>SRR1151252_00001 hypothetical protein
ATGGTTAATGATCCAAGCTTAAAGAAGATTCACATTGTATTCAACGGTCAGGAGACACCGCCGATGAAGGTCAGCCAGCTCTTCGACGCCCACCGTTTCAACCGGCTCACCGCCGTCACGACCAGTGTCACGGCCGACTTCTTCAACCAGTACCTCAGCAACTTCATCAAGGTGGAGATCGCCCTGCGGACCCCAGCAGCCAGTGATGCCAAGACGGCCGACGAGGTGGTCACCAAGGAGGCCTTGACCCACGCCCTGCTCGCCGTGGCCAATAAGCAGCCCGCCAAGCTCTTTGAGGGCCTGACCAGCGGCAACCAGGCCAACGTGCTCAACGGCCTCTTCAGTGTCGAGATGTCACCCGTTCAGGCACTGCACTCGCACTTCTACCTGTTGAGTAACCACGAGACCCACGACACCAGGGTCATCCTGGGCAGCATTGACCTGAATAACGACGCCTTTGACAAGGACCGTAATCAGTTTGAGGAAGTCCTCGTCTTTGACAACGATATCCGCCTCTTCCAGAACCTCAGTGAACACTTCAAGAAGGACATCAAGCCAGTCCTGCGGCCGTACTTCACCGACAACCTGCTCAAGGCGGCCCAGGCCCAGCTCGATGAGGGCAAGGACGACCAGGATGCCGGTGATAACCAGGTAGTGATCCTGGACAACGACACTACCGACCAGATCGCGGCGGCCGACATGACCGACCTGATCAGTCATGACGTCCAGAAGCAGATGGACACCAAGATCATCCCGACGTCGACCACTATCGCCATGCGGGAGGTGACGACGGACCGGTCCCAGACCCAAGAGGCCATCGCCCGCGACGTCAAGCAACACGACACCATCTACAACCTCCAGAAGACGTCCGTCTCGCCGCGGGCAGCCAAGCCGAAGATCAAGAGCCGGGAAAAGATTTACCAGCAGGTTCAACAGGCCCTGATCAGCGGGATGACACCCCAGCAACGCCAGGCCGAAAAGAAGTACACCACCTTCCTCTACGACCGGCCAATGGAGCGGAACCTGGTCCGCAATAACAGCGGCCTCTACGTGCCAAACGACGCCGGGACCCACCCGATTCCATTCGGCAAGCTGGCCACCACCAGTCAAATCCGTGACGGCTTGCGCAGTATCGACGCGGTCATGAAGGGCTACCAGAAGTTTGTCGTCGACTACACCGCCGACTACGGCAAACGCTTCTTTGAGGCGATCCTCTACAGCTTCACCGCTCCGTTTTTGTGGGAGATCCGGCAGAAGGCCAGTCTCAACCCCGAGGACGGTAACGACGTGCCGAACTTCCTCGTTCTGGGGGCGACGGCTGGTTCCGGCAAGTCGACCCTGCTCCGGATCATCAACCAACTGACCTGGAATACCGACCGGTCCCTGATCGACTTTGGGATGATCTACCCGACGGAAACCGCCCAGAAAAAGGCCAAGACGGTCGAGGCGATCGAGCACTACATGAAGCAGGGGAGTTCCTACCCAGTCTTACTCGATGAGATCGAACCCTACTTCTTCCAGCAAGATCAGTACAGTCGGCACCTGGTCGTCGACACGATGAACGAGCTGATCAACAACCCCCACGCCATCGCGCCGCTGATCGGGACGACCAACTATGACTCCGGTTTCACCATGCTGCGGGAGACCGCACGACGGACCTACTACCTGCAGATCGACAAGGTCATCAACGACCAGCTCAAGGGGGAGGCCAACAAGTACATTTATAACGTCCGCCAGACCCTGAACAACACCCTCTTCAAGGACTTCGTGATGCGGATGGCCAACCTGCTGGAGGACGATGAGACGCCGTGGCGCGACTTCAACACCGACAACGGCCGCCTCGACTTTCTGTCCAACACCCGGAAGATCTTCCGCGACTACTACCAGATGGCGGGGATGGATGTACCGCCGTACTTTACCGACCAGATCTGTGACGACTTCCAGGAGAGCTCCCGGAACAGCTGGGCTAAGCTTTACGTCACCCAGGCCGACGACTTCAAGTACCGCGAATCCGATGATAGCCTGCTCTTCGACATCTCCAAGCTCAACACCTTCAATGGCTTCACCGCTGACAGCATCGAGAAGTACCGCAACGCCCTGCCGATTGAGCTTTGCGTCGACGGGATCAACGGCAAACGGGGGAAGTTCGTTGAAATCAAGGCCCCGGACTTCTTCAAGTGGATCGGCGAACGCAACCCGTACGCAACACCGGAAGTGGCCCACAGCGAGCCGACGCATTCGATTAGCAACTCCAAGCTGCCGTCTTCGGCCATTACCACCGAAAAGCCAAAGAAGAAGGGCTTCTGGGCCCGCCTGTTCGGCTAA
>SRR1151252_00002 GCN5-related N-acetyltransferase
ATGTCGATTACCTTTCGCCGTGCCCGTCCGGATGACCTGGGCGCCATCGTGGCGATCTTTAACGAGTCGGTCGACCTGCCGATCAACGACGAGGTCGAGCTGATCACCCCGGCGAGCCGCCGGGACTGGCTGGCTGAGTTCACCGACGACTTCCCGCTCTGGGTGGCCGAACAGGACGGTCGCGTCGTCGGTTGGTGCGGGCTGGAACATTTCTACCCCCACCCCGCCTACCGGTTTGCCGCCGAAATCTCAATCTACGTCAGCCGCAGTGTCCAGGGCCAGGGAATCGGCCGCCGCTTCCTCAACCTGGTCGATCGGGCAGTGCGGGCTCGCCTGCCGATTAGGTTGATCATCGCCTACATTTACCGGGGCAACGAGGCCAGCCAGCACCTCTTTGCCAAGGCGGGCTTCACCCGGTGGGGGCAGCTCCACCAGATTGCAAACCTCAAGGGTACTTTTCACGACCTACTGATTTATGGCAAAACATACGAAAAGGACTGA
>SRR1151252_00003 hypothetical protein
GTGCAACGGTTAAAGAAAGTCGGTAAGGTCGTCGGGTACAGCCTCGGGGGACTCTGCCTCATCCTCTTGCTCACCCAGGCGTTCCTACTGCGGGGAAGCCGGGGACGGACGATTGACCCAGCAGTCGGGCCAAAGTCAATCCGCTACACAAGCGTCCCGACCATCCTGATTCCGGGATGGGGTGGTAACACGGTCACCTATAGCCAGCTGATCAACCGTTACCAGGAGCGTAATACCGCCCAGAAGGTGATGACCGTCTGGGTTTCCCCCCGTAACCGTATCCGGGTCAGTGGGGACTGGCACGGGCAGCCCAACGCCCTAATCCAGGTCCTCTTTGATTGGAACTACAACACCAGCTTCCATCCCCAGGTCAGCCAGCTACGCCACGTTCTCATCTATCTTAACCAACACTACGGGATTAGGCAAACCAACATCATTGCTCATTCCTGGGGTGGGACGGAATTCATGCACGCCTACATGGGGTCCAAGCGCCTCCAGCAACAGTTGCGGCTCAACAAGCTGATCTTCCTCGGTGTCCCGGTCGAGGAGAGTCTGAGCGACCACCTACCTTACCACTACCTGCTCGTTCACCACTCCAAGGACAAAAACTTCCACCAGCTCCGGGTCCAGATGAAGGACTGGCAGCTGAACTACCCAATCACCATCTACAACCTGATGGGGTCCAAGGAGGGGAGCCGGCTGACCGACGGCGAGGTGCCGCACATCCAGTCCGAGATGCTGCGAGCCCTCATCCAGTCCCACCCGACGATTAGCTACCACCAAAGAATCTACGCCAACACCACCCACAGCCAGCTGCACAGCCGGCCGGTCATTCTCAACCAGATTGAACGGATCCTGTGGGGAAAGGAGGATGCCAAATGA
>SRR1151252_00004 hypothetical protein
ATGAAGAAGGAACACGGCCAGGTAACTGGTATCATCTGGCGGGGTCCCGATGACCTCGCCGCCTACCAGCAGCTGCGGGCCTATGCTGAAGAACACCACCTGACGGTTTCAGCGGCGGCCAAGGAGCTGGTTATCCAGGCCTTAAACAATGCAAAATCCTAA
>SRR1151252_00005 hypothetical protein
ATGAAAGAGATTATCGACCAGTACTTTGATGGTGAGCGACCGCTGTTCGGCGAACACGACGCCAAACTCATCCGGACCACCTTTGGCAAGGGGGAGTCACCGCTGAAAAACGCCCACGACCTGGAGCTCAACAAGGTGATTTTCCAGTGGAAGTACCCCCTCTGGTATGACCAACACGTCAAGGTCGACGACTCTATCTGGGAGACCATGTCGCGTTCGGGGATCTGGTACACCAAGGACATCGAGATCAACAACAGTGCCATCCAGGCGCCGAAGCAGTTTCGTCGCTGCGACGACATTCGGCTCAATAACGTCCATTTTGGGGACGCCGAGGAGACGATGTGGTCCTGTCGCAACATTAAGATGAACAACGTCCAGGTCAACGGCGATTACTTCGGGATAAACAGTGAGAACATCTACGCCGACCACCTCAACATCATCGGCAACTACGCCTTTGACGGGGCCAAAAACGTTGAGATTCACAATTCAACGATGGTCACCAAGGACAACTTCTGGAACTGTGAAAACGTGGTGGTCTACGATTCCTTCCTGAATGGGGAGTACCTGGCTTGGAACACCAACCACATCACCCTGATCAACTGCACGATCGAGAGTGACCAGGGTCTCTGTTACACCAAGAACCTGACCATGAAGAATTGCCGCCTTCTCCATACCGACCTGGCCTTTGAATACTGTGAAAACATCGACGCCGAGATCAACTCTGATATTGAGAGCGTTAAAAACCCGATCAGCGGGAAGATTAAGGCCCACCACATCGATGAGATCATCATGGACCCTCACGAGATTGACCCCAGTAAGACAACCATCATCACCGACGACGATTCTGACCAGCACGTCAAGCAGCACTAG
>SRR1151252_00006 cystathionine beta-lyase
ATGCAATACGACTTTGACACAATTCTGGACCGGAAGCATACCAACTCCGAGAAGTGGGCGGTCCGTGACGGCGAGCTGCCGATGACAACCGCCGACATGGACTTCAAGACCGCACCGGAGATCATGGACGCGATGAAACAGAAGATCGACCAGGGGGCCTTTGGCTACGAGTACCCAACCCCGGAGTACTTCCAGGCGGTCGCCGCTTGGTACGCGACGGAACACCACGTCGCTGCCGAGACCGACTGGATGCGGTTTGCCACCGGGGTCATCCCGGCAATCACGGCCAGTGTCCACCACTTCAGTCATGAGGGGGACAATGTCCTGCTGATGGAGCCGGTCTACAACACCTTCTACAACTCGATTATCAACAGTGGTCGCCACGTGATCGCCAGCCAGCAGCTCTACGACCACGACCAGCACACCTACCACGTCGACTGGTACGACCTAGAGGACAAGCTGGCCAACCCGCTGACCACCCTGATGATCCTCTGTAACCCTCATAACCCGACCGGCTACGTCTGGACCAAGGACGAGCTGATCCACATCCTGTCATTGGCTAAGCGGCACGGGGTGGTCGTCATCAGCGACGAGATCCACGGTGACCTGGTGCTGGACGGGCCGGACTACACGCCGACCTTCTCACTGCCAACGGAGATCACCGCCAACCTGATCACCCTGGTTTCCACCAGTAAGACCTTTAACTTGGCGGCCCTCCACTCCGCCACCGGGATCGTGCCGAACCCGATCCTGCGGGAACGCTTCGACCGGGCCATCAATAAGTACGAGGTGGCTGAACCGAACCTGCTGGCCATTCCGGGGGCGATTGCGGCTTACCGGCACGGTGGCGACTGGCTCCACCAGCTGAAGAAGTATGTGCTAGGCAATCGTCACTACATCGCCGACTTCCTCCGGCAAAACCTGCCGGACTTGCACCTGGTACCGGGGACGGCGACCTACCTGATCTGGATCGATACCAGTGCCGTCAGTGACGACAGCGCCAAGTTGGCCCAGTTTATCCGCGAGGACACCGGCCTGATCATCAACCCGGGAACCTACTACCACGGCAACGGCGCCGGCTTCATCCGGATCAACATTGCCTATCCGCGCAAGCAGGTCGAGGACGCCATGCAGCGCCTGCTGAAGGCCATCAAGGACCTTAAGAAGAAGTAA
>SRR1151252_00007 UDP-N-acetylglucosamine 2-epimerase
ATGCAAAAGATAATGACCATCTTTTGGACCCGTCCGGAAGCCATCAAGATGGCACCGGTGGTTAAGCAGCTGGCGGCCGATGATGAGACCGAGCCCGTTGTCGTCGTCACCGGTCAGCACCGCGAAATGCTCAAGCAGGTGCTTGATTTCTTTAAAATCCAGCCTGATTATGACCTGGCGATCATGACCAAAAACCAGCGCTTAGACCAGATCACCAGCCGGGTGCTCCTTGGCCTCGACCCGATTCTGGAGCAGGAGCGGCCCGCCATGACCCTGGTCCACGGTGATACCACCACAACAATGGCGGCCAGCCTGGCCAGTTTCTACCACCAGATACCGGTTGGCCATGTCGAGGCCGGCCTGCGGACCTGGGACCTTACATCACCGTTTCCTGAGGAGGCTAATCGGCAGGTGACGGATAACCTGGCCAGACTCTACTTCGCCCCAACTGTCCTCAGCAAGCAAAACCTCCTCAAGGAACACCACCCGGCCGACCGGATCATCGTAACGGGAAATACGGCCATTGACGCCCTGCGGTACACGGTCAACCAGGAATACCACCACGATGTGCTCGACCGGATTCCCGCCGACCACCGAATTATCTTGCTGACCATGCACCGGCGGGAAAACCAGGGGAGTCCGATGACCAACGTGTTCCAGGCCGTCCGTGACGTGGCACTGGCCAATCCTCAGGTAGACGTTATCTACCCTGTTCACCTGAGTCCCCGGGTTCAGGAACTGGCTCACCAGATTCTTGAGGGAATCGCCAACGTCCACCTCATTGCCCCGCTGGACGTGGTTGACTTCCATAGCCTTGCCGCCCGGAGTCACTTCATCATGACCGACTCCGGGGGTGTACAGGAGGAGGCCCCGTCCCTAAACAAGCCCGTCCTGGTGCTACGTGACACGACGGAACGCCCAGAGGGGTCACAGCTGGCACCCTCAAGCTAG
>SRR1151252_00008 beta-glucanase
ATGCGATTAACTAAATTTACCTGGCTGCTGGTAGCCGTGGTGACCATCATTTACACCGCTACCCTCGTCATCGTCCGGGTGGAGAATCCCCGTCACATCCAGGCCGAGTGCTATCGGCGCTGGCGGTCGGCCTACGTCATTAAGCAGTCCCCCCACCGGGCCTTCGTCAACACCAGCAACCAACGTAACAACCCGGTTGCCCTTTCCGAGGGGCAAGGTTACGGCCTCTACATCACCGCCCTGGCCGGCCGGCACGGTTGGGCGAAGCCCCAGGACTTTGACCAGCTGCTGAACTACTACTTGGCCCACCGGGATTACGTCGGTCCCCACCAGCAGACCGCTACCTACCTGATGAAGTGGCGGCAGTACCGAAAGGACGGCCGCTGGGTCAGCGATGCCAACAGTGCTACCGATGGGGACCTCTTCATTGCCATGGCCCTTGACCGGGCAGCTACGGTATGGCCACAGCGGGCCGGCTACTACCACCGGTTGGAGCGCCAATTGACCAATGACATCCTGGCCTACGAGTACAACCCGCAGACCAGGGCGCTGACGGTCGGTGACTGGGCCACCAGCAAGTCCAAGTATTATCGCCTGATGCGGACCTCGGATGTTGCCCCGACCTTCTTCGACGCGTTTTACCGGCTCAGCCACGACCAGCGCTGGCGAATTGTCAAGGGTGGAATGCTCGACCACCTCGCCGACCTGAGTGGGCAGCACCGCACCGGCCTGGTTCCCGACTTTGCCTGGGTAACCGCAGGCCATGCCAAGCCAGTCAAGCCCTGGACAGTAGCTAGCAAGAACGACGGCAACTACTCATACAATGCCTGCCGGGTCCCCATGATGTTGGCGGCTAGTAAGGATCCCCGGGCGCAGCGGACCCTGACCCGGATGATGAAGTTCTTCAGCCAAAGTTACCACGTGACCGCGGGCTACACCCTGGCCGGTAAGCAGTTGACCCACCACCAGTCCGGTAGCTTTAGCGCGCCAATTTTTTATGCGGTGAGTCGCAACCGTGACCACGGCTACGATAACCTGTTCGATAGTCAGAAGTTTATCTTTAGCAAGCCGCTGACCAAGGACAACTACTACGACGCCGCGCTGACGAGCATCGCCGCAATGGAAGGGATGAATTAA
>SRR1151252_00009 glycosyltransferase
TTGACCGAGGATACCGACATCTCCTTTAAGATCATGCAGAGTGGCAAGCTGATCGCCCTGGCTTACAATTCCGAGGCCTTCCAGCAGGAACCTGAACGCCTCCATGACTACTACTTCCAGCGGCTCCGCTGGGCAAAAGGCAACTACCAGGTGGTCATCCACAACTTCCGCCACCTCTTCGACCACAGCAACTGGCGGGTGAAGCTAGAGACCTTTTATTACTCCTGCACCTTCTTCTGGTTCAACGCAGCGATCGTCCTGTCTGACATCATCTTCCTCGCCAATGTCGGGACCTTGATTGCCCGGCTATTTAATCCTGGCCTGGCCATCCCCTTTACCTTTGGCGAGAGCAACATCCTAATCATGCAGATTCTGTTGTTGAACTGGCTGCTGATGATCATCCTCTACGTCCTCCAGATCTCAATCGCGATGGCCACCCAGTTCGGGCAGGCGACGACCGGTCAGATCTGGCTGGCCCTGGCTTCCTACTTCACCTATTCCCAGCTCTTCATCGTTGTCTCCATCCACGCCGTCTGTTCGGTCTGTCTAGACAGCCTGCTGGGCCGCAACGGCAACGTCTGGGTGAAGACCAAGCGGTTCAATGACTAG
>SRR1151252_00010 glycosyltransferase
ATGGTTCAAGAAACGCTAATGATTATAACCCTGGTGTCGATCTGGCTCTCCCTCTGCATGTCAATCGTTACCCTCAGTGGGGCCACCGACTTCTGGCTGGCCCACAGCACCAAGCGGGTGACCATCACCCCCCTGTCGCGCTACCCGATGATCACCATCGTGGTTCCTGCCCACAATGAGGAGGTCGTGATTGCCCAGACCACCCGGGCGATTCTTGACATGAACTACCCCGCCGACCGGGTTGAGTTGCTCCTCTTTGCGGATATCAGGAGATCATCGTCACCCAACGGATCCAGCACTGCGCGATCTGGCACCTCTTCAAGATCGGTCGGATTCCCGGCACGAACTTCATCATCCAGCGTCAGTTTGTCCAGGGGATCGGGGGCTGGCGCAACGGGGTCTTGA
>SRR1151252_00011 hypothetical protein
ATGGTTAGTTGGTTCTTTTGGCTGGCAATGATCATCACCTTTGCCTTCTTCCTCCTCATCATGGTTCTCTTCATCTGCCAATGGGTGATCTACTACCGCGTCGAACGCACCATGCTCCACTATGACCAGCACTTCTATTCGAAGGAGGATCAAGACTGA
>SRR1151252_00012 hypothetical protein
TTGGAGCACGGGACCTTTCTGATCGTATCGTTCAACCTGACCACACAGACCTATGAATACCGCAATCGGCTGACCCGGCAGCACCTCGTACAGCCGCGGATTGGCCAAGCCACGCCCCAGTATAAGTGGGGAGCCGAGCGGATTACCACTGAGAATGCCGCCAGCTACCCGGAACTAACCGACGTCATGCGCCACATTGACCGGGACATGGAGACGGATCTGATCGTGGAATACATGAAGGGGGATGGCGTCAATGGTTAG
>SRR1151252_00013 hypothetical protein
TTGATACGGCAACATATTGTTGAGGTGGGACTGACGGTCCTCTTCCTGATGGGGGCCCTAATCGCGGTCCTGATGTGGTGGGCAGGTCAGTACTCGACCACCGTGGGGACGGCGATGATGACCCTGATTCTCTTGGGCACGGCTGCTGGAACCCTCATCCCCAGTATTCTGATAACATGGCTGATCATCGGTTTGACTACTATCGGTAGTACCATCCTGCTGATGGGCTACATCGTGATGACGACGCCCCTCAAGCTAGGATTACTCCTGGCCTTCCCAGTCTGTGCCAGTCTTAGTGTCCTCAGTCGCTACATTCTTTCCGGCTGGGGATGGATCGACCGCAACCGGGCCGACATCAATAGTTACGCGGCCCACTATGATCAGGTTACCAAGCTGCAGACCCGGTATAACGCCGCAAAGATCTACGAGAAGGCACGCCACTTTGTCCAAACTGACCAGCATGACGACCAATGGCTGGACGTAACGGCGATTCACTGGTCACACAGCAGGTAG
>SRR1151252_00014 nucleoside deoxyribosyltransferase
GTGAAGAACAAGACCGTTTATTTCTGTGCCGGCTGGTTCACCGATAAGCAAAACCAGGCCTACCAGCAAGCAATGCAAGCCATCAAGGACAACCCAACCATTGACGTTAAGAACTCATACATTCCGCTCCAACACCAATACAAGGGGCTGCGGGTTGATGAGCATCCCGAATTGCTGGAGGATCGTGAGTGGGCCACCGCAACCTACAACGGTGACCGGGTCGGCGTGGCCACTTCGGACATGCTCCTGGCTGTCTACATCCCCGAGGAAGAGGATGTCGGGATGGGGGTTGAGCTGGGGATGGCCCGGGCCCTCGGCAAGTACATCACGGTCGTCATTCCGGACGAAGACTTCGGCAAGCCAATTAACCTGATGAGTTGGGGAATTGCGGACAACTTCATCAAGCTGTCCGAGCTGGCCACCCACGATTTCAACAAACCGAGTTTCAACTTCTACGACGGTTCAGTTTATTAA
>SRR1151252_00015 haloacid dehalogenase
ATGGAAAAATGGCGCTTTGTTGCCGTCGATGTCGACGGGACCCTACTGGATGATCACGATCACTATGATATCAAACGATTGAATAACGACGTTCAACAACTCGCTGCGCGGGGCATTCACTTCATCATCGCCAGCGGCAACAGCCTTGATGCTCTCAGGGCCATCTTTGCCGCCAGCCCGGTTGTCGATACCTTTGTGGCTGAGAATGGCGGCCGGATCATTGCAAACGGTGATGAACAATTTAGCCAAGTTCATGAGCGGCCGATAATCAAACGGCTCCTGATTTGGAAGGACCACCTGAAGCCGCAGCCAGACCTGCTCTCGCTATCGGGTGCTAACCAGACATTCATCGCCAACCGGTTCAGGGATGTCCCGGTTCCCTACTACCCCCACCATGCCTACTTTAAAACATTGGCCGATGTGGACGAGCCGATCTTCAACCTTAACCTCAACTGGTTCAAACAACGGCCACCCCTGCCGTGGATATTACAGCAGGCCGCCCAGCTCAGCCATGATTTTCCCCAGGTCCACGCAACATACAGCGGGGCTTACGGAATCGACGTCCTGCCTGCCGGGGTCAACAAGGCGGTCAGCCTGGCAAAGCTGGTTGCCCAGCTGGGTGGTCGCATGGATGAACTGGTGGCCTTTGGCGACACCGCCAACGACCTGGAGATGATTCAGGCGGCGGGTCGTGGCTACGCGATGAAAAACGCCACCCCCGATCTATTAGCAGTGGCGGACCGAGTCACTATCCATGATAACAACCATGATGGACTTTTGCGGGCAATTGAGGACCTCTTTAACTTATCGGTGAGCAAGTAA
>SRR1151252_00017 DNA-entry nuclease
ATGGTCGGCCTGGCCCTTGGCGGTGGTTGGACCACCTACCGCGACTTTCGTCATGGACAGCAGGCCCGGCTAGATTTTGCCCAGCACGATCGCCGGCCGGCCAGCCAGGTCGGTGGGCTCACGACAAGTCAATACCAGCAGTTGGCCCAGCTGAATTACCAGCCGGGCAGTACCCCGGTCGTCCTGGTCAATCATGGGCGGTCAATCCTCAACCCCAAGGCCTGGCGAAGGGACCATGTCATCTATCAGCAGCTCGACCGGGCCGGCCGCGCCTCCGCTAGCAACACCGCCTTCTTGAACAGCCGTAATCACGCTAACACCAGTCTCCGAACGGCGCAGAATTTTCAACCCGCTGGCTGGCACAGTAATAGTGGCGGGAACCTTGTCTATAACCGGGGCCACCTGATCGCCTATTCCCTGACCGGGGGGATTGACCCACGAGCCGGGCAGTTACGGGCCGGGGCACTCGGTGACCAGGATAACCCGCGAAACCTGTTCACGGAGACTGACTTTACTAACGAGGTCCTGCAGACCCATTACGAGGCCCGGGTCCGTCACGCCATTGAACAAGGAAAGCACGTGATCTACCAGGCCACCCCGATCTTTCGTGGGGATGAGCAGATGGCCCGGGGGATCAACCTCCAGGCCCTCTCGACCGACGGGACCCTGAATTTCAATGTCTTCCTATATAATGTTGAACCTGGAGTGCTGCTGAACTACCAGAGTGGGTCCAGCCAGGCAGATTCGCGGATGCGAGTGTACGTTCCCACCTATATGAACGAGGACGATAGTGATGACCGGTCGGCCGGGGATGGTAACCTGCGTGTTGTTGGTCCCTACCCCACCCCATTTGCTGATGCCCCTCGTCACTATTATCGGATTAGTCAATGA
>SRR1151252_00018 integrase
GTGAGACAAATCGTACTACCAATCAAGGATTCCAATGTCCTTGCGGAGGTCCAAGACACCCTCCTCCACAACTTTAAAGCGGGGCGGCGTAACTACACGATCTTCCAGGTCGGTAAGGCCACCCTCCTCCGGGTCAGTGACGTCCTGCGACTCAAGCAGACCGACGTCTTCGATGACTACGGGGCCATCCGCCAGCACGCCTTCATCAAGGACAAGAAGACCGGCAAGCCCAACACCCTCTACCTGCGGCCGGTGATGAGCGACCTGGCGATCTACCAGCAGTGGCTGAAACGCAACCGCTACGAGGGAAGGACGGAATGGCTCTTCCCGTCCACCACCCGGCCAGACAAGCACATCGACGAGCGTCAGTTTTACAACGTCATGCACCGGGTGGGGGAGTTGCTCGACATTAACTACCTGGGCACCCATACGATGCGCAAGACCGGTGCCTACCGGGTCTACGTCCAGAGTAACTACAACATCGGCCTGGTGATGAGATTACTCAACCACTCCAGTGAGGCGATGACCCTGGCCTACCTGGGTCTTGACCAGGTTAGCCGGGAACAGATGCTGGACAAAATCGACTTTGGCTAA
>SRR1151252_00019 glyoxalase
ATGGCATTTAATAAGAGCCTGGCCGGATACTTTGATGATCTGGCCCACGTTGGGATTCCAACCGATGATATGAACAAGACGATTGCTTTCTGGGAGAAGCTTGGCTTCAAGAAGCAGGGTCAATTCGACACTGATGACCAAGGCCACCAGGTTACCTTCATGAAGGCGGGCCACCTGATGCTGGAAATCTGGGATAGTGATGGCGCCGTTCACCAAACCGGTGCGATCAACCACATTTCATTAAACGTTGAAGACGCCGACAACGCCTTCAAGGCGGCCAAGGCTGAGGGCTTTGCCGTCAAGGAAGACGAGGTTCAACACCTTGACTTCTGGAAGCACGGGATCAAGTTCTTCAACATCACCGGTCCCAACGACGAAACCATTGAATTCTGTGAGATTGTTAAGGATTGA
>SRR1151252_00020 alcohol dehydrogenase
ATGAAAGCATTAGTTTTAACCGGATTAAAGCAGCTTGAAGTTCAAGACTACGACAAGCCCGAAGTTAAGCCCAACGAAGTTCTGATCCACACCGCTTGGGCTGGTATCTGTGGTACTGACAAGGCCCTCTACGGTGGTCTGCCGGGTTCTGCTGACGCCGTTCCACCGATCGTCTTAGGCCACGAAAACTCCGGTGTCGTTGCTGCGGTTGGTTCTGAAGTCGAAAACTTCAAGGTTGGCGACCGGGTAAGTGTTGACCCAAACATCTACTGCCACAAGTGCCAATACTGCCGTTCATCCCGTCCGGAACTGTGTGAACACCTCGATGCCGTTGGTGTTACCCGTGACGGTGGTTTTGAAGAATACTTCACCGCTCCGGAAGAAGTTGTCTACCACATTCCAGACAACGTTTCCCTGGAAGCCGCTGCCGTAATCGAACCAATCTCCTGTGCTGAACACGGGGTTGACCTGCTGGAAACCCACCCATACCAAAAGGCACTCATCATCGGTGATGGTTTCGAAGGCCAACTGATTGCCCAAATCCTGAAGTCCCGTGGTGTTCACGAAGTTACCCTGGCTGGTTCCAACGACGACAAGCTGGAGAACAACAAGAAGCACTTCGGTTTCAAGACCATCAACAACGTTAAGCACCCCGAAGAAGTCAAGGCTGACTCCTACGACATCGTGGTTGAAGCCGTTGGTCTGCCACAAACCCAAGAGCAAGCCGTTGAAGCCGCTGCCCGTGGTGGTCAAGTGCTGATGTTCGGTGTTGGTAACCCTGACTCCACCTTCAAGGTTAACACCTACAAGGTCTTCCAAAAGCAACTGAAGATTCAAGGGACCTTCATCAACCCTTACACCTTCGAAGACTCCATCGCCCTGCTCCAATCTGGCGCCGTTGACCCACTGCCGCTGATCTCCCACGTCCTCGACTTTGACCACGTTGAAGACTTCGTCAGTGGTAAGCTGAAGGGTGTCTCCAAGGCAATCGTTAAGGTTGCTGGTGAAGAAGCCTAA
>SRR1151252_00021 hypothetical protein
ATGAGTAAATACAGTAAGGATGATTTGCGGGCCATCAAGGACATGAAGCTCGACGAGTTTGCCGGCCTCCTGAACGAATACGACGTCAACACGATCGGCGCCCTGGTGGACTCCCTGGACAAGGCTAAGAAGCACAGCAAGCGCAAGGGTGAGCTGCGGACACTGAAGGCTGAGCTGGCCGACCAGAAAAATGAGATCAAGAAGCTGCACAAGCACATCGACAAGCTGATTGACAAGGTTAAGAACAAGTAA
>SRR1151252_00022 hypothetical protein
ATGCACAAAACTCACCACCTGAATCATCGTCAGGCCCTGGTCTACGGGGCGACCCTCCTGCCGGTCAACACCTTCTTCAAGTTCTACCTACGTGACCAAGAACGTGCCCAGCAGAAGGTAAACTGCCGGCAGGGGATGATGGGGGACCAAGCGGGTAAGAACTCATCTCCTTCGTGA
>SRR1151252_00026 hypothetical protein
ATGTCTTTCCAACTAGTCTACCTGCCCAAGAGCGGGAACAAGAATTACTGGACCGTTAATAATTACTTCACCCACAAGGATAATCAGCACTTCTATTGGGACCAGTTGGAACAACTGTATGATGAATTTTCCCACCTCAAGAAGAAATTCCCAACCCTATTTGCCAACAAGCGTGATGACCGCTTCTATATCTATACCGACGATGCCCAGGAGGTGAGTCAGCTTGTTGCCCAACTTGCCGATACCGAGAAAGCCGCCGCACCAATACCGCAGTCAGCCGCAACACCAAAGCAATCGTCGCTACTGGCCGTCCCACCGAAGGGCTGCTACGCCATTGCTGCCCGGGTCGGCGGCACCATGTACTATTACAGCAGTAAGACCGGGGCCAATGGCGCGATGATTGGCCCCCAGGCCGGTGAGATTCGTTTCTGGAAGAAGAGCGACCTTGCCAAGGCGATGGCAACCGTTCGCGCCCTCAGCGTCAACGCCAAGTTTCTTCACCGGCTACCGGGCTTGCAACCCGCGATGCTGACGGTGATCAACGCGCGGACCGGGGCCGCCGTGTGGCCGATAAATAATCTCGACCAACCGACAACTCCTGAGCAGGCAGAGGAGGATGTTGCCACGAACGCCGCCCTGCTTGCGGAGGTCAAGCAACAGCTCAGTGATCACTTCAACCCGGATAAGCAGGAGTCAATTCAGAATGACCAGGGTTTTCGCTTCAACCCACCAGAGGTCGATCTGGAACGCTACGATGCCCGGAAGGTCTTTGATGCCTTGTGTTACCTGATTGCAGCCCTCGACCAGCGTCCCGCCGTCAACGAGCTGCTAAGCGTCTATGATAAGCTGATTCTCCAGGACTACCTGCATACGGCCGAGCTGGTTGGTAGCCACATCGACGGTGATGCCTTTGTTGCATCTCTCCACCAAATGCGGCAGCAGCGGCGTAAGATCAAGGACCTGAGCATCCTGTTGGACACGATCGATGAAAATATTGACCAGGCCCTAATCTTGAAGGGGTTACTCGGTCACCAGTCCTTACACAGCCAATACCACTTCCGTAATCGGGAACTGGGTGAACGGTTACTCACGATGATTAACCCCTCACTTGAGGATACGCAAATACCAGAAAATGATTGA
>SRR1151252_00027 tryptophan synthase beta chain
ATGACAAATCCAGTTGAACAGAACATGTACTACGGTGAATTCGGTGGCCAGTACGTACCGGCCAATATCAAGGTGGCCTTGAATAAGGTGGCGGCGGCGTACCTGAAATACAGGGATGACCCCGAATTTAACAACGAGCTGGCCGGCCTGCTCAAGGACTACTCTGGCCGTGCCACACCGCTATACTACGCGACGGCGCTGACTAACTACCTAGGTGGGGCCAAGGTCTACCTCAAGCGGGAGGACCTGAACCACCTCGGCGCCCACAAGCTGAACAACGTCCTTGGCCAGATCCTGATTGCTAAGCGCATGGGGAAGACCCGGATCATCGCCGAGACGGGGGCTGGCCAGCACGGGGTAGCCACAGCAGCGGCTGCCGCCAGGTTTGGCCTGAAGTGCGAGATCTACATGGGCGCCGTGGACTGTGAGCGGCAGAAGCTCAATATCTTTCGGATGAACCTCCTGGGAGCCACGGTCCACCCGGTTCAGTCTGGCACCCGGACCCTCAAGGATGCCGTCAGCGCCGCCCTCGATGACTACGCCCACCATCTTGACGATACCTTCTACATCGTCGGCTCGGCGGTGGGCCCGTACCCGTATCCCCAGATGGTGCGCCACTTCCAGAGCATCATCGGTCGCGAGACCAAGCAGCAGGTTCTTGCCAAGGAGGGGCGGCTGCCGGATGCGGTAATCGCCTATGTCGGCGGTGGCTCAAACGCAATCGGGTCGTTTGCGGAATTCATCAATAGCTCCGGGGTTCGCCTGATTGGGGCCGAGGCGGCTGGCAAGGGGGCAGATACTCCAGACAACGCGGCCACGATGACCAACGGCCGGGTCGGCATCAGTGACGGGATGCGGTCCTACGTCCTGATGGATGACCACGACCACGTCCAGCCAGCCTACTCTATCTCGGCCGGCCTGGACTATCCCGGGGTGGGGCCAGAACACTCCTACCTGAAGGACACCCACCGCGCCGAGTATTACGCCATTACCGATGACGAGGCCGTTCGTGCCTTCCAGTTGCTGTCCCGCCTTGAGGGAATCATCCCCACCCTGGAGAGTTCGCACGCTATCGCCCAGGCAGTAAAGATGGTGCCGGGGATGGCTAAGGACCAAGTTGTGGTGGTCACGGTCTCCGGACGGGGTGACAAAGACGTCAACCAGGTGGCCGACTACCTGGGCGTCCAGGTTGACTAG
>SRR1151252_00028 L-2-hydroxyisocaproate dehydrogenase
ATGCACAAGATTGCTGTGATTGGTTTGGGGAACGTTGGGACGACGGTCGCCCACATGCTACTGATGGCGGGCCTGGTCGACGAACTGGTCCTGATCGACAAGAACGAGAAGAAGGTAGCCGCCGAGTACAATGACTTTGCCGACGCCTTCCCGCGGACAGCCCACTCGGCGGTGATCAAGCAAAACGACTATCGGGAGCTGGCCGATACCGATATCATCATTACCGCCTTTGGGGACATTGAGGCCACCAACCGGACCGGTGACCGCTTTGCCGAGTTGCCGATCAACAAGCAGAATGCCCGGGAGGTGGGCGCAAAGATCAAGGAGAGTGGCTTCAACGGTATCTTGATCAACATCTCCAACCCATGTGACGCCATCCTGGGTGTCCTCCAACAAGCGACCGGCCTGCGCTATGACCGGATCTTCGGTACCGGGACCCTCCTGGACACGGCCCGGATGCAGCGGGCGGTTGGTGAACACTTCCACGAGGCACCGCAGAACGTCGACGGTTACGTCCTTGGGGAGCATGGTAATACTCAGTTCACCGCCTGGTCGACGATCCACATCGACGGGATCCCACTGACCCAGCTGGCCGATGAGGGTAAGATCAACCTGGATAAACTGTCCGACAAGATCCGCCAGGGCGCCTTCACGATTATGGTCGGGAAGGGCTACACCTGCTTTGGGGTGGCTTCTTGCGCCATCACACTCGTCGAATCTATCTTTACCGATAAGCACGTGTTCTTACCGGTTTCACTCTTCATGGAGCGGTACGGCTGCTACATCGGCTACCCGGCCGTGATCGGGGCCAAGGGGATCGAGGCGATCCATCCGATCAAGCTGACCCCGGCAGAAGAGGAACTGTTAGACAAGTCGGCAGCGACGATCAAGGAAAAGACTAACGATTAA
>SRR1151252_00029 hypothetical protein
ATGCAAGAGATCAGCGGAGAATCAAAATTTTTTAAAAGTGGTAACTCTTTCGGCTTACGATTAACCAAGAAGGACAAAATAAAAATGCATGCTGAACCAGGGGATGAATATGAAAAAAACATTTCTCCTGATGGTCGTGTAATAACTTTTACCAAAAAGAAAAGTATCAGTAAGGACACCCAAGAGATGATAAACAGTATTTTTAATGAAGATGCTGACTTAATCGAAGCACTAAAAGACTTATAA
>SRR1151252_00030 death-on-curing family protein
ATGATTATTTTTGGTAAGGAGCTATACCCAACGATTTGGCTCAAGGCAGCATACATAATGCAGAAGATTACTAAAAAGCATATTTTCGCAGACGGCAATAAAAGAACGGCTTACATTGCCACAAAATTATTCCTGATGAAGAACGACTACCACCTTATGGTCACAAAGAATGAAGGGATTGCCTTAATGCTTGGTATCACTACTCAAGATGATACCGAAAAAGTCATGCTGAAGGTTGCGGAATTTTTGAAAGAACATTCAAAACTAATATCAGGTTAA
>SRR1151252_00031 prevent-host-death protein
ATGATGAAAATCAGCGGTGGTTTTATTTTCATGTTTAATACATTTTCATATAAGAACACCGCAGATAATGTCGTCGTCATGTCTAAAGATAACTATGACGCCATCATGGAAACCCTCAGTGTGAACTCAAACGACTACCTGATGCGAAAGCTCGCGCGTGGGGATGAACAATTCAAAAACGGTGGCTTTAAGCAGCATGAGTTAATTACAGAGGATGACAATGATTAA
>SRR1151252_00032 Txe/YoeB family addiction module toxin
ATGATTAAATGTTGGTCTGATGACGCCTGGAATGACTATATGTATTGGCATGACCAGGGTCAGAAAAAAGTCATCAAGAAGATTAATAAGTCAATCAGGGATATCGACCGCCATCCCTTTGAGGGTCTGGGGAAGCCCGAGCCACTGCAATATAACCTTTCGGGAAAGTGGTCACGAAGGATCAATCTTGAGCACTGTTTGATCTATACGGCCGACAAAGAAAACATCTACATTTATTCATGCAGGGATCATTATTAA
>SRR1151252_00033 MarR family transcriptional regulator
ATGCGAAAGATTCACCGATCACCGTTAGAATACGGTATTTCAGCATTTGCTGGTAAGTATAAGACACGGATAATCTGCTCGTTGATGACACACGGGCCAATGCGCCATAAGGAACTTCGTCAGCTGACAGATGCTAATGACCAGGCCTTGTCGCTGGCGTTGAAGGAATTGCTTGACTACTCGATCGTTAATCGTCACCAGTACAATGAAATGCCGCTCAAGGTTGTTTATTCGCTGACGGAGAAAGGAAAAACAATCGCACCAATCTTGCACCAGGTTAGTTTGTGGGCGATTAAACACCACGAAGATGATGTGACGTTTGAGCATGATAATTCACGGCTTGGCTAG
>SRR1151252_00034 alkylhydroperoxidase
ATGGGCTATTATTCTGATACACACCGGGTAACGCATTATCCCGACGTCCTCGCCGAAAACGCCGCCAACGAAGTGACCCTGTTCAAGAATACCGGCGATACGGCTAAGGGCTTCATGGCTATGCACAAGGATGCGGTCGCTGATGGTGCCATTGATTCCAAGACGAAGGAACTGATGGCGCTGGCCGTATCGATTGCCATTCGTTGTGAGGGCTGTATCACGTCGCATACCGACAGCGCCATTAAGAAAGGCGCCACGGAACAAGAAATCATCGAAACGATCAAGGTTGGCATGATGATGAGTGGTGGTCCGGGGATGATCTACGGCAGCAAGGCAATCGCGGCGGCAGAACAATTCTTCGGCAAGCACCTTGCGTAA
>SRR1151252_00035 hypothetical protein
ATGGGGACGCTATTGAAATTATTAACTAAAAAAGAATATTTTGTGTGTCCAAACTGCCATGAGCACTACGAATTCAGTCATAGCCAGGTTAAGGGCATGCTGAAGAAGTATGGTCACATCAATTGCTACTATTGCCGAACTGAGCTTAAGCAGATCGACGAATAG
>SRR1151252_00036 aldehyde oxidoreductase
ATGCAAACAGTTAAGATTGGCACAACAACCCTGCCCGCCGTCGGGATCGGTACCTGGCATATCGGGGATGATCCCGTCAAACGCCCCGCCGAGGTCCAGGCGATCCGAAGCGCCATCGATCACGGTGCTCGGGTAATCGACACGGCCGAGATGTACGGGATGGGCCGCACCGAGGAGGTTGTCAAGGAAGCCATCGAGGACTATATGCGCGACCAGCTCTACATCATCGACAAGGTCCTCCCGGAGAACGCCAGCCACCACCTCCTGGAGCGCAGCCTCGACCAGAGCCTGCGTCGGGTCGGTACTGACTACTTTGACCTCTACCTCCTCCACTGGCGGGGAACGGTCCCGTTAGCGGAGACCGTCACGGAGCTGGAACGGATGGTGGCCAAGGGGAAGATCCGCTCTTGGGGCGTCTCCAACTTTGACGTCGCCGACCTGGAGGAACTCTGGCGGCTCCCCGCTGGCCAGCACTGCGTTGCCAACGAGGACCTCTATAACCTCGACGAGCGGGGGATCGAGTTTGACCTCCTCCCCCTAATGAAAAAGCATGCCCTGCCCCTGATTGCCTACTCACCATTGGCCCAAGCCGATACCATCTCCGGTCGGTTGAGTAGCGACCCCCTCTTGCAGGAGCTGGCGACCAACCACCAGGTCAGCATCTACCAGATCATGCTCGCCTGGACCCTGCGTCATGGGGGCGTCCTGACCATCCCCAAGGCCGGAAACCCCACGCATGCCATCGCCAATGTTGAGGCGGGAGATATTAGCTTTACTCCTGACGAACTGGACGCCCTGGCCAAACATTTCCCAAAGCCGACCAGTAAGCAACCGCTGGCCACCATTTAA
>SRR1151252_00037 hypothetical protein
ATGCAACAAGAGATTAAACAATCAACCACTACCGGTCAGGTGACGTTGGAACGAGCCGACGGGACCACGGTACAGTTTAGCAACGGCGGGGTCGATGGTGAATTTGAGGTGATCATCACCGACCAGGAGCTCATCCCTGCCCTGTTTGAAAAGGTGGGAGAGTGCGACGGCGATTACCTTGTTCGGGGCCTGAAGCTCGGCGCGGCCACCCCGGTCGTCAAGCTCAGCGGCAAGTACGTCGTGTACGGTAATCCCGCCAACGGCAACGTGATGCTGGCCAAGCAGAAGTAA
>SRR1151252_00038 3-hydroxybutyryl-CoA dehydrogenase
ATGAAGCTAACAGACATCAAAACGATTACCAATGTTGGTGCTGGGACGATGGGCCATGCGACGGCCCTCCAGTTTGCCCTAGCCGGCTACCCGGTCCGCCTGTATGACCACTCGCAAGCCGGACTCCAACACGGTCAGGCGGCGATTGCCCATGACCTGAAAACCTTTCAGGGGGCCGGGTTGCTGAATGAGGAACCGGAAGCTATCCTGAGCCGGATCACGCTGACCACCGACCTGGCGGCGGCCTGTCGGGATACTGATTTCGTGATCGAGTCGATCGTCGAGGACCAGCAGGTCAAGCAAGCGGTCTGGCAGGAAATCGAGGATCAGGTGGGCCCAGAAACGGTCTTAGCTACCAACACGTCGGGGTTGAGCCCAACCGCCCTGCAGAGCGTCCTCGCCCATCCTGAGCGGTTCGTGGTCGCCCACTTCTGGAACCCCGCCCAGCTAATGCCACTGGTAGAGGTGGTCCCCGGTAAGGACACCAGTCGGGCGACCGTTGACCTGACGGTGGCGTTGATGAACAAGATCGGTAAGCACGCCGTACCACTCAAGAAGGAGGCCCTCGGCTTCGTCGGCAACCGGATTCAGTTGGCCGTCCTCCGGGAAGCCTTCCACATTGTTGACGAGGGGATCGCCAGCCCGGAAGCCGTCGATGACATCATCAAGTACAGCCTCGGCCGGCGGTGGAACCTGGTCGGGCCGATTGCCAGTGCCGACCTGGGAGGCCTGGACGTCTTCAAGAACATCAGCTCTTACCTCTACGCGGACCTGGCCAATTCGACCGGGACCGACCCGACCCTTGCAAAGCTGGTTGACCATGGTAAACTGGGGATAAAATCCGGCCAGGGCTTCTATGACTGGCAGGGGGATGCCGGGCAGCGGGTTGTCACCGATCGTGACCGGGAACTCCTCGCCCAGCTCAAGCACGACCACGAGGAAGGGGAGCACTAG
>SRR1151252_00039 RNA 2'-phosphotransferase
ATGACAGACAAACACTTAAAATACATCAGCAAGAAGATGTCCTACGCTCTCCGTCACAACCCGGACAAGTACGGCATTCAGCTCGACGAGTACGGCTACACGGACCTTGCCCACTTCATTGCCGCCCTCAACCGGGTCCACCACCTGGCATTGACCCGGGATGGCATTACAGCAGTCCTCACCCACAGCGATAAGCAGCGCTTTGCGATCAGGGGCGACCGGATCTGCGCCCTGTATGGCCACTCGATCCCGGGCATCATCCACCACGGAACCGCCCGCCGTTTCCTGCCTAGTATCAAGGAGTTGGGGCTGCTGCCGATGCAGCGGCAGTTCGTCCACCTCTCGACGGATACGCAGACGGCGCGGCAGGTCGGCGCCCGCCATGACAGCCAGCCCGTGATTCTGATGGTCGATACCCAGGCGGCCCGGGCGGCGGGGGTGCATTTCTACGTCGGTAACGACCAGGTCTGGCTAGCCGACGAAATTCCGGCCCGGTTTTTGCATGGTTGGCCAAAAAATCAGAAAATTCCTAGAAAAGGGCTTTACGAATCCCCCTTTTCTTGA
>SRR1151252_00041 membrane protein
ATGAGAAACGAACGCTTACGGCGGTTGACCCTGGCGGCCCTCCTGCTGGCCCTCTCGGTGGTGCTGGGCCGCTTCTTCGTTATCCCGATTCCCTGGACTCACGGCTACATTAACCTCTGTGACGCCGGAATCTTGATTGCGGCGCTGCTGCTGGGTCCCGCTTACGGAACGGCCGTCGGGGGCTTCGGGGGGATGTTTCTGGACCTTTTGTCCGGCTATCCCCAATATGCCCTCTTCTCCCTGACTGCCCATGGGCTGGAGGGGCTGACGACCGGCTACCTGGGGCAGCGGGCCGGTAGCTGGCGCGGCTACCAGTGCCTGGCCCTGGCCTGCGGGGTGGTGGTCATGGCCGCCTGCTACTTCTTCAGTGACTCCCTCATGTACCACACCTGGATGGTCGGGATCCTGAGTATCGGTGGCAACCTCCTCCAGGGAGTCATCGGTGGGGCCCTGGCCCTTTGGCTGACGCCGCACCTGCGTAAACGAATGTAA
>SRR1151252_00042 hypothetical protein
ATGGTAGATTTGAACCAAGTCAAGCAAGCAACTAAGCAGGGGCTGAGTGAACTGCTCGACCAGGCCCACCTGCAGGCCGGCGACATCTTCGTCCTTGGCCTAAGTACGAGCGAGGTCCAGGGAGAGCAAATCGGCAACGACTCCAGCATTGAGATTGGCCGGGCAATCGTCAAGACCATTCTCGATACCCTGCGACCGCTGGGCATTCACCTGGCTGTCCAGGGTTGTCAGCACATCAACCGGGCCCTGGTAGTTGAGCGGGCGGTGGCCAAGGAACACGGCCTCGAGCAGGTCATGGTCTACCCGCAGATCCACGCCGGTGGTGCTGGGCAGATTGCGGCCTTTGAGAACTTCGAAGACCCGATCGAGGTCGAGCACATCCAGGCCCAGGCCGGGATGGACATCGGCGACACCGCCATCGGGATGCAGGTCAAGTTCGTCCAGGTTCCGGTGCGAACGTCGGTGAAGACGATCGGCGCGGCCCATACGACCTACCTGTCTTCACGGCCGAAGTACATCGGTGGTCCTCGGGCCAAGTACAGCTGGGACCCCTTCAACCAGCGTGAGGAGGGTGGCCAATGA
>SRR1151252_00043 hypothetical protein
ATGCGGATGGAGAAGAATAAGGCCTACGCCGAGGTCTTACGGCAGCTGTCCACGACGGAACTGCTCGATCGGTACTATGATAACCCGGACCTGGTCGACCGGATCCTGAAGGGCAAGGTGGATGCCACCGAGCTCAACGACGGCCCGGTAATGATCAACGGGGTCAAGATGTCGGAGAAGGATGCCAGAGACTACTTGATCATGCAGCTGGTCAAGCGGGCCGATCCGGACCCACGATAA
>SRR1151252_00044 tyrosine recombinase XerS
TTGGAAGCAGATAAGTACCTCAAACTGATCAATGAGGAGTTGGCCAAGCTCCCCGACTACGTCAATGAATACTACCTCGGCACCAGCCATGCGGTCACGACCACCTACCAGTACCTGACCGAGATCCGCCGCTTCTTCGACTGGCTGCGGGTCAGTGGCCTGGTCAAGGCCAGTGACAACCGGAGCATCCCCGTCGATGCCCTGGCCCAGCTGCGGCGCAACGACATCATGCTCTACATCGACCAGCTCAAGCACAGCACCAACGCCCAGGGCCACCTAAACTCACCAACCTCGATCAACCGGTCGATCAACGCCCTGCGCTCCCTCTTCAAGTTCCTGACGGTCACCGCCGACGTCAAGGATGGCGAGCCCTACTTCTACCGCAACGTCATGCTGAAGATCGACTCGCTCAACGACACCAAGACCCTGAACTACCGGGCCCATACCCTGGCCTCGCACATGTACCGGGGGCAGATGAAGTTCGACTTTATCCACTTCATCGAAAATGAATACCCCAAGCGCTGCGATAAGCGGGCCCGGGAACCATTCAAACATAACCGGGAGCGCGACATCGCCATCATCACCCTGATCCTTGGTACCGGGGTCCGGGTCTCCGAGGCCGCCAACGTCAATCTTGGTGACCTCAACCTCAAACAGCAGCTGCTCGACGTCACCCGAAAAGGTGGCCAGCGTGATTCCGTACCAATTGCCCCCTGGGCCGTTCCCTACCTGAAGAGCTACCTGGCGATTCGGGCCCAGCGCTACCACGCCGTCAAAAAGGACGTTGCCTGTTTTCTAACCGTCTACCACGGGGAGACCCGGCGGATGACCGCCAACGCGATCGAGCGAATGGTCAAGAAGTACTCGACCGCCTTTGGTCACCCCCTGACCCCCCACAAGCTCCGCCACACCCTGGCCTCGGAGCTCTACGACGTCACCAAGGACCAGGTCCTGGTTGCCCAGCAGCTGGGACAGAAGGGGACCTCGGCAACCGACCTCTACACCCACGTGGATCAGAAACAGCAACGCCAGGCCCTCCAGGAGATCAGCGACCACCCCGACCAACATTAG
>SRR1151252_00045 serine protease
ATGTTATATGATGCAGCTTTGGTCCTGGAAGGCGGGGCATTTCGGGGACAGTATACCGCCGGCGTAGTCGATGCCTTCCTGGCCCACCACATTGAATTTCGCAGCGTGATCGGGGTCTCGGCCGGGTCGCTGTGCGGGGCCAACTTCGTCTCCAAGCAGTACGGGCGGCCGGCGATGATCAACATCCACCACCGCCACGACCGCGACTACATCTCGATCACCCACCTCCTCCACCGGCAGAGTATCATCAACCTCGACTACCTGTTTGAGGGCCACGGTTGGCAGTGGCTGAACTTCAACGACGAGGCCTACCGGCGTTCCGCCTCCCACTTCACGGCGGTCGCCACCAGGTTAACCGATGGTAAGGCGGTCACCTTCACCGACCCGGTCGGCGACGACTTGACCCGGGTCCTGAAGGCCTCCTCGTCGATGCCGATCATCTCCAAGCCCCAGCGGACCAGCCAGGGCCTCTGCATGGACGGCGGGGTGACCGACTCGATCCCCTACGACGTCGCTGAGCGGCAAGGTTATAAGAAGATCGTCATCGTTCGGACCCGGGACATCAACTACCGGAAGAAGCCGACCAGCCGCGCCCTAGACCGGCTCTTCCACCGCTATTACCCCGACTACTCGGCCTTCGTCAAGGCGGCGATCGCCCGGCCGGCAGTCTACAATCAGCAGGTCGAGGAGGTCAACCGCCGCACTAAGGAGAAGGAGTTCTTCACCATCGCCCCCCAGCACCCAGTCAAGGTCAGTCGGATTGAGGGCAACACCAAGAAGTTGGTCAAGCTGTACGAGATCGGCAAGCAGGAGGCCAACCTCATCCTGCCCCAATTAATTAAATATCTAGACCGCTAA
>SRR1151252_00046 chromosome partition protein Smc
ATGGGTATATTAAGCGATGGGCAAATGAATTATTACCTATTTAATATATCTGACGGTGTGGTTAAAGTTAAAGATGGTGAAGATAAGTATAATTACTTGGGACTTCACGATCCAAATGGTCTTTATATGCAGCTAGCAAAAACAACATATTCTACTGATCCATCATCAGTTGCACCAGATCCAGTTAAGTTGCAGCAAGCTGTTACTGATGCACAACAAGCTGTTACTGATGCACAACAAGCTGTTACTGATGCACAAAACACCTTAAGCGCTGCTAAAATTCAGGAAGCAGTTGCAGAGGCTGCTCATACTGCCGCTCTAAATGCCTTGAATGACGCTCCAATGAAATTATATCGTGCTCAACTCAAACAGTCTCAGGCCACTGAGCAGGTTGTAACGGCCCAAAACGCAGTTACCAGCGCTAAGATGGCTCAAGATGATGCTCAGCTTGCTTACGAGCAAGCTGTATCAGCTCTGCACCAAGCTCAGCAACCTGGTGTAACTGATCAGAACACCTTGAAAAATGCTCAACAAGAGCTCGCCACTGACCAAACGGCCTTGGTCAATGCTAAGACGGCCCAAACTAAAGCTAAGGTAACATTGGGTAACGCCAAGGCTCAATTAGCTAACAGTCAGCAGGCTTTGTCCGACGCTCAGGCTAAGTACAACAACTTAGTTCACGCTAGCCAGAACTTGAAGGTCGCTCAAAACCAAGTTAAGCAGACCACGCAGTTAGTTGCGACGACTAAGTCCCGGCTCCAGTCTGCTAAGCAGGCGCTCTTGAACAAGGCCAACGCAGCTCTTGCTACAGCAAAGTCATTACTAACTCAGGCAACGGACCAAGTTAAGAGTGCCACGGACGCTCTCACAACGGCCCAGAACAAGCTGGCCGCTATCAAGTACCACAACAGTTCGGCCTCATCCAGTGCTACCAGCTCAGCATCGAGTTCGGCTTCAAGCTCTGCAGTTGCACCATCATCAAGTACCGCTTCCAGTGCTAACTCTGCCGCACCTAGTGCAAGCCCTACTGTAGCTCCATCCAAGAACGCCACTTCCAACGCTACGACAGCAACTAGGTTAAGTACTTCAAATACTAGTTCCATCAACAACGCAGCTATGCGTTCAGCAACTAAGGACGCTACTGCTAACTCAGCTGTTGCACCTACTAAGAATACCGCTGTCGCACCAAGTGCACTCATTCAGGCTGAATCGACTGCATCGGTCAACACCGACTCGGCAAGTACTAATGGCGAGTTCTCTGAAGTAACAAACTCAAGTACTCAGGAGTTGCCACAAACGGGTAGTGACAATGGTGCCGCGTTAGTTGGTCTCGGTTTAATTGGCGCGTTGATGTCGATGTTCAGCTTCCGTCGTCGTCATAACTAA
>SRR1151252_00047 surface exclusion protein Sea1
ATGAACCACACCAACAACTTGTACAGTCAGGCTCAGTCCCAAGCTCAAAACGCCACCGAAGCTAACATGACCAGTGCTAGTCAAGCGGTTACCACCGCTCAAACCACGGTCAACCAAAACAGTCAAGCTGTCACTTCAGCACAGACGGCTGCATCTAATGCTGATCAAGCCGTTCAAAGTGCTCAAAACAAGGTCAACGCTGACCAAGCCCAAGTTGACAATTTGAGCAAGGGCACGCCAGCCGACACAACGACGCAACAAAACGCGGTCAACACGGCAAAGACTGCCCTTGATAATGGCCAAGTTACGATTGCTACTAACAATGTTACTACGACCCAAAGTGCTAAGACGACGGCTGATCAAAACGTTACGACCGCTAAGATAGCACTGGATAATGCGAAGAGTGAAGAAGCTAATAAACGGGCAGCGCTGAGCAAAGCGGAGGAGACTGTTACGAGTGCTCAAAATACATTAAAGAGTGCTCAGAATACATTAACGAATGCACAAGATGCGCAAAAGAATCAAAATTCTGTTATTAATTTGCCTGATTCTTGGTACCAAGAAGTAAAAGAAAAGGGGGACGATGCAGAAGTCGATAAAAATTACGAAGACGAAGGCAATAAGTTGCTGAACTCCTGGGTGAATAATCCAGCAGATGAAAAGATTAAATACACCATTGGCCCAGGCATAAAATTACCAGAAAATTTGATGATTCAATTAACCCGGTATTTTGCAAGTCTAATTAATCCTATTCGTGAGAGGTTTGGACATAAACCATTAATAGTTAATCGTGGGGCTGTTGACTATGCAATTGACTGTTCATATGTGTTTGAGTGA
>SRR1151252_00048 hydroxyethylthiazole kinase
GTGCGGGCGCAAAACCCGGTCGTGCTGACGGTCGCTAACAGCGTCACCGCCGGCAAGGTGGCCGATGCCCTGAGCACCAGCGGGGTCAGCCCAATCATGTCCCAGGCACCTGAGGAGGCCACGGCGATGGTCAACCTGGCCGACGCCATCACCATCAACCTCGGCACCATCGACCAGGCCCAGCTGACGTTGATCCAGGCAATTCTGGACGCCAACGCGGGACAGCGACCGGTGGTCCTCGACCCGGTCGCCGTTGGCAGCAGCGCCTACCGGTTGACGATCGCCAAGCAATTGCTGGCCGACTACTACTTTACCGTCATCCGGGGCAACGCCAGCGAAATCGCGGCCCTGGCCGGTTTCGCCGCCAGCGGGCACGGCATCGACACCGGGAATGACCAGGACAACCCGGTCATGGTGGCCAAGCTCTGCGCTCACGCCTACCACACCTGCGTCCTCCTCACCGGGGCCACCGACGTCGTGACGACATGCTCCCCAGCCTGA
>SRR1151252_00049 hydroxyethylthiazole kinase
ATGCTCCCCAGCCTGACCGCCGCCTACCTGGCCAGCGGTGACAACCCCCTTGCCAGCAGCGCCCTGGTGGCCACGGCCTTCAGCCTGGCCGGGGCGGTCGCCGCTCAGCACGCCGCCGGGCTCGGGAGCTGGCAGGCCCATTTCTTTGATGAACTAAGTCAGCTGACCAGCGACCGTTTCGCCGCCCAGCTGAATTACGGAAAGGATGATAACAATGACGAATGA
>SRR1151252_00050 phosphomethylpyrimidine kinase
ATGCCTTCCCAATGCCAATCAAGATGGTACGCCGCCCTGGCCAGCGACCTGAAGATCCGCGCCTGCAAGACGGGGATGCTGGCGGATGCCGACCACGTACGGGCCGTGGTCCGGAACCTAAAGAAGTACGACTTTGGTCCCCTGACCGTTGACCCAGTGATGATCGCCAAGGGTGGTGCCCCCCTGCTCAGTGAGGATGCCATCAGCGTCGTCCGCGACGAACTGGTGCCGCTGGCCGACCTGGTCACCCCCAACCTCCCCGAGGCCGAGAAGCTGACCGGGATGACCATCACCACCGAAGACGAAATGGTCGCGGCCGGTAAGCGGCTCCAGGACATGGGCGCCAAGAACGTCATCGTCAAGGGCGGCCACTTTAATAGTGAGGCCGCGGCCAACGACTTTGTCCTCCTCGCCGACGGCCGCCACTTCTGGCTGACGGCGCCCCGGGTGGCCACCCACAACACCCACGGGACCGGGGACACCATCTCGGCCTGTATCACGGCGGAACTGGCCAAGGGCCGCTCGATGGAGGAGGCCATCCGGACCGGGAAGGCCTACGTCGAGGCGACAATTCGTGACGGGATCAATGTCGGTCACGGTCACGGGCCCCTCAACCACTGGGCCCAGATCGAGGGGGATGTGCAATGA
>SRR1151252_00051 thiamine-phosphate pyrophosphorylase
ATGATGAAGTTCGCTCCTAATATACTCAAGTTTTACCTGGTCGGCGGCAGCCAGGACGTCGGCAACGACCCCGACCGCTTCCTCTACGACGTCGAAACGGCCCTGGCGGCGGGGGTCACCGCCTTCCAGTACCGGGAGAAGGGTGGCTCCCGGCTCGACCACGCGGCCACGGTGAAGATGGCTACCCGGCTCCGCAACCTCACTCGTCAGTACCGGGTCCCCTACTTCATCGATGACGACGAAGAACTCGCCCTCCAGGTGGGGGCCGATGGGGTCCACGTCGGCCAGAAGGACCAGCGGATCGAGACGGTCATTCGGCGGGCGGCCGGCAAGCTGATGATTGGCTATTCCTGCAACACCGCCGCCGAGATCGCCCGGGCTAACCAGCTGCCAGCCGTGGACTACGTGGGGGCCGGCCCAGTCTTTCCGACCAACTCACTTAGGCCGATGCCGACCCGGCCCTCGGCCTAA
>SRR1151252_00052 hypothetical protein
ATGAAAAAGGATCCGCAGAAGCGCTACGTCCTCCTGCTGGTGACCTTCATCGTCGCCTGCTTTATCCTCCTGACCCTGTCAGAGGAGGTCGCTAAGCTATAG
>SRR1151252_00053 hypothetical protein
ATGGCAGAAGATCAATACCAATACGACGACCAGGGCTTCCGTGAAGACCTGAAGGACCGCGACGACGTCCTCCACCAGCCGGACGCCGACCGGTCGCAGTGGGAAATCCACGAATTGGACTATGACCAGACAGTCGCCGTCCTGACCGACAAGGCGGCCGTCAAGCCGGACATGCAGTTCAACGACCAGGTCCTCGACCGTGTCCGCCAGGAGCTACCGAAGATTGACGACACGGCTGTTGACAAGGTCATCGAGGACAAGTACCAGCAGATCCTGCTGGCCCGCTACAACGTCGGCCAGGACGAGAACATCACCATCCATGATGATGACCCGCAGAAGTAA
>SRR1151252_00054 chloride channel protein
ATGGCAAAGATAATCAAGAACCTGCCACTGGCGATTGCGACGGTGGCCCTGGGCATCATCGTGGGCCTCAGCTCCCTGCTGGTCAGCGTGGCCCTGGATCTAACCGAAAAGCTGTTTCTGCACTTTCAGGAGAGCAACCTAGTTCCCGTCGACGTCTCGGCCGGGGGGATGCGGCGATTCACCTCGGTCCTGGTCGGGGGGATCATCGCCGCCATCGTCTGGTATCTCCTCCAGCGCCACTATAAGCCGGTCAAGCTGGGGAAGGCCGTCGACGGCCAACGCATGCCCCTGGTCAAGACCCTGATTCACGTCTACACCCAGATCTTCTTTGTTGGGACTGGTAATTCAATTGGTCGGGAACTGGCGCCACGGGAAGCCGGCGCCGCCCTGGCCCAGAAGTGGGAGGACCACTTCCACGACAATAAGTTCCTCGGCCTGGACGCCGAAGACCGGCGGATGATCACTGCCGCCGCGGCCGGGGCCGGGTTTGCCGGCGTCTATATCGCGCCGATCACCGGGGCCGTCTTCTGCATGGAGCTTTTGTACAAGAAGATCAACGCCCGGGTCATCGCCGTCAGCCTGACCATGTCGGTGATTGCGACGCTGATCGGGTCGATCGTCAAGGGCTACCAGCCATACTACCTGGTTGGCTCCAAGACCTTCCAGTTGCAGATCCTGCCGCTGGCCCTCTTCCTCGGCCTGGTCTGTGGCCTCCTCGGCACACTTTTCAAGAAGTACATTGGAATGGCCAAGGCACACCGGGCCACCACGGTCAACGTCCTGGCCCAGTTGCCGGCCGTGGCCGCCGTCACCGGTGGGATCGCGGCCTTCTTCCCCCAGATCATGGGTAACGGCCGGGGTCTGGCCCAGCTGGCGATGAATACGACCACCCACAGCAAGGCCGTGATCCTGGCCCTGCTCTTCGGCCTGGTCGCCAAGGTGCTGGTGACCCTGTTCGTCATGAAGTGCGGTGGTTACGGTGGTGTCCTGACGCCGTCAATCGCGGTCGGTGCGGTCATCGGGGCCTTCGCCGGGATGGTCTACGTCAGCTTCATCCCCGGGGTGACGATGGCTCAGGCAGCCGTGCTCGGCGCGGCCTTTTTGCTAGCGGCCTCCCAGCAAGCACCGCTGATGGCGATGTTCATGCTGTTTGAGGTCTGCCACCTGAACTTCTCCGCCTTCCTGCCGTTGGCGATGGGAGTCGCGATCTCAATCGCCCTGTCCAAGTGGCTGCAGACCAAGTCCTTTTTCGCATAA
>SRR1151252_00055 membrane protein
ATGGGGACCGGCTGCTGGCTGGTCTTTGCCGTCTTTCTTTGGGGTGTCTGGCAAAACGCCGGCTGGGTCCACCGACTCGACCGCTTTGGCTACCGGCTCCTGCAACCCACGACGCCCTTGCACACCCACTTCTTCACGGTGGTCACCCACCTCGGCGACCCGATCCTCCTCCTCCCCCTTTCCCTGGTTGTCCTCGCCATCTGCTGGTGGCGTCACCAGCGTGGCCGGGGACTGTGGTTTGCCGGCCTCGAACTCGGCGGCTACTGCCTGGTAATCGCCGTGAAGTACACCATCCTGCGACCCCGTCCTGACCATAAGCTGATCCCCGCCAACGGCTTTAGCTTCCCCAGCGGACACACCTTCGCCACCACGGTCTTTTTCTTCGCTATCCTGTCCCTGCTTTGGCCCCACCTTAAGCAGCGTTGGCAGCGCGTCACCGGCGGAATTCTGACGGCGGTCTGGATCCTGCTGGTGATGGCCTCCCGGGTCTACCTACGCAACCACTTCACCAGTGATGTCCTGGCCGGCCTGTTCCTGGGCACGGGCTGGTGGCTCCTGGCCACGACCGCCCTGGAGCACGCTACTCATCGTCACCAAATTGGTGGTTGA
>SRR1151252_00056 hypothetical protein
ATGAAAAGCCGATTTAAGATTGGAATACTTTTTACAATTGGGTTCACCCTATTGCTTACCCTGTTCTGGACGAGTCCGGTCTCCGCGGATCACGTAACCACCGTGCCCGACACCAGCCAGAGCAGTAAGAACGTTTCTGCGGTCGATGACAGCAGCACGTCCAGCAATCAGGATAACAACACGAATAAGAATGCCAGCGCGGACACCGACACTAAGGCCAGCAAGGCTAAGACCAATAAAACGAGCCAGAGTTCATCATCCCGGTCCACCGATAGCTCAAACACCGCTAGTGCCAGTGATAAGAAGGCAGCCAGCAGCTCAAGTTCGGCTACCACGAACAATGCCGCCAGTGATGACCAGGCAACGGCAACAGTTACCGTACCGGTCGTCAGCAGCAACCAACCGGTAACTAATCAATCCAGCACGGATCAGACCAGTGCCGCGGATACCAAGAAGGTCACCCTGACGACCCCCAGCGGATCCCAAGTGATCCACCACCAGGACCTGGATCAGCTTGCCCTCCTACCCCAAAGTAGCAAGGAAACCCTGCTCCTGACCGGCGGGGTGGTCGCCCTTGCATGGGTACCGGCAGTCGTCGTAATCTTCAACGCTATCATTTAA
>SRR1151252_00057 NADH oxidase
ATGAAGATCGTTATCGTTGGCTGTACGCACGCCGGAACAATCACTGCTAATCAAGTGTTAAGCAATCACCCTGATGCGGAGGTAACTATCTACGAGAAGAACGACAATGTTTCATTCCTGTCGTGTGGGATCGCCACCTACCTCGGTGGGGTTACCAAGGACATTGACGACATGTTCTACTCCAGCCCAGCCCTCTTGACCAAGTTGGGGGCCGACGTCAAGCTGCGGCATGAGGTTACCAGTGTTGATCTGAAGAACAAGTCATTGACGGTCAAGGACCTCACTACCGGGACCAGCAGTGAGGACCACTACGACAAGCTGATGGTCACCACCGGTTCCTGGCCGATCATCCCGAACCTGCCGGGAATTGACAACCCGAATGTCTACCTTTGCAAGAACTACAACCATGCCAAGAAGCTGTTTGAAGTCGCCAAGGACGCCAAGAACGTCGTGGTGATCGGTGGTGGCTACATCGGGGTCGAGCTGGTTGAGGCCTACAGCAAGCAGGGGAAGAACGTCACCCTGATTGACGGCAACGACCGCCTGCTCAGTAAGTACTACGACGCCAAGTATACGGACATCGTCACCAAGGACTTTGAGGAACACGGCGTCAAACTGGCCTTTGGCGAGATGGTGGCCGGCTTTACGGACAATGGTCATGGGGTGACGGTCAACACCAACAAGGGCAGCTACCCGGCCGACATGGCGATCCTCTGCATTGGCTTCCGGCCCAACACCACCCTCTTCAAGGGTCAGCTGGAATTCAACCCGGACGGCTCCATCAAGACCAACGCCTACATGCAGACCTCGGATCCCGACGTTTACGGCGCTGGCGATGCAGTGGCGGTTCACTATAACCCAACCAACCATGAGGCCTATGTTCCCTTGGCCACCAACGCGGTCCGGCAGGGGGTCATTGCGGGGACGAACCTCTTTGGCAACACGATGACCTACATGGGGACCCAGTCAACGTCTGGCCTCCAGCTCTATGACCACGCGATGGCCTCGACGGGGATGACCCTGGCCAGTGCCAAGGCGGCCGGCTTCGATGCCGATGCCGTTACCTTTACCGATAACTACCGGCCGGAATTCATGCCGACCAACGCGACGGTGATCGGGACGGTGGTCTGGGACCGGAGCAATAACCAGATCCTCGGCGCCCAATTCATGAGCAGCTATGATATCTCCATGTACGCCAACGCCGTTTCAGTGATGATTCAGAACCGGAACACGATTGACTTCATGGCGATGGTTGACATGCTCTTCCAGCCAAACTTTGACCGGCCGTTTAACTTCATCAACCTTCTCGGCCAGCAGGCGGTGGCGAAAGCGACCAAGTAA
>SRR1151252_00058 hypothetical protein
ATGGAACAAGTTTTTCTAATGACCCTTACTGCAATCTTTATCATCGAGAGCTTCGTTGAGATTCGCTACTTTGCCCAGATCCGCAACATCTTTGTCCGTTCCGGCCGGGTAACCCCGACGCCGCGGGTACAGCGGATCATCAGAATTGAGAATATGTGGTCCTGGATATCTTGGATCTTCCTCTTCCTGCTCTTCGTCCTCCCCGACTTCTACACAATGCTGGTGATCTGCGTGATCACCCTGATTGAAACCTGGGTCGTCTACGAGCTCTACAACGCCCGCACCTACGCCGAGAAAATTAACAAATAA
>SRR1151252_00059 hypothetical protein
ATGGCAGATGAAGGAGCAACCCCGTTTTCACCGATCGAAAACCAGGTCATGGACGCCCTGAAGAAGGTGATCGACCCGGAGCTGGGTATCGACCTGGTCAACCTGGGCCTGATCTACGACGTCCGGGTGGATGATGCTGGGGTCTGCACCGTGACAATGACCCTAACGACCATGGGCTGCCCACTCAGTGACCTCTTAAACGAACAGATCACGCAAGCAGTCCTGAGCGTCGATGCGGTCGAGGAGTGCAAGATCAACCTCGTCTGGGAGCCGGCCTGGAACATCTCAAAGATGAGCCGCTTTGCTCGCCTGGCCCTGGGGATCCACGGCTAA
>SRR1151252_00060 Fe-S cluster assembly protein SufB
ATGAGTAAGCAAACCGCATCCAGCACCATCGACGACGAGAACTATGAGTACGGTTTTCACGACGACGTCCAACCGGTCTATTCAACCGGGCGCGGCCTCACCGAAGAAATCGTCCGCAAGATCTCGGCAGAAAAGAATGAGCCCCGGTGGATGCTGGACTACCGCCTGAAGGCCTATCGCACCTACCGCCGGCTACCGATGCCCAAGTTTGGTCCGGACCTTTCCGGCTTGGACCTGGATAACATGCTCTATTACCAGAAGATGACCGACAAGAAGTTCCGTGACTGGAAGGACGTACCGGCCGACCTCAAGCGGACCTTTGACCGGCTGGGGGTTCCCCAGGCCGAGCGGAAGTACCTGGCCGGGACCGCGGCCCAGTACGAGTCCGAGGTGGTCTATCACAACATGAAGAAGGAGTTTGCCAAACTGGGGATCATCTTCACCGATACCGACACCGCCCTTAAAGAGTATCCGGACCTCTTTAAAAAGTGGTTCGGCAAGCTGGTTCAACCGACCGATAACAAGTTCGCGGCCTTAAACGCTGCCGTCTGGTCCGGCGGCTCCTTCATCTACGTGCCCAAGGGCGTCAAGGTCAAGACCCCGATCCAGTCCTACTTCCGGCTGAACGCGGAGAACACCGGCCAGTTTGAACGAACACTGATCATCGTTGATGAGGGGGCCAGTGTGGACTATGTCGAGGGGTGTACCGCCCCCAACTACTCGTCCGACAGCCTCCACGCCGCGGTGGTTGAGGTCAACGTCGCTCGGGACGCCTATTGCCGCTACACCACCATCCAAAACTGGTCCGATAACGTCTACAGCCTGGAGACCAAGCGGGCCGCCGCGGTTGCCCACGCCACGATGGAGTGGGTCGATGGCAACCTCGGCTCCAAGGTCACCATGAAGTACCCGAGTGTCTACCTTAACGGGGAGGGTGCCCGGGGGACGATGCTGTCAATCGCCGTGGCCAGCAACGGGATTCACCAGGATTCTGGGGCCCGGATGATCCACAACGCCCCGGACACCTCGAGCTCGATCGTCTCCAAGTCGATTGCCAGAACCGGGGGCTCAACCGACTACCGGGGGACGGTCCGCTTCGGCCAGCACGCCGATGGTTCCAAGGGCCACGTCGAATGTGATACCATCATCATGGATGACCAGTCATCGTCGGACACGATCCCCTACAACGAGATCGACAACGCCCACGTGGCCATGGAGCACGAGGCCAAGGTTTCAAAGATCTCAGAGGAGCAGCTCTACTACCTGATGAGCCGGGGGATCTCCGCGGCCAAGGCCACCGAGATGATCATCATGGGCTTCGTGGAGCCGTTTACGAAGCAGTTACCGATGGAGTATGCGGTCGAATTGAACCGGCTGATTAGCTTCGAGATGGAAGGGTCAATCGGCTGA
>SRR1151252_00061 nitrogen fixation protein NifU
GTGGGACTATCTAAACTAAATGGCCTATATCGTGAGGTGATCTTGGACCACGCCAGCCACCCACACAATAAGGGGAAGCTGCCCACGGCCACCAACACGATGACCCTGCACAACCCGACCTGTGGCGACACGATCAACCTGCAGGTCAACGTCGCCGACCACCGGATCAAGGATATCGCCTTTACCGGAGAGGGCTGCACGATCAGTCAGGCTTCGGCCAGCATGATGACCGCGGCCGTCAAGGGGAAGACGACGACGGCGGCCCTGGCGATGGCCAAAACCTTTTCCGACATGGCAATTGGCCAGCAGCATTCCCGGTCCGACCTGGACCAGCTCGGCGACGCCCAGGTCCTGACCAGCATCATGGAGTTTCCGGCCCGGATCAAGTGCGCCACCCTGGCGTGGTGGGCACTGCAGCGGGCTTTACTGAAGGATAGTGACGAGGAGGATGACAATGAGTAA
>SRR1151252_00062 cysteine desulfurase
ATGGCCTTCAATATCAATGATGTTTTAAGCGATTTTCCGATTCTCAGCCAGCGGGTCAATGATGAACGGTTGGCCTACCTGGACAATGCGGCCACTGCCCAGCGGCCCCGTCAGGTTCTGGCGGCCTTGCAGGACTTCTACATCCACGATAACGCCAACGTCCACCGGGGTGTCCACACCCTGGCCGAGCGCGCCACCGAGGATTACGAGGGTGCCCGGGTCAAGGTCCAGCACTTTATCAATGCCCGGTCCAGCGCCGAGGTCATTTTCACCAAGGGGTGCACGGATGCGCTGAACCTGGTCGCTGCTTCCTATGGGGAGGCCAACATCCAGGCCGGCGATGAGATTGTCATCTCGATCATGGAACACCACAGCAACCTGATCCCGTGGCAGCAGCTGGCCCGCCGCAAGCACGCCACCCTCAAGTACATCGGCCTGACCGCCCAGGGTCAGCTGGACATGGCCGCTGCCCGACGGCAAATCACTGATCGAACGAAGATCGTGGCCGTGACCCACGCCAGCAATGTTCTGGGCACGGTGAACCCACTCAAGGAGCTGGCCGTCCTGGCTCACCAGCACAAGGCGGTGATCGTCGGTGACGGCGCCCAGGCGGTGGGGCACATGCCCGTTGACGTTCAGGATCTCGATGTTGATTTCTACGCCTTCTCGGGTCACAAGATGATGGGCCCGATGGGAATCGGGGTCCTCTATGGCAAGGCCGCCCTCCTGCGGGCCATGCCACCGTACCAGTATGGCGGTGAGATGATCGGTGATGTCCACCGGGACGACAGCACCTGGGCCGATATTCCCTTCAAGTTTGAGGCCGGTACCCAGAACGTCGCTGGGGCGGTGGGTCTCGGGGCGGCGGTTGACTACCTGCAAGGGTTGGGGATGGATAATATTCAGGCCCGGGAACGGGAATTGGTTACCGCCGTCCTGCCGCGCTTGACCGCCCTGCCGTACGTGACGGTCTACGGGCCTCAGGATCCCCGTCAGCATACCGGGGTACTTGCCTTCAACCTGGCCCACCTCCATCCCCATGATGTTGCTACGGCCCTCGATATGGAGGGAGTCGCGATCCGCGCTGGCCACCACTGCGCCCAGCCCCTGATGGAAAAGCTGGGAGTGACGGCGACCGCTCGGGCCAGCTTCGCCTTCTACAACACCAGGGAGGATACCGACCAGCTGATCAGAGCAATCAAAGAGACAAAGGAGTTCTTTAACCGTGGGACTATCTAA
>SRR1151252_00063 Fe-S cluster assembly protein SufD
ATGATGACAGACGAAAAGCAACGACGGGTCCAGTTAGCGGCCGCCAGCCGGCAGAACAGCGAACCGGATACCCTGCGCCAGCGGCGGTTACGGGGGCTGGAACTGATGGGGCAGCTTCCCCGGCCACGGATGCAACGTTTTCGTTTCCAAGACTGGCCGCTGATTGCCGACCGGCCCCTGAACTGGTGCCAATCGTCGGCAACTAATTTGGCGTCAACCAGGCTGGACGAGGCGGTGGTTCGGGTGACCCAGCTTGGTCGGACCACGGTCAGCCTGTCCCTTCCCCAACCCCTACGCGACCAGGGGGTGATCCTGACTGACATCTTCACCGCGGCCCGTGACCACGCTGACCTATTTGATAAGTACTTCATGTCCGCCATCCGGGCCGATGAAAACAAGCTGACGGCCTACCACCAGGCCTACCTGAATGCCGGCCTCTTCCTCTATGTTCCGAAGAACGTGGTGGTGGAGCAACCGATTATGGCGGAGCTCATTCAGGACAACACCCAGGATGAGCCGCTAGTGTCACACATCCTGGTGGTTGCCGACCAAGGGAGTCGGGTCAAGTTTATCCAACACCTCACGTCGATTGGGGATCACACCAACCCGGCCAACATGATGGTTGAGCTGATCGCCCGCGATGGCAGTGAGATTGACTTCTCCTCCTTGGACGAGTTGGGCCCCACCACCCACACCTACTTCAAACGTCGGGCCGACATTGGTCGCGACGCCCACGTCGAATGGGCAGTCGGGGTCATGAACGCTGGCGATACGGTCGGCGACATGGATGCCGAGCTGCTCGGTACGGGCGGGTACGCTAATTCAAAGGTGATCGCGGTCACCACCGGTAAGCAGCGGGTTGGCATCAACAACCGAGTCACCAACCGCGGCAAGCACACAACCGGCCTGATCAACCAGCGGGGGGTGATCCTCGAACAATCTGAGCTGATTTTCAACGGGATTGGTCAAATCATCCACGGGGCACACGGCGCCCAGGCCGACCAGCAGAACCGGGTCCTGATCATGTCACCCCAGGCCCGGGGGGATGCCAACCCGATCCTGTTGATCGACGAGAATGATGTCCAGGCGGGGCACGCGGCCAGTGTTGGGCCCGTCGACCCTCAGCAGATATACTACCTGATGAGCCGGGGAATCCCGCGTCCCCAGGCCCAGCGGATGGTGATCCGGGGGTTCTTGGGAGCGGTGTTGGCCGCCATCCCCTCTCAGGACGTTCGGGATAAGATGATTGATGTCTTAGAAAGGAAGCTTACCGATGGCCTTCAATATCAATGA
>SRR1151252_00064 Fe-S cluster assembly ATPase SufC
ATGGCAACGCTAGAAGTCAAAGACCTACACGTCTCCGTCCAGGACGAGGAGCAGAAACAAGCAAGGGAAATCCTCAAGGGGGTCAACCTGAAGATGCAGACTGGCGAGATTCATGCCATCATGGGGCCGAACGGGACCGGGAAGTCGACCCTGTCGCAGACGATCATGGGTCACCCCAACTACCACGTCACCCAGGGGGATATCCTGTTGGACGGGGAGAGTGTCCTCGACATGCCAGTCGATGAGCGGGCACGGCGGGGACTGTTCCTGGCCATGCAGTACCCCGCTGAAATTCAAGGGGTCACCAATGCCGAGTTCCTGCGGGCCGCGATCAATGCCCGTCGTCCAGACGATGACCAGATTTCGGTGATGGACTTCATCAAACGGCTTGACCGTAACCTCAAACTGCTTGATATGAGTGAGTCGATGACGGAGCGCTACCTCAACGAGGGTTTCTCTGGTGGGGAGAAGAAGCGTAATGAGATCCTACAGCTACTGATGATCAATCCCCACTTTGCCCTGCTCGACGAGATCGACTCCGGCCTGGATATCGACGCCTTGAAGGTGGTGGCCAAGGGGGTTAACTCGATGCGCGGCGACAGCTTCGGCGCTCTGATCATCACCCATTACCAGCGCCTGTTGAACTACATCGTGCCCGACACGGTTCACGTCATGATGGACGGCCGGATCGTCAAGACCGGGGGCCCTGACCTCGCCAAGAAGCTGGAGGACGAGGGTTACGCTGGCCTACGGGACGAGCTGGGGCTTGACATCAAGCTCGTCGATGACGAAGACTAG
>SRR1151252_00065 MarR family transcriptional regulator
ATGATTAACGTGGCGAACACCATGATCAACATCGGTCGCCTGATCAAGCAGGCTGACATCAGTCTTACCCGGCAGATGAACGACCTGGCGCGGCAAAACGACCTGACCGGGACCCAGATGAACGTCATTGACTTTCTGAGCCGGCAGGAAAACGTGGCCGCCGACCAGCAGGCCATCGAGCACGAATTCAACATTCGCCGGTCGACCACCACGATTGTCCTCCAGCGAATGGAGAAGCGGGACCTAATCCAGCGGATCGTCGACCCCGATGACCGCCGTAAGCGCCAGGTTCAACTGACCCCAGTCGCCCAGGAGCTGGTCCCGGTCGTGCACGATTACATTCAAAAACAGGAGCGCCGGTTGACCAGCCGCTTCACCAACCAGGAGCTGGCCACCGTCGCCCGGGTCTTAAGGTACATCAAGGAGGATGAATAA
>SRR1151252_00066 major facilitator superfamily transporter
ATGGCAAAAGATAATGTTAAGATTCCAGCAAGGGTCATCGCGGCGGTGGTGGCCACTGGCCTGCTGTCGTTCTGCGGGGTCATCGTTGAAACAGCGATGAACGTCTCCTTCCCCAAGCTAATGGCCAAATTTAATGTGACAACCAATGTGGTCCAGTGGATGACCTCGATCTACCTGCTGATTGTGGCCATCATCGTCCCCCTGTCGGCACTATTGAAACGGGCCTTTCGTACCAAGCCTCTCTTCTTGACCGCGGTGACCTTCTTCATCGTCGGGGCGGTCACTGATGCCCTGGCGCCGAGTTTTCCGCTTCTCCTGCTCGGTCGGCTGATTCAGGGGATCGGGACGGGGATCTCCCTGCCGCTGATGTTTAATATCATCATGGAGCAGGTCCCCCGCCAGCGGATCGGTCTGATGATGGGCTTCGGCAACCTAATCACCGGGATCGCCCCGGCCATTGGACCAACCTTTGGGGGCATCATCGTCTCCAGCCTGGGCTGGCGGTGGATCTTCTACACCCTCCTACCCGTCCTGATCGTCGCTCTCCTACTCGGCTCCTGGGGGATCCAGCAGAAGTCCGCCACCACCCGGCAGCACTTCGACGTCCTCAGCTGCCTGCTGATTGCTGTCATGTTCACCGGCCTGGTCTACGGGTTCAGCAACCTGGCCGCCCTGCCGCTGTTAAGCTGGCAAGTTGGCGGGGCCATTCTCGCCGGATTGGTTGCCATGGGACTCTTGAGCTGGCGATCCCTCGTCATTACCACACCGATTCTGGACCTGCACCTGCTTGCCAACCACCGCTTCGCTGGTCACGTCCTGATCTTCTTCTTGACCCAGATGTGTTCGCTGGGCTTTGCCTTCCTGTTACCTAACTACATCCAGCTGGTCAACCGCAACATGGCCCTGGTTGCCGGACTGGTGGTGATGCCGGCCGGCTTCTGCGGTGCAATCCTCGCGCCAATCGGTGGACGCCTGCTGGACACGTACGGTCCCAAGAAGCCCATTCTGGCCGGCGCACTCCTGATGACCGTTGCTATCCTGGTCTTCACAACCTGTTCACGGGCCATGGGTAACCTGACCATCATGATCGTCTACATGTTCTACATGGCCGGGATGGGGTCCTTGATGGGGACGATCATGACCAGCGCCCTCGCCAGCCTCCCCCGGGACAAGCAGGCCCAGGGAAACGCCATCCTCAACACCCTGCAACAGTTTGCTGGGTCGATGGGGACCTCCCTGGTGGCGATGATCGTCGCTAAGAGCCAGGTCGGCGTCGGTAAAAGTGCAGCCGCTACCGCGCTGGGCACCCAGCACGCATTCGTATTGATGTTCGTCTTTGCGTTCATCATCGCGGGCACGGCCATCCGTTTCGATCCGCGCCAGCTGAAGTAA
>SRR1151252_00067 methionine ABC transporter substrate-binding protein
ATGCGGAAATCACGAAAGAAACGCACGATTTGGTGGTGGGTAGTTGGGATCATTGCAGTGGTCGCCATCGGCCTCGGCCTGAGCAGCGCAGCCAACGGTGGCCCCCTGGGCAAAAAGACCATCACCCTGGGAACAATCGGCCCTGACGTCCAGATCTGGCAGCACATTGCCAAGTCCGACCAGGCTAAGAAGGCGGGACTGAAGATCCGGGTCAAGAGCTTTACCGACCCGGTGGCCCTGAACAAGGCCACGGCCAGCGGGGAGATCGACGTCAACGCCTTCCAGTCCTGGTCCTATCTTGAGACCTACAATAAGGAGAACAAGAAGGCCCAGCTGGCGGCCCTAGGGACGACCTACCTGGAGCCAATGGGGATCTACTCTGATCGCTACCACAAGCTGAGTCAGGTGCCGGACGGGGCGACGGTGGCAATTGCCAACAACCCGGCTAACACTGCCCGGGGCCTGCTCCTGCTGCAGAGTGCCGGTCTGATCACCTTGAAGAAGAGCTTTGGCCCGACCAGCGGTACCGAGGCGATTGCGTCCAACCCGAAGAACCTCAAGTTCAAGGAGATCGATGATACGACCGGCCCACGGGTACTAAAATCCACCGACCTCGTCCTGATCGGCAACACGATCGCCCTGACTGGGCACCTGAACGTACTCAAGGATTCAATCGCCCACGAGCAGGTTGACCAGAGTACCAAGAACAACATTAACGTGATTGCGACGGCCAAGAAGAGTCGTGATAACAAGAACTACAAGAAGCTGGTCACCCTCTACCACAACCAGCAGATCCAGCAGTGGATCAAGCAGAAGTATCAGGGGACCAAGGTGAACGTCGATAAGCCACTCAGCTACCTGACCGACTAG
>SRR1151252_00068 S-ribosylhomocysteinase
ATGACTAAAGTTGAAAGTTTTACGTTAGATCACACCAAGGTAAAGGCACCATACGTTCGTTTAATCACCGTCGAGGAGGGGGCCAAGGGCGACAAGATCAGTAACTACGACCTCCGCCTGGTTCAGCCAAACGAGAACGCCATCCCGACGGCGGGCCTGCACACGATTGAACACCTCCTGGCGGGCCTGCTCCGTGACCGGCTCGACGGGGTGATCGACTGCTCCCCATTCGGCTGCCGGACCGGCTTCCACCTGATCACCTGGGGCGAACACTCCACGACCGAAGTGGCCCGTGCCATCAAGTCCTCGCTGGAGGAGATTGCTTACAAGACCAAGTGGGAGGATGTTCAGGGGACGACCATCGAGTCCTGCGGGAACTACCGGGACCATTCCCTCTTCTCCGCCAAGGAATGGTCCAAGAAGATCCTCAGCGAGGGGATCTCGGACCAGCCGTTTGAACGCCACGTCGTCGATTAA
>SRR1151252_00069 5-methyltetrahydropteroyltriglutamate-- homocysteine methyltransferase
ATGACAGAAAACTTACGCGCACCATATCGTTACGACATTGTCGGCAGCTTCCTCCGGCCGGCCAAGCTTAAACACGCTCGGGCCCAGCTGGCAGCCGGCGAAATTGACCGGGCCGCATTGACTAAGGTGGAGGATGAATATATCACCGACCTGGTCAACAAGGAGAAGGCACTTGGCCTCCACGCGGTGACCGATGGCGAATTCCGCCGGAGCTGGTGGCACCTCGATTTTCTCTGGGGGTTGAAGGGGGTTGCCAAGTACGACTACCAGCAGAGTTATAAGTTCCAGGGGGCCAAGACTCGGACCGATAACGCCGAGCTGGCTGGCAAGGTGGCCTACAATCCCGACCACCCATTCTTCAAGGCCTTTGAATTCACCAAGCGATTGGCGGGGGACGACGCGGTGGCCAAGCAGACCATCCCGTCGCCGACGATGCTCTTCCGGGATAACCGGTCGGACAACTGGCCGGAATTCTACGACAGCCGGGCCGACTACCTGGCCGACCTGGCGAAGGCCTACCGGTTGACGATCAAACACTTCGCCGACCTGGGCTGCAAGTACCTACAGATCGACGATACCACCTGGGCTTTTTTGATCAGCAAGCTCAACGCCAGCAAGGATGACCCGGCTGCCCACGCCAAGTACGTCCAGCTGGCGGCGGATGCAGTGACGGTGATCAACGGGGCCCTCAAGGATCGGCCAGCGGGCCTGACGATCACCACCCATATCTGCCGGGGGAACTTCAAGTCGACCTTCCTCTTCTCCGGGGGCTATGGGCCGGTCGCCAAGTACCTGGCCCAGCTTGACTATGACGGCTTCTTCTTCGAATACGATAGCGACCGGGCGGGGGACTTCTCCCCGCTGGCCACCATCTGGAACCAGCGGCCGGATGTCCGGATCGTCCTCGGCCTGGTTACCTCCAAGAGTGGCGACCTAGAAGACCGGGCGGCGATCATCCAGCGGATCCATGAGGCGGCCGCCCACGTGCCGTTGGCCAACCTCTGCCTGAGCCCCCAGTGTGGGTTTGCATCAACGGAAGAAGGTAATATCTTAACGGAAGATCAGGAATGGCAGAAATTAAAGCTCATTAAAGACGTTGCCGATGAAGTTTGGAACTAG
>SRR1151252_00070 conjugal transfer protein TraG
ATGCAAGCAATCGGTTTTCATAACACTGATAATCCACAGGTAACCCCCACACCATGGACGAAGGACTACCGGCAGGGCGCGACGATCTTTGGGGAGCAGACCTTCCTGCCAATCGACTATCACCAGGCGCGCAACGATAATACCCTGGTCGTTGGCTCCAGTGGAACCGGGAAGACTTATTCCTTTGTGGAACCCAACGTCCTTTCTGCCAATGCTAACTATGTGGTGGCGGACGCCAAGGGGGATATCCTCGCCGATACCGGGATGAGTTTGCGGGCCCAGGGCTACCAGCTTCAGGTCCTCAACCTAATGGACCTGAAGCACTCACAGACCTATAACCCCCTGCACTACATGCACGACCAGCTCGATGTGGTTGCCTTTGCCTATCAGGTGATCGGTGCCGACATCACGGGCAACGATAATCACCGGAGCTTCGACGATCCCTTCTGGACCAACGCTCCCGCAACCCTGCTGGAGGCACTGATCATGTTTACCAAGGAGTTTTTGCCGACCGCCGAGCAGACGATGGGGACGGTGACCCGGTTGTTTGAGCTCATCGACCGCACCGATGAGGACGTTAACGCGGTCCTAGCAAGCCTGGGGTACTCAGCGGCCACCCAGTACGCGTTCGACCACGACCAGGACGAGTACGGCAATGCCCTGCCAGTCAGCCTGGGTGAACGGCTCTTCGCCTGGGTTGCGGGGGAGAAACCGGACTCAGTGGCCTTGCGTCTCTGGAACAGTGTTGCCCGGAGCAAGGGGTCGGAGAAGACCTGGAGCAGCATCGTCGGCATCCTGGGAACGGCCCTGTCACCATACATGGTTGCCGATGTCGACAACCTGCTGGCCAGCAACCAGCTGGACTTTGCCCGCCTTCTCCAGCCCAAGGCGGCCCTATTTGTCCTGTACGACGATGCCGACCCGGCGAAGAACTTCCTGGCCAACGTCCTCTACAACCAGCTCTTCAGCTTCCTCTACCACCACGCCTTCCACCAGCCGGCGGGGCGGTTGCCCGTCAAGATGCGCTTTTTTCTGGATGACTTCAAGAACATCCAGGTGCCGCACTTTGACGACTACCTGGCAACGGCCCGGAGTCGGAACCTCTCCCTGTGCATGATGGTCCAGGACGAATCCCAGCTGCGGGCCAAGTTCGGGGAGAATGCTGGCAGCGTCATTGGTAACTGCGGGGCCTATCTGATGACGGGGACAACCGACCTGACGATGGCCAAGGTTGCGGCCGACCGCTTCAACCGCGATGTCCAGGCCATCCGTCAACTTGGGGCCACCACCTTCCTGGTTGACGTCAGTGGTCACCTGACCGCAACGCGGCGCTACGATTTTCACGACCACCCTAACTACCGGCCGGGGAAACTCGCCGTCGCCGCCACCTACCAGACCCCGCGGGCGGCCACCAATCGGGAAGCGTTGGTGCAGATCCTCCAGCAATTGCCGGGTGAACATCCGGTGACGCGTGGTGATGAAGCCGTCGACCTCTTCGATGGGCTGGACGACCTACCGATGTGA
>SRR1151252_00071 hypothetical protein
ATGAGAACACCAAAGATTGCCAAACTGATCTTGAATTCCGAGAACTTTGAATCCTTCACGATCCCGGTGAAGGCGATCATCGACCTGAAAATCGGCGGCATCACCATTGCGATCGCGGTTGATGATGCTGGCCAGCTGACGCGGTCCCGGGACTGTCGTGATCTTGTACTGCGGGTTGATCTGGCTTACCTGCACCAGTTACCCACTGATGCCTTCGATGACGAGGGGTGCCAGCTGATGCTGGATGACCGGCTCGCCCTCATGCCCGACCTGGTTGATGTTGACCTGGTAGACACAGCAGGGGAGACGACCACCGTGCGCCTCCCCTGGCGTGACGGGGATGTCGATGATATCAACGCGGCAATTAGGGTTCAGGTCAGCCCGGACCGGGGACAACTGGAGATGATTATTGAATAG
>SRR1151252_00072 hypothetical protein
ATGTCATTAATGCAAAACACGTCAGATATTAACAAGACTGGCCAGCAGGTTTACCTGGTGACCCTGCTTCGGGAGAGCACCGACCAACCAATGTATCTTGACCAGATGGTCTACGAGTCCGCTGCGGCCGGTCAGAAGTTCATGGCTAACCTGGCCACGGCCTTTGTCCGGGCCGGCTACCGGAAGGAACAGGCTGACGCTGACCATTACAAGTTGAACAACGGTCTGGATAAGATTTCCCTGACTGGTAAGCAGCAGGATGTCTTTGAGGATTAA
>SRR1151252_00073 dipeptidase
ATGGCATGTACAACAATCTTGGCCGGTAAGCTAGCCACCGCGGACGGCTCGACCCTGGTGGCCCGCAACGAGGACTTCGGTCACGCCTATAACCCGAAGCGCTTCGTCGTGGTCGAACCGGACCAGCAACCCCGTGCGTACCAGGCGGTAACCAACAAGGCCAAGTTCGCCTTACCGGCTAACCCGTTGCGCTACACGGCGGTGCCGGAAATCCCGGCCGTCGCCAAGAGGATGGGGGTCTGGGCTGAGGCCGGGATCAACGCCGCCAACGTCACCATGTCGGCCACCGAGACCAGTACCACCAACCCCCGGGTGCTCGGGATCGACCCGCTGGTCAAGCAGGGGGTCGGTGAGGAGGACCTGGTGACCCTGGTCCTGCCCTACATCCACTCGGCTAGGGAGGGGGTCCAGCTCCTGGGGAAGTACCTGGCCAAGTACGGGACCTACGAATCCAACGGGGTGGCATTCTCCGACAAGGATGAGGTCTGGTACATGGAGACGATCGGTGGTCACCACTGGGTTGCCCAGCGGGTCCCTGATGACTGTTACGTGGTGGCCCCCAACTGGTTTACGGTGACCGACTTCGACTTCCGGTCCCAGGACGCGATGGCATCCAATGACCTGGAACAGTTGATCCACGATCACCACTTAAACGTCGATGGTGGGGACCGTTACAACCTCCGCCATATCTTCGGCAGCCACAACGATTCCGACTACCGTTACAACATTCCGCGGCAGTGGTACGTCCAGCGCCTCTTCAACCCGGGTGCCAATGTCCAGCCTGATGATCCGGACCTGCCGTTTGCCCGCCGACCGGAACATAAGCTAACAATCGAGGACGTCAAGTACGCCCTGAGTTCGCACTACCAGCACACCCCATATGATCCGTACAGTGACCTGGGGACCCCGGCCCAGCAGCACGCCTTCCGGCCGATTGGTCTCCAACGCAACTCAGAGGTTCATATCCTCCAGATCCGGTCGGACGTGCCGGAGAAACTGGCCGGGATCTGCTGGCTGGCGTTTGGCCCCAACGCCTACAATGCTCTGGCGCCGTTCTACACGAACGTCACCGCCACCCCGGAGGCCTACCGGAACACCGAGGAACACTTCAATATCGCCAACATGTACTGGCTGACCCACGCCCTGGCGACGATCGGCGACGAGCACCCGAAGCGCTACGAGGCGGCCATCGAGGAGATGAAGCAGAACACCATCGCAGCTGGTCGGCATATTCTGCTGACCACCGATGTGGATGCTGCCGGGCTTGATGGGGAGGTCCTGGAAAACAAACTGACGGCGGCCAACGACCAGATCGCTGCCCAGGCCCACAAGCTGGCGATGAAGTGCCTGGGCTCGATGGTCGAGACGGGATCCCTGCAGATCCGGCTGAACTACTGA
>SRR1151252_00074 manganese-dependent inorganic pyrophosphatase
ATGGAAAAAGAGTTAGTTTTTGGACACCAGAAGCCGGATACCGATGCGATCACGGCGGCGATGGCGTTCTCATACTTCCAAAACCAATTGGGTTACGAGACTGAGGCCGTGGCCCTGGGCGAACCAAACGATGAAACCAAGTTTGCCTTAAACAAGTTTGGTATGCAGGCACCACGGGTAGTTAAGACCGTTGCTAACGAGGTCGACAAGGTAATGCTGGTTGACCACAACGAACCCCAGCAGAGTGTCAGTGATATCGACAAGGTTACGGTGACCCACCTGGTTGACCACCACCGCCTGGCCAACTTCAACACGGCCCAACCACTGTGGGCAACCCTGCGCCCATACGGCTGTGTCAGCACGATCCTGACGGAAATGTTCCAGGAAAAGCACATCAACATTCCGGCCAATCTGGCGGGGATGATGCTCTCTGCCATCATTTCCGATACCCTGTTACTAAACTCCCCAACGACCACGGACCACGACCGGGAAGCCGTTAAGTACCTGGCTAAGGTTGCCGGTGTTGCGGACTACAAGGAGTACGGGGTTGCAATGCTGAAGGCCGGTGCCAACGTGGATGCCAAGGATGATGCTACCATCGTTGACGGCGACGCCAAGACCTTCGAACTCGGCGGCACTAAGATGCGGATCGGCCAGGTCAACGCCGTGGAACTCGATGACGTCTTCAAGCGCCAGGACGACCTGGAGAAGAAGATGCACGAACTGATGGACGAAAACGGCTACCAGCTCTTCATCCTAATCGCTACCAACATCTTGAACAGCGACTCCGAGCTGCTGGTTGTTGGTGACGACACGGACAAGGTTGAAGAAGCATTCGGCCACAAGCTTGGCGACAACAAGCGGATGAATCTGCCAGGGGTTGTCTCCCGGAAGAAGCAGGTGGTTCCGCCATTGACCAAGGCCTTCGAAGGCTAA
>SRR1151252_00075 ADP-ribose pyrophosphatase
ATGGCATATATCAAGGAAATTCGTGATCTGGTGGGCCACCGACCGTTGATCTTGACCAGCGCGTCCGGGGCCCTGGTGACCAAGCAGGGGGCGGTCCTGCTCCAGGAGCGGGCCGATACCGGTGACTGGGGTTTCCCGGGCGGCTACATGGAGTTTGGTGAGACCTTTGCCCAGACTGCGGTCCGCGAATTCAAGGAAGACGCGGGGATCGTGGTCCAGCCGGTGAAGCTGCTGGGGATGTTTGATAGCGACACCTACACCTACCCAAACGGTGATCTGGTCCAGCCGGTCAATGCCTTTTACCTGGTCAACCGGGTCGATGACCACCAGTATGCGACTAAGCTCAGCGAGACGGTGACGACCCGCTACTTCAGCCTGCATGCGCCGGCACCGCGTTTCTTCAACCGGCAGCACGCCGAGATGTGGGCGGCCCTCAAAGAATATCTGGCCAAGCATTAG
>SRR1151252_00076 hypothetical protein
ATGAAACAAGCGTGTGAGGGCCCATTCCGTCTGCCCCGGTACGCGGAGTTGCCGACGATGGGCCTCTACTTAGAGCAGGTGACGGCCTACCTGAACACCCAGTTGGCACCCCTGGAGGATGTTCGATTGACCAGCGCAATGGTCAGCAACTACGTCAAGCACCACCTGATCACCGGACCGGTCAAGAAGCTGTACGGGCGTGACCAACTGGCTGACCTGATCTTCATTGCGGTGGCTAAGAACATCCTGCCGCTGGGCGATATTCGCGTGGCCGTTCGGGTCCAGCAGAACAGCCGCGGCGACCGGGCCAGCGCCCATGATGGTTTCTGTGAGGAGTTGGAGGCGGCGGTAGAAGTCGCTGGTAACGATCAACCGCTCTTTGTCCCGGTTACCCGGACTCCGGCCCAGCAGATGCTGCACGACCTGGCCCTGGAGGCGGCGTATAAGGCCAATGTTGACCGCTTCTTCGCCGTTACCCGGGAAGCGGGAGATTAA
>SRR1151252_00077 DNA topoisomerase IV subunit A
GTGAAGAGCGCTAAAATTGAGACCATGTCACTCGAGCAGATCATGGGTGACCGTTTTGGTCGGTATTCAAAGTCAATCATTCAGGAGCGGGCCCTGCCCGATATCCGGGACGGCTTAAAACCCGTCCAGCGGCGGATCCTGTTTGCCATGAATAAGGATGGCAACACCTATGATAAGGGCTTCCGCAAGTCGGCCAAGTCTGTTGGGAACGTCATGGGTAACTTCCACCCCCACGGGGATAGCTCGATCTACGAGGCCCTGGTCCGGCTGAGCCAGGATTGGAAGCTTCGCGAGCCCCTGGTTGAGATGCACGGGAACAACGGGTCGATGGATGGGGATCCGGCCGCCGCGATGCGGTATACCGAGGCCCGGCTGAGTAAGATCGCCGGCCTGATGCTTCAAGACATCGACAAGGACACGGTTGAGATGACTCTGAACTTCGATGACACGGAGAAGGAACCGACCGTCCTCCCAGCCCGGATCCCCAACCTGCTGGTCAACGGGGCTACGGGGATCTCCGCCGGGTACGCCACCGAGATTCCGACCCACAACCTGGCTGAGGTTTTGGATGCCTTGATCTACCTGCTGGGCCACCCCGATGCCAGCCTGGATAAGCTGATGGAATTTATCCCTGGCCCGGACTTTCCAACCGGTGGGATCGTCCAGGGGGTCGACGGGATTAAGAAGGCCTACCAGACGGGGCGGGGACGGATTGTCGTGCGCGCCAAGACAGCGATTGAGATCCTGCGCGGTGGACGCCAGCAGATCAACGTTACCGAGATTCCCTACGAGGTCAACAAGGCCCAGCTGGTCAAGCGGATCAACGACCTTCGCCTCGCCAAGAAGGTTGAGGGGATTGTCGAGGCCCGGGACGAGACCGACCGCAGTGGCTTACGAATCGCCATCGAGCTCAAGCGGGGCGTCAACGCCCAGGGGATCCTCAACTACCTGCTGAAGAACACCGACCTGCAGATCAACTATAACTTCAACATGGTGGCCATCGACGACCAGCGGCCGATGCGGGTCGGGTTGAAATACATCCTGGCCTCTTACCTGGCCTTCCAGAAGCAGGTGGTCCGGCGGCGGACCCAGTTCAACCTGACCAAGGCCCAGCACCGGCTCCACATTGTCACGGGGCTGATCAAGGCCCTGTCGATCCTCGATGAGGTCATCAAGACGATCCGGGCCAGCAAGAACCGCAAGGACGCCAAGCAGAACCTGGTTGACCAGTACCAGTTCACCGCCGAGCAGGCCGAGGCGATCGTCACCCTCCAGCTCTACCGGTTGACCAACACGGACGTTACCGAGCTGGAGGATGAACAGGCTAAGCTAAGCAAGCGGATCGACGAATTCAAACTGATCTTAAACGATGATCATGAGCTGGCGGCGGTTCTGCGCCGTGAGATGCGCTCGGTCAAGAAGGAGTTTGGTAACCCGCGACGGACTAAGATCGAGGACCAGGTTGAGAAGCTTGAGGTCGATACTAAGGTCACGGTGGCCAAGGAGGACGTCATGGTCCTGGTTTCCCACGCCGGCTACATCAAGCGTAGCAGCCTGCGGTCATTCAAGGCCTCGGCCCTGGATGAAAACGGCCTGCGCGAGGATGATTACCCGCTTCTAATCCAGCAGACCACCACCCTGGCCCACCTCTTCATGTTCACCAACCTCGGCCACGTCATCTACCGGCCCGTTCACGAGATTGCCGATGCTCGCTGGAAGGACACCGGGGAACACATCTCCCAGACAATTGGCCTGGCGGATGATGAGGAGATCATCACGGCAAAGATATTCGACCGTTTGGACCTGCCGGGGACCCTTTTGATGGGAACCAGCGATGGTCAGGTCAAACAGTCGGCCTTCACCGACTACCAGCCGGGTTCGCGCTACCGGAGTCATGCCAGCGTCGCTATCAAGCTGAAGAGCCCTAATGCGCGCCTCGTCAGTGTTGACTACTATGAACCAGCCGACAAGAACCAGTCGTTGCTGGCGATCAGTCGGGATGGGTACGCTGTTCGCTTCGACGTTGCCGACGTGCCAGTTACCGGGATTCGGACGGCCGGGGTTCGGGCAATCAACCTGAAGGACGATGATGTCATGGCCGACCTGGCCCTGGTCACTGACGGTCAACGGATCGCCACGATCACCCAGCGGGGAGCCTTCAAGGAGATGCCACTCGAAGAAATTGCGGTTGGTGCCCGGTCGCGGCGGGGTGAGCTAGTTCTCCACCGCCTGAAGCGCAACCCCCACCAGATTGCCGACTTCCTGGCCTACGATGCCGACTTCACCGGTAACCTCGAGGTGATCACCGACCGGCCGATGTTCCAAGACATTGCGATCAGTGACCACCACCTCGGCTCGGTTAAGTCGAATGGAACCTTCGTCATCGACACCGACACCCAGGGGACACCGGTCAAGATTCGCCGTAAGCAGGCGAACATCCTACAGGAAGTAGGCAGCGCGGTCGAGGATTCGGCCAGTAAATAA
>SRR1151252_00078 DNA topoisomerase IV subunit B
GTGACCACAAGAAAAGTAAAATATGATGATTCTTCAATTCAGGTTTTGAAGGGCCTCGAAGCAGTGCGTAAGCGGCCTGGGATGTATATCGGATCGACCGACGCCCGCGGCTTGCACCACCTGGTATATGAGATTGTCGACAATGCGGTCGATGAGGCCCTGTCCGGCTACGGGGATGAGATCAGTGTTACCATCGAACCCGACAACGCCATCACGGTCCAGGACCACGGGCGGGGGATGCCGGTCGGGATGCACGCGTCTGGTAAGCCGACTCCCGAGGTGATTATGACCGTTCTGCACGCCGGTGGGAAGTTTGGCCAGTCCGATGGTTACAAGACCTCTGGGGGCCTGCACGGGGTGGGGGCCTCGGTTGTCAACGCCCTGTCGACCCACCTGACTTTGACAATCGTCCGTGACCACCAGCGTTACCGGGAGATCTTCAAGGACGGTGGTCAGCCGGTTGGGACCCTGAAGAAGCTCGGCAAGACCCGGGATGGCAACGGAACCACGGTTTCCTTCAAGCCTGACCCGGCGATCTTCACCACGACTGTCTACGACTACAATACCCTGGCCAACCGGCTGCGCGAGTCGGCCTTCCTCCTGAAGGGGATCAAGATCATCCTTACCGATAAGCGGTCCGGCCACGAGAAGCAGGACGTCTTCCAGTACAAGGATGGGATCCAGGAGTTTGTCTCCTACCTCAACGAGGGCAAGGACACCCTGGGGAAGATCCTCTACTTTGACGGCAAGCAGGACGGGGTCGAGGTCGAAGTGGCCGCCCAATACAACGACGGCTACTCGGAGAACCTCCTCTCCTTTGTCAACAACGTCCGGACGCCAGATGGTGGGACCCATGAGGCCGGTTTCCGCAGTGCCTGGACCAAGACCTTCAATGAGTATGCCAAGAAGGTCGGCCTCCTCAAGGCGAACGACAAGAACTTAGAGGGGAGCGACGTCCGAGAGGGCCTGACCGCGGTCGTCTCTGTCCGGATTTCTGAACGCCTCCTTCAATTTGAGGGTCAGACCAAGGACAAGCTCGGTACCCCTGAGGCCCGTAAGATCGTCGACAGCATTGTTTCTGAGCAGCTAAACTACGCCCTGATGGAGAATGGTGACTTCGCCCAGATGCTGATCCGTAAGTCGCTCAAGGCTCGGGAAGCCCGGGAGGCCGCCCGTAAGGCCCGCAACCAGGCCCGGGGCGGTAAGCGCAAGAGCAGAAAGGAACGCAACCTTTCCGGCAAATTGACCCCGGCTCAGTCCAAGAACGCCAACAAGAACGAGCTCTTCTTAGTTGAGGGGGACTCGGCCGGTGGGTCCGCCAAGCAGGGCCGGGACCGTAAATACCAGGCCATCCTCCCATTACGGGGGAAGGTCCTCAACACCGAGAAGGCTAAGCTGGATGATGTTTTAAAAAATGAGGAATTAAACACGATCATCTACACGGTTGGCGCCGGGGCCGGGTCGGAATTCAACGTCGAAGATTCCAACTACGACAAGATCATCATCATGACCGATGCCGATGACGATGGGGCCCACATTCAGATCCTGCTGTTGACCTTCTTCTACAAGTACATGCGGCCGATGATCGAGGCCGGCAAGATTTACATTGCCCTGCCGCCCCTCTACCGGCTCCAGCAGGGGCGGGGAGCCAAGACGAAGATCACTTACGCCTGGACCAACGATGAGCTGACCAAGCTGACTAAGAAGATGGGCAAGACCGCCCAGCTCCAGCGGTTCAAGGGGCTCGGTGAGATGAACGCCGACCAGCTCTGGGAGACGACCATGAATCCGGCTACCCGGACCCTGATTCGGGTGCAAATTGAGGACGCTGAGCTGGCAGAGCGGCGGGTCACCACCCTGATGGGAAACAAGGTTGAGCCGCGGCGGGACTGGATTGAGCAGAATGTTCAGTTCACCCTAAGTGACGACCAGGAATCCGATAAACTGGTTGAGAGCAAGGGACATCTAGCTAGCAAGTGA
>SRR1151252_00079 glycerol-3-phosphate acyltransferase
ATGACACTAAAAATTATCGTCATGATCGTCGTCGCCTACCTGTTGGGGTCCATCCCCTCGGGTCTCTGGATCGGTAAGTTCTTCTACCACAAGGACATCCGCCAGCTGGGCAGTGGGAACATCGGCACCACCAATACCTTTCGCACCCTGGGACCCAAGGCCGGGGTCGTGGTCCTCTTCATGGACATCCTTAAAGGGACCCTGGCCGCTTGTCAGCCCTACTTCTGGGGAGTTAGTGCCAGCGTTAACCCCCTTTTGATCGGGCTCTTCGCCTCCCTGGGTCATACCGTTTCGATCTTCGACCACTTCCATGGCGGCAAGGCAGTCGCCACTAGTGCCGGGATCCTGTTGGCCTACAATCCGCCCCTGTTCGGCATCGCCTGCCTGATCTTCATCACCACCCTGCTGTTGACCAGCATGGCCAGTGCAGCCAGTATCATCGGGATTACGTCGATCTTCATCATCGCCCTGTGTGAACATGATTGGGTTCTCACCCTGGTGGCCGGAATCCTGGCCGCTGTGGTCCTCAACCGTCACCGGAGCAACATCAAGCGGATCTTTGCCGGCAAGGAATCGATGGTCAGCTTTGGCCTCGGCCACTACCTCCGCCAGCACCACCAAAAGTAA
>SRR1151252_00080 aldose 1-epimerase
ATGATTACACTTACGAACGATCAGTTGACGGTGCAGGTTGATGAGTTGGGCGCCCAGCTTCACAGCATCAAGCGACATGGCGATTCTCGTGAATACCTCTGGCAGGGGGACCCGGCCAGCTGGGGGCGGCAGGCGCCGATCCTCTTTCCCTTCGTGGGTCGGCTGAAGGATGACCAGTACGTCTTTGCTGGACGGCGCTACCACCAGACCCAGCACGGCTTTGCCCGCGACCGGCGCTTTAGCGTGATCAGCCAACAAGCAGACCGGGTCACCTTTGAGCAGCACGATGATGCCCAGACCCGGCAGGCCTTCCCGTTTGCCTTCCGACTAGAAGTGACGATTGCCCTGGTTGACGACCAGGTGGCGGTCACCTATATGGTCGTCAACACGTCGACCGATCGTTCTCTGATCTATGCGATCGGTGCTCACCCCGGCTTCAACATGCCACTGACGGCGGGGGCCGCCTTCGATCAGGTCCAGCTGAGTGTAAAACCTGCCGAAGAGTATTCCCGAATCGTCCTCCGTGGCCCGTACAACGATTCCAACCACCCACAGCTGATTGACATGCACCAGCCGCTGACGATTAACCACGCGACCTTTAAAAACGATGCTGTAATCTTCAAGACGGCGGGGAGTGACTTTGCGGCCACCCTGACCGATCCCGCCGGCCAACACGGGGTAACAGTATCAACCGTGGGTACCCAGTACGTGGGTGTCTGGTCGGCATACCCGGCGACGGCCAACTTCGTCTGTGTTGAACCCTGGTGGGGGATTGCCGATAACCTAAATGCGGACGGCCAGCTCCTCCACAAGCAGGACATGCACCGGCTGGCGCCACAACAATCGGCACAATACCGGTTTAGCATTCGGCCGTTCTAA
>SRR1151252_00081 DNA topoisomerase I
ATGGCAACCAAAACAACGACAAGTAAGACAAAGAAGACGACACGCCGTAAGACGACCCGGCGCGCTAAGCCAAAGAAAAATTTGGTGATCGTGGAGTCACCTTCGAAGGCCAAGACCATTGGTAAGTTTCTGGGGCGGTCATACAAGGTCGTCGCTAGTCTTGGCCACGTCCGCGACCTGCCCAAGAGCCGGATGGGGGTTGACGTTGAGAACAACTACCAGCCCGACTACATCTCAATCCGGGGTAAGGGGGACGTCATCAAGGAACTGCGTAAGGATGCCAAGAACGCTAAGGCCATCTACCTAGCATCAGACCCCGACCGTGAAGGGGAGGCGATTGCCTGGCATGTTTCCAACATCCTCAAGCTCGACGACCAACAGAAAAACCGGGTGACCTTCAACGAGATTACTAAGGATGCGGTCAAGGAGGCCTTCAAGGAACCCCGGACCATCAACATGGACCTGGTCGATGCCCAACAGGCGCGGCGGGTTCTGGACCGTCTAGTGGGGTATTCGATCAGTCCGATCCTCTGGAAAAAGGTCAAGAAGGGGCTCAGTGCCGGCCGGGTTCAGTCGGTGGCCCTCAACCTGATTATCCAGCGGGAAAACGAGATCAAGCAGTTCAAACCCGAGGAATATTGGACGATCGACGCCGAATTTATTCACGGCCGTGACCGTTTCCAGGCCAGCTTCTATGGTACGGACGGTAAGAAGGTCCGCCTCCATAACAACACGGATGTTCAGGCCGTCCTGGGGAAGCTGGATAAGCGCAAGCACTTTGCGATCACTAAGGTAGTGCGCAAGGAACGCAAGCGCCAACCACAGCCGCCGTACACCACCTCGACTATGCAGCAGGATGCTAACCGCCGCCTCAATTTCCGGACCCGGAAGACCATGATGGCGGCCCAGATGCTCTACGAGGGAATTGACATCAAGCAGGGGGCCCCGGTTGGGTTGATTACCTACATGCGGACGGACTCCACCCGGATTGCCTCGATCGCCAAGCACGAGGCCTCCAAGTTCATCCACGAGGAGTACGGTGGTGAATACGCGGCCGTCAAGCCGGTTAAGGGCAAACTGCCTGAGGGGGCCCAAGACGCCCACGAAGCGATCCGGCCAACCTCGGTCTACCGGACTCCGGCGGCGATGAAGCAGTACCTGACCGGGGATCAGTACAAGCTCTACAGCCTGATCTGGTCGCGGTTCGTGGCCAGTCAGATGACCCCTCAGGTCGTGGACACGATGACTGTCGACCTGGAGCAAAACGGGGTCGACTTCCGAGCCAATGGTTCCAAGGTCAAGTTCCCCGGCTTCACTAAGGTCTACAAGGGCGGCAAGGAGAAGGACAACCTTCTGCCCGACCTGAACGAGGGTGACACCGCCAAGATGGCCAGTGATAATCTTGAGCAGCACTTCACCCAGCCACCGGCCCGCTACACCGAAGCGGCCCTGATCAAGACCCTGGAGCAAAATGGGGTCGGCCGTCCATCCACCTATGCACCAACCCTCGATACGATCCAGCGGCGCTACTATGTCCGCCTGGTCTCCCGTCACTTCGAGCCAACCGAACTGGGCGAAATCGTCAACCGGATCATCGAGCGCCAGTTCCCCGAGATCGTCAACGCTAAGTTTACTGCTGACGTCGAGGGCGAGCTGGACCGGGTCGAGGAGGGGAAGCAGAACTGGATCAAGGTGGTTGACAGCTTCTACCAGCCCTTCTCCAAGGAGGTCAAGGATGCCGAGGAGCAGGTTGACAAGATCCAGATGCGTGACGAGCTGGCTGGAATGGACTGTGACATCTGTGGGGCCCCGATGGTCGTCAAGATGGGGCGCTATGGCAAGTTCTACGCCTGCTCCCGCTTCCCCAAGTGTCGAAATACGAAGGCGATCGTCAAGGATACCGGGGTCACCTGCCCGAAGTGCCACCAGGGAACGGTGGTTGAGCGTAAGTCAAAGAAGAACCGGGTCTTCTACGGTTGCTCCCGCTACCCAGACTGCGACTTTGTCTCCTGGGACAAGCCGATCGGTCGTCAGTGCCCCAAGGATGGTCACTATCTGGTAGAAAAGAAGGTCAAGGGGGGCAAACAGGTTGTTTGTCCAAACGGTGACTACCAGGAGGCTGTGCAAAAGTAA
>SRR1151252_00082 DNA processing protein
ATGTTACAAGCACGTGAATTCTTATTACGATTAAGTCTGTGCCGGGGCCTGGGCCGCATTTCGAAGGTGCGGGTGTGGAAGCGGGCACAGCAGCTGCGGTGTTTTGATGACCTGCCCCGCCTGGTAGATGGCTGCCAGCTCAGCCTGCGTTCCCAGACCGCCCTATTGAACAACTGGACCAGTCCGGAATTGGACCGGGCCGTCCGGGTCAACCAGGCCCAGCCCCACCTCACGATTGATGACCTGGCCTATCCGGCATCCCTCAGGGAAATCTTCTGTCCACCCCTGGTTCTCTTCTATGCTGGGGATCTCTCCCTCTTAAAGCGGCCGCGGCTGGGGATTGTGGGCGCCCGGGACGCGTCGGCCTATGGGGTGGGGGTCCTGCGTGGCTTTCTCCCCGAGATTGTCAAGCACCGCCTGGTGGTGGTCAGCGGCCTGGCCCGGGGAATTGATGGGCTGAGCCACCGGGTTACCCTGGAGTGCGGCGGGATGACGATTGGTGTCATTGGATGCGGTCTGGACCGCTGCTACCCGGCAGAGAATCGCCAGTTGCAAGCGGCAGTGGCTAGTCGGGGCCTGGTCCTGTCCGAGTATGGCCGGGGTGAGCCCCCGTTGGCTTTTCATTTTCCCGAAAGGAACAGGATTATTGCTGGCCTGGTCCAGACCCTCCTGGTGGTGGAGGCCAAGCGGCGCAGCGGCAGCCTGATAACCGCAAATTTGGCCCTCGACGAGAACCGCAACGTCTGCGCCGTTCCGGGCCGGATCGACACCATCCGGTCACTGGGCTGTAACGAGTTAATCGCGGCGGGTGCCAAGCCGATCCTGCGGGCCCAGGACCTGATTGACGAATTTTCCTGA
>SRR1151252_00083 ribonuclease HII
ATGAGTGAGACCATTAAACAGGTTAGGGCCCACCTCGCCCAGCTGACCGACCGGGATGATCCTTACGTTGAAAGCCTGCGGGCGGACCCACGTAAGGGTGTCCAGCCGGCCCTGACCCAGTTTTTCCGGCGGCTGGACCGAATGGCAGCGGCCCAGGCGGCTTTTCGGCGGCGCTTTCACTATGAACGGGCCCTCTGGCAGAGCGGCTGTCAATATGTTGCGGGGATGGATGAGGTCGGTCGGGGTCCCCTGGCCGGGCCGGTGGTGACCTGCGCCGTGATCCTGCGGCCAGACTTCGACCTAGTCGGGGTGACGGACTCCAAGCAGCTGACCCGTCATGAGCGGGAGCAGCTCTACCTCCAGATTGTCAATGAGGCGGTCGAGGTCAGCATCGCCGTCAACGATCGGGAGGTAATTGACCGGCTGAACATCTACGCGGCTACCCAGGACGCCATGATCCGGGCGGTGCAAAACCTTCACCACCGGCCGGCTCACCTGATCGTCGATGCGGTGCCATTGAAGGTTGACATCCCACAGACGACCCTGATCAAGGGAGATCAGAAGAGCATCAGCGTGGCCGCCGCCAGCATCGTGGCCAAGGAATACCGGGACCACCTGATGCGCGACTATGACCGGGTCTATCCGGGTTACGGTTTTGCGGAGAACATGGGCTACGGGACCCGGGAGCACCTGGCCGGCTTGGCTGCCCAGGGGGTAACCCCAATTCATCGCCGGTCGTTTCGGCCGGTACCGGATTATTTAAATTAG
>SRR1151252_00084 ribosome biogenesis GTPase A
ATGGCAGTGATTCAATGGTTCCCCGGCCACATGGCCAAGGCCCTGCGCCAGATTCGCGAGCAGATGCCGTTGGTTGACATCGTGTTTGAACTGGTTGATGCCCGGGTTCCTTACTCCTCGCAGAATCCGGAGGTTGCCCTAGCCGCCGGCGATAAGCCCCGGCTCCTGATCATGACCAAGACCGACCTGGCCGACCACGACCGGTTGGCGGAATGGTTAGCGTTCTTCAAGAAACAGGGGCAGCCGGTCCTCGCCCTCGACTCTCGCCAGCAGAACGTCGCCAAGCTGGTAACCGCTAAGAGCAAGGAGATCCTCCACGACAAGATGGTGGAGGAGAGTGCCAAGGGGCTCAAGAAGCGGCCGATCCGGGCAATGTGTGTTGGGGTACCGAACGTCGGCAAGTCGACCCTCTTGAACCACCTGGTCAAGAAGAACGTTGCCGTCACCGGAAACCGACCAGGGGTGACGACCGGTCAGCAGTGGCTGCGGTCGTCCGCCGACCTGGAGCTCCTGGACACCCCCGGGGTTCTCTGGCACAAGTTTGCCAGTGCCAAGCAGGGGCAGATGCTGGCCCTGAGCGGGGCGATCAAGGACAGCCTTTATCCCAAGGATGACGTGGCCCTGTTTGCTCTCCACTACCTACGGGAACACCAGCCGACGAAGCTGGCCCAGCGTTACCGACTTACTGAAGCCGACCTGGCAGATTCGGTGACCGATCCTGACCTGCTCTTGACAATTACCCAGAAGATGGGCTTTCGTGACGACTACGACCGGGCTAGTGAGCGGCTAATCTTTGACCTGCGTAAGGGGAAGCTGGGGCCGATCACGATGGAAGTACCGGGCGACCTGAATGCGGAGGGCATCAATGAGTGA
>SRR1151252_00085 hypothetical protein
ATGCGTGATAGCTTCTACCGCTTTTTGATGACCCAGCGCAAGCCGACCGACGCCGATGAGGTGGAACAGTTTGCCAACAACGCCTTTTTAGACAGCAGCTTTCCCAAACAGTCGACCGACTTTGATGAGATTTCTAAGTACCTGGAAGAAAATGCCGAGTACCTGCCGTCAATGACCATCTTTGATACGGCCTGGCAGCGGTACCTGGATGCAATGAATTAA
>SRR1151252_00086 membrane protein
ATGAGTAAGTTAGCAACAAAACATTTCAATATCTGGAAGTGGGCCTTCTTTGTCCTGCTGGCGGCGATCGTCGTCTCCGGGGCGGTGGTGGTCCATAAGGCGGCCACCCCCGCGCCAGCTCCCGAAGTTAGCCGGCCGGCGACGGTCAGCAACACCTCGCTGACGGTGGTTCTGAACCGCAAGCAGGTCAATGCCCTGTCGGCCAACTACCTGAACAAGTTCCTGAAGGGCCAGCAGGTCAAGTACCACTTCATGGTGGGGGAAAAGTACGCCACCCTGGTTGGTGATACCAAGTTCATGGGGGTCAAGGTCTGCTTTGCCATTAACTTCATTCCCCAGATGACCAAGCAGGGCAACATCCTGCTCAAGGCCAAGGGGCTCTCGGTCGGGCAGTTGAACATCCCACTGCGCTTTGTGATGGGCTACATCGCCAAGAACTACAACATCCCGAAGTGGGTCTCGATCAACGCCAAGAAGAAGACGGTCCTGCTCGACCTCAACCGTTACAGCAAGCACCGTTCACTGAAGTACTCGGCCAAAGAGATCAACATGGCAGACGGCCGTTTCCGCTTCCTGATCACCGTGCCAACCGACAACTAG
>SRR1151252_00087 lipase
GTGAAAAAGAGAGGATGGCTGGCGGCCGGGCTGGTTCTGGTGGTTGCACTGGTGGCCGTCTGGGCCTGGCATGTCCACGTTTCAGCCGCCGGGAACCAGGGTCGTGAGCGGGTGCGGGTCACCAAACCGCGGTACGTGGAGCGCAAGCACGTCAAACTGGTGGCGCTTGGTGATTCCCTCACCCACGGCCAAGGTGATGAGACCAATAATGGTGGCTACGTCGGCATCATCAAGAAGAAGGTTGAACACCGTTACCGCAAGACAAGTGTGACAACGGTTAACTACGGGGTCAGTGGCGATCGGTCCGATCAAATTCTGGCCCGGTTAAACAGCCAACAACAGCTGCGCCGGGACCTCCGTCAAGCCAACGTGATCACGATGACCGTTGGGGGCAACGACCTGATGCAGAAGTTAGAACAGGATGCCACCAACTCACCTGACCGGATCAACCGCGATGTCGAACTTGCCAGCAAGACCTACCGGGCCAAGCTGAACAAGCTTTTCACGGCAGTTCGCAAGCAGAATCCCCACGCGCCGATCTTTGTGATGAGCATCTACAACCCCTTTTATACCTACTTTCCGGACGTAACCACCATCAGTGATGCCGTTGTCTACTGGAACCAGACGACCAGGCAGGTGATGAGCGGGTACTCGCGGATGTATTTCGTGGATATCAACCACCTGATGTCATACGGTCAGTACAAGACCAAGGCCGCCCGACAGCAGCTGGCGGCCAAGGAGAACCGGGTTAACCACGGTAAGGTCAGTCAGGCCCGGTCCATTAAGGTCATGAACAACGAGGACAAGAATCTGAACGACTACATTTCCACCGATGATAACTTCCACCCGAACCATACCGGTTACGAGCACATCGCCCAGGAGCTCTTTAAGGCGATGGTGGACCATGACGGTTGGGAATACGTAAAGAGGTAA
>SRR1151252_00088 DegV family protein
ATGGCAAAGGTTAAAATAGTTTGTGATTCTTCCGCCGGCCTGACCGAGGAAGAGATTAAAAAATACGATATTACAATTGTTCCATTGACCGTGATGATCGACGGGACGGTCTACACCGAACGGGAGACGATCACCAACGAGCAGTTTCCCGAGATGATGAAGAATGCCAAGTCCCTGCCCAAGACGTCCCAGCCGCCAATTGGCAAGTTTGTCGACGTCTTCGACAAGCTTGGCGAGGACGGCAGTGAGGTCCTCTGCGTAACGATGATGGCCTCCATCTCCGGGACCGTTCACGCGGCCCAGCAGGCGGCTGAGCTCACCAAGGCCAAGGTGACGGTTTACGACTCGCAGACAACTGACCAGGAGATGGCCTTCCAGATCGTGGAGGCCGCCCAGGTCCTGGAAAACGGTGGTAGTGTTGATGACGCCATCGCCAAGATGAAGGAGGTCCTGGATAAGAGCAAGCTCTACCTGGCAATTGATAACCTCCACAACCTGGTGGCGGGTGGCCGGATCAGCAAGTTTGCCGGCGCCCTGTCCAGCCTCTTGAACATCAAGGTGATGCTCCAGGTTTCCGGTGGGCAGATCCACATCCTGATGAAGGGACGGGGAACCAAGGCCATTCACAAGGAATGGGACAAGCTCCTGGGTGAGATGGCAGCCGGCCCCAAGGTTAAGGCGATTGGGATCTCTCACGTCCAGGCCGATAAGGAGGTTGCCCGGCTCAAGGAGGCCCTGGGTAAGCTCTATCCAAACATCAAGGTAGTCGTTCGTGAGACGGTGCCAATTATCGCAACGCACACCGGGATGGGTGCCTGCTGTCTCCTGTACTACACTGAATAA
>SRR1151252_00089 hemolysin III
ATGATCAGAACATCGAACAATCCCAACCGGGTGCAGAATCGTCAGGAACTATTAATCGAAATTGCCAACGCGGTGACCCACGGGATCGGGGCCGGACTGGCGATCGCCGGACTGGTCTTTTTAATCATCCGGGCTGCTTCCACCGGTGACCCGATGCGGATTGTCACCTTCACCGTCTACGGCAGCATCCTAGTCCTCTTCTACCTGTCGTCAACCCTGTTTCACGCCCTCTACTTCACCCGGGCCCGCCGGCTCTTCCGGATCTTTGATCACGCCATGATCTTCGTGTTGATCGCCGGCACCTATACCCCCTACTGCCTGGTCGCCATCCGCGGCTGGGCGGGATGGACCTTCTTCGGAATCATCTGGGCACTGGCGGTCCTTGGGGTCGTATACAAGAGCATCTGGCTCAAGCATAAGAGTAACTACTCGACCCTGATCTACGTCCTGATGGGCTGGCTATGCGTCTTCGCCTTCATCCCTCTCTGGCGCGCTCTGGGGCCGGTGGGCTTTGGCTTGTTGCTGGCCGGGGGAATCACCTTCACCCTGGGTGCCCTGCTCTATAGCCGGCCAAGTCATTACACCCACCTCATCTGGCACTTCTTCGTCCTGGTTGGGACGGCCTTCATGTACTTCTCCATCCTATTATTCGTTTAA
>SRR1151252_00090 dihydrofolate reductase
ATGACAGCGATTAGTTTTGTGTGGGCTGAGGACCTGGATGGTTGGATTGGCAAGGACAACACCCTGCCTTGGCACGTGCCGGCCGATATGCGCCACTTCAAACAAGTCACGATGGGTCAACCAGTCATTATGGGGCGCCGGACCTATGAGTCGATCGGCCGGCCCCTGCCACACCGGGAAAACATCGTCCTGACCCACCGAGACCTTATGATTCCCGGGGTGACGGTGGTCCATGATAAGGCCGCACTCATGGGGCTGCTGGACCGGCTGCCGGACGGTGAAAATGCCTGCGTGATCGGCGGGGCCGGGGTGTTTGACGCCCTGCTGCCGTGGGCGACGACCCTTGAGAGGACGGTTATCAACGGCCACTACCATGGTGACACAAAAATGCCACCGGTCGATTATTCCCGGTGGCATTTACTTGATCGGCAGACCGTCGATGGTGACGGTGCCGCGCCAGTCTGCTGGTTTGAGCAGTGGCAATTAAACGAATAA
>SRR1151252_00091 thymidylate synthase
ATGACAGAAAACATCAACGAACAGCAGTACCTCGACCTGGCCCGTTACGTCCTGGAACACGGCCACGAGAAGTCGGATCGGACCGGGACGGGGACGCGGTCGGTCTTCGGCTACCAGATGCGCTTTGACCTCAGCCAGGGTTTCCCCATCCTAACCACCAAGAAGGTGCCCTTTGGCCTGATCAAGAGTGAATTGCTCTGGTTTTTGCGGGGGGACACCAATATCCGTTTCCTCCTCCAGCACCACAACCACATCTGGGACGAATGGGCCTTCAAAAAGTGGGTCACCAGCCCAGAATATCACGGCCCGGACATGACCGACTTCGGTCACCGCTGGCTGACGGACCCGGCATTCAAGAAGCAGTACCTGGCCGAGAAGCAGGCCTTCTGTCAGCGAATTCTTGATGACGATGACTTTGCCAAGAGGTACGGTGACCTGGGCCTGGTCTACGGAAGCCAGTGGCGGCACTGGAAGACGAGCCAGGGGAAGACGATTGACCAGCTGGCCAACGTGATCCACCAGATCAAGACCACCCCTGATTCCCGGCGGATGATTGTCTCCGCCTGGAACCCCGAGGACGTGCCGTCGATGGCTCTGCCACCATGTCACACCATGTTTCAGTTCTACGTCAACGACGGCAAGCTGAGCTGCCAGCTCTACCAGCGCAGTGCTGACATCTTCCTCGGGGTGCCATTTAACATCGCCAGCTATGCCCTGCTAACCTCGATGATTGCCCACCAGTGCGGATTGGAGCCCGGGGACTTTGTGCACACCCTCGGGGATGCGCACATCTACCTTAACCACCTTGCGCAGGTTAAGGAACAGCTCACCCGGACACCCCACGCAGCGCCCCAGCTGATTTTGCCGGACGCCCCGAAGCCGATTGACCAGTATCAGATGACTGACATTCAATTGGAAGGCTACACCCACGAGCCGGCAATCAAGGCGCCGGTGGCAGTCTGA
>SRR1151252_00092 ATPase component of ABC transporter with duplicated ATPase domains
ATGCAAACAATGCGCGCAGAGGGTCTGACCAGTACCTATGGCGAGAAGACCCTCTTTAAGGATATTGACTTTATCATCAACGAAAATGACCGGATCGGGCTGATCGGGGTCAACGGCAGTGGGAAGACCAGCCTGCTCAACGTCATCAGCGGGGCGGTTAGTCCGGAAACGGGGACGATCACCAAGCCCAACGACTACACGATCGGATACCTGAAGCAGCAGCCGGAACTAGATGCGGACAAGACGATCATGGAGGCCATCTTTGAGGGGCAGCAGCCGGTCTTCAAGACGATCCGGGCCTACGAGGGTGCCCTCCAGAAGTTCAGTGACCAGCCCACGGATCCCCAGGCCATCGACCGTTATACCAAGATGCAGGCCAAGATGGACCAGGAGGACGCCTGGGAGGCCGATAGTCAGGTCAAGACGATCCTGACCCAGCTGAAGATCACTGACACCAGCCAGCGGATTGGTGACCTGTCCGGGGGCCAGCAGAAGCGGGTTGGCCTGGCCCAGGTCCTGATTGAACAGCCGGACCTCCTCCTGTTGGACGAGCCGACCAACCACCTCGACTTAGACTCAGTCATCTGGCTTCAGGACTTCCTGCGCAGCTACAAGGGTGCCGTCCTGGTTGTCACCCACGACCGTTACTTCCTTGACCAAGTCACTAACCACATCTGGGAGCTCTCATTCGGCAACCTCTACCATTACGAGGGGAACTACCAGGACTTCGTGGCCAAGAAGGCAGAACGGGTCGAACTGGCCCAGGAGACCGAGAAGAAGAACCAGCAGCTCTACAAGAAGGAGCTGGCCTGGATGCGAACGGGAGCCAAGGCCCGCAGTACCAAGCAGAAGGGGCGGATCAACCGTTTCCACGAGTTAGCGGGCAAGGTTGGAAACCTCCAGACCGACCAGGACATCGCCATCAACCTGGGCTCCCAACGGCTGGGTAAGGATGTGATTAAGTTCAAGGATGCCAACTTGACGCTCGGGGACCACCGGATCTTAAACGACTTTAACTGGCTGGTCCAGGCCGGTGAACGGATCGGCATCACCGGTGAGAACGGGGCCGGCAAGACCAGCCTGCTCAACGTGATCGCCCAGCGGGTCCCCCTGGATAGCGGGGTGTTGAAGATTGGGGAGACCGTTAAGCTCGGCTACTACACCCAGCAGACCGAGGGGGTCGACGACAGCAAGCGGATGATTTCGTTTCTGAGTGAGATTGCCGAGAACGTCACCGATAAGGATGGCCACAAGCTCAGTGTCACCCAGCTCCTGGAGCGCTTCCTCTTCCCCCGTTTCATGCACGGGACCCTGATCCGGAAGCTCTCCGGGGGTGAGAAGCGCCGGCTCTACCTGCTGAAGATCCTGATGCAGCAGCCCAACGTCCTCCTCTTGGACGAACCGACCAACGACCTGGATATTGGGACACTGACGGTCTTAGAAGACTACCTGGATAGCTTTGCCGGGACGGTCATCACCGTCTCCCACGACCGCTACTTCCTGGACAAGGTGGCCGACGACCTGCTGATCTTCCAGGGTAACGGCCAGATTCAGCGCTACACCGGCCGCTTTACGGACTACCTCAAGGAGGAGCAAGCGGTCAAGGAGAGCCAGCAGGCAGCCAAGGCAACGACCAAGAAGAGCCAGCCACCGAAGAAGGTTGCATCGGCGCCCAAGAAGAAAACTAAACTCACCTACGCGGAGCAGCTGGAGTGGGACCACATCGACGACGACCTCGATGCCCTCGATCAGCAGCACCAGGACCTGGAGAAGCAGATGGCCGCGGCGGCCAGCGACTACACCAAGCTGGCCGACCTGCAGAAACAGTTGAACGCGGTCCAGAAGCAGATCGATGAAAAGACGGCCCGGTGGGAGTACCTAAGCAACTTTGTCGATGAATAA
>SRR1151252_00093 tRNA CCA-pyrophosphorylase
ATGAAAATTGACAAGCTGCCGGCAATCTTTGCGCCGGCCCGCCCCGTCCTGCAAAAGATTGAGCAGGCGGGCTTTGAAGCCTACTTTGTCGGGGGGTGCGTCCGCGACACCATCCTGGGCGACCCGATTCACGACATCGACATCGCGACCAGCGCCTATCCCAGTGAGATAAAGGCGATCTTCAAGCGGACCGTCGATACCGGGATTGAACACGGCACGGTAATGATCTTAGACCACGGTACCGGTTACGAGACGACGACCTTCCGGACCGAGTCGGGCTACCAGGATTACCGGCGTCCTGATTCGGTGACCTTTGTCCGCTCCCTGGCCGAGGACCTCAAGCGCCGTGACTTTACGATCAACGCCCTGGCCCTGCGTGAGAATGGGGAGGTGATCGACCTCTTCGATGGCCTGGCCGACCTGGCCCGCCACCTGATCCGGGCGGTCGGTGACCCCAACGAGCGCTTCCACGAGGATGCCCTACGGATGATGCGGGCGGTCCGCTTCGCCAGTAAGCTGGACTTCGTGATCGACCAGCCAACCCTGGCCGGGATCCGGGAGAATGCTCCCCTCCTGAGTAAGATCGCGGTGGAACGGATCCAGGTAGAATTTGAGAAGCTGTTGCTGGGCCAGCGGCCGGTCAGCGGGCTGAAGGACTTCATTGATACCGGCCTATACCGTTACTGCCCCGGTCTGGTCGACCAAGAGGCAGCCCTGAGCCAGCTTTTGGTTTTGAACAACTGGCAGCTGGAAAATACCCAGCAGGCATGGGCAATGCTCTGCTTCCAGCTGGGCTTATCGAATAAGCAGGTGGCTGGCTTTCTCAAGCGCTGGAAGACTTCCAATGACCTAATTCGGCAAGTCAAACGGATTATCCCACTGGTGGCCGGACTACGGGACAAATCCCTGGATGCCATGGCGATGTTTGCCGGTGGTTGGGACGCCCTCCACGATGCCAACCAGGTGGCTAAACTTTACGGCTGGGCCGAGGAGGATCCAGTGCTTGAGAAGCGCTACCAGACCCTACCGATTAAGAGCAGCAATGAATTGACCGTCGATGGGCGGAGCTTGATGGCCGACGGGGGGATTAAGCCCGGTCCCCAGCTGGGCCGGATCTTAAACGACCTGACGACGGCCGTGGTCGAAGGGCGACTGGCTAACAACCGTGACACCCTCCTGACGGCGGCCCGGACACTTGCAGAAGAAAAGGGGTAA
>SRR1151252_00094 integrase
ATGAACTATCCCTACCAAAAACAATTCCAGGAGTTCCTCCGTAACCAGAAGAAACTGGCCCCGCTGACCGTTCACACCTACAACAGTACCCTGACCAACTTCTTCAACTACCTGCTGGCCAACCGCCCCGCCTTCGCCCGTGATCCACGGCTGGCCAACCTCACCGAGAGCGACGTCCGCGCCTACTTCAACACCCTGCGTACCCAGCAGGGCATCACCATGGGGACCTACAACAAGATCCTCTCCCAGCTCAACCGCTACTTTCGCTACCTCTTCACCCACCAGTTGATCACCACCTACCCGACGTTGACCCTGCACGGCCAGGCGGTTGACCCTGGCCAGCGGATTTCGACCAAGTGGCTGGCAAAACTAGATGCGATCCTTCAGGACGACCACGTCCACTACTACACCCGGCTGACCCTCCTGCTGGTCAAGCACGGTTTCACGGTCGGCGAATTTCTCCAGCCCGGCTTCTACCGGGTGTTCGACCAGGTCATGATCACTGACCCGATTGAGCGGGAATTTCTCCGGCGGTACCGGGACTTCATCGCCCCCCGTCAGGCCCTGCAGAATTCCGGCGACCTCTTTCTCAAGCAGCGCTACCAGCCGGACGCACCCCAGCTGACCAACGCCGGCCTCCACAAGTACCTGCGCGCTGACCAGGACTACCTGGGCTTTCACCTCGCGCCCAAGTACCTCCACCAGGGTTACATCCTCACCCAACTGGCTGCCCACCGTGACCTGAGTGACGGGGAGCTAATGGACCGCCTAAAGCTCGATCCGGCCTCCCTCCTCTACTACCAGCACCTCCTCCTCAAGCTTAACTAA
>SRR1151252_00095 tetratricopeptide repeat family protein
TTGACATATTCAGAACAAATGCTTGACCAGTTGGAGAAGGGGGAGCTGACGGCGGCTAAGGGGACCTTCCGCCAGGCCCTGGCTAACGACAGTGATGACATGCTATTTAGCCTTGCCGAGGAGTTGTACGGGTTGGGCTTTCTCCGTCAGACCCGCCGTGTCTACCTGACCCTGCTCGACCGCTACCCGGATGAGGATGAGCTGCGGACCAACCTGGCGACGATCGCTATCGATGAGGGGCACAACGACGAGGCCCTCTCTTACCTGGCTCAGGTGCAACCCGACTCCCCGGCCTACCTGGAGTCCCTGCTGGTGGCGGCGGACCTCTACCAGACTGAGGAGGAGTTTGAAATCACCGAACAGAAGCTAAGGGAGGCCGAACAACTGGCCCCCGATGAGCCGGCTGTCCAGTTTGCCCTGGCCGAATTTTACTTCCTGGTCAGCCGCTTTGACGACGCGATCGACTACTATTTCCGCCTGATCAAGAACGGCTACACCGACTTTGCCAAGGTCGACATCGCCGGTCGGCTGGGGATGTGTTATGCCCAAAGCGGACAGTTCAAGCAGGCCCTGGGCTACCTTAAGCAGGTCAAGCCGGCCTACCGGACTAGCGATATCCGCTTCCAGACCGGGTTGACCCAGCTCCACCTCGGCCAATTGGATGACGCAATCAAGACGCTCACGGACTTGATTGGCGATGATGACCAGTACGCCTCCGCCTACCCGGCCCTGGCCCAGGCTTATAGTAGGCAACGCAACTACCCCCAGGCACTACGGGCGATCCAGGAGGGGCTGGCAGTCGATCAGTACAACGAGCAGCTCTATGCCCAGGCGGCCGAGATCGTCAGCCACCTCGGTAACCACCAGCTGATGGCGAAGTACCTCAACCGGGCCCACGAGCTGGATCCGGATAACCTGACCATTATCCTCCAGTACAGTAACTTCCTCCTCCACCAGCATGACGATGCTGCCAACATCAAGCTCCTTACGCCACTGATCAAGAACGACGAGGTTGATCCCCAGGTCTACTGGAACCTGGCCCGTTCCTACCAGCGGATTGAACAGTTGGACCTGGCCAGCAAGTACTTCCGGGCGGCGGCACCGAGCTACCAGGATGATCCAACCTTCCTGAAGGAGAAAATCGACTTCGATCGGGAGGTGGGTGATACCGGTGACCTCGTGAGTGAACTTCATCGTTACCTAACCCTGGTGCCAACTGACGCGGCGATGCAGGACCTCCTGGACGAGTACGAGGAATATTAA
>SRR1151252_00096 DNA-binding protein HU
ATGGCAAACAAAGCAGAATTAGTAAGTAACGTTGCTGCCGCAACTGGCTTGACTAAGAAGGATGCTACGGCTGCTGTTGACGCTGTCTTCAGTTCCATCCAAGCATCTTTGGCTAAGGGTGAAAAGGTTCAACTGATCGGCTTCGGTAACTTCGAAGTACGTCAACGTGCTGCACGTAAGGGCCGTAACCCACAAACTGGAAAAGAAATCCAAATCCCTGCAAGCAAGGTACCAGCATTCAAGCCTGGTAAAGCTTTGAAGGATGCTGTTAAGTAA
>SRR1151252_00097 GTP-binding protein EngA
ATGGAAAATCCTGTTGTTGCAGTGGTTGGCCGGCCGAATGTCGGCAAGTCAACCCTTTTTAACCGGATCGCGGGGGAACGAATCTCGATTGTTGAGGATACGCCGGGTGTTACTCGTGACCGGATCTATGCCCACGGTGAATGGCTGGGCAAGCACTTTAACCTGATTGATACCGGGGGGATCGAACTCTCTGACCAGCCCCTGCTGACCCAGATTCGGGAGCAGGCTGAGGTCGCCATTGATGAGGCCGACGTGATCATCTTCGTTGTTGATATCGAAAACGGGGTCACTGATGCCGACGAGCAGGTGGCCCGGATTCTCTACCGGTCGGATAAGCCGGTGGTCCTGGCGGTCAACAAGGTCGATAACCCGGAGCGGCGTAGTGACATCTATGACTTCTACTCACTGGGACTGGGCGAACCATACCCGGTTTCTAGTGTCCACGGGGTCGGGATGGGGGACCTGCTGGATGCGGTGATCCACCGCTTCCCGGACAATGTCGCCAATGATGAGGACGACAGCATTCACTTCTCCTTCATCGGACGGCCAAACGTCGGTAAGTCCTCCCTGGTCAACGCCATCCTTGGTCAGAACCGGGTGATTGTTTCCAACGTTGCGGGAACCACCCGGGACGCCATCAACACCAGCTTCACAACGAAGGATGGGCAGGAGTTCACAATGGTCGACACCGCCGGAATCCGTAAGAAGGGCAAGATCTACGAGAACACTGAGCGCTATGCCCTGATGCGGGCCATGCGGGCCATTGACGATAGTGACGTGGTCTGCGTCGTCCTCAATGCCGAGGAAGGGATTCGGGAGATCGACAAGCACATTGCTGGTTACGCCCACGAGGCCGGTTGTGGGGTGATCATCGTCGTTAACAAGTGGGACACCCTAAAGGAGAAGGACCACCGGACGATGACCGACTTTACCAACCTGACCCGCCACGAGTTCCAGTATCTGAGCTACGCACCGATCATCTTCGTCTCTGCTAAGACCAAACAGCGGCTCAACCAGTTGCCGGACCTGATTGAGGAGGTCAACGCCCACCACAAGCGCCGGGTCCAGTCATCGGTTCTCAATAACGTCTTGATGGACGCCATCGCCGCCAACCCAACGCCGACGACCAATGGCAAGCGGCTGCGGGTTTACTATGGAACCCAGGTGGCCACGGCCCCGCCGACCTTCGTGATCTTTGTCAACGATCCTGAGCTGATGCACTTCTCCTACCAGCGTTACCTGGAGAACCAGATCCGGTTGGCCTTCGATTTCAGTGGGACCCCGATCCACCTGATCAAACGTCAACGGCAGTAA
>SRR1151252_00098 30S ribosomal protein S1
ATGGCTGAAAACAATGAAAAGAACAACGATATGTTAAAGGCACTCGATAGCATTGAAACCGTAAAGGTGGGTGATGTTGTCAAGGGTGAAGTTTTGGCAATCGATGACGATCGTCAAGCTATCGTTGGTATCAAAGATGCAGGGGTTGAAGGTGTCGTCCCTGCTAAGGAATTATCAACCAAGCCAGTTGAAGACATCAATGATGCAGTTAAAGTAGGTGACGAATTAGACTTAGTTGTCATCTCCAAGATCGGTAGCGATAAGGAAAATGGTAGTTACTTACTTTCTCACCGTCGTCTTGAAGCCCGTAAGGTATGGGATGACATTCAAAAGAAGTTCGATGATGGTGAAACCATCACTGCTAAGGTTACCCAAGCAGTTAAGGGTGGTTTAGTTGTTGATGCTGGAGTACGTGGCTTTGTCCCTGCTTCAATGATCACTGATCACTACGTTGAAGATCTGAATCAATTCAAGGGCCAAGAACTTGAATTCAAGATCATCGAAATCGAACCAAGTGAAAACCGTTTGATTCTTTCCCACAAGGAAATTGTCAAGGCTGAACACGAAAAGGCTGCCGAGAAGATCTTTGCCGAATTACAACCAGGTGACGTTGTTGAAGGTAAGGTTGCACGGATGACCAACTTCGGTGCCTTCATCGACCTTGGTGGTGTTGATGGCCTGGTTCACGTTTCCGAAATTTCCTACGACCACGTTGACAAGCCTTCAGATGTTCTGTCTGCCGGCCAAGACGTTAAGGTTAAGGTACTGAGCGTCGACCCTGACCGTGAACGGATCTCCCTTTCCATCAAGCAAACGCTTCCTGGACCATGGGATGACATCGAAGAAAAGGCCCCAGCTGGCTCTGTTCTGACCGGGACGGTTAAGCGTCTGACCAGCTTTGGTGCCTTCGTTGAGGTATTCCCTGGTGTTGAAGGTTTGGTTCACATTTCCCAAATCTCCCATAAGCACATCGCTACGCCAGCTGACGTGCTGAAGCCAGGTCAAGAAGTCAAGGTTAAGGTCTTAAACGTCGACCCAGAACGGCAACGTTTAGGCTTATCCATGAAGGCTCTTGAAGAGCGTCCAAAGGGTGAGGATAACGACAACCGTCGTGGTGGCCGTCGTTCACGCCGGAACAACAACCGCAACGCCATGAACAATGCCCCTGAAGAAGAAACAGGCTTCTCCATGGGTGACCTGATTGGTGACAAGCTGAAGGACTTACGTAATAACTAA
>SRR1151252_00099 cytidylate kinase
ATGACAAAGGGGATCCAAGTGGCTATCGACGGCCCGGCTTCAGCGGGGAAGAGTACGGTTGCTAAACTGGTGGCCAAGCGTTTCAATTATGTATACTGTGACACGGGGGCGATGTATCGGGTAGTCACCCTGGCAGCCCTGCGTCACGGCCTAGCGATGGATGCCACCGACCAGATTATCCAGCTTGCCCGCCAGATCAAGATCGGCTTTAAGCCTGGCGAGCCCGAACAACGGGTCTACTTAGACGGCATGGAGGTCACCCAGGATATCCGTCAGGGGGAGATCGACAGTAACGTCTCCACGGTGGCGGCCATTCCGGCGGTCCGTACCGAGATGACCCGCCAGCAGCGTGAGATTGCGGCAGCTGGGGGGATCGTGATGGATGGTCGTGATATTGGAACTACCGTCCTGCCTGATGCCCCGGTGAAGATCTTCATGGTGGCCACGGCTCACGAACGGGCCCGGCGGCGGTACGTCGAAAACCAGGCTAAGGGGATTGCTACGGCCTCCCTGGAGGACCTGCAAAAGGAGATTGAACTCCGGGACAAGAAGGATTCAACCCGGGCAGTTTCTCCTTTGACCCAGGCACCTGATGCCATTCGCCTGGACACCACCAAGTTGTCGATCGACCAGGTGGTAGACGAGATTAGCAAGATTATCAAAAAAACTCAGGAACAATTACATTAA
>SRR1151252_00100 hypothetical protein
GTGAGTGAGCATCATGAAGAGACACGCCAAGAGCGTGATGAATTGTGGGACAAGACCTTCGCGGACAACGAAGATTTAGATAGCGAGGGTCACCTGTCACGTACGGAACACCGCCGTCAGCGTTCACACAACTCGATGATCACGACGGTCCTGATTGTGTTGATCATCATCCTGGCCGCGGCCCCGGTGATCTACTGGGTCAACAATAAGCAATCGTTCAACCACCCGTTGCGTACCGAGCAGCAGGCCGCTTCGTCCGTGAGTAGTAAAAAAAAAGCTTCACAACGGTCCACAACCTCTGCTAAAAAACACCGGCGGAAAAGTTCGTCTGTAAGCAGTAGCTCATCAACCGCGGCGTCTAGCACGACGAGCAGTGCATCCAGTAGCGAATCTAGCACCAGCGCGCCGACCAGTAGTAGCCAGCAGCGCTACGTGACTGTTCAACACGGTGAGAGTGTTTACCGGATTGCCGCCCGCAACGGGATATCGGCTCAGGAACTGGCCCGGCTGAATAACATGACGATCAGGACGCCAATTCATCCTGGTCAGCAACTACGAGTAAAATAG
>SRR1151252_00101 ATP-dependent DNA helicase RecQ
ATGAATAAGGATGAACAACTACACCGCCTGCTGCGCGAACGCTTCGGCTACCAGCACTTTCGCGACGGCCAGCAGGAAACCATCGAATCCCTATTGGCGGGGCATGATACCCTGACGGTCCTGCCGACCGGGGCCGGGAAATCGCTGCTCTACCAGCTGCCGGCCTACCTGTTGCCGCACGGGGTGGTCATCGTGTCCCCGCTGATCTCCCTGATGCAGGATCAGGTTGACCGCCTGCGCCAGCGTGGTGAGAAGCGGGTGGTGATGCTGAGCAGCCAACTCCAGGGCCCGGCCCGCGACCAGGTTCTTAACTCACTGGGCAGCTTTCGTTTCATCTTTGCCTCACCGGAGATCCTGGCCACCCCAGCCATCTTGGCGGCCCTGCGCCGGATCCAACCAAGCATGCTGGTGGTCGATGAGGCCCACTGTGTCTCGCAGTGGGGCCCGGATTTTCGCCCTGAGTACCTCCTATTAAAACGGGCCCGCCAAGCCCTCGGGTCGCCACGCCTGCTGATGCTGACGGCCACGGCCACTCCGCGGGTCCGGCGCGACATCCTCAATAAACTGGGCCTGGACCGGGATCGCGTTCATCAGGTAATCCGGTCGGTCAACCGGCCCAACATCTTCCTGGCCGTGGACCGGGTTGCCGATCAGGCCGCCAAGAACGACCGCCTCTGCCAGCTGGTGACCAGCCTTCCTGCCCCGGGAATCATCTACTTTGCTAGCCGTAAGCTGGCCAGTCAGATGGCGGATTGGCTTGCTGAGCAGACCGGCCTGGCGGTGGCCCCGTACCATGCCGGGATGGCAGCGGTTGACCGCTTCAAGATCCAGCAACAGTTCATGAACAACCGGCTTCAGTTGGTCTGTGCAACGAGCGCCTTCGGGATGGGGGTGGATAAGAATGATATTCGCTACGTCATCCACTATCATCTCCCGGCCAACCTGGAGAGCTACATGCAAGAGATTGGTCGGGCCGGTCGTGATGGTCAGCAGAGTGTGGCCGTTCTCCTCTATGCACCTGGTGATGAGGGCCTGGCCAGTCAGCTGACCACGATCAACCTCCCCAGTGCCGACCTCCTGACCCAGGTCCAGCACCACCAGTTGCGCCCCAGTGTTCTCGGTGATGACCAGGAGCTGTTTACCTTCTACCTGGACCATGGCTACCAGCCCGCCCAGATTGTGACGGCCTTTCGAAAGCGTCAGCGGCAGTTGGCCATCAGCCTGCAGAGGGTGGTGGACTATACCGGCCTAGCAACCTGCCGGCGGCGCTTTTTGCTCGACTACTTTGGGGAGGAGGCGGCCGATTTTCCACCACCGTGCTGTGATGTTGACCAGCCGCAGTGGGCAGGGGAGCTCACCATGAAGTCAGCACCGCATCCGGTCGTATGTCAGCAGGGGGATTGGCACCTTCGTCTCCGCCAGCTTTTTAACCAGGGGAATAATCAATAA
>SRR1151252_00102 hypothetical protein
ATGAATTCTTACATACTACGCTTCTTTTCTTATCACCAACCCCGGCGCGTCCGGGTAATTGAGAACCTGCTGGTGAACCGGCGGACGGTGGCCAACCTGTTCTGGGGACAGCAGTACGGTCTTTTGCAATGGCTGGGAGCAAATCGCAGCCTGACCCGTCGTGAATACGATACGACGATTGACGAACTGGTGGCTCAGGGCCTGTTGGTCGTCGATGACCAACAGCAGGCACGGCTGACGGTCGCGGGGGTCCAGCGTCAGGAGGAAGACCGTGACCATCAATACCAACCACATTTTTTGGACTGGTACTGGCTGGCCAACACCAATCAGCTCGGTCAGCGGCTCCTCTTGGGGATGCAGGTGGTCTCGGAGCTTGCCTACCATAACGTCCGCTATGCCCCGGTGACCGTCGGCTATGGGCACCTCCTGGCAGTCAAACAGTGGTTTGCCCGGGCAAATCGGGACCAACTAGCGGCGACGGTCTACCGGGATCTTACCCAGCTGACAACCGGTTTAGCGGGGGCCGATCCACGTCTGGCGACGGTTCTGACTGACGGCCTGGTTGGGCATGACCTGCCGGCGTGGACCAACGCCCAGCTCGGCAAGCAGTTGGGAATGGCACCGGCGGATATGCTGGTCCTCAGTCACGACCTCCTCCTGGGGGTGGCCGCTTATTGTCAACACGTTCCCGGACCCCTTCACGACCTCCTGGCCCCCCTGCTTAACGAGGGCCCCCTGTCAAAGAGTGCGGTCCAGACCCTTAACCTCTACCAGCACGGACACAGTCTGACCCAGATTGCGGCCCAGCGACACCTGAAGCTGAGTACGGTCCGTGAACACCTGTTGGAGGTGGCCATCCTTTGCCCGGCCCAGCTGGACTGGGACCAACTCCTGCCAGCGCGCAAGCGAGCAGCCCTGGTCAAGCGCTATCCAGACCCCGATGTCACGACCTGGCACTTTCAGTCACAGGCGGATGACGACGGGGCGGCCTTCTTTGATTACCGGCTCTTTCAGATTTACCAGGGGAGGGAAGCACATGAATAA
>SRR1151252_00103 membrane protein
ATGACGGTGTCGCATTTACGAATTCAGCGCTTAGTGGGGATTGCCTGCCTGAGCGCGTTGGCCTTTATCTTGATGTTATTTGAGTTTCCCATCATTCCGATGGCGTCCTATCTGAAAATTGATTTTTCAGACGTTCCGGTCCTGATCGGTGGCTATATCTACGGACCCGCTGGGGGGATTCTGATCGCCGTGATCAAGTGTCTGATTCACGGGATGGTGCGGGGATTTTCGGTCGGGGAACTGATCGGGATTACTAGTGACTTCATCTCGTCACTGGCGATCCTGCTCCCGTTTTGCCTGATCTGGCGCAAACGTCCCCAGTGGTCCCAGAAGAAACAACTGCTGGTTGGCATCATCGTCGCCACGGTGGTCCTGACGCTAGTCATGTCCCTGCTCAACCTGTGGGTTTTGACGCCGCTCTACATGGCCGTCTGGAACTGGAAGTCAACCCTGCCGGTGGCCCAGTTGGTGGCCGTCGGGGTCTTGCCCTTTAACATCATCAAGGGCCTGCTGGTGACGGGGGTCTTCGCCATCATCGCCAGCCAGCTGAAACCGTGGTTGGCGGCCCATCGCTATTAA
>SRR1151252_00104 ribosomal large subunit pseudouridine synthase B
ATGGAGAGAATACAAAAAGTAATGGCCGCGGCCGGGGTGGCCTCGCGGCGGGCCTCGGAGAAGCTGATTGCTGCCGGCCGGGTTCAGGTCAATGGTGAGACGGTTACCGCCCTGGGTACCAAGGTTGGCCACCGCGATAAGGTCGAAGTTGATGGGGTGCCAATTAACCGTGAGCCCCACGTCTACTACCTGCTGAATAAGCCGCGGGGTGTGATCTCCAGTGCCCATGATGACAAGGGCCGTAAGACGGTGGTCGATATTCTCCACGAAGACGAGGTGGAGGAACGGATCTACCCGGTGGGCCGGCTGGACTATGACACCACCGGAATCCTCCTGTTGACGAACGACGGGGCCCTGGCCAACAAGTTGATGCACCCCCGTTTCGAGGTGGCTAAAACCTACGTGGCCAAGGTCAAGGGCATTGTCACCAACGATGAACTAAAACGCCTCCGCTTGGGGGTGCGAATCGACGGTCGTAAGACTAAGCCAGCCAAAACCCGGCTCAAGGAGGTTGACCGTCACCAGCAGACCAGTCTGGTCCAGCTGACGATTCATGAGGGGCGCTACCACCAGGTCAAGCGGATGTTTGAGGCGGTTGGCCACCCCGTACTTAAACTACACCGGGAGACGTACGGCTTTCTCAACCTTCAGGGCCTCCAGTCCGGGGAGTTTCGGGAGCTGCGGCCTACGGAGGTTACCAAGCTGAAACAGCTGTGA
>SRR1151252_00105 segregation and condensation protein ScpB
ATGACTACCGAAACAACGAATATCGCCCAGATTGAGGGCCTGCTGTTCATCAGCGGTGACGAGGGGATCACGGTCGGTGACCTCGCTAAGATCACCGGCTTCATGAAACCGGCCATCACCGCGATGCTGGACAAGCTTGCGGCCCGCTACGCTGGTGATCCTGACTGTGCCCTGGTGGTGCTCCACAGTGGCCAGACATACCGCTTGGCCACCAAGCCATCACTGGCCCCGGTGATCAAGCAGTACTTTGAGATCCCACTGACGGTGCCACTGACCAACGCCCTCCTGGAGGTACTGGCCATTGTTGCTTACCGGCAACCGATCACCAGGCTGGAGATCGACGAGATCCGGGGGGTACAAAGCTCGGGCTCACTGCAGAAACTGATGGCACGTGGGCTGGTGGATACCCACGGCCGGCTAGATGCTCCCGGGCGGCCGTTTCGCTACGTCACGACGGAGAGCTTTTTGGACTACTTTGGCTTATCGTCGCTGGATGACCTGCCACCGTTGCCGGAGGGGGCTGACGTCGATACGGCCGATCTGAGTGGAGACCTCTTCCTGTCGGCATTCCAGTCACGTAAGCAAGGAGGAAAAGAATAA
>SRR1151252_00106 segregation and condensation protein ScpA
ATGAGTGAGCAGCACATCCATCCTACCCGTCAGCAGCCGACCCTGAAGCTTGGTGACTTTGAGGGTCCCCTCGACCTCCTCTTGCACCTGATCCGGGAGGCCAAGATGGACATCTATGATATTAAGATTGCCACCATCACCAGCCAGTACATGGACTATCTCCACCAGATGCGGGCCCACCGCCTGGAAATTGCCGGCGAGTACTTCGTGATGGCCTCGACCCTGATGCGGATCAAGAGCCAGCTCCTCTTGCCCCAGACCCCACCCATCGACGAGGAAGAACCTGAAGAAGAGCCGGTTGACCCGCGTCAGGAATTGGTGGATCAGCTGATCGAGTACCAGCGCTATAAGCAGGCGGCCGACCGGCTCAAGGACAAGGAGAGCTTTCGCCAGCAGGAATACACCCGGCCGGCAATGCGGGTTCCCCGTAACCTGGTGGGTGAACAGGTAGCTCCCGGAGTAAGCCTAGACCAGCTCCAGGCGGCCTTTAACCAGGTTCTCAAGCGCCACCGCTTCACCCAACCGGTCGTGGAGACCGTGGCGGCCGAGCGGGTCAGCGTTGGCCGGCAGATGCGGACCGTCTTTGACCGGGTCGTGACTGGCCCCCAGCGCTTCGTCGACCTGCTGACCACAGCGGTGACGAAGGACGAACTGGTGACCACCTTCCTCGCCATCCTGGAGCTGGCCAAGCACCAGGCGGTTCACATTGAACAGGCGGGACTGTTTGCACCAATAATTATCAGAGAAGGACTGAAGAGTGATGACTACCGAAACAACGAATATCGCCCAGATTGA
>SRR1151252_00107 hypothetical protein
ATGCTAGTACACTACCGAAAAGACTATCAGAAGATCGCGATGGGGTTGCTTTCCCTGCTCCCTGAGCTTCGGGATGAGCAGCGCTTTAATGACGAGCTCAACTGGGCACTTACGGCGGGGGATTCGGTCTACCTCTGGAAGGACCAGGAGGATAACCACTTCATTGCGGTGGTTATCCTGAAGGTGGGAGACGATTACGTTCTCCTCCGCCGGCTCTCCTTTACCCCGAGCGAGCGGTCGGGCCATAATGTTTACGCCCTCCTGACCGCCATTCATGAGCAGTATCCTGACCGGCGGCTGATGGGGACCCTGGACACGCAGCCACTGATCACGAGTTGGGGGAAGGCCAATGAGTGA
>SRR1151252_00108 tyrosine recombinase XerD
ATGACGGATGAGATAACGGCCTTTGTTGCGGTGCTCAGAGATGAGCGGGGACTGGCGGTGAACACCTGCGCCAGCTACCGGCGGGATCTGGTGCGGGCGGCGGCCTTTTTCGAACGTCAGGGGATCACGGACTGGCAGGGAGTTGACCGCTATGCCGTGCTTGATTTCCTGACGGCCCAACAGGAAGGGGGGAAGTCGGTGGCGACCATCAACCGGCTGATTTCCAGCCTCCGTCAGTTCTTCCGCTACCTGGTCCGTCGGCAGTACCTGCAGGTCAACCCGATGGAGACGATTGACCACCGGCCAGCGGGCCCGACGACCCAACCACCGGTGGTTCTGGATGAGGATGAGGTTGAGCGTCTTCTGGCGGTTCCCAATACGACGACGCCATTGGGGATCCGTGACCGGGCCATCCTGGAGCTGCTTGACGCCACCGGAATGCGGGTGACCGAGTTGGCAACGTTACCGTTGGCCGCCCTCCACCTCGACATCAGGTTTGCCCAGCTTCAGGGCAGTGGTCAGCACGAGCGGATGGTGCCCCTGAGTCGGCCGGCGGTGCACTGGCTGCGGTGCTACCTAAAGTCGGTCCGGCCGGAATTAGTTGATGGCAAGCAGTCGGCGGTCTTTCTCAATGCTCACGGTCGACCGTTGAGCCGGCAGGGGATCTGGAAGAACTTCAAGCAGTGGGTCCAGGCGGCGGGAATCACCAAGCCGGTCGCCCCGCAGACCTTCCGCTACACCCTGGCGGTCCAGATGTTATCACGGGGGGCTAGCGGTCAGGTGGTCCAGGAGATGCTGGGCTACACCGAGCTGCGGATGCTGCGCCCCTACCTGAAGGTCACCCCCCAGGATTTGACCCGGACCTATGAGAAGTATCACCCGCGGGCCTAG
>SRR1151252_00109 S1 RNA-binding protein
ATGAACTCGGCATTAGGAAGGGTCGTTTCGGCGGTGATGATCGACGAGAACGACGACTATTATTTTGTACAGCCGGCCAGAAATGGCCAGACATACCGCCTGCTTAAGGCGGAGAGTCCCCAGTTCCTGCATATCGGTGGTCAGGTTCGGGGCTTTGTCTATGAAAATGAAGACCACCAGCTGCAGATGACCTGTCAGCACATCCCAACGGTCCAGGTAGACCACTACGACTTTGGGACGGTGGTCGGCGTTCGGCGCGACCTGGGGGTATTTGTTGACATCGGGCTGCCAAACAAGGACATCGTGGTTTCCCTCGATGACCTGCCGGAGCCTAAGCAGCTCTGGCCGCAACCGGGAGATCGGCTGATGATCGCCCTGACGGTGGATGATAAGAACCGGATCTGGGGCAAGCTGGCCGACGACGCGATCTTCAACACCATTTCAACCGCGCTGTCACCACGCCTGCAGAACCGGGATACTTACGCGACCGTCTACCGGTTGAAGATCAACGGGACCCACGTCTTGACGGACGGTTACCAGCTGGGCTTCATTCACCCTAGCGAACGGGACCAGGAGCCGCGGTTGGGTCAACGGGTCAAGACCCGGGTGATCGGGATCTCGTCACACAACAGCCTCAACCTCTCACTCAAGCCCCGGGCTTACCAGGCCATCGGCGAGGACGCCCAGATGCTATTGGCAATGCTGGGCCAGGACTTGCATCACCGCCTGCCCTACACCGACAAGAGCGATCCCCAACTGATCCGGTCGACTTTTGGGATTAGCAAGGGCCAGTTCAAGCGGGCGGTTGGCCACCTGCTCAAGCGGGGGCTGGTTAAGGAGGAGGATGGCCAGCTGATCCTCCTAGAGAAGAATGATCACTAA
>SRR1151252_00110 pyruvate kinase
ATGAAGAAAACCAAGATTGTAAGTACCCTTGGTCCTGCAAGTACTGATGTTGATACGATCGTTAAGCTGATCCAAGCGGGTGCAAACATTTTCCGCTTCAACTTCTCACACGGTGACCACCCAGAACACTTGGGCCGGATGCAAAACGTTAAGAAGGCCGAAGAAATCACTGGTAAGCACGTTGGTATCATGCTTGATACTAAGGGTGCTGAAATTCGGACTACTGTTCAAAAGGACGGTAAGATCGAATACAACATTGGTGACAAGGTTCGTATTTCCATGGATGCTTCATTAGAAGGTACCCACGACAAGATCGCCGTTACCTACCCAGGCCTGTACGACGACACGCATGTTGGTGGCCACGTTCTCTTTGACGATGGTCTGATTGACATGCTGATTGACGAAAAGGACGAAGCAAACAAGGAACTGGTTTGCCACGTTCTGAACCACGGTGTTCTTGGCTCACGCAAGGGTGTTAACGCCCCAGGTGTTTCCATCAACCTGCCAGGGATCACGGAAAAGGACAGCAGTGACATTCGCTTCGGTCTTGACAACAAGATCAACTACATCTCTGCTTCATTCGCTCGGAAGGCCCAAGACGTTCTTGACATTCGTGAACTCCTCAAGGAAAAGAACATGGAAGACGTTCAAATCTTCCCTAAGATTGAATCTCAAGAAGGTATCGACAACTTCGAAGAAATCATTGAAGTTTCCGATGGTCTGATGGTTCCTCGTGGTGACATGGGTGTTGAAATTCCAGCTGAAAATGTGCCGATCGTTCAAAAGCACATGATCAAGCGGTGCAACGAATTAGGTAAGCCAGTTATCACTGCTACCCAAATGCTGGACTCCATGCAAGAAAACCCACGCCCAACCCGTGCCGAAGTATCTGACGTTGCCAACGCCGTCTTTGATGGGACCGACGCAACGATGCTGTCTGGTGAAAGTGCCAACGGTGACTACCCAGTTAAGTCCGTTGCCATGATGAACGCCATCGACATCAAGGCTGAAAACCACCTTTGGGAATTCGGTACTGAAACCTTCGATTGGGACAAGTCCGACGTTACCGAAACGATCGGTTCTGCCGTTGCCAACGCTGCCAAGGACTTAGACATCCACACCATCGTGGCCTACACTGCTTCTGGCTACACTGCTAAGATGATTTCTAAGTACCGTCCAAACGCCGACATCGTTGCCCTGACGCCAAACGAACGGGTAGAACGGGGCCTCATGATCAACTGGGGTGTTCAACCTTACGTTGTTACTGAAATGAAGGATACCGACAAGATGTTTGACCTGGCTGCCGAAAAGGCGGTTGAACTCGGCTTCGCTAAGAAGGGTGACAAGATCATCATCGTGGCTGGTGTTCCTCTGGGTGTCCCAGGTGCCACTAACCTGATGCGGGTTAAGACGATTGACTAA
>SRR1151252_00111 DNA polymerase III subunit alpha
TTGGCTTTTACGCCACTTGATGTGCAGAGTTCATTCAGCCTGTTGCAGGGTCCCATCCGAATCCCGGACCTGGTAAAGGCGGCTAAGGAGCGGGGGTACACGGCTCTGGCCCTGACCGATGAGAACATCCTCTACGGGGTGGTCGATTTTTATAATGCCGCGCGAGAAGCGGGAATCAAGCCACTGCTGGGGATGAAGATGCGCCTGGCCCTGGGGACGGAGACGGGAGCCAGCCTGATGGTGACCTTCCTGGCCCGCAACCGCCAGGGCTATCGGCACCTGATGGACCTCTCCACTCGTCACCAGACGACGCCGCATGACCAGCTGCCATTGACCGTTGACCAGGTTGCCGACCTGCTGGGTGACCTCTTCGTCATCGTTCCCCCGCAGACTGGCATGTTTACGCCGGCCCTCCAGCCGGCAAAGTTTCTGGCCCGGCTTGCGGAGCTGACTGACCCTGATGGCCTCTTGATCGGGGTCAACCCGGACCTGGATGCGGTTCACCGGGAAACCCTTAGGGACCTGACGTCTAGTCAGGGACTGGCGCTGGTGGGCAGTCGACCGGTAGAGTACCTGGACCCGACCGACCAGTTTGCCACGAAGGTGCTGCAGGCGATCCGGTCCGGTGGCCAGCTTGAAAACGTCGCCGCCCAGGCCCGGGAACGGGGGGCGCATTACCTGCGGACTGCCAATCAAGAAGTTGCGGCCTATTCTGTGGCGGGGTTGGGCCAGGCCGCGGCACAAACGGCCCGCCTGGCTGACCAATGTAACGTTGAGCTGGAGTTCAAGGCCCCGGTCCTGCCGCACTTTGTCACCCCGGACTCTCAGAGTTCCAAGGACTTCCTGCGGGCCCTCTGTGAACGGGGACTGGCCAAGCGACCGGTTGCCCAGGGACTTTCTAAGCAGGATTACCAGGCCCGGCTTGACCACGAGCTCAGCGTGATCCACCAGATGGGCTTTGACGACTACTTCCTGATTGTCTGGGACGTCATGAACTTTACCCACCGACAGCACATTACAACCGACCCGGGACGGGGGTCCGCGGCCGGCTCACTGGTCGCCTATGCTCTGGCGATTACCGAGGTGGATCCCTTGGCCTACCACCTGCTCTTTGAACGCTTCCTTAACCCGGAACGGGCCCAGATGCCCGACATTGACCTGGATATCCCGGATAACCGGCGGGGGGAGGTCCTCCAATACGTCCACGATAAGTATGGCCACCAACACGTTGGCCAGATCATCACCTTTGGCACCCTGGGGGCTAAGCAGGTCCTCCGTGACGTCAGCCGGGTCTTCAATTGGCCACGCTACGACGTCAACGAACTGCTGAGTACCCTGCCGGCCAGTCATAGCCTGACCCTGGCCAGTGCCTTGCGTGATTCCCAGCGCCTCCGCAACTTCATTGATGACCACCAGGATGCTAAACTGCTGATGACGGTGGCCCAGAAACTCGAGGGCCTGCCCCGGCACTACTCGACCCACGCGGCGGGGGTCGTCCTGTCCGAGCAGCCCCTCCATGAGATCGTCCCCCTCCAGGATGGGGGCGAGGGACTGCTGATGGCCCAGTTCACCAAGGGAACGGTTGAGGCCCTGGGGCTATTGAAGATGGACTTCTTGGGCCTGAAGAACCTCTCAATCCTGGCCCACACCCTTCAGCTGGTACACCAGGATCACCCGGACTTTGACCTGGGACAGATTTCCTATGAGGATCCGGCGACCCTCCAGCTCTTCCAACGGGGGCAGACCGACGGCGTCTTCCAGTTCGAGTCGAGCGGGATCCGCAACGTCTTAGTCAGCCTCCATCCCGATCAATTTGAGGACATCATCGCCGTCAACGCCCTCTACCGGCCGGGCCCACTGGAAAACATCAGCCACTTCATTGCCCGGAAGCACGGTCAGGAGGAGTACGCGATTCCCGACCCGGCCCTGCACGCGATTCTCGGCCCAACCTACGGCATCCTGGTCTACCAGGAACAGGTTATGCAGCTGGCGTCGGCAATGGCCGGCTTCACCCTAGGCGAGGCCGACCTGCTCCGGCGGGCGATGAGCAAGAAGAAGGCCAACGTGATGGCCGGAATGCGGGATAAGTTCCTCGCCGGGGCGGTCGCCAACGGTTTCACCAGTCAGCGGGCCCAGCAGGTCTTCGACTACATCGACCAGTTTGCCAACTACGGCTTCAACCGGTCGCACGCGGTTGCCTACTCGATGCTGGCTTTCCAGCTGGCCTACCTGAAGTGTCATTACCCCAACGCCTTCTACACGGCCTTGATGGGGGCGGAGACCAACCTGACCAAGCTTCGTCAGCACGTCGCCAACGCCCGTAAGCTTGGCGTGACTGTTTCGGGACCGCGGATTAACGTCAGTGTGGAATCCTTCACCCTCCACGATGGGCGGATCTACTTTGGCCTGGCCGACATCAAGGGGGTCCGGCGTGACTTTATCGCTGCCATCATCGAGGAACGGACTAAGCGCCCCTATCAGGACCTCCGTGACTTTGTCAACCGCCTGGACGATCGCTGGAAGAAGCCGGAACTGATCGAACCCCTGATCTATGCCGGGGCATTTGACCAGCTTGGTTACAACCGGGCGGAGATGATTGCCGCCCTGCCAGAGCTGGTCTCCGGGATCGACCAGCTCCTCAGCAGCTTCCAGGACGACCCCAGTCTCCAGTCAACGATCACCAGGCGCGCAGAGTTTCCCCTGACGACCCGCCTATTGAAGGAGAACGAGTACCTAGGTGTCTACCTGTCCGGGCACCCGGTTGGCCAGTACCGGCGGCTGGCAACGGCCCTGCGTACTCAGACGATTGACCGCCTGCAGCCGGGGAAGGAGGCAACCATCCTCCTCTTCGTCAACCACGTTAAGACGATCTACACCAAACGGGACCACCGCCCAATGGCCTTTGTTTCCGGGTCCGATCAGACCGGGACCATCGACGTGACCGTCTTCCCCAAGCAGTACCAGCGCTTTGCCGACTTGCTGGTCGATAACCAGGTCCTGGTGATCCGCGGTCGGGTTGAGGTCCGTGCCGGGCGGGGGACCCAGCTTTTGGCCGACCGGATTCAGGATGCCCGAACCCTGCAGGGACAGTTGGCGCCTAACCAACGCTGGGTGATCCGGGTCTTCCCCGACCGGGCCAATCGACAAACGATGGTGGCCTTAAACGAACTGATGCATGCCCACCACGGCAATATCCCGGTCCTGCTCTATTATCCCGAAACGGGTGCCAGGCACCGCCAACCGCAAAGCAAGTGGCTGGATCGAAAGTCCACGACCGGGGCCGCCTTGAAGCAGTTGTTCGGGGACGGTAACGTGGTTCTGCAGACCCTGAAAAATTAA
>SRR1151252_00112 hypothetical protein
ATGACTTACATGAACGTATTATCACGGAACATCATGGCCGGGATCTGGGCACTGATCCTCGGTGAGGTTTTAGCCTACATCACCGGTCAGCTCGAAGGCATGACACCTGACTACACGATGGTTGGGATCCTGGCCGTTGTCATGGCCCTGATCGCTGTCAATGCAGTGACGGCCATCACCGAGAGTGCCAACCCAGCTAAGGACAATAAGTAA
>SRR1151252_00113 peptidase T
ATGGTGAATGAAAAGTATGATGGTTTATTATCCCGATTCTTGAAGTACGTCAAGACCGAGACCCGGTCGAACCCAGCGTCCGATACGGTGCCGTCCGACCCCAAGGAGATGGCGTTCTTAAATGAACTGGCAGGGGAATTGAAGGAGATTGGCCTGGATGATGTCCACATCAACCAGCAGAGTTCCTACCTGATGGCCACGATTCCGAGCAACATTGATTACCCGGTCCCGACGATCGGCCTGATCGCTCACGTTGACACGGCGGACTTCAACGCCCACAACGTCAGTCCCCAAATTGTTGAAGACTACGATGGGCACGCCGTTATCAAACTCGGTGACGGTGAGTACCAGCTCGACCCGGCAGATTTCCCGTCTTTGAAGAAGTACGCGGGCGACACCCTGATCACCACTGACGGGACAACCCTGCTCGGTGCCGATGATAAGTCTGGAGTGGCTGAGATCGTGACGATGGCCGCCTATCTGATGAAACATCCGGAGATCAAGCATGGCCAGATCAAGATCGGCCTGGGTCCCGACGAGGAGATTGGGACCGGGGCGGACCACTTTGACGTGGTGGACTTTGGCGCCGACTTTGCCTACACGGTTGACGGTGGCCCCCTCGGTGAGCTCGAGTACGAGACCTTCAATGCTTCTCAGGCGGAGATTGCAATCAAGGGGAACGATGTCCACACCGGGGTCGCCAAGGGGACAATGGTCAATGCCATCCAGGTAGCGATCGACCTCCACAACAGCTTGCCAGCCCACGAACGGGCAGAACGAACGGATGGCCGGCAGGGCTTCTTCCACCTCTACAAGTTTGATGGGACGGTGGATCATGCCGAGATGGTTTACCTGATCCGGGACCACGACAAGCAGACCTTCACCGAACGCAAACACCTGTTGGAGCGGGTTGTGGCCGGCCTCAACGACGAACTGGGGGAAGAGCGGGTCACAATGAAGCTCTACGACCAGTACTACAACCTGAAGGATGCCTTGAAGGATCACATGGATGTGGTGAAGATCGCCAAGCAGGCCATGGAAAACCTGGGGATCAAGCCCGACATCTACCCGGTCCGGGGTGGTACGGACGGGTCGACGATCTCTTACATGGGGTTGCCGACACCGAACCTCTTTGCTGGGGGCGAAAACATGCATAGCCGTTTCGAGTATGTTTCCCTCCAGACGATGGAAAGGGCCTTAGACACCCTCCTGGAGATCAACCGGCTGAACGTTGAAGAAAATAAGTAA
>SRR1151252_00114 Nif3-like dinuclear metal center hexameric protein
ATGACAGAAATTGATGGTAATACCCTGATTCAACGCTTTGAGCTGTTCGCCAGCCCCCAGCTGGCCGAGCACTGGGACCACGTTGGCCTGCAGTTAGGCAACCCCGACCGGCCGATCAGAAAGCTGATGACGACCCTTGACGTCCGTCCAGAGACCGTCCAGGAGGCCATTGACAATGGGGTGGACTTTATCTTTGCCCACCACCCGGTGATGTTTCACCCGGCCAAAGACCTCGATACCCGCAACCCACAGAATGCCATGTACGCCCGGCTGCTGGCCCACCAGATCACGGTCTACGCCGCCCATACCAACCTGGATACGGCTAACGGCGGGATGAACGACTGGCTTGCCACCCAGCTGCACCTCAGCAACTGCCAGCCCTTGGTGCCGGCTGGCAGCGATCCAGTTACCGGTCAACCGGTGGGAATGGGGCGGATTGGTGACTTTGCCGGCTCAATGAACGCCGCCGCCTTTGCCCGTTACTGCATGCGGACCTTCAACGTGGCCGGCCTCCGTCTGGTTGTCAACCCGGCCGACGCTGACCGGCTGATCCACCGGGTGGCCGTCCTGGGTGGGGCCGGCCAGGACTTCTACCAGCAGGCGGTCAAACGAGGCGCTGACGCCTACGTCACCGGTGACGTTAGCTACCACTTCGCCCACGACATGATCGCCAACCACCTGACCGTCGTCGACCCCGGCCACCATATTGAGGCGGTAGCCGAGCACGGCCTGGCGGCTTTGATCCGCGGCTGGCAGAAAGAATACGGCTGGGACTTTGCGGTGATTGAGAACCGGATCAACACGGACCCCTTCACCTTCATGGTGCAGCAGGATGAGAATTAA
>SRR1151252_00115 SAM-dependent methyltransferase
GTGAACGAGAAACACTTATCAAAACGTCTGGCGACCGTCGCCAGTTATGTGCCGGCCGGGGCGCGGATGGCCGACATCGGCTCTGATCATGCCTACCTGCCGGCGGCTCTGGCACTGACGAAGAAGATCAGCTATGCGGTGGCCGGTGAGGTCGTCAGGGGCCCCTATGAAAACGCGGTCAATGAGATCAAGGGACACGGCCTGACTGATGTGATCCAGCCTCGGCTAGCGGATGGCCTGGATGCAATCACAGCCGCCGACCGGATCGATACGGTCGTGATTGCCGGGATGGGCGGGACCCTGATCACCGAGATCCTGGAACGCGGGAAAGCACGCCTGGCGGGAGTTTCACGACTGGTTCTCCAGCCCAATGTCGGTGAGGCTCGCCTGCGACGGTGGCTGATGGCTAACCGCTACCAGATCGTGGCCGAGCAGATTGTCGGCGAGGATGACCACATCTATGAGATCATTATCGCCGAACCGTCGCTGGTGCCGTTTCGCTACAGCGATTATGAGCTGATGTTTGGTCCCCACCTGCTGGAGAAGAAGGGCCCGGTCTTCGTTGCCAAGTGGCAAGACTTTGCCAAACGGGAGCGGGGGGTCATCGCCCAGATCGAGCGGGCCCAGCAGGTACCGGTGGCGCGGATCACTGAGATGAAGCAGAAGTTAGCATTGGTAGCGGAGGCGTTAGACGATGACAGAAATTGA
>SRR1151252_00116 aspartate aminotransferase
ATGCCTGAATTAGCACACGATTTGTTAGGGACGATTAACCACCGGCTCGATGCCCAGAAGCCATCTGGGATCCGGGCCTTTGACCAGGAAGTTTCCAAGGTGCCAGGAATCATCAAGCTGACCCTGGGCGAACCGGACATGAATACGCCGGAACACGTCAAGCAGGCGGCCATCAAGAGCATCCAGGAAAACGATTCCCACTACGCTCCCCAGGCGGGAAAGCCAGAACTGCTGGCGGCGATCAGCAAGTACATCAAGGATACCCGGGGTGTCGACTATGACCCAAGTCAGGAAGTCGTGGTTACCGTTGGGGCAACCGAGGCTGTCGTGGCGGCCCTCTTTTCCCTGCTGAACACCGGTGATAAGGTGATCATTCCCACCCCAGTCTTCTCCCTGTACTTCCCACTGGTTGCCATGACCGGGGCCACTGCAGTTCAGGTTGATACCTCCGCAGATGGCTTCGTCCTGACGCCAGAACGCTTGGAAGAGGTTATCCAGCGCGAGGGCAAGGGGGTCAAGGCGGTCATGCTCAACTACCCATCCAACCCGACCGGCCGCGAATACCCGCAAGATATTCTGGCGGGCCTGGCCAAGGTCATCGCCAAGCACCACCTGTACGCGATTGCCGATGAGATCTACAGCGACCTGGTCTACGGGGTCAAGCACTATTCGATTGCCACAATGATCCCTGAACGGACCCTGTTCATCTCCGGCCTGTCCAAGTCCCATGCCATGACCGGTTACCGGCTGGGATATGTTGCTGGTCCCGCTCAGATCATGGCCAGCATCCGTAAGATGCACGCCTACCTGGTCACAACGGTCACCGATAACGTTCAGGCCGCTGCCGTTGAGGCTTTAAACAACGGTCGTCAGGATCCAGTTGACTTTCGTGAGACCTACGAACACCGCCGGGACCTGGTTGCTGAGGGTCTCCGCAATCTTGGCTTTGAGATGTCGACGCCGCAGGGGGCCTTCTACATCTTTGCTAAGATCCCGGATCAGTTCGGCAAGGACGATGTCACCTTCGCTAAGCGTCTGGCCACGGAGGCCCGGGTCGGCGTCACCCCGGGGAGTGCCTTTGGGGCCGGTGGTGAAGGTTACGTCCGTCTCTCTTACGCCTCATCCGATGAGGACCTCACGGAGGCCCTGCGCCGGATCGGTGAATTTGTCAAGAAACTGAATTAA
>SRR1151252_00117 RNA polymerase sigma factor RpoD
ATGGCAAAGAGTAAGAAGAAAGACCTTGTTATCTCAAATAGTGACAGCTTTGATCAGCATGAATACGACACTGCCGTTGGTAAACTGATTCGCCATTACAAGAAGCAAAAGGAAGTCAAGTACGACGAGCTGACCGAACAGATTGCCAAGCTCTTTGAACTGAACGCTAACGGGATCGACAACCTCTTGCAAAACGTCGAGGACGCTGGGATTAGTGTTGTTGACAATAACGGGGACCCTGACCCGCGGGCATTGAAGGCGACGGAGAAGCTGTCCCAGAGTGCGATGAAGGATACTTCAGCACCAACCGGCGTGAAGATCAACGACCCGGTTCGGATGTACCTAAAGGAGATCGGTCGGGTCAAACTACTGACGGCCGACGAGGAGGTTCAATTGGCCCTGCGGATCGAGCAGGGTGATGATGAGGCCAAGCAGGAGCTGGCCGAGGCGAACCTGCGGCTGGTGGTTTCGATTGCCAAGCGCTACGTCGGCCGGGGGATGCAGTTCTTGGACCTGATCCAGGAGGGAAACATGGGCCTGATGAAGGCGGTCGAGAAGTTCGACTACCGGCGGGGTTTCAAGTTTTCCACCTACGCTACCTGGTGGATCCGGCAGGCCATCACCCGGGCGATTGCTGACCAAGCCCGGACGATTCGGATTCCAGTCCATATGGTGGAAACGATCAACAAGCTGATCCGGATCCAGCGGCAGCTGCTCCAGGACCTCGGGCGAGAACCATTGCCTGAAGAGATCGGGGCCGAGATGGACATGCCAACGGAGAAGGTCCGTAACATCCTGAAGATTGCCCAGGAGCCGGTCTCCCTGGAAACCCCAATCGGTGAGGAGGATGACTCCCACCTGGGTGATTTCATCGAGGACCAGGATGCCACCAGCCCGGCTGACCACGCGGCTTACGAGATGATGAAGAAGCAACTGGAGAACGTCCTGGATACGTTGACCGACCGGGAAGAGAACGTCTTGCGCCTGCGGTTTGGCCTGGATGACGGCCGGACCCGGACCCTGGAAGAGGTCGGCAAGGTCTTCGGCGTAACCCGGGAACGGATCCGGCAGATTGAGGCCAAGGCCCTGCGGAAGCTGCGCCACCCATCCCGCTCCAAGCAGTTGAAGGATTTCCTGGAGTAA
>SRR1151252_00118 DNA primase
TTGGGTTGCGGCCTTTCGTTACTGTTCGCGAACCTAATCAAGTGGGGTGATTCAATGGCCAGAATACCACGTGAGATAATCGATCAAGTTCGTAATTCAGTTGATATTAGCGACGTCATTGGACAATACGTCCAGCTCAAGCGGGCCGGTAAGAACTTCACCGGCCTGTGTCCCTTCCATGAGGAGCAGACCCCGTCCTTTTCCGTCAATGCCGAGAAGCAGTTCTACCACTGCTTTGGTTGTGGGCGGAGCGGGAACGTCTTTCAGTTCCTAATGGACTACAAGCACATCAGCTTTGTTGAGGCCGTTCAGGAGGTTGCCAAGCTGGGGGGCACCACGCTGCCGAGCAGCTACACGGCTGATTCCACTCCCCAGCAGACCAGCCCGGTTGACCGGGAACAGGGTCAGCTTCTGGACCTCCATGACAAGGCGGCCCAGCTGTACCACCACATCCTGCTCAACACCCCTGCTGGGGAGCCGGCCCGGCGCTACCTGCAGAAACGTGGAATGTCGCGTGACCTGATTGAAAAATTTGGGATCGGTTTTGCTCCCGTCCAGCGGATCTTGGCCCCGTACTGTGCCCAGCAAAAACTTGATTACCAGCTGATGCGCAAGTCCGGGCTCTTCACCGAGGATCGCGACGGCAAGCTGCAGGACCGGTTTGTCGAGCGGGTGATGTTCCCGATCAGAAACGCTCAGGGAAAGGTGATCGCCTTCTCCGGGCGGCTGCTTAACACCGCCCAGACAGACCTGCCTAAGTACCTTAACAGTCCGGAGACCCCGATCTTCAACAAACGGCGGACCCTCTTCAACCTGGACTTGGCAAAGAAGGCCGCCCGGGATGATGGGCGTCTCTACCTGTTTGAGGGGTTCATGGATGTGATCTCGGCCTTTGGTGCCGGTGTCGAGAACGGGATTGCCTCGATGGGGACCTCCTTCACGTCGGAGCAGGTCCAGATCATCAACCGGACGACCAAGCAGCTCGATATCTGCTATGACGGTGATTCGGCCGGGCAAAACGCAATCGACCGGGCAATCAGCCTGGTCCAGGACCACCAGAACGGCCGCCTGAACGTGCAGGTCGTTCAGTTGCCGGCGGGGGTCGACCCAGACGAGTACGTTCAGCAGAACGGGGCCGCTAAGTTCCGTGAATACGTGCATGACCAGGAGGAGACAACGACCGATTTCTACCTTCGTTTTCTGCGCAACGGCCGCAACCTGAATAACCAGCAGGAACTGATGGCCTACCTGGATGCGGTCCTCAAGGAAATTGCCCGCCTGGATACCCCCCTGGCCCAGGACATGTACCTGAGCAAGCTGGCCGACGAGTTTAAGCTGGACAAGGCCGCCCTGCAGGGGCAACTGCGTCAGTTCCAAGGTGAATTACACCTGCAGCCAACCCAGCCAGCGCAGTCCTATCAGGAGCAGGCGGCAATTGCGTATGCACCACCGGCCCAACCGACCACGGTTAAGATCGACCGCACCGAGCTGGCCGAGCAGATCCTGCTCCGGTACATGCTCCATGACCCCAACGTCTGGAGCCATGTCCGGGCCCAGGATCACTTTCACTTCATCCACGAGAAATACGAATCCCTGTACATGGTTGCCAGCAGTTATTTCTCGGAGTACGGTGATTACACAACGGCCCGCTTCCTTGATTATCTGGCGGCTTACCCTGACTTGCGGACGACGCTCAGTCAGGTCGAACAGCTGACGGTAAACCCGGATGTGGACATGCAGGTGATCGACGACTGCCTACGCACCCTGACCCAGCAGACTCCCCTGCAGGATCAGATCGAGCAGGTCCGCGCCCAGCTCAAGGAGGCCAGTACCCTGAATAATACCGAGCTGGCCACCCAGCTGACGGTTAACCTGATTAAACTACTAAAGAAGCAACAACAGTATAAAGCGGAGGAGACTAAATAG
>SRR1151252_00119 glycyl-tRNA synthetase beta chain
ATGGCTAATTCATACTTATTAGAGGTCGGCGTCGAGGAAATGCCTGCTCACGTGGTCACGCCAAGCATCAAGCAGCTCCATCAGCGGGTGGCCGACTACCTAAAGAAAGAGCGAATCTCATTTGACAATATCAAGGAATACGCCACCCCACGGCGGATGGCCCTCCTGATCTCCGGCCTGGCCGACAAGCAGCCTGACATTGACGAGTCCGTCAAGGGCCCGGCCAAGAAGATTGCCCAGGACGCCGACGGTAACTGGACCAAGGCGGCGATCGGCTTCACCCGGGGACAGGGCGCCACGGTCGACGATATCGAGTTTAAGGACGTCAAGGGCGTCGAATACGTCTTCGTCGAGAAGCATATCGCTGGAAAGCCAGTCGCTGAGGTTCTTCAGGGCCTGCCGGACGTCATCACGGCGATGAACTTCCCAACCCTGATGAAGTGGGGTTATAACAACCTTCAGTTCATCCGGCCAATCCGTTGGCTGGTCTCCCTGCTCAATGACCAGGTCGTACCGTTTAAGATCCTCGACGTTGAGGCGGGGCGGACGACCAAGGGCCACCGTTTCCTGGGTCATGATGTTGAGCTCAAGCAGGCCACCGACTACGAGGATGCCCTCCATGACCAGTTTGTGATTGCCGACCAGGCAAAGCGTAAGCAAGTGATCACTGACCAGATTGACGCCATCGTCAAGGAACACGACTGGGTTATCGACAAGGATGCCGACCTCCTGGAAGAGGTCAACAACCTGGTTGAATGGCCGACCGCCTTTGCGGGCTCCTTTGACCCCAAGTACTTGGTCCTTCCCGACGAGGTCTTGATCACCTCAATGAAGGATAACCAACGCTTCTTCTACCTTCGTGACCATGACGGCAAGCTTCTGCCGCACTTCATCGCTGTCCGTAACGGGAACGATGAGTACCTGGATAACGTGATCAAGGGGAACGAGCGGGTGCTGGTTCCGCGGCTGGAAGATGCCAAGTTCTTCTATGAGGAAGACCAGAAGATCACCATCGATCAGTACGTCGGCCGGCTCAAGCGGGTCAGCTTCCACGACAAGATCAGCTCGATGTATGATAAGATGCAGCGGGTGGCCGTCATCGCCCGCCTGCTCGGGGAACGCCTTGGCCTCAGCGATGACGAACTGGCCGATCTCGACCGGGCCGCCCACATCTACAAGTTCGACCTGACCACCCAGATGGTCGGCGAGTTTGCTGAACTGCAGGGGATCATGGGTGAGATCTACGCCAAGATCTTCGGCGAGAAGGACGATGTCGCCACCGCCATCCGCGAGCACTACATGCCAATCTCTGCCGAGGGTGAACTCCCGCAGACCAAGATTGGCGCCATCCTGGCCGTCGCCGACAAGCTTGACAGCATCATGAGTTTCTTTGCCGTCGGTATGATTCCGTCCGGCTCCAACGACCCGTATGCCTTGCGTCGTCAGGCCTTTGGGATTGTCCGGATCATCAATGATCGCAACTGGCACCTGCCGCTGATGGGGATGCAGGATGCGGTCATCGGCGCCTTTGGACAGGCCGGTCTGCAGATTGACTTTGACTTGACCGCCAACCAGGACCAGGTGCGGGCCTTCTTCCTCGACCGGCTCAAGCAGCTCTTTGCCGGTGAGAAGCTGCGTCACGACATTGTCGACGCGGTTACTGATACCCAGGGAGTCGACATCGCCAACGTGATTGAGGCGGCCCAGGCCATTGACAGTCACAAGGACGATGACAACTTCAAGGAGGCGGTTGAGGCCCTGACCCGGGTTCTGCGGATTGCCAAGAAGGGTAAGTTCGGTGATGCAATGCCGGGCGTCAACCCGGACCTCTTTGTCAACCCATCTGAACAGCAGCTCTACGACGCCGTCAACGCGGTTAAGGAGCAGTTTGCTGACCGGACCGTGGCCGAAAACTTCACCGCCCTGCGTGGCCTGGCACCCGTGATCAGCACCTACTTCGATGAGAACATGATCATGGACAAGGATGCGGCCGTTCGCCAGAACCGGCTCGCCCAGCTGACCATCCTGGCCCGGCTGGCGGCCGTGGTGGGGAACCTCAACGACCTGATCGTCAAGTAA
>SRR1151252_00120 glycyl-tRNA synthetase alpha chain
ATGACGATGACAACGAAGAAGCTAAGTGTCCAAGACATCATCTTTACACTTGAACAGTACTGGGCCAAGCAGGGCTGCATGTTGATGCAGGCCTACGATACCGAAAAGGGGGCCGGGACGATGAGCCCCTACACCTTCCTGCGCGCCATTGGGCCGGAACCGTGGAACGCAGCCTATGTTGAACCATCCCGGCGGCCAGCGGATGGTCGTTACGGGGAGAACCCCAACCGGCTCTACCAGCACCACCAGTTCCAGGTGATCATGAAGCCATCACCGGACAACATCCAGGACCTCTACCTGGGGAGTTTGCGTGAGCTCGGCATCGAGCCCCTGGAGCATGACATCCGCTTCGTTGAAGATAACTGGGAGAACCCATCGATGGGTTGTGCCGGTGTTGGTTGGGAGATCTGGCTCGACGGGATGGAGGTCACCCAGTTCACTTACTTCCAGGTTGTCGGTGAGCTGCCGATGAACCCGGTGGCCTCCGAGGTTACCTACGGGCTGGAGCGACTGGCTGAATACATCCAGAACGTTGATTCCGTTTACGACCTTGAATGGGCCGACGGGGTCCTCTACGGTGATATCTTCAAGGAACCGGAATACGAGCACTCCAAGTACGCCTTTGAGGAGAGCAACCAGGAGATGCTCCTGCAGGCCTTCAACGACTATGAGGCCGAGGCCAAGCGCCTGATCAAGCTCGGCCTAGTTCACCCGGCCTATGACTACGTTCTGAAGTGCAGCCACACCTTCAACCTGCTCGATGCCCGGGGTGCTGTCTCCGTGACCGAGCGGGCCGGCTACCTGCACCGGATTCGGATCATGGCCAAGTCGATTGCCAAGGCCTTCGTCGAGGAACGGCGCAAGCGGGGCTTCCCACTGATCCATGACGACAAGCTGCGTCAAAAGACCCTTGATGAATACACCAAGAAGGCCGAGCAAGAGAAGCAGCGGGCAGCAAAGAAGGCTGCTAAAAAGGCAAAGCAAGCACAGAAGGGGGACAAGTAA
>SRR1151252_00121 DNA repair protein RecO
GTGGCTAGAGAAGTGACCGACTTCAACGGGATCATCATCTACCGGCAGGACTACCGGGAGCGCGACCTCCTAGTGAAGATGCTGACTGATAAGATCGGCCCGGCGATGTTTTTTGTCAAGGGGGCCAAGAAGCGGGGCTTTCGCCTGGCCGCTGACATCCTGCCCTTCACCCACGGCAGCTACATTGGCTCGCTGGCCGATGACGGGTTGAGCTTCATCAACGTCGCCAGCGAGACCCACCAGTACCGTAATATCATTGCTGACATCAGCAAGAATGCCTATGCCACCTATATTCTCTCTTTGGTTGACCACGCCTTTCCTGATGGCCGGAGCATCGGCGGGTGTTTTAACCAGGTGGCGGCGGCCCTAGAGCGAATCGACCAGGGAGTCGACGAGCAGGTAATCGCCAACGTGATTGAGATCCAGCTGCTGACGATGTTCGGGGTGGCCCCTAACTGGGACCGGTGCGTGGTCTGCGGCCAGGATCAGGGCCCCCTTGACTTTTCCGAGGAGTCCGGGGGGATGCTGTGTAGTCGGCACTGGTACCTGGACCCGCGCCGACTACACCTCGACCGGCGAACCGTCTACTTTCTCCAGCGCATGGCCCACGCCAACCTCCAGCAAGTGCGCAAGATTAGTATCAACCCGGTGACCAAGCGCCGTATCCAGGCAGTCCTCGACACCATCTACAACGACCAGGTGGGCCTGAAGCTGAAGAGCAAGCATTTTATCGACGAGATGCACCGTTGGGAACAAAAGATGGGGAATTTGTCGACAAATGATTGA
>SRR1151252_00122 GTP-binding protein Era
ATGGATAATCCAGAATACAAGTCCGGCTTTGTCGCCCTGATTGGCCGGCCCAACGTCGGTAAGTCGACGCTGTTGAACTACATCGTGGGTCAGAAGGTGGCCATCATGAGTAACGTGGCTCAGACTACCCGAAACAAGATTCAGGGGATCTACACCAGTCCCGAAGCCCAGATCATCTTCATCGATACGCCGGGGGTCCACAAGCCGGCCACCAAGCTGGGCGACTTCATGGAACGGTCAACGATGTCGGCACTCGACGAGGTTGACGCCGTCCTCTTCGTGGTCAGCGCCACGGAGAAACGGGGGGCCGGGGATGACTTCATCATCGACCGCCTCAAGCAGGTCAAGCAACCGATCTACCTGGTAGTCAACAAGATCGACCAGGTCAGCCCCAACGACCTGCCGGACATCGTGGCCCAGTACCAGGACGCCCTGCCGTTTGCGGCGGTCGTGCCGATCTCGGCTTTACAGGGGAACAACGTTAACGACCTCCTGAACAAGATCATTGCCGGTCTGCCCCACGGGCCCCAATACTACCCGGCCGACCAAATCAGTGACCACCCCGAACGATTCGTGGTTGCCGAGATGATCCGGGAAAAGATCTTCATGCTGACCAGGGAGGAGGTCCCGCATTCGGTCGCGGTCGACGTCACCTCGATCAAGCGTGAGGACGAGGAGCACATCCACATCTCGGCCAACATCATCGTGGAGCGGCCTGGCCAGAAGGGAATAATCATCGGTAAGAAGGGGCAGATGCTCAAGAAGATCGGGACGATGGCCCGCCAAGACATTGAGCGCCTGCTCGGCGACCGGGTCTTTCTCCAACTATGGGTCAAGGTGGTTCCCGGCTGGCGTGACAAGTCTGCCATGCTGAAAGACTACGGCTACCGAAACAAGGATTACTAA
>SRR1151252_00123 diacylglycerol kinase
ATGAATATGGGCTCAAACGATAAGCACCAGGTGACCAAGAACCACCACCTCTTTCAGGCGATGGGCCATGCCTTCGACGGGATTGTGGCAATGCTCAGGGAGGAGCGCAACATGCGTTTCCACGTCTTGGCAGCCATGCTGGCGGTCGTCATCGGCTGGTACCTGAAGATTAGTACCGAAGACTGGCTTTGGATCCTGCTGGTGGTCTTCTTGGTCTTTGCGGCTGAATTCTTAAACACGGTCACGGAGGCGGTCACTGACCTCCTTTCCAACCACCATTACGACATCAACGTCAAGAAGGCTAAGGACGTGGCGGCTGGCGGGGTCCTTTTGGCGGCCCTCTTTGCGGTGGCTGTGGGTCTGATCATCTTCGTACCACGCTTTTACGCATTAGTCACTTTTACGCATTAG
>SRR1151252_00124 16S rRNA maturation RNase YbeY
ATGGACCTGACAATTTACGATCAGACAAGTAGCGGCATCAGCCAGGACCAACATGACCTGGTTGAGCGGGTCCTGCAGTTTGCTGCCCAGAAGCTCAAGTTGGCCGACGCGACTGAGATGTCGGTGACGTTGATGAATAACCCGGCAATCAAGAAGATCAATGCCCAGTACCGGGGGGTTGACCGGGCCACCGACGTCCTCAGCTTTGCGGCAGAGGAGAGCGGCGCAGAGTCACCAATCATCATGGATCCCGAATTGGCGGCCGAACTACCGACCAACCTGGGGGACCTCTTCATCTCGGTGGATAAGGTGGCTGAGCAGGCCAAATTCCTCGGTCATTCGCCGGAACGGGAGCTGGGCTTTTTGCTGGTCCATGGTTTCCTCCACCTGAACGGCTACGACCATGAGCAGCCAGCGGATGAAAAGAAGATGTTTGCGCTGCAACGGGAGATTCTCGATGAATATGGGCTCAAACGATAA
>SRR1151252_00125 phosphate starvation protein PhoH
TTGGTAGAAAAAAACGACGAGATTGAACAGACATTTCAGATCGAAAGTCCCGAGATTGAGGTCGGCATCCTCGGTCCCCAGGATAAGTTTGTCAGCCTGATCGAGCAGGGGATGGACGTTACCATCAACCCCTTTGGCGACAATCTGAAGGTGAAGGGACGTACGGAGGACGTCAAGATGGCGGTGGATGTCTTCCACGCCCTGATCAACCTCCTGAACCAGGGGATCCGGATCCATAGCACCGACATCGTCAGCGCAATGAAGATGGCGCACCGGGGGACCCTAGAGTACTTCGCAGACCTCTACAGCGAGACCATCATCAAGGATCGCCGTGGTCGGGCCATCCGGGTGAAGAACTTCGGTCAGCGCCAGTACGTCAACGCCATGAAGCATAATGACATCACCTTTGGGATCGGCCCCGCTGGTACGGGGAAGACCTACCTGGCCGTGGCCATGGCGGTGGCGGCCCTGAAACGGGGGGAGGTTGAGCGAATCATCATCACCCGACCCGCCGTTGAGGCCGGAGAGAGCCTTGGCTTTTTGCCCGGTGACCTCCAGGAGAAAGTCGACCCCTACCTGCGGCCAATCTATGACGCCCTAAATGATATCTTTGGTCCCGACCACACCCAACGGCTGATGGAGCGGGGCGTAATTGAGATCGCTCCTTTGGCATACATGCGGGGGCGGACCCTGGATGGGGCCTTCATTATTCTCGACGAGGCCCAGAACACGACCAATGCCCAGATGAAGATGTTTTTGACCCGGTTTGGCTTTGGCTCCAAGATGGTGGTCAACGGGGATGTCTCCCAGATCGACCTGAAGCATGGGGTTCGCAGCGGCCTGGTCAGTGCCCAGCGGATCCTCCAAGGTGTCCGGTCGATCAAATTCGTGACCTTCAGTGCCGAGGACGTGGTCCGGCACCCGGTCGTTGCCCGGATCATCACCGCCTACGAGGAAGCGGTAACGAAGAAGAAAGCAAAGGAGGAACAGACGGATGGACCTGACAATTTACGATCAGACAAGTAG
>SRR1151252_00126 argininosuccinate lyase
TTGAGTACTGAGTTACTGGGTTTTGACCACCCCTACGCCAACTCCTTAGATGCCGTCTCGGACCGGGACTTTGCCCTCGAATTTTTGAGTAACGCCAGCATCCTGATGGTCCACCTTTCCCGACTGTGTGAGGAACTGATCTACTGGTGCAGCTATGAGTTTGGCTACGTTGAGCTGGCCGACCAGTATGCGACGGGGAGTTCGATCATGCCCCAGAAGAAGAATCCCGACATGGCAGAGTTGATTCGGGGCAAGACTGGGCGAATCTTTGGCGACTTAACGGGCCTGCTGACGGTGATGAAGGGTTTGCCACTGGCCTACAACAAGGACATGCAGGAGGATAAGGAGGGGGTCTTTGATGCGGTCAAGACGATTATCCCGAGCCTGCAGGTGATGACCGGGATGATCAAGACCCTCCGCATCAACCGGAATCGGATGGAAGAGGCTACCCACCATGACTTCTCCAACGCCACCGAGCTGGCCGACTACCTGGCCACCAAAGGGATTCCCTTCCGGCAGGCGCACGAGATTGTCGGTGAACTGGTACTCAAGGGCCTAAAGACCGGGACCAACCTGGCCGACATTCCACTAGCCCAGTACCAGGAGATCAACCCACGGATCACTGCCGACGTTTATAAGATCCTCAAGCCCGATACGGCGGTGGCCCGGCGGCACTCGCTGGGTGGAACGGGCTTTGACCAGGTCAAGCAGCAGATCGCGGCGGCCAGAGAAGTGATTGATCAGAATCAGCAGGAGTAA
>SRR1151252_00127 hypothetical protein
ATGAGTTTACTAAAGCAATTACAGACTGACATGATCACCGCGATGAAGAACCGGGACAAGGATACCCTGGCCGTCGTTCGGATGCTGAAGGCGTCGGTGCAAAACGCCCAGATTGAGGCGGGCCATGACCTGAGTGCCGACGAAGAGGTGGCTGTAATGTCACGGGAATACAAGCAGCGTAAGGAATCATTGGAGGAGTTCAAGAAGGCTGGTCGGCAGGACCTGGTCGACAAGACCAACACCGAGATGAAGGTTGTCGAAAAGTACATGCCAAAGCAACTCTCCGCTGACGACGTCAAGAAGATCGTCAGCGAGACGGTCCAGCAGGTCGGTGCGGCTAGCATGAAGGACTTCGGCAAGGTCATGGGGGCTGTGATGCCGAAGGTTAAGGGGCAGGCCGATGGAAAGCTGGTCAACCAGACCGTCAAGGAGACCCTGAGTAATCTCTAA
>SRR1151252_00128 30S ribosomal protein S21
ATGTCAAAAACAGTCGTTCGTAAGAATGAATCTTTAGACGACGCTCTTCGACGCTTTAAACGTTCAGTTTCACGTAACGGAACTCTGCAAGAATACCGCAAGCGTGCATTCTACGAAAAGCCTAGTGTACGACGGAAGTTGAAATCTGAAGCGGCACGGAAGCGCAAGAACAAGCGTGGTCGTCGTTACTAA
>SRR1151252_00129 amino acid ABC transporter substrate-binding and permease protein
ATGAAACATCTCAAGCAATTATTCATGCTATTCATCCTGTGCTGCTCACTGGTGATACCGAGCACGGCCCTTGCGGCCACCAATGCTAGTTCATCATCCAGTTCCAGCAGCGCCGTCAGCTCATCAAGCAGCAATCAGGCAGCCACGGATGATTCACTACAGAAGATTAAGCAAAAGGGCACCCTGGTGGTCGGCATGAGTGCCGACTACCCGCCCTACGAGTTCACCACTAAGAAAAACGGCAAGACCGAGTACGTCGGCTTTGAGGTCGATCTGGCCAAGCAGTTTGCCAAGGACCTGGGTGTCAAGCTGGTGATCAAGAATATGGACTTTGATTCCCTACTCGTCGCCCTTGAGACCGGAAAGATTGACACGATCATCTCCGGAATGAACGTCACCAACGAGCGTAAGAAGAGTGTTGACTTTTCCAATACCTACTACTCCGGAAATAGCTACTTCCTGATCAATAAGGCCGACCATGACCGGTTCAAGAAGGCTACCGACTTCAAAGGTAAGACCGTCGGCGCCCAGAACGGGACCCTGCAGTCGACAATGATCGACAAGAGTATGCCAGGCGTCAAGAACAAGGGGCTGGCCAAGCTGTCCAACCTGGTCATCGGCCTGCAATCCCACAAGGTCGACGCCGTCCTGATGGATGAGGCCACCGCTAAGGCATATGCGGCCAACAACTCCAACCTGGTCACCTTCAACTCGAAGCTACCGTCAACGGCCGGTGACATCGCCATGGCCTTCCCCAAGGGTGACAAGTCCCTGGAAGCCGCGGCCAACAAGACGATCAAGCAAGTCAACGACGAGGACCTGATCAACAAGCAATGGATCCCCCAGGCTTCCAAGTACATGAAGTCCTACAAGAAGCAGAACACGGTCCTCTCCTACTGGCGTTACTTCGCCAAGGGGGTTGAATACACCCTGATCATCACAATCGTCTCCGTCATCTGTGGGTTCATCCTCGGTACCCTCTTCGCCCTGATGCGGTTGTCCAAGAACAAGTTGCTCCACTCATTAGCGGTTTGCTACATTGAATTCCTCCGGGGGACCCCAATGATTGTTCAGATCATGTTCGTCTACTTTGGGATTGGGGCCGTCATCCAGTCGATGCCCGCCCTGGTTGCCGGGATCATTGCCGTCTCGCTCAACTCGGGGGCCTATGTTGCCGAAATCATCCGTTCCGGGATTCAGTCAATTCCGGTTGGGCAGACCGAGGCGGCACGGAGCCTGGGCATGAGCAAGCAGACGACCTTCCAAGAGGTCATCATGCCCCAGGCCCTGAAGAACATCTGGCCGGCCCTGGGGAACGAGTTGATCACCCTCTTGAAGGATAGTTCCCTGGTCTCCGTCATCGGGGTCAGCGAGCTGATGTATCAGACCCAGCTGGTCCAATCTGCCACCTACAAGGGTGTTCTCCCGCTCTTCATCACCATGCTGATCTACTTCGTACTGACCTTTACCCTCTCCCGGATCCTGTTACACTTTGAAAGGAAGATGAAACATGCCCACTAA
>SRR1151252_00130 amino acid ABC transporter ATP-binding protein
ATGCCCACTAAGATGATTGAAGTCAAAAACCTGCAGAAAAAATTCAAGAATAATGTGGTCTTAAAGGAAATCACCGAGCACGTCGACCAGGGCCAGGTGATCTGCGTCATCGGACCATCTGGAGCCGGGAAGAGCACCTTTCTCCGTTGTCTCAACGCCCTGGAACAGCCGTCCAGCGGTCAGGTGCTCTTTGAGGGCCAGAACCTGGTGGGCCTGGATGATAAGCAACTCGACCAGATTCGCCAGAAGATGGGGATGGTCTTTCAGGGCTTCAACCTTTTCCCAAGCATGACCGTTCTCAAGAACATCATGATCGCCCCGATCAAGGTCAAGAAGACCAGCGCAGAAGATGCCAAGCAAACCGCCATGAAGCTCCTGGCCAAGGTGGGCCTAGCCAACAAGGCCAACCAGTATCCTGACCAGCTCTCCGGGGGGCAAAAGCAGCGGGTTGCCATTGCCCGGGCCCTGGCGATGGATCCGGCGGTAATGCTCTTCGATGAACCAACCTCAGCCCTGGACCCCGAGATGGTTGAAGAGGTCCTGAAGGTCATGCGGGACCTGGCCGACTCCGGGATGACGATGGTCGTCGTCACTCACGAGATGGGCTTTGCAAAGGAGGTGGCCGATCAGATCTGGTTCATGGCCGATGGCTACATCCAGGAGACTGGCCAGCCAGACGACTTCTTTGACCATCCGACCAGCCCCCGGGCACAGGAGTTCTTAAAGAAGATTTTGAAATAA
>SRR1151252_00131 glycerate kinase
ATGGCCACGGGAATTCGCCGGGTCTTTCCAAGGGCCGAATATACCCTAGTACCGATGGCCGATGGTGGTGAGGGGACCGTGGCGGCTCTAGTTGATGCGACCGGGGGACAGCTGGTTCAAGTACCGGTCCATGATCCCCTTGACCGGGTCGTCACGGCAAGCTATGGCCTGCTTGGCACCAGCAACACGGCGGTGATTGAGATGGCCGCCGCAAGCGGGATTCAGTTCGTCGATGCGCAGACTAGTAACCCGCTGTTGGCCTCGACTTACGGGACCGGCGAACTGATTAAGGATGCCGTTGCCCGCGGTGTGGACCGGATTATCATCGGCCTGGGCGGCAGTGCGACGGTTGATGGGGGTGCCGGAATGGCCCAGGCCCTGGGGGTCCACCTCCGGGATGAGGCGGGACAAGAACTCCCCCATGGCGGTGGGGCCCTCACGCACCTTACGCGGGTTGACATGAGTGAACTGGATCCGAGATTGCACCAGGTGGAGATCCTCCTAGCTGCCGATGTCACCAACCCCCTAACCGGGTCAGAGGGGGCTGCACGGGTCTTTGGACCGCAGAAGGGCGCCACCCCGGCGATGGTGACCATCTTAGAGCGGGGACTGGCCCACTTTGCCACGGTTGTGAAGCACGACTGTTGCCGTGACCCATCCCGAAAGCCAGGTGCTGGGGCCGCAGGGGGGCTCGGCTTCGGCCTGCTGGCTTTCACCCATGCCGAGGTGAAGCGGGGGATCGACCTGGTCCTCCAGTACACCGACTTTGCCCGGCAGGTCGTCGGGGCGGATTACGTCTTTACCGGTGAAGGCCAGGTTGACTTTCAGACCGAATTCGGCAAAACCCCGTTGGGCGTGTCCCGGGCTGCTCGTCAGGTAGTTCCTGGCGTTCCGGTGATTGCCTTGGCCGGGAGCTTGGGGTCGGGTATCGATGCATTGGATGACGACTTCACGGCCGTCTTTGCCGCACCCAGCGGCGCCAAGGACCTCCACCAGGCGATTGCCGACGCTCCCGCCGACGTGGCCCTGACGGCGGAAAATGTTGCTCGTTTGATTAAGCGGCTCAAATAG
>SRR1151252_00132 aspartyl-tRNA synthetase
ATGAAGAGAACCAATTATTGTGGAGATACCAACGAACAGCAGGTTGGTCAAGAGGTCGTCTTAAAGGGCTGGGTTGCCAAGCGGCGCAACCTCGGTGGCTTAATCTTTATCGACCTCTGGGACCGGGAAGGCATTGTCCAGTTGGTCTTCAACGAAAAGGAAAATCCGGAAGCATTTAAGGTGGCTAATGCCGTCCGTAACCAGTACGTCCTGGAGGTTACTGGGAAGGTCCAGCCACGAGCCGAGAAGGAAATCAACCCCGACATGAAGACCGGGAAGGTAGAAGTGGCGGTTGAAAAGGCCACCGTCCTGGCCCAATCCGAGACGACGCCGTTTGATATCACGGATGGGGTTGACGCCTCCGAAGACCTACGGATGAAGTACCGTTACCTGGACCTCCGCCGGCCCGAGATGATGAAGAAGCTGATGTTGCGTTCTAAGGTGACCCACGTCATTCACCGTTACTTTGAAAAGAACGGCTTCCTCGACGTTGAAACCCCCGACCTGACCCGGTCAACGCCAGAAGGGGCCCGGGACTACATCGTGCCTTCCCGGGTCTACCCTGGTCACTTCTACGCCCTGCCACAGTCACCACAACTGTTCAAGCAGCTGCTGATGGCGGCTGGGGTCGACAAGTACTACCAGATTGCCAAGTGCTTCCGGGACGAGGACCTGCGTGGTGATCGGCAGCCCGAATTCACCCAGGTCGACACGGAAATGTCCTTCGCCACGCCACAGGACATCCAGGACATGACCGAGGGGTTAATCAAGGACGTCATGAAGGAAGTCTTAGGTGTCGACGTCAAATTGCCGTTCCCACGGATGGAATGGCAGGACGCCATGGACAAGTACGGGACCGACAAGCCGGATACCCGCTTTGGTATGCTGATCCACGACTTAAGCGACATCGTCAAGGACTCTTCATTCAAGGTCTTTTCTACGACAGTGGCAAACGGTAACTACGTCCGGGCCATTGCGGTGCCGGGTGGGGCCGACAAGTACTCCCGTAAGGATATTTCCAAGCTGGAGGATTACATCAAGCGTTACGGTGCCAAGGGCCTGGCCTGGGTCAAGGTTACGGACGACGGCTACAGTGGCCCGGTTGCCAAGTTCCTTACTGATAAAGCCGACGCTATTAACCAGGAACTCGGTGCCAAGAGCGGTGATTTGATCCTCTTCGTTGCCGGCAGCTTCCACGTGGTCTGCGATTCCCTGGGTTACTTGCGGCGTCACTTCGGGCACGAGCTCGGCTTGACCAACCCGAACCAGTGGAACTATGTCTGGGTTGTTAACTGGCCAATGTTTGAATACGACGAGGGCTTTGGCAAGTGGATTGCGGCTCACCACCCGTTCACCATGCTGAACCCTGAGGACCTCCACTACTTAGAAGACGGCGAGGACCCGCACAAGGCCCACGCCCAGAGCTATGACATCGTCTTAAATGGTCAGGAGATTGGTGGGGGCTCGATCCGTATCCACGATCCAAAGGTTCAAGAGAAGGTTTTGAAGGCTCTCGGCTATACCAAGGAACGTGCCGAGGCCCGCTTCGGCTTCCTGCTCAAGTCCCTCACGCTGGGGATGCCGCCGGAAGGGGGACTGGCCATCGGGCTCGACCGCTGGGTAATGTTCCTGTCCCAGGCCGACAACATCCGGGACGTCATCGCCTTCCCGAAGAACTCCAAGGCCGTGGAACCACTGACTGCCGCCCCTGGCAAGGTTAGCCAGCAGCAGCTTGACGACCTGAAGATTGAATTCGGCAAGGACGTTGACTACAAGCTGGACAAGTAA
>SRR1151252_00133 aminoglycoside phosphotransferase
TTGAGTACGTTAAATCATCAGTGGTTCCAGCAGCTACCATTCAAGCAATTGACCAGCTATCAGCCCGTCAGTGGTGGTGACATCAACGAGTCCTACCGTATCGAGGCGGATGGTCGATCCTACTTCATCAAGGTCCAGCCCAACCAGCCGGCCAAGTACTTTGCCCACGAGATCAACGGGCTAAAGGCAATCGGTAAGGTCACTAACACCCCAACCCCCGTCCACAACGGGGAGATCAACGGCAATGCCTACCTGGTCTTAAATTGGCTAGACGAGAGCACCGGCAGCCAAGCCGACCTCGGCCGGGCCGTCGCCACCATGCACCAGCAGTATAGTGCCAATAACCAGTTTGGCTTTACCGATAACCACCGTACCAAGGCCCTGGTCAAGGACAACTCCTGGAACAGCAGTTGGCGCGACTTCTATGTCCACCAGCGTCTCCTCCCCGAGGTCCAGGTGGCCAGTGACCGCGTCCGCTGGAACCGGTGGCGCCAGGAGCACTTCGCCCAGATGGTCAAACAATTCAACGCCTACTATCAAGGCCATGACATACGACCAAGCCTGTTGCACGGTGACCTCTGGGCGGGTAACTTCATGTTTGCCAACGACCAGCCCTACCTGATCGACCCCGACGCCGTCTACGGTGACCGGGAGTTTGACCTAGCCATGACGACAGTTTTTGGTGGCTTTGACAACAACTTTTACCAATCCTACGCCGCCCAGTACCCGTTCACGCCAGGGATCAACGACCGCCTGCCCTGGTATCGTTTCTACTATCTCTGCATGCACCTGGTCTTATTCGGTGAAAGCTACGGTGGCGCCGTCGACCAGATCCTGGCCCAGTACTAG
>SRR1151252_00134 tyrosyl-tRNA deacylase
ATGCGTGTTGTATTACAAAAAGTAAACCGGGCCCAGGTAACAATCGACGGGACGGTTGTCGGCAAGATTGGTAGGGGTTATATGCTCCTGGTCGGTTTTGCTCCCGAAGACGGGGACAAGCAGCTCGACTACCTCGTTCACAAGATCGTCAACCTGCGGGTCTTTGAGGATGAGAGCGGCAAGATGAATAAGGGACTGAAGGACGTCGACGGGGCGATCCTGTCGATCTCCCAGTTTACCTTGTATGCTGATACCCGTCACGGTAACCGGCCGGGCTTCACTGATGCTGCCAAGCCGGAGATCGCCGCGCCACTGTACGAGCGGTTCAACCGGAAACTCGCTGCTACCGGCGTTCATGTTGAGACCGGCCGTTTCGGCGCCGACATGCAGGTCGACCTGGAAAACGACGGGCCAACCACCATTATCTATGAGAAATAA
>SRR1151252_00135 GTP pyrophosphokinase
ATGTCACAGACAAAAGAATTAACGCATGAAGACGTGCGGCGGATGGTTGCTTCCTACATGAATGATGAACATGTGGCCCTGGTTGAGAAGGCCTACCGCTTCGCCGCCGTTTGCCACCATGACCAGCGGCGCAAGTCCGGCGAGCCATACATCATCCACCCAATCCAGGTTGCCGGAATCCTGGCTGACCTCCAGATGGACCCGGAGACGGTCTGCGCGGGTTACCTCCACGACATCGCTGAGGATACCGGTGCAACTTTGGACGACATCAGGGAGCTATTTGGTCCGACCATTGCCATGATCGTTGACGGTGACACCAAACTGGGCAAGATTCACTACAAGTCCAATCGGGAACAGATGGCAGCAACCCACCGGAAGCTGCTTTTGGCGATGTCCAAGGATATTCGGGTAATGATTGTTAAGCTGGCTGACCGTCTGCACAACATGCGGACCCTCCAGCACCTGCGGCCGGACAAGCAACGGCGGATCTCCAATGAAACGCTGGAGATCTACGCCCCAATTGCTGACCGGCTGGGGATCAGTACGATTAAGTGGGAACTAGAGGACCTGTCCCTGCGCTACCTCAACCCGCAGCAGTATTACCGGATTGTTCACCTGATGAACTCACGGCGTGACCAGCGGGTTGACTACATCAACAGTGCAATCGAACTGATCAAAAACGCCCTGGGGGACCTGAAATTGGGCCCCAACGTTGAGATCTACGGCCGGCCCAAGCATATCTACTCGATCTACCGTAAGATGGTGACCCAGCACAAGCAGTTCAGTCAGATCTATGACCTGCTGGCGATCCGGGTGGTGGTTGACACCATCAAGGATTGCTACGCCGTTCTTGGGGCCATCCACACCAATTGGAAGCCAATGCCGGGCCGGTTCAAGGACTACATTGCCATGCCCAAGACCAACGGCTACCAGTCACTGCACACCACGGTGATTGGACCCGAGGGCCGGCCACTGGAGGTTCAGATCCGGACCCACAAGATGCACGAGGTTGCGGAATACGGGGTCGCTGCCCACTGGGCCTACAAGGAGGGTAAGACCAACGGGGTTCAGCAGACCCGTGACAGTCAGAAGCTGAACGTCGTCAAGGAAATTCTCGAACTGCGTCAGGACAGCAACGGCACCGATGAGTTCATGCAGGGTGTCCAGAGCGATATCTTCACCGACAAGGTCTACGCCTTTACCCCCAAGGGCGACGTGATTGAGATGCCCAAGGGGTCTGGTCCCCTGGACATGGCCTATCAGATCCATACCGAGGTTGGCAACCACACGACCGGGGCCAAGGTCAACGGGCGGATCGTGCCCCTGGACTACGAGATCAAGAACGGTGAGATTGTCGATATCCTGACCTCACCATCTTCGGCGGGGCCGAGCCGGGATTGGCTTGACCTGGTTAAGACGCGGCGGGCCCGCAACAAGATTCGTCAGTTCTTCCGTGCCCACTACCGGGAGCAGAACATTGAGCAGGGGAAGCAGATGGTTGAAACCGAGCTGCGCGAAGCCGGCTATGACCCGTTTGCCCTGCTGACGGATAAAAAGGCGGCCGACGTGGCCCAGGCCCTGCACTACAGCACTGCCGATGACATGTACGCCGCAATTGGCTTTGGTGACTTGGCACCGGTGGGGGTCAGGAACCGTTTCACGGCCGATATTCGTCAAAGGGAGGAAAACGACCGTCAGGAGGCTGCCCAGCGGGCCCTTCTCGAGGAACACAAGACCCTGGAGAAACCCGATGAGCGGGCTAAGCAGAAGCAGGCTAAGGCTTCCAGTGAGGGGGTCGTGGTCGAGGGGGTTGACAACCTCCTTGTCCGGCTCAGCCACTGCTGTGACCCCGTTCCCGGCGATGAGATCGTCGGCTACATCACCAAGGGGCGTGGGGTCTCCGTTCACCGTAAGGACTGCCCGAACATCAAGGCGGCCGAGAAGAGCGGCCAGCGAATCGTCAGTGTCTACTGGGCCGACCCACGCGGGGACAAGACCAACTATGACGCTGACATCGAGGTGCAGGGCTATAACCGCAATGGCATGCTCAACGATGTCCTGCGGTCGATCAACAACAGTACCCGTTTCCTGAACTCAGTCAACGGGAAGGTCGACCACAACAAGATGGTCACGATCAGCCTGACAATCGGCGTTCGTAACCTGCAGCAGCTACAGCTGATCATGAACGCTCTGAAGAACATCCGGGATGTCTACGTGGCCAAGCGGGTCATTCGCTAG
>SRR1151252_00136 hypothetical protein
ATGGCAATCTTCAAAAGTAAATGGCAAGCGATGGATAAACTGCTCTGGGAGCTGGGGGTCGTCTTTGGGATGCTAGTACCCGTTTTGACCGACCAGCTATCGTTCTTGACCCGGGTCCACTGGGTTGTCTGGTTCCTACTGGTCGTCAATGGTATCTATAGTATCTGGATTGGAAATCGGGTTGCCAAACGGCAGCTGAGTGTGCTTAACCTGTTAGTCTTTCCCGTGCTGTTTCTGCTGGCGGCTTACTTCTTCATGCCACACTTTACCTACTATTTTGCACCAGCTTACTGGGCGGTAAGCTACCTGGCCTGGGCCAGTCGGCAACAATAA
>SRR1151252_00137 16S rRNA methyltransferase
ATGCAACGCTACTTTATCAATCAACCGGCTGACGGGCAGGAATTGGCACTGCCTAAGGACGTTGCCCACCACCTGGTTACGGTCTTACGGGCGACGGTCGGCAGCCAAGTTGAACTTGTTTTAGCCGACCACCGGGTTTACCTGGCCACGGTGACGGCTACCAACCCGGCCCAGGTCAAGATCGTTCAAGACCTTGACCGAGACAGTGAATTGCCGCTACGGGTTACCCTGGTCTGCGGCCTGCCCAAGACCAAGGAGAAGCCGGAGCTAATTGTCCAGAAGGCCACCGAATTGGGGGCTGATCGGATCGTCTTCTTCGAATCGGCCCGGTCGATCAGCCACTGGGCGAAAAACAAGCAGGCCAAGAAGCTGGCCCGTCTGCAGAAGATTGCCGATGGGGCAGCCGAGCAATCCCACCGCAACCGTCAACCCCAGGTGGCCTATTACCCAGACCTGGAATCGGCGCTGGCTGCCAACCCAGCCGATCAGCGGGTAGTTGCCTGGGAGGAGTCAGCCAAGCAGGGGGAGACGAGTGCCCTCCACCGCCTGCTAGTGGGGATGACAACGGGCCAGTCCCTACTGGCGGTCTTTGGTCCCGAGGGTGGGTTGACCGGCCAGGAAGTCGAACGGATGCAGGAGGTTGGGGTGGTCCCGGTTGGCCTAGGTCCGCGGATCCTGCGCACGGAAACGGCCCCGCTCTACTTCATGGCGGCGGTCTCCTACGCCAGTGAATTGGCGACCACCCAGCGTTAA
>SRR1151252_00138 ribosomal protein L11 methyltransferase
GTGGAATGGACAGCAGTAACCGTAACTACGTCTAGCGAGGCCGTTGAGGCGGTCAGCTATATTTTAACTAACGAGGGAGCCCAGGGCGTTCAAATTGATGACGCCGCCGACTTTGCCCAGCTCAAACCCGGTCGTTATGGTAAAAACGGCGAGATCGTCGACCTCACGACAATCCCCCACCGGACGTCTGGAGCGGCGGTGACGGGCTACTTCCAGGCCAACACCTTCGTTCCTGAGCTCCTGCCGACAATTCGTCAACGGGTGGCTAAGCTGCGTGACTATGGTTTGAATTCCGGCGACAATGAGGTCACGTCTGCGGTGGTCGACAACCAGCAGTGGGCGACCGTTTGGCAGAAGTATTACCACCCGCTGCGGGTTACCAATGAATTGACGATCGTCCCCCAGTGGGAGGATTACCAGCCGGAGCAGGATCAAGAGAAGCTCCTGGTGCTCGATCCGGGGATGGCCTTTGGTACCGGGACCCACCCGACGACTAAGCTGATGCTGATGGCACTGGAAAACGTCATCCGGGGCGGGGAATCGTTGATTGACGTTGGCACCGGGTCCGGGGTGCTGAGCATTGCCGCCAAGCAACTGGGAGCCGGGGATGTTCAGGCCTACGACATTGATGAGGTGGCTGTCCGGTCCGCCCGGAAGAACCTGGACTTGAACCCGGTCGCTGCGGACGTCAAGTTGGGCGTCAACAGCCTGCTTGACGGGATCCATACCCAGGTTGACGTGGTGGTGGCCAACATCTTAGCCGAGATCATCGTACCGCTGATTCCCCAGGCCTTTGCTAACCTGAAGCCGGGTGGTCACTTTCTGGTCTCGGGGATCATCGACGATAAGGCGGCCATGGTCCGGCAGAAGATGGTTGATCAGGGCTTTGTTATTGACAGTGAGACCAAGATGGGTGACTGGCATGGGATTATCGCCCACAAACCGACGGAGGATGAGGACTGA
>SRR1151252_00139 hypothetical protein
ATGGAGGAGGTGGTTACCATTCTGAATCGAACGAAGCAGTTTATGCGTGAAAATGATTTAATGTATAAGAAAGAATACATTCGTCCAATGATGACGCCACAGCACGTCTATGTCTTTCGGTTTGGTAAACACAGGCTAAACAATCGGGTAATCATTCGGTATTCCCACACCTGGACGGGCCGTTTGAAGATTAACGAAATTGACGTCCGACTTCATCATCAACATCACCCGCGCATCTTCTTGACCGAGGCCGACCTGATCGACTACCTGAAGCACCATATGGAAAAGGAAAAACGGTGGGAAAAAGAACGATCACATGCCGATGATGGTGAAGCAGAATAG
>SRR1151252_00140 hypothetical protein
ATGAGTATCCTGATCCTGTTGCTCGCCCTGTGGATCCTATGGAAGTTAGGGATCTTCACCCTCAAGGTCCTGGGAATCCTGTTTGTGATCCTGCTGGTCGGCGCCCTGATTCACGTCCTGCTCTGGCCGATGGTTGTGGTAGCCCTCCTAGTGGCTGGTTATGTTGCCTTCAACTGA
>SRR1151252_00141 L-lactate dehydrogenase
ATGTCTAAGAATCATCAAAAAGTTGTTCTCGTCGGTGACGGTGCCGTTGGCTCAAGTTACGCTTACGCAATGGTACAACAAGGTCTGGCTGAAGAATTGGCCATTGTTGATATCAACAAGAAGCGTGCTGAAGGTGACACTTTGGACCTCGAAGATGCTACTGTCTTCACTGCCCCAAAGAAAATCTACGCCGCTGACTACGACACTTGCAAGGATGCAGACCTGGTAGTTATCACTGCCGGTGCACCTCAAAAGCCAGGTGAAACCCGTCTTCAATTGGTTGACAAGAACCTCAAGATCATGAAGTCCATCGTTGACCCAATCGTCAAGTCCGGCTTCAACGGTGTATTCCTGGTTGCTGCCAACCCAGTTGACATCCTGACCTACGCTGTTCAAAAGCTTTCCGGCTTCCCAAAGAACAAGGTTATCAGCTCCGGTACTTCACTGGACTCATCCCGTCTGCGGATTGCCCTTGCCAAGCTGTTTGACGTTGATCCACGTGACGTTATGGCAAACATCATGGCTGAACACGGTGACTCCGAATTTGCTGCCTACTCCAGCGCTACGATCGGTGGCAAGCCACTTCTTGACATTGCCAAGGAAAACAACGTTTCCATGGACCAACTTCTTAAGATCGAAGACGATGTTCGTAACAAGGCTTACGAAATCATTAACCGTAAGGGTGCTACCTACTACGGTGTTGCTACCTGCTTGATGCGGATTTCCCGTGCTATTTTGCGTGACGAAAACGCTGTTCTGCCGGTTGGTGCTCCAATGAGCGGTCAATACGGTGTCAACGAACCAATCTACCTTGGTACCCCTGCCGTTATCAACGCTAACGGGATTGCCAAGATTATTGAAGTTCCACTTGACGAACGTGAACAAAAGGCCATGGATGCTTCTGCCGCTGCCCTTGCTAAGGTTGCTAAGGACGGTTGGGCAAAGCTTGAAGGTAACAACTAA
>SRR1151252_00142 hypothetical protein
ATGAATGCACTATCGATTCGATCCGACTATGTGATGGACATCTTCTGGGGGAAGAAGACCATTGAGTACCGTAGCTGGTCAACCAACTATCGGGGGGATCTGCTAATTTGTGGTACCGCCAAGAAAGTTCACGGCGGCATCCCTGGCTACGCTACTTGTGTTGCTAAGTTGGTTAAAATTGACCGGTATGGCGACCACGACTATGGCTGGCGCCTTGCCCCTTTTGGTCTCAGTGGTTCATACTGGATTGAGCCAATCCCGGTCAAGGGGCAGCTAGGCCTCTTCAACGTTGATGACCACTTGATCAAACCGGCCCCCGTTACCGGTCCCCAAGACGTCGTTGCTAAGCGCTGGTTTACTGAGGTTGTTGCACCGCTGATCTATTGA
>SRR1151252_00143 hypothetical protein
ATGAAAAAGCAATCAACGATGATCGTTTCCATCATTCTATTAATCGTCTTCGTCATCTTTGCCCTACTCAACACGGCCACGGTCGAGGTCAACCTACTCTTCAGTCGGGTCAATACACCACTAGTTCTATTGATTTTAGTTTGTCTATTGATTGGCGCCCTGATCATCTACCTCTTCTCCTTCTCCAACCACATCAAGGTCAACAAGGAAATCAAGGAATTGCAGAAGCAACCTAATAAGCAGGAGATTACACGGCTAAAAAGGGAAATCAAGCAGCTGCAGGACGAAAACCGGCAGCTCAAGCACTCCCTGACTACTCGTCAGCAGGAGGTGGTCGGTTCGGCAACGCAACCGACACAGCCAACGAATAACTAA
>SRR1151252_00144 translation elongation factor LepA
ATGAGTCTAGACGAGATGAAGGCGCGGCAGAAGCGCATTCGCAACTTTTCAATTGTGGCCCACATTGATCACGGTAAGTCGACTTTGGCTGACCGGATCCTTGAGATGACCGATTCGATTAGCAAGCGGGAGATGAAGAACCAGATCTTGGATGACATGCCCCTGGAACGGGAGCGGGGGATCACCATCAAGCTGAATGCTGTGGCCCTGACCTACCATGCCAAGGACGGTCAGGACTACATTTTCCACCTGATTGACACTCCAGGGCACGTCGACTTCTCCTATGAGGTCTCACGGTCCCTGGCGGCCTGTGAAGGGGCCATCCTGGTCGTCGACGCCACCCAGGGGGTCGAGGCCCAGACATTGGCCAACGTTTACCTAGCCCTGGACAATAACCTGGAGATTTTGCCGGTCATCAACAAGATTGACCTGCCGTCCGCTGATCCGGAGGGGACCAAGAAACAAATCGAGGACGAGATCGGCCTGGACACAAGTGAGACCGTCGACGTCAGTGCCAAGACTGGGCTGGGGGTCGACAAGGTCCTGGAGAAGATCGTCCATGACGTGCCGGCGCCAACTGGTGACCTGACCGCCCCGCTGAAGGCCCTGATCTTTGATTCCAAGTATGATGACTACCGTGGGGTGGTCCTCAGCGTACGGGTCTTCGAGGGGACCGTCAAGAAGGGTGACCGGATCCGGCTGATGAATAGCGGGACCGAGTACGAGGTGGCCGAGGTCGGGATCAATTCGCCCAAGCCCTTGGCCCGTGACGTCCTGATGGCTGGAGACGTTGGTTATATCACCGCCGCTATCAAGGATATCAAGGATACCCGGGTTGGGGACACGGTCACCAATGCCGACCGGCCAACCGACAAGCCCCTGGAAGGCTACCGACAGATGACACCGATGGTCTACGCCGGGCTCTACCCGACTGACAATGCCAAGTTCAACGACCTCCGGGATGCCCTGGAGAAACTACAGCTAAATGATGCCGCCCTGACCTTTGAGCCGGAGTCATCCCGGGCCCTGGGCTTCGGGTTCCGGTGTGGCTTTTTGGGGTTACTGCACATGGACGTGGTTCAGGAACGCTTGGAGCGGGAGTTCAACCTCGACCTGATCACCACTGCGCCATCGGTTACCTACCACGTTGACCTGGCGGACGGGACGATGAAGGAGGTCGAGAACCCGGCCGAGATGCCGGATGCTTCTGCCATCAAGGACATTAAGGAGCCGTACGTGCAGGCCTCGATCATGGTGCCCAACGATTACGTCGGCCCCGTGATGGAGCTCTGCCAGCGCAAGCGGGGGATTTTCGACACGATGGAGTACCTCAGCGATACCCGGGTCAACGTGATCTACCATATCCCGTTGTCGGAAATCATCTTCGACTTCTTCGATAAGCTGAAGAGTTCCACCCGCGGGTACGCTTCCCTGGACTACGAGATTGACGATTACAAGCCAAGTAACCTGGTCAAGATCGACATCCTCCTGAACGGGGACAAGGTCGATGCCCTGAGCTTCATTGCCCACAAGGATTTTGCAGTCGAGCGGGGACGGGATATCACATCGAAGTTGAAGAAGATCATTCCCCGGCAGAACTTTGAGATTCCGATCCAGGCGGCCATCGGTTCCAAGATCATCGCTCGGACCAACATCAAGGCCTACCGGAAGGACGTTACGGCCCGTATCCACACCGGGGACCCTGACCGGCGTGCCAAGCTGCTGGAAAAGCAGAAGCGCGGTAAGAAGCGGATGAAGGCGGTCGGTAAGGTCGACATCCCACAGGAAGCCTTTATGGCCGTTCTGAAGACCGATGAGCAACTGGATGATAAGTGA
>SRR1151252_00145 molecular chaperone DnaJ
ATGGCAGAAAAAGATTACTATGACATTTTAGGTGTCTCCAAGGACGCGTCCGAGGCCGATATCAAGCACGCTTACCGGCGCCTGGCAGCGAAGTACCACCCCGATGTCAACCACGCACCTGGGGCTGAGGAGAAGTTCAAGCAGATCAACGAGGCCTACGATGTCTTGAGTGACCAGCAGAAGCGGGCCCAGTATGATCAATACGGGTCGGCTGGTCCGCAGGCTGGTGCCGGTGGCTTCGGCGGCTTTGGCGGCTTTGGCGGTGGCCAGGGCGGCTTCAACCAGGGCTTCGGTGGCGGCGGCTTCGACGACATCTTCAGCCAGTTCTTCGGTGGTGGCCAGCGGCGTCAGGATCCGACCGCACCACGCCCGGGTCGTGACCTCCAGTACGCGATGACGCTGAAGTTTATGGATGCTGTCTTTGGTAAGACGACGACCATCAAGTACGACCGCGACGAGGAGTGTAAGACCTGTCACGGGACCGGTGCCAAGCCGGGCAAGTCGGCGACGACCTGTCAGCGCTGTGGTGGCCAGGGCTTCATCGTCACCATGCAACGGACACCACTGGGTAACATGCGGTCCCAGACGACCTGTCCCGAATGTCACGGGACGGGGAAGGTCATCAAGCCGGAGGACCGGTGCACGACCTGTCACGGGACCGGTCACGTTCAAGAGAAGCACGAGCTGGAGGTTAAGGTGCCAGCCGGGGTTGACGATGGTCAGCAGATGCGGCTCCAGGGCCAGGGTGATGCCGGGGCTAACGGCGGACCGGCCGGTGACCTCTACATCGTCTTCCGGGTAACGCCAAGCCGGGACTTCCGGCGGGATGGGTCGACTATCTACGTCGATCGTGACATCTCCTTTGCCCAGGCGGCCCTGGGTGACGAGGTCAAGGTCAAGACGGTTCACGGTGATGTCGACCTGAAGATTCCTGCTGGTACCCAGTCCGAGACCAACTTCCGCCTGCGCGGTAAGGGGGTCCCGCACCTCAACGGCAATGGCAACGGTGATGAGCACGTCACTGTTCACGTCCGGACGCCAAAGAGCCTGAATAAGCGGCAGCGGGAGGCCATGATGGCCTTTGCCGCCGCCAGTGGTGAGGACGTCAAGGGCGTCCAGAAGTCCGTTTTGGACAAGCTCAAGGATGCTTTTGAGGATCGGTAA
>SRR1151252_00146 molecular chaperone DnaK
ATGGCAAGTAACAAGATTATTGGTATTGACTTAGGTACTACTAACTCCGCCGTTGCCGTCATGGAAGGTAACGAGCCGAAGATCATCACGAACCCAGAAGGCAGTCGGACGACGCCATCTGTTGTTTCGTTCAAGAATGGTGAGACCCAGGTTGGTGAAGTTGCCAAGCGGCAAGCAATCACGAACCCGAACACGATCTCATCCATCAAGAGTCACATGGGAGAAGCCGGCTACACGGTTGAAGTCGATGGTAAGAAGTACACGCCACAGGAAATTTCAGCCATGATCCTGCAATACCTGAAGAAGTACGCGGAAGACTACATCGGTGACACGGTTGACAAGGCCGTCATCACGGTGCCAGCATACTTCAACGATGCTCAACGTCAGGCGACCAAGGATGCCGGTAAGATTGCCGGCCTGGACGTCAAGCGGATCATTAACGAACCAACCGCTTCTTCTCTGGCTTACGGCCTGGACAAGAAGAACAAGAATGAAAAGATCCTGGTTTACGATCTTGGTGGTGGGACCTTCGATGTCTCCATCCTGGAATTAGGTGACGGGGTCTTCCAAGTCCTCTCCACGAACGGTGATACCCACCTGGGTGGTGACGACTTCGACCAGAAGATCATGGACTGGCTGATTGATGGCTTCAAGGAAGAAAACGGTGTCGATTTGTCCAAGGACAAGATGGCCCTGCAACGGTTGAAGGATGCCGCTGAAAAGGCTAAGAAGGACCTTTCCGGTGTTCAAGAAGCTCAGATCAGCCTGCCATTCATCTCCGCTGGTGAAAACGGTCCATTGCACCTGGAAAAGACCCTGACCCGGGCTCAATTCAACCAATTGACCAACGACCTGGTTGAACGGACGAAGCAACCAGTATTGAACGCCTTAAAGGATGCCGACCTGTCATTTGATGACATCGATGAAGTCATCTTAAACGGTGGTTCAACCCGGATTCCAGCCGTTCAAGAAATGGTTAAGGAACTGACTGGCAAGGAACCAAACCACTCCATCAACCCTGATGAAGCCGTTGCCCTTGGTGCCGCTATCCAAGGTGGGGTTCTGACCGGTGATGTTAAGGATGTTGTCCTGCTCGATGTTACGCCACTGTCCCTTGGTATTGAAACCATGGGTGGGGTCTTCACTAAGCTGATCGACCGGAACACGACCATTCCAACCTCCAAGAGTCAGATCTTCTCGACCGCCGCTGATAACCAATCTGCCGTTGACATCCACGTTCTCCAGGGTGAACGGCCAATGGCAGCCGACAACAAGACCTTGGGGAACTTCCAGCTGACGGACATTCCAGCCGCCCCACGTGGTGTTCCACAGATCAAGGTTACCTTCGACATCGACAAGAACGGGATCGTTAACGTTTCTGCCAAGGATATGGGAACTGGTAAGGAACAAAAGATCGTCATCAAGTCCAACTCTGGGCTGTCCGATGACGAAATCGAACGGATGAAGAAGGATGCCGAGGAACACGCCGAAGCCGACAAGAAGAAGAAGGAAGAGGTTGACCTGAAGAACGAAGTCGACCAGGAACTCTTCCAAGTCGACAAGACCCTGAAGGAAGTCAAGGGCAAGGTTCCAGAAGAGGACATCAAGAAGGCCGAAAGTGCCCGTGATGATCTGAAGAAGGCCAAGGAAAGCGGTAACCTCGACGACATGAAGGCCAAGAAGGATGCCTTGAACAAGGTTATTCAGGACCTCAGCGTCAAGCTCTACAAGCAGGCCCAGGATGCCCAAGGTGGTGCCCAGGGCGGCCAAGGCGCAAACAACGGTGATGCCAACAACGACAACAACCAAAATGGTAATGGCGGTGACACCGTTGACGGTGACTTCAAGGATGTAACGCCTGACGACAAGAAGTAA
>SRR1151252_00147 heat shock protein GrpE
TTGGCAGAAAAGGATAATAAGAAGACGGCTGAGCAGCAACCGACTGCAGAGGAGCAGGTAGCTGCTAAAAAGACAACTAACGCCCAATCTAAAGATAAGAAGAAATCAGCAACCAGTCAGGTTGATGAATTAAAAGCAGAAATCAAGGACCTCAAGCAGCAATTGGCTGACAAGGACGACAAGTACCTGCGAGCCGAGGCCGAGATCCAGAACATGACGACCCGGTTCAAGAAGGAGCGGGCCCAGATCCTCAAGTACGATGGACAGGACCTTGCCAAGGCTGTTTTACCGGTTCTCGATAATCTTAAGCGGGCACTGACAATTGAGGTGACCGATGAGAACGGTAAGCAGTTGAAGAAGGGGATTCAGATGGTTCATGACCACCTGACCAGCGCCCTGACTGATCACGGTATCACCGAGATCGAAGCCGACGGGAAGCCGTTCGACCCGACCCTGCACCAGGCGGTTCAGACCGTCCCGGCCCAGGACGGGCAGAAGCCGGACACCGTCGTGCAAGTCCTTCAGGCTGGTTACCAGCTCAAGGACCGCGTCTTACGGCCAGCAATGGTTGTTGTGGCACAATAA
>SRR1151252_00148 heat-inducible transcription repressor HrcA
ATGCTAACACAGCGTCAAAATAAGATCCTGCAAGCGATTGTACGTCAATACACGTCGACTGGTCAACCGGTGGGGTCCAAGCACCTGGCCGAGGAGTTGCCATTTAAGGTCAGTTCCGCGACCGTCCGCAATGAGATGGCCGTCCTTGAACGGGCCCACCTGATTGCCAAGGAGCACTCCTCATCGGGACGGGTGCCATCCAAGGAGGGTTATCGTTACTACGTTGACCACCTCCTGGACCCCCAAGCGGTGACGGATAATGACCTGGTCGTTATCCAGAACTCGCTGGGCACCAGCTTTCAGAAGATTGACGAGATCATCTCGCACTCGGCTGATATTTTGTCAAACCTCACTTCGTACACGGCGTTCACCCTTAAGCCTGAGCAGGCGGACGTGCGGTTGAGTGGTTTCCGACTGGTGCCGTTGGGCAACCACAAGGTTATCGCCATCCTGGTTACGGACAGTGGGGATGTCGAGAGTCAGGCATTTACCCTGCCGCGCAATCTCGACCTAGATGCTCTCCAGGCGGTCATTCGGATGATTAATGACCAACTGGTCGGCCTCCCGCTGACGAGCGTCATGAAGCGCTTAAACGACGACATCCCATTGCGGGTGATGCACTATATGCACAGCGCCGATGGGTTTCTGGATCTCTTTGACAATGTCGTTTCAAAGGCTGCACGGGAGCAGTTCTTTATCGGCGGCCGATTAAACCTGTTGGACTTCTCGAACACCCGTGATCCCCAGGCGCTGCAGACCATGTACCGCCTGCTGGACCACAACGATGAGCTTTCGCACCTGCTCGATGCCGGGAAGACCGGCGAGGGGGTCAACGTCCGCATTGGGTCCGAGATCTCTAAGGACAAGGTGCTCGATAACTACAGTCTGATTACGGCGACCTATGATGTCGACCAGTACGGCAAGGGAATCATTGCCGTACTGGGGCCGACGCGGATGCCGTATTCCCGGACGATCGGTTTGGTAAATGCCTTTCGTCAGGAACTGGCCAAGCGCCTGTTGGACTTTTATTGGCATTACTATGATTCATAG
>SRR1151252_00149 hypothetical protein
ATGAGTACAGACGACCATCGTTACGTCCAACCGCACAGTGCCAAAGAGGCCATGGAGCTTATCCAGCACCTGTTTAACAAGTACCGAAACGCCCCGCTAACCAACGAGCTGCTCGCTTATCATAACAACCTAATCTACCGTCTTCAGTCCGACATCATGCAGGCTGCCCAACAAGAAGGTAATCCCGACCTGGTTGACCAGCTCAACTCAATGACCGACGTGATGCGGTCCTGGACCAACCTTAAGCTGACCGGCCACCCCTTCCAGGGCAAGCTGCGTCGCTTCAAGCTGGTCACCGATGACGGGCCGAAGTTTAAGCGGCGGGTTCATAAGATCCACCATGGTAATAGCCACCGCGCCAGCCGACATTAA
>SRR1151252_00150 magnesium transporter MgtC
TTGCAAGAACTTGACTGGTGTCTGCGGATGCTGTTAGCAGCCCTTTGCGGCGGGATTATTGGCTTTGAACGCAAGAGCAAGGCCAAGACGGCGGGGATCCGCACCCATGCTCTCATCGCCCTCGGGGCCGCCCTGGCAATGATCGTCTCCAAATATGGCTTCTTTGATCTATTGAGAATTACCCACCAGAACTGGTCGGTGGACCCCTCGCGGATCGCCGCCCAGGTCGTCAGTGGAATTGGGTTCCTGGGGGCCGGAACCATCCTCAACCGCCACGATCACGTCATCAACGGCCTCACCACCGCTGCCGGAATCTGGGTAACCGGGGCGATTGGCCTCGCTTACGGAAGTGGCCTTTACAGCATCGGCGTCACCGGGACGATCTGCGTGCTGATCGCCGAGATGCTGGGTAAGTACATCGACCAATTTGCCCTCCGGCGGGGCCGTGAGTTTTCCTGCTTCCTACTGCTGGATGGCGGAACCAAACGGCTCTATGAGGTCATTGACCAGCTCAACCACCAGGACTTCCGGGCGCCCCTAAAGCATACGGTCTACAGCTACCAAAACGGCACGGTTTCCTGTCGCCTGTTTGGTGAACTCAAGCCGGGCGTGAAAACGGAAGAAATCTTTACTGAGCTTGCCAACATGACCAGCGTGAAAAAGTCGAATTAG
>SRR1151252_00151 riboflavin biosynthesis protein RibF
TTGCAGGTTATCAGAGTTCATCACCCGATCGATCCAAGAATCATTCCGGCAGGGCCGGTGGTACTCGCCATGGGCTTCTTCGACGGGGTGCACCGGGGACACCAGGCGGTCATCCGGCGGGCCAAGCGGCTGGCTGACCAGCAGGGACTGCCACTGGCGGTGTTGACCTACAGTCACGCTCCGGGGGTTGCTTACCGTCAGTATCCTGGTGGTTTCAAGTACCTGTCGACGACTAAGCGGAAGCTGGACCTGCTCGATCAGCTGGGAGTGGACCTGGTTTACCTGGTCAGCTTCACCTCCAGCTTTGCCAGCCTAGCCCCCCAGGACTTCGTCGACCAGTACCTGGTTGCCTTTCATAGTCGGGTCGTTGTGGCCGGCTACGACCACACCTATGGCCCGGCAGACGTGGCGACCATGGACCGGCTGCCCGGTTATGCCCGGGGCCGGTTTGCTGTGGTGACGGTACCCAAGTTTACAGCTGACGACTCTACAGCCAAGGTTGGTTCGCGGACAATCCGCCGGCTGATTGATGCCGGGGACGTTCAGGAAGCTAATCAGGAGCTCGGTTACCACTACCAAACCACCGGTCTGATCGTCCACGGTCTGGCCCGGGGGCGGACCCTGGGTTTTCCGACCATCAACGTCGAGACGCCGACCCCGGAACGCTTGCCGGGGATCGGGGTTTATGCCGTCAGCGTGCAGATTGGGGATCATTGGTACGGTGGGATGGCCAGTGTCGGTCACAACATCACCTTTGGCGAACACAATCAGTTGACGGTCGAGATTTATCTCTTTGACTTCGACCGGATGGTCTACGGCGAGGAGGTTAAGGTGCGCTGGTACCAGTACCTGCGCGGTGAAGAAAAGTTCGCCGGTGCCGAGGAACTGGTGACCCAGATGAAACGCGATGAACGGGCAGCCCGGACCGTCGTTCAGGATCCACCAGTGTTGGGGGACCAACTGGTTCATTAG
>SRR1151252_00152 tRNA pseudouridine synthase B
ATGGATGGAATTATCCCGTTGTACAAGGAGCGGGGAATGACCAGTTTTGACTGTGTCAGCCGCCTGCGCCGAATTCTGCACACCAAGAAGATCGGCCACTCTGGCACCTTGGATCCGTCCGTGGATGGGGTCCTGCCGATCTGCGTGGGTAGCGCAACCAAGGTGGTCCCCTACCTGATGGCGTCCGGCAAGAACTACCAGGGGGAACTACTGGTCGGTGAGGCCACCACCACCGAGGACCTCGACGGTGAGGTTATTGCCGCCCAGCCGGTCACCGACGAGATTCCGGCGGCTGCTATTCAGGAGCAGATGGCCACTTTGACCGGGAAGATTACCCAGATTCCGCCGATGTATTCTGCGGTCAAGGTTAAGGGTAAGCGCCTCTACGAGTATGCCCGGGCCGGCGAGACGGTGGAGCGGCCGGTGCGCCATGTCACCGTCGACAAGTTTGAACTACTGGGCAGCAAGTATGACCCGACCGTCAAGCAGCAGCGGATCTGTTTCAACGTGGTCTGCAGCAAGGGGACCTACGTCCGGACCCTGGTGGTCGAGTTGGCCAAGCGCCTCGGCTACCCGGGGACGATGAGTTGGCTGACCCGGTTGGCTAGTGGTGGCTTCACCCTCGACCAGACGCTGAGCCTGACCGATGTGCAAGATGCAGTGACGGCCGGAACGATTAACCACTATCTCTATCCCCTTGACTATGCCCTACATGACTATCCGGCCGTTGACTTGACCGATACTCAGTGGCGGGCGGTCCAGAACGGGGGCTGGTTGAAACCAGCTGAACTGGCTACTGATGCAGTCGAGCTGGTCCTGAAGTATAATAAACAGGTAAAGGCTTTGTACCACCTTGACCAGCAACAGGGGGCCTACAAGCCGACCAAGATGTTTTCGACAAAATAG
>SRR1151252_00153 ribosome-binding factor A
ATGCCAAGCAAACAATTTCGGGTTGACCGGCTTGCCGGTGAGATCCAGCGCGAAGTTGATGATATCCTCTTGAAGCGGGTGCGTGATCCCCGGGTTAAGGGCATTACCATCACGGGTGTTGACGTTACTGGGGACCTGCAGCAGGCCACCATCTACTACAGCCTGCTCTCGGACCTGGCTTCGGACGGTGAGAAGGCCCAGGCCGGTCTGGATAAGGCGACCGGCCTGATCCGTAGTGAGCTGGGGAGCCGGCTCAACATCTTTAAAACTCCGGCAATCAAGTTCGAACGGGACAAGTCGATTGCCTATGGTAGCAAGATTGACCAGCTGATCAACAAGTTGCACCAACAGGAGAAGTAA
>SRR1151252_00154 translation initiation factor IF-2
ATGGCCAAGGAACGAATTTACGAACTAGCAAAAGAGCTCAAGATGACAAGCAAGAACTTGGTAACGGTGGCTAAGCAACAGGGGATGGTAATCAAGAGCCACATGTCCTCGGTGACCCCCGAACAGGCCAACCAGTTACGGAAGGTAGTCAAGGGTCAGCAGTCAGCCAAGAAGAACCCGAGTGCCAAGAGCAAGCCGGTCAACAAGAAGCACGAGAACAATTCGGGCAAGAAGGCAACCAAGCCAGCTGGCAAGCACCAGGAGCACAAGCAGGGTGACCATCATGACAAGCATGCTGCTAACCAGCACCGGCATGCAGAAAACAAGGGACACCGTGCTAACGACCAGGGCCAGGCAAAGGCCGAACACAAGGGGCACAAGGCTGACCACAACAATAATAACCAGCACCGCAATGGCGGCGGCCGGTTCGGTGGTAGTTTGAACGCCAACGACAACCGGCGGGGTGGCCGCTTCAACAAGAAGAACAAGAAGCGTAACAAGCATAACAAGAACCGCCGGATGCGCGAGGTTGAACACAAGCAACCAACCCAGCGCAAGGATAAGCCGTTACCGGATGTGCTGGAGTACAGTGAGGGGATGAACGCCCAGGGCCTGGGTAAGATCCTCCACCGGTCCCCAGCCGAGATTATCAAGAAGCTCTTCATGCTCGGGGTCATGATCAACCAGAACCAGTCCCTGGATAAGGACACGATCGAGCTGCTGGCGACCGACTACGGCATTGAGGCCAAGGAGAAGGTCGAGGTTGACGTTTCCGATATTGACAAGATCTTCGAGGAGGAGCAGAGCAACACCAACCACCTCGTTTCCCGGCCACCAGTCGTTACCGTTATGGGTCACGTTGACCACGGTAAGACGACCCTGCTGGATAAGCTGCGTCACTCCCACGTCACCGCACACGAGGCCGGTGGGATCACCCAGGAAATCGGTGCCTACCAGGTCCACTACAATGACCACCTGATCACCTTCCTGGATACTCCAGGACACGCGGCCTTCACCGAGATGCGGGCCCGGGGTGCCAACATCACCGACATCACCGTCCTGGTGGTTGCCGCCGATGACGGGGTCATGCCGCAAACTGTTGAGGCCATTCACCACGCCCGGGCTGCCAAAACGCCGATTATCGTGGCGGTTAACAAGATCGATAAGCCGGGTGCCAACCCTGACCGGGTCACTGAGGAACTGGCCAAATATAACCTGATCCCAGAAGACTGGGGCGGGGACACGATCTTCGTCAAGATTTCCGCTAAGTTCGGCAAGAACCTGGACGAACTGCTCGACATGATCCTCCTCCAGGCCGAAATGATGGAGCTGAAGGCCAACCTAGACCAAAATGCTGCGGGTTCTGTTGTGGAAGCCCGGCTGGATCAGGGTAAGGGTTCCGTGGCCACTGTGCTGGTCCAACAGGGGACTCTCCACGTCGGCGACCCAATCGTGGTTGGTAACACCTATGGTCGGGTGCGGACAATGACCAATGAAAATGGTCGTCGGATCAAGGCCGCAACGCCAGCTACACCAGTCGAGATTACCGGGCTCAACGAGGTCCCAGAAGCCGGGGACCGGTTCGTCGTTTTCGATGATGAAAAGACGGCCCGGGCTGCCGGTGAAGCACGGGCAAAGCGGGCCCAGGATAAGGAACGGCAGAAGACCTCCCACGTTACCCTGGACAACCTCTTTGCCACGATGAAGAAGGGGAAGATGAAGACCCTGCCGATCATCATCAAGGCCGACGTGCAGGGTTCCGTTGAGGCCCTGAGCCAGAGCCTGCAGAAGATCAAGGTTGATGGTGTCCGGGTTGACATCATTCACCAGGCCGTCGGGGCTATCAGCCAGAGCGACGTTACCCTGGCGGAGGCTTCCAACGCCGTCATTATTGGGTTCAATGTCCGGCCGACCCCGGTTGCTAAGTCCCTGGCTGATTCCAGCAACATCGATATTCGTCTTCACCGGGTTATCTACAAGGCCATCGAAGAGGTTGAGGATGCCATGAAGGGGATGCTGGAACCGGTCTATGAGGAAGAGACGATCGGTGAGGTTGAGGTTCGTCAGATCTACAAGGCCTCCAAGGTCGGCACGATTGCCGGTGGGATGGTTACCTCTGGAAAGATCACCCGGGACTCCAAGGTTCGTCTGGTCCGCGACGGGGTGGTTGTCTACGAGGGTGAACTCGGCAGCCTGAAGCGGTTCAAGGACGACGTCAAGGAAGTCAAGGCCGGTTTCGAATGTGGGCTGACGATTGCCAACTACAATGACATCAAGGAAAAGGATGTCATCGAAGCCTACCGGATGAAGGAAGTTCCAGTTAAGTAA
>SRR1151252_00155 50S ribosomal protein L7ae
ATGCCCAAAAATAATCAACAAGCAGTCCTCAACCTGCTGGGGTTAGCGCGGCGTGCCGGTCAGCTGACCAGCGGGGAAGGAATCGTTTTAAAAAATGTTCAAACAAATAAGGCAAAGTTTGTGTTTTTAGCAAGTGATGCTGGGGCGGCGAGCGCCAAGAAGTTTACTGACAAGTGCAACTTCTACCACGTTCCGTTCTGCCAGCAATTTACTAGAAAGCAGCTCAGTCAGGCAACGGGTCAGGCAAGAACCGTTTTTGGTGTGATGCAATCTGGATTTGCAAGAAAGTTTGAGGATTTAATGACAATGGAATAA
>SRR1151252_00156 hypothetical protein
ATGCGCAAGGATATTGTCACTGGTGAAATGATGCCCAAGCGGCAACTGATCCGGGTGGTCAAGAACAAGGAGGGCGAGGTTTCCCTCGACCCGACCGGTAAGAAGGCTGGCCGGGGCGCCTACATCGCGGTCGACGTTGAGATCGCCAAGCGGGCCAAGGCGGAGAAGACCTTTGAGAAGGCCTTCCACGTTACCCTGGACGATGGATTCTACGATGAATTGATCCAGTACACGGACCACCTGCAGGCACGGCAGGAATTATTTGGAAAAGATGCCCAAAAATAA
>SRR1151252_00157 transcription termination factor NusA
GTGAGCAAATCAAGAGTCAATGAGGAAATGATTGGCGCCCTCAATTACCTGGAAAAGGAAAAGGGAATCAAGAAGGAAGTCGTAATCGAGGCCTTAGAGCAGGCCCTGGAGACGGCTTACAAGCAGAACTACGGTGAAAAGAACGTTGAGGTTGAATTTAACTCCTTGACTGGTAACATCAAGGTCTACGCCGTCAAGACGATCACCGATGACGAGGACGCCGTGGCTGAAGACAGTAACGAGTACATGAGTCTGGCGGATGCCCGTAAGCTCCCCCACGGTCAGGGTTACGACGTCGGCGACGAGATCCGCGAAGAGGTAACACCACGCAACTTCGGCCGGATCGCTGCCCAAACTGCTAAGCAGGTGGTCATGCAGCGGCTGCGTGAGGAAGAGCGCAAGATCGTCTACGACAAGTACAAGACCTACGAAAACGAGATCATCACCGGTGAGGTTTCCAGAGAGGACCGTCGCTTCACCTATGTCGACCTCGGTGATGGCGTCGAAGGTGCGATGGGCTTCCGTGATAAGATGCCAAACGAACACTACCACGTTCACGACCGGATCCAGGTCTACGTTTCCAAGGTCAACGATGACCGGCGGGGCCCGCAGATCTACGTCAGCCGGACCGCTCCAGAACTGTTGAAGCGGCTCTTTGAACGTGAGGTTCCCGAGATCAAGGACGGTACGGTCCTGATTGAAAATATTGCGCGGGAGGCCGGTGACCGGGCCAAGGTTGCGGTCTACTCCAATGACCCCAACGTTGACCCAGTCGGCACCTGTGTTGGCCCCCGTGGTTACCGTGTCCAGGCGATTGTCAACGAGTTGGATGGCGAGAACATGGACATCGTGGAGTACGTCAAGGACCCGGCCAAGTTCATCGCCAACGCGTTGAACCCGGCCGACGTCTTGGACGTGATCTTCAATGAACCAGCACCGGCGGAGGAACCAGTACCGGAACCGGTTGAAACGCCCGCTGATGATGTGGACGCTACTGCTGACGAGGACACTACCGAAACGACGCCTTCAGAAGCACCACGGGAAGCAGAACGTTCCTGCACGGTCGTGGTTCCCGACAACCAATTGTCTCTGGCCATCGGCAAGCGGGGGCAAAACGCCCGTCTGGCGGCCCGGTTGACCAAGTACAAGATCGACATCAAGTCCGAATCCGAGATGGAGGAACTCCAAAACCAGGAGGACAGCGATGTCGATGGCACCGTTGCCGACAATGATGACCAATCATCAACTGAAGCAGAATAA
>SRR1151252_00158 ribosome maturation protein RimP
TTGAGTACTGTTGTCGAAACGGTAACGGCGCTTGTTAAGCCGATTCTGGATGAGCACAACTTCTACCTGTACGATATGGAATTCGTCAAGGAGGGGAAAAGCTGGTACCTGCGCGTCTACATCGACAAGGACGGCGGGATCACCCTGAATGATTGTGCCGCGGTCAGCGACCAGCTGAGCGAGGCCCTGGACAATGTCGAACCCGACCCGATTCCTCAGGCCTACTTCCTGGAGGTTTCATCACCGGGTGCTGAACGGCCGCTGCGCAACGAAGAAGATTATCAGCGGGCGGTCAACGACTACATTCACGTCTCCCTGTACCAACAGATCAACGGTAAGAAGGTCTACGAGGGAACCCTGACCAAGCTGACGGATAAGGAACTAACCCTCGACTACCTGGATAAGACCCGGCACCGGCAGGTCGTCATCGACCGGAGCAAGGTTGCCCAGGCCCGGTTGGCAATCAAGTTTTAG
>SRR1151252_00159 DNA polymerase III alpha subunit
GTGGGATTGAATCGGCATGAACTGTTTGCCAAACTACTTGAGCAGATTCACTTTCCAGAAAAGAATGCGGCGGCCTTCCAAAGTGCGGCGATTCAGTCGGTCGTCGTTCATAAGAGTTCCCGGGTATGGGAGTTTCACCTGATTTTTCGCCAGGCACTTCCCTTCAGCCTTTTTTCGGAATTTACTGTGGCCCTGGAGCGAGGCTTTAGCGATATCGCCGGCGTCCAGGTCAAGATTAGCAGTCCGATGACCGAACTTGACCAGCAGAAAATCGCCGACTACTGGGAATATATCGTCAACACGACTGCCCATGACTCGGCGATGCTCCAACAGGCCTGTCTGCAGACCAGTCCCGAGGTTAAGGACGGCCGGGTGACCCTGGTGGTTGAAAACGAGATCGTCAAGAAGATGCTGGTTGAGAAGTTGCTCGACCGGATCGAGCACCGTTACCAGGAACTCGGCTTTCCCCAGTTCCGGATCCACCCCTTCGTTGACCAGTCGGCATCTCAGGAGAAGATCAAGGAATTAAAGGCCAAACACGAGGCCGATGACGCGGCCCTGGCGGCCAAGGCGATGGCGCAGATTAAGAAGAACAACGCCCGGGCCAAGACCAAGCAGAAGCAGGCCGCTGCTCCTGCCGAAGGACCGGCGCAGTTGGGCCGGGTGATCAACGATAAGGAGAATGTCACCCAGATGAAGGACATCCAGGGCGAGGAGCGGTCTGTTGTGGTTGAGGGCTACGCCTTCAATGCCGAGGTCCGCGAATTACGTTCGGGGCGCCAGCTCTTGACCTTTGAGATTACCGATTACACCTCCTCGTTTGCGGTCAAGAAGTTCTCCCGCAATACCGAGGATGAGGCCCAGTTTGCTAACATCAAGCCCGGAATCTGGTTGAAGGTCCGGGGGCCGGTCCAGGAGGATACCTGGATGCATGACCTGGTGATCAACGCCTACGATATCAACCAGGTTCAACATACCGAACGGCAGGACCAGGCGCCGGCCGATGACAAGCGGATTGAGCTTCATGCCCACACCGAGATGAGTCAGATGGATGCCACTAACTCGATCACCGAGCTAGCCCAGCGCGCTCACCAGTGGGGACAACCGGCACTGGCGGTTACCGACCACGGCAACGTTCAGGCCTTTCCGGAGGCCTTCAAGGCGGCCAACAAGTTTGGCATCAAGATGCTCTACGGAATGGAGGCTAACGTGGTCGATGACGGGATTCCGCTGGTCTACAACGAGAATCACGACGTCCTGCTGGATAACACCTACGTAATCTTCGACGTGGAAACCACCGGGCTGTCTGCAATCTATGACAAGGTGATCGAGCTCTCGGCGGTCAAGATGAAGGATGGTAACGTCCTGGAGCGTTTCGATGAATTCATTGATCCTGGCTTCCCACTGTCGGAACAGACTACCCAGCTGACCAGTATCACCGATGAGATGGTGCACGGGTCCAAGAGCGAGGAAGAGGTCTTCAAGATGTTCAAGGACTTCTGCGACGGCTGTATCATTGCCGGGCATAACGTCTCCTTCGATATGGGCTTCATGAACACCGGGTACCGGCGCCATGGGATGGAGGAGATCACCGAACCGGTCATTGATACCCTCCCCCTGGCCCGCTTTCTCTACCCGAACCTGCGGGGTTACCGGCTGAACACCCTGAGTAAGAAGTTCAAGGTCGCCTTGGAGCATCACCACCGGGCCAACTACGATGCCGAGGCCACTGGCCACCTGCTCTACAAGTTCTTGAAGGACGCCGAAAAACGCTACGACATCCGTTACGTTGACGACCTCAATCAGCACATGGCCGAAAACGATGCCTACAAGCACGCCCGGCCCTTTCATGTCACCCTGCTGGCCCAAACCCAGGCTGGCTTGAAGAACCTTTTCAAGCTGGTCTCATACTCTAACGTCAAGTACTTTCACCGGGTCCCACGGATTCCACGGACCCTGCTCACCAAGTATCGTGAAGGGCTCCTGCTGGGAACGGCCTGCTCGTCCGGGGAGGTATTCACGGCGATGATGGAGAAGGGGTACGCCCCGGCCCTGAAGAAGGCCCGCTACTACGACTTTATCGAGGCCCAGCCTAAGGCCAACTACGCCCCACTTTTGGAGCAGCACGTGATCACGGATGAGGCCCACCTGGAGGACATCCTGAAGAACATGGTCAAGTTGGGTGATGACCTGGATAAGCCGGTGGTTGCCACCGGGGATGTCCATTACCTCGACGAGCACGACGGGGTTTACCGGAAGATCCTGATCAACTCCCAGGGGGGTGCCAACCCGCTGAATCGGACCCACCGTCCCGACGTCCACTTCCGGACGACCGACGAGATGTTGAAGGCATTCAGTTTCCTGGGGGACGAGAAGGCCCACGAGATCGTGGTTGACAACACCCACCGGGTCGCTGACATGGTCGACGACGACATCCGGCCGGTTAAAGACCGCCTCTATACCCCGCACATGAAGGGGGCGGAGCAGGAGATCCAGGACCGGACCTGGCACACCGCCAAGGCCTGGTACGGTGACCCATTGCCGAAGCTGGTCCAGGACCGGGTACGCCTGGAGTTAAATAGTATCGTCAAGAACGGGTTCTCGGTCATTTACCTGATTGCCCAGCGGCTGGTTGCCAAGTCCAACAAGGATGGCTACCTGGTTGGGTCCCGGGGGTCGGTCGGCTCCAGTGTGGTGGCCACCCTGTCAGGGATCACCGAGGTCAACCCACTGCCACCGCACTACCGCTGTCCGAAGTGTCAGTACACTCATTTCTACACCAAGGGGGAGTATAGCTCGGGCTTTGACTTACCGGAGCGCCACTGTCCAAAGTGTGGGGCCCTCCTGGTCAAGGACGGGCACGACATCCCATTCCAGACCTTCCTTGGGTTCAAGGGGAACAAGGTCCCGGATATTGACCTGAACTTCTCCGGGGACTATCAACCGATTGCCCATAACTACATGAAAGTCCTCTTCGGTGAGAAGAACGTGTTCCGGGCCGGGACGATTGGTACCGTGGCGGATAAGACCGCCTATGGTTACGTAAAGGCCTACGAGCGGGACAAGGACGTCCAGTTCCGCGGCGCCGAGGAAGACCGCCTTGCCAAGGGGGCCACCGGGGTTAAGCGGACGACCGGGCAACACCCGGCCGGGATCATCATCGTGCCCGACGACATGGACATCTATGACTTCACCCCGGTTCAGTATCCGGCCGATGACCAGAGTGCCGCCTGGGAGACGACGCACTTTGATTTCCACTCAATCCACGATAACATCCTGAAGATGGATATCCTGGGTCACGATGACCCAACGATGATTCGTGCCCTCCAGGACCTGTCCGGCATCAATCCACGGACCATCCCGATGAACGATCCAGGCGTGATGTCGCTCTTTTCCAGCCCGAAGCAGCTCGGGGTCACTGAGGAGCAGATTCAGAGTAAGACCGGGACATTGGGGCTGCCCGAGTTCGGAACCCGGTTTGTCCGGGGGATGCTGAACGATACCCACCCGAAGAACTACTCCCAGCTCCTCCAGATTTCTGGCCTGTCTCACGGGACGGGTGTGTGGTTGGACAACGCCCAGGAGCTGATCAAGGAGGGGACGGCGACGATTGCCAATGTGATCGGCTGTCGTGACAACATCATGACCGACCTGATCCACTACGGATTGGATTCTGAAACCTCCTTCCAGGTGATGGAATCCGTTCGTCACGGGCGGGGAATCCCTGATGAGTGGCAGGCCAAGATGCGCAAGGCCAACGTGCCCCAGTGGTACATGGACTCCTGTCTGAAGATCAAGTACATGTTCCCGCGGGCCCACGCGGCGGCCTACGTCTTAATGGCCCTGCGGATCGCCTACTTCAAGGTCTACTTCCCGCTGGTTTACTACTGTGCCTTCTTCTCCGTCCGGGCCGACGACTTTGACGTGGTCGCCATGGCCCACGGTAAGGACGCGGTTAAGCACCGGATGGCCGAGATCAACGAGCAGGGCAACGACGCCAGTGCCAAGGACAAGAGCCTGCTGACGATCCTTGAATTGGCCAACGAAATGCTGGAGCGGGGTTTCAAGTTCAAGATGGTCGACCTTAACAAGTCAGACGCCGCCAACTGGCTGATCGACGGCGACAGCCTAATTGCCCCATTCCGGGCCGTGCCCGGGCTGGGCTTGAACGTGGCCAAGCAGATTGTGGCCGCCCGGGAGGAGAAGCCCTTCCTGTCTAAGGAGGACCTCGCCGAGCGGGGGAAGGTCTCCAAGACTCTGATTGATTTCTTCACAATCAACCATGTCCTGGATGATTTGCCAGATGAGAATCAGCTGAGCCTCTTCTAG
>SRR1151252_00160 prolyl-tRNA synthetase
ATGAGACAATCAAAGATTTTGATTCCAACCAAGAAAGAGGTACCGAGTGATGCCGAGGCCCTGAGTCACAAGATGATGATTCGGGCCGGTTACATCTACCAGGTATCCGCCGGGGTCTGGTCATACCTGCCGTTGGCCTACCGGGTCATCCGCAAGGTTGAAAACATCATCCGTGATGAAATGGCCAAGGCCGATGCTGTCGAGATGATGATGCCGGCCCTCCTGCCAGCTGACCTCTGGAAGGAATCTGGTCGTTACGAGAGCTATGGGGACAACCTCTTCAAGCTCAAAGATCGGCGCGATCGGGACTTTATCATGGGGCCGACCCATGAGGAGACCTTCACCGAGGTCATCCGAGACAGCATCAAGTCCTACAAGAAGCTGCCCCTGGTGGTCTACCAACTTCAAGACAAGTTCCGGGATGAGGACCGGCCGCGTTACGGGATCCTGCGGGGAAAGGAATTTGAAATGCTGGATGGCTACTCCTTCTCTGCCGATCAGGCTGGCCTGGATGAAGCCTACGATAAGCAGGCCCAGGCCTACCGTAACATCTTTGACCGGGTTGGGTTGAACTACAAGGTCATCCTGGCCGATTCCGGCACGATGGGCGGGAAGAATTCTCAGGAATTCTCCGCCCCAGCCAAGGTGGGTGAGGACGTGATCGCCTACACCGATGGGGACTACGCGGCCAACCTAGAAAAGGCCACCAGCAAGTTCACCGGGGTTCAACAAACGGCGGAACCAGCTGAACTGACTAAGAAGGCCACCCCGGGCGCCCACTCCGTTGATGAGGCAGCGGCCAGCCTGGGCATTGATGCCGACCAGATTCTGAAGGCAATGTTCTTCATGGCTAAGATGGGTGAGGATGACTACCAGCCGGTCATGGTCCTGATGCGGGGCAACGACGAGGTCAACGAGGCGAAGGTGACCGATGCACTTGACTGTGAGGAATTGACCCTGGCTAGTGAGGAACAGGCCGTCAAGTACCTGGGTGCTCACCCGGGTTCCTTGGGTCCCGTGGGCGTTGGCGAGGATGTTAAGATCCTGGCCGACAACTACGTCAAGGTCCTGGTCAACATGGCATGTGGGGCTAACGATGATGGTCACCACTACGTCAACGCTAACATCGACCGTGACTTCCGGGTCGATCAATTTGGTGACTTCCGAAACGTCAAGGAGGGGGAGATCGCCCCAGATGGTCACCCAATCAAGTTCACGCCGGGAATCGAAATTGGTCACATCTTTAAGCTGGGGACCCATTACTCCGATAAGCTGGGCGCCAAGGTATTAAATGAGAATGGCCGTCTGGTTGACGTGATCATGGGCTCCTACGGGATCGGCGTTACCCGCCTCCTGTCCGCGGTTGCCGAGCAAAACGCCGACGAGAATGGGCTGGTCTGGCCCGACAGTATTGCGCCGTTTGATGTCCACGTCATCCCGGTCAACGCCAAGAAGGATGACCAGATGGCGATGGCTAACGCGATTGACGAGCAGCTGACGGCAGCCGGCTACGAGGTTCTGGTGGATGACCGGAAGGAACGGGCCGGGGTCAAGTTTGCTGATTCCGACTTGATTGGATTGCCAATCCGGATCACCATCGGTAAGAAGGCTGCTGACGGGATCGTCGAGGTCAAGATCCGCAAGACCGGTGAAACCATCGAGGTCAAGCAGGAGGAGGTCGCCAACACGGTTGGCATCCTGCTGAAGCAATTAAACAGTCAGAACAACTAG
>SRR1151252_00161 metalloprotease RseP
GTGATAGTAACAATTATTACCTTTATCTTGGTATTCGGTATCCTGGTCCTGGTTCACGAATACGGCCACTACTACTTTGCTAAGCGGGCTGGCATCCTGGTTCGGGAGTTCTCGATCGGGATGGGCCCCAAGCTCTGGTGGCACCGTAAGAATGGGACCACCTATACCATCCGGCTCCTGCCGATCGGTGGCTATGTCCGGCTGGCCGGCAACGACGACGAGGACATGGATGAGCTACGGCCCGGGACCCCGGTGACCGTCCAGCTCAACGATTCTGGCAAGGTGGTCACCATCAACGCGAGCAACAAGGCAGCCCTCTTTCGGGGGATTCCATTGCAACTTGTTGACTGTGACCTCACCGACGGCCTCTGGATTAAGGGCTACGTCAACGGTGATGAAGATCAGCTGAAGAACTATGATGTCGATCATGATGCCGTGATTATTGAGCGTGACGGTACCCATGTGCAGATTGCACCGCGCGATGTCCAGTTCCGTTCCACCAGTCTGTCCGCCCGGATGATGACAAACTTTGCTGGGCCGATGAATAACTTCATTCTATCGCTGATTGTGTTCGTCATCCTTGGCTTCACCCTCAGTGGGGTGCCGACCAACAGCAACCGGCTCGGTAAGGTCAATAGCGGTTCGGTGGCTGCCAAGGCGGGGCTGGTTGCCGGTGACCGGATCACCAAGGTCGGTAATGCCACGGTCAACAATTGGGGTGAACTGGCCACCAAGATCTCCAGTCAGCCGGGTAAGCGAGTTCGCCTGACCTATGAGCGTAATCACCACCAACACCAGGTTACCGTCGTACCGAAGACGGTTCACCAGGGCAAGGAGAAGGTCGGCCAGATCGGTATCATTGAGGAGCAGAAGACTGGGATCAAGGCCCGCCTGCTCTTTGGCTGGCAGCAGTTTATCCAGGCCGGAACCTTGATTTTTAGCGTGCTGGGGAGTATGTTTACACATGGCTTTAGTCTCAACGATTTGGGTGGCCCCGTTGCCATCTACGCGGGGACGTCCCAGGCGACGGCGCTGGGGGTCAATGGGGTGTTGAACTTCCTGGCCCTGCTGTCGATCAACCTGGGGATCGTCAACCTGCTGCCGATTCCGGCCCTCGATGGTGGCAAGCTGCTCTTGAACATCATTGAGGCCATCATCCGGCGCCCGATTCCCGAGAAGGCTGAGGGCGTGGTGACTATGATTGGCTTCATGCTCTTGCTGCTGTTGATGATCCTTGTTACCTGGAACGACATTCAACGTTATTTCATTCATTAA
>SRR1151252_00162 phosphatidate cytidylyltransferase
ATGAAAACACGGATAATTACGGCGGTGGTTGCCCTGGCAATCTTCATCCCGTTGATCGTCTACGGCCGCTGGCCGCTGACCATTGCAGCGGTTGCCCTGGGAATCATTGCCATGTCGGAGATCCTGGTCATGAAGAAGATGTTTGTGATCTCCTTTGAGGCGATCGTCAGCTACCTCGGGGTGGCCCTTTTGATCCTGCCAGACAATTGGTTAGACTTCCTGCCGAGCGTGACTACGCGCTGGTTTGGCTTCTATGTCCTGGTGGTATTGCTCTTGTTGCACACGGTCCTGCGCAAGCAACGGTTTACTTTTGATGATGTTGGTGTGCTGACGCTGGGGATGCTCTATATTGGAATGGGCTTCCACTACTTTATCACCGCCCGTTCAATCAACTTCATCACCCTCCTGTACGGGATGCTGATTGTCTGGTTGACTGATAGTGGTGCCTACCTGATTGGTCGGCAGATCGGTAAGAACAAGCTGGCGCCGAAGATCAGTCCCAACAAGACCTGGGAGGGTTCCATCGGTGGGACGGTTGCGGCCACAGTTATCCTGGCCATCTACCTGTACTTCCTGCCGGTCGGTGGTGCTTGGCTGCCAATGATCCTGTTGACCATTGTTCTTTCGATCATGGGGCAGTTTGGTGACCTGATCGAGTCGTCACTGAAGCGCTACTACGGGGTCAAGGATTCCGGAAAGATCCTCCCCGGTCACGGTGGTATTCTGGACCGGTTTGACAGCATGCTTATCGTGATGCCAATGTTGCACCTGCTCGGGATTATTTAA
>SRR1151252_00163 UDP pyrophosphate synthase
GTGTTTTCTAATAAAAAGGACACAAACACGGAACAAAAATTGGACATGGATCGAATTCCAGCCCACATTGCTATCATCATGGACGGTAACGGCCGTTGGGCCCAGGCCCGGCACCTGCCGCGGGTTGCCGGTCATAAGCAGGGGATGCAGACGGTCAAGAAGGTGACCATTGCGGCTAGCGATCTCGGGGTCAAGGTGCTTTCCCTATACGCGTTTTCCACCGAAAACTGGAAGCGCCCAGCCACGGAGGTCAACTACCTGATGCAGTTGCCGATCCGTTTCTTTAAGACTTTCGTCCCGGACCTGGTCAAACACAACGTCAAGGTTATGGTGATGGGGGACATCACCCGTTTGCCAGCGGAAACACAACAAGCGGTTAAAGATGCCATCAAAGACACCGCCGATTGTGACGGGATGATTCTGAACTTTGCCCTGAACTATGGTAGCCGGGATGAGATCACCCGGGCAGTCCAGGCAATCGCCACGGCGGCCCAGGATGGTCAATTGGATCCCACCACAATCACGGAGCAGACAATTAGCGACCACCTGATGTCGTCCCCGCTGGGCGAGTTGGCTGATCCCGACCTGCTGATTCGGACCAGTGGTGAGGAACGAATTAGTAACTTCATGCTCTGGCAGATTGCCTACAGTGAGCTTGAATTCGTACCAGAACACTGGCCGGACTTTGACGGTGAAGCCCTGAAGCGGGCGATCATTGGCTTCCAGGGTCGACACCGGCGCTTTGGCGGCCTAGTAAATAAGTAA
>SRR1151252_00164 ribosome recycling factor
ATGGCTAATAGTAAGGATATTTTAAACGGTGCTAAGGACAAGATGAAGAAGTCCGGTGAAGCCCTGCAACGGACGCTGGCGGACATCCGGGCCGGCCAGGCCAATGCCAGCCTGCTCAATTCCGTTAAGGTTGAATACTACGGGGCACCGACCCCGCTGAACCAGGTGGCCTCAATCACGATTCCCGAGGCTCGGCAACTGCTGATCACGCCATATGACGGCAGCATCCTGGAAGAAATCGAACGGGCCATCTACGCTTCCAACCTTGGCCTGACGCCGCAAAACGACGGTAGTGCCATCCGGCTGATTATTCCACAACTGACGGAAGACCGGCGTAAGGAACTCGTCAAGGACGTTAAGGCCGAGCTGGAGAAGGCTAAGGTGGCCGTTCGAAACGTCCGGCGTGAAGCCATGGATGACCTGAAGAAGGGTAACAAGAACGGTGACTTCAACGACGATGAATTCCATGATCTCGAAAAGAAGGTTCAAGACGAGACCGATGCCGGGATCAAGAACCTGGAAGACATTGCCAGCGCCAAGGAAAAGGAATTGCTCGAAGGATAA
>SRR1151252_00165 uridylate kinase
ATGGCTGATATTAAGTACAATCGTGTTATCTTGAAGCTGAGCGGTGAGGCTCTGGCCGGTGAGAAGGGCTTTGGCATTAACCCACCAGTTTTAAAAGACGTTGCCAAGGAGCTCAAGGCCGTTCATGACCTGGGCGTTCAAATTGCCATCGTGGTCGGTGGCGGTAACATGTGGCGGGGCGTCACTGGTGAACAGCTCGGTATGGAGCGGGCCCAAGCTGACTACATCGGGATGCTGGCCACCATCATGAATGCTCTTTCCCTGCAGGATGCCCTGGAGTCCATCGATGTTCCAACCCGGGTGCAGACGTCGATTGAGATGCGGCAGATTGCTGAACCATACATCCGGCGCAAGGCCATCCGGCACCTGGAAAAGGACCGGATCGTGATCTTTGCTGGTGGGACCGGGAGCCCGTACTTCTCAACCGATACCACGGCCGCCTTACGGGCAGCTGAAATCAACGCCGACGCAATCCTGATGGGGAAGAATGGGGTTGATGGTGTCTACTCTGCTGATCCAAACAAGGATGCCAGTGCGGTCAAGTTTGATCACCTGACCCACATGGACCTGATTGAAAAGAACCTGCACGTCATGGACACGACGGCCAGCTCATTGTCAATGGACAACCACATTCCATTGGTCGTCTTTAATCTGAATACACCAGGAAACATTATGAAGGTCGTTACCGGCGAGCAGGTCGGCACGACCATTGAGGGGGACTAA
>SRR1151252_00166 translation elongation factor Ts
ATGGCTGAAATTAAAGCTGCTCAAGTTATGGAATTACGGAAGAAGTCTGGCGCTGGGATCATGGATGCCAAGAAGGCCCTGGTTGCCAGCGACGGTGACATGGACAAGGCAATGGACTACCTTCGCGAAAAGGGAATTGCCAAGGCCGCCAAGAAGAGTGACCGGGTTGCTGCCGAAGGTCTGGCAGACGTTGCCATCAACGGTAACACCGCAGCTATTGTTGAGTTGAACTCCGAAACGGACTTCGTTGCTGCTAGTGACCCATTCAAGGCCCTGCTCAAGGAAGTTACCAAGCTGATCAGCGAAAACAAGCCAGCTAACGTTGACGAAGCCCTGGCTATCAAGACGGCCAATGGTACCCTGAAGGATGACATCATCAGCACCACCCAGAAGACCGGTGAAAAGGTTAGCCTTCGTCGGTTCAGCGTGGTTGAAAAGGATGATGGCGACAGCTTCGGTGCCTACCTGCACCAGGGTGGCCAGATTGCGGCCTTAGTTGTTCTCGAAGGCGGCGATGAAACGACTGCTAAGGATGTAGCAATGCACGTTGCCGCTATCAACCCTGAATTCATGACTCGTGACGACGTTTCCAAGGACCGTCTCGACCACGAACGTTCCGTCTTCAAGGAAGAAACGCTGAACGAAGGCAAGCCGGCTAAGATCGTTGACAAGATTGTTGAAGGTCGTCTTAACAAGTTCTTATCCCAAATCTGCCTTGCAGACCAAGACTTTGTTAAGAACCCAGACCAGACGGTTGCCGAATACGTTTCTGCTAACAATGGCAAGCTGAAGTCCTTCATCCGTTACGAAGTCGGTGAAGGAATCGAAAAGAAGCAGGATGACTTTGCTCAAGAAGTAAAGGACCAAATGAACTAA
>SRR1151252_00167 30S ribosomal protein S2
ATGTCTGTTGTTACTATGAAGCAATTGCTTGAAGCCGGTGTCCACTTCGGTCACCAAACTCGTCGTTGGAACCCAAAGATGGAAGAATACATCTTCACTGAACGTAATGGGATCTACATCATTGACCTGCAAAAGACGGTTAAGATGATCGACACTGCTTACAACTACATGAAGGACGTTGCTGCTAACGGCGGTGTAGTTCTTTTTGTTGGTACCAAGAAGCAAGCTCAAGACTCCATCGAAGAAGAAGCTACCCGTGCCAGTCAATACTACGTTAACCACCGTTGGTTAGGTGGGACCTTGACCAACTGGAAGACCATCCAATCACGGATCGCTCGTCTGAAGGAACTCAAGAAGATGGCCGAAGACGGTACCTTTGACGTTTTGCCAAAGAAGGAAGTTGTTGTGCTGACTAAGCAACGCGAAAAGCTGGAACGGTTCCTTGGTGGTATCGAAGACATGCCACGGATCCCAGATGTTATGTACATCGTTGACCCACACAAGGAACAAATCGCGGTTAAGGAAGCACAAAAGCTCCACATCCCGATCGTTGCCATGGTTGACACCAACACGGACCCAGATGACATCGACTACGTAATTCCATCAAACGATGATGCCATCCGTGCCGTTCGTCTGATCACTTCCAAGATGGCTGATGCCATTGTTGAAGGTAAGCAGGGCCAAGATGACGCACAACAAGCAGATGCCGCTGCTGACGACAACGCCGAAGAAAAAACTGTTAGTGAAGATTCCCTGAAGAACCTCAAGAACAGTGTTGAAGGCAAAGACTAA
>SRR1151252_00168 hypothetical protein
ATGGCCAGTCGTAATTACTATATATACGTTCTCTACTGCGCCGACGATACCCTCTACTGTGGCTTCACCACCGACGTTGCCCGCCGCTTTGCCACCCACCAGGCGGGGAAGGGGGCCAAGTACACCCGGGTACATGCCCGTCACCCACTCCGCTTGATCTATCAGACCGCCTTTGACAGCAAGCATGCCGCCCTGAGCGCCGAGTACCACTTTAAACACCAGTCCCGGACAAAAAAGGTAGCCTACCTGGCCGCACACGGGGTTAGTGTTGCCCGGTTTTACCGATTAAACCATCACCACCATTCAAATTAG
>SRR1151252_00169 methyltransferase
ATGGAATCCGCTTCCCTATTAAAAGACGATGAACGCATCGACCAGCTGTACAGCCAGGACGTCCAGATCATCCAGAGCCCGACCTGCTTTGCCTTCTCACTCGACGCGGTCCTGCTGGCCGATTTTGTCCGGCCCAACCACCGGCATAAGCTGCGGACGGTCGATCTCTGTGCTGGCAACGGGGCGATCGGCCTCTTCCTCCACAAAAAACTCGGCGGAACCTTTGCTGAGGTGGAGCTGCAACCACGGATTGCTGACATGGCCCGCCGCAGTGTTGAACTCAACCGGCTTACCGACCGCTACCGGGTCCTCAACATGGATATAGCCGACGTCTTCACGGCGGTACCCAAGGACTCGGCTGATGTTGTTATGTGCAACCCGCCTTACTTTCCGGTGAGTGCCAAGAGTCAGAAGAATCCTAACCACTATCTGGCGATTGCCCGCCACGAGATTGCGACTAACCTAGCCACGGTGACTGCTCAGATGAGCGGGCTGCTGAAGATGAACGGTCACGGCTACCTGGTTCACCGCCCTGACCGGCTGACTGAGATCCTGACGACGATGCAGGCTCACCGTCTGGTTCCCAAGCGGCTACGCTTCATCCATCCAAAGCCGGGGCGGGATGCTAACATGCTCCTGCTTGAGGTGATCAAGGATGGTAAACCGGGTGGATTGAAGGTGGTGCCGCCACTGACCGTTAGTGATGAGGATGGTCACTACCTGCCGGCGGTTCAAGAGATGCTCTATGGCCAGTCGTAA
>SRR1151252_00170 1-acyl-sn-glycerol-3-phosphate acyltransferase
ATGCTTTACAACTTTTTAGTACACCTCATCAACCCCCTGCTCAACCTAATCAACGGGTGTACCCGGGTCTACAACCGGGGAAATCTGCCTGATGGCAACTACATCATCGTGGCCCCCCACCGGACCTGGATGGACCCGGTCCTGATCGCCCTAGTCGTCTGGCCAAAGAAGTTTAGTTTCATGGCCAAGAAGGAGCTCTTCGCCAATCCGGTTGCTGGTTGGTTTCTCAAGAAACTCAACGCCTTCCCGGTTGACCGGAAGCACCCTGGTCCCTCGGCAGTCAAGAAGCCAGTCACCATCTTGCGTAAGACCGACCTATCGACGATCATCTTCCCGTCCGGGTCCCGTTACTCCGCCAAGCTCAAGGGTGGTGCAATTGTCATCGCCAAGCTGGCCAACGTACCCCTCGTTCCGGCGGTCTATCAGGGACCATTGAAGTTTGGCCAGCTCTTCACCCGTAAGCACCGGCACATTGCCTTTGGTAAGCCGATCTACATCGACCGCAAGCAACGCCTGACCGATGAGAACCAGGCCAAGATCGAACAAGAGATGCAGACGGCCTTCGATAAGTTGGACAAGCAGATCAACCCGGATTTTCACTATGTCATGCCACCAAAGCCGGCGGACGACGACTTCTAA
>SRR1151252_00171 hypothetical protein
ATGACAATTTTATGGGCCATCATCGCATTGGTGATTGGCCTGGTTGCCGGTTTCTTCGGCGCTCGTAAGTACATGGAAAATTACCTTAGTAATAATCCACCAATTTCAGAAGAAATGCTGCGGACAATGATGCTCCAGATGGGGCAAAAGCCTTCTAGCCGTAAGCTTCATCAGATGATGCAAACCATGAAGGCACAAGCGCGGAAAGCAAACCGCAAGTAA
>SRR1151252_00172 hypothetical protein
ATGGCTGAATCAGAAGAACAAGATAAGTTATTAAAACGGATCAACGAACTAGCCCATAAGAACAAGAAAGAGGGGCTGACTGAGGCAGAAACGCGGGAACGCGAACGCCTGCGCCGGGAATACATCAAGAACTTCCGTGAAGCAATGCGTAGCAATATTGAGATGATGCGGATCTTCAACAAGGAAGGCAAGGAGGTCACCCCCGAAAAGGTGCGGGAAATCCAACACAAAAAGGGCCTGCGTGACGACTAA
>SRR1151252_00173 LexA repressor
ATGCCACGATCCGCTAAAAACAAACAGATGGCGGTCCTTTCCTACATTCACAAGCAGGTTACCGAACACGGTTATCCACCGACAGTTCGAGAAATCTGTAGTGCGGTCAGGCTCTCGTCGACATCGACTGTTCATGGTCACATCACTCGCCTGATCGACAAGGGCTTTTTGCGCAAGGACTCCGCCAAGCCACGGGCACTTGAGATCACACCAAAGGGGCTTGACCTGCTAGGGGTTAAGCCAATTCAGACCAAGATCCCAATGCTTGGGGTGGTCACCGCCGGGCAGCCGATTCTCGCCGTCCAAGACGCAACTGACTTCTTCCCCATCCCCCCGTCAATCCAGGACAACAACGACCTGTTTATGCTGAAGATCCGCGGAAGCAGTATGATTAAGGCCGGGATCCTCAATGGCGACGACGTGATCGTCCGTAAGCAGTCGACCGCCCGTAATGGAGATATCGTAATTGCGATGAACGACGACAACGAGGCAACCTGCAAACGATTCTTCAAGGAGAAAAACCGTTTCCGCCTCCAACCTGAAAACGACACAATGGACCCCATTTTCCTGCAAAACGTTAAAATTCTCGGTAAGGTAATTGGCCTTTTCCGTGACCACATTTTTTAA
>SRR1151252_00174 hydroxymethylglutaryl-CoA synthase
ATGAAAATCGGAATTGACAAGATGGCCTTTGCCAGTACGGACCAGTACATTGACTTAACTGAGCTGGCTGAAAAACGTGGCGTCGACCCCAATAAGTACACCATCGGGATCGGTCAGGATCGTCAGGCCGTGGTTCCGCCAACCCAGGACATTGTGACATTGGGGGCACGGGCCGCACAGAAGCTGTTGACCCCTGAGATTGCGCGCCAACTGTCGACGGTCATCGTGGCTACCGAATCAGGGATCGATAATTCCAAGGCCAGTGCCATCTACATCAAGCACCTGTTGGGGCTCGATGACTATGTGCGGACCGTTGAGCTTAAGGAAGCCTGTTACTCCGGAACCGCGGCCGTGCAGTTTGCCCGCGGCCTGGTAGCTCTCAACCCGCAGGAGTCCGTCCTGGTGATTGCGGCAGACATTGCCCGCTACGGTCTTAACACTCCCGGCGAAGTGACCCAGGGGGCGGGAGCGGTCGCCATGCTGATCAGTGCTAACCCACACGTCCTGGCGATCGAGCCGACGAGTGTTGCTTATAGTCGTGACGTCATGGACTTCTGGCGGCCGCTCTACGCTACTGAGGCCCTGGTCGATGGTAAATACTCCACCAACGCCTACATCGACTTCTTCAAGAACACCCTGGCCCGCTATCAGCAACGAACCGGGCGCCGATTAGCGGACTTTGCTGGAATCGCCTTTCACCTGCCATTTACCAAGATGGGGAAGAAGGCCCTGGAGGCGGTGCTGCAGGGCCGTAACGATGAGGTCGCTAACCGCCTTCGCGCCCAGCTGACGGCCAGTCAGACTTACAGTCGGCAGGTCGGTAACCTCTACACGGGTTCGCTCTACCTTAGCCTGATGTCCCTCTTGCAAAACGGCCAAGTCACACCCGGCGATCGCTTAGGGCTCTTCTCCTATGGTTCCGGTGCGGAAGGGGAGTTCTACAGTGGTATTGTCCAGCCGGGCTTTGCCAACTACCTCAGTGACGTTGCGCACGACCTGGCCGGGCGCCGCCAGGTCACGGTGGCCGAGTACGAGCAGTTGTTTAACGGTCAGCTGGGGATGCGAGAGGATGACGTCCAATTCGATACCCAAGCTGATGGGGCCCCGTTTGTCCTGGCCGGACAGAAGGACCACCAACGAATCTACCAACGTCAATAG
>SRR1151252_00175 ribonuclease HI
GTGGCACATAAATTCTACGCGGTGAAGAAGGGTTATCGACCGGGAATCTACAGCTCCTGGCCGGAATGCCAGAGCCAGGTTAGTGGTTTCACCGGGGCAGTTTACAAAGGCTTTCCCGACTATCGCTCGGCATCTGCCTGGCTGAAGGGGACAGATCGTCGGTCGTCGGAGCACCAACAGTTGAGCCTTTCGCTAGGCGCCAGCACTCCGCCCACTGCGCCAACCATCCGTCTCTACACGGATGGTGGCTCACGGAATCATGGTAACAAGCGCGGCCAGCACGTTAAGGACAATGACAAGGCGGCCTGGGCATACCTGATCGAGTGTCGCCAACAACAGATCACGGGAACTGGCGGGGAGTTTGGTGCGACCAACAACAAAATGGAGGTGACCGCCCTAATCCGCGCCCTGGAATATTTGATTGACCATCAGCTAAATGATGAGCCAATCGTAGCGACTCTGGATTCGCATTATGTCCTGGACCCGATCACCAAGGGCTGGCTCTACGGCTGGCGTCGGCGTGACTGGGTTACCGCTAGTGGGAAACCGGTTGCCAACCAGGAGCTGTGGGCGACTGTCCTCCGCCTGCTACCGCATTTCGCCAAGCTTCACTTTGCCTGGACGAAGGGGCACGCCACCAACCAGGGTAACAACACGGTCGACGAATTGCTGAATAAGACGATGGATCGAATGGAAAGGGATTGA
>SRR1151252_00177 hypothetical protein
ATGATCTTTTTAGTTATTTTTGGTGCGCTGATGTTGATTCTGGGGGGCTTCTACCTAGCAAATTCATGGCAACAGTATCGTGAATGGAAGGGTGGGACGATCATTGTGGTCCTGAGTCTGGCGGCCGTAATCTACGGGACCATCAACCTACCATATTTTCACCGCAGTCAGCAGCGTAGCAGTGAACAGGCCAGTTCCTCCTCGCGGGTCATGCGAGCCGGGCAGGGCAGCAGCTCGTTTTCCAATAAGCTGGGCAGCATCAATCAGCAGAATAACCAGGCTGACACCGAGACCAAGGAGATGGCGGTCCTGCGTCAGTTGCAGAAGGGCTATGCTAAACTGGGGACGGTCTCCTTTGATGAGGATTCTAAGACCTTCAACATTAAGCCAACCGATGACAACACGGTTAAGGCACTGCAGGCCTTGGTTCAAGATCCAAGTCAGGCTGGACAAATGGGGTGGTCAAATCTGACTAAGTCGATCAAGAGCAACTCCAAGCAGGTCGACAACGTTTTGACTGATCAGTACTCAATGAGCATCGTTAATCCAGATAATACCAAGCAGGCCCTCTATACGGCTAAAAATGGCAAGACCACGTATGATATTGCTAACCAGGATAACTAG
>SRR1151252_00178 adenine phosphoribosyltransferase
ATGACTTTAGACCTCTATAAATACGTTGCTAGTATTCCAGACTACCCTGAAAAGGGGATCATCTTCCGGGATATCTTGCCACTGATGGCCGATGGTGAAGCGTACAAGCAGGCAACGGATGAATTATCTGACTATGCAAAGGATAAGCAGGTTGACATGGTAGTTGGTCCCGAGGCCCGGGGCTTCATCGTGGGTTGCCCGATTGCCCGTGAACTGGGGGTTGGGTTTGCTCCGGCCCGTAAGAAAGGGAAGCTGCCACGTAAGGCGATCAGCGCCAGCTACAACCTTGAGTATGGTACTGCTACCCTGCAGATGGAGGCTGATTCGATCAAGCCGGGTCAGCGGGTGCTGGTGGTTGATGACCTACTGGCGACCGGTGGTACCATTTCGGCCACGATTGAGATGGTTGAAAAGATGGGTGGTATTGTTGTTGGCTGTGCCTTTTTGATTGAGTTGAAGGACCTCCACGGCCGTGAGAAGATCAAGGACTATGATATGAAGGCCTTGATGGAGTTTTAA
>SRR1151252_00179 single-stranded-DNA-specific exonuclease RecJ
ATGGTTAAGACACGGTTCAAATGGAAATTTGCAGATGCGGCTGATCCGGTAGTTATCAAGGAACTGGCGGCGGGCGCCCAAGTCAGCCCAGTGGTGGCCGACCTGCTTGCTAAGCGCGGTTATAAGACTACCGATGCCGTGCAGTCCTTTCTCAAGGCCGATCCGCAGACGATCCACGACCCCCACCAGTTGCACGACATGGACAAGGCGGTGGACCGAATCCAGGAGGCCATCGAGCGAGGTGAGCAGATCACCATTTATGGGGATTACGATGCCGACGGGATCACCAGCACTGCCGTCATGTATGAGACCCTCCAGGCGGTGGGGGCCAAGGTTAACTATTACATTCCAAACCGGTTCAAGGATGGCTACGGGCCCAATGCGGCGGCCTACCAACGGTTGATTGACCAGGGGACCCAGCTGTTTGTTACCGTTGATAACGGGGTCAGCGGTAAAGACGTGATCGATCCCGTGATGGCCCAGGGGGTTGACGTGGTGATCACCGACCACCATGAGCTACCGGAGGACCTGCCCAACGCGGTGGCGACCGTCCACCCGCAATATCCGGGCAGTGACTATCCCTTCGCCGGCTTATCTGGGGTCGGGGTAGTCTTCAAGGTGGCCTGGGCATTGACTGACGAATTTCCAGCGGAGCTCCTCGACCTGGTAGCGATCGGTGAAATTGCCGACGTGGTTAGTGTTGCCGATGAGAATCGGGCCCTGATCACGATGGGGCTTCAGGAGCTTCGTCAGGGGTTACGGCCGGGCCTGCACGCCCTGGTTGAGGCGGCGGGGTTGAATGAATCGCACCTGACCGACCAGGACATCGGTTTTGGGATTGCTCCGCGGCTCAACGCCCTCGGGCGGGTAGCTGATGCCAGTTTGGGGGTCCAGCTCCTGACCACCCTTGATGAGGAAGAAGGGCAACGGTTGGCCGCCCAGGTTGAGGCGGCTAACCAGCAGCGCCGCCAGCTCGTTGACCAAGTTATGGTGGCGGCCAGCACGCAGGCCCGGGCAGCCGAAAATAAGGATCAACCGGTTCTCGTCCTGCTGGGGCACGATTGGCACCAGGGCATTCTGGGGATCGTTGCCAGCCGGATTCGCGAGCAGACTGGCAAACCAACGATCGTTGCCAGCACCACGGGGGATGGTCAGGTGGCTAAGGCTTCGGGGCGCAGTGACGACCGCTTTAACCTCTTCACCGCCCTGGATGCTCACCGCGACCTGATGACGGCTTTTGGGGGGCACCCGGCCGCCTGTGGGCTCTCCTTTGCGGTTGACCGTCTGGATGACCTGCGTAGTACCCTGCGCGATGAGGCGGCCAAGCAGGACTTCGACTGGCAACAGCCCGCCCCGTTATTCCTGGCCGGGCAATTGAAATCCCAGGAGGTTAGTACCCAACTCTTCGATGAACTGCAGAAGTTAGCCCCCTTTGGCCCCGATAATGAAGAGCCGGTCTTTGAGCTTCATGACGTTCACCCAACTAAGGTAAGGACAATGGGTAAGGATAACAGTCACCTGAAGTTCATGCTACCGGGAAAGCAGGCCGATGTGGCGGTAGTGGCCTTTGGCTGGGGGGACGCTGCTCAGCTGTTTGCAGCCCAGGGCGGTCAGATTGATATTGCCGCTAAGGTGGCCATCAACGAGTGGCATGGTCAACGGCAAGTTCAGCTGATGCTGGTTGATGTTCGCGTGCACGGCACAATGATCCTGGACGAACGGACAGCCCACCTGCGCCCCGACCACTTCCAGTCCGCCGGCGAGTACGTCGTCTATGATGAACGTTTACGGGAGAACGTGGCGCCGCACGTCGGGGTCACGCACACCCTGAGCCCGACGGCAGCCCGGCAACTGGACCTGGCTGGTAAGACGGTGACCCTGGTGGATTTGCCAGACAGCCTGACGAGCTTTAAGCAACTGTTTGATAACGACAGTGGGGCTCCGGCGGTTGTCCGTCTCCTGTTGGCTAGCCGACACAGCGCTTACTTGTCCGGTTTGCCGACCCGGTCTGATTTCGCCCAGGTTTTCAAGTTCCTGAAGCGGTATTCGCAGTTACAGTGGCCCGGGCAACGATTGGCGATGAGTAAATACCTAAAAATGAATGAAGAACGATTAAATTTCGTAATTCAAGTGTTTTCTGAGGCGGGATTTGTTACAATTAGACATGGTGTTTTAAATCTGCAGCCGACGAGTGGTAAGACGGATATAAAACAGACGACACGGTATCAACAACAACTGGCCCGTTATCAGGCGGAGAAAACGTTGCTATACGAAGATGCGGCAACCGTTACCCAGTGGATACTACAGTGCCTTAAGATGAATTAA
>SRR1151252_00180 short-chain dehydrogenase
ATGTTAGGACGCGTTAAAGCATTGCGATTCTTGAGAAATGAGGTCGTGCTGATCACCGGCGGCTCCAGTGGAATCGGTAAGGCCCTGGCCTTTGAGGCGGCCCGCCGCGGTGCCATCGTCGTGGTGGTTGCCCGCAACCAGGAGAAGTTGGCGGCGGTGGCCAAGAAGTGTCTAATCCTATCCGGCCGGCCAGCCTTTGCATATGCCTTAGACGTGACCTCACCGGATGCCATTGACCGGGTATTGGACAAGGTTCAACACGAGGTTGGGGCCATTGATGTGTTGATTAACTCGGCGGGGCTGGGCGAATTTACCGCCGCCGCCCACGAGAAGTACTCTACGATGGCTGAGATGGTGCACGTCAACCTCCTGGCCCTGATGTACATCAGTCGATGCGTGGCTAAGCAGATGATGAACCAGGGCTACGGGGCAATCATCAACATTTCCTCCCTGGCTGGCAAGATCCCAACCCCGAACAGCGCGGTTTATTCGGCAACCAAGGCCGGGGTGATTCAGTTTGACAATGTTCTCCGGATGGAGGTTGCCGACTACGGGGTCCAGGTTTTGACGGTCAATCCAGGACCGATCACGACCCCGTTCTTCAAGAAGGCCGATCAGACCGGTGACTACCAGGCCCACTTGCCGCAGTGGATGTTCATCGAGCCGGATGACCTGGCCACGCGGATCTGGGACAATGTCGGTCACAAGACCCGAGAAATCAACGTACCGGCCTACGTGGCCTACCTTGGCTGGGCCTACCAGGTCTTTCCGGGGCTCGGTGACTGGGCCATCAAGAAGTTCTTTGATTTTCAGCAGGACAAGAAGAACCTGTAA
>SRR1151252_00181 ribonuclease Z
ATGCAACTTGAATTTTTAGGAACGGGTGCCGGCTCACCAAGCAAGCAGCGTAACGTCACCAGTGTGGCCCTGCGCCTGCTGGAGGAGCGCAACGCCATCTGGCTGTTTGATGTTGGGGAGGCTACCCAGCACCAGATTCTCTATACAACCATTCGGCCACGTAAGATTGAGAAAATCTTCATTACGCACCTCCATGGTGACCACATCTTTGGTCTCCCTGGTCTGCTTAGCTCCCGGTCGTTTCAAGGTGGAAATGAACCGCTAACCATCTACGGTCCAGTGGGAATCAAGCGCTTCGTTCAGACGGCCCTCCAGGTCAGTGAGTCCCGGCTCAGTTACCCCCTGCACTTTGTGGAGATCGACCACGAGGGGGAGATCTTTCGTGACCAGGGTTTCACGGTCTACGCCAAGAAGCTGGATCATAAGATTACCTGCTACGGTTACCGGATCGTCGAACACGATCATCCCGGGGAGCTGCAGGTTGATAAGCTACGGGCAATGAACGTGCCATCCGGGCCGGTCTACGGACAATTAAAGGCCGGGAAGACGGTCAAACTTGCCGACGGTCGGACCCTCAACGGTCAGGACTTCATTGGTCCGTCCCAGCCTGGCCGGATCGTTGCCATCCTGGGTGATACCCGGCAGACGAAGAACGCGGTCTGGCTAGCGCGCGATGCCAATGTTCTCGTTCACGAGAGTACCTTTGGCAAGGACGAGGCTAAGTTGGCCCACAACTATTACCATTCGACTAGTAAGCAGGCGGCTGAGGTGGCCAAGAAAGCGGGGGCCAAGCGGCTCTTCTTGACCCATATCTCGGCCCGCTATGCCGGCAAGGCGGCCTACCAGCTGGCCTACCAGGTGCGTAACTACTTTCCGGCAACCCGGGTGGTCAATGACCTGGACGTCTTCGATATTCCGTTTAACAAGCAAGGGGAAAGGAATGGTGAGTGA
>SRR1151252_00182 GTPase Obg
ATGAACACGTTTGTAGATCAGATTAAAATCGAGGTGCACGCTGGCAAGGGTGGCGATGGCATGGTTGCCTTCCGGCGTGAGAAGTATGTTCCAAACGGGGGACCCGCCGGGGGTGATGGCGGCCGTGGTGGCAGCATTATCCTGAAGGTCGACGAGGGCTTGCGGACGTTGATGGACTTTCGCTACCACCGGATCTTCAAGGCGAAGAACGGTGGCAACGGGATGAACAAGCAGATGACCGGGCCCAGTGCCGCCGATACGGTGATTGCGGTACCCCAGGGAACAACGGTTCGTGACCTCGATACTGGGGAGATTATCGGTGACCTGGTAGAGAAGGGCCAGGAACTGGTCGTTGCTCGTGGTGGTCGTGGTGGTCGTGGCAACATTCACTTTGCTAGTGCCAAAAATCCGGCACCCGAGATTGCCGAAAACGGTGAGCCTGGTGAGGACCACTACCTGGAGCTCGAATTGAAGATGCTGGCTGACGTCGGCCTGATCGGCTTCCCGTCGGTTGGGAAGTCGACGCTCTTGTCAGTAGTGACGGGGGCCAAGCCAAAGATCGCGGCCTATGAGTTCACCACCCTGGTACCCAACTTGGGGATGGTGATGCTGCCAGACGGTCGTGACTTTGCCATGGCTGATATGCCCGGCCTGATTGAGGGGGCCGCCAAGGGGGTCGGTCTCGGCCTGAAGTTTCTTCGTCACATCGAGCGGACCCGGGTCCTCCTTCACCTAGTTGATATGAGCAGTGAGGATCCCGAGCAGGCTATCCAGCGCTACCGGCAGATCAACCATGAATTGGCTAACTACGATCCGGAGCTCCTCAAGCGGCCGCAGATCGTGGTGGCCACCAAGATGGACATGCCCAATGCCAACGATAACTTAGAACACTTCAAGCGGGAACTGGCCGCCGACGACACCCTTGAGCAGACACCACGGGTCTTCCCAATCTCGGCGGTAACCCACCAGGGGGTCCAACAGCTGATGCAACTGACGGCCGACCTGCTCGATAAGACACCGGCTTTCGACAGTGAGAGTCACGACGAGCAGCTGGTTGCCGAGTACAAGGCGGCCGCACCGGACAAGGAAACGGCTGACTTCACCATCAGCCGGGATGAGGACGGTACTTGGGTTCTCGGGGGAGCCAAGCTACTGCGACTCTTTGATATGACCGACCTGACCCATGAGCAGAGTCAGCTTCGTTTTGCCCGTCAGCTACGGACGATGGGTATTGACGATGCCTTGCGGGCCAAGGGAATCAAGGATGGCGACCTGGTTCGAATCAAGAAGTTCGTCTTTGAATTCGTACAATAA
>SRR1151252_00183 excinuclease ABC subunit C
ATGGCAAGTGAATACCTTGAACATAAGCTAGCGTTGCTACCGGATAAGCCCGGCTGCTACCTGATGAAGAATATCAACGGCCAGATCATCTACGTCGGTAAGGCCAAGAACCTGAAGAACCGGGTCCGTTCCTACTTCAAGAGTAGCCATACCGGGAAAGTGGCCAAGATGGTCTCGGAGGTGGCCGATTTTGAGACGATCATCACCTCCACCAACAAGGAGTCCCTTCTGCTGGAGATCACGTTGATCCAGAAACACCAACCCTATTTCAATATCAAGCTGAAGCGGGGGACGGGCTACCCCTACATCAAGATCACCAACGAACGGGACCCACAGACGATGATCACTGGGAAGATTAAGAAGGACGGGGCCTACTACTTTGGTCCCTACCCGAACGTCTACGCGGCTGAGGAGACCCTCCACTTCATCCAGAAGGTCTACCCCCTGCGCCGCTGTCACGGCTACCAGGGCCGGCCATGCCTTTATTACCACATGGGCCAGTGCCTGGGAGCGTGCTTCAAGCAGGTACCAGGGGAGGAGTACGCCCGGCAGATTCACCGCATCAAGTCCTTCTTAAACGGGAACACGGCGGCGGTCAAGCGGCAGTTGACGGCCCGGATGCAGAAGGCTGCGGCAGCTCTGGAGTACGAGCGGGCGGCTGAGATCCGCGACCAGCTCCACTACATTGAGGTGACGGTTGAAAAACAGAAGATTATTTCCAATGACAAGACACCGCGGGACCTCTTTAACTTCTACATGGACAAGGGCTGGCTGTCGATCCAAGTTTTCTTCATCCGTCAGGCGCGGTTGATGAAGCGGGAGAAGCGTCTTTTCCCGATTGTCGATACCGCCGTTGAGGAGATGACCAGCTTCATCCTCCAGTTCTACAACCGGCGTAACAACATCCGACCCCGGGAGATCCTCCTGCCGGCGGGCCTGCCCAACCAGGAGATTAGTGAGATCCTGGGTATTCCGGTCCGAACACCGGAACGGGGGGAGAAGCGCGACCTGATGGAGATGGCCGCCGAAAATGCCCGGCTGACCCTCGACGAGAAGTTCCGCCTGCTGGAGATGGACCAGAGTAAGACTACCGGGGCGATGAAGGAGATTACCGACGCCCTGGGGCTACCGGCGGGGCATAAGATCGAGGCCTTTGACCACTCCCACATCCAGGGAGCCGATCCGGTCAGCGCGATGGTTGTTTTTGTTGACGGTGAGCCCGCCAAGAAGCTTTACCGCAAGTACAAGCTCCAGACGGTGATCGACCACGCCGATGAGGCGGCCAGCACCCGGGAGGTCATCCGCCGACGTTATTCGCGCCTGTTGAAGGAAAACAAGCCGATGCCGGATATGATCTTCATGGACGGGGGCGAGATCCAGATGAACGCCGTCAAGGACGTCCTGGAGAACGAGCTTGGCCTGGATATTCCGGTGGTTGGGATGGTCAAAAACGACAAGCACAAGACCGCCGACCTGCTCTTCGGTGATCAGGACCAGCACGTTAACCTTGACCCGCGCAGTCAGGGCTTTTACCTGGTCCAGCGGATTCAAGACGAGGTCCACCGCTTTGCGATTACCTTCCACCGGCGGGTCCACACCCGGCATTCCCTGAGTTCCCGCCTGGACGAGATTAAGGGGGTCGGGCCACGGACCAGGACCAAGCTGCTCAAGCAGTATGGTTCGATCACCAAGATTGCCCAGGCCTCGGTGGATGACATCCACGCCCTGGGGATTAACCGATCGACCGCCCAGCTGATCAAGCTTTCCCTGCAGAAAAATGCGGCGGTCGCCAAGGGAAGCAGTCACAATTGA
>SRR1151252_00184 hypothetical protein
ATGGGACTCGTAACACGTCGCAGCCAGCAGCTCGACAAGCTCTTCGACCAGTTCGCCGTTGATCCCCGAACCAAGCCACTGAAGAAGAAGCCAGCTGATAAAAAAGATCCAGACAAGGCTGGTAAAGATGCCACCAAAAAGACAAAATAA
>SRR1151252_00185 hypothetical protein
GTGGAGTTTAATGATTACCAAAAGGCAGCGAAGCGTACCCTCTATGGGAACGAACAGGTACTGACCAATTGTGCCCTCGGCCTGGCCGGTGAGGCGGGCCAGGTGGTCGACCTGGTGAAGAATTATACCTTCCGCAGTAAGCAACTGGACCGGCAGGAGCTAATTCACGAGATGGGTGACGTCCTCTGGTACTTATCACAGATTGCGGAATGGGCTGACATTCCCTTTGATGAGGTTGCCAAGGCTAATATTGATGAGCTGAACCGGCGCTACCCAACCGGTTTCAAGAAGTAG
>SRR1151252_00186 GTP-binding protein EngB
ATGGAAGTGCATAACGTTAACCTGACCATCAGTGCAGTAGCTGCTGACCAGTACCCGAAGACCGACTATCCAGAGATTGCCCTAGTGGGGCGCTCCAACGTCGGTAAGTCATCGCTGACTAACGTTCTGATCAACCGGCGAAATTTTGCGCATACGTCCAGTCAGCCGGGGAAGACGCAGACCCTGAATTTCTATGATGTTGAAGACCGGTTCTACTTTGTCGACGTGCCGGGATATGGATACGCCAAGGTCTCCAAGAAGGAGCGCGAGCGGTTTGGCCAAATGATCGAACAGTACCTGACCCAGCGGGAACAATTGTGTGGGGTTATTCAGCTGGTGGATGCCCGCCATGTACCCACGGCTGATGACGTTTCAATGTATGAGTGGCTAGACTTTTACCACATCCCAATCCTGGTGGTGGCGACCAAGTGTGATAAGGTTAAGTCCAACGTTTGGAATCGCCAGGAGAGTCAGATTCGCAAGCGTCTAGGGATGGCTCCCGGGGCACCACTCATTCTTTTCTCGGCAACCACCAAGCATGGCAAGGATCAGGTATGGCAATGGATTGATAAACAGACGGGGATGAACTAA
>SRR1151252_00187 ATP-dependent Clp protease ATP-binding subunit ClpX
ATGTTTGAAGATACCAGTGGAATGGATTCGATTCACTGCTCGTTTTGTGGCAAGTCCCAAAACGAGGTGAAGAAGATCGTTGCCGGTCCGGGTGTGTACATCTGTAACGAATGTGTTGACCTTTGCAAGCAGATCATTGACCAGGAACTGGCCGATGACCAGGCGGACACGGACTTTCGGGTGCCGACCCCGGAAGAAATTGTCAAGGACCTCGATGATTACGTCATCGGGCAAAGCGACGCCAAGAAGACCCTGGCGGTGGCCGTCTACAACCACTATAAGCGGGTTAACGCCATGATGGATGGTGATAACAACGATACCGAACTTCAAAAGAGTAACATTGCGGTGATTGGGCCAACCGGTTCGGGAAAGACCTACCTGGCTCAGTCGCTAGCACGGATTTTGAACGTGCCGTTTGCAATCGCCGACGCCACCACCCTGACCGAGGCCGGCTACGTCGGTGAGGACGTGGAAAATATCATCCTGAAGCTTCTCCAGGCTGCCAACTTTGACGTGGAGCGGGCCGAGAAGGGAATCATCTACATCGACGAAATCGACAAGATCGCTAAGAAGGCGGAGAACGTCTCGATCACCCGGGATGTCTCCGGTGAAGGGGTTCAGCAGGCCCTGCTGAAGATCCTGGAAGGGACCATTGCCAATGTACCACCGCAGGGCGGTCGGAAACACCCGCAGCAGGAATTTATCCAGGTGGATACCAGTAATATTCTCTTTATCGTCGGGGGAGCCTTCGACGGGATCGAGACAATTGTTAAAGAGCGGCTTGGTGAGAAGACGATTGGGTTTGGGACCGACTCCAACGAGGCCAACAACGTTACCGAGAAAAGCATTCTCCAGCACGTCATCCCCGAGGACCTGCTCAAGTTTGGGCTGATCCCCGAGTTTATCGGCCGGTTACCGGTGATGACCGCCCTAGAGAAGCTGGATGAACACGACCTGGTTCGGATCTTGACGGAACCGAAGAACGCCCTGGTTAAGCAGTACCAGGAGTTGATCCGTCTGGACGGCAGTAAGCTTACCTTCACTGAAGGCGCACTGAAGGCGATGGCCCAGCAAGCCATTGCCCGTAACACCGGTGCTCGTGGCCTGCGTTCCATCATTGAAGGGGTTATGCGGGACGTCATGTTTGAACTGCCGAGCCGCGAGGACGTGGCTGAGGTGGTCATCGACAAGCGTTGCGTCACCAACCACAAGGAGCCCCGCTACGTGATGAAGTCAGCCAAGCAGGCAAAGTGA
>SRR1151252_00188 trigger factor
ATGTCAGCAAAATGGGAACGCGATAGCGATGCCAGCAAAGGTACATTGACATTTGATATCGATGTAGACACTATTAAGAAGGGGATCGACGAAGCCTTCGTTGAAACCCGGAAGAAGATCACGGTGCCAGGTTTCCGTAAGGGCCGTGTTCCACGCCAAATCTTCAACCAGATGTATGGTGAAGAATCACTCTACCAAGACGCCTTGAACAAGGTTCTGCCAGACGCATACAGCGCTGCAGTTAAGGAAACTAAGATCCAACCTGTTGCTCAACCACAAATTGAAATCAAGAGCATGGAAAAGGGCCAACCTTGGACGTTGACGGCAACTGTTGATGTTATGCCAGAAGTTAAGCTGGGTGACTACAAGGGGATGGAAGTTCCTGAACAAGACACCACGGTTTCCGATGCCGACGTTGACTCTGAATTGGAAAAGAAGCGTCAACAGCAAGCTGAACTGGTTCTCAAGGAAGATAAGCCAGCCGAAAAGGGTGACACGGTTGTTATCGACTACGAAGGTAGTGTCGATGGCAAGAAGTTCGACGGCGGTTCCGCTGACAACTACTCCCTTGAACTGGGCTCCGGTTCATTCATCCCAGGTTTTGAAGACCAGCTAATCGGCCACAACTCCGGTGATGATGTGGACGTTAAGGTTACCTTCCCAGAGGACTACCACGCCAAGAACCTGGCTGGTAAGGATGCCGACTTCAAGGTTAAGATCCACGAAATTAAGGAAAAGCAACTTCCTGAATTGGATGATGACTTTGCCAAGGACGTCGACGAAGACGTTGACACCCTCGACGAACTGAAGGACAAGACCAAGAAGCAGTTGCAAGAAGACAAGGACAACCAAGCCAAGGCAGCCATTGAAGATGCTGCTATTGAAAAGGCCGTTGCCAACGCTGAAATCCAGGCCATCCCACAAGCAATGTTGGATGATGATACTAACCGTCAGATGCAACAATACCTTGCTGGAATGCAACAACAGGGGATCAGCCCACAAATGTACTTCCAGATCACTGGTACCAAGGAAGACGACCTGAAGAAGCAATTCGCCAACGATGCTGAACAACGGGTTAAGACTAACCTGGTTCTGGAAGCCATCGTTGATGATGCTAAGCTGGAAGCTAGCGACGACGAGATCAAGAAGGAAATCGCCGACCTGGCAAAGCAATACGGCATGAAGGAAGACGCCGTTGAAAAGGCACTGTCCAAGGACATGCTTTCTCATGACATCAAGATCAAGAAGGCCGTTGACTTAGTTGCCGATTCAGCAAAGCAGGTTAAGGAAGACGATAAGAAGTCCAATAAGTAA
>SRR1151252_00189 translation elongation factor Tu
ATGGCTGAAAAAGAACATTATGAACGTACAAAGCCCCATGTAAACATTGGTACTATTGGCCACGTTGACCATGGGAAGACTACTTTAACTGCTGCTATCACCAAGGTACTGGCAGCCAAGGGTCTGGCAAAGGCAGAAGATTACGCTGATATCGATGCTGCTCCAGAAGAAAAGGAACGTGGTATCACTATCAACACTGCCCACGTTGAATACGAAACTGAAAAGCGTCACTACGCACACATCGATGCGCCAGGTCACGCCGACTACGTTAAGAACATGATCACTGGTGCTGCACAAATGGATGGTGCTATCCTGGTTGTTGCCGCTACCGATGGCCCTATGCCACAAACTCGTGAGCACATTCTTCTTGCCCGTCAAGTTGGTGTTCAATACATCGTTGTATTCCTTAACAAGACCGACTTGGTTGACGATGACGAACTGGTTGACTTGGTTGAAATGGAAGTTCGTGACCTTCTTAACGAATACGATTTCCCTGGTGACGATGTTCCAGTTATCCGTGGTTCCGCTCTGAAGGCCCTTGAAGGTGACCCAGAACAAGAAAAGGTTATCCTTCACCTGATGGACGTTATCGATGACTACATCCCAACTCCAAAGCGTCCTACTGACAAGCCATTCATGATGCCTGTCGAAGACGTCTTCACCATTACTGGTCGTGGTACTGTTGCTTCTGGTCGTATCGACCGTGGTACTGTTAAGATCGGTGACGAAGTTGAAATCGTTGGTTTGACTGAAGATGTTCTGAAGTCAACTGTTACCGGTCTGGAAATGTTCCACAAGACTCTTGATCTTGGTGAAGCCGGGGACAACGTTGGTGTCCTTCTTCGTGGTATTTCACACGATCAAGTACAACGTGGTCAAGTTCTTGCAGAACCAGGTTCGATCCAAACTCACAAGAACTTCAAGGGTGAAGTTTATGTTATGACCAAGGAAGAAGGGGGCCGTCACACGCCATTCTTCTCCAACTACCGTCCACAATTCTACTTCCACACCACTGATGTTACTGGTACGATTGAACTGCCAGATGGTGTAGAAATGGTTATGCCTGGTGATAACGTAACGTTCACTGTTAACCTGCAAAAGCCAGTTGCCCTTGAAAAGGGTCTGAAGTTCACCATCCGTGAAGGTGGACACACTGTTGGTGCCGGTGTGGTATCAGAAGTGCTGGACTAA
>SRR1151252_00190 hypothetical protein
ATGAATGAAGAACAAGCTAAACGCTATCGTCAGGCCACAACACTAATGAAGCAGGAGAAATGGGGGCGTGCTGCCGATATCCTGGATGACCTGGTCGAGGAAACCGCGGATCCCGTGGCCACCCGTCAATTGGTTCGTGCCCTCGCCGCAGACCACCAGTATGTCCAGGCTTTAAGCAACGTTTTAGAGGATCCCAACTTGTTTGGTACGGACAAGGAAAGTGCCGAACTGGTGGTGCGTTTGATGGTGCAGAACCAGCGTTTCATGTTGGCCCGACTCTTCATCGCTAATGGATCAGCAGAATGGCGGAACCCCCTGCTGATGATTGCCAAAGACGGCGAGCGGGCTGCTCAGGTGAAGTACCGCCAGACCATCCAGCAACGACTGAAAGAATTTTACCATCTCGGTGATGGCACCCTGCTGGAGCAGCGTCAACGCCTGATGGATGCCTATGACCTCCCACTGACCAGCTTTCTGTTGGGGACCCGCTTCGTTCTCCGGGATCCCTTTGTCAACTATTTGATCAAGGCCGACATCATCGAAAGCCTGCGTCGAATCGGGGTTGATACCCAGTTGAGTTACCTTTGGATTGATAATAACGAGTACCAGGCAAACCCCGCCACGTTGCCCGACCAGGAGGCGGAGCCAGCAGTCAAGGCAGTGCGGTCGATGATTGCTAAGCGTCTGGCTGATTCGGACGCGATTCGCTACCAGATGGCGAGCCAGCAACTGGATCTGCAATTGATATTTCTTTATCCGCGGGCAGGGGAAGTGATTGCTGATCCTAACGAGTGGGCGACTGTCCTGCTGGCGGCCCTTGATGGTCAGCAATTGGGGGATGCGACCCCAACGCAAAGTTGGCAGCGGCGCCTGATGAGCTTGATTTCAACCCTAGCCCAAAACGATAAATAA
>SRR1151252_00191 RNase J family beta-CASP ribonuclease
ATGAGTAACAGCATTAAGATTATTCCGTTTGGCGGGGTCCGCGAAAACGGTAAGAATATGTACGCAGTTGAAGTTGGTAAGCAGATCTTCATTCTGGATTGTGGGCTGAAGTACCCCGAAAATGAACTGATGGGGATTGACGTGGTGATTCCGGATTGGGAATACCTTCGCGAACACAAGGATCAAGTCGTCGGGGTCTTCCTGACGCACGGCCATGCCGACTCGATCGGGGCCTTACCGTACTTTCTGATGGACTTCAACGTCCCGGTCTTCGGTAGTGAGATGACGATTGCCCTGGCTAAGCTGGCGGTGAAGGGTCACAAGGAGGTTAAGAAGTTCAACGACTTCCACGTTGTCGACGCCGCCACCACGATCGACTTCAATGACGTCACGGTCTCGTTCTTCCAGACCACCCACACGATTCCTGAGACGCTGGGCGTGGTGATCGAGACTAGTGATGGCAACATCGTCTACACCGGCGACTTCAAGTTTGACCAAACGGCCACCCAGGGTTACCAAACGGACCTGGCGCGGCTGGCCGAGATCGGTTCGCAAGGCGTACTGGCCCTGTTAAGTGACTCGGCGGGGGCTGGTATCACTGGCATCTCAGCCCGGGAAAAGGATATTGGTGAATACATCAAGGAAACCTTCAAGTACCAAAACGGCCGGATTATCGTGGCCAGTGTCGCTTCCAACATCATGCGGGTTCAGCAGATCATCAACGCTGCCGTAGCGGTTGATCGTAAGTTGGTTCTGTCTGGTAAGGACATCGAGCAGATCATTAATACGGCGATGAGCCTAGGTAAGCTAAAGTTGCCGAAGGGACTCTTGATTAGCATGAAAGAGGCCGATAAGCTGGAGCCAAATCAGGTCATCATCCTGGAGACCGGGAAGATGGGCGAGCCAATCAAATCCCTTCAGCAGATTGCCAGTGGTGCCAATCCGAAGCTCCACCTGACCGATACCGACCTGGTCTTTGTCACGACCACTCCTTCTTATGCTCAGGAGACGGAGGTTCAAAAGACCAAGGACATGATCTACCGGACCGGGGCCGAGGTCAAGTTCATCTCGGACGATCTCAACCCTTCTGGCCATGCCAACCAGAATGACGAGCAACTGATGCTCAACTTCATGAAGCCCCAGTACTTCATCCCCATCCAGGGTGAGTACCGGCTCTTGGACCGTCACGCCCAGCTGGCCGAGGAGGTTGGTATTCCAGCTGACCACATCTTCATTGCCAGCAAGGGGGATGTCCTTACCTATAAGAATGGTGAGTTCCACGTCGGCGACCATATCGACGTCAGCAACACGATGATCGACGGTACCGGGATCGGTGACATTGGCAACATCGTCCTCCGTGATCGGCGGGTTCTGTCTGAGGACGGGATCTTCGTCGTGGTCGCCACCATCGATCGGAAAAAGAAGAAGATCGTTGCCCGACCGCAGATCACATCTCGGGGGTTCGTCTTTGTCAAGACTAACCGTCAACTGATGAAGCAGAGTGCCGACCTGGTTGAGAAGGTCGTTCAGGAGAACCTCGACCAGAAGGAGTTCGACTGGAGCCACCTCAAGCAGGACGTTCGCGAGAAATTGAACCGCTTCCTCTTTGATCAGACCAAGCGTCACCCGGTTATCCTGCCGGTGATCATGGAGATCAACCAGCACGCTAAGCGCAAGAACAAGGGCAATAACAATGGCGAGGCCAAGAAGCAGGGTAATGGTCAGGGCCAAAAGGAAAAGAAACAGGGCCATCACCGCAATGGTCGTGGCCGTAAACATGAGAAGCAGGTTGCCAAGGCCAAGCAATAA
>SRR1151252_00192 30S ribosomal protein S15
ATGGCTATTTCAAAAGAACGTAAGGATCAAATTATCAAGCAATTCGCAACGCATGAAGGTGACACTGGTTCTACCCAGGTTCAAGTTGCTGTCTTAACCGCTGACATCAACGAATTAAACGAGCACCTTCGTACTCACAAGCACGATTACCACTCACAACGTGGTCTGATGAAGAAGATTGGTCACCGTCGTAACCTCTTGGCTTACCTTCGGCGGACTGACCTTCCTGCTTACCGTGAATTGATCAAGAAATTGGGTCTTCGTCGTTAA
>SRR1151252_00193 30S ribosomal protein S20
ATGCCAATTATTAAGTCAGCAATCAAGCGTGTTAAAACCAGCGCTAAGGCCGAAGTCAAGAACGCTTCACAATTGAGCCACATGCGGACTGCTATCAAGAAGTTCGATAAGGCAAAGCTTGCTGGTGAAGATGACCTTGAAAAGTTATACAAGGATGCCATCTCAGCAATTGACCGTGCACACTCCAAGGGTCTTATCAAGGCCAACAAGGCAGCACGTGACAAGTCACGTTTATCAGCTCGTTACAACAAGTAA
>SRR1151252_00194 DNA polymerase III subunit delta
GTGGACATTACCGAACTGTCTCAACAACTAAAGAAGGCGAGCCCGGCGCCAATTTATCTGGTACTGGGAACCCAGCAAGCCTTACAACAACAGGCCCTTGATCTGTTTTTAACCCTGATTCCGGAGAGCGAACGGGTGATGAACGTTGGGCGTTACGACATGGAGACAACGCCGGTGGCTACGGCGCTAGACGACGCGATGTCTGCGCCCTTCTTCGGGGAACGTCGGTTGGTCGTAATCAATAAGCCTTATTTTCTGACTGGTGAGAAGAAGCGGGGGAAGATCGACCATGACCTCGACTCGTTTAAACGCTATCTGGCCCAGCCCGAGATGACCACCACCCTAGTTATTCTGGCCCCCTATGAGAAACTGGACGGCCGTAAGGGAATCGTTAAGACCCTCAAGAGGGCAGCGGTTACCATCAGCGCGGCCCCGTTAAACGAGCAGCAGGCCCGTCAACAGGTGGTGGGACGACTGATGGGTGCGGGTTTTCAGATTGACCAGGCGGCGGTCGATGAGCTGGTGCGGCGGACCAACGCTGACTACGGATTGATGATTGCCAACTTGGCCAAACTCAAGCTCCTTGCGTATCAGGATAAGCATATCACACAGGCACAGGTGGCGGCTCTGGTGCCACAGTCGCTTGACGAGAACGTCTTCGACCTGGTGACGGCTGTCCTCCGTCATGACCAGGTGCAGGCTCTCGACCTCTATCACCAGCTGCTGGCCGGTCAGCAGCAACCATTACGGATCAATGCGGTCCTGGTGGGTCAGTTTCGGTTGTTGATTCAGCTGAAGGTGCTAAGTCGGCGGGGCCTCAGTCAGGGGAACCTGGCCATGCAGTTGAACGTGCACCCGTACCGGGTTAAGCTGGGACTGCAGACCGCCCGTCGTTTCTCCCTGCTGGCCCTGGAAAATGCTTATCTCGGTCTGATCCGGATCGAGCGGGCACTCAAGACGACCCAGCGTGATCCGGCACTGCTGTTTCAATTATTCATGCTCCAATATGCCCACCAGGCTAAGGTGGCCAATTAA
>SRR1151252_00195 competence protein ComEC
ATGCTGGGCCCGCAGCCGTTCTTTTGGTTGTTTGTTGCCTACCTCCTGCTCCGCGTCTGCTATCTCCGCCGGCCAGTGGTCCTAGCGACCTGCTGTCTGAGCCTAGTAGTGGCGATCGGTGGCTGTTTGCTCTATCAACACCAGATCAGCCGGCGGACCGTTGTCGATCGTCACCCGGTCACTCAGCTGGTCAGGGTTCGCCCTGATGACGTCCAGGTTCACGATGGTTTTGTGACGGCGATCGGGACCGATACCCAATCACGAGTTCGTGAAGCCCTGATCTTTAGTGTTCGTGATTCCCATTTACTTGACCAATACAGGCGGCTCGATCGGCCAGCCAATTGGCGGGTGAATGGGATGGTTCAGCCGGTGATGCCAGCTACCAACGAGAATGAATTTGCCCTTCGGCGATACTATCAGCAGCGACGGGTCTACAATCAGGTGAAGCTTGACCAGCCCCCGACGATCATGCCACTGACGGGATGGGGGCTGTGTGATCAGTGCCACTGCTGGCGTTGGCAGTTGGGGCACCACTTTGCGGGGATGCCCATGCCGCTAGCCAGTTATTGCCAGCAATTGATCATCGGTCAGAGTGATCCATACAACGCGTCGGCAATGGCAAACGTCAAACGACTCGGGATTATTCATCTTTTCTGTATCTCAGGAATGCACGTGGTCCTGTTAGTAGCTATCCTGCGCTGGCTGGGAGTGTACCTGTGGCTAGACCGGGAGCTGGTTGATGTCCTGTTGATTGTGGCGTTGCCATTTTACCTGGTCATCGCGGGTGGGGCACCGAGTCTGATTCGAGCGGTGATCATGGCCGAGACCGGCCTATTCCGCAGTGCCTTACGACTGGATCGGCTCGACGGTTGGGCGGTGAGCCTGCTCGTCGGGACTGCCTGGGAACCGGCCGTCCTACTCAGCCTGGGCGGCCAGCTAAGTTATCTCCTGTCGTTTTTGCTACAGGTGATGGACCGGCAGCTGCCGGCCCTGCGGCAGACCTTCCTATTGAGTATAGCCAGTCTGCCAGCGATTCTGAGCTACGTCTTTGAGTTTCACTGGCTCAGTCTGGTGCTTAGTTACCCGATGATTCCCCTGTTTTCCCTGGTCCTCTTTCCCCTGGTTCTGATCAGTGCCGGