACTGCATATGTCGCCCCAGGAATATGTGGACGGCATGGCGGCCGATATCAAGAAGCTGTGGCGGATGCTGGACATCTCCAACGACAAGTTCATTCGGACCACAGATGATTACCACGTCAAAGCGGTCCAAAAAATCGTTGAGCAGCTGATCAAGCAAGGCGACGTCTATCTGGGCGAGTATGTCGGCTGGTATTCCGTGGACGACGAGGAATACTTCACCGAGACCCAATTGGCCGAAGTTTACCGGGACAAGGATGGCAAGGTCATCGGCGGCAAGGCCCCCTCTGGTCACGACGTCCAGCTGGTCAAGGAAGAATCTTATTTCTTCAAGATGAGCAAATATGCCGATTGGCTGCTGCAATACTACAAGGATCATCCCCACTTCATTCAACCCGAGTCCCGCAAGAATGAGATGATCAATAACTTCATCAAGCCCGGCTTGGAAGACCTAGCCATGTCCCGGACCAGCTTCAATTGGGGGGTGCCGATTCCCAGCAACCCGAAGCACGTGGTGTACGTCTGGGTTGACGCGCTGCTCAACTATATTACCGCGCTGGGTTACGGCAGCGATGATGATTCCTTATTTAAGAAATACTGGCCGGCAGATGTTCAATTCGTGGGGAAAGAAATTGTCCGCTTCCACACGATTTATTGGCCGATCATTCTCCATGCGCTGGGGTTGCCATTGCCCAAGCAGGTATACGGCCATGGCTGGCTGTTGATGAAAGACGGCAAGATGTCCAAGTCTAAGGGCAACGTCGTTTATCCGGAAATGCTGGTCAAGCGTTACGGTTTGGATGCCCTGCGCTATTACTTAATGCGCGCTTTCCCGTTCGGCAGCGACGGTGTCTTCACCCCGGAGGACTTCATCGACCGGATCAATTATGACCTGGCTAACGATTTGGGCAACCTGCTCAATCGGACGATCGCGATGATCAACAAATATCGTGATGGCCATGTGCCGACGGATCTGTCCAGTCAAACCGAGGTCGATGATGATCTGGTTGCCACAGCCAGCGATGTCTTGGTGGCTTACGACGACGACATGAACCACTTCCGCTTCCCCAATGCGTTGGATGAAGTCTGGCGCCTGATCAACCGGGCCAACAAGTACATTGACGAAACTGAACCGTGGAAGCTCGCCAAGAGCGATAAGACCGCCAAGGCCCTGGACAGTGTCCTGGCCCATTTGGCGGAATCCCTGCGGCTCGTCGCCGTGCTGGTGGCGCCAGTGATGACCCATACGCCGAAAGAAATGTTTGCCCAGCTGGGTCTGGCCGACGCCGATCCGGCCGTCGCGGACAAGCCGGAGTGGGGCGCATTTCCGGCCGGCATCACGGTGACCGATCACGCCGAACCGATTTTCCCGCGGCTGGATGCCGATGTCGAGGTCAACTACATCAAGCAGCAGATGCGCGCTGAACAGAAGGATTCTAGTGCTGTGGTTGAGGATTTGAATGAACAGAAATCCGGCAAGTTCGACGTTTTGGCCACAGATTTGCATAATATGAAGGACCAGATCGATTTCGATACGTTCGACAAGACCGAGATTCGGGTGGCCCAAATCATCAACGTGGCCAAAGTGGCCCACGCTGATAAGCTGCTGAAGTTCGAATTGGACGCTGGCGATCCTACCCATCGGCAAATCATTTCCGGCATCGCCGCGTATTATCCGGACTTCCAATCCTTAGTCGGGAAGAAAGTTCTGGCAGTCGTTAACTTGGCCCCCCGCAAGCTGCGGGGCGAGCTTAGCCAGGGCATGCTGCTGTCTGCGGAGCATGACGGTAAGATCCAGTTGTTGACGGTTCCGGACAGCTTGACTAACGGCTCGTTAGTCGGGTAA
>SRR1151209_01897 hypothetical protein
ATGGCAATTACAATTGGTTTGACCACGTGGACGGAACATCCCAGTCTGCTTGGCGGCACGAAAAAACTCACCTTGAGCGAATATGCCGGATTCTTTCCCGTCGTGGAAGTCGACACGGCATTCTATGCGATTCCTAAGCCTCTCGTCGTCCATAACTGGCGCTTGCAAGTGCCAGCGTCTTTTCAATTCATTGTGAAAGCCAACGGAATCATTACCAAGCACGAACGGGTGACGGAATTTGACTTGCCGGCGACGGTCAACGCCTTTCGCGCGGCCTTCCAGGAATTGCATGACCATGGGCAATTGCAGGCCGTCTTGCTGCAATTCCCGCCTTTCTTCACGGTCAGTCGAGAAAATATTTTGTATCTTCGCCAGCTGCGCGATTTATTCGGCGATTGGCCGCTGACGGTGGAGTGGCGGAACAATACGTGGTATAAACCCGCGCTCGTCAAAGAAAGTATGTTGCTGTTGCAAGAACTGCATATGAGCCTGACCATCGCCGATGAACCGGCGACCCAGGGCAACAGCGTGCCGTTTTATCCCGCGGTGACAGACCAGCAGCAGGCCTTTTTCCGTCTCCACGGCCGTAATTTAGCCGGTTGGCAAAATCCCGGCGCCGGCTGGCGGCGTAAGCGGACGCTGTACCGCTACAACGACCAAGAACTCCACGAAATCGCTGCCGCAGTCCAAAAGGTCGCTGCCCAAGCCCAGACCACGACAATTATCTTCAACAACAATGCCGGCGGCGACGCGGCGGATAACGCGCTGATGCTGCAAAAGATTCTCGGGTTATCATTCACTGACCTGAATCCGCGCCAATTGGGATTCGATATATAA
>SRR1151209_01898 NUDIX family hydrolase
ATGGCAAAATATCGTTACACACTCGCACTGATTACCGACGGTCGGCAGGTCCTCATGTTGAATCGCTTCAAATCCCCGTATCCCGGTCTATGGAACGGCATCGGCGGTAAAGTTGAAGCCGGTGAAACACCGGTGGCTGCGGCAACTCGGGAGATTCTGGAAGAAACAACGATTGCAACGGCCGACTACGACATCAGCCAATTGGGCCTGATGGATTGGTACGTTGATGGGACGTTCCGCGACGGCATCTACCTATTCAAGGCACAATTGCAGGAACCCATCGTGAAATCCCGTTATCCCCAGTGGATGCGTGAGGGTATTTTACAACCCTTCAGTCCCGAATGGCTGACTCGGGCGGATAACACCGGCGTCGTGGCCGATGTCCAGCGGCTGATTCCCCAGATGATGGATGCTGACGCAATTTATGTCCACACGGATTTTGTGGATGAACGTTTGACGGATTTCACCCTATTGGATCCAGCCAGTGTGGCCCGAGATAATGAAGGGAATTTGGTGTAA
>SRR1151209_01899 glycerol-3-phosphate ABC transporter ATP-binding protein
ATGGTAAAAGTTGATTTGGACCACATTTATAAGGAATACCCAGATGCCGAGGAAGGCGTCTACGCCGTTGCTGACTTTGATCTGCACATTGAAGACCGAGAATTCATCGTTTTCGTAGGCCCGTCCGGGTGTGGTAAGTCAACCACCCTGCGGATGATTGCCGGGTTGGAAGATATTTCTAAGGGCGACCTGAAAATTGGTGGCCAAATCATGAACGATGTGGCCCCTAAGGACCGGGACATCGCCATGGTCTTCCAGAACTACGCCTTGTATCCGCATATGACCGTGTTTGATAACATGGCCTTCGGCTTGAAGCTGCGGAAATATGAAAAGGCCGACATCAAGAAGCGGGTTGACGATGCCGCGCAAATCTTGGGCTTGACGGATTACTTGGATCGTAAGCCAGCGGCTCTGTCTGGTGGTCAACGGCAGCGTGTTGCGTTGGGCCGGGCCATCGTCCGGGACGCACCGATCTTCCTGATGGACGAACCGTTGTCTAACTTGGATGCCAAACTGCGGGTAACGATGCGGGCAGAAATTGCCAAATTGCATCAACGGTTAAAGACCACCACCATCTATGTAACCCACGACCAGACTGAAGCCATGACCATGGCGGACCGGATCGTTGTTATGTCCATGGGTAAAGTTCAGCAAATTGGTACACCGGCTGAAGTTTATGATCGGCCGAAGAACGAATTCGTTGCCGGATTCATTGGTTCCCCTGCCATGAACTTCTTCAACGTTCATCTGAAGGATGGTCATATTGCTGACGGCAAGGGCCTGGACCTCGAAGTACCCGAAGGCCGTTTGAAGATTTTGGAAGACCAAGGGTATAACGATAAAGACCTGGTATTGGGTGTTCGGCCTGAAGATATTCATGCTGAAGAAGCCTTCATCGAGACCTTCCCGAATGCCACCGCCAAGACGACCGTTGTCGTATCTGAGCTGCTTGGTGCCGAATCCATGCTGTATGCTCGGGTTGACCAAACTGAATTCGTTGCGCGGGTTGACGCCCGGGATTACCACAAGCCTGGCGATACCGTTGAAATGGCCTTCGACCTCAACAAGGCCCACTTCTTCGATAAGGAAACCACTGACGCTATTTACTCCAGCGCCACAGCGAACGACGAACAATAA
>SRR1151209_01900 6-phospho-beta-glucosidase
ATGTATAAAACCGATATACCAACAACATTTCCCAAGGATTTTCTGTGGGGCGGCGCGACGGCGGCGAACCAAGTCGAAGGCGGCTGGAATCTGGACGGCAAGGGTTTGACCACGGCTGAAGTGGTGCAAAAGGCGACGGACCGGCTGCATTTTCGCCGCACCCCGGTGACTGCTGACAGTATTGCGGTGGCGGTGGCCGACAAAACGGATACGCTGTATCCCAAACGGCGGGGAATCGATTTCTATCACCACTATCAAGAGGATATTGCGCTGTTCGCCGAAATGGGCTTCAAAGCTTTTCGCCTATCGATCTCCTGGGCGCGGATCTTTCCCAAGGGGGACGACGCTGAACCCAACGAAGCCGGGTTGCGTTTCTATGATGCGGTGTTTGCCGAATGCCGCCGACACGGCATCGAACCAGTGGTCACAATCTCCCATTTTGAGACGCCTTTGGGGCTGACCCTGAAACAGAACGGCTGGGCCAGCCGGGCGACGATCGAGGCCTTTCTGCGGTACACGGCCGTCCTGTTTAACCGGTATAAGGGGATCGTGAAATACTGGCTGACGTTTAACGAGATTAATGCGATTCAAAATGGTACGACCGGGACCGGGGCGGTGGATGCGGACTTGCCCTTGGCAGAGAAAGCGCAGTTGCGCTTCCAAGCGCTGCATCATCAATTTGTGGCCAGCGCTCGGGCCGTCCAACAGGCCCACGCCATCGATCCGGCGGCCAAGGTCGGCTGCATGCTGGCTCGGATGCAGACGTATCCTAAAACCGCCGATCCAGAGGATGTCCGGGCGGCTCAGTTCGCGGACCAGCTGAATTTGTTTTATACCGATGTGCAGGCCCGGGGTGAGTATCCAGAATACATGAATCGCTTTTTCAGCGAAAACAGGGTACAGCTGGTGCTGGCGCCCGATGATGAAGAAATCTTGCGGCAGGGCACCGTGGATTTTATTTCGTTCAGTTACTACATGTCGATGGTTGCCTCACCGGCCCTCAACGTGACCCAATTCCAGGAGGGCTTTGCCCTGGGCGAGAAGAATCCGTATCTGCCAGCCAGCGCGTGGGGGTGGCAGATCGATCCGGTGGGATTGCGGATCTCGCTGAACGAAATGTGGGACCGCTACCGGCTGCCGCTGTTCGTGGTGGAAAACGGACTTGGTGCGGAAGACGAAGTGACCACTGACGGTAAGATCCATGATGACTATCGCATCGACTATCTGCGCGGGCATATTGCTCAGATGAAGGAAGCCATCCGGGACGGAGTCCAGCTGATGGGTTACACGACGTGGGGTCCGATCGACCTGATCAGTGCATCCACGTCGGAAATGTCCAAACGGTACGGCTTTATCTATGTGGATCAAGACGATGATGGCAATGGCACCTTGGCCCGGCTGCGTAAGGATTCGTTTTATTGGTATCAGCAAGTCATTCAGAGCAATGGCGAAAATTTAGCCTAG
>SRR1151209_01901 beta-glucoside-specific PTS system IIABC component
ATGGATTATACCAATCTTTCCCAAGCAATCATTCGCGGCGTCGGCGGCAAGGATAACGTCCGCTCGGTCGTGCACTGCGCCACCCGCCTGCGTTTCAAGTTACGGGACACGAAGCAGGCCCAGACGAAAGTATTAGAACACACCGACGGGGTGATCACCGTGGTCCAGTCCGGCGGTCAGTACCAAGTGGTCATTGGCAATAACGTCGCCGATGTCTACGACAATCTGATCAGTGTCGGCGGCTTTGCCAACGACGGCGCTGTGCCGGACGACGAGGAAGAGGAACATATGCGGTTCATGGACCGGGCCATCGACCTGGTTTCCAGCATTTTCTCCCCCTTGCTCGGTGTGCTGAGTGCGACGGGGATGATCAAGGGATTTGTCGCTATGGCAGTGGCTTTCAAATGGCTGTCCCCGGAGAGCGGAACGTATCAGATCCTCAACGCCATCGGAGATGAATTTTTCTACTTTCTGCCCATCATTCTCGGCTATACTGCGGCGAAGAAATTCAAGCTGGACCATTTTGTCGGCCTGGCCATTGGCGCGACGCTGTGCTATCCGGCTATCGTGGCGATGAATTCCAGCAAGGACACGCTGTTCACCCTATTTTCCGGGACGATTTTCGAATCCTCGATCCACACTACGTTCTTCGGGATTCCCGTGGTGATGATGAACTACACGTCCTCCGTCATTCCGGTGCTGCTGGCCGTTTGGTTTGCGTCGAAGATTCAGAAAGCAGCCCGCAAGATCATCCCGGATGCGGTAAAGACGTTCCTGGTGCCGTTCACGGTATTGCTGATCACGCTGCCGCTGACCCTATTGGTGATCGGTCCGGTGGCGACCTGGACCAGTGTCATCATTTCCCATGTGTGTTTGACCGTGTATAACTTCAGCCCGGTCGTGGCTGGGCTGCTTATGGGCGGTCTATGGCAGATTTTCGTCATGTTCGGGATGCATTGGGGCTTCATTCCAGTGGCGATGACCAATATTGCCACCCAGGGCTTCGATCCGATTTTGGCCCTGACTTTCGCGGCGTCCTTCGCCCAAACCGGGGTGGTGCTGGCGATCACGATGCAGACGAAGAACAAAAAGACTCGCAGTATCGGTATTCCTGCGGTGATTTCTGGTATTTTTGGGATCACCGAACCGGCGATTTACGGGCTGTCTCTGCCGCGCAAACGGCCGTTTACCTTGAGCTGTATCGCAGCGGCAATTGGCGGCGGCGTGCTCGGTTTAGTCGGCAGTGCCAGTTACATGATGGGCGGTCTAGGCATCTTCGGGATTCCCAATAAGCTGAACCCGAAGACCGGCCTGGGCTGGGATTTCTACGGGATGCTCCTGGCCATCGTGGGCGCGTTGATCCTGGGCTTTGTCCTGCAATATCTCTTTGGTCGGAAGTATGTGGATAATGATTTAGAAGAAGGTACCGCAGAGGCGGCGGTCACCCCGGCCGCGCCGGAAGCGGTCGGCAACGTGGCCCTGGCTGTTGCAGGGACAGACGCAGCCCCAGTAGGCGCGGCCTCGGAACAGCCGGCTCATGTCCGGTACAACCAGGCGACTTCCTTAAACAGTCCCTTGAATGGTCAAGTATTGCCCCTGAGTGCAGTGCCGGATACGGTTTTTGCTTCAGAAGCCATGGGGCGGGGTGCCGCTATTGAGCCCACGGCCGGTATCCTGCGCGCCCCTGCCGATGGCACCGTGGCCCTGGTCTTTCCCGGCGGTCACGCCGTGGGCTTGAATACGACGGATGGGGTGGAACTGCTGATGCATATCGGTATGGACACCGTCAATCTGCAGGGCAAGGGCTTCCGCGTGCTGGTCAAAAAGGACGAGGCCGTCACGGTGGGCCAGCCGCTGGTTGAATTTGATATTGAGGCGATCCATGCGGCCGGCTTTTCTGTCACGACGCCGGTGATCGTGACGAACAGTGCGCACTACCACCAAGTGACGGTCACCGATGCGGCGACTGTCACCACGGCTGATACACTGCTCACGCTGGTTTAG
>SRR1151209_01902 transcriptional antiterminator
GTGCTGTTTATCAAGAGCCTCAGCAACAATGTGGCTTTGGTCAAAGATGCCCGCGATCGGGAGTTTGTGGTGATCGGTCGCGGGGTGGGGTTTGGGAAGAAACGGGGCGACGATATTCCGCCGGACATGGTTCAGCGCCGCTTTATCTCGGATGCGCAAAACAATGCGGAATGGCATGAGCTGCAGCATTTTGATCCCCGGGCGGTGACGCTCACGGAAATGATCGTCCGGGCGGCGGAACGGGAGTTGACGGTCCAGTTCAGCCGACACCAGTATTTGGCCTTGGCGGATCACTTGGATCTGGTACTCAAACGGATGCAGCAGTGTCTGGTTTTGACGGATAACGCTATGTCTTGGCAGCTGCGGCGGCTCTATCCCCGGGAGTATGCTCTGGCGAAGCGGCTGGTCCGGCACATTACCAGTTTGGAGAAATATGGGTCATTCACCATAGCCGAGGTACCAGCCTTGGTGCTGCATTTGGTCAATGCGGCCAACAAGCAGGAGCAGGTGCAGGATACGATGGCGATGACCCGGTTGATCGGCGCCGTCATCCAGATTGTGGAACGGGATCAGGGGATGACTCTGGACACGGAGTCGTTCAGTTACAGCCGCTTCTTGGTTCACTTGGAGGCTTTTTTCCGCCATGCGGCTAATCCGGCGGCTGGCGAGGAGGGCGAACCGGTGCGGTTGGATGATGACCTGCTGCAGCTGCTCCAAGAAAAGTATCCCCGCGTCTACCAGACGGTGGGCCGCATCAAACAGTTTTTATACCAGCAGCATCACTGGGTCCTCTCGGAAAACGAGCAGGTCTATCTGACGATTCATATTTGGCGGGTGACCCATGTCCGTCAGGCTTAA
>SRR1151209_01903 hypothetical protein
TTGGCTGGTTTTGACGCGGCAGGTGCCGATGCGGCAAGTGGTGCACCAGAGAAAACCGATACTGAACTGGCAGACAAGACGCAAGCATACAGAGATGTGTACCATGATGCCTTTAAGCTTGCAGCTAAGCTTATTGAAGCAGATAAGACTAAGAACAGTGCCGATGCCGGGGCGGCGGCAGGTGCGCAAGATGCGCAAGATGGCAAGGCAATGACTGATCTGACAGATAATGGCCCAGATTATCAGACCGCATACAAGCAAGCATATTATGCGTATCAAAAGACCAATGGCACCTATGAGCAGGGCTATGCCGCCGGCCAAGCGGACGCTGCAAAAGGTAGCCAGGAACAAACCGGTGATACTTTTGGTTCCAAGAGTAATGCGTATCGGACTGGATATCATGCTGGTTTTGCTGATACTCGCGGCAATATTCTAGATACCAATGATGCGCGGATACGTTTGCAAACTGCCATTCGCAATGGTCAGGCATTAATCGCCAATCACGCCAGCGAGTATACACCCGCGAATATTCGTATTTTCCAACAGGCCCTTGATGCGGCAACCGGATTATTGAATAAAGATAACGCAACAATCGAACAGTTAGCCCAGGCGGTGACTGATTTGAGTACAGTGGCAGCAACACTGACCAAGCCAACGCAACCAGTAACGCCAACCTATCCCAGCACTACACCGGCGCAAACAGTCGAAATGTTGACTGAATCGCCGGCTTCCGGCATTGCTTACGTCACAGCTCAAGCTGGTATTCCACTATATTCCGACAAGGAAACCATAAACCAAATCGGCCGAACACTGGCCGCCAATTCGTCCTGGAAAATTTTTGGTCAGGTCACCAATAGTGCTGGCACAATCGTGGCATACAATCTCGGTGGCAAGCAGTACGTCAAGGCTAGTGATGTCACACTGACCAATCCGGTGACAAAAGGGACCTTCACCGTGCACTATAGTGACCATCCGACGTGGGGTATCGCGGTTTACAATGGCGCATTGAAGGTGCAAAAAATTATTCCCGCTGGTTCTCGGTGGGTGACTTACGGAAAGAAGACGATCAACGGTCAGGATTATTATAATCTTGGCGGTGATCAATTTGCCCGAGCAGACTATGGTAGCTGGATCGCGGACTAG
>SRR1151209_01904 Xaa-Pro dipeptidyl-peptidase
ATGAAGTTTAACCAATTTGGCCGGCTTGACCCGGATTTTGCCACTCAGGTGGCCGAACTGAAACAGATCCATTTTCTCCCCGGAGACTGGGAGAACACACCCCCGGCTGACCTGTTAAGTATCTTATTTGCCCGCTGCTTCCCAGAAGTCGCCACGGCCAGTGAAATCACTGATCGGGAAGAGCGCATCTTGGTCAACCAGGACACCAGTCTGGCCCAATTGTTGGCCAAAAAGCCAGACAGTATCACCCGGGCAGAATTCTACACCGCCGCGTTGCAGCTGCTGGACTTCATTGTCGCTGACGATTTTCCGGATCTGGACGCTTTGCAGGCCATGGCCAAGTGGCAACTGCCTACGGTGACTGCTGACCCTCTGCAGGGTCAGGACCTGGTGGCGGCCTTTTACTTATTGCTGGCAACCCGGGGCAAAAATGGCCAAAACTTCCTAGACTTACTGACGAGCCGCGGCTATTTCAACGGGTTCTTTACCGCCAGCGAACAGCCGCATTTCGTGTTCTTCAACGGGAAGAGTCAGGCCGTTTTTGACACCACCAAAATCATTCGCGAAGTCGTTTATGTCGAAAGTGATTTGGACACCGATCAAGACGGCCAGCGTGATCTGCTGCAAACCACGATTTTCCGCCCGGCTGAAACTGATCAAGGCTTGGCAGTCCCCGTCCTATACACGGCCAATCCTTATTTCCGCGGCACCAACGACATGGCCCCGGTGAGCTACGATGTGAATAAGGACTTAACGCCGAAGGTACCCAATGAGACCCAATATGGCGACATTGCTTACCATCATGCGCAGCCGCTGATCCCAGATGGCCACACCGTCACGGGTGAAACCAAAAGCACCACCGAAAAGCCGGTGGATCCCGGTATCTACTCATTGAACGACTATTTTCTCGCCCGGGGCTTTGCCACGGTGTATGCCGGCGGAATCGGCACCCGCGGTTCTGATGGCATCCGCACCACCGGCGGTCCGGAAGAAACCGAATCGACTATTGCGATCATTCAATGGCTGCACGGCGATCGCATCGCCTTTACCAACCGCACCGACGGCGTGACCATCAAGGCGTGGTGGTGTACCGGCAACGTGGCCATGACCGGGAAGTCTTACCTCGGCACTTTGGCCGTGGCCGCGGCAACCACCGGTGTGGCCGGCTTGAAGACGGTTGTGTCTGAAGCCGCCATTTCCAGCTGGTATGATTACTATCGAGAAAACGGCTTGGTCATTGCTCCGGTGGACTGCCAAGGCGAAGACACCGACGTGCTGGCCCTGGATACCTTCTCCCGGCGCAAAGACGCCGCCGACTTCCAGCGCATCAAGCCGGTGTATGACAAAATGATGGCCGATTTGAAGGCCGGTCAGGACCGGGAAACTGGCAATTACAATACGTTCTGGGATGCCCGTAATTACCGAAAGCATGCGGACCAGATCAAGATCGACTTTGTCAGCGTCCACGGATTGAATGACTGGAACGTCAAACCGCGCAACGTCGAACAGCTGTGGAATAAGTTGCGGGACTTGCCGATCAACAAGAAAATCTTCCTGCACCAGGGTAAGCATATCTACATGAATAACATCCAGTCCATCGATTTCACCGATATGATGAATCTATGGTTCTGCTACGAGCTGCTGGATGTTGCCAACGATGCTCCGGCCGTCTTGCCTAACGTCACTGTCCAAGACAACGCCGTCCCGGAAACGTGGCACCATTACACTGATTGGAGTGAGCCCACGACGCCGCGCACGCAATACTTTATGTCTGGTGATGGCTTGCAAGAGCAGCCGCCGAAGAATGAGGAAATCGTCTCCTTCCAGGATGACGGCACCCCGCTGTTCCTGGCCAGTGACCAGAATGCTCACCATTGGGAATCATTGCTGATGAGCCGCCAGACCAGTGTCTACGAACACACCCGCAAGCTGTTCCTCACCCCGGAATTCACCAAAGACGCCTACATTGACGGAACGATCACGGTCACCCTGCAAGTAGCCGTGAACCAAGCTGCCGGCCAAATCAGCTGCATGGCCATCGATTACGGCCAGGAGAAACGGCTGAAGGCTGATCCGTCTGTTCTCCAAGCCAAGGGCCAGCAACTCGGTTATGGCTGGGCGGTGGACGATGTGAAGGAATTCCAGTTGGAGAAGACCCCCAGTGAATTCCACCAAATTGCGAAGGGCCACATGAACCTGCAAAACCGCCACACCCCGTGGCAAAACGATGCCCTCACCCCGGGCCAGTTCGTCACCCTGCACTTTGCGCTGCAACCGACTGAACACTATATCCTCGCCGGCCACCAGCTGGGCATCATGGTCTATGCCACCGACATGGGCATGACCGTACGGCCCAGCACCGCCGCCACCTATGAACTGGATCTCAATGCCAGCCAAGTGGAAGTGCCGTACCGCCGGTAA
>SRR1151209_01906 hypothetical protein
ATGCACGTGATGCGTGAGAAGAGACAACGGCCGACGCGGCGGCTGCGCTATTGGTGGGCGTTAGTGATCACTGCCCTGCTTTTGCTGGTGCTTGGCGGCGGTGTCGTTTGGCTGTTCAGTCAGCCTGCTGAACCGGCGCCCAGCGCCAAGAAGGCGCCGGACCACAACATTGCTGCGCGCCGCTCCAGCCGCCGGGCCGCGAAAAAACGGTCCGTCACATCTGCTGACTCCGTGGCATCAGCCACCCCGCCGCTTACCAGCCGTTTCACCAATGATATCTACACAACCCCCACGCTGACCTTGCGGCTGACTGGGGCGAAGATTGTCACAGACAAGACCAACCATCCGGCATTATTCATTCAATATGAGTTGGCTAATGACGGCTCGACTTTGATCACCCCGGCGGCCATCTGGCGCCAATATGCGATTCTTCGCCAGGGTCAGGCAAACGCTAAAAAGAGCGACATTACCCCACTGACCGAAGCAACGTTGACGGACAAGGACGCGCAGGGCGACCTGGGCAAGCAAGTCAAGGCTAGCCAGACGCCGCTCGCGCCCACTAAGAAGATGAGCGGTGCGATGGTGTATACTTTCGTGAATAAAGATCCGATCCGCTTGCAATTCATCGACCGGGATACCGGTCGACCGTTGGGGACGAAGACGTATGAAATCACTGGGTGA
>SRR1151209_01907 hypothetical protein
ATGCAGAAGAAAACAATCAAAAAATTATTGAAGAAGCAAGACACAAAGAACGAGTACTTTTATATTCAGTTCTCTGATGGGCGTACCTTGGAAGTGCCGGTGCGCGTGACCAGCGGCGATATGACCGCCCACGATGATCTGGTGCGCCGGATCGCCCACAAGGAAGGCACCATGACGGCCGACAACGGCCAAGTTTTCGATTTTAAAAAGATCATTCACTATGACATCGAAAACACTCGCCGGACCGGCTTCGGCCCGCAACCGCAATAA
>SRR1151209_01908 hypothetical protein
ATGGGATTATTTTTTAATCGGCATAAAAAAGAAGAGACACCTGCTGGCGAGAAGAAGCCTAAGGGATTAAGGGAAGACCACGGGTTGTATTACGCTCAGGGCGGTACCAAGCCCATCTGTACTTACTGTTACCGGACGAAGCATGAGACCTATGAGCTGGATGAGCCGGACTTCATTGGTTTGTACACCTGCCCAAATTGCGGCCGGCAATTCCAGCGCCGCCCGGACGAACCCTTTGCTAAAGAGGCTAAGGCAGAAGAAAAAGATTGA
>SRR1151209_01909 50S ribosomal protein L21
ATGTACGCAATTATTGAAACTGGCGGCAAGCAGTACAAGGTCGAAAAAGACGGTGCTGTCTATGTCGAAAAGCTGGACGTCGAAGCTGGCGCCGAAGTCACGTTTGACCACGTGATCATGGTTGGTGGCGACACCACCAAGATCGGTGCGCCGTACGTTGATGGTGCTTCTGTCACTGGTAAAGTGGAGAAGCAGGGTAAGGAAAAGAAGGTTGTTACCTACAAGTACAAGCCCAAGAAGCACAGCCATCAAAAGAAGGGCCATCGTCAACCGTATACGAAGGTCGTTATCGACGCAATCAATGCCTAA
>SRR1151209_01910 hypothetical protein
ATGATTAAAGCTGATTTCTATCGCGATACTGACGGCAACATTACCCGCTTCACCATTACCGGCCATGCCGGTTCTGGACCTTATGGCTATGATATCGTGTGCGCAGCGGTTTCTGCTGTGGCCATCGGTACCGTGAACGGCATCGAGGGACTCGCCGGCATCATGCCGGCAGTTGAAACTGATGATGATCAGGGCGGGTTGCTGACCGCCGCTTTACCCTCGGTAATGATTCAAGAAAAACTGACAATTGCTCAGATCTTACTTGAAAATCTTCTGTTGGAACTGCAAAGTATTCGTGCAGAATACGGCCAATTCTTGCAGGTAAAAACGAATCAAGACGCGCAATCCTCGACGGTTGCGTAA
>SRR1151209_01911 50S ribosomal protein L27
ATGCTGAAAATGAATCTGCAACTCTTCGCCCACCATAAGGGGGGCGGCTCCACGGCCAATGGTCGTGATTCTGCTGGTCGTCGTCTTGGCGCGAAGCGGGCAGACGGTCAATTCGTGACTGCCGGCTCCATTCTTTATCGCCAACGCGGTACCCACATTCATCCCGGCACCAACGTCAAAATCGGCGGCGATGACACACTCTTCGCTGTTGCTGACGGCGTGGTTAAGTTTGAACGGTTGGGCAAAGACCGTAAGAAGGTTTCTGTTTATCCGGTTGCTGCTGCAGCTGAATAA
>SRR1151209_01912 translation elongation factor P
ATGATTTCCGTTAACGAATTTAAGAACGGCCTGACGATCCTTGTCGATGGCGAATTATGGCGAGTCGTGGAGTTCCAGCATGTGAAGCCCGGCAAAGGCAGTGCCTTTGTCCGCTCCAAGCTGAAGAACTTGCGTACTGGCGCCGTCCAAGAAAAAACTTTCCGAGCCACTGAAAAAGTTGAACCGGCCCAAATCAGTACCAAGGCGATGCAGTATCTGTATCAAGACGGTGATAATTACGTCTTTATGGATACCAGCACCTATGAACAGCTTGAACTGCCTGGCAGCGAGATCAAGGATGAATTGAACTACCTGAAGGAAAACATGACGGTCAACATCATCATGTACGGCAGCGAGACGCTGGGTGTTGATTTGCCTAACACGGTTGATCTGAAGGTCACTGCCACCGAACCCAGTGTCCGGGGCAATACGGCCAATGGCGGGTCCAAACCGGCGACAATGGAAACTGGGTTAGTCGTTCAAGTACCGTTCTTCATCAGCGAAGGTGACGTGTTGACGATCAACACCACTGATGGCACTTATATTTCTCGGGCCAACGGTTAA
>SRR1151209_01913 alkaline shock protein
ATGGCAGAAGATAAACGCATCGTTTTGGCGGCAGAACCGGATCATTCCGGTGATATCGAGATCACTCCGGAAGTGTTGGCCGTGGTCTTAGGCATCGCCGCGCAACAAGTGGATGGCGTATATGCCATGCGCGGTTCCCTGGCGAACAACATTTCGTCGCTGTTGGGCAAGGACAGCCATGGTCAAGGGGTGAAATTGACTACTCTGGATGATGGCCGGCTCAGTGCGGATATTTATGTCTACCTGCGCTACGGCGTCTCGGTACCAAAAGTCGCCTTGGCCTTGCAGAAGAGCCTGCGGGAACAATTGCTGTTCATGACGGATCTGCAATTGGCGGAAGTCAACGTCCATGTGGACGGTCTGGTTCCCGAGAAACAAGCCAAGCAGGATCCGGCCGATTTGTTCAGCGATGACAATGAAGACTCTGCTGATCCGGCTGCGGCCAAAGAGGCGGGGGTCAAGCATGATTGA
>SRR1151209_01914 transcription antitermination factor NusB
ATGATTGATCGGCACCAAACGCGCCGGCTGGCTTTCCAGACGTTGTTTAATGTGATGTTTGGGGAAGACCAGACCGACCCGGCGACGGTCTATCCGACGGTGTTTGAGTTGAATCACATCACTGCAGACGACGTACCGCCGTATTTGAACACCCTGGTTCAGGGCGTACTGGCTCAGCAGGACGAGTTGGATGCGACTATCCAGCCGCTGTTGCGGACTAACTGGAAGCTGTCCCGGCTGGAACGAGCGACGCTGGTTTTGTTGCGGCTGGGTACTTACGAGCTGCAATTTGAGCCCGATTTGCCAACCAGTGTCATTTTGAATGAAATGATTGAATTGGCCAAAGAATTCGGCGGCAATGATGCCCCCCAATTCGTCAATGGTCTCCTGGCCACAGTCGCCAAGCATCGCGATTCTGCTGCCCAGGCATAG
>SRR1151209_01915 bifunctional 5,10-methylene-tetrahydrofolate dehydrogenase/5,10-methylene-tetrahydrofolate cyclohydrolase
ATGAGCACAGTTGTAGACGGCCGAGCATTGGCCGCAAAATTATTGAATGAATTACAGGATCAGATCGGCAATCTCACCGCTCAGGGCGTCGTGCCCACACTGCGGATCGTCCAAGTCGGTGATGATCCGGCCAGCACGATTTACATCCGGAACAAGAAGCGCAAAGGGGCCAGCTTGGGTATTGATGTGCAGGTCGTCAAACTGCCCGAAACCGTGACCCAAACGGCGCTGTTGCACCAGATTGAAACATTGAATGTCAATCCTGAAGTGGATGCGATTCTGGTGCAAATGCCCTTGCCGGTCCAGATCGACGCTGCGGCAGTGGTTGCGGCCATTGATCCGGCTAAGGATGCGGATGGTTTTACACCGGCCAACTTTGGCCGGTTATGGTCCGGCGATGAAGGCCCCGTTCCGGCCACTCCGGCGGGGGTCATGGCCATCTTACAGCAGTATCACGTGCCGCTGCGCGGGCAGCATGCCGTGGTCATCGGTCGTTCCCGGATTGTCGGCCGGCCCATGGCGGCGATGCTGCTGCAAGCGGATGCCACGGTTACTGTAGCGCATTCCCATACCCGCAATCTAGCAGAGCTGACCCGGACTGCTGATATTATTGTGGTCGCGGTGGGCATTCCCCATTTTCTCACAGCGGACATGGTCAAGCCTGGCGCGGCAATCATTGACGTCGGTATCAACCGTACGGCTGAGGGCAAGGTGACGGGGGACGTGGATTTTGCCGCCGTCGAACCGCTAGCCGGGGTCATTACGCCGGTTCCCCGGGGAGTCGGGCCGATGACAGTGGCCGAATTAATGATCCAAACCGTTGCGTTGACGAAAGCCCGGGTGGCCCATGACTGA
>SRR1151209_01916 exodeoxyribonuclease VII large subunit
ATGACTGAAACGGGGCGGCCCGAGTACTTAACGGTCAGCGCACTGACGGAATATATTAAACGCAAATTTGATGCGGATCCGTATCTTGGCCGGATTTATGTGACCGGTGAAGTCTCCAACTATCGTCCGCGCAGCGGCAATCAATATTTCAGCTTGAAAGATGATAAAGCCAAGATCAACGGAATGATGTTTGCCCGAGATTTCGCCAAGGTCGCTTTCCCGGTGGCTGAAGGGATGCAGGTGGCCGCCATTGGCCGGGTGTCCCTCTATCCGCCCAGCGGCGAGTATCAATTGTATGTGGATGAATTGCAGCCCGCTGGTGTCGGTGATTTATATGTCCGCTTTGAAGCTTTGAAGAAAAAGCTGCAGACAGAAGGGCTATTTGCCCGGCCCAAACGCCCGCTGCCTAGTTTTCCTCGGCGGATCGGCGTGATTACGAGTCCGTCCGGCGCGGTGATTCGAGATATTCTGACTACTGCGGCGCGACGCGACACGCTGGCCCAAATCGTGCTGTTTCCGGCGGTTGTCCAGGGGGATGCTGCTGCCAGCAGTTTGGTCCAGCAACTCCGCCAAGCTTATATTCATCCCAATTTGGATGTTTTGATTATTGGCCGGGGCGGCGGATCAATCGAAGATCTGTGGCCTTTTAATGAAGAGAGTGTCGCCCGCACGATGGCCGAAAGCCCGTTGCCGCTGATTTCTTCCGTCGGTCATGAAACGGACACCACGATTGCCGATATGGTAGCCGATGTTCGGGCAGCGACGCCCACCGCGGCGGCCGAATTGGCCACGCCCAACGTGGCCGATTTGGTGTTGCGGATCCGTCAAGCGGCCAACACCCTGCAGGCCACCATGCAGCGTCGCCTGACCGACACCCGCGGCCGTGTCCAGCAATTGGTGACTGCACCGGTTTTGCGGCAGCCCGAGCGGCTGTATGCCTTACAAACGCAACATTTGGATAATCTGCAGCAGCGGCTGATCGGTACGACTCAGAATCGGCTCCGGCAGGCCGAAGGCACACTGGCGGCAGCTAATCAGCGGTTATGGCGGCAAACGCCTCAGAATCGCGTCGCCTTGGCGCATCAGCAAGCAGCCAGCGACACCCAGCGGCTGCTGGCTGCGCAAAAAGCCTTGCTCCAACAGCACCGGCAAACACTGCGCAACGGCGAGCATGCACTAGATCTGCTCAGTCCGTTGCGGGTGCTGGACCGCGGCTATACGTATGTCACTGCCGCCGACGGCACCGTCATTCAGCAAGTGAGCGGCGTGCGGCCGCCCCAGGACGTCGTGCTGCACTTTGCGGACGGCACGGCGACCGCCCAAATCACAGCAACGAAGAAAGGACAGCCCAATGGCAACGAAAACAAGTAA
>SRR1151209_01917 exodeoxyribonuclease VII small subunit
ATGGCAACGAAAACAAGTAAAAAAGAGCCCAGCTTTGAAGAAAACATGGCCGCTTTGCAGGCCATCGTGAACCGCTTAGAGAGCGGCGATGTACCGCTGGAAGAAGCGCTGACTCAATTTGAACAGGGCATCAAGCTTAGCCGGTCGCTCGAAAAAACACTGACCCAAGCGGAACAAGCGATGGCGAAAATCGTGACTGCTAATGGTCAAGAAAAGCCTTTGACGCAGGAAGGGCAGGATGCTGATGGCAGCGACGCCAAAAACAGTGCTGAACAATAG
>SRR1151209_01918 geranyltranstransferase
ATGCTGATGGCAGCGACGCCAAAAACAGTGCTGAACAATAGTTGGGCAGCCGCCACGCAAACCTTCACGGCTGTTTTGAATCCTTTTTTGACGGCCCAAGTTGATGCGGACGTCGCCCAGCAGCCCCTCCATGATGCCATGGCCTACACCTTGGCCAGCGGCGGTAAGCGCCTGCGGCCGGTATTGGCCTTCGTCATCAGTCAATTGGGGAGCGCTGCTTTGTCGGCCCAGGACTTTTTGTTCCCGGCCGGAGCGATCGAACTGATTCAAACGTATTCGCTGATTCACGATGATCTCCCGGCAATGGATAACGACGATCTGCGCCGGGGCAAACCAAGCAATCATATTCAATTCGGCGAAGCCCAGGCGATTTTAGCCGGGGATGGTCTGCTGACGCTGGCCTTTTCCTGGTTAGCGCGGGCGCCGTTTAACACCGCGGTTCGGATTGCTATGGTCCAAGTGCTGGCCGATGCCGCCGGCCCAGCCGGCATGGTCGCTGGTCAGTCCCAAGACATGGCCGATACGGGGGAGGACATCACCGATACGGCCCTGCACCAGCTGGTGGCGAACAAAACCGCCCAGCTCATCACCGGGGCCGCCGAAATTGGCGCGCTCGCCGGGCAGCTGACGGTGTCCCAGCGCGCCGCAGTCCGTGACTTTGCCTGGGCGCTGGGGCAAGCCTTCCAGATTCGCGATGATATTTTGGACGTGATCGAAACAACGGCCGAGTTAGGCAAGACGGCGGGGAAAGATGCAGCGGAGCATAAAAATACCTACGTGAGTTTTTATGGCCTGGCCGGTGCGCGCCAGCAGCTGCAGGCAGCCTTAATGGCAGCCCGGGCCGCCTGGACCCCAGCCGTCTTAGCATCATTGGGTTTTGCTGCAATACCAGCTGTATTGGCAGATTTGATCCAGCAATTAGAGGAGTGA
>SRR1151209_01919 cell division protein FtsJ
ATGAGTACCAAAGAACGGGTGGATGTCCTGGCAGTCAGTCAAGGCCTTTTTGCCTCGCGAGAACAGGCCAAGCGGGCAATCATGGCGGGGGAAATCTATACCCAAGACATGGAGCGCCTGGATAAAGCCGGCGTGAAGATTCCAGCTGATACCGAACTGGTCCACAAAGGGCACAAATTGCCCTACGTGAGCCGCGGCGGTTTGAAATTAGCTAAGGCCAAAGACGTCTTCCACCTGGACTTCCAGGACGCCACGGTCCTGGATATTGGCGCATCCACTGGCGGGTTTACCGATGTCGCGCTGCAAAACGGCGCGAAGCTGGTGTACGCCCTGGATGTCGGCTACAACCAGCTGGCCTACAAACTGCGGGAAGATCCCCGGGTAGACGTCATGGAACGGGTCAATTTCCGCTACAGTGTTCCCGGCGATTTCACCCATGGTCAGCCGGACATTGCGGTGACCGACGTGTCGTTTATCTCGCTGCGTCTGATCCTGCCGCCGCTGCAGCCGATCCTGAAGCCCCACGGTCAGGCAGTGGTTTTGGTCAAACCGCAGTTTGAAGCTGGGCGGGAACATGTCGGTAAGGGCGGTATCGTTCGCGATCCAGCGGTTCATCGGCAGGTTTTGCAGACGATTACCCAGTCGGCGGCGGCCGATGGCTATCGGCTCACAGGGTTAGACTTTTCGCCCATCACCGGGGGCAGTGGGAATATTGAATTTCTGCTGGCCTTACAAAATGAAGGCACTCCTCAGCCGCTTTTGCCCCAAGAGACGATCGATGAGGTCGTAGCGCGGGCGTGGGCCACGCTGAAACATTCAGGAGGTGGGCACCATGGCCACGACTGA
>SRR1151209_01920 arginine repressor
ATGGCCACGACTGAGCGGCGGGCAGTGATTCGCCGGCTGGTCAGCAGTCGGCCGGTAGGTACCCAGGAAGAGCTGCTGGCGCTGCTGCAAAAGCGGCATCTCGCCACGACTCAGGCCACGCTGTCCCGGGATCTCACCGCGATCGGCGCATTCAAGGAACGGGACGAAGGAGGGCGGCTGCGCTACGTTCTCCCCGACCCGCTGCCAGCGGTGGCCGAGCAGCGGCTTCAGCGGGCTTTGCGGGCTAGTCAGAGTCAATTTGACCGGCAAGATCGGCTATTGGCTATTCACACTCAGCCCGGGGCGGCGCAAGTCGTCGCCGCGACGCTGCGTCTGCTGCCCCTGCGGGAAGTGTTCATTGTCTTGGGCGATGACGCCGGCGTTTTGCTGGTCTGCCGCAGCGAGCGCGGCGCCCAGAGCACGCTGCAATGGCTGCGCGCTCTGCGGGATGATCGGGTGTTTTCTTCTTAA
>SRR1151209_01921 DNA repair protein RecN
ATGTTACAGGAACTCGCGATTCATGATTTTGCGATCATCGAGCAGCTTTCTGTTGATTTCAGCACCGGTATGACGGTGCTCACCGGGGAAACCGGCGCGGGCAAATCGATCATCATTGACGCCGTGGGCATCCTGGTCGGCGGCCGGGGGTCCGCGGATTTCATTCGCACCGGCACCAAGAAAGCGACAGTGGAAGGCATGTTCAGCATTCCCGCCGGGGCCTTGACCCAAAATTTACTGCAGCATTACGGTGTGGGCAGCGACGACGATCAGGACACGGTGGTCCTGCAGCGGGAGCTGTTCACCAGCGGCCGCAATGTCTGCCGGATCAACGGCCACCTGGTCAACACCAGTACACTGAAGGCCGTGGGTGAGACCTTGGTGGATATTCACGGGCAAAATGAGCATCAGGAATTGATGCACCCCGAGAAGCATCTGAGTTTGCTGGATCAGTATGCTGCCGATCAGATCAAACCATTATTAGCCGCTTATCAACAGCGCTACGCTGACTGGAAAGACTTGGCTGGCCGGGTCAAAGAACGGGTGGCCAATGAACGGGAATGGGCCCAGCGCTTGGATATGCTGCAATATCAAGCCAAGGAGATCAATGATGCCCATTTGCAGCCCACTGAAGAAGACGATTTGACCAGTGAGCGGGATCGCTTGAACCATTTCCAACAGATTCAAGATGCCCTGCAGACCGGTTACGGCGTTTTGAATGGTGGTGACGACGAGGCCGGGGTGATCGATCGGCTGGCCGAAGCCATGGCCGCTTTGCAGAATATTGCCCACTTGGACGCGGATTACGAAAACATGGCAGAGTGTATCGGCAACGCGTATTACGCGCTGCAGGATGTGGGCAGTGACTTGAGCCACCAAATGGACGGCTTGGAGTATGATCCCGCGCGTCTGGAGCAGGTCGAGGATCGACTGGCCACCATTACCCAGCTGGAACATAAATACGGTGCCACTGTGCCGGATGTCATTGCTTTTGGTCAAAAGGTCAACGACGAACTAGACGAAATGAATGACACCCAAGGCTCCAGCGATGAGCTGAAAGTGAAGCTGGCTAAAGCGCAAACTGAGGCCCTGGCGGCAGCCAAAAAGCTGTCAGCTACTCGGGTTGCCGCGGCTAAGCAGTTAAGCAAGGATATTCACCAGCAATTGGCTGATCTGTACATGGCCAAGGCCGTCTTTGACGTCCATTTCACGGTCCATGAAGACCAGCTTGGCCCCACTGGGATCGATTCCGTTGAGTTTTACATTCAGACTAACCCTGGGGAAAAACTGCGCCCCTTAGCGCGTACCGCTTCCGGCGGCGAGTTATCGCGGATCATGCTCGCCCTGAAGACGATCTTCTCCCAGGCGGACGGTGTCACCAGCATCATCTTCGACGAAGTCGATACCGGCGTGTCTGGCCGGGTGGCCCAGGCGATTGCTGAAAAAATCAGCCGTATCAGCCGCCATTCCCAAGTCCTCTGCATCACCCACCTGCCCCAAGTCGCCGCCATGGCTGACCATCAAGTCCATATCGCCAAGACTGTCAAGAGCGGCCGGACCATGACCCGCCTGACCCCGCTCACCGGCACCGGCCGTGTTGAAGAACTCGCCCGCATGCTCGCCGGCACGACGATCACTAAGTTGACGAAGGAGCACGCCCAGGAGTTACTGCGGCTGGCGATTCAAGATAAGAATGCGCAGGCTAAGGAACAGACGGCATAA
>SRR1151209_01922 hypothetical protein
ATGGAAAGAAAACAATCAATGATGACGACCCTGAAATCCCAAGTCGCTAGCTCCGTGCAGCGGTGGTTCGACTTGCCCGCCGGTTTGCCGGCACAGATGCCGGCGGCTCAAACCACCCTATTTTTGACGCAGAGCCATGAGCGGCATTACCACGTGACGATCACGTTCGACGCGCCGCCGACACTGCTGCAGGCGCGCGGCTACGTGCGGCCGTTGGGGGAGAAATGGCTGTTTGTGAGTGACGATCATCGGTTGTATCGGATGTTTGCGCCGAGTGAAGTTTATAGTCTGCAACGGGTTGCGGGTGCAGCAAGTGTTGCTGAGGCGGACTAA
>SRR1151209_01923 hypothetical protein
ATGGCCCGAAAAAACACAGACCCCATTCAATTCAAAGTCGAAGAAACCATCGGTGTGCTCAGCACTAGCGCCAATGGGTGGCAAAAAGAACTGAACCTAGTTTCCTGGAATGATGCGCCGCCTAAGTTTGACATCCGCAGCTGGTCACCGGATCATACCAAGATGGGTAAGGGGATCACGTTGACCAATGAGGAAATGGCCGCCTTGAAGGAAACGATTCAGCAAGCCGGTTTGTAA
>SRR1151209_01924 guanylate kinase
ATGTCAGACCGTGGGATGTTAATCGTTTTGTCCGGTCCGTCCGGCGTCGGTAAGGGTACCGTACGCCAGGCGATGCTGGCCGATTCGTTCAAGGACTTCAAGTATTCCGTGTCCATGACCACCCGCCAACCCCGGCCGGGGGAAGTGGATGGCGTGGATTACTACTTCCGCACCAAAGAACAATTTCAGGAGCATATTGCCGATGGGGAAATGCTCGAATGGGCTCGGTATGTTAATAATTACTATGGCACACCGTTAGGCCCGGTGAACGCCACCCTGGATGCTGGCCAAGATGTCCTATTGGAGATTGAAGTGAACGGGGCCATGCAGGTCCGGGAAAAATGTCCCGATGGCGTCTTTATTTTTCTCACCCCGCCGGATCTTCAAGAACTTAAACAGCGCATCGAGAAGCGCGGTACCGATGATGCCGCCACGATTTTGAAGCGGATGGAGAAGGCCCGCAACGAGATCAAGATGATGGAAAACTATGATTATGCTGTCGTCAATGATAAAGTGAACTTAGCCGTGAAGCGGATCGAGTCGATCATTACCAGTGAGCACAACCGCGTGCCCCGGGTGATTGATCGGTACCGTAAGATGATTGGAGTGAACAATTAA
>SRR1151209_01925 DNA-directed RNA polymerase subunit omega
ATGATTAGTTATCCGTCGATTGATGACTTGCTGAAGCGCTATGATTCCCGATACTCCTTGGCAGTCCTGGCTGCCAAGCGCGCCCATGAATTAGAGAAGGGCGAGCCGAAGATGCTGGCCAGTTACGAATCTCCGAAGTCAGTGGGCCAAGCCTTGGAAGAAATTGCCAAGGGTAAGGTGATTATTGACCCGGATTCTGTTTTACTGGAACAAGAAGCCGAGAGGAAACTGAAGAAGCAAGAAGAAGACTAA
>SRR1151209_01926 phosphopantothenoylcysteine decarboxylase/phosphopantothenate-cysteine ligase
ATGGCGGCCAATCATATTGCGTTGTACGTCACCGGCGGCATTGCCGCTTATAAAGCAGCCTCATTAGTGCGTTTATTTGTGAAAGCCGGCCACACCGTGCGGGTCGTGATGACCCAGCACGCGACAGAATTTATCACCCCCCTGACCATGGCCACGCTCAGTCAGCAGTCGGTGGCACTGGATAATTTTGCCCCACCGAAGCCTGGTGAAGTCAGCCACATTGCGCTGGCCGATTGGACCGATGTGGCGGTGGCGTACCCGGCTACGGCGAATTTCATCGCTAAAATTGCCCAAGGTTTCGCCGATGACATGGCCAGCACCACCTGGCTGGCGACGACCGCGCCGAAAATCATCTTTCCGGCAATGAACAGCCATATGCTGCATCAGCCGGCCACCCAGCGCAATTTGGATCAATTAAGCACCGATGGGGTGGCCGTCGCCCCCACTGGCAGCGGTTTTCTCGCTGAAGGGTACGCGGGTGACGGCCGGCTGCTGGAACCCAGCGAGGCTCAGGGCTTCACGGATTACGTGGTCAGTCGGCGTCAGGGGCTGCTCCAGGACCAGCACGTACTGATCACCGCGGGCGGGACGAAAGAGGCCATCGATCCGGTGCGCAATCTGACCAACCGCTCCAGCGGCAAGATGGGTTATGCTCTGGCGCAAGCCACGCTAGCCGCCGGCGCCAACGTGACGCTGATCAGCACCACTGGCCAGCAGCCGCCCTTCGGCATCACGTATATTCCTGTCCAAGATGCCCGCCAAATGCAGGCCGCACTGACAGAACGATACGCCGCCAGCGACGTTGTGATCATGGCTGCCGCTGTAGCCGATTGGCGGCCAACCAGCGTCGCCCAAGAGAAGGTCAAGAAACAGCCGGGACAAACGACTTGGCACTTGGATCTGGTGCGCAATCCGGACATTATTGCCGGTTTAGGCGCGCAGAAATCACATCAGTTCCTCGTCGGTTTCGCGGCGGAGACCCAGGACTTGATCGCCAATGCGGAGAAAAAAATGGCCGCCAAGCACGTCGATATGCTGGTGGCCAATGATGTCAGCAAAGCCGGCGTGGGCTTCGGGGCCGACGACAATGCCGTTGTCCTTTTACGCCCGGGTACGCCGCCGCAGTACATTGCCAAGGCGCCCAAGCGCGAGATCGCGACACAAATCGTGACCGCCATCGGCCGCTTTCTCCAAGCCAATTATTAA
>SRR1151209_01927 primosomal protein N'
ATGACCCAAGTGGCCCAAGTCGTGGTGGATGTTGCCACCCGGCAGACTGATCAGCCCTATGATTATGCCATTCCAGATGATCTCGTCAGTGTTGTAACGCCTGGCATGCGGGTCGTCGTTCCCTTTGGCCGGCGGCGCTTGCAAGGGTTTGTCGTCGGCATACAAGATCATGCGGCGTTCGATGGCAAACTCAAACCGATCCAGCAAGTGATGGACCTGGAACCAGCATTGGATCATGAGCTGCTGGCCCTGTCCAAATGGGTAGCCAACACTACCTTTGCCTTCTGGATCACGACAATGCAAACCATGCTGCCCGCAGCGATGCGGGCTAAGTATGCTCGGCTGTTAGTGCGCACGGACCAATTTCCCGCTGACGATGCTTGGGGCCGGCAACTGTTTGGCCGTTCCCAGACCATCCCGTATCCCGAAGACCTCACCGCCGCGCAAACCAAGCAGTTGCGCCAGTGGGCGGATCAGGATGCGGTCCGCGTGGAATACAAGGTCAAAAATCAGGCTCGCGCCAAGACCCGCAAGGGCGTACACGCGCCCACGGCGGCGGTATTAGCTCAGGTGACGGTGCCCAACCGGGCCAAAGCCCAGCAGAAACTGCTCACAGGTCTCCAGCAGGCACCATTTGCCGGGACCCTGACCTATGCTCAGGCGGCACAGCATTACGATGTGTCGGAAGCGACCATTCACACCGCTGAAGAGGCCGGCTGGCTGCAGCCGGCCACCTTGACGATTCGGCGCAATCCCTTAGATGCACAAACCGAGCGGGATGCGCCGAAATCCTTGACTCCGGATCAGACCGCCGCCACGGATCAATTTGTGACCGCGGTGACCAACAAACAGGCGCATACTTTCTTACTGGAAGGAGTCACCGGATCCGGGAAAACCGAGGTTTATTTGCAAACGATCCAGGCCGCTTTGGATCAGGGTCGCACAGCCCTGATGCTGGTACCGGAAATTGCCCTGACGCCCCAGATGGTCCATCGGGTCTATGCGCGTTTCGGTACGGCAGTCGCTGTTCTGCACAGTGGTTTGTCAGACGGCGAGAAATATGATGAATGGCGGCGAATCCAGCACCAGCAGGCTAAAATCGTTGTCGGCGCACGCTCGGCGGTGTTTGCGCCGTTAACTAATATTGGCGTGATCATCATTGATGAAGAGCATGAATCGTCTTATAAACAGGACGATTCACCCCGGTATCACGCCCGCAACGTCGCTTTGCACCGAGCGAAGACGTTTCATTGTCCAGTGATCCTGGGCAGTGCCACTCCGTCGTTGGAATCCCGGGCACGGGCCGAGAAGGGCGTGTATACCCTCGTGCGCCTGCCGGAACGGATCAATGAGCGGCCCTTGCCGCCCGTGCACATCATCGATATGCGTCAGGCCGGCGGCGCGCGGGTCACGCCGGATTTTTCACCGGAATTATTATCCGCTCTGGAGAATACGCTGGCGAAGCATGAGCAGAGTGTCTTGATGCTCAATCGCCGCGGTTATTCAGCCCAGGCGATGTGCCGCAACTGCGGCTGGATCGCCAAATGCCCCAACTGCGACATCTCGCTGACCGTCCATTTGGCGGCGCACAAACTGGTCTGCCATTATTGCGGCCACGAAGCACCGATTCCCACCCGCTGCCCGGTCTGCCACAGCGACAAGATTCGCTTCTTTGGCACCGGAACGGAAAAAATCGAAGACCAGCTGCAAAAACTTCTGCCCACCGCTCGAATTCTGCGGATGGACGCGGATTCCACCCGGAAGAAGGGGGGGCATGCCCGGATTCTGAAGGCCTTTGGCAGTGGTCAAGCCGATATTCTGCTCGGTACCCAAATGATAGCCAAGGGGTTGGACTTCCCCACTGTGACGCTCGTCGGGGTGATCAACGCGGATACTGCCTTGGGCATGCCGGACTTTCGCGCCAGTGAGCGCACTTTCCAGCTGCTCACCCAAGTGGCCGGCCGGGCCGGCCGGGGGGACAAACCGGGTGCCGTGATCATTCAGACGTACAACCCGGATCATTATGCGATTCAATTGGCCTCCCACCAAGATTATGAAAGCTTCTTCCGGCGGGAAATGGTCGTCCGCCATCAGGGCAAATATCCGCCGTATTACTATACGGTGCTCTTGACCATTTCAGCGCCCAGCGAATCGGTGACCGCTCAAGAAGCCTACCGGATCGCTGGCGACTTGAAGCCGCTGCTGTCAAAAACGGCCATCGTACTGGGGCCGACACCGCGGAGTATTACGCGGGTGAACAACCGGTATTATTACCAGATCTTAGTGAAGTTCAAAAAGGAACCGGCACTGGGGCGGGGATTGCATAACCTGCTGACCAACTCCCAGAGCCTGGCAAAGAATCACGTTCAAGTGGCCATCGACTTTGAACCGCAGCAAATTATGTAA
>SRR1151209_01928 methionyl-tRNA formyltransferase
ATGACATCAATCGTATTCATGGGTACGCCAGATTTTTCAGTGCCAGTTCTGCAAGGGTTAGTGGACGCGGGCTATACCGTCAGCGCCGTCGTGACCCAACCGGATAAAGCGGTCGGCCGTAAACACCGGCTGCAAGCTTCCCCAGTGAAGCAATTAGCCACCCGGCTCGGCCTGCCGGTTCTGCAGCCGACGAAACTCAGCGGCAGTTCAGAAATGGCCAAGCTGATCGAGCTGCAGCCGGATCTGCTGGTCACCGCCGCCTTTGGTCAATTTCTGCCCACTAAGCTGCTGAATGCCGCCAAAATTGCGGCCGTTAACGTCCACGGCAGCTTACTGCCCAAGTACCGCGGCGGCGCGCCGATCCAGCGGGCCGTCATGCACGGCGAACGGGAGACTGGGATCACGGTCATGTATATGGCTAAAAAAATGGATGCCGGCGACATGATCGCCCAAAGCGCGATTCCTATTGAAGCCGATGATGATGCTGGGACCCTGTTCCAAAAGCTGGCCATTGTTGGTCGGGACTTGCTGCTGGCGCAATTGCCGGCAATTATTCACGGGACCGCTAAGCGGATCCCGCAGGACGAGAGTCAAGTGACGTTTGCTTACAATATCAAACCCGAAGAAGAGCAGTTGGACTTTAATCAGTCAGCCATTGCCTTGGAACGTCAGATTCGTGCGTTGAAACCGGACCCTGGGGCTTATTTGCGCCATGCTGGGGAACGGATCAAGATTTGGCGGGCACTGGTCCGGGAAGATACGGGCAATCATACGCCGGGCACGATCATCGCCCGAGGCAAGCATGAACTGGCCATCGCCACCGGCACCGGTGCGCTGGCGCTCACCGAATTACAGCCAGCTGGCAAGGCGGCAATGCCGATCACGAGTTACTTAAACGGTGCCGGTCAGCATCTGCAAGTCGGCGATCAATTTGTGGAAGTCAGCGAGGCCGCCCATGAGCAGAATTAA
>SRR1151209_01929 16S rRNA methyltransferase
ATGAGCAGAATTAATCCCGCTCGCAATCTCGCGGTGAATGTCTTGACGGCCGTGATGACTCAGGGTGCTTATGCCAATATTGAGTTGGACGCTGCCCTGCGGCAAACCCCGCTGACCAGTGTCGATACGGGCCTCGCCACCACCATGGTCTATGGTGTGCTGCAGCATTGGCTCACGCTGGACTGGCAGTTGGCCCCATTCATTAAGGGAAAGAAATTAGAGCCTTGGGTCCATACCCTGCTGATCACGGCGCTGTATCAAATGGCTTACTTAGACCGCGTGCCGGATCGGGCAGTATTTTTCGATAGTACTGAGATTGCTAAGAAGCGGGGAAATCCCGGTTTGGCTAAACTGGTCACCGGTGTGCTGCGCCATGTCCAACGCGCTGGGTGGCGGGATCCGCAAACCATCAGCGATCCGGTCGAGCGGTTAAGCATCCAAGAAAGTCTGCCGATCTGGCTGGTCCAGCAGCTCACGGCGATTTATGGTCCTGAGAAAACAACGGCCATTGCCCGAAGCGTCAATACGCTGCCCCGGCCGACGTTACGGGTCAATACCCCGGCTTACACTGTCACGCAAGTCCGAGCCCAACTGGCCAAAGACCACATTAAAACGATGCCCAGCCAGATCAGTGCGGTCGGCTTAATTGCCGAGGGCGGTCATCTGGCGGCGACACCCGCCTTTAAGGCCGGCGCTTTCACCATCCAGGATGAAAGTTCTATGTTGGTGGCCCCCACACTCACTCCCCAGCCCAGCGACCGCATTCTTGACGCCTGTGCTGCCCCTGGCGGCAAGACGACCCATCTTGCCAGTTACGGCGCTCAGGTCACGGCCCTGGACATCCATGCGAACAAAGTGCGGCTGATCGAGCAAAATGCCCAGCGTCTGCACCTGACGGATCACATTCACGCCGAAGCTTTGGACGCCCGGGACGTGGCTGCCCATTTTGGTCCGGCCCAGTTTGATAAAATCTTGGTGGACGCTCCTTGTTCCGGCCTCGGATTACTGCGCAGAAAGCCGGAAATCCGGTATACTAAGAGGGCAGACGATATTGCCCACTTGCCCGCGATCCAGCTGGCCATTCTGGCGGCCGTGGCCCCGACGCTGAAAACCGGCGGCGCACTGGTCTACAGTACCTGCACAATTTTACCGGCGGAGAACCAAGAGGTCGTGGATGCCTTTCTCAAAACGCATCCCGACTTCATCCAGGTGCAAACGCCGCTGCCGGCGGGGCTCAAAGCTACGGCAACGATGCCGGCACTGCAATTGACGCCGGATGATTGCGGCAGTGACGGGTTTTATATCGCTAAATTAGTGAAAAAAGGGTAA
>SRR1151209_01930 serine/threonine protein phosphatase
ATGGAATACGCCTATCAATCCGATGTCGGCAGGCGCCGGGAGGACAACCAAGACTTTGCCGGCGTTTTCAAGAACGAAGCCGGGGCGCTCTTTGCGGTCGTCGCGGACGGCATGGGCGGCCATCAAGGCGGCGACGTGGCCAGTGAAATGGCTGTGTCCCACCTGGGTCACGACTTTTCCCAAACCGACATGCACTCCGTGGAGGATGCCGTCAAATGGCTGATCTACGATTTGCAGCGGGAAAACGATAAAATTTTGGCGGTGTCCGATCACTACGCAGATTTGCGCGGGATGGGCACCACCTTTGTGGCGGTCATTGTGGTCGGCCACCAATACATCGTCGCTAATATCGGCGACTCCCGCTGCTATCGCTACAGCCACGGTAAGCTGGAACAGCTGACGGAAGATCATTCGCTGGTGAATGAACTGCTCAAACACGGTGAGATTTCACCAGAGGAAGCCAAGCACCATCCCCAGAAGAATGTGATCACCCGCACCCTGGGGGTTTCCAGCGATGCCGATGCCGATGTGACCATTTTTGACTTCGGGCCGGACGATTATTTGCTGCTGTGCAGCGACGGGCTGACTAACATGGTCTCCACCGATGAGATCAAGGAAGCCTTAGCCGGTCCCGGGACGCTTGATGACAAATGTGCCCAGCTGATTGGCTGGGCCAATGACGCTGGCGGTCTGGATAATATTACCGTGCTGATTTTGCATCGCCAGGGGGGTGTCCGCCATGATGGAAAATAA
>SRR1151209_01931 serine/threonine protein kinase
ATGATGGAAAATAATTACCTGCTGGCTGATCGGTATCGCATCAAGCAACTGTTGGGCGAAGGCGGCATGGCTAACGTCTATTTAGCTCACGATGAAATTCTGGACCGGGATGTGGCAGTCAAAGTGCTGCGCCTGGATCTGCGCAACGACCAAGAGACCCAGCGCCGCTTCCAGCGAGAGGCTAAGGCGACGAGTGAACTCAACCATCCGAACATCGTCTCGATTTTGGACGTCGGTGAAGAAGAGGGCATGCAGTACATCGTTATGGAGTACGTGAAGGGCGAAGACTTGAAGAAATATATCGTCAAGCACTTCCCCATCCCGTACCAGCGCGTGGTGGACATGATGGAACAAATCCTGTCCGCCGTTGCCCATGCCCACGCCCACGGCATCATTCACCGGGACCTGAAGCCGCAGAATATTCTGGTGGACGAGCAGGGTAACGTGAAAATCACCGATTTCGGCATTGCCGTCATTTTGTCGGATAATTCCATTACTCAGACTAATTCACTGCTCGGTTCGGTGCATTATCTGTCGCCGGAACAAGCCCGGGGCCACATGGCGACTAAGCAGTCGGACATTTATTCCTTAGGGATTATTTTGTATGAAATGCTCACCGGCTCGGTCCCGTTTGAGGGCGAGTCTGCCGTATCCATTGCAATCAAACATTTCCAAAATGAAATGCCCGCTGTTCGCGATTTTGATCCGCGCGTGCCCCAGGCACTGGAGAATGTCATTTTAAAAGCGACTGCCAAGGATCCTTCGCAGCGTTACGCCACAGTGGTGGACATGGCGACCGATTTGAAGACGTCGTTGTCCCCTAAGCGGGCGGGCGAACCGAAGTGGGCGCCGGACAACAGCAAGGATTTAGAAGAAACAAAAGTTTTGCCTGCCATTGCCGCGGCAGCAGAACTCGCCAAACCGACCCAGGCCGAAGCCGCCACGGACACCCCAGAGCCAGCAGAGAAAGCCGCCGACACCGAACCGCAGCCGGCGAAGAAGACCAAGAAAAAGAAGCCCTGGTGGCTGTGGGCCGGTCTGGCGGCCGGGGCCATCGTCATTATCGTCGTGGCGGCTCTTTTCCTGACCGCAAAGAAGGACGTGAAGGTGCCGGACCTGGCCGGTTTGACCCAGCAGCAAGCTGAGACGACCCTGCAAAATGCTGACCTGGATATTGGAACGATCGAGAAAGAGTATTCCAATACCGTTGATAAAGGCGATGTGATCCGCTCCATTCCCGCCCGCAATCAGGTGATCAAACAGGGCAATACGGTCAATCTGATCGTTTCCCGGGGTAAGAAGGGCTATAAGCTGGGGAATTATGTCGGTGACAGCTATGACACAGTCGCCGCTGCGCTGCGCAAAGAGAAGATCGATGTGAAGCGGGAATATGCCAACTCCGCCGATGTGGCGCCAGGTGAGATTATGCGCCAGTCGCCCAAGGCGGGCAAAACAGTGATTCCTGGCAGCGACACAGTCACCCTGACCGTTTCCCGGGGTAAGAAACAGATCGTTTTGCGGGATCTGTCCAACTACACCAAGAAGAGTGTTCAGGATTATGCGGATGAAAACGGTCTGAACGTCACGTTCCGTCAGGCCTATTCAAACACCGTCAGCGCCGGGCTGGTTATGAGTCAGGATCCAGCCGCGGGGACAGATGTCACGGCGGATACCAACGTTGTCGTAACCCTATCCCAAGGCACCCAGCCAACGAAGACGACGAATTTCACGAAGACGGTGCAGATTCCTTATCTGGCGCCAGCGGCCAGCAGCAGTTCAGCGGACAGTTCGGATGAAAGCAGCACAACCAGCAGCTCATCCAGCAGTACCAGTGAACCGGTGCCCAACGACATCGTGATCTATATTCAAGATAAGTCCCATAGTTTGAGCACAGTCTACCGGGAGTTCAAAATCACCAAAGACACCCCGGTGGAGCTGCCGTTCACGGTGGATTCGGGCCAAACCGCCCATTATCGGATCACCCGGGATGGCACGACGATTGCAGATGAGCAGGCGAGTCCGAATGGCAACTAA
>SRR1151209_01932 ribosome biogenesis GTPase RsgA
ATGGCAACTAATGATAAAGAACTGACCGGCCGCATCAGCCAATCTCTCAGCGGCTACTACGATATCGTTGCCCTGGACGGCAAGACCTATCGCACCCGGGCGCGGGGGAATCTGCGCCATACCAAGCAAAAGCCGGTGGTGGGGGATAAAGTCGCCTTCACTGTCGGCGACGATGCCGACCACCTGGGCTACTTGCTGCGGATCCTCCCTCGGCAAAACGTCTTGCAGCGGCCGCCAGTGGCCAATGTGGATCTCGCGGTGGTCGTCACCGCCGTCAAGGAACCGGACCTTCAGCTGAATTTGCTGGATCGCCAGCTCCTGAGTTTAGCCCAGCAGGACATCCAACCCATCATTTATTTAGCGAAAACCGACCTGCTGACTGGTGACGAATGGGCTGCCCTGCAACCGATCATCGCGGGGTATGAGGCGATCGGCTACCCGGTGATCGCTCCCGAGCAGTCCTTCGCGCCCACCGCCTTAGCGGCCCTGCAGGGTCACTTCGCAGATAAGCTGGTCGTCGTTACCGGGCAAACTGGGGCGGGGAAGTCCACCCTCCTGAACCACTTGGCACCGACCTTGGCTTTGGCCACCAATGAAATTTCCAGCGCCCTGAATCGGGGCAAACACACCACTCGCCGGGTCAATCTTTATCCCTTGGCTGGCGGTCTGGTGGCCGATACCCCTGGGTTCTCTGCAGTGGATCTGGATACGATCGATAAGTATCAGCTGCCCCAACTCTTTCCGGAGTTTGCGGCGCTAGCCGATCAGTGCCGGTTCCGCGGCTGTCTGCATCTCCAAGAACCCGGTTGTGCGGTGAAGGCCGCTGTGGCGGCCGGGACGATCATGGCCAGTCGTTATGCCGATTATGAACAATTTCAAGCCGAAGCGGCCGCGCGCAAGCCGCGCTATTGA
>SRR1151209_01933 ribulose-5-phosphate 3-epimerase
ATGACGTTACGCATTGCTCCGTCGGTCCTCAGTGCTGATTTTGCCAATTTAGCGACGGATGTCGCGAAGATCGAAGATGTCGGCGATTTAATCCACATCGATGTCATGGACGGCCATTTTGTGCCGAACCTAGCCTTTGGCCCGCAAGTTGTGGCTGCTCTGCGGCCGCTGACGAAGCTGCCCTTGGAAGTACATTTGATGGTTGACAAGCCGGAAAACTTCGTTGATGAATTCATTAAAGCCGGGGCCGACACGATCCTGGTCCACGCGGAAAGCACCCCCCACCTGTATCGGGTGATCCAACTGATCAAAGAGGCGGGGGTCAAAGCCGGCGTCGTCGTCAATCCGGGGACGCCCATCGAGTCCGTTTCGCCGATTCTCCATCTCGTCGACGAGGTACTGGTCATGACGGTGAACCCTGGCTTCGGCGGGCAGAAATTTTTGCCGGATATGCTGCGCAAAGTGACCCATGTGGCCCAATTGCGGGATACCACGGCGAACGCGGACTACACCATCGAAGTGGACGGCGGGGTCAATGCGGACACAATCGGCGACTGTGCCAATGCCGGTGCGGATACTTTCGTGGCTGGTTCCTTTGTATTTGATAATGCCGACCCGGCAGGCCAGGTGCGCCGGCTGCGGGGGCTGATTGAATGA
>SRR1151209_01934 thiamine pyrophosphokinase
ATGAAACACGTTGGGTTAATGTTAGGCGGGCCAGAAGATCTATGGCCGGACCAATTAGTCAGCGATATTGATGCGCCCATCACCGATTGGGTGGGCGTTGACCGGGGCAGTCTGCGCTTGCTGCAGCAGGACGTCGTGCCCGTGATGGCCATTGGCGATTATGACTCCATGGTCCCCGCGGAACGCCACCGAGTGGAGCACGCCGTCAAAGACATGCGCTATTCAGTGCCGGAGAAAGACGACACCGACTCCGAACTGGCGTTGCAGGCGGCCTTCGAAGACCTGCGGGCCGATGAAGTGTCGATTTTTGGGGCCACTGGCGGGCGGCTGGACCATTTGCTGGTCAATCTGTGGCTGATGGCGGAACCGCGGTTTAAGGAATATGCCCCGCATGTCGCTATTGTGGACCGGCAAAACCTGATCCGCTTCTTCCTGCCGCCTGCCCAGCTGGTTTTCCCTCGAACAGAATACAAGTATGTCGGGTTCGTCAACCTCACACCGGTCACGGATTTCACGATCCGCAACGCCAAGTATCCGTTAGCCCCGTTTGCCAGCGACTACCCGGTCTCCTGGGCGAGCAATGAATTTCTCGGCGACCAGCCGATTCAAATCACCTTCAGCAAGGGGATTATCGCCGCAATTTACAGTAAAGACTAA
>SRR1151209_01935 50S ribosomal protein L28
TTGGCAAAGGATTTTATTACAGGCCGCAAGACAGAATTTGGTAACAAGCGGTCCCACGCGCTGAACTCCGCTCGTCGTTCCTGGAAGCCGAACCTGCATAAGGTCCGTATTCTAGTTGACGGCAAGCCGAAGCGTGTCTGGGTATCTGCACGGGCATTGAAGTCCGGTAAGGTTACTCGCGTTTAG
>SRR1151209_01936 hypothetical protein
TTGGCCGCATTATTCATTTGGGCAACCCTCATCACCAGTGCCCTCATCGCCGGTCGTCCCAACCACTATCGCACTTTGGCCAGCACCTTCTTCATCCTTGCCTTGCTGGCGTATTTGCATATCATGAACCACCTGTCGCTGCTTGATTGGCTCCTGTGGCTTTTCACTATTCTGCCATCGTGTTACTGA
>SRR1151209_01937 hypothetical protein
ATGGCCGTCAAAATTGAGACCAAATACGGCACCATCGCCATCGCTAACACCGTCATCGCCACCGTCGTCGGCGGCGGCGCCACCGATGTCTACGGCATCGTCGGCATGGCATCCAAACAAATCTTCCGGGACAACTTTAATGAGATCCTGAACCGAGACAACTATTCCCGCGGCGTGGTCGTCCGCCAAGACGATGACGGTGTCACCGTCGACGTCTTCATCATCGTCGGGTATGGCTTAAAAATTTCCGAAGTTTGCCGCAACGTCCAAGATAAAGTAAAATACAATCTCGAATCGATGTTGGGGATCACTGCCCAAGCAGTGAATGTAATCGTCCAGGGCGTCCGCGTCCTGGGGGACGACGCTTAA
>SRR1151209_01938 DAK2 domain fusion protein YloV
GTGGCAGTAACAGAAATCACCGTGGACAAGCTGACCGATATGGTACGGGTCGCCGCCCACCGGCTGAGTAAAAACGTAGAATTTGTCAATTCATTGAATGTTTTCCCCGTACCTGACGGGGATACCGGCACCAACATGAGCCTAACGCTGGCCAGCGGTGTGAAAAACGTCAACAATGCCAACGCCGCAACCGTCGGCGACATGACGAAGGCCTTGGCCAAGGGCACCCTCATGGGCGCTCGGGGCAATTCCGGGGTCATTTCGTCCCAGCTCTTCCGCGGCTTTGCGAAAGCAACGGAAGGCAAAAAAGTGCTGACCGCCCAAGATCTGGCCGACGCATTGACCGGCGGGGTACAGACGGCTTACAAGGCGGTCATGAAGCCTGTGGAAGGGACCATTCTCACCGTCGCCCGCGAAGCCGCCAAGGCAGGTAATAAGGCGGCTCAAAACAATGACGACGCCACCGTTGTCATGCAGGCGGTCGTCACCGGCGCCAAGCGCGCCCTGGCCGCGACTCCGAGTCTGCTGCCGATTTTGAAAGAAGTCGGCGTCGTCGATTCCGGCGGCCAGGGACTCGTCTTCATTTACGAAGGCTTCCTGGAAGCTTTGGACGGTCACGTGTCCAGTGATGAATACGTGCCGGACGATGAAGAAATGGACGAAATGGTCAACGCAGTCCACCATCAGGCGATTCAGGGCCAATTAGCCACGTCTGACATCAAGTATGGCTACTGTACTGAAATGATGGTGGAACTCAATCAGCACCCGGAAAAGGGCCATGAGTTCGATTACGATACATTCCGCAACTACTTGAACGACTTGGGCGATTCATTGCTGGTCGTGGCCGATGACGAAGTGGTCAAAGTCCACGTCCACACCGAACACCCGGGCAAAGTTTATCGCTACGGCGCCCAGTTCGGCACCTTGGATAAGATCAAGATCGACAACATGCGGGCCCAGCACGACGATATCGTGGAACGCCAGGCGAAAGAAGCCGAAAAGCCCCAGGCTGCTGCGAAGTTCGGCGTCGTCGCCGTCGCTTCCGGGCACGGCGTCGCTGAATTGTATCGCTCTCTGGGCGTTACGGAGATCCTCGAAGGCGGGCAGACCATGAATCCGTCCACCGAAGACATTCTCGCCGCCATCAAGCGGGCCAACGCCAAGAACGTGATCGTTCTGCCGAACAACGGCAACATCTTCTTAGCGGCTAAGCAAGCTGCGGAAAACGCCAAGAATCACGTTCAGGTCGTCCCGACCAAGAGCATTCAGCAGGGGATGACGGCGATGCTGTCGTTCAATCCGGATGAAACATTGACCACCAATGTATCAGAAATGACGGATTCCTTGGATACCGTTGCCAGCGGTGAACTGACCATCGCGACTCGGGACACGTCGATCAACGGCATGACCATCAAGAAAGATGATTTCATCGGTATCGTCGATGGGGACATTGTGGTCAATGGCACAGATCGCGTTGAGGTGATGACTGAGATGATCACCAAGATGCTCAGTGAGGACAGTGAGATCATCACGATCCTCTACGGCACCGACGGCACGAAGGAAGAAGCCCAGCAAGTCGCTGACGCTGTCACCGCCGAGAATGACGATCTGGAAGTCGAGATCCACGAAGGCGACCAGCCAGTTTATGCGTATTTGGTTTCCGTTGAATAA
>SRR1151209_01939 ATP-dependent DNA helicase RecG
GTGGCCAGTTTGGCAGATCCAGTGACCGCCCTCAGCGGAGTGGGCGAGAAGCGAGCCAGTGCCCTGCACCAGCTCGGTATCGACACGGTGGGCGACTTACTGTTCTATTTTCCGTTCCGTTATGAAGATATCCGCACCCGTTCCTGGCAAGAATTGGGCGACGGGGAGAAAGTCACCCTGAAAGGCACCGTCATTGCGCCGCCGGTCGTCTCCCGCTTCGGACGCAACCGTAACCGGCTCAATATTCGCCTGCTGGTGGAAGATTTGCCGATTGTGGTGACATTTTTTAACCAGCCCTGGCTGAAGGACAAAATCGTTGAAAACAGCGAAGCGGCCGTTTTCGGTATCTGGAATGCAAAACGGCACAGCCTGACCGGGCAGCGCTTGATTGCCCAGGCCGAAGCCGGTGATGCCGGGATGAGCCCCATCTACTCGGTGAATAAGCATATTCGCCAGCGGACGCTGGTGGATCTGATCCACCAAGCGTATGAGAAATATCAGCCGCTGCTCACTGATGTGGTGCCTGAACCGCTGCGCCAGCACTATAAGCTGGAACCAACGGCCCAGATCGTTCACGATATGCATTTTCCCAAGAACAGTGAGGATGCCCGCTCTGCTCGACGCTCGGCGGCCTTTCGGGAGCTTTTTCTCTTTGAATGCCGCATGCAATCGCTGCGGGCGGAAAATAACAAACATGACGCGGGGCTAGTGCTGAATTACGATCTCACTGCCATGCGCGAGTTTATCCAGACCCTGCCCTTTGAATTGACCAATGCCCAGAAACGGGTGGTCAACGAGATCGTCGCCGACATGAAGCGGCCGCGGCACATGAACCGGCTGCTCCAGGGGGACGTGGGCAGCGGGAAAACGATCGTGGCGGTGCTGGCTATTTTCGCCGCTGTCACTGCCGGCTATCAGGCCGCCCTGATGGTGCCAACCGAAATTCTGGCAGAGCAACATTACCAAAAAATTGCCCGGCTCCTCGCCCCCATGCACGTCTCGGTGGGCCTGCTCACCGGTTCTTTGGCCGGTACTGCTCGGGCTAAAACCCTGCACGATATCGCCACCGGCCGCCTGAATGTGATCATCGGGACCCATGCGTTGATTCAAGATGCGGTAAAATTTGCTAAACTAGGGTTGGCCGTGATTGATGAGCAGCACCGATTCGGGGTAAATCAGCGCCGGGAATTGCAGCGCAAGGGGCTGTCCCCGGATGTCTTGATGATGACGGCGACCCCGATCCCCCGGACCCTGGCGATCACGACTTACGGTGAGATGGACGTTTCCACCATTGACGAACTGCCGGCCGGCCGGCATCCGATTGAAACGGCTTGGCTGAAAAGCAACCAAACCGGACCAGTCTATGCCCGCTTGCGGGCGGAGCTGGCCGCCGGCGCTCAGGCCTACGTTGTCACGCCGCTCATTGCAGAATCTGAAGCGATCGATCTGCGCAACGCTGAAGATCTCTATGAGCGAATGACCAAGGCGCTGCCCCAGTACCATGTAGCGCTGCTCCATGGTCAGCTGAAGAACCAGGATAAAAATGCGATCATGACGGCCTTCAGCCACAATGAGATCCAGGTCCTGGTGGCCACCACTGTGGTCGAAGTCGGCATGGACGTGCCCAACGCCAACCTGATGATCATCTTCGACGCAGATCGTTTCGGGCTCTCCCAACTGCACCAGCTGCGCGGCCGGGTGGGGCGCGGCGGGCGGCAGGCGTTTTGTTACCTGATCGCCGATCCAAAGAACCAGGTGGCTATTTCCCGGATGGAAGCAATGGTCAAAACGACCAACGGCTTTGTTCTGGCGGAGAAGGACTTGCAGTTGCGCGGTCCCGGGGACGTCTTCGGAGATGAGCAGTCCGGCTTGCCCCATTTCAACATCGCCGACCCGGTCGGGGATTCAGCGATGCTGGAAGTGGCCCATGCCACCGCGGGCCAGATCTTCAAAGAAGACCCAGCCTTGCACGCCCCGGACCATCAGGGAATCGCCGCCTATCTGGCGGAACTGAAGCGCCGGAATCAATATTTCGATTAA
>SRR1151209_01940 phosphate acyltransferase
ATGAAAACAATCGCTGTGGATGCCATGGGCGGGGATAATGCCCCGCAGGCGATCGTCGCTGGTATCGAACAGGCGCGGGATGACTTCGCGGACCTGCAATTCCAGTTATACGGCAATGAGGCTCAACTCAAGGAATTGGTAAAAAATACGGAGCGGATCACCATCGTGCCGACGACGGAAGTCGTCACCGGCGAGGATGAACCGACCCGGGCGATTCGCCGGAAAAAGGATTCGAGCCTGGTCCGTGCGGCCCTCGCCGTTAAGAACGGCGACGCCGATGCCTTTTATTCCGCGGGTAATACCGGGGCCGTTTTGACCGCCGGTGTATTGCTGGTCGGCCGAATCAAGGGCATTGAACGGCCGGGACTGATCACCATTTTCCCGACGGTGAATAAGGATCAGCATTTCTTAATGCTCGATGTCGGGGCCAATGCGGAAAGCAAACCCAGCTATCTGCACCAATTCGCACTGATGGGCCAGTTTTATGCCCATGACGTGCTGGGGCTGGAACAGCCCCGGGTCGGGCTGCTGAACAATGGCACCGAGGCCGACAAGGGCGACAGCCTGCACAAGACGGTCCACGAGCTGCTGGCCAACGATCCGGATATCAACTTCGTCGGCAACGTTGAGGCGTCTAATTTGTTCAACGCCCCGGCCGACGTCGTCGTCACCGACGGCTTCACCGGCAATGCGACGCTGAAAGCGATGGAAGGGACCGCTGGCACTGTGATGCACCTATTGAAGCAGAATCTGCTGAACAACGGCTTGCTGCCGAAACTCGGTGCCGCGATGGCTAAGCCGGCCTTCAAGGCCTTGGCCGAGATGTTTGACGCCGACCGGGCCGGCGGAGCCGTACTGATTGGCGTCAAAGCCCCCGTCGTTAAGAGTCATGGCAACTCCGACGACCACACCGTGTATTTCGTACAAAAGCAGTTGCGGGCGATGCTGAACGCTGGCACGGTGCAAAATGTGATCCAATATTTCTCGACCCATCCCGCAGAACCCGCGGCCTCAGAAGCCGTCAAGGAGGAAACCAAGTAA
>SRR1151209_01941 acyl carrier protein
ATGTCAGAACAAGAGATTTTTGATAAGATTCAAGCTTTAATTGCCGATCGCTTTGAAATTGACCCGGCTAAGATTACGAACGCCACCAACTTCAAACAAGATTTATCAGCCGATTCCTTAGACTTGGTGGAATTCGTCCTGACTTTGGAGGATACCTTTGGCGGTGAGATCTCTGACGAAGACGCGGACAAGCTGAATACTGTGGGCGATGTAGTGCAGTATATCGCTGCACAACAGAAGTAA
>SRR1151209_01942 oligopeptide ABC transporter ATP-binding protein
TTGGATACATCCGACGAATTATTACTTGATATCCAACATCTGCATACAGCTTTTCGGGTTCACGATCATTTCTATGATGCCGTTGATGACATTTCATTGACTTTGCATAAGAACGAGATTCTGGCATTAGTTGGTGAATCCGGTTCAGGGAAGAGCACCTTAGCGACCAGTATTATTGGCCTGCACAATCCGCGAAACACTAAAGTGACCGGCGATATTATGTACAATGAACTGAATCTGGTTGGCTTGAACGAGGCACTATTCAACCGGATTCGGGGTAATGATATTGGCATGATCTTTCAGGACCCGTTATCAGCGTTAAATCCATTGATGCGGATTGGTGAACAGATTGCGGAGTCATTGGTGTACCATACAAAACTCAATGAAAAAGAACGGGAAGCTCGCGTGCTTCAGCTGTTGGAACAAGTCGGCATTCCCGATCCGCCGTTAACTGCCCACCAATATCCTCACGAGTTATCCGGCGGGATGCGTCAGCGGGTCATGATTGCCATTGCCATAGCCTGCAAGCCGCCAATTATTATTGCGGATGAGCCGACAACGGCCCTGGATGTCACGATTCAAGCCCAGATTTTGGATCTATTGGAAGACATCCAAAAGGAAATTGGTTCTGGCATTCTTCTCATTACCCATGATTTAGGCGTCGTAGCGGAAACGGCGGATACTGTTGCCGTCATGTATTCTGGTCAAATTGTTGAGCAGGGTAGTGTGTATCAGGTCTTTGAACACCCGTTACATCCGTATACCCGGTCGCTGTTACGGTCCATGCCCCAAGCAGATTCAGACGACGAGGAATTGCACGTGATTCAAGGTACCGTTCCATCTCTCGTGAACATGCAACGGACAGGCGACCGCTTTGCGCCGCGGATCCCCTGGATGCCGGCATCTTCCCATGAGGAACACCCCGTTTTGCACGAAGTTGAACCCGGTCATCTTGTACGCTGTACCTGCTACAAAACATTCTATTTCCCAGATGAAAAAGAAGCTGCTGCAGCCGGTGCACCTCAAAATGCTAATGAAGGAGAGTAG
>SRR1151209_01943 oligopeptide ABC transporter ATP-binding protein
ATGTCATTAATTGAGATCAAAGACCTCAACATCCATTATCCGATCCGCTCCGGCTTCTTCAACCGAATCACGGATTATGTTTATGCCGTTGATGGAATCAACTTCGATATCGAAGAAGGCGAGACATATGGCCTGATTGGTGAATCCGGATCCGGCAAGTCGACGACTGGTAAGGCCATTGTTGGGCTAGAAAAAGTTACTTCGGGTCAAATCTTGTATAACGGTCAAGACGTGACTAACCGGCATGAGCGTAAGAAAATCAAGTATAACAAAGATGTCCAGATGATTTTTCAAGATTCAATGTCAAGTCTTAATCCGCGGAAACGGATCGAGGATATCATTGCCGAACCAATTCGCAACTTTGAAAGTATGACCGATACCGAAGAACGAGATCGGGTCAAGGAATTGCTGGATATCGTCGGCATGCCGTCCGATTCAATCTACAAGTATCCCCATGAATTCTCAGGTGGTCAGCGGCAACGGATCGGGGTCGCTCGGGCAGTGGCAACACATCCGAAGCTGATCGTAGCGGACGAGCCTGTTTCAGCCTTGGATTTATCCGTTCAAGCTCAAGTGTTGAACTTTATGAAGCAAATTCAGAAGGAATTCAACATTTCTTACCTATTCATTTCTCATGATCTGGGCGTGGTTAAACACATGTGTCGGAACTTAGCCATTATGCACCGCGGTCGGTTGGTAGAAGTTGGTACGCGGGAGGACATTTATAATAATCCGCAGCATATCTATACCAAGCGTTTACTGGCGGCAATTCCTAAAGTCAATCCATCCGGCCGAGAAGCCGATAAGGCGCATCGGCGTGAAGTGGAGAGGGAATTCCAAGACCACCAAGATAAATGGTACGACAAAGATGGCAAGGTCTTTCCACTGCAGCAGATTACCGCGACCCATTCCGTGGCTTTACCCCCGGATGAGGTAACGCAGATCAAGTCGGAGGTGGGTTAG
>SRR1151209_01944 oligopeptide ABC transporter permease protein
ATGTGGAAGACAATCTTGCGGCGGGTTATTTTGATGATCCCGCAAATCATTATCTTAAGTTTGTTCATTTTCTTGTTAGCTAAAATGATGCCTGGGGATCCGTTTACTGGTCTGATCACGCCGAATACGTCGCCAAGCCAAATTGCCAAGTTGCGGCAAGAGGCCGGACTGAATAATCCATGGTACGTACAGTATGTTTCTTGGGTTGGCAGAGCGTTTCATGGCGATTTTGGGATGTCTTATGCGATGCAGCGGCCAGTAACGGAGATTATTGGTGAACGGGCAGTCAACACTCTTTATCTGGCAATCCTCTCCGTGATTATTACTTACGTCATCGCTATTCCGTTTGGCGTTTGGGCCGGCCGTTATGAGGGAACATGGATCGATACGTCCATTCAATTTTACAATTTCATTTCAATGTCCACGCCCTCTTTCGTCGTTTATTTACTGGCTATTGCTGCCTTTGGGTTTGGACTTAAATGGTTCCCCACAAGTGGATCCGTGTCAGTTAGTGCAAGCGGCTTTTTCGGCATAATTGCCAGTCGAATATACCACATCATTCTTCCGTCAATATTAATCGGAATATTGACTAATGCTAGTACTGTGCAATATTTGCGGTCAGGAATTGTAGACAATAAACTCGAAGATTACGTCAAAACAGCGCGTTCAAAAGGTGTACCGGAACGGGTAGTTTTCAATAGACATATTCTGCGTAACTCGCTGTTACCAATTGCGGCTTTCTTCGGTAACGTAATTACCGGTCTGCTGGGCGGGGCCATCTTTGCTGAGACTATTTTCTCCTATCCAGGGATGGGCAAGCTATTCATTGATTCAGTGAATGGTCGTGACTATTCAGTAATGACTGCGCTCGTTCTGCTCTATGGTATCTTGACGTTGTTGGGCAACTTGCTCTCAGATATTATCATGAGTATTGTTGATCCCCGAATTCGTATTGACTAG
>SRR1151209_01945 oligopeptide ABC transporter permease protein
ATGGCGGATACGAAAAAAAAGCAACAGACCGACGCCAAGGGGAATCCTATTGTTTCAGCACCCCCTAGTGGTTTACGGGTTATCTTGCGTGAATTTACCCATGACAAAGCCGCGATGGCTGCCTTTATCATCATGATGGTGATCATCCTTGGCGCAGTAATTGGCAGTTTCTTTGTACCCTCATCCCGGTATACAGATGTGAACATTTTGCAGCAATGGGCTAAGCCGGGAACAAATGGTTATCTTCTTGGCGGTGATGATGGTGGTCGTGACGTATTGTCATCACTGATCGTGGGGATGCGTAATTCAATTGCCATTGGCTGGTGTGTTGCGATTTTGATTGAAATTATTGGCATCACCGTTGGTTTACTGTCAGGTTATTTTGGCGGTTGGGTCGACAATATACTGATGCGAATTACCGACTTCTTCATGATTTTGCCCGCATTGATGATCCAGATCGTGGTCATTACTATTGTGTCGCGGTTCAATATTTGGGTGTTGATCATCATGATTACTGCTCTCGGTTGGATGTCCACTGCCCGACTTTACCGTGCTGCTGTGTTGAGTCAGGCTAAGCGTGATTATGTGCTGGCGTCAAAAACATCAGGGTCCAATAGTTTCAGAATCATGTTTCTGGAAGTTCTACCCAACATCAGTTCACTCTTGCTTGTCGATACAACTCTGAGTTTTGCTACCAGTGTCGGCATCGAGACAGGGTTAACCTACCTTGGCTTTGGCCTGCCAGACACAACACCAAGTATCGGCCGACTGATTTCTTATGCTTCTGATCCTGTGTCCATGCAACAGTACCCATGGAGCTGGCTCCCGGCGACACTGATGCTGATTGTATTGTCACTTTCAGTAAACTATGTCGGTAAAGCATTGCAAAGAGCCGCGGATTCTCGGCAGCGTTTAGGTTAG
>SRR1151209_01946 oligopeptide ABC transporter substrate-binding protein
ATGAAGAAAGCAACAATCGCTGGGCTGGTGACGTTGGCTTCTGTTCTCGCTGTTACGTTAACAGCTTGTGGCAACAGTAGTTCAAGCTCCAGCTCAAGCAGCAGCAGTTCAACGTCAACTAAGAAGTTGTCATTCCCCGATACAGTGAAGAATGATAAGACGGCAATTAGTGGCGGCTCCTTGACTATGGGACTAATCACAGATACGCCATTTAAGGGTATTTTTAACGAGGAACTGTCCGACGATAACAATGATTCGACTGTTATGCAATTTGGTTCTGAAAGCTTGTTCAAGACAGACAGCGACTACAAGTTTGTTGATGGCGGTGCTGCAAATCTGAAGCTGGACCAAAAGGCAAAGACAGCCACCATCACGATCAATCCCAACGTCAAGTGGTCTGATGGTCAGCCTTTGACTGCTGACGACATCGTTTATGCCTACAAGATTATTGCGAACCCAGCGACTAAGTCATCCCGTTATACTGACAGTTTGGCTAACATTGTTGGGATGGCCGAATACAATGCTGGTAAGGCTAACGAAATCTCCGGTATTCAAACTCCGGATGGTGGTACTGGTAAAACTGTAATTCTCCACTTCAAGCAGATGAAGCCGGGCATGATTAAGTCTGGGAACGGTTATATTTGGGAAAGTGCAGCGCCGTATCACTATCTTAAGGATGTACCATTCAAGAGCTTAGTCTCTTCGGACAAGATTCGTAAGACACCACTGTTCTTTGGCCCCTATCAGTTGAGCAAATTGGTTGCAGGTCAGTCTGCAGTTTGGGTACCGAACAAGTACTATTATGGTGCTAAGCCTAAGCTTTCTAAGATTACTATTTCAACTGTTACGCCAAGCACAGCCGCACAGGCAATCAAGTCGAAATCCTATGATATTTTAGGCGTTCAGAACGCTCAATATGCAAGTGTTAAGAACACCAAGGGCGTTCAATTCATTGGTCAGATTCCTTTATCATACAGCTACCTTGGATTCAAGGTTGGTAAGTTTGAAAAGGGTAAGAACGTTGAGGATCCTAATGCAAAAATGAACAATGTTAAACTTCGTCAAGCCATTGCCTATGCAATGAATATTGACCAAGTACAACAGAAGTTCACTGGCGGTTTGACTTTCCGCATCCCAACATTGATTCCGGCACAATTTGGCGACTACTTTGATAAATCTGCTAAGGGCTTCCCGTATAACATTGCTAAGGCCAACAAGTTGTTAGATGAAGCTGGTTATAAGAAGGGGAAAGATGGTTACCGGACTGATCCTAAGGGTAAGAAGTTAACAATTCACTTGGCTATGATGTCTGGTAACGTTAACGCTGCAGCTATTTCTAAGAACTATATCCAACAGTGGAAATCCATTGGTTTACGGGTAGAGTTAACTTCCGGCAAGTTGCTTGAATTCAACTCCTTCTATGACAAGGTTCAAAATGACTCTAAGGACATTGACATGTTCATGGGTGCTTGGAGCTTAAGTTCTGAGCCTTCTCCTAACGATTTGTATTCAGCCGGTGCACCGTTCAACTTCACTCGGATGAATACCACCGAACAAAGCAAGCTGCTGGCCGATATCGATTCTGCGGCTTCGTTCAACGAACAACATCGTATTGCTGCCTTCAAGAAATGGCAAGAATACATGAACAAGGAAGCTTACGTAGTACCGATGACGAACAGTTGGAGCGTTACTGCGGTTAATGACCGTGTTAAGGGTTACACTCTCAAAGTCGGTGGTCCTAACGTTTGGGCTGACGTTGCTGTAACTTCTAAGTAA
>SRR1151209_01947 ABC transporter ATP-binding protein
ATGAAAATCAAGGCAGTGAATCTAAGCAAATCAATTGGGGAGAAACAGTTGTTCCACAATATCACTTTTTCTGTTGACCAGGGACAGATCGCAGTGATCACGGGTATTAGCGGGGCTGGAAAGTCGACACTGCTCAGGATGCTGGGCCTCTTGACTAATTGGGATGCCGGCTACTTGGCATACGACAGTGCAATTTTTAACCGGCCCAAACAGAGTAATGCCCGTCATATCAGAAAGGACGTCGTGGCCTTTGTGTTTCAAAACTTTGGACTGCTGGAAGACCGGTCAGTTTATGCCAACTTGAAATTAGCTTTGTTGGCCGATGCTGCTTTTGTCAAAAAAAAGACCGCCAAAGACCAGATGGAAAAAGCACTAGCGGCCGTCAATCTGGATGTTGATTTGGAGCGCAGCGTGCAATTCCTATCTGGTGGCGAAAAGCAGCGGTTGGCAGTTGCACGGGCTCTGTTACACCCCGGAAATGTCATCCTGGCCGATGAACCCACCACTGCCTTAGACGATGAAAACAAGGAAGGAATTATCAATCTCTTTGAGACATTGGCCGCTGCGGGGAAAACAGTCATTGTAGCTTCACATGATCAACGAATCATTGACGCGGCCACGATGCGGGTACATATACCTGAGCGCAGCAACTTACCCGTTTAA
>SRR1151209_01948 hypothetical protein
GTGATCAGTACGGCGCTGGCAACGGCGGGATGCTTGGCTTGGCAAAGAACCATTGGGGTGATTGGATTGGCATTTCTGTTGACGCTTATCCTGGGGCTGCTGGCGATTGGTGTGACTTACGGCGTGATGAACTGGTCCTTTACGGAGCGACAACTAAACCAGCATCGGCGGCAAGTTATTCTGGCTACGCTGTTAACGGTCAAAATATTGGTCATGGTGTTCGCGGTTTCGGTCGTCTCCCCTTTGGCCTCGGCGACAACAGATCAGTGGGTTAAAAACCACACGACATCAAACAGAGCGGCCGATTCACCGTTTGCCGTCGTCTATCCATTGTATGTTGGCCGGGACCAAATTAACATCAACCTTAAGCAAAACACCACCGACTTGGATGTGCTGTATGATCGGGTGTTGTATCGCCAATTTGAAGCGATGGGCGGGGTTTTGTTCTATGCCTATATGCAAGATGACTACGTTGAGCATGCTGAGTTTGTTATCGTCAATCAGAATTATCTGCGGTTTAATCCGGTGCGGGATACCAGCGGGAAAACAGTGTTTGTCGGTAATCCGAAACAGAACATTGCCCTTGTGCCATATACCGGTCAAAAGAAACTACGGCATACAGTGACTGAGCTGAAACAATTTTATAAGGAAGAAAAGTTTTCGGTCATTCTCTTGCAGCCCAAGCAGACCCTGCAGACATTTGGTCCCGACAATAGCCGAATCCCTTTGCCGAAGGGTATTCTGATCAAGTCGCAAGCCAACAGTCAGCCGGGTAAGCGCCCGTTTCTCTCTACCTTTGACTTGTCCGTCTCGTTTAAACTGCCAATCACGAAAGCAACAAGCGCAAAAGTTTATGCTTCCTTGTTGCCGACGTTGCGGCGCCATGGCATCGAGGACAATATCCAGACCCTGATTCCGGAGAACCAGTTGGCCAAGGTTGAACTACGGCAGATTTTTGAAGAGCAGTGGGCCTATCACGGGCAGATCATCGCCATCATGGTCCTGTCGTTAACCCTATGTGTGCTTTATGCCGTGGTGGACATTTTCTTGAATGGTAGGCGCTATGCCTTGATGTATACCATGGGCAGCAGTTTCTGGCGAGCCCATCGGCTAGCGATCGGTTTGTTTGGGATTGAAATCAGTGCCCTGTTTGTTTTGCAAGTTGGGGTATTCCGCTATTCGTCCCTGCTGGTTTTACTGGCAATGATTACCGTTGATGGCTTCTTACAGTTGGGTATTAATCTGTACGGACGCAGAAAATACAGTGGCGCACTTTTTGAGGAGTGA
>SRR1151209_01949 hypothetical protein
GTGATCAAAAAAGCAGCTGTACTAACAATAATCCTGTCCCATATTGCCCTACTGATAATTGGTGTGATGATTCTTAAAATCAAAGCCGAGGACAAACAAGTTAACGCAAGGCTGGTACTACCGATTGGTTTTTCTCAAATCTTAGTTGAAAGTCCAAAGAAAAATAATCGAGCAGCAGCTATTGATGAACTAAAAGAAGAGTTAGTTGCCGCTAGCAAGGCTAGCAAGGCTAGCTTCATGGTAGTCAATATCAATCTATCGCCTAAGCTAAAACCGGACGGCGCATTCGCCAAGGACCGGTCGCATATTTTCTATTATCCATATCAAAGCAGCGACGATCCTTTTCAAGTGATTGGCGAGCTTTCCACTCGGCAGCTGGACAAGGGTGTGGTGTACTCCAATGATCCAGAGGTGAAGAGCCAGCGTCGGCTTTCGCCAAATGGGGAGGCGTACTATTTTACTGTGGATAATTTTAAATACCGTCAGCCCAAGGGCACGGGCTATGTATTTGTTGATTCGAGAAATAAAGCGGCTTATCGAACCTTTATGCAGACGTTCAGACAAAGATTCCAACGAATTCATGGCGTTAAAATGCAGCTTATCGATCAGCAAGCCGGCGCCAATATGTTGGTGAGTACTGGGGCGACCAATTTAATGAATGTGTATTTTTTGGTCGGCTTCCTGCTGGTCGTGCAAGTTGTTGGCTAG
>SRR1151209_01950 6-phospho-beta-glucosidase
ATGACGACATTGCGTGACGATTTTTTCTGGGGTAATTCCACATCCAGTATGCAGACCGAAGGGGCGACGAACGAAGGGGGCAAGGGCCCGTCGGTGTATGATGTGCGGCCGGCCACGGAGAGTGCCAGCGACTGGTCCGTGGCGATTGACGAGTATCACCGTTATCCCGAAGATATTGCGCTGATGAAAGATTTGGGGATGAATTTCTATCGTTTCCAAATTTCTTGGAGCCGGGTTCAACCGACGGGCGAGGGGGCATTCAACGAAGCGGGGATCGCCTTTTACGATCGGCTGATCAATGATCTGCTGGCGGCCGGCATTCAGCCGATGATTTGTCTGTATCATTTCGACATGCCCTTGGCTTTAGCCCAGAAGTACAATGGCTTCCTGGATCGGCACGTGGTGGACGCGTTCTATGTTTACGCCCAAGAAATGCTGAAGCGGTTCGGCGATCGGGTACGGTACTGGATCACCTTTAATGAACAGAATCTCTATAGTCTGACCGATGCCTTCGTGATCGCCGGCTACCTTGAAGGGCCCCGCTCGCTCCATGATCTCTACCAGATCCAGCACAATGTGGCGCTGGCCCATGCGCTGGTGGCGAACACGGTGCACGCCGATTATCCGGAGCTGCAAATTGGCGGCATGGTCGCGTACCAGCAGGTTTATCCGGCAACGGCCAATCCCCAAGACGTGGCGGCAGTGCGCCGGTTCAAGGAATATGTGATGGATAATCTGGTGGATATTTTTACCACCGGCCAATATTCCCCGGAAGTTGTGAGCTTCATGCAGCGCAACCATTTGGCAGATATCTTGAAGCCGGCAGAACTGGATATTATCAGCCAGACCCGCAGCGATTTCCTGAGCTTCAGTTATTATTCCAGTGCCGTGATGGACAGTACTAAGATTCCGCTGGGGACCGTGCCGAATTACTATCCGCAAGTTGGGGTGGGGCACAGTCCGTATCTGCCAACGAATGAATGGCAATGGCAGGTGGATCCCCAGGGTTTCAATACGGTCCTGCACGATCTCTATAACCGCGGCCGGGTGCCGGTCTTCCCGATTGAGAACGGGATCGGCTTGCGGGAGCATTGGGACGGTAAGCACATGATCCAGGATGATGCGCGGATCCTGTATATGCGCGAACACATTCAAGCCTTGAAGGATGCGGTGGCTGAAGGCGTGGACGTCCTGGGCTACTTGGGTTGGGGCTTGATCGATATTCCCAGTTCTCAGGGCAATATGGATAAGCGCTATGGCGTGGTTTATGTGAACCGCGGGAACCACGATCTGAAGGATCTGAAGCGGGTGCCAAAGAAGAGTTATGCGTGGTTGAAAGAGGTTATTCAGAGCAATGGGGCGGTGCTGTAG
>SRR1151209_01951 23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN
ATGCAGAATTCGATTTACGGTCTCACCCAAGCCCAATTACAGGACTGGATGGCGGCCAATGACCAGAAAAAATATCGTGCCGCCCAAGTTTGGGAATGGCTCTATCAGCACCGGGTGACTTCGTTTGCGGAAATGAAGAACCTGCCGGATGCTCTGATTGCGCAATTGAACGACAGCTTTACGTTCAGCCCGCTCACCGTGGTGCAGAAACTGACGGCCACGGATAAAACGACGAAATGGTTGTTCCGGATGGCCGATGGGCTGCTCATCGAAACTGTCCTGATGTACATGGATTACGGTCTTTCGGTCTGTGTCACCACCCAATCCGGCTGCAACATCGGCTGTACCTTCTGCGCTAGCGGTCTGATCCGGAAGCAGCGGGACCTGACGGCGGGCGAAATCGTCGCCCAGATCATGCAGGTCCAGCATTACCTGGACGCCGCTGGCGAGGGCGAGCGGGTCAGCCATGTCGTCGTGATGGGTATTGGCGAACCGTTTGATAACTTCACCAACGTGATCAACTTCATTCATATTATTAATGATCAACACGGTTTGGATATCGGTGCCCGCCACATCACCGTATCCACTTCTGGGCTGGCTAATAAGATTCGGGAATTCGCCGACCTGCACCTGCAAGTCAATCTGGCTATCTCGCTCCACGCTCCGAATAACGACCTGCGCAGCAGCATCATGCGCATCAATCGGGCGTGGCCGCTGGAGAAATTATTTGCGGCCATTGATTACTACACAACGACCACTAATCGGCGGATCACCTTTGAATACATCATGCTCAATGATGTGAACGACCATCCAAAAGAAGCCCATGAACTGGTGGAACTGCTGACGCCATTCAAGAAATTGGCTTTTGTGAACCTGATCCCCTACAACACCGTTGTGGAACATCCCCAATACAGCCGCAGCACCCCAGAGAATATTGCCAAGTTCCACGACATTGTTTACCGCGGCGGCATCAACTGCGTCGTCCGCAAAGAACACGGCGGCGATATCGACGCCGCTTGCGGCCAGTTGCGGAGCAATATGCTGCATAAGAAGAACTCGATTGGTGTGCGCTTGCCGGAGAACGCTCAGGCGGCTCAATAG
>SRR1151209_01952 orotate phosphoribosyltransferase
ATGCAAACTAATGAACAGATCGCCAAAGACTTACTGGATATCCAAGCCGTCACCCTCGCCCCGCACAAGCCTTTCACGTGGGCCAGCGGGATCAAGGCCCCCATTTATACCGACAATCGGTTGACTATCGGCTACCCGGAGATTCGCGGCCGGTTCAGCGCGGGGTTGGCCCGGCTGATCATGACGGAATATCCGACCGTTACCGACATCGGCGGCGTCGTCACCGCGGGGATTCCCCATGCCACCAGTACCGCCGACCGGTTGGGCCTGCCGCTGCTGTATGTGCGGTCTAAGCCTAAGGATCATGGCGCGGGCAAGCAGGTGGAGGGGCACGTGGCCCAAGATGCCCAAGTAGTTCTGATCGACGATCTGATCTCCACTGGCGGCAGTGTGCTTAAAGCGGCGGAGGCCGTGGAAAAAGCAGGCATTAAGGTACTCGGTGTCGCCGCCATCTTCACGTATGAATTGCCCGCGGCGACGGAAAACTTTGCCAAGGCGGGGTTGCCGCTGCACACCTTGACTAACTATACGACGCTGATCCATCAAGCCGAGAAGGCTCATATTTTGACCGCTGAGGAACGGGAATCGCTGTTGACCTGGCGGGAAGACCCGTGGGCGTGGAAATAG
>SRR1151209_01953 orotidine 5'-phosphate decarboxylase
ATGGATAGACCAGTAATTATCGCGTTGGATTTCGTGGATGGCAGCGCGGCGCAGGCACTCTTGGATCAGTTTAAAGGCGAATCCGGTCTTTGGGTCAAGGTTGGCATGGAGCTGTTTTACCGGGAGGGGCCGCAGTTGATTACCCAACTCCGGGACAAGGGCTATCACGTCTTCTTGGATCTGAAGCTGTACGATATTCCCCATACCGTCCACCAAGCCATGCAGCAAATCGGCCGGCTGGGCGCGGAATTGACCACCGTCACCGGTCTGGGCGGCGCGGACATGATCCGCGCGGCGAAAGAGGGTCTGCTGGAGGGGTCTGCTGAAGCCGGGACGAAAGCACCGAAACTGCTGGCTATTACCCAACTCACCTCCATGGACGAACGGGCGATGCACTGCACGATGCAAAACGACGAGTTCTCCCTGCTGGATTCCGTGGTGCACTTGGCGCAGCTGGCCGCCACGTCTGGGGCGGACGGTGTCATCAGTTCGGCACTGGAGGTCGGCAAGATTCATGACGCCACCCCCAGCGGCTTCCTCACCGTGAATCCCGGTATTCGACTGGCTGCCGATGCCCGGGATGACCAGTCCCGGGTCGTCACGCCGCAGCGGGCCGCGGAACTGGGCAGCGACGGTATCGTCGTCGGCCGGTCCATCACCCAAGCCAGCGATCCGCTGGCCGCTTATCACACCATCCGCCAACAATTCGAAGGGAGTACCGTCCGCTAA
>SRR1151209_01954 hypothetical protein
ATGCTTGAAAAGTATAAGAACGATAGTACAATTGCCCCACTTGAACGAGATCCTGAAAAGTTAACGATTATGGGCGTCAAAATGCCCAGTAAGGAAGTATATGACGAATTAGTCTTTGCCATCACCAACCAAATGTACGAAGGTTATGTGCCTACGGTTACAGATGTGCAGAACCTCCGAGACCACTACGGTGAACTGCCATCCGCTAGCGAAATTCTTAAGTGGTCAGGTCAATGA
>SRR1151209_01955 cell division protein Fic
ATGTACCGGCAAGTGTATTTGGCGGCACACCATTACCATTTGCCGAACGGAAAACGCCTCACAGGACGAACGTTTGCCGATGTGCTTGCCATTCATCACTTTTTGTTCTCAGATATTTACGAATGGGCCGGACAGTTGCGTGAAGTCAACATGAATAAAGGCGGAGACGACTTTTTCCCATTTCAGCGGTTTCCAATGGGGATTGCTGATCTTAACGTGAAGTTGGCAGATTATCGCACGGTATCAGAAGATGCTCAAGAAGTTGGTGAGGCATTGGGAGATATTATTTCTGAGCAGAACTTTCTGCATCCATTTCGTGAAGGTAACGGGCGCACTCAACGCACTTTTGCTAAGTTATTAGCCTACCAAAAGGGCTTCACCATTGATTTGTCGCCTGACAGCGATGCTTACAAGCGGTACATGGAAGCTAGTATCGCAGATGATCCGGCGTTGATGAAACAGGTCTACGTTAATTGCATTCGGCCAATTGGCAATAGCTAA
>SRR1151209_01956 peptide ABC transporter ATP-binding protein
ATGGCATTAGTTGATTTGAAACAAGTGACCAAAGTTTACGGCAGCGGCCACACTGCGGTCACGGCCCTGCATCCCACCGACTTCACATTATCGCCAGGCGAGTTTGCCACAGTCATCGGTCCGTCCGGCTCGGGTAAAACTACGCTGCTGACGATCATGGGCAGCCTGCAGCAGCCCACCAGCGGCCAGGTCCTAATCAACGGGGAGGATACCACCAATTACAGCGAACACCAGCGCACCGACCTGCGCTTCAACACCTTCGGCTTCATGCTCCAGGGCAGCAACCTGATTCCCTTCCTCACCGTGAAGGATCAATTAGCCCTGGTGGACCGCTTCAACCACCACAAGCAGCACGACATGTCGATGGATTCGCTGTTCACTATGCTGGGCATTACCGACTTGGCCCGCAGCTACCCGGCGGAACTCTCCGGCGGCGAACGGCAGCGGGTGGCTATCGCCCGAGCGCTGTATAACGACCCGCCGATCATCCTGGCCGACGAACCCACCGCCAGTCTGGATACCAGCCGGGCTTTACAGGTCACCGAACTGCTGGCCACTATTGCCCACAAAATGAACCGGGGCGTGGTGATGATCACCCACGACACCCGGTTGCTGGATACGGTCGATACTGTTTATGAAATGCGCGATGGTGTTTTGCAAAAGCTGGATGCCAGCGGCGTGCAGAAAATCCGCGCGGCGGCGGTTTGA
>SRR1151209_01957 antimicrobial peptide ABC transporter permease protein
ATGTTTCTGGCAATTAAAGAAATTATGCACAATAAAGCCCGCTACCTGCTAGTGATCGTGACCTTTGTGCTCATTTCTTACCTGGTGTTTTTCCTCACTGGTCTAGCCACTGGTCTGGCCCGGAATAACCGGACCGCAATCGACGCGCTGCCGGGGAATTACGTGCTCATGTCCAAGTATGCCAACAAGAACCTGCTCAGCTCGGTGCTGACCAAAGATCAGTATACCGATGCGGCGAAAAAAGGCACGAGCCTGCTCGGCCAAATGACCGTGGTGGCGGAAAACCCAACGACCAATAAGAAGATGAACAGCAACATTTTCGGTATCAACCTTGACGGCCGCTTACGCCCCAAGGTGACCAGCGGTCGGCTGCCGGCGAAGAACAGCGAAGTGCTGGCCGACGACAGCGTGACCTACTACGGCGTCAAACAAGGGGACCGGATCACGCTGAATGGCAGTACGCAAAAATACCGCATCGTCGGGCTGACCCACGACCGCCGGTTTGCCACTGTACCTGTATTCTACACGAGTTTAGCCACATATCGGCAAATCAAATTCGGGCAAAAACAAATTGCTAACGTGTCAGCTGTTGTCAGTCCAAAAAAGCTGAAGAACCTGCCGAAAAACACGGAACAGGTAACCAAAGCGGCGCTGATCACCAACATCCCCGGCTACACGGCCCAAACGATGACTTTCATGCTGATGATTGGGGCGATGATCGGTATTACACTGTTGATCATCGGGATCTTCATGTATATCCTGACGATTCAAAAAATCGGCATGTACGGCGTCATGCGCGCCCAAGGAATCCGCACCAGTGCCATCGTCGCGGCCTTGTTCTGGCAGATCCTGGTCCTGGCCGTCGTCGGAGTGGGTATTGGGATCGGCCTATTGGCCCTGACAGCGCTGTGGCTGCCTAAAACGATTCCGTTCTATTCCGATCCCCTGCTGCTGGCGATCATCACCGCGGCCTTGATCGTGATGTCCCTCGTGGGCGGTCTATTCTCCCTGCGCCGGATCCTGCACATCGACCCGCTGGAAGCTATTGGAGGCGAATAA
>SRR1151209_01958 TetR family transcriptional regulator
TTGAACTTACGAGAAAAGCAAAAACAGGACACGATGCAGAAAATCCTGCGCGCGGCCCAAGCCTTATTCATGACCCAGGGTTACACCAGCGTCACCACCCGGGCCATCGCGGAAGCCGCCGATGTGCGGCAGCCTTTGATTTATCATTATTTCGGTACCAAGGAGAAACTCTATCTCACTGTCGTGATGCACGTCAGTGACGCCATGGCCGCCCTGATCACTAAGGCTACCGCTGGGTCGGCGAGTTTTGCCGTCAAGCTGCAGCGGCTGGGCCATCAGCTCACCAATCAAGACCCGATGGATCTGCAATTGGTGCTGCATGATGTATTTCAAATGGGGCCGGCTGTCCGGCAAACCGTTGTCGCTGCTTGGGAAAAGGGATTTTTACTGCCGCTGGATGCTTTTTTTGCCGCCTACCGGGCGCAGCTGCAGCCGGCTTATGCCATTCGGGATATTACCCTCTATTTTCTAACCATCCTGTCGGCTTTTTTGCCCATGCCCGCCATGCGTCAGCGTTCTGGCCGGCTGACACTGGACACGGCGCTGGTCATGTTCCGTACCGGCGTGGAGACTGTTTGA
>SRR1151209_01959 putative phosphatase
GTGACACAACTTTTCTTCGATTTTGACGGTACGATTGCTAACTCTGAGCAAGGCATCGTGGCCGGTATTAAATACTTTGTCAAAAAAATGCAGTTGACGCCGTTGACCAATGATCAGTATCGGTTGTTTATCGGGCCAACGCTGAGCGCCAGTATGCATCAGTTTTACCCGACTTTAGATAACACGGCGGTGAAGCAAGCAATTGATTTGTATCAGGAGTATTATGCCGATCAGGGCATCTTTGAAATGCAGATTTATCCTGGCGTGATTCCAGTTTTGCAGCAGTTGCACGCAGCGGGCTTCACCATGAATGTGGCTTCCACGAAGCCGGAAGCGATGATTGACCGAATCGTCCAGCATTTTGATTTGAATCCTTATTTCAGCGGGCTTTACGGTGCCACGATGGACGAATCCATCCGCAGTTCGAAGACTGACGTATTGGCCTATGCGTTGAAAGAAGCAGACGCGGCAGCCAGCAACAGCATCATGATCGGTGACCGCAACACGGATATGATCGGCGGTCGCGCTAACGGTGTGCCGACGATCGGCGTGCTGTATGGGTTCGGCGATCGGTCGGAGCTCAGCGCAGCGGGGGCGAACGTGATCGTGAGCCAGCCGCGGGATATTCCGGCGGGGATTGAAGAGATTTTGGTCGGCAGCGTGAAATAA
>SRR1151209_01960 energy-coupling factor transporter substrate-binding protein
ATGCAACATGCAAATAGCCAAGTTGCCCAAGTGAATCCAGTCCGCTGGACCATTCGGGACGTTATCTTTTTAGCCCTCATCGGTGTTTTCTTCGGCATTATTTATCAACTGTGGAGCTATGTGTATTACGCCCTGGCCGCGACGCCGCTGAAGCCCTACGCCAACGATATGACCATCGGCGTATGGATCATGGCCGGTCCCTTAGCCGGTGTCCTGCTGCGCAAAGTCGGTGCGTCGGTGATCGGTGAATTACTGGCCGCCGCGGTGGAAATGATGCTGTTCTCCAGCTGGGGGGCTGCCGACCTGATTTCCGGTTTCATTCAGGGTATCGGCAACGAACTGGGCTTCGCCGCCACCGGCTACAAGAATTGGGATAAATTAGGCCTGCTCATGTCCACCATCGGGGCTACCATCGTCACCTTCGCCTGGGATTGGTTCCAAAGCGGCTACAAGGCCTATACCCCAACCATGAACATTACCTTGCTCATCATTCGCTTTGTCTCCATCGGTTTCTTCTCCGGCGTGCTGGTTTACTGGATCAGACAATTGGTGGCCAAGACAGGATTGTTGAAGTAA
>SRR1151209_01961 energy-coupling factor transporter ATP-binding protein
ATGGACCACTTTGCTGTAACCAATTTGACGTTTGCCTACGCTGAAGATGCGCCGCCGATTTTTCAAGAGCTGACCTTTGCCCCGGAACCGGGGACCTTCAACCTGCTGACGGGGCCCTCCGGCAGCGGCAAGTCGACGCTGCTGAAACTGTTAGCCGGGTTGTATCCGCAATACGGCGGCGTTATTCAGTCCGGCCAAGTGACGGTGAACGATACCGAGATCAGCACGCTGCAGCCTTTCCAGCGGGCGGCGCACGTGGCGATGCTGTTTCAAAATCCCAGTCGGCAGTTTGCCATGCGCACGGTGCTGGAACAGTTGCAGTTTGCCCTGGCTAATTTACAACTGAGTCCGCCAGAAATCGACCGGCGCATTCAAACGGTGCTCACCGATCTGCACTTGACGCAATTCACCCACCGGGCGCTGGAAACGCTGTCCGGCGGCGAGCAGCAGCGGGTCGCCCTGGCCAGTGTATTAGCCCTGGGCAGCTCACTGATTCTTTTGGATGAGCCCTTTGCCAATGTCGACGCGGCGGGGCGAACGCAATTATTGGCCGACCTCAAAACCTTGCAGCGCACCCAGCATAAGACGATCATCCTCGCCGACCATGACCTGTCCGGTTACGCCGGCTTAGTGGATCAACTGTACCACGTTGACGGCACCCAGCGTACGCTGCTTCAGGAATCACCGGCCGCGCTGCCGGCAACGACCCCCGCGACCCCCGTTCAGGGCCAGCCGCTGACCACGGGGCCCCTGGCGTGGCATGACCTAAGCCTCACCGTCGGGGACCGGCCGCTGATTACGGCCGCGCAGTTCACGTTGCCCGCTAGCCAGCTGGGACTGCTGTCTGGTGACAATGGGGCCGGCAAATCCACACTGTTCGCCGCCCTGACCCGCCAGCGCCGCTATGCCGGTGACATACGTTACCAAGACCGGCCCGCCAAGCAGTACAAGCTGAAGCAATGGGCCCTGCAGGTGGCAGAAGTGTATCAAAACAGCCCGGATCAGTTCATCCGGATCCAAGCCAGCGATGAATTGGCCTTGTCTGCTCAACACAGTCTGCACCCGACGTACTGGACTGCGGAACGGATCGCCCAGGCGGCAGCCCGGCTGAATCTGGCGGCTGTTTTGGACCACGTCAGTTACGCCTTGTCTGGCGGCCAGCAAAAGAAGCTGCAGGTTTTGAGCATGCTGATCATGGGCCAGCCAGTGCTGCTGCTGGACGAACCCTTTGCCGGCCTGGATCAGGCATCGCTGCAAGCAGTCCTGACTCTCTTGCAGCAGACCATCCATGACTTGCAGCTCAGTGCGCTGGTGGTTTCCCATCAACGGCAAGGCGTCGTCTCGTTCATGGATTACGAATTGCATTTGGCTGACCAGCAACTGCAGCTGATCGCCGGGGAGGCGGCTTGA
>SRR1151209_01962 energy-coupling factor transporter transmembrane protein
ATGACTCAAACTGCAGATACGCCCCGCGGACTGAACGCGGCAACATTAACGCTGATCATGATCGGTATCGGGTTCCCGCTGACCTTCGCCCAGAGCGTATGGCTGAACACCATCGTCGCTGGTCTGGGACTGCTCTATCTCATTGCGCTGCGTGTTTCCTGGCGCAAGGTGAGCCTCATTTTGCTCATCGCCCTGCCCCTGGCCTTCGGCAGCTGGATTTCGTTCTGGTTTTTCGGCACCGTCGACCGCTGGCACCTGGCCTGGATGTACGGCAGCCGGGTGTACGCTTATCTACTGCTGGGGATGATCGTCACCATGACCGTCAGCACCCAGCGCTGGCTGGTCAGCCTGCACCTGCACTTTCATTTGCCTAATGCCTTTGTCTTCGGCTTGCTGGGCGCGCTGAATATGGCCGATCGCGTGCGCCATGAATTCCGCCGAATCCAGTATTCCGCCCTGATGCGCGGCGAGAATCTGCGCCTGTGGAACCCCCTGCTGTACCTGCGCATCGTCTTAGTTTCCCTGAATTGGTCCAACGATTTAGCCGAAGCAATGACGTCCCAGGGATTTACTGAAAACGCCCCGCGTACCGAACTCATTGCCGACCCCATGCCGGCGTGGCAGTGGGGTCTGGCGGGCGGCCTGATCGTCATTTACTGCGCCGCCGCATTCGGTCTCCGGCCGTGGTAA
>SRR1151209_01963 major facilitator superfamily transporter
GTGGAATCATACAACACTAAAAGTACAAACTTAACCCGCAATCAGAAACGGACCATCGTTTCGACTAGTGCGGGTTTTGCTTTGGAAAATATGGATGTCATGTTCTTATCTTTTGCCCTGGCACCAATGATCGCCAGCTTACATATCAGTGGCGCTGAGGCCGGGCTCATTTCTTCGATCACCAACCTTGGAATGCTGGTGGGCGGAGTGATTTTCGGGTTATTAGGGGATCGTATCGGACGGGTGAAGACCTTCTCGCATACGATCTTTATTTTTGCCTTTGCCACGGCGGCCATGTTCTTTGCGAAAAACATCTGGGTCATCTATATCCTGCGCTTCATCGCCGGCATCGGCGCTGGTGGCGAGTATGGCGTCGGGATTACCCTGATCGCTGAGAATTTCAAGAAACAGCACGTTGGCCGGATGACCAGCGTGGCCGCGATTGGCGGTCAAATCGGGGCGATCTTCGCTGCTGTCATGGCGTCCTTGATCATCCCCAACTTCGGTTGGAACGCCCTCTTCCTGGTCGGCCTGGTGCCTGTTGCCCTGGCCTTCATCGTCCGGGAACACTTGCAGGAAAGCCCGGTTTTCTTAGAGAGTCAGGACACTGCTGAGGGGAAGAAAAAAATCAGTCTGGGCCAGCTGTTCACCAGCAAGAAGCAGGCGTACCAAACCATCGCTCTGATGTTCATGGTCGTGGTCCAAATTGCCGGTTACTTCGGCTTGATGAACTGGCTGCCGACGATCATGCAGAAACAACTGGGGATCACCGTATCCGGTTCTTCCATCTGGATGATTGCCACCATCGTCGGCATGTCCATCGGCATGATGACCTTCGGCAGCATCCTGGACTACCTGGGCCCGCGAATGGCCTATACCATCTTCCTGCTGGGGTCCGCCGTCTCCGTCTTCTTGATTACTTTGGCGGCCAATGAAATTACCTTGATCCTCGCCGGTGCCGTATTGGGCTTCTTCTCCAACGGGATGTTCGGCGGTTACGGCGCAATCATTTCCCGCCTGTACCCCACCCACATCCGGGCTACGGCAAACAACTTGATCGTTAACGTTGGCCGGGCTATCGGCGGGTTCTCCTCCGTCGTCATCGGCTTCCTGATGGATCACTACAACTTGATCACGACCATGAGTTTTCTGGCCGTGCTCTACCTGCTGAGCTTCGCCGTGATGTTATCGATTCCTGCCCTGCGTTCCTTGAAGATGCGCAATGCCGCCGACGATGAAGAAGAAAAGACGGCCGCTTAA
>SRR1151209_01964 nitroreductase
ATGGCAGATCAGACACATTCCTTCATTGACACGCTCTTGCACCATACATCGATTCGCGCATTTCAAGACACTGCTGTTCCGGCAGAGACCCTGCGCACCCTGGAAGATGTGGCTCAGCACACCGCGTCCAGCCAGTACATGCAGCAGTTCACTCTGATTCGGGTTACGGAGCCTGATTTGCGGCAGAAAATTGCAGCGCTGACGACCCACCAATATATTGCCGGGCCGGGCACGTTCTATGTTTTCGTCGTCGATCAAGCCCGCAACGTGCGGCTGGCCGACAATCTGCACGCCGCCACGACCCGCCTCACCGACTGGAATGCTTTCTTAGCCGGCGTTTTCGATGCGACGCTGGCTGCTCAAAATATGGTGGCGGCCGCCGAAAGCACCGGACTGGGTACCGTTTATCTGGGCAGTATCCTGAACGATCCCCAGCAGATGATCGACCTGCTGCACCTGCCCCGCTATACCTTCCCGCTCCTAGGGCTAATGGTCGGCGTGCCGGCGGACAAGCCAGACGCCAAGCCCCGCCTGCCGCACGCCTTAGTGGTGGGCCGTAACGGCTATCCCCAACCGGCCGATACCCCGGCCCTGTGGGACACGTATAATCAGGCCGTGCATACCTACTACGCCGACCGGTCCAGCCAACCCCGGGACACCGATTTTGCCCGAATGGTCGTGGCCAACAGCCAAGGAGATCCCCACCACCGGGGCGAAATTGGCCGCATTCTCAAGAGGCAAGGATTCCAACTCCCGCAAAAATGA
>SRR1151209_01965 ribosomal-protein-serine acetyltransferase
ATGTTTACACTCACCCAATTTGATCAGCACGGTCACCAGGTGGCCCTAGTCTTTCCCGAAGAAAGCCACGCCGCCGCGATTTTCGCTCAGGTGAAGAAAAATCGCGACCTGCTCACTCGCTGGATGCCCTGGACCAAGGACACCAAACACGTTCACGATGAAGAAAATTTCTTGCGCTACGCCCGTACCCAAATGATCAACAATAAGCTGTTTCTCCTGATTATCACAGTGGACGGCACGCCCGCCGGCATGATCGATCTCCACGACTTCGACCAGATGGATCACCACGCCAGCGTGGGCTACTGGCTGGGAACCGATTATCAGGGTCTCGGCATCATGACCCGGGGGCTGTCCACCCTTTTTGCCGTCGGCTTCAACCGGTTGGGGCTGCGCAAAATCCAAGTGCTGGCCGATGTCGAGAATAAGAAAAGCCGGGCAGTCCCGGAGCGGCTGTTCTGCCACTTGGATGGGATCCTGCCCGACCATATTTATCAAAGCGATGCCTACCATGACGCCGCTCTATACTCCCTGACCCTGCCGAATTATCAGCAGCTAATCAAGGAAGAAAAACTGCGCCCCGTCGATAATATGGAAGTAAACAGCGAGTTGTAA
>SRR1151209_01966 hypothetical protein
ATGAGTTTGACCACGATCATGGCCGCGAGTATTCAGTTGGACGCTTTGGCCCACCGATACGAGCGGGCCTTTTTTGACTTGCAGACGTGTGTGCCGCTGGCCGGCAATCCCGTTCAGGCGCCGACGCTGTGGACTCGGATTGATGACTTGCGGGCGGCCATCGCCAATTTAACGAAGGGAAAAGCCCAAGTTCTGGGAGACTTGCAGGATTATTTTGCAGGAGCGCCGACGGACTTTTCCGCTGCCCAGCACGCGCTGTTGGCGGCAGCGGTGGCCAAAGCGCAACCAGCGGCGTTCCTGCCCCGCCAGCTGGTGGAACAGGTCAGTGCCCGGCTGCCTTGGCGCACGACGAGTGATACACCCCAAGACGTCCTGACCCAGTTGGCCAAAGCCATTGGGCTGTCGCTCCCCGCCCAACTCCGAGCCTTGGCGGCACTGTTGGGGAGCAGCACGCTCAACGCAGCGCCGACCCGTTACACCGCTGAGAGTGTACCTTATCCGGTGGATAGCTTGATCCACCAGCGGACTTTTGTGTTTGCAGCGATTGCGGCGGAATACCAGATGGCGAATTATCAAACGCTGACGCCGGAACAGTTTTGGCAGTGGCAATTATGGCGGTTGAACCATATCTTCGGGATCCCCGTTGCGACGTACAATGCCCGGACGCTGGTACCGGCGGCAGCGGATACCGGCCTGTCGGCGGACGCCGTGGTCTTCTATCCGCCAGCGGCACCGCCGGAGGTGTATTTCCTGTTTCGCGGCACAGAAAACACGAAGGGGGCGGCGGAACCGCTGCACCTGACAGAGGCGCTGGCTCATCCGTTGGCGGCCATGGATGCCAATTTAATTGAGGGCTATCGCGACTGGTGGTACAACGTGCAGGCCGTGCTGCTGGGGGAGGATACGGAAATGTCCCAGATCGACGCCGCCCGCCGGTTCGTGGCTGAGGTCCTGGCCCAATTGCCGACGACCACCAAAGCATACGGCATCGGTCATTCCTTGGACGGCCACCTGGTCCAGTCCTTGCAGCTGATCGATGGCGCGTTTGCGGCCGGGTACACTCTGAATGCTGCCCCGGTCCAACTGCGTCAGATCCAACAGATTGCGCCGGAACGGTTTTCTCTAGAAACTTGGACTGCCCTGCAGGCGGCTACCAGTCGCGGCATCGCGAATGCTTCAGATTCAGCCTTGCTGGCCCAGACGGTGACTGATCCGCGCTTAGCGATCACCAATGAAGGTTTTGCCCAGGACATTACCCGGCTGTTCTATAACTTAGCGGGCAATGTCTACGTCGGATCTTACCATGCTGTTCAGCGGCCGGGTTTGCAATACCCGTTCATTACCCAAGTTTCCGATTATCTTTCCTCGGCCGAGATTCGCTACGCGGCCACCACGTTGGGGGATTTCTTCAAAAAAACAGCCAGCGACCAGACGACAAGTCTGAGCTGGCAGATCGTGAATTATATGCGGGCTTGGGGTGAAACACCCCATTTGCCGGCGAGCAAGAGTATCCGTTACCGGCGGGATTATTTGCGGTACTTGACGGCCACCGGCTGGTTGAGCACTGAGCCGGTCATTTCGGCCCGCAGTCTGCCCCGCTGGCTGACGAGCCGGTTATCAGCCGGCAAATTGCGGACGTTTCGGCAGATTCGTTTTGATATGTTACAACTCGCTGTTTACTTCCATATTATCGACGGGGCGCAGTTTTTCTTCCTTGATTAG
>SRR1151209_01967 NADPH:quinone reductase
ATGGCAGAAACAAATCGTGGTTTCTTCATTCATTTGCAGGATAAAAAAGCTGTTGTGACCGAACAGGAGATTCCCATGCCCGTGGTGGGTCCGGATGATGTGCTGGTGGCCGTGAGCGGCGCCAGTGTCAATCCGGTGGACCTCAAGCGGGCGGCCAGCGGGGACCAGCAGGTGATGGGTTTTGATACCGTCGGCCGGGTCGTGCGGACGGGAGCCAACGTCAGCGGGTTCTCAGCGGGACAAAAAGTCTTCTTCGCCGGTGAGGGCCAGCGCCAGGGCAGCTTTGCCCGGTATCAGAGCGTCACTAGCAAGTTAGTGGTGGCGACCCCCAGAGGGTTTGAATCCACTTTTCTCGCCAGCCTGCCCTTGACCGGGATCACGGCCTGGGAGCTGTTATTTGAAAAAATGGGTTATACCGCCTCGGCGGGTGCTAATCACGGTCAGGTATTGCTGGTGATCAACGGTGCTGGCGGCGTGGGCTCGATTTTGACCCAGTTGGCGAAGTGGAGCGGTTTAACGGTCGTCGCCACGGCGTCACCTAAGAACTTCGATTGGCTCACGGCCAATGGTGTGGACCATGCGCTGGATTATCATCAGGACCTGACCACCGCGTATCAAGCCTTGAATCTGGCTGCGCCCACTGGTGTCGCTATTTTGTATCAACCGGTGCCCTACGCCCAGGTGGCGGCGGACCTGGTGGCTTATTTCGGTCATGTGGGATCCATTGTGGAACCCAGCGGCCCCTTAGCCCTAGCCCCGCTGAAAAACAAATCCGCCAGTTTTGACTTTGAATATATGTCGGCTAAGACCGATGCGGGGGTCAATGTCGCCTCCCAGGGTGCCATCCTGCAGCAGCTGGCCGACTTATTGCAAAGCGGCGCGATTCGGCCCACTGCGACGCGGACCTTCCCGGTATTGACGACCGAGACGCTGACGGAGGGTCTGCATACCCTGCAGGCCGGGCACGCCGTGGGCAAGCTGACTTTCCACGTGGGCAACTTGCAATGA
>SRR1151209_01968 hypothetical protein
ATGACGAAACGACATAACCGGTGGATACTGGTCTTAGTGACAGTGCTGGCGTATATCGCCATCGGCGCGGTGTATTTCATGCGGCGCGACTGGCTGGCCGGTTTGACCCGGCATCCGGCGGGGCTGCTTGCTGTCAGCATCGCCGGACCGTTGCTGCCCGGCCTGGCCAGTTTGTATCTTTGGGCCAAGGCTGCGACGTTGTGGCCGCAACTGTTGTGGGGCACCCTGGTGACTGTTTCGTTTTGGCTGCTTCTTTCGCTGATCGCATTATTTCTCATCTTCGGACCGACGTGGCCGTTGGTTGTTTAA
>SRR1151209_01969 major facilitator superfamily transporter
ATGGCACAACAACAAGTGGCGCGGCACACTCAATGGGCAATTTTGGCCGTCGGGCTGCTCTCGTTCACTGGTATCTTAGTCGAAACATCCTTGAATGTGGCGTTTTATACCTTGACGCGCCAACTGGGCATCACCTTGAGCACGGTACAGTGGCTGACATCGGGGTATTTGTTAATGGTGACGATCGTGATGAGCACGACCGCGTACTTGATCCAGCGCTTCGCTGCCCAAAGCTTATTCCGCTTCGCGGTGGGCATGGCGTTGATTGGCGCGACTCTTTGCGCCGCCGCTCCGAACTTCCCCATCCTGCTGCTGGGCCGGTTAGCCCAGGCCGTAGCCACGGGAATCGCCACGCCGTTAATGTTCTATCTGATCATGGCTCTGATCCCCCATCGCCAACTGGGAACTTATATGGGCTTAGCCAGCATGATCATTTCTCTAGCCCCGGCATTGGGCCCAACCTATGGCGGCTGGCTCACCTCCGCCTTGAGCTGGCGGCTGATTTTTGTCGTCATTCTGCCGGTAATCGGCGGTGTGTTTCTGTTAGGCCAAAAATTTATCCAACTACCGGCCAAACCCCAGCATCGCCGCTTCGATTGGTCTGGGCTGATCCTGCTCGCCGGAGTACTGGTCGGCTTAAGCGAAGCGGTGGAAAATATCGGCACCCTCGGCTGGACCAGTGGCTCAGTCCTTAGTTGGGGCGGACTTTTTTTGGCCGCTCTCCTGCTCCTGCTCTGGCATATCAAGACCAGCAATGCCCTGTTGCTGAACTTCAGGATCTTGCGAACGCCAGCCGTTGCCCTCTGGGCCATCGTCTTCTTCTCATTGCAGTTCGCCAACATTGGCTTATCGTTCCTGCTGCCGCAATTCAGTCAAAACGTCTTGCACAGCAGCGCACTGACAGCAGGACTGATGCTCCTGCCTGGATCGATTCTCGGCGGCCTGATGTCGCCTCTGGCCGGCCATGTTTATGACCGCGCGGGTTTCCGTCTGCCGCTGCTGCTCAGCAATACTGCCATTCTGCTCAGCTGTCTGCTCTTTTGGGGACTGACAGGCTGGCTTGGCGGTGTGTTAATCACCCTGCTGTACATGCTCTTCCGCTTCGGCTTCAACTTTGGCTTCGGCAACACGATGTCCGACGCCTCACTCAGAGTGCCTGGTTCGGCAAAGGGCGATTTGAATTCGCTTTTCAACACCCTGCAGCAATACGCCGGCTCCATGGGTACCAGTGTCCTATCCGCCATCTTAGCGGCCAATGAACGCGGCGCTGGCACACCGAAAGCGGCCGCGATCACGGCCGGCAGCCGCCAGTCGTTTCTCCTCATTGCGGCCTTGGGCCTGCTCGGCATCGTGCTCACGCTCATGGTAAAATCAAAGAAAACCGTGTAG
>SRR1151209_01970 hypothetical protein
ATGGCCGCAGAAGAACCTACCGTCATCGAAAATAAAACACTCAGTATCGACGATCTCATCCCTGAAACCACATATCGCCATTGCACTCTGGATTATTCCAATCAGGACATCAACGTCCAGCAGGTCACGCTGGATAATTGTACTTTTGTCCAGCATGATTTCACCAAAAGTGCCTGGCTGGATTGCACGTTCATCGGCCTCGATTGGTCCAATTGCCAATTCGGCGGCAGCTACTTCACCGGTTGTACGTTCAAGGACACCAAACTGGTCGGCGCCGACCTCTACAATTGCGGTATCGTCGACTTGACGCTGACCGACTGTCTGGCCAATTACGTCAACTTTTCAGAAAGCATTATCAAGGGATTGCACGCCAGCGCCAGCCGCTTGCAGGAATCCTATTGGACGGCCGTGAAGTTCACCCGCAAGATTCAGTTTGCCCACTGCGATCTGACCCGAGCGGACTTTGGCGAAACCAAACTGAAGAATTTAGATTTCACCACCTCTGAGTTAGCCGGACTGCGCTTTGACTGGCACCTCGCCCAGGGGATGAAAATATCCCCAGACCAGGCGCCGAACCTGGTGGGGATGATGGGGATCACTGTTGTTTATTGA
>SRR1151209_01971 GNAT family acetyltransferase
ATGCTGCGTTTGAAAGCAACCAATGCCGCTGATGCTGAACAGGAATTTGCAGCCATCACCGCCTTGCAAAGCGAGAACGGCTTTACCAATAAAAATTACGGCATTTCCCGCCAAGAGTTCTTGGCCAAGGCGTTGCCAGCGATGCTCAATGCCCCGCAAGGCATTGATTTGCCGGCGGGTTTTGTCCCGGAAACGGATTTCTTCCTTTGGGCGGACGATACGATCGTCGGCTTGTTCCGGGTGCGGCATTACCTGACGCCAGCCCTGCGCAATGGGGCTGGCCACATCGGCTATGCCATTTTACCGGCTTACCGTGGGCATGGCTACGCGAATATCGGCTTGGCGCTGACCCTGCGGGAGGCAGCCAGAATTGTGCCGGAGGATCACATCTATTTGTCTGTCCACAAGGATAATCCGGCGTCCCTGGCCGTGCAGTTGAAGAACGGCGCAACCATTTGGCACGAAAACGACGCGGAATACTTCACGCGCATCAAGAAAAGCGCAATTCAATAA
>SRR1151209_01972 major facilitator superfamily transporter
GTGCAACGGATTGCCCACATGCTGAAGGACGCTTTCACATTCAACAGTCCGGGCTTGTCCTTCAAAGATAAGTTCAAGCTATCGCTGCCGGCACCGATTCTGTCGGTGTCCGGGGTGATCATTCATCAGGTCTTTCTGAAGTATTACACGGATGTGATCGGTTTGACCCCCGCCATGGTTGGCTGGGTCTACACTTTGTATAACATCTGGAATGCGGTGAATGACCCGCTCTTTGGGGTGCTGCTGGACCGGCGGCCGCCGGATCCGAAGCGGGGTAAGTACGTCTATTTAATGAAAGTCACGGTGCCGGTGATGCTGCTGGCGACCTTTGCCATGGCTTGGAGCAGTCCCAGTTGGAGCCAATGGGTGATTTTCGGCGTGTTTACGGGCCTGCTGTTTATCTTTGACACAGCGCAAACGGTGTACAACATTGCGCTGAGTTCCTATGTCCTGTTACGGGCGCCGACTAAGGAAGAGCGGATGGACATTGGGACGATCGGCAATTACGTCACGTACATCATGTCCTGGGCGGTGTCCGTCGTGCCGACTTTGCTGCTGATCAACCACACGACGCAGCGGGTTTTCATTCCGGTATTCATGGTGATCATGCTGTTTCAGTCGGCCATCTTCGTTGTCGCTCTGTGGGGGCTGCCGGATCCGCCCGAGCTGTATGCCTCGGTGGAACTGGTCCATACGGATTTTCGGGAAACTTTGAAGATGGCCTGGTCAATTCTGAAATCACGGCCGTTTCTCGCCGCCATTGCGTACTCCATCATTGCCATGGGGGCCTTACGTTTTTACACTACCGCCTATTTGTATTATATGGGCGGTGCCGTCAAAGTCGACGGCATCACAGCGACGATTATCAATACCGCGGCCCACGTGGTGGCTCTGATGCTGATGCCGATCATGAACTCGATCACGAAGGCTTATGGGACCAAATTAGCGATTTACTGGGGAATGATCCCGGCGAGCATCGGCTATTTGGGAATCACTTTCGCCACCACAATTTGGGAGATCAGTATCTTCTGGACGTTGATCGTTATTTCGACGATCTACTTCGGAGTGGCGATTGGACCGATGAACGGCCTGATTATTGATGAGGATGAATGGCGGACCGGCGTGCGCAAAACGGGGTTGTATAACGGCATGTTCAATCTATGTACCACCGCTTTTGCCAGTATTCAGCTGATCATCTTTACCAACGTGATCGGTACCGCTGGTTATGTGGGCAAGGCGGCTGTCCAGACGCCCCAGGCGCAATGGGGCATTCGGCTGGCCACGGGGGCGATCCCGCTGCTTTGTTTAGTGGTTGGGTTGATTCCAATGATCTGGTATCCTTTCACCCGTCACCGGGAGCAGGAAATCTCGGCCCATTCCCACGCAATTCGAGCTGCGGCGAGCCAAGCGGCAGCACAGAAGCTGCCTGGTGAGCCGACGGGATTGGATCAATAA
>SRR1151209_01973 hypothetical protein
ATGATGACAAAGACGCAACTTTATCCAGTGTGGCGCATCGCCCTGGGTGTTTTAGTGCTTGCCAGCGTTATCGCGCTGCTCTTTTGGAACACCAGTCCCTATCGCTGGCTAATTAGTGCCGCTTTGATATTCGCCCTGAACATGGTGAATCTCGGCAGTAACTTTTGGCGGGCTAAGCGGCCCTTGTTCCAGCGTACCGATTACTGGCGCATGGTGGCTGGGGATTGCTTACAGGTTCTGCTTTGGGTATGGATACTGATGCAGAATCCCGGGAACCCCTATTTTGCTCTAAGCATTGGAATCGTGATCGGTTCACTGGTGATTGTTCTGGTCGGTGATGTTTATTTGCGACGGTATCTCACTAGGGCGTGA
>SRR1151209_01974 cellulase (glycosyl hydrolase family 5)
ATGGATAAAATGCGCGTACAGGGTGATCACTTCGTTAATGAACGGGGTGAGCAGGTCATTTTCAACGGCATCAACTTGGTGGATAAAGAAGCTGACCATGATTTCATCACCCCCGGCGGGGATCCGCTTTATGAACAGCTGGCGGCCCATGGCATCAATCTGATCCGCTTCGGTATTTATTGGAACAAAGTCGAACCGGCACCGGGCCAGATCGATGAAGCGTATTTGGCGCGGGTTGCCGAGCAGATTCAACTGGCTCAGCGGCACGAGATCTATGTTTTCTTGGACATGCACCAGGACCTGTACGCCGCTAAATGGGGCGATGGCGCCCCGGACTGGGCGGTGCTGGACGACGGCCTGCCCTTCAACCGGAGCGACCTGTGGAGCGATAGCTACTTCATCAGCCCGGGCTTGCATCGGGCGCTGGATAATTTCTGGCAAAATGCCCCGGCTGGCGATGGCAAGGGGCTGCAGGACCACTATTTGAACGCTTGGCAAGCTATCGCCAAGTATTTCCTGGAAGCTGAGAATGTGATCGGCTTCGACTTGATGAATGAGCCATTCCCGGGTTCCCAATCCCAGGAAGTAGTGCAGACGCTTATCGGTTATTTGGGTGAAAAACTGCAGATGTCCCCGGAACAGCTGATGGGTATTTGGCTGGATGACACGAAGAAGCAGGGGTTGTTAGCCCAATTGAACGATGCGGCTACTTATGGTGAGATCTTGCAGAAGCTGACGGCGCCGGTGCAGGCATTTGAAAAGGCCACCTTGAACCCGTTCTACGATAAAATGGCGGCTGGCCTGCACGACCTGTTGAACGGCAAGGCGCTCTTCTTGGAGACGAGCTTCTTCGCCAATATTGGTATTCCGACGGCCATTTCTTTCTCTCCGGATAAAAATGAAGTCTTCGCGCCCCACGCTTATGATCTGGTGGTGGATACCAACCACTTTGAGAATTACAGTATGGCGCGGTTGGGCCATACGCTGGCGGTTCATCGGCAGGTGCAAGAGAAGTGGCACGTGCCGCTGGTTTTAGGTGAATGGGGCGCGTATTTCGATCAGCCGGAGACGAAGGCCATTAGCGAATTCCACGTGAAACAAATTGAAGCTAACGAGTGGAGCCAAACTTACTGGAGTTACTATGAGGGCTACTTCACCAGCCCCACGGCACGGGTTCTGGAGCGGCCGTATCCCCAGGCAATTAACGGCAAGCTGCATGCCTATCACTATGATCCAGCGACTCAGCAATTTGATTTGACGTACAAGGCGTTCCCAGGTACCAGCCGGATCTTCGTGCCGCATCTGCACACCGTGGCGATCAGTCAGCTGGCTGAGCAGGGCGTGCGCGCGGATAAGAAGGCCTTGCCCGGCAGCGAAAGCGGGGTGCTGTTTATTACCGCTGATGCGGAGCAGGAAGTTGTGCTGCATTTGCATATTGGGTAA
>SRR1151209_01975 ATP-dependent Clp protease ATP-binding protein
ATGGCAGACGATTTTAACAACAACGATGATTTCTTCCACAACGATATGGATGATTTCTTCAATCAAGTGATGCATCAAATGGGTCAAGGCCAGTCCGCCCGGTATGTGGTGAACGGCCATGAATTGACCCCGGATCAGTTCGCCCAATTCCGGGCGACTGGGCAAATGCCCAGCGGTGACGGCAGCAGTATTCCCGTCAATGATGGGCAGACCAAGGCCGTCAAGAAGGGCGGCATCTTGGAAAAGATGGGCCGAAATTTGACCCAAGAGGCCAAGGATGGGTTGCTGGATCCGGTTATTGGCCGGGATAAGGAAATTCAAGAGACCGCTGAGATTCTCAGTCGGCGGACGAAGAATAACCCGATCCTGGTTGGTGACGCCGGGGTCGGTAAAACAGCCATCGTCGAAGGCTTGGCGCAGGCTATTGTCAAAGGCGATGTGCCGGAAGCAATCAAGGACAAGCAGATTTGGTCCATTGATATTTCTAACCTGGAAGCCGGTACCCAGTACCGGGGCTCCTTCGAACAGAATATTCAGAATCTGATCAAAGAGGTCAAGGCCGCGGGCAACGTCATTCTGTTCTTTGATGAAATTCAACAGATTCTCGGCGCTGGTTCTGTCGGTGGCGACGATAACGGCAGCAAGGGTTTGGCCGATATCATCAAGCCGGCCCTGAGCCGGGGCGAAGTCACCGTCATCGGGGCGACGACCCAGGACGAATACCGCAACACCATCATGAAGGATGCGGCCCTGGCCCGCCGGTTCAACGATGTCATCGTGAATGAACCAAGCAAAGCCGATACCTTCAAGATTCTCCAAGGCGTCCGCAAGCTCTACGAACAGCACCATCACGTGCAATTGCCGGATGATGTCCTGCAGGCGGCGGTAAACTATTCCGTGCAGTACATTCCGCAACGGTCTTTGCCCGATAAGGCCATTGACCTGATCGATATGACGGCCGCGCACTTGGCGGCTGAACATCCGGTGACGGATAAGGTGGCTTTGGAGAAACGATTGAAGGAAATTAACAAAGAAAAGGATGCCGCCGCGAAGAAAGAAGACTACAAGGCAGCCGCGAAAGCCAAGACCGAGGCGGACCAGATTCAAAAGCAGCTGGCTAATGACGGCAAACAAGTCGAGGCTGTGGCGACGCCGAATGATGTGGCCGAATCCGTGCAGCGGTTGACCGGGATCCCTGTTCAGCAGATGTCCGGTAACGATATCGAACGCTTGAAGGGCTTAGGCAGCCGGTTGAAGGGGAAGATCATTGGCCAGGATGAAGCCGTGGATATGGTTGCCCGGGCTATTCGCCGCAGCCGTTCCGGCTTTGCCAGCGGCAATCGGCCGATTGGCTCCTTCCTCTTCGTTGGTCCCACGGGGGTCGGCAAGACGGAACTGGCTAAGCAGCTGGCGCTGGATATGTTCGGCAGCAAGGACGCCATCATCCGCTTGGATATGAGTGAATATTCTGACCGAACTGCCGTTTCTAAGCTGATTGGGACCAGTGCCGGCTACGTCGGCTACGAAGACAACGGCAATACGCTGACGGAACAAGTCCGCCGGAATCCATATTCCATTGTCCTGTTGGACGAAATTGAAAAGGCCGATCCGCAAGTCATCACGTTGCTGCTGCAAGTCTTGGATGACGGGCGGCTGACCGATGGCCAGGGCAACGTGGTCAACTTCAAGAACACGATCATCATTGCCACGTCCAATGCCGGCTTTGGTACCGAAGCATTGGCCAAATCCGGGAAGAAAGATGAAGACATCGTGACCCGGATCGCGCCTTACTTCCGTCCTGAATTTTTGAACCGGTTCGACGGTATCGTTGAATTCAGTCATTTGACCAAGAAAGACCTGCATCAGATCGTTGATTTAATGCTCGCTGATGTCAGCCGCATCTTGGGCCGCAAGCAGATTACCTTAACGGTTTCTGCAGACGCTAAAGATTGGTTGATTACCAAGGGTTATGATGAAGCGATGGGTGCTCGGCCGTTACGCCGGGTTATTGAATCCCAGATTCTGGATAAGGTCACAGACTATTATCTGGATCATCCAGACGTGAAGCACCTGGAGGCGGAACTGGCGAATGATACCATCGTGATCAAGCCAGTCACTGAAAAGGCTGCTGCTCGGCCAGACGCAAAAGGCGAGGCAGTGACCAAGCAGTAA
>SRR1151209_01976 hypothetical protein
ATGGATAATAGAAGCGTCGTGCCGTTGGTTCCTTACGGCCGTGAGTACTCACTTGAAGTTACCCAGGCTGAATTGAAACAGCTCGGGGCGGATAGTACAAATACGTTTGAAAAAGTAGTTGATTCGGTGAAGGGGACAATTACGTATCGCAAGCTTCCGTCTACTGCTCACGAGGATTTCGTGAAAAAGGGAATGAAGTACTATAACGAGAACCGCCAAATGATGGAAGACCTAAAGGATATGTAG
>SRR1151209_01977 major facilitator superfamily transporter
ATGACCGCACCAACGACTTGGCGTTTTAACTTCTACCGCATGTGGACCGGCCAGTTTCTATCCGGCATCACCAGTGCCATCGTCCAATATGCTCTGCTGTGGTACTTAACCATCGAAACCAAATCAGCCACCATGATTTCGCTGGCGACGATCATCGGCTTTTTACCGGGCATCTTCATTTCGCCCTTCGTCGGGCCGATCATCGACCGGCATAATAAGAAATGGCTGATGATCGGGACGGATATGCTGACGGCGCTGGCGGCCCTCGTCTTGGCGGTCATTGGCCTGATTGGTCATACCTTCCCCCTGTGGATGGTCTTCTTAGCCATGTTCGTCCGCTCGCTGGCCCAGACGTTTCAATATCCCACGCTGCAATCCATAACCCCGACTTTGGTCCCGCACACGATGCTGACGAAGATCAGCGGCCAAATCGGGGCGTTCCAGTCCGTGCAAATGATTATCGCCCCGGCGGTGGCGGGGGTGCTCTTCGGCATGTTCGACATCAATTACGTGATTCTGCTGGATGTCGTTGGGGCGATTTTCGGGTCCGCGACAATGCTGATTACCCGCTTGCCGGAACGGCTGAAACAGGACGGCCCGGTCCATTTCTGGCAGGACATGCTGGCCGGTTGGACCTTGCTGCGCAAAGATAAAGGAATTTTCCAGCTGACCTTAATTGGCGCCCTGTTCACCCTGATTTTCATGCCCGCTGGCGCAGTCTATCCCTTGATGACCACTCAGTATTTCCGGGGGACGGTCGCCATGGCCTCCATCGTGGAAGTTGTTTTCTCCGTCGGCATGATGCTCGGCGGGGCCTGGATCGGTTGGCGCGGCGCGGGTAAAGACCGCGGCCGGGCGCTGTTTGGCTCAATTCTCAGCGTCGCTGTCTGCGGTATTCTGTCCGGCATCCTCAGCCGGGATTTCACCGGTTTCATCCTATTTAATATTCTAAATTTCTTCTTCGGTGTGGGGGTGCCGTTTTTCAATGCACCGTTCATGGCGATGATTCAGGAGCGTTTTGCCCCAGAAATGCTCGGCCGGATCATCGGGCTGACCAGTATGCTCATGAACTTAGCTGGACCATTGGGGCTGGTGGCCGCCGGGCCCGTCGCCGACCGGTTCGGCGTGAACATGCTGTTCATCATCATGGGCGTGGGTGCACTGGTAGTCGGCGCTGGGATGCTGTTGCTGCCGGCAGTACGGACTATTGATCGGCAGCCTCGCCCAGTTCCCGCCGAAGAAGTACCAAAAAGCTAG
>SRR1151209_01978 amino acid permease
ATGGCACAACAACCAACAACGAATGGCAATGGGGGAATGAAGCGCAGCCTGCGTAACCGCCACGTCCAAATGATTGCCATCGGCGGCACGATCGGCACCGGGCTGTTCCTCGGTTCCGGGACCACCATCCACCGCACCGGCCCCTCAATCATTCTCGTCTACGCTGTCCTGGGCATCTTCTTCTTCCTGATGATGCGGGCGCTGGGCGAGATGCTGTATGAGGACCCGAACCAGCATACATTCGTCTCGTTCATTTCGAAATACGTGGGCGAAGGCGCCGGCTTCTTTGCCGGCTGGAGTTACTGGCTGGGCTTGATTTTCTTAGCCATGGCTGAGCTCACGGCGATTGGCCGGTATATCCAATACTGGTTCCCTACTTGGAACGCCAGTCTGATTCAACTCGTGTTCCTGGCCATCTTAACCACCATGAATCTGATTGCGGCCCGAGTCTTTGGTGAAACAGAATTTTGGTTCGCGATGATTAAAATTATCGCTATTCTGGCTCTGATTTTTACCGGTATCATCATGATCTTTACTGGCTTCAAGACTCCCAGCGGCAGTGTCGCTAGTTTTGGCAATATTTTGGACCACTTCCAGTTCTTCCCCAATGGCGTCTGGAAGTTCCTCGGTGCCTTCCCGATGGTCTTCTTTGCCTTCCAAGGCATTGAGTTCGTCAGCATCACCATTGGCGAAACGGCTAACCCCCGGGAAGTTCTGCCTAAGGCCATCAACCAAACGATTTATCGGATCCTGATCTTCTATATCGGCGCGATGATCATCATCATGTCCATTAACCCTTGGCGGGAAATCAATCCCCAGCAAAGTCCGTTCGTGCAGGTCTTTGCCCTAGCCGGACTGAAGGGTGCCGCCGGGGTCATCAACTTCGTCGTGCTGACATCGGCCGCATCGGCTTTGAACTCCGCAATTTTCTCCGCTGGCCGCCATTTGTACCAGATCGGTACCGAGGGGCATTCCAAGGAAGATTCAAAGGTGACTGAAATCTCCAGCAGCGGCGTCCCCGCCCGGGCGATTTTCACCTCGTCCATCGTGATGCTCTTGGCACCCGCCTTGGCAATGATTCCGCAGATCAAGGATGCCTTCGAGTTCATCACCAGTTCGTCCAGTGATTTGTACATCCTGGTCTATGCTCTGGCCATGGTGGCCCATTATCGCTACCGCCATTCCGCCGACTATATGCCCGATGGCTTCAAGATGCCCGGGTTCCCGTTCACGAACATCATCACGATCATCTTCTTCGTCTTCATCTTCTTCACCCTGTTCATCAACGCCGACGCAATCATCCCAGCGGTGGGCGCGATTATTTGGACCATTGTCTTTGGCACCGTCAGTTATTTTAAGTTCCGTAAACAGAACGCCGAACAGGGCGAATAG
>SRR1151209_01979 thiol peroxidase
ATGCAAGTTACACGTAATGGGGCACCGGTCGCTGTTCTGGGCGAACCGATTCGGCGCGGGGCAACGCTGCCGAAGTTCACCATGACAGATGCCCACGGCGCGTACTTCACCACCGCGATGATGATTGGCCGGCCGGCTTTGATCAGTGTCGTCCCGGACATCAATACCCGGGTGTGCAGCATCTCCACCAAGAAGTTCAATCAAGAAGTTGACCAGTTCCCGGGCATCAATTTCTACACCGTTTCGACGAACCCCGTCGCTGAGCAGCAAAACTGGTGCGCGGCTGAGGGCGTCAAACGGATGCAGTTGTTGTCCGATTCCGAAGGGTCCTTTGGCCGGGCCATGAACCTGCTCGTACCGGACAGCAATGTTCTGGTCCGTTCTATCTTTATCATCGACGCCAACGGCAAGATTCGTTACGAAGAGATCGTTGACGAACAAACTCGCGAACCCGACTACGATGCCGCGCTCTCCTTTCTGGAGACGCATTTCCACGACTAA
>SRR1151209_01980 hypothetical protein
ATGAAAAAGAAGGGCATCTGGATCACGTTGTTGGTCGTTGTCGTTGCCGCAATCGGCGGGATCTTTGGGTATCGGTATTACACCAGTAAGGCTGCGGTACCGAAGACCTTTGCCGGGCGCGTGCTGGAAACCTATGTCCCGAACTATCTCTTTGTGGATATGACCATCAGCTTTGCCAACGGTCACGCTTATCTACTGCCCACTCAAGCAAGTACTGCCGTATTTCTAGGCAACTCGCCGACAAGTGGGAAGAAGACTGAACTGAAACCCATGACGAAGACGGTTTTCAAGATGTTGGTCGGTAGTACCGACATCAACGACATCGCGAAGGTCAAGGTCGGTCAAAAAGTTGATTTGGGTCGGGCGGAGTTTACCCGTTCCGGCAAGCAATGGACGGTCACAACGCCCAAGCTGACTTTGAAGCTGACGGATCGCGGCGATACTAGCTTTAAGTCCCAGGATGGTACGTTCTGGCTGCTGCGAAAGGATGATAGTAAGTAA
>SRR1151209_01981 MutR family transcriptional regulator
ATGTCCGATGAATACGGAAAGTCCGTTCGAATCATCCGTGAAAACCGGAATCTCAGTCTGAGCCAACTGTCGGACGGTATCGTTTCCAAATCGACCCTGGACAAATTTGAATTGGGCGACTCATCAATATCATTTGAAAACTTGTTGCCGCTTTTACAGCGTCTTCGCGTTTCTTTGTCCGAATTTCTATACCGTGTTAACGAGCACTCCACATCCTCTGTTACCCAAACCCTCCAAAAAGCCTCCCGTGCATACTCACGTAAAGATGTTCTTTCTTTGAAACGCCAGCTGTCGGAACTCGTCAATGAAAAGATATTGGAACCTAAAAATCTACCTTTTCATCGTCTCGATATTATTGCAGTGAAAGCCGCGCTGGGTATGCTCCAGAATGTCCCGCTGCCAAAGGAAGACGTTGACTTCGCCGTGTCCTATTTCTTGACCCAAAACGAATGGTTTCATTATGACCTGGCAATTCTTCAGTTTCTGCCGCCCTTTCTCACGAGTGATATACTTACCCAATTAGTCGATACGCTGTTTAAGAACATCCCAACCTTTTTCCACTCATGTCCAACATCACGTTAG
>SRR1151209_01982 hypothetical protein
ATGTCCAACATCACGTTAGCCACCAATATCCTCATCGCTGTCATTGGTCAGCTGATTATGGCAAATGCAATTAATGATGCAGAACACCTGATTTTGCGCACGCGTCGTGAATCCGCTATTGCTGCCTACCTCACCACCACCTTAACGCTTACTGAATATGAAGCAATTATTCAATATCGTCGCGGCAACCAGGCAAAGGCTGCTGAAAGCCACGAGACCCTCATCGCCTTTTTGAAAATATTGGACATGCACGACGCGATGAGCTCTTTGGATAGTTTGTGGGATCAGCTGACAACTGCCGCTGAGTAA
>SRR1151209_01983 hypothetical protein
GTGAAGAAGAACGGTGGTATCCTGATTCTGTTTATCCTTGCTGTCGCAGGGTTTATTGTCATTTCTATGCTGAATCAATCGGTATACCAGATCTTTACGATTTTTGTTGTGTGGTCGGCTGTGCTGTACGTGGTTTACCGGCTTGGATTGCTGGCGTGGGTATCTTTACGGAGGGAACAGCGTAAGCCGTGA
>SRR1151209_01984 hypothetical protein
ATGGGTACATTGCTGGTTTCAATTATTTTCATTGCCGCAATCATTGTCGTTGTCATTGCCGCATCGGTACGCCGATCAGCGACGGGTAAGTGGTACACCGTCCTCGGCCGCTCTTTCTATTTGCCCGTTATTGTCGTCGGCGTTGGCTTTATCGGGTTCATCGTGTGGGACATGATCCAGGGTGGACCCGGCGCCACGATGATGGTTATGCCTTTTGTTGTGTTGTTTGCGGTGGTGTTAATGACTGCTTTAATCAAAGAAAAATCATCGCGGCGCTGA
>SRR1151209_01985 hypothetical protein
GTGGAAATTGCAGAGCTTGCAGAACGGATGAAATCCGGGGCAAGTGCAATCAGCGTATTGGGCGTCAAATCCATTGCACTACTCTTCGGATTATCGACACAGTTCAAAGAGAATACGGCACGTAATGTAATCGCAGGTGCATTGACTGGAATTACAATGCAGGCGATGACCATGCCAGCAGCAGCGAATACGGCCATTCCGTATGTTCGTCAAAACAAGAACGCTCAAGAGATCGAGCATCAAATTGGCAAAATTACAAAGTTTCCGATGAGTCTTGTTCTCACGGAGAAGCATTTAGCCATTGGGACAAACTTCACTGGAGATATTGACAATATAAGAGATATCCTGACCGCTTCACCCAAGTATCTTATTACGATGATCAATCCGAACAGCATCCAAATCGCGAAGAAGGGCGCTGAATAG
>SRR1151209_01986 MutR family transcriptional regulator
TTGTCAGAAGAAATTGGAAATACCTTCTACACATTCCGTACCAAAGATCGCAAATTTACCGTTAAACAGGTATCCGCAGACATAATGAGCGAATCATCGTTACGCAGATTTGAGCTGGGCCAAACGTCTCCTTACCTAGCAACGGTCCTACCACTCCTAGATAAGCTTAGAATTACACCTTCTGAGTTTTTTGCTCGGCAAAACAACTTCAACCCAACGCAAGTATCCGCTTTTTACAGTTCAGTCGCTCACGCCTACAACGATAGGGACGTCATCAAGTTAGATGGTATGCTGTCTGATTTGATAAAGACTCACCCAGATAAACCAACTGACTTGCCGTTTGGTCGTCTCGACAAGATAACCATCCAGGCAGCGAGTGGTATGTTGCGGGGTCAACCGTTGCCGATAGCCGATATCAACTTCGTGATGAATTATCTGCGTTCGCAGCGTAATTGGTTTAATTATGACCTCAATATGCTGCGTTATTTCCCCGTATTTTTGCCAGCCGAGGATCTCATTTGGCTTGCTCAGAACATTTTTGCCCATGCGTTGGCATATATTAATGTCCTGAATAACGCTGATTTGGTGAGTGATATTGTATTAAGTGTCACCAATGCACTCATTATTTCAGCAAAGGACTACGATGAGGCTCAAAGTCTGCTGAGCATCTCCCACCACACTGATGCTTTAAAAGGAAAACTCGAATTCTCCGTGCATCGGAAAGCCCTGGAAGCAGCCATCATATTTCATCAAGGTGATCGCCATGGCGCTGAAGAAATGCACGCTGGAGTTCTTGCTACCTTGAAGGAATATGAGGCCGACTGGGACATTCGGCAAGTGGAGGCCATGTGGCCCTTGCTGACGAAGAAAGATTGA
>SRR1151209_01987 RNA-binding protein
TTGGAAGTACACATTGGTGATGTCTTGACGGGTACCGTCAGCGGCATTCAGCCCTACGGCGCATTTGTTGCGCTGGACAGCGACACGCAGGGATTGATCCACATCTCGGAATGCCGGCACGGGTACGTCAAAAATGTGCATGATATTTTGCACGTCGGAGAGACTGTCCATGTTAAGGTCCTGGATGTGGATGAATATTCCCAGAAAATCAGCTTATCGCTGCGGGCCATGGCACCGGATCCTTTTTCCGGCAGTCGGGTACGCGCCAAGCACTATTGGACTAACCACCACGTAGCAGCCGGGTTCGCACCGATTCATAACGCGGTGCCCGCGTGGCTTAAAGAAGCTGAAAAAGATTTTTTTGCCTGA
>SRR1151209_01988 fructokinase
ATGTACGCAGCAATTGAAGCTGGCGGCACGAAGTTCGTGTGCGCAGTGAGCGACGATAAATTCAATATCCAGGCCCGGACCCACATTCCGACCACCACCCCCAGCGAAACTCTGGGTGCCGTGTTTGCCTTTTTTGATCAATATACCATTGAGGCCATGGGCGTCGGCTCTTTTGGCCCCATTGACGCCAATCCGGCATCACCGCAATACGGCTACATTACAACGACGCCGAAACTTGCTTGGGCCAATTATGACTTTTTGGGTGCTTTAAAAGCACACTATGCCCAAGTGCCGATCGCCTTTACGACCGATGTGAACGTGGCTGCCTACGGCGAATTCAAGAAGGGTGCTGGTCAGGGCAAGCAAAACGTTGCTTACTATACAGTTGGGACCGGCATCGGCATGGGCTATATCCATCATGGCCAAATTTATATGGGCAGTCAAAATCCTGAAGCGGGCCACATTTTAGTGCGCCGGCACGAAGCTGATACCTTCGCCGGCGCTTGCCCTTATCATGGTGATTGCTTAGAGGGGATGGCCGCCGGCCCGGCCATTCAGCAGCGTTGGGGGAAGAAGGGCAAGGATATTGCTCCGAACGATGCTGCCTGGGCGATTGAAGCTTATTATTTAGCGCAAGCGTGCATGACTACGACGCTTTTCCTTTCCCCTGACGTGATCATTTTTGGCGGCGGGGTATCCAAACAGAGCCAATTGTTCCCGTTGATTCGGTCCCAATTCACTAAACTTCTGGCCGATTACGTGAGTGTTCCGGCCGCCGACGACTATATTGTTCCAGTGGGCTTGGGCGATGATGCCGGGATTACAGGCGCTTTGCTTTTAGCTGCCGAGCAATTGTAA
>SRR1151209_01989 thioredoxin reductase
GTGACAGCAGACACAACACATATGTATGATATCAGCATTATCGGCGGCGGCCCCGTGGGCATGTTTGCCGCCTTCTACGCCGGCCTGCGCAACGCCGACGCCCATCTGATCGAAAGCCTGCCCCGGCTGGGCGGTCAGGTCAGCGCCCTGTATCCGGAAAAGGACGTTTACGACGTCGCCGGCTTCCCCCATATTAAGGCGAAACAGCTGGTGGCTGAATTAACCGATCAGCTCAAAGAATTTGCTCCAGCGATTTCTCTGGAAACCACTGTCCAAACCATCACGAAAGAAGCTGACGGTACATTCAGCATCGGCACCAATCGGGGCACTTACCGGTCAAAAGCAGTCGTTATTGCCATCGGCAACGGTGCCTTTGCTCCCCGCAAACTGGCTTTTGACTACGATCACCAGTTGGATGAGCGGCGGGTGCACTATTTCATCAATGATCTGGAAGATTACCGGGACACCGATGTGGCTGTCGCCGGCGGCGGTGATTCGGCCATCGACTGGGCCTTGGCCTTGGAACCGATTGCCAAGAGCGTGACGATCATCCACCGCCGCGATCAGTTCCGCGGCTTGGAATCCAGCGTGGAGAAAATGAAAGCCTCCAGCATCCAAATCATGACCCCCTATCTGCTTTCTGCCTTAACGGAGACTAACGATCGGTTGACGATTGACTTGAAGAAAGCCCGCACGAAGGAAGACGCCAGCATCACGGCGGACCACTTGATCGTCAATTATGGCTTCACTGCCGATGCCCGGATCCTGCGGGATTGGCCGATCGACATCAAAGGTGCAACCATTCCGGTCAATACCAATATGGCCACGTCCACGGATTTGATCTATGCAATTGGCGATGTAGTCGATTATCCCGGCAAAATGCAGCTGATTGCCAGCGGTTTCGGTGAAGCCCCGGTGGCTATCACCCAGGCGCTGCAAGAAATTTACCCGGAACGCAAACAACCGTTGCACAGTACCTCATTGATCCACTAA
>SRR1151209_01990 phosphatidylglycerophosphatase A
ATGGCAACAAATGCCGATCGAATTTATGATCACTGCGTCGGTCTGCTTCATGAACGCGGGGTCCAAATCGAAGATATTAGTAAACTCACGTTATTTCTACAAGAAAAGTACATTCCCAACCTAACCCTTGCAGAATGCACCGAGAATGTTGACGTGGTATTGCACAAACGGGAAGTGCAAAACGCCATCATGACTGGCATTCAACTGGATAAATTAGCTGAAGCCAAGGAATTGGAACCGCCGCTGCAGCAAATCGTTGAAGAGGATGAAGGCCTCTACGGCGTGGATGAAATTATGGCCCTGTCCATCGTCAATGTTTACGGCAGCATCGGTCTCACCAATTATGGGTACATCGACAAGATCAAGCCCGGCATCTTGGCTAAACTAAATGCCCATGAACCGGGTATCATCCACACTTTTCTAGACGATATTGTCGGCGCCATTGCCGCCTCCGCTGCCAGCCGGTTAGCCCATGCCCATCCCGAAACCCAGCCGGACGTTTATTAA
>SRR1151209_01991 DedA family protein
ATGAACACGTTAATCGACTTTATCTTACATATCGATTCTCACTTGGTCCAGATCGTCAATACCTTTGGCAACTGGACCTATGTAATCCTCTTCGCCATGATCTTTATCGAAACCGGCATCGTGATTTTCCCTTTCCTGCCTGGTGATTCATTGATCTTCGCCGCCGCGGCCCTGGCTGCCAACGCCAACTATCACCTCAATATTTGGCTGCTGTTCTTCCTCTTCCTAGCCGCCGCTGTAATCGGCGATACCGTCAATTACCACATCGGTCATCACATGGGCCTGGCCGCCAGCAACAATTCGTTCTTCGGCCGCTTCATTAATCGAGATAAACTCAAGGTCGCCGAGGATTTCTTCAATAAACATGGCGGCAAGACGATTGCTATTGCACGCTTCGTCCCTATTGTTCGGACTTTTGCTCCTTTTGTTTCCGGCGGCAGCAACATGCACTACGGCCACTTCCTGCATTACAACTTCATCGGCGGGCTTGCTTGGGTGCTGGTCTGTGTGAGCGGCGGTTACTTCTTCGGCAACATTCCTTTCGTTCAAGAGCATTTCAGCCTGGTCGCCTTGGGCATCGTGCTGATTTCCCTCCTGCCAATGGTCTTCGCCTACTTGAAGCATCGATTCAGCAAGACTACCGCTGAATAA
>SRR1151209_01992 membrane protein
ATGCTGCGTCGCTTTCCCCAGTGGGTGGCCCTTTGGCTGTTTGTTTTGAGCGCGGCCATCGCGGTGACGATTCTTGGGACGTTTATTCTGTACCCAATTGATGTGCACTTTTTGAATATTCTGGATCAATCCAATGTGCCGGTGACTTTTGGCCAGTTATATCGTAATTATGGTCAGCTGATGGCCTACCTGCATTTTCCGTGGATCGGGACGCTGCATATGACGAATTTCCCTGTATCGGCCACCGGGGCAGTGCACTTTCACGATGTAAAAAACCTGTTTCTTCTAGATTATGCGATTTTGATCATCACCGCCTGGCCAGCGTGGCATTTCTTGCGCCAATTGAAGCGGCGGGGAAATACGTGGCGGCTGCTGAACCCCAGCCGAATCGCCATGGCAGTGCCAGCGGCCTTGGGGGTCCTGGCGCTGATGGGTTTCGACCAGTTTTTCATTACTTTCCACGAGATCCTGTTCCGCAATTCGGACTGGATTTTTGACCCAGCTAAGGATCCCATCATCACTGTGCTGCCGGAGGATTTCTTTGCGCATACGTTTTTCTTAGCATTCATTCTGCTGGAACTCTTCTGCTGGCTGCTGTATCGGTGGGCTAAAAAGCAGAGCCGCGTATAA
>SRR1151209_01993 HAD family hydrolase
TTGCGGCATTATAAGGGCTATTTTATTGATCTTGACGGCACGACCTATCGGGGCAAGGAGCGGATCCCCGCAGCCAAAACCTTCGTGGAACGGCTGCAGGCGCAACACATTCCGTTTCTTTTTTTGACCAACAATACGACCAAAACACCGGCCGCCGTGGTTCAGAATTTGGCGGATAATCATGATATTCACGTGACGCCGGAGACGATTTATACGCCGTCACTGGCGACGGCCGCGTATTTGCGGGATCGGGCGCGGACGGTGGGGCACCCATTCAGTTTTTATTGCATTGGTGAATTGGGGCTGAAAAAGGCGCTGCTGGATGCCGGGATGACCCTGGAAGAAGTGACGCCGGATTATGTTGTCGTTGGTCTGGATTACGACGTGACGTACCATAAATTTGAACTGGCAACCTTGGCAATCAAGCGCGGAGCCAGGTTTATCGGGACCAATGAAGATACGAATCTGCCCAACGAGCGGGGGTTAGTACCTGGTGCCGGATCACTGATTGCTCTGGTGGAGCGGGCGACGCAGCAAAAGGCGCTTTACATTGGCAAACCGCAGTTGCCGATCATGCAGGCCGCATTGAATGAAATCGGCCTGCCGCCTAAGGATGTTTTGATGGTTGGGGATAATTATCATACTGATATTCAGGCGGGTATCAATGCTAAAATGGATACGCTGCTGGTGACGACCGGGTATACCAAACCGGAGGAAGTGCCTAAGCTGCCTGTCCAGCCGACTTATGTGCTGTCCTGTTTGGACCAATGGCAGGTGATTTAG
>SRR1151209_01994 transcriptional regulator
ATGACTGAACCGGCTAATTCCGCGGAAACGCTGCATACTCCGGCGCACCGGGTCGTGCAATTGAAAGAGGACCTGATCCAGATCGACGATGTGTCTTACCAAGTGGTCACCAATCACAAAGACGGCTTTCAAGCCGACGCCCTCGGAGATAGCTTTGTCACGCTGTTGAGTAAATACGACTATATCGTCGGGGATTGGGGCTTCGACCAGTTGCGATTGCGCGGTTTTTACGCGGATGGGCACCGCCATGCCAATCGGGACCAGTATATTTCCACTTTGGCGGATTATCTATACGAATTTTGCAATTTTGGCTGTGCCTATTTTGTCTTGGCTAAAGTGCCGATGACACCGGGCCAGCAGTTGAATTAA
>SRR1151209_01995 5'-nucleotidase
GTGCAGGAAACCATCCATTTATTACACACGAATGATCTTCATTCCCATTTTGAAAATTGGCCGCGGATCACGCGCCAGCTGGCGGCCCGCAAAGCCCATTGGCGGTTGGCCGCAGGGACCCACACGGTATTGACTTTTGATATCGGTGACGCCATGGATCGGGCCCACCCGCTGACCGAGGCCACGAATGGGCAGGCCAATGTGGCGATGCTGAACAAGGTCGGCTATGATGCCGCCACGATCGGCAACAACGAGGGGATTGGCAATTCGCCCCATGTCTTGCGCCATCTTTATGACCAGGCTAACTTCCCTGTGGTTTTGGGCAATTTATTCAGCGACCGGACGACTCAAAAACTCGCCCCTTTTGCTGTGGATCATGTGCTGCTGCACTCGGCGGGCGGCACCCGGATCCTGGTTTTGGGCTATACGGCGCCGTTTTTGACCACGTATCACGCGAACGGCTGGTATCCAGAACTCATCGGTGAGGTGCTGCCCCGCCAGCTCCATGCCTTTGCTGGGCAATACGATGTCTGTATTCTTTTGTCGCATTTAGGGATTGAAATGGATCGGTACATTGCCGCTCATTATCCCCAAGTGGATGTGATTTTGGGAGCGCATACCCATCATTTGCTGCCTCAAGGCGAGATGGATAACGGCGTCCTGCTGGGTGCCGCCGGTAAGTGGGGCGAGCACGTGGGCGAAATGGAATTAAAACTCGCCGATCACCATGTGACCAGCAAGCGGGCATGGGTCTATGATACTGTGGATCTGCCCGCTGAGCCGGCGGATGCGGCGCAGATCAAAGCCTGGGCCGATGAGGGGCATCATTTGCTGCAGCAGCATCAAATCGCTCGCCTACCCCAGGATTTTCCCATTGATTACAATCATCCGTCGCCAATGCTGGACCTGGCACTCAAGGCCCTGGCTGAATATACCGGCACCGAGGCGACCATCCTGAATGCCGGCCTCTTTCTGACTGGTCTGCACCAGGGCATTGTCACGGCGGATGATCTGCACACACAGATGCCGCACCCGATGCATGCGATGAAGGTCACGCTGAAAGGGACGGATCTGTGGCGGCTGGTTCGCGAAATGGAGAAAAACCGCGGCTTCCTGCGCCGATTCCCATTAAAGGGGATGAGCTTCCGCGGTAAAATCTTTGGCACGATCGGCTACCGGGGCCTGTCTTTTGACGCAGCCAGCCGGACCGTTTACTGGCAAGACCGGCCGATTGACCCTGACCGGGAATATACCGTGGGTACGCTTGATCATTACTTATTCGTCCCGTTTTTCCCAACCATTGAGATCATGGGCGATAATCAAATCATGTTCCCTGACTTTTTGCGGCAAATTGTTGCCCGCTATTTGACCAAACACTATCCAATTGAGTCAGAAGGGGAGTGA
>SRR1151209_01996 metallophosphatase
ATGCAGTTTGTGATCAGCGACACCCATTTTTATCACAGCGACTTGTTGGGGGACAATGACTTCGCGCCCCGGGATTTTCCCACTGTCGAAGCGATGAATCAGCAGATGATCACCGCTTGGAATGATCGGGTGAGTGATGCCGATACAGTTTATGAACTCGGGGACATCGCGCTGCGGCCGAAACACTATTTAACGCCGGCTGATGTGGCCGCCATCTTGGTGCAGCTTCACGGGCATATTGTGCTGATCAAGGGCAATCACGATTATCGCGACCTGTTCAAGTACTTAGCTCAGCATAACCCGATCATGCCCGATGGCCGGCCCAAATACACTTTTCATGATGTGGGCATCATCGTGAAATACGATCATAATCAGTATTTTCTGACCCATTATCCGCTCTTCTTCGGCATCACCCATCAGACTTACAATTTGCACGGACACATCCACCACACGATGATGCCTTACGACACCAACATCAACATCGGGGTAGATGCGCCGGAACGGCAGTGGGTCAAACCGCCCTTGCCCTTTGGGGCACCCTTGACGTTTGCTGAGGTCGAGCAGATGATTGCGGGCAAACACGCCTTTTTGGCCCAGCAGAAAAAGCAAGGGTAA
>SRR1151209_01997 cellobiose-specific PTS system IIB component
ATGGCTGAAAATGAAAAAACAATCATGTTGGTTTGTGCGGCGGGGATGTCCACTTCCATGTTAGTGCAGCGCATGGACGCAGCTGCTAAGAAGGATGGCATTACAGCGAATATCTTCGCAACGGGTGCTTCTGACGCTGACAACAAGTTGGCTGAAAACAACGTCAATGTGCTGCTGCTTGGACCACAAGTTCGTTTCATGAAGGATCAATTCGTTAAGAAATTGGCCGACAAGAACATTCCGGTTGATGTCATCGACATGCGCGCTTATGGCATGATGGATGGCGAGACTGTTTTGCAACAAGCCATGAAGCTGATTGGCTAA
>SRR1151209_01998 tRNA threonylcarbamoyladenosine modification protein TsaD
GTGCGTGAATTAATTCTCGCCTTTGAATCCAGTTGTGATGAAACCAGTGTGGCGGTGGTTGAAAACGGTACGAAAATCTTAAGCAACATCATTGCCACTCAAATTAACAGCCATAAACGCTTCGGCGGGGTCGTGCCGGAGGTGGCCAGCCGCCACCATGTACAACAGATTACCCGGTGTACGGAAGAGGCGATGACCGAAGCCGGTGTGACCTATGCTGATTTGACCGCTGTCGCGGTGACTTATGGACCGGGCCTAGTGGGCGCGTTGCTGATTGGCGTGACCGCGGCGAAGACGATTGCTTTCGCCCACCACTTGCCCTTGATCCCGGTCAACCACATGGCCGGTCATACCTATGCGGCCAGCTATGTGGCGCCGTTCCATTTCCCGTTGCTGGCATTATTGGTCTCGGGCGGTCATACGGAGCTGGTTTATATGGCCAGCGCCTACGACTTTCAGATCATCGGCGACACCCGGGACGATGCTGTGGGCGAAGCCTACGATAAGATCGGCCGCGTACTGGGGATTCCCTATCCCGCGGGCAAGCCGGTGGATGAGCTGGCTCATCAGGGCCAAGATACGTTCCATTTCCCCCGGGCGATGATGGAAGAACATAATCTTGACTTTAGTTTCTCCGGATTGAAGAGTGCCTTCATCAACACTGTCCATCATGCTGAACAGGTGGGGGAGACGCTGAACAAGGCTGACTTGGCTACCAGTTTTCAGGACGCTGTCTTGGACATTCTGGTGGGCAAAACATTACGGGCACTTCAGACCCATCCGGTCCATCAATTGGTGATTGCCGGCGGTGTGGCAGCTAATCAGGGGTTGCGGACACGCATGCAGGCGGAATTGGCTAAACTGCCTGATCCGCCTCAGTTGCTTATCCCGCCGTTACGGCTGTGCGGGGATAACGCCGCCATGATCGGTGCAGCGGCCCATGTGGCCTACGCCCAAGGTATTCGCGGCGACCTGACTCTCAACGCCGATCCCAGCCTGTCGTTTCCCCTCAGCAAAGAAACAAGTCCTGTATAA
>SRR1151209_01999 ribosomal-protein-alanine acetyltransferase
ATGATGAGGGACATGCACCCTATGTTGAGGAAGTTTAAGTCCTGGTTCGGACGCGCCGAACCGCTTGACGTATTGCAATTTACGGAGCAGCCGGTCACGATCAAAGATGTCACCTACCGGATGAAAAAGGCGGTGGAGGCCGATATTCCTGCCATGCTGGCAGTGGAACGGCGAATTTATGCCGGCCGTCAGCCCTGGGATGCCCGCGCCTTTCACTCAGAACTGCGCCGGTACGACAAGGCATTATATTTGAATATTTTCCATCAAAGCGACCTCGTGGCATACATTGGCACTTGGTTTACGCCCAACGAAGCGCATGTCACGAATCTGGCGGTTGATCCAGATTGGCAGCGGCGCGGCTTGGGCCGCTTTTTGTTGACGACGATGATTGAGCGGGCCAAGACAGCGGAGATGCCGAAGATGACCCTCGAAGTACGGGTGGATAACGCCCCGGCCATTGCCCTGTATCACGCCTTAGGCTTTCGCGATGGGGCCATCAAGCCGAATTACTACATTGCCGATCAGATGGATGCGCGAAATATGATTTTGACCATTGAATCAGAGAAGGAGGCTGAATAG
>SRR1151209_02000 tRNA threonylcarbamoyladenosine biosynthesis protein TsaB
TTGCGGGTTTTAGCAATTGATACAGCGAATCAGCCGTTGAGTGTCGCGGTGAGTGAAGACGAGACAGTGTTGGGGACGGTGACGCTGAATATGCGGCGGACCCATAGCCAAACGCTGCTGCCAGTCATCAGCGAGCTGCTGGAGCACACAGAAACACCGGTTGAACAACTGGAACGAATTGCTGTCACCAGCGGTCCGGGGAGTTATACCGGGGTGCGCATCGGCGTGACGACAGCCAAGACCTTGGCCTGGACGTTGGGTATTCCGCTGGTGGCAACAACCTCGCTGCAGCTGCTGGCCGGTAATGTGGGGGCCGCTGATCCGCGGATGATCATGCCGCTGATCGACGCGCGCCACGAGAACGTTTTTGCCGGGGTATATCAGTGGGTCCCTGGACAGGAAGCCACGGGGCCGCAAAATGTGCTGCTGCCCCAGCATGAACCGCTGGCTGAACTGTTAGCTGGTGTCGCGGCCTTGCGGCAGCCGGTGATCGTGGTTGGGAACATCCCAGTTGCGTACCAAGAGCATATCCGCAGCGTCTTGGGCGACCGGGCCGCCTTCGCGGAACCCTTGGCTGCTTTACCCAAGACCAGCCGGTTGGCGCTGTGGGCGCCAGCGATGACGCCGGTGGCTGATCTGCATGATTTTGTACCCACCTACTACCGCCAGACACAGGCCGAGCAGGAATGGAGGCGACACCACCATGATGAGGGACATGCACCCTATGTTGAGGAAGTTTAA
>SRR1151209_02001 hypothetical protein
ATGACAACACAACATTCCTGGAAGCTCACCACACGCCAAATCATTTGGCTGGCAATTCTGATGGCCGTACAACTGGTATTGGCTAAAATCAGCGTCGGCAGCGATTCATTGGTCAAGGTGGGTTTTGGTTTCATTGGTACCGCACTGTTGGGTTATTTCTTCGGACCGTTCTGGGCAGCTTTCGCCAGCGGCGCCGACGATATCATCGGGTTCTTTCTCGGCGGCGGGGGGATTTTCTACTTTGGCTTCACCCTGTCGGCGATCATGGCTGGAGCGTTATACGGCTATTGGCTGCATAATCGGCCGGTCGAATGGCGGTATACGATTCTCGGGGTGGTGAGTGTGACGATCATTGTCAATATGCTCATGAATACCCTCTGGGTCCGGTTCATGTACCAAACCCCATGGCCACTGCTGATTTCTTGGCGGTTGCTTAAGCAATTCATTTCTGCCCCGATTCAGATCGTTATTCTGTATTCGGTGCTGAAAGTATTGGTGCGGGTACCAGGGACGGCGCAGTTGCAAAGTAAATAA
>SRR1151209_02002 L-asparaginase
TTGAAAAAAATTCTGGTCCTGCATACTGGCGGTACGATTTCAATGTCGGCCAATGCCAGCGGTGATTTACAGCCCAATGATGAAAATCCGTTAGTAGCCGATGTGGATATGGAAGGCATGTTCCATCATCAGCTGCAGCTGATTACCGAGGAAATCTTCAATCTGCCCTCGCCCCATGTTACCCCGGAACGGATGCTGGAATTGCGCAACCGGATCGTACGGGCGGAAAACGATGAAGGCATTGACGGCGTGGTGATCACCCACGGAACGGATACGCTGGAAGAGACCGCCTACTTTTTGGATCTCACACTGCCCAACACCATTCCAGTCGTCGTCACCGGTGCAATGCGCGGGGCCAATGAAATTGGCAGCGACGGCTTGCATAATTTCCAAAGTGCCGTTTGGACCGCTAATTCCGATGATGCCCGGGGCAAAGGCGTCTTGGTCGTCATGAACGACGAGGTGCACACCGCCCGGTTTGTGACCAAGACCCATACCACTAACGTGGCCACCTTCCGCACGCCGACCTTTGGCCCCATCGGCTTGATTTCTAAGCAGCATGTGAACTTCTTTCAAGAATTGATCCAGCAAACCGTCTGCGACATTGACCATGTCATCGGCGGCGTTTACTTATTGAAGGCCTTTGCCGGAATGGATGGCGATTTATTCGACGCCATTGATCAGCCCACCACCCGCGGACTCGTTATTGAGGCCCTCGGTGCTGGCAATCTGCCCCCAGCCACCTTGCCGGCCCTGCGCTGCCTGCTGGCCCACGATATCCCAGTCGTCCTGGTCTCCCGCTGCTTCAACGGCATCGCCGAAGACGTTTACGACTACGAAGGCGGCGGTGTGGAATTGAAGAAAATGGGCGTGGTTTTCTGTCGCGGCCTGAACGGGCAAAAGGCCCGGATCAAGCTGCTGGTCGGCCTGAGCAACGGGATGCAGGGCGAAACTCTGCACCATTATGTGAACAACGCCTTTTCATAA
>SRR1151209_02003 acyl-ACP thioesterase
ATGGCCCTAATTTGGTCTGAACACTATACAGTCCCGTACTTCATGGTCAATACTCGGGAAGAGATCCATTTATCCAGTCTGATGGAAATTTTGATCATGGCGTCGGAGCATCAAACGGAAGCGCTTGGTGTCGGCGAAGATAAAACCCATGCGCATGGTGTCGGCTGGGTCATTACGCAGTACCACATGACGTTTACCCGCCTGCCTAAAGTGGGCGACAAGCTGGAATTGCGCACCGCGGCGTCCAGCCGCAACCGGTTCTTCTGTTATCGCGAGTTCTGGGTGCTGGATGATCAGGGTACTGAATTGGCCCATGTCACGGCGACCTTTGTGATGATGAGCTTTAGCACCCGCAAAATGGTGCCGATCATCGATGAATTAGTGGCTCCGTTCCACACCAAGGAAGAAAAGACGGTCTTGAAGTTCCCCCGGATCAATAAGATGGATTACACGGATGCTTTGATGAAGCCTTACCGGGTGCGGTACCAGGATATCGATTCTAACCATCACGTGAATAATGTGCATTATTTCGATTGGATGATTGATACGCTGCCGTTGGATTTTGTCCTGCATCATGCGCTGACGCAAGTCGATATTCGCTATGAACGGGAGATTCAATACGGCGACACGGCGGAATCCTTGTATCTGGCGGATCCGGAAGATGCGTTAGCAACCCATCACTTGATTCGGCACAATGACGAAATGAATACTGAGGCCATTTTGCATTGGGCTGAAGATTGA
>SRR1151209_02004 16S rRNA methyltransferase
ATGGCGAACGATAACGCGGTCCAGGTCCAGCGCAGTTTCGGTGAGCACACCACTGGGACGCTGTATCTGGTGCCCACCCCCATTGGCAATCTGAGCGATTTCTCGCCTCGGGCGGTGGATATCCTGCGCGGGGTTGATCTGATTGCGGCTGAGGATACGCGCAATACTCAGAAGCTGCTGACGCATTTCACCATTGATACCCGGCAGATCAGCTTCCATGAGCACAATACGCAAGCCCGGATTCCCGTTTTGCTGGCCCGTTTGCAGCAAGGGGAGAGCATCGCCCAGGTTTCTGACGCGGGGATGCCGGCCATCAGTGATCCGGGGCAGGAACTCGTGGCCGCTTGTGTGGCCGCTGACATTCCGGTGGTGGCGCTGCCTGGACCCAATGCCGGGATGACCGCGCTGATTGCCTCCGGATTAGTCACCCAGCCCTTTGCCTTCATTGGTTTTTTGCCGCGGAAGAGTCAGGAGCAGAAGAAGTTTTTGACCGAATACGCCCAGTTGCCGATGACAACGATCTATTATGAATCACCCATGCGAATCGCCAAGACATTGGCTCGCTTTGCGGAAGTGGTGGGCGGTGAGCGGAAAATCGTGGTCGCCAGGGAAGTGACGAAGAAGTTCGAGTCTTACATCCGGGGAACCGCCGCCGCAGTGGCTGCCTGGGTTGCGGATAACTCGCCTAAGGGCGAAATGGTGATCATTTTAGCCCCGCCCGCAGCCCAAGCGGAAACAGTCACCTGGTCGGGAGAAGCCGTTCGGGCGGCAGTCCAGGATCGGGTGGCCCATGGCGAGAAGCCGACGATGGCGGCCAAGGCCGTCGCCAAGGAAAGCGGTTGGCACCGCCAGGACGTGTATCAAGAATATCTTGCTGAACAGGAAAGAAAGTAG
>SRR1151209_02005 DNA replication initiation control protein YabA
GTGACGCAGGTGACTGAACAAGAAGTTGAAAAACAGGATCTGTATCGCGAATTAATGGCATTGAAAGAAAGTGCGGAAAACACCCTGGCACTGGCCAATAAGATGACGGACGAGGTGGCGGATCTCACAGAGAAAAATGCCGAACTCCGCATTGAAAATGTCAATTTGCGCAACCGCTTGGAGGAATTAAGCCGGCCCGAGGGCGATAAAAATCAAACCAAGGAAGGCCTTTCCAAGTCGAAAAAGAACTTAGAAAAGTTGTACGAGCAGGGCTATCACGTGTGCACAGTGATGTATGGTTCCCGCCGCGAAAACAACGAAGACTGCGCCTTTTGTTTGGATGTTATTTATGGCGAACGATAA
>SRR1151209_02006 DNA polymerase III subunit delta'
ATGCCAGCCGACACGCAATGGGCCGTGACCCGGTTGCAGCCCACCTTGGTCCAGCATTTCAATACGCTGATCAAGGATGATAAACTCGCCCATGCTTATCTGTTCAGCGGAACGCAAGAAAGCGGCACAACCGCCCTCGCCCAGTGGGTCGCGTTGCGCCTTTTTTGCAGTAATATACAAAATGACCAGCCCTGCGGCCAATGTCCTCACTGTCGACAGGTGTTGTCCGGCAACCACCCGGATTTTTTGAAGATCGTTCCCACCGGCGCGACGATCAAGGTCGATGATATTCGCTATTTGCGCCAAGAAATGACTCGGACGGGGTTGGAACAATCCCGTCGAATCTTTGAAATTGACCAAGCCGATCTGCTGACGCCCGGGGCGGCGAATTCCTTACTGAAGTTTATTGAGGAACCGCCAGGGCCGGTGCTGATCATTTTGGTGAGTGAGCAAAAGCAGCGATTGCTGCCGACGATCCTGTCCCGGGTGCAGGTCATTGATTTTCCGCCGGTTAGTGCGGCCCAAGTCGCCGATAAATTGACTGAGGAGGGACTCAGCCCAGAGTTAGCCCCATTATTCAGTGCGTTGGGGACGTCGGTGACCACGGCCCGGGAATTGGCAACAGACAAGAATTTGACGCCGCTCATTGAGACTGCCTGGCAGTGGCTGACAGCAGTGGGGCGCGGCGATTGGCAGGCATTCATTCTGGTCCAAACGCGAATCATGCCGCTGGTCAAGGACCGGCCAACGCAGAACTTATTCCTGGATATTCTGATCACAGCGTTGCAAGATATTCTCATGGCCCAATATGCCCCTGCGCTGCCCGGTCATTTTCCCCAGCAGCGGACGCAATGTACGGCGGTGGCTCAGGCTTTGCCGCCGGCCGTCATGACCGCCGCGGTCAGCGATGCCTTGGCGGCCCAGCGCCGGCTGCAGGGCAACGTGGGCTTCCAAGGCTTGCTCGAACGCTTAACGGCGCAAATACTCAGTTCTCTAACGTAA
>SRR1151209_02007 hypothetical protein
ATGAAATTGATCATGGCGATTGTCCAAGACAAAGATAGCAGCATGCTCCAGAATGAGTTCATTGACGCCAATATTCGGGCGACCAAGCTGTCGACGACCGGCGGCTTCTTAAAATCGGGGAACACCACGTTCATCATCGGGATCGAAGACGAACGTGTGGAGGAAGTGCTGGCGCTCATCAAGAAGACCTCTCATGCCCGGGAACAATTCATGACTCCGCCGGTCAGCATGGATGTGACTGGCGACAGCTCGCTGTCTTACCCGATCGAGGTGCAAGTGGGCGGCGCGACAGTCTTTGTCCTGCCGGTTGAGCAGTTCCACCAGTTCTAA
>SRR1151209_02008 thymidylate kinase
GTGAACGGATTATTTATTTCATTTGAGGGACCAGACGGTGCCGGCAAAAGCAGTATGCTGCAACAGCTCGTACCTGTACTAGAAGCGTATTCAGACCACTCAGTGGTTTTGACGCGTGAACCCGGCGGCAGCCCGATTGCGGAACAAATCCGCCACGTTATTCTGGATTCGAACAACACCGACATGGCGGCCAGTACCGAGGCACTGCTGTATGCCGCTGCCCGCGCTCAACATCTGCATGATGTGATCCGGCCGGCTTTGCGGCAGGGCAAGATCGTTTTGTCTGATCGGTATGTGGATAGTTCTATTGCCTATCAAGGTGCCGGCCGTGAGTTAGGGACCGACGCCGTGGCGGCCATCAACCGGTTCGCGACCAACGGCACGATGCCGCAATTGACTGTGTACGTTGATGTGCCGCCGGCGGTGGGCATTGCCCGCATCCAGCATTACCGCGCCCAACCGGAAGATCGGTTGGAAGAGGCTGGGGCGGCGTTCCATGACCGGGTCCGCGCTGCCTATCAGGCATTAGCGCACCAAGAGCAGCAGCGCATTGTCACGGTGGACGGCACCCAGCCGATCCAAACAGTCGCGGATCAGGCGTGGGCTATTATCCAGCAACGGTTTCCGGCATTTTTTAACATCTGA
>SRR1151209_02009 hypothetical protein
ATGTTTAAGCAGCACAAGTTACGTGCGGAATTCGATGCCGCTCTGTTGGCTGAAATTAATGTGATCCGGGAAGAGTGGCAGCGGGAACAGCACATCGCCAACGCGGCGGTCCCCACCGCTTGGAGTGACGAGAGCGATGTGCAGATCTTGAAGGCGCGTTACGAACTGTTATACAGCGAGGCGCGCCGCCGGCATTTGCATTCCCATACCATTGCCCCGGGACTCATCAGTCATTTTACGGATACATTTAATTAA
>SRR1151209_02010 recombinase RecR
ATGCTGCAATATCCGGAACCCATCGCAAAATTGATCGACAGTTATATGAAATTACCCGGGATCGGTGAAAAAACTGCTACTCGGTTGGCCTTTTTTACCCTGGATATGCCCCAGGATGAGGTGGATGAATTTGCCCAAGATTTGCATGATGCCAAGACCAAACTGCATTTTTGCTCGATCTGCGGCAACATCACGGACCAGGATCCCTGTGTGATCTGTTCTGATCCGTCCCGGGATCAAACCCGAATCCTAGTCGTGGAACAGCCTAAAGATATTATGGCGTTGGAACGGATGAATGAGTATCACGGTTTGTATCATGTCCTGCATGGCGTTTTGTCGCCTACGACGGGCAAAGGACCGGAAGATATTAATATCAAATCGCTTCTGACCCGGCTGCAGCAGCACACGGAAGTTAAAGAGGTGATCATTGCCACCAACGCGACGCCGGAAGGGGAATCCACGGCGATGTATCTGGCCCGGCTGATCAAGCCGGCCGGCATCAAAGTGACCCGGCTGGCCTATGGTCTAGCGGTGGGCAGCGATATTGAATACGCAGATGCCATGACCTTGATCAAGGCAGTGGAAGGCCGACAGGAGATGTAG
>SRR1151209_02011 DNA-binding protein YbaB
ATGGCTAAAATGCCCAATTTTGGCGGCGGCAACATGCAGAATATGATGCGCCAGGTACAACAGATGCAAAAAGAAATGACCGCGGCCCAGGACCAGCTTGATAAGACCGAATTTACTGGCAAGGCCCCAGAAGATATGGTGACGGTGACCTTTACCGGCAAACACGAAATGACTGATATTCAAATCAAGCCCGAAGCGATCGATGCTGATGATCCCGATATGCTGCAAGATCTGATCATTGCCGCCGTCAACGACGCCGAGAAACAGATCAAACAGACGACAGACAGCACCATGGGCCGCTTCGCTAAAGGAATGTAA
>SRR1151209_02012 DNA polymerase III subunit gamma/tau
ATGGCTTATCAGGCGCTGTATCGGGTGTGGCGGCCCCAGCGATTCGCTGATCTCGTGGGGCAGGAGACGGTGACCCAAACGCTGAAAAATGCGCTGATCACCGATCAAATCAGTCATGCCTACCTATTTACCGGCCCCCGCGGGACCGGGAAGACGTCCGCGGCGAAGATCTTAGCTAAAGCGGTCAATTGCCGGTATCGAGAAGACGGAGAGCCTTGCAACAAGTGCGAGACCTGTCAGGCCATCACCGCCGGCCGGCTGGGTGACGTCATCGAAATTGACGCGGCCTCAAATAACGGCGTGGACGAAATTCGGGATATCCGGGACAAGGCCAAGTACGCTCCCACTGTGGCCGACTACAAAGTGTATATTATTGACGAAGTGCACATGCTGTCGACCGGGGCCTTTAATGCCCTGCTCAAAACCTTGGAAGAACCGCCGGCGCATGTGATTTTTATTTTAGCCACCACCGAAGTGCAAAAAGTCCCGGCGACGATCATTTCCCGGACCCAGCGCTTCGACTTTAAGCGGATCGCCACCGAGACCATCGTGGCCCGGATGCACTATATTTTAAAGGATATGCAGATCACCTTTGACGACGCGGCCTTAGAACTGATTGCCAACGCGGCGGCCGGCGGGATGCGGGATGCACTGAGTATTTTGGACCAAGTCCTCTCCTTTGGTGCCGACCACGTGACGCTAGCCAATGCGCTCACCGTCACCGGCTCCTTGTCTGGCGATACGCTGACGAAGTATTTGCGGGCGGTCAACGCTGGCGAAACGGGGAATGGTTTAACGATCGTCCAAACGGAGCTGGCCGCGGGGAAGGACCCGAATCAGTTCATCACGAACCTGCTGATTTTTCTGCGGGATCTGCTGCTGTACCGGCAGGATCCCCATTTGGCCCGCAGTTTCTACGCGACCCAGGATCCGGCCGCCTTTGCCGAGCTGATCAAACAAATTGACGATACGCGGGTCTATCAGATGATCGACGTGCTGACGGATGTGCAGGAACAATTACGCCAAACGACCCATCCAGATGTCTATTTGGATGTACTGACAGTGAAATTGGCGACCCTCAGCCAGACCGTCGCTGAGCCAGCGGCGGCCCCGGCGGCTCAATCGGCACCCGCGCCAGAGGCGCTTACTGAGACGATCAAATCCCTTGAACAGCAAGTGGCGGCCTTGCAGCAGGCAGCGAAGGGCGGCACGGCGCCGGCTGCTGGGCCAGCGGCGGCCGTTAAGCGCAAAGCGCCCCAGCGGCATACCAAGGTCCATGTGAATCTGGAAGAGATCAACACGGTCCTGGGGCAGGCCACTCGTCAGAATCTGGCCAACTTGCAATCGATATGGGGCGATCTGCTGAATATGCTGGATGTTGGCCAGCGGGCGATGCTCCATGTGGGTACCAAACCGGTGGCCGCCAGTCCCGAGGCGGTTGTGGTATCCTTTGATTATCCGATGATGTTTGAGCGAGTGGCCAAGGATCAAGTCTTGCGGGAACAAGTCGAGGCCGATTTGAACAAATTGGCTGGCAATCCGATGCACGTCTACTTCGTGCCCAAAGAACAATGGCCGCAGATCCGTAAGAATTATTTGCTGGCTCATCCGGTGGGCAAGCAAAAGTCCGGCCGGCCTGCTCCCGGTGACGCCCCGACGTCAGCGGCGGCCAGCACCGCGACGGCCAGTGCTGCCCCCGCGGCGGCGCCAGCCAATCCCCTGGTGGACAAAGCCAAGGCCTTGTTCGGCAGTTTTGTGGAAGTCGACAATGGTTCAAGCAAACAGACAGCATCCTCAGACAATAACCAAAAACAAACAGATGGAGTGAAGACAAATGGCTAA
>SRR1151209_02013 MarR family transcriptional regulator
ATGTCGTGCGTAAAACTGTCCAAGAACGGCTGCGCCAAGGAATTCACGCTGGCAATGTTCAGCGGTGAATGGAAAACGGTGATCCTGTGCAATCTGCACTACCACGGCCCGTACCGTTTCAATGAACTGATGCGGCGGCTGCCCAAAATATCCCACAAAGTGCTGACCAGCCAGTTGCGGGAACTCGTTGAGGATCAGCTGATCACCCGGCACACCGGGGCTGGCAGCCAACCGCAAGTCTACTATGCCCTCACCGCTCTCAGTCAATCCCTGATGCCGATCATTGACGCCATGTGCGCTTGGGGCGAACACCGGATCCAGCAGCTGGCCGTGACCCCCCAGTACAATATCCGCCTGCCCGCCCAAACACCCAGTCATGCCTGA
>SRR1151209_02014 deaminase
ATGGGCGAAGCGCTCAAAGAAGCGGATGCCGCGCAAGCTTTAGGCGAAGTACCGATTGGCGCCGTCATCGTGGCCGACGGCGGCGAAATCATCGGCCGGGGGCACAATTTAAGGGAAGTCAATCACGACGCTACCGCCCATGCCGAAATGATTGCGATCCATGAGGCCTGTGCCCGGCGCAGCAGCTGGCGCTTGACCCATGCCAGTTTGTTTGTGACGTTGGAACCGTGCCCGATGTGTGCCGGGGCAATCATCAACGCCCGCTTGGATGCGGTCTATTATGGCGCCCCGAACCCCAAAGCAGGCAGTGCTGGCACCTTGATCAATCTGCTGGACTTCCCCGGCTATAATCATCACGTGCCCACATATCCCGGTGTCCGGGAGGGGGAGGCGGCCGGCCGGATGAAGGCGTTCTTCAAGCGCATTCGAGATGAACTGAAAGCTGCCAAGCGGGCGGCCCGGGCAGCTGGGACCGACGATCGTCAGGCATGA
>SRR1151209_02015 PucR family transcriptional regulator
ATGCCCCTTGATGCTGCCGACTGGCAACGAATTTATCCCACCGCTCTCGTGGTCGATCAGCCCTTGTCTGATCCCCGTTATTTATCCCTTCCCCTGCCGGAAAAGCAGGGGTACATTGCCATCGACCGCAACCCCCTGAGCCGCAGCGAGGCGACGCTGTTGGAAACGTTGGCGCAAGATGACGAGACGCCGGTACAAAATCCCTGGTACGCCTTTTTGACCGGCCAGACCAGCAAAGCCCCCGCCCGGTTCACCGGCTTGCGGGTGGTGCAATTGCGGGTCACCATGAAAGACGCCAGTGTCAGCAAAACTGATTTTCTTGAAGCCGCCATCGGCATGTTCGACGACCTGCTGGCCCACTTCTGGGTCGATGATCACTATGCCTTGCTGATCGAACCGCTGAGTACTAAGAATCCGGATCACCAGACCCTGGCCGATTTCGCTCAGGTACTGGCGGCGATGGAGACCGACTTTTACGCCAACATTCAGATTTACGTCGGCAACTTCTGGCAAGCAGAAGATCCGCTGCCCCAGCTTTTTGCGGAGGAACAGCGGATCTTTGCCGGGGTCAAGGCAACCAAACCGCAAAGCGACCTGGCCAGCCAATCCTTGGCCTATTTCACCGCACCGATGCGGGCCCAATCGACGGTGTATGAAACGCTGCGCACCCGATTAGCCGAAATGCCGGAATATGCCGAGGTGATTATCGCCTTGTACCAGCATCAGGGCAATATGACCGGCGCCGCCAAAGCTTTGTATCTGCATCGGAATACGCTGCAGTACCGGATCGATAAATTTCAGGAACTCACCGGCTGGTCCTTGCGGGACATGGATCACTTGACCCTGTGTTATCTCCTGCTCATCGAATGA
>SRR1151209_02016 16S rRNA methyltransferase
ATGGCTGACCATTATTATTCTGTCGATCCGACCAGTGCCCATGATCGGCATACTTTTGACGCCACGCTGCGGGGAATTCCCTTCCGTTTTGTGACCGACGCCAGTGTCTTTTCGAAGGAGCGGGTGGATTTCGGCAGTCAAACGCTGATTGATACGGCGGATCCCGCCGTCTGGCCAGCGGGGGCAATTCTGGATCTGGGCTGCGGCTATGGCCCGATTGGCTTGACCATGGCTGCTTTAGCTCCCCGGCGGGAAGTGGACATGACGGACGTGAACGAACGGGCTTTGGGTCTGGCGGTGGAGAATGCCGCGGCCAACCACATTCACAACGTTCATATTTTCCCGTCCAGCGTGTACGATGCGATTGATGGGCGTTATGCCGCCATTTTGACCAACCCGCCGATCCGGGCGGGGAAGGATGTGGTCAATGCCATCTTGACGGGAGCGGCGGACCACTTGGTGGAAGGCGGCCATTTATTAGTCGTGATTCAAAAAAAACAAGGCGCCCCGTCTGCGAAGAAACGCATGACGGCCGCCTTTGGCAACTGTACGGTGCTGAAACATAATAAGGGGTATCAAATTCTGGATAGTGTGCTCATTCGATGA
>SRR1151209_02017 lysyl-tRNA synthetase
GTGCGGAATTTCTGGCAAAAGCTGACCGGCTTCGCCAAATTGCATAAGACGATTTTGAAGGCCATTTTTGTCATGTCCGTCATCGTCTTCGTCATCATTGAAGTCGGCCGGATCGGGCAAGATGTCGATCCAGTCCAATTACAAGAATATCTGACCAACCAAAGCTTGGGCAGCGTCCTCAGCATGCTGGTGTTGGGCCTCGTAGCGGTCACACCGATGCTGAATTATGATTTTGTGATCCAAGAGTTTCTGCCAGAGCGGGCAGAAACGAAGTATATCCTGAAATCGGGCTGGGTGGTCAACACGTTTAACAACCTGATCGGCTTCGGGGGCGTCCTGGGGGCGACGATGCGGGCCACGTATTACGGCAAGCATGCCAGCCGGCGGCAGGTGATTTTTGCGGTCTCAAAGATCGCATTATTCCTGCTGTCTGGCCTGTCCGTCTGGTCGCTGCTGGCCTTGGTTGAAATGTACGTCTTCGGTATTGGCCGAGAGTTCACGCAATATACGATTTGGCTGATTGGCGGCGGGTTGTATTTTCCGATCCTGCTGGGCTTCACGCATTTACGGGAGTCGGAGTTCTTTGCGGATCTGCCTTTAGCCCGGGAAATGCGCTTGACGCTGGGTTCTATGCTGGAATGGGGATTTGCCGGGGGCTTTTTCCTGTTCATCGGCTATCAGCTGGGCTTGACCCATTTGGCGGCGGTCTTCCCGCTGTTCATGATCGCCAACGTTGTCGGGATCGCCTCCATGGTTCCCGGGGCCATTGGCAGTTTCGATGTTTTCATGATCATGGGCTTGTCGGCGGTGGGCGTTGATCCCAGTATCGCTGTGGTCTGGCTGCTGTTCTACCGGGTATTTTATTACCTGGTACCTTTCGCCATTGCCGTCGTAATCTTTGTCCAGGACATGGGCAAGCGGATCAACGATTACCTCCAGGGCATTCCCATGCAGCTGCTGTCCCGCGGGGCGCATCTGGTTTTTACGATTTTGCTGTATTTCACGGCGATCATGCTGTTGATTCTGGCCACAATGCCGAACTTTGCTTTGCAAAATCATGTGCTTCATTCATTCCGGCCGTACACTTTAGTCTTTTTGGGCCGGGCGGCGAACATCGTGATCGCCTTTATGCTCATGGGCTTGGCCCGGGGCATCGCCAACAAGTCGCGCAAGGCTTATTGGCCGACGATCATCATTCTGATTTTAGGGATGATCACCACCTTGCTGAAGGATACTTCCTTGAAGACGATTATCTTCCTTGGCGTCATGATCATTGTGACGCTGCTTTCTCGCCGGGAACTGTACCGGGAACGGATCCAGTTTGCTTGGGGCGACCGGCTCTTCGATGGGATGATCTATATTGCCGCCTTCGTGGCCTACGCTGTGGCCGGGTTCTATAATGCGCCGAACATCCATCACCGCCGGCCGGTGCCGACCGCCTGGATCTTCCCTAGCTGGCGATTGTATCTATCCGGGCTGATTGCTATGTTTATTGCCATTGTGACGGTGTACTTGGTGTTGAAGTACCTGTCCGTGGGCGGGGATAAACTGGACGCCGGTTTTGATGCGGACAGAGTGAAGGCCGTGATCGATCAGTACGGCGGCAACCTGGTATCTCACTTGGCCTTCTTGCGGGACAAGTCGATCCACTACTACCAAGTCGATGGTCAGGATCAATTATTCTTCATGTATCGAAAAAAGGCCGATAAGATCATCATCATGGGCGAACCGGTGGGGAATCAGGACTATCTGGTGCCCGCCGTCGAAGAATTCATGAATGAGGCGGACAAGTTGGACCTGTCCTTGGTCTTCTATGAAGTATCCGAAGGGTTCACCATGCAGATGCACGATCTGGGTTTTGATTTCATGAAGTTCGGCGAGGAAGGGTTAGTCGCCTTGCCAGACTTCAAGATTTCCGGCAATCACTTCAAGGGTGAGCGGTCACTGATGAACCGTTTCAAACGGGAGGGCTACACCTTTGACATCATTCAGCCCCCCTTTGACGACAAGACCATGGCCCGGCTGCAGGAGATCTCAGACAGCTGGCTGGCTGGCCGGGAAGAGAAGGGCTTCTCCCTGGGCTTCATGGACCGCTATTATTTGGAACAAACCCCGGTGGCCGTGATTCGGGATAAGGACGGCCAGATGATTGCCTTTGCCAATTCAATGCCTGCCGGCAGCAAGGAAACCACCAGCATTGACTTGATGCGCCATATGGCGGATGCACCGTCCGGAATCATGGATGAAGTGTTCATTAACCTGTTTTATTGGGGCCGGGATAACGGCTACCAGTATTTCAACATGGGTATGGCGCCGCTTTCCGGCGTGGGAACCAACAGTTATGGTTTCCTGGAAGAGCGGGCCGCCCACTTGATTTATCAATATGGTTACCGTTTCTACGATTTCGGTGGCCTGCGCAGTTACAAGAATAAGTACGTGACCAAGTGGGTGCCGCGGTATGTGGTCTACTGGCGGCGCAGTTCTGTCCTGTTCACCATGCTGCAGATCCTGCTGATCGTGAATAAGAAGATCGATCCCCAGCTGTATCAGGCTGGGATGTATCAACCGCAATTCTTTGGCCCGCATAATGTCTAG
>SRR1151209_02018 amidase
TTGAAGAAACGGTATTTACTACTCAGTTTAGCCTGCGCGGCCGTCCTGGGGACAGCAGCCTTGCCCAAAATGGCCCAGACTTGGTCCTACCGCAGCGACGCCTTGATTCAGCCCGTCGCGGTGGACAATCAGTTTATCAACGATCAGCATTTCAGCAACCCGCCGATCATCACCAAACCCACGACGTTCACCCATATGAACGGTTATCGCAACGGTGTTGGCAAGCCGGAGGGGGTTGTCATTCACGAAACCTCTGATCCCGACATGACCTTGGATGAAGAAGTGACCCGGATGCAGACCGAATGGCAGAAGCGGGAAGCTTACGTCCATGCATTTGTGGACCATAGCGAAGTGGTCAATATCCACCCGACGGATTATGCGGTATGGGGCGCTGGCTACTTTGCCAATCAGCGGTTCATTCAAATCGAACTCGTTGAGGAGCATAACGCGCAGGATTTCGCCCAATCCGTGAATAACGACGCGTATTACGTCGCGACTTTGCTGAAGAAATACAATTTGCCGGCCGTTTTGGCTGATCACACTGGCCAGGGAACGATTTGGTCCCACAATGCGGTATCTCAGTGGTTGGGCAACACGAACCACACCGACCCGGAAGCATATTTTGCTTCTTGGCATTACAGCATGGATCAGTTTGCCGCACTCGTGCAGCAAAAGTTAGCAGCCATGAATGGGACGGCCTATGACACCGTGGCGACGAAAGAGGCTGCCACAGGAAATGCGCTGGTTACCGGCACTGCCACAAAGTACTATCTGACGGACGCCGGCTTCAAGCCGGCTGGCAGCAGTGCGGCCTTGAAGGGCCAAACCTACCGGATCACCGCAAAAGCAACGACGACCCAAGGCGCGACCATGTATCTGCTGGCGAATGCTGCGGGTGTCGGCCAGTTCTGGCTGCCGGCCGCGGGCATGGAGATCGGTAATTCGGGCTCAGGCAGCACCGGGAACCAGGCATTCCGCGGCGTCGGCCGGATCAACTACGTGCCGGGTTACGGCATTGCCGTCTGGCGCAATGACGGCAGCCGCATCGCGGGCAAGTATTTAGCCCACGGCAGCGCCTGGCAGCTTTATGCCAAGAAGACCGTGAACGGCGTCACTTGGTATAATCTGGGCGGCGACCAGTGGATCAGCGGCCAGTACGTCGTCTTACAATAA
>SRR1151209_02019 hypothetical protein
ATGGCAGGAGAAAACAATAATTTACCAGTCCGCACATATCAAAAGCAGTTTGCCCAGTTGCTGCAGGAGTTTTACCGCAAGCAAGCATATTTTAATCAAAACATTGAATCCTGTGAACTTGCTCCAGACACAAATTCAAATGAGCTTCTTTAA
>SRR1151209_02020 phage scaffold protein
GTGCATGGGGCCGTTTGGCCGTGTGTGGGGCTGTATCAACGGTCCTTTTTGTTTTGGGATTCGGAGGATTGCAAAAATCAAGCAGCACCTGAAACGGAAGCACCTGACACGCAGCAAACGGATCCAGCGACACCGGATCAACAGAATACCGAGACCGAGCAGCAGGAACAATCCTTTACCCAGTCTCAGCTAGACAGCGAAGCCGATAAGCGGGTCGCCAAGGCGCTGGCCAAGGCCAAAGCGGACTATCAGTCCCAACTCGATAAGGTGCGTGAGAGCGCCAAGTCCGAGGGCGAGAAGTACGCTAAGATGACCGCCCAGCAGAAAGCTGATGCTGAGTTCCAGGCCAAGCAGGACGCTCTGGATAAGCGCCAGGCCGACTTGGATCGGCGGGAGCTCAAAGCTAATATCGGCGACTCGCTGCACGAGAAGGGGCTGCCGGCTGAATTGGCAGATACGTTGGTCGTGATCGGCGACGCCGAGAAGATTCACGCGGTCCTGGACACGGTCTCCGACACGATCCAGAAGCAGGTGGCCGAGGGTATTCGGGAGAAACTGCAACAGAACCCGCCCAAGGCTGGCGCGTCCAACCTGTCTGGTGCTGATGATCCGTTCAAGGATAAGCTCAACAAGTATAAATAA
>SRR1151209_02021 hypothetical protein
ATGATGGTATTTGAAGGCGATGCGGGTAAAATTGCTAATCGAGCTGATATGAATTATCAGAAACGATTTGGAAAATATCCGCCTTTTACTGCAATTGATAAATTCATGCCGAATGATATCGTACTCAGAGAGTCGGTTGCTAAGAAATATGCTGAATATTTGGCGTCGTTGAGTGAGCCATTACCGAATGATGATCCACCAGACAGGTTGTATTGA
>SRR1151209_02022 phage Mu protein
TTGTTCTGGGTCGCCTTCCTGGCCTTGCACAAGACCTATTCCCACGCGGATAATTCCAAGCTCGCCAATCAGGGGCTCAAGCAGCGGCTCGACAAAGAAGCCAAACAAAGCGGTGTATCGCGGAAGCCAGTCAGTACCAACGACGGCCTTCTGCAATATGCCGCTTTTGTGTATGCCTCTACGTTGGCCGCTAAGCAATTGTCCGAGCGGCTCACTCAAACGGCTAAAATGGGCCGTAAAATCGATATGGCGGGTACTCCCGATGCAAAGCTGCATCCCAAGAAGCTGGCCGAGGACATCATCAACGAGTCGCTGGACGGGACGGTCTGGTCTGAGCGGATCTGGAACAATATGGAGATGTTGCGGGCGAGTATGTATCAGCAGATGCAGCGGACACTCATCTTGTCCGAGAATCCGATTGCCGACAGCGCTGATCTGCGCAAGCAGTTCGACGTGACGGCTTATCAGGCCGACCGGATCCTGCGGACAGAGGGAGCCCGGGTGATGAACGCCCAGCAGCTGGAGAACGTCCGGACGGCTGGGTACAAGCGAGTAAAGTGGATTGCTAATACCGGAGCGTGTAAGTTCTGTCACGCCCACGCCGATGAAGTTTACGCGCTGGAGGAAGCCGATGGGATCCTGCCGGCCCATCCTAACTGTGAGTGTAGCTGGGCGGCCACTGATGACTCGACCATATTCAGCATGGGCTGGGATACAAACAAAATCGATTGGGATACGTTCGATTACGACAGTGCGGTGGCACGGGATCCAAGCGCTGATGAAAGGGCATTTATTCGCGATACGATTTCATCGATTAACAATACTCGGCTTAGGCGGACGGTTGCTGATGCAGAGAGCAATATACGCATTATCGTCAAGCCGACACCACGTGCCCAAGCTTTATTTCAACCGGGAAAAAGTGCAGCCACGACGTATATCCAGATGGATCCAAGGCTGTTAACTCGTTCCGGATATTTCAAGGAGGGATATGAACCACATGGTGAGGCACTGATTCACGAACTGGGACATTACATTGACTCCTTAAACGGCTTTCCATCTGTGCAGAATCGCGACGTGATACGCGACACGATTCATCGAGATATCACCAAGAACTTTATGTATGCCCATCCGGTCAGTCCCGGATTGTCTCCTAGCAAATTGAAGGCCGCTCTGTCCGACAATATCAATAAAGCCTTGGAGGGCATCTATCAGAATCATCCCGCCACTTCATATTCAGATCTGAATGATATACTCAGTTCAGATGTTGCCTTTTATGATATTCCTCCCAAAACGGGCCACCGAGTTCCATATTGGATCAATTCAAAAAACAGACAATCAGCAGAAGTGTTTGCTGATTTGTTCTCAGTCAAGGCAATTAATCCAAAAGGCTATGCCTTAATTCAGGAATATCTTCCGGATACGGTGGATCAATTTGAACAAATTTTGAATGGGGTGATTTCAAAATGA
>SRR1151209_02023 hypothetical protein
ATGAATCAAAGCAATCTTTGGAACTCTGGCTTAATCCCATTTCTGAAGCAAAGTTACGAGAAACGCCTTGACTTCTTCAACGTTGACCAGCATGACGCGTCTAGATTCATCTGGGCTGGCGATAAACATGTTCAAATTTTTGCGATTCACGTTTCTTACAAAGAATCAAATTCTGCTTACATTGTCTTTGCGCGCCCCTCGGAGGAATCTGACACAATCGTCTACAAGGATGCCCGAAATTCAACTCTTAATTACGAGTTTGAACAGCTTGTTCGCGATTCGGAACGATTGGCTTATGTTATCAACAAAAACGTCATACCGCAGAGAATTGCCGACACGATTGAACCTGCATCACTAGAAATGCATTTTGTTAGTTCTAGAGACGCCATCTCTCACGAGTGGATTTCAAGATGGGTTTCCAACGAATACAATCAAAGCAGAGATTTGCTTGAACAAAGGAATCAAATAACTCCATTTCCGCTCAGCAATCAAAAGATTTTTGTTGAGCGCCTTCAATTCGATAAAATGGTCGCCGCCATAAACAATGATCAGTTTACCGATGAATTTAACCAATGTCTCATTGCCTATAACGATGGATATTGGTTCCTCTGCTCCGTTGGCCTGGGAACATGTATCGAACACCTTTTGCTTCTCACCTTGCAAAATTGTCATTCGGAAACTGAACTTCAAAAACAACTCGGTTGGGATCCCACTGGCACCAAATACACCTCGCTGATGATGAAGCCACCAATCAAAATGAGTATTCGCCAAGCCAAATATATCCGGTTGCTTTTTGCGGCACGGAATTCCGTGGATCATCACAATACAGGATACACTTCCAAGAACTTGTGCGACATTCTGCTGGATGGTGTCGCTAATATTTTCAATGACTATTTTCAACCCAGCATGACTGATTCAAAGGCGCAGAAGTAG
>SRR1151209_02024 hypothetical protein
ATGAAGATCAGGGGAGAGAACAACGGGCAGGAACCATTGAGTAGGTCGTCACGCAGAGTAACACGTCAAAAGGGAGCGAGCCGGGCACAGGTCTGCTCACGAAAGGCCCGACATAAAAAGCCATTGTACAAGAAGTGGTGGTTTTGGCTGGCCGTTTTTCTAATTGTGGGTGGAATCGGCACTGCTCTTGATGGAAGATTTGATGATTCAAAATCTTCGGTAGCCTCCTCAGCCAAAATGAGCTCCACGAGCAAGAAACGCGGGAACAGGCAATCAGTCAACTCTTCATCACGTAAACAAAGCGGCCTTACTAGTGCTGAGCAACGGTCCAAAAAGGAAAAAGAATCCTCCATTGCACGGGCCGAGAAAGAATCACAGCAAGAGGAAAAGTACAATCAGTTGCGACTTGGAATGACCAAGGAACAGGTTACTGATATTGCGGGGGATCCAGAGGCTAAAGCAGACGAGCTATGGACATATAGTAAGGGAGACGTCATATTTTCTTCGGAAGGAAAAGTTCAAGGCGGTACGCTTGGTAATCTCCAAGATCAAGTGACCACCTCCATTGCAAAAGCAAAAGAGGGAAAACAGCAAGCAGCTTCTGCCTCATCAAGAAAGCAAAGTTTGTTAATTGCCTCTGCCCAAAGGTTTGGTGAGGCGTCCTCGCAGCATTTGTCGAAGTATCCTTCGGTTTACAGAGCCGTTCAAGTTGGCGACGCCATTGCATATCTTTATAAAAATGGAAATGACGTGCTCTTGGTCCGATATGATACGCCAAATCTAATAACCAACGTCTACATTTACGATTCGACCAAAGACGGTGGCCAGGGCACATTGCTATACACTGGCAGAACGAATCTGCAGGACCGACCAAAGACTTACAATTTTTGGTAA
>SRR1151209_02025 50S ribosomal protein L7/L12
ATGGCTTTAGATACACAAAGCATTATCGAACAATTGAAGGGTGCGACCATCCTTGAATTGAACGACTTAGTTAAGGCAATTGAAGAAGAATTCAACGTTTCCGCTGCTGCTCCTGTTGCTGCAGCTGGTGCTGCTGGCGGTGCTGACGCTGGTGCTGAACAAACTGAATTCGACGTTGAGCTGACTGAAGCTGGCCAAGAAAAGGTTAAGGTCATCAAGGCTGTTCGCGAAATCACTGGCCAAGGCCTGAAGGACGCTAAGGGCATGGTTGATAATGCTCCGACCGTCATCAAGGAAAAGGTTTCTAAGGATGACGCTGACAAGCTGAAGGCTCAGCTTGAAGAAGTAGGGGCTACGGTTACTGTTAAGTAA
>SRR1151209_02026 50S ribosomal protein L10
ATGCCAAAAGAAGCAACGATCGCCAAAAAGGCAGCAGTTGTTGACGAAGTAACGGACAAGTTCAGCCGTGCTAAGTCTGCTGTTGTTGTCGACTACTTGGGTCTGACTGTTGACGAAGACACGAAGCTGCGCAAGCAATTGCGTGACGAAGGCGTTGAGCTGGAAGTTATCAAGAATACGTATCTGCGTCGTGCCGCTGAGAAGTCTGGCTACGAAGGTTTGGATGATACATTCACCGGCCCGACTGCTGTCGCTTTCTCTTATGAAGATGTTGCTGCACCGGCCCGCGTCATTTACAAGTTCGCTAAGACTGCCAAGAATTTGGAAGTTAAAGGCGGCATGATCGAAGGCAAGGTTGCATCCATGGATCAATTATCCGAGCTGTCCACATTACCGGACCGCGAAGGCTTACTGTCCATGCTGTTATCTGTTCTGCAAGCACCTGTTCGCAATGTTGCGTACGCCCTCAATGCGGTGGCCGACAGCAAGAACGACGAACCGGCTGCCTAG
>SRR1151209_02027 isochorismatase
ATGGCCCATACCAACGAAGCGTTATTGATCATCGATTACACCAACGACTTTGTCGCCGACAAGGGCGTCTTGACCTGCGGGGCACCGGGACAGAAATTAGCGGACAACATCATTGCCCTCGCCGATGAATTCCGGGACCAGGACGGCTGGGTGTACCTGCCCACCGACGTGCATACGCCCCACGATCCCTATCATCCCGAAAGCAAGCTGTTCCCGCCCCATAATGTTCGGAACACTTGGGGACGGGAATTTTACGGTCCGCTGAAGCCATGGTATGCAGCCCATCAGGCTGAGGAACGGGTGACTATGTTCGACAAAACCCGCTATTCCGCCTTTGCTGGGACGGCGCTGGATCTACGGCTGCGGGAGCGCAAAATCGACACCGTGCACTTGGTCGGCGTCTGCACCGATATCTGCGTCCTGCATACCGCCGTGGATGCCTACAACTTGAACTACCAAATCGTCGTCCACCAGAATGCCGTCGCGGCTTTAACGCCCGCCGGCCAGGACTGGGCGCTCGGTCATTTTGCCCACGTGCTGGGTGCGCAAGTTACGGATTCACTTAAAGAAGGGTTTTAA
>SRR1151209_02028 nicotinate phosphoribosyltransferase
ATGACAATGAACCACGCGTTACTGACTGATCTCTACGAATTTTCCATGGCCAACGGTTATTACGCCGCCCTGCCCCACGAAGATCAAGCGGTCTTCGATGTGTTTTACCGCACCGTGCCGGATCACGGCAGTTTCGTCATCGCCGCCGGCCTGCAGCAGGTCGTTGAGGCCCTGGAGAACTTCCGCTTCGCCCCTGACGATATTGACTATTTGCGGTCGCTGAAGCTGTATTCGGAGGATTTCCTGCACTACTTGGCCACTTTACACTTGGCCTGTACCGTCACCGCCCTGCCGGAGGGGACGCCCGTCTTTCCCCGGGAGCCGCTGCTCACGGTGCAGGGCCCATTGATGCAGGTACAACTGTTAGAAACGCTGCTCTTGAACCTCGTTAATCATCAATCTTTGATTGCCACCAAAGCCCGGCGGATCACCGCCGCGGCAGAGGGCCGGCCGGTCATGGAGTTCGGTGCCCGGCGCGCCCAGGGTCCGGATGCCTCCGTCTACGGCGCCCGGGCCGCGGTCATCGGCGGCTGTGCCAGCACCTCCAACGTGCTGGCCGCCAAACTCTTTCACATCCCGGCTGCCGGCACCATGGCGCACAGTTGGATCGAATCTTTCCCCGATGAACTGACCGCATTCCGCGCTTGGGCGAAGATCTACCCGGATAACAGTGCGCTGCTGGTGGACACCTATGACGTCCTGGCCTCCGGCGTGCCCAATGCCATCACCGTGTTCAAGGAACTGCGCGCCGCCGGGCACAAACCGGTCGGTATCCGCATTGATTCCGGGGACATCACCGCGCTAGCCAAAGCCGCCCGGCAGATGCTGGACGACGCCGGCTTTCCCGAAGCCAAAATCACGGCGTCCAATGCCTTGGATGAAACGGTCATTCAATCCCTGCTCAAAGAAGGCGCCCCGCTGGATAATTTCGGCATTGGCGAGAAATTGATCACCAGTGCCTCGTCCCCGGTCCTCAGCGGGGTCTACAAGCTGGCCGCGTTACAAGTCAACGGCCAATGGCAGCCGAAGATCAAAGTCAGTGCTACCCGGGAGAAAACGACCCTGCCCGGGCACAAGCAGGTTTACCGCCTCTACCATCCGGGCAGTCAGCGGGCCTTTGCCGATATCATTGCCCTGGCGGATGAAACCCTGCCCGCCGTCATTGCAGCTGTGAGTGCGGATCCCCAAGTGACCCACGCCCGGGTAACGCTGAAGAACTTCACCGCCGAGCCGCTGCTCGCCACGGTCCTGGCCCCCGGCCACACCAGCGCCGTGCCCACCGATGTCTTTGCCATCCAGCAGCATGCGCGGGAAGCGTTGACTCGATTGCCGGAAGCCACTCAGCGACTGGTCAATCCAGATTTGTATCCGGTGTATCTAACCCCGAAACTGGCGGCACTGCAACAACAGCTGATCGACGCGCACCACGAAGACTAA
>SRR1151209_02029 hypothetical protein
ATGGCTAAAATAACCGTGATCGTGAATCCTCAGGCGGGTAATGCCCGCCACCGCAAGCAAATTCCAGCCCTGCTGACCCAATTGCAGGCCCTGTTCACCATTGACCAGATTTACTATACCGCCCGGGACGGCGACGCTCGGCGGATCAGCCGCGGCCTGCCGGCTGAAGCGTGGTGTGTCGTCATTGGCGGCGATGGGACCCTGCACGATGTCGTCAACGGCCTGCAGGAAACCGGCAACCACACCACTGCAGTGGGTTATGTCCCCACTGGAACTGGCAACGACTTTGCCCGGGCGAACGGGATCCCGCTGCGCCCGGACAAGGCGGTTGCTGCGTTAGCCCGCAGCCGGGCCCAATCCCGTAACGTGGGAAAAGCGATCTCGCCGGAATTGGGCACGCAATATTTCATTAACAACTTCGGCATCGGTATTGACGCCCGCATCGTGTATGATACGAACCAATCCGGGCTAAAAACTGACTTGAACCGCGTTCATCTGGGCCATTTTTCCTATGGAATCAATATTCTGCGCGCCCTGCGCGAGCAGCAAGGCTTTACGTCGACCTGGCAAGGTGAACACACCCACGCCAATCAACGAACGTACCTCTTCGTCTTCACGAACCACCCGTTTCTTGGCGGCGGTATTCGCCTGTTCCCGGACGACCGCCGCGATCCCCAGCGGCTCAGCCTCGTGGCTGTGAACAAGGCGCCCTGGCACATTTTGATGCCGATCTTAGCCAATATTCTCAGCGGCAAATCCCGCCACCCCAAACTGCACCTCTACCAACGCCGCCACTTCCGTTTCGCCACCGCCGCCCATGAACACATCCAAATCGATGGCGAAGAATTCCAGACCCCCGTGCACGTTACACTGACGCAGGTGTCCCAGCAGTTTTGGTTAGCGGAAACTGAATGA
>SRR1151209_02030 multidrug ABC transporter ATP-binding and permease protein
GTGTCATTCAGTTATCAGGATCAGCCGATCCTCCAAGATGTCTCCTTAACGATTCAGCAAGGGCATAAATATTTGTTGGCGGGGCCTAGCGGTGCGGGCAAATCAACGCTGTTGAAGTTAATGGCCGGGTATTTGACAGGGTATCAGGGCCAGCTGGTCTTTCACGGGCAGGACTACCGGGCCATTGGTCAAGCAGCTTTAATGGACCGGATCCTTTATCTGACCCAAACGCCCCAGGTGATCAGCGGGACGGTCGCCGATAATTTGGCGCTCACGGCGCACTATTCCGCGGCCGAGATGATTCAGGTGCTGCGCCGGGCAGCCTTGATTACTACGGATGCCGAGGGGCCGGCTTTTTTGAAACAAAATGTTGGCGCTAAGGGGACGGCCCTCTCCGGCGGCCAGCTGCAGCGGTTGGCGCTGGCCCGGGGGTTGCTGCGGGGCTATCACATTCTGCTGCTGGATGAGGGGACGTCCGCGGTGGATGGGCCGACAGCGGTGCAGATCGAGCAGGACCTGCTGCTGGATCCGCGCCTGACCTTGCTCATGATCAGTCACACACCCCATGCAGCCACGGCACCGTTATTCGATCACGTCATTCAGTTTCCGCTAACCAAAACTGCTGGGACACCTGCGTCAGTGTAA
>SRR1151209_02031 hemagglutinin
ATGTTTAACGTGATTTCCAGCTTTCAAGTTTCAGTGAAGAACTTTAAAGGCAACTCTTTCAGAGACTTTTTTAGAGCGAACAGCAAAACGCGCTACCGCCTTTATAAGTCGGGCAAGACTTGGCTCGCAGCAGGGGTAGCAACGCTCGCCGGGATTTTTGGCGGCGGGCTGATCGGCACCAGCACCGTGAAGGCGGAGACCATGGTGGGGGCGGCTAAACAAGTGGGGCAGCAGGATGTCTTGGCGACCCGCGACAAAGACACGATACCAGCCGATGCGGCGCTGCAATCGACGAGTACCTCGTCAGCCAGCGCCTCGGCGAGCACCAGTGCTTCTGTCTCGGCTTCGGCCAGTACGAGCGCGTCAGCTTCAGCCAGTGCCAGCAGTTCGGCGTCAGCCAGCACATCACTGTCGTTATCCGCCAGCGGGGTGAGCGCAGATAATCAGCAACCGGTGAAAATGATGCGTGCTTTTGCCGCGCCGGGTTCGGCGGCTGCAACCAGCACAACGGGCAGTACCTCAGCAACGGAAAGTGCCAGCGCGTCGGCGAGTGCCTCAGCGAGTGCGTCGGCCAGTGCCTCGGCGTCGACCTCCGCAGCGGGGCAAAAGATCACGCCTTTGGCGGCCGCTCGGGCGGCAGTGGCGGATCCATTTGCTAATTTGGACACAGCCGATAAATCAATTGCCCGGGGCATTGAAAATGCCAATAAGGATTTAACCTTGATGGTCGGTACCAATGCATTGAACGTATTGGGTAAAGATATGGGCTTTGGCCCGAAACTGATTTACGTGACCGACATTCTCCAAGCCTACGAGGCGTCGGTCGCGGCCGGCACGCCGATGCTGACTGCCGATGGCAAACCGGCTTGGAGTGCAGAAGGCGGGATCGCTGCTGACTATCGCGGTGGCGCTAAAGCGAATACGATCGACAAGGCCAGTAAATTACCGCCCAGTGTTGCGGAACACTATTGGGCAAATGGTTGGTATAGCAATTCTGGTATTATTCCGGGTACCAATCAGAACTTCGATTCGAAAAAGATGTGGCTGGGTTATGCGTCCGTAGTATCGCAATATGCTAAAGAAGTTGAAGCCTGGCTGAACCAGCTCAATACGCAAATGAAGGATCCGGGCAATCAAACCGCGGTCATGAACTATGCGCAGTATCGAGCCGGCGATTTGAAGTCAAGTGGGAGCTTTGGCCAATGGGTAGGGCAAATTTTTCAATCAGCGGGGGCCTACTTCAATTCGATCTTCAATAATGGCCTCTCCACCGCCGCACCCCAAGTGTTCGGCTATAGCGCCGGTACACCGCTGAGCACTGGCGTTGCCGCCAATTCTACGGTGGCGAAAAATGTCCAGGCCACGGTCTCCGGGGTTGACCGATTGATCGATATTGTGATGGGGATCATTCAAAACTCCATTATTAAACAGGCATTGAGCGATATCCGCTCATTTGGCGGGGCGACAGACAAGGGCAGTTACGCACCTGCGACGTTAACGAAAGCCCTGGCGCTCAACGAGCAGTTGACGAGTATCGCTGACTCGCTGGGGCTGTTAACCTCCGCTGATACTGCGGTGGCCACGGCGGCCTACCGCGCAATTGCGGACGGAATCGTAGAAGCAACGATTCGCAACTTCAAGTATGGGATGACGACGGCATTGAACACACTGGGAGTGCAAGCGGCCAACCCGTTGGCTACTGACTATCCTTCCGGCAAGGTATACAGCGTCGCCGACTTTGCCAAGCTGGATGGATTTTCACCCACGGATCCGCTGGCGATGACCAATAAAGACCAAAAGGTGACGGACGCCACGTCGCTGATGGCCCAGTCTGCCGGCTATTCCTGGATCATGAAGGTGGGCAAACCGCTGCTGACGATGGCAGCGAGTGATGCGGTGGCAGGAAAAGTCAAAACAGACATCAAGAGTATTGCCGATGGACTGCAGACTCAGGGGGCCATCACGCCCAATGAATACGCTAGTTTGCTGAACAATTCGCCCAATACAGCGGTCAGCGATTATATTCGCGACAGTGCTAATGGGGCTGCTGGGGCCCAGGCATTTCTACTGCAGCTGTACACGGCGGAAGCCAAAGCAGTGACTAATGCCAAGGCAGATTATTTAAAAGATCCTGGGACAACGACTACTCTGAACAGTAATCAGGCGGCTAATACCTTCACGAATCCGGGGGATCCGAATCAGGCCAACCCGACCGCCTATGCAATGGCCGATTATACCAATATATACGCCTATCTGCAGTCGTATGATGCGGCATACAAGGCCATGGCGGCCGCCGACAATGCGGCCCATGCTGCCGCCAATACCGCCAGTGGGGGTCAAATTTCAACGACACCGGCCAGTGTTCCCGATTTGTCTGCCGGTGCACTGGTTATGCAGGGTAATTTGGCCAATACAGACAACATGACCGCCCTCGCTCCGCAGTCGTTGGCGGCACAAGTTTATCGGACCGTTTATGCAGCTGAAGCCGAGAAGGCCAACGCTGCTTTCCAAGCCGGGAAGAAAGCAGCCGCGGCGACGGCAGTGGATAAGACGACCGGTTTGCTGACCATTAAAGATCTGGCCGCAGTGACGTACACCGACGGCAGCACACAGTACACGACGACCAATGATGGGACTGCAGCAGCCTACGAGAAACGCAACGCGAAAACAACCGATCAAGGCCAGCCCAAGGGCCAAGCCTTCATCGATGGGTTCAATGCGGCAACGGTGAAAATCACTGTGAAAGCCAGTTCGTCGGATGGCACTTTCAAGGCACCATCCGACACAATAGGTTATGCATTGAATGATGCGCCAGTGACCATCACGGCCCCCGATATTCCCGGCTGGTATGCCAAACCGGCAACGCAATCGGGTACGTACCACGAGGACACCACGCTGGCTTTCACCTACACGAAGGGCGCGTCAATGACCGCTAAGACGGCCGCCTCAACGCCGGCAACAGCGCTGTTTAGCGGGTCTAAGGCCAGTGATCTGATCCAGCCGCTGGTGAAGCTGACTTGGTCTGATCAGCATGCTGAGTATATTGGTTTGATTGATCCGAGTCATTATACCGTTGTTAATGACGGCACTGCTGTGGGAGATTACAAGTTTATCGTGACTTCTGCGGGGGCCCAGGCTATCCTGACCGCTCTGCAAGGCCGCCCAGCATTGGCCACGGGTTACCAGCTGCCTACGGTTGCTGATTTGACGGGTATTACTGGCACCTTTACTATTCAAAACAATCCAGCCAAGCAGCCGCAAATGGTGACTCAGGATGTCACGTACTATGTTGGCGCCGGAGAAACGCCGACGGCTGCAAGTTTTGTGGAGAGTGTGACGGACGCGGCTGGTGACGCCGGTGATCCGGCTCAAGTCACCGCTGATTTAGGGAGCATCGACACGACCAAGGATAGTCAGTATGAAGTAAAGCTAGCCTATACTGATCCAGTGAGCGGTATTGTATTGACGAAAGTAGCGATTTTGACCGTCGTTTCAGCCGCGACGTCAACTTCTCAATCAAACAGCACCGCGGACAGCCTCAGTGCCTCTGAATCCACCAGTTTGAGTACATCTGAGAGTGAAAGCATGTCCGCGTCGACGAGTGAGAGTGCATCTGTCAGTGAGAGCCAGTCGGTTTCGGCGAGTACCTCGCTCAGCACGAGCGTCTCAGAAAGTGAAAGCACCTCTGCTAGTCAAAGTGCGTCTATCTCAACGAGTGAAAGTGTTTCAGCCAGTGATAGTGCGTCAACGTCGTTGAGTGAAAGTATATCAGCGAGCACAAGCACCTCAGCGTCTCTCAGCGAAAGTGTTTCGGCCAGTGAGAGCACCTCAGCATCATTGAGTGAGAGTACGTCGTTGAGTGAAAGTACGTCTGCTTCTACGAGTGAAAGCATCTCAGCCAGTGAGAGCATTTCCGCCAGTCAGAGTGAATCCACCTCGCTGAGTGAAAGTGCATCGATCAGTGAGAGTGCTTCGACATCACTGAGTGAAAGTACGTCAATCAGCCAGAGTGAATCCGCTTCGACGAGTGAAAGTATCTCCACGAGAGAGTGTGTTTCAGTTAGCGAAAGTACATCAACATCGTTGAGTGAAAGTACGTCAGCGAGTGAGAGTATCTCAACATCGTTGAGCGAAAGTGCCTCAGCCAGTGAGAGCACTGCTGCCTCGTTAAGCGAAAGCACATCCGAAAGTGAAAGCACGTCTGCATCTCTCAGCGAGAGCATTTCTGTCAGTGAAAGCACCTCAACGTCATTGAGTGAAAGCGCGTCTGTCAGTCAGAGTGAATCGGTTTCGACGAGTGAAAGTGTCTCGGCCAGCGAGAGTGCCTCAACAAGTCTGAGCGAGTCCACTTCGACTAGTGAAAGCACTTCAGCCTCGTTGAGTGAGAGCACTTCAACGTCACTAAGCGAAAGCACCTCAACATCACTGAGAGAGAGTATGTCTGCGAGCGAGAGTGCTTCGGCCAGTGAAAGCATGTCAATGTCTCTCAGTGAGAGTACTTCCGCATCGTTGAGCGAGAGTATTTCAGCCAGCGAAAGTGCATCGATAAGTCAAAGTACATCAGAGTCATTGAGTGAAAGCACGTCTGAGAGTCAGAGCACAAGTATCTCTGAATCCATTTCAACGAGTGAGAGTGTCTCAACGTCGTTGAGTGAAAGTGCATCAGCCAGCGAAAGCAGATCGACATCAATCAGTGAGAGTAGTTCAGCCAGCAATAGTGTGTCGGCTAGTGAGAGTTTATCGGCTTCAACGAGTGAAAGTCTCTCCGATAGTGAAAGCACATCTGTCAGTCAGAGTGAATCCGCGTCATTGAGTGCAAGTATCTCGGCCAGTGAGAGTACGTCTGAGAGTGAAAGCACTTCTGCATCACTGAGCGAAAGTGTCTCGAATTCGATCAGTGCAAGTGCCTCAACTTCGCTGAGTGCAAGCACATCAACAAGCCAGAGCGAATCCGCTTCGACAAGTGCTAGCATGTCGGCATCGTTGAGTACAAGCATCTCGGCCAGTACGAGTACTTCCGACTCGTTAAGTGCAAGTGTATCCGATAGCGAAAGCACCGCCACGTCTCTCAGTACGAGTGCTTCTGCCAGTGAGAGCATCTCAGCATCTGAGAGTGAAGGCATTTCGAATTCGGCAAGTGTGAGCGTTTCGGCATCGCAGAGCGAAAGCACCGCCACATCACTGAGTGAAAGCATTTCTGCCAGTGCAAGCACATCAACAAGTCAGAGCGAATCTGCTTCGATGAGTGCGAGTGTTTCGGCCAGCGAGAGCATTTCAGCGAGTCAGGGTGAATCTGTTTCGGCCAGTGCGAGCACATCTGAATCGGTGAGCGCGTCTGCATCACTGAGTGCCAGCATTTCTGCGAGTGAAAGTACCTCAATCAGTGCGAGCCAATCTGCCTCAGCGGCAAGCACGAGTACATCACTGAATGATAGCGCGTCGGCGTCACTGAGCACGAGCACTTCTGAATCATTGAGTACTAGCGTCAGCCAGTCTGCTTCTACTAGTACCAGTTTGTCGGCAAGTCAGAGTACATCAGCAGCACTAAGTGAAAGTGCGTCGGTGTCATTGAGCGAGAGTGCATCACTGAGTGCCAGTACTTCCGCCAGTCAAAGCAAATCCGCTTCGACGAGTACTAGTACATCAGCCTCATTAAGTGCCAGCGCATCGACCAGTACCAGTCTGTCACTGTCTGCCAGTGAAAGTGTTTCGGCGAGTGCCAGTACATCGGCTAGCCTAAGCGAAAGTCTCTCGCTGAGCACCAGTCAGAGTGTTTCTGCCTCGACCAGTGAATCATCTTCTCTGAGTGCGAGCCAGTCTGCCTCGGTGAGCCAAAGCGAGTTTCTTTCCGTCAGCGCCAGCACTTCCACATCGCTCAGCGAAAGTATCTCAGCGAGTGCCAGCGCTTCTGCCTCTGCCAGCACCAGTGAGTCTATTTCAGTCAGTGCGAGCACATCGGCCTCGCTGAGTACCAGTGCTTCTGCTAGTCAAAGTCTCTCTGCTTCAACGAGTGAAAGTATTTCAACCAGTGCGAGTGAATCAACCTCAGTGAGCGCCAGCACGTCAGCGAGTGTATCTCTCAGCGAGAGCATTTCGACGAGTGAAAGTTTAAGCGTCAGCGCTTCTGAGTCGTTGAGCGCGTCTGTCTCAACGAGTGGCAGCCTTTCTGCTTCGACCAGCACGGCACTGAGTCAGAGCGCATCAGCATCGGCTGAGAGTGCCAGTGTCAGTGAGAGCCTGTCGACCAGCATCAGTGGCGCAGCTTCGTTTAGTGCGAGTATATCGGCTTCAGCCAGTGCCAGTACTTCTGAGTCAGTGAGTGCTAACGCTTCGACGAGTGTGAGTGCGTCCGCGTCTCTGAGCGCCTCTGCTTCGGCAAAGAGTGCGGCACAAAGCGTTGCTGCTTCAACCAGCGAAAGCCTGTCGACCAGTCAAAGCACCGCCGCGTCCCTCAGCGCAAGTGCGTCACTGAGTGCCAGCATTTCGGCAAGTGAGGTATCGGATTCAATGGCAACGGCTGCCGACAGCACTAGTCAAAGTGCTTCCGCTTCAGCCAGCGGCAGTCTTTCCGCCAGTACCTCCGCATCGCTGAGTGCCAGCGTCTCGCTGAGCCAAAGCTTATCCGCTTCGCTCGGCCAAAGTGCAACACCGTCAGCCAGTGCCAGCACGTCTGCCTCTGCGTCGGCCAGCACCAGTGCCAGCAGCAACGCCGCGGATTATGAGAACCAGCGGGTTTGGATCCAGCACACGGATGCCGCAGAAGTATATGCTGCTCCCGGCGGAGCCGCGACCGGCCGGGAGCTTCTGGGCGGCTGGTCAGCGAAAGTACTGGCTACTGCCCAGCACGGCGGCCAGCTTTGGCTGCAGATTGGGCCAGATCAATGGATCAAGGCCGCAGGCACGCAATTGACCCAGCAGCAGGTCCAAACCGTTGGGGTGGCTCAGCAACGAATTGATTTGGTCAATGCACCGGGCAGCACTCAATTGACTGGCCGGCAGCAGCTTAACCAGAACACGGCCTGGATCACGTTCATGCGGCAAACGATGCCGGATGGGTCGGTCTGGTATAACGTCGGTACAAACCAATGGGTGAATGCCGATCAGTTCCTGCTCAACGGCCAGTCCAGGGATGTGGCCGGCAACCGCGTGGCGTTTGTCACAAATACTCAAGGAACACCGGTATATAACAGTCCAAACGGCTCGGCCAGCAGTCGGCTGCTTGGTCAGGGCAGTGCTTGGGTAGTCAATCAAGTCGCCGCTGCCGGTAACGTTTTGTGGCTGCAGGTCGGCACGAATCAATGGATCAAGTTCACGGATACGCTGACTGTTGCGCCAGACCGGATCGAAACCTTACCGGCGGGCACTGTCGGCGTCATCAACTACGTACCCAACTATGGTGTCGCCCTCTGGTCAGTGCCAGGGCACGGGATCATTCAGAATCGCCTGCTCAAAGCTGGCACGGCCTGGCAAGCGGGGCGCAAGCTCACTCTGGATGACGGCTCCGTCTGGTACAACGTGGGCGGCAAGCAATGGGTCGATGGCCGATATTTCCTGCTGAATGGTCAACAAGCCGATACCCCGGCGGATACGCGGGTGGTACGGGTCAAAACCAATACCAGCGCCCAAGTGTACCAAGCACCCAACCAGCGCGGGACCGGTCGGCAATTGGCCGCCGGAACCGCCTGGCGGGTGAACCAAGTGGCCGCTCAGGGAAATCAGTTGTGGTACCAAGTCGGCACGAATCAGTGGATCAATGCCGCTGGCGTGAAATAA
>SRR1151209_02032 hypothetical protein
ATGGCAGAGAAAATCGATATGGCGAGTGCGCATCGTCAATTACACAGTCCCAACAAGAAGACAGCGGCGCGGGCATTAAAGAACATCAAGGCCGCCAAGCGGACACAGCAGCATTTGCGTTACGCCGCACAAGCTGAGAATCAAAATAACTAA
>SRR1151209_02033 DegV family protein
ATGATTCACATTGTAACCGACTCCACGGCGCAACTGACGCCGGCTGAAATTAAAGAAAACAACATCACGGTGGTGCCGCTGCAAGTTATCTTAGATGGCAAAACTTACCGCGACAACATTGATATGACGCGCCAGGAGTTCTCTGAACACCTGGCCACTGACGACGAGTTCCCCAAGACCAGTCAGCCTTCAATTGGGCAATTCGTTGAAACTTACAAGGCGCTGGCCAAGCCCGGCGATAGCATCGTTTCGGTGCACATCGGCTCTGTCCTGAGCGGGACTGCCCAAGCCGCCCAAATGGCGGCGCAGCAAGTGGATGTGCCCGTGGAAGTGCTCGACAGCGGTCTGACCGATCGCGGTCTTGCCTTCGTTGTCCTCCAGGCCGCGAAGCTGGCCAAGACGATGGGCGACGCTAAGGCCATCGTCGGCAAACTGACCGATTATATGAAGAAAATTACGCTGACCTGTTTCGTCAACAGCCTGGATTACTTTGCCAAAGGCGGTCGGGCCAAGCGGGCCATCGGCTTTGTTTCGTCCATTCTGAAGCTGAAACTGGAACTGACCATGCCCAACGGCAAACTGGAAGTCACCCATAAAGCCCGGGGTGAAAAAGGGATGCAGAAACTGCTTAAAAACGTGGTCGATACGATCGTTGCCGATACCCACGTGACCCAGGTCGGTTTATCATACGTTGACAGTCATACAGATACTGATGCGATTGAAAAGACACTCAAAGAGAAACGGCCGGACATTCATGTGTTGAACCGGCTGACCAGTCCAGTCATCATGACCCACGTCGGCCCAGCCGGGCTGGCGGTCATCTACGTTTAA
>SRR1151209_02034 ABC transporter permease protein
ATGCAGCGTATATGGCGCCGATTAGGGCGGGGCACGGCGGTCCTTTTTCTGTTTATGGCTGTGCCGTTCATCCAAGGATTCACGGCCATGGGGGAGAAAATTGGGATCCTCGTCTTGGAGACCCTGGTGGCTCTGCCGCTAATTTGGCCGGTTCGCCGGCGAAATTATGGGTTACCCGCGGCACTCAGCCTGTGGCGGCGAATCGAACACTTGGAATTCATTGTAGTAACGGATAACACGAACCAGCTGGATCAAGAAAAGCGCCGGGAGTTTGCCCAGATGGTGCGGGGAACGCGACCGCTGGTCACGGCTTTTTACGCTGCCGGGAACTGGCTGAGCATGGTGTTTTACTTTCTGCGCTGGCCCGTTGTCGGCAACTTGGTCATCAGTGCCACGTGGGTCATCGTCCTGCTGGCCCTGGTCATCATTTATTTAGTCAATGCCTCCCGGGTGTTCAATCAGCATCTGCTGCGGCGGTTTCTCGGCTTGCAGCTGGTGGTGCCGCTGACGCTGCTATGGGGGCTGCTGATCACTGGCGTGATGCGCAGTAACTCGTATCATTACTTGATGATCTACTATCTGCTGCTCAGTGTCGCCGTGACGGCAGCGATTATTTACATCATCCCCAATTATCAATTGCGAGTGCTGACCAACTATACACCGGTACTCAACGCCACGACCACTGTCATTATGTTTGTGGTAACTGAATTCGGCACGGATATCATCAAGGCCTTGATGATCGGGATGGGTCAGCTCAGTGGGAACTCGGGGGTGTTGCTGAAGGCAATGTTTGGGGCCGGGACGATCCCGGCGATCAAGACCGTATTAACGCTGGTCTCCATGATTTTTTTGATCAGCGGCAACATTGTCGCCTTGTTTATTAATCGTCATCGCGTGGCCAGCGAAACACAATTGCGGACACTGCTGGTCAGCCGGCCGACGGTGATCACCCCAGAGCTGTACCATGAATTGCAAGCCATCGTTTATCATGGCTCAATTTATAGCACATTGTACCTCGCCAGTAATCCGCCTTTGGACTCAGCAATTCGAGATTATGAGCGCACTAACGGCAATATATCCCGCGGGTGA
>SRR1151209_02035 phosphoglycolate phosphatase haloacid dehalogenase hydrolase
ATGTTTAATACAGTCATCTTCGACGTCGACGGCACCTTGATCGATACGGAATACGTCTACGTCCATTCATTGCAGCAGACCCTGCAAGAGGTGCAGCACCGCACTGTGCCAGCAGAAGATCTGTTATTTATCCTCGGCATTCCCGGAATGCGGGCCCTGGAGAAATTCACCGCCGACCCCAAAGAACGCCAACACTTATTTGCAATCTGGCTGGGTCACGCGGCGGCATTAAAAGACCACGCCACGGTATACCCCGGCATCCACGATACACTGGCCGCGTTGCACGCCCAAGGGGTCACCGTTGGTGTGGCTACATCAAAGATTCATGAAGAAATGCAGACAGAAATTACCCGCTTCGGTTTTCAAGGGGCGTTCGATATCGTCGTGACGGCGGATATGACCGCCAAACATAAGCCCGACCCGGCCCCGCTGCTGGCCGTCATGGCGCAACTGCCGGAAACAGCCCGCGCTGTTTACATTGGCGATGCAGCGCCAGATCTGGCAGCGGCCCATGCATCCTGCCTGCCCTTTGCCCTGGCCGAATGGGGTGCCCACGATGCAGGCCAATTTGCGGCGGCGGATTATCGGCTGGCTCACCCGCGGGATATATTGCCGTTAGTGCGCTCATAA
>SRR1151209_02036 malolactic regulator
GTGAACACCCGTGATTTAGCGTATTACGTCCAACTTGTTGAACTGGGCAGCTTTACCCGCGTGGCGGATCAGTTTGGTGTGACCCAACCGACGATTACTCTGGCCATCAAGCGGCTGGAAGACGAATTCGGCGTGACTCTGATCCACCGGGACCAAAGCCACGCCGCGCTCACTGTTACCGCCGCGGGTCAGCAGCTGTACCGCCACGCCCGCACGATTGGCCAGGAATTAGCCCTGGCCCATACTGAGATCGCCCACTTAAAAGAAGAAAAGATCCGCTTCGGTTTGCCGCCGATCATTGGCAATTACTACTTTCCAAAAATTGCCGGGCGGCTGGTCGCCGCTGGACTCACAGAACATCTGCTCACCCAGAGCGGCGGTTCCGATACCCTGCTGGCCATGCTGCAAAACGGCAGTATCGACATTGCCTTGCTGGGCAGCAGCGGACCGCTGGATGTGCCGGGACTCGCCGTCACTCCTTTGACCGATGCCCCATTCAGCATCGTTGTGCCGCCGAAAAACTTGCTGGCCAACCAAGCGCAAGTGGCCGTGGCCGCTTTGGCCGACCAACCCTTTGTCGTCCTGAATGAAGAGTTTGTCCATGATCGCGCTCTACGCTGGTTCACCCGCGCGGCCGACATTCGGCCCAACATTGTTTACCGCAGCGGCGATGTCGGCCTGGTCAAACAAATGATTGCCCAAGGCGTGGGCATCGGCTTTCTGACCAAAATGGCGGTGGCCCCAGCAGATGACTTGGTCACCTTGCCTATCAGTCAAGCGGGTCAGCCCCGGTTCGTCATCTCGGTGGCGCACCGAGCGGACTTGGTGCTCTCACCGATGATGCAGGCGTTGAAAAAGATATTGACCACCGCGCAATAA
>SRR1151209_02037 malolactic enzyme
ATGACCAACACACCTGAACAGATTTTAAATAACCCATTTCTCAACAAAGGTACTGCCTTCACGTCCGCAGAACGCAATGCCCTCGGCTTGAACGGCATGCTGCCGCCAGCTGTCCAAACTTTGGATCAGCAAGTTAAGCAGACTTATGCCCAGTATCAAAGCAAGGGCAGTGACCTGGAGAAGCGGATTTTCTTAATGACCATCTTCAACACCAACCACGTCCTGTTCTATAAGTTATTCAGCGAACACGTGTATGAATTCATGCCAATCGTTTACGATCCCACGATTGCCGATACGATTGAAAATTATAGTGCGTTGTTCACCGAACCGCAGAACGCCACTTACTTAAATATTGATGATCCGGATCATATTGAAGACGCCCTGCGCAACAGTGCCGACGGTCGGGACATTCGTCTGATCGTGGTCACCGACGGCGAGGGTATTCTGGGTATTGGCGATTGGGGCACTCAGGGCGTTGATATTGCAGTCGGCAAACTGATGGTTTACACGGCCGCTGCTGGTATTGACCCTAGCCAAGTATTGCCGGTTGTGCTGGATGTGGGTACGAACAATGAAGCCTTGTTGAACGATGACTTATATTTAGGCTTGCGCAAGAAGCGGGTTTACGGCAAGCAGTACCATGCGTTTGTCGACAAGTTCGTGGCCACCGCCGAGAAGCTGTTCCCCAAGCTGTATCTGCACTTTGAAGATTTCGGCCGGAGCAATGCGGCGGACATCTTGAATCAGTACAAGGATCAGATCACTGTGTTCAATGATGACATTCAAGGCACCGGGATCATTGTCTTGGCTGGTATTCTGGGCGCGCTGAATATTTCCGGTGAAAAGATGACCGACCAAGTGTATATGAGTTTCGGTGCCGGCACTGCTGGGGCTGGGATCACCCAACGGATCTATGAAGAATACATCCAACAGGGCATGGATCCGGCGGAAGCCCGGAAGCATTTCTACCTCGTCGATAAGCAAGGGTTGCTGTTTGACGATATGCCGGATCTGACGCCGGAACAAAAGCCGTTTGCCCGTCAGCGCAGTGAGTTTGCCAATGCAGACCAGTTGACTAATTTGGCGGCGGCAGTCAAGGCGGTGCACCCCACGATTCTGGTGGGCACTTCCACCGTACCGGGCACCTTCACCGAAGATATTGTCAAAGAAATGACCGCCAATACGCCGCGGCCGATCATCTTCCCGTTGTCTAACCCGACCAAATTGGCCGAAGCCAAGGCAGCAGATTTGATCCAGTGGAGTGCCGGCAAGGCCCTAGTCGCCACCGGGATTCCCGCAGCGCCAGTCAAGTACAATGGGGTCACTTACGAAATCGGCCAAGCCAACAACGCGCTGGTTTATCCGGGCTTGGGTCTGGGGACCATTGCGTCGACTGCACGGCTGCTCACGGATGGTATGATTTCCGCTGCGGCCCACAGTCTGGGCGGCATCGTGGATGGCAGCCAATCTGGTGCCGCAGTCTTACCGCCAGTTTCTAAGCTCAGCGCCTTCAGCCAGACTGTGGCCGTGGCCACGGCGAAGGAAGCGGTGGCGGAGAAGCTGAACCAGGAAGATATCAAGGATGTTGAACAGGCCGTCACAGCGATGAAGTGGACACCGGCCTATACGACAGAAAAGGCGGGTGAGTAA
>SRR1151209_02038 malate permease
ATGACAGCACTCTTTACCTCTGTGCAGAGTATCCTGACGATTGTTTTGATCATCGCCTTGGGGTACGCGCTGCGGCGCAAGAAGTGGTTTGACGACAACTTTGCCGGGACGATTTCGAAACTGTTGATGCAGATTGCCTTACCAGCATCCATCTTTACCAGTGTGTTGAAGCGTCTGAGCCTGGACAAGCTGGTCAGTTTATCCTCCGGATTAGTTTACGGCTTCGGCGGAGTGGCCCTGGGCTACATCGTGGCTTTCTTGCTGGTCAAGCTGCTTAAAGTTCGGCCGGGCCGGCGGGGGACGTTCATCAACATGTTCGTCAACGCCAATACGATCTTCATCGGTTTGCCGTTGAACATGGCCCTGTTTGGGGATAAAGCAACCGCCTACTTCTTGATGTATTATGTCGTGAACACGGTATCCACGTGGACTCTGGGCGCCTTCCTGATGTCTTGGGATGACCCGACCAAGGCCGACAATCCGGATTCGGGCAAGAGTACCTTCAATTGGAAGAAACTCCTGCCGCCGCCGCTGCTAGGTTTCTTGGTGGCTTTGGTCTTCATGTTCCTGCCCTTCGATGTCATGAAGGTGTCCTGGCTCAGCTTCCTGATCAATGCCCTGGATTACGTGGGCAGTCTGGTCACGCCGCTGTCTCTGGTCTATATTGGGATCATTCTGGCCGACGCCGGCCTGAGTTCCATCCGCTTCGACCGGGATACGGTCGTGGCTTTGCTGGGCCGGTTCGTCATGGCGCCTGCTTTGATCACTCTGCTGATCGTCGGCGGGATGAAGATGGGCTTCAGTATTCCGAGTCTTGAAGCCCAGACGCTGATCGTACAAGCTTCCGCTCCTGGTTTAGCCGTGCTGCCGATTTTGGCGGATAACGGTCATGGGGACGTGGAGTATGCCACAAATGTGGTCACCACATCGACGGTACTGTTTGCGGTCGTCGTGCCAATCGTGATGGTATTGGTTCAGAATATCTAG
>SRR1151209_02039 beta-galactosidase
ATGGCACAGGTCATGATTCATGCCGATGATGTCGTTGGGCAGGCACTGTTTGCGGAAGAAACCGGCGGCTTCAGTCTCACTGACCGTCTGGGCGGGGGAATCGATGTCACTGCCTTTGCCCGTCAGCCGGAACGGTATTTGACCGCGGTGCTGCGGCCGGAGTCAGGCGACAGCATGGCCCTCAGCCTGCTGGTTTATGTGACGGGAGAAAAGTCGCCGGCGATGACGATTCGGTTCGGTATTTTACCAACGGTCCGGTCAACGATGGTGCTGGATAAAGAATGGTTCAAAGGCGCCGTCCTTTTTCCTGATGCGCCGGTGGGCGGTCTGAAGGTAGTATGCCATGGTCATGCGGTGGCGCTTGCCGATATCACAAAATTGGAACTGGTGACGCTGCCTACCGCCGCACCAGTAACATTGCACGTAACGAATTTGCATTATACTGATACATATCCAAGGATCGGTCTGGATCAAACAGTATTAGTGGATCAGTTTGGCCAGACGATTGCCAAGGAATGGCCGGAAAAGATCCATTCTGAGGGAGAACTGCAGGAACGATTGCGCGCGGCGGCGAATCAGGCCCCGCAGATACCTGTTTCCAGTTGGGACAAATACGGCGGCGACATGACCCGCCAGTTGACCAAGGGGACGGGCTTCTTTGCAACCCAAAAGACTGATGATCGCTGGTACTTAGTCGATCCAGTGGGCAACGCCTTCTTCAGTTTGGGCGTCGACGGTGTCGGCGCCGCGAATGATTGCCGGATTGAAGGCATCCACCGGTACTTAGATTGGCTCCCCGAACACAGTGATCCGGAATATACCCATTTCTTCGCCACCGGGCATACCCCAGCGGGCAAACCAGTGGAGAGCTTTGCCTTTGCCCAAGCCAACTTGCAGCGGGCATTCGGGCCGGACTGGCAGGCGCGCTGGCAGGATATGATGCTGCATCAGCTGCGCGGGTTGGGCATCAATACCATCGGCAACTGGAGCGACCGGGCCTTGATTCGCCGGCAGGCGATGCCCTACGTGACGATGCTGCCGCAGTTCCCGGACACAACAGCCCACATTTTCCGGGACTTCCCGGATGTTTTTGCCCCGGAATACACGGAAGCAGCCCAGCAAAGTGCCCAAGCATTGGCGGCGCGGAAGGACGATCCGTGGCTGATCGGCTACTTCTTGCGGAATGAGCCCAGTTGGGCGTTTGTGGATCATCTGAATCTGGGGGCCGAAGTCTTAGCTAACCCGACCCGAACGGCGACGAAAGAGCGGTTGGTGGCTGATTTGCAGGACCAATACGCGACGATTGCGGCACTGAATACGGCGTGGCACACTGATTTCACTGACTTTGCCGCATTGTATAACACGCCAACCGTCCCGCCCGCGGCGAATGACGACCTGCGGGCGTTCTCTCGAAAAATGGTCAAGCAATACGTCAGTGTGCCGGCTAAAGCCTGCCGAGCAGTGGATCCGCAGCATCTGATTCTTGGTATGCGCTGGGCCTGGGTGTCTGATCCCGACTTGATTGCCGGGTGGGAAGACTGCGACGTGTTTTCCATTAATTGCTACGCCATGGATCCCACCAAAGAACTGGATCAAGTTCGTGACCTGGGCGTGGATCAGCCGGTGATGATCGGGGAGTTCCATTTTGGAGCGCTGGATGCCGGACCCACTGCCACAGGTTTGGAAGCCGTCAGCAACCAGACTGACCGGGGGACCGCCTTCCGCCATTACTGCGAACAAGTCGCCGCCCACCCTAATGGGATCGGGTGTCATTACTTCCAGTGTTACGACCAGTTCGCACTGGGCCGGTTCGATGGCGAAAACTATAACATCGGGCTGTTTGATATTTGCAGCCAGCCGTATCAGGCTTTGGGGGCCGCCATCAAGGAGACTGCCCGGCACATTGATGATATTAATGCCGGCGAAGCACAGGGGACCGCGCCGTTGGTGACGGAGCTGCCGATGATTGCCTATTAA
>SRR1151209_02040 ribose operon repressor
GTGAGACCCAAAATTGATGACGTGGCCCGGGCCGCCAATGTTTCTAAGGCTACTGTATCCCGTTATCTCAACGGCCACTTTGAACGGATGTCACCGGCCACGAAAACACGGATCGCAGCGGTGATTGAGGAGATGGATTATGTCCCGAATCGCCAGGCCAGCGCGTTGAAGTCCCGCCGGACGCACCTAGTGGGAGTCGTTGTGGCCGACGTGTCAAATATGTATTCGACGCGGTTGATCGCTGGGATTAGCGAACTGACCAAAGAAGCAGGGGATCAGATTCTCATTGCGGACAGTGCCAACGATCCCGGTGAGGAACTGCGGACTTTGCAGTTGCTGCTCGGCCAAAATGTAGACGGCATTATTTTGCAGCCGCTCAGTACCGACCCACACACCTATGATTTTATTCAGGCCCAGGGTGTGCAATTGGTGATGGTGGACCGGACAACGACCCCAGTGGCGCAAGTGACAGTTACGTCCAGCGATTATGCGGCAAGCCGCGAGTTGGCGGAGGCCATTGTTAAGGCCCGCTATCAAGACCTGATCGTTTTTGCTAATCCAATTGCGGGGGCATCATCTCGGCGCTTACGTTACCAAGGTTTTGCCGATGTGGCGCAGGAACACGGCCTGTCGATCACCTTGCTTGAAACCGGTGACGATTCGGCTAAAGAAAAAGATGCCGGCATGATTGGTCAGTGGCTGACCAGTCACCCCGGGCACCGGCCTGCCGTATTTACCACGAATGGCCGCTTGCTGATGGCCGCTTTGACCTGGATGCAAGATCAGGGACTGCGAGCCCCGCGGGATTTGGGCATCTGCGGTTATGATGATTGGGATTGGGCCCGGTTGGCGGGACCAGGGGTGACTAGCGTTAATCAGCATCCCCAGCGCATTGGCCAAACGGCTGCTCGGTATTTATATCAGGCGATCGCGGGTCAACCCGCCCCGGCCCAGCGCATTGAAATTCCGGCTGACGTCACTTTGCGGCATTCTTTATAA
>SRR1151209_02041 sugar phosphate isomerase
ATGGCAAAACCGGTTATTGTAGCAAATTTACTGTTATTGGCGGATGAATGGCAATCTGGCAAGTCACAGGCAGAGCTGATTCCGGAATTGATCGATTTAGGCTTCGACACCATCGAAATCCGGCGCGAATACTTCCGGGACTTTAACAAAGAAATTCCTGAAGTGGCCCAGCTGGCCAAAGAGCACAATTTGACCTTGTATTACAGCGTTCCGGACGAAGTTTTTGTGGACGGCCAGGTGAATCCGAAGCTGCAAAGCTATCTGGATGAAGGCAAACAACTGGGCATCAAGAAAATCAAGTGGAATACCGGGGACTTTGCCCACTTCGATGGCGATTTAGCAGCGGCCTTGAATCCGCTCATTGCCCAGGGCATTGAAGTCAATATTGAAAATGACCAAACGCAAACCAGCGGTACGTTGGCTCCCGTTGAAAAGTTCCTCGCCGCCATTAAGGCCGCCCACGTTGATTTGGGTTATGTCTATGACTTGGGAAACTGGCCGTTTGTTGGCGAAGATCCGGTCGCTGCCGCCAAAGCACTGACCCAGTATGTGCGGTATATCCACGTTAAGGACGACATCACCACGGGTGAAAAGCCAGTCACAGTCCCGCTGGATGAGGGCGACTTGCCGTGGCGGGAGATCCTCGATATCCTGCCCCAGGATGTCCCGGTGGCCATTGAATATCCGACGACGGATCATGCCGTGATTACGACGGGTAAGGATAAAGTGGCGGCCTACTACGACGCTAAGTAA
>SRR1151209_02042 hypothetical protein
ATGGCACAAGAACGGGTGCAGCTTGATCCGCAGAAATTTGCGGAACAGTTTCTTAATACGCTGGATATTGATGTGCAACCCAAGGAACAAAACTTGGAGAGTGCCGCTAAGCAGGCCCTCGCCGCTTATCTGTCTGCTTATTTCTTGGCAGAGCGGTTTAACTCAACAGAGAACTCATTCTTTGTTGATAAAGACAACAAGGGCATCAAGTCCAGCTATCAACGGATCCTCAGTGAATTGAACGACTATTAA
>SRR1151209_02043 gluconate:proton symporter
ATGGGCTCATTAGTTACAGGTATCTTACTCATCGTCACCTTCATCGGCTTCGTTTACTACGCCATGAAAGGCGGCAACCTGACCGTCGGTTTCTTCGTGATGGCCTTGGCCTGGACCATCATTGGCTTAACGCCAGTGAATGTGGCGGTTAAAGAGATCTTTACGGATCCCGTGTTGAATTATGGGAAAACAGCACTTTATATTATCTTAGGTTCCTGGTTTGGCCGGGTCTTGGTCGATACTGGTATTGCTGGCAGTATCAGTCGGCGGACGCAAGCCGTCGGGACAAAAGCCCCGGTGCTGGCCACGATCCTGATTGCGCTGATCACGGCGTTGATCTTCTCCAGTGCGTACGGGGTCGGTTCAGCCATTGCCGTTGGGGTCATTCTTTTCCCCATCATGTTCTCCATGGGCGTGCCCCGGCGGGTAGCCGTTTCGGTCTTCACCCTGTCGATCGGGGCCGCAATGTATATCAACCCGGTATTGTTCAACCAGTTCACGGTGTTCTTTAAAGGCGTGAAGTGGGGCGACCACTACCTGCGTTTCGGTTTTGTTGCGGCCGGTATTCAAATGCTCGTGGTGCTGGTCATGATTTTGTTCTACACCCGAAAGATCCGCAACGGCAAACCGGAAATGGTAGCCGAAGAAGAGGGCGAAGTCAAAGAAGTCCACTGGATCACCTATATTTTACCGGTCGTGCCAGTGGCCATGAGTATCTTCTTCAAATGGGACGCTGTTCCCGCCTTACTGTTAGCAACTTTATTGGCTTTCTTAATGACTGGCAATATGAAGAGCTACAAAGGCTTCGTCAAGATGATGAACGATACGGCCAAAACGGCCATTGGCGATATCGCTGGTTTGCTGATCATGCTGCTGGTGCTGACGATGTTCCAGCAGGCCGCAGTGCATACCATGAGCCAGTTCACTGGTATTTTTAAGGCAATTATCCCGAATAATCGGTTCCTACTCGTGATCATCATGATGATCATTGCCCCGTTATCCTACTTCCGCGGTCCCTTAATGCTGTATGGCGCGGGTGCTGCAACGGCTGCCATTTTCACTGCCACTGGTCTTTTCCCGCCGTATTTCCTCTACGGTTTGCTGGTCGTACCGACCATGATGGCCGTCTCCGCGGACATCACTCAGTCTTGGAACCTCTGGTCTGTGGAATACGCTAAACTGGATACGAAGACGTTCCTGCTCACTGGGTTACCATGGGCGTGGATTGCTACGGCATTGAATCTGGTCGCCGCGTACGTTCTGTTGTAA
>SRR1151209_02044 2-dehydro-3-deoxygluconokinase
ATGTCAGAATTCTTAACCATCGGGGAACCGATCGCATTGTTTGCTTCTGAGGACGTGGACAAGTCCCTGAAGGACGCTGTCCATTTCCACAAGTTCTTAGCCGGTGCTGAAGTTAACGTCGCCGTTGGCGTTTCCCGGTTAGGCCACTCCGCCCAATACATCACCCGGGTCGGGGAAGATCCGTTTGGTGATTTCATCAAGGACCAATTGGCGGAAAATCATATTGGCACTGATTATGTATCTTCAACCCCGGATTACTGGACGGCGTTTCAGCTAAAGGACCGGGTCTCCCACGGTGATCCCAGCATCTTCTACTTCCGGCGCGGTTCTGCCGCTGCCCACTTCGAGAAGAGTACGCTGGACAAGATCGACTTTAGCGGCGTTAAGTTTGCACACTTGTCCGGTATTTTCCCGGCCATTTCGGACCAAGCCCTGGATGCCTTCAAGTACTTGATCCAACTGCTCCACGAACACAATATTCGCACGACCTTCGATCCCAATCTGCGGCCGCAGTTGTGGTCCAGCCAAGAAAAGATGGCCAGCACGTTGAATGAGCTGGCCAAAGAGGCGGAAATCATTCTGCCTGGCGACAATGAAGGGAAGATCCTGGTCGGCAGCGACGATCCCAAGACGATCGCTGATTTCTATCTGAATCAAAGCGACCGGACCAAGACGGTGGTCGTGAAGACCGGCGCCAAGGGGGCGTATGTTCAGACCAAGGATGGCGAAAGCTATACCGTACCGGGCTTCAAGGTCGACAAGGTGGTTGATACGGTCGGCGCTGGCGATGGGTTTGCATTAGGCTTAGTGACGGCCTTGATGGAGGGCAAGTCTCTGCGTGATGCTGTGGTTCGGGCTAACGCAGTCGGCGCCTTCGCCGTCCAGGCTCCTGGCGACAACGACGGGTACCCGACACCGGAGAAGCTTGAAGCTTTCTTGAAAGCGAACCCGCGGTAA
>SRR1151209_02045 3-hexulose-6-phosphate synthase
ATGCAATTACAAGTGGCAATTGATCGCTTGACACTAACCGACGCAACCGCGCTGGCGAAACAACTTGATGGTAAAACAGACATCATTGAAATGGGCACGTCCCTGGTGAAAAACTACGGCTACCAAGGTATCGTGGCGATGCGGACGGCCATTCAGCACAGTCAGTTGCTGGTGGATTTAAAAACCATTGACGAAGGCGCTTATGAATTCCACCAGGGCTTCAAGGCCGGCGCGGATATTCTGACCGTCATGGGCGCAGCGTCCGAAGCGACCCTGGCGGCGGTCTACGCGGTCACCCAGGAAACGGGCAAGACCATGATGATCGACTTGATGGAAACGTCTATTGAGAAGCAGCGGCAGATTGCCGGGTTCCCCCAGGCCATTTATTGTCTGCACCACAGTACAGATCGGCAGGATAAAATGGCGCCGGACAGCACAGTGGCTGCTTTCCATGAACAGTTCCCGGACTTGGCCCACTTAGCGATTGCCGGCGGAATCGATCAGACTGGTGCCGCCGCCCTGGCCGCCCAGAAGCTGACGGACATTGTGATTGTGGGATCGGCGATTACCAAATCCGCGGATCCTGTTGCTGCTGCAGAAGAAATGATGGAGGTCGTGCATAAATGA
>SRR1151209_02046 6-phospho-3-hexuloisomerase
ATGACAACTGTTTTACCGGATATTATGAAAGAAATCAACACGGTCATGGCTTTAGTGGATGAAAAACAACTGGACCAAGCCATGCCGTACCTTACGAAAGATAAACGTATCTTTGTGATTGGGGCCGGCCGCTCCGGTTTCCAAGCCAAGGGCTTTGCCATGCGGCTGATGCACATCGGTTACACGGATTACGTGATGGGTGAAACCATTACGCCGTCGATTCAAAAGGGCGATACCTGGGTCGCCATTTCCGGCTCCGGTACCACCAAAGGTATCGTTGCCGACACAGAGGCTGCTAAGAAATTGGGCTTGCAGATCGTCGCGTTCACCAGCAACCCAGAGTCGCCATTGGCCAAATTAGCCGACGCCGTTGTGGTGGTGCCTGGTGCAACCAAGACCGGCAGCGGAGTTAAGTCGATTCAGTTGTTGTCGACACTGTTCGATCAAACCGTGCATATCACTCTGGATGCACTCTGCTTGAAGTTGGCGAAACGTGATGACACCAGCAACGCGGATGCGCTTCACGAGCACGTTAATGTGGAGTAG
>SRR1151209_02047 2-keto-3-deoxy-6-phosphogluconate aldolase
ATGCAAAAAGTTGATCGTCTGTTGCGCCTGCAAAAGGCAGGTATCGTCGCTGTCGTTCGGGGCAACAGCCCAGAGGAAGCCGAAAAGACCGCCGATGCGGTGATCGCCGGCGGCGTTACGGCCATTGAATTGACTTTCACCGTGCCCCATGCGGACAAGGTCATCGAGCATTTGACCGAAAAATATGCCAATGATGATGCTGTCGTGATCGGTGCTGGCACCGTCTTGGATCCCGCCACTGCTCGGGTGGCGATGATCGCCGGTGCTGAGTTCATCGTCAGCCCCAGCTTCAACGCTGAAACGGCAAAGATGTGCAACCTGTATGCGACGCCTTATACGCCGGGCTGCATGACGCCGACTGAGATGCAGAGCGCGTTGGAAGCCGGCGTGGACTTGGTGAAGCTGTTCCCTGGTGCAGTGATGAAGCCGGCCATGGTCAGTGCCGTCCTAGCACCGTTCCCGTACCTGAGCATTATGCCCACCGGCGGCGTCAACGTCGAGAATATGGCCGAGTGGTTCAAGGCTGGCGTTACCCTGGTTGGTGCTGGCAGCAACCTGACTGCTGGCGCCAAGACTGGCGATTATGCTGCCGTCACGGTCCAGGCCAAGAAGTACCAAGCCAAGTTAGCTGAAATTCGCGGTTAA
>SRR1151209_02048 major facilitator superfamily transporter
ATGGCAAAACGGCGCGGCAAACTACCGGAATGGCAACGCAATCTCCGGGTCCTCTGGTTCGGCAATTTCATGGCGGGGATCGGATTTTCTTTGATCATGCCCTTTATGTCCCTCTACATCGATACACTGGGGGACTTTAACCGGACTGAACTCAGCTTTTGGAGCGGTTTGACTTTTGCGGCGACTTTTTTAGTCACGGCGGTCGTCTCCCCAATTTGGGGCCGGCTGGCCGATGAACGCGGCCGGAAATTGATGCTGCTCCGGGCCAGTTTAGGGATGGCCATCGTCATCGCCTGTATGGGTCTGGTGACCAATGTCTACCAGCTGGTGCTGCTGCGCCTGCTGCAGGGTGTCTTTGCGGGATATATTTCTAACGCCAACGCCTTGATCGCCACCACGGCCCCGCGGGAACAGTCCGGTCAGGCGCTGGGCACCCTCACCACAGGGAACGTCTCTGGCACCTTGCTCGGTCCGCTGGTGGGCGGCGCCATTGCAGAAGTGGTGGGCTATCGGGTCACGTTCTTTGTCACGGGCGGATTGCTGCTGCTCGTTTTCTTCCTCAGCTTATTCATGGTCCACGAGCACTTCACCCCGATCAAACGGGCGGACGCCGTGCCGATGAAGCGGGTCTTCCATGAATTGAAGTATCCCCATGTGATCATCGGCATGTTTGTCACGACGATGTTCATTCAAGCGTCGAATAACTCTATCAGCCCGATTCTCAGTCTGTACGTCCGCCAACTGATGGGCGGCCACGGCGGCATCGCCTTCATTTCGGGCATCATTGCCTCCCTGCCCGGGGTAGCGACCTTACTCGTGGCCCCGCGTTTTGGCCGGTTGGGCGACCGGATCGGGACGGAGAAAATTTTGCTGATTGGCTTGGCCTTTGCTGTGCTGGTCTATATTCCCCAAGCGTTTGTAACCAATGTCTGGCAGCTGGGCTTTCTCCGCTTCCTCGTCGGTATCGCCGATGCGGCACTGATTCCCCAGGTCCAGACGCTGCTGGCCAAATACAGTCCGCACTACGCAGCCGGCCGAATTTTCAGTTATAATCAATCTTTTCAGGCGACGGGGAATGTGGCGGGTCCGTTGATTGGCTCCACCATCTCCGGGGCATTCAGTTACTCCGCCGTCTTCCTCAGCACGAGTCTGCTCGTCCTCGTCAACTTGGTCTGGGTCAATTTCAGTACGCAGGAAATTCGCCAACCCCAGACCGAAGAAAAAACAGACCCCACTCGTGATGAGTAG
>SRR1151209_02049 hypothetical protein
ATGAACGCCTTTGGCTTTAAAATTGATTCCTGGCCGAATCCAGGCTATCCCAAGGGACCAATGGCTGGAACGTTTTATGGCGATCCGAAACACACCCCGCAAGCAGCCGTCGATGCTTATACGACGCGGGATGATCTGATTGATGGCCGGAAAATCAGTGCACTCGCTTTCCCTTCCGGGACGCAATGGGGTCCCTTCGGTATATTTACCCAAACCGATGCGACCGGTTATATGAGCGCCACCGCCGCTGATGCCAATCAAAACGGTCAACCCGATCAGACGCCATTAACCGGTCAGACTGGCAATGCGGTTAATCTCCTTGGCGGCGCGTGGCAGAACATGCAAATCATGTATACCGCAGCGACGCACCGGTTGACGATCATTCTCGCCGATCCTGACAACTCAACACGTACGATGACTTGGTCCAGGACATTAACGAGCGCGGAGATTAACCTGATCAACCAGAAACACTATTATGCGTTCACCATTCTGGGTTCCACCGGTTCTTATTGGGCAGAGCAAAGCATCCAAAAGTTAAGCGGTTATTTCACCCCCGAAAGTCCCTCATTAGTTGTTCGCCAAGCGACCACGAATGGTACCTCGCTGGCTCTGCCCACCACCATCACGCAATCGGGCAGCTACCGGACCAAAGCACCGATCCGTATGGCCCCCACCAAGGACAACAATTATTTCACGGGGGTCTTATCCCATCTCTTATTGACTCACTATGATACCGCCGGGCAGCAAGTCACCAGCCGCATTAACGCCAATGCTTACGGCAGTGATGGCAATCAATGGTATTTCGACATCAATCCGGCAACTTACAAGTCGTTAACGATCGTTACTTACGTGTACCGCCGGACGGCATCCACCAGCGACGCGAGTCCCAGCGCAAAGTTCGATATTCCCCTCCCCAAATTAAGCTTCAGTGGGACTTCAACCTCTGCCGGCACCAGCGGGCCTTACACTGTACAACCAAAAAGTACGGTGTATGTCACCACGCAATTAGCCAATCCCAGTATTGGCCCGGCGGATTGGATCAAACCCACCGCGCTGATCACCCTGCCCCAACTCCTGCAAGCAACGGCCGGACCTGGCGTTACCCAGACCGGTCAGCAGTTGACAGTACAATTTGCTGATATTGCACGCGGCACAACAGGGACTGTCACATTTGCCCTGACTTACAGCGGTCAACTGCCAGCCACGCTTTATCCGGACCAGCTGCCAGCTGGCACCGGCATGCGGTTGGCCTTGCATGGCTATCTATACGATCAGTCGCCTGACGTGATCAATGCCGCCGGTGCCCGGACCGATGGTTCCTACTTCTATGTGCCCACGACCCTCGATGCGCCCAAAGCAAATTCAGTAGTGACGTCTCCGCCTAACTTTAGCATCAACACGACCAAGGACATCGACTCCGGTAACTTTGTGCCGCAATTTGGCAGTGCCCAACCGGCAGCCAGTGCCGTTTTCCATTATTGGGATGTCACCAGCGCGGATACAAATCCCCAAATCACCACCATGGATCCAATTCTGGCTGGCCATCCAACGACTGACATCGCGGGTACTGCACCAGGGACATTAACTGGCTTGCTGGGCAATGCCATCGCTAACGCGCCCCAGCCTACTGCGCCCGTTGGCTATCAATATCTGGGCTATTACGAATACACCGGCAGCGGTACCAGCAGTACTTGGCATAGCGCGCAGGATACGCCAACGACTTTCTATTATCAGGTACCGACGACCGGTACCAGCGCGCTGGCACCGCAACAAATTGCGTACATCTATCGGCCAATCAGTGACCATTACTTTTCCCTCACCACGACAGATCTGGATTTTGGCCGGCATCCAGCCAGCGCGGCCAGCCACGATCTGAGTTTGCCGACGCTGGGCAATGTTCAAACCACTTTAACTGATCATCGGCCAAGTGTTGGGCTGCCGGCTGCCTCTGGTCCCTGGCAGGTCAGTGTGGCGGCCAATGGGCCTTTGACCGGTCGCACCACCCAGGCTGTGATCACCGGCGCGCAGCTTGTTTTCGCAGCTGCCGATACCGGTACTGCTCAGAATGTGACGACCGCTGGGGGCGTGCTGGCCTTAACCGATAATGCCAGCGAAACCCTTACCTTGGGCCAATCAAACGTCTATGGATCGGCTAGTTTGAATTGGGCTCCTGCAAAGATTCAGCTCAACCTGCCTGCCCAGACCATCACGCCGGATACGTATCAAACAACAATTACTTGGACCGTCACGGACGGTCTGTGA
>SRR1151209_02050 hypothetical protein
ATGAAGCATGGGTGCACTTGGATTCGAAGCAATCGTTTTTTGGTGTTTTTACGTTATTTAATCGCTATTGGTCTGCTCTTTGTAGTAGCACTATTGGGCGTTAAGATTGCCGCCGCGGCGACAATTTCGCCTGGCGCAGCACAATTGGCCCAGACCAACCAACTCGTTCAACGCTTATTAGCCGCTGATCCGGCTGACCCTAATCGGGTTTACATCGGCAATGATCAAACCCAAGATTTCTTCAGTCCCCATGGACACACGGAGATCAGTACAGATGGTGCCGGCCATTGGAGTCAAATCCAATTAACCGATAATCACGGCTTTGAACTTGGGGCAGTGACGCTGAATATGCGCATTGATATGCAGCACGATTTTTCCTTTTCCTGGCAAGTGCGGCTGAAGAAAGATTCTAACGCGTCGCTAATTGCTGACGGGGTAGGATTTGCGCTGCACCCCACCTACACTGCGGATGAGGTGAAAGCCATGGGCAGCACACAGGGAATAGCCCAGGAAATTCACTCCATCGGTTTGAGTGGCGGAATTTGGGCACCGCTGATTTTATGA
>SRR1151209_02051 esterase
ATGAAGAAACACGTGCAGGGGATTTGGGCGGCCTTGCTCGGTTTGGCTTTGCTGCTGGTGGTTGTCAGCGGTTGTTCAACCACCAAACCCCAGGCGGCCAGTGTGGTGTCGCCCACCAGCAAAGTGGCCACCACCACAGTGTATTCAAAGGCACTGGGAATCGACTGGAACTATGACGTTTATTTGCCGGCGGGATACAATCCGACAGCTAAGAAACGGTATCCGGTCGTGTACATGATGCACGGTTTGTACGGGAATCATCGAAATTTGCTGGAGCGTTTTAATTCCCAACAGATGCTGGACGGAATTATTCACCGTACCCATCAGGGCGCGATCGTCGTCTTTATTGACGGATTCAACAGCTTCTATATCAATGCTAAGGACGGCATGAAAATGGAAGATGCCATCATGAATGACCTGATCCCGACCATTAACAAGACCTACAAGGTAAGCACCAAGCGGAGTGACCACGCCCTGGGCGGTATTTCCATGGGCGGTTACGGGGCTGCTCGATTGGCCTTGAAGTATCCCAATTATTTCTCCAAGGCCATCCTCGTTTCGCCGGCGGTTTGGTATAATCTGCCCGCTGATAATGTCTTCCGCAAGACACTGCACGCATTTACTGACGGCAAGACAAACTGGTCGGATAAAGTATACAATTCCGTATTTCCGACTGAATACCTGGATAGCGAGTCGGCGGATGTGCAGTTCTACGTGGAATCCACGAGTTCTGATACCACAGTGCCGATTAAGGATGTCCAGCGGTTTGTTAAAGCCGTGAAGGCCAACCACAATCCGGTTAAATTCGTGCAGGACAGCGGGGATAATCATAACTGGACGTACTGGACGAAAGCAATGCCCAAGGGGTACCAATGGGTGATCGACCAGTTCAAGGCTGGCAAGTAG
>SRR1151209_02052 N-acetylmuramic acid-specific PTS system IIBC component
ATGAAGAATGCAAAAAATGAAGAGACTGCCAAAGAAATTCTGGCCAACGTCGGCGGCAAGGATAATATTCAATCGAACGTCGCTTGTATGACCCGTTTACGCTTGGGGATCAAAGACAAAGGCAAGGTCAACATCAATGCCTTGAAGTCCATTGACGGGGTGTTGGCCGTCGTTGACGCCGATACGCTGCAAGTGGTTCTGGGCCCAGGTAAGGTCAACCAAGTGGCGGAACCGTTCGCGCTGCTCTCAGCCGTACCGCTGGGGTCCGAAGAAGAGGACGACGCCACCGTCGCCCAGGATACCAAAGCCTCTGAAGCGACCGATGTTAAGGATATCGCCAAGGTCAATAAGTCAGAAAACAAGGCAAAGCACGACAAGCCGTTGCAACGTGGCCTGCAGCACATCGCCAACGTCTTCATTCCATTACTGCCAGGGATTATCGCGGCTGGCTTGATTAACGGGTTGACCAACGTCATTGATTACCAGACCGGCTCGGCCTTTGTCAATGATTGGTGGTACATGACCATTAAGACTCTGGGCTGGGGCTTGTTCACTTTCTTACCGATCTTTGTCGGGATGAACGCGGCTCGAGAATTCCATGGCAGTCCAATTCTTGGCGGCCTCGGTGGGACACTGTGCTTAGGCGTTGTCGTCCCTGGATTTCCGCTGGGTTCCCAGGCCATTTCCATGCCATTGACTAATTCTCCCTATGTTGTCGGGGTGGGCGGGTTGCTCACCGCGCTATTCATGGGTATCTTCTTTGCCTGGTTGGAAAAAAACATTCGCCGGTGGATGCCCACTGTCTTAGACACCTTCTTCACGCCGCTGCTTACGGTGATCATCGGTTCTTTGATTGCCGTTGTTTTCCTGCAGCCGGTGGGCGGCTGGTTGACCAATGCCATCTACTTGGTCATGGACTTCGTTTATGGCAAGTTGAGCGTGTTTGGCGGGTTCATCCTATCATCCACGTTCCTGGGCCTGGTTTCTGTCGGCTTGCACCAAGCCTTGACGCCCATCCACGTCCTACTCAACGACCCCACCGGACCAACCCATGGGATCAATTATCTGCTGCCGATCCTGATGATGGCTGGCGGCGGGCAAGTTGGGGCTGGCTTTGCCCTGTACTTCAAGAGTAAGAATGCCCGGTTCCGAAAGATGGTCATGAGCTCGATTCCCGTTGCTATTCTGGGCATCGGCGAGCCTCTGATGTACGCGGTGACGCTGCCTTTGGGCCGGTCGTTCATCACGGCCTGTATCGGCGCCGGCTTTGGCGGGGTTGTCGCCTCCCTGTTCCATTTAGGCGCTGTTTCCCAGGGTGTCTCTGGTCTGTTTGGTCTGTTGATTATGCAACCGGGTCAGCAATTGAGCTATTTATTGGCGATGGCCGTGGCGTATCTGGGCGGCTTTATCGTGACCTGGTTCTTTGGCGTTGATGAAAGCCGGATCGATGAAATCTATCCAGAGAAGTAA
>SRR1151209_02053 sucrose-6-phosphate hydrolase
ATGCTCACAAAAAACGATCGAGAGAAAGAATTCAAGCGCATGGTACCGCATATTGCCGATGTCGATCCGCAAATCGTGCAGGCCGAAAAACGACTGGCCCAAACGAGTCCGTTTCGCCAGCACTTCCATATTGAACCGGCCTCCGGTACCCTCGGCGATCCCAATGGCTTTTCGTTCTTTGCGGGCCAATATCACCTGTTCTACCAATGGTCGCCACTGGCCTTTCACCAACCGGCACTATGGCAGCATGGCTGGTATCACCTGGCATCGCCGGATTTAGTCCACTGGCAGGATTTGGGACCGGGAATGGAAAGTGATACGTCCTACGATTGCCATGGTACGTATTCCGGCAGCGCTCTGCCCGTGGGTGACCGGCTCTTCCTGATGTATACTGGTAACACCTGGAACCGCAATTGGGTGCGGGTACCCTATCAAATTGGTGCCTGGATGAACGCAAATAACCAGGTGAAAAAGAATGCGCTACCTTATTTAACAGGCTCGCCAGCAGGCTATACGCCGCATTTCCGCGATCCTAAGTTGTGGCACCATGGTCATCACTACTATGCCCTTTTAGGCGCCCAGCGGGAGAACCTGACAGGTACTGCTTTACTCTATCAGTCGACCGATTTAACTGCTTGGCGGCTGTTAGGCGAAGTGCAAACTGACACCCCTGACTTCGGTTTTATGTGGGAATGCCCGGATTACTTTGAAGTTGATGGTCACGGTGTGCTCCTCTTCTGTCCCCAAGGATTGAGCGCGGATGGCAATTTCTTCAACAATGTCTATCAAAATGGCTGTTTCGTTGGCGAGCCGTTGAATTACGCCACCCGCGGCTTCCATCATGGGGCCTTTCAAGAATTGGATGCGGGTTTTGATTTCTATGCGACTCAAACGATGCAGGCCCCAGATGGCCGGCGAATTCTCAGCGGCTGGATGGGCATTTCAGAAATCCACTATCCAACTGAACAGTATCACTATTCAGGTTGCTTAGTTATTCCTAGGGAATTATCCGTGCATCATAATCAGCTGGTGCAACAGCCAATTCGGGAACTGACCAGCCTGCGTCGTGAGCGGCAAACCGTGAACCAAATCGGGCCCGGTACAGTGGCTTTACCCTACACCGGTCAAGTCAGTCAAGAATTCGATTTGACGGTCAGCTTAGCCGCAACTCAGACAGTTACTTTAGATTTCCGAGCGGATGTGCTAAATCAGCACCATACCCGCTTAACCCTTGATCGTGGTCGGCAACTGTGTACTTTGGATCGCAGCCAGGCAGGCCTCTCCTTTGCGGAACAGTGGGGCACGGTCCGGCAACGGCGTACGCCGTTGGGGGAACGCGTCCGAGTACACGTCTTCGTCGATACATCCTCTATTGAAATTTTCATTGGTGACGGCGCAACAGTCTTCACCAGTCGAATTTTTCCGGCCGCTAACCAAACTCAAACATTCGTAACCAGTTCTGATGGGCAGGCACAGGTCATTGGCAGCATCTGGAACTTGGCTTAA
>SRR1151209_02054 PTS system, sucrose-specific IIABC component
ATGGCTGATAAAAAACAACAATACGACGCCTTTTCAGACCGCGTCGTCGCCGCGATCGGTGGCAAAGATAATGCGATGGAAGCATTCCACTGTGCTACCCGGTTACGGATTAACCTAAAAGATGTCTCTAAGGTCAATAAAGATGCGATTACTGACCTGGATCTGGCTAAAGGCGTCAACATCAACCGCAACCAGTTGCAAATTATTATTGGCGCCGGTTTGGTGGACGATGTGACAAAAGAGTTCATTACCTATACGGGGATCCCCGACATGCAGGCGCAAGCGGATGGTTCAGATACGGTTGACGCCAGCGCGGAAAAGGGCAAGAGCTGGTTCTCTAAGTTTATTGACGACTTAACTGGTGTGTTTGGCGAAATCTTACCTGGCATCTTGGCCGGCGGTATCTTGATTGGCTTAAACAATCTGCTTACCCAAAAAGTCATTGGCAGCCAATCCATTGTGCAAGCGGTGCCTGGATTAAGCGGCGTCAGTCAAATCGTCAATCTCGGAGCTTCCGGTATCTTCGCCATGCTGCCGCTGCTCGTGGTTTATTCCGCCACAAAGCGCTATGGTGGTCGGCCAATCATGGGCCTGGCCTTAGGTACGGTCATGATGACAGCCAGTTTGCCCTCGCTGAGTGACGTCAGCACCGGCGCGGCCAAAGCGGTGGTCGCTAACATCTTTGGCTGGCATGTATCACTCTTCAGTTTTGGCGGCCAAATCATCGTCGCGTTGATCATGGGCTGGATCGTGGCCAAACTGGACAATTATTTTCAAAAAATTCTGCCGGGGGTCATCAAGTTTGTACTCGCTCCCATGCTGACAATTCTTTGTTCCAGCTTTATCCTCTTCCTGGTCGTCGGTCCTATTGGGATGACCTTATCAACCTGGATCACCAATGCGTTGGTCTGGATGTCGCAAGCCTTCGGCATCTTCGGGTACATGATTTTTGGCGGCGTTCAGCAGCTGATTGTCATTACTGGGCTGCACAATATGTTTGGGGCCGTTGAAGCCCAACTTATTTCCACCACGAAGACGGACTTCCTGAATCCCCTATTCAGTGTGGCGCTGATGGGTCAAGGCGGCGGCGTACTGGCCTATATGTTCCTCAATCGGCACAACCGCAAGGCCAAGGAAGTTGGCATTTCTGCCTTCTTCTCGATTCTGTTCGGCATCTCTGAACCAGCCCTTTTCGGGATCAATATCAAGAATCGGTATCCATTGATTGGCGGCTGCATCGGTGCCGCTATCGGCGGCGGCTTCGTTTATCTCACCCGCTTGACGGCCATCAGCTTCGGCACCACAGCATTACCCGGTATTGCCATCGCATCACCAGCGAACAATGGCTATCTGAATTATTTACTGGCCAACATCATCGGTCTAACGGCTGGTCTGGTAGCGACGATGATTGTCGCCCGGGTGATGGGGAAAAAACCGGCAGTGACTGATGATACGGAAAAACTGCAAACGAAGGCCGCAACCAGCGAAGCAGGGTTGAATTAA
>SRR1151209_02055 AraC family transcriptional regulator
GTGTTGGTTCAATTTTACGCATTCAATAATCCAATGGAAAATCCATATTTGTATCTGTCATCCGGCGGGGTCGATCCGACCAAACCGTTACATCAGTATGGGCCGGCTGCCCGCTCCGGGTACATGATTCACTACATTCAGGCGGGCCACGGGACGTTTACCAGCAATCATAGGGATTACCATCTTGGCCCTGGCGACATGTTTTTCTGCGAACCGGGCCGCCCGGTGAACATGTTGGCCGATTCTCATGATCCATGGGTCGTCTACTGGATTCGGTTTACCGGGAAATTAGTGGAACGGTTGGCGGAAACCTTCAACCTCTCTTACCGTGCACCGGTTTTCAACGTTCAGCAGGCAGCACCCATTCGTGACCAGTTGTTGGATATTATTGCATTCTCCCAAGAACCAACTGGCGATCCGCTGCATTATGCCGCTAAGCTGCTGGACTTGATCGGCAATTTGCGCCGGTTGTTTCCAGTGAATCAGAGTGAGGAACGAGCACCCGGCCAAGTGTTGGTGGATCAGGGGACTCAGTATATGCGGAATAATTTTGACACCCCCATCAGTGTCGCCGATGTCGCCGACTATTTAGCCATTGACCGGACTTACTTATTCCGGTTATTCAAAGATAATGTCGGGATGAGTCCCAAAGCCTATTTGACCGACTACCGAATGCACGCCGCTCAAGAAATGCTGGCGCAGACGATGACCCCGATCAAAGTGATCGCCCGTTCCTGCGGTTACCGGGATGAATCTCAATTTTCGAAGGCTTTTCAACAGCGCATCGGTCAGTCACCAATAGCGTATCGCCGGGCCAATAAATTGCGGTAG
>SRR1151209_02056 HAD family hydrolase
ATGCAACAATTTAAACTGCTGGCCTTTGACCTTGACCACACGTTATTAAAAGAAGACGGGACATTGGCAGAACCAACGATTCAAGTGCTCAAGACGCTTCATGAATCAGGAATCAAAATCGTTCTGTGTTCCGGTCGGCCGGTGCCGGGCTTGACCCACTTGAATGCGCAACTCGGTTTGACTCAGCCTGGTGATTACTCAGTTTACTTCAATGGCGGCTTAGTCAAAGAAAATGCCACTGGCGAGACGATTTTCAGCCAGACTATGCCGGAACCGGTCGTCCAGGATGTGATTCGTGTTGGGGATCAGTTCCAAGTGCCGATCGATCTGGTCTCCGCCAACGCCGTCTATGCCATCACGGATCACGGCGAGTCGCGGTATCCGCTGGTGGCGCCCCATGGTATGCCGTTCATGTTTTATCCCAGCAATGAGTTACCGGCGGATCATGCGCCGGTTTATAAATGTGCGGTCGCCGCGCAGCCGACGGTGGTCGATCAGTTGCAGAACGGCGTTCACGTCGATGGCGTCAGTGTTACCCGGTCCCGCCGCGAGCTGCTGGAACTGATGCCTGCCGGTATTAATAAGCGCGTGGGGTTGGAACACCTGATTAAGCATCTCGGGTATGGGGTTGAAAACCTGATGGTCTTTGGCGATGAAGAAAACGATCGGGAAATGATGCTGTTTGCGGGGTTGAGTATTGCCGTGGGCAATGCGATTCCGGCAATCAAGTCGATTGCCGATCGGGTGACAGACACCAATGAAGAAAATGGTGTGGCTAACTTTTTGAAAAAGTATTTTTATTTGTAA
>SRR1151209_02057 esterase/lipase protein
ATGGAAATTATCACATTGAATTTGTCTACCGCAATGAGCACCTCGGCCACGTTAACCGGGTATATTCAGACGCCCAGTGAGGAGATTCCTGGGAAAACGCAGCGGCCAGTAATCCTGATTGCGCCTGGCGGCGGCTATACAATGGTGTCTGATCGGGAGGCTGAACCGGTCGCGTTAGCATACGCCAGTCGGGGATTTCAGGCCTTTGTGCTGCGCTACTCGGTGCTGCCGGCAATGTGGCCGGCGCCGTTATTGGAAGCCGCTGAAGCGGTACATCAGATTAGGGCCCATGCTGCGGACTGGTATTTGGCGCCAGATCAAGTGGCGATGCTGGGATTTTCTGCTGGGGGACATTTGGCCGCGGCACTCAGTACATTGGCCGCAGCACCTTTCTTAGCGGATCAGGGGTATCAAGCGGCGGATATTCGGCCGAACGCGCTGCTGTTGGGTTATGCCGTCGTTTCTCTGAAAGCGACGGTCACCAGTAAAAGCCGGTCTGCCGGTCGGCTGGCGGCCGGCCTGCAGAATCCGGAAATGGCCCAATTGCCGTTGCTGAAAGAGGCCGCAGAGCTGCCGCAGCAAGTGACGGCAGCGACCCCGCCGACATTTCTTTGGGCGACGGCAACGGACGAGACGGTGCCAGTTAAGAATAGTTTGGTGTTTGCTGAAGCGTTGGCGGCGGCCCACGTCCCATTTGCGCTTCATGTATTCCCCCAGGGAGAACATGGGTTGTCGTTGGCTAACAGCCTGACGGAAGGACAGCAAGGGCACACCGTGGAGCCAACGGTGACGCCTTGGTTGGGGTTGAGCGCACAGTGGCTGCAGCTTACTTTCCCTGGTGCTGGTATTGTTGTGTAG
>SRR1151209_02058 iron-sulfur cluster binding protein/lactate utilization protein LutB
GTGGAGAAACGCGGCGGCCATGTTTATTTTGCTAAAAAAGATACCGACGCGGTCAATTACATCACCAATTTAGCCAAAGAAAAGCATGTACAGCGGGTCGTGAAATCCAAGTCCATGGTGACCACCGAGATCGATCTGGACAAGCAATTATTAAAGCTGCCCGGGATGAAGCTGATGGAGACCGACCTGGCGGAATTTATTCTGCAATCGGATAACTGGGATGAACCGACCCACATCGTTTTCCCAACGCTGCATAAGAACCGGGACCAGATTCGCGGCGTGTTTGAAAAATTGGGTTACACCGGCGACAACGATCCCACTCGCATGGCCCGGTTTGCCCGGGAATACCTCCGCGGTTATTTTCTCCAAGCGGACATGGGCATCACCGGCTGCAACTTTGCCATTGCCGATTCTGGACTGATCAATTTAGTGACCAATGAAGGCAACGCCGATCTGACCATGGCGATTCCCAAGACGCAAGTCGTCGTCATGGGCATGGAGCGGCTGGTGCCGAGTCTGAAGGAAGCCGAAGTCCTGGACAATATGCTCAGCCGCAGCGCGGTGGGCCAGAAGCTGACCAGTTATTGTTCCTTCAGCGGCGAGCAGGTCGCGGGCGAAAGCGACGGACCCGAAGATCTGCACGTCGTGATTTTGGACAACGGCCGGTCCAACGCGCTGGGCACCCCCTTTGAATCCGTTTTGCAGTGCATTCGCTGCGGCGCCTGTTTGAATGTCTGCCCGATTTATCGCCACATCGGCGGCCACGGTTACGGCTCGATCTATCCGGGGCCGATCGGCGCGGTATTATCCCCGGTTTTGGACGGGTATGAGAAATTCGGCGACCTGCCCTTTGCCTCCAGCTTGTGCGGGGCCTGTACCGAGACGTGCCCGGTGAAGATTCCGCTGCACCGGTTGCTGATCAAGCACCGGGAAGTGATGATGGACAAACTGAAGACCGACAAGGCCTTTAACAAAGCGATCATGAAGGGCATCGGGATGGGCACGGCCCATTCCGACCTGTTCCAGATGGCGCTGCAATTCGATCATTCCGCCACGCTGCCGTTTGTCTCAAAGAAACCGACCACTGTGGACAATCTGTATAATCACCAAGGCCACATCACCCATGCACCGTCCATGGCCAAGGGCTGGACCGACGTGCGGGATGCCCCGCGGCCGCCGAAGCATACGGAGAATTTCCGCCGCTGGTTCAAGGACCATGAGGCGCAGAAAGGGGCGAGTAACGATGACCAGTGA
>SRR1151209_02059 lactate utilization protein C
ATGACCAGTGATAATCGCGAGGAGTTTTTGAACTTTATTGCCGCCAAGGCTGAGCGGCCGCGGCATCAATTGACGGATCATCCGTTTGTGCCGCTGAATGATTTACCGGAAACTACCTTGGCAGATAAAACCCCGGCGGAGTTATTTGCCCTGGCCAAGGAAAACAGCGAAGCAGAACACGTGACATTCAAAACGGCGGCCACGGCGGATCTGCCGAGCGTGCTGGACCAGATGATCACGGATAAGACCGCCCAGTCGCTGCTGCTGCCCACGGATGAGCGGATCGCCGCCTATGGGTTAACAGATTGGGCGGCGCAGGTCGCGCCGCGGCCGACTTACTGGGATCCGGCGGGCAGCCGAACGGAGAACATTCAGCGGGCCCAAGATGCTGACTTGGCCATCGGCTGTGTGGAGTTTCTCTGCGCTGAATCCGGCACGATCACCGTGGCAACCACGCCGGGGCAGGGCCGCAGCTTTCACTTTCTGCCCAAGCACTACGTCGCGCTGGTGCCCCAAAGCCGGATCGTCCCGCGTTCTCGGCAAGCCATGGACTGGTATGACACGGAATTGAAGGCGGGCCGGCTGCACACGTCGAATATCAACTTCATCACCGGACCATCGAATTCGGGGGACATTGAAATGGTCCTGGTCGTTGGGGTCCATGGGCCGATTGATATGACGTATGTGGTGCTGACGGATAAATAG
>SRR1151209_02060 hypothetical protein
ATGGCTGAACCGACAACCGAAACCACTGAAAAGACAACGCAATGTGCTGATGGGGCGTGCGTGCTGCCCCAACAGGCGCCAACCCCGTGGTGCCAAGTACTGATGCCGAATCTGGTCTTGGCTCAGGCGGCCACGGGGAAGACGGTGTACTACGTGGATACGCTGAACACTTTGAGCGATCCCGTGTTGAAGGCATTCCGAGACGCGTACGAGATTTCCTTTGTGCCGACTTTACTGGCCTTCCGGGCTGGTCAGGTCGGCGCCAAGTACGACGGCGACCGCAGTATTGCGGATGTTCAATTGTTCTTACAGAATAATTAG
>SRR1151209_02061 3-deoxy-D-manno-octulosonic acid (KDO) 8-phosphate synthase
ATGGCGACAATTGCAACGGTTTTTAAAGACTATGGGTTCCACAATGATCAGCTGACGCTGCTGGCCGGCCCGTGTGCTATTGAATCCTATGACACCTGCGCCCAAGTAGCGGAGATTCTCGGGTCCCTGGCGGATGAACTGCATATCAATTATGTCTTCAAGTCGTCCTTCGATAAGGCCAACCGCAGTTCCGGCGAGGCCGATCGCGGCGCTGGGCTGGAAGCGGGCCTGAAGGTGCTGCGCCGGATCAAAGAAACTTACCATGTCCCGATCGTCACCGATGTTCATGAATCTTACCAATGCGCGCCGGTGGCGGAAGTCGCTGACGTGCTCCAAATTCCGGCCTTCCTGAGCCGGCAAACCGATCTGCTGGTGGCGGCCGCCAAGACCGGCCGGGTGGTCAACGTGAAGAAGGGCCAGTTCATGGCGCCAGAGGATATGGGGTCCGTGGTCGACAAGCTGGACCCCTATACGGAAAAAATCCTGTTGACTGAACGCGGTGTTTCCTTCGGTTATCACCGTTTGGTGGTGGACATGCCTGGACTGATCACGATGCGTCAATTTGAGTATCCGGTGATTTTCGATGCCACCCACTCCGTCCAGCTGCCCGGCGGGTACGGCGACCATTCCGGCGGTCAGCGGGACTTTGCTTTTCCACTGATGCGCGCCGCCCTGACCGTGGGCGTTGATGGAATCTTTGCCGAAGTGCACCCCGATCCGCCCAGTGCCATTTCAGATGCGGACAATCAGCTTTATCTGGCCAAGGCGGCGCCGATTTTCCGCGAGGCCAATACACTGTTCCATGAGTATCAAGCGGCTCAGAAGGGGCGGGTGCAAGATGGCTTATTATGA
>SRR1151209_02062 sugar phosphate isomerase
ATGGCTTATTATGAGATCGCCCAGAAAGTATTTGCCCAGGAAAGTGATGCCCTCACCGGCGTCGCGGCTCGTCTGGATGATCATTTTGATCAGCTGATCGAAATGATTCGCAAAACCGGCGGCCGCTTGATCTTTATCGGTATTGGCAAATCGGAAATCATCGCCCAGAAAATCGCGGCTTCGCTATCGTCCATCGGCCAGCCGAGTTTCGTCATCGATGCAGCCAATGCCTACCATGGTGATCTGGGCCGAGTGGCCAGTGACGACTTGGTGTTCTTCGTGTCCAACAGCGGCGAGACCCAGGAAGTGATTCGTACGTTCTTCGCCTTGCAAGCGATCCATGGCGAAGCACTGACCACGGTCTCCCTCACTGGGGCGCCCCAATCCACGTTGGCCACGAATACGACTCTGGCCATTGATGTCGGTGTGGATGAAGAGGTTGACGTCACCGGGCTGGCGCCCACCGCCTCCACGACCGCCACCCTGGTCTTCGGGGATGCTTTGCTGGTGGTGCTGGAAAAGGTCCGGCAGTTTGACAAGGAAAACTTTGCCCAATTTCATCCCGGCGGCAATATCGGCCGGATGCTGCTGCAGCGAGTGAAGCACGTGATGCATACGCGACTGCCCTACGTAACGGAGGATACACCGATTAATGAAGTGATTTATCGGATCAGCGACTTCGGGTTGGGCATTACAATGGTGCGCAACGGTCAGACCCATGCCATTACTGGGATCGTCACCGACGGGGATATTCGGAAGAAGTTTCTGGATGTCCCCCAGGTCAAGCGGTCCCAGGCGTCGGATTATATGACCCGCGGGTTTATCAGTATCAATCAGGAAGAGCGGAACCAGGCGGCCTGGCAGAAGATGGCGGCGTATAGTATTTCGAATTTGATCGTGGAGGATAACGACCACCAGGTGGTGGGGGTGGTGACAATCCATGATGTGCTTGAATAA
>SRR1151209_02063 glycoside hydrolase, family 38
ATGGCTGACCATTTCCAGAAGAAAGCAGCCCAGCAGTTGGGTTACTTGCATGCATATTTCTATAACAATTTTACTCCCGTGACTGGGATCACCATGGGCCGGGACGAACGGGCGGATACCCGCACGATCCCCACGGCGGTCCAGTGGCGGCCGGTGAGTTTAGGCACGGCGTGGCAGGGCCGGGATGATTATTTCTGGCTGCGCTTTTCACTCACTGTGCCGATGCTGGCCGAAGACGCCCATTACGTCCTCCACGCGGTCTTAGGCCGCACCGGCGGCGGGAATAATTCCGGCTTTGAAGGATTGCTATTCGTGAATGGCGCACCCTATCAAGCCGTCGACAGCAACCACGAAGAAGTCCACTTTGGCACCCGTTACAGCGGCCAAACACTGTCGATTGCCATTAAGTTGTGGACTGGTTTGGAAGGCGGCGGACCGCGGCAGATCCAGCATTATACCTTAGATGACTTGAGTGCCGGGATCATCAATCAATCTGTGGTCGACTGTTATGCCTATTTATGGAACATTGTCGGCACCGTGGCGGAACTCGGGCCCGATGAGCCGCTGCGCTACAGCTACCAGACACTGGTCAAGCAGAGCCTGCGCCGCTTCGATTGGGCCAGCCTGACCCCCGCGACGATCGGGCCGGTGTGCGACCAGGTACTCGCGGACATCCACGCCTTCATTGCTGCGCATCCCCATGAGAAAAAAGGCTACCAAATCACCGCTGTGGGCCAGACCCACATTGATGTCGCCTGGCTGTGGCGGCTGCGCCATACCCGGGAGAAAATTGCCCGGTCGTTCAGCACGGTCTTGGCGTTAATGGATGAATACCCTGACTATCGCTTCTTCATGAGTACGCCGCAAGACTTCGCCTTTCTCGCTGACGATTATCCTGATCTATATCAGCGGGTGGCGCAACGCATAGCTGAAGGCCGCTGGGAAGTGGACGGCGGTACGTGGCTGGAGCCGGACGTGAACATGCCCAGCGGGGAATCACTGACGCGGCAATTTCTTTACGGCAGTGCTTACTTCAAACAGCACTTCGATGCGGATGCCCACGTGCTGTGGCTGCCGGATACCTTTGGTTACTCCGCCGCCTTGCCCCAGATCATGCACGGTTTTGGCGTCGATAATTTCATGACCACCAAGATCAGCTGGAATGACACCAACCGGGTCCCCCATGATACCTTCTATTGGCAAGGAATCGACGGCAGCCGGGTGCTGACCCATTTCATCACGACCATCGAACCCTGGACCAACTACGAGGATCCGGCGCAATGGCAGTATACCTATAACGGCGATGTGACACCGCACACCGTCATCGGCACCTACCATGTTTACGCGGACAAACCGGTCAATGACCATCTGCTGTTGGCCTACGGTTACGGCGATGGCGGCGGCGGGCCGACGCGGGAACAGATTCAAAATATTCGCATCCTGAACGAATTGCCTGGGATGCCGACGATCCATAATGGCCGGGTGGCCGATTTCTTCAGCGGCCTCCAGGATCGGCTGCACCACGCTGCCGAACCGGTGGCGGTCTGGCGGGGCGAGCTCTACCTGGAATTCCACCGGGGCACCTATACCTCTCAGGCCCGCATCAAAGCCCATAACCGGCGGGCGGAATATGCCCTGCGGGATTTGGAAATGCGCTATGCGGCGGCCCATGTGGAACAAGGCCTCCCCTATCCCCAAGAAACACTGCATACCCTTTGGACAACGCTGCTGCGCAACCAATTCCACGATATTCTGCCTGGTTCCGCCATTCACGAAGTCTATGCCGATGCTGAAAAAGAATTCAGCCAGTTATTCGCGACCATTGCCCAACTGCACCGGGATTTAGATGTGCAAGTAACCACCGTGGCGGCGGGCCAGTCGTTAGTGCGCAACAGTCTGCCCTGGTCGACGACTCAGCTCATCGGTGGTCAAGAGGTGACCGTACCCGCATTGAGCACGATCAGCCTGCCAGCAGCGCAGCCTGCCGCGGCGCCCGCCATGGCGGTGATTGACGGCCGGACCGTGCACACTCCTTTCTATGATCTGACTTACGCTGCCACCGGTGCATTGACCAAATTGTGGGATAAGCGGACCCAGCGGGATGTGCTGGCCGATGCCGGCGGCAACATCCTCACCCTGTATGAGGATCGTCCCTTGCAATATGACAACTGGAACATTGACGCGGATTATCCAGACAAAGTCAGCGTACTCCAGGCTGATCAAGTCGCGGTGACCGCCAATACCCCGTTGTATACCGATATTACCAGCCATTATGCCTTCGGTCAGTCGACCATGACCCAAGTCATTCGGTTGTACGCCCACAACCCGCGAATCGATTTCCGTACCACAGTGGATTGGCACGAGCGTCAGCGGCTGCTGCGGGTCGCCTTCAATACGCCGATCCTCGCGGCCAGTGCCCGCTATGATATCCAATACGGCAACGTCACCCGGGCGACAGACGACAACACCTCCTGGGATCAGGCCAAATTCGAAACCGTCGCCCACGAATGGGTGGACCTGGCTCAGCGGGATTACGGCGTCGCCCTGCTCAACGACAGCAAGTATGGCCACCGGATCAAAGGCAGTCAAATTTCATTATCCCTGTTGAAATCCGGCAACTACCCGGACACCACGGCAGATGAGGGCATCCAAACCTTCACCTACGCCTTGCTGCCCCACACCGGCGATTTTCTCACCGGCCAAGTACCCCAGGCTGCAGCCGAATTGAATGAACCGCTGCGCTGCACCGCCGATCGGACCGCGGAGACGTTAACGCCGCTCTTTACGATCACCGGTGATTACCCCGCCGCGCTGGATGCGGTGAAGATCAGCGAAGACGGCAGCGCCCTGATCGTCCGCGTTCACGACTACTCCGGCACCGACAACCGCCTCAGCTTGACCCCGCGCTTTGCGGCCAAGACCGCCCAAGCTGCTGCGCTGGATGAACACGTCACCGATGCCACCGAATTGCTGGCGGCCGGTCAAGTGACGCTCACGTTGCATCCTTACGAAATTCGCACGATACGCTTCACTTGGTAA
>SRR1151209_02064 oligo-1,6-glucosidase
GTGGCTTGGTGGCACACGGCGACGGCGTATCAGATTTATCCCCGCAGTTTTCAAGACAGCAACGGGGACGGCTTTGGGGACATTCCCGGGATCATTCGACGGCTGCCTTATTTGCACGAATTGGGTATCCAACTCATTTGGCTGACGCCGATGTATCCATCACCGGGCTACGATAATGGCTACGACATCAGCGACTACCAAACAATAGACCCGCGTTACGGGACTTTGACCGACTTCAAAGAAATGCTGGCCGTCGCCCATCGCTACCATATTCGAATCATGATGGATCTAGTGCTGAACCACACGTCCACGGAACACCCCTGGTTCAAGGCCAGCCGGCAGGACAAAACGAACCCGTATGCCGATTTCTACTTCTGGGCAGACGCCGCGGCGGGGCAGGTCCCGACCAATTGGCTGTCCCGTTTCAGCGGCAGTACCTGGGAGTGGGATGACCAGCGCCAACAGTATTATCTGCACATCTTCGAGCAGCACATGCCGGATTTGAATTGGGATAATCCCGTCTTGCGGAAAAAGATCTTAGCGATGATGGCCTGGTGGGCAGAACAAGGGATCGACGGTTTTCGCTTGGACGTGATCAATATGATCTCCAAACGCATACCCTTTGGCAACGTCAGCCGAGCCACACCTCAGGACGATGGCCGGGCTTACTACATCAACGGGCCCCACGTTCATCACTACTTGCAACTGATGAATCAAAAAATATTTGCCCCCAACCACATGATCACCGTGGGCGAACTGGCCTCAGCCGGCGTGGCCGAAACCGGAGAGTTCACCAATCCCGCCAACCACGAACTGGCCATGGCCTTTTCCTTTGAGCATCTGAAAATTGACTACACGGATGGCCGCAAGTGGACGCTGGGTCAATTTTCGCTGCCGGCCTTAAAGGCGGTGCTGACCAAATGGCAGGTGGGCATTGCCCGGGAACACGGCTGGAACGCCCTATTTTGGACCAATCACGACCAGCCCCGAGCAATTTCCCGGTTTCTGAATGATGATCGCTACCGGATTGAATCCCAGAAATTGCTGGCTATCGTACAATTTGGGCTGCAGGGTACGCCTTATATCTACCAAGGGGAAGAAATCGGCATGCGCAATGCCTATTTCACAAATATTGATCAATATGACGATCGGGAAAGCCGCAACGCCTATGCCGCCATGCGCCAGGAAGGCGTCGACACGGCCACTGCGCTGGCGATTCTCCAGCAGAAGTCCCGGGACAACGCCCGCACCCCGATGCACTGGAACCATACGCCCAATTACGGCTTTACCACTGGCACGCCATGGTTGCAGCCCGGGCTTGACGATCCAGTCACCGTCAAGGACGCGCTGGCTGATCCCCAGAGCATTTTTGCCCTCTACCAGCAGCTCATCGCGGCCCGGCCGGCGTATCCAGTCTTCACGGATGGCGACTTCCATATGCTGGCCCCTGACGACACCACCGTGATGCACTATCAGCGCCGCAATCAAACCGCTGTTCTCAGTGTTTGGGCGAACTGGTCCGGGACGCCCCAGTCCCGCCGGGCGGCCGATCTGCGAAATACCCGCCTCTTAGCCCACAACTACCCGGACGGCTTGCAGATTGCTGGCGAATTATTCACTTTACGCCCCTATGAAGCCGTTCTTTTAGTGGGAAAACAGGTACAATAA
>SRR1151209_02065 hypothetical protein
ATGGAAGTTGAAAACTTATTCCGTTTGCACGACGACCGCTTGGCGGCCGTTTCTGAGGGTCATCCCGAACCGTTCTCCGATGACGCCTTCCGCACGATCATTACGAATTCCATCGGCAGTATTGCCCGTATTTTTAATTTGAATCCCACCAACCACCACGTGCAGGTGCCGGATAGCGGCCAGGTCATTGACTTCATCATGCAGGATGAAGATGATACCGGTATTTACTATCCCACCGTTGTGGTCCACAACACCGACTTATTGCCGACCATTATTTACCGGCTCAATGCCGTGGCCACCCAAATTCCTGATGAGGTGCTGAATCCAAGTTTGAACAGCACCACCACCCAGGCCCCGCCAGTCAGCGATGATGGTCAAGTCGATGCCGACGACGTGCCTTATCAAGACGATCCAGACGCCGCCACCCAACCGCAGCAGGCCGCCATCAGCGATGTCATTCCGCTGCTGGTCATTGATCACATGGACGACACCACGATGGCTTTCTTGAAGGCCACTGAAGGTTTAGTCGCCCACTTTATTCTGGTAAAGCGAATCGACGCAGACTTGGTCGATATCCGTGCCCTGCCGAGCATTGACAACCGCAGCGGCATTGAACAGGATGACGAACCGAAGCAGAAGCGCAGCTGGCTGGATACGTTCCGCAGCTGA
>SRR1151209_02066 transcription elongation factor GreA
ATGGTTTATTACGAAAAAATGACCCAACAGGGCTTCGATCAGCTAGGGGCGGACATCGAGGCGTTGAAAAAACAACGGCCTGGGCTGATCAAGGCGCTGCAGGCCGCCCGGGCGCTGGGCGATCTGTCCGAAAATGCGGAATATTCCGCCGCCAAACGGGACCTGCGTCATCTGGAATCCCGCCTGCGCTATTTAGGCAAACAGCGCCGCTATGCGGACATCGTGCACCCCCAGGCCAACGCCATCGTGGAAATCGGCAAGACCGTTGACTTGCGCTTCGACGATGACGACGATACTGACACCTACGCCATCGTGGGCAAACCCGAAGCGGATTTAGATGCCCAAAAGATTTCCCAGGCCTCGCCCTTGGGCGCTGCCCTCCTCGGCCATACCGTGGGCGACACCGTCACCGTGCAAGCCCCCAGCGGGACTTATCCAGTAACGATTCAGGCTGTCCGCCTGACAAGTCCGCCCGAAGGCTGA
>SRR1151209_02067 glucokinase
ATGATGGCATACACGATTGGCGTTGATCTGGGCGGCACGAATATCAAGATTGGCCTATTCGCTGACCGCCAGCGCCTGATCGATCAGCATTGGACGCCAACACCGGCCAAAGCCCCGCCGGCACAGACGCTGCAGGCAATTACAGCGGGTATTCAGGCCATGCTGGCCCAGCATCCGGGAGACCTGACCGCCATTGGGTTGGGCATCCCGGGGTTAGTTGATGCCCAGCGGGGGATTTCTATGTTTTCACCGAATTTCCCGCTGTGGCAGGACGTGCCGGTCGGTGCTGTTTTACATAAAGAGTTTGGTGTGCCCGTGCGGATAGACAATGATGTCCGGGTGAACACCATCGGCGAGTGGCGGTTGGGCGCGGGCCAGGGTGAGAGCAATCTGGTGATGCTGACGATCGGCACCGGCTTGGGCGCCGGCGTCGTGGTGGACGGCCATCTGCTGCGCGGCGCGACCAATTCAGCGGGCGAGATCGGCCACATGAATATGTTCCGCCACGGCCGGCCATGCAATTGCGGCAGTGCGGGGTGTTTGAGCCGGTACGTGTCCGCGGTGGGCATTGTGCAGACCTATCGAGAGAAACGGGCCGCTCTGGATTTACCGGCGGTGGCCGCTGCGACCCCGAAGACCATTCAAGTTGCGGCGGAAGCCGGGGAGGCCGCCGCCATTGCCACCTATCAAGCGGCCGGGACCCTGCTGGGCTTTGGTCTGACCAATATCGTCAATATGTATAATCCGGCGGTGATCATCATTGGCGGCGGGGTGGCCGGGGCCGGCGACTGGCTGCTGCGGCCGGCCCGCCAAGTGGTGGCCGATCACGCTTTGGCCATTCCCGGCCGGGCCTGCCGCATCGTCACCGCCCAGTTGGGCAACACCGCCGGTATGTGCGGTGCGGCCCAGTTAGTGAGAAAGGAAAGTGTACCACAATGA
>SRR1151209_02068 fumarylacetoacetate hydrolase
ATGAAATTAGCGATGTTAGAAAATGAACCAGTCGTTATTACGGGCACTCCAGAGGACTTATCCGCGGCGCCCATTCAGAATGCCGATTCGGTGATGGCCGCTTGGGCGTTGGGCGCTGAACGGCTGTCCTTGGGCAAGGCCCAGACGATTCAACCGGATCAGCTCATTTGTCCGCTGCCCGAAAGCCGTCAAGTCTTCGCCGTGGGCATGAATTACGCGGCCCACACGAAGGAATTGCATGTGGCCGCGCCCAAAGCCCCCAGTGTATTCACTAAGTTTCCATCCTCTTTGACCGGGCCCACGGTGACCGTCCCCCATCACGGAACCAAAACGGATTGGGAAACGGAACTCGTCGTGGTGATCGGCCAGGGCGGCCGGGACATCAGTCAGGGAGACGCGCTAAACCACGTGGCCGGCTACATGGTGGGCCAAGATCTGTCCGATCGGGCAGTCCAATTCATCAATGACCCGCCGCAGTTTTCACTGGCCAAGTCCTTTGCTGGTTACGGTCCCATCGGCCCGTGGCTGACCACGCCGGATGAGGTGCGGGATTTGGCCCGCCAGACCGTGACTACGACGGTGAATGGCCAAGCGATGCAGCGGTCCCTGCTCAGCGACTTGATTTTCTCCCCCGCAGACTTGGTTGCCTATTTATCCAGTATCGTAGAATTGATGCCCGGCGACCTGATCTTCACCGGCACCCCTAGCGGCACGGGGGTGGGCCGCGATCCGCAGATCTTCCTCCAGGCCGGCGACCAGCTGGTCAGTCAGATCACCGGATTGGGCACGCTGCATATCACCATTGCTTAA
>SRR1151209_02069 HAD family hydrolase
ATGGCATATCGCTTTTTACTGTTTGACATCGACGATACCCTATTAGACTTCAAGGCGGGCGAAATGAAGAGCCTGCGCGAGATGTTTGCTGAGCTTCAGCTGCCCCGCGATCCGCGGCTGGAACCGACCTATTTGCGCATCAATCAGTCCCTTTGGGAGGCTTACGAACGCGGCGACATTACCCGGGAGGATATCTTCCGCCAGCGCTTTGTGAAGACGTTCAAGCACCTGCAGATCAACGCGGACGGCTTGCTGGCGGAACGGGTCTACCACGCGAAGCTCGATCAGCAGGCGGTGGTCATCCCCCGGGTGACCGAAACCCTGGCGGCGTTGCAGGACTATGAATTATATATTGTCTCCAACGGGATCGAGCCGGTTCAACTGGATCGGCTCCGCAAGAGCGGCTTGGCCCATTATTTCCGGGATGTATTCGTGTCCGATTCCGTGGGCGTACAGAAGCCGACCAAAGCGTTCTTTACCTACACCGCGCAGCATATTCCCGGGTTCCATCATCGGGAAGCGCTGATCATTGGCGATTCCCTGACGTCTGATATTCAAGGCGGCATGAATGCACATATCGACACGGTTTGGTACAATCCTCATTTCCAGCCGAATCGTTCTGCTGTGCGGCCGACTTATCAGTTGAATGAGATCAGCGATTTGACGGCACTGTTGTTGGCCAATCAGGACTAG
>SRR1151209_02070 glycine betaine/carnitine/choline ABC transporter substrate-binding and permease protein
ATGGACATTATTTCAACCTTAGTCAGCCGGCGCCAACAGCTGATCAGTGCGTTAGGGCAGCATTTGAGTATTTCCTTGATTGCGCTCGTTATCGCGATCCTCATTGCCATGCCTTTGGCGTTTTGGGCCGCGCGGCACAGTAAGGCGGCTGGGGTGTTGCTGCAAATTGCGGGGATTCTCCAAACGATCCCGTCATTGGCGCTGCTGGGCCTGCTGATTCCGTTGGTGGGCATTGGCACGACGCCGGCGGTAATTGCGTTAGTAATTTATGCGCTGCTGCCTATTTTTCAAAACACCTATTTAGGCATCACCGGCATTGATCCGGCGTTGGAAGAGGCGGCGGATGCCTTTGGCATGAGCCGCTGGCGCAAGTTGCGCAAAGTTGAATTGCCCATTGCGGCGCCCACGATCATTGGCGGCATTCGTACCGCCTTGGTCTTGATTATCGGGACAGCCACGCTGGCCGCCTTGATTGGGGCTGGCGGGTTGGGCTCATTCATCCTATTGGGCATTGACCGGAACAATACGGCGTTGATCGTTATCGGCGCGGTCTTTTCCGCCCTGTTGGCGATTATTCTATCCGCGCTGATTTCTTGGCTGGCCAAGCGCCGCTGGCAGTGGACCGCCGGCCTGCTGGCTGTTCTGGTTCTGGGCGTGGGCACTACCCAGGTGCTGGCCCGGGTCAATCAGCCGGAGACGGTGACCATTGCCGGGAAGCTGGGCAGCGAACCGGATGTCCTGATCAACATGTACAAACAGCTGATCGAACAGGATGAGCCTAATATTCATGTGCAGCTGAAATCTAATTTTGGTAAGACGACATTTCTTTTCAACGCCTTGAAGAGCGGCAGTGTGGACATCTACCCGGAATTCACCGGGACGGTGCTGGAAACACTGGTCAAACAGCGTACCGCGACCACCGGCCATTTGTCAGCTGCACAGACCTATACCACTGCCAAAAAGGACTTGGCCCAGCAGTTCCAGATGACTTATCTGCGGCCGATGCGGTACCAGAATACATACGGTGTGGCGGTGAAGAAAACCTTCGCCGCGCAGCATCAGCTGACCACGATCAGTGATCTGCGCCAGATCAGCGGTCAGCTGTCCGGGGGCTTCACGCTGGAATTCATTGATCGGCCCGACGGCTATCAGGGCCTGAAGAAAGTCTACGGGCTGCATTTTCCGACCCATTCCTTTGAGCCGGCCCTGCGCTATACCGCCATCAACAACAATAAGGTCAATGTCGTGGATGTCTATTCGACTGACAGCGAGATCGTGCAGTACAAATTGCAGACGCTGACCGACGACAAGCATCTTTTCCCGCCATATCAGGGGGCGCCGCTGATGCGGACAAAATTTGCCCAGGATCATCCAGGAATTGTCCGCAGTTTGAATAAGCTGGCCGGCAAAATCACTGATGAGCAGATGCAGCAGATGAACTATGCTGTGAATGTGCGCAATGAATCGCCGGCTAAGGTGGCCCGGCAGTATTTGCAGCAGCACGGCTTGCTGAAAGGGAGTGATTGA
>SRR1151209_02071 glycine betaine/carnitine/choline ABC transporter ATP-binding protein
ATGGCGGCGCAAAACGCGATTGAATTCCACCATGTCCGCAAAAATTTCACTGGCCAAACGATCCTCAGCGATCTCAATTTAACCATCCCTGCCGGGGAAATTTTTGTGCTGGTCGGTCCCTCTGGTTCAGGCAAGACCACCACGTTGAAAATGATCAACCGGCTGGAAGAGCCCAATGCCGGGACAATCACTTTCTTTGGCCGGCCCGTGGCGGATTATCCGCTGCAGGAACTGCGCTGGTCCATCGGTTACGTCCTGCAGCATATTGCTTTGTTTCCCAACATGACCGTGGCAGAAAACATTGCGGTGATTCCCGAAATGAAGAAAATGAGCAGAACACGGATTCAGGAACGGACTGAGGCGCTGCTGGCGGCCGTTGATCTGCCCGCCGCGGAATATGCCCAGCGGTATCCCGATGCTTTGTCCGGCGGCGAAGCCCAGCGGGTGGGAATTGTCCGGGCCTTGGCCGCCGACCCTGGGGTCATCTTGATGGATGAGCCATTCAGCGCGCTGGACCCGCTGTCCCGTAATCAATTGCAGGATCTGATTCTGCGCTTGCAGGCGCAGCTTCATAAGACAATCGTGTTTGTGACCCACGACATGCACGAAGCGTTGAAAGTCGGCGACCGCATTGCGGTGATGCACAACGGCGTGATCCACCAAGTGGGCACGCCCGCTGAGATCCAGCAGCACCCGGCGACCAATTTCATCGCCGATTTCTTTGCCGGTGCCGAAGTGGGGCACGTCGTCTGGGCGGACACCCTGGCCCAAGTATTGGCTAGCGGCGTCTTGCCGACCACGACTCAGCCGCCGACCCCCGGTGTCACCAGCCAGACCACTGTGGCGGCGATTGCCCCGCGGTTGGGTACTAATGAAACCCTGGCGGTGGAAAATCCAGCGGATGGGCACACCTATGCCTTGGATGCGCCCGGTTTGTTGCAGTATATCGTATTGGTTCATACCTCGGAAAGGGATATAAAATGA
>SRR1151209_02072 glutathione reductase
ATGAGTGAAACACAGCATTTTGATACGATCGTTATTGGTGGCGGCCCAGGCGGTCTCGCCGTGGCCTTTGGTTTAGCCGAGCAGCAACAGGTGGCCGTGGTCGAAAGCGACCTGTGGGGCGGGACGTGTCCCAACCGCGGCTGTGACCCGAAGAAGATGCTATACGGCGTCGTTGAAAGCCGGATGCAGGATCGGCGCTATGCCCAGCATGGGCTGACTGGCGCGGCTGAGATTGATTGGCCGGCCTTGATGGCGTTCAAGCATAGTTATACCGATGGCGTGCCCACTGGGACTGAAAAAGGGCTGGCCGGCAGCGGGGTGACGACGATTCACGGGGCTGCTGCTTTCTTAGACCCCCATACGATTCGCGTCGGTGACGCGGAGTACACCGCTGAGTTCATCATTATTGCCACCGGCGCTCACGCCCTGAAACCGGATATTCCTGGCGGCGATCTCCTAGGGACCAGCACCGACTTTCTGGATCTGCCGCTCCTGCCGCCGACCATGGCCTTTATTGGCGGGGGTTACGTAGCGGTGGAACTGGCTAACATTGCCGCCAATGCTGGCGCCCAGGTTCATCTGATTCAGCACAATCACCGCTTGCTGCGGGACTTTCCCGAGACCTATACCCAGCGGCTGGCCAAGATCATGGCGGCGCGGGGGATTATTTTCCATTGGAATACCACTGTGGAGAAAGTCACTGAGACGGCGGATGGCGTGGCGCTGCAGCTGAGTGACGGCCAATCCCTGGCGGTGGCGCGGGCCTTCAGTGCCATCGGCCGACCTGCTAATACGGATCTCAACCTAGCCGCTGTGGGCTTAACGGCGGTGAAAGGCGGCATCGCGGTCAACGATCACTTGCAGACGATTCAGCCGAACATCTACGCCGTGGGCGACGTGATCGCCAAGAATCAGCCGAAGCTAACGCCAGTGGCCAGCTATGAAGGCCGCTATGTTGTCGGCCAGATTTTGGGGCAGGACACGGCCGCCATTCAGTATCCGGTGGTGCCCCATATCGTCTTCGCCAGCCCGGAACTCGGTCAGGTCGGTGTACGCCTGGGTACGACCGCGCAAGCGCCGGACCGTTATACTGTTGAAGAACAAGACTTAAGCGGTTGGTATACGTACCAGCGGATTCAGGATAAAACGGCGCGGGTGACGACGATCACCGATAAAAATACCCATCGTCTCGTGGGGGCCGTCGTCTTGGCGGTGGATGCCGAAGAGCTGCTCAATTACTTGACGGTGCTGATTCAGGAGCAGAAGCCGGCCAGTGCGCTGCAGCAGTGGATTCCGGTGTATCCGAGCGTGGCCAGTGATTTATCGTATTTGTACCACTAA
>SRR1151209_02073 hypothetical protein
ATGTTACCATTTTGGCGCATTAAGAAACTGTGGTGGCGAACAGCGCTGATGGTGGGATCGCTGATTGGCTTTGGCGTCCGGCCCTCAGGATATATGGGCCCAGTGCATGACGGCAGTGTTTTGGCTCTGCTTGGGTATAATTACAGTTTGAACTTTGCCTTTTACGTCCCTTTGATCCTGTTTATTGGGACGACTGTTTTGATTACGGATTATTGGATTACCGCTCTCCATTTCGGGTTGGCCCACTTAGTCATTGAACGGCGGTCAAAGACTTGGCTGCTTGGCCAAATGCTATTGACCACGTTCCTGTATACTTTTCTGATGTTGACGACAGCTTTAGTCGGTACGGTTGTTGCGATTCGGGTAATCTATCCGACATTGCCGCTTGCCAGTCGGCTCGGGATGATGTTCTTCCTATTTGATGACCCGACCATTGGTTTAATCGTGTATATCCTAACCCACGCGGCAGGGTATGCCTTAATGGCGGACTTTGTCTTAATGATTGGTCTCTGGATCAAGCGGCCGTTTCTTTTCCGGGCCTCTGGTCTGGTCATTTCTTTTACCCTGTATCTGGGGTTGGGCTTTGTGAGCAGTGTCCCCCTGACCCGCCAATTCTTTGGCCATTTGTATCTGCCTAACCTCATTGATTTACAACAACAGGTTGGCTACGGACGATATGGCATGAGTACGGCGCCGTTGACTTCCTTTTTCTTTACCGTCCTGCTTTATGCCGGTTTGATCATTGCCGACGGTTGGGCCTGGTTGAAGTTTGGCGGTGAGGGTCATGGCTGA
>SRR1151209_02074 hypothetical protein
ATGGCTGATGCCCGGCCAATTTGGCGGCAAGCCTTTAATCCCTGGGCGGTGGGCCTGCTGCTCACGGCTATCCTGATTGCGCCATTGCTCAGTTTAACCCACTGGGCGCCGATGGTAGTGACGTTGGTCATTGGAAACAGTGTGACGTTAACCAGCAATGTCCTCTTCATTTTATTAATGGCCTATCAGCTGGGCCGGCTGCGCGCGGTCAATACGTTCGTGGCGGTCCGGCTGGGTCAGCGGCCGTATCATCGGATTGTTTTGACGACGCTGCTGATTGATTGGCTGGTCTATACCGTAAGTCTGTACACGATTGAATCGCTGGCGTTTGGTTGGACGCATGTTGATGTATGGGTGGTTTGGCTTTTCTTCGCGGTCAACGCCTTGATGTACCTCGTCTTTGTCGGATTGATGGCGCTGACTTTGGTGAAACTGCCGCCAACCGGGGCAGTGATTTTAGCGTTCGGGGTGAACTTCGTGGTCCATTATGTACTGCTGAATCCCCTCTTGCCGCGTTTCATTGCGCCGTTCAATCTCCCGACCTAA
>SRR1151209_02075 ABC transporter ATP-binding protein
ATGCGTTTATTAACTGTGGCGCAAATTGCCAAAAGTTTTGGTGCCCAGCAGGTATTGCAGGATGTTTCTTTGACTGTGGACAGCGGCGAGGTGGTGCATATTGCCGGCGGCAATGGCTCGGGTAAATCGACGCTGCTGAAAATCGTAGCAGGGATCATTCCAGCCACTTCCGGGACCTTTCAGCTGGGCGAAAACACACACATCGGCGCCTTGATCGAGAATCCCGGGTTTCTGGAAGGCGAGTCGTTGAAGACAAACCTCACTTTTCTGGCGGCCATTAACCACCATAGCGATCCTGCGGTGATGGCCGGCTTGGCCCAGCGGTTCGGCTTGGATTGGCACAGCCGCCAGTCGATGAAGAAATATTCCATTGGGATGCGGGAAAAAGCCGGTATTATCCAGGCCGTTATGGAGGACCAGAACCTGATTTTGTTAGACGAACCGACCCGCGGCTTAGACGAAGCAGCTTTGACTCAATTGGTGAATTTGGTGGCAGAATTGCGGACGGCCGGTAAAGCGGTGATCATTGCCTCCCACGACCGGTATACGCCCATCACGTACACCGCTAATTATCAGCTTGAAGGAGGGCGATTGACACGGCAATCCGACGGCGTACTATCTATTCCCTCCTAA
>SRR1151209_02076 hypothetical protein
GTGTTTCTGCTGGCAAAACTTGTGAATCTGCGGCCGGCCCAAGTCCGTCCATTTTTCTTCGGCTGGGCCCACGATATGCCGTTTCAGCAGCTCGTCGAAACGGCCATCGTCGCCGGCACGGCGCTGGTTGTGGGCAGTACGCTGCGGGATTTGACCGGTCTTTACCCCATGATCGTGACCCGGGCGTCCCGGCGGGGGTATCAGCGTATCGTGTATCGGCAATTGGGTATGGTGACTCTTATCTTGACCGGGCTCACCTGGGGCATTGCGCTGTGGTGGACACCGTTTGATTTCCTGTGGTTTGGCAGTTGTTTGGTGCTGATTGCGGTGAGTATTGTGCCGTTTATTCAGAAGCGGCTGGATTGGGCGGTACTGGAGTCGATGGGAATTTTGTTGGGTCTGCGGATCGGCTTGCAATTTCTTGTGGGTTTCTAG
>SRR1151209_02077 hypothetical protein
ATGAAGATAAAATTTTGGCGGGTATATGCGGTTGTTATCGCTCTGTTTGCGGCTGGGGCAACGTATGCCGCAGCTCCTGGGGTCAGTCAGCCTGTTCAGGCCGACAGCGAAGGCCCTTCGACTATCTCGGAAGAGAGCGGTACGCTGCGGGTCGTCAACATTGATAACACGGGGATTGCTCTGTGGCATGGCTATGGCACCAATCGGCATTACGCCGGGCGCATCTTACCCTATGGCTCGCGCTGGCAATATTCTGGGACGGTTACAGTACCCGCTTATAATTCCAGCGAAACCTGGTATAACGTTGGCGGTGATCAGTGGGTGGAAGGCCTTTATGTTCGGACTTTTCCAAACAACCGCGATACGACCTACAGGATCGTTGCGCAGCGCGGGGTAATTTATGTACCTTCGTTCCCAATTATGCCGCTGCCCGTTGATAAGGGGACGCCGCAAACCAGTCGCTCAACATGGTCTGGATATTTGCATTTTACCGCCGGCTCAGCATGGCAGTATTTCCACGTTGCCTATTCGTCCGATCAATATGAGCCGCCGAAATATGATCTCGGCGGTGGCGAGTGGGTGCAAGGTCTGCGAGAATATACTGGTATTTTTACTGTTGCTGTTCCAGCGCACCCGACTTGGGGCGCGGCCGTTTATGACCGTGATTTGAAACCAATTCGGCTTCTGCCGGCTGGCAGTCAGTGGTGCACCTACGGCAACCGGTATATCAATGGCGCTGAGTACTACGACTTAGGTGGCCAACAATTTGTGAAGCGGGATGCCGGTTTGATGCAAGTAGTGAATAAATAA
>SRR1151209_02078 MATE family efflux transporter
ATGTCCCGTATTCGCCAGCGCGGCAGTGCGCTGCTCACCCGCTTCTTCTCCGGTCAAGACATCAGCTACCGCTTTGTCTTCGCCCTGCTGATTCCCGTTGTCATCGACCAATTCTTTTTGGTCAGCTTCAACTTCATTAACACGAGTATGATCTCTTCCTCCGGGACCGCCGCGATCAGCGCGGTGAACATGGTTGGCAGTGTGAATATTTTTCTCGTCCAATTCTTCGTCGCCATCGGATTGGGCGGCACGGTGTTAATTTCCCAGCACTACGGTCATAAGGACTATCAGATGCTGGCTAAAATCGTGAATGGGGCCGTCTATGGTGCTGTCCTCGTGGCTATCATCCTCGCCGCTGTCTTTATGAGTTTACATCGGCAGATCCTCGCCCTGCTCTTCGGTCACGCCGACCAGGCCGTTTTGGACGGTGCCGCGACCTATATGGTGGGGATTTTGCTCAGTTATCCGTTCCAAGCCGTGGTAGAAGGGACCAACGGCAGCCTGCGCGGGGTCGGCCGGACCAAGACCTCGCTGCAGCTTTCCCTGACCATGAACGCTATCTATTTGGCATTCAACATTTTATTTGTCAGTATTTTACAAATGGGGATCATCGGTCTGACGATTTCGCTGAACATTTCCCGCATCCTCGCCGCCGGCTTAGCCATCTGGATGCTCTACCGCAACCGGGCAATCTTCAATTTGCGGATGCGCACACTGAAGCACCCCAGTTTTGCCATGATTCGGAAAGTCATCATCGTCGCGATCCCCTTCGCCGCCGAGTCAACCTTCTTCAATGGCGGCAAAATCATCATGCAGATGATGATCGTCAGTCTGGGCACGAATATGATCGCCGCCAATGCCATCGGCGGGTCCTGGATCCAATTGTCAGAAATTATGCCCAGCGCGTTAAGCACCGCCCTCGTCCCAATTGTGGGCCAATCCATTGGCCGGCGAAATATCCATGATGCCCGCAAGCTGACCAAGTCCTTTGTAGTGTTGGGGATGATTCTCTTTATCACCGTGGACTTATTGCTGCTGCCGCTCTTTCCGATCGGTATTCAGCTCTTCAACCCGCCAGCCGCTATTGTGCCGGTGATCTTCCAATTTTATCTGATCACGATCGTGATGCACTGTTTGGTCTGGAGTCTGAGCTTCGTCCTACCCTCAGCCTTGCGGGCCGCCGGTGACGGACCGTTCACCACCACCGTCTCGCTGCTTTCCATGTGGCTGTTCCGGATCGGCGTTGGCTATTATGTTGGTATCGTCATGGGGTACGGGTTGGTCGGCATCTATCTGATTATGTGTCTGGAATGGGGCATTCGCGGGTTCATCTTCCTGCTCCGCTTTCGGGGAGAGAAATGGTACCAGAAGAACTTTATCAAAGAGTGA
>SRR1151209_02079 oligoendopeptidase F
ATGGACTTCAAAGAAGCACCCTACACCCGCCCAGACTTTGACCAAATCAAAACGAGTCTGGCCACTTATACCACGGCCTTAAAAGGGGCCGATGATCCGGATACAGCATTAGCGGCCGCCACCGCGGCCAACCAGCTGATCAACGACTACACCTCGCAGGCCATGCTGGCCCAGATCCGGCACTCCATTGACACCAATGATGAATTCTACAATAAGGAAGACGACTATTGGAACACCAATGGCCCGTTGTACGAAAACGAAGAACGCAAGTACAAGGCCGCCGTGGTCGCCAGCCCTTACCAAGAAGTCCTCGGCCAGATCTATCCCAAGCCGGACATCATGAGTATGCAAAACGACTTGAAGATGGCCAACGAGGCAATTATTCCCCTGCAACAAAAGAATAATGCACTGGTCAGCGAATATGCAAAATTAGTCGCCAGCGCGCAAATCGACTTCCAGGGCGAAACCTTGACCCTGGCCCAACTCGGTCCGTACCGGGAAAGTGCTGACCGGGCCACCCGCAAGGCAGCGACTGAGGCCTATTGGGGCTTTTTTGCCGACCACGAAGCCGACTTCGACCGGATCTACGATGACATGGTCAAAGTGCGCACCGAGATTGCCCACACCCTGGGCTATCCCGACTATTCCGCGCTGAGCTACGTCTACATGAATCGCTTCGGCTACGATGAACCCATGGTGGCGCAATACCGCAAGACGGTTTTGGAAAAAGTCGTGCCGTTGACCCAGAAGCAATATACCAAACAAGCCAAGCGGTTAGGGTTGGCCAAGCTGGCCTACTACGACTTGCCCGTCGCGTTCAAGAGCGGCAATGCCAAGCCCACCGGCACGCCCGATGAACTGGTGGCCACCGCGCAGCAGATGTACAACGACCTCTCGCCAGAAACCGGCGATTTATTTGCCTTGATGGTCAAGAACCACCTGTTTGACCTGCTGGCGAAAAAAGGCAAGCAAAGCGGCGGCTATTGTGAATACATTCCGTCCTTGCAGGCGCCGTTTATCTTCGCCAACTTCAACGGCACCTCCGGCGATGTGGATGTCCTGACCCACGAGTTCGGGCATGCCTTCCAAACCTATTCTTCCCGCTGGATCAAGGACGGGCTGAGCACCTTCCCGACCTTCGAAGCCGCAGAAATTTTCTCCATGTCCATGGAATTCATTACCTATCCGTGGATGAAGGGCTTCTTCGGCGCCGCCGAGGAGAAATACAAGTACAACCATCTGGAAGCCGCGCTGGAATTCCTGCCCTACGGCATTCTGGTCGACCACTTCCAGCATGAGATTTATACCCATCCAGAATGGACACCAGCAGAGCGCAAGGCGTGCTGGCGCGATTTAGAGAAGCAATACAACCCGGAACGGGATTACAGTGAGAATGAAGCGCTGGAACGGGGGATTTACTTCTTCCGGCAAGGCCACATTTTTGAATCCCCGTTCTATTATTTAGACTATACCATCGCCCAAGTGTTGGCTTACCAGTTCTGGAAACGGTTCAATGTGGACCATGATCCCCAGGCCTGGGCGGATTACACCACCATGGCCAAGGCTGGCGGTTCCCAGACCTTGATGGAACTGATCCAGACCGGTCATCTGGCGTCACCATTTGAACCCGGCGCGCTGGACGACACCTTGACGGCGATTAGTCAGGCGTTGGATGGTGTTGATGATCAGGCGTTAGACAAGTAA
>SRR1151209_02080 ribosome small subunit-dependent GTPase A
GTGATAGATTATTTAACAACTTACGGGCTCACCGACCGTATTCGTAATACCGTACCGGTCACGGACCAGACCCAACTAGCCCGGGTGATCGGTGAGCAAAAGGAATTGTACCAAGTGATGACGGCCGCGGGACCGCGGAGTGCTGAGATTACCGGCAAGTTCCGCTTTAATACAGTGTCCCGGGCGGATTTCCCCGCCGTGGGCGACTGGGTGGTCTGCCGGCTGACAGCGAACGGCCCGGTACTGATCGAGCGGGTTGTGCCGCGGTTTTCTCAGTTCACCCGGAAGATGGCGGGGCTGACCACCGATGCCCAGGTCGTCGCCGCTAACGTGGATACGGTCTTTATCGTTATGGCGCTGAACCATGACTTCAATCTGCGCCGCTTAGAGCGCTATGTGACGGTAGCTTATGACAGCGGTGCGAACCCGGTGGTGGTGCTGACCAAGGCCGATTTAACGGACCATGTCCAAGAGCAGATCGCCCAGGTCGAAGAGAGCGCGGTTGGGCTGCCGGTCCATGCCGTCAGTGCCATTACCAATCTAGGGCAGGGAGAAATTCTGCCGTACTTTCAAGAGGGCCAAACCGTCGTGCTGCTGGGCTCCTCTGGGGCCGGCAAGTCGACACTGGCCAACTGGCTGCTGGGCGAAACCGTCCAGGTCACGAATGATACCCGGGCCGGCGACGATCACGGGAAGCATACGACGACCAGCCGCGAGATTTTGCGGCTGCCCAATGGCGGCCTGCTCATGGACACCCCGGGGATGCGGGAACTGCAATTGTGGGACACCACCGATACGGGGGCGATCGCCCAGAGCTTCCAGGACATCGAGACCTTAGCGGCGCAGTGCCGCTTCCGGAATTGTACCCATGAGCGGGAACCGGGCTGTGCCGTGCAAGCGGCCATCGCAGAAGGCACGCTGGATCCCCAGCGGTTAGTCAGTTATCGCAAATTACAGCGGGAGAATGCCTTTTTGGCGAAGCAGACCGCCCAGCGGGCCAAAGTGCTGACGCACCGGGCCAATAAACGGCGGTATGCCGAATAG
>SRR1151209_02081 exodeoxyribonuclease V subunit alpha
ATGCTCTCCAGTAATAATGAATTGTTCAAAAACGTGCCGTTGCGCATCACCCGCCAGCTCTTTGAACGGGCGAATACGGATTATCGGGTCTATGCCGCCAGCATGCTGGACCCAAAGTTAGAGATCCCCGTGGACCAGCGGGGCGAATTGACGATTACCGGTGAGATGGCCCATTACGACGAGGGTACGGTCACTAAGATGGATCTGCTTTACGATGAACCAGCCAGCCATCGATATAATAAACCATCCTATCAATTGAAGGCCGTGCACTACGGCCTGCCGGAGGACGCGCCGGGGCAGTGGGCCTTCCTGACCCAAGCTCTGGCCAAGAGTCCGGCCACCTTGGGTAAATTGGTGGATGCCGTACCGCCTAACGAGAAAATTCTGGACCTGTTATTGAATGGCAGTCTGCTGGATAAAAAAATCACCGGCGTCGGGGAAAAGACCTTGCTCCGGCTGCAGGCCATCGTCAAGCGCAATACCGATTTGAGTCTGCTTATGGCGGCGTTCGGCGACCGGCTGACGCCGATTGCTTATCAGCATGTCTTCGACCACTTCGGCGATGCCAAGCGGGCAATCAAGCAGATCAATACGGATCCTTACATCCTGATCGAAGTCGGCGGGATCGGCTTCAAAACAGCGGACAAGTTTGCCCTGGCCGCCGGGATTCCCCGCAACGACCCGCGCCGGATTCAATTCGGGATGCAGTATGTCTTTGCCACGGAGATCCTGGCCAGCGGCAATACCTTTGCCTCCATCAAGTTCTTCGTGGCTAAGTGTACTGACGCCTTGAGTGTCGCCCCAGTGGATGTGACCCCGCAGTTGACGCCAGAAGCCGGCTGGCGCAACGGGTTCGTGGTCAATACCAAGTACCAGCTGGTCACCACCATGGCAATGTACGTTAAAGAAGCCGATCTTTTTCAAGGCATCATGAAAGCCGAGAAGCAGCGCTGGCCGGTGCTGGAAGAAGAGAAACTGGCCGCCGCCATCACTGAATTTGAAGCCAAACACCGCGTCACCCTGGATGACCAGCAGCGCGCCTTTCTCACCACCGCCAACACTCGGGGCATCACCGTCCTCAATGGTGCCGCCGGCACGGGGAAGACTTGGATTATCAACGTCTTCGTGCAGATCATGAAGGCCCACAATAAGAAATTGACCCTGATGGCGCCCACCGGCCGGGCAGCGAAAGTACTGCGGGATTATACCGGCCATTACGCCGGGACGATCCACGCCCGCCTGGGGTTGATGCCCGGTTTCGAGTTTGCTGCCTATACCCGCCAGGGCAACACGGACGCCTATGGCAAGAGCGACTTCATTATTGTGGACGAATCGTCGATGCTGACGACTGATCTGGCCTGGGAGCTGGTCCGGTCGGTGGTGTATGAAAAGCGCCACCTGATTTTCGTCGGCGACGCCTCCCAGCTGCCCGCGATCGGGCCCGGCAACTTTCTCAACGACCTCGCCCAATCCCCGGCAGTCGCCACGATCACCCTGAAGCACGTCTACCGCCAGGGCGCGAAGTCCGGCATTCTCGATTTGGCCAGTACGATTCGGGAACGGGAACCGCTGCCCTTCAATGCTGCCCAGCCGGCCTATTTATCAGGCAGTCTGCGGCTGTATAACCAGCGGGATGAGGCAACGATCGCTAATACGCTGATTGCCGCCTATCATTCCCTGTGGGCCGGCAACGGGCATGATACGAACCAAATGCTGCTGCTGGTCAACCGCAACAAGGGCACGCTGGGCCGGATGCAGATGAATGCCCGGATTCAGCAGTTTGCCTGCCCCGCGGTGCCCGGCCAGCCGGAGTACGTCGCCCCCTATGTCAATCCGGACACCGAGGAACCGGACACCTTCCGGGTAGGCGACAAAGTGATGGTGCTGGCTAACGACAGCCGAGCGCAGAAGGTGGACCCGAATACCAATCGGCGCATTGTCGCCACCAAAGACGACGAAGACGATGTCGCCGCCAGCGACCATGTGGATTACGAAACCACCGTGATCACCAATGGCGACACGGGCCTGATCACCCATATTGACGTGCGCCGCCACTTCTTGGTGGTCCAGGTGGATGATGATTATGTCTACTTTAGCTTTGGCGGCTTGACCAACAAGATTGCCCTGGCCTACGCTGTCACGGTGTATAAGTCCCAGGGCGGCCAGGCAGCCCACGTACTGATCGGTCTGGCGCCCTCCGGCAGCATGGTCAACGCCCAGTCCTTTTACACCGCCATCACTCGGGCGGAGGCCAGTGCGGACTGTTACGGGGACTTCGGCATGCTGACCAGCCGCCTGCAAATCGTGCCGGTGGAACACCGCCATGATCTGTTGAAGAATTTCTTGTCTGGGCGACTGGATGTCGATACCTTCGGCCAGCAGCCGGTGGCCGCTATGCGGGATGTCCTCGCACCGCTGCCCCAAGCCGCGCCGGTGCCGGCAGCGGATAAACAAGCGGCACCCAACAAGCCGCGTTTGACAGTGGCTGTGGACCCGGAATTATTAGCCATGCTGAAGCAAAAGAAACAAGATCACAAATAA
>SRR1151209_02082 amidase
ATGACAAGTTTTCCGCGTCGTGACCCGGTGGATGACCAATTGTTAACACCGGAGAATTCTGCTCTGCTCGTGATCGACTATCAGCCGACCCAAATCAACTCCATCGCTTCAATGAATCATTTCCAACTGATCAACAATATCATCACTACTGTTCGGCTGGCCCAGCTGTACAAGGTGCCGATTGTGCTGTCCACAGTCAACGTCACCTCCGGCCGCAACAAGGACACGATTCCGCAATTGAAGTCTGTCCTGGGGGACCAGCCGTCAATTGACCGGACCAGTATCAATGCCTGGCAAGACGAAGATTTCGTCAAAGCCGTCAAAGCCACTGGCCGCAAGAAATTGGTTATTGCCGCGTTGTGGACTGAAGCCTGTTTGACCTTCCCGTCCCTGGACGCGATGCGTGAAGGCTACGACGTTTATCCCGTCGTTGATGCCGTGGGCGGCACGTCCACGATTGCCCATGAAACCGCGCTGCGCCGGGTTGAACAAGCCGGTGCACAACTGGTTTCCAACGCTCAGCTGGCCTGCGAATGGCAGCGGGATTGGAACCGGGGCGAAACGGTGCCCGGTTTCGTGAAGATCTTGCTGGATGCTGGCGACTTTATCAACCTTGAGTAA
>SRR1151209_02083 fructose-1,6-bisphosphatase
ATGCTGATCATTGACGGCGGCTTTGCCCGGGCCTATCAGCCCACTACGGGGATTGGCGGTTACACGCTGCTGTATAACTCGTATGGTTTGCAACTGGTGACGTTGCAGCCCTTTACGACGCGGGCTAAAGCAATAGCCGAATTGAGCGATATTGTAACTACCAAGCGCATCGTGGAGCAGGCGATTGCCCGCAAGACCGTGGCGGAGACAGATGTGGGGACGAAGTTGAAGGCCCAGGTGGCGCAGCTGTTGGAGTTGTTGAAGGGGGAGTGA
>SRR1151209_02084 fructose-1,6-bisphosphatase
ATGCAAGAATTGGAAAAATCCCTACTGCGGGAAAAATACCCCACAAAAGAAGCCGTCACCACCGAAATCATCAACTTGGAAGCCATTCTCAACCTGCCTAAGAGCACCGAAGCCTTTATGAGCGACATCCCGGTCGCCCATTCTGGCAGATGGCAAAATGCTGATCATTGA
>SRR1151209_02085 hypothetical protein
ATGGACTTCATTATGAACTTGATCAAAGTAAAAGGACCGTTCTTGATTGTGCCGCTCGTAATTTTGCTTTTGGTGATCGTGCTGTTTGTGATTATCCTCAAATCAGCGGGCTTATCAAAAATGGCAAAAACGGTAATTTTATTGATTCTTTCGATCATCTTTATCGGCATTGTCATGCTGTGTGTCCTGATTGTATCAATTGGGCTGAACACGGGTTGA
>SRR1151209_02086 haloacid dehalogenase
ATGACACCTGTACGTTTGATTGCCGCCGATATGGACGGCACCTTTTTGGATGACCACAGCACGTTTGATCATGATCGGTTTCAACAGGTCTACACGCAGTTGCAAGAACGCGGCATCCGGTTCGTCGCGGCCAGCGGCAATCAGACGATTAAGATGCAGCGGCTGTTTGCTGATTTTCCAAACGTTGATTTTATCGGCCAAAACGGTGCGGAGATTCAGCTCCACGGCGAACCGCTAACCGCGGCTACGTTTGCGCCAGAGACAGTGACTAAAATGCTGCAGATCATGACGGCTTATCCCGCTGCCCAGGTGGCGGTCTGCGGGATTGAGACCGTTTGGATTCGGCAGGACGCCGACCCGCAATTTGCGGCGAACATGCGCGGCTACTATCCCCATGTGACGGCCGTACCAGACCTGGCCCCGTATACTCAGGATATTGTGAAATTCGATATGATCGGCGATCCCCAGGCGATGGACAAACTAACCGAACCTTTGCGCCAATCACTGGCTGGGTTAGCGGTCCCCACCGCCAGCGGGACGGGAATCATCGATTTGATTCAACCAGGCCTGGACAAGGCCTGGGCACTGCATCAGCTCAGCCAGCGTTTGGCCATTGCGCCGGCAGAAATGTGGGCGTTTGGCGATGGGGCTAACGACCTGTCCATGTTCCGTTATGTTGGCCATTCGGTGGCCATGGCGAACGCGGCGGTGGCGATCCGGCGGGCGGCCGACGCCGTGGCCCCGGCTAATACCGCTAGTGGCGTGCTGGCCTACATTGAGCAGCATGTCTTAGCAAAAACAAGGTAG
>SRR1151209_02087 DNA-binding protein
ATGGATAAGCAACAATATGTCTGTCCCAAATGCGCCAACGAAACCTACGAAGCTGATCAGTTTCAAGCCACCGGCGGCAACTTTGCTAAGATCTTCGATGTTCAGAACAAGAAGTTCGTGACCATCAGCTGTACCCGGTGCGGGTATACGGAGTTGTATCGGGCGACGTCCAGCGAAGGCTGGAACGTGCTGGATTTCTTACTGGGCGGCGGGTAG
>SRR1151209_02088 hypothetical protein
TTGGCTTATCACCAAGTTCTCTTCCAGGATCTGCTGATCCATTATCCCGACCAAGCCACTCCGTTCATGACACCGGCCAGGGATGAACTTCTATTTGCCAGTCCGCATAAGGACGACCTTTACGGAACTGTACGCGTGGCTTCTGACGGATTCGTTTTTGCCGTGCCGAAATACGGTGGTGTGTTTTCCTTTCTGACACCGCGAGAACTCCAGTTGGATATCAGCTTTCCAGTTAACCCGTTTGTGCTCAGCAATCCGCCAGCCAATGCGGCTCTACTTTTCCACGGTATTACTGTCAATTACGATCATCAACTCATTCCCTTTCATCGCGCTGATGACAACGAATTGCTCTTCATCGATGGCACCTATGACATGATTGCGGCCTACATCCGCATCAATCCAGACGGCAGCGTGCTCACTTTTCCTAACGGCGGCGCGCGCTTTGCCTATGTCAACGATCACGAGATCACAGTGCTTGCTACCACTGATGATCCCGCCGACTAG
>SRR1151209_02089 hypothetical protein
ATGGCCCACCAGCAGCAGATCGTTTGGCACGACATCACGTTCCATTATGATGACCGGGCGATCCCTTTATTACGGCCCGATGATCAAGAATTATTATTTGCCAATCGGGAACGGGACGAAGTGATCGTCTATTTTCAACTTAGTAAAAGCGGTCAAGTGCTGGCCTATCCTAAGTACGGCGGCAATCTTACATTTGTGACCATGCACGAATTCCGGGTCGGTCTCAATCTGGACAGTGTCCTCGATATGCCTGCCGCCACACCGCCAACCTATCAACGCATGTCGTTCCATCAGTACACGATCATCTATGATCAGCGGGCCACACCCTTCATCCAGGCAGCTGGCGATGATTTAGTATTTGTGACCCGCCTGCGTGACGAAATCAATGCGCATCTTCAAGTTGACCACAATGGTCAGCTCAGCGTGTCGCCCGGTTATGGTGTCCGATTTGTGTTCACCAGCGCTGGCGAAATGACCGTGGCCCTGACGTTGGATGACTCATTGTAA
>SRR1151209_02090 phosphate ABC transporter permease protein
ATGCGTATCGCCCTGCAAAGTGAATTGCGGCGCACCCTGCTCCTCATGCGGCGGTATCCCACCGAAACCGCCGCCCAGATCATTCTCGCCGTCGTCAGTTTCTACGCGCTTGCCCTGGGCGGCCGGTTCATGGCTGGCGGCACCCTGCTGGGGACCCGGATGACGGACTTAATTATCGGTTACGTACTCTGGATGCTGGTTCTCAATACCGTGGGTGACATGGGTTTCGGTATCGCCGAAGAGGCTGAAAACGGCACACTGGAACAGCTTTTCCTATCACCATTAGGACCTCTGCGGCTGTTTATGATGCGCGCCGTCATCACGCTTGGCACGTCTCTGGTTTTTATCATCTGCGTGCTGATTGGTATTCTGCTGCTGACAGGCATTCGTTTACGCCTGGAATTGGTCCAATTAATCCCCTTTAGTTTAGCTTTGCTCGTGGCGCTAGCGTTAGGTCTGCTGGTCGCCAGTTTGGCGATTGTATTTAAACGAGTATCCCAAGCCCTATCGATCATCCAATTCGGCTTCGTGTTCCTGCTCATGATTCCTTTCGATACCGGCGGCCCCTTGCTGGCCTTTGTTGGTCACTTTGTACCATTGGTGCCAATGTTTTCGCTGCTGCGCCAGATGCTGCACCATCCTGCTGGCTTTGCTGGCGGCGGCTTACTTCTGTTTTGGAGTATGGTGAATACACTGGTGTGGCTGCTGGTCGGTCTTATTACATTTCAGCAGGCTACCAATGCGGCGCGTCATCACGGGACGATTGGGCATTATTGA
>SRR1151209_02091 ABC transporter ATP-binding protein
ATGTTATTATCTGCTGCTCATCTCAAAAAAACATATCATACGGCCCACGCGGTTTCTTTTACCGCCGTGTCTGATGTTTCATTCGATGTCGCCGCCGGGCACATCGTGGGGTTTCTGGGTCCAAATGGAGCGGGCAAAACCACCACGATCAAGATGCTGCTAGGCCTCATTACCCCCACTCAGGGGACGATTCAAATCAATGGTCAACAACCACTGCAGGCGCTGTGTTCAGTCGGCGCGGTACTGGAAGGCATCCGCAATCTTTATTGGCGGTTGTCACCGGCTGAAAATTTTGATTATTGGGGCGGTCTGCGCGGTATCCCCCACCAAACGGCCCGTCAGCGCGGCTTGGCCAATCTGGCCCGGTTTGGTCTGTCAGCGAAGGCCAACCAGCCCGTCCGCGAGTTAAGCCGCGGCATGCAGCAGATCGTCGCGATTTGTTGTGCCCTGATCCATCAGCCCAAGCTATTGTTGCCGGACGAACCGACGCTCGGACTGGACCTGCCAGCGGTCGAAAAGATTCAGACAATCATCCGCCAACTCGTTGCTGAGACGCAGTTAGGGGTGCTGCTGACCACCCACGATATGGGCGTGGCCCAGGCGCTAGCCGATGACTTACTGATGATTGATCGGGGAAAAATTGCATTTCGTGGGCGCACTGCCAGTGCCCTGGCTGGATTTTCGCCAGAAACCTATGCCTTGGCATTCACAACACCGCCCAGTCCAGCGGTGATCAGTCAGCTCACCGCTCTGGGCACCCTCAGTCAACCGGCGGCAACCACGCTATTGATTACGTTGCCAAATCCCGCCTATCTGTCACAGCTGCTCGGCGTGCTGAGCCGGTTGCCGCTCACCGCCATCACTAAAAAACAGGCTGACCTGGCCGCACTCTTTAAACACGTCCTGGCTAGCCCCAAGAAAGAAGGTGAAGACCATGCGTATCGCCCTGCAAAGTGA
>SRR1151209_02092 XRE family transcriptional regulator
ATGGTGACGTATGGCAGTATTTATCAGCGTTTGCGTAAGAATAAGAATATTACCTTGCAAAACGTAGTCCGGGATACCGGCATTAGCATTGCGACAATTTCCCGGTTTGAACGGGGCTTGAGTGATATCACTTTGGCTAAATTAGCGCCGCTGCTGGCCGCCATCCACGTGACGTGTAAGGAGTTTTTCTTTGAATACGATTTTGCCCTCGCGGCGGCGCAAAAGACGCCGCGGGAAGCCATTCACGGAGTAATGGCGGATCGCGACCTGCCGTTTGATCACGACTTTCTGCATCAGTCCGAATACAGCACGCAGACCGTTGCGGATATTTTGCCGGTGATTGCCAAACGAGCGGCTGCTTTCCAAGAAAATGCCACCCAATACAATCTGTTGATGTTGGCTTATTATTGTGCTATGTACGGATTTTTGAAGCATACCCCCGATACACATAGCATCGATATATTACGGCACTATCTGTTGAATGTGGATGATTGGGGTGTATTTGAAATCGAGCTGTTTATCGGGTCCAGTATGTTCTATGCGCCGGCTGATAACTTGCAGATGCTGCGTACTGGCTATCGTAAATCCCAGCGGTTGGGTATCAGCAAGGAGTTCGGCCCGTTGCAATATTGGCTGCTGGCATCAGATTTTACCGTATTGTTAGCTCTGCACGACCTGCCCCGCGCCGGAGAAGTGTTGACGATGCTACAGTCTCAGAAGAGTGACGGTACTTTGACCGGCCAAGTGCAAACCATGTTTTTCTCCGGCTGGCTAATGATTGCCCAGGGTCATGTGGCCGCTGGGGAACGCATCTGCCGCAGTGCAATTGCTATTTTCCATGTGTTGCACGATCAGCAGAGTGAGCAAAACTGGACGACCAAGCTGGAGAATATTCTCCAGGACCCCACGGCTGGCTATATTTTACTGAGCGGTGGGATGGGATGA
>SRR1151209_02093 hypothetical protein
TTGAAAATTACCAGAATGATCAGCTGTATCTTCGTTGACGTTATTGCCATCGGCTTTTTACCAAGCAGCACGCCGCTGCAATTCGTAATCAGTTTTATTTACGTGTTCTTGATTCCAGTGGGTATCCTGACCATGTTTGACTTGCATAACGTACTTAATGGGGTGAACAAGCATAACATGTGGCGCGTCATCGTTATCATTGTCCTAATGTTGCCAATGCTAGCCAAGACACTCGCTTGGCAGAACAGTATCCTATCAATTACAGTGAATGTCCTCATGGCGTTAGCAATCATGCTTGGCGCAATTTGTCTCGGCGTTTACGGTATTAAGTTCACACCGCCGGCATCATAA
>SRR1151209_02094 hypothetical protein
ATGCGCGATAACTTACAAGCTATGGGGGCCGAGCAGCGCCATACCTTCACTGCCACATTTGAACGCACAGGATACAAGACCAAGGACGTGCGCTACGCCACTTATTATCAACCCACTCTGCTGGTCAATGACGTGACTGACGAACAAGGCAAGGTGTTGACCGATCACTTGTGGTTTAACTATACGTTGGGTTTTCAAAAACTCGGTCATTTGGAAAAGGGTGATCGGCTGCAATTTGATGGCCGAATCACGACTTATACCAAGGGGTATCAAGGGTGGGACGCTGAACTCAGTGCCGAGCATCCGATTGAGACGGATTACAAGATTGAACGACCGACCAAGATCAAGCTGTTGGGTGTGTGTGAAGAGCGGCCATCGCTGCCAAAAGATAATTGGGATCTGGTACAGCAAATCATTGAAGAAAATGGAGCGTTCTATCGAGCTCGTGCTGCCCAAGAAGGAAAGTACCGTAAATAA
>SRR1151209_02095 hypothetical protein
TTGTCCGATAAATTTATTGCCTACCCCGCCATCTTTCACCCTACCCACGACGCCCGTGATCTATATCTCGTTAAATTTCCAGATCTCCCGCATACCTTTACTGAAGGCTACGGGCTGGCGGACGCCTATCTGATGGCCAGCGACGTGTTGGCCGAAATGAATTACAACCAGAAGGATTTGCCTGAACCGTCAAACCCCAAGACCTTCAAGCTTGAAAATGAAGACTTCACGGCCGTGGTCAGTGCGAACTTGTCAGCTAAGAAGCGCCAATTACGCCGGCACGTCCGGAAAAATGTGACAATCCCTGCTGATCTGGCGACTTGGGCGGAGGATGCCGATATCAATCTTTCAGCAGCCCTGGCTGAAGCCCTGGCCGCGAAGCACAAAAAGATGAAGAGCTAA
>SRR1151209_02096 ABC transporter ATP-binding protein
ATGTTACTCACTGCAAAGAACCTAACAAAGACGTACGGCGATCACGTCGCCGTGAACGGCATCAATTTAACGATTGAAAAGGGCAGCCTCACCGCTGTTTTGGGACCGAACGGGGCTGGTAAGTCAACGACGATCAATATGCTGACTGGGCTGCTGGCGCCTACCGCAGGGATGGTCAGTTACGCCGACGAGACCAAAATCGGTGTGGTGTTCCAGAACAGTATGCTGGATAAGGCTCTGACCGTGACTGAAAACCTGCGGATTCGGGCTAAGCAGTACCGGGATGTGCCGGCAAGCCGGGTAGCTGTATTAATTGAGGAACTGGGTTTAACTGATTTTCAAAACCAGCCCTATGGTACATTATCCGGCGGCCAGCGGCGGCGCGTGGACATTGCCCGGGCATTGCTCAATGCACCGACGATCCTGTTCCTGGATGAACCAACTACCGGTTTGGATATTCAAACCCGGACCGCAATTTGGTCATTGCTCCATGCGCTGCAGCAATCGCAGCAGCTGACCATTCTGCTGACGACCCACTATCTGGACGAGGCCGACCACGCGGACATGGTGTATATCGTTGACCGCGGGCAGGTCATCGCGCAAGGAACCGCGGCAACGATTCGCACGCAATATGCCCAAAATGTGTTAACGGTGACGACAGCTGCGGGGGAGCAGGTCCATCATCCCCAGACGGCGCAGGCGGCAATGGCCTTCCTCACCGCCCACAAGCAGGTCATTTTGAACTTTGAATATCGAGCAGGTACGATGGACGATGCCTTTATGGCGTTGACTGGGAAGGAGATGCGTTAA
>SRR1151209_02097 multidrug ABC transporter permease protein
ATGTTGGCAATGATTCGGCGTAACCTATTACTTTATTTTCGGGATCGGGCAGGCGTATTCTTCTCCTTATTAGGGGCCTTGATTTCGTTCGTGCTTTACTTAGTGTTTCTGAAACAAAGCATTCTCACGGAATGGAGTGCCGCGCCTAACGCCAATCAGCTGCTGGATCTGTGGCAGATTGGCGGGACGATGACAATCATGGGCATTACGACCACATTGGCCAGCTTGGAACGGATGGTGCAAGATCGGGAAAACGGCGTGCGGGATGATCTGTTGTTGACTGATGCCGGACCGTTTGGCTTGCAAGTCAGTTACATGGTGAGTGCTGCGATTATCGGCTTATTCATGCAGCTGATGGTGCTGCTGATCATGGGGCTGTATTTTGTCATTGCTGATGGCATCACCATTCCCTGGGCTGAGCTGCCCATGGTCGGGGTGATCATGCTATTGAGCACGTTTACTGCCACGGCGTTGAATACCATGCTGGTGCAAGGAATTAAGAAGATTGCTACGCTCGGAGCCGTGAGCACGGTGATCAGTACTGCTGCCGGCTTCTTGGTGGGGACTTACGTACCAATCGGTGCTTTGCCCAATGCCGCTCAAGTATTGCTCAAATGTACGCCGGGGGCCTACATCGCCGCCCTGTACCGGGAAACACTGATGGGCCCGACACTGACGACAACGTTCCAACATCATGCCGCAGCGCTGACTCGTTTCCGAACAACAATGGGCGTGCGGATTGCTTGGTCCAGCCAGTTGACAGTTGGCCAAACATACGGAATAGTAGGAAGCGTGCTACTCATCGCATTGTTTTTCGCCCTGTTACCGCAATGGCGGGCCGCTCGGCAGCGGCGGGCGTTAGTGAACGCGTAA
>SRR1151209_02098 transcriptional regulator
ATGGTCCGCAGTCGTTTTTCTGAAAACAAACGTTATGCGTCGACAGATCCGGCAGTGACCGTGGAGGCGGCTGTTGAGGATCAAAATGTTCAAGCCCTCATGGCCTACATTGACCGGTATGGTGCCAATCAGACGAACATTGTGCCGATCAAAACAGAAGAACGAATTCAAATGGTGCGCCTGGATGATATTATTATGGCGGACGTGCAGGATACGCAGCTGCTAGTTTTCACCACGACGGGCGTACTGACGACCCGGGAACGGTTGGCCCACTTTGCCGACCGGCTGGCCAGTCCGGATTTTGTCCAAGTGTCGAAACACGCCATAGTCAACCTCAACCATCTATTGTCCTTGGAAGACAGCTTCTCGGGCAGCATGACGGCGAAACTCAGCGAACACAATAAGACCAGCGTCAGCCGCAAGTACGTGCAGCTGCTCGCCCAGAGACTTGGTCTATAG
>SRR1151209_02099 hypothetical protein
ATGTGGAAATTAATGGGCCGGACTGTGCTCGGCGGGATTGGCATCGGCTCGTTCATGTATTTGCTGGTGGTCATGCTCGGAGTGCAGACAACGGCGCCGACACCCCGCAACATTGGCAGCGTATGGGTCATGAGTGCCTTGATCAGTTTACTGTCGTTGATCTTTAACTCAGACCGGTGGTCATTTCTTGCATTACTTGCCGTCCATCTTGGGGGTACGGCCGGCATCGTGGCAGTGACGATCCTGTATAACCACTGGAGCAATCTGCTGACGGAATGGTCCTACTGGCTGGTTTTCCTGCTGATTTACGTGGCGGTTTGGGCCATCATTTATGTCGATCAGGCCCTGCGAGTGTCGCGGATCAATAAAGCATTGGCGGATCGACGCAAGAATCGTGCCTAA
>SRR1151209_02100 hypothetical protein
ATGAACGATCATCGTCTTTTGCGCGCATTGAGTTACATTTCAGTATTATTTGCACCAATTATTTTCCCATTGATTGTCTGGATGGTGTCCGATGCCGGATCCGAGACCCAGGCGGATGCTAAAAATGCATTACTGCTGCACATCATCCCTGGAATCGTGGCTTTCGGTGGCATGCTATTGATTGGCATTACTGGTTTCACTTCGAATAGCGTCCCCATCACTACGGGCGTGACGATTCCTATCATGATCGTAATTGTCGTGGTGGACTTGGGACTGGTGGTTTACAACTTGTACAAAGGCATCAAACTGCTGGCCCAAGACTAA
>SRR1151209_02101 hypothetical protein
ATGTGCGGCAGATATTATATCGATGTACGCCGGAATAAGCGGCTGCGCCAGTTGACTGAGTCATTGGCGGACCACGATATGCCGGTGAAAACGGGGGAGGTATTCCCCAAGGATCACGCAGCGGTGATTATGGCCCACGCCCAGCACATGGCGCTGGGCAGCGTGGTCTGGGGCTTTCCAGGATTTAAGCCGGGACAGCTGATCATCAATGCCCGCTCGGAAACAGTGCTGATCAAAGAAATGTTCAAGGCGCCCTTCCTCAACGAGCGGTGTGTCTTCCCGATGTCCGGTTTCTACGAATGGAGCAAGGATAAAGAGAAAACTTATTTTCAAGATCCGCAGGGCCGAATCTTGCTGGTGGCCGGTTTCATCGCCCACTTCCCAGAAGGTAAACGATCCATCATTTTGACTACCACGCCAAATGACGCGGTGGCTAGGGTCCATGACCGTATGCCGCTGATGATTCCGCATAAGGACCTGAAGAAGTGGCTGTTCGATGACACCTATGCCGTCGCTCAGTTGCAGGAAGAGATGGCCGAATTGATCAGTACCACGAATGATCCCGATGCAGTGTTCAGTTGA
>SRR1151209_02102 ArsR family transcriptional regulator
ATGGATCTGGATATTGAAGACACGTCACTGCCCGTCTATCAGGCCTTAGCCAACCCAGTGCGGCTAGAAATACTGCGGCTCCTCTTTCATACTGCTTACACGGCCACCGACTTGGCCCAACAGCTAAGTCTAAGCAAGGCAGCAGTATCTAAAAACCTGCATATTTTAGCAGATGCCGGTTTATTGCGTTTCCAACAATCCATAGCGGGCGATAGCCGCCAAGTGGCTATCATCCCCACTGTGGATAAGATCGTAGTTAACTTCCCAGAAACAATTTTTCCAGAGTACCATCAGCTGACCTACGACATCCCCGTCGGCAGTTATTTTTCCGTCCAAGATGTGCGTGAAACATGTGGTCTGGTTAGTTTAAAAGAGCGGATCGGCAAAATGGATGACCCAAACGTATTTCTTTCTCCGCAACGGTCGCACGCCCACCTGCTCTGGTTCACGCAGGGCGCGCTGGAATACATTATCCCGAACGAACTTAGTCAGGATAGCCGCTTAGAAATGCTGGAATTCGATCTTGAACTGGCCAGCGAATTTCCGCTATCGAACAACAACTGGCCGTCAAAAATCGGCTTCTGGATCAACGATGTGTTTGTGGGCGCTACGGAAATTCCCGGAAACTTCTCTGATGTGCGCGGACGCTACACGCCAGCTTGGTGGCCCAGTGATTTCAGCCAGTATGGGGTATTGACCCATCTTCGAGTGGGAAAATTGGACACCTCAGTAAACAGTCAATCGATTTCAGAAATTAGTGCAGCAATGCTGCAGCTCGAAAAGCAAAAAACGATCCGCTTCCGGATCGGTGTCCTGCCTGACGAAGATCGGTTTGGCGGCCTAACGTTGTTTGGTGCCGGTTTTGGAAATCACGACCAAAATATCAAGGCGACTGTCTACTTTTCTTAA
>SRR1151209_02103 sugar ABC transporter substrate-binding protein
ATGCGACGGTTGCGTTCACTAGTGTTGGCATTGGCAACTATTCTCCTGGCCTTCGTGGCGGTGGGATGTACAAGTAGCCGGGCCCAGTCAGATTCAAAGACGATCGTATTTTGGAACCCGTTCACGGGTCCCGATGGCACCAGTATGCAAAAGCTGGTCAATGAATACAATGCGACCAAACCAGAGTATCCGGTCAAGAACATTTCCCTGACAGAAGGGGACATGTATGCCAAGATTCCCACTATTGTCAATTCAGGGCGGGGGATTCCTGATTTGCAAATTGTCCATGTGGAACGTATCAAAGATTACGTGCATAACGGCATTCTTGATACGTATGATCAATATCTCAGCAATTATCCCAATATCAAAAGCAGCAATTATGTGCAAGAGGCTTGGAACGGCGGCTCCTATGAAGGACATCGCTATGGTATTCCCCTCGATATCCATACATTTGTGATGTACTACAACAAAGACCTGGTGGCCAAATATTGTCCCGAAGCCTTGGATGATAATATCGTCACCTTTGATGAAATTAAGGCGGCGGGGGAAAAGGCCAAGAAAGACGGCATTACTGCCCTTGGACTAACTTGGTGGAAACCAAATTATCTGTCTATGCTGGGCCAACAGGGCGGCGAGTTAACTAAGAATGGGGTTGACCCAACACTCAACACAGAGCCGGCTAAAAATACGTTGAACTTTTACAAGTCGCTCTATGCCGCGGGCATTACAAGCCGCGATGGTCAGGACCCCATGCAGTTATTCTTGACGGGCAAAGAGATTTTTCATCCTGAAGGGATTTGGATGGTGAATCAGATTCGTGAAAGCAAGATCAAGTTCGGCCTGACCAATGCGCCCCAAGTGTCAGCCGATCCCAAGAAAATGGTGAATTGGTCCTCCAGTCATCAATTTGTACTGTTGAAACAAGCTAAGCGGAATACCGCCAAGACCAAAGCTACTTTGAAGTTTATTAACTGGGTCCGCACCCACTCGATTCATTGGGCTGAGGCAGGGCAGAATCCAGCTTCCCAGGCAATTACAAAAAATAAGGCGTATCAGAAGATGGGGCAGTCCTTCCTGTTGAAGAGCAAAACAGAACAAGAGTCATTGCGTATTTTCGATTATCGCTATAACGGGTATGTCGCCGACTTTCTTGATCGATATGCGTTAGACCCAGTTTTTGGTAAGACGTCGATCGAAAAATATTTGAAGGATATGCAAAGTACTGTGCAAGACAAAATTGATGCACAGATCACGGATTGA
>SRR1151209_02104 sugar ABC transporter permease protein
ATGGATAGCACGACAACACATGTTGCGGCGGGCGCAAAGGCGCAGACGCGGCGAAAGTCCAGCAAACCATATCTGTATCTATTGCCGCACTTGGTGATTTTTACAATATTCTTCCTGGTACCGTTGGTCTTCGGAATTTATGTTTCGTTTACTAAGTGGGATCTTGTACGGACTCCGCGTTTTGTGGGGTTACAGAATTATCAAACGATCCTGTTCAGTAACTCAACGTTCCATACCCAGCTCGTGGAGGGTTTGCGGAATACATTATGGTTTGTTCTGATTTCGGTACCGTTTTGTATCTTGGTCCCGCTGTTATTGGCAGTCGCTTTGAATGCCAAACCAAAATTCGGCAAATTTTTCCAAGGCCTGTTCTATCTGCCTAGTCTGTTCTCAATTTCTGCAGTGGTCATCGTTTGGACTTTGATTTTCAATCCAAACTACGGACCGCTGAACTCCTTGTTCCATCTTAATCAAGTGTGGACTGGGACACAGCCGTGGGCCTGGATGACAATCGTCATTGTCACTATCTGGTGGACGATTGGCGGCAATATGATTATCTACCAGGCCGCCTTGAATGGCATCCCAAAAGACTACTACGAAGCGGCCGATATCGACGGGGCCTCTAGTTGGGAGAAGTTCTTACACATTACCTTGCCTAGTATCCGCGGTCAGTTCCTGTACACCTTAGTGACGACCACGATTGCCCAATTCAACATTTACGGTCAGCCGTTAATGATGACGAATGGCGGTCCCAATGGATCAACCAGTGTTCTGATGATGTACATTCAGCAAAACGCTTTTGGTGCTGGTCAGTCCTTAGCCGGGTTAGCCTCAGCCATGGCCGTTGTTTTGGGTGTTTGCATCCTGATTGTGTCCATGATTCAGTTCTACTTCTTGCGGCGAGATTATTAG
>SRR1151209_02105 glycerol-3-phosphate ABC transporter permease protein
ATGCAAAATACACGTACTAATCGAGCCGGAAAGTGGCTAGCCTTTCTATTTCTGACCATTATGGGTGTGATTTGGATCGTTCCACTGCTTTACGGTATCACATCATCATTTAAGACCAATATAGAAATGCAATCGGTGGGGTTCCGCTTTTTGCCCATCAATTGGGTCCTTAGCAACTATACTAAATTGTTGGCGAATACGACCAATACGCCAGTGTTTCGCTGGTTTTTGAACTCATTGGTCATTGCTTGCGGCACCACCTTGCTGGTGCTCTGTGTTGTGTCTCTGTCCGCTTTTGCCTATTCGCGGCTCAAGTTCCGCGGCAAAAACATTCTGTTCTACGGTCTGTTGGCAACAATGATGTTTCCCCCAGTAATGAACCTGATTCCGCTGTATAAGATTATTACGACTCTGGGCTGGGCCAATACGGATTGGGCGATGATCGTGCCTGCCGCCACCGGAGTGTTCAATATTTTTCTAGTGCGTCAGTTTATGGACAATATTCCGATTTCTTATGATGAAGCCGCGCGGATCGATGGCGCGTCGGATTGGCAGATTTTCTTCCGGGTGATTCTGCCCTTGATCAAGCCAGTGCTGTTTGTCGTTGCGCTATTCACTTTTACCGGATCTTGGAACGACTTCCTTTGGCCATCCATCGTGTTTTCAGATTTGAACAAGATGCCGATCACGCCCGGGTTGAAGTTGTTGCAAGGTATGTACGCCGCTAATATTCCGACATTGATGGCGGGAGCGTTGGTTGCAATTGTGCCGACACTGATTCTGTACTTCTTCGCGCAGAAGTACTTCCTGCAATCCATGGCGTTATCTGTTGGTGTGAAGGGATAG
>SRR1151209_02106 hypothetical protein
ATGAAAAAGAAATGGAGTCAGCGATTGTTGTTGATCTGTGCAGTGTGGCAGTTCATTGATGGAATCTTGACCATTATCTTGGGGTTTGCCGGGCCAAACCGGATTCCTGAATTACAAGGCTATGCCCAGTTTGTACCGGTGGCAACAATTACCGGTTTGGTGGGTACCGCATTTCTGCTGAGCGGGTTGGTCAATCTGCTGCTGGCGCGGTACTACCTGCGGCGGCCAACAATCGGTTGGGGGATTCCAGCCGTCATTGGCCTGGAGAGTTTAGCGGCCTACGTTTGTTTAGATATCATCAGTGTTATTCTGCTCATCCCGACACTGGTGATCATCATGTTATACCGCCATCAACAGCAAAAAACGGTATCAGCAGCACACTAA
>SRR1151209_02107 beta-glucuronidase
ATGATTGTAGTGTATAGAACAGAATATCCGCAACCGCAGTTTCAACGGGAACACTGGCAAAACTTGAATGGTCAATGGCAGTTTGCTTTTGATGACGCTGATGAAGGCCAACGGAAGCAATGGTATCGAGAGCACGACTGGTCAGAACACATCGAGGTGCCGTTTGCTTATCAGAGTCAATTGAGCGGCATTAGTGATACGACAGGCCACGCGGTGGTGTGGTACCAGCGGACGGTGACCAGCCAGGCTGAATCTGGAGAGACAGTACTACTGCACTTTGGCGCGGTGGACTACGGGGCCGATATTTGGCTGGATGGCCAGTTTATTGGGCACCATCAAGGCGGGCATACAAGCTTCAGTTTTGATATCACGAATCAAGTCAGTGATTCAGCGGAACATACGTTGACGGTCCGCGTGTGGGATCCAATCCATGACGAAGAAGTCACACGGGGTAAGCAGAGCTGGACCGGACGCAGTGAGGGGATTTGGTATACTAATACGACTGGTATCTGGCAAACTGTTTGGTTGGAATATGTACCCCAGACTTATCTGGAGAGCGTCCAGTATTTCCCGGATATTTCAGCAGGGACAATCACGATCAAGGGAACCATCAAGCATTTTGTTCCGGGTACGCAAGTCCAAGCGGTGATCACCTTCAAAGATGATCCGGTGACTGAAACGATAGTCACTCCCGAAATCGATTCGTTTACTTTCACGGCTGATGTATTTGCCAAAAAGATTTTCCGCAGCGGCTATCATAATGACGGTCGACTGTGGACCCCGGAACATCCGCACTTGTTCGCCATACGGTTTACCACGAAGACTCCGAATGGTGAGCAAGACGTCGTCGATTCCTATTTTGGTATGCGCGAAGTCCGTACCGAAAGCGGCATGGTCTTTCTGAATAATCGGCCGTACTATCAAAAATTAGTTTTGGACCAGGGCTATTGGTCGGAAGGTTTGCTGACTGCCCCCTCTGATGAAGCGTTCAAGAAAGATATCAAATTAGCGAAGGACATGGGCTTCAATGGCGCACGACTGCATCAAAAGGTGGAAGATCCGCGTTTTCTGTATTGGGCTGATCAATTGGGTTTCATCTGCTGGGGTGAATGTGCGTCAGCACCAGTATTCAGTGCCCGGGCCGAGTCAGCGTTATATGCAGAGTGGCAAGAAATTATTGCTCGAGATTTCAATCATCCGGCGATCATCACGTGGGTGCCGTTAAACGAAAGCTGGGGCGTGCGCAGTATCCATGATGATCGGCAGCAGCAGCATTTCAGCCAAGCTCTTTACCACCTGATCCATTCATTGGACCCCACCCGGTTGGTGCAATCCAATGATGGTTGGGAACAGACAGAAACTGACATCTGTGCGATTCACAATTATAGTCACGGGGAGTCTGCCGAATCACCGCAGTATGCCTACTTCAAAGACAGCTTGAGTACTTGGCAGAAACTACTCAGTCAGCCGCCAGGCAGTTTTGACATTTTTGCCAAAGGCTTTGCCTATGCAGGGCAGCCCATTCTATTGACTGAGTTTGGCGGGATAGGCTATAACAAGGCCGATGCCGATGCTGGCTGGGGATACACGGGGGCTCATTCGGATGCAGAGTTCCGCAACGAGCTGCAGCGTATCTTTACTGCGGTGGCTTCGTCAAAGAGTCTCAACGGCTTCTGTTACACGCAGCTGTACGACACCGAGCAGGAAGTCAATGGGTTAATGACTTACGATCGGACACCAAAAATTCCGGTGAAAGAGATTCACGAAATTCTGGACTACTTCGTGCCGAGCTATATTGAATCGCAGGCGCGGGAGCACATGCTTTCTTAG
>SRR1151209_02108 Mn-containing catalase
ATGTTCAAGCACACTCGGAAGTTACAGTACAACGCCACCCCAGATAAGCCGGATCCACTGATGGCTCGGCGGCTGCAGGAATCCCTTGGCGGTCAATGGGGCGAGATGACGGGCATGCTCTCTTATCTATCGCAGGGCTGGTCGTCATCAGGCGATGAGAAGTACAAGGATCTGCTTTTGGATACCGGTACGGAAGAAATCGGCCACGTGGAAATGATTTCCACGATGGTGGCTCAACTGCTGGAAGGGGCTCCAATTTATGCCGAAGAAGAAGCTTATCGGTCCGATCCGGCATTGGCTGCAGTCATGGGCGGAATGGATCCTGAACAAGCGATTGTGCATGGCTTAACTGCCAGTCTTAACAATCCCAATGGTGCCGCCTGGACGACCGGCTACACCACCTCCAGCGGCAACTTGGTGGCGGATATGCGCTTCAACGTTGTCCGGGAATCCGAAGCCCGGCTGCAGGTGAGCCGGCTTTATTACATGACCCGCGATGAGGGAGTCCGGGATATGCTGAAGTTCTTATTAGCTCGGGAGACTCAGCATCAGCTGCAGTTTATGAAGGCTCAGGAAGAGCTGGAAGATAAATACGGCGTAGTGGTGCCCGGTGATATGAAGGATATTGAGTATCAAGAATACTCCCATGTCTTGATGAACTTCTCCGATGGCGACGGTTCTCGGCAGTTTGAGGGCCAAGTGGCCAAGGATGGTGAGAAATTCACCTATCAGGAGAACCCGGAGGCGATGGGCGGTATTCCGAAGCTCAAGCCGGCGGATGAACAATTGCATAATCATCAGGGGTAG
>SRR1151209_02109 endopeptidase
GTGGATGAACTCGTCAGCCATGCCCGCTACCTGAGCCGCGACCTGCGCAAGATTGGCGAACTGTATAACCAAGCGATCACCGGTCAACAGGAGCTGACCCCGCCGGAGCGGTTCGCTTACAACACGGTGAACCGGTTCTTCGCTGAACCGGTTGGCGTGTTCTATGGCAAGAAATATTTCGGACCCCAGGCCAAGGCCGACGTCACCCACATGGTCGAAGATTTAATTACCACGTATAAACAGCAGATCCATGACAATACCTGGCTGTCCGATCAGACCAAGGCAATGGCCGTGAAGAAACTGGACACGATGGTCATTAAGATGGGCTATCCTGAAAAGGCCCGCCCCCTGTATGACCGCATGGCCATTGACCAAGACACCCCGCTGACCACGACGCTGGATACGATCGCCAAGGTGACGCTGCAATACAGCTTTGCCCGCCTGAACAATCCGGTGGACCGCAGCGAATGGGTCATGCCCGCGCAAATCGTCAACGCCGCGTACAACCCGACGGCCAACGACATCACCTTCCCCGCGGGCATTCTGCAGGCACCGTTCTACGACGTGCACGCCAGCCAAGCTGATAACCTCGGCGGCGCTGGCGCCACCATCGGCCATGAAATCAGCCACGCCTTTGATAATAACGGGGCCTTGTATGATGAACACGGGAACAAGAAGAACTGGTGGCAGCCCGCCGATTTCGCCCACTTCAAGAAATATACTCAGGAAATGATTGCCCAGTTCGACGGCATTCCCTACGCCGGCGGCAAGATCAACGGCAAACTGGTGGTGAGCGAAAACATCGCCGACAACGCCGGCTTGAACGCGGCACTGCAGATCCTGCACCGCGCCGATGCCCCCGCCAGCGACTTCCAGGAGTACTTCATCAACTACGCCCGCTCCTGGCGGACCAAGATTCGCCCAGAATTTGAACGGGTCATCTTGAAGACCGACGTGCACGCGCCCGCCTTGCTGCGGACGAATGTACCGGTCCCGAATTTCCCGGAATGGTACAGTGCGTTCCACGTGAAACAAGGCGACACGATGTACCGTGAGCCGGCGAAACGGGTTGTGATTTGGTGA
>SRR1151209_02110 endopeptidase
ATGGCACAAAATGAAACACCGCGGGTACAGGATGATCTGTACGGGTATGTGAATGGTGCTTGGCAGCAGACCGCCGCGATCGACCCGGATCGGGTGTCGGCCGGCGTCTCCACCGACTTGGATAAAAAGGTTGAAAAAGAGCTGTTGGCCGACCTGAAAGCAGCGCTGGCGAAAGCCCCTGCCAAACCTAAGGACAACTTCGATAAGGCCGCTGTACTCTTCGGCAAAGCCCTCGACTTCGACCAACGGGATCGGGAAGGCCTCGGACCGATTCTGCCCCGACTGGCCAAAATCCAGGGATTGCCCGGTCTGGCCGCTTTCAATGCGGCCCTGCCCGAGCTGATTCAGGACGGATACGCACTGCCTTTCTATGTCTTCGTGGAAACGGACATGCACGATGCCACCAAGTATCAGGTGATGTTCACATCGCCGGACACGATTCTCCCGGATGTGACCATGTATGATGACCCCACGCAGAAACAAGCCCTACTGCCGGTGTGGGAGAAAATGGCCCGCCTGCTGCTCGCTCAGTCCCCGCTGAATCCGGCTGATCAGGAAGCCTACGTCAAAGACGCCCTGGCCTTCGACGCCCGCATTGCAGCACATCATTTGAGCCATGAAGATGCGGCGGTCGATGACAACTTGGATAATCCAGCGGCTTGGGACACTACTTTGGGCAAACTGGCGGGTGTTGCTGTCGCCGCCGGCCTGAAGCCGCTGCTGCCCAGCACCCCGCGCACGGTGAAATCATTGACACAAAGTATTATCAGCACTTTTCGGATACCTTCAATGCCGATACTTTCACCGAATGGCAGCATTGGGCCTATGTGGATGAACTCGTCAGCCATGCCCGCTACCTGA
>SRR1151209_02111 major facilitator superfamily transporter
GTGGAACAACGGTCCCGCTGGATCATGCTGTTTGCCACCTCTATGGTGTCGTTTATGTCGACCCTGGACGCCAGCGTTGTGAATATTGCGATTCCCCATATTTCCCGAGAGTTAGGGGTGCCGATGAATCAGGCGGAATGGGTGGTTTCTGTTTATTTGGTAGCGATTTGCGCGTTGCTCATTTTCTTTGGCCGGCTGGCCGATCAGATTGGCCGGATCCTGGTCTTCCAGACAGGTACGCTGATCTTCGTGGCGGGATCGCTGGCCTGCGGGTTCAGTGTGAGCCTGCCGATGCTGCTGGGTGCTCGGTTGTTTCAAGCCCTCGGCGCGTCGATGGTGATGTCTTCGAATTTCGGCATCATCACCCAAGCGTTTCCCATGGGTGAACACGGTCGCGCCCTGGGGCTGAATAGTACCTTTGTGCAGATCGGCAATATCGCCGGACCGGGAATCGGCGGGGTGATTCTGGCCATTGCTAACTGGCATTGGATTTTCTTTATCAATGTGCCGATTGGGATCATTGCGTTCATTGTCGGTTATCGCATTTATCCCCACGAGCCAGTGGTGTTTCGCCATGTCCAAGTGGACTGGCCGGGGTATAGCACCTTTGCCTTGGCGGTCATCAGTTTCTTCATCGCCATTTACTGGGGACAAGGGGTTGGCTTCAGCCATCTGGGCGTAATTGCACTTTTTGCTCTGGCTGCAGTCCTGGTGGTTGGATTCATTTTCATTGAACAACGGGTGGCGGCGCCGCTGATCACGCTGGGGATTTTCCGCTCACCTGGGTTCACCATTGGCATCATCACCGCGATGCTGGTTTACATGGTGGGTTATTTCAACAATGTGATCATGCCGTTTTACCTGCAAGAAACACTGGCTTTGTCCTCGGCGACCGCCGGCCTGATCCTGATGGCAGTGCCGTTGCTGAATATGATCAGCGCGCCCACCGGCGGCATCATTAGTGATCATATTGGCGCGGAAAAAGTGTCCTTTTACGCGCTGTTCATTTTCTTCGTGCCGCTGCTCCTCTTTCTTTTTGTTCAGCCCGCTTGGTCGCTGGGCTGGCTGATCTTTGGGCTGGCGATGTTCGGGGTGGCCAATGGCGCATTCCAGAACAATCCAATGATCATGGGCAATGCCGGTAAGGAATATCAAGGAATCGCCGGAGCGATGGCGGCGCTAGGCCGCAATATCGGCATGGCACTGGGGTTATCACTGGCCACCTCGCTATTGTATTGGGATATGTCCCAACAAGCCGGTCGGCGGGTGACGGCCTATCCCCATGCCCAGCCGCACTGGTTTATCCAGGCGATGCACTTCAGCTACGGCTGGGCCGTGGGGCTGATTGGCAGTGCGGTACTGTTACTAGGCGGACTGTTGTTTTATCGTGGGCACATTGCTGAGGCGTCTCGCTAG
>SRR1151209_02112 3-oxoacyl-ACP reductase
ATGGCTCGTTTAGCAAATAAAGTATTGGTCATCACCGGTGCGGGCAACGGCATGGGGAAGGCCATGGCGCTGCGCTTTGCCCAAGAGGGCGCCAAAGTGCTCGCCAGTGATCGCGATGCGACCTGGATCAAAGAGACGGTCAAAGAGATTACGGCTGCTGGCGGTACTGCAGTGGCGGATGTCACCGATGTCAGTGACGAGGCGGCGGTGAAGGCACTGATTCATCGGGCGGTCGCGGAATTTGGCCGGTTGGACATTTTGGTCAATGATGCCGGCATTCCCGATAATTTCAAGACCGTGGTGACGGCCACGGATGAGTCGTGGGACCGGGTGTTGAAGATCAATTTGTACGCACCGTTCTGGGCTTGCCGGGAAGCCGTGCCAATCATGAATGCGCAAGAAAGCGGCGGGGTCATCCTGAATGTCAGCTCGGTGGGCGGTTTGTTCGGTGCCCTGGGCGGGGCGGCGTATGTGGCCTCCAAGCATGGTGTCATCGGTTTGACGAAGAACATCGCCGCCACGTATGGCGTGCATGGTAAAGTCCGGGCTAATGCATTGGCCCCTGGGACGATCACCACGAACATTCGCGCCGCAATCACCGACCCTGACCCGTTGGGCGATCAAGCCCTGCGGGATGCCGGCGGTTACGACGGACCGGTGGGCTCCAGCGAAGACATGGCCAATGCGGCTTTGTACCTGGTATCTGATGAGGCCAAGTTTGTTAATGGCGCGGTGTTAGTTGCCGACGGCGGCTGGACAGCACTTTAA
>SRR1151209_02113 FabG-like short-chain dehydrogenase/reductase
ATGGCACGTCTAACGGATAAAGTTGTCGTTATTACCGGCGCCGGTAACGGTATGGGGAAGGCCATGGCTTTGCGCTTCGGCCAAGAAGGGGCGAAGGTACTCGCCAGTGATCGGGATGAAAAAGGAATCAAGGCCACTGCCGAAGAAATTACTGCGGCAGGCGGCACCGCCGTGGCGGATGTCACTGATGTCAGCGATGAAGCAGCGATTAAAGCACTCATTCACCGCGCGGTAACCGAATTCGGCCGGTTGGACATTCTGGTCAACAACGCCGGGATCGTGGATAACTTCAAGACCGTGGTTACCGCTACTGACGAATCTTGGGACAAAGTATTGAAAATCAATCTATACGCACCGTTCTGGGCGTGCCGCGAAGCGGTGCCGATCATGGAAGAACAAGAAACGGGCGGGGCAATCTTGAATATCAGTTCCGTTGGCGGAATGTTCGGCGGCCGCGGCGGCGCCGCATATGTTACTTCCAAGCACGCCATCATCGGGCTGACGAAGAACATTGCGGCGACCTATGGCGTGAAGGGTAAAGTCCGGGCCAACGTGCTGGCCCCCGGTTCCGTGGTGACCAACATTGGGGCGACGATCACCGATCCAGACCCAGTTGGCCAAAAGGCGCTGCAGGCTTCTGGCGGCTTTTCGTCACCGCAAGGTTCTGGGGAAGACATGGCCAACGCGGCGTTGTACCTGGTATCTGATGAAGCAAAGTTTGTTAACGGGGCAGTGCTGGTCGCTGATGGCGGGTGGACGGCCCTGTGA
>SRR1151209_02114 ribose operon repressor
ATGAAGCCGACGATCCGTGATGTGGCCAAAGCAGCGGGCGTTTCGATTGCCACTGTTTCCAAGGCATTGAATGGGGTGGACGTTGTTAAGGCGGAGACCAAGCTCAAAGTATTGGCCGCGGCTAAAGAGCTCAATTATGTACCTAATCTTTTAGGTAAGCAATTGAAATCTGGCCAAACCAACATGCTGGGGTTCTTCACCAACAGTGTTTCCGGGCCTTACTTCTATGCGTTGATCGAATCCATCGCTCGGACGGCCGATAACATGGGTTTTGGGCTGAACGTCTTCGTCACCAAGCGCCATGATACGATTCAAAACTATCTCTTCGGCAACGTGGTTGACGGGGTGATCGTCTTTGAAAGTCGAATCACTGGCCCAGACGTTGATATGATCAGTCAGCACCGCGTCCCAGCAATCTTCTTGGATCGGCCAATGGTTGCGGACAAGATTGGCAGTATTACGTTCAATTCCTATCAGGAAGCGTTTGACGCCACAGCGTATCTCATCAGCCTTGGTCGTCGCAAGATCGCCTATCTTGCGGGTTATCCAGATAACTACGATAGCAACGAACGGCAGCGAGGCTATGAGGATGCGTTAAAAAAATATGGGTTACCCGTGAATAAAGACTTGATTATTCTCGGGTTGTTCGAAGAACCGACGTCGTATAGCGAAATGCGCCGGTTCATCAGTCTGCATCCGGAGGATATCCCGGACGGCATTCTAGCTGGGAATGATATTTCAGCCATTGGTGCTATGCGGGCATTGAAGGAGAGCGGCATCAGTGTGCCCCAAGAGGTGAGTGTCATTGGGTTCGATGATGTCGAAATCGCGCAGTATTTTCAACCGTCGCTCACGACTACCCGGAATCCCATCGGGCGGCAAGGCGTGCTGGCGGTGAAGCAGTTGGTGGGCATGATCAGCAATAATGATCAAGGCCAGTCAGAAGTCTTGGACGGTCAGCTGGTTGTCCGTAATTCGACGACCATCAAGTGA
>SRR1151209_02115 ABC transporter permease protein
ATGAAAGCAGTTCCTGCGGGGAGAAAGCGGAGTGTCGGGACTCGATTGAAGAATTGGTTCACCGATTTCCGCTCGCAATGGCAGATGCAGTCGATGATGCTTCCAGGGATTCTCTTTATGATCGTGTTCAACTTTATTCCCATCTATGGTTTGACCTTAGCCTTCAAGAGCTATTCAGTCACTGATACCATTGGCGGGGCGAAATGGAATGGCATCCAGAACTTTCAAACGATCATGGGCGACAAGTACTTCTGGCAAGCCGTGTGGAACACAGTGGGCATCAGTGCCATCAAGCTGACGATTGAGTTCTTCTTACCAATCGCCTTAGCCATCATGATTTATGAAGTGAACTGGGGACCATTCAAAAAAATCGTGCAGACGATTACCTACCTGCCCCACTTTCTATCGTGGATCATCTTAGGCGGGATGCTGATCAACTGGATGTCCTCTAATGGGTTGATCAATCAGTTCCTCGGTTTGATTGGGTTCCATTCTCAGGCTAACTACATGTTGGATGCCAATAAGTATTGGAACATTGCTGCCTGGTCCGACGTCTGGAAAGAAGTCGGCTGGGGTACCATCTTGTACCTGGCCACCATGGCCGGAATCGATCCGACCTATTACGAAGCGGCGGAAATGGATGGGGCGTCGAAGTTGCGCCAAATTTGGAGTATTACCTTGCCCGGCATCAGCAACATCATTTCGTTGAATTTGATTCTTTCGGTATCCGCGCTGTTTGGTTCTAACTTGGATCAGACCTTGGTCTTGATGAATTCTCAAAACCAGCCAGCCGCTGAAGTCATCAACTCCTATGTGTATCGGGTTGGGCTGACCCAAGGCGACTTCTCGTATGCGACCGCCGTAGGTCTTGGGGTATCCGTGATCTCCGTGATCTTATTGGTTGGAGCCAACTTGGTAACCAAGAAACTGAACGACAACCAGTCGGTATTGTAA
>SRR1151209_02116 sugar ABC transporter permease protein
ATGGAATTAAAAAGTGCACGAAAATCGCCATTCGGTACCCGCAAGTCTGGCAGTCGCGTCCGCGAAACCAAAGGCACCCGGGTGTTTAATGTTGTCAATATCATCATTCTGAGTTTGTTTACCTTGATCATTGTTGTGCCGCTTTGGAACATTGTCATTTCATCCTTTGCCTCATCAACGGCATTGAGTAACGGCAATTTTATCTTTTGGCCGCAGCAGCTGTCACTAGATAATTACCGTGCGGTATTCCGCGATCCGGGCTTGTGGCGTTCGTTCTTTATCTCGTTTGCCAAAACCGCAGTGGGGGTCATTACCCACACACTGTTCTGTGCAATCGTTGCATATCCATTAAGCAAGCGGCGGTTGCGGGGCCGCAAGTTGTATTCCACCATGGGCATCATCACGATGTTCTTCTCCGGCGGGATGATTCCGACTTACTTGCTGATCAAGTCCTTGGGCATGCTGGATACCTTCTGGGTCTATATCATTCCGTCTTTGTTCAGCTACTACGACGTCATCATCCTCATGAACTTCTTCCGTCAAGTACCGGATTCCCTGGAAGAATCTGCCAAAATCGATGGGCCAGTGATTACAAGGTGTTCTGGAGCATTATTTTGCCCCTATCCAAACCGGCCTTAG
>SRR1151209_02117 sugar ABC transporter permease protein
TTGCCCCTATCCAAACCGGCCTTAGCCACGATTGCCCTGTTCAACGGGGTCTGGCAATGGAACGACTTCATGACCACGAAACTGTACGTGACCAATGAAGGACTCTATCCATTGCAGATGCGCTTATACGATATTATTGTCAAAGCCCAAGCAGCGAGTACAACGGGGTTGAAAGCCCAAGTAGCGATCAGTACCACATCAAGGGGGGTGCAGCTGGCCACGATCATGATCACGATCCTGCCGATTCTGATTCTTTATCCGTTTGTTCAGCGATACTTCGTAAGCGGCACTATGTTGGGCGCCGTGAAGGAATAG
>SRR1151209_02118 hypothetical protein
ATGAAGAAATATTTGAGGGAGATGTCCACAGTGAGTATTACAAAACGTTTGGCGCGTCTTGGCGTCATTGCTGCCGTTGCGACAGCTACTATGTTAATTGCCGCCGGGTGCGGTTCCTCTGGTTCTGATTCAGCAAAGTCGGGCGATAATCTACCGAAGGCGGGTTACAAAGTATCAAAGAACACCCCGGCTTGGAAATCCGACAAGAGCAAAGACAACACACTGACCTGGTATGTCAATGCGGATTGGTGGAACAAGTCTTACGGCAAGGACATGATCACCAAGCAAATCAAGAAAGATTTGAACTTAAACATCAAGTTTGTCACCGGGGATGACACCAAGTTAAACACGTACTTTGCCTCCGGCAAATTGCCGGATATCGTGACCATCGGTGATCCAAACTCTAAGGTTGCCCGGACGGCTGATCAATGGGCTTATCCGTTGCAAGACTTGGCTACGAAGTATGATCCGTATTTCTACAAAGTCGCTCGGACCGATACTTTAAATTGGTACAAGCTGAAGGATGGCAAGACTTATGGCTATCCGAACTATTCCAATACGGAAGCCGATTACAAGTCCGGCAAAGTACCCGCACGAGATGCCTTTATCATCCGTAAAGATGTCTTGGCGGCTATCGGGAAACAGGACTTCACAACTCCAGAAGGCTTCGTCAAAGGAATGGCTGCAATTAAGGAGAAATTCCCGAAGCTGAGCCCGTTTGGCTTCAATGATTTCTCTGGCGGGAACAGTTCGCTGGACAACGTCGTTCAGGATATGTTGGGTGTGCCGATCGTTACCAAAGACAATAAGTACTATGCTCGTAACCTGGACAGCGATTATCTGAAGTGGCTGAATGCGTTCCGTGAAGTCCATGCAGCGGGCAATATCAGCGATGACAGCTTTACCGATGACTCCAATGCCTTTAATGAAAAAGTCAACGCTGGTAAGTACGCCACAATCATGATGGGTAGTGACGTCAATCACGGGATCAACTTGCAAACCTTTGCCTCTAAGCATCCTGATGAGCAATATATCGCCATTGACGGAATTCAAAGTACAGTTGGCCGTAAACCAACATTGTCCCAAGCAGGGATTTCGGGTTGGTTGATCAATTACATTTCGAATAAGTCCAAGAATCCAGCTAAGGCCATTCAGGTATTTGAATATTTGTTGAGTGATCGCGGCCAAATGTTAGTCAATTTCGGCATCAAGGGCCAGACTTATGAAGATGCCGGTGACGGCATGGTGAAGTGGACGCCGAGTGCGTTGAAGGTTCAGCAATCTGATCCGGATAAATGGCAGAATCAGTACCGGATGGGCGAATTCATTCTCTTTGGTCATGACCGCTACAAGGCCTTGAACAAGGATTCCTACGTGAAGGCCGTTTGGCAGATGCAGGCATGGGGTCAGAAGTATCTGACACCGCAATTCAAGACTGAAAACATTGTGCCGGATCCTGGTACGCAAGAAGCTCGGGCGTACTCTGCGATTCAAACGAACTGGAGCACAACGCTGGTGAGCTTGATTCGGGCCAAGTCAGAAGCTGATTTCAATGCAACCCTGAAGAAGTATAAAGACTTCGAAAAGGATAACAGTATTGATCAGATCAACAAGACCCGCGACAAGAATATTCAAGCGAACATGAAGAAATTGAATATGAAGTAA
>SRR1151209_02119 hypothetical protein
ATGGCCCGCTTCTTTGCACTAGACGGCAAGGCTTATCGGATATTGCAGAAGATCTATCAGCTGATTGTCTTGAACGTGTTATTCGTTATCGGAGCACTGCCCATCGTGACCGTCGGGGCATCACTGACGGCGCTGTACAGTATGGCGTTGAAACTTGATGATCTCAATACGGTCGCTGTGGCGCCTGGATTTTGGCGCGCTTACCGGGCCAATTGGCGGCAGGGCAGCCTTCTGGGTCTGCTGGTCATTGGTTTGGCCGCGGGAATGGTGGGCGGCTACTGGTGGATCGGCGGCACTTCACCGGTCATGATTGCGGTGATTGCCGTCTACGCGGTGGCGTTGCTGGCGGTGATGTATATCTTTCCGCTGGCCGCTCGCTATCAGGAAACCATTGGGCAGATTCTGCGCAATTCGGTGACCCTGGCGGTGGGCAATGCCTGGGAATCGATCGTCATCTTTCTGCTGATGATTGCCGTCATCTTCTATCTGCCGTTCAAGTACCATTGGCTGTTCATCATCATCTTACTGATGGGCTTTGCCGGCACGGCGTATCTGCAAAGCTGGCTGCTGCAACGGGTGTTCGCAAAATATGATCAAGACTAA
>SRR1151209_02120 transcriptional regulator/sugar kinase NagC
ATGAAGTATTACGTGGGATTTGATATGGGTGGTACAACGATCAAGTACGGGGTAGTTGATGCTGCCGGAAAGATTGTCGAGAAGGGAGCACTGCCGACGGAGAAGAAGCAGGTCCCGTTGCTAGCCGGGATGCAGAAAGTTGTTGCACAGTACAAAAATAAGTTCGCGGTAGCCGGTGTCGGCGTGTCGATTCCCGGTATTGTCCGACGGGACGGCTACATGATTACGGCTGGAGCAATCAAGTGTCTCAACGGTTATCCTTTGGCTGATAAATTGAAAGAGATGACTGGCTTGCCAGTCAAAGTAGAAAATGACGCGAATGCCGCGGCGATTGCCGAACACTGGCTTGGCAATGCCCAGGGCGTCGAAAATTATCTTTGCGTGGTCCTGGGGACCGGCGTTGGCGGCGGCATCGTCATCAACGGCGATGTTTACCGGGGCGCCCATGGGATGGCCGGCGAGTTCGGCTGGAATATCACCCATGACATTGATCTGACGCAAAAACTGGAAGATGCATCGCTGAATTGGCATGCAGCGGTGGTCAGCGGCATGGTCCGGCGCTACAATATGTCGGTTCACCGGGTCTATCCCGATGAGCCCACGGTGACCGATGCTCGGCAGATTTTGCAGCTGGCCCAAGATAAGGACCCGATTGCCGAACCCATTGTTGATCAATTTATCGAAGATGTGTGCATCATGCTGCTGAACTTATTTGCGAACTTTGACCCGGAACTGATCCTGATTGGCGGCGGTATCAGCGCCAACACCGAGTTTATGACCATGCTGCAGGCCAAGTTCAAGGAGTTCCTGATTCGTCATGAGAGTTTGCACTATATTCAAGATAAGGCCCTGGGTACCGTCAAAACAACCGGTTTGCATAATGATGCTGGGTTGATTGGAGCGGTGTATCCGTTGGTGCGGGAGACACTGAAAGCTTAA
>SRR1151209_02121 TetR family transcriptional regulator
ATGATGACCACTAATGACGATCTGCAACTCTTTCGTGATGCCCACATCCTGGATGGCTTGACCGACAAACAGATCAGCATCTTGGCGGCCGCCATTGATGTCTTCGCGGCCAATGGCTACGCCAATTCCAGCACCAAAGAAATTGCCCGCCGCGCTGGCGTGGCGGAAGGTAACATCTTCAGCACTTTCAAGAACAAACGCGGACTGCTCCACGCCATTATCGATCCGGTGCGCCAGTCGCTGTTTCCCCAGGCTATGGATGAACTCGTCAAATACAAGCTGGCCGTGAAGTACACCACCCTGCGCGAATTTCTCGACAACATCATTCGGGACCGCATCGGCTACTTGCGGGCGAACAGCAAAGTGATCAAAATCTTTGTCTCGGAATTATTCTATGATCAAGACATGCGCAGCCAATTCGTGCGCAAGTTTCCCGTTGCCTACTGGCTGCAATTTGATCGCCAATTTCACCACTTGAAGCGGCTCGGTCAGCTGGTCAACTGGAAAAATGGAGAAATCGGGGAAGTAATGTCCGGCATCATCGGCGAAGTCTTCCTTGGGTATCTTTTCTTTGGCCAGCCCTTGTCGGACGCAACAGTCCAACGAACGATCGATACATTGGTGACCGTTTTGACACCGCGGGTCTAA
>SRR1151209_02122 phospho-beta-glycosidase
ATGATTGCTCAACTATTCGCCCCCAGTGACCGGGCACCGGTCATTGCTAATATTGAGAAAGCCGTCGCGGCCGACCAGTTCAACAGCAAAGTGGAAACGGACGACCCAAACATTTCAATCAACCGGGAACAGGAATTATTGACCAACTATGTCCGGGATATTCATACCTGGTCTTATCGCGCCAACAATCTGATTGCCCGTACCGCGATGAACACCGCCGCCCGAGTCGTCACCCGGAACATGATCGTCACCGGTCAAGAAAATCTAGCGGCAACGCCTGGCGGCGCGATCGTTACCAGCAACCACTTCAGTCCCATTGAAAACATGCTGGTCCGCAAAGCCCTGGGTATGCACCGGTTGTATATCGTCAGCGAAGCGACGAACTTCTTCATGGATGGGTGGCTGGGCTACCTGATGCGCTATGCTGATACCATCCCAGTCAGTAAGGACATCCATTATGCCGGTCTGACTCTGCCGGACTTGCTGACCGAGCGGCTGAATGCTGGTCACAAGGTGCTGATCTATCCCGAACAGGAAATGTGGTTCAACTACCGCAAGCCGCGGCCGCCTAAGCGCGGGGCTTACTTCTATGCTGCCCGCCTCAATGTGCCCATCGTGTCCTGCTTCGTGGAAATCGCGGATATGCACCGCCAGTTGACCGATCAATTCAACGAAACCCAATATCGGCTGCACATTCTGAAGCCAATTTTCCCCGACCCCGCCATATCCCCCCGGGATAACAGCCTGCGCATGGCTGCCCAGGATTATGCCCAGAAAAAGGCGGCATACGAAGCTATCTATCGGCAGCCTTTAGATTATAATTTCTCTCCCAGCGATATTGCCGGTTGGATTCCCGCTCGGCAGGAGGCGGTGCATGATGATGACCACTAA
>SRR1151209_02123 lipopolysaccharide biosynthesis glycosyltransferase
ATGACAAAAACTAATTCTGAAATGCCCATCTTTTTCGCAATCAATGACGCGTATGTCCCCTGTCTGACCGTCGCCTTGCATTCCCTTACCGAACACGCAGCCCCGGCCAACCAATACAAAATCATCGTTTTGCACCAAGGCCTGACGCCCGCCAACCAAGCTAAATTGCAGGCACTGAGCACAGCCAATGTGGCAGTGACGTTGATGGCCATGGACGAGCAATTGGAAAAACAAATTAACGACCAGAGCAACAGTCTGCGCGGGGATTACTTCACTTATACGATTTATTTTCGCTTATTTATCGCCGACATGTTCCCACAATACGATAAGGCACTGTATTTAGACGCCGATATCGTGGTCGAAACTGATCTGGGCGATCTCTTCGCCGAAGACTTGGGCGATAACTTCTTTGCCGGTGTCGCGGATAGTTACATGAACAGTGATGACGTCATGGGGACTTACGCTGAAGAAGCTGTCGGCGTTCCCCGGGAAGACTATGTCAACTCAGGTATGTTGCTGCTGAACTTGACCGCTTTGCGGCGGGAGCAGTTCAGTCAGCATTTCTTATCCCTGCTGAATCAGTACCACTTCGCCAGTTTAGCCCCAGACCAAGACTACATCAACGCCATGGGCCACGGCCGGATCCATTACTTGCCCACTGCCTGGAATGTCCAGGTACGCAATACTGGTGACGCCGCCGCGACGCCGCATCTGGTGCACTATAATCTGTTCAGAAAGCCCTGGCACTACAGCGACGCGCCCCATGCCGACTTTTTCTGGCAAGAGGCCCAGCGTCTGCCGATCTACCCGGACTTTCAAAAGAGCCTGCAAGCCTACACCGCAACGGATCGGCAAACTGATTTAGACAAATTGGCCCACATGCAGCAGCTCGGGCGGGACATTTGCGCCAAACACCCCACCTTCAAAGAAATTCAGGCGCAAACAGGGAGTGTTGCATTATGA
>SRR1151209_02124 lipopolysaccharide biosynthesis glycosyltransferase
ATGAATATTCTTTATTCCGGCGACGCCCGCATCAGCGACGGCGTCCTCATTTCAATTCTGTCATTATTAAAGCACGTGCGCCAGCCGCTGCACATTTATCTGCTGACGGCCGCCATGACCGCTAACGGCCAGCATTATGCGCCGGTGAAAGATACCACCGCCGCATTTTTGAATCGGCTGGCAAGTCAACGCAATCCACAATCCACGGTGAAAAAAATCGATATCACTGCACTGTTTACCGCCGATCCGCCGTTGGCCAATATGGCCACTCGCTTCACCCCGGGCTGCATGCTCCGGCTATATAGCGATCAAGTGCCGGAATTGCCCGATCGGCTGCTGTACCTGGACGCCGACGTGGTCTGCCGGCAAGACCCCACCGACTTTTATGCCCAGGACCTGGGGCAGGCCGAATTCGTCGGCGTCCTGGATCATTATGGCAAATGGTTCTTCCACCACGGTCTGCGGCCTTTTGACTACATTAATTCCGGTGTTTTACTGCTGAACATGCCCCAAATCAGAAAGACTGGTTTGTTCGCCAAAACCCGGGAACGGTGCCGCACCCACAAGATGTTCATGCCGGATCAATCGGCCTTGAACAAGCTGGCTGTCCATAAACGGCTGGCCCCCGCCAAGTATAACGAACAGCACGACATGAAACCCGATACGGTTTTTCAGCACTTCAGCACCCGGCTGTTCTTTTTCCCTTATTTCCATACTCAAACGGTCAAACCGTGGCAGCCCCAAGCGATGCACCAAGTACTGCACGTCCACGCCTACGACGATATTCTCAAAGAATACACCGCCCTGGCGCCGGCCCTGAAAGGAAGTTATTCCCATGACAAAAACTAA
>SRR1151209_02125 1-acyl-sn-glycerol-3-phosphate acyltransferase
ATGATTCAAAGAGTATACGACTTCGATTCCGAAACGCAAGATGTCGTTCAGCCGGCCGGCAAGCGCCGTGCCCCCAACGTGGCCAAAGCTTTGGCCCGTCAATATAGTAAACCAGTGTACACTGCCGCTAAGCTTTTCGGCTATGTACTTTGTCCCGGTGCACTCCATGTACGGGTAGCTAATCCAGAAGTGTTAGCCCCCTATCAGGATCAAGGATATTTTCTTTACGGCAATCATACGCAACCGATGGGGGACGCTTTCTTTCCCATGGTTTTGACCCACGGCCGGCCGGCTCGCACTATCGCCAACGTCGAGAATCTGCAAGTACCGATCCTCGGACCGTATCTGCAAATGGGCGGCGCCCTGGTCGTACCGCCGGAACTGCATGCAATGCCTCAATTTTTGAACCAGGTTACTGCCTGTATTCAGGCGGGCCAACCAGTGACGGTATACCCGGAAGCCCATGTGTGGCCCTATGATACGCATATTCGGCCGTTTACCCGGGCCGCCTTCCATTATCCGGTGGCGTTACAGGTCCCAAGTTTTTCCATGACCACTGCTTATCAGCAGCGCCGCTGGGGCAGCCGGCCGAAAATCACCGTCTACTTGGACGGCCCATTTCTCCCCGACCGCAGTTTAGCCCCCCGGGCCCAGCAAGCGGCACTGATGAACCAGATCCACGCGCGGATGGTTGCCCGGGCTAAGGAATACAGTACCTACGCCTACGTAACCTATCGCAAGCGGGAGGTAATCCAATGA
>SRR1151209_02126 hypothetical protein
ATGACTCAGCGGAATCGATATATCGCAAAAATTGAGGGCTTGGACGGGCATGGCAAACACCGGTCCCAGTGGATGACGTTCTCGAATGATTTGCAAGGCGCCTTAAAGCAGTACACAGAGAATGTCGGCCTTGACGCGGCGACTCAATTTCTGCGCGGCGCACTGATCGTTTACCCCCTTGGCCCTTACACGGACAAATCGGTGCCGCCCATGGGTCTGGGCCGAATCGTGGCCGTCCAGCGCAAAAAACAAGGCTTCCACGCGCGGCCCCGGGCGCAGTTCCTGATGCCGCAACGGTGGCACGGAACAGACGACCAGGACATTCGGGATGCCCTGCGTTATGTGCAGCATGATTATCAGTATTGGACCCGTCAGCAGATTGCCGCGGATCTGGCGGCTTGGCGGCACAAGTACAAGTTGCGCAACGCCTTTATCCATTGGCCGCGCTGGGGAATGCGGCTCGTGACCCAATGGCGGATCTGGCGGGCGCGGCGATATTTGGACTGGCGGGCTGCTCAGCGCCGCTAG
>SRR1151209_02127 serine/threonine protein phosphatase
ATGTCTGAACGTATTGCCCTATTAGCCGATGTCCACGGCAACGCCACCGCTCTGGAGGCCGTGTTGGCAGATGCCAAAGTCCATCAGGCCACCCGTTATTGGTTCCTGGGGGACATGATCATGCCCGGTCCGGGGACAGAAAATCTGTTCCAGCTGCTGGCCGATGTGGACACGGAAGTGATCCTCAACGGTAATTGGGAAGAGGCCTTCTTTGACGCCCTCACCGGCGATATCTATCCCGATGACCCATCGGACGTTTACTTTGTCCGGCTCAGCGAATACTTGGCAGAACACCTGTCGGCAGCCACGATTGCTACCATGAAAAAAAGACCGATCGCCGTCACGCGCCAAGTGGCGTCATTGACATTCGGTCTCACCCATAATTTACCGGATCACGCCGGCGGCCATTCGCTGTATCCCAATCAACCCCAACGCAACTATGATATGCTCTTTGCCAATCAGCACATTGATGTCGCCGTCTTCGGTCATATCCATCAGCAGCTCCTGCGTTACGGCAGCCAAGGCCAACTGATCATCAATCCCGGGGCAGTCGGTCAGGCCTATGACCCGCACGCGGTGCTTTCCACCGACCACCGCGCTCAATATGCTCTGGTGGACGTGGCGGACAACGGTATCAACCAAGTCGATATGCGCCGGGTCCCTTACGACGCCGAGAAAGAACTGCAGTTGGCCAAGGCGACGGATCTGCCTTACTTAGAATTGTATACAAAACTGCGCCGGCACGGGCATACTTTCACCCATGACGATGCGCTGCTGCGGCAAGTCAACGCCGACCATGGTTATCGCCAAGATGTCATCGACTTTGCCCACCGGTTGCATCAGAACTAG
>SRR1151209_02128 GCN5 family acetyltransferase
ATGCAAATTACGCCAGTTACCAAGGATCTGGCAGAAAAAAGTTTGCCGGTAATCACTGCGGCATTCGCCACGGCCGCCCACAGTGACGGCAATGAAGCTGAGCTGGTGGCGAAGCTTCGGCAAAGTAAAACGTATCGGCCGGAATATGATGCCGTGGCAGTCAGTGATGACGGCCGTGTCCTGGGCCACGCCATGCTGAGCCTGGCCCAAGTCGTGGCCGCGGATGGCCAGCAATGGCCAATTTGGGTGTTGGCCCCCGTCGCAGTATTGCCAACGGAACAGAAAAGGGGTCTAGGTACCGCCCTGATCATGTACTTAGAGGCCATGGCGTTTGGCGATGGCATTCGGGCCATTTCAGTGTTGGGCGATCCTGCCTACTATGGCCGCTTCGGCTTCGTCCCCGCCAGCCAGTACCGCATCACCGCCCCGTTCACGGTGGCCGATGAGAACTTCATGGTGCGGGAGCTGCAAGCCGGTGGCTTGGCTCAGGTGCAAGGCGTGTTGCGGTATGATCCGGCGTTTGGTATCAATTAA
>SRR1151209_02129 hypothetical protein
ATGATGAAGAAAATGTTGAAAACTGGTCTGCTATTCCTGCTGGTTGGATTTGTTCTAGCCGGTATTGGCGTGGCCAATGGCGGACTGCAAACCGTTGTCTGGGGCGACGGTCAGCCGCAAGTCCGGACCGCGACCACCAGCAAAACGACCGGTAAAGTGGCCGCCTTCCATAGTATCCAAGCGGACATCACTGATGGCGACGTGCTCATCCGCCCTGGCGACGACTACCAGGTGACGACCAACGGCTTGCCGCGCAAGGATTTCTCGATTCAAGTGCGCCAAGGTAAATTGACGATCACCCAACCCATCACCCACGATCAATACTTTAGTATGCGGGTCTTCGATTTCGAACGGGACCATCAAGTGGTCATTACTGTACCGCACAATACAAAACTCCAAAGCGTGTCCCTGGCCGCCAAAGATGGCGATATCACGCTATCCGAACAGACGATGACTGATTTGGCGATCGACAGCAGCGACGGCGATGTCACGCTGACTACAGCGGTCGTATCTGGCACCACAACGATCAAGGCCCTGGACGGCGATGTGACGGTCAATGATAGCCAGTTGCAAAAAACGGGATTGACCAGCCGCGATGGCGATGTCGTGCTGCGCCAGGTGACACTCACTGGCGGCACAATTGACTTGAGTGACGGCGACTTCACCGCTCACGACAGCATTTTTAACAAGACGGTGCGGGTGAGCAACTCAGATGGCGACAACACGGTTACCGGAGCTGATCAGCAGAAGGGCTACACGGTGCATAGCGCTGACGATGACAATTCTCTTTTCGGCAAGCACCAAGAAGATGGCGGAACGTTGACGCATAATGCGGATGCGGCAGATCATCTTTATCTGAACAGCAGTGACGGCGATAATAGCGTCCGCTAA
>SRR1151209_02130 hypothetical protein
ATGACCGTAGAAGAGTATTTTTCTGAATTAGCCCAGGAGCTGCAGCCCATGCCCGCCGCTGACCGGGACAGCGTCCTGGAGTATTACCACGAATACACCGAGGACGCCCACATCACCAGCGGGGATGCCTTGACGGTGCAGCTGGGTACGCCGAAGCAGTTGGCCGCTCAATTGCTGGCGAATCAATCCATCAAGGAGACCGTCACGGTGAACGAAACCGCACCGACGAAACCCCATTATCGCCAGAACGCCCACAATACATGGCTGATCGTCCTGGCTGTACTCTCCTTGCCCCTATCACTGCCGTTATCGATTGCAGTGGGCGCCATTCTCTTTGCCGGGTTGATCGCCATCGCCGCCGTGGCGTTCGCGGTGCTCATCACCCTGGGGGCATTGGTTCTGGCGGGCATCTGTGTCACCATTGCCGGATTATACATTGGTTTTACACTGATCTTTTCCAATTTATTCGTCGGCATGGCTTACTTAGGCTTCGCTCTGATCGGCATCGGTTTGACCCTGCTCTTGGCGCCTTTCACTTACCAAACCACCTTGTTCTTTGTTCATGCCACCAGCAATTTTTCCCGTTATCTTTATACCAAGGTCACCCGGAACAAACATTTATCGGCTGAAGGAGGCTCGCAATCATGA
>SRR1151209_02131 PadR family transcriptional regulator
GTGAGTATTCAAGTGAGCAGTGAGCTGCTCGACGGTATGGTGCTGGCCTTACTGAAGCGTGAGGACATGTATGGCTACATCATCACCAACCGAATCGCCGAGTCGGTATCGATTTCCGTCTCCACCATGTATCCTGTCCTGCGGCGCCTGACTACCGCTGGTTTGCTGGAAACCTACGACAAACCCTTCCAGGGCCGCAACCGGCGCTATTACCGGATCACCGTCGCCGGACGCATGAAATTGGTTGAGATTTTAAAGGATTGGGAGCAGTACAAAATCAGTCTGGATGAGATCCTGTATCCAAAGAACGAAAAGCACCATACTAGGGAGGGAGTCAAGTGA
>SRR1151209_02132 ADP-ribose pyrophosphatase
GTGCAGCAGTCAAAGAAAGCAGGCAACAAAGTGACGACATATGGTGCATTCGGTGTTATCCGTGATTCCGCTGGCAAGGTACTCCTCGTCCGCCGCCGGGATTACCCGCTTTGGGATTTGCCCGGCGGCACCCAGGAAGCGGGTGAGCTGCCGGAACTCGGCGTGCGGCGAGAGATCAGAGAAGAAACCGGCCTGAATGGGACGATTGATCACCTGGTCGGAACGTATTTCCGATTATTGCACGAAGATGTCCAATCCATTTTTGTGATCAACGTCAGCAGCGATCAACAGCCGATTGCTGCCGGTCCTGAGACGAAAGAATTGGCCTATTTTGCCCCGGATAATCTGCCCCAGAATTTGGTTGCCTTGCGGACTGAACAGATTCAAGATGCGGTGGCAGGCAAAAAGGCCTTACATGTGATTGCGCAAGAGAATCGCTGGGTATATCGCGGAGAACGCATCCTCCGGTGGTTCAAACGGCGTTAA
>SRR1151209_02133 hypothetical protein
ATGGGTGTTTTTAAATGGCGAGAGCGGACTAGACCATTCTTGAATATGCTGTGGGGTGCAAAAACACCAGCAGTTACGACAGTGCGGACGGCGCTGCAAATGACAAACCGGCAACTGCGCGCTGCGTTTGCTGCCCAAGCCAACGTCCGGGGTGAATGGTTGGAAACTGTTTTGGGCCAGCTCCGAGTGCGCTCAGTCCGTTACCTGCAATTAGATGATGGCCAATGGAGTGCTGTACTGACGGCGCAGTACGTGAACACCAGCGATGCTGCGGTTCAGCCCGCTGCTTTTGTCCAAGGCGGCTGGTTGCTGGCTTCCCAGCAGCGGCAGGAATTATCCTTGTTGCGGCCTAACCGGGAACTAGTGGCTGCGGTAGTCACTGCCTATCCCGCACTTAATGCATTATGGGAAAACCTATATCGGCCGATTGCCCCCGGGGAACGCAGCGTCTTCGCCGTGATCGTCCCGCTGCTTGAACAGGTACCAGTCACAGTACATCTGGCAGATCGTTATGGTGATCTGCGTCAGCAAACATATAATAGCGGCCAATTGTTGGCCGGGCCCATGCTTCATAGCATGAGCTGA
>SRR1151209_02134 sugar O-acetyltransferase
ATGGAGACAATGAATGAACGGATGCTGGCGGGTAAATTATACAAGGCGGCGGATGCCGAGATCAGAGCGGCCAGCAAACGGGGGAGTGATTTGGTTTGGGAATTTAATCATATTCCGCCCCAGGAAAGTGCCAAATGCTTGGCGGTGTTGAAGGACTTATTCGCCAGTGTGGGTAAGCATTATTATATTGAGCCGCCGTTTTATGCGGATTACGGCAGCCACACCACGATCGGTGAGGACTTTTATGCCAACACCGGCTGTGTCTTTTTAGACACGGCGCCCATCACCATTGGTCAGCGGGTCTATATGGCCCCGAGTATCAGTCTGTATACCGCCGGCCACCCCATCGATGCGGCGATTCGCGGTGAAGATCTTGAATATGGCAAAGCGATCACGATCGGCAACGACGTCTGGATTGGCGGCGGTACGATTATCAATCCTGGGGTGACCGTGGGCAGTGATGTCGTGATTGGGTCAGGCTCAGTGGTCACTCGGGATATTCCGGATCACGTTGTGGCTGCGGGCAATCCGGCGCGGGTATTGCGTTCAATCACAGAAAAGGATCGCACCGTTTGGCAAGCCCAAAAGGACGAATTCTTGCATTGGCAGAAGCAGACCGGCTGGAAATAA
>SRR1151209_02135 major facilitator superfamily transporter
GTGCGTTTTACTAAAGAAGAAAAAAGCTGGATGATGTATGATTGGTCCAATTCAGCCTATGCGATCGTGATTGTCACGGCAATTCTGCCGATTTACTTTAAGGCGGTGGCTACCGGCGCTGGGGTATCAGCAGCCAATTCCACCGCTTACTGGGGCTATGCTAATTCGTTCAGTACCCTGATTGTGGCGCTGCTCGCGCCGGTCCTGGGTGCGATTGCCGACTACCGGCCCTATAAACAGATGCTGTTCCGCCGCTTCACGGCTTTGGGGATCATCGCCACCGCCCTCCTCCCGTTCGTCCCAGAGCGCTGGTGGAGTCTGCTGCTGGCGATCTTCGTGATTTCTAACATCGGTTATTCCGGCGCGAACATCTTTTATGACGGGTTCCTCACAGACGTGACTGAAGCCGACCGGATGGATCGGGTATCCGCTAACGGCTTTGCCCTGGGTTATCTTGGCGGTGTTATTCCATTCATTGTGGTCATGGTGCTGGAATTGACCAACGGCTTCGGCTTCATGGGGCAAACCGCCATTGTTCGGTTCTCTTTCTTTCTGTCGGCCATCTGGTGGATCGTCTTCGCTCTGCCCATGTGGCGCAATGTCCGCCAGACCTATTACCTAGACCCAGTAGACCACCCCGTGCGGGCTAGTTGGCACCGGGTGCGGGTCACCACCGGCCGAATCATTCGCAATCGGCCGGTCGCCTTGTTTTTACTGAGTTATTTCTTGTATATTGATGGCGTGGACACGATCTTCACCATGGCCACACCGATCGGGGTGGATCTGGGCCTGGGCAGCAGTATGCTGATGGTCGTTTTGCTGCTGGTACAAGTGATCGCCGTACCTTTCTCCATTCTGTACGGCCGCTTGGCCCAGCGCTTCGGCACGAAACCGATCCTGCTGATGGCTTTGGGCTTTTACGCCCTCATCACGCTGTATGCCTTCTTCCTCCACGATCAGATCGGCTTTTGGTTCCTAGCGGTGCTGATTGGCATGAATCAGGGCGGTATCCAGGCCGTCAGCCGCAGCCACTACGCCCGCTTGATCCCGAAGCAGGAAGCCAGCGAATACTTCGGCTTCTATAATATCTTTGGCCAGTTCTCCGCCATCTTTGGGCCGCTGCTGGTCGGCGCCATCACTCAGCTCACCGGCCGCTCGACGATCGGCGCCAGCTCCCTATTCATTTTCTTCCTAATTGGGTTTATTATCTTCCTATTCGTTCCCCAGCAATCTGCCGCTTCTAGAAAGGAGTAA
>SRR1151209_02136 TerC family membrane protein
ATGTATGGTCCCTTCTTTGACCTCAATAACTGGGCCCACGTTATTACGTCCGGTAATGACTGGCTGATCATCCTCTCCCTGATTCTGCTGGAATGTCTGCTGTCCGTAGACAACGCCGTGGTCCTGGCGGCGCAGACTCAGGTGCTTAAAGACGAATCTGAACAGCGCAAATCTCTGCTTTATGGGATTTGGGGCGCGTATTTATTTCGCTTCATCGCCATCGGCTTAGGTACTTACTTAATTCACTTCTGGTTCATTAAGATTCTTGGATCAGCTTACTTAGCCTATTTGTCCTTTCGCTTCTTCTGGGATCGGTATCACCATGCGGGAGATACCGCCACTGAGGGCGAAAGCAAATTGCTCCAGGGGAAACACCACCGGATCAGCCTGTTTTGGCGGGTCGTCATCTCCATTGAATCGATGGATATTGTCTTCTCCATCGATTCGATCTTAGCGTCCCTGGCCGTATCCAGCAATCCCGTCGTCGTTCTGATTGGCGGCATGATCGGGATTCTGTGCATGCGGGGCGTCGCCGAGATCATCATGGCCCTGATGGCCAAGATTCCGGAATTAGAGGTGATGGCCTACGCACTGATCGCGATCATTGCGGTAAAGCTGTTCTTAGGAATTCCGATGATCAATATTGAAATCCCCAATAATGTCTTTGCATTGATCGTCGCCGGAGCAGTCATTGTGACCTTGGTCATCCATTTCGTCCGGCAAGCCCGAGCCGCGGAGAGTAAGCGAGAATGA
>SRR1151209_02137 hydrolase
ATGAAGAAAAGCGAGACCCCCGCTGGGCAGATTTGTCCATTCTGCACACTGCCGCCGTCCCAGGTCGTTTTAGCGAATACGACCTGCTTGGCCTTCTTTGATCGATCGCCGGTAACCCCAGGGCACTTACTGATCATTCCCCGCGCCCATCGCTTGGATTGGTTCGCGCTCACGCCGGCAGAACAGCAGGATATGGCCGATTTGGTGCGGCGCGGCAAAGCGCTGCTGGCCGCCAAGTATCATCCGGCCGGCTACAACATTGGTTTAAACTGCGGCGCTGTGGCCGGGCAAACGGTGTTTCACTGCCACTGCCACCTGATTCCGCGGTATGTCGGCGATACACCGAATCCGCGGGGCGGTGTGCGGGGTGTGATTCCGGTACGCCAGCACGAATAA
>SRR1151209_02138 hypothetical protein
TTGCGCAATAACTGGTATTTAGAAAACGAGTTGGCCTTTCTTAAAACCGGCGCGGCGGGTGAGCCGTTCATTTATTCCGCTGACGCTGGTCGGGCCGGGTATGCGCTGGAGCGGGAGTACGCCGAAGCCGCGGCGCACGTCCTTGTGGCGGCGGCGCCCAAACCCGTCTATGAGTTTGCTGGTCCCGCTCGGACGTTCCGGGATTTAGCCGAGGCGATTCCTGGGGAGTTCCCCATCGAAGCGGTGAGTGACGAGGCCTTTACCCAGCATTTGATCGCCCAGGGGGCTGATCCGCGGCTGGCGCAATTCCAAACGGCCGCCCAGGCGATGATTCGTCAGGGCGTGCTGGCTGAAGATACGACAGATTTGCCGGATATTCTGGGCCGGCCGCTGACGCCGCTGGCGGATGCGATTCAAGAAGTTTTGCAGAAATAA
>SRR1151209_02139 hypothetical protein
ATGACGACTTATGCAATTACCAGTGTCACCGGCCGTTTTGGCCGTGTGGCCGTCAAAGAATTAGCCCAACTGGTACCGGCGACAGATATTGTGGCGCTGGCGCGAAATACTGAAAAAGCGGCAGTCCTGGTGCCCGCCGGCGTGACTGTCCGGGCGGGCGATTATACCCAACCGGCAGAACTGGTGCAGTCGTTGCAGGGAGTGGATAAGCTGCTTTTCGTGTCCTCGATCCCCAGTCGGGTGATGCCCCGGCCGCAACAGCATCAAAATGTCATTGATGCTGCCAAACAAGCCGGTGTCTCTTTCATTGCCTATACCAGTTTCCCCACGCTGATACGGCCACCGTGCCGCTGGCCCGGGATCACCAGCTCACTGAACAGGCGATTCAAGCCGCTGGGCTGGCCCACGCCTTTTTGCGCAATAACTGGTATTTAG
>SRR1151209_02140 hypothetical protein
ATGCAGAAGAAACAAACTGATCAGGAAGAAAAAAAGAAGACTCCAACTCCCCTAGAGACGGTTATTTTTACCGCCATTGTTCTAGTGGGCATGTTGCTTACAGCGGGGATTGCGAAATTACTGAGACTGGATCAGGACACCACGTTAATTATTGAAATTATTGCGTTCGTCGTGGTAGTCTTGGGCGGTAATTATCTCAGCAAGATACTGGCCAAAAAGCTCGATTAA
>SRR1151209_02141 hypothetical protein
TTGACTGAAGAAAATAAACAGTTTCGGACCCTCGTTGATCAAGTGACTGTTGTTTCGCCAGCGGACGTTGCGCAAACCAAAACGACGATTCAACGGACACTGGCTAGTTTACCGGCGAGGCCTGTTCAGCGGCACCTGAGGCCCTGGCATATCGGGGTAGCCAGCGCCCTGATCGCGCTAGTCTTGCTCACCATCGGCGGAATCGTTAATCCAACGATGAACCGGGCCTTGGCCCAGGCACCCATAGTTGGCCAGTTCTTTGCCCGCTTTTCTGACGGCGATGCGCTGAGTGTTGTGGTGCAAAATAACGGCCGCAGCGAACGGGTGCATGGACAGGCCACGGTGAACGGCCTGACGTTGACACTGGAGTCGGCCTATGTGGAAGGCCAAACTGTTGGTATCGAGGGTGTCGCTACCGGTGTACCCGCAAAAAAGGACGATTGGTTTGATGTTAAGTTGGGAACCCAAGCACCAGCCAGTTTTGAAACAAAATCGACAGAAGTGAGAAAGTTAGGGAAGAATCGATATTATTTTGCACTCTTTGGCACCTTAAGTGTTGTGGATAGCCGGCGAATAGTTTATTTGCCACTGACCATTGACCGGTTTGCTGGTTATCGGGGGCCTTGGCAATTCAGTTTCAAACTGACGCCAAGTCGAAGCACTACGATCGCGCTCAGTGGTCAGGCACAGTTGCCGAATCAGACGCAATTGACACTCACCCAGTACACCCGCTATTCTGGCGGGACAGGATTGCTGACGCTGCAGCAATCAACCCCGGATGGCCAATCAGAAATCAGTATTCGGTCCATTAAACCAGTGCCGACTGGGGCAGAACTGCTTTTGAACGCTAATCCGCTGTATCTTGAGGGTACAAAATATGGGGAGCAAAAGACAGTGGTGGGGTATCGTATCAAACAATACCCCGCAGGCATCAAAAATCTTTATATCACTGGTGATGTCGACGGCCGGGCGTATGCTGTCACGATACCGGTGAAATAG
>SRR1151209_02142 ECF RNA polymerase sigma factor SigE
GTGGACATTGTCACCCAACATCGGCTCATTCGGCAGGCCCAAAAGGGAAATGCCGCCGCTTTCGCCACCCTCATGGTGGACGCTGCTGACTACCTGACCCGCACTGCCTATCTCTATTTAGCGGACAGCCACGATGTCCAAGACGCCATCAGTGCGGCTACCTTAGCGGCTTTTGAAGCGTTGCCGCAACTGAAACAGCCCCGGTATTTTCGCACCTGGGTGACCCGCATCTTGATTCGCCAATGCTATCGCCGCTACCGGATCAAAGCCCATGAAGTGTTTGCGCAAGAGGCTATGCCTGAACCTCCGGCCGATCCGAATCGGCTGACGTCTGATGAGAAAATAGATTTACTAGCTGGTTTACGGGGAATCAATCAGGCCCATGCGCTGACTTTGATGATGCATTACTACCACGGCTTATCCGTGAAAGAAATCAGCACACTGCAAGAAATTCCGGAGAACACCGTCAAATCAAATTTGCGCCGAGGTCGTCAAGCTTTGCGCGATTGGTTAGGAGAGGATTATCTTGACTGA
>SRR1151209_02143 major facilitator superfamily transporter
ATGTCATCCCGTCCCCGTCATCCCGCCCGTACCATACTGCTGGGCGTGCTCAGTGCCTTTGGGCCGCTGTCCATGGATATGTACCTGCCCGCTTTACCAGAAGTTGCCAGCCAGCTGCACACTACCAGCGCCGCTGGCCAGCTCACGATCACCAGCTGTATTTTTGGTCTCGCCGCCGGGCAGATCATTGTCGGCCCGTTAAGCGATCGGTGGGGCAGAAAACTGCCGCTTCTGGCCGGCGTTGGGCTGTTCACCTTGACCAGTTTCCTGATTCCCTTCACCACCAGTATCTGGCCGCTGATCATTCTGCGGCTGTTCCAAGGAATCGGCGGCTCAGCGGGCCAAGTACTGTCCCGGGCCGTGGCCCGAGACCTGTTCAGCGGCCCGCAGCTGGGACGGTTCTTGGGTATTTTGATGTCGATCAATGGGATTTTCCCGATCATCGCCCCGCTGCTTGGCGGTGCTGTCCTCAGTTTTACCGACTGGCGCGGGGTGTTTGTCATCCTCGGCGCGATCGGTCTGATCCTCTTTCTGTGGACCTGGTGGGGGCTGCCCGAAACGTTGCCTGCTGATCGGCGCACCGCGACCGGGTTCGCCGCTTTTACCCAAATGTCTGAACTATTTAAAGACCGGCCGTTTATGGGCTACATGCTCAGTCAGGGCTTCGTTTATGGGGCATTATATGTTTATATCTCCGGTTCCGCTTTTGCCTTTGAAACGGTCTTCCATTTTTCGCCCCAAGTATTCAGTATTATTTACGCCATTAACGGGGCCGGGATGATCGTCGCGACGCAGTTTGCGGCCCGCGGACTGAATGATCAAAACGGCCGCAAAATATTAGGCGGCAGCATTCTCACCGCCGCCATCGCCAGTACCCTGCTCTTATTCGGCATCAGCCAGTGGCCCAGCGGGTTGCTGTTAGCTGGCGGCTTGGTCATTATTATTTCTCTTGTTGGGGCCGTGAACACCACCGCCACGACCCTGGCCCTGGGCAATGAAGCCCAACACGCTGGTGCAGCCAGCGCGCTGCTGGGCTTGGGCATGAATGCCATCGGCGGCCTGATGTCTCCCGTCGTGGGTCTGTTCGGCACCCGCAGCAGTTTGCCGATGGTCGCGCTGATCATGGTGTGCGAGTGGATCGCGTTCCTGCTGCTGGTGGGGTTGACGCGTAAAACGGCGCATTGA
>SRR1151209_02144 ATPase component of ABC transporter with duplicated ATPase domains
ATGGGCACAATTCAAATTCAACATCTGACCTTCGGCTATCCAGACCAGGAAACGCCGTTACTGAGTGATCTATCCGTGGCCTTCGATGCCAGCTGGCATCTTGGCCTAGTCGGGCGCAACGGCCGAGGTAAAACAACGCTGCTGCACCTGCTGATGGGCGATTTGCAGCCCAGCCAGGGGACGATTACCACTGATCTGGCATTCCATTATTTTCCCCAACCCTTGCCGGCTCAGGCAGACACCATGACCGTCAGCGCCGTTTTACTGGCGATTAGTGCCGCCGAGCCCTGGCAGTGGCAGGTGGAAATGCAGGATTTAGGTCTGCCGCTGACGATTCTGGACCAGCCGTTTGGCACCCTTTCCGGTGGTGAACAGACCAAAGTGCTGCTGGCTGAGCTGTTCAGTGCACCAGCGGGTTTTGCGCTGATCGACGAACCAACGAATCACTTGGACACCCAGGGCCGAGCCCAGACCGCCCGGTATTTGCGCCAGAAACAAGGTTTTATCGTCGTCAGCCATGACCCGGGTTTTCTCAACGACACCACGGATCACACGCTGGCGATCGAGAAGAAGCAGGTGGCGTTGTACCAGGGCAACTATGGTGTCTGGCACCGGGAGAAGACGGCCGCAGATGAGCGGGAAGCCGCTGAGCAGGGCCAACTGAAGAAAGAAATTAAGCGGCTCACCGTGGCCGAGCGCCAACGGGAAAGTTGGTCGAATAAGACGGAAGCCAAAGTGTCCGCCTCAGCGGACCGCGGGTTTGTCAGCCATCGGGCGGCGAAGATGATGCGCAAGGCGAAGAATCTGGAGCGGCGCAATACCACCGCCATCGCGGACAAAGAAGCACTATTGAAAAACGTGGATGAGGTTGAACCGCTCAGGGTACCGTACACCCCGTGGCGGGAACCAGTTGTTCTGCGGGCCAATGCGGTGACAGTGCGCTTGGCCGAGCGGCAGCTGTTTCAGCCCGTCAGCTTTACTCTGAATCGGGGCGACCGTTTGCAAATCCAGGGACCCAACGGCATTGGCAAGTCCAGCCTGATTCACGCCTTGCTGGGACAGTTGCCAACCAGTGCTGTCCAGGGGGCGTTTCAAATCCCCCAAGGGCTCAGCTTGGCCTATTTGCCCCAGACCTTTGCCGATCCAGACAAACTTTTAGAGGCTGTTGGGCCGGATGCTTTGAAGGACCAAACGATTCTGTACTGGCTGCATAAAATGGGGATGCCGCGGCCGCGGTTTCTGGTTCCCGTCAGTCATTGGAGCATGGGCGAAAAGAAAAAGCTGCTACTCGCTGCTGCACTGCAAAAACCGGGCAATGTCCTAATTTGGGATGAGCCGACCAACTATTTGGACGTGGATACCCGCAACCAGCTGCTGGCTGGCGTCCAGAAAAGCAACGCCACGATGATCATCATCGATCACGACCGGGAGTTTACGGACACCGTCTGTAACCGCCGGCTGGCCTTGGTCCGATGA
>SRR1151209_02145 multidrug ABC transporter ATP-binding and permease protein
GTGTTACATTACTTAACCGACGACCGCAAGCACTTGGTGTATAACATCGTGCTGACCCTCGTCAACGCCTTCACCATGACCTTCTACGCTTACGTGCTGCAATGGGTCATGTATATTGCCACTGGCAAGGTGAAGATGAGCTTTTTCAATGCAATTTTGCTGCTGCTGGGCTATGTCGTTGTGTCTAACGTCATTGATTCCCTGTGGCAGTACGATAGCTTGGCTTGGCCGACGCGGATTTCACAACGGATCCGCAATGACGTCTTTGCCACGATCGATGATTTTGATCCGTCCACCTTCAACCGCACCACGACCGGGAGCTACGTGGCGAAGCTGACCAAACAGGTGGATCTGGTCCAGCAAAGTTATTTCCAGATTATTTTGTTTCTAGCCTATAACGCGGCCCAGTTGGTCATTGCGACGATCGGCACGCTGCTGATTAATCCACTGATCACGGGCTTGATCGTACTGCTGAGTATTCCGTCGGTGATCCTGCCGTTTTTGACCAAGAAGTATTTGGAAAATGCCAAGGAAGGCGTCGTGGACCAGCTGGACCGTTACACCAGCCACATCACTGATTTTCTGCAAGGGTTCACGACAGTGCAATACGCGCTGTCCCAGCCGATTTTCTTCCGTCGCCACCAGACGGCGAACCAGGAATTGACGGATGCCAGTACCCGGGATGTGAAAGTACAGAAAATTATTGGCGGAGTCTCCAATGCCTTCTCCGATGTGCTGTACTTCGGCACATGGCTGCTGGGCGCGTGGTTCGTGCAGCAAGGGCAGATGGACCTGGGCCAGCTCGTGGCCTTCTCGCAATTGTCCGCGATGCTGAACTGGCCCATGGCCAGCATGATCCGCTACCTGACGGAACTCTATGGCGGGCGCAAAGCGGCCAGCGAGTTGCAGACGGTTCTGCAGCAGGGTCAGCAGGCCGAGGCTAAGATGGCCGATCTGACGCCGACAGATCCGTTTATCGTCGGTCGGCACTTGGCCTTTCAAATTAACGATCAGCCGATTCTGAAGGATGTTTCCTTCCGGCTGGGGGCCAAGGAAAAGGTCCTGCTGGTGGGCGCCAGCGGTTCTGGCAAATCGACGCTGGTGCGGACACTGCTCAACGAAGTCCACGGCTATTCCGGTCAGATGACCATTGACGGGCAGGATTTGAAGCAGATCAACCGGTTGGCGGTCTACCGCACGATCGGCATCATGGAGCAGCACGGTTATATCTTCCAAGGCACGGTCCGCGAAAACGTCAGTCTGTTTGATTCCCAATATCCGGATCAGCAAATTGCCGCGGCCCTGGATCGGGCGGGGCTGGCAAATTGGTTGACGACCCACGACTTGGACACCCCGCTGTCTGATCGCGGTCCGGAATTATCCGGCGGCGAAAAGCAGCGGCTGGCGCTGGCCCGGCTGTACCTGCGCGGCTATCGCTACTTCATCTTTGATGAATTGACCACTGGCTTGGATCCCAACATTGCTACGACGCTGGAACACGATCTGTTCCAGCTCCCGCAAGGATTTCTGTTGATTACTCACCGGTACAACGATGAGATCTTCCGGGCAGCAGACCGCATCCTGGTCATGAGCCACGGCCAGCTGGTCGCCCAAGGTAATTTCCGTTCACCGGCCGTGCAACGGGAACTGCGCCGCCTGCAGCTGGTGGCTGACCCGGGGACCGGACAATCGGCCCCGCTGGTGCTGGCCCCGGCGGAATAA
>SRR1151209_02146 diguanylate phosphodiesterase
ATGATACAGGGGGCTTGGATCTTATCGATTGTTTTTCTTGGTCTGGCTGGTATCGGCCTGATCGTGCTTGTACATAATCGACGGCAGCCGGTACCGACCAGACAGCCGTGTACCAATCAGTGGCGCTATTTTGTTCAGCCGCAGGTGAATGATGCCAGCCGGGTCGTCGGCTATGAGTGTTTGCTGCGCAAAAAGCAGGCTGACGGCACCTGGTCGGTACCCCAGGAGGACAACAACTTGACGTTGGGGCAGCTCCGGCAGCTGCTGGCGCCCACGTTCAGTCAATTACCGGAAACGCCCATTTCACTGGCAGTGAATTTGACTTATGAGCAAATCATGGGGCATGAGTTTGCCAATTTTGTGCATTGGACGATGCATCAGATCGCACCGCTGTATTTGACGGTGGAATACCGGTCTGACCAAGTCCCCGGCAGGCTCCAGCAATATCATTTCCTGCAAAACATTCGCGCGGCTCAGGATTTCGGGGCTAAGTTTGCCGTGGACAATGTGGGTTCCGATTTGCAGGCCCTGAAGCATATCGAATGGCTCCTGCCGGTGGTCGATGTGTTGAAATGTTCCATGGCGGCTTTTCGCAAGGATGATCCGTCGATTTGGCTGCACCTCAATCTGGGGTTTTGGAATCAGTTGGCTAAGGAACGGCAAATTAATTTGGTGTTAACCGGCGTGGAAACTGAAGAAGATGCAGCGTTAGCCCGGCAGCTCAAAATCCAATTCTGCCAGGGCAATCTGGTGGGTGAACCCGTGGAAATGCCAGCGGTGGTCCCGCCAACGACCCAGACGGCCTTGCAGCGGCCGCGGGATAATCGGCATGTGGAACACATTGAATGA
>SRR1151209_02147 diguanylate cyclase
ATGAAACCGCAACGGCTGAATTTAAAAACAGACTTGTACTTGCTGGGCTTTTTGGCGCTGTTCGCAGTGACGGCACTCTTCATGGGGCTCACCGCGACCCACATTTTGCTCAACACTATCTATCTGGGGATTGCCCTGCTGCTGGTGGCATTGACCTATTTTCTTGGCTTGATGTTTGGGCTGGTGGCGAATATGGTCTTTATTTTTGGGCAAGGTACGATTATGGTATACCAAAACGTGTTGGCGGATCAGACCGTTTCTCTGGTGATGATTTTTTGGCTGCTGATGCCCTTGGCCTTGTCGGTAGTTTTCCACGGCGTGGCCCAGACGACACTGCAGCTGCAGACAGAAATCACCCACTTGGCTGAAAGCCAGGATCAGTACAGTGCCTTCGACGAAGCCACCCATTTGCGAACCACGGTAGCCTATTACGAAGACGCGGGCGTGTTCTTGGAAACAAGCCGGCGCTTTTCGATTCCCGTCAGTACCATTGCCATTCGGCTGCGGTATTTGGGGGAGCTGCGTCAATTATTGTCGCGAGCGCAATTTGCGGCGCTGATTCGCACGGCGTCCCGGACGTTGGACCATGCGACGCGGGACAACGACGTGGTGTATTACGTGAATCAGACCACGCCGACTTGGGCGGTGCTGCTCTATACCGATAAGGCAGGGGCACAGATTGCTGCTAACCGGATACGCACGTCTTTTGCCGCTCAGCTCGCGCAGCAGCCGGACATGCCGGACGTGGATGTCAGTTTGATCATCGGGATTGCCAGCAGCGCCCCAGCGGCGGTAAAAACCCCGGCGGAGCTGATGCACGCCGCACTCAAAGAAACCGAATATGACGTTTGA
>SRR1151209_02148 cellulose synthase
GTGAACAAGTATTTCACAAACAGGCACGCTGGTATAAAACGAAGCGCTTTGAGTAAAGGAATTACCGCCTGGGTGCTGGGGTGGCTGTTGGTGTTAGCCTTTGGGATCACGGCGGTGCACGCGGCTGATCTCACCTATACCCAGCCCCTGCAAAACGTGACCCAGTCCTTGACGGGGCAGGGGATCACCAGCGATACGTATTTTGTGAAAGAAGACTACTGGGATGTGCAGCAGGCTAAGCTGATTTTTCATTATCAGGTGAGTCAGTTGGCGGACCAGCGGACATCAGACATCACGGTGGTGCTAAATGGCGTCAAGTTTGCTTCTTTTCGGCCGAAAAATGCGGCGGGGCTGCAGACGGAAACGATCCAGATTCCGTTGCGGCTGCTGGCCGGGAGCAATCACCTGCAGTTTATGGGCCAGGACCTGACGACCGCTGCCGGTACCGCTCAGCGGGTGCAGACGCCTGCCAATTGGCTGACAGTTTACCCGGAATCCAACGTGAATTTTGTTTATGCGCTGAAGCCGCCGGAACCGGCAATCCGTTCGTTTTACGCCCATTTCAGCGGGATGGACACGATCAGTAACGGCCTCAGCGGTATTGCGGTGCCCCAGAGCCCGCGCAATGCAGAACTCACGGCGGCGACTTACGTCCTGGCGGGGTATTCCCGGGTGATGACCAATGAACAGGATCAGGTACCGATTGCCCCCTTTGGTACCGCGGATTTGGCGAAGCGGGTCTATCAGGTCGTGATTGCCCGGGCAGATCGGCTGCCGGCCAGTTTGCGCGGCAGTATCAGTCAGACTGAGTTAGCCAAGGGCGCAGTGATCCGGACGGTTTACCGGGGCGGCACGTATTATTTGGTACTTACCGCGCGCACCGATGCGCTGCTGATCAAGGCGGCCCGCTTTGCGGCCAACCAGGAATTGATGACCCAGACCCGGGCCGCGGAAAAAACGATCACTGCTGCAACGCCCACTTACAGCAGTTCGCTGCAGGATAACAACGGCCATTACCAGTTGACTGCGGCGGGTACCCAGCTGACCGGCGCCGGTCGGCAAAGTGCCGCCTATTTTGTGCGCCTGCCCATGGATCAAACCAACGCCGCGGGCAGCCAATTCCGGCTGACGTTCCGCTACGCCCAGAACTTGGACTTTGCCCGCTCGCTGGTGACGGTCTACATCAACGACACGCCCATCGGCAGCCAGCATTTGCGGCGGACGGCGGCCAACCAAGCAACGCTGGCCCTGAATATCCCCGCCAAGCTGGCTGTGGGCGACGCGATCACGGTGCGGGTCGCCTTTGATCTGGCCCTGGCCGGCAGCGGCAGCCAAGACAATGACCAAACCCCCTGGGCCTACGTCGCCCCCCAGTCTGAGTTATTTGTCCGGACCAAACCGGTGACGGATCAGTTGTTTTCTAACTATCCGAGTCTGTTTCTGAAAAACAACCGGTTCAATCAGATCGCCATCGTCCGGCCCCGGACCATGACCCCCAGTGACTTTGCTACTTTGACCAATATTGTGAATTTGCTGGGTAATTTCGCCAAGAGCAACACTGGTGAAGTGGTCTATTATACAGGTCAGCCGGCCGCCGCAGTTTTGGCAAACCACAACGTCATCGCCTTCGGGACACCCCGGGCTAATTCCTATATCCATGCCTTGCAGCCTCATCTGTATTTTCAGTTCAACAAGACAGAAACCGGCTTTGTCTCCAATGAAAAGCTGAGTATCGAAGCGGCGTACGGGCGTACTCTAGGGACTGCCCAATTGCTGCGTTCGCCGGTGAATAAAAATCATGTGGTGCTGGTGGTCACCGGCGGAACGCCCCAAGCGGCGTATCTTGGTTCGACGCAAATCAATTTTCAGAAGAATATTAGCCAACATGCCGGTGATTTGATCGCGGTGGACAGCGATAACCAGCTCTATAATTACCGGTTCAAAAAGACAGCCAGTCCAACAGCCCCCAAGTCCCCAGTGAAACGGCTGCTCAAGCGGTCCAGTCTGGTGATTTACTTGACTGTGGCGGCGGTGATCTTCATCGTTTTGGCAGTGCTGGTTGTCCTGCTGCTGCGCAAATACGGCCGTCAATCAGGGAAAGGGCGTGAAGAATAG
>SRR1151209_02149 glycosyltransferase
ATGAGTGTGTTAGATTGGTGTTTGCTGGTGGCGATCACGACAATTTGGCTGATTCTGGTGGTCAATGTCGTGCTGGTCATTGCCGGCTACTTAGAATATCTGCAGCAAGTGAAGCGGCCGGTACCGGCGCTGCCCCAGGTACCGCCGTTTGTCTCCGTCATGGTACCGGCCCATAACGAGGGCATTGTGATTGTAAAAACCGTGGAGGCTTTGCTGCGTTTCGACTACCCCCAGGACCGCTATGAGATCATCGTCATCAACGACAACTCCGATGATGATTCCGCGGTGCTGCTGGCCGCACTGCAGCGGCAGCACCCGGATCGCCAGCTGACCATCGTGAACACCGATGCGGCCAATGGCGGCCGGGGTAAGAGCAATGCCCTGAATATTGGGCTGGCTGCGGCCCAGGGCGAAGTCTTGGCGATCTATGATGCGGACAATACACCGGAAGCCGGTGCGCTGCGGATTCTGGTCAGCGAACTCATGGCCGATGACAGTCTGGGCGCGGTGATCGGTAAATTCCGCACGCGCAATCGTCATGCGACCCTTTTGACCCGGTTCATCAATATCGAGACCCTCTCGTTTCAATGGATGGCCCAGGCTGGCCGCCAGCATTTGTTCGGATTGTGTACTATTCCGGGAACCAATTACGTCATTCGGCGGGAATTGATCGATGCCATCGGCGGCTGGGACGTGCAGGCCCTGGCGGAGGATACCGAAATCAGCTTCCATGTGTATCTGCACCATTTGCGGATTTTATTTCAACCCAAGGCCGTTACCTGGGAACAGGAACCCCAGACGCTGCCGGTGTGGTTTCACCAGCGGACCCGCTGGGTGAAGGGCAATATCTATGTTATTTTGAAAAATCTGCCGCTGCTGGCCAAGCCCAGTGCCCGGATCATTCATTTTGATCTGCTGTATTATCTGGCCATTTATTTTCTGCTGATGGCGTCGCTGGTGTTGTCCGATATCGTCTTCGTGTTTTCCGTCGCTGGGGTGGTGCACTCGCATCTTCAGGGATTTTCCAACACCTTGTGGCTGCTAGCCATCATTTTGTTTGTGGTGAGTACGTACACGACGATCACGACGGAAAAAGGCGAACGCAATTTCAATAATGTTTGGATCATTATCTTAATGTATGTCACGTACAGCCAGATGTGGCTGGCCGTGGCCGTTTACGGGATGGGAGAATATATTCGTGAACAAGTATTTCACAAACAGGCACGCTGGTATAAAACGAAGCGCTTTGAGTAA
>SRR1151209_02150 hypothetical protein
ATGAACCGGTGGCTGATCGTGATTTTTGCCAGTTTGGCGGGGCTGATCGGTTTCGCCAACCCGGTCCAGGCAGCGGCCCCGGAGCGGGTCCTGCTGGTTTACGATAGTGAAAATATCCAAGCGGATGGGCAGTACCAAATCGACAGTTTGAGCCGCATACTAGCCAGTCTGCATATTGTTGTTCAACGGGAGAATATGAGCGCCTATCGATCGGGCACACTGACCGATCAGCGGTTCAGCGGCGTGATCACCATGGTGAATTGGCACCAAAGCCGCTTGACCAATGCCCAATTTCTTCGGGACCGGACGGCTTTTACCGGTAAAAAACTGCACATTGGCCAAAATCTGACGGCAGCGGAACAGGCGGCTTTGGGGGCGGGACAAATACTGACCCACCAACAATACACCTTACAGGATACGGCCAGCGGGGCACGCCAGTTACTGCCGTTCATGAGTGATCAATGGTCTTTATTTCCGGCAACAGGAGAGCGGATCGGCACGCTTCAGCAGCAAGGCACCGACCGGCAGTATGCTTTCGGGACGATTCGCGGCAATCAGGCCTATTTGCCGACCTACAGTGCCAGCGGGCTGACCAATGTGCTGAGTACGCGGTTGCTGGCGCAGTTCTTTGCCGGCCGCGCAGCCGAGCAGAATCCAGTACTGGTCCTGACGGGGGTGACCCCTGTCAGCAATCTCCCCTTACTGCGCCGGACCACTGCGTTTCTGCGTCAGCAGGGGATTCCCTTTACAGTCAGTGCCACGATGACGGCATTGAATCCAGAGTTGCCGGAACATAGTGCCTACCTGCGGGCACTGGCTCAGGTGCAGCTGGACGGCGGGGTGATTTTCTGGCAGGTACCAGAGGTGTACGATCTTACGGCCCAGACCGCCGCCATCCTGCGCCAGCAGTTCAATGCTCAGCTGGGCGAGGCCATTAAAGAAATGGTTTATCCGGTGGGTATCAGTGCGCCGGGGTACTGGCAATTTGACCGGACCTTCCGCCAGTCCTTGACTCCGGCAGACCAGACCGTGCTGCTGCCGGATCCGCGGAATTATGACTTGCGCCGGTACGCGCCGACCACGACGGCTGCGCCGCTGCCGCAGGCTCTCGCCGCGCTGGCCTGGGCGGAGGAAAACACGATGACCGGGGTCGAGGCGCTGCGGTTTGCGGCCCCCACGGCCCTGACCATTGCCCTGCCAACGACGACTAAGAATTTCCAGGCCCTGCGCCGGCAGGTCCGGCGCTGGCCCCAGCAGACCTGGCGGGCGCTGGGGGAAGACCCGGTGGCCCGGCAGCTGCAGGGTGCTCGCCATACGGTGGCAATCACCGCCGGCCAGTACACCGTGGACGGTCAAGAGGCGGTGCTCGGTCAGCGGGCTGTGCCCCATGCCCAGGCGAAACGGACAGCCACGGCTGCGTCCCAGGTCAATGCGTTTACCCGCTGGCAGGGCACGGTCTTATTGATTTTTATTATTATCGCGTTGGCGATCCTAACGGCCTTTCTGCTCTACGGTCGGCGGATTTACCGCAATCAGTTTCAGCGAAAGGGGCCTAAACCATGA
>SRR1151209_02151 membrane protein
ATGACCCAATTCAAAAATAAAATTAAACAATTCGGCCGTATGGTTCAGCAATGGTGCTCACCGGCTCTTTTTGCCGTGTTGGCGGCCGCCGTCATCGTCGGGCTCTTATTATTTGTCCCGCCGCTGAACGGGTACGCGGACAATGGCGATTTTTACCGGATGATGGATGCCGTCGGGCTGTACCATCGGCTGGGCCAGCCATACCGCATAGTGGCCTACATTAATCCGACTTATGGCATTCGCCAATACTTTAACGAAAATACCGCCGCGCTGTTTTCTTCCCAACCGCTGTTCATTCGTCCGGCGATTTGGTTGAATCAGCTGGTTTTCAACCGCTTAGTGTTTGATATTCGCTTCCAAGGGATCATTTATTATGTTCTTTTTTTGGGCGCTTTGTATCTTGTGGTGCGGGCGGTGACCCGGGGCCGCGGTCTGCGTCAGTACGTGTTAGCCGCCGTCTGTGTCTTTGTTTTCGCCGACAGCAGTTATACCCTCTACTTCAATTCTCTGTTTGGCGAAGCAGCCATGGCAGTCACCGGCATGGCCGCCGTGGCGGCGTTATTATTGCTGGCTCGCCGGGAAATTCGCCCAGCGTGGCGGCGCTGGCTGCTGCTGGCGATTTTTCTGTTTAGCGCCGGCCTGTTGATCACGGTGAAACAGCAAAATGCCCCGCTGGCTTTAAGTTATATGGTCATGGCGCTGGGCCTGCTGCCGCTGCTGCCGCGCCGCAAAAAACTGTTAGCCGCCGGAGTGCTGGCCGCGCTGCTGATTACTGGCGGGATGACTTACAAATTGATCACGCCGGAGTTTCAAAACATCAATCGATGTCAGACAATGACCCGGGGTATGTTGTTAATGGATAAAAATCCGGGTAAAACGCTGAAAGAGGGAAAGATCAATCCCCAGTTTGCGCTGCTGCGCCAGTCTGTTTATTACCAGAGTTATCAGCCGGTGAACACTCGGGGGACCGTGGTCCAACGGGATTTTGTCCAGCGGTTTGATTTCGTCTGGGTGCTGCGCTTCTATCTCACCCATCTGCCCGCGTTTGGCCGGATCCTGGATTTGGCAGCCAAGGATGGGCAGCTGACCCAGGTCAAAGCAGTGAGCAATTACTCAGCCGCCAGCGGCCGGACCAAGCAGGCGCAAACCCATTATTTCACGGGATTCAGCAGCTTTATGGGTACGTTCTTTCCAGCAAAGTTTGCTTTTTATTGCTTATTTGTGGCGGTTATGATGGGATTATACGCCGGCGGGGCATATTTGGGCTTTCGCCGCCACCAGGCCTGGCCGATTATGAAATTGGCGGTTGTGACGGGGCTGGGGTCGATCATTATCGGGGTGATGGTGATCTCGGTGGTGGGCGATGGCGACGCGGATCTGGCGAAACATTTGTTTATGGTCGCGCAGAGTACCGATTGGCTGCTGATCCTGCTGCTCAGTGACGTAACCAATCAAACCCTGTTCCGGGAACCGGAGACGGCGGTATGA
>SRR1151209_02152 hypothetical protein
TTGATTATCGGCGGCGGGATTTTATTAGCGGGTTGTACCCAACAGGCGCAATCGGCCAACACGACTATTGATGCGCCTAAGGTGGCGCTGGTGGCGCCGCAGAAGGACACCGATTTTGCGGCGGCCCGCCAAGCTCTGACGCAGTTTTTGACCAGACAAATGGTTCAACCGGATGGTATTTATACTAACTTTTTGGATAGCCAGGGCACCGGCGATACCGCGACGGGTCATGAATATTTAAGCGAATCCACCGGTCTGTGGCTCCAGCATCTGGTGCTGACGAAACAGCCGGCGGCGTTCAAGACCTTTTATCAACGCAGCAAGACGACGCTGTGGCAAGGGCAGCAGTTTACCTACCGCTATGATCCCGCCCGCAATTATCGTTATCCGGTGAACGCCGGGGTGGATGATTTGCGCATCGTGAATGCAGTGGGGCGGATCACCCGCCAGACCAAGCAATCCGCTTGGCAGCATACATATACGAAGCTGGCCCGGACAGTCTTGGCTAATACTGTGCCCCAGGGCCGGGTCGTGGACTACGTCGACGCCCAGACCCATGAACGGGCCCAGCAAACTACGCTGTGTTACGTGGATCTGGCCACGCTGCAGCCGCTGCTGCCAACGCGACAGTACGCCCAGGCCCTGGCTTTAGTCCAGACGGGCCGGTTGACCGGGTACTTGCCGCTGTATGCCACGCGCTATGATTTTCAGAAGCACGCCTATACTGGGACAGACAGCATTAATATTGTTGAATCACTGCTCACCGCGGTGCATTTGGCCGAAGTGGAGAAAGTGCCGGCGGCGACGGTGAATTGGGTGAAGGATCAGGTGCAAAACGATACGCTGTATAACCGCTGGGGGGCCGATGGGACGCCCCAGACCACCGACCGGTCCGCGGCCGGTTACGCGCTGGCGGCCCAACTCGGCTTGTTTACCGGCGACCGGGCTTTGGCCAAATTGGCCCTGCAGCGGGCGCTGGCCTTTCAAATCACCGCGGCCGGCGCCCCGCTCACCGGGGCCCTGGGCGATCTGCCCAGCCAGCAAGTTTATTCCTTCGATAATCTCACCACCCTAGTGACCCTAGATATGTACTTAAACGGAGAATCATGA
>SRR1151209_02153 hypothetical protein
ATGACTCAAGATATTAAATTCGACGAAACCGTTACAAAACGAATTCAGGATCGCTGGAAAGACGGCGATCGGCTGCTGCTGACGTTTGAGGATGGGGTCGGCCCCTATTCCCAACACGCCATGATCCACATGCAGACCCAATTCACCATCAACATCATCGGACCCGAAGCTTCGCTGGACACCTACGACGCCACGATTGATTCCAATCTGGGCAAGGTCTACGTCAAAGCTTACGGGATGGAAGGCATGGATGATCATTTGGTCGTGCGCTTCCACCCGCAATACGACACGATGAGCCTGTCTGGAGATTCCGGCGACATTGACACCAACGTCGGTTTCATTGATTTCACTGACCCCAACGGCATCAAGGAGAATCCGGCGCGGTAG
>SRR1151209_02154 hypothetical protein
ATGCGGCACGCCATTGCAACTTTCTTCAAAGTCCTGCTCGGGGCGAATCGGTCCGATCGGTGGACCGAGATTGCCGATGAGAACGCACAAGCCAATATCGCTAAGAAGCGGCAGGAAACCGCTGAACACAAGTATCGCTGA
>SRR1151209_02155 amino acid permease
GTGCAGGAAGAAATCACCCCGAACCGGCGGTATATGAGCTGGCCTGTTTTGAGTCTGCTTGTTTTTATTACCGTTATTGGGTTCGAAAATATCTTTTATCCGTTCCAGAACCAAGGCTTATCGGTCGTTATTAACTGGGTCATTTTGCTGGTGATTTACATCGTGCCCTATGCGCTGATCTCGGCGCAGTTGGGGACGACGTTTACCCGCGCTGACGAGGGCGGCGGGTTGGCGACTTGGATGCGCCGGACGTTGGGCGACACTTGGGGGTACTGGACGAGCTGGATTTATTGGGCGCAGACGCTGCCTTACCTGGTGGATGTGTCTAACTCGGTCATTGTCGCGTTGTCCTGGCTGATTCTGGGCGATAACACGCTGGGGAAGCGGATGTCGAATTTGACGTTTGGCCTGCTGACTTTCGCCATTATTCTATTGTTTATTGTGTTAGAAAACCTCTTCTCCCGTTCCCTGGAAGTGATGTCCTTGATCGGCGGGGCGGCGATGTTTTTGATGGCGGTATTGTTCGTGGCGCTGACTGCGGCCGGCTTGGCCAAGGGCGTCCACTCCGCAACGATCTTCACTTGGGCGGCGTTCCGCCCGCATTTCTCCATGCATTACTTCGCCACCACGGGGCTGTTGATCTTCGCCACGTCTGGGGCGGAGTTGGGGGCGACGTATGTGGCCCAATTGTGCAACCCGAAGAAGGAGTTTCCCAAGGCCATGTGGGCACTGGCAATTATGACCGGCTTCCTGGTCATCTTCGGTTCCTTGGCCCTGGGGGTCTGGTTCAATGCCAACCATTTGCCGGATGACCTGAAGATGAATGGCGCCTACTACGCCTTCTCCATGCTGGGCAAGGCCTGGGGCTGGGGCAAGACGCTGATGTACATGTTCGCCGGCACCCAGCTGCTGTTCATGCTCGCCCAGCTGGCGGTCTTGATCGATGCCTCCAGTCGGGTGCTGTCGGCGGATACGGCCATGCGCTTCATGCCGAAGTGGCTGCTGCAGAAAAATAAGCAGGGCCGGCCGGTGCACAGCTACATTTTCACCGCCGCCCTCTGCCTGTTCCTGCTGCTGTTATCCGGCACCTTGCCGAACATCAACGCCATCTTCAACTGGCTGCTGAACTTGAACGGGATCGTCTCTCCGTACAAGACCGCCCTGGTCTTCGTCGCCTTCCTGGCACTGCGGGCCCAGGCGGATAAGTTCACCTCCGGCTACACGTTCATTAAGAGCAAAGCCGGGGCTTACCTGGTCGGCGGCTGGTGCTTCGTCTTCACCTTCATCTGTGCCACTCTGGGCTTCTTGCCCCAGGAAGTGGTCTTTGGGACGACTGGGTGGACGCACCAACTGGTCATGAATATCATTTCGGTCATCGTTCTGTTCGGTTTCGGCTTCATCATGCCGTTGCTGGCGCGCCGCGATATTGCGAAAGAAAATCTAGAGTAA
>SRR1151209_02156 ornithine decarboxylase
ATGTTTCTGAAAATCGGCACCACGCCTCAGTTGGCCCAAGTCCTGCACAACTTGCCGCTGACTGATCTTGCTCAGACTGAACTCGCGGGGATCAACGCAGCGGTGATCGCAGATACCGATGCCACGAATATTAACCAGCTGGCAGAAAGTCCCCTGCCTATTCCAGTCTTTATCCTCGGGCAACAGGCGCCGCCGAGCCTCCCTGGGGCACTCCTTTTGCCCGCCATCACGGACACGGCCATTGCCCAAATCAAAGCCGCTGCGCTGCAATACGAACAGCGGCAGATCCCGCCGTACGTGGCTGATTTGCTGGACTTTGCCCAGGCCGATCCGACGACCTTCGCCACGCCGGGCCACCACGCCGGCCATTACGATGAACTGGCCCCTGCCGGCTGGCTGCTTAAGCAAGCCTATGGCCAGACCTTTTTCAGCAGTGATACCTCCGATGTGGTCACCGCACTGGGCGATATGCTTACCCACGGCGGCACACCGCTGACCGCGGAACAGGCCGCTGCCAAGCTGTGGCACGCGGATAAGACTTATTTCGTCACCAACGGGACCACGGGCTCCAACAACATCGTCGCCAGCGCCATTCTCCAACCTGGCGATCTGGTGCTGTTCGATCGAAACAACCACAAGTCCGTGTACAACGGCGCGCTGGTCATGAATGGCGCTATTCCGGTCTATCTGGATACCCTGCGCAGCGATCTCGGGCTGATCGGGCCGATAGATCTGAAGGACGGTACGGAAGAAAAGCTGCGTAATTATCTGCGCACCTTTGCCCCGAAGCAGGCCGATCAGCCCCGCCCGTTCCGGTTAGCGGCCCTGGAGTTGGAGACCTTTGACGGCATCGTGCCGGACGTGAAGATGCTTTTGGATCGGTTTGGCAAACTGGTGGATTACATGCTGTTTGACGCCGCCTGGGGCGGGTATGAGCCCTTCATTCCGGCCATGCGGCCAATGGATCCGCTCCAGCTGCCGCTGGGGCCGGACGATCCCGGGATCATCGTCACCCAATCCGTCCATAAGCAGCAGTCCGGCTTTGCCCAGACGTCCCAGATTCATAAGAAAGACAGCCACCTCAAGGGTCAGGCCCGCTACGTCAGCCATGCTCAGTTCAACCACGCCTATTTGAAGCACGTCACCACCAGTTATTCTTACCCCCTGTATGCGTCATTGGCGGCGAACGTCGCTTTGAATGAAGGCACGGTGGGGCAGAAGATCTGGCGGCAGGCGCTGGCCGATTCGCTGGCCTTCCGCCGGGCGCTGGACGATACCCAACTGTTCCGGGCATACAATAGCCCGGAATTGATTACCGCGGAAACCGATACGGCCTATACCGATCCCCAGGCCTGGGCGTTGGCGCCCCAGGCCAAGTGGCACGGTATACCGGATTTATTGCCGGGACAGGCTTACTTGGATCCGGGCAAGGTCACCGTCGTTTTACCCCATGACCGCCAATTGGGCGTTTCCGGCTGGGTCGTGGACCGGTATTTGCTGGACCACAATATTGTGCCGGAAAAGGCCGACTTCAACTCGCTGCTGTTCCTGGTGACACCGGGCTCGCGGATGACCGACTGGCGCCGGCTGCTGGATGTATTGAAGCAGTTCGAGACGGATTTCTTCAACGACAAAACGGTGGCGGAGACGCTGCCCAAGCTGGTGGCTGAAACCGGCGACCGTTATGCGCACATGACGCTGCGGGCATTATGCCAGCAGCTCTCGGATTTCTTCAAGGACGAGCAGCTGGTTACGCGCCAGCGCTGGTTGTTCCAGAACAGCAATAACCGGGACCAAGTCATGTCGGCGGCCCAGGCGGATACGATCTTTGCCACGGGCCGATACGAAACGGTACCGCTGACCCAGAGTGCGGGCCGGGTGGCGGTGGAAGGGGCGCTGCCGTACCCGCCGGGAATTTTCGTGGTGGTGCCGGGGGAGACTTGGACACTGCCGGCGATCGATTATTTTCGGTCGTTGTTTGCGGGGATCGCGCGGTTCCCGGGGTTCACGCCGGAGATTCAGGGCGTGTTCGCGGATGATGACGGGGATGCGATGGTGCATGTTGCGAAGTAA
>SRR1151209_02157 aluminum resistance protein
ATGCAAAATTGGGAAGATGAGTTTGATCCAAAACTGGTAGCGCTGATGCACCAGGCGGACAAGAAGATTGCCCCGCGCTTGGCGGAGATCGACGATCAGATCGTGCAAAATCAGGCCAAGGTACTGCGAGCATTTCAAAAACACCACGTGGCGGAAAGCCATTTGTACGGCTCCACCGGGTACGGCCATAACGATGAAGGGCGGGACGTGCTGGAGGCCATTTACGCCGATGTGTTAGGCGGCGAAGATGCCTTGGTGCGGCCGCAGCTTGTTTCCGGCACCCATGCCATTGGGGTCGCGCTACTCGGCTTGGTCCGGCCCGGCGATGAGATTTTGTACATCACTGGCGAACCTTACGATACGCTGCAAGAAGTTCTGGGCATGGCCGGCAACGGCATTGGCAGCCCGAAGGAATACGGCATCGGCGCAGATTATGTGCCGTTAAAGGCAGACAACAGCGTGGATGTACCAGCGGTGCAAAAACGCATCGGCGAACACACCAAAGTCGTCGCGATCCAGCGCTCCCGGGGCTACGCCACCCGGCCGTCCTTCACCGTGAGCCAGATCAAAGAAATGATCAAGGCCGTGCGCGCAGTGAAGCCGGATGTGTGGATCTTTGTCGATAACGCCTATGGCGAATTTTCTGAAACCGTCGAACCATTGGAAGTTGGCGCGGATATTATGGCCGGCTCGCTGTTTAAGAATGCTGGCGGCGGTATGGCCAAGACCGGCGGCTACATTGTCGGGAAGAAAGACTTGATCGAACGGGTCAGCTACCGGTTGACTGTGCCGGGGATCGGCGGCGACGAAGGGGCCACCGTGGGTCTGCTCGCGGATATGTTCCAGGGCTTCTTTATTGCCCCGCAAACCACTGGCAACGCCATTAAGGGCGCAATTTTCGAATCCGCTCTATTCGATAGTCTTGGCCTGGACGTTGACCCGAAGTGGGATGCACCGCGGACTGACTTGATTCAAACCGTCAACTTTGGCAACGCGGCCGACATGATCAAGTTCGCGGAAGCCGTTCAGGCCAGTTCGCCAGTGGATTCCTTTGTTACCCCGATCCCGGAGCACATGGCCGGGTATGAGGACGAAGTGATCATGGCCGGCGGGACGTTTGTCTCTGGGTCGACCATCGAATTCTCCGGGGATGGTCCGATTCGCCCGCCATATACCATTTACATGCAGGGCGGGTTGACCTATGCCCACGTCAAGGTGGCCACGATGCAGGCCGCCCAAAAAGTCTTTTTCGATAACAAGTAA
>SRR1151209_02158 major Facilitator Superfamily protein
TTGTACTCGTTATTGTTAGCCATCATTTACATTGCCTTTATTAGCCTGGGCTTGCCTGATTCTTTGATTGGTGCTGGCTGGCCGGTCATGCACACCGCGCTGGGAGTGCCGATTGCGGCGGCGGGGCTGATCACTATGCTGATCGCTGGCGGGACCATTGTATCCAGCATCCTGTCAGACCGGCTGACCCACCGCTTTGGGGCGGGGCTGGTCACCGCAGTGAGTGTTTTGACGACGGCGGTGGCCTTGCTGGGCTTTTCATTAGCCGGGCAATTTTGGCAGCTGTGTTTGTGGGCGATCCCTTACGGTATGGGTGCCGGGGCGGTGGATGCTGCGCTGAATAATTATGTTGCCTTGCACTATGCCGCCCGGCATATGAGCTGGCTCCATAGTTTCTGGGGCGTGGGGGCGGCTATTAGTCCGTACATCATGAGTTTTGCGTTGAGCAGCGGTCAGGGCTGGACCGGCGGGTATCGCATCGTCGGCTTATTGCAGGTGGGTCTCGCCGCGGTGCTGCTAGTAACCTTGCCGTTGTGGCGCCAGGGTAAAGAGCCCGCGTCCACTGCGGCGGCTGCGCCCGTTCAGCCCGCCACGGCGCCGCTGCACCTGGCTCAGATCATCCGCATCACCGGCGTGCCTTTTGTACTGACGGCTTTCTTCGTTTACAGCGCCGTGGAACAGGCCGCGGGTATTTGGGCCAGCAGCTACTTAGTCCAAAGCCGCGGAGTGGCTGTGGATACCGCTGCCAGTTTTGCGTCCTTCTTCTATCTGGGCATCACCGGCGGCCGCTTTCTTTCCGGCTTCATCGCCGATCGGCTAGGGGACCGGCGGCTGATTCGCTGGGGCGCAATTCTAGCGCTGGCTGGCATCGCCCTGATCGTGCTCCCATTGCCGACACCCTTGGCCTTAGCCAGATTGATCATCGCCGGCTTAGGCTGCGCGCCGATTTTTCCAGCTATTATCCACGCCACGCCGACGAATTTCGGGGCCAATCGGTCCCAGGCAATCATCGGGGTGCAAATGGCAGCGGCGTATCTCGGCACGGTCTTCATGCCGCCGCTGTTCGGCTGGCTCGCTGGCCGGGTGAGTATGGCGTTGTTCCCGCTGTATCTGCTTTTCTTCGCCATTGTGCTGTTGGCGGTGACGGAACGGCTGAATCAAGTGCTGGATCGGGAAAAAAGCCGCTTCGAATAA
>SRR1151209_02159 transcription regulator
ATGGCACACGAGATTGGTCCGCTGCTCAAAGAACTCCGCGAAGCCGAAGAGCTGACCCAAGCCCGACTTTATCAAAACGTCTTGAGCCGGCGGCAGGCGATCCGGCTGGAGGCTGGGGAAACCGACATCAAGGCCGAGCACCTGCTGACGTTGTTGGATCGGCTGGATATGGCACTGCCGGAGTTTCAATACCGCTTGCAAAAGCGCCAGCCCCAAGTCGCGCCGCCCACACCCCAAACGGCCATGCTGGACACCGTGGCGGCAAAACTCAATACGTGGCTGGATGCTGATATGACTCCCGGCGAGGTGCGGGCAATGGAAAACTTTGCGCTTGGCCGCCCGTTTTTCACCGTGAACCAGATCAAGACGCTGATGACGATTGCGGCTAGACTGCCCTGGGACGCGTATGATCGATTGACTAAAAAACTGGCGGCGCAATTAGCGGATATGGCGGATATGCCCGGGGTACAGCGCCTGCGCTACACTCTCTATTTCAACAAAACCATGTTTTCCCTGTTGGGCGGCTTGCCGGATACCGCGTTGCGGCTGGTCCCGCAGGCTCAGGCACTGGCCAGTGACCGAATGGATGATCAGATCATGCTGCAGTTTCTGCAGCGTATGGCCGAGACGCTGGTGACCAAGGATCCGGCCGCTGTGTATGCAGCCACGGAAGGACTGATCACCCATCTGCGCGGCTTGGGCTTGGCAATGATGGCGGATTCATTAATCGATAATCGGCGGCACATGCTTTCTTCGGTGAACCTGCATCCCCGCTGGACGCCAGCGGAGTTAGGGGCGGCCGCGCGGCTGTTTGCTATTGTTCCGTGGGAATTAAAAAAAGATCGGCAGGGTTATCTGGCTAAATTTCCGGGATTGCTGGCCGCCGCTGGCCAACCGCTCAGTGCCTATCGCGATGTCTATTAA
>SRR1151209_02160 hypothetical protein
ATGATTCTTGGCATGATTGCCATTATTATGATGAGCTTGATCGCCATGGCCCTGGTCTATTTCACAGACGGCGGCTGGATCATTTACGGTAACCGGCTCGTGCGGACCCTGCGCCGGGACGAGACCCGAATTACCCGGTACTTCCGCTTATTGTTCAGTCGGTAA
>SRR1151209_02161 transcriptional regulator
ATGGCAATTGGCCCAGTACTGAAACAAGCCCGGCAGGATGCCGGCCTCACCCAGGCCCAAGCGGCCCAGGATATTTGTTCCCAAGCTATGCTGTCGGCCATTGAGCACGATCAATACACGCCGAATGCTGCGCTGCTGATTGCCCTGTGCCAGCGGCTGGGCTTGAGTTTGGATGCGATCACCCTGGCTAATAACTTTGCCATTGGCCAGCGCACTGATTTTAATCAAAAAGTTGCCCAATTGTGCGATGCCCACGAATATCAGCAGCTCCTGACTTTTCTGAACCGGGACGCCGTCATCGACAGCATCGCCGACGGGGCAGAGACGCAGGCGTACTATTACTATCTGGCCGTCGCGGAGTTCCAGGGTGCCAAAGACTGGGATGACGCCCAGCAAAATCTGCAGCTGTCCCTGGCCAGCGCCACACGGACCAAGGTACCGCCGGTGCTGACCCGACTGGCGAAGATCAGCGCGGCCTATATTGCCATGCTGAAGAGTCAGCAAGTGTCGCCGGCGATTCAAGCCGATATCGATGCAGCCTTGAAGGGGATCACCAAAGCGCGTTACGATGAGAACCTGAATATTATCTTCTACTTGGCAGCGTTGATCTTTTATCATGATCAGCAATATACCGAAAGCGCGCGGTTATTAGCCGCAGGGATCCACTTTACCACGGCCCATAATTCCCACTACATGTTAGCTAACGCCTATTACTTGCTGGCCAAAGTGGCGGAAGCCCTGGGTCAGGCGGATGCCGCCAATGATGCCCAGCGCCGGTCCGAATTGTTCAACGAACTGTTTGGTGAAGAGGTATTCAGCGACTTTCCAGAACAATAA
>SRR1151209_02162 daunorubicin resistance protein DrrC
GTGCGCGATGCCACCCAAAACAACCTGCAACACGTTTCGCTGAAGATACCCAAATACGCCATCACCGTCTTCGCCGGTCTCTCCGGTTCCGGCAAGTCATCTTTAGTGTTTGACACCATTGCGGCCGAATCCCGGCGAGAACTGAACGAGACCTTTCCCAGTTTCACCCAGCAGTATTTACCAAAGTACGGCCAGCCCCACGTGGGCCAAATCGACCACTTACCCGTCGCCATCGTGATCGAACAAAAACGGGTGGGGAAAAACGCCCGCTCCACCCTGGCGACCTACACAGGAATTTATTCCTTGCTGCGCCTGCTGTTTTCACGCATCGGCAAACCGTTTATCGGGTATTCCGATACCTTTTCGTTCAACTTGCCCCAAGGGATGTGCCAAACCTGTCAGGGATTAGGTTATGTTGATGATATCGACGTCCACCAGCTGATCGACCCGAATAAATCCTTGAATCAGGGCGCGATCACCTTCGTCAGCTTCGGTCCTGATACCTGGCGCTGGCGGCGATATGTGAACAGCGGTCTTTTTGATAACGACAAGCCGCTGAAGGACTATACCAAAGAGGAAATGGACACACTCCTTTATGCCCCGCAGCAAACTATTCCCCATGCGCCCGCGAAATGGCCCCGTACCGCGCTGTATGAAGGCGTCGTACCGCGGATCAAGCGGTCGATCATCGGTAAAAAAGAAGCGGAACACCATCAGGCGGCTTTGGCGAAAATCGTTACCCGCGTCCCTTGCCCAACGTGTCATGGCACCCGGCTGCGGCCGGAGGTCCTGACTAACAAGATCAACGGCACAAATATTGCGGACGTGCTGGCCATGGATCTGGTGCACGTGCAACAGTTCTTGGCCGCCATCACTGTCCCGCTGGCCCAGGATGTGGTCCGGGAACTGCAAGGCAAGATTGGCTCTTTGATCGATATCGGGCTGGGTTATTTGACCCTGGACCGGGGCACCAGCTCTTTGTCCGGTGGCGAAACCCAGCGGATCAAGATAGCCAAATTCCTTACCAGCGCCCTGGTGGATATGGTCTACATATTGGATGAGCCCAGTGTCGGCCTGCATCCCCACGATATTGAGCTGATTAAAAAGGCCCTGCGCCGGCTGAAGGAAAAGGGCAACACGATTTTGATCGTTGAACACAATCCCGAGCTCATCGCGCTGGCCGATTATGTGGTCGAAATTGGTCCCGGCGCTGGGACGTTTGGCGGCCAGGTGACTTTCACCGGGACCTATCCTCAGTTATTGGCTGGTAATACCCTCACCGGCCGCTTACTGCAAAAGCTGCTCACCTTCCGTCACCCGCCCCGGACGGCCAAGCAGACGATCCCATTGCGGGACGTCACCGTGCACAACCTCAAACACGTCAACGTGGACGTGCCTTTGGGCATCGAAACCATCATTTCCGGCGTGGCCGGCTCGGGGAAGAGTTCGCTGATGGCGGCCCTGCGGCGGCACTTACAGGACGGCTACATTGATCTGGCCCAGGGTGAAATTGGGGCCAACATCCGCTCCACCCCGGCCACGTATCTGGATATTTTGGACCCGATCCGCAAAGTCTTCGGGGCCGCCAACCACGTCTCCACGACCTGGTTCAGTTACAACGGCCGCGGTGCCTGCCCGCTGTGCAAGGGCAAAGGCGTCACCATCACCAATATGGCCTTCATGGATCCCGTGGTTCAGGTATGCGAACAGTGTCATGGCAAACGCTACAATGATCGGGCCCTCAGCTATTTGTATCACGGTAAAACCATCAGTGATGTGCTGATCATGCCGATTACCCAGGCAATCGATTTCTTCGCCGATATCCCGGCGATTCATGCTCCGCTGGCAAATATGGCTCGCGTCGGCCTAGATTATCTGACCCTGGGCCAGCCCCTGACGACCCTGTCCGGGGGCGAAAAACAGCGGCTCAATTTGGCGGTGCAGCTGAATAAGACCGGTACGGTTTATCTGCTGGACGAACCCACAGCCGGCCTGCATATGCAGGATGTTGAAAAGCTGCTGACGCTCTTCGATGACCTCGTCGCCGCTGGCAACTCGCTGATTATTGTCGAGCACAATCTGCAAGTAATTTGCCAGGCGGATTGGTTGATTGACGTGGGCCCCGATGCCGGGATTTATGGCGGGGAAGTACTTTATTCCGGCACGCCTGAAGGAGCCATGGCCCAGGCCGATTCTCGGACTGGGGCGGCGTTGCAGGCGTATAACGTCAACCGGACATAA
>SRR1151209_02163 hypothetical protein
ATGAAAAAACTATTCACGAACGTCGTTATGGCGAAAGCCAGCAAGGAACAAGTCTTAACGATCCTAGAAAATCCAGAGGCTTTACTGCAATGGGTCCCCGAGGTCCAAACCGTGACCCAAGCAGCCAATGGCTTCACCGTCCACCGCTCTGGTGCCGCCTTGAATCAAACCGAACACATCGCCGTCGGGAAGACCGCTAATCAGGTCGTTTATCGGAGCACCGAGGGGCGGGTCGCTTACGATTTGATTTTCGACCTAGCTGGTGAAGCAGGAGGCACAACGATTACCGAAACGGTTTATCTCGATGAAACAGCGGTGCCGCGCCTGCCGCTGACCTTGCTGGCCCCCATTGCCAAGCATGCGTTCAGCGAGAATCTAGACCACTTGGTTAACTTGGCCGAACGGTTATCCTATACCAAATAA
>SRR1151209_02164 hypothetical protein
ATGGGAAAAAAACAATGCGACACAATCTATTGCATTGTGCTGGTCACTCTGCTTGGCGTTGCTACGGTCCTCAGCATTCCCTGGGCACCGCGCTTGCTTGGCACACCAGGCTTGCTGATTCCAGCATTTCTAATTGTTTGTTTAATTTATGCGGGGCGTCTCGCGCGATTTGTTTCAAGAAAGCTGAAACTTGAAAGCCCGAAAGTGCACTGA
>SRR1151209_02165 hypothetical protein
ATGGACAACCAGTTGAACATACATTTTGAGGTTGATGGCGAGCGCGCATTCAAAATTGCAGTTTTGCGTGCGCTTGAAACCGTTGACTTAGGTTCAACGGAGCAAAACCTGATTAGCGCAAAGCCGGAAGAATTTGGTGATTTAGCTGCCAAGCTGTACACAGCAAAATTTGCCGAAACACTTGCTCCTTTAATCAAGGAAGAAGTCACCAATTCGCTCTATGCCAACATTGACCATCAAGTCGCTAAGCATGTGGGGTTTGATTCAACGACTTATCAGTTTTAG
>SRR1151209_02166 hypothetical protein
ATGCTCAACCCCTTAATCATCGGCCACATCATCTTCGGTCTCGCTTCATTCGCCGGTGCGCTGCTGCTCGCGGCGGGCTTCAAAGATACTTTCCACACCCTCACCAAGCTCCAACAGTCCGGTATTATCCTAACGGTAACGGGCTTGTTTGCTACCTTGGCGTTTGCCATGGGGGCTAACGGCAACTGGCTGGCGACGATTGTTTTCGTACTGATCGGGGCGGCAGCGCTTGGGCTGCTGGTCTGGCCGGGGCATCAGGCGTCGCGTAATTAA
>SRR1151209_02167 carbamoyl phosphate synthase large subunit
ATGCCTAAACGGCAAGATATTCACAAGATTCTCGTCATTGGTTCCGGCCCAATCATCATCGGCCAGGCCGCCGAGTTCGATTACTCCGGCACCCAAGCCTGTCTTGCCCTGCGGGAAGAAGGTTACGAAGTCGTGCTGGTCAACTCCAACCCGGCCACGATCATGACGGATAAAGAAATCGCCGATCAAGTTTATATCGAACCGTTGACCGTGGAATTTCTATCACGCATCCTGCGCAAAGAATTGCCCGATGCGATCCTGCCCACCCTGGGCGGCCAAATTGGTCTGAATCTGGCCATGGAATTATCGAAAACCGGCATTCTGGATGCCCTGCACATCGAACTGCTGGGCACCAAACTCTCCGCCATTGATCAAGCCGAAGACCGCGAGAAATTCAAAGAATTGATGCAAAACCTGGGCGAACCGATCCCCGAATCCCACATTGCGACTACTATGGACGAATCCTATCAGGTCGCCCACCAAATCGGTTATCCCGTCATCATCCGTCCCGCCTTCACCATGGGCGGTACCGGCGGGGGCATTGCCCATAACGATGAGGAACTGGCAACGATCGCCGAAAACGGCCTGAGTCTGAGCCCCGTGACCCAAATTTTGATCGAACAATCCATCGCCGGCTTCAAGGAAATCGAATTCGAAGTGATGCGCGACGCGGCCGATAACGCCATGGTCGTCTGCAACATGGAAAACTTTGACCCGGTGGGTGTGCATACCGGCGATTCCGTCGTTTTCGCCCCGGTGCAGACGCTGACCGATAAGGAAGTCCAAATGCTGCGGGATGCCTCGCTGCGCATCATCCGGGCCCTTAAAATCGAAGGCGGCTGCAACGTGCAGCTGGCACTGGACCCGAATTCTTTTCAATACTACATCATTGAAGTTAATCCCCGGGTGTCCCGTTCCAGTGCCTTGGCCTCCAAGGCCACCGGCTATCCCATTGCCAAAATGGCGGCCAAAATCGCCGTCGGTTTGCACTTGGACGAGATCAAGAACCCCATCACCCAATCCACTTATGCTGAATTCGAACCGATGCTGGACTACGTCGTCTGCAAGATTCCCCGCTTCCCGTTTGATAAATTCGAAAACGGCGACCGCACCCTCGGCACCCAGATGAAAGCCACCGGCGAAGTGATGGCCATTGGCCGCAACGTGGAAGAAAGCCTACTGAAAGCCACCCGCTCCCTGGAAGTCGGTGCGATCCATCTATATCGCGAAAAATACCGGCACATTAGTGAACAGGATCTGTCAGACCATATCATCACCCCGACAGACGAACGGCTTTTCTATCTGGCCGAAGCCTTCCGGCGGGATTACAGCGTCCCGGAAGTGGCTGAACTGTCCCACATCAACCCGTTCTTTCTGGCCAAGATCCAACATATCGTCCAGCTGGAAAATGATCTGCGCGACCATGTCCAGGATGTCCAAGTGCTGCACCAGGCCAAGCGCAACGGCTTTGCGGATGAAACTATCGCCCAGTTATGGCATACGGATATGGATACTGTACGTCAGCTGCGGGTGACCAACAAAATGCTGCCGGTATACAAAATGGTCGACACATGTGCTGGCGAATTTGCTTCCACAACGCCGTATTTCTACAGTACCTATGAACAGGAAACCGAAAGCAGCCGCAGCGCCCAGCCCAGTATTCTGGTCATCGGCAGCGGTCCAATTCGAATCGGCCAAGGCGTGGAATTCGATTACGCCACCGTCCACTCCGTCAAGGCTATTCAGCGCGCCGGTTACGAAGCAATCATCATGAACAGCAACCCCGAGACCGTATCGACCGACTTTTCAATTTCTGATAAGCTCTACTTTGAACCCTTGACCCTGGAGGATGTGCTGAACGTCATTGATGTCGAAAAGCCCCTGGGCGTCATCGTTCAATTCGGCGGGCAAACAGCAATCAATCTGGCTGAACCGCTGGCTGCCCATGGCGTTAAGATCCTCGGCACGCAAGTGGCTGACTTGAACCGGGCTGAAGACCGCGATCTCTTCGATGCGGTCATCAAGCAACTGGAAATCCCCCAACCGGTGGGCGGCACTGCCACCACCAAGGATGAAGCGTTGGCTGTCGCGGAACGGGTCAGCTACCCCGTCCTGGTCCGACCCTCCTACGTGCTGGGCGGCCGGGCGATGGAGATCGTCCACGACGCTGGCGAACTGGCTCACTACATTGATGAGGCCGTCGCCGTTTCCCACGATCACCCCGTCCTGGTGGATCAATATCTGGTCGGTCGGGAATGCGAAGTCGACGCCCTGTGCGACGGCGACCATGTCGTGATTCCCGGAATCATGGAACACATCGAACGTGCCGGAGTCCATTCCGGCGATTCCATGGCCGTATACCCCAGCCAGCATTTCGATCAGCATATTATTGACCAGATCACCACCTACACGACGGAGCTCGCTCGGTCGCTGAAGTGCATCGGTATCATGAATGTGCAATTCATTGTCCATGATCATCAGGTTTATGTCATCGAAGTCAACCCCCGGGCCAGCCGGACCGTTCCCTTCCTCAGCAAAGTGACGAATATTGCCATGGCCCAAGTCGCCACCCGGGCCATTCTCGGTCAGTCACTCATTGACCAAGGATACACGCCAGGTTTGCAGCCGCACCACGGCGAAATCCACGTCAAGGCACCCGTCTTCAGCTTTAATAAGCTGAACCATGTCGACAGCCTGCTCGGACCGGAAATGAAGTCCACCGGCGAAGTCATGGGCAGCGACACAACACTGGCTAAAGCACTGTACAAAGCCTTCGAAGCCAGCCACACCCACCTCCCCGCCTTTGGTACGGTATTGCTGACCGTTAAAGACAGCGATAAGGCAGAAGTCATCAAACTGGCCCACCGTTTCCACGAAGTCGGTTACCAGATTGCCGCCACGACCGGCACCGCAAAAGTGCTGAAAGAAGCCGGCATCCGGGTGATCCCAATGGCTAAAGTGTCTGAACCAAAGAGTGAAAAAAATGCCCGGGCAGACGCCGGCAAAGTACCGGATGACATTCTGGACGCCATTGCCGCGCATCGCCTGCAACTGGTGATCAACACCATGACCCTGGACCGCACAAGTACCAGCGACGGCTTCCGCATCCGCGAGACCGCCATCCAACATGGCGTCCCCCTGATGACCAGTCTGGACACCGCTGGTGTCATTCTGAAGGTCCTGGAGGCCCAAAGCTTTGCCACCCAGCCAATCTAA
>SRR1151209_02168 carbamoyl phosphate synthase small subunit
ATGGCACGCGATTTAGTATTAGCCGACGGCACCGTATTCACCGGCGAAGCTCTAGGCGCCGACATCGAACACATCGGCGAATTGGTTTTCAATACCGGCATGAGCGGGTACCAAGAGACCCTCACGGACCAGAGCTACAACGGCCAGATCATCGTCTTCACGTATCCCCTGATCGGCAACGCCGGCATCAACCGGGATGACTTCGAAACCATCACCCCCACCGTCCAAGGCGTTGTCGTCCGGGAGGCCGCCACAGTCACCGGTAACTGGCGGTCAGAAATGACCCTGGATGAGTATTTGAAAGAAGTCGGCGTTCCTGGCATTCAGGGCGTGGATACCCGCGCGCTGACCAAGAAGATCCGGACTGCCGGCACCATGAAGGCCATGCTGGTGGACCACGCCGACAGCGCGGCCCTGGCCCGTTTGCAAACCACCCAGCTGTCCACCAACCAAGTCAGCACCAGCGCGACCCCGATGCCCTTCCCCGTACCCGGCACCGGCAAGAAAGTGGTCGTCGTAGACTTCGGGTTCAAGCAAAGTATTCTGCGGGAACTGACCAAACGCGATTGCAACGTCATCGTCGTACCGCCCACCACCTCCGCCGCCCAGATCGCGCACCTGGATCCCGACGGCGTGATGCTGTCCAACGGTCCCGGCGATCCCAAGAGCGTCGACTACGCCCTGCCGATGATTCGTGAGATTGAACAAAAAATGCCGCTCTTCGGTATTTGTCTCGGTCACCAGCTCTTTGCCCTGGCCAACGGCGCCGATACCTTCAAAATGAAATTCGGCCACCGCGGATTCAACCATCCAGTACGGGAAATTGCCACCGGCCGGATCGATTTCACCAGTCAGAACCACGGCTACGCGGTGTCACCGGACTCCATTGACCAAACTCGACTGCTGATCACCCACGAAGAAATCAACGACCACACGGTGGAAGGACTGCGGCACAAAGAATACGCCGCCTTTTCTGTCCAATTCCACCCGGATGCCAACCCTGGCCCCCATGATGCCAACCATCTCTTCGATGACTTCATGGATATGATGACCACATTCCAGCAGCAAAGAAAGGAAGTCGCCACCCATGCCTAA
>SRR1151209_02169 dihydroorotase
ATGACCAGCCAAGACTTAATGATCAAAAACGCCCATGTCGTCGGACCGGAAACTTTCAATGGTGATATTCGCATTCAAAATGGCCGAATCACCGCCATCGGCACGGATCTGCCAGTGGCCGCTGGCACACCCGTTTATGATGCTGCTGGCCGTACCGTACTGCCCGGCTTAGTCGATGTGCATGTCCACTTCCGCGATCCCGGCCAAACGGCTAAAGAAACCATCGCCACCGGCAGCAAAGCCGCGGCCCATGGCGGCTTCACCACCGTGGTCGCCATGCCCAACGTGACCCCGGTGCCGGATAACGCCGCCGACCTCGCCGCGCTGTTGGCTAAAAATAAGCAAACCGGAGTCGTCCACGTCCATCAATGGGCCCCAATCACGGATGCCCTGCGCAGCGACCGCTTAGTGGATTTTGAGCAGTTCAAAAAAATGGGTGTGCTCGGTTTTTCTAATGACGGCGTCGGCGTGCAGCATGCCGCCACGATGATGGCCGCCATGGCTGGCGTCCACGCCGCCGGAGCGCCGCTGGCCGCCCACATCGAGGATGAAAGCCTGCGGGGGGATGGCGTAATGAATGCTGGGCCTGTCGCCGATAAACTCGGACTGCCCGGTATGTCTAACCAGACTGAATCCAGTCAGCTCGCCCGGGACCTAGACCTCGCCGCCGCGACTGGCGTGCACTACCATGCCTGTCACATTTCGACTCGCCAAAGTGTTGACCTGATTCGCCAAGCCAAGGCGGCCGGCGTGCATGTCACGGCAGAAGTCACGCCCCACCACTTATTATTGGAAGATACCGACATCACCGGGGATGATCCGAATTTCAAAATGAATCCGCCCCTGCGCAGCCACGCTGACCGGCAGGCCGTCGTCCAAGGGCTGCTGGACGGTACCCTGGATATGGTCGCCACGGATCACGCGCCCCATACCCTGGCGGATAAAGGCGGCACAATGAGAACTGCCGCCTTCGGGATCGTCGGTCTGGAAACCGCCTTTGCCTTGCTCTACACCCGATTCGTGCGCAGCGACCGGATGAGTCTGCCGGAGCTGGTGGCGCGCATGAGCACCATTCCGGCTGCCGCGTTTAATCTGCCCGCCGGCCACATCCAAATCGGTGCGCCAGCGGACTTGACGATCATGGACTTAGATACACCCTATCAAATCGACAGCAGCACCTGGTTCTCCAAGGGCGTCAATTCACCTTTCATCGGCGAAACGGTTTACGGCCGCACCCAAGCCACCATCGTTGCCGGCCGCCTGGTTTATGATCAACAGAAAGAAGGTCACTAA
>SRR1151209_02170 aspartate carbamoyltransferase
ATGTTTATGAACTTTGTATCTGCCCACCAGGTTTCCCCCGCCGACGCGATGACGCTGATCGACCGCGCCGAGGCGTTCAAGAATGGCACCCCGGTGCCCGAACACGGCCCGGTGTATGCTGCTAATTTGTTTTTTGAGAATAGCACCCGGACCCGCACCAGCTTTGAAATGGCGGAGCGCAAACTGGGGCTGACGGTCATTCCTTTTGACCCGGCCCACTCGTCAGTGAGCAAGGGCGAGACCTTGAGCGACACGATCAAGACCTTGGCGGCCATCGGTGTGAACATCGCTGTCATGCGCCACCCCGCCGACGCCTACTACGAACCGCTGCTGGCTGCCAGCCCGACCTTGGCCATCGTCAACGCCGGCGACGGCGCTGGTCAGCATCCGTCGCAGATGATGCTGGACCTGATGACCATCCACGAGGAATTCGGCAGTTTTGCCGGCTTGAATGTCGGCATCGTCGGCGACCTGAGCCATTCCCGGGTCGCTCATTCCGACGCCGAGATGCTGACGAAGCTGGGGGCCAACGTCTTCTTCTCCGGTCCGGAGAAATATTTCTCACCGGAATACAAGCAATTTGGCCCGTTCCTGCCCCTTGCTGAACTCGTCAAGAAAGTCGACGTACTCAACGTGCTGCGGGTCCAACTGGAACGCTTCAACAGCGGCGAGACCGCTGAGTTCTCCCGCGCCGACTACCACGCCAAATACGGTATCACCGATGCCCTGGCTGCCACCATGAAGCCCCGCGCAATCATCATGCACCCAGCGCCGGTCAACCGCGACGTGGAACTCGCCTCCGACCTGGTAGAAGCCCCGCAATCCCGAATTTTCATGCAGATGCACAACGGCGTCTACATGCGCATGGCGATGCTCGAAGCCGTCATGCAGGCTCGCCAATTCGGTGCTGTCCCTGCCTCACAAGCCGCAACCGTAAGGAGATAA
>SRR1151209_02171 phosphate ABC transporter substrate-binding protein
ATGAAAAAGGGTATTTTAATCAGTGCGATCGCGCTGACAGTTGCTGGTCTGCTGGCCGGCTGCGGGAGTCAGAGCGCATCCACAAAGTCCAGTACGGCTAAAGGGTCAACACAAACGAGTACCACGTCGGGGAAAATCGTGGCCGTTGGTTCCACTGCGTTGCAGCCCTTGGCGGACGCTGTAGCCAAGGACTTTCAAGATAAGAACCCTGGCGTGACGATCAATGTTCAAGGCGGCGGTTCCGGCACTGGTCTGGGCCAAATCGCCCAAGGCTCAGTGGACATCGGTAATTCCGATATTTTCGCGGAACAAAAGGGCGGGATCGATGCCTCTAAAGTCGTCGACCACCAAGTGGCCGTTGTCGGCATGGGGCCGGTCGCAAACAAGGATGCCGGGGTCACCAACCTGACCATGGCCCAATTGCGCGATATCTTCACCGGGAAAGTCACCAACTGGAAAGAAGTCGGCGGCAAGGATCAAAAGATCACCGTTGTTAACCGGGCTGAAGGATCTGGTACCCGGGCGACGTTTGAAGCCTCGGTCACGGACGGCAAGGCCGCAGTGAAGTCTTTGGAACAGGATTCTAACGGCACGGTCCAAAAGATCGTCGCTACGACGCCGGGCGCCATCAGCTATCTGGCCTTCTCCTACTTCAAGGATGACCTGCAAGCCTTGAGTATTGACGGGGTAAAGCCCACGGACGACAACGTCACTACCAACAAGTGGAAGATCTGGTCATACGAGCACATGTATACGACTAAGAAACCAAGCAGCGCAACGAAAGCATACATCAAATATATGCAATCCACCGCAGTCCAGGACAGCGCTGTTAAGAAGCTGGGCTACATCAGCATCCACAATATGAAGGTGGTGAAGTATGCCAACAATAAAGTAACGGACAAATAG
>SRR1151209_02173 transposase
ATGCGCATTGCAATTGGTTTGGACGTTAGTTCAAAGACCGCCAATGTATCGGTGGTCGTTAATGATGGTGAGGTGACAAGAGAAGCTGAGGCCTGCAAGGTGAGCAATGATTTGGTAGGTTTTGGCACGATTTTCAAATTAATCCATAAGTACAGCATCAGCGATGAGTTTCCCGACGTGGTATTCGAAGCGACCGGTGTGTATTCGCGCCGCTTACAGCACTTTCTACAGACGCACGCTGTCGCGTACACGCAACTCAACCCACTGAAGGCTAAACAGGAGTTGGCCGCGATAGGCAGCCTGCACCGGCGCAAAACCGACCAGATGGATGCCCTTGGCTTGGCCCAAAGCCAGTTAATTCTACAACGGGCTAAGACTTACGTGCAGGATCCGGTTTATGTTCAACTGATGGATGAAGAGCGCTTTTACCAGGAGATCAACAGTGATATGGTAACCGCCAAGAATCGCCTGCATCGCGCGTTACAACTCACCTTTCCAGAGCTGGAAGATGTGATGAGCAGCACTGATGGTGAGTTTTATTGGCGACTGGTACAAACTTTCCCGCATCCAGATTTACTGTTGAAGTCTCATGAGCCGTTTGATCAACTGGTAGAGACCATCCGCCACCTGACGAAGCGGACTTTGTCCGAGTCTCATGGTCAACGAATCGCCGAGAAGCTGAGTGATAGCGCCTTTACTGCCGCACCGGCTGTTTCCGCCGCACCAACTGAGATTAACCAGGTGACGTACCTCGCAGGTGAACTTATTCGGCTTTCCGCCCAGAAGCAGCACATCATCAACGAGATGCTTGATCTGGCGAAAGAACTGCCGGAACTGGACATCTTGAAGTCTTTGCCAGGGGTGGCAGATACTTCGGCAGTCACTTTGCTGGCCGAGTTTGGTGACCTTCATCGTTTCCAAACAACTAATCAGATCAACTCATACGTGGGCATTGATCTGCGACACTATGAATCCGGCAACTACGAGGCAGCCGATCACATCTCCAAGCGGGGTAATCCCTACGCCCGTAAGATCCTGTTCAAGATGATTGGGACCATGGATTCGGTCGCTAAGCTGCCTAACCACCCCAACCACATCGTTGATTACTACGAAAAGAAAAAACAATCTTCTCAGTCGAAAGGGACTAAGAAGATTGCCATTGCGGCGGTTTCCCGCCTCATCAGAACTATTTACCACCTTGTCATGCACAATCAGACTTATGACTACCAGAAAGCCTCGCTAGGCAGGTAA
>SRR1151209_02174 hypothetical protein
ATGATACAAATCAAAGCAACCACGCCGGTGTACGACCTGGTCCATGCCCACCCCGACATTGTGGGCATTATGGTGGACATTGGGTTCACCCGCATCGCCGATCCGGCCGTGCTCAATACCGTTGGCCACTTCGTTGATCTGCGCAAGGGCGCGCGGTTGATGCAAATTTCCCTAGCCAAGGTCAAGCAAGACTTTGCGAAGGCGGGATATGAGGTGGTTGATAATGACCAATAG
>SRR1151209_02175 hemerythrin HHE cation binding domain protein
ATGACCAATAGCCCGTTACCTGTACATAACAGTGCCTGGCGTCAGCACCGGATCGTCGAGATTCTGGAATTGCTGCACCATGGCGGTTCCTTTGAAGAAGCCAAGAAAATGTTTGACGACTCCTTCGACGGTGTGGACGTTGCAGAAATTACCACGGCGGAGCGCCAGTTGATTGCCAGCGGCTTGAACCCAATGGAGATTCAGAACCTGTGCAACGTTCATGCCGCAGTTTTTCGGGGCAAGATCACTAACGACAGCAAAACCCCAGAGGAACAGATCCCAGGCCACCCCGTCCAAGTGATGAAGCTGGAGAACACGGTCCTCGCGTCGCTGCTCAACGATGAATTACTGCCGACATTGAAGAAATGGATCCAGGACGGGGCCGACAACGACTATTTGCGCCGTTTGCGCCACGCCCTCAAAGATTTGGCCACAATCGATCATCATTATGCCCGCAAGGAAAATCTGATTTTCCCCATCATGGACAAACTCGGCGTCACGGCGCCGCCCAAAGTGATGTGGGGCGTGGATGACGAGATCCGGGGGCTGATCAAACAGGCTAATCAGTTAATCAATACGGACCCGCTGCCGGATAAGTATGTCATTGAAGCAGCGGTGCAAAAGGCGGCCAAAGAAGTCGACGAAATGATCTTCAAAGAAGACGCGATTTTGCTGCCGATGGTGCTGGAAATATTCACCCCGGCGGATTGGGGAACGGTGGCTGCAGAGAGCGGGCCGATCGGCTATACGCTGATTGCGGAGCCGCTGCCCTGGCAGCCGACTGAGGCGGAACTGGCGGCAGCCCCCAAACGGAACTCCGCGCTGGCCCAGCAGTTGAATGAGAGTGCCCAAGAGCTGGCGGCAGCCCAGGCGCCGCGGCCGGCCGCGCCGCCAGCGCCAGATACGGCGGCGGTGATGGCCCAACTGCACGGCGACGGCGAAATGCCGGCCAAGAAAAAAGATCCGCCGACGCCTCGGCGCAAACGGCGCCAAGCAGCCTCCGGACCTTTTATTTCCCATATCACTGCCGACGCGGCCGGCAATGTCCAAGTGGTTTTGCCCACCGGCAGTTTCACCCTCGCCGAGCTGACCAATATCTTGCGGCTGCTGCCGTTTGAGATGACCTTCGTGGATGCCCAAGATACCGTCCGCTGGTTCAGCGATAATCCCGATCGGGTTTTTCCTCGGACCACCGCGGTGATCGGCCGCTTGGTGGTGAATTGTCATCCGCCCAAGAGCGTGGATAAGGTCGAAAAAATTCTCCAAGATTTCCATAGCGGCGCCCGGGATCATGCTGATTTCTGGATCCATTTCCGGGGGCATTACATGTACATCCGCTACTTTGCGATTCGGTCGCTGGAGGGGACGTATCTGGGCTGCCTGGAAGTCTCTCAGGATATCGATCCGATCCAGGCCCTGCAGGGCGAGCAGCGGCTGGACAGTGCCGATTAA
>SRR1151209_02176 hypothetical protein
ATGTCCGAAACAACAACCGAAAAATGGCTCCATCTAGCCGGCTGTGCCGGAGTGCTGTTGGCGGCGCCCTGGTTATTGGCTTGGCAGAATAACCACTTTGCCCGCTGGGGTGCTTTGACCCTGGTTTCTTTGGCGGCTATTGCCAACATTTTATACCAGGAATGGTTATTGCCCCGCCATCCTAAGACCAATCTGATCATTCTCTGGCTCGGACTCAATCTGGTGCTGGGGGTGCTCGCCGGGTTGACCAGCAACTGGTTCATGCCGGTGCTGGCGGTCCTGGCCGCTGTCCTCTGGCTCGCACCGCCGGCCCTCGCCCGCCGGCCGTTGGAACAGCAGCTGCTGCCGGTAATTGCTTACGGCTTGGCGCCATTCCTGCTCAGTATCGTCCTCTACACCGTGGCTGAGGGTGGGCTTTACCTGCCCGCATTGTTTTGGCCGCTGATCCTGCTCCTCAGTCTCGCTGCGAACGAAACGATGGCAGGCATCAGCAGCGGGCCGATTCGGCTCACGATCGCCGTGGCGACCTCAGCCGCGATTCTCGCCATCGGCCTCGCTTGGGCGCACCTGGCAATCTTAGCCTTAATTCTGCCCGTTCTAGCGACGCTGATCGGCATGATGCCCCAGGGTAAAACCTATTGGTCCGGAGGCATTCTAACCTTAGCCAGTGTGGTGTATTGCTTATTGATCCATTAA
>SRR1151209_02177 S-adenosylmethionine synthetase
ATGGAAAAACGCTTATTCACTTCGGAGTCTGTCTCCGAAGGCCATCCGGACAAGATCGCTGACCAGATCAGCGACGCGATCCTGGATGCGATTCTGACCCAAGACCCGCAGGCGCGGGTGGCGGCCGAAACGGTCGTCTCCACGGGCTTAGTGCTCGTGACGGGAGAAATTTCAACCACGGCTTACGTGGATATTCAACACATCGTTCGCCAAACGATCAAGGATATCGGCTATACCGATAATCGGATCGGTTTTGACGGCGACAGTGTGGCAGTGCTTTCCGCTATTGACGAGCAATCGCCGGATATTGCCCAGGGAGTCAACGATTCTCTGGAAGCGCGGGAGCAGGATACGGATCCGCTGGACAAAATTGGTGCTGGCGACCAGGGTATGATGTTTGGGTATGCCACCGATGAGACACCGGAATATATGCCGCTGCCCATCGAGCTGGCACACAAACTGATGCGGCGGACGGCGCAAGTACGCAAGCAGGGAATCATCCCTTACCTGCGTCCGGATGCCAAGGCCCAGGTGACTGTGGAATACGGCACCGACGGCAAGCCCGCCCGGGTCCATACCATTGTTTTAAGCACGCAGCACGATCCTGATGCGACACTGGACCAAATCACTGAAGACGTGACGGAGCATATCATTTTGCCCGTGATTCCGGCCAAGTGTTTGGACGGAAATACCCGCATTCTGATCAATCCCACGGGCCGCTTTGTGATTGGCGGCCCCCAGGGGGATTCTGGGTTAACCGGCCGGAAGATCATCGTCGATACTTACGGCGGAGCGGCTCGCCATGGCGGTGGGGCGTTCTCAGGAAAGGATCCGACGAAAGTGGACCGCTCGGCTAGTTACGCCGCTCGTTATATTGCGAAAAATGTTGTGGCAGCCGGATTGGCCCATCAGATCGAACTGCAGATTGCGTATGCTATCGGGGTGGCCGAGCCGGTCTCCTTGGCGGTGAATACCTTTGGGACCAATACGGTGCCGGAGGACGCGATCGTGCAGGCCATCCGGGATAATTTTGATTTACGACCAGCCGGCATCATCAAGATGCTGGACTTGCAGCGGCCGATTTACAAGCAGACCGCGGCTTATGGTCATTTTGGACGTACAGATGTCGATTTACCGTGGGAGCACTTGGATAAAGTGCCTGCGTTGAAGAAATTATTGCCTGGCAATAACTAA
>SRR1151209_02178 major facilitator superfamily transporter
ATGACCAAAAAGCAAACAAATGTCGCGGTAACGACCGCGGCGATCTTCGTCGCCACATTTATGACCGCCATCGAAGGGACCATTGTCTCCACGGCGATGCCGACGATCATCGGCAGTCTGCATGGGGTGGAATTGATGAACTGGGTCTTTTCGATCTATCTGCTGACCAACGCGATGGTTACGCCGGTGTATGGTAAACTGGCCGATGCCATTGGACGCAAACCGGTGTTGGAAGTGGGACTGGTGATTTTTATTGTCGGCTCTTGCTTGGCCGGGTTGGCCCAGAATATGATCCAGCTGATTGCTTTCCGAGCTTTGCAGGGGATTGGGGCCGGCGCCATCATGCCGGTCACGTTCACCATCATCGCGGATATTTATCCAATTGAAAAGCGGGCTAAGGTGCTGGGCTTCAACGGCTCGGCCTGGGGCATCGCGTCGGTCATCGCGCCGCTTTTGGGCGGCTTTATCGTAGAGCGGTTGTCCTGGCACTGGATCTTCTTTATCAATCTGCCGGTGGGACTGATCACCATTGCCTTAGTGCAGTTCTTCTTCTTTGAAGAAAAGCAGACCAGGGCCGTGCAGATCGACTACCCCGGCGTGGGCAGCCTGCTGGTGACGTTGTTTGCCTTGATGATCGGCTTGCAGCTGCTCACCGATGCCGGCTCGCGGCCCATCGCCTTTGCCGCGTTGGTTCTCTCGGTCGTCGGGTTAGTCGCCTTTATCCGCCTCGAAAAAAAGGCCAGCGATCCGGTGATCGATCTGGCCCTTTTCAAAAATCGGTCCTTTGTGATCCAAAATAGTGTCGCGGCCCTGGTGTCCGGCTTTCTAATCGGCTTCGAATCCTACATGCCGATGTGGATGCAGGGTATTCTGGGTTTGCCGGCATCCATGGGCGGCTTCGCCGTCACGCCCAGCTCTTTGATGTGGATCATTGGCTCGTTTTTGGCTGGTCATTTGCTGGTGAAGTGGAGTCCGAAGCATGTGCTGACGATTGCCTTGGCCTGGCTGCTGGTCGGCGCCACCGCGTTGGCCATCGTACCAGTGACCACACCCTTCGTCGCGTTCCTAATGATTGCCGGCTGGCTGGGTTTGGCTTTCGGCTTGATCATCACGATTACCACCGTCACTGTCCAGAACTCCGTGGTGCAATCTGAAATCGGCGTGGCTACGTCCTTCAATACGTTGAGCCGGACGCTGGGTCAAACCTTGATGGTCTCCGTCTTCGGGATCGTTTTGAACACCCATTTTGCCCAAGGTGTCGCCGGTCATGCGGGCTTAACGACGGATATGCTCAACAAACTGATTGATCCGCAAACAGCGGCCCAATTACCGGCTCATCTGTTGCCCACGCTGCGCAACATTCTTTACAGCGGGCTGCACGGCGTGTATATCGTCGGGATCGGCATCATTGCCATTGCGCTGCTGTGCAATCTCTTTGATGTACCGGACAAACTGCGCTCCCGGGCAGCGGGGACTAAGACCGCCCACGCCCGGCGCTCTGCCGCCCAGCAAGAGAATTCTTAA
>SRR1151209_02179 membrane-associated phospholipid phosphatase
ATGAATGCGCAACACCGAGCGATATGGCTGACCATCTTGAATTACGCGGTATTTATCGTCCTGCTGATTGGCGTCGCCACCCATGCTGGTTTTATCACTGTGATCGACCATGCCGGTCAGCAGTTAGCGAACCGGGTAACGAATCCGACCATGACCAAGATCATGCTGACCATCACCCAGTCGGCGAATCCTTTGAGTTTGATTGCCGTTACCGCTTTGATCATTATCCTATTGATCAGTACCCGCCAGTGGCGCTGGGGTCTTTTCGTCGGTTTAGCCGGCGGTGCTGCCAGTCTGCTCAACCTGATCATCAAATTGATCATTCAGCGGGCCCGGCCGACACTGCCCCACCTCATTGAACAGGGCGGCTACAGCTTCCCCAGCGGTCATTCGGACAGCAGCATCGCTATTTACGGCGCACTGATCCTATTTCTGCTGGTCACCCAGCGCTCCCGCTGGTGGCGGACCACCGCGGTGATTTTACTCACCGCCTTCATCCTGTCGATCGGGTTCTCCCGCATCTACGTCCATGTCCACTTCCCCACCGACGTCTTAGCCGGCTGGTTCTTGGGCTGGGGCCACATCTGCGTATTATGGCTGATTGCCCGGCGAACCTGGCTTAAGAATTCTCTTGCTGGGCGGCAGAGCGCCGGGCGTGGGCGGTCTTAG
>SRR1151209_02180 muramidase
GTGGCAAGTCGAGTTGCACGAATTCAAGGATTGAAGCGCGCCAAGAAGCAGTTACGCCGCAAACAATTATTGGCCGGGACGGGCACAGTCGCGGCTGTATCCAGTTTGGGTGTGGGCATTTTAGGGGCTGTTCACGGTCGTGCCCAGGCCACTGGGCAAAGCGTTTCTGCCCCGCCGCAGGCGACGGTATTCACTAATACGGACGAGTCGCATACCCAGTTTATCAAAACGATTGGCGACTCCGCACGGGATTTGGCCGCAAAGAATGACTTGTACGCATCGGTCATGATTGCCCAGGCAATTCTGGAAAGCAGCTGGGGCCAAAGCGGGTTAGCCGCCGCGCCGAACTACAATCTCTTTGGCATCAAGGGCAGCTTCAACGGCCAGTCCGTGAGCATGGCGACCCAGGAAGACGACTGTACTGGCAAACGGTATACGATCCAGGCCGGTTTTCGCCAGTATGATAATTACACCCAATCGCTGCAGGATTACGTCAATCTGCTGAAGCAGCCGATGTATACGGGGGCCCATAAGCAAAATGCCGCCACCTATCAGGATGCCACGCAGTTTCTGACCGGCCGCTACGCTACTGCCACAGATTACAATACCCATTTGAACACACTGATCGACCGCTACCATCTGACCGATTATGATCGGCCGGCCGGCAAGCTGGTCGTGACCACATACACCGTCAAAGCCGGTGATTCCGTGGACGGTATTGCTGCCCAATACGGCGTGAGCGCGAGTCAGATCGTTTCTCTCAATAATCTGGATGCGCAAACGATGCTGATCTTTCCAGGTCAGGTGTTAAAAGTGAAGGAACAATACGTTCCCACTGAACCGACCCAACAGACCAGTCAAGCTCAGCCGGCCGCGGCCAAGCAGCAGCCGGTGACTTACGATCATACCCACACCGTGACTGCTGGTGAGTCCATCGCCAGTATCGCGGCCAAGTACCAGATGTCCACCGATACGTTGAAGTCCGTCAATGAGTTGCAGTCTAACTTAATTTTGGTGGGGCAGACATTAAAAGTCCGTTAG
>SRR1151209_02181 leucyl-tRNA synthetase
ATGGCGTACAATCACCGGACCGTCGAGAAAAAATGGCAGCATTATTGGGCGGAACATCATACTTTCAAGACGACAGAGGACCCCAATAAGCCGAAATATTATGTCCTGGATATGTTTCCGTACCCGTCCGGCCAAGGTCTGCACGTGGGTCATCCCCACGGCTACCTGGGCACCGATGCGATTGCCCGCATGAAACGGGCCCAGGGCTTTAACGTTCTGCATCCCATGGGCTGGGACGCCTTTGGCCTGCCGGCCGAAGAATATGCCATTAAGACGGGTCATGATCCGGCCACGTTTACGGAGCATAATATTCAAACGTTCAAGCGCCAGATGAATTCCATGGGCCTGTCCTTTGACTGGGACCGGGAAATCAACACGACGGATCCCAATTACTACAAGTGGACTCAGTGGATCTTTGAACAGTTGTACAAAAAAGGCTTGGCCTATGAGGCAGAAGTGCCGGTTAACTGGAGCCCGGATTTGGGTACTGTCGTGGCTAACGAGGATATTGAAAACGGCAAGACGGAGCGGGGCGGCTATCCCGTCTACCGCCGGCCGATGCGTCAGTGGATGCTGAAGATCACCGCCTATGCCGACCGCCTGTTGGCTGATTTGGATGATCTGGATTGGCCGGAAAACATCAAGGAACAGCAGCGCAACTGGATCGGCCGGTCTGAAGGGGCCCAAGTAACCTTCAAGATCGCTGATTCGGATAAAACCTTCGATGTTTTCACCACCCGGCCGGACACCCTGTTCGGCGCGACCTATACCGTTTTGGCCCCGGAATCGGAATTGATCAAAGAGATCACCACGCCGGAACAAAAGGCCGCCGTGGATGCTTACGTTTTAGCCACTGAACGGAAGAGCGAGCTGGAACGGACGGAATTGAACAAGGAAAAGACTGGTGTCTTCACCGGCGCTTACGCCATCAATCCGGTTAATGGCAAGAAGCTGCCAATCTGGATCGCTGATTATGTTTTGGCGGCCTACGGTACTGGGGCAATCATGTCCGTACCGGCTCACGATGACCGAGACTACGCCTTTGCTAAAGCCCATGACCTGCCGATCATTCCCGTTCTGGAAGGCGGCAATGTCGCCGAAGAAGCCTTCACCGGCGATGGTGCCCACATCAACTCTGGTTTCTTGGATGGGCTGCATAAAAAAGAAGCCATGGCGCGGATGATCAGCTGGTTGGAAGCCCACCATGTCGGGGACCGCAAAGTGTCCTACCACATGCAGGACTGGGTCTTTTCCCGGCAGCGTTACTGGGGCGAACCGATTCCCGTGATCCATTGGGAAGACGGGACAACGTCACTCGTACCAGAGAAAGAGCTGCCCTTACGCCTGCCGCCGGCGACAAATATCAAGCCCTCCGGCAAACCGGAAGGCCCTTTGGCTAACTTGACGGATTGGGTGAACGTAGTCGGCCCCGATGGCCGCAAGGGCAAGCGGGAAACCAACACAATGCCCCAATGGGCTGGGTCTTCCTGGTACTTCCTGCGCTACATCGATCCCCATAACAACGAGGCTTTGGCCGACTTTGACAAATTGAAGCGCTGGCTGCCGGTGGATCTCTACATCGGCGGCGCGGAACACGCCACACGGCACTTGCTGTATGCCCGTTTCTGGCACAAGTTCCTCTACGACATCGGTGTTGTACCCACCAAGGAACCGTTCCAGCGGTTGGTCAACCAGGGCTTGATCCTGGGTGCCGGGCACGAGAAGATGTCCAAGTCCAAGGGCAACGTCGTTAACCCCGATGATGTCATTCGGGAATACGGCGCCGATTCCTTCCGCTTAATGGAACTCTTCATGGGTCCGCTAGAAGCTTCCACACCGTGGAGCGAAGACGGTATGCATGGGGCCAAGAAGTTCTTAGACCGGGTATGGCGCCTGTTCATCGATGACGACGACAAGCTGCGGGATCGGATCACGACCATCAATGACGGCCGCTTGACTAAGATCTATAACCAGACCGTGAAGAAAGTCAGCGATGATTTCGGTGCGCTGCACTATAACACCGGGATTTCGCAACTGATGGTCTTCGTCAATGAAGCCCAGAAGGTGGATGATCTGCCGGTGGCTTATGTGGAGGGCTTTGTCCAATTACTGGCACCGATCGCGCCGCATATGGCCGAAGAGTTGTGGCAAAAACTGGGCCATGACACCTCCGTTCAGCTGGCTCCCTGGCCGAAGTACGATCCCAGCCAATTGACTGAGGATACGGCGGAGATCATCGTCCAAGTCAATGGCAAGATGCGCGGCAAGTTCAGCGTTGCCCGGGATACACCGAAGGATGAACTGGAGAAGCAAGCGCTGGCCAACGAGCACGTGCAGAAGTTCATCGGTGACGGCACTGTGCGCAAAGTGATCACCATTCCTAACAAAATCGTTAACATTGTTGTGAAATAA
>SRR1151209_02182 polysaccharide transport membrane protein
ATGATGTCTGAAGAAAAACAGCCGGATGTCCGGACTAAACCGAAGCAGGACGCGAATTCGGACCGAAAGTCCCTCTTGGTCGGTTCCGCCTGGATGACGGCCGGCAGTATCATCTCCCGGGTCCTCGGGGCAATTTATGTGATCCCTTGGGGCATCTGGATGGGCACCCATTATCATTCAGCCAACGCGTTGTTTGGGCGCGGCTACAATATTTATAGTTTGTTCCTGATTATTTCAACGGTGGGGATCCCCGGGGCGATTTCAAAACAGATTTCGCACTATAACTCATTGAATGAGTACGGAATATCCCGGCGGCTGTTCTATCAGGGATTGATGCTGATGGGCGGCATGGGGGTCGTGACTGCGGGGGTGATGTACCTCGGGGCGCCGGTCCTGGCGGCAGGGGACCCACGGATGATCCCCATTATCCGCTCACTGAGCTGGCCGCTGCTCTTGATTCCGCCGCTGAGTATTTTGCGCGGGTACTTCCAAGGCTTTGCTGAAATGGCCCCCAGTGCGATTTCTCAACTGTTGGAACAAGTTGCCCGGCTGGTCTACATTCTAGGCGCCACCTTTGCCATCATGAAAGTGATGGGCGGCAATTATATTGATGCCGTGTCCCAGTCCACCTTTGCGGCCTTCATCGGGGCGGCCGCCGGCCTGGTGTATTTGGTGTATTTATACATGCGCCAGATTCCTCGGATGAACGCGGCCATTGCGCAAAGTGATCAGAGCCTGACCGTGTCGACCCGCCAGATCATTACGGATATCATCCGGCAGGCGGCCCCGTTCATTATTTTGGATGCCAGTATCACGCTGTATCAATTTTTTGATCAGTATACGTTCAACCCGTTCATGGATATGTTCTATAAATTGACCCGGGACCAAAATGATTATTTCTTCCAATTATTCGGGTTCAACAGTAATAAATTGGTGATGATCATTGTCTCATTGGCGGCGTCCATGGCGCTGACCGTGGTGCCGCTGCTGTCCGCAGCCCAGGCCCGTAACGACATGAAGAGTGTGCGGGAGCAGATCAACAACACCTTGGAGCTGTTTTTCTTTGTCATGCTGCCCAGCTCGTTGGGTATGGCCGCGGTGGCTCAGCCGCTGAACACGGTGTTTTATCGCTACGATCCTTGGGGCACCATGGTCTTGCAGTTCAATTCGTACATCGCCATCATCATGGGGCTGTTCACGGTGCTGGCGGCGATCTTGCAGGGCGTCTACCTGAATAAACAGGCGATTCGCTACCTGCTGTATGGTGCGATATTTAAAATTACGCTGCAGTATTCCTTTGTTTACTACTTTGGCGTCTTCGGCCCTCTGGCGACCACGGGTATTGGCTTCCTAGTCAGCTGCGGGTTCATGATTGCGCTGCTGTACCGTGATTTCCGCTTCCGCATGGGCGATCTCATTCGGGGCACGACGGAGATTCTCGTTTATGCCACGATCATGTTTGCCGTGGTCACGCTGGCTGTTTTCTTAATGAATATCGTTTTCCCCGCCCGGGATCGGATGTTAGCGATGGTTGAATTATTGCTGGCCGCCGGCCTTGGCGCCGCGGTCTACGGTTATCTGGTGCTCCGCTTCCGGGTTGCTGATCGGCTGCTGGGCGCCCGCGTCGCGGGTATTCGAAGGAGGCTGCATATCAAATGA
>SRR1151209_02183 ribosomal small subunit pseudouridine synthase A
ATGATGCGTATCGATAAGTTTCTGGCCCACCTGCAACTGGGCAGTCGGGCGGAAGTGAAAAAATTGCTCCGCGGGGGCAGTGTGACCCTCAATGGCACCACCGTGACAGATCCGAAAACCAAGGTGGACCCCGATCAAGATCAGGTGGCCTTGGGTGCTGAACCATTGGTGTACACCCAATATGTGTATTATGTGATGAATAAACCAGCGGACGTGATTACGGCCACCAAGGATGCCAAGGCAACCACCGTGATGGACTTGCTTCCGGATGAACTCTATCGGCCGGATATTGCCCCGGTGGGCCGGCTGGACAAGGACACCACCGGGCTGTTGCTGCTGACCAACGACGGCGAATTAAGTCACCGGCTGCTCAGTCCTAAGTGGCACGTGAATAAAGTCTATGTGGCCGGGTTAGATGCCCCGGTGACCCCGGCGGATGTCCGCCAGTTCGCGACCGGCATTCACCTGAAAGACTTCACCGCCGCGCCAGCGGCCTTAGTGCCGTTACCTGGTCAGCACGCCCAGGTGACCGTGCATGAGGGCAAGTTCCACCAGGTGAAGCGGATGTTCGGCGCGGTGGGTAAAGAAGTGCAGTCGCTGGAGCGGACCCAATTCGGCCCGCTGGTTTTGGCAGATGACCTGCTGCCCGGCGCGGTGCGGCCGCTCCATCCTGATGAGCTGACCGCCATGATGACCGCGGCTCAGTTGGTGAGAAAATAA
>SRR1151209_02184 hypothetical protein
GTGCGGCAGAGTTCAGGTAAATTAGGTTGTTGGGGCGCGTTCGGGGTCCTGTTGATCATCGCCCTGGTGGTTCAATATTGGTACGTCGTTGTCGCTCTGGCCGTCATTGCCGGTGCAGTCTATTGGTATTTGCAACGGCAAAAGGCTGAGGCGGCCGCCGAACAGGCGGAAAAGCAGCAGGCCCAGGAAAAAGAGGCAGATACCATCGCCAAGATCAAGGCGTATAAGCAGCTGTTGGATGATGGTGCGATTACCCAAGATGAGTATGATCGGAAGAAGAAAGACCTGCTGGGTGATGAGTGGGATAAGTTTTAG
>SRR1151209_02185 hypothetical protein
ATGAACTTCAACTTGAGCCCCAGAGAAATTGCGATTCTGCGTTACCTGGCTGGTGTCTTCGTTGGCTTTGTATTCTTCATCTTAATGGGCTATGCCGGCTGGCAGCTGCTGCAATCCACGGCCATTGTTGCCTTCTCAGTCGCGGTTACCGCCTTGATCCCCAATCTATTCAAGCTGAGAAAAAAGTAG
>SRR1151209_02187 hypothetical protein
ATGCGCATCAAACGAATTGCGGCATTTGCCCTGGTTTTGACCGCTCTGCTGGGCGGTTGCCAGAAACCGGCCAGCCAAGCCAAAGAATCCAGCAGCGCCAGTGCTAGTCAAGTCAGCAAGAAATCAGAAGCTGAAAGTTCGAGTTCAGAAGCCAGCGCTTCCTCGTCAACCAGTACTGACCAAGTTCAAGCCGCCACGACCCGGATCGCTGAGTTAAACAAAAAGTTGACGGATGTTTTGGGTAAAATGCCGCTGCCCCAAGCCGATGGGCTCGGTGCCGGCAGTGATCATCTGAATATCCGCTATGCCCAAACCGATACCAGCAAGACCATCTACTACAGTGTCGGCGATCAGGCAGAAGCGTTCAACGCGGCCTCGCTGCAAAACGAATATCCCTATGCCACATTGACCGAAACAACCTATGCGAATAATGACGCGGCCGCTGGTCAGGTGAATTATCAGCAAAACGTCGCCGGTTTGCCCACGGCTGATCTCGGCAGCGGCGTTACCGGCACGATCGATGCTGGCGCCGGTCAACGATACTTGCATTGGAACAAGGGCCAGTGGTCGTTCCTCGTTCATGCCGCCGCAGTGAACGGAGAAGATCCCGTGGCGACAGGGAAGCAAATCGTTACGTGGGCGAATCAATACGCACTGCCGGATGCCCGGGGTGCAGCTGAATTAGAAGTGGGGACCAGTTTCGCGGCCTTGAACCAGAAGTTCACCTGGCAAGTCGGAAACAAGGTCTATCAAGTCCAGGCGCACAGTGCGGAGACGGCAATGAAGATGATTGCCAGTATGAAGACTGAATAG
>SRR1151209_02188 carbohydrate kinase
TTGCAAAAAAGATTGATTACGGAACAACTGGCCCGGCGCGTCGTGCGGCCGCGGGCTCGGGATACGTATAAGGGCAGTTTTGGCCACGTTCTGGTGGTCGGCGGTAACGACCAGTATGGCGGTGCCGGTATCATGAGCGCCGGAGCGGCTGTTCATGCCGGCGCGGGCTTGGTGACTTTGGCTACCCGGCCGGTGAATTTCACGGCCCTGCATACCCGCTACCCCGAAGTGATGGCCATTGACTATACGGACCACAAAATGCTGGCGGAACTGATCACCGGCGCGACGGTGGTCGTCATCGGTCCTGGTCTTGGCACCGATCAAGAATCAGCGGAGACACTGGAGTTTACGCTGACCCACGTGACTGACCAGCAAACGGTCGTCATCGACGGATCGGCGCTGACCCTGCTCGCCGCCGAGAAGAAAATTGAGTGGCCCGCCAGCCATATCATTCTGACACCCCACGAGATGGAATTTGCCCGGCTCAGCAAGCTCAAGATTGCGGCCCAAACGCCGGAGGCAATTCAGTCCTATATGAACACATTGCCGACAGGAACGATTCTTGTCCACAAAAGTGCCCGAACAACGTTGTACACCCCGGGAAGTCAGGACTATTGGCAGAATACGACTGGCAATCCCGGCCAAGCCACCGGCGGTACTGGCGATACACTGACAGGGATCATCGCGGCATTTGCTGCCCAATTCGGCTGGTCAGAAGAAGCGATTGCGGCGGCGGTGTTCACACATTCGGCGGTGGCCGACCAATTAGCCGAGACTGAGTATGTCACCTTGCCGACAATGGTGATCGATCACGTGTCGGTGTATATGCGCCGGTTAAGCCAATCATAG
>SRR1151209_02190 sodium ABC transporter ATP-binding protein
ATGCTGGAATTGCAGGGATTAACCAAAACATTCGGCGGTCAAACCGCTGTCCATAACGAAACGTTCAGCGTCGCGCCGGGGACGATCATGGGTCTGATCGGCCAAAACGGCGCGGGGAAGACGACGACGTTCCGAATGATTCTGAACTTTCTCCATCCGGATAATGGGGCGGTGCTGTGGAATGGCCGGCCCATCGCCAACCAAGACCGGGCGTTCATCGGTTATCTGCCGGAAGAGCGGGGCTTGTACCCGAAGATGAAGGTGGCCGACCAGATCGTTTTCTTTGCCCAGCTCCACGGCCTCTCCCGGGCCAATGCCCTATCGCGGTTAGACGAGTGGATGGACCGGTTCCAAGTTAAGGGGAAGAAAACCGATAAAGTTAAAGACCTGTCGAAGGGGAATCAGCAAAAGATTCAGCTGATTGCTACTTTGATCCACATGCCCAAACTGTTGATTCTCGATGAGCCTTTCTCTGGATTGGATCCGGTGAATGCGGGCCTCTTGGAAGATGGGATCCGTTTGCTCAAGGAGAACGGATCGGCCATTATTTTCTCCAGTCATGACATGAGCAACGTGGAGGAAGTCTCTGATCATCTTGTTATGCTGCGCAATGGTGAAACCGTGCTGAACGGCAAAGTCAGCGAGATTCGCCATCAATTTGGCCGGACCAAGGTCTATTTGGAACAGCCGCCGCTGAGCGACGCCGAATTAGAAGCCTTCCCCGGGGTCGCCAAGGTGCTCCAGCAGGGCACGCGCTATACGCTGACCTTGAGCGATCCGGCCGCGGGTCGGGCGTTGTTCGAAGCCGCCACGGCGAAGGGGTATTTACCGGAATTCAGTCAGCAGCCGCCGACATTGGATGAAATTTTCAAACTGAAAGCAGGTGCATCGGCATGA
>SRR1151209_02191 ABC transporter permease protein
ATGAACACAGTCAAAATTGTTTTCAACCAAGTTTTTCGCAAAAATCTGAAGAGCGGTACCTGGTGGTCTATCGTCCTGTCGCCGCTGGTTCTCGGTCTGATCATGTTCGGGATCGGGTATTACGTCAGCAGTACGACGGCCCCGGCTGAAGTCGGCGTGGTCGCCGCGCAACCGATTCAGCAAGGGCTAAGCAAACAGTCCAGCGATTCAGTGAAGTATCGGACATACGGCAGTCAAGCCGCGGCCGAGAAAGCGCTGCGGGATAAGAAAATTGACGGGGTCCTCACCGTCAATGCCCAAACGCCATACACCAGCCGGTATATCAGCCGCCAAGGCGGCCAAGACGTCAGCAAAAACACGCTGACGGCGGATCTGAGCCAGCTGAATACGGCGGCCGTGGCCGGCGAACTGCACTTGACCGGCGCTCAGCTGACCAAGCTGCTCACGCCGCCCACGGTGACTACCCGGAGCGTGACGTTCTCGGATAGCGGCAAGATGAGCACCAAGGGCGGCGCCGACGAGGGGGCTAAGTATTTCCTGGCCATGGCGATCAGCGTGCTGTTCTACGGCTTCCTGCTCAGCTACGGATCCATGACCGCTCAAGAGATCGCCACGGAGAAGGGCAGTCGGATCGAAGAAATGATTCTTGCGGCGATTAGCGCACGGGCCCAATTTATTGGTAAAATATTAGGGATCATGGCATTGATGGTTGTTCAAATCATTCTGTACGGCATTGCGACCGGTATTGCCTTGCTGGTGGGCCGCAATAATCAAACGATTCGCGGAATCGTCAGTCAGGTGGATTGGTCAATGCTGGACGGCAGCTTCCTGGCAGTGACCCTGGGCTTCTTCATTGTTGGAATTCTCAGCTACACCGTGCTGTCTGCACTGCTGGGGTCCCTGGTAGCCAGTCAGGAACAGGCTGGCCAGGCCTCCATGCCGGTGGTGATGCTGTCCTTGATCGGGTATCTGGCCTCCCTGATGTCCGCCAACGGCAGCACGCCGCTGATGAGCATCATGAGTTACATCCCGTTCCTGTCGCCGATGATGATGCCCTCCCGGCTGGCGGTGGGTCAGGTCAGCAGCGGCGAGGCCGTGATCGCGCTGGCCATCAGCACGGCCTTTCTGATCGTCTTCACCTGGCTAGCGGCGAAACTCTATGAAACCAATGTGCTGGCATACTCCGACAACAGTATCTGGCATGCGCTGCGTCAGTCATGGACGATCGCCCGCAGCGAACGGGGCCGGGGCAAAGCTGTACCAGCAAATACGAAATAA
>SRR1151209_02192 GntR family transcriptional regulator
ATGCGGATCGTCGTATCAAATAAAGCGGGTATTCCGATCTATCAACAGATCGAAGACCAAATTAAAACCGCCATTCTTGCTGGCGATCTGGTGGAGGGCACATTGCTGCCCTCCATTCGTCAGCTCGCGAAAGATTTGCAGATCAGTGTGATCACCACGACGCGGGCCTACCATGACTTGGAGGAGCAGGGATTTGTAAACAACGTCCAGGGCAAGGGCAGTTACGTGCTGGGCCAGGATAGTGCGCTGGTTCAGGAGCACGCCCTGCGGGAGATTGAGGAGCACCTCGGCGACGCCCTGGCGGCGGCCCAGCTGGCGAAGATTCCCGTGCAGGACCTGCACACGATGCTTGATACGCTGATTGCAGCAGAAAGTGGTGATGATGGTGACCGGTGA
>SRR1151209_02193 multidrug ABC transporter ATP-binding prrotein
ATGATGGTGACCGGTGAGGAAGAAAATCTGATCGTCGTGGACGGTTTAGCGAAACAGTATAAGGAGTTCACCCTGCATGGGATCCATTTCCATTTGCCCGCCGGCTACATCATGGGCATGATCGGGCCCAATGGGGCGGGGAAAACCACCACCATCAAGGCCTTGCTGGATATGATCCGGCCGGATGCGGGAACCATCAGCTTGCTCGGCGCCGCTACCGCGGCCGACCGGATCGCTCTGCGGGACAGTTTGGGCGTGCAGTTGGATACCACGCTGTATCCCGATTATTGGCGGGTGAAGCAGGTGGCGAAAAGTCTGCGGTCTTTCTTCCCCCAATGGGATGATGCGTATTTTGACCAATTGTGCACCGACATGGAGATTCCGCTGAAAACCAAGTATAAGAGCATGTCCCGGGGGACCCAGGTGAAGCTGCAATTAGCGGCGGCCTTAGCCCATCATCCGCGCTTGCTGATTTTGGATGAACCCACGGCGGGGCTGGATCCGCTGGCCCGGGATGAACTGCTGACCCGATTGCAGGACTTTATCGCGGATGGGCAGCATTCGGTGCTGCTGTCGACCCATCTGACCGGAGACTTGGAACGAATCGCGGACTTTCTGCTGTACATTCGCGGCGGCCGGCAGCAGTTCTTTGGCCACGTGGATGATCTGCTGGGTCAGTATGTATTGATCAAAGGCGGCTTAGCTGATTTGACGCCGGCCTTGCGTGCCGCGTTGATTGGTCTGCGGACCCACAGCGAAGGGCTCAGCGGCTTGCTGGCGGTGGATCAGACGGTGGGTTTGCCAGATACCCTGCTTCAGGAAAGCATCACGCTGGAAGAATTGATGATTTACTTTGGGAGGGGCCCCCATGCGTAA
>SRR1151209_02194 hypothetical protein
ATGCGTAATGCAGTGCGGATCATGCGGCTCGATATGCGGTCCGTGAATACACGCAGCAGTATCTTGTTCATTTATCTCATCACGGACCTGGTCACCGTGGCCTTAGCGTTCAGTCCAATGCAGAAAACGGCGTTCCTGGTTGGGTTCGGCGGTCTGATCGGCGGATCGGGGGCGTGTCTCATCACCCCGTTCATTGCCAGCGGTCAGCGCGGACTCGACGCGTTTTATGCTTTGCTGCCAGTGCGCCGGCGGGATGTGGTGAATGGGCATTACTTGTTTGCGGTCACGCTTGGCGGACTGCTGCTCCTGAACACCTGGCTGATCGTGATTGTACTTCACTGGCTGCGGCCGACGCTGTTCAGTGCTGATTTGCCGATTTTGATTGCCTTTGCCCTCGTCGGGCCGTTTATGCTGCTGCTGATGTCGTCCGTGCAATATCCGATAGTGATGCGGATCGGTTACGAAAAGGCGCCGTATTTGATCTTCTTGCCGATCGTGGCGGCGGGCCTGGTGTCGGGGTACATCGCCGGGTCGTCCACTGATCTGCTCGGGCCCCGGGGGGTCTTTTCTGCCCGCGGGTATCCCTTGCTAGGCTTGAGCTTGGCCGGTGGGGCGGCGGTGTTCCTGGTGTCGCTGTTGGTGGCCCGGCGGTTGTACGGCCAGCGGGATTTGTGA
>SRR1151209_02195 hypothetical protein
ATGCGCAACGCTTATAAAATGATGATGCTCGACATGCACGCCGTCAGCGCGCGGAATAATGTGGTCTATATTTACTTGGCCATTGATTTGATCACGATTGGGTTAGCGTACAGCCCGATGCGCGAAGATGCGTTTTTGATCGGCTTCGGCGGCATGATCGGCGGGTCCGGCGCGTATCTGATCACGCCGTTTATCTCCAGCGCCCAGCGCAGTCTGGATGCGCTGTACGCCATGCTGCCGATTCGCCGGCGGGATGTGGTCCATGGCCACTATCTGTTTGCGCTCACGGTGGGGTTGCTGATGTTGGGGAATACGTGGCTGACACTGATGGTGATCCATCTGCTGCGGCCAGCGCTGTTCGGCAGCGACTTCCAGATCCTGCTGTCTATCTCTTTGGTCGGCCCGTACATGCTGCTGATGATGACTGCCGTGCAGTATCCGATTCTGATGCGGGTGAGCTATGAGAAAGCGCCGTACGCGGTTTTTCTGCCCTTTATCGTTACTGGGTTGTTTGTCGGGTATCTGGGCGGTATTTCTTCCCAATTCGTGGGGACGGCCGGCTTTCTTTCTCGTCGGGGCCTGCGGATTGGCGGGATTGCCTTAGCCGTTGGTGCGGTGCTGTTTATTGGGTCGCTCTGGCTGGCCCGGAGATTGTACGAGTATCGGGATTTGTAA
>SRR1151209_02196 aldo/keto reductase
ATGTTCGACGCCGTCTCCACCGTGATTCCCGGCGCCAGCAAGGCCAGCCAGATCAGCCGCAACACGACGGCCGCCGACCTGCCCGCCCTGACTCACGAGCAGATGGGCATCGTCGAAGACGTGTACGCACAATACATTAAGAACCCGGTCGATTATCTCTGGTAA
>SRR1151209_02197 aldo/keto reductase
ATGAAATACAGAACTTTAGGAAAAACTGGTTTAAAAATCAGCGAAGTCTCCCTCGGCACCTGGCAGCTTGGCGGCAAATGGGGCGACCCGTTCAGCACTCAAGACGCCCAAGACACCCTCGCCGCGGCCTATGACGCCGGCGTGAACTTTTTCGACACCGCCGACGTCTACCAAGACGGCCAAAGCGAGCACGCCATCGGCCAGTTCCGCAAGACTCACGACGACATCATCATTTCCACGAAAATCGGCCGCAAGCTACCGGAACAAACGGCGGCCGGTTATTCACCGGACAATATCCGCCAATGGATCGATGATTGTCTAACCAACCAAGGCGTCGACGCCCTGGACAATGTCCTGCTCCACTGTCCCAGTTTCGATACATATTACACGCCTGAGACTTTCTTCACGTTGGATCAGCTCCAAAAAGAGGGCAAGATCAAGAACTACGGGGTGAGTGTCGAAAAGGTGGAGCAGGCTATCAAGGCCCTGGACTACAACATCGGCAGCGTGGAGATCATTTTCAACATGTTCCGCCTGCGCCCGGCCAAGCTGTTCTTCGAGCTGGCCAAGCAGCACAACGTCGGCATCCTTGCCCGGGTGCCGCTGGCTTCGGGCCTGCTGTCTGGTAAATACACCCTGGATACCCAGTTCGGTCCCAACGATCAACGGACGACGAATCGTCACGGGGAGCAATTTGACAAGGGTGAGACCTTCTCCGGTGTCGACTACGCCACCGGCGTAAAAGGCCGCCAATGA
>SRR1151209_02198 hypothetical protein
ATGAAGACACGTACATTGCACATCGCACTTATATCCGCATTATCGTTAATTCTTTTGGCTGGTTGCAGTGAAGGCACCAACAATCACAGCGCTGCAGTGTCCCAGTCCGATACGACATCCTCATCCGTGAAGGCACCTAAGAAGTCAGAAAAGAAATCTGAAAGCAAAAAGAGCAGTGACAAGCAGGTCGCCGCTGCCGCTAGTTCCACACCGGACAATAGCGAGGGCACTGATCAAAACAGTGCTTCCCAATCAACTGAATCCAGCCAACCGGTAGCGAATAATGATACATACAGCGCACCGGCAGCCAGCACCCAAAGCAGTCAGCAGCAAGCTGCTGCGACAACCAGCAGTCAACCGCAGAGCAGCAGCACTAGCAGCGTTGCGTCTTCTAGCAGCAAGCAGGCAGCAGCTGAAAGCAGCTCGACTGAATCCGCTGTACCGTTGGCGCAATTCTACGGTAAGTGGGATGGTGCAGACGGGTTTACGATTTATTACACCACAACTGGGACGATGGTCGTAACCCAAGACGGGAATACAACTCAGTCACCGGTAGTTGCTGAACAAATGGCTGACGGCCGCGTGCTCTTCCGGGCCACTAAGCCGGGGATTAATAATATTCTTGCGAAGATCAGCAATGGTAAGATGTATCTGACCATGGCCGGGTATGATTCGTTGGAATTGACTCGGGATGCTGGCTGGAATGGGCAGTTGCCTGAGTAA
>SRR1151209_02199 hypothetical protein
ATGACTGATTCAAGCCAGGAGAAAAAGATCGCGAGCCTTCTTGACCGGGCATTTGCGGCCTATCATGGACTTATCTTTTGGTATGATAAAAGCGGTCAGTATTTGACGTGGGTCAGTTATTTTCAAGCGGTTAGCAGCGTAGCTGTCATCATCGCCGGGCCAAATGAGCAATTTACTACCAAAGAGACCGTGGCCCAATTGTGA
>SRR1151209_02200 ABC transporter ATP-binding protein
ATGAGTATCTTGGCTTTACAGCAGGTCACGAAATCCTTTGGCCCGCAGCAGATTTTGGATCATGTTGATTTCACCATCGATACGCCCACCATTATGGCGTTAGTCGCGCCCAATGGCAGCGGCAAAACGACTTTGATGGATATTATTGCCAATCTGGGCCGCGTGGACAGCGGGACGGTCACGGTGCTGGACCGCCCGCATACGGATCAGATGCTGTACACCGACATGACCTATATGCAGGGCGACAATACCTTGTTTATGAACATGACCGGGCAGGACCACATTGATCTGATTCAGCGCAGTTACCATCTGGCAGCAGAGCGGGTCGAGCAAGTCGTTGGGGAGTTTGGTATCGGCCAATTTTCGCAGAAAAAAGTAAAGACCTATTCCCTGGGGATGAAGCAATTACTGCTGATCACGCTGGCCCTGCTGCCGGCGCCCAAGCTGGTGATGCTGGATGAGCCAGTGAACGGCTTGGATCCTAAGGCGGTCCAGAGTCTGCGGAATGCCTTGCAGCGGCTGAATAATCAGGGCAGCACGATCATTTTTTCTTCCCATGATTTGAGCGAAGTCGATCGGCTGACGGATAATGTTGTCTTTCTGGTGCGCGGCAAGCTGGTGCCGATCACGACATTAGCGCCGACGACCACATACACGGTGGTGCTGCCCGATGCCCGCTTCCTGACGACGCTCCTGGATGCAGAGCAAGTGCAGCTGCTCACGCCTACCAAGGCGACGGTGACGGTACCGCCAGCAGAAATGGCAGCCCTCCGGACTAAGCTGCAAGGTACGGCCCACGCGATTCTGGATGCGGTGGCCACCCGTCAGGGGACTGAAGCCTTGTATTTTTAA
>SRR1151209_02201 hypothetical protein
GTGGCGAATATCAACACGTTAATTGGCGGTGGCGGGACAACATTTAGTACCAATATTCAAGTGCGTACTAGCGCGGCACCATTGCCCCAGGCCCGCGTTGATTTTACCCAAGCCGCGGCCGGTGAATACAACGGCCGGGACGGCATTACGGTGGATGTCGCCAACCACGTCGGCAATATTTTTGCCGCCCAGTCAATTACCGGCGACATCCGGGCCGTGGACCAAGCGATACAGCCGCGGCGCCGGACGCTTAAACGGATTAAAATGGCGCCGCACTCCAACTTTACTTTCTTCATTCCCCATGCTGACCTCAGGATGGGCAAGTATGTCGTAACGATGGCCGCTCGGCAAAAGAACAAAACGGTTAAGCAGCAGACATTTGCCGTGACGGTGGACCGGCGTTTGGCGACGGCGGCCAGCAAAGCGGAATTGCAAACGCAGGTCCTGATTCAGCGATGGCTGATGGGTATTGCGGTTGGCGGGGTAGTGGTGATTGCTTTGATTTTTGCAGTGCACCATATTCGGCGCAGACGCAGGGAGGCGGCACAATGA
>SRR1151209_02202 hypothetical protein
ATGAAGCGCAAGCAATGCATCATTACCGGTGTTTGGATAATTATCTTAGCGGCGTTCATGCTGCTGCCGCGGTCTGCGCAAGCGGCCGACATTAGTCTTTCTCAGGTCCTGTACGCCGACAGCCAACGCGAAGTGGTTGGTCCCGTGCTGGTCAGACCAGGTACTCAGAGAAAAATGATTGTCCGGGTCACCAATGGTGATCAGGATACACATATTGATATCGGCGTCGATGCCGCACTGACCAACGATTTTGGTCAGCTTGATGATCAACACACGGTTAAACGCACGCCCTTGGACAATGCCCTCAGCTGGCCAAAGATTGTTAGCGGTCTGCCCAAGGAAAGGGTGCCGATGGCCGCGGGAGACTAA
>SRR1151209_02203 membrane protein
ATGTCAATTCTAATTGGCGGTCTGTTCATTTTGATTGGTTTGATTCAGATCTATATTGCGTATCGGACTTTTCGGAAGATTAAAACCAGCGGTGGTAAGGATATATCGCCATTCATGCCGCTGGCTCTGTATGGCGGACTGGCCTTCGGTATTATTTTGGTGGCGGTCGGGATCAGTGCGGCGGTTGGGTCGTTCGGACCGTTTTAG
>SRR1151209_02204 hypothetical protein
ATGTGGCGATATTATCCGCGCAATGCGCGTTTAGAGGCAGAAATTGAGTATATGAATCGATTTGCTCAAGAGGGGTATGTGCTGCAGCGCCAGCGGGGGAACTTTCGGCAGTTTGCGAAAGTCGCTGAGCCGCAACAGGTGTACTTGTTTGTTTCCCACGAAAGCACCTTGAACACCGGCTATGCCGGCGGGCACGTAACGACGGTGCGATTGCAGCCCAAATTGTTCTTGCATTATTTGTATGTGCCAGCGACGATGCGGCCGGAAGACTTGACCGTCCAGCCGGGGGAAGACGCCTACATGGACTATCTCGACTACATGCGGCAAGGGATCGTGCGTCAGGAATTCGGCGGTCTTGGGTTCTTTGTTTTGGCGGCAGGGATCATTGGCTTAGCGATGCTGGTGCCGCCGGTCGGGCCGGCGGTGATCGTTTATATTCTGGCTGTACTGGCCGCCCTTGGGGTGCTGGCTCTGGGCATTTGGCGGTTGTTCCGGGCAGTGAATAATGGCCTGTTTTTGAGCGGGAATCAAGCGGTAATGACGCCGTTCTATGTCGTCATCACTATCTTGAAACCGGACATGCTGACTGATCAAGAAGTGACCTCCCAAGTAGCCCAGGCTGTGGGCGATGGCAATTTTCGGTTGGTGACGCGTCGGAAGAATGCCTATTATTTCACGGTGACCAACTTAGGCATCAATGTGGATGAGCTGCGCACCGAATTGAATGACGCTTTGGGTGATCGGGCGAAAGTTCAAGCTAGTTATCCGGGTCATGGTTTCGCAGTGCGGCTTCAATAA
>SRR1151209_02205 cellobiose-specific PTS system IIC component
ATGAACGATTTTGTTAACAACAAAATACTGCCTCCTGTGATGAAGTTCGTGAACACAAAAGCCATTATGGCTTTACGTGATGGGATGATTTTCTCCATCCCCTTCATCATGGTTGGTTCTGTATTCTTGCTATTATCATCATTACCAGTTCCGTCTTGGGCAGCCTTTATGGCGAAGACAGGCTGGTCGGCCTGGTTCAACCAAGCATACAATGCGTCGTTTGGGATTATGGCGTTATTCGCAGTTCTGGGAATCGGCTATTCCTGGGTTAAAAACGAAGGCTTTGAGCCGTTATCTGGCGGGATTACTGCATTGGTTGGTTTCATTTTGGTTATGCGGCCAACAGCAGCCATCATGAACCCGGCTGGGACTAAGGTACTAATTAAGGATACGTCTTACCTGTCAGGTTTTATTGACCGGACATGGCTGGGCGGCCAAGGGATGATTGCTGCAATCATCATTGGCTTGATTACTGGTTGGATTTATTCGTGGTTCTTGCGCAAGAACATTACGATTAAGCTGCCTGAACAGGTTCCTGCAAATGTTGCAGCTTCGTTCACAGCTTTAATTCCAGCATTTTCAATTACTGTTATGTGGGAAGTCGTGTACATCCTCTTTGATAAGTTTGGCCATACTACGATGACCCAATTTATTTATAAGGTTGTCCAAACACCGTTACAGGGGGTTACTGATTCGTTCGGTGGCACCTTGGTGATCGCCTTAATCATCCCATTTATGTGGTTCTTCGGCGTTCACGGGGCGATTATCATCGGCGGCATTATGGGACCGTTGCTGCAAGCAAATGCCTTGGACAATGCCCGTATTCTTAAGTCTGGCAAGGCGCTGACTGTTGCTAACGGTGGGCACATTGTCACGCAATCCCTGCTGGATCAATTTGGCACTGTTACTGGTTCCGGGATGACAATCGGTTTGGTCATCTTCATGGTTGTATTCGCGAAGTCGGCGCAAATGAAATCATTAGGGGCATTGGAAGTGGCCCCAGCAATATTCAACATCAATGAACCAATTCTATTCGGTTTACCCATCGTAATGAATCCGTTGATGTTCATTCCATTTGCTATCACGCCAGCCATTTCCATGGGCTTGACGTACTGGGCGATTAAGTTGGGCATCATACCGCTGTTTACTGGGTTTATGCCGCCTTGGACAACGCCGCCAATCATTTCTGGATTCTTGGTCGGCGCAAGTTGGAAGACTGCTGCTTGGCAGGCATTGATGCTGGTTATGACCTTCTTCATCTATCTGCCGTTCGCGCGTCGGATGGACAAACAGATGTATGCAGAAGAACAAGCTAACTTAGCCGCTGAGGAAGCAGCCAAGAAGAACGCTTAG
>SRR1151209_02206 L-2-hydroxyisocaproate dehydrogenase
ATGGCAAGAACGATTGGTGTCATCGGGATTGGTCACGTTGGCGTGACGACCAGTTTCAATATTGTGACCAAAGGATTGGCCGATACATTATTGATGATTGATACGAAACCCGGCTGGGCGGAGGCCGAACGGCTGGATCTGCAAGACAGTCTGGGCGGATTGAATACGTATACCCGCATCGTAGCAAATGATTACAGCTTGCTGCGGGATGCGGACGTCGTGATCTTCAGCGGCGGCGACATCAGCGTGATCAAGGATGGTGACCGCAATTCGGAAATCAAGACGACGAAGGCCGCCATTGATGATGCTGCCCCGAAGCTGACCGCTGCCGGCTTCCACGGTGTGCTCATCGACATCAGCAATCCCTGTGACGTGGCGGTGACCTACTGGCAAGAAAAGCTGGACCTGCACCGGAACCAGATCATCGGTACCGGGACCGCCTTGGATACTTACCGGATGCGGCGGGCAGTGGCTGAAGCCATGAACGTCAACGTTGCTGATGTCCGCGGCTTCAACCTTGGCGAACATGGCGAATCCCAATTCACCGCCTGGTCGACCGTCCGGGTGAACAACGAGCCCGTGAAGGCCTCACCGGACTTCAAGGAAAAGGACTTAGCCGAGGCTGCCCGGCTCGGCGGCTGGCAGATTTTCAACGCCAAGCACTACACCAACTTCGGCATCGCGACGATTGCTTGTGAAATGGCCCTGGCGGTGATGAGCGATGCCGGCCGGATTTTCCCGTGCTCGTCTTACGACCCCCAGTACGGCGTGAGCATTGGCCATCCGACCATGATTGGCCGAGCTGGTGTTATCAGTAATCCGCCGATGCATTTGACCGGCGATGAAGTAAACCAATACGCCCATTCCGCCGATACAATCAAAGAGAATCTGGCGAAGTTACACGCTTTGGATTAG
>SRR1151209_02207 membrane protein
TTGCCCGAACAAAGAATGGAAGCCTTTACCGATGCGATTTTTGCGATTATTATTACCGTGATGGTGCTGGAACTGCACGCCCCGGCGAGTGGAAAATTCAGTGCCCTCTGGTCGCTGCGGCATACCTTTGCCATCTATCTCGCCTCATTTCTGATCCTGGCGGTCTATTGGAACAACCACCACCATCTCTTCCAAATCGTACGCTCCATTGACGGCGTCGTGCTCTGGGCGAATACGATCTTTATTTTGTTCATCTCGCTGTTCCCGTTTGCCACCGCCTGGGTGGGGGATAACCACGTGGATAGTGTGGCACCGGAGATGCTTTTTGGCACAGTGATGCTGTTGATGGATGCCATGTTCTTCGTGCTGGTGCGGACCCTGATCCACGCCGACGGGGAGAACCCGGAGATTCGCAAACTGGTGGGGAAAGGCTACAATAAACCGTATATTTCGATGATCGGCAACTTGGCGGCCATCTTTTTGGCCTTGATTTGGCCGCCCTTGACCGTGATCGTTGATACACTGCTGTTATTGCTGTGGGTCCTGCCCGAACGGCGGATCGAACGGCACGTGACCAACGGCCAGTGA
>SRR1151209_02208 oligo-1,6-glucosidase
ATGAGTAAGGGAAAATGGTGGCAAAACGTTGTCATGTATCAAATCTATCCGCGCAGTTTCCAAGATAGCAACGGAGACGGTATCGGGGACATCCAGGGTATTATTTCACGGCTGGACTATTTGCAAGAACTGGGCATCGGCGGGATCTGGCTAAGCCCGGTGTATCAATCGCCAAACGACGATAACGGCTACGATATTTCTGACTATGAAGCAATCATGCCCGAGTTTGGGACCATGGCGGACATGGAAGAATTGATTGCGGAAGCGAAACGGCGAAACATTCGCATCGTTATGGATCTGGTCGTCAACCACACCAGCGACGAACACAAGTGGTTCGTAGAAGCACGCCAGTCCCGGGACAATCCTTACCACGACTACTATGTCTGGCGGGATGGCCAAGGCGATGGCGATGTCCCCAACGACCTGCAGTCAACTTTCGGCGGGTCTGCCTGGACCTATGAACCCGCTGTCGGCCAATATTACCTGCATCTTTTCAGCAAGAAGCAGCCGGATCTCAATTGGCAAAATGACAAAGTCCGCCATGCGGTCTACGCGATGATGAATTTCTGGATCAATAAAGGCATCGGCGGCTTTCGGATGGATGTCATTGACCTGATCGGGAAAGAACCGGACAAAATGATCACCGGCAACGGGCCCAAGCTGCATGACTATTTGCAAGAAATGAACCAGGCCACTTTTGGCGGTAAGGATCTGATGACTGTCGGCGAAACCTGGGGGGCCACCCCAGCCATTGCCAAAGAATATTCCGATCCTGCCCGCCACGAATTATCCATGGTCTTTCAGTTTGAGCATGTCGGCTTGGATCAACAGCCTGACGGTGAGAAATGGGATCTCAAGCCGCTCTCAGTACCGGCACTGAAGCGGGTTTTGTCCAAATGGCAGACCGCTCTGGGCGATCAAGGCTGGAATAGTCTCTTCTGGAACAACCATGATTTGCCCCGCATCGTGTCCCGCTGGGGTAATGACGGTCAATACCATGACCAAAGCGCCAAGCTGTTTGCTATCCTCCTGCACATGATGAAGGGGACACCCTATATCTATCAGGGGGAAGAAATTGGCATGACCAATTATCCAGTCACTTCCGTGGATGAAATCAACGATATCGAAAGTATCCGGATGTACCACGCCCGGATCAAGGCTGGCTATTCCAAAGAAGATATTCTGCGATCCATCAACGCCAAAGGCCGAGACAACGCGCGAACGCCCATGCAGTGGGATGCCACAGCCAATGCCGGCTTCACCACCGGGACACCGTGGCTGCACGTGAACCCGAATTACGGGCAGTACAACGTCAAAGACGATCTTGCCGATCCCCACTCAATATTGGCGACGTATCAGCGGCTGATCGCGCTGCGGCAGGCTAACGATCTGGTGGTTTGGGGCGATTATGCGTTGATTTCAGATACGGCGGATAATGTGTTTGCTTATTATCGGACGTATCAGGGCGAGCGCTGGTTGATCGCGGCTAACGTGTCCGCGGAAACAAATGAGTTTGCGCTGACCGATGCGGTGACCGAGCACGTCATCGGGAATTATGATGACCAGACGATTCAGACTGGTCAGCTCAAGCTGCGGCCCTATGAGGCATTTGTGGTTAAGGTCCGTTAG
>SRR1151209_02209 alpha-glucosidase
TTGAGTGAAAAGCCGCTAGCGGCACTGAAAAACCAGAATGTTGCAGAAATCACGTTTGCCGATCATACCAGGCTTGCCTTGCAAGTCTTCAGCGACACGATCATCCGCGTCTGTCCCATTGATGCCTTAGCCAATCCGTCCTATGCCGTGGTGGCTAAACCGCAGCCCACGCACTTTACTGTGCAAGTTGAGGCCGGTGTTGCAGCAATCAGTACTGCCGCGCTCCATGTCAAAATTTATCCCGATCACCATATGGACGTGTATGACCAAAACGACCGCCCACTCATCATGGATTATCGCGGGCAGCGCCAACCGCTGAACCGCGACCTGGCCGCTGACGAGACGTCGCTCTTAGAGGAGGAAGGGCACGCCGGTCATGAAGCGGTCAACGCGGCGGCGGCCTTAACGCTCATCAAACAACTAGACCCGGACGAAGTCTTTTATGGTTTGGGCGACAAGACGGGCTTCATGAACAAGCGCGGCTATGAATACGAAAACTGGAACACTGACGATCCAGCGCCGCAAATGGAAAATTTTACCCGGCTCTACAAATCAATCCCAGTATTGTATGGTCTGCGCCAAGGCCGCCCCTATGGCCTGTTCTTTGACAATCCATACCGCAGTCACGTTGATCTGGGCAAGGAAAGTCCCGATTACTATGCCTACAGTGTGGTCCACGGGCCATTGAACTATTACATCATTGGGGGGCACCGCTTGGCCGATGTGGTCACTAATTACGCCCATCTCACTGGTACTGTGCCGTTACCCCAGCGTTGGACCCTTGGGTATCAGCATTCCCGTTACGGCTACCAAGACGCACCGGAAATCAATCAAATCGCCGATGATTTTCGCCAGCACGATTTGCCCTGCGACGCACTGTATTTCGACATTGACTATATGCATGGCTATCGGGTCTTCACCTGGGATCCTGCACGTTACCCGGACCCCGAGATGCTCATTACCCAACTGCATAAAAAAGGGTTCAAGGCGATCACCATTATTGATCCAGGGGTGAAAAGGGAACCGGGCTACCCAATTTATGACGACGGTAAAAAGCATCAAGTATTTGTCAAAACACCTGCTGGCAAGGACTATGTGAATCGCGTCTGGCCGGGGCACACGGTATACCCAGATTTCGGCAGCACCAAAACCCGCCAGTGGTGGGGCCAGTGTCATACAGCCCTGACTCAGATCGGCGTTGATGGCATCTGGAATGATATGAACGAGCCGGCGGCGTTCGACGGACCAATCCCGGACGATACAGTTTTTTCAGACAATGATAAAAAGTCGACCCACGCTAAGATGCACAATCTTTATGGGCACAACATGTCCCATGCCACCTACGCTGCACTGAAAGAACAGACTGGTCGGCGCCCGTTTGTCATTACGCGGGCGGCTTATGCTGGCACCCAACGCTACGCGACGGTGTGGACGGGCGACAACCACAGCCTGTGGGCTCACCTGCAAATGATGATTCCGCAATTGTGTAATCTCAGCATGAGCGGATTCAGCTTTGCGGGGACGGATCTGGGCGGTTTCGGTTCCGACACGACTCCTGAATTGCTTACCCGTTGGATTGAAGCGGGGCTGTTCAGTCCGTTATTCCGGAATCACAGCGCGCTGGGTACCCGGCGCCAGGAACCGTGGTTGTTCGGTGAATCGACTTTAGCCATTTATCGCAAATACCTTAAGCTGCGCTATCGCTTCGTTCCGTACCTGTATGACCTCTTTGCCCTGGCGCAAAGTACCGGCCGGCCAGTGATGCGCCCGCTGGTCTATGATTTTGACCAAGATCGGCAAGTGTACGACATCGATGATGAGTACCTAATCGGCGATGCACTATTGGCGGCGCCGGTGGTGACGAAGGGAAAGACCAGCCGGTTGGTTTACCTGCCGGCTGGTCAATGGATCGATTTCTGGACCGGAGCAGTCATTGCCGGCGGTCAAGAAATCCAAACTGCCGCCCCGCTGGACACCTTGCCGTTGTACGGGCAAGCAGGCACCATGATTCCTTGGGGACCAGCGCATGACTTTATCACCGATGAACCAGACCGGGCCATGAGCTTCAAGGTGTTTGGCGATGCCGCCAGTTATGATCATTATCAAGATAACGGGTATGACTTTGCTTATCAAAAGGGTGAGTTTAACCAGTATCACATCACCTTCGCCCAGGGCAAAGCGGCCGTAACGTTAACAAAAGCCGGTTATCCGGCAGGCTTGTATTCGCGCATCACCGTCACGGCCGGCGATCAGTCCTTTGCACTGCAATTAGAAAACGGAAAATATCAACGAATCGATAAGAATTGA
>SRR1151209_02210 hypothetical protein
ATGAACTTTATGAGAATGGCCGACGGTCTGGCCCACACGGTTTATCAGTTTATTGTGCTCAGTATCCTGTGGTTCATGCTGGACCTGCCCTATGCGGCGTTGATGATGATGGTCAGTTATGCCAAGACCCCCGACGAAATCAAATCCATTACGTTACTGGCGGTGGCCTTGATCCCGTTTGTGTTATCGCCGGCATTAGTCGTGGTGGATCGGGTCATTCGGCGTTTCCGGGCAGAGCCAGAAGGCGTACCGACCAAACTCATTCCGTTTATCTGCAGCTCATATCGGCAAAACTACTGGGCCAGTTGTGCCGTCGGGGCGGTCTACGCTGTCATGATCGGGTTAATTGCTAACGCCGCCTTAGTCTATGGTGCCCAATTTGCGATTCTGTTCTGGGTGTATGCCTTATTCTTTGGCCTCACGGCATTTTCTTACCTCATGAGCTTGGCATTTGTGGCCGGGCGGAATGAAACCTTTGGCCAATACCTTAAGAATGGACTGTTGGTTACATTGGGTAATCCGCTCAAGGCGGTCTTGGGCATTGGGTTGGTGGGAGCGGCGGTGTACCTGACATTTCATAGTACCTTCTTCCCCATTGTGTTCTTTTTCCTGCCAGCAGTGATTGGCAAATTTGCCCAAGCCGTTTACCAACATACCATTGCCAAGCTAATTAATATCAAGGAGGCTAATTGA
>SRR1151209_02211 sugar ABC transporter permease protein
GTGAAAGCTCATACTAGCAAAACAGCCAATTTCTTCATTTGGCTCGTCGTATTGGCATTAACTGCTTCCTGCCTATTACCATTGCTGAACATGGTGGCTATTTCGTTTAGTGATAGTGCCTCGGCGGCAGCCAATGAAGTCGGGTTGATTCCCATCCACTTCAACTTGAATTCCTATAAGTTGATCCTGGAAGACAGTCAGTTCTGGCGGTCCTTTGGGATTTCCGTGGAACGGGTTATTTTAGGCACGGCCATCAATTTAATCCTGATCGTCTTGATGGCTTATCCGCTCTCTAAGAATAAGCGGGTGTTCCATGCCCGTAATATTTACATGAATCTGCTGATCTTCGCCATGCTGTTCAACGGCGGCATGATCCCGACGTTTATCGTAGTGAAAAGTCTCGGCTTGATGGATACCATTTGGGCATTGGTCCTGCCTGGGGCTGTGCCGATTTTCAACGTCATTTTATTGATGAACTTCTTTAAGGGCTTACCCGATGCATTGGAAGAAGCAGCCATTATGGATGGCGCGTCGAAAATGACGATTCTGTTTAAAATCTATCTGCCGCTGTCCTTGCCGGCACTGGCGACGGTGTCCCTGTTCGCCATCGTTGGCCACTGGAACGATTACTTCAGTGGTTTGTTATACATGAACCGAGCAGTGAATTATCCGCTGCAAACCTACATCCAGCAACTGAATATCGATATCACCAAAATCACTGATGTCTCCCAACTGAGTTCTTTAGCGTCGATTTCTAATAAGACCCTGAACTCGGCGAAGATCGTCGTGTCCACGGTACCGTTGCTGCTGATCTATCCATTACTGCAGAAATACTTCGTCACTGGGATGACGATTGGATCGGTAAAGGAGTAA
>SRR1151209_02212 ABC transporter permease protein
ATGCAATTGACTCGTAAAAAAGGGGTCGACCTGCAGCTGACCCGTAAGCAGGGGAAGGGCAAAAACTCCCAGCTCATGTACCACTTAATGATGCTGCCGGGTATGCTGTTTCTGTTAGTCTTTAGCTTTGTGCCGATGCTGGGCATCGTGATGGCCTTTCAAAACTATATTCCTGCCAAAGGAATATTGGGGTCGACCTGGGTCGGCTTGGCCAACTTCAAGTACATGCTTGAAATTCCAGACAGTCTGCAGATTCTGATGAACACGGTGATCATCGCCAGTTGGAAGATCGTGCTCGGAACAATTGTCCCGGTCGTATTTGCCCTCTTGCTGAATGAAATCCGCATCAAATGGGCAAAGCGCACGATTCAAACGATTGTTTATCTGCCGAACTTCCTGTCTTGGGTGGTTCTTGCCGCTGTTGTGGTGAATCTGTTCGACTACCACGGGCCAGTGAATACGTTTCTGGCCACGTTCGGGGTCAAGCCGATCCTATTCATGGGCAGCAACCACTGGTTCCGGCAAATTATCATTGGCTCGGATGTATGGAAAGGCTTCGGTTATGGCTCTATTATCTATCTAGCCGCCTTAACCGGGATCGATCCTGGACTTTACGAGGCCGCCGAAATCGACGGTGCCAGCCGTTGGCAGCAATTGCTGCATGTCACACTGCCAGGAATGCTGCCAATCATCATGATGATGACCGCGTTGAATTTAACCAATATTCTGAACGCCGGCTTCGATCAAATCTTCAACCTGTACAACCCGATTGTGTACGAGACAGGCGATATCATTGATACCTATGTTTACCGCGTGGGCTTGCTAGGGCAGCAGTACAGTCTAGGGACGGCGATTGGGCTTTTGAAATCTGTGGTTGGGGCCACCTTGATGATTTCGGCCAATCAGGCGTCAAAGAAATTTGCCAACATGCAAATCTTTTAG
>SRR1151209_02213 lipoprotein LipO precursor
ATGAAGATTCGCAAGTTGGTTTTATCTGCGGTTATCTTAGCCGCACCATTATTGTTAGCTGCCTGCATGAGCAAGGGAGACTCCGGCGCATCTGATAACACGAGCAAGGCCACGACGGCTGAGCTCAAGCCTTATGGTAAGTACAGCCAATCCGTCACGTATACGATTGGCAAAGCCATCCCCGGCGCGCCTAAGCTGCCTAAAGGGGATACTTACGAGAACAACGACTATACCCGCTATATTAAAAAGAACCTGAACGCCGTCAGCAAAGATAAGTTTGAAGCCGAAACCGGCGATAACTATGACCAAAAAGTAGCCATGGCCATTTCCAGCGGCGATCTGCCCGATATTATGGCGGTGAACCAGAGTCAGCTGGAACAATTGGTGGATAACGATTTGATTGCCAACCTGTCGTCCGTGTATAAGACCAGTACGACCAAACGAATCAAGGCCATGTATGATTCTTATGATGGCCGAGCTTTGCAGCAAGCTACTTTCAACGGCAAATTGATGGCGTTGCCATCCACCCAAACCAACAATATCCCTACCATGCTGTGGATTCGTAAGGATTGGATGGACAAACTGCATTTAGCCGAGCCCAAGACCATCAACGATGTTGAAAAGATCCTGAAGGAATTCGTCGCCAAAGATCCTGGTAATAACGGCAAAGGTAAGACTATCGGGTTAGGCTTGTCCAAGAATGTCGGCGGTAATTACGCCGCCCTATTCCAAGCCGACGATATCATGTCCAAGTTCGACTCCTTCCCGCGGCAATGGATCAAACAGGACGGTAAGATCGTCTATGGTTCGATCACCCCGCAAACCAAGAAGGCGTTGACCTACCTGCAGGGCTGGTTCAAAGAAGGCATTATTGATCCGCAAATGAGTGTGCGGGACAAGATTGAAACAGTAATCACCAACGGCCAATGCGGGGCATTCTTTGGGCCGTGGTGGTCTGGCGATTACCCGCTGACTGATGCGTATAAGAATAACCCGAAGGCAAATTGGCAACCCTACATCATTAAAGACAATAGCGGCAAAATCAAGGCGTATACCCAAAACACGGCCGGCACTTTCTTCGTTGTCCGCAAGGGCTTCAAGCATCCTGAATTGTTACCGAAGATTGCCAGCCTGCTTAACGATAAATTGGTTTATGAAGACTATGATTACAAACCAATCGTAGAATTTGGTAAAAAAGGGTACGACGGCGGCAAGCCTTTCGATATTCTAGTGAACTACGCGACAGCAACTACTGATATGCACGATAACATCGTGAAAGCATTAGACGGTAAAAAAGATCCCAAGACGCTGGTATTGGATGACTATCAAAACTATTTGAAGATCAAGGATTACGACAAAGATCCTAAGCATCCCGATAACAATGCCTGGAGCGGCCATATTACCCGAATCGTTTCCACCGGCAAGATGAAAGCAGCGCTGAAGGATGTAGAAGAAGTTCACCCTGTATTCTTTGGTCAAACCAAGACCATGAAACAAAAGGGCGCGAACCTTGCTAAGCTGGAAGACGCGACTTTCTTAAAGATCGTTACGAACCAAGAAAGTCCTGACAAGTTTGATGATTTTGTCAAAGAATGGAAGAAACTGGGCGGCGATCAAATTACTAAGGAAGTTGAAAAGGATGCCGCAGCCCATTAA
>SRR1151209_02214 transcriptional regulator
ATGCCAACTATCAAGGACATCGCCACCTTAGCCGGTGTATCGATCGCCACCGTCTCTAGGGTGCTCAACAATTTGGGAGGGTACAGCGAAGAAACAAGAAAGAAAGTCATGGCAGCAGCGGAGAGTATGAACTACTACCGCAACGAAATGGCGGCCGGTCTGAAAAAAAGTTCGGCCCACATCATTGGCCTGATTATGCCCACGTCACCGACTCTGTTCTATGGGGATATTATCGAAGGGCTCGAGTCAGAAGCCCAAAAGCATGGTTATGGGGTCATTATCGCGCATGCCAGTGCGGATGGGATCAACCTCAGCGAAATCATCAGTCTCATGGCAGAACGCCGGGTCGAAGGTCTGGTCATTGCGTCCATGGCTTTAGTGCAAAACGTGATTACCCAAATCAATGGTCTGCCCTTTCCGGTTGTCTTGGTTTCCACCAAGTCGGATAAAAGCATTCCGTATATCAAAGTCGATGATGAGTCGGCTTCCTTTGATGCCACCGAATATTTGATTCACCATGGCTATGAAAAGATTGCCATTGCCGGGCCAAATATCAGCGACCAAATCGCTGGGGTACCGCGGATCAATGGCTACAAGCGCGCCATGCAGAAGCACCATTTGCCGGTCGATCCTGACTGGATTTTTTATGGCACGTTCTCGTTTGAATCCGGGATCCAGGCGATGAAATACTATTTCCAATTAAGCAATCGACCCGAAGCGGTGTTTTCCGTATCTGACGATACCGCCATCGGGATCATTGTGACGGCCACGCAGGAAGGGTTACAGGTGCCAAAAGACATTGCGGTCATTGGGTACGACAATACCCGAGTGGCTGAGATGTCTAACCCGCCATTAACGGCGATCAGCCAGCCATTTTTCGAGATGGGGGCTAAGGCCGGTCGGAAGATTATCGATGCGGTGGAATCTAATCAGCCCATTGAGTCTGAAATTTTACCCCACACGATCGTTGAACGGCGGTCGGTATAA
>SRR1151209_02215 6-phospho-beta-glucosidase
ATGAGTGGATTACCAAAGAATTTCTTATGGGGCGGCGCTGTGGCGGCCCATCAACTGGAGGGCGGCTGGCAGGCTGGCGGCAAGGGCGTCAGTGTGGCCGACGTCATGACAGCTGGGGGTAATGGAACGCCTCGGCGGATCACTGACGGCGTACAGCCCGGTGAGAACTACCCGAACCATGAGGCCATTGATTTCTACCACCATTACAAAGAAGACGTGAAGCTTTTTGCTGAATTGGGATTGAAGGCCTTTCGGACATCGATCGCTTGGACCCGAATCTATCCTAATGGGGACGAAACGGAGCCGAACGAAGCAGGCTTGCAGTTCTATGATGACTTGTTCGATGAATTGCTGAAATATGGCATCGAACCGGTAATTACGTTGTCCCACTTCGAGATGCCCTACCATTTGGTGACAGAATACGGCGGCTGGCGCAATCGGCAGGTCATCGATTTCTTCGTCCGTTTTGCCACGACTGTATTCAAGCGGTATAAGGATAAGGTCAAGTATTGGATGACGTTCAACGAGATCAACAACCAAACTGAATACAACGGCACGTTTGCTCTGTTCACCAATTCTGGGATTCAGATCAAGCCAGGGGAAAACGCCGAAGCAGTGATGTACCAAGCGGCCCATTATGAGACGGTGGCCAGTGCGCTGGCGGTTCAGATTGGCCATGAAATCAACCCGGACTTCCAAATTGGCGCGATGATCGCCATGGTGCCGATCTATCCGGCCAGCCCCGATCCTCGGGATGTCTTCAAGGCCGAACGGGCGATGCAGACGCGCTACTGGTTCGCTGATGTCCAGGCCAAGGGCCGTTATCCGGAATGGCTGCGGCAATACCAGAAGAATCAGCACTTCAATCTGGATATTACCCTGGCTGACTTGGACGTGCTCAAGGCGGGGACAGTTGATTACATTGGCTTCAGCTACTACATGTCCTTCGCCGTGAAGGCGCAAAAGAACGAACCGGCCAGCTTCAAGTATGTCGAAGGCCGGGATGGGGTGGAGAATCCCACTGTCAAGCGTTCAGAATGGGGCTGGCAGATCGATCCCCAAGGATTGCGCTATGCCATGAACTGGTTCGCCGATCGCTATGATCTGCCCCTGTTCATCGTCGAGAACGGTTTTGGGGCAATCGATAAGCGCGAAGCGGACGGCAGTGTCCACGATCCGTATCGGGTCGACTACCTACGCCAGCATATTGAACAAATGAAGCTGGCGGTCGAAGAAGACGGCATCAAGCTGATGGGCTATACCCCTTGGGGCTTCATTGATCTGGTCTCCGCCGGCAGCGGTCAAATGGATAAGCGTTACGGGTTCATCTATGTCGACAAGAATGATGCCGGCGAAGGCACGCTGGCCCGGTCTAAGAAGGATTCCTTCTACTGGTACCAGCATGTGATTCAAACCAACGGGGCTGACCTCTCGGATGTCGTACCCGCCAAGCAGTAA
>SRR1151209_02216 RpiR family transcriptional regulator
ATGTTTCCCTATGACAAGGTACAGGCACTGAATGGTTTGGAGACGGATGTGTACGCCTACATTATGAAACATCGGGATGCGGTGGAAAAAATGACGATTCGCGAGCTGGCCAGCGAGTCTCACGTTTCTACGACTACGATCCTGCGATTTGCGACTAAAATGGGCTATGCCGGATTCGCGGAATTGAAGTTCTCATTGAAACAAGATCGGTTGAACCAGGAGCATCAGGGTCATCCGGAACAATATGATATTACAGTCCCGTTGGCTGATTTTTTCAGAAAGGTGAATTCCCGGGACTTCACTGACTTGCTGGACCAAGCGGTGAAATGGCTGGCGGCGGCCAACCAGATCTATACGTTCGGTATCGGCAGCAGCGGTTATCTGGCGCAATACGGTGCCCGGTTTATTGCCAATACCGGCAAGCTGACGCTGCCCATTGTTGATCCTTTCCAGCCGTTAGCCGATGATCCGACGATTCTGAGGCACACGGTGTTTTTGATTCTGTCGGTGTCCGGCGAGACTAAGGAAGTGCTGGACATGGTTACTCAGATCCGGCGGACGGATGCGCAGATCATCGCGGTGACGAACCGGACGAATTCGACGCTGGCCCATTTGTCGGACTTGGTCATCGCCTACTATATGCCGGAAATCAAGAATGGGTCGCTGAATAATACGACTCAGGTGCCGGTGGTGTATTTGCTGGAATTGCTGGGGCACCGGTTGGAGAAGTTGCGGATGGGGGAGGAAGAAAAGTCGGAGTAG
>SRR1151209_02217 prepilin peptidase
ATGATGATGATCTTTGGCGGTTTAACGGGAGCGTGTTGGGCGTCTTTTCTCTTATGCCAAGCATGGCGCAGTACGCAAAACGGGCCGCAGCCGGCTCGGTCGTTCTGCCCAGCCTGCCGCGGCCCGATCGCGGGCTACGATAATATTCCGGTACTCAGTTTCTTGATCCTGCGCGGCCGCTGCCGGCAATGCCGAACAGCAATTGATCCGCTGGGGTGGTACGGCGAAATTGCGGGCCTGGTGGGCGGCAGTCTAGTCATCCGCCAACCGCCCAGCGTCATTACCTTCGCAGTGCTGCTCAGCATCCTTGCCGCCAGTGATCTCTACCGGTACAGCTTCACCGACGGCTGGTTCTGGATCGGCGCCACGGTCTGTTTAGCCTGCGCCTGGCAAACCCTCCACTGGCTGCCCGCCGCTCTCATCTTCGCTGCTGGTATCTTACCCGTGTACTACCACAAACTTGGTGACGGTGATTGGGAAGTCATCACCCTCGCCGCCCTGCTTTTCGGCCTAACCCCAGTGCTGCTCTGGCTACTCGTCGCCAGCGGTTTGGGGATTGTCTTGATTCTGCTACGGCGGGGCAACCAGCACCAGCCACTGCCTTTTTTACCGGTCCTGTTTATCTCCTTGCTAGTACTGATCAGTCGCTAA
>SRR1151209_02218 hypothetical protein
GTGCCAATGCGTAGCAAGCGGAGGCGGATGGGGCTCAGCCATGGGAACAACACGGCGGCTTTGCCGCCGATGTTGTTAGGCGATTTTGAGACCGCGAAGCGGGCTCAAAACGCCGTCATGGCTAGCTACGCCTGCGGCTTCGCACTTGCTGCGCTTCGCCAGCCCCATCCGCCGCAGCTTGCGGAGCATTGGCACGGCGGTGCTAGACGGACGAAAAAAGCACGTCACCAATTTACGATGACGTGCTTTCTCCCAAAAAACTATTACTTATCCGAATCCTTAGGCTTCGTCGCCGTCTTCGTCGCCGAAATCGACGGATCATCGTCCGGTGCAGTGCCATCGGCAGCCGTACCATCACTGGCCGACTGA
>SRR1151209_02219 DNA-directed RNA polymerase subunit beta'
TTGATAGACGTCAATAAATTTGAAAGCATGCAAATCGGCTTGGCGTCTCCGGATAAGATCCGTTCGTGGTCTTACGGAGAAGTTAAGAAGCCGGAAACCATCAACTACCGGACGTTGAAGCCCGAGCGCGATGGCTTGTTCGACGAGCGTATTTTCGGTCCGACCAAGGACTGGGAATGTGCCTGCGGCAAGTACAAGCGGATTCGGTATAAGGGCATTGTCTGCGACCGGTGCGGCGTCGAAGTGACCCGCTCCAAGGTTCGCCGGGAACGCATGGGCCATATTGAATTGGCCGCTCCTGTTTCCCACATCTGGTACTTCAAGGGCATCCCTTCTCGGATGGGCTTGGTACTCGACATGTCCCCTCGGGCACTGGAAGAAATCATCTACTTCGCTTCCTACGTCGTCATCGATCCTGGTGATTCTGATCTGGAAAAGAAGCAGTTGCTTACAGAACGGGAATACCGCGAGAAGCGTGAACAATTCGGCGACAGCTTTAACGCCAAGATGGGTGCAGAAGCCGTCAAGGAACTGTTGCGCGATGTTGATTTACAAAAGGAAGTCGTTGAACTTAAGGAAGAGCTCAAGACGGCTTCTGGCCAAAAGCGGACCCGCTCGATCCGCCGGTTGGACATTCTGGATGCCTTCCTGGAATCCGGCAACAAGCCGGAATGGATGGTGATGGATGTCATTCCGGTGATCCCGCCGGATCTGCGGCCGATGGTTCAACTCGAAGGCGGCCGGTTTGCCACCTCTGACTTGAATGATCTGTATCGCCGGGTCATCAACCGTAATAATCGGTTGAAGCGCCTGCTTGACCTGCATGCCCCGAACATTATCGTCCAAAACGAAAAGCGGATGCTCCAAGAAGCCGTTGACGCGCTGATTGATAATGGCCGGCGCGGTCGGCCAGTGACTGGTCCGGGTAACCGTCCGCTCAAGTCCCTGTCCCATATGCTGAAGGGTAAGCAAGGCCGGTTCCGGCAGAACTTGCTGGGCAAGCGGGTTGACTACTCTGGCCGGTCCGTTATCGATGTCGGCCCGACACTGAAGTTCTATCAGTGCGGGGTACCCCGGGAAATGGCCCTGGAATTATTCAAGCCCTATGTCATGCGGGAACTGGTCAAGCGCAACTTGGCCTCCAACATCAAGAACGCCAAGCGCCAAATCGAACGGCAAAACGACGACGTCTGGGACGTCCTCGAAGATGTGATCAAGGAGCGGCCGGTTCTGTTGAACCGGGCCCCGACATTGCACCGTTTGGGGATCCAAGCCTTTGAGCCGGTACTGGTTGATGGTAAATCCATTCGTCTCCATCCCCTTGCTTGTGAAGCTTACAACGCCGACTTCGATGGGGATCAGATGGCGATCCACGTACCGCTGTCTGATGAAGCCCAAGCTGAAGCGCGGATGCTGATGATGGCTGCCCACCATATTCTGGCGCCTAAGGATGGCAAGCCCATCGTTACGCCGTCTCAGGACGTCGTATTGGGGAACTACTACCTGACGCTGGAAGATAAGGGCCGCCGCGGTGAAGGGATGATCTTCAAGGATACGAATGAAGCCGTCATGGCTTATCGTACCGGCAAGGTTCACTACCACACTCGGGTTGGGTTAGCGATTGACGGTTTGAAGCAGAAGCCGTTCACGGACGCCCAGCGCCACCAGATTCTGGTGACCAGCATCGGCAAGATTCTCTTCAACGAGATTCTGCCCGATGACTTCCCTTATTTGAACGAGCCGACGACTGAGAACCTGACCAACGGGGTACCCGATAAGTACTTCCTGAAGGCGGGGCAAGATATCCATGATTATTTGGATAACGCAGAATTGATTCAGCCGTTTAAGAAGGGCTACCTGAGCGATATCATTGCCCAAGTATTCAAGATCTATAAGGTACAACGGACCAGCGAATTGCTGGATGACATGAAGACTTTGGGTTACACCATCTCCACGTTGTCCGGGATCACAGTCGGGATCGCCGATGTACCGGAATTGGCTGATAAGCAGGAAATCGTTGACGATGCCCACAAAAAGGTAGCGACGGTTTCCAAGCAGTTCCGGCGGGGCTTGATTACCGACGAGGAACGCCATAACCGGATCATCAGCATCTGGAATGAAGCCAAGGACACCATTCAACAACGCTTGATCGATAGTTTCGATCCGGCGAACCCCATCTCCATGATGAGTGATTCCGGTGCCCGGGGTAACATTTCTAACTTCACTCAGCTGGCTGGGATGCGGGGCCTGATGGCCGCGCCGAACGGCGGGATGATGGAAGTCCCGGTTACCTCGAACTTCCGTGAAGGCTTGTCCGTCATGGAAATGTTCATGTCCACTCACGGTGCCCGGAAGGGTATGACCGATACGGCCTTGAAGACCGCCAACTCCGGGTATTTGACCCGGCGGCTGGTCGACGTGGCCCAAGACGTCATTGTCCGTGAAGAGGACTGTGGTACGGATCGCGGTGTGAAGGTTTCGGCCATTCGTGAAGGTAACGAAATGATTGAACCGCTCCACGACCGGATCTTCGGCCGGTTCACGATGAAGGCGGTCATGGATCCTAAGACGGGCGAAGTCATCGCCCCGAAGAATACCCTGATCGACGAAGACCTGGCTGAAAAGATCATTGACGCTGGTGTTGAAAGTGTCACGATTCGTTCCGTCTTCACCTGCAACACGCAGCATGGTGTCTGCCGTCGCTGCTATGGCCGGAACTTGGCTACTGGTGAAGAAGTCGAAGTCGGCGAAGCAGTCGGTACAGTTGCTGCACAGTCCATCGGCGAACCTGGTACCCAGCTGACCATGCGGAACTTCCATACCGGCGGTGTTGCCGGCGGCGAAGATATTACCCAAGGGCTTCCCCGTGTACAAGAAATTGTTGAAGCGCGGAATCCTAAAGGTCTGTCGGTCATTACTGAAGTCACTGGTGAGATCACGGCCATTGATGAGAATCCGGCTGAACATACCCGGGAGATCACCGTGGAAGGGAAGACCGATACCCGGACTTACAGTGTGCCTTACGCGTCCAGTGTCACGGTCAAAGAAGGCGACCACGTCCATCGTGGTGACAAGCTGACCGTTGGTTCGATCGACCCGAAGGAACTGATCAAGGTCCGCGATGCGCTGACTACCGAGAACTACCTGCTGGATGAAGTCCAGAAGGTATACCGGATGCAGGGTGTGGATATCAGCGATAAGCATATCGAAGTCATGATTCGCCAGATGCTCCAGAAGGTGCGGGTCATGGATCCGGGCGACACCGACATTCTGCCGGGTACCTTGCTCGATATCGCTGATTTCGGCGAACAGAACCGGCAAACCCTGATCAAGGGGAGTATCCCCGCCACTGCGCGGCCGGTACTGCTCGGGATCACCAAGGCTGCCCTGGAGACCAACAGCTTCTTGTCTGCTGCGTCCTTCCAGGAAACGACTCGGGTATTGACCGACGCATCGATCCGGGGCAAGAACGACCCGTTGATCGGGTTGAAGGAGAACGTCATCATCGGGAAGATCATTCCGGCTGGTACCGGGATGGCGAAGTACCGCGAGATGGAACCGAAGACTGTCGGCGAGAAGCCGGAGAGTGTTTATTCCATTTCCGATATCGAGGCGCAGATGAAGCGTCAGTCGGCCAGTGATGGTACGGCTGCCGATGGCACTGCACCGGACGATGATCCGTCGATTTCGGCGACGAAGACGGCGACGAAGCCTAAGGATTCGGATAAGTAA
>SRR1151209_02220 DNA-directed RNA polymerase subunit beta
TTGTCAGGTCATTTAGTGAAATATGGTAAACACCGCACCCGCAGAAGTTATGCGCGCATCAAGGAAGTACTGGATCTGCCTAACCTGATCGAAATTCAATCGAATTCTTATCAATGGTTCTTGGACGAAGGCTTGAAGGAAATGTTCGATGACATTATGCCCATCGACGATTTCCAAGGCAAGTTATCCTTGGAGTATCAAGGATACAAGCTGCTGGAACCCAAGTATACGGTAGAAGAAGCACGCCAGCACGATGCCAATTACTCTGCACCGCTGCACGTTACATTACGGCTCACCAACCACGACACCGGGGAAATTAAATCCCAGGATGTCTTCTTCGGTGACTTCCCGTTAATGACCGAGCAGGGGACATTCATCATCAACGGGGCGGAGCGAGTGATCGTTTCCCAGTTGGTGCGTTCTCCCGGCGTTTATTTCAATTCACAAGTCGACAAGAACTCACGGACGACATGGGGCACCACAGTGATCCCCAACCGCGGGGCTTGGCTCGAATACGAGACAGACGCCAAGGATATTGCTTACGTCCGCATCGATCGCACCCGGAAGCTGCCCATCACGGTATTGCTGCGGGCCCTGGGCTTCGGCTCTGATTCCGACATCATCGACATTCTCGGTGATTCTGAATCCCTGATGCTGACGCTGGAAAAGGATATTCACAAGAATACAGAAGATCCGCGGGTCGATGAGGCCTTGAAGGATGTCTATGAACGGTTGCGCCCCGGCGAACCGAAGACAGCCGACAGTTCCCGGTCTTTGCTGTATGCCCGCTTCTTTGATCCCAAGCGCTACGATACAGCAGCCGTTGGCCGGTACAAGTTCAATAAGAAATTAAACCTGAAGACCCGCCTGCTGGACCAAACCCTGGCTGAAACCTTGGCTGATCCGGATACTGGCGAAGTCATTGCCAATAAGGGCGACTTGATCGATCGCAAAGTTATGGCCAAATTGGCGCCTTATCTGGATCGGGATGACTTCAAGACGATCACGTATACGCCCTCTGAAGACGGCGTTGTGACTGATCCGATGGTCCTCCAAATCGTCAAGGTTTATTCCAAGACGGATCCGGAACGGGAAGTTAACATGATCGGCAACGGTCATATTGATCCTAAGACCAAGCACGTGACCCCGGCTGACATTTTCTCCTCTGTCAACTACTTCTTAAATCTGCAAGAAGGCATTGGCACGACGGATGATATCGACCACTTGGGCAACCGGCGGATTCGTTCCGTGGGCGAATTGCTCCAGAACCAGTTCCGTATCGGGTTAGCCCGGATGGAGCGGGTCGTGCGGGAACGGATGTCGATTCAAGACGCTAATACCGTGACCCCCCAGCAATTGATCAACATTCGGCCGGTCGTTGCGGCTGTTAAGGAATTTTTCGGGTCCTCCCAACTGTCCCAGTTCATGGACCAGAACAACCCCCTAGCCGAATTGACCCACAAGCGGCGTTTGTCCGCCCTTGGACCGGGTGGTTTGACCCGGGATCGGGCCGGTTACGAAGTGCGGGATGTCCACTATACGCATTACGGCCGGATGTGTCCCATTGAAACCCCTGAAGGCCCGAACATCGGCTTGATCAACAACCTGGCCACGTATGCCCGGGTGAATAAGTATGGCTTTATCGAAAGCCCATACCGTCGGGTTTCTTGGGAAACCCACAAGGTGACCGATAAGATCGACTACTTGACCGCCGACGAAGAAGATAACTACATCGTTGCCCAGGCCAACTCGGTCTTGAACGATGACGGTTCTTTCCGGGACAAGACGGTTTTGGCCCGGCACAAGGATGACAACATTGAAACCAGCCCGGACAACGTCGACTACATGGACGTTTCACCCAAGCAGGTTGTCTCTGTTGCCTCCGCTTGTATTCCATTCTTGGAAAACGATGACTCCAACCGGGCCCTGATGGGTGCCAACATGCAGCGGCAGGCTGTGCCGCTGATCAATCCCCACGCGCCGTTAGTCGGTACCGGGATGGAATATGTGGCCGCCCATGACTCGGGGACCGCGATGCTGGCTGAACATGCCGGCACGGTCGAATTCGTTGATGCCAAGGAAATCCGGGTCCGCCGCGAAGACGGGGCCCTGGATAAGTACAAATTGACGAAGTTCCGCCGGTCTAATTCTGGTAAGAGCTACAACCAGCGGCCAATCGTCCGCAAGGGCGACAAGATCGACGACCGCGAAGTGATCGCCGATGGGCCGGCCATGGAGAACGGCGAGTTAGCCTTAGGCCAAAACCCGCTGATTGCCTTCATGACTTGGAACATGTACAACTACGAAGACGCGGTTGTCTTGAGCGAACGGCTGGTTAAGGATGATGTCTACACTTCGATCCATATTGAAGAATATGAATCCGAAGCGCGGGACACCAAACTGGGACCGGAAGAAATCACCCGTGAAATTCCCAACGTCGGTGAAGACGCGCTGAAGGACTTGGACGAATTCGGGATCGTCCGGATCGGTGCCGAAGTCCGCGACGGCGATATCTTAGTCGGCAAGGTCACCCCCAAGGGAATGACCGAACTGTCCGCGGAAGATCGCTTGCTCCATGCCATCTTTGGGGAAAAGGCCCGTGAAGTGCGGGATACATCCTTGAAAGTACCCCATGGCGGCGGCGGTATTATCCAAGACGTCAAAATCTTCACCCGGGAGGCCGGCGATGAGCTGTCCCCTGGTGTGAATATGCTGGTGCGGGTTTATATCGCTCAGAAGCGGAAGATCCAAGTCGGCGATAAGATGGCCGGCCGGCATGGTAACAAGGGGACAGTGTCCATCGTTGTTCCTGAAGAAGACATGCCGTACTTGCCTGATGGTACCCCGGTTGACATTCTGTTGAACCCCATGGGTGTGCCGTCCCGGATGAACATTGGTCAGGTGCTGGAATTGCACCTGGGCATGGCCGCTCGGAACTTAGGCATTCATGTGGCCACACCAGTATTCGATGGTGTGCGGGATGAAGATCTGTGGGCAACGGTCAAAGAGGCCGGCATGGCGTCTGACGCCAAGTCCATCCTTTACGATGGCCGTACGGGTGAACCGTTTGATAACCGGATCGCCGTTGGGGTGATGTATTACCTCAAACTGGCCCACATGGTTGATGATAAGATCCATGCCCGTTCCATCGGACCGTACTCCTTAGTGACGCAGCAGCCGCTGGGTGGTAAAGCTCAGTTCGGTGGTCAGCGTTTCGGGGAAATGGAAGTTTGGGCTTTGGAAGCTTACGGGGCAGCTTATACCCTGCAAGAAATCCTGACTTACAAGTCCGATGATGTCGTGGGCCGGGTCAAGACCTATGAAGCCATCGTGAAGGGCGACCCGATTCCTAAGCCGGGGGTACCGGAATCCTTCCGGGTACTGGTTAAGGAATTGCAAGCCCTGGGTCTGGATATGAAGGTCCTGGACAGTCATAAGAACGAAATCGAGCTGCGGGACATGGACGATGACGATGATGACGTACTGAACGTCGATGCACTGTCCAAATATGCTGCGGAGCAGGAAGCTAAGAAGGCCGAAGAGGATGCTGCGAAAGCAACCGCCGCTGCGACTGATGGCAAGAGTGCACCAGCTGCGAAGGATAGTACCAACGACAACAAGTAG
>SRR1151209_02221 acetyltransferase
ATGATGGTCACAGTGCATACAATAAACAATCTAACGCCCAGCCAGCTGAAACGGTTGGGTGAGATCTGGCTGGCCGGTAACCAGCAGGCCCATCACTTCATTCCCAGTGAATATTGGGAGAAGAATCAGGCCGCACTGCTGGCAGCCCTGCCGGATGCCGAAGTGACTGTCGCGGTGGACGACCAAGGCCGGATCCTCGGCTTTGCCGGGATGCAGGGTAATGAGCTGGCTGGGCTCTTCGTGGATCAGGCCAGCCGGCAGCGCGGTGTCGGCACCGCGCTGATCCGCTATCTGCAGCAGCACCATCGGCGTATCACACTGCACGTCTACGTCAAGAATCAGCCCGCCTATCAGTTCTACGCCCAGCAGCAATTTACCACCATTGCCCGGCAGGTGGACGACGCCACCGGTGAAGCAGAATTGACGATGCAGTGGGTGGGTTGA
>SRR1151209_02222 protease
ATGATAAAAAGACCAGAGGTACTTGCCCCAGCCGGGACGTTAGAAAAATTGCAGGTGGCCATTGACTACGGGGCCGACGCGGTCTATATCGGCGGCGACGCCTATGGCTTGCGGACGCGGGCGGGGAATTTCTCCTTCGACCAGATGCGGGCAGGCGTCGAGTACGCCCATGCTCGCCACGCCAAGGTCTATGTGGCGGCCAACATCGTCGCCCACGAGGGCAACTTGCCCGGGGCTGAGGAATTCTTCCAGCATGTGCAGGAAACCGGTGTTGACGCTGTGATCGTTTCCGATCCAGCATTGATCCAGACCTGCGTCTTGGCCGCCCCAGGCTTAGCGATTCATCTATCTACCCAGGCGTCTTCCTGCAACTGGGAAACCTTGAATTTCTGGCAGGATGAGGGCTTGGAACGGGTCGTCTTGGCTCGGGAAGTCGGGATTGAAGAAATCAAAGAAATGCGCCGGCACACGGACATCCAGATCGAAGCCTTCATCCATGGGGCGATGTGCATCGGCTACTCCGGCCGCTGTGTGCTGTCCAATCATATGGGGCTGCGGGATGCCAACCGGGGCGGCTGTGCCCAGAACTGCCGCTGGAAGTACGATATATTTGACATGCCTCAGCTCGGTCAGAAAAACGACCTGACTAGTGTCGGTCCAGACGGGAAGAAAGAAGCCTTCTCCATGAGTGCGGTGGATATGGCCATGATCGACCATATTCCGGACTTGATCGATGCTGGCGTGGATTCATTGAAAATTGAGGGGCGGATGAAGACAGTGCATTACGTCTCGACGGTGGCCAATGTTTATTCCGCGGCAGTGGATGCATACATGCGCGATCCGGCACATTACCATACGGATCCGGCTTGGGTGGATGACCTGTGGAAAGTTGCCCAGCGCGGTATGTCTACTGGCTTTTACTATGGTACCCCGACGGAACAGGATGAGCTTTTCGACGAAGGTCGGGAACGGCCGCAGTACCGCTTCATTGGCGAAGTTCAGGCTTACGATGTAGCCACCCAGACGGTGACGGTTCAGCAGCGGAACAACTTTGGAATCGGCGACCCCATTGAATTTTATGGTCCTGGGTTCACTCACTATGCGATGACGCTGCAGGATTTGTTCGATGAAGACGGCAACGCCATTGATCGCGCACCCCACGCCATGCAGATCGTCACGTTCCATTGTCCGCATCCCGTCCGGCCTGGCGATTTTCTCCGTGGTCAGCGGGTACGCCGGCCGCACCAGCGGAAGGCTGTTCAACATGCGTGA
>SRR1151209_02223 peptidase U32
GTGGCAGAGATCATAGCGACAACGGAATCCCTGGAACAGGCTCAGCACTTGCTGAATGCTGGGGTGGATTGGCTATATGCCGGGGAGGACGAATTCGGCTTGCGCCTCCCGCACAGTTTTGGCCGGGATGAATTACCGGCCCTGGTCGAGCTGGTGCACCAAGCCGGGAAGAAAATCATGGTGGCGGTCAACGCTATTTTTCATAACGATCGCATCGTTAAAGTAGCCGACTACCTCCAATTTCTCACCGACTTGCACGTGGACATGGTCAGCATCGGCGACCCTGGGGCGATCCATGTGCTGCAAACCAACCGGTTTCCACTACCGTATCTCTATGACGGCGCTGATTTGGTGACCAGTTCCCGCCAGATCAACTTCTGGGGCCGGCATGGGGCGGTGGCGGCGCAAGTCGCACCGGAAGTGCCTTATGGTGAGCTGGTGCCGCTCATGCAGCATGTCGATATTCCGGTGTCCTATCTGGTCTATGGCGCCAGTGTGATTCATCAATCCGGCCGGCCGCTGGTGGATAACTATTTTTCTTTCGTGAAACAGCACCAGGAACGGTCCGACCGTCAGCGCGGTCTGTTCATTTCCGCGCCGCATAAGCCGGAGACCCATTACTCGATCTATGAGGACATCAATGGCACTCATGTCTTTGCCACGAATGATGTGAACCTGATGCCGGCGCTGACCAGGGTCCACGATTTGGGCATCCAGTACTGGAAGCTAGATGGATTGTTCGTGCCCGGCCAGCAGTTTGCCCAAATTGCGGCGGCGTTCGTTCACGCCCGGGATGCGCTGGCCGCGGGGACATGGACGGCAGATCTGGCCGCGGACGGCCAGCACGTGATCGCGGACAACACGCCCGCCAATCGCGCAACGGATACTGGATTCTTTGATATTGATCCAAACGAGGTGCAATAA
>SRR1151209_02224 ATP-dependent Clp protease ATP-binding protein
TTGGACAACTTATTTACGAATAGCTCCCGTAACGTGTTAGCCCTTGCCCAACAGCAAGCCCGCTACTTCCACCACCATGCAGTGGGGACGGAGCACTTGCTGTTGGCACTGGTGCTGGAGACGGACGGAGTGGCCGGCAAAACCTTGCGGCAGCTGACCATCAGTCCGGACGACGTGAAAGAAGAAATTGAACGCTTCACGGGCTTCGGGGCGACTTCTGCTTCTGATCAGCCCGATGAGACAAGTTACTTGCCCTATTCACCAAAGGCGAAGCAGATTCTTTCCTACGCCGGTGACGAGGCAAAGCGCTTAGGCGCCAGCAAGATTGGGACGGAACACATGCTGCTGGGGATTCTCCATGAGGATGACATTCTGGCTGCACGGATTCTGACTAATCTTGGTCTGAGCCTGTCAAAGACGCGTCAAGTATTATTGAAGAAAATGGGTGTCCGGGATACTGGCAGCAAGCGGCCGACGGATCGGCGCAGTGCTGCGGGCAATCCTCAGGGCACGCCGACCTTGGATGGCTTAGCCCGGGATCTGACCCAACTCGCGCGCGAGAACGGAATGGATCCGGTTGTTGGCCGGGAAAAGGAAGTCCGCCGGGTCATTCAGATTCTGTCCCGCCGCACCAAGAACAATCCCGTCCTGGTGGGTGAGCCAGGGGTGGGTAAAACCGCCATCGCTGAAGGCTTGGCCCAACGTATTGTTGACGGCAAGGTTCCTGAGGACATGGCCAACAAGCGCCTGATGATGCTGGATATGGGGTCTTTGGTGGCCGGTACCAAGTATCGGGGCGAGTTTGAAGACCGATTGAAGAAAGTCATTGATGAAATTTACCGGGATGGCAACGTCATTCTCTTCATTGATGAACTGCATACCTTGATCGGCGCCGGTGGTGCCGAAGGGGCGATTGATGCCAGCAATATTTTGAAGCCGGCGCTAGCCCGGGGTGAGCTCCAATTGATCGGGGCCACCACACTGGATGAATATCAGAAGTATATTGAAAAAGATTCCGCGTTGGAGCGGCGGTTTGCCACGGTACAGATCGACGAGCCGACCCCGGAGGAAACCGAACAGATTTTGAAAGGCCTGCGCCCGCGTTATGAGCAGCATCACGGGATCACCATCAGTGATGAGGCCTTGCACGAAGCCGTTGTCCTATCGAATCGCTACATCACGAACCGTTTCCTGCCGGATAAGGCCATCGATCTGGTGGATGAATCTGCCGCGAAGGTCCGCTTGGATTCCGCCGACAAGAAATCCCCGGAGGATAAGCTGCAGGACAAGATTCGCGACCTGATCAGCAAGAAGGAAGCGGCTATTGAGAACCAAGACTTTGAAACGGCCGCCAACTATCGGGAAGACGAAATGAGCTTAAAGTCTCAGCTGGAAGCTACCGAGGCCAAGGACGATACGTCCGGTATTCGGACCGACATCCAAGTCACTGGCGAGGATGTTGCTCAGGTCGTTTCAGAATGGACTGGCGTGCCGCTGACCCAGCTGCAAAAGAGCGAAAGCGAACGGCTGGTGAACCTGGAGAGCATTCTCCACAAACGGGTCGTTGGCCAGGACGAAGCTGTCTCCGCGGTTGCCCGGGCCATTCGCCGGGCCCGCAGCGGTTTGAAGGATCCCAGCCGGCCCATCGGCTCGTTCATGTTCCTCGGCCCCACCGGCGTCGGCAAGACCGAGCTGGCTAAGGCCCTGGCTGAGGCAATGTTCGGCTCTGAGGATAACCTCATTCGGGTCGACATGTCTGAGTACCAGGAACAATACACCACCTCGCGGCTCATCGGTTCGCCTCCGGGTTACGTAGGCTACGACGAGGGCGGTCAATTGACCGAAAAGGTTCGCAACAAGCCGTATTCGGTCGTCCTCTTCGATGAAGTGGAAAAGGCCCATCCAGATGTCTTCAACATTCTGCTGCAAGTCCTGGATGACGGTTATTTGACGGATGCCAAGGGCCGTCGGGTCGATTTCCGCAACACTATTCTGATCATGACCTCCAACCTGGGTGCCACCGCTGTCCGCGACGACAAGTCTGTGGGCTTTGGTGTTCAGGATAAGGGGCAAGATTACAGCGATATGCGGGGCAAGATTCTGGATGCGTTGAAGCAGTTCTTCCGTCCGGAATTCATCAACCGGATCGACGAAGTGGTTGTCTTCCATCCATTGGATAAGGAACAACTGCGCAAGATCGTCCGGATCATGTCCAAGCAAGTTCTGCAGCGGCTTGAGGAACAGGATGTGTCGGTCAAGATGACCACTTCCGCCCTTGATGTCGTCGCGGCTAAGGGCTTCGATCCTGACTACGGCGCTCGGCCGATTCGCCGGGCCCTGCAACGGCAAGTCGAGGACAGCGTCAGCGAGATGCTGCTCAGCGGCGAGATCAAGGCCGGCGATCACATTACGATCGGTGCGCGCAAGGGGAAGATCACCGTCACGGTGAAGCACCCCCACGATCACCAGAAGAAACCGGCTGCTCCGAAAGAAACCGTTAAAGCATAA
>SRR1151209_02234 hypothetical protein
ATGGGGGCACTCTATCGGTTCCTACTGAAAAGTCACTGGCATTCCCGCCGGCGCGTCCTGCTGGTGGGCCTCTTAGTGCTGCTCACCTGGGTGGCATGGTTCTGGTTTGCCCAGCAGAATGCCGCCGAGATGCGGCTCAATAATGAGATTCGGCAGGATAATGTTACTTTGATTACCAAAGGGTTCCCGATGGCCAGTATCGTACCGCCGAGTCCGCAGGCGACAGATAAGGTAGGGCTGACTGACTTCTTTGCCGCCGTTCAGCAGAAAAGGGCCCTGACTGCGGTGCAGCAGACCCAGAATGAACTGGCAGCGACCCGGGCGGCCTTCCAGGATAACTTCATCCTGCCGCTGGGAGCGGGTGCTTTGCCTGGTACGGACCGCTTCGGCCCCATTTCCTTTACCCAAACGCTGCGCCACCGGGCACAATTGGCTAAACAGCTGCAGACCGAGCGCCAACCGCCGGTGTCCATGCGGTACGGCACCCAGGATTGGAGTTTCCTGATCAGCTTCCTGCCAGTATTGACCTCCATTGTTGGCATCCTCGTGGTGACACTGGTCTTATTTGTAGAAGAAATCAGCGACACGATCAGCGCCCGCCGGCGTTTGCTGGCCTGTCTGCCCGGTCGGCGGTGGCAGTTATTTGTTGCCCAGTGCCTGGTCTTTTGTACCGATGCCGCACTGACAGTCGGCTTGATGCTGGGCGGCGGGACCGCCATGGCCGTTTTGCGCGGCGGTCATTTGCGGGCGGACTATCCGGTACTCACCCGCGTTTCCGGGACGATCGCCATCTGGCCGGCGTGGCGGGTGGTGTTAGGGACACTGCTGCTTTTTATGCTCGGCCTCATCCTGCTGTATCTCTTTGGCCGCTTGGCCTTAACCTATATCATTCGGATCAAGAGCGATCTGGGCCGGATGCTGCTGGCGATGGCGGCATACTTGGTCCTGGTCGGGCAGGCGGCCGTGAGTTTGCTGCCGAATCTGACCGGGATCCTGCTCAGCTGGCTGCCGTTGAATTACCTGCAGGCCAGCCGGTTGTTCTTCGGCACCGATTATTTGCCCATGCAATCCATGTACATGCAATCGCTGGATCGGTTTGGCCAGTTCGGCCGGTATGGTCAGGCAGCGGTGATGCTGCCGGTGAGCAACCTAAGTTATTACGATGGCGGCACCATCAGCAATCTTTTCCCACCCAGCCAAGCCGGGCAGGTGGGACTGCTCACGGCTGTCGGCAGCTTAACAATCACGGGCGCGCTGATTGCCGGTTGGCTGATGTGGCGGGCGACGAAACGGAATGAACTGATTTAG
>SRR1151209_02235 ABC-2 family transporter protein
ATGTGGTGGGAATTTCGGCAATGGCGGCGGCAGTGGCTCAACTGGGCGCTGTTTGCGCTGGGCTTCGCGGTGATTCTGGGCAGCTATGTTTATGCCAGCAACCAGGCCCAGCAGGCCAACGCCCGGGAATACGATACCCTGCTGGCCGAAAGCCAGCAGCTGGCTGATGCTGATAAAAACTTGGCCGATCAAACGCAGACGGAGAAAGTGACCAAGCAGCGTGCAGCCATTCAACGGGAGCAGACGATCATCAGCCGTTATGGGCGCGCATTGACGGGTCATCGCAGGAACCTGCTGTCGCACCGGTTGGCCTATTACCGCCTGCTCCAGCACCCGGCCTTCCCATTTTCACAGCGCAGTGCGACCGTCATCCACCAAGCAATCACGCGGGACAGATACTTGCAGCAGCACGAACTTGTCCCGCGGGAAAACGTGTCGTCCTTAACCCCGGCGGCCGCCTTTGGCCGCAGCCAAAACGCCGCGGTCTTTCTGCTCATTTTGAGCCTCTTGGTTCTGCAATTTGGCGGCCTCTTCGCTCGGGATTGGGAAACGGGCAGTATTCGGCTGTTGCTGATGCTGCCCCAGGAACGTCAGCGGCTGAGCCGGCACAAGCTGGGGCTGGCCCTGGTGATTGCCGGCAGTGAGCTCGTGCTTTGGTCAGTATTCGGCTATCTGTTGGCCGCTATCCGGTCGGGGCAGCGATGGGGCGGCGCGTATCCTTGGCGTGCGGTGGGCACTTGGATCGTGACCTTGAACAGCGTCCTGCTGACCAACATGTTGACCATCATTCTGGTCAGCACGCTCGTGATCGTTCTATTATATTGGCTCAGCATTCTGTTACGGGATCGGTTTACGGTGATCGTGGCCATGATCGCGGTCCTGGGCAGCGGCGCGCTGTTCTTCGGCGAGGCGAGTACGAATCTGCTGGCGGCTTTGAACCCATTCTATCAGTTGGGTCTGAGTACCCATGTTGGGTTGCGGAATGTGCTGGTCTATGGCACACTCATGGGTATTACCGATACCGCACTGATTCTCGCTGCATTAGTCGGCGGTCATTTCTGGTGGCGGAAATCGACGAAGTGA
>SRR1151209_02236 30S ribosomal protein S12
ATGCCAACAATTAACCAATTGGTACGTCAAGGTCGTAAGTCTCGTACATCCAAGTCCGATGCTCCTGCATTGAACTTTGGCTACAACAGTATGAAGAAACAATTGACAAATAATCCTGCACCGCAAAAGCGGGGCGTTGCAACTCGTGTCGGTACTATGACACCGAAGAAGCCGAACTCCGCTTTGCGGAAGTACGCTCGTGTGCGCTTGTCTAACTTGATCGAAGTCACTGCTTATATTCCTGGTATTGGCCACAACCTGCAGGAACATAGTGTTGTCTTGATCCGTGGCGGCCGTGTTAAGGATTTACCTGGTGTTCGTTACCATATCGTCCGTGGTGCATTGGATACTGCGGGTGTTGATGGCCGGATGCAAGGCCGTTCCAAGTACGGTGCTAAGCGGCCGAAGAAGAAGTAA
>SRR1151209_02237 30S ribosomal protein S7
ATGCCAAGAAAAGGACATGTTCCGACACGCGACGTCTTGCCGGATCCGATTTATAATTCAAAATTAGTATCTCGTTTGATCAACCACTTGATGTATGACGGCAAGCGGGGGACTGCAGCAACGATCCTTTACCATGCCTTCGACATCGTCAAGGAACAAACCGGTAACGAACCCTTAGAAGTCTTCGAACAAGCCATGAAGAATGTTATGCCTGTTCTGGAAGTTAAGGCTCGTCGGATCGGTGGTTCTAACTACCAGGTACCGATCGAAGTACGCCCTGAACGGCGGACCACATTAGGTATGCGCTGGCTCGTTAACTACGCTCGTCTGCGCGGCGAACACTCCATGGAGGAGCGTTTGGCTGGCGAAATCATGGACGCAGCGAACAACACCGGTGCAGCCGTGAAGAAGCGTGAGGACACTCATAAGATGGCCGATGCCAACCGGGCATTCGCACATTACCGCTTCTAA
>SRR1151209_02238 elongation factor G
ATGGCAAATACGCGTGAATTCCCCCTCGCCAAGACCCGTAACATCGGGATCATGGCCCATATCGATGCGGGGAAGACGACCACGACTGAACGTATTCTGTACTATACCGGTAAAATTCACAAAATCGGTGAAACCCACGAAGGGGCTTCACAGATGGACTGGATGGCTCAAGAACAGGAACGTGGGATCACGATCACTTCTGCGGCAACAACGGCCCAATGGAAGGATCACCGGATCAACATCATTGATACCCCAGGACACGTGGACTTCACAATTGAAGTAGAACGTTCCCTGCGGGTACTGGATGGTGCGATCACTGTTCTGGATGCCCAGTCTGGTGTTGAACCGCAGACAGAAAACGTTTGGCGGCAGGCGACCACGTACAGCGTACCGCGGATCGTGTTCGTCAATAAGATGGATAAGATTGGCGCCGACTTCGATTATTCCGTACAGACGCTGCACGATCGCTTGGGTGCGAATGCTCACGCCGTGCAAATGCCTATCGGGGCCGAAGATTCCTTCGAAGGGGTCATCGACTTAATCGATATGAAGGCCGACCTTTATGATGAAGATGAACTGGGTACTAAGTGGGATACAGTAGATGTTCCTGCTGATTACTTGGAACAAGCCAAGAAGCGCCGGACGGAATTAGTTGAAGCCGTTGCCGACGTGGACGACGACATCATGGAGAAGTATCTGGAAGGCGACGAAATCAGCAATGATGAATTGCGTGCTGCTATCCGTCGGGCCACCATCGACTTGAAGTTCTACCCGGTTTTGGCTGGGTCAGCCTTCAAGAACAAGGGTGTGCAGATGCTGTTGGATGCCGTTATCGACTATCTGCCGTCTCCGTTGGATGTTAAGCCGTACAACGCCAAGGATCCTGAAACTGGCGATCCCGTTGAACTGGTTGCCGGCGACGACAAGTCCTTTGCCGCGTTGGCCTTCAAGATTGCCACCGACCCGTTCGTTGGCCGTCTGACTTACATCCGGGTATACACCGGCTCGCTGGAATCTGGTTCCTACGTGCTGAATGCGACGAAGGAAGTCCGTGAACGGGTTGGCCGTCTGCTGCAAATGCACGCCAACCACCGTCAGGAAATTCCTGAAGTCTTCTCCGGTGATATCGCCGCCGCCATTGGTTTGAAGAACACCACCACTGGTGACTCTTTGACTGATCCGGATCATCCCTTGATTCTGGAATCTCTGGAAATTCCGGATCCCGTTATCCAAGTATCGATCGAACCTGATTCCAAGGAAGACCGGGACAAGCTGGACAACGCGATTCAGAAGCTGTCTGAAGAAGACCCGACCTTCCAGGCCGAGACAAACCCGGAAACTGGTCAAACGCTGATCGCCGGCATGGGCGAACTGCATTTGGACATCATGGTTGACCGGATGCGCCGTGAGTTCCACGTGGCCGCTAAGGTCGGTGAACCGCAGGTTGCTTACCGTGAAACCTTCACCAAGGAAACTTCTGCCCAAGGCCGGTTCGTTCGTCAGTCCGGTGGTAAAGGTCAATATGGTGATGTTTGGATTCAGTTCACACCGAATGATCCGGGCAAGGGCTTCGAATTCGAAGACGCCATTGTCGGTGGTGTTGTTCCCCGGGAATACATTCCGGCCGTTGAACAAGGTCTGAAGGAATCCATGGCCAATGGTGTATTGGCTGGCTATCCGCTGATCGACGTCAAGGCTAAGCTGTATGACGGGTCTTACCACGAAGTCGATTCCTCTGAAGCGGCGTTCAAGGTTGCTGCTTCTCTGGCTCTGCGGAACGCTGTCCCGACTGCCGGTGCAGTGATCCTCGAACCGATCATGAAGGTCGAAGTCGTTATGCCTGAAGAATACTTGGGCGACGTCATGGGCCAGATCAATGGTCGCCGGGGCCGGATCGACGGCATGGAAGACCGCGGCAATGCCAAGGTAATCAATGCCTTCGTACCGTTATCCGAAATGTTTGGTTACGCGACAACCCTGCGTAGTGCGACTCAGGGCCGTGGTACTTTCACCATGACCTTCGACCACTACGAAGCGACACCGAAGAGTATCCAAGCTGAGATCATCAAGAAGAACGGCGGCAACAACAATCCGCGTGAAAACTAA
>SRR1151209_02239 hypothetical protein
ATGGGGAAGATTCGACAGTATTTAGTGCACGGCGCCATCTTCGCCACGGTGGCCTTAGCGGCGTGGCTGGTGTTTTATTGTCTGGATGTGTACGAAGGCGACGCGACGGGACTGGAATTGTTCGGGGTCTGGCTCTTTGTGGGCGTGAGCGGTTTGTTGTGGCTGGCGGTACTGGTCAACTTTCTACGCAAACGAGTCCATAATCGCGAGAATAGATAA
>SRR1151209_02240 alkyl hydroperoxide reductase subunit C
ATGAGTTTTATTGGTAAAACACTGCCGGACTTCACGGTCAAAGCCTATCAAAACGGTGATTTTCATGATGTCAGCCGCACTGATATGCTGGGTCACTGGGCCATTCTGACCTTCTATCCGGCAGACTTTTCCTTTGTCTGCCCGACGGAGCTGGGCGATCTGCAGGACCATTACGAACAATTCAAGGCCCACAATGCGGAGGTGTACTCGGTCTCTGAAGATACGGAATTCGTCCACATGGCGTGGCACGATCAGAGCCCGACCATCAAGAAGATTCAATTTCCGATGTTGGCTGATCCGGCCGGCGTTTTGGCCAATGCTTTAGGTGTCCGGGACGAGGCCAGCGGTCAAGCATTTCGGGGGACGTTCATCATTGACCCTGAAGGCAAGATTCAATCCTATACGATCAACAACATGGGTATTGGCCGCAATGCAGCTGAGTTCCTGCGCACTCTGGAAGCTGCCCAGTTCGTGGCGGCCCACGGGGATCAGGTATGTTCTGCCAATTGGCATCCGGGTGAAAAGACATTGAAGCCTGGTGCCGCCCTAGTCGGCAAGATTTAG
>SRR1151209_02241 beta-galactosidase small subunit
ATGGCCGATACGACAAGTAAACCATTACGGGTCATCTATGGTGACGTGACCCTGGGCGTGCAAAGCGCCCGGACCCAATACATCTTCAATTACACCCGCCACGGGCTGGAATCCCTGGTGATCGACGGCAAAGAATGGCTGTACCGTACGCCGCTGCCGACATTTTGGCGGGCAACTACGGATAATGACCGAGGCAATGGCTTTTCCCAGAAGTCTGTCCAATGGCTGGGCGCGGACATGTTCATCCAAGATGCTGGCGCTACGGTGAAAATCGACGGGCAGCCCATCGACCTGCCCATTGCGCCGAGCAACAATCAGTATTCAGACCACGAATACGCCGCCGGCGTTGAGGTCACGATCAACTTTACGACCGTCACGATCCCCACCACGGCGGTCCAGGTGACGTACACCATCGCCGGCGACGGGACATTAACCGTGCACGTGCACTACACCGGCAACGCGAATCTGCCGGATCTGCCCGTCTTCGGGTTCCGGCTGATCATGCCGACTAAGGCCGTACGCTATGAATACGCCGGCCTGTCCGGCGAGACATACCCCGACCGGATGGCTGGCGGGGTGCCTGGCACGTATACGGTTCAGGGGCTGCCGGTCACGCCGTACCTGGTGCCGCAGGATTGCGGCGTGCACATGGCCACTAAGTGGGTCAAAGTCACCCGGGGAACCACCCAGGACAATACGAATCTGCACCCAGGCGAGTTCGGCCTGCAGATCAGCAGCGTGGATGCCCCGTTTGCTTTCTCCTGTCTGCCCTACACAGCGGAAGAGTTAGAAAACGCCACGCACATTGAAGAACTGCCCCCAGCCCGGCGGACCGTGCTCAGCATTCTCGGGGCGGTTCGCGGGGTCGGCGGAATCGACAGTTGGGGGGCAGATGTGGCCAAGCAATACCATATTCCCGCCAGCCGCGACATTGATTTCAGTTTCACTGTGGCGCCGGCCTAA
>SRR1151209_02242 beta-galactosidase
GTGGAATCCGATATTCGGTGGTTGGACGATCCTCAGACTTTTCGGGTGGGGCAATTGCCGGCCCATAGCGACCACCGCTTCTATCAGCATTACCATGAAATTGACGCCCATGATTCCAGTCTCAGCCAAAGTCTGAACGGGCAGTGGCACTTCCACTACGCGCCTAATCCCCAGGCGCGGCTGAAGGACTTCTGGGCGGCTGATTTCGATACCAGCGGCTTCGACACAATTGATGTGCCTGGACACATCGAACTGGCCGGATACGCCAAATTGCACTACATTAACACGATGTATCCCTGGGAAGGCCACCATTTCCGCCGGCCGGCCCATACCGTGGGTCAGGACACCAGTGGAGCCGGCATGTTCAGTACCGCCGAGGATAATCCGGTGGGCCAGTATGTCACCGACTTCACCCTCGCCCCAGAATTTGCTAACAAGGCGGTCACCATTCAGTTTGCCGGCGTTGAACAGGCCATGTACCTCTGGCTCAACGGTCATTTCCTGGGCTACGCCGAGGACAGCTTCACGCCCTCCGAGTTTGATCTGACCCCTTACCTGCAGGCCGGCAGCAACCGCCTGGCCGTGGAAGTCTTCAAGCGCAGTACAGCCGCTTACCTGGAGGATCAGGACTTCTTCCGGTTCTTCGGCATTTTTCGGGATGTCACTTTACTGGCCAAGCCGGCGGCGCACATCGGAGACCTGCACATCCAGCCGACACTGGCAGATGATTTGCAAAGCGGTGTCGTGCGCTTGGACTTGCAGTTCAGTCCCGTGACTCCCGATGCCACCGTCCGCGCCATCATCCGAGACGACGAGGGCCAAACCTTGCTGGACACCACGCAGCCAGTGGCCGCCAGTCAGACGATCACCAGCGACACGCTAGTTCACGTCCATCTGTGGGATCACCGCCATCCCTACTTATATCAACTCTATCTGGAGGTGCGGGATGGTCAGGGTCAACTGTTAGAAATCGTGCCCTATCAGTTCGGCTTCCGCAAAATTGAAATTAACGCCGAGCGGGTGATCCGCTTGAACGGTCAGCGGCTGATCATCAATGGGGTCAACCGCCATGAGTGGGACGACGAGCGCGGCCGGGCGATCACCGAAGCCGACATGTTCCACGACATGCACACGATGAAGACCAACCATATCAATGCGGTACGCACCTGCCATTACCCGGATCAGATTCCGTGGTACTACCTGTGCGACGAGAACGGTATCTATATGATGGCCGAAACGAACCTGGAATCCCATGGCACCTGGCAAAAGATGGGCGCCGTGGAGCCTTCCTATAATGTACCGGGCTCTGTCCCAGAATGGCGGGACGTGGTGCTGGACCGGGCCAAGACGAATTATGAGGTATTCAAGAACCACACTGCGATTCTGTTCTGGTCCCTGGGCAACGAGTCTTACGCCGGCGATAATATTGCAGCGATGAATCATTACTTCAAGACCGTCGATCCCACCCGCTTGGTCCACTATGAAGGCGTCGTCCATGACCGCGCCTACGAAGATCGCATTTCTGACGTTGAAAGCCGGATGTATGCCCACCCTGACGACATCGTCAAGTATCTCAGCGATCACCCGAAGAAGCCGTTCCTACTATGCGAGTACATGCACGACATGGGCAACTCGCTGGGCGGCATGCAGGCTTACATGGACCTGATCGACCGCTTCCCGCAGTATACCGGCGGCTTCATCTGGGACTTCATTGATCAAGCCATCGCCATCACCGATCCGGTGACTGGCCAGCATGTGCTGCGCTACGGCGGCGACTTCGATGATCGGCCGGCCGACTATGAATTCTCTGGTGACGGTCTGCTCTTCGCTGACCGGACACCGAAACCCGCATTACAGGAGGTGCGCTGCTACTATGGCCGATACGACAAGTAA
>SRR1151209_02243 hypothetical protein
ATGAAGAAAATACTGACCGTCATCCTGTTCGCCCTGCTCATTGTCGCCGCGTTCTTCGGCTACCGCTATTGGAATGCGACCTATAATGGCAAGACCTCTTATGCTGTGGTGAAAACGACTCCGCCGCGCACGGAAACGGTGGATGCCGACGGGAAGAAAGTTACGGATAACGGGCAGCAGCTGTACTCCTACGACTACACCTTCGAATTTGTCCGGGAAGACGGCTCCAAAGTCACCGTTCCCTTCGAAATCAGCGCGCTGGATCCCAAACCGCTGACGCAGGGCATCTACATCACCGGCAAGGTATCACAAACCCGCGTTGTCGAAGGTCCGAGCCCTGTGGCTGCCGATAAGGTCCCGCAAAAGGTGAAAGATCAATTGAAGTAG
>SRR1151209_02244 MarR family transcriptional regulator
ATGACTGAACAAACCGATAACCTGTTTCGCGCTTTCCGTCGTTTTGGCCACCTGACCCGGCGTTTTGCCTGGCAGCAGCCGCAACCGCCCCATCATCATGGGCAGGCCCGCCTGCTGGCGGTGATCGCCCATGAAAACGAGCCGACTTCGGCCCAACTCGCTGAGATCCTCGACATTCGGCCGTCCTCCGTTTCTGAATTATTGAAGAAACTGGAAGATGCCGGCTTCATCACTCGGGAGCCGGATCCCGATGACAAGCGGGCCAGCCGGATCCACATCACCGATGCCGGCCAAGCCAAGCTGACGGAAGCCCAGCAGGCCCAGACTGACTTCGCCGACCAAGCCTTCGCGGGGTTGACCGACGAGGAACAGCAGCAATTGCTGACTCTGCTGACCAAGGCTGATGAAAGCCTGGCGGCGAAGGTTCAAGATGGCCCGGATATTCCCGATGGTCCCCGCTTCGGCGGACCAGGCCCGCGCCATGGCGGTCCCTTCGGCGGTCCGCACCACGGCCCCCACGGCTTTGGCGGCGGCCCGCGCCGGGACTTTCGCCACGACGGCTTCCAAGGCCGCGCGTTTTAA
>SRR1151209_02245 30S ribosomal protein S10
ATGGCAAAACAAAAGATTCGTATTCGTTTGAAGGCATACGAGCATCGGACTTTGGACCAAGCTGCTGATAAGATCGTGCAAACCGCACAACGTACCGGCGCTCAGATTTCTGGCCCGATCCCGCTGCCCACAGAACGCTCCCTGTATACGGTGATTCGTTCACCCCATAAGTACAAGGATTCGCGTGAACAATTCGAAATGCGGACACATAAGCGCCTGATCGATATCATTGATCCGACGCCCAAGACGGTTGATTCACTGATGAAGCTGGATCTGCCGAGCGGTGTCGATATCGAAATCAAGCTGTAA
>SRR1151209_02246 50S ribosomal protein L3
ATGGCCAGAAAAGGTATCTTAGGAACAAAAGTGGGAATGACTCAAGTCTTTACCAAGAACGGCGAGCTGATTCCGGTGACTGTCATCAAGGCAGAACCGAACGTGGTCTTACAAGTTAAGACTCCGGAGACAGACGGCTACGAAGCGGTCCAACTCGGCTACGACGATCTGCGTAAAGTATTGAGTACCAAACCTGCGCAAGGTCATGCAGCAAAAGCTAACACGACGCCTAAGCGCTACATTCGGGAAATTCGCGATGTTGCGCTAGACGATTATAAAGTTGGTGCGACAGTTACAGTCGACGAATTCAAGACAGGCGACATCGTTGATGTCACCGGTCGTTCGAAGGGCCATGGTTTCCAAGGTAACATCAAGAAGAACAACCAGTCCCGCGGTCCTGAAACCCACGGTTCTCGTTACCACCGAGTACCAGGTTCAATGGGTTCCATCATCAACCGGGTATTCAAGAACAAGGCTCTTCCTGGTCGTATGGGCAACCACAAGGTCACTATGCAAAACCTTGAAGTGGTGTCCACTGATACTGAAAACAACGTGATTTTGATTCGGGGCAATGTACCTGGCGCAAATAAATCATTAGTAACGATTCGTTCGACCGTTAAACACGGCAAGCTTAAGAAATAA
>SRR1151209_02247 50S ribosomal protein L4
ATGGCAGACGTCACATTATACAAGCAAGACGGCAGTGAGAACGGCACAATTACGTTGAATGACGAGATCTTCGGTGTTGAACCGAACAACAGCGTCATCTTCGACGCCGTGATCATGCAACGGGCTGGTCAGCGCCACGGCACCCATGCGGTTCTTAATCGTTCCGCAGTCCGCGGCGGCGGCCGCAAGCCTTGGAAGCAAAAGGGTACTGGCCGGGCACGGCAAGGTTCGATCCGGGCACCGCAATGGCGCGGCGGCGGTATCGTCTTTGGCCCGACCCAACGGTCCTATGCCTACAAGTTACCGAAGAAGGTTCGCCGCTTGGCAATCAAGTCCGCACTTTCGCAAAAGGTTCTTGACGGTGATTTGATCGTTGTTGATACCTTGAAGTTCGACAGCCCGAAGACGAAGGAATTCGCCAATGTCCTGAAGAACCTGAAGGTGGCCAGCAAGACACTGATCGCTTTAGAAGCAGGCAACGAACAAGCTGCTTTGTCCGCCCGCAATCTGGCCAACGTTACCGTTGTCCCAGCAACCGGCGTTAACGTCTTAGACGTTGTGAACAGCGACAAGCTGATCTTGACCCAAGCAGCGCTTTCCAAGATTGAGGAGGTGCTCGCATAA
>SRR1151209_02248 50S ribosomal protein L23
ATGGCAGCAAGAGATATCATTTTACGCCCCGTTGTCACCGAACAATCCATGGCCCTCATGGACGACAAGAAGTACACGTTCGATGTTGCAATCGGCGCGAACAAGATCGCTGTGAAGCATGCAGTTGAAGAAATCTTTGATGTTCATGTCAAGTCCGTGAACATTGCCAACATCAAGCCGAAGAAGAAGCGGGTTGGCCAATACATTGGTCGGACCAAGAAGCGGCGCAAGGCAATCGTTACGTTGTCTGCAGACAGCAAAGAAATCAAACTGTTCGAAGAGTAA
>SRR1151209_02249 50S ribosomal protein L2
TTGGCCATTATTAAGTATAAACCGACGACAAACGGCCGTCGGAATATGACCGGTTCCGACTTCGCTGAAATTACTAAGTCGACGCCGGAAAAGAGCCTGCTTGAATCCAAGAATCGGATCGCAGGTCGTAACGCCCACGGGCACATCACTGTTCGGCATAAGGGCGGCGGTCATAAAAAGGCCTACCGGATCATTGATTTCAAGCGTATCAAAGATGGTGTTAAAGCTACGGTAAAGGCAATCGAATACGATCCTAACCGGACTTCCAACATCGCTTTGCTGGGCTACGAAGACGGCACTAAGTCTTACATCATCGCTCCCAAGGGTCTGCAAGTTGGCTCAACGGTTGAATCCGGCGACAACATTGATATCCAAATCGGGAATACCATGCCTCTGGGCAACATTCCTGATGGGACAACGATCCATAACGTTGAGTTGAAGCCTGGCAAGGGCGGCCAATTGGCTCGTTCTGCTGGTACATCCGCTCAAGTATTGGGTAACGAAGGCAAGTATACGCTGGTTCGGCTCAGCTCCGGCGAAGTACGGATGATCATTTCGACCGCCCGTGCAACTATCGGTTCTGTTGGTAATGAACAGCATGAATTGATCGCCATTGGTAAAGCCGGCCGTAAGCGCTGGATGGGCGTTCGCCCGACAGTTCGTGGGTCAGTTATGAACCCTAACGATCACCCGCATGGTGGTGGTGAAGGTAAAGCTCCGATCGGTCACCCGTCTCCGATGTCCCCGTGGGGCAAGAAGACCTTGGGTAAGAAGACCCGGAACAAGAAGGCCCGCAGCGAGAAGCTTATTGTCCGCCACCGCAAGAGCAAGTAA
>SRR1151209_02250 30S ribosomal protein S19
ATGGGTCGCAGTTTGAAAAAAGGACCGTTCGCGGATCAGTCATTACTGAAGAAGATCGAAGCCCAAGAGGGTCACGATAAGAAGACAGTAATCAAGACTTGGTCCCGACGTTCCACGATTTTCCCAAGTTTCGTTGGTAACACGATTGCCGTTTATGATGGTCGGAAGCACGTCCCGGTTTATGTCCAAGAGGACATGGTCGGCCATAAGTTAGGCGAATTCGTACCGACCCGGACTTTCCATGGTCACGGTACCGACGACAAGAAGACAGCAGCACCTGCAGCACGTCCTGCAGCACGTTAG
>SRR1151209_02251 50S ribosomal protein L22
ATGGCTGATACAGTTACCTCAGCAACTGCCATCGCGCGGACAGTCCGCATCGCTCCCCGAAAGGCGCGTCTGGTCATTGACTTGATCCGTGGACGCAGTGTTGCGGAAGCACTGGCAATTTTACAATTTACGCCCCGTGCTGGCAGCCCGATCATCACGAAAGTGCTGAAGTCGGCAGTTGCCAACGCTGAGCACAACTTTGATCTTGAAGCCCAAAACTTGTTTGTTTCTAAAGCATTTGTCGACGAAGGCCCAACCCTCAAGCGGTTCCGCCCCCGTGCCAAAGGCTCAGCATCAGCAATCAACAAGCGCACGAGCCACATCACGGTCATCGTTTCTGAAAAAGAAGAATAA
>SRR1151209_02252 30S ribosomal protein S3
GTGGGTCAGAAAATTAATCCGACCGGCTTCCGGGTTGGTGTCATCCGCGACTGGGATGCGCGCTGGTATGCCGAACGCAAAGACTTTGCAGATAACCTGCATGAAGACCTGGCGATCCGTAATTACATCGCCAAACGATTAGTTGACGCCTCCGTTTCCCGTGTGGAAATTGAGCGGGCTGCTAATCGGGTGAATGTTTCCATCCATACCGCTAAGCCAGGAATGGTGATCGGTAAGGGCGGCGCTGAAGTGGAAAACTTGCGTAAAGAGTTAAACAACTTGACAGGCAAGCGGGTCCACATCAACATCGTGGAAATCAAGAAGCCTGATCTGGATGCCCACCTGGTTGGCGATTCTGTTGCCAAGCAGCTGGAAGCCCGGATCGCCTTCCGTCGTGCACAACGGCAAGCTGTTCAACGGACCATGCGCGCAGGCGCAGAAGGGGTCAAGATTCTTGTCTCCGGTCGATTGAATGGTGCCGATATTGCCCGGAAGGAAATGCAGCACCAAGGTTCTGTGCCTTTGCACACCCTGCGTGCCGACATCGACTATTCATGGGATGAAGCCCATACAACTTACGGTAAGTTAGGTATCAAGACTTGGATCTACCGTGGCGAAGTACTGCCTGGTCAAAAGCCAGTTGCAGATGACGCTGGTCCCAGCCAAAATCAACAACGGCGCAATGACCGTCCTCAACGGCCGCGTCGGAACAACAACAGCAGAGGAGGGAAATAA
>SRR1151209_02253 50S ribosomal protein L16
ATGTTAGTGCCTAAGCGTGTTAAGCACCGTCGTGAATTCCGTGGTAAAATGCGGGGCGCAGCTAAAGGCGGCAAGACAGTTGAATTCGGCGATTATGGTTTGGAAGCACTCCAATCGCACTGGATCACCAACCGTCAGATCGAAGCGGCGCGTATCGCCATGACCCGGTACACCAAACGTGGTGGTAAGGTCTGGATCCGTATTTTCCCTCATAAGTCCTACACTGCTAAAGGTGTCGGCGTCCGGATGGGTTCCGGGAAAGGTGCACCAGCTGGTTGGGTATCACCCGTTAAGCGTGAAAAGATCATGTTCGAAATCGGCGGCGTATCCGAAGAAGCAGCCAAAGAAGCACTGCGGTTGGCTTCAAACAAGCTCCCAATCAAGACTAAGATCGTTAAGCGTCAGGAAGTAGGTGGCGAATCTAATGAAGGCTAA
>SRR1151209_02254 50S ribosomal protein L29
ATGAAGGCTAAAGATTTCACAAAGGAATTACGTGGTTTGTCCACTGACGAAATGCTGAAGCGTGAGCAACAGTATAAGGAAGAGCTTTTTAACCTCCGTTTCCAACAGGCGACTGGCCAGTTGCAAAACACTGCGCGCTTGTCTGTCGTTCGCAAGAGCATTGCCCGGATCAAGACTGTCTTGCGCGAGCAAGCGGCGAATAAGTAA
>SRR1151209_02255 30S ribosomal protein S17
TTGAGCGAAGCAACTACTGAACGTAACCACCGTCACGTCTATCAAGGCCGCGTCGTAGCAGACAAAGGCGATAAGACGATCACGGTCGTTGTGCAAACGTACAAGACGCATCCCGTATATAAGAAGCGGGTCAAGTATTCCAAGAAGTACTATGCCCACGACGAGAAGAACGAAGCCAAAGTTGGCGATCTTGTACGGATCATGGAGACCCGTCCGTTGTCCAAGACCAAGCGCTTCCGATTACTCGACATTGTGGAGCAATCGAAGTAA
>SRR1151209_02256 50S ribosomal protein L14
GTGATTCAACAAGAAACTCGGTTGAGTGTCGCCGATAACTCCGGTGCCCGGCAACTGCTGACAATCAAAGTCCTGGGTGGCTCTAACCGCAAGACGGCGAATATTGGTGACATTATCGTCGCAACTGTGAAACAGGCTACACCCGGTGGCGTTGTCAAGAAGGGTGACGTCGTCAAGGCTGTTATCGTCCGGACTGTATCCGGTGCACGCCGTGTGGACGGCTCCTACATTCGTTTCGACGAGAATGCAGCGGTCCTGATCAATGCGGACAAGAGCCCGCGGGGAACTCGTATCTTTGGCCCCGTTGCGCGGGAATTGCGTGAACACGACTTCATGAAGATCGTGTCTTTAGCACCGGAAGTACTTTAA
>SRR1151209_02257 50S ribosomal protein L24
ATGTTTGTAAAAACCGGTGATAAGGTCCGGGTCATTGCAGGCAAAGACAAGGGCAAGGAAGGTACCGTCACTAAGGTATTTCCCAAGCGCGACCGTGTCATTGTCGAAGGTGTGAACAAAGTTAAGAAGCACACCAAACCGTCCCAGGCTCAACCGCAAGGCTCAGTTCAAGACGTCGAGGCAGCCATCCACGCTTCCAATGTTCAATTATTGGATCCCAAGGATAACCAACCGACTCGGGTCGGCTACAAAGAAGTAGACGGCAAGAAGGTTCGTTATGCCAAGAAGTCTGGCCAAGCAATCGAATATGCCGCTCCTGTCGCAAAGTCTGACGAAGACAATGCGGACAAGGACGACAAGAAGTAA
>SRR1151209_02258 50S ribosomal protein L5
ATGGCTAATCGTTTAAAAGAACGTTACACTAAAGAAATCACTCCGTCTATGATGGAGAAGTTCCACTACTCTTCCGTGATGCAAGCACCTAAGGTCGCAAAGATCGTGCTCAACATGGGTGTCGGTGACGCTGTATCAAACGCCAAGAACTTGGACAACGCCGTTGATGAATTGCGCCTGATCGCTGGTCAGCAACCGCTCATCACCAAGGCTAAGAAGTCCATCGCCACATTCCGTTTGCGTGAAGGGATGTCCATTGGGGCTAAGGTCACACTGCGGGGCGACCGCATGTATGACTTCCTGGACAAACTGATCAATGTTTCTCTTCCCCGTGTGCGTGATTTCCGTGGGGTCAGCAAGAATTCCTTCGACGGCCGGGGCAACTATACTCTGGGTATCAAGGAACAACTGATCTTCCCTGAAATCGACTACGACAAAGTTGATCGGGTTCGTGGTTTGGATGTCGTCATCGTTACGACTGCCAAGACTGACGAAGAAGCTCGGGAACTGTTAACCCAAATCGGCATGCCGTTTAGCAAATAA
>SRR1151209_02259 30S ribosomal protein S8
ATGGTCATGACTGATCCGATTGCAGATTACTTAACACGGATTCGTAACGCCAATATGGTGCGCCACGAATCATTGGAAGTACCTGCATCCAAAATGAAAAAAGACATTTCTGAAATCCTGAAGCGTGAAGGCTTCATCCGGGACTACGAAGTCATCGACGATGACAAGCAAGGCATCATTCGTATCTTCCTGAAATACGGCAAGAACAATGAGCGGGTTATTTCCGGCTTAAAGCGGATTTCCAAGCCTGGCTTGCGCAGCTACGTTAAGTCTAGCGATGTACCCAAGGTCTTAAATGGCTTAGGGATCGCCATCATTTCCACGTCCCAGGGCGTTATCACGGACAAGGAAGCACGGGCAAAAGATGTCGGCGGCGAAGTAGTTGCCTACATTTGGTAA
>SRR1151209_02260 50S ribosomal protein L6
GTGAGTCGTATTGGTTATAAAGCCATCACCGTCCCCGCTGGGGTCACGGTAACTGTTAATGGCGATCAGTTGACTGTCAAGGGGCCGAAAGGCGAAATGACTCGTCAATTCGATCCGGCCATCAGCATCAATCAAGAAGACAATGAGATCCATCTGGATCGGCCGAATGACAGCTTGAAGGCAATCCACGGTACCACCCGGGCCAACCTGAACAACATGGTGGTCGGCGTGACCGAGGGTTACACGAAGAAGCTGCAATTGGTTGGGGTCGGCTACCGGGCCCAATTGAAGGGTGACACGTTGATTCTGAACGTTGGTTACTCCCACCCGGTCGAGATGCACGCCCCCAAGGGTGTTAAGATCGAAGTGCCGTCTAACACAGAAATCAACCTGAGCGGTATTTCTAAGCAGGTCATTGGCGCTTTTGCTGCCACGATCCGCGAAGTTCGGCCGCCGGAACCTTACAAGGGTAAAGGTATTCGCTATGTTGATGAATACGTACGCCGTAAGGAAGGTAAGACTGGTAAGTAA
>SRR1151209_02261 50S ribosomal protein L18
GTGATTTCGAAACCAGATAAAAACAAGACGCGGCAACGGCGTCATGCACGTGTCCGCGGCAAGCTTTCTGGTACTGCTGAGCGCCCACGTTTGAACATTTTCCGTTCTAATCAACACATCTACGCGCAAGTAATTGATGACGTAGCGGGTGTTACGCTCGCAAGTGCCTCAACCATCGAAGCTGATTTGGCCCAAGGGACCAAGACAGAACAAGCTGCTAAGGTTGGCGAAGCTGTTGCCAAGCGTGCAGCGGATAAAGGCGTCAAAGAAGTTGTATTTGATCGTGGCGGTTACCTGTACCACGGCCGGGTTGAAGCCTTGGCCGAAGCTGCCCGTGAAAACGGCTTACAATTCTAA
>SRR1151209_02262 30S ribosomal protein S5
ATGGCAGTTATCGATCCGAGTCATTTAGATCTGGAAGACAACGTTGTATCGATCAACCGGGTTACTAAGGTTGTCAAAGGTGGCCGGCGTCTGCGGTTCGCCGCCCTGGTTATCGTTGGCGACCATGAAGGCCATGTCGGTTTTGGTACCGGTAAAGCACAAGAAGTACCGGAAGCAATCCGCAAGGCTGTCGAGAATGCGAAGAAGAACCTGGTTGAGTTGCCCATCGTGGGCACAACGATTCCCCATGAAGTGATCGGTCACTTCGGTTCTGGTCGTATTCTGTTGAAGCCGGCCGTTGCCGGGTCCGGGATCGCTTCTGGCGGTGCCGTCCGGTCAATCATGGAACTCGGTGGCGTTGGTGATATCACCAGTAAGTCCCTGGGTTCGAATACGCCCATCAACGTCATCCGGGCTACTTTCGACGGGATTGCTCAAATGAAGACCGCTGCTGAATTAGCAGATCTTCGGGGCGTCTCCGTTGATTCACTCACTGCTGAATAG
>SRR1151209_02263 50S ribosomal protein L30
GTGGCACAATTGAAAATTACGTTAGTACGTTCCGTTGCCCACCGGATCCCCGAACAGCGTTTGGTTGTGAAGGAATTAGGCTTAGGGCGGGTCAACAGCACTGTTACGCTGCCGGATAACGCAGCAACACGCGGTGCCCTGACCAAGATCGCACACTTGATCGACGTCAAAGTCGTAGAGGACTAA
>SRR1151209_02264 50S ribosomal protein L15
TTGAAGTTACATGAATTGCAACCCAGCACCGGTGCACGTCATGCCCGCAAGCGGGTCGGCCGTGGCACAAGTTCCGGCTATGGTAAGACAGCCGGTAAAGGTACCAAGGGCCAATTGGCTCGTCAAGGCGGCAAGACGCGGCTCGGTTTCGAAGGTGGCCAAATGCCTTTGTTCCGGCGCATGCCGAAACGCGGATTCAGCAACATTAACCGCAAGGAATATGCTGTGATCAACCTGCAAGATCTTAACCGGTTCAACGACGGCACTGAGATCACTCCGGCACTCCTCGTCGAATCCGGCGTGGTTAAGAAAGAATTATCCGGAATCAAATTGTTGGCGAAAGGCGAACTGACTGTTAAGGATCTTAAGATCCAAGTCAACAAGTTCTCACCAGCCGCCAAAGATGCTGTTGAAGCAGCAGGCGGTACTGTTGAGGTGATTTAA
>SRR1151209_02265 preprotein translocase subunit SecY
ATGTTTGCTACTATTCGAAATGCCTTTAAGGTCAAGGAGATCCGTAACAAGATCTTCTTCACTCTGGGCATTTTCATCGTGTATCGGCTGGGTGCGCAAATTGCGGTGCCGGGAATCGATGCGGCGAGTTTGACCAAGATCTCCCAAACGGGTTTGATCCCGTTACTGGATACCGTCTCCGGTGGGGGCTTGGCCAACTATTCCATCTTCTCGATGGGGGTTTCTCCATACATCACCGCTCAAATTGTCGTCCAGCTGCTGCAGATGGATATCATTCCGAAGTTTGTGGAATGGAGCAAACAGGGTGAAGTGGGACGGCGCAAGCTGAACCAAGTGACCCGTTACCTGACGATCGTCCTGGGCTTCTTACAGTCCATCGGGATCACTGCGGGATTCAACGCGTTGAGTCAGTATAAACTGGTCAACACACCTGGTTGGGGCACCTATATCACCATTGGGATCATTCTCACTGGTGGGACGATGCTGCTGACTTGGTTGGGTGAACAGATCACCGATAAGGGGATCGGCAATGGGATTTCCATGCTGATCTTTGCCGGGATCATCGCCCGTCTCCCCAGCGGTATCTACCAATTGATTTCGCAGCAGATTATCAACCAAGAGGCTGGCAATCTGTTCCTGGGTATTCTCGTGTTGGTTGCGATTGCCGTCGCGGTTCTGCTGATTGTGCAGTTCACGACGTTTATGCAGCAAGCTAACCGGAAGATTCCCATTCGTTACACCCGACGCGCCGTGGGTGGCGGCAGCGAAAGCTACCTGCCTCTGAAGGTGAACGTCGCCGGGGTAATTCCCGTCATCTTTGCCAGTTCGTTCATCGTGACGCCCCAGACCATCCTGATGGTCTTCCAGGAGAAGTTCGGTGATACGACTTGGTATCAGACCCTGTCCAACATTTTCAGTATGCAGACGACCACTGGGGCGATTATTTACACCGTTCTGATCGTGCTGTTCACTTTCTTCTATGCGTTCGTCCAAGTTAATCCCCAGAAGGTTTCTGAAAACCTGCAAAAGCAGGGGAGTTACATCCCCAGCGTTTGGCCTGGGAAGAGCACAGAAAAATACCTGTCCGGTGTTTTGATGCGGCTTTCCACAGTCGGGGCTTTATTCTTGGGTGTGATCGCACTGCTGCCGCAGTTAGCAGCCAACATTTGGGACTTGCCGCAATCCATCGGGTTGGGCGGTACCAGTTTGCTGATCGTCGTCGGGGTAGCCCTCGAAACGGCCCGGCAGTTGGATGGTTTGCTGATGAAGCGGAAGTACGTCGGATTTATTCGAGAATAG
>SRR1151209_02266 adenylate kinase
ATGAATTTGATGTTAATGGGGCTGCCGGGTGCTGGTAAGGGCACCCAAGCCGAAAAGATCGAAGATACCTACCCCATCGTGCATATTTCCACTGGCGATATGTTCCGCGAAGCCATGGCCAATGAGACCCCTGTGGGTCTGCAGGCCAAGAGTTTCATTGATCAGGGCAACTTGGTGCCGGATTCCGTCACCAACGACCTGGTCAAGGAACGTTTGAGTCAGCCGGACGTGGACAAGGGTTATATGCTGGACGGTTATCCGCGCAACATTGACCAGGCTCACGCACTGGATGGCATTACTGCTGAAGTGAAGAAGCCTTTGGATGCGGTCATCGATATCCAGGTTGCCCCGGAGAAGCTCGTGAAGCGGCTGTCAGGCCGGTTCATCTGCAAGTTCTGCGGCGCCACTTACAATAAGTACTTCAATCCGCCGAAGGTTGCCGGTACATGTGATCGGTGCGGTCATCACGAGTTCTATCAACGGGACGATGACAAGCCTGAGACCGTGAAGAATCGGTTGGACGTGAACATCAAAATGAACACGCCGCTGCTGGATTTCTATGATCAGAAGGGAATCCTGCACCGGGTCAATGGTGATCAAGATATTGATCTGGTATTCGCAGAGGTTCAACAAGTTCTCCAAACATTTACGCACTAA
>SRR1151209_02267 translation initiation factor IF-1
TTGGCCAAAGACGATGTCATTGAAGTCGAGGGTAAAGTAGTCGATACATTACCCAACGCAATGTTTAAAGTAGAACTGGAGAATGGCGCCACGGTGTTGGCCCACGTTTCCGGTAAGATTCGGATGCACTACATTCGGATCCTGCCTGGCGACCGGGTCACTGTGGAGCTGTCGCCGTATGATCTGACCAAGGGCCGGATCACCTACCGCTTCAAGTAA
>SRR1151209_02268 30S ribosomal protein S13
ATGGCTCGTATCGCAGGTGTCGATTTACCCCGTGATAAGCGGATCGTCATTGCCTTGACTTATATCTTTGGCATTGGCAACACCACTGCAGAAAAGATTCTGGACCAAGCTGGCGTCTCTGCAGACGTCCGCACCCGGGATCTGACTCCCGATCAAGAAGAAAAGATTCGTGCCGCCGTTGACACGATCCCCGTTGAAGGTGATCTGCGTCGGAGTGTTTCCATGAACATCAAGCGGCTGCAAGAAATCGGTTCTTACCGTGGTATGCGTCACCGTCGGGGTCTGCCCGTCCGTGGCCAAAACACGAAGAACAATGCTCGTACGCGTAAAGGTCCTAAGACTTCTATCGCTGGGCGCAAAAAGTAA
>SRR1151209_02269 30S ribosomal protein S11
ATGGCTACTCGTAAGAACACACGCAAACGCCGTGTGCGGAAGAATATTGAGTCCGGCGTGGCTCATATCCATTCCACGTTTAATAACACATTGATCATGATCACGGACCCGCAAGGCAACGCGATTGCTTGGTCCTCAGCTGGCGCTTTAGGCTTTAAGGGTTCACGTAAGTCGACTCCGTTCGCCGCACAAATGGCTGCTGAGTCTGCTGCCAAGGAATCCATGGAACACGGCATGAAGAGCGTTGAAGTGGCTGTCAAAGGCCCTGGCTCCGGTCGTGAAGCTGCAATCCGTTCGCTGCAAGCGACTGGTTTGGAAGTTACCGCGATTCGTGATGTGACCCCGGTACCGCATAATGGTTCCCGTCCGCCAAAACGTCGTCGTGTATAA
>SRR1151209_02270 DNA-directed RNA polymerase subunit alpha
ATGATCGAATTTGAAAAGCCGAATATTACTAAGGTCGACGAAACTACGAATTATGGGGAGTTTGTTGTCGAACCTCTGGAACGTGGTTACGGCACAACCCTTGGTAATTCGTTACGGCGCGTCCTTTTGTCCTCTCTTCCCGGCGCAGCTGTGTCGAGTGTTCAAATTGATGGCGTACTGCACGAGTTCTCCACCATTGATGGGGTTCTTGAAGACGTTACTCAAATCATTTTGAACATTAAGAAGCTTGCCTTGAAACTGAACACCGACACTGAAAAAACGGTGGAGATTGATGCAGAGGGGCCGACGACTGTTACCGCCGCAAATATCATCACCGATGACGATGTGGAGATTCTCAATCCGGAACAGTACATTTGCACGATTGCCGATGGCGGCCATTTCCATATGCGCATGACCATCAAGAGCGGTCGCGGCTATGTACCGGCTGATCAGAACAAGAGTGAAGATATGCCAATTGGTGTATTGCCGGTGGATTCTATTTTTACCCCGATCGAACGTGTTAACTACCAAGTCGAGAGTACCCGGGTGGGTAAACGCAACGACTTCGATAAGTTAACGCTGGCGGTATGGACGAACGGTTCAATCGGTCCCCGTGAAGCGATCTCCCTGGCGGCTAAGATCTTGACGGAGCATCTGGCTGGGTTCGTCAATTTGACGGACGAAGCAAAGAACGCCGAAGTCATGGTCCAAAAGGAAGAAAACCACAAAGAGAAAATGATGGAGATGACCATCGAAGAGTTAGATCTCTCCGTACGCTCCTACAATTGTCTCAAACGGGCCGGTATCAACACAGTTCAAGAGCTCACCAACAAAACTGAGGCCGATATGATGAAGGTCCGCAACTTGGGCCGCAAGTCATTGGAAGAAGTTAAATCCAAGCTGGCTGCTTTAGGCTTGTCCTTAAAGAGCGCCGACTAA
>SRR1151209_02271 50S ribosomal protein L17
ATGAGTTATCGTAAGCTCGGTCGGAACAGTTCTGCACGTCGTGCGATGCTGCGGGACCTGACCACTGCTCTGCTGATCAACGAACGGATCGTCACTACTGAGACCCGTGCTAAAGAAATTCGCAAGAGCACTGAAAAGATGATCACACTGGGTAAGAAGGGTGATCTGTCTGCTCGGCGCCAAGCGGCCGCGTATGTACGCGACGTTGTTGCCGATGTGAAGGAAGAAGACGACAGTGTCGTTATTCAATCCGTATTGCAAAAGTTATTCAGTGATATCGCCCCGCGGTACACTGAACGCCAAGGCGGTTATACGCGCATCTACAAGACTGCACCGCGTCGCGGCGATGCAGCTCCCATGGTCATTATCGAATTAGTTTAA
>SRR1151209_02272 energy-coupling factor transporter ATP-binding protein
ATGGCAGAGGAACCGCCAATTATCAGTATTGATCACCTGACCGTGCGTTACGCGGAACAGGAGCAGCCGGCGCTGGACAGCATCAGTTTGACCATCCCCGCTCATTCCTGGACGGCCATTATCGGCCATAACGGCAGCGGCAAATCAACGCTGATCAAGGCGATGGATGGCTTAGTGACAGCTGATGGCGGCCAAATGACCGTGGCTGGTCTGGCCGTCACGGAACAGAACATCTGGCAGATTCGCCAACGCCTGGGGGTGGTTTTTCAGAACCCGGAGAACCAGTTTGTCGGCGCAACGGTAGCCGATGACGTGGCTTTTGGGCTGGAGAATGCCCGGGTACCGCGGCCGGAGATGCTGACTCGGGTCGATAATGCCCTGGCTCAGGTCGGGATGACTGACTTTGCAGACCGGGAACCCGCCCATTTGTCCGGTGGTCAGAAGCAGCGGGTCGCCATTGCCGGTATCTTAGCCTTGGCACCGGCCATCATCGCTTTGGATGAGGCCACCAGCATGCTGGACCCCCAGGGGCGGGCCTCGGTGTTGCAGACGATGCGCGACTTGAAGGCGAAAGAAAACCTGACCATCCTGTCAGTGACCCACGACTTGGAAGAAGCGGCAGCGGCCGACCATGTGATTGTGATCGACAACGGCCGTCTCGTGGCCAGCGGGACGCCGCCGGAGATTTTTGCAGAAGGCCCCGCTTTGATCGATATGGGGTTGTCGGTGCCGTTCACCGAGCAGTTGAAGTCAGACCTGGCGGCGGGCGGGATTACCGGCTTGCCCGCTGACTATCTTAACGAAGAGGAAATGGCAGACCAGCTATGGAAATTGTACTCGACCATGTAA
>SRR1151209_02273 energy-coupling factor transporter ATP-binding protein
ATGGAAATTGTACTCGACCATGTAAGCTACACCTATCAGGCCGGCACCCCCTTCGCGGGGGATGGCCTGCGCGACGTCAGTGTGACGATCCCAGACGGCTCCTACACGGCGATCATCGGCCAGACCGGCAGCGGCAAGTCCACGCTCCTGCAACACCTCAACGCGCTCCTGAAGCCCACAACGGGCACAGTGCGGATCGGTGACCGGGAGATCACCCCGAAGACTAGCAACAAGAATCTGAAGCCATTGCGGGCCAAGGTGGGATTAGTCTTTCAATTTGCCGAAAACCAATTGTTTGAAGAAACGGTGGAAAAAGATGTCGCCTTCGGTCCGAAAAACTTTGGTGTTCCTGAAAAAGAAGCCCTGGCCCGGGCCCATCGTGCGCTGGATTTAGTAGGCATCGGCCCGGAATATTACGAGAATTCGCCCTTTGATCTATCCGGCGGGCAAATGCGCCGGGTGGCGATTGCGGGGGTATTGGCGATGACGCCGGAGCTGCTCATTCTGGATGAACCGACGGCGGGGTTGGATCCCAAGGGGCGGACCGAATTGATGACGTTATTTGAAACACTTCACCGCGAGCAGGGCATCGGCATCGTTCTGGTCACCCACCAGATGGAAGATGTGGCCAATTACGCCGAGTTCGTTTTGGTGATGGCTGATGGACACTTGATCAAGCAGGGGCCGCCGGCGGAGATCTTTTCTGATCCCGCTTGGTTGGCGGAGCATCATTTGGGTCTGCCGCGAGCAGCCCAGTTTGCCCGGGAGCTGCGGGCTAAGGGCCTGCCGCTGCCCGATATTCCTCTCACGGAACAGGCGCTGGCCGCTGAAGTGCTGGCAATTTTACGTCCGAGAAGGGAGGCCGACCATGAATAA
>SRR1151209_02274 energy-coupling factor transporter transmembrane protein
ATGAATAAGTTGATGATTGGCCGGTATCTGCCTGGTCATTCGGTGGTCCACCAGATGGACCCGCGGGGCAAAATGGTGCTCACGTTTTACTTCATCTGTATCGTGTTTATGGCGAACAATATTTGGTCCTACTTGGTCCTGGGGTTATTCACGCTGGGGGCGGTTCTGTTGACCCGCTTGAAGCTCATCTACTTTTGGCGCGGGATTCAACCGGCCATTATTCTGATTCTATTCACTTTGCTGATTCAGGTCTTCTTCACCCGCGGCGGTCAGATTTATTGGCAGTGGGGGCCGTTTGCACTGTCCAGTGCCGGCGTGGTCAACGCGTGGTTCATCTTCTTCCGGTTGGTGATCATTATCTGCATGTCGACGCTGCTGACGCTGACCACATCACCGCTGGATATCTCCAGCGCGCTGTCGTCCTTGATGACGCCATTGAAGTGGATCCGGGTGCCGGTGGACATCATCGCTCTGATGCTCTCCATCGCGCTGCGTTTCGTCCCCACGTTGATGGACGAGACCGTGCGTATCATGAACGCCCAGCGCGCTCGGGGCGTTGATTTCGGCAGCGGCAGCTTGCTTCAGCAGATCAAGGCCATTGTGCCCATTTTGATCCCGCTGTTCGTCAGTGCGATGCACCATGCTGAGGATTTGGACGATGCCATGACGGCCCGGGGCTATCGCACTGATGCGCCTCGGACCACTTACCGCATCATTCAGTGGCATCGGCGGGACACCTTAAGTATTATTGCATTTGCTGCGCTCACTGTTGTGATCTTCTTCGTACGGGCATAA
>SRR1151209_02275 tRNA pseudouridine synthase A
ATGCCGCGTTACCGTGTGATTCTTGCCTATGATGGCACCAAGTTCCATGGCTTTCAAAGTCAGCCCCAGTTACGGACTGTGCAGGGAACGATCGAGCAAGGCCTGATCAAAATGACCAAAGGCACTCCCGTGACGGTCTTTGGCGCCGGCCGGACCGATGCCGGGGTGCACGCTCAGGGACAAGTCGTGCATTTTGATTTCCCGGGAAATATTCCGCCGCGGAACATGCTGCTGGGACTGAACTCGATCATGCCCCTGGATATTGTGATCAAAGACGTGGCAATCGTGCCGGACACGTTCCATGCCCAGTTCTCCACTGTGGGGAAGCGGTACGGCTACCGGGTGTCGCGTACGCGGTTTACCGATCCGTTTAAACGCTTTTATACCGGCCATTATCCCTATGCGCTGGCGTTAGACCGGATTCGCACGGCGTTGGCAGATGTTGTTGGGACCCACGACTACACCAGTTTTGCCGCTTCCGGCGGCGTGATCAAAAACAAGGTGCGGACGATTTACACTGCGACAATGACGGACCATCCTGATGATGATGAACTCTATTTTGAATTTATCGGTAACGGTTTCCTTTATAACATGGTACGCATTCTCGTCGGTGTGTTGCTGGAAATCGGCAATAATCGGCGGCCGGTGACAGAATTTCCCAGGTTATATGCGGTGAAGGACCGGCAAGAGGCCCGGATCACCGCACCGGCCAGCGGGTTATATCTGCAAGAAGTGTATTATGACGAGGCGGCTTTAGCCCAAGCGGTGGCTGAGCGGCAAGAGTAG
>SRR1151209_02276 transposase
ATGCCAATCAAAACACACAAGATCCGGATCTATCCCAACGCCGAGATGGCCACGGTCATCATTGAGCTGATGGACTACAACCGCTTTTGCTGGAACAAAGGTTTGGCCGCATGGAATGACATGTATGACGCATCATTAGCCATGGCGAACAAGAAACTGCGCCCCAGCGAGTACAAAGTCCGCGACGAGCTGGTGAAAAACAAAACCGACTGGCAGCACCAGTTCTCAGCGCGCGTGCTTCAAACTGCTGTCCACCGGCTGCATCAAGCTTGGCAGAATTTCTTTAATCCAGCTATGCCGGACGCCAACAAGCCCAAATTCCATCATAAGCGGGATCCTAAACAAAGCTTTACGACGGATCGGGCGGTCATTACCGGCAAGTACCTGACCTTGGATCGGCCGCACGCGGCCAGCCATCGGTTCGGCACCATCAAAATGGCGGAGACTTTACGTTTTACTGGCGAGATCAAAACCGTGACGATAACCAAGCGCGGAAAGAAGTTCTACGCCAGTGTCAACGTATTGGTTGAAGATACCTCACACCCGGCTTTTTATGACTCCTGGGACATCGTCGGTGTTGATGTGAATGTGGGCCACGTCCGCTGGAACGGCGGGGATATCAACACCTTTACGCCCCGCATGGCAGCGTTGCATCAACGAATCAAGTATTACCAAAAGTGCCTGAACCGGAAACGGCGGAGAAATCCGGGCGACTACCGGTCCAAGACCTATCAGCGGATTACAGCAAAGATGAACCGCGCTTACGAGCAGGTGCACGCGTTGCAGTATGATCTGATTCACAAATTCAGCCACATGATTATAAAGAATTATCCTGTTCCCTGTTTAGAGGATCTGGATGTCCACCGGATGATGATGGACGAGAAGAAGGCCAAAGGTCTTCAGCGCGGGCTCTTTCGCCGCTTGCGTACGGCAATCGAGTACAAGGCGGCTTGGCATCATCGCGATTTGGTGATTGCCAATCGTTTCTTCCCGTCAACGCAGCGCTGTTCAAACTGCGGCTATATCAAGAAAGAAGAAAGCTATGGCGGCAAGATGACGCTTCAAGGCGACAGCATTTACCACCAGCATGACGTGTATCGCTGTTACGAGTGCAGTCTTGTCATTGACCGAGACGATAACGCTGTTCAAAATTTGATTCAATATGCGGCGGGGCTTACGCCGGAATGGGAAACCGTTCAGAGATGA
>SRR1151209_02277 transcriptional regulator
ATGACGCATACAGCATTCAACCAGCGGCTGCAGCAGCGGCGCAAGGCACGGTGTTTGACTCAGCAGGAAGTTGCTGACCAGCTCTTCGTTTCTCGCAAAACGGTTTCCAGTTGGGAGACCGGGCGGAATCTGCCGGACCTGTTCATGATTCAGCGTCTGGCCGCCATATACCGGACCTCGGTGGATGATTTGCTGGGTACTGCCGCTCGATCGGTGACCCGGCCGGTGACCATGCTAGGGCCGGCGCTGATTCTCAGTATCTTGTTGGTGAGTGCGGCTTGGAATAATCTCTTTGCCATGGACTTTGGCCTGCAGCTGGTTTATTTATTGACCGCTGTCGTGCTGATCATTCCAGTAGCGACCGCTGGCGGGACCTGGTACCGCCGGCAACGAAACCAACAGGTGAGAGGATAG
>SRR1151209_02278 hypothetical protein
ATGCAACACAAAGTATGGTGGATCGTCAATCTCTTTTTCGCGGCCGCTTTTATCAGCGGCACGGTGCTGATCCTGTTGCGGCAAGTGGACGGGGCGGGGCATGTCGAAACACTGGGGTCGCGCTTAGCGGCACTGGCTGTATTAGGCACCTTTCTGTTATTGATCGTCATCGTGGAGCTGATCGTTTGGGCTGTGATGCGGGCGAGCCGGAAAAGAAATTGA
>SRR1151209_02279 FabG-like short-chain dehydrogenase/reductase
ATGTATACGGATTTGAAAAATAAAGTCGCTGTCGTTACCGGCGGTTCTAAAGGGATTGGCCGGGCTGTTGCCGAACGCTTCGGCAAGGAACAGATGCGCGTCGTGGTGAATTACAACAGTGATGCGCAACAAGCGGCCGAGGCAGTCCAGGCGATTGAGGCCCAGGGCGGCCAAGCCGTCAGTGTCCATGGCGATGTCAGCAGCGAGGCCGGGGTCCAGGGACTGCTGGATGCCGCCGTGCAGCAGTTTGGCCGGCTCGATGTGTGGGTGAATAACGCGGGAATGGAAATTAAGTCCCCTACCCATGAATTGTCGTTGGCGGATTGGAACAAAGTGATCACGATCAACGAAACTGGTGTGTTTTTGGGTGCCAAGGCAGCGTTGAACTATTTCAAGGCGCACCACCAGCCGGGCAATATTATCAATATGTCATCGGTCCACGAGCAGATCCCGTGGCCGACCTTCGCCAGCTATGCCGCCGCTAAGGGTGGCGTGAAGCTGTTCACCCAGACGATTGCGATGGAATACGCCAAAGATGGTATTCGGGTTAACGGCATCGGCCCCGGCGCGATCAATACGCCGATCAATGCAGAGAAGTTTGCGGACAAAGCCCAATATGATCAGACCGTGGCGATGGTCCCCATGAACCGCATCGGCAAGCCGGAGGAAGTGGCGGCCGGCGCAGCTTGGCTGGCATCGGCCGAATCCAGTTACGTGACAGGGATCACGCTCTTTATTGATGGCGGAATGACTCTGTATCCAGCCTTTAAGGATGGGCAAGGCTGA
>SRR1151209_02280 hypothetical protein
ATGAAAAAAATTGTCATTGGTGTGATCCTGATCCTAATCGTAGCGATGATTGGTTTCCTATCTTGGTCCTGGTGCGGACCGCGGCTAGCAACCTTTGCTGAGTGGGTACCCCAGAGTACGGCAAGCCAGACAACGCCAGCGGCAACCACCAGCATGCGGCATAGTGCCCGAACATTGGCAGGACAAATGACCCCGATTCGTATTCAGATAGGTAAGCAGATCTTTCGCGCGCACCTCAATAATTCAGTGACTGCCAAGGCAGTCTTAGCCAAGTTGCCGGTAACACTCACCGTGCAGGGACTAACCACGAATCCCAACGAGCATACCGCTGCGTTGAAGCGGGCACTGCCCATTAAAGGGACACCCACCGGAGCCGATCCGGCACCCGGTGATATTGGGTATTGGGCCCCGGAACCGAGTCTGATTCTCTACTGGGGGGATGTGGATTATTTCAACGGTATTCACATTCTGGGAAGGTTCGACCAGTCGGATCGGCAAACCGCAATCCGGTATATTCATCAGCAACAGGCGCCATATCAGGTAATAATCAGCCGCAACTAA
>SRR1151209_02281 hypothetical protein
ATGGAAGATAACAGCAACAGCTTCACGGCCCAGGAACTTGGTAATACCATCGCCGCGATGGCAATTAAGATTGGCCGGCTCACACAGTTCAATCAGGAGTTGAGCGAGGCTAATAAAATGCTGAAGAAGCAGCTGGAAAAGAAGGAGGATCAGACAAGTGACGTTACCCAAACTGACACTCACGATGAACAAGCAGAACCCGAACAGCCAGCGGATTTACCTACGCCAGAGTGA
>SRR1151209_02282 hypothetical protein, phage associated
ATGGCGGACACTGCTTTAGCAAATCCGCTGGTGTATGAGCATAGTACGGATGACATAACCAGCATGGGCCAGGGACACGTTCCTGGCGTTCTGAGCTGTGTGGTGCAGTCGAAATATGACAACGCGGCACAGCTGACAATGATCGCCACGTATTCCCAACGGGCGATGGACCTGTTGCAAAAGGACCGGATTCTACTGGTTGATGCCGGTGATGGCTGGAAGCGGCAGATGTTTCGAATCTTCTCAGTCGTAGCGGACTGGGCAGACAAGGACCGACAGATCACTGTTGAAGCAGCGCATGTCGGCGGGGACCTGTTCGGCAATGTGCTGGTTAATGATCTGTCACTGGCAAACGCCAGCCCGGATCAACTGTTTTCGGCATTTTTAGATAATCTAGCTGAGCCAGTAACGATTGATTTTACCAGCTCAATTACTGATGTAGCTGTGGTGAGCTGGGACGCAACCAAAGTTGATAATGCTCAGAACCTGTTGTTCGGGCGAGATGACAAGAATCCAAGTTTCACATCGTTGTATCGGGCTGAATGGTGGTTCGACAATTACAATTGGCGGCTGGATCGAAATGTTGGCCGGGACACTGGAATTGTCATTAAGTATGGGCAGCACTTGAAGAGTTTGCAGAACTCGGACTCAATCGAGAACGTCTACACGGCGGTTCGGCCAATTAGTAAATACACGCTGGGCAAGACTGGCATGGGGAATACCGATAACTACAAGGACATCAGCGGGGCAGCGTTGATTCAATACGCCGGGACTGGTGGCTTGCCGGTCTATGACACTCCATTTAAGGAACAGACTGCGACCGGTAAACTGTTGACTAATGGGACGCGGTTTAAGATTTTCAAGTATTGTGATACTGGCACAATCAACGATCACACTTGGTACAACCTTGGTGGTGCCCAGTGGGTTGATGGCGGGTATCTCAGTTTTGAAAAAGGCCAGTCCAGTCAGTTTCCATCCACGGTTGGGAATAAAGCTACCGGAAAAGGCACTATTGCCTATGGCATCGGTGACAAATCGGGTGTGGTTACAACATACACGGGTGTAATTACAGTTAATTACATTGGCCCTGGTAAAGTTGCAATTTGGGACAGCCCGTGGGCCGGTAATCATACTACCGGTAAGTTTATGGCAAACGGGAGTGCATACAACGTGTATGCCAAGGCCACCGACAACAAAGGACGCACCTGGTATAAACTGGGCGGCAATCAATGGGTCAATTCACAGTATGTTTCGCTGGATAAGCAGAAAGATTATGCTTACGAGAAAGTGCGAGGTATTGGGACTGCCAAGGTGAGCAAGGGTAAAATTGCTCTCTGGAATCGGCCAAATTTCAACGGTTCAATCGTGCGGATGATTGCTTCCGGCACTCGCTGGCAAGTATACGGTCAAGCATCCGGCGGCGGATCATCCAAGTGGTACGACTTGGGCGGCAACCAATGGATTGACGGGCAGTATATGTCATTCGACGCTGCCAAAGACGTTGAACCAAAACCGGTAACTGGTGGTAATGATACCAGTAGTAAAGACACAACACCGGGCAAGGTGTGGAGCTATAACTCACCAGGCAGTTGGAATGCCCAGGTTAAGCAATACACCAGCGGCCAGCATGTCACGATTTACGGTCAAGGATCGGCGAGTGGCGAAACCTGGTATAACATCGGCACGAACGAGTGGATTCAGGCGGATTATCTGACGTTTAACAACGATACAGATGTCAGCCCAAGCGGGTCTGCGGACGATATGAATGCTGCTGCGGCAGAGGTAACGGTGACGTTACCGGAAAAGTATATTGCCGTACCGATGCCAGATGGTCGGCAGTACGAGCATCAGCGGATCGTCAATTTTGACGCGAGCCAGTACGACATTACAACCGTGGAAGATTTACGATCCATTACGCAGGCGTATATCAGTGATAACAACATCGGCCAGCCTAAAGTAAGTCTGACAATCGGGTTTATTGACTTGCAGGAACGGTACAAGAATCTGTCTCAGGTTCGGCTGTATGACACAGTTACGGTATTTCTGCCGGAAATTGGATTGAGCATCAAGGCAGAAGTAACTGATGTTATTTATGACACGCTGCTCCAAGCTAACACGCAGGTGACCATTGGCAATCGGCCACTGACCGCTACGGATGACTTGGCGGAATGGGCGAAAAAAGCAGAGGACAAGGCGGCCAGCACCGCCCAGAAAACGGCTGACAAGGTAAACGATCTGGACCTAACCTGGAAGCAGGACATTGATTCCACTACGAAGAACATGCAAGACCAATTCGATGCGTTTGGCAGGCGAAGTTCTGAACAGCAAACCCAGTGGCAGAACGCATTTACACAGGAGTGGACCAATGACATTAATTCCTACAAGGCGGTCATCAGCCAGCAGGTTCAGGATGCCAATCGGTTAAGCTCAATCGTAAAGTACACTAATAACCAGGTTCAGTTCTACAACGGAAATGGGACTAAGGTCGGTGAAATTGGTGCCGGTGGGCTGATCTATTACGACACTAATGGAAATGCAACCAGTATTGTCAGCTCTGATGGAAAAATCATTGCTAATCAGTTGGTGGCAAACGTCACGATCGACACGCCAACCATTAAGAGTGCCATGATCGACGGCGGCACTATCAAGGCGGTTAATACAATCACTGCCATTAATCCATATACCGGCATGAATACGACCATTTCCGGCGACTGGGGACTATCCACTAACGGAGGGATTCACGCATACACGCCGTGTAATTTCGAAAGCAAAGTTGATATTGGCGGTGATCTGTTCATGGGCGGCAATATCACACTCAGAGGTGGAAGAAATCTGTATCTTGGCTATGGATCATATCTCAGAGTAGATGCTTCCACGGGGTCACTGTGGTATCACGGCGGGCCAGGATGGTCTCGCGACTATAAAATTGGAGGATAA
>SRR1151209_02283 hypothetical protein
ATGGGCACGTCGTCCAAGTCGCTGGGATTGAACATTCTGTATGGCACCAATGACTGGCTAGGGGCTAACTACGCATCTAGCATTACGCAGATTCCTGGCAGGTCTGTAGCTGAAATTGTGCCGAGCAATCGGTACGACAATGTGTCGCAGGTGTTTGAGTTCACACGACTCACATCCACACCATTTATGGAAGTGGCGGCGTTGTCTCGGGCGGTGAGCCACTGGCTGTTCTCCACTGACCCGAATCAGTACCAGAAATTGTTGTATGATGGATCGCCAAACTTCTATTATATGGCAGCGCCAACGACGGTTTCGTCGTTCAAGATTTCGGACCGCACGTCAATCTCGTTTTCGGTAACATTTTCCTGTCAGCCGTTTGCTTACGAGATGGGCGGTGACGAATATCAGTCAGTCACCAGCGGAGACAATCTGATTAACGACCGACCGTGGAAGGCATATCCACTCTGGCACGTATCGGGCGCCGGAAATGGCAGCTTCGTGTTGAACGGCACGATGTTCAATTTTATCGGTGTGAATGGTGACCTGTATGTTGATTCAGACACGGAAGCCGTTTACGACGGGCAGGGAAATTATCAGCCGGGAATGGTGCAGTTCACGAACTACGATTTTCCGGTGCTTTCACCCGGTGATAATAAATTGACTGATATTAGTGCATTGAATTTGGAGGTGATGCCAAGATGGCGGACACTGCTTTAG
>SRR1151209_02284 phage tail tape mesure protein
ATGGCAGATGAACCTTTAGGCCGCATGATAATTGAGCTGGGCCTGGATGATAGCGAGTTCGGTAAAGGACTCCAAGGCGCCCAGCGAAAAGCCAAGTACGCTATGGCCGAAATGAAGTCTAACATGAGTTTCATGAGCGCGTGGGGAAACCAGACGCAGGTATTGCAAACAAAGATGACTGGGCTTTCTCGGGCAATTGAAGCTCAGGCTGGAGTAGTTAAGAAGCAACGAGAGCAATTTGAAAACTCGCGCACAAAACTCGGTGAAGCAACAGGGGCTACAGGGAAGTATGCTACCCAATTGCAGAACGCCACGGCTAAGCTGAACTCTTTGCAAGGTCAGCTGCGCAAAACGGCTGGTGAATTGGCTGTTGTACAGACAAAAACACAAGGTATCACTGGTGTTATGAATAAAGTCGGCACAGCAGCTACGGCTGTGGGCGCAAAGCTCAGCAGCATTGGAAAAGCAGCCACTACTGGCCTCACAATTCCGATTGCAGCTGGTCTGGGCTATGCGGCCAAGTCTGCAATTGACTTTAATAGTCAAATCGCCGCTTTAGGACCACTTTTAACTAACGGTGAAAAGGTTACCGGACGGTTTAAGACTCAATTAAACCAGTTAGGCGATTCAAGTTTGAAGTGGTCGAAACAATATGGCCTATCTACTACAGAAATCAACGACGCGATGAGCGAGTTGGTCAAGCGTGGGTATAATGCCAGCCAAGTGATCGGCGCAATGCCATCTATTCTGAACGCAACTAAGGCATCCGGCGAGGGTATGGGTACAGTCATGCAGGCCACGGCGTCCATCGTCGAACAGTTTGGGCTGACAAGCAAGACTACAGCCGGTGCCATGAAGAATACGCAGCTGGTCGCTGACTCACTGACCTATGCAGCAAATGCCACAGCGGCCGGATTCGGTGACTTGTCAGAAGCGATGTCCTTCGTTGGACCAGTCGCTCACTCTCTGGGCCTGTCGGTTCAGGAGACAGCGGCGGCAATTGGTGCGCTGAGTCAGCAAGGTATTGAAGGCCAGAAGGCTGGTACCGGACTGCGGGGTATTTTAACCAGTCTGATTAAGCCTACCAAATCTCAGGATGAAGCATTCCGCAGTATGGGAATTGGCGCCAAGCGGTTACAAGAAGACTCACACAATCTTCCACAGCTGATTGATGACATCCAGAAGGGTACGGCACATGCTAGTAAGGCAGAGCGTGGGCGCGCATTAGCATTAGCGTTCGGGAAACAGCAGCAATCAGCGGCGAACGCATTAGTAGAGTATGGTTCTACGAAGCTGCGCGAACTAACGAAAGCTACTAACGAATCTGGCGGTGCAACCAAGCGGGTCGCGGATCAGTTGAACGATACGCAAGCCAACAAAATTAAACGATTCCAGTCATCTCTCCAAGCGCTGGCAATTTCGTTTGGTCAAAAGTTGTTGCCAACGTTGATGCCGATCACTGAAAACTTGACGGACTTAATCAATAAGTTCAGTGAACTGGATAGTGGGACGCAGCAAGTAATTCTCAAAACTGCATTGGCAGTAGCAGCTTTTGGGCCACTAAATTCCGTTTTAGGCGGTATGTCTAAAGTATTCGGTGGTGCCAATACTGGTTTCGTGAAGATGGCAAGTTCAATCGCCAAGTTTGTGGCAACACACCGCCAACTCAGCGATGTAACCGAAGCACTGGGTGGGTTGGGCAGCAAAGCTACATCCACAGAGCGCGCTTTTAAGCCGCTTGGCGATACAGTCGGGAAGACGGTTGGCAAGTTCACTGTTTCCGGATCGGCAGCCAGTGCAGCCGGTGACAAGCTCGGAGAAGCAGCTAATGTTGCTACAAAGGCTGGCGGAAGTTTCACGCTGTTCGGTAAGGCACTAACGGTGAGCGCTGGTGAGGCTGGTGTTTTAGGAACAGCATTGACTCCACTTGGCGCTGGCATAGGTATTGCTACACTTGCTATCGGAGCGGGTATTACCGCATGGGAGTTGTGGGGGAAACAGGCTTATCAAAGCTCTGTTGAGACTGATAGTTGGGGGACAAGTGTCGGCCGGACGGCTGATTCGTCCTTGCGAAAGTTCCAGAATTTCAACACAGAGGCTTCTCAGGCATTAGCAGGTTTCTCCACTTCGGCAAAGGCAAGTGCAAAAGAGGCATCCGACGCATTTGCCAGTATGTATCGGACCATTCACCAGTCCTCTAAAGATACAAATTCACAGTTGCAGAAATCTCTGAATGAGCTGCCCTCTTCTGTTCGCCAGTATCTTCAAGGTGGTATTAACGAACAAAAAAAGGCAAATAATCAAGCTGTTGCGGAAGCCAGCCAAGTTGCAAAGAATGTTAATTCAATTCGAGTTAAGGCAAGTAAGGAAAACCGCGACTTAACGGCTGACGAATCACAGTACATCTTGAACGGCCAAAAACGGATGAACGATCTGGAAGTGGCAACGCTAAATGTTTCTGCTGCTAAAAAGAAAACCATCTTACGGACGTTAAATGGCGACATCAAGGGGTTGAACAAGGATCAGTTATTTGATTCTTTCAACTCCCTCTCACAAGGGTTGGAAAAAGAGAATCAGAAATACGCTCAACAGAAGTCGATCATTGAGGATTTGTACAACAACGGCAAAATTTCAGCAGACAAGTACGCCTCAGCAATGCGACTGTTGGATGACAATCACTCTCAGATGACTGACCAAATGGTCGCCAACCTGTACAAACTGATGAAAGCCACCGGCGACAATAGCGGCCAGATTGAACGATCATTCAAAGCAATGGGCGTTTCAATGGGGCAAGTCAAAGATGCACTGCGCAATACGGCCAAGACTGGCAGCACATCACTAAACAATATTGCCGACACAGCGTCCAAGATGTCATCTACTGCAAAGAAAGCCGGTGAAACTTGGAATTCGATTGTACTGGACCCGAAGACTGGTGAAGTTAAAACCAATTTGCAGAAAGTGCTCAATGACACCGCGAAAACTGATGCTGGGTGGAAAAAGCTAAGGTTTGCGGCCAAGAATGCAAAAATCTCCAGCAACGTACGGGCTGAAATCGGCATTGCGGCAATCGAAAATGGACGATGGGAACACTTATCCTGGTCAGATAAATATGCCATGATCCGCAACAACGCGGATGCTACGATGGTTCAGGTCTTGGAAACTAATGGCAAGTGGAACACACTGACTTTCAAGCAGAAGGAAGCCATTATTTCTGCAAAGGGCGGCAAAGAACTGTCTGATGCGGTATTCCAAGCGGGAATTTGGAACAGCCTGAATCTTAAAGACATCGAAGCTATGGTGACCACCAAGGGTGTTAGTTCGTTCATTGATGCCCTGGATAAAATGAAGATTTGGCAAGGTCTGACGCCTAAGGAACAGTTGGCAATTGTTCAAACAAAAGGTACTGCTGGTTTGGCAGACTTGATTCTGAAATATGGGGGTTGGCAACGGCTTCCGGACACAGAAAAGAAAGTCTTAATGAATGACTCCCAGTTTATGGCGGAATTACAGAGAGCTGCTGAATCAGGCAATAGTTTTGCTGCAAAAGAGTTACTGAAAATAATCGGCGCCGACAATACTGGATTCAACCAAGGCATGTCCAACGCAAATGCAGCAGCTAATTCGTTTGGCAAAACACCGGCAAAGAAACCAATTGATGCCGACACGAAGCCGCTGGACACGAAGTTCAAGAATTTACTCAGTCCTAATTACTTCGGGAGCAAATCAGCAACAGTACCTGTGGATGCCAACACCGCCAACGCAGATTCGAAGATTAAGCAGACTAAAGCAAATGCAGGCGGTAAGGTTACCCTCAAGGTTGATCCAAAGAATTCGATTGAAACTATTAGCAGTGTTGCCAGTGCAATCAAGAAAGTTCCAAACCGGAAACCGGATATTAACGTCAATGGGCATGATTCCAAATCTAAAGCAGAGGGTATTCACAGGGCTATCAAGGGGATTCCAAACAGGAATCCAGATGTTAATCTGAACGGCCACGGGTCCCGAGAAAAAGCGGCCGGAATTCGAGACACTATCAGACAGATTCCCGTTCGGAAGGATTCAGACATTTACATTACGACTCACAAAACAACGATCACTGAGACCAGGCACAAACGGGCCGGCGGTGACGATAACTTTGTCGGTGGCGATGCGATTGTCAATGATCAGAAGGGTTCAACCTTCCGAGAACTGATTCACTTACCGAATGGACGAGCGTTTATTCCACGCGGGCGGAACGTTCTGTTGAGGAACTTGCCAAAAGCAACCAAAATTGTTCCGGCACCTACAACAGCGAAGATGTTTCAAGGCTTGCCGCAGTTTGCTAACGGCTTAAACATCCCAGCGAACGCCACACCGGTTCGAATTGTACGAGACCTAACGGATCGTATTGCGGACTCGGGAACAAACGGATTGTCTATTGCTCAAAGCATCGTGGCAGGGAATACGGACAATAATAACGGCAAGTTGATTGACGAAATGGTGAAGGCTAATTCGATGCTGCAATACATCATCACATTACTCACACCAATGTCGTCCGGGTCGGACGCACCGGCGCCAATCAACACAAACCAAGTTTTGCGGGCACTGGCTTCAGCATTGGGCCCGTATTCACATTACATCAGTGCAAACAGCAAACGGACAGGAGGGTTGATTTAG
>SRR1151209_02285 hypothetical protein
GTGAAACCTTTGAAGATTACTTTGCGGGACAAGAATGGTGAGACACAGACGTACACGCAGAACTTCGTACCGTTACAGAAAACACTTGATGCGGCTGATTTGAACGACCGGGCCAGTGACTACAACACCGAAGTGGAATGGATCACAGCCAAGTTAGAATATGTGGCCAGTTTATTCGACGCAAAAGAAGTCACAGCCAAAGCCATTCTGCAGGGCGTTGATGCACGCGAAGGATTGACAGTAGTTGACAGCTTAATTAACGAAGTTATGGGTCTCACAGACCCAAACTCCGAAACGCCGAAGGCGGAGGAATAA
>SRR1151209_02286 phage major tail protein
ATGACTTTAGTAGGATTTAAGCGCGCGACGATTCAGCCTTTTACGGCTGATGGTTTGCCGGACGGCAAGCCGGTAGTAATTGAAGGTAAAGCCAACGCTGGGGCAACGGTATCTGCGGAAGTAAGCGGCCTGTCTAAGGATGCAACCAAGGTAGCCGGTTCAGATATTGAATATTACATTTCTCAGCAGGGTGTAGGCAACGTATCAGTTGCCTTTGGACTGTTGGATATTCCGCATCTTGATGAGGCTCGTATTTTGGGCCAAAAGACGGTTGGTGAGGACGGCAAGGAAATTGTATATGTCGGCAGCGACACCAGTGCACCGTATTGCGGTGTATTACTGGAAGCTAAAGACTTGCAAGGCGATGTGGTCCAACTTGGTTTCTTCCGGGGTAAGTTCGCTAAGGACAAAGAAGAAGCTAAAACTCTGGACCCGAGCGAAACATTCAAGCCGGACGCCGACAGCTTTACATTTTCTGCGGCTGCTTCCACAGATGATGGGGATCAGAACGGCGAGTATGTAGCTAAGTACATTGGTTCTGATGCTGATACCATTAAGAAGATTCGCGGTCAAGTGTTAAAGGAAGCAACGACACCAGCACCGGCACCAGCAGTGACACCAACACCGTCAAAATAA
>SRR1151209_02287 hypothetical protein
ATGAAAGACATGCTCGATATTATGTATGGAGCTATTCGGGCTCACCCGCGGCTGGCTGAGCTGGCCGGGGATCGTATTTATAAATATGATTTTCCACAGTCTGCAAATCATCAGTCTTTACGGATCGTCATTACACCACTTGGCCCACCAGAGGGGAGCACAGGTGGCAGCGACGACGTATTGGCTTGGCAATTTACTTACCAGGTCAATGTAGAGGGTCCAAACAGAAAAGAACTGAAGGAAGCCCAACATTACGTGCAGCAAGTGATGGCGGGCTATTTGTTTGCCCAGATGACTGGTGGGCTGGATGAACAGCTGGGCAACGGCTGGTCCGTCGATGCCCGAAGGTACCGGGGTAACACTAAAATTTACGACACGGATTATTAG
>SRR1151209_02288 hypothetical protein
ATGGTGCTGCATGATACCCGGATTACCGGGATGGACGAAACGTTGGCAAAGATGAGAGCTAAGTTCTCACCGGGGCGCTTGTCTCGATACGAAAACGCAGCACTCAATAAGGCTGCCGAATACGTTGAAGAAGAGCTAAAAAAGTCAGTCGGAACCTACAGTTACGTCAACAGCCGAACCGGAGCAACTGGTGAAACGAAGATTGAAGTGGCTGCTGGTAAAGCACGCATGCGTGGCAGCGTCCGGTCGGTGAACATCGGCTGGAAGGGTGGCGCGATGGAACGCTGGCGATTAGTCCACTTGAATGAGTTCGGCTATACGCGCTGGCATAAAACCTATTCGCCGAAGGGCATGGGTAAAATTCAGGCCACTTATGACGCCATCAAACAACCAGCAATGAACATTCAGCGAGAGGAGCTGAAGAAACTCCTATGA
>SRR1151209_02289 hypothetical protein
ATGAGTAAAGGCAAGCAGGCAGCATACGTTAATTACTATTCTGGTGCGCCGACGTTCAAAAAGAAGAAAACCGGATCGGGTGATTTACGAATCCCGGTGGACTTTATGGAACTGACGCCAAATGCAGATGGTGAACCGGGCGACATGCCAACGAAAATGGTGTTCTCCACTTATGCTCAAGTCTACGCACCAAGCCAGAAGGACACGCTCATTCTCTCTACTCATGACCGTACTGAAGGCGTGACGATTCGGATTCGGGACACACGCGGTGAGTTTCTGCCGACAGTGGATAAGCACGCTGTTTATATTGACGATTATCGGTACAAGGACAAGATTTGGGACATTACCGATGTGCGTTTGGACTTTTCAGACGACAGTTTCCTGGTATTAGTCCTGAGCAACCCCCAGGGTGGTGATTCCGATGGTGCTGCATGA
>SRR1151209_02290 hypothetical protein
ATGGCTGAATCGCTAATTACAGACGAAATGGTGGCCGAATTCAAGGCACACATGCACATCACCCACAGCCGAGAGGACCCGTATCTGCGGGGATTGCTGGAAACGTCGGCAGCGGCGGTCATGGCGATCACTAACGACAAGGCTTTGACCGATAAGCGGGTGGTTGAGCTAGTCTATCAGCGGGCACGGTACGCGTATAACGATCAATTGGAATGGTTTGATGCCAACTTCCAATCTATGCTGATGAATCTGGCAATTGAGAACTACGAGGGGGTGCCGGACCAAGACAATGAGTAA
>SRR1151209_02291 major head protein Cps
ATGACGATTAAATTCGGTGACGATAATGTGAAGTTCGTCAACTTTGAAGCAAAGCAAAAGGCTTATGCCGAGCTCGCTAAGAAGGGCGGAGATGCCGACGCACAATCTGCTGCGTTCGGCGAAATGATGAATGCACTGTCTGGCGATTCTATGGACTTCATCAAGAAACAGGTCGACTTAAAGACTGAGGACTTCCTGAAGGCCAAGGCTGACGACCAGACGCTGACTCAACAAGAGATTAAGTTCTACAACGATATTAAGACGGATACCGACACCAAGAGCAAGGAATCCGTTGATGTATTGGTGCCGAAGTCAATTGTGGATCGCATTTTTGACGGCATGACTCAGGCTCATCCACTGTTGGGTGTTATCGGCCTTCAGAACAACGGTGTGCGCCTGAAGTTCTTGAAGTCCAGCCAGTCCGGAGTTGCCGTTTGGGGCGACTTCATGGGCGAAATCAAGGGCCAACTGGATGCCAAGTTCGGCAAGGAAGAGGCCATGCAGAACAAGCTGACCGGCTTTGTTGTGCTGCCTAATGACTTGCTGGATTATGGTCCTAGCTATCTTAAGACTTACGTCATCACTCAGTTGCGGGAAGCCTTTGCGGTTGCGGCGGAACAAGCATTTCTGTTGGGCGATGGCGCGCACAAGCCTGTCGGTCTTAATCGGGATTTGACAAAGGGTACTGCCGATGTAGACGGCGTAGTAACGTATGCTGAAAAGGCATCCGCTGGTACGTTGACATTTGGCGATTCTAAGACGGCAGCCATGGAGATTGCTAAGGCAATCAAGGCACTGTCTGTGGATGTTAATGGCAAGCCGGTAGTTGCTTCTGGCAACACCATTTTTGTCATGTCACCCGGCGATCACTTAATGGTTGAAGCTCAGTTTGCCATCCAGAATCAGAACGGGCAGTTCGTTACAAGCTATCCGTTTGGCATCACCATTGTGGAATCAGTATATCAACCGGATAACAAGGTGACGGTGTTTGTCAAGGGCCGTTACGATGCGTTCCAAGGCGGGGACATGAAGATTGCCCAGTTTGACCAAACTCTGGCGATGCAGGATGCCACTCTGTGGACTGCTAAGCAATTCTTCTACGGCAAGGCCCGGGACAACAATTCTTCTGCGGTATATGACTTGAACCTGACTGCACCGGGTACGACACCCGCTGCACCGACCACCAAGCCGGCGTCAAAATAG
>SRR1151209_02292 ATP-dependent Clp protease proteolytic subunit
ATGACAACGAAAACGATGAACGTCAAGGGAACAATCGTGAATGATGACATGGGGCCGGTATACGACTTCTTCAAAAAATCAGCGACATATCCTAGTAAATTTATGAGTGAGTTGCCGGAAGACAACAGCGATATTGAGGTAAACATTAACTCTGGTGGCGGGATCGTGGATGCAGGGTCTGAGATTTACACAGCACTGCGCAACTATCCGGGTCACGTCAAGGTGAACGTTGTTGGCCAAGCGGCTTCTGCGGCTTCCATCATTGCGATGGCTGGCGATGAGGTAGTGATGTCACCAGTAGCACAAATGATGATCCACAACGTATCGGCGGACAAGTTTGGTGATGATCGGGACCACGAGCACGTGGCAAAATTGCTGAAAAGCATGAACCAGTCGCTTGCAAGTGCCTATTCCGCGAAGACCGGATTAGATCAGTCGGAAGTGTTGAAAATGATGAATGACGAAACTTGGCTGAATGCTAAGCAAGCAGTTGAGAAGCACTTTGCAGATTCAATCATGTTCGATGAAGACCAGGATGCTGCAAAGGTATTACTCACTGCGTCAGCAGACACGGATGGCATGTTGAGTCTGGCTGCTTTACAGGCTGGTCGTGAAGCAATGCTGAACGCTCAGCCGAGCAAACCCACACCGCCATCTCTCGCCGCTAAAATTAGTGGGGGGACGACGACGGTTACAGGAACGGCTAAGCCGAACGCCTACATCAAGGCCGACAACAAGGACGGTAAGCAGGTGGCCGAAAGTAAGGCCGACGATGCCGGCAAGGTCAGCTTTACGATTAAAGGGCTGAAGGCTGGCGATGAGCTGCGGATCACTCAAACTGATGGCGATAATGGCACCAGCAAGCCGGCGGTAATTACTGTTAGTGAGGATGAACAATCCAGTGCACAGTCGAGCACTGAACTGTTAGCTCAAATCGAAGAACTGAAAGAACAAATCAAGAAATCTAAAGAGTCTGCCGAGTGGCACGACTTCTTTTTCAATGCTCAAGGAGGGCAATTAAATGACGATTAA
>SRR1151209_02293 phage portal protein
TTGAGTGTTTTTAAGAACATTTGGGACCTAGTAACCCAGCGTCAGGACACGTCGTTTATGTTTGACGCCGATATGTGGGAGCCAGACCTGCAGCGGGCTTATCTGAAACGTATGGCGATAGATACCAATGTGAATTTCATTGCCCGGTCATTTACTCAGTCAGAATTCAAGGTGATGGACGGAAAGAAGTCTGATCGCAATAGTGAGTTGTACTACCGACTTAATGTGCGGCCAAATGCCAACCAATCAAGCTCCCAGTTCTGGTATGATTTCATCTACAAACTCATTTACAATAATGAAGTGCTGGTCATCCAGAGCGACACCGGAGACTTACTAATTGCTGACAGTTTTGTCCACAACCAATACGCACTATATCCGGACACGTTTTCCGGGGTGACGATTGGCACGTACACGTATGATCGGACGTTCAGCATGAACGATGTACTGTACATCAAGTTTGCTAACTCGCGGTTAGAGGACTATGTAGCATCGCTATTCGGCGACTATGGCAAACTCATGGGCCGCATGATTGAAGTGGCAATGCGTAACCGACAAGTCCGGGCAGTCGTCCACGTTGGTGCAATGGCAGGACTAAGTGACGAGGAAAAACAGAAGAAAGTCCAAAATTATCTGGATAGTGTCTACCGGGCATTCCAGGACAAGTCTGTGGCAATTGTGCCAGAAACAAATGGGTTAGAGTACGACGAGAAGAACCCCGGCGGTGAAACTCGGGGTACATCACCACTTGATGAAGTGAGCGATATAAAAACTCAATTTATCGATGACGTAGCGTTGATTCTCAGCATTCCGCCAGCGTTGCTGCACGGAAACAATGCTGAGATTAGCCAGAATAAGCAGTCATACATTGACTTCTGCTTGCGACCGCTGATGTACCGGATCAGAGATGAGATGAATGCCAAGTTTTTCTCGCCGGACGAATTCCAGAATGGGAAACACGTCGAAATCATTGGTCTGGATAAGCAGAACATCGTGGATGTGGCTACAGCGATTGATAAGTTGCGGGCTGCCACAGTGCTGAACGGTGACGAAGCCCGTGGGCTGCTTGGTTATGATCCAACGGGATTACCAGAAATGCAGGAGTATTACGTGACGAAAAATTATCAGAGTGCAGCACCAAACGCCAAGGGCGTTGATAACAACATGAAGGGAGGTGATGACAACGAAAACGATGAACGTCAAGGGAACAATCGTGAATGA
>SRR1151209_02294 terminase
GTGAGTTATGTGACAGATTATCTGAAATTGTATGATGACGGCAAGGTAGTTTGGAATAAAGAACGCATTCAGCTTGCCGAGTATGTTAGAAAGAACATTCTTGACAATGACGAGTTGTACTTTGACGAACGTAAAATAGATAACTTCGTCGGGTTTACTGAAAAATGGTTTTTCCCGCTCCAACCATTTCAGAAGTTTCTTGCGTCGTTCGTTTTTCTGTACCGCAAAGCAGATGATACGGCATTCTACCGAGACTTCCTGTGGATGATGGGTCGAGGTGCTGGGAAGAACGGTCTTATATCGGCAATCTCAGCATTTCTAATCTCGGAATTGAATGGGGTACAGGCATATGACGGATCAATTGTCGCCAACTCGGAAGATCAGGCCAAGACATCGGTTGTGGAAGTCTCCAACGTTGTCCACTCTCACCCCGATCCACTGGAACGGGCGTTTTATGCCACAAGTACGCTGGTCCGGTCTAGAGCAACGAACTCGGTACTGAAATATCGGACCAGTAACGGCAACACCAAGGACGGTCTGCGTGATGGGTTTGTGATATTCGATGAAATCCACGAATACCATGATGCCAGCAACGTCAACGTCCACATTTCAGGGCTGGGCAAGAAATTGCCACCGCGAGTTTTCTACATTGGGACCGATGGATATGTTCGGGACGGGTTTATCGACAAACTGAAAGCACGAGCAGCACGCGTACTGGAAGGCAAGGCCCAACCGGACTTAATTTTCCCGTGGATTTGTAAAATCGACGAAGAAGATGAAGCTGATGATCCAAAAATGTGGGAAAAAGCCAACCCGATGCTGTCTAAGCCGCTCACGCCATATGCCAAGGGATTGTACAAGGAAATTGAGCGTCAATTTAACGAATTGAGTGAAAACCCATCTGGTAAGGAAGAATTTATGACTAAGCGGATGGATTATCCATCACAGAGTCAGGAATCTTCTGTGGCGCCATGGGAAGAAATCGCGGCGACTAACCAGCCAATCCCGGATAACATTGAAGGGCGGCAGGCAATCGGTTCGGTGGACTTCGCGACGACGAGGGACTTCATGGCAGCAGCGGTGACGGTAAAATATGGTGATAAGCTGGTCACGATGGAACACCAATGGGCAACCAAGGTGTTTGTTGATCGCCAGTACCAGTATTCTCGCAAGGATTATGGTGAAGCCAAGCCAAACCAGAGGTTACACATCCCAATAGCTGACTGGGAGGAAAAAGGGCTATTGACAATCGTCAGAGCGCCTATTTTAGACCCAAAGGATGCATTGAACTGGATGGGTGAGATGCGGCAGCGCTTCAACATCGTGGAAGTAGTTATGGATAACTACCGGGCATCGATCATGCGGGCGATGTTTGAGGAGGCCAGCTTTGAGGTAAGTATTATCCGCAACCCGACGGCAATTGACGGGCTATTAGCAACAGTCATTGACAACGGGTTTCCGAATCGGCGTTTCATTTGGGGCGATAACCCACTGCTGAGGTGGAATACAAACAACGTGCTGGTCAAAATTGATGGCCGAGGGAATAAGCAGTACCTAAAGAAGGAAGAAATCAGGCGAAAGACAGATGGCTTCAAGGCATTTGAGTACACGCTATATTCCATTGACAAGATTTCCGATCAGGACGTGTCTGGCTCGTTGGACATGTTGGCCGGGCTGAACTTTTAG
>SRR1151209_02295 gp1 protein
ATGGATATACCAAATATGAAGGAAGAACTGATGAAGCAAGTGAATCCAGAGTCTGCAATTGCTATGGAGAAGGTAGACCGATACTTATCTTTGGCTGAGCTGTATAAGAAACTGCAAGAAGTGGCAATGAAGCAGCCAATGATCGTCATCAAGAACGGAAAACAGGAATACACCAAGACCAACCCGGCATTAACCGATATTAATCGGATTAATGGGGCGCTAATCGCTTTAGGACGGGACATGGGATTGACTTCTCCTCCCTCACCCGGCGTGGACAAAGGCAAGGCTGGCTATAATGCAGGTGATTTGACGTGA
>SRR1151209_02296 Cro/Cl family transcriptional regulator
ATGGTTACTACATTAGATAACATTAAGCACTTTGCGGAATTACGCGGCTTGACGCTTGCAAGTGTGGCGGAACGGGCGGGCTTAAGTTCGGGCGCTATATATCGTTGGGAAACAGCGCAACCGCGCGCTGTCACATTGGATAAGGTGGCGCACGTGCTAGGCGTCAGCAGCAGCCAGCTGCTGGCTGGTAGCAAGGGCGCGGGAAAAACGACAGCGGGCGACAGTGAACCGCTTGATTTGGCGCCACTGATTAATAGCGGGCGGCCGTTACTATACAACCGCCGGCCATTGGATCACACTGACCGCGAACTATTGCGGCGGGTGCTGGATCACTAA
>SRR1151209_02297 hypothetical protein
ATGCAAACACCAATGTTAGTAAAAATCACGCCGGAAATGGTGCACGAACGGTACACCGGAACAAAAGAAAGCCAGGAAATGGCACGTCTTGTCACCGAACGGGACTACTACGATGTACTGGAACCAGATGGTTTTATTTCCCTGCGCGAAGTATTTAACGACGCGTACGAAATCACTCACTCTCTGAAAGCGTGGAACCCCAACGCCGTAGAATTTTAG
>SRR1151209_02298 hypothetical protein
ATGACAAAATTTAAGACTTACAACTTGGAACTCGGTGGCAAGGAATACGGGTGTTTAGAATTCGACCCCGATCAAGATGCTTGGATCTTATGGCCTGTATCCATCGATGACGGTGTAACTTACACCAACAACTTAGAAGAAACCGTCGCCATCATCGCCGGCGAGCTAGGCGCCGGCTGGGTTGCCTTGCGCGGCACTGAAATCGAATTGATCACCGACGCCGCCGACGTACCCGCGTGGATCCCTGGCAAGGTACTACCCGGCAAGGTGACTTATATAGACGGCGTCGAAACTATCGAAGCTGTCCGATAG
>SRR1151209_02299 hypothetical protein
ATGGTAGTTAAGACAGAAAAGCAGCTTCGGAAAGCAGGATTCAAAATTGCCAAGCGGTCAAAAATTTACTACGTGGTGATGATGACAACGCACAGCGGCATTGTAACGCCACACCGCGTTTTCACTGATGCGTACAGCGCACAGGCACTTTCTCAGCGACTTAATTTGCAAGCAACGGATGGCTACTTTGCTGATCGCGACATGGATAAGCTAAGCCGTTTTTACGTGGTCAAAGCGCTGCCGGGCAACTGA
>SRR1151209_02301 transcriptional regulator
TTGGAAGAACTGTCGAAGAAGAAACTCGCCGCTTTAGATGAACTGTTTGAGGATTTCCAGACTGTAAATCACCAGATTGCCGAAAAAACTTATGAGATTGATCATCCGTGGACACAATCAGATCAGAACATTGGCGGCGGGCGTTCATCTGCAATATCACGGCCCCAAGAAGCAATTTTGCAACGGCGGGAATCCAACAAACGGCTGCAATACTTGATTAGTTTGCGGGACGACTGCAACCGGGCAATTGACAGATTTGACGAAGAGCAACGCCAAATTTTCGATTTGCGATACTGCTCATCCAATTACTACGACTGGGATACAGTGGGCGACTTGATTGGTTATGCCCATTCTCAGATTTACCGGAAGCGATATGCCATGCTTTGGCTACTAGCTGAGGAGCGCGGAATGGTCTCACGCAAAGATGGTACTAGAAACGCTGTTAGTCCCAGGTGA
>SRR1151209_02302 hypothetical protein
ATGCGTGAGCGTAAACTGAAATACTTTAAGAAACTGCTGCTAAACGGGGCACCGTCTGTGTTGGGTTTTATCGGGGCGCTTATTGCATCACAGCTGTTGATCAGAATTGCGTTCGTGATTTTTGCGATTGGTGTGTACGTGTTTATTTCATACACACAGGCAGCGGCGATGATTGATAACGACAATTTTCACGAGAGAATCGGAGCGTCGATTGAAGGATTGAAACGAGCTGGCCTAGTTCCCAAGTCAATTAGGGTTAATGGGAAGCCAATTGATAAGGAGTAG
>SRR1151209_02303 hypothetical protein
ATGACTGAGGCCTTTAATCTTACACAGGAGGTAATGACAGTGCATCACTACATTACGAAGTATTGGGATAACGGCAAGCATTACGCCGAGTCGTGGATTCAGATTAATATGTTTGGCCGGTCTTATTGCTTTTCAAAGCGGCGTGTTATGATCAGTACAGAGGAAAGAAAACTAGGAAATGACAAAATGGAGAACATGGTGGTGGGTAACAATATGACTATCATGGGGCCGTCTGGGCTTGCTACCATTAGTGGTGGTGAAGTGCTATGCGTTGATCATTTCAGAATTGAAAACCACTAA
>SRR1151209_02304 prophage protein
ATGCCAAAGATGATCCATTCCAAGTACGGCTATGAGCCGCCAGAATATGTTAAGGCGGACGCCGAACTAGAGAAATGGCTGAAGAAAGAGAAAGAAAAAGGCCGCAACGGCAAATGA
>SRR1151209_02305 hypothetical protein
ATGACTGAAACGGTACAGGACGTGTTTGATGACGTGTGGAAACATTACTTGGGGCTTGCTTATAACAGTGACAGCAATAGTCTTATTGGCCCTCCGGGGATGGCAGGCGATATATGTGATGCGCCGGAACGATTTGCAGCTGCACTCGCCGCTGAAAAGGGGTCAAAATCGACCCGTTTAGCCGACAAGCAAAAAAACTGCCGATACTGCCCGATGTGTGGCCGTCGATTGGAGGAAAAATAA
>SRR1151209_02306 hypothetical protein
ATGAAACGTGAGATTAAGTTTCGAGCATGGAATGGGCATAATATGTTTAACAACATCCAAGTTGGTGCTATGTATCTAGGCGATTTAATTGCTGATCCACAGTGGCATTTGATGCAGTACACCAATTTCAAAGACAAGAACGGGCGAGAAATATACGAATGCGATGTCTTAGATATTGGCCTTAGAAATCAAGACGGTAAACCAGTAATGGCACCAGTTAGCTACCAAGCATATGCCGCTGGATATGTGCTTGACAATGGTGGCAATGGAATATGGCAACGATTAACAGAAAATTGCGAGGTCGTCGGGAATATTTATGAAAACCCGGATTTACTGGAGGCGCAGCATGACTGA
>SRR1151209_02307 DNA N-6-adenine-methyltransferase (Dam)
ATGAGTGACTTTTTAAAGCCAGGTGGTGCAGCGCTAACGAGTAATAAGGACGATTGGGAAACACCACAAGCGTTTTTCGAGAGTTTGAATGCAAAGTATCATTTTGCTATTGACCTGGCAGCCAGCAAGGATAACGCGAAATGTGATCGGTATTTCAGCGTTGCTGATGATTCGTTATTGCAAGACTGGTCTGATGATTTCGGTGGGGCAATGTATCTGAACCCGCCATATGGACGCCATATCGGAGATTGGGTAAAGAAAGCCTATGAAACTTCGTTACGGGTGAACGTTCCTATTGTGCTGTTGATACCAGCAAGAACGGACACCAGCTATTGGCACGATTACATTTTTGGAAAGGCAAGCATCAAGTTTATTCGTGGCCGTCTTAAATTTGAGCAAAATGGAATGGCTGGTGGCCCTGCACCGTTTCCTAGTGCAATCATCGTATACAACGGAGATGGGGCGGAGAAATGA
>SRR1151209_02308 hypothetical protein
ATGAGCAATGAGACGAAGCAGGACGTGTTCGATGAAGTACGCCGCGTGGCGTTACAGGACGAAACATTGTTGAGGACGGCTAATATTCATGTACTACTTAAACAGGATGAAGAATGGCGCTCTCGTTATGACGCCGCATTGCCAGATAATATGCCGGTGATCCCCAAGGAAATCGGAGAGTACATCGAACGGCAGAAACAGGGATCAACATTAAGACCAGCGATTATTGACGCCACAGATTTTCACGCAGTCGATGATGAGGAAGCCGATTGGATATTCTACCATTCTGAGACTTTTGCCCGTGCCTGGTTGCTAGGTGTCTGGCGCGTTGATGAAACCGGTGAAATCGTGAAAATGGAGGAGAAGAAATGA
>SRR1151209_02309 hypothetical protein
ATGAGCGAAGAAAAACTGTATGCGGTTAAGAACGACAAAGGCGAATACTGGTTTACGGTGAGCAAAGAGAATGCCGAAAATGAGGCTAAAGATCATGGCGGCCACGTTGTCACGCTCGTTGAGGAACCAAAAAAGGCAGTCCTAACAAAGGAACAAGCCGAAACCGTTAAAAGTGCACATGGTTCTAAGTGGCCAGCATTATTGATTGATAATGATGCTAGTGGCAGCAAGCACGAAGAAGAGTTGCTGATGAACGCTTATGTCAACGGCTACACCGTGGAAAAGGATAAGAAATACAACGTCAAGGTGCCGTATGCAGATTATACGTGGTATCTAAAAACTCCTGATGGAAAACTTGATACCATATTTGTAAAAGGATTATCTAAAGGATTTGGTGGATACCCAGATGGAATTGAGCTCACTAATGATGATATTGAGAAATTTGGCTTGCAAGACTGCGAGAAAGAAGAGGTGACTGACGATGAGCAATGA
>SRR1151209_02310 hypothetical protein
ATGGCTAGACTATCAGAACATCCAGAACTGATGGAGAAAATCATTAAGCTGGAAAAGGAACGCGCACCACGAGACGATCCACGGTGGGGGGGAATCAATGTAGCAATTAATAAAAAAGAGCCGCGTAAGAATAAAAAAACGTCTGCAAGCAAAGCAAAGAAATCTGATCATTCGGAAAAAATTGATTATGTTAGAAGCCAAATTCTTCATGGCTTTTCATCATACGAAATTGCTGATATTTCGGGTATCTCACAGTCCTGGATAAACAAGTTGATGCATGACGCGCATATCAGCCGACCACCGATTGCACACTTTCGTCTGTACAATTTTGAAACCGATGAAGTACGGTACCTGGAAACTCTGGCTGAGGTAATTAAGCTTTTCAAGCTTTCGGCTTTTAGGCTGGGACTGGACAAGCAGAACACAGTATTTACAGGGGATTGGGCGATCAATCGTGGACGCTGGTACCAAGATAAATATGGCAAGTGGAACAGAACGGAGGACGAAAAATGA
>SRR1151209_02311 aminotransferase
ATGGAACGACATTTTGAACGAATCGACGGGTATACTGGCCCAATGCCCAAACGGGCAACTGCGTATTCTGCCGGATACGACATTGCAGCAGCAAAAACGGTGGTCATTAAGCCCGGCAAGATTGCACTGATCCCGACGGGTATCAAGGTGAAACTTGGCCACTATGAATATTTGGAGCTGGTTTCTCGATCATCATTGCCACGCAAGCGACAATTGGTAATGCCGAACAGCATCGGAATAATCGACAGTGACTACTATCCAAACGAAATCATGGGTCAATTCTGGAACATCAGTCAGGCGCCAGTCATCATCAATGCCGGCTACCGCATCATGCAGGGCATTTTCCGCAGTTACCTGTTGACCGACGACGATATGGCCACAGGCGCTCGCAGTGGCGGTTTTGGCAGCACAGGGGGTAATTGA
>SRR1151209_02312 hypothetical protein
ATGACATACCACATCGGAGAGAACGTCCGCTACGTAGGACCGATGCCAAGATTCAAGGGGAAGCGAGGCCAGGTTATCGAAAAAGGATCAGGCCGTTGGGATTGGACTGTTGCGATAACGGACGAAGGAATTGTCAACGCAACTAACGAAGACTTGGAGGCATCTATTTGA
>SRR1151209_02313 phage primase
ATGTATGAAAAAATTCCCGAGGAGCTTAAGCCCCTAGCCCAATGGGGGCTGTATAAGCTGATCTGGAAGCCTGAGAAGAATAAGTATACAAAGATACCCTATTCAGCATTAACTGGCTCTAAAGCCAGCTCTACGGCGCCAGAGGACTGGACAACGTTCGATAAGGCAATGGAAGGGTTGGAACGGTATTCGCTAGACGGTCTCGGCTTCTTCTTTGCCAACGGATACGTTGGCGTGGATGTGGATCACATCGGAGATGACTTGGACCGTTGGGAGGCAGGAAACACAGACGACAACTTGGCGTATGAGTTTGTCTCAAGCTTACAGTCGTATACGGAGAAGTCTGTGTCCGGCGAAGGCATCCACATCCTGATTAAGGGTGATCTGCCTGGCTCACGACGGCGTAAGGGAAACATCGAAATGTACCAGTCAGGCCGGTTTTTCGCGATGACGGGCAACCGGATTGGGATATTCGATAACATCAACCACAATGCTGAAGAAGGTCTGACGAAACTCTATCGGAAATATCTGGAGCCGAAGCAGGTAATCCAGTTGCATCCACAGAGACTCCAGTTATCAAATGATCTAAGCCAGGATGAAATTGTCGCTAAAATGCTGGCAAGCAAGACTGGACCACGGAGCAAGCTGCTATTAGATGGCGGTTGGGAAAAGTTTTATACTTCTCACTCAGAGGCAGACTTGGCATTTGCCAACGACCTGGCGTTTTGGACCGGCCGAGACTTCAAAAAGATGGATGCCATTTTTCGGCAGTCTTCGCTGATGCGCGATAAGTGGGATGAGAAACACGGCAAGACCACCTATGGCGTCGCCACACTGAACAAGGCCATCAATGAAGTCCAAGACGTCTACAACCCAGCAAACGAGCGGCTGAAGTACAATTTTGGTTTCATGCATGAAACTAACGCGAAGAAGCCAAAGACTTTTCCTCCACACACCTGGGATGACACCGGGAACGCAGATCGGTTCAACGACCGGTTCGGTAGTCTGGCACGGTACAGCTATATCGACAAGGCTTGGTACATTTACAACGGTTCTTTCTGGGAGCTGGACCAGCGTGGACTGTTGCCCTCGATGGTAGATGCAGTAGTTGCTGACTTAAAGAACGAGAAAATCACGCCACCAGCAGACATTAAGCCGGAAGAGATTCAGCAGAAATGGGCAGCATTTATGAAGAAGTCTCGGATGAATGCGTCCAAGAAAGCCATGATGAACGAAATTCAGCACCGTTTACCGGTGTTGCCGGAAGAATTTGACCGCGACAAAATGCTGTTCAACACGGCCAATGGATACATTGATTTGACCAACGGCAGCCTCCACGACCACGACATTAAGAAGATGTTTTCCAAGCAAGGCGATGTGGAGTATTCCGACACGATGGATTGCCCGGAGTGGCTGGCGTTTCTGGACCAGACCTTCAACGGTGATCAGGAGCTTATCGAATACCTGCAAAAGGCCATCGGATACTCGCTCACTGGGTCCACAGAGGAACAGGTTATGTTCATCCTATACGGCTCGGGTCGCAATGGCAAGTCAGTGTTTATGGACGTGTTGAAACATGTGGCCGGAAGCTATGCCCGATCCATGCAGGCTAAGTCCATCATGGTTCAGCAGACCAGCAGTGCCGCCAACTCAGACATCGCCCGATTGAAGGGCGCACGGCTAGTCACAGCCAGTGAACCGAACGAAGGCGTCCGGCTGGATGAAGGACTGGTTAAGGAATTAACTGGTGGCGATACGGTTACGGCCCGATTCTTATACGGATCAGAGTTTGAATTCCATCCAGAATTCAAACTTTGGCTGGCAACTAACCACAAACCGATCATCCGGGGAACCGATGATGGTATCTGGCGGCGGCTCATGCTGATCCCGTTCACGGTCCAGGTGCCGAAAGAGAAGGTTGATAAGCGGCTCCAATACAAGCTGGAACGTGAATCGGTCGGCATCTTGAACTGGGCGGTGGATGGCGCTTTGAAGTGGCAGCGAGAGGGATTGGAACCGCCAGAGAGTGTTAAGCGTGCGAGCAAGGAATACCGGGATGAGATGGATGTGCTGGAATTGTTCATCAGCGACTGTTGCGACAAGGGACCTGATTATCAGGCACCAGCCGGTGAATTGTTCAAACGTTATCAGGCTTGGGCAGACGAAACTGGCGAGTACAAAATGGCAAAGCAAAAGTTCGGTGCTCAGATGAAGCAGAAATTCTCAACAAAGAAAAACAGTGGGATTTTCTACTTGGGTATCCGTCTGAAATTGGACGAGCGATTTAACTGGATGCGAAATTAG
>SRR1151209_02314 hypothetical protein
ATGGCATTTTTAACAACTGACTACTCTAACAACACAAGCGGCAACTATGGTCCGATTCCGCAAGGCGAATATGAAATGGTGATCGCAGCTGCACATGAAGACGCGACCAAGAACGGGTCAGAATACCTGGACATTCAATTCACGGTTCGCAATGACCTGGATGCAGCGCTGCCGGAAACCAACGGCAAATACCACAATCGGCACGTGTGGATGCCGAACTGGAAGCGGAAGGCTACTGGCCTGTACGACATGAACCAACTGCAATATATTCTGGAAGCAGTCGGCGTACCAGAAGGCACACCCATCGATACGATTCAGGACTTCTGCAATGTGCTGTACCACAAGCCAGTCAAAGTCTACGTCAAGGTTCAGCATGACGAATACGACAATACAGATAAGAACACAGCTGCGCCGTGGAGCGTCAAGCCGACGGACTATCCGAAACTGGCACACACATTCAAGGAAGATAAGGATAAACCGGCCACTAAACAGAGTGCGCCTGCTGTCAATCCGGGACCGACTAACATTAATGACGACGATCTGCCGTTTTAG
>SRR1151209_02315 hypothetical protein
ATGCGTGGCGTAAGTCATAGAGACAAATGGTGGACGGCGCAATATCAGAATTTAAGAAATGGAATTCCAAAACAAATCGCATATTTTCCTGACAGCGATCCGAATTCTGAGAAATTGGCACAAGCCCAACGTAAAAAGTGGGAGGAAGAATTCGGTACACCAAGCAGCAGCAACCGCCGGAAAAATTATGCAGGATACAAGAAGGGCGACTTCATTGTACTTGGTGATACTGGGAAAACAGAACAGAAGCAGCAAATTGTGCTAGTGCAAAATGTTCATACGGATGAAATCTTTGAAGTTCCAATTCAGCGATTCAGAATGGGGCGTTGGACAGGAAAAACAATTCGCGAAGGAAGGACCAACAACAAAACGGTTGGTGTTTCTATGAGTAATGGAAGGTGGTCAGCGGGAATAACTATCGAAGGCCGTTACTATCATCTGGGTGTGTTTGAAAGCTCAAGTGAGGGTGCAAAAGCATATAACAATGCGCTTCATAATTGGCTTACGAATGGAGAACGTCCTAAACCCGTAGACGTGCCAAGAGCAACCAATACGACCGGCGAAAAGTATATCCAATATCGGCCGAAAAGAAAAGGGACACCATGGTTGTTTGAAAAAATAACTGGTGGTAATAGAATCACTCGATATTTTCACGATTTTCACGATGCAATTCAATTTCGAGATAAATATTTAGGAGGAATTAACTAA
>SRR1151209_02316 phage DNA/RNA helicase
ATGTTTATGGTTCACCGGCGGGAGTTAGTGGAGCAAATCATGCAGACGTTCATCGCAGATGACATTAACCTACAGCATTGCACGATCATGACGGTGGGCAAGATTGTCCATCGTATGGATCGACTGCCAAAACCAAGCCTGATCATCTGTGACGAATCACACCATGCACTAGCTAAGACCTATCAACGGATATTTAACTACTATTCCGACGTGCCAAGGTTGGGCTTTACTGCCACACCGTGGAGAATGAGCGGACGGGGGTTTGAATCCGTCTATGACGACATGGTTGTCGGCCCAGAAGTTCAGTGGCTGATTGAGAACCATTATCTGGCCGACTACACGTACTATGCTCCGACGCTGATTGAGACCGACAAATTGAAACGTTCTTCCACGGGTGATTTCACACAGGCATCAATGAGTGACGCCATCAAGGAACCCAAAATATTCGGAGACGTGTTGGCCCATTACAAACGCCTCGCGGAAGGACGGCAAGCCATTGTCTACGCTCACTCTGTGGAAGCCAGTATGCAGGTGGCAGAGATGTTCAAAGCCGCAGGTATCTCAGCGGCTCACGCCGATGCTAAAACGCCCCAGAGAGAGCGAGACAGCATCATGCGGGACTTCAAGGCTGGCAAAATACGGATTCTCTGCAACGTTGATCTGATTTCAGAAGGATTCAACGTCCCAGATGTTGGTGTAATTATCATGCTGCGACCGACGGAATCGCTGGTGCTCTATATCCAACAAGCCATGCGTGGGATGAGATACGAGCCCGACAAACATGCAATCATCATTGACCATGTGGGAAACGTAATACGATTTGGACCACCGAGAATGCCACGCGCTGACCAGTGGACACTTGATGATCGGAACAAGAAAAAACGCGGCGGCACGCCAGGACCGGCAATCAAGACTTGCCCGAAGTGTTTTGCCATTGTGCCAGCCGCTACCGTTGTCTGCAAGTTGTGCGGTTATGTCTGGGAAACGGCAGAAGCCGAGGACCTGGAGGTTGATGAAACAGCCAAGCTGAACAAGCTGGATGAGAGCCGGTTTATCGTGACGGACTACGAAAACATCCAATGGGCCAGGAAAGAACCGAAGGATGCAAAGACACCCAAGGAAATGTATAAGATTGCAGCCGCGCGCGGATACAAACCAGGTTGGGCATACCACCAGATAATAGCGCGGGGATGGGTTACAGAAAGGAAGAGAGCATGA
>SRR1151209_02317 phage NTP-binding protein
ATGGCAATTGACATTGTAAAGGCTGCTGATTTGAAGCGAGCCAAGGATTGGCGAGTGATTCTGTACAGCAAGCCAGGAGTTGGCAAGACTTCATCGGTGAAGTTCATGCGCGGCCGGACATTGGTGCTGGACCTTGACGATTCAAGCCGAGTCCTGGCAGGCCAGCCAAACATTGATGTTGTTAAGTTTGACCGCGTTCATCCCGAAGAATTTTGGATAGATTTCCTCAAGCAGGCTAAGGAGCTGACTGCAGGGTATGACAACTTGGTCGTGGATAACGTGACCAGTTTTGAACGCGATTGGTTCGTGGAAAAGGGTCGTAACTCAAAGAACGGCATCTCCAACGAAATCCAGGACTACGGCCAATGGACAAACTACTTTGCCCGAATCATGACCAGTATCTACATGCTAAACAACGTTAATATCTTAACAACAGCCTGGGAGACTCAACAGCAAATTACTACCGATGAAGGTCAGACGTTTAACCAATATGCACCTGCTATCCGGGATTCCGTCCGAGATGGTCTGCTGGGCTTGGCAGACGTGGTTGGTCGGATGGTTGTTAATCCTAAGACTGGCGGCCGTGGAGTGATCTTACAAGGCTCAGACGGTATCTATGCCAAGAACCGCTTGGATAATCGCACGTTGGTGTCCATTGAAGACCTGTTCAAGTTTGGAAGTGAAAAGCATGACGTACCAACTCCACCCGTACCAAACGGAACTGGTGAACAAGACCCGGCAAAGTCTGGCGACAGGCCACAAAGCGGTACTAATAGTTAG
>SRR1151209_02318 hypothetical protein
TTGAAACTCATTGCTTTAATTTGTTTTATTGGGGGATTAGTTGCCCTATTGGTCATCGTCACGGTTTGGATCGTGACCGCCCGGCAACGGCGGCGACCGAGTCGGCGAATTGATGCCAGCTGGAGCCGCCGGCAAAAGCAGCTGCGGCGCCGTATCCATTGGTGCCAAGGGGCGACCGTCCTCGCCAGCTCGTTTGTTGTGCTGGCCTTGCTTGGGGTGATTATGACGGCCGCTGACGATTCGGCAGCCCAAAGCACGTCATCCTTGGCCCTAAGCCGGGCCAGACGGGATGCCCGTTCGCGGGCTAAATCAGAGTCTAAAACCGACCGCAATTCGCGCTCGTCCGCCAGTAAATCAGGCAACAGTTTGCTGCCGTCCAGTTCGTCATCATCGTCTTTCCCATCCTCGTCGTCGAGCGCCCCATCTTCATCTTCTTCTTCGTCGTCAGCTGCATCGTCTTCGCAGGCTGCGGCAAGCAGCAGTCAACCAGCGGCCACGCCGACTTTAAGCGGGGCCAGCGAAGAATTTGCCAATACATTACATCGTGCGGTCGCCCTTTCCGGCGGTACTGTGACCGCGATGGATTTCCCAGCAAGCGCAGACGGCAGCGTGGCGCAGGTCATCATTACCGTCAGCAGTGCTATTGCTGATCAAAATACACAGGACAAAACAAGCTATGCTGAATCAGCTTTAACTGAGGTTCAGCGGGTAGCCAAACAATACGGCGTCGCTGTGCCGCCTGTCGTGATCAAGGCCGCAAACGGAACGCCACTTGCCAAGAGCAGCAGCGATAATTCGCAAATGACACTAGGGAGTGTCTGA
>SRR1151209_02319 hypothetical protein
ATGCGCCATGTGAATTTGGGAAGAATTGGGTTAATTGGTATGCTGTTTCTGCTCATTGGCGGGATCAGCGCGTGCGAGCGGCGCCCGCTGACAGATAAAGCACAAATCCAGGCGTCAGCCACCACAGTGACCAACACGATTCAGGATCAGGGCAAAGAGCTGACAGCAATTACCAATAGTTTGGAAAAGAGCCAATCACTCTATGTCACCGAGCACAAGGAAAAGCCCAACGAAAATTTACTGCAAAATAAGCAAAGCGACGTGTATGCCAACTTTGCCAAGCGCACCACGGCCATGACCACACTGACAGCTGAATACAAGAAATTGAGCGACGCCGAGAACACCTTGAGCAGCTTTGCCAAATCCAAATCGCCCAACCTGCCGACGGAAAAGATTCAAGATCTCGTGCAAAGCCTAAAAATCATTGGCCTGGACCATGATACATTCACCCAATTCATGGATGAATTTACCAAGGCGGAGCAGAAATTCTACGCGGATACCGCAGATATGACCGATGAAAAAGAGCTGGATACTGCAATGGGCCGCCTGAGTCAATATTACGGTGCCTTGTACCAGCAAATGGAAATCATGCAGGCCAATCTCACCACGGCGCGGCAGCAAAGCCGCGAGTTGCTGCAGGAACTGAAATAA
>SRR1151209_02320 membrane protein
ATGAGAATAGGAATGCGGACGATCAAAACGGCACTGACGGCTGGAATTGCGATGGCCATTGCCGCCGCGCTGCATTTGGATTATTGGTCCCTGGCCGGAATCGTCAGCATGCTGATGATTGCCACCACAACCCGGGCCACCGTGCGGCTGGCGCTTTTCCAAACCGTGGCGACGGTAGTCGGGTTGGTGCTGGCCTGGGGGCTTTTCACATGGATTCCCTACGCACCGCTGGCATTTGCCGTTTGGCTGCTCCTGTATATTGCCCTGTCGAACTTGGTCGACTTGCAGGATACCATGATTGGCAGTGCGGTATTTGTTTTACCGCTGCTGGTGGTCAAACCGATCACGGTGGCGATTTTGCTGAATCAATTATCCGTTTTGGTGATTGCCGCGTTGACCGGGCTTTTCTTCAATCTGTTCATGCCGAATTTGACCGATCAGATTTCTTTCCATGTTGAAGGGGTCGAAAAGGAGCTGATCACCGTGTTGCGGCTGCAGGGCACGCTGCTGATATCTGGAGAAACCAGCGTGGAAGCGCAGCATACTTTATGGGGGCATTTGAGCAGCTTGAAGCAGGCCATCAATGAGGGGACCGCTTGGACAGCCCGGCATCAGGCCAATCAGCTTTTTGACGATAACGAGTACTATGCGGCATATTTTGAAATGCGCAACAATCAGTATGAGTTGTTGCGTCAAATGCAGCTGCTGTTGGATACGCGGTTGGCTGAAATGCCTCAGCACCAGCAAATGGGGCGGCTGCTGGTGGATTTGACCAAACGGGATCGCAAGAACAACCCGATTCCGCCGGTGCTGGCGGCAATCGAACGGCTGCAAGATGATCTGGCCGCGATGAGTTTGCCAGAAACGCGCAAGCAGTTTGCCCAACAAGCGGCCGCGACATCGTATTTGATTTTTTTGCGGCAAATGCTCCGCTTGAAAGACGCCTTCGATAAGATCGTGGCAAGCCAGAACAAATAA
>SRR1151209_02321 cold-shock protein
ATGGAACATGGAACTGTCAAATGGTTTAACGCTGAAAAAGGTTATGGCTTTATCACTCGCGAAGATGGTAGCGATGTATTCGTTCACTTCTCCGCAATTCAAGGCGATGGCTACAAGACCCTCGAAGAGGGCCAAGGCGTAACTTTCGATGTTGAACAAAGCGACCGTGGACCTCAAGCTGTCAACGTTGTAAAAGACTAA
>SRR1151209_02322 GNAT family acetyltransferase
ATGGGACTGGAGCGGATGACTGGCGATTGGCACCAGTACAAGGACTTGTTTTTGTTAGCTGATGAAGATGAGGCAATGCTGGCGCGCTATATTGAGCAAACAGAACGCTGGCTGTGGACGGTGGCCAACACAACCGTCGGCGCGGCCGCCGTACGGGTCGTTAATCCTTACGAGGGGGAGCTGATGGCGATCGCTGTCGCCCCGGCGCATCAACAGCAGGGGACCGGCAATGCCTTTTTGCAGGCACTCATCGCCGCTTATGCCCGCCGCGGCTGGTGGACACTGACCGTGGGTACTGGCGATACAGGACCGGCGCAGCTTCGTTTCTATCTTAAGAACGGCTTTTGCCCAGATCATATCCGCCCTTTTTTCTTCAGCCAATATGCAGCGCCGATCGAGGATCAATGGGGACCATTGCAGAATATGATCGTCTTTAAGCGGTTATTGAAGCCCTTGCCGCACTGGGTTGTGCCCACAACTGCCGCTATTTGGCAACCGCTGGCGGTCACTCAGCCGCTGGCGCCCTGGCCGGTGGCAACGGGTGATGGCACGATGGGGTGGTCTCTCGCGCCGGTGAAGCAGGCCCAAACATTGACGTTCGTCGGCGCGGCCTTTGATTTTGCGCTCAACCAATGGGCGGCCCTCTTGAATCCTCAGCCGCTGGCGGCGGATACTGATTTAGCTGCGCTTTGGCGGTATTGGCGCCGTGCCTATCCGGCGTATGTGGTACCGGCCAATTATTTCCGGGGAAATAAATAG
>SRR1151209_02323 major facilitator superfamily transporter
TTGAGTGCCCTGCTTCTACTGTTCGGCAAGCTGGGCGATCTGTGGGGCAAGGAGAAGATCTTCAAACTCGGGACGTTCGTCTTTGTTTTGGGCTCCGCCATGTCCGGAACGCCGCTAGGCTTTAATTTCCTGCTATTGGGCCGGTTCGTCCAAGCGGTCGGCGGGGCCATGACCTTGGCGAACACTTACGGCATCGTCACCGCTGAATTTCCCATCAAGGAACGAGGCCGGGCGATGGGTACCGTTGGGACATTTGTCGCCCTGGGCGCCGTCGCCGGTCCCGGCCTAGGCGGTTTGATTCTCGCCGTGAGCAGCTGGCCGTATATTTTCTGGATCAATATGCCAATTGGCGTGATTGCCTTGATTTTCGCCTTGCGTCTCATGCATGCCGGCCCGGCACCGGTGAAAGGCGGCGTGGACTGGGGCGGCTTCCTGACCCAAGCCGTAGCGATCGGCGCGGGTTTCTGGGGCTTGAATATGAGCCAGCAAATGGGCTTCACTCCGCTGATCTGGGGCTTGCTCGGGATTGCCATCGTTGCGCTGATCGGCTTCTTTATCGTTGAAAATTGCGTGCACGAACCGCTCCTGCCGCTGCGGATCTTCAAAAACGCCCTGTTCTCCGGCGGCGTTGGCGCGGTCTACTTGGTGTTTGTCGTCCAATTCTTCATGACCGTCTTAATGCCCTTCTATCTTGAAGATACCCTGCGTCTGCCCGCGGGCATGGCCGGCGCGCTGCTGACACTGTATCCATTGACCATGGTGTTCTTCGCGCCTTTGGGCGGTTATCTGGCCGACCGGATGAACATTGCACTGGTCGGTTTGATTGGTGCTGCGTTGATCGGTTTGGCCGACGTCCTGTATCTTTTCCTGCCGCTAAGCGGCGGCATCGTGCTTTATGGGGTGGCTACCGTGCTGCTGGGCATGGGAACCGGATTGTTCCAGTCACCGTTGGGCGATATCGTCATGTCGGTGGTGCCGAAAACAGATTTAGGAATCACCGGGAGCTTCAATGCGCTGGCGCGAAACCTGGGCATGGTGACCGGCACTGCTGCGTCCGCCAGTATCCTCTTCGGGGTGATGTCTGCCCATTTGGGAAAGCGGGTCACCACTTATCCCGCTGGTCAGGACAGCGTCTTCCTCAGTGCCTTGCACACCGCCTTTGGTATTGCTGTGGTGGTAGCCGTATTGGCAGTCCTGGTGCTGGCCTGGATGATGCCGAAAATCAAAAAGGCTGACTTGAAATAG
>SRR1151209_02324 major facilitator superfamily transporter
ATGCAGCAAACGACAACTCAGCCCACGGTGGACCCGCACCGCTGGGCAGTGATCATTATCTTAGGAATCTTCGCGTTCATGTCGAACTTGGACTCATCGATCGTCAACATTGCCATCCCCGTCATGACCTGGGACCTGCATGTACCAGCGAGTCAAATGGAATGA
>SRR1151209_02325 oxidoreductase
ATGACGAACAATTTGAATGTGGTGATCCTCGGGCTCGGCGGAATCGCCCATGCCTTTGCCCAGGATGCTGCTAATGTGGCCGGAACGACCCTGTATGGGGCCGCTTCGCGCGCACTGCCCAAGGCCCAGGAATTCGCTGATCAGTATCACATCCCACATGCTTATGGCAGTTACGAAGACGCCATTGCCGATGCGGCTGTAGATGCTGTCTACATCGCGACGCCCCACCGCTTCCATTTTTCAGAAATCATGGCGGCGCTGCGTGCTGGCAAACATGTTCTGTCCGAAAAAGCGATCGTGATGAGCAGTCACGAGTTGCGCCAAGTATCGGCTCTGGCTAAGAAACAGAATAAAGTTGTGATGGAAGCCCAAACGATTTACCACATGCCGCTGTATGCCCAGTTGCGGGCGATGCAACAGGCCGACGTCTTTGGCGATATCCGGGTGATCGATGTGATGTTTGGCTCCAATAACTCGAATACCGATCCCAATTCCCGGCTATTGGACCCGCAATTGGCCGGCGGGGCCTTACTCGATATCGGCGTCTATGCGCTAAGTGCAGCGCGGATGTTCCAGCCGGATGCTCCTCAGCTGTTGAATACCACCATGAAAATGGGCCCAACCAGCGTTGATGATCGGTCTGTGGCCAGCTTCACCAATAATTACGGTATTCTGACCAACGTATCCTTGAGTTTCTACGGCCGCCTGCCTAAGCAAATCAGTGTGGCCACCACCAAGGGCATGCTGACGATCATGGATTATCCCCGGGCCCAGGCAGCCGTGTTCACAGATATCAATCGAAAAGCCACTACGATCACCACTGGGGAAACTAACAAGGCGATGGCCTATGAATTAGCCGATTTCGCGGAGGCCTGCCAAAACCCCAGCGCTCACCGGGATGATTGGCAATGGACGACGGAAGTCATGGACGCGATGACCGCGATACGCCGGTCATGGGGCTATCTGTATCCATTTGAAGATAATTCTGCGTTTCAACAATAA
>SRR1151209_02326 N-acetylmuramidase
TTGGCCAAAGGCAGACGGCGCAAAAGTTATGGGCACCACAATACGGTTTCAGCGATCATCGTTTATACGTTACTCGCCCTGCTGCTCGTGGGCGGGGTGACCGTTGGCGGCGCGATGTGGTATGTACACCATACTGATGAAGAGCAGGCTGCCCAGGCCTCCGCGGCGAAGGCTGCTGAGGTGCGGCGCAAACAGGCCTTCATTGCGAAAGTGGCGCCCACTGCGCAGTCACTTTACAGTCAATATAAGATTTTTCCAAGCATTACAATTGCTCAAGCCATCCTTGAATCAGACTGGGGTGAAAGTTCGCTTTCTGCCGAATATAACAATCTTTTTGGCGTCAAAGGCACCAATCCCGCCAACACCAAGGAAATGACGACACAGGAGTACATCAACGGTGAATGGCAGACGATCAAGGCGCGCTTTCGGGTCTATGCATCCTATGCCCAGTCGATCACCGATCATGCCCAGCTGTTTACCCGGGGCACGACCTGGAATGCGCAGCAGTACCAACGGGTCCTGGCTGCTCAGGATTACAAGACTCAAGCCAAGGCGCTGCAGGCAGACGGGTATGCCACTGATCCAGATTATGCCAGTAAGCTGATTGAAATCATTGCCACTTATGGGTTGACCAAATATGATCCGGCGGCGGCCGGTCAAACCAGTCAGGCGAGCGCTAGCAGCCGCTGA
>SRR1151209_02327 xanthine phosphoribosyltransferase
ATGAAGTTGTTGGAACAAAGGATTCGCGAAGATGGTCAGGTACTCCCTGGCGATGTACTGAAAGTCGACAGTTTTTTAAACCATCAGGTGGATCCAGAATTGATGGCTGAGGTTGGCAAAGAATTTCAGCGCCATTTCGCCGACCAGCCAGTCACCAAGATTCTCACCGTGGAATCCTCAGGGATCGCCCCGGCGGTATTCACCGGTTATGCCTTCAAGGTTCCAGTGGTTTTTGCCCGCAAACATAAGTCGGTGACACTCAAGGAATATATGTTCACGTCGGTCGTGTATTCTTACACGAAAAAGGTGAGCAACCATATCGCCATTGCCCGCAAATTTTTGAGCGCCGATGATAAGGTCTTGATCATTGATGATTTCTTAGCGAATGGTCAGGCTGTGGAAGGGCTGATCGATATCATTAACCAAGCTGGCGCGCAGCTGCTCGGCGTGGGTATTGTCATTGAAAAGACGTTCCAAAAGGGCCGCCAGTTGTTGGATAAGCGGGACATTCCGGTTTATTCACTCGCCCGGATCAAAGAATTCAAGGACGGTCAAGTGGTCTTCACAGAAGAACAGGAGAATCCCGATGGCGCAGAAGCCTAA
>SRR1151209_02328 xanthine permease
ATGGCGCAGAAGCCTAACGACATCGTTGAAGTATCTCAACCCCAAGCCGCTGTGCTTGGCATCCAGCATTTGTTGGCGATGTATTCCGGCTCAGTTCTCGTTCCGTTACTGATCGGCTCGGCCATGGGCTTTTCGGCCAAGCAGATGACCTATTTGGTCTCAATCGATATCTTCATGTGCGGCGTGGCAACGCTGCTGCAAGTGCATGCCAACCGCTTTTTCGGTATTGGTCTGCCGGTCATTCTCGGCTGTGCCATTCAGGCGGTGGAACCGTTGAAACTGATTGGTCAGCGCTTCACCATCGGGACTATGTACGGCTCAATCATTGCCGCCGGCTTGTTCGTGTTTTTGATTGCCGGGGCATTTGCCAAACTCAAGCGCCTGTTCCCGCCATTGGTCACAGGAACCGTGATTACCGTTATCGGTTTGTCACTGATTCCCGTGGCTTTCCAAAACCTGGGCGGCGGTGATCTCAGTGCCAAGACCTTTGGTGACGCAAAAAACCTCACCCTGGGCTTTCTCACGGCCTTGATCATCCTGGCGCTCAACGTCTGGGCCAAGGGCTTTCTGCACAGCATTGCGGTGCTGGTTGGGCTCGTCGTGGGCACCCTGGTGGCCGGTGCGCTGGGCATGGTGTCATTGACGCCAGTGCTCACTGCGGACTGGTTCCATTTCCCGCAATTTAATTACTTTGAAACACCGCATTTTGAGTGGTCGTCCATCCTGACGATGATCCTGGTGTCGTTAGTCTCCATGGTGGAATCCACCGGCGTATACTTTGCACTGGGGGATATTACGGAACGTAAGATTCAAGCTGATGACTTGAAGAAGGGATACCGGGCCGAGGGTTTGGCCATTATTCTCGGTGGTTTTTTCAACACCTTCCCGTATACCGCCTTTTCTCAAAACGTTGGCCTGGTTCAGTTGTCGGGGATTAAGACCAAACGGCCGATCTATTGGGCGGCCGGTTTCCTGATCCTGCTGGGACTGCTGCCTAAGGTTGGCGCTCTGGCGACAATTATTCCCGCACCGGTCCTGGGCGGCGCGATGATCGTCATGTTTGGGATGGTGGCCATGCAGGGGGTTCGAATGCTGCAGCAGGTTGATTTTACCCAAGATCACAACTTGCTGGTCGCCGCTGTTTCCATTGGATTAGGCCTGGGTGTGACCGTTACACCGACAATTTTCCAAGCGCTGCCGAAGACGTTACAATTACTCTTAGGCAATGGGATCGTCATCGCGACGATTTCGTCCGTTCTTCTGAACACGATTTTTCAGCATCAACGGCATCCTGAACTGGCGGAGACCGCCGGCTTAAATGAAGATGCGGATGATGGGAAAGGACATGGAAACGCATGA
>SRR1151209_02329 phosphoribosylaminoimidazole carboxylase ATPase subunit
ATGAGCTTTATTGCGCCAAACCAAACCATTGGCATCATTGGGGGCGGCATTGACAGTTACACCTTGACGCTGGCAGCGCGGCAGATGGGGCTGCACCCCGCAGTGCTCACCGCCACCGCGAACGATCCGGCCTTGGCCGCGGCTGACTTTGCACTATTTGGCGATTTGTCTAATCCGCTGCCTTTTTCCGACTTGGCCGATATGAGTCAGGTGATCGTTTATGCAGACGAAAACATCAACACTGATCTGCTCAAAGGGATCAGCGATCATGATCGCCTGCCTCAGGGCATTGATATTCTCAGCATTACCCAGGATCGCTATATGGAGAAGGTTTTCTTTGAAGATCAGAATCTGAATACCGCCCCTTACGCAATGGTGGTCAATTTGGATGATGTTCGGCGGGAAATTGAATCCATCGGGTACCCGGCGGTGTTGAAGCCGACGCAAAAGGGTTTGGGTCCTAAGAAACAGCGTATTCTGTACAATGAGAATGATTTGGAGGCGGCGGCCGATTACTTTGATGGTGCCACCGCGATCCTAGAATCTTGGGTACCCAAAGCCCGAGAATTGTCCGTGTTGGCGGTCAAAACTGCAGACGGTGCGGTGACTGTGTATCCTACGATCGAAAACATGTACAGCCCCGCCCATCAATTGCAGGCCTCCATCATGCCAGCCCGCATTGATGCGGCGACCAACCACGAGATTCGCCGAATTGCCCGCTTGCTGGGGGACAAGGTACATTACGTGGGCGTTTTTGGCGTGACTTATTTTCTCACCGCGGCGGGCGTGCTCTATGTCGCCCGCTTATTTCCAGGTCCCCGGGGCAGCGCCAATGTTTTGGAATATACGACAGGATATTCGCCCTATGAATTGCATTTACGGGCGGTCTGCGATTGGTCGATCCCAGAACCCAAGCTGGATCGGGCCGGCGTCACGGTGACCATATCGCCCAACACCTTGGCGAAGGCCATTGAATTGATCCGCACGCAGCCAAACACGCACTTCAGCTTTTATCCCCAGCGCGGTGATCTGGCGCCGGATGCCCCGGTGGGCTTTGCGTCCTTTACCGCCTGGGAGTTGGAAAATGTAATTGCCCGAGTGGAAGCTTTGGGCATCTGGCACATTCAAGATAAGGAGAAGCCGACTACTGATGATTGA
>SRR1151209_02330 adenylosuccinate lyase
ATGATTGATCGTTACGTACGCCCCGAAATGGGTCAAATCTGGACCGAAGATAACAAGTATGCCGCTTGGTTGAAAGTGGAGATTCTGGCCGTGCAGGCCTGGGCCAAGCTGGGCGAAATTCCCCAGGCAGAGGCTGATGCAGTGGCCAAGAATGCCCGAGTTGACGCCAAAGAAGTTGCCCGCTTAGAAGAAATCACCCGGCACGACGTGGTGGCCTTCACGCGCACAGTGTCCGAAAGCCTTGGCCCGGAAAAGAAATGGGTCCACTATGGCCTAACTTCTACGGATGTCGTGGACACGGCTTATGGCTATCTGATGAAACAGGCTAACGAGATCATTAAGGCCGACCTGCTTCATTTGCGGGATGTCGTGGCGGCTAAAGCCAAAGAATATAAGTATACCGTCATGATTGGCCGGACCCATGGGGTACACGCCGAACCCACGACGTTCGGTCTGGTACTAGCCAACTGGTACGCCGAGATCCAGCGGGATATCGAGCGTTTCGACCATGCCGCGGCAGGGGTCGAGGCTGGTAAGATTTCCGGTGCAGTCGGCACCTTTGCTAATACGCCGCCGGCGGTGGAGGAATACGTTACTAAGAATCTCGGCTTGCGTGCGCAGGACATTTCCACCCAAGTTTTGCCCCGGGATCTGCACGCCGAATACGTTGGCGTGATGGCGATTATTGCCACGTCCATCGAGCGGTTTGCCTTGGAAATCCGCCACTTGCAGCGGACTGAAGTGCGCGAGGTCGAAGAATTCTTCGCCGCGGGACAGAAGGGGTCTTCAGCCATGCCCCACAAGCGCAATCCCATTGGTTCTGAAAATGTCACTGGGCTGGCTCGGGTTATTCGCGGCCATGCACTGACCGCACTAGAGGATGTGCCGTTATGGCATGAGCGGGATATTTCCCACTCTTCCGCTGAACGAATTATTTTACCGGATACCACCGAAGCGCTGGACTATATTCTTCACCGTTTTGCCAAGATCACGGAGACTTTGACCGTCTTCCCGGAAAAGATGAAAGCCGACATGAATATTACCCACGGGCTGATCTATTCCCAACGTGTTCTGCTGGCCTTGATCGAAACCGGCATGAGCCGCGAGGCCGCTTACGACCTCGTCCAACCCAAGACTGCCCAAGCTTGGGACGAGCAGCGCTCCTTCCGCGGCTTGCTGGAAGCCGATCCGAAGATCACCGAACGGCTCAGCAAGAAAGATCTGGATGCCGCCTTTGATTACCACTGGCACCTGCGCCATGTGGACGACATCTTTGCCCGGTTGGGTTTGGACGATTGA
>SRR1151209_02331 ATP-dependent DNA helicase PcrA
ATGGCCCAAGATTTACTGGCAAAATTAAATGACAAACAAGCAGAGGCCGTGCAGCTCACGGAAGGACCTGTACTGATCATGGCCGGGGCCGGCTCTGGCAAGACCCGGGTCCTCACCCACCGGGTGGCCTATCTGATCAAAAATAAGGATGTCAAACCGTGGCATATTCTGGCCATCACGTTTACCAATAAAGCAGCCAAAGAAATGAAAGAACGGATTGCCCGCCTCCTGGGCGAAGAAGAAAATTCGGTGTGGGTTTCGACCTTCCACGCCCTGTGTGTCCGTATCCTCCGCCGGGAAGCCGATGCCATCGGCTATTCTCGTTCCTTTACCATCGCTGACAGCGGGGAACAGCTGACGATGGTCAAACGACTATTGCGGGAAGCTAATATCGACCCCAAGCAATACGACCCCAAGGCCCTGCTTGGGGCAATTTCGAATGCCAAAAACAATCTGGTCAATCCCCAAGATTATGAAAAGAGTGCGGTATCGCCTTTTGAAAAGGTCGCCGCACGAATCTATAAAAACTATCAGCAGCAGCTCCACCTCAATCAGGCCATGGATTTTGATGATCTGATCATGCAGACGATTCGGCTGTTCAAACTGAATCCGAATGTACTTGCCTATTACCAGGATAAATTCCAATATATCCACGTGGATGAATACCAGGATACTAACGAAGCCCAGTATCAGCTGGTGGCTTTGCTGGCTGCCAAATACCGCAACCTATGTGTTGTCGGCGATGCCGATCAGAGTATTTATGGCTGGCGGGGCGCCAACATGGAGAATATCTTAGATTTCGAGAAAGACTATCCCGATGCCAAAACGATCCTCCTGGAACAGAATTATCGGTCCACGAAGACCATTTTGCAGGCAGCCAACGCGGTCATCGGCAATAATACGAATCGCCGGCCCAAGGAATTGTGGACTGAAAACAACACCGGCGAACCGATCGAGTATTATCGCGGCCAAAGCGAAAAAGACGAGGCCTACTTTGTCATTCGAAATATTCAGGAACTGATGGACTCCAGCCACTATCACTATGGCGATTTTGCTGTGCTCTACCGGACCAACGCCCAATCCCGGGTGCTGGAAGAAACCTTGCTGCAATCCAACATTCCCTATAAGATCGTGGGCGGCAATCGGTTCTATGACCGGAAAGAAATCCGGGATGTCCTGGCCTATATCCGCTTACTCGTGAATCCGGCAGATGATATGAGTTTGACGCGGATCATTAACGTGCCCAAGCGCGGCGTGGGTGCTGGTTCAGTGGATAAGTTGCGCCAATTTGCCGACGAACATGATATGACGATGCTGGAAGCGGCCCACTCGGTGCAGTTGACGCCGATTGGCGGCCGGGCAGTGCATGGCATCGAACAGTTCACGCAATTTATGGATAAACTGGCAGCCATGAAGGGCGAGGCGACGGTGACTCAGATCGCCCAAGGCATTTTGGACGATTCCGGGTATACTAAAGAATTGGAAGCAGCGCACACCGATGAGGCCCAGAGTCGACTGGAAAACTTGCAGGAATTTATTTCCGTCACCAGCGAGTTCGACAATAATTATCAACCGGAGTCTGAGGATAGTGATATGCTGACGGACTTTGCGGCCAACGTGGCTCTGCTGTCAGATCAAGACGATATTGCAGAAGAAGAGACCCAGGTTACCTTGATGACGCTGCACGCGGCGAAGGGGTTGGAATTTCCGGTAGTTTTCATGATCGGTATGGAAGAAAATCTTTTCCCGCTGAGCCGAGCGGCCATGGATGAGAATGAGCTGGAAGAGGAACGGCGGCTTGCTTACGTGGGAATCACCCGCGCCCAGAAGCAGTTGTATTTGACCAATGCCTATTCTCGGATGCTTTATGGCCGAACCAGCAGCAATCCGCCGTCTCGGTTTATCGCCGAGATTCCGGCGGAACTGATCAAGAGCGACAACATTTTGCAGGAAAGCCCGGCGCCCAAGAGCGATACCGAGCTGCCCTTTGCCCGGCGCCGGGATGAACGCGCTCAGGCGGCGACCTATGGTGCCTCGTCCTACACTTACAGCGGCCATCGGGACAAGGGCCAATTCAAGGTCACGAAAGTCGCCAGCCAGCAGCAGACCCCTGCCGCTCAAGTGCGCAATTGGGCAGTGGGCGACAAGGTCAGTCATAAGGCCTGGGGTATCGGTACCGTAGTCGCTGTCGCTGGCAAGCAGGATGATTTAACATTAACTATTGCCTTCCCGGATGTCGGGATCAAGAAATTACTGGTGGCCTTTGCCCCCATTCAAAAAGTAGAAAAAGACTGA
>SRR1151209_02332 DNA ligase
ATGACTTTACCTAAACCGTTAGACCAATATGATGAAACCAGTGCGGCGGCGGCATTGAAGAAACTGCGGGCCCAAGTCAATCAGTACCGGGAAGCTTATTACACCAAGGATCAGCCCTTGGTGGAAGACTACGTGTACGATACCGCATACAACGATTTGCAGGCTTTAGAGAAAAAGTTTCCTCAGCTGATCACGCCGGATTCTCCCACCCAATTGGTGGGAGATGAAACACTGCCCGGTTTTACCAAGGTCCGCCACGATATTCCCATGCTGTCCATGGGCGACGTCTTTTCTGTCGACGAACTCAAGACTTTCGATGATCGCCTGCAGGGCAGCGTCGGGTCAGCCGTGACCTATAATGCAGAATTAAAGATCGACGGGCTCGCTCTTTCCTTGGTGTATCAGGGCGGCAAACTGACCCAAGCGTCGACGCGCGGCGATGGAATCATCGGCGAAGATGTGACCGCTAATATCAAGACGATCAAGGCCGTACCGCGGACGCTGCCGCGGCCGATTGATGTAGAAGTCCGGGGCGAATGTTACATGCCCGTGTCGTCTTTTGCTAAGCTCAATGAAGACCGGGAACAGCGGGGCGAGGCAGTTTTTGCCAACCCCCGCAACGCTGCAGCAGGCTCTTTGCGTCAGCTCAATCCTCGGATCACCCGCGAGCGGGATTTATCCGTCTGGCTGTACACCATCGTTAATGCCCAGGACTATGGCATTACCACCCAGGCAGACGCGCTGCGGACGCTGAGCGAGTGGGGGTTCCCGGTGAATCCTAACAGTCGGGTCTGTCGTACCTTGACCGATGTGGACCATTACATCACGGATATGACGCCGCAGCGCCAGACATTGGATTACGGCATTGACGGGATCGTTTTGAAGGTGAATGATCTTGACTTGCAAGCACAACTGGGTAATACGGTGAAGGTCCCCCGGTGGGAAATTGCCTATAAGTTCCCACCAGAGATGGCTCGAACTATCGTGCGGGAGATCACTTGGACGGTGGGCCGTACCGGCGTGGTAACGCCCACCGCCGTGATGGATCCGGTGCAGCTGGCCGGGACCACGGTCAGCCGGGCGACGCTGCATAATGTGGATATGCTGAAAGAAAAGGATATCCGAATTGGGGATACCGTTGAGCTGTTCAAGGCTGGCGATATCATCCCCGAAGTCTCGCGCGTGGTGACCGAAAAACGGCCCGCGGACGCGGCGCCGTACCAGCCGCCGACGGCCTGTCCATCCTGCGGCCAGCCGCTGGTCCATTTAATGGATGAAGTGGCACTGCGCTGTGTGAATCCGAAATGTCCGGCCCAAATTACGGAGGGGCTGACCCACTTTGCCTCCCGAGATGCCATGGATATCACGGGGCTTGGGCCTAAAGTGGTGGCGCTGCTGTATTCTCACAAATTAGTCAGTGACATTGCTGATTTGTACCGGTTAACAGCAGCCGATCTGGCTGATCTGCCCGGTTTTAAGGAAAAGTCCATTAGCAATTTGTTAAATGCCATCGCTGGGAGTCGACAGAACTCTCTGGAACGGTTATTGTTTGGGTTAGGGATCGACCATGTGGGTGCCAAAGCCGCTCAGCTGATTGCCCAGGCCTTTGGTACCATGGATAAAATCATGGCGGCCAGTGCCGATGAGATTACGGCCATTAAAACAATTGGCCCGACGATTGGGCAAAGCATCACCGCTTTCGTCAGTAATCCGGGGGCGCAAAGCTTGATCAACGAGCTGGCAGCCGTCGGCGTGAATATGACTTATACCGGTCCGGCCGCTGAAGCGGAGGCTGCCGCCGACTCGCCGTTTAACGGTCAGACGGTGGTGATTACCGGTAAGTTCGCTGATTTCTCCCGCAAGGGCTTAACGGATCAACTGACTGCTTTAGGCGCTCATGTGACCGGTTCGGTATCAAAGAAGACCACGATGGTCGTGGCCGGGGAGGACCCCGGCAGCAAAGCAGACAAGGCCCAGCGGTTAGGGGTCCAAATCATTGACGCCGATCAATTAGCAGCAATGTTAAAGGAAAGTCAAACAGAATAA
>SRR1151209_02333 hypothetical protein
ATGTGGAAACGCATTCTGGCGCTGATCGCCATGGCTTTGTTACTGGTTCTTGGGGGATGCGGCAAACTTGCCTCCAGTTCAAGTACCAGTACCACGAGCACGACCAGCAATCGCAAAGTACAAACCACCGGCAACTATAGCAGTACCGGATACAATAGTATCGTGACTGAGGGTCATTATAAGACGAGTGCCGCCCGCGGCGTCGCAGCCGATTATGCCAATAACAGCTTGGATGTAAAAGGCATGGAAACCGGTTTGCTGCAATTGTCCGAAGGGGTATTCTCACCAGATAAATATTCCTTCCAGGAGGGTCAATACTTGACCAGCAGCAATGTTCAAAACTGGCTGGGCCGGCAGTCCAAGAGCAATAGTACCGGGTTGAATCCGGCCAGCAACGGCTCGACGGATCCGGATAAACGGACTCCGGAATATTTGGGCACGATGTTGGAGCAGGACTTCGTCACCGGTTCAGGGTCGAAGACTACCCTGGGCGGGATCAGTATCGCCCTGGGGATGAATGCTGTTGATTATTATCAAAAAGAACAGTATGGCGCTACTTATCAGACAAAAATCAGCGCCGATCAGCAGGAGACCCAAGGCAAGAAGATTGCCCAGGAAGTTGTGACCCGCTTGCGGGCCAAAGAGGGCGTCGGCGATGTGCCCATCTTTGTGGCACTCTATTCTTTAGCTGAAAAGGACAGCCTGGTCTCCGGATCGTTTTTTGCAAAAGCCACGGCGACGGGCAAGACCCTCGATAAGTGGGACAAGGTAAATCAACAATCCGGCGTACTGCCGACGGTAAATAACGCTAAAGCGATCAATAGCAATGACGCCACCGCTTTTTCCAATTTTCAGACGCAGGTTCAGAATTTCTTCCCGAATTTAGCTGGCGTTACCGCCACGGTCCATTATACCGACGGTAGTTTGACCCAGATGACGGTCAATATTCAGACGCAGTTTTATAGCCAAACGGAAATCATGAGTTTTACCAACTATGTTGCCTCCGTGGCCAACAAACTGCTCCCCAGCAACGCGCCAATTCAGATCATTGTCGCCAGCGTCAATACCACCCAGGCCATCATCAGCCGCAGGGCCAGCGACAAAGAATTTTCAATCAATATTTTGCAGAACTACTAA
>SRR1151209_02334 aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit C
ATGATCGATCGTGACCAAGTTGCGCACGTGGCAGGCCTTGCCAAGCTGCAGTTTACCGACGACCAATTGACCGCTTTCACCAAACAGATGGAAGACATCATCGCGATGGCGGACCAATTGGATGAGGTCGACGTGGGCGACACCACGCCCATGTACCAAGTAACCAATTTGAGCAATGTATTCCGGGAAGACAAACCGGAACACTGGCAGACCCGGACCCAATTATTGCAAAACGTGCCCGAGAAGGAAGCCGGCTTAATCAAGGTACCGTCTATTTTAGATAACGGGGAGGGCGAAGCGTGA
>SRR1151209_02335 aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit A
GTGAGTACGAATTACTTCGAAGAGGACATCACATCATTGCATGATGCCCTGGTCAATCAAAAGACCACTGCAGCCCAATTGACTGCCGATACGCTGGATCAGATCCAGACCAAAGATAAGCAAACGAAGGCGTTCATCACGGTAGCTGCGGATGAAGCCAAAAAACAGGCGGCCGCGGCTGATACCCAAGGGATCACGGCGGACCGTCAACTGGCTGGCATTCCTATCGCCATCAAGGACAATATCATTACCGACGGCATTTTGACCACTGCTGCCAGCAAGATCCTGACCGGTTTTATTCCCGTTTATGACGCCACCGTCACCAGCCGCTTGAAAGAGGCTGGTGCAGTCTTAGTGGGTAAAACCAACATGGATGAATTTGCCATGGGCTCCTCCACTGAAAATTCTTATTATGGCCCGACCCACAATGCCTGGGACTTAGATCGGGTACCGGGCGGGTCATCCGGCGGTTCAGCCGCGGCTGTCGCTGCTGGCGAAGTCGTTGCCGCTTTAGGTTCTGATACTGGCGGCTCCATTCGTCAGCCGGCCGCTTTCAACGGTATTTTCGGGATCAAGCCAACCTATGGCCGTGTTTCCCGCTGGGGGTTGATTGCCTTTGGCTCGTCTTTAGACCAAATCGGTGTGCTCAGCCGACGGGTCAAGGATTCCGCCATCGTGCTCCAGCAGATCGCTGGCCAGGATGAGAACGATGATACCAGCCTGCCAGCCCCCGTACCTGATTATTTGGCCGCCATGGACGGTAACATCAAGGGCTTGCGGATCGCGATTCCGGAAGAATACTTAGGCGAAGGCGTGGCCCAGGGGGTGCGCGACGCGATTGAAAAAGCGGTGGATACACTGAAAAAGCTTGGCGCTACCGTGGATATGGTCAGCCTGCCCCACACGAAGTACGCTGTTCCCACGTATTATTTGATTGCTTCCTCCGAAGCCAGCTCCAACCTGCAACGGTTTGACGGCATTCGCTACGGCTTCCGGGCGAAAGATGTCAAGAATTTGGAAGACGTATACGTGCGTACCCGCTCTGAAGGCTTTGGCGACGAAGTGAAGCGGCGGATCATGCTGGGGACTTTCTCCTTGTCCGCTGGGTTCTACGATGCGTACTTCAATAAGGCTGCGAAGGTTCGCCACTTGATTCAGGATGACTTCACTAAGGTCTTTGCGGATTATGATTTGATCGTCGGACCGACGACCCCGACGCCGGCATTCAAGATTGGCGAAAAGGTCAACGATCCGGTCACCATGTACATGAACGATATTTTGACGATCCCGGCGAACTTAGCTGGGATTCCGGCGGCCTCCGTACCCGCCGGCTTGGTTGACGGCATGCCGGTCGGCCTGCAATTGATGGCCAAGCCCATGGCGGAAGCCACCATCTTTAAAGTGGCAGACGCTTTTGAAGCGGCCACTCAGTTTTACACCCAGGTACCCACTGCGATGAAAGGGGAGAAGTAA
>SRR1151209_02336 aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B
ATGAATTTTAAAACCACGATTGGTTTGGAAGTCCACGTTGAACTGAAGACAAAGACGAAGATGTTCTCCCCGTCCCCAGTGACTTACGGTGAGGCCCCCAACACGGCGGCTAACGTGATCGACTTCGGGTTCCCTGGCGTTTTGCCCCGGGTGAATAAGAATGCTTACCGCTTAGGTATCATGGTCGCGCTGGCTCTGCATGCCAAGGTGACCAACGAGACCCACTTTGATCGAAAGAACTATTTCTATCCCGATAACCCCAAGGCTTACCAGATCACCCAGCAGGAACGACCGCTGGGTACGAACGGCTGGGTGGAGATTGAGGTCAAGGGCAAGAAAAAGAAGATCGGGATCCACGAACTCCACGTGGAAGAAGATGCCGGGAAGAATACTCACGGTGCGTCCGGCTATTCTTACGTTGATTTGAACCGGCAGGGCACCCCGCTGGTGGAAATTGTCTCGGAACCGGATATTGCCTCGCCAGATGAAGCTTATGCTTACTTGGAACAATTGCGGCAAATCATTCTGTTCACCGGTGCCTCCGATGTGAAGATGGAGGAAGGGTCCATGCGGGTGGATACCAACATTTCGATTGCCCCGATTGGTTCCGATACACTGGGCACCAAGGCCGAGCTGAAGAACTTGAACTCTTTTGCCCATGTACGGGACGGCTTGGCGTACGAAGAAAAGCGCCAGGCTCAAGTGCTCATGGCCGGTGGTGAAATTCGCCAGGAAACCCGCCGGTTCGATGAGCCCACCGGGACGACGATCTTGATGCGGGTCAAGGAAGGTTCCGACGACTATCGCTACTTCCCTGAACCGGATATTCCGCCGTTCCATATCAGTCAGGAATGGATCGACGAAATCGGCAGCGAAATTCCTGAGATGCCGAACAAACGGCGAGAGCGGTACGTCAACGACTACGGTTTGCCGGAATATGATGCCGGTGTTTTGACGGCGACCAAAGAAATGTCTGATTTCTTTGATGCGACGGTAAAAGCCGGTGCGCCCGCGAAACAAGCGGCCAACTGGCTGATGGGCAATGTGAATGCCTACTTGAACGAGCAGCAGGTGGATTTGTCAGCCACCAAGCTGACTCCTGACCACTTGGCCGGCATGATCAAGCTGGTCAGCGAAGGCACGATCAGTTCCAAGATTGCAAAGAAGGTCTTCCAAGAGATCATCACCAGTGATACGGATCCCCGCGCTTGGGTTGAGCAAAAAGGCTTGATCCAACAATCTGACCCGGCAGTACTGACACCGATCATTGATAGTATTCTGGACAATAATGGTCAATCGATCGAAGACTTCAAGAACGGCAAGGACCGGGCGGTTGGCTTCTTAGTGGGGCAGATCATGAAGCAGACCCACGGTAAGGCCAATCCCCAGGTTGTGAACCAGATTCTCATGGCAGAATTGAAGAAACGGTAA
>SRR1151209_02337 diacylglycerol kinase
ATGGTAAAACGGGCACGGCTCCTCTATAACCCGGTTTCCGGGCATGAAATCATGGAACGCAATGTAGCCGGTGTCCTGGCTGTGCTGGAGGACGCGGGCTATGAAAGCAGCACCTTCCGCACCCGGCCGGAAGAGGGTTCCACGCAGGCCGAGGCCAAGCGGGCCGCGTTAGCCGGCTTCGATCTGCTGGTGGCCGCCGGCGGTGATGGCACGATCAATGAAGTGGTCAACGGTATTGCTGGACTGAAACACCGGCCGATGCTGGGAATCATTCCGGTGGGCACCACCAACGATTACGCCCGAGCGTTGAAGATTCCTCGGGAAGATCCGGTGGGGGCGGCTAAGATCATTGCCAAGGGCCAGCATATCGGTGTGGACATTGGCAAAGCCAACGACCAGTATTTCGTCAATATCGCCGGCGGCGGTAATATGATGGACCTGACCTATGAGGTACAGTCCGACGTCAAGTCGGCCCTGGGCTATTTGGCCTACCTGTTGAAAGGGGCCGAGATGCTCCCGCGGATGCGGCCGATTCAGATGCACTTAGCTTACGACGAGGGGACTTACGACGGGGAGGCGTCCATGTTCTTCCTCAGTCTGACCAACTCGGTCGGCGGGCTGGAGCAAATTGCGCCGGACGCGGTCTTGGGTGACGGTCAATTTACGCTGATCATTGTCAAGACGGCCAACCTGGTGGAAATCGTCCAATTGCTGACGATGGTGCTGACCGGCGGCCGGCATGTGAATGATGATCGAATCATTTACACGCAGACTAAGCGCTTGGACGTGGCGGCTAAACACGGTGAGCAGTTGAAAGTTAATCTGGATGGCGAATACGGCGGCGATGCGCCGATGCATTTCGTCAACTTGAAGCAGCATATTCAGGCCTTTGCCAACGTGGCTGCGATTCCAGACGACGCCATCGCGGATCAAGATGAGGTCGTGAAGGGCAAACTGCTTGCATCGGTTCATGCCCTCCACGATGCGCACCCGAATGATAGCGAGGACACAGCACATTAA
>SRR1151209_02338 TrmA family RNA methyltransferase
ATGGCAAAATTCACAGTACCAGTACGCCAAGGCCAGGAACTGACGACCACCGTGCAGGATTTAACTTATGAAGGGATGGGGGTCGTTAAGGTCGATAATTACCCGTTGTTTGTCGACAATGCATTGCCCGGTGAGGAGGTGACCGTATTGGTTACCCGCACAAATAAACAATACGGCTTTGCTCGGGTGACCAAGCGGCTGACCACTAGTCCCGATCGGGTTGCCGGTGAATTCGCAGATTATTTGCAAACCGGCATTGCGCCGCTGGCCCACTTGAAATACTCTGCGCAGCTGCAATTCAAGCAAGATCAGGTCAAACACCTCTTTGCTGCCCAGCATCTCGATATTCCGGTGCTGCCTACACTCCCCAGTCCCCAGCAAACCGGATACCGGAACAAGGCCCAGATTCCGGTGCAAATGATCAACGGTACGCTGACGACCGGCTTTTTCCGCAAACGAAGCCATCATTTGGTCCCGTTGACAGATTTCTTCATTCAAGATCCGCGGATCGATGAGATCATCGTCACAGTTCGGGATATTCTTCGAGATCTGGACGTTACGGCGTATGATGAGCGCACTCGGCGCGGGCTGCTGCGGCATATTATGGTGCGGCGGGGGCATACGACCGGGGAAGTAATGATCGTCTTGGTGGTGACCCGGATCGTACCGATGTTGAAGCAAGCGGCGCAATTGATTGAAAAGGCCGTACCGGATCTGACTACGCTGGTGTGGAACGTGAATGCAGCCAATACCAATGTGATTTTGAGCGGCGACAATCAGATTATCAGTGGTCCCGGCTATATTGAAGATACCATTGGCGAACGGCGTTTCAAGATTTCGCCCCAGTCATTTTTCCAGATCAACGCTGCTCAAACGCCGCGGTTGTATGCAATTGCCCAAAAACTGGCGGAATTTACTAGGCACGAGACGGTGATCGATGCCTATGCCGGGATCGGGACCATTGGCCTAACGATTGCCCCGCAAGTTGATCACGTGTACGGGATGGAAGTGGTCCCGGAGGCGGTGGCCGATGCGGAGGCCAACAAGGCACTGAATCGCATTGATAATGCCGACTATATGGTGGGCACGGCGGAAGACGTCCTCCCCCGCTGGCAGCAGCAGGGGATCACCGCCGATGTGCTGATCGTGGACCCGCCCCGCAAAGGGTTGGCGGAATCCTTTATTACGACGGTGGGCGCGATGAAGATTCCTCGGGTGATCTACGTCAGTTGTAATCCGGCAACGCTGGCTCGGGATTTGGTCCGCTTCCAAGCCTTAGGCTACCAAGCGACGAGTCCCACCCAGGTCGTCGATATGTTTCCCCAGACACCCCACATTGAGAGTGTCACCCGATTAGATTTGAGGTGA
>SRR1151209_02339 lysozyme
GTGCGTCGCCCTGATCCAATTTATACCAATACGTTTCGCCGGCATTGGGTCTGGTGGCTATTGCTGCTGCTCGCGGTGATCATCGCTGGGGTTTTGGCCTGGCGGTATTTTGCTCCCGTAGACCTGACCCGCGGCGAGTATCCCGTTAATGGGACTTTGGTCAGTCAAGAAGACGGAACGATTGATTTTCCGTCGTTGAAAAAGGCTGGGGCCCGTTTTGCTTATATTCATGCCGCCCAGGGGGCCAGCTATCAAGACGATCGGGTCGGCGAGAATTTGGCCAGTGCCCAGGGCGCCCAGCTTGCCGTCGGGGTGGAGCATGCCTTGAGTTTTGACACGACGCCAGCGGCCCAAATGGCGAATTTGACCAAGGCTGTGGCGGGCAACTGGGGCAATCTGCCGGTGGCGGTCACCCTGAGTTTGTACGGTACTTATGAAAGTACGCCGCCAGACAGGGCGCGGGTCACCGCACTGCTGAACTCAATGCAGAGTTTGCTGCAAAAAAACGGACGATCCATGATCGTCCGTACCACAACTGAGTTAGCTGATCGTTACGCCCTGACTGGTCATTATGCACTCTGGTACAGCGACGCCCAAACCGCCGCGAAGACTGTGCTTTTTGTCCAGCGGGGCAAATTCCCCCATAATACTGCCTTACCCCTGGTGACTTTCAACGGTGATCGGACCCGCTGGCAACAACAATTCCATGTTACGCTGACGGCGCTGGCCCTTGCGGGTGCGCGGCCGTGA
>SRR1151209_02340 hypothetical protein
ATGCGGTCTTTACATTTATTGGCGAACATTAAGCATTTTGCTCGTCATATCGTTCCGAAAGCTAAAACAGTGCAGGCACCCGCACCCGACTTTTCACAGCGTTTCGTCGGCACCTGGTCGTTTTTGGACACCAAGACCCACCATAATCACCTGCTGAAGATCACCCCGGATCTCGTCATTCAAATCGATGGTCAAGAACTGCCCGGCCATATTACCGGTTTAGATGGCAGCGCTCTGACCTTTGTCGATCATTTCGGTTATCAATTGGTCGTGCATACGAACGAGCACGGCCCGGTTTCCGTCTATGACGAATCCAGCAACCTGAATTATCCAATCACGGCCGCGCACCCGCAAGGGCCAGCGCCGTCAGCGTAA
>SRR1151209_02341 oxidoreductase
ATGTTGAGAATCGCAACAATTGGTACAAGTATGATTACCAACGAATTTATTGCCGCTGTGAAAGAAAATCCCCAAACCGAAGTCGGCGCCATTTATTCGCGGAATGCGGATCGCGGGGCAGCGTTTGCGACGACCATTGGCCTGCCCAACGTGCCGGTTTATGATGATTTGGATACGCTGCTGGCCGATCCAACCATTGATTTAGTCTACATTGCTTCCCCTAACAACCTGCATTTTGATCAAACCAAAGCGGTGCTCTTGGCTGGTAAACACATGATCACAGAAAAGCCGGCCTTTACCAACCCGGACCAGTTCGCTGTGATCGCCCGCTTATTGAATGCCCGCAATCACCAGTATTATTTTGAAGCAGCGCGGCATATTCATACGCCGAACTTCATTAAAATGCAGCATGCGCTGGCCGGACACACCGTGACCGGTGCGCTGCTCAGTTACGCGAAGTATTCCAGCCGGTATGATCAGGTCCTGGCCGGTGAAGAACCCAATATCTTCAGTCCCCGCTTTGCTGGCGGCGCTCTCCAAGATTTAGGGGTGTATTTGGTCTACGCTGCAATTGCCTTGTTCGGCAAACCGCTGGCGGCCCATTATGAACCGCACATGCTGACCACTGGTGTCGATGGCGGCGGGGTGGGCACCTTGACCTATCCCAACTTCACCGTTGTGCTGCGTCCGGATAAGACTGTGCAAAGCCGAGTGCCGTCAGAGATCTATTTAGGCAAAGATACGGTATGGACCGACAATATTGCGGAATTGCAACAATTACGTTACTACCACGGCAGCGGGGAGCAGTTTGACGATCTTGCCACGACTCAGCCGGCCAATGGGATGAGCAGTGAATTAGCCCGATTTGTCGATATTATCCAGCAAAATGATCGGGCCGCCTTCGCGGAACTATTCCAGTTGTCTGCCCGGGTAAACGAAGTCTTGTATGCACTGCGCCAGGATGCGGGCCTGCACTTTCCGGTCACGGTGGAGGCGGCAACTGATGACGAATGA
>SRR1151209_02342 DEAD/DEAH box helicase
ATGACGAATGAAGAAAAAGCGGCCCAACTGTGGCAGCAGACGGGCTTTGCCCAGCAGACGGTGATCCAGACCGCGGTGGCCGCACCGTTGCTGGCCGGTCAGTCCGTCGCTGGCGTGGCGCCGACTGGTTCCGGGAAGACTCTGGCCTATGGGATCCCGACACTGAGCCGGCTCACACCGGGGGCTGGGTTGCAGTTGGTGATCATTGTGCCCGCCCAGGAGCTGGCGATCCAGATTCGAGATGTGTTGACGCCTTTGGCTAAAACGCTAGACCTTGGGTTCCAAGGCTTGATTGGCAGTGCCAACCGGGAGCGGCAAATCAAACGTCTGCGCGAAAAGCCCGAAGCGGTGGTCGCCACCGTTGGCCGCTTCATCGATTTGCTGGAAGAGGGCAAACTGCGGCTGGATACCGTCAAAACCCTGATCGTCGATGAGTTCGATTCGTTTGAACCGGATGCGTTGGCGGATATTCTCAGCATTCGCCGGGGCGGTCTGCCGCAAACGGCGAATCTGGGTTTGTTCTCGGCTACTGACAGTCAGGCAATTTTAGGCGAATTCAAGGCAGCGTGGCCAGAGTTGACCTTAGTCGACGAAACCAAGACGGACAAGAGCCGAGGGCCGGTCAAACATTTACTGCTGGATCGGCAGATGATCGGCAAAATTCAAGTGTTGGAGCGCTTAGCCCGGGAAAAGCACCAGCGGATCTTTGTCTTTTTCAACCATAAGCACGTCCTGCAAAAAGTGGCTAGTCAGCTGCGCTACCAGCATGTGCCGGCCAGTATGCTGATCACCGATGGCCGGCAAGTCCAGCGGGCTGAAGCCTTGCAGGACTTCCGCAGCGGGAAAGTACCATTACTGCTGACCACCGATGTGGCCGCCCGGGGGTTGGATGTGGCTGATGTGACGGCAGTGGTCAATTTTGAGCTGCCGGACACCTTGACGACCTACATTCACCGCACTGGCCGTACCGGCCGGCAGGGGGCCCCAGGGACGATTTATAACCTGGGAAATGACCATGATCTGCGGGATCTGCGCCATTTGGTGGGGGACCGCATTGCCCTAGAAACTGAACCTGGGGAAACTAAGCCGACGGCAAAGCATCAGCCGGCAAATTCCGCAACAACCAGTGAGCCCCCTGCACCCTCTGCGCGCAAACCGCGAAAGAAGGCGCTCACCAGTGCTGAAGAGGAGGAAGCCAGTGCCAAAAAGCGGAAGAAGCGCAAGGAACGCTGGCGGAACAAAAAGAACGTGGGCAAGCACTGGTAA
>SRR1151209_02343 cellobiose-specific PTS system IIA component
TTGGCAGATGAAGATAACGACAACATGGAAGCTGTCATGGGTCTTATTATTAACGGTGGCAACGCCAAGAGCAGCGCCATGGAGGCCATTATGGCCGCAAAGAAGAACGACTTTGAAACGGCGGATCAGAAGCTGAAGGATGCGGATAACGCGCTGACGGATGCACACAACGCCCAAACGGGGATGCTGACGCAGGAAGCGCAAGGCAACCACGTCAAGGTCACACTTTTGATGGTCCATGCCCAAGATCACATCATGAATGCCATTACTTTCCGGGACTTAGCCGGGGAAATCGTTGATTTGTACAAACGGTTAGCTAAGGAAGGCAAGTAA
>SRR1151209_02344 cellobiose-specific PTS system IIC component
ATGAACGGATTAATACGCTGGTTGGAGAAGTACATCGTGCCAGTGGCGACCAAAATCGGCTCAATTCGCTGGCTGGTTGCTCTGCGGGATGCTTTTATCGCCACAATGCCGGCCACTATGGCCGGCTCCATCGCATTAATTTTAAACACGTTTGTGCGGGATATTCCGACACAAATGGGTTGGACCAAATTTGCTGAGTCCATGCAATGGCTGATCGGGATCAACGGCCAAGTTTGGACCGGTACCATCGCCGTGATCGGCTTGATCTTTGCGGCGACCTTCGGCTATCATATGGCCAAGCAGTACAAAGTTGAGCCGCTGTCCGGCGGGATCGTGACCTTGGGTGCCTTCCTGATGGCCTTGACCCAAGCAGCTAATGTGACGACGGCATTACCGCGCGCCATCACGGGCGCGGCGGCTAAGACTTTGACGGAAGCCGGCGCGACGCTGACTACCGTTAAGGATGCCGCTACCGGCAAAATGGTGCATCATTTAGGTACCAGCGGCTGGGGTTTCTTCAATTTTAACGGCCAATTCGGTTCCCAAGGGCTGTTCACCGCCATGATCATTGGCGGCGTTGCCATTGCCATCTACATCTTCCTGATGAAGAAGAACATCACCATCAAGATGCCCGACGGTGTGCCGCCCGCGGTCACGCAAGCCTTCGCCGCGATCATTCCGGCGTCCGCGGCGTTCTATGTCGTCGGTATCTTCACTTGGGGCTTCACCAAGCTGACTAACCAAGCTTTCGTGGATTGGGTGGCCAAAGTGATTCAAGAACCGTTGCTGCATGCGTCCCAGGGGTATGGGATGGTTCTGCTGCTGACGGTTCTAGTCCAGATCTTTTGGTTCTTTGGGATCCACGGGACCAACGTGTTGGGCCCAATCCTGGATGCCATTTGGCTGACTGCCCAGTATCAGAACATCAATACCGCAGCGGCTAATCCAGGCGCTAAACTGCCATTCCTTTGGACCCGGACATCCTTTGACCTGTATGCTTGGATGGGCGGTGCCGGCAGTACGCTGATCCTGCTTATTGCGATTTTCATTTTCTCCAAACGGCCGGATGAACGCGCGGTGGCGAACTTGGCCATTGCCCCGGGGATCTTCAACATTAATGAACCGGTTATGTTCGGTCTGCCCATCGTGCTGAATGCCATCTACTTCATTCCGTTCGTGTTGGCCCCAACCGTCATGGTCTCCATCGCCTACTTCGCGGTGACCCACGGGTTGGTCGCCCCGATCAAGAACCAAGTGGTGTGGAATATTCCGCCGTTCTTCAACTCGTTCCTGGCCACGGCCGATTGGCGTGCGCCGGTATTGCAACTGATTAACTTCGCCGTGGGCTTCCTGATTTGGGCACCATTTGTTATCGCGTCCAATCGGATCAAGCCAGACGAGATTTCGTAA
>SRR1151209_02345 hypothetical protein
ATGATTTTCTTGAATGCACCGATCCAACAGGATAAGATTATTGCCTTGCTGGATGATCAAACTGTGAATGGGGTCCACTACAAGCTCACCAGTCACAATGGTATGAAACTGGTCTTCCAGACGGATGCTGACGACTTAGAGGCGGCGGCAGCCAATGCGAAGAAGGCAATCAAGGCCCAGCAGTGGGGCAGCGTGCTGTTCTTCCAGGCAGGCGTCGAGAAGTAA
>SRR1151209_02346 hypothetical protein
ATGCGCAAGCGCAGTCTGTTCATCATGAGCTTGGGCTTGTTGATGATGGTGTTTAGTCCCTTCTACGGGAGTGCCACCCATCTCAATTATTGGTGGCTGGGCGGCGGGGCCTTCGTGCTCCTGATTGGGATCTATGACGCTGTCATGGGTTATCGCTTAGCCGCCAAGGGAAAGGAGCATTCGCAGAAACATGGAGATTAA
>SRR1151209_02347 hypothetical protein
ATGGAGATTAAACAAACACTGAATGTGCCGGCGAAGTATCTCTGGCACAAAATCATCGAGTCCGTTTTGTATGATGCCCGGCGACAGACTGGGAAACCGCTTCAGGAGACCCAATTGGCCGGTCTGAAGTACACTAAAACGTTCGCCAATCACCAGCAGGCCACGTTGCAGATCCTGACCCTGGAACCGAATCAGGAGTATGCTTACACGACCACCACGTCCCGTAATGCGTACACGGTACGCTACGCGCTCACAGCGGTGGATGCAGAGCATACGACCCTGGTCTATACTGAAAAGATTGATTCCAAGGGCGGTCTGCAACGGGCCAACGATATCTTGACCAGTTTCCTGCTGGGTTGGGGCCGTAAGCGCAACTTCAAGAAGATGCTGGCGAAAATGACCGAAGAGTACCATCAAGACGGTCAGGCCGCCAGCTGA
>SRR1151209_02349 acetylesterase
TTGGCAGTTTTTCACGTTGAATTCAGCTCAGAAAAGCTTGGGATGCGTTCTCGCCTAAACGTTTTGCTGCCAGAAAACGCGCAACCTAATTTGCCGATATTGCTGCTGCTCCACGGTCTCGGTGATGATGAAAACGCCTGGCTAGAACAAACCAAAATCGCGGATTATGCCCGCGATCAACAGGTGGCAGTCATCATGCCGCGAGCGGATCGCAGTTACTACACGAATACTGTCAGCGGCATGCACTATTTCGACTATATTAGTGAAGAAGTAGTGGCCCGCTGCCGTCAGTGGTTCTCATTGTCTGCGCAACCGGATGACACGTATGTTGGTGGGCTATCCATGGGCGGTTATGGCGCATTAAAATGTGCCTTGCTCCATCCAGAGATATTCGCCGGGGCCTTCTCACTATCGGGTGTACCAGATATCGTTGAACAGTGGCGCGAGCATCCTGAACGAACGTCTTGGTACACTGCACTTTTTGGCAAGAAAACTGAATTAGCGGGCAGCACGAATGATATGGTTTCTGTGGTACAACGGTGGCCGGACGATCAGAAAAAGCCATTTTTATGGCAACTTTGCGGGACTGAAGATCCTTTCTTGAGAATGAACGAAAGATTTCATACGATAGCACAACAGTCTGGGTTCGAGAATTCCTTGGAGCTCGTTGCAGGAGCCCATGAATGGCGAGTTTGGGATACAGCCATTCAGGAAGTTTTACCATTAGTGGCGAGGAAAACAAAACAGTAA
>SRR1151209_02350 beta-galactosidase
ATGATCAAGACAGACTCTCTCACTTTTGAGATTGATGGCCGGCCGACCACAATTTTAGCGGGTGAGGTTCACTATTTTCGTTTGCCGCCAACTCGCTGGCAATCCGTGTTGACTGAACTGAAGGCTGCCGGCATGAATACGGTGTCCACATACATTCCCTGGCTAGTCCATGAAGAGGAGGAAGGTGTATTTGATTTTACCGGTCAGTCGGACGAACGGAATAATTTGAAGCACTTCATTGAGTTGGTTCATCAAAATGGCCTCTATTTGATTGCCCGGCCGGGACCATTTAATATGGCTGAACTGAAGAACGAGGGCCTCCCATTTTGGGTGAGAAAAAAATATCCCGCTATTATTCCCACTACTTGGGCGGGTCAGACGGTGCCCACGGGGACTGTCGACTATACAAATTCAGATTTCAAATATGCGGCGCAGAATTGGCTGCAAGCCGTCTGCCAAATTTTGGCGCCGGCTTTGCGGACTCATGGCGGCCCGATCATCGGTGTCCAGTTGGATAATGAAGTGGGTATGCTTAGCTGGATCAGTAATGCCCCTGACTTAACAGATACAACCGTTGCTGAATTTTCGGTATGGCTGCAACACAAGTATAATAACCAGTTGCCAGCAGTTTATCCTGCGGATTTCTTGGCCACTGCTCGTATTCGCCAATACATGGAAAAACCGGACGATGCCTGGGTGCTGCAATATCAAAATGATCTGGGTTATTATATGCGTTATCGCTTTAAGAATTATCTGGCTTTCCTTGCGGATACTGTCCGTGATGCTGGAATTGTCAATACGCCGCTGCTTATCAATGTGCATGGTACTGATCAAGGACGGGGAGAAACATTCCCCATCGGTATCAGTCAGCTTTATGACGCATTCACTTTGAAAGATGTCATCATTGGTACGGATGTTTATTTTGGCAACTTCGATATGACCACCGCTACCCATTTGTATACGCTCAATCGTTTTATGCAGAGCGTTGACGGTGATTGGCCGCTCGCTACATTGGAATTCAATGCTAGTTCGGGTAATAACGACGATCATTTACCGATGCAAATTGATGCCAGTGCGTTGCCTTTGAAGACGCGGTTACAACTGGCCCAAGGCACGAAAATAATTAATGATTACCTGTTTACGGGCGGTTTCAATCGATTGTTGGCGGTGCCCGTCGCTGATGGGAATTCTCGTATTGGTATCCATGGGCATCGCCATGGTTTTGGTTCACTGTTATCGCCTGAGGGCAAACCAAACTATACGCTGCCGGCCATGGCCCAAGTGGGCAGCATCATTAAGAATACTGACTGTTTGTTGGCACCCATGCATTCAGTGACTGCACCAATTTCTGTGGGCTTTATTCCTGATGATTACATGACGGAGTATCATTATCCCCACAGTCAGACAGCTGCTCGGTTTGTTACCGATCAGGAAAACAATCGGGCAATCTTACCGTGGAACAATATTTTAATGAACTTATTGTCTGCCAAGTACAATTATGATGCCTGGGATCTGCAAAAAGACTTACCTACTCATGATGACCGCCACGTTCTGGTGGTCCCCACCGGCCAAGCTATGCCGGCAATCGTGCAAAAGCGGTTACTGGAGTATGTTCACAAGGGTGGTCAACTCCTGTTACAGGGTGAGCTGCCCGTGAGTGATTTAACCGGTCAGCCGGATACGACTCTAATTAATGGGCTCGGACTGAGGCCATTACAATTGAAAAAGGAATCGGTGACGTACTTCCCGACAATTACACACCACGCATTTGCTGATGGTTTACCGGAGGTTCGTATTCACCAATTCCAATCATTTGAGCCAACTAAATCAGACAGCATTGTGTTCTGGCGTGAATTGGAGTCGAATACGGCAGTCGGGGCACTATTCAATGTTGGTCCTGGCCGGGTCGCTTTTCTGGGATCAGAAGGCCGTTTTGACCCGGCATTCTATCAACTATTGCTGAATCAGTTTGAAGTGGCCCCGCAATTGACACTGACACCGGCAGCGCCATTTGTCTTGGCCTTTATCACTCAAAGCGATGAAGGGACATTACTTCACTTGTTAAATACGCTGGATGTCCCGGCCACTTTTAGCATGCACGATTCCCACGGCCAGCCGCTTTTCGGCAGACATCCCATCACAATCGGTGCCAAACAGGGGCTAATGTTGGCCATGAACATCACCATTGCTGATTGGCGGTTGGTCTATGCCACCGCCGAAATAGTCAATTTGAACCATCAGGAAATTTCTTTTGCAATTAAGTCGACTGATGATGTGATTGCATTAACGACGCACGTTGTCGTCATGGCCAGTGATGACTTCTGGGTGGAAAAACAGGCAACAGCGACCATCTTGCATCTGCGTCATACCGGCATATTTACCTTACATCAGGAAGGAGACCTTACCATTGGCAGTTTTTCACGTTGA
>SRR1151209_02351 LacI family transcriptional regulator
GTGGCTGGTATTCGTGATATCGCCAAAAAGGCAGGTGTGTCGATTTCAACAGTCTCTTATGCCTTGAATGGCAGTTCGAAGGTCACCGAGGAAACTCGTGCCAAGATTAAGCACATCGCTATGGAACTCAATTATGTGCCGAATCTGGCAGGGCGCACACTGAAGAAACAAAGCACCAACATTATTGCAATGTACGTTGCAGATTTTGGCGGGGACTTTTACAGTCATGTGATTGATGGGGTCGATCAGGTACTCCGTGCCAATCATTATGAGCTTATTGTTGGTGCAGGGGGCGACAAGTCGCGGGCGCTAATTCCCCAGAAATTTGTGGACGGTGCAGTGATCCTGGATCAAGCCTTCCCTGATCGGCTAATTAAAAGTTTCGCGAAACAAGGCAGTAAGATGGTCGTCATGGACCGTGAATTGTCTGGCACCAATGTGCATAAGGTCTTATTGGATAATGCAAAAGGGGCTGAACAGGCCATTCGGGCATTGGTTGCGGCCAAAGTCGACTATTATGTTTTCATCAGCGGGCCTTCTGATTCCTATGATTCTCAAATCCGGCTGCAAACAGCATTAGCTTCTTTAAGTGATAAAACTGACGCACCAGTGGTTGTTATTCCCAGCGACTTTACGATTGAGGGCGGCCGCAAGGCAGCAAAAAAGATCAGCAATGCGCACCTAAAAAATGTCGGTGTTTTCGCGCTGAACGATGAACTGGCAATCGGTCTTTATGAAGCTTTGCCCGAGTTAGGTTATACCGTGGGTAAAGACATCAAGATCATCGGCTTCGATAATGATCTTATTGGTCATTATCTAACCCCGCAACTAACAACAATTGATTACTCAAAACATAAATGGGGCGAAACAGCTGCCCAGACCTTGATTGATATGATTAAAGATAATGGTCAGGCAAGTAATCATTACATTGAAACAAAGGTGATCCGACGCGGGTCGCTTGGAGAGGAAACAGTTAATCATGATCAAGACAGACTCTCTCACTTTTGA
>SRR1151209_02352 sugar ABC transporter permease protein
ATGATTAATGGTAATAAGACAGCCGTGCGCAACGGCAAAGTCGCAGTGGGCGCAATCCTGCTATTCTGGGGCTTCATCACTATTTTGCCTTTTTTATGGATGTTTCTTTCCTCTTTCAAGACTAATGCCGAAATCTCGCAGGCGACTCAAAATTTTCTGCCCAACCACTGGACATTGGATAACTACAAGCGTTTGTTCATCGATAGTAATTTTGGAGTCTATCTCAAGAACACGTTAATTATCACGTTGTTTTCCTTTATGGGTATGCTGTTGAACGCGATGGCAGGTTATGGCTTTGCCAAGTTTAAATTCAAGGGACGCGGTCCGCTATTTATTCTTGTATTAGCCACGATGATGATTCCAGGACAAGTGACCATGATCCCGGTTTATCTCATTTTGAATGAGATGCACTTAACCAATACGTTGGCCGGTATTATCTTACCTGGATTGGTGGGGGCTTTTGCCATTTTCCTGTTCCGTCAGTTCATGAGTAATATTTCAAACTCCATCATTGAAGCCGCACGGCTCGATGGTGCCAGTGAGTGGTATATATTCTGGCACATCATCATCCCTATCTCTAAACCGGTGCTGGCTGTTCAAGGAATTCTCACTTTTATCGGAGGTTGGAACGCATTCCTGTGGCCCTTGATCATTGCTAACGATCAGAAATACTATACGCTTTCTGTGGGCCTTCAATTACTCCAAGGTCAGCACACATCAGATTATGGTTTGCAAATGGCTGGTTCCTCCTTTATGGTTATACCGATCGTGATTATCTTCGTTATTTTCCAGAAGTACATTTTACAAGGATTCAATGTGCAAGCAGAAAAGTAG
>SRR1151209_02353 glycerol-3-phosphate ABC transporter permease protein
ATGGCTAAGACATTACGCGACAAGCTGATTCCCTATACATTTGTCTTGCCAGCATTGCTCCTGCTGGCACTATTCTCTCTAATTCCAATCTTCATCGCTTTAATCATCAGTTTCACGGGGTTGGATATTACAGGTTTAGGTGATTGGTCACAAATTAAATTTATCGGTTTGCAAAACTATACACAACTGTTCCACGATAGCGCTTTTCTTCAGTCCATTCTGAATACCGGGTACTATGTGATCATCGGAGTACCTTTGGTTATCTTGCTTTCTCTGACTGTCGCAATTCTAATCAATTTTGGACAAAATCGGTTTTTCCGGTTTATGCGATTGGTCTTTTACACGCCATCAATCACCAATACCGTGGCCGTTGCAGTGGTATGGACTTACATGTACAACCCGAGTATGGGTCTACTGAACAATCTTTTCGGTAAGATCGGCCTAGGACCCTTTCCTTGGCTCAGTGATCCGGCTACGGCCAAGATGTCATTGATCATTTTGGCCGTCTGGAAAGCAATTGGTCTTAATATGTTGATTTTCTTGGCCGCCTTACAGGGAATTCCCGAATCACTCTATGAAGCAGCGGAACTTGATGGGGCTGGCTGGTGGCAGCAAACCCGGCATATCACCTTGCCGTCGCTGTCATTTTCTATCTTTTTCGTGACCGTTACGACGTTGATTGGCTGGTTCCAGTTCTTCGACGAACCTTTCGTTATGACTAAAGGCGGACCATTGAATAGTACAAACTCTGTTGCCCTGTTCGTTTACCAAAACGGGTTCCAGAATAGTAACTTTGGATACGCAGCCGCTGGGTCGTTCGTTATGTTCACGGCAATTATTATCGCCACACTGGTGCAATTCAAGCTGCAAAAGAAGCAGCAAGGAATTTAG
>SRR1151209_02354 sugar ABC transporter substrate-binding protein
ATGAAGTTAGCGAAATGGTTGGGGATTTCTGTAGCCGCTGCGGCAGCCGCCCTGCTTCTGGTAGGCTGCGGTAATAGCAGCAGCTCGTCAGGCTCGAACACGAACAACAAGACGATCACTTTCTGGTACGGCGGTGATGCGGATACCGCAGTGAAACCAATGGTGGACGCCTTCACTAAAAAGACGGGAATCAAAGTTAAGATTCAAAGTATTCCGTGGTCTCAATACAACGATAAATTATTAACGGCAGCCGCTTCTAAATCCGGTCCCGATCTGATATTGATGGGTACCACCGGGATGGCTAATTATGTTAGCTCAAAAAGTTTGATGGATATCTCCAAAGAAGTGAAGAGCGATAAAAATATCAGCCCCAACAACTATTTTGAAGGATCTGTCAAAACAACCGAGTTTAATGGTAAATATTACGCCGTTCCATGGTATGTGGAAACACGCGTGCTATACTACCGGAAAGATTTATTGAAACAGGTTGGCTATAACGAAGCACCTAAGACCTGGGACCAACTATATGATGCTGCCACAAAGCTGTCTAAGCGCGGTAAGAACATGTACGGCTTTAACGTTGATTTCTCTGAACCAACCTTTGGTTTTATGTTTGCTCGGCAAAATGGTGCGACTTTGATTAAAGGCAAGACGCCGCAATTCAACAAGAAGCCAATGGTTGAAGCACTGGATTACTTGGCCAAGTTTTATAAGAATGGTGCCTCTCCCAAACAAGATCTGAAATTGACAATTGGCCAGTCCTTTGGCGGTAAAGCACCAATTCCAATGTTTATATCCGGTCCATGGATGATGAACAGTGTGAAACAAGATGCCGGCTTGAAAGACGATCAATGGGGTGTAGCTGTGCTGCCAAAAGGAAAAGACAATAACATGTCTAACACTGGCGGTGGTAACCTGGCGGTCTTCAATTACAGCAAGAATAAGTCTGCAGCTTTGAAGTTGTTGAAGTATCTGTCGACTAAGGACAGTCAATTACAGTACTACAAGAACAGCGACTCTATGCCTACTCTGAAGTCTGCGTGGACTGATAAATCCTTGAGCGACTCCCGTATCCAAGTATTCCGTAAGCAACTGAACGATTCCGAACCAATGCCTTTAATCAAACAATGGGACCAAATCGGTCAAAACTATTTGAAGGCTTGGGAACCCGTCGCCATGCAAGGGGCTAGCGTTCAAAAAGCGATGGATCAATTGAATTCTCAAACCGAGCAATTGTTGAATAAATAA
>SRR1151209_02355 amylo-alpha-1,6-glucosidase
ATGCACCAACTCAAAAGTGATCATATTACGATTAATTTACTTGACAACGGCGCCATCGGCACGATCATGGCCGACAATGTTATGGTCAATCAAGTCGCCGGGAATGCGCTGGATGGCAGTATGGCTAATATTTATCTGCGTGTCCAAACGGCTGGCCAGTATCGTTACACACCCTTGATTGGGCCGGCGAGTTCTAGCCGTTTGTCTCTAACTAAGAATGGTGCTCGGTGGCAGGGGCGTTTTGCTGACATTGATTATGACTTAACTCTGCTGTTAGGCAGTACAAATTGGTTTTGGCACGTTGCTCTTCGCAGCGCCCAGCCGGTCGAGGCTGATTTAACTTATGTTCAGGACTTGGGGTTGGGTGAACCGGGATTCGTGAATAGTAACGAAGCCTATGTTTCCCAATATCTGGATCAGCACCCGTTCACCAACGATAGTCATATCACCATCGCTGCACGTCAGAATCAGCCTCAAGCAGGTCAATACCCATACCTGCAGCAAGGGGCATTGACTGCCCTTGCTGGCTATGCCACCGATGGATTCCAATTCTTCGGCACTGACTACAAGAGTACTGACGAACCTAGTGCAATGAATCAAGCAGATTTGCCCAGTCAGGTACTGCAGTATGAATGTGCTCTCACTGCTTTACGAACTGTCCCCTTGACGGCCGCAGACGGCGACACCGCAGTGACCTTCTACGCGGCATTTAAACCGAACCAACCCAATGGCAATCTGGAAGAGCTTATTGCGGATGCGGAAATTCAAACAGACTTTGCTGCGCTATCGGCTGCTGCTGCAACCTGGCAGTCTGTTTCTCTGCCAGAGGCAAACCAATCCTTGGGCCGACCATTAACGGGAACTTCCTTGACGGAGACCCAACTCAACGTATTGTTCCCGCAACAGCGGCAAGTAGAACGGGATCAAACCGGACAGGTATTATCCTTCTTCACTCCTGACGACACTCACGTTGTGTTGCCAGAAAAAGAAAACCAACAGGAACGCTTAACAGGGAATATTATCATGGCCGAACGCACCATGACGCCTACCCAACCTGTTTTGGCAGCCACGCAATTCATGCCGGGTGTTTTTGAATCCCATGTGGTCTTTGGTAATACCAATATGAACATTATGATTACCAATACCCGCAGCGCGTTGAACTGGTTCAAGGTCACGGGGACCCGTATTTATGTGAGACCAGCAGGCGATGCACACTATCATTTGCTCACCATGCCATCTGCCTATGCCATGACTTTCAATGGTGGTGACTGGTATTACCAATTGGCCGGAGACACGTTGAAAATCAGCGATGATGCGAGCAGTACAGAGCAGCAAGTGACGCTTCGTTTTGCTTCCTTAAAGCATAAACGATACGATGTCTGGGTCGCTTCTCAGTGGGATACGGCTACTTTGGGCGAGAAACCACTCTTGGATATCACAGACAACGCAATTTCACTTTCACCAGAAACCGATACGGCTATGGCAAAAGTCGATCCCGATCGTGCTTACAGTATCCAGTATGCGCATAATGCCCAAGCATTCAATATTGGTCGGGAAGAGGTTATTTTAGCTCACACCACTAATGATCCAACGCATCAATTGGTGGCAGTGTTCGATTCGGTCAGTCAATTCAGTATTGTGACGCAAACGAACACTGTTCAAAGGGCTGACTCTGAGCCGATTACGACTAGCCGCGAACAACATCGGGACTATCTGGAAGCGCTATTGCGGCACTTCCAAGTCACCACAGAAAATTCTGCTAAGCAGGATATAGCAGAACAGACGAATCTTGTCTTACGGTGGTATGCCCACGATGCGCTGGTGCACATGCTCTCACCCCATGGATTAGAGCAATACGGTGGCGCCGCTTGGGGTACGCGGGATGTTTCCCAAGGCCCGACTGAATTATTTTTGTCGACAGGTCATTATGATGTTGTTCGGCAGATCATTCTTCATCTTTACAGCCATCAGTTCAGCGAAAACGGTAATTGGCCGCAGTGGTTCATGTATGACGAATATGCAGGATCATTTGCTGACGAAAGCCACGGTGATGTGATTGTTTGGCCGCTCAAAGTGGTTACTGATTATCTGCTGGCGACCAAAGATACCGATATTTTGAGCGAAGTATTGCCATATATGTCCCTTAAAGAGCACAAAATGATCACTAAGTCCGAAAGCTTGCTGGACCATATTAAACGCCAACTGGCGTACATCACAAGCCATTTTCTGTACGACACCAAAGTCTCTGCTTACGGTGACGGCGATTGGGATGATACTCTGCAACCAGCCGACGCTAGCCAGAAGAAAGAAATGGCCAGTACATGGACAGAAGAACTAACTATTGAAACATTGCGCCATGCGGCTCAAGCTTTTGCCAGTATTCCGGATTTTGCTCAGAGCCTACAGACACTGGCCGATGAGATGATGGCGGATTTCAAACGCTACTTCATGCAGGACAATGTATTACCTGGGTTCATTAAAATGGATGCTGACCATCATGTCACACCTATCATTCACCCGAATGACGGTTTGACGGGTATTGATTATCGACTGCTGCCATTATCGCAAGGTGTATTGAGTCATATTCTTGATCCGCAGCAATCCAAGCATGCATTACGGCTTATCACGCAACACCTGTTGTTCCCTGACGGGGTCCGCTTAATGAATAAGCCTTCTACCTACCGCGGCGGTGTTTCCCACATCTTCAAGCGGGCGGAACAAGCAGCTAACTTTGGTCGGGAAATTGGATTACTGTATGTCCACGCCCATATTCGGTATGCGGATGCTGTCGCACAAATGGGTGATCAAGCAGAAGCTTGGCGATTACTGCAACTGGTGAACCCGATTAATATTCAATCGCGGGTCAGCAACGCGGCATTACGTCAGGCTAATGTATACTTCTCTAGCTCCGACGCGGCCTTCCCTGATCGGTACGCTGCTCAGGAACACTTTGAGGATGTCCGCGATCAATCTGTCGCAGTGAAGGGAGGATGGCGATTATACAGCAGCGGCCCGGGAATCTACATTGCTACACTGCTGAAGAGTGTGTTTGATCTGGCTGGCAAAGAAACGTTTAACTCGTCGTTTTCGTTACCTTTCGATGCGGATTACCATGTCTCCGTAACGGCATAA
>SRR1151209_02356 beta-glucosidase
ATGGTCAGCAAGAACGTCCAGGATTTAATGGAGAAAATGACAATTCAAGAAAAGATTGGTCAATTAATACAATTAAGTGCCGATTTTTTTCAAGGCGATAATGTGGCAATTACCGGTCCTTTAAAGGAGGCCCACCTTGGCGAAGCCGCGTTGTATAGTGCCGGCTCCGTACTCGGTATTTCCGGTGCTCAAACTGTTCGCAAGGTACAAAAAAATTATCTTAAGCACAGTCGGCTGGGTATTCCGCTCCTCTTTATGGCTGATGTCGTTCACGGTTACAAGACCATTTTCCCGATCCCGTTGGCCCTTGGCGCCAGCTTTGATCCGCAGGTCATGAAGACTGCTTCGGCCACGGCTGCTAAGGAATCAGCCGCTGGCGGTGTCCATGTTACTTTTGCACCAATGGTTGACCTGGTACGTGACCCACGCTGGGGGCGGGTGATGGAATCCACTGGGGAAGATCCTTATCTGAATTCGGTAATGGCTAAGGCAGCCGTTACCGGGTTCCAGGGGACACTGCCCCTTGATCAGAACCATATTGCCGCGTGTGTTAAACACTTTGCCGCTTATGGTGCGCCAGAAGCTGGTCGGGAATATAACACAGTTGATATTTCTGAATGGCGGTTCCGCGAACAATATTTGTCTGCTTATGCGGCAGCGATTGAAGCACAGGCACTCCTGGTTATGACATCATTTAATACACTTTTCGGGGTTCCGGCTACGGTCAATCAGCATCTGATGCGGGATATTCTTCGAGACGAATTACAGTTTCATGGTGTGCTCATCTCAGACTGGGACGCCATTGGTGAGATTATCCATCATGGCGTGGCAGGAGATTTGCAACACGCTGCCGACCTCGCGTTAAAGGCTGGAGTTGATATCGATATGATGTCCTTTGCCTATGCCAAGTACTTAGCAAAGGCTGCCTCACTGGATCCGCAAATCGAACAACTGATCAATGAATCCGCTCAACGTATTCTTATTCTGAAAGAACAATTAGGGCTATTCACCGATCCCTACCGTGGTTTAAGCACTGAACGAGAGACAGAAGCAACGCTAACTACTGAAAATCTCGACGCTGCTCAGGCAGCGGCCGAACAATCAATGGTTCTGTTAAAAAATAGCCACCATACATTACCACTCAATACCGCCACCGCCATTAGTTTGGTGGGGCCCGTTGCCGATACTGGTGATATCCTTGGCAGTTGGTCCTGGCAAGGCGATCCGGATCAAACCGAAACGATTGCGGACGCTTTGGCTAAGCAATTCAGCAACTTCACTGTGATGCCGGGGACACAATACCATCACGTGCAATTCAGCAAATTGAACGACGCTGTGAACGCTAGCCGTCAGCAAGAAACAATCGTTGCTGTATTGGGCTTGCCTGCTAGCGAAAGTGGTGAGGCAACCAGTATGACGGATATCACATTACCTGCTGAACAGCTTACACTGTTACGTGGGCTAGCCCAGTTGAACAAACCACTGGTCACCATCGTGATTACCGGCCGACCGTTAGATCTCACTGAGGTCGACGCACTCTCTGACGCCGTATTATTGGCCTGGTTTCCAGGCAGTCGGGGCGGAGCAGCCATCGCTAATGTACTCAGCGGCCGGGTTGACCCGAGCGGCCGCCTGCCGATGACTTTCCCACGCAACATTGGGCAAGTACCAATTTATTATAATGCCTATAATACTGGCCGTCCGATTTCCGGTACACCAGCTGATGATGAGAACAAATATTTATCGAAGTACATTGATGTGGCTAATTCTCCATTGTATCCGTTCGGTTTTGGCCTGAGTTATGGTGATTTCACCATAACCGATTGGACGCTGTCTCAGCACAATGTAACTCCTGATCAACCGTTGACGATTCAGGCCACGATTCACAATTCTGCCGATCATGCTGGTACGACCGTGGTGCAGCTTTACACCCACCAGCAAGTCGGTGAGACAGTGCAGCCAGTCAAACAATTACAAGCGTTTAAGAAAGTCAGCCTGGGAGCGGATCAAACTCAAACAATTACGTTAACAGTTCCTTACGACCAGCTCAGCACCATCCATTCCGATCTGCATCGATCAACTGACCAAGGGGATTACACCGTAATGCTCGGATTCGACTCCACCTGTACGGCCAGTCAGCCCTTTACCGTGGCACATCAATAA
>SRR1151209_02357 hypothetical protein
GTGAATCGGCCAGCGACGGTCAATATTCACCTGTTGGACGCGGCTGGTGCGGCGTTAACGCCGACGCAAGCCGATGGCAGTGCGATTGCTAACCCGGTGGTTAAGAACGGAGTCATGCCGGATCCGTATAACTTCAACGACTTTGCCATCGGCAGTACCAGCATTCTCGCTACCCCGGCGACGACCCTGCAGGGCCATCCGCCCCTGACGCTGACCAGTGCCGGGCAGCAGTATGAACTGGATCAGACGCGGCTGCCTAGCAATGGTCAGGGCACCTTGACCCCGGCCAGCGGGACGCTGGATCTGAACTATTACTATAAGAAACATAGCGATACGGGCGGGTTGCTGAAGTTAACGGTGCCCACGATCGACTTTGGTCAGCAGCCGTTGAATCTGGGAATTGGAAGTTATCCGATTTCTTCCTTAACCGGCAGTCTCGTGGTGACGAACCAGAATACGACGAATAAGAGTTTCCAGCTGTCGGCGCAGGCGACGACGCCGCTGACGAATGCGGCGGGGCAAACGCTGCCGGGGGCGCTGGGGTATCAGCTCAGTGGCACCACGGTGGCGGATCTCAGTGACCTAGTGATTATATATGCCAATACCAATGCGGCAGCGTCAGACACGACGTTCAATATTTCTAATGGCTGGTGGCAAGCCAGCAAGCCGCAGACTGGCGATTATCAAATTGGCGGGCCGCGGTTGCAGATTAATGCGGTGAACAAGCCGGCCATCAGTGCGGGTAAGTACACCGGCGTGATTACGTGGACGGTGACGAACGGGTTATAA
>SRR1151209_02358 hypothetical protein
ATGCGCGGGGGGTTAAGCATCATGTTTCAGCGGGAGAGGACACGCTTGCGAGGGCGCCTATGGTGGGGATTGGCCCTGACTTTAGTGTTATTTTTGGTAAGTGCCTTTGGCGGCGGCAGAGTGATAGCAGCCGGGGCAGCGGCGTATCCAGCGTGGGTGCGGCAGGCTGTGGTGGGGACGGCGTATACGGCGGATGAGTTTGTTGGGCTGCCGTTTGAGCAGCAATTACATATCGTACAGACGCTGCATCCGGAAATTGACTCGTCAGCGCTAACAGTTTCGGCGACAGCACTGAAGGCTGATACGCCAGTTCAAGGTATTGCAGCTAACTTGGCGGTCACTCCGCTGGCCGCGGGCAATACGTTACTGGATATTGCGCCTTCAGATACCGGTAAGTCATTTGCTTATTTCAATATTGGTAACCAATCAACACAGTCGATACCGAGCGGGGTGGCCTTTGATGGTGCGGCCCCAGGGGGATCGATACCGGTAATTGTTGGCGGCATAGTAACTAATCTGCGCAATCTGACCAGTACTGCCAAGATGATTGATCCAGGCAGTTTGACAGCCGCTGATTTTACCAGTCTCCGAGCCTCTGATTTTCATTTGAATACGACTGCTTCTGATCTTGGTTCGGGAGACTTCACGTTGACTTACGGCGCCGCCGGTAGTACGCCGCCTAACGTGACCATTATTGTCAGGAAACCCGCAAGTCTGCCTTATGATGGCAAAAAGCTCGTTTTTAATGTAACGAAAAACAATCGCAGCACCCAAGTGACCTTCAATTTATGGCGACCGGATATTACCCGTGCTTCGGCCCGATTGCCCCTTGGCAATAATCTCACTTTACGTTACATGTTCGGGTCGTATCAGGCAGCCCAGGCGGCATCGCATAATAACTACGATTTGACCCAAACCAATAATTACATCGATACGCCTAACTACAACATTATTCAGACAGACCCCCAAACTCAGGTCGAGACAACGATTTATTCCTTGTATGAATCCACGTCATCGCTGACAAGCGGCCAAGACGGTCCAACCGATTTCACCCACTTGTTTACGTCACGCGGGTTAGGTGTGGGCTTCAAGGGGGTGCCATTGCTGAATACAGGAACACTGGGGGATAATATTTCGCCGGTGATCCAATTCGACGACATCAAGCATATCCACATGTATGCCGACAGTACGAACGCTAAGATTATTCATTTAGATTACGACGGCTACATAACGAATCCGTATTACTTGCAACTCTTGCGGATTACAAATGGGTCGATTGCTTTGCACGTCCGGACTCAATTAGAACCAAGCACTGATAACCGGACGATGGCTTTGAATCAGCAGGTCACTAATATCAGCGGGCAAGACCTGACAGGAATTTTCTTTAGCCGCCAACTCGATGTGCGGATCGGACCGAAACTCAAGCCGCAGGATAACGTACCACCGTATTATGGGGCATTGGCGCAAAGTGGACCGCGGCAAGGGAAACCCCAGGGCATCTATTTCCGTTCGCCGACATTGGCATCACCTTATACGATGCAGTTCAACTTTAACAGTATCCACAGTCCCGACAGTTGGCGCGGAACAAACTGGATCGAGCGATACCAGGGTAACGGTACGGATGGTTTTGGCCGTACGGCGCAGTCATACATTGACGACTACGTGACGGATACGGGAAATAATAAGTTGCGGGCACAAAGTGATGACAATAAGAAAAACTTCCCCAATGGTTTTCCGGTGTTTCAAGGTCCAGAGGGTAAAGGTAACGCGGGCGTCGCGGATGCCAAGCCCGATCAATTGCTTTTTGGCGAGGATGCCACCAACAGTTCGTCAATTGTTAAAGATTCAGGCATTCTGATGAAATGGTCGCCCAGCCAAGTCGGTTCCTTTAAAGACGGGGACACTTTCGAAATGGGCTATAACGCAGGGGCCAACACGGGCAGTGCCCCCGTGCTGCGCGCAAATCAGACCTTTCTGCACATCCCGAACACGGCCAAAACCGTGGCGACCCCGGGTAGTGTCTTTGACTTGAACAGTAACCAAGCAACTGTCTATTATCAAGTCGATGGCGAGCCGGTGACGAGCAGTAACGCGCTGGCCATTGCCAATAAGAAGACATTATTTGCGGCCAAATATCCGACTGATCCGCCCCATGATACGTATTTGCAATTTGCTGGAGATATTAGTGATCCTGCTGACGTGCAGACACTAACTGATGGGAAAGAACATACCATTTACCTCTATGCCATCGACACACCAGACAGCTCGGTGCCGGATCCTATAAACAGGACAGCCAATTAA
>SRR1151209_02359 hypothetical protein
ATGATGCGACGGGGAAAAGTTACATATTTCGTTATTTTGACACTGATTTTAGGCATTTTCGGATTGGCTGGTCTAGGTTCTGCGCAAGGGGCAGCGGATGCTGATTTAGGGACCAGTCAGGCAGGCACTACCCAAGACTATCCAGCCTGGGTGCGCCAGGCTGTCAGCGGCACTGCTTACACGGCCGCTGATTTTGTGCACCTGCCGTTTGCTCGGCAGTTGGCAATCATCAAGGCGGTGCATCCAGAAATGGACACGGCACATTTAAGCCAAGCGGCGTCCGCCACCGCTGTTTTGGGCAACCAGCAGGTACAGACCGTGACCACCCCGGCGACGCCGGCGTTGGCCGCAGTCCCGCAGGCTGATCCGGTGGCGTTTGGCCAGACGTATTTGGATATTGCACCTTCGGATATGGGGAAGGCGTTTGCATATTTTAATTCAGGGTCCCTGACGCAGACGTTTCCCGATGGCGTGGCCTTTGACGGGGCCGCACCTGGGGGACTCATGACGCCAGCGATGATCAGTGCGCGATTTGGCAGTATTACGAGTCCTGCGAAAACAATTGATCCAGGCAGTTTTACGGCGGCTGAATTAGCGAATTTGAAGACGACCGATTTTGTGGTAGTGAATGCAGCAACGGATTTACCTGCCACCGCGTATAAAATTACTTATAGTAACGGCGGTCGAACCACGCCACCCAATTTAATGGTGACCGTCAACAATCCTGCGACGCTGCCTTATGCTGGAAAAAAGATTGTGTTGCAGGTCAACAAGAATAATAAGGCCTTGCAGATTACGTTTAATCTCTGGCGCCCGGATATTTCCCGGGTCCATGCGGAGCTGCCTCTAGGGAATAACCTCACACTACAATATATGTTTGGTGCCTATTGGGCGGATGCAACGCCATCCCACGCCATTTTTGACACCTCGAGAATGAACGGTAATCCAATCGACGTGCCCAACTTCAATATCCTCCAAACCGATCCAAAAAATCCAACGGCTGCACCGACGCGGGTGTATTCTCTTTATGAGCCAATCTCAGCACCGGCACAAGTCACTGATTTTGCGGGCTTAAGCACGTCTCAGGGATTGGCCGTCGGGTTTAGCAAGGGACCAGTGTTACCGTGGAGCGTAAATAGTGCTACTGGCCCAGGCATGGAGTCGATACCTACAGATCGTTTTTATCCGCTTGCTCAGTTCGATGACATTAAGCATATCCACATGTATCGGGATAGCACCAATCAAGCAGTTATCCATCTGGATTACGATGGGTACATCACCAATCCTTTTTATTTACAAACGCTGGGGGTGACGAAAGGCATTGTTTTACGTGTCCATAGCCAACTGCAGCCTAGTCCAGATGGACGTCAAATGTCGATGGGTGAACGTGTCACGAATATCAGCGGACAGGATCTCACTGGTCTTTATTTTGGCCGTCAATTTGATACTCGCATGGGGCCGGTGGGCAATCAATTGGACAACGTGCCATTATTTTATGCAGCGCGGGCAACGGACGGTCCGCGCGAAGGGCATCCGCAAGGGATCTATTTCCGCTCCCCTTCGTTGACTTCCCCTTATACGATGCAATTTAACTTCAACAATATCGCTGGTCCCGATAGTTGGAGTGGGACCCATTGGCTGTCGACATATCAGCCGATTGTGACGCATCAGGTGACATCAACGGGAGCGTATGACTTGAACGCCACTATCAATGACTTGGTAACTGCCAATGGCTTCAATATGTATGAAGCGGTCTACGCGCGGGACAAGGACTACCTACCCCAGGGATATCCTGTTTTTAATGGACCAGAGGGTAAAGGCAACGCTGGGAATATGACGGCCCAACCCAATGATGTCATATTTGGCACCGGTCAAGGGGGGACGACTACAGCTGGCCCACCGCCGGACGACACGGCAATCATCATGAAGTGGTCGCCCAGTCAAGTGGGTTCTTTCAAAGATGGTGACTCCTTCGACATGTCCTTTAACTCAAGTATTAATATGGGGACCGCGCCGGTGGTCCGGGCCGACGATACTTACCTGCATGTGCCCCCAACGGCAACAACGGTGGCCATACCGGGCGGGGTCTTCGACCTGAATAGTAACCGGGCCGCGGTGTATTACCAAATCGACGGCACGCCGGTGACTACGGCGAACGCGGGGGACATTGCCAACAAGAAGACGTTGTACACTGCCCAATACACCCCAGCTCCGCCCCACAGCGACTACTTGAATTTTGCGGGCCAAATTACCGCTGCGGCGGATCTGCAGACATTGACCGACGGCAAAGTCCATACGGTTTATCTCTATGCCATCGACACGCCGGACAGCACGAGCACGGTTCCTGATCCGTACAAACAGGATATTGCCCTGACGTCGAATGTGGTCCAAGTGGCCGTGAATCAGCCGGCCCAAGTACACATCAATTTGGTGGATGAAAACGGGGCAGCACTGGCTGATCCGGTGGTGAAGCAAGGGGTCATGCCGGAACCGTATAACTTCAATGATTTCAGTATCGGCAGTCAGAGCTTTCTGACCACTGCGGCCACCGATTTACAAGGCCATGCGCCCCTGGCGCTGACGAAGGGCACGACCAAATATGATTTGGATCGTACCAAGCTGCCCAGCAATGGCCAGGGCCGGTTGAATCCGGTGAGCGGCGTTTTGAATCTGACTTACTACTACAAGGTCCATCCCGCGACGGGCGGCTATCTCGGCTTGACTGTGCCGACAGTGGATTTTGGCCAGCAGCTGATCATGGCAGCCCCCGGGGATTATCCCATTGCTAAGCTCACCAGCAGCCTCGTGGTCACAAATCAGAATCCGACGAACAAGACCTTCCAGCTTGCAGCCCAGGCAACCAAACCGTTGACCAACGCCGCCGGTCAGGAACTGACCGGGGCGCTGGGGTATGAACTTAGCGACGGGACGATCGTTGAATTGAGCAGCGATACGGTGGTATACACCAATACGAATGCGACCACCAGCCAGACCAGCTTCAATGTGTCCGATGGCTGGTGGAAAGCCAACAGTCCCCAAACCGGGGAGAATCAGATCAGCGGCCCGCGGTTGCGCATCACTGATGCCAACCGCCCGGCTATTAAGGCCGGTAAGTATACCGGGGAAATTACCTGGACAGTGACGAACGGCTTGTAG
>SRR1151209_02360 hypothetical protein
ATGACACAAATGTGGACATACACCTACTTCGGCAACCACACCAGCAACCAATTCGACTGGCTGCGCTACGGCATCACCGGGGTAGTAATTTTGATCACCATGGGTCTGCTGCTGAACTACCTGCGCCATCGCAACAACGCCCGGAACCGCGACCTGCTGGTCCTTTCACTGCTGGTTGCCGGGCTGGCCGTCGCCATTCAAATCAGCGACATTCAGCAGAATTATCAACTAACCAATAGCGGCAACAGCAATTCACTGATTATGCGCCAATTTATGCGCGACGTGGCGCGAAAAAAAGACGTTGCGCCCAGCCAGATTGCGGCGAACCAGACCTACCTGGGGGCGGGACTAGTGCTCAAGGTGGGCAGCGCCTACTACCAGGTCACCTTCAACAACGACACGGCGATCACCACATATGCGCTGACGAAAACCACGCTGCTGAACCACAAAGTCCAATTAATAAAGGAGTAA
>SRR1151209_02361 membrane protein
ATGACTATTGATTATTTTGCCCTATTCATTAAACTCGCTCTGGGTTTTGCAGCATTCGTTTTACAAATTGGCTTAGCTGGACGGGGGAACCTGGCCCCGTCTAACGCCATTGACCAGCTGCAAAACTTCGTCCTTGGGGGGATCATTGGCGGTATCCTTTACAATCCCGCCATTACGACGTTGCAATTCTTCATCGTTTTGCTGCTTTGGAGCATCATCGTCTTCGGTGCTCGCTTCCTGGCAAATCACAACAGCATTGCTCGTCAGGTATTAGTTGGGCAGCCTCACACCATCGTGCATAACGGTAAGATCGATACCGACTTTGCCACCCGGGCGGGGATCTCGGCCCAAGAGCTGGCCTTCCAGCTGCGCCAGCATGGGGCCAGCGACCTGCGCCACGTGAAACGGGCGGTGCTGGAAACCAACGGCACCCTGACTGTCACCCTGCAAGATGATGAGGCAGCCTATTTCCGGTGA
>SRR1151209_02362 membrane protein
GTGATTCTAGACGGTCAAATCGATGAAGATGCGCTGGATATTCTCCATCGGGATGAAGATTGGCTGACAACTCAATTGCAGGCCCAAAACGTCGAGCAATCTCAAGTGTATATGGCAATTTACGTGAACAATCATTTAGACATCACGACCTATTAA
>SRR1151209_02363 magnesium transporter MgtC
GTGAATTATACGCAACAGTTGGAATTAATTTTGCGCCTGCTCGTGGCGAGCCTCTGCGGCTTCGCCATTGGCTATGAACGGACTAACCGATTGAAGGAAGCGGGCATCCGGACCCACATGATCGTGGCGGTGGGCTCGGCCCTGGTCATGATCGTGTCCAAGTACGGCTTCTTTGATGTGATGCGGCTGAACAACGTAACGTTGGATCCATCCCGGATCGCCGCCCAAATCGTCACCGGTATCGGCTTTTTGGGCGCCGGTACGATCCTGGTGCGGCGCAGCGGCATTAATGGTCTGACCACCGCCGCGGGCCTGTGGGCCACGGCGGCCGTCGGGATGGCCGTGGGCGCCAAGCTCTACATTGTTGGGGTGGCGACTACGGCAATCGTATTGCTGATTCAAATCGTTTTGCATCAGCACCTGCCCTTCTTACCCAAGATGGATACTCAGCACGTGACCATTGTCATGGATCAAAATCAGGATGAAATCAATGCGCTGCGGACCCAATTGCGCAAACTCAATATTCACGTCACGAATGTGGATATGGAACGCAAGCCGGAGAAGCAGGAAGTCAAATTGAACCTGTGGTTGGAAACCGCTGAACCGGCGAATATCGACCGCTTTTTGACGGTCTTCGCCGAGCGGCCGGGGATCAAATCGCTACAGTATTAG
>SRR1151209_02364 glycerol-3-phosphate ABC transporter substrate-binding protein
ATGAGAAAGCTGAATAAATGGCTGATCGCCGCAGCCAGTGCGCTGGCGCTGCTGGTAATCGGCAACACCGCCGTCCACCAATGGGCACCCAGCCATACCGTTGCCACCCCCGGGGGCCGCACCGTGGTCACCCTGTGGCACGCGATGAACGGGCCCAACGGCAAGACGTTGGAAGCCATGGTAGCGCGGTTCAATAAGAGCCAGCAGAAATATTGGGTCGAACCAGTGTATGAAGGGGGCTACTCCCTGACCCAATCAAAGTATATCAACACCTTGCACAGCAACGTGTCCCCGGCCATGGTCCAAATCGACCAAGGCAACGGCGCCGCCACGGTGGGCATCAATAACTACACACCAGTCCAAAAGTTCATCGACAAGGAGCACTATGACACCAGCCAGATTTATACCAATGTATTGAGTGCCTACACGCTGCGCGGTCAATTGCTGTCCGTGCCGTTTAACTCCTCGTCTGCGGTATTGTATTACAATCAGGATCTTTTCAAAAAATACAAGATCCCTAATCTGCCCCAGTCGCCCACGTATTCCGAAGTGGCCAACGCGGCGAAATTGCTGACCCAGCGCGCCGGGGACAAATTGAAGGGCGTCACGCTCCAGATCTATGACTGGCTGCCGGATTCACTGGTGGCCAACCAGAACGGCACCCTGGTCAACAACGGCAACGGTCGGGACAAAGTCGCGACGAAAGCCAACGTCAACACGCCGGAAATGCGCCGAGTCTTCACCTGGGTCCAGGGGATGATCAAGGATGGGTCCTTCCAGAACTACGGCACCGGATCCGGTGCGTCGGCGAACCAAATGGCCGGCTTTCTATCTCAAAAACTCGGCATCTTCATGCAGAGTTCAGCAGCGATGGGCACCATCGCCAAGTCGGCAAAATTCAAGTTCGGCGTGACCTTCATGCCCCATCCGGATAACATACCGGCCAACGGTGTGGCAGTCGGCGGGGCCAGTTTCTGGATCACCAAGGACAAACCCGCTGACGTGCAGCAGGGGGCGTGGGAATTCGCTAAATTCGCCATCTCCGCTAAGGAACAGGCTGCCTGGCAGGCGGCGACCGGTTACATCGCGGTGAATAAGAATGCCTTGAAAGAACCCGTACTGAAGCAAGCCGTGGCCAAGAATCCCGGTCTGCTGGTCCCGATCCAGCAACTCCAAGCTGCTAAGACCAACGCTGCCACCGCGGGGCCGTTCTACGCTAATCTGAACGAAGCCGCCCAGTATATCCAAGTGGCCATGCAGCAGATTTACGCAGGGCGGGACATCACGGCTGCATTAGCTGAAGCCCAACGGAAAACGGACCAAGCAATCCAAGCAACCAACGCGGTGGACTATGAGTTGTTGAATTTTGACCATATTGGTCAGTGA
>SRR1151209_02365 glycerol-3-phosphate ABC transporter permease protein
ATGACTCGGGTGAAACGTTCTGTTCATTATATGCTGCTGATCTTGATTGCCCTGCTGATGATGGCCCCGTTGCTGCTGGGAATTTGGGCGAGCCTGCTGCCGACGACGGACATTGTGGCTGGCCACTTTACCTCGTTGAATATCTCCCTGACCAACTACGTCAACGCCATCAAGACGACGCCGGTGGTGCTCTACATGTGGAACTCGCTGGTGATGAGTACCCTGATCATGCTGGGTCAATTCGTCTTTTGTACCCTGGCGGCCTATGCCTTCGCCTTTCTCCAATTCCGCTTCAAGAACGGGCTGTTCTTCGCCTTCTTGATCACGATGATGCTGCCGTTTGAAGCCCAGATCATTCCGAACTTCCAGACGGTACGGGCGCTGGGATGGCTGGATTCTTATCCAGGTTTGACGATCCCGTTCTTCACCTCGGCCTTCGGGGTGTTCATGCTGCGCCAAGCCTTTCTCCAAGTGCCCAATGAATTGAAGGAATACAGCGACCTGATTGGCTTGGGCCGGTTACAATTCCTGTGGCGCATCGTACTGCCCTATTCCCGCAGCACGCTGATCACCTTCGGCCTGTACACTTTTCTAACGCACTGGAATCAGTACCTGTGGCCGCTGATCACGACGTTCTCCGACGCTCACCGGCCGACTCAGGTCGGGTTGAAGCAGCTGCAAGCCGAAGACACCTTCAGCAACTGGGGCGTGATCATGGCCACCGCGATTCTGGTCCTGCTGCCCACGCTGCTGATCCTGATCGTCGGTCAGCGCTACTTCCGTAAGGGTCTGAATGCGGGAGGTGTGAAGGGATGA
>SRR1151209_02366 glycerol-3-phosphate ABC transporter permease protein
ATGGCGGTCTTCACTTATTATCCGATGATTATGACGGTCATCAACAGTCTGTTTGCCACGAACTTGACGGGGAAAGCCGCCAACTTTGTGGGCGTGGGCAACTACGTCACGATTTTCTCTGATCCATTGTTCTTCAAAAGTTTGGGCAATACCTTTATTTTTGTGGCCGTGACCAGTGTGAGCACGATTGCCCTGGCGCTGATCCTGGCCCGGTTGGCCACCCAACGGCTGCGGGGCGCGGGGTTCTTCCGTACCGCCTTTGCCTCCACCATGGGCGTCTCCGCCGCGGCAGCTTCGATTTTGTGGCTGTTCCTGTTTAACCCCTCGGTGGGGTTGATCAGTATTTTGCTGAAAATGATCGGGTTTGCCCAGGTCAACGTGCTGACTAATCCCACTGGGGCGATGATCGCAGTGATTTTGTCCAGTGTCTGGATGGGCAGCGGCTTTGCCTTTCTCAATTTGCTGGGGGCCCTGCAATCGGTTCCCCAAGATTATTATGACGTCGCGTCGCTGGCGGGCTGGTCGAATTGGCGGCAGACGTGGAAGATCACGATTCCCATGGTCAGTCCGACGCTATTCTTCCTGATCGTCGTGGAGGTGATCGGGGCGTTCAAGACCTTTACCCAGATTGACCTGATCACTGGCGGCGGTCCGGATAACACCACCAATTTCATTGCCTATAAAGTCTATCAGGATGCCTTCAATTACCGGAATATCGGGATCGCCAGCGCGGAGGCCATTGTCTTGACAGTGATCATTGCCCTCGCCACGTGGGTGCAATTCCGCTTCACTGAGAGGAAGGTGTATTATCAATGA
>SRR1151209_02367 glycerol-3-phosphate ABC transporter ATP-binding protein
ATGGTCATTAAACTGGCACATTTAAGTAAACACTACGGGGATACCCCTGTCTTGGAAGATATTGACGCCACGATTGAAGAAGGCGAATTCTATGTTCTAGTCGGCCCGTCTGGATCTGGCAAGAGTACGATTTTACGGATTATTGCCGGACTCATTCCCGCTTCCGGCGGCGACATTTATTTTAATGATAAAAAGGTGACCGAGGCCGCCCCCAAGGACCGGCACCTGGCGATGGTCTTTCAGAACTATGCCCTGCTGCCATTCATGTCGGTGGCCGAGAATATCCGCTTCGGACTGCATAATCTGCATTTGAGCGAAGCAGAAGAAAACGATCGGGTCGCCGATGCCTTGAAAATGGTGCACCTGACCGAATTGGCCGACCGCAAGCCCAAAGAGCTTTCCGGCGGCCAGCAGCAGCGGGTCGCCGTCGCCCGCGCGATTGCCACCAAGGCTAACCTGGTCTTGATGGACGAACCGCTGTCCAACCTGGATGCCCAACTGCGTAACGAAATGCGGGAAGAACTCGTTGAACTGCACAAGGAATTGAAGATGACTTTGATCTATGTCACCCACGACCAGACCGAGGCCATGACCATGGGTGAGCGGATCATGGTGCTGAACGATCACAAAGTCCAGCAGGTTGGGACGCCGCTGGATCTGTATAATCATCCCCGCAACGAATTCGTGGCCACCTTTATCGGCTCGCCGAAGATGAACATGTTCACCGTGGCAGTGGATGAATTGGGGAAAACGGCCACGTTAGTCATGACTGATGAAGACCAGCGGCCAGCGGTGATCCCGCTGCCGGAACCATTACCCGCCGGCACCTACCGGTTAGGTGTGCGCCCGGAAAAAATCAAATTGTCGCTGACCTCGACCAGCGCGTACGATGTGCCCGTCCAAGTCGTGAACGTCGCCAGTCTCGGCCGGGCCAGCAATGTGACGCTGCGCAACCACGATATTGAATTCATTGCTGATGTGGCGGAACAGTTCCCGGAGGATGCCCAAGCCGCGTTCGTTACTTTCCCGACAGAGGCGGCCGATTTGCATTTCTTCGCGCCGGATACCGGGTTGGCCGTCGCTAGCCCGGAAGAGAAAGCGGGGGTTAGCCATGGAGTTGCATAA
>SRR1151209_02368 hypothetical protein
ATGATCGACTTTTTAGTGGATATCGTGGGTGAATTTTTTGGTGACGTGATCAAAGATGTGATCGTTGACTATGTCAAAGATGAGTGTAAACCCCGCTGGCGCCGGTTCCTGGTATTGACGCCACTGTATCTTGTCGGCGGGGCGATTATTTGGTACGGCAGCCGCTGGTGGCAGCGCGATACTTGGCTGACCGTGCTGTCTATTGGGTTGGCGGCGATCTTCTTGGTGCCCGGGGTGTATTTAACCCGATATATTGTACGCCCGCAAAAGTAA
>SRR1151209_02369 glycerophosphoryl diester phosphodiesterase
ATGGTGTTCGATATATATGGCCACCGCGGCTATCCGGTGCGGTTTCCAGAGAATTCGATGGCCAGTTTCAACTATACGATCCAGCACGGCGCCGACGGGATTGAAACGGATGTCCAGCAAACGATCGACGGCGCGCTGGTGATCATGCACGATGAATTGATTGACCGGACGACCAACGGGAACGGCTGGATCAAGGATATGACCCTGGCCGAACTGCACCAGTATCAGTTGGTGAATGGTGAACAGGTGCCGCTGCTGGCAGATGTTTTGGATCTGCTAGCGCCCACGGGAATCCAACTGAACCTGGAGTTCAAAACCAGCAAAGTGCACTATCCCGGTATTGAAGCCGCGGTGCACCAACTGGTGATGGCCAAAAAGATGGCCGGTCGGACGGTATATTCCTCGTTTGATGCCGATACTTTGCGCCGGCTGCACACCGTGGCTCCCCACCAGCCGCTGGCCCTGCTGACGACGAAGACTGGGGAGATTCCCAAGTTTGACGCCCTCAGACCGATTCTGAGCGCGTTACACGTGGAACATTATCAGCCGCAGATCGACTTTCCTCAGCGCTTATGGACCGTGGATGATCCACTGGAGATCCGGTCAGCGATGGGTGATACCAATGTGGTCGGCATTATTACAGACGATTTTGAACGCGCCATGCAGATTCGTCAGAGCCGGCTGGCGATGCGGGCGTAA
>SRR1151209_02370 hypothetical protein
ATGAAGACCAGAAGAACGGCACTACTTAGTTGTTGGACAATTCTGCTGCTTCTTTTGGGCGGATTTTGGCAGGCCGGAACCGTCAAGGCGGCGGATCCCAGCCAGTGGCATCAGCATACTTATGGGGCACCCTTTAATTCCAGTCCCTTCGTATCGGCGGACCGGATGCTGCAGGTTGGCGATGAAGGCAACATCTTCTTATACAACGTTGTTCTTTCCGGCAATCATAGTGCTGACTCGGCGGATACTGAAGGGGCGCTGGCGATTCAAGGAAACAGTACCGTGCCAGCAGTCGATCGCAATGGCGGCATTAGCCGTTTTAATTATGCCGGTTTCTTTGACGGCGGCAATCACGGTAACGGTGATGGCAATAGTCATCCGCTGAGTGAGCGCCACCGCATTTCACTTTTGCTTGGTGGTGAGATCCGTAAGTATTATCCGGTCGGTGCGCAGGATAAAGCCCACGCGCTGGTGAGCGGACAAGGTACAAACAATAAAAACTCAGGGTATTTCGTTGTTCGCAAGGAAGCAGTTCTAAAAGAAGAAGGACAAAATGCAAACCCATGGTTGCAGAACGCTAATAATCCGGTATTTGCTAATGGCCGGGTGTACCATACCGACGATTTTGCTAGCGGTAAGAACACTGTCAAGATGGATGATATCTTTACCCGTATCTTTGCGAGTCAACGTCACGTTGAGAACGAGCTGACGCAGCTTGTTGGAGAAGAGGAGGAGAAGGGTGATCCATATACTGTAGACGGTGAACCATATACAGTCGAATCGTTCTGGGGCTGGTGGGGGAACTCGATCGATGTGCCAGTTTATCATTCTAAAAAAGACGCCAGTACGCTCATTATCGATATTCCGGCCAAACCGGGAACGGACACAGCGTATATGCCAGGGTTTAAAAATAATGCCCCACCGATTCAAGATTCTAGGGTGTGTCTGAAAATTACTTAA
>SRR1151209_02371 hypothetical protein
ATGATTTTCACCTCATTATCCGACCGGGATGTGGCAGCCCTTATTCAAGCTATCAAGGAATTTCTCCGAAATTCGGATTTGCGGTTCCAATTCTCGGGCAATATAAGGACGAGAAAACTGTTGAAGACAGCTGAATGGCGCTCAATATATCCTTCATTCTTATCAAGGACGGAGAGCCTCCAAGTACAGTATTCATCTCCGATTCAGTGA
>SRR1151209_02373 SprT family metallopeptidase
GTGGCCAGATTACCCCAGACAGATGCAGAATTGACAGCGCGGGTACGTTCCGTATCGACGGAGACCTTCCACCGGCCCTTTACGCATCAGGCGCTGTACAATCGGCGCTTACGGACGACCGGCGGCCGCTATCGGCTGCGGGACCACAACATCGAGATCAACCCCCACCTACTGCAATACTATGGCTTACCTGAATTGCTCGGCGTGATCAAACACGAGCTGTGCCATTACCATCTGCATTTGCTGCACGGCGGCTATCAGCACAAGGATGCCGACTTTAAGAAATTACTGGCGGCCACTGGCGGCAGCCGCTTCGCGCCGCCCATGCCGCCCCGGGAAGATAGGACAGTCAACTATCTTTACATCTGTCCCCAGTGCCAGGCCAAGTATCCCCGCCAACGCCGCATCGACACCCGCCGGTTCGTGTGCGGTCGCTGCCATCACCGCTTGGAATTAGTCGGCTTGGATGTGAAAATGAGCCAAATCAGCGCCTAA
>SRR1151209_02374 ABC transporter substrate-binding protein
ATGAAAAAATGGAACCGCATTATTATTGGGCTCATCCTCTTGGCAATCGTCGGCTTCATTGGTTGGAGCGTCATCGCGGCTGGCCGGCAGAACAACACCCAGAAAGTCACGGCCGCCAAGGTGACACAGCAAAACATCACGGCGACGATCACGACTACCGGCACCGTGACAGCGACCCGCACAGCGAATCTCACCGGCAGCGGTTTGGTCACTGCGGTCAATGTTAAAGTGGGCGATAAGGTCTCCGCGGGGCAAATTCTGGCCACGTATAATCAGACAACGAACCTCACCGCGCCCTTTGGCGGGACAGTCACCGCCGTGAACATTGCCAGCGGTCAAGCCGATACTGCTCAGGCCACCGGCAAAGCCGCGATTACAGTAGCGGACTTGAGTGATCTGCGGGTCCAGCTCAACCTGACTAAATCGGAGGCGGCCCAAGTTAAAGTCCAGCAGGCGGTGCACCTGACGTACCTGAATCACACCTATACCGGAGATGTTGCCGAAGTGGACCCCACCGCGACGACCACCACCAGTGCGACGGGGGCGTCCACGCCGACCCTCGGGGCTCAGGTCGCTTTCGACCGGCAACCGCAAGGACTCGTCCCTGGCTTCGATATTGACGTGACGATCACCGTGGATCAGGCCAACAATGCCGTCACGATTCCACAGGAGGCCATCACCTATGATCGGAATAACCAACCGCTGGTGTATCGGATCGTCAAAGGTAAAGCGCGCCGCACAACCGTCACCACCGGTCTGCAATCGGCCACCCGCATCGCGGTCACGAAGGGCTTGCGCCCTGGTGAAACCGTGATCCTATCCCCCAGCAATCAGCTTCACGATGGAAGCGCGGTGACCACTCAATGA
>SRR1151209_02375 antimicrobial peptide ABC transporter ATP-binding protein
ATGAGTTTGATCACGATGCAGCACGTCGTTAAGAGCTACACCATGGGCGATGAGCATCTGGTGGTACTGAAAGACGTCAATCTCACGGTCGAGGCCGGAGAATTTCTCGCCATCATGGGACCGTCCGGCTCCGGCAAGTCGACCATGATGAACATTATGGGACTGCTGGATACCTTCGATAGCGGCCTGTATCAATTGCGGGATACCGATGTGACACACCTCAGCGACAATGAGCGCGCCCATGTCCGGAATAAAGAAATCGGCTTTGTCTTCCAATCCTTCAATCTGATGCCGCGGATGACGCTGTTAGAAAATGTTGCTCTGCCCATGGTCTACGCTGGCATTGGCCGGCGGGAACGACAGGACCGGGCCGCCGCTGCCCTCACCCAGGTCGGCTTGGGGGATCGGCTGGATCACCAGCCCAACGAGATCTCCGGCGGCCAAATGCAGCGGGTCGCCATCGCCCGGGCCATTGTCAACCGGCCCGCGGTGATCATGGCCGACGAACCGACGGGCAATCTGGACAGCAAGACCAGTGTGGAAATCATTCGCATCTTTCAAGAACTGAATGCCGCGGGCACCACGGTGGTCATGGTGACCCATGAACCGGACATCGCCCAGTACACGAAACGAATCATTTCGTTCCGAGACGGCATCATTCAAACTGACCAAGTCCTGGATCAGCCGCACAAGGCAGGTGTTGAGGAATGA
>SRR1151209_02376 ABC transporter permease protein
ATGACAGTGATTGAGAGTTTCAAAATGGCCATTGAAGCCATTACAGCCAACAAAATGCGGTCCTTTCTGACGATGCTCGGCATCATCATCGGCATTGCTGCGGTCATTGCGATTCTCGCGATCGGCAACGGCGCGACCACGAAGATCACCGGCACCTTCAACGACTTAGGCGCGACGACGATCTCTCTCAGCGTGTCAAACAAGGCCGGCAACGACGCTCAACTCACTGCCGCCGATCTGCAAGCCATCAAGCAGGCCGATGACCGAGTCACTGCAGTGTCGCCTAACTATACGCTATCCGGTTTTGCGGCGACAAATACGCAAGACCAACAGGCCATCATCTTTGGCGGAACCCCAGATCTGCAATACACCAGCACGATGATGGACAGCACGATCACCGCCGGCCGGTATTTCACTCAGGCGGACTATGCCGAATCAGCGCCGGTGGCCGTGATTTCTGCTGACGGTGCGGCGCAGCTCTTTCCGAATCAGCGCAACGTAGTCGGTCAAACCATTACGCTGCGCAGCCGCACAACCAGCATCAGCGTGCGCCTCATCGGGGAGACCCAGAGCACGGTAGATAAGTACCAAGGCGCTGTTCGCCGGAGCAGTTTTCCGGTCTACGTCGCGATTCCCTATTCAACGATGAAGCTGCTGAGCATCAACGCCGGCGGCATCACCGATGTCACAATGAAAGTCCGTTCCCGCAACGACATCACGAGTGTGTCCCAAAGCACGGTGCGCTTATTAGAAACCCGCCACGACGTCGTCGGTGAGCAATTGTACACCGCGCGGAACTTCCTATCCGCCCTGGATCAGGTGGACAGTGTGCTCGGTCTGTTCGTGAACTTCATCGCGGCAGTGGCCGCCATTGCTTTGATCGTCGGCGGGATCGGGGTCATGAATATCATGCTCGTTTCCGTCACCGAACGAACTCGGGAGATTGGGACCCGCAAGGCGCTGGGGGCGACGACCCGGGACATTCTCATTCAGTTCCTGCTGGAAGCCGTCATTCTGTCTTTGATTGGCGGCCTGATTGGCCTCACCCTCGGTATCGCGGTGGCTGAAATTGTCGCCAACGTCCTGGGCATCACCGCCCGGATCACTTGGCAAGCCATCCTCCTGGTCCTTCTTTTTGCCAGTGCCGTCGGCGTCTTCTTTGGTCTTTATCCAGCCAGAAAAGCGGCCAAACTCAACCCGATCGAAGCGCTGCGTTACGAATGA
>SRR1151209_02377 ABC transporter ATP-binding protein
ATGAGTGACGCAGCAGTTGTACTAAAAGATGTGAGTGTAACGGTGCACCAGCAGAATCAAACCAAGACGATCCTGGATGATGTGGATTTAACCATTGCCCCAGGGGATTTCGTCACCGTGCTGGGCACGAATGGGGCTGGCAAGTCGACGCTGTTCAACGCGATTGCCGGCAACCTAGCCGCCAGCGGTCAAGTGACATTGGCTGGGCAAAACGTGACCAGTTTGAACGCGATTCAGCGGGCCAAATATATTGCCCGGGTCTTCCAAGATCCTAAACTCGGCACCGCCGGTCGGATGACGGTGGCGGAGAATCTGGTCCTGGCCCAGCATCGCGGGGAACGGCGGACACTGCGCGGCCGCCGGTTGGAAGCCGCCCGCCCGCAGTTGCAAGCCGAAGCGGCGCAATTCAGCAATGGGTTGGACCAGCTGCTTGATTCGCCCACGGAGACATTATCCGGCGGTCAGCGCCAGTCCTTGAGTCTGTTGATGGCGGTGCAAAAAGATCCAGCCCTGCTTTTGCTGGATGAACATACTGCAGCCCTGGATCCCCATACGAGCGCGCAACTAATGGCGCTGACGGACCGGGTGATCAAGGAACGGCACTTGACGGCGTTGATGATCACCCACCGGATGGACGACGCGCTGAAGTATGGCAATCGGCTGATCGTGTTAGAGAACGGCCGGTTGAAAGCGGACTATAATGCCGCCGCTAAGGCCAAGCTGAAGCGGGAAGATTTGTTAGAGTTCTTTGATTAG
>SRR1151209_02378 branched-chain amino acid ABC transporter permease protein
ATGAGTATCATCGTATCGGCCATTGGCCAAGGGTTGTTATGGGGCATTCTCGGCATCGGGTTGTTTCTGACTTTCCGAGTGCTGGACTTCCCGGATATGACCGTCGAAGGCAGTTTCCCACTGGGGGCGGCGGTGAGCGTGGCTGCCATCACCCACGGGGTAAGTCCCCTGTTGAGCCTGGTGCTGGCCTTTGGTGCCGGCATGCTAGCCGGATTAGCCACCGGCTTGCTGTATACGAAGGGGAAGGTGCCGGTGCTGTTGGCGGGAATTTTAGTGATGACCGCTCTGTATTCCATCAACCAGCACATTCTGGGACGGGCGAACTTGTCGCTGCTGAATCAGCCGAATTTGTTCAAAAATAAATTTTTAGCCTCCCTGCCGCCGTATTTTGACAGTATCTTCGTTGGTATCGGGGCAATCATCATCATCGCGATTCTGCTGATGTGGTTCCTGCAAACCAACCTCGGCCAAGCGTTCATTGCCACCGGTGATAACGAGATCATGGCCCAGTCTTTAGGTGTCCATACTGACGCCATGAAGAACATGGGCTTGATGGTGGCCAACGGGCTGGTCGGCCTGAGCGGCGCGTTGATTGCCCAGAACAACGGTTATGCCGATGTGAACCAGGGCATTGGGGTCATCGTCATCGGCTTGGCAGCAATCATCATTGGCGAAGTTGTTTTTGGCGAATTGACCTTGAATCAGCGGCTGGTGGCAACGGCCTTGGGCTCCATCCTGTACCGCTTCGTCCTGCTGATCGTGCTGGGCTTGGGCTTTGGTGATGATGACTTGAAGCTGATCTCTGCAGTCGTGCTGGCCGTTATGCTGATGGTCCCGACGGTGGAAAGCCGCTTCCGCTTGAAGCGGGCGCTGCGCAAGGGGATTGAGAGTCAACCGGCAAAGGAGGCGGATGGCCATGAGTGA
>SRR1151209_02379 ABC transporter substrate-binding protein
ATGAAACGCATGATTGCCATGATCAGTGCGCTGATCGTATTTCTTGGGGCGGCTTTCTTCATGACCCAGAAACCGACGGTGAGCAAAGCAAAGATTCCCACCGTGGGGATTCTGCAGCTGATGAGCCATCCAGCTCTGGACCAAATTCATAAAGGTATTATTGCCGGGTTGAAGGATGAGGGCTACATCCAGGGGAAAAACCTGAAGGTGGTCTTCCGCAACGCGGAGAACGACCAAAGCAACTTGAAGACGATGAGCCAGACCTTGGTGGAACGGGCCAACAGCGACGTCGTGGTCGGCATCGCCACCCCCAGTGCCCAGGCGCTAGCGAATACCACGACGAAGACGCCGATCGTGCTGGGCGCCGTCACCGATCCGGTGGGGTCGAAGCTGGTGAAAAGCGAGACCCATCCCGGGGGCAACATTACCGGTGTGTCGGACCCCGCGCCGGTGGCCAAGCAGTTGGCCTTGATCCATCAACTGATGCCAGAGTTGAAATCGATTGGGGTCATTTCGACTCTCAGCGACGATTCCGCTCAGGCGGATGTCCGCCGCTTCGACCAAGCCGTGAAGCCGTTCGTTAAGAAATACGGCTGGTCGGTGAAGAAATACAACGTCAGCTCCACCAATGACGTGAACCAGGTGGCGCAAACAATGGCCAATAATGTCCAGGCCGTGTGGGTCCCGACGGATAACACACTGGCCAGCGCGATGCAGACGCTGGTGAATGTCACGAACACCAAGAATATCCCGATTTTCCCCACCGTGGATACCATGATTAAGGATGGCGGGGTGGCGACGATGTCGCTGAGCCAATTCGACTTAGGCGAACGGGCAGGCAAGATGGCCGGCAAGCTGCTCAAAGGCGAGATCAAGACGGCCACGACGCCGATTGATTCCCACCCCCGGAGCGACTTGGTGATCAATGTTAAACAGGCTGAGAAAATCGGCTTGAAGATTCCGGATAAGCTTTTAAAGCAGGCAGAAAAGCAAGGGGAGGTCATTAAATGA
>SRR1151209_02380 hypothetical protein
TTGGTTAAAGCACAGCAAAAGTACCTGTATTACGCAAAGACCATCAATGATGTGATGGATGGCATCACATCGATCCAAGAAAAGATGGATCCGGATTATCAATTGGTGAGAAATGCAATCGATGAGAACGCCGTCGACAAAATCGCCGAGGAGAAGTATTTCAGCATCATCGAGAACTTCACCAAAGGGACTAACGGCTATCGCGACCTGCAGGCGCAGTTAGAAAAGAGTGCGGTCCCGGCGCGGCTGATGGGCAACCATCACCTGCTGCTGGGCGCGTTCAAGGCCTTTGTCGCCGGCTGCCAAACAATGATCGACAGCATGCATGACGACCGGACAGTGGACGTGGCGGCTTTTCGCGCTGCTGAAGTCGCCCAGGATAAGGCCATGGACGACATCGGCAAGTACCTTGGCCGAGTGGATCAGCTGGTCTAA
>SRR1151209_02381 cation-transporting ATPase
ATGGCAGAACCTGAAGCAAAGAAACAGCAGCTTCAAGAACAGTTTTATAACCAGTCCATCGACACGGTCCGCGAAGAGCTGGATACGTCGCTGGATGGGTTGACCCCCCAGGATGCGGACAAGCGGTTCGCGGAATACGGGGCCAACGCTCTGGCCGAGGGCAAGCGTAAATCGAACCTGATGCGGTTTATTGACCAATTCAAAGATTTCATGATCATTGTCCTGCTGGTCGCCGCGCTGGTGTCCGGGTTCGTCGGTCACGAATGGGCCGATGCGGCCATTATTCTGGCCGTGGTCCTGATCAACGCCATTATGGGGGTCATCCAGGAGTCGAAGGCCGAAGAAGCCATTGATGCCCTGCGGGAAATGTCTACGCCGGACGCCCATGTGCGCCGGGGCGGTCAAGTGCTGACGATTAAATCGGAGCAATTGGTGCCCGGCGACGTGGTCCTGCTGGAGGCTGGGGATATTGTCCCGGCGGATCTGCGGCTGACCGATAGTGCTTCCTTGAAAATCGAAGAATCCGCGCTGACCGGGGAATCTGTCCCGGTCGACAAGGACGTCGCGACCCTTGAAGGTGACGACATCGGCATCGGCGATCGGACCAACATGGCCTTCATGAACGCCAACGTGACTTATGGCCGCGGCGAGGGAATCGTCGTCGGCACCGGGATGAACACTGAAGTCGGCCGAATCGCCGGCATGATCAACAGTGCCGAAGAAACGACGACCCCGCTGCAAACCAACCTGAACCAACTCGGGAAAATTTTGACGGTCTTGATTTTGGTCATTGCCGCCGTGATGTTCCTGGTTGGCTACTTCCTGCATGGTGAGGCCCCGCTGGATATGCTGCTGATCTCCATTTCCTTGGCTGTAGCGGCGATTCCGGAAGGGCTGCCAGCCATCGTGACGATCATCTTGGCTTTGGGGACTCAGAAGATGGCCAAGCGGAATGCCTTGGTGCGTAAACTGCCGGCCGTGGAAACCTTAGGCAGTACCGATATTATCGCGTCTGATAAAACCGGGACGCTGACCCAAAACAAGATGACCGTGGAACAAATGTATTACTGGGGCAAGCTGCACCCGGCCAGTGAAGACATTCCGCTGGATGATGACGCCTTGCTGATGATGAATCTGGCAAACGATACGAAGATTCAGGGCGACGGCAAGATGTTGGGCGATCCCACTGAAACAGCGCTGGTGCAGTTTGGTCTGGATAAAGGCTTCGATGTCCGCGAGCAGCTTAAGCAGTGGCCTCGAGTGGGTGAAGTGCCGTTTGATTCCGACCGGAAACTGATGTCCACCGTGCATCAGCTGCCCGATGGCCGTTTCCTCGTGGCCGTCAAAGGCGCCCCAGACCAATTGCTGGAACGGGCGACTCAAGTGGAATTGGGTAAAGATGACATTCAACCGCTGGATGACACCCGCAAGCAAGCTATTTTGGATCAAAATATGGATTTGGCCAAACAAGCCATGCGGGTCTTGGGAATGGCTTATAAGTTCGTGGATGCGCTGCCCGATCCCTTAGATTCCGATACCGTCGAAAACGATCTGATCTTTGCCGGGTTAGTCGGTATGATCGATCCGGAACGGCCGGAAGCGGCGCAGGCTGTTGCCGAAGCGAAGAGTGCCGGCATTCGGCCAATCATGATCACTGGGGATCACCAGGTGACCGCTGAAGCTATTGCCGGTCGGCTGGGGATCATTACCCCCGGCGACGACGCGGCCGTGCTCACCGGTGCCCAATTGGACGACATGAGCGATCAGGATTTTGAAAAGAACGTGAGCAAGTATTCTGTTTATGCCCGGGTATCGCCGGAACATAAAGTGCGCATCGTGAAAGCTTGGCAAAAGAAGGGCAAAGTCGTCGCCATGACCGGCGACGGTGTCAACGATGCGCCAGCGCTGAAGTCCGCGGATATCGGGATCGGTATGGGGATCACTGGGACGGAAGTCTCAAAAGGGGCCTCCGATATGGTCTTGGCCGATGATAACTTTGCGACGATCGTGGTCGCTGTCGAAGAAGGCCGGAAGGTCTTTGCCAATATTCAAAAGGCGATCCAGTACCTGCTGTCTGCCAACTTGGGCGAGGTCTTGACGTTGTTCATCATGACCATGATGGGCTGGGACGTCCTGAAACCCGTCCAGCTTCTGTGGATCAACTTGGTTACCGATACTTTCCCGGCGATCGCGTTGGGCGTTGAACCGACGGAACCAGGCATCATGAAGCGCAAACCCCGGGGCCGAAACTCCAATTTCTTCTCCGGCGGTGTCGCCAGTTCCGTGATTTACCAAGGGATCCTGGAAGGGGCATTGACCTTAGGGGTATACCTCTTCGGTATTCTGCACCCCGTGCACACCAGCCAGGGCGACATCCATGCCGATGCCTTGACCATGGCTTACGCGACATTGGCGCTGATTCAACTGTTCCACGCCTTCAACGTGAAGTCGATTCACCAGTCCCTGTTCACGGTCGGATTTTTCCGCAACAAGGCCTTCAACTGGGCTATCTTGGTCTCCACTCTGCTGGTCGGGGTGACGATCGTCGTGCCCGGCTTCAACGGCTTGTTCCACGTCCGCGAACTGGATCTCTATCAATGGTTGACAGTTCTCTCTGCGGGTGTTCTGATGTTAGTGATCGTTGAAATCATTAAGTTCGTGCAACGCCGCATGGGCAAGGAATAA
>SRR1151209_02382 NAD synthetase
ATGCGTCCATTACAAAAAGAAATTATTGCTTATGAACATACCCTGCCGACAATTGATCCGGAAAAAGAAATTCGCCGGTCGGTGGACTTTCTGAAAACTTACTTAAAGCGCAACCCTGGCTTAAAGACGTATGTACTGGGCATTTCCGGCGGGCAAGATTCCACCTTGGCCGGGACGTTGACTGAGATGGCGGTGCGCGAGCTGCGGACGGAAACCAAGGACGACAGCTACCAGTTTATCGCGGTGCGGCTACCCTACGGCGAACAGGCCGATGAACAGGATGCCATGGCGGCGATCCAGTTTATGCAGGCTGATGAGACGGTACGGGTGAATATTAAGCCGGCGGTGGACGCGTTAACGGCCGCGGTCGCGCAAAACGATCTGACTATTTCGGACTTCAACAAGGGCAATATTAAAGCACGGGTGCGAATGATCGCCCAATACGCCATTGCCGGTGCGCGCCAAGGCATCGTCGTGGGTACGGACCATGCCGCGGAAAACATCACCGGCTTCTATACCAAATATGGTGATGGGGCGGCGGATGTGACCCCGCTGTTCCGGCTGGATAAGCGGCAAGGCAAGCAATTACTGGAAGCCTTGGGAGCACCTGCTCACCTGTATACAAAGGCCCCGACAGCCGATCTGGAAGACAACAAACCGGGGATCCCGGATGAGAAGGCTCTGGGCGTGCGGTATAGCGACATTGACGACTATTTGGAAGGCCGCGATGTGTCTGACAGAGCCGCTGAACGGATCGAGAATTGGTGGCGCAAGACGGAACACAAGCGCCGCCTCCCATACACTGTGTTTGATTTTACAAACTAA
>SRR1151209_02383 nicotinate phosphoribosyltransferase
TTGGATACCATGTATCATTACCCCGATGACAGTTTGGCTCTGCATACCGACCTATACGAGATCAACATGATGTTGACGTACTGGGAAAAGGGCATTGACCAGCGTCACGCCATCTTTGAGTTGTATTATCGCAAGAACCCGTTTGGCAGCGGCTATGCCGTGTTTGCCGGGTTGGAACGCAGTGTCAATTACTTGAACGCGCTGCATTTCAGCGACAGCGATATTGCCTATCTGCGGAAAGTCGAAGACTATCCGGAGGCATTTTTGACGTACTTGCAGCAGATGGATTTAAAACTGACGATTCGGGCGCCCCGGGAAGGGGAAGTTGTCTTTGCGGACGAACCGCTGTTCCAAGTCGAAGGTCCTTTGGCCCAATGTCAGTTGGTGGAAACAGCGCTGCTGAATATTGTCAATTACCAGACGCTGGTCGCTACGAAAGCCTCTCGGATCAGGTCGGCGGTGGGCGATGACCCGTTGCTGGAGTTCGGCTCCCGCCGGGCGCAGGAACTGGATGCGGCCATTTGGGGCGCCCGGGCGGCATATGTCGCCGGATTCGACGCCACCAGCAATGTCCGGGCGGGCAAGCTGTTTGATATTCCCATTAGCGGCACCCATGCCCATTCGTTGGTCCAGACGTACCGTAATGATTACCAAGCGTTCAAGGCGTATGCCGAGACCCACCGGGACTGCGTCTTCTTAGTGGATACCTACGATACGCTGCGCAGCGGTATTCCCAGTGCGATTCGGGTGGCCCAGGAAATGGGCGACAAGATCAATTTTCAAGGCGTACGGATCGATTCGGGGGACATGGCTTACATTTCTAAACGGGTGCGTCAGCAACTGGACGATGCCGGCTTTCCCAACGCCAAAATTTATGCCAGCAACGATTTAGATGAGTATACGATCCTTAACTTGAAAATGCAGGACGCCAAGATCGACGTCTGGGGTGTGGGCACCAAACTGATCACAGCGTATGATCAACCCGCGCTGGGCGCCGTGTACAAACTGGTGTCGATCCAGGATGCCGCTGGGGTGATGCAGGATACGATCAAGCTGTCCAGTAATGCTGAGAAAGTGTCCACGCCGGGCAAGAAGCAGGTCTGGCGGATCACCAATGATGATAAAGATGCGAAGTCGGAGGGGGATTATATTACCTTGTTTCAAGAGGATCCCCGTCAACTCGATCAACTCTACATGTTCCATCCGCAGTATACTTATATCAATAAGACGGTGAAAAATTTCACCGCTCGGCCGCTGCTCCACGAAATCTACCACGCCGGCAATCAAGTGTACCAGCTGCCGCCGCTGAACGAGGTGCGGTCCTATGCGACTAAGCAGTTGGCGGCGCTGTGGCCGGAATACCGGCGACATTTGAATCCCCAGCAGTATCCGGTGGATCTGTCGCAGTGGCTGTCGGATCACAAGATGAATTACATCCACGCCGTCCGTGACGCGGTGAAGAATATGGCTAACCAAGAGGAGTGA
>SRR1151209_02384 glycerol-3-phosphate cytidylyltransferase
ATGACGACCGTAATTACCTACGGCACGTTCGATCTGTTGCACTGGGGCCACATCCGGCTGTTGGAGCGGGCGGCGGCCTTCGGCGATCAACTGATTGTGGGATTATCCACCGATGAGTTCAACGCCGTGAAGCATAAGGAAGCCTACCACAGCTATGAGCACCGGAAGTACATTCTGGAGGCGATTCGTTACGTGGACAAAGTGATTCCCGAGACGGATTGGGATCAAAAGATTCGTGACGTCCAGAAATACCATGCTGACGTCTTCGTCATGGGCGATGACTGGGCGGGCAAGTTTGATTTTCTGAAACCATACTGCAAAGTGATCTACTTGCCGCGGACCAAGGGCATTTCCACCACAAAGATCAAGACCGATCTGAGTGAAGAAGAACAGGAAGCTATTGTAAAAAACGAGAATGAGGACTAA
>SRR1151209_02385 hypothetical protein
ATGACTGGACAAGATAAGGGTGACCCTGCCCCGCCGCCGACCCGCTATCAACGGTGGCTGACGGTGTGCATTATCGCCGGCGTCCTGATTGGTCTGTCCATGGGTATCGTCTTGCACGATGTGTTCATGGGCTTGCTGATTGGGGCTACGGTGGGCTGCGGCGGCGGCATGGCCGTTGCCGAGTGTGTCCGGGCCAAGCCCAAACGTAACCAGGCTTAA
>SRR1151209_02386 GntR family transcriptional regulator
ATGGAATCACCGGTTTATATTCAGATCCACAATCAACTGAAACGGGACGTCGAAGCAGGCAAGTGGAAGGTCGGCGACCGGATCCCCGCTGAACGGGAATTGGCGTTGCAGTTTGACGTCAGCCGGATGACGCTGCGTCAGGCCATCCAGACTTTGGTTGATGAAGGGATCCTTGAGCGGCGCGTGGGCTCTGGCACATACGTCGCCAACCAGAAAGTCCAGGAAGTGGCTTCTGGTGTGACCAGTTTCACCGATATCATGAAACGGCAAGGCAAGAAGCCGTCCAGCAAAACGATTTCTTACCACTTTGCGACCCCGTCCCTGAGTGAGATTGAGAAATTGCACTTGGCGGGCGATGCTCCGGAAGTGTTGCGGATGGAACGGATTCGGTATGCCGATGGTGTGCCGATCAGTTTCGAAGTCGCGTCGATCCCGGCTGACATTGTTCAAGGATTAACCAAAGCGGAGGTCACCGATTCGTTCTATCACGCCCTGGAGACCAAGGGCGGGTATGAATTGGGCGGCGCCCAGCAGACGGTTTCTGCTGAGACGGCGTCTGAGCGGATTTCCGAATACTTGGACATCAAGCGCGGTGAGGCCATCCTGAAGATGCGCCAGATCACCTTCCTGCAAGACGGCCGGCCGTTTGAATATGTCCGGACGCAGTATGCGGGTGAACGGTTCGAGTTCTATTTGGAACGATAA
>SRR1151209_02387 N-acetylglucosamine-6-phosphate deacetylase
ATGTCTGCAAAAGTTTTGAAACATGCTGTGATCTACACGGGCGACGAGGTCATTCCAGACGGCTACGTTCGTTTCGACGACCATATTTTGGCGGTCGGCCCCGTTGACGAATACCATGCCCAAGCGGGCGACGAGTTGGCAGATGTTTCCGGCCAGACCTTGGTGCCCGGCTTCATCGACGTCCACAGCCACGGCGGCTATGGCTTCGATGCCATGGATGGTGACCCGGACCAAATCAGCACGATGGCGACTAAGATGATGCGGAATGAAGGCGTCACCACCCTGTTTGCCACAACGATGACCCAATCCACAGCTAACATTGACCATGCCATGGAAGGCGTGGCCCAGGCGGCTGAGAAGAATCCGATCATTCAAGGTGTCCACTTGGAAGGCCCATTCATTTCACCCACCTTCAAGGGCGCCCAGCCGGAGCAGTACATCAAAGATCCGGATGTTAAGCTGCTCGCCCAATGGAATGAATTATCCGGCAATCGCGTTAAGCTGATTACTTACGCACCGGAAGATCCGGGGTCCCAGGCATTTGAAGATTATTGCCTGAGCCATGGTATCGTCCCCTCCGTCGGCCATAGTAATGCGACCCGGGAACAGATGCTGCACAGCAAGGCGACCCATGTGACCCATTTGTATAATGCCCAGCGGGAATTCAAGCACCGCGAACCCGGGGTTACCGGCCATGCCATGCTGGAAGACAACATGTACGCGGAATTGATCTGCGATGGTTTCCACATCGTCCCGGACATGATTCGGCTGGCAGTGGAACAAAAGGGCGTCCACCGCATCGAATTGGTAACTGATTCTATGCGGGCTAAAGGGATGCCTGAGGGCGAAAGCGAACTGGGCGGTCAAAAAGTCTTTGTTAAAGACAAACAAGCGAGACTTTGCGACCGCACTTTGGCCGGGAGCGTGTTACAATTTAAAGATGCATTTGTCAATATCATGAAGTTCACGGGCGTCTCCCTGGCCGATGCGGTCCAGATGGCGAGTGTCAATCAGGCAACTGAATTTGGCCTCGACAGCAAAGGAACGATCACCCCGGGCAAGGATGCCGATATGAACTTATTTGACCGGACATTAACATTACAAAAAACATTTAGCTACGGCCGTGAATTCGCGCCGGAGAATAGTTAA
>SRR1151209_02388 pyrroline-5-carboxylate reductase
GTGGTAAAAATTGGTTTCATCGGCAGTGGCCATATGGCAACTGCTGAAATTGCCGGGACATTGCACGCAGGCGCTGCGGCAAGCGACCTGTATGTCACTAGTCACAACGCCGCCCATTATGAGCAGGTCGCTCAGCAGTACGGCATTCAGGGTGTCGCCACCAACGACGCGGTGGTGCAGGCAGCGGATATCGTCGTGCTGGCCACGCCGCCAGCCACGGCGAAACCCATCCTCAACAGTTTAGCCGGGTATTGGCGGGCCGGCCAGATTCTGGTCTCTGTCGTGGGCAGTGCCACAGTTGCCGAGTTGGTGGACGCCGCCCAGACGCCGACGCTGCCCATTGTTCGGCTGCTGCCCAACGTGAACGTGGCTACCGGCAGCGGGATGACTGCCTACGCGGTGAGCGACTCGGTGGGCCAAGCCGATCTGACAGCGGTCTTAGCTTGGCAAAAGGGACTCGGTGAGATGATGCGGCTGGCCGAAAATCTGTTTGGCGCGTTCGTCGGCCTAGCGGGGTCATCACCGGCCTTCATCTTTGTGGCCATTGACATGATGGCCCGGCTGGGAGTGCAGTATGGCATCCCCATGACCGACGCACGCAAGATTGCCGCCCAGGCCTTTAAGGGCAGCGCGGATCAGGTCCTGACAACAGGGGCTAACCCCTGGGATCTGGCGGACAGTGTTTCTTCTCCCGGCGGCAGCACCGTCCGCGGCATGGTGGCCTTACAGTCCAGCGGCTTTTTCGCCGGCCTCACCGATGCCGTGACCGCCACGATCGAGAAAGACAGCAAGAAAGACTAG
>SRR1151209_02389 dipeptidyl aminopeptidase/acylaminoacyl-peptidase
GTGGCTGAACCTGTTCAAACAAAAGACTTATTTGCCATCAAGACCCTATCCCAACCGAGTATGGCGGGCGAGACGGTTTTCTTCCTGGAAAATCGGGTGGATGAAGAGACCAATACGTATATTGCCGAATTGAAGGGGCTGGATCTGCGGACCCGGCGGCAGGTGCGGTATGGGTTGCCGAATCAAAGTATCTGCCAGTATGCCCTGGCGCCGGATGGCAGTGCGTTGTTGTACTTAGCGCAGGATGCTAAGAAGCACGTTCAGATCTATATTCAGCCGCTTACCGGTGGGTCGCCGTATGCTTTGACGGCGTTGCCCGACGGTGTAGATAGTGCCCAGTGGCGTGCAGATAGTGCAGGCGTGTATTTCACGAACACGAGTTATCCGCAAAAGAAGGCGACCAAGCTGCCCCAGCCGAAGGTAATTACCCGGTTGCCGTTCCAAATGAATGGTGAGGGCGTGCTGCGGGAAGACGGCACCCATCATTTGCAATATTTGGCGATTACCGGCAAGATGCCTAAAGAATTGCTAAGCCGGCCGGATGATTTCGGTTTGGATGCCGTGGATCCGTCGGGCCGTTTCCTGGCCTTGAGCGCTAGCCCAGATCCATTCAACCCGAAGGATTTCCGCACGGGAACCTATTTATTCGAAATTGCGACCCGGAATTTGACCTGGATCACTGAATCTCAGGAACATGGTGAATTTATCGGTGCCGCGTTCAGTGAAGATGGCACCGGCTTGCTGCTATGGGGTACGGACAACCATGCACCAAATGTGGCGGAACACCATATTTGGTACTACGACATTGAGGAGCAAAAGCTCACTGATACCGCAGTGAACCATCACTTGGAAGAGGGGCCGGGCGAAATTGTGGCGGATACCCAGCAAAAATTATCCGAGCGCATGGCCCAATATATCACCGCTGATTACTTCTTAACGCCGGGCTTCAGCCATGGGCGGATCGCATTGTATGAAGCGTCCACGGATGGTGAACTGCGGGAAGCTGTTGGCGGTGACCGGCATGTGACGGATTACTTTGTCGGGCCGGACCAGCATACGGTCGTTTTTACTTATTCAGATATTGAAACGCCCAGTGTTTTGGCGGTTTATGACTTGATCAGCGAGGACGAAAAAGATCTGTACAACCCGAATACCAGTTGGGAAAATCACCATACGATCAGCGGCGCGGAGGCTTTTACCTTTAAGTCTGACGATGATCTGACTGTTGAAGGCTGGTACATGAAGCCGGTAGGGCAGGCGGCCGAAAAGAAGCATCCGGCGATCCTTTACATTCATGGCGGCCCTTTAGCGGCCTTTGGCTACACCTTCTTCCATGAGATGCAGGTCTTGACCAGTGCCGGCTATGGTGTCATTTTAATCAATCCCCGGGGCAGTCTCAGCTATGGCGAAGACTTCGCAGCCGGTGTTATCGGCGCTTATGGCCAGGGCGATTACGCTGACTTGATGAATGGTTTGGATGATGTCTTGAAACGGGACAAACAGATCGATCCCAAGAAGCTGTATGTTTGCGGCGGCAGTTACGGCGGGTTCATGACTAACTGGGTCGAGACCCATACTGACCGCTTCGCTGCGGCGGTGACGATGCGTTCCATCGCCAACTGGGTGAGCATGTACGGCAACAGCGATATTGGCTACTTCTTCAACGCTTGGGAATTGCAGGGCGAATGGAATGCGCCGATTGACCCGAAGAAGTACTGGGCTTTCTCCCCGTTGGCTTATGTCGACAAGGCGAAGACACCGATCCTGATCCTGCACAGTGAAGAAGATCATCGCTGCCCAATCGGTCAGGGTGAAGAATTTTACACTAGCCTCAAACTGCACGATGTGGAGACGGAATTCGTGCGCTATCCGGGATCGAATCACGAACTCTCCCGGTCCGGCTTCCCCAATCTGCGGATCGACCGGATGACACGAATCATGGATTGGTTTGGCAAGCATTAA
>SRR1151209_02390 hypothetical protein
ATGCCAACGAAACAACGATTTGTGGTCACCGCCCTGATCTGTTTTGGTATGGCCACCATCATGAGTTTGATCGGTAACCTGCTGGCGACTGGCTGGCGAGCGGTCACTTTCCAGAATTGGCTGATTTGGTGGCTGCCGACGGTCTTGGCGGCTTTTCTCTATAATTGGTTCGTGGCCTATCGCATCACTGAATACTTTATTCGCTGGGCCACGCGCCGCTTGACCGATCCGGCAGCGATCGCCGCGCGCACGCTGGGGGTCCGGGGACGGGTGATGCTGGTGGTTATGTGTCTGAGCATGTCAACTTACGGCCTTCTCATTGGCGGGGCATTTCTGCATATTGATTGGGAAATTCTCTTGTGGGTCTGGGTGCGCAGTCTGATCATTGCATTCATCATTCGTGGTCTGATTGTAAAACCAGCAGCCTTTTTCCTCACCCGCAAGATTCTCTCGACTGTTTGA
>SRR1151209_02393 phosphohydrolase
ATGCGGGTCGCATTCAGTACGGATCTGCATTTTGACGTGAACCATCTCACGGCGAGCGACTACTTTCAAGCCCAGAAGGATTATCTCGAACAGCAGAATATCAGCATTTATGTGCTGGGCGGGGATACGTTCAACGATTTTCAGGCAACGGTCCGTTACGTGGATGCCCTGCAGGCGTTTTTAGGGAACACGGTTCAATTGTATTTTCTCGCCGGCAACCACGATATGGTGAAGGGTGTGACGTATGCTGAATTGGAGTCTTTTGACCATCCGGCGTATCTGCACCACCGGGTGATGTCCCTTCCCGGTACGGACTATGCTCTGGTGGGAAATAACGGGTGGTACGACTACACGCTGGCGCCCGCTGGGCAGGGTAAGACTGCCGAGGATTATTTTCGCTGGAAGAAAGCCTTCTGGATCGATTCCGCAATTGACTCGCCTCTGAGTGACACGGAGCGGATGGACTTGGTGTTAAAGCAGGTGCAAGCAGATTTGGCGACTGTCGCTGCGCAGCGGCAGCGCGCCTTGTTTGTTACCCATTTTGTCCCGCGCCAGGACTTTCTGATCTATGCGGGTGACCGACCCTATTGGAACATGGCGACTGCGCTGATGGGCAGCAGCCGGCTAGGCGGCTTGCTCGCAGCATCGCCGGTGGTGGATACGGTGGTTTTTGGCCATCTGCATCACCGGGACGCACCGCTGCTGGCCGCTGGGCAAGTGTATCTGCATACGCCTTTGGGGTACGGTTTGAAGCGGGCCTGGGAGTGGCAAAGTACTGATTTTATGACGGAATGGCGCAACACACTGATGATTCGGGAAATTCCGGAGAAATAG
>SRR1151209_02394 chloride channel protein
ATGCGTACAATTATTGTTGGCGGCGGCCAAGTCGGTTCTTACGTCGCCCGGATCTTGATCGATGCCGGCCGGGACGTCCGAGTCGTGGAGTATCGGGAAAAGCCTTTGGCGGGATTGAAGAATGAATTGCCGCCGGAAGTCATCGTTAATGGCGACGGCGCGGATCCCAAGGTATTGGAGCAAGCTGGGATCAACGATGCCGACGTCGTGGCCGCGGTTACTGGGGCGGACGAGATCAATCTGGTGACGGCGACGATCGCCAAGTTCGAGTTTGGCGTTGACAAAGTCATCGCCCGGATCAACAACCCGAAGAATACCTGGCTCTTCACCGAAGAAATGGGAGTCGATGTCCGGGTTTCCCAGGCTTACTTGATTGCCAATGTCATCACGGATCAAATCGACTTCCGCAACTTGACGACGTTAATGCGGCTGAATCGCGGCAACAATGCCATTGTCCAAGTCACGGTGGGCGATGGTGCCCAAGCAGATGGCAAGCCTTTGCGGGAAATCAAGTTCCCAGAAGGCACAGTCGTCATCAATGTCCGCCGCGGCGAGGCCAATCTGGTCGCTGGGGCTGATACGGTGATTACCAAGGGTGATTCAGTTCTGGTGTATACCAGGACCGTGAATGAAGAAGAAATCAACACCATCTTCCGGTAA
>SRR1151209_02395 potassium transporter Kef
ATGAAAATCATTATTGTAGGATGCGGCCGCCTGGGTTCAGGGTTGGCCACAACGTTGGCTGATGATGGCAACACCATCACGGTCATCTGTGACGACGAGAAGAAATTCAAGCGGCTGCCGCCGGACTTCAAGGGCACAAAGATCCTGGGTGTTGAGTTCGACAAGGGTAATTTGGAAAAAGCCGGTATCGAGCGGGCGGATAGTTTGATTTCCTGTACCGAGAGTGACGATATTAACGCCTTGGTAGCCCGGATCGCGCGGAATTATTACCGGGTGCCGCGGGTGATTGCTCGGTTGTACGATCAGCGGAAAGTGGATCTGTACAATGCCTTGGGCATTCAGATCATCGCGACCACGCGCTGGGGCATTGCCCGGGCCAAGGAGCTGCTGACGTTCTCTTATCTGGAAAATGTCATGAGCATCGGGAACACGCCGGTGGAAATTGTGCGGATCACGGTGTCTGGCATGATGGCCGGCAATTCGATCCGGGATCTGTTCCCGGTCACCGATGTCCAGCCGATTGCGATCTCCCGGGGCAACCAGTCGTTCATTCCCACGCGCACCACGACTCTGGAGGCCGGCGACATTCTCTATTTGTCGGCCCTGGATGATACGCTGCAGCAAGTGAAACGGACACTGGACCTGTAA
>SRR1151209_02396 cation-transporting ATPase
GTGCCTGAACAATCGAGTGCGCCGAGTGATCCGAAAGCTAAAAGTGACGATTTAGCTTTCCTGACTCCTGGCGAAGTCTTTGATCGCGTAGACTCCAAACCACAAGGCTTAACTTCAGCAGAAGCAGCCAAGCGGCAGGAGAAATACGGAAAGAATCAAATTGAAACAAAGGAAGGCGAGCCGATCTGGCTGAAGTTCATCAAGAACTTTGTCAGTACCATGGCGATTTTGCTGTGGTTCGGCGGCGCCGTGGCGTTCTTCTCAGGTACGCCGCAGTTGGGGATTGCCATCTGGCTCGTCAACGTGATTAACGGCCTATTCAGCTTCTTTCAGGAGAGTAAGGCCAGCAAAGCGACCGATGCCTTAAAGAAGATGCTGCCGACGTATTCCCGGGTCATCCGGGATGGGACGGAACAGCAGATCAACGCTGTGGACCTGGTCCCTGGTGATATCATGCTCGTCGAAGAAGGGGATAAGATCTCGGCGGATGCGCGCCTGCTGGAAATGACCGATTTACAGATTAATCAGTCGGCACTAACCGGTGAATCCAATCCGGTGCGGAAGAGTCCTGATCAAATCGTTGATCATGATTTGTCCCGTTTTGAGTTGAAAAACATGATTTTTGCCGGCACCACGGTATCCAGTGGTAATGGTAAAGCAGTAGTTTCAGCCATTGCCATGCAGACTGAGTTCGGTAAAATCGCCGACTTGACCCAAGGGATGAAGGAAGAGAAGAGTACGCTGGAGAAAGAGCTGGATAAGCTCACCAAGCAGATTTCTTTTATTGCGATTGGGATTGGACTGGCGTTCTTCGCAGGCGCGCTGTTTTTTGTGCAGCAGCCCTTTGCGCAAGCCTTTATTTTCTCTCTGGGTATGATCGTCGCCTTCATCCCTGAAGGCCTGCTGCCGACTGTGACGCTGTCTTTGGCAATGGCGGTCCAACGAATGGCCAAGGAACATGCGCTGATGAAGTCGCTGAACTCAGTGGAAACACTGGGTTCGACCTCCGTCATTTGTTCGGATAAAACCGGGACGCTGACTCAGAACGAGATGACCGTCAACCACGTGTGGCTGCCGGGCGGAGAGTATCTGGTCAATGGTCAGGGCTATTCACCCGATGGGGACGTCACCCTCAACGGGAAAACCGTGACTTTCCGGGATTCTAGTGATTTGGAATTAACCTTGTCCGGGGCAACACTATGCTCTAACGCACGAATTTTGCCGCCGGATGATGAACATCCGCGATATACCGTCTTAGGTGATCCCACCGAAGCCTGTTTAGGGGTGGCGGCGGAAAAAGCCAAGATTGATATCAAGCAATTATTACAAGATAATCCCCGTTTACGGGAGCTGCCTTTTGATTCCAACCGGAAGCGGATGACAACGGTCAATAGCCTGCAGCGACCAATTGACGGAAACAAACGGATCGCCTTTGTTAAGGGCGCGCCCAAGGAAACGTCCGAGTTATGTACGACGACTCGCGAAAATGGCAAGATTCGGCCGTTGACGGACGATGATCGGCAGAAGATCATGGCGGCTAATGACCAGTATGCCCGCAATGGTTTACGGGTACTGGCGGTGGCTTATCGGCCGCTGGATCATGATGACAGTATTCCTAAGTCCATGACGAAGTACACCCCGGAGATCATTGAAAAAGACATGGTCTTCCTAGGGTTGGTTGTTATGGCTGACCCGCCGCGGGTGGAAGTCGCGGCCGCTGTGGAAAAATGTTACGAAGCCAATATCCGGATCATCATGATCACGGGGGATTATGGCCTGACCGCTGAGAGTATTGCAAAGCGGATCGGCATTGTCCGCGATGACCATCCCCGGGTCGTTACCGGGTTTGAATTGGGCAAGATGTCCGACGATGACCTGAAGACTGCTTTAAAGGATGAAATTATCTTCGCCCGGGTAGCTCCAGAACAGAAGTACCGGGTCGTTACCAATTTACAAGAGATGGGTAAAGTCGTAGCCGTGACCGGCGATGGCGTTAATGATGCGCCGGCATTGAAGAAAGCCGACATCGGGGTCGCTATGGGGATCACGGGGACTGACGTGGCTAAGGAAGCCGCCGATATGATTTTGACCGACGATAACTTTGCCTCCATTGTTCACGCCGTTGAAGAAGGCCGGGCGGTCTTTGACAACATTCGGAAGTTCTTGACGTATATTTTCAACTCCAACATGTCAGAAGCCGTACCATCGGCTTTCTTCCTGTTCTCCAGAGGGTTGATTGCGCTGCCGTTGACTGTCATGCAGATCCTGTTCATCGATTTAGGGACAGATATGCTGCCGGCCTTGGGTTTAGGGACTGAATTGCCTGAGCCGGGGATCATGCAGCGGCCGCCGCGAAAACACGGCGAGAGTTTGCTGACTAGAGGGATCGTCGTTAAGGCTTTCTTCTGGTATGGCGCGCTGGAAGCTATTTTAGCGATGATCGCGTATTTCTATGCCAACTGGAACCATACGGGCTTCATGGGCCCACTGGCCAGTTCTGGTATGATCTACAAGCAGGCAACCACCATGACGCTGGGTGCGATCATCTTCAGTCAGATTGGGAATGCCTTGAACGGCCGGACCAATCGGGAATCAGTCTTTAAGGTCGGGTTATTCAAGAATAAGCTGGTCAACATCGGGATCATTTTCGAAATCTGCTTGTTCGCCGTTCTTTCTTATATGCCGTTCCTGCAAGGGCTGTTCCATACCGCGCCGCTGGCGCCGACGGACTGGATTTTCCTGATCTGCTGCCCATTCATCATTGTTGGGATCGAAGAGGCACGGAAGGCTTGGTTACGGCACCGGGATAATCGTTCTAAAGGCACCTTAGAGGGGGAGAAAGCATGA
>SRR1151209_02401 ABC transporter ATP-binding protein
ATGAACTATTTTCTGCTGGAAATCGTCAATACTTACAGCAATATCAAATCCATTAAGCTCTGGGGCATGGGCGATCTGATCCAAACCCGGTACAAAGCCGTGTGGCGAGAGGAAAAGAAGCAGAATAAGACACTGGTACACATTGAGTACAATTCCCAGATCGTGGCCCAGCTGATTTCCAGTGTCGCTATTGTCGCCATCTTCACCCTGGTCGTGTACAAGATGTATTTGCACCTGCTGCCGATCGGTAATATCAACACCCTGTTTGCCGGTGTTGTCCAAATTGCGTCGTCAGTATCGCTGCTTGTTGCCGCGTGGCAGCACCTGCAACGGTTCCAGAATCAGATTCAATATGTCCAGCAGGTGTTTGCCATTTCTCAGCCGCCTCGACAGACCGCTGCTAGCCAGCCGCTGCCCGCGGCTTCAACGCCATTGGTGCTGCAGTTTGACCACGTCAGCTTCAGCTATCCTAACCGGGGCGAAGTCCTCCATGACGTGTCGTTTACGTTACCCTTTAAGGGCGTCGCGGCCCTGGTGGGTGAAAACGGCAGCGGCAAGACGACACTGGTGAAATTGATGCTGCGCTTGTATACCCCGACCAAGGGAACGATTCGGTTGAATGGGACCAATATTCAGCATATTCCGCTGGCTGAGTATACCCGATTGTTCAGCGCAGTATTCCAGGATTACGAAGTATTCGACATTCCCATTGATCAAAATATTGCCAGCAGTACGACGATCGATCAGGCCAAACTGGCGGCCATTATTCAGGAATGGGGGCTGACTGACTGGATTGCCCATTTGCCCCAGGGCGCGCAAACCCCGATTGGCGGGTTCAGTGGGGAGAACTTCCAACCCAGCGGCGGGCAGCAGCAGCAAATTGCCATCGCCCGCGCGGCCTATCGCGACAGTCGGTTCCAAATTCTGGATGAACCTACGGCCAGTTTGGACCCGATCCATGAACTGGCGGTTTTCTCCAAGATCAAGCGGCTGTCGGCGCACAAGCCGTCACTGTTTATTACCCACCGGATCGGCGCGACGACCCTGGCGGATCAGGTTATTATGCTGCAAGCCGGCCGGATCGTAGCGATGGGCGCGGCGGATGATCTGGCCAAGCAGTCGGCTTATTTTCAACAGTTATGGGAAAGTCAGGCGGCGATGTATAACGCATAG
>SRR1151209_02402 two-component system response regulator
ATGAGCAAGCCGCGGATATTGGTGGTTGAGGATAACCAGAGTTTGGATGACCTGCTGGTGGAAACTCTGCAGGATGAGTTTGCGGTGACTTATGTGCAGGACGGGGCGACGGGGATTTCCCGGATATTGGCCGACCCGCCGGATTTGGTGATTCTGGATTTGATGCTGCCGATCGTGAATGGCGAGAGCGTCTTGAAAACGGTGCGCAAGACCAGTCAAGTGCCAATTTTGGTGCTCACGGCAGTGCAGGACAAGGGCAAGGTCGTGGCCTTGCTGGAAGCCGGGGCAAACGATTATTTGACCAAGCCGTTTGATCTGGACGAGTTAGCCGCCCGAATTCGGGTTCAGCTGCGCAACCAAACGGCAGCCGGCACTGCTGATCAGCACGCTGCGTTAACGGTGGGCAACATCACCTTGAATGCGGCCGCCTTCACCGTTCAGGTCGGGGACCAGTCTTTCCCCTTGGCCAAAAAGGAATATGCCATCCTGCAGCTGCTTACGGGCCATCCCCACCAGGTCTTCCCCAAAGCCGATCTGTATACTGCGGTCTGGCACGAACCGTACATCGGCGGCGAAAATACACTGGCCGTCCATTTAAGCAATTTGCGCAAGAAAATCAATCAGCCGGATGGCCCCCAGTATATTCAGTCTTTATGGGGCCTGGGGGTCCGCTTTGCGCCGACTGGGGAGGCGGGCCAATGA
>SRR1151209_02403 two-component system sensor histidine kinase
ATGACAATTTTCTTGGCGGTGCTCAGTATCGGCTTAGCCATTTGGGTCCTGGTCCTGCTGCTTGATACACGCCGGATTCGCCGGGAATTAGTGCACATTAATCAAACGGATACGAATGCCAAAGTAACCGCCATTCTGGCGGTGCACCGACCGCTGGTCCAGGAGATCAATACGACCTTGGATACGACCCGGCAATTGCTCCGGACCCGCCAGCAGGAGGACGCCCGGGTGCGCGCGCTGATGACTAATTTGGTGCACGATATCAAAACGCCGCTGGCGATCGCGGCGGGATATAACCAGCTGGTGCAAAAAAATGCGGCGGCCGCCGATCAGACGCGGACGCAAAAAGTGGCCGACAGCCTGGCGACTGTCAGTCACTATGTGGATACCTTGATGAATTTCAGCTTGCTGCAGGAAACGACCCAAGGACTGACGCTGCAGCCGGTGAATGTCACAGACCTATTGGGCCGGCTGCTGCTGACCTACTATGATACGTTCACCGCCAAGCAGCTGATGCCGGACATTCAATTAGCACCAGCGCTGACCATGCGGACGGATGAACGGCTGCTCAGCCGAGTGTTTCAAAATTTGATCGGCAATATCTTAGCCTATGGGGTTGGTCAGCCAACCATCACGGGAGAGCGGGCCGCGGCCGGTACGATTCAGTTCACTTTTGCTAACGCCGTGGCCCAACCGATTCCTGACGTTCAAGCGCTGCTGCAGCGCTTCGCGACGGCCCAGCAAACGGCGCACAGCAGCGGGCTGGGGCTGAATATCATGCAAACCCTGGTCCAGCGGTTGGGCGGCACTGCTTCGGTGGCCCAATCGACGAGCCGGCGGTTTGTGGTGCAACTCACTTTTCCTGCCGAGCTGGCGGTTAAAGTTCCTGGTTCTTCAAAATCAGCGCGCTCGCCAGCCAAGCAATAA
>SRR1151209_02404 ABC-2 family transporter protein
ATGATGCGCATTTTCAAGAGTGATCTCTATCGCTTGTTTCATACCACTGGTTTCTGGCTGACCCTCGTGGTCACCCTGATCGCGGCAGTGGTTTCAGCCGCCAACAAGGCGATCGGCGGGATCACCATGGGCACCTCAGCCTTAGAAAACATGGCTGCCCCGAATTGGACCGTCTATAATACGGCCCGGTATCTGTCCTTTAGTACAACATATCTGCCCTACGTTTTTATCGGCCTCTTCGTCATTCTGATTGGTTATGAATTCAGTCAGCAAACGTACAAAAATACCCTGACGGCCGGTATTGGCCGATGGCAATTTATCATCAGTAAGAACCTCACGCTGCTGCTGACTGTTGGCGTGCTCATCGCCCTGTTCTTCTTCAGCGGTGTTTTGACCTCCGCCATTGCTGGCCGGCCAATGGGGGCCGCACTGGGTAAAATAATCAGCCGGATCCTGCTGTACACCGGCTCCCAGCTGGTGGGGATCGCCGCCGTGTATGCCTTAGCGACAGTACTGCTGGTTCTGTTTCACAGTACGGTGATCGCCGCCGTCTTTATCGTGGTTTTCCCGCTGTTTGTACCGGGATTAAACACTTTCGTTCACTGGTCTTGGCTGAAGTACATTGATTTCCTCTCCACCAGTCAAAACCTGACTGCTGGTATTCTCAGCAATCAGACGCTGGGCCGCTTTATTCTGGTTTCTGTCCTCACCACCATTATTGCTTGGCTGGCGAGCGCGCTGATTTTGAAGAACCAGGAACTTTAA
>SRR1151209_02405 ABC transporter ATP-binding protein
ATGCCCACCACAGCCTTACAACTCAGCGACGTTACAAAAAAATTCGGACGGCAAACTGTCCTGAGCAACATCAATATGACCATTCAACAGGGGGATATCTACGGCCTGATCGGCGAAAACGGCGCCGGTAAAAGTACCTTGATGCGTCTGATCACCGGCCTGTCACCGCTGCGCAGCGGCCAGATCATGCTGCTGGGCGCAAGCCGCAACCAAGCCGGCTACAATCAAGCGCTGCAGCGCATCGGCACGATTATCGAAAGTCCCGCCCTCTACCCGCATCTAACCGTCTACCAAAACCTGATGGTCAGTGCCAAGCAAAAGGGGGTGGCCAACCGCCAGGATGTTTTGGCCACGATTCAATTTGTCGGTCTCACTGAAAAAACCAAAACCAAGGCGAACCGCCTATCCTTGGGCCAGCGGCAACGCTTAGGGCTCGCCATCGCCCTGCTCGCCCAGCCTGACTTTTTAATTCTGGACGAACCGATCAACGGCCTAGACCCCATGGGCATCATCGAGATTCGGGATTTGCTGCATCGTTTGAACACCGAACAGCAAACCACGATCCTCATTTCCAGCCATATTCTCACGGAACTGTACCAAGTTTGCACCCGCTTCGGCTTCATCCACCGCGGCCGCTTGATTCAGGAAATCACTAAGCCCGCTCTGGACGCGGCCAGTCAATCCGGCATTATTCTCCACGTAGCCGACGTCAACGCCGCTTCTGAGGTACTGGACGCCCAGCATATCAAGCCCTTCAACGTGATGAATAATCACCAGATCATCATCTATAACAACACCCTGGATACCGGTGAAATCAACTACCAATTGAACCATGCCGGGGTGCGGGTGGATGACATTCAAACGCAATCTGGTTCGTTGGAAACTTATTTCACCACGCTGTTGCAGAAAGATGATCAGAAAGGCGGTGCGGCCTCATGA
>SRR1151209_02406 ThiJ/PfpI family protein protease/amidase
ATGGATAAAAAGAAAATACTGGTGGTGTTAACCAATACCACTCAATTCCAAGTTAAACCTGAAGCCACTGGTCTTTGGCTGAGCGAAGCCACCGAATTTGTCATGGATATGCAGGCTGCTGGCTATACTGTGGACTACGTGAGTCCTCGGGGCGGGTATGTCCCGATTGATCCCCGCAGTTTGAAATATGCTGACGCCCAAGCGATGGCGATGTATCGCGATCCGAATTTTCAAAAACGGGCCCTTACTGCCTCCTTGGCCCCCGACCAGGTCCATGCCGAAAACTATCTCGCCATTTATTACACCGGTGGGCACGGCGTGATGTTTGATTTCCCTGATAGTCACCCCCTCCAGGAAATCAGCCGGACAATTTACCGCCAGGGCGGCTACCTCACCTCCGTATGCCACGGTATCGCCGGCTTGCTGAATCTGCAAGACGATGCTGGTCAGTACCTGATTGCCGGTAAACACATCACCGGCTTCACCACTACGGAAGAAATTCTCAGTAACAAACGCCGGCTGGTCCCCTTTCTCAACGAAAAGGCCGCTCAGGAACGCGGCGCCATCTTCCAGAAAGTCCGGGCCTTCAAGCCCTACGCCGTCACCGACAACCGCATCATCACGGGCCAAAATCCTTGGTCCCCCCACGCTGTGGCCCAAGCCTTGCTCAGCGCAACAGCTGGTTAA
>SRR1151209_02407 ArsR family transcriptional regulator
ATGGCCCAACCTGATTTGCACCGCATCAAAACCGAATTCGATACCGTCCAAGAATTCTTGATTGCCGTTGGCGACGAGAAACGACAGGCCATCATCATTGCCCTGCTCCATCAGCAATCTGGTGCTGGCCTGCGGGTCCCCGATTTCACCGAGATGACCGGTCTTTCGCGCCCGGCAGTGTCGCATCACCTTAAACTATTAAAACAAGCTGGCATTATTGCTGCCCGCTCAGAGGGGACAAAGAATTACTACTACCTCTCAAATATTGCCGCATCCTTGAAACAATTACGGCAGCTTAGCGATGATATGTTAGTATTTTTAGCCGCAAAGGAGCAGAAAAATCATGGATAA
>SRR1151209_02408 NADPH:quinone reductase
ATGCCACATACAATGCAGGCGATGCTGATTAACCATTATGGTCAGAAACAACTCGACCGGGTACTAGTCCCGATTCCGACGCCAGGGTCTAGTGACGTGCTGGTGGCGATCCACGCTGCCAGCATCAACCCAATTGATTTCAAAACGCGCGACGGTGCTGTCCGCATGCTGCTTAAATACCAGATGCCGCTGATCTTGGGCAGCGACTTTGCCGGTGAGATCGTACAAGTGGGCAGCCGTGTCACCCGCTTCAAGATTGGCGATGCGGTTTATGGCCGCCCGCGGAAATCACGAATTGGTACTTTTGCCGAGTATCTGGCGGTGGATCAGGCGGATATCGCGCAGATGCCCCAGAATTTGAGCTATCCGGAGGCCGCGGCGCTGCCGTTGGTAGGCCTTACCACCTATCAGGCGTTCCACGATATGCTGCAGTTGCAGCCCAACCAGAAAATTTTGATTCAAGCTGGTTCTGGCGGTATTGGCACATTCGCTATTCAGCTGGCTAAATTAATGGGGGCTTACGCGGCAACCACCACCAGTGGCACTAACCGGGCCTTGGTCACGGATCTTGGGGCGGATCAGGTGATCGATTATCATCAAGAGAATTTCACCGATGTGCTGCATGATTACGATGCGGTATACGACACCTTGGGCGGGGACAATCTGCTGCAGGCGTTCAAAATCGTTAAACCAGGTGGGGCCGTCGTGTCGCTGTCCGGTTTGCCGGACGGCAAGTTTGCCCGAGCCGATGGTCTGCCTTTGTGGAAACAGGCGTTGTTTAGTCTGGCCACCCGGGCGATTCGCAAGCGGGAGAAGCAATATCATGTTGCCTACCGCTTTTTATTCATGAAACCGAGCGGCGAGCAGTTGGCGCTGATTACGCAATTGGTGGAAGCAGGTGAAATTCGACCAGTGATTGATGAGATTGTGCCGTTTGCGGATTTTCAACAAGCGATGGATCACTCCGAGGCGGGGCATGCTCGGGGAAAGATTGTTGTGAAAATGCAGTAA
>SRR1151209_02409 hypothetical protein
ATGCTGCTAGAGCCAATTTCTGCTGGACTAATTGTGTTGTTATTTCTGATGGGTAATAAGCACAGTATCAAAATGGTCATCTTACGAATTGCGGTATTCATTGTTGCCATGGCAATTTGCGGGTACCAACTGTTCCGGCTGATGCCGGTTGGCAATGCCCAGGTGATGGTTATTACTGGGACACTGCTGGCCATTTTAATCGTTCCCATTGTGCTGATTAACAGGGAAATAAAAATTCGTCAACGACTAAATAAATGA
>SRR1151209_02410 hypothetical protein
ATGCGGACCCATTACACACCAGGCCAAATCTTGGGCCTTATTTTCGCGGATATTATCGCTGTGAGCTATCTGCCGTTTACGCCCTTTTGGAAAATCGGCTTGAGTTTGGCCTGCTTGTTCTTAATCAGTATGGGCGTTGTTGCTCTGCCCCAATACCGCACTGTCATTCAGCAAGTAAAGCAGCATAACGGATGGCAAATAATTACGGTTCTGGCTTTGCTGGCACTTTTACTCATAATTACTTTGGATTGGCAAAACACGGTATTCTCTTGGCTAATCAATCTGGCAATGAGTTTGTTTATCATTTGGGGCGGTATCCTTGCACTCATTCATGGTGTCGACGTCCACAAACCCAATGCCCATTAA
>SRR1151209_02411 hypothetical protein
ATGAGCCGTTACCAAGAAGCCTACACTCGGGTCACTGGCCGGCCGGCTCCGGCAGCCGCCGCCACGCTGGATACGCTCTTTGACCAAATTGCTGCTGGCAAAACGCTGCCGCCCAAAGCCCAGCAGGCCGTCGCTCTGGGCTTGACGGCCCATAGCCTCAACGACGCAAAAGAAAATCCCGGGCTGTTCGACTATTACCGCTGGGTGCTCACCCACTGTTTCGCAGCTAAGCAAATTAACGAACTGACTGCGAAACTCATCGGCATGGCCTTCACCAGTGCCAATATATTCCAAACCGACCTGCCCCAGCCGATCACCCTGAACCCCTGGCAGATCCAGGCCATGCTGGCCTTTCCCTTGGCCGCGGCCAAGGCCGTGGTGATCGAAAACAACGGCGTCTTCGCTCTGCTCCACCAGCACCACCCGGATTGGCCGCTGATCGTCCAATCCGGCAACGACTTCAACCCCGCCTATGTGCAGCTTTTACAGCGGCTAGAGAAGCGGGGCGTCCGGTTTGCCTACATCGGCGACCTCGACAGCCGCGGCATTCAAATGGCAGACCATTTCTACACCCAATTGCAGCAAACGCCCATTGAGACCGTCACTGCCCTCCAACCGCCGGTGGTTGTCGCCCGCTGGGTCACGCTGTACGGCAAACCGGATACCCACCGCACCCGGTCTCTGACCATTCAGCATCCGATTTATCAGCAGGAGTTGGCTACGATTCACTTGCAGGGAAAATTCGTCGAACAGGAACAACTGATTGATGACTACGAGCGTATGATTCCGGCTTGGTTGGCCAACTAG
>SRR1151209_02412 chromosome segregation ATPase
ATGAATTTACCTGAGCATTTGACTCCAGTCAGTTATCATTTACGCCATTTCAACAAATACGACACGCTGGACTTGCCGGCGTCTGAGAACGGCAACCTGACCATTATCGGGGAAAACGCGGTGGGCAAAACAACACTGGCCAACTGCTTCTTCCCCATGCTAATCGATGGGGCCATTTCCACGCCCTCGTTCAATGCGGCGAAAGGCACCGAAAACGTTTCGCAAAACGCCACCGCCCGCAATAGCGCCCGGGATACCCGCACCTTCGCCAGCATGCTGCTGGGCTGGGGCAGCGGCGCCATGAAAGTCCGGACCGGGTATACCTATATGGTGCTCCGCTCTGTTCACCGCCAGGTCATTCTGGGCCTGGGTGCCCACCGGGCAGACGGCGATACTCGTCAACCCACCTGGTGGTTCGCCGTCGTCAGCGATGATCCGGCTGCCCCGGTACCGCTAACCACCACCGACGCTGCTGGTCAGTGTCTGAGTAAGACTGATTTTATTCAAGCCAACGCTGCGCTGGGCGATACTTTCCATCTTTTCGACACCGCGTTGGATTATCGTGAATACATTGCTGTCCATATTTACGGCTTCGCCAGCGGCGAAACCTTGGGCAAACTGGCCAACGTCTATCGGTTATTGGCCTCGCCCATCTTAACGTCCGGTAACGCCAAGTTTTCGCCCATTCGCAACGCGCTGAAAAATGCCCAGGAGGGGATTGACGACCAGGTGATCCAGTCCGTGGCCAACAGCCAGCGGGAGGTCAATCAGTATAATGGTTTGCTGGACCGGATCAAAACCGGCCAAACCCGCCTGACCCGGATGAAGGAAACTATCTTTTGGGGCAACCTGAACCATTTGCAAGAGCTCATCCTGTCTCGTTACAGCGAAGCCCATGGCGACTATGAAAAAGAGAAAGAGAAGCGCGCTCAGGCCGAAATTCAGGCGCGCCAGTACACGGACCAGTTGCAGCTGCTGGCAGAAAACCTGGCTGCCAGTGAGCAGGAACTGGCCAAATTACGGGACGCCCAAGCGGAGCAAAAGACGATCATTGAACGCCGCCACCAGTATGCTGACCAGATCACGCTGGAGAAAAAGCGGCTCAAAGACTACCGCGCTCGGCTGGACCAGTTAGCCACTTTGCACACGCAGCAAACGGATATCCAAGCCCAACTGGCCGCCGTTCAAGCGGATCAGGCGGCACTGCAAAAAGAACAGCTCAGTCCGCTGCAAACCACGATCAGTACCCACGCCGCCCAGTTGCAAGAGCTGGCCAAGGCCATCGCCCAAACTGAATTGGCCGCCGTCGTCCAGCACATGGCGGCGTATTTGCGGCATCTGAAAACCCAGCGCAACCAGTACCAGCACCTGACTGAGACCATGGCGCACCTGAATCAGGACGTCGCCATTGTCCACACCATGCAAGACGCCATGGGTACCAGTATTGATCGCCACGTGACCGGCCCGCTGACCAGCCGCTCCCGCACCGCCCTGCACCAGGACAACGAAGCCATCCATGAACACGGGGCCGCTCAGATGAGCGACCAATTTCAAGCGCTGAAGGATCAACAGCAGCAGCTCCTGGCCGCCCATCCCGATTTGAAAGTAATTCTGACTCATCCGGCCTTAGTTGACCAGCTGACCACAGCGCAAAAGGCCCTGGCTGGCCTAGCCGACCAATTTGCAAAACTGACCCGCCAGCAAGCCACCCTGACCGACCACGCCCAGAGCAAGGCCCAGGAGATCCAAACCGTCCAGCAGACCTTAGACCCGAATTTCGACGAAGCCGCGGTAGTTCAAACGATCACTGAGGCCCAGGCTAACTTGGACCGGCTGATCGTGGACGCCGAGCTGGATAAAAAGCTGGCCACCGCCGAACAGGCCCACCGCAAGCTGACTGACGCAGAACATAACGCCACGCGTCAAAAGAGTATCGCCGAAGGCCACGCCCAATCCGCGGCAGCTGCTGCGCAGGAACAGGCGGCGGAGCTGCATCGCTTGGCGGAGCGGATCATCCCGTCCCTGCACACATTGGCCCCCTATGCACCAGAGGGGGTGACCCTGAAGACGATTGAGGACACCATCGCCTTTGTCACTGAAAACCGGGTTCCTGTTCGTACCAACAGCTACGCCCAAGTCACCAGCCAAATCAGCAAGCTCATCCACCGCAACGACCGCAACGGCATTGACCGCAACGCTCTGGACGTGTTATTTGAGGAGCGCAATCATCCCGACATTGCCAGCGCCATGCGCCAGCAGCGGTCAACGGAAGACAACGGCTTGACGGTGGTCGCCTTTGACATCAACGCGGCTCTGGCCATCCTGGCCACAGACCGAGCCGGTGTGGAGAAATCTCTGGCCCAGCGCAAAGAAGGCAACAACTTTGCCCAAACCGCCTACCTGGGCGCAGCTGTTCAACGAATCACCGCCCAGTACCAAGCCATCGCCGATTACAACGCAATGCTCACCCAAGGAGCTGGGCAAAATAACAGTATCCGCCTGCGTATCACCCTCACGCCGGACACTGTCACCCCGGCCGTTATCGCCGAAGCCCGCGATCCCCAGCAGGACGAGCGGCCCCATCTGCTGGCCGAAATTCAGAAACGGTTAGAGAAATTGGCCAATGACGCCGCTGTCTCCGACGACGAAGCCGCCTTCCAAGCCGCCGCCCGGGACCTGCTCGATACCCGCCAGTGGTCCAACTTCAACGTCGAGATCCACCGCCGCCAAAGCGCTCCGGATGATTACGAAGTCGTGGATGATAAATTCGTCCAATCCGGCGGTTCTGGCGCAGAAAAAGCCCAGGCGATGGTGCTGCCCTTGCTGCTGGTGCCCAAAATGGTCCTGCGCCAAGCCCAGCAGGACGACGCCCCCTATCTGGTCATGTTCGATGAATTTGCGGACAAGCTCGACCCTGAAACGGCCAAGTCTTTCGTTAATACCATTGCCCGTTTCGGCTTCTGTTTCATCGCCACCATGCCCAATGGCGCGCAAAACAAAGTGCTGGCCGATGGCGTTGACAATATCGCCTATACCGTCCTGGCGCCGAGCCAGCAAGACGACGGCCAATTCCATAAAAATCGTGTCGTGCCAGCCCTGATCTGGCGCCAGGAGCCGCGCCAATGA
>SRR1151209_02413 hypothetical protein
ATGGCCGAATTACAAAGCAGTGAACGGTTGATCATCAACCAGCTCTTCGATCACAGCGTCTTTACCAGCACCGTCACCCCAGACATGACCCACGCCACCGTGGACGCCATCAACGCGCTGAAGCGGCCAGCCGTCCAGAAAAAGATCACCAGCTACCTCAATGACCTGGTCGGGATGGGCCCGGACAACTATCAGGAGAACCTATTATTTCTGCTCGGCCCCAACCAGCTGGACCCGGACGCCGTTCACGTACTCCTGGCCACCCTCAAAACGATTATCAATGAGCCGAATCTGCAAACCGCCGAGGCTGACCGGCTGGTGGTGGCGGAGAAAATCGTCCGCCAAGTACGCAGCGAAGTGATCAACTTAGGCGAGAAAGAGATTTACCGGCTGATCACCCGGTTGTTCGTGGACCGCTTGGGCCTGCTTACACCGGACCAAATCGACGGCCCGCTGCCAGACCAGACCGAGTTCGTCACCGAATATTGGGATGTCAGCCCGGATTTCACGGCCGTGGCCAAGTGTCTGGTGGATGCCTTGATTGCTGAGCAGACCCCGCCGCAACTGACCCAGAGTCAGCAGGTGAACCGAGAACTCCTGCTGCACCGCTACATGAGCCCGGATACCGCGCCTGTACTGTGGCCGGTGCTAGTAGCCAATAAACACGCCATTGCCGCCCAGTGGACCGAATTGCAGCGATTCGTCCTGGAATGCGGCAACGACTACGCGCTGCTCTTGGACAGCCAGCGCCAGCAAAGCGCGGCCATGCCCTATGTCACAGCGCTGGCTGTGGCCAATTCACTGGGGGTGGGCATCCCGGCGGCTGATTTAAATGGCCGGATTCACCAGATTGCCCAGCAGTTGTATCCGCATAAAGATATCTCGGTGTCTGATGTCAAAACCGCCTTGAACGACAACGCACTGATCGAGCACCAGCAAGACTTTATTAGTCCCACCCCACTGGTGCAGCGATTTGCCGTCCGGACAGACGATGAAGGAGATTGGCAATGA
>SRR1151209_02414 hypothetical protein
ATGTCGAAACCACTGAAGGATCTGCTGCTGGCCAGCAACCTGGGGTTGAATAAGAATCACCCGCTGGCCGGCTGGAATGTGCTGACGATCCTGTACCACGACGGCAGCAGCAGCGGGGTGCCCATTACGTTAGACTTTCTCACCCGTCGCTACAACGAATCCTATTTGGATACGGAAAACGACGAAGCACCAATTTCAGACAATATCTTAAAAACAGTCCTGGACGTTCTTAGCCAGCAAGCACGGCTGATTGAAGCATCCGCCCGCAAGATTCGGGCCCGAAGTAAAAATGGACTGTACACCACGCGTACGTCCTATGTTTACCGAATCACCAGCAGTGGGATTGAGTACGTGAAGATGATGCAGCGGGTACTGGATGCTGAAAGTACGATTACCGCCAACACCAACCGAATTCAGGAATACTGTGTGCTGGTGGTCAAGCTCAGCCAGAATCCAGACACCACCGGCGATACCGCCCTTTTTAATGATTTTCAAAACATGATCAGCGCCTACGATGATGTGATGAACGGCATGCATAAGCTGGACGATGATCTTGATGAGCTGGCGAACGATATTGCTTTCAATCATGGCAGCGCGGAGGCCAAACACCTGCAAGGAATGCTGAACGGTAAAGCCATTCCGGCCTTTAAAATGATGCTGATGCAGGGTGCGCGGATTCAAGCCCTCGCCCATGATCCGGCCTTCGCTGGCGATGTCGCCCGCTCCCAGCAAGGCACCGATGATTTGGATGCCGCTAATGCCGTCCGCGACCAGGATAAACTGCTGACCCGCTTCACGCGTACCCGGGACTATGTGCGCCGTCAGCTGGCCAAACTGGCACTCAGTGTCGACCCCAGCACCAGTGCGATCGATAGCAGTCTGGATTCCATTTATCTGGTTTTCCATACGATCCTGGGTGCCATCAAACTGCTCAGTGAAGAATATGAACACATCCAAGGCCAAACGGTCGACGTGAAAGCACTGACCGCCCAAATTGACGGCCTGCTGACCCATTACCAAACCCTCCAGGTCTACACCAACCTACCGCGCCATTTACCCGCCGACCGGGAAATCGAAGACCCGGAGGACCTGCTGGACGCGTCCACCATGGGCCCGGTGGCCTATACTGCCACCAGCAGCCCCAGGTCCATCGCCACCGCGGCCGACAACCCGGTGGTCGCGCAGGACACGTATCCTGCTGCCGACGATCAAGCCGCTTTAGCCGAGTTTCAACGGTTGGTGATGCGATCGACCACCCATGCCGTGGTGGATCACGACCTGAATTTCACCACCAGCACCGCCCGGGACGAAGTAGTCCGGCTTTACGCCGCCACCGGCTACACGAGTTATGCCAGCTTTGCCCCCTTCGGTCGCCCGGTGCAAGCGGCCCGCGCTCTGCCTGACACTGGCCCCATTCGCCTGCACTGTGCCGGCGAACAGTTCAGTGTCGTCCTGCCCAGCGGCTTTACCATTGATTTTGGTTAG
>SRR1151209_02415 small heat shock protein
ATGGCTACTGATATGATGACTCGTCGCAACAATGCGTTGATGAACGATACGTTCTTTGACAACTTAGCGCGTCGGTTCTTTAACCCGATCGTTGGCGATTGGGAAGAGCCCAGCATCAGCTCAACAGCCGTCAATGGACTGCTGACTGATGTTAAGGAGACTAAGGACGCTTATATCACTCGGGTTGACATCCCTGATGTTGATAAGAATGATATTATGCTCAATTACCACGATAATGTGCTGAGCATCAATGTGCACAAGAATGATGTTGAAGATCACGCCGACAAGAACGGCAACGTCTTGATGTCTGAACGTTCCAGCGGCACCATGAGCCGGAGCTATCAACTGCCGAATGTTGATGTTAAGAACATTAAGGCTGACTTTGAGAAGGGTGTCTTAACTGTCACTCTGCCCAAGTTGACTGAATCTAAGGAGACTGGTCGCAACATTGAGATTCAATAA
>SRR1151209_02416 aldo/keto reductase
ATGGTTTACTTAGCAAATGATAAACGCTACGACACAATGGTTTACAACCGCGTGGGCGCCAGCGGTTTGAAAGTTTCGGCGATTGCCCTGGGGCTGTGGAATAATTTCGGCAGTGTGGACCCGTTGGCGACGCAAAAAGCGATCCTGCACCAAGCCTTCGACCTTGGGATCACCTATTTCGACTTGGCCAATAATTACGGCCCAGTACCGGGCAGCGCCGAAGAAAACTTCGGCCGGATCATGGCTGACGATATGAAGCCCTACCGGGACGAAATGGTCATCGCCAGCAAGGCCGGGTATTACATGTGGCCAGGTCCCTACGGCGACTGGGGCTCTCGCAAGAGCATCATCGCCAGTGCCAACCAGAGTCTGCAACGGACCGGCTTGGACTACTTCGATATTTTCTATACGCATCGGCCGGATCCAGATACTCCTGTGGAAGAAACCGCTGAGGCGCTGGATCAACTAGTCCGCGAGGGCAAAGCGCTGTATATCGGTATTTCTAACTACAGCGGCGCCCAGACGAAGGCCATCGCTGCGATCTTCAAAGAGTTGAAAACACCGTTTATCATTCATCAGCCGCGCTACAATATGTTCGATCGGCACATTGAGCAGGACCTCTTCCCGGTACTGCGCGCGGAGAACAAGGCGGCCGTCAGCTTCAGTTCCTTGGCTCAAGGTCTGTTGACGGATCGCTACCTGCACGGAATTCCCAAAGATTCCCGCGCGGCCAAGTCCACCATTCCATTCCTGCACGAGGATCAGGTGGAAAAGACCCTGAGTACCGTCAAACAACTGAACGCCATCGCGGCCAACCGTGGGCAGAGCCTGGCGCAAATGGCCCTGGCCTGGAACCTGCGGGAACCAGAAATTGCCAGCGTCCTGATCGGTGCCAGCCGGCCGAGTCAGGTCGTCGACAACGTGCAGGCCTTGGACCACTTGGCTTTCACAGCGGACGAATTGCACCAGATTGATACCATCCTGGCCGAGCAAGCCAAATAA
>SRR1151209_02417 MerR family transcriptional regulator
ATGGCTGTTTACACAATTAGTCAGGTCGCCGAAAAATACCACATGCGGCCGTCCACACTGCGCTATTACGAAGATTTGGGTTTACTGTACAATGTGCCCCGTCAGGGCGGTCACCGGGTGTATACAGACGCCCTGCTGAACCGGTTAGGGGCGATTTGCTGCTACAAGAACGCGGGGATGTCCCTGGAGGAATTGCAGGAGTTTTTCCATTACACGGAGAGCCAGGAAGACGTGGCGAAAACAGTGGCACTGCTGGACGAAGTCGATACGCGGATTCAGCACCAGATCGCGGAGCTGCAGGCTAATTACCTGCAGATTCAGCGCAAGAAACATTATTTTGCGGCGATTCAGACGGCCTTGGCCCAGGGGCAGCCGAAGCCGGATTGGGCGGATTTCTGTAACCAGCAATATGTATAA
>SRR1151209_02418 oxidoreductase
ATGAAAGTTCTTGTTATCGGTGCGCACGGCAAAGTCGCTCAGCATCTGATTCCGAAACTGGTTAAAGCCGGACATACCGTGTATGGCGGCATTCACAATCCCGCCCAGGATGCCACACTGACTAACCTCGGCGCGACCCCCGTGCCGTTCGATCTGCTCGGGCCCATGGATAAAATGGTGCCTGTCCTACAAACTGTCGACGCTGTTGTCTTCAGTGCCGGCGCTGGTGGTCGGGGTTACGACCAGACGATTCTGATCGACCTTGATGGCGCAGTCAAGTCCATGGAAGCGGCCAAAGCCGCCGGTGTCAAGCGCTATGTCATGGTCAGCTCCGCTGCCAGCAACGATCGGGCCACTTGGGGCACGGCGATCCGGCCATACATGGCGGCTAAATTCTACGCCGATCGGGAATTGGTCCGCACCGGCCTCAATGAAACCATCATTCGCCCCGGCCGGCTGACTGATGATCCGGAAACGGGTCTTTACCAGCGCGGCATCAGTCCAACAGCCACGGATATCACCCGGGGCGATGTCGCCCAGTTTATCACAGCGGTGCTGGCTGATCCGGCGACGATTCACCAAGCCTACGACATCGTTAACGGCCAGCAGAACATTGCTGAATTACTCAACTAA
>SRR1151209_02419 transposase
ATGCCCAGATCAAAGCACACAGCCGAGGAGAAGCTCGCTATACTGACTGAATATCAACAGTCAGGGCTTTCCTGCCAAACGTTTGAACGACAACATCATATTGCTTCACATACCCTAGAGCTCTGGCACGCCAGGTATGAGCGTGACGGGCTGAACGGGTTGACAGAGGCCCGGACAAATAATCACTATTCAGAACTTCTCAAGCTGGAGGTAGTCCAAGCTTTCCTAAACGGTGAAGGGTCAGCTCTTGACCTGGCCATCAAGTATGGATTACGCGGGGCAACTCAAGTAAAGGATTGGGTTTCCAAGTATAATGGGGATAAACCTCTGACAGCCTCACCGTCAAGAAAGCAGGTCCCCACCATGAGTCGAAAAACCACCTTCGATGAACGAATCGAAATCGTCGAGTTTGTGACCAAGGGCAAACACTCTTACACCGAGACCGCTGAGCACTTTCAGGTGTCCTACCAACAAGCCCGTTCTTGGGTCTTAAAGGCCCGAAATGGTGGCTATGAAGCACTTGTCGATAACCGTGGCCACCACAAGGACGTCAGCGATATGACTGAGGTCGATAAGCTCAAGCTGGAAGTACGTCAGTTAAAGGCAGAGTTGGCAGACAAGGAACTGGTGGAGAGCTTTGCAAAAAAATTGCTGGAACTTCAGCGCAAGGGGTGA
>SRR1151209_02420 integrase
GTGAATGAACAACGTAAACTGGCTTACTGCGCAATAAGAGAAGTCAGTAAAGGGAACCACGGCAGCATCACTAAGCTATTGAAGATCGTTGGGGTCACGCGTCAGGCCTACTATAAGTGGCTGCATCGTGAAGAGACCGTATGGGAATCTCATGATCGACTACTCAAAGAACGCGTTCAATACTGGTTCGATTTTCACTACCAGGGAATTGGAGCCGGCAACATCTTGGTCAACTTACAGCAAGACGAATTGATCGACTTTCCGGTCACGTTCAAGCAAGTAAGACGCGTGATGCGCGCGCTGAACATCAGATGTCAGATCCGGCGCAAACGACACAATCGCGTTAAGCAGGCCGAACAGTACCTGCAGGACAATGTGCTCAATCAAAACTTCGATGTATCAGCGCCCAATGAGGCCTGGTTATCCGATTCGACAGAGCTGACCTATGGGGTGAACGGTGAGTACAAGATGCGCCTTAGCGGCGTCCTAGACTTGTATGGCCGGCGGCTACTATCTTCTAACCTTAGTGAGACAGAGACCAGTGCCGCAGAGATCCAGACCTTCCAGCGGGCATTCACGGCCGCTGGTGATGTTCACCCGTTGGTTCACACAGACCGCGGTTCAGCGTACACGTCTGGTCAGTTCAATCAGTACCTCAACCAATTCAACGTTAAGCGCAGCATGTCACGACCAGGTACACCGTACGACAACGCACCAATGGAGCGCTGGTGGAATGAGTTCAAACTCCGGTGGATGGATCGCCATCCAATGGCGAAGACGGTGAGCGAGTTAACACAGCTCGTTGAGGAAGGTATCGAGTACTTCAACCACCACAATCGTTCAGCACAAAGAAATGGCCTCACCCCAGATGAATACTGGAATGAAGCCATTTAG
>SRR1151209_02421 membrane-bound protease, CAAX family
ATGAATCCTCGACCCATTTATTCGAACAGCCGTCCTGTCAGTGTTACTGCCTTCTGGCGCTGGTGGTTCGTTGTCCAAGGCAGTCTGCTTACTGCTTGGTCTCTGGCCACGATCGATTCCCACGTCAAAGCCAGCTATATCGTCTTAGGGGTGATTGCTGGGATTATTGAGGGCATCCTGCTTCTTCTGAGCACACTCCGGGTCCCCCGCAACATCCTAGTCCGTTTTCTCTTTGCACTTAACGTTCTATTGCAGATAACGGCCTATCCGCTCATCGTTGCCTTAGGCGTGAATAATTTACTGCTGCACGCTGGAATTACCCGTCCCTTAATAGCGTCGCTTGTGATGATTGTGATCACTGTGCTCGTTATCGTGATTCATATCCCGTATGCCATGGCACTATTTGCCCCGCTCAATAACGGTTGGGCGCAGAGCATCGCAATGATTTATGGGTTTGCCTGGATCGTCGGCGGATCGCAATTCATGATGGGCAAGGTAAATAAAAATGTTTACTCGCATATCTGGCGGGACCTGCTGAACACGGGGGTATACGGCGCCATCCTCTTTGTTGTCGTGGGGGCCATCGCAATGTATCAGTGGGGCTACCGCGGTCCTAGTTGGCGTTTCAACCCGCTGGCTCAGCCTTGGATTCTGGCTCTGCTAGCCGCATCTTGCCTGCTTTTTCTTGGTTGGAACACCTTCACGAATCCTAATTCATTCCGCAGTTTGTATACTTGGGAATTCCACCTCAAATCAGTCACTTTTTACTGGTTTGCCCAAGGGTTAGAGCCAGGTATCGCTGAAGAGTGGTTGTGGCGATATATTATCTTGGCCCTTCTGCTTACCGGTCTCCGCAAATCGCGCTGGCAAATTCCAGGTTCCGTCTTTCTCACCGGCCTGCTCTTCGGCCTTTGGCATGCCACGAACGCCCTTGGCGGCGCTCAGGGTGTGTTAGCCACAGCGGTGCAAATGCAATTTGCCATGATCAGCGGTTGGTTCATGGCAGCCCTCTACCTCTATTCAGGCAGCTTCAGCGTCCCGATGATCTTCCACGCATTGATCGATATCCTGGCCATGATGGCCACTGGCTCGATTGTTTCCACTGCCCCAACGCGCAATGAATACATTTGGAGCACCGTCACGGAATGCACTCGGCCCTGTCAAGTTGACAGATGA
>SRR1151209_02422 FabG-like short-chain dehydrogenase/reductase
ATGACCAAAACAGCAATTGTTACCGGTGCCGGCCAAGGCATCGGCCGTGGTATCGCCTTACAGCTCGCCCAAGACGGCTTCAATATTGTCGTCGCCGATTTGAATGAAAAGACAGCGGCCACCACTGCCGCGGAGATCAAGAATCTCGGTGTCGACAGCCTGCCCCTCGTGGCTGACGTGTCGGACGAAGACGCATTTAATCAGCTCGTCGCCGAGGCCCACGAGCATTTCCCGACGATCGACGTACTGGTGAACAACGCCGGGATCGCGCAAGTCGCGACCATTGAAGAAACCAGCGCCGCTGACTTCGACAAAATCTTCAAGATCAACGTCAACAGCATTTTCTATGGTATTAAGGCCGTTGCGCCGATCATGCGCGCCCAAGGCAGCGGCAAGATCATTAACGCGGGCTCCATCGCCAGCCACCAAGGGATCGAACTGCTTGGACCATACTCCGCGACGAAGTTCGCAATCCGCGGATTGACCCAAGCCGCAGCGCAGGAATTGGCGAAGGACCACATTACCGTCAACGCCTACGCGCCAGGGATCGTCCTCACCCCGATGTGGGATCTCATCGACAAGCGGATGAGCGAGATCCACAATGTGCCCATCGGCGCCTCCCGGGATAAATTTATCGCCGGGATCGCGCTGGGCCGCGGCGAGACGCCGCAGGACGTGGCGGGCTTAGTTTCCTTCCTGGCCAGTGAGAAATCTGACTACATTACCGGCCAAACGATTATTGTTGACGGCGGGATCAATTACTCTTAA
>SRR1151209_02423 hypothetical protein
ATGAATAGACTTGCACAGCTCACCTGGTTCTTTTACCGGGTCAAAGTCACGACGTCCGCCAACGGTTTGCTGTACTTTCTGCGCCGGATACCCTTTGTGGGAAAATTGATTTCGCCGGCGGTGTACGGCTTTCTTGGCGTGAAGAAATTTTTCGCCGTGATTGCGGCGATTGGCCGTATTTTGATGCGTGCTGCCTTTGGGTTTCTGGTCTTCGCTTTGAGCTTCTTAGGCAGTGATTTGTATATCACGAATTATCTGCATCAACCGCCGCTGCCCGCCCTCCACACTAGTGCCATGCTCGCCGCAACGGTTTGGTTGGTGGCCTTTTCTGCGCTGCGCGGTCTGTTTCCTTCCCGGCTTTCAGTAGAACCGGAAGCCCTGAAGACCGCCGACCAATTCGGCCTGAGCCGCCAGGAAACAATTCACGTCTCCGCTGTCAGTTCCTTTTTTGCTGGTCTCTTGAGCCAAGGGGTACTCCCGCTGGCCATTTTTGCCGCTATGACGCAAAATCCTTGGCTATTTCTCAATGGGCTTGGTTTTTTCACTCTAACCATGATTTGGCAACAATTTACTCCCCGTTGGGGCTGGCAGCATCAACTCCGGGCCCGGCTTGGCGGCGTAATATATTGGCTTGCTCTGGTGGCGGCGCCCTTGGTCCTGGCTATTCTGCACCAGTATCAGCAACTGCTTACCATCCTCTTTTCGCCCTTGGCAGCAGTTATTGTTTGGTTGCTGGTGGGATTGGGCACCTATTATTGGTTGACCTTCAAGAACGAGCCCGCCCTGCTGACTAAGACCATTCTGGATCAAAAAGCAGCGCTTGCTGAAGTCTCAGAAACAAAAAATAAAAACAGCGAATATTTCAGCACCGGGACGGCAATGCAAAAAGACATGACCCTGGACACGCCCAAGGGCCCGCAAGCCAGCCGCTTGACCGGCAGCAATTATCTCAACGCGCTGCTCTTCACCCGCTACCGCAAACAATTGCGCCATAAACTGGCAATTCGTGCCGGCTTGGTTGCCTTGGCCGGGATCGCCGTCCTGGCCGCCTTCAAGCTGTTCAGTAATGGCCGGCTGCCGGTGAAGGACCTCACGGAGGTCTACGGCTTTCTGTTCTTCATTATGTACTTGGCCTCGTTTGGCCGGCCAATCGTGCAAATGTTATTCGTCAACTGTGACGCGGCGATGCTGTATTATCCATTCTATCGGCAGCGCCGCACCATCCTAGCCGGCTTCTTTTACCGGTTCTGGCGGACTTTCCTCCTAAACAGCGGTATCGGTGCCTTAATGTTTGTCCTCTTCCTCGGACTCTATCTGGTCACGCCGGATGTACCGCCGATTGCCTTCTACCTCGTGCTCGCCCTGGAATTGCTGGGTCTTGTGCTGTTCTTCTCCTTCCATGAACTCTTCATGTACTATTTGCTCCAGCCTTTCACCGCGGATATGAACGTCGTGTCACCGCTGTATAAATTCGTTTACGGTGCCATGTATTGGGTATCCTGGATGGTATTGCGCTCCAACTTGCAAGGCTACGGCTACGCCATCGTCATCGGCGCAGCGGCCCTGGTCTACGTTGCGGTGGGCACCGTCATCATCTACTTCAAAGCCCCGCAAACTTTCCGCGTCCGAAACTAA
>SRR1151209_02424 ABC transporter ATP-binding protein
ATGAAGCAACTGCAAATTCACAGTCTTAATAAATCTTTCGACAAGCAAGTGATTTTCAATGATGCCAATTATGATTTCGTTCAAGGAAAGGTCTATGGCCTGCTTGGCAGAAATGGTTCCGGGAAATCCACGTTATTCAATAGGATTGCGCGCAACATTCCGGCCGACAGCGGCGAAATTCTCGTGGATGCCGACGACGGCCAAGGGCCGCAGGTGAATTATCCCGATATTGATGTCAGCATGGTCTACACTCAGCCCCACTTACCGGCGTTCATGACCGGCGCAGAATTCGTCAAGTTCTTCATCGAGATCAACAGCCGCCGACTCACTGCGGTGCACACCTCGCAGAATGCCCAGGACTTCCTAGACTTGGCAGGCTTGTCTGAAGCGGACAGCAATAAGCTGTTACGCGACTATTCAGAAGGGATGCGGAACAAGTTGCAGATGGTAGTCTCCCTGATGCTGAAGCCGCCGGTACTGTTGCTGGACGAGCCGCTCACCACCGTGGACGTGGTCGCCGCCCACGAGATGCAGCAGATGATTGTGAATATGAAGGCCGACTCGGTTGTCGTCTTTTCCACCCACATCATGCAGCTGGCCCAGGACATCTGTGACGCCGTGGTGCTGCTCCATAACCATCAACTGGAGGAACTCACCGGTTTAGACATCCACTCTCAAGCCTTTGAGGACGCGGTGATCAGCCGGTTGACCGACGAGGTGACCGCTGATGAATAG
>SRR1151209_02425 hypothetical protein
GTGGCAGCAAGACAGAACCGCATCATATATCGTTTTCTTCTGCTTGGTTGCATCGTGCTGTTAGGGGCTTGTTCAGGCCAAAAGAAGGCAAGCACGGCGGGGCAAGAAAGCATCCCGACGTATCAGATCAAGGCCAGCTATGGGATCAATGTCGATGATCCGAAGGCTTTAGTCGCCAGTGCGGACTATTCTTTTGTGGGAATCGTCAAACGGGAGACTGGCACCAGCTATCAGAACCCCATTCCGCTCGAACAAGCCGACGGGACGACCAAAAAAATGGGCGAAGCCTATACGCATTACACCGTCCAAGTGCTGGCTAACTTGAAGAACAAGTTGGTTACCGAGCGGTCGATTAAGGTGACCAAACAAGGCGGCATTCGTGAAGATCACTCGGCGTATGACGTGCTGGCTGGGGATTCGTTGTTGAAGGCGGACCAAGCATACGTGTTCAACGCATATGCCCAGGCGGACGGCACACTGTTGGTGAGCGGGAAAAATTCAACTGTACCTATAAAGGACAAGCCGGTTGATGCGATTGCGGACAGCAGTGTGGTCAAAACCTATCAAGCGGCAGTTGGCACGCTTTCCGCCAAAGAGTTAGAGGCTAAGCAAAAAGCCAGCGACGACGCCCAAAATAGTCAATAG
>SRR1151209_02426 mannitol dehydrogenase
ATGACAATTACGGAAAAGGGCTATGCGCTGCGAGACATGAATGGTGAGTTGACCGCAGATGCCCAATACGATATTACCCATGGCCCGGAAGTGGCGAACACGGCGATGGGAGCCATTGCGCGGCTGCTGTTTGCCCGCTACCAAAGCGGGGCTTTGCCGATTGCAATGGTCACGACGGACAACTTTTCTGAAAACGGTCAGTACTTTGAGAATGCCATTCTGACCATTGCTCAGGGCTGGTTGGACAACGGCTTTGTACCCCAAGGCTTTGTTGATTATCTGAAAGATCCTAAGCAGGTCAGCTTCCCTTGGACAATGATTGACCGGATCACGCCAGCGCCGGCGCAAAGTGTCGCTGACCAGCTGGCCCGGGATGGTTTTGAAGACACCACCATTACGAAGACCATCGCGCCCTTCGGTAACACGGAGCAGACTCATTATTTAGTGATTGAGGACAGCTTCCCCAATGGCCGGCCGCCGCTGGAGAAAGCCGGCGTGATCCTGACTGACCGGGATACTGTGAATGATGCCGACCAGATGAAGGTGACGGCGTGCCTGAACCCGCTGCATACCGCTTTGGGTATCTTTGGCAGTTTGCTGGGCTACACGGCCGTGGCTGATGAAATGGACAATCCAGACTTGGCGGCTTTGGTCAAGCGGCTGGGCTATCAGGAAGATTTGCCGGTCGTCAAAGATCCCAAGATCATTAATCCCAAGAAATTCTTGGATACGCTGATCGAACAGCGGCTGCCGAATAAGTACATTCCTGACACGCCCCAGCGGTTGGCCACCGACGCATCCCAGATGCTGTCGATTCGCTACGGCGTCACCATTCAGCATTATCTGGATCAAGGCGGCGACGCTGTCCAAAAGCTGGTGGCCATTCCACTCATCCTTGCCGGTTGGTGCCGGTACTTGTTAGGCGTGGATGATAAGGGCGAGATATTTACGCCGAGTCCGGATCCGCTGCTGGCTGATTTGCAAAAAGAACTGCGCGGCGTGCAGGTGGGCCAGACGACTGATGTTCATGCGGTACTGCAACCGATTCTGAGCAACAAACAGATTTTTGGTCATGATTTGTATGCCATTGGTTTGGGCGACAAGGTCGAAACCGACTTTAAGCAAATGATTGCCGGTCCTGGGGCAGTGGCCCAGGCGCTGCATGAGATTGCTTAA
>SRR1151209_02427 mannitol dehydrogenase
ATGGTAAAACTAACCGACGACTATCGCCGCGATGCCCGCTTATTCAAGGATGCCGGCATCACTGTCCCGCAATACGACCAAGCTGCCATGAAGGCGGCCACAGATGCTCATCCGGTATGGGTACACTTCGGCGGCGGTAATTTATTCCGTTGTTTTCACGCAAAAGTTGCCCAAGATCTGTTAGACAGCGGTGACCTGCAAAGCGGCATTATTGTGGCGACTACTCACAGCGCCACGATTCCCAAAACAATTTATGCGCCCTATGAGAATCGGATGCTGCAAGTGATCGTGGCGCCCGACGGCAGCATGGAGAAGAATCTGATTGCTAGTGTCGCCCATGCTCTGTACTACAATCGAGCCGATCCGTTCGGCTGGTTCGTGCTTCGGGCCATTTTTGAACAGCCGTCACTGTAA
>SRR1151209_02428 1,3-propanediol dehydrogenase
ATGGCAGAACGCAGTTATGATTTTTTGATGCCCAGTGTCAACTTTTTTGGACCCGGTGTCATTCATAAAGTAGGGGAACGCGCCAAGATTCTCGGCATGAAGAAGCCGGTGATCGTTACCGACAAGTTCTTGGAAACAATGAAGGACGGGGCGGTCCAGCAAGCTTTGCAGTCCTTGACTGAAGCGGGCGTGGATTATGTGATCTATAACGGGGTGGAACCGAATCCGAAGATTCGCAACATTCAAGAAGTGAAGAAACTTTACTTACAGTCAGGCGCCGACTCGATCATCACGATTGGCGGCGGTTCTGCCCATGATACCGGTAAGGGTGCCGGCATCATCCTGACCAATGGGGACGACATCACCAAGCTGGCGGGGATCGAGACGCTGGACAATGCCCTGCCGCCGCTGATTGCCGTAAACACGACCGCCGGTACGGGGTCCGAGCTGACCCGTCATGCCGTGATCACCAACGAACAGACGCACTTGAAGTTCGTCGTCGTATCGTGGCGCAATATTCCGCTGGTCTCTTTTAACGACCCGACGCTGATGCTGGACGTACCGCCGGCATTGACCGCCGCCACCGGGATGGATGCTTTTGATCAAGCCATTGAGCCCTATGTGTCAGTGGACCGTAATCCGATCACCGATGCCCAATGTATCCAGGCCATTCAGCTGATTGAGGGCTCCTTGCGGGAAGCCGTGGCCAATGGGCATAATCTGGATGCCCGGACCAAGATGGTAGAGGCCGAAATGCTGGCCGGGATGGCGTTCAATAACGCCAACTTAGGCTACGTCCACGCCATGGCCCATCAACTGGGCGGTCAGTACGACGCGCCCCACGGTGTGTGCTGTGCCTTGCTGCTGCCGTATGTGGAGCAATACAACATTATTGCCTGCCCGGAACGGTTCGCTGAATTGGCAGACATTATGGGTGAAAATACGGCGGGGTTATCCACCCGCGATGCCGCCGAGTTGGCCATCAAAGCCATGAAGCAGATGTCTGAAGACGTTGGGATTCCGAAGTCAATCAAGGATATTGGCGCGAAGCCAGAGGACTTTGAGTTGATGGCGGAAAATGCGTTGAAGGATGGCAATGCGTTCTCTAACCCGCGTAAAGGGACGAAGCAGGATATTATTGATATTTTCCAAGCGGCGTACGACGCAGAATAA
>SRR1151209_02429 glucuronate isomerase
ATGGCCTTTTTAGATGATGATTTCTTACTGACCAACGCTCCAGCAAAGACGCTGTTCCATCAGTATGCGGACGGGCTGCCGATCATCGATTTCCACTGTCATTTGAATCCTCAGGAAATCTACGAGAACAAGCCCTTTAAGAACATGACCCGGATCTGGATCAACGAGGGTACTTACGGCGATCACTATAAGTGGCGCCTGGAGCGGGCCAACGGGGTGCCGGAGAAGCTGATCACCGGGGACGGCGACGACTACGACAAGTTCTTGGCCTGGGCGGACACGATGGCCCAAGCTTTCGGCAACCCGGTCTTCGAATGGACCCACTTGGAGTTGAAGCGGTACTTCGGGATTAATGACGTCTTGAACCGTCACACCGCACCGCTGATTTGGGAGCAGGCCAACAAGCTGTTAGCGACACCGGCCTTCAAGCCCCGGGCGCTGATCAAGAACAGCAACGTCCAAGTCGTCTGCACCACCGATGATCCGGCCTCTGATCTGCATTATCACCAATTGCTCAAGCAAGAGGAGGCGGCTAATGGGTTCAAAGTTTTGCCCGCCATGCGGCCAGATAAGCTGGTGCACATTGAAGCCGCTGGGTTTGGTGATTATCTGCGCGAATTGGGCCAGCAGGCCCAGATTCAGATTGGCTCGTTCGCCGCGTTGCAGACAGTGCTGGAGCAGCGGTTCCAGTACTTTGCAGAAGTCGGCGGCCGGCTGTCTGACCATGGCTTGGACCGGTTCCGCTTTGTCGAAGCCAGTGCCGACGAACTGGATCGAATTTTGATGAAGGGCGTGCAGAATCAGCCGCTGACGAGTAAAGAACTGGATCAGTACCGAACAATGCTGATTGAAACACTGATGCGCTTGAACAAACGCTTCAACTGGACGATGCAGTTCCACGTGAATGCCGCGCGAAATCTGAGCCTGCCCGGATTTAAGGCCACTGGCGCGGATACCGGCTACGATGCGATGGGTACGCAACCGGATATCGTGGCGGAGTTCACCAAGCTGTTCACCGTAATGGATAACACTGGCGAAATGCCGAAGGTAATTTTCTATTCCTTGAACCCCAATGATTGGCTGGAAGCGGCCACAATGATGCAATCCTTCGGCGGCCAGGGCGATGTCCAGCACTTGCAGCTGGGGGCGGCGTGGTGGTTCAACGACACCGCCGAGGGCATGACTCAGCAGTTGCGAACCTATGCAGAGCAAAGCCTGCTGCCGCACTTTGTCGGAATGCTGACAGATTCCCGCTCGTTCCTGTCCTACCCGCGGCATGAATACTTCCGCCGCGTGCTGTGCAATTTCTACGGCCAGCTGATTGAACAGGGTCGGGTGCCGGATGATCTGGCAACCATTGGCCAAGTGGTGCAAAATATCAGTTACTACAATGCGCGCCGGTATTTTGGATTCTTCGATAATTGA
>SRR1151209_02430 mannonate dehydratase
ATGCAGAACATGGGATTCCGCTGGTATGGATCAAAGGATGATAATATCACCCTGAAGCAGATCCGCCAGATTCCGGGTACGACCCAAGTGGTCGGCGCGCTATTCGACGTGCCGGTGGGAGAAGTGTGGCCCAAGAGCGAGATCGCCGCTTTAAAGAAGCAAGTTGAAGCCGCTGGGTTGAAGCTGGAAGTCATCGAGTCCGTTAACATCCACGATGACATCAAGATCGGTTTGCCCACCCGGGACCGCTACATTGAGAATTACAAAGAGACCATCAAGAACCTGGCCGCTTATGGTATTAAGGTGATCTGCTACAATTTCATGCCGATCTTCGACTGGCTGCGGACCGATCTCCATTATCCGCTGCCCGACGGCAGTAACGATATGGCCTTCCAACAGGACAAATTGAAGCCGAATCCCCAAGATATCATTGACTCAGTGCGCAACGACTCCGAAGGCTATGTCTTGCCAGGTTGGGAACCAGAACGCTTGGATACGATTGCGCACTTGTTTAAAGCCTATGCCGGCGTTGACGAACGCAAACTGCGGGAGAATATGAAGTACTTCTTGGATGCAATTATCCCCACCTGCGAGAGTTACGGCGTGCGCATGGCCATGCACCCGGACGATCCGCCCCGGGAATTGTTCGGCCTGCCGCGGGTGTACAAGAACGCTGAGGACATGCGCATCATCGAAGGGATGCACGAGTCCCCATATAATGGTTTCACCATTTGCACCGGCAGCCTGGGGGAGAATCCGAAGAACGACGTCCCAGCGATCATTCGCGAGTTCGTGAAGAAAGACCGCGCGCCGTTTATCCATGCCCGGAATATTAAGTTTATGAACGCCCAAGGCGACTTCCACGAATCCGCCCACCTATCCTCTGAGGGCAGCTTAGACATGTACGAGATCATGAAGGCCCTTTACGATACCCACTTCGACGGCTATATCCGGCCGGATCACGGGCGCAATATTTGGGGTGAAAATGGCCGGCCCGGGTATGGTCTGTACGACCGGGCGCTGGGTATCACCTATTTGAACGGATTATGGGAAGCAATCGAGAAAGGAAATAAGTAA
>SRR1151209_02431 mannitol dehydrogenase
GTGGTTAAACTGACCGACGATTATCAACAAAACGCCCAGGCGTTCAAAGCGGCCGGCATCGCGGTCCCGCAATTCGATCAGACGGCGATGAAGGCGGCAACGGATCAACACCCTGTCTGGGTCCACTTCGGCGGCGGCAATTTGTTCCGCTGCTTCCATGCGAAGATTGCCCAAGATCTGCTGAACAGCGGCGACTTGCAGAGCGGGGTGATCGTGGCGGAAACCTATGACGGCGACGTGCCCAAGGACATATACAAGCCCTATAAGAACCGGGTGCTGCAGGTGGTCATGGCGCCCGATGGCAGTTTGGACAAGACACTGATTGCCAGTGTGGCCCATGCCATTTACTATAACCGCGACGACGAATTCGGCTGGCAGACGCTGAAGGATGTTTTTGAACAACCGTCCCTGCAGCTGATAACCCTGTCGATCACCGAAAAGGGGTATGCCCTGCATGACATGAACGGCAACCTGACGGAACAAGCCAAATACGACATCACCCACGGTCCGGAAGTGGCCCAGACGAATATGGGGGCCATTGCCCGGCTGCTCTTTGCCCGCTACCAGAGCGGGGCGTTGCCGATTGCTATGGTCAGCACGGACAATTTCTCGGAGAATGGCCAGCGTTTCCAGGATGGCATTTTGACCATCGCTAAGGGCTGGGTCGACAACGATTACGTGCCCCAAGACTTCGTTGATTATTTGAGCGATCCTAAGCAGGTCAGCTTCCCCTGGAGCATGATCGACCGAATCACGCCGAACCCGGCCCAGAGTGTTGCCGACAAACTGCGTCAGGAAGGCTTTGAAGATACCACCATCGTGCATACGGCCAAGCACACCAATATTGCCCCCTTCGGCAACACCGAGGAGACCCACTATCTGGTCATTGAAGACAGCTTTCCCAATGGCCGGCCAGCATTGGAAAAGGCCGGCGTGATGCTGACAGATCGGGAGACAGTCAACGACGCCGACCAGATGAAGGTCACGGCCTGCTTGAACCCGCTGCATACGGCGCTGGCCATTTTCGGCAATCTGCTGGGCTATACGTCCATCGCGGCCGAAATGGAGAACAAGGATCTGGTCGCGCTGATCAAGCGGCTAGGCTATCAAGAGGACCTGCCGGTGGTCAAGGATCCCAAGATCATCAATCCCAAGGAGTTCCTGGATACTTTGCTGACCAAGCGGCTGCCGAATCAGAATATTCCGGATACGCCCCAACGGATCGCCAGCGATACATCACAGAAGATTCCGGTCCGTTATGGCGTCACGATTCAGCACTATGTCGATCAAGGTGGGGACGCCGTACAGCAACTCGTTGCCATTCCGTTTATCTTGGCTGGCTGGTGCCGTTATCTGCTGGCTGTTAATGACCAAGGTGAGGCTTTTGAGCCAAGCCGCGATCCATTGCTGAAGGACCTCCAGGCCCAACTGGGCAGCTTGAAGCTGGGGTACACCGGTGACGTGCATGCTGCCTTGCAGCCGATTTTGAGCAACAAACAGATCTTTGGCAACGATCTCTATGCGATTGGCTTGGGGGATAAAGTAGAAGCCAACTTCAAACAGCTGATCACTGGCCCGGGCGCTGTTGCCAAAGCGCTGCACGCATTGAATGAGGAGGAAGATTAA
>SRR1151209_02433 membrane protein
ATGGGCTGTCTAGGTAATATTCTATGGTTCATTTTCGGCGGTTTTCTCTCCGCCATCGGCTGGTTCCTGGTGGGCTGTGTCTGGTGCATCACGATCGTCGGCATTCCCATCGGTCTGCAGTGTTTCAAGATTGCCGGGCTGTCCCTGTGGCCGTTTGGCAAAGAAGTCGTGCCGTCCAACCGGACTGGCAGCCTGATCCTGAATATTCTGTGGCTGATCTTCGGCGGACTGGAACTGGCTTTGAACCACTTGCTGTGGGGCCTGCTGCTGTCGATCACGATTATTGGCATTCCCTTTGGTCAGCAGCATTTCAAACTGGCCAAGCTCGCCCTCGTCCCGTTTGGCGCAGAAATCATCTGA
>SRR1151209_02434 GntR family transcriptional regulator
ATGCCGATGATGAATCAGCAGGATGAGGCCTATGAAGGGCTGAAAACGATGGTGTTAACGATGCAGCTGAAACCAGGGGAGAAAATCGACAAGCATCGCTTGGAAGACAAGCTTGGTATTGGGATCACACCGATTCGAGAAGCCATTATTCGCTTGCGCCGGGAAGGGCTGTTCAATGTTATCGCCCAAAGCGGTACGTACGTCGCCAAGATTGATCTGGATACCCTTTCCCAAGGGCGGTACGCGCGGATGAATATTGAACGCAGTGTGACCGCCGATGCGGTCAAAATTATCTCCGCCGATGATATTACGGAGCTGGAACGGCTATTGCAGATGCAGTCGCTATACCTGCGTTCCGGCGATTACGATAAGTTCTTTCAAGCGGATGAAGATTTCCATGAACTATTCTACAAGGTGACGGATAAAGAGTTCATCTGGCACTGGCTGCGGCTGCTGAATCTCCAATTTGACCGCTTCCGCTACCTGCGCCTGGAACTGCCCGGTTTGGAGTGGGATAAGATCTTGAATCAGCATAAAGAGATCGTCGCCCGGATCAAGGCCCAAGACGCCGCCGGTGCCGCCGATTTAGTCGTTGACCACCTGCACATGGTGGACGATGACGTGAAGATCGTGCTCGCCGCGTATCCGGAATATTTCGCGCCGCAAGCAGCGGCTCAACCGGAAGTGACGCAGTAA
>SRR1151209_02435 hypothetical protein
ATGGAGAGACCAGATGACTTAGATCAGCAAATACACGACTTACGGGAGAAACTGGAGTCGCTGCAAGCCGCCTCGGACCAGCGGATGACGGCTTATCTGCACAGCCAAGGAATTTATACCCTGACCCAGTTGCGGGAGAAACTCGGTGAACCGCATGGACCGACCCCGCCAGCCCTATCAGAAACGCCGCCGGCAGCGCCCGCGACTCCGGTTGCCCCGGCAGTTGAGAGCGATGCGGCGCCAGCGCCGAACAAACCGGCCGCACCCGCTGCACCGCGGCCGGCTCCGACCGACTTATCTTTTAATGCGTTACTGCTGCAGGTACCGCTCATGGCGAAAACCATCCGCCAGATCGTGACGATCGTGGAAGAGCGCACGGCCCACCGCTTCCCCCGGGATTTACAGCGAACGCTTTTCTTCACTAAAGACTTCGATCTGCCGTTATTCACGTATATTAAAAACAACATCCTGTCCGATTATGATCCGGGGCAAGACGTCACAATGACTGGGCCGCAGCTGCAGGCCGCCCTGACTTATGCCGCCCATGCCAATGATCGGGACGACGGCAGCGACGACGCACCGGCCAAGGAGAAAACCGCGCTGGCGGCAAAGCAGGGCACACCGGCGCCGCAACCGGCCGTGTCCACGCCGTTATCGGCGCTGCGGTCAGTGGAAACCACGCCCCTGCAGATGACCAGCATCACCCGGCCGGCCCCGGCGCCGCGCAGACCCCTGGCGAATCCCCGGGCCCTCGTGGAACGCAAACTCGCTGGGGCCACCGCGGGCGGCCGCTACATCAGCGAATCGCTGGTCCGTACGCTGCACTTGAGCGGTGGTGAAACAGTGGAGATCGTGCCCAAAGAAGGGGACGACCTGCCGTATTTCAAGATTCTCAAACCGGCTGATAGCAGCTATCATGCCCCGATCCACCGCTTGACGTTCATCCCGGCCGAAGAGGACGAGAACGGCCAGCTGGTATTGAAGCACGCCTATACCCAAGCACCGCTGGTGGATCCGGGTACCGGCGAGACCTTCGAATTCATCGTTGATCCCCACCGCTATCCGCTGCTCCATGCCGGTCAGCTCGTGGATTTCGCCTGGTACGAAGGGCAGGACCCGCGGGCCGGCAAGATCTACTGGATCCATCCGTTGGAAGAAAGCGCACCGCTGGCGCCGCGGCCGGTTAGTACGCCAGTCAAAAAGGCCGTCAAAAAGCCGGTTGAAGAACCAGCGGAGGCGGAGAAAGCCGCGGAAAGCGAAACGCTGCAGTTTGATCTCAATGGCGGTACCGTCCTCATTGTCGGCGCCCCGAAACATGACGGCAACGTCATTGCCATGCTCAAACAGCACGGCGGTCAGCTGACCCATTTTGATGCCAAGAGCAACGCTTATAGCCAGCTGCCGACCATGATCCGCCATGCGGACTACGTTATTTTGATTCCCACCGCCGCCTCGCACCATTCCACGCAGACAGCCGTTTCCTTAGCCAAGCGTTACGAACGGCCCTTTGCCGTGGCCAATACGCTGTCCGTGGTCAACGTCGAACGTGCGGTTTACCGCGCGGTGAACGGCTTGCCGGCCCGGTCCGTCAGCCAGCAGGATACGTATCTGGAGTCCGCCGCGGGCGCGGAACAGAACTGA
>SRR1151209_02436 hypothetical protein
ATGGAACAACAGAAGATAATTGATACCATTCAGATGATCAGTGAAGAAAAGCTGGATATCCGCACCATTACGATGGGCATTTCTTTACTGGATTGTATTACCGGCGATACCCGGGCCACGGCGGAACGGATATACGAAAAGATCATGCATAAGGCCGCTCACCTCGTGCAAGTGGCGGATGAGATTGAGACTGAATACGGCATTCCCATCGTTAACAAGCGGATCAGTATCACCCCGGTGGCCATGCTGGCCGGGGCCGACCCGCATCCGGACTTCCGCTTGATTGCCCGGCGGCTGGATGATGCCGCCAAGGCGCTGGGGGTGGACTTTATCGGCGGATACTCGGCGACGGTTCAGTCCGGCATCACGCCGGCGGAAGAGAACTTGATGCGCTCCATGCCGGAAGCGCTGAGCATGACCGACCGGGTCTGCGGGTCCGTCAACATCGGTTCGACCAAAGCCGGCATGAACATGGATGCCGTGAAGATTATGGGGCAAGTAATCAAAGACCTCAGTGCCACTGGCGCGACCAATGCGATGAAGCTGGTCGTTTTCTGCAACGCTGTGGAGGACAATCCGTTCATGGCCGGTGCATTCTGGGGTGTTTCCGAAGGTGATACGGCGATCAATACCGGCGTTTCTGGGCCCGGTGTCGTGCAGCGGGCGTTAGCCCAAGTACCTGAAGCCGATTTTGCCCAAGTATGCGAAACGATTAAACAGACGGCCTTCAAGGTGTCCCGGATGGGCCAGTTTGTCGGCAAAATTGCTGCCGAACGGCTGCATGTCCCGTTTAATATTGTGGATCTATCACTGGCGCCGACCCCGGCTCCTGGCGACTCCGTGGCTGAGATTCTGGAGACCATGGGGCTGGGTTCCGTTGGTGCCCCCGGGACTACCGCCGCTTTGGCTCTGCTCAACGATGCCGTGAAGAAAGGCGGCATCATGGCGGCCGAACGGGTCGGCGGGTTATCTGGCGCCTTCATTCCTGTTTCAGAAGACGGCCGCATGATCGAAGCGGCGGCAGCGGGGCAGATCACGGTGGAAAAATTGGAAGCCATGACCGCAGTGTGTTCCGTTGGCTTGGACATGGTCGCGATTCCCGGCGACACGCCAGCCAGCAGTGTCAGCGGCATGATTGCGGACGAAGCAGCGATCGGGATGATCAACGCCAAGACTACGGCGGTACGGCTGATTGCCGTGCCCGGCAGCCAAGTCGGGGATATGATGGAATTCGGCGGGATCTTTGGCCGGGCCCCTGTGATGGCCGTCAATTCGGCGTCGTCGGCCCAGTTCATTGCTCGGGGCGGGCACATTCCGGCGCCGATTCATTCGTTCAAAAATTAA
>SRR1151209_02437 hypothetical protein
ATGCAAGCCATTATTACCGTCGTCGGCCAGGATAAGGTCGGCATCGTGGCCGGCGTCAGCTCCAAGCTGGCGGCCATGCACATTAATATATTGGATATTTCCCAGACCATTATGGAGGGCAGTTTCACGATGATGCTGCTGGGCGGCCTGCCGGAAGATGCCGACTTCAAGGCGGTCCAGCAAGCCCTTACCGATTTTGGCACCCAGCAGGATCTGACCATTCGCATCCAGCGTCAAGAGATTTTTGACGCCATGTCGTCATTGTAG
>SRR1151209_02438 ABC transporter ATP-binding and permease protein
ATGACAATCAATATCCGGTGGGTACTTAAAAACATACCAAAGCAAATTCTGATCCTGCTGCTGGGGACCATGGTCATCGGCAGCTTTGAAGGGCTGGTAAATGGGATCGTCTTGGGCGGTTTCCCCAGTCTGGTGAACGCAAATAGCGGCCAATTAACCCGTTTTCTCGTCATGGCCGCCGGCCTCTATTTCACCACGTATACGGGCCTTTATTTTGAACAAATGCTGGTCAATGCCGCCGTCAAGCACTTGAACATTCAGCTGAAGGCCGCGATGCTGATCACCAGCTTTCAAACCGGTGAACAGACCAGCAAAGGCTTGAACCACATCACGAATGATGCCGGGCAAATTGAGAACCGCTACTTCCGGGTCCTGTCGGGCATTACCGAAAGCAGCATTGCCGCGGTTATTTCCACCGTCTTCGTGCTCCGGGTGCACTGGCTCATGGGCCTCGTCTTTGTTGCTTTCTCCGTCTTGAACGCGATTCCCATGCTGCTAGGCAAAAATCGGCTGGCAGCGATCGGCAAGCAGTGGAGCCAAGCCAATGACCAGACCATGCAAGCGGGCACCGATTGGCTGACCGGCCGGCGGGACATCGTCCAAGCGGCCGCGCAAAAGACGATGTTCGCGCCAGTCCGGCACGCGTTGCAGCATAGCGAACGCACTTTCCAGCGGCAGGGCAATCTGCAATGGACCATCCAGTATGGTGCTTTGTTAACGGTGATCCTTTCTCTGGTCGGCCCCTGGGGCATCGGCTTTTGGCTCATGACCCACGGCGGGTATGGCATTACTTTGGGCATTTTGCTCACCCTGTCGCTGACCGCCAATAATGCCGTCCAGAACATTGAGGCGGTCATGCAGCAATGGGGGCAGCTGGCCAGTACCCGGGAATTGAGAAATTTACCGGCGCAGCCGCGGCCCTTTGCCGATACCACCACCGCTGTCCTCCCCGCCGATCAAGCCGCCTACGCTTTGCGGCAAGCCAGCTTGGACTATGGTCCCGACCATTCGATTTTGGTGCCGACCACACTCACCATTCCAGCCCGGGCAAAAATATTGATCACCGGTCCCTCCGGTATTGGGAAAACATCGGTGCTGAACCTCCTCGCCGGCTGGCAAGCACCAACCAGCGGCCAAGTGTTATTGGCCGGTCGGCCCGCTGCCCCAACGGCAGTGGCTTATGTCGCCCAAGAGCCGTGGCTCTTTGCCGGGACCGTGCGCGATAACCTCACGCTGCACGATGCCACCGTGCCCGACGCCGCTGTCCGCCAAGCCCTCGCCGACGTCCAACTGCTCACCGAACTCGGGCCGGATCCATTAAACCGCCAAATTAACCCGGACAGCAGCGATGTCTCCGGCGGCCAGAAGCAGCGCTTGGTGATTGCCCGAGCCTTGCTGCAGCACAAGTCAGTCCTGCTGTTGGATGAAATCACTGCCGGCCTGGACGATGAAAACAGTCGGGCGATTCGCGAATTGCTCTACGCGCTGCCGCTGACCATTATTGAGAGCGCGCACCATCTTGATTCAGACTTGCTGGCCAAGTATGGGTTCACTGAATATACGCTGCATGATCAGCGGTTAGAGAAAGTTAACGCAATACCGGCCGCTATCCAAGCCGTTGGGTAG
>SRR1151209_02439 membrane protein
ATGAAACAGGAAACGAGCCCCAAGGCCATCACGATGAACATCCTGAATGGCCTATCAGTCGGCATCATTGTAGCCCTGGTGCCGGGGGCGCTGCTCAATGCCCTGGTCAAATTAGTCTTGCCGGTGGCCCCATGGCTCAGTGTGGTGACCCAGATGACGGGGATCGCGCAAACGATGCTGCCGGTGTTGGCGGCGGTCTGTGTGGGGATGATGGCTAAATTTTCACCCATTCAAACCGGGTCATTGGCGTTGGCCGCCATTGTCGGCGCGGGCAACATCCACGCCACCAAGGCCGGCATGGCCATTGCCGGCACGGGCGATGTCATTAACACCGCACTGACCATTGCTGTCGGCTACCTGCTGATCTTACTCTTGGGTCAGCGGCTCAAAGCCTACACGATTCTGCTGATTCCCAGTATTGTCTTGATCGTGGGCGGCGGGATCGGACTGTTGACGTATGGGCCGGTGACCAGCGTGACCAAGTTTATCGGTCAATTGGTTGAACAGCTGACGACGCTGCAGCCCATCCTCATGGGTATCTTGATGGGCATGGCATTTGCGCTCCTTATTGTGTCGCCTATTAGTACGGTGGGCATCGCGACGGCCATCAATCTCAGCGGGATTGCGTCCGGCTCCGCGAATCTGGGCATCGTTGCCGCTGGCTTTGCTCTGGCCATCTACGGATGGCGCGCCAATTCCGTGGGGACTTCCATCGCCCATTTCTTGGGTTCGCCCAAGATGCAGATGGCGAACCTGCTGGCTAAGCCCAAGCTGCTGCTGCCGCTGGTCTTGAATGCCGGCATCCTTGGCGGTTTAGGCGCGCTGTGGCAAGTTAAAGGAACACCGATGAGCGCTGGTTTCGGTTTTTCTGGTTTGGTCGGGCCCTTGGCGGCGCTGGAAGGATACGGCACCCCCAATGCGATGACCATTCTGCTGATTATCGTGCTGTTCTTGGTGCTGCCGGTGGTGCTGGGGATTGCCAGCAATTTCGTGTTTACCCAGGTGCTGCATTATCAAACGGCGGAGGATTATGCGCTGCATTACGAATAA
>SRR1151209_02440 hemolysin III
TTGGAAACTCATCACGTATCCCGTTACCGTATCCACTATGAAGTGAAGAACGCCGTCTCCCATGGGGTCTGGTTTCTAGTCAGTATTTGGCTGGTTACTGCCCTCTGGCTGCGGGCGGGGGCCCATCACGCCGGACCGCTGGAAATGACTGCCTTAGTGATCTACGGGGTGACCTTGCTCAACCTGTTTCTGGCGTCCACGATGTGTCATGCCATGGCATTCACCAAGGCAGCCCGGATCTTCCAGATCCTGGACCACTCGGGAATCTACTTATTTATTGCCGGGACTTACACGGCATACACACTGGTCGCGATTGGCGGCGTCACCGGTTGGGTCATGCTGGCCATCGAATGGTTCTGCGCCATTGCCGGCATCGTGATCCACGTGGTCAGCGGCAATCCCCACCAGAATATTGAGACGCTACTCTACATTATTATGGGCTGGCTCTGCATCGCCGCCGCCCCGACACTGTGGCGGACGTTGGGTCCAGTGGGCTTCTGGTTCCTGGTCTCTGGCGGGGTAGTCTTTACCCTGGGGGCTGGGATCTATAGTATTAAGAAACTTAAGGAAGGCCATTTTATCTGGCATTTCTTGGTGATCATTGCCAGTACGTTGATGTATGTATCGATTTACTGGTTAGTATAA
>SRR1151209_02441 hypothetical protein
ATGGCGATCATCACCGTATGGCGACAGGAATTCTCCGATTACCGGCACATCCACAACATCAATGCGACGGAGGAACAGACCGTCCGGATCTATATGCCCTGGCCAGGGCATTCGGTACGGTTTCAACTGACTGCCGAGTTCGATGAAGTGCCGATCCATGTGCGGGCGATGTCCGTGTCCCGGGGCGACGATATGCCCCTGCCGGTGACGGTGGGCGGTCGGGATCGGTTCGACGTGCTGCCGCGGCTGACCCGCTGGACGGATTGGGTGGATCTGAATTTGGCCGGCGGCGAGTGGCTGACAATTTATATCCACGCCACCAACCACACGATTCGTACGCTGGGCAGTGTCAGTGCCACCAACCTGATCGATCCCGGCCAAGCTGAGGCGGACGAGCGGTTTTTCGGCGTCAACGCGGTGCAGGCGGCGGTGGATGTGGATCAGCCGGTGCGGCGGTTGGTGTTCTTTGGCGACTCACTGACCAACATGAGCCGGTTCTCGGCGCCGCTGGCGCGGAAACTGGTGAAGCGGGGCATCGTGACCGCCAACCATGGCATTTCCGGCAACCGGCTGCTGTATCCCGGGCACGGTTTATCCCCATGGGTGCATAGTTTTGGCGAAGCCGGGATTCGGCGGATCGACCATCTGTTGGTCACAGAACCGCCGGCGATGCTGCTGTTTATGGAAGGATTGAACGATTTGCTGCATCCGGGCACCGAGAGTCCCGCCCGAGAACTGCCCAGCGCGGCGGGATTGAACCAGGGAATCGACGCGGTGGCGGCGAAATGTGCGGATCGTCACGTGACTTTCATCCCCATGACCATCACGCCTTTCGGCCAGAGCCAGCTCAGCGGGATTGAGGCGTGGAGTCCGGAGAAAGAAAAGATTCGCCAAGCCGTGAATGACCACATTCGCAGTTTCCCGTATGCCATTGATTTAGCCAGTCAGGTTGCGAGTACCGCTGACAGCAGCGTCCTGGACGCCGTGTACGATCGCGGAGACCATATTCACTTTTCTGTTCCCGGCGGGCGCGAAGCGGCCAAGTTCCTTTACGCCGACCTGCGCAAGCAGAAACTTGTTTAA
>SRR1151209_02442 XRE family transcriptional regulator
ATGATTATCTTCGATGCCAACCGTATTGGTAAGAAAATTGCGGCGGCCCGCAAAGCCAAAAACATGACCCAAAATGACCTGGCCGACCAGCTCGGCGTCAGTTACCAGGCCGTCAGCAACTGGGAGCGCGGCCAGTCCGTCCCCGATATCGATAAGTACGCCGATCTCTCCCAGATCTTGGATCTGTCCCTGGACGACCTATTGAACACCGCGGATGCGGCCCATAAGGTCACGATCGTCCAAGACGACACAGCGAAGGTCGACGCGGATACGCTGAAAGACTTCGCCCCCGTGATGAAGCCCGCCCAAGTGGATGAAAAAGCCGACGACGTGGACCTGTCGCCGGACTACTTGAAAGACATCGCTCCGTTTCTTTCGGATGAGGCCCTCTTTAAGCAACTCATGAAACACCGTGACGCGCCGAGCTTCTTGCAACAGGTCGTGGCCGTAGCACCGTTCTTAGCCGATGACGATTTGAACAAGATCGTTGAGAAATATGTTCTGCCGAATTTCCCGGGAAATAGCCAGGTGCTTTCTAAGCTGCTGCCCTTCATGGACGAACGGGTGGCCAATGAAGTCCTGACAGCGCACTGGGCTGATCCGGACTTCGATCGCAAGGCCCGGCGCAAGTTCTACCCCTTTGTCGATCCAGCAGCGCTCCAGGCCTTGCTGGCCAAACATCCCGATGAGGTCAACGCCATTGTGGATGCGGCGCCCTTCCTGGATGACGAAGCCATTGCCTACTACTTCAAAACGTGGGCCGCTGATCCGGATCTGGCGCCCAGCTTAAGCAAGCTGGCACCCTTCGCCCCCAGCAGTGCCGTCGCCGATCACGTGCGCCATTTGATCAAAACCGGCGCCGACCGGAACGAATGGCATGCGTTCCTGCCATTTCTGGACGACGACGATCTCTTATCGTTAGGAAAATCCATGTAG
>SRR1151209_02443 aldose 1-epimerase
ATGGCTGACATGACAGCGAACACGAAGGTTTTTGATCATTACAATGGGGACGATGTTTATGAGTATTCTTTGACCAACAAGCACGGGGTGACGCTGAGCACCTTGAGCTTTGGCGCCAATTGGTATGAGCTGCTGGTTCCGACCGCGGCAGGCAAGCAGAATCTGCTGCTGAATTTCCCCCACGTGGCGGATTATGCGGAGAAGAACCCGTACCTCTGCATGTCCATCGGCCGCACCGCGGGCCGGATCGGCAAGGGTCAGTTCACCATTAATGGTGCGGATTACCAAGTCGACCAAAACGAGGGTAAAAATGACCTGCACGGCGGTTTCCACGGCTTCAATTCCTACAATTGGGACGGCCGGATCGAAGACAACCATATTATCTTCACGAAGAATGTGACCAGTGATATGGATGGCTTCCCAGGCAACATGGCCGTGACCATCACCTATACGCTGACCGAACAGGACGAGGTGCTTATCGACTATTCTGCCAACGCGGACGCTGATACGCTGTTCAACCCGACGAACCATGCGTACTGGAATTTGAACCCCGGCGATGTCACGGTGGGCAACCACGATCTGTACATCAATAGTACGGATCGACTGACCTTGGCCGATGATAAGATTCCGACCGGTGAATTGACTCCGGTGAAGGGGACCCCGTTTGACTTCAGTCAGACGGCTTCGCTGGGCAAGGCCATTGCCAATCTGCAAGACATTCCAGAAAAGGGTATCGATGACGTTTACGTGCTGAACGACCACAAAGCGGATGAACCCGTTGCGACGTTGAGCGACCCGGACAGCGGCATCAGTGTGGATATCTTCTCTGAACGCAACGCCATCGTCTGCTTCACGGCGAACGGCTTCAAGGCGGACGAACCATATATCGGCAAGACCGGCCAGCCCCATGTCGGCGTCGCCCTGGAATCCCAGCAGGCCCCCAACGCCGTGTTTGACCCGAATTACGGCAACATTACCGTTGGTCCCAACGAAATCAAGCACGTGTACACGAAGTATCACTTCAGTTATTAA
>SRR1151209_02444 hypothetical protein
ATGCAATTCAAGGATATCAAAGTGACGGATCCGTTTTGGACGAAGTATCGGGACATCGTGAAGACTAAGCTGATCCCATATCAGTGGTCAGTGATCAACGACGATAAGGACATCGCGATTGAGAAAGAAAACGCCGGGGCATACGATGCCGTGGAGAAGAGTCACGCGGTGGAGAACTTGAAGATCGCGGCGGGGCTGGTGAAAGGGCACTTCTATGGTTTCTGGTTCCAAGATTCCGACGTCTACAAATGGCTGGAGGCGGTGGCTTACGCGCTGCGGTACGCACCGGACGCGGAATTAGAGGGCATCGCCGACAGTTTGATCGACATTATTGCCCAGGCCCAGGAGCCGGATGGGTATTTGGATACCTACATCCAGATCGAGGCGCCGACCCATAAGTGGACCCACGTGTCATTGAGTCACGAGCTGTACGTCATGGGCCATTACATCGAAGCCGGCGTGGCGTATTACCAGACGACTGGTAATCAGAAGGCGTTGGCTATCGCAAAGAAAATGGGCGACTGTATCGACGCCAACTTTGGGCCGGAAGAAAACAAGATGCACGGCTATCCGGGCCACCCGGAAGTCGAACTCGCCTTGGCTAAATTGGCAGACGAGACGGGCGATGCGAAGTATACGCGAGTAGCCAAGTACATGATTGACCAGCGGGGGACGCACCCGAACAATTTCTTTGAGGAACAGTTAAAAAATGTCCAAACTAAGAAAATTGAAGATCCGTATTTTGGTGATGCCAGTCAGCCGGATCCGGACGCACCGTATTTTCAAAATGACGTACCCGTGCGGGACATGCAGAGTGCTGAAGGCCATGCGGTCCGGATGACGTATCTGTTAACCGGGATGGCCCATGTGGCCCGGCAGACCGGGGACGAGAGCCTGATGGCGGCCTGCCAGCGGCTGTGGGAAGATATCACTCAGCGCCAGATGTACGTGACCGGCGGGATTGGGTCGTCTGCCCCCAACGGCGAAGCCTTCACGTTTGATTACGACCTGCCCAACGATACGGCCTATGCTGAAACCTGTGCATCTTGTGCCATGGCGTTTTTCGCGAAACAAATGCGGGACGGTCGCCAGGATGCGGACTATGGCGATGTGTTGGAGCGGGAACTATACAACGGTACGATTTCCGGTATGTCGCTGGACGGGGAGCATTTCTTCTATGTTAATCCGCTGGAGGTGGATCCGGAGGCGAGTGCCAAGGATCCGATGAAGTCCCACGTCAAGGTGCAGCGGGCGGCGTGGTTCGGCTGTGCCTGCTGCCCGCCGAACCTAGCCCGGCTGGTGGCGTCAGTGGATCAGTATATTTATACGGTGACTGACGATGCCATCTATGCGGACCAGTTCATCGGCAACGAGACGACCTTCGATAACGGCGTGACGATTGCCCAATCCGGCAACTTCCCTTGGTCCGGTGAGGTGACCTTCCAAGTGCGTGCTGCGGGCAGTGTGGACACCATCCTGGCAATTCGGATCCCAGCGTGGAGCCGACACAATTATCAGGTGACCGTAGCTGGTAAGCCCTATGCCGGTGTATTGGATCATGGGTACTTGAAAATCAAGCAGACTTGGTCAGGCACGACGACGATCACTGTGTCGTTGGACATGAGTGTGCAAGAAATCCATGCCGATCACCGGATCAAAGATGACGTGGGCAAAGTCGCCATTCAGCGCGGGCCGGTGGTCTATGCCCTGGAAGAGGCGGACAACGGCAAACACTTGCAGGCTAACAGCGTAGCCGCCGATGCTCAGTTTACTGTAACAGAAGACAACAGCACGTTTGCCGTCCCCACGGTGCAGCTCACCACGACGGGGACCCATACCGATGCCGCCACTGTCCCCGGCACTTTATACGGCGCCAGCGCAACGGTCTTGACCCATGCCCAGCCGCTGGTCTTTATCCCGTATTTTGCCTGGGCCAACCGGACGCCGGGTGAAATGATGGTTTGGGTGTACCAGCACTAA
>SRR1151209_02445 AraC family transcriptional regulator
GTGGAACATTGTCATTTTAATTTATCTCGCCCGTTGGTTTATGTGCCCTGTGGCGAGTTCAGCGCCGAACTCGGCTGGCAGCACCACCGCTACCACCATGGCCAGGACACCGAAATATTAGTCGGCCTCAGCGGGCAAGTGTTTTTACAGGTGGCAGGCAAACCGTACACATTGGAAGCCGGCGACGTGCTCACGGTCTTTCCCCATGAAACCATTGTCGGGGCGCGCCAAACGGTGACCAAAAGCAGCTTTTTCTGGGGCCACGTGGTTGCGCCGGCGGTGGTGGACACCCAGCCCAGCGCACCCAATGGTCTGACACTGCCCCGTTTTTTTCATTTACAGGTCCAAGAAAAAGCCGTCGTCAACATCCACCAATTATTGGATGTCAGCCACAGCCAGTATCTCGTGCCCCACGCGGCGGATTATCAAGCCACCATGCTGTTCATTGAATTAGCCAACGATTACGCCCAGCAACGGACCGCCAACCCGCTGCATCAGGGTATTAGCAACCAGGTGCGGGAATGGATCCGCACGCATATGGCCGAGCAGCCCACCGTGGCGGCCATCGCCGACCAATTTCATTTGAACGCCAGCTATTTGACCCGGGTCTTCAAGCGGGACACCGGCCAAAACATCCAAGAGTACAGCAACGCCGTCCGCTTGGACTACGCCCGGTACTTGCTGCTGACGACCAACGATCCCGTCGCTTCCGTGAGTCAGCAGGCGTTTTTCAGCGATCCGAAGTATTTCAGTCGGCTATTCAAGAAGAAGCTGCAACTGACGCCTAGTCAGTACCGGCGGGCGTATACGCATACGTTCTTGAATAACCAGCAGGTGGACCCGGGGGTGGATGTGCGGGAGCAGGTTAGACAGTTGGAGAAAGAACGCCAGCTGCCCGCACAGCGCTAA
>SRR1151209_02446 hypothetical protein
TTGCGAGACAATGACTTTGGTGGATTGCCCAATTACGTGTTGCAGGGTGGAACAGGAAATCAGTACAAGGTTGACTATGCCATTGGGGAGACAAAAGTAAAACCGTTGCGACTTATGCAAGTGATTAACAAACCAGGATTTCAACGCGTGGCTGCTGAGGGGGCAACGTTTGCTGACATTCGCAGCAATCAAGCATTGCATAATTCTGACATTCAGTTTGTTGTCATTTTTAATGACAGTGAGAGAAAGGTGTCACAGGCAACAAGCAATATTGCACGGCAGAATGCAATTGAACTCCTGCCTTGGAGTGACAAGACAGAATTATTAGCGTTACGCTGA
>SRR1151209_02447 hypothetical protein
ATGACAATAAAAACATCTTGGGCAGCCAATTATGCAAACTGGTTGCAAGAACAATATCAGGTAACAGCGTTGGACGACGCGGATGAAATTACGACGCCGTTCACCAATTCGATTGGCGATGATATTCAAATCTTTGCAGTTGCCCAACCCGATGGTTCACTTGAGTTGACGGACGACGGCAATACGATTAATGACTTGCAAATGATGGGTATTAACATTCATAATCCCACGAGAAGGCAGGTGATTATGGGTATTCTTGAGCAGTATACTGTCAAGCTTCGTGACGACGAGTTAGTTGTACATGGCAAAGTCAACAACTTTCCCAGCATGAAGCAGCGCCTCTTGCAGGCAATTCTGCGCATTGACGATTTATCCCAGACCCCCGCCGAGGGACAGTAA
>SRR1151209_02448 hypothetical protein
ATGGCCACGTATAATTTTACCGTCCGTTATTATGGCAAGGCATTAGACGCCCATCGTATTCCTGTTCGTGACCTTGCCCCTTCTCTACTCGCGCTATCGGAAGCCTTCCAGGAAATTCAACATATTCAGAACCCTACAGAACCGGATCTCTCGCTTGACATTCAAGCATCCGATAATGGCTCTTTTCTTGTCGATCTCATTTTAGCTAACGGACCAGATCTCCTCAACCGGGCGATGAACTTGCTCAATAGCCAACCTTCCACCGCGTTGATCAATCTAAGCGGGTATGTTGCTCTTTTTATTGATGCTGTCCAATTAATCAAAAAGTTGGCTAGGGTGTGTCTGAAAATTACTTAA
>SRR1151209_02449 hypothetical protein
ATGCACGAGAAACGGAGATATTTCAAGCAATTGATGTTGAGCGGTGTGCCGTCAATATTGGCTTTTATTGGGGCGATCATCGCGCCGATGATTTGGCTCAAGCTTGCTTTCGTTGCTGCAACGGTTGGCATCTATGCGGTTGTGGCCTAG
>SRR1151209_02450 hypothetical protein
ATGAAGAAAACAATCGTCACCCTGCTCGCCGCGTCACTCTTGGCCGGCGGCGCCGTGATCATTACCAATGATCTGGCATCAGCCCCAGTCCAAGCTGCCACTGTCACCAAGGACGGGTTCAAAATGGCGCCGCTTCTTGACGCTCAAGTCGTGGTAAACAATACCAAAGGCGCCCAAGTTTATTCTGACATCGCCATGACCAAGCCCATTCAGGGGAAAGTGCTGGCCTTTGCCTCCCGCTGGGTCGCCACCGATGCCGTGACCACCGACACCGGTTATCGCCGCGGCTTCCGGTTGGGCGGCAATCAGTATGTGAAGTTGGCCGATGCCAACTATTACACCGTCAAGGAACGCTTTAACGGCGTGTACACCGTCTCCGTGTTGAACCACCCCACTTGGGGCACTGCGGTGTACAACCGCCAGTTCAAGCCGATCCGGATTCTGCCGGACCAGAGCAGGTGGCGGGTTTACGGCAGCTACTTCCTCCACGGCAAGACTTATTTCGACTTAGGCGGTCAGCAATATATCAGTAAAGAGTACGGCGCCATGGAGGTCCTGGGCAACTGA
>SRR1151209_02451 hypothetical protein
GTGGCCACGCCCCATTACTTCGCCTATCGTCTCGGCGGCAAGCAATATATCGATAGCACTGACGTCGTTACACCGACTAACCGTGGCGTCTTTACCGTCAATGTCCCCAATCATCCCAGCTGGGGAACTGCGGTTTATAACGACCAGCTCAAACCATTACGCATTTTGAAGGCCAAGAGCAAGTGGCAAGTCTACGATACGACTAATTTTAGTGGGATCACTTACTACGACTTGGGCGGCCATCAGTATGTGAAAGCCGGTAACGGCACCTTCGTACCGCACTATTAA
>SRR1151209_02452 hypothetical protein
ATGAAAAAATACGCATTCACCTTGTTGAAGAAAAAAGTCTTTGCTTTATTAGCCGCCGTGATGTTGGCTGGCGGTGCCCTGGTCGCCACAAGCGCAATTGCCCCAGTCGCGGTCCACGCCGAACAACCAGTGGAAACAAACGGCTATTATCAGGAATATCCACTCAATAAAATCGTTGCCATCGCCAAGGCGTCTGGCAGCCAAGTCTATTCTGATCCAGCGCTCACTAAACCGATCACGGGTAAGGTTTTGCCCAAGGGCAGCCGGTGGTAA
>SRR1151209_02453 muramidase
ATGAAGAAAACAATTTTAGCTCTGCTTACTGCTGCTCTGCTGACCGGCGGGACAATTGCTGCTCCCATGAATACGACGGTACCGACCTCCGTTGAAGCCGCCACCCTGCAAGCTGATGCGGCCATCACCCCGCTCAAGGGTACATTGCGGATCGTCTACAAACCCGGTTATGGTATTGCCCTATGGAACGGTGTGGGCAGTACCCGCAAATATGCTGGCCGAATTCTTCCAGATCAATCTAGATGGCGGTTTTACAAGGTCGCCGTCACCGGCACAGACACTTACTGGTATAATCTGGGCGGCAATCAATGGATTGAAGGCTATTGCCTGACTTTTCTAGACAGTGAAGATAATTCGTATCATATCGTTTCCCGGCGCGGCGTTGTTCGGGTTCCTGAATCGCCAAAAGGAAGCATCGTCAACTTGACGATGGACAAAGGAAATCCGCGCAGTGATCAGTCCGCATGGTACGGTTTCGTTCCATTCAAGGTTGGCTCCACTTGGCAATATTTCCACATCGCCTATCCGCGAAGCAAATACCAAAGTGTGAAATATGATCTCGGTGGCGGCCAGTGGGTCAGCAGTCTGGAAGTTGTCAAATAG
>SRR1151209_02454 hypothetical protein
ATGAAGAAAACAGTTTTGACATTGCTAACCGCGGCCGCGCTGGGTATGACTGCTTTAGCACCATCTGTTCTAACTGCTGCCACTCCCGTCATGGCAGCTGTCCAAATGACTCATACGCAAGGAACAGTCCGCGTGACCGCGGCTGCCGGCGCACAGGTTTACTTGGATACCAGTTTCACCCAGCCCATTAAGGGCAAAATATTGGCTAAAAATTCCACTTGGCGGTTTTCTGAATCCTTTGGTGAAGGAAATCCAGATAATCCGATAAATGCCGGCTTTGGTTTAGGTGGCAAACAGTATGTGAAGTGGGCTGATGTGCAGACTTTAACTTCTGGTTGGCCAACCAAGGGAACCTTTATCGTCAACGTTCAAAATCATCCCGCGTGGGCAACGGTGCTTTACGATAGAAACCTGAAGCCGATTCGCTCGTTACCGGCCCAAAGCCGCTGGACGGTTTTTGGTCTCTATCAAGTATATGGTCAGGGCGGCCGGTACGTTGATCAATATTATGATCTGGGTGGTCAGCAATACGTTAAATTTGTTTCCTACTCTACGCATGATTTGAGTTCTGGCCAATTTAACGGGACATTCAAATAA
>SRR1151209_02455 1,4-beta-N-acetylmuramidase
ATGTCTATGAAGAAATCGAAGCGCTGGACACTGGCAGCGTTTCTCGCATTGTTTATTGCTTTATTCGGTTTCAATTCCGTTGCTCAAGCCACGACTTATGGGATATTCGCGGATATCTCCAGTCATCAACCGGATGATGTGGTATTCTTCAAAAATCTGGCCACTAATCAAGTTGCCGGGGTCGTCGTGAAACTAACCGAAGGCAACGGCGGCTATGCAAACGACGAAGCGGCCAACCAAATCGCGGCTGCCCAGGCGGCGGGGTTGAAAGTCAGCGTATATCACTATGCCTGGTATAACGGTGCCGATGAAGCCCGGGGCGAAGCCGACTTCTTTGCTAGTCAAGCCGCCCAGCTGGGCTTGAGCAAGGATACACTGATGGTAGATGACGTGGAAAATAGCGCCATGACCAATCCCTATGACGACACCGTGACGTTCCAAAAAGAACTGGCAAGCCTCGGTTATTCTAATCAAGCTACCTATTCCATGGCCTCCTGGTTCTGGAAAAACAAACTGCCCCGCAATTATCCGATTTGGGTCGCCAATTACGGTGTCGATCAGCCAGGTGTAGATAATGCCGCCGCGTGGCAATATACCAACAACTTCAATGGCCAGCATGTCGATATGAGCTATGATTTTTCTGGCATCTTTACCACCGGCAGCACCATCACATCCCCGCCAGCGAGCAATAATGCGGATGGCGGTTCAACGACCACGCCGCCGGTGAATCCGGACCCGCTGGCCAACACCACGCCGCCAGCCAGCATGTCAGGAATTGCGACGATCAATTACATCCCGAATTACGGGATCGCTCTGTGGAACGGCTATGGCGCGAATCGAACGTACGCTGGGCGGACCTTGCTGACCGGGACGAAATGGAAGGTGCTCGCCCAAACTTATGCGGCTGGCGAGTATTGGTACAATCTCGGCGGCAATCAGTGGATCGAGGGCCAGTACACGAATATTGATACCGGGACCATCGGGGTACCGGCCGTCAATAGCAACGGCGCGTCCAATTCCAAAGTCGTCACGATTAAGTATGTACCGAATTACGGAATCGCGTTGTGGAACGGTTACGGAACCAGCCGGCAGTATGCGGGGCGAACCCTGATGAATGCGACGAGTTGGGCGGTCTTCGGTGAAAAATATGTCGATGGCGGGTTCTGGTACAACCTGGGCGGCAATCAGTGGATCGAAGGACAATATACGACGAGTCCGAATGGATTGCCGGCGTTTGAATAA
>SRR1151209_02456 glycerophosphoryl diester phosphodiesterase family protein
ATGAGAAAACTCAATACACATTACTTATTGCTGACGGCATCCACCGTGATTGCCGCCCTGACCCTGATCTTCGCTGGCGGGTTCACCGTCATCGGCCATCGGGGAGAATATTTTAGCAATCGCTACGGGACTGTGGAACACACTTTCCGCTCCTACGACAACGCCTTAACGGACGGCGCGGATTGGTTGGAAATCGATTTGGAACAGTCTTCCGATGGGGTCTTGGTGATCAGTCATGACCCAACCACCAACCGGCTGTCTGGGGTCAATCACATCATCAGCCAGACGCCCTGGTCCACATTGAGCCAGCTGCCGCTGGGGAATAGCGGCGAAAAGATTCATTCATTGGAAGAACTGTTCCAGCATTACCGCAACGACCAGCGGGCCAAATTCGTCATTGAAACACGTCGGGTCAACGGACAGCTCACCCAGGAGCGAGAGCTGCTGCAGATGGTGGCCAAATACGGCATGCAGCACCGGGTCTACTACGAATCCTTCGTGGCCCCGTCGCTACAATTGATTCGTGAACTTGATCCCAGCGCGAAGACGATGCTGCTGACGAATACGAAGCATATCGTCACGCCGGAGTGGATCGCCAGCATCCGTACATCACCAGCTTTGGAACTTACTGGGATACGTTGGATGGTGCCGGGGTTAATGCAATTCATGCCGCCGGCAAGCAGGTGTACCCGTGGTTCAATACATCCGAGACCGGCGATGCCGCCCAGGACGTTATTTCTCTAG
>SRR1151209_02457 N-acetylmuramidase
ATGAAGTTAAAGAAACTATTGGTCGCGGGCGCGTTAGCTGCTGTTGTGGGCACCACCGCCAGCGCTGTGCCGCAGGTCAAGGTCAATGCCGCAGTGGATACATCCGCGGCTGCCGGCCAGCCCGTGACGGCCGCGGCGACTTTAGCCACTGCGCAGCAGCGCCAATTCGTTTTGTCGATTGCCAACCAAGCGATGGCCACGGCCCAGCCCAATGGCCTGTACACGTCCGTGATGATGGCGCAGGCCATTCTTGAATCCGGTTACGGCTCGTCGCAGCTGTCACTGCCGCCGTATTACAATTTGTTCGGCATCAAGGGTGATTACAATGGGGCGTCGGTGACGTTCCCGACTTTGGAGTGGGATAAGAACGCGGGCAAGTACGTCACGGTGCAAGCTGCCTTTCGCCAGTACCCGAATTTCACGGCGTCCTTCCAAGACAATGCAGATAAGCTGCGCAATGGCGTTTCTTGGGATCCCGTACGTTATCAGGGCACCTGGATCGAAAATACGACCAGTTACCAAGATGCGACAGCCGCCCTCACCGGTACTTACGCCACGGCACCAGACTACGGTACCAAGCTGAATCGGGTAATCACCAACTGGAACTTGACGCAATATGATACCCAATACACTGCGATCAATGCCGCCATTTATGCTGGGCCTAATGGGGCCACTGTGTATGATGACTTTACCAGTAACGGCACCAGCACTGGGCGAGTCCTGCCAGCGGGCTCGGCCTGGAAGGCCATGCGCTCTGTTAATTTGAACGGCGTGCTCTGGTACAATCTGGGCGGTAATCAATGGGTCCAAGGCAATGATGTGACATTGACTCAGCCGGGATCGGTCACGAGCCTCCGCGGTGTAGGCCAAATCAACTATGTGCCGGGCTATGGTATCGCTATCTGGACTAATAACGGCCACGTCATTCCTGGCCGCTATCTGCAGCATGGCACCCGCTGGCAATTGTATCAACGGAAGATTTACAACGGCCGGGTGTGGTATAACCTTGGCGGCGACCAGTGGATCGACAGTCAGTACATTATTTTGCGCTAA
>SRR1151209_02458 hypothetical protein
TTGTCCACAACATCAGAAACCATCACCGACGCTGGTTTTCTTGCCGCCCTGGCGGCCATGCCGCTGATCAATGGGGCTATTAAACACACGACGTACCGCATCGGCATCGCCGAGCGGGAGGATTTGGTCCAGGACGCGATCCTGACGTATGCGGCGTTCTATGATACGCACACCGAATTATGGGGTGCCGACCCCGATGCCTTTCGGGCTCAGGTCTATCAGAAAATCCGCTGGCTGCTCTTGGATAAACTGCGCCGGGAGAAGTGGCTGACGGAACGGATCGAGCACGACGAAGCGGCTTTGGCCAACTTGCCTTTAGCCGGCGATACCGAACTGGCTGCTATTACTCAGGCCTTGCGGTCTTTGGCTGGTACGGACCGGGAACGGGCCGTGGTCGAGTACCACTGGCTGCGGGGTATCCCGCTAGCTCAGGTCGCCGCCGCCACCGGCGTGCCCGTTCGTTCATTACGCGCGGTGCGGACCACTTTACGAACTCGCTTGCGCCGCTTGGAAGCGATTTGA
>SRR1151209_02459 amidase
ATGCACGTTCGCAAGACATTGGTCAGTTTGGCCTGTGCCGCTGCCCTAAGCGCGGCTGCTTTGCCGCTCATGACCCATACCACACCAGTAGTCGGGCTGCACCACGTTCATGCAGCCGTGAGCAATAGAGACATTAATGCCCAAAGTTTCGCCAATCCTCAAATTACGACCTATCCCACCACGTTTACCAAATACTTTGGTTACCGTAACGGGGTGGGCCGGCCGGAGGGGATCGTCATCCACGAAACGGCGAACAGCACCTCAACGATCGACAATGAAGTTGCCTATATGCAGCGGGCTTGGCCGACAACGTATGCCTATGTGCATGCCTTCGTGGACCATTCCCGGATCATCAATGTTCATCCCACTGATTACGGCGTCTGGGGCGCTGGACCGGCGGCCAATGCCCGGTTTATCCAGCTGGAGCTGGTGCGGGAGCACTCGGACGAAGACTTCGCGGCGTCAATCAATAATTATGCTTATTACGTTGCTTATCTATTGAAGCAATACGGGATGGGTGTTGATCTGGCCGACAATGATGGGGCGGGCACCATTTGGTCCCACAACGCTGTCAGCGATTGGCTGGGCGGGACAGATCATACGGATCCCATCGGTTATTTCAAGCAGTGGGGTTACGATATGAACCAGTTCGCCGCCTTAGTCCAGCAGAAATATGATGCCCTCAGCGATGATGGCGGCGGGAACAACAACGGTAATGGCGCTAACCCGGGCCAGCCGATTTTTGACACTGTGGCTAATCAGCAGTCGGTGGACTTGCTTGGTGTCATCAATGGTACCGCCACCAACGGCAAGTACTATCTGACCGACGCCGGGTTCACCCAAGCAGGGACGAGCGCCAGCGAGAACGGCAACGCGTACCGGATCACTCAGCAGGCGACGACCACTAATGGGACGTCAATGTATCTAATGGCCAACGCCAGCGGTACGGGGCAGTTCTGGGTCATTTCGTCCATTGTGTCGACGGAACCGCGGCCGGCTGCAGCCCCAGCAATCACGCGGAATCAGAATGTGACCGGGACGCTGCGCTTGACCAGCAGTGCGATTCTGCACAATCAGCCGGGCGACGGGACTTTCTTAAAAGGTCTCACCGCGGGCACCAGCTGGTCGGTTTACAAGCAAGCCACCCTGAGCGACGAATCGACTTGGTTTACCTTGGGCGGCAATCAATGGGTTGCCGGCAACAAGGGCACATTCAACCAGGCCAGCACCCCGCCGCCGGCCACCGGGGGCGGCAGTTCAGTCGGGGAGGGTGAAGTCACCGACTTCCGGGCTGTGGCCCAGATCAATTACGTGCCAAATTACGGCGTGGTTATGTGGACCGGTGCCGGGCGCGTGATTCCGGGCCGGGTATTAAAGCACGGCACCCGCTGGGCGGTGTTTAAGGCTAAGAAGATCAACGGTCAGACGTATTACAACCTGGGCGGCGATCAGTGGCTGCAAGGGAAATATGTGATCATCCAATAG
>SRR1151209_02460 hypothetical protein
ATGTATATCGTGCAAGTCATGACCAATAAAGGCACTGACGGCGACCTGATGGATAATGTCACCCGGGTCTACTTCATTCTTCTCGATGGCACTAAGAAACAATACATCGGCCACGAAATTGCCGGCATCATTACCGATGGCGCGCCCAAGGGTCCTTACGCGGATTTAGTAGTCGCGACCCCCTGGGAAGAAAAGAAATATGGTCCGGGGTGGCATGTGGTCAATATCGAACCGGAACCATTGGAAGGCACTAAAGTGGCTGGCATTGATGATGCCGGTTAA
>SRR1151209_02461 glycoside hydrolase
ATGAAAAAGTCAGTTGTCACTTCAGTCATCGCCGCAGCACTTCTCGGAACCGCCATTACTACCACTGCTCATTACACCGCCCAAGGCAATTCGGACAATGCCATTGTGCAAGCCGCCACTGTCAACGCTGTTAAAGGCGATATCGTCTGCGTCAGCAACTCTGTACACTCCGCGGCTGGCTTCTATAAGACTCCGGATTCTGTCAACGGTCAAAAGACGCAATATGGTGCCTATGGTTCCCGTTGGACGATCTGCAGTGTGACCACTGACAGCAACGGTGTTACTTGGTACCTGTTAGGCACCGATGCTTGGGTGAAGGCTAACGACGTATTAGTTGAAGGCAAGCAGACTTCCCAAGATGTTCAATCCGTCATTGACTTAGCTTACAAGCAATTAGGCAAACCTTATGTTTGGGGTTCTAAGGGTCCTTCCAGCTTTGACTGCTCTGGCTTGATGTACTACCTGTTCAAGAACGCAGCCGGCACGAACATCGGCGGCTGGACTGTTCCTCAGGAAAGCGCTGGGCAACAAGTTTCCATCGGTAACTTACAGGCCGGCGATCTGATCTTCTGGGGTTCTCGCGGTGCCACTTACCATGTTGGGCTGTACATCGGCAACGGTAAGTACATCCACGCGCCACAACCGGGTCAAGATGTCCAAGTTGCTTCGATTTCCAGCTACTTCCAACCTTCCTTCGGCGTTCGCGTACTTTAA
>SRR1151209_02462 hypothetical protein
TTGGTCGCGACCGCCAGCAGCCCCGCGGATCTCAATAACCGGGTCCAGCAAGTCTTGCAGCAATTGACCCAGCGCATGGCCTTGCAAGTCACTGACGGCTTGCAGCCCCAGACGCTGCCGGATGGCGCTGCGGCGCAACTCGCCGCCTTTCTCAAAGAACCGGCCCAGGGCAGCGGCCAAACGATTGGTGCGGCCTTGACCGCTGCTAATGCAAAAGCCCAGTTCATTGTCGGTCAAACTGTCCCTGATTACAGCCAAATCTTTACGGCGTGGCAAAGTCTCTTGACGGCCAACAAGCCGGAACAGGGTGTTGACGGCGATAAACACGATACCGCTGGCGATGGCCAAGACAAGGATCCCAGCGATCCCACACTGACCGTGACCACTGGTGATGGCCATGATACATCCGGGTCAACCGCGGCCGGTTCCGATACAACACCGGTCGTGCCCACTCCCCCGACATCGATTAGCGATGATAAGAAGCCCAGCAAAGAAAAAGACAAAGGCGGGGCCGTACTTACGGTGCAAACGGACGACCAGGATGTATCCGCTAAGGCGGCGCCAGCAGTGAAAACCACCAAGGACGACCGGAAAGTCGTCGTCCTCAATGAACGGATCACCTCGATCCAATATGACAATTACAACGGCGCGGCCGCGGCCGGTCAAAATACTCTGCCCCAAACCGGCGAAGCCGCCAATCAGGATCACTGGATCAGCCTCACCGGTTTCCTGCTTCTTGGCCTGGTCTTCATTGTCGCCAGGAATCCCCGCCGCCGTATTGATTAA
>SRR1151209_02463 hypothetical protein
ATGGGAGAGAAGAAAAAACACGTGGCGCTCTGGTCAACGGGCGTGATCGCGGCGATCATGCTAGGGGGCGCGACTGTAAGCGCTGTACCGCGTCGTTCGGTGCAAGCCGCGACAACAACGGAACAAACGACGACGGTGTGGTCAGCCGCTGCCGAGCGGTTAGCAGCGACTGATTTATTACCAAATGCTGTCGTGCCCGTCACTTGGCAAACCCCTGTGATTCAGCAAACTGGCAATACATTAACGGTGGATACGCAAACCACTTTATTGAGTTTGGTTAAAAACGCACAAAGCAGTACGGCGCTCACGCAGGCCTGGCAGCAAATCGGCCAGCAGATCGGTTGGCGCTTGGCCATGACCATGACCCGGGTCACAGCGGATCAGCTGCCGGCGGATAGCGCGGCGGTGCTCGCCTATGATGCCAGTCCGGTGACCAGTCTTTTCAGCAGTCAAGGCGATTCGGACTACGCGGCAGTTCTGGTCCAGGCCAACGAGGAGTGCACCGCTATCGTTTTAGCCCCTGCCCTGCAATCTTTGCAAAGCGCGGCCGGCCAGCAAGGCTGGGCCAATCTCGGCATCATCAACGCTAACTTTGCCGTGACCAGCTAG
>SRR1151209_02464 PadR family transcriptional regulator
ATGGCCGAAGCGCACATTTCGAACGACATGATCCGCGGGTACACCAGCACGATCGTGTTGAATATCCTCGCTCAAGGGGATAGTTACGGCTACCAGATCAGCAAAGATGTCACGGCCCTGAGCGATGGGACGTATACGATCAACGAAGCAACCCTGTACACCGTTTTCCGCCGGCTGGTGAAAAACGGCAGCATCACCGGCTACTGGGGGGACGAGACCCAGGGCAGCCGGCGCAAGTATTACAGCATCACGTCTCAGGGCAAAGAAGAATTGACCGCGGCCCAGGAGAATTGGGCCACGGCGAAGCATGTGATGGATGATTTGATTCTTGGAAAGGTGGCAATCAATCATGAGTAA
>SRR1151209_02465 hypothetical protein
ATGAGTAATGCAGATCGTGATGTATTAATTATTCAAAAACTGAACAAGTCGTTCAACCAATATCCCCAGACGTCTGACAACAAGGACCTCTTTGCGGAGCTGTTCGGCAACTTGCGGGATTCGGCGGCGGAGAAGATGGCCGGCGGCAAGACGGCAGAGGAGGCCGTGACGGCCGCCTTCCAGGAATTCGGCGACGTGGACGAATTACTGAAGCAAGTTAATGAAGAAAATGGGACGACAAAGAAGCCGGCCCCCGCGCCGAAGCCGCTGCCGAATGCGGCGGGTCCGGTGCCGCCGGTAGCACCAATTGCTCCGGTACCGCCCATGCCTGTACCGCCGATGCCGGTCCACAAGCCGGACCAGCGGCTGACGGAAGTGCAGCGGTTAACGGTGCCGGGGGCGGATACCGGAGCGGTGACCATTAATTATCCGGATGACTTGGAGCTGCAGCCCACCGGCGCGGCGGATTTCACCCTAATCGAATACATGACCACCGATGAACCGGATCGCTATGCCCGGATGACCCGTGTCGGTGATGAAGTGGGCGTTCAAGCCGGTCGGCGCTCCCACTTCGGGTTCACCCTGCGGATCAACGAATTGAGCTGGGGCTTCCACGCCCGGGCCGTGTTGCGCGTCCCGACCAGCTTCACCGGAGACCTGACGATCAACGGCGACGACGGCAACATGGCACTGCATGAACTGGGGACGCTGGGGTCCGTGGCGGTGAAAATTGATGATGGCAACCTGCAAGTTACCCAAATTGCCGGCAGTGATCTGAACATCAACGGCGATGATGGCAATATCGGTTTGACCGATCTGAATTTCCCGAGTACGAATATTCATGTGGACGACGGCAACACGAAGGTGACTAATGTCCAGGCGGGCGATGATTTCAGCTTTGACGGCGGCGACGGCAATCTCCTGCTCGACACGGTCAATGCTGGCAGTTTGTCGATCTCCGGCGATGACGGCAACCAGAGCTGGTCGGTGATCCGGGCTCGCGATGCCGACGTGTCCTTCTCCGACGGCCGGTTGGAAGCCACCGATGTGATCTTGACTAATCTGGACCTCTCCTACGATGACGGCCGGGCGGCTTTCCACCAGACGACCGTGCAGAACCCAATTACAGCGTCATATGAAGACGGCAGCCTGACGCTGGAGCAGTTCACCGGTGCGGGCGACTTTACCTTAGAAGACGGCCGCTTTGCCGGGAGTTTCACCCAGGTCACCGGCGATATCACCGTGACCGGCGAAGACGGCAACGTCCGGGTGGATCTGCCCACCGCAGCTCAGTACAATTTCAATCTGCACCGGGAAGACGGCCATGCCAATGTGCCGGCGGAAGCGATCTTCACCAAGCAGGGCAAACACCGCTGGGTCGGCCAAGTCGGCGCTGCGCCGGAATTTACCGTCAAGGGATCTGTTGAGGACGGCAGTATCAGCATTCGCTAA
>SRR1151209_02466 hypothetical protein
TTGCGGCGAAAATGGGGATGGATTTTGGCGCTGTTGGGGATGGTACTGGTGTTGGCCAGTGCGTGCAGCCAGCCGGCGAGTATGGTGGGCCCGGTCTTGAAGCGGGCGGATACAACGTGGTATTTGTACCGCGGCCAGGGCAAGAGCAATGTCTTGCTGTTGCAGTTCAACAAAGCGGACGCGGTCGTCAAGGCCGTGGATGCAGTGGGCGAGACCGCGGGGGAGAACAAGCTGAACAGTGACTTTGCCAACCCCAAGTATACGGCCGATACCACCAAGAACACGGTGCACATCGCCGCCGCCCAGGCCATCAACCTGACCTTTCAAAGCGGCTACACCGGCACGGCCAACGGCTATGCCGTCTCCGGCTACACGGTACAGTATCAGGGCAAGCCGTACCGGTTTGTTCGCTTGAAGAACACGAAGCAGAAGAAGACCACTGCCAATACCGGCAGCAGCCAGAACGGCGGCCAAAGCGCCAATGGCGATACGTCCAGTCTGGCCAATCGCCTGATGGGCGCGCTGGTGGACGTCAATACGGGGGCTCAGCCGGTGGCAGATAAAGCCTTTGTCGGCACCTTTACTTACCGCATGTTCGTTGGTAAAAACGTCGGTGCCGGCCAGATCAGGGTGAATGCCAACGGCACGTACCAAAATGCCGTGACGGTGCTGAATACGACCAAGCCCGAGGATGCGGACAAGGCGGCGGTCATTTCTTACAGTCTGGCCACCGGTCAGCTGCAATCGTTATATGGTAAGGAATACTTGAACCCGAAGAATCTGCTCACGGTGGACTACACCGTCCACGGGCAGAATCAGGCACGGCGGCTGGCCCAGCGGGTGACGCTGTGGACCAACGGCAAGTCCGGGGATAATATCAATCTGGCCCGCGCGCGGATCGAGAACACCAACGCCCAGCTGATCTATTATTCCAAGGACTACACGCCGTGGCCCAAGGAAGGCTTGGGGCCGGTGCAGACTGGGATGGCAATGAGCAAGGCGGACGCCGCCGCACCGAGCATTCCGACCATTTACACCAACACCCTGGGCGCGTACCGGAGTATTCAGAAGGCGCCGGTACAAAGCAACGCGGACTTCATGCAGCTGATCGGCGCCATCAGCGACGCTCATCGGCAAAACGTCGGCCAAGTGGCGGTGGACTTCACCGACATGTACGGCGCCGGCGTCAAGCCGACGGATTACCAGGCCATCAATAAGGACGGCAGCAAGCAGGCGTTGATGCAATATGTCTTCGTCGTATCCCCGGCGAAAGTGGTCGAGGGCGCCAGCTACATCATCAGTACCCAGAGCGGCGATCTGCTGGTCTTCGGCCTGCTGGGCGGCAAGCTGTACCTGCTGCACCAGCCGGATCACGACTCGGCCACCGTCACTTGGATGATGATGCCGGACGTGGATCTGACGGTACCGCCGCTGCAGATCCGCTTGAATCCGGGAATTTAA
>SRR1151209_02467 hypothetical protein
GTGCGGGCCAACAAACTCCGTACAGGCGCTATCATTTGTGTGTTTTTCTTCATTGTGTCGCTGGCGTTCCATCTCATGTTCATCGTCAGCAACCGCATCATTTACTATAATCCCACGGATACGATCTTCCATCTGACCCGGATCGTCGGGTTAGAAAATGTCTGGCAAAGTCCCGTGAACTTCACGACTTTTGCCCACCACGGCACGGCGATGAATCTCTTTTACCCGTGGCTCACGCTGTATCCGGCCTATTGGCTGTACAGTCTCAGCCGCAATCTGGTCTGGGCGTACCATGTTTACTGCTGGCTGACCACGTTCGCCACCATGCTGATCAGTTATTGGGCATTCCACACCCTCTGGCCAAAGCGGGAACGGGCGATTGTTTTTGCGCTGCTGTATGCGCTGAACCCTTACCGCATCAGCGATATTATTGCCCGGGGCGCGCTGGGCGAAGTGATCGCCATGACTTTTCTGCCCATTCTGCTGGTCGGTATCTGCCAGATCCTGCGCCGGGATCCGCGGCGCTGGTACATTCTAACCATCGCCATGGTCCTGACGGCTTACACCCACAATCTGTCGCTGCTGATGAATGCCGTGGTGATCCTTGTCGCTCTGCTGGTCACCTGGCCGCGGATGACAGATAGAAAAGTGCGTCTGCTGGCCGTGCTGAAAGCTGGGGCGGCATCAGTGCTCCTGTGCCTGCCCAGTCTGCTGCCGATGGCCCAGTGGAGCCGGGCCAATGCCCTAATTATCCCATCCGCCCAGCGGGTCTACAGCACGCCCTTGGGTCAATTGCTCACGGCGACCGGACTGACCGATGCCTTCACCAATAATATTGGTTTGATTTTTCTCGTCATCATGATCATTCTGCTGGTTTTCAGCCGCCGGCTCAACTTAACGGATCGCGTCCTCCTGGGGACCACCAGCCTGTTCCCCTGGGGCTGGCTGGCCTGGACGCCGCTGATCAAGATCCAGTTTGCTTTCCGGTTGAACTGCTACATTTCTCTCCTGCTGGCCTACTTGGCGGCTAAAAACTACCCGGCGCTCACCCAACCGCACCGGCCGTGGCTCCCCTGGGCCGCCCTCCTCGCCGTCGCCGGGTTAATGGTCGGAACAGACCTGACGATGACCACCACCGCCTATGCCCGTGCCGCTAATCGGCAGGTCGTTCTGACAAATAAGCGGCTGGCGTACCTCACGCACTATTACAACCACCACGATTACGGTAATGCCCACTACCGGGACCATCCGTCAATTATTGATAAAAACATCTTCAAACTCTACAACCGGCGGGCCTGGCCGCGGAATACGATCACTCCGAATACGTATACGATACGCATCGCCAACACCAGTCTCACCCAGGCGGTGTTCACCATCCCGGTGTATCACTACGCCGCCCAGCGGGTCACCGTGAATCACCACGCCAGCCGCGGCGTGCTGAACAAGTCTGGCACCACCGACGTCCTGATCCCGCCGGGCAAGAGTGTGGTGCGCCTCACCTACCATTACGACCGGCTGATGCTGGCCAGCGCGGCAGTATCGCTGATCACGTTAATCAGCCTGCCGGTGCTGATCCGCCGGCACATCATCTAG
>SRR1151209_02468 filamentation induced by cAMP protein Fic
ATGGCGGCAGATAAGTTCGCGATGAGTCGGGACGGGGAAGACATTTTAGTTGAGAAGAACTTTGCCCAACTGGTTTGTCTGGCTGGCAAAGTTGCAGGGTTGTCCACAACGCTGCTGGACACTCAGGCTATTTTGGCAGATCTGAGCGGCACTCAGGCTAAACCGAGTGAAATTCGTACGATCTTGAATTTGCGCGACGCGTATCACTATGCGATGTCCTTGCAATATATCAGCGAAGTGAGTTTTGCGGCGTTATTGAAGATCAATTTGCTCGTCATCGGGGCCGGCGCGTCTGGGGCGGGTCAAATTCGAGTACAACCGGTTGTCGTGCCGTTAACGGACATGATGTATCAACCGGCAATCCCTGATGAGACACAGGTGAAGCGTGAATTTTCAGATTTGGTGCAAAGCGAGGCAACGACCACGGATAAAGCCATTACCTTGCTGCTTTGGCTTTCCCGCGCACAGCTTTTCTTAGATGGTAATAAACGAACCGCGATGATTGCGGCGAATGCGTTGATGTTTGCGGATCAGCGAGGGCTGTTGGTCGTTCCGGAAAAGGAGTTGGCGGAATACATGCAACGACTTCAACAGTATGACAAAAACGGCGATGCCACCAACCTCAAACGCTGGTTGTATGATAACGCCGTCTTTGGATTTTAA
>SRR1151209_02469 hypothetical protein
TTGGCCTATAATGTTAAGCCCGAGCCCAGAGTGCTCAAATACGTGAAGAAAATAAAAAACCGAGAACTCAAAAAATTGTTCACCACCGCGATCTACGAGGATATTGCCAACGATCCCGAAATTGGTGAAGAAAAGGTCGGCGATCTAGCAGGTTACCGGGTTCTCGGTTTTAAATACGCAGACACGTCCTATCGAGTTGCCTACATTATCACGGAGGATGTAATCGTTGTGGTGATTTTAGCTGGCCCGCATGAAAACTTCTACCGAGACCTCAAAAGTATCAATCGCAAGTCGAAGTCATAA
>SRR1151209_02470 hypothetical protein
ATGCTGACAAAAACTAGGAAACAGGGTAATTCATTAACCCTGACCGTACCAAAGGAGTTTCAAATTCCCGAAGGCGAGACCATGGAACCCGAGTTAACGGACAAGGGCATTTTTTATCGGTTTGTCGATAAAGAAGACGACTTCTTCGATTTTACAAACGACATTCTAAAAGATTTGCTCGACGAAGGCTATGCCGGTACTGCACTGCTGGATGAGTTTAAGAAGCGGAAATCAGCTATTCCTAAAGCATTCAAAGAAATGCGTACCCATACTACTGGGCATATTATGACCCGTGAGGAGTTTGAAAAAGAAGTTGGCCTATAA
>SRR1151209_02471 membrane protein
ATGTACGATAAGTTTGTGGAGAATGTGCGGTTGCGGCGGTGGACGGTGTTCTTTATCATTGCGCTGCTGCTGTTCTTGATGCGGAGCCAAATGACGACGATTTTGCTCACGTTCATCTTCTCGTTCCTGGCCGTACGGTCGCTCCAGCATTTACGCCGGCACTTCCCCATTAAGCGGCCTTGGATGGTGGTCGGCCCGCTGTACCTGCTGGTGATCGGTCTGCTGTATCTAGTCTTGACCCATTACGTGCCGATTATTGCCCGGGAAAGCCACCACGTTATCAATGGGCTGATCCGGTTTTACAACAGTCCTGAGTTTGATCAAAACGCGACGTGGAGCTTTCTCTCCCGTTGGATCGATCGCTTAGGCTTGGCCAATCAGCTGCACAACGGCTTGAACGGTGTAGTGGCCACCATTACCAGCATTGGGCACGTTGGCTTTGCCATCGTCATTTCCTTCATCTTAAGCTTCTTCTTTGCAGTGGAGATCGACGATTTGAAGCGGTTCGGCCACAATTTTCTCACCAGCGACTTGGGCTGGTTCTTTCAGGATTTCAATTTTTTCGCCCAAAAATTCGTTAATACGTTCGGCGTTGTGATGGAGGTACAGCTGTTCATCGCGGTGGTGAACACGACGATCACAGCCATTACGCTGTTCATCATGCGCATGCCCAACCTGGCCAGTTTAACCGCTATGGTGTTCTTCTTCTCGCTGGTACCGGTGGCCGGGGTGATCATTTCCCTGATTCCGTTGTCTCTGGTGGCCTTTTCCGTCGGCGGCTGGCAGGATGTCATTTATATTCTGATCATGATTGCCGTGATCCACGTGCTGGAAGCCTATATTCTCAACCCGAAGTTCATGGCCAGCCGGACTCAGCTGCCGGTTTTCTTCACCTTCGTGGTGTTGATTTTTGCCCCGGAGATCATGGGACCGTGGGGGTTGATTGTGGGCATTCCGGTGTTTACTTTCCTATTGGATATTCTCGGGGTGAAGAGCATTCCGCGCCCCCAGCGGGTGAAGAGAGTTAGGAAAATAGTCAAGGAGGCTGTTCACGATGACGATTCAGATCACAGCAGTGACAAAAAGTAA
>SRR1151209_02472 GNAT family acetyltransferase
ATGACGATTCAGATCACAGCAGTGACAAAAAGTAACGTCCGCCAAGTCGCGGATCTGCAGCATGATTTATGGCCGGAGCATCCATTACTGGACTTGATCGTTGCGGCCCAGACCGCGGTACGTCAGGCTAAGAGCCATTATTGGCTGGCGATGGATGGGACGCAGGCGGTCGGCTTTTGTGAAGTAACGCTCCGGCACGATTACGTGGAAGGGGCGGATACGTCGCCCACCGGTTATCTGGAAGGGATTTACGTCCTGCCGGATCGCCGCCAGCAGGGCATCGGCACGCAGCTGGTGAATGAAGCGGCCCGCTGGCTGCGCAGTCAGCGCGTCAGCAGCATGGGCAGCGATGTGGCCATGGACAACACGGTGTCCCAGGAATTCCATCAGGCCTTGGGCTTCAAGGAAGTCAACCGCCTAGTCCATTACCTGCGGAAGAACTAG
>SRR1151209_02473 serine hydrolase
ATGCGGAAGAAATGGTGGCCGCTTCTGGCCGGCGGGGTCATGCTGCTGCTAGCCGGAATCGGCGTGTGGCGGGCGGCGTTGGATCGGCCGGAAGCGGTCAGTGAAGAAAAGCTGAACGGGCCCGCACTGAATAAGGCGATCGACCGGGTCGTCGCGCCGACGCATTTTAAAGGAGCCATCGCGGCGATTAAGAATGGCCAGGTGGTTACGGTGCGGACTTACGGCTATGCCAATGCCCAGACAAAGCAGCCGATCACCGGGGACACGTTATTTCCGATTGCCTCCATGGAAAAGCCGATGACCACCGCGCTGATCGCGCAGCTGATTCGGGAGGGCAAACTGAACTACACCACCAAACTGAGCCGCTTTTATCCGGCCATCACCGGTGCCGATCAGGTGACGGTGCGCGAGCTGCTCAACCATACGTCTGGATTGGCGATGGATGAGGTGCCGCCAGCCAGCGAATTGACGACAGACAAGGCGGCATTAGCCTATACCGTTCATGAAGTGACTAATACTCAGGATAAGTCGTTCAATTACACGAACGCCAATTTTGTGTTGCTGGCCGGGATTGTGGATCAGCTGACCGGCGAATCGTTCAATCAGGCATTAAAAAAGCGCATTTTGGACCCGCTGCACCTGACCCATACCTACGATTATCGAGTCATTCCCAAGGGATCAGTGGTTGCTGAGGGGTACAAATATGACAACGGCCGAGATTATGTGCCGGAAGAATTGGATCACAAATTGTTATCCAGTTTGCTGGGTACCGGGTCGCTGTATATGTCCATCAAAGACATGGCGGCATTCCAATTGGCGTTGAGCGATGGCCGTTTGCTGACGCGGCCGCAGTTCAAAGAATTGACGGAACAGCCGGACCATGACGGCAATTACAGCGGCGGCTTTTTCAATCTCGATGAAGACACGCGGCTGGTGGTCGGGCAATATGATGACTTCCCAAACAGCTTCAACACGGTCTTTGAAGCATACAACACTAATTCTGCGGGGGTCTTGATGTTTGCCAATCAATTCACGGATGCTGATACTAAAAAGATGGCAGAAGAGATTTTGGGCCACTTATAA
>SRR1151209_02474 2,3-bisphosphoglycerate-dependent phosphoglycerate mutase
ATGGCAAAACTTGTATTGATTCGTCACGGTCAATCTGCCTGGAACTTGTCCAACCAGTTCACAGGCTGGGTTGACGTGGACCTTTCTGAAAAAGGGGTTGAAGAAGCCCAACATGCTGGTGAATTACTGAAGCAAAGCGGCATCGAATTCGACCAAGCTTATACTTCTGTATTGACCCGGGCCATCAAGACCCTGCACTATGCATTGGAAGGCTGCGGCCAACTATGGATTCCGGAAATGAAGTCCTGGCGCTTAAACGAACGTCACTATGGCGCTCTGCAGGGCCTGAACAAGAAGGAAACTGCTGACAAGTACGGTGCTGACCAAGTCCACATCTGGCGTCGTTCTTACGACGTGCTGCCTCCTTTATTGAAGGCGACGGACGAAGGCTCAGCAGCCAAGGATCGGCGCTATGCTGATTTGGATCCCCGCATCATTCCTGGCGGCGAGAACCTGAAGGTCACTTTGGAACGGGTTATTCCTTTCTGGGAAGACCATATCGCTCCGGATCTGATTGCTGGCAAGAACGTCATCATCGCTGCCCATGGTAATTCGCTGCGGGCTCTGACCAAGTACATCGAGAACATCTCTGATGCCGACATCATGAACTTGGAAATGGCTACTGGCGAACCGGTCGTTTATGACTTCAACAAGCATTTGGAAGTACAATCTAAGACTAAGCTCGACTAA
>SRR1151209_02475 hypothetical protein
ATGTACCGTAAAACAATCGGTTTTCTCCTTGCCCTCGCCGTGGCGTTGGCCATGGTGATTGATACGTATATTCTCTTCTTTAAGAAACCAGCGGCTGTAGAATCCGCCGCGGCCAGCAGTAACCAGCGCAGTGCGGCGTCATCGTCATCATCAACGACCGCCACGGCCAAACAAGCCTTGAAAGACGGCACGTACACCGGCAAATCAGTTGATACCCCACATGGTGCCGTGCAGTTGCAGATCGTCGTGCGCGCCGGCCGCATCAGTCAGGTCACCACCCTCGCTTATCCCAACGAAGAGCGGCGGTCCGAGCAGATCAATGCCCAAGCCTTGCCGATCCTGAAAGAAGAAGTCTTGAAGAGCCAAAGTGCCAGCATCCAACTGGTCTCCGGGGCTACGGAAACCAGTACCGGCTTCAAAGATTCCCTGCAAAACGCCATCAACCAAGCCAAAGAAAGTCAGGCGAGCGCATGA
>SRR1151209_02476 thiamine biosynthesis lipoprotein
ATGAGTATTCCATTTATTATTCACCGCACACTGCAAGAAATGACGATTCCCTTCACCATCAGTCTGGCCGTCACTGACCGGGCCGCCGGGGCGCCTTTGCTGACTCAAGCGGCCGAGCAAGTGAGTACGGCGCTGGCCCGAATCAATCGGTTATATTCGCCGTTCCGAGAAGCCTCTCTGGTGCGCCGCTTTCAGGCCGGCGACCAAGGGCTGCTGCTCACCGAGCCGGAATTTCAAGAAATTTATGCAGCTACTTTGGCCGCGGCCCATTATACCCAAGGGGATTTCGATCCCTTCTTTAACGGCGCCTTTGATCCCACCGGCTACGTGAAGGGCTGGGCGGTGGAACAAATCACCACGGCGTTTCTGACCCCGCTGCTGGCCAATCTCCGGGTGATCGCCGTGAGCCTCAATGGCGGCGGCGACTTGCAGGCGGCCACCCGGCCGGACAGTGCCTTCACGTGGCACATCGGCATCGAAGACCCGGCCAATCCGCAGCGGATCATTGCCGCTTATGAGCTGGCCAATGGGGCGGTGGCCACATCGGCGGAAAATAAACGGGGCCATCATATTCGTCATACCGGCCCCGGGGATCTGGCCCAGGTCACCGTCTTGGCAGACCACTTAGCTGATGCGGATGTCTGGGCGACGGCCGGAATGGCTGGGGGTGAAGCCCGCTGGCAGACCCACCTCGCGGCCAATCAGCTTACCGGTCTTTACATCACCGCCGACCGTGTCCTGCATCCCTTTACGAAAGGGGCGATCCGTGATGTTCAAACGGCATAA
>SRR1151209_02477 hypothetical protein
ATGTTCAAACGGCATAATTATGCGTTGGGGCTGGCCTGGTTAGGCATCCTCTTTCTGGTGCCGCTGCCGTTTGTGCAAACTGTAGACGCTGGCCTGCCCGCCATCTACAATGATGAACGCCAAGCCGTGCTGTTCGGCGTCATCGCCTATGTCTGGATGCTCACGGCGATTTATCTCAGCACCCGGCCCCGCTGGCTGGACCGCCTGATCGGCCTGCCGGAGATGTACCTGATCCACGGTCTATTAAGCATCGCCGCCCTTGGTCTGGCCTATCTGCACAAAACCAGCACGCAATCCCAGGGCTGGATCGAACGTACCGGGGACTGGGCCTTCAACCTTTTTCTGGCCGTCATGCTCTATTCTTTGATTTTCCTCGCCGGCTGGCTCACCAGCCGCGTCCCGCCCTTGGCCCAGCTCAAGACGTGGTTAGAAAAAATCTTCAAACACGAATTCAATGTCTGGGTCCACCGGTTGAATCTGGTCGCGACACTCTTGATTTTTATCCACGTCTTGCTGATTTCGTATATCCGGGCGATCACGCCCTTCTTGGCACTCTTCCTGGCGGCATCCCTCGGGGTAGCTGCCAGTTATGCCTGGGCGAAGCTTGGGCCCCGCGCCGCCGGCCGGCTGCTGGCCAATCGGCCGCTGACCCCCGGCGTGCAGGAACTGACCATCCGGCTGCCCCGAACCCAACAACCAGCGCTGCACGCCGGGGATTTTATCTTTCTCAGTTTTCCTACTCTCCCTGGTTTGCGGGAACCCCACCCGTTTTCCATCGTCAATGATCCAGCCAATGACCGGACCGTGATCCGCCTGGCAATTCGCGGGGACGGCGACTTCACACGCCAATTAGCCTCAGTCGCGCCGCCCCAGCCAGTCGTCCTGCAAGGGGGTTACGGCCGGTACCAGGCCTTTCTCCGCGAACAGCAGCCGGCCCACGTGATCATGATTGCTGGCGGGACCGGGGTCGTGCCGCTGCTGTCGGTCACGGCCGCGCAGCCGCAGCAGCCGACGACTTTCTTCTATTCGGCCCGGACGGCAGCGGGACTGCTCTACCCGGAGTTATTCCAGGCCTGGCAAAAACGACCGGCATTCACCGCGTTCCGGCAAGTCGGTCGTTTCTCTGATGATCTGGTTGTGCAGCAGCTGCCAGCGAATACCGCGCAGACAGCGGTACTGATCGGCGGGCCGGCGGCGCTGGCCCGGCACTGGATCAAAGTCTTGACCCAGCACGGTATTCCCCGGGGGCAAATCTATTACGAAGCCTTCACCTGGTGA
>SRR1151209_02478 cation transporter
ATGGCTGTATTAAAGAGAATTGCCAGCGACCGGGTATTGCAGATCACCACCGTGATTGCCTGCCTGAGTCTGTTTTTGGCGCGCCCGCGGTTAGCGGATATCCACTTTGCGACGTTGTGGTCGGTATTGGGGATGCTCACGCTGATCCAGATCTTTGAATACCTGCATGTGCTGGACGTGGCCGCGTATCATCTGACGAGTCACGCGCCCAATGCCCGCTGGTTAACTTGGCAGTTCATGCTGCTGGCGTTTGGCAGCGGCATGTTCTTGACCAACGATATCACGGTCTTAACGCTGGTCCCCCTGTATCTGCGCATCGCCCGCAAACATGCCTTACCGCAAATTCTGCCAGTCACCCTGATTGGCATGACCGCTAATCTGGGCAGTGCCGCGACGCCCTTTGGCAATCCCCACAATATTTTCCTAGTCTCCCACTTTGTCGTTTCGCCAGCCACCTTCTTCAGCTGGTCGCTGCCGTTGGCGGTGTGCAGTGTTCTTTTTTTGTTTGCCCTAAGTTTCTTCGTGAAACCGCGACCGATACCGCCCATTAGCATTGCCAACGTCCAGATCGCGCCCCGGCCGTTTCTGGTGGCGCTGGGTGTTGCCGCGCTGATTTTTCTCGGCGTCTTTAAATTGATCCCGCCCTGGGTCGGGACGATCGCGGCGATCGTGGTCGCCCTGGGCGTGGCCCCGAGAATTATGGGTAATGTGGACTACGCGCTGGTCCTGACTTTTGTGCTGTTCTTTGTCGTGGTGAGTGACATCTCCCAAGTTGAGGCGATCTCCCACACCTTGAGTACCTTAGAGGGCGACCACCTGTCCGTGTATTTGAGTGCCTTGGGCATCAGCCAGTTCATCAGCAATGTCCCGGCCACGATATTATTGGCGCCCTTCACGGGACACGCCCAGGCCTTGATTTACGGGGCTAATCTGGGCGGCTTGGGGAGTTTGGTGGCGTCCATGGCCAATTTGCTAACATTCAAACAGTATTGCGCCGAGGGCAGCGGCAATACCCGCACCTTCTTCGCCGGCTTCGCTGCCCTGAACGGCTTGGGGCTGGTGGTGATGGGGGCCATCGGCTGGGTGCTGCTCAGCATCATGGCCTGA
>SRR1151209_02479 penicillin-binding protein 2A
GTGGCAGCTGACCAAGAACCACCCGTATTATCCCGCACGGCCCGGCGCAACGCCGAAAAGGCCGCGCGCCACCCCCGGTCGCCCAAGAAGCACCGCGGCTGGAAGATTTTCTTCGAAGTCCTCCTCACCTTAGTCGTGATCCTGGTCACAGCGGTGGGGGTCGCCTGGGCCAAGTACGGCGGCCAGGCCAAACAAGCGATTACCGACGGCTACACCATTGCGGCGACGGTGAAGTGGGCGGATTTTGCCCCGAAACAGCCCACCGTGGTCAAAGACCGCAACGGGCAAGTGATTCGGACACTATCACCGAACCAGCCGCTTTATTTGCGCTACAACCAAATCAATCCCGGCATCGTCAAGGGATTAGTCGCCGTGGAGGACCGCCGCTTTTTCGAACACCACGGGGTCGATCCCTACGCGGTGATCCGTTCGACGTTCAGCATGCTTCGCCGGCGCCAGGTCCAGGGTGGGTCGACCCTGACCCAGCAGCTGGTGAAGAATGATATCTTGAAAGACCAGAGTCAAACGCCGATGCGTAAGATTCGGGAAATGGTGATTGCCCAGGAGCTGGAGCAAAAGTTCAGTAAACACGATATTCTTGAGTTTTATTTGAACGATACCTACTTTGGCCATGGCCAGTACGGGATCGGCAGCGCGGCAAAATTCTATTTCAACACGGATCAAAACAAACTGACGGCCAGTCAGATCGCTCTGCTGGTGGGTATTCCCAATAATCCGACCCTCTACGACCCATTGAATAACCCCACTGGCGCGCGCAACCGGCGCAACACCGTGCTCTATGTCTGGGAGCAGCAGGGCCTGATCGACAGCCAGGTCTTCGATCGGGAATCCGCCAAGCCGCTGGGGCTGAACGTGACCAACGCCAATCAGAACACCAACATCACCGACAACTACGCGGTGTCCTACGCCTTGACCAATGCGACAGAAGCCCTGATGTCAGCCAACGGTTTCACGTTCCAATATGCGTTCAAGGATACGAAGACCCAGCAGAACTATAACGCCCAATATAATCAGCTCTATCAGCAGGACTACGCCCAATTACTGAACGGCGGCTACGTGATCAACACGTCCATTGACATGGGCATTCAGCAGCAGATTGAGAAAATCACGAACGCGACCTATGCCCCCTATACGGCGAAGGACGGCCAAGGCCGCCTGCAGCCGCAAGTGGCCAGCACGGTGGTGGACAATCAAACCGGCGATGTGCTGGCAATCATCGGCGGCCGCTCCACCCAGAATGATCAAGTGAACCGGGCGCTCAGTGCCCGGCCGTTCGGATCCACTGCCAAGCCGATCGTCGCCTATGCGGAGGCGTTCAGCCGGGGCTACACGCCGATGAGCACCGTGGTCGACCGGCCGGTGACCAACGTCAACGGCCAGCCGCTGCAGAACTATTACGCCGGCTACCATGGCAGCATGACCATCCGCCACGCCCTGGAAGATTCCGTCAATACCGTGGCTTTCCAGCTGGCGGCTCAGGACACGCAGAAATCCTATTACGAGAAATTGGGCCAAATGCAGTTTTCTGCGATTACGCCGGCGGACTTGGCCAACGGCGCGGCGATGGCCCTGGGCAGTTTCCGCACCAATACCACCGAAATGGCGGGGGCTTACAGCAGCTTCGCCCGCAGTGGCCAGTTCATTGCGCCCAGCAACCTGACGACGCTGTATGACAGCTACAATCGGCGGACGGTCTTTCAAAATGGTCACGAAAAGAAAAATGTCTTCTCCGCCAATGCCAGTTACATGATGCTGAACACGATGCAGGGTGTCTTGAAGAATGGTCTGGGCAAGGCGGCGGCGCTGAATAATTATCCCTATACCGCCGGGAAAACCGGGACGACCGATAATTATCGGGATATCAGCTTCGTCGGGATGACCCCGCGCTTCACGATCGCCAACTGGACCGGCTACGATTCCAACAACAGCGGCAACAACGGCCAGCTGACCGATGCGATGCAGATGCTGCCGATGGCGCTGTTCAAAGCGGAGGGCCAGTATTTGGTGACCACGTTAAAGGAAGCCAAGACAGACTTTCCGATGCCCAGCACGATCAAGAAAGTGGGTAATAACAACCTGGCGGCCTTACCGGAGAAACAGACCCAAACGGTCAGCGACCGAATCACCAGCGAGTTGACCAGCCTGGCCAGCAGCCGCAAGCAGGCCAATGCCAAGCGGTTGGCCAATCTGGATTACCGGCTCATTTATCACTTGTCGAAGAAGGAAGAAGACCGGCGGGAGAAGGCGGTCAGTGAAGCGATCACGCAGTTCAACAGTCAGGGCGATCTAACGGAATTGAAGAAATACGACACTCGGCTGAAGCAGATCCAGGATATGCGGTATAAGAATCAAAAGGTTCGGCGTCAATCGGCCAAGCGCAGCTTCGACGATCAGCTGAACCATCTGGTCCAGGATCTGAATTTCCAGCAGGCCCTGCTCCAAGAAGAGGAGAGCAACGCGAAATTGGCGAAGTATAACCAGCAGCGCGCAGCCATCGAGAGTCAGCGGGAGCAGGAGCGCCAGGCTAAGCTGGCGGCACTGCAGCCCCAGTACGAGAGTCAGCTGGCGGCGACTCGTCAGGCTTACGCCAACAACGCCAGCGATAAGGAGACCCAGCGGCAGAAACTCATTGCCATCATGAATGAAATTCGTTCTTATGGCGGCAGTGCGCCGGACCTGAACTTGAATGTGCCGGCAGCGGCCAGCAGCAGCGGCAGTGCCCGCTAA
>SRR1151209_02480 hypothetical protein
TTGGGGACGCGGCGTTCACCGCAGTATCAGCATGCGAAGCGGGTCATTTTGGTCATTGCGAATATTGTGATGGCTTTGTTTCTGGTGCTCCTGTTCAGCTGGTGGTTCCTGAATCACCACTTCAACGGCCAGGTCGAAGCGCAATACACGAACGTGGCCCAGCGGGCGCTGAAGACGACGGTATCCCCGGCGGCGCGGCAGGACTTGCAGACCAGCCACGATCGCTGGCAGTGGGCCTTCACCGATCACAGTCGGCAGGTGTGGCAGCACTTCACCACGGACTGGGCCAAGCGCCAGGAGCGGGCCAAGCTGGTCACGGATTTGTACGCGGACAAAGACCATTATCAGGACGGCGTGACCAGTGCCCGGTTGAATACAATCGACCAGACCCTGCTCCAGGAGAAAAACAGCACGGTGTATCAGGACCAGAAGAACCGGCTGGACACAGTCCAGGTCTGGTTCCAGCAAACCACGGATGCTAATACGTTTATTCAAAAAATCTACAGCGACTACACTGCCACCAAGGTCGTTCCGACACTGCAGCAGGTGGCCCAGACCAGGGCCTACTACAGCCTGATCCGCAATCGGACGATTGCCGACCGCTGGCGCCAGCCGGTGCAGAACCTGGCGGCGGCCTTTGATAAGAACACGTCAGCGACCAATGCGGCGCAAAGTGCGGCGGAGCAAAAGGCGCTGGACGAGTTGAAAAATGCCCCGCTGACCCAGGGCTATACGCCGGCCCAGGTGACGATCAGTCAGGGCGGTGAGACCCTGGCCGGCAACAGCGGCACGAATTACGATTCGATTCTGAGCAATGCCGATATCACCGCGACCAGTGTGCTGCTGGTGGATCAGTCCGCGAAGACGGCCCAGTTCCTGCACCGCAGCAGCGGCCATTACAGCACTACCGGCGACGCGATCACTCTGGACAATCTGAGTCTGAGCGGCGGTCAGTACAGTGTGAGCGCCATGATCAGCGGCGGGGCTCAGGGCGCCGTGGTGACCGCCCCCAGTGCCAGCGACTTCGGCCAGTATTACGCTCAGGCCAGTGCAGCGCCCAGTACCAGTCCGGTGGCCGATAGTGCCAACAGCAACGACACCAGCGACTTCAATGACGCAAGTACCGTCTTCTGGCTGCGCAACAATACCGACTTGCAAAACAGTATTCTGCTCAAGGGCCAGACCACCATTGGTTTTATCGCCGCCGGAGCCAGTACCCTGGGTAATATGATCAGTACCAGCAGCGGCTACACGACCATTGCCAATCAGATCACCGACAGTACCGTGGTGTACGTTTATTAA
>SRR1151209_02481 hypothetical protein
ATGACAAAGGCAAAGAAATGGCGGCTATGGCGCTGGGGCATCGCCTTAGCCATTATCCTGATTTTAGGCACGGTAGGCTTTGTACGCCGCACGCAGATTGCGGCCGGCCTGTCTAACTGGCTGACCCAGCAGACCATCCCTTTCAATTGGGTCGTCAGCCCAGACGCCGCCGCGGCCCAGGAAACGGTCAAGGGCGTCTCGCTGGACGGCAATGACGCCAAACAGCGGGCCAGTGCCCTGGCTGCTTTTTCCGAAGCCCAGCAGCGCTTTATCGTTGCCGATCAGAATTACACGACTTTCCTGGCGCCGGCAGAGGCTAAGCGATTGAAGAAATGGGTAACGGATAAGCCTTATCAATACATCAGCGACTTGACCCTGCTGGGTTATGGCCGCGATACCCAGGGCGATTTTCTTTATCTCAGCGCCAATCGGTACCAGGACACACCGACGATTTGGTCCTACCGCTACCGGATCTACTACCAGGGCGACCGCCTGCTGTCCTCCTATTATGCCGGCCGCTTCGAAGATACGGTGCAGCCGCAGTTCATCGCCCCAAAAGTCGGGCTGGGCACTCCAGGCAACGCCACGGCGGTCAACTTTTTGACCCAGATCAAAAACGGTCTGAGCCGGGCAGATCTATATGAAAAAATCAACGACCGTTCCCTCTTCGTCGGCATCGCCCGCCAGTTAGGCCTGGACGACGCCAGTGCCGCCGGGTTGCAGGAATACCTGCGCCGCAGCAACGGCAAGTTCAACAACTCCGCGATTACAGGCTACACAATCACTGATGCCCCGCGGGTCACTCGCTTTTCGCTGGTGGTCAAAAAAGCCGGGACACGGTACCCGCTGACGCTGTCGTTTGATCGGAATAAGAGTAAATTCACCCAGCTGCGCATGGGTAACGTGAATCCAGGAAATCAGAAAAATGGGTAA
>SRR1151209_02482 mannose-6-phosphate isomerase
ATGGCAATTGAACCGTTATTTCTCCATCCGTATTTCCAACCGAAGATCTGGGGCGGGCGCAAGCTGGCCAGTGAGTTCGGCTACAAACTCCCTAAGGGTAAAATTGGGGAATGCTGGGCCATCTCGGCTCATCCCCACGGTCCCAGCCGGGTGATCAACGGCCCGCTGGCCGGGCTGTCCTTGGACGATGCGTATCAAGTGCATCCAGAATATTTCGGCAATCCCAGCGAGAAAGTCTTCCCGTTACTGACCAAGATTCTGGACGCCGAAGCCAGTTTGTCGGTACAGGTCCACCCGGATGATGCGTATGCCGAGGAACATGAACACGAGTTGGGCAAAACGGAGTGCTGGTATGTCATCCAGGCCGATCCCGGCTCTTACTTGATTTATGGCCACCACGCCCAAACCCGCCAGCAATTGGCGGACATGATCCACGCCGGGGAATGGGACAAGCTGCTGCGCAAAGTGCCGGTGAAAACCGGCGATTTCATCTTTGTACCTAGCGGTACGATCCACGCCCTGAACAAGGGCATCATGGTGCTGGAGACGCAGCAGTCCAGCGACACGACTTACCGGTTGTACGACTACGATCGGGTGGATGAAAAGACGGGGAAGAAGCGGGACCTGCACCTTAAGCAGTCCATTGATGTGACCACGGTGCCCCACCATGACCCGCAGCTGGATATCCAAACTGAGCAGCGCGGTGCGTCTACGTTCACGACCTACGTCAAGCCGCCGATTTCACCGTTCTTTAGTGTCTGGCAATGGCGGATCAAGGATAAGCAGCAGCTGCATCATGTCCAAGCGCCATACACCCTGGTGTCCGTGCTGGCTGGCGACGGGACAATCACTGTTGACGGCGACCCATACGAACTGCATAAGGGGATGCACTTCATCATTCCGGCTCAGATCAAGGACTGGACTGTTGAGGGCGATATGCAGATTATTGCGTCTGAACCAGGGAACGAAGAATAA
>SRR1151209_02483 hypothetical protein
GTGACGCCGGTCTTATCGATCAGCGGGATCAGCGGCGGTGGCAAATCCACCCTCGTGCAGGCGGTCCGGGATCATCTGCCTGGCGCCGGCGTGGTTCGTTTTGATGACTTCAGCTTTGACCAGCGGCCGGAAGCGCCCGCGGCGGCCGTCACCGTGACGGATCCGATCCGGGCTTTCAACCAGTACGACTTGACGGATTTAGCGGCCGCCATTCAGGTTGCCCAGCAGAACCACGCGATCGTCATCGTGGATTATCCCTTCGGCCGGGTCAATCGGCAGATCGCACCGCTGATTGATCTGGCTTTTTACGTTCAGACGCCGCTGGATGTGGCGTTTGCCCGGGCCTTGCGGCGGGACTACGCGGCAGCCGATACGACGAAAGCCGATATCCTCGCTTGGGCTAAGGCTTATTTGACACAGGCGCGGCCGCTTTTCGTCGTTCATGACACCATCGTCAGTCAGCATGTCGACCAAGTAATTGACGGTATGCGGCCGCTGGCGGAGAAGGTAAAAACGGTAGTTGACGCATTGCGTGCCCAAAAACTGATATAA
>SRR1151209_02484 hypothetical protein
ATGGATCGGTTGGATTACCAGGTCGGGGCGATTATCAACGCCGCGCTGAACGGCCGGTATTACAAGAAGGCGTATGCCGCAATCCAAGAGGCACTGCCGGACTATACCTGGCATGAGCTCAAACTTAGCGAAACGCTGGATTTCAAAGACCAGCCCGATTTGATCATCGCGTCGCGCAACGTTGTGCCTTATATTGAGGCCATTGAACAGCGCTTCCCGGATGCCAAAGTAGAGAAATACGACACCTGGGCGCAACCGAAGTGA
>SRR1151209_02485 glycopeptide antibiotics resistance protein
ATGATCAAATGGATGCCTGCGGGGATCATGGGCTTGCTCTGGCTGGGCGGACTGCTCACAGTCCGGCCTTGGCGCACGGTCCGCAGTCGAGGTCAAGCGCTGGCGGTGCTCGCCCTGTGGGGTTATCTCGCCGGCCTGATTCCGCTTTGTTTTACGCCCTTCCCCGCCCATCGCGGGGTCTGGGACGGCATGGCGCCAATCATGGTCGGGACCGCACCGACCAACCCCATTCCCTTCCGCGGCGGGCTGACGCCGGATTTCTGGCTGAATATTTTGATGACCGTTCCCTTCGGCTTCCTGCTCCAGACCATTTACCACTGGCGCTGGCCGCGCATTCTGCTGGCGGGCTTGGCGCTGACCTGTTTGATCGAAGGCGGGCAGTTCATCGCCGGCCTGACGGTCCAGCTTAATCGCTGGAGTGATGTAAACGATATCATCACCAATGTGACCGGCACGGTACTGGGAAGTCTCATTCGTGGACTATGGGTACGTTTTTGGTTACAATGA
>SRR1151209_02486 HTH-type transcriptional repressor KstR2
ATGAAAGTCACCCGGGCAGAACTGGCCGGCCGGGCCTTGGACATGTTCCGCAAACACGGCTTCGATGCCGTTTCGGTCAACGATATTGCCGGTTCATTCAACGTCACCAAGGGGTCGTTCTATCACTATTTCAAGAGCAAGGATGATATCCTGCTGGATTACTACAACAACCTGCTGCTCAATTCGAATGTCTTGCTTGACCAGATCCTGGCCGGGCCGGCAACGATCACCAACAAGGTCAAGACCTTGACGGATATTGCCGTGAATGCCACGATCACCCTCGGGCCGGATCTGCTCCAGCGCCTGCTGGTGCTGTACCTGACCCAAGAGAGCGACTTAACGATCCTGCAAGAAGGCGGCTATCTGGTCAACTATCTGGCCGCCCTGCGCACGCTCTTTGTTCAGGGCAAAGAACAGGGCCAGTGGGCCGGTGAGTTGTCCGGCGAAGACTTGTATTGGAACTACATCCACGATTTGCTGGGATTGCTCAGCGAATGGAGTGTCAAAAACGGCAGCTTCGATTTGAAGTCCGCCGCGAGCAAGATGATCGCGTTGTTGCCGGCTAAGGCGTGA
>SRR1151209_02487 lysophospholipase
ATGAAACGACCGGAATATCACCATACTCATTGGTTCGTAGGCGTTGCGGCGGTCCTTTTTGTCCTCGCTGGGGTGATTGCAGTGTGTTCTGCTGTCCGCACCCATACGGACGAGTGGGGCCTGACCGCCCCCTCGGCCGCTTCTGCGTCGGCATCAAAAAAAGCCGCCCCGGCGGCCACAACTGATAAACCAGCGCTGGCCTGGACCGACTTTTCGACCCGCCGTCCCTTGGTGTACACGGCCTTGGGCGACAGTCTGGCCGTGGGCTATTTTGCGACGGCAAAGGATAAAGGGTACGTACCTGAACTGGCGCGGACGATCACCGCCCAGCAGCAAGTGCCCGTCAAAGTCCATAATTTCAGTGAAAATGGCGGCAGCATCAACACGGTGGCCTTTCCCCAACTGGCCGCCATCTACGCGACGAAGCCCGATTTGGTGACCATTGAGTTCGGCACCAACGAGTCGGTCTATGACGATCCGCCCCATTCAGCCACGCCGGCTCGTTTTCAGAAGAATTTGACCCGGCTGATCAAGGACTTGCAGGTCCATACGGATGCGCAGATCGTGCTGCTGACGACGTGGAATCAGCCGCGTTCGGCGACTTATGATGCCCGGGTGCAGACGGTGGCCAAGCACTATGGATTGCGGGTCGCTAATCTGGAGCCGATCTGGGCGGATGCACAACAAAACGGCGCCCTCTCAACCAAGGGCGCCGCATCATTCTTAGGTTATGGCGACGGCTTTCATCCCAGCGATGCCGGCCATGCGCTGATCGCTAAGACCGTCTATCAGCAGGTCAAACCGCTGTTCACGCCTTAG
>SRR1151209_02488 xylose isomerase
ATGAACACACAGACAGAATTTCCCTATTTAGGCTTGAAAGCCAGTACTGATCCGGCCCAAATCGCTGAGCGGCTGCGTTACCGTCCGGCGGTTTTTGAGTTCTTCACGACGCCCGCGGACGTGACCCCGGCGGGATTGGCCCATTTGCGGACCATGATCGAATGGGTCCAGCACGATACGCGGCGTATTGTGATTCACCATCCGATGAGCTGGCACGGGACCCACGTGGAGATTGCCAGCCCTAATACCGGCTTGCGCGCTTTTGTGACCCAAAGTACCACCGCCTTGCTGCAAGTCGCGCAAGAAATGGACGTGCAGCTGCTGGTCCATGGGTCTTACAGCGAACCGCCGGCGAAAATAATTGCTGAATTCGGCTCGATCGCGGCCGCCCGGGCGGCGGTGCTGGCCCAGCTGGATCATTGGCGGGATCTGGGCGGCAATCATATTATGTTTGAAAATTCCATTTCGCCCACCTATACCTACAGCGATCCAGTCTATAATGCCGAGATTCTGGCCCATCATTATCGCCTGGCGTACGACACCAGCCATACGTTCATTGCCGCCCAGGGCGATAATGATGGGCTGGTCGCGTCGCTGCGTCAGTTGGCCCCAGCGATCGTTCATTACCATCTGGTGGATTCCATGGGTCAGCGGCACGACAGTTTGCCTTTGGGTCAGGGAAAGATCGACTGGACCCGGGTCTGGCCGGTATTGAATCCGCGGGCCACAGATATCTATGAGATCACGCTGAAAGATCAGCTGGACAGTACCGCCCAGCGAGCGAGTCATGCGTACTTAGAACAAATTAAAGCGGCGGCAAAGCAATGA
>SRR1151209_02489 Mrr family endonuclease
ATGCGGCGTCTTGGCATCATTCTCAGTATTATTCTGGCGGCCGGGCTGGCCGGGTATCGCTTTCTGATTCAGCCCACGCTGCCGCTTTTTACCGCCCAGCAGTATGCCCCGTATTTCTGGACCGGAGTGGCCGTGCTGGTTGTTGGGTGGCTTATTGTCCTCATTCGCTTCCTGCTCCATTTACGGACCGGTATGGCCCGGATCGACCGGATGGACGGCATTGCCTTCGAGGAATACACGGCCCAGCTGCTGGTGCATCTGGGTTTCACAAAAGTCAAAGTGACCCCGGCCAGCCGGGATCAGGGGGTGGACATCATCGCCGAGGCCGATGGCGAGAGCTTCGGCATTCAGTGCAAACGGTATAACCATTCCGTGGACAACAGCGCGGTGCAGCAAGTTTTCACCGGCTGCGCGTTTTATCACCTGACGCACCCGGTGGTTATTTCTAACGCGTACTATACCAACAGTGCCAAGGAGCTGGCGGCCGGCGTGGGCGTCCGGCTGATCGATCGGGATGAATTGGCGGAAATGATCAGCGATGCCCGTAAAGGCCGCTGA
>SRR1151209_02490 major facilitator superfamily transporter
TTGGTACAGAAACGACCAGTATTGACCCGGGGCTTGATCTTCGTAATGGCTCTGACCTGCGGCGTTGTCGTCGCCAATAATTATTACTTGCAGCCGATTGAAACGGCCATTGCCCAAAGCTTCCGCGTCAGCAACGGCGCGGTCGGCGTAGCTGCGATGCTGACCCAATTCGGCTACGCTGTGGGCCTGCTGCTTTTGGTGCCCTTGGGGGATATCATCAATCGGCGCAAGCTGATCATCCGCATGTGTCTCTTGTCCGGGATCACCTTGCTGGGCGCTTATTTTGCCCCGACTTTGGCGCTATTCTCATTGGCGTCCTTTTTGATTGGGCTGGTCTCCATCGTGCCCCAGATCATCATCCCCTACGGTGCCGTGTTAGCCGGTCCGGCCAAGCGCGGTCGGGTGATGGGCACATTACTGGGCGGTTTACTGGTCGGGATTCTGCTCTCCCGGACGATTTCCGGAATCGTGGCCAGCATTTGGCCGTGGCGGACAATTTATCTGATTGCCGTCGTGGTCATCTTGGCCTTAGCCGGCGTGTTGGCCCTGACCCTGCCAGATCCCGGCCGACCACCCCATCATGCACTGAACTACTGGCAAACTCTGGCCACGATCCCCGGGTTGATCCGACAGCACCGGGTCTTGCAAGAGGCAGCCGTGAACGGCTTCTTCATGTTTGGCACATTTTCTATTTTCTGGTCCACTCTAATCTTTTATATTGCCAGCCCAGTCTACCGCTGGGGCACCCGGGAAGCGGGTTTACTGGCTATCTTTGGCCTCTTTGGCGCCCTGGCCGCGCCGCTCATCGGTCGGCTGGCGGACCGCTTTTCTGACCGGCATCTGGTCCTGATCGGTTTGCTGCTGGAAACCCTGGCCTTTCTGCTGCTGATGGCCGGCGGTCAATTCGTCGTCCTGCTGGTCTTGAGTATTATCCTGCTGGATGTCGGCAATCAGTTCGGTCAAGTCTCGAACCAGACCCGGGTGCAGAATCTCGGCGAACACATCAGTAACCGCACCAACACAGTCTTCATGTTCAGTTACTTTTTGGACGGCTCCTTGGGCAGTCTGCTGGGCACTACCATGTGGCAGCAGGCCGGTTGGCTGGGCGTCACCGCGGCCGGACTGGCCTTTCAGCTGCTGGCCTACATTGCCCATTTACTGATTTTTCGGCCGAAAAAAGCGCTGTGA
>SRR1151209_02491 hypothetical protein
ATGGATCAACCGCTAAATCAAGAAATCGAACTGACGACCCGGGCCCGGACGAATATGACCGGCACTTATCGCGCCGGTATGTTGGCTTTGGGCAACGCCGGGCTTGAATTTATCACCCGGGCAGTCCAGGCCAAGAACTTCACCTGGCTGCCCTGGGCCCAGATCCAATACGTCTGGATCGAGACCTTCTTCGGCGGCCGCTTGACCCGCGGGTTCCAAGTAACCACGGTGGATGGTGACCGGTGGGAGTTCAATGTTGCCCACGCCCAGACAGTATTGGCTTACATGGCCCGGCATTTATCATCCCGGCAAATTTTGCAGGATGGCCGGACTTGGCGGCCCACCAAGACGGCAGAATAA
>SRR1151209_02492 hypothetical protein
ATGGTCGAATCATTAAACACGAAAGTCGAGCTGGTGACGGATGCCACGTCTTATCTCGGTCTGCCCGAATATGGCAAGATCATGATTGGGGACAAGGGGTTTGAGTTCTATAACGAAAAGAACCTCAAGCACTACATCCAAATTCCCTGGGACGAAGTGAACTTCGTAATCGTCTCCGTGGTCTTCGGCGGCAAATGGATTCCCCGTTATGCCGTAGAAACCAAAAAGGCCGGCACCTATTCCTTTGCTTCGAAGGATCCCAAACGGGTCTTGCGGGCGATTCGCGAACACGTCGATCCCGACCATATCGTGAAGTCCCTGAGCTTCTGGCAAGTAATCACCCGAGCCTTTCGGCGTAAAAAGAAACAATCCCCTAAGAACTAG
>SRR1151209_02493 mannose-specific PTS system IID component
ATGGCAGATGATAAGCAGCGTATTACATTAACAAAAGGCGATCGGCTCCATGTTTGGTGGCGGTCCACGTTCATTCAAGGGTCATGGAACTACGAACGGATGCAGAACGGCGGTTTTGCTTATTCGATGATTCCGGCCTTGAAGAAGCTGTACAAGACCAAGGAAGACCGGGCCGCTGCGTTGAAGCGGCACTTGGAATTCTTCAACACCCACCCGTATCTGGCCTCCCCGATCATTGGGGTGACTTTGGCGCTGGAAGAAGACCGGGCCAATGGGGCACCGGTTGACGATGTTGCCATTCAAGGTGTAAAAGTCGGGATGATGGGCCCGTTGGCTGGTATCGGGGATCCAGTATTCTGGTTCACTATTAAGCCAATCATTGGGGCCTTAGCCGCATCTTTGGCGATGAGCGGGAATATTATGGGCCCGTTGATCTACTTCTTTGCTTGGAACATTATCCGGATGGCCTTCACTTGGTACACCCAAGAATTCGGCTATAAAGTCGGGTCCAAGATTACTGATGACTTATCCGGCGGTTTACTGCAAGAAGTTACAAAGGGGGCCACTATCCTCGGGATGTTTATCCTGGGATCGCTGGTCAACCGGTGGGTAGCTGTTAAGTTCACCCCGGTTGTTTCCTCTGTCCCGCAACAGAAGGGTGCCTACATTGACTGGAACACATTACCGGCTGGCGCTAAGGGGATTCAAAAAGCCCTGCAGCTGCAAGGTGAAGGTCGGGCACTGACAGCGACTAAGGTCACCACGTTGCAAGACAACTTGGACATGCTGATTCCTGGCTTGGCCGCGTTGGGTCTGACCTTCCTCTGCATGTGGTTGCTGAAGAAGAAAGTGTCACCCATCGTCATCATCCTCGGCCTCTTCGTCGTTGGTGTTGTCATGCACGTAATTGGTTGGATGTAA
>SRR1151209_02494 mannose-specific PTS system IIC component
ATGAATTTAAACATTATTCAAATCATATTAGTCATCGGTGTGTCGTTCCTAGCGGGGATGGAAGGTATCTTGGATGAATTCCACTTTCATCAGCCCGTTATTGCCTGCACGCTGATTGGCTTAGTCACGGGGAATCTGATCCCGTGTGTGATCCTAGGCGGTCAATTGGAAATGATCGCGTTAGGTTGGGCAAACATTGGCGCGGCTGTAGCGCCTGATGCCGCCTTGGCTTCTATTGCATCCGCCATTATTCTGGTTCTTGGTGGCCAAGGACAAGCAGGCGTTAAGTCCGCCATTGCCATTGCGATTCCTCTGGCAGTTGCCGGCCTGCTGCTGACGACTGTTGTGCGGACCCTGGCAACTGGTATTGTCCACTTGATGGACCGGGCGGCTGACGATGGTAATTTCCGAATGATCGATATCTGGCAAATCGTCGCGATCATCATGCAAGGGCTGCGGATCGCGATTCCAGCCGGGTTGATTCTGGCTGTTGGTACTACCCGCGTGCGGGACTTACTGGCCTTGATGCCGCAATGGCTGACTGATGGCTTGGGCATCGGCGGCGGCATGGTCGTGGCCGTTGGGTATGCCATGATCATCAACATGATGGCGACCCGAGAGGTTTGGCCGTTCTTCGCCATCGGCTTCGTTTTAGCCACGGTGAAGGAAATCACCTTGATCGGCTTGGGCGCCATCGGCATTTCCCTGGCGCTGATCTACCTGGCGTTGTCCAAGATGGGCGGCAGCTCTAATGGCAGCGGCTCCAGCAATAATAATACAGGTGATCCAGTCGGCAAGATCATAGATGATTATTGA
>SRR1151209_02495 mannose/fructose/sorbose-specific PTS system IIAB component
ATGGTTGGCATCATTCTTGCAAGTCACGGTCAATTTGCCGCGGGTATCAAACAATCCGGGCAAATGATTTTCGGTGAGCAGGAGAAAGTCGAAGCAGTGACTTTTATGCCCGACGAAGGGCCTGAAGATTTGAAGGCCCACTTGGAAGCAGCCATTAGCAAGTTCGATCCGGATGATGATGTGCTCTTCCTGATTGACTTGTGGGGCGGCTCTCCGTTTAATCAGTCCAACGGCTTGTATGAGGCCCACAAGGATAAGTGGGCAATTGTCACCGGGTTGAATCTGCCGATGCTGATTGAAGCATACGGTTCCCGCCTGACAATGAATTCAGCGCACGAAATTGCAGCCCACATTGTTGAAGCGGGCCGTGATGGCGTGAAGATCAAACCGGAAGATTTGGAACCCAAGAGTACCGGGGCGGCCGCACCGGCAGCCGCTGATGCAGCACCGACCAGTACCAACGGTAAAGTTGGGGCCCCGGGCAGTATGCAGTATGTTTTGGCCCGGATCGATTCCCGGCTGCTGCACGGCCAGGTCGCCACGACTTGGACCAAGACGTCGGGTGCAAACCGCATCATCGTTGTTTCCGATGCTGTTGCGCACGATGAGTTACGAAAGAAATTGATCATGGAAGCCGCACCGGTTGGCGTGCATGCCCACGTTGTCCCGATCGCCCAAATGATCAAGCTGGCCAAAGATGATCAGCACTTTGGCGGGCAAAAAGCCTTGCTGCTGTTCGAAAATCCAGAGGACGCATTGAAGGCCATTGAAGGCGGCGTGCCCTTAACGGAACTGAATATCGGTTCCATGGCCCACTCCGTCGGCAAGGTACAACCCAACAAGGTGTTGGCCTTCAATCAAGAAGATATTGATACGTTCGGCAAGCTGAAGCAGTTGGGCGTCAAGTTCGACGTCCGGAAGGTACCTTCAGATGGTGCAGACAATATGGATAACATTCTGAAGAAAGCTCAATCCATGCTGGACCAGCAGAAATAA
>SRR1151209_02496 hypothetical protein
GTGCGCACGGCAGCAGCGATTATTGGAATTTTTTTGCTCGGCTTGGTGGTGGTCATTATCTTAGGCCGCGAAGTTGGCGTGATTCATCGGGTCAAACCGGCCGGCTACCGGCTGCTGTGGTGGTGTACCGGCTTGGGCGTCGTCTTTTTGCTGCTGGGGATCTCCTGGCAGGCAATGCTGGCGACGCTGGGCGCTCTAGCGTGTGTCAGCGTCCTTATTGTGATTGTACACTTCAGTAATCGTTGA
>SRR1151209_02497 A/G-specific adenine glycosylase
ATGATTCATTGGGATGACGCTACGATTGATCGGTTTCAAAGGGCATTATTAACATGGTACGACGCTCACGGGCGGGATTTGCCCTGGCGGCGGGACCACGACCCGTATCATGTCTGGCTCTCGGAAGTGATGCTGCAGCAGACTGGGGTGAGCACGGTCATTTCCTATTATGAAAAATGGCTGGCACACTGGCCGACTATTGCTGAGCTGGCAGCGGCCGATGAGGATGCCGTGCTCAAGGAGTGGGCCGGGCTGGGATATTATTCCCGGGCTCGGAATTTGTTGAAAACCGCCCGCGTGATTACCAACGAACGCGGGGGACAATGGCCCCAAGATGCAGCGGGGCTCAAGCAACTACCCGGGATCGGCGACTATGTGGCTGGGGCCGTGGCATCCATTGCCTTTGGCCAGCCGGTGCCGGCGATCGATGGTAATGCCTACCGGGTCTTTTCACGGCTGCTGCTGATCGACACGGATATCCGCAGCAGTGCGGCTAAAAAAGTGTTCAACGACGCCATTACCCCCCTGATTCCAGCGGATCGGCCAGGGGATTTCAATCAAGCGGTGATGGACCTGGGTTCCAGTTATATGCGGGCTAAGGATCCGGACAGTGCGCACTCGCCAGTGGCCGCCTTCGACGCGGCTTACCAGCAGGGTGTGACCGATCAGTATCCAGTCAAAGCGCCGAAGAAAAAGCCGGTGGCCAAAGCCTACACTGCGCTGGCACTGTTGGCGCCGGACGGCCAAGTCGTGTGGCAGCAGCGGCCGCCGCGGGGCTTGCTCGCTGATCTTTGGACCTGGCCGTTGCTGACTGGGGATCAACAGGGTGCCTCGGCTCCGGTATTGATCCAACAACTCGCCGACGAGCATGGGATTATCCTGGATCCAGCACTGGTCCTGCGGGTCCAACCAGTTGGCGAAAACGGGGTTGTGCACGTGTTCACGCATCAACGGTGGACGATCACCGTAGTGCAGCTGACCCTAGCAGACGTCCCGCCGCTCCCGGCCAATGCCCGCTGGCTGCCGCTGACTCAGCAAGAGTTGGCCCTGCCGACGATGCAAAGGAAAGTGTCGGCGTACTATAATAGGAATAAAGCAGAATAA
>SRR1151209_02498 cation-transporting ATPase
ATGTCACATAAGACGAAATTGTTTACCACCATTGCCATTGGTGTCCTCGCCCTCGTTCTTCAATTTGTCTTCCACTTAAACATTGCCGCGCAAGTCATCGTGACCCTGATGGGTTCTGTGATCTCGCTGACCATGCTGATTGAAATGATTAAAACCCTGCGCGCCGGTAAATACGGTGTCGATATTCTAGCCATCACGGCGATCGTCGCCACCCTGGCCATCAGCGAGTATTGGGCCAGCTTGATGATCTTGGTCATGCTCACCGGCGGCGACGCGCTGGAGGATTATGCCCAGCACAAGGCCGGTTCTGAATTAAAGAGCCTGCTGGATAATACCCCGTCCACCGCGCACCGCTTCGACGGCGACAAACTGACTGATATCACCATTGAAGACGTCCACATTGATGACCACCTGCTGGTCAAGCCTGGTGAAGTGGTCCCGGTTGATGGGATCATCTTGAACGGCGAATCCACTTTGGATGAGTCTTCCTTGACCGGTGAATCCCGGCCGATCGACCGGCGCGCCGGTGACGACGTGATGTCCGGGGCCGTCAACGGCGACTCTGCGCTGACCATCCAGGCCACCAAGGCTGCCGCCGATAGTCAGTATCAGAAGATCGTTGCCCTGGTTAAGGAATCCGAAGCCCGGCCCGCCCACTTTGTCCGGTTGGCTGATCGCTACGCCGTTCCCTTTACCTTAGTCGCTTACTTAATTGCCGGGCTGGCTTGGACCATCAGCGGTGATCCCCACCGCTTCGCTGAAGTGCTGGTCGTTGCCTCGCCTTGTCCACTGATCTTGGCCGCCCCCGTAGCCCTGGTTTCCGGCATGAGCCGGGCCAGCCGGAACGGGATCATCGTGAAGACTGGGACCGTGATTGAGAAATTGGCCAATGCCAAGACGGTCGCCTTTGATAAAACCGGGACGATTACCCGGGGTGTCTTAGCCGTTGACCAAGTCACACCGGTAGCGGACATTTCCGCCGCGCACCTGCTGCGGGCCGCCGCCAGTGCTGAACAGCAATCCAACCACATTCTGGCCCGTTCCCTTGTGAAGAGTACCCGGCGGGATAAGCTCCTGCCCACGGATCACATCGTAGAAACCACCGGCGCCGGCGTTACCGCCCAGGTTGGCGGCGAAACGATCCGTGTCGGCAAAGCCGACTTCGCCGAGGCACCAGCCAGTGCCCAAGTGGACGGCACCGCGGTTTATATCAGTATCAACGGCACTTATGCCGGGATGATCACCTTCAACGACCAGCTGCGGCCGGAAGCGGCGGCGACCATCGCTGATCTGCACACCCTGGGTGTCAACCACGTGATGATGCTGACCGGGGATAAGAAAGAAACCGCCCAGGCCATCGCCGATGAAGTCGGCATTGATGACCTGCAAGCAGAATGCCTGCCCCAGGATAAGATCGATATGCTGAATGGTTTGCCGGACGATCAGCGGCCCAGCGTCATGGTCGGCGACGGCGTTAACGACGCCCCGTCTCTGGCGGTGGCTGATGTCGGTATCGCCATGGGTGCCCACGGCTCCACAGCGGCCAGTGAATCAGCCGACATGGTCATTTTGAAAGACGACCTCGGCCGAGTTACCCGCGCTGTCCGGATCTCCCGGGACACGATGAAGGTCGCTAAACAATCTGTTTTGTTAGGAATCTTCATTTGTACCGCGTTGATGCTGGTTGCCAGTGTCGGCGTGATCCCCGCCCTCTTCGGTGCGATGCTGCAAGAAGTGATCGATACAGTATCCATTCTCTGGGCACTGCGGGCACGTCACGGCAAGTCTCTGGCACCAAGCGATGCCAACCATCAGTCGCATCACCAGGCGTTGAGTAAAGCCGGTAATGCGCTGGGCGAATAG
>SRR1151209_02499 hypothetical protein
ATGAAGAAATTATCAGTACTATTTACAGCTTTAATTCTAGCGATCAGCGGGGTAACGGTATTCGCAGCAACACAAGCTAGCGCGGCTTCACAAACCATCAGTGTTTCTTACGAAACTTATGGAAGCGGTCTCGGCCGTGCTGACGGAAAACGCAATGGTGTGTGGCATTACTTCCGTAATGGACATACTGTAACTCTGTCTGTTAGCTCACATTCTGGTGCTGGGACTCCACAAGCATCCTTATACAAGAGTGTAGGCTTCTGGACTGACACTTTATATGGGACAGTTGATGCAACAAAGGGGACCCGCTCTTTTTCCTCTAAAGCAGATGAAACCTCTGGATCATATTATTTAATTTTCTGGGGTGGGAACGCACAAACTACGCAAAAAATTTCCGGCGCCGGATTTAAAATTGAAGTGCAACACCGATTGAGTTAG
>SRR1151209_02500 hypothetical protein
ATGGCATCCTTAGGCAAGACCGTCTTACAGGCGACTAGTCTCTTAACAAGAGAACTTTTTGGTGAGCCGTTTGATCTTTCCAGTCGACGGTTATCTTTGACCATTAACTATCTAGAGAGGGCGCGTCCTGACTTTCTAACTCCGTTTCCTTTGGGCTTGATTACCAGTCCCGCTAAGGCCAGCAATCACTGCCTTTTATAA
>SRR1151209_02501 hypothetical protein
ATGAGCGATAATCTTTACCATTGGCAATTCGACGAGACCGCCGAAAAGAAATTCGCTAAATTGGATCAATTTGCACAACGGCGTATTGTTCGGTGGTTAGATGAACGAATTGAAGGATCGAACAATCCCCGTGCCTGGGGTCGTGCCTTGGAAGGTAAACTAGGCACGCTTTGGCGTTATCGCATTGGCAACTACCGGGTGATTGCTGATATCCAAGATGGAAAGTTTACCGTTTTGGTTGTCAAAACGTCCGTGCGGGGCGAGGTTTATAAAAGGCAGTGA
>SRR1151209_02502 hypothetical protein
ATGAGCGAAACAACAGTGACGTCCTTGCGCTTCAAAGACGATCAGTATGAAAAGGTAAAGAAGTTGGCAGCATTTCATGGTGTGTCCGTAACCATGTACATGCGCCAAGCAGTCCTTGAGCGGATGGAAGATGAAGAGGATTATAAGGATGCCGTTGACAATATTCAAGCGAGCCATGGTGCAACGGTTTCCCGTGATGAAGTCAAGAAACGTTTGGGTATGCCATGA
>SRR1151209_02503 hypothetical protein
ATGGCTAACCAAAAACGCAAAGACGTGCAGCGGGATATTGACTACTTGAAGCGGCAGAAAGCCGAGCATGAGCGGCAGGCCAAGGCCGCCGAGAAGAAACTCAAAGAGAAGCAGATCCAGCAACAACGGCTTCGGCGCGAGGGACAAGAACTAGAACTGTAG
>SRR1151209_02504 DNA topoisomerase III
ATGACAACTTATGCAGTATTGGCTGAAAAGCCAGATATGGCAAGGAAACTGGTGACTGGCTTGGGCGGGAAGAAGACAGCCCATACCCAGGACGGGTATATCGAGGTTCAGGATTCTCCCTATTTAACCGGTCGGATCCTGGTGACGTGGGCCATTGGCCACCTGATCGAGATGGCCCCCTTCGACGAATACGACCCCAAGCTCAAAAAATGGGACTTGGCCACTTTGCCGTTCATGCCGACTAAATATGTGATGCAGGTCCGCGATGGCGTGGGCAAGCAGTATAACAACGTCAAACGGGTGTTTAAGGAGGCCAACCAGATCATTATTGCCACTGATCCAGATCGTGAGGGTGAAAATATTGCCTACTTGATCGTGGATCAAACGGGCGACCGGGACAAAGTGACCAAACGGTTGTGGGTCAACAGTTTATTGCCCAAAGCCGTTCAGGACGGTTTTAAGCAGTTGCGGGACGCCGGGGAGACCTACAACTACTACAAGGAGTCGCACAGCCGCCAAATCAGCGACTGGCTCGTTGGAATGAACATGACGCGCTATTACACGCTGCGGGCCCAAGGGGCCGGCATCCAGGGTACGGTGTACAGCGCCGGACGGGTCCAGACGCCAGTGATGGTTTTGATCGTTAAGAACAAGCTGGAACGGGATCACTTCGTGCCCGTGCCATTCTGGACCATCTCTGGTGAAACGGAGAAAGACGGCCAGAAGGTCATTTTCCGCAATGCCACCCACTTTGAGTCCGAGGAGCAGCTGCGGGAGTTCGTCAACGCCAATCAGCTGGTTACTCCTTATATGGCCACCATCGGTACTGTCCAGAAAGAGCACAAGATCAAGCAGTCGCCGAAGTTGCTGAATCTGGCCGCGCTGACCAGCCTGGCCAACGCCAAATGGGGCTACACCGGGGACGAAGTATTACAGACGGTCCAGGCATTGTATGATGCGGACTACGTGACCTACCCCCGAACCGAAGAAGAAGTCATCAGTGAAGAAGAGTTCGGAATCCTGGCCGATCGCGTGGACGCCTATAAGGACTTGCTGGATAGTACCGTGGCCACGCCGCAGCTGACGCCGCGCAAGCGGTACGTGGGGGCCTATCAGGCCCACCCGGCATTGATGCCGACCGGCAAATTGCCCGAACTGGCTAAACTTGCTGGCCGCGATGCCAACATTTATCAAGCCATCGTAAACCAGGTGCTAATGATGTTTATGGCCGACTACGAGTACGATCAAACAACCGTGACGGTTGCAGTTGCTGACCAGAAGTTTGTTGCCAGAGGTAAAGTGGTTACCCAAGCCGGTTGGCGGGCCATGGCGGGCGCCATCGAGGAGGATGCCACAGAAGACGCCGGCGCGTTGCCAACGTTTGCCGAAGGCGAGCGGGTTGCCCTGACTATTCAGACCGCCAAGGGCGAGACCAAGCCACCAAAGCCATACACACCAGGGACTTTGGGCGGCAAGAACTCTATTATGGAGAAGCTCAACTTGGGGACGGCTGCCACCCGAGCGGCCATCATTAAGACCCTGGTGGACCGGGAGTATATTGCGCTGGTCAAGAAAGCTTATGAGCCTACGGATAAGGCCATGGTGATGTACACGATGGTCAAAGATTCCTTATTGGGGTCGCCGGAAATGACGGCCGCCTGGGAAGACTATCTGGCGAAGATCGAACAGGGAGACGGGGATCCGGCCACCTTCATTGCCAATGTCCGAAAGTTCGTCAGCCAGGAGATCGGCAAGGCCCAAACCATTGAGCTGCCGCCAGAACAGGTCGAAGCAGCAATTGAACAGAGTTCCTATGGTACGTGTCCGAAGTGCCACCAAGGGACAATTGCTAAGGGTAAGCACAATTTCTACTGTTCTAACAAGGAGTGTGACTTTGTTCTTTGGCCCAAGATGGCGAGTAAGACACTGCCCGAGGCAGCCGTCCGCGCGCTGATTGCCAGGAAGACCACTAACGAAATCTCGGGATTCAAATCTAAGGCCGGCAAGTCGTTCAAGGCCAAGGTCAAGCTGGACAATGAATTTAAAACTACTTTCGTTTTCGACAGTAGCAAAAGAAAGGGGTAA
>SRR1151209_02505 LtrC-like protein
ATGGCTTATAGCCAAGAAGAGATCGATCAAGCGGCCGCCGTCGATATTGTCGGCCTGGCCCAAGAGCACGGAATGGAACTGACCAACGAAACCGAACGGTTTTATCGGCTGGTCAAACACGACAGTCTGGTGATCGATCGCGCCAAGAATTATTTCCATTGGAATAGCCAGGGGTTCGGCGGGAACAGCATTAAATTCGCTCAAACCTTCCTGACCGATCAATCCAAGCCAGACAGCGTCCGTTTTAAGGACGCCGTCGCATTACTACTCAACAATAAAAATTTGAGCGCCTCAGAAGTGACGTACCAGCACGCCCCTTACGTCTTTGACGCCCGAAAAGTGTCGCCGGACTTTTCCCAGGCCAAAAAATACCTGACCGAGCAGCGAGGATTATCTCCCAGTTTGGTAGACAATTTACACAACGAAGGACTGATTCAGCAAAACAAATCTGGATCAGTCCTTTTTTTGTGGCGTGATCCGGCGACCCAGGAAGTCATGGGCAGCAGCATCCAGGGCACCCAGATAGATCATGAGCGGTACGGCAAGCGAGGAACGTTCAAACGGATCGACAAGGATTCAACCACGGGCTACGGCTTTGCCGTGGGGCCCAAGGACGCAGACACGCTGCACTTTTTCGAGTCATCGATCGATCTCGTGAGCTACCTACAGTTGAAGGGACGAGATCCAAGAGCACAGTACGTTTCTATGGAAGGGTTGAAAAACGAAGTCATCAGCCATTACCTGGCCGATAATCTCAACGCCCGGCCCACGGTGCCGGACAAGATCGTGCTGAACGTGGACAATGATGCAGCCGGTCAGCGCTTTTCCGACCAGTATCTGCTGCTGAGCTGGATCGACCGGCGTAACGGCAAGGAGTTGGCCGTCGAGCGCGAACTACCGGGAGACGAGCAGATCCCGCTGGCTCAGTGGCGCGACTACGAGCAATCGGCCACCAAGCATGGTGTCAATCCCTACGTGCTGTATGCGATTGACAAAGCCAGCAGCAATCTCCAACCCGGTACGGTGGCCAACGGGCAGAAGATTCACACGCCGTTCACGGATCAAGACAACCATCGCGTGGCCACCGAAGAGGTAGCGACCCTGGTGCTCCCAAATTTCAGCGGCAGCAGCCTTAGCCAATGGGCCGAAATGACCCGTACCTGGAACGAAGGCAACGAAGCGGGGGTGCAGCGTTTTGGCTTGAAGTGCCAGCACTATTACAACCAGGCCACTCAGGGTGTGGCCCGGAAAATCGTCCGGGACAACGAACCGCGTGTGAAGGACTGGAACGACATCACCAAGAATAACCTCCACCGGGAGATGCGGTTTGCCCCACAGATGAAACAGAAAGGACTGGAACGCGAATGA
>SRR1151209_02506 hypothetical protein
ATGATTAACATGACCACGGAAACAACCGCCATCACCCGCGCCCGGCGCTTGCGCAACGCGTTGCTGCTGAGCATGGTTCATGTGCACCGGGATACTTGGCGCACCCTGGACAAGGAGCTGTTCTTGCGCGGCGGCAGCATCGTCGTCGGCATCGATGTCAATAACATCAATGCCCGCGAACCGGCCGCCCTGTATCTGGTATCCGATGAGGGGCCCTATTATTTGGGCGAGGAAGCCTTGATTATCGCCCGCTTGCGCCAAGCGATGAAGGTGTGCAGCGTCTTGCAGCGGATCGATCAGCTGGATTGGCAGCCGCTCAAAGACGCTTTGGGAGGTGAGGCAGATGGCTTATAG
>SRR1151209_02507 hypothetical protein
ATGTACAAGAAGCGCAGCGCGGAGGAGATCCGCCAAGAGATCCAAGAAGTCAGCGAGCAGATGGTCAAGGACGTGGAGCAGTACACCAACTCGCCGGAACAGGTGAAGGAAATGCTGGACTTCATGGCCCGGTTTCACACCTACTCGTTCCGCAATCAGGTCATGGTCCGGTCCCAGCGCGAAGGCGCGGTTGCGGTGGGGTCGTTCAAGAAATTCAAAGACCTTGGGTATTCAGTGAAGAAAGGCGAGAAAGGCATCAAGGTCTGGGCGCCCAGCTCGTCCACCATTTACCAGTACCGCAATGGCGAAGGCAAACTGATTGCCGTGCCAGCGAAGCAAGCGGACGCCAAGATCAAGGCACTGGCCGAGAATGGCCAAGCCGTTAAAAAACAGCTCACTCGCTTCCGCCTGGTGTCGGTTTTCGACGCCACACAGACCAACATGCCGGCCAAAGATTATCCCAAACTCTATCCCAACCGGCCCATTGACTACTCCACCGATAAGCTGCTGGTCAACGAGTTATCTGATGCGACCAGCGTCTGGACCAGGAAAATGGGCGTTGAAGAAGTCAAGCTCGGCACCCTGGTGGCCCTCGGTCGGGTCAAGGATAAGGGTCAGAAAGGGGTATCTGTCTCCGGTGCCGGCCAGCAGCTGGTCGCCATTCGGGACGACTTGCCGGAGAGCGACAAGATCGCCGTCCGGATCCACGAGATGGCCCATAGTGTGCTGCATCAGGATCCCAACGACGGCAAGACAACGGCCGTCCGGGAGTTCCAGGCGGAAATGACCAGTTACGTGGTTTCTAAACATTTTGGCATGGACACGTCCGAGAACGCCACGAGTTATATCGCGTCCTGGACGGACAATGGCCAGGCCCTTCAAGCCATGGATCCCAAGGAGCGGGCGCACATCCTGGCGGACGTGCAATCCACAGCTAAGGCGTTCATTGATGACATTTCGGCCCAGCTGGAGCGGCAGCGGGACGAACGCGATCTGGATCACTCAACCAATTTCAACGATCAAAACGAACTGGATAATTTCATCGAGGTCTACAACTGGAACATTGTCCGGCCGCGCGCCCGTGATGGCTGGATGGCAGTCCACCGCGACGAGCTAGAAGAGCACCCGCAAGTGTACTTTGGTCAAATCGACTTCGCGGACAAAGCCGGTAACGACTATTCGGTGGATAAATATTACAACATTGATACCGAGCAGTTTGAGTACCAACAGATGGATGGGGATGAGGATAACAACCAGGCTATTGACGCCCCGGTAATCATGCGCGACTTTCCGCTGCACAAAGTGATCGAACAGATGGAGCAGTCGCCGGAACCGACGCAGGAAGAAATAGATTGGCTGACCAAACAAGTGACCGAACGAAGCCAAGCAGAGTCGGCACCGACTAAGGAAGCTGGTGACGGCCGGTTCAGCGAGTTTATTCAGGCGTACAACCAGCGCATGGAGCCAAACAATGATGGATGGGCATCTTACGATCCGGAAGGTCCTACCTACTACAAACTGACGCCGGAAGCCGTGGCGGAGCATCCACGGGTGTACATGGGGCCGGTTTTCGTCGAGTATTCGGCCAAGAGTACCGCCGAGCGGACCAGCAGCAATCAGTTTATGGTGGACAGCTACTACAATGTTGAGACTGAGAAGAGCGAGTACGAGATCCCCAAATACCAATTATCCAAGCGTGCCACCACGGGTCAGTCCATTGTGACCCGCGATGTACCCATGGGCGAGATGGTCGAGCACTTAACGAAACCGATTGAAGCGGCCCGCGAGGACATGAAAACAGAGGAGAAGTTTGTCTCGAAAGCCACAGCGGAGCTGCTGGAGAAACCGAAACCGGCCCGCAGTACCACGAAAAAGGATTTGGCCATGAAGAAGGCCATGGCCCAGAAAGGAATGGAGCGATGA
>SRR1151209_02508 hypothetical protein
ATGGAAACAAACGGTAATTGGCAAGCCGACATGAATGTCGTGCGGCGCATTGAGTTCATGCTGGATCGGGAAGGTTTTGACCATCATCGCTGGCAGCTGGTAGGGATGCCCGACGCTAATCGCTACGCGATCCGCAACCGGCCCCGGACCCTGGGCTTTGATGTTTTGGTCGGTCCCACTGGCGACTTAGCGGTGCATTATCTGGTCCGCGACGGCACGGAACATGAAGATGCGGTAGCGGCATCGATCGGTGAAGCGTTGCAGCTGGGGCGTGTGATTGACCCCGTGACACAGTAA
>SRR1151209_02509 hypothetical protein
ATGAAACAGAACAAGAATATCGCGGCCATGATCGTGACCGAAGTCGTCGGGAAGCTGATCCACATGACCGACATCAATACCGGGATCGAGTACAGTGTCACGGCCACGGACGCCGTGGCTCAAATGCTGGAACCGGAAGTGATCGTTGCCTTTGATCTAGAAAAAGGGCAGTTCATCAACGAAACTGACGATCAGTTTATGTGGGGCTAG
>SRR1151209_02510 hypothetical protein
ATGGCCAGTCCCGGCGTGATTTTAACCTCACAATTTGAGACCCAGAAAGTCTTTGCCAACTTCTTGGATTACCAGACCCGCGCCAATGCGTTGGCCGACAAACCGGACCGCAGTGCGCTGGAAGAGATCGAGTTATCTCTCGTTACCCGGTCGCTTTTTAATGATGCAAAGTATCAGCAAAATGACTTCAAACGAGAACCAGAAACCGACGACAAGAAACAAGAAGCACGTCGCTTGATGACCTGGTTCGACGAAGAGTTTGACCGGTACTTGAATTACATGACCCGGATGCAGGCCCTTCGCGACAAACCAAACCGTACCGAAAAGGAAGACCAAGAACTGGAACGGGTGACCCAAGGGGCGGCCCAAGTGGACCTTACGCAACCGACAATGCCCGAAAAGAAGAACACCCTTTACGGCGCCTTCACGGCCGATAAGGACGTGATTACGGGCAACGATCGAATTGAGTTAAAGGAAAAATACCGTCACGCGCAGCAGCATGGCGCAGTCCTGTACAAGGACGTTGTTTCCTTTGATACACCATTTTTGCAGAAACTTGGCGTCTATGACCCGGCGACCGATGACTTGGATGAGAAGCCATTGCTCAGGGCCGGACGCGAAATGATGGCAACGATGGTCAAGGACGAAGGACTAAAAGACGTGACTTGGTTAGGGACAATTCACCGGAATACCGACCATATTCACATCCATTTTTCCGCCGTTGAAGCGGTCAATACGCGACCATTAGTCGAACGGGAAGACCCGGAAAGCGGCAGGACGTACGTCGCACCGAAGGGTAATCGGAAGCAGGCGACCATTAATGATATGAAGCGCGTGTTCGCTGCATCATTAGTAGATCGCACCCAAGAACGCGCCCGGATCGGTCAATTACGGGACGGCTTGATTGCCGACGTACGAGAATCTTTGCCGGACCGCGCCGGAGAGTTAGTGCTGTTGCAGCGGGTGGTGCAGCGGCTGCCGGGCGACCGGCGCAAGTGGCAATACGGTTACCTGGATCGTAAGACCCAGGGAATGCTGGACAACTTTACGGATGATTTTATGGAAGACGATGAGCGCTACCGCGAGTACAAAGCAGCCGTCAAAGAAAGCGAAGTCGTGGACCGCGAGCTGTTCGGTGAGACCAAGCAGGACGACTTGCACTACGCTGCCAACCAAATGGCCGACTTGCACAAGCGGTTAGGCAACCAGATACTCAGTTACGTCAGAGAGTTGGATCATGCCCGCAGCCAGGGCGACCCATCACTGACGGATGTTAATTTTTCGGACGGTTACATCGAGAAATTAGCGTCTGCTGCCCTGGAAGCCAAGCAGCGCAAGACCGCGCAGCGGGCCACTGTCGGGCTGGAAGACGCAGCGGAAACAGCGCAGGCCCGCGAACCGCCGCACCGTCCGCAGCGCCACAAACCGCTGCTGTATCGCCGAGACCTTTACGCCATTAAACGGCAACTGTCCCGAACAATGGATGATGAGAAGTATAGTGCGCAGCGAGACTATGAGCGGACCCAACGGGCCGTGGAACGGTCCCGTGAGCGCCAATGA
>SRR1151209_02511 hypothetical protein
ATGCCGAAGAAGCACGTCCAGATCACTGACGAGGATGTTGAGATGGTGCTCAAAGTGAAGTCAGAGCACCCCGAACTGAATAATTTTTCCGCAGCTGTTCGGTGGATTCTCTTAGACTATCGCACAAAGATTGCCAACACGGAACGGCAGAACGACATCCTAGACTTGCAGAAGAAACTTGGTGAGCTGAGCAAAGAACAGTCTTTAGCGACCCAGCTGCTAGTGAATATGGGGGACGCTTTGGGAATCAAGGCAGGCACCCGGATTGACGATCAAGCGGTCTTTCTGGATGCCAAAGCAGCCGTCAATCAGCGCATCGATCGCGCAGTGACGGCACGTTCCACGCACTCTTCCACAGATAGTAGCCAACTTGGTTACAGTCATCGGTCCGTTAATTAG
>SRR1151209_02512 hypothetical protein
ATGCGTTTGAATTTACGCAGCGTCCCTGACGAAGTGATCGTCCAAATCGACAAGCAATTGGCCAAAGCAAACGCCCGTGACGGGACAACATTGACTCGCAATCAGTACATTGTTGCCGTCCTAACCGACGTATTTGTGACCGACAATGCGTCGCTATTGCACCGCGTCAATGACCGTATGGGTGACCTTACTGATGTGTTGAGGGAGCATCTTGCGGCCGAACAGTTGCTCATCTATACGGTGCTCAACAACGCATTACCAGAACAGGAAGGAGTAGATTCAAATGCCGAAGAAGCACGTCCAGATCACTGA
>SRR1151209_02513 hypothetical protein
ATGGCCAAGAAGAAAGACAAGGAGATTGATAAACACTACAAGAAGAGCCGGAAGCAGCTACTACTGTTGAGCATTACCGGGATCCTCTTGGCTTGCTTATTCGTCAGCATTGGCGCCGGTTTTGTCGGTCCACGAACCGCTAACATCCAGTTGACGAACGTAACCAGTGTACCGGTTGGATCCGGCACCGGGATCCAAGTCTACGGGAAAAAGTACAACCCGAAGACGCAGCTGTACCGGATGGAGCTGGTCATCAGTGACACCGACGAAATCGGCGGGATGAGCGCGCAAGCGGTCAAGGACATGGCCAATATTAAGTTCAGTGCGGACGCCGGAACGATTGGTCAACACGACCAACCACTCGTCACCACGGTTGAACAAGTGGCGGACGATTACCTGGTGGTTTACGTGCGCAACGTACCCGCCGAGTACGTGGCCATCCGCGTTAATCTGAAACTCAGCCGCAAGAACAAGCTGCTGGAAAACACAATGATGCCGGACGGCAAGCCGTTAACCTTGGCGATTGACGCCAAACAAAACAGCGCGAAGCCGGACAAGCAGCTGGCCATTGAGTCGCCGACACGGTTGCGGGCCAACTACCGTGCTTACCAACTGAAAGACTGGCAAGAACAGATCCAGGTGCTGGCCAAAGCCAATCTGTCGCTGCAAGCCGACATCACTCAAAACAAAAAGCTGACTAAGAAGTTGCGCGCCGAAATGAAACAGCAAGCGGCCGAAGATCAGACCAAGACGCAGAGCCAAATTGATTCTTACGAGAGCACAACGGAGCAAGATAAGAGCCGGATCAATGGTAATAATGACCAGATTCGTGCCCTTAAAGAACGCATCGCCAAGCTCAAACAGTCTGCTGAGTGA
>SRR1151209_02514 hypothetical protein
TTGATAATCATGACTGACCATTATCGTGACATCAACGCACCGGATCAATTCGTCTTCGACCACGCAGACGATTTATTTTCTCGCTTAGAGCCGCGTCATGATTACTGGGCGTCGTCGCAAACTTATATCAGGTTCCAACGCACCTACACCGGCAATAAGCGGGAAGTTTTGCAACTGAACTTCTCGTGGTGGGATTACGATTCGGAGCATTATTATCTGGTGCGGTTGTTTGATCCGGTGACGAAACAAACGATTCGCTACCACCGCTTGCGCCGGTCAGCGTACACCGGACGCGCGCTCATGGTGCGCGTCGAAGAGCCGAAAGGAGGGCCGAGCAATGGCCAAGAAGAAAGACAAGGAGATTGA
>SRR1151209_02515 hypothetical protein
ATGGAAAAGAAGGACTATTTCTTGATTATGGGCTTGATCCTGCTCACTACCGTGTGTGCCGTGTCCCTATGGTTATGGCACCAAAGCGGGACCCAACTAGCGGCCGCGAAGACGGCCAACGTGACCGCTTTGAGCGCGCAAAAGAAGAAGGTCAACGAATTGGAAGACCGCTTAGCAGCCGCTCAAGCAGCAGCAGTTAAGACCACTGAAACGGTTGATACGGGGACTGAAAGCGACCGCAAGGATGCGCAGATCCAATTGGATCTGGGTGGCGTGGCCACCCGGTTCATTGCCCTGTTACAGGCTGATACGCATGACGTAGACGGCAAGCGCAAGAAGTATTTGGATGTAGCGACCCCGGAATTGACGGAGAAATTGATTCCCGGCAATCTCCAGAAGCAGGAGAAACAGGAGATCCAAAAGAATATCTACACCGTCAGTTTCGCCAAGAACCAAGCGATGGTGGATGCGACCAATCCGGACGCGCCTACGGTCGCCGTGTACATGGAGTACACGTTGTCTACGGACAAATCCAAGACGCCGCAGCATTACGTAGCGCTGCTGCAATTTGAGAAAGATAAGGTCGCTGACTACCGCTTCTTCAACCAATCACCAACCGCAGGAGGGGGTGCGATTGATAATCATGACTGA
>SRR1151209_02516 hydrolase
ATGGAAGAATCAGATAATCCGTTAATCAAACTGCTCAAAGCGCAGCGCCGGTTACGTTGGATTCGAAGACTATTCAGCCTAGGCGGGTTGCTCGTTATTGTGACCTTCCTGGGCCTGTTTATCGGCGGCATTGCCATCCTGGGTACATTAGGCGGCAGCGGCCAGCAAACAGCCGATACGGCAGCGGATGGCGACAGCGATTTGACTAGCACCGGCGTCAATGCGGAAGTGTTTCATGCGACCTGGGTGCATTACTACACCGGTAGTGTCATGGAAAATAAAGAAAAGGCGGTCATAGCCATTGCCAAAAAATATGGCGTATCGCCCGCGCTGATGGCAGCCATTATTGGGATCGAATCCGGTTGGGGAAAATCTGCGGCGATCCGTAACAAGAATAACCCGAGCGGCCAAATGCGGGGCAATGAGATCCTTGCGTTCCCCACGTTGAACGATGGAATTGAAGCCACTGGCCAGACGCTGAACGCGCTGGTGGTACGGGAAGGGCTAGTTACCGTCGAGACGTTAGGCGCACGCTATGCACCAGTTGGGGCATCCAATGACGGTGGGGGCTTGAACGTTAACTGGGTTTCGTCGGTCAAGAAAATGATGCAGGAATTCGGTGGTACTAGCGGATTGACCGCCAGCGGTGGGAGCGGGGCTAAGCCCAACAGCAAAGGCTGGGTCTACCCGCTGCAACCGTATCAAGTCACTAGCCCCTTCATGATGGGGCGGCAAAGCCCCACAAGGCCAGGCAAGTATGAGAATCATTACGGCATTGATTTAGTCGGGTCACTGCGGATCAATGCGGCCAAGGATGGCACTGTCGTGTTGTCTGAAATGCGGGGGGATTACGGGTTAATCGTCATTCTCAAACATTCTGACGGCTGGTACTCTTCATACCAGCACTTGTTGTCCAGCAAAGTTAAGGTTGGCCAAAAGCTCAAAGCTGGCCAGCAGTTGGGCATCATGGGTCAGACAGGGGACAGTTACGGTGCGCACCTGCATTTTATGATTATGCGCAACTACTTGTTTAGCAGCAACCCAGGGTACATCGATCCGGCCACCGTGATTGATTTTAAGTAG
>SRR1151209_02517 type IV secretory pathway VirB4 protein
ATGGCTTTAGACTTACGCCTACCATGGCAGAAAAAAGACAAAGCACAGACCGTGACCATGGACCCCCACGCGGCACTGTCCCAACGGAAACTACAGGAACTGGACGATAACGGCTACGACCTGGGCTTTCTGCACCGGATCCAGCCCGCGGGTGGACTGACCTTTGATGAGCGCCACGCGATGGGAGGAGATGGGTATTTCAACGTCCTCTACGTGACCAAGTTCCCGCATGACCCGAATTTATTTTGGTTAGCATATCTGACCAATAACCCGTACACGATCGCCGAAGTTGACGTGAAGACCGACAGCACCGAAAAGGTCGTCGGCAGCATCGATCGCACGCTGAACGAGTTGGGCGACCGGGCGAAGAACGACCGGAAACAAACCGACCAGGCCAACGCTGCTGATGAATGGCAGGACCTGTTGAGTTACGCCAGACAGCTGAAACGGGCCGGGGAAATCGCCAAATTGATCAAAGTACGGATCATGGTGTACGCCCCCACGCTGGAAGCGTTGGATCAGCGGACTTCTGACTTGAAAGCCACGCTCAAAGGGCTGGATTACCGGACGACCGTCTTTCTGTTTGAACAGGAATACGAGTATAAGTCCTTTTCAGCATCCTATAGCCAGCAAGAAAAATGGATCAACAACAAGCGGGGGCAGTCGCTGCCGGCATCGACGTTAGGCAAGGGGGTACCATTCCATTACCAAAGCCTGCAAGACCCGCTGGGTTATCCCTACGGAACAACGAACACAGGCGGGACGTTTATCTTTGACCAATTCCGGTACACCAAGAATCGGCGATCGTTCAATGGCATGGTCCTAGGCAAGATGGGGTTTGGGAAATCGACGCTGATGAAGATGATGGAAGAAGCCACGGTGGTGCGCGGCAACTTCGTGCGGATCATCGATAAGGTCAAAGAGTACGAGAAGCTGGCCAAGTCTCAGGGCGGCATCGTGATTAACCTGGACGGCTCAGAGGGCCGGATCAACCCCTGGGAAGTCTATCCAACGATCACGGACGCAGACGGCCTAGTGGTGCAGGAAAAGTCCTCATTTGCCCAAGCCGTGGCCAAACTATCGGGGGACTTGGGGCAATTGAACAGTGACTTCACGGGCACGGACATGAAGGAGGTACGGATGCTGATCCGCGCCCACTATGTGGATCACGGCATCGTCCCGCCAAACTTTATGAATACGAGTGTCAAAGTGAATATCACAGGGCTAGAACCGGAGAAATACCCAACGTATTCCTCCTTCATGAACTTCCTCCGGCGCGTCCAGAAGAGTCCGGGAATGCTGCCGGTCAATATCCATAACCGGGTGCTGGACATGCTCATCACGACCATTACGGACCTGCTGGACGGGCACGGATCGATGTTTGACGGTCCCTCGACGATCAAGAATCTCAGTGACCAGCAGATCGTCGTGTACGACACTTCGGCGGTAGCTAACATGGAGCCGGCCGTCTACCGGGTACAGCTGTCCTCAGCGTTGTCGCTGATTTGGGCGGATGCGCTGCGTAACGGGCGCCGGCAGAACTACTTGCTGCGGCAAAAGAAGATCGAACCGGACCAGATCCAGTATCTGAATGTTCTCTTCGATGAATCGCACAACCTGATTAACACCAACAATATTGCGGCCGTTGAGTACGTCAGCAATTTTGAACGGGAAATGCGGAAGTTCCGGGCAGGCGTGGTTTTCGCGACCCAAAGCCCGCAAGAAATGATCCCCGAGGGGGCGGCCAGTACGGACATTGCCAAACTCAAAACGATCTTCGAGTTGACGCAATTCAAGGTCCTCTTCAACCTGGATGATTCCTTGCTAGCCCGGATGCGCGAGTTATTGGGTGATAGTTTGACGGACTCAGAATACATGTCCATTCCTGATTTAGAGATGGGCCATGCCATTTTAAGCCTTGGGTCCAAGCAATCGTACCGGGTGAAGTTTGAACCGTCAGATCGTCAGCTAGAGCTGTTTGGAGGCCAGTAA
>SRR1151209_02518 hypothetical protein
ATGGTCGAACTCACACCACAACAGCAGCGACACAAGGACCTCATTCATGACTTTCTGACCTACATCAATAGTCAGGATGACCAATACATTCTCAAAGGCGGCACGGCCCTCATGGAGTGTTACGGACTGGATCGGTTCTCAGAGGACGTTGACCTGGACGGTCGCGGCGCATCGATCAAGAACTACGTTGACCGGTTTTCCAAGAAACGCGGCATTGATTACCGCGTGGCCAAAGATACGGATACCGTGAAACGGTTCATGCTGCACGATGGGGATGACCTATTGAAGGTGGAAGTATCCTATCGGAATAAGCACATCAATCCGGCCACAGTGAACAAAATCAACGGGATCAGCGTATACAATCTGGACACCTTGGCTATGATGAAAAACAACGCCTACCAGAGCCGGGCCAAGATTCGCGATCTGTACGATTTGAGCTTTATCCTGGAACACCATTGGGATGATGTTAGTCAGAAGACCAAGGAGACCGTTGCGGACGCCTTGTCCTACAATGGCTTGGAGCGGTTTGATTACTACGTCAAGACGCAGCAAGACGCGTTGATTCCCAAGGATCGGGTAGACGAGATGACGAACAACTTCCTCAGTGTTTACGATCGGTTGGGTCTGGTTGATGATAACAAGCCAGCTGAACCGGCCAAGAAGTCAATGGACCAAGAAGCACTCAAACGAGCGGCCATTCAAAAGAAGTTGAAGGGAATGGAGCGCAATTGA
>SRR1151209_02519 hypothetical protein
ATGAAATACATTTCCGGGCTTTACGCCCTGAATATTCCAGACCCAACGGAACAAACGACTGGCGACTGGCATTGGGGCGCGCTGGACTGGACCCACATTCCATTGTATGAAACCCAAGGCAGCCTCTATGGTGATTACGGCATTCGCCGCGACGCCAAGGTGCCCCATGCCCCAGGAAATGCCCGCTACAACGTCGCCAACCACATCCGGGCCTTGCTGGATATGCTGGTTGCCGGACAATTCGGTTTGGCGGGCGGTATGCGCGACGACTTCATCTGCAACGACGCGCTCACGCCGGAAGTGTTCAACAAAGTGTGGCAGTTGCGGCACGCGGCTAACTGGCCGCAGATCGACAAATTCATGGGCAGCGAGTATTTCATGCAATGGGAGGATTATAAAGATGGTCGAACTCACACCACAACAGCAGCGACACAAGGACCTCATTCATGA
>SRR1151209_02520 hypothetical protein
ATGGTGAAGGATGCGGAAAAGGACCTAGAACAGCAACAGACGGAACGAGAGGTGTTGGGCAGAAAGGTGGCCAAGGCAGTGGAGAAGCTGCCCGCCCAAGAACTCAATACCCGTGAAGAAATTCAGGAATGGTTGGAGGACGACACAAACTGGTAA
>SRR1151209_02521 abortive infection protein
ATGACCGAGGATTTGGATTCTACCTTAACTGGGCATAATCTGGATAAGGAAACGGTCAGTGGCGTATTGCAAGACATCTTTGATCAAAATCCTGACGAGCCGGTTCAGTTCTCGCTCAGAACGATCAAAGACGAGATGCTGGGCCATGAGTACCCAGGGATGCGAGTCAGTATTGACCTGGATATGGAAGGCGTGAAAAGCAATATCAAGATCGACTTGTCTACAGGCGATCCAATTGTGCCTGCTCCTGTTCGGATCAGGCAGAAAATGCTAATGACTGGCAAGCCGGGGTTTGAGATGAAGGCTTATCCAACGGAGCAGATCGTGGCGGATAAGATGGTTGCATTAGCTCGGTTGGGTATCGTTAATACCCGCGGAAAGGATTTGTTTGACTTGTACGCCATCCGGACAACGCAACCAAAACTCAATCGTACGAATTTAGCACTGGGGTTTCTGCGTAAGAGTAAGGCGGACAAGTTGACGGTGAAGCCGGGAGAATTACTCGCCAGCATTGATGAACTAAGTGGAGAACAACCGATTAAACAAGCGTGGCGTCAGTACCAGGTGCGCTTTGACTACGCCAAAGGGATTCCCTTTGAGGACACCATCAGGGCAGCCAAGGACATTCTTGTCGGCACTCAGCTGTTGCAGCAGCAAACTCGCAACAAAGGGCTAGAGCGCTGA
>SRR1151209_02522 hypothetical protein
GTGGCCAACGCTGCGAAGCACATCCACGTCTTGGACCGCTATCACTTGAATAACAAGATCACTATGCGTCTAGCCGGCTTCCCTGAGCCAGTGATCAAGAAGGTACGCAAGGCGGTTTATACGGCCAATTGGGACGCGCTCACGCAAGCCCTGGATACTTGTCAAAGCTTGGCTGTGAACGACAGTTCAAGCGAACTCGGCCGGCCCTCTGATCGGGCCGAGGACGTCCGTTTACTGCGGGGCTACTTGGAGCGCAACTGGGTTTCAATCAAGCCCATCGCTGATCCGGCCCTCCATGAGTCGATCCACTCTCTGGGGTGCTGCGAGAGCAACCACCGGCGCTATACGTATCGGCTCAAGCGTGAAGGCCGCGCATGGAGTAAACGAGGTCTAGAGGCAATGTTACGCATCATTGACTGCGAACAGAACGAGGACCTGATTGAGACGCTCAACGAGACAGAAATGCTGGGAACTACGTTCGCACCAGAAGTCGCCGAGACCGCTGAGGACGATGTGAATCTTCAGGCCTTAGGGTTATTTAAAGCGCAACCGACAACACACGTTGGCGTGCGTCACGCGAGCCTTGGCGGCAATGTTCCGGCCAGCTCGCCGATGGGACAATTGAACAAGAAATTGAACATGGGTGGCTTATTCTAG
>SRR1151209_02523 hypothetical protein
ATGAACATCAGTGTAGCAGATATTTTGGTCTGCATACAGGGGGTTACGTCGTTATTTAAAGCAGAAGTGAATATTCTTCAGCTGGTCTTTATCCGGGCCACCGAGCTGGTCGGGTTAGCCTTTGAACAGCTCGATGACCAACTGTATGAAAAAGCCAAGGAGGAGGCCAAGCAAAAGCACCAGACAATCAAATCCCTGGGACGGGATTCGCGAACGATCAGTTTTCTTTTCGGTACTGTGCAGTTCAAGCGGCGTTACATCCAGATGGCCGATGGCAGTCGGGTTTATTTGCTGGACCAGCAATTAGGCATTCAGCCGCATCGGCAGTTTTCCCAGTTACTGATGGAGAAGATCTCAGACCTAACAGCTAACGGAACCATGCGGCTGGTAGCTAAGGCCATTAATTCTTTGACCAATTGCAGTATCTCTGCCCCCGCCGTGGACCGCATCGCCCAAGGCACAGGCAGCGACATCGCACTTGTCCGGATCCAGCAAACTAAGGAAGAGGAGGAAACCGAACCCAGCCAACGAAAAGCACTTAGAGTGCTTTACATTGAAGGCGACGCCTTCCTGGGCAGAGGCCGCTGCACCAAGGGAAAGAAGCACCGCGGCCATCGGCGCCGCAATGTGCCGTTCACTCATACCGTTCATCGGTTTCAGATCTACGAAGGAATCGAGAAGAACGGCAGCCGGCACACGCTGGTCAATCGGCATGACGTCAGTGGATTAAGCTAG
>SRR1151209_02524 plasmid replication protein
ATGGCTACCGAAGCGCACGTTGCAATTGCAGCAATTCTGCATAATACCGTTCTGGAACGGAAACCGCAAAATTCCAAGTTGATTGGGCTTACAGCGGACCCGAATAAGGCTCACCGCACCGGGACAGTCTTTGCTTTCCGGGACAAGATCCGGATGAGCATGGCTTGCGGGGTCGTGTTGCGCTCGATTGAGTCGCTGGACGACAACGAAGACAAGTTTACCCACTGGACCCCCAACGTTTTCTGTTACGGCAAAAGGACAGGGGGCACCGTCTCCGGTTTCACTGAGGGCAATCTTTTTGCCATTAACACATTTGTGATTGACATCGATTTTCCCAGTAGTCGTGCTCGGGATAGTTATGCCCGCCAACATGACATTACCTGGGATACGATCATCGATGGCAACATTTTTCCGACGCTGATTCTCCTGACTGACAAGGGCTATCAGGTGTATTACGTCTTGCGGAAAGCGGCTTTCGTCAGGCGTCGGGATGACCGATTGCGAGTCGTTGAATCCGCAAAGATTATCGCCAAGAATCTCAAGGAGTGCTTGGCCCAAAAACTGCCGCAGGTCGATTTGGGGGCCAATGATTTTGGCATTGCCCGGATTCCGCGTAACGACAATATTGTATTCTTTGAACCGCATCTGATGCACCGGTTTAGCGACTTGAAACAGTGGAGTATCCGTTACAGTAAGCAGAAACGCGCCACAAAGGGCGGCTCAACACCTCAATTACGCTTACTTGCGGGTGGTAAACAGATCGATCAGGCTTGGTTTGGCCAGGTACTGCGGTGCGCCAAAATTCACGCAACTGGCAAAGGTGGGGGAGTGGGTCGGCACAACGCGGCCTTCACATTAGCCTTGGCCTGCTATCAGTCCGGCGTAGAGCAAGAAGCGTGTGATCACATGCTAGATGAGTGGAATACTCGACTGAATCATCCCCAAAATCCCCGTGACGTGGCCCATGCGGTCCGTGACGCCTATTCAGGGCGCTATCAAGCTGCAAGCCCGGTTTACATCAAGTACATCTCGTACCGTTGGTTTGACGGTCGGCTGACCATTCCTCCCACGATGTGGTATAAGTTTGCTAAGTCGCGGGATGAACGAAAATACAGTCACGCCGAAGAATGGGCGGACGATACTTTAACCTGGTTGCAAGCCCATCTGGGACCCGACGGATCCAAATGGACGGTCCGTCAACTCACAGTCGAGCTTGGCATGAGCAAAGCAGCGTTAGATGCGGCGTTTAAGCAGTTGCGGGCCCAAAACAAGATCACCGTGGCGACACAAAGGGGTTGCATGGGGTACACCTGGATCCAGACAGTGGCCAACATTTATGCGCAGCTGGTGGCCAAGCGTAATCGCTCACGGGAAACGTATGGCAGTGGCTTGGCGTTTGCGGATGACTGGGCCGACGAGTTGTCGGACAAGCAGCAGCCATCGATGGCCCAAATCACGCAGCAAATCGACCTTTTCTTCGACAGCATTGATCCACCAGATACCAGACGTGGCGCGGGTTGA
>SRR1151209_02525 ATPase involved in chromosome partitioning
ATGGACGAAAATACTACGGATACCCCGGCCATTGCGCCCAAACGATCGTTGAAGCGGCCGTTAACTATTACGGTAGCCAACAATAAAGGCGGTGCTGGAAAATCCACTATCACTCGCTACCTGTCTTTCAATGTAGCTTTACGCGGATACAAAACGTTAATCATCGACGAAGACCCATCGGCGAACACGACCAAATCGATGATTATCACCAAAGCTCGGCATGACGAGGAACCCTACACGATGGGAAAGACAATGATGGCTGGTGTCCGCGACGGCAGTTTGACGGACCTGGTCGTGCCGATCATTCCCAATTTGTACCTGATCCCGTCGCATATCGACTTTGCTAGCCTGCCCGTCTACCTTTCAAAGCAATATGGCGTCGCTGAACCTGGAGATCCGGATTACCAGGATGTGGAAGGTCATAAAGTAGCGGTGATCAAGAATCTCCTAGAACCGCTGAAAAAGGATTTCGACTTCATCTTTATCGATACACCACCCACGACGTCTTCGGACTTTACCCGCTCAGCAGTTTTCGCCAGTGATTATGTGATCATCGCCTTCCAGACCCAAGCCGATTCCTTCGATGGCGCTATTCAATTCATTGACGGCGATCTCAGTGAGTTAGTCCACGTCTTTAAGGCTAATACCGATGTCTTAGGGGTATTGCCCAATCAATTTGCCCCGAGCGGCACAATCGATGAAACTGTCCTCAATGATGCACGGCAACGGTTTGGCAAGCAGAACTTGTTTGAACATATTCTTCCCTATAAGAAACGGGTACAATCTGCACCACGGATCGGTATTACCCGAGAAGGATACTGGAATAGTGACCTGTTCAAAACAGCAATTGATCCATTGACTGATGACTTTTTCCATCGCTTAGATTTGGTAGGTGAACTCAATGACTGA
>SRR1151209_02526 hypothetical protein
ATGACTGAGAATGATAACACGCAAAAGCAAGAAAAGAAGGCAAAAATCGGCTTTTTTAACAGTGCGGGGCCTAAGAAACAGAAGAACAATCTCGACCTGTCTTATACGGATATTGCTGAGCCGAAAGAGACGTATGCTCCCGAGAAAAACACCGGCAAGGAAATTCTGCCTAAGTCTAAGTCTACGATCTCAGCAAGTGCAGCGGCCAATGCTGCGCGAAAAACGCTGCGCCTGCCCAATGATGTTTACTATGAGTTTTCAGCCCTCCTTGAACTGTCGGATTTTGCCTACTCCTACGAATTACTGGCCGAGTTAGTTGAAGACGGCATCAAGAAGCGCAGTGAGGAAGATCCTGACTTTGCCCGGACGTTCCGGGCCGTTGCTGAACGAATCAAAATGACCGATCAGCGAAAGATGGCTCGCAAGCGTCGTAAATAG
>SRR1151209_02527 transcriptional regulator
ATGTCCCTTGGACAAGCCATTATCACTTATCGCCAAAAACACCATCTAACCCAAGCTGATTTAGCCGGTCAATTATTCGTAACCCGCCAGGCCGTTTCTACTTGGGAAACTAACAAAGCATGGCCGGATACCGAGATTTTAACTCAGTTGAATACTTTGATGGCCACTGACTTTGTCAAACCATCACCGCCGGAAACACCCGCTGCACCGAGTGATGCAGTAACCGTACTCTTGCTTGTAATTGCTATCATAGTGCCCATTTTCGGCTTAATTGGACCGCTGGTTATTCTGTTTAACCGCCGCTTTCCTCATTGGAGCAAAACTGCCGCTGGCGTGGTTATTGCGGTGGAAGTCCTGGCTATTGTTGCTTTCTGGTTATTTGCCGATGCAATCACTGTTTCCAAGCATATCATTGGCTGA
>SRR1151209_02528 ammonium transporter
ATGGCGAATACCCTTCTACAACTGCTGTGCTTTGCGGTAATGATTCCAATGATCGCCAGTGTGCCGCTGCTTTATAGTCAGAGCATGACCCAAGAGCGGGCGCCGCACACGCTGCGGGTGCAAATGACAGCTTTAGCAGCGGCGGTGGCGACGTGGCTGGTGATTGCTTATCCGCTGATCTATTTAGGCCCAGACCGCGTACTGGCCTGGTGGCTGGCGCTGGCCGGGCAGGCCGGCCAGCATTCCGGGATGCTGCTGAATGCTGGTGTGCAGATGGAATTCTATTTATACGCGGTGGTGATGTTTTGCGGCACGCTGACGGACCGGGTGCGCTGTCGCGGGCTGCTGTTGTTTATTCCCCTCTGGACGCTGCTGGTTTATTGTCCAGTGGCCTATCTGCTGTGGAACGGCCATGGCTGGTGGGCCGCTCAGGGCGCACTGGACTTTTCCGGGGGCTTAGTTGTGCACTTGACTGCCGGCGTGACCAGCCTGATTATGGCGCCTCGCTTGGCTGGTCGCGTCAATGGCTTACGAGCAGAACGCGGCTTGGCAGTGCCCACGATCTGTACCTTTTTGATCCTGCTGGGCTGGTTCGGTTTCAACCTCGCCCCGGCCGGCGGACAGACAGCGCTGTACGGATCGATTGTCTTGGGCACCTGCTTGGCGGTGTTGGGCAGTATTGCCGGTGCCGCCTTAGCCTGGTGGCCCGGACTGAGTGTCGGCCAAACACTGGATGCCATCGTGCTGGGGCTTGTGACCAGTACGGCAGGCATCGGCTATGTGCCGCCGGCGGTGATGTTTTTGATCACCCTGGCGGCGGGCTTTCTCTTGAACCGATGGCTCACCGGCTGGCGGACCAAGCTGGCTGAAGATCCCGTGGATTCGTTTGTGATGAACGGTGGCGGCGGGATGATTGGCGCTTTGGGCTTGATTATCTGGCGGGGGGAAGGGGTCTTTGCCCTGGTGGAACTGGGTGCCCTGGTCAGTGTGTTTGCCATCACGGCGGTGGGCAGCTGGCTGGCGCTGCAAGTGAGTCGAAAAGTCATGTAA
>SRR1151209_02529 hypothetical protein
ATGCACGACTATCGAGTGATTGTCATCGGCGCCGGTCCAGCTGGCTTAGGGACGGCGATTGCGCTGCAGGAATTGGGTGTCAGCGATGTCCAGGTAATCGATCAAGGAGAAATTGGCCACAGTTTTCGCCAGTGGCATCCGGAGATTCGCTTTATTTCGCCATCGTTTACGACTAACGGTTTTGGCTTTCCGGATTTGAATGCGATCACGCCGAATAGTTCGCCAACTTACGGCTTGCATACGGAGCATCCCAGCGGCCGGCAGTACGCCCGCTATTTGGAGGAATGTGCCGCGGCCTACGCGCTGCCAGTACTGACGCACACCACTGTGACGAAGATTCAACGATTCGGTGATGCGTTTCGCTTAGAAACGAATCGGGGTGAAATGCGGGCTAAATACGTCATCAGTGCGGTGGGCGATTTTTCTTTCCCTGCAACCCGCGGCATTCGCGGGGCCGAACTGGGCCGGCATTATGCGCAGATCGCCAGTTACCGGCCCTTCACCCGGCAGGAAGATCCGGTGGTGATCATCGGCGGCGGTGAATCCGGGTTTGATGCGGCGATCAAGTTGGCGGCGTTGGATCAGCGCAGTGTGCTGATCACTGATGTGGCGGCCATCGACAGTGTGGTGCCCGATCCGAGCATTGGCCTGTCACCCTATACGTATCAGCGCTATACGGCCATTCAGGAGGCTGTTTCGCTGTGGCGGGGCAACGGGTCACCGCCATTACCCAAACGGCTCAGAGCCCCTATACGGTCCATCTCGAGGATGGTCAATCGGTGCATACCCGCCAAGTACCGATTCTGGCCACCGGCTTCGCCAGTGTGGATGCGCCGCTGCAAACAGATCTGTTTGCTCACCGGGGCGATCGGGCCGAATTGA
>SRR1151209_02530 hypothetical protein
TTGCCCTTTACAAACGATTATCTCGGCATTCCGGCGATTTGGGTCCATGACCATCAGGCGTCCGTTTTGAAAGCGATGAACGACCAAGCAGTGCCTGTTCGTTTGACGATTACTGGCAGTTATCAAGCCAACGTGCCGACGGAATCATTTGCGGTAATTGTCCCCGGCCAACGTGCTGATCAGGAACTTTTTATCAATACCCATACCGACGGTCCTAATGAACTGGAAGAAAATGGTTCAGTGGCTCTATTGGCTATTTTAAAGGCGATCAAAGACGATCAATTGAAATTTGCCAACACACTGGTATTTGGATTTACCAGCGGTCATTTTCAAATCCCCCAAAGCGGAATTTCAGGGAGACAGGCCACTTCCAGATTATTGCAAGATTTTGAAAAATATGAGGCCAGTCATCATGTCTCAGCGAGAAAAGTGCTTGGCTTGACTGTCGAACACCTTGGTGGTGCAGAGTACACCGATGATTATAAAAATAATGCAGTCAGATTGAAAAGTGCGGATGACCCAATGTTTATTTATACGTCAGATAAAGCAAATAGAGAACTGGTGGGCCGCTGTTTGACGACGGTTAAACCGGCGGGGCGCTATTTCGTTCTTAAGCCGCGGCAAACATCATATTTTGGCGAAGGGCAGCCTTTATTTCAAGCTGGATGGCCAACCATTTCGTTCATTGCCATGCCCTTAGCCCTATGCCAGCAGCCGTCGGTCAAAACGGCGCCTAATATCAACCGGATGTATGAACAGACGAACCTGATCTTTCAAATCCTTCGGGAGGGCGATCGTCAGCTGTAA
>SRR1151209_02531 hypothetical protein
ATGACGCTTGATATTAACAGCATGACGAAGTGGCAAGAAGCTTTAAAAGAAGTTGGGCCGCGGTTAACGGCGACAGATAAGCATAATCAGTTCATTCAATACATAAAGGATCAAATTACGAGCCTTGGTTTTCAGATAGTACGTTTTCCGTTTACTATAAATCGTTGTGTGCAAGCCACGCGGCATCTTCAAAATGATGTGACCGGGGCGCCAATCCCAGATCTTGGGCCAGTACCGTATTCTGGCATCACTAGTCAAAATGGTGTTGTCGGAAAATTGCGCTTCTACCATTCAAAAAAAGATCCGAAAATGAAGGGAAAAATCGCTGTCATTAAAGTGACTAATTTTTCTCTGCCGACTTTTCTTTTGATGCACAAGATTGCGCAATACCCAGACAATGCCCGGCTAGCGTTCAGCATGCGGCATCCCCTCGTTGCCGCAACGTTAGCGGTGGATAAAAATCAAAGCGGCCAAAGACAGCGGTGCAGTGGCAGTTATCCTGCTGTGGCATAA
>SRR1151209_02532 major facilitator superfamily transporter
ATGGCAGAGGCAGCAGGGAATACGAGAAAGAAGCACATGACGCGGCGGACAATGGTGGTGATCGTCGTCGTGGCCCTGTTGTCGTTCATCGGGGTATTGATCGAAACGTCGATGAACGTGACTTTCCCCACTCTGATGCGAGAATTCCATGTCTCACTGACTACGATTCAGTGGGTGACCGCCGGGTATCTGCTGACAGCAGCGCTGGTCATGCTGGCGTCAGCCTATTTGAAGCGGCGCTTCACCAACCGGGTACTGTTTATTTGGGCGGCAATGCTGTTTATCGTGGGTGATCTGCTCTGTGCCACGGCGACGACCTATTGGGTCTTGCTGGTCGGCCGGCTGATCCAAGCCGGCTGTGTGGGCCTAAGTACCCCGTTGATGGTGAATATCATTCTGGATGTCGTTCCGTTGCAGCATCTGGGTACTTATATGGGCATGGCCAACATGATCATCTTAGTCGCTCCAGCGCTGGGTCCAACCTTTGGTGGAGCGGTGGCGGCCTTTGCCAGCTGGCGGATGATTTTCTGGCTGACCCTGCCGATCACCCTGATTTTGCTGGTGATCGGCGTCCGGGTAATCGAACAGTACAGTCCGACTCGGCATTTTACGTTTGACTGGACTCGGTTTGCTTTGCTTGGAGTGGCGCTGGTCAGCCTGATTGTGGGCTTGAACGCCCTGGGCGAGGCCGGCGGCTGGCGGCAGTTTTTGATTTATTTGCTGGTGACGGCAGTGGCGTTAGGTGCTTTTAGCTGGTTTTCCAAGCGCAGTCACCGAATTCTCTTTTCCTTGGCGGTTTTCCGGGATAAGGCCTTTCTGTTCAGCTTTCTGCCCTATATCTTCCTGCAGTTCGCCAACGTCGGTATCAATTTTCTGCTGCCGAATTATGTCCAGGAAGTTGACGGTGCATCCGCGTTCGTTGGCGGACTGATTCTGCTGCCGGGGAGTCTGTTCAACGGCTTTGGCCAGCCGGTATACGGCTGGATGCTGGACCGCTTCGGCGGTAAGCTGCCGCTGTATTTAGGCGATGCGCTGTTCACGGTGGCGCTGGCCGGCTTTGCCCTGTGGGGCACCAGTTTGAGCGTGGCCGCGGTGACTTGGCTGTATCTGATTTTCGCCATTGGCCGCTCCATGGCGTTTGGCAACAGTGTGGCTTATGGCTTGAAGAAAATTGCCAAGCCGCTGCGCAACGATGCCAATGCGCTGTACAACACCGGCCAGCAAGTCTTCGGCGCAATTGGGACCACAGTGCTGGCGATGATGATGTCGTCGGTGAACCGACCGCAGTTGACCCACGGACAAAACGCAGCCTTAGGCAGTCGCGGGGCGTTTGCTTTGCTGACGGTGTTGGGCATCATTAACTTCCTGCTCTTCGTGAAACTGATCCATACGACCACGCCCGCTCAGTGA
>SRR1151209_02533 DNA gyrase subunit A
ATGGATAATGCACAAGACCGGCGAATCCATACGGTCAACCTGCCGGAGACCATGCGCAAGTCCTTCCTGGACTATGCGATGAGTGTCATCGTTGCGCGGGCGCTGCCGGATGTCCGGGACGGCCTGAAACCGGTCCACCGGCGGATTCTTTATGGGATGAACGAATTGGGCGTGACCCCGGACAAGCCATATAAGAAATCGGCCCGGATCGTCGGGGACGTCATGGGGAAATTTCATCCCCACGGCGACTCCGCGATTTACGAGTCCATGGTGCGCATGGCCCAAGATTTCAGTTACCGCTATCCCTTAGTTGATGGTCACGGGAACTTCGGCTCCGTCGATGGCGACGGCGCTGCTGCGATGCGGTACACCGAAGCCCGGATGAGCAAGATTGCCACAGAAATGCTGCGGGATATCAACAAGGACACCATCGACTTCCAAGATAACTACGATGGTACGGAACGGGAACCGGTTGTTTTACCCTCCCGGATCCCCAATCTGCTGATCAATGGGGCGACCGGGATCGCCGTTGGGATGACGACGAATATCCCGCCCCATAATTTGAGCGAAGTCATTTCGGCCTTGCACATTCTGATGCGCAATCCGGACGCGACCACGGCGGACTTGATGGAGGCCTTGCCAGGGCCGGACTTCCCGACTGGCGGCGTGGTGATGGGCAAATCCGGCATTCGCCGGGCGTATGAGACCGGCCGCGGGAATATCATTTTGCGGGCCAAGGTCGAAGTGCAAACGGAGAAGAGCGGTAAGGAACGAATCATCGTTCACGAAATCCCCTACATGGTCAACAAGGCCAAGCTGGTGGAACGGATCGCGGAATTGGCCCGGGATCACCGGATCGACGGGATCACCACCCTGCAAGACGAGTCTGATCGGGAGGGCATGCGGATCACCATCGACATTCGCCGGGATACCTCGGCGACGGTCGTGCTGAACAATTTGTATAAGCTGACCCCGTTGCAGACGAACTTCTCCTTCAACATGGTTGCTATCGTGGACGGCGCGCCGCGGGTCCTGACGCTGAAGCAGATCCTAGTGTACTACCTGAAGCATCAGGAATCCGTCATCACTCGCCGGACCAAGTTCGACCTGCGCAAAGCCGAAGCCCGGGCCCATATTCTGGACGGCTTGCGGACGGCGCTGGACCACGTGGACGCCATTGTCTCGCTGCTGCGCAGCGCGCCCAACGGCGACGTGGCTAAGGCACAATTGATCGACCAGTTTGATTTGGATGATAAGCAGGCGCAAGCCATTCTGGACATGCGGATGGTCCGCCTGACCGGTCTGGAACGGGATAAGATCGACAGCGAGTTCAACGACTTGCAAGCCGCAATTGCCGATTACAAGGATATCCTCGCCAAGCCGGAACGAATTCACGAGATCATTTACCAAGAACTCTTGGATATCCAGAAGAAATATGGCGACAAACGCCGGACGGAATTACTGGTCGGCGAAGTGCTGAGTATCGAAGATGAAGACCTCATCGAACAAGAAGACGTTGTCTTGACACTCACCCACAACGGCTACATCAAACGGCTGCCGGCGGCCGAATTCAAGGTCCAAAACCGCGGCGGCCGCGGCATCCAAGGCATGGGCGTGCACGATGACGACTTCATCGAACACCTCATTTCGTCCTCGACCCATGATGTCCTGCTCTTCTTCACCAACCAGGGCAAGGTCTATCGGGCCAAGGGCTACGAGATTCCGGAATACAGCCGGACAGCCAAGGGTATTCCGATCATCAACCTGCTGGGGATCGATTCCGGCGAGCAGATCCAAACCGTGATCAATGTGGCCGTTGATGATCCAGCTGAACACTATCTCTTCTTCATCACTCGGGACGGGACGGTCAAGCGTACCAGCGTCCGCGAGTTTGCCAACATCCGCAGCAACGGCTTGAAGGCCATTAACCTGCGGGACGGTGATGAGCTGAGCAACGTCCTGCTGACGGATGGGCATCAGAACATCATCATCGGGACCCATACCGGCTACTCCGTCTCCTTCAACGAGACAACCGTTCGGGACATGGGCCGGGCGGCCAGCGGCGTGCGCGGTGTCCGGTTGCGCCCGGATGACTACGTGATCGGTTCCGACATCTTGAAGCCGGACTGTGAAGTGCTGGTGATTTCAGAAAATGGCTACGGCAAACGGACCGCAACCAGCGAGTATCCAATCAAGGGCCGCGGCGGTAAAGGGATCAAGACCGTGAACGTGACCAAGAAGAACGGTCCGCTGGCGGCGCTCACCGTGGTGGACGGCAGCGAAGACATGCTGCTGATCACCAATACCGGCGTGCTGATCCGCTTCAAGACCACCGATGTCTCCCAGACCGGCCGGTCCGCCATGGGTGTACGGCTGATCCGGTTGGACGAGGATGCCAGTGTATCCAGTTTGGCGAAAGTGGCCCCGGAGGAAGACGGCGGCGATGCTGCTGGTCCGGACGATAACGGTCAGGGACCGGCAGCCCCGACTGGCGAGGCCGGCGATGAACCGACGCCAAGCACCGCGGAAACCAGCGGCGGCAACTTGTCCTCAGGCCAATCCCAGGCGCTGGATGAGTTGTTGAATCGGGCGACGGAGGATCAGGATCAGGTTGACCATCCGGCCGACGATAATCACGATTCCGATTCCGATTCTGATGAGTAA
>SRR1151209_02534 DNA gyrase subunit B
ATGGCAGACAAAGATCATTTAACCCCGAAAGAAGAGGCCCACGAAGAGCACATGGAAGAACTGGCGAAGAGTTATGACGCCAGTCAAATTCAAGTGCTGGAAGGCCTGGAGGCTGTGCGTAAGCGGCCTGGGATGTATATTGGCGCGACCAGCAGCCAAGGCTTGCACCATTTGGTATGGGAAATTATCGATAACGGCATCGATGAGGCCTTGGCCGGGTTCGCGACGAAGATCGAAGTGACTGTGGAGGCCGACGGCTCAGTGACGGTCCAAGATGACGGCCGGGGGATCCCGGTGGACATCCAGAAGAAGACGGGCAAGCCAGCACTGGAGACCGTCTTTTCGATCCTTCACGCTGGCGGTAAATTCGGCGGCGGCGGTTACAAGGTATCCGGCGGCCTGCACGGGGTCGGCGCCTCCGTCGTCAACGCATTGTCCACGACGCTGGATGTTACTGTTGCCCGGGAAGGCAAAAAGTATTACATGGACTTCCAGCGGGGCAAGGTCCACACGCCGATGAAAGTCATTGGCACCGCAGCGGAACATGAACATGGCACTATTGTCCACTTCGTCCCGGATCCAGAAATTTTCACCGAGACTACGACTTTTGACGATAAGATCCTGACGACGCGGATTCGCGAACTGGCTTTCTTGAATAAAGGCTTGAAGCTGACCTTCACTGATAAGCGCCAGGAGACCCATGAGAAGCTGGTCTTCCACTACGAAGGCGGGATCAAGAGCTACGTCGAGTATTTGGACCACGGCAAAGATGTGCTGTTTGAAGAACCGATCTACGTGGAAGGCAAACAAAACGGCATCACGGTGGAAGTGGCTCTGCAGTACATTTCCGGCTACCACTCCATCCTGATGACCTTCGCCAATAACATCCATACTTACGAAGGCGGGACCCATGAGGCCGGCTTCAAGGCAGCCTTGACCCGGGTGATCAATGATTACGCCCACAAGCAGAATATTATTAAGGACCCGGACGAAAAGCTTTCCGGGGACGATGTCCGAGAAGGCTTGACGGCGGTTGTGTCCATTAAGCACCCGGATCCCCAATTCGAAGGGCAGACCAAGACCAAGCTGGGCAACTCTGACGCCCGGACGGTGACTGATCGGACGTTCTCCGAGATGTTCACCAAGTTCTTGATGGAGAACCCCAACGAAGCGCGGGCTATTGTCGATAAAGGCATGGTCGCGTCCAAGGCCCGGGTGGCGGCCAAACGCGCCCGGGAAATGACCCGGAAGAAGTCCGGTCTGGAGATCAGCAATCTTCCCGGCAAGCTGGCGGATAACACCAGCAAGGATCCGGAGATCTCTGAGCTCTTCATCGTCGAGGGGGATTCTGCCGGTGGTTCGGCCAAGTCCGGCCGGTCGCGCTTGACCCAAGCTATTTTGCCGATTCGGGGCAAGATTTTGAACGTGGAGAAAGCCAGTATGGATCGGATTCTGGCCAATGATGAAATCCGCTCGCTGTTCACAGCGATGGGGACCGGTTTTGGTGGCGACTTTGATATTGCTAAAGCCCGCTACCACAAAGTGATCATCATGACCGATGCCGATGTCGATGGCGCTCATATTCGAGCACTGCTGCTGACGCTGTTCTTCCGCTACATGCGGCCGTTAGTCGATGCCGGTTATATCTACATCGCCGAACCGCCTCTGTACCAAGTGCGCCAAGGCAAGTTCGTCAAGTACGTCGATTCTGACGAAGAGCTGCAAGACGTGATGCAGACGCTGCAGCCCAGTCCCAAACCGGTCATTCAGCGGTACAAAGGGTTAGGGGAAATGGACGCCTCGCAGTTGTGGGATACGACCATGAATCCGGAGAACCGGCGCTTGGAGCGGGTCAACGTGGCCGATGCCATCGAGGCTGATGCCGTCTTTGACATGCTCATGGGGGACAAAGTTGAGCCGCGGCGGGAGTTCATTGAAAAGAATGCCACATACGCCGACATTGATATGTAA
>SRR1151209_02535 DNA replication and repair protein RecF
ATGTATCTTGATCAGCTGACGCTCACCCACTTTCGCAACTACGCGGCCCTGCAAGTCCAATTTTCTCCCGGTTTGAATATCTTGCTGGGAAAAAATGCCCAGGGCAAAACCAATCTGCTGGAGGCCATCTACGTGCTGGCCTTGGCCCGCAGCCACCGGACGCACAACGATGATGAGCTGATCCAGTGGGGGGCGGACAGTGCCCAGGTGACCGGCCGGGTGGTGAAAACTACCGGGACTGTGCCGCTCACGCTGACCTTGACTAAAAAGGGCAAGAAGGCGACCGTGAATCATCTGGAGCAATCCCGGCTATCCAGCTATTTGGGCCAGCTTAACGTTGTCCTGTTCGCTCCGGAAGACTTGGACTTAGTCAAGGGGGCACCCAGCACCCGGCGGCGGTTTGTGGATATGGAATTCGGCCAGATGAGTCCGAAATATCTCTATAACCTGACCCAATATCGGGCAATTCTGCGCCAGCGCAACAAGTATTTGCGCCAGTTGCACTATCGCGATGCCAGGGACCTGGTGTATCTGGATGTGCTATCCGATCAGCTGGCCGGCTTTGGTGCTGAAATCATCCATACCCGTCAGGAATTGCTCGGCCGAATGGTCGTGTTCGCCAACCACTTGCATCAGGAAATCACCCAGGGCAAGGAGGAGCTGGCGTTTCATTACGTCCTGCCCAGTGAGCTGAGTCAGGCCAAAACGGTCCAGAAATTGTATCAGGCACTCTCAGCGCTTTATCAGAAATTGCGGCCGCGGGAGATCGATCAATCGGTCACCTTGGCCGGGCCGCACCGGGATGACGTCACGTTCATTACCAACGGCAAGGATGTGTCGGCGTTTGGGTCCCAGGGCCAGCAACGGACGGCGGCATTGAGTGTGAAATTAGCTGAAATCGAATTGATGAAAGAGCAGACCGGGGAATACCCGATCCTGCTCCTGGACGATGTGCTGTCCGAATTGGATACGGTCCGCCAGACGCACTTGCTGGCGACGTTCCAAAGCAAGGTCCAAACTTTTTTAACCACCACCGACCTGAGCGGGGTGGCCCAGGATATTGTCCATGATCCGCGAATCATGACGATTGATGATGGGATGTTGACGGTAACCAAGCCGGGCCAAGTGCCCGGTGCAGATCAGCAATGA
>SRR1151209_02536 S4-like RNA binding protein
TTGGTCAATCAAGTCGTCACGCTGGCAGCCAGCGAAGAATTTATTACTGTTGGGCAATTGCTTAAAGAAGTCGGGGCCATCAGCACCGGCGGGCAGGCAAAGTGGTTTTTGCGCGAGCATCCGGTGGTGATTGACGGCGCCCAGGAAGACCGGCGGGGCCGCAAGGTATACCCCGGGACGCAGGTCATCGTACCAGCAGTCGGGACGGTCACTGTCGCGGCGGCCCCCCATGTATCTTGA
>SRR1151209_02537 DNA polymerase III subunit beta
ATGAAGTTCACAATTAATCGTGATGTTTTTATCAAGACTCTCAACGATGTTTCACGGGCCATTGCCACTAAAACGACCATTCCGATCTTAACTGGGTTGAAGCTCACTCTAGACCAGGAAAAGCTGACATTCACCGGCAGCGATGCGGATATTTCCATTGAGACCAGTATCCCCGTGAGCAATGATGCTGCGGATCTCCAGGTCGCTGAACCAGGGAGTATCGTCCTGCCGTCCCGGTTCTTTACGGAAATCGTCAAGCGGCTGCCGGAAAAAGACATGACGATTGCCGTCACCGACACGCTCCAAGCAGTGATCACGTCAGGCCAATCAGAATTTACGATCAATGGGTCCAACAGCGATGAATATCCGTTGCTGCCGGAAATTGCGGATGATCATGCGTTGCAATTACCGGCTGATGTGCTGCGCGAAGTAATCGGGCAAACCGTTATCGCCGTATCGACCCAAGACAGCCGGCCCATTCTTACGGGGGTGCACATCGTGATCCATGATGGCGCGATGCTCGCCGTGGCTACTGATACCCACCGGTTAGCCCAGCGGATTGTCCGCCTCGAAGGCGCCGGCGATGCCGATTACGACATCAATGTTCCTGGCCGCAGCCTAGTGGAACTAGCCCGGACGATTCCGGACAGCGTGGACACCATTGATGTCCGCATCGCTGAAAACCAAGTCCTCTTCCTCTTAGGCAACACCGCCTTTTACTCCCGCTTGCTAGAGGGCAACTATCCGGATACCCAGCGGCTGCTGCCCACTGAGCACACCACGGCGATGACTGTGGCCGCTGCTTCCTTCCAGGCCGCTATTGAGCGGGCTTCCTTGTTATCCCACGAGAGCAGGAACAATGTCGTCCGCTTAGTTTTGACGCCGGAGAAGAACACAGCGGTACTATCCAGCACATCGCCAGACGTCGGCACGGTGCAGGAAGAGATCGCGTTCAAGGCCTTGACTGGCGACACCCTGGATATTTCATTCAACCCGGACTATATGAAAGATGCCTTGCGGGTTGTCGGCCAAAGCGACGTCACCATGGACTTTACATCCGCGTTGCGGCCCTTTACGATCCAGCCCACAGAAGATACCAGCCAATTCATTCAGCTGATCACGCCGATTCGGACCTTCTGA
>SRR1151209_02538 chromosomal replication initiator protein DnaA
ATGGCCGATAATTTGGCCGATCTTTGGCAATACATCGATCAGAACTTTCAGGAAAAATTTTCTAATTTCAGCTACAAGGCTTGGATCGCCACTGCCAAGCCCGTGGCAATCCGCAATAATCAACTTATTATTAGTGTCCCCACGCAGCTGCATAAGGATTACTGGGAACGGCAATTAATGGTCCCGGTCGTCGAGCTGGTTTATCAATATACGCAGAAAGAACTCACGCCGATCATTCAAGTGGCCCAATCCTCCGACGATAATCCAGAAACTGCGCAATTCGGCAGTCCTGAGGAAACTGAAGAGGTGGAGAAGGACGAGAAGAATCCCGACTATCTGCGGGAAACGCATCTGAATGATAAGTATACGTTCGATACCTTCGTCATCGGCACCGGCAATCAGATGGCCCACGCAGCCGCGCTGGTCGTGTCAGAACAGCCGGGCCAAACCTATAATCCGCTCTTCCTCTACGGCGGCGTCGGATTAGGCAAGACCCACTTGATGCAGGCGATCGGGCACCAACTATTAAAGAACGATCCCCACGCCAAGGTGAAGTACGTGACCAGCGAGGCGTTCGTCAATGACTACATCACCTCGATCCAGACCCACCGGATGGAGCAATTCCGTTTGGAGTACCGGACCTGCGACCTGCTCATGGTGGACGATATTCAATTCTTTGCGGAAAAAGAAGGGGCCCAGGAGGAGTTCTTCCATACTTTCAACGAACTGTACAATAACCATAAGCAGATCGTGCTGACGAGCGACCGCCTCCCCAACGATATTCCGAAGCTGCAAGAACGACTGGTATCCCGCTTCAAATGGGGCCTGTCCGTGGACATTACCCCACCAGATCTGGAAACGCGAACGGCGATCCTGCGCAACAAAGCCAACGCCGAACAGTTGGATATCCCCGATGATACGCTGGGCTACATCGCAGCGCAGATCGATTCCAACGTCCGCGAATTGGAAGGCGCGCTGGTCCGGGTACAAGCCTTTGCCCAGATGAAGAAGACGCCGGTCACCACCAGCTTGGCGGCTGACGCCTTGAAGGGCTTAAAAGCAACAGCCACTGAAGAAATTCCCATTAGTCGGATCCAGCGGATCGTCGCCCGCTACTATCACGTGACTGTCCAGGAACTGCAAGGGAAAAAACGGGTCAAGGCGATCGTCAATCCCCGGCAGATCGCCATGTACCTGGCTCGGGAACTGACGGATAATTCTCTGCCGAAAATCGGTCAGGAATTTGGCGGTCGGGACCATACGACGGTGATCCACGGCTACGATAAAATCGCCGGCGAATTAAAAGATGACCCGGCTCTGCGGGACAGTCTCAACGAATTGAAGAGTATGATCCGGGAACAGGATGGGGATAACTAA
>SRR1151209_02539 50S ribosomal protein L34
ATGTCAACGAAACGTACTTATCAACCTAAGAAAATCCACCGTGCGCGTGTGCATGGTTTTATGAAGCGCATGAGCACCAAGAACGGCCGCAGAGTGTTAGCACGGCGCCGGGCCAAGGGCCGTCGCGTCCTGTCTGCGTAA
>SRR1151209_02540 ribonuclease P
GTGTTTGATGCCGGTCATTCAGTGGCCAACCGCCACTTTGTGATCTATCAGTTGGCCAAGCCCGGGCAGAAACATTTTCGGGTTGGCATCAGTGTCGGTAAAAAAGTTGGTCATACCGCTGTCGACCGCAACCGGGTAAAGCGGTATATTCGGCAATCTTTATACGAACTGAAGAATGAATTACCTCAGGCCATGGATTTCTTGGTCATTGCCCGCAAAGGCGCCAAGGAATTAGATATGGCGGAAACGAAGAGCAATTTGATCCATGTGTTAACGTTGGCCCGCCTGCTGGCCGACCCTGCGCAAAATCAGGATAATCAAAACCAAGAAGAACGAGGTTAG
>SRR1151209_02541 preprotein translocase subunit YidC
GTGAACAAGCATACGAAACGGACGCTCAAACGCATTCTGTTATTCGCCGCGCTGGCCCTGCTGGTTGTTGTTCTGACCGGCTGCGGTACCAGTCCGGTCACCAAAAATTCAACTGGTTTTTGGGACCGCTATGTTATCTACTATTTCCAACAGTTCTTACTCTGGATGGTCAATAACTTCCATTTGAGTTATGCCTGGGCCATCATCGTATTTACCATTATTATTCGGATCGTTTTGTTACCGCTGATGCACTTCCAGACGAAGAGCACCAAGAAGCAGATGCAGCTGCAGCCGGAAGTCAAAGCCTTGCAGGCTAAATATCCGGGCAAGGATATGGATTCGCGGCAAAAGCTGAATGAAGAAACGCAAAAGCTGTACTCCGAGGCCGGGATCAACCCGATGCTTGGGTGTTTGCCGATGCTGGTGCAGCTGCCGGTCATGCTGATGCTGTATCAAGTGATTTTCCGGACCACCGCGCTGCGCCAAGGGACGTTCCTCTGGATGCAGCTTGGGGATCCTGATCCGTGGCATGTCCTGCCGATTTTGGCGGGTATCTTCACTTTCCTGTCCTCCTGGCTCGCCATGAAGGCGACGCCGCAACAGGGCGGCATGGGGACCATCATGACGGTTTTCTCGTCGGTCATGATGCTGTGGTTCGCCTGGATCACCGCTTCCGCCGTTTCCATCTACTGGGTTGTTTCCAGTTTGTTCCAGATCGGCCAGACCCTTGTTCTCCAGAACCCGTGGCAAATGCAGCGGGAAATGGAGGAGAAAGAAAAGGCCAAGCGGGAAAAGGAGAAACAACTCCGCAAGGCGAAGCGCCGGGCGTTCAAGAAGCGGTAA
>SRR1151209_02542 hypothetical protein
ATGCCAACGTATGAAGGACGTAATTTACAAGAAGCCATTGACAATGGCTTAGCCGAGTTAGGCTTAGCCCGGGATGAAGTCACCGTCGACGTGATCGCCGAGGGGAAGCGGGGATTTCTGGGGTTTGGCCGTAAACCGGCCGTCGTCAATATTAATAAAATCGAAATTAACGTAGATTCATTCAATATCGCGGTACCCGCACCGCCGAAACACCATCATCACGATTTGCCCCATCCGCATTTACCGGGGCATAATCCGGAGAAGGTCACGGCGACTGCCGGTACGGCCACCATGGCCTTGGTGGATGACCCGCCGGATCCATCCGCGCGCCCAGCCGCGGGGATGACGAACGCCCGAGAGCAGCACATCGAAGCTGCTCTGGCGCAGGTGTCCGCCTACGTGGTGAACGTCACCACCGCCTTGGCCCTGCCGACCACCGTTAAGATTGAAAAAACCGGCCGGGACAAATGGACTTTCTTCCTAGCGACAGACCGGGAGGGGCTGTTGATCGGGAAGCACGGCCGAACAATCAATTCCTTGCAGTATCTGGCCCAGATCCTGTTTTCTCACCTGACGCACAGCCACGATACGGTGGAACTTAACGTCGGGAATTACCGGGAGCGGCGGGAACAGATTCTGGAGAAGCTGGCGGTGAAAACGGCTCGGGATGTGATCGCCAGCGGTCAGCCGATTTTCTTGGACCCGATGCCGTCGTTTGAGCGCAAGGTCCTGCACGCGACGTTGGCCGATAATTCGTATGTGATCACCCATTCCGAGGGCGATGAGCCCAAGCGGTATGTGGTGATTGAGCGAAAGAAAGGCAGCGTCATCTAG
>SRR1151209_02543 tRNA modification GTPase
ATGGCAAATTCAATTACGGCATACGATACGATTGCAGCGATTTCGACGCCGCCTGGTGAAGGCGGGATTTCGATCGTGCGCTTGTCCGGCGATGAGGCGATCCAAGTGGCCCAGCGGGTATTTAAGGGGAAAGACTTGGCCAACGTGCCGACCCATACGATTAATTACGGCCACATCGTGGATCCGGCGACCCAGGACGTCGTTGATGAGGTGATGGTGTCGGTGATGCGCGCGCCCAAGACGTATACCCGGGAAGATGTCATCGAGATCAACTGTCACGGCGGCATCGTGGACACCAACCGGATCCTGCAGCTGCTGCTGAGCCAGGGCGCGCGGATGGCGGAACCCGGGGAGTTCACGAAGCGGGCCTTTCTCAATGGCCGAATCGACTTGACCCAGGCGGAGTCGGTGATGGACTTGATTCGGGCTAAGACCGACAAGGCCATGCAGGTGGCGGTGGATCAGCTGGATGGTAATTTATCCCACTTAATCAAGAACCTGCGCCAGGATATCTTTTCTGTCTTAGGCCAAGAGGAAGTCAACATCGACTACCCCGAGTACGAAATGGACGAAGTGACCGGCAAGATGATGCTGGAAAAGGCCCAGAAAGTGCGGGATCATCTGGTGCAGCTGTTGAAGACCGCCAACCAGGGCAAGATTCTGCGGGAAGGCTTGGCGACGGCAATTATCGGCCGGCCCAACGTGGGCAAGTCCAGTCTGCTGAACTACCTGCTCCACGAGGATAAGGCGATCGTGACCGACGTGGCGGGGACGACGCGGGACACTTTGGAAGAATACGTCAATGTCCGGGGCGTACCACTGAAGCTGGTGGACACGGCCGGTATTCACCACACGACGGATAAAGTGGAAAAGATCGGGGTGGAGCGTTCTAAGAAGGCACTGGGCCAAGCTGATTTGGTCTTGCTGGTGCTGGATGCCAGCGCGCCTTTGCAAAGCGACGACCGGGAACTGCTCAAGGCCACTCAGGATAAGAAACGGATCATTCTGTTGAACAAGACGGATCTGCCGGCGGCGCTGCATCCGGAGAACCTAGAAGCACTGGTCACTGACGACAGTCGGATCATTTCGGTGTCGATTCTGAAAACAGCAGGTTTGGATGCGCTGGAAGCGGCCATTGCCAGGTTATTCTTCGGTGAAGGCATCGAGAATTCCCAGAGCAATGTGCTGGTCACCAATGCCCGCCAATATGGGCTGCTGGCCCAGGCCAAGGCGGCCTTGGACGAGGTGATCACCGCTTTGCAAAATGAGGTGCCTTTGGATCTCGTGCAAATCGACATGACCACCGCCTGGGAGAAAATGGGCGAAGTGGTCGGCGAAAATGCGCCGGATGAACTGATCACCCAATTGTTCAGTCAATTCTGTTTAGGCAAGTAG
>SRR1151209_02544 tRNA uridine 5-carboxymethylaminomethyl modification protein GidA
GTGACTGTACCTGAATATACAGCGGATGACTACGACGTGATCGTCGTTGGCGCCGGCCATGCCGGCAGTGAAGCGGCCTTGGCTGCCGCCCGTATGGGTCAAAAAACCATGCTGATTACTTTGAACTTGGAAATGGTGGCCTTCATGCCCTGCAACCCCTCCGTGGGCGGTCCGGCGAAGGGCATCGTGGTCCGGGAAGTGGACGCGCTGGGCGGCCAAATGGGCAAGAATATTGACGCCACGTACATTCAGATGCGCATGCTGAATACCGGCAAGGGGCCGGCGGTACGCGCTTTGCGGGCTCAGGCAGACAAGAATGCCTATCACCGGGTAATGAAAGACACACTGGAGAATACGCCGAATTTGACGTTGCGCCAGGGCATGGCGACGGATTTGATCGTTGAAGATGGCGAATGTCGGGGCGTTGTCACCAATACCGGCGCCCGCTACCGGGCCAAGTCGGTGGTCCTGACAGCCGGCACCAGTTCCCGAGGCAAAATCATCATCGGTGAGTTAATGTATTCCTCTGGTCCGAACAACTCGATTCCGTCCATTGAACTTTCTGAAAACCTGGAGAAACTGGGCTTTAAGCTGCGCCGGTTCAAGACCGGTACGCCGCCCCGGGTCAACGGCAACACAATCGATTATGACCAGACTCAGGAAGAGCCGGGGGACAAGACCCCCAACGCCTTTAGTTTCACGACGAAAGATGCGGACTACGTGACGGATCAAATGTCCTGCTGGATGACCTATACCAACGAGGAGACCCACAAGATCATTCGGGCCAATCTGAAGCGGGCGCCGATGTTTTCCGGCGTTATCAAGGGCGTGGGCCCGCGGTACTGCCCGTCCATCGAAGACAAGGTGGTCCGTTTTGCCGATAAGCCCCGCCACCAGATTTTCTTAGAGCCGGAAGGCCGAGACACCAGCGAGTATTATGTCGGGGATTTCTCCACGTCCATGCCGGAGGAAATCCAACAGAAGATGCTCCACACGGTGGCCGGCTTGCAGCACGCTAAGATGATGCGGCCGGGCTACGCGATTGAATACGACGTGATCGAGCCGTGGCAGCTGACCCATACCCTGGAGACGAAACACGTCAAAAATCTGTTCACCGCGGGTCAGATGAATGGCACGTCCGGTTACGAAGAAGCGGCGGGCCAGGGTATCATTGCCGGTATCAATGCGGCTTTGCGCGCTCAGGGCAAGCCCGGCTTCACCCTGGGTCGCGACCAAGCATACATTGGCGTGATGATCGACGATTTGGTGACCAAAGGGACCAATGAACCGTATCGGCTGCTCACCAGCCGAGCCGAGTACCGCTTGGTACTGCGCCACGACAACGCTGATTTGCGGTTAACGGAGAAAGGGCATACGCTTGGGCTGATCGATGATGACCGTTACGCGGCCTTTGAAACTAAAAAGCAGGCTATTCAAGCTGAAATGGACCGGTTGCATAGTATCCGCATCAAGCCCGGTCAAGCCGTCGATGACTTCCTCGCCAGTAAGGGCGGCGCGCCGTTGAAGGACGGCATTCTCGCCAGCGACTTCTTGAAGCGGCCTGAGGTCAGCTACGAAGACCTGGCCCAATTTATGCCAGACCATCCTGATGTGGATCGGCGGGTCATCGAACAGGTGACGATCCAGATCAAGTACGCCGGTTATATCGCCAAGGAGCAGCAGAAGATCGACCGGCTGCACCGGTTGGAAGCCAAGAAGATTCCGGCTCACATTGACTACAATGCGATTAATGGCATTGCCACCGAAGCGCGGCAGAAGCTGACCAAAATTCAGCCGGAGACAATTGCCCAAGCGGGCCGAATCTCCGGAGTGAACCCAGCGGATGTCGCGATTCTCAGTGTGTATATTGAACAGGGCAAGATCGCGAAGGTTGGATAA
>SRR1151209_02545 hypothetical protein
ATGAAAAGGAAAATCGGTTGGGTATTGGCGGCGGCCCTTTTGGTATTGTTAGCGGCGGGTGGTTGCGCGCCTAAAACACCCACGGCGAAGAATAAGCCGACACCGGTTAAAACGGAACAAAAAGCCGAGACGGTGCCAACGTATCGCGTGGTGGCGGACAATAATATGGACAAGTTCAAGCAGGCCCATGGGCAGTATCGGACGGTCAACTATGATCCCCAGGATGACCTGGTTTCCCTCCTGCCCGAATCGCTGGCTAAGCTGAAAAAGTACCCGCAAACCACGACAGTACGCGCCTACGTCACTGATTGGCAGCAAGCACCAGCGCAGCCAAGCGGGCGTTTAGTCACGGTATTGACAGTGTATGTGCAGAAAGTACTCACCGGGCGGAAAAAACTGGCTAAACAGGAACTTCAACTGACTCTACCTGGCGGATTTATCCCTTATGGGCAGTTCGGCAAAGGCGCATACGATCATGATGATACGATCCCGGATGCCGAAGTGGTGCTGACTCAGAATAATGGGTCTAGAATTTTTGGTGTTGGAAAGTATTTCCATTCCAAAAGTACTAGGGTGTGTCTGAAAATTACTTAA
>SRR1151209_02547 alpha/beta hydrolase
GTGCAGCAGCCAAGGAAGCGGCGCTGGTTATGGTGGGGGGCGTTATTCATCATTGCTGCAGGCATTACGATTGTCTGTCTCAGTACGGCCCTCTCGCCCCAACCGCACCAGCAGAAGTTATCGAAAGTTGAAAGGCAAGCGAATGATGTGCCGACTGTTTTTGTACCCGGGTGGCATTCCACCAGTTATTCTACGCAGCTGATTACGGACGATATTGTTTCCTTAGGCGTGACCAACGTGATTACCACGGTCCGGGTAACGCCCCAGGGCAAATTTATTTTTGTTGGCCCAAAAATTGACGCCAACTCGCGCCAGCTGATCCGGATCGTTTTTGAAAACAATCGGGCTGGGGAAGTGCAGTACGCGAAATGGCTGCATCAGCTGCTGGCCTATCTATATACCCAGGACCGCCTGCGCAAGGTGAACCTGGTTGGCCATTCCATGGGCGCCTATGCCTCGACGCTGTATACGTTCCAGCACGGGGCCGGCGCCGGTTTACCAGCGGTGAATAAATTGGTGACTTTGGCCGGCCCGTTCAACGGCATCATTGGCCGCCAGCCGGTCTCGGAGTTTTTCCACCCCAATGACGGGACCACATGGACCGACCAGCCGCACCAGAATCACTTGGAGGCTGATGGGCGGCCGGCAATCGTGCATCCTGAATATGCACGGTTGGAACAATACGCGCCGCAGGTGCCGAAGACGTTGCGGATGTTGAATATTTACGGTGACTTGGGGGACGGCAGCCAGTCGGATGGGGTGGTGACTGTCCCATCGGCTACCAGTATTGGGTATTTGGTGAAGAACCGCATCGCCGTTTTCCATCAAGTCCGGGTAATTGGGCCTAATGCGCAGCATTCGGCACTGCATGAGCATAATTGGCAGGTGACCCAGAACGTGGTGAAGTTTTTGTGGCCGGCGTTTGGCGACCGGGCGACGCAAATTGGCCGGTAG
>SRR1151209_02548 50S ribosomal protein L20
ATGGCACGTGTTAAAGGCGGCAATGTAGCGCGTAAACGGCGCAAAAAGGTATTAAAGCTGGCGAAGGGTTACGTCGGCGCGAAGCATTTACTGTTCAAAGCAGCAAATGCTCAGGTAATGAACTCGTATCGTTATGCTTTCCGTGATCGGCGGCAAGTGAAGCGCGATTTCCGTAAGCTTTGGATCGCGCGGATCAATGCGGCAGCACGGATGAACGACATGAGCTACAGCCAATTGATGCATGGTTTGAAGGTTGCTAACGTGACGATCAACCGGAAGATGCTGGCTGATCTGGCGGTAGCCGACCCAACCGGTTTTACGGCTTTGGTTGATACGGCTAAGAAAGCCATTGCTTAA
>SRR1151209_02549 50S ribosomal protein L35
ATGCCAAAGTTCAAAACACATCGTGCATCTGCCAAGCGTTTCAAGAAGACCGCTTCTGGTGCGTTGAAGCGGGGCCACGCTTACACGTCTCACCGGTTCCACGGTAAAACAGTGAAGCAGCGTCGGCAATTGCGGAAATCTGCTCTGGTATCCAGCAGCGACATGAAGCGGATCAAACCGATGCTTTCCCAGATGAAGTAA
>SRR1151209_02550 translation initiation factor IF-3
ATGGTAAACGATGGCATTCGCGCCCGCGAGGTCCGTCTGATCGATCAGAATGGCGACCAATTGGGCGTTAAGTCCAAACGTGATGCTCTGGATCTGGCTGAACAAGCCGGTCTGGACGTTGTTCTAGTGGCCCCGGGAGCGAAGCCGCCCGTTGCCCGTATCATGGACTACGGGAAGTACCGCTTCGAACTGCAGAAGAAAGATCGCGAAGCACGGAAGAAGCAAAAGACCATCAACATCAAAGAAGTGCGCTTATCGCCGACGATTGAAACCAATGATTTCAATACCAAGCTGAATAACGCGCGCAAGTTCTTGAGCAAAGGCGCCAAGGTCAAAGCTTCTGTTCGGTTCCGTGGGCGGGCAATTACCCATAAGGATATTGGTCAGAACGTACTGAACGAGTTAGCCAAGCAAACGGCGGACATTGCCACGGTCGAGACCCGGCCAAAGATGGACGGCCGCTTCATGTTCCTGATGCTGGCTCCGAAAGCAGACCAAGACGCCACCAAGTAA
>SRR1151209_02551 threonyl-tRNA synthetase
ATGGCAGCAATTACGTTAACGTTCCCAGATGGCGCCAAGAAGCAAGTTGAGGCCGGGACCACAGCGCTGGAGATTGCCAAGGGCATCAGCAACTCGTTGGCTAAAAACGCCGTCGCCGCAACTTTGAACGGCACTGCCGTGGATCTGACGGCACCGTTGAAGCAAGATGGCAAAATCGCCATTGTGACCAAGAAAGATGACTTAGGTTTGGCCGTCCTGCGCAATACCGGTGCTTTCCTGCTGGCGGCGGCAGTCCACAAGAGCTTCCCGAGCTATCACTTAGGCGAAGGCAAGGCTCAAGAAGACGGGTTCTTCTACGATACCGATAACCCGGCCGATGGCGAGAACCAGATTGCCGTCACTGATTTGCCGGCTTTGGAGAAAGAAATGAAGGCCGCTGTCAAAGACGACGACAAGATCGAACGGGTGCTGATGGACAAGGAAGAATTGGCCAAGCACTTTGCTGACGATCCGTACAAAGAGGCTCTGGTCAAGGCTCAAGCCGGCGTCCAAGTTCCGGTTTACAAACTGGGCGATTTCCTGGACTTTGGCTACGGTCCATTGCTGCCGGATACGAAACTCTTGAAGCACTTCTCCCTGCTGAGTGTTGCTGGCGCGTACTGGCAAGGCAAGTCCTCTAACCCGATGCTGCAGCGGATCTATGGCACGGCATTCTTCAGTGCGGAAGAACTGGAAGCCGATGCCAAGCGGCGGGAAGACATTAAGGAACGGGATCACCGGACGATTGGCCGGGAACTGGACCTGTTCTTCGTTGATCCGTCCGTTGGGGCCGGCTTAGCTTACTGGATGCCTAAGGGAGCCACGATTCGCCGGACCATTGAGCGCTACATCATCGACAAGGAAATTGCTAACGGCTACGAGCATGTCTATACGCCAATTCTGGCCAACCTGGATCTGTACAAACAATCCGGTCACTGGGATCACTACAAGCAGGATATGTTCCCGCCGATGGATATGGGCGATGGTGAAATGCTGGAATTACGGCCGATGAATTGCCCGTCCCATATTCAAATCTACAAGCACCATATCCGCAGCTATCGGGAATTGCCGATCCGCATCGCTGAATTGGGTATGATGCACCGGTACGAAAAGTCCGGCGCCTTGTCCGGTCTGCAACGGGTTCGGGAAATGACCTTGAACGACGGTCACACCTTCGTCGCTCCGGACCAGATTCAAGACGAATTCAAGAAGATCCTGACTTTGATGATGGATGTCTATGCGGACTTCGATATCACCGACTACAGCTTCCGCTTGAGCTATCGGGATCCTCAAAACACCGCCAAGTACTTCGATGACGATGCCATGTGGAATAAGTCCCAAGCAATGCTGAAGGGCGCCATGGATGACCTGGGCCTGGATTACTACGAGGCTGAGGGCGAAGCAGCTTTCTACGGTCCTAAGCTGGATGTCCAGACGAAGACGGCCTTGGGCAATGATGAGACCTTGTCCACTATTCAGTTGGACTTCATGATGCCAGAGAAGTTCCACTTGACCTACATCGGTGACGACGGCGAAGAGCACCGGCCGGTCATGATTCACCGGGGTGTCATCTCCACCATGGAACGGTTCATTGCCTACCTGACTGAAATCTATAAGGGGGCCTTCCCAACTTGGCTGTCCCCGATTCAATGCGAGATCATCCCGGTCAACAACGAACTGCATCTGGACTACGCGTTGGAAATTAAGAAGCGTTTGCTCCAAGAGGGTGTCCGGGTTGAGGTCGATGACCGGAATGAAAAGATGGGCTACAAGATTCGTGAATCCCAGACCCAGAAGATTCCATATACTTTGGTTGTCGGTGATCAAGAAAAGAAGGATTCCAGCGTATCAGTGCGGAAGTATGGGCACGATAAGGCCGAATCCCAAGATTTGGAGATGTTCATCGATGCCATTGTTGCCGACATCAAGAACTATTCCCGGACCGGCGAGGCTCAGAATTCCAAGGTCTTGTCCGCACTTGACAAGCAGTAA
>SRR1151209_02552 primosomal protein DnaI
ATGAAAAATGTCGGTCAAGATATGGCCCACTATCTGAATCAGGATCAGCGCCGGAAAAAGTATGCGGACATCATTCGCCGGGTGAAGAATGATCCCGATGTCCGCGCGTTCTTTCAACAAAATCAAGGAAAACTAGATCCGGATGCGGTCAACAAAGGCATGGCCAAGCTGTATGAATTTTTCAACGAAAAAGAAAAAATTGCTAATCATGAAGAAACCTTTGCGCCAGGTTATTATCCGCGTCTGATCGTGAACAATCATTTGATTGACGTGACCTATGAACCGCAGCCTGAAAAGGTCGCTGCCGACGCAGCGGCGGCAAAGGCGGCCTTGGTCGATGCGGCCCACATGCCCAAAGACTTCAAAGACGCCCGGCTGGACGCGCTGGATACTGCCGGACGGGAAGAAGCGCTGGGGGCGGCCCTCACATTTGTGAATAACTATGTCGCGTCGCCGAAAAAATATCATCAGGGATTCTACCTTACAGGCAGCTACGGGGTGGGGAAGACGTATCTGTTAGGCGGCATGGCCAATGAATTGGCCGATTACCGCATTCCCACGCTGATCCTGCATGTGCCGACCTTCTCTGTGGAAATGCGCGACGCCATCAGCGATAACAGTGTACTGGATCGCATCCGTAAGATCGAAGCTGTGCCCATTCTGGTTTTCGATGATATCGGCGGGGAGACGCCCAGTCCGTGGTTCCGGGATGATGTATTGGGTGTTATTTTGCAGTATCGCATGCAGGAACGATTGGCTACTTTTTTTAGTTCGAATTTAAGTATGGCTAATCTCCAGGAGTTCATGGCGACCGGGCGCAACGGCCAGGATGATTCATTGAAGTCGAATCGGATCATGGCCCGAATCAAATTCTTAGCGCGGGAGATCCAAGTCAACGGACCAGATCGGCGGGCGCAATTGGCTAACTCACAGAAATGA
>SRR1151209_02553 replicative DNA helicase
ATGAACGGCCAAGTCGCCAATATCGGCAGCCTGTCGCCTCAAGATGGTTTCCTTGTGACGTCAGCGGACTATCTGAGCGCGTATTCAGAAGAACTGCTGACGTATCTTTATCAACCGCTCACCGGCGCGGTGGGCTTTGCGCTATACCATATTCTGCAAACTTTGGTGCACAGTACTAGTCAGCCCATGGTTCTGTCGGATCGCCTGCCCCACAATTGGCTGATCACCATGCTGGGGGAAGATTTAACGACTTTCTTTGTCGCCCGCAGCAAGCTGGAGGCTTTGGATTTGGTACAGTCATACCGCAAAACCGACCAGATCGGGACATATTACGTGTATGAACTGCACGCTCCATTGCCGCCTCAGGAGTTTTTCCACGAACCGCTGCTCACCGAGTTTTTGCGGGAACAGGTCGGGGATCATCGTTTAGAGCAGATCCGCCAGCATTTTAAAAAGCAAAGTTTTGACCGGACGGGGTACACGAATGTGAGTCAGGATTTCACGACCGTGTTTTCGTCGGAAGTCGAATCGCTGCTCGCGAAGGGGCAAACGCCCGCGGCCCGCACGACTCAGGCGGCGACTAGTGCGCGGCCGCGTTACAGCGCAGCCCAATTGGCTAGCTTTGACTGGGACTTGCTGGCCCAGCAATTAATGCCCGCCCAGATCAACCGCGACCAGTTGGAGGAGAATGCCCAGCTTATTTTCACCCTGCATGATTTCTATAAAATTGACGAAATCGGCATGGCGCAGCTGATTGAAGCCAGCAAAAACATCATGACCAATAGGCTTGAACCGCAGCGCCTGCGGACCATGGCCCGCAAGCAGTATTTGACCCAAGGGGCGCCAGTACCCGCGGTGGATGCTCCGACCAAACCGCGCACCCCGCCAACAGAGGCGGAGGTATTGGATGCAGCGCAGCGGCTTGCGCCAGCAGATTTCCTGCAGTGGCAGCACCAGCGTCTCGGCACGATTATCGGTAAATTTGAGCCGCAGACGGTGATGTCTTTGACCCAGCGCCACGCATTGCCGGATAGTGTGGTGAACGTGCTGATCCATTACTTGGTAACGAATTATCAAATCGTTAATCAAAATTCAATGGATCGCACGGCCAACGATTGGCTGTCCAATCATATCGATACGCCGGAAAAGGCTTTTGCCCATATCCGTGAATTCTTGCAGAGAAATAACACCTCAGCGCCTGGCCGCAGTAACTACCGTCGGGGCACAGTAACGCCGAAAACGAAACAACCGGCCTGGGCCGATCCGAATTATCAGCCGCCCGCCGCCAAACCAACTGATCAAAGCACACAAGCTAAGCTGGCCGCCGAAATGGCCAAGCTGCGCAAAAATAGAGAAGAACGCACGAAGGGAGGGACCCGCTCATGA
>SRR1151209_02554 NrdR family transcriptional regulator
ATGCTTTGTCCCCGCTGTCACCACAATAGTTCGCGGGTTATTGATTCTCGACCGGCTGATGGCAACCGGGCGATTCGCCGCCGGCGGGAATGCGAAAACTGCGGTTATCGGTTCACGACCTTTGAACGCGTCGAGCAGACCCCGCTGCTGGTCATCAAAAAGAACGGCACCCGGGAAGAGTTCAACCGGGAAAAGGTACTGAAGGGCGTGATTCGCGCGGCGGAGAAGCGGCCCGTGACCATGGAACAAATGACCGCCCTCGTGGACGCGGTGGAACGCCAATTGCGGGAAACCGGCGAAAACGAAGTATCTTCTAAGGATATTGGGGAAGCTGTGATGACCCGCCTGTCGAACATCGACGACGTGGCCTATATTCGTTTCGCCAGTGTCTATCGGCAGTTCAAGGATATGAATGTGTTCATGAAAGAATTACAGGAAATGATGCAGCGGGGCAACCACCATCCGAATCCGGATACTCCGCCGAAGAAAGCGGAGAAGGGGAATAAAAAATGA
>SRR1151209_02555 dephospho-CoA kinase
ATGAGTTACGTGCTTGGCCTCACGGGCAGCATCGCGACCGGGAAGAGCACGGTGGCCCAGATTTTCAAAGAGTGGGGCTATCCCGTCGTGGACGCGGATGCCATTGCCCACGCAGTCGTGGCGCCCGGAAGCGAAGGCTTGGCCCGCATCAAAGAAACCTTTGGTGCCGGTGTCCTCAATCCAGACGGCAGTTTGAACCGGCATACCCTGGGGCAGATCGTGTTTCACGACCCAGCCCAGCGGCACAAATTAGATCAGCTGAACGGCGGTTTGATTCGGGCAGCGATTCAGGCCGAATTGGACCGGTACCGGGCTGCGGAAGCACCGCTGATCGTCTTGGATATTCCCTTGCTTTACGAGGGCGGTCATTATCTTGCAATGGTGGACGGCGTATTGGTGGCTTATGTACCGGCGGCCCTGGAGAAGGCTCGGCTGATGGAGCGGGACGGGCTGTCGGCGGCGGACGCTGATGCCCGCATCGCTGCCCAGCTGCCGATTGAAGAAAAACGCGCCCGGGCCGATTTTGTCACTGACAATACCGGTCCCTTGGCGGCCCTCTATCCCCAAGTGCAGCAGATCCTGGCCCAAATCGGTATTACCCACACGTTAAGAAATGAGGAATGA
>SRR1151209_02556 formamidopyrimidine-DNA glycosylase
ATGCCAGAATTACCGGAGGTGGAAACGGTCCGCCGCGGTTTGGCGGACACGGTGATCGGCCGAACGGTGCGCTCCGTCAGCAGCGACTGGCCAAAAATTGTCGGCGGCGATTTAGCCGCCTTTCAAGCCGCCGTCACTGGCCGCACGATCACCGGCGTTGATCGCCGGGGCAAGTATTTGCTTTTCCGCTTCAGCGGCGACTGGACGATGGTTTCCCACTTGCGGATGGAGGGTAAATATGCTTACGGCGCCGCCAATGCGCCCAAGGAACGCTTTACCCATGTGATTTTCACTTTCACTGACGGCAGTCAGCTCCGTTACCGCGACATGCGGAAGTTCGGCCGAATGACGCTGGTACCCACCGGCGCCGAAAATCAGGTCCACGGCCTGCGGGACTTGGGACCGGAACCGTTCAGCCCAGAGTTCACCGTGAATTATCTGAAACAGGCGCTGGCCAAGCGCCACGCGGCGATCAAGGGTATTTTGCTGAATCAGACCGTTGTGGCAGGATTAGGCAATATCTATGCGGATGAAGTGCTGTGGCTGACCCGGATCCATCCGCTGACACCGGCGGACGAGATCTCCGCAGTGAAGATCCGCCGCCTGCATGACGCGATCATTGCCGAATTGCAGCAGGCCATCGCCGCCCACGGGACGACCGTCCATTCCTTTGTGGGCGCGGATGGACAAACAGGGGATTTTCAAAACGCCCTGCACGTCTATGACCGGGAAGGACAACCCTGTGAACGCTGTGGTACAATGATCGTCAAAATTCGAGTGGCTGGCCGGGGGACACATTTCTGTCCCCATTGCCAAAAGCTTCCGCAAAAGAAGGCAGATTAA
>SRR1151209_02557 DNA polymerase I
GTGCCGACAACCAAGAAATTACTGCTGGTGGATGGGAACAGTGTGGCCTTCCGGGCCTTCTTTGCCATGCACAGCGCGCTGGACTCATTTATCAACCGCGACGGCTTGCATACCAACGCGATCTTCGCGTTCAAACGCATGCTGGACAATATCCTGGAGCAGGTTGATCCTACCAATGTGCTGGTGGCCTTCGATGCTGGAAAAGTGACCTTCCGGACGAAAAAATTCGAGGAATATAAAGGCACCCGGGCCAAGATGCCTGGCGAACTGGCTGAACAGCTGCCGTTCCTGCACAAGCTGCTGGACGCGTATGGTATCAAGTGGTACGAGCTGAAGAATTACGAGGCCGATGACATTATCGGCACGATGGCCCAGGAAGGTGCCAAGGCGGGGATGGCGGTCACTGTACTCTCCGGCGATCGGGACCTGACGCAGTTGGCCAGCGACCAGATTACGGTCCAGGTCACGCTGAAGGGCGTCACTGAGCTGGAAGCTTATACGCCAGCACACTTCCAAGAGAAGCTGGGCATCACGCCCAAGCAGCTGATTGACGTCAAGGCGTTGATGGGGGACAATTCCGACAATTATCCCGGTGTCACCAAGGTGGGCGAAAAGACTGCGTTGAAACTGATTCAGGAATACGGCTCAGTGGAAAATCTTTATGCCCATGTGGCCGATATGAAAAAGTCCAAAATGAAAGAAAACCTGATCAACGACAAGGATATGGCCTTCCTCAGCAAAGACTTGGCGACGATTCGGACGGATGCCCCAATCACCTTGGGGTTGGCGGATACGGTTTATCCGGGCCCAGACAACCAAGCCTTGCTGGCGTTGTATCAAGAACTGGACTTCAACTCCTTTATCAAGGATCTTGCCCCTCAAGAGGACGATGACGCGCCAGTGCAAAAGGACTTGCCCGTAACGGCATTAACGGCCGCCAACTTGCCGCAAGCACTGGCGGGGGATGCGCCCAAGACTTTCATGATCGAAATGCTGGGGGATAATTACCACACCGAGCCGGTCATTGCGGTGGGGCTGGGCACTCCGGACCAGTGGTATGTGGCCACTCAGGACGCGATTTTGCGCGAACCGGCATTGCAAACTTGGCTGGCTGATGCGCAAAAAGTAAAATATGTGTTTGACGCCAAACGGAATTACGTCGCTGCTCATCGCTTCGGGGCAACGATCAACGGCATCGACTTTGACATGCTGCTGGTGTCTTACTTGCTGAATACGGTGGATAACAGTAATGACCTTGGCTCGGTCGCAGCTCAGCACGGGTATACCGGTGTGGAAACTGATGCCGCGGTTTACGGCACAGGCAAGAAACGCCAAGTACCTGACGACCAGGCTGTGTTCATCCAGCACATTGCCCATAAACTGGCCTGTGTTTATAATTTGCAGCCGCAACTGGTTAAGGACTTGCAGGCCCATGAACAGTACACACTGTACACTGATCTGGAACGGCCCTTGGCCATCGTGCTGGCAAATATGGAGATCGCCGGGATCAAGGTCCTCCCGGACACATTAAAGGCCATGGGCGTGTCGCTCAAGGAACGTTTGCAGGACTTAGAGAATCAGATCTACACCGAAGCCGGTCATGAATTCAACATTAATTCGACAAAACAGCTGGGCACTGTCTTGTTTGACGAAATGAAATTGCCGCCGATCAAAAAAACGAAGACTGGTTATTCGACGTCCGTAGCGGTTCTGGAGAAGCTTCAGGATGAATCGCCGATCATTCAGATGATTTTGAGCTATCGCCAGCTGGCCAAGATCCAATCCACGTATGTGGAAGGCTTGCTCAGTCAGATCCATCCTGACGGCAAGATTCATACCCGCTACATTCAGACGCTGACCCAAACCGGCCGGCTATCTTCGCAAGATCCCAACTTGCAAAATATTCCCATGCATCAGGATGAGGGCAAGCAGATTCGTAAGGCCTTTGTGCCCAGCCATCCGGGTTGGCAGATCTTTGACTCCGACTATTCCCAGGTGGAGCTGCGGGTGCTGGCCCATGTATCCGGTGATCGGAACATGCAGGAAGCGTTCAAGGAAAATCGGGATATCCACGCTAACACGGCGATGAAAATTTTCCATCTGACCGACCCGAGCCAGGTCACCGATAACATGCGGCGTCAGGCTAAAGCCACGAACTTTGGTATCGTCTATGGTATTTCAGACTATGGGTTGTCCCAAAACATCGGGATTCCCCGGGAACAGGCTAAGGCGTTCATTGACGCCTATTTCGAACAGTATCCCCAAGTCAAAGACTGGACGGAGCAGATCGTGAAGACCGCTCGGGAACAAGGCTATGTGGAAACGATTATGCACCGCCGCCGCTATCTGCCGGACATTAATGCCAAAAACCGTAATTTGCGCCAGTTTGCGGAACGCACGGCGATGAACACGCCGATCCAGGGCAGCGCCGCCGATATTATCAAAGTAGCGATGATCAATATGGCCCAAGCCTTGAAAGATCAGCATTTGCAAGCCACCATGCTGCTGCAAGTGCATGATGAACTGCTCTTTGAAGCACCGCGGGAAGAAATCCCAATTCTGGAGAAGCTCGTGCCGTCAATCATGGATTCGGCAGTAAAATTAGCAGTACCGCTGAAAGTGGACAGCAGTTTCGGCGATACCTGGTATGATGTGAAGTAA
>SRR1151209_02558 UDP-N-acetylmuramate--L-alanine ligase
ATGACGAAGTATTATTTCATCGGTATCAAGGGTTCAGGGATGAGCGCGCTGGCGCTGATCTTGCATGACTTAGGCAACGATGTTTCGGGTTCCGATATTGATCAGTATACATTCACCCAGAAGCCGCTGACGGCCGCGGGCATTCCCATGTATCCGTTTGACCCGGCGAATCTCCAAGAGGGCATGACGGTTATCCGGGGTAATGCCTTCCGGGACGACAATCCCGAGATTCAGCAGGCAAAGAAAATGGGCCTGACCATGTACCGTTACAATGAATTCCTCGGTGAATTCATGAAGCCCTACACCAGCATCGGCATCAGCGGCACCCACGGCAAGACCAGCACCACTGGTTTGCTGGCCCACACCCTGTCCGGGGTGGCCAAGACCAGCTATCTGATTGGTGACGGCACCGGTAAAGGCGTACCCGGGGCCCGCTTCTTCGTTTATGAAGCCGATGAATATGAACGCCACTTCGTTTCGTATCATCCCGACTACGCGGTGATCACCAACATCGATTATGATCACCCGGATTACTATAAGGACATTGATGACGTGGTATCCGCCTTCCAGCAAGAGGCCAACCAAACCAAGAAGGCCATCTTTGCTTGGGGCGACGATCCCCATGTCCATGAATTGAAGACGGATGTCCCGATTTACTTCTATGGCTTGAAAGATACTGATGATTTCCAAGCCGTCAATGTGGTCCGCACCACCAAAGGGTCCAGCTTTGACGTGCTGTTCCACAAGCAGCCGATCGGCCATTACGCGGTTTCCTTGTTTGGCGAGCATAGTATTTTGAACAGTCTGGCGGTCGTCGGTGTCGCCCATTTGGAAAAGATGGATCCGGCCAAGGTTGCCCAAGAGCTGGTTTCCTTTGACGGCGTGAAGCGCCGCTTTGCCGAAACAGACTACGGCACCACGAAGGTCATTGATGACTATGCCCATCATCCCAACGAGATTCGCGCCACATTGGACGCGGCTCGGCAAAAGTTCCCAGACCGCAAGATCGTCGCGGTTTTCCAACCCCATACGTATACCCGGACCAAGGCCTTGATGCCTGGCTTCGTCAAGAGTTTGAGCCAAGCTGACGCGGTTTATGTCTTCCCGATTTTCGGCTCCGTCCGGGAATCCCACGGGAATGTATCCAGTGCCGATTTGGCCGCCAAGATTCCCCAGGGCGCTACAGTCTTGGAGAATGGTGATATCACGCCGCTGCTCAAAGAAAAGGGCAATGTGCTGGTGTTCATGGGGGCCGGCGACATCCAGAAGTACGAAAAAGTCTTCACGGATGCGCTGCAAGCCGACAAATAA
>SRR1151209_02559 cell division protein FtsK
ATGGCGCATTACGATGGTCCGGCGTTTTACCGGCGGACGCCGGCTCAAGAACCGAAAAAACGGACGACGCCAACTGCCCCAACCGTCCGGCCGCGTACGGCGCACCGGCCAGTGCCGCGGCAGCACCCGGCGGCAGCCGCGCCCAGTCCGGCACCGGATGATTTGACGGCGGATTATATCCCAATCAGTAATCTGCATCCGTTTATTTATTCTGACCACAAGGCGGATCCGACGATGGTGGCCGCGTTTGACAAGACACCTGGTCAAGTGTTCTTATTTGCGGATCCGAATGATGACGTTGAGGAACCAATCGAACCGGCGCCGCCAGAGAAGACAGCGGCAGACGGCCCAGCGGCCGCGGGCGAAGAAAAACCGATGCCCGAACGCGAGGCGTCAGCAGAATCTGACATGCCGGACGAGACACCGGCGCCTGCAGAAACTCCGCAACCGCAACCGGCAGAATCGCCGGGCAGCGCTGCTGATGAAACACGATCTGCGCACAGAGAAGCAGATGATGCAGCTGAATCCATCCGTTCGTCAGATCCTCAGGAAATTGAGGACAGCAGAGAATCGGATACTGAAGAAACAGCGGCCGATGACGATTCAGTGCTCGGTGCCTTTCATATGCCCGATGACCTATTGAAGAAGGCTCTAGGTCCGCAGCAACCGGCCGCGGCAGAACCGGCGGCCCCGGCAACACCCAAGCCCGCAGCGGCAGCCATGGCCCCAACTGGTCCGGCGCCAACTGCGGCCACTGCCCATTTGCCTGCTGACAGCGGCAAAACGACGGATTATACTGGTTATCGGCTGCCCAGTACCGATTTGCTGCGGCCGGTCCAGGATGTTGATTCGACTAAAGATGATGAATGGGTGGCCAATCAAACTGGTCAGCTGAACGCGACATTGAAAGCTTTCCATGTGGACGGCAGTGTTGTCCATCAAACAGTCGGCCCAACGGTGACCCAGTTTGAGATCCAACTGGCGCCGGGGGTTAAGGTGTCCAAAATCACCGCGCTCATTGATGATTTGAAACTGGCGCTGGCCGCTCAAGAGATTCGGATCGAAGCCCCGATTCCGGGCAAGCGCACGGTGGGGATCGAGATTCCCAACGCTAAGCCGCGCTCCGTCGCGTTGAAAGAGATCGTTGATTCCACGGCCTTCGCCCAATCCCTGTCGCCATTGACGGTGGCTTTGGGCATCGACCTGTTCGGCCGGCCGGTGGTGGCGGATCTGCGCAAGATGCCCCACGGTTTGATCGCCGGTTCTACCGGCAGCGGCAAGTCCGTGTTCATCAACGGGATTTTACTGTCGCTGCTGCTGAAAGCCACGCCGGATCAATTGCAACTGCTGCTGATCGACCCTAAGGCAGTGGAATTAGCGCCATACAACAACTTGCCCCATCTGCTGGCGCCGGTCATTTCTGACCCGGAAGAAGCTGTGGCGGCCTTGGATTGGGTCGTCGAACGGATGGAGCAGCGCTATACCCAGCTGGTGGCAGCCGGTGTGCGGAACATTGAAGAGTTCAATCAGCGGGCCAAAGCGCAGCGTGAACCAGAGATGCAAATGCCCTATATTGTCGTCGTCATTGATGAATTAGCTGATTTGATGATGACCACTGCCAATGCTGTCCAAGACAGTATCGCCCGGCTGACCCAGAAGGCGCGGGCGGCGGGGATCCACCTGCTGATTGCCACTCAGCGGCCGAGTGTGGATGTTTTAACCGGCGTGATCAAGAACAACATTCCCACTCGGATCGCTTTCATGGTGTCCAGTCAAGTCGACTCCCGCACTATTCTGGATGCCCAGGGTGCCGATCGGCTGCTGGGAAAGGGCGACATGCTCTATCGGGCGAACGGCTCCAATCATCCCCTGCGCTTGCAGGGCGCTTATGTCACCGGCGACGAGATCGACCGGGTGACGGCGGCCATCACCGCGCAAGCTCAGGCGGATTACGTATTCACCAACCAGGATTTGCAAAAAGCGGCGACGGTGACTGAAGAGGAAGACCCCCTGTGGGACCAAGTGCTGGATTATGTCCAGCATGAGGACACCATTTCCACCAGTAAATTGCAGCGGCTGTTTTCTGTCGGTTACAATCGGGCCGCTAATATCATCGATCATCTGGAGGCCAAGAACTTGGTTTCTGGTCCCCGGGGATCCAAACCCCGCAAGGTCTTTTACCGGGGGGATGCGGACACTGCCGCAACCGCGCATCAACAAGACGAAGAGAAGGAATGA
>SRR1151209_02560 tRNA binding domain protein
TTGTTAATTACAGCATTCAATCACCGTCTGGACGTGCTCTTCGCAGTGGTCGCCCAGGATAGCGAGTTTACAGAGACCAGTGAGCGCCGGGGAAATGTCACCGTGATCCGGGACGCCAAAAGCGGCGCACTGGTGGGGATGAATTTCTTCCACCCGGCGGACATTCTCGGCAGCGACGTGCTCCATGATGGGCAAGTCAAGCTGGGTGAAGCCGATGTGGCCAAGCTGAATACAGCGCTGGCTAATGCCGGTTTTGCCGAGCGGCTGACCGCCGACCCCAAGCCTTACTTGGTGGTCGGGTTCGTTAAGGAATTGAAGAAGCACCCCAATTCCGATCATTTAAAGATTGCCCAAGTCGATGTCGGCGAAGAAAAGCCGCGCCAAATCGTGGTGGGGTCGCCTAACGTCGCTGAAGGCCAGAAGGTCGTCGCGGCTTTGCCCGGTGCTTTCATGCCCAGCGGCAAGATCATTTGGCCCGGCGAACTGCGCGGTGTGCCGTCCTACGGTATGCTGTGTGCGCCGCGGGAGTTGGCTTTGCCCAATGCCCCGCAAAAACCGGGCTTGCTGATTTTGCCGGCGGACGCGCCCGTGGGCGCCGCTTTTATTCCGGCGAACTTTAAGCTCACCTATTAA
>SRR1151209_02561 thiol-disulfide isomerase/thioredoxin
ATGAAGTCATTGGCTGAAATGGACGATGCTCAGCTGCAAGACGTGACGGCCCAGGGTAAGCACATGCTATTCTTCGATGCCGCGTGGTGCGGGGATTGCCGCTTTATCAAGCCGCAGATGCCCGCCATTGAGAAGGAATACAGCGATTGGCAGTTTGTTGAAATTGACCGGGACAAGTTTTTGGATCTGGCCAAGGATATGGACGTGTTCGGTATTCCCAGTTTCATCGCGGTGAAAGACGGCAAAGAGCTCGGCCGGTTCGTGAACAAGGACCGGAAGACCAAGAAGCAGATCGAGGCATTTATCGACAACTTACCGGCCTAA
>SRR1151209_02562 membrane protein
ATGGCCAAGTCACCCCGTCCTTGGGTCTATTTCGCCGCTGGCGCCCTTACCGGACTATTCACCGGCGCCGTAGAAATGTATTGGCACCAACGCAGCGCCCAGCACTTATTGGATCACCGGCTGCAGCAAGTGAAGGATCTGTTCCTGCAGGAAGGACCCATTCAAGGGTCCTGGATCGAATCCCAAGCCCATCCCTACACTGGTAAAAACGGCCGCACCACCGATGTAAACTATGGCGGCATCACCCGCCAAGAAAACGGGCAGTTGCGGCAGTACGAATTTATCATGGACGTCCCGACCGGCCAGCTGCTGGATATTTATCCCTTAGCCTGA
>SRR1151209_02563 tRNA (guanine-N(7)-)-methyltransferase
TTGCGGTTACGAAATAAACCCTGGGCGAAGGAACTGATCGATGCCCATCCGGAACTCATTCAAGTGCAACCGGAGCACGTCGCCGACCAGTTTGCTCAGAAACAGCCGGTACGGCTGGAAATCGGCACTGGCAAGGGTCAATTTATCTTTAAAATGGCCCAGCTGCACCCGGAGATCAATTTTCTTGCCTTGGAGATGCAGCATTCCGCCCTGGCAGTGCTTTTGAAAGCCCAGGTCGACGCGCAGCTGCCGAATTTGCAGCTGGTGGTGGCCAATGCCGAGAACTTGCAGGCCCTGTTTGCCGGGTGGCACTTCAGTGAAATTTATTTGAATTTCTCTGACCCGTGGCCCAAAACGCGGCACGAAAAAAGACGGCTGACATACTCCAGCTTTCTCACCCAATACCAGCAGTTGCTCGTGCCGGATGGGGTGGTGCAGTTGAAGACGGACAACCGTCATTTCTTCGAATATTCGCTGATCAGTATGAATCAGTTTGGGATGCAGTTTCAGCAATTGAGTCTGGATCTGCATCACGATGACACAACCTGGGCGGCGGCGAATGTGCCGACGGAATACGAGGATAAGTTCAGCGCCAAGGGCCAGCCTATTTATGGCGTCCGGGCGGTGTTCCATCAGGCTAAGGGATAA
>SRR1151209_02564 multidrug ABC transporter permease protein
ATGAAGACTCTGTGGCACCAACGCCAACAGCGGCATTTGACCCAGCAACTGAAGTATTTGCGGCTGGTGTTCAACGATCACTTTATGATTGCCCTGATCTTTCTCTTCGGGGCCTTAGGGGTCAGTTATGCCAATGCGCTCAAGGGGATCACCACGCTGTGGTGGGGCAAACCGGTATTGATTTTGGCCTTCTGGGCCTTGTTGCAGGTCGGTCAGTTTGCCAGCCTGATTTTTGAGGCGGATTCGGTCTTCCTTCAGCCCCGGGAAGCGGACATGCGAGAGTATTTGCGGGGGGCTTGGCGTTACAGTCTGCCGGTCCCGCTGACGGCGCTGCTCTTTGTTGGCCTGCTGGCGTTTCCCTTCGCTGTTCGCGGGGCAGGGGTGACGACGCTGCAGTGGGCGGCCTTCCTGCTCATCCTGGTGCTCCTGAAAAGCACCGACCTGGTGCGGCAGGGACTGGGCCTGTTGATGGATCAGCAGACGGCCGCACGCGGCCGCTTCTGGCTTGCCCAGGGAATCAGCGTACTGAGTCTGGCGCTCAGTGTCTATGGGCCGAGTTGGCTGGCCATCGTCGCCATACTCGCGGCCATCGGCTGGTACATGTGGCTGACCACGACGTTCCAGCGGGTGATTCGCCGCAGCCGGATCGACTGGCTGGTGGCCATTGGCCGGGAAGAACGGCGCCAATTCAGGATCTATCGGTTCTACAACCTGTTCACCGATGTGCCTGGCCTGACCAGCAGTGCGAAGCGGCGCAAGTATCTGGATGTGTTCATTCCCCGACTGACTTTGACCCCGCCGCATACGTTCACGTATTTATATGTCCGCGGCTTTTTGCGGGGCAGCGAGTATCTGGGACTGTTCCTGCGGCTCACCATCATTGGGGCGATCGCCCTGTACTTTATTCCCACATGGTGGGCGGCCGCGCTGGTAGCGGCACTGTTTATCTACTTGATCGGCTTTCAGCTGCTGCCGTTTGCCGGCCAGTACAGCAATAACGTGATGACTTTCCTGTACCCCGTGCCGCCAGCGAGTCAGCAGCATTCGTTTGCCCGGTTATTGACGGTTCTGCTGCTGCTGGCTTGGGTGATTTTCGTCATCCCCATGGTCTGGCAGCTGGGCTTTTCTTTGCTCACACTGGCCGCAGCCGCGATCGCGCTGGCCGTGACCTTAGCGTTTATTTATCTCTATGCACCGCGGCGGATCGCCAAGATGCAGTAA
>SRR1151209_02565 ABC transporter ATP-binding protein
TTGCTTAATGTTGATCAGTTAACGGGCGGGTATGCCCATGTACCGGTGCTCCATGACGTCACGTTCAGCGTGCCGGACGGGACGATAGCCGGGTTGATCGGGCTGAACGGGGCGGGTAAATCCACCACCATCAAGCACGTCATCGGTCTGCTCACGCCCACGAAGGGGACCATCACGGTGAACGGCTTGACGATCCAGCAGGACGCCACTGCCTATCACCAGCAAATTGCCTATGTCCCGGAGACCCCGGTGCTGTACCCGGAACTCACTTTAAAGGAACACATCGATCTAACGATCAGTGCGTACGGTCTGCCGGTCAAAGAAACGTGGGAAAAGGCCGATCGGCTGCTGAAAATGTTCCGTTTGGATAATAAGCTGGATTGGTTCCCGAGCAATTTTTCCAAAGGGATGCGCCAAAAGGTGATGATCGTGACCGCCTTCATGACGGAGGCCAAGCTGTTCATCATTGATGAACCGTTCACCGGGCTGGATCCGTTGGCTGTTCATGATCTGTTAACGATCGTGCAGGAACGCAAAGCGGCGGGGGCGTCGATTTTAATGTCGACCCATATTTTGGCCACCGCCCAGCAATACGCGGACACGTTTATTCTGCTGAATAATGGGCGGGTCCGCTCTCAGGGATCGCTGGATCAATTGAAGCAGGAATTCGGCATGAGCGACGCCAACTTGGACGATATTTATCTGGCGATGACAAAGGAGCCGGCGGCCTCATGA
>SRR1151209_02566 histidine triad protein HIT
ATGTTAGACGAGAACTGTATTTTTTGCAAGATCATCCGGGGGGAAATCCCCAGTGTGACGGTTTTTGAAGACGATCACGTCAAAGCCTTTTTGGATATTTCCCAAACCACCCCGGGTCATACCCTGCTTGTACCCAAGGACCACATCGAAGATATTTTCCATCTGCCCGCCGCGACCGCGGCCCGGCTTTTTTCCTACGTACCGATGCTGGCCAACGCCATCAAAGCGGCCAACAGCGGCATCAAGGGTATGAACATCATCAACAACAACGGCGAAGTGGCTTATCAAAGTGTGCATCATGTGCATATCCACTTGATTCCCCGCTATTCCGATCAGGATGATTTCAATATTCATTTCGGCAATCACAGCGATATGTATGATACAGCAGCGCTGACCAAAATTGCTTTGACCATCAAAGAAAACTTGCAGGAGGCGCCCCATGCCTAA
>SRR1151209_02567 hypothetical protein
ATGCCTAAATTTCGTCACGGCCTTGTGCTCGGAGCCATTGTCGGTACGGCAGTCGCTCTCCTTACGGCTAAAAAAACCGGCGCCGACCGCCAGCGGGATACGGCCGCCTATCTGGACGACGTGACCGGTGCAGTCCAAGACGTCAGCGCGAGTGCCGGCAAATTACAGACCGCCCTGGGGCATTTGCTGACCCAGTTGCAGACGACGGTGCCCACCGTGCAGAAACAGGTTGAGCGGGATATTGCAGATTTCCAATTCCAAGCCCAGCCACGGCTGAATCAAATCAACGAGACCCTGACGACTTTGCAAGCCGACGCAGCCGGTTTCACTGATCAAAAAGTCACAAATAAATCATAA
>SRR1151209_02568 peptidylprolyl isomerase
ATGTTTAAAAAGTCTGGCAAATGGGCCATCGCGCTCAGCGCAGTCGTTGTCATGCTGCTCGCAGCAGGCTGCTCCGCCGGTAATAAGACCGTTGTATCAATGAAGGGCGGCAAAATTACTCAAGAGCAATACTACGAGGCCATGAAAGACTCCAGCTCGGGCAAAACAACCCTACAGACGCTGATCTGGGAAAAAGCCTTGGAGGAACAATACGGTAAGACCGTGTCCGACAAGACTGTCACCAAGCAATATAATTCCGTCAAGACCCAATATGGTGCCCAGTTCTCCCAAGCACTGGCCCAAAATGGTTTGACGCCTTCTCAGTTTAAGACCAACATCAAGACCAACCTCCTGACCCGCAAGGCTCTGGAAGCCCTGAAGCCGGTCACCACCGCCGATTTGAAGACGCAATGGAAGTCTTATGAACCGAAGATCACCGTTTCTCATATCCTGGTCAAGGACGAGAAAACGGCCAAGGATATCATTAGTCAATTGGAGAAGGACAACGGTAAGAACTTCGCCGCTTTGGCCAAGAAGTATTCTACCGATACCGGCTCCAAGGCCAATGGCGGGAAGCTGACCCCGTTTGACAGCTCCGATACGTCTTACGATGCCACCTTCAAGAAAGCCGCTTTTGCTTTGAAGCAGGGTGAATACACTAAGACACCGGTCAAGACCCAATATGGTTACCACATCATCATGTCCGATAAGAACCCGGGCAAGGGTAAGATGTCTGACCACACCAAGACCTTGAAGACCCAGATCTATGACAAGTGGATGCAAGATTCTACGGTCATGCAAGGGGTTATGTCCAAGGTATTGCAAAAGGCCAATATTGATATCAAGGATAAGGACTTGAAGGATATTCTGTCCGGCTACCTGAACAGTTCATCCAGCAAGTCGACGGCAACGAGCTCATCTGCGGCTGAATCAAGCAGCGATGACAGCTCTGCGACGTCCAGCTCCAGCAGCACGTCGAGCTCCAGTGCCAGCAGCACAACGAGTTCTTCGGCTTCTAGCTCAAGCAAGTAA
>SRR1151209_02569 S-adenosylmethionine:tRNA ribosyltransferase-isomerase
TTGCTCACAACGGAAGATTTTGACTATGATTTACCCCAAGAATTGATTGCTCAGACCCCGCTCCCCGAACGGGATGCGTCCCGGATGCTGGTGCTCGATACGGCCACCGGCGAAACAACAGACAAGCATTTCTACGATATCCTCGATTATGTCCATCCCGGCGATGCGGTGGTGATGAACGATACCCGGGTCATGCCGGCCCGATTATACGGCATCAAGCCGGAAACTGGCGGCCATGTGGAAGTGCTGCTGCTGAACAATACCCGCGGTGATGACTGGGAAGTGCTGATGAAGCCGGCGAAACGGATTCATGTCGGTACTCAGATCGACTTTGGCGACGGCCTGCTCAAGGCGACGGTTACGGAAGAACGGGACGAAGGCGTGCGCATGATCCGCTTCCAGTACGATGGGATTTTCATGGAGATCCTGGACAAGCTGGGTGAAACTCCGCTGCCGCCTTACATCAAGGCTAAGTTGGACGATCCGGAGATGTATCAGACGGTGTATGCCAAGGAGATCGGATCGGCAGCAGCGCCCACTGCCGGACTGCACTGGACTAAGGAATTGCTGCAGAAAGTCCAAGACAAGGGCGTCAAGCTGGTTTACTTGACCCTGCATATTGGGTTGGGCACTTTCCGGCCAGTCCTAGAAGAAAACGTCGAGGACCACAAGATGCACTCCGAGTTCTATCGGCTGACCCCGGAAGCGGCTCAGGCTTTGAACGACGTCCGGGCCAATGGCGGGCGGATCATTGCCACTGGCACCACCGTGATTCGGACGCTGGAATCTATTGGCACGAAGTTCAACGGTGCGATCAAGGCGGACTCCGGCTGGACAGACATCTTCATTAAGCCGGGCTACCAGTGGAAAATCGTGGATGCCTTCATCACTAACTTCCATCTGCCCAAGTCCACACTGGTCATGCTGGTCGCTTCGTTTACCGGCCGGCACATGATCCTCAATGCATACCAGCATGCTGTTGCAGAGAAATACCGCTTCTTCAGTTTCGGCGACGCGATGTTTATCTACAATAGTCAAAATCCGCACCCGCAACCGTTGAAAGAAAACGATTAA
>SRR1151209_02570 Holliday junction DNA helicase RuvB
TTGGCAGAATCAGAACGGATCGTCGATGCGGACGCCAATAATAACGAAGATCGCGCCGACATGACGCTGCGGCCAACGCGGCTGGCCGATTATATTGGTCAAAATGCGTTGAAACACCAATTGACCGTCTTTATTCAGGCGGCCCGGTCCCGGGAAGAGTCCTTGGACCATGTATTGCTGTATGGCCCGCCCGGCCTGGGCAAGACAACGCTAGCGGCGATCATCGCCAATGAAATGGGTGTACACTTGCGCCAAACCAGCGGACCGGCCATCGAGAAGAGCGGCGATCTAGTGGCCCAGCTCAATGAGCTGCAGCCAGGGGACGTCCTGTTTATTGATGAAATCCACCGGCTGCCCAAACCAGTGGAAGAAGTCCTGTATTCAGCGATGGAAGATTTCTATATCGATATTATCGTTGGTGAAGGTCCGGCCGCTCATCCCATTCATTTTACGCTGCCGCCGTTTACCCTGGTGGGGGCGACCACCCGCGCTGGTCTATTATCGGCGCCGTTGCGGGACCGCTTTGGCATTAGCATGCACATGGCATACTACAGTACGGATGAACTGACTGAGATTGTGGATCGCTCGGCCCAGATTTTTGGACTGGCCATCGACGAGCAGGGCGCGGGGGAGATTGCCCGCCGGTCCCGGGGTATCCCCCGGATCGCCAATCGGCTGCTGCGCCGGGTACGGGACTTTGCGACTGTCAATGGGGATGGTAAAATTACCCAGGCGATCGCGGCATCTGCGCTGACCCAGCTGCAAGTTGACGATATGGGCTTGGATAACCTCGACCGGAAGATCCTGCACCTGATGATCGACCATTATGCTGGCGGCCCCGTGGGCTTAAAAACCATTGCAGCCAACGTCGGCGAAGAGGAACAGACCGTCGCCGAAATGTATGAACCATTCTTAATGCAGCGGGGGTTATTGATGCGCACCCCCCGCGGACGGGTCGTCACCCCGTTGGCGTACCATCATTTGGGCTTGACACCCCCGACACATAAAGCGGATTTGGAAGTGTAA
>SRR1151209_02571 Holliday junction DNA helicase RuvA
GTGTATGAATTTCTAACTGGGACCATCGACGCGGTCCACACCGATTACATCGTGGTGGCCGTCCAAGGTATCGGCTACAAAGTGATCGTGCCAAATCCCTATCGGTTCGCGGTGGGGGCGAAAGATGTCACTGTCTATGTGGATCAAATCATCCGAGATAACATCGGTATCACGTTGTACGGTTTTGCCGATCTGGATGAAAAGGTGATGTTCCAGCATTTGATCAGTGTCACTGGCATTGGCCCGAAGTCAGCCTTGGCCATCTTGGCCACCGGCGACGCGGCGGCGTTAGTCCAGGCCATTCAGGAAAATGACCTGAAGTATTTGACTAAATTTCCGGGAATCGGTAAGAAATCGGCGCAGCAGATCATTTTGCAACTGGCCGACCGTTTGACACCCACCGGCAAACCGGCGCTGACGGTGAAGACCGTGGCTGACCCGGACGCCGTTAATAACTCGCCCGCCTTGCGCGATGCCTTGGCCGCCTTGCGCACGCTGGGTTACAGCGATAAAGATGTGGTGCGTATCGCCAAAGCTTTGCGGCAGGAAGAAGCACACTCAACGGACGATTATATTCGGCTCGGTCTCAAATTATTGACCCAGCCCTAA
>SRR1151209_02572 DNA mismatch repair protein MutL
ATGGGAAAAATTCATGAATTGTCCGCTCAGGTCAGCAATCAAATTGCGGCCGGGGAAGTAATCGAACGCCCAGCCTCAGTCGTCAAGGAATTAGTGGAAAACGCCCTGGATGCCCATGCTACCCAGGTGCGGATTCGAGTCAAAGACGGCGGCATGAGCCTGATTACCGTCAGCGATAATGGCGACGGCATTGCCAGCGACGATATTCCGCTGGCCTTTGCCCGCCATGCCACTAGTAAGATCATGACCGGCACGGATTTGTTTAAAATCGGTACCCTGGGCTTCCGCGGTGAAGCTTTGGCCTCCATCGGTGCCGTCGCGAAGGTCACCATGACCACCAGCACCCAAAATGGGTTGGGGGACACTGCAGTCGTTGAAGGCGGCGATCTGGTCAAACAAGAGAAGTCCAGCCAGCCTAAGGGGACAACCCTGACCGTGCGGGACTTATTTTACAATACGCCAGCCCGGCTGAAGTACATGAAATCGGTCCAGACGGAACTGTCGCATATTGCGGATATCGTGGATCAGATTGCCCTGGGGCATCCCGATGTGGCCTTCACTCTGGTGAATGATACGAAGACGATGTTTGCCACTGTCGGCAACAAGGATTGGCGCCAGACCATTGCCTCGATTTACGGCAACTCGGTTGCCCAGGCGCTGCTGCCGATCAAGGGCGACACCCTGGACTATCGGGTCCAGGGCTACATTGCTAAACCGGAAGTGACCCGGGCGTCGCGAAATTTCATTTCACTCTTGATCAACGGCCGCTACATTAAGAACTATGCGCTGAATAAAGCCTTGATCGAAGGGTATGGCACGAAACTGATGGTGGGCCGCTATCCGGTCGCCGTCATTGCCGTGCACATGGATCCGCTGCTGGTGGACGTCAACGTTCATCCCACCAAGCAGGAAGTGCGGTTAAGCAAAGAAAACGAGCTGACCAGTCTGATTACCAAACTGGTCGGCGCCGAGCTGGGCCAGCAGCGGTTGGTACCCAATGCGCTGGATAATCTGTATTCCCACAGTCGGCCAGCCACGCCCCAGATGCAGCAGTGGGCAGATTTGGCCAGCCAGCTGGACACTATCAGCAGTCAAGATCAGCCCCAGACCAGTCAGCCAACGAATCAAGCGGCACAGCCCGCCGTCCCAGTGGTTGCCGAGGCAGCGGCCCATGTCGCCGCGAACGGACGCTTTATTGCGCCCAATGCCCTCCATCCCGAGGATGCCGGCACCGATGCTCAGGTATTGGCTGCTTGGGACGCCCGGGTGGCCACCGATGCACCTGCGTTAGCCTTTTCGGCCCAGTCCCAACCGCAAACCGTGGAACAAACTGCCCTGGTGGACGATACCAACACCCCAGCCAAGCGTTTTCCGCAGCTGCATTATCTCGCCCAAGTACATCGTACCTATCTGCTGGCCGAGGGGGAGGACGGCTTTTATATTCTGGACCAGCACGCCGCCCAGGAACGGGTCAACTATGAATACTATCGAGAAAAAGTCGGCCATCTTCAACCCGATCAGCAAACCCTGCTGGTTCCGCTGATTCTCGACTATTCTGCGGCTGATTATTTGGAGATCAGTCAGCACTTGCCGGAACTAGCCAAGGTAGGCATTGAACTGGAACCGTTCGGCGACAATTCGTTCATCGGTCATTCTCACCCCGCCTGGTTTGCCGACAAGGATGTCGAGGCCATGATCCGTGAAATGGTGGATTATTTCTTAACCGACCATACCCTCAGTGTTGCCAAATTCTTGAACAAGGCCACCGCCTTGATCGCCTGCAAGGCGTCGATCAAGGCTGGGATGGATATCAGTCGGCAAGAGGCTCAGCGGCTGCTGGATGATCTGCGGGAGTGCGAAAACCCCTTTAATTGCCCCCATGGCCGCCCGACGATGACCCATTACAGCGACCGGGACTTGGAGCGGATGTTCAAACGGATTCAAGATTCACATCAAGGGTGGACCGGCGCGTAA
>SRR1151209_02573 DNA mismatch repair protein MutS
ATGGCTAATCATTCCAAAGAAACGCCGATGATGCAGCAATACTTCGCCATTAAGGATCAGTACCCCGATGCTTTCCTGTTTTATCGAATCGGGGATTTTTATGAACTGTTTTATGATGACGCCATCAAAGGATCGCAGATGCTGGAGCTGACGCTCACCTCACGTAATAAGAGCGTGACCGACCCGGTACCGATGTGCGGGGTGCCGCACCATGCGGTGCAAAGTTACATCGATATTCTGGTGGACAAGGGTTACAAGGTAGCTATTTGCGAGCAAATGGAAGATCCTCGGTTAGCCAAGGGCATGGTGAAACGCGCTGTGATTCAGCTGGTGACGCCGGGGACACAAATGCCGGATAGTCCCGGCAAACGCCAAGACAATAACTTTTTAACGGCCGTAGACGAACTGGGCGGGCAATATCACTTTGCCTATACCGACCTTTCTACCGGAGAAGTGTGGGTGACGACGCTGGCCAGCACCGATGATGTCCGCAACGAAATGCTGGCGTTACAAACCAAAGAAGTTGTGGTACCGCCGGACTTGCCGGATGATCTGGCTCAGGCGCTCAAGCCGCTGAATATTTTACAATCGGCTCAGGATTTGCCAGAAAACACTGCCGAAGTCAGTTATGTCCGGCAAGATGCCGCCAACGCGGGACAAAAACAGGTGCTGGCCCGGCTAGTAGGATATTTGCTGGCGACCCAGAAGCGGGCCTTGGCCCATTTACAGAAGGCTACTGTCTATGCCCCCAGTCAGTTCCTGCAAATGGATCATGATGCCCAAGTGAACTTGGAGCTCACTTCAGCGCGCCGAGACGGCAAGAAACGCGGCTCGCTGCTTTGGGTGATGGATGAGACCCGTACGGCCATGGGCGGCCGGTTGTTAAAGCAGTGGCTGGAACGGCCGCTGCTGTCGGCCAAGACGATCAAAGCCCGGCAAGATAAAGTTGCCGCTTTAGTGGATGATTACTTTCAGCGGAGCAGTTTGCAGGATCAGCTGACCAAGGTCTATGACTTGGAACGACTAGCCGGCCGGATCGCTTTAGGCAGCGCCAACGGCCGGGATCTGCTGCAACTGAAGGCGTCCTTGGAACAAGTGCCGGGAATCATGGCCACGTTGCAGCAGCTGCACAGTGACAGTTTTACCAGCTTTGTCAAAGCCATGGATCCCGTGCCGGAAGTTGCCGAGTTGATTGGCCGGGCCATTGTGGATGATCCGCCGATCTCTGTCACAGAGGGCAACGTTATTCGGGATGGCTACAACGATCAACTGGATCAATACCGGGATACGATGCACCATTCGAAGCGCTGGATCGCCAATTTGGAGGCTCAGGAACGCAAAGTCACCGGCATTCACAATCTGAAGATTGGCTATAACAAAGTCTTTGGTTACTATATCGAAATCACCCGAGCTAATCTGGATAAGGTGCCGGCTGGCCGGTACGAGCGGAAACAAACGCTGACCAACGCTGAGCGGTTCATTACCCCAGACTTGAAGGATCAGGAACGCCTGGTGTTAGAGGCCGAGGAGCACTCCACCGCCTTAGAGTACACCCTGTTCACAACGGTCCGGGGAGAAATTCAGAAAGAAATTCCGCGCATTCAGCAGCTGGCTGCGCAGTTGGCCGCGCTGGATGTGCTTCAGGGGTTCGCGGTGATTGCGGAACAGTACCATTATGTCCGGCCGGCGTTCGTCGAACATCAACAGGACCTGCACATCGTTAACGGCCGCCATCCCGTGGTTGAAAAGGTGCTCGGTCCGAACCAGTATGTACCGAACTCCGTGACGATGAACCAAGACACCGACGTGCTGTTGATCACCGGGCCGAACATGTCCGGTAAATCGACGTATATGCGCCAGTTAGCCCTGTCCGTGATCATGGCCCAAGTGGGCAGTTATGTGCCGGCTGAGCAGGCTCAGATGCCCTTATTCGACCATATTTTCACCCGGATTGGTGCCGCGGATGATTTGCTGTCGGGGAATAGTACCTTTATGGTGGAAATGATGGAGGCCAATGATGCCTTGATCCACGCGACGCCCCGGAGCCTGATCCTGTTCGACGAAATCGGCCGAGGCACGGCCACCTATGATGGCATGGCTTTGGCCCAAGCGATTATTGAATATATTCATAATCGGGTGCACGCCAAGACACTGTTTTCTACCCATTATCATGAATTGACCCAACTGGCCGATACGCTGCCCAAGCTGAAGAATGTCCATGTCGGGGCAGCGGAAGAAAATGGTCAGCTGGTGTTCCTGCACAAAGTTGAACCCGGGCCGGCGGACAAGTCGTATGGGATTCATGTCGCCAAATTAGCGGGACTGCCCAATGCTGTTTTGCAGCGCGCAGACGTGATCTTGCAGCAGCTGGAGGGCAAGAAGCGGGTCGTACCGACGCCGCCGGAGCCGGCCGCCGAAACTAAGCCGGCACCGGCGGCTGCACCAGCCGTCGCCGAAGCCGGCGGTGATCAGCAGCTCGCCTTGTTCCAGCCGCAAACCGTGGCCCTTACGGATTCGACAGAACAATTTATTGTGGATGCGCTGAAGGATCTCGACATTGGCCACCTCACCCCGATTCAGTTAATGAATCAGGTCGATGCTTGGCAGCAGAAATTGCGCCGAGAGGCGAAGAAGAAGGCCGCTGCCGCTGAAAAATAA
>SRR1151209_02574 chaperonin GroEL
ATGGCAAAAGAAATCAAGTTCTCTGAAGATGCACGCGCCGCAATGCTACGGGGTGTCGACAAATTAGCTGACACCGTCAAGACGACTCTTGGACCCAAGGGCCGCAATGTTGTTCTCGAAAAATCCTATGGTTCACCGGAAATCACTAATGATGGGGTGACCATCGCCAAGGATATTGAACTCCCAGACCATTATGAAAACATGGGGGCTAAGCTGGTTTCGGAAGTTGCTTCCAAGACTAACGATATCGCTGGTGACGGCACCACGACGGCCACGGTTTTGGCACAAGCCATTGTCCGTGAAGGGATGAAGAACGTGACCGCCGGTGCTAACCCGGTTGGTATCCGCACAGGGATCGAACAGGCGACGAAGGCTGCTGTTGATGCGTTGCATAAGAATTCCCACAAGGTCGAGACCAAAGAACAAATCGCATCTGTTGGGGCCGTTTCTTCCTCCAGTGAAGAAATTGGCAAGCTGATCGCTGACGCCATGGATAAAGTGGGTCACGATGGCACGATCACGATCGAAGAGTCCAAGGGTATTGAAACGGACTTAAAGGTCGTTGAAGGGATGCAGTTTGATCGCGGCTATCTGTCCCAATACATGGTAACCGATAACGACAAGATGGAAGCTGACTTGGATAATCCATATATTTTGATTACCGACAAGAAGATTTCCAACATTCAAGACATTCTGCCGTTATTGCAACAAATCGTTCAACAGGGCAAGGCGTTGCTGATCATTGCCGACGATGTTGAAGGTGAAGCATTACCGACCTTGGTATTGAACAAGATTCGGGGCACGTTCAATGTTGTTGCCGTTAAGGCTCCTGGCTTTGGCGATCGGCGCAAGGAACAATTACAAGATATTGCCGTATTGACTGGCGGCACTGTCATTTCTTCTGATCTGGGTCTGGAACTCAAGGACACGACCATTGACCAATTGGGTCAAGCAGGCAAGGTGACAGTTACCAAGGATGACACGACTATCGTTGAAGGTGCTGGCGACAAGGATGCAATCGAAGAACGGGTCGGCCAAATCAAGAAGCAAATTGACGATACGACATCTGACTTCGACCGCGAGAAGCTGCAAGAACGTCTGGCTAAGCTGGCTGGCGGGGTAGCTGTGATCAACGTTGGTGCTGCGACTGAAACTGAATTGAAGGAACGCAAGTACCGGATCGAAGATGCCTTGAACGCCACTCGCGCGGCCGTTGAAGAAGGCTACGTCGCTGGCGGCGGTACGGCACTGGTCAACGTTATTCCGGCCGTTGCTGCGCTGAAGGAAAAGGGCGACGTCCAAACCGGGATTAACATCGTTCTGCGCGCTCTGGAGGAACCGGTTCGCCAGATTGCCAAGAACGCCGGCAAGGAAGGCTCCGTCATTGTGGAACGCCTGAAGGGCGAGAAGCCTGAGTTCGGTTACAACGCACGTGACGACAAGTGGGAAAACATGGTCGAGGCTGGCATCATTGACCCGACTAAGGTCACTCGCTCTGCGTTGCAAAACGCCGCTTCTGTTGCCGCTTTGCTGTTGACGACTGAAGCTGTGGTCAGCGACATTCCGGAACCGAAGAGTGATAACCCGGCTGCTGGTGCCGGTGCTGGCGCACCTGGTATGGGCGGTATGATGTAA
>SRR1151209_02575 co-chaperonin GroES
GTGTTAAAACCATTAGGTGATCGGGTCATCGTTAAGGTCCAAGAAGAAGAAGAGCAAACCGTTGGCGGCATCGTGCTGGCCAGCAATGCTAAGGAAAAGCCGCAAACCGGTGAAATCGTCGCCGTCGGCGAAGGCGCCCTGAATGATAAGGGCGACCGCATCAAGCCTAGCGTCGCCAAGGGTGATAAGGTCCTGTTCGACAAGTACGCAGGATCCGAAGTACGTTACGACGATCAAAAGTATTTGGTTTTGCATGAAAAAGACATCATGGCAATCGTGGAATAA
>SRR1151209_02576 hypothetical protein
ATGGGTAAAAAAAAGACCGGGACTCGGCTGATTCCTCAGTGTGCTGCTGCCAGGCCAATGCTCCGCAAGCTGCGCATTGGCCCTAAGTACACCAAAGCCTGA
>SRR1151209_02577 redox-sensing transcriptional repressor Rex
ATGGCAGATTTCAAAATTCCTAAGGCAACTGCCAAACGTCTACCGTTATACTATCGCTATCTCAACTTTTTACATAACGCCGGCAAAGAGAAAGTGAGTTCCACTGAATTGTCCGAAGCGGTGAAAGTTGACTCAGCGACCATTCGCCGAGATTTTTCCTATTTTGGCGCATTGGGCAAACGGGGCTACGGCTATGACGTCGATTCGTTGCTGGCATTCTTTGCTAAGACATTGAATCAGGATCATCTGACCAATGTCGCTTTGATTGGTGTGGGCAATTTAGGCCACGCTTTACTTAATTATAACTTCCGGCAGACTAATTCCGTGCGTATCTCCGCCGCTTTCGATGTCAATCCGGATATCACCGGTACGATTCAAAGCGGGGTACCGATTTATCCTATGGATGAACTTGAGACCCAGTTGAAAGATCAGCAGATCGACATCGTGATCTTGACCGTACCTACCCAGGCCGCCCAAGATATTACCGACCGCCTGACCAAAGCCGGTGTCCACGGCATCCTCAACTTCACCCCGTTGCGGATTTCCGTCCCTGACACCGTCCGCGTTCAAAACGTCGATTTGGTTAATGAATTACAAACCCTGATTTACTTTATTGACCACTATTCCAACCGGCCGAAAGAAGAAGCGAAGCAGTAA
>SRR1151209_02578 ATPase component of ABC transporter with duplicated ATPase domains
GTGATCCTTTTACAAGCGCAGCATATTACTAAAGAATTTAACGCCGTACCGGTGTTTACCAACGCCAACCTGATCGTTCAAGATCACGACCGAATCGGCTTAGTCGGGCCCAATGGTGTCGGCAAGTCCACTTTAATCAAGACAATCATCGGCGACGAAGCCGCTGACGGCGGGCAGATCAGCTTCGCCAATGACTTGACTTGGGGGTATCTGGCGCAGGATTCCGGCCTCGATACGAACCGAACGATTTATGCCGAAATGCTGACGGTGTTCAGCGACCTGCAAAAAATGGCGGCGCAAATCCATTCATTGGAACATCAAATGGGTGCTGATCCGACCAACCATGACTTGTTGTCCGCTTACGATCAGTTGAGCCACACGTTTACTGAGAAGAATGGCTACGGTTACGAAGCTGAAATCCGCTCGGTCTTGACCGGCTTCAAATTCGGTAGCGACGTTTGGGACAAGCCCATCGCCACTCTTTCGGGGGGCGAAAAATCCCGATTGGCGCTAGCTAAACTGTTGCTGGAAAAGCGTCAGCTGTTGATTCTGGACGAGCCGACCAACCATCTGGATATTGATACCTTAACTTGGCTGGAAGGATATTTGCGCAACTATCCCGGCGCGCTGCTTCTGGTCTCTCATGATCAGTATTTCCTGGATAAACTGACTACCCAAATCGTCGAATTACGCGCTGACGGAACCACCACCTACACCGGCAACTATTCCAAATACTTAGTCGAACGGGAAGCCCGGTCGGAACAGGCCTGGAAAGCCTATGAGCACCAGCAGGCAGAGATTGCCAAGTTGGAAGACTACATTCAAAAGAACATCGTCCGAGCCTCCACGACCAAAATGGCCCAGTCGCGGCGAAAAAAATTAGAAAAAATGGTGCGGCTGCCCAAACCTGTGGGTGAAGAGAAAACGATCCATTTCCAATTTACCCCGGACCGGACCAGCGGCAATGATGTCCTCCGCGTCAAGGACGCCACAGTGGGCTATGACGCCGCCCACCCCATGGCTGGCCCGATCAATGTCAATGTGGACAAGGGCGACCGAGTGGGCATTATCGGGGCCAACGGTGTCGGCAAGTCTACCCTGCTCAAAAGTATTCTAGGAAAAATTCCCTTTCTGAAGGGCGAGGTGCTCTTCGGTGCCGGTGTGACGGTTGGCTACTACGATCAGGAGCAAATGATTCTGCATGCCGAGAAGACCGTCTTGAATGAGGTCTGGGACGACCACCCCACCATGCCGGAAAAAGATGTACGCTCAATTCTGGGCAGTTTTCTCTTTCGGGGTGACGATGTATTGAAATATGTCGCTGATCTTTCCGGGGGCGAAAAAGCCCGGCTCAGCTTGGTCAAATTGGCGCTGGACCACGACAATTTCCTGATCCTGGATGAGCCGACCAACCACTTGGATATTGAATCCAAAGAAGTGTTGGAAAACGCCTTGCAAGACTTCGCCGGCACGATTCTGTTTGTTTCCCATGACCGGTATTTCATTAACGCATTGGCTAACCACACTTATGTCATCACCCCCGCGGGATCGACTCATTATCTCGGTAATTACGACTATTACCTGGCCAAAAAAGCGGAGGAAGATGCTTTGGCAGCGGAGAACGCCCAACAAACGGATCAGCCGACCGCCCCGGACAAGAGCGAAACGCAGCAATCCTTCGAAGAAACCAAAGCGGCGCAACGGGAACAACGACGGCTGGAGCGAGAAGTTGCCCAGCTGGAAAAAGAAATCGACCATCTCAGCCACCAGGAAACCGAGGTACAAGAGGCCATGGCCGCCCCGGATGTCTTGCAAGACTACAAAAAAATGCAGGAGCTGCAAGCACAGCTCACTGCATTGGAGACTAAACGGCACCACGCGGAAAATGAGTGGGCAGAAAAGCTGACTGCCCTGGATGACAACGCGTAA
>SRR1151209_02579 hypothetical protein
GTGCCAGATAAAGCAATGACCCGTTACCAAACCCTGGATCTGATTGAACAGATCACCCGGTTGGACGGGTCTCAGTATTTTGAAGTGAGTGATATGTTCATGAATGGCCGTGCGGAACTGGCCGCTATTCGCGGGATGATCAAAGAAGTGCGCATCGTCCAGTTGAATATCGCCCATACTAAGGCCGTGCAAGCCTATGAGAAATATATCAACGAGACGTACGAAATGCCGCCGGAAAACTTTACCAAATGGGTGGAGTGGGATAAACCGGCCGGGCCGATCCACGATGCCTACGAGGAAATTCTCAAGACCAACCACGTGGGCTGA
>SRR1151209_02580 ribosomal-protein-serine acetyltransferase
ATGGATGTTTTTGACCCATTGCCGGACCAGTGGCACAGCGCGGATCAGCAACTGATGTTTGCACTCACTGTGCCGGTCGAGGCTGATTTGTTTTATCCCCAATGGCGGGACCCGGCCGTGGCGCATCAATTGGGCATGACCCCGCCGGCCAATGTGAACGATGTGCGGACCATGTTGGCGTACTATATCGGCAATGCCCAGACCGGCAGTGCTGCCCGGTATACGGTGCGGCACGGGCAGACCGTGATCGGCATTTGCGGCTTCAACGATATTGACCGGGCAGATTCCCGGGTTGAAATTGGCTACGAGATCTTGCCAGCCTATCAGCATCGCGGGTGGGGCAGTGCACTGGTGGCAGCGATGGTTGATCAAGCTTGGCAGGCCCTGGATTTGAACCGCGTCGGAGCGGGCGTGCTGCCGGCCAACACGGCTTCTTTAGCGGTCTTGCGGCATAATGGATTCACAACGGAGGGTACGCTGCGTCAGTTTACCCGCATCGGCGATACCGTGTATGATCTCGTCATGTGCAGCAAAGTGCGTGCACTGGATAAGTAG
>SRR1151209_02581 hypothetical protein
TTGAATTACGATACATGGGTGTTCGCGGAAAGATTTGTCAACATCTGGCTGCCGGCGGGTCTGGTGGGCGGTCTGCTACTGTTTACCGGCGGCCTGCTGGCGTATTTCCACAAGGGGCGGGCCCGCCCGTGGGGCATCGGTGCCGCCATTTTGGGTCTGCTTACCGTGGGGGTATCCTTTATTTTTCTCTACCAGCCGTCAACCCAGGCTTATATGAAAGATTTTGGCCACGTGACGCCCCGCGCCCGAGTGGAGGATCCGACATTTTTTGGCTATCAGGCCACCAGCGGCGCATTGACCGGCATTTATGCGATGGTCCGCAACGACGATGATATGCGCCAACTGCCCATGTACAGCCGGCATGCGGTGACCCAGAAGGTGCGCTATGCAGGGGATGCCGATGGCAGTTATTATTTCTATGTCGGCGACATTTATTCACCCATCAATTATATTGGCCCGGTAGAAAAACGTAATGTGGCGGCGCCGTATTTGCGGGGGTATCGGTATACGCTGAAGGATGATCAGTACAAGACGATTGGCTTTATTAATCCGGTTAATGCCACGACCATGGCTATGGTAATTCCGAATTCATTGAAACACCGCCCGCCGACGAATGACGTGCTGCAAAATGCTAAGCGGTTAGCCAAACTCGACACGGGTTGGACAACGGAGGAAAAATGA
>SRR1151209_02582 glycerophosphoryl diester phosphodiesterase family protein
ATGGTCAAAAAAATGTCCATCGCGGCGCTGTTATTGGGGATTTACCTGATCAGCGCTGGTTTTTTAGTGGTCGGCCACCGAGGCGATCCCTTGAATGCCCCGGAAGAAACCTTCCAAAGTTTTGACTCAGCCTTCAATCACGGCGCCAATTACGTCGAATTGGATGTCCATGTCAGTCAAGACAACGTGCTGGTCGTCAGTCATGACCGGGATCTTTACCGGGTCACCAATACCCACGCCATTGTCTCGCAGCAGCCATTCGCCGCTTTGCAAAAACTGCATCAAGCCAATGGTGAACCAATTCATAGTTTAGGGGAAGTGTTTGCCCATTACCAAAACAACCCTAACGCCAAGTTTCTGGTAGAAACCAAAAAGACGGCTAAAGGCAATCCGAAAAACATGGAGGCGCTGCTGGTCGCTTTGATCAAGCAATACCATATGGAAAATCGGGTGATGGTCCACAGCTTTTCATTCGAAAGCCTAGAAGAAATGAAAAAGCTGATGCCCAGCATTCCCCGGATTTTCATTGCCGGATCATTGGGCCGGTTAAATTTTGAACGGTTTACCGTAACCACAGGCGTCAATATTTCGTCTGAGATCACTACCCCAGATCTGGTCAAACAGCTCCACTATATCGGCCAGAAAGTCTTTGTCTGGGATGAAATGACAGAGAAACAGCAGCAATGGAATTCCGTCGTCAACCTGCCCATTGATGGCGTCGTCACCAACTACCCGGAAGTCGGCCATGAGTATCAGGTCCTCAAGGGCAAGTCCAGTGTGCGCAGCACGGATCAAGACGTGGCAGTGGTCAGCGACAAACCGCTCACAACCTATGAGAATCCCTACCTGCGGGTGCAAAATCAAACACTGGCGAAGCCTGGTGTGGCTTACCACGCCAGCCAATACGTGGCCATGGAAGGCCGCGCCTATTACCAAATCGGCGCGAATACATTCGTTGATGCCGATTACGTGAATCCTGAGACGCTCTGTCCGACCCTGGTCCCCTATGTTGGTGCCCGGGTCCAATTGCGTGCCACGGTCGCCGCAAGTTCCGCATACACGTCGCCCACCCATCCGCAGGCAGTAACCGGTACTTTGCAGCCGCACAAGCAATACCGAATCCAAGCCATTAAAGTCGTCAACAGCAGCACATGGGTGAAAACAGCGGCTGGTTGGGTGAATACAGCAAAACTGCTGCTGCATCTGCCGGCGGCCGCCCCCACTCAACTGGCCGGACCGCTGGATACGTTTTTCCAGGAACCGGCAAAAGATCGCATTGCCCTGCTGGATCTGAACGCGCTGGTCCCCGGCAGTCAGATGATCAAGCCGGCTAAACCCGCCAGCTCCGCGAGCCGCTTAGCCGCGTGGAATCCCCAATATTTAACTTACCTCGCCGCCAGGAATACGGCGAAAAAGGAGTGA
>SRR1151209_02583 ArsR family transcriptional regulator
ATGTCTATGGAAGATCCAAGTCAAATTGATCACATTGGGCTTGTCGCTGAAGTCAAGGATAAGCTCCCGGCGGAGGACACGATTGCGGCCATGACCGGGATGCTCAAAATGTTTTCCGATGGGACCCGGGCCAAGATTCTTTTTGCCCTCTATGAATCTGAATTGCGGGTTTACGACATCGCGGATATTTTGGAGATGTCCCAGTCCTCTGTTTCTCATCAATTACGCTTACTTAAACAGGCTAAGCTGGTTAAAAGCCGAAAAGAGGGCAAAGAAGTGTATTATTCTTTGGCCGATGACCATGTCATCACGATTTTCTCCCAGATCCTGGCCCATGCGTCTGAAAAAAACTAA
>SRR1151209_02584 dipeptidase PepV
ATGTCAAAAATTGATTGGCAAGCAGAGGTTACGAAGCGCCAAGACGCTATTCTGGCCGACTTGCAAACTTTATTGAAGATTAAATCGGAGCGGGACACCGCCCATAAAACACCGGATAAGCCGCTGGGTCCAGGTCCGGCCAAAGCATTAGATGCGATGCTGACGATTGGCCGACGGGACGGTTTCACGACAAAAAATGTGGATAACGTCGCCGGCCGCATCGCTTACGGCAGCGGCAATGAGATCCTCGGCATCTTTGGCCATCTGGACGTCGTCCCCGCTGGGGATGACTGGGCTACTGATCCGTATCAACCCGTGATCAAAGACGGCCGCATCTACGCCCGAGGCACCGCGGACGATAAAGGGCCGGCCATTGCAGCGTATTACGGTTTGAAAATCGTCAAAGAACTCGGCCTGCCGGTGCACAAACAGATTCACTACATCTTTGGTACCGACGAAGAAAGCGAATGGGTCGGTATTCACCGGTATATGGAAACTGAACCGGCACCAGACTTCGGTTTCTCTCCCGACGCTGAATTCCCCATCATTAATGGTGAAAAAGGGATCGCAGACTTCACCATTAATGTGCTGCCGCCTAAGACGCCTCAACACGGCGACTATACGCTGACATCCTTCCAAGCCGGTCTGCGCACGAATATGGTTCCTGGCCGCGCCCAAGCTGTCGTCAGCGGCGCCAATCCAGGTGAATTGCAGCAGCATTTCGATTCTTTCCTTGCCTCACACCCGGTCGACGGGACCATTACTGGCACCGGCGATAACCAGCTTACGCTGACCGTAACCGGTAAAGTCGCCCACGCCTCGACTCCCGATCAAGGCATCAATGCGGCGGTCTACTTGGCCCAATTCTTAAACAGCCAACCCTTGGCCGGCCGGGGGGCCGCTTATGTCAAAGTCATTGCCGATTACCTGGCCAACGATTTCGATGGGACCAAGCTGGGCATCGCGCACCATGACACATTGATGGGCGACCTGAGTGCCAGTGCCGATTTGTTTTTATTCGACGCGGCCAAACAGGAAGCAATGGTCACCGTTAATGTACGCTATCCCCAGGGCACCACGGACAAGCGAATGAATCAGCAGATTGTCGACACGATTGGGGCTGATGTCGTCACCAGCACGATTGTCGGCGATCCAGAAGTACCCCATTATGTCAGCGGCGACGACCCGCTGGTCCAGACATTGTTACAGGTCTATACCGACCATACCGGTCAGCCGGGACATGAACAAATTATCGGCGGCGGCACTTATGGCCGCATCATTCCCCGGGGCGTGGCTTTCGGGGCGGAGCTCCCCGATACCGAGAGCGTCATGCATCAGGCGAATGAGTACATGCCCTTAGCTGAATTATGGTTGGCGACGGCCATTTATGCAGATGCCATTTATCGCCTAGCCCAATAG
>SRR1151209_02585 transglycosylase
TTGAATCGAATTCGACAGTGGTGGGACCAACTACGCTCCGGTATGAGTCGCCGGTTTAACACTTGGCAGCAAACCCGGCAGGCAGCTGAGGAGACCGTCGTGGACGGCCGCGATACCCCCTTTGCCGCGTGGTTGCGCACCCATACGTCAGCACGCTGGGCGATGGCCTGGAAGACCATTTCTTTCTGGTTTAATGTGGTCATGGCTACGCTGCGCCTGGTTCTGCTCCGGGCAATCGCAGTGCTCGTGGTCGCAGCGGGTCTGGCTTTGGGCATTGGCCTGGGTTACTTTGGCGCGCTCGTGCAGACCGTCAAAGTGCCGACCCAGACAGCGTTGGCCAAGCAAATCAATACGACTGAACAATCTTCACTGCTCTACTACGCGAACAACGTGAAGATGATGAACTTCAATACAGACCTGCGCCGAACGCCGGTTAAGTCCAGCGAGATTTCCCCCTGGCTGAAAAAGGCCATCGTGGCGACCGAAGACGAGAACTTTTATGTCCATTCCGGTGTGGTCCCGAAGGCTTTGATTCGGGCAGCTGCCGGTGATATCACCGGCATCGGCGGTCAAACCGGGGGGTCGACTCTGACCCAGCAGCTGGTCAAAATGCAACTGCTTTCCTCAGAAACGACCTTCAAGCGGAAGGCCAGCGAGATATTACTGGCCACCCGAATCGACAAATTCTTCAGTAAGGATCAAATTTTACAAGCTTATTTGAACGCGGCCACCTTTGGGCGTAATAACAAAGGCGAAAATATTGCCGGCGTTGAAGAAGCAGCCATGGGCTTGTTTGGCAAGCATGCGAATAACTTGAGTATCGCTCAAGCGGCTTACATTGCCGGAATGCCCCAGAGTCCGTCAATTTACACACCCTATACGCAAACTGGGGCGCTGCGCAAAAACTTAAGTGATGGGTTTGACCGTAAAAACACTGTTCTTTTCCGGATGTATCGGGCGGGCGTGCTCACTGAGCAGCAGTATCAAACGGCCCGCAAAGAGGATTTGAAAAAAGAACTGCTCCCCCAGGGCACTTCAGAACGGACAGATGAGAAGCTCGGCTATATGTATGATTTGCTTTCTGATCAGGCCACTTACTATTTAGCCGAATACTTGGCGAAGAGCGACCATCAAAACTGGACGAAAGTTCGGGCCAACAAGGCACTGTACGGTGAATACCGGCAACGGGCCTTGACCCTGCTGACGACCAAGAACTATCAGATCCACTCCACGATCAACAAGTCAGTTTACGGAACAATGCAGAATGCTATTCAATCCTACGGTGATTATTTGGGCACGACTCATACCTATACCGTACTGAACCAAGAGACTGGTAAAGAAGAAACAGTCACTGAACCCGTCCAAAATGGGATGATCCTGCTGAACAACCAAACCGGCGCTGTCCTCGGCTTCATTGGCGGCCGGGATTATGATCAGAACCAAAGCAACCACGCGTTTTACACATACCGGTCGCCGGGGTCGTCGATCAAGCCCTATCTGGTCTACGGACCGGCAGTGGATCAAAAGCTGATCGGTACCGAGTCGCAAATTGCGGACTTCGAGGTCAATTATAACGGCTATTCCCCTTCCGACTATGGTTCCACGATCCAGAACCGGTTCATCAGCGCCAAGGAAGCTTTGGCCAAGTCCTACAACATTCCGGCGGTGAATCTGTATAAGGAACTGCGGACGAAGACCAATCCGAAGACATACATGGACAAGATGGGCATTTCCCTGAGCAGCACGGAACTTTCCCGGCTCGGCATTGCCCTGGGCGGAACCGATAACGGGATCAGTGTTCAACAAGAAGCCAGTGCGTTTTCGACTTTTGCTAACCAAGGCCAATACACTGATTCTTATGTGATTGATAAAATCGTAGCCCCTTCTGGCGAAGTCATTTATCAGCATAAGAGTGAAAAAACGCAGCCCTTCTCCGCGGCAACGGCTTACATTATGCGTGACATGCTGCGGAACGTGATCACGGAAGGCACAGCCGCATCACTCAGTTATCAGTTGAACTTCGACACCGATTCGCTCTACGGGAAAACCGGAACGTCCAATGATAATAAAGATGTGTGGTTTGTCGGTTCCACCCCGGGCATCACCATGGCTTCTTGGATTGGTTATGACAACTTCTGGGGACATGCTTACAATCTGACGGATGCCGGCACGAATATCAACCAGGCACTCTGGGCCCGGGTGGCCAATGAGGTTTACAAGGTTGATCCCGAGGCCTTCCAGTTGAACAAGACCTTCTCTCGGCCAGACACCGTTAAATCAATCAGTGTGTTGGAGAAAACTGGCCTGCCAGCGGGCACGATTACCTATAAAGGTAAATCTACTGACGTCACCGGTACCCGTACGACCAGCCTATTCAACGACTTTACCCCAAGCAGTACCCGCTTTGAATTCGGTATCGGCGGGACCACTAAAAATTACAATCTCTTCTGGGCAAACTTCTTCGGGGCAAAGAACGGTTATGGCACAGTCACGAAGTACACAGGTAAAACGATCCGCGATCCCAATGACAAAGTCGGCGACGTCAGCGATTACGACGCCACGGATGAAAGCGGGAGCGAAACCAGCAGTAATGCGGGCAGCGCCTGGCAGGGCAGCACGGGCCAAGGCACCGGCGCCAATACTGGTCAGGCCGGGACGAATGCTGGTCAGGGTGAAAATACGGGTCAGAGCGGACAAACCGGTCAGACCGGCCAGGGCAATACCGGCAGCGGGACAACGACCAATCCGGATCAGGGTACTGGTCAGGGTGGTACCAGTCAAGGCGGTACGAATACCGGTCAGGGTGAGAACACGGGCCAGGGTGGCACCAATACGGGTCAAAATGAAGGCAATACGGGCCAAGGCGGCGGGACGACTGGTGGAAACACTGGGCAGACCGGCGGCCAGGGTCAGGGTAATGCTGGCCAATAA
>SRR1151209_02586 hypothetical protein
ATGATGGCGCTGCTCTTTTTGTGCAGGTCCGAAACGGGGTGCTCTTCTCCTCCTGCCGTGCCAATGCTCCGCAAGCTGCGGCGGATGGGGCTGGCGACGCGCAGCAAGTGCGAAGCCGAAGGCGTAGCTAGCCATGACGGCGTTTTGAGCCCGCTGCGCGGTCTCAAAATCGCCTAA
>SRR1151209_02587 hypothetical protein
TTGAGTTACCTCATCGCAGATCAAGTCGGCCGGCTGGCGCAATTAAGCCCCGATGACTTAGTGAATAAAATGCTGCCACCCGACAGCACCCATAACTTCGAGGAACAACGATCTTGGCGCGAGTCGTTGTATCGGCTTATCCAAATCGTCAACACCAGCGGCTTGTCAGATCTGTGGCTGATTGCCGAGTATTCGCTCATTGGCACGCATCGAATTGACGCAATTATTTGCGGATTCAGTAGATTATTCGGCCGGCCGCTTGCCCTGATCGTTGAATCAAAACAGTGGAACAAGATTGGTGATGGCGGTACACAGCACGCTGACCAAGTCAAAATGAACTTCGCGAACGAATACCGGATGCACCCAGTCGCCCAAATGTTTCAGTACGAGCATCAGCTGGAGGCCAACCACAGTGTTGTGAAAGCGGGTAACATTCAGCTTGCTGTGCTGGCCTTTATGCATAATCTGCCAGAATCCCAAAAGCCGAAACTGTTTACCGATGAATATCGCGCGTTTGCTCAATACGCTCATCTGGTTTTTGTTAAGGATGATGAAGCTAGGCTGACACACTATCTCGGTTCTCTCTTTAAGAAATGCTCCGGCGAACAAACGGCCAAACAATTTCTCGCTGGCCATTACGAGTTGAGCAGAGCCGACTTTTTCGGTATCACCAAGATATTACAGCGAAAGGACAACGCGGTGATGCTAGCTAATCAAATCGAAGTATCACTCGCATTCGACCAGCTGTGTGCGGAGTTCAAGAAAAATCCCAGGCACATGGCTATGATCATTCAAGGCAGCGCTGGCACGGGAAAGACTATTGTGGGACTGCATCTGGAATATTTGGCGGTCCAGCGCCATCTTATCCCTCTTCGAAGGACTATTTTTACATTCGCTAAAAGCAGGATGCTGCACAACATTTTAGGCCATGTTAACGCCGGCGGTAAAATGTAG
>SRR1151209_02589 membrane protein
ATGGAGATTCAACGACAGGTCGCCAATTATATGGAACAGGTGATGGATGCTTGTATCCTTGCTGGGCGGCTGATGATTGCCAATGGTTCCGAAATGTACCGGGTGGAGGACACCATGCGCCGGATCGCGCAGAATGCCGGGCTGAAGGAGCCGGTCATTTTCACGACGCCGACGGGTATTTTTGTCGGCTTGCAGGATCGGCCGCTGACTTCTTTGGGGACAGTGACTCAGCGGGTCTTAAACATTGAGAAGATCAGCCGGGTGAATAATCTCAGCCGGGAATTTGCGGCGGGGCAGATTGATTTCTACCAGCTTTATGCGGCGCTAAGGGATGTGGATCGGGCGACGCCGACCTTCCCGTTGTGGCTGCAATGTATCGGTGCCGCGGTGGCCAGCGCGTTGTTGATGATCATCTTTGCTGGTCAGTACGATTGGCTGGATATGCCTTTGGCGGCGGTGTCCGGCACGGCTGGGTACCTGGTGGCCTACTATCTGGGCCGCTTTACGAAAGTCTACTTTATTACCCAAACAGTGGCCGCTCTGGCCTGCGGAATCGTTGCATACTTGGGGGTCCGGTTGGGCCTCGGCCACAGCATTGATAACATTATCCTGGGCGGGGTCATGCCCCTGGTGCCTGGGGTGGTGTTGACCACATCCATCCGAGACCTGCTCGCGGGGGATCTGCTCAGCGGGATCGCCCGCGGCGTAGAGGCCATTCTCAGCGCCATTGCCATCGGTGTGGGGATCGCACTCATCTTCCGCTTCCTGATGTAG
>SRR1151209_02590 membrane protein
ATGCCGCTTTGGTTACAGTTTTTTGCGCAGGCTGCCCTGAGTTTCTTTGCTACCATGGCCTTTGCCCTCTGTATCAACGTGCCTCGCCGGGCGCTGATTCCCTGCGGCTGGTCTGGCTTGCTGGGTTGGATGGTCTATTGGGTCCTGTGGCAGCTGGGCACCGGCCGGATGCTGGCAAATGCCGCTGGCGCCGTCGTACTGGCGTTCTCAGGTGTCCTGTTTGCCCGTCATTATAAAATGCCGGCAATCATCTTTAATATTCCGGGCCTTTTCCCCCTGGTCCCGGGTGCGACAGCGTATCAAGCGGTCCGTGAGCTGGTCTTAGGCCACATCGATGAATCCATGCGCTTGGTAGTGCGGGTGTTGCTGGTGGCCGGGTCCATCGCCGTAGGCTTCATGCTGGCTCAACTGCTGGGCGAATTTTACAGTCGCTATCTCCGTGCCCGCTGGCGTCGGCGGCGCCGGACTTGA
>SRR1151209_02591 alcohol dehydrogenase
TTGAAAATTAAAGCAGCTGTTGTTGATCACCAGAACGGTGATTTTGAAATTCGCGATGATATTGATTTAGCACCGATGGGCGCTGATGATTTGCAGATTCATATGGTCGCTTCGGGGATTTGTCACTCTGATGAAGCCCTGCGGATTGGTGACGCCGTCATTGGCTACCCGATCATCCTGGGCCACGAAGGCTCTGGCATCGTAGAAAAAGTTGGCCCAGAAGTCACCCAATTCAAGCCCGGCGACCACGTTGTCCTCAGCTTCTACGCCTGCGGGAATTGTGAGAACTGCCTCAAGGGGATTCCCACCCAATGCTTGAACTATGCCCACAATAACCTGTCCGGCACCCGGCCGGACGGCAGCGCCCACTTTACCGAAAACGGTAAGCCAGTAGCGGATATGTTTGACCAAAGCTCCTTTACTACGACTACCGTTGTGCGGGAACGCAATGCCGTGAAGGTTCCCAAAGATATGGACTTGCGCGAACTGGGGCCGCTGGGCTGCGGCTATGTCACTGGATCCGGCACCGTACTGAATACCTTGAAGCCCAAGCCAGGCGACACCATTGCTGTCTTCGGCACCGGCGCTGTTGGTTTAGCAGCAATGATGGCCGGCCGGATTTCTGGCTGTACGAAAGTCATCGGCGTGGATATCGTTGATTCCCGGCTGAAATTGGCGAAAGAACTCGGGGCCACAGACGTCATCAACAGCAAGAACGGTGATGTCGTCAAAGCAATCCAAGACTTGACCGATGGCCGCGGCGTGAACTGGGCCGTGGATACCACCGGGGTGACCGCGGTGATGGAAGACTCCATCAAGGCCCTGGCTCAAGGCGGGACCACTGCCACGATCGCCGTCACCAAGCACCACATAAACGTAGATACATGGAACGCTCTGTGCGTTGACGACAAGAAGATCGTCGGTGTCAACATGGGCGATTCCATCCCGCAAATCGATATTCCGCGCCTGATCAAGTTCTATCAGATGGGCATGTTTGATTTCGATAAGACGGAGAAATTCTACAAGTTCGATCAGATTAATGAAGCCAACGCTGATTCTCGGTCTGGGAAGACGATCAAGCCAGTTTTGATCATTGATGAGGATTATGTACCGGGCAAGTAA
>SRR1151209_02592 acyltransferase
GTGGCGAAGAACTTATCCCCGCAAGACCGCACCCGGCTATTAAAAAGACCGAGTCGTATTAAACGTATCGCTGGCGTACTGGTCGGCCTGATCCTGCTGGTGATCATCAGCATTCCCGCTTACGATTATCAAAAAGGCGTCGTGGCTAACGCCCGGGTGATCCATAATTCCCGAATGGCGCCGGTCATCTTCATTCCCGGGTCCAGCGCGACCCAAAACCGGTTCGATTCGCTGATCAAAGAACTGAACAGCCGCTCCACGGGCCATAGTTACCTGAAACTCACGGTGCACACCGATGATTCCATCACAACCACCGGCGGGGTCAAGGCGGGTGATAACGAACCATTCATCGTCGTCGGCTTCGAAAACAACAAAGACGGTTACGCCAATATCAAGAAGCAGGCCCGCTGGTTCAGCATCGCCATGAAGTTCCTGCAAAACCGCTACCGCTTCAACAACTTTGTTGGAATCGGCCACTCCAACGGCGGTTTGATCTACACTTTGTATTTGGAAGAATACCTGAACCAGGATGACTTGACGATCAATAAGCTGATGACGATTGGGACCCCGTACAACCTGTCTGAAAAGAATATCGCCAACCGGACCGAAATTTTGTCCGATATGATCAAGTTGAAGTCTTCCCTGCCAAAAAACATCCAGATGTGGTCCATCGCTGGCACGGAGAACTATTCCGACGACGGTATCGTTCCTGTTGAATCGGTGGAAGCCGGTAAATATGTCTATCAGGATCAGGTACGCCAGTATACGCTGATCAACGTCACTGGGAGCGACAGTCAGCATTCCGATCTGCCCCAGAACCAAGAGATCGTGGGGTACATCCAGCAATACATGCTGACCAATCCCAACCAGAATCGGCTTGGCGGCAACCGGGGCAACCCCACTCAGCCGAGCAGCAGCAGTAGCAGCAGTAAGAAATAA
>SRR1151209_02593 cellobiose-specific PTS system IIC component
ATGTTCAGTCCGCTAGAAAACTGGCTGGCGGCCCGCTATTTACACATTCAGACTGTGATCCGCAAGAAAAAAGTCTATATCGCCGTGACGCACACTTTGGGCAGTCTGCTGCCCTTTGTGATCATCGGCTCTATGCTGCAGGCGGTAAGCCGCAGCATTTTTATGCAAAACGGCTTTTTTTACAGTATCTACCATATTGGCGAATGGCTGCCTGCCGCCCGGAGTATCGGCCAGGTGATGAACGCCCTCAGTGACATCACCATCAATTTCAGCCTGTTCCTCGGTGCCTTTCTTTTCGCCAAATACTTAGCCCGTCTCTATAATTTGAATGACGGCATCGTCGGCTGGGTGGCCATGCTGGCGGCGATGATTCTCCAGGTGAATCTTCTGGCTGGCGTCAGCCGGATCAATATCGGCAGTTCGCTGACGAACAACGGCGGCGGGGTACACAATATCTTTGTCGGCCTGCTCGTCGGCCTCGCAGCTACCCAGGCTTACCGCGGCTGCGCTTGGATTGCCAGTCACTGGCAGCATGCTCCCGCGACATGGCAGGAAGAAACTTTTGTTACCCGCGGTTTGCACGCGGTATTCCCCGTGAGTGTCGTGCTGGCCGTGGCAGTGGGGTTGTCCCTGCTGATCAGCCTCACTGGACAAAACGGCTTTGCCGGCTTGCTATTGTATTCCATCGCCCTGCCGCGCTGGGCCTTTTCCCACGCCATCGTGACCATCATGCTGATTACGTTGTGGAATAATGTGCTGAACGTGGTGGGTCTCTCTGGGCCATTATCGCCCTTCTCGCAGCTGACGGTTGATTCCACCCAATCGTCAAAGAATCTAACGGTGGCCCTGAAGACCGGTTCGCTGAACAACCTGCCTTACCGGGTCACGTTCCATACCGTCTATGACGTATACGGCGCCATGGGCGGCAATGGTATGACCTTGGCCTTGGTGGTGGCGATCATTCTGCTGTCCCGCCAACCAGATCGGCGCAAAGTCGGCTGGTGGGCGTTGTTCCCCACGCTGATGAACTTCAATGATATTGCGCTGGTGGGATTCCCAATCCTTTTCAACCCGATCTACATCGTGCCCTATCTGCTAGCGCCCCTCGTCAGCATGACCGTAGGCTGGATGCCCCTGCACTTCGGCTGGGTCCCGCCAGTGGTCTACAATACATTCAACACTGGCCCGGGCTTTCTCACAGCATTCTTAGGGACCAATGGTAACTGGGCCGCGCTGCTCACCAGTGTTCTGGCCTTCCTGGCCGGCTTGCTAGTCTATGTGCCATTCATTCGCATCGATAATCTAGCGTGGCTGCAAACCTTGACCGGCGAGCTGCCTACCCAACAACAAGAGGAGGCGAAGCTCAGTGGCGAAGAACTTATCCCCGCAAGACCGCACCCGGCTATTAAAAAGACCGAGTCGTATTAA
>SRR1151209_02594 hypothetical protein
ATGATTCACTTCACCACACCGCAATACGCCGCATTCACCGCCCTGAGCGAGGGTGGTCAGCGTCTGTGCGGACTGATTCTAGCTTACCAGAACAACGAGCACGAATTCACCCTGCCCCAGAACTGGCTTTGGCCGCAATTAGGGCTAGACCCTCAGCATCAGTCGGGGGTCGAAATCACCCAGCAGCTGCGCACCTGGAGCCAAGAATTGCGTCCTCTTTTCCCCCATTTTACCATGCGGGTGGGGGATAACGATATTCCTTCGGGCGATACCGTCGTGACGATTACTTATTAA
>SRR1151209_02595 deoxyribose-phosphate aldolase
GTGACAAAACCACTGAATAAGTACCTGGACCATACGATCCTGAAGCCGGAGGCCACCGAGGATCAGGTGCGCACCGCTATCGCCGAGGCCAAGCAGTATGACTTTGCATCGGTCTGTATCAACCCGTATTGGGTCAAATTGACCCACCAGGAATTGAGCGGTACTGACGTCAATGCCTGCACCGTGATCGGTTTCCCCCTGGGGGCAACCACGACGGCCAGCAAGGTGGCCGAGAGCCAGCAAGCTTTGGCGGATGGCGCCGACGAGCTGGACATGGTGATCAATATCGGGGAATTGAAAGCGGGGCACACCGCAGCGGTGCAAGCGGACATCCAGGCGGTCGCTGAAGCGACCCATGCCGGTCATGGCCTGTTGAAAGTGATCATTGAAGCAGTGCTGTTGACAGATGATGAGAAAGTTACTGCTTGCCGGTTAGCCGAAGCCGCGGGGGCAGATTACGTGAAGACGTCCACCGGTTTTGCCAGCGGCGGCGCCACCGTCCATGACGTGCAGCTGATGCGTCAAACGGTGGGCGAGCGCCTAGGGGTCAAGGCGGCCGGCGGGATCCACACCAAGGCGGATGCCTTGGCAATGATCAATGCCGGGGCGTCCCGGATCGGGGCCAGTGCTTCGGTAGCGATTGTCACGGCCAAGGACTAA
>SRR1151209_02596 phosphopentomutase
ATGACGGGAGTTAAAAAGTATCAACGGGTCTTTGTCATTGTATTGGATTCTATTGGTATCGGGGAAGCCCCCGATGCAGCCAAGTTCGATGATGTCGGGTCCGACACGCTGGGGCATATTGGCGAATTTTTCCAGGGCCACTTAGCGATTCCCACGTTGGCGGCACTGGGTCTGAGCAATATCCGGCCGGATAAGCCGATTGCCGGCGTGCCGGTGCAAGCCCGGCCGCTGGGGTATTTCGGCAAGATGGCCGAAGTGTCCGCCGGTAAAGACAGCATGGACGGCCACTGGGAAATGATGGGTCTGCCGGTGACTGAACCGCTTGGTTTCTTTCCGAATGGCTTTCCGGCAGAATTGATCAAAAAGATCGAGGATTTCTCCCACCGCAAGGTGATCGTCAACAAGCCCTATTCCGGGACTGACGTGATCCACGATTATGGGGAAGAACAGATGAAAACCGGCGACTTGATCGTCTATACCTCCGGCGACTCGGTCCTTCAGATCGCGGCCCATACCGATATCATTCCCCTCAAGGAACTCTATCGGATCTGTGAATACGCCCGCAGCATTACGATTGACCAGCCGTATCGCATCGGGCGGGTGATTGCCCGGCCGTACAGCGGTCCGGATAAGGACCATTTCGTCCGCAGCAGCGATCGCCATGACTATGCCCTGCCGCCCACAGGAGAAACCGACCTGGATCGCTTGCAGCAGGCCGGCTACACCACGCTGGGTATCGGTAAAATCAACGATATCTTCTCCGGCCAAGGCATCACCAAGGGCTGGCACAACGCGTCGAACATGGATGGCATGGATCACGTCCAGCACGTCGTGACGAATGAAGACTTCACCGGCTTCGCCTTTGCCAATTTGGTGGACTTCGACGCGATGTACGGCCACCGGCGCAATGCCCAGGGGGATGGGGAAGCCTTAGAGGCCTTCGATGCCCGGCTGGGCGAGATCCTGCCGGAATTGCGGGCCACAGATCTGTTGATGATCACCGCGGACCATGGCAATGATCCCACCTTCAAGGGCACCGACCACACTAGGGAATTTGTGCCGCTGCTGGCCTATTCCCCCAGCATGACCAGCTTTGGCAGTCTGGGCATCCGTTCCCCGTTTGCCGACCTGGGCGCCACCATCCTCGACAACTTCAGTGTGCCCGGGAACGGCATCGGCCACAGTTTCTTGGATCTCCTTCACTAA
>SRR1151209_02597 purine nucleoside phosphorylase
ATGAGTACGCATATTGCTGCGAAACCCGGCGAAATCGCCGACATCGTTCTACTCCCCGGCGACCCGATTCGGGCCGAGTATATTGCCCAGAACTTCCTGACTGACGCGACGCGCTACAATACCGTGCGCAACGCCTGGGGCTTTACTGGGACTTACCAGGGAACTCGAATCTCGGTCCAGGCCACCGGGATGGGGATGCCGTCTATCAGTATTTACGTCAATGAATTGATCAACGACTACAACGTCCACACTCTGATCCGCGTGGGGACGGCCGGCAGCATTGACCCTGATGTCAACGTGCGGGATATCGTGCTGGCCCAGGGGGCATCGACGGATTCAGCCGTGGTTGACCATACCTTCAGTGACCGGATCCACTATGCCCCGCTGGCAGACTTTGATTTGCTGGATAAGGCGTACCACGTGGCGAAGGATGCCGGCTACAGCATCCACGTGGGCAACGTGCTCAGCGAGGACCAGTTCTATGCGGAGGGCAAGGATTTCCCGCTGTGGCAGGAATACGGCATCAAGGCGTTGGAAATGGAATGTGCCGCCCTGTACCTGATCGCGGCTAAATACAACCGCCGCGCTCTGGGCATCTTGACCATTTCCAATAACATCCTGACCGGTGAAGAAACCACCGCAGAGGAACGGGCCCATACCTTCGGCGACATGATGCACGTGGCTTTGAACGCCGCGGTCGCGCAGTAG
>SRR1151209_02598 hypothetical protein
ATGGGCTCAGCCGTGCAACCACACGGCGGCTTGCCGCCGATGTGGTTAGGCGTGTTTGAGACGGCGCTTTTGCCGGCTCAAACCGCCGTCACAGCGTTCCAGCCCATTTTGCCGTAG
>SRR1151209_02599 major facilitator superfamily transporter
TTGGCAACAACAAATTACGTAGACAATCCCACGGTGCAAAAACATCGCTGGTGGATTCTGACGGCCGTGGGACTATTCACCTTCATGGCTACTCTCGATGGCAGTATCGTCAATATCGCGCTGCCTGTTATCAGTAACGATATGCATATCATGACCAACCAAGCGGAATGGATCGTCTCCATCTATCTGCTGACGATCTGTGCGCTTTTGCTCTTATTCGGTAAAATTGGGGATAGTTTCGGCAAAATTCGAGTCTTCCGCGTCGGCACGGTCTTGTTTACCATTGGGTCGCTGCTCTGCGGTTTTAATCATTCGCTGCTGTTCTTACTGGGCGCGCGGGTTGTGCAAGCCCTGGGGGCCAGCATGACCATGAGTACCAATAACGGCATCATTACTGAAGTCTTTCCCATGCGTGAGCGGGGCAAGGCACTGGGGCTGATCGGCTCCTTCGTCTCCCTGGGGGCAATTGCCGGGCCGGGGATCGGCGGGTTGCTGTTGGCGCAGCTGCCGTGGGCTTATATTTTTTGGATCAACGTTCCCCTCGGTCTGTTGACGATTCTGCTGGGCCATTTTATTTTGCCAAAAGACATTGCCCGAGAAAATCGGCCAATTGATTGGCCCGGCGCGATTACCTTTGCCATCGCGATCGTCAGCTTGTTTCTGGCAATCTTCATGGGCCAGGCCGTGGGCTTCGCGAATGGGCTGGTTTTAGCGTTGTTTGCCGGGGCTATTCTGATGTTTGGTCTGTTTGCTTGGATCGAGCAGAAAAAGGCCATCGACCCCTTGCTCAGTTTCCACCTCTTCAAGAATCTAGATTTTTCAATGAGTTTGTTCACCGGTTTTTTGATCTTCGTCGCCAATTTTTTCTTCAACGTCATTGCCCCGTTTTATCTGCAAAACGCCCGGGGCTTGGCGCCGAACATGGCGGGGTATCTGCTGATGCTGTTCCCGATCGTGCAGGTGATCGTATCGCCCATTTCCGGATCGCTGCAAAACCGTTTCGCCCCGGAACTGCTGACGACAGTGGGGCTGGTTATTTTGACCTTGAGTCAAGTCGGCTACATCACCGCGACTTTATCCACGCCGTTATGGCTGTTTGGTTCGTTGGTTGGCGTCATGGGCTTTGGCAATGGGGTCTTCCAGTCGCCGAATAACACCATCGTCATGTCCACCGTCTCTCAGCGGGATCTCGGTGTGGCCGGCGGGATGAATGCGTTAGCTCGGAATCTGGGGATGGTGGTCGGCATTTCGGCGTCCACCACGGTCCTGTTTTCCGCCATGAGTCAGGCGTACGGCAAACCGACAACGACCTACATTAACGGCCGTCCAGATATTTTCCTGGCAGGGATGCATACGACATTGATCGTCGCGTTCTTTATCTGTTTGGTGGCCACGCTGATCAATCTGTGGCGCTATGTGCACAGTCGGGCCAAGGCAAAATAA
>SRR1151209_02600 hypothetical protein
ATGAGCGGATTAACGTATTGGCCGCTGCTGCGCGGCCGACAATTCGACCTGTTGGCGCTGCAGTTATTGACGCAGGAAAACCTGCTCACGGACCGGATCGTGCCGATTATTGAACCGATCCGTGATGCTGCGGTCCTGCCCCGGCTATTGAAACTGCGCAATCGCGCCGGGCTGCCCACGGTCGTGATTCAGAACCCCAGCGTCGGCACTTACGGCTTGGATAATCAAAAACGGTACCCGCTGACCGCCGCCCTTGCCGATCCCCAGATTCTGCAAGGCTGGTGGTGGCGGCCAGAGTTGGCGGTCCCACCAAATCAGGTGCTCTTGCTGGATGACCCGCAACTGCTGCCGCCCGCGGCCATTATCCGGCAGGCCCGGTACCTGGTAGTGCCCAGTGATCCTCGGATTTTACATGCTGTTCAGCATCCCCGGCGTATCTTTCTCCACGATCCTTGGCCCCGGGTCTGGCGCACCCAAGAATTCGGCCAATACGCCGATACCCCGCTGCTGGCCGAACAGCATTGGGCAGCGGCCCACGGTTTCGTCGGCATCAGCGACTATTCCCTGAGCGGCGCGCCCTATTTTGACAAAGGCTGGGCCCAGGGCACGATTGCCCTGCACATCGCCTACTTCCGGGACGGCGGCGTCTGGCTCCACCATTTCCTGCCCCCCGCCGCCAGCGGACCGCAGGCGGTACAATTTCAACGGCTCCAGGCCGAACTGCGCCGCTGGCTGGCTTCCCACCGGCACAGTATTCTCTGGGATGCGCCGCTGCGGGAATTGCTGCATTACGGCGACATTGACCACTATCCCGGATTGGGCGTCATCAAAAAGCTCAGCGTCGCGCACCAGATTCTATCGGTGCAGCATGCGCTGAGCTGA
>SRR1151209_02601 hypothetical protein
ATGACGAAAACCGCCCTCACCCTGGATCTTGAACATACCCTGTACGGTTACTGCCGCGACGCCGGAGCGGCAGTCGTGGAAGAGGTGACCATGCCGGACAACAAAGGCATCGTCGACACCCTAGCCTGCCAGCTGCTGGCACCGGGACAATTCGAATGGCGTTGTTATGAGTTAAAGGTCACCAAATCTGACTTCCATTCCAGCGCCCAGCTGTCTTTTGTCGGTCACTATAATTATTTTGTGCTGCCCCTGGCCCTCTATGAGGAGGTGGCCGCCGAAATTCCCGCCCACGTCGGCGTGCTCGTGTATCGGCCTTATGAGAAAGCGGACCCGACGCAGGTGGCCACGCCTTATCCTGGGTATTTGACCATTGTCAAAACCGCCCGCCAGCAGGAATTGCAGGTGCCCGCCGACGAGCTGCTGGACCGCTTTCTCCATTCCTTGACCCGGGAAGTGGATAAGGCCAAGCGGATGGATCAGGGCCTGCAGGGCTTTGGCACCGACCAGCTGTACCGAGAACTCAAGCGCCGGGCCAAGCTCACCGATCCGCTCTACCCCACACCCCATTATTACAACCGGTTCCTGCAGGATCTGAATCAAGAGGCAATCACGGATCTGACGGATCAGGCCACAGCGCTGAAGGCCGACAATGCCCGCTTGCGCCGGGAGGCCAGTTATTGGCGCTGGCGTGCGGGTCAGGGGCGGCTGCCATGA
>SRR1151209_02602 DNA helicase
ATGGCGCAGCGCATTGGCGTACGGGAACTGGTGGAATTTGAATGCAAGTCCGGCGACCTGGACGCCAGTCAGAGCAGCACCAATACGGCTCTAGAAGGCGCCCGCATTCACCGGATGCTGCAAAAGCAGGCCGGGCCCAACTATGAGAAAGAGGTCACGCTGAAGGCCGCGGTGACGCTGGCCGGGGAGGACTACACGATTGACGGCCGGGCCGACGGGGTGGACCAAGACGACGCTTCCGGCCTGACTATCGTGGATGAAATCAAGACCAGCGCCCTGGACTTCTCTGAACTCAGCGATGACGCTCTGGGCCGCTACTGGGCGCAGGCTGCCGTCTACGGCCATTTTTTGTGTACCGCGCGCCAGCTGGACCGGATCATCCTTCAGCTGACCTACTACCAGACCACGACGAAGCAGATCACCCGCCAGCAATGGCCCTTGCCCGCCGCCGACTTGGCCGAGTATTATCAGGCTCTGCTTCACGATTACGAGGGCTGGGTCATTTTTCGGCACCAGCTCAAACAGGAGCGGGATGCCTCTTTGACACCGTTGACCTTTCCCTTTGGCGACTTTCGTCCGCAGCAGCGGGAATTTGCGGCGGCGGTGTACAAGACGATCCATACCCAGCAGCGGTTGTTTGTTCAAGCCCCCACGGGCACCGGCAAAACCATGGCGACGCTGTTCCCCGCCGTGAAGGCGATGCCCGCCGAGGGATTGAACCGGTTGTTTTATTTAACCGCGAAAGAAGCGACCCGGCAAAGTGCCGAGGACGGGTGCCGCTTGCTGATCGACCAGGGAGCGCAGCTCCGGTGCATCACGCTGACGGCGAAGGATAAGATCAGTTTTTGTCCGCCGGAAAAGCGGACGCCAGACCTGTGTCCTTATTATCGGGGCTACTATGACCGAAACAAGGCCGCGGTGAAGGACATCATCAGCCACGAACGACTGCTGGACCGGGCGACGATCGAGCGCTACGCCAAGAAGCACACGGTGGATCCCTTTGAACTGTCCTTAGACGCCGCCCGCTTCGCCGACGTGGTGATTTGCGATTACAACTATCTCTTTGACCCGCTGGTTTTTTTGCAGCGGTTCTTCGCCCAACCGGATTCCAGCCAGTTTTTCTTGATCGATGAAGCCCATAATCTGATTCATCGGGCCCGGGATATGTATTCAGCGACGCTGACCAGTGCCGGCTTAAGTCCGCTGGCCGCCACGCTGCGCCAGCACCACCAGCGGGAAGCCAGCAACGCCCTGCGTCAATTGCGGACTGCTTTTACCGCCGTGGGTAAAGCATTGACCGCTAAGGAACAGAATGAGTGGGTCAGCGTTGAGGCGTTGACCGAATTTAATCAGAAAGTCGCCCGGTTCGTGGAGCGGATCCATGAATGGCTGCCCGGTCAGCCGGCAGATGAGGATATCCAGGCTGTACTGCCAGTGTATTTTGACTGTATCAGTTACAGCCGGATCGCGGAACTCTATGGGGAGCAGTACCGAACGGTGGTGGAACGCGAGCACCAGCAGGTCCGGATCACCCAGCTGTGCCTTGATCCAGAACCATTCGTTGATGCCTGTCTGCATAAAGGCCGCGGGGCGGTGCTGTTTTCAGCCACCCTGTCGCCGCTGACCTACTACCAGGAACTCTTAGCCGATCCCGCCGACAGTTTGGTTTACCAGCTGCCCTCCCCATTTCCGGCAGGCCATCAGCTGGTGGTCATTCGGGACGATATCGCCACCACGTATCAGCGGCGGGCGGCGAACGAAGCACGGATCGTCGCCGCCTTGGCGGCCTTTGCTCAAGCCCGAACGGGGAATTACCTGGTGTTTTTGCCTTCGTATCATTATTTGGAACAAGTTTACATGGCCTTCTCTGCGGCATACCCGGAAATCACCGTTTTCAGCCAAACCGGCGGGATGGCGGCGACCGATCGAGCGGCCTTCTTGGCCCACTTTCAACCCCACCCCACGGCCACCAGCGTCGGTTTCGCGGTGCTGGGCGGGTCCTTTGGCGAGGGCATTGACCTGCCCGCTGACCGCTTGATCGGCGTCGCGGTGGTGGGCGTGGGCCTGCCTGGGTTGTCGCTGCGCAATAATTTATTGAAAGCATACTTCAACGCCCGCAACGGCCAAGGGTTCACCTATGCCTATCAACTGCCGGGCCTGAACAATGTCCTCCAAGCCGGTGGCCGGCTGATTCGGGGCATGCACGACCGGGGCGTGATCCTGCTGCTGGACGAGCGTTTCGCCCAGCCCCGCTATCAGCACTATCTGCCCCTGTCCTGGACCCGCAACCTCCGCCTGGCCCACACGGATGACCAGCTGACGACCCTGCTGACTGACTTTTGGAAGGAAGATCACGATGACGAAAACCGCCCTCACCCTGGATCTTGA
>SRR1151209_02603 alpha-galactosidase
ATGATTGAAGAAAGACAGCACGTATTCTATATCACCACCGCCCACACGTCGTATTGGTTCCGGGTCACCGCCCACGGTCAGCTGGAGCACTTGTATTATGGCCCGCGCCTAACGCCCCAGGATCCCACCGCCGTGGCCTTCAAACATACCAGCGGCCTGGGTAGTACCGTGGCCTATGACGAGCAGGATTGGACGTATAGTCTGGACACTTTGCCCCAGGAATACGCCGGCTTTGGCCGGGGTGATTTCCGGGACAGCCCGCTGATTTTGAAGATGGCTGATGGCAGCTATGTGTCGGATTTTGTCTATCAAGAGCACCACATTTACAGCGGTGTTGCGCCGTCAAAAATCCTGCCCCAGGCGACGGATCAGCCTGATACCGGCAGTCAGACGCTGTATGTTACGCTGCGGGATAAACTGCAAGCCATCACGTTAGAACTAGCCTATACGGTTTTGCCCGATAGCGATGTGATTACCCGGCGGGTGGTCCTGCATAACAATACGGCCAAGCCGCTGGTGATCGACCGCATCATGAGTGCCCAGTGGGACATGCCCAATCGCGGCTACGCGCTCCACTCCTTCGCCGGGGCGTGGGCCAGCGAGATGCAGCACCATGTGCAGCCGGTCACCGACGGCACGATCGTGTTGAACAGTCTCACTGGCGGCAGTTCCAACAAGCAAAACCCCGGCTTCCTGCTCAGCGCCGCGGAGGCCACGGAAGATACCGGCTGGGCGTATGGCGTCAATCTGCTGTACAGCGGCAATCATGAAAGTCGCATCCAGCACACGAACCAGAATTTTGTGCGGCTGATGACCGGCATCAACAGTCAAGGCTTCCACTGGTCGGTCGCGCCGGGGGAAGCATTCGAAACCCCCAGTGCGGCCCTGACGTTTTCTGATCGCGGCTTGAACGGTGTTTCCCAGCACTTTCACAAGTTCATTAATGATAATGTTGTACCGCCCGCTTTTCAACATCAAGACCGGCCCATCGTGTACAACAATTGGGAAGCGACGTATTTTAACTTCAATGAAGATAAGCTGTTTGCGCTGGCCCAGCAGGCCAAGGATCTCGGTGTGGAGCTCTTCGTGATCGACGATGGCTGGTTCGGTACCCGGGACGATGATACCCAGGGACTGGGGGATTACACGGTCAACGCCCGCAAGTTCCCCCATGGCTTACCAGCGTTTGTCCAGCGGGTCCATGGGTTAGGGTTGAAAGTCGGCCTGTGGTTTGAGCCGGAAATGGTTAACGAAAACAGCGACCTCTACCGAGCGCACCCGGAGTGGGCGGTGCATGTGCCCGGCCGGGCGCCAGTCTTGGGCCGCCATCAGCTGGTGCTGGATCTGACCCAGCCAGCCGTGCAGGACTACATTGTCCAGCAGGTCAGTCACGTCATTGACACCACAGGTATTGATTACGTTAAATGGGACATGAACCGGCACATCACCGACATGTACTCGCCAGCGCTGGCGGACAACGCTGAGTTCAACCACCGCTATATCCTGGGCTTGTACGCGGTCTTGCGCCGGATTTTCCGGCCGCGGCCGCAGGTGCTGTTAGAAACCTGTTCCTCCGGCGGCAATCGGTTCGACCTGGGGATGCTCACTTTTGGCCCCCAAATCTGGTCTTCCGACGACACCGATCCCATTGAACGACTGACTATCCAGCAGGGGTTAAGCTATCTTTATCCCCAGTCGGCCATTTCCGCCCACGTGTCCGCTTCGCCGAACCAGCAGACCCTGCGCGTCGTGCCGTTGTCCACCCGGGGCAATGTGGCCAGCTTCGGGGTGCTGGGTTACGAAATGGATCTGAATGCGTTGACCGACGCGGATCGGGCGGAAATTCGCGAGCAGACGGCTTTTTATAAACAGTATCGGCATCTGCTGCAGTTCGGTACGTTCACCCGCCATCCGGCCGCTCAGCCGCAACAGTTCCGCTGGCAGGTCCAGGCCGGGGATACGGCAATTGCCGGCTTTTTCCAGCAGCATATCAGTGCGGCCCACGGGTATGACTGCCTGCCCGTGACCGGCTTGGCCCCGGAAACGATGTATACCATGGCGAGCAAGCCTCAGCGCATCATGCTGAGTCAGTATGCCGGGTTATTGGATCATCTGCCGGCTGCCCAAGGCCGCACAAGCATTCCGGATGCCCAGGAGCACTACACAGGGACCGGTGCGCTGCTGGCCACTGGCGTGATGCTGAATAATCAGTTTATGCTGTCAGGGTATAGTGATCAGGTGCGGATGCTGGGGGATTATGGGTCGACGTTGTATGTGATTCAACCGGAACAGGAATAA
>SRR1151209_02604 multidrug ABC transporter ATP-binding and permease protein
ATGTTTTATTACTTTAAGAAATTCTGGTTCCGTAATCTGGTATATCTGATGATCGCCGCGGTCCAGGCCAGCTTAACGATCGTTACCGCCCTCTTGGCCGCTGCGGAATTGAATGCCCTGATTAAATTTGATTTCAACGGTTTTCTCAAATGGACCTTGCTGGATATCGGCGCGTTCGCCCTGCTGCTTGGGATGAACTATGTGGGCGGTGTACTGCAGGCCAAGACGATTCAAAAAATGGCGAATGCCCTGCGCCGCGATATTGGGACGAAATTGAGTCAGCTGCCCTACAGCGAATACCATGCCCACCAGGCCAGCGACTATAGTTCTTGGCTCAGCAACGACATCAACCAAATCGAGGTGCAAGGCTTTGCCAACGTTTACGAAATGGCGGGCAGTATTCTGACCGCGGTTTTCTCCATGATCACTTTGGTCGCCCTGCATTGGGCCCTCGCCATCGCCACGGTGGGCTTCGCCGGTTTAATGATTGCCGTCCCGCTGCTGGTCCAAAAAGCCATGGCCCATGCCAGCTTATCCGTGACGGAAAAGAACGCGGCGTTTTTGCAAAAAGTCAACGATCATCTGAATGGTTTTGACACATTATTGGCCTTGAATCACCGGCACCGTTTAGTCGACGCCATCACCACCGCCCAGCAGCCGCTGGCGGCGGCCAAAGTAAAACAAGCTAAAGTCCAAGTGATTGCCGGCATCTTGGGCGGCATCACCAATATTCTGGCCCAGGTCGGGATCATCTTTATTACCGGCCTGCTGGCTTTGCAGCATATTGTCCCCGTGGGCATGATTATTTCCACCGGCAATCTGTCTTTCCGGGTCTTCGGCACCTTGGCTGAGTTGTCCACCATGATTGCCATGGTCCGGGGAACCAATGCCATCTTTGCCAAGTACAACGACCTGCCAGCGCCGGCAGAACCAGCCAAGACAACACTAACGGCGCTGCACAGCGGCATTGTCTTGACGGATCTGACCGTAGCCTACGGTCAGGCTCAACCGGTCATCCAAGATCTGCAGCAAACCTTCCGGCTCGGCGGTAAATATGCCATCGTCGGTCCCAGCGGCAGCGGTAAATCCACGCTATTCAACCTGCTGGCCGGCAAACTCACCGCGTATCGCGGTTCATTAACGCTGAACGGGCAGGAATACCACGATTTGGATCCCACCGCGATTCGCGACCACGTCATGTATTTGGATCAAACGCCTTATATTTTCTCCGGTAGCGTGCGGGACAACCTGACGTTGGGCGATGACTATAGCGATGCCGAGTTGATTGCTGCCTTGCAGCAGGCGGCGTTGTGGGACCAAGTCCAGGCCCTGCCGGCAGGGTTAGACAATAGCGTGGGGGAAAACGGCCGCAACTTTTCTGGTGGTCAAAAGCAGCGGCTAGCCCTGGCCCGGGGTTTTCTGCGGCACAAGCAGATCATTCTGATGGACGAAGGTACGGCGAGTTTGGATAAGGATCAAGCCTTGAAGATTGAAGAAACGCTGCTGAACGATCCCAGTTTAACGGTGCTGATGATCACCCACCAACTCTATCCTGAAATCACCAAGCAGCTGACAGCAGTGCTTGAATTGCAGCCGGCAGCGCCGGCGATCGCCGCTGCGCCAACACTGGCGACGGCTTAA
>SRR1151209_02605 transcriptional regulator
ATGGCACTCGATTCACGGTATGGAATTGTTGTTCGCGAGATGCGGCAAGACCGAAATCTCACAATAAATTATGTTGCTTCCGGCATCATGTCCGTCTCTGGGCTTTCCCGGTTTGAACGCGGCGAAGTGATGACCACCCTGGAAAACTTAGTGAAACTGTTGAATCGCATGAACATCAACATGACTGAGTATCTGTACCGGGTCAATCGCCACCTATGGACACCGTCCATCGTTTTCTTCAGAGAACTCACCAACGCCTTGCGGGCTGGTAACAGTGCCAGAATTAAAGAATTGGCTCAGTCTGAGAAAGAAAAAATTGTAGCTGCTGATGATCCTAATGATCAGTATCGGTTAAACACCGTCGTTGCCGCGGCTGCTCTGGCTATTTTGGATGGTCCCGATCCGTCCTCTGATGACATCAAGCTAGTTACTGACTATCTATTTAATACGGAAGACTGGTTACAGTATGAGCTCCATCTCGTCGGCTTTATTCTCACCTATTTGGATGCGAAGCAATTGATGCGGATATCCCAATCCATATTCCGGCGCGCTTCAGAATACCTGAAGATGGTAGATAATGCTCAAAGCGCGGCGGAGGTCGAGCTCAACATCCTGGCTCTTTTGCTGCACAAGCGATTGCTCGACGAGGCAGAAATTCTTATCCGCCGTCTTGACGAGAGCCGGCTGACAACGCGTATCTCCTCGGAGCTGTTTAACTTTTCCAGTTTAGTGGCGGTGTACCACCAACTCCGGCAGAGCAATCCCAGCATCACGGATGCTAACAAAGAATTTGCGGCTGATGATGCTGTGATGCGATCACACAACCTCGTTGGCGACGCGGATGGGCTGAAACACCAGCGAGAAATAATCATAGCGGGCGACTAG
>SRR1151209_02606 MutR family transcriptional regulator
ATGTCATCCATTCCCGCTCCCGCATCCGCATCACTCGGCAGTACCTTTCGCACGCTGCGTCAATCGCGCGGCCTGTCCATGAACCAAGTCGCCCGCGATATCATTTCTACGTCAGGTTTAGGTAAATTCGAACGGGGCGAGGGGTCCATTGGCCTTGAAAAGTTTTTACCGATGCTGGATAGAATGAATATCACCATGGCTGAATTTATGTATCACGTCAATCACTATCAATGGACGCCTTTCATTCGCTTATTCGATCAATTGACAAAGGGCGTCACCCAATCTGACATAACTGAGCTCAAACGGCTGCAAGAGGAAGAACGTGCCGCAATTATTGAACCAAATAGTCCGTTGGATCAGCACTGGCTGAATAGTATTGCGGCAGAGTGTGCTGTCGGCTTAGTTGACGATGACCAGCCGCCACTGGCCGCAAACGTCACAGCAGTCATGGACTATTTACTGGGCATCACTAACTGGATGCAATATGATTTGTACCTGGCTGGCTTTGTTGCCTATTTCGCCGGCCCCGATGTGTTGGGATATGTAGCGGACACCATCTTCGCTAAAGTGATGAAATACAAAGACGTTATGGCCAATGATGAAAAAACCACCGAAATCGTGTTGAACGTTTTGGCCATCTTTCTCAGCATCAATCGCCTAGATGAAGCCAGTGATTTGATTCAGCGTATCGAACACACGCCGGGTACCCGTCACCTTACAGATCATACATTTCACTTTGAAAACTTGAAGGCCGTTTACCAATATTTGCTCGGCAACGTTGATGAGGCTAACGACTCCTTCCGGTGGATCATTGCGAGTATGCAGCGGCTGCATCTCACACCTGAGATCAGATTTATCGAACAGCAGCGCGAAAGACTTGTTGGGAAGCTTACCAGTCTTTGA
>SRR1151209_02607 muramidase
ATGGGAAAAATTGCAAGAACACTGACTATCGCAGGAGCGGTTCTGGGCTTAGCCCTTGTTGCGCCAGCCGCGCCGGCATTAGCGGTCAGCAGTACCAGCACGGGCGTGGTGAATCCGACTAAGGAACAGCCCTGGTACCAACAATATCAAGCGACACCATTAAGTGCCACCATCGACATCAATTATGTGCCGGGCTATGGCGTGGCTGTCTGGACGGCACCGGTTGGGGGTCATACGATCCCTGGCAAGTTGCTGATGACCGGTACGAAGTGGAAGACCGTACGGACGACCAAGGTCAACGGGACTGATTGGTATGACTTGGGCGGCAACCAATGGATTGCCGCGCCGTATGCCCATGTGTACGGTGCACCAAACAGCACCACGGAAATTGCGACCAGCAAGGTAGCGACGATCAACTACGTGCCTGGCTATAGCATCGCCGTTTGGACATCGCCGAACAACGGCACCCGCGTGCCGGGCAAGATGCTTAAACACGGCACTGCTTGGCGGGTCGTGGGCACTTTGAATAACGGTGAACTGTGGTACGACTTAGGCGGCCATCAGTGGATCCAAGCCCGTTACACTAAATAG
>SRR1151209_02608 membrane protein
TTGATCACGGGGCTATTACTGAATGCCATGGGCCAGGGCTTGTGTATTGTCGGCGCTATGGGCAGCGGGATTTGGACCGCCGCGGCGGTCAACCTGAGTGCCTGGCAGGGCTGGAACATCGGTATCGTGCTTTTTGTCAGCGGCGTGTTCAGTGCCGCCACGAATCAAGTCCTGATTCGGCATATTGATGTCCCGCGCTTCGTTGCTGAAGTCATCTACGCCATGTTCTACGGCTATTTCGTCAACATTTTCACCTGGCTGTTCACCATTCTGGGGATAGGCAGTTGGCCGCTGCTCGCCCGGACACTTGTCTCCTGTTTTGGTGTCATGACCTTTGGCATCGCCATTTCGTTGTATCAACGAGCCAACATTATCATGCACCCCAATGATGACACCAGCAACATTCTCCGTTTCCGCTACTTGCACGGCAACGCCACTGCGTCACAGTTAGTGGATTTCATCCCGCCCATTATCGTCACAGCCATCGCTTGGGCGTTCTCCGGCAAGCTGCTGGGAATTAATGTGGCAACTGCCTTTTCGATGCTCTTTAACGGCGTGATCATTGCTTGGTCAGACGAGCATGTTTGGCCGCATTTGCGGCATAATTTTAAAATGACACCGCAACACACCGCCCTGGCAGGTAAAAAATAG
>SRR1151209_02609 hypothetical protein
ATGAATTTCAAAGGCATCGAGCAACTGATTAAAGAAATGGCCGATATGGCATCTGTAGCGGACTATATTTCTTACGATACTGGTGTGCCTTTGTTTTTGACGATTATCGTGCAAAATGATGCGGAGACGGGCATCTCTATCCAGTCCTTTCTAGCGCTTGAACGTGTATCGGCCTGCTTAGGCTTCTATGGCACGCCGTTCCAAATGACCCACGAGGCGGCTGCGAAAGACCCGCAGCGGATCATCGCAATTCGTTTCCGTATTCGGAGCCGCGACGTCCGAGTATTAGAGGCAAAAATTCAGTCTGGATATCAAGAGCAAGCACGGCGCTAA
>SRR1151209_02610 multidrug ABC transporter ATP-binding and permease protein
TTGATTATCTGGAAATATGGTAAGCGAAATCAATTACTGCTTTATGTACTGGCTTGTATTTCAGGCAGTATTGCTAACGTTGGGTTGGCCTGGACAGTGACGCGCTTCATGGCTGCCGCGACCCATCGGAGTTTGAGCCAATTTACCCATAGTGCAATTATTGGCCTTGGAATCTTTATATTACTAGGTGTCTTCTCTTGGCTTATAGCGATTCTAAAAGCAGCGATTACTGAATCCACCAATGTCGCTATTAAATCGGTCATGATCAAGTACATGGTTGATAAACAACCGCTCACGCGGGATAGTGGTCAGCAAATTTCTTTCATGACAAACGATTTGAAGATGTTGGAAACCAACGGGGTGACGAGTGAATTAACAATTATTGAGCAGGGTGTCACTTTCCTCGGCGCGATTGTTGGTTCGCTTTACTTTGACTGGGTGCTGACCTTAGCCTTTCTTGTTGGCAATATGATGCCTGTATTAGCCACCACAGTCATGCAAAAACGGGTTAAAGGCGCCTCTAAGCAATGGTCGAAAATCAACGCTTCTTGGACTGGACAGCTAAAGGACTTCTTATCTGGACTCGACACCGCCCGGGCTTATCAAGCTAATGACGCTGTCAAACAGCGAACAAATTCACTCGCCCAATCATTGGAAAAAAGCCTTTTCCACTTAAACTTCACCATTGGCACGTCACAATCGTTGGCCTTGCTGGTAGCCTTGATCTTTGCGATGCTGCTCCCCTTTGGCATTGGTGTTTACCGCATTATTCTCGGATGGTCTTCTATCGCAAAGTTTATGGGCGTTATGCAGCTATCAAATGATATCAGTAATCCCTTATTGCGCTCCGTCAATGCGTACACCCAATGGGGGGCTGCTAAGCCTATTCTGGCCAAGATTACCCATGCCCAGCAAGTTGATCAGCAACCAGCGTCAACCGGTCTTCCTGCTCCTCAGGACGCCCCTTTGACGGTCCACGATGCTGGCGTTGCTTTTGATCACAAACTAGTCTTCAACCATCTCAACGTTACCATCCAGCCCGGTGAAAAGGTTTTGATCATGGCGCCTTCCGGTTATGGTAAATCAACTTTTTTGCGGGTTCTAGAAGGTGAAATTCCTTTAGTCCATGGCAGTTATCAACTGGGGCAGACCGCAGCAACTAAGATTGACAAGACGGCATTGCGCAAACAATTCAGCTTAGTGAAGCAAGATCCTTTTCTTTTTAATGATACTTTAAAGTACAACATCACTTTGGGCCATCACTTTGCTTTGAATCAAATTCAAAGCGCTGTAAAGAAAGCCGGTTTAACTGATCTGGTTGAAGATAAAGGGTTGGATTATCAAATTGTTGAAAACGGAAAAAATCTATCCGGCGGTCAGATTCAGCGTATTGAGATTGCCCGGGCTTTACTCTACAATCGTCCATTCTTGCTCGCTGATGAGGCAACTTCAGCATTGGACGATAAACTTGCCGCCCAAGTCCATCAAGAGTTTTTACACAGTTCGAACACCCTGATTGAAGTCGCCCATCAGGTCCCTGAGCAGTTACAGCGCCAATATGACCGGGTAGTGCATCTGGATCAATTAAGCCAAGCTTAA
>SRR1151209_02611 gluconate:proton symporter
ATGGAATTATTGGTCTTAGTATTGGGTATTGCCTTACTGCTCCTATTAATTATCAAGTTTAAAATGAACACCTACGTGGCCCTGATCATCACCGCCGTGGCCGTCGCCCTGGGGTTGGGCATGCCGCCGGCGAAGATCGCCACCAGTATCCAAAACGGGATCGGCGGTCAACTGGGGGAGTTGGCCCTGGTCTTCGGCTTCGGCGCGATGCTCGGCCGACTGGTCGCCGATGCGGGCGGGGCGTACCGGATCGCCCATACGCTGATCAACGCCTTCGGTAAGAAGCGGATCCAAATCGCCGTTGTGCTGGCTTCCTTCATCATCGGCATTGCCCTCTTCTTCGAAGTCGGCATTGTCCTCTTGATCCCGATCATCTTTGCCATCGCGGCCGAGGCCGGCGTGCCGATTCTCGCGTTGGGGATCCCCATGGCCGCGGCCCTGTCCGTGACCCACGGCTTCCTGCCGCCCCACCCGGCCCCGACCGCCATTGCCACGGCGTTGAACGCCCCGGCCGGGATGGTCCTGGCCTACGGCATTATCGTGGCGATCCCCGCCGTTTATATTGCCGGGCCGCTGTTCTCCCGCTTTGCGAAGAAAATCGTCCCGGACGCCTTCGAACGCCGGGGCAACCTGTCTGCTCTGGGACCGCAGAAAGAATTTAACTTGGCGGACACGCCGAGTTTCGGCCTATCCACGCTGACTTCCCTCTTCCCCGTCATTTTGATGGCCGTGGCGACGATCTATCAAATGGTCGTCCACGGCGGGGTGGCCCCGAAGAACCCGGGGACGCTGGATAATATCATCGCCTTCATCGGGTCGCCGAGTATCGCCATGCTGATTTCTCTGCTCTTTGCGATGTGGGCTATGGGCTGGCACCGCAAGATCGCCTCCAAGCAGATCATGAACACCTTGGAAGAAGCCGTTAAATCCATCGCTATGCTGCTGCTGGTCATCGGCGGCGGCGGGGCCTTCAAACAAGTCCTGATCGACGGCGGCGTCGGCGATTCCGTGAAGAACCTCTTCATGGGAACCAATATCTCGCCCTTGATCCTCGGCTGGCTGATTGCCGTCGTCCTGCGGATCGCCCTGGGCTCCGCGACCGTCGCGGCTATGACCGCCTCGGGCCTGGTCCTGCCCTTGATGCAAAGTGCCGGCGTGAACCCAGCCCTGATGGTCCTAGCCATCGGCGCCGGTTCCCTATCCGCCAGCCACGTGAACGATGCCGGGTTCTGGATGTTCCGGGAATACTTTGATTTGACCATTAAACAGACCTTGCTGACGTGGACGTTGTTGGAAACGATTATTTCGGTGGTTGGCTTGGGCGGTGTATTGCTGCTCAGTTTAGTGGTATAG
>SRR1151209_02612 glycerol kinase
ATGGCAACATATCTCATCGGTGTCGATCTCGGCACCACCAGCACCAAAGTCGTTCTTTTCAATACCCAGGGTCAGGTCGTGACCAGCGTCAATAATCCCTATCCGCTGTATCAGGACACCCCGGACATGGCCGAGGAAGACCCGGAAGAAATCTTCGACGCCACGATCGCCGGCCTCACCGCCGTCATCCGCCGCGGCCACGTGCAGCCCGGAGAACTGGCTGGCGTGTCTTTCTCCGCCGCCATGCACAGTTTGATCTTGATGGACGCCAACGACAAACCGCTGACCCGGGTGATCACCTGGGCCGATAATCGGGCCGCCAAGTACGCGACGGAATTGAAAGAAAACGGGCTGGGCATGCAGCTGTTCAAAAATACCGGTGTGCCCACCCACCCCATGTCCCCAATGGTGAAATTGCTGTGGCTGAATGCCGAACACCCGGATTTGATCCAGCAAACGACCCACTTTATCGGCATCAAGGACTATATCCTGCACCGCTTATATGGCCGCTATGTCCAAGATTACTCCCTGGCTAACGCCACTGGCCTATTCAATATCCACACGATGGATTGGGACGACCAGGCCCTGGCCGTGACCCATGTATCCCGGGACCAATTGCCGGAACTGGTGGATACCACTTATCAGCTCACCGGCATGAAGGCCGCCTATGCCGATGTCATCGGCATCGACCCGGCTACCCCATTCATTCTGGGCGCCAGCGACGGGACACTGAGCAACCTGGGGGTCAACGCGATTGATCCCGGGGTCTTAGCCGTTACTATCGGCACCTCCGGCGCAGTCCGGGTCGTCACCAATAAACCCGTGGTCGATCCCCAGGGTCGGCTGTTCACTTATTACCTCGCCCCCGGCCGCTGGGTCGTTGGCGGTCCGGTGAACAACGGCGGGATCGTCTTCCGCTGGGTGCGGGATCAGCTTTTTGCCCCGGAAAAACTCACCGCCGAACAGATGGATATTGATTCCTATGAACTGCTGACGACCATTGCGTCGAAGATCCCTGCCGGCGCCGACGGGCTGCTGTTCCACCCTTACCTGGGCGGCGAACGGGCACCGATCTGGGATGCCAACGCCCGCGGCAGCTTCTTTGGCCTCACCCGCCAGCACACCCGCGCCCATATGGTCCGCGCCGCGCTGGAAGGGATCGTCTATAACCTGTACATGGTGATGCTGATGATCGAGGGGATCACCGGCAAGCCCAAGGCCATCCAAGCCACCGGCGGCTTCGCCCGCAGTGCGTTGTGGCGGCAAATGCTGGCCGATATCTTTGAACAAGACGTCAATATTCCAGAAAGTTTCGAAAGCTCCGCCCTGGGCGCGGCGGTCATCGCCATGAAGAGTCTGGGGATGATCGATGACCTCAGTGCCGTGAAGGACATGGTGGGCGTGACCCATACCCACCAGCCCAATCCGGCTGTCTTCCCAGTCTACCGGCAGCTGCTGCCGATCTGGATCCGGCTGACCCGAGAATTGAGCACAGAATACGCGGCTATTGCCGACTTCCAACGGGCCCATCCCGACCCGAATGCCCACATCGCGGCAGAGGATTAA
>SRR1151209_02613 6-phosphogluconate dehydrogenase
ATGGATATTGGCATGATCGGCTTAGGAAAAATGGGAATGAATCTGGTCCAGAATATGCGGGATCACGACATTGACGTCGTCGCCTACGATTTGAACGCAGCGGCCCGCACCACCGTCACGGAATACGGCGCCAGAGCGGCAGCTTCACTGAAAGACTTGGTGGCTGCTCTGGCCCCGCCGCGCACGATCTGGGTCATGGTCCCCGCCGGTACCCCTACGGAACAAACGATCAGCACTCTGGCGGAATTGCTCAACCCGGACGACATCGTCATTGATGGGGGCAATTCGTACTATCAAGATTCCCGGCGCCGGGCGGCGGCATTGACCGCCCAGGGCATTCATTTCTTTGATGCCGGCACCTCCGGCGGCATGGCCGGTGCCCGGCAAAACGGCAACTTCATGATCGGCGGCGAAGCGGACGTCTTCCCCCGCATCGCGCCGCTGTTTCAAGCCATCGCGGAAACCGACGGCTACCTCTACACCGGCCCGGCCGGCAGCGGTCATTTTCTCAAAATGGTCCACAACGGTATTGAATACGGCATGATGCAAGCCATCGGCGAAGGCTTCGAGGTCCTGGCGAAGAGCGGCTACGATTATGACAACGCCGCTGTCACCAAGATGTGGAACCATGGCTCCGTGATCCGCAGCTGGCTGATGGAATTAGCGCAAAACGCCTTCAGCACCGATCCGGAACTCAGCGCCATCAAGGGTGTGATGCATTCTTCCGGCGAAGGGGCCTGGACGGTGGAAGAAGCCATCCGCCTGCACGTCCCGACCCCCGCGATCAGCGCCGCCCTCATGGCCCGCTACCGCTCGGAAGAACCCGACGCCATGACCGGCAAGGTCGTCGCCGCATTGCGCAACCAATTCGGCGGCCACGCGGTGGACCCGCAGTAG
>SRR1151209_02614 RpiR family transcriptional regulator
ATGCAGCATTTTGCCTTGCAGTTGAAGACCTATAAGCCGCGGTTGAGCGGTCAAGAGAAACGGCTGGCGGATTATTTGCTGGCCCATCAGAGCGCGGCCAGCCAGCTATCGATCTCGCAATTGGCGGCGCAAACCGGCGTGTCCACGGCGACGATTTCTCGGTTTGCCAAGGCGCTGGGTTACGATAACTTTCAAGCCCTGCGTTTAGCTTTGGCCCAAGCGCCGGCGGGCGCGGAACAGCCGCTGTTCCAGGAATTCGCGCCGACGGACGATGTGCCGGCCATGGCCCGCAAGATTTTTGCGGCCAACGTGGATGCCCTGCAAGCGACCAGTGCCAATCTGGATGCGGGGGCGCTGACGGCGGCGGTCGATCTGCTGATTCACGCCGCGCACATCGGCTTGTACGGTTTGGGGGCCAGCAATATCGTCGCCTTGGATGGCTACCATAAGTTTCTGCGCACGGCGATGGCGGTGTTTTACGCCACGGATTATCATATGCAGCTGATGAGCATGACCCACTTGCAGCCAACGGATGCCGCGGTGGTGATCTCCCATTCCGGGGAAGACCGGGACGCGATTGCGCTGGCCCAAATTGCCCAGGATCATCAGGTACCCTTGATCGTGATCACCGGCGCGCCCCACAGTCAGCTGGCCAAGATGGCCCAGGTGGTGCTGGTGGCGGTGGCGGAAGAATCCAAGTACCGGCCCGAGGCGCTGCATGCTCTGATTGCAGAAATGACCCTGATGGATACACTGTTTATGATCAGTGCTATCCGCACCGGCAGTCAGACCGCCCCCTTATTCCAAGAAGTGCGCGGCGTCATTGATGCCACCCGGCGGCCGACGCCCTAA
>SRR1151209_02615 methanol dehydrogenase
ATGCATGACCATCATTTTGCCAGACGCTGGCTGGGCCGGCTGCTCCTCCTGATCGCCGCCCTGCTGCTGGTCGGCTTGGCCGCCCAAACAGCGGCCCCGGCCCGCGCGGCTGATGAGATCTACGTTGAAGATAACGCCGGTGTGTTGAGCACCAAAACCAAGGATTACATTAACGATATTTCAAATAACCAATTGAGCAAGCTCAAGGGCAAGCCGCAATATGCCGTCATCACGGAGAAACACATTCCCAGCGGCAGCGATATAGAGGAGCAAGGGGCTGAATTATTCCAGAAATGGGGCATCGGCCACAAGGGCTGGGACAACGGTCTGCTCTTCCTGATCGCCGTCGACGATCACAAGTACCACTTGGAAGTCGGCTACGGCCTGGAACCGGTGATCACCGACAGTATCAAAGAAGACATCATCACTAACGATGTCACCCAGGATCTGAAGAATCAGGACTACGACGCGGCGATCACCAAGATCAGCGAACGGCTAACCCGCAAGCTGCAATCCGCGACCTTGGACACACCGCTCCAAATCACCGAACGGCGCCAGCAGGATGCCGCTAAGAAACGCTTCTGGTCCACCTTTTGGCTGATTCTAGGTGCTCTGGCGGTCCTGTTGATCCTTTTGGGTATTCTGTGGTACATGGTCAAGGCCTGGCGTCGGCGCCGGCATTTCTTGGCCCTGACCAAGAACCGGTACAATAACGTCTTGGCCCCTTACTTCCATGGCGTAGATACCTGGCACGCGGTGAAGAGTGCGGGCTTGGACCCCCGGGCCGACGATGATGAAATGCTGGAATACGCGGATCAAAACGTTGTCTTGAATTATCTGAACATTGCCCGGCCCGGCCGCACCCCAGCGACCGGCCAACCGCTGGATTATGACGACATCATCAGCGATATGGATCTGGCCCCGCTGATTCCCCACTTCACCATGGCCAATTTGTTGACGGCGATGCAGGAACATCTCGCCCAGCGAGAACAGCAGCGGGCCAGCAACCAGCATATGATTGCCCAGGCAGTGAGCCAATACATGGGCGCCCACCCTGAGCTGCAAGTCTCGATCGCCGCGGTGGTTACCGCCGTCAGCGACGCAGTCGATTTGGATAAACCCAGCGACGTGGTCGCCCGGCGCCTTACCGCTGTCATCAAAGACCAAGCGGTGCGGCTGAACGTGCGCCAGCGGTTCCAGCAATTGGCCGAAGACCATCCTGAGAAGGTCCCGGATCGCGCCGTTTTCCTGGATCACTTGAACGATTTATCCGGCAGTAATCTGGATCGGCTGAACCGGGCTAACGATATGGAGTTTTACGCCATTTTAGCCCTGTTAATGGCAGGAAATGATCACCACCATGACGATTCTGGTCCCTTTGGCGGTTTCTGGGGCGGCGGTTCCTCCGGCGGAGGCGGCGGCTCTAGTGACGGCGGCAGTTTCGGCGGTGGCTTCGGCGGCGGTTCCTCTGGGGGCGGCGGATTCTCCGGCGGCTGGTAG
>SRR1151209_02616 hypothetical protein
ATGACTGTATTCGATATGCTGAAAATGATTCAAATTGATCACCAGCCCCTGACCTCCCCCGTGGTCGTGATGACCGATCCCACGGGCAAACCCAACGCGGTCCTGACCGACCTGCTCCACGATGTCTTGAACAAAATGGAGCTGTTTGTCGATTTGGGCGACGCCCCCGATGCCGACGCGGTGATCGAGGATCTCCACAACTTCACCCCGTTGCGGGAGGACGTACTGGACGAATACCGCAAGATCCTCACCCAACCGGTGAGCGGCTTGAATATTGCCCGGCGCAAGCAGTTAGTCGAGATCATCTATGACGAATTTGTCTGA
>SRR1151209_02617 hypothetical protein
GTGGCGAAGCTGTTCAGCCGGGAGGTCTGGCACAGCCAGCAGCTGCGGCTCAGCAGCAAGTTAGAAATGCACTGGTTCATGGCCTTGCCCCTCACCGGGCTGCTGCTTCTGGCTGGCAGTCTGTTCACCGCCGGCTGGCAGTTGCTGGCCTGGTGGCAGACCGGCCGGCCGAACTGGGCCATCGTGGTGATTTTAGCGCTGATGCTGCTGGAATATCTTTTCTACATCGGCCTCTATGCCCGGATGACCCAGGGCGGCTGGCGGGCCGCCTGGGGTTTATTTTGGTCCTTGCCCGTCGCCGCGGCCCTGGCCCTGCCCATCACCATTCAGGCCCTCGGCCATTACCTGCGCCGGGATGACCACTGGATGAAAACCACCCATGGCGTCTTATAA
>SRR1151209_02618 glycosyl transferase family 2
ATGAGTTTGCTGGTGATCGTTTTTACCATTTTCTGGAGCATCGCCATTGCTGGGATGCTCATGAACGTGGTGCTGCTCGCCCTGCGGGTGCCCCCGCGGCCCCAAGGTCCGGCAGCGGCCCGGCCCCAGGATATTTTCTTACTGATGCCCATGCACGATGAAGAGGCCATTGTTCAGGCCGCGGTGGAACGCTTCACCCGCCTGCAATGGTCCTTGGCATACGGTCGGCTGCACCTGGTGGTGGTGGAAGACGGCAGCGCGGACAGCACCAACGACTTGCTGACGCAGGCGGCCAAGCGTCATCCCAATATCCACGTCCTGTACCGCCGGCCGGATGTCGGCGGCCGGGGCAAGGGCCGCGCGCTGAACACCGCATTGGCCTACATCCGCCATCATGCACTCCACGATCCGGCCCGCACTGTGGTCGGCGTCCTGGACGCCGATGGCGAGATCAGCGCCGCCGACTTGCAGCAAGTGGCCGACTATTTTGCTGGCGATCCGGCCATCGCCATGGTTCAAACCGGCGTCGCGGTGCTGGGCACAGACCACTGGCTGGCCCGGGTCCAGGATTTTGAGTTTTCCGTGCTCAATGCCCTGACCCAGAATCTGCGCAGTCATTTGGGCGATGTGGCCGGCAGCGGCAACGGCCAGTTCTTCCGGTTGACCGCCTTGGCCCGGATCCAGTGGGGCACGACCCTGCTGGAGGATTTTGAGATTTCGACCCGCCTGCTCCTCGCCGGTTACCCCACGGCCTATTTAATGACCGCCCGAGTGCGCCAAGAACCCACGCTCACCCTGCGCACTTACTTCCGCTAG
>SRR1151209_02619 hypothetical protein
GTGCACGGGGGGCTAATCATGAGATTATTCAAAAGCAAGGACAAGACAGAACAATCGGCGCTGACCACACTGCTCAGCGTTAATAAACAAGAACCGGACCAGCCGGATCCAGCACAGCCGGAATCCGCCGCGGCGCCGGCGAGTGCAGTGCCAGAAACCGTCACGGCCGCCGCAACGGCGGCAGCACCGGCACCCGCGCCAACGCCCGCCGCTGATCTGCCGGCTGCCATTGATCGGCTGAAGGGCCAGCTCAAGGGGCTGGCGACGCAGTACCAAGGGTTGCGTCAGGAACTCCAGACCAAGATGTTTGCCCAGCGGGACGTGATCAAACAGACCCTGCGGGAGGTCAGCGCCCGGGAAAAGCGGATCACCGTCCAACTGGCGGATATTGCTCAGCAGCAAAAGGACTTGCAAGCCCAGGATGACGCGGCCCTGCACAGTCAGCTCACGGACTTGGCCCAGGCCAAAGCCGCGCTGCAAAAACAGATCACGAACCTGGAGCAGCAGGTGACGACGCTGCAAAAGAGCGTTGACGACAATGATCAAGCGATCAAGGACAACGCCGCGGCCCAGCAGAAGAACCGGGCCGACAATGCCAAATTAGCGGCCGAGATCAAGGGTGAAGCCGATCTGGTGGCCGTCGTCCAGATCATTGAGAAAAATAAGGACGAGGTATTTGCGCTGCACACCCAGGCGGAGACTCTCACCAAAGAAGCCGCCCAGCTGCAAGAAAAGGGTACCCGGTTGCAGGATGAGCTGGCCAACACCCAGGACGGTTTGACTGCGGCAAACCGCAAGTCCACCGAAAACGACCAGCAGACCCGGCAGATCGAGCAAAAGCTGGACCAAGCCAAGCGCGATCGGCACGCCCAATTGAATACCCTCCAGACCCAGGAAAAAGCGGCCAAACAGCAGCCTCAAACGATCGTGGCTCAGTTTGAGGCGCGTCAACGGGATCTCGCCGCGATTCAAGACGATATTCAGCATATTTTTAACACAGACCACTTGATCCGGCTCTTCCAGCTCCACGACAACCACCAATACGGCGTCCTGGCCTCTGATTTCGGTGCTGCCCAGGAACAGGACATGGTGGCAATTTTCCAATATCTGGAAGCACACCTGAAGCATCCGGCCATTTTGATCAGCTACGGCTATGACCCCGACTTAGCCGACCACATTCAAACTTGGGCCGCCAAGCACGACCTGCACACCCCGACGGTCTACAATCTCTTCACCGAATTGCAAAAGAGTGCTCCGAATACCGCCCAGCAAATGACCATTCCGGACAATGACCATTGGCGCTCCGTCTGGTCTGACGGCCGCCGTACCCGGGATATTTACGATCATGACCAGCACTTGATGCACGTGACTTATCGGGACGCGGACCACATCAACCAGATCGACTATTACTCCGAAGAGCATCTGTCCAAACGCTCGGAATTCAACGAACACGGCCAGTTGTCCCGCACCACCACTTTTGCCAAGGATGGTACCATGCAGCAGGTGGACTACTACCGGATCGAAGGCACCCTGGTCCTTTCCTTCCATTATGTGGATGAAAAAGTCGACAATATTCAAATGTTCGATACCAACGGCTTACTGTATACCGTCTTCAACAGTACCCACGATCTGGCCTACTGGTGGCTGGCGGCCTTCTGGAAGCAGCATCCGGAATTGTTCGTCATCGGTGATCCCAGCGATCCGATCTTTACTCGCCTGGCCGCTGATTACGCCGATCAGGAACTGCCCTACTTCAGCCAAATCACGACTAAACCGGCGCCGGTGAAAAAGGCGCTGCAAGACACCCCGTGGACCCAATTATTGGTCGCCACCATGGCGGATCAGCAGGCCTTGGGTAAGATCACCAACCGGGACCTGTCGGTGGATTATATTGCCACTGGCGCGGCGGATACTTTGCCGGAGGCGCTGACCCTGGCCGCACCGGCCCAAACTAAGGCGGCCGCCCAAGCGAACGAATGA
>SRR1151209_02620 glucosamine-6-phosphate deaminase
ATGAATATTATTACGGTGAAGGACGCACAAGAAGGCGGCCAAAAAGCCTTCAACATCTTTAAGGAAGCATTGGCGGACAACGCCAAGGTCTTTGGCTTAGCCACGGGCTCCACACCGATCACGTTGTACGAGGCATTGACTGCTTCGGATCTGGATTTCTCGGATAAGACTTCCATCAACTTGGATGAATACGTTGGCTTGGCCCCGGATAATCCGCAATCTTATCACTACTTCATGCAACAGCACCTATTTAATAAGAAGCCGTTTGCGACCAGCTATGTGCCGGACGGCTTGGCGACGGATGCAGATGCAGAAACACAACGCTATGACGACATCATTGCCGCCAACCCCATTGACTTGCAGATTCTGGGGATCGGTCGTAACGGCCACATCGGTTTCAACGAACCCGGCTCTCCGCTGACCGGCAAGACGCACAAGGTGCCGCTGACGCAATCCACGATCGACGCCAACGCCCGGTTCTTCGAAAACGAAGAGGACGTACCGCGCTTCGCCTATTCCATGGGGATCGGCTCCATCATGACAGCCAAGCACATTCTGTTAATGGCGTATGGTGAAAATAAGGCCGATGCTATCCAGAAGATGGTCGAGGGCCCCGTCACCAATCATGTACCGGCCAGCGCTCTGCAAAACCACAACAATGTCACGATCATTGTGGACGAAGCGGCCGCCAGCAAGCTGAGCAAGTAA
>SRR1151209_02621 aldo/keto reductase
ATGGCAAAAACAGTGAAGATTGGCAAGAGTGACGTTGTGTCCACACCGCTAGGCTTAGGCACCAATAAGGTCGGCGGCCACAACTTGTTCCCGAATTTGATCGATGAACAGGGGGCGGAAGTCGTCCGGGCGGCGCTGGATAACGGCATTCAAATGCTGGATACGGCCTTTATGTACGGGCTGGGCCGGTCCGAAGAGATCATCGGCAACGTGATCAAGGACTATGACCGCCACCAGATCGTGCTGGCGACGAAGGCCGCCCAGGATCCGCACCAAGAGTTGAAACCGAATAATCAGCCCCAGTTTTTGACGAAGGCGGTGGATGATGCGCTGCTGCGGTTACGGACTGATTACATTGATGTTTTCTATATCCATTTTCCAGACAAAGATACCCCGAAGTACGAAGCCGTTGGGGCGTTGGAAAAAGCCAAGGAAGCCGGCAAGATTCGGGCCATCGGGGTGTCTAATTTCTCCCTGGACCAGATCAAGGAGGCTAACCAGGATAACTACGTGGATATTGTCGAAGGCAAGTACAGCCTGATCCACCGCGACGCGGAACAGGGTGATTTTGCTTACTTGAAAGCCAACGACATTTCCTTTGTCCCGTATGAACCGCTGGCGCTGGGCTTGTTAACCGGCAAGTATAAAGACGCCAAGGCCTTTGGCGAAGGTGACTGGCAATACGACCATGATTCCGCGAACTTCAGCGGCGATCGCTTCTACCAGAATGTCGCCGCAGTGGAGAAGATCCGGCCGATTGCCGACCGGCACAATGTCTCTGTCGCCGATGTCTTCTTGGCGTGGTACATGGCTAACCCGAATATCAGCGTCGTGATTCCGGGCGCGCGCAAGCCGGAGCAGGTCGTGGAGAATGCTAAGGCGTTGGATTTGCGGTTGAGTGCGGATGAGTATCAATTGATTGATGAGACGTTTAAGGCTTAG
>SRR1151209_02622 alpha-L-fucosidase
ATGGACATTGATTACGCAGCAGGGATTGTCCCCGCTCCGCGGCAGCTGGCGTGGCAGCGGCAGGAATTCTATGGCTTCATCCACTTTGGCATGAATACGTTCACCGACCAGGAATGGGGGACAGGGCAAGAGTCGCCGGCATTATTTAATCCAACGCACCTGGACCCGCGCCAGTGGGCGGATACCGCACGACGGGCAGGGATGACCGGCTTGATTCTGACCTGCAAACACCATGACGGCTTCTGCCTGTGGCCCAGCCGCTATACGGACCACACCGTGGCCCAGTCGACCTGGCGGGATGGTCAGGGGGATGTGGTGGCGGAGACGGCCCAGGCCTGTTGGGAGTTTGGGTTGAAATTCGGCATTTATTTGTCGCCCTGGGATCGGGCCGAGCCCACTTATGGGACGGGCACACCCTATAACGATTTCTACATTAACCAGCTCATTGAATTACTGACGCAGTACGGGCCGATCTTTGAAGTCTGGCTGGATGGGGCCAATGGCGAAGGACCAAACGGTAAGAAACAGCACTACGATTGGACACGGATCTATGAAACGGTACGCCGCTATCAGCCGGAGGCCGTGATTGCCGTGTCTGGTCCTGATGTTCGCTGGGTGGGCAATGAAGCAGGTCATACCCGGACCGATGAGTGGAGTGTGGTGCCGGCGGGGCTTCGGGATACCGAAAAGACGGCGGACCGGTCGCAGAAAGCCGATGATGCGGCCTTTGCCCAAACATATACGTTAGCGGATGACGACCTGGGCAGCCGCCAGGCTTTAGCTGACTATACCGGTCCGCTGGTGTGGTATCCGGCGGAGGTCAATACGTCTATTCGGCCGGGGTGGTTTTATCATGCCGACCAGGACACGGCGGTGAAATCGGCGGATGCGCTGTTTGCTCTTTACCAGCAGGCCGTTGGCGGCAACGCGACGTTGTTATTGAACCTGCCGCCTATGCCCAGCGGTCAATTGGCTGAGCCGGATGTTGCGGTACTGGCCGCTTTGGGTCGCCAAGTCCATGCTTTTCAACAGGAAAATCTGCTGGCTGGCGGGCAAGTCACTTTCTCATCAGTTCAACAGGGGATGCCGGCCGGTTCTTTGTTCACGCACAGTACTCAATCGGAATACTGGCAGCCGGCAGCAGATGATTCCGCGCCCACCGTGACAGTGGTGCTGCCCCACCCCGTGACGTTGAATGCCCTGGTTCTGCAAGAAGAAATCAGCCGCGGTCAGCACATCGAAACAGTCCAAGCAGCCGTCCAGCGGCCTGGCACGACGGCTTGGGAGCCTGTCGCCACGATTGGCACGGTTGGTTATCAGCGCATTGCGCGTATGCCTGAAATGACCGTGCAAGCGGTCCGATTGGTCTTCACGCAGTACCGCCAATTCCCGACGTTGCGTTATTTAGGCGGCAACTTACTCACTTAA
>SRR1151209_02623 acetylornithine deacetylase/succinyl-diaminopimelate desuccinylase
ATGTCTATCATTAACGAAGATGAACGGATTCAAATCTTGAAGGACTTGGTGGCCATTCCGTCGGTGAATGAACACGAGCTGCAAGTGGCCAACTACCTGCAGCAGCTGCTGGCCAGCCACCAGATCGAAAGCAAGGTCCTGCCCGTGACCGGCGATCGGGCAAATCTAGTGGCAGAAATTGGCCACGGCCAGCCGGTGCTGGCAATTTCCGGACACATGGATGTCGTTGATCCAGGGACCAAAACCGATTGGGACAGCGATCCATTCACATTGACTGAACGCCAAGGCAAGCTCTTTGGCCGCGGCGCCACGGACATGAAGGGCGGTCTCGCCGCGATGGTCATTGCAATGATCGAATTGGCCGCCCAGGGCAAACCAGAAAAGGGCACGATTCGCCTGATGGCGACCATGGGCGAAGAAGTCGGTGAGCTGGGGTCGAAGCATTTCTTAGATGCTGGTTATATGAAGGATGTTGATGCCTTGCTGATCGGCGAACCTTCCGGCTGGTTCGTCGCTCACGCCCACAAGGGTTCCATGGATATCCGCTTCACATCCCATGGTCGGGCGGCGCATAGTTCTATGCCGGAGCAAGGGTTTAACGCCATTGACCCATTGTTGCAACTGCTGCAAGACGGCAACCATCTTTTCCGAGAGATGAACCAGCAGACCAACGAGCTGCTGGGGCCGCTGACGTTTAATACCACCATTATCCATGGTGGCCAGCAGGTGAACTCGATTCCGGATAAAGCCATCGCGGAGGTGAATATCCGGACGATTCCTGAGTCTAACAACGCTGAAGTCACGAAAGAGTTGAAGCGGTTGGTAGCTATTCAAAAGGAAGATGGCGCCCAGATTGATATGGACGTGTATATGTCCCAACCCTCCCGCGCAGTGCAGGGCGATTCAAAGCTCGCCGACCTGGTGGCGGAATTGGGCAAGCAGGCCAGCGGTAAAGAATTGAAACGCGGCGGCATTGCCCCGGTTACGGACGCGTCCAATCTGCTAGCGGGCAAGCCGCAGGACTTTCCGTTCATTATTTTTGGCCCGGGGAATAACACGCCGCATCAGGTGAATGAATCTGTGCCGAAGAAGATGTACCTGCAATTCTGTGATTTGTATCAGCAGGTGTTTGAACATTACTTGACTGATTAA
>SRR1151209_02624 membrane protein
ATGAACACGAAAAAGGGTTTTGTCGCAGCTTTTAAGGACTTTTGGTTCCGTGCTGGCGACTTCCGGGGGAGCAGTACCCGGGGGCAGTATTGGTGGATTTTTCTGATCAATTTTCTGCTTGGATTGGTCTTTGTAGTTGCCTTAATTGGTGGTGCGTTGTCTTCTTTCATGGCGATTGGTCCGAATAGTAATGTCAATCCTTTCCATCTATTCGGTAACGTTGCCGGGGTCACCTTTATCCTTCTCTTATTCTGGTTCCTCTATCAGGGATTGCCCAGCTTGTCGTTGGTCATTCGCCGGTATCGGGATGCTGGGGTCACCCCTTGGGTATTGCTGCTGACTGAGCTGGCGCCGGGCATCATCCTCGCAATTGCAGGCCGAAACACAACCGGACAAGTGATCGCCGGACTCTTGCGGCTGGCCGATTTAGTCATTACCCTGCTGCCTACCCGGCATCCGGTCCCGGCCTGGACTACACGGCCGAATGAGGATAGCCGGACAGTGAGCATGGTCGAGGCGATTCCAGACTTCTTCCGCCGGGGCGGTGTCTTCAGCGGCCGGTCAAGCCGGTCTCAATATTGGTGGATCACGCTATGGGGCGTGATTATTGGTATTGCAATCACGGTCATTTCCGTTCCATTCACTGTAATTTCCGTTGTCAGCAGTCTGAATTCTGCATCCGGTGTGCCAGACCTCACCGGCTTCTTCATGTACCTTGGCGTATTGCTGGGCTTGACCTCCCTGATTTACCTGCCGAATCTCACATTAACCGTACGCCGCTTCCGGGACGCCGGTGTTAATCCCTGGTGGTATGGGGTGCTGTTCATCATGCAGCTTGGTGCCAGTGCATTCATTGCCGGCAGTAAACAATTCAATTGGGGCTTCATTATTGTCGGCATTCTCAGCATTGTCCTCCTTGTGATTACTGTATTGCCGACAAAGCAGTCAGCCTAA
>SRR1151209_02625 membrane protein
ATGAACACGCAAAAGGGTTTTGTCGCAGCTTTTAAGGATTTTTGGTTCCGCGCTGGCGACTTCCGGGGGAGCAGTACCCGGGGGCAGTATTGGTGGATTTTTCTGATTGATTTGCTGTTGGGAGTGGTTCTCGGTATTGCTGTCGGCGTATTGACCGTAGCGACACTGGCCGGGGTGGGTTCGTCAGGGACCCGCTCTCCCCTGCAATTCATGGGCTCCGCCGCTGGCATACCGTTTATTGTGGCCCTTGGTATATTTCTATTTCAAGGATTACCCATGCTCACCCTCAGCATTCGCCGCTACCAGGATGCCGGGGTGACCCCTTGGCTGTTACTGCTGACCTGGTTGGCACCGGCCTTGATCACTAGTTTGAGCGGCCGCAACGTGGCGGCGCTCATTATTGCCAGCATTCTTTATCTGATTGGTTTTATCATCATTCCGCTGCTGCCAACTCGTCACCCAGAGCCGCAGTGGTCGACTCGTCCCAATGAAGACGGTCAAAAAGCGAGCATGCTGAGTGCGATCCCCGATTTCTTCCGCCGCGGCGGTGTCTTCAGTGGCCGCTCCAGTCGCTCTCAATATTGGTGGATCATCTTGTGGTCCGTCATTATTGGACTGGGAGGATTTATTCTGATGATGATCGGTTCGATCTTCTTTCTTGTCCTCGGCTCCCATCCTGGCCGGATGGATGTTGACCTGTCTGGTTATTATGCATTTCGCAGTATCTTCGTCTGGTTAGCATCATTGGTTTATTTACCCAGTTTAACTTTAGTCATTCGCCGCTTTCGGGACGCTGAAATCAATCCTTGGTGGTATGGGGTACTCACGTTGTTGCAGGTAGTCGTTTCCGTCGGGCTGATTCTCAGCAAACAATACGCGGCCTCTTGGATTGCCACAGCTGTTATTCTTGTCATTGAAGTCATCATCACTGCGCTGCCGACGAAACAGACGGCCCATATATGA
>SRR1151209_02626 membrane protein
ATGAACTCCCAAAAGGGCTTTGTCGGCGCATTTAAAGATTTCTGGTTCCGAGCCGGAGACTTCCGCGGGAGCAGTACGCGGGGACAATATTGGTGGATCGTTTTATTAAACTTCTTGATTGCCCTCGTCACTGTCGGCGCAATTTGGTTAGCTATCTACATTTTTAGTTTCGGCACTCATGAAATTGGTCCGGGTCTGCCCGTGCAACTCTTTGGCGGCACCGTCGGCGTCATTGTGGTCGGATTGGTGGCTTGGTTCTTCTATCAAGGGCTGCCCAATTTGAGTTTAACCATTCGCCGGTACCGAGATGCAGGGGTCAGCCCTTGGCTGTTGCTGGTTACCTGGCTCGCACCGATCGTGATTATGCTGATTGCGGGCAATAACCTGATTGGTTGGATCATCGTGCTGGTACTGGGCACTATTGATCTAGTGGTCAAATTGCTGCCCACCCGCCATCCCGTGCCGCTCTGGTCGACCCGGCCGAATGAGCCGAGCCGCAAAGTTGGTATGGGCGGTGCGTTGGCCGATTTCTTCCGGCGGGCCGGCATCTTCAGCGGCCGCTCCAGCCGGTCTCAATATTGGTGGGTATGCTTGCTGTCGATCCTCATCAGCATCGTGATCATGGTGGTGACCATGGCCATTGTGCCGATGATCATTTTTCTAGGCGTGCAAGGAGCTTCCGGTGCAGTCGGTGATGTGCCGAATCTCACCCGTTATTTTCTAGTTTTGGGCCTCTTGATCGGCCTCGGGTCTCTCATTACCCTGCCCGAGCTCACCCTATTGCTTCGCCGGTTCCGGGATGCCGGGGTGAGTCCTTGGTGGTACGGCGCTTTATGGGTGATGAATGTGATCGTCACCTTAATCATCGCCAGTGACAAGGCTATCGTTTTTGCTTGGATCGTGCGGATCGTCCTTTGGCTGGTGGAAGTTGTGATTACCGTTTTGCCAACGAAGAAATCTGGTCGGGACGTGTAA
>SRR1151209_02627 membrane protein
ATGAACACACAGGTAGGCTTTGTTCACGCATTTAAAGACTTCTGGTTCCGCGCCGGCGACTTCCGCGGCAGCAGCACCCGAGGCCAGTATTGGTGGGTTTTCCTAATGAATACGCTGATCGCTGTTGCCGGGCTCATTCTATTGTTGGTCAGCGGCGCGGCTGCCGGATTCCTGGCCTGGGATCAGAATGATAATCAGCCGCTGGAATACGTTTTTGGCGGTTTTCTGGGAATTGTCGTCGTCCTCATCCTGGAATGGTTCCTATTCCAAGGGTTGCCAAGCTGGGCGCTGCTCATTCGCCGGTATCGGGATGCCGGCGTCAATCCATGGCTGCTGTTGATCACCCGCGTCGTGCCCATCTTCTTGACTGGCTTGGCTATTTCCACGACAGCGGTGCAAATCACGATTGGCATCTTGTATCTCGCCGACCTTGTGATTAAAGTATTGCCCACCCGTCACCCAGTTCCGCTGTGGTCCACCCGGCCTAATGAGGACGGCCGCCGGGTCGGTATGGTCGGTGCCATCCCTGAATTCTTCCGCCGGGCAGGCGTCTTCAGCGGCCGGTCCAGCCGGTCCGAGTACTGGTGGATCGTCTTATGGGGGGTTATTATTGCCGTCATCTCACTGATTGTTGCGGTTCCGTTGATCTTATTTTCAACATATGCCGTGACGACCACACTTTTGGACCCGGGTGCTGGTGCTTTCCGCGTGTTGTGGTCGACAATCGGCGTCGTATTCGCTGTGAGTTCCTTATTTGCTTTACCGCAATTCACTTTGCTCCTGCGTCGTTTCCGGGATGCTGGAGTGAGCCCGTGGTGGTACGGGGTGTTATGGGGCGCTCAGTTAATTACAGCAATGATTGTTGCAAACTCGCGCACCATTGCGATTGCGTGGATTGTTTACTTTGTTCTGTGGCTGATTACACTCATTATCACGGTTCTGCCTTCGAAGAATCCAATTGATAACCACTGA
>SRR1151209_02628 hypothetical protein
ATGAATCATGCAATGATGATTGGTTTCCACGGTACGACCTATCAGAACGCTCAGGAGATTTTGCGGTATGACTTTGACGAAGAACGTTTTCCAACTTGA
>SRR1151209_02629 GNAT family acetyltransferase
ATGATTCAGTGGCGTTCCATTCAGCATGGTGATGAAGCCGCCATCGTGGCGGTGTTCATCGCCAGCGTGCATCAAGTGGCCCGGCGGGATTACCCGCCGGAACAATTAGCTGCTTGGGCACCGGAGACTGGCATCGACCCGGTGGCGTGGTGCGCACCGCTGTTTCAGGACGACTCGCTGGTGGCCGTCAGTGCCGACCGCATCGTCGGGTTCGCTAACATGACCCAGGCGGGGTATCTGGATCGCGTCTATGTAGCGCCGACGCATCAAGGCCAAGGGATTGCCAGCCATTTGGTCGATGTGTTGGAACAGCATGCCCGCAACCGCGGTGTGCACCGGATCACGGTGGCCGCGTCGCACACGGCGTTGGCATTTTTCAAGGTGCACGGATATCAAGTTGTGCGGGCGAACATTGTGGAGCGGGATGGTGTCAGGATCGGTAATACGATCATGGCGAAAGTAATTTAA
>SRR1151209_02630 triphosphoribosyl-dephospho-CoA synthase
ATGCAGGTAAGTGAGCTGTCGTTGCTCGCGGAACGCGCGTTGATCTATGAAGTGCTGGTGAACCCGAAACCGGGGTTGGTCGATCCGGTGAGTGCGGGGGCCCATCGGGATATGGATGTCTTCACATTTGTGGACAGTGCGACTGCTCTGCGGCCATATTTTGAACAAGTCGCAAAAATTGGCGCCGCATACCCGGAGACCGATTTGCGCGGATTATTTCACGCTATTCGGCCAGTGGGGGTCCAGGCAGAGAAGACGATGCTTGCGGCGACGGCGGGAATCAATACGCATAAAGGCGCAATTTTTTCCCTTGGTGTGCTGGTGGCGGCGACTGCCTGGACGATGCAGCAAGATGCGGTCCTGACAGTGAACCGCATCATCCGCGCCGTTCAGGCAATGCTGGCCGGTTTAACGGCTAATGATTTCGCTGGCGTGCAGGAAAAATCCCCAGCAGAATTAACGGCTGGGGAACGGGAATATCTGAAATACGGCTTCACCGGTATCCGTGGCGAAGCCGAGGCCGGCTTTCCCGCGGTAACCGAATGGGCGTTGCCGTTTTTGCGGACGCAAGCAGCCGGTGATCGGAATACCCGGTTGCTGGACACCTTCATGGTAATCGTCGCCCATACCCGGGACAGTAATGTGATCAAACGGGCCGGCACGGCGGATATTATTCCCTGGGTTCATGACCAAACTGCCGCTTATTTCCAGCTGGGCGGTGCTCAAACCGCGGCCGGCAGGCAGTTTCTCACCGATTTGAACGCCACGTTCATTGACCGCAATTTGAGTTTGGGCGGCAGTGCGGATCTGTTGATTTTGACCATCTATCTGGCGCTCGTGTTTGATTGGCTGCCATTTCACGAGGAGGACCAGACATGA
>SRR1151209_02631 apo-citrate lyase phosphoribosyl-dephospho-CoA transferase
ATGGCAGAGACGATTTTCGATCAGGGGGCAGACGAGGATATTATGGCAGTGCTGGCCAATAAGGATGCCCGGGTGGCGTATCAGGATAAGCTCATGGCGGACTATCCGGACAGTACGATTTTGGCCACTAAGCTGAATATTCCGGGGCCGATCAAGAATAATGATCATTTGGAGCAGCTGTTTGCAGCAGGTGTTCGGCAACTGCACGCCCTGTTTCCGACGGGTACGGTGACGGTCCAGCCGGAGTGGCATAAGCCCACCGGTCCAGAAGCTTTCTGGGTTGTTGCCCTGCCGGTCAGGGCGGCGAAGGAGCGGGCGATTCAGTTTGAGGACCAGTATGCCCTGGGCCGCCTTTTTGATGTGGATGCGCTCACCTTGGCCACGAAAGAAAAACCGTTATCCCGCCAGGATTTGGGTTATCCGGCCCGCCGCTGCCTGATCTGCGGCCGGCCGGCCAAGGAGTGCGCCCGGTCCCGCCGGCACAGTGTCGCTGAATTGCAAGCGGAGATCAGCCGCCGCTATTTTACCTACTTTAATCAGGATATGGCCCATGCAGGTAAGTGA
>SRR1151209_02632 citrate lyase subunit alpha
ATGTCGAAGAATAATGTCGGTGTGGATATTCCCGATTCCATTTTGAATCAGTATGATTACAAACCCTATGCGGGGGCAAAATTGGGCAACCCCGTCAGTCAACGGGTTGCTCCTCAAGTGCGTGCCCAATTTGGCGAGAACAAGGTCGTTAATTCCATCGCCGATGTCGTCAAGGCCGAGGTCAAAGACGGTATGACGATTTCCTTCCACCACCATCTGCGGGAGGGCGACCAAGTCTTCAATGAAGTGATGCAGGTGATCATTGATCAGGGTATCAAAGATCTGACCCTGGCCCCGTCTTCTTTGACCAACGTCATGAACGACATGGTCGTCAAGGCAATTAAGGCTGGCACAGTCACCCACATCACTAGTTCCGGCATGCGCGGTTCCCTGGGTGATGCGGTTTCCCACGGTGCCTTAAAGAGCCCCGTGATTTTCCGTTCCCATGGCGGCCGGGCCCGGGCGATTGAAACCGGCAAAATCAAGATCGACGTGGCCTTCCTTGGCGTGCCGAACTCAGATGCGGAGGGCAATGCCAACGGTATGACCGGCGATGCTGCCTTTGGTTCTCTGGGGTATGCCCTGATGGATGCCAAGTACGCCAACAAAGTCGTGCTGCTGACCGATAATCTGGTGGACTACCCGAATACGCCGGCCTCCATTAACCAGACCCAGGTCGATTATGTGGTTAAGGTTGCTCAAGTTGGTGATCCAGACAAGATTGGTTCGGGCGCAACTCGGTTTACCAAGGATCCCAAGGAATTGAAGATCGCTCAAATGGTCAACGACGTGATTACCCATTCCCAATACTTCAAGGATGGCTTCTCGTTCCAGACCGGTTCCGGCGGTGCCGCGCTGGCCGTGACCCGGTACTTACGCCAATCGATGCTGGACAAGGGCATCAAGGCGTCCTTCGCCTTAGGCGGAATCACCAAGCCGACCACTGATTTACTGGCCGAGGGTCTCGTGAAGAAAGTCATGGACGTCCAAGACTTCGATAAAGGCGCTGCAAATTCTATGCATACTAACCCTGCACAGCAGGAAATTGATGCTTCCTGGTATGCAGATCCCTTCAACAAGGGCGCTATGGTTGATAAGCTGGATGTCGTGATCCTGTCTGCGCTGCAAATCGACACGGACTTCAACGTCAACGTCTTGACCGGTTCCGATGGTGTTCTGCGGGGCGCTGTTGGCGGGCACCAAGATGCTGCCACGGCGAAGCTGACGATCATTTCCGCACCGCTGGTTCGGGGCCGCTTGGCAACCATCGTACCGAAGATGACCTCCATTACGACGCCGGGCGAATCCATTGACGTCGTGGTAACCGAGATTGGGATTGCCATCAATCCGCGGCGCAAGGATCTCATTGATGCGTTGAGCCATATTCCGGGTGTGCCGGTGTTCACGATTCAAGAGCTGGCCGCCAAGGCGGAGGCTATTGTGGGCAAGCCCAAGGCGATTGAGTATACGGATCGGCCGGTGGCCCTGGTGGAATACCGGGACGGCAGTTTGATTGATGTGATCAATCAGGTTAAGGATTAA
>SRR1151209_02633 citrate lyase subunit beta
ATGGCAGAGACTGAAGAACGTTTACGCCGGACGATGATGTTCGTCCCCGGCAACAACCCGGCCATGTTGAAGGACGCTGGGATCTACGGCGCCGACTCCATCATGTTTGACCTGGAAGATGCCGTTTCTTTGAAGGAAAAGGATGCCGCCCGGGACTTGGTTTATGAAGCCTTGCAGACAGTGGACTACGGCAACGCTGAAAAGGTCGTCCGGGTCAATGGCGTCGACACCCCGTTTTACAAGGATGACGTTCGGGCGATGGTTAAGGCGGGTATTGATGTCATTCGCCTGCCGAAGACTGAAACAGCCGACATGATCAAGGAATTAGTGGACGATGTCGCCTCTGCCGAGACTGAATTTGGCCGAGAAGAGGGCTCCACCCACGTGATGGCGGCCATCGAAAGTGCCAAGGGCGTGGTTAACGCCAACGAAATCGCAGCCGCTTCCGACCGGATGATTGGGATCGCGTTGTCCGCCGAAGACTACACTACCGACATGAAGACTCACCGGTACCCGGATGGCCGCGAGCTGGAATATGCCCGCAACGTTATCCTACATGCTGCTCGGGCCGCCGGTATTGCGGCTTTCGATACGGTATTCACCAACCTGGACGACGAAGCCGGCCTGATTCGCGAGACGCAATTTATTCACCAGCTGGGTTATGACGGCAAGTCCGTCATCAATCCGCGGCAAATCGCGGTGATCAACAAAGTCTATGCACCAACCAAGGCGGAGATTCAAACTGCACAGCAAGTCATTGCAGCGATTGAAGAAGCCCACGAGAAGGGTTCCGGCGTCATTTCCCTGAACGGCCAAATGGTCGATCGGCCAGTGGCTCTGCGGGCCCAGCGGGTCATGAACTTAGCCAAGGCGTCACACTTAGTAGACGAGGAGGGCAATTATGTCGAAGAATAA
>SRR1151209_02634 citrate lyase subunit gamma
GTGGAAATTAAAAAAACTGCACTGGCAGGGACGCTGGAGTCTTCTGACATCCAGATCACCCTGTCGCCGGCAACGGCCGGTGGAATTCAGATCGACTTGGATTCCGCTGTTGCCAGCCAATATGGTGACGAAATTAAAAAGGTTATCACTGATACACTGACTGGTTTCAAGATTGACAATGCGCTGGTCAAGGCTGTGGATAAAGGGGCCTTGGATTGTGTGATCAAGGCGCGGACCATTGCGGCCGCACAACGGGCATTGGAACAGACAGAACCTGCTTGGGAGGTGCTTTAA
>SRR1151209_02635 citrate lyase synthetase
ATGGCTGATATTCGTGATCTCCATTTACGGGTGCCCGGTGTGCGCCAAGCATGGCTGGCTTTTCTCGCCGCCCACGGCTTGAGCGGCTTCTCTGATGCGGAGATTGCCAGCGTGGACAGTGTCATTGGTCTTTATGACGGCGATCGCTTAGTGGGTACCGGGGCCATTGCCGGCAACGTCCTCAAGTTCATTGCGGTGGACGAGGGCGACACGCCGGGGGCGAACTTTAATCAGGTCGTCTCTGAGCTGCAATCCCGGCTGATGCTGGCCGGTCATAGCCACATGATGGTGTTCACGAAGCCGCAATACGAAGCCAGCTTTGGTCACGTGGGTTTCACCACACTGGCCAAAACAGACGTTGGTGTGCTGCTGGAAGCGGGCATGCCGGGGATTAAGCAATACCTCACGCAACTGCCCGGCGTCGGCGATCAAGCGGCCAAACACGTGGCGGCCATCGTGATGAATGCTAATCCGTTCACCCGCGGTCACCGCTATTTGGTGGAAAAAGCGGCGGCTGAAAACGACATCGTGGATGTTTTCGTGGTGTCCACCGACCGCTCGCTGTTCACCAGCGCGGAACGGATGCAGCTGGTCCAGGCGGGCCTGGCGGACTTGAAGAACGTGCGCGTCTATCCTGGCGGCGACTATATGGTCAGCTATGCCACATTCCCTGCGTATTTTCTGAAATCCGGGGATGACGTTATTCGCTATCAGACCACCTTAGACGCCCGGCTGTTCCGGAACTGGGTCGCGCCGACGCTGCACATCACCAAACGCTACGTCGGCGAGGAACCCAAGTCCCACACCACCGCCATTTACAATGACGTACTGGCCCAGGAACTGCCGCCAGCGGTGCAGCTGATCGTCGTGCCGCGTCTCACAGAGGCGGGCACGGTGGTCACCGCTACCCAGGTGCGCCAAGCCATTGCGGAGGCGCAACTGGCCACCGTCAAGGATTTCTTACCGCCAACAACATGGCAGTTCATTCAGGATCATTACGCTGAGTTACTGAAGCGAATTGAGAAAGGACAGAATATTCGTGGAAATTAA
>SRR1151209_02636 malate permease
ATGATCATGATTGCGGTCGGCTACTTCGCCCAAGGAAAAGGCTGGTTTGACGAGAAGTTCTCCGGCGCCCTTTCCAAACTGATCATGCAAGTGGCTTTACCGGCATCTATTTTTATGTCGATGATGAACCACTTCAAGCCGGAGCAGCTGGCTAAATTGTCGGTCGGCCTGCTCTATAGTGTTGTCAGCATCACGATTGGCCTGTTGATTTCTTGGTTAGTCGTGCGCGTGCTGAAGGTACCCAAGGGTAAGCGCGGTCTGATGATGACCGCTATGAACTTTGCCAACACGGTCTTCATCGGGATGCCGTTGAACCAGGCTCTGTTCGGTGATAGTTCCATTCCGTACTTGCTGGTCTACTACATTGTCAACACCGTTATGCTTTGGACCATCGGCGTTTGGATCATTGCCGCTGACGATCCCACGGTTGGTGCTGATGGCACGGCTAAAGTGAAATTGGACTGGCACCACTTGATTCCCACACCGCTGTGGGGCTTCATTGTGGCTTTGCCGTTCATCTACATTCCCTGGCTGCGGACCCATTTGCTGGTCAACTTCGTCACTTTGACTTTGACGGATGTTGGCGCCCTGGTGACCCCGTTGTCCTTGATCTACATCGGGATTATGCTGAAGAGCTTCGGCATCGGCAACATGCAGTTTGACCGCAACGTGGTCGTCACGCTGCTGGGCCGGTTCGTGCTGGCGCCAGTGATCATGTTCCTGCTGATTGCTGCCGGCGTCAAAGCCGGCTTAGGGATGGTCCCGGTCTTCCAGAAGACCTTGATCATCCAGGCGGCCACGCCGACGTTCGCCGTGCTGCCGATTCTGGCCACGACCTATCATGGGGACGTCAAGTTTGCGACCAACATCGTCGTGTCAGCCTCTGTGCTCTTTGTGGTGGTCGTGCCGATCATCATGGTTTTACTGGGTTAA
>SRR1151209_02637 malate dehydrogenase
TTGGCAGAAAATGAAGTAGAACAGCTGCACAGTGCCCACACTGGCGTGTTGTCCATCAAGCCGGAACTGGCGGTCAATAACCGCGAAGACTTGGGTAAGGCGTACACGCCCGGAGTAGCCGGGTTGGCCAAAGAAATTGAAGCTGATCCAGCGAAAAAGGATATTTATACCACCAGCGGCAAGCTGGTCGCGGTAGTCACGGACGGCAGTGCCGTGCTCGGTTTGGGCAACATCGGCCCGGCTGGCGGGCTGCCCATTGTGGAGGGCAAAGCCTTGCTGTATAAGGAACTGGCCGGCGTGGATGCGATCCCCATGGCAGTGGAACAGGTCAGCATTGATGAGTTCGTCGCCACGATCAAGAACATCCAGAAGAGCTTCGCCGGGATCCATCTGGAAGATATTGCGGCGCCGCGGTGCTTCGCCATTGAAGATGCGCTGCAGCAGCAGCTGGACATTCCGGTCTATCATGACGACCAAGAGGGCAGTGCCATCGTTGTTTTAGCCGGCTTGATCAATGCCGCTAAAGTCGTGGGCAAGCCGCTGGCTGATTTGAAGATCGTTTTGACCGGCGTCGGCGCATCCGGCATCGCCACCGCGAAATTGCTGCTGGCGGCCGGCATCAAGCACATCACCCTGGTGGATATCCACGGTGTCGTTAAGCCTGATGATGACCGGTACAACAGCTACCAGCGGGAATTGGCCGGCCAAGTGACCAGCGCCGCCGGCGATACGCTGGACGAGGTGATCGACGGGGCCGATGCCTTTGTCGGGTTGTCCGATGCCCATGTACTGACTGGGGCACAGGTGAAGAAAATGGCGGCTCAGCCGATCATCTTTGCCTTGGCCAATCCGGTTCCGGAAATTGATCCAGCCGAAGCCAAAGCGGCGGGGGCTGCGGTTATTGCCACCGGAGCCAGCAAATACCCGAATCAGGTCAACAACATTTTGGCCTTCCCCGGTTTGTTCCGTGGTTTGCTCAGGAGCGGCTTGAAGTCGGTGAATGTTGACTTGGAGACTAAAATTGCCGAGGCGCTCGCCGGTTTGATTACCGCGCCGACCGCTGAAAAAATTGTGCCCGGCGTGTTTGACGCAGGTGTCGTTGATGCTGTGACGGCGGGCATAGAGGACTACGCCAAGACTCAAAAATAA
>SRR1151209_02638 citrate lyase regulator
ATGGCGACACCGGAACATCAGGCCCTCCTCACCGCCATCGCTCAAGATTATTATTTTTCCCGTGCTTCAATCAGTGAGCTCGCGGAGAAATACCATGTTTCCCGCTATTTCGTAGAAAAATATCTCCACGAAGCTCAGGCCTCCGGTTTAGTGACCATTACCATTCAAGCCCCCACCACCCGCATTCAAGCCCTGGAACTGCAATTCCGGCAGGCTTTCAACATCCCCCACATTGCAATTATCAAAGATGCCGCCAACCCGACCCAAACCGCAGAACACGTCGTCGCCTATGCGGCTCAGCAAAGTCAAAATTTGATCCGCACCCAGCACGTGGTGGGCTTGACCTGGGGCGGAACGATCTACAACGTGATCCAGCATTTTGCCGCGGACAATCAGCCAGAGCTTCTGTTTACCCAATATCTGGGGGAAAACATGAAATATCATTCCCGCGCCGGATCGACCCGGATGGTGGAAATGGCCGCCAACAAGTTCAGCAGCAACTATCGGACCCTGGTCGGCCCCTTGTATGTATTCGATCCCGCTGCCCGCCGACTACTCAGTGCTGAACCCGCCTTGCAGCCTACGCTGGCACTGGGGTCCAAGATGGACATGCTGATCACCGGCATCGGCACCATGGACTCCATTGATTCGATTCCTATTTGGCATGAACAGCGGGAGAAAATCGTGCCGGGTGAGCGCATCGCGGACGTTGCCGGGGTCATCTTTGGTCGGCCGTATACTGTGGCCGGCGACTTCATTAACCCGGATGACGTCCCCGTACTGGGCATTCCTTTGGCGCAAGTCATGGCCGTACCTCGCCGATTCGCCATTGTGACCAGCAAATTCAAGACTCGGGCGACCCTCGGCGCTTTGCGCGGCGGCCTGCTCACTGATCTGGTGACCAGCGAAGCAGTTGCCAACCGTATTGTCGCCGAAGCACCGGAATTACAGAAATAA
>SRR1151209_02639 hypothetical protein
ATGCGTGAACGTGATTTAACACTGGCCAGCCTCGTACTGCTCAGTGCGGCCTGGTTAGCTGCCCTCATTGGCATCCCCGGTCCAGTAATTGCCTATTTGTGGCTTGCCGGCTTGGGTATCACGCTGACAGTGACCGGCATTCTACTAGCAAATCCCCAAATGGGGCTCAAAAAGATTAGAAGCACTAGAAAACATCAACCAATCGGGTAG
>SRR1151209_02640 antimicrobial peptide ABC transporter ATP-binding and permease protein
GTGGCCGCCCAAAAGAGCAGCGACACCAACGTCATGACCAACGAGACCTTGACGGCGAGCACCAAGAAGACGCTGCTCGCCTATCTGGGCGGTGACAAGATTCCGGCCGCAATTCAAATTTATCCGAATAACTTCGATGATAAGGATAAGATCCTGACTTATCTGGATAAATACAACAAGGGCAAGAGCAAGGCCGACAAAATCATCTACACCGATCTGGCCGGCACGGTGTCCAGCCTGACTGGCGGCCTGATGAGCGCCATCACCTATGTCCTAGTGGCCTTCGCTGGCATTTCCCTGGTGACCAGCATGATCATGATCGCCATCATCACCTATACCTCCGTTCTAGAACGGACGAAGGAAATTGGGGTGTTGAAAGCCCTGGGCGCTCGGAAGAAGGATATCACCCGGGTGTTTGACGCCGAAACCGTAATTCTCGGCGTCGGTGCCGGGGTCCTCGGCGTATTCATCGCCTGGCTGGCGACCTTCCCCATCAACATCATTTTGTATAACATCACCAGTTTAGCCAACGTTTCCCACCTCAACCCGATCCACGGGGTGATTTTGATCATTGTCTCCACGATCCTCACCGTCCTCGGCGGGCATATCCCGGCGCGGATGGCGGCGAAGAAGGATGCTGCGATTGCGTTGAGAACCGAGTAG
>SRR1151209_02641 transposase
ATGCAAAACGCTCAAGTACTCAAAATGCAGATCAAGTTCGCTCCAGACGATACTGTTGGACCAGCGGCCATGCAGGAAACCATGAACCACTATCGCGATGCCTGCGACCTGATTAGCCGGCACGTCTTCGACCGGGATTTTAAGTTCAGCGCCTTCTATCTCCACTCAGTCTTCTACAAGAAGCTCACGAATAAGACGTCCACGATGTATCTAAAATCCCAAATGGCCCAATCCACCACACGCACTGTAGCGGCACGCTACAAGGCTCTGGACACAGTTCAACACCAGAAGAACTGGGGTTGGAAGAATCCCGATACTGGCAAATGGGTCAAGGAACGGGCTAAAGACTTGACGGACTTGTGGTACCCGATCCGCTTCAAACGGCCGCAGGTTGATTTGGTGTTCAACCGGGATTGGTCGGTGTTGGATAACTGGGCGAAGTTGTCCCTGAACACCATTCGCGGTCGAGTGATTGTCACGCCCGTTACCACCCATTGGGAGAAGTATCTCACCGGCGCATGGAAATTTGGCACGGCAAAAGTCATCAAATCAGGCCAAAAATGGTTTGTCCACATCAGTGTGACTCAGGAAGTCCCGGATGTTCCATTGGAAAGTATCCAGCGGATAGTCGGAATGGATCGCGGTTTGATCAATATCCTCACGGCCTATAATGATGAAACCGGTGAAACTGAGTTTATCAGCGGTAAGAAGCTGCTCAACAGACGCCGTCGCGGAAAGCAGCAGCGCAAGCACCTGCAACAGAAACGGACCTCCGCTGCCCGGCAGCGGCTCAAGAAAATCGGTCATCGAGAAAACGGTTGGGTGACGAATATGAATCACCAGCTTGCTAAGGCACTCCTTGACTTCTATGGGCCTGGGACACTGTTTCCCATCGAAAAGCTGAATGACATCCGTGAAGCGCTGGAAAAATCACCAAAGGATAAGAAGTACGAGCAGGTCAGCTGGCCCTTTTACCAGCTGGAACAGTTCTTGCTGTACAAAGCTCAGCAGTATGGCTGTATCGTGATCAAAGTAGATGCGCACTACACCAGCCAGCGCTGTCCCAAGTGCGGCACCATTGACAAGAGTGCTCGAAATCATCAGCTCCACGAGTACCATTGTAAGCAGTGCGGCTTCCGCACCAATGATGACCGGGTAGCAGCGATGAACCTGACTGAACTCGGCCGGCGTTATTTGGCCGGCGACAAAGAGCCGTCGTTTGACTCAAAGAAGCAAAAGAAAGCAAACCGGTCGGGCATGGCCTGA
>SRR1151209_02642 hypothetical protein
ATGGAGAAATGTGTGAACAGTTGCGGGAATATTGCGGATGGCAGCATTTGCTTATTGCGTATTGAAGGCAATCTGGCACTGGCCACGGTCACCACCGGCGCCATCTATCCCGCTGATCGCCCAACGGCTGTGAGATCACCGCCGTGA
>SRR1151209_02643 hypothetical protein
GTGACCACGATGCTGCGCTATGCCGGCGCTAAAGTCGACAAGATGCAGCTGGCCCGGGAAATGCCCCGGTCTAAGGATCCCAACAAGGGATACATCGGCAATCCCTGGGACCGTTCTGGTGTGACCATCTTCCCGCCGGCTTTGATAGGCCTGGTGCAAAAATACGCCGGCAACGCCATCAACATGACCGGCATGTCCTTCGATGCCATTCGTTATCAAGTCGGCCTGCGCCAGCACCCTGTCGTGGCTTGGCTGACACTGCACGGGTTCCCGTACCATGCCGTGGTCGTCATTGGCTATGATGCCAGCAACGTGACGTATCTCGACTGCTGGACGAACCAGCGGGGAACGATGAGTATCGCGGCGTTTGAGAAGAACTGGCAAACACAGAAGCGGCGGGCAATTTCGTATTGA
>SRR1151209_02644 abortive phage resistance protein
ATGCTTATCCACTTTTTTGCCCAAAATTTCCGTTCCCTGAACAACATTAACTTCTCGATGGAAACCGGAGAGCGCCTGCAACAACGTGAGGACACCAATACGTTTGCGCATGCCACGCCGTCCGTTTTAAAGTCGATCATGTTTTTCGGCGCTAACGGCGCTGGTAAAACCAATATCATCGATGCACTGCGAACGATGCAGCAGATTATCACCCATCCGCTGGCGCAGGCTGCCAATTTTTCAACAACTTATACACCCTTCTTGTTCGGCACAGAAATGACTGACAAGCCCACCACATTTTCACTCAGCTTTGTCGCCCAGAACGTTGCGTACTTTTACGATTTGGCCTACACCAGGGAACGAATTACTTCTGAAAGTCTCTCCGCCCAAATCAATGGGACCAATGTGCTCTACTTTGTCCGCGAGTTGGATCGCTTCGCCAACGTACCAAACAGTCTAAAATCGGTGGCCGCTGTCACTCGCCCTAATGAGTTGTTCTTGCACCGGGCATACACCGCTGGTGACAGACACGCCGCTAATGTCGTGCAGTGGTTTGCTAACGACTTGATTTTCTTCACGCCAACGGCTGAGCTGTCGAAATCGATGCTGACACTGCTGGAGGATCCACAGGCCAAGGCCAAAGTGCGATCCTTTCTGCAAGCAGCTGACATCAAAGTTCAGGATTTGGTCGTGTATAAACTGGAAAATGGCGAAAGAAGGCTATCCGTATCCCACAACATTTATGCGCCATCGGGCAGCGTAGCCGGTATGCGGCCCATCCCCTTCAGCGCCGAGTCCAAGGGCACGCAAAAAATGATCATGATGGCCTTAACGGTGCTCACCGCACAACAAGCGCGAGATCGAAAAGTAATCGTCTTCGACGGCTTCAGTGACTTTCTCCATGAGGAGGTATCCGGTGCCTTATTGCGGCTCTTTAACTCAGCTGAGAATCGCAATCAGTTTATCCTGACCACCCATACCTTGAGTTTACTGAATGCGGAACTGCGGGCAGATCAAATTTTCTTCGTCGAGAAGGACTTTCAAGGTGAAAGCCAGGTCTACTCGTTGTTTGATATCAAAGATGTACCGAACACCCAAGGTTTTGACCGGATTTCCAACTTATACAAATTCGGTACCTTTGGCGCTATCCCCGATATTGATCGTGACCAGATGCGGCAGATTCTCTGA
>SRR1151209_02645 3-hydroxyisobutyrate dehydrogenase
ATGAAAATCGGATTTATCGGCACTGGGGTCATGGGCACCGGCATGGTCCAGAACTTATTAGCCCACGGTTCAGACGTGACAGTGTATAATCGCACTAAGGCCCATGCGCAAACGGTGATCGACACCGGTGCTAAATGGGCCGACACTCCGGCGGCGTTGGCACAACAAAGCGATGTGATCATCTCCATTGTTGGTTTTCCTAAAGACGTGGAGCAGGTCTACTTTGCGGACGATGGTGTTTTTGCCGGCGCACATGCCGGTCTGACCGTTATCGACATGACAACCGGGTCACCTGAGATGGCGAAAAAGATTGACGCCGCGGCTAAAAAGCTGACCAACGTGGCTGCCTTGGACGCCCCCGTATCCGGCGGCGACATTGGCGCCAAGAAGGGTACGCTGACGATCATGGTTGGCGGCGACAAGGATACTTACGAAAAGATGCTGCCGATCTTCCAACAGATGGGTACCAGCATCAGCTACTTCGGCCCGGCTGGCAGCGGTCAGCACATGAAGATGGCCAACCAGATCATGATTGCCGGGACGATGACCGGGATGACTGAAATGATGGTGTATGCCCAGGCGGCGGGGCTGGATCTCAAGCAAGCCTTAAAGACCTTGGCCGGCGGTGCGGCCCAGAACTGGTCGCTGGATAATTACGGTCCGCGGGTGCTGCAGGGGGACTATACGCCTGGTTTCTTCGCCAAGCATTTCTTGAAGGACTTGCGGATTGCCCTGGATGAGGCGGATCGGATGGGGCTGGAGTTGCCAGCAACCGCGGAAGCTAAGCATCTTTATGAAGTGATGGTGGATTCGGACGGGCTAGGCGACTTGGGTACGCAAGGGTTGATCAAGCTATGGTGGCAGAAGTAG
>SRR1151209_02646 hypothetical protein
ATGGCCGAAGATGACATCTCGTGGGGCAAAGAGTACATGGACAAAATGCGCTCTTTACCGCACTACACGCAGGGACATCAAATCGTTGAAAAAATGGTTTTAAACCACGTGAGCACGGAACAGATTCTTGCTTTCACTGGCCTGACCGAGAATGAGTTCGCAGCAATGCTGGCTGGTGATGGTGCTTTTTCGGATCAGCAGTACACCGACCTTTTCGCTCAGATTGAGAAACATGGGCATAAGCCGGTACATGGTTCTGATCAGTCGTCAAAAGCAAACTAA
>SRR1151209_02647 hypothetical protein
GTGGAGGAACCTAAAGTTGCAAAGGGAGACGTCCTTTGGGGCAAAGCATACATGGATTATATGCGGTCGTTGCCCCATTACGCTCAGGGTCGAAAAATTACTGTCCAGATGATTCGTTACAATGTCACTGGGGAGCAGTTGCTGGCATTCACTGGATTTTCGGATCACGAGTTTGCGGCGATGCTGGCTGGCGATGGGGCATTCACTGATCAGCAGTACGAGAATCTCTATGCCCAGATTCGCGCCCATGGTCACAGACTGACCAAGGGGCTAGGTAATGAGGACGGTCGAGTATGA
>SRR1151209_02648 hypothetical protein
ATGATGGATGATAGTGAGTACGTCAGCGGCAACGAAATTGCCCGTCAATGGCGTGAAATGCCCCATCGCAAGCAGGCTGACAGAATTGTTAATGAGATGATCCACAATCATCTCACTGCTGAAGAAGTCTTTGCACTTAGCGGTTTGCCCGAGCACGAATTTGCCCGCATGCTTGCTGGTGATGGGGCTGTCACCAATGCGCAATATGAAGCGCTCTACACGCAGATTCAACTGCATCGCCGCGACTCGGTTAACGATCATAATTGA
>SRR1151209_02649 hypothetical protein
GTGAATGAGGACGAATTTCTCTGGGGCGAAGAGTACATGGACAAGATGCGCTCTTTACCGCACTACGCGCAAGGGCATCAAATCGTTGAAATAATGGTTTTATACCACGCGAGCACTGAACAAATCCTTGCTTTTACTGGGTTGATCGATAATGAATTTGCGGCGATGTTAGCTGGTGATGGGGCATTCACCGATCAGCAGTACGAGAATCTCTATGCTCAGATTCGCGCCCATGGTCACAGACGGACCAAGGGACCCGGTAATGAGGACGGTCGAGTATGA
>SRR1151209_02650 hypothetical protein
ATGATAGATGATAGTGAGTACGTCAGCGGTAAAGAAATTGCTCGTCAATGGCGGGAAATGCCCCATCGCAAGCAGGCAGACAAAATCGTCCTTGAAATGATCGACAACAACGTCTCCATCGAACAAGTACTGGATTTTACCGGGTTTACTGACCACGAGTTTGCCCGGATGCTGGCCGGTGATGGGCCATACACCCAGCAACAGTACGACGACCTCTACGCCCAGATTCGTGCCCACCAAACCCCAGTTAAATAG
>SRR1151209_02651 hypothetical protein
ATGGCTAAAACTTGGTTAAGCAATTCCGTAGCATTCTCTCTGACGAACGACACGTATGACAACGGCACGCTGGATCGGCGGTTCAATAATATCGCCGAAGACGCGACGCCCGAGCAATTGCTTGCCGTGGGGGATGCGCTGACAACGCTGCATGCCGGCGACATTCTGACCACCACGATTCTCACCACCAAGGCGCAAATCGCCTAA
>SRR1151209_02652 hypothetical protein
ATGAAGCAATTACAAATGAAGTACCACACGTCCGCAGGCAAGAGCAAGACTTTGTCCGTGAATTATGTCGACCAGAACCTGACCGGGGAACAAGTGAAGAAAGCGATGGGCACCATCGCCGCTTCCAAAATCTTCATCAAAGACGCCGTGTTCCTGTACGATGTGCCGGTTTCGGCGAAGTATGTGGAACGCACTGAAACACCGCTTTTTGATGACGAAGCTGGCGAAAGCACTCCAGAAGTGCCTGAAGTCCCTGAAGCAGCTCCGGCAGCTCGTTAG
>SRR1151209_02653 hypothetical protein
ATGCGTCAGTTCAAACATTTACTAATTGCGACGGCCCTGTTGAGCGCTGGGGCCTTGGCGATAACGCCAATTGTTGCACAGCCAGCAACCGTAAGCGCCGCCACGACTCAAACCAAGGGGGACGGCGTGGTCACTCCGGCCAAGGGAGTAGTGTATATTGCCCGCAGTGGCGGGGCCAACACATACAGCGATCCGGCCAGTCTGACATCGGTCAATGGTCATCTGGCTTTCGGCTCAGCGTGGCGCTACAGTGCGATACTGAATAGTCCGACCACTGGCGTAACGGCCTATAAAGTGAGCGGCACACAATGGGTAGCAAACATTGATGTGTCCAATGCGCCCACTGCCACTGGTAAAATCACGGCCCAGAAGAAGAGCGGCAAGCTGTATCTCAGTTATTACAATGACGGTATTGCGACGTATAAAGATCCGGAAATGAAGCAAATCAATACCGGGTATGCCCAATTGACGTTCATTCCCATGCCAATGGGCGAAAACGGCGTCGCCTACGACCAAATCGCAGTGAATACCATGGGGCAAACAACGGCCTATCACTTGGCCCAGGGCTGGGTGCCAGCTGGCGGTTACTTCTATGAAGAGAATCCAGCTGTCTATACGGTTGAAAAAGGTGCCGGTACGGTTATCGTTGGCACAAAGGGCGCCCCGATTTATACGGATCAGACCTTGACCAAGACGACTGGCCGCACCTTAGCGGCCGGCAGTCAGTGGCAGTACTTTAGTTACCTGAAGGGCCAGCAAAGCGGTGTCTTCACCTCTCAGAACGCCTATAACTTAGGCGGTAACCAATGGGTCGCCCGGCGGGATGTGACCGCCTATGCTAATGGCGTCCGGATCAACAGCAATATCTTCACGGTTAACTATCCGGCGCACCCGACTTGGTCCGTAGCGAAGTACCAGTTCGTGAATGGCCAGATGAAAGCCGTTGGGCTATTGCCAGCCAAGTCGCAGTGGAAGACTTTCCAAGATCGCATAGTGGGCGGCAAGATCTATCATAGCCTGGGCGGTAACCAGTGGGTATTGGCCTCAACCGGTACCTTGAAATATAATTATTAA
>SRR1151209_02654 hypothetical protein
ATGGCGAACATCTATGATCCGCCGCGCAGCAAGTGGCTTTATCCCGATCGGGGCATGGTGAAGTGGCTGGGCTTCTTTCTCAGCGACCACACCGCCGCGTTGGAACAGGACAGCGATACCGGCCAGCCGGTGGGCACGCCCCAGGTCCAGCAGGACGAAGCAACGATTGGCGCGCTGCTGGATAATGCCTATCTGACGGGGGAGACCGTCCATATTCAACTGAACGTGTTAGAAAATGACCATTTTCCGCCGGACGCGGTGGGCACCGTTGCCGGTTTTTCGAATGACGGCCGGGTGCTGCTCTACACGACCCATGGCGCCAAGCAGCTTAATGTGGCGGCCATCCGTAATATTCGCGCCGAAGAACCGGCCAAATGGTACCGTGCCGGGGTGAATAATTATGGCCAATAA
>SRR1151209_02655 excinuclease ABC subunit A
ATGGCCAATAAGGAAGAAAAGACGCCGCTATCCGACCCGACCGCGCTGCCCCGGCGGGACTTCATGTGCATCGACTGCAAGTCCTTCTACGCCAGTACCGAAGCCATCAAGCGCGGCATCGACCCGCTGGCGGCCAATATGGTCGTGCTCTCCCGGGAAGAAAGCAGCGGCGGCCTGGTTCTGGCCGCGTCGCCGTACTCGAAGGAAACCTATGGGGTGAAACTAGGCACCCGGCGTTACGAAATCAAACCGCAGATGAACCTGACCATCGTCGAACCACACATGGCTGATTACATTGACCGCAATATGCGCATCAACCACATCTACCAGCAGTTCACCGACCGGCCCCACTGGTTCCCGTACTCCATCGACGAATCCTTCCTGGACGTCTCCGGGTCCCACAAGCTGTTCGGCGACAACGACGAGATTGCTGCCCGCATCCAGCACAAAGTGTTCACCGAGACCGGCATCGTCACCACCGTCGGCATCGGCCCCAACCCCTTGCTGGCTAAGCTGGCCCTCGATAATGCAGCCAAAAAGAAGACGCCGTGGCGGGCTGAGTGGGATTATGCCGATGTACCGGCAACGGTGTGGAAAATTGCACCGCTGGACGACATGTGGGGCATTGGCAGCCGGCTGGCGAAACGGCTCAACGCCATGGGGATTTATACAGTCAAGGAACTGGCCCATGCTAATTTGAAGATGCTGGAAAAAGAATTCGGTATCCTCGGCGATCAGCTCTATTACCATGCCTGGGGAATCGATTACTCCAATTTGGAGCACCGCTACGTGCCCCGGAATGAGACCCGGGGCTACGGCAATTCTCAAGTGTTGATGCGGGATTATACCACCTTTGAAGACTGCACCACGATCATTCGGGAGATCGCCCACCAGGTGGCCGCCCGGCTGCGCCGCCACCAAGTCCAGTGCGAGATCATCGGCATCAATATCGGGTATGCGGAAGAAAGCGACCAGCGCCGCGGCTTTTTCTCCGCCCAGACCCGTGTCACACCGACGAACCTGGACGACGAGATCGCCACCATTGCCGTTTACCTATTTAATAAGAAATGGGACGGCAGCCCTATCCGCAACGTCGGCGTGCGCTGCACCCGGATCTCGGAACAGCACAGTCTCCAATTGAATGTGTTCGAGACCGGCCAGCACACTCTGGACCGGGCCCAGTTGGACCGGGTGATCGATAACATCCAGACCCGTTTCGGCGTCAAGGCGCTGGTGCGGGCTTCCAGTAAGACGAAAGGCGGGACGGCCATTGATCGGGCCGACCTGATTGGCGGGCATCATGCGTGA
>SRR1151209_02656 acetyl-CoA carboxylase
ATGCGTGACGAAAGCAAGTTGTTATTAAAACGCTACGACCATTATTTCTTGCGGGAATACAACTACCGTTACTGGCTGGTCATCGTCAAAAACCGATTCGATAACGTCTACGGCTTCTTTATTGAGTCCCAGAAGAAAGGCGAGGCCATTGTCCACTCCAATGAGTTGTTGTCCTTGCCCTTTGCCAGCGGCCTGTACGCCGAAGTTTTGGCCGACCTCAAGGCCCATTCCCACTTGCGGATCGTTCCCCGGGATACTGCCCACCTGGAGAAACTGGTCCCCGCCGTGACCTTCGACCCGCTCCACGGCCACCGCCACAGCACGGCCTATCTTCCCACCGATAAAAATAACAAGCGTTCTTAA
>SRR1151209_02657 hypothetical protein
ATGATGAAGCCAAAGAAGAATACCATGTTCACGTCTAGGATCGGCCGCTTGATTGGGGCTGTTCTTTTGGCCGGGGTCCTCACGTTGACCGCCGCGGGCATCGTCGCTGTACATAATGCGCGGGCGGCGACGGACAACAGTACACCGCCGACGAGCCAAGCCGATACAGGTAATAAAAATGACGACCAATCGGATGACTCGTCCGGTCCGTCTAACGGCGACTCCAATACCGGTGTCAAGGAAGTCAGCGGCCAGATCGTACCGGTGGATCCTTATCAGCAGTCCCTGAAGGTGCCAGCGACCAGTTACGGCCCGGTGCAAGAGGGCACTAGCATTGATGTGCCGGTGGTTGCCGGGTATTACCCAGAGGACAGTCAAGATGTGGATTCGCTGGTGGTCGGCGTTCAGGTGCAAGTCCCCAAAGAGGGCGGTACGATCTATGTGACGTATCTGCCGACCAAGAATCCCGGCGGCGACACAGGCGGCAACGGCGGGACCGGGTCTGGTTCTGGGAGCAGCAGCGGCGGTCAGAGCAGTGGCGGCAGCAGCACGCCCAGCAGTACCCCGAGTACATCAACCAGCCAACCGTCTTCCCAGCCGTCCAGCAGCAGTACGAGTTCCGACACGCCCAAGATTCCTGACGGGCCCCGTCAGAACAAGAGTACCAGCAGCAAGAAGTCGTCCAGCACGACCCAGCAGGCGTCTGGTCAAGACAGCGACAGTGCCGCCAGTTCGTCCAGCAAGCCCTGGTACAGCTGGTTCACCGGCTGGTTTAGCGGCAACAAGAACAGCCAGTCTTCATCGTCCAGTGCAACCAGCAGTAAGAAAGGCAGCACGTCCAGTTCAGCGAAGAAGGACAGCGCCGATAACGACAGCAGCAGCCAATCCGCCGCGACGCACTTGAAGAGTGCAGCGGGTAAGACAACTAAAAGTCACACGCAGTGGCTGGCCATTGGCATCACCGTCGTGAGCGCCGCGCTGCTTGGCGGCGTACTGGTCCTCCTGTGGCGGCAGCGGCGTAAGAGTTAA
>SRR1151209_02658 glycosyl transferase
ATGACCGCCATTGATCTCGCCATTGTCTTACCCGCGTATAACGAAGAAGCCGTCCTGCCCATTTCCTTGCCCCGCTTAGAGAAACTGCTGGACCAAATGATTGCCGACCAGCTGGTGACGCCTAAAAGCCGCTTAGTGTTCGTCGACGACGGCAGTCAAGATCAGACCTGGCCGCTGATCCAGCAGGCCCAAACCGAAGACCCCCGGGTCACCGGCGTGAAACTCAGCCGCAACTTCGGCCACCAGCGCGCGCTGCTGGCCGGCTTAAGCGTCACCGCGCCATTAATGGATGCCGTCATTTCCATCGACGCCGATCTCCAGGACGACATCAATGCCATTCCCAAAATGGTCAAACAATTTCAAAACGGTTACGACGTCGTCTACGGCGTGCGCAACGACCGGCAGACCGACACGGCCTTCAAGCGGGGCACGGCTGGGATGTTCTACGGCCTGATGAACCGTCTCGGCGTGCAAATGATCCCCAACAGTGCCGATTTCCGCCTGCTCAGCCAGCGGGCGGTGAAGACACTGCTTTCCTTCCCAGAAGAAAACCTCTTCCTCCGCGCGATGGTCCCCCTGGTCGGCTACCCCAGCACCACCGTCGAATACGCTCGCCTGCCCCGACCAGCAGGGGAGTCCAAGTATCCGCTGAAAAAGATGCTTTCCTTCGCCTTCGACGGCATCACCAGCTTCTCCATCGAACCGATCCGGCTCGTCATGGATATCGGTTTTCTCTTCGTTTTCATCGGCATTGCCGCCTTCATCTACTCCCTTGTCCAGCATGGCCGCGGCCGGGTCGTGCCGGGGTGGACCTCCATGTTCTGCTCGCTCTGGATCATCGGCGGTGCGTTGATGATTGCCATCAGCGTGCTGGGAGAATACATCGGCAAGATCTACACCGAAGTGAAACGCCGGCCGCGGTTTATTATTGAAGAGGATACCGTGACCCCATCGGAGAAAAAATAG
>SRR1151209_02659 xylanase/chitin deacetylase
ATGGAGAAAAAGCGGCATTTTTGCTGGTTCTTGGGGTTACTGGTCATTCTGCTGTTTGGAGTCATCGGGACTGCTCGGGGACAAGCACAAGCAGCTGCACCTGGTGCGACGAATAGTTTAACAGTCCATCAGGTTTTGACGGTATATAGCGGCACGGGTAAATCCGCCCAAGCAACTGGGGAGAGCGTTCAGCCTGGTCAGCAAGTCAAGATTGGTGATATGACTACTGTGGATGGTTACTCTTGGCTGGGTCTGGGCGACGATCGCTGGATTAGCTTTGACCCCAGCGCAAATCCAACTTACGAGAGCCGGTTGTGGACCCGCACGCCGATCACTATTTATCGTGGCTTGGGGGGCCATCGGATAAAGACCGCCGACAGTATTGCTGCTGGGACGGGGAAGACAGTTACGGCCTATATTGACTTGGACGGTAGTCCATGGTATCAAGTCGGTAAAGATGAGTGGGCAAGCACTAGTAGCCGGTATAATCCAGTGTCGGCCCAACAAACTTTGCAATTGTCATTCACCACTACGGTTTACACGGGAACAGGTATGCAACGACGGGCAACGAGCAGGACCCTGCCGGCGTTGTCTAGTGTAACTTACACTAACACTCTTACAGAGGGCAGCACGACGTGGTATAACATCGGTAACGACGATTGGGTGACTACAGATCCGGCATACAATCCAGGCTTCGAGCAGTACGTGTATGTGCCGACATCTGTACCGATTTGGACAACTTATACGGCCAATCGAATCAAGACGGCACAAATAGTATCTGGTAACACTAACCAGGTGCTCCAGGGCACCGTTTCGCTCAATGGGGTGAAATGGTATAAAATTGGTGTTAATCAATGGATTACGCTAGACAGCGCTACGAGCAGTGCGGCAGGTCAGAAACCGACAGGGCCCACTGCGAAGCGTATCGTGACGTTATTGGGGACAACAAATATCTTTACTGCGCCAAACGGAGCAGCTATTCACCGGATATTGAAGAATGGCACTCAATGGCGCTATTTCACGAGCCAGGTCATCAACGGCAGTACTTGGTATAACTTAGGCGGTAAGCAATGGGTCACCAATGCTCAAGACACAACGAATTGGGAAAAAAAGGCAGATACTATCCAATTTCCAATTCTGATGTATCATGAGCTCGCTGACAATCAGCCAAATAATAGCTGGTATGTACCTGTTAGGGAATTCGCCCAAGAAATGCAGTGGCTGCGCGACAATGGCTACTACTTCTTAAATACGCAGGAGGCATATACGGTTTTAACGACTAACCAGGCTCCTAGCGATAAGTTGGTTTGGCTGACGATGGATGACGGCTACGAGAGCTGGTTCACTAAAGGGTTGCCGATTATTCAGCAAAACGGTGTGCACGGGACGATGTTCCTAATCACCAACACGGGTGGGTTGACCCGTCAGCAAGCAGTGATCATGAAAGAAAATGGCATGGACATTGAGTCCCATACTGTGAACCACTTTGATTTGAGCCAACTGCCGGATTATCAGCAAAAGCAGGAAATGCTGGGTGCCAAACAATACTTGGATAGTACCTATCAGCAGAATACCACCGCCATCGCTTATCCTTACGGCAATTATAACGACGCTACCAAAACCGAAGCAGCCGCCAGCGGTTACACGCTGGGGTTGCGAATTCACGATGGGTTAGCCAGCAAGGACAATGGGTTGTACAGCTTGAATCGGATCAAGGTTTCCCCTGGCCTGACGGCCGCTCAATTCCAGTATTTAGTGGAACACGGCAAAGACCAAGAGGTTTCTGGAATCGTCATTGGTCCGCCAATTTTAAAGTGA
>SRR1151209_02660 serine hydrolase
ATGAAACGGATTACCACATTTATCATTGGTCTGTTGATCGGTGGAGCCATTATCGGTGCGGCCGGCATTACGGTTTACTATTCTTATGTCCGGCCCCGGCACGTGGCTGAAGTTAAGCGGGAAACCGAAAAAGATGCCGCTGACCGTAGCAGTCTAGCCCTCCGGGTCAGTGATTTGAATAAAGATCTCCAGGCCGCGAGCAAAAAGCTGCCAGCCCAGCCGGGCCAATCCAGCGTCAATAAACTTAGCAGTACCGCCGAAGCCCAATTGGTCAAACGCCTGAACAGCGAGCAATTCATCGGCACGGTGTTGATGGTTCGCAACGGGACAATCATTTACCATCAAGGTTTCGGATACGCAGACGCCAGTAAGAAGCGTTTGAACACAGTAAAATCAATTTTTCAAATCGGTTCCACTCAAAAGTCGCTCACCGCGATCGCCTTGGCCCAGCTGATTGCCCAAGGGAAGGTGCACTACAGTGACAATATTCATCAATATTACAGTCAGATTCCAAGCAGCCATAATATCACCATTCGCCAGATGCTCGACATGCGCAGTGGCTTGATCTATACATTAGGGGCGCCAAAGGCCGTGCTCACGGACGCCCAGGTAGTCCAACGCAACTTGGATAATCTAGTTTATGACGCGGCCTTTCACGGTAAGCAGAACTATCAGGCAGTGAATTTTGTCTTGCTGGCTGGAATTATTGAGAAAGTCAGCGGTCAGAGTTACGAACAATACATCACCCAGCATCTATTCCAGCCGCTTAATTTCACGAATGCCCAGGTTGGCTTTGCATGGAATTTTGCTAAACAGGCTAATCGGACCGTCAGCTACGTCGCTAAAGACGGCATCGGTACTTACGGCGAAACCATCACTGAGAAGCTGGCTGATATGCGTGGTGAACTAGGCACGGGCAATATCTACACTACCCCATACGCCCTTTACCAGCTTGAGCGCGCCATTAATCAGGGCAAATACATTAGCACTGACGACTTGGATACGCTGCGGGATACGACGGACGGGCAATACGGGGGCGGGGTGTATAACTTCCCGGATTATGTTTATTCCCACGGTGTCAAAAACTATCAAGACCTAGTCTTCGCCATGAGCAAAGACGGTAATACTGCAATCGTTTTGATGTCCAACCGGCCATATGAGTATAATAAAGCGCTGGACAAGGCCAAATGGTATTATAACTTTGCTCAAACCGCTGAACTGTCCGATTAA
>SRR1151209_02661 muramidase
ATGAAAAACACAAAGTATGTTGGGTTAGTTGCAGCAGCCTTATTGGCTGTTGCGCCAGTTGCCGCACCTGCAGTGACGGCAACAGTTGCCCAGGGAAATGGGACAGCACAAGCAGCAGCAAAGACAGTGCCATATTTTGAAATTGGCAGTGTTACCTACCAAAGCGGTGTAACGCTTGATGTCCTCAACAAAAATCAGATTTATGACACAAGCGAATCCGGTGACGATATTTTTACCGCAGTTTTGGCTCAGGCTAAGAAGGACTTAGTTACTGATCCCGTTCTGACGGCTTATTACACCAGTGATGCAGGCAAGAAGACCGCGTTGAAATTTGGTGCAGGCCAATTTGACCGCGGGACGTACACGTATGCGAAGCTTGGTAAGTACGTCGACAGTTTGGATAAAGCTGGTAAAACGACTATTCCGTTTACTGTGACAAATCCTGATACCGATGAGAAGGCAACAGTGAACATTACCGTTACCGTTCGGGATTCGGCAAAAGCACCCTACATTAAAAATGCTGGCAAGGCATATATTGAGAAGGGTGCAAGTTTCGACCCGACTGCGGGTGTTGGTTTTTATGAAAATGAGGACGATTTGACCAATTTGGGCACGTCGGCTTACACGATTGACCAATCCAACTTGGATCGTAACACTCCTGGCGATTACACGATCACTTACACGGTAAAGAATACGGCTGGTCTCACTCGGGTGCTTAAACGGGCCGTGACAGTGATGGGCGATTCCGTTCCGGTCTTCACGTATCAATCCGCTAAGAACACTACGAAGACATACAAAAACGGCGAGGCCGTGGCATTGAATGATGCGGATGCCAAGGCTTTGACCTTCAAGAAGAATGTTTCTTTTGACGATATTACAGCAGCTCTAAAGGCCTTGGTCAGTGAGGATGGCAATTTAACAGCCACGTACACACATTACTTTAAGCCCGGCGATTCAAGCACCACTGATCATTACACCGTAACGCCTAAACTGACTAGCCAATTCAGCAGCAACGATGCTGTGCGTGATGTCATTGACAGCACGGCTAGTGATGCCAGCTACGATGTTCCGGTCACGGTTAGAAACGGCAACGACGATAAGGTATCCGTCAAGGTGCCGGTGGTTGTTGGGACGCCTGCGGCATTGACCCAAACCAATAAGGATCAAGTGGTTTATATCAATGCTGACACTACTGCGCAACTGTATTCGGATAAAGGCACGACCAAGGCAATCAGCGGTCGGACCCTCTCGGCAGGCTCCGCTTGGAAGTCTCCGGCGGTCGTTACTGATGCTAGCGGCAAGATTGTCGCATACAACCTAGGTGGCAATCAATACGTAAAGGCCAGTGACGTTTCGACTTCATCAGCCAACATTGCTTATCAAGTCAAGACCCAAACTGTAGCGATTGGCAATCAGTCGGGCGCCCAATTGTATAGCGATCCGACAACCAGCAACGCCATTTCCGGGCGGACATTGGGCTACGCGACTTCCTGGGTTTCTTACAAGGAAGTCTATAACAATGGCACTCTGATTGCTTACAATTTAGGCGGTAATCAATACATCAAGGCCAGCGATGTGACCAATGACCAAAGCCAGGCCGCGTCTGGAGTGTTCACCATCTCTGTACCGAGTCACCCGACTTGGGGTACAGCCTTCTACAACGATTCCTTGCAAGCTAAGGGCATCCTGCCCGGTGGTTCCAAGTGGAAAGTGTTCGCCATCAAGACACTTGGTGATGGCAAGCAATACTACAACTTGGGCGGCAACCAATGGATTCGTGCTGATTACGGTCGTTTAACTAAGTAA
>SRR1151209_02662 hypothetical protein
TTGTCTGTGGTTGCCGCAATTGCGACGATCACTACCGTACTCGGCGCACTCATCGGCTTGGTCATCGTGGCAACACGGTTGACCAAGGCGTTGACGAAACTGTGTTTAGCAGTTTCTGCGCTGGTTGCGGCCCTCCGGGTTTTCCGGAAAAAATAG
>SRR1151209_02663 hypothetical protein
TTGGTCAAAGTGGAAAAGAATGATCTGCACAAAAAATTCACAATAAAGAGTGCCGCTCCGAAGCCGAAGACAACAAAATCAGCCAAACCGGCAGCGAAAGCTCCGGTGACTCAGAAACAAATTGAACTTGCAGAGGAGAATGAACTAGACGCTGTACAAGATGAGAACCAGCCGGTCGTCAGCCAAGCCTTAGGCAATACACCGCGCAAGATCAAAGCGTACGATCGCGAATACGCCGCAGTAATCGATACTGACGTGGTCGTGCTGTTAACCACTGGCGAACAAGTCACCGGTCATTTTATTCGTGCTTTTGCCTTTGTTTTGTGGATAAGCCGCGATAATAAGATGGTCGTCATTAACAAAGCGGCTGTTGTCTATGTCCAGGGACTGGAACAAAGCAAGGATTGA
>SRR1151209_02664 hypothetical protein
ATGCTTAACGTTCCAAATAATGCTGTTTTCGTTACGATACCCCGTGATGGTTTACCGCAAATGCCGATGAACCCTACCGCCTTCAACTTGTATGTCAATGTTTTGGCTCACCAAGCGGAAACACGTTTTGAAATTATTCCACCTTCTTGGCAACAAGGAATCGTCGCCTGGCGGGAAAATACAGATTACAAACCGCTTTGTGCGCTGTACCATATCAAAGTAAGGATTGTACAACCTATGGTGTAG
>SRR1151209_02665 resolvase
ATGATCTACGGTTACGCACGGGTTTCTACCGCCGGACAAGATTTGCATGAGCAGATTCAAGAGCTGCGCGCTGCTGGCGCGCAAAAGGTCTTCTCGGAAAAATATACGGGTACGACGACCAAACGACCAGTATTTAGCAGCTTGACCGCTACACTGGCCCCTGATGACGTGTTAATGGTCACAAAGCTCGACCGATTGGCGCGAAATACCCGTGAGGCACTCAACGTTGTTAACGCGCTGCTGACGCACAACATTAAAATCCAGGTGATCAATTTAGGTCAAACATTTGCCATTGACGCTACCACCGGTCGCCAAAATTCGATGACCAAAATGCTGATGACAATCATGCTGGCATACAGCGACATGGAAAGAGACATGATCATCGAACGTACTCAGGCCGGTAAAGCATACGCCAAAGCGCATGACCCCAATTTTCGTGATGGCCGGCCGCGTGCTGCAACTGGGCAACGCTTGGAAGCGATCCGCGTGTACGTCAAAACACACACGGCCAAAGATACGGCTGCAACCTACGGTGTCAGCGAAAGTACTGTATACCGGATCAAGCGTCGCGACAAGGCCGCAAAGCAATTAGAGAACGCACGAGATACGAAAAATCCAGTTATCAGCAATGCCGAGAATAATCGCTGA
>SRR1151209_02666 hypothetical protein
ATGAGATGGTACGGCGTGGCTATCAACCCAATAAATGTTGGTATAATCCTCTGTGCCGTGGCCAGCACTGTCCGCCTTACAAACAATTGGCGGAAGAAAGGGAAACGGATCCAATTTATCCAGAACATGATGACGCCTATCTGCAAGAGTGCCTGGCCAACCTACGACAAAAGGGAATCGATTTGTGACTTGGTAACGGGAGTGGTCTATCACAAATGA
>SRR1151209_02667 hypothetical protein
ATGTGGTTCAACCGCTATTCCGTGGGACTTTTGATAGTTGGCTTAATTTCGACATTGTCCGTTTTTGGTTTTGTACAACCAGTTAGTGCAGACAGTACGAAAAGTCATGACGAATTGGGCCTATTATCTACTAACGATGCACAGCAATTAGACGACTTAAATAATCAGCTCAGCGCCGATGGGGCAGACTGTCAGATCGTCCTATACAGTTATCGAAGCCTTCCGAAGAATAGTGAGTGGGAGGAACTGGATGATTTCGTTAATGGTCGGCCATCTGTAAGTAATTACATCGACATCGCAGATGGCGCCAAAGAAGAGATGTTTGCGCACAAACTGGGGGTGGAAGATGTATCTGCTTTGTCTGATTCTCAATATCGAAAATTGGACAAAGCAATGAAGCAGCAATTGATTTTGTTTGTCGTTCCTGTGGAACAAAACCACTATCGGATCATTCCTTCTGGCAGCGGTCTAGACGGGGGCTTTATTACAGACTTTCAAAATTGGTATACAACTATAGGGCTGTGCTCCACAATAACTACTGGAAGTAACATCGTTCGCTTCGCTCGTCGCTACGCAGCGTTCTATCAAACCCATTACCTCCATAATTCACAGTATCCACAAGGTGAAACTCCTGATTGGAATATGGTACAAAGCTTTATTGTTTGCACCACACTTCTCTGGTTGCCAGTTATGTTCCTACTGTGGTGTCGACGGCAACCGCCACGGAATCCCCTTTCCCCTGATGACTTCCATGATGATGGTGGCGAAGATGATTTCTTCATAGGCTATATGATAGGATCTGAGATGAAGGATCATGACAATGGGTAA
>SRR1151209_02668 hypothetical protein
ATGGGTAACAAGACTATTGGTCGACTGATCATTATTGGGTTAGTTCTGCTGCGGTGCGCCATAGCAGCCCTGACCATCGCTATTTGGATAATCGTGCCCACCATCTTCCTTGATATTATCTTCCCCAATCTATTTAGTGAACACTTGACACTTTCTTTAACAGTATGCGCGTTGGCGGGAGTCATTGCGGACGCAGAAAATAGCCGCTTCGTACGTCGCTGGTGGAGAAATAGGAAGACAAGGACCAGCGACTTAGTACAGACAAAAAAACACGATGATTGA
>SRR1151209_02669 type I restriction-modification system DNA-methyltransferase subunit M
ATGGCACTGACAAGCGAAAGAGAAGCAATGATTTGGAAAACCTTGAATGACACACGAGGAAAGATTGAACCGTCTGAGTACAAGAATTACATATTTGGGGTGATGTTCTACAAGTTCTTGTCTGAAAAGGCCCAAGCGTGGCTTAAAGGCGTTCTTCGGGGGGAGACTTGGGCGGCTGTCTGGCAACAGGATTCAGACAAGGCCTCCGAGTTCATGCAACGAACACTTGGTTACGTGATTCGACCAGGGGACATGTTTTCCGACTGGGTGGCGGCTATCAACGAAGATAAGTTCAACATCATGATGGTTTCGGATGCAATGGTTCATTTCGATCAAGGGGTTAGTCCAGAGGCTAAAAACGACTTTGCGGGTATTTTCGCGGATATGGATCTGACCTCCTCTCGTCTTGGGGCCAATGCTCAGACACGTACGGCAACCATGATGGATTGGATCAACCTCATGAACAAGATTGAGCTCGATGAGGATGCCGATGTGCTAGGGGATCTATACGAGTATTTGATCGGCATGTTTGCGGCTAATTCCGGGGCGAAGGCTGGCGAATTCTATACACCGCACCAAGTGTCAGATATTATGGCCCGTATCTTGACGGCTGGTCGTGAAAATCTTGAAGAGTATTCGCTGTATGATCCAACGATGGGTTCTGGATCATTGCTTCTGACGACTGCCTCATACATGAAGAATGCCGGTGTCCGAGGAGCAATCAAGTATTACGGACAGGAATGGATCACGACCACCTACAACCTAGCCCGTATGAACCTCATGATGCACAAGGTCGAGTACAACGATATCAACCTGCGAAATGCGGATACATTGAATAGTGATTGGCCAGACGGTGTTGTCGATGGGGTTGATAATCCACGGATGTTCGATGCCGTGATGGCCAACCCGCCCTATTCCCAAAATTGGGACAACCAAAATCGAGAGGATGACCCCCGGTTCCGATTCGGTGTGGCGCCAAAATCAAAAGCGGACTACGCCTTTCTGCTGCACAGTCTTTATCATCTAAAGAACGACGGCCGGATGGCCATCGTGTTGCCGCATGGGGTGTTGTTTCGTGGTGGTACTGAGGCAAAAATCCGCAAAAAGTTGTTTGATAACCATAATATTGTGGCCATCATTGGGTTGCCTGAAAAGATCTTTACTAATACTGGTATCCCAACCATTATTATGGTGCTGGAAAAAAATCGAGCAACCGATGACGTGCTATTTATTGACGCATCAAAAGGGTTTGAAAAACAGAAAAATAGTAACAAGCTGCGTCAAAGGGACATTGACAAGATTGTCAGCACTTACCTAGCTCGTAAGGATTTGGATAAATACGCCCACGTCGCAACAATGGATGAAATCCATGATAACGATTACAACTTAAATATTCCGCGTTACGTGGATACATTCGAGGAAGAAGAGCCGGTTGACACAGCCAAGCTGCTCGAGAGTATGAAGTCAGTATCCGATGAGGAAAGACAGCTTACGGCTGAATTGAAAGACATGATGGCGGATCTGGTAGTCACCCATCCAGAGGACCAGCAAATTCTGGATAACTTGAAGGGAGTGCTTGATTATGAGTAA
>SRR1151209_02670 type I restriction-modification system specificity subunit S
ATGAGTAATGTTCGGGATAATCAGGACTCCAAGCCAGCTGTTCGCTTTAAGGGGTTTTCTGACGCTTGGGAACAGCGTAAGTTATCTGACATCTCAAAAATATTTATCGGGTTGGTTACAACAATGACCACAAATTACACGATCAAAGGCACTCTTCTAATTCGCAACTCAGATATAAAAGATGGCCGTTTTGAATTTTCAAAAACCCCTATTTACCTAAATGAAGAATTCGCGCGGAAAAACAGAACGCGTAAGTTATTGGAAAATGACGTTGTGACAGTACACACTGGCGATATTGGAACATCGGCAGTTGTCGGGCCACATGAAGTCGGTGCAATTGGTTTTGCAACAATAAACACTCGTCCTGTCTCTCAACTGTTGGATTCAAAGTTCTTATCCCTGTTTTTGAACACTGTGCAACACAAACAGTGGGCGTTACGAATGTCTACGGGAGATGGAAGAAATAATTATAATCTCCGTGACTTTACCAGACTGGTCCTCTTCGTACCGTCTATTACGGAACAAATACACATTTCAAAGCTGCTAACCTTGCTGAATGAAACTATCGCTCTTCATCAGCGTAAGGTCGAAAACCTCCAGAAACTGAAGAAATCGCTCTTGCAGCAAATGTTCGTTTCTGGCAATGATCAGGTTCCGAAAATCCGCTTTAAGGGGTTTGCTGACGCTTGGGAAAAGCGGAAGTTGGGAGATTTATTCCATAAGGTGAACGAGAGAAACAATGGACAGTTTGACAATACCCGGTGGATCTCGGTTGCAAGAATGTATTTTCAAGAACCAGACAAGGTGACATCAAACAATATTGATACACGAACTTTCGTTATGCGAAAAGGGGATATTGCTTTTGAAGGACACCCCAACAAAGAGTTTATGTTTGGTAGATTTGTCGAGAATGATATTGGAGATGGCGTTGTGTCTGAACTTTTTCCAATTTATCGGCACTCCGGTAAATACAACCTAAATTACTGGAAGTATGCCGTCAAATTGGAATGGATTTGGAAGTACATCTTTGCAAAGTCGATAACATCGTCTGGTAATTCCTCAAACAAGCTAGATACAAGGCATTTTGAGCGACAATCAATTCGAACTCCGACAATGGACGAACAAAAAAAGATCGGCAATTTTTTTGCTAGTCTCGATAATCTTATCGCAGTCAACCAGCGTAAGGTTGAAAACCTTCAGAAACTGAAGAAGTCTTTACTGCGCCTTATGTTTATATAG
>SRR1151209_02671 type I restriction-modification system restriction subunit R
ATGGCAGAAGATAAATTTGAAAAAGCAGTGATCGAGAAGCTCAAGTCAGAGGGCTGGACTTACCGCAACGACCTCTCAGGAATGACGACTGATGTACTCTACAATCATTGGCGCGACATCTTAAACCAGAACAACGCCAGCAAGCTGGCCGGTATGCCACTGTCTGATACCGAATTTGAAGGGATCAAGATGGAAGTGAGCAAGAATAAGACCCCTTACGATGCACAGCTAATGATCGCTGGCTCTGGCGGTATTGGTACAGTGCCGCTCACACGTGATGACGGTACAAAGCTGGAGATTGAAATTTTTTACGGTGACGATGTTGCTGGTGGACGTTCACGCTACGAAATCGTCAACCAAATTACGTTTAACGAGCTCCCCTTTACACTCAGCAAAAAACGCCGCATTGATGTGATGCTACTGATCAATGGCTTGCCCGTCGCACATATTGAAGAAAAAGATGAATCGTTGCAAAATCAATGGAGTGCTTTTGAGCAACTACAGAAGTACGACGGTGACGGGATGTATACAGGGCTGTTTTCGTTCGTTCAAGTCCAGTTCATCTTGTCGCAACATTCGGCTCATTATTTTGCGCGGCCGAAAAATGCAACAGAATACAACAAGGACTTTGTTTTCGGCTGGCGAGATGATCATGGTAAAGATGTGACGGATACGATGGCGTTTATCCATCAAGTATTGGGTATCCCGGCGCTTCATCGCTTGGTGACGGTTAATATGATTCCGGATGCGGCTAATGACAACTTGATGGTCATGCGCTCTTACCAGATCCAAGCCACCCGTGCTATCTTGGATCGGATGCGAACGATGGAAGAGAATAACTATGTCGAAAAAGAGGGCGGCTATATTTGGCACACCACGGGTTCCGGCAAGACCGTGACTGCGTTTAAAGTTGCGCAGTTACTGGCATCTATGCCCAAGGTCCGCAATGTCTTATTCATCGTTGATCGGGTTGATTTGATCAGTCAAACCTACGAGAACTTTAAAGCTTATGCCTACAAGACCTTTGAACAACGAATAGAGGTTGTTAACGGCCGTCAGCTTAAGCATCACTTGAAACAGAAAAGACTGACCTCCCATATTTATCTTATTACTGTCCAGGGCCTGGACAAAATTGTAAAGTCGGGGTTGACGTCCAGCGAGCGACAGGTGATTTTGATGGATGAAGCGCACCGTTCTGCTTCCGGCGACACAGTCAAACGGATCAAGAATGCCTTTCCCAACACGACCTGGTTTGGGTTTACGGGCACACCCAATTTCTATAGTGATGAGGTGCAGGATGTTCAAACTTCACAAAACATTTCGACACATGATATTTTCGGCAGGCGGTTGCACCAATACACGATCAAAGATGCTATTGGAGACGGCAACGTCTTAGGTTTCGACGTCACTTACAGTGACGTTGACGTGGAAGCTGATCACGCCAAGAAGCGTACTGAAGAGGATTTAGAGAAGGAGGTCTACACCTCGTTGCCATATCGGCAAGCGGTGGTGGAAGACATTGTTAAAAATTGGGATGATATCCATTCTGGCTCAATTGAGATGGGCGTTCGGCAACGTAATCAATTTTATGGGATCTTAGCAGTATCAGGAAAACAAGCTGTGGTTGCTTACTATGCGTTGTTCAAAACTTTGGCTCCTAAATTACGGGTAGCAATGACTTATTCGCGCGATGAAAATAATGGTGAGGGTACTTCCGACCTACAAGCGGCGTTAAAGCAAGCGATGGTTGACTACGCATCTTTATATGGTACGCGTAATTTCTTAGACGCCAAAAATCCAGAACGTGACTACCTCAATGACATCACAAAACGCTTGGCCCACAAAAAACCGTACAACCATAAACTTTCCGATGAACAGGAAATTGCCCATCCGCAACGACTAGATTTGGTCATCGTTTCTGACCAACTATTGACAGGATTTGATTCCAAGTACATCAACATTATCTATCTGGATAAAATTCTGAAAGAAGGTATGCTGATTCAGGCAATGTCGCGCACGAACCGAATTATCGACAAGAACGCCAAGCCCTATGGCAAGGTGCGTTTCTTCCGTAAAGGTGAGCTCATGGAAGAAAACGTTAAAAAAGCGCTGATCATATACACAAAAGGGGGTAATGATACCCTTAAGGATGCTCAAAAGCAACCGGATCAAACGGCCCAACAAGGCTTGCTCGATGACAATATTTTAGCGCCTAAGATAGCAACTCAAATTAATGACCTGCAGCCCAAAGTAGATCGGTTAAAGAAAATTTCCGGAAACGATTTCAGCCAAACACCACGTTCTGAACAAGATCGTTTGGAATTTACCCGGTTAGCGGCTGAAGTTAATCAAAAAGTGCAACGTCTCGTGCAGCAGGGCTATGTCCTCGGCGCACTGGTGCCGGAGGTTAACGATAAGGGGCAGCCTAATGGGAAACAGGTGGGCCTCAATATTAAGAGCAACCAGGAATTCAGTGCTCTCCAAGCCCGCCTGAACGATGTCAACGAATTGTTGCCCCCCGAGAAAAAGATTGACCTTGCCAATATCAAGGTGGCTATTGATTTATACGCCCATGAAATCATTGATTACGATAAGTTAGTGGCCTTGTTGAACACGTATATCGACGAAACAACGCCAGTCAATCGAGGCGCGGTTGAAACCCATATCACCCCAATGGATGATGATAATCGTTCAGAGATTGAAGACATTTTGGATGGAATTGAAAATGGTGATTATACCCGTCACTTCGATACCGATTCCCTGCAACGTGCCCGGAAAAAGATCCGGACTGAAAACAAAGAGTTGAAAATACGGCGCTGGTCAGCGGATCATGGAGCGAATGGTAATGACATTGTGGACGCGTATGAGTTGTATTGGCCGGGCGTAGGCCTTAATGATAATCCCAAACTAAAGTCATGCTTACTCAAAATTGAGGCGGATCAAAACCTTGGATTTTTTGAAACCGCTGATTTTGAGGATTCTATCCTGAGATTCTTCGCCACACTCAAGTGA
>SRR1151209_02672 hypothetical protein
GTGAGAAAACAATTCAAGAAAAACGTCATCCTAGACTGGACGGCGTTTTTTACGTACACGTACAAAATTGTTGCCATGCGCGTTTCCGAGGATTCCTGTTGGCTGCATTATACCGATTCGGACAGTATTACCCAGCTGCTGGAATCTTTAATGTCGTAG
>SRR1151209_02673 hypothetical protein
ATGGCTAAATATACTAAACAGGACTTATACGCTGCGTACGCCAAACACGACCGTGAGGGACTTAGCAAATTGCACGAACCCGGCACTGACCTCGATTGTGCCGTTTGTGACGAAATCAATCGAATAACAGCAGACTTAGAGGGAGTCAGCGTCGAAGAGCTCGTTAATAGTAATAGTATGGATTCTTCTTCGGCTGAGGAAACACGCTATGCATCCCCTCAAGTTCGCATGGCTCCGCACGTCTATAAAGTCTCCATTGACGGCAACACTTACCTTTGGCGGGTAACGACACAAAAGCAATGGAGTCGATTGCAGAAACAAGCCTCAGTGGATGAGATGACCGAAATACCAACCTCAGAGTATGTAAAATGGCCGGTCTTCACCCCACGCAATTCGGTAATCTCTCTGGCCGCTTTTCTGCATAGTTATCCTAAAGCTAACGGTCCAATCGCCACATTACAATCGTATCGAGTCACCACAGCCGGACTTGCGGCACGTAAGCCGGGGACAGAAGACCAATGGATATATTACGACGGAACCAACATCAAGGAAGTTAGGCGATTCTCTGAGCCCTTACAGGCTAGTATCACGCGTAAGAACAAGGTACAAATTGCTGCACCACCGGGTAGCTTCAGCTTATCCGCGGGAGATTATCTTCTAAAGCTGCCTACCGGTCGTCTCCTAAGCTTTACCACTGAGGAATTTATGGCCCTCTACGACATTAAAGATTCCAGCAGCTGGGTAATACTGTCCGAATCGGTATAA
>SRR1151209_02674 hypothetical protein
ATGGCACCGGCTAACTGGTTATATCACAATTGCGGCATGGTAAAGTGGTTAGGGTTCTTTCTCTCTAACCATACGGCTTATGTTGAGGAACAGGGCGTTATAGAACAGCCCGTTAAAGATAAAGAGGAATAG
>SRR1151209_02675 resolvase
GTGCTAATCATCAAAGTCGGGTATGCGCGGGTCAGCAGCACTGACCAGAATCTAGACCGCCAGTTGGCAGCGCTCAAAGAGAGTGGAGTCGAGAAGCTGTTCGCCGAGAAGGTATCCGGCAAGAACACAGACCGACCAGAGCTCCAGCGTATGCTGCACTTCATTCGGGAAAAAGATGAAGTCGTGGTCCTCAGTCTCGATCGCTTAGGCCGAAGTTCGGACGATTTGACAGCCATCATCGATGAAATTCGGCGGAAAGGGGCCGTTCTAAATATACTGGACTTGCCATCCTTCGCAGGTATTCAAGACCCCAACCTTAAGGCCCTGCTCACCAACTTGGTCCTGGAAATTTACAAATATACTGCCGAAGAAGAACGGCGTAAGATCCGGGAACGGCAACAAGAAGGTATCAAGCTAGCCAAGGAGAGAGGGGTCTACAAGGGGCGGCAGCGGGAATACTCGGCTGACTCCCGCAACCCGCGTAAAAGGTACCTCTATCAGCAAGTTATCAAGATGTTGCGGACCGATCCACCTATTACGGTGGCTGAGATTGCTCGAACAGTCGGCCTGGAACGGACACAGATTTACCGTATCAAAAAATACGCCATCGCAGACGGCGTACTGACAAACGAGCAGAACCGTCAATAG
>SRR1151209_02676 hypothetical protein
ATGATCCAGTTCGTTTTGCGCCATAAGTTTCTCTCTATCGTTCTTGCTCTTCTGTTTTTCGGTTTGTTCTTCCTCAGCAAGGCTTTCGCTGCAACAATCGGATCAATATTTGGTGTTCTCTTTACTGTCGCGATGATTGGCTTGATTATCCTCATCCTTTGGCCCGTGATCCAATTTGTCTTCTATTTTATCATGGGGTGCGTGCTAATCTTTCTGATAATCGGCTGGATTCTTAGTTGGTGA
>SRR1151209_02677 hypothetical protein
ATGAACATCATTGAAGTCACCGACCGACTACAAGCGGCTGGAATAACATCAAATCCCGAGGTCGTCCGGCGTTGGATTCGGCAAGGCAAGTTGGCAGCCACGATGCACAGCCGAAAACAGGGGTACCAGGTGCTGCCTACCGACTTAGAAGGATTCATTAGCAGTTATGACCGATCAAATCGAAAATCCATCGATAAACGGGCAGATACGGATTATTTCCGTGGGTTCCAGGACGGTTACGCCAAAGCTCAGGCGGACCAAGACCAGCTGTTTCAGCGTTTATTGCGACGTGGCAGCTATACGGACCAATACCGGATCTTGCGTGCCGATGTGAAGCGGTTAGTCATGCAGGGCGGCCCCCTGGACGAAGATAAGAAGGCACTGATGGCATACATTGACCGTGACAGCTTTGGACGAGATGACGCTGGCTTACCGCTGAAACGGCCAAAGTCATTTGTTGCCGTGATTGTTCTGGGCAAGCACATGCGTCCGTGGACCAGTGAGCAGATCATGCCCTATAGCCGCGATAACGGGGATGGGACAACGACTTCCCCGAAAATTGCCATTCGACGGCTGCTAGTGAGTTATTACCGGGAAGCCTACGAAAAACAAGCGTTGAAGAATAGCTAA
>SRR1151209_02678 RelB/DinJ family addiction module antitoxin
ATGGATGTTAAGGAACGAGATCAAGACAAGAATGCCAAGAAGCGGGTTCAGGCCATGGTGGACGGTGATACTGTGAAGGCCGCCCACTTAGTGTTAGATCAACTTGGCGTGCCCACTTCTATGCTGATTAACGCTTTGTACAAACGAGTCGTAGCGGAACAACGGATTCCGTTTACTCTAGCTCTGACACCAGAAGAACAAGTCAAAGACCAGGCAGCTGACTTGATTGACGAAATTCAGAAACATGTCCCGACAGCAGATAAGGCTCAGTTTGGACAATGGTTGATGGACAATGAAGATTAG
>SRR1151209_02679 hypothetical protein
ATGGTTCAAATTAAAGATATTGTGCCGGTTCAAATGACAGATCGGACACCCAGCACTGGTGGGAAGCCCCAGATAGCTGCTCGAATCAAGCTCAAAGATGCCAAAGTGATTTTTTATAATGGTGCTGATCGGAGCACTCTGCACATCGTCTTACAGGAGTTGACTGGTAATGTTCCCCAATATCCAAGAACTTAA
>SRR1151209_02680 transposase
ATGTTCCCCAATATCCAAGAACTTAACATCTACATCATCTGTGGCAAGACTGACCTCCGCAAAGGAATTGACGGTTTAGCTGCCTCACTGCGGGAACTCTATGGTGAGAACGAAGTCCCGTACGACCACTCACTATTCCTATTTTGCGGCAGTCAGCGGGACCGGTTCAAGGCCCTTTACTGGGATCGCAGCGGCTTCGTCCTCTATTACAAGCGGTTCGAGCACGGCCACCTGCAATGGCCCCGCAACCGGTCCGACGTACAACGACTAAGCCATTACCAGTTAAAACGATTGATCACTGGTCTAAGTATTATTGAGAGGCGTACCATTCATGATCGCAGGGTCGGATATACCAATTAA
>SRR1151209_02681 transposase
ATGGCTAAGGCGGTCGGGACTGAACGTGAACGGCAGTTGGAACAAGAAGTCTTCTATTTGAAGCAGGAACTGCAACTGCTTAAAGAAGGCATTGCGTATTTAACCAGGAAACAGTATGGCCTCAAGAAAGAGACCCTGGATCATGCCGAACAAACCAATCTGTTTACAGAAGTTGTCCCGGAGCTGGATATTCCAGAAATAACCGGAGAAACCAAAGAAACGATCACCTACACGCGGACCAAAAAGAAAGGGAAACGGGCCGCTGAACTCGCCCAGTTCTCCCACGTCCAAAAACAGTTCGAATTACCTGAGAGCGAGCGGATCTGCCCAAATTGTCAGCGGGTCATGGCGGACATCGGCGGTACAATGATGCGCCAAGTCCTGGATATGATCCCGGCATTTTTCCAAGTGGTTGAATACATCGCCCACGCCTACGCTTGCCAGTATTGCAAAGACCATGGCATCCACAGTGATGTCATCAAAGCCCCTGTGCCTAAAGCATTCATCGGAAGCAGCTTGGCGTCACCGTCGATCCTGGCGGAGACACTGATTGAGAAGTACGAGAAGAAAGTGCCGGCTTTTCGACAGGAGAAACAATGGGCCAGGTTGGGTGTGCCGATCACGCGCCAAGACATCATCAATTGGCACATCTTGGCCGCTGATTATGGACTGGGCGCCCTGCATGACCTGATGAAAAAGGAACTGCTCACTCAAGATATCATCCACGCCGATGAGACGCCGTATAAGGTCATCGAAAGTGAGAAGAGCAAGACCTATTATTGGCTGCTCGCTTCCGGCCGGTACGCTGAGAATCAAGTGATCCTGTACGAGCACAAAGACGGCCGATCATACAACTGGATCGAAGAGATGCTCGGTGACTACAGCGGATTTCTCCAAACCGACGGGTATGCAGTCTATCAAAAGCTGCCGCACGTTGTGCGCGTTGCCTGTCTGGCCCACATCCGCCGGAAATTCTTTGATGCTTTGACGGAGAGTGAACAGAAGCGGACAAAGAAAGCCACCCGCACGAGAGAACGGGCCAGCGAAGAAGACCTGATCAAAATCGAGCACGCCAAAAAGAGTGCTGCCTGGATTGGTGTCGAGTATTGCGACGTCATGTTTCTTCTGGAGAAACGCTGGCACGACCTTGCCCCGGAAGACCGCAAAGAAAAACGGCAGGCCATTCTGGCCAAAGTGATGGACGCGTTCTACACCTGGTTAGGAAACTTGGGCCAGCTGCCCAAGACCAAGCTGGGCAAAGCCGTCGACTATGCCTTCAATCAGCGGGACGCCCTAGCAGTTGTTCTAACCGATGGCCGTTTGGAGATCTCCAACAACCGCGCCGAGCGGGCCATCAAGGAACTCGTCATGGGCCGGAAGAACTGGCTTTTCTCCACCAGTTTCAAAGGTGCCCAAGCGAGCGGCATCATCCTTAGCGTCATGCGCACAGCCGAAGCTAACGGACTGGACACGCGCGCTTATTTGAAGCTCCTATTTGAGGAGCTCCCCAATCTGCCGGTACCAGATGATCCGAATGACCTGCAGAAGTATTTGCCTTGGGCACCGCAGATGAAAGAACGGTGTACCAAGCAATCAACAGAGCTCGAATAG
>SRR1151209_02682 transposase
ATGCTTCCCGACCTGACCAGCGTTAAGATCTTCATCGTCTGCGGCCGGACGGATCTGCGCAAAGGGATCGACGGTCTAGCCACGCTGGTCCAAGAGGAATACGACTTAGACGTTTTCGACCAGTCGCTCTTCCTCTTCTGCGGCACGCGCAGTGACCGCTTCAAGGCCCTTTACTGGGACGGTGACGGCTTTCTCCTGCTGTACAAACGGTTTGAGAATGGGCATATGCAATGGCCGCACAGCCAAGCTGAGGTCAAGCAGCTGCGCTATGGCCAGCTGAAGCGGCTGCTCACCGGACTGGCCATCGAAGAACGGCGAACCATCAGGTCCGCCCGTCCAGGCATCATCCACTAG
>SRR1151209_02683 hypothetical protein
ATGACTCAGATCAAAGATATAGTTCCCGTTGAGCTGATCAACCGGGCCGGTACTGTGCCGGCAGTCAAAACCAAGCTGGGTGCCAAAGTGAAGCTTGGCGAGTCAGAGGTGCTGCTCTATAACGGCGTTGACGGCTACCTGGCGCACATCATCTTACAGGAGTTGACCGGCAATGCTTCCCGACCTGACCAGCGTTAA
>SRR1151209_02684 hypothetical protein
ATGGAAAGACAGAATGGCAATTGGCGGCGATGGTGGCTGCGGTCAGCGTTGCTGGTGATGATGGGGGTGTCGTTGGTTGGGCCGGGCGGTGGAGTGCAGGCGGCGACGATTGGGGATGTGCTGGATAATACCGCCACGACGAATAACAAATTGTTGGATGCGAATGGCAAGGCGTGGAATATGTATTCCATTCCGCGACAGGTTTGGGATAAGGACGGCAAGAAGGCGTATATCCAGCAGCGGGAACGGACGGCGGATGAGGGATCGTTTGTGAAACAGGGCTATTCTTGGAATAATCAAGGTATGCCGTTATCACCAGAAGATCCTAAAGAAAATACCGCACGATGGAACAACCAAGCATTGGGCTCCATCGCCTATATTTCTTTTAAAGATCCAAGTGGTAACGGGCGAATTGATCCAAAATATGGGGAGCCCTTCTTTTCTTTAAACTATGTGGATCGCAATGACTTAGTCAACGTAGAAACGCCACTTGACGCGGCTAATTTTTCCGGATCAGGCAAAGGCGGGACCCCATTATCTCAATCTCAAAGCGGTAGTATTTTTAATCCGACGCAGGTTCAGTCTAAAATGAAACGCAGCGCCGCGACTAACAATAAATTTCGATTAGCCGACGGTGCGACGTTTGATAATGGGTTTATTCAGGCTACAGGGAACGTGCCGATTGCTGCTCAGATTGCGGAGTCAGAGAGTGCTGTTGACGGTATGTTAGCGGGTAATTGGGGCGTTATGGTCAGAATCAAAGCGGCTGATGGAATTGATGCAAGATCATTAGCAGCAGCTATTGATTGGAGCAAGTCGTATTATTATTTAACGGTTGATTCTGTCCAAATTTTCGGCACGCAGATTTCCGACCTGAATTTTCCGCTCCAATTCGATCATCACGTGTATCTTGATCCAACGGATTCACACGTTTTTTTCTTAAAAGTGAAGGGAATTCCATACGGTTTCAAAGAAGAATCTGGTAATCGTGCACAAATGTATTTGCCTCGAAGCAATGCCGACCACTTGGACTATTTGCACAACCGGAACATTAAAGGAAATAATGCTTACACACTAGACAAGATTAATGGCGATCAGCGGCCAACCACATTGAATGATTCAGCCTTGATTAATTGGAATCAGTTCAAACAACCGTCTTTTTTCACTAGTACAGAGAAAAACACTGCAATTTGGGATCCCTTTAAGGGTATGTTGACTGAGATGGTTGATAAAATCACAATTCCAGTCATTCCAGGAATTATGAAAATCGTGATTGGCTGGTTCACATCCAGTCCAATATACAGCCTTGGAGATTTAGGAAGAACTGCGTCTTTGCTCAATACGGCAAGACCTGCTGAAGATCGTAAGATGACCGTGTCAAAAGATTTTTGGGATTTATTGAAGAATTTTCTTTGCTCACAAGCCATTGACCCAATCTTAAGTGCAATATCGAAAAACTTCATGAAGGCGCCGTTTCGTGGACGCGCCAGAATCAATTTTTCGTTTGACATAAGTAAATACAAGGGCAGTACCGATCCAGTCAAGGCAGTCTTCACCCAAGGTCGCTTACCGGCAGCACCCTATGCAGATGGTGAATTCAACCATGGCATGGGAACTGGCAGTTTGGCCAAGGACAATCCCGATCGGGCACCAATCGAAATTACGATGTACGATTCGTCTCAGTTAGTTGATCCATATTCGGTTACTGAGGGGATGCCAAGGGAAAAGCTTGATAAAGATCCAAGATTGCGTGGTCAGTTGCAGCCAGGGATCACACCCATGGATTACGCTGTTATTGATCAGAAATTTGTCAAAAATGGCGGCACCAAGTACAAGGTCTATTCAAACTTCTCCTCATGGACCGGCGCCATTGTGCCCTATGACCGGCATTATCATGAAAACAACGGGAGCAGTGACACATTGCATTCCAACGGCAAGATTACCCCGGGTTTTTCCCGGCGCACGGCGACGCCGGATCCCGGCCGAGACGGCGTTTTGGTGAATAACTCGGCTTCGCAAGAAGTGCCGATTTATCCGATTGGTGATTTAAAGGGTTTTATGAATGACTTATTGCCCAAACCCAATGAAAAAAAGGCCGGAGTGATTGCACCATCGCGCTATGCCAATGTATTCACTTACTATCTGAAACTTGAAAGCCCGAAAGTGCACTGA
>SRR1151209_02685 NADP oxidoreductase
ATGGACATTGGTTTTATTGGTACTGGTAACGTGGGCAAGGCCTTGGCGCAACTGTTCGTCCACGCCGGTCACCACGTCGTGATGAGCCACCGGCATAGTGTCGAGAGCTTAAGCCCGCTGATCGAAAAATTGGGGGTCAACGCCAGTGCGGGCACTATCGCGGAAGCGACGAAACAGGACCTGGTCGTCTTGGCGGTGCCGTTCTTCGCGGTGCGGGAACTGCCGGCGCCTTTCCCGAATGACCCAATCATTTTGGACGTCACCAACTATTTCCCGAATCGGGATGGTAATATCATGAACTTGCAGAAGCACGAAGAAGCCACATCGGAATTCGTGGCCCGGCAGCTGCAAAGCAAGAAAGTCGTCAAGGCCTTTAATACCATCGCCATGGCCCGCATCACTGCCATGCCGCGGCCGACCGGGGACCCGCGGCGCATCGCCGTGCCAGTGGCCAGCGACAACAAGCACGCCAAAGCCACGGTCATTGACCTGATTGACCAAATCGGTTTTGACGCTTACGATTTAGGTGACTTGAAAGACAGTCTGCCGGCCCAATCCGACGGTCCGCTGTTCATCTCGGTCGGTACGAAGAAAGACATTGCCCAACGGTTGTAA
>SRR1151209_02686 2,5-diketo-D-gluconic acid reductase
ATGGAAACTTATACTCTCGCTGATGGTCTGCAATTGCCCAAAGTGGGCTTTGGTACATACAAGCTGAACGGCGCCAGCGGCGTTAACGCCATGGTCTCCGCGCTGAATGTGGGCTATCGCCTGCTGGATACTGCCTATAATTATGAAAACGAAGGGGCCGTTGGTGAAGCCATTCGCCGCAGCGGTATTCCCCGGGCCGACATCCTGGTTTCGTCCAAACTGCCCGGCCGCCATCAACACTATCAAGAGGCCTTGCAAACAATTCAGGAGTCGCTGTACCGGGCCAACTTGGATTATTTCGACCTCTATCTGATTCATTGGCCCAATCCTAAGGAAGGCCTATACGTCGAAGCCTGGCAGGCACTCATTGACGCCCAGAAGTTCGGTTTGATTCGCAGTATCGGGGTGTCTAATTTCTTACCGGAACACATTGATAAACTGCAAAAGGAAACCGGCGTGCTGCCAGTCATCAACCAAGTGGAGCTGCATCCCTTCTTCAATCAGCAAGCTCAAATCGACTACGACCGGGCCCACCACATTCTGACGGAAGCTTGGAGTCCGCTGGGCCGAGCCAGTGCCAACAATGTGCTGAAGAACCCGGTGATCAACGAACTGGCCGAAAAGTACCACCGCGGCCCCGGTCAAATCATTTTGCGCTGGCACATTCAGCGCGGGGTCCTGCCGATTCCCAAGTCGACCCACGTGTCCCGTCAGGAGGAAAACTTCAATCTCTTTGATTTCACGATTGATGACGCCGACATGGCTAAAATCAATGCCCTGACCCGTCCGGACGGCCGGTATAACAACCAAGATCCAGCAGTCTATGAAGAATTCTAA
>SRR1151209_02687 6-phospho-beta-glucosidase
ATGTATAAACCAAATTATCCCCATGACTTTCCCCAAGACTTCCTGTGGGGCGGCGCCACTGCCGCCAATCAGATCGAAGGGGCGTGGAATCAAGACGGCAAGGGCCTGACCACGGCGGAAGTGGTCCGCCGGGCCAGCGACCGGAAGAAGATGTCCATGGGCGACGTCACCCGGGCCTCCATTGAGGCCGCGGTGGCCGATACCACCGATACCCATTACCCGAAGCGGCGAGGTAATGATTTTTATCACCGCTACGAGGAAGATATTGCCTTAATGGCTGAAATGGGCTTCAAAGTGTTCCGCTTCTCCATTGCCTGGGGCCGGATTTTCCCGAACGGTGACGATCCGACGCCCAACGCAGCCGGTTTAGCTTTCTATGATCGGGTCATCAGTACGTTGGCAAAGTACCACATCAAACCGTTAGTCACGTTGTCCCACTACGAGATGCCGATCCAGCTGACGCTGAAGCAAAATGGCTGGGCCAGCCGGGCCACGATCGCGGCGTTCACCCGGTTCACGGAAACGGTCTTTACCCACTTCAAGGGCCGTGTGCCATATTATCTGACGTTCAACGAAATCAACACCGGCACCTGGGGCTTCCACGAAACTGGGGCGCTGGACGATGGTCTGAGCGCCGATGCCCAGTTGCAGCTGCGCTACCAAGCTCTGCATCACCAATTTGTGGCCAGTGCCTTGGCGACTAAACAGCTGCACACCATTGATCCCGCGGCCCAGATGGGCTGTATGCTGGCTCGGATGCAGACATATCCGGCAACACCGAAACCGGAGGATGTCCTGGCGGCCCAGCAGGCGGATCAGCGCAACCTGTTCTTCACGGATGTCCAAGCTCGGGGCGAGTATCCGGAGTATATGAATCGCTACTTTGCGGAACATCATATTCAGATCGCCATGCAGCCGGATGACCAAGCCGTATTGAAAGCCAATCCGGTGGACTTCATTTCGTTCAGCTACTACATGACCACCGTCACCGCGGCCGACCAAGGCGCCGCAATCAACGGCAACATGGCCACCGGCGGGCGCAACCCGTATCTGAAGGAATCCGCCTGGGGCTGGCAGATCGACCCCATTGGTTTGCGGATTACCTTGAATGCCATGTGGGATCGGTACCGCAAGCCGCTGTTCATTGTAGAAAATGGGCTGGGCGCCGAGGATAAGCTCGAAGACGGCCAGGTGCATGACAGCTACCGCATCGACTACCTGCGGGCCCATATCCAGCAGATGAAGGAAGCCATCAGCGACGGTGTCTGTCTTCTGGGCTACACCATGTGGGGGCCCATCGACCTGATCAGTTTCTCCACGTCCGAGATGTCTAAGCGGTACGGTTTCGTCTACGTGGACCAAGATGACGAAGGTCACGGCAGTCTGCGCCGAATCAAGAAGGACTCGTTTGCTTGGTATCGGAAAGTTATTGCCAGCAATGGCGCCGATTTGAATTAA
>SRR1151209_02688 beta-glucoside-specific PTS system IIABC component
ATGGATCAAAAGCAGCTCGCCCAAGGCATCTTGACTGGTGTCGGCGGCAAAGACAATATTGAAAAAGCTTGGCATTGTGCTACCCGTCTGCGGTTCTATTTGAAGGATGATAAAAAGGCCGACACGCCCACCGTCGAAAAACTGGACGGTGTGATCACCGTCGTGAAGTCGGCCGGGCAGTATCAAGTCGTCATCGGTAACGCCGTGGCCAGCGTCTATGATGCACTGGCTGATCTGGCTGGCATCAGCGAGGATGAAGCACCCGTTGACAAAAAAGCTGAAAAGCAAGCCCAAGGCAGCATCGTCAACCGCTTTATCGGCTTTATTTCCGGCGTCTTCACCCCTTTCTTGGGCGCCATGGCCGGTGCCGGGATCCTGAAGGGGCTCTTGGCGCTGTTTACGGCCCTGGGCTGGATGTCCACAAAATCCGGGACTTACGAAATTCTTTACGCGGCCAGTGACGGGATTTTCTACTTCCTGCCGATCTTTCTGGCGTTTACTGCCGCCAAACAACTCCACGTTAGCCAATTCGTGGCTGTCGCCTTGGGCGCCACGCTGGTTTATCCGACCCTTGTGGCCACGGCGGGCAAGGGGACGGTCCTGCATTTCTTAGGGATTCCCGTGGTTTCCGCCACCTACACGTCCACCGTGATTCCCATTCTGTTGGCGATCTGGGTCCTTTCTTACCTGGAACCGGTCTTGGATAAAATCTTCCCGGAAGCGGTGCGCACGATCTTTACGCCGCTGCTTTCCCTGGCCATCATGGCCCCGGTGACTTTGATCGTCGTCGGCCCCATCGGCAGTGCCATCAGTAATGTGCTGGCTGCCGGCGTGATGGGTGTTTACAACTTCGCACCGTTCCTCGCTGGTGCCATCATGGGCGCCTTCTGGCAGGTCTTCGTGATCTTCGGCGTGCACTGGACGTTCGTGCCGCTGATGATGAACAATATTGCCAAGATGGGCTATGATCCGCTGCTGCCGATCCTGGCTGCCGCCGTTCTGTCCCAGGGCGGTGCCGCGCTGGGTGTCTTCCTCAAGTCTAAGAATCAGAAAATGAAAGCTCTTGCCGGGTCCGGGGTCATCACTTCCCTGTTCGGCATTACGGAACCAACGATTTACGGGGTCACTCTGAAATTGAAGCGGCCGTTCTATTGCGCCGTCGCCAGTGGCGCCATCGGCGGGGCCATCATCGGTGCCGGGGCCGTGCATACCAATGCCTTCGCGTTACCGTCTTTGCTGGCGGTGCCGGGCTATACGGGTAACGGTGTGGTGATTGGTTTGCTGGGGATCGCCGTCGCTTTCTTCGGCGGCGCGATTCTGACCTATCTCTTTGGGATTAAGAAAGAAGATAACGTGGCGGATACGGCATCCGTCAGTCAAGATGGCGCCATTACCATTGATGCGCCGGTGGCCGGCACACTGATTCCGTTGAAGAACGTGAATGATGAAGTCTTTGCCACTGAAGCCATGGGTAAAGGCATTGCCATTGTGCCCACGGATGATACAGTGAAAGCCCCGGTCAGTGGGACAATCAGCGCCTTGTATCCCACCGGCCACGCCATCGGGATCACGGCCGATAATGGGGCCGAGATCTTGATCCATATTGGCATCAACACGGTTCAATTAAACGGCCAGTTTTTCGAAGCGCTAACGAAACAAAATGACCACGTCACTGTCGGCGATCCGTTGGTCAAGGCTGATTTTGCCCAAATCAAAGCGGCCGGCTATGATCCGACGGTGATGGTGATCGTCACCAATACGGCCAGCTATGCGGCCGTGACGCCCACCAGCGACACGGAGGCGGCTAGCCAACCGATCCTCACCTTGACCCCGCAAACTGAAGCGACCACGGAAGGAGCAACTGCTGCTAATGTATAA
>SRR1151209_02689 transcriptional antiterminator
GTGGAAGTCGAGAAGGTCTTCAATAACAACGTGATCTTGGCCAAAGACCAGGATCAAGAAGTGGTGCTGATCGGCAAGGGTATCGGCTTTGGCAAGAAGCCGGGCAATCCGGTGACCGTCAACGCCCAGGTCGATGTGTATCGGCCGGCGGCGGCTAATTGGGTCAAGAACTTCCAAGAAGCCGTAACGGCCATTCCGCCGGAATACTTCGAAGTGGCGTCCCAGATCATCAAGACGGCGGCCGCTCAATTGCAAACAACGTTCAACAGTTACTTGCTGATCGCGCTGGCGGACCATATCCAGTTCGCCATTTACCGCCATCATCATGGCATGGATATCAAGAACGAACTGTTGTGGGAAATTAAGCGGATTTATCCCCGGGAATATGCCGTCGGGGAAGAAGCGCTGCGACTGGTCAATGACCAGTTTGACGTCACGCTGCTGCCCGACGAAGCCGGCTTCATGGCCATGAAGTTCGTGGAGAACAGCATGCAGGGTTCTACGGATCGCACGACCCGGGAAATGACCAAACTGATCAACGGTATGCTGGATGTCATTCAGTATCAGTTAAAAATGACGCTGGACAGCGACAGCCTGAGTTTCCAGCGCTTGCTGGTGCACCTGCGCTTTTTCGCCCAACGGACCGTGATGCGGCTGGCTGATCCCAACGCCAGCACCGAAGATGACTTTCTCTTCGATCACCTCGCTCAGAAATATCCCACCGCGTTTGCCTGTGCTCAGAAGGTTGTCACCTTCGTCACCAAGAGCACTGGCCATCCGGTGGCCCAGGGCGAGCAAGTCTACCTCACCGTGCACATCCAGCGGCTCCTTGCAGAGTCTCAGCAGCCATAA
>SRR1151209_02690 transcriptional regulator
ATGTTTTTCGGTGAGAAACTCAGGAATTTGCGGGAACTTAATGGTCTCTCCCGAAAAGAATTGGCGGATCAATTGACTGTTTCTGAACAGGCTGTTTGGCAATACGAAGCTGAGTCAATGGTGCCGGGCATTGGCGTATTAAACCATTTGCGACAACTTTTTCAGGTGGACACCAGATATTTTTTCACCAAAGATAGGCTGACTGCTGTTGCTACTGAAGAGCACGTGGCATATCGGGCCAGGGATCGGGAATCGCGGAAGAAAACCAAACTGGAACTCGCGTATATCAACTATTTGGATAACTATCTCAACTATTTTGAACGATTTCTTGTTTCCCCAACAGCGAGTATTCGAGCCCTGCAAAGGCGGATCATTGCGCTGGTTCAGGCGCATACCGAATTGACTGATACGGTTATTGCTCAGGCGGCCGAGGAGGCGCGGCAATTCCTTGGTCTCACGAGCAATCGAGATTTGATGTATGTGCTGGAAATGAGCGGCATCTATATCGTTGAGAAAGACTTGGGTCCGGTCGTTGATGCGTACAGCACGGTGACCAAAGACGGGCGGGCTTTTATTGTACTGGGTAATATTAAAAAGTCTGCGGTGCGCCGTAATTTTGATCTGGCCCATGAACTGGGGCACCTCTTGCTGCATACCACTGTGGACATGGCGACACTCACGAAGGTTGAGCATAAACTCATTGAACAGCAGGCAAATATGTTTGCGTCCGTCTTTTTGATGCCAGTCGCGGCTTTCAAAGCAGACTTTACTAATCTGCGGCGACGGTCCAATCCAGATTCCTACATTGAATTGAAGCAGAAGTATTTAGTGTCAATCGTGGCGTTGGAATACCGGGCGTACAAGTTGGGCTTGCTGACGTATCAGGAGAATCGTTATTTCTTTGGTCAAGTGCATAAGAAAGGCTATGCGGCGCTGGAACCGTTGGATGATCAACTGGCACCAGTGCGGCCCAGCCGGATCAAGTCGCTGATTCAGCTGCTTTTCAGTAAGCAAGTACTGACGGTGAGTGACTTAGGCCAGACGTTACACGTGACCCCAGCATTCATTATCAGACTGTTCAGCTTGGATGCCAATTTCTTTGAACCATATATGCAGCACAAGCAGGCGACGTTCTCTTCAGCAGAGATTATCCCTTTGAAACGGTCTGTGTAG
>SRR1151209_02691 hypothetical protein
ATGGGCAAGTCACTGGAATTACCCGAATTGCTGGAACAGCAGCTTGTTGACGGTATCCTGGCCGGCTACAAGGATTATTTAAGTGTGCGCCGATCTGCCCAGAAGCGGCTGGCAGTCAGCAGTGCTTATGCCTGGGTAAAGGGCAATCACATTGATTCGCAGGTCAAAGAAAAATGTGCCGACATTCCAGGAATCGAAGTGAAACACGATTTGGCTGGTTACGCTTGGGAATATCTCCAATTTTCGTACGACGATGCCAATGGTCAATCAATGATCATTGTTAAAAATCAGCGGGCAGCGGCGAGTAATTTTAATGAAAAGCCGCAACAGGCCGATCCTAAAAACTACTTATATCAGTACGCCGGAATCAACAATGAACTGGTGAAAAGAGGCTACCTCAAAGGTAAACGTACAGGTGCCGGCGTGCAATTGGAATTGTCAATGCCGGAGTTGGCGGCCATCCAACAAAATGTGACAACGGACCAGCCGCAAGGCTTTAATCGTTTCTACATTGTCACTTATGAGATTGACGATGTTAAAATGATCAAGTCGATTCGCCTCACGATGCCCAAGCAAAACACCATGAGCCTATTTCAGGCGGCGGATCTGACACCAATGATTGCTAAAAGCGGTATTGATATCACCCCGGAAGAACTAGCCGTTGTGCAAAGGGATCGGGTACCAGCGAGCGTTTATTCACCGGATAATCAGCCATTCGGGTATGAGATTCCCGAGGGTGAGCAGAAAAAAGAACAGTAG
>SRR1151209_02692 MarR family transcriptional regulator
ATGTCCCGTGAAATCTATGATTGTGCCGCCGGTTGTCCGGTGCAGAGCACCGTGCAGATCATTGCCGGCAAGTGGAAGAGTGTGATTTTGTACCATTTATTTCAGGGCGATGCGACCCGGTTCAGTACCTTGGATCGGGCAATTCCGTCGGTGACGGCGCGGATGCTGGCGTTGCAATTGGCTCAGTTGGAAGAAGACGGTGTGATTGCCAAACAAGACAGTGACGACGACCGCCGGGAGACGGAGTATGTCCTCACGCCGTTTGGCCAAACACTCGCGCCGGTAATTGAAGCCATGGCCGCGTGGGGCGCGGCGTATAATGCGCGGGAGAAAGAACGGGTCTAA
>SRR1151209_02693 NADPH:quinone reductase
ATGAAAGCAATCGGTTTTACGCAGCATTTACCAATTTCTGATCCGCATAGTTTAGAGGATCTGACCCTGCCGCAGCCAGTGCCAACTGGCCATGATCTGCTGGTCAATGTGCACGCGGTCTCGATCAATCCGGTGGATACCGGCACCCGGGGCGGCGGCCGCCGGCAGCTTGCCCAACCGAAAATCATCGGCTGGGATGCCATGGGTACTGTCACCGCGGTTGGTGACGCGGTGACCCTGTTCCACCCAGGGGATCGGGTCTATTATGCCGGCAGTTACAAGCGTTCCGGCAGCGACGCTGAATATCAGCTCGTTGATGAACGGATCGTCGGCCATGCCCCCACCCAACTGACCGACGCCCAGGCTGCCGCCATGCCGCTGACCAGTTTGACGGCCTGGGAGGCTTTGTTCGAAAAGCTCCATATTCCGTTGAACAACAAAGCCGCTAACGCCCACCATACGCTCCTGATCATTAACGGCTCCGGCGGCGTCGGTTCCGTGGCGACGCAACTCGCCCATTGGGCCGGCCTGCAAGTCATCGCCACCGCCTCCCGGCCGGAATCCCAGCAATGGGTCCGGGCCCATGGTGCCGACCGGGTCTTGAATCATCGCCAGCCATTGCCGGCGCAACTGCACGCGGCCGGGTACAAAGATGTCGATTATATCTTGAATCTGTCCCACTTGGACGAGCATTGGTCCGAAATCGCCGAGATGATTCGCCCCGACGGTTGGATCGCGGCGATCACCGAGAATCGCCAGGGCATCGACTTGCAGCGGCTGACCAAGAAACGAGCAACCTTTGCCTGGGAATGGATGTTTTCTAAATCCTGGTACGGCTATGACTTGGCTTCCCAAGGAGAGATTTTAGACCGTGCCGCCGCCATGCTGGACGCTGGCACTTTGCAAAATACACTGACCAAGACGCTGAGTCCGCTGAACGCAGCCAATTTACGGCAGGCCCACGCCTTGGTCGAATCTGGGCACATGACTAGGAAGGTGGTCGTCACCGGTCCTTGGGCAAACTAA
>SRR1151209_02694 GNAT family acetyltransferase
ATGGTGGGATACGGTACGGCCTCGATAATCCATATTGTGTCGTTACGCGAAAAACCGGAGCTGCTGCCAACGATGATTCAATTCTTCCAGAATCATTGGGGCTCTCCAGAGAGCAATCCGGTCTACACGGATGCCCTGACGCACAGTGTCGCGCCAAACGGTCCGCTGCCCCAGTGGTATTTGGCGGTGTCGGCGGATAATCGGGTGGTGGGCGGCTGCGGCTTGATCCCCAACGATTTTATCAGCCGGATGGACCTGATGCCTTGGTTGTGTGCGTTATTTGTGGAACGCGACTTTCGCCAGCAGGGGGTCAGCCGGCAATTGATCGACCGGGTGGCAGCCGATGCTCGGCGGTTGGGGTTTGCCGATTTGTATTTAGGCACGGATCTGCTGGGCTTTTATGAGCAGCAAGCCTTTCACTATATCGGTGATGGTTATCAGCCCTGGGGCGCGAAGCTGCGGATTTATGAACGGCATTTATCATGA
>SRR1151209_02695 flavodoxin
ATGGCTAAAAAGGCACTCATTGTCTATTTCTCTTTGTCCGGGTCGACCGAGCAAGTGGCCGATCTGTTGGCAAAGATCTCCAATGGGACAGTACACCCAATCCAAGTGGTCACCCCGTTTCCGGAAGATATGTACAAGACCAACGATATTGCGGAAGCCCAGCGCGAGGATCATACCTATCCGGAATTATCTGGCAAGCTGCCCAACGTGGCGGATTACAGAATCATCCTGTTGGGCGGGCCGGTCTGGAATGGGCATCCGGCAACACCGCTGCTGCGCTTTTTACAGGACGTGAACTTGGGCAGTGTACCCGTGGCGCCTTTCTTCACTTATGCGACTGATCCGGGGGATTATGCCAAAGAAATTGACCGGTTGTTGGGGGCCAATAGCCTGGCGGCGTTGGGCATGGCGGATGCTGTCGTGGCGAAGACCAGCAAGGCGACGGCGGAATTACAGAAATGGTGGGATACGGTACGGCCTCGATAA
>SRR1151209_02696 hypothetical protein
GTGCAGCGGACGGTGCAAGAAAATATCCAGACCGCGCTGACCCATGGCGATACCCGCTTCTTCCAGCGGGTCGTCGGTGACGCTAGTCCGACAAACACGTATCTGCGCCAATTATTGAAGAAAAAGCCGCTGACGATTCAGGTCAACGGCGAAAATGACGATGCGGACCAGTTTAACCATAACGCCGGCCATATCCACTACTTCGACGCCACCATCAACGGTCGCCCGATCATGCTGCAACTGACACGCAACTGGACGCCATGGCCGCAATACCACTTGGTCCAAATTGAGTATGCTGGCAGTCGAATAAAATAA
>SRR1151209_02697 hypothetical protein
ATGAACAACTCACTCATTCGACTCATTGTTCCAGGTATTGTAGTGCTTTTTTCACTTATCCTATTAATCAATCAAATTCAACAGAGACGCCACACACCGGCAAATCAACCGCCGCAACCGCAGATTCCTTTGCGTTATCTGGCAATTGGTTTGATTTTGCTGGTCCTCGGAGTGTTGTTTATTCCCTGGGGGCCGCGGACATGGGCGGAATATCAGAACGAATTCCCGATTCATCTGGTACTAGGAGTGATGATCGGTTTTCTATCCTTAATTGGTTTTCTCGGCACCTATTTCTACCGGCGCTGGTCCAACCGGCATTGA
>SRR1151209_02698 membrane protein
GTGGACGGCAAGCAGCAATTTCGACCGAAAACACATTGGACACTTTCTGAAAAACATCATATGGCTATCCCGTGGCAGGACTTGATCCACGAAGATGACATTCCGGCAAAGGAAGCCAGTTTGGCAGCGCGGGCGACGATTGTCGGGCGGGTCGGCATCATTTTGCTGTCCTGCGGGACCGGGGCGTGGCGCGTGCGGGACGCGATGGATACGGTGGCCCGGGTACTGGGACTGACTTGTTCGGCCGATATTGGCCTGATTTCTATTGAATATACCTGTTTCAGCCCGCATCACCATTATTCCCAGGTCCTGTCGCTGCCCACGAGCGGGGTCAATACCGATAAATTAAATCGGATGGAACGGTTTGTCCATCAGTTCGAAGGAAAATATGCGCATTTGACGATGCGGGAGCTGCATCTGACCCTAGACCATATTCAGCACCGGTCCGGCAACTATTCGGTGGTGGTTGGCGGCCTTGCCGCCGCGCTGGCATGCAGTGCCTTCGTCTTTTTACTGGGCGGCGGGCTGATCGAAATGCTGTGTGCCTTCATTGGCGCCGGTGTGGGCAATCTGATCCGCGGCTGGATGATCAAAAAGCATATCACGACCTTGGCCTGCATTGGCGTCGGGGTAGCGGCGGCGTGTCTTTCCTACGCGGCGGTTTTCCAAAGTCTGGTGGCGCTGTTTAATGTCGCGGCCGGGCATGAGGCTGGGTATATCGGTGCGATGTTGTTTGTTATCCCTGGTTTCCCGTTCATCACCAGTATGTTGGACATGTCGAAATTGGATATGCGGTCCGGCATCGAACGGCTGGTGTATGCCACAATGATCACCACCGTAGCGGCACTGGTTGGCTGGCTCTTTGCGCTGATGGTCAACTCGCGGCCGGGTAACTTTATGCCGTTGGGCCTGAACCCGTTCGTTCTCGCCGCTTGCCGCGTTTTGGCCAGCTTCTGCGGCGTGTATGGGTTCTCCATTATGTTCAACAGCCCCCAGAAGATGGCGATCACGGCCGGACTTGTCGGGGCAGTAGCTAATACGCTGCGCCTGGAACTCGTGGACTTGACGATTATCCCGGCCGCCGCCGCAGCCTTCATCGGCGCACTGACCGCGGGGCTGCTGGCCTCGCTGATCAATCGTTACCAAGGGTTCCCCCGAATCTCGCTCACGGTGCCATCCATTGTGATCATGGTACCGGGCCTGTATATTTATCGGGCGATGTACAATATTGGGTCCAACTCGCTGAGTGTCGGCGCGATGTGGCTGACGCGCGCGGTGCTGATCATTATGTTTCTGCCCATGGGGTTGTTTGTGGCCCGGCTGATTTTAGATGAAAAATGGCGGCAGAGCGACTAA
>SRR1151209_02699 hypothetical protein
ATGAGTCAAATTATTTTGTTAGCCGTGGGTCTGCTGTTTTTCACTCGGAATGTTTTTCGTTACGAAAAAATATCCCGGTTGGAAATGGTCGTTGTTCCGGCGTACACCCTGATCGTGGGCTGTATCATGATTATGAATCACCCGCCGGTACTGCTGCCGCTGGTGAGCACAGCAGCTGTCGGCGCACTGGTCGGCTGGTTTCAAACGACCGGGTTGCAGTTGCAAGTGATGGGTAAGCAAGACGAGCATCAGCGGCCGATTGTGAAAGCCCGGCGCAACTGGCAGTATCTGCTGGGCTGGGTCGTGATCTTTGCTTATGGCATCTTATTTGCCTGGTGGTCTGGGGAACGGGTCAACATCATGAACGAGTTGGGCAGTGAGCTGGTCAAAGACCTGTTTGTGTTCAGCAGCTTCTCGCAGGCCGCGAGTTGGAACATTATGCTGCAATCCGCGGTGGCCAGCATTGTTTACATCCAGCTGGCGATCCGCAAAGAACCGCGAGTACGGGCCGCCATTGCGCATCAGGAAAAGACAAAAAGCAATTAA
>SRR1151209_02700 membrane protein
ATGAATAAAGCCCGTGTTGAAGCCTTCACCGACGCTGTGGTCGCCATTATCATGACGATTATGGTCTTAGAATTCAAAACCCCGGAATCGCCTGAGTGGACGGCCATTCTCGACGAGGGTCCCTACCTGTTTGCCTTCGGCGTCAGCTTCGTCTTCGTCGCTGTGGCCTGGTACAACCATCATTATATGTTCTCCCTGGCCGAACGGATCTCCAAGCGGGTGTATTGGCTGAATATTGCCTGGCTGTTCGCGATGTCGTTATTGCCGGTGGCGACGGCCTGGGCCGGCCGCTATCTGCAAGCACGCGGACCAGAGTATTTCTACTTGCTGGTTTTCTTCCTCTGGAGCAAGACCTATCTTTATCTCAGCGTAGCCATTGCCAACGACTTGGACGCCACGAATACCGAGAAAGCTGCCCGGCTGCGGCAGATGCCGATATTTCGCTTTCTGCGCGGTTGGCGGTTGCCGGCCGAGACGGCCGCGGTGGCCGTCATTGTCTACTTCTATCCGCCCAGCTGTCTGCTCATCACGCTGTCGGAACTAGTCTATATGGCGATCCACACGACACCGGATAGTGACCGGGTTTCCTAA
>SRR1151209_02701 pyruvate oxidase
ATGGCTGATACGATTAATGCAGGGATCGCGGTATTGCGGACCTTGGAGAGCTGGCATGTGGACCATATCTACGGCATTCCCGGCGGGACGTTCAACAATATGATGTACGCCCTGGATGCGGAAAAGGAACGGATCCGCTATATTCATGTGCGTCATGAAGAGGTTGGCGCGCTGGCGGCAGTAGCCGATGGCAAGCTGACGGGGCATATCGGTGTGGCCTTTGGTTCTGCCGGGCCGGGGGCGACGCATCTGTTCCAGGGGGCTTACGATGCCAAGATGGATAAGGTACCGACGCTATTCCTGGTGGGCCAGGTGGAGCAGCGGTTTATGAACTTTGATTTCTTTCAGGAACTCAATGAGGATCCGTTGTTCCAAGACGCGGCCGTGTATGCCCGGACGGTAACCACGGCGGCAGGGCTGCCCCATATCGTGGACGAAGCGATTCGCCGGGCTTTCGCGGCCCATGGGCCGGCGGTGGTGGTGATTCCCAACGATCTGCCTGGAGAAGAGATTCCTGCCAACGGCTATTACAGCGCCGCGGCAAACTTTGCCCGGCCGGAACTGGCCGCCGGCAGCGATGAGCAGGTGGACGCGGCCTTAGCCCTGATCCAAGCGGCGAAGAAGCCGGTCATGTACGTGGGCCAAGGGACCATCGGTGCGGCGAGCACCGTTGAGGCGGTATCAGAAAAACTGCAATTACCGGTGATCACCACCGCCCTGGGCAAGGAGATCATTCCTTATGAATTCCCAGCGCTGCTGGGATCAGCGGCCCGGGTGGCGTCAAAACCGGCGAACGAAGCGTTGCGGGAAGCCGACTTGATCATGTTTGTCGGGTCCAATTACCCCTTCGCTGAAGTGATGTTCAATCCGGCGGCCAAGTTCATTCAGATCGACAGCGACCCGAAGATGCTGGGCAAACGGCACCACGCCGATGTCGCCATTTTGGCCGACGCTAAGCAGACCTTGCAGAAACTGCTGGACCGCAGTACCGCCACGGCTCCCACTGGCTGGTACGCGGCAAACAAGGATAATGTCGCCAATTGGCATCAATACAACGATCACATGATGAACCGCACCGAAGGCCGGCTGCGCTTTGAACCGGCCTTCAAGCAAATCAATCGAATTGCCAAGGACGACGCTATTTTCTCCATTGATGTCGGTGATGTCACCCAGAATTCAGTACGCCTGTTGAAAGTGAACGGCAAGCAGCCGTGGATCACCTCCGGGCTGTTCGCCACCATGGGCGTGGGTCTGCCGGGGGCCATTGCTGCCCAGCTCAGCTATCCGGGCCGGCAGGTCTTCAACCTGGCCGGGGACGGGGCGGCCGCCATGGTCATGCAGGACTTGAATACTGAAGTCCGCTACCACTTGCCGATCATCAACGTCGTCTTTTCGAATAATGCCCTGGGGTATATCGAGGACGAACAGGAAGACGATGGCCGGGAGTGGTTCGGGATCGATATGCCGGGCCTGAATTTCGCTGAAATTGCTGACGGCCAAGGGATGACCGGGATCACTGTGACCAAGGTTGAGGATCTGGTACCGGCCTTTGACCGGGCTTTGGCGGTGACGGCCAATGGCGAACCGGTGCTGATCGACGTCAAGATCACCAACGAGCGGCCGATCCCCGTTGAGCATTTGCAGCTTGATCCGGCCCACTTCGACGCAGCGACGATCGCGGCGTTCAAGAAGCGTTACTACGGTGAGAATCTGATCCCGCTCAGTGCCTTTGAAGCGAAACATCCAAACGCTTAA
>SRR1151209_02702 hypothetical protein
TTGCCTATGATAGAAGGGAAGAAAGGGGCGGTATCCATGCGCAAGGTTTTAATTGGGATTGGGGTTTTCGTGCTGCTGGTGGCCGGGGTCGGCTTTGGTTTGAAATTTTGGACAAAGGATCAAACCAGTACGACGGCGCAGGTGATCGATTTGTTAAACCCGTTTGTCACCCAGGAGACGGTTTATGTGCAGACGACGAGCCGGTATGCCCAGCGCTACAAAGACAGTACCGGTAATAGTATGGACTATGCCTATGACACAGTCAGCTATAATGCTCAAGGCCAAGCCCGGACGATTCGCTACACGGCGTTTGGCAAGAAAATTAAGCCGAATCATTATTTGGCAATCACGACTAAGGGGCAGAATGTACGCCAATGGGCAGAAGTCGCCTGGCGCAACATTCCATCCGCAGCTCAGGTCAAACTGAAGTAA
>SRR1151209_02703 aminoglycoside phosphotransferase
ATGCAATTAACTCAAAACTGGCTGGCCCAGCTGCCCGTAACCGTCACAGAAGTCATCCCAGTGGGCGGCGGCGATGTGAATGCCGCGTTTCGGCTGACCACTTCCCAGGGGACAGTTTTCTTACTGGTGCAGCCTGGTCAGACCAAGGATTTCTACGCCGGCGAAATTGCTGGCCTGAAGCTGTTTGCGCAGGCCGGCATCAACGCCCCGCGGGTGATCGCCAACGACCAGATCAACGGGGATGCTTATTTTATCCTCAGCTATGTTGCCAGCGGCAGCGGCGACCAGTACGCGTTGGGCCAAATGGTGGCCAAGCTCCATCAATTCCAGAGTCCCAATGGAGAATACGGCTTTGATTATCCGTACAAAGGTACCGCGATCACCTTCAGCAATGCTTGGACGAAGAGCTGGGCCGAGCTGTTCGTGGATCGCCGCTTAGTGGGGTTAGCGACCGCCATTAAGAAGAAAGGGCTGTGGGATACGGCCTGGCAAACGCCCTTTGATCGGTTGTGTGCCCGGCTGCGGGATGAATTTGAAAAAGATCCACCGGCCCCGTCCCTGCTCCACGGTGATTTGTGGGGCGGCAACTACATGTTTGACACCCAGGGCCAGCCGGTGCTGATCGACCCCTTGGCACTGTTTGGCGACCGGGAGCTGGATATCGGCGTGACCACAGTCTTTGGCGGCTTCAACGAGCGCTTTTACCAAGGCTACCAGGCGACTTACCCGCTGGCGTCCGGGTATGAAGAGCGGATCCAGGTCTATCGGCTGTATTATTTAATGGTCCATTTAAACAAGTTTGGCGCCATGTATGCCGGCAGTGTAGCTGGGGTATTGGCCGCCATCAGTCGTTAG
>SRR1151209_02704 acetolactate synthase large subunit
GTGTCTGATACGTCTTACCGCGGCGCCGACGCCATCGTCGACAGCCTGATCAACCATGATGTCCAATACGTATTCGGTTTGCCCGGTGCCAAAGTGGACCGGGTCTTCGAAGTCCTGGCCCACAGCGATCTGCCTAAGAAACCGCAGCTGATCGTGACCCGCCACGAACAAAACGCGGCCTTCATCGCCGCTGGTATCGGCCGGATCACCGGCAATCCTGGCGTCGTGTTAACGACCTCCGGCCCAGGGGCCAGCAACCTGGCCACTGGCTTAGTCACGGCTACCGCTGAGGGCGACCCGGTGCTGGCCATTTCTGGCCAAGTGCCCCGGGCTGACCTGCTCCGGCTGACCCACCAAAGCATCCGTTCCGCCGCTTTGATGGAACCGATCACGAAGTATTCCGTGGAAGTGCAAGAACCGGAAAACATTTCTGAAGTACTGGCCAATGCTTATCAGGCTGCGGAATCCTCCAAGCAGGGCGCCAGCTTCGTCAGTGTCCCCATGGATGTCGTCAATGCCCCCGTCAAGAGCAAGGTGATCAAGCCCTTGATCCCGCCCACGCTGGGGCCGGCCTCCCCGGCTGAAACCACCCTGCTGGCCCAAGAGATCAAAGCAGCCAAGCTGCCCGTCTTACTCCTGGGCATGCGGGCATCGTCGCCGGAAGTGACTGCGGCCATCCGGAATATTCTGGCCGTTTCTGACCTGCCCGTCGTGGAAACCTTCCAGGGCGCCGGCATTATTTCCCACGACTTGGAGAAGAACTTCTTCGGCCGCGTTGGTCTTTTCCGCAACCAGCCCGGCGATATGCTGCTGAAGCACGCCGATCTGGTAATCACCATCGGGTACGATCCGATCGAATACGAACCCCGGAACTGGAACGCTGAGAGCGACGCCCGGATCATCGCCATTGATGATTCCGCCGCCCAAATCGACCACAATTTCCAGCCGGAGAAGGAATTGGTTGGCGATATCGCCCAGACACTGGATTTCTTGCTGCCGTATCTGCGTGGGTACCAAGTCGCCGACAGTTCGAAGACGTACTTAGCTGAATTGCAAGACAAACTGCAATCCAGAGACGTGCCGCCGGCCGCGAAGCCTGGTCAAAAAACGTCCCACCCGCTGGCCATCGTTCAAGCCTTGCAGCAGCATGTCACCGATGATATGACCGTCACCGTCGACGTGGGTTCCCACTACATCTGGATGGCCCGCCACTTCCGCAGTTACGAACCCCGCCATCTGCTGTTCTCCAACGGCATGCAGACACTGGGTGTGGCCCTGCCCTGGGCGATCGCGGCGTCGCTGGTACGGCCGGATACCCAGATCGTTTCCGTCGCCGGGGACGGCGGCTTCCTCTTCTCTGGTCAAGAATTGGAAACAGCAGTCCGCTTGGGGGCCAACATCGTCCAATTGATTTGGAACGACGGCGGCCACTACGACATGGTCAAATTTCAGGAAGAACTGAAATACGGCCAAGCTGCCGGTACGGATTTTGGGCCGGTTGATTTCGTCCAATACGCCGAGAGCTTCGGCGCTACCGGCCTGCGGGTGAATAAACCCGAAGAGCTGGATGATGTTCTGACCAAGGCGTTCCACACGAAAGGCGTAGTCCTCGTGGACATCCCGGTGGATTACAGCGATAATAAGGCATTGGGTGAATCTCTGTTACCGGACCAACTGTAA
>SRR1151209_02705 alpha-acetolactate decarboxylase
ATGGCAAAAGAAGATGTATTGTATCAACACGGTACCCTGGCGCTGCTGGTGCCGGGCTTGTACGACGGCACCATGAGTGTCGCCGATCTCTTGACCCACGGAGATACCGGTATCGGTACGGCCGATGGCTTAGATGGGGAAATGGTGATCTTAGAGGGCAAAGCGTATCAAATTTCCGGCGCCGGCACCGTCCGGGAAATGGCTCCGGATGAGCTGACCCCCTTCGCCAACGTACATTTCGACGACCCGACCAATGATTATGACCGGGAAAATATGACCAGTGAGGCGCTGGAACAGGAAATCTTCAAGGCCCACACCTTCGCTAATCAATTCTTCGCGTTCAAGATCCACGGCACTTTCGGCCACGTCCAGACCCGGGCGATCGATAAGCAAAAGAAGCCCTACCCGCCCCTGGCCGAGGCGGCGAAGAGCCAGCACGTTTTTGAAAAGGACAACGTCACCGGCACCCTGATCGGCTATTATTCTCCAGATCTGTACCAAGGAACGACCAGCGCCGGTTTCCACGTGCACTTTCTGGACGACGACCGCACCTTCGGCGGCCACATTCTGGCCTATAATTTGACCAGCGGTAAGGTCTCCTTGCAGACATTCTCGGACTTCAACCTGCATCTGCCGGTGCACGACTCCCACTTTGTGCAAGCCGACCTCAACGATCCCGAACTGGACAGCCAAATCAAAGCGGCTGAACACTGA
>SRR1151209_02706 hypothetical protein
ATGCCCATGTCTTCTCGCTTCATGGCCTGGCTGATGCTGGCGCTGAACATCATCTTGATCGGTCTGGTGGCCACCATGCACAATATGGCCGCGATGTGGCTGATGGCGATCATCATGACGCTGGATTCCATTGTCAGTCTGGCCGCTTTGTACCACCGACCGCAGAACCGCTAA
>SRR1151209_02707 hypothetical protein
ATGGAATATCTCAAACTGCTCGGGATCGTCATCATCGTCCTGGGCTTTGCTTTTAAATGGGACACCGTGGCGGTGGTGGTGATTGCCGCCCTGGCCACAGGGCTCCTGGCCGGCATGGACATTCCCACTTTACTGACCACTTTAGGTCAGAGTTTCGTCCAGAACCGGGTCGTCTCGCTGTTCTTTCTGACCTTGCCAATGATTGGCCTGGTCGAAAGCCACGGTTTGAAGGAAGTCGCCGTCAACGGGATTCAAAAAATGAAATCATTGACCGCCAGCCGTATTCTGAATCTGTATTTAATCGTGCGGGAATTGGGCGGTGTCTTTGGTATCTCGTTGTCCGGTCAGGTGCAATTCGTCCGCCCGCTGATCACGCCGATGGTCACCGCGGCGGCCGAGGTGAAACGGCCGCTGACGGAGAAGGACCTGGATGAGATCAAGGGCCGTTCCGCTGCCGTGGATAACTTCGGTAATTTCTTTGCCCAGAACTTGTTCGTCGCTTCCGGCGGTGTCTTGCTCATCGTCAGCACGATGACGTCGCTCAAGCACCCCGTCACCGGCACGCAAATCGTGCTGTATACCATCCCGGTGGCGGTGGTTACCTTGGTGACCGTCGCGCTGTACAATATTTGGTTTGACCGCCGCTTCAACGACACCAAGGAGGGTAACTGA
>SRR1151209_02708 hypothetical protein
ATGGCCCAATTCGGCAATATTCTGCTCACGGTAATGTACTGTCTCATCGGCTTTCTCCTGGCTATCGCCGGCATTGAGTCCATCAAAGCCAAGGACAACCCAGCGCATATCGGCACCGGCCTCTTCTGGCTGCTGCTGGCGGTCATCTTTGCCTTCGGCACGGTCATCCCCTATGCCGTGACCGGCGGGATCATCGTCGTCATCGGGATCTTAGCATTATTCAAGCAGATTCAGGTGGGTAAAATTGCTCCAGTGGACCCGAAATACGCGGCCACGGCGGCCAAACGCATCGGCGGCTGGGTCTTTTTCCCCAGCGTCGTGCTGGCCATCGTCTCCATCGCCATTGCCCAGGTCAAAAGTCTCGGACCGCAGGCAGGCCAGGTCGGCATCGGCATCGGCGCGGCGGTGTCCTTGATCGTCGCCATTCTGCTGACCCATGCCCCGGCGAAGATGATCTACCAGGATAGCCAGCGCATGGTCCGCTCAGTGGGCTCGGCCGGCATCTTGCCGCAACTGCTGGCGACGCTGGGCGCGGTTTTCACTGCCGCCGGCGTGGGCACACTGACCGCGAAGCTGATCGCCAATGTCTTTCCCGCCGGGAATCATTTGCTGGGCGTCATCCTGTACTGTGTCGCCATGGCTGTGTTCACCATCATCATGGGCAACGCCTTTGCAGCATTTGCCGTGATCACGGCCGCCATCGGCATTCCCTTCGTGGTCGCCCAAGGCGCCAATCCCGCGGTGGTCGCCGCGATCGGCATGACTGCCGGTTACTGCGGCACGCTGCTGACGCCCATGGCCGCGAACTTCAATTCGCTGCCGGTGGCATTACTAGAAATGCATGATAAGATGGGAGTCATCAAGCAGCAGGCCCCCATCGCGGTGTTCTTACTGCTGGTGCAAATTGTCTTGATGTACGTATTAGCCTTCTAG
>SRR1151209_02709 pyrrolidone-carboxylate peptidase
TTGAAAATTCTTGTGACCGGATTCGATCCATTCGGCGACGACAAAATCAATCCCGCTATTGAAGCCGTGAAGCGGCTGCCGGACGAAATCGCCGGAGCGGAAATCATTAAGTTGGAAATCCCCACGAAGTTCAACGTATCCGCTCAGGTGGTCCACGACGCTATTGCCGCTGAACACCCGGACTATGTGCTGAGCATCGGTCAAGCCGGCGGGCGCTTCGCCCTGACCCCAGAACGGGTCGCCATCAACCTGGATGACGGCCGGATCGCCGATAACGCCGGCTACCAGCCGCTGAACCACACGATCCACGCCGACGGCCAGACGGCGTATTTCGCCCAATTACCGATCAAGGCCATGGCGAAAGCCATTCGCGAGGCCGGAATTCCCAGTGCTGTTTCCAACACTGCCGGCACGTATGTCTGCAACCACATCATGTACCAGGTGCAGTATATGCGGGATAAAGAGTTCCCGGAAATCAAGGCGGGGTTCATGCATATTCCGTTTTTGCCGGACCAAGTCGTGAACCGGCCGGATACACCGAGCTTGTCCTTGGCGGATGATGTGAAGGGGATTACGGCGGCCATTGGGGCGATCGTGGCCCGGGATGGCAAGGGTGATATTGAGACGATTGAAGGGGCGATTGCCTAG
>SRR1151209_02710 hypothetical protein
ATGGCTGAAAAGAAGACGGTGTATGAGGCAGAAATCACCCCGTTGAATGCGGACAAGATCGGCACGGCAGCGAAGGGTCGGGCCCGGTTTGAGGTGCAGGGAGACGAAATGGTGGTCACGATCAACATGACCGGCACGCCGGCAAATAGTCAGCACTGGCTGCACTTCCACGGTTTCCCCGATGGCCGGGACGCCGCGCCGGCTACCGCAGCCCAGGATGCCAACGGTGACGGCTATGTGGACCTCGTTGAGACTGAGTCTGTGTCCGGGGCCACGATGGTGCCTTTCAATGCCAGCCCGGAACACATGCGGGTGCCTGAGGATACATATCCAGTAGCCGATGCCCAGGGTGATTTCATTTATCAAAAGATCATTCCGCTGGGGGTCTTGCGCAATAGTTTCGAGAAGGTCTTCCACGATCGTGACTTGCAGTTGGACAAACGGGTCATTTACGTTCACGGTGTACCCGATGATTTCAAACTCCCCGACACTGTCCAAGGCGCCGTCGCCGGCCACACCGCCAACACGACGCTGCCGATTGCGGTGGGGAAAATCAAGAAAATCAGTGATTAA
>SRR1151209_02711 hypothetical protein
ATGGCATTAACGAGTACAGCAGCGCAACGCGTATTGGATTGGAGCTATCACCGGGCGGTCAAAGGTGCGGGTAAGGGCGAACCAGTGTCCCAACTGGCCGCAACGTATTTGGCGCGCGCTGGCGGTGATCCGGAGGCGGCCATTCAGGAATTTCTGCGCTACGCCCGCCGCCGAGTGGGGACCGTCAGCTTTCTCACCGGGCTGGGCGGCCTCGCGACCCTGCCGGTGGCGATCCCCGCTGAGGTGGCCAACACCCTCTACATGCAATTGCGCATGGTCACGGTGATTGCCGCGCTGCGCGGGTACGACTTGAATGATGATCGGGTCAAGACCATGACCTTGATCACGTTGACCGGTAACGCGGCGGAAGATTATTTGAAGAAAGCGGGGATCGCTTGGACCGGCCGCTTGGGTGAACGGGTCTCAGCCGCTACCTTGCAACGGATCAACCAGTTGGTCGGTCGCAAGCTCTTCGCCGTGGCCGGCGAACACGGACTGGTGCATTTTTCTAAACTGGTACCGCTCCTTGGCGCGGGCGTCGGGGCCGGCGTAGATATCGCCGCCACGGCCACCCTGGCGGTGGTGGCAAAACAGACGTTCTCCGCTGGCCATTTGGCGCATACCACCAGGACCGGTCCGGTTGATTTCTCCCACTTTGACGCCCAGACCTGGTTGCAATAA
>SRR1151209_02712 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase
ATGCGCCATATACCGAATATTCTATCGAGTTTGCGCCTGATTTTCCTGCCGGTATTTCTTTACTTTGCTTTACAGGGTCAATTCCTGCCGGCGGGGATCTTGATCACCATCATCAGTTTGACCGATCTGCTGGACGGTTATCTTGCTCGGCGGAACAACTGGATCTCCCAAGTGGGCAAGGTCCTGGACCCGCTGGCCGATAAGCTGACCCAAATCAGCGTGATCATCGTATTCTTTATCCATTTACCTCAATATCGTTGGATCTTCTGGATCCTGCTGGGCAAAGAAGCGGTCATGCTGGCGGGCGCTGGGCTGCTCATGTACCTGGGGGTCAAACTGCCGGGCGCGGCCATGTGGGGCAAAGTGGCCACGGCCTTGTTTTACGTCACCGCTGTGCTGGTCCTGCTCTTCCCGCAACTGCCCAGCCCGTTGGTGACGACCCTGTTTATCGCCTCCGCGGTCACTGCGGTGGTGTCCGTCACCCTGTACGTGCCTCAATACATCCGCTATCGGCGGGATGCGGGGCGTTAA
>SRR1151209_02713 NAD-dependent dehydratase
ATGGCTAATGTGTTGATTTTAGGAGCCCATGGGCATATTGCCCAGCTGGCAGAAAAGCAGTTATTGAAGGAAACGACGCATCATTTGACGTTGTTTCTGCGCAACGCCAAACGACTGACAATTACCCAGCCGGACCGGGAGACTGTGATCGACGGAGATGCCGCTAATACCGCTGACCTGGCGAAAGCCTTGAAAGGCATCGACATTGTTTATGCCAATTTAGCCGGCAGCAACATCGAGGCCCAAGCCAAAGCCGTGGTGGCGGCAATGGATCAGGCCGGCGTTAAGCGCCTAATTTGGATCTCCACCCTGGGTATCTACGATGAAGTGCCCGGCGCGTTCGGCCAATGGAACCACCAGATGCTGGACGGTGGTTATCTGGAAACTTATGCCGCCGCAGCGAAGGTGATCGAAGCCTCAAATCTGGCCTATACCATCATTCGGCCGGCCTGGTTGTCGAATAAAGACGTGGTCAGCTACGAAACCACAGAGAAAGGCGAACCATTCAAGGGCACCGAAGTCTCCCGGAAGAGTATTGCCGACCTCGTGGTGAAACTGATCAACGATCCCAGTCAAGCGGTCGGCCACTCTCTGGGTGTGAACCAGCCCCATACAGATGGACCGAAACCATCTTTCTATTAA
>SRR1151209_02714 oligoendopeptidase F
ATGTCAGCCAATCAATTACGTCAGCGGCAAGATGTGCCAGAGGAACAAACCTGGCGGCTAGAGGATATTTTCCCCACCACGGCCGCATTCAACGCCGCGTGCAATGACCTGATCAGTCGAGGCCAAGCCATCGGCCAGCAGCAGGCGGTCCTCTTAAGCGATGGGGCGACGCTGTATACCGTGCTGACGGCCTACTTCCAGGCGGAAGCCCTGGCCGATCGGATCTTTAGTTACGGCGAGCATCTGTACAACAGCGACATGACCGCCGCGGCGGGTCAGGCGGCTTATGCCCAAGCCCAGCAGACCATCACGGCCTTCAACACCGCGACGGCCTTCGTGACCGCGACCCTGCCCCAGATCACACCCGCCCAATTAACAGCCTTCTACGCCGCCAAACCACAACTCGAAGACTACGCCTTCATCTTTGCCCAGGCGGAAAAACGCGCGCCGCATATTCTCACTGCGGCGGAAGAAACCCTGCTGTCCGCGTTGGGCCAGTCCTTCAGGGCGCCGGAAACGATCTACAACAAGCTGAACGACGCCGATATCGATTTCGGTACCATGAAAGATCCCCACGGCAACACGATTCCGCTGAGTAAAGAAAAAATCTACCAGCTGTATCAGTCGCCGGACCGGGCAATCCGCAAGACCGCGGCGGAAAAGTTCTCAGCCGCATATGCAAAATCGCAGTATGCCTTCGCCGAAGCTTTGCAGCAGCATGTCCACACGCAAAATACACTCGCCCATGTGCGCCACTACCCGTCGGCCCGGGCGATGGACCTGACCGAAGAGTTCATCCCGGAGTCGGTGTTCACCAATCTGGTGAACACGGTCCACGAATTTCTGCCCAGCGCCCATAAATACTTCGCCTTGCGTAAACAAGTCCTGGCTTTGGACCCGCTCTACACCTACGACTTGTCTGTGCCGCTGGTGGGCGAAGCGCCGCTGAAGCCCACCTTTGCCCAAGCCCAAGAGTGGGCGCTGGCCGCATTAGCCCCGCTGGGGGAAGACTACCTTGATCACCTGCGGGAAGAATTCAACAACCGCTGGATCGACCGGGCCGAGAACGCCGGAAAATTATCCGGCGGCTACGAAGAAGATGTCTTCGGTGTCCATCCCTACGTCCTGCTCAATTGGAGCAATACCTACCGCGCCGCCAGCACCCTGGCCCACGAATCCGGCCATGCCATGCAAAGTGTCTACGCTGATGCCAGCCAGCCCTATTGGTATTCCCAATATTCAATGTTCATTGCCGAAATTGCGTCGACTTGCAACGAGTCGCTGCTCAACCACTACATGCGCACCCAATATCAGGACAACGCTAAAGTGAAGGCCTACCTGCTGACTGAATCCGTCGAAGATCTGCTGAACACTATTTTCAACCAGACAAAATACGCCGAGTTTGAGCACTTCATGTACACCACCGACGCCGCCGGCGAGTCCTTGACCCCGGAGACGCTGACGGATAAAACAGCTGCCCTGGATGCCCAATACGACGGCCCGGACGTGGCCCCGAATCCTTGGCCCAATGTCAGCTGGGCGCGGATCCCCCACTACTACATGAATTACTATCTGTATCAATACGCCACGTCTAAGGCTGTAGCCAACACATTGGCCCAGCGCATGCTCACCGATCCGGCCACCGCTGTGCCGCAATACAAGGCCTTTCTGTCTGCCGGGGCCAGTGATTATCCCATCGAAATCGTGAAGAAAGCCGGCATTGACATGACTAAGCCCGACTACATCCGGGAAACGCTGCAAGTCTTTGACCAGCAGGTTGATGAATTGGCCGATTTATTGACGAAATAG
>SRR1151209_02715 hypothetical protein
ATGTACGTGGTACGTAAGTTTCTGCATTCAGATAAGACCATCAACATCTTTGGGGTCGTTGTCGTTTTGGCCTGCATTATCGCAGCGCTGATGATGCCCAATTGGGCAGTCACGTATGTTGTGCCAGATGAATTTAGTTACAACGACTTCCTTTTACGTGTGTTTTTAAGAACAGTTGCCTACATTATGATCTGGACAGTTGCCTTGATATTCGGCATTCGCCTTTCCTTTTTCAGCAGCCATAAGGATTAA
>SRR1151209_02716 SAM-dependent methyltransferase
ATGGATAAAGACGCACTATTGACCCAATGGCAGAAGGAAGAAAAGGCTGGGATCTCCGGTTGGGATTTTTCCCGGCTGGCTGGCCGCTGGTATAACGACCCGCTGCCGTGGCACTACAAGAAAATTGTGCGGGACCATTTGCGGCGTAATGACCACTTATTGGACATGGGTACTGGCGGCGGTGAATTACTGCGGAGTTTCCACCATGATCCGGCGCTGACCAGCGTCACGGAAGCTTGGGAACCCAACGTGAAACTGCTGGAAGGCACCTTGGCGCAACGCGGAGTCGCAGTTTATGCAGTACCTAAGGATGAACCGGCGCAACTCCCGGTGCCGGATGCGTCCCAGGACATTATTTTGAACAGTCACGCCGCCTTCGACGCGGATCTCATCTTCAGCAAGCTCAAACCGGGCGGCCTCTTTATCACGGAGCAGGTCGGGGCGACCAATAACTTTGCCCTGTCCCGGTTCCTGGTACCGGATTACACGCCGGCTTTTCCAGATAATACGATGCTTCATACCGTCGCGGCCTTTGATCGCGCCGGCATGGAGATCATCCAAGCCGACACCGCTCACCCGACGATGACGTTCTTCGATGTGGGCGCGGTGGTATACTACGCCAGCATTATTCAATGGGAATTTCCGGGATTCTCCGTCGCTCAGGCCAAGGACCAGCTGTTTGTGCTGCAAGGGCTGATTGAGACCCATCGGCGGATTGTGACGAAGGAGGATCGGTTTTTGGTGATGGCCCGGAAGCCGTCGCGGTAG
>SRR1151209_02717 DegV family protein
ATGTCATTTATTCTAAGCTGTGAATCCACCGCGGACCTGAGTCAGGAGCACTTCGACGCCCGCGGCATCCATTATGTCCCGTTCCACTTTGCTATCAACGGCAAACAATATCTGGACGATCTGGGCCAATCGATCCCATTCGATCAGTTTTATGCCAAAATGGCCAACGGGGCGAAAACTGAGACGTCCCAGGTCAACGTGGATGAATTTATCCAATACTTCACCCCGTTTCTGGAAGCCGGTCAGGATATTCTCCACGTGTCGTTATCCAGCGGCTTATCCGGGGTTTCTAATTCCGCTATGGTGGCTAAAAAACAGCTGGATGCCAAATATCCCGACCGCAAGATCGAGATTGTTGATTCCCTGGCGGCATCGTCCGGTTACGGCCTGCTGATGGACAAGCTCGCCGACCTGCGGGATGCCGGCCAAACCATTGATGATGTCCAGGGTTGGGCTGAGGCTAACAAGTTGCGTGTTCACCACTGGTTCATTTCCACCGATCTCAGCTACTATGTCCGGCTGGGCCGGTTGTCCAAGGTCTCCGGCTGGTTCGGCACCCAGTTCCACATCGTCCCACTGCTGGACATGGACAACACTGGTCATTTGACGCCGCGGAAGAAATTGCGGGGGAAGAAAATGGCCGAGAAGGCGCTGGTGGACCAAATGGCGGACCATGCTGAAAAGGGCTTGGCTTACGATGGTAAATGCTATATTTCTCAGTCCGCCTTTTACGATGACGCCAAAAACGTCGCCGACATGATTGAGGACCGCTTCAAGCAGCTGAACGGGCCGGTAGAAATCAACCACATTGGTACGACGATCGGGTCGCATACCGGCCCGGGGACCATTGCCTTGTTCTTCTGGGGTGACAAACGGGAATAG
>SRR1151209_02718 phage lysin, N-acetylmuramoyl-L-alanineamidase
ATGTCGTTCAGCATTGATGCCGCAATCAATTACATGTATCAGCTGCAAAAGGCTGGTGTGACCTATTCAATGGACCACAGTCGCACGGGAACCGATGGCACAGCTGACTGCTCAGGCGCTGTTTATGCATCCTTGCGAGCAGGTGGAATGCCTAGTGCTGGCTATGTACTCGACACTGAAAGTATGCACTCCTGGCTGTTGAATAACGGCTGGCAACGGGTAGCAGATAACAGCGATTGGAATGCCCAGCGCGGCGACGTGTTCATCTGGGGCAAGATTGGCGACAGTGCAGGTGCTGGTGGCCACACGGGTATCTTTGTTGACCACGACAACATTATCCACTGCAACTACGCGCACAATGGTGTGAGTATTAATAATCACGACAGATACTGGACCGCCGATGGGTGTCCCTATTTTTATGCGTATCGGTATGCCGGTGCGCAAGAAGCAGATCAAGGAGATGATACCGATATGGATTTGAGCAAATTGACTAGCTTGGCACCAGTCACTGCCTACGGCGTGGCATGGATCACTAACCCCAATGGGGCCGCCTTGTGGGATAACACTGGCAAGGTGCTTAAGCGCCTGCCTTATGGCACATCTTGGGTCGTCGTAGACGTGAACAAGGGTCGGCTGAACGTGGGCGGCTGGATCGACCCGGCAGATGCGGTAGTAAAGATCAACAAGGGAGCCGCGGGCGACTGGTCAGGCACCGTGGTTCGGGTGACTGCTGACGGTGCCTACACGCAAGCTCAGCCCAAGCCTAATCAAGCAGGTGTCCAGTATCTGCCCAAAGGCAGTCGCTGGCAAGTCGTTGGTGTAAGCAAGGACGGGAATTATGTCAACATTGGCGGGTACGTTGATGCCAGCAAAGTGAACATCGAACTGTAG
>SRR1151209_02719 holin
ATGAAGATTAATTGGAAAGTACGTTTTTTGTCTGTTAAATTCTGGCTGGCCTTGGTGCCAGCTATTTTATTGGTCGGGCAAGCGGTCGCTGCGGTGTTTGGCTATAATTGGGACTTTGCCAGTTTGGGCAAGGAACTGACGGGTGTGATCAATGCAGTGTTCGCCGTGCTGGCTATTCTTGGGGTAGTAACTGACCCTACGACAGCCGGTGTTGCCGACAGTGCCCAGGCACTAACCTACACTAAACCAGCTAAGGATACCGTGCCTGATCCGGTACCGGCTGAACCGCTGCAAGCCAATGTGCAGGGCCAGCTGGTCAATGACACTCTGCCAGACGGCTCTGCCACGGAAACCACTGCGAATGGAGCTGACAGTAATGTCGTTCAGCATTGA
>SRR1151209_02720 hypothetical protein
ATGCATATCATTTTAGGTCTATCAATCGCTGAATGGGCTGAAACACTGACTGCCCTTGGGGTGCTAGTGAGTGCTGGCAGCTGGCTGTTTAAGAAAATTGCTCTGGACCCGCTGCGAGCTGATATTCAGATGTTGTCTGAGCAGATTGGGCAACAGCTCAAAGCCCACGAGCAAACACTTGCGTCGATTAATGGGCGCATCAAGGAACATGACAAAGAACTCGGCAGTCACTCGGAACGAATTACCCGTCTAGAAGATCATGCAGGAATCAAAGGAGACGACAATCACAATGAAGATTAA
>SRR1151209_02721 hypothetical protein
ATGGACAGATTCGTGTTGATGTACTACAAGATGGGATTGTTCACTATTCCCGATATGCAACTTTTTGTGCAAGCTGGCGAAATCACCGCTGACCAGTATAAGCAAGCAACGGGCGAGGATTATGTGGCACCGGCAGCATAG
>SRR1151209_02722 hypothetical protein
TTGGCAGAAACAGACACGTATAAACAGGTATTCGTGACCTATCCTGTTCAGCAGCAGGACGGTAACTTTTATCATATTGATTATGTCCCCCAATATGTACCAGTAGAATACCCCAAGACGACTGACCCGATCCCAGCCGAATTGCAAGGAAAAATTGCAAAATATGACTGGCAGACGAGTGAATGGATTGATTCCGGAATTGACCCAACCACTGCGGCCATTACAGCATTGCAAGCAAACGCTGCAATGCTCATGTTGCAGTTTACAACGATTAAAAGCACGCTGGCAGGACTGCAGAAGCAAATTTCTTCATTAACTAACCCAGCAACTACTACCACTAAGGAGGCCTAA
>SRR1151209_02723 hypothetical protein
ATGGGAATAATGATTGGTGGTAAAAAAATGACGGGCCTGATGATTGGTGGTAAAAAAATTGCCGGAGCTTATTATGGCGGCAAATGTGTTTATCGTGATGTGGTCACACTATTTTCAGGGCCAAAGACAATCAATGGGGGTGGTTATTATTTTGATGTTGACATCCCGGCTGGGACAAAGTCAATCGTGATTAAACTTGATAAATATATTACCAGTGCAAAGGAAACACTGAACTATACACCTATTAGTATAAAAAACGGCTGCATTGTTTTCCCCGTGCAAACTGGCGGCTATCAAGGATACATTGATTGTACAGTATCGTTTTATCTTTTGTTTGATGATTCTAGTGGTAAAAATGTTTTACAGATTCGTTCTTTACCTTTGGGGACCGTTGGTTCCGGTCCAGTAACTGTAGTAGGAATTTACGCAGGATAA
>SRR1151209_02724 hypothetical protein
ATGCGAATGACACTGCCAAGACTGACACTGACAATGGACAAGCGGGAGAAAAGCCAGCAGAAGCTGCATCTGCGGCAAAGTGAGCGTGGTCTGAGTTTAACTGCTGAACTGTCTGACTATAACGGTGCACCCTATGATTTGACTGGCATGCTGGTCAGATTTAAGGATGCCAAAGCGGGCGGAAAATCAGTATCTGATGACAATGTGACCATAGCCAATGACCCCAAGACCGGTGTCGTCACATATCCAGTTCACAGCCAAGTGTTTGCTGCAAACGGAATTGGTTGGTTTGAAATTTTCAACTCGGATGGGACCTTAGTCGACAGCACGCAGAACATCCCAATCGTGGTCGATAATGATATTTCCGGCACGCTCGACAACAGCGACTACATCAGCGGATTGTCTGGACTTAAGGCTCAGCTGCAAGGCATCGTCAATAGTGCTCAGCAGACACTAGATAATGCAGTTTCAGGCGCCAGCACCGCTGCCAGTAATGCAAATCAAGCCGCGCAAGCAGCACAAGCATTGGCTAATGACATTCCTAATGACCCAAAGTACAAAGGCACACCAGGTAAGGATGGCAAAGATGGCAAAGACGGGTTAAGCATTACTATCTCTGATAAAGCAGTCACCGCTGGTGATATGACTACGGAGCCAGACGGCACATTAGTCATCGACAGCAACGACAGTTTGTATCAAGCAGTAAACGGTAAGTGGGTGTTGCGCGGCAATATCAAAGGCAGCAAAGGTGATACCGGCACGGGTATTCAGCTCAAGGGATCAGCTGATTCCACTGATAAGCTGCCGGCCACTGGCAACACGCCGGGGGATACCTATGTGGTGCAAGGCCACCTGTACATCTGGGAAAACGACGTTTGGACCGATGGCGGTGAGCTGCAAGGGCCAAAGGGCGATGATGGCCGATCAGCTTATCAAGTATGGCTGGACTCCGGCCACACTGGTACACAGGCCGACTTTTTAGCGACACTTAAAGGCGCCGATGGGAAGGATGGCACGATACCAGATTTAACGCCATATCTCAAGGCCGCCAACGATGCCCAGCTCTGGTCTGGCGACCTCGACACGCTTCAAACCTCTGGCCGGTATTGGCTGATGAACGGCATCACTAATGCGCCAATCACCGACCGCTGGTGGCTGGTGATCGTCATCGCCAACACGTCCAGCACAGACAAACGAGTGGAGCAGATTGCGATTGATGACCGGTACGGCATTGTGTATTACCGGATGCTAGCAGCTAGCGGCTGGAGTGCTTGGCAGCAGCTGGCAACGATGGCCGCCGTATCCGCAGCAATTAGCTCCGCCGCCCCGGACCTCTCACCTTACTTAAAGTCAGCAGATGCAGCAAACACCTATCAGACTGCGACACAGGTGCAGGCGGTTGTGGATGCCAAGGTAGTTCCTGTGGCGGATGAGGCAACGGCCACCAGCAACTCGGCTACCCACCCCACGGCTTTGTATGTTTGGCCGGAGGTGTAG
>SRR1151209_02725 aggregation promoting factor
ATGGCGGACGCTGCTTTAAAAATTCCACTGGTTTACGAACATAGCACAGACGATCAATCCACGCTAGGGCTGGGACACGTGGAGCATGTGATCAGCTGCCAAGTGGAGTCAGTGTATGACCAATTTCCACAAATGACACTGATTTGCGAATACACGCAGTCTAACGCCGACCGCTTGCTGAAAGATAGGATTCTGCTGGCAGACGTTGGCGATGGCTGGAACAAGCAGATGTTCCGCATCAATTCAGTTGAGAGTGATTGGTCAGACAATCAGCGCGAAATGACGATTATTGCTACTCATGTGGCTGCAGATTTGTCTGGAAATGTGCTGACTGCCGATGTAAGCACGGCCAATGCTAGTCCTAGCCAAGTATGGTCAATGGTAGCGTCAAATTTAGCCGAGCCAACTGATGTAACGGTCAACAGCAGCATTACCGATGTGGCCATCGTAAACTGGGACGCTACTCAAGTCGACCAGCTGAGCAGCATTCTATTCGGCCGCGACAGCAAAAGCCCCAGCTTTACGTCTTTGTACAACGCCGAATGGTGGTTTGATAACTACGCCTGGACGTTCGAACACCATGTTGGACGAGATACCGGCATTGTTATCAAATACGGCAAGCATCTGAAGTCACTGCAGAACACGGACACGGTAGCCGGGGTATATACTGCCGTGCGCCCAATCAGCAAATATACGCCTGGCCAGACCGGCACTGGTGATGACAGCAATGTGGTCGCACTAGACGGCACGGCAATGATTCAGTACGCCGGCACAGGCGGATTGCCCGTGTTTGACACCCCATTCAAAGGGCAAGTGGCGACTGGCAAGACACTGACCAACGGTTCACGATTTAAGATTTATAGCTATGCTGAAACAGGCACGGTCAACGATCACACTTGGTACAACCTTGGTGGTAAGCAGTGGGTCGACGGTAACTATCTGAGCTTCGACAAAGGAGCAACAGGACAGTTCCCCAACACCGTTGGTAACAAAGCCACCGGCAAGGGCACGATCGCAGCTGGTCTGGCTGACAAACCAGGGGTAATTTCAAAATATGATGGCGTAATTACAGTCAATTACGTAGGCCCTGGCAAGGTGGCAATCTGGGACAGTCCCTGGGCTGGCCGTCATGTGACGGGTCGATATATGGCTAATGGATCGGCGTGGAATGCATACGGCAAAGCCACTGACGAATCAGGCCAAACTTGGTACAACTTGGGCGGCAATCAATGGGTCAATGCACAATATGTTGCGGTTGATAAAGCTAAAGACTATGCCTATCAAAAAGTACGCGGGATCGGCACAGCAAAGGTCGATAAAGGCAAGATTGCGTTGTGGAACCGGCCCAGCTTCAACGGCTCGATTGTCCGCATGATTAGTTCCGGCACTCGCTGGCAAATTTACGGTGAGGCGGCTGGTGGAAGCACCACATGGTATGACCTTGGCGGCAGCCGATGGATTGATGGCCAATACATGGATTTTTCGGCGGCTAATGCTGTGGAACCAAAGCCAGTAGGGGGTGATGCCAGCAGTAGTGACACGAGCAGTGATACTTCCGACACAGTTTGGAGCTACAATTCACCAGGCACGTGGAATACTCGGGTCAAGCAGTACAACACAGGCAATCAAGTCACGATCTATGGCCAAGGCAGTGGTGGCGGGGCCACCTGGTATAACATCGGCACGAACGAATGGATTCAGGCGGATTATCTGACGTTTGGCAATAACACTGATGTTGATCCAAGTGGTTCCGCTGATGACATGACTGCAGAAGCCACAGAAGTCACGGTAACCCTGCCTGAAAAATACATTGCCGTACCGATGCCAGATGGGCAACAATACGAGCACCAGCGCATCGCCAATTTCGATGCAAGCAGTTACAACATCGACAATGTGGATGACCTTCGTTCAATTACTCAGGCCTACATTCGAGACAACAACATTGGCAAGCCGCAGATCACGCTGACCATCGATTACGACGAGCTGCAAGGACATTACAGCAATCTGACAAGCGTCCGTTGTTATGACGTTGTTACCGTGTTTCTGCCAGAGATCAATCTAAGCATCAAGGCCGAAGTCACTAATGTGATTTACGACACACTGTTGCAAGCTAACACGCAAGTTACTATTGGCAATCGGCCGCTAACAACGACAGACGATCTGGCGGCATGGGTAAAAAAGGCGGAAGACAAGGCTAGCACGGCGGCCCAAAAAAATAGTGATGCCGTGGATGACATGGACTTGGCTTGGAAAAAAGCAATCGACACGACCAATGCAGCGTTTAAGGCCGGTGATATCAAGACTGCTGAGCAGCAGACGGAATGGGAAAACCAATTCAAGGAAACTATCGATCAAGACATCAACAGCTTCAAAGATTATGTTGGTGGGCAAGTCCAAAGTGCCAATGAATTAGCCAGCATCGTGCATTACAACAACAATGACGTCACTTTTTTCAATGGCAGCGGAACACAAGTTGGCAGCCTAGGCGCAGGCGGCTTAGTTTACACCGATCCTAGCACGGGCAAGACGACATCCGTTGTTGATGCTAACGGAAACATCGGAGCTAATTACATTGTCGGCAATTCGATTACAGGCACGGTGATTAAAGGTGCAGAAATTGATGGCGGCTCGATAGACGGAGATATTTTTATTAGAAGTAAAAGCGGAAGCAGCTACGCTGTGATGTCTTATGCAAATGGCTTTTCCATTACCAATGGATCAGCGACCAGTGCCTTAGGACCGACCTCATTAACAATTCAGGGAGAATCACTGCAGCTGATTGATGTCAAAAACTTACACTACTTACTACAAAAGAATGGGATGGATCATGGATAA
>SRR1151209_02726 hypothetical protein
TTGACAGCCATTGGCGGTATCACATGGAATGGGCAAAACAGTGCCGATCTCGGTCTAGCAATTACCTACGACAGCAGCCAACTGGCTGGTGGGCTGTTCTCATCGACGTTGACGCAGATTGGCGGCCAGTCAGCGGCAGTAATTCAGTCCAATAACCGGTTTGATAATGTCTCCCAAGTGTTCAATTTCACCACATATCGCCCTATTCAGCAGGCCGATATTGCTCCGCTGCACCGTGCAGTCCAAGACTGGCTGTTTTCTGGCATGGATTTAAGCCAGTATCAAATACTGGCATTCGACGGCTATCCAGATTATTACTGGCGAGCTGTTCCCAGTGCCCTGACACCGTTTACGATGAACAAAGGAGTAATCACATTCTCGGTGACGTTCAGCTGCCTACCCTATGCCTACGAGACCGGCAGCGATAAATACCAACCGGTCGGCACCGGATCGGTCATTAACAATCCACGGCTGTATAGTGCATTGCCACTATGGCATGTTAAAGGTACTGGTAACGGCAGCTTCGTGCTGAACGGCACAACATATAATTTTCTGGGGCTTAATGGCGACCTGTATGTTGATTCAGAAACCGAGGAAGTCTATGACGCAGCTAACAATTATCAGCCGAGCATGGTACAGTTCGACAATTATGCGTTTCCAGTTCTTGATACTGGTAAGAACACGTTCGGAACACTTACAAATATTACATTGGAGGTGATGCCAAGATGGCGGACGCTGCTTTAA
>SRR1151209_02727 hypothetical protein
ATGACACAACAAATTAACGCAACAATGAGCACAAGTATCGCCCTGGACCTGTTGAGTGCCAGTGAATCCGTCAAATCTTTGACTTCTGTGGTCAGGTCAAGCCAGAGTGCTTGGAAAGCACAAGAAGCTGAGATGAAATCAGCCGGCGATATGGCTGGCGCTGCCCAAGTCAAATATGAAGGCCTGGGCAAATCTATAGAAGCACAGCAGAGCAAGATTGACGCTCTTAAAGCAAAACAAGCTGAATTAAAGGGCAATACTAGTGAAACTGCCCAGCAATTCTTGAAGTATGGACAGCAAATTGATGCTGCCAGCAAGCAATTAGCATCAATGCAGGCTCAGCAAGACAGAGCAAAAACCGCCATGGACTACCAAAAGAGCGGTTTAGCAGGGTTGCAAGATGAATACCGGAAAGCGTCACAAGCCAATCAGGTTTATGTTGAGCGCTTACAGGCTGAGGGCAAGCAACAGGAAGCAAACAAAGCCCAGATTAATGGCTACAAATCCAGTATTAGCAACCTTAATGAACAATTATCAAAGCAATCAGCTGAGCTAGATAAGATTGCATCTGCATCGGGAAAAGACAGCGACGCATACAGGACTCAGCAGAACCGTATTAACGAAACTGCTACCAGCATAGCCAAAGCTAAGAGCAGCATGACGGGCCTTCAAGACGAAATGAACAAGGCCAATCCATCAATATTCACCAGAATCAAAGATGCAATTAGCAGCACAAACAAACAAGCCGACAAAACACCTGGGCTGCTGCGTAAAATTGTTTCCGGGGATTTGATTAGTAATGCAATCAGCTCTGTTTGGACAACGATTCAGACGCAGGGAAAAACAGTATTACAGCAGGGACTGCAAATTGCAGAAGCTGGAGAGCAGGCCAAAAGAATATGGACGTCCCTAGGTGTATCAGATTCTGGTGCCGATGCATTGATCAATCAAATGCGAGAGTTGAAATCTGAGACCAATCTATCCGCCGATCAAGTGGACACATTGCAAAAGCGGTTCTATGGCATGACTGGTAGTGTTCAAAAAACACAAGAGCTGACTACTGGCGTGGCTACACTGTCTGATAAATTGCGATTGAGTGGCGATGCTGGTACTTCCATGGCGAAGTCTTTACAGCGTGCCTTCAACAGTGGCAAGTTAACCACTGGTGTTTTGACGCGAATGGAGAACGCTGCACCTGGCTTGGGCTCTGCACTGGCTCAAGCGGCCGGCATGTCCGAACAAGCATTCAACAAGATGGTTTCTGGCGGCCAAATGTCCAGTCAAAAGCTGCAAGACCTGATTGTTAAAATTGGTGGGAGCAGCAAAACTGTTTTTGCTGACTTTGGCAACACGGCCGAGGGCGCTGAGCAAAGATTAAAAGGTGCCTGGCAAAGTATTGAAGCCAAAATGGCTAAGCCTCTGGTATCTGTCCAATCAACTGGTATCAACTCCGTGGTTAACGTTTTGCAGTCTGCTGCTGTGCAGTCGCTGTTTACGTCTGCTGGCGAAGGAATTGCTAAAATCACACAGAAGGCTTCGGACCTCTTAAACTATGTTGCTCAACACCAAAAAGATATTGGTGGCATCGTCACGGACTTAGCCGACATTGTTAAAATTGCAGGAAGCTATGTCTGGGACAGTTTCAAGGGCATTTTGAAAGATGTTGCTAACTGGTTTGGTATCAGCGGAAAAAATGCACAGTCTATGAAAAATCCACTGGCTACCATCCATGACATTCTGGACAAAATTGTGCAGAACAAGGATGGAATCAAGACCGCAGTCAACATCATTGCTGGCTTATGGATGACGAAAAAGGCCATTGGCTTTGCTAGTTCAGTTGGACGAGTGTACACAAACCTGAAGAACTTAGCTGATTCAAAACTGTTCGTCAAGATTGCTTCTAACTTTGGCCTAATCAATAAAGCTGAAAGCGCAAGCGATGGTGCGGCACCAGCAATTAGTAATGTTGAAAATACAGCTTCAAAGGCCAGATTAGGAAGCCGTGTGCTCAAAGGCACGTCTAACCTAGCCGCCACTGGCACTGCTATTGATGTGGGCGGCAGTATTGTAGCATCTCTGGTAAGCAACAATGAACAGCAAAAGATAGCAGCCGCATCTAAAGCCACTGGCTCAGTAATTGGTGGAGGTATTGGTGCCGCTGTTGGTTCATTGATCGGACCAGAAGGAACTGCGGCCGGTGCTAAATTTGGCTCTGCCATTGGTGACGCATTAGGCAGTACAAAGACAGCTCAAACATGGGCTAAAGACATTCAAAAGTCTGTTGACGCTGCTTCTAAGGGTATTACGATGCCAGCACCTAAAATCAGTGCAGACACCAAGGCTTTGGGCGACAGCATGGCTAAGTATACAAAAGAACTGTCTAAAAAATTGGTTGTTTCATTTAGCACTGATCCTAAGTCAATGGCAAAGGCTAAGCAATCAGTTGATAAAACCTATGCCGATATGTCAAAGTCAGTCGATAGATACTATGCGAATAAAGAAAAAGCGTCGTCTAAGGATTTACAGACGTTAGTCAAAGAGGGGGTATTAACTCAAAAGCAGGCTGATGCTCAGCTGACCAAAGAAATTAAGTCAGATGCAGCAGCAGCAAAAGCTAAAAAGTCAACCTATGCCACCATGGCTAAGGACGCCAATACCTACTACAGTCAGTCTGAAAAAATTGCCAGTGGTAACACAACTAAGTTGCTGGCACTGGCTAAGAAATATGGTACAAACAGCAAGCAGTACGAAGATGAAAAGAACAAGGAACTGCTAGCTTCGTACAAGTCTTATGCTAATCAGTACGCAAAACAACAGCTGACCAACAATAGCAAGATTACATCTATGGTCAAGTCTGGTGCTAGCCAACAAGAAAAGCTATTGGCTGCATTCAATAAGCGTAAAAACACGATGTCTTTGCAGCAAATTGAGAGCACGGCCAAGAATGCTAAAAAAGAATATGATGCTGCAGTTAGACCGGCCCAACAAGCTAGAGATGCCATTATCAAGGCTGCCGATACTCGATACAAGAGTACAGTAGCTGCCGCAACGCACGAATACAAAGATACCGGTAGTATCTCAAAGTCTCAGTATGATGCCATCGTATCGAAGGCAAGACAACAACGGGACGACACTTCCTCAGCGGCCAAAGACCAATATTCCAACGTTACGAAACACGCCACAAACCAATACAAATCCACAGTTTCTGCCATCAGCAAGCAGAAGTCAGAAGCCATCACTCAGCAACAATTACAAGATACAGGTGTATCAACTGAAGCGGCATCGCAATCTAAAAAGGTAGTAGGTCATTCAACAAAGCAAGCAAACAGTAGTCTGAAAGCTGCTCACCATCAAGCTACTGGCACGAATAGTATTTTCAGTGGTCTAAACAGCTGGTGGAATAAAGTTGTCAAGTTCTTTGGCGGAAGCTCAGCTCCCACAGGCTCTGGCGATTATGGTTATACAGAAATTGGTGGCTTAGCCTACTCAAATGGTGGTGCTGTCAAGAACGGCATGGCATTAGTTGGTGAAGCTGGACCAGAATTGCAGTACCAACCATGGTCAGGACAATACAAACTGCTTGGCACTAATGGTCCACAACTGACCAATGTTGCAAATGGTGACTACATTTTGAACGCTCGTGACACTGCCAAAGTGTTATCAGGTGAATTAGGCCATGTTTTGCCGGGTTATGCAAATGGTTTAGGAGACTTGAGTGGCTTTTTCAACGGAATCAAGAGCACAGTGTCTAAAGTTTGGGACAAAGTAAGCAAGTCAGTCAAGGGAATCCTAAAAAAGATTGGCAATCCTCTTAAATTCTTCACTGGATTGGCTGACAGAATATTCGATGTCAATTCTGTTCATGGAGCAGGTTCACTGGCTCGGCAAACAAGTAAAAGCATGCGAGATCAAGATGTAAATGGTATTGCCTCTCTGTTTTCTAAGCTCAAGTCTTCAGCAAAAGAAATGGAAGCAAGTAGTGTTGCTGGACAGCCAAAACAAGCCCAAGCATGGTTGCCCATTGTCGAAAAGCTGATGCAGCAGATGGGCGCTAACCCGCCAAATGGTATTTCAAGTGAAGCCGCAGCATTCGTGCGTGAAATCGCTAGGGAATCAGGCGGTAACCCGACCATTAGACAGACAGTTTGGGATAAGAACATGGCGAATGGTGACCCAGCCGAAGGATTGTTGCAATTCATTCCATCAACATTCATGTCCTATGCTGTTCCTGGTCACACTAATATTCTCAATGGTGAAGACCAAATCATGGCAACAATCAATGCTTATATGCATTCAGGGGCTTGGGGAAACATTGGTACTGGTGAACAGATTGACTTCTTAGCCAACGGTGGTTTAGTCAATCGTCCGCTTTCAGCCATTATCGGCGAAGATGGGCCTGAAACAGTATTGCCACTAGGCGCAGCTAAAGCATCTCGAGCTTGGCAGCTGTTAGGACAAGCAGTGACCAATATCAATCAGAATTTGGGTGCTTCTTCCAACAACAATGGTCAATCAGACAGCGATGTGGGCAGTAAGCTGGATGCTATTATCAGCCTACTTACTTTGGCCGTCGAGAGTGGTCAGAGTGATAACACGTCAGGGGCAAGCAACAGTTCTATGCTTCGAAACCTGGCTAAGCTGTTAGCCCCGTATCAGCAGCAACAAATGAATAACCAGAAGTTAAGAGGAGGGGTGATTATTTGA
>SRR1151209_02728 tail protein
ATGAAAATTAAAGAACAAATTTTAAGCAACCGCGAGCATTATGTAAAAGTAACTAACCGGTTGATGCGCAACACACTGAAATATCAGCTTAGCATGGCGGAAGCCGACGATGGCGATGATAAGACTGTGCCAGAAAAGCTACACATGAGCCTAGACACAATCGATGGCACTGAACAATACATTATTGACACGTTGAAACTGAACAAAGATGAGCAGGAGAAATTGGATAATCTGTCATTTGACGACACGTTACGAATTGCGAATCACGTGGTGTTGCGTGTTCAAGGCTTAAGCGAAGAAGACATTGAAATGGCAAAGAAACAAAGCCAGTCTGCGGACAAAAGCGAAGAAGACTAG
>SRR1151209_02729 phage tail protein
ATGGCAACAGTAGGTTTATATGGTATTGCTTTTGCCCTGGTTGACCAAGACCAGAAATTGATCACAGGCACGGGTAAAGGCTTGGGGACTGATGGCATTTATGTTGTTAGCCGTGCAGACCTTGGCGGAAAGACTGCTAATATTACTGGCTTGGATGGCACACCGGTCAAAACGTATGGCTTTAATCGAGTGCAAGCCGTCGATATTCCGCAGGCCGAGCCTAGTGTGGCTCTCGACATTAACGATTTGAATTTTGCCATTAAGCAACAAATTAAAGGCATGATCAACGACCAAAAGGGTGGGTATACCGACCAAGGTATTCAAGCTCATGTAGCGATGCTTATTACGACCCAAACACTGAATCGATTGAACTATGTTTACTACGGATTCGGTGACGGTATCCTGAGCGAGCCTAGCGCCAACCTGCAAACTAATACTAACGCCATTCAAAAGGCTGATGATGCTCTAACTTATACGGCTTTGACAACTGATGCATTTAATGGCGCGCCCTACAAGTTGTACAGCGATTTGGACGCAAACTTTGACAAGGCCAACATGTACAAAGAGGTGTTCGGCGGATATGTATTGCCAACGCCACCAGCTGGTGGGTCAGCTTCTGGCACAGGCTCTGGCACAACAACTCACTAA
>SRR1151209_02730 hypothetical protein
ATGAGCGCAGTAGATGATGCTGTATCTATTCTAAGCCAAGCAAATATTGCTGGAATTGACGCAATCGAAGGCAACAACCTGCCGAAGGAGTTGGTAGACAGCAAAGATAAAACCGTTGTTCTCGTCACTGATTCCGCCAACGATCCATCAACCTTTGGCAATAATGACTTTTGGTCACTTAATCAGGAAGTAGAAGTACAGATTTGGTACTCACAGGAGCTTGAAACTGATCCGGAGATCATCGATATAGCCGTGATGAAGGCATTCACTCACCAATATTGGCAAGTGGCTGCTGTTAGGCAACGCACGTTAGGCCCTGACACGCAGCAGTTGAACAACACGTTCTATTTCAGCAGAACAAAAAACATTTAA
>SRR1151209_02731 hypothetical protein
ATGGACATGGATGTAGCACTTGATCAGTGGCTTAAACAGGTGAATAAAGCGGCACAATTGAGCATTAAAGACCAAGAAAAAATAACAAAAGCTGGCGCAGATGTGTTAGCTGAAAAGCTCACTGAAGATACGAAGGCTAAACACCCGGACACTAAAGGTACCGGCGGAAAGTATGGGCATCTGAGTGAAGATATTAGCTCTTCCACTGGTGATATTGATAAAGAGCACAATGGTAAATCTGTTGCTGGATTTGGCGATAAGGCTTTCGTGGCAAGATTCTTGAATGATGGTACTAAGCATATTCGCGGAGACCATTTTGTGGATAATGCCAGAGATGATGCCAAAGATGATGTGTTCATGGCTGAAGCCGAGAAGTATAAGGAAATTATCGCCAAGTTGAACGGTGGTGGAGACAAATGA
>SRR1151209_02732 hypothetical protein
ATGGCTAATTTTAAAGCGGCCGATTTCAGCCGCAAGGTTGAGTTAGGTTCTCCACAATCACATAAGACTGGTGCCGGAATCAATGTCACCAGCTTTGCTCCAGCTTATAGCCTGCATTACAAACAGCAGAAACGGACGCTTACCCAGCAGTACACGCTTGTGGGAACACGTTTAGATAATTCAATCACGATCATCACCCGACATGATACTAGGAACGCTGCACAGCAGCAGGCACGCCTTGATGGTATTGTGTATGACATTTCAGACATTAGCCCAGATGACAGTAACGATGCTATTCGTTATGACTATCTGACCCTAGTTAAAACAACTAAGGGGGCGTAG
>SRR1151209_02733 hypothetical protein
ATGGCAGATGGTCAAGGGGTTACCCCGGAAGACATGCAGCAATATCTTAATCTTGATACCGATGGGGATGCTTCGGTTCTTGCTGGCATGATCAGTACCGCAGAAGAAGCAATAATTGGGGCTATTGATGACACGATTGCGGTTGAAGTTTATCGAACGTACCCTCTGTTCAATCAGGCGGTTCGGGTGCTAGTTGACTTCATGTACTACAGCCGTGGCACGTTGTCTGACCAAATAAAGGCCTATCCGCCTAGCTACGCGTACATGATCAACAGTATTCGCTGGAAGATTCAGCGTGATCAAGCGGCAAAGGTTGGTGGGACTAATGGCTAA
>SRR1151209_02734 phage capsid protein
GTGGTTGATGCCGCAGCCGGTCACGTCACTTCGACCGAAGCAGGCGTACTGATTCCGGAAGAAATTATTTATGACCCTACCGCAGAAGTAAATTCGGTTGTGGATCTGTCCACTCTGGTCACCAAGACCCCGGTTACCACTCCTAAGGGCACATACCCAATCCTGAAACGAGCAACTGATCGTTTTTCTAGTGTGGCAGAGCTGGCTGAAAATCCAGCACTTGCTGAACCAGATTTTACTCAAGTGGATTGGTCGGTGACCACGTATCGCGGGTCCATCCCGATTTCAGAAGAAGCCATCGCCGATTCAGCAGTCGACTTGACCGCACTCGTTGGCCAGTCTATCAGTGAGAAGTCTGTCAACACTTACAATGCGATGATTGCGCCTGTATTGCAGTCATTCACAGCCAAGGCAACAACCACTGATACTCTTGTAGATAGCCTTAAGCATATTCTGAATGTTGACTTGGATCCGGCTTACAGTCGTGCGCTGGTTGTCACTCAATCCCTGTTCAATACGTTGGATACTTTGAAGGACAAGAATGGTCGTTACTTGCTTCATGATGCGTCTGATTCAATCACCGATGGCACTGCTAAGGGCACAATCCTTGGCGTTCCCGTCTATGTTGTTGGTGATACTCTTCTCGGCTCTGCTGCAGGTGATCAGAAGGCATTTGTTGGTGACTTGAAGCGCGGTGTCCTATTTGCGGATCGTCAACAGGTAACACTTTCATGGATTGACGATAAAATTTGGGGCCAGTATCTCGGTGCCGCATTCCGATTTGGTGTTGAAAAGGCCGATAGCAATGCCGGATATTTTGTAACCAACACAGATGCTGCATCTGGTTCAACATCCGGTTCAACTTCAGGCACTGGCAAGTAA
>SRR1151209_02735 transposase
GTGGAAAAACTCAATATCAAAGGGATGAAGGCCAATCCCAAGTTGGCACCCAGTATCCAAAAGTTGGGACTTGCTTACTTCAAGACCTGGCTCACGTGGCAGTGTCTAAAGCATGGCATTGAATTGCGCGAAGTCAGCACCTGGTATCCCAGTACAAAGTTATGCAGCACCTGCGGCACTTACAATCGAGCTCAATTCCACGGTACGATGGCGGATCTGGCCGTCCGCCAATTCAATTGTCCGCACTGCGGATTATCCATCGACCGCGACGTGAATGCCGCGATCAACTTGCAGCAAGCAACAGACTATACGGTCCTTACGGCAACTGAATAA
>SRR1151209_02736 elongation factor G
ATGAAACATATCGTCACCGGTATTGTGGCCCACGTCGACGCCGGGAAGACTACCCTATCCGAAGCCCTGCTCTACGCCGCCGGCACGATCCGCACCTGGGGCCGGGTGGACAAGGGCGACGCGTTTCTCGATAACGACGCTTTAGAGAAAAAACGCGGGATCACTATCTTTTCCCATCAGGCCAAATTACAGGCCGGCGACTTAGCCGTGACCCTATTGGATACCCCGGGCCACGTGGACTTCGCGGCTCAAATGGAGGCCGTTCTGCCGGTGCTGGATTACGCCATTTTGGTAGTCTCCGCCACGGACGGCGTGCCGGGCTATACGCGCACGCTTTGGCACCTGCTGGCCCGCTACCGCGTCCCCGTCTTTATCTGGGTCAATAAAATAGACGCCCCCGGTGCCGACCCAGCCGCGGTTTTAGCCTTACTGCAAAAGACTCTGGCCCCCGGCTGCACCGACTTCACCCTGACGGATGCCGGTCAGCTGAGCGAAGCCGCTCTGGAAAACGCGGCCGTGCAAGACGATACGGTTTTGACGGATTTCCTCACTGCCGGAACCTTGTCCGATACGACTGTGCAGCGACTGATTCACAACCGGCAAGTCTTTCCAGTTTATTTTGGTTCGGCCCTCAAGCGGCAAGGGATCACCGCCTTCCTGGCCGGCTTGCAGCGCTGGACCCAACCGGCCCAAGCGGCTGCTGACTTTGGTGCCCGGGTATTCAAAATCACCCACGACACCAAGGGCGAGCGGCTTACCTGGGTGCGGGTCACCGGCGGTACTTTGCAAGCCCGCCAAGTCGTCTTGGACGACGAAAAGGCCAACCAGCTGCGGGTCTACAACGGCGAGAAATTCACCCTCGTGCAAACTGTCCCCGCTGGCGGTGTTTGCGCCATGACCGGCTTCACCGACACTTATCCCGGCCAAGGCCTTGGTGCGGCCCAAGACTCGCCCCAACCTGAATTGCAGCCGGTGCTCACTTACGCCTTGGATCCCCAAGGCAACGATATTCATGCTTGCCTCACCGCCATGCGCCAGCTGGCCGACGAAGACCCCCAGCTGCACGTGAGCTGGTCAGAAAGCCTGCAGGAGATCCGGGTTCGGCTCATGGGCGAAATTCAATTGACCGTCCTGCGGCAAATGCTGGCGGACCGCTTTAACTTACAAGTGGACTTTGTCCAAGGCCATATCCTGTACAAAGAAACGATCACCGCCGCCGGCGAAGGTGCTGGCCATTTCGAGCCGCTGCGCCACTATGCGGAAGTCCACCTGCTCCTGCGCCCCGGCCAACCGGGCAGCGGGTCGGTCTACGATTCAACGACCAGTACCGAGACCTTGCCCCAAAATTGGCAGCACCAAGTCCTCACCAGCCTTCAGGCCAAGGAGCAGCTCGGGGTCCTCATCGGCGCGCCGATCACTGATATGCGCATCACTCTGGTCACCGGTCGCGGCAGTATTGTCCACACTGTGGGCGGCGATTTTCGGGAAGCGGCCTGGCGCGCCCTGCGCCAGGGTTTGATGGTCCTAGCCAGCCAAAATCACTGCGTCGTCTTAGAACCGTGGTACGATTTTCGCCTGACCATTACTCGGGATCAGGTCGGCCGGGCGATGAACGACATTCAACGGATGAGCGGCACGATCGCTGAAACTGAAGATACTGCCGGCGGCACCCTCACCGTCCTCACCGGCACCGCCCCGGTCTCCGAAATGCAGTCCTACACCCAGGAAGTGACCACCTACACCCACGGCGAAGGCAGTCTCGAATACGTCGTCGCCGGCTACCGCCCCGCCCACAACGCCGATACCGTCATCGCCGAAGCCACCTACAATCCCACCAGCGATCTCGCCAATCCCCCCGGCTCCGTCTTCGTCGCCCACGGCGCCGCATACACCGTCAACTGGGACAAGGTCCCCGCCACCATGCATCTGCCGTACGTCTACACCCCCGCCCAACTCGCCGCAATGACCGACGAACAGCAGTCATAA
>SRR1151209_02737 serine protease
ATGATGGATAATAATCAATTTAACAATAATGAACCTAATAATGAACCGAATCAGCAACCCAACCAACGCCCGGTACGGCCGGTGAATAATGGCAACGGTCAACCGCCGCGGCAAAAACGCGGGGGCGGATTATGGAAAATTGCCGTCGTTGCCCTCGTTTCCGCCTTGATCGGCGGCGGCGTGGCGTATGCCGGCTTCAGTCACCAAATTAGTAATCAGGCCAGCGACACGACCGTTTCTTCTAGTTCTGAACCGGGGACAACTCAGGTCAGCAACGTGACGATGAAGAATTCGACGTCCATGTCCAAGGCGTTTTCGAAAAATAAAAACGCCGTTGTTTCTGTGGTGAACCTGCAGAAGCAGAGCAACACCGATAGTTCTGATCCGTTTGCCGGACTCTTCGGCGATGACGATGACAGCAAGAGCAGTTCTTCTAAAGGCAGCTTGGAAGAGTATGGCGAAGGTTCTGGGGTGATTTATGCCAACCAGAACGGTAAAGGCTACATCGTGACTAACTATCACGTCGTTGAAGGCTCTGATTCATTGCAAGTTATTTTAAGCGATGGTACGAAGGTATCAGCAAAGAAAGTCGGGACCGATGAAGTCAGTGACTTGGCAGTTTTGACCATTGATTCGAAATATGTCAAAGGGACTGCGACTTTCGGCAATTCCGATGCACTGACACCGGGTGAACCGGTCATCGCCATTGGCTCGCCGCTGGGCAGCGAATATGCGACCTCGGTAACCCAAGGGATCATTTCGGCCAAGAGCCGGACCGTGGACACCACCAATTCTAGTGGTCAGACGACCGGTCAGGCGACGGTTATTCAAACGGACGCGGCCATCAACCCTGGGAACTCCGGCGGCCCGCTGGTGAATGCGGAGGCCCAAGTTGTGGGAATCAACTCGATGAAGCTGGCCCAGAGCAATGACGGGACCACCGTTGAAGGGATGGGTTTTGCCATTCCGAGTAACGAAGTGGTGAAGATCATCAATCAGCTGGTGAAGAATGGTAAGGTCGTGCGGCCAGCCCTTGGGGTGCGGGTCATTGACCTGAGTACCGTGGATAATTCACGGATCCGCAGTCAGCTGAAGATTCCGGATAGTTTGACCGAAGGGGTCGTCATTGGCAGCGTGGACAAGAACACACCGGCGTCTAACGCTGGTTTGAAGGCCTACGATGTGATCACGGCACTGAACGGCAAAGCAGTGAACTCTGTGGCGCAGCTGCACACGGCGTTGTATAACTTCAATGTCGGCGATAAGGTCACGGTGACGTATTACCGGGGCAGCAGCAAGCAGACGGCGTCAGTAACGTTGAGTGAGACGCAGAGTCAGGTGGAGAAGAACAATTCGAGCAGCAGCAGTTCTTCGAGCCGGGGTTAA
>SRR1151209_02738 metal-dependent hydrolase
GTGGGAAATTTACCAGGGTTGGATTATTTCAGAGTCAGTCCATTGGCCAGCAGTTCCACGGGGAACGTGACATATATTGAAACGCCCCAGCATAAGGTGCTGGTGGATGCTGGACTGTCGGGTAAGAAAGTTGAGTTATTGATGGAAAGTATTGGCCGTACCTTGAAAGAGGTGGACAGTCTTTTCGTTACCCATGAACACAGCGACCACATTCGCGGCGTTGGGGTCTTGGCTCGCCGGTATCCGCAGATGAATATTTATACCAACGCGCAAACCTGGCAGGCCATGCTGCCGAAAATCGGTAAAGTGCCGGCGGCCCAGCGGCAGCTGTTCCCCATGGGGACGACGCTGTCCTTGGGTGATCTGGACGTCACCAGCTTCGGCGTTTCCCACGATGCCATTGCGCCGCAGTTCTATGAATTTCATCATTCAGGGGAATCTTTTGTAATCGTCACCGATACCGGCTACGTGTCTGAGCGGGTCGAAGGGGTGATCAAGGATGCCACCTGCTACTTATTTGAAGCCAACCACGACACCGAGATGCTGCGGGAAGGGATGTATCCCTGGCCGCTGAAGCAGCGCATCATGAGCGACTTAGGTCATTTGTCCAATGTGGACGGGGCCCATGCTTTGATGGATGTGGTCGGCAACGATACAAAACATATCTTCTTAGGCCATCTGAGTCAGGAAAATAATATGAAATCGTTGGCCCACATGACGGTGGCGGAAACAATGGCCGCCCATGATTTTGGGGTTGATCATGATTTCTATCTTCACGATACCGATCCGCTGGTGGCGGTACCGCTGCTCACGCTGTAG
>SRR1151209_02739 hypothetical protein
ATGGACTTTCGCAAGATTGAAGGCATCTTTCTCATCGTGTTCATTGCGCTGGATATCTTCCTGTTCTTCTCCTTTCGCTCCAACCTGACCCAGGTCGGCTCACGGACAACCTCCACTACCACGACCCCCACCAGCTTCGTGCGGGAGATGCAGGAGGATAATATCAGTGTGAATAAGCTGTCCACCAAGCGGGGCAGCGGCTATTATTTGGCCAGCCAGCCCAACGCCGCCCTGCAACAGAATTACCATCGGTTGACAGATCAGACGGTGTCTTTAGATTCAGCCCAAATGACGCTGATCAGCAAGCTCAATGATCCGTTCCGAGTCACCACAAAGAACCGGAACAGTGTCTTTCGGGACTGGCTGAAAACGAGCGGCAACGTTCTGTTTGCCGATCAGTACGAGTATGTTCCGGAAGTATCGGATACTACGCGGGCGGTTTATGCCCAAAAGGTGGACGGTCAGCTGCTCATGGACAGCCACGGCCAGCTGGTCTTCCAGATCCGCAACGGCTGGGTGACCGGTTATACCCAGACCTATATTGATCGGCTGTTAAAGCTGCAGGAAATGGATCAGACAAAGAGTGCTCAAGAGGCGGTGATGCTGCTGTATACGTATAGTGAAATCCCGTCCAATTCTCGTATTCTTTGGGAGAAGCTGGCCTATGGCTGGCTGCTGGACGCCAAAGGCAGTACGATTTACATCCCCGTGTGGTACGTGGGCATTGAGAACCGCAACACCAAAGTCGTCACTATCAAGCGGGTCAACGCCTTCACTGGCGCGGTATTGAAGAGCAATACGAACGATGCCACCAGCAGTACGACCAGCAGCTCATAA
>SRR1151209_02740 hypothetical protein
ATGACGAGACTGTCTAGTATTATCCTGCGGGTGGCCCTGATCATCGCAGTAGCGATCAGCTTCGTGCTGACCTACTTGATCATGGCCCATAATACCGCGTTCAATCGGCCCCAGGATGTGGTGAATGACAACGCCAATGCCGTGCAGAACAGCACCGTGCAGAGTCTAGGCGATGTGTATTTGCCGATTCGCGTTATTTATCATGATGATGTGACCGAGAAATTGGTGTATAACCGCAAGAATAACCTGATGGCTAATTTGCAGAAGCGCTTGGCCAAATGGAACATGACCACGATTGGGGTGGTCCAAAAACTGGACATGAAGGCCTATTTGGCCCGCCTCAATCAAAAAAACAGTATCATGATGATTTACCCGGACCGCATCACGTGGCGCTTGTTTGCGGATACGTTCAAACAGCCCAGTAAATTATCCGAGACGGATTTCGCTTTTGATCGGCTGATTGCGACACCCAAGGGCAACCGCTTAACCATCACCTTTTTGAACGATGACAACCAAACAATTCGCGAGACCACTATGGCTGGCAATTATACCGATCTGACCAGCCTGGTGCGGAGTGCTGATTTTACTGCGCAGTGCAAGTACGTGGCGTTAAACAACACTACGCAGCTGCTATTTACCAAGGCGTTCACGATGAACCCTTATAGCTACCTGGTGTCCTACACTCCGGACAACGAGTTCGTCAATAATCTGATGAGCGGGTCGGAAACGAGTAATATCGAGTCCAAATCATCTGGCGGTGATACCCAGTACATTTCAGGCAGTCAAAAATTGATCGTGCCCAAGAACGGCCATTTGGTGACCTATCAGAGCTACGGCCAAAAGGAAGTCAAGACGATGACCGCGAAGCTGGAGAATAGCTTTGAAACGTTGAAAAATGGCGGGATTTCCCTGCGCAATATCCGCTATTTCGGCTATGACGATAATACCGACACGGTCTCGTTTCGCAATTATGTAGAGGGCTTCCCGGTATTCCAGCAAACTGATAAAGGAGCGGCGCAAATCACACCGGGGGATTCCACTGGACTGTTGGAGGCACTCTTCGCTAATTCTAATTTGCAAGTGCCGGTACCCTCGGACCAAGCGGCAGTATCGGTGATTCCCACCGAGCAGGTGATCGATCAAATGGTACAGCGGGGCTTCAAACGCAAACGCATTGAACGAATCCAGCTGGGCTACCGGTGGCAGATGGATAAGGAAACCGACCAGGTCGTCGATTTGCTGCCGACGTATTATGTCCGCTACTATGGACAATGGCAGTCGTTTGGAACTTGGCTGAAAACTGACCCGGATACCGTTTCCGATACGTCACCGGCTGACCAAACCAGCGCTTCGGGCGAGTCGAATGATGCTGATCAAGCGAGTGCCAATACCAACAGCACGGCCATGGGGGTGAGATAA
>SRR1151209_02741 two-component system sensor histidine kinase
ATGAACAAACGAATTAAATTATTTCAATCCATTCATTTTAAAATCGCCCTGGTTTTCGTCCTGCTGCTGGTTGTGACACTGGAAGTCATCGGGGCTTATTTTGTCGGCCAGTTGGAGGAGCAGAACGTCCAGTCCTTTGAAGACTCGATCCAGCTCCAAGCTTACGTCATGAACCAATTATCGACGGCTTTGGTGGATAAAAACAGTACCCAGGCCAATCAGACGATCAAAGACGTTCTCAGCAACGTGAACAACAATAACATTTCTGAAATTCAAGTCGTGGACAATCGCGGCGTGATTCGCGGCACGAGCAACGTTAATGATCAAGACGCCGTGGGCCATCGCTCCACGGTTCCTGAAGTGAAGACTGGAATCTATCAGAACCGGAAGCTGGATCGGATCAGTTACGATGCCCGCAACCGGAGTTTTTATATTGCCATCACGCCGCTGTCGAATCCCACCGCGGAGAGCAACGCCACAGTGGGGGTCGTCTATGTGCGGGCCAATATGGAGGACGTCTTCTCTGGTATTCAAAAAATTGTCCAGATCTTCCTGGCGGCCTCGCTCACGGCAGCCGTTTTGGGGACTGTAATTGCCATTCTTATTTCCCGGGCAATAACCAAGCCCATTGATGATATGAAGAAACAAGCGATCCGCATGGCCCGAGGGGATTACTCCGGTCAGGTACGGATCTACGGCAATGACGAACTCGGCCAGCTGGCTGTGGCCGTCAACAACCTCTCTGTCCGGGTCGAGGAGGCCCAGGAAGCTTCAGAGGCGGAACGCCGGCGGCTGGACTCGGTCCTCAGTTACATGACGGACGGGGTCTTGGCTACCGACCGGCGGGGCAACGTCGTGATCATCAACGATACGGCCCAGGATTACCTGGATAAGTCCGAAGAAGATACCATCGGCCGCTCAATTCTGGATGTGCTGGATATCAGTGAAGACTACACCTTGCGGGATCTGCTCGAAAAGCAGCAGGAAATCATCCTGGATATGTCCGACAAGGGCAACAAGGACTTGATCTTGCACGCTTACTTCTCTCTCATCCAGCGAGAGACCGGGTTCATTTCCGGCTTGGTCTGCGTACTCCACGATGTCACCGAGCAGGAAAAGAACGAGCGCGAACAGCAGCAATTCGTTTCCAATGTGTCCCATGAATTGCGCACGCCGCTGACCAGTCTGCGCAGTTATATTGAGGCCCTGAACGACGGCGCGTGGAAAGATCCGAGTATTGCGCCGAAGTTTCTGAAAGTGACTCAGAATGAAACCGACCGGATGATTCGGATGATCAATGATCTGCTCAGTCTGTCCCGGATTGATCGGGGAACGGCCAAGTTGAACTTGGAGTATGTCAATCTGAATGAGTTCTTGGCTTACATCATCAATCGGTTCGATATGATGATTCATTCTGATGAAGAGAACGCCGCCGGCTCTGGGGCACCCCAGAAGCACTACGTGATCAAGCGGAACTTCACGTCCCAAGATATCTGGCAGGAGATCGATACAGATAAGATGACGCAAGTGATCGACAACTTGATGAATAACGCCATCAAGTATTCACCCGATGGCGGGACGATCACCGTTCGGCTCTTCCGGTCCCGGGAACACGTCCTGATCAGTATCGCGGACCAGGGTCTGGGCATTCCCCGGGCGGATCTGGCCAAGGTCTTTGACCGCTTCTACCGGGTGGATAAAGCCCGTTCCCGGCAACAGGGCGGTACGGGCTTGGGCCTAGCCATTTCCAAAGAAATTGTGGAGGCTCACCGCGGCCGGATTTGGGTCAACAGTACTGAGGGCAAGGGCTCCACGTTCTATATTTCACTGCCGTATGAAGCCTACGATCCAGGAGGTGACTGGGATGACGAGACTGTCTAG
>SRR1151209_02742 two-component system response regulator
ATGGCCAAAAAAATTCTCGTAGTAGACGATGAAAAACCAATTTCTGACATTCTGAAATTCAACTTGACCCAAGAAGGCTACGATGTCGACACCGCAGCCGATGGCGAGGAAGCCCTGGCCAAGGTAAAAAGTTATGAACCGGATCTGATTTTACTGGATCTGATGTTACCGAAAATCGACGGGCTGGAAGTGGCCCGCCAAGTGCGCAAGGACCGCGATACGCCGATTATTATGCTCACGGCGAAGGACTCGGAGATCGATAAGGTTCTGGGTTTGGAACTGGGGGCTGATGATTATGTCACCAAGCCGTTCTCTAACCGGGAACTGATTGCCCGGGTGAAGGCTAATTTGCGCCGCATCGATGCCACCAACAGTGCCCAAGAAGTCGATTCAGATAGTCCCCAAGAAATTACCGTGGGCGATCTGCAGATTTTGCCGGACGCTTATATTGCTAAGAAACGGGGCGAGAAGATCGAATTGACCCACCGGGAATTTGAACTCCTCTATTATTTAGCCCAGCATCTGGGTCAGGTGATGACCCGGGAGCACCTGTTACAAACCGTGTGGGGTTATGATTACTTCGGCGATGTGCGTACCGTCGATGTGACCGTTCGCCGCTTGCGGGAAAAAATCGAAGACAATCCAAGCAAACCGGAATGGCTGGTCACCCGCCGCGGCGTCGGCTATTTCCTGCGCCGGCCGGGGGATGAGTGA
>SRR1151209_02743 hypothetical protein
ATGAAGTTACGACGGTTCTTAACAGTGGCAGCGACCTTGGCGGCCGCGGTGATTCTGGCTGGATGCAGCGTCGGTAGCGGTTCGTCCAGTACCCCCGGCGGCGGAACCAGCAGCAGCGGCCGGACCAAGATCACGTTCTGGTATCGGATGACGGGGTCTACGAAAAGGCGTTGA
>SRR1151209_02744 sugar ABC transporter substrate-binding protein
TTGAAGTCCTACATCACTGATTTCAACAAGAGCCAGAAGCAATACGAAGTGGTCGGTACGTCCCAGGGGAGTTACGACAACCTCCAAAAGAAGCTGCTGGCGGCGGCCAAATCCCGAACTTTGCCCACCATGAGCCAGGTCACCGATATCACGGTGCCCGAGTACATAAAGAACGGCTTCATCCTGCCTCTGGACAACGTGGCGCTGAAGGGCAGCGACAAACTGACCGATAAGGAACTGGCCGATATTTACCCCGGCATCCGGCAAAACCTGAAGTACCAAGGCAAGTATTACACCATGCCCTTTGCTACCGGCACTCGGATCATGTTTTACAACAAAGACATTTAA
>SRR1151209_02745 sugar ABC transporter substrate-binding protein
ATGCACTGGGGTACGGCGCTGATGCCCGGCTTCCAAGGCAAAGAAAGCAACGTGCTGGGCAACAATGGTCTAGGGCTTTTCAAAGGGGCGTCCGCCAAACAGCAGCAAGGGGCTTGGCAGTTTATGAAATATCTAATGAGCAGCAAAGTCCAAGCTGATTGGGGTGAAAAGACCGGTTATGTGCCCGTGGTGAAATCTGCCGTGACCAGCACCAGCTACCAGGCCTTTCTAAAGAAGAATCCCGAATATCAAGCGGCCGTGGATGCATATGAGAAGGCCTTCTCCTCCACCCCGTTCGTCGGTTACAACGAGTACCGCAACGACCTGTATGCAGCCGTGGACGCCACCATCAGCAAGGGTGAGTCGGCGAAGACTGCCTTGACAGCCTTGCAGAAGCAAACCGAGCAAATCATTCAGGATAACAAGTAA
>SRR1151209_02747 transglycosylase associated protein
ATGCATTTGCTTTGGGCTTTGATCATTGGCGCAGTGATTGGTGCAATTGCTGGGGCAATAACTAACAATGGTAAATCAATGGGCTGGATCGCCAATATCGTAGCAGGTTTAGTTGGTTCTGCTATTGGTGAGTCACTTTTAGGCCATTGGGGACCGCAGTTGGCTGGCATGGCTTTAATTCCGTCGATTATTGGCGCAATTATTGTGGTCGCTGTTGTTTCATTCTTCATTAGCAGGTCGAATAAGTGA
>SRR1151209_02748 hypothetical protein
ATGGAAGTTTTACAATCCGCGTTTAAGTTTATGGTTGCTAGTACGTTAATTGTTGGCGGAGTTCTTGTTGCTAGTACGGTTTTTGCAGCTAAGAGCATCGACAAGGCTGGCGATCAATTGCAAGACAAGCTCCACAACTAG
>SRR1151209_02749 hypothetical protein
ATGGAACAAACTAAGGAACTCACAGAAATTATGCGCGCTCTGCGTCTGACCGAGACCGCTAGGGCTGCCCCGGCGCTTATCGCCGAGGCCAATGAGCAGCAGTATTCATACGCCGATTTCTTACTGCAAGTCTTCCGGTACGAGCAAGAACAGCGAGCCATTAAGGCTCGTATCAAGCGATTGAAGAACGCCAACTTGCCTTACGAACGCGCCCTAGATGAATTTGATTTGACCGTTCAACCTGGCATTAGTCAGCGTCAACTGAATGAACTAAAGAGCCTTACCTGGGTAGATCAGAGTTACAATCTGGTACTCCTTGGCCCGACGGGTGTTGGCAAGACATTTCTCTCTGTTGGCCTGTGCCTCCAGGCTATTGAAAAGGGTTATCGGGCCATCTTTATCACGATGGGGGAATTGGTCAAAGCCTTGAAGATGGAGACTATTTCGAGACGCTCGCAGATCCTATTGAAACGGTTGCGTGAAGCCCATCTGCTGGTCATTGACGACTTGATGTTCTTGGCCCTGGACAAGAAAGAGGCCAACTTGTTCTTTCATTTTATTAACGACATCTACGAAGAGACCTCAATCATCATTACCTCCAAAAAAGGACCCCAACAGTGGGGAGAACTGATTGGCGACGAAATCATTGCGGCAGCGATACTAGATCGCATTGTGCAGAAATCAGAGATCATCGAACTGACAGGACATAGTTACCGAGTAACCCATCGCCAAACGATCTTCGATAATCCGCATCGTTCGGTAATCGGCCTGTCAAATGGTGTCCAAAACCCGTAG
>SRR1151209_02750 integrase
GTGGATAAGTTGACATTGTATTCAGAGATCAAAGGGCTGTACGACCAAGGCTTTTCGTTACGGCGAATTGCCAAAAAATTAGACGTTTCACGCAACACCGTGACGAGCTACTTGAATCGACAACCCGATGAAATGGGCGAATGGCTTGCTTCGACTAAGGTCAGGCGAAAGTCGTTGGATACTCACCAACCAATGATTCTTCAATGGCTTAAGGAACATCCTGATCTGAGTGCCGCGCAAGTGTGTGACTGGCTGGAAGAGAAAAAGTTTGGCAAGTATGCCGAAAGCACTGTGCGGCGATACGTAAAGGAGTTGCGCAGTAAATATAAGATCGTAAAAACAACTAAGCGGCGCCAGTATGAAGCCGTCCCGCAGCTTCCACCAGGACTGCAAGGCCAAATTGATTTTGGCCAGACCGTGCAGAAGACACCAACTGGGAAAAACGTGAAGCTGTACTTCTACGCCCATGTTCTTTCACATTCACGCTATAAGTATGTGGAATGGCAAAAGCGTCCCTTTCGCACTGAGGATCTGATTCGTTGTTTGGAGAACACGTTTCTATACTTTGGCGGTAAACCGAAAGAGATTGTGTTTGATCAAGATCGAATCATTGTGGTCAGTGAGAACGCCGGCAACATTATCTACACCCAAGAATTCCAGGCCTTCAAACAGGCTGAGCATCTGGAGACGACCCCCTGTCGGGGCTTTGATCCGGAGTCCAAGGGCAAGATTGAAAATGTCGTCAAGTTTGTTAAGAGCAGCTTTGCCAAAGAACGGGTTTTCAGCGATATTGATTCGTGGAATGAAGAGTGCCGCGCCTGGCTGGTTCGTCGGGGTAATGGCCGACAGCACAACCTCACCAAGCAGATCCCTGCCGAGGTTTTCAAAGAAGAACAAAAACACCTCCAACCAGTTAACACTTATCAACGTGAGGTTAAAAACGGCCAAGAACGGAAGGTGCGAAAGGACAACACGATCATGTACCAAGGCAATCGGTACAGCGTGCCATTAGGGACTTACAATGCCCAGGGAACCTTGGTTAACGTCTTTGTGGATGACCAGCAACTGGTGATTCGAAACATCAACACTGGCATGGAGATTGCCAAACATCGCATTTCGTCTGGACATGGTGGTTTAATTCAGAACAGCAACCATCGCCGCGATCGGTCATTAGGTATTTCAGAACTGATTGAAGTCACTGCCAAGAAGTTTGATAAAACAGTGGCTGCTTATGACTACCTAACGGTGTTGCGAACCAAGTACCCGCGCTACATTCGCGATCAGATTCAGGTAATCAGAGGACTATTTGATGCTTATCCACCGGCCTTACTCTCTACCACGCTGGACATGTGTATCCAGCAAAAGATCTACAATGCCTCAGGGTTTAAAGAGATGGTCATTTTTCTGGAGGAAGTCAATCACGAGAGTGATCAAGAAGTTCTCAATATGCCAGATCTGCCAATTGATGCGGTCATGAAAGAGCGTATCTCAACGATCCATCCCGAAGTCCGCAGTCTTGATGTATACTCCAAACTCGTGCAAGGAGGCCGCCATGGAACAAACTAA
>SRR1151209_02751 DNA-packaging protein
ATGGAAATACTTTCCAACACCAAAAATTCTAGACCCGACTATGTGCGCAATGCTGTGGACAGTACAGCCACCACTGATCAAATGGAGCCATACAGCCAATTTGACATCGCCGTGGCCATGTTGACGGAGTTTTGGCACCAAAATCGTGGTGAAGTCGATACAGCCAGCCAAGAACTTCCCTTTTCGGTGATCAGCATGATTCAGCAGTTGCGTGGGCTGTTCACATCTAATAGTATCAATAACCAATAG
>SRR1151209_02752 Fur family transcriptional regulator
ATGGCCACAGAGACACTCAGTCCCAGTGCGTTGTTGAAAAAATCCCATGCGCGGGTGACCCCGCAGCGGGAAGCGATCTTAGACTTCCTCATGGGTACCGATTCCCATCCGACCGCCGATGATATTTACCATCATCTAGGCAGCCGCTTTCCCAATATGAGTGTCGCGACCGTATACAACAATTTGCGTACCCTGACTGGGTTGGGGCTGATCCAAGAGTTGTCTTACGGTGATAGTTCGTCCCATTTCGACTTTGTCGAGACAGCCCATTACCACGCTATCTGTCAGGTATGCGGCAAAATCTTCGATATGTACTATCCTGGATTGAACGAGATCGATACGATCACCGAGAACGCTACAGACTTCGCTGTGACTAGTCACCGGATCGAAGTCTATGGGATTTGCAAGGACTGCCAGAAGAAGCGGTCAGAGAAGAAAGCAGAGTAG
>SRR1151209_02753 alkaline phosphatase
ATGAAAAATGCGTTACACGCAACACGTCGTTTTTTTAATTCCCGGTGGGGCTTCTTTCTGCTGGCGGTCGTGCTGTTTTGGATCAAGACAGTGTATGCCTACACGACAAAATTCAATCTCGGCGTCAAGGGCGGTATGCAATACCTGCTATTGGTATTGAACCCGCTGCCCACCACGCTCCTCCTGTTCGGCATTGCCTTGTACATGAAAGGGCGCAAGTCCTACATTGTGATGATCGTGATCGACCTGCTGACGTCCATGTGGCTGTTCGCTAATGCCCTTTACTACCGCGAGTTTTCCGATTTTCTGGGCATCAACTTGATCAAAGGGAGCGGGGCGGTTTCAAACAACTTAGGCACCAGTATTGTCGGTATTACCAAAGCGTCGGATTTTCTGCTATTCCTAGATGTGGCTATTCTGATTCTGCTGCTGGCATTCAAGGTGATCCGTATTGATGTGCATCCGTTAAAGATTCGCTATGCTTTAACCGTTACGGCCTTTGCTTTAGCCTTGTTCGGGTTGAATCTGACAATGGCCCAAAATGACCGCAGCGGATTGCTCACGCGGACCTTTGATAATAACTACATTGTTAAATATCTTGGGCTCAATGCCTACACGGTATACGACAGTGTAAAGGCGGCGCAAACCAGTGCCGTTCGTAATAAGGCAGACAGCTCGGACATGAAGAGTGTGCTGAAATACTTAAAGACCAGCCGAGTCGGGCCGAACACGGAGTATTACGGCAAGGCGAAGGGTAAGAATATCATCGTCATCCACTTGGAGTCGTTCCAGCAGTTTCTGATTGACTTTAAATGGGATGGGCAGGAAGTTACCCCGAACCTGAATAAGATCTATCACGCCAATGACACGCTGTCCTTCTCCAATTTCTTCCACCAGGTCGGGACCGGTAAAACTGCCGATGCTGAAATGATGATGGAAAATTCACTGTTCGGTTTGCCGGAAGGTCCTGCCATGGTGCAATATGGTACGACCAATACCTTCCAGGCCGCTCCGGCGATCTTTGATCAGAAGGGCTATACGACTGCCGCGTTCCATGGCGATGTGCCGTCTTTCTGGAATCGGGATAACACCTACAAGTCTTGGGGATACGATTTCTTCTTCAGTACGAATTATCTGCCCAAGAAAGCCAGTTACATGGAAAACTACGGGATGAAAGACAAGATCTTCATGCTGGAGTCGGCCAGCTATCTGGAGAAGCTGCCCCAGCCGTTTTATAGCAAACTGATCACCGTCACCAACCACTATCCTTATCCGTTGGATAAAGCGAATCAGTCCATCAGCAAGACTGATACCGGTGATAACACTGTGGACGGTTATGTACAGACTGCCCATTACCTGGACCAAGCCATCGGGGAATTTATGAGCTGGCTGAAGAGCAGCGGTATGGAAAAGAACACGATGGTTGTCTTTTATGGGGACCACTACGGCATTTCGGCCAACCATAAGAAAGCAATGGCCAAACTGACCAACAAGGACTCTTTCAACAACTATGACAATGCGATGTATCAGCGTGTACCGTTCATGATCCAAATGCCTGGTCTCAAGGGCGGTATCAACACCACTTTCGGTGGCGAAATCGATGCTCTGCCGACGATTCTGGATTTGGCTGGGGTACCGAACACTGATACGGTGCAATTCGGTCAGGATCTGCTGGCCACTAATCGCAACCAGATCGTGCCTTTCCGTAATGGGGACTTCGTGACACCGAAGTACACCAAAGTCGGGTCCACGTATTATGACACCAACACGGGGAAAGCTTTGAAACTGACCGATGCCCAGAAGGAAGAGATTGGCAAGATCAACAACCATGTTCAAACTGAGCTGTCTTTGTCAGATAAGGTCATCACTGGTGATTTGCTGCGTTTCTATAAGCCCAGCTGGTTTAAAAAAGTGGACAAGAGCGACTATAATTACAAGAAGAGTAAGGGGGATGCGCTGCTGAAGAAATTGCAGAAGGAATCGCCCACGAGTCTCTTCCAGAAGAATAATGACAAATCAACGATGGACAAGTACAAGACGAACGCGCCAGAGTTGAAGAGCAGCAGCAACTACAGCGAAACCGCCGATGGTGCCGCAGCCAGCAGCAGTTCGACCGATGACGCAGCCAGTGAATCCTCCGCGGCCAGCAGTTCGGCGAGCAGCAGCAGTGCCGACGCCAAGAGTTCGGCTTCGTGGAGTATGAGCAGCAGTTCCAGCAGTAAGTAG
>SRR1151209_02754 hypothetical protein
ATGGAAAGCTCACAATTAGTAGCGATCATTAATCGCCTGGACGCCATGATCAAAGAAGACGGCCAAGAAGAACGGACCCGTCGCTTTGAGATTGACGGTACCGAGAAGTGTGCCGTGACGTACGATCCCGCTTCCGATTCGTTTATGTTGGAAGAGTTCGACGCGCACCAATCATTCCAATTCGATAACATTGATCTTGTCGCCATGGAAATCTACGACCTGTTGTACGACTAA
>SRR1151209_02755 membrane protein
ATGAGTCGAAAAAACAAACTCGCATTTTTCATCATGCTCGTGCTCAGCATGGGTATCCTGGTTTTCGAATTACGGACCATCAATATGGCCCATTTTTGGCGGGATCTGCTTCATCTTAACTGGTGGTGGCTGCTGTTTGCGGTAATCATTATGATTGGTCAGCTGTGTATCGAAGGCGTGATCATGCAGGTCCTGACAAATGATGAGAACACCCGCCTCAGTTATCACAACGCGGTGCGCGTACCCTTTATCGAGCAGCTGTTCAACAGTATTACACCATTCTCCTCCGGTGGTCAGCCGGCGGAATTGATTGCGATGATGCAGTCCGGTGTTGAAGCGGGCAAGTCCAGTTCACTGCTGTTGATGAAGTTCATCATCTATCAGCTGGCAGTCCTCGTGAACTTCGTGTTGACCATGGTGGTCGGCTTTTCTGCTGTCGCTCAGCAGTTTTCCGGGATCGCCTGGCTGATCCTCCTGGGTTTTGTGACCCATCTGTTCACGATTGCCACGCTGCTGATGATCATGTTCTGGTATCGGTTCACCAAGCGGCTCTTGCAAATCGTAATGAAGCCCGTGGGCTGGTTCATGTCGGCGGCTCGTTTTAACGAGTTGATGACGACGTTAGATCACAAGATCGATACGTTTTACGAAGAAAGCCAGCGATTGAAGCAAGAAAAGAAACGGGTGGTCAAAGCAGTTATTTTGACCATGGTCCAATTATTGATTTATTATAGTATTCCGTACTTCATCTTGCTGGCGCTGGGGCAAACGAATGCCAATCCGTTCAGCGTGATGTCGATGCACGTGATGATCGTCATGATCACCTCGATCTTCCCCATCCCAGGCGGGACGGGCGGTGCCGAGTACAGCTTCCGGACTCTGTTTGCTGCTTTTATCCCCAATGCCTCGCAATTAGTGCTGGGGATGCTGCTGTGGCGGTTCATCACTTACTATGTCGGGATGTTCTCTGGGGTGGTCATGCTGGCTGTACCAGCGCACAAGGATGCTCAGGTGGATAAAAGAAAAACGGCCGAAGTCGATAATAATGCCTAA
>SRR1151209_02756 glycosyl transferase
ATGATTAAGATTCACATGTTTTCCTCGGCGACGAAGGTCGCGGGGCAGGGTGTCGGCAGTGCCTACACGGAGCTGATGGGATTGCTGAAACGTCATTTTCCCGATCAGTTTGACGTACGGGTGAATGATTATAGTGCCAGCGACATCAGCCACTATCACACGATCGACCCCCAATTTTTCTTGACGATGCATAAGAAAAAACGGGGGCGGCGGATCGGTTACGTGCATTTTTTGCCGGAGACGCTGAAAGGGTCGCTGTCGATTCCGTGGCCGGCGGATGAGGTGTTTTATAAGTACGTGATTGCTTTTTATAAGGCGATGGACCAGCTGGTGGTTGTTAATCCCAGTTTTATTCCAAAGTTAGCGGACTACGGTATCTCCGCCAGTACAGTGGAATATATCCCGAACTTCGTATCCCAGCAGGATTTCTATGCGTACACCCCGGATCAAAAACAAACGCTGCGCGCACAGCTTGGAATTCCGGCCAGCAAGTTTGTCGTCTTCGGCAATGGCCAAGTGCAGGAACGCAAAGGGGTGCGGGATTTTATTACCCTGGCTCAGACCCATCCGGACGTGCAGTTCATTTGGGCTGGGGGGTTCTCCTTCGGCCGCTTGACGGACGGGTATGAGGGGTTCAAAAAGGCGATCGACAATGCACCTCAGAATTTGACCTTCACGGGTATTATTCCCCGGGAAAAGATGCGGGATTATTACAATGTCGCCGATCTGTTCCTGCTGCCCAGCTATGATGAACTTTTCCCCATGTCGGTCCTGGAGGCTTTTGCCTGCGGGGTACCGGTGATGCTGCGGGATTTATCTTTGTATCACGCCATCATCAACAATCGCTACATCCCAACCGCTGACGTGACTGAGATGGCGACGCAGCTCGCCCGTGTGGCGGCTGATCCGAGTGCTCTGGCCCCTTGGCGGGCACAAGCCGTTGAGGCGGCCCAATACTATTCTGAAGACCGCCTGGCGGGCATTTGGTCTAAATTTTACACAACCCAAGCCGCTCTCGGTCAACGGACACGAAGAAGGACACCATGA
>SRR1151209_02757 glycosyltransferase
GTGAACATTGGGTTATTTACAGACAGTTATTTCCCTCAGGTGAGCGGGGTAGCTACTTCAATTAAGACCCTGGCCACAAATTTAGAGAAGCGGGGGAATTCTGTCTACATCTTCACGACAACGGATCCCCATGTGGCGAAGGACGCCGTGGAACCCAATGTATTTCGGTTTTCGAGTATTCCCTTCGTCTCCTTTACGGATCGGCGCATTGCCGTGGGCGGCTTTATCCGCGGAGTGGAAGTGGCCAAGGATCTCAAATTGGACATCGTTCACACGCAAACGGAGTTTTCTTTAGGTTTGCTGGGCAAATACGTTGCTAAGCAGTTAGAAATCCCGGCGGTGCATACGTACCACACAATGTATGAAAATTACCTGCACTACGTCTTAAACGGTCATTTATTGCGGCCTTACCACGTGAAGCAGTATATGCGGGCGTATCTGGCCAACATGAACGGCGTCATTTGTCCCAGTGAAAAGACCCGGGAGTCGCTGATCGGGTACGGCATCAAGATTCCCATGCGGGTAATTCCCACTGGTGTCGATCTTAGTCAATACGAGCAGCAGCCCCAGCAGGATTTGCGGGCAAAGTGGCATTTGGCCCCGGACACGCCGGTGCTGCTGTCCCTCAGCCGAGTGGCATATGAAAAGAAAATTGATATTGTCCTTGGCGCTTTCCCCCAAATTCTTGACCAAGTGCCCCAGGCGGTGTTGATGATCGTCGGCGACGGCCCCGCTTTGGACGATTTGAAGCAGCAGGCTGAGGACCTGGGCGTGGCGGACCATGTGCTGTTCACCGGTGAGGTACCCCACACCCATGTGAACGATTATTACCACATGGCCAATGTGCTGGTGTCGGCCTCTGATACCGAATCACAGGGCTTGACCTATATTGAGGCGTTGGCAGCTAATTTGAAAGTCGTTACCCGGGCGGGCGAATACACCAACAGTCTGTTTGACGATCCGTCGTTGGGGATCACGTTCAGCGACACGCCGGAAATGGTTCGGGCCACGGTGGAATATTTGCGCCACCCGCACGCTTTTGACGATGAAACAACACGCCAGCGCAAGCTCTATGATATTTCAGCTGACCATTTCGGTGAGCAGGTGCTGTCATTTTACCGGACGGCCGAAGTTCACTATGCATCAATGGTTTATGACGAAGACGAAGATGGGGAGTTTTTTGAATGA
>SRR1151209_02758 transglycosylase associated protein
ATGTTCCATTGGATTTGGGTCTTAATTGTCGGCGCCATCGTAGGCGCGATTGCCGGCGGAATCACGGGGCGCGGCGACAGAATGGGTTGTGTGACCAACATTCTGGCTGGTCTGGTGGGTGCTGGGGTCGGCCAGGCGTTGTTCGGCCACTGGGGCTGGCACGTCGCCGGCATGGCGGTGTTTCCCGCCATCATCGGCGCGGTGATCGTGGTCGCCGTGGTGTCTTTCTTCGTTGACCGGCGCTGA
>SRR1151209_02759 hypothetical protein
ATGACACAACGTATTCCAGTAAGAATTGTATCGATCCAGGGCCAAACGATTTACGGGGTCGAAGAAGATGGCCATATCACCCGGGTGTTCCTGACGCCTAAGCAGGAAGACGATCCGCTGTATCTGCGGATCTTGCACCGCATCCAGCAATCGCAACTGTGGCTGGCAATGAATCCGCGGCATCAGCTGATGGATAATGGCTGGTTGTAG
>SRR1151209_02760 hypothetical protein
ATGCACATTGATCGTTCAGAAATTAAAGGGATAGCAAAACGCAAACTCCGTCACCACGTGGGTCAAGGTTTCATGATTGGTCTCCTGCCCCTGATCATTCTCGGGGTGATGATTTTTCTCGCTGTCCTGAGCTGGCAGCAGGCCACCCATCAAATCATGCACGTTGACACACTGGCCAACCGGCTATTGTGGCCGACTTCTGTCCATTTAGGCAATACCCTGGCTGAAATGCTGCTATCATTAGCCGCCGATATCGTCACCGCCAGCACCAGCTTGGGTTATCTCTATTGGCTGCGGCAGAAAGAACCAATCACGCAGCCGTTTCGTCTCGGCCTGCTCGGCTTTTCGCCCCGCTATTTTCCGCTTTTCATTCTGACCTACATGACGCTTTCCGTGATTAATTATTTTCCGCTGGGGCTGCTGCCTACCGCTAAGGGGTGGTTTGCAGCACTGTATCTGGTCTTAGCCGTCGTCATAATCATCGTCGGCCTGGGCCTTTCCCAGGTGTATTACGTCGCCATGGATCTGCGGGATAGCGGCCATGGCAATATCTTAGCCGTTCTGCGCATCAGCTGGCAATTAATGAGCGGGTTCAAGTGGCAATACTTCGTTCTCCAGCTGAGTTTTATCGGCTGGAACTTACTTGGCGCTCTGCTCCTCCCGCAAATTTGGATTGTCTCTTACCAGCAGCTGACCTATGCCGCTTTTTACGAAAAATTGCGGGACTATAAGCCGGAACTGCTGCCGGCCCGGTGA
>SRR1151209_02761 hypothetical protein
TTGCAAAGTATGCATATCGATCGTGGTCAATTGAAGAATCAAGCGAAGGAAAAGCTCCATAAGCATTGGGGTGAAGCCATTTTGGTCGGTTTCTTGCCCATTGCAATCATGTTCATCGTGGTGATCGTCACCATTATCGGCGCAATGGCGGTCGTCAATACCCAACCAGATAACATCAAAGCATTGCAATCCAGCGGTACCTTGATGACTCAGACACTATTCTCCAGCAGTGTCGGCGGCGGTACCAATCTCACCGATCTCATTGTTATTCTCCTAGCCGGGGTGATGGGTGCCAGCACCAGTATCGGCTTTCTCACTCTGTGGCGCCGGGAACCGCGGCAGCTTAACCCGTTGCTGCGCAGTTTGATCGGCTTTCGGCCGGAATATATCGGCGGTCTGTTGGTTGCTTATATCGTTATTCAACTGATCGACAGTATCCCCACTTTATTGGGTCTGATCAATAATCCTGCCATTAATGTAATCAATTTTGTGCTCCTTTTCGTACTCCTCGTTGTGGATATTGGTTTATCCCAGACCTTCTTAGTTTGGAAGGACCTGCGGGATGCGAATAAGGGCGGTGCCTTAACTGCCATCCGGATCAGTTGGCAATTGATGGCTGGTTTTAAGTGGCAGTATTTCGTCATGAAGCTCAGTTTCCTGGGCTGGTGGATACTCACCTTCTTACTACTGTTTATCCCCTATTTTTGGCTGTATCCATATCAGTCGATGACGTATGTCGGCTTTTACGATGCTCTAAAATCGCGCAAACCTGAATTATTCGCCTAG
>SRR1151209_02762 DNA-3-methyladenine glycosylase I
ATGGTTCAACGCTGTGCTTGGGCAACATCCGGAAACGAACTGATGCTGGCCTATCATGACCAAGAGTGGGGCCGGCCGCTGACGGATGAGCGGGCCTTATTTGAATTACTGTCGCTAGAAATGATGCAGGCCGGGCTGAGTTGGCAAACGGTATTGAATAAGCGGGCTTCTTTCAAAGAAGCCTTCGCCAATTTCCAAGTGGATCAAGTCGCGGCCTTCACCGCGGAGGACGAAAGCCGGCTGCTCGCTGATGCCGGAATCATTCGCAACCGGCGCAAGATTGCAGCCATCATCAACAATGCCCAAGTCATCCAGGATCTGCACCAAAATGGCACCACGCTGGCCGAGTTCCTCTGGGGCTACGTTCACGGTCAACCCATCGTGGGGCATTACCATCACGTTGATGAAGTCCCAACGACAACGCCCTTGGCGGTTCAAATTGCCAAGGATATGAAAAAACGCGGCTTTGCCTTCACCGGCCCGACGATCATCTATTCCTGGCTGGAAGCCGCCGGGGTAGTCAATGATCACCTGGTTGGGTGTTGCTGTTTTGCGGAAACCAGCCGCTTACAGCCTGAATTTGCGTAA
>SRR1151209_02763 hypothetical protein
TTGAGCACTTCTCGTCAACAACGGCTCCACCCAACCAAGCAGAAAAAGCGGCGCTGGCCGAAAGTCTTGATTGGTTTTCTCATTGTCGTCGCGGTCCTTGTGGGCCTGGTCATTGCCTTTCCGTTTCAAACAAATAACGCACTCCGCAGCGCCATGGGCGGCCGCGACACACCGGTGGATACCGCCGCTAAGAATGAATTGATCAAGAAATTAGACAGTACCAAGACCGGCAGTGTGGCCGGGGACGAATTGATTTCCGAAGCCGTTTCCCGGCTGCGCAACACGTCCATGCAGCAAGTACGGGACGCTGCGCAATCATCATCGGCGGCGGCCAAGCTCATTCAACAGAATACAGGCTTGTCAGACACTCAGGCGCAGGCGCTTAGCAGCTTTGTCTTCAGTCACCCGCAATTCAGCGGCATGCGCACCGCGGTCGCTGACGGCGACTGGCTGCAAGCCTATCGCGAATACCAGCAGCTCACCAGCAGCGGCGATATGGCCACCCTGCGCAGCGATATTCAGGGACAGTAA
>SRR1151209_02764 ion transporter
ATGCAACAGAAAAGATTGAAACGTGCAGCGGCTCTCGCCAAACGATACTATACCGTGGCTTTTGCGCTGCTGGCGATCATTTCCATCATCTTGATCGTTCTAGATTACATGGGCCGCATCGATATTGATGCCTGGCCTTATGCCCTGATTGATAACGGCATCTTGATTGTTTTTGCCATTGACTACATCTGTCGATTCATTAGGGCAAAGGATAAATGGCACTTTTTCAAGCACAATTTAATCGACCTGCTCGCCATTATTCCGTTCAATTATGCTTTCTCGCTCTTTCGGTTCGCCCGCATCTTTCGGTTAGTCCGACTGACGCGGCTGTTTCGCTTAACCCGTTTCGCCCGCTTGGCTGGTATCATTGGGATGCTGACCAAGAAGCAGCATGCGTTTCTTCATCGCAGCGGCCTCATTTATTATCTTTGGCTTTCGCTGGCATTGATCCTGGTTGGCGCCGGCATCTACTCAATTACCGAAGGCACAAGCTACGGCAACTCCGTCTGGTGGGCTATCGTGACGGCCACGACAGTTGGCTATGGAGATATTTCACCCCACACGATTCTAGGCCGAATCACCGCGGTGATCTTGATGTTCAACGGAATTGGGTTGATCAGTGCGCTGACCAGTGCCGTCACGATGTATCTGGCCAGTGACGACCCGGATACTGGCGCACCCCAAGCGATGTCAATTGCCGACGAGATACGGCAGTTTCACGATTTGGCCGACGATGGCATCATTACGGCGAGCGAGTTTGAACAACAGAAGCGGCGATTGCTGGCGCTGCATCAAGCTGATCGGGAGGACTGA
>SRR1151209_02765 hypothetical protein
ATGATTAAATCATTAATTGACAGTTTACGGTTCCTGGTCGAAATTACGACTGTCAGCTTGCTCATTTGGGCGGGTTGGCATTCTCCTTCGTTGGTTGGCCGGTTAATTGGCGGCGTTGCGCTCCCGATTGCGGTGCTGCTCGCCTGGGGGCGCTGGATGGCACCCAGGTCGCCATTTCAGCTGGTGGAGTGGCAACGGCTCATCGCAGAAATCGTCCTGTTTGGCGGCACGGCGATGGCTGCTGTTGCAATCGGCCAAACCCGATTGGCACTGAGCTACGGGGCAGTGGTACTCGTCAGCTTGTTGTTGACCCACGGGGTCCGCTAA
>SRR1151209_02766 transcriptional regulator
ATGAACATTCAAGAATTTGCGGAAGAGACTGGGTTATCAAAGGATACCCTGCGTCTGTACGAGAAGAAACAATTATTAATCCCCGCCCGGACACCAGGCAATTACCGCTGCTACAATCAGACGGACGCTGCGACAGCAAAAGTGATCATCAATTTGAAGCGGGCAGGGCTAAGCCTAGTCGAGTGCCAACAGGTACTTGCCTTGCAGCAGCGGCCAATCACGGCCGAGTGTCGCGGCGAGACGCTTGCCTTTATCCAGACGAAACGAACGGATGCCGCTGCGCAAGCGCGGTTCTACCAGGGTCTTCTGACCGTACTGGAGCGCATCAGTCAAGAAATCGAAAAACCAACCAAGAATCCGCAACAGGTCAACGACTTGATCAATAAAGTGGATGAGCTGGATGATTAA
>SRR1151209_02794 sugar aldolase
ATGGAAATGATGTTTCAAAAGGAACGTGAAGACCTGGCCCGGACTGTCCGCCTGCTGTTCGATCGGAAAGATACTAATATTGCCGGGGGCAACCTCTCCGTTAAAGTGTTCGACCAAAGCGAGCATCCCTATATCCTAATTACCCCCACCTTCATGGCCGAGACCTTCTACGGTGACCTGCATGCTGCCCAGATCCTGGTCGTCGATGCGGTCAGTAAAGAAAAAGTCGACGGTGTCGGCGTGGTCACTCGGGAAATCAACCTGCACGAAGGGGCCTACGAGACTCACCCTGGTATTCGCACAGTGATCCACTCCCATGCCCCGGAATCGCTATTCTGGGCCACCAGCGGTCTGGAAATGCCTAATGTTACCGAATCTACTCGGGAACTCGGTCGCATTCGGACCCTGCCCTATGCCCCGGCCACTTCCATTGAACTGGCCAAAATCGTCAAAGACGCCCTGAGTAAGATTGGTGATAAAGCAGTCGAAAACGTCTTTCTGCTCAACAGCCACGGCGTCGTAATCACCGCATCCGAGCTGCACATCGGCGCCCGTATCCTGGAGACACTGGAGTGGAACGCGCGCATTGCTTATCAGCAAACTCTCTTTATCAAATTAGGACTGCTGAAGACCTATCAATCCTGCGGCCAGGATGCTGATTTACCGGTTGAGGTCTTTCCAATTGCCCTGCCGGATATTCCGGTGAAGAGCAAGGATATGCCGTTCCCAGAGGGCATGACTCGGCCGGAGAGTGAAATGACGGCGGCACCAAAGATTCCGGAATAA
>SRR1151209_02795 DeoR family transcriptional regulator
TTGTATAAAAGCGAACGAATATCCAAAATCCTAGAAATTTTGGAGAAAAAAAAGGTCGTTTCAGTGGCGGATTTGCAGAAACAGTTGTTTGTAAGCGATTCGAGTTTGCGCCGGGATTTGGTGGAATTGGAACGCACCGGCAAGATCAATCGCGGTTATGGCGTTGTCGAACTCGCTCGGGCCGATAACGTGGAACTTTCCTATATGTTTCGCGAACAGGAACACGAGGCCGAGAAGAAGAAAATCGCCGAAATTGCCAGTACATTTTTGACAGATAATCAGGCCATCTTTATTGATTCCAGCAGTACAGCGTCTTTCTTAGCACCATATTTGAGCGTCCTGCATAGTGCCATCGTGATTACCAATGGCTTGCGGCTGGCAGTGGCCTTGGATAATATGCCCGCGGTGAAGACGTATGTGACCGGCGGGCGGTTGAAGAGCGGTTCTGGGTCGCTGCTGGGGGAAACAAGTGTGGACTATGTGGATAACTTCACGGCAGATCTCGCCTTTCTTTCTTGCACCGGAATCACACCCACCCATATCTATATGTCCAGTGAATCGCAGGCTATCTTGAAAAAAAAGATGATGGCCCATGCTGAGAAAACCGTGCTGCTGGCAGATCATTCCAAGTTTGGCGCCCGCAGTTATTACCGCTTGGCCCGCACAGAAACGCTGGAGGCAGTGATTACTGATGAAAAGCCGGGGGCAGACTTCGTGGCGAACTTGGAGGCCAATGAGGTGGAATTGCTTTACGGCAATTGA
>SRR1151209_02796 L-fucose isomerase
ATGTTGCAAGTTGAGTATCCAAAAATTGGTATTCGCCCGACGATCGATGGCCGGGAGCGGGGTATCCGCGAGTCATTGGAAGATCAAACCATGGCGATGGCCCACCAAGTGGCCGCGCTGATCCATGAGCAGTTGCGGTATCCCGATGGTACGCCTGTCGAAACGGTAATCGCGGACAGCACGATCGGCGGCGTGCGGGAAGCCGCAGCGGCGAAGACGAAGTTCGACAAGGCCAATATCTGCGGCACGATTACGGTCACCCCGTGCTGGTGCTACGGCAGCGAAACGATGGATATGTCCCGGGATCTGCCCCACGCCATTTGGGGTTTCAATGGGACCGAACGGCCGGGGGCGGTTTATTTGGCCGCCGTGCTGGCCGCCCATGCTCAGAAGGGAATTCCGGCTTTCGGTATCTATGGCGAAGATGTGCAGGATAGCGACGCCGACCAAATTCCCGCTGATGTGGCGAAGAAACTGATTCGTTTCGCCAAAACGGCGTTGGCCATCGGCATCATGCGCAACAAGGCCTATTTGTCCATCGGTAGTGTAGCTATGGGCATTGCCGGGTCAACAGTGAATCCGGATTTCTTCCAGGATTATCTGGGGATGCGCAATGAATATGTGGATATGTCCGAAATCACGCGGCGCATTGATGAAGGTATCTATGACCATGCAGAATTCGATAAGGCGTGGGCCTGGGCGCAAGAGCATACGCCGGTTGGGCCGGATATTTACAATGCTGATGATCCGAACAAGTTCTCGGATGCCCAAAAGGCTGAGCAGTTCCAGACCAGTATCAAGATGGTCCTGATTGCCCGAGATCTGATGGATGGTAATGAGAAACTGGCTGAGGAAGGCTTTGGTGAAGAGAGCAAAGGTCATTATGCGATCGCGGCCGGCTTCCAGGGTCAGCGCCAGTGGACCGACCATTTCCCGAACGGCGACTACATGGAATCCCTGCTCAATAGTCAATTTGACTGGAATGGCATTCACGCGCCCAATGTGTTCGCGACGGAGAATGATAGCTTGAACGCGGTGTCCATGCTGTTCAATTATCTGCTGACGAATACGCCGCAGATTTTTGCCGATGTGCGCACCTATTGGAGCCCAGAGGCCGTTAAACGGGTCACTGGTGAGACTCTGACTGGCAAGGCGGCTAATGGTTTCCTGCATCTGAGTAATTCCGGTGCGCAATCGCTGGATGGTGCTGGTTACGAAGAAATTAACGGCCAACCGGCAATCAAACCGTTTTGGGATGTGACCCAGGCTGAAGCGGATGCGGCATTGCAGAACACGCGCTGGATCCCGGCTAATATTGGTTACTTCCGGGGCGGCGGTTTCTCCAGTAATTATGTCAGCCGCGGCGGCGCCAACGGCATGCCGGCAACGATGACCCGGTTGAATCTCGTCAAGGGCGTCGGTCCAACGCTGCAATTGGCCGAAGGGTACATCGTTGATTTGCCGGAGAAAGTTTTCTCTGTGATCAATCAGCGGACTGATCCAGGCTGGCCGTCCACCATTTTTGTACCAACACTGACGGGTCACGGTGCCTTCAAGAGTGTGTATGGTGTGATGGACAATTGGGGCGCCAACCACGGGGCTATTTCTTACGGCCATATTGGCGCTGATCTGATCACCCTGGCATCAGCGTTGCGGATCCCGGTTTATATGCATAATGTCGCTGAAGAGGACATCTTCCGGCCTCGGGCCTGGAGCAACTTTGGCACGGAAGAGGCAGAAGGAGCTGATTTCCGGGCGTGCCAGAACTTCGGCCCGCTCTATCACTAA
>SRR1151209_02797 carbohydrate kinase, FGGY family
TTGGGACTACATGAAGCTGTTCCAAGACATCAAGTACGGCTTGAACATGGCGGAGAACGAAGTGGGGGCGCTGGCCAGCTTCAGCGTGGATACCTGGGGGGGGTCGATTACGGACTGCTGTCGCGTTACGGCGAAGTGGTGGCTGCGCCCCATAGCTACCGCGATCAGCGTACGACCGTTGACCTCAGCGCCTTTGGGCAGCTCATGCCCGCGGCTCAGCTGTTTCAGACCACCGGGGTCTATCCCCAGCAGATCAATTCCAATCTCCAGCTCTTCAGTGATTTGCGCCGCTACCCGGAGTATAGCGGGTTAGTCGCCCAGGTCCTGTTGATGCCGGACTTCATGAATTATCTATTCAGCGGTATCGCGGAGACAGAGTATACGATTGCCTCCACGACAGGTCTGCTGAATGCAGAAAAGTGGCAATGGGATATACCGCTGATGACGAAGTTGGGGATTCCCACCCCTTGGTTCGGCAAACCGGTGGTCGGCGGCCGAGTCCTGGGACCAATTTTACCTGCGATTCGAGAAGAAATGGGGCTCACGAGTCCCTTGCAAGTGGTGATGGGTCCGGGGCATGATACGGCAGCCGGATTGTTGGCGGTACCGCTCATGCGTCACCCAGACAAACCCACGGCTTTCCTCAGCAGCGGCACCTGGTCGATCATGGGAATTCCCACTAAAGCACCGATTACCAACGATACGGCCTTTGCTAATGGGCTAACCAATGAAGGTGCTTTTGACGGCAGCAACCTGCTGCTGAAGAACCTGACCGGCCTCTGGATCATCCAGGAGCTCCAGCGGGAATGGTCCCTGAAGGGGGACAGCATCAGCTTTGAGCGCATGACCAGCGAAGCAGATCATGCCACTAGCATTCACGCGTATATTGATACCGGCGCCGACGTCTTCGCTCAACCAGGCGGGATGAGTGAAAAAATCCACGACTACCTCATCAGCACGCTTCAACCATTGCCTAAGACCCGGGGTGAACTGATTCGCCTGGTGTTAGAAAGCATCGCGTATAGTTATCGGGATACCTTGGAAAAAATAGAAGAAGCTGCTGGCGTGCGGGTGGAACAAATCGCCATGTTCGGCGGCGGTATTCAAAACCGCGTACTGGTGCAATTGACGGCGGATGTCACGGGGCTGCCGGTGATCACTGGCCCGATCGAGGGGAGTGCCACAGGCAATCTCGTTGCCCAGCTCCAGGTGCAGAATATGGCCACTGATGATGAAGTACAGGAAATTGTGACCGCGTTGAGCGATGCCAAGCAGTGTCTGCCGACCGCAGAGAAGGAAGTCGACACGGCCTATCGATTGTACAAGAGTGCGATTGCCAGTCATCAACTTTCCTAA
>SRR1151209_02798 2,5-diketo-D-gluconic acid reductase
TTGGGTAAAATCAAAGCACAGTCATTAACCGACACGTACACATTGAACAACGGCGTCCATATTCCCGTCATTGGCTTCGGTACCTGGCAGGCTAAGCCTGATGACGCTTACACCGCCGTGAAGGCCGCGTTGGCTATCGGCTACCGGCATATCGACACGGCCGCCGTTTATGGTAACGAAGAGGCCGTGGGCAAAGCCATTAAGGATTCGGGTGTCCCCCGTCAGGACATCTTTGTCACCACCAAGCTATGGAACGAACAGCGCTTGAATTACGATGATGTCCTGCACGCCCAGTTTGATTCACTGCAACGGTTAGGGCTGGACTACATTGACCTGTACTTAGTCCACTGTGCCGAAATTGCCAACCACCATCAGGAATGGCAAAAGCTCAACGCTACTACCTGGCGGGCGATGGAGTATCTTTACACCCACGGGGCTGCTCGAGCCATCGGCGTGTCTAACTATATGGTGCGCCACTTGAAAGAATTGGCAAAAACCCAGGAAGTCGTCCCGGCGGTGAATCAAAACTACTTGAACCCTTTTGACCGTCAAGAGGAACTGGTCGCCTACGATACGACCAACAACATTCTGAACGAGGCGTATTCGCCTCTGGTTACCGGTGAGCTGTTGAATAACGCCATTGTCACCGCCATCGCCAAAAAGCATAACCGCTCCGCTGCCCAAATCCTGATCCGCTGGAGCTTGGAAGAAGGCTTCCTGCCGCTGCCCAAGTCGATTCATCCGGACTATATCGCCGCCAATGCACAAGTCTTTGACTTCGAATTAGATGCTGACGATCATGAGCAGATCGCGACGCTGCAGGGCAAAGGTCCGATGAATGACGATCCGCGGACCGTGGATTTTACCAACTTTATTCCGTGGGAAGATTAA
>SRR1151209_02799 MerR family transcriptional regulator
ATGGTCTACACAATTCAACAACTAGCCGCCTTAGCCGGTATCAGTACCCGTACACTGCGTTACTATGACAACACCGGCTTGTTAAGCGCTCAGCGGAATCCAGACAATGACTATCGGGAATATACCGAAGCACAAGTCGACCGGTTGCAACGCATCCTGTTTCTCCGCCTTTTCGGTATGCCATTAACTACCATACGTCAGATTCTTGATGCCCCGCCAGCAATTCAGCAGACCGCCCTACAGTCTCAACGAACCCGAATTGTTCAAGAACGAGATCGTCTCAATCGCTTGCTTATCAACCTAGATCAAACACTCAGTCAAGGAGGTCCCACGATGACAGATGAAGAAAAATTTGCTGCTTTCAAGGAGAAACAGATTACGGATAACGATGCTCAATTTGGCCCCGAAATTCGCGAAAAGTATGGTGAAGACCAAGTGACGGCCGCAAACAATCAGTATGCCGGGTTAACTGCCGTCGATTATGCTGCCATGCAACGTACTGAAGCAAAAATGTTGACGCTGCTGAAACAAGTCGCTGCAAGCGGCACAATCAACTCCGCCGCTGCCCACCAAGTATTTGCTTTGCACAAGGAGTGGCTGCATTATACTTGGCCGACTTATTCTGCCAAGGCTCATCAAGGTTTGGCACAAATGTATCTCGCCGATTCCCGCTTTCACCAGTACTATACGGCTAAAACTGGCACTGCCAACGCAGCCGCTGTGCTGGCCGAGATCATCACCAAGTACGCGCGTTGA
>SRR1151209_02800 tagatose-bisphosphate aldolase
ATGAGTGTCAAATTGAATGCATCACAGTTGGAACACTTGAAGAAGCTGTCTAACGACAGCAATGTCATTTCTGCCTTGGCCATTGACCAACGGGGTTCGATCAAGAAGATGATCGCGGAAGCCGGCAACAAGCCCGCTAACGAAACCGAGATCGTGGACTTCAAGAAGGCCGTTTCTGCCGAATTGACCAAGTACGCCAGTGCCATTCTGCTCGACCCTGAATATGGCTTGCCGGCCACCAAGGTCCGTGACCCGCAGTCCGGTCTGCTGCTTTCTTACGAGAAGACCGGCTACGATGCCACTGAACCCGGCCGCTTCCCTGATTTGATCGACAACCAATCTGCGCTGCGGATCAAGAACGAGGGCGGGGACGCCGTCAAGTTCCTGCTTTACTATGATCCAGACGAACCCGACAGCATCAACGATCGCAAGTATGCCTTTGTTGAGCGGGTCGGTGCTGAAGCCAAGGAAAACGGCCTGCCGCTGTTCTTGGAGCTGGTTACTTACGATGGTAAGAACGAGAACGCCAGCGCCGCTGACTTTGCCAAGGTTAAGCCGCACAAAGTCATCGCTGCCACTAAGGAATTCAGCAAGCCGCAATACAACGTATCCGTTTTGAAGCTGGAAGTTCCGGTTAACCAGAAGTTCGTCGAAGGCTTCACTGACGAAGGCGTCAAGCCGGTTTACAGCAAGGCAGAAGCCGCTAAGTACTACAAGGAAGAGAGCGAAGCCACTGACTTACCGTTCATCTTCTTGTCCGCTGGGGTATCCAACGAGCTGTTCTTAAAGGAACTGCAATTCGCCAAGGACGCTGGGTCTACCTTCAATGGTGTCCTTTGCGGCCGGGCAACTTGGAAGCCAGGGATCAAGCCGTTCGCTGCTGAAGGCGAAGCGGCTGGCCGCAAGTGGTTGGAGACTGAGGGACGCGCTAACATCGAGCGTCTGAACAAGGTCTTGGCCACAACGGCGACGCCTTGGACTGACAAGGTCGAGGAAGAGAATACTGTTAACGCCTAA
>SRR1151209_02801 LysR family transcriptional regulator
TTGACCCAGACCCTTAATTATCGTGAAGCCGCCGAACGGCTGGATATCAGTGAACCCGCCCTGAGTATGCAGATTCGCAAGTTAGAAAGTGTCCTGGGTACCAAACTGTTCCATCGCCAAGGCCGGGCCATTGCCTTAACCACTGCTGGGCGACAATTCACCTTTCATGCGATTCAAATCCTCCAAGCCGTTGATGATGCCAATCGCTCGGTCACGGCCCGCACGCCCCGGCAGACGCTGCGCCTTGGGGCCTCCGGCAATCACCTTTTCTCGCCCATCATCGGCCGAATCGCCGATGCCTATCCCCAACTCACCATTCAAATGAGCGAGTTGACCACCACGGATATCATTGACCAGGTGAAAAATCATACCTTGGATGCCGGGATCGCTTTTCTGCCCGTGGATGATCCGGCCATCAGCAGCCACTACCTCTTCAGCGATCGTCTCATGGCCATCACTGCGCCGGATAACAACGCCTTGCAAAAGGCCACCCTCGCTAACTTAAGCCGCGTACCCTTGGCCGTCCTGGCCGACCGGTTCTATGTCCGGCGTATTTTGGACGATGCCTTCCAAGCCCAATCGCTGGTTCCCCATTACCAGCTCGCTCTAGGCAGTTACCACAGTATCGCCACTGTCGTACAACACAGCCACGCCGTGGGATTAGTATCCGCTGCTTTTCTGCGCAGCCAAGATCCGCATCGCTGGCGCATTCTGCCCTTGGCCGACACCCTGACCCCACTGCCCATGGGCTTTATTTATCCCCGTGGGACTGCCTTAGACCCGGTATTGCAGCAAACATACCAGGCGGTGGCGGCTTTTCACCATGACTAA
>SRR1151209_02802 major facilitator superfamily transporter
ATGCTTAACCGTCCGTTAAACCGCTGGGTCATGCTGGCCGCGCACGTCGTGATCAACTTCGTGCTGGGCGGCGTATATGCCTTCAGCTTTTTCAAGGGACCATTAATGGCTGAGTTCCATTGGGATCCGGCCTTATTGGCGCTGGCTTTTTCCCTGAATATGGGGATCATTCCGATACCGATGATTATCGGTGGCAAGATGATCGATCAGGGGCACGGGAAGGCGGCCATTATTATTGGCGGCATTCTGTTTTCCCTGGGCTTTATCCTGTCCGGTTTTGTCCACACCCTGCCAATGCTGCTGCTGACGTACGGCTTGCTGGCTGGATTTGGTTCCGGCCTCGCCTTCACGGGGAATTTGAATAATGTGATGAAGTTCTTCCCGGATCGCAAAGCCTTGGCGTCAGGAATCGTGCTGGCCGGTGTCGGTGTCGGCACCCTGTTGTGTACGGAGCTGGCCAAGTTCTTCTTGGCGCAAATGTCGATCACGAATTCGCTGCTGTGGCTGGGTATCGTGTATTTGGGCGTGCTGTTCGTCACCCAATTTTTCATCCGCTCAGCGCCAGCTAAGGGCAGCGGCGGAATTCCAGCCTCACCCATGGATCAAGATTGGCGCGGTATGCTGCAAACGGTACGGTTTTGGATATTGTTTATTATTCTCGCTGTGGGCTGTTTTGCAGGCGTGGTCATTAATTCAGCTTCTGTTCAAATCGGGACAGAACAATTCGGCTTGGCTTCCGGCGCTCTGGTGGTCAGCTTGGTGTCTATCTTTAACTCGATCGGTCGGGTCGTTTGGGGTGCTGTAGCCGATCGATTGGGCAACTACCGGACGCTGACTGTGGTTTACCTGAGCATGGCCGCCTTGATGGTGCTGCTTACGTTAGGCAGCGGTGCGGCGGCGTTCTACATTGGCGCTGTGGGGATCGGCTTTGTCTATGCCGGGGTACTGACCATCTTCCCGAGTCTGACTAGTCAAAATTTTGGAATGCGCAATCAAGGGATGAACTACGGCTTCATGTACGCCGGCTTCGGCCTGGGGTCGGTGATTTCGCCCTATGTCACGTCGGCGATCGGGGCTGGCGGTTCTTATAGCCCCGTGTTCATGCTGGCCATCTTCTTACTGGTTGGCGGCGTGGTCATGATTCAAGTGATGCAGCGGATGGGCCAGCGGGCCATTAATCAAGCAAAAGGAGCGGAAGTACATTGA
>SRR1151209_02803 2-dehydropantoate 2-reductase
TTGAAAATTGCAATTGCAGGTGCGGGCGCCATGGGCGGCCGGTTTGGGACGATGCTGGCGACGACGGACAACCAGGTCATGTTCATTGATCCCTGGGCTGACCATGTCCAAGCCATTAATGATCGGGGATTGCAGGTCCACGTGGGCAACGCAGTGACGCCTCATTGGATCCCAGCAGCCCTGCCTCAGGATGTCCACGGAAGCTTCGACCTGATTATCCTGTTTACGAAAGCGATGGGCATCGCCCCAATGCTGGAATCGTTACGGTCCATCATTACTCGTACGACCCACGTGATGGTGCTGGCCAATGGAATCGGCAACATTGAGCAGGTGGAGAAATTCGTCCCGGGGCGCCAAATTATTGCCGGAGTCACGGTGTGGTCATCTGAATTAGACGGCCCGGGCGAGATCACATTGACCGGTGCGGGCAATGTGACCCTGCAACCATTAGCCGGTCAAAACGATGACTTTTTCCAAGCAGTCTTGACGGCCTTCCATCAAGCTGGGCTGAATCCCATTGCGTCGGATGACGTCTTGGCCGCTATCTGGAAGAAGGCCGCCTTGAACTGTGTCTTGAACACTTATACGGCACTGCTTGATTGCAACGTTGGCGAATTTGGCCGCCTGCCGAATCATGAAACACTGATCGACGGTGTTTTGAACGAATTTGCCGTAGTTGCTCATCATGAGCACATTGCCTTTGATCTAGATGCGGCCCGCCAATTGATTCTGGCCCAGTTTGCGCCAGGAGGCAACAGTGCCCACTATCCGTCGATGTATCAGGACCTGGCGAAGGGGCGGCCGACGGAGATTGATTTTCTTAACGGCTTCATTGCCGCTAAGGGCGCGGCGTCCAATATTCCGACCCCGGTGAATCGCCTGTTGACGCAGTTGATCCATGGGAAGGAAGTGCTGTCGAAGCAATCGGTGAGGATTCCTGCGTAG
>SRR1151209_02804 hypothetical protein
TTGCGAAGCGAGAAAATCATTACTGGTTCAGCTTTTACCCAAGCTGATTTGGCTAAGATGACCAAACTGTCGATCAACTACAATCAGCCCAGCAATTTGTCTGGGCTTCAGTATGCATCAAATCTGTCAATCTTAAGCGTTGCCAGCTTTGGTACTAATAATGGCATTTCGGACCTATCTCCCCTGGCAAATTTGACTCAGTTGCAACAGCTGGATCTGAATCACAATAATATTACAGACATAAGTCCCTTGGCCAAATTAACTGATTTACATGAGCTGCATCTCAGCTCTAATAAAATCAGTGATATTTCTGTTCTGAGCGGTCTTCACAATCTGACGGATCTTGAAGTGGGTTATAACAGCATTACCGATCTCACTCCGCTTAGCGGATTGCATCTTTTCAGCAAGCTCACTATTTCTGGTAACGCCGCCTTGTCAAATTTGAATTTGCTTGCCTCGCTCACGAATCTGCAATCGTTGCGTGCAGCGTACCTTCCGGCACTCACTAACATCACCGGAATCAAAAATGCGGTACAGCTATCCTATCTAGAACTGGAGAATGACAATCTGACCGATGTGGCTGCGCTGCAGAACATCAGCAGCTTGACTACAGTTAAATTAGACTCCAATCACATTAGTGATTTATCTCCTCTATCCAAATCATTTCAAGGGAGCATTGTGAAACCAAATAATCTGTCGGCTATAAACCAAACGGTAGCTATCGGCTCCCAACCGATCGATTATGAAGGAAAAAAAGTGCCTGTTGTCGATAACTCTTGGTCTGTTCAAAATTCCGATTTCACATATCGCTTCATTGGCACCACAACTCTGCCCAACCAGCAATCCATTTCTGCCGATGATTTCACTATGCGTGTCGGGGATCCAACACCCACTGTTGACGATTTTAAGGCTTCCGCAACGGATAAGGACGGCAACGCAATCAAGGTTTCCGTGGATCTCTCCAAAGCTGATTTATCGACCCCAGGCACTTATGACGTTGTCCTGACTGCCGCAGATGGTCAGACCAAGACCGTTAAGCTCACAGTCTTAGCCAATCAACAGTCGTTTGCCGGGAGTGATTTCACCGCCTACGTCGGCGATCCCAAACCTACTGTTGATGATTTCAAGGCCAGTGCGACGGGTAAAGACGGGAAAGCCGTCGATGTGACTGCTGACCTCTCCAGCGTTGACATGCAAAAAGCAGGTACTTATAAGATTACCTTGACCGCCGCCGATGGTCAGACCAAGACCGTTGAGCTCACGATTTTAGCTAATCAACAGTCGCTTAACGGGAGTGATGTCACCGCCTACGTCGGCGATCCCAAACCTACTGTTAATGATTTCAAGGCCAGTGCGACGGGTAAAGACGGGAAAGCTGTCACTGTGACTGCTGACCTCTCCAAAGTTAATATGCAACAAGCAGGTACTTATAAGATTACCTTGACTGCTGCCGATGGTCAGACCAAGACCGTTAAGCTCACGGTCTTAGCTAATCAACAGACGCTTACTGGGAATGATTTCACCGCCTACGTCGGCGATCCCAAACCTACTCTCGCTGATTTCAAGGCCAGTGCAACGGATAAAGACGGGAAAGCAGTCGATGTGACTGCTGACCTCTCCAACGTTGACATGCAAAAAGCGGGCACCTATGATGTTATCCTGACTGCTGCCGATGGTCAGACCAAGACCGTTAAGCTCACGGTCTTAGCTAATCAACAGACGCTTACTGGGAATGATTTCACCGCCTACGTCGGCGATCCCAAACCTACTCTCGCTGATTTCAGGGCCAGTGCGACAGGTAAAGACGGGAAAGCCGTCACTGTGACTGCTGACCTCTCCAAAGTCGACATGCAAAAAGCGGGCACCTATGATGTTGTCCTGACTGCTGCCGATGGTCAGACCAAGACTGTTAAGCTCACAGTGCTTAACGTCTTGCCAATTATTTATCCAGCGCCGGAATTTACTTTCACCAAGGAGTTCGTCAAGGACCCAACCATCAACTCGGGGACTACCTTTGATCCAATTACAGGTATCTATGCTTGGACCGACAGCACGCACAGTACGCCGATTCCAAGCGTAGATTGGCAAATTTCCGGCAACGTGAATACGAACCGAGCAGGTGCCTATACGATTAACTACACGATCACGAACGCGTATGGGCGGACGGCCACACTAACTCGTACAATTACGGTGGCCGTCAATGGCCCCACCGAAAGTAAGACAAGCGGAGTCGTTTATGTTATCAATAATGCGGGAGCGGTGCTGTATTCTGATTCAGCCACCAGTATCTCTCTAGGCCGAACACTCATTATTGCAACGGCTTGGAAATATTATGGTATTGTGAAAGACGCTAATGGCAGAATTATCGCCTACAACTTGGGCGGTAAGCAGTATGTCAAAGCAAGCGACGTGTCGACGTCCCCCTTTGCTGATCGCGGCATCTTCACTGTACGTTATCCCAAAAATGCTAACTGGTCGGTTGCAGTATACGATTCTCATCTGAATGTATTGAAGCTTATCCCTGCCCGCTCTTCTTGGTTGACTTATGGTACGCAAACATTGGCAGATGGTCGGACATACTTCAATCTTGGTGGCAATCAGTGGGTTAGAACTGATTATGGCTACTGGCGGGCTCAAACAAATTAA
>SRR1151209_02805 hypothetical protein
ATGCATTTACACAGGGTGCCACACGATCAGAAAGTGCACTTCAAGCTGCTAAAATCAGGCAAATTATGGTTAACAGTCGCAATTACAGGAATCACCTTTGGTACTGCCCTGCTGACTAATGTCACAGTGTCAGCCGCTGCAACAAATCCAGCCGCGGCTGCAATGTCCGTCGATTCGTGGATGCCCGATAAAAAACCTGCAAAAAGCAGTCAGCTCTGA
>SRR1151209_02806 membrane protein
ATGACACTACAATTTTTCAAAAAAGCCGCCATCTGGCTGGCCACTTTTGTCACTCTGGCAATTGTGATCGTGATGATTGCGGCAGTCTTTCAGTCTGAGGATTTTCAGTCTCACCGCAGCACGTCCACAATCGTGTGGGCAGGTTTGCTCAGCTTAGCAGTGATCACCGGGGCCGGGGTACTGGCTTATTATGTGCGCCGGCGGAACAACTTGTTCATTTTTACCCTGAGCATGGGGCTCACAGCGCTAAAGCTGATTGTGCTGGTCAAGTTTCCGCTAAGTCCTACATCAGACTACTTTAATTACCATAGTTTCGCACAGAATCTAGTTGCTGGTCTGACCTGGCACAAAATGGAGACGACTGGGCTGTTGGGGGACAACATGCTGTGGCCCCACGTGATCAATATCAGCTGGTTTTTCAGCGTGTTCTACAGCTTCTTTTTCAGTAATATTGTGGTCGGGCAGCTGGTGAGCATCACGTTGAGCGGGGTGAGCGCCTTTCTGATTTACGTCCTGGTCAAAAAGATACTGGTCAAACCCGTGGCCGTGTTTGCGGCATTAGTTTTTCAAGCGATTCCCGCATACTGGCTATACTCAGTGATCAACGCGCCAGAATCTTTTTTCTTGGTGTTTCTATTGGGGGCGGTCATTTGTTATTACGATGCATTGTACACCGTCAACGATACATTTACGCGCAACTATTTCTTTCTCGGCTTATCTTTGCTGCTCCTGTTTTTAGCGAATATGGTTCGGCCCGTGGGCATTATTTGGGTCATTGTGATCGTCCTATTCGTTATTTTTGGTCTATCCAACCGGCGGCGGCCGTTCAAGCACTTGCTCGCGATGACTGCGATTTTTGCCGTGACTTTCAGCATTTTAAGCGCGGCGGCCGTCCCCATTTACCGCGTGTTCTACGGGGTGGACTGGGCACCGGCGGCGGTACTCCAGAATTACTCACTAGCCACCGGGACCAGTGTCACCACCGGCGGGGCGTATAATGCCCAAGTTAGAAATGAAACCGATACCTTATTTAACCAGAAACACGTACCGCTGGACGAGCGTTACACGCGGATCACTCAGCGCATGAGTCAAATTACCCGAACGAATTTGAAGGCCATTGAGCGCACAGGCGTGACGGCTTTTTTATGGCATAAGACAAAGAATTACATGGATGAAAACTATGGGGCGGACTGGCTGTTTTACAATATCAATGGCAAATCAAAGGCGTCTAAAGAGTTCGCGAAAAACATTCTGCCCTTTGCGTCAGTGTATGCCGTGATATATTTCGGCTTGTTCTTAGGGCTGACGGCGCTGGCAATTGTCGCCCAGCTGCTGCTGATGTTTAAAAAGCGGGCGCTGAGTAACCGGCGCATCAATCTGATGTTTTACAGTGCGCTGGCATTGGACGGTTTCTTCCTCAGCGCGATGCTGCCGGAAGTCCAGGGGCGGTACCACATTATATTATATCTGCCGCTGGTCGTGCTATTGGCCCTTGGTGCCCAACTGTTCAGTCGAACGAATCGAAAGGAGTTCACCATATGA
>SRR1151209_02807 glycosyl transferase family 2
ATGACTTGGCTCAGGATTGTCATCACGCTGTCGTTTATTGCCTATCTCATTTATTTGTCGGACTTTGCCTTGGCCGCCAGTATTCGGCCAAAGACCATCAAACCGGTGCCAAAGGCAGAAAATTTCACACTCTATATCGTCATTCCCGTCCTGAATGAAGAACAAGTCATCGGGCAGACACTTCTATCGTTATTGGCTGAAATTCGGAAGCTGCCGACCAATATCGCCCCGTGGATCGTTACTGTGAATGACGACTCCGACGACCAAAGCCAAGCCATCATTACGGCACTGCAGGCTGATCACCCCAACATCTTGCCCTTTGATCGGCCCCCTGAAGAGGCCCATCAAGGCAAAGGAGACGTGCTGAATTATGCGGTGAATGTCATTCAGCATCTGCCCAATGGCAATCCAGATCATACCATTTTGGGTATTCTGGACGCCGATTCAAAAATCAGTGCGGCGGATTTGACGAAAGTCATCGACTATTTCACGGCACATCCAGATATTGCGATGCTGCAGGGCAGTGTCAAAATCTACAATGATGATCATTGGTTGACCCGGATGCAAGATTTTAAATTTGTGGGCGTCAACAGTGCGCTGCAGCAAGTCCGGGAGACGTACGATGAAGGCATCGCTTCTGGTAATGGGCAATTTGTGACCCTGTCCATGGCTCTGGCTAATCCCTGGGGGAAGGGCTTGCTGGAGGATACGGAGTTCACCTTGCGGGCCTGGTTGAAGGGATACAAAACGGCCTTCAGTGATGACATCGTGGTGGCGCAAAGCGGGGTCGATAAAATGCGGCCCTTGATCCGCCAGCGGGTCCGCTGGTGTCAGGGCAGCATGCAGTGTTGGCGGTATTTGCCAGCACTTTGGCGGTCTAAGCAGATTAATCGGTTTCAGAAGTTCGATACGACTTTGTGGCTGGTCCTGCCGGTTTTATCGACCTTAATTCCGATTACCAACATCATCGCACTGATTATCCAAGTCTATAATTACCTGCACGGCCCGGCAGGCTGGATCAGTCCGGCCTTGGTGGTCATTCTGCTGTTGAGCTTCGCAATTTGCATGGCCATTGGTTTGGAATACCATGAAAACATGGCAAAAATCACACCGGTCTCGTATCACCATGCATTGTGGCTGAGTGTACTGTATCAAGCTTACTTAGTTTTACTGATTCCGGTACCCTACATTGCGCTGGGGCGTCAGATTCTGCATATGACAAAATGGGATAAGACGGAACACGCCAGCGCACCTGAGACAGCTAGTCAGTCGCATATCTGGCCAGTCAAATAG
>SRR1151209_02808 queuosine transporter QueT
ATGACTAATGCACGTTCTACCCATGCGTTACGAGAAATTGTGGTCAATGCCCTGATTGCTGCGTTGTATGTTGCGTTGTGGTTAGTCGCCGCGACGTTCAATCTGGCTAGTCTGGCGATTCAGTTCCGTGTTTCCGAAGGCTTGAACCACCTCATCGTTTTTGATAAACGTTACTTTTGGGGCATCACCCTCGGTGTATTGATTGCTGATGTCCTTGACCGATCAACGCCAGTTCTATTAAACGTTCCCTTTGGTGTCGGTCAAACAATGATCAGCTTATTACTGGTGGGCTTTGTGGCGCCTAAGCTGCCCAAACTCTGGATGAAGATGGTCTTGAACATTGTTGTCTTCACAATTTCTATGGCAATGATTGCCTGGATGCTGCACTTAGCCTTTCAGCTGCCTTTCTGGCTGACGTACTTAAGCACTGGATTATCTGAAGCCTTCATCATGACGATCACTGCCCCGCTCATGGCCGCGGTCAACACGGCTGTGCACTTCGACAAAGTGCTGGATGCCTGA
>SRR1151209_02809 O-methyltransferase
ATGCATAATGAAATGCTCCACCATCCAGCGATTCCCGCCCCGCTCCGCGAATTCTTGCGGGCCCATGGTCAGCCGCTGCCCGAGCCGTTGAATACGTTAGAAAATCAGGCTCGGGCGGCGGACGTGCCGATCATTCCCCACGAGACCGTGGATTTCTTTCAGACTTGGTTCCGGCAAGTCCACCCCACCAGTGTCCTGGAACTCGGCACCGCCATCGGCTTCTCCGCCCTGCTCTTTGCCCAGTTGATGGGCCCCGCGGGCCGGGTGACCACGTTGGAGCGGGCACCCATCATGATCGGCCACGCCCAGGCCAACCTGGCTCAGTACGACACTGCCCAGCAGATCACTCTGCGCACCGGCGACGCGACCACCCTTCTGCCGACCTTGACGGATACCTACGACGTCGCCTTCATGGACAGCGCCAAGGCGCAGTATATCCATCAGCTGTCCCTGGTGCTGGCGCGGGTCAAGGTCGGCGGCACGGTCTTTATCGATGACGTCCTCCAGGGCGGCACGATTTTTTTGCCGGAGACAGAAATCCCCCACCGGCTCAAGGGGATCCATCGCAATTTGCGGCAATTGCTCGAAAGCGTCTTTGCAGCGAAGGGCTTGACGGCCACCTTGATTCCGTTGGGGGATGGGTTGTTGATGATGACAAAGGATGTCGACCAGGACTTTACGTTTTAA
>SRR1151209_02810 hypothetical protein
ATGATTATTAAATCGCTGGTATTAAAGAAGGAATTTCTCACCACGGTTAAAGAAACGGTGACGCTGGCGGAGGCTCTGAAGGTCTTGGAAGAGTCCGGGTTCCGCTGTGTGCCGATTCTGGACGAGACGGGGAAGATTTTCCGCGGCAATATCTACAAGATGCACATCTACCGGCATAAATCCCAGGGCGGCGACATGAGTCTGCCGGTGACGTACCTGTTAAAGAACGCTACGAAGACCGTGCCGGTTGAATCACCGTTCTTCAAGGTTTTCTTCAACATCAAGGACTTGCCGTACATCGCGGTGCTGGACACCGATGGCAGTTTCTACGGTATCTTGACCCACGCCAAGCTGCTGGGCATGTTGTCTGAGGCCTGGAACGTGGATGTCGGGTCCTACATGCTGACTGTGCTGTCCGCTGGGGAACGGGGCGACTTGGCCGACATGTCCAAGATCATCGCCAAGTATGCTTCCATTGCCGGCTGTTTGACCTTGGATGCCCACCGGGAACAATTTGTCCGCCGGACACTGTTTACGCTGCCGGCCGGGATGGACAAAGACACGATGGAACAAATCGTCAGCCGGTTGGAACGGAAGAACTTCCGGGTCGCTGAAATTGACGATCTGCAGCAAGGCATCACCATTCGCAACGACGAAACCAGTCCTGATTATTAA
>SRR1151209_02811 hypothetical protein
GTGCAATTTAAAAAAAGTGCCGTCATTGGCGGCGGCCTAGCGCTCATTGCATTGCTGGGCGTTTATCTCGGATTCGCGCTTCATTATCAAGACACCATGCTGCCCCACACGACCTTCGCCGGCGTGGCGGTTGGCGGCATGAAGGTGGCGGATGCGCAAGCTAAAATCAAGGCCAATACACTGGACAAACAATATGTCCTGGATGATCAAGACAAGCAAGTCGCTACCTTTACCGGTAATTCAGTCGGCACGTTCCAAGACGTCGGCAAAGATCTGGTCGCGTTGAAGAGGGACCAGAACCCATGGGCCTGGCCGGCAGCATTGGTCGGCGGCGAGGCGACAGCGGCTGATGACAGCACTCATTCGCTGAAGCTGGATAAAAAGAAGGTTGACACCTTTGCCAACCAGACAGTGGCCAAGCTCAATCAGGGCCGGACGCAAACGACGAATGCCTCAATTGCCAAAAAAGACGGTGAGTTCGTCATTACCAAGGAAACTTACGGCAATGCCCTGGACAAAACTAAAGTGGCCAACTTAGTCACTAAAATGGTATCAACGGGACAAACCAAAGCGGACTTGAAGAGCACCTATGTCCGGCCGACAGTAACTGCCGGCTCCGCGAAGCTGCAAAGTGACCTGACCACCTTAAAGAAGTTGAGTACGGTCAAGGGCACTTACAGCATCGCCGGCGATTCCGTAACGATTCCAGAACACTTAATTAAGAACAGTGTGTACTATAAAGACGGCAGTATTGAAGTGAATCCATCCGTCTTCAGTGATTTCTTAGCCCAACTGGCAACCAAGTACAACACCATCGACAAGACGCGGACGTTTAAGACCACCAACAGCGGTACGGTCTCTGTCCCCGCCGGGACTTTTGGCTGGAGCATTCAGCAATCCAGCGAAGCCGATGCCTTGGCGGCAACGATCAAGAAAGGCGAAGACTTCACCCGCCATCCATTGGTCAGCGGTTCTGGGCAAAGCTTCCACGGCAGCGAGGTGGGCAAGACCTACGTCGAAGTCAGCAAGGCCAAACAGCACATGTGGGTCTACATTGACGGCGTGGAAAAGATCAGCACTGACGTAGTCACCGGCAAGCCCAAACAGAATACCCCCAGCGGTGCGTTCTTCGTTTGGAGCAAGCAGCGCAACGCAACCCTGAAAGGCTTGAACGATGACGGCTCCAAATATGCATCACCGGTCAGCTACTGGATGCCCATTGATTACACCGGGGTCGGTCTGCATGATTCGCCCTGGCAGCCGCAATACGGCGGCGATTGGTACAAGGAGCACGGCAGTCACGGGTGTGTCAACACCCCGCCGACCGTCATGGCCCAACTGTACAGCATCGTGCCCGCTGGCACGCCAGTGATCATTTATTAA
>SRR1151209_02812 L-lactate dehydrogenase
ATGTGTGTTGCGTATCGTTATTATACCATAATCGCCGCAGGGCTTATGATTTTCAGAATGACTGTCCCCGCGGCCATTGGGCTGACGACGGCAATTTCGGCAGCGGGCCCCATCCGGCCCAGCATTTCTGGAAGCGTATCCTTGAAAATCGTTCGGAATCACCGGCAAATTTTGCCTGCAATTGTGTTATACTTGCGTTGTATAAATGTTTATCAATTGAAAGGAATGAAGATCTTGGCTTCTACAACTGAAAAAGATCACCAAAAGGTCATCCTTGTCGGTGACGGCGCAGTAGGTTCCAGCTACGCTTACGCAATGGTACTGCAAGGGATTGCCCAAGAGATCGGCATTGTCGATATCGCTAAGAATAAGACGAAGGGTGACGCGATTGATTTATCGAACGCCCTGCCTTTCACGCAACCCAAGACGATTTACTCTGCTGAGTATGCTGACGCAAAGGATGCCGACGTTGTCGTCATCACTGCCGGCGCTCCGCAAAAGCCAGGCGAAACTCGTTTGGACCTGGTTAACAAGAACCTCAAGATTTTGAAGTCCATCGTTGACCCCGTCGTTGAGTCCGGCTTCAATGGTATCTTCTTGGTTGCTGCTAACCCGGTTGATATCTTGACCTACGCCACTTGGAAGTTATCCGGCTTCCCGAAGGCACGGGTTATCGGTTCTGGTACGTCTCTGGATACCGCTCGTCTGCGTCAATCCATTGCTGAACTGGTGAAGGTTGATGCCCGTTCCGTCCACGCTTACATCATGGGCGAACACGGCGACACCGAATTCCCGGTTTGGTCTCACGCTAACATCGGCGGCATCAAGATTGCTGACTGGGTTAAGGCCCACCCTGAAGTTGACGAAAGCGAACTGGTTACCATGTTCGAAGACGTCCGGGATGCCGCTTACAAGATCATCGACTTGAAGGGTGCCACCTTCTATGGTATCGCCACTGCCTTGGCTCGGATCACCCGCGCTATCTTAGACGACGAAAACGCCGTATTGCCGCTGTCTGTCTATATGGATGGTCAATACGACCTGCACGATATTTACATCGGTACACCGGCTGTGATCAACCGCGAAGGGATTACCAACATTTTGGAACTGCCTTTGACTGATCACGAAATGCAATCCATGCACTCTTCTGCTTCCCAGTTGAAGAAAGTGCTGACGGACGCATTTGCTAAGAACGACATCGAAACTCGTCAGTAA
>SRR1151209_02813 peptidyl-tRNA hydrolase
TTGAAACTTATCGTCGGCCTCGGCAATCCCGGCAGTCAATATGCCCAAAGCAAACACAATATCGGCTTCATGGCGGTGGACCGGATCTTGGCAGAAATGCCCAACACTCAAGAGAAGCAGCAGTTCACTGCGGCCACCTGGCAGGGGTTGCTGGCCGGGGAGAAAGTCATTGTGGCCAAACCGCTGACTTTTATGAATGATTCCGGCAAGGCGGTCGGCCCGCTGCTTCATTATTACAAATTGGCGCTCAGCGATCTGCTGGTGATCCAGGATGATCTGGATATGCCCATCGGCAAGATCCGGATCCGGGCCCACGGTGCATCCGGTGGTCATAACGGCATCAAGAGCATCATCCGGGCCGTGGGCGGCGATCAGTTTACCCGCATTAAGGTGGGCATTGACCACCCGCCCGTGGGCACCGTGGTGGACTGGGTCTTGTCGCCGTTCACGCCGAAGAACGCGCCGGATATTGCCCAAGCCTTGGATCAGGCCGCGGCGGCAGCCACCGAATGGGCCAGCGGGGCTGATGACGCGACCCTCATGAATACGTACAACTAA
>SRR1151209_02814 transcription-repair coupling factor
ATGAATTTAGTTGAATGGATCAGCCAGGAACCGCAATTGCAGCAATGGCTGAGAGCGCAAAAATCAGGGGAGCGCACACTGCTGACAGGATTGGGACCTGCGGCGAAGGCGCTGGCACTTACGGCGTACTTGCAAAAGACGCGCCAGCCCCTGCTGATCGTTGAACCCACCACATTGGCCGTGGAGCAATTATTACCCGATCTGCAAGCATTGAATACCACCGATACGGTGTACACCTTCCCGGTGGATGAGGTGCTGGCGACCGAAGTCGCCACCGCCTCCCCGGAAGGCCGGGCCGCCCGGGTCGCCGCCTTGACTGCACTGAGCAGCGGCGTCCCCGGGCTATTTGTCGTCTCTGTGGCCGGGTTGGCCCACCTGCTGCCGGATCCGGCCCTGTGGGCGAAGCAGGCGTTCACCGTGACCAGCGACGGCCAATTGGATCCGCAAGCCCTGCCGGAACGCCTGGTGGCCATGGGTTATCGGCGCGACACCCTGGTCTCCCGGCCCGGCGAGTTCGCCATCCGAGGCGATTTGATTGATATTTTTCCTTTGACCGCTGACCATCCGGTGCGGATCGAGCTCTTCGATACTGATGTGGATTCCCTGCGGATCTTTGATGAAGGCGATCAGCGCTCCATGGACAACGTCGATACGGTGACGATCCCGCCGGCCAGCGATTTGATCGTTCCTGCCGAACAGTTGAAGCAGGCGGCGGCCCAATTGCAAAAACAAATGACGGCCGTCTCCGCGAAGGCCGTGCCATCTGTGCAGGATGCGCTGCAGGCTAATCTGGCGAATACGATCACCGATTTCAACCAAGGCGATCTGGGAGAGAAAGCTAATCTCTTCCGGGAAGTGCTGTTTGGCGGGGACTACGGCTTATTGGATTATCTGCCCGCCGCCGGCACCGTATTTCTGGATGACTATGCCCGGATCAACGATCAGGCTGCTGCCGCAGAAGAAGAGACGGCCCAGTGGCAAACGGACTTGCTCAGTCGTGGCGAGATCTTGCCCCACGCGACATTGGAAGCTGATTGGCGCGCCGCCCTGAATAAGGATGCGCATAGCCGGGTCTACCTTTCTGTCTTTCAGAAGGGCATGGGCCGGGTCAAGCTGGACCACCTGATCAACGTGACCAGCCACGATGTGCCCCAATTCTTCAGCCAGATGCCGATGCTCAAGGGGGAGATCGATCGGTGGCGTAAGCAGAACCAAACCGTGGTCATCTTGATTCAGTCCCAGAGTCGGGTCGAAAAGCTCCAGCAGACCCTGCGGGACTTCGAAATTGTGACTCGGACGGCTAGCCCGGATGCGCTAGTATCCGGCGCGGTCCAACTGGTCCACGGCAATCTGTCGGCCGGCTTCACCTTGCCAGAGAGCAATCTAGTGGTCTTAACGGAACACGAACTGTTCAATCGCGTTCGCCAAGCCCGGCCGCGGCCAGCACATTTCTCCAATGCCGAGCGGATCAAGAGTTATAACGAACTGAAACCTGGCGACTACGTGGTCCACGTGAATCACGGGATCGGTAAGTACATGGGTATCCAAACCCTGACCGTGGACGGCAAGCATCAGGATTACATCACGATTCAATACGCCGACGACGGCAAGCTGTTCATTCCCGTGACCCAGATGAACATGGTCCAGAAATATGTCGGCAGTGAAGGCAAGACGCCCCATATTAATAAGCTGGGGGGCAGCGAGTGGCAAAAGACCAAGCGCCGGGTGGCGAAGAAAATCGAGGACATCGCCGATGACTTGATTGAACTGTACGCCGCCCGGGCGTCCCAGAAGGGTTATACTTTTTCAAAAGATAATGATTACCAGCGCGAGTTTGAGGCGGCCTTTGCTTATCCGGAGACTCCCGACCAGCTGCGCAGTACCGCTGAAATCAAACGGGATATGGAACGGCCGGTACCGATGGATCGGCTGCTGGTCGGCGATGTCGGCTTCGGCAAGACTGAAGTGGCCTTGCGGGCGGCTTTTAAGGCAATTCAAGACGGTAAACAGGTCGCGTTTCTCGTCCCGACCACGATCTTGGCGCAGCAGCATTACGATACGATGATGGACCGGTTCGCCGATTTCCCGGTAACCGTGGGGATGTTGTCCCGCTTTGTCTCGCCGGCCAAGCAGAAAGAGACTTTGGCGGGGATGAAAAACGGCAAGGTGGATATCGTCGTTGGCACCCATCGGCTGCTGTCGAAGGATGTCCATTTTAAAGACCTGGGCCTGCTGATCATTGATGAGGAACAGCGCTTCGGGGTGAAGCACAAGGAGCGGATCAAGGCGCTGCGAACCAACGTGGATGTGCTGACCCTGACGGCCACACCGATTCCCCGGACGCTGAATATGTCCATGCTGGGTGTCCGGGACCTGTCGGTGATTGAGACCCCGCCGGCCAATCGCTATCCGATCCAGACCTACGTGCTGGAACAGAACGCCGGCACCATTAAGAACGCCATTGAGCGGGAAATGGCCCGTAACGGCCAGGTGTTCTACATGCATAATCGGGTGGAAGACATCGAACGGACGGTGGATGAGCTCCAGCAGCTCGTGCCCAATGCGACGATTGCTTACGCCCACGGTCAGATGAGTGAAACCCAGTTGGAGCGGGTGATCTACGACTTTGTCCACGGCGCCTACGACGTGCTGGTGACCACGACGATCATTGAGACCGGGGTGGATATGCCCAACGCCAACACGTTGATCGTGGAGAATGCCGACAAGTATGGTCTGTCCCAGCTTTATCAGCTCCGCGGCCGAATCGGCCGATCCTCTCGGCTGGCATATGCGTATTTCATGTACCAGCAGAACAAGGTGCTGACTGAAGTGGGCGAAAAGCGGCTGGCTGCGATCCGCGATTTTACGGAATTAGGCAGCGGCTTCAAGATCGCCATGCGCGACTTGTCCATCCGCGGTGCCGGCAACCTGCTGGGCAAACAGCAGCACGGCTTCATTGATTCTGTCGGCTACGATCTGTATACCCAGATGCTCCAGGACGCCGTGGCGGCCAAGAAGGGGAAGACCAAACAGGAGCGCACCGACGCCGAACTCGATCTGGATGTGGAAGCCTATTTGCCGTCTGACTACATCAGCGATCCCCGGCAAAAGATTGAGATTTATAAACGAATCCAGCGGATCGATGGTGCCGACGAGTGGGCTGACTTACAATCAGACTTAATTGATCGATTCGGCGAATACGATGCGCCGGTGGATCGATTATTGAAGATCGGTTTGTTAAAAGATCAAGCCGATCAGGCCTTGTTGACGAAGATCGAGCGAAAGGATACGCATTGGACGATGCACATCGGTGCGGCGGGCCGGGCCCGCTTAGGGGGTGAGGATTTATTTGCCCTCTTGAGCAACACGACGCTGCAGGCCCAGGTGACGGATAAGGACGGCGGATATCAAATTACGCTGATCCAACGCAAGGGAATCAGCGATGATACCATGATCGATACGCTGATGACCTTGACCGCGGCATTGCCGAAGATTGAGCAGAAAAAAGTCCATGCCGGGAGTAAGCATGAGTAA
>SRR1151209_02815 polysaccharide transporter
ATGAGTAAACGTACCAAACGTACGGTTTTTGGTTCGGCCGCTTTGCTCAGCATCGCGGCCTTGATTGCCAAAGTCCTATCGGCGTTTTACCGAGTGCCTTTGCAAAACTTGGCGGGGGACTTGGGGTTTTATGTCTATCAACAAGTGTATCCGCTCTATGGGATCGGCATGACCTTTGCCTTGAATGGCCTGCCGGTTTTTATTTCCCGTTTAGTAGCGGAAAAAACCGTGGCGGAGCGGCCGGCGCTGGTCCGGCAGCTGCGCTCTATTTTGGTGGGCGTCAGTCTGGCGGCCTTTGTCGGCTTCCAAGCGGCGGCACCGTGGATCGCCGGAGCGATGGGCGACCAGGATTTAACGTCGATGATTCGCGCCGTGAGCTGGATGTATTTGTTCATGCCCACGCTGGCTCTGGGCCGCGGGTATTACCAAGGAACGCTGGACATGACGCCCACTGCGGTTTCCCAAGTCGTGGAACAGATCCTGCGAGTAGCGGTAATTATCTGGGCGGCGTGGTATTTCCATGGTCATCCGGCATGGACCTACTATGAAATGGGGACCTTCGCCATGAGCGGCGCGACCATTGGGGCCTTGGGTGCAGCCTGGACACTGCACCGCTACCGGCGGCGCGACCCCTTCTGGGGGACGGTGCATCTGGCGACCCCGGATAATTCCTGGCGCTTACTGACCCGCCGGCTGCTGCTCCAGGGCGGTTCCATCTGTCTGTTTGCGGCTGCCCTGATTCTCTTTCAGCTGGTAGATTCTTTCACCGTGGCCCGCTCACTGCAAAAAATCGGCTATCTGCCGGTGGCCGCCCGTTCGCTGAAGGGAATCTACGACCGGGGCCAGCCTTTGGTGCAGCTGGGGCTGGTCCTGTCCAGCGCCTTTGGCACCACGCTGGTACCTAATTTGACGCGGGCCTTGCAAAGCGGCAGCCGTCTGCGGATTCAGCGCTTGGCGACAGAAGTGACCCATATCAGTTTGCTGTTTTCCGTCGCTGCCACCGGCGGCCTGATCGCGCTGCTGCCCTGGATCAACCAATTTCTCTTTGGCGACCGGGAGCAGCTGATGACCCTGGCCCTTTACCTGGGTGCCATCATTCTCGTGGCGATGATCAATACCTATAATGCGATTCTTCAAAGTGTGGGCAATTATCGGGCAGCCACTTACGGCCTGTTGATTGGGATTGCCCTGAAGGCCGCGCTCACTGGTCCGTTGATCCGTATTTTCGGTCTGCCCGGAGCGTCTTTGGCGACCCTGATCGGCCTAGCAGTAGTCTGGTGGATCATTTTCAACCAATTGCCGTCTTTGATTCGCATCTCAGTTTCGACCCGCCTATTCGGCACGCGGCTGCTGGGCGTCACGATCCCGATGATGATTGCGACGTTCATGATCGCTTGCGCCAGCCAAGCCGTGTTGGGTGTGTCCCGCTGGGCCAGTATCGGCGTGACCCTGATCGGCATTGCCGCCGGTGTTACCATCTTTTTGACCCTGGCCTTGAGAAACAAACTCTTGACAATTCGAGAATGGTTGGTCTTGCCCTTCGGCAGTGGTATGCTACACTTAGTACAACGGTTACAGCGAAATAAGTAG
>SRR1151209_02816 hypothetical protein
ATGCGTTTGGATAAGTTTTTGAAAGTTTCCCGCTTGGTAAAGCGGCGTTCCGTCGCCAAAGAAATCGCCGATAAGGGGCGTATTCTGATCAATGGCAAGGCCGGCAAGTCATCCAGTAATATCAGCGTGGGCGACCAGCTGACCTTGCTCTTTGGCAATCGGACGTTGACCGTGACGATCACCGATATTAAGGAAACCACGAAGAAAGACGACGCAGCATCCATGTACAAAATTGACAGCGACGAACAGGCGGAGGCCAAGAGTCCGTTCTAA
>SRR1151209_02817 septum formation initiation protein
GTGCAGAAGCCTCAAGCCGCACCAGGTAAAATTATTCAGTTAAAGAAACAACCGCGTCAGCAGTCGGCGCCAATCACACCGGCCGCCTACATGCGCAAAGTACACCGCCGGCGGTTCTGGGCCCTGACGGCCATTTTGGCCCTCGTCCTGTGCTTCTTCGGCCTGAAACTCCACCAAGCCCACGCCTCCCAGGCCCAAGTACAGAATCACCTGAGCACCAGCCGCAGCGAATTGACCGCTGTCCAGAACAAGAACACCAACCTCAAGAATCAAGTCAAACAACTTAATGATCCGGATTACTTAGCTAAGTATATTCGGGAGAAATATTACTTCTCCAAACCCGGAGAAATCATTTTTAGTTTACCTGGGGACAAAGGCAGCGATGTGACGAAGAAGTAG
>SRR1151209_02818 CRISPR-associated protein Csn1
ATGGGTTATATCTTGTCATTAGACATTGGTATCGCTTCGTGCGGATATTCCGTATTGGAAACGGACGCACTCGGTGTGCCATACAAAATTAAGACGTTGAACTCTATCATTTTTACACGGGCAGAAAATCCCAAAACCGGAGCATCGTTGGCTGAGCCCCGCCGAAAGTATCGCGGTGCCCGGCGACGTAAGCGGCGTACTTCCTTCCGTAAACACCGTACCCGGCAATTATTCATCACCAGCGGCCTATTGAGCAAACAAGACATTGCTCGCTATCTAAATCAACAGGAACCTCACGACGATATCTGGGAATTACGGGTTAAGGGCCTTGATGAACCGCTAACCAACCTGCAACTCTTCCAAGTCCTCTATTATTTCGTCACCCACCGCGGGTTTAAATCGAATCGAAAGGCTGAACTCAAGGACAAGGATATTGGTCCCGTTTTGAACTCCATCAACGCCTTTAAGGAAGAAATGCAATCCCACGATTACCGGACAATTGGCGAATTATATGCCAATGATCCGCGTTTTCGTGACCGTAAACATAATAAGGATTACACCAATGGCTTCTTGGGGACAATACAGCGCTCTTGGTTGGTTGATGAAATCAAAATGCTGCTGACAAACCAACAATCCTTCGGCAACACGCAGCTCACATCAGAATTCATTGAACTTTACCTCAATATTTTTACAAGTCAGCGAAACTTTGATGACGGCCCGGCCAGCGGCCCCTATTCCGGTGATTTAATTGACAAAATGGTCGGCCCAGACACTTTTAATCGTTCCCGCAAGCGTGCTCCACGGGCAACCTACACTTTCCAGTATTTCAGTTTTCTCTCAAAATTGAATTCTTTGCGAATTGCGCCAAGTATTAGTGCGCCCTTTGAAACCCTCACTGTTGACCAGCGGGCATTGATAACCAAACGACTCTGGGGACCCGATGTTAAATCCGCCGATCTTAAATTCAAACAGATCCGGATGGTATTGTCCCTGCCGGAGACTGCACGATTTAATTTGGTCAACTACGGCAATACCCCTGAAAAAGCACTAGAAATTGAGGACAAGACTACGTTTATTTCCATTAAGCCGTTGCGCGAAATTGAAAAAGCACTGACTGGCACCACTTTGCCCGTTAGCCATGATCAATTGGATGCAATTGCTCGCATTCTTACCGTATACAAGAGCGATAGTAATCGGAAAACTGCATTCCATAATCAGACGGTTCTCTCTGATGAAGTCATCGAGCAATTGCTACCACTGAATTTTTCGAAATTTGGTCATCTGTCAGTGGAGACGATGCAAGAAATCATTCCCTATCTGGAACAAGGGATGGTTTACAGCGACGCAGCCACAGCCGCCGGTTATGATTTCCGTAATAATCAAATTGACATGGAATACATCCGCGACAACGTGACGAATCCCGTTGTGCGCCGTGCTGTTAGTGTGGCCAATAAACTGGTGAAGGCTGTGGTTCGTCGGTATGGCAAACCGGACAGCATTCATATCGAATTAGCCCGCGATTTGAGCCAGAACTTCCAGGAACGGCGGCAGGATGAAGTACGGCAACAGAAGAATGCTCGGGACAACGAGAAAATTGCGAAGCGCTTGGAAGAGCTGGGCATTCCTGTCAACGGTGTCAATATTACCAAGATGAAACTGTACGATGAACAGCATGGCATCGATCTGTATGATTTAAGCACAAATGCCAGCATGGCTGTGACGGATATCTTCTCTGACGACCGCTACGAGATCGATCACATTATTCCATACAGCGTCAGCTTTGACGACAGCTACACCAACAAGGTGCTGGTGAGCGCCAAGGCCAACCGGGAAAAACGCGATCGTATTCCCATGGAAGTCTTCGGCAATGATTCCGAGAGGCGTCGCCAATTTGAGAACCGGGTCAATACCAACATCACCAACCTCCGTAAGAAGCGCAATTTGCTTAAAGAAACGTTTTCCGACGAGGATAAAGCCAAGTGGAAATCCCGGAACATCAACGATACCCGTTATTTGAACCGTATTCTGATGAACTATCTTTCCCAAAACGTGGAATTCACTGATGTGTTGAGCGATGCGAAACACGTCATCGCTTTGAATGGCGCAGTCACCGCTAAGATCCGCTCCCGGTGGGGGATTACTAAAGTGCGGGCTGCTGGCGATTTACACCATGCCGTAGATGCCGTTGTGATTGGCTGCGTCACGGATGCCTTGATTCAAGCGGTCACCCGGTATGCCAAATATCAGGAACGACGAGACAACAAGGCGGCCGCTGAACAAGATTTGGCTGAAAATAACCCCGAGGAACTGGACGCTAAGCAGTTCCGCAAGGTATTCAATGACTATCCCCTGCCCTGGCCGGAATTCCGGGAAGAACTGATGGGCCGGGTCTCTTCAGATCCTAGTCAGATCATGGCTGGACGGCAGTGGAGCCACTATACCGCCGAAGAAATTTCAGAATTGAAGCAGCCCTTCGTTGTTCGCGTGCCGAACCACCGGATTGTTGGGCCGGCGACTTTGGACACTGTCTATGGGCAGCCCAACCCTGACGATGGGTTGATTACCCAACGTGTTCGGATTACTGATCTGAAGCCGCAGAAGAATAAAGACGGTGAAGACATTATCAAAGCCGGTGCCAACGTTTATGAGTTAGCGGCTGATGGCGGAAATAAATTAGTTTATGAGTCGATACTGGATGCTTTACAGGTTGCCGGCGGCGATGGCAAGAAGGCGTTCCCGACTGGGCGTTTGCTTGTGCGGTCTCCGATTCAGGATATTCCTGTGGAACGGGTACGGGTGACTAGTAAGGCGACATTAGTGGTCCCTGTGGGGCCTAAGAGCGTGGCGGCGAATGGGTCGATGGTACGGATTGATGTTTATAAGACACCTAAGAAGTATGTTTTTGTACCGATTTATGTGCGAGACACAGTAAAAGCGGAGTTGCCAGATAGAGCCGTTGCACCTGTAAAGCCATACAGTCAATGGTATCAGCTTCAACCTAAAGATCAATTTCTCTTCTCGTTGTTTGCCAATGACTTGATTCGATTCAAACATCCGCGAGGGGTTTCGACTAAAGAAATACTCACAGACGGTTCTCAGGAGAAGGGAAAACGAACGGACGTTGTTGGGTACTTTACTGGTGCAGACATTGCAACTGCATCAATTGCCATTGAAGGCCCAGATCGCTCATTCTCGGCTAGAGGTATTGGTTTTGCCAGTTTAAAAAACGTTGAGAAGTTAACCGTTAACTATTTCGGTGAACTACATTCAGTTCATGAAACACAACCGATGCAGTTTCGTGGTCAAAGAGGCTAG
>SRR1151209_02819 hypothetical protein
ATGACGAATAAATCGACGAAACACTTAACGAAAGATAAGCAAGTACCGGAATGGCGCTCCAACTTAGACGCAGTAGTGGCTGCATTCACGATTGGCTGGGGGCTTTGGTCGCTCTGGCAGAACAGAGGGATGACTGAACACTTCCTGAAGTTCTGCAGCGCACTGCTTTTGAGCATTCCGCAGTGGATTAATGCCAGTGTCATCATCTTCTTTTGGGGAGTTGTGACGATGGGATTAAGACAGCGGCGGGATATCACTTCACCAGAACAGTTAACCCGTTGGTATTGGCTGTCGGGATTTGTTGCTGGCTTTCTGTTCTTTCTCTTCCAAGACGCCATATTTGGGTTTATCAAGGCGGTTGTTGTGGCCGTATTGTTTTTGATTTTTTCCACGCTTGGGGCGGCAGCGGGCGCCTTGCCATTTAGTTTTGGCGGCTGGCTGCTGTATGACGATTGGGACCGGTATGACGACTATGGTCGGCGCCATGATTATTGA
>SRR1151209_02820 hypothetical protein
ATGGAAAAGCCAGTAAAGCCTGCGGCCCAGAAGCCGGACCAAACGCAACCGTCCAAACCCCATTATTGGCGGCGGCATCCTTTTTTGACCAGCTTTGTGATCACAGTACTGTTTTTCAATTATGCCCGTGATCCCAACAGCTTTTATCAGTATATTCGAGGTATTCCACGGGCAATCTTCGATTGGCGTATCGATACAGGAATCACTGTCGACAATGTCATTTCGTTTTTTGTTAACTCGGTGGAACTGATTGGTTTAGTGATTATCGCAGCAATTATTTTTGGCGGTCCGATAGTTTTGTTTGTACGGTGGGAGCATCAGTCTCAGTTGAAAGAAATGCTTCGACCTTATCATTTTCCGCCGGAGCATGAGCAGACCACAAAGACTAAGAATCACCCACCGCGTTCTTAA
>SRR1151209_02821 hypothetical protein
ATGACAAACAAACCAGCAAAGCAACCCGCAACAAGTCACCAAATGCCCAAGTGGCAGGAATCGCTCAACAATGCGGGCATTATTTTCTTTATCGTTATCATGATTGCAGGAGGCGGCTTGTCATTTTGGGACAATCGAGACCTTTTTAAGCACTGGCTCATGACTTGCAGTGCATTTCTTTTTGGCTTGCCCCAGTGGCTAAACGTCGGCATCATTCTGATCGTCTGGTTTTTGGTAACCGCCTATGGGACGCAGCGCCAAGCCGGACGGACTCCCCGGCAGTTGCAAAAGCGCAGTCTCCGGCTGGCCGGAGTGATGGTCGGCTTGCTCTTCTATGTATTTCAGAACGCAGCGCTGGCCTTCATCAGGACTGTCGTTGGTATGGTGGTCCTGCTGATTCTTTCAACGTTAAGTGCCGGCGGCCTGGCGTTACCGTTCGGCTTTTTCGGTTTCGGCGGCGGAATGTTCTGGTATGACGACTGGGACAGCCGTGACGACGACGGTCACTGGGATGATTATTGA
>SRR1151209_02822 hypothetical protein
GTGAGCGCACAATCAAAGACACCAGCACAACAAGCACAGCTAACACCCAAGACTAAGCGCCGGCGGCGACCCTGGCATTCTTTTTTGGCTACGTTCTTAATCACCGTGTTATTCCTCAATTTTGCGCATAATCCGGACGAATTTTTCCAGTATATCCGGCACATTCCCCAGAAAATTGCCAGTTCTCCTTTCTTCTTTGATTGGTCGTGGGACAACGTGCAGGTCTTTTTCGTCAATCTGTTTGAGCTTTCCGGTATTTTCATCATTGCCGCAATACTGTTTATTGTGCCATTGGTCTGGTACCTCAACTACGAACACCGCAGCCAGCTTCGTGAACTGCACAAACCATTGCCCCACTATAAGGAATGGGACGACCCCGACGATGACCAAACCGACCAACACCCCAAACACCCCAAACACCAATAA
>SRR1151209_02823 major facilitator superfamily transporter
TTGTCCACAGCCAAACCCCACCGCACCCGCATCGCCATCGGTCTTTACACCAATTACATCGTTCACGGCGCAGGGGTCCTCATCCTTGCCCAATCCATGACCAGCCTCGCCGCTCAGTGGCACACCACCGCCGCCGCAGTCGGCGCCGTCATCGCTGCCATGGGGATCGGCCGCTTGGTCGTGCTGCTCCTGTCCGGTTGGCTCAGCGACCGCTGGGGGCGGCAGTTCTTCGTGGGCCTGGGCATGGTCAGCTACTTGCTCTTTTTCCTGGGCATTTTGTGGAGTCCAACGGCGGCTTGGGGCTTTGCCTTCAGCTTCCTCGCCGGCTGTGCCAATTCATTTTTGGATGCCGGTACCTATCCGGCCTTAATGGATATTTATCCGGCGCAGGCCGGGGCGGCCAACGTCTTGATCAAAGGCGCCATGTCCGCCGGCCAGTTCATCCTGCCGCTGCTGGTGGGCTGGACGATCACCAGCCACGCCTGGTTCGGCCTCAACTACGCATTTCTCGCAGCAATCCTCATCATCAACGCGGTCGTGTTTCTCACCCCCTGGTGGGGTGCCAAGCGCACCAAACCGCAACAGCCGCAATCAGCCCCAACAAAAAACGAGCCAGCCGCAGCTGTCTCGTTTGCCACGATGCCGTGGCTGTTATTAGCGTTGTTCATTGTCTATGGTTTCCTCTCTCAAGGCGTCTTTTGGGTCTTTACCCAAAACATCACGCAATATGGGATTCAAATCCTGCACCTGACCCCCAGCACCAGTGGGAGCTTACTGAGTTGGTACAGCACCGGCTCATTCATTTGCGTGCTGGTCAATGTGTTTATCCTCAGCCGCCGCTTCACCCCGCCGCAATTACTAGTTCCGTTCACCATTGGCGGCACACTCAGTCTGATTCCAATTCTCAGCCAAGCACCACCCACCATCCTGTTTCCCAGCGTCTTCCTCATCGGCTTCTGCATGGCCGGCGGGGTAATGCAGCTGGGGCTGACGGTGATGGGTGAAACGCTGCCGCTGGGTAAGGGGATCGCCACCGGCCTGTACTATTCCGCCGGGGCCACCGCTCAATTTATCCTGCCGCTGATCACGGCCCAGTGGAGCCAGCAGCTCACCACGGTAATGTGGTTTGACCTGGCGATTGCCATCGCCGGTGTCCTAGTCACCACGGGCATTACCCTGCGGCTCAACCGGTTAGCTTAA
>SRR1151209_02824 hypothetical protein
ATGTTGGAGGAGCCGCGTATGAAACAAGCAGAAAAGGTCGATCAGTTGATCTATGGCGTCGTGAGTGAGCGGACACCGCGAGGCTACATCTTGCGCCTAAGCAGTGATCCGCAGGTCTTTGCCAAAGGGACAGTCTTCGAGGAGGCTGTTTATTACTTCTACCGGGTACTCGCCGAGTTTCTAAAAAAGCAGCGAGACGCCGGCCACGATATCCACGATTACACCTTTCAACAGTTCGATTTTGCCGCATTAGATAAAGTGCATTTTCTCACTTTAGTCAGTGCCACGAATGATCTCGACCCGCACCATATGAATATGACCATGACTTTTCCCCAGGCCCGGCTGATTGATCTGCCGGAGACCTTTGATCAATTGAAAGCTTTGTTAAGCTAA
>SRR1151209_02826 arginyl-tRNA synthetase
ATGGACTTACGTCATACTGTGGCCGAAAAGATCAGCCAGGCCTTGAACCAGATCGACGCATCACTGACGACGGACCAAGTGGCCGATTTACTGGAAGTACCTAAGTCGCTGGATCTGGGCGACTTTGCTTTCCCAGCGTTCCAACTGGCGAAGACGCTGCACAAATCACCGGTGCAAATTGCCCAGCAATTAGCGCCGCTCGTGAACGCGGATGGGTTGCAAAAGGTCGAGGCGAAGGGCCCGTACGTCAACGTGTTCCTGGACCAGCCGGTCTTCGCCCACACGACGTTCCACGCCATCTTGAGCGATCCTGCCGGTTACGGCGCCGCAGATATCGGACACGGCGGCAATGTGCCCATCGATATGTCTTCGCCCAACATCGCCAAGCCCATGTCCATGGGCCATTTGCGCTCCACGGTGATCGGCAATGCCCTGGCTAATATTTTCTCAAAATTGGGTTATCATCCGATCAAGATCAACCACTTGGGCGACTGGGGCACCCAGTTCGGCAAGCTGATCGTTGGTTACAAGATGTGGGGGTCGGAAGAGGCCGTCAAGGAGAATCCGATCAAGAATCTGCTGGCGTATTATGTCCGCTTCCATCAGGAGGATAAGGATCATCCTGAGATGGATGACGAGGCTCGGGAATGGTTCAAGAAACTAGAAGAGGGCGATCCAGAAGCAACCAAGCTCTGGGCGTGGTTCCGGGAGATTTCCCTCAAAGAATTCCAGAAGGTCTATGATCAGCTGGGTGTCACCTTCGATTCATACAACGGCGAGGCTTTCTATAACGACAAGATGGATGAAGTGATCCAAATCTTGGAGCAAAAGGGCCTGCTGGAAAAGAGCCAGGGCGCTGATATCGTTGATCTCAGTGATCAAGACCTGAATCCAGCGCTGATCCGCAAGTCGGATGGCGCGTCGCTGTACATGACCCGGGACTTGGCCGCGGCGATCTACCGCAAGCGGACCTACAACTTTGTTAAGTCCTTGTACGTTGTCGGTGGTGAGCAGAAGGAACATTTCGACCAGCTGAAGGCCGTTTTGAAGAAAATGGGCTTCGACTGGGCCGACGAGATCGTCCACGTCCCCTTTGGTTTGATCACGGAAAACGGGAAGAAATTGTCGACCCGCTCCGGCCGAATCATTTTGTTGGAGAAAGTGCTCCAGGATGCTGTTGGCTTGGCGCAAAAGCAGGTGGATGAAAAGAATCCGACGCTGGCCAACAAAGAAGAAGTGGCGCACCAGGTCGGTGTGGGCGCGGTCGTCTTCCATGACTTGAAGAACGATCGGATGGACAACTTCGATTTCAATCTGGAAGAAGTCGTGCGCTTCGAAGGCGAGACTGGGCCGTATGTGCAGTATACGAATGCCCGGGCACAAAGTATTTTGCGCAAAGCAGGCAAGACGGAAGCCGACCTGATCGATGCAGCCGCATTAGATGACGCGGGGGCTTGGGAAGTGATCCGGACCTTGGGGGACTTCCCAGAAATCATTACCCGAGCCGCACGGGAATACGAACCGTCAGTCATCGCCAAGTATGCGCTGCGGTTAGCCAAGGCCTTCAATAAGTATTATGCCCATACTAAGGTCTTGACCGGTGACGCCGACCAGGACAGCCGGTTGGCGCTGGTTGCGTCCGTCAGTGCGGTACTCCAGAGTGCGTTGGCCCTGCTGGGGGTCGGCGCACCGGCCGAAATGTAA
>SRR1151209_02827 arginine repressor
ATGAAACGGGAAGAGCGCAAGGCAGCCATTCGTCAGTTGGTCACCAGCACCCGCTTCGAGCGGCAGCGGGACCTGATGGCGGCTCTCCATGATCGCGGTATTATGATTTCCCAGGGTAATTTATCCCGGGACATGCGGGAATTAGGGATTCGCAAGTACAAGGACCGCAATGGTCACGCCTATTATGCTGTAGCCGATCACCAGGCGCCAACCCTGCCGGAGAATTTGCGGCAGGCTGTCGCAACGCAAGTTTTAACGGCGGTGGCAGTGCAGTTCACGGTGGTGTTGAAAACAGAAGCCGGCAGCGGTAATCTGGTCGCTGCGGCGTTGGATGACGTCCACCGGCCGGATATTATCGGGACTCTCGCGGGGCACGACACGGTGCTGGTGATCTGTCCCGATGAGGATGCGGCCAAGGCTTTTCAGCAAACCATCAGCGATACGCTGGCCACGCCCGCAGATACGGACGAAAACGCGCCGGAATAG
>SRR1151209_02828 ribosomal large subunit pseudouridine synthase D
ATGACCGCATATCAGCACCGCATTGTATTGCCCCCGGATTATCCCGGCCGCACTGTTCGAGAACAGCTCCAAGCGTGGTGGATCCCCAAAAAGTGGCAGCACTTCCTGCGCATTGAAGATGGTGTGCTGGTCAACGGCCGCTATCAATCCATGAACACGCGGCTGCACGCCGGCGATCTCGTCAGTTTGGCCTTCACCCATGTGGACCACCCGGTGCAAGATTACAATGTAACCGCCCGCAGCAGTCTCGTCATTTGTCACGAAGATCCCGATGTCCTCGTGGTCGATAAGCCGGCGGGGGAAAAAATGCATCCGAATCACGCCGGCGAAAGCAATACCCTGATGAACGCCGCCGCCAGTTACCTCGCAGCCAGCGGCGGCGCCGCCTTCATGGTTCACCGGCTGGATCAAGCCACCAGCGGGGCCGTACTGATTGCCAAAAACCCAGCCGTGGTGCCGCCGCTGAATCGGCAATTGGCGATCAAAACTCTGCATCGGGAATACTTGGCTGTCGTTCCTGGCACACCAGTGCTGCCTGACCACGGCCATTTCACCGGCCCCATCGCCCACGCCATTAACGACGTGCGCCGCCGGACGGTGGATAACAAAAACGGCCAAGCCGCGGACACAGAATTCCGGGTCTTGGACCGTTCTTCAGAAACACAACTTTTATTACTGACCCTGCACAGCGGCCGCACCCATCAAATCCGGGTCCATCTGGCCCACGCGGGTCTGCCGATTATCGCTGACCCGCTCTACGGCCCCGCTGCCGATCAAATTCCAGAAGACGAAATGCTGCTCCACGCGTGGCGCTTGACCTGGGCAACACCGCTGGGCTTTGGTACACAGACCGCCACAGCCCCTATTCCGGCGCGTTTTCGTCCGTATCTGCGGGCGTGGCCAGCGTATCGCTGA
>SRR1151209_02829 penicillin-binding protein 2A
ATGGGTTTTTGGCGCCGTGTATGGGCGTATTGGCTCCAGTTTGCCTCGTGGTTGTATCCATATTGCCACCGGGCCTGGGTGTTTATCCGCCGCTTCAATCATCGCTACCAGGTGGTACGCTGGGCGATCGTGCTGTTTCTAACAGTCGCGGTGGCCGCGTCCGCCTTTTTCACGTACAAAGCGAAGACCGCCGACGTGGAGAACTTGAAGACCAACCTGAAGACCGTCACCCAGATTTATGACACCCATAACGAAAAAGCGGGGACGATCACCAATAAAGGGACGTTTGTGGAATTGAACCAGATTTCGCCCCAGATCCGCAACGCGGTGATCTCCACTGAGGACCGCAGTTTCTATTCTAACCCGGGGTTCGACATTAAGGGCCTGGCGCGGGCGGCGGTCAGTTATGTCATTCACCACGGCCAGATCAGCGGCGGGGGCAGTACGATCACTCAGCAGCTGGCCAAGAATACGCTGTTGACGCAGAAGCAGACCTTTGTCCGAAAATTTCAAGAAATTTTTCTGGCGGTGGAAATCACCCGGCATTATTCTAAGGACGACATCCTCACGATGTATTTGAACAACGCCTATTTCGGTAATGGCGTGTGGGGTGTGGAGGATGCATCGGAGCGGTATTTTGGCAAGCATGCCAAGGATCTGGATGCGTCTCAAGGGGCGGCCCTGGCGGCGATTTTGCGTTCCCCCAGTTTCTATAATCCAGTAGACCATATGGATAATGCCCTCGGCCGGCGCAACCTGATTCTGAGCTTAATGGTCGACAACGGCAAATTGACCCAAGCTGAAGCTAACAGCGCCAAGAACGAACAGCTCACGCTGGTGAATAATTACCAGCAGTCTGACGAGTACCGCTATCCCTATTTCTTCGATGCGGTCTTAGATGAAGCTTACAACAAGTACGACATTAAAGAAGAAGACATTCTGAATAAGGGGTACAAGATTTACACCACGCTGGACCAGACGATTCAAAGCCAGATGCAGGGCAGTTTCAAAGAAGATTGGGCCTTCCCGGCTAACGCTGCTGATGGGACGCCGGTCCAAGCAGCCAGTGTGGCTGTGGATCCCAATACCGGCGGGGTGCTGGGCGTTATCGGCGGCCGCGGCAAGCATGTTTTCCGGGGTTACAACCGGGCCACCCAGATGCGCCGCCAGCCAGGCAGTGCAATGAAGCCGCTGGCAATTTATACCCCGGCGATTGAGGCCGGCTATCATCCGGATTCAATGTTGGAAGATAAGCTGCAGAGTTTCGGTAAAAATAAATACACCCCCCACAATGTGGATGAACAATATGCCGGCGAGGTGCCGATGTATGAGGCTTTGGCGGAAAGTAAGAACACCGCTGCCGTCTGGCTGTTGAACCAGATCGGGGTGCAAAAGGGTGTCGCTTCGGCAGAACGCTTCGGGATCAATATTCCTAAGAGTGACCAAAACTTAGCCTTTGGCATTGGCGGCTTATCCCAAGGGGTATCGCCGCTGCAGATGGCGCGGGCGTATTCGGCCTTTGCCAATGGCGGCAAATTACCGGACACCCATTTCATTACAAAAATCGTGGACGCCACCGGGGCTGTGGTCGTGGATAATACCAACACGACGGCCAAGCAGATCATCACCGCCAAGACGGCTAACGAGATGACCAGTATGATGCTGTCCGTCTTTTCCAGCGGTACCGGGACCTCCGCGGCGCCTAGCGGGTATAAGATTGCCGGCAAGACCGGCAGTACCGAGGGCGACAGCAGTTGGGGATTTGGTACCAAGGACCAATGGGTCGTTGGCTACACGCCGGATGTCACCGTGGCCACATGGGTCGGCTTTGACCAAACTGATGCCAATCACTTCCTGAAGGGCATCAGCGAGCAGGGGGTCGCGCCGATTTTTAAGCAGGAAATGCAAAATATTCTGCCCAACACTAAACAGACACCATTCAAGGTCCAAGATGCCGCCCAGGAAGATGCGGCGAATAATGGCGGCAGCACCGGCACCAGCAGCGGTTCTGGGGATGATTGGCTGAATGATTTTCAATCCAACGTGGAGAAAGGTATCAATGGGCTCAAGGATAAGGCCAGTGAATGGTATAATAGCCTCAAAGGTCTGTTCCAGTAG
>SRR1151209_02830 3'-5' exonuclease
ATGACGCAGAAAGCGCCCAGACGGACTGACCGGCTGGGCGTTTGGCGATTTATGACAAAATTACTCAAAGATTTTCAACCCAACGAACAACTCGACATCCCGGTTTTGATCAAGTCCGCCGACGTGCGGGAGGCCAAGGACGGCAGTAAGTACATTGCCCTGGTCTTCACGGATACGTCGGGGGAAATCACGGCTAAGCTGTGGCATGCGGCGGAGAAGGCCACTCAGGACTTCACAACGGGAACCGTGGTGCAGCTGACCGGCAAACGGGAAGTCTACCAAGATCGGCCGCAAATTCGGATCAAACACATGCGGGTCTTGCCGGAATCGGAACAAGATCCCCACGCCTATACGCCCACGGCGCCGGAGAGTATCGAGGATCTGCAAGCCTTCGTGAAGCAGACGATCGCCGAGATCCAGCAGCCAGTATGGCGGGGGATCGTCCAATATATTTTTGGGGCCCACTGGCATGAATTTTTCACCTACCCGGCGGCCAAGACCAACCACCATGCTTACGAGGGCGGATTGGCTTTCCATACCGTCTCGATGGTGCGGCTGGCCCAAAAAATCGCGCCGCTGTACCATAAAGTCAACGAAGACCTCTTACTGGCGGGCACACTGCTCCACGATATGGGCAAGACCCGGGAACTCACTGGGCCTACTGCCACCCAATATCGGCCGGAGGGCAACCTGATCGGCCACGTAGTGATGATTGATGAAGAGATCATTCGCGCCTGCGACAAGCTCCAGCTGGACAGTCACAGCGAGGCCGTCATGCTTTTGCGGCATATGGTCCTGGCCCACCACGGCGAGCTCGACTACGGCTCGCCTGTGCGGCCGCAGCTGATTGAAGCCGAACTGCTCCACCAAATCGACCAAATGGATGCCAGCTTGACCATGATCACCATGGCCCTCACTGACGCCAAACCCGGCGAATACTCCGAACGCGTCTTCGGCTTGGACAATCGACGCTTCTACCAACCAAAGCCAATTGAGGATTAG
>SRR1151209_02831 phosphomethylpyrimidine kinase
ATGGCAAATGAATTTCCCCAAGCGCTAACGATTGCTGGCGCGGATTCCGACGGTTCCGCCGGCATGGAAGCCGATCTGACGACGTTCTTCACTTTAGGCGTGCACGGCATGTGCGTCCTGACGGCGGCGGTCGCCGGCAACTCCTATGGGATCGACGCGGCCCACAACATGCCCACCGCGTTCATCGCTCAGCAGTTCAAGACGCTGGCGGCCGACTTCCATATTCGCGCTGCCAAGACCGGCATGCTGTCTGACTCCGAGTTGATTCATACGGTGGCTGCCCACGTCCAGGATGGTGCGGTGGGGCCGCTGGTCTTGGACCCGGTGATCATTACCAAACACGGGGCCATGCTGCTGGAGGAGAGTGCTTACGAGACGCTGCGCCAGGAACTGATTCCTCTGGCGACGGTCATTACCCCGAATTTCTTTGAAGCCCAGAAATTGGCTGAAATGGATATTAAGACGGATGAGGATATGATTACCGCGGCGCAAAAGTTACAGGATCTGGGCGCGAAAAACGTCCTGGTCAAGGGCGCGCACCATGCGGGCGACCAAGAGGAAGTGCGGGATTATGCCTTGCTAGAGGACGGTACCGGCTTCTGGCTCAGCGCGCCGTATGTGGCGACTGACCGGATCAACGGCACCGGCGACACGCTGTCGGCGGCCATCACGGCGGAGATTGCCAAGGGGACGAGCATCGCTGATGCGTTCCGCATCGCCAAGCAATATACGTATGAGGCCATTGCCCAGCCAATCGCGGTGGGGCATAAGTTCGGCCCAATCAATCATTGGGCGCCGAAGGTTCAGAAATAA
>SRR1151209_02832 glycosyltransferase
ATGGCCCATACATTAGATATCGTCGTCCCGTTCTATAACTTAGGCGGGTACTTCAAGAATTCGTTAACCAGTTTACGCCAACAAACCAGTACAGACTTCGCCGTGTGGCTGGTGGATGACGGCAGTACCGATGAGTCGCTGGCGCTGGCTAAGCAAGCGGCCGCTGCGGATGACCGGTTCCATGTGCTGACACTGCCCCGGCATGAAGGGACGTCGGCGGCCCGCAATGCTGGCGTGGATGCCGGGACAGCACCGCTCGTGACGTTTGTCGATGCGGATGATCAAGTGGATCCCCGCTTTGCGGCCACCCTGATTGCCGGCTTTCAAGAGCACCAGGCCGACATTGTCGCCGTTGGTTATACCTGGAGCGGCGGCTGGTTCCGCCGCGGCGGCGAACGCAGCGGGCGGGATCGGTGGCAGCAGATTGCGAAACCGGACATGCTGGATCAGGTGACCCGGCACGGCACAGAAGTTGGCGGGTACATTTGGAACAAGGGCTTCTCCCGGGCAATGCTGCAGGCCCATCATGTGACTTACGATACCCGGTTGACAATTGCCGAAGATTACCTGTACGCCACTGAAGCCGCCGCGGCGGGGGAGAATTTCTGGTACAACCCCGTTGTGCTGTATACCAAGATCAATCGGCCAGGCTCGACGATTCACTCCCGGACGTGGGAAATGAGCCGGCAAGAGGATGAAGTGTTTGCTGAAATGGCGGCGATCAAGCAGCGGGCACTGGCGTCTGATGCAAATAGTGCTTCAAGATAA
>SRR1151209_02833 Na+/H+ antiporter
ATGGCCATTCTCTTCCCCATCGTGCTTGTCCTGGCAGTGACGACGCTGCTGGCCCACTTTTCCCGCCGCTTGAATATGCCCGCAGTGGTCGGCCAGTTATTGGCCGGCATCCTGCTTGGTCCAGCGGTGCTTGGCTGGCTGCACCCCACGGAAGTGATGCATATCTTTTCTGAACTCGGGGTCATCGTTTTGATGTTCCTCGCCGGGCTGGAAAGCGACCTGCACTTATTGCGCCGCTTCCTCAAGCCCTCCCTGTACGTGGCCTGCATCGGCGTCGCGGCGCCGGTTCTCTTGATGGGCATCGCCAGCAAATTATTGGGGATGTCCGTGATTGAAAGCATCTTGGTCGGCATCGTCTTCTCCGCCACCTCCGTCAGTATTTCTGTGGACGTCTTGAAGGAAGAAAATGCCCTGAACCGGCCGGAAGGCGCAACGATCCTGGGTGCTGCCGTCGCCGACGATATTCTGGGCGTGCTGTTGCTGAGCTTCTTCATCAGTTTCGGTGGGGCCCACGCGGCCGGCGAACAGCCGAATATGTTCCTGACCATCGGTGAGCAGCTGCTCTTCTTCGGAGGTGTTGTCGTTCTGATCCGCTGGCTGGCGCCGCTGCTCATGCATCTCAGTGAAAAATTACTGGTCATTGCCGGCCCCACTTTAATGGCGATGATTATCTGTCTCGGGACCGCCTCCCTCGCTGATTTCGTCGGTCTGTCCGACGTCGTGGGGGCGTTCTTCGCCGGTGTCGCGGTGGCCCAAACACCGACAAAAAAAGAAGTGGACGCCAGCATCGAGCCCATGGGCTATGCTTTCTTCGTCCCCTTCTTCTTTGTGGGTATCGGCTTGCAGATGAAACTCGCCCTCAGTTGGGCAGACGTGCTCTTGATCGTCGTCTTCACTTTGCTGGCCGTTGTGACTAAGCTGTATGGCGGCATGGCCGGTGCGATGCTGGGCGGTTTTACCCAGCATCAAGGACTGACGATCGGCGCTGGGATGGTTTCCCGGGGCGAAATGGCCCTGATCACTGCCCAAATCGGCAACGATGCCGGGCTTTTCCCGGCCGAGCAATATCCGGCCATCGTCATCGTTATTTTATTAACGACGCTGTTGTCGCCGTTTATCTTGAAGCACTATTTGCATCAGACGCCAGTGCCCGCTGCTTGA
>SRR1151209_02834 hypothetical protein
ATGAAACACTGGCAGAAACTGCTGGTTTGGTTGGCAATTGTTGCCGCAGTCTTGGTATTTCGCGCGCTTATCCCCTCACCGCCCGGTATCTTGCCGATCACGCTGCTATTATTTCTTTACCGACTAGTCGATCTCGTCGGCAGTGTCGCCCTGATTGCTGCCGTATTCACGATTGCCGCCATGATTCGCGATGGGTGGCAAAAGAGCAAGACACATTAA
>SRR1151209_02835 branched-chain amino acid aminotransferase
ATGACTACTGATCCCAAGACTATTAATTGGTCAGACCTGGGTTTTGAATACATCCAAACACCATACCGCTTCGAGGCAAGTTACAAAGACGGGGCCTGGGAACCCGGCACACTCACCGAAGACCCTAATATTTCGATGAATGAGGGCTCACCGATCTTGCATTATGGCCAAGGCGCCTTCGAAGGGCTCAAAGCTTACCGCACTAAAGACGGCCGCATCCAGTTGTTCCGGCCGGATCAAAACGCTAAGCGGCTGCAACACTCTTCTGACCGCCTGCTCATGCCGGAGTATCCGGTAGATGATTTCGTCAACGCAGTGAAACAGGTCGTTGCCGCCAACGCGGACTATGTGCCGCCCTATGGGACTGGTGCCACCTTGTATATCCGACCGATGCTGATTGGGGTGGGTGAAAATATTGGCGTCCATCCCGCGCCGGAATATATCCTGCGCATCTTTGTCACGCCGGTCGGTCCCTACTTCAAAGGCGGCTTGACCCCCACAAGCTTCTTAGTGGTCAACTATGACCGGGCCGCCCATAACGGGACTGGCCAAAGCAAGGTCGGCGGGAACTACGCTGCCAGTCTGCTGGCCGGCCAAGAGGCCCATGAACACCACTACAGCGATGCGATTTACTTAGACCCCGTCCATCATCGCTATATTGAAGAAGTCGGTTCTGCCAATTTCCTGGCCTTCACCAAAGACGGCAAGACGTTGAAAACACCGAAGTCGCCCTTCATTCTGCCCAGTATCACCAAGTACTCCAGCCTGTATCTGGCCGAACACGTCCTGGGCATGCAGACCGAGGAAACCAAGATCAGTATTGATGAATTGGACGAATTCGGCGAAGTTGCTGCCTGCGGCACCGCCGCCGTCATTTCCCCCATCGCCGGCATTAAGTACGGCGACCACTATCATGTCTTTTATGATGAAAAGAAAGTCGGTCCGATCACCCATAAGCTGTATGATCTGCTCACTGGGATCCAGTTTGGCGACGTTGGGGCGCCTAAGGGCTGGATCCAGCAGGTTGAGGTATAA
>SRR1151209_02836 phosphomevalonate kinase
GTGATTACAGTCAAAGCACCAGGAAAATTATATATTGCCGGTGAATACGCCGTGGTCGAAACCGGGCAGCCGGCCGTGATTGTCGCCTTGAATCAATTCGTGACGGTGCGGGTGGAACCCGCCCATGGTATGGGCCGGATTCAATCGAAACAATATCAAGAAAATTCCCTCATTTGGCGGCGCCAAGGGGACGAGATGGTCTTCGACAATCGGGACAATCCCTTCCACTATATTTTGTCCGCCATTCATCTCACCGAAGCATACGCCAGCGAACAGGGCAAACCACTGCGGTTATTCAACCTCTACGTGGATTCTGACTTGGACTCCGCCGATGGCCGCAAGTTCGGTCTGGGCAGTTCAGCTGCTGTCACGGTGGGGACCGTTAAAGCGCTGCTCCAATTTTATAACTTGGCGTTGAGTCAGGAGCAGATCTACAAGCTGTCGGCCATTGCCCATCTGGATATTCAAGGCAACGGTTCGCTGGGGGACATCGCCGCCAGCGTCTTTGGCGGCTGGATCGCCTACCGCTCCTTTGACCGGGAATGGTTGCGGGCCCAGCGGAATCTGGTTTCGCTCAGCGAATTGCTGACGATGCCCTGGCCGGGATTGGACATCGAACTGCTCACCCCGCCCCAGAGCCTGCGGCTGCTCATCGGCTGGACCGGCTCGCCGGCCTCCACGTCCCATCTGGTGGACCAGATCAAGGCGGCCACGTCCCGATCTCAGGCGCAGTATAAACAATTCCTGCGGCGCAGCCGCGCAGTCGTGGAGAAACTGGTCCAAGGTTTCCGCGATGGCAATCTCGCTGTCATCAAACAGCAGATCAGCCGCAACCGGTTCCTGCTGCAACAGCTCAGTCAATTCAGCCACGTGCACATTGAGACGATGAAACTGTCCAGTCTGTGTGATTTGGCAATTCAAGCCGGCGGCGCCGCGAAGACGTCAGGCGCTGGCGGCGGCGATTGCGGCATCGTCATTCTGGACCGAACCGTGGACGCCGATGCGTTAATTGCCCAGTGGCACAAGATCGGCGTGCAGCACTTGCCGCTCAATGTGCATTTGATTCAACCGCCCGTGGTGCCGCGCTTGCGGGAAGCACGATAA
>SRR1151209_02837 L-lactate oxidase
ATGACAGTCACAAATGGTTACGAACAAAGCGATCGCGAACAGAAGCTGGATTTTTTCAACTTGAATGATCTGGAAAAAGAGGCCGAGGCAATTATTCCCAAGGGCGGTTTTGGTTACATCCGCGGCGGGTCCGAGGATGAGTGGACCTTACGGGAAAACACCACCGCCTTCAATCATGCCCAGATCGTGCCCCGTGCGCTGACTGATATGGAGAATCCTGCCACAGAAACTGATGCCTTTGGATTGCATTTCAAGACACCCCTGATGATGGCCCCCACAGCGGCCCAAGGATTAGCCCATTCCCAGGGTGAAAAAGATACCGCTCGCGGGGTCGCGGCGGCTGGTGCGCTGATGGCCCAAAGTACGTATTCTTCCACGTCCATCGCAGATACGGCGGCGGCTGGCAACGGCGCGCCCCAATTCTTCCAGTTGTACATGAGCAAGGACTGGGACTTCAACCACCATTTGCTGGACGAAGCAAAGAAGGCCGGCATTAAAGGTATCATCCTGACCTTGGATGCGCCTGTCGATGGATACCGGGAGGACGATCTGCGCAATCACTTCCAGTTCCCGATCCCAATGGCGAACTTGACGGAATACTCCGAAGGCGACGGCTCCGGCAAGGGCATTGCGGAAATTTATGCCGCGGCGGCGCAAAAGATTGGCCCGAAGGATATTGAACGCATCGCTGCTTACACCGATCTGCCGGTGATCGCCAAGGGTATCATGTCCCCTGAGGACGCCTTGAAAGCCATTGGCGCCGGCGCCGCTGGGGTATACGTATCGAACCATGGCGGCCGGCAATTGAACGGTGGTCCGGCTTCCTTCGACGTACTGCCCAGCATTGCGGCGGCAGTGAACCATCAAGTGCCGATCATCTTTGATTCCGGTGTCCGCCGCGGGTCCCACGTCTTCAAGGCGTTGGCCGCTGGGGCAGATCTGGTTGCCTTTGGCCGGCCGGCTATTTATGGCCTGGCTTTGGGCGGCGCCCAAGGGGTACAAAGCGTCTTTGAACATTTAAACGATGAGCTGAAGATCGACATGCAATTGGCCGGGACCAAGACCATTGCAGACGTGAAGCACGCCAAGCTGACGCATTTCCCAGCTTAA
>SRR1151209_02838 GntR family transcriptional regulator
GTGCAGTTTCACATCACGGAAGACAGTGCCCAGCCGATTTACATTCAACTGGCCCAACAGATCATCATTGGGGTGGCCATGGGCGACCTGCTCCCCGGCGAGCAGCTGCCGGCCACTCGGGTGCTGGGACTCAGCCTGAACATTGACCCGATGACCGTGTCGAAATCTTACCAGCTGTTAAAGCAGGATGGTTACGTGGAAGGCGACCGTCACCGGGGCACCCGGGTCAGTACCCAGCTCCCCATTACCACCGACGCCACGATCACGCCGGAGCTGACGGTGGCCTTAGCCAAGGGATTACTACAAGGCTTGACCATTCGGCAGTTGCAAGACCTGTGCCAAGAGATCATTTCTCGTTTCCACGCCTTACCTCAGGCATCATCAAAAATTACACAGTAG
>SRR1151209_02839 surface antigen
ATGAAGAAAATCTCACGCGTATTAACCGGGATCGCCGTCATAACCATGTTCGCCGGTCTCATCAATCCCGTGAATGTACACGCTGATTCGGTCTCCGATGCGAAGTCCGCGATCAGCAGCAAGAAAGATATTTCGAGTCAGTTGGTCAACCAGATCAATGACCAAACCAACAAGTTGAACGAATTGAATAAGCAAGTCGTTGCCAAGCAGTCCCAGCTGGATAGTACCGAGGAGGCCATTGATACCGCTCAACAGCGGATCAATGAATTGTCCGGGAAGATTGCCGACACACAAGTCCAAATCACGCAGCGCAAAGATAACTTGAAGAAGCAACTCGTTGCTTTGCAGAAGCAGAATTCCGATACCGTTACTGGTAATATTTACATTGATTTCATTCTGAAGAGCGACAACCTGTCTGATCTGATCAGCCGCTCCTTCACCGTCAACAAGATTTCTGGAGCCACTAAAGATGCCTTAACGGCTGTCCAAGATGCCCAGAAGCAGCTGGCCGATCTGAAGAGCGAACAGGAGCAGAAAGAAAACCAGCTCCAATCGCAGAAACAGCAGATCGTTCAGGATCAAAATGATTTGAAGGCGGCACAAAAGGCCGCTCAGGATCAGCAAAACAAATTACAACAAGAACTCAACGACAATAAATCAGCTTTGGCTGGGTTGCAATCCCAATTAACGCAAGCCTTGGCTGCTCAAAAAGCGCAGCAAGAAGCGTTGGCCGCCAAACAACAGCAGCAAACTGCCAGCGCCAACAGCAGTGCCGCCACGGTCAATACGAGCACCGCGAATACCAATACCAGCAGTAATAGCGCCAGCAGCAGTGCCAGTATGCGGGTTATGAAGATTTCCTTCTATGACCCGGCTGTACTGGGTTCCAGCATGGGTTATGGCGGCGTCGCCGCCGCCCTCTCCATCTATCCGAAGGGCACCCGCTTGAAGATCGTCTTCGCCGATGGCACGACGATCCACCGGGTGGTCAACGATACCGGGACGTTCGCCTATAGCAATCCGAACCAACTGGATGTGGCTTGGCCCAACGCTTCCGTTCCCTCATACGGCGTCACTACCGCCGTCGTGACCGTCGAATAA
>SRR1151209_02840 hypothetical protein
ATGGCAGATAGCGACAAAAAAGACACTGCAAAAGAACAAGCTCCAAAAATTGAGATCAAAGACGACGTTAAAGCGTTGGGCAAGATCCTGATGTCCCGCGGGTATATTACCGAGAAGGACACCGCCAACATGAAAGACGCTGTTTACGCGAAAGCGCTGGCCAAGGCCATTGATAAAGAAGTACGGAGCGAAGAAGAAGACCCCTTCATTCAGTTCGAGAGCTTCGATTACCAAAATGGGGTTATTAAGAACATTATCTTCAATATGGATATCATCAAGAACCGGGACGCCGCGATGGATACATTGAGTGCGGAACTGGGACTGAAAGAAATCAAGATCACCAAACAAGCCGAGGAAGAGATCAACGAAATCGGCAATGTTTAA
>SRR1151209_02841 hypothetical protein
ATGAGTGTCAAAATCAAACGTATTTATGGCGATCTGCTGCCGGATCCCAAAGACGGCTATCGAGTCCTAGTGGATCGGCTTTGGCCCCGCGGTGTTTCGAAAGTGAAGGCCGAACTGGACGAATGGGACAAACAAATTGGGCCCAGTAATGACCTGCGCAAATGGTTCGGCCACGACCCGGAGAAGTACCCAGAATTTAAGCAGCGTTACATCGCTGAGCTCGATGCCAACCCGGCCACGCCGGACTTTCTGCAGCTGATCAAAGAAAAAACGGCGGCGGGGCCCGTTGTCCTGCTCTTCGGCGCTAAGGACGAGACCCACAACCAAGCCGTGGTGCTGCAAGACTACTTAGCCCAGCATGGCATTCAATAG
>SRR1151209_02842 3-methyladenine DNA glycosylase
TTGGCGTATCAAGATTTCTTCACGGGCCGACCGACCCAAGAGATTGCCCAGGACCTGCTGGGCCGGCCGCTGCTGTATCGGTCGCCGGCGGGACTGGTGGGCGGCTGGATCGTGGAAACGGAAGCCTACTTGGGCCAGGCGGACAATGCCGCCCATGCGTACCAAGGACACCGCTCTGCGGCAAACGAGGCCCTCTATGGCCCGCCAGGCACCATCTACATCTATGAACGCCGCGGCTTGTTCATGTGCGACATCGCCGTGCAAGACGCCGAGGTGCCCCAAGGGGTCTTGCTGCGGGGGATTCAACCGGTGTGGGGCCTGGACGTGATGACCAAGAACCGGGAGGGCCGGCCCGTGGGTGAGCTGACCAACGGGCCCGGCAAGCTGTTCCGGGCGTTTGGCGTGCGGGATAAGGCGTTGAATTTACATAATCTGGCCGATGCACCGCTGACGATCCTGCTAGGGGATCAGTGGCAGAGCCAGCCCCGCCAAATCGGCAGCAGTGCCCGGGTTGGCGTGCGCAGCGGCGGTTGGCACGACCGGCCGTATCGGTTCTTTGTCGCCGGTAACCAGTGGGTGTCGAAGACACCGAAGCGGTCGTGGACGACGGATCAGGGGTGGTTGAAAGAAGCCGGTAGAGTCCTGCCGACGGAAATATTACCCGGGAAATAA
>SRR1151209_02843 hypothetical protein
ATGGCAACAGTACCAAAGCCTTTGGCGGCGCCGAAGAAGGCGTCCCGCCTGCGTTATGACCTGAGTCAGATTCGTATCAAGAATACGATCAGTGAATTGGCTGATATGGGGAAGAATGTCCGGGATAAAGTCCCATTCAGTGAACTGGCTGAATTCAAGCCCGTCCACCGCGACGTGGTTCAGGGGATTCAGCACGTGGAGCGTGCTTTGATCAAGGAGCTTTTACCCTTGCGGCACGCCCGCATGGCGGCGTCGCCCTTTGCGTTCTTCCGCGGCACCGATGAACTGATGGCCTATGATCTGGCCCAGCAGACGTCAACGAATATCCCAGTCGTGATCGCTGGGGATGCACATATTGGCAACTTCGGCTTTTACGCGTCACCTGAGCGCAAGCTGCTGTTCGATGTCAACGACTTCGATGAATCCACGATCGGCAGTTGGGATTGGGATGTGCGGCGGCTGCTCGTCAGTATTATTCTAGCCGGTGAACAGATCAGTCTGGATGATGATGATTTGGCTGATATTATGCGCCACGCCGTGCAAACCTACCAACAAATTATCATTGAATGTTTCGACGATCACAGTGCGCTGGAGCGATATTATTTTTCCACTGAAGTCGAAAGTTTCTTAACCGCCCAAGCGGAAGGGGCCTCACTGCCTAAATTGTGGCGCAAGATCAAGGATAATGCGCCGCAGCGGGATTCTGAGCAGGTCGTCCGCAAGTTCACGACGATGGACGACCGCGGCCGCCTGGTCTTCAAGGAAAACGCGCCCCGGACTGTGCATGTTTCTGATAAGCGCTTCAAAGAAATCGATGCGCATCTGCGGACCTATATGCAGACGATCAAGCCGGATGTGGCCGTGCTGCTGTCCCAATTCCACGTCAGCGATATTGTCCGCCACAGTGTGGGCGTCGGCAGTTTCGGTACCCGCTGCTATTTGGTCCTGTTAACGGCGATCGATGGCAGCCATTTGGTGCTGCAAATCAAAGAAGCATTGCCCACCCGGCGGTTCCAAGGCTTCGACGTGACCACCCGGTTCAGCCAGGATGGTCCGGATAACGGCGAACGGATCGTCACCTGCCAGCAGATTCTGCAGCGGGCGTCCGATCCTTTCCTTGGTTTCTACCACAATGACGACACCGGCTGCAGCTTCTACGTCCGCCAGTTCCGGGACATGAAGGAGTCCCTGGACGTCAGCAAGATGGATAAGGACGACTTCGATACCTATGCCCGGATCTGTGCCCTGCTGCTGGCCCGCGGCCACGCTCAGAGTCCTACCGGGGCCATCGTGCGCGGTTATGGCGGCCAGAAGAAGAAATTGGTCAATGCGTTGATCGACTGGTCTACGGCATACGCCAAGCAAGTCCATGCCGACTATGATGCCTTCACGGCGGCAGTGAAGGATCAGACGCTGGCTGTCCCGACGAAGGAGGACGACGACGATGACGAATAA
>SRR1151209_02844 sulfur reduction protein DsrE
ATGACGAATAAAGTCGTTTTCCATATTGATGAATTAGAAAAGTGGGACCACACGCTGGGCAACATTCAGAACTTGATTGCGTATGGTCAATCCCAGCAAACCGCCTACGATATTGTTGTGCTGGTCAATGGCGACGCGATCATGGGCTATCTCGTTACCCGCTTGCGGGATACCATTACCCAACTGCAACCGCAGGATGTCAGTTTCCATGCATGCAATAACGCGATGAATTGTCATGGCGTCAGAGCCGAGCAGTTGCCGGCAGGCGTTGTAGTGGTACCGGCCGGCGTGGCTGATCTGATTGCTTTGCAGGATACCGGATATCGGTATATTAAGCCTTGA
>SRR1151209_02845 hypothetical protein
ATGGAGCGTAAAGAATTAATTGACCTACTCAAACAGATGCAATTCAACCAACCTAACGAGAAAAGCATGATTGATGAAAGTATTGCGGCACTGACTGCTGGTAATAATGTGCACCAAGTGCTGATGAATTTAGGCTTACAATTGAATAAACTCGCTGTATCACGAAAAATATCGCCGGAAGGCCTTAAACTATACATGCGGTTGATTAAAGCTAATCAGCCTACTCGTAGTGAGGCTTTTGGTCTTTCCACGCTGTCGTGGTTTCCAAAATAG
>SRR1151209_02846 putative acetyltransferase
ATGACGATTACTATTGTTCCTAATCTTTCAGCTGCCCAACGCGCAGCGGCCAATCAACTGGTGGCCGCTGTTGAGGCCCATGATCACACGTATCGGGAGCCGTACCTAAGCAATCAGTTTAATTTTTCGCTGACCATGCCCAGCTTTTTTCTGGCGTATCGCGCTGACCAATTAATTGGCCTGCTGTCCTTGTATACGGACGGCGGCGCGGGCACCATGGCCGATGTATTTGTCCTGGTACACCCCGAGTGCCGCCGGCAGGGTGTGGCCACCGCGCTGTGGCAGGCGGCCAAGCCGGTGCTGCTGGCCAACGGCTATACTGAGTGGGAATTCATCACGGAGCAAGTCTTTCTAGCCGACTATCCCGAATTTCTTGCCCGGACCGGCTTGCAAGCAGATCCGGAAGCCGAGTATCAAATGGCCGCCGCCACGGCTCAGTTTCCGATGCCCAAGCAGAGTCCCGGCCGTATTCGGCCCCTGCGTGCCGCGGATGTGGCGGCGCTGGTCCCGCTGTACACCGCCGCCTTTGCCGATCAAACCCCAGCGGCGGCGCGCAATTATTTGATGCGGGCCATTCCGGATGACCAGACGCTTACCTATGTGTATGTGCTGAACCAGCAGCTTGTCGGCAGTTGTGCGGTGGATATCAGCGGTGTCAGTGATTATTTCTTTAGTCTCTTTATCAGTGCGGACTACCAAAATCAGGGGTTGGGGACCGACATGGTCCGGCAAATCATGGCGGTGCGCAGTGCGGCGGCCCCCAAGGCATTTACGCTGGGGGTCGAGACCAATAATCCGGCGGCGCTGCATGTTTATGCCAATGCAGGATTCAAAAAACAAACGGAAGTGGTGTATTTAATATGTCCGAAGAAAAACAACCACTGA
>SRR1151209_02847 hypothetical protein
ATGGCCCAATTGTCCCGTAAAGAAGCGACCCGCCGGATGGCGCAGTACGCTGAACAAGCCAATGCACTGCCGGATTTTGCCCAGCACTATTTACTTTTTCAAATGGTCTGGTCAAAAGAAGAGCTCGCCGCGGCGCTAACGCCGTATATCACCGCTGACCAAATCAAAAAGTGGCTGCAGCCGCCAATGTTTTCCGAACACTTCCCGCTAGTGGTCATTGTGCGCCCCGATCGACCGGATGAAATTGAAATCGATGGGTTGCGCGATTTGTACAATTTATCTTTTTTGGCCCAGGGCAAGTAA
>SRR1151209_02848 50S ribosomal protein L1
GTGGCAAAAAAGAGTAAAAAGTATCAAGACGCCGCCAAATTGGTGGACAAGAACAAAATCTATTCTGCCAGCGAAGCAATTCCGCTGGTTAAGAAGACTGGTTTTGCCAAATTCGATGAAACCGTTGAGGTATCCTACAACTTAGCCGTTGACCCGAAGAAGGCCGACCAGCAGATCCGGGGCGCCGTCGTGTTGCCTAACGGGACTGGTAAGAAGGTTACCGTCATTGTCTTTGCCCAAGGCGATCAAGCCAAGGCAGCTCAAGAAGCCGGTGCTGACGAAGTCGGTGCCGAGGACTTGGTGCAAAAGATTCAAGACGGCTGGTTGGACTTTGACGTTGCCGTGGCAACACCGCAAATGATGGCCCAAGTTGGTCGTCTGGGCCGGGTATTGGGACCGAAGGGCTTAATGCCTAACCCCAAGACCGGTACGGTGACCATGGACGTGGCGAAGGCCGTCAACGACGTCAAGTCTGGGCAAGTTGCCTACCGGGTTGACAAGGCCGGTATCGTGCACGCACCCATTGGCAAGGTATCCTTCGATGATGCCAAGCTGGAAGAGAACTTCAAGACTTTCAACGACACCATCATCAAGGCTCGCCCGGCTTCTGCTAAGGGGAACTATATCAAGAACCTTTCGATTTCTTCCACCTTTGGCCCTGGCATCAAGGTTGATCCGACATCGTTCTAA
>SRR1151209_02849 50S ribosomal protein L11
GTGGCAAAGAAAGTAGCAAACGTTGTAAAGTTGCAGATCCCTGCTGGTCAGGCGACCCCTGCACCTCCTGTTGGTCCTGCTTTGGGTCAAGCCGGCATTAACATTGTCGCCTTCACCAAGGACTTCAATGCCCGCACAGCAGAACAAAAGGGGACTATCATCCCTGTAGTTATCACCGTCTATGAAGATCGTTCCTTTGATTTCGTAACGAAGACTCCTCCGGCTGCCGTTCTTTTGAAGCAAGCAGCTGGCGTAGACAAGGGTTCTGGCGAACCGAACACCAAGAAGGTGGCCAAGGTCACTAAGGATCAGGTTAAGGAAATCGCTGAAACCAAGATGCAAGACCTAAACGCGGCTGACGTTGACGCCGCCATGCGCATGGTTGAAGGTACGGCTCGTTCGATGGGGATCACCGTCGAAGACTAA
>SRR1151209_02850 alpha/beta hydrolase
ATGGCTTGGTGGCTGTGGGGGCTGCTGCTGGGCGCGGCAGCGGTGCTGGTGGCCGCCGCAGTGGATTGGTGGCGAATCGGTCACGTGCCGAAACACTTCACCCCCATTCAGCCGCACCTCGGCAACACGCCGACAATTTATATTCATGGGTATAGCGGCAACCGTTATTCCTTTGGCCACTTGCTGGGGCGGTTGCACCGGGCCGGCATTGCGCAAAAGGCCATGGTGATTCACGTAAAAAGAAATGGCCAGTTACGGGTTCAGGGCCATTTGCTGGATACTAAAAATCCGACGATTCAGGTGATTTTCTGCCGTTCCCGGGCCCATCTGTCCACTGAACTCACCTGGCTGCACCAAATCCTGGTGCTCTTGAAACACAATGGCGTGCACCGGGTGAACCTGGTCGGTCATTCCATGGGCGCTGTGCTGGTCATGCTGGCGGCGATGCAGCTGCCCACCAAAGATACTCCCCAAATCAATAAGATCGTTACCCTGGCGGGGCCGTTCAATGATATTGAACTGGGCAAGGACACGGATGAGATCCTGGTTTACGAATGGGGACCCCGCGGACCATTCCGGCAAGCACCGATTTATCATTATATTGCCGAAAAAGTCCACGACCTGCCCCGGGATATTCACATCCTGAATATCGCCGGCGACATCTTCACCATCCCCACCCGGCACGACGACGGTGTCATCGCCGTCCAATCCGCCTTCGCCCTGCGCTGGCTCTTACCCAAGGCCGGCATCGATTATCAAGAAGTCCTCATCCGCGGCGTCCGCGGCGCCCACTCGCTGCTGCATGAGAATAAGCTGGTGGATGATAATATTGTGCGGTTTTTGTACGCGTCGTAG
>SRR1151209_02851 transcriptional antiterminator NusG
ATGGTCGAAACAGCTGAGAAACATTGGTACGTACTGCACACTTACTCCGGTTATGAAAACCGGGTCAAGGCAAACCTGGAATCCCGGGCCCAATCCATGAACATGGAGGACTTCATCTTCCGCGTTGTTGTGCCTGAAGACGAGGAAATGGAAAAGAAAAACGGGAAAGAAGTCATGGAAAAGAAGAAGACCTTCCCTGGCTATGTCCTGGTGGAAATGGTCATGACCGATGAATCTTGGTTCGTCGTGCGGAACACCCCCGGTGTCACCGGCTTCGTTGGGTCCCACGGGGCCGGCAGTAAGCCAGCCCCGCTGCTGGACAGCGAAGTGGCGCAAGTCCTGCACTCCATGGGCATGAGCACGCGCCATGAAGGTGCCGTGGACTTCGAACCTGGCGAGAGTGTCACCATCATCGATGGCGCCTTCAGTGGGCTGGTTGGTAAGGTGACCGAAGTGAACAAGGAGAAGCTGACCTTGAAGGTCAACATCACCATGTTCGAGCGGGAAACCAGCGCAGAACTCAATTTCGACCAAGTCGATAAGATCTGA
>SRR1151209_02852 preprotein translocase subunit SecE
ATGAAATTTTTGAAGAGTGTCGTTCAAGAAATGAAGCTGGTCACTTGGCCAACATTTAAAGAAAACCGCCATGATACCGGGACCGTTGTGATCACGTCTATTTTGTTCGGCGTTTTCTTCGGTGCCGTGGACTGGGTCCTGGGCACCGCCATGAACTGGTTCGTCAAGCTGTAA
>SRR1151209_02853 50S ribosomal protein L33
ATGGCAGTAAGGAAAGTCGCCCTGGCGTGCAGCGTTTGCGGTTCCCGCAACTATATGGTTGCTGAGAAAAAGGACCGGACCGAGCGCTTGACGTTACGCAAGTTCTGCAAGCATTGCGGTAAATATACGATCCATCGCGAAACACGATAA
>SRR1151209_02854 DNA-directed RNA polymerase specialized sigma subunit
ATGCCAATCGATGAGACCTTGATCGCCGCCGTCACCGCCGGCGATTCAGAAGCCCTAGAAGCTCTGTTCCAAAAATATTTGCCGTTGGTGAATAGTATTCGTAAACATTATTTTGTCCGCCTATTTGATGATGATGATTGGTATCAGGAGGCTCGGTTATGCTGCTATCAGAGCTGTTGCCGATTTGACGGTCGGCGGGGATCAAAGTTTGGCGGCTTCTTCAAGTACTGTTTTACCAATCATGTGCGCGGGCTTGTGCGGCGGGAAATGGCGGCCAAACGCAAGGGGGATGCTGACAATGTATCGTTGGAGCAAATGCTGGTGAGCGGCAAATTACAGACCGCTGCTGAAAACACTGAGACTAATGTGTTAGACACCTATTTGCGGCATATCCCCGACCTCTGGCCGCAATTATCCGGTCAGCAACAATCCGTCTGGCAAGCTATGCTGCAGGGGCAAACTGTGGTGGAAACGATGACCCCTTACCAGTTTCGCTGTGCGCGGGCTGCCTGTCGGGAGAAGTTGACGGAATTAATGACGGAGGATTGCACCACGGCCGAAATTCGCCGAATGAGCACACCCCCTCGGGTTTGA
>SRR1151209_02855 hypothetical protein
ATGCGCCATCAGATCATTATCGTGGATGGCTATAATGTCATCGGGTCGTGGGCCGAGCTGACCAAGCTCAAAGAAGCAGGGCACTTCGACCAGGCCCGGGATCGGTTATTGGACATTCTGTCGGAATATCACAAGTTTATTGGCGACGTGCGGATCATCGTAATTTTTGATGCAATGTACGTCCCGGGAATCAAAGAGAGTTTCACGAAATGGGACTTGGAAGTGACCTTCACGCCGGAAGACGAAACGGCCGACAGCTATATTGAGCACCTCACCGGAGAATTGAATACCCCGCTGAATCAGGTGACGGTGGTGACCTCTGATCAGGCGGAGCAGTGGACTGTGTTTTCCCGGGGTGCACTGCGGATCTCGTCGCCGGAGTTTGGCCGGGAGATCAAGCGTATGCGCGATCAGCTGGCGGCCGACACGAAACATTTTGCCGCGGCCACGCCGCGCAATGTCCCTTGGCGGCCGGACCAAATGCTCAGCTTAGGGCAATTCCTGAAAAAGCTGATCGATAAACGGGGCCATGATGACGCGCATGATTAA
>SRR1151209_02856 rRNA methyltransferase
ATGACTGAACATGAGACACCGGCAGTGGACGAAAACCTCGTCTTCGGCCGCCACCCGGCCATCGCCGCCCTGCAACAGGCGGATGCCCAGACGGTGAATAAGATTTTCTTGCAGGATACAGTACAAAAGGAGTTTGCCGGGGATATTTTAGCCCTGGCCAAACGGCATAAGATTATGGTGTCCCGAGTGCCCAAGGCTAAATTAGATACCTTGGTGAACGGCGCCAATCATCAAGGTGTTGTCGTGGCTCTAGCGGCATTTCCCTATGCCAGCGTGGACGATATTTTTGCCAAAGCCGAAGCGGTGGGTGAGCCGCCGTTTATTATGGTCCTGGATAACGTGGAGGATCCCCATAATCTCGGGTCCATTGTTCGGACTGCGGATGCCGCTGGTGTCCACGGCGTGATCATCGGCAAGCACCGGGCGGCTACGCTTACAGGCACTGTGGCGAAAGCAGCGGCTGGCGCGTTGAGCCGCGTCCCTGTTGCCCGGGTGACCAACTTGAGCCGAACGATCGAAGAAATCAAAAAACGCGGTGTCTGGGTCTTTGGCACCGCCATGGATGGGGAAGACTTCACGACCTGGAACAGCAGCGGTCCGGTGGCTATCGTCATCGGCAACGAAGGCAAGGGCATCTCCCCAGGTGTCGCCAAGCTGCTAGATGGGACCGTAACGATTCCCATGGCGGGGCAGATTCAGAGTCTGAATGCGTCCGTCGCCGCGGCAATCATCATGTACCGGGTATTTCTCGGTCGACGGGGTGACAACTGA
>SRR1151209_02857 mini-ribonuclease 3
ATGATTGATGACAAAAGTTTGAACGGCATTGATCTGGCCTACTTAGGCGATGCGGTCTATGAAGTCTTTATCCGGGAACATTTACTGAGTCAGGGAATTCGCCAGCCGGCCGCCCTGCAGCGCCGCTCGACCCATTTTGTTTCAGCCAAGGCGCAGGCTAAACTGAGCGCATTGATGGAAACTGGCGATGTGCTGACGGCGGATGAAAAGGATGCGTTCCGGCGCGGGCGGAATGCCAAGAGTTATACCCACGCTAAAAACACATCGGTATTGACGTATCGGATTTCCACCGGCTTTGAAGCCATCTTCGGTTATCTGCAGGCGAATGAACAAACCGTCCGGATCGCTGAACTGGCCCACTGGTGCATTACGCAAGTAGAGGAGGGTCATACGCATGACTGA
>SRR1151209_02858 cysteinyl-tRNA synthetase
ATGCTTAAAGTTTGGAATACGCTTACCAACCAAAAAGAAGAGTTTCATCCGTTGACCCCGCACATTGTGAACATGTACGTCTGCGGGCCCACGGTTTACAACTATATTCATATCGGCAATGCCCGGTCCGCCATTGCCTTTGATACGATTCGCCGCTATTTTGAATTTCGCGGCTACACGGTCAACTATATTTCGAACTTCACTGACGTGGACGACAAGCTGATCAATGAAGCCAAGGCCGAAAACAGCACGGTACCAGCGATTGCGGACAAATATATTGCGGCGTTCTATGAAGACACCGATGCGCTGAACATTGAACGGGCGACGGTGAATCCCCGGGCTTCGCACAACATTCCGGAAATTATAGATTTCATCAAAATTCTGGTGGATAAAGGCTATGCCTATCCTGTGGATGGCGACGTCTATTATCGGACGCGGAAGTTCAAGAATTATGGTGAATTGTCCGGTCAGAATGTAGATGAATTGGAACAGGGCGCCTCCCAACACGTGACGGCTGAAGAACTGGCGCGGAAGGAAGACCCCTTGGACTTTGCTCTGTGGAAAGCAGCTAAACCCGACGAGATCTCTTGGGAATCGCCTTGGGGCCAGGGCCGACCAGGCTGGCACATTGAATGCAGCGTGATGTCCATTAAGTACTTGGGCGCGACGTTTGACATTCATGGCGGCGGCCAGGACTTGGAATTCCCCCATCACGAAAATGAAATTGCCCAGAGCGAAGCGGCTACGGGCCACACTTTTGCCCGCTATTGGCTGCACAATGGGTTCGTCACGATTGGCGACGACGATGAAAAGATGAGTAAATCCCTGGGCAACTTTGTGTTGGCCCGGGATTTGATTCAAGACAATGATCCCCAGGCAGTGCGTTTTTTGATGGCTACCACCCAGTATCGGCGGCCGATTCGATACAGCCAGGCCAGTTTGCAGGATGCCAAGAATAATTTGGAGCGCCTGCAGACGGCCTGGACTAATTTGAACTACCGTTTTGCCAGCGCTGAAGCCGGTAATACCTCGGCAGTGGACGACCAGGCAGACGCGATTCAAACTGCGTTTATCACGGCCATGGATGATGATTTCAACGCCCAGAACGGGATGACCCATGTCTATGAATTGGCGAAGACCATCAACACCTATGTCGAGCAGAAAGTCGTGCGGATCGGCACCCTGGAACATCTCCGGGGCCTGCTGCGGGATTTGGCCGGTATCTTTGGCATTCAATTTGCTGAAACGGGCGAATTGCTGGATGCGGATGTGGAAAACTTGATTGAAGAACGCATTGCGGCCCGCAAAGCCAAGAACTTTGCCCGCTCCGATGAGATTCGTGATCAACTGGCTCAGGAAGGGATCATCTTGGAAGACACGCCTCAAGGAACGCGGTGGCACCGCAAATGA
>SRR1151209_02859 glutamyl-tRNA synthetase
TTGACTGACGGAAAGATTCGTGTCCGGTACGCCCCGTCTCCGACGGGTCACCTGCATATCGGTAATGCCCGGACGGCCCTATTTAATTATTTGTTTGCCCGCCACAATGGCGGCACCATGGTGTTGCGGATTGAAGACACCGACACTAAGCGGAACATTGAAGGCGGTACGCAAAGCCAGATCGACAACTTGCACTGGCTGGGCATCGACTGGGATGAGGGTCCGGATGTCGGCGGCGATTATGGTCCTTATCGCCAGAGTGAACGGCGGGATATTTATGACCGCTATATCAAGCAATTGCTGGACGAAGGCAAGGCCTACGAGTCTTACATGACTGAAGACGAACTCGCGGCGCAGCGTGAAGCCCAGAAGGCTGCTGGCCAAACACCGCGGTACGAAGACGAATACGCCGGGATGAGCGCGGATGAAAAGGCCCAAGCAATCGCCGACGCGAAAGCTAAGGGCTTAAAGCCGGTCATTCGGTTCCGCGTGCCCAAGGATCACACTTATGCCTGGGACGATATCGTCAAGGGCAAGATCAGTTTCGACTCCGATGATGTCGGCGGCGACTGGGTGATCCAGAAGCGGGACGGCATGCCGACGTATAATTTTGCCGTTGTAATTGATGATCACCTCATGGAAATTACCCACGTGCTGCGCGGTGACGACCATATTGCCAATACGCCGAAGCAGCTGATGATCTATGAGGCTTTTGGCTGGCAAGCGCCGAAATTCGGCCACATGACCCTGATCATCAATACCGAAACTGGGAAGAAATTATCCAAACGGGACGAGAGTGTCCTGCAGTTCATCGAACAGTATCGGGAATTAGGTTATTTGCCGGATGCCATGTTCAACTTCATTACGCTGTTGGGCTGGTCTCCGGTGGGCGAAAACGAACTGTTCACCCGGAAACAATTGATCAAACAGTTCGACCCGACTCGGCTGTCCCGCTCGCCAGCAAAGTTTGATGCCAAGAAGCTGGAATGGGTCAATAACCAGTATGTGAAGAAGACCAATCCCAGCACGCTGCTCGGCCTGAGCATTCGCAATTGGCAAGACGCGGAGCGGCTGCCTAAGGAAAAGATCGATCGTAAGACGCTGGAATGGCTGCGCGCCATCGTTGGGCTGTTCCAAGATCAGATGAGTTTTACCCAGCAGATCGTTAAGCTGTCCGAGATCTTCTTCATCGAGCCGCCCGCATTGACGGACCAGGCGAAGGTTGAATTATCTGATCCGCTTGCCCTGCCAGTCTTGCAGGAGTTCCAGAAGCGGATTCAGGAGCTGCCTCAGTTTACGGCGTATGCCATTCAAAATATGATCTATGATATTTCGAAGGATACCGGTGCCCGGGGCCGCAAGCTCTACATGCCGATTCGGATCGCCACGACCCGCGAGACCCATGGCCCGCAATTAGCGGAGTCCATTGAGATCTTGGGGATCGACAAGGTCAATAAACATTTGAATTTGACCTTGCAGGAAATGGCCTCACTGAGTACAAAACAAGATTAA
>SRR1151209_02860 twitching motility protein pilT
ATGAGAAAAAATATTATGCGGTTTGTTTTCGCCCTGGCTGGGGCGGCCATGGGTTATGCTATTTTTCCATATTTCTGGGCACTGCTCCGTCAGGATACCAACATGTTCTTGATGAACGGGTTAGTCAATGCCTTGTTAGGTGCAATTATTCTATTAGTGGTCGAATTGGCAGCGGAACCGACGCTAACGGCAAGTTTAAATAAAACAGAGGCTAAACTGGCGGCGCTATCGCCGTCGGTGCTGCTGTTCAGTACGCTATTCGCCACTGCGGGACTGATCATTGCCAATTTGATTTCTATTCCGCTGTACCAGACACGGAATGTGTTGACGAATAAGATCGTGCCTATCGGCTTAATGATTTTGATGGCCTATTTGGGGGCCCGGGTCGGCTCGCTGCGCGTGGAGGATTGGCGCAAGACGTTTGCCCGCCGGCGGACACCGGAACCGACCAAATCCGGGGAAGTCATGGGCCGCAAGGCAGATGATAATTTTCGCCGGTATAAGATTCTGGATACCAGTGTGATCATTGACGGCCGGATTCACGACATTGCCAAAACCGGCTTTATCGAGGGCACTTTGCTTGTTCCAGATTTTGTAGTCCACGAACTGCAGCTGATTTCCGATTCCGCTGATAATCTGAAGCGGGCTAAGGGTCGGCGCGGCCTGGACATTCTCAATGCCATGCGCAAGGACCCAGCGGTGCACATCGATAATTACGATGGCGATTTCGACGATTTAACCGAAGTGGATTCGAAACTGATCAAGTTAGCGAAGCTGATTGATGGTATTGTCGTCACGAACGACTTCAACCTGAATAAGGTTAGCCAATTTCAAAACGTGCCGGTGCTGAATATCAACGCCTTGGCCAATGCCTTGAAACCCCAAGTCCTGCCCGGGGAAACCATGACGGTGAAGGTGATCAAGCAAGGGACCGAACGGGCCCAAGGGGTCGCTTATCTGGAAGACGGGACGATGATCGTCGTTGAGGATGGTCAGTTCTACATCAATAAGATGCTGGATGTGATCGTCACCAGTGCCCTGCAAACCAGTGCCGGGCGGATGATCTTCGCCAAGCCGGCGCATCAAACCAAGAAGCTGAACAGCAGCGATAGCGACAATAAGTCGAAGAAACGGGCTTGA
>SRR1151209_02861 DNA repair protein RadA
ATGGTCAAAACAAAAAGCCGCTATGTCTGTCAAAACTGCGGTTATGTGTCACCGCAATATTTCGGCCGCTGCCCCAACTGCGGCGCTTGGAACCAAATGGTGGAAGAGGTCTACACCGCGGATGCCAACAAAAAAGTGGGCGGCAGCAGCAATGGCGTGCAAAGTCAGCCCGTTGCCCTGGATGCCGTTAATCTGGATGATAACAAGCGCATCCCAACGCACATTTCTGAACTCGACCGCGTCTTGGGGGGCGGGGTCGTGCCGGGGTCGCTGGTCTTGATCGGCGGTGATCCGGGTATTGGCAAGTCTACTCTGCTGATGCAGGTTTCTGGCCAGTTGGCCAAGACCAGCGGCGAACAGGTGCTGTACGTCAGCGGGGAAGAAAGCGCGAGCCAGATTCGCCTGCGGGCTGAACGGCTGGGGGTTGGCGGCAAGCACGTCGTCGTTTATCCGGAAACCGATATGGATTTGATTCGCCGGGCAATCAAAGAGGTCAAGCCGGGTTTTCTAATCATTGATTCTGTTCAGACGATGAATGAACCGGCCCTAGCCTCAGCCGCTGGCAGTGTCAGTCAGGTGCGGGAAGTGACCAATGAGTTGATGCGCATCGCGAAAAACGATGGGCTGACGACGTTTGTTGTTGGGCACGTGACTAAAGATGGGGCGATTGCCGGGCCAAAAATGTTGGAGCACATGGTCGATACCGTTCTATACTTTGAGGGGGACATGCACCATACGTATCGAATCTTGCGTGCCGTGAAGAACCGGTATGGGTCCACCAATGAGATCGGGATTTTCTCCATGGAAGAAGATGGCCTGCACGTGGTGGACAACCCCTCCGAGTCGTTTTTGGAGGAACGCTTGCCCCATGCGACGGGATCGGCCATCGTGGTGTCCATGGAGGGCACACGGCCGATTTTGGTTGAGATTCAGGCTTTGATGTCCCCAACACTGTTCGGCAATGCCAAGCGAACCACCACAGGCATCGACCACAACCGGGCAGCCTTGATCATGGCGGTACTGGAAAAGCGGGCGAATCTGCTGTTGCAGAATCAGGATGCTTATCTGAAGGCCACTGGCGGGGTGAAGTTGGATGAACCGGCCATTGATTTGGCGATTGCCATGGCAGTGGCCTCTAGTTACCAAGACGCCGAAGTCGATCCTGGGGATTGTTTCGTGGGCGAAATCGGTTTGACCGGTGAAATCCGCCGGGTGAATCGGATCGAGAGCCGGATTGAAGAAGCGGCCAAGCTGGGCTTCAAACGGATCTTTGTTCCGAAAAATAATTTATCCCGCTATAAGCCCACTGCGAAGATTCAGGTCGTGGGGGTCACGACGATCACCCAGTGCCTGCAACAGGCGCTGAAACCAAGTAAAGCTGCATTAGCAGGGAAAGGGGGCCGTGGCGCATGA
>SRR1151209_02862 deoxyuridine 5'-triphosphate nucleotidohydrolase
ATGGAAAAAAAACGCGGTTTTGCCGTGGTGAGTCGGTTTGCGGAGGCGGGGTTGGCTTTGCCTCAGCGGGCGACGCGGCATTCGGCGGGATATGATTTTACCGTGGCAGAGGATTTCTTGCTGCCGACGGTGTGGCGGATGAATTTTGTTCGGTTGTTTCGGCTGATTCGGAATGAGCATCCGTTGACTGATCGCGATTATGAGCGGGCTGAAGAGGTACTGAAGCCATATTTGGTCCCCACGGGGATCAAGGCTTACATGGGCGACGACGAGTATCTGATGCTGGCCAATCGATCCAGCAACCCGATCAAGCGAGGGCTGATCCTGCCTAATGGGGTGGGTATTGTCGATGCTGATTATTACAACAACCCCAGCAACGAAGGTGAAATTTTCTTTGCTTTGGTGAACTTTGGCGTACGGGACGTGGTCCTGCACCAGGGAGATCGAATTGGGCAGGGAATTTTCATGCCATATTTAACGGCCGATCAGGATACGGGGAACGACCGCGACCGGGCCGGCGGATTTGGTTCTTCCGACTGA
>SRR1151209_02863 beta-glucuronidase
ATGTTATATCCGAGAGCAACTGATAGCCGGGCGGTCGTGGACTTGTCCGGCGTGTGGCAATTTAAGCTGGATGACGGGCACGGCTTCGCTGATCACTGGTATGCCAAACCGCTGACCGCTCCGGAAACGATGGCCGTACCGGGGTCTTATAACGATCAGAAAGCGGATGCAGCCCACCGGGATCATTACGGCTGGGCGTTTTATCAACGGACTATCACGGTGCCGCCATTTTTTGCCGGGCAGCGAATCGTGCTGCGTTTTGCCAGTGTGACCCATACCGCCAAGGTGTATCTGGATGGGACAGAAATCGCAACCCATGAGGGCGGCTTTTTGCCCTTCGAAATTGACTTGACTGACCAGCTGACGCTGGGGCAGTCGGCGCTGCTGACCGTGGCGGTGGATAATCGGGTGAACTTTTCGACTCTGCCCGTTGGCAATGAGGACGGCGGCAGTATGTTCGGCATGGGCGACGGCGGTATTCCCAGCGTCAAGATCGCCCAGGAACATGCCAAGAAGCAGAATCAGCCGAACTTCGATTTCTTCAACTATGCGGGGATTCAGCGGCCGGTGAAGCTGTACACGACGCCTAAGGCCTATATTCGGGACATCACGCTGGTGCCGGATATTGCCGGGACCAATGGGCTGGTCCAGTATACCGTAACCACCCAGGGCGCGGGCGAAACGACCGTGGAAATTCTGGACCGGACCGGCCAAGTGGTGGTCCATGGCGGCGGGACAACCGGCACGCTGACCGTCCCGAATGCCCACTTGTGGGCTCCCGGCCACCCGTATCTGTACACGGCCGTGGTGACCTTCGGCGCGGATCAGTATCGCCAGACCTTCGGCATTCGTACGGTCCGGGTTGCGGGTACCAAGTTCCTGATCAATGACCAGCCGTTCTACTTCAAGGGTTTCGGCAAGCATGAAGACAGTCCGCTCCACGGCCGCGGCTTTGACGCCGTGTTCGATGTGGCCGATTTGAGCCTGATGCACTGGATCGGGGCGAACTCGTTCCGCACCAGCCATTATCCCTATGCGGAAGAAATGTACGACCTTTGCGACCGGGAAGGTATCGTCGTGATCGATGAAACACCGGCGGTCGGCTTGGGCCGCGGGACGAAAGCCGATGCTTACAAGACCATGCACAATGGCGAACTGCATCGGCAGAACCTGCGGGACATGATCGACCGGGACAAGAACCATCCCTGTGTCGTGATGTGGTCCCTGGCCAATGAACCGGAAACCGCCGCGTTTCCTCAGTCGGCTTACGATTATTTCCGACCCTTGTATGAGCTGGCCCATGAGCTGGATCCAGAAAATCGGCCAGTGACACTGGTTAACGCGCAAAGTGACTACAACAAAGACATGATCACTCGGACCATGGATGTTGTCTGCATCAACCGTTATTATGGCTGGTACAATCTTGGCGGCGATTTGGATGCCGCTTGTGAAGCGTGGAATATCGAGTTGGACTTTTGGGCCAAGCAGCACAAGCCGGTGATGGTCACTGAGTATGGTGCGGACACCGTGGAAGGTCTGCATGACGTGGTGCCGCGGATGTTTGATGAGGAATATCAGGCGGAATATTTCGACCGGATCAGTGCCCAATTTGACAAGCGGCCCTTCTTCATCGGGGAACAGATCTGGAACTTCGCGGACTTCAATACGATCCAAGGCCTGGTCCGGGTTGACGGCAACCGCAAGGGCGTCTTCACCCGGACTCGCCGGCCGAAGATGGTTGCCCATACGATTCGCCGCCGCTGGCATACGATCCCGGACTTTGGCTACAAGGCATAA
>SRR1151209_02864 cytosolic protein
ATGGACCTGCAAAATAAAACAATCGTCTTTTCTGGGCATTTCGAAACAATGACCCAGGATCAATTGGCCAAGTTGGCGTCGTTTGTGGGCGTTGTGCCCCGGGATACGATTTCGGGGTTGACGGATTACGTGGTGGTGGGCACGATGTACGGCGACCTATTCTCGCCGCCGATGACGGAGAAGCTGCAACTGGCTAACAAAATGGGCATTCCGTTGATCACCGAAGTGGACTTTCTTAATTACGTGGTGGACACGTGGCAGCGGCGGCTGGCGGCGATGACGGTGAAAGATCAGATTCATACGCTGCATCTGGGCCAGCGGATTTAG
>SRR1151209_02865 DeoR family transcriptional regulator
GTGTATCAGCAACAACGTATTCAAGCACTGATCGAATGGCTGCGCCGGGACGGGCAGCTGACCACGAAACAAATCATGGCGAAGTTTGCCGTCTCCCGGGAAACCGCCCGGCGGGACATGATGGCCATCGTCAAGCTGGGCCAAGCCCAGCGCACCCACGGGGGCATCGTGCAAACACAAAAGGCCCTGCCGGTACTGGACTACCTGGAGCGGCAGCACCAGTTTTCAGATGCCAAAACGGCCATGGCCGCTGCGGCCCTGCCGCTCATTGAACCGCACATGACGTTGTTTTTAGACGTCAGCACCACCGTTCTCGCCCTGTGCCAGCAGCTCCACGAACCCGCCACCGTCTTCACCGACTCCCTGGATAACGCACTGACCCTGGCGACCCATCCAAATATTGACCTGCATCTGCTGGGCGGCCGGTTCGAAGCAAAAAATCGACTGTTTTACTCCCGGGACAGTTTGACTACCCTAGCTAACGTCACCTTTGATATTGCGGTACTGGGCACCGCCAGCCTGGATGCTGCGGGCATCTACGTGAATGACGACAATGACGCGGCAATGAAACGCCAAGCCACGGCCCAAGCGCGGAAAGTAATCGTGTTGGCTGAACACCAAAAATTTCAGAAGCAAACCCCCTACTTGTCGGCACGCTGGGCGGACATTGATCTGCTGATCACCGACCAAGCGCTCACTGCTAATGAAAAAGTACCCAGCGATGTCTCCGTGATCGTTGCCGGACAAAACGCCTAG
>SRR1151209_02866 haloacid dehalogenase
ATGATCAAGTATCCATTAGTGCTCAGTGATATTGATGGCACCCTGGTTGATGATAATGGTGCAATTCCGGACCATGTCGTTCAGGCCGTGCAAGCCTATAGTCAAGCGGGCGGGCATTTTGTCCTCGCCTCCGCCCGGCCGCCGCTGGCGATGGTCGACATTGCCAGCCAGCTCGACCTGACGGTTCCGCTGGTCACCCTCAACGGCAGCCTGATCGTCACCTATGATCCCCATGCCGGCAGTTGGGATATTCTGGCTGAACAGCCGCTGTATAGCCGGGTGCCCATCCAGCTGTATCAAACCATCGTCACCCACCAGCTGCCTGTCAGTCTGAACATTTACTCCGGTCTGGCCTGGATCGCCAACCAGCATGACCAGTGGAACGACCAGGAAGCAGCCATCACCGGTACCTGGCCGCTGATCAAGCCGCTGGCCCAGCGGCTGGCCACCGGTCTGACCGTCCACAAGATGCTCGCCATGGCCGCCCCCACCGTCATCGACGAACTCACGACGATCATTGCCGCCCATCCAGAGTGGCACGTCAACGCCAGCCGGTCCAAAGATACCTACCTGGAGATCAGCGACGCCAGCGTCTCCAAACAGAGTGCCCTCCACCTGCTGGCCGACCATTTCAACATTTCGTTGGCTCAAACCATGGCGATTGGTGACGGCGACAATGACCTGCCCATGCTCACCACCGCCGGCCTGGGTATCGCCACTGGCAATGCGCGCCCGACCGTCTTGGCGCAAGCAGCCCAGACCGTGGCCAGCAACACCGACGGCGGTGTCGCCGAGGCGTTGAATGACTATGCGCTGGTCCATTAG
>SRR1151209_02867 hypothetical protein
TTGCAACAACAGCGTCATCATTTGAGAACGAAGGCAGTTACAATTTTTCTGATTAGTGATCTGCTAATTGGTATGATCATTCTTCTCATGGCTAAGCCAACACTGGCGATGGCTGCGAGCGGAGGCTCCTATGAGCCGTCAGGTACGACTGCCAGTGGAGCGAGTATCACTACTGGGGATGGGGGTGACTGGGAAAAGAAAAATGCTGAATCACCGGTCACTATTACTTTCCCCAGTCCCAATTCCAGTGATAAGAACTACGATCCTAATTATGATGTCGCTTCTTACGGTAAACCCTATTACAGCATCAACTACGTGGACCGAAACGACTTCTTGTCATTCTCTTCGCCCGAGCGCGCCAACAAGTTCAATACCGACCCAACGACTGAATTCAATAGCCAGACGGACTTTACTTACAATCCCGGGAATCTAACCAGCAAAATGGACGCCACTAATAAGCTGAAAAGCGGCGAAACGTATGACAACGGGTTCTTAAAGATTTCAGGCAATGTACCGATTCACGCCCAATTGGCCCAGTCGAAAACCACGGTTGATTCCGCTATGGCTGGAAACTGGGGTGTCATGGCGCGCATCACTTTACCAGCGGGGGTTGATGCCAAGTCATTGGGCGGTGCAGTTGACTGGAGCGGGTCCTATTTCTATCTGAACCTGCAAACTATTAAAGCCCTGGGATTTCAATTGAAGAACATCAACTTTCCATTGCAGTTTGCCCATCATGTCTATCTTGATCCTGACCACGCCAATGTCTTTTACCTGAAAGTTAAGGGTATTCCGTTTGGTTACACGGCATCTGATAATGGTACGGCGGCAACAATGAAATTGCTTGACAATGCGGATACCCGAGATTATTTGAATAACGTTTATCTGGACAGTTCTGGTCAACCGTCTACATTGGATCAAATTGGCAGCCCCAGCACCATAGATGGGCACCCCAATTTTCCTACTCAAACTGGTGGTAAGAGCACAATTTGGGATCCATACTACGGATTGGTCAAGGATACATTTTCCAGTTGGTGGCCGGTTAATCAATTTATCGATGGGATTACGAGTCTCTTTTCTGGCAGCCCCATTTATGAAACTGGCAGTGTGGGTCGTGCGATTACTTTATTAAATGCGGCGGATCCGAGCGATAATCGCTCGTTGGTAAAGGTAGACGGGGGACTCATAGCGGAGGCTATGAGCGCGCTGAGCACGTCCGTTGTTAAAGTCATATCAGGTTACTTCGTTAGCAGCGGCTTCTACGGCTCTGCCCAAATCAATTTCACCTTTGACATGTCCAAATATCGCGGCAGCTCAGACACTGCGCTTCAATCTTTAACGACCAACCGGCTATTTGCGGCACCCTACAAAGATGGGACATTTAACACTGGGGATACCAGCGGCAGTGACGATAGCAATCGACGTTCGTTCAGTATTACCATGTTCAACAGCAACCAACTGGCTGATCCGGACAATGTCATCGCTGGTATGGATCGGACTGATCCGACAAAAGACACCGACTTGATGAATCAAATACAGCCTGGTAAAACACCGATGGATCATGCGTTAATCAAAAAGAGTGAAATAAATAATGGGGTCGAATTCCCTGTCTACACGAACTTCACCTCGTGGACCGCGGCCGCAGTGCCTTACGACAAGGACACAACGAACGACACGCTCCACTCTTCCGGCAATCCAATTGGTGACGATATGCGGTATCGGACGGCGACGCCGAATCCGCGAACCGATGGGGCTTTGTTGAACGATGGGAGCAATATCTCCGTGACCAAGGATTGGGATCACGCAGGCCACGCTCCGCAGTTTTCGGCAGATAAAAAGACGCTTCAGAAAGCGGGATCAATCACGCCTGAGCGGTATGCCAACGTCTATGAAGTGTATGATTACTCCCAAAGTACGCCAACAGTTGCTCCGCATCCCATTTACTCGGCTGATGAACCATCTCTGAAGCTGGCTGTGACGAATAGCGGCAGTGAGAACATTGGCACGGGTTATTCAGGTGAGGTCTCAAAAGATTTTTCTCCTGGCCAATGGATTTACAGCGGCTCGCTCAATGGCATCCCCATTGCCAGTGCTAATTTGGGCTTGAACCAAAGCCTGACACCGAACATGGACCTGTCCAGCAGTCCGTTCCTCATTGTGCCCAAGACCAGTGTAACCAATGGTCAGCATCAAACCTATTCGTTGGGGAGTTGGCGCGATGGTTTGATTATTAACAACGACACCATGACTGCCGCGTTAAACGGGTTCGATGGTACAAAGTACGGTACTGCCACGGCCAATAATTTGGTGACGAGTACCACGGCCAACAAGGTCGGTCTGGGCTTGGCGGATACGTACAACTATGGCTTTGCCCAGAAGGGTCCCTATGGTGACATCACGCCGGAGTTCAAGATGCCGCCAGCAGCGACCACGGATCCTGTAACTTTCTATTCCGGGGACTTCACGTTATCCCGGCAGGATGATATTCCCGTGCATATGCCGACCACGCAGCCGACGATTGGCAGCACCCTGGGTACTAAGAAAGCCTCAACACTGATTGCGCTGATCAATAATGCCCATGCGTCTTACACCATTACGCGCAGTCAGGATACGCAGTATGCTTATGCCAACGGGCAAACGATCACCGCCACGGGGGTAGTGAAAAATGTTGGTACAGATAGCAGCCGGACTAAATTCGTTGTCGTCGTGCCCACGCCAGCCGGTCTGACATTAGCCGATTATAATTTTGGCGCAGCAAACGGAACGGTAAGTAAGGATACCAATATTACGGCAAAACTCGGGGGTAACGCTGCGGCTTATGATGTCACGCTCACCAATCCGCTCCCTGTTGGCCAGACGTTCACCTATACTGCCAAGTATCAGGTATCTGATATCAGCAAGATGCCCAGCAACGGCACGCCGTTCCAAGATCTGTTGCTGGATCCGGATACCCTGGATTACTTGGGCGAATCCAATACCAATTGGCTCTATCCGGCGGCGTCGCCATACTTGCAAACGGTGCCGAGTTTTGACTTCGGCAAACATCCGCAACCGGGCAGTACGGTTACGTACGCGACTGTGGCCGGCAACAAACAGACCTTTGCCGTGACTGATCCCGACACGGCCAGCACCGTGAATAATTGGTCGCTGTTCGCCCAGCTGTCCCCGTTCGTTAACGGCGACAGTAATCTGTCCGATTTGGCGATGACCTTCGGTACCCCGAATGGGGAAACTAAACCGGCTGATTATGATGCCAATAAAGCAAACAATAAAATGACCGACGACGATTGGCTATACTTTAACCATACGGCGAATACCGTACCGTCCAATCAGTCGATGCAGCGGTTATATCGTTTGGATACCAGCCTGGAGCCAACGGTTGATCCTAAAAATGCGGCCTTAGACTACAGCGGCGGCAACGGAGGTAAGGGAGTCACACTCACGGTGCCCGCCAACGACGATGCGGCCATCAAGTTGGGCAAGTACAACGCAACGATTACTTACACGCTGGATTCTAACAAGTCGACAATTAATTAA
>SRR1151209_02868 membrane protein
GTGTTAGGAAGAAATAAGCAGTTGTTGAATGCCATTTTAACCGCGTTATTCGCGGCCATTATTTATATCGGAATTTCTGTTTTACGGATTCCCCTCCCGGCGATCGTCGGCCGGCCATTCATTCACTTCGGCAATCCCTTGATGGTTATTGCCATTCTATTTCTGGGCGGTGTCTGGGGCGGCGTGGCTGCCGCCGTTGGCCTAGGCGGCTTCGATATCCTGAATGGGTATGCCGCTACGAGCTGGCTGACGGTGCTGGAAGTGATCGTGATGGCGATCGTGGTCAGTGCGATTATGCGCGCGTTCAAGCACGATGATCGGCCCAGTCATATTATTACCGTCGGCATCGCTGCCGGGATTACCAAACTGATCACGTCTTTTCTGGCGACCGTGGTTGAGGGCCTGATTGCCGGGATCACGTTGCAACCGGCGATCATCGCCTCGTTTCTCAGCCTAACCGCGACAGCCATCAACTCCGTGGCCACGGCGATTATTGTGCCGATTCTGTATTTCTTGCTGCGGCGGGCGTTTCAGGCGGCTCGGCGGCAGTAA
>SRR1151209_02869 gluconate 5-dehydrogenase
ATGACTATTGCCATTATTACTGGGGCGTCGTCGGGCCTGGGCCGGGAATACGTCCGGGCTGTGGCCGAAATGATGCCCATGCTGGACGAAATCTGGCTGATTGCCCGGCGCAAAACGCAATTAGTTGAGCTGGCCCAGTCCATCGCTGGCCGCCGGTTCCGAATTCTGCCTTACGATCTCACGGAGCCGGCAGCGCTGCGCAAAATGCAGGGGCTGCTGGCTCGGGAAAAGCCGCAGGTGCGGTTGCTGATCAATGACGCCGGGGCGATGCATACCGGGCCGGTGGCCGCCATGCCGATTGCCAATCAGCTGGAACTGATTGCCCTGCATGCCGTCGCGCCCACCGTGTTGACCCGGTTGGTTTTGCCCTATATGGCGCGGGGTGCCGCCATCATCAATGTCACCTCGATTGGCGCATTCACCCCGTCACCGAACATGGTGGTTTACAGCGCCAGCAAGGCCTATCTGTTGGCGTATACCAAGGGTCTGCACGCTGAACTGCGCTGCCAAGGAATCCATGTCTTGGCGCTGGCGCCGGGCTTGATGCGTACGGGTCAGTTCAGCAGTACGGCACCCAGCCGGTTCAACATGGCGGCCCACCTGCCGCTGCTGAACATGGCCAAAGTCGCTCGCCGGTCGCTGACCTTGGTTCAGCGGGGCCGCATGGTTTACACCCCGCACCCGTTCTACAAGGCCTTCAGCCTGGCCGCTGCCCTGATTCCCGATGCGCTGCTGACCTACTTTGATCAAGTCTAG
>SRR1151209_02870 pyridoxal kinase
ATGGCCGATCAATCAATTATTGTGAGTCAAGACTTGTGCGGGGCTGGTGCAGTATCGCTGGGCGCAGCGCTGCCGATCTTGGCTGCTCTAGGGCTGCGGCCCCGGGTGCTGCCCACAGCATTATTATCGACGCATACCGGTATCCCGGACAATACATATCTGGATCTGAGCGGGCAGATTGCACCGATTTTGCGTCATTGGGCGACGGTGGCGCTGGATATTGGCGGGCTTTATCTGGGCTATTTAGGGCCCCAGGCCCTGGCCGTGTGGCGGGAACAGCTGCCGCGGCTCGCGGCACTGCCCCTGCGCGTCGTGGACCCCGCCATGGCTGACGGTGGCAAACTGTATCGCGGCTTAGACGCGGACTACGTCACCGGTATGCGCAACTTGCTGGCCCACGCCACGCTGGTCACGCCGAATGTGACCGAAGCCCAGTTGTTGTTAGGGAGAAAGCCGACAACTGAACCGGTGACGGCGGCAGCCGCCCAGGAATTAGCCGCTGCCTTTTTTGCCCAGTTTCAAATTCCCGTGGTATTGACCGGGATCGCGTTAACCAGCAGCCGTATCGGTGTTGCATCAGCGGCGCAGCAGACGGTTCAGATGCAAACCACGGAAGCACTGCCAGGGCATTACTTTGGTACCGGTGATATGTTTGCCAGTGTCTTGGCCGGCCGGCTGCTCCAAGGTCGGCCGCTTCAGACGGCCATTGCCAGTGCCATGGACTTCATTGCCCGGGCAATTACCGTAACGAATCAAGCCGCTAAAGCAGATAATCCGTTGCAGGATGTCAATTTTGGCCCGGTCTTGCCGACCCTGGTGGCGGCCAGCACCCGAGCAGAGAGCGAGGAGCGACCATGA
>SRR1151209_02871 aryl-phospho-beta-D-glucosidase
ATGGCATTAGCAGATTTTCCGCACGATTTCTTATGGGGCGCCTCCACGTCGGCCTATCAATACGAAGGCGCCTATAACGAGGACGGCAAAGGCTTGTCGGTTCAGGACGTCGCCACGCCGCCGGCCGGCACGGCCAATTTTCAACTGACCAGCGACGGCTACCACCGTTATCCGGAAGACTTCGCCCTGTTTGGTGAAATGGGCATGAAGTCCTACCGTTTCTCCATCGCTTGGACCCGAATCTTTCCTAACGGTACTGGCGAGGTTAACCAGGCGGGGCTGGATTACTACCAGCACGTGCTGGACGAATTAAAGAAGTACCATATTGAACCCGTCGCCACCCTGTTCCACTTTGACCTGCCTGCGGCCTTGCAAAAGCAAGGCGGCTGGGCTAATCGGGCGACGATTGAGGCCTTCGTGAATTACGCCAAGGTCGTGCTGGATCATTTCTCACCGCAAATCACTTACTACCAGACGATCAACGAGCAAAACATGCTGTTCCAAGGCGCCGTCTTCGCAGCCTTCAAGGGCCACGGGACGTTCAAGGACGCGGTTCAGGCCAACCACAACATGTTCGTCGCGGCGGCCAAGGTGATCACCTACGCCCATGAAAACCATCCAGAAATCAAGATTGGGCCGGCCCCGAACCTCGTGGCGATCTATCCGCTGACGGCGCGCCCGGGAGACGTGTTGGCGGCTAACACTTACGACTCTATACGCAACTTGCTGTTCGGCGATGTCACCATTCTCGGCCGATACAATCACGTGGCCTGGCACCTCTTCGAACAGTTCCACGCTGCCCCTGACCTGGCACCGGATGATATGGCCACCATCGCGGCCGCCCACCCGGACCTGCTGTACTTCAACTACTACAACAGCGAAACCGTTCGGGCCGCCGATTCTAGCGATATGCTGCCGTTTAAGAAAGTCCTCAACCCTTTCATTAATCAGAATGAATTTGGTTGGGATATTGACCCTGAAGGTTTCCGCGTAACGCTGCGCCAACTGTACGATCGCTATAACCTGCCAATGATCATTACCGAAAACGGCCTGGGGGCCCACGACACACTGACGGATGACGGCCAAGTCCATGACCCGTATCGGATCAAGTACTTGAACGATCATATTTACCAAATGCGCTTGGCCATTGGCGAGGGCATTCCGGTGATTGGTTACCATCCCTGGTCGGCGATTGATCTGGTGTCGACCCACCAAGGCTTCGTGAAACGATATGGCTTTATCTACGTTGATCGTGGCGAAGAGAACGACAGCGGGACATTGAAGCGGTATAAGAAGGATAGTTTTGCCTGGTATAAGGACGTGATCGCCCATAATGGGGATAATGTGACTGGGCCAATGAAGAAGTGA
>SRR1151209_02872 lipoprotein LipO precursor
ATGCACATGAAGAATGTGGCAAAAATGGCCTTTGCGGCCATGACTGCCGTCTTGCTGCTGGCGGCCTGCGGTACGGGCGGCAACAGCCAAAGTGGCAGCGGCAAAGTGGACGTCAAGACAACTGGTTTTCCCATCGTTAGCAAAAATCTTAAGATGACGATGATGGCCCCGAGTACAGGTGCCGCTAAGTGGGATGATATGGCGGTCTTGAAGGATTATGCTAAGAAAACTAACGTCACCTTGAAATACAATACGCCGCCGATGAGCGATTTTAGTACCAAACTCAACCTGGCGTTTGCTTCCCAAGACTTGCCGGATATCATCTATGCAGCCAGCAGTGACAACCTGACCGCGACTAAGGAAGTGACCTATGGCACGAACGGGCAATTACTACCGCTGGAAAAGCTGATTCCCAAGTATGCCCCGAATTTTAATGCCCTGATGAAGAAGAATCCAGATATCCGCCGGTCGATTACCGCTCCTGATGGGCATATCTATGCCTTGCCCATGGTGGCAGTCAATGCGTATGCATCGTGGCAAAATAATCCGATGTGGTACAACGGCGCTTGGTTAAAGAAACTAGGGATTAAAGAACTGCCAAAGACGACGGATGAATTCTACGACTTGTTGATGAAGTTCAAGAATGACGATCCCAACGGCAATGGTAAGCAGGATGAAATTCCATTGAGCGATACGAAACTGGCGAGCATTCGGACGTGGCTGATGGCAGCCTTTGGTTTGTTAACTCAGGATGTCCAGAATGACGGGAACAAAGTGTTCTATACGCCAATCACGACTCAGTACAAGGCATATCTGACTTATATGCATAAGTTGTATGCGAATGGTTTGCTGGATAAGGATACCTTTGCCCAATCAGATGATCAGCGCAAGGCGAAGGGCCAATCGAATCGACTCGGGGTTTATGCAGACTATTTCTCCTATTTCACTTCTGGTAAGACACCAAATCAAGCAGTAGAAGATCCGATGTGGCAGCCGCTGACCAGTCCGGAATCCACCAAGGCGGTTGTGCCTCTGAACAATGGCCTGAATCGCGGGAACTTCGCTCTGACTAAGAACAACCCATCGCCGGCGGCTTCCCTGCGCTGGGTGGACTACTTCTACAGCAAGAAAGGCAGCGACTACCTGAATAATGGTCCAGAGGGTGTTTATTGGGTCTATGCCAAGAACAAAGAAGGCAAGAAAGTTCGGGTACTGGCCAAAGGGATTAATGAATCAAATTCTGAGGACAAGCGCAGCAAGATTACGCCGGATTATGGTTTGACGACTCCGTCGTTAGTCTTCGATAACGATAGTGATCCAGTTCTGGTTTCGGCCAATGCGCCCACTGGCGGCGGTTTGAACGCGTTTTTGCGCAAAGAAACTAAGGATAAGATTTTACCCTATGCTAAGCAAGGTTTCCCGATGGTTTATCTGACTTCCAGTGAGCAGGATTCAATCAGTTCTATTACCAACGATTTGAAGACTTACGTGGAACAATCTGAGGCTAAGTTCATCACGGGTGTTACGCCGTTGAGCGATTGGGACAAATACGTTAGCACGATCAAGGGCATGCATGTGGATCAATACGTGAAGGTTTACCAAGCTGCTTATGACCGTTGGAAGAATGCAAAATAA
>SRR1151209_02873 Mn/Zn ABC-type transport system permease protein
GTGATCAGCCATTTTTGGACCGATTTGCAGTCCTTTCATTTCTTGCAAAATGCCCTGTTTACCTCGGTAACCATCGGTATCGTCGCCGGCGTCCTGGGCAGTTTCATCATCCTGCGCGGCATGTCGCTGATGGGGGACGCCATCTCCCACTCTGTCCTGCCCGGCGTCGCCGTCTCCTTTCTTATTGGTATTCATCCGGTCTTAGGGGCCATTGCCTTTGGCATTTTTGCAGCCTTGTTAATTACGACGATCCAGCAGCACAGTGTTATCAAGAGCGACACCGCCATCGGCATCACTTTCAGCACCTTTCTGGCCTTGGGGGTCATCCTCATTGGCCTGGTGCACACGACCACCAATTTATTTCATATTCTCTTTGGCAATGTACTGGCCGTGCAGGACAGCGATATGGTGCTGACGATCATCATTTCGCTGATCGTGCTCGTGGTGATCCTGCTCTTTTATAAACAATTGCTGCTGACCTCATTTGATCCGGCGGCCGCTCAAGCCTGGGGAATGAACGTGGCCGTCTACCATTATCTCCTGATGATCATGCTCACCTTAGTGGCGGTCGTCTCGATGCAAAGCGTGGGCACGATCCTGATCGTCGCCCTGCTCATCACCCCGGCCGCCACGGCGTACATGTTCGTCAACCAGCTGCACACCATGATCTGGGCCGCCGCGGCCATTGGCGGGACTGTCTCGCTAGTGGGCCTGGTTCTTGGTTATTCCTTTAATATTGCCGGATTTAAAATTGAAGTGCAACACCGATTGAGTTAG
>SRR1151209_02874 Mn/Zn ABC-type transport system ATP-binding protein
ATGTTAATTAGGCTATATGAACTAGTTGTGGAGAGGAGTGATTTTATTTTTTCAGTTGCCCATGTCTCAGTTGCCTATCAGGCCGGTCAGCGCGTCCTTGATGATGCCACCTTTGCCTTTCCTGCCGGCAGTATTAATGGCCTCATCGGACCAAACGGGGCCGGCAAATCCACCTTGCTGCGGGCCGTTCTGAACATGATTCCCCATCAAGGGCAGGGATACTTGGATGATATCCCCCTCGCGGCAGTCGCCAAAGACATCGCGTATGTCGCCCAGACCAGCCGGATCGATCTGACTTTTCCCATCACCGTGCTGGGGTGTGTCTTATTAGGTACGTATCCCCGCCTCGCCCTGTTGCAGCGGCCAAGAGAAAGGGAACGCCGCGCCGCCCGCAGCGCCCTAGCCGAAGTGGACATGCTGGATTTCCAGCAGCGGCAAATCGGCCAATTATCCGGCGGTCAGCTGCAACGGGTCTTCCTGGCGCGCTGCCTGGTCCAGCACGCGCGACTGATCATCTTGGATGAACCCTTTGCCGGGATCGATGCGCACAGCGAACAGGTGATGATGGCCCTATTGCGTACTTTGGCGCACAACGGCGAAACGATCCTGATGGTGCACCATGATCTCAAGACCGTCCCGGCGTACTTTGACAATGTTGCATTAATCAACCGGCGGGTCATCGCGGCTGGCCCCACCGCCACCGCGTTCACCGATGACGCGCTGCGCCAAGCGTACGGCCTAGCGGATGTGGGAGGCGATAGGCAGTGA
>SRR1151209_02875 ArsR family transcriptional regulator
ATGAAAGTAGATGTCTCACAGGAAGCGGTGCCGCTGTTCGCCGCCCTTGGCAGCAAGACCCGGGTGGCGATCATTCAGCTGCTGGCCGAGAAGCCGGCCAACGTGAAAGAAATGGCCGCCACCTTGCATTTAAGCAACCCGGTGGTGGCGAAACATGTGGATGTGTTAGAAAATGCCGGCCTGATCAAGACCGAGCGGATCCCCGGCAAGGCCGGTTTGCAGAAACGCTGTACCTTGATCGTGGAATCCTTGGAGGTGGCCTTCCCGAAAAAAGCCATCGTCCCCTATGGCACGTATCATTCTTCGCTGCCCATCGGTCAATACACTAACTTCAAGGTCACTCCGCCCTGCGGCCTGGTCTCCACTACCCATATTATCGGCGAATTCGACGATCCAAAATTCTTCATGGACCCCGAGCGCTTCAGCGCCTCCCTGATCTGGTTCACCAGCGGGTACGTGGAATACACGATCATGAATCCGTTGAAGGACGGCCAGCACTTGAAGATCGTGGACATTTCCATGGAACTGGGATCCGAATTCCCCGGCGGCAACAACAACTGGCCGTCAGACCTGACCTTCTCCCTCAATGGCACATCCCTGGGGCAGTGGACCAGTCCCGGCGACTTCATTGATAAACGGGGCAAGTACAACCCCGACTGGTATTCCTCCGGCGTCAATCAGTACGGCACCCAGGTGAATCTGCGGATCACCGACATGGGCTGCTGGATCAACGGCCACGCCACCAGCTACAACACTTTCGCCAAGCTGCGGCTGCTCACCGCGCCGCTGTGGACCTTCCGGGTGGCGGCGCCCAAGGACGCCGACCACGCTGGGGGCTGTACCCTGTATGGCAAGGGGTTTGGCAACTACGATCAGAATATTGAATTTAATTTTTCCTACACACCGGCACCTTAA
>SRR1151209_02876 alpha-N-arabinofuranosidase
GTGAAAAGTAGCATCACTTTAGATAAATACGCGCCCGTCGGCCAGATCGATGAACGCATCTACGGCTCCTTCATCGAGCACCTGGGCCGGGCGGTGTATACCGGCATTTACCAGCCGGGCCATCCCAGTGCCGACGAAAACGGCTTCCGCCAAGACGTTATCGATCTGATCAACCAGCTGAATGTGCCGATCATCCGCTACCCCGGGGGGAACTTTGTCTCTGGGTTTAACTGGGAAGACAGTATTGGCCCAAAGGATGCGCGGCCCCGCCGGCTCGATCTGGCCTGGCAGACGAGCGAAACGAATCAGTTCGGCCTGCATGAATTCATGCAGTGGCTGGATAAAGTTCACGCCGCGCCGATGATGGCGGTGAACCTGGGGACGCGGGGGATCGATGCGGCCCGCAACTTGATTGAATACACGAACTTCCCCAAGGGCAGCTATTATAGTGACATGCGCCGTAAAAATGGCGCTGAAGCACCCTTTAACATTAAGACCTGGTGCCTGGGCAACGAAATGGACGGCCCGTGGCAGATCGGCCACAAGGACGCCGTGGCTTACGGCAAGCTGGCCGACGAAACGGCCCACGCGATGCGCATCGTGGACGACACGATTGAAACCGTGGCCTGCGGCAGTTCGGCACTGACCATGCCGACGTTTGGGTCCTGGGAATCCACCGTATTGGATATTGCCTACGATCAGGTAGATTACCTGTCGCTGCATCGGTACTACGGCAACCAAGACAATGATACGCCGAATTTCCTGGCCCAATCGCTGGACTTGGACGACTTCATCAGCGGCGTCGTGGCCATCTGTGATGCCATCAAGGCCCGCAAGCACAGCAAGAAAACAATCAACCTGTCGCTGGACGAATGGAACGTGTGGTACCACTCCAACGACCATGACGCCCAGGATGCCAAGTGGCAGGAACACCCCCATAAGTTGGAGGATATTTACAACTTCGAAGACGCGCTGCTGGTCGGGTCCATGCTGATCACGATGCTGCACCACGCGGACCGGTTGAAGATGGCCTGCTTGGCGCAATTGGTGAACGTCATTGCCCCAATCATGACGGATGAAAACGGCGGGGCATGGGCCCAATCGATTTTCTATCCCTTCATGCAAGTATCGACTCTGGGCAAGGGTACGGTGCTGACGCCGATCGTCAAGAGCGAGACTTACGGCACGAAGGAGTTTGCTGCGGTACCGTATGTGGACGGCGTCGCTGTTTTGAACGATGCCGGCGATACGGCGACGGTATTTGCCGTCAATAAGTCGTTGGATACGCCCCAGGAATTCACCATCGCCGCCGGCGACTTCCAGTTCGACCAGGTGACGCTGAGCAGTCAGTTCGCGGGGTACGGCTTAAAGGAAACCAACGAAGACGGCCATATGCGCTTGGCGGATAACACCAGTTATTACCTGGCGGATGATGGCGTCCACGTGACCCTGGCGCCGGCGTCTTGGAATGTGTTCCAAATCAAAGTGCAGTAG
>SRR1151209_02877 beta-galactosidase
ATGCAACCCAATATTCAGTTCGGGGTGGATTACTACCCTGAACACTGGCCCCAGAGCCGGTGGGAAACAGACTTTGCCATGATGCAGGACATGGGGATCGATGTGGTCCGGCTGGGCGAGTTTTCATGGTTCAAATTGGAACCGGCGGATGGTCAATTCGATTTTGGCTGGCTGGATGACGTGCTGGCCTTGGCGGCTAAACACGATATTCACGCAGTCCTCGGTACGCCCACGGCCGCGCCGCCGGCCTGGCTGATCGCCCAGCATCCGGACATTCAGCCGGTGGACCGGGAAGGCCGGACCCGGTATTTCGGCGGGCGGCATCATGATTGCCAGTCCAATCCGATTTATCGGGACTATATCGCCCGCTTTGTCCGCACTTATGCCCAGCACTTTGGCAAAAATCCCACAGTGATTGGCTGGCAGGTGGACAATGAACTGGGCAATAGTCATGGAGGCCTGTGCTACTGCAAATATTGCCAGCGGCATTTCCAGAAATGGCTGCGGGAAAAGTATCAGACGATTGAGAATCTGAATGACAATTGGGGCACGGCTTTTTGGAGTCAGGGCTACCAAGACTTCAGTCAGATTCAGGCGCCCAAGATCACCGTGACGGGTGAGAACCCCAGCGAAATGCTGGACTGGAAAGAATGCCATTCAGGCCTGATCAACGAATTCCATGCCTATCAGGCTAAAATCATTCGCCAGTATTCGCCGGACCGCTTCATCACCCACAATATGATGGGCTTTTCCCCCGTTGTTTCCTATTATAATCTCGGTCGGCAGTTGGACTTCGCCAGTCATGACCAGTATCCCAGCGGCCATTTTCTGGCGGATCAAAACAGCTTCCGGGGTGATCGCTGCGCGGCGGAATTGGATTTCATCCGCGGCGTGAAGCAGCAGAGTTTCTGGATCATGGAGCAGCAGACGACGATCACCGGTTGGGAAGTCATGGGCCGCCTGCCCAAACCCGGTCAGATCCCGCTGTGGTCAATGCAGTCGGTGGCCCATGGCGCCGACGCCATCGTGTACTTCCGCTGGCGGTCGTCCGCGCTGGGTACGGAACAATATTGGCACGGTATTTTGCCCCATTCCGGTATTCCGGGGCGGGCTTACCGGGAGATTCGCCATTTCATGCGCCAAACCAAGCCGCTGCTGAAAGAAATCAACGGGACGGTGCCCCGGGCCAAAGTGGGGATCGTGTTCTCCTATCCCCAGGACTACGCCATTGACATTCAGCCCCAGCATCCGGACATGACTTATGTGGATACGCTGATGACGTATTACAAGGCGCTGTACCGGCGCAATGTCGCCGTGGACTTCATCCAGGATACCGCTGATTTCAGCCAATACGAGCTGGTCATTGCGCCCTTGCAGTACCTGATGACGCCGACCTTGGCCGACCGCTATGCAGCGTACGTCCAAGCCGGCGGGCAGCTGGTGCTGACGATGCGTACCGGGGTCAAAGAAGCAAATAACCTGTGCATGACCGATGCCGCGCTGCCGGGCGAGACGCTCGGCCAGGTGTTGGGCCTGACCGTGCCGGAATACGACTGCCTGCGGGATGCGGCCGTGGTCATTGATTGGGCCGGGCAGCAATACACCGGCACTCACTGGGCGGATTTGATCGCACCGACTACGGCGGAGCCGTTGGCGATATATGGATCGGAATTTTATGCCGGCACTCCGGCGATCACCAAGAATCAATACGGCCAAGGCACGGCCTACTACGTGGGTACCGAATTGACCGACGCCCTGGCGGACCGCTTGGTGGCGGGGTTGTCCACTGTTGCGGCCGAGACCATCGCGACGCCGGCGGAGGTGGAAATCGTCCACCGGGACGCGGCGGCGAAGCGGTACTATTTTGTCCTGAATCATACCGGGGAACAGCAGAATATCACGATTCCGGTTGGCTGGCAGGCGTATTTCTCGGATCAGGATTCTGGGCACTTGGCTCCTTACAGTTATCAAGTATTTACGGAGGAAACTAATTAG
>SRR1151209_02878 hypothetical protein
ATGACCGCTACCAATTACTTATTTGTGCATTTCCGTGAGACCTTGCCGGATGCGCTCGGTGAGCAGTGTTATTTCGGCTTGAGCCGGGACGGCTACCACTGGGCAGAGACCAACGGCGGGCAGCCGATTTTGACCAGTCAGGTGGGCGAAAAGGGCGTGCGCGACTTTATCATTGTGCGTACTCAGGACAATAAGTTCCACATCATCGCCACGGATCTGAGCCTGGCAAATAATTTCAAGACCAAATACCATAATTCGTGGGCAGAAATCAATCGCCACGGCAGCAAGTACTTCGTGGTCTGGGATTCCGACGATTTGGTCCACTGGAGTGATTCCCGGATGATCGAACTGGGCAACGAACACTTCGGCTGCCTGTGGGCGCCAGATGTGATCTGGGATGCGGAACATCAGGATTATGTGCTGCACTGGTCTTCTTCGGTGGATTATAACGACTGGGGCAACCAGGTGATTTATTTTGCCCGCACCACCGATTTTGTCCACTTCACCCAACCAGAGATTCTCTATGCTAAGGACGATGCCAGCATTATTGACTCTGCAATGTACGAAAAAGACGGCAAGTATTATCTCTTCGTGAAGAGTGCAAATAATCCGACGACGATCATTGAACTGTGGTCGGGGTCGGCGACCGGGCCTTGGACGCGGGTGCCCGGCTTTGACCAGGCCATGAGTCCGTTGGAAAAAGGCCAGTATGAAGCACCCACGGCCTTTGAACAGCCGGACGGGACCTGGTGTCTGTTCTTAGATTATTACGGTCCGCAGCATGCCCAGGGCTATGTGCCGTTTGTCGCCCGGGATATTGCCACCGGTGAATTCAAGATGGCGACCGCTGAGTTTTCGTTCCCGTATGGCTTCAAGCATGGGACGATTTTGAAGATCACGCCCGCTGAATACGATCGAATCAAGCAGGCGTTTGCCTGA
>SRR1151209_02879 TetR family transcriptional regulator
ATGCCAGGCATCAAAAATAACCGCCGGGCGCAATACACCCGACGGCAATTAAAAGACGCTTTGATTCGATTGTTGGAACATAACTCGTTGGCAGCGATCACCGTTACCGAATTGTGCCAAGAGGCTGACGTGAACCGGGGGACTTTCTACCTGCATTACGCCAGTCCAGCGGAATTATTCGCCGATATTGAACGGGACTTGGTCAAAGAAGTGCAGCCGTTGATCCACACGGGTACCGCCAATATTGACCAGTGGCTGCCGCCCATTCTGGAAGTGATCCAATCCCAGGAAACAGCGACGCTGATCATCATCCGCAATATTCATGACAGCCCCCTGCTGCAGGCGGTGCTGACCCCCGTCCGGGCCCAGACATTACAGCACTATCAGCAGGTTTTTCACGAAAGCGACCCAGCCCTGCTCGCCTACTACTACGAGTTCTTCTTCAGCGGCGCGGTCCGGGTGATCACCAAGTGGCTGGCCAGCGGCGCCAACGAGTCCCCCATGGCCATTGCCCAAGTGATTCAGAATGCGATCAGGCAAACGCCTGCTTGA
>SRR1151209_02880 antimicrobial peptide ABC transporter ATP-binding protein
ATGGCCTATATTGACGTGAAACATGAATCGAAACGATACCAAATGGGCGAAACGGTCATCAAGGCCAACGACGACATTTCTTTCTCCGTGGATCAGGGCAAACTCACGGTGATCCTCGGACCCAGCGGCGCTGGCAAATCGACGCTGCTGAATATTCTTGGGGGGATGGATTCCCCCAGCGGCGGTGAGATCATCGTCGACGGGACGGATATTGCCAAATTTAATGAAAAGCAATTAACGACATACCGGCGCAACGACGTAGGCTTCGTTTTTCAGTTTTATAATCTGATCCCGAACTTGACGACGGTGGAAAATGTCGAGCTGGCCACGGCAATCGTGCCGGATGCGCTGGACCCGACAGCGGTGTTGCGGGAAGTCGGGCTGGCGGCCCGGCTGGATAACTTTCCCTCCCAGCTATCCGGCGGCGAGCAGCAGCGGGTGGCGATCGCCCGGGCATTGGCGAAGAACCCGAAGCTGCTGTTGTGCGACGAACCCACTGGGGCGCTGGATTATGAGACTGGGAAACAGGTCTTATCGTTATTGCAGGACGCCAGTCGCCAAGACGGCAAGACGGTGATGATCATTACCCATAATTCGGCGATTGCCAAGATGGCCGACCGGGTGATCCGGATCAATGATGCCCGGGTGCGGTCGGTGGTCGATAACGATCAGCCGACGCCGGTCAGCGAGATCGTGTGGTGA
>SRR1151209_02881 antimicrobial peptide ABC transporter permease protein
ATGACACCCATGGCGAAGTATATGTGGCGCAATATCCGGGATTCTTTGGGCCGGTTTATTGCGATTATTTTGATCATCCTGCTGGGGGCGCTGATTTTTGTCGGCGTCAAAGCGACCGGGCCGGCCTTGAATGCGTCGCTGAACGCCACGGTCAAGCAGGACCGGTTGAGCGATGTGCAGCTGATGTCGACGACGGGCTTCACTAGCAAAGACGTTGCGACGGCGGAGAAAGCCGCCGGCGCCCAAGCGGAAGCCGTGAAGTTCAAGTACGTCAGCGGCAGTAAAGGCCAAGTTGTGGCCTTGTATGGCTACCAACCCGGCCAGCAGTTGAACCAATTTTCGTTGCAGAGCGGCCGCAAGCCGGTGAAACCCAACGAAATCGTGCTGGACCAGCGGGCCAAGCGGACGTTCGGCTACAAGCTGGGCCAAACCTACACGTTTCCAGCAGACGCCAAACTGACCCGGCGGACATTCAAGATCGTCGGCTTTGCGGATTCCCCGCTGTACATTGATAACGCCCAGCGGGGGTCGGCCAACGTCGGCGACGGGGCCGTGCGTTATTTTGCTTATATCCCGGCCAGCCAAATGAAGATGAGCGTTTCTTCCCTACTGAACGTGCGCTTCAAGAGTTTGCAAACGGCCGATACAGTCACGGATCATTATGCAGATTTGGTGCGGGCGAAGGAGAAAAAGCTGAAGGCAGTCTTCAAGCCCCGGGCAGCGGCCCGGAACCAGGAGCTGCTGGCACCGACGCTGAAAAAACTGGATGCCCAGCAGGCCCAATTGGACGCGGCCAAAAGACTAGCGGGCAATACGCCCCAGATTGCTGCCCAACAGGCGGCACTGACTGCTGGCCGGAAGAAAGCCGTCGCGGCGGTGAAGACCAGTTACACCTGGCAGGTGCGCAACGATCTGCCGGGCTTCTCGGCTTACGGCGACAGTTCCGACCGGATCGCGGCCATCGCCAATGTCTTCCCGGTGTTCTTCTTTCTGGTGGCGGCGTTGATCACCTTCACCACGGTCACGCGGATGGTGGAAGAAGCCCGGGGCCAAATTGGCGCGTTCAAAGCGCTGGGCTATGGCAAATGGCGGATCGCCGTCAATTACTTGAACTACGCCTTGATTGGCGGCGTTGTCGGGACAATTCTAGGTTCGGTCATCGGTAATTGGTCAATTCCGCGGATCGTTATCGCCTTATATAAGAATGAATACTTGCCGCTCCAGCCGGTGGTGCCCATCGGCTGGGACTCGGCGGCGTTAGCGGGGATTTTCTCCCTATTGGCCACAGTCGGGGCGGCGGCCATCGTGGTGCGGGAACAGCTGGCGGAGAAGCCGGCGGCCTTGATGCTGCCCCGGGCACCGAAGTCGGCGAAGCGGATCCTGCTGGAGCGGATCACGCCGTTGTGGCGGCGGTTCAATTTCAATCAGAAAGTCAGCTACCGCAACTTGTTCCGCTATAAGTCCCGAATGTGGATGACGATCATCGGGATCGCCGGCGGCACGGCGCTGATTTTGACGGGATTTGGCATCAAAAATTCCATCGAGGCCAGCGGCGGCCGGCAGTACAGCGAAATCGTCAAGTATCAAGCGGTGGTCCGGCTGGCCGATGACGCCCAGCCGACCGCGGCCCGCCGGGTGCTAGCGGCGGATGACCATTACCGCAGCAGTCTGGCGGTGACTGCCGATGTGGCCGATCTCACCGCCCATGGCCAGCGCCAGGACGACGTGACGGTCTTTGCCACGGATCAGCCGGCAGCCTTGCGCCGCTATATTGGGCTGCATGCGCAAAAAGGTGGGCAGGCGATTACGCTGCCGGCCAGCGGGGTGGTGCTGACGCAGAAAACCGCTAAGCAATTAGGCGTCGCGGTGGGCGACAGCATTCGGATGAAGACCACCGCCGGCCACACGGGTCGGGCCCGGGTGGCGGCGATCGCCACGAATTATGTGGGCAATACACTGTACCTTTCTAACAGCGCTTATGAAAAAATGCTTAACGTTAAGCCGACCGCGAATTCTCTGCTGGTGCGGCTGAAAGCACAGACGGCCAGTCAGCGCAACACGCTGGCCCGGCGCTTGCTGAAGAGCGGCGATGCCCTGGGGACGAGTTATACCGTGGACCAGCAGAAGACCGTGAGCAGCATGGGCAAGATGCTGAACCCCGTGGTGATGATCTTTATTCTGCTCTCCGGCGTGCTGTCCTTCGTGGTGCTGTACAACCTGACCAACATCAACGTCGCCGAACGGATCCGCGAGCTGTCGACGGTCAAGGTGCTGGGGTTCTATGACCAGGAGGTGACGATGTACATTAGTCGGGAGAATATCATCCTCACCGGCGCGGGGATTCTGTTCGGTTACGCCGGCGGCAACCTGCTCACGGCGTACATTTTGCACCAAGCCGAGACGCCCCAGATCGTTTTTCCGTTGCATATCAGTTTGTTCGGGTATGTGGTGGCCACGGCGTTGATGATTGGGTTCACTGGGATCGTCATGTTCATTACCCACCAGCGGTTGAAGCGGGTGGACATGGTGGAAGCGTTGAAGTCGAATGATTAA
>SRR1151209_02882 hypothetical protein
ATGACAGTCGATATTAATGAACAGCAGTTTTATCAACTACAGCAGATGCTCAAGACGCTGGAGACAAACAAGATTACTTTGGCTGAGTTTGGCGAACAGAAACGTTACCTAATTTTTGGTATTTTCCAGCCGCAAGAACGATTCAACACGATTATGAATCGCACCGGCCATAAGCAGAAAAGGAAACTGACGCTAATTATGGAATCACGTGCCAGCGGGGAAATGTATCGTTATGATGTTGTGGGTACGACACATTACGGAATTCCAACCCCACACTTGCATATCTATGTTAACGCCGGCGGTAAAATGTAG
>SRR1151209_02883 membrane protein
GTGCGATTTGACAATTCAAAATATCCCAGCGGCAAAAATGCGGTCGACCCTGTCCACGTCCGGCACATCAAAATCCTTGGCCGGGTGGCCACACTGACCGCAATTCTGATGTACGTCTCCTACATTCCGCAAATCATCAGCAACTTTTCTGGTCATCCTGTTTCCCCCATCCAGCCGTTGGTCGCGATGATCAACGCAACGCTGTGGGTTGGCTACGGCTGGTTCAAAAGTAAGCGGTCGTTGAAATAG
>SRR1151209_02884 hypothetical protein
ATGGCAGCAGAAATGCATACAGAGCGTAAACTGGGACATATGTTGGCAGCGGATGAACGGCGTCTGTTAGGGACAAGCCGCATTATCGCAGAACGGCTATATCTTGTCACTCGGGATGCGGCTGGCGCGTTGTTGTCTATTCGGGGTGAGGCCGCTCCGGCGAAAGCCGCTCAACCGCGAGGCCATGCGACTGGGTCAAAGATTGAAATGACCGCGGCAAGTGCTGAGATCAAGCCAAAACCAACGGATCGATCACTGCGCTGA
>SRR1151209_02885 membrane protein
ATGGATATGCAAATCATCGGTCGAATCGGCAGTATCGTTCTCGGTTATGCGCTGGGCAACTTTTTAACTGCCTTTCTGGTTACCCGCATCGTCGCCCACAAATCACCCACCGAGATTGGTTCCCATAATCCGGGCATGGCCAACGTAATGGCTCAGCTGGGCTTTGTGCCCGGTGTCGCCGTCTTGGCCGGAGATCTGGCGAAAACGATCCTGGCGGTCGTCCTGGCCAACCTCTTCTTCCCCCAAATTGGACACTTTGCTACCCTGTACGCCGCGGTGGGTGCTACATTAGGCCACAACTTCCCCCTCTGGCAGCATTTCCGCGGCGGCAAGGGCGTTGCCGTCACAGTGGTACTGGTTATCCTGTATAACCCCTTCTGGGGGGTGATGGCGCTGCTGGGGGCACTGGCCGTCCTGCTGATCAGTCAGTACCTGAGTCTGGCCGGTATCGCAATTCTAACTGTGTATGTCATCATCAGTGTTTTTGTGTTCCCGCTGGAGACAACGATCGTGCTGGCGTTGCTGACGCTGATCATGCTTTGGCGCTTCTGGGCAGATATTTTGAACATTGTGCATGGCACCCAAGAGAAGAAGAACATTCCAAAAAAAATCATCCAATTGCTGACTAAGAAGAAAGACTCCGCAAAATCTGCCAAGTAA
>SRR1151209_02886 HAD family hydrolase
ATGGCACAGTATTCAGGCGTTGTATTTTTTGATTTGGACGGGACTTTGCTCAATGGCCACTCTCTGGTGGATGCGGCCACGGGTCAGGCGATTCACCAGTTGCGGGCCAATGGCTATTTACCGATTATTTCCACCGGCCGCTCGCCGCTGGAAATTAAAGAAGCTCGGCGCGTCACGGGCATTGATACGTTCATCACCTTAAACGGCGCCTACATCGAGCATAACGGCGAAGCGATTTATAAAGGGGTCATCCCCACCCCCACGGTGGGCCAACTGATCCGCATCGGTAATTCCCTTGGCGAGTCGATCAGTATGTACACCCCGGACCAGATTCGGACTACCTTGGACACCCCGGACATGCGCCGGGCTTACGAATTTATCCACACCCCGATTCCGCAAGTTGATCCGGATTTTTACAAGACCAACGACATCTTGATGCTGCTGGTACTCACCGATCACAATGACGGCCGTTATACGTTCCCGCTGAACGGTTCCTTGACCTTCTATCGGAATGGCCCTTTCTCCATCGATACAGTGAAGAAGAACGAATCGAAGCGGCACGGTATTGAACGAGTGATCAAGCTGCTGAATCTGGGTAACGTACCCTCCTGGGCCTTTGGCGACGGCCCCAACGACATTCCCATGTTGGAGTATGTCGACCACCCCGTGGCCATGGGTAACGGCATTACCCCGGTGAAAGACCGGGCGGAGTTTATTACCGGGACGAATACCGCTGGCGGGATCATTCAAGGGTTGCGCCACTATCAGCTGATCGATTAA
>SRR1151209_02887 membrane protein
ATGGTTTTTATCGTTGTCGGCGCCATTATTTTAGTGATCGGCCTGAAGTATTTAATTTGGCCGGCAAAGCATCCAGAAGAAGTGGTAGCCTATAAATCGTACTTGGCGTCCACCAGCCCAGCCGCCTTTGCTTATGCCCAGAAGGAAGCCCGCAATGTGCACCTGGTGCTCGGCGGAGGCACCGTCCTTCTTGGAATCTTCATACATTGGCTACATTGGGACAACTTTTTTATCATATGGTTATTTCTGAGCGTGCTGATCACCGTGAGCATTTTCGCTTACGTGGAAACGAAGCTGAAAAAATACTTAATCAAGCGGCATGAATTGCCCCGTGACTATGTGGACCCCGACGAGAATCTCGCCTACCGTCAACACCACCGGGTCAAAGGTCTGCGCGATCGATTGAAATGA
>SRR1151209_02888 two-component system response regulator
ATGAAGGGGAACAAACACATGAAACTCTTAATGATTGAAGATAACAAGTCAGTATCGGAAATGATGTCCATGTTTTTCCAAAAAGAAGACTGGGATGTCACGTTTGCTTATGACGGCAATGAAGCTGTAGATAAATTCAAAGAAGATCCCACGGGCTGGGACATTATTACCTTAGACTTGAACTTGCCTGGGAAAGACGGGATGCAAGTGGCTAAGGAGATTCGCGAAGTATCGCAAACCGTGCCGATCATTATGTTAACGGCCCGGGATTCCGACAGTGATCAAGTGCTTGGACTTGAGATGGGTGCCGACGATTACGTGACGAAGCCGTTCAGCCCGATCACGCTGATTGCCCGGATCAAGGCCTTGCACCGCCGGGTAGAACTCGGTGAGGGCGAAGAACATGAAGAAAACGGCAATGGGGCCTATGACGTGACGACGGAGCACTTGCAACTATCGACCAAGACCCGGGAAGCTTTCTTAGACGGCAAGCAAATCGAGAATTTGACACCCAAGGAGTTTGACCTGTTGAAGACGCTAGCCCAAAAACCCAAGCAGGTCTTCAGCCGGGAACAATTGCTGGAGCTGGTTTGGGATTACGAGTATTACGGCGATGAACGGACCGTGGATGCGCATATCAAGAAATTGCGGCAGAAGATTGAAAAGGTCGGTCCCCAGGTGATCCAGACGGTCTGGGGTGTGGGCTACAAGTACGACGATACCGGCATCACGGCACCAAATGATGCAGATGAAAAAAGTGAGACTGAATGA
>SRR1151209_02889 two-component system sensor histidine kinase
ATGAAACTTATTTACCAGCTGATGATCAGCTTCTTTGCGGTCATCCTGACCGTGATCTTCATCGTCGGCGGGACCGTGTTAAATTACTATAGTTCGTATGTGTACACTAGCACCTACAATCAGCTGACCGGTTATGGTCAGAATGCGGAGAAGCTGGTGGCTCAAACCGTCACGAGCGGTCATTACGAAATCAATTCCGATACGATTCGTAAGATCGAAATGGTATTCTCCAATCAGAATGTCAACTTCGCGATTTATTCCCTGGCTGAGGGCGCGACCAACCAAAATTTGCGCGTCTACCCCACGGAACAAGAGGTCGGCCGGCGGCCCATGCCGGAGCACTTGAGCAAGAGTTATTGGGCGCGGCTGAAAAAAAGTGAATATATCAAGGATACGTCGAACGCGGGGAAGCTGCTGAGTGCGAATCAAATGCCCAAAGGAGCTCAGCCCCAGGCCTACGTGATCGTACCCTGGTTCTATCAGAATAAGATGTTCGCGGCCGTGGTGGTTAGTGCGCGGGTAGCAGATATTGACTCCAACATTGCTCAAATTGAGTCTAATCTCTTTGTTGCCTTGATTATCTCCCTGATCCTGGCGCTGATCCTATCCTATCTGCTGGCTCGGTATCAAGTGTCCCGGGTGAACCGCGTGCGGCATGCCGCCCATGAAGTGGCGGATGGCAACTTCGACATTGATTTACCCAGCAAGCACCGGGATGAAATTGACGATTTGGCCACAGACTTCAATATCATGGCGAAGTCGCTCCAGGATTCTCAGCAAGAGATTGAACGCCAGGAAGAACGGCGCAAGGAATTCATGGCCAATGCCGCCCACGAAATGCGGACGCCGCTGACGACGATCAACGGCCTGCTGGAAGGTTTGGCTTATGATGCCATTCCGGAAGAGTCCAAGGGGAAGAGCATCGAATTGATGCGAGGCGAAACGAAGCGGCTGATTCGGCTGGTGAACGAAAATCTGGATTATGAAAAAATCCGCACCGGTCAGATTCGCTTGTCTGAGCGGGAATTCGACGCCATGGGGCCGTTGCACAATATCGTCACCCAATTGACCAAGAAAGCGGCAGACGCCAAGGATAAATTGGTCTTGCAGGGCACATCGCCGGTGAGTGTTTACGCGGATTATGATCGGTTTGTCCAGATCATCTTCAACGTGGTGCAAAATGCGATCCAGTTTACCCAGAATGGCCAGATCACGATCAAAGCCGAGCGCGGCTTCCACGAAGCGGTCTTTACGATCAGCGACACCGGCATCGGCATGACGCCGGAACAAGTACGCAACATATGGGATCGCTATTACAAAGCGGATCCTTCCCGGAAAAACACCAAGTATGGTGAATCTGGGCTGGGTTTGTCCATTGTCCATTCGCTGGTCAAGCAGCATGGCGGAGACATCAAAGTTTCCAGTGAACTGCACCAAGGAACGACATTTAAAATTTCGTTCCCAGATAATACAGACGCACCAACGGCTGCAGAGAAGAAAACGAAATCCTAG
>SRR1151209_02890 2-hydroxyacid dehydrogenase
ATGTCTGACATATTTATTGCTGCCCCGGTGCCTCAACGCTTATTGGCCCCGCTGGCGCAATTGGATGCCCATGTGACGATCCGCGAGAGCGATACACCGATCACCCCGGCAGAGTTGAAAGCCGGTGCGGCGAACGCGGAGGTGCTGGTGGTGCCTCTCTCGACCCCCGTGACTGCCGATATCATTGCTGCCGCGCCGAAGCTCAAGCTGATTGCCAATTACGGTGCCGGCGTTGATAATTTAGCCTTGGACGCGGCCCATCAACGCGGGATTCAAGTGGTGAATACTCCGGGTGTTTCCGCCAATGCCGTCGCCGAATTAACAATTGCGCTGATCCTGGCCTGGAGCCGGCGGATCCCCGAGGGAGACCAGCTCATGCGCGGCGCTGGCTTCCAAGCCTGGGAACCATTATTCTTCCTGGGCCATGAGATTGCCGGCAAGACCTTAGGCATTGTTGGGTTGGGGGCTATCGGCCGATCCGTGGCGGCCAAGGCGAATGCTTTGGGGATGCATGTCCGGTACTGGCAGCGCCACGCCCTAAGTGCAGCCGATGAGGCCAGCTTGAATGTCCAGTATGCGTCGCTGGACGATTTGCTGGCGGTCAGTGATTTCGTTAGCCTGCACGTACCGCTGGTGCCCGGTACGCATCATTTGATTAACGCCGCGAAACTGATAGAAATGAAACCCACCAGTGTCTTAATCAATGTCGCCCGGGGGCCGGTCGTTGACGAATCTGCTCTGCTGACTGCTTTGCAGCAAAAGCAGCTGGGCGGTGCTGCTTTAGATGTTTATGAACACGAGCCCCAGGTCACGGCTGGCCTCAAGGCCCTGCCCAACGTTATCTTGACCCCCCACATCGGCAACGCCACCGTTGAAGCCCGCGACGCCATGGCCGGGTTGATCGCGGATAACATTGTCGCTTACTTTAATCATCAGCCGTTACGCTATACCGTTTAA
>SRR1151209_02891 branched-chain amino acid ABC transporter ATP-binding protein
TTGCGCAAAGCCAATACTTCACCCCGGTGGGCGGAGGCCCTGCCCACCGCTGGTTCTTACTTCGTGCTTACCCCGACAGGAAGCTCCCCTGCCCACCTTTACCAACAGTTGTGGCACAGTTTCCACCGGTTGGACGACGTTGGCTTTGTTGATCCCAGCGATCAATCGGTTATTCCCTTTTTATCTGTCGCGGATAACATTTTGATTGACTCGCCTAAAAACGATATCGTCCGCTTACGGCAATTTCTGTTTGATAATGAATACACTGAACTCAACACTCACGATTTTTTGGATAAGCCGGCTAGCCAACTCAATGAAACCGAGCGCTTCTATGTGCAGTTGTTTCGCTTCCTGCTGTTGAAACGGCATTACATCATTACAACGAACTTCTTAGATAATCAAGGGATCGCCACATTTCGGATTTTCTTCAATCTCTTGGAAAATGTCCTGCAAGCGACTGACAGCCATTTGATCATGGTGACCAGCGATCACGAGATGGTGGACGGCCAACCAGCGGAACGGCTGCTTTCGGCTGACTTGTTTACCCAACAATAA
>SRR1151209_02892 hypothetical protein
ATGCTGTTTATTAATCGCGCGATTGCCAGTCTCAAATACCATCGCCGTAATTCCATAATTACTGTGGTGGGTATGGTGTTTTTTATGATCATTGTGCTGGCACTGCAAATGCTGCGTCAGATTGAAACGACCATTTCGACGGGGTTCATGAATAACATTCAAGGATTTCCCAAAACGATTCAGAGTGAATTGCAGTTGACGATTCGGGCGATGCAAGTGACCCATGGTACGGTACTCAACCAGTACGCCGCATATATTGCCTATACGTATTTGGCAATTTTCATCTTTCTCGTGGTCATCAACAGCATTTCCCTGCATCATCGGCAAAGTGAATTGAAGGCATACTCAGCTACGGGTAAATCGGTCTCCTGGATTTCTCTGCAATTGTTCGTGGAGTATTGTCTGCTTTTCTTCATCGCCTATGTGATCGTGTTCGTCCTAGGCATCGTGCTGACTTTTGTCGGTACCGGCTGGTTGCGGCAAGTGAATCAGCACATCTTCTTGCAGCAATTGCCGGATGTCTTGAGTACCACCCAAACCACGGCGTTCATTAAAAGCCTTTTCCACCAGCAGCTCACCTTCTTTAACTGGCAGGAATTGCTGGCGGGGAATACGGTCACGGTCAATCGGATCGAGATCTTTACTTCCGGTATCCGTCAGAGCTTCTTCTCCTTCCTGTCCATCGTGATCCTTGCCATTATCGGCAGTTCCTGGGTGGGCATTCACTGGTGGCGTTTCCGCCAAAGCCGTCAGTATCGCTAA
>SRR1151209_02893 alkaline phosphatase
ATGCACAAAATTCAGCAATGGGTCGGTACGCGTCCTCGGTATACCATCCTCCTCATGGTCCTGTTTTGGGCTAAATCAATGTTAGCCTACACAGTGGACTTCTCCCTGGGAGTGGATAACCCGTACGACGCATTCATCTTACTCATTAACCCGTTGGCCACGACCCTGTTTCTCTTCAGCTTGAGCTACTTCATTCCCCATCCCAAAGTGGCATATTGGGTGCTCTTCGGCATCTACGTGGTCAACACGCTTTTATTGTATAGTAACATTATTTATTATCGGCAGTTCAGTGACTTTTTGACCCTTTCGACAATCTTAAATGCGCGGAAGGTTAGTGCCGGCTTGGGCGCCAGCACTTTGAAGCTGATGACACTCCACGATGTCCTCTATTGGCTGGATATCGTCGTCCTGCTGCTCTTGCTGCTGCGCAAGGCCATTCCCATGAACCCCAAGCGCTATCCGTCAGTGAATGCCTGGGCGTGTCTGGTGGGGGCGCTCTTTCTGTTCCTGGTCAACCTGACCCTGGCCGATATTTCCCGGCCCCGGCTGTTATCCAGCACTTTCGACCGCACTTATATTGTGAAATACCTGGGCATTGACTCTTTTATGGTCTATGACGCCGCCAAATCCGCGCAAAATAACCAGGTGCGCTCCCAAGCTGACGGCTCTGACCTGGGGAATGTGCTGGCCTATACCCAAAAGCATTATGCGGCGCCAAATCCGCAATACTTTGGGGTGGCCAAGAATAAAAATGTAATCATTATCCATCTGGAATCCTTCCAGCAATTTCTGATCAATTACAAAGTGGACGGCAAAGAGGTTACCCCCTTTCTGAACAGCCTCTACCGCGACAGCAACACCCTGTCCTTCGATAACTTCTATCATCAGGTCGGCCTGGGCCGCACCAGCGATGCTGAAAACATGTTAGAGAACTCAGTCTACGGCATTTCCGACGGTTCCGTCTTTACCTCCTTGGGCAGCGACAACGTCTTCCAAGCGGCTCCGGCCATCCTACAGCAGACTAACGGCTATACGTCCGCTGTCTTTCATGGCAACGTTGGCAGTTTTTGGAATCGAGACAGCGTCTATAAAAATCTAGGTTACCAATACTTCTTCGACAGCAAATACTTTGATACCTCCGCGGATAATTCCATCGGCTACGGGCTGAAGGACAAGCTGCTCTTTGCTGAGAGCATCAAGTACCTGGAGCAACTGCAGCAGCCGTTTTATACCAAGTACATCACCGTGACCAACCACTTCCCGTTCACCCTGACCAACACGGACAGTACCTTCCCCAAGGGCGACACCGGCGACAGCCTGGTGGATAACTATTTCCGAACTGCGAATTATCTGGACCAGGCCGTCAAAGAATTTTTCGATTACTTGAAGAAGAGCGGATTGTACAACAACACACTCGTTATGATTTACGGCGATCACTATGGCCTGTCGAACACGGATAATCTATCCCTGGCTAAAATGATGGGCCGGGATCCCAGCCATTGGACCGCCTTTGATAATGCCCAGATGCAGCGAGTGCCCTTCATGCTGCACATGCCCGGCCTCAAGGGTGGGCTGCAGCACCAATACGGCGGAGAAATTGACGTTTTGCCCACTTTGCTCCACCTGTTGGGCGTGAACACCCAATCCTACGTCCAGTTCGGTACCGACTTAATGTCCCCGCAACACGACCAGACAGTGATTTTCCGCAATAACAACTTTGTTACCCCGAATTACACCTTTGTCGGCGGCAAAGGCGGTGACAGCACAGTCTACGATAACCACACCGGCTTGGCCTTGAACGGTTTAACGGACGCGCAAAAAGAGACTTTCAACACGCTTCAGGCCACGGTGGACAACACGCTTGCCCTGTCTGACTCGCTCAATTCCAAGAACCTCCTGCGTTTCTACACGCCTGCTGACTTCACGCCGGTCGACCCGAAGCAATTCGACTATCGTACCCTGTGGTCAAAAGTGACGACTGAGCGCGACAACAAGGGTAAGAAATCCACCAGTTTGTATAGTGAAAATCATGATCAAACCACCACTGGCCTCTACCAAACCGATGCGCCTGAACTGCAGAATAACCAGGACGCGATCACGACTGTGCCCGCGGATCAGTTGAAGCGGGAAAAGACGCTGCAGCCGGATGACAGCAGTACCAGCAGCAGCCAAAACAGCAGCACGGCCAAGTGA
>SRR1151209_02894 glycopeptide antibiotics resistance protein
ATGATTTTTCTTGGACCACTCTATGACTGGGTGGCACACACATACAGCGGCCGAATTAACCATTTTCCGCTGATTCGACTGACTTTTTATTCGTTGGACAAAACCATTCTGTATTTTCTGATTTTTTTAGGGCTGCGTCTCTGGTGGCGCCATCACCGCCATTACCGGGGCCAGTGGGGGAGAGAAATACTGGTCTGGCTGTTTGTCTTTTACTTAATGCTGGTCTTCGCCCTCACCGTTTTTCGCGGGACCTATTTTCCTTGGCAGCTGCAGTTTTACTGGCACCGGCCGCTGAGTGAAATCAACTGGCAGTTGTGGACCCAGACGGCCAAGCTGCAGCAAGGCCAATCCATTGTGGATTTCATTTACAATTTGTTCGGCAATATTGCCTGGTTCATTCCGTTTGGGCTGCTGTACCCGGTATTGCGCCAGCGGCGCATTGGCATGATTCAAACGGTGTTCACCGGAATGGCTGTATCAGTATGTATTGAGGCGCTTCAGTTTATTTTGTACACGGGGATCACCGATGTGGACGACGTGATGTTCAATACACTGGGCGCGCTGGTGGGCTACTTGGTGTACTGGGTGGCACACCGCTTGCTGCATCATCGGTAA
>SRR1151209_02895 hypothetical protein
ATGAGCACTATGACACATAAGGAGCGCCAGACAGTGGGCCGTCTGCTAGCTGCCAAACTGTTGGACAAGCGCGTACCAGAAGACGCGCCAGAGTGGCAGCAAGTACGCGAACTGCTTGGCGGCATAAAAGAGAAAAAGGCAAACAAGCGCCCAGCCAAGGTCAGCGGCACTAAAAAGCGCCAGTTAGAAGCCATCAAAAAGCGCAAACAGATATACCCAAGACTCATTGATCAAGGATATGCTAACTGGCAGATCGGGGCCAAGCTAGGAATTAGCCGATCCGTTGTATCACATGATCTTATGCGATTTGGTCTGCAGGCTCACCGGCGCTATTACTGGCGGGCAACCAACACGGCAACTGGGAAGACTGGATACTACACGTCGCCGGCCGCCATGCGATCCGATACCAGCGTGACAAAAGCACTGTGGCGTATCGACAGAAAAGCAGTTGTCGGTCCATGGCTGATCGAACGCGGGTGCTGGTATCAGGACAGCCAGGGCAACTGGTACGAGGCACCGAAATGA
>SRR1151209_02896 single-stranded DNA-binding protein
ATGCTTAATCAAGTAGCACTAATTGGGCGGTTGACAAGAGATGTTGACTTACGAAAAACACAATCAGGCAAGGAGGTTGGACAGTTTATCCTCGCCGTTAACAGAAGTTACAAGAACGCACAGGGCAATGTGGATGCAGACTTTATTTCTTGCCAAGTCTGGCGTAACGCTGATGTATTGAGCAAATACACGCACAAGGGATCGTTAATCAGCATCACGGGTCAAATTCAGACTGGCAGTTATGACAATAAACAAGGCCAACGTGTCTACACCACCGATATTGTTGTTGATCACTTTGATTTTTTGGAAAGCAAGAGCGGCGGCACACAGCCAAGACAAAACAACCATCAGTCACAGCAGCGGAATGACGATCAGACACCGATAATTAGTGGCGATGATCTACCGTTCTAG
>SRR1151209_02897 DNA replication protein
ATGAATCATATGGAGGCGTTGAGTTTTGACCTGCTGGACAAGCTGCAAGTGTTGGATGAGATGTGTCCTAAACATCCCCAGCAGAAGATGGTGCAGCTCCCCGGACAAGCACCGTTTTGCCCCATTTGCGCGGCGTCTGCCATTGAGCAACGAACTCAAGGCGTAATCACCCACCACATGGAAAAACGCCATGAGAGGACAACCAAGGACGTGTTGAGACTGGACTCAATTTTTGACGATCCCGATGCCGCCAGTTGCAACTTTGCCAACTACGTGACTCAACCCAACACGGAGGCCGCAGCCAATCGTGCTAAGGCTCGCCAGATTGCTGGCAAGTATCTCCATAACGATTATCAGGCAAACACGATTTTGACCGGAAATCCCGGCACCGGTAAGACACATCTCGCCATGGCGATGCTGCATGCGGTCAATGACAACATCAAACCAGAGGCGGCATGCCTGTTTGTATCAATCAATGAGCTGGTGCGACGGGTCAAGGATAGTTTTAACAATCGCGGAAGCTGGTACACGGAAGAAAATGTCACACGCCTTATCAGCACCGCTAATCTGTTGGTGCTGGATGACCTGGGGTCAGAGGCATCTTTTAAGCGGGACAATACCGAGGCAAGTGATTGGGTGCAGCAGTTGTTGTTTGGGCTGCTGAACAAGCGGCGCGGCCGCACAATCATCACCACCAATCTGACCAGTAAGCAGTTGACTAAGATTTACAATCCCAAGCTGCTGTCCCGCATGTATTGGGGCGTAGCAAAAAACGATGGTGTCATCAAATTTACTGATGCAACGCCGGACAAGAGAGAGGACCTATTTTGA
>SRR1151209_02898 hypothetical protein
ATGGAACAGCCTAATTACTATGCAATTATCCCGGCAAATATTAGGTATGATGAAAAAATTACGCCTGGTGCCAAGTTGCTTTACGGAGAAATCACTGCACTGAGCAACAAAAAAGGATTTTGCTGGGCCAAAGACCAGTATTTCATGAATCTCTATAACGTTGGACAAACAACTGTTCAACGCTGGCTGCACTCATTAGAATCTGGCGGGTACATCAAACGCAGTGTTCAGTACAAAGAGGGAACCAAAGAGATAGAAAATAGGTATATCCGAATTCGGGCATACCCTATACCCGAAAATGGGCATACCCCTATGCCCAAAAACGGGCAAGGTAATAGTACAAGTATTAATAATACAAGAGTTAATAAGAACCATAGTCCGGTTAGCACCGGACAACGTCCCGAACCGGATTACGCGGGATTTATTCAGTATCTGAACCAAAAGAGCGGCAAACACTATCGGGACACACCTACCAACCGCAGTTTGATCAAGACACGTTTGAGCGATGGCGCTACTGTTGACGATATTAAAGCTGCCATTGATCACGTCTGTGCCGGATGGCGGGACACGAAGATGGATCAATATATCCGGCCATCGACAATATTCCGTGCGTCCAAGTTTGAGGGCTACGTCAACAGCGTGCCTTATGCGCCGCACGAAGAGCAGCAGAAAGGCGATGAATCATATGGAGGCGTTGAGTTTTGA
>SRR1151209_02899 hypothetical protein
ATGATTACTGGGCATGTCAAGAATATCAAAGGGAGAGAAATTACAATCGTTTCCGACGATGATCTGGACATGCTACAGATTGCCAAACTAAGCGATGGAAAAATACTGAGTGCTCAAGTAGCAATCAATGATGGTCGGCATATCTCGCCAGATCAGCGCAAGAAGGCGTGGGCGTTGATTAACGATTTCGCCAGCTACACAGGATATCTTCCGCAGGAAATGGAGCAATTGATGAAAGCAGAGTACATGATTCGCACTGGTGCTGACTGGTTTAGCATGGCGGACTGCTCAATGAGTACGGCAGCAGGCTTTATCACGGCAATGCTGGACTGGGGATTTGCCAATGACATCCCGTGGACGCTCAAGACATGGGATATGATCCCCACAGACTATCATCTGACTATCCAATGCCTCCGTCATCGGAAATGCATCATCTGCGGCAAGCCGGCTGATATTGATCATGTGACAACTGTCGGAATGGGCAACAATCGCAACCACATCGACAATCGTGGCCGGTACTTTCTTCCGCTCTGTCGCATTCATCACACGATCCGGCATGAAATGGGTGTCACCAGCTTCACGGATATGTACCACATTAAACCAGTCAAGCTGGACGACAAAACAATTAGATCACTTAAGCTCAACACGCAAGCACAATTCGATGAATTTGATGAAAGGAGGGGCACAGATGGAACAGCCTAA
>SRR1151209_02900 hypothetical protein
ATGAAACATTCTGACTCAATCAAAAATCTCGCAAGTGCTTTGGTACTGTTCCGTAGTCAGCTAGTTCAGCCAGTTAAGGACAAAACAAACCCGTTCTTAAAGAACAAGTATGTACCCCTGGAGGGTGTTGTGGAAGCTGTAGACAAGGGCATTCATGGAACGGGCCTGTCTTACACACAAAGCGTCTCAGGAGGCGACAAGAGTATTACCGTCACTACTGTCATTACGCATGAAAGTGGGGAGTGGTTAGAACTGGATGGCCTCACACTGCCAATGGCCAAACAGGACGCACAGGCAGGCGGTTCCGCCATCACCTATGCTCGCCGATACTCGTTGTCAGCTGCGTTTGGAATCACATCAGACACAGACGACGACGGTGATACAGCAAGCCGAAGGCAGGATGCCAATCTAGCAGATGGCAGGCGAGCAAGCGGTACACAGCAGGCGCAGCCAGCACAATGTATCCAGCCAAATGAGCTAGTCGTTCTGGAGCAACTGGTAAGTGATTATGCCAAGCAGTTGGGAATGAATGACGCCAAGGTTTGGGCATGGATTCTTCTCAAAACGAAGAGCAGGACGGCCAACATTAAGGATTTGTCGCCCAAAGAAGCTGGACAGGTCAAGCTGTTTATCAAGAACAACCCAGCGAACAAGTTGCTCGAGCTGCATCGGGAGAAAGAGGCTAAATAA
>SRR1151209_02901 hypothetical protein
ATGACTAATGTAAACCAAAACACGCCAAGTGTCACGAATTTCGGTGTGGAATTCACGCCGGCGTCTCTGGCTATCCAGAACTATGACGCCATGGTTGAGCAGACCAAGGCTATTGCCGCCAAGTACGCTAATCTGATGATCACCGAACGGACACTCAAAGCAGCCAAGCAATCACGAGCCGACCTGCGCAAGTTTCGGATGGCTATCGAGGACAAGCGCAAGGAAGTTCGACGGGAATACGCCAAGCCTTACGACGATTTTAAGAACAAGGTGGATGCACTGACTAGCATCATTGACCAGGCCATTGCCCCGATTGACGAAGGCGTGAAGGGCTTGGAAGAACGGCAGCGGCAAGAACGGGAAGAAGCCGTGCGTCAGGAGATCAAGACCATCACGGAATCACGTGGCTTGGTACCGGATGACATTCAGTACGATCAGCACTGGGAAAACAAGTCGTTATCCAGCATTGAGCGCACCCGTCAGATTGCGGCCGCAGCCGATTTCGTCAAAAGCCAGAAGGAAAAGCATGAGGCTGACCGAAACGCAATTGCTCATTACGCCAAGGCATTGGATGTTGACGCTGGCGGCTGGCTTGGGCTGGTTGACCAGGGCGTTGAGATGACCGACGTCATGGCTCGGATGGACAACTATGCTGAGCAGCAGAAGCAGGAGGCATCAGCCAAGAAGCAGCGTCAGGAAGCACAAGCAGCCATTGACGCCCTGCACCAAAAAAAGGTCGGTGAGCAAGTGGTGGACACGGAAACCGGTGAGGTCATGGACGCCGTGCCCGATAAGTACAGCTACGTTATCGAAGTCTCTGCCACGCCGTACGAAATGGCCGCTCTCACAGCCTACATGACTGCGAACGATATGTCCTGGACGGTGAAGTAA
>SRR1151209_02902 hypothetical protein
ATGAACAATGCAAATTATATTGTGATGACAACAGCAACTGATATTTACAGCCATCTGTTGGAGCTGCGTGAAAGCAAGGTCCGCTATCTGACCAACATTGCGATTGATCCAACACCTGACCAATATCGAAACATGAAGAACACAGCATCAGACATCATGCTTCTGGATGACATTACTGACTGGATCAACAATAAAGAAAAAGCCGCCGACGGGGCAACGTCAGACGGCATTGGGAAAGGAAATTAA
>SRR1151209_02903 hypothetical protein
ATGATCGATATGAAGATCGACAGTCACCATTACACGGCACTAGACGATGAAGAGTTTGCCGAGTACCAGCGGCTTAAGTCAGCAATCAGCCATGAAAACCTGCATGGTGTTTGGTCACTCCGCCAAGCTTATAAGTACATCGGTAAGGATTACAAATTCATGCAGTGTGTCCTCCACAGCCCTGATGGGCATGAGCTGTTTAAGAAAGTTGTGATTCCCAGCGATAAAGCACACGGCCATTACGATGTGTTTGCCGATGAATTTATTGATATTTGGGAAAAGCATAAGGCCGACTTGGTGCTCATTGCTCGGCGAATGCGCCCGGTGCTTTATCCAGACAAATGA
>SRR1151209_02904 hypothetical protein
TTGGAGCCTAAAAAGATTGATGATGCTCTGCAACGAGCAGTTGACAAACTTGAACCAGAGCTAAACGTCACTATTCACGCTAGTGACGTTATTGACGCTGTTTCTGAGTCCAATAAGGACAGCAAAAGTTTCTCAATTCGTTTAATTCAGGAAACCCTGCACGAACTTTTTGATGATCGCAATTAA
>SRR1151209_02905 hypothetical protein
ATGAACGAGCAAAACAGAAAAATGCCCATCGATGCAAGCAACATCAATGGACACTCTAAGATTTCAGCAGACATGAGCACGAGCATCGTAATTAACGGCCATCATAAGCGATTAATTGCGATCATCAAAAAGTTCGTGCAGGGTTTCCTGAATTAA
>SRR1151209_02906 phage antirepressor
ATGAATGAACTACAGGAATTTAATTTTCAAGGCAACCAGCTTCGAACGGTGATGATCGACAGTGAGCCGTTCTTCGTGGGTAAAGATGCTGCAATGGCGATCGGATATAAGAACTTTCGGGACGCGATCAAGACCCACGTCAGGTCGAAGTACAAAAGGGAGTCGCGAATCACGACCCCCTTCGGAACTCAAACAATGACGGTTATTTCCGAGCCCGGACTTTATCAGTTGGCCAGTGAAAGCAAGTTGCCTAGCGCTGGTCCTTTCCAAGACTGGGTGTATGAGCAAGTCCTACCATCCATTCGCAAGCACGGCGCGTACATGACACCGGAAACGATTGAGAAGGCATTGCTTAACCCGGACACGATCATCAATTTGGCAACACAGCTCAAACTCGAACAAACCCGTACGGCCGCTCTTACGGCTGACAACGAAGCAATGAAGCCTAAAGCGTTGTTTGCAGACGCGGTGGCCACAAGTCATACAACCATCTTGGTCGGTGATCTTGCCAAGGTGCTCAAACAGAACGGCGTTGACATTGGTGCCAAGCGGTTGTTCTCCTGGCTACGTGAGCAAGGTTATCTCATCAAGCGGCAGGGAGCTGATTACAACAGCCCGACACAACGTGCGATGGAGCTAGGCTTGTTCGAAGTCAAGGAGACGGCGATCAGTCACTCGGACGGTCATGTAACAGTTCAGAAGACCCCAAAGGTGACCGGCAAAGGCCAGCAGTATTTTATCAACAAGTTTCTACAAAAGGAGGTTTCACGATGA
>SRR1151209_02907 helix-turn-helix protein
ATGAACGAAAAATCCGAGAAATTCACGCTTCGTCAATGGCGCGGAATTCGAGACATGCGAGTCAATGAGCTGGCGGCTGAGTCTGGCTTAACAGTGAAAACAATTAATAACTATGAGCGTGATATTGATCGTCTTCGTGGAGCCAGTTATAAGAACTTAGAGGCTATTGCAAAGGCTTTAGGGATTTCGGTTGGGGATATTTTTTTGTCACCAACTTCGGAAAAACCGAAGTACCCAGTAAAGGAGGCGGTATAG
>SRR1151209_02908 peptidase S24-like protein
ATGTTTGCAAAAAATCTAAAGTATCTGCGCACAAAACGCGGCTATGATCAGCAGACATTCGCTGAAATGATCCACCGAAGCGTTTCTACCGTCAGTGAATGGGAGTCTGGTAAGTATACTCCAAAAGCGGGAATCCTTGCTGATATTGCCAATATGTTCGGTGTAAAGTTAGACGACATGATGAATAAAGACTTGTCGAAGAGTGCTGACAACACCGTGATTGAGAAAACTACAAATACAATGCGGAAACTCCACCCTGCACGTCAGCAGAAAGTCTGCACGTACGCGGAAAAGCAGCTCGATGAGCAGCAAAACGAAAACGTGATATCACTTGACGACGAGCGCCAAGAACGCCAGCCGATGCTTCTCCATATTGCCGGAACTGTATCGGCTGGGACAGGTGAGTATCTTCCCGACGATGATACGGGCGACGACATTCCATTCAGCGGACCTGTTCCGGATTATGACTTTGCTCTCCGCGTCAATGGTGATTCTATGGAACCGATGTTTGAAGACGGCCAAATAATCTTCGTAAAAAAATGCGATGACTGCGATATCCACAGTGGTCAGGTTGTCATTGCTGATCTTAATGGTGATGCGTACGTCAAAAAGATCGACATCCAACCAGATGGCGTGCGCTTGGTTTCATTGAACCCTAAGTACAAGCCAATACTTGTTGAGAGCTTCGACGACTTCGCAATCCAGGGGATCGTAATGCTATAA
>SRR1151209_02909 hypothetical protein
ATGAAGCAAAAGAAGCTTTACAAACGTTGGTGGATGTTGGCGTTGGTTGTGCTCGTAATCGTTGTTGGTGGCGTGGGAATCAGTTATAGATATTTTAGCCAGCCACAGGGCATTATGGATTATCAAGTTTTTAGAAAAACTGCGAATGACAACTTATCAGCATCCAGTATTGATAACCAATTTGGAAATGTCAACAATGATAACCAAAGATTTGTGAGTGATGGCATCACTCTTCATGCGAAAGTTAATCATGGCCAACTTTTAGACGTATCGACTGCTGGCCATATGAACAACAAATTCGCCTTGAGCATGTTTTCTATTACCAAAACATTGTCCATTCCAAATTCTGTTGTTCAGAAGCTAACCGACAAAACATCCGGTGCTTTGTTATCTGGAGTTAAAAAAAAGACAATTTCTTGGGGTAATATGAATGTGCAGATGGTTAACATGGACGATAATATATACGTTTTAGAGGTATCGCGAAAATAA
>SRR1151209_02910 integrase
ATGAAAGCCATTCGTAAGGCAACGCTCTTTGCATACCCTATTTTACCAGATTGGGAGGTAAACACAATGGCAGAAATAAAGAAACGTGGGTCAAAGTGGCAGTACCGAGTTTTCTACACTGACCCGGCCACTGGTAAGCAAAAGTCCAAGTCTAAGTCTGGATTCGAAAAGAAGAGCGATGCAATCGCAGCGGCACGGGAACTGGAAGTTGATAAGGAACATGGTGCCAAACTGGCAGAGCGCAGCGTCACGTTCGTGGACTATTACGAGCAGTGGATTAAGGATACAAAACTCGGTGGACGCTACTCTATTGGCGCTGAGAACTGGTATAAACGGGTATTGGACCTTATCCGTGCCAGTTTCCCCGGCGTGGCGCTCAACGACGTTACACGGCGAAAATACATCAAGTTCCTGGACGGCTTTGCTGCTGATCACTCTCATGAATCGGTTCAGAAAGTAAACACGTTTATTCGCGCCATGGTCCGCGACGCAATGTCTGAGCAGATCATTTTCACCGATTTTACTATTGGCGTCAAAAACAACGGCCGACCAGGCATGCCGGAATCAGAGAAATATTTGAGCATCAAACAATTCAAGAAGCTCATCACCGTCACCGAGAAACACTTGACGTCCCGCACTGTCACCGCCTACATGATCTATTTTGCCGCATTCACTGGCGCACGAATGGAAGAAGTGGCAGCCGTCACCTGGGACCGGATTGACTGGCAGCATAAACGGATCACCCTGGATCGGGCCTACGATTATGTGGGACAAAGCGGCTTTAAACGGATGAAAACGCCCCACAGCATCCGCACAATTGATGTTTCAGGCAAACTCTTAGACGCGCTTAGCCAGTTGCACAAGGAACAGTCAGAACGGTATCTCGAAGGCGGCTACCGCGATCCCTTGGGCCTGGTATTCTGTGGGCTGAACTACAAGGTGCCATCCAATAACGCAGTCAATAAGTCGCTGCGCTGGTACGAGAAAGCGGCTGGTATTCCTGCTGATGATATGATCACATTTCACGGTCTCCGGCACACACACGCCTCTTACTTGCTGAGCCAAGGTGTTCAAATTAGTTACATTTCCAAGCGGCTTGGCCACGCCAACATTGCGCTAACTTTAAAAGTATACTCGCATCTGCTGGATGAAACTTATACTCAAGAGGCTGCCAAGGCAACTAATGCCATGCAAGAACTGTTGTAG
>SRR1151209_02913 hypothetical protein
ATGTTGGGTCTGATAATTAAAGATATCGATCAGTTGCGCCATCTTTGGCTGCGTCCCTTAGTTTTGCTTGTGGGCCTCGCCATTTTGGCGGCCGGGGTCTTTCTCAAAGAATTTGCCCCCATGGTTGGTGCAATCATTATCATGGTCTCAATTTATGGCTTGACGGCCCTTTTTGTTGACGACGACCGCACCCGTTGGCTCGATTTTGCCAAAATGGCCCGAGAATCCGCGACTGCCATCGTTTTGAGCCGTTACATTGTCCTTGTCTTTTTGGCCGGAATCATCACAGCAGTGGCAATCGCCTATACCGTTGTTGTCCACTTGATTTTTCCCAATATATCAACCACCGAATTGGCCATCGTCACTGGTGCGGCTATTATGCTTTCTCTGTTGATGTATTTTTGGGCGATCCCATTTTTCTACCAATTTGGGCAAAAAGGGTATCAGTATGGTATGGTATGGTTGCGTTCTTTATTCTCTTCTTTGGGTCAGTCAGAGTGCTGA
>SRR1151209_02914 ABC transporter ATP-binding protein
ATGACAACCAAGGTCGCATTTGTCAGTGCTGACACTGTCAGTAAAACTTATCCCAAGTTTGTCCTAACAGATTTTTCAATCCAGGCCGCCGCTAATGAAACCATTGGCTTACTGGGCGATACTGGCGCCGGCAAAACCACGATTCTCGATATTTTAGCTGGTCTGATATCGCCAGATGGCGGCAGTATCCAGCGGGAGACTGACAATATCGGTTATTGTTTCGCCCAGCTGCCCTTCCCCCGGAATCTGACCATCAACCGGCTGGTCCATATTTTTCGTCATTTGGCTTGGCCTTGGCAGGACAAGGTATTTGCCGACTACGTGACTGACTTTTCACTGCCCCGCCGCACCCCTGTTGCGCGGTTGACCAAAAGCCAGCAGACCGCTTTGAACTTAGCGGTGACTTTGGCGCACAATGCCCCGCTGCTCCTGCTGGACGAAGTGACAGAAAATCTGGCTCCTGACGACCGGCCGCCCGTGTTGGCCGCTTTGCAGGCCTATCGCCACCAGCACCAGGCTGGGATTGTCTTGGCCACCCGCAGGCTTGATGACATTCAGACCTTATGCGACCGATTTGTTTTGCTGAAGCAGGGCCAAACGGTCACGACGCTGGCCGCTGATGCATACCGGGGCCAGGATTTGACTGGCATCATTCAACACGCACTGTCAGATCGGAGGCAAGACTAA
>SRR1151209_02915 hypothetical protein
ATGATGGCAAAGAATCGCGGATTAGTCATCGTGCTGAAAATCATTGCGGCACTTTCAATTATTATGTTTTTCGTCTCTTACATTGTTCAGTCCATGCGGCAATACGCGCAGATCTTTGTTTTTGCAGCTCTTCTCTGTGCACTGGGGATTTATGCCCTGACCAAAAAGAAGTGA
>SRR1151209_02916 NADPH-quinone reductase
ATGACCCAATTTTTGATTATCTATGCACACCCTTATGACCGCAGTTTCAACCATGCTGAACTGGACCGCGTGACGGCCAAGCTGACTGAGCAATGCGATCCTTACCAGGTCATTGATCTGTATCACGATGGGTTCAACCCCGCTTATGACGCCGAAGAACTGCGGCTGTTCCACAGCGGCCAGACCCATGATCCGCTGGTCACCCAGTATCTGACGCAACTCAAAGCGGCCGATGCCGTGATCTTTATCACACCCATTTGGTGGAACGATTTGCCGGGGATGCTGAAAGGGTTCATCGATAAAGTGATGAAGGAAGGCGCCGGTTTGACCCATGTGGTGACAAAGACCGGAGTGAAGGGCACGCTGACCAACATTCAGAAAACCTATGTCCTGACAACCTCCACGTCACCCACGTTCTATCTGCGATTCTTCTGCGGCAATGCCGTTAAGCAAGTATTTATCGGAGCCACATTGAAGCAGCTGGGGATGCGGCACGTGCGCTGGTCGAATTTTGGCGGGATCACGGATGCCCCAGAGGAGAAACGCAAGGCGTATTTGGAAAAAGTCGATCAAATGGCTTTCTAA
>SRR1151209_02917 TetR family transcriptional regulator
ATGGCTGGAAAAACAAACGATACGGAAGACCGCATCATTGCTGCTACGATCGCGACCATCACGAAACACGGCAGCGCCGCGATCTCTCTGCGTCAACTCGCTCAACACGTCGGCTTGACCACCGGCGCCTTTTACAAACACTTTGCCAGTAAAGACGACCTGTTTCGCGCCGTCACGGTCACTCTCTCGCAGCAATTGACCGCCCAAGTCATGCCGTTGCTCGCAGCCGCCGACACCGCGAAAGAAAAACTGTGCTTGCTGGGTGAGCAGCTGCTCCAAGCCAGCGCGGCCCAGCCCCACGTGATCGACTTTTTGTTTTTCAATCCCCAGGCGACGCAACAATACCAACCCGGCACCGACACAACCGATTTTCCATTGCTGACCCTCACCCGCCAATTGATTGCCGCGACGTTGGCTGGCAGTGCCAGCACCACCCCTACCGCTGACTTCTTCACCCGGGTATGGTCCTTCATCCTGGGTTACGCGCTGCTGATTAAGAATGGTGCCGCGGTATATGACCGAGCGCTGCTGACGCGCACGCTGGACCAAATGCTGGTTTAG
>SRR1151209_02918 D-3-phosphoglycerate dehydrogenase
ATGAAAGTACTTGCCCTCATGGCCATTCCCGCGCCCATCAAAGACCAAATTGCCGCTCTGCCCAACGTGCAGATCGAAGGCCCCGACTACTTAGCCCAACACGGTTTGACTGATATCACTGCGATTTTCGGCTGGCAAAGCCGGTTAAACGACTTGATCAAAGAAAATTCGACGGTTCGCTTCGTTCAATCATTTTCTGCCGGCGTCGATTATTTCCCGTTGGCCACGTTCCAGAAAAAGAACATCGTCATGGCCAATACCAGCGGTATCCACGCTCGGCCGATCGCCGAATCCGTCCTAGCCTACGTGCTGGCCTTTGCCCGGGGCATAGCGGACAGCGCTCACCGGACACCCGAGAATTTCTGGGATAGGGACGCCTCGCGCGGAGACGTTTATACGCTGCCGGGTAAGACCGCGCTGATTTATGGCACTGGCCATATCGGCCGCGCCATCGCCGAGATCCTGACCCAACAGGGCATGACGGTCACCGGCATTTCCCACCATGGGGAAGCCGTCGCCCCCTTCTCCACCGTCGGTACCGATCAAGACAGTGCCGCATTTGCCAAAGCCGCGGACATGATCATCAATATCATGCCGCTGACACCGGAGACGCATCACTTCTTCAACGCTGCATTCTTCAATGCGCTGACGAAAAAACCGTTGTTTATCAATGTCGGTCGCGGTCCTTCGGTGGACACCGAAGCACTGGTCGCGGCTTTACAGACGGGCCAGCTCAGCGGTGCCGCGCTGGACGTGTTCGAACAAGAACCGCTGCCGGCGACATCACTGCTCTGGCAAGCGCCGCATTTGCTTATGACGCCCCACGTGTCCGGTGCATTCGCCGAAATATACACGGCAGCAGCAACGATTCTTTACCACAATCTCGCCCAATTTATCCGCGATGGGTCAGTGGCCGAAAACCAAGTTGACCTGAGCCAGGGCTATTGA
>SRR1151209_02919 hypothetical protein
ATGAGCCAGCTCTACGTGCGCCAACACTTTTTCAGCCTCGGCGGCCACTTTGATGTGACTGACGCCAATGGGAACACCCGCTATACCGTGGTCGGCAGTTTCTTCAAGTTTCCCAAGGAATTCCAGCTGCTTGATCCCAGCGGCAATGAAGTGGCGAAGGTCATCCATCAGCCTTTTCACTTTCTCGACACTTTCGATGTGGACATGAACGGCCGAACTATTGCAACAATTCGCAAGAAGATCACGTTTCTGCGCAGCCAATACGAAATCGACAGCGGGGCGGTGGATGTTCAGGGCAGCTGGTGGGGCTTCAATTTCACCGTCACTGCCCAGGGCCAAGAGGTCGTGCAGATTCATGAAGATGCCTTTTCGTTCGGCCATGCCTACGAGTTAGACATCAGCAACGAAGATTATGAAGGGCTTGTTATCGCGCTGGTACTGGCGATTGATTATGTGAAGGCCCAAGATAGTGCTGGTGCGTCATCGTCTTCGACCTAA
>SRR1151209_02920 Na+/xyloside symporter related transporter
ATGGCAAAAGTACCGGTTAAGGCAGAAAAAACGATTCAGGCTGCGCCGCCGCCAATGACCAGCGCTGGCGAACGTCTCAGCTATTGGTCTTACTTTGTCGGCCAAAGCATGTCCTACACCATGCTCGGCGGTTTTCTCACCACCTACATGATGATGATCGGCATTGACTTGACCAAGATTGCGACGGCAATGGTGATCGTCAAACTGTGGGACGCCGTGAATGACACGATTTTCGGTGTGATCTTTGACCGGGTGAAATTCAAGAGCGGCAACAAGAGCCTGCCGTGGCTGCGGATGACGCTGGTCCTGATTCCGCTGACGACGATTTTTATCTACAAAATTCCTGGTGCCCTAAGCCAGACGGCGAAGATTGTCTGGTTTGTCGTCGGCTATATTTTGTGGGACACCGCCTATACGTTGAGCGACATTCCCATTTACAACCTGGTCACGATGATGACCACCAATCTGATCGAACGCAACAGTATCCTTTCCATTGCCCGGGTCTTCGCCCTGGGCGGGGCATCCGTCACCTCCATGCTGGCGACGGTACTGGTCAGTGAACGGGTCGGCTTCAGCTTTGCCCAGACCGCGCTGATCATTTCGCTGATCGTTGTCCTGACGATGATCCCAGTGGCGATCAAGGGCAAGGAGCGAATCAAGACCAAGCCGAGTGAGGAAAAGTACAGCTTCGGCAAGATGCTCCATTACCTGCGGAGCAACAAGTATCTGCTATTATTCTATTCCGGCTATATTATTTCCGGGGTACTGATGACCCAGGCGGCCATTGATCTGTTCGTTTCCTATTATTTATTTGGCAGCGCGCTGTTCAGTACCTTGATGCTGGTGCTTTCGGCCCTGCCGATGCTTATTATTTCGCCGCTGATCAACCGGATATTGAAACACGTGGACAAGTTCCGGCTGTTCTATTGGGCCAATGCTGCCTTTGTGGTCACCGGCCTAGTGGTCTTTCTGGTGGGGGTATAA
>SRR1151209_02921 Na+/xyloside symporter related transporter
GTGATTATCCGGTCGATTCCTTACGGCCTGATTTATACGATCAACTTGACCTTCACACCGGATGCCGTCGAGTATGGCGAGTTCAAGACTGGCGTGGATGCCCGGGGTGTCGCCTTTGCCATCCAGTCCTTCGCGGCCAAATTCACTTCGCTGGCCCAGCCCATCGGTTTGTTCATCCTCAGCCTGTTCGGCTGGGTGACGATCGATGCCAGCAGTTTCGCTCAGTTGCAATCGATGCATATTGAACAGACCGCAATGGCGCTGAACGGGTTATGGATCACGGCGACCTTGGTGCCGGTGATTGGCACGGCGTTGGCCCTGATTCCGTATCATTTCTACAAACTGAACGACAAGGACGTTCAGGTGATGGCGAAGTTCAATGCGGGTGAAATTACCCGGGCGGAAGCCGATGCGGCACTGTCGCGGAAATACTAG
>SRR1151209_02922 hypothetical protein
ATGGGGGAGACTAATACCCAACATCGACTGGCGGCGGTCTGGATCGGTATGGCGGTTATTCTGCTGGCCATTTGGGGCAGCGGTCTGGGACAGTCGGTCACGGCCGCAGTGGACCTGCCCGGCGACATGGCGGGCTACTATTATGATGGTGACGATGTGCTCAGTACCGCGACGATTGCCCGTATTAAGCAGATCAATTAG
>SRR1151209_02923 hypothetical protein
ATGGACACGCCCAACGCGCCGGAGATCGCGGTCGCGACTTTGGTGGATGCCGATGAAGACATTGACCAGTTGGCTGCTGATCTGTACAAGGCCTGGAACGTCGGTCAGGGGAAAAAGGATGTCGGCGTCCTAATCATGACCAATAATCTCCACGGGACGCGCTATGTGAAAATTGAAGTCGGAAATGGCCTGGCATCCGTGCTGAGCAGCACCCGAATTGGTGATATTCTCGATGCCAATCGCCAGTTATTGCAGTCTAAAGACCCGGATACAGTGGATAAAGGCCTTCGCCGGGTCTTCGATCGAGTGGCCAAAGCGGTCATTCCCGCAGCGGGGAAGAATAAGCCGGCGATCGTGCAGCGGACCGATGCGTTTATTCAGTGGCTGGTGAAGCTGCCGGATTGGATTATGGATCACCTTGTTTTAAGTATCTTGATCGCCATCGGTTTAGTGGCTTTGCGCGTCGTCATCGCCATCGTACTGCGCATGAGCAGCTTGCGGCATCGGGAAAAGACCGGTCGGAACTATTGGTGGGATCGGCCGCGATTATGGCAGGTCATGGGCTGGCATATCCCGGTCAAGGCCGCCCACTGGATCGTCCTGGCGCTGCTGGTAAGCTATCTTTTGGCCCACTTTGTGTTCCGCGCCAGCCACTGGCTCAATTCACTCACCTTTGTGGCCTTTTTCTTCGGCACGTTCTTCCTTGATCCCTGGGACTGGTTCACCGGGGTCTTGCGCATGGGCCGCAATGCCGGGTCGGGGTCTGACTCTAGTGACGGGTAG
>SRR1151209_02924 50S ribosomal protein L13
TTGCGTACAACTTATCTGGCTAAGCCAACTGAAATCGAACGTAAATGGTATGTACTCGACGCCACAGATATTCCTTTGGGACGTATCTCGGCTGCCGCTGCCACGATTCTGCGGGGCAAGAATAAGCCACAATTCACTCCGAATGTGGATACGGGTGACAATGTGATTATTATCAACGCCGCGAACGTGAAGCTGACTGGCCGCAAGGCCTCCCGCAAGTTATATCATCACCACAGCAACTATGCTGGCGGGTTGCGGACACGGACTGCTGGAGAAATCCGGGAGAACCATCCGACAGAGCTGATCGAATTATCGATCAAGGGCATGATGCCGAAGAACTCGCTTGGTCACAAGCAGTTCCTGAAGCTTCACGTCTATGCTGGTGCAGAGCATAAACAGACTGCACAACAACCCGAAATGCTTGATATTAACAAGCTTATTTAA
>SRR1151209_02925 30S ribosomal protein S9
GTGGCACAAACAGCAGATTATCTCGGCACAGGCCGGCGCAAGAATTCCGTTGCCCGTGTTCGTTTAGTACCTGGTACTGGTAAGATCACGGTCAATGGTCGGCCGGTTGAAGATTACATTCAATCCGCGCTCCTGATCCTTGACTTGAAGCAACCGTTTGGCGTTACTGAAACCACTGACACTTACGATGTTAAGGTCAACGTTTTCGGCGGCGGCTATTCTGGCCAAGCCGGTGCGATCCGTCATGGTATCGCCCGGGCACTGTTACAAGTCGATCCTGATTTCCGTGGCGCCTTGAAGAAGGCCGGGTTACTGACCCGTGACCCGCGGATGAAGGAACGGAAGAAGCCTGGTCTGAAGAAGGCCCGTAAGGCGAGTCAATTCAGCAAGCGTTAA
>SRR1151209_02926 hypothetical protein
ATGCCTTTTTTTGTTATCAAAAAGGGCCTAGTACTTTTGGAATGGAAATACTTTCCAACACCAAAAATTCTAGACCCCCTATTAGCAACCATCACGCCCTGCCGGGGCAAGCATCACGATGGCAATAACCGAGTCGCTGTTGTAAAATTCGAATTAGCAATGGCAAATGCTGACGTGTGTGACTTTAACAATATTGATGTCATGATTCACTTCATTAATATCGAGTTGCATCAACAAATTCTAATGGAGGTGGACCTCATGTCTAAATCGAAGTCCGAGGAATACGCTGATCGGATTATGCCAATCCTGTCCGAACAGCAAATTCTAGATAACTTTACTGACGAAGAACTCCGGCAAGTTGGTCTGAACATGGGTTACAACATTCCCCAAGGTACCAAGTTCCACGACCAACCCAAAAGCGAGCAACACGACGAGTCCGCAACACAAAGCAAATAG
>SRR1151209_02927 glutathione reductase
ATGGCTAATGCTGCTGGGGCCGCCGTTACCGTGTTTATGCGCGGGGACACCGCGTTGCGCGAATTCCATCAACCCTTCGTCAAACAGGTGATGGCGGATATGACTAAACGCGGGGTCGCTTTTGTGCCAAATGCCGACATCTCTGCCCTCACCAAGAAAAAAGACGGCATTGCGATCCACTATGGTGCGCAACAGGAAGAAACCGTCGATTGGGTTCTGGACGCCATTGGTCGTATTCCCAACGCGGACAAAATCGGCCTTGAAGCAGCTGGTGTGGAATACACGAAGCACGGGATTGTGGTGGATGATCACCTACGGACCAATATCCCCAATATCTATGCTTCCGGTGACGTATTGGCTAAGGACCAACCCAAGCTGACCCCCACTGCCACTTTTGAATCCTACTATTTGTTCCATTTATTGAGCGGCCAAACCACTGATCCAATCAATTATCCAGCGATTCCAACGACGGTATATACGTCACCACGGATCGCTAAGGTGGGCGTCACTCCTGAAGCCGCCGCAAACGGTAATTACAAGCTGGTGCACAATCATATCCCGGACGATTGGTATCGCCAGATCGACGAAGAAACCATGGGCGACAACATTTTGATTTTCGACCAGGGTCATCACTTAGTGGGCGCCACGGAATTCAGTGAGCAGGCGGAAGACTCGATCAACACTCTATTACCCGCCGTGGTATTCCACTACGATCAGGCGCAGATGTGGCAATTAGCCCACATTTTCCCGTCAATCAGCGCGTCCGCATGGCACAAGATTCGTTAG
>SRR1151209_02928 hypothetical protein
ATGACCGTTAATGGTGCGCTCCATCACGTTGAAATCTATGTTCGAAATCTGGCAGCCACTCGGCAATTCTATGACTGGCTGCTCGTTGACCACCTGGGCTACCATGTTTATCAGGAATGGGAGAGCGGTATAAGTTATATTCTAGGTGAAGGAACCTACATTGTCTTTGTGCAGTCTGAAAAGCTGGCCGTGCCTTACAATCGGACCAATGTCGGGCTTAATCATCTGGCCTTTAACATGATCGGTCAGGCCGCCGTGGATCGTCTGCGGACAGAGCTGGACACATTGGCGTATCAGGAGTTGTATGCAGCGCGCTATCCTTTTGCAGGCGGGCCGGACCACTATGCGCTGTATTTAGAAGATCCAGATCGTATTAAGATCGAAATTGTTGCGGTGGACGACTGA
>SRR1151209_02929 hypothetical protein
ATGGTAGCGGCGATCTATACCGCTATCGTCATTGGCTTGGTTGGCATCATTACGGTGGTCGGATTATTGACGCAGCTTTTACACCGTTTGACCAAGCTAGTGGCAGCGTTCCGGCAGCTGCGCCGAGCGCTGAAAAAGTAG
>SRR1151209_02930 endonuclease/Exonuclease/phosphatase family protein
GTGCAAGAAATTGATCGGCAGACCACCCGGAATCCAGGAGACATGCCAGCACAACTCGCCGGTGCCAACTACTATTTTGAATTTGCTAAAGCCATTGATCTGATGGGCGGCGAATACGGCATTGCGATTTTTTCACGGATACCACTGCATCAAGTATATATCCATCCGTATACCGTTTATGGGGAAGAGCGGCGGGTGTTCCAGCACGGTGTTTACGATGTAGCCGATAGCCAATTATCGGTGTACAATACCCACTTATCATTTGAAACGCCGGCCTTACGCCAGCAGCAAGTGGCGGAACTGCTCGCTGCAGTCAACGCCGACCCGGTTCCGCACAAAGTGATTCTGGGTGATTTCAACATGGACCAGGATCATGCAGAGTGGGACTCTTTGGGGCCAGATCTGTACCGCGTTAATGGCGATCACAAGTGGTACGACACGTTTACTTGGCGGGATGATACGATGAAAGTCTATGCCATCGATAACATCATCGTGACGCCCAACGTTCGCGTGGCGCACAAAAAAATGGCGACCCAAATTCTATCGGATCACCAGATGTTGGAAACAGAGTTGTCTTGGGCCTAA
>SRR1151209_02931 glycerate kinase
ATGCGGGCACTAGTCGCCATCGATTCATTCAAAGGTTCATTTTCCAGTCAGGAAGCCGCAAATATCGTCACCCAAGCCTTCAGCAAATACCGCATCGTCACCGACGCTGCGGCCATCGCAGATGGCGGGGAAGGGACCAGCGCCGCCTATTTAGCCAATCACTCCACCGCCATGTGGCGTCAGCTGACGGTGACCAATATGGTGGGAAAACCGATACCCGTGCAGTATGTCATCGACGCCTCCCAACACTTGGCCATCATTGATGTGGCTGAGGCCAGCGGGATTCAATTTGCAACGACCCAGGACGGGTTCGTCGACCCGTTAACCACCAGCTCAATTGGGACGGGAGAAATGATTCAGGACGCCACCCAGCAAGGCGTGCAAAAGATTGTCGTGGCTCTGGGCGGTTCTGGGACCACCGATGCCGGCATCGGTTTATTAGGGGCACTAGGCGTCAAGTTCTACGATGATCAAGGTAACGAACTGCCCCCCACTGTACCGTCATTGGCCAAAGTCGAAAAGTATAACGATGCGGCCGTCAGTCTCCACGACATCCAGCTGGTGGCATGCGCCGATGTGGATAGCCCGCTGACTGGTCCCACTGGAGCAGTCCAGATGTTCGGTCCGCAAAAGGGCGTTGATGACCAGCAAGAGAGTCTAGAGAAGGCCTTTTATCACTTCGCGGATGTTTTGGATCCCACCGAGCATGGGCAAGGAGCAGGCGATGGTGCGGCCGGCGGGATGGGTTTTGCGTTGCGGGTCCTAGGCGCTGAGCACATGTCTGGGTTTGATTTTATCGCCAACGATATCAATTTACCTTCTCGTGTGGCCCAAACCGATTTTGTCGTGACTGGAGAAGGCCGGCTAGATACTCAAAGCATCCATGGCAAGGTGCCGGTACGGATGGCCGAGCTGGCGCAAAAGGCCGGCAAGCCCTGTTTTGCCATTGTGGGCACCCAAGAATTGGACCTGGCCACGGCCCGGCAATACGGGTTGACCAGTGTCTTTCCCATCGTCGACCGGCCGATGACACTGGCCCAAGCCATTGCCAATGGAAAAGAAAACCTGGCCCGCACTGCTGCCCGCGTGGGTGCCATGGCGGCCAGCATGGATGGAGGTAAATAA
>SRR1151209_02932 XRE family transcriptional regulator
ATGACCATTACGCTGGGCGCACTATTGCGGGATCAACGAAAAGGGCAGGGGCTATCCATTGCCGAAATCAGTCATGACATCACCAGTCCATCATCGGTTTCGCACTTTGAACGCGGGCAAACCGAGTTGTCCGCTACCAAGTTTATGCAGCTGATGCGCCGGGCTGCCGGCCGGTTGGACTGGCCGCAATTTGAGTTAGAATACAGCGATCCTCAGATCCTCAGGACTATATGTATCGGTCCAATGTATTGA
>SRR1151209_02933 hypothetical protein
ATGTATCGGTCCAATGTATTGATTGGTGAAAAACGGCCCGCGGCGGAGTTTTATGCATTGGCCATGGACTATCTGCAGCGATACGAAAAGTCCCATTGGTTCTATGATCTGGCCTTTGCTATCATTGCTCGAGATTACGCCGCGACGCGATTAGGTATGGAATTACCGGCGCTGCCGCCCATGGTGTATCCGCCGGCCACGCACTACCTATTACATATTCAGCATTGGCAATCTTACGACGCGCTCTTGGCGGCGTGTATGCAAATCCATTGCAGTCTCACTGACTTGCATACCATCGTGACTTCAATGGCCGCGCCCTATCATAATCAAAATCAACCACCTGAAGCGGATCAAACGCAAAATATGGTCACGCAAGCAATCATGAACATTGTCCGGGGCATGATGATGGGCGGGGAATTTGCGACGGCCCGGGAACTGTTGCCGGTCATCGATACCTTTCCCCTCACGGATCTCAACCAATATATTCTGCGGGCGATGGATCACTTGATGCTGGCCTTCCATGATGATCCGCAGATGGATTTGCAGACCCCGCTGACTCAAATCACGGCAGGCCTAACCCTTTTGACGATTCAGGTTCATCCCGATCAGGTCCGTGGGGATTGGCAAAAGTTTATGACGACGGAAACGGGGCGGCACGAATGA
>SRR1151209_02934 XRE family transcriptional regulator
ATGAGCTTAGGTGAACATTACGGCAAGCTTCGCCAGGAACGGGGCTTTTCACTCCGGCAAGCCGCGCGGAACGATTTGACTGCATCGGCACTGAGCCGTTTTGAGAATGGCAAAACAGAACTTTCCGCCAGTCAGTTTGTGCGGGCCATGGCCAATTTACAATTGAATTGGAATGAGTTTTATGCGGCTTTACCAGAGCAGTCCAGTTTTCTCGCCCAAATTGATACCGCCTATTTGACGGGCAATCAGCCGTTCTTAGAAAAAGTGATCAATGCGGCTGATGCTGCAGGACAGCCGCTCACTGCTAACTTTGGTCGGTTGCAAGGAAACATTTATCGCAATATGGCGTTTCCCCACTTCGACACGGTCATTCAAACACTGTATACCGCCATCACCAGCGTGTCGCAATGGCGTATTCTGGAATTCCACATCGCGGAGGACTTAATTCTGAAACTGCCGGCCCATCAGGTGGATCCATTCATGATATCCGTCATCCGGCAATATGAGCGCGCTCAAAGTCGCGGAGTGACTGGTGATTATGTCACAGGTAATACGCTGTTAAGGGCAGCTTTAAGAAAGCTGGCCCAAGACCCGCCCGAAATTGACCGCGCCCACACGTATTTTGACCAGGTTGTCCGGCAGCGCGATTGGGAGGATGAGTACCTGATCGGCGGCGAATTGTTGGCAAATGAGACTGCCGCTTCACCGACCTTTACCAAAACCCAGACCCTTTTCCAGTTTTGGCAAGCCATTGGCAAGGGCAACGATTATTTTCGCCAACTGGTCACACCAATATTGCAGCGGCAAGGATTTTTACAATAA
>SRR1151209_02935 hypothetical protein
ATGGAACATACTCGACTGCCCGTGAAATCAACCCAAGGCGAGATTCTGATCGTGAGGGGGCGGTTTTACCTGTTGAAGAATTTGTCAGCTGCGTCACTACCACTGATCACGTTGCTTCTGCTCTTATCCGCCTGCGGTCAGTCTCGCCAAACCATCGGCGCGGCTACCGTCAAAACCAAAATCACGACCGCCAGTCAGCAATCCACCAACGATCAGCAAGTCAGTCATACCAATACCGAAAAACAAATCGATGTCACCCAATTCGTCCAGGACCATGTCATCGCGGCGCCCAAGTCGGATTGGCAAATCAATAAGGCCGGTGTCCAGGCCATCGCCATGTACTTACATACGCCATCCTGCAGCGCAGCTGATGCGCGAGCACTCCTTGACCCTGCGATTGTCAGCGACGGTGCAAGAATTGTAATCATCGACCTGAATAAGTTTGCTCAGGAACTCAACAACCGGCGGCTCGCCGATAGCGCTTATCAATTTACCGGGAATGGCGTCGTCACAATTGCTTACTAG
>SRR1151209_02936 small multidrug resistance protein
ATGGCGTGGTTATACTTAGTAATTGCAGGAATTTTTGAGATGGTATGGGCGACGTTTATGAAGCTCAGCAACGGTTTCACCCATATTGGTTGGACGATCGCGACCTTGATCGGGATGGTTGCTAGTTTTGGTTTCTTGGCCAAAGCGACGGCGAAACTGCCCATGAGTCTGGCGTATCCAATTTGGACCGGCATTGGCGCAGTGGGCACCGTCCTTATCGGTGTGCTGCTGTTCGGTGACCGGTTGAAGCCAGCGACTTGGATTTTTGTCATTTTGCTTTTCATCGGCATTATTGGCATCAAAATGACGGCCAGCGAAGGAGAAATTGGGCACTTGCTCATATTGTGA
>SRR1151209_02937 2-dehydropantoate 2-reductase
ATGAAAATTACTGTTGTTGGCGCCGGTGGTATGGGCAGCCGTTTCGCGATCATGTTGCATCAAGCTGGTCATAATGTTGAATTGGTCGATGGTTGGCAAGACAATGTCGACGCCATCCGGGCCAATGGCTTAAAGGCGGACTTTAACGGGGAACCCGTGACCGTCAAGTTACCAATTTATTCCCCTGCCGAGGTAGACGCGACGGGTGAGGAGCTGGACCTGATCATCGTCTTTACGAAATCCAACCAATTACGGTCCATGATGGAAGCCGTGAAGCCGATCATTTCGCCAGTCACTTATGTCCTGTGTCTGCTTAACGGCATCGGCCATGAGGATATTCTGGAAGATTACGTCGCCAAGGACCACTTGATTCTCGGCATCACCATGTGGACCGCCGGAATGACTGGCCCTGGCCAAGTGACTCTGGTGGGTAATGGTGACGTGGAGTTGCAAAACTTTGAACCCGCCGGTGAAGCTTTCACCAAACAAGTCGTGCAAGTATTCACTGAAGCGGGGCTCAATCCGAAGTACAGTGAGAACGTCAAGTATTCAATTTGGCGGAAGGCTTGTGTGAACGGGACCTTGAACTGCTTATGCTCGCTGCTGGAATGCAACATCGGCGAACTGGGCAGCACCACAGTGGCCCCGGACTTGCTGCACACAATTATTGCTGAATTTGCGACTGTGGCGGCTAAAGAAGGTATCAACTTGGACGAACAGGAAGTTTACGACCATGTGGCTGGTACATTTACCGCCAACATTGCGGGACACTATCCGTCCATGTATCAGGATCTGGTCAAGAACCATCGCGCCACCGAAATTGATTTCATCAATGGAGCCGTGTGGCGTAAGGGTCAAAAATATGGCATTCCCACACCCTACTGTGCGTTGTTAACGCAGTTGATCCATGCGAAGGAGCAATTGGTGGGAGCCGTGGAAAGGACGAAAGCGCATGTCTAG
>SRR1151209_02938 membrane protein
ATGTCTAGTAATGCCGCAACGCCTAAAATGACGCCGAAACTTTTCTTCAACAAAGTCTTGGCTGGTACCGCCACCGGGATCATCGTGGGGTTAATCCCTAACGCCGTCTTGGCAGCTATTCTGAAATTATTCGGGCAAAATCAAATCGCCCTGCAACTAACTCATGTCGTAGTCGTGTTCCAAGTCGCCACACCACTGTTAATTGGCGCCTTGATTGCCCTGCAGTTTGGTCTGGCACCACTGGATATGGCAATCGTCGCCGGGGCCGCGTATGTGGGTTCCGGAGTCACCCAGTTCAACGCCGTGGCGGTAAATCCGACCACGAAAGCGGCGGGGATGTATCTCTCTGCCGGGACCGGCGACTTGATCAATACCATGATCACCGCCGCCTTAGCCGTGGGACTCACGATGCTCATTGGGACAAAATTCGGTTCTGTAAAAATCGTCCTCTCACCCATCATCGTGGGGGCTGGGGCCGGTTGGGTCGGCTGGCTGATCCTACCTTATGTCGCCAAAATCACGACTTGGATCGGTAACTTGATCAACTCCTTCACGACGCTGCAACCAATCTTGATGAGTATCCTGATTACCTGCATGTTCGCGATGCTGATCATCACTCCGATTTCCACTGTCGCCATTGGGATGGCGATTCAGCTCAGCGGCGTCTCCGCTGGGGCCGCCGCCATGGGTGTGGCCGTGACCACAGTCGTATTGGTAATTCATTCCTGGAAGACGAACAAGTCCGGCGTTACCATCGCTGTGGCCTTAGGTGCCATGAAGTTGATGATTCCGAACCTCTTCCGCCATCCAATCATTCTGCTGCCAATATTGACCACCAGCGTCATTTCTGCCATTCCTGTTGCTCTATTCAGCGTTTCCGGTACACCGGCTTCCGCTGGGTTCGGCCTGGTCGGTTTGGTTGGCCCGCTGGCGTCAATTGATGCCGGCCTGAACTTCGTGATGGCCTTAGTCGTGTGGTTTGCTGTGCCCATCGTGGTGGGCTGGCTGTCACGGCTGGTATACGAGAAGATGCTGCATCTTTATGATGAAAAAGTGGTCTTCGCTTACTTAGGCGACTAA
>SRR1151209_02939 TatD family hydrolase
GTGATCGACAGTCATTTTCATATTGCCGGTGATGTAGGCTTGCTGACCCATTTAGCCCAGCGGCAAGCGGCCGGTATCGTCAATAGTCAAAATTCTGCGGAGTGGGCCGCTATTCAGCAGTGGCGGCAGAATCACCCAGGGGCAGCCATCACGGTGTCTGCCGGCGTGCATCCTTGGGACGTCAACCGCTTAACACCGGCCAGCATGCGGCCGCTATTGCAGCAGGCACCCGTGATTGGTGAAATAGGTTTGGACGCGGTCTGGACTAAGAATCCGCTCAGCCAGCAGCGGGTCGCCTTTGTGCAGCAGCTGGCCTGGGCTCGGGACTGGCATAAACCGGTAATTTTGCACACTAAAGGTGCTGAAAAAGAAATTCTGACCACGATCCGCCAATTCCCTAATCGTTACTACATCCATTGGTATGACAGCCCGGAACATTTATCCGACTATCTCCGCCTCGCCACCTATTTCTCCGTTGGCCCTTCCCTGGGTCTTGATCCAGCCGTCACGGCTCTGGCCGAAACAGTCCCCTTAGATCGGCTGCTCCTGGAATCTGACAGGCTTGAATCAATCACTTGGGCGACCGAGCAGAAAGTTGATACCTACGCCGACTATGATCGCTTCATGACCGATCTGCTTGCCCGCCTGGCACATTTGCGCGGCGTGTCTCCCGGCGCCCTGGCTGACCAGCTCACGGCGAACCTGACCCGCTTTTTGGCAAAAGAATAG
>SRR1151209_02940 gluconate 5-dehydrogenase
ATGGCAGAATCTGCGGAAGAAATTGCACAACACGAAAAAGAATTGGACCAATTCAAGATGAACTGGTTCAAACTGGACGGCAAAGTGGCCATTGTGACTGGCGGGAATACCGGCCTGGGCCAGGGGTATACGGTGGCTTTGGCCGAAGCCGGCGCTGATGTTTTGGTGGCCGGCCATGGCACGGAGCAGTGGGCTGAGACCCGGGCCATGGTGGAGAAACGCGGCCGCCGGGTCGAATTCATGCAAGTTGATTTAACGACGCCGGATGCAGCAGACAAGGTCATCCAGACGGCTTTAGATAAGTTTGGCCGCATTGACATCTTGGTGAACAACGCGGGCATGATCAAGCGCAATCCGTTACTGGAAAGCAAGGATCAGGACTGGGACAATGTCATTGCGATCAACCTGTCTGCGGTCTACCACTTGAGCCTAGCGGCGGCCAAGGTCATGGCAAAGCAGAAGTCCGGTAAGATCATCAACATCGGGTCCATGCTGTCGTTCCAAGGCGGCAAGTTTATTCCGTCCTACACGGCCGCCAAGCATGGTGTGGCCGGTCTGACCAAGGCCTTCGCCAGTGAACTGGGCGCCTACAATATTCAGGTCAATGCCATTGCACCAGGCTATATTAAGACCGCCAACACGACTCCGATTCGGGCCGATAAAGCCCGGAACCAAGAAATCTTGGATCGGATCCCAGCAGGCCACTGGGCAGAACCTTATGAACTCATGGGCATTGCTGTATTCTTGGCCAGCGATGCCGCCAACTATTTGAACGGGGCCATCGTACCAGTGGACGGCGGCTATTTGGTTCGTTAA
>SRR1151209_02941 hypothetical protein
ATGCCATTATTGGCGATTTTGATCGATGCCGTGACGTTAGGCGGGTATTTCATCATTTTGAATTTCGGCGCCGCCCGGGTGCCATTTTGGGGCTTGGCCTTGCAGGCAGCAGCGGCCAGCGTGCTGCTGCTCATGAGTATTGCCTATGGCGGCCGCCGCCGGCTGCGGTTTCGCGGCAATGAAGGCTACCGGCCCTATACACTGCGCTATGGCATCGTGTGGATGTCTTTTGCTGTCAATGCCATCGTCGTGGTGATGTATTACTTGAGTCTGAGCGGCGGGAATAACTTAATTATGCATTTTTATGGGTAA
>SRR1151209_02942 transglycosylase associated protein
ATGTTGCACTGGTTATGGGTCCTCATTGTCGGGGCCATTATCGGCGTGATCGCCGGCGCGATTACTGGCCGCTCTCTCCCCGGCGGCTGGATCGGCAATATTATTGCCGGCTTGGTCGACGCTTCTGCCGGTCAATGGCTCCTGGGCTCTTGGGGTCCCCAGCTTGCTGGCATGGCCCTGATTCCTTCGATTCTCGGGGCCATCATTTTGGTCGTAGTCGTCTCCCTCGTGCTCGGCCAAATGGGCAAATCGGCAAAAGCCTAG
>SRR1151209_02943 hypothetical protein
ATGAACTATCACAAAGAGACTCAGGATTTATTTGATTCCGCACCAGATTACGCCTTTGCCCACTGCATTGCGGCTGATGCCGGCATGGGCGCGGGCATTGCCTTGACCTTCCGCCGCTACTATCCCGAAATGCCTGGCGCCGTATTAAACGCCGAACCCGCCATTGGCGACGCCATCCGTTACGTCGGCCCCGATGACCGGGTGATCTACAACCTGATCACCAAAGGCGAATCTGCTCAACTCCCAGAACGCAGCGACTTCGAAGCCGCGCTGCGCACGCTGAAAGAAGCCCTCATCGCCCACCACGAAAAGAAACTCGCCATCCCCCTCATCGGCGCCGGCATCGACCGCCTGGATTGGCGCGAAAGTGCTCCGTTCATCCAAGAACTCTTTGCGGACACGGATATCGAGATTATGGTCTGCCGGCTGAAATAG
>SRR1151209_02944 endopeptidase
ATGGCAGAGACAACAGTACGGATCCAAGACGATTTATTTGATTATGTGAACGGCGAATGGGAAAAGAACGCTGTAATTCCCGACGATGAATCGTCGACCGGCGGTTTCAACGACCTGGCCCGGGATGTCGAAAAGAAAATGATGGGCGAGTTCGCCGACATGGCGGCAGGTAAAGAAGAAGCGCCGGACAAATACTTTGCCCAAGCCATCACGCTGTACAAGCAAGCCCTGGATTTCAAGACCCGGGACGCGGCGGGTATCAAGCCCGTGCTGCCGCGGCTGGCAAAATTGCAATCCTACCAAACACTGAGTGCTTTCTCCGCTGACATGGCTGAGTTGTCTCAGAATCTGTATCTGGTACCCTTCGGCGGCGGCGTTCAGCCGGACATGAAGGACACCAGCAAGAACTCCTACGCGCTGGCCGGCTTGGATACGATTTTACCGGATACGACCTACTATACGCCGGACAATCCCCAGGCCAAGCAGCTGCTGGCGGTCTGGGAAAAGATGGCGCGTAAGATCATTGCCGAGACCCCGCTGAGTGCGGCTGACCAGGATCAGTATATTAAAGACACCTTGGCCTTTGACCAAGAAATCGCTAAGCACGTGAAGAGCCGCGAGGAATGGGCGGATTATCCCGCGATGTACAATCCAACGCCGACAGCCGAAGTGGCCAAGCAATTAGCGCCGCTGGACTTTACGGGCTACTTAAAGGAACTTTTGCCGGTCGTGCCGGAACAGATTATTGTGGCTGATCCCCGGTTCTTGAAGGAGTTTTCTGAATTATTCAACGAAGAATCCTTCCCGCGCTTCATGCACTGGAACTATCTGATGGAGTTGCTGGGCAACACTGGGTTGTTGAGCAATGAGCTGCGGCTGGCGGGCGGTGAATTTGGCCGGGCGATGACTGGCCGGCCGGAAGCGCCAAGCCAAGAGAAGCATGCGTATCGCCTAGCCAACGGTCATTTCAGCGAACCCATCGGTATTTACTATGGCCGCAAGTACTTTGGCGAAAAAGCCAAGCAGGACGTCACCGAAATGGTGCAAGATATGATCCAGACCTACAAGGAACGGCTATCCGGCAACGACTGGCTGTCCCAGGCGACCAAGGATAAGGCCGTCGTGAAACTGAACAAGATGGTCTTGAAGATGGGCTATCCGGATCACCCGAAGAAGGTTTACGATCGGTTCCACGTGGATCCAGATAAGAGTCTGTTCGATAACATTATTGCGCTGGGCAAGGCGGGGCAGGCTTACAATGCCGAACAGTTGACCCAACCGGTGGATCGGACGGAATGGAACATGCCAGGCCATTTGGTCAATGCCAGCTATGACCCGTCCCGGAACGATATCACATTCCCGGCGGCGATTCTGCAAGCGCCGTTTTACAGTTTGGACCAGACTCGCAGCGAGAACCTGGGCGGTATCGGGGCAGTTATTGCCCACGAAATCAGTCACGGTTTCGATAACAACGGGGCGAAGTTCGATGAATTCGGGAATATGAAGGATTGGTGGACGGACGCCGACTTCACAGAATTCAAGAAGCGTACCCAAGGTATGATCGATGAATTCGATGGGCTCAAGGTCGCTGGCGGCACGGTCAACGGCAAGCAAATCGTCAGCGAGAATATTGCGGACGATGGCGGCTTAGCGGCGGCTTTGGCGACAGCGAAGAAGGATGCAGATGTGGATCTGAAGGCATTCTTCTTGAACTGGGGCCGGATCTGGCGGGAAAAGGCGCGGCCGGAGTATGCGAAGTTTATTTTGGCGATTGATGTGCATGCGCCGAATAAGCTGCGGGCGAATATTCAGGTGCAGAACCAGGATGACTGGTATACGACCTTCGATGTTAAGCCTGGGGATGGGTTGTATAAGAAGCCGGAGGATCGGGTTAAGATCTGGTAG
>SRR1151209_02945 MarR family transcriptional regulator
ATGCCTGCCACCACACCGATTATGCCGGATGCCATTTACGCGTCTTTGACCCATACCCACCGAATTCTGGACACCTTTTTGCAGCGCCGTTTGACCCCGCTGCAGCTGACCTTGGATAATTACTTAATCGTGTTATTTATTGGCCAGCAAACGGAACTCAGTCAAGATTGGCTGATGCAGCGGCTGGGCATCACTGCCAGTGTGGTCACCCGCCGATTGAAACAGCTGCAGGAACAAAAGCTGATTACGAAGGTGGCCAACCCCGATGATCGCCGCGGCTGGCTGGTCCAGCTAAGTGCTGCAGGGCAGCTGACCTATCAGAAATTGGTCGAGGTGCTTTTGGCCGGGCAGCAGCACCTGCGCCAGGGATTGACTGATGCCCAGCTGGTGACGTTCTATGCGATGCTGCGCCAGATTGAGATCAATGCAGCCCGACCGGAAGAAATGAAGTGA
>SRR1151209_02946 hypothetical protein
ATGCAGAACTTGAAACTTTTCACACCCACAGATAACGCACATGTATGGCTGGACGCTGATACATACTTGTATGCAGGGCCCACTGGCATCGTGTCGTTGAATCGGCAGGCGGGAGACGACGTAGAAACACTGGATCGGTTAAATTACCGTTTTTTCCGCAGCAATTTTCCCCTGTTCCTTTTCCACTATTTCCCAGCGATCTCCTTGGTCGATGTGCACACGCTGGAAGTTCGCCTAGACCAGTTCTATGAGAACACCGTGCGGTAA
>SRR1151209_02947 hypothetical protein
ATGCGCAAAGTATCACTACTCATGCTGGCGGCCAGCGGTGCGCTGCTGCTGGCTGCCTGTCAGCCAACTACGCCGGCCAGCGACCACAGCTCGGCAAAAACGTCGGCCAGCAGCCAAAGCAAGCAAAAAGAAGATGCCAGCCAAACGAGCAGCAGCCAGGACGTGAGTGATCTCAGCCCGAAGGACGCCCTGGCGGCAATCAACACCCAGCTGACTCAGGATCTGGCCGGAGAGCTGTATCTGCTGAAGACACCGCCAAAGAATGGGTACTGGCAGGTCAGCAGTACCGCCAGCGGGGACCAAACAATTTTGCAGTACACCCCCAGCGACACCAGTCAGGATCTGCAAAAAACCGCCACCGCTCAGTGGCAGTACCAGCTTACCTGGCGGGATTATACGAGCAGCGATACTGCCGCCGCGGCCGTCAACGCCGAACCGGTGCAAAGCGGGCTGAGTACCGTCAAGCTGGGTCAAGGCGTCACTGCCACCCAAACCGGCGGGCCCACGGCGCATTATTTGCATTGGGCGGATAACAAATGGGTGCTGACTGTCCAAGACAGCAGCACCCATGATGACGCCCAACCGTTGGCGGAAAAAGTGGTCAGCCAGCTAGCCAAAACGGCACTGCCGCTCCCCAGTGATAAGGGGGCGGTCACGCTGGTGACCCCTGCGACGGATGATTCCGGCCAACGAGTAATCTGGAATGATGGCGACCGGCTTTACACGTTTACCGGTCAGGATGCGCTGAGCACGCTGCGCTGGGCGGCTAGCCTGAGCAAGACCCAGGGCACGGCCGCGACCAGCAGCGACGATAGTCAGTAG
>SRR1151209_02948 2,5-diketo-D-gluconic acid reductase
ATGGCAATATTAACGGATACTTATACGCTGGCCAACGGCGTGCAGATCCCCAAGATCGGCTTCGGCACTTGGCAGGTTGCGCCAGGACAGGAGACTTACGACGCGGTTACTACGGCGTTAAAGTTGGGCTATCGGCACATTGATACGGCTTACGCTTATCGCAACGAAGCCGATGTCGGCCGGGCCATTCGCGATTCCGGGCTGAAGCGGGAAGACGTTTTTGTCACCACCAAGCTGCCCGCAGAGGTCAAAGATTACGACCGGGCCTTAGATACGTTCAACGAGACCATGGCCCACTTGGACCTGGGCTATGTCGATCTTTACCTGATTCATGCCCCCTGGCCATGGGGTCAGCGGGGGCAGGACTACACCGCCGGCAACCTGGCGGCGTGGGATGCCTTTGAAGAAATTTATCGCACCGGCCGAGCGCGGGCCATTGGCATTTCTAACTTCGCGGTCAAGGATATGCAAGCGGTTCTGGACCATGCGCAGGTCGCGCCGATGGTCAACCAGATTCATTGGTCCATCGGTTATACTGAACCGGAAATTACCGACTACGCGCAGAACCACGGCATGCTGGTGGAAGCTTATTCCCCGCTGGGCACTGGCCGATTGATTGGGAATAAAGATATTCAGGCGGTCGCGGATCATTACGGTGTCAGCACCGCCCAACTGGCCATTCGTTATTGTATCCAAAAGGGTGTGCTGCCGCTGCCCCGCTCAATCAATCCAAAGCATATTCAAGCCAATCAAGATATTGACAGCTTCGTCATTAATGCTCAGGATATGGCTGCCTTGAACGCGCTGCATCTGCGCTGA
>SRR1151209_02949 methylated DNA-protein cysteine methyltransferase
ATGTTGACCGAGTATTTAACGACGGCAGTGCATTCGCCCTGGGGCGAGTTCACGGTGATCACAGCACCCCAAGGATTAGTCTTTGTCGGCAGCCCAGGCCGGGTGGGGCTGAACGAGTGGCAGCAGTTTGCCCCGCAGTGGCGGACAGTTGCTGCCGCCCCGATGCCCTCGGATCAGGCTGTGGCCTTGCAAATGGCATTTACCGCTTACTTTACGGGCGCCCAGCACACGGTGCAGTGGCCGCTGGCGCCCTTCAGCACCGGCACACCTCAACAGCAACAGGTGTGGCAAGCATTAGCGGCAGTCCCGTACGGTACTACGATATCGTACACCGCGCTGGCGGCCCGCTGCGGGTTGGCACACGCTGTCCGGGCCGTGGCCAGTGCCGTCGGCAAGAATCCGCTGCTGATCGTGCTCCCCTGCCACCGGATCGTCCGACAAGATGGCAGTGTGGGGCAATACCGTGCGGGGACGGCGATGAAACAGCAGCTGATCACGTTTGAACACGACCAGCTGACTGTCTAA
>SRR1151209_02950 helix-turn-helix protein
GTGGATTCAACAAATACCATCGAATTAAAGATCCCCATCCACAGTGGCGTTGCAGAAATCGCGATTCCCGTGGATGCCTCGGAAGACGAATTAAAAACGATCAGTCAGAGCATCTTAAATACGTTACAAACATTGAAATCTTTAAATCCTGACCTGAATGTTGACGTGCCGGCCTTGTTTGGGACGCAAGAGGCACCGAAAAAGGCCGCTCCCGTCGCTGTTGCCCCAGAGGATAAAAAGGCTTCGTTTGTGATTTCGCGAAATAATAGTCATGAAGATGCGGCCCAAACTGCCGGCAACTTCCTACGCGATTTCCGAGAAGACCAAAACGCCGATCGCAAGAGTATCTCTGAGGCGACCGGGATTGCGTACTCTAGTGTCTTTAATTTAGAAAAGGGCAAGAGTGTGCCGTCTCTGGAAACTTTGGCGAAGATTGCGGACGCGTATCAGAGTGATGTTAAAGTCACATTCGTTCCTCGCGGTTAA
>SRR1151209_02951 lysyl-tRNA synthetase
GTGGCTAATCAAAAAGATGGTCAAGTGAACGACCAGATCATGGTGCGTCGCGAAAAGATGGAAGAGTTGCGGAAGTTAGGGATCGACCCCTTCGGCAAGCGCTTCGATACAACGACGAACGCCCAAGAATTGCATACCAAGCTGGATGAAGAAGATAAGGATGTCGTGAATGCCCACACTGTTCGGGTGGTTGTTGCCGGCCGAATGATGAGCAAACGGGGTAAAGGCAAGGTTGGTTTCGCCGATATCCAAGACCGTACGGGCCGCATCCAGATCTATGTCCGTAAAGACGTCGTGGGCGAAGATAATTACTATATCTTCAAACGCTCCGACTTGGGCGACTTCTTGGGGATCACCGGTACCATGATGAAGACTGACGCCGGTGAACTCACGATCCGGGCCGAACACGTCACCTTCTTGACCAAAGCCTTGCGTCCGCTGCCTGATAAGTATCATGGTTTAACGAACGTGGAACAGCGCTATCGCCAACGCTATCTGGATCTGATCACGAACCGGGAGAGCTATGACCGGTTCATTAAGCGCAGCCGGATCATTTCGGCCGTCCGGGAATTTCTGGACGCTAACGGCTTTATTGAAGTGGAAACCCCTGTCCTGCATACTCAGGCTGGCGGCGCCTCTGCTCGGCCGTTTGTGACTCACCACAACGCGCTGGACATTGATCTCTATCTGCGGATCGCTTTGGAATTACACTTGAAGCGGCTAATTGTCGGTGGTATGGAACGGGTCTATGAAATTGGCCGGGTTTTCCGGAACGAAGGCATCGACACGAAGCACAACCCGGAATTCACCGAATTGGAGTCTTACGCTGCGTATTTTGATTTCACCGACGTCATGGATGAAACTGAGGGTATTTTCCGTTACGCGGCCAATAAGGTCTTAGGTTCCGGCAAGGTGACTTATCAGGGCGAGACCGTCGATTTGGATCAGCCGTTCAAGCGGGTGCACATGGTGGATGCTATTAAGGAAAAGACCGGTGTCGATTTCTGGCCGGAAATGTCCGTGGCTGATGCCCAGAAGCTTGCTGACGAGCATGGTGTGAAGTACGAAGGGTACTGGAAGGTCGGGCACATTATCAATGCCTTCTTCGAACAATTTGTCGAAGAGACACTGAAAGAACCCACCTTCATTTACGGTCATCCCATCGAAATCTCACCGTTGGCGAAGAAAAACAGCGACGATCCCCGGTTCACCGATCGGTTCGAGCTGTATATTTTAGGCAATGAATACGGTAATGCCTTTACCGAGTTGAATGATCCGATTGACCAGCGAGAACGGTTTGAAGCCCAAGCCGCCGAACGGGCTGCTGGGAACGATGAGGCTCAGGGCATTGATGAAGACTTCATTGCCGCTCTGGAATACGGGATGCCGCCCACGGGCGGTCTCGGCATCGGCATTGATCGGCTGGTCATGCTCTTGACTGATGCCCCGTCCATCCGGGATGTCCTCTTATTCCCGACGATGCGGCCGGATACTACCGATGATGCTGAAGCTGATGCTATCGCCGACGTGCACGAAGACAATCAGAAGAAATAG
>SRR1151209_02952 tRNA-dihydrouridine synthase
ATGGAATGGAAAATCGGTTCTGTCACCATCCCCAACCAGATCGTCGTCGCCCCTATGGCGGGGATCACGAACGCCGCCTTTCGGGTGACCTGTAAAGAGTTCGGCGCCGGCTTGGTCGTCTGTGAAATGATCAGTGACCGGGGTATTATGTATGGGAACAAGAAAACCTTGTCGATGCTGTTTGTCGACCCTCGGGAGCATCCGATCAGCATTCAGATTTTCGGCGGGACCAAGGAGACCTTGGTTGCAGCCGCAAAGTTCGTTGATCAAAATACCGCCGCTGATATTATCGATATCAATATGGGCTGCCCGGTGAATAAAGTCGTCAAGACCGATGCCGGCGCCAAGTGGCTGCTGGATCCCAATAAGGTGTATGAAATGGTATCCGCCGTTACGAGTGCAGTGTCGAAGCCGGTGACGGTGAAAATGCGTACCGGCTGGGATGAAGACCATATTTATGCGGTCCAAAATGCCCTAGCGGCTGAAAAAGCAGGCGCTGCCGCCCTGGCCATGCATGGTCGGACGCGGAAACAAATGTACCGGGGCAAGGCCGATTGGAACATTCTAGCCGACGTGGCGGACCATTTGACTATTCCGTTCATGGCCAACGGCGACATCCGGACCCCGCAGGACGCCAAGTATGTTTTGGATAATGTGGGGGCAACAGCTGTCATGGTCGGTCGCGCCGCCTTGGGCGATCCGTGGATCTTGGGCCAAATGAAGACTTATGTAGAGACCGGTGAGCTATTACCAGATCCAACCCCCGAGGAAAAGCTGACTACCGCCCGGCTGCAATTGCATCGGCTGGTGGAACTGAAGGGTGAAAAGGTTGCGGTGCCGGAGTTCCGCCAGCAGGCCGCCTATTACCTCAAAGGCATTCCCCGCGCCGCCCAAGCCCGCGCGTCGCTGAATGAAAAGTGGACGGAAGCAGAAGTTGACGCGGTACTAGATCATTTTGAAGAAGAAGTACAGGAATACTTGGCCCACCGAGCAGCGCGCAAAGCAGAACGCGCGGAACAAGCTCGCCAGGCCGGCTAA
>SRR1151209_02953 heat-shock protein Hsp33
ATGGCAGATTATCTAGTTAAAGCAGTCACGACAGACGGCCATCTGCGGGCATTGGCCCTGGATGCCACCCAAACGGTGGCCGAGGCCCAGCAGCGCCATGACACATATGGCGCCGCCAGTGCGGCCCTCGGTCGGACCTTGGTCGGGACGATTTTGTTGAGTACGGCACTGCTTAAGGATGACGGCGAAGAGACTCTAACCACCCGGGTTCTGGGCGATGGTCCCGTGGGCGCGATCGTTGCTGTCGGCACACCCGCAGGAACTGTCAAAGGCTACGTGCAGCACCCCCACGTGCAGCTGCCGCTGAATACCGTGGGTAAGATCGATGTTCGCCGCGCAGTGGGCAAGGGCTTGCTGGCCGTTACCAAGGACATGGGACTCAAGCAGCCCTTCACCGGCCAAGTCCCCCTCGTCTCCGGCGAACTGGCCGAGGATTTTAGCTATTACCTGGCCAAGTCGGAACAAATTCCGTCCGCGGTGGGCCTGTCCGTTTTTGTCCAAGCCAACAATACGATCGGTGCAGCCGGCGGCTTCATGATTCAAGCCCTGCCCGGGGCGTCCGATGATGAGCTGACTAAGATTGAAAAGAGTATTCGGGCGCTGCCGCTGATTTCCGAAATGATGCGGGCCGGGGACACACCGGAAGATATTTTGACTAAAATCTTCGGCGCCGATGAATTAAAGTTCCTCAGCAAGAGTCCGGTCGCCTTCAAGTGCGACTGTTCTAAGGAACGCTTTGCCAAGTCCATCAAAGCACTGGGGTCTAAGGAAATTAAACAAATGATCGCGGCGGACCACGGTGCCGAAGCGGTCTGCAAGTTCTGCGGCAACAAGTACACATATTCTGAAGCAGACTTGCGGGCCATGCTGGCCTAA
>SRR1151209_02954 cell division protein FtsH
ATGAAAAATCGTAGGAATGGCCTGTTTCGCAGTGGGCTGTTGTATTTCTTCATCTTCGTTGTACTCGTAGCGCTGGTCTCGACGTTTATCGGCGGGAACGGGAATGGATCCCGCTCTCAAGAAATCAAGTCCAGTACGTTCATTACTGAGTTGCAAGATAAGAAGATCAAAGATTTCAACATTCAGCCGTCGGGCAGTGTCTATAAGGTTTCCGGGACATACCGGGAACCGCAATCTGTATCGACCCCAAGTAACGGGTTCGGTCTGTTCCAAACTGGCAGCGGCACCACGACCGTTACTAATTTCACCACCACCGTTTTGCCCAACGACGCGACCCTGAACCAGATTCGGGTTACCGCTAAGACAGCGGACGTGTCATACTCCACCAGCAGCGAGTCTAATTCAGGGTTCTGGCTGCAAATGCTGTTCTACTTTGTCCCGACGATCCTGGTGATCGCGTTCTTCTGGTTTATGATGAACTCTGCTAATCAAGGCGGAGGCGGCAATGGCCGAGTCATGAGCTTTGGCAAGTCCAAGGCCAAGCCGGAGGATCCGAAGAAGAACAAGGTTCGTTTCTCCGATGTCGCTGGGGCGGAAGAAGAGAAGCAGGAACTGGTTGAAGTAGTTGAGTTCTTGAAAGATCCGCGGAAATACTCTGCGTTAGGGGCCCACATCCCGCATGGGGTCCTGCTGGAGGGGCCTCCGGGTACTGGTAAAACATTACTGGCCCGGGCGGTTGCCGGTGAAGCCGGCGTACCGTTCTTCTCCATTTCTGGTTCAGACTTCGTCGAAATGTTCGTCGGGGTCGGCGCCAGCCGAGTGCGGGATCTGTTCGATAACGCCAAGAAGGCGGCACCGTCCATCATCTTTATCGATGAAATCGATGCTGTCGGCCGGCAGCGGGGCGCAGGCCTCGGCGGCGGTCACGACGAACGGGAACAGACTTTGAACCAATTACTGGTTGAAATGGATGGGTTCACTGGCAACGAAGGCGTCATCGTCATCGCTGCCACGAACCGGGCCGATGTCCTGGATCCCGCCTTGCTGCGGCCAGGTCGATTCGACCGGAAAGTATTGGTTGGCCGGCCGGATGTCAAGGGCCGGGAAGCCATTCTGCGCGTTCACGCGAAGAACAAGCCGTTGGCGCCGGATGTTGATTTGAAAGTCGTTGCCCAGCAAACCCCTGGTTTCGTTGGGGCGGATCTGGAGAACCTGCTGAACGAAGCGGCCTTGGTCGCGGCGCGGCGCAATAAGACTCAGATCGATTCCTCGGATATCGATGAAGCCACCGATCGGGTGATCGCTGGGCCGGCGAAGCACGACCGGGTGATCAGTCCCAAGGAACGCAATATGGTCGCTTACCACGAAGCGGGCCATGCCATCATTGGGCTGGTGCTCAGTGATTCGCGGACCGTGCGCAAAGTCACCATCGTACCCCGGGGCCAGGCTGGCGGTTATGCCATCATGCTGCCGAAGGATGATCAATTCCTGGTCACCAAGAAAGAGCTCAACGAGCAGATCGTGGGCTTGATGGGCGGCCGGACAGCGGAAGAAATTATTTTCGGTACGCAGTCCACAGGTGCGTCCAATGACTTTGAACAGGCGACCCAGATCGCCCGGGAAATGGTCACCAAGTACGGGATGACGGAGCGATTGGGTACAGTGGCCTTGGCCTCTGACAGCCAACCCTTCGTCGGTGCGGAATACGGGCAAGCCCCGGTTTATTCCCAAGCCACCGCAGCGGCCATTGACGATGAAGTCCGGCAATTGATCGACTCCGCCCATAAGCAAGCGTACGAGATCATCGAAGGCCACCGCGCCCAGCACAAGGCCATCGCTGAAGCATTGCTGAAGTATGAGACCTTGAACGAGAAGCAGATTCTCAGTCTGTTCAATACTGGCGAAATGCCGGCGGATCAGACGGACGAATATCCGTCCGAACAATCGGGGACGTTTGAAGAAGCCAAGAAGGCTTTGGAAGAACGCGACCACGAGAAGTCCGAACAGGAAGCTGCGCATAACCCGAGCAGCACTGCTGCCGAGAATCCAACGGCAGAGAGTGCCAGTGCGAGTGACGCGGCGAGTGCTTCCGCGAGCGATGCACCACAAGATCCTAACGATCACGCATAA
>SRR1151209_02955 hypoxanthine phosphoribosyltransferase
TTGCAGGAAGATATTGAAAAGGTACTGTATAGCCAAGATGAAATTCAGGCCACAGTGGCCCGCTTAGGGAAGGAACTGACAGCAGATTATCAGGGTAAGAACCCGCTGTTCATCTGCATTCTCAAGGGAGCCATCGTGTTCATGACGGATCTGATCCGGCATGTGGATGATTATGTGGAAATTGACTTCATGGATGTTTCCAGTTACGGCAACGCCACGGTTTCCAGCGGCGAAGTCAAGATTTTGAAAGATTTGGATACATCCGTTCAAGGCCGCGATGTCGTCATTGTTGAGGATATTGTGGATACTGGTGCGACCCTGCATTACTTGATCAAACTGCTCTCTACTCGGCAAGCCAAGTCTATCAAGGTGGTTGCTTTGATGGATAAGGTAGCCGGGCGCAAGCTGCCCGTGAAAGCTGACTACGTCGGCTTCGATGTCCCTAATGAATTCGTGGTGGGTTATGGCCTGGATTATGCGGAGAGATACCGCAATCTGCCGTACATCGGCGTGCTTGCCCCCCACGTATATGAATAG
>SRR1151209_02956 tRNA(Ile)-lysidine synthetase
ATGCAGGCTCTAAACGTCTTAACCCGCACTGATTTTTGGCGCCAAGTCCAGCAGCAGGGACTGATTACGCCCGGTCAAATGATCGTCATCGGCGTTTCCACTGGCGTGGATTCTATGACGCTGCTGGACCTAGTGCAGCACGCCCCGACCGCACTGCACTTGCACATCGGCGTCGTATACGTGGACCATCAGCTGCGGGCTCAGAGTGCCACCGAGACGGCTTTTATTCAAGATTATTGTGCGGCCCGCAAACTGCCGCTGCATAAGGCCGTTTGGCAGCACGGGCCGCTGACCCATGGTGTGGAAGCGGCGGCCCGGGATTTTCGCTACCAAACCTTTCAAACGGCTCTGACTGACTGGCGGGCGAACACCCTGTGGCTCGCTCACCACAATGACGATGCTTTGGAAACGCTGCTGATGAAGCTGGCCCGCTCCGGCAGTGTGTTTGAACAGCCGGGTCTGCGGCTTGTGAGCCGGCGGCCCAGCTACACCATTATTCGGCCGCTGCTGCCGTATCCCAAGTCAGCGATTCGGGCTTATGCAGCGCGGCATCAGGTGCCGCATTATGAAGATGCGACGAATCAGGATGAGACGATCCAGCGCAACCGGATCCGGGCGGCGGTGGTGCCGGTTTTCCACGACTTGAATGAGCGCAGCGCGGCGCATTTGCTGCGGTACACGGAAGAAATGACCGCGGCCCAGGGCCTGCTGGCGGAGCGGTTGACCCAATTGGCAGCGACGATGGTCACCCGCTCAGCGGGCAGCGTCCATTTGGACCGGCCCGCCTTCAATGCCTTGCCCCGGGGTCAGCGCAGTCTGCTGCTGCAATTTGTCCTGGCGGATACGCAGCCATTGACCGGCCGCCAGTTGGCCCAATGCCTGGATTTGGCAGCCAGCAGCCAGGCGGCCGGCAGTGTTAATCTGGCGGCTGGCTGGCAGTTTACGATGACCTATCAGCGCATCACAATTACCCGGGAAAATCAGTCTCAAGTTGGGGGTATTTTTTTGCCCGTCAGCCTATCATTATTAGGTACTGTTTTTTATCCTGATGGGCATGCTTGGCATTTGGCCCCCGCTGGTCCCGGTTTGGCTGTCCCGGCTGAGGTGGTTTTACGCCACCGTCAACCGGGCGATGTGGTCCAACTGGCTAACGGGCAGCATCAGCTGCTCCGCCGCTTTCTGATCAATCAGAAAGTACCGCAAAGCACCCGCGACACCTTGGTGCTGGCGGCGGTCGGGGAACAGGTCTGGTATATTCCCGGGCTGTATATCCGGCAGGCCCACCAATTGTCTGGTATGGGCCAACCTGATACAATGAAGAGCATGTTGACATACTACTAA
>SRR1151209_02957 S1 RNA-binding protein
ATGGCGATTGAAGTTGGCGCTAAGGTCCAAGGCAAAGTCACAGGCATCACGAATTTCGGGGCCTTTGTCGATATTGGTGAACACAAGACCGGTCTAGTCCACATCAGTCAGGTATCTGACAAATTCATTAAGGATATCCACGACGTGCTCACTGTTGGCGACGAAGTCACAGTGAAAGTGATCGGCGAGCGTGACGGGAAGATCAGTCTGTCCATGCGCCAGGCGGTTGATCACCCGCACGAAGAGCATCGCAGCGAGGGTCGGCCGAACCAGCAGCATTCGTTCCACAGCAATAATAACCGCGAAGGCGGCAATCGTGGCGGTGCACCCCGGAGCAGTGCGCCTCATTCCGGCGGCGGCAATCGCAATTTCGGCCGCCGGGATAACCGGCGCGGCAGCCGCGAGGAACGGCCAGAAGGCTTCGACGGCATGCTTTCCAGCTTCCTGAAGGAAAGCGATGACCGCTTGACCTCATTGAAGCGCAACACCGAAGGCAAACGCGGCGGTCGCGGCGGCCGGCGCAGCTAA
>SRR1151209_02958 UDP-N-acetylglucosamine 2-epimerase
TTGGCAAAAGTAAAAGTAATGACGGTGTTCGGCACCCGGCCGGAAGCCATCAAAATGGCGCCGGTCGTGCTGGCGCTGAAGAAACGCACCGCAGATTTTGATACGGTCACCGTGGTCACCGGTCAGCACCGGGAGATGCTCCAGCAGGTATTGGACATCTTCAAGATCGTCCCGGATTACGACCTGCACATCATGCACCAGAACCAGACGCTGGCGGATATCACGACCCGGGTGTTAGAAAACCTGGGGGCGATCATCGTCAAGGAAAAGCCGGACATCCTGCTGGTCCACGGTGATACGACCACCACCTTTGCGGCGGCCATTTCAGCCTATTATCAGCAGGTCAAAGTGGGCCACGTAGAGGCTGGTTTGCGGACGTGGAATAAGTATTCCCCGTTCCCAGAAGAAATGAACCGCCAGCTGACGGATGTTTTGGCCGACTTGTATTTTGCGCCGACCACGACCAGCCGGGATAATCTATTGAAGGAGAATCATCCCGCGGAGCACATTTTCATCACCGGCAATACCGCCATCGATGCGCTGCATTATACGGTCCATGACGATTATCACCACGCGGTGCTGGATCTGGTGGATCCTAAGAAGCGGATGATCCTGGTGACGATGCATCGGCGGGAGAACCAGGGCGAACCCATGCGCCGGGTCTTCAAGGTGATGCGCCGGGTGATCGACAGCTACGATAACGTCGAGATCGTGTACCCCGTGCATTTGAGCCCGGTGGTCCAAAAAACCGCCCATGACATTCTCGGCGATGATCCCCGGATCCATTTGATCGATCCGTTGGACGTGGTGGACTTCCATAATCTCGCCGCCCGCAGCTATTTCATCATGAGCGATTCCGGCGGTGTCCAGGAAGAGGCCCCGTCTTTGGGTAAACCAGTCCTGGTCTTGCGGGACACCACCGAACGGCCGGAAGGGGTGGCCGCGGGTACGCTGAAGCTGGTCGGCACGCAGACTGATAAGGTGGAACAGGCCATGCGTCAGCTGCTGGATGACCCGGCCGAATATCAGCGGATGGCCGACGCCAAGAATCCGTATGGTGACGGGCACGCCACTGAGCGGATCCTGGACGCGATTCTGTATTCCTTTGGCGAACGGAAAGAACGTAAGCGGTCGTTGAAATAG
>SRR1151209_02959 TetR family transcriptional regulator
ATGGCACGTAAGAAGACAATAACTCGCGAGATGATCCTCACCAGTGCCTACGACCTTGTCGTGAGTGAGGGATTCAAGAGTTTTACGGCCCGGAACATTGCCAAGGCAATGGGTTGTTCGACCCAACCGCTGTACCTGGAGTTCAGCTGCATGGATGATTTGAAGCGGGCAGTGATCGACAAGATCCAGGATTACCTGCGGTCCGACGTGTTTAACCGGCATTATACCGGCGATCCGCTGATCGACTTGGCGTTATCTTATATCGATTTGGCCAAGAATGACAAGCAGCTGTACCGGGCCATTTATATCGAGGATCATTTCGGCCACGAAGCCATGCGGCGATTCTGCTATGAATTGGGCATGGAGCGGCTGCAGATGTATCCGGAGATCCAGCAACTGTCGGAACGCCGTAAAAAAGACATCATTACCGGTAACTGGATTATTTCCACCGGTTTATCCGCCTTGGTTTCGGCCGGCTACTTGGATATTTCTCAGGATCAGATGGTCCAGATCCTGACGGCCCAGATCAATGATTTTATCGCCAATGATCGGTTCCACAGCAACGATAAGACCCCGGTGCATCAGACTTTGACCCGGACCAGCGACACGCGGGTCCGGCCGCAGATCAACATTCGCTAA
>SRR1151209_02960 aminopeptidase PepS
ATGTCCCATAGTTTTTCTGAACAGCTTTCCCGCTATGCAGACCTCATTGTCCAGTACGGTGTCCAGATCAAGGCGGGCGACACCGTTTTGCTGGGAATCAGTACCGACCAGACGGTGCTGACGGAGAAAATCGTCGCTGCGGCCTACGCCGCTGGGGCGGCGGAAGTCCTGGTGGAATGGCACGACGACGCCATTACCCGCCAGCGCCTGCTGCACGAAACAACGGAACGGCTGGTCGCTGTCCCCCGCTACCAATCGGCCAAGGTCCGTTATTGGCTGCAGCACAAGGCCAAACGGATCTCGGTCGTTTCCCAGGATCCCAATGCCCTGCACGGGGTGGATTCAGAGAAGGCCGCCAAATACCAGCAGGCCCTGGGTGCGATCAATCGGCCGTGGCGGGATGCGGTGCAAAATAATGATATTTCCTGGACCGTCGTGGCCGCGGCTAGCCCCGCTTGGGCCCAAGTTGTCTTCCCTGATCTCAGCGCCGCTGCCGCGACACAGAAACTCTGGGAAGCGATTTTCACAACGGTCCGCTTGACTGAAGATGATTACCAGAGCGCCTGGGACCGGCACATTGCCGATCTCACAGCCCGCGCCCAGTGGCTGAATCAGCAGCAATTCACCGCGCTGCACTACACCTCACCGCGTACCGACCTGACCATCGGCCTGCCGGCCCACCACGTCTGGGAGGCAGCCACGGCGCAAAACCCCGAGGGCGACAACTTCGTTCCGAACATGCCCACCGAGGAAGTCTTCACCGCCCCCGACCGGACCCGCATTGATGGCCGGGTAACGGCCACCAAACCGCTGGTTTACGGCGGCCAGACCATCAGCGGGATGTGGTTCGAGTTCAAAGCCGGCCGAGTCGTCCAGGCCCATGCCGATCAGGGCGACACCGTGCTCCAGCAGCTGCTGGCAACGGATGCCGGCGCTCGCTCTCTGGGCGAAGTTGCGCTGGTGCCGGACCCCTCGCCCATTTCGCGATCCGGCATTATTTTCTATAGTACGCTGTTTGACGAAAATGCCTCGGACCATCTGGCGCTGGGCGCGGCCTATCCCTTCTCCGTTGCCGGCGGCACCGCCATGACCGACGACCAATTGCGGGCTGCCGGCCTCAACCGCAGTTTAGTCCACGTGGACTTCATGGTCGGCAGTGCCGATATGGATATTGACGGCATCAAGGCCGACGGGACGCGGATTCCCGTATTCCGCAACGGTGATTGGGCCAAATAA
>SRR1151209_02961 amino acid permease
ATGCCTGATACAGCCAAGACGAGGTCCCACTATATTCCGTGGATCGTCGTCGCGTTAATGGATTTTGTGACCGTCATTGGTTTCGACGATATTATTTATAACTTTCAGAATCAAGGTCTCGTGGCCGTCACCAGCTGGGTGCTGATGACCTTTCTCTACGTGATTCCTTATTCCTTAATTGTAGCGCATCTGGGCTCGACGTTCAGCGCCGACGCTGGCGGGATTACCAGCTGGGTGCGGGAAACCAATGGGGACCTGATCGGCTACTTCGCCGCCTGGTTCTACTGGATCACCGGCCTGCCCTACGTGGTGGATGTGGCCAATTCCGTGGTCGTGTCCTTTGGCTGGATGGTCAATGGGGACGGGGATATTCAGTCCCACATGACCAATGCCTGGTTCGGCCTGCTCACGGCAGTGGTATTCGTGCTCTTCATTTGGTTCCAAAGCCGCTTTAAGAACAAGTCGCTGGAGATCATGTCGGTGGTCGGCGGCGGGGCGATGTTCATCATGACCGTGCTTTTCGTGTTCATGACCATTGCCGGGTTGACGGCGGGCAATCCGATCAAGACCCAGCCGTTCAACTTTGGCGCATTTTTACCGAAACACTTCAATCTGCAATTTCTCGCTACCTTCGCTCTCTTCATCTTTGCTATGAACGGGTCGGAGCTGGCGGCGCCGTATACGGCGGACATGAAGCACCCCAGCCGGGATTTTCCCAAGGCCTTGAAGATGATCGCCGTGATGACCATGTTCATGACCCTGCTGGGGACGTTCTCCCTGGGGGTGTATTTCAATGCCCACCACTTGCCTAATGACTTGAAGATGAACGGGTCCTACTATGCCTTCCAAGCGATTGGCCGCCAGTTCGGGCTGGGCAACATCCTGCTCTATCTGTTTGCCGGCGTCCAATGTATTTACATGCTGGCCCAGCTGGCGGTGATTCTGGACGCGTCCACCCGGGTTTTCCTGGGGGATATGGCCAAAAAATATATGCCCACGCAGCTGACGAAAGTCAACGACGCCGGCCTGCCGATCAACGGCTACTGGATGACGACGATTCTGTGCGGCATCATCATGGTCGTGGCCGGCTTTCTGCCTCAAATCAACGACATCTTCAACTGGCTGCTCAACCTGAACGGGATCGTCTCACCATTCTCCACCTGCTTCCTGTTCTGGGCGTTCATGATGGTCCGACTGCATTCTGATCGGTATCCGACGCCGAGTTATACGTATTTGAAAAACGACAAGGTCGGCTTCATCGTCGGCCTGTGGATGTTTGCCATCACGCTGTTCTTCGCCATCATGGCCTTCCAACCGGTGGACGCGAAACCGGGCACGCGGCTGTATACCTGGTCGCTGATCCTGAACATCCTGGTGACCCAGGGGATGGTCCTTCTAGGCGTCCTGATGCCTTGGATCGCCAAGCGCCAGCGGCAGCACGGTTTGGCGTTTGGCCGGCCGATGTGGTATCTGGCCACCGTCATTCTGGTGGTCGGCGGCGTGGCCATCTTCAGTTACGGGATTTATCAAGAAATCGTCCCGGCCAGCTTCGGGATTTGGCGGATCGTCATCACCGTGCTGGTGGACATCGCTGTGGCCTGGTGGGGATTGAAAGTGACCGCCAACGGGCGCAAGCAGATAATTGCTGAATAG
>SRR1151209_02962 recombinase RarA
ATGTCATCCTTATTCGATTCCATCAATGAAGCCCGTGAACCGCTGGCGGCGCGGATGCGGCCGCGGACTTTGGCGGATTTTGTTGGTCAGGATCAGCTGGTGGGTAAAAACGGGCCGTTGCGGGACATGATCGACCATGACGATGTGCCTTCCCTGATTTTCTGGGGACCACCGGGAACGGGTAAAACGACATTGGCCGAAATCATTGCCGAACAGACCAAGGCGCACTTCATTCATTTCAGTGCGGTGACCAGCGGCATCAAGGAAATCCGGCAGGTGATGAAAACGGCCGAGGAAGACCGGCAATACGGCGACCGGACGATCGTTTTTGTAGACGAAATCCACCGCTTCAATAAAGCGCAGCAGGACGCTTTTTTGCCCTACGTTGAAAAAGGCAGCATTATTCTCATCGGCGCCACGACCGAGAACCCGTCCTTCGAAATCAATTCCGCCCTGCTCTCCCGAGCGAAAGTCTTTGTCCTCCACCCCCTCACCACAGATGATATCGCGACGATCATCCAGCGCGCCGCCACCAGTCCGGCGGGGCTGGGCAAGCAGCATGTGCATATTAGTAAGGATGCACTGCAGATCATGGCGGAGTTTGCCAACGGCGATGCCCGGGTGGCATTGAACACGCTGGAGATGGCGGTGCTGAACAGTCCCCGGAATAAAGCGGGGGTTACTATAACCAAGGAGACACTCGTCCCGTTATTGGGCAAGAAATCTCTGCTTTACGATAAAACAGGCGAAGAACACTACAACATCATTTCTGCTCTGCATAAGTCCATGCGCAACAGCGACCCCGACGCCGCGATTTACTGGCTGGCGCGGATGCTGGAAGGCGGTGAGGACCCATTATACGTTGCCCGCCGGCTGGTGCGGTTTGCCAGTGAAGACGTGGGCCTGGCCGATTCCCGGGCGCTGGAGATTGCCGTCGCGGCCTACCAGGCGGCCCACTTCATCGGCATGCCGGAGTGTACGGTGAACTTGACGCAATGCGTGATCTATTTGAGTCTGGCACCGAAGTCCAACGCGGCTTACACGGCCTATGATGCCGCGAAGAAAGACGCCCTGGCCACCACCGCTGAGCCGGTACCGCTGCAGATCCGCAATGCACCGACCAAGCTGATGGCGGACTTGCATTATGGGGAGAACTACCAGTATGCGCATAACACTAAGGATAAGCTGACCACCATGCAGACGATGCCGGATAATCTGGTGGGTCACGAGTACTACCACCCGACGGATCAGGGGTCGGAGGCCAAGTTTGCGGCGCGGCTGGCGCAGATCAAAGCGTGGCATGCAGCGCATGATCCGAAAAGTGGCCCTGAAGATGGGAAAAAGCCGGCGGAGTAA
>SRR1151209_02964 hypothetical protein
ATGACGCGACCATTAGATGGAGAAGTATGGCACTACGAAGGTACTTTGAACGGTTTGCCATTGGCTGATGCAACAGTCCAGTTACGTCAGCCGCTCACGCCAACAATTGACCTGTCCACCCCGCGTTATATCTGGCTGAACCGCAGTGAAGTTAAGGCACCGCGGAAACGGGACACGAATGTCGGAACGTGGCGGGATCCACTTGGTGATTACACCGAGAATCAATTAACTGGCCAAATTTCATCAACACTGGCCAAGCAGGATGTGGTGTCATCGTCATTCAATGCCCCGGGCACAACGCACAGCATTGCGGCCAATTGGGCAGATGACAATCCCCAGGGGGATCCCAACAAGCCAGGACAATTCTCAGTCGACAAGGATAAAAAAGCCAAAATGTATTATCAGATGCCGCCGCAAAAGGCACCAAAAAGTACATTTTTCCGAGGAAAGGTCAAGGTGCAGAGAACGCAAGCAATTGAGACTTCCGCCGATATTACCATCCCGACTACGGTTGCCGGCACAGCAGAAGATTATTATTTTGTCCTCCTGAATAATGATACCCCGGATGAAATGTGGTACACGATGAAGAAGTCCTTCGTCGAGACCGGCGATCCAACGATTCATTTCATGGATGGCAAAGAGACCAAATTTTCAATTGCAGCGACGGTGGACCCCAACGGTAAAGGGGTGGGCAAATATCCCCAAAATTTGATGTTGTACATTCCTAAGGTAAAGGGAACTAAATTGACCAATGTACGGGTTGCGGCGCCGACTGGGATGACGGTGAAGGCAGTCCCAGCAACCATGCAGCCCAATCAGTTGTCGGCGATTACAGACTACTTTGACACTTACCAGCTCACCTTTAATCGGGCAGTGGATAAGCCGTTTAGTTATACTTATGAATATGAGGTAACCAAGGCGGCTGACATTCCTCGGGATGAGCCGTTCCAGGATATGCTGATGAGTGATACCCAGGCCTTGGCGATTTCCAACGGCCTCACTTTTGACGACCTCAAGGCAGTGAACTTGCACCACGTACCGAGTCTGGACTTCAAGAAACAGCCGGCCCCGGGAAGCAATGGGGCGATCTATGCGTTACCGGCAGAAAGTCTGGAGGAATCGTACTTTCAAGTGCGGGATAACGACCAGAGCATTGGCAAAACGCCGCATTCCTGGACGCTCACTGCGGCCATGTCGCCGTTCGTGGCCATTGGGGCCCAGGACCGGGATGACTTTAGGATTCATTGGGGCGGTCCATCAGTTACCAAGACCGGTCCGGTCGAGGGCAAGCCGGATGGCTATCACAACCCCACCGACCGCACCGTTTTCCCGGCCGGCAACCCGGCACCCAATGACTTTTGGAACTACTATAACCACCAGGCGGCGTATGTAACGGCGAATGACACGCCGACGGTATGCTATACACTGGATCGGTTGACCGAACCCGATGCCCAGGCGGCGGATTTGATCCGCTATTATCCAGAGGCCAAGCTGCAAGTGCCGACTGGCACCGGCGTGGTGCAGGATACGCAATATAAGGCGACGATTACGTATACGCTGACGACACCGGATTCGACGTTGAACTAA
>SRR1151209_02965 hypothetical protein
ATGGTTCAAATTAAAGATATTGTGCCGGTTCAAATGACAGATCGGACACCCAGCACTGGTGGGAAGCCCCAGATAGCTGCTCGAATCAAGCTCAAAGATGCCGAAGTGATTTTTTATAATGGTGCTGATCGGAGCACTCTGCACATCGTCTTACAGGAGTTGACTGTAAGCGGTCGTTGA
>SRR1151209_02966 macro domain protein
ATGCCCCTCACTCTCATTCGCCAAGACATCACCAAATTACCCGTTGACGCCATCGTCAACGCAGCCAATCCCCGCCTCGCCATGGGCGGCGGGGTCTCTGGTGCCATCTTCCGCGCCGCTGGTGCAGAACAGCTCCAGGACGCCGCCAACAAAGTGGCCCTGGTCGAAACCGGCCGTAAGCGGTCGTTAAACGGGTATATGGTTCGCGCCGTAGCCTCCTTGTATGCTTGA
>SRR1151209_02967 hypothetical protein
ATGGATTCACAATGTAACATTCTCATGCACATGGAGCAGAATAAAGGCCAGAAGTATGAAGCCAGTCTTAAACTGTACTCTCAGGATGTTCTAACAAGTATTGATCAGCGCGACATCCTGTCAATACCTGAATATTCATACTTCGATATTCAAATGTCTTCATCCAATTCGGACGATCGATTTCTAATACCCGAACTGGATGATTATTCCGTAGACAATCGTGTCGCAACTTCTAAGTCAGGTGCTCAATTCGCTTACTATCCAAATATTGCCTATATTCTTTTCTCTGGATCCTGGAATCATCAAATTGAATCCAGCAAACACCAAGACGTTCCATTAACTCCCGGATTCTATACAATTCAGGTAATCCATAACAACAAATCTTACTTTGCGTATTGGCAAGTTGTACCAAAAGATTTGAACGATGAAGAGTGGAAGTTGATGCGTCGTGATGTCGAGGACAAAGTTAGGGGCCTAGCTCTGGAGTATTCTGTCCATAAACGCAATGTGGTGCGAGCGCTTGAGTTGGGGCAGGTTGGCGACAATTATTTAGATGATGACACGGCCTTTTTGCTAAGCCAACAATCCGAGATCCAATTTGCGGTTGAACAACTACGCAATGAAGCAAAATTTCGCATAAGCAAGTCCTATTCTTGGAAACCAAGCGGAATGAAGGCCGAGATTGATCAAACAACCATGCGCATGATCGTTGATCGTCCAGATAAAAAGGGTAGCCTATATAGCCCGACAAGGTATCTAGAATTTAACGTGCCTGCCAATCAATGGTTGAAGCTCTTTATAGTAACGATAGTCGATGTATGTGTCTCACAAGTTTCCCGCATCACGCGAGTACTCGAGAAGCTGAAGAGTTCATTCCAATCAGTATCGCAATATAGGGGAAAACGTACGCCTTCAGAATGGCATTTTATTGAAGAGTCATATTCCCGAGGTGTTTCCGTGCTCTCTGAAGCAATGGCATCATTACAAAAACTCAGATATTATCTTTCAGATGTTCTGCACGATGACTTCTTATCTTCAGTACAGTTGCCATCTAATACTTCTCTTCCGAAAATACTCATGCTTAATCCTATTTATAACCTTTTGTATAAGTCGTACTCTTCTCTGAAACATAGATCACAACACATCCTATTTGATGACTACTATAGTAAGTATTGGAAGAAAACAGCACAACTTTACGAAATATGGACATATATTCAAACCTTGGATGCTTTGATTCAACTTGGATATGTTCCTCGGAGCGGTTGGATATACGATCAAAAAGCGGGAGAAACGTCACTCTTACTTCCGTTTCTTGACGAGGGAACACAGGTCCACCTATCAAATTCCAGCCTATCGTTATTGCTTACTTACAATCAGCCAATCAAATCACGCCCTTCCAGATCTACTCACGACCGCCCATTATTGACTTACTCTCCTCGCAATAAACCTGACATTCGCATTGACGTATTCACCTTATCAAATGACTTTCTTGGTAGCATTGTTCTTGATGCCAAATACAAGAAGCTAAACAAATTACTGAGCGAACGAACTACAGAGGGACACGGGCAATTAGCCGACCAGTTCCGCGCGTATCGCGATGACACATATTCCACGATTACAACTTTCAAACGGGTTGCGGACATTCGCATCGTTGAATCCGTGCTTGTACTTTATCCAAGTAATCCAGTTGATCAGTCAGTTTCAGTCCGAGAGAGTGCTAACCACGTTTATTACATCCAACTAAAACCCAAAACTGGCTTTGCAAATCTTATGGATAAGTTACAGGAGCGAATTGCCAATCTTCATGAACGTGAAACACTTTTAGATAACGACATCAGTTCGCCAAAATAA
>SRR1151209_02968 hypothetical protein
ATGAAACTGCCTACTGACATTATAGAAGGCAAACAAAAATTCACAATGGTCGGTTTTTTAGCTGATCGAGCGGACATTGTAATTGCTAAAAGCAATCAGATGATGTTAAGAATCACCCCTTGTACAGATTATCCAGATTCAATAGACCCAACCAATCTTCCACCAAAAATTAATGTTTTTGTGAGCCACAATTCTTTATACTATGAAGACGATGAGTCGGATGACGAAGAATCTCGAATTGACTCTGCGTACAGAGAATTCCAAAATAAATGGTTTGTCTCAACACCAAACTTTGCTTACAACGAAGATCGTCAACGACTGTTCGTAACCGCTTACGATGCTCATGTGACCGCACGAAACAGTGAATTCGATCTAAATACAATAAAATTAATTGAATTTCCAATTTATGAATCAACACATGAACACAATCGGCCGATCACTCAATACGAATTTGAAAAAGCTCTTATTGCGGGTAAAGTGGTCGGGAATAATCCCCTGTGGCCAAGCAACGCAAATGATGTCCCTCGTGGTATCATTTGGCGAAATACAACAACGAGTATGAGCCTGTATACAAACATCCAGTCACAGACCAACACTCCGACGGGCTTCTCATATGCAAGCGACAATCGCTCATTTCAGCGAGTCGCACTGGGTTTTGATGACAGTGAATGGCAGGAAAACTTCATTGAATTTGAGGGGATACCCATCGCATATGTCCCCTCCGATGTTTTCTTGAAATATGAGAAACAGGCAGCTTCTTTCACTCCCGAAAAGTCAGACGCCAATGACGATACGCTTGTTGTACAATCAATTCAGAATACTAGAAAGCCAATCGACGCTCCTTCTGAGGCAAGCACTGACAAAGCAGACGTATCGTCATCCATCAGATCACGTACTACCACAAGTGACAAACAAGGTTCTTTCATAATGGACTTCCAACGACAGACACAACAAATGGGGCTTCACTATGATTTGAGAGACTTGATTAACTTTCATACGGCAATGGAGAGCGACGGATTAGTAATTCTATCTGGACTCAGTGGTACCGGGAAGTCCCAGCTTGTCAGGGCATACGCAAAAGCACTTGGACTGATTATTGGGGACAGCCAATCTTCCCAATCCTCAAAAAAATTATGTTTTGTCCCAGTTCGTCCTTTTTGGGCCGATGATTCAGACTTATTGGGATATGCAGACATGGTGAACAATGTTTATCGACCGGGTGATAGTGGATTGGTTGATACATTGGTTTCAGCAAACGAACACAAAGATCAGCTTTTCATCGTCGTATTTGATGAAATGAACCTTGCACGGGTGGAGCATTATTTTTCGCAATTTCTTTCAGTACTTGAAATGCCATTGAGCAGCCGTTACATTAGGCTTTACAATTCACAATTAAAAACAAGGCTTTATAACAGTCAACAATATCCGGACCATATAGCCATTCGAGATAATGTTTTGTTTGTCGGCACTGTCAATACTGATGAATCCACATTTCAATTCTCGGATAAAGTTCTCGATCGTTCAAATGTAATTTCATTGCACATACTGCCGTTTAATAAAGAGTACAAGGTGGCCGATGAAACGGCAATTTCCTCGGAACAAGGTGAATTAACAACCTCCGAGTACCGTGCATTAGGAAATCAGGATGACAAGAAACCATTAACTCAGAAAGAAAAGTCTCTGTTATGGGACCTGCATGTAACCTTGAATGAAGAAGATCGAAATCTAGGAATTGGATGGCGGATTGTGCATCAGATTGATAGTTTTGTGAGAAACCTTCCAGAGATTGATGACGGAGTTTCGCGCGGGGAAGCAATTGATTTACAGCTTGTCCAACGTATTCTAACCAAGGTTCGTGGCTCGCAAGAGCAATTGCATGATTTGCTAGGTACTGGCAAGGAACCAGGAAAGTTGATTCAGGTCCTAGATAAATACACTGATATCTCTACCTTTGAGCAGTCACGTCTGTTGCTCACTCAAAAAACACAGGAGCTGACCTTGTATGGATTCACAATGTAA
>SRR1151209_02969 hypothetical protein
ATGGGCTATTCAATTTACACTCAGAGAATTGTTGAACTACTCCTATGGCCTTCAGACATAGAGATTCTTAAGGAGCTTTACGAGCGAGCTCCCAAAAAGGAAAGGGGATTGCTGGCCGCTCAGGACTCTGAGCAATGGCGAGAAAAGATAATCGAGTCATTGATAAGGCAAGGAAGTCACAAACGTGCCGGGAATCTTGGATATACACTGGATCAAATTGCAAAAGGGCGATTAGATACAGCCTTCAATTCCTACAGCTCAACCGGCATAATTAATTTGGATTCCTTCGCGAATGAATTGAAAAAACAATCTCCTGAAGCCGGATTTATTCTTCTCAATTTAACTAAGAAATACGATTCCAAGCAACTTTCCGAAAGCTTTGCTAAGAACCAGGTTCTCTGGGACAAACTTCAGTCCAACTGGCCAAAAATCAATTGGGAGAGAAAAGAGAACGCGGTACCTGCGAAGAGTGCACACGATTCAATTGACTTGCACAATATTACTGTGGAACTAGATAAAAGCAGAAAAGCAAATTCAAAGCTCAAAGCAAAAATGAATGCTCAATTAGAAAATAACCGTATAGTCTTAAATAAGTTACACGATAAATACAGCGAAGAAACTTCCGCCATAACTAAGGAACACAATATCGAAATAAGCAAAGCAAAAGCAAAAATAACGGACATGTATGATCATGAACTGCAATCAAATCGAGATACTTATGTCAAGCAGACCAATGAACTTAGGTCGATTATCTTACAGCAAAGCAAGGAACTCGATTTCCTTCGAAGCGATAACAAGTGTCTGATTACCGCCTTGGAACAGATGGTAAGTCTAGTCCGACCAGAGGGACCGATTTCTCTGATTGTCTCCGCGACCCACAGTACTTCAATTCTGAAGAATCAGATTTACATTGGAAATTCAACCCAACCAAGTCAGATTGCCCAGCTTGCAAAGATATTGCAAGTCAGACAAATCACGCTGATCCAGGAAACAACAAGTCCCCAGCTCCGCTACCAAATTCAAAAGAATTTGAAAGATGCGGCTTTTGAACCAATTGTTATCACTATATCAGGAGATACATTACTCAAAGGAGAGACAGAAAATGAAACTGCCTACTGA
>SRR1151209_02970 TM2 domain protein
ATGCAAAACGCATACTTATTGCACCAACTGACCACGCAGGAACGCATTCTAGTTAATTCGGAAGTTGAGAAACGCAAGAAAAGTACCGTGGCCCCCTATCTTCTGTGGTGGTTCACCGGCGTCATCGGGGGACACCGCTATTACATGGGTAAGACGGGCAGTGCCGTCGCCATGACCTTGATCACTGTGCTGACGTTTGGCATCGTGGCTATCGTCACTGGCATTTGGGCTTTCATAGATGTCTTTTCAATTTCCAAGTGGTTGCAAGAGGACCAAGATCGGATTGAGATGCAAGCAGCCACTGAGATTTTGAATTCTCGACCGGCTGCGCCAATTGCGCCGCGATCTCACGATGAGAACACTGATCCGATGGAGGTCTAG
>SRR1151209_02971 hypothetical protein
TTGTTGCCGAAAGAAGAGGCTGACCGGCCGATTTTTGGCGGATACGGCGTCAAGCATGGCCTGCTTAAGCCGTACGCCAGCGATTTAGACACAGACGAATACGGCTTTCGCCGCCGAATCTTTCAGTCGCTGCAATATCGCCGGAGTTTTGAGACGCGGGTGATCCGCGTGTTCCGAGAAACTTTTCCCGTGGCAACGCCTGACGATGTGAAAGCCTTCCGGAATTATGTGCGTGTGGATATCACCGGCTGGGATTATATGTATCTGTTTCGCCTGAACCAGGCGTTCATCGAGTTGAAGCAGGTCTTCAATTTGCCGCTCATGCCGACAGAGGAGCGTTATCTGGCGGCGGTCACGGCGGACGACAGTGCGGGAGAGGAAACTGCCCAAGAGCGCATGGCGGCAGAGGCCCAGCAACTGGATCGGCAGAGCGAGGCTCTCTTTGCGCTATTGCAAGAGAGCCATACAGCCGTGCTGGTGACGAAAGTCATGATCGATGAGATGATTCGGCAACAGCAGCATAGTACGCTGGATGCGGAGTTGAAGCGGGAGATGAAGCGGTTCAGGGAAGGGCATCTTTTACCTAGGATGATCCATGGCCCTGCTTCCGAGGATGTTGCTGAATACTGGACCAAGTATTTAGTGGATCATATGCCTGGATGGTGGGATTGA
>SRR1151209_02972 hypothetical protein
ATGGCTGCTTTGATCATCACCCTCATCCTATTGCTCCTCATCCTCATCCTTGCCGGCCGGCTGCGGTATTTAGAAAGCCAAGCCGTGGACCGGCAGTTGCAAGCCCACGTCACCCAGAACGCGGCCAAGATCAAAGGGGCACGCCGTTTCTATTTGAAAACCTTATACCGCAGCAATCCCCCGCTGGGGTTGATTCGTATTGTCACGATCATCCTCACCGTCATCGCTGGGGCGGCCCTATTATGGACCGTCGCGGCGCAGCTGGCCGTCGCGGATGTCATCCCGGCCGGTGCGGCTGATTTTCTTTCTGATCTCTTCACGACTGAAACCGCGGAACGAAACACGGCGGCCTGGATTTTGGCCGGCAGTGCCCTGTTAGCCAGCGGTCTGCGCTGGTACACGATCAAGGCGCTGCACACCATTCAAGATGCCGAAGATACCGGTCAGATGCGGGATGTCTACACCACGCCCCGGGAGTTGCGGGTCAAAATGGATAGCACGCGCCAAGTACAACTGGTGCTGATCATAATCGGCGCCGTGATGGTAGCGCTAGCCAGCCAGTTCAACCTCTACCCGGCAGATGCGGACACCACCGCCGATACCAGCCAATCGACGGCCCAGTCATCCGCATCGTCCGCATCCAGTCAGCAGTCCTCGGCAAACAGCACTGACACGAGTAATCCGGCCCCAAAACAAGACCCCCATACCCCATTGGGAGCCTTGCAGGCGGCAAAAGACGCACCGCTGAGTGTGGCGGATAAACTAACCGACGCGGATCGGGCCACGTTAATCTTCATGGCCTATTGGGCGATGGAGGGTGAAGACCCGGCCACCCTATTCGACCGGGGCACTGCCGGTTCAGACTATTACTACCACATCATCCCCAACAACGGCCAGCCGCTGTACGTTTTCAACAGTCACACCCCGTCCAGCAATACAACCGCCAACATGTTTGTCGCCTGCGTGGATAACGGGGACGTCTGGTTCTATTCCCTTTACAACTCGCCCAGCCAAAGTCCGCATCTCAGCGACATCACCGCCCTGACCACCCAAAACGGCAGCGCCAGGCCAACGGACCAACCCTTGGCTAATCAGAGTTTTCGTTTCCGCCAGATGATTACGCTGAATTATCAGCAAACCGGGTATGCCCGGGTGCATCAGATCTTGCAAAATGGCTATGCGATGACGCTGTAA
>SRR1151209_02973 potassium transporter Kef
ATGGAAAGTGTTTCTCTGGTCATTGTGCTGCTTGCGGCATTAATGATCCCGTTACTGATGGCACGCCTACATATCACCAACGTACCCACCGCGGTGGCTGAGATCATCACTGGCATCCTGCTGGGTCCCAGTCTGCTGAACGTGGTCCCCACGAATGCGGCCTTGAATCAACTGAGCAGTTTGGGCGTGATCGTCTTGATCTTTTTATCCGGGATGGAAATTGATTTTTCTCTGTTTGGCCGGCAAAAAGACGGCAGCCAGCAGCCTGGTCCGGTTAGTATCGCGCTGCTGGCCTATGCCAGTGTGATCGGTATGGCCTTGGTGGCGAGCTTGCTGCTCCAGGCCACTGGCTTGTTCAGCCATCCGGTTTTTGCGACTATTGTCTTTGCCACCGTCGCCCTGGGCGTCGTGATTGCGGCGCTAAAGGAAAAGGAACTGCTATCCAAACCCTTTGGCCAGACGATGCTGTTGATTGCCGCCTTGGGGGAAGTCGTGCCGTTATTGGCGCTGACGATTTATTCCGCCGTGGTCCACCCCACGGACAAGAGCATTTGGCTGCTCTTGCCCATTTTCGTGGCGGCAATCGTTCTCTTGCTCCGATTTCGCCGGCCGTACCAGTGGTTCGCTCAAATCGACAAGAGTACGACGCAATTGGATATTCGCCTGGCGTTCTTCTTGATCGTGACCCTGGTCACTGTGGCCGCACAAGTGGGGGCGGAGTCCATTCTAGGCGCGTTTCTCGCTGGGATCGTGATGAAACTGCTTCATCCTCGGGAAGAAACGCGGGACAAGCTGACCAGCATCGGTTACGGCTTCTTTATTCCCATTTTCTTCATTATGACCGGGGTCAAGATCAATCTGCGGACACTGCTGGCGGACCCGGCCAGCCTGGGCTTGATTCCGTTGCTCCTGCTCGGCTTTTTGCTGGCTAAAGTCCTGCTTTGGCCGATCCTGCGCCGACGCTTCCAGCCGCGCAACGCGATTGCGGGGACCTTTCTCATTTCGACCACGATTACGCTGGTCGTACCGGCGGTCACAGTGGGGCGGAATCTCGGCATTGTGACCAGCCAGCAGGCCGGGGCCTTCACCCTGGCGGCGGTGATCACTTGTCTTGGCGCGCCGATTCTCTTTAATACGTTCTACGTGCAAGAAAAAGAAGATTACCAAAAAACGGTGGTCCACTTCATTGGCACCAATATTCTGACCGTCCCCATCGCCCAGCAGCTGACCAAGGGATTCTACGACATTACGCTCTATACTGATGATGCGACTCGGTATAAGACCTACAATTCGGAGACCAATGTGCGTTTCCTCGACGAATTCACTGCGGCTAAGCTGCAAGCAGCGGATGCTTCCCAGGCTGATATTGTCGTGTTGGGCTATTTTGACCACGACAAGAATTACCAGTTGGCGCAATGGGCGATTACTGCCAAGGTGCGGCGGATCATCGCCCGGTTTGAAAATAAGGATATCCAGAGCAGCGAGTATGATGAGCTGACCGCCCAAGGGGTCGAGATATTCAATACATTAGAGGCCAATATTTCGCTGTTGCGGGCGCTGATCGAATCGCCGGCGACGGTGCGGATTCTGTCCGATACCACGGCCGGAATTTATGAAATCGTGGTTCGTAACCGGCGGTTCACGGGGATGCAGCTTAAGAATCTGCCGTTTATTGATGAGATCACGGTCAGTCAGATTTATCGGGATCACGAGTTTATTGCGCCCCACGGGGATACCCAGATTCAGTTGGGCGATCACATTATCTTTACGGGCGACAAAGAAGCCGTCGGGGATATCCGGCGGCAGGTAGAGTTGTTGAATTGA
>SRR1151209_02974 3',5'-cyclic-nucleotide phosphodiesterase
ATGACTAAGCAGATAGCACCCCAATTGATCGTCCTTTCGGATCTGCATCTCAATGGGCATCCAGAGCGGCATCAAATAGTGGTCCGTGCCCTGAAAACGGCGGCAGAACAGGCTCCGGCGGCCCATTTGGTGGTCAACGGTGATTTGACCGACACGGGCACGGCTGAGCAATTTCGAGAATTCAACGACATCATTGCCGCCAGCCCCTTTGCCCGGCGGACCTGGGCGACGTTGGGCAACCACGATGTTCGTGGGCCGCATTGGCCGGACTGGGATAACAGCGAGCAGGCTGATCCGCAGCATTTCCATGCGGTGACGGAATCTTTCTATACGCAATATTTGCAGTCCCTGCCGGAAATTGATCGGCAGGCTCTAAGCTTTGTCGTTCATTTGGCGGCATACCAGCTTATTTTTCTCAATACTGAAAAGGGGTTGAAAGATTCGGCCTATTTCAGTCCAGAGACCTTAACTTGGCTAGCTGATCAATTGGCCCAGGCGGCGGCCATCGGTCAGCCGACGCTGATCTTCTGTCACCAGCCGCTGCGCCAGACCCATTGGCGCAGCAACTTTGGCGGTGGGGTCGGGTTAGAGGACCAGACGCTGAAACAGATCCTGACGGCGTATCCAAATACGTACTTCATCTCTGGCCACATCCATAACGGCTTCGGCGTAACTGGCGTAGTTGAGCGGCCCTTTGGTACGGCAATTGATCTGCCGGCATTAGCCGTGAGTGAAAACGGCCATGTAGGCCATGGTCTGGGCTTCATCACGATACTGGGCGCAGCTGACCAGCGGTGGGCGGCTTGGGATTTTGGCGATCAGACGCGGCTGCCGCAGTATGATTTTTATGTCGCTGTGCCAACCACGGCGGTGCTGATGCAGACGGCACGTCAGCAGATCGCAGCGGGGCACCTGGCGGCACGGTATGATACCGCGCTGGCAGCGTTGGCAGAAAAACTGGATCAGCGCTTTGACCAGCATTTATTTGATGATCCGGAAACCGATGGCGGGATGCAGGCTCCGCCCGCACCGTTGTATACCGCTGGGGAGATCACTGCCATGCAGGCCGGCCACACGCAATTGGTAACCGCTTTGCGCAACATGCCCTTGGTGACCGCCCCCCGTCACCAGCCGGTTTTGCCGGCTCTGCAGGTACCGTTAAGTGATTTGGCGCAACTGGCCTTGGTGGCCAAGACGTTGTGGGAATCGCCCAACTTTTCAGTCCGCAGCCATCTGGCTCTGCAATTTTCCCTAGCCCGGCTGAATTTGATTTTAGCGCACCCCACTGAGTTTACCGACGCGGCCCGGACGACTGCAGCGAAGCAAGTCCGGCAGGCCATCGCGGATCTCGTGGCCGCTCCGGACAAGACCGGCCTCATGACCGGCTGGCGGCAGTTGCTGGAGCGGCCGGCCACGCCGCAAAGCAAAGAGTTAGCAGCCCAAGTCCAGCTGGTGCTCCAAGATCCGGAAGCTACGACGGAAACGATTCAGCAATTGCAGCAGGAATTGGCATCAATTTTAAATCACTAA
>SRR1151209_02975 endonuclease III
ATGACCGCACCGTGGCGCATTGTTTTTGATAATTTAGCTGCCCATTACGGCCCGCAGCATTGGTGGCAGGAGGACCAGTTGGGGGATTGGCTGATGATGGTCCTGGTCCAGCAGACCAACGCTCGTAATGTGGCCCTGGCAATGAATAATTTGCAGGATGTTTTGAGCGTCGATCAGCTGCTGGCCCTGACCCCGGAGGAACTGGCCGAGCGGATCCGTCCGGCCCGGTTCTATCTGCAGAAAACGGCGCATCTGCGCGGCTTGCTGACGTGGTTTAAGGAAGCCGGCGGCGATTTTGCCGCGTTCAGCGCCCGGCCAGCTGACCAATTGCGGAACCAGTTATTAGCGTTACCGGGCATCGGTCCGGAAACAGCGGACGTGATGCTGATGTACACCTTCGGCAAAAAGACGTTTGTCGGAGATGAATACGCCCGCCGGTTGAGCCAGCGCATCGGGTTGGGGGTGTATAAGACTTACGCGGCGATGCATGACGCGCTCCAGCCTTTCGCCGAGACGCTCACTTTGAACGAGGCGCGCGAATTGCACGCGCTGATCGATGAGCATGGCAAGCCCCAGATTGGGTATCCCTATGATGACAGTTTTCTCACCACGCCGGCCGTGCCGGCGGACCAATAG
>SRR1151209_02976 major facilitator superfamily transporter
ATGGCCGAAACAAAGACTGGCGCGATTCTTTTTGCCAATGGCGGCATCAATATGGGCATTGGCTTGATTATGCCGATCACGACGCTGTATATTCATCAAAATCTGCATGAAAGCTTGGTTACCGCCGGAGCGGTATTGATGGGCTTCTCTTTAGCTATGACGGTGGGGAACATACTGGCCGGCTGGTGGTTTGATCATGCCCAGCCCCGGCAGGTGCTGTTTGCTGGTAATATACTGACCGTCTTCGCCCTGCTGGCACTGACTATCTGGCCGGCGTGGCCGTTTTTTTCTTTGCTGGAGATTCTTTACGGGTTAGGTCTCGGCATTTTGAATGCCGCGATGAATGGGTATATTGCGTATCATCAACGGGTCAATGCCAACATTTTTAACCAAGGCTACTGGATCGCCAGTGTTGGCATGGGGATTGCCACGGCCAGCAGCGGCTTTCTATTCCGCCAGGGTATTCGCTGGGTTTTTGGCGGGGCGGCGCTGCTGTTAGCGGTCACCTTTGCGGTGATTATGCGGGCTTTTCAAAATATTGACCGTGCCCCGGCGCCCAGCGAGCGCCAACGGGGGCCCATTGATCGCCGACTGCTGGGCAGTTTAGCGGCCATTGCCGGGATGCTGATCATTATATGGATCGGCTACGAGCAGTGGAACAGTAATGTATCGGTCTTGATGCTGCATCACGGCATCAGTGTGGAGAAATACAGCCTGCTGTTCACGGTGAATACGGTCGAAATTATTCTCTTACAGCCGATTGCCAACCGATTGATCGCGCCGAGCTTTGTCCATGATAAAGTCAAGGTCATCGCCGGCAGCATCCTATTCGGTCTCTCTTACCTGATTATCGTGGGGGCTGCGGACTATTGGCGGTTCGTGCTGGGAATCATCGTGGTCACGCTGGGCGAGATTCTGGCCTTGACGGCAGCGCCGTCTTTGATCAACCGATATGCGACCGACCGCAACCGGGGGATGCTGCAATCCTTAACCAGTCTGTCCGGTTCGCTGGGCCGGGCGATCGGTCCCCTGGCCGGCGGTGCGCTGATCACGGCGGTTAATTATAATTGGACGTTCTTGATCCTTTTTCTGGCCCATCTGGTGGGGGTGGCGGCGATGCTGACGGTGCGGCCGCCCGATCATCAGCAGGGCGCAAAAGAATAA
>SRR1151209_02977 transposase
ATGATTGAGCTGCTTGGTGCCTTACCAGCTAACCGAGTAAGAACAGTGACTCCTGACCGTGGAAGGGAGTTTGCCCGGTACAGGGAGCCGGCAGAACGTCTGAATACAAAGGTCTTCTTTCCTGACCCACACGCGCCTCAACAACGAGGAACTAACGAAAACACCAACGGACTGATTAGAGAATACTTTCCCAAGAACACAGACCTAGACCTTCAGAGCGACCAGGAAATTGAGACTTACATTGAACAACTGAATAATCGACCACGCAAGGTCTTAGGCTGGAAGACGCCATCAGAAGTCTTCATGGGTAAAAAGTTGCACTTGAGTTGA
>SRR1151209_02978 sortase
ATGACCCACCACAAGGATCGCTGGTTTTACACCCTCTTTGGTAGCTTATTTGTGCTTGGTTTCATCTTGTTGCTCCTGCCTTTTGGGTATGACGCCTGGCTCAAGCATCGCAACCAGCAAGCTGTAGTTGCCTATGAGCAGCATCAAGCCAAACAAAGTCCTAAAACTGCGCTGATTCAGCAGTATAACCGCAGGATTGAAGCCGAGCAGCTCGGCGGGCCGCTGCCTGAGTCGGTCAAAATTGGCCAGATTCACGCCAACCTGCGCACGCCACTGGGCTACATTGACATCCCCGCTGTCAACGTTGATAAAACCCTGATCTACTACGGTGATTCTGAGTGGGCGCTGAACCACGGCGCCGGTACCATGCCGCACACCAGCCTGCCCGCTGGCGGCAAGGACACCCTGGCGGTAGTCACCGGCTACTCCGGCCTCGCCAACCGCATCGTGTTTGACAACATTCGCTATCTCAAAAACGGTGACGTTTTTTACCTTAACACCTTTGGCACGCGCAAGGCCTACCGCGTCTATACGCGCAAGGTCGTGGACCCCGATGACAAACAGGCGCTCAAGGCGGTCTACGTGCAACCTGGCAAAGACCGGGTCGTGCTGTTAACCTGCACCCCGCTTTTCATTAACACTGATCGCCTGTTGGTTTACGGGGAACGCATTGCGCTTAAAGCTGCTGCACACACCCCCACCCACCGCCGCGACCTGTTTCGACTGGATCACATCTGGGTGGCAGTGGTCCTGCTCTTCATGGTGATGCTCGTCGCCATTTTCATCTGGCAACAGCGCCGCCGGGAAGGAGCCCGTCATGAAAAATAG
>SRR1151209_02979 sortase
ATGAAAAATAGCCGCCGCTCACGCCTCTTTGATGTGTTCCTGGTAGTCACCCTGTTTATCGGCATTGCGCTGTTCATCCTGCCATTCGCCTTCGACTGGGAACAAACCAACCAGCGCGCCCACAGCGAGACCACCTACAAGCAGGCCTATATCCCTCAACCCGACGGCCTGCAAGCCAAAATCGACGCCTATAACGCCATGATTTTTGCCCAACAACAAAAGCGCCCCAGCAGTAAGGTGGCCATCACCAGCATTCAAAAGAACCTCAGAGACCCGATTGGCTACCTCGACATTCCCGCCATCAAATTGCGCGCAATGACCATCTACTATGGTGACTCCGACTGGGTGCTGAACCGAGCCCTGGGCACCCTACCGTTCACCAGCCTGCCGACTGGGGGCAAGAACACCTTGGGGGGATCACCGGCCACTCCGGCTTGGCCAACCGCATTTTCTTCGACAACATTCGCTACCTCAAAAACGGCGACATCATCTATGTCAACGTTTTGGGCAAGCGTCACGCCTACGCAGTGGCGGCTAAAAAAGTGGTCGACCCGGAATCACCAAGCGCGATCAAGGCCTTCTATGTGCAACCCGGCAAGGACCGCATCGCGCTGA
>SRR1151209_02980 sortase
ATGCGCAGACTCATTAAGTGGTTCATCTGGCCGGCACTCGCCATGCTGGCCAGCATCGCGCTGGTAGCAGCTGGCTACCACCACCTGTTGCAAGCCCCGGCCACCATTATCCCGGCCAGTGAAGCCGCCGCCCAGCAGGCGAATTTGGCGCACAGTGAGGCCGTGTCCGGCCACCACCGCAGTCAAATTGCCGAAGCCGACCTCACCACCTTGCTCAATGCGCGCCTGCAAACCCAGCGGTTGGTGGCGACCGCCGGCGTGGGCCGCGTGGCGATTCCCAAGGTGGGCATCAGCCTGCCGATTTTCAACCAGATTAACGACAGCACCCTCAGCCTCGGCACAGTAATGTACTTCCCCGAACGCAAGCTAGGCCAAGGCAACACCGTGCTCGCGTCTCATCACTATCTCGGCAGCGAAGGGCTGCTTAATGCCCTGAACCAGGTGAAAAAAGGAGACGAGATCTTGGTGTCCGACCTAACCACTGTATGGAGGTACCAAGTTGCTGCCAATCAAGTGGTGAAACAAGACCAGGTCAGCGTCCTAGCCGATACCGGCGATGCGCGGGTGACGCTCATTCGCTGTGAAGGCCCCCGCGGCACCGACTATCGCCGCGTGGTCACCGGCCTACTCACCCGTCGCACTAGCTTAACCGCTAAACCAGCCAAAAGCCTTGGCATCACCTTTAGCAATCCTCCCGCCAAAGACCACGGACCGCTTGCCTTCGTGACCGCAGCCATTGGGCGCACCATGAGCCGCCACCGGCTAGACGGCTGGCTGTGGCTGATGCTGGCGATTAATCTGACAGTGCTGCTAGCCTGCGGCGCCGGTTACGTCCTGGCAGGCGACCACCCCCACAAGCAGTCGCGCGCTGAACGCTAG
>SRR1151209_02981 hypothetical protein
ATGTTGCTGTCAACAGATTTGGCCCGGGCCGCCGGTGGGCTCCGCTTGGGGCGCGCGGCCTGCTGTGCGGCCGGTCCGAGCCACAGTACGGTCTCGGGCCTAATTTTAGTGTCTCAACTCGCTTTGCTCGCTTGA
>SRR1151209_02982 cation-transporting ATPase
ATGACCCCTTACAACGAACACAAAGCAGATGTCCTAAAGCGCTTGGCCACCAGCCGGCAAAGCGGCCTCACCAGTGAAGAAGCACAGGCCCGGCTCACCCAGCATGGCCCCAACGCCTTGGCCGCCAGTAAGCCCCTACCAGCCTGGCGCCAGTTTTTGGCCACCTTGAAAGAACCCTTGGTGATTATTTTATTCATCGCCGTGCTATTGGCCTGGGCCAGCGCCGGCTATGACTTCTTCGTGCGCCACGACCCCAGCCATGGTATGGCGGCAGTGTATGAAAGCATTGCGATTCTGCTGCTGATTTTCGTTAATGCCGGCCTCTCCTTCTGGCAAGCCAAAAGCGCACAAAAATCCCTGGACGCCCTGAAGGTGATGGCGGATCACCACGCCAAGGTCCTGCGCGATGGCGACTGGCTGACGGTGCCAGCCACCGAGCTGGTGCCTGGCGATATTGTCAGTGTCAAAACCGGCGACTTCATCGAAGCCGACGTTCGCTGGCTCCATGTCGCCGAGCTGCAAACCAACGAAGCCCACCTCACCGGCGAAGCGGAACCTGTGCAAAAACAAACCCACGCATTGGGCGCTGACGTGCAAATCGGTGACCGCACCAACATGGGCTTTTCTGGTGCGACAGTGACGCATGGTAACGGCCTCGGGGTGGTGGTTGCGACCGGCATGCAAACCGAGCTGGGCAAAATCGCCACCTTGCTGGATCAAGTCAAGGACAAAAAGACCCCGATTGAACGCACCATTGCGCGCCTGACCACCAAACTGATGATGGTGGCGATGGTGATTGTGGCGTTCACGTTGCTGGTGGAGCTCTTGAAAGCCTATCAGCAAACTGGCAGTCTCTCCTTCGCTGCGCTGGCCGAATCCCTCTCTACGGCGATTGCCTTGGCGGTGGCCGCGATTCCCGATGCGCTACCGGCGGTGCTGTCGATTGTGCTCACGATTGGGGCCACGATGCTGGCCAAAAACAACGGTCTGATCAAGTCCCTGAACAGTGTGGAAACCCTAGGGGCCACCAGCTACATTGCCTCAGATAAAACTGGTACCTTGACCAAAAATGAAATGACTGTCACCCGGTTTTATGCCAATGGCGCCAGTTATGTGGTGGAAGGCGACGGCTATGAACCAGTAGGCGAAATCATCCCTGATGACGAAGCCGACACCCCCGGCTTTTCGCGCTTCATGATGGCCGCTGTCCTGAATAACGAAGCGGCGATTCAAACCGACGACGAAGGCCGCAGCCGCCCGTATGGCAACCCCACCGACGTAGCGCTGGTAGTGATGGGCCACAAATTTGGTATCGATCGCGATACGATTTTGAGCAAAGACCAGGCGCTGGACATCGACATCATTCGCGAACTGCCGTTTGACAGCGACCGTAAAATGATGAGTGTCGTCATTAAAGATGGCGACCAGTATCAGGTGCTGACTAAAGGTGCGCCAGACGTGATTTTAGCCAAAACTGATGCCATTCTGGACCACGACCAACTCGTAACATTGCCAGCTGGTCAAACTGCGGTAGAAGCGCAGGTCAACCGCTTTGCCGAACAGGCGCTGCGGACGCTGGCGGTGACGCTGCGTGACATCGATGAGGACCTGGCATTGCATGGTAGCACCGCTGAGCTTGAGCAGCACCTGACCTTACTAGGCATTGCCGGCATCATTGACCCGCCGCGGCCGGAAGTGCGCCAAAGTGTGACCACCTTGCACCAAGCCGGTATTCAGGTCGTGATGATCACCGGCGATCACGCAGTCACCGCCCGCGCGATTGCCTTAAAGCTGGGCATTGTCACCGACCCTAGCGCCCCGGTAGTGGAAGGCAAGCAGCTGGAAGCCATGACCGATGAAGATTTGTTCCGGCTCGCGCCAAGCATCCGCGTATACGCCCGGGTGTCGCCGGAACACAAGCAGCGCATCGTGCGCGCCTTGCAGCGGCATGGCGAAACCGTGGCCATGACTGGTGATGGCATCAATGACGCGCCAGCCTTACGCGCTGCTGACATTGGCATTGCCATGGGCATTAATGGCACCGAAGTCACCAAAGACGCCGCAGATCTGATTTTACTGGATGATAAATTCACCACCATCGAGCGCAGTGTCCGCGCCGGCCGCACCATTTTTGGCAATATCAAAAACTTTATGCGGCATGAGTTAACCACCAATGTCGCCGAGGTGTTGGCGCTGCTGTTCGGCGTGCTACTGATGACGCAACCCGTCGGCCAAGTGGCGGCCACCACCCCAACATTAACGGCGCTGATGGTGCTGTGGGTGAACATGATTTCCGATGCTTTACCGAGCTTTGCCCTCGGCTATGATGTGCCAGAAGCCGACCTCATGAACCAGCCGCCGCGCAATGTGAAACAATCCATTTTGCATGGCATGCTCGGGCGCATCTTCCTGCGCGGTATTGTGATGGGTGGGCTCGTGTATGTCGCCTTCATCTGGGCTGCCAGTCAAGGCATGAGCGGCGCAGAAGCGCAAACCCTCGCCTTTTTGACCCTGGTGTTTGGCCAGCTGTGGCATGTGTTCGACGCGCGTAGCACCCGCACTTTGTTCGCCCGCAACCCGTTTGAAAACCATCAGTTGCTGCTGGCAGTGGCTTTCGCGGCGGTGGCTTCATTACTTGTCACCATCATGCCGTTCTTCAACGAAGTGATGGGGACCGCGCCACTTTCTAGCACGCTGTATGCTGCGGTAGTCTTCATCCCGGCGCTACCGACCCTCATTTTGTCTGGAATCAAAGAACTGTGGCTGCGTTGGCATCGCCCGCCGGTAGCCCCAGAGCGCCAGGCCGCGCCAGAGCATGATTAA
>SRR1151209_02983 hypothetical protein
TTGAATGTTTATCATGCGCTGAAAATGATTCAGATCGAGCACCAGCCCCTCAATCATCGCCAGGTCGTGATCACCGATGAAAACGGCAAGCCGCTTTCGCAGCTGACCGATCTACTAAGTGATTGTCTCAGTAAAATCGACCTTTTCGTTGATTTGCCCAGCACCGACACGGCCAGCGATGTCATCGATGACCTGCATTTACTGACGCCCTTGCCGAATGACGTGCTGGACGAATACCAAAAAGTCCTCGATCAGCCGATTTGA
>SRR1151209_02984 CRISPR-associated protein Cas1
ATGACTGTGCTCTCTCAGTTGGGGAAGTATAATATTGCCGTCATTGTTTCTGATGCGCAACATTTACCCGGCTCGGTACTATTACCACTCCAAGGATACTACCACAAGCTTGCCACCCTTAAGCAACAGCTCAGCGTAACAAAGCGATTCAAAAACCGGCTTTGGCAGAAAAACATTAAACAAAAAATTTTAAATCAAGCCGCTGTTCTGGATTGGCAAAATCTCCCTGGGATGCCCGAAATGAAACAGTATGCAGCAAACGTACTCGAAGGCGATCGGACCCATCAAGAAGGATACGCGGCGGCATTCTACTTTAGGATTGCTTTTGGCAAACACTTTGTCCGACGTAACGATGACACCGTCAACGCGGCATTAAACTACGGCTACGCAATTATCCGGAGTTGCGTCGCTCGAGAATTAAGTGCTTTCGGGTTTGAGCCATCCCTGGGTATTTTTCACAAGAATCAATTGAACCCATTCAACTTGGCCGACGATTTAATTGAATCATTTCGGCCAATCGTTGATTTGCAAGTTTTGCAAATGAATCTAGATGGCCAACCCATGCTCACTCCGGATATCAAGAAACAACTGCTCAATTTGCAAAGTGCAGATGTCAAAGTTGACGATTCCTTTCAGACCGTACGCAATGCGATTCATTTAACGATTGAAAGTATTGGTGCAGCCTTTACCCAGGAAAAAATTTCTGGCGTCACTCTCCCTCAAGTGATTCCATTAGCCCCCCATGGATTCTCCTAG
>SRR1151209_02985 CRISPR-associated protein Cas2
ATGATGCAGTGTTCAGTCTACTACCGGATCGTCAATGGCTTAGACATGGCAGCCAAGTATGAAAAACGACTTGAGGGTTACCTGCCAGAAAAGGGGCAAGTCCGCTCTCTAGTTTTGACGGAAAAACAATTTGCACATATGAAGGTGCTAGTTGGAGACGTCAGTCCACAAGAATCAGATGTCACCGGCAATTCACTGACCAGTTTATAG
>SRR1151209_02986 hypothetical protein
ATGATAATTTATCTGGCAACGGTAAGAATCCTGTACAACGGCCACCCTGAACGCGTCATTTTTACGACGCCGGTAACCGCCAGATATCTGGCCCGGCATGTGCTGGCGCCCCCATAA
>SRR1151209_02987 transposase
GTGGAAAAACTCAACATCAAGGGGATGAAGGCCAATCCCAAGCTGGCACCCAGTATCCAAAAACTGGGACTGTCTTACTTCAAGACTTGGCTCACGTGGCAGTGTCTAAAGCATGGCATTGAGTTGCGCGAAGTCAGCACCTGGTATCCCAGTACAAAGTTATGCAGCACCTGCGGCACTTACAATCGAGCTCAATTCCACGGTACGATGGCGGATCTGGCCGTCCGCCAATTCAATTGTCCGCACTGCGGATTATCCATCGATCGCGACGTGAATGCCGCAATCAACTTGCAACAAGCAACAGACTATACGGTCCTTACGGCAACTGAATAA
>SRR1151209_02988 hypothetical protein
TTGAAGAGGATTTTGGCGCCGGTACTGCTGGCAATCACGGGATTCGGTGCGCTTGGTGCATTGAGCGGGTGCGAACCGCAAAAAAGCCAGCCCAGCGCGGCTCAGGTCAGCAAGCAAAAGGCGGATGCTGTCAGTAAACGGAAAGTCCAGGCCGTTCAGGCAAAAATCAAGGACGGTACCTATCAGTTTGCAGAATTGCCCAAAGAGAATCTGTATACCCCTTATCGGTTCACCACCGCCTTGGGTGAATTCACCACGGGGGAAAGTTATCTCGCTGGCGGGGGCAAGAGTGAAACAGACCCCAACGCTTGGACTGGTTTCAAAATCGATTATACGTACAAGAACACTACCAACCAGCCCCAGGACGCGGTCAAAGCGTTCTCCCGTGTCTTCCGGGTGCAAACAATGCAGATCTGGCAGCCAACTAAATTAAAAGCAATCAAAGCGATTCCCACATTCAGCGGTTATCACGGAATGGATGGCCCGCGCACAGAACAAGATGCCCGGCGTATCGCCAATCGCGGCAAACTAGTCCAGCCGGGCGAATCAATTGATGTGATCAATGCGTACGGAGTTTCAGCAAAAGTCTACGCCAACAACGCTCCCAAAAAGAAAATCAAAAAACTGGCACCATTGAATTACACGATCGACGTACTCGCTGATCCGGACAATAAAGTCGTACTCAAACGATATGACGCCGAAATCGTTTGGCGCTTCGACTAG
>SRR1151209_02989 N-acetyltransferase
ATGCACCATGCTGGTACCCAACCAATTCGAACGAAACGCTTGATTCTGCGCCGCTTCACTCCGGCCGACGCCGCTGCGGCGTATCACAACTGGCAAACCGATCCGCAAGTGACCAAGTATCTCACCTGGCCGCCCTATACTGACTTCGCCCAAGCCCAAGAACGCATCGCCTGGGTCGCCGATCAGTATGCCCAGCCGAATTTCTACTACTGGGCCATTCAGCTCGCCGACCAGTCGGCCGCCGTGATCGGCAATATTGCTGTCGTTCGGGCGGACGAAAACATCCGCTCACTGGCCATTGGCTACGTGTCCGGCCAAGCCTGGTGGGGCCACGGTTATATGCCGGAAACACTGCGGGTGGTGATCGACTTTCTCTTCACTAATACTGATGTCCAGCGAATCGAAGCCACCCACGACGTGCGCAATCCGGATTCTGGCAAAGTCATGGCCAAGGCCGGGATGCGGAAAGAGGGCGTGCTCCGCCAACGAGGACGCAATAATACCGGTGTTTGCGACGAAGCCATGTATGCGATTTTGCGTAGTGATTGGACCAAAAAAGCCGCCCCATCGCACGGATTGAGCGGCTCAGCCAGCTAG
>SRR1151209_02990 glutathione peroxidase
ATGACCAGTGTCTATGATTTTAAAGAAACCGAAATGAACGGCCAGTCTTTACCGTTAGCGAACTATAAGGGGCAGGTCCTGCTCATCGTGAATACCGCCAGTAAATGCGGTTTAGCACCGCAGTTGACGGGGTTAGAAAAGCTGTACAAGCAATTCCATGACCAAGGGTTCACGGTATTGGGGCTGCCCTCGAATCAGTTCCATCAAGAACTCGACACAGACGAAGCGGCCAGCGAGTATTGCCAGATGCATTACGGCGTCACCTTTCCGATGACCAAGCGAGTGGCGGTCAACGGGGACGATGAAGATCCGTTGTTCACGTATTTGAAGGACGCTTCCGGTCATGGTCGGATCAAGTGGAATTATACGAAATTCCTGATCGGCCGGGATGGGAAGCTGCTGCATCGTTACGCGCCGACGACGAAGCCGGAGAAATTTGCGGCGGATGTTGCCGTGGCGTTAGAAGTTAAATAG
>SRR1151209_02991 Xaa-Pro aminopeptidase
ATGGCCCGAGTAGAACGATTCATTCAGAAATTGAACGAGAAACACATTGCGCAGTTCGTGATGCTCAACCCTAAGAATATTACGTACGTGACCGGTTTTACCGGCGACGAATCCCTGCTGCTGGCAACCCCGAATAAGCTGACGTTGGTCACTGACGGCCGTTTTGTCGAACAGGCGAAGCGAGAAATGCCGGAAAACGTGACGATCTATCGCTGGCAAAAGGGCTTGCTGGCCGACACCATCAAGCTGATCAACGAAAGCGGCCTTGATTCCGTCGTTTTCGAAGCCGACCAGCTGACCTACGAGCAGGGCCGCAAGTTTGTCGAGGCCATTTCTCCCGACGTCATTCCCATGAGCGGCGTGGTAGAAGAAATGCGCTGGACCAAGGACCCGGAGGAACTGGCTGATATTCGTAAGGCCGTTCAGGTCGTGGATGCCACCTTCCTGTATATTCTGGGCGAGATCCACCCCGGCATGACCGAAATGGCCGTGGCCGCGAAGATGGAATACTTCATGAAGACCCATGGCGGCGAAGGCACCTCCTTTGATACCATCGTCGCTTCCGGCATCCGTTCCACCTTTGCCCACGGTGAAGCCAGCCATAAAGTGATCGAAGCTGGCGATATTCTGACCATGGACTTCGGCGCCCTGGTTAACGGCTACGCTTCTGACATGACCCGGACCATCGCTATCGGCACCGTTGATCCGAAGCTGGAGAAGGCCTATTATCAAGTGCTGGAAGCGGAGCAGGCCGGTATTGATGCCGTGACCGCCGGTATGACCAGCCGGGAACTGGATAGCATCATCCGCGGTGTTTTCAAGAAGTACGGTGTGGAACAGTACTTCATCCACGGCGCCGGCCATAACGTGGGTCTGGACATCCACGAAGGGCCCTACATCACGTCCCGGCCGGGCGAAGGCGACATCAAGTTCCAAGCTAATATGCTGGAGACGATCGAACCCGGCCTATACTTCCCTGGTCTGGGCGGCATCCGCATCGAGGATGATGTGCTGATCACCGACGGGCAGAGCGAAGTCCTGTCTACGGCGCCGCGGCGTGATTTGATCAAGATTCCGGTTTAA
>SRR1151209_02992 amino acid permease
TTGGATAAAGATCTGGCACCGCATTATATTAAATGGCCCACGCTGGCTCTACTGACTTTCGTCACTGTCATTGGCTTCGAAGATTTAGTCTACCCGTTTCAGAATCAAGGCCTCGCCGTCGTCTTTTCTTGGATCTTCATGGTGGTGGCCTACGTACTGCCGTATGAATTGATTTCAGCCCAAATGGGATCGACGTTCAGCGAAGCCGGCGGCGGGCTGGCGACTTGGTCCCGCCACGCCATTGGCGACGCTGCCGGATACTGGACCGGCTGGATGTTTTGGGCCTCCCTGCTGCCCTATCTGGTCGACGTGGCCAACTCGGTCATCGTCTCCTTGTCCTGGCTGGTATTAGGCAACAACACCCTGGATAAATATATGACAGATAAAATGTTTGGTATCTTCACCTTTGCCGTCATTCTGATCTTCCTGCTCACCCAAAACCTGGTCCAGCACTCCATGGAATTCATGAGCATGCTGGGCGGCGCGGCGATGTTTATCATGACGATCCTGTTTGTCTTGATGACTGGTGCCGGCGTGGCCGCGGGCGGGTTCCATATCGCCACCCAACCCTTTGATTGGTCGGCCTTCATTCCGAAATTCGACACGCACTATTTCGCCACCACCGGTCTGCTGATCTTCGCCGTTTCCGGGGCAGAGCTGGGGGCGGCATATATTACGAAAATGCGCGACCCGAAACACGAGTTTCCAAAATCCATGATTATGCTGGCCTGTATGAGCGGCTTTCTCACCGTCTTCGGGTCCCTGGCCATGGGCGTGTTCTTCAACGCCCACCACTTGCCGGATGACTTGAAGATGAACGGTGCGTTCTATGCCTTCGAGCGGCTCAGCGCCGCGTGGGGCCTGGGCAAGTTCCTGCTGTACGTCTACTCCGCCGTTTCTTTGACATACATGCTGGCCCAACTCGCCGTACTGATCGACGCCTCCAGCCGGGTGCTGGCCGTCGACACCTCCGCCCGCTTCATGCCCAAGTGGCTGCTGCGGAAGAACAAGTTCGGCCGGCCGATCCATTCCTACGTCCTGACCGCCGGTATTTGTCTCTTCCTGCTGCTCCTGTCCGGCACCCTCCCCAGCATTAATTCGATTTTCAACTGGCTGCTGAACCTGAATGGCATCGTCACACCCTACAAGAGCTGCTGGGTCTTCGCCGGTTTCATTGCCCTGCGCCTGCATGAAGAAAAGTTCAATTCCCCCTTCGTATTCATCAAACACCGCTGGTTAGCCATTCTGATTGGCGCTTGGGGCTTCAGCTTTGCCTTCGTCTGCGCCAGTTTAGGTGTCCTGCCCCAAGAAGGCGCCGTCTTCTCCGGCATTTGGTTCCATCAGTTGTTCTTAAATATTATTTCCGTAGGTGTGCTCTTTGGTCTGGGCGGCGTGATGCCGTTATTAGCGAAGATTGGCCAGCATGAAGAGGCAACCACACCGGTGGAGTAG
>SRR1151209_02993 acetylornithine deacetylase/succinyl-diaminopimelate desuccinylase
ATGAATGACGACGTCGCGTTTTTAACCAAACTGGTTCAAACCGATTCAGCCAATGACCACGAAGAAGCAATTGCCCACTTGCTTCAAGAAAAGCTGGCCAGCGCGGGCATCACGAGCAAGCTGATTCCGTACGCGCCCGGCCGGAGTAATTTGGTCGCCGAAATTGGCAGCGGTGATGACATTTTAGTTTTTGAAGGGCATCAAGATACCGTCAGCCTCGGTAATCCCAAAGAATGGACCTATCCCGCTCTGGGCGCGGAAATCCATGCCGGTGAGCTGTACGGCCGCGGGTCCGCGGATATGAAGAGCGGTTTAGCCGCCATGGTGCTGGCCCTGATTCGGCTGAAAAAGACCGGCTTCACTGGGCACGTACGACTGCTGGCAACGGTCGGCGAAGAATACGGGGCCATGGGTGCCGACCAATTGCTGGCAGCCGGCTACGCCGACGATATCAGCGGGTTGATCGTCGGCGAACCGACCTCGTTGAAAGTCTTATTCGGCCACGCCGGCTCTCTGAACTATAAAATCATCAGTCACGGCAAATCAGCCCACAGTTCTGAACCGCAGCGGGGCGTGAATGCCGTGGAGAAACTGGTCGATTTTATTGTCGCCGAACGGCACGCCTTCGATGATGTGCCGGTAGATCCGGTGATTGGCCCGCTGGCCCACAGTGTCACTGTTTTGCAGGCGGGCGATCAGGTGAATACGATCCCTGATTTGGCAGTCGCCGCGGGCAACATTCGGCCAACACCGAGTTTCCGGAATGATGCGGTGATTCAGCGGTTACAGGATATTGTAACGAAACTGAATGCCCGGGGCGATGGCACCTTAGAGTTCAGTCTGACCCATAGTTTCTTGCCGGTTATTTCTAAAAAGGATGGCCGGTTAGTGACCGCGGCGAACAAGGCGATCACAACGGTGCTTGGGCGCCCAGCAGAGCTGGCCATTATCCATGCGGCCACGGATGCATCGGTTTATACGAAATCGAAGCATGCTTTTGAAACGATTATTTATGGGCCCGGCAGCATGAGCATTGCCCATCAGATTGACGAGCACGTGAATGTTCAGGATTACCAGCAAGCAATTGGTACTTACGAACAGATTGCCCGGGATTACTTCGCAAATTGA
>SRR1151209_02994 putative HNH nuclease
ATGCGCGTGAAGGCGTGTCGCAAGGCTGGATGTAACAATGTAATCCCTTATAGCCAAGAGAATCCATACTGCGCTAAGCACGCATCCCTGTATAAGCCTAACCATGCTGATGTCGCAAAGCACGTTAAACGTGACACATCATACTATGACAAGTACAAGCGCGACAAAGAGTCTGCTGCATTCTACAAGTCTAAGATATGGGAACACACTGCACGTGATGCTAAAGCTCATGCCTACTTCACATGCGCCATCTGTGGCAGAACGTATGACAAGCCTGGCTATCTAGTCACTGATCACATCGTTCCCTTGAGGATTGACAGGAGCAAGTGCTTAGATCATGACAACCTATGGGTATTATGCAAGGGCTGTCACTATTGGAAAACACAGCTAGAGGAAAAGATATATAAATCACAATCACAAATAGAGAATCTTGATACTGCGACAAAATGGACACGAGAAAAAATATCAGCATGGGTACTTGCTCATAAAAAATAA
>SRR1151209_02995 phage protein
ATGTTTAAAGCAGTGAAACGACCAATGGAATACATTGCAATCAAGGTGCCAGAGGACTGTGAAGATATTGGAAAATTTGTGGGCGAGAAGGCAGTGAAAGCCGGAATCCGGTTAGACATTATTGGGTGTTATGCGGATGGCGGGATATGGACTATTGAAGTTGGCGTTAAAAACAATGAGGCAAAAACTGTCAAACGTGGGTCGGTTATCGTATGTGAAATTAGCCAAGACGGTAGCAAATATCCTGAATCGGTCGATGTTCTGAGTCAGGAAGACTTCGACAAGAAATTCAAGCCGGTTGATGCTAAGCCGCTCTTGGCTAAGCTGAATGAGATCGAGGATGGCATGTTTACTAAGGCTGAAGGCATGTCGTTACCTGATTGCGCAAACGTTCCGCATGTGCGCATCGAATTCGACGACGTTAACGATGCGCCGCATATCTGGATTGACGGTAAGCAAGTAGACAAGCTGCCAGGCAATGGGCTTGTCAGTGTAGACCTGAACTGGCACACGCGAGACCAAACGCTGGTGAGCGGGGAAAACAACCACTACAAGATTGAGTACCTTGATCTTGATGGCGACAAGCGTGTTGGCATTGCTCAGGGTAATCTGCCCAGCAACGATCTATTCAAACAGTAG
>SRR1151209_02996 hypothetical protein
ATGTTCTCAAATAATATTAAAGGCCCAAGAAAACTGGTGTCTAATCGGCAGTTGCCTCCACCCGCACCAGTGCCATCAAAAACGGAAGGATACCTGCCAACTCGTGCCACTGCAACTAAGAAATACAAAGACAAATTGATCGGGAAAATAAACGCTGCAATTGAAAAGAACATCGGTACTGCGGACCCAATTTATGTGAGTGTTATCAATTACAATGTAGCAGTCGTCAACGAAGTGATTGAATCATTGAGGAATGCCGGATGGGATGTTGGATGCATTTATGGCAGCGAGCAAGACCGTGCGGCAGCAATTACATTATCTTAG
>SRR1151209_02997 hypothetical protein
ATGCGATCAAGCTGCGCTAATCAAATGAAGCAAACCGAATACGGCTATGTCAGCCCACAAGAGTATCAGATTGACCGTGATTTGGACGCGTGGATGAAAGGACGGAAGAAATTGAAAGCAATTGTGTACACGAAACCAGGATGTATGAAGTGCCGGCAGACAGTGCGGCAGTTATCCAAGGCGATGCACACCAAGGCTGTGACGGCAACTGCGGACGATATTAAGGCGCTCAAAGCTGGCGGTGTCCAATCCATGCCAGCAGTTTACATATTTGAGGGAAGCAAGCCAATTGACTATTGGTCAGACTTGCGGGTTGATAAGATCAAGCAATACACGGAGGGATAG
>SRR1151209_02998 hypothetical protein
ATGAGTGATGGCAATAAGACAAGCGGAATAGGGTTGATTGAAGTAATTACAGTTGTGCTGGTTATCCTCAAACTGTTTGGCCTTATCAAATGGGGTTGGTTGCTAGTGTTGGCGCCATGGATAATTTCATGGACAATTTTCTTCCTGGCATTGGCGATTGTGAGTGTGTATGATGCGATCAAGCTGCGCTAA
>SRR1151209_02999 phage protein
GTGATTTGGACAAAAGGGATGACAGACCGAGCAATCAAGCTGACAGACCAAGGATACACACACGCCAAGGTGGCGGCCGTATTATCCAACGAATACAGTACCAACATTACCGGCAATGCTGTGCGCAAACGACTCAAACGAGTACATCACAGCGAGCAGCCTGCCGAGGCGTCAGTACAGTTTAACGATGACGGTACACAGACCGCAACGGCCCTGTTTCGGCTCAAGCATGAGCCGGACAAATCACCCGAGACGCTGATGCGACTTTGCGGGTATGATCCTGACAAGTTTGATATGGTGTCCGGCGATTACAAGGTATACGAGCAGCATAGTACCAAGGACGGCACCGTTCCGCAATACTCTATCCATGTGCGCGTCAAGCCTAAAAGCGGAATTAACGTCCAAGAACTGGCGACGATCCTGAACAAGGGCATCAAGCCCATCACCATTAAGCAGGTCAACAGCGGCGACCACAATCTGGTTATCCCGCTGTTTGACCTCCATTTTGGCATCACGACGTTTGACAGTTTACGGCCGGAGCTTAACGAGCTTTGCAATATCATGCAGCACGGATACGATCACATCGTGTTTGAGCTTGGCGGCGACCTGCTTCACTCAGATTATATGGGCAAGACCCAAACGGTCCATGGCACGCAGCTTGATCACGCAGATACAGTCAAGGCATGGGAAGACGCAAAGTGGTTTATCGACGATCTGATTGAATACGCCATCACCAATGCCCAGCACGTGTCTGTTTACGCAGTTGGCGGCAACCACGACTTTGATATGCAATGGGCGTTTGTTGAGGGATTAGCTGACCGTTATGAGCAAGTGGACGTGCACAACACGATCCATTACCGGCAAGCCTATCGTATTGGACATGTCGGCATCTTAATGGCACATGGCGATGTTGCACTCAAAAAACTGCCGATGCTGTTTGCCAATGAGAACAGTGACGTCTGGGCTAACACCAAGTGGCGAGAAATCCATTACGGTCATTTCCATCATGAGGTGGTTAACGATGATGGTGGCGTGATCATGCGGCAAATGGGCACGCCTAAGCCTGCCGATGGATACGAGACAAAGAACGGATATACGATGGCCCACAAAGTCATGCAGGCGTTTGAGTATAGTGATGACCAGCTCAAAGTGACATACAACATTGGAGGCGAATCAGATGAGTGA
>SRR1151209_03000 D12 class N6 adenine-specific DNA methyltransferase
TTGAAACAGTCAGAGAAATGGAAACGCGGATTACCCTATGTTGGCAATAAAGGCCAGAAAGCAGAAAAGATCATCGACATATTGCCTGCTGGCAGCCGTCTAGTTGACGTATTCGGTGGCGGTGGATCGATCAGCTTGACAGCAGCCTCATCTGATAAGTGGAACGAAGTAGTTTACAATGACCGGCGAAAAACAGTTGTTAATTTGCTCAAAGCGTTGATCAAAGACAAGCCTCATTTTGATTTGATGAATTATGTATATATGGATCGCGAAACGTTTTACAGCTGGCGAGACAAAATGCCCGATTCGATTGAACGTACTCTTGTGTTGACCATTTGGAGCTTCAGCAACGACCTAAGAAGTTATTTGTGGGGGCCAAAAAATGAGAAAGATAAATTGCAACTGACGCGAGCACTATTTTTGGGAGACACGGGGACAAAGCTTGATGGCCTTTATTCATATGCAAAAAACGAAAACAGTATTTCGGGTAAATACAGGCTGTTTCACAAGTGGCGATTAGCTGAAATGGACATCAGTTCCCATCGTGATCATGATCAACTCCAGCAACTCGAGCGACTCCAGCAACTCGAGCGACTCCAGCAACTCGAGCGACTCCAGCAACTCGAGCGACTCGAGCGAATAAAATATTCAGTGCTTGACTATCGCTCACTCGACATCAAGCCTAGCGACGTTGTCTATTGTGATCCGCCATATATCGGGACAGGCAAAAGCTATGGTGGATTTGACGATGATGCTTTTCAAAGCTGGCTTGCAAAGTGTCCGGCAAAACAAATCTATATCAGTGAATACACGCAGCTGCCTCATACCGAGGTGGCTTTTATTTTGGGCAAAAAGCTATCGTTTTATGCCAAAGGCAAGCGACCTGACGAACTACTGCTTAAATACGTAAAGTGA
>SRR1151209_03001 hypothetical protein
ATGCAAAAAGAATTGCTAATTTGTGCCACAAAAGAGCAATCCGAAATGTATCAATCAAAGGTAAATGACGACGAAATCATGTGTGTATCTGTTAACGTTTTGCTTCACAAAGGCGGTCTTAGTATTCGGCATTACGGCATTGCGCCAGCTTTGTGGACGCAGGCTCAATACGATAAGCCACTGATGCATAAGTTGGTATTAGTTACGGAAATGCTTAACAATGGACGTATGAGATTAGACACACCTAACGTAAACTAA
>SRR1151209_03002 ArpU family phage transcriptional regulator
ATGGTGCGGGTAGTACAGACATATTGGAGAAGATTAGACCATGAAGCAACTGCAGCGAATGCCGAATTCGTGTTGATGGACTATCGGCATCGTAAACAGAAATCTAAAAGGAATGAGATCACCTTGCAATCTCCGGCAATTGATGGCATGCCACGCTCGCCAAGTACGGAAAACTCACAGGAAAATAAGCTTCTGAAGTATTTGAACGATTGGGATTTTGTGGCGCAGTGTGATCGTGCAATTGAAGCAGTGGAGAATGACGAGAGCCGGGAAATTATTAAATTGCTGTATACAACTGATTATCCAGTCAAGGTGCAGACTATTATGGACCGTTTGGGTATGGAGACGACAGCCTATTATCACGCCAAACAGGATGCGCTCATCGCTTTTGCCGAGGTATGGCCACCGTCACCTAGTGAGTTGTTAGTCTATCGAATAGAAAAACGAGCGTAA
>SRR1151209_03003 hypothetical protein
ATGGAATTAGTTGCAAAAGTAGTGTTTTTTGACCTTTTGATTATCTATGTAGGCGCCATCTTGTTACTATCAGGTTTCCCATTATGGATCCGTGCAGCAGGTATCGTTATTATGCTTTTTCCAATATACAGCGATGCGGAATGGCTGTTTGAGCACAAAAAGATGGAGGGACTAAAAAAGTAA
>SRR1151209_03004 hypothetical protein
ATGATCAATGAGACAAAGCGGGATGTGTTCGATGAACTGCTGGACGCTTATAACGACGCAAAATCTTCCGATGGTAACTTGCATCCGACACAGGAACTATTGGATTACGACGACCGTTATGATGATGCGTTGCCAGATGATCTGCCAGTGATTCCGAAAGCGGTAGGCGAATGGCTTGAATGGTGCAAAGGACGGGCCCATTCGTTGAAAGATGCGCTTGATGGTGAAACGCGCGTCAGCGAAGATACATTCGCCCGTGCATGGGTGCTAGGTGGCTGGTGCGTTGCGGAAACTGGCGAAATCGTGAAATTGGAGGCGGAGAAATGA
>SRR1151209_03005 hypothetical protein
ATGAGCGATGATACGAAGCAAGCATACGCGCTGATTAAGGTCGGCGACCTGATGGACTATTTCCTAAACCGAGCCAATCAGATGCCCGATGAGTTGTCAGCACAGTTTATCTCAGACATTTCCTTCGGAATGATGAATGTATTCAACCCAGAAGAGACGATTAGAGTGCCAAGCAAAGGGGTAATTTACCGATGA
>SRR1151209_03006 hypothetical protein
ATGACAATGATTAAGCTAGACAACGGCATTTTGATCAATCTATCGGTGGTATCGTATATCTCAAATACCGAAAAGATGGCTTATTTCAAGCAGCCGGTGATCACAAATGCAGATAGCCTTCAAACAGAAAAATGCTTTGGCGTTCGTGTAACAGAAGCAGACATTGAACGGATTGCAGCGATCGCCGCTAACAGGGAGGTGGCTGACGATGAGCGATGA
>SRR1151209_03007 HNH endonuclease
ATGCGCGTAAAGGTGTGCCGCAAGGCTGGATGCAACAATATAATCCCATATGATCAAGCCAACCCATACTGTGCAAAACATGCGAGCTTATACAATCCTCACGATTTCAAGCCAGCACCACGTTCTAAGCAGCAAACATCATACTATGACAAGTACAAGCGCGACAAAGAGTCTGCTGCATTCTACAAGTCTAAGATATGGGAACACACCGCACACGATGCTAAAGTTCATGCCTACTTTACATGCGCAATCTGTGGCAGAACGTATGACAAGCCTGGCTATCTAGTCACTGATCACATCGTGCCCTTGAGGATTGACAGAAGCAAGTGCTTAGATCATAACAACCTATGGGTGCTGTGCAAAGGCTGTCACTATTGGAAAACACAGCTAGAGGAAAAGATATATAAGTCACAATCGCGAGTAGAGAATCTTGACACTGCGACAAAATGGACACGAGAAAAAATATCGGCATGGGTACTTGCTCATAAAAAATAA
>SRR1151209_03008 phage-related protein
ATGTGCAATTTTTTATTACTGCTCACACTGATATTCGTGCTGGCTAAGCTATTCGGCTTGATCACATGGAGTTGGTTGCTAGTATTCATGCCGCTAATAGTGCTGATTGCTATGCTGGTGTTGATTATCGGACTGGCAACCTTCATCGAATTGCATGAGGAGTGA
>SRR1151209_03009 phage protein
ATGTTTAAAGTAGTGAAACGACCAATGGAATACATTGCAATCAAGGTGCCAGAAGACTGTGAAGATATTGAAAAATTTGTAGCCAAGAAGGCATTGAAAGCCGGCATCCTGTTAGACATTACTGGGTATTATGCGGATGGTGGGATATGGACTATTGAAGTTGGCGTTAAAAACAATGAGACAAAAGTTGTCAAGCGTGGGTCGGTTATCGTATGTGAAATTAGCCAAGACGGTAGCAAATATCCTGAAGCGGTTGATGTCATGGGTCAGGAAGAGTTCGACAATAGATTCAAGCCGGTTGATGATTCGGTCAAAGGTTTTAGCACTACGATTAGCATTGATGCTAAGCCGCTCTTGGCTAAGCTGAATGAGATCGAGGATGGCATGTTTACTAAGGCTGAAGGCGTTGAGACACCTGATCATGTCGGGTTCAGCGAATCGCTTATTGTAGAGCTGCGCAAAGCACTGAACGACTATCAGCAAAAGCAAACGCAAAATCGTGGGAGAATTTAG
>SRR1151209_03010 hypothetical protein
ATGAAGCGCACCGAATATGGCTATGTCAGTCCACAAGAGTATCAGATTGACCGTGATTTGGACGTGTGGATGAAAGGACGTAATAAATTGCAAGCAATTGTGTACACGAAACCGGGATGTATGAAGTGCCGGCAGACAGTGCGGCAGTTATCCAAGGCGATGCACACCAAGTCTGTGACGGCAACTGCGGACGATATTAAGGCACTCAAAGCTGGCGGCGTCCAATCCATGCCAGCGGTTTACATATTTGAGGGCAGCAAGCCAATTGACTATTGGTCAGACTTGCGGGTTGACAAGATCAAGCAATACACGGAGGAATAA
>SRR1151209_03011 hypothetical protein
ATGAGTGATGGCAATAAGACAAGCGAAATAGGGTTGATTGAAGTAATTACAGTTGTGCTGGTTATCCTCAAACTGTTTGGCCTTATCAAATGGGGTTGGTTGCTAGTGTTGGCGCCATGGATAATTTCATGGACACTTTTCTTCCTGGCATTGGCGATTGTGAGTGTGTATGATGCGATCAAGCTGCGCTAA
>SRR1151209_03012 phage protein
GTGATTTGGACAAAAGGGATGACAGACCGAGCAATCAAGCTGACAGACCAAGGATACACGCACGCCAAGGTGGCGGCCGTATTATCCAACGAATACAGTACCAACATTACCGGCAACGCCGTGCGCAAGCGGCTCAAACGAGCACATCACAGCGATCAACCTGCCGAGGCGTCAGTACAGTTTAACGATGACGGTACACAGACCGCAACGGCCCTGTTTCGGCTCAAGCATGAGCCGGACAAATCACCCGAGACGCTGATGCGACTTTGCGGGTATGATCCTGACAAGTTTGATATGGTGTCCGGCGATTACAAGGTATACGAGCAGCATAGTACCAAGGACGGCACCGTTCCGCAATACTCTATCCATGTGCGAGTCAAGCCTAAAAGCGGCATTAACGTCCAAGAACTGGCGACGATCCTGAACAAGGGCATCAAGCCCATCACCATTAAGCAGGTCAACAGCGGCGACCACAATCTGGTTATCCCGCTGTTTGACCTCCATTTTGGCATCACGACGTTTGACAGTTTACGGCCGGAGCTTAACGAGCTTTGCAATATCATGCAGCACGGATACGATCACATCGTGTTTGAGCTTGGCGGCGACCTGCTTCACTCAGATTATATGGGCAAGACCCAAACGGTCCATGGCACGCAGCTGGATCACGCAGATACAGTCAAGGCATGGCAAGACGCAAAGTGGTTTATCGACGATCTGATTGAGTATGCCATCACCAATGCGCAGCATGTGTCTGTTTACGCAGTTGGCGGTAACCACGACTTTGATATGCAATGGGCATTCGTCGAGGGATTAGCTGACCGTTATGAGCAAGTGGACGTGCACAACACGATCCATTACCGGCAAGCCTATCGTATTGGACATGTTGGCATATTAATGGCACACGGCGATGTTGCACTAAAAAAGCTGCCAATGCTGTTTGCCAACGAAGACAGTGAAGTCTGGGCTAACACCAAATGGCGCGAAATACATTATGGTCATTTCCATCATGAGGTTGTTAACGACGATGAGGGCGTGATCATGCGGCAAATGGGCACGCCTAAGCCTGCCGACGGATACGAGACAAAGAACGGATATACGATGGCCCACAAAGTCATGCAGGCGTTTGAGTATAGTGATGACCAGCTCAAAGTGACATACAACATTGGAGGCGAATCAGATGAGTGA
>SRR1151209_03013 D12 class N6 adenine-specific DNA methyltransferase
ATGAAAATAACTGAAAAATGGAAACGCGGATTACCCTATGTTGGCAATAAGGGCCAGAAAGCAGAAAAGATCATCGACATCTTGCCTGCCGGCCACCGCCTCATTGATGTATTCGGTGGCGGTGGATCAATCAGCCTGACAGCATCATCATCTGGTAAATGGGATGAAGTAGTTTACAATGACCGGCGAAAAACGGTTGTTAATCTGCTCAAAGCATTGATCGAAGACAACCCTCATTTTGATTTGACGAAGTACGTATATATGGATCGCGAAACGTTTTTCAATTGGCGAGACAACATGCCTGATTCGCTTGAACGGACTCTTGTGATGACTGTTTGGAGCTTTAGCAACGACCTAAGAAGTTATTTGTGGGGGCCAAAAAATGAGAAAGACAAATTGCAACTGACGCGAGCACTATTTTGGGGAGACACGGGGACAAAGCTTGATGGCCTTTATTCATATGCAAAAAACGAAAACAGTATTTCGGGTAAATACAGGCTGTTTCACAAGTGGCGATTAGCTGAAATGGACATCAGTTCCCATCGTGATCATGATCAACTCCAGCAACTCGAGCGACTCCAGCAACTCGAGCGACTCCAGCAACTCGAGCGACTCGAGCGACTCGAGCGACTCGAGCGAATAAAATATTCAGTGCTTGACTATCGCTCGCTCGACATCAAGCCTAGCGACGTTGTCTATTGTGATCCGCCATATATCGGGACAGGCAAAAGCTATGGTGGATTTGACGATGATGCTTTTAAAATCTGGCTCGCAAAGTGTCCAGCGAAGCAAATATATATCAGTGAATACACGCAGCTGCCTCATACCGAGGTGGCTTTTATTTTGGGCAAAAAGCTATCGTTTTATGCCAAAGGCAAGCGACCTGACGAACTACTGCTTAAATACGTAAAGTGA
>SRR1151209_03015 ArpU family phage transcriptional regulator
ATGATGCGGGTAACACAACGATTTTCAAGAGTAGACAGAGATAAGACGGCGGCCAATGCAGAGCGTATCTTGATCCAGTACCCGAATCGCAAGGTAATGGCAATGAGCCGTGAAAACACGCTAGCATCGCCAGCTATGGACGGCATGCCGCGAAGCCCGTCGGTCGAAAACCACGCGGACGATAAGATCATCAATTATATCGAAAATGACGATAAGCAATTCTGCGATAGGTGTGAAAAGATCATCAACACGCTTTTGCCCCAAACAGCAGTCAACGATAAATGGCCGATCATCCTCAAGATGCGCTATGTGGCGCTCAAACCGCTGACTGACGACGTGATAATGGAACGTGTGGGCTATCAGTCCAGCCAGTATTATGAAGCCGTCAAAGACGCTCTCTGCGCGTTTGCCGAATGGTGGCCGAATTATCCAGGAAGCCTCGTCGTCAGCAAATTCTAG
>SRR1151209_03016 hypothetical protein
ATGACTGAAACAGTGCAGGACGTGTTTAATGACGTGTGGAAACATTACTTGGGGCTTGCTTATAGCAGTGACAGCAATAGTCTTATTGGTCCTCCAGGGATGGCAGGCGATATATGTGATGCGCCGGAACGATTTGCGGCTGCACTCGCCGCTGAAAAGGGGTCGAAATCGACCCGTTTAGCCGACAAGCAAAAAAACTGCCGATACTGCCCGATGTGTGGCCGTCGATTGAAGGAAAAATAA
>SRR1151209_03017 hypothetical protein
ATGAAACGAGAGATTAAGTTCAGAGTTTGGGACCATAACACGGATACAATGATGATCCCTGATAATTTCGAGTTTTATGATGGCGAAATTGGCTGGATTGATGCAAGCCGAGAAGCAGGACCAGGATCGGGCAATGATGGTTATCCAGATCAGTTCGAGATTATGCAGTACACCGGTCTGCACGACAAGAACGGACGGGAAATCTACGAAGGCGATCTTGTCAAGAATGAGAATGGTGTGCTACGGGTTGTTGAATTCCATGACGGATCATTCACGTTAGGGGACTATTACTTTGGGAGCATCGGGGCTGGTCGAGTCCTGGAGGTCGTCGGGAATATCTACGAGGACCCGGATTTACTGGAGGCGCAGCATGACTGA
>SRR1151209_03018 hypothetical protein
ATGAACATACATGAGCAGTTCAAAGGCGGTTTCACACGTGGATCAGGAATTTGTACTGAGGAAATTCTACATGATGATCGTGTCATGGGCGAGCATAAGCTACAGTTCCTGATGTATGATGCGAACCTATATCCTTGCCCGAATCTAAGCACTTGGAAGCCAAAAGTTAAGCAAGAAGTTATCAACTTTGTTAAAGAGCGAGTCTCCAAATTCAATGCTGATGTTTGGGTAGATGATGTGCAAATCAAAACATATGAGGCGGAGAAATGA
>SRR1151209_03019 hypothetical protein
ATGAGCAATGAGACAAAGCGGGACGTGTTCGAGGAACTGCTGGACGCTTATGACGACGCAAAATCTTCCGATGGTAACTTGCATCCGACACAGGAACTATTGGATTACGACGACCGTTATGATGATGCGTTGCCAGATGATCTGCCAGTGATTCCGGAAGACGTTAGTGAATGGTTGACATGGTGCAAAAGGAAGCACCATTCGTTGAAAGATGCGCTTGATGGTGAAACGCGCGTCAGCGAAGATACTTTCGCCCGTGCCTGGCTGCTAGGCATCTGGCGCGTTGAGGAAACCGGTGAAATTGGAGGAAAAAAATGA
>SRR1151209_03020 iron-sulfur cluster binding protein/lactate utilization protein LutB
ATGGGACTAGAAACAACCAACAAGCCCTTTTTGACCCGGGTGAAAGAGTCAGAACAAGATAAATTCATGCAGAAGTCCGTTGCCAAAGCCCAAGATGCCCAATGGGACAAACGGGAAGCGGCCCGGAAAGAACTGGGCCACTGGCAGGACTGGCGTAATTTGGGGGAACAGATTCGGCAGCATGTCATCCATTATTTGCCGGATTATTTAGGGAGTGTCTGA
>SRR1151209_03021 Fe-S oxidoreductase
ATGGGATTATCGGCCCACCGCTTTTTGCGTTCCTGGGTGAAACCGCTGTACTTTATTCATACCCAGCAGTACACTAAAAGAGACCTAGGTATGTTTAGAGGGAGCGGGGTGCGAAAAATGAAAGTTGTAGTCTTTTCAACCTGCGTCGTGGATCTTTTCTTCCCCAATGTCGGGGCCGCGATGGTGGAGGTATTGGAACGGTTCGGCTGTGACACGGTATTGCCGAAGAAGCAGATCTGCTGCGGTCAGCCGACGTTCAATAGCGGCTATGTGATCAATAGCCAGAAGACGATGCGCAACGAAGTCGATGCGTTGTTGAGTGTCGACTGTGATTATATCGTGGGACCGTCGGGATCCTGCGTGAATATGCTGCATGAATTCCGGATGCACTTGGCCGACGACCCGGAGTACGGGCCCAAGGCGGAGATGTTGGCGAATAAGAGTTATGAATTTTCCCAATTTCTGTATCGCGTGCTGCATATCATCGATGCTGGGGCGGAGTTGGATGCGAAGGCCACGTTCCACCGGTCTTGCCACATGACCCGCCTATTGGGGGAGCGGGTCGCGCCGTTTGTGCTGCTGGACCACGTCAAGGGCCTGCAGATGATTCCGCTGCCGCACATTGAAAACTGCTGCGGCTTTGGCGGCTTATTTTCAGTTAAGGAACCGGAGATTTCGAAACTGATGGTGGATGAAAAGGTGGATGATGTGACCAGCACCGGCGCCGACATTCTCATTGGGGCGGATCAAGCCTGCCTGATGAACATCGGCGGCCGGTTCTCCCGGCGCAAAGAGCCGATCAAGATCATGCATATCGCCGAAATACTGAACAGCAACGTGGATATGAGCCGGGTCCGGTACGCCGATACCCCGGCCACTGTGTAA
>SRR1151209_03022 hypothetical protein
ATGAAAATCAACATCAAAGACACGGCCCGCGACTATTTGGCAGAGAAAATCTCCCCGGATCAATACGTTTTTCTGGGTTTGGACGACGGTTCCAGCAAGTTCTCTAAGCTGGGCGGTTCCTGCTCTGTGGGCGGCAAGTTCCAACTGGTCCTTTCTGACCAACCGGATGCTGACTACACCATTCCGTTAGAAAACAACGCCGGCTACAAGATGTTCACATCAAAGGAAGAAACACCTTACCTGGAAAACGGCTTGTACTTGCAATTCAACAACGCCGCGCTGGGCTTGGGCTCTGATGGTGGGCTGCTGGATGGTGCGATGCGAGTGACCAAGGCTGATCCGAGTCAGATCACCAAGGCCGATATGGAAGCTTTAGGCGGCAAGATCTGCTAA
>SRR1151209_03023 oligopeptide ABC transporter substrate-binding protein
ATGAGGATCACAACAGGATTTAAAGCGGCGGGCGCGGCAGTGGCGACATTAATGCTGCTGGCCGGCTGTCAAAACAAAGCGAGCGGGACAAGCGCCAGCAAGTCGACCTGGTCCCGGATGGAGAGCGACATCATTTCCACCATGGATCCGTCGAAATCCACCGATGCCATTTCCGGTACAGCAATCAACGACACCACGGATGGCCTCTACCGGTATTCCGGCACCGAGCTCAAACCGGCGATTGCCACGAAAATCGTCAAGCCCACCAAAAACGGGGCTGTCTATACCTTTAAACTGCGGGATGCCAAGTGGAGCAACGGCGATCCGGTAACGGCTGATGACTTTGTTTTTGCCTGGCGGCGCACCGTTGATCCGGCCACGAAGTCCCAATATGCGTATCTCTATTCCGGCGTGGTCAACGCTGATGCGGTCATGAAAGGCACGAAGAAGCCGGCAACGCTGGGCGTTAAGGCCCTGGATAAGCACACCTTGCAGGTGACTTTAGAGCACCCGATCCCCTATTTCCAAAAGATGATGGTCAATGGGCCTTTCTTCCCGCAAAATGAAAAATACGTCAAAAAGATGGGCAGCAAATACGGGACCCAGGCGAAATACACCCTGGCCAATGGCCCGTACAAGCTGACCGGTTGGAATGGATCGAATAATTCTTGGCAAGAAGTCAAGAATCCGACCTATTGGAACGCTAAGAACGTTCACATTGACCAAATCAATGTCACCGCGGTGAAGGACGCTACCACGGCGATGAGCCTCTTCCAATCCGGTAAACTGGACGATGCCGCACTGACCGGCGATCAAGCGGCCCAGGCAAAGACCCAAAAGGATTACCGCGGCATCAAACAAACCAGTGTCTTCTATTTGGAACTGAATGAGAAGAAGGTCCCTGCCTTCAAGAACACCAAGTTGCGCCAAGCGATGTCCATGGCGATCAACCGGGAAGAATACATCAAGAAAGTGCTCCAAGATGGTTCGATCGATGCGCCCACGGTCACCCCCAGCGGCTTGGCCGAGAATCCAACCACGAAAGAGGATTTCTCTAAAGAAGCGGCTCAGGGTTACACGAAATATACCAGCTATAATCCTAAGGAAGCCAAAGCCCTGTGGACTGCTGGTATGCAGGAAGTGGGCAAGCAGAATCTGACCTTGGAACTGTTGACGGATGACACCGATAATGCTAAACGGTCGGCTGAATACTTCCAGAACACCTTGGAGAAGAATCTCCCGGGTCTTAAGGTGACGATTTCGACGGTACCCTTTAAGACCCGGCTCACCCGCAGTCAGGACGGCCAATTCGACATGGTCCTCTCTGGCTGGAGTGCCGACTTCACCGATCCCATCACCTTCTTGGACCTGTTCACCACCGACGGCAGCTATAACGACGGCAAGTGGTCCAATGCGACGTTCGACAAGCTGATCAATGAAAGCCAGACCACGTATGCAACCAACGAAACCAAGCGCTGGCAAGTCATGGTTCAGGCGCAGCAGCTGCTGACGCAGGAACAGGGCGTCATTCCAATCTATCAACGGGTCCAAGCCCACCTAGTGAACCCGAAGATTCAAGGCTTGAAGACCACCCCCGGCGGCACCTTTGATCTGATTGGGGCAAAGATCAAGAAATAG
>SRR1151209_03024 bacterial Ig-like domain (group 3)
GTGATTTGGGATACAATATGGAATGGCTTTTGCAAAGTGATCAAACTGGTACTTGTTATGTTCGGCATCAGTCTATTTGGGCTGGTATTCGTGCATACGGTCATGGCGGCAAGTGAACGGACACCGACCACAGTGGTGCGGCAAACTGATCCACTGGCAGTGGGAGCAAGCAGTGCCCGGCTGTTTGCCAAGGCGACACTGCCAACGGCGCCGACTCTTTCCGGGAAACCCAATCTGTCCAATTTCTATATTGAGGCATCTGGATATGCAATTTATGGCGGTACGGGGACAATAGACATCAATGCCTATAATGCTTCTAGCGATGGCCAGCTGTACGGCTTTTATTTGGTATTGCCGATTCAGGTAACGGGCCAATTGGCAGAAATACAGACAGCCGCTAACACATTTGTGACGGACTTGCAGAATTATATGCAAGGCGGCCAGCATTTCTACACCATCGCAAGCATCAAGGTCTATCAACTGGACAATACAACGGATGGCCGGGAAGTCTTCTATTTTCGGCCCAACGATGGCGCCACTAAGATGGCTGGCGAACCGGCGACTTGGGTCAAGTTTCACGTGCCAATCCAGATCAAGGCTAAAAAAGACCTCAGCCCCAGCGAACAAAACGCAGTGAAATTTAATGCCAATAATAATGCTGAGTTGTTGCAGTATAGTGTTTTATTTGCTGGCTTTGGCGACATTATGGATGATGTTAGTGGTACGGCTTATCCCACCATTACACCCAGTCAGATCGGTGTTTCAGAGGCGCCGGATACGTATATTGCAGCGATTACTGTTAATGGTATTCGGCGGACACTGAATCTGACTGATGCCACTGTCATCGAGACATACAATGTGGTGAACGCCGATACCGGCGCACCGATTAAGACAATAACGAAAACCGGCCAGACGGGGACAACATACTCGCGGGTTGGACTGGTCGATACGCTAGCGAGTCTTGGTCTTGATTCTAAACAGTACTGGGCCCCCAGCCTGACGATCGATTCCGGGACGCTCACCGACACGGCAGTGCCGTTTGTGCCGACCACCTGGTTTGCCGGTTCAGCTAACCCGACCGTACCCGGTCATACCTATACAATCAAGGTCAGCCCAATCAAAACTAACTTGCAACTTAAACCAGTGATGATCACCCCAGGGAGCAAGTGGCAGCTGAGCGACAGTGTCCAGCAACTGACCGGCCCGGATGGTAAGAACTTATCGCTTACGGATGTCAAAGCCACTGGGGTGGATCAGGTGAATACGAATGCGGCTGGTCAATATCCGATCAGTATCAGTTATACCGATGCGCAGGGCAACGTCACCACGGCCAAAAGTGTGGTTATGGTTGGTTATACGGATAGGGGCTTAGCCTGGTATGATAGTGATGTTGACGGTGTTTACACGGCATTTGAACATAAATTAGATGGCTCCAAGCAACCCATCCGGTTCCAGTTATTCAAACAAAATACGGTGACGGGAGCTTGGACCGTGGCCGCCCATTACGATCCGAGCAGCGCGCCGACTTTTCTCAGTACTGCGCCAGTGAGTATTAACAGCAGCGGTGACTATCAATTAGCAATACCCAGTGCGGGAACGTTCAAAATTGGCATTGCCCAAGCTGATTTACAGGCGTTACATTATTCGCTCACCAAGTTGAATGGCGGATACGATATCATGGCCAATTCGGCATTTGATTCAAAAGTAACCGGGAATGATGGCAGTACGGCGTATTATTTAACCCAAAACGCGTACACGATCCCTGCTACTGGTGCATTGAGCATCCACGACGCCGCTGTTTTGGGACAAATTGCAGCGGGTGTGTACACGAGCCAAGTCGGTTTAATCAGCCTGACCCCGCCGACGCTGGATTTTGGCAAGCAGGTTATTCCCTATCAGACGGCTACTTATACCAACCAAAACGCCGCCGGCAATCAGCTGATTTACTCGGATAACCGGACAGTTTTCCGGTCGCCTTTCAGCATCAGTGTGCAGGCCGGCGACTTCATTGACCAGACCGACAGCCAGCATAGTGTGGGCTTGCAGCAGTCATTTCTGACCTTCCAACAACTCGGGGCAGGCATGCCCAGTTTCAAGGTGTACACTGGCGGCAGTGATGTCACATTGTTCACAGTCGAAAATTCAAAGGCAGGGGCGACGATGATCATGCTGAATCCGCCGCAGCTTACTGTACCCGGTGTATCAGGCACCACCACGATTCAGGCCAATCATCAATATCAAGCAAAATTGACGTGGACACTGACGGATGGCATTTAA
>SRR1151209_03025 hypothetical protein
ATGCGTATTGACCGCGCTTCATTAAAGCAGACTGTTAAGGCACGCATGGCGGGACACTATGGCACACTTTTTGGTATCACTCTGCTGCCGCTGATTATTTTGGCTCTGGGTATTATGGTACTTCAGTTTCTACTGATCTATTTCACCACCGGGTCATCGGTTTGGTCGTTCGCATGGGTCTTGCCGTCACCGCTGCACACGGCAGTCAGTCCAAGCATTCGCTGGGCGTTCAGCCAAATCATTTCGCCGCCGATGCCGCTTCCCGCCCCGGGGAGTGTTGGCGGTCTGGCTGCCCCTGCGGCCCCATGGTGGGTCATCTTGTTATTTGATTTTGTGGCGACCAGTGCGGCGATGGGCGTTTTGACTTGGTGGCGGCATCCAGAGCAGAATCGCTCTTTGCTCAGCCGGGCGTTCATTGGTTTTTCACCCCGTTATCTCCCAGGTTATCTCGTCCTCTTCTTATTCACCAGCGTCTTGCTGAATTGGCCGGCATACTTGCCGTTTGCCAGCACCTATTGGGGTATTTTTCGCCTCGTTTGGCTGGTTTTGGAAGTGATTCTCCAGATTGGTTTGATGCCTGCGTTTTATCTGTACATGGATCTACGCGATGCTGGTCAAGGCGGCGTCGTCGCAGCTATCAATTTGAGCTGGCAGCTGATGGCGGGCTTTAAGGGCGATTACTTTATCCTGTGTCAACGCCGACGATAA
>SRR1151209_03026 sugar ABC transporter permease protein
ATGAATATCATGACGTTATTGCTGACGGTGGTTTCCACTACCCTGGTTTATTCCGCCCCGATGATTTTTACTTCAATCGGCGGCACGTTTTCTGAGCGCAGCGGGATCGTCAACGTCGGGCTGGAGGGTATCATGGTGATGGGCGCATTCTCGAGTGTCGTCTTCAACCTGTTCACTGCCCATATCTTCCACGGCGCCACCCCCTGGCTGGGGTTGTTAGTCGGCGGATTAGTCGGTGTGCTGTTTTCCTTGATGCATGCCGTCGCGACGATCAACTGGCGCACTGACCATATCATTTCTGGGACGGTATTGAATTTGATGGCGCCGGCGCTGGGAGTTTATCTGACTAAGCTGATTTTTGCCGGCAAAGGGCAAACCGATATTATTCAGCAGCCGCTGGCTAATGTGACCATGCCAGGATTGTCCAATATTCCAGTGATTGGACCGATTTTCTTTCGTAATACGTCATTGGTGGCGTATTTTGGGATTTTCGTTGCTATCTTCTCCTGGTGGGTCCTGAAATACACGCGGTTCGGGTTGCGTTTGCGGTCTGTCGGCGAACACCCTGAAGCGGCAGATTCCGTCGGTATTTCCGTTTACAAATACCGATACATGGGGGTCATGCTGTCTGGTCTATTGGGCGGTATCGGCGGCGCCATTATGGCGGAGAGTATTACCTTGAACTTTTCTGTTTCCACGATTGTGGGCCAGGGCTTCATGTCGCTGGCAGCGATGATTTTTGGGAAATGGAATCCAATTGGGGCAATGGGCGCGGCCATTTTCTTTGGCTTTGCTCAGTCACTGGCCATTATTGGTAAATATATTCCAGTCATCGCGAATGTGCCCAACGTTTGGTTCACCTTGGCACCATATTTGATCACCATTATTGTACTGGTGGCCTTTATCGGGAAGTCCCAAGCACCAGCAGCAGATGGGTCGACGTTCGTTAAGTCCAGGTAA
>SRR1151209_03027 branched-chain amino acid ABC transporter permease
ATGCGCATTAAAAATCTTCGGTTGGGCAACCTCTGGATCTCGGTAACTTCCGTTATCCTGGGGATGGTGGTCGGTGCGATCATCATGATCCTGTCCGGCTTTAATCCGATTGAAAACTATATCAGTTTATTCACTGGTGCGCTGGGCAGCCCCAATGCAATCGGTGAGGTGTTGCGGGAAGCCACACCGCTGATTCTGACCGGGCTGGGCTTTGCCGTCGCGAACTCGGCCGGTTTCTTCAACATTGGTTTGGCCGGTCAGGCCCTGGCCGGCTGGCTGGCGTCGGTGTCATTTGCGTTAGCCTTTCCCCATGCGCCCGGCTTCTTGCTGCTGCCCGGGGCAATTCTGGCCGGTGCAGTCGCCGGTGCCCTATGGTCCGGGATCGCCGGCTTCCTGCGGGCGTATTTCGGCGCCAGCGAAGTAATCACCACCATCATGCTGAACTATATTGCCCTGTATGCGACGAATGCCGTTGTCAAGGGCATGCTGGCTAAGGGGGACGGCGACTATTCGCCGACGATCCCTGTGCAGGCGCGGTTACGGACACCATTTTTGGAAAAAATCACGCAAAATTCCACCTTCCACTGGGGTATCTTGATTGCCCTGGTCGCGGTCATCGTGGTTTGGTGGCTGATGAAGAAAACGACCCTGGGTTTTGAGATTCGGGCCGTGGGGATGAACGAAGACGCGTCCCGCTATGCCGGGATGTCCACGAAGAAGACGATCATTTCTGCTATGCTGATTTCTGGGGCGCTCGCCGGTCTCGGCGGGGCCATGGAAGGACTGGGTAATTTTCAAAATATCATTGTCAACACGGCCTTGCCCAGTATTGGCTTCGACGGAATGTCCGTATCGCTGTTAGCGACCGGGTCGCCGGTGGGGATCATCCTCGCCGCGCTGCTCTTCGGAATCTTGAAGATTGGCGGATTGAACATTTCCATCGCCTCCACGACGCCGCCAGAAATCGTCGATATCGTAATTGCCGCTGTCATTTTCTTCGTCGGTGCTAACTATGTCATTCGCTATCTGAGCGTTAAATTGCGCAAGCATCCCAAAAAGCAACCGCCGGTGGCCAGCAGCAGTGAACCGCAGGCCGCGGTGGCTGAACGGGCCGCGCAGGCTGAAGAGGAAGGGGAGGACGCCAAATGA
>SRR1151209_03028 heme ABC transporter ATP-binding protein
ATGTCATCTTCTGAAATTGCCATTGAAGTGCGGGACCTGACCAAACGTTTCGGGGATTTTGTGGCTAATGACCACATTTCGATCCAGATCCGCAACGGTGAGGTCCATGGCTTGCTGGGCGAGAATGGAGCCGGCAAGACAACCATGATGAACATGCTCTCCGGAATCTTGCAGCCGACCAGCGGTGAAATTCTAGTTCATGGGAAACCGGTCCATTTGGCCTCGGCGAAGGACGCCACGGAACTCGGGATCGGGATGGTCCACCAGCACTTCATGCTGGTAGAGAACTTCACCGTGTTGGAAAACATCATGCTGGGTGTGGAGGAAACGAAAGGTGTCGGGATCCTGAACCGGCACGATGCCAAGGCCAAGGTTATGGCACTGTCCAAGCAGTATGGGTTGGATGTGGATCCGGATGCTAAAGTTGCGGACATTTCGGTCGGAATGCAGCAACGGGCAGAAATTTTGAAAGTGTTGTACCGTAATGCCGATATCTTGATTTTTGATGAACCCACGGCCGTTTTAACCCCGCAAGAAATCAAGGAATTGCTGGATATTTTTCGTCGGCTGGCCTCAGAGGGCAAAGCCGTTATCCTGATTTCTCACAAATTGAATGAGCTGCAGGCCGTGGCGGATATCACCACGATTATTCGCCGGGGCAAAGTGATCGATACAGTGGATACGAAGACCACTTCTACAGAAAAACTGGCTGAGCTGATGGTTGGCCGGCACGTCACTTTCCAACGTGAACGCGTACCGATGCCAGTTGGTCCAGAAATTTTAAAGATTGAAGACTTGCAAGTCATCGATAAGCAGAAGGTCACTCGGGTCCACGATTTTGATCTGACCATCCACGGCGGCGAAATCGTCGGGTTGGCGGGGATTGACGGGAACGGCCAAAGTGAACTCGTCCGGGCAATCACGGGCTTAATGCCTACGGCGGGCGGCCATGTCATTATTGGCGGCCAAGACCGCACCGGGGCCACGCCGCGGCAAGTGACCCAGTCCGGGGTTGGCCATATTCCAGAAGACCGGCAGCGCTATGGCTTGATCCTGCCCATGAGCCTGGTGGACAATATGTCGCTGCAAGTCTACACGCTGGCCCCGTATTCTCACCATGGGGTATTGAATCCCAAAGCGATGATCACGAATACTGAACAGCTCCTAGAACAATACGACGTCCGGCACAGCACGATTGAAGAACCGGCAGGGTCGCTTTCCGGCGGGAATCAGCAGAAGTTGATCATCGCCCGGGAATTGAGTCGGGAACCGCAATTATTGATTGCAGTCAATCCCACCCGGGGCCTGGATGTCGGCGCGATCGAGTTCATTCATTCGCAGTTGCTGGCTGCCCGAGCGGCGGGCCACGCGATTCTGTTGATTTCTTACGAACTGGATGAGATTCGCCAACTGGCTGATCGCGTTGCGGTTATTCACAGCGGCACGATCGTTGGTCAAGCGAAGACCAGTGCTTTGAGTGAAAATGAGATTGGTTTGTTGATGGCCGGCGAAACGGTGCCGGGGAAGGAGGAAATGCTCAATGCGCATTAA
>SRR1151209_03029 membrane protein
TTGAAAATCAGTCACAAGATTGGCTTGGTTGCGTCAATTGCGGTTATGGGGTTAGCCCTGGTCGCTTGCGGCGGCAAGAGCAACAGCGGCAGTGCCACGAAGACCGTCAAGTATTCTGCAGCATTGGTTACCGATGGCGGCGGGGTGGACGACAAGTCATTCAACCAAAGCGGTTGGGAAGGTCTGGAAGCATGGGGCAAGAAGAACGGCTTGAAGAAGGGTGTCGGCGGTTATAACTACGCCCAATCCAACTCCGATGCGGACTTCACCCCGAACATCAACAAGTTGATTCAGGCAAAGTATGCGACGATTTTTGGGATCGGCTATAAGTTGGAGAGTGCGATCAAGAACGCTGCAAAGGCGAACCCGAAGACTAACTTCGTCATCATTGACGATGTGATCGATGCCAAGAACGTGGCCAGTGTCACGTTTAAGGATAACGAAGGGGCATTTCTGGCCGGTGTCGCCGCAGCCGAGACGACCAAGACTAAGAAGGTCGGCTTCATCGGCGGCATGCACGGGGCAGTCATTGACCGCTTTGAAGCCGGCTTCCGCCAAGGGGTCGCGGCTGTCGACAAAAACATCAGTGTCGATGTGAAGTATGCCAACGACTTCAGCAAGCCGGATGTTGGCCAAGCGTTAGCCAACGCCATGTTCAACAACGACGAAGACGTGATTTACCAAGCTGCCGGCGGTACCGGGATGGGTGTCTTCTCTGCTGCCAAGAACCAAATCAAGAAGAAGAAGGTTTGGGTCATCGGCGTCGATCGGGACCAGACTCCTGAAGGTAAGTACAGCGGCGGCAACCTGACGCTGACTTCCACCGTTAAGGGCGTGGATATTGCGGTTGAGAAGCTGGCCGACGATGCCAAAGACGGCAAGTTCCCTGGCGGCAAGACGACCGTTTATGGTTTGAAGGAAAAAGGGGTTAAACTGGCGCGCGGCAACATGAGCGCGGCTGCTTGGAAAGCCGTTCAGGATTACCAGCAGCAGATCATCGACGGCAAGATCAAAGTCGCTGAGAAGCCCTCACAACTGAAGAAGTAA
>SRR1151209_03030 integrase
ATGGCTACAATTACAAAACGCGGCAAACGATTCCAGGCGCGTGTGCCTTACTACGCACCAGATGGAACGCGAAAGTTTAAGGCAAAAACGTTCGATACGCAACGGGAAGCCAAATACTGGGCCAGCAAGAATGAGGTCGTCAACTTTGAGGATGGCACACTCTATGAGTCCATGGAGCCACTGCCGGAATATTTCAAGCGCTGGTACCTAACCTACAAGCAACCGCTAGTTGCGCCGGCATCAATGAAATGGTATGAATACACACTGACCATCCTAAACGATCACTTTGCCGGCGTACCTATCTCGAAGATCACCCATGATCAGTATCAGAAATTTTTGAACGAGATTGGAAAAGACCGGGTCAAGGCTACCGCAGTCCGTATTAACGGTCAAATTCGGATGGCTGTGAATAACGCGCTTGACGAAAATAAAATCCGTAGGGATTTTACCCGTGGAGCAGTCGCCACCGGTAGCCGTCAGAGCCGTTCGGCTGATTTGAAGTATCTCAACGCCGGTGAGTCAGAACGTGTGCTGGCATCGGTCACCAAAGGCCCAACACTGAATACTGTGACTAACTACATGATCGCCACAGCACTATACACTGGTGCTCGTCTTGCAGAAATCGGCGGATTGACCTGGGACGATATTAGTTGGACCTTCAAGACAATCCGAATCAACAAAACTTACGACTGGACGCAGCCCGGGCACTTCAAAGAGACAAAGAATATGCAGTCGCACCGGGTCATCAAAGTTAACGATGAACTGCTCACCCTCTTTAAACGCTTGAAGGACCAGCAGGAGCTCGGGCTTAATCGGTTGCACATCGCTAATCCACAAGGTCTGCTTTTTCTAAATGCCCAAGGCACCGTGCCAGGATCGTCAGGGGTAAACAAAATGCTGCGGAAAGTATTGAAGCGTGTGGAAGTCCGTCCAGAAGTCCAGGACCTGAGCTTCCACGGCTTGCGTCACACCCACGCCAGTTATTTACTTTTCAAGGGTATCTCCGTTTACTACATTTCAAAGCGTCTCGGCCACCGGGATATTACCACCACCCTTTCGATCTACAGCCACGTCCTCAATGAACTGGAAAACGAGGAGAGCAACAAAACATTGGTCGCTCTTACGGCGATGCGAGATGACGGGGAAGAAGAAGCCGAGAAACGCCAGACCCGTTGA
>SRR1151209_03031 hypothetical protein
ATGAAGAAAGCTTTTGTTTTGGTTGGACTGGCGTTCTGCCTGATCTTTTTTGCAGGTTGCACCACATCAAGTAACGGGAGCAAGACAGGGACATCTGCCAGCAGCGGCCCGGTATTTGAAATCACCTCTGGAGTCAAGAACGGTAAAGCTGTACTTGATTCAGACCACTATATGAACGTCGGAGGAACTGCACCAGCCGGCGCCAAGTACGTCGCCTTCGTAATGGACGATTCCATCCTTGATGTTGTTAAGGTTACCAATGGAAAGTTTCACCTTCGCACGAACGGGGCGGGAGGTCCCTATCATTTGAAGCTTTATGCTTCAAAAAGCAAGATAGGCATAGGTGGAGATGTTAATAAACTGAAGGGCAAATCAATTGCCTTGAATGTCCCCAGTTCAACTAGTACGGTGTTAACTTCTGACCAGGGTTCTAGTGAGGAGAGCTCTAGTGAAGAATCGTCTGAAGAAGAATCCAGTAGTGAGTCCTCTGCTGCTGAGTCTTCATCGTTTAACCCATCAGATTATCAGCCTGGGGCGTCGTTCGACCAACTGGCAAGAACGCCTGACGATTACAAAGGTAAAAAGGTTTCATTCACTGGCAAAGTTATACAAGTCGTCGAAGGCGATGATGAAACAGACTTACGTGTGGCTATAGATGGCGACATTGACAATATTATTTTGGTTGGCTTTAACCCAGAAATCATGAACGGATCTCGCGTACTGGAAGATGACAAGATCACTTTCTACGGTATGAGTTTAGGAACGACCACATATGATTCAACGGCCGGCGGAAAAATCACAGTGCCACTAGTATACGCTGCCAAGATTGACGACAGCGGTAAAGCACCGGACGGTTACGGCTACTAG
>SRR1151209_03032 hypothetical protein
ATGGATGACTGTATTTCGGATTTGCTTGGCCAGGTGCTCAATATTGCCTACGACAACGACATAGCAGTAATAATGAGACCATTTCACCACCCAGACACTCCGCCGTGTGCTGATTGTGAGACGCGGACGATCATCTTAAACAGCAACTGGCGAGAGCACAATGCCCTGCCGATGCATGCTGCTCACGAGGTAGAACACATTCTTAACGGAGATACCGGTACACTCTACTATCACAACTGCTACGCCAAATATGGGTCAGAAGGTGCTGCAAACCGTGGTGCCGTCGGAATACTTGTCCCCTTGTACTTTGCCGATGTGGAACCCGAGGATGCGAATTTATTCCAATTTATGGACAACCTCTGTATTCCCAGCAGCCTTGAAAGTTGGGTAAATAGCACGATCCAAAATTTCTACCTAGAAAAATAG
>SRR1151209_03033 XRE family transcriptional regulator
ATGACGCTGTTTGAACGAATCCAAACCACTGCAAAAAAAAGAGGGATGAGTCTTCGAGAGCTGAATAACCGTGCTGAACTTGGCACAAATGCAATTTATCGATGGAAGACATCAAAACCAGCAGCCGACAAATTACAGGCAGTTGCCGACGTTCTCCACGTCTCCGTGGATTACCTACTCGGCAACACTGACGATCAATCAACTGATTCAAAGAAACCAGTTGACTTGTCGGGAACAAACGTTTTTACTTATCAGGGGATGCCAATTCCGGAAGACGACTGGGAAATTATCCAGGATATTTTGAAGCGGCGCCGGGAACAACTTAAAAAGAAGAAAAGTTAG
>SRR1151209_03034 hypothetical protein
TTGCCAGAAGAAAAATTAGTGCAACAGGCCGAGGCGGTTACCAAGCAAATCAAGATTGCTTTGATTGAGCGGGACGTAACCCAGCGGCGACTTTCAGTCATCATCGGTGAATTGCCACAGCAAGTCAGCCGCGCAATCAACGGCGGTATGGACCCGAAATCACGTCGGATTCGCCAGAAGATTTACAAGGTTTTGAAAATGGAAGAATCGGAATAA
>SRR1151209_03035 hypothetical protein
ATGCAGCAAGTGAAACTATCAACTGACACCGATATGGTTGTGCTCACTCAGACTGAACTAGATGAGTTGCGGAAGCAGTCACAGCAAGCGGTCGAAGAATCACTGATTGGAGCTCGCTGGACCATGACAGATGTCATAAAACGATTGTCCGGCTATCGGCGAGAGGAGCTGATAACTCGTGTGTTAATTCCCAACAAAGATGAGTTGGATAAAATTGGTGCAATTCTGTCTTGGCCGATCGGTCGCAGTGGCCGTTACTTGTTTAAGGCTACGGTCATGGCTCAGTGGATGGAGGACAACCTGGATCGCATCAGTCACGGAGGTTGGGATTAG
>SRR1151209_03036 hypothetical protein
ATGCTCACAATCGACATTCTTAGTTTCGTTCTTGGCGGCATTTGTCTACCGGCTATCTGGCAGATGATTAAGATTGCTATCAAATCTGTACTAGAGGGGGATGACTTCGATGACACTTGGGGACACCATCGAGCACCGTATCATGACGGTCGTTGA
>SRR1151209_03037 hypothetical protein
ATGACACTTGGGGACACCATCGAGCACCGTATCATGACGGTCGTTGAGTATCATTTCAGGGCCACTGACCAATGGCAGCGGGACTTCTCGCGGCACTTGTATCTGCGGCTCATCGCAAACAAACGAATGGAGGAACAGTAA
>SRR1151209_03038 hypothetical protein
ATGGACACACGATATATCTCATTCAAAACGGTCAGCCAAATCTATGACCGGAAGGAACGGCAGATGCGGGACGAACTTTTACAGATGATTGATTATTCGCGGAATAACGATGATCTGCTGGAAGACCCAGAGTATCAGCGGCATGTTGAACAGGCCGCAGCTGCACTTGATGATCTGGAATGGATTGACAGTAACGAGGCCAAAGAAAAAGCCGCCGACGAGGCAACGTCAGACGGCAATGTGAAAGGGAATGTTTTACATGAATAG
>SRR1151209_03039 hypothetical protein
ATGAAGAAGATTCTGATCGGTGTGGCCGCTGCCTTGGCGTTGTTCAGCCTGGCGGGGTGCCAACCCAAGGGTAATGACAGTGCGAGTGCGGCCTCGGCGCAAGCGGCGCAGACCTCGTCCAGCTATACGGCCATCATCCGCGGCGGCCGCGATGCCGTCAGCAGCAAGGCTTACGACCAAGCGCTGGGCTATTTCCAGAGTGCCCTCTTAACGAAGACCGGCGATAAGAAAGCGACGGCGCTGGTCAAGCAGACGAAGGCGCTGATCGAAGCGCAAAACAGCTTGAGCAAAAATAGTTTCAACGCCGCCAAATCCTCAGCCGCGGCCGTCAAGACCGTCACCGGCGGCGACAGCAGCCTGAACAGTGCCGCGGACGAACTGCTGACAACGATCAATAAGGTCCAGACCGCGTACAAGGCCTATCAAGGGCAATTGCAAAAAGCCCAAACGGCTTATGATCAGCAAGATTACGCCGGTGCCATCGCCACGCTGAATCAATTGGTCAACCAAAGCGACATTGCGGACAGTTATTACGCCACAATCTATGCCGGCGCGTTGAAACTGCAAGTTGGTGCCGTCAGCGCCCAGAACGCCAGCGGCGGCACTGCCGGCAACGGCAGCTCAGCCTCCTCGTCCAGCAACGCCGCCAGCGGTTCCGGTGAGTACAGCGTGAACAAGAACGATACGGAGATTAATGGCGAAAAAATCACCGCCGCCCAGATTCAGCAAGCCCGCAAGGATTTGCAGGCGCAAGGGATCGATTTCGCCTCGTGGTCCGACCTGGACATCATGAAAGCCATTAAGGTGGCCCATGCGGACGGCCGGACGAAGATCACGCCCCAGGATGCCGGGTTGAAGTAA
>SRR1151209_03040 acetyltransferase
ATGACAGACTATCGCTTGACCGGACCGGCCGCCCGGGAACAGTTCTACCAATTGTACTTATATGCATTCAACCGCCAGGACAGTGCCCGCCGGCGGGATTATTTCTTCCAGCGCTATGATCACGGTTGGATCTATGGGCTGCACGCCGGCGACCAGCTGGTCAGCGGCCTGTACAGCCTGCCCTTCACGGTGAACTTTCATGGCGTCAACTTCCGGATGAACGGCATCGGCGACGTCATGTCGGCCCCGGAATTCTCCGGCCGCGGCGGGGCGGGAACGCTGCTCCGGGCATCGTTGGCCGAAATGGCTGAAAAGCACGTGACGCTGGCGTATTTGGCGCCTTTCTCCTACGAATATTACCGGCGCTTCGGGTATGAGCAGGTCTTCAATAAAATGGTGTATACCATCGCGGGTAAGGACGTGCCGGCGTTTCGCGCTCAGGGGGACGGCACCGTCACCCGGCAGTCGCTGCGGCTGGCGTTACCGGCGCTCAAACCGCTCTATGCCCAGTTGGCGGAGCATTTACGCGGCGGCATGGTCCGGGAAGACTGGTGGTGGGAACATTTAGCCCTGGCCAACGACTGGGACGCCGCGCTGTATCAGGACGATGCCGGGCTGATGCGGGGGTACTTGCTTTATGAGCGCAGCGGCAGTACGCTGACCGTCCAAGAATGGTATGCCGCGGACCAGACAACGTGGACGCATCTGATGGCGTTTCTGTTGAAACACGGCAATACCTTTGCCACCTTGGAGTTTGCCGACCAAGACAGCCGTTACCGCGGGGATTGGTTCCCGAATCCCTATGTGCTGAAAGCGGCGGCGGAGCCGTTTATGATGGCCCGCATCGTGGACCTGCAAGACTTTTTCAACCGCTATCCCTACACCGGCCAGCTGGCGGATCTGGTCACCCTGGCCGTCACCGATGACACCCTGCCGGCCAACCAGGGTGTCTGGCGCTTGAGCGTTGCCGGGGCAGAGAAAATCGGCGATGATCCCGCCGCAGAGGCGGACATTTCACTTTCGATCCAAGTCCTGACCAAGGCTTTGTTCGGTACCCAACCGTTGGCTGCCTTAGTCAAAAGCGGCCGCGCCGATGGCGATCAAGACGCGGTTGTTCGGTTGGATCGGGTACTGCACCACGAACTGCCGATGCTCAACGATTATTTCTGA
>SRR1151209_03041 sugar fermentation stimulation protein
ATGGACTATCCTGGTATTATTTTAGGCACCTTCATCGATCGGCCCAACCGGTTTGTGGCCCACGTGGTGATTCAAGGAGAAAAAACCACTGTCCACGTGAAAAACACTGGTCGGACCAACATTCTGGTGGCCGGGCGTACCGTGGCGCTGGCCCCGGCGGCGAATCCCAAACGCAAGACCCGTTTCGATCTTGTGGCGGTAGAAACTCCCAAGGGCTGGATCAACATTGACTCCCAGGCACCCAATGCCGTGGTCGGCCAGGGCCTGCGGGATAATCAAATCAAACTGCCAGGGTTGGCCGAGATCACACTAGTGCGGCCGGAGACCACTTTCCAACAAGCCCGCTTCGACTTTTTCGGCAGCAGCGGCCAGCAGCCTTTCTTTCTGGAAGTAAAGGGCGTAACGCTTTGGCACCATGATGTGGCCGCTTTTCCCGATGCACCGACGCTGCGCGGGTTGAAGCATGTCGAAGAACTGATCACCGCAGTGGGGCAGGGGTATCACGGCTATTTGCTGTTTCTGGTGCAGATTCCGGATATTCGGGTGGTGACGATTGCCCGGGAGATGCAGCCGGCGCTGGCGGCGGCCATTGCCCAAGCCCAAGCGGCTGGGGCGCATGTCCTGGCTTACGGTACGCGGGTCACACCAGGTACCATGACCCTGGGCCAGCCTATTCCGTTTGACGTGCAGGCCCCGTTTTCCATGGCGGCAGCGTTAGCAGAGGCTCAGAAATAA
>SRR1151209_03042 membrane protein
ATGCAACAATTATATACTACGTTTCGTCGTTACAACTGGCTGCAATCCATTGTCAGTTTAGCTTTAGGGGTCTTGCTGCTGCTGGTGCCGAAGATTGTCACCAGTGCCGCCATTGCCCTGATTGCCGCCTACATTGCCATTCAAGGAATCATCGGGCTGGTGGCTGCAATTCGGGCCGGTAAGGATAATCCGATGCAGGATAACAAGATGGCCGAGGGGTTGAGCATCGGACTGATTGTGGTCGCCGTTGTCTTCTACCTGCTGGCCAAGCCATTGCTGGCGTCCTTGCCCTTTATCCTGGGCTTGATCCTGATTTTCATGGGTATCAACCGGCTGGTCAGCGGCTTCAGCCGCAACCGGACCTACGTAAACGTGACCCCCTGGCCCATGGCAATTTACGGCGCATTGTTGATCATCGCTGGAATCGTCTTAGTGATCAATCCTTTTGGCACGTTGATGCTGCTGTTCCGGTTCTTCGGCGGTACCTTGATTGCAATGGTCATTGTCGATTTCTTCACCGGTCGGTATTACAAGAAACAAGCCTAA
>SRR1151209_03043 glycerol-3-phosphate ABC transporter ATP-binding protein
ATGTACATCAAGCTTGATCATCTGACAAAGCAATACGGCGCCACCTCTGTCTTAGACGAAATCAACGCCCAGATTGAAGAGGGCGAATTCTTCGTTCTGGTCGGTCCATCCGGCTCCGGAAAAAGCACCCTGTTGCGGATCATTGCCGGGTTGATTCCGGCCACGTCCGGCGATGTGTACTTCGACAACCAGAAAGCAACCGACCTGCCGCCGAAGGATCGCCACTTGGCGATGGTGTTCCAAAACTATGCACTGCTGCCGTTCATGAGTGTGGCCGAAAACATCCGTTTCGGCTTGCATAACTTGCAGCTGGATACCACGGAGGAAGCCAAGCGGGTCAATGACGCACTGGCGATGGTTCAATTGACTGAACTGCGGGACCGCAAACCTAAGGAATTATCCGGCGGCCAGCAGCAGCGGGTGGCGCTGGCCCGGGCCATTGCCACCAAGGCCTCGCTGGTCTTGATGGATGAACCCTTGTCCAACTTGGACGCTCAGCTGCGTACCGAAATGCGTCAGGAACTGGTCCAGTTACATAAAGAACTTGGCATGACCTTGCTTTATGTGACCCACGATCAGGTGGAGGCAATGACGATGGGTGAACGGATCATGGTTCTCAATGACCACCATGTTCAGCAAGTCGGCACACCCTTGGATCTATACAATCACCCGGCCAATGAATTTGTCGCCAGTTTCATCGGCAGTCCGAAGATGAACATGTTTGACGCCACCATCGATGCCTTGGAGCATTTGGCCACCTTGCAATTGACCGATGCCAATCAGCATTCCGTTCGACTGCCGCTGCCCTTCGATTTACAGGCCGGCGCCTACCAGCTGGGCATTCGGCCGGAAAAGATTCAGCTGCATGACCAGCCAGCAGAAAACAGCTTCCCCGTGCGGGTCATGGCGGTCGCCAATCTCGGCCGGGAGTCTTCAGTGACGTTGGTCAACAACGGCCACGAATTTATTGCCAGCGTACCGGAACAATATCCAGTACCGGAGAATCAGATCGTTTACGCGACCTTGCCCACCGATGCCGCCGATTTGCACTTCTTTGATGAGAAGAGCGGTCTCGTCGTGAATAATAAGGGGATCCCCGAAAAGGCAGGTGTGCTTGATGGAATTGCATAA
>SRR1151209_03044 glycerol-3-phosphate ABC transporter permease protein
ATGGAATTGCATAACACCCCAGTCGCCGCTCCCAGTACGACCACATCAGGCACCAAGGGCCGTTTTCTGAAAAAGACCAACGCGGCACTCTGGTTCCTGTTGCCGTCACTGGTCATTCTGGCCGTTTTCACCTTCTACCCGATGATCATGACCGCGATCGAAAGTCTGTTTTCCACCAATGTTCGGGGCGAACTTGCCCAATTCGTTGGGTTTAGCAATTATGCCGAGATTTTCAGCGATCCGTTATTCCTGAAGAGTCTCGTGAATACCTTTATCTTCGTCATTACTGCCGGCTTGGGGACCATCGCCCTGGCACTGTTCCTGGCCAGCATGGTGACTGAAAAGATGCGGGGCAGCGGTTTCTTCCGGACCGCCTTTGCGTCCACCATGGGCATCTCTGGCGCCGTCGCGTCGGTACTGTTCCTCTTCCTGTTCAACCCCTCGGTGGGGGTGCTGGGCATCCTGTTGAAGGATATCGGTGTGAAGCAGAACAATCTGGTGGCCGATCCCACCGGGGCGATGATCATTCTGGTCGTCGTCAGCATCTGGATGGGGACCGGCTTCTCGTTCCTGAACCTGCTGGGCGCGCTGCAATCCGTCCCTGCCGATTACTACGCCGTGGCGGATCTAGCCGGCTGGTCCAGCTGGCAGAAAACCTGGAAGATCACCATCCCGATGGTTTCGCCCACGCTGTTCTTCCTGCTGGTGGTCGAAATCATCGGCAAGTTCAAGACCTTTACCGAAATTGACCTGATCACCGGCGGCGGTCCGGACAATGCGACCAACTTCATCGCCTACAAAGTCTATACGGACGCCTTTGGCAACCGCAACTTCGGCATCGCTGCCAGCGAAGCACTGGTGCTGACCGCGATCATTGCCTTCGCCACCTGGTTTCAATTCCGCTTCACAGAACGGAAGGTGTATTACAAATGA
>SRR1151209_03045 glycerol-3-phosphate ABC transporter permease protein
ATGACCCAACTCAAACATGCCAATCATTATTTCTGGTTGATTCTGGTGGCGTTGCTGATGAGTGCACCGATCCTGATCGGGATCTGGGCCAGTTTGCTGCCCACCGCCGATATTGCGGCCGGGCACTTGACCTCAACCAACATCTCGCTGGCTAACTACGTCGCGGCCATTCAGACGACGCCGGTCCTGCGCTACATGGCGAACTCCTTCATCATCGCCATCTTGATCACGGCTGGCCAGCTGGTGCTGTGCACTTTGGCGGCATACGCGTTTGCCTTTCTAGACTTCCGCTTCAAGAAGCAGATCTTTGCACTGTTCCTGATCACGATGATGCTGCCCTTTGAAGCCCAGATCATTCCGAACTTCCAGACCGTCCGGACCTTGGGCTGGCTGGATTCCTATGCCGGCTTGACCATTCCGTTCTTTGCCTCCGCGTTCGGGGTGTTCATGCTGCGCCAGGCCTTTCTTCAAGTGCCCAACGAATTGCATGAATACAGCCAATTGATCGGCTTGAACCACTTGCAATTTCTGTTCAGAATCGTACTGCCATACTCTCGCTCGACGATCGTGACCTTCGTGCTGTACATGTTTCTGACCCATTGGAATGATTATCTTTGGCCGCTGATCACAACCTTCACCGATCAGTACCGCACCACACAAGTCGGTTTGAAGCAGCTGCAGGCCCAGGATACGTTCAGTAACTGGGGCGTCATCATGGCTACTGCCATCCTGATCCTGCTGCCGACGCTGATCGTCTTGATCATTGGCCAGTGTTACTTCCGGAAGGGCTTGAATACGGGAGGGTTGAAAGCATGA
>SRR1151209_03046 glycerol-3-phosphate ABC transporter substrate-binding protein
ATGAGCAAAACGTTTTGGCACCGCTGGGGGCAGCTGATTGCTGCCACGCTGGCCGTCCTCGCTGTGGTGAGCGGTATTGCCTTCACGACCACGGCCCGCAATGCCGCCCAGGCCAGTTCCGGCCGGATCGTTATTAGTTTCTGGCACTCCATGAACAGGCCGAACGGGCAGTTGCTGGATAAGATCGTGGATAATTTCAATCAGAGTCAGACGAAGTATAAAGTCGTCTCGCAGTATGAGGGCAGTTACGGCTTGGCGGAGTCCAAGTACATCAATACCCTGCATACGAACGTCACACCGACGATCATGCAGCAGTCGGATATCCCGACCATGACGGCGGTTGGAGATTACGTACCGATTCAGCAATTCGTCGACGCGGATCATTATGACCTGAACCAGTTTTATCCTGGTATTCTCTCCGGCTTCAAGCTGAAGGGCAAGTTGCAATCCATGCCGTTCAACGCCTCATCCAGTGTGATGTATTACAACAAAGATCTGTTCAAGAAATATGGCGTCAAGCCGTTATCCAAGTCCCCCAGCTACAGTGAGATCCGGGCGGCGGCTAAAGCACTGACGGAGAAATCCAAGGGCGCCATGAAAGGCGCGACGCTGCAGATTTATCCGTGGCTGCCGGAACAATTAGCCGCGAACCAAAACGCTGTGGTCGTGAACAAAGATAATGGCCGCACGGCGGCTGCGACGTCAGCCGAGCTGAATACGCCCGCCATGCAGCGAACTTTTGCTCGGGTCCAAAACATGATCAAGGACGGCAGTTTCCAGAACTACGGTACCGGCTCGTCGGCTTCGGTGAACCAAATGGCCGGGTTCCTGGCGGGCAAGATCGGTATCTTCATGCAGAGTTCCGCCGCGGCGGGGACCATTGCCAAGGGCGCTAAGTTCAAATGGGGCGAGACCTTCACGGGCTCATGCGGACGGCGTACCGGCTAA
>SRR1151209_03047 glycerol-3-phosphate ABC transporter substrate-binding protein
ATGGAAGCCAAACAGCAGGCAGCTTGGCAGATCGGTACGGGCTACATTGCCGTCAATAAGGCGTCGGTCAAGACGGCCGCGTTGCAGGCCGCGATCAAGAAAAATCCAGACATCAACGTGCCGATCGAACAGCTGCAAGCCGGCAAAGTCAACGCCGCGACAGCGGGGCCGTTCCTGGTCAACTCGCAGATGGATCAATATTTAGGCACGGCGATGCAGCAGATTTACGGCGGCAAGGATATTAAGCAGTCGCTGCAAGAAGCACAGGACGAAGTCAATAAAGGAATTCGCGACACGAATAAGAATAATGCCGCGATTCTGAAATCAGTCTTCGCTAAATAG
>SRR1151209_03048 N-acetylmuramoyl-L-alanine amidase
ATGGCACTGTCAATCAATAAAGGGTATTCCCTGGGCGCCAACCAGGGGGATGCACGGGTGGCACTACCGTGGTATGTGATCATGCATGAATCCGGCAACCCCAAGGACGTATACGACCAGAACGCAATCCTCAACGAGGTTAAGTGGATGCGCAGCAACTGGAGCAGCGCATACTCGACGTACTTTGTTGGTGGAGGCGGGCAAATCTATCAGATCGGCGAACCTGGCTACGTCTCCTGGGCGGCCTTGTCAGCCAACCCTTATGCCCCTGTGCAAATCGAACTGGCTCGCACAGCGGACCGTGAGACGTTCCGGTCAGATTACCAGGCGTATATTGCTCTGGCCCGCCAGTCGGCACAAACCTACGGTATCCCGCTCACTATCGATGAGGGCAGTGCAGGCAATCGAGGGGTCAAGACACACGCATGGGTGACGGCCAATTATGGCGGTGATCACGTGGACCCGTATGCCTACCTGGCATCTTGGGGAATTAGCAAGGCCCAGCTGGCGACTGATCTGGCGGGCGGCGTGTCCAACAGCTCCCCTGCAGCAGACAATCCCAATGTTGTGACGGTCAAATATGTTCCAGACTACGGTGTGGCTGCTCTTGGCGACAACGGTAAGCAGGTACCTGGCAGTAATCTGGTACTCAAGCACGGGACGGCCTGGCGGTCCAATGGCATCAGCATTATCGGCAATCAGGCGTGCTACAACATCGGTCGGGGTTGGTGGCTGCCACAGCAGTACACGGACCAGGCCGGTCTGATCACGATCAATTATGTTCCGGGTTACGGTGTGGCTGCCGTCAACTCCAGCGGCAAGCAGATCGCTGGATCCAATACCAAGTTCAAGAGTGGCAGCCGCTGGCTTTCGGCTACAGTGGTCAAGATTCGCGGCCAGGTCTGCTACAAAGTCGGCACGAGTGAGTACATCCCAGCACAGTACACCCGAGGCAGTGGTCAGGCACCGTTGTCCGAGTAG
>SRR1151209_03049 hypothetical protein
ATGGACCTTATTAAAGAATTGAATCTTGGAACGGCGGCGGAGCTGGCAATCAGTGCCGCCATTATTTTGGTCTTGGTAAATGCATTGAAGCAAACCAAGCTGGACAACAAGTGGTTGCCGTGGGTAGCGATGGGCTTGGGCGTCGTATCCGGAATTGTATCTGTGGCAGTGACCAAGGATAGCAACTGGGCACCGGCAGCAGTCCAAGGATTTCTGCTGGGTGCTGCCACCTCTGGGCTGTTCGACGGTGTTAAAGGACTATCGCCCACGGCCTTCGGGACGACCGAGAGTGTGGCCAGCCCTGCGAGTCTCAACGAGGCCCAGACGCTGCCGGCTGCTCCCATGACCACAGTGCCGGAGGAGAAGCATGAAGACCAACGGGACGCGGGTGCTCAGCTCAAGACTGGGCCGAAGGAGGACACCAAGGATGGCACTGTCAATCAATAA
>SRR1151209_03050 hypothetical protein
ATGCAATGGCTGGACCAGATACGCAAATTAATAAATGATTTGACGCCATTTCTGACCGCACTATCGCCGATTCTGGTCGGCTACTGGACGTATAAGGGGACACAGAAGCCTTCGGAGAGGGAAAAACGGGAAGAAGCCAATAAAGAAACAAACTATTGGCGGAATAATCTCAAGAAAAGATACTATTTGCGGAAGAAGAACAAGGAGGAGCACAAAGATGGACCTTATTAA
>SRR1151209_03051 prophage protein
TTGCTTAAACGCATTAAAGCCAACCCCATGCACTTCTGGATTGGCCTGGGCATGATCGGCATTGGTGTGTGGTTGTCACTCAACGACAACTATTTTACCTGGCCGCCTGGTCTGCGAGATTTCGCCAACGAAGACGCAGTAGATATGTTGTTTGTCGTGGCCGGTGCCAGCATGGCGTTGTGGACGTTGGATGACTATCGAACACCGACGTGGGATCACATCCAATTGGTGGCAGCAGCGATGCTGATGTCGGCTTTAACTATGTACCAGTTCTGCCACTGGTTCGTAACCGGTGCACCCATGCCGTGGATTTCAAACGGAGTGATTACTGCGTACGTGGTGATCCTCGCAAAGAGGAGTGATAGTGGTCATGCAATGGCTGGACCAGATACGCAAATTAATAAATGA
>SRR1151209_03052 hypothetical protein
ATGAGTAAATTTATCATTGGGTATTATCAGCAAGGCTACTATAGCAAGGAAAAGATGGAACAGTTTGTTAGAATTGGCTGGCTCACCGCTGACCAGTACAAGCAAGCAACGGGCAGCGAATTACCAGCGAATAAATAA
>SRR1151209_03053 hypothetical protein
TTGGCAGATTCGACAGAAACAAGCACAACTACGAGCGTATCGGCACAGGCTGGCACGGAAGCGAGCACAGCCACCTCTCCAGAAAAGATGAAGACCATATATCGGACATACTCCGTGCCTCAAGCAGACGGACAATATTTTACGGCCCTGATTGCGCCCGGTGATTATTCCCCGGACTACCCGTATATTGACACGCCGATCCCAGATGAACTGCAGGGTAAAGTAGCCAAATGGGATTGGCAGCTGAGCAAATGGGTGGATAGTATGGATGATCCTGTAGCCGCCGAGATTAATGGGATAAAATCCCAGAACGCTGCGCTTATCGCTGCTTTGGCCACGACGACTGAGAATTTGCAAGCTACTAAGAAATCGGCTGACACAGCTAACGCTGCGGTTGCAACACTGATTGCCCAGATGGCTGATGACAAAGCCACTGGCGCAACTAAATAG
>SRR1151209_03054 hypothetical protein
ATGACTGAATTAAAAAGCTTAGCTCAAATTATGATACCCGACGGCCAAAGACTGGCGAAATTGTACGACAATCAGGGCAACCTAATTTGGCGGGCCGAGCCAGAGGTACTTTGGACTGGTTCTGAGCAACTCAATAGAAAAACTGACATTAAGCTGTCAGAAACGTTTGGCGAATTGCCAAACGGCATTGTGTTATATGGCACACCAAGGATCATGGGTACTGATCCCCAATTATTGACGCCGGATGGCGGAGTACAGATATCCCAGGAAATGTTACTGGGTAATGAAGGCGTGGCTATCTATTTTGACTCCATGAATGCAAAAACGATTAGCTGGTCTGCAGGCAGTCTCAGCTCAAATGTATGGCCCAGCGTGATTAGTTCCACCGTGCTTGGTAACGGGTCAGGAAGTGCGTACACCCTTCTTAAGATTGTCGAGGGGTGA
>SRR1151209_03055 hypothetical protein
ATGAACGGCATCACTCATGCGCCAATCACCGACCGCTGGTGGCTGGTGATCGTCATCGCCAACACGTCCAGCACAAGCAAACGAGTGGAGCAGATTGCGATTGATGACCGGTACGGCATTGCGTATTACCGGATGCTGGCAAATGACGGCTGGAATGCTTGGCAGCAGCTGGCAACGACAACAGATTTAACGCCATATCTCAAGACTGCTGACGCCGATGCTAAATATTTGACCAAAGATCAGATTAACACACTGATTACCACAGCAGTGTCTGATTTTGGACAAAAAATTGTTTGGTCGGGTACGCAATCCCAGTACGATGCCCTGACACCGGCTCAGCGGTCCCAGTATTTGATATTGGGGGTTAAGAAATGA
>SRR1151209_03056 membrane protein
ATGCGTAAATTTTCAACGTTCCAAATCACGTTGATGAGTCTGCTGATTGCGTTGTTAATCATTCAAACTTATGTGCCAATGACGATCTTTCCTGGAGCGCCGACGATTACGGTGGGCCATATCATCGTGGCGATTGGAGCTATCCTGTTAGGTCCGGGCGGTGGGCTGCTGCTGGGCACTGTCTGGGGCGGGTTATCATTCATTCGTGCGCTGACCATGCCGCCATCACCGCTCTCGGTATTGCTCTTTACGAATCCGGTCATCGCATTCATTCCCCGGATGGTCGTGGGATGGACCGTTGGCTGGCTGTTTAAGCACTTGCGTCAGAAAATCAAGACGACCAGCCTCTTGGCAGGGGCAGTCGCTTTTGTCGGCACCTTCCTGAATACTGGGCTGGTGGTGCTTTTCACCTATCTCTTCTTTGTGCGAGACCCGGCCGCGCTTTTGAAGGCGTTTGGCCAGGCCAGCAGTACCACAGGCTTGTTCTGGCTCATTGCCATCATGCTGGGAGCCAACTTCGTCACTGAGGCGATCACAGCAGTGATCATCACGCCGCTGGTGACCACGCCGACGCTGCACATCATTGATCGCCGGCACAGATAA
>SRR1151209_03057 sortase
ATGAAGAAACAGCCGAAAAAATCTCGACGCGGTATCGCCATTCTATTCCTAGTGATTGGTCTGCTGATTTTCACGTATCCGTTTTACGTCAATGCCTTGAACGGCTTCTTGGATCACTACCAGCAGGAACAGTATGTGCGAGAGGCTCAGGCTAACCAGAAGCAGCAGGAGGCTGCGATGCGCCAGCACAACGCTAAAATTGCCAAAGAGGGCCTGCGGACCGGCGTAGATCCGTTTCGCGGCGAAGCCACGGATGAAAAGACCCGGGGGTATTTGGCTAAGCACTTCCTGGGCACAGTAACGATTCCCAAACTCAAGGTCTCAGTCAATCTGTTTGACCGGACTTCGGGCTGGCTGCTGGAGCGGGGCGCCAGTGTCGTCCCCGGGACGTCCCTGCCTAGCGGACAAAAAAATACCCATAGTATGATCTCGGCCCACAGCGGCCTGCCAGAGCGCAAATTGTTTACCGGCTTAGACCGCCTCAAGCGGGGCGATACGTTTCTTTTGACTATCGGCGGCCAAAAACGGGCATATCGGATCACTGGTCGGCAGGTCGTATTGCCCAACAAGCAGAATACCATTGCGTTGTCACCGAAAGAAGAGCGGGTGACGCTGATGACTTGTACCCCGTACATGGTGAATTCCCATCGGTTGTTGCTGACCGGGAGGCGGGTACCGCTCACGCCAGCCTTAAAAAAAGCGGCCGCGGATGCTACCCAGTGGCAGTGGCTGGTGTGGGGCGGCTGGTTTGCTTTTCTGCTCACGGTTGCCGCTGTCGCTTTAGCCGCCTGGCGCTGGCCGCGGCGCCGCAAGTTACGGACCAAGCAAGTTCCCACCCGTTGGCGGGGTAATTATGCTAAAGTAGAACCATCAAATGTTGCCGGAGGGTAA
>SRR1151209_03058 sortase
ATGCGGCGGCAAAAGAAGAAATGTCACGGCTATACCGTGAGTATGCTGATTCTGGGATTAGTGTTGCTGATGGCATCGGTTCTGTATCTTCCTCACTTGCGGCAAGTCCTTGGCGCTGGCACTCCAGATATCGCTCGTCCAGCCCAGAAAAATCAGGTCATCATTCCCAAACTGAAATTGACCTTACCGTTATTTGACGCTACCACGGAGCAGACCCTGGCCAAGGGTGCAACCTTATGGCAGGGCCAATTTGACCAGCGGCCAGTAATCACTGCCCACAGTGGCATCACCAACCATCCAGGTTTTGATCGACTGGACACGTTGAAAAAGGGCGACCGTTTCGTTGTGTTTCACAATAGCACCCAATACACGTATACGGTGACGCAAAAGAAAACGGTTCGGCCGGCGGCAGTGGATAGTGTTAAACCGGTAGCCGGCCAGTCACTGGCGACGCTGGTCACCTGCACGCCATACATGGTCAATAGCCATCGCCTGCTGGTCACCGGTCGGCGGGTGAAGTCTGCCACCAGTACCATGAGCGCGACCATCACCCAGATTCAGCGCCGGCAGGAGCAGCAGATTTGGAAAATGGCCTTGCTCGGCATCAGCGGTCTGCTTCTGTTTGCCGGATTCGCTGTCGGATTGACTTGGTACCACAAGCGAAGGACGGTATGGGCATGA
>SRR1151209_03059 hypothetical protein
ATGTTTAACGTGATTTCCAGCTTTCAAGTTTCAGTTACAGACAAATTCCGTGAATTGCTGGTGGGCGGGCCTAATGAAGGCGAAACGATGAAGGCGTTCATCCAACGGCAAATGGCCGAGTTTGTTAAGTCCAACCCGGATAATAGCCAGCTGACGAACCCAGTTGGCACACAAACCACTGCGAATGGTGGTTTGGCGAAATTCGATGGATTACCGGCCTATCAAAACGGCAAGCACCAGGTATATGTTTTCTATGAAACACAGAGTCCTGCCAACGTTAACGAGAAAGCAGCACCAATGGTTGTCGTGCTGCCAATCATGAAAGGCGAAACGCCGCTCTCTCAGATCCATCTGTATCCCAAGAACGAAATTGGTGATTCTGAGTTCGACAAAGAAATGATTGACAATGAAGGCAACCCGATTACTAATGGGCAAGATGTTGAGGTCGGTAAACAGGTTCAGTACTACTTGGAATTCACGATGCCGTACGATATCGGCGGGGTTTATGATATCGATGCCGGTAAGCGGACGACGTATGAAGCTTTCCGGTTTGCCGATAAGGTGAACAAGCCTGGTTTATCGTTCGTCAGTCTGGATAAAATTGTTGTTGATGACAAAGACCTGAAGGACAGCCTGGCAGACCACTATACATTTACTCCCCACAACGAATTGGGCAAGGAAACGACCGATGGCCTGGCCGGATTCGATCTCAATTTCAACTTCAGCAACACCGTCAACGATTCCAAGAGTCAAGCAGTTGCAACTGCGTTAAACCCGTATGCCAATAAGAAGGTTCGCATCTACTACACTCTGCAAGTGAACCAGTACGCAACACCGGATATTGCTATGAAGAACGAGGCGGTCTGGACCTGGAATCGCAAGGGGACAGAAACATCCAAGAAAGATGATGCCCCTGAGTTAATCACTGGTGGTAAGAAGTTCCTGAAAGTCGACGGCGCTAACGACGAAGCGTTACAAGGAGCCGAGTTCGTCATCACGAAAGGAACAGGAGCAGACTTGCGGTATGCGCAATTCATGACGGGCACAGAATCAACAGAGGTTCAAAGCACGTATGATCCTACTACTGCCAAGTACATTAAATGGATAACTGACAAAGACACTGCCACCAAATTCGTTTCCAACGATAAAGGCAACATCGAAGTCCGCGGACTTGAATACGGCGACTACGAACTGGTGGAAACCAAGGCACCTGATGGCTTCATCTTGCCGACCAAGGGCGTGCCATTCAAGGTAGCTCTGAACACTTGGACCGCAACTGATCAGCTTACCACCATCAAGAACATCCCCGAAGGCGGTCTCCCGTCCACGGGCGGCCCCGGGATCATCTTATTCCTGCTGGCTGGGTTCCTGGTAATGAGCGGCGGCGCGGTCTGGTACAAGTTCGGCAAACGCGTGCCTGCATAA
>SRR1151209_03060 transcription regulator
TTGACGATTCAAAGCAAATTTTTGAACGCCCTGCATCAACAGATCCGCCAAGGAAATCATCTGCTTGGCGTGAGTACCGCCACGGGGATGAACGCCTTACACGCAAAAAATTCTGGCGCTGATTTTGTGATGGTCCTGAATTCCGGTAAATTTCGTCAGATGGGCCGCAGTTCCCTCGGTGGTTACCTTGCCTTCACCAACAGCAATCAGCAGATCATGACCATTGCCCGCCAAGAAATTCTGCCAATCGTTAATGGCTTCCCGACTTTTGTCGGCCTCAACGCCACCGACCCGACGCAATCACCCGAGCAGTTGCTGACGCTGCTCCAGCAGCTGCCCATTGTCGGTGTGGTGAACTACCCAACTGTTACCTTGATTGACGGCCAATTTCGAGAGGCTTTGACTGAGGAAGGTGCAACCTTTGCGCAGGAAATGGTTTTAATCAAAGCGGCCCATGAACGTAAGCTGTGTACGGCGGCATTTGTCACAACGCCTGATGAAACCATCCTCGCTGCTCAAATTCCAACAGATATTATTTGTATTCACCTCGGTCTCACAGAAGGCGGTTTGCTAGGTGCTAGGCGAGTGCGCAGTTTTACCAGTATGATCAAACGGGTCAATGAAATCTGCCAGGCTCTGAAAGCGGCCGACAGTCACAGCTTCCTGATGATTTACGGCGGTATTATCAACGATCTCACCGAAGTGCGCTATTTGTACAATCGTGTTCCAGCAATTCAAGGTTATATTGGCGGGTCGACCTTTGAACGATTAATCCCGGAGCAAACGATCAGCGAACAAATGCGTGCTTTCAAATCGGCAGAAACAACGGCCAGTGATACCCTCACTGTTCAAATTCTGGAGGGCGCGCAAAACTATTACACCCCTACTGACTTTATCAAGCACTATATTGATGAAAATTATGCTGCGCCGGTTTATATCGGAGAATTAGCTGATATGCTGCATATGTCTGCTTCATACCTGAGTACCCTATTTAAAAAGAAAGCCGGAGTATCCTTCACGACTTACCTCATTCGGTTTCGACTCAATAAGGCAGTAGAGCTCATTAAATCGACATCTTTGCCACTGAAGGAAATCGCCCAACTGGTCGGTTATTCGGATTATGCCCAGTTCAATAAAGTCTTCCGGGTATATTTCGGCATTTCCCCTAAAAAATATCAAATTCAATCTTCTAACATAGACACTACTGATACGAACATGTAA
>SRR1151209_03061 hypothetical protein
GTGGGAACAGTCGCACTAGCCGGCACGTTCGATACTAAAGGTCGAGAGTTTGCATATGTCAAACAAATTCTGGAATCGTTAGGTAATCAAGTTTTCACCATTCACACCGGTGTGTATCAGCCGTTCTTTGTACCCGATGTTGATTCGTCCGTCTTGGCGGATGCAATGGGTGTTTCTATCCAGTCCATCCGTGATGCGGATCGGGGTGAGGCCACCGCCACTTTGAGTCAGGGATTTGCCAAGATACTGCCAAAATTGTATCAGGCGCATCGCTTCGATGGGATCCTTTCCTTTGGCGGTTCTGGCGGCACATCTCTGGTTACTCCAGGAATGCGTGAGTTGCCAATCGGAGTGCCTAAGATTATGGTGTCCACCGTGGCTTCCGGTGATACTAGTTTTTATGTTGGGACCAGCGACATCATGATGATGCCATCAATTGTCGATGTTTCCGGTTTGAACAAATTATCCAAAGTGATTTATGACAACGCAGCCGCTGCCATTTCCGGTATGGTGAATGCTCACTTTGTCCAAGATGTCGATGTTCGGCCTTTGGTCGGCGCAACCATGTTCGGCGTGACTACCCCCGCCGTTGATCATGCCCGGGAACTGTTGGATCAAAAAGGTTATGAAACACTGGTCTTCCACGCTACTGGTACTGGTGGGCGGACTATGGAGCATTTGATCAAGGGTGGTTACTTTACCGGTATCTTAGATTTGACAACAACCGAGATGGCCGACAACTTGGTGGGTGGTATCCTTTCTGCTGGGCCGCATCGCTTAGAAGCTGGCATCGCCGCGCAGATTCCTCAGGTAATTTCGTTTGGGGCACTGGACATGGTCAACTTTGGTCCGTATGATTCAGTGCCGGCGCAATTTAAGGATCGAAATTTCTTTAAACATAATCCGACAACGACTTTGATGCGGACCACTGTGGCCGAAAATGTTCAGCTCGGGCAGGAAATTGCTCGTAAAGTGAACAAAGCCACGGCGCCGGTGACCGTGATGATCCCATTGAAAGGGGTTTCGAAGATTGATGCGGCGGGTCAGCCATTCTTTGGACCGGAAGAAGACGCAGCCTTGTTCAAGGCGTTTAAGGACACGCTGGCTAACGACTGCGTTAAGGTTATTGAACTGGATATGAACATTAATGATCCAGAGTTTACGCAGGTGGCTGACGATGAATTATTGGCCCTGATCAAGGCCAAACAAGATAAAACAAAGAAAGAAGTTACTGCATAA
>SRR1151209_03062 TIM-barrel signal transduction protein
ATGGATAAGCGTACTCGAAAACAAATCATTGCTGATTTCAAGGAAAAAAGAAGCCATGGAGAATTCCTGATCGGCGTCGGTGCCGGTACCGGGATTACAGCAAAAAGCAGCGAAGCCGGCGGCGCCGATGTTTTCGTTATCTACAATTCGGGCCGATATCGGATGGCTGGCCGCGGCTCCCTCGCTGGTCTGCTGGCTTATGGCGATGCCAATGCGATTGTGGAAGAAATGGGTCGCGAAGTTATCCCGGTCGTCAAGCATACCCCAGTCCTGGCCGGTGTCAACGGGACTGACCCCTTCCGGATCATGGACGTATACCTCAAAGGATTGAAGAATCAAGGCTTTAATGGTGTCCAGAACTTCCCGACCGTTGGCTTGATTGATGGTACCTTCCGTAAAAATCTGGAAGAGACCGGCATGGGTTATGACTTGGAAGTCGACATGATTCGTAAAGCCCACGACTTGGATATGCTGACTACACCTTACGTCTTTGATCCAGAACAAGCCACCGCCATGGCTAAGGCCGGTGCCGATATCCTGGTCGCCCACATGGGACTGACTACCAAGGGCGCCATTGGGGCGAAAACGGCCTTGACGCTGGATGACTGCGTCAAGAAGGTCCAAGATATTCTTGATGCCGGGCGGGCTGTGAACCCTGATGTGATGGTAATCTGTCACGGCGGACCAATCGCTGAACCCAAGGATGCCCAGTACGTCATCCAGCGGGTAAACGGCATTGACGGATTCTTCGGGGCCTCCAGCATTGAACGGCTCGCCGCGGAGACTAGTATTAAGGCTCAGACGGAAGCCTTCAAGCACATTACGAAGTAA
>SRR1151209_03063 hypothetical protein
ATGTATTATGCCGATATGCTGTATTTCGTTGCCTTATTCGGTGGGCTGGTCGTGGGTGCGTTGGTCATTCTGGCCGTCGTGCTGCTGCTGGTCTGGGTCTACCGTATTCTGGCTACCCTGAAGGATATTCGGCGTTTGCTGGCCGCGTCCCAGACCGATCAGCTCGCTGAACACCGCCAGGAATAG
>SRR1151209_03064 2,3-bisphosphoglycerate-dependent phosphoglycerate mutase
ATGGTCAAGTTAGTCCTGCTGCGCCACGGTCAAAGTGTGGCCAATCAACAGAATACGTATACGGGGTGGACCGATGTCCCTTTGACTGCTAAGGGGCGGCGTCAAGCCGCCGAAGCAGGGAACCAATTGGCGGCACTGCATATTCCGTACACGGACGTGCACACTTCCATCCTGCAACGGGCCATTGTGACGGCTGATATTGTTATGGAAAAGATCGACCAGCTCTGGCTGCCCCTGCACAAGTCCTGGCGGCTCAATGAGCGCCATTATGGGGCTCTCCGAGGGATGAACAAGGATTACTCCCGGGAGCTGTTCGGCAAGGCCCAGGTGGCCAAATGGCGGCGGGGATACACGGATATTCCGCCGTTATTGGCCAAGACCGAGAGCGACCGCCGTTATGCCCAGCTGCCAGCGAGTATCTTGACTCGCGGCGAGTCATTGGCGATGGCCTGGCAGCGAGTGGCGCCTTACTATGAAGACCAAGTCGTACCGCACTTGCGCCGGGGAGAAAACCAGCTCATCGTCGCCCATGGCAGCACGCTGCGGGCACTGATCAAGTATTTGGATCATATTAGTGACGCTGACGTCGACAAGGTTGAAGTGGGTAATGGCGTGCCAATCGTCTATACGCTGGATGATCAGCTGCATGTCGTGACGAAAAAAATGCTTTGA
>SRR1151209_03065 malate permease
ATGACAGTTTTTTTGCATAGTTTATCCGGTGTGATCGTTATTTTGGCCATGATCGTTCTGGCTTGGGCCTTGACTCGCAAGGGCTGGTTTAATGATGATTATGCCAAAGTAACTGCTCGGCTGGTCACGCAGGTGGCGCTGCCGGCGTATATGATCGTGACGATTTCCGGTCAATTTCATAAGCAGGAATTGCTGAATCTGCTCCCGGATTTGCGTTTCCCACTCGTTTCCATGTTTATTTTGTTTGGCTTAAGCTTTCCGCTGGCCCACGTCTTTCGCGTGCAACCCCAGCACCATGGGCTGTGGCGGTCAATGTTTTTCAACTCCAACACGGTATTCATTGGGTTGCCGATCAATATGGCGTTATTCGGCAGCCGCTCGCTGCCAGAGGTGCTGGTGTACTACATGGCCAACACGTTTCTCTTCTGGACACTGGGCGTGTACTTGATCAAACGGGACGGCCGGGGCGGTGATGCCCACTTCTCCTTATGGGGCGCGCTGAAGAAGCTTTTCTCCCCGCCACTCTTAGGGTTCATTATCGGGGTCATTCTGGTGCTGCTGGAGTGGCATTTACCCCAATGGCTGATGAGCGACTTGAATTATGTTGGCGGGTTGACGATTCCATTGTCCATGTTCTTTATTGGCATGGCGTTGGGCCACTTCCACTTGTCCCAATTCCGCTTTACGTGGGATATGGTGGGCATCTTGGCCGGCCGCTTCATCTTTGCGCCGTCGCTGATGTTTGCGCTCTTGTGGCCAGTGAATGCACCGCTGCTGCTGAAGCAGGTGTTCGTTTTGCAATCGGCGATGCCGGTGATGACTAATGCCCCGGTGGTCGCGAAGCTCTATGGCGCAGATTCTGATTATGCTGCACTGATGGTGACGATGAGCACGCTGCTCAGTATGATCGTCATTCCGGTCTTAATGGTAATTGTTCAGCTGATGCACTGA
>SRR1151209_03066 hypothetical protein
ATGGCCACAGTCGATGAAGTAGCCGTAGGCGATAAAGTGACTGTTCGAAAGAGTGCTGACGTACCAATGAGTTTCAAAGGGACCGTCATGAAGGTGTACACCAACTCAGCATTGGTGAGCATCGACTCTTATCAGGAAACGGATCAAAATATCGTTAGTGATTTGAAGGATAAGACGATTATCAACTTCAAGCACATTCGGGTCACCAAAGTGGCGGCTAAAGCCGCCAAGAAGCCAGCGGCAAAAGAGTCCGATGCCGCAGCAAAGAAGAACAGCAAGTAA
>SRR1151209_03067 hypothetical protein
ATGTTGTTTGCTGGTCGCGTCCAAGATTACCAGGTAACGGGTTTGTTCCGTGATGGTGAGGGGCGTTCTGTCTGCGAAGAGCGGATTTGTCACAACATGTCCAAGAAGGAAGCCAAGATGGATATGCAGATGTACATTCTGCGAGCTTATTCGAATTCAATCGACCTGGATCGGCCGATCAAAATTAATTGCTCACCAGTGACGAAAAGTCGCGTCGCGGAGTACTAA
>SRR1151209_03068 hypothetical protein
ATGAAAAAGATCAAAATCGGCGATAATATCCACTGCCTGGCGACCGGCAACATGGAATGGCCTTTCACTGCGAAGGTGCTGAAACGGTACGAAAACAGCTATCTGGTGGCGACTATTGCCTTTGATCCCCGGGACCGCTGGAACGTTCAGGAATTGGTGGGCAAAACAGTGATTGCCAAGAAGGCCCGCAAGCGGTTAGAATATGATGCGGGCGCGCCTAAACAATATCTGGCGACAGGGTATTGA
>SRR1151209_03069 membrane protein
GTGATTGCAAATTCTGGTGATAAAAGTCGGCAGGTTCCTGAAAAAACAATTTATTGGCTGCCTAAAGCAGAACAAGTGACCAATTACGGCAACCCGGACTGGAGCGCACCGGTTGTTCCAGAAGTGAATGACGGTCCAGAGAATCGCTTTACGCAGGCTTATTTCAACAAGATGCATTGTTTTTCCACTGCGTTGTCAGGTTCACTGATTGCTCTGGTTGCCAAAGTGGTTTGGTCTGGTGCCCACATCAACGGGTATCTTTGGGCGAAAGACTTCCAACAAAGCGGTGGGGCAGAGGCACATAATTTCTACACACCGCCGCTGGAAGAATTAGTAGACTTCATGATTGGTGTTAACAAGCATAACGCCGATGATCATATTCCAGTGGCGAATGCGGAGTTCATTTTGTACCGGACTGCTGCCGGCAAGACCGAGTATTTGACCAAGGCCAGTCCGGAAACATGGTCCACTGAACGAGATCAAGCGATTAAGTTGACGACGAACAGCGATGGACAGATTCAGGTGCAGCTTAAAGAACAAAAAGAAACCCAATATCGGTACTATTTCCACGAAACAAAGGCGCCGCCAGGCTTTCAACCGCCACCCGCGGATAACGCCCATGAAGTGTCACCCAATCAAGGCCAGACGATCGGCAACATTAGTGAAGTTCCCAACGTACCGGTTCTGGAGCAGGAAGTGGGCTTCCACAAGACCAATCAATTTGGTTCGATATTGCCGGACATCAAGTTTACCTTGACGGCTGCCGATGGCAAAACATTTGAAGCGGTGAGCAATAAAACCGGCTACGTTGAATTCAACGGCGTCACTCCAGGAGAATACAAACTCAAGGAGGAAACGAAGAATGCCATCGGCCCCACCGAATGGGATGTGACCATCGTGATTGTAGACGGCAAGGCCGAGTTGCGGTTCAAGGATGGCGACAAAATTGACACTATTGTGAACCAGAAGCGGCTATCGTTAAGGCTCACCAAGGTGGGTGAGAATGGTCAGATCTTACGCGGCGCTAAATTGAGGTTGCAAGGGCCTAATGGGTACGATCAAACCCGGCCGGAGGATGAGCAAGAAATTGGTATATTCCTGTTCACCGGGCTGGGACCGGGGAAATACACATTAACCGAGGTCGAAGCACCTGAAGGGTATGACAAGTTGGAGAAGCCCATCAAAATCGTCGTTTCAGACGATATGAAGACGATTATCGCTGATGGCAAGCTGCTCGATCGCAACGGCTTAGTGTTCGGCGACAAAGTGCAGAACAAACCGGTCGGCGTATTACCGGCTACCGGCGGCTGGGGCATGCTGCCGTGGTACCTCACTGCCGGGACCATCGGCTTTGCCGCCATCAATGTGGGTGTCGGTTACTACGGCAAACAACGAAGGGGGCGAGAAAAATGA
>SRR1151209_03070 hypothetical protein
ATGAGTAAGCAACGTTGGCTTCGTGCTGGGCTGCTTGGCCTGCTTTCGCTCATCATGCTGCTGATTGCCGGCGGAATGGTTCAGGCAGAAAGCTTGGATACGGAGATCGTGCTGCATAAACGGGTTTACCGAGATGTCCGGTCACCGGAGGACGTGTGGTATCCCAACGACGGGGTACTGATTGAAGATCCGAACCATAAATTACTGAGCAAGACTTCCGGACTGAACGGCGCGAATTTCTACGTCTATGATCTCTCTGCGGAATACCAGCGAATGAAGAAAGAGTGGACACCTTCTGCCCACGGGGGGCAGACGTTCACTGATCAAGTCTTCATCGACTTGTATCGAGACAAGCCGCGCCGAGAAGCATTGACTTGGGCTGAACAGAACTTGAAACGGGTCGCCACCATTAAAACCCGGACTGATGATGCCCTGAATGAAGACGGCATCGCTCGGTTCACAGTACCCCGGCGTACGCCAGAAGGAAATAAAGCAGTATATCTGATTCTGGAAGACAAACTTGATCCGACGATGGGTCTAAACATCGATATGACCAAAAAGACATCACCCATTGTGGTTATTCTGCCGATGATGCATCCCGTGGATGAAACCAAGCTGAATCCGATTCACCTCTATCCAAAAAATACGGCTTACGTCCGGGATCCGTATTTCTTCAAGTTCGGCAAACAGACGACTGGCGGGGAAGTACGACTGGCGGGCGCAAAATTCGTCATGTACCAGCTAATCAATAATCAGAAACGTTATCTGCAATTGGGGGAAGAGAACGATTTAGGCAACAAATGGCTGACTAGTTCTGACCCGTTGCGGGATGACCGGGTAGATAAATTCACGTCAGACAAGGACGGACTCGTTAATATGGGTCAGCGCTTCCTGTCGGCGGGAACGTATTACTTTGAAGAAGTAGCGACTATCGACGGGTATGAACTTGATGCGTCTGCTAAGGGCATCAAAGTGGAGGTGCCCGAAGAATGGCGGGATGAGCAAGGCAATTTCTTGCCAGTTATGGTCAACGGTCAGCCACTTATGGAATTGATTTCTGGTAAAGTACCGGAGGCTGCAATGCAACAAGCAACTCCTCGAGTGTACAACAATCAGACTACAACACCGCCAACGACACCAGAAAAGCCCACGCCAGTGAGCACCACGCCCCCTAAGCAGGGCGGCTGGCTGCCGCAAACCGGGACGGTCAAAACCTTGATGGGCATATTCGGGTTCTTGCTGATTGCGGTCGTGGTGATTATCGGTTGGCGAACGCGCAAAACACCGGCCAAGTAA
>SRR1151209_03071 pilus assembly protein
ATGATACAACGACGATGGTTACGCTTGGTGATGATGATTGCGCTTGTTTTGCCCTTGCTGGGCGCAGCAGTCGGCGGTCTCAGCAAGGTTGCTCATGGGGCGGCGGAAGATACGAAAGTAGACTTCATTTTGCACAAGAAGGCATTCGACAAAATGCCTGAACTCATCGAAAATACTGGGGAAAAGATGCCCGAATTTGAACAGGCGACGCCACTGGATGGTGTTGAATTCACCGCTTATAACATTACAGACTGA
>SRR1151209_03072 antimicrobial peptide ABC transporter ATP-binding and permease protein
ATGCTTGAACTGAAGCACATCAAGAAGTATTACCACGTCGGCGATACGATCACGAAAGCGCTGGACGATGTCTCGGTGTCGTTCCGCCAACAAGAATTCGTCGCTATCCTTGGCCCTTCTAGTTCGGGGAAGACCACGCTGCTGAACATGATTGGCGGATTGGATCGGTATGATTCCGGCGATTTGATCATTGAAGGCAAATCGACTAAGACCTTCAAAGACGCGGATTGGGATGCCTACCGGAACAACTCCATCGGCTTCATTTTCCAGAGCTATAACCTGATCGGCCATTTAAGCATCATGGATAATGTCGAAATGGGCATGACCTTGTCCGGCGTATCCCGGGCGGAAAAGGAAAAACGGGCCGTGGATGCCCTGACCCGAGTCGGTTTGGCTGAGCATATGCACAAGCGGCCGAATCAATTATCCGGCGGGCAGATGCAGCGGGTGGCGATCGCCCGGGCAATCGCCAATGATCCCGAGATCCTGCTGGCTGATGAACCCACCGGCGCGCTGGATTCCGAGACCAGTGAAGAAATCATGCAGCTGATCAAGGAGCTGTCCAAAGAACGGCTGGTGATCATGGTCACCCACAACCCGCAACTGGCCAAGCAGTATGCGGACCGGATCATCAACTTTGCGGACGGCAAGATTCTAAACGATTCCGCGCCGTACAGCGAGCACGAGGCGGACGATCATTTCACGCTTAAACGGACGAAGATGAGTTTCTGGACGGCGTTGAAATTATCGTTTACGAACATTAAGACGAAAAAGGGTCGGACGTTCCTGACGATGTTTGCTTCCAGTATCGGGATCATCAGCGTCGCCATCGTTTTGGCCCTGTCTACGGGGTTCCAGACCCAGATCGACAAGACCGAGGCGGAAACGCTGGCCCAGTATCCGATTACGATCGCCCAGCAGGGGCAGGATACGTCCCAGCGGCCGTCTCAGGAGAAGGGCTTTTCGAAAAGTGATCAAGTTACCGCGCAGACTAGTGCGGCCGATAAGGCCCAGCACGTCAATAAGATCAGCCAGAAGTACCTGGATTATCTGAATGGATTAAACAAGAAATTGGCCAAAAACATCAGTTATACATACGCCACCGGCTTCAACCTGGTCCGCGACGTGAATGGCCAGTATAAACCGGTGAAGTTCTCCAACAGCAATCCCGAACGCAGCGGGGTGGACGCCAGTGCCATGATGTCCACGCTGGGCGTCGGCGGGTCGGTCTACCCGGTGGACCGGTACGGCAAACAGTCGTACCTGGAGTCCAATTACAAGGTGCTGGCTGGCAGCTATCCCAAGGCGGCGACCGACATCGTCTTAGTGGTCAACCGGGACAACACGGTAAATATCAACAGCTTGAAGAACTTAGGTTTTACCGTGAAAGAAAACCAGAAGTATAACTATAACGATCTGGTGGGCCAAACGGTAAAGGTTGTGGCCAATGATGACTACTACTGA
>SRR1151209_03073 phosphate ABC transporter substrate-binding protein
ATGACCAAACGACGCCGAGTACTGATTTGGGGTACTGCAGTGTTGCTGGTTGTTGTCGCCCTGGTGGGCGGTATTGCCGTGGCCCAGGGCGGCCGGCTGGGCGCACACACGCCGGAACGGCTGACCCTCGCCAGTTCCACTGCAATGGCTCCGTTAGTTGAGGAAGCAACGAAGAATTATACAGCAGATCATCCAAACGTCCATGTCACAATCCAAAAAGGCGGCTCCGCTGCCGGTTTGACCAAGGTTGCCAACGGCCAGGTCAGTTTCGGGATGAGTGATATTTTTGCGGAAGAAAAAGACGGCGTGGTGCCAAACACGCTGGTGGATCACAAAATTGCGGTAGTCGGCATTGTCCCCATCGTGAACAATCGGTTGGGCGTACGCACCATTTCGACCACGGCCCTGCGTTTAATCTTTGCCGGTAACTATACAAATTGGCGGCAACTGGGCGGACCGGATCTGCCCATTACCATTATTAACCGGACCGCGGGCAGCGGGACCCGAATTAGCTTCGACCGCCAAGTACTGCACGGTGGCGAACCAAAGACTGGCTTGGAACAGGAGTCGTCGGCGAAGGCTCGGGCGATGGTCGCCGCGACCCCTGGGGCCATTTCTTACTTGGCGCTTTCCTATTTGGATAGCAGCGTCACCCCGGTCTACATCGACGGTATCAAGCCGTCCAAGGCGAATATCGTGACTGGCACCTGGCCGTTATGGGCTTATGAGCATCTGTACGTCAAGGGCAAGCCGACTGTGGCGGAGGTTCAATACATTAACTATCTGCAGTCTGATACTGTCCAAAAGAGTTTGATCAGCAAAATGGGCTATATTTCCATCAAGGAGATGAAAGTCGAACGGACCGCGGATGGCCAGCTCAACGATGTCCGGCCATAG
>SRR1151209_03074 hypothetical protein
GTGGCCAGTAATATTTTTGAACTGATCGGCGTTTCCGGCGCGGGCAAAACCACGTGGGCGAAAGAGCAGAAGCACGTGGTGGATTTGTCTTCCGACGCGATTCGGGATGAGCTGTGCAAACAGGCGGGCATCTATCCTTTGTACGACCAGCCCCCTGCGGTGGTTAAGCGTACCAACGCCCAAGTTTTTGCCGTCTTGCATGCGCGGTTGGAAGCCGCACTGCGCGCCAATCAAGAGAAAATCATCATCGACGCGACCAATCTGAACCAGGCTAGGCGCACGGCGCTATATAAAAGAGTGAAACTGCTGGCCCCGACTTGTGAAGTGCCCCATAATTGTTAG
>SRR1151209_03075 hypothetical protein
ATGGCAAAAATTATTGGCGATCTGCTCAGTAATTGGGGGACTGTTATCTTGTTCATCGTCGGCTTGACACTGATTGCTGTAGCCTCATTCACCTTCAACATTATAATTGGCTATCTAGTTGCGGGCCTTGAGACGTGCTTAGCTGCTTATATTTTGGACAAAGAAAGGGGGTGA
>SRR1151209_03076 phage terminase large subunit
GTGGCCAGCTACGATAGTGAACACGCGACCAAGCTGTTCAATGACGTGTCTTTGCAGGCAAAGACAATTTTATCTCTGCCGGACTTTACAGATGATGCAAGAGAACGTGGCGTGGAAGCTCAAACCACGCAAGTTATCGCAAAAAACACTAAGAATACGATCCGAAAAGGCACATCACAAGGCGGCGGATTCGATAGTTTCCATAATGCAATCGCTGTTTATGATGAAATTGGCAACTTAAGGCCAGCACTGAATGAGACATTAAAGCAGATTACATCCGGCCAAAATGGCATTAAGAACCGAATGTTTGTCAAGATTTCAACAGCTTACCCTGATATCAAGGTTAAGTTTAAGAATGATGAAGACGTAACCAGGGCTGCCATTGAGCATGACGCCGTTCGAGACGCTGACAACGTGTTTCAAGTGATTTATGCCCAGGATTCTGAAGATGAGGTATTCGAGCCTGAAACATGGGCAAAATCAAATCCTAATTTGATTGAGCTGCCTAAAAGCAAACGCGATAACCTTCTAGAGGCGCTCAACCAGGACCGCAACGACAATGAGCGTGAGGGAACGTTGGAAACATTCGTTAATAAGTCATTAAATCTGTGGAGCCGCCGCTTCCAGAACAGTTATCTGTCTCTAGATAACATTCAGCGCAGCATTATCGACCATTTTGATGTGGATGGACGTGATGTATTCATTGGATTTGACGGATCACAGACCAATGATAATACGTCTTTTGGTTTCATTTATCCGTACACTGATCATGACAAACACATGTTTCACGTTCAGCAGCACAGCTTCATTCCATTTGCACAGGCAAAAACGATCGAAGCCAAGTCAAAGCAGGACGGATTAGATTACCTTAAATTGCAAGATGAAGGCTTTGTGGATATTACGAATCTTGCATCAGGCGTGATCAACAATGACCAGGTCTATCAGTGGTTGGTCGGCTTTGTTAAGAAGCACCAGCTTAAGGTGAAGTTCATCATTGCTGATCCAAACCATGGTGAATGGCTAGAAAAGAAACTAGAGAACTATCAACCGCAGTGGCAATGGTTTCCCTTGCCTCCCACCTCGTTCAAGCTGAATGAGCCTACTAAGGACTTTCAGAATCTGTTTATTAATGGCAACATTTCGATGCTGAACGATCCATTGCTAATCGATGGTCTGAACAATGCTGTGTTGGTAGAAGATCGCGGCGGTTCGGTCAAGATTGACCGTCAAAATCGCACGAGTGATCATATTGATACGACTGATGCGCTTATTAATGCCCATGCTCAGGCAAAGTTCTATTTCGAAAACTATCATGATGAGAATTATAACCCGCTGAATGATTTAGACACGCAAGGACAACGTGACTATTTCAAGGCGATGTTTGGAGGTGGTAAATAA
>SRR1151209_03077 cell wall-associated hydrolase
TTGACAGGAAAACGCACACATACGGGTATGGTAACGCTGGCGTCAGCCGCTGTCCTACTCGGCGGCGGCGTCATTGCCGCGAATACCACGACGAAAAAAGTAAAGGCTGCAACTACGGACTATGTAAAGGTTCTTTATGCGGCTAATTTACGTCAAGGGCCGGGCTTGAAATACGCCACACTGCGCACATTGAACCAAGGTGAAGCGTATAAGACGTACACGACCCAGCAAGCCGATGGGTATACGTGGTATAACTTGGGCGGCAGCCAATGGGTGGCCGGTGCGGCCGTTGAACCGGGGACTGGTACGCCGGCCGCTGGGAGCGCGACTGGGCCCACCACCACCCAAACCGGCTGGGTCACCGTCAATACGGCGGCCAATCTCCGCTCGGGGGCGGGATTGACCTATGGTGTTCTGCGCGGTTTAAGTCAGGGCGAAGCCTATAAGTACTTCGCCACCAAGCAAGCCGATGGTTATACATGGTACAACCTGGGCGGTGAGCAATGGGTCGCGGGGGCGGCCGTCACCGCGGGGACCGGGCTGTATCCAGGCAATGGCACCAGCTCCGGCAGCAATGCCGGGAACAATGCCGGCGGCGGTGATCCCATCGTCACGCCGACACCCAACCAAACTGGATCGGTGCGGGTGAATTATGCCGCCAACATTCGGCAAGGAGCCGGCACCAGTTACGCCATTTCCAGAACTTTAGCAGGAGGCGGTACATATTCTTATACAGCCGCCCAACAAGCCGACGGGTACGTCTGGTACCGCATCGGCAATAATGAGTGGATAGCCAGTGCGGCGGTCACGGTGGTCGCCGACGCGGCCAATGGCGGCAATGGTCTGACTCCCCCGAGCAACAGTGTGACCCCGCCGGCCAACCAAACCAAGGTTGCCGCGGTCATCGCCCTCGCCCAGCAGCAATTGGGCAAGCCCTATGTTTGGGGCGGTAAAGGCCCCAACGTCTTCGACTGTTCCGGGTTGATGTATTACATCTTTCTGAATGCCGCCGGCGTGAATATCGGCGGTTGGACGGTGCCGCAGGAATCTTCCGGCAAGTCCGTTTCGCTTAATGCGCTGCAACCCGGAGACATTATCTTCTGGGGCCCGCGGGGCAACACCTATCACGATGCCCTGTACATCGGCAATAATCAATACATTGCCGCGCCGGAACCCGGCGATGTGGTGCGGATCCAGACCATCAGCCCCGGTTTTGCACCCAGCATGGCGGTCCGGGTACTGTAA
>SRR1151209_03078 protease
ATGGGTGGTTATATCACACTCGCCGTTGTGGCGATCATCGTTCTGTTATTGTTGTACTTCTTCTTCCACACCTTCATCTCGGTGGAATCCGGGACCGAAGCACTGGTGACCAGGTTCGGGGAATATACGAAGACTTTGCAGCCAGGACTGCATTTCTTGATTCCCATTGTGAACCGGGCGTATGTTGTTTCCATGCAGCTGCAACCCCTCGATGTCGAGAAGCAGCCGTTGATCACTAAGGATAACGCCACTGTGCAAGCGGCGGAAAAAATTAAGTACCACGTTACTGATTCCTACAAGTTCCAATTCGGCAACTCGGATTCTGTTGAATCCATGATTCAGGATGCCCAATCTGCATTGCGTTCCATCATCGGGCAAATGGATTTGAACGCCGTTTTGGGCGGCACCGAGACAATCAACCAGCGCCTGTCTGAAGCCTTGGCTGAAACGACTTCCGCTTATGGGTTGAAAGTCGATAACGTCGCCATCTTCGGGCTGCAACCGGATCCCCAGATTCAGCAAGCGATGAACAAGCTGCTGACGGCCGATCGGGAAAAACAGGCTGAAATCAGTAAATCTGAAGGTGAACGAACCGCTGCTGAGAACCGGGCCAGCGGGCAAGCCTTCGCCATCAAGACAGAAGCCGAAGCCAATGCCTATTCCACGAAGATGTCTGCCGATGCCCAAGCTTATGCAACGGCGCGGGCAGCCGAAGCCCAAGCCGCGGCCAATACCCAAATCTTGGACGCTTACTCGGCAGCTAATTTGACCACTGAACAATACGTCCAATTGCAGCAAATTGCTGCCTTTGCCCGCTTGGCCAGCAGTCGGGCCAATACTGTCGTAATGCCGTCGGATAAGATGGATGGGGCAGTGAAAGCCGCCACAGCCACCAAGATCTTCAAAACAGACAATTCCGATACCACCGGAGCCACGTCCATCGTGAACGAACTGGATCAAAAGATCCAGGCCCCGAAGAGTTTGGAAGCCCAGGAAGCCAGCGGCAATGGTGATTTCAACCCGAACTTCGGCGACACTACGGCCAATATCAAGGCCAACGTGGCGACCGATGACACGGAAGCCGCCGGGTCCGCGCCCAGTCCCTCGGCGTCGCCAAGCCAGCCCACAACACCGGGCAGTCCGGAGTATTACCGCCAGCTGAATGCGGCGGCGCGCCAGCATTAA
>SRR1151209_03079 hypothetical protein
GTGAGTAAAAGGCCAGGCTGGCTGCTGTTGGGATTAATCATGGTCGGATTGCTGGTGAGCGGATGTCAAAAGAAAACAGAGGATGCTGACGCCCACAAGATTTCTTACTCGGAGACGACTAAGGAATCCTCAAGCAGTCGTGATCAGCAAAGCAGCAGTGACGCGGAGAGTGATGAGTCGACACGCAGTTCGTCAACGTCATCCAGCGCGAGTGCAAGTTCATCGTCAAGTGCGGCGGTCGCGCTATGGAACACCGCCAAGGCCAACCAGTTGGCCGATTTTATGGTGCAGTGGGGCCAGTCGATGGGCCAGAAATATGAAGCCTATAGTCCCACGCATGACGTGAATTATTATGGCGGCGGAGTGTACAAGGAGCAGATCGCAACGAATAAGGTGGCCGTGAATGACCAGCACGTTTCGGCCGCATGGTCAAACGACGGGACAGGAACGGCCCAGTATAAAATCGTCGCCATGTATTCTGATGTCGCCACTGCGCGATATGCTGGCGTGCATTTATATTTATTCACTATTGATCCCAACGGCGCGCCCAAGGTGTTGATCACCATGCAGAATCAAGGGGCCGAGGATGGCTTGCTGCATTTTAGTGTCACGCAGAACAGTGCTTTGCAAAACGGATTTTCAACCATTATCAAAACAACCCATTAA
>SRR1151209_03080 peptidase S41
ATGAAAAACCAAGTGAAAATAACACTGTGCTTTGCCGCTCTTGTCCTTCTATTCAGCATTTTTCCGTCAGCCAATGCGGCCATCACATCTATTCAGGACGATGCGGTTGAGACTGTCGCTTATATGTCTCAACATGGCATTATCGAAGACAAAACGGCGTGGCAGGAAGTCGTGGATAAAACGGATGCTGGACAGACTATTACGACCATCGCGGATCTGAATGCCGTTATGCGGGTGGGTAATAAGCATTCGAGTGCCGCAAAAAGGGATGCAGCAATACGCCATGAACAGTTACCCGGGGCATACTGTGCCGGCCGACTGACAGTCGTTGATATCCCCACTTTTTACACTATGAGGCAGAGTGTGTATCTACGCTATATAGTCAAGCTAAATCAGTTGATTGCGCACACCCGAGGCGACCTGGTCTTGAATTTTTCCGGCAATCAAGGCGGCATACCAACGGCCATGATTTTTGGCCTTTACGCACTCATTCCCAATGGGCAGCTGTGGACCAGTGTGACCAACACAGGAAAAGAGCAGCAAGTTTCTTTGGTCAAGGACGGCTTGCAAGGCGGCGCAGCCAATTATCGAAGCACCGTAGTAAAAATGGTGCTTGAGAAAGTGAAGAAGCGCTTGAACAAAAAGGTTGCTATCATCATGGACAACAACTCAGCAAGCGCCGCCGAATTCACAATTATGGCAGTCAAAAAAAATCCTCTTGCGAGGATTTTTGGACTACCTTCAGCGGGCTATACGACGGAAAATAGCAATGTTACTTACCATTCGCCGATTTGTGACAATAGTTGGCAAATCATTCCGTGGATGGTAACACGAACCGATCATACAGTTCGCTGTATCAACGTTGTTAATGCTCGGCAGACCCACAACTTTAGTAACACGCCGGTTATGCCGGACGTGCTGTTTACCCAACCGATTAATACGGGGGGAGCAAATGCCCATCATTCGCAAATCTCGAAATCATTATTGAGTCAAATTCGAAAGTGGTTTGATTCCTAA
>SRR1151209_03081 hypothetical protein
ATGATTCGAGAAGGACAATTTTACCAGGCCTGGGACCAAATTACTGGTTTTGATATTTATCGTGATGAACCGCGAGAAGAGATTATTTTCGACGCGGGTGATGTTTTCCAGGTCTACGATCATTCACTTCTTTACGACGAAGAAAGCGATTCGATTGTCGACCTTGTATTTGTTGTAACGCCGACCCGCACAAGGTTCCAAATCTACACAGAAAATGTGATAGCCAAGGCCAAGCGCATCTCTATGGGAACGTATGAGATGGCACTAAATCGGTATCCAACTATTCCAGAAGGACCATTTGATTAG
>SRR1151209_03082 transposase
GTGTGTTGCCAAATATTCGATATTCCACGCTCTGCTTACTACAAGTGGTTGCGCCGGAAACCGACGAAGCAAGACATCGTAAACGACGAGCTGGTCCGTCTTATCAAGGAACAGGAAGCGGACAACCATTATATTTATGGCGTGCGCCGATTAACGATGATTATCAATCGGGAAACGCAACATCACGTGAACCCTAAACGGGTCCGGCGATTGATGCGGGATAACGGTATCCAGTGTTCGATTCGTCAGAAGAAGCATGATCGAGTAGCGGAGAAGAAAGAATTCATTCTTGGCAATAAATTGCTTAACCAAGACGGCAGCCATGCCTTTCATCCTACCCGGCCAAACGAGGTTTGGGTCACGGACTGCAGCGAGTTGACGTACGGTTTCAATTCAGAGTGCCGCTTGCGTCTGAGCGCGATCAAGGACCTCTACGACCATAGTATCGTAGCCTGGGAGGTTGAACCGACTGAGACTGCCACGCTGGTCACCGACACGTTCAGGGCGGCAGTAGAAGCCGAAGAAGTACTGCCTAAGCTTCTGCACAGTGATCAGGGCTCCAGTTACACTTCCCGGCTTTACAACACGGAATTAGCCGGGTCCGGCGTCATTCATAGCATGTCACGGCCAGGAACGCCTGGCGACAACGGCCCGATGGAGAGTCTCTGGAGTCATGCGAAGGCTGAGTATTTTGCCTTCTTCCACGCCAACACATACGAAGAAATGATGCGGCTCATTGAAGAATACGCGTTGTGGTACAACTGCAATCGGCGCCAAAAAACACTCGATGGCATGACCCCCGTGGAATACCGGAATCATGCCGTTAAGACAGCGGCTTGA
>SRR1151209_03083 transposase
ATGCGGCGGAAGGGAATCCGTTACTCTTTGGAAGACAAGATTGAGTTCGTTAATCGAGTACTGTCTGGCCAGTCACTCATGGATGTTCAGCGATCCGGAGGGCCGCGCAAGGAAGCATTGAGTCAATGGGTACAGAAGTATAAACAATGGGGAGCAGCCGGACTCGTCCCTAAGGAACGAGCACCGCGACGCCAACAGCGTAAGCGCACGACGTATTCCAGCGAGCTCAAGTTTCAGATTGTTCAGGAATACCTAGCGGGTGGGACGTCCTACTATAAGCTGTGTGCTAAGTACGACATCTCCAATCCAGCAGTCGTTTACCAATGGGTTTCTCTGTATAATAGTGGTCAACTACTACAGACCACTAGAGGGAGTGCACCCATGACCAAGGGCAGGAAAACGACTTACGTTGAGAGAATTGAAATTGCACAGTGGACCATTGCACATGACATGGACTACCAAGGGGCCATTAAGCACTTTGGTGTTTCGTATGGCCAAGTTTATTCATGGGTAAAGAAGTTCCGCGAGAGCGGCGAGGAGGGTCTCACTGATCGTCGCGGCCAGCGTAAGCCTGAAAGTACCCTTGATGAGAATGAACGTTTAAAACTCGAGAACAAGGAGAGCAAGGCTCGGATTGATTATCTGGAGACGAAAATCGCACTATTAAAAAAATTGCAGGATGTAGAGAGAAGGAGTGCCGGCAACGACACCGACAGCACCAATATATTGCCATTCACGAACTCACCCAAGAAGTAA
>SRR1151209_03084 cell surface protein
TTGAAGAAGCGTATTTGGATTTTCATCTTGTTTTTAATTAGTGTTATAACTTTTGGTTGTTTAGGAACCCAAGATGTTTCGGCCGCCACCTCAGAAGCTCAACCAGCAGTGACTTATAATATTGTGCCAGAACTTTCAAATAATCAGATCGATAAAAAAGTCGGTTATTTTGATTTGAAATTGACGCCAAATGAGAAGTTGCAAGCTAAATTTAAGATTAATAATAACGATACTAAAACGCATACTTATACTGTAATGGTGAACCGGGCATCGACTGATACCAATGGGGTAATAGTCTATAACGAACATAATGTTAAAGCTGATTCATCTTTGAAATATGATATTGAAAAATTAGTTACATATCCTAAGAGTGTTACTGTTGATGCAAAATCTTCTACAGAAGTAGTTGTGAACATTAATGCTCCGAAAGGAAATTTTGATGGCGTATTGTTAGGTGGTATCTTTATCGAACAAGATAATCAAGTTAGCAAGAGTAATGCTAAGGGTGTAACGTTAAAAAATAAGTATAATTATGTTCTAGGCCTACAATTGAGACAAAATACTGACACAGTTGAGCCAAATTTAAAACTGATCAAAGCATATGAAGATACTCAAAATGGACAAATTTCAGTCAATGCACTATTAGATAATGATGTGCCAAGATTGGAAGAAAAAGTTGATATCAAAGCAAAGATAACTTCAGAAAATGATAGTAAGAATGTTATTTTACAATCAGAGAAATCAAATATGTCAATTGCCCCAAACAGTTACTTTACTTATCCTATTAATGTTAATACAGTTATCGGTGCTAACAAGGATAAGAGATTAAAGTCAGGTACTTATATGATGTATTTGGATGTTAAGGCTAACAATGGGCAAAATATTTGGAAGCTTCAACGGAAATTTATGATTACTGACAAGCAAAGTCGTGAAATCAATAAGAAGACGCCAGTTAAGAACAGTCATACTAAATCCAATATGGCTATCGTTGAAACAATTGCTGCAATTATAGTGGTTGCAGGGTTAGGTGTTTGGTATTACAAAAAACATAAAAAGTAA
>SRR1151209_03085 extracellular protein
ATGAAAAAACTCGTAAGAAATAGCATGTTAGTAGGGGCAGCTGTTTTAGGAATTGGTTCGTTAGGTACAGTCGCTCAAGCAGCAACAACACCTGCATCACCAGTTCCAAGCACAAGCAGCACAGCCACGGCCGATATTACGCCTGGAAAGATCACTTTAAGTTCGGCCCCTAGTTTTCAATTTGGTACAGTAGCAGCTTCAGCAAACGATATTTCATATACATCAACTTCCACATCAGGAACCTTGGATATCGCTGATGCTGGTACTGGTACTGGATACACTGTAACTGTTGCAGCATCACCATTCACGGCAACAGGCGGCGCAGCCTTAAAGAATGCACAACTATCATTAGATAATAAAGAAACAGATCCTATTAAAGCAGATGATGCTGATAATGTATCAACACCTCCAACACTTGTCGCAAAGCTTTCACTATCAAGTTCACCAGTAACTGTTGTTAGTGCTGCAGCTGGTAGTGGTGTAGGTGCCTATACTGGAACATATGGTTCTACTGATGCCTCACTTAAGGTTCCAGCTGGTAATATTGGCGGATCCTACAGTTCAACCTTAACATGGACGTTAGCTAACGCACCTGCTTAA
>SRR1151209_03086 transposase
ATGTCTCAACTAGATAATACACTTAAATTACTGGGAATTACAGACACAAATATTCAGGTGTTCGGTACTCGTGAGGAATTTCATGGTCGGGGCTCGGGTCGCAAAAAGTATTTGGTCATCCAGGCAGAGCTTACCTACACACTCAGGCGCTGTCCCAGCTGTGGATACAATACGTTGCACCCTAACGGACACAAGCTCACTCATGTCCACATTGCAGGACCCATGGACCGGCCCGTAATTCTAGAGCTAAACAAGCAACGCTGGCGTTGTAGTAACTGCCATAGCACTTGTACGGCCACCACGCCAGTGGTATCAACCAACCACACCATCGGTCACGGACTAGCGACTCATGTGCTGAAGCTAGCCAGTAAATCACTCCCGGCTAAGACTATCGCCAGTCTCACCGGTATTTCGACAAACTCAGTTCAGCGTATTTTGACGGCTAATATTCATCCACACGCGAGCCGCCGGTTACCGATTAATCTATGCTTTGATGAATTCCGTTCCACGCACGGCTCCATGTCGTTTATTTGCATTGACGCCGACACTCACAAATCAGTTAAAGTACTTAGCGACCGCCTTAATAGAACCATCAAACAGTTCTTTCTTAGTCAGTACAGCACCGCAGGACGGGCCGCGGTTCAACGCGTCATCATGGACATGAACGCCTCCTATCAGGCATTCGTGCACGAACTATTCCCTAACGCCGAACTCATTATTGATCGGTTCCACATTATTCAATTAATGGGCCGGACGATGGATACCATTCGCACTCAATGTTTAAAGCAACTCGACAAGCGTTCGCGGGAATATAAAGTACTGAAATCACTATGGCGCCTATTCCACAAGGCCAACCCTGACGCACAAAAGAGCCGCTACCTTTTCGGCCTGAATGAGTACTCGACCGAACAGAACGCTATTGATATTGGAACCGATACGTTTCCGGCATTCAAAACAGCTTATGAAACCTACATCGATCTCCACGATGCTTTGATGGGGCGTCACGCTGATGAACTCAAGAATATCATCACTAACTATCAGCCTAACGGCACGCCCCTAGATACGGCCATGCATACCCTGCGAAAGAATCTTAATGGAGTAATTAACGCCGCCCAATCGTCCTACTCTAACGGACCGATAGAGGGCATCAACCGTAAGATCAAGGAGCTCAAACGGGCTTGTTATGGCTTCTCCAATCAGGCCAATATGGTCACCCGCGTCTACCAGCTGATTGCCTAG
>SRR1151209_03087 hypothetical protein
ATGAAAACAAGGTATTGGGAACGCCTCGGCCACACACTGGCGGCGGCTCTGCTGGCCAGCAGCCTGGCCGTGGGGGCGGTAGCGTTGGCAGCACCCGCACAAACCATCCAGCCCGTGGCCGCGGCTACGACAGAACACACCTATTATCCGCAGGAAGACTTCAACTACGGCAACAACAAGGCCGTGATTTATTTGGATCCGACCGGCTTCACCGCCGATCAATTGGCTACCGTCAAGCAGGGCATTACCAACGTGCAAGGCATGCTCGCCGGTATCTTCGCCTTCACCCTGACGAACACCAAGAGTCAGGCCGACATCGTCATCGCCGGCAAGGATTACAGCGATACCTCCGATAATGGCGAACAGGTTGGCGGCGCTACCTTCATTAACTACAACCAGGTGATTAACCACATTGCCCAGCATCCCAACGGCACCCGCATCTTTCTGGACGACAGCTACAAGTCCTATGCCACCTCTCAATACATCGGCAAACAGTGGTCGCCGCAATTGCCGGCGAAGACAGATCCCAATTATCAGACCATTTTCAACCAGTACCAAGAGTACTTTGATAAATGGAACAAAAATACGCTGTTGCTGGCGACAGAGCATGAGATTGGCCACGGTATCGGCTTGGACCACACATCAACAGACACCTATGGTTATTCGATCATGAATCCCGAAGCCGGTCTGAATAAAGAGGGCGACCTGCTCATGGACGTCACCAAGGACACCACCTATATCCGTGCGACGCAAGCCATCTATGGCGGCAAGGCCACGGCCCTCGGCGACACTGAGACCAAACAGCCCACACAAGGGTACCACGGCGGCGATTCTGGTAATGTGAACCCCGGTCGGAACAACACAACCAAGCCGGGCACCGGGGTCGTTTACGTGAATATGGCGACCGGCGCCGATCTTTACAGTGACGTGAACTTCAAGGCCGGCCACGGCAAGAAATTACCGTTCAACTCCGCCTGGCAGTACTACGCCGTCGTGTATGATCCCAATGGCAAAGTCGTCGGCTACAATCTTGGCGGTCAGCAATTCGTCAGCACCGGTGATGTGGCCACTACGAAACCCGTCAGTTCCGTGAAGGGTACCTTCGCCGTGCACTACGCGGCTAACCCGAAGTGGGGAATTGCCCTGTGGAATGGGCAGTTGAAACCCGTGCGCATACTGCCCGCTGCTAGCCGTTGGCAGGTTAATGGGGCAGCTTATCTTGGTGACGAGAATCTGTACTTTAATCTTGGCGGGGACCAATGGGTCGCAGCAATCAATGGATACTTCACTCGTCGGTAG
>SRR1151209_03088 IstB-like ATP-binding protein
TTGCGCCGGTATGCTCGGTATCAGGTATTGATCATCGACGAGATCGGGTATCTGCCCATTGATTCCATCGGAGCCAAGATGTTCTTCCAGCTTATCGAGCGCCGTTATGAACGGAAATCAACGATCATCACGACCAACATTGCCCTCTCCAAGTGGGGCGATACATTCGCCGACAAGACTCTGGCTAATACCATTCTTGATCGACTGGTGCACCACTCCCGCGTGATTCGGATCAACGGCCGGTCATACCGCATGAAGGGCCATATCACAGAGCCCAAAGCGGACAAAGCACCGAATGATACTGGTTAG
>SRR1151209_03089 hypothetical protein
ATGAGTGTTAGCGGCGACCCGCGGCAATTGCCTTATCTGGACATGTTGAGTGAGTATGACTACAGCTTGGTCATCATTGATGAGGCACATCGGATGAGCGACGTACCGCAACACATTTATACCCTCGTCGGCCCTAACACGCGGCCGAAGATTCTTGTATTTCTAGTGGATGACCACCAGTGTGTGCACGTTAAAGAATGCGGTACAGAGTTTGTCTTGAAGTGTGCCCTGCTTACCGCTGGGATAACACCGGTTTGCAAACGACTCACCGTGCAGAAGCGGTGCGGCTTCGAAAATCGCTTCACCGCAGTGTTGCGCCACCTCTTTTTCGATGAACAAACACCGTCGCAGGAACCGGCTGCTAGTCAATTTCAAGTCACCATCACAGATTCACTCAGCGCCATCGACAAAAGGCTCAAGGCACACCAGGAACACGGTTTCTCTGCCAGATGGTTTGCTCCCATGGATTGGTTGCGCCGCCGTTCTCGTGAGTTTGGCGCTGATGACATCTTCATTCGGGATCATGACGGTCAAGAGTTCTCCAAAGAATGGCACCCCTACCCGCATCATCTTCTTTATGAGTGGTATAAAAGTCAATCGGCAAAGGCTGTAGACCAAGTGGGCTCAATTTACTGCGCCCAAGGGTTGGATTACGATTACACAGGATTTATCTGGAACGATAGCCTCCGCTGGGATACTCGCGCAAAGCGCTGGGTATACTGCGAAAAAGAACATCAGGACCTCTCATTCAAGCTAGGCATCACTGATGCCTTAAAGGTGAGAAACTTCAATTTTCCCAGCGGAGCGGTGACGACTCTGGTCATGAATCAATATTACATTCTATTGTCCCGCGCTCGCCGCGGGACTTATATCTGGTTCAAGGATGCCGCTACCAAACGGCATGTATACGACGTGCTGCATGCTGCGCATATCCTCTAA
>SRR1151209_03090 transposase
ATGCCACTTAAGTGTACCAGAAAATTAAGCCGTGTTTCACTGATATTCAAATTTACCGTTGCTCCATACAGTCTCGCCGATGTCATTGACCAATTCGTTGAAGCCATGCCGCATGTCCTGCTGACCCTTAATGAGCATAAATACGGCCGCCCGCGTTTCGCCACGGCGGCCCTTTTGAAGATCTATCTTTATGCGTATGCCAAACACCTGCCGGTCACTGGTCGTCAGCTTCATCAGCTGATCGCCGAGACCCCTTGTCTGCTCTGGTTTCTCAGTCCTGACCAGCGGGTCCCCAGCTATCGGGTTTTGGATCGTTTCCGTGTTGATCCGGCGATGGATCAGCTGATCGCCGATGCCCTGGACAAGTTTCACCAGCTGCTATTGGACCAGCACATCATTGATCGTCAGGCCGTCTTCATTGATGGGACTAAGATTGAAGCCGTTCCCCAGAAATATTCGTTTGTTTGGCGCAAGACCGTGACGAAGAGCAACCAGCGGCTGGTCGCCAATGGTCAGGCATTCTTAAAGAGTCTGCACTTGGTGCAGATCAATGCCCCGGCCGGCAAAGAAAACTTGGCGAAAGCATTGGCTATCGCCGCTAAACAGCTGCACCATGCCATTTGTCATCTGAACCGAGTGATTGCCCATGAAAAGACCGGTCGCGGCGGCTCGCCCAACAAACGCCGACGCCGGGCCTTAAAACATGATCTGCACGTCATTGAGACTAATTATCTGCCGCGCAAACGCCAGTATGACAAGTACTTCGGCGGCTTTGAACAACGCAACAGTCTGGCTAAGTTCGATTGCGATGCGACCTTCATGCGGCTCAAAGAGGACCCCATGAAGAACGGCCAACTGAAACCCGCGTATAATGTGCAGATTGCAACGGATAAGCAGTATATTTTAGCCGACTACGTCTGCCAGCGGCCGACCGACCAAAAGACGCTGATCCCGTTTCTTAAGCAGTCCCGCTGGATCTTTGCCCACGTGCACTATATCGCCGCAGATGCCGGCTATGGCAGTGAACAGAATTACGGTTATATCGCCGCCCAGAAGCATGTACCGCTGATTCCCTACACCATGTATGAAAAGGAAAAGACCCGCAAATATCGGCGCGATCCCAGCAAGTGCATGAACTGGCACTATAACGCTCAAGGTAATTACTACGTTGACAACCATGATGTTCAGTTCTGCTTCTGGCGTTTAGGGACTCGGACAGACCACCAGACCGGCTATACAAGACACTTTGCTTACTACCGGGCCCTGCCGGGTGAAACACCGGAAGCCTACTACTATGCCCACACGCAAACCGGTCGGTTGCGTCAGATTGGGGTCAACGCCACCTGGGAAAAGCAGAAGGCCGCAGAACAGCTGGCCTTAGGCATTGAACCTGGCCGTGGCGTCTACGCGCAGCGCAAGGACGAAGTGGAATCTGCTTTTGGCGTGATCAAACGCGAGCTGGGTTTTCGCCGTTTCCACGTGCGCTGGCTGCCGCACGTGAGACGAGAAACCGGGTTAGTGCTTCTGGCCTACGATCTCAGAAAGTACACCAAGTACCTGCAAAAACGGTATGAAAACCAACCAGCGACGGCATGA
>SRR1151209_03091 IstB-like ATP-binding protein
ATGCCTTTTTTTGTTATCAAAAAGGGCCTAGTACTTTTGGAATGGAAATACTTTCCAACACCAAAAATTCTAGACCCGACATTTCTCTCTGTTGGCCTGTGCCTCCAGGCTATTGAAAAGGGTTATCGGGCCATCTTTATCACGATGGGGGAATTGGTCAAAGCCTTGAAGATGGAGACTATTTCGAGACGCTCGCAGATCCTATTGAAACGGTTGCGTGAAGCCCATCTGCTGGTCATTGACGACTTGATGTTCTTGGCCCTGGACAAGAAAGAGGCCAACTTGTTCTTTCATTTTATTAACGACATCTACGAAGAGACCTCAATCATCATTACCTCCAACAAAGGACCCCAACAGTGGGGAGAACTGATTGGCGACGAAATCATTGCGGCAGCGATACTAGATCGCATTGTGCAGAAATCAGAGATCACATCGAACTGA
>SRR1151209_03093 hypothetical protein
ATGAGTTATGTGATTATCGGCATTAAATCTCGGAAACAGTATGGCGGTGAGTTTAACACCATCGTTGATGCACATCGGTATCTTAACGATAAGCTCGAACGACGGACAATGGCTCGACGCCCAGAAAGCACTAAGGTCGGCTTAGATGAGCCGATGTTTATCGCTAAGGCCAACGCTCCTATTGATGCCCAGCTGCCTGACATGCGACGAGACGCCACGTTGTACGAATTTGAAAGAGTTCATAACTGGATGACCGCTAATCGTGTACGGGAGCGGATCGGATGA
>SRR1151209_03094 Holliday junction resolvase
GTGTATATTTACCGGCGGATACAGTCGAGCGGCTCACAGAGGCTAAAGCAGGCAAAACTAGATGGCAAGGTATGGCCAGCCATCAAGCCTGATCTGGATAATTATTACAAGGCCATCACAGACGCCTGCACGGGGATTGTGTGGCATGACGACAATCAGATCGTTAAAGCCTATATCGTTAAGAAGTATAGCGACCGGCCTCGGGCGATTATGGAAGTAGAGGAACTTGAAGAGGAGCAGGAAATATGA
>SRR1151209_03095 transposase
ATGACCAAATATTCTAGTGAATTAAAGTTACAAGTTGTGCAGGAGTATCTTTCAGGGCGTGTATCATATAGTGCACTTTGCACGAAATACAGTATCCCGGCAACGAGAGTAATCCGGGAATGGGTTGAACAGGCTCGAGCCCATGGACTAGAATCTCTTAAGCGGAAACATACGAAGACTGTTTACTCTCTGGAACAGAAGTTGGCTGTGGTAGACTATTACCAAACCAGTGGTGAGGGTGTGGTATCCGTGGCTGCCCATTTCGGGATTAGTTCCTCTCAGGTGGTTGCTTGGGTGAAGATCTTTAGGACTGAAGGAGTGGCCGGGTTGCGTCCCAAACCGCGAGGAAGGCGGTCTACAGTGAAACACAAGAAAACCAAACAAGTTAAGAAGCTGGAACTCAGTGAGAAGGAAGCCTACCAGCAAGAGATCCTGAAATTACGCGGTGAGTTATACCATACCAGAATGGAGCGTGACTTCTTAAAAAAATTAGGGGCCGTATCGAAGAACAATCTGCCGCCCAAAAAGCGGCAGTAG
>SRR1151209_03096 hypothetical protein
TTGAACCGAGCCAATGTACAACTCAATCCCCACGGAGAAAGTTTATTTGACGATCCGCGGTTTACTGTATCCCCGCAGGCTCATCCAGAAACCGTCGTCTTCGTCACTGTAGCCGACTTAGGTTTCCCCAATGGGGCCAATCTACCCACTATCTTTCAAAAAGCCGAAAGTATTGGCTGGCAACTATGCCCATTAGAACTGGCGGTGTACCTGCGGTTACAGTGGCAAGGGCAGGAAAAAAGCACTAACAACATCCTCCACAAACATGAAGCGCCCCAAGGTGCCGTGACAGTGGCGTCGCCAGTGATTGATCCCGACCCTAATCACCCCAAGGGCTTTTATCTGCGCAATATTGACGGCCAATTATGGCTGCGCGGCTACATTTGTGATGATGAGTATGTTTTTCATCCAGAGGATCGATTTGCCTTTATCGGTGGGAAATAG
>SRR1151209_03097 hypothetical protein
ATGCCGATTAAGACCACTGTAATTAGTACCGATAAAGACAAAATGACGGATGCTCTGGGGGAATATCTGCGCCTTAACTTCACCGACCAACGCTTCGCCCGGGTCACTGACCGTTACGAAGGGGTGACCGAAATCCTAGACACGACCGGCGTCCAGGACGAATTAGCCGAGATCATCGGCTACTATCCCGAAGCCACGGAAACACAGCTGACCGCTACCCAGGTATCGGCGACGAAGACCGTGACCTTGACGCTCACCGTGGTCTTCCCGGATGTGGCCGGACCGGGGACCGAAACGATCCAGGTGCCGTTGACGGTGGCCGAGCCGGCGGCGGAAGCCGAGAGTTAG
>SRR1151209_03098 integrase
TTGGAAGAAGATAACCACTGTATCTTTGGCGTCCGTCGATTAGCGATTTATATCAACCGCGAGACGCGATTCCATGTCGGTGCGACCCGGGTCAGAAACATCATGCATAAGAACCATATCGTGGCCGCCATTCGTGTGGCTAAACGGGATCGAAAAGCCGAGAAAAAGGAATACTTCTTTGCCAATAAGTTACTGACTAACGATGCTGGTCATGACTTCTCGCCAGAGCGTCCTAACATGGTTTGGGTGACAGACTGTAGTGAGTTGACCTATGGTGATCGAATGCAGTATAGACTGCGTCTAAGCGCCGTTAAGGACTTGTTCGATCACAGTATCGTGGCTTGGCGCGTATCACCAACAGAAACGACTCTGTTGGTCACCAATACGGTTGAGACCGCACTGAAGAATACTGGGGGAATCAAGCCTGAAATACTGCATAGTGATCAAGGCTCTGCCTATACGTCACGGGGCTATAATATGAAATTGGCCGGGCTGGGGATCACCCACAGTATGTCTCGACCAGGTACCCCAGGGGACAATAGCCCAATGGAAAGCTTCTGGAGCCACATGAAGACAGAGTTCTTCAGGTTCGAACATGCCCTGTCGGAGCTAAAGATGATGCAATTGATTCAGCGTTGTGTTGATTGGTACAACAATAAACGGCGCCAAGAAACACTAAACGGCATGACTCCGCTGGAATATCGGAATCATGCCGTAAAAGAAATCGCATAG
>SRR1151209_03099 transposase
ATGGCGGTTGATATTAATGGTTTACCACAAGCCATTCTCGTGACACGAGCTAATGTATCAGATCGTTCAGGTGCATTGGCTATGTTTAGTTTGGCTAGCCAAAATTTAGAGCTGGTTCAGCATGTCATGGTTGATGGTGGCTACACTGGCAATGACTTTGCGGATCAGGTGAAGCTCATTTTGAATGCTAAGACGACGGTAGCTAAACGCAACGAGTTGCATATGTTCACGGTGTTACCGCAACGATGGATCGTTGAACGTTCATGGAGTTGGCTAGACAAATGTCGGCGACTTTGGAAAAACTGTGAACGTGCCCTTAACAGCAGTCTTCAAATGGTTGTATTGGCCTTCCTGAAGATAGTTCTTAAAAGATACTAG
>SRR1151209_03100 transposase
ATGGGGCGTCACGCTGATGAACTCAAGAATATCATCACTAACTATCAGCCTAATGGCACGCCCCTAGATACGGCCATGCATACCCTACGAAAGAATCTTAATGGAGTAATTAACGCCGCCCAATCGTCCTACTCTAACGGCCCGATAGAGGGCATCAACCGTAAGATCAAGGAGCTCAAACGTGCTTGTTATGGCTTCTCCAATCAGGCCAATATGTTCACACGCGTCTACCAGCTGATTGCCTAG
>SRR1151209_03101 transposase
ATGGATGCCTTCTTCAAATGGTTGTTTGAATTGGGTGACAGTTACTTACCGAAATCCAAACTTGGTCGCGCAGTTGAATACGCACTGGGCCATGAAGTAGGATTACGGGCGGTTCTCCAAGACGGCCGGTTGGAGTTATCCAATAACCGGGCCGAACGAGCCGTCAAAGAGCTGGTGATGGGCCGCAGAAATTGGCTCTTCTCACAGAGCAAACGCGGCGCCGTAGCGACGGGCATCTTATTAAGTGTGCTCAAAACTGCAGAGATAAATCACCTCGACCTTCGTCAATACTTGAACTATTTGTTTGCGGCATTACCTAATTTGCCGGTGCCCGGGGACTTGAGGGTCCTACAGGACTATTTACCCTGGTCACCGAAAGTGCAGGAGATCTGCCACGAATAA
>SRR1151209_03102 hypothetical protein
ATGCCCTGGTGGGGTACGTTAATCGTAGGCTTTATCATCGGCGCATTAACCGTTGGTGTCTTTCGCTTAGGCCAATGGAGCGAACACCATAAATAG
>SRR1151209_03103 SpoVT / AbrB like domain protein
ATGGCAAACCGTAAACACAATCGGGTCGATGGCAAGGGCCGCATTGTTATCCCGGTGAAGATCCGGGAAGCAATGGGGATCGAAACCGGTACCGTAATCGAGTTCGATTACATGGCCCGGCGCCATCAGCTTGTGATCCGGTCGGTCGCCGAGCCTGAATCACATGCACAGTAA
>SRR1151209_03104 transposase
TTGAACAAGACTGTCGCGGATTCAGTTGACCAAATCTTGGCCATGTACATCCGCGAAATCAGGATGTTCCAAAAGCAATTGAAAGAACTGGATAAGAGCATCGCAGCGCTTTGCGCTGTAATCGACGGTGCCAAGTCGCTGAACAGTATGCCCGGCCTCGGCCCGGTGTACTCAGCAGGTTTGCTGGCCGAGATCGGCCAAATTGAACGTTTTCCGGATGAAGCCAGTCTGGCCAGTTATGCTGGTCTGTCCTGGCGCAGAAGCCAATCAGGCGGCAGTGAGCGGCAACTAACGCCGCGCACGCATAACGGGGATCAGTACCTGCGCTATTACCTAGTTGAAGCTGCCAATTCGATAAGAGTGCATGATCCCGTATTCGCCAAGTACTACGACAAAAAATACGGGGAGGTACCAAAGTATCAACACCGACGTGCTTGCATTATGACCGCTCGCAAGCTCGTACGCGTGATCTATAAGCTGTTATCTGATCATGAGCTGTACGTGCCTGCCAAAGTGGTCTAA
>SRR1151209_03105 ATP-dependent Clp protease proteolytic subunit
ATGGATGCTGCTTCTGGGATGCTGCAAACTACCGATAGCGCAATCGCAAGCCTGTATTCTGCAAAAACTGGGAAGCCTGCCGACGACTTTTTAGCATTGATGGACAAAGAAACGTGGCTGGACGCTGATCAAGCTGTCGAATTAGGACTGGCAGATGAAAAGCTAGACTTCGATACGCCAATTGTAAATGCGGTAGGCCCGATTATTTCACATCAAGCGGTTCAACGAATCAAGAATCTGAAAGATGAGAACAACAAATTACGTAGTCAACTTCCAAAGCAGAACAATCTGCTAAACAAGAAGCTGGCTATTTTTTATGGAAAAAAGGAGGTCCAATAA
>SRR1151209_03106 transposase
ATGAAACACAAGAAACCTAAGCAAGCGAAAAAACTGGAACTCAGTGAAAAGGAAACTTACCAGCAAGAGATCCTGAAACTGCGCGGCGAACTATACCATACAAGAATGGAGCGTGACTTCTTAAAAAAATTAGGGGCCGTATCGAAGAGCAATCCGCCGCACAAAAAGCAGCAGTAG
>SRR1151209_03107 hypothetical protein
ATGACAAATCTGTTGGTAGACTGTTTGTATTATTCGTTAGAGTTGGTTACTTCTAGAGAGCAACCAACGCTGCAAGTGTCTGGAAAATATTTAACCGAAAAGAACATTGTCGCACCCACAGTAATCGCTGAGAGTTCGATTATTGACGCACCGGTTAAGAAAGTTGGGTTGATCCTAGACCAGGAGAACAATGGGACGATACTCGCCGATTATATGATGTATTTTGTTGATGCAAACGATAATGTGAGCCGGATTTAA
>SRR1151209_03111 transposase
ATGAAACACAAGAAACCTAAGCAAGCGAAGAAGCTGGAACTCAGTGAGAAGGAAGCCTACCAGCAAGAGATATTAAAACTGCGCGGTGAACTATACCATACAAGAATGGAACGTGACTTCTTAAAAAAATTAGGGGCCGTATCGAAGAACAATCTGCCGCCAAAAAAGCAGCAGTAG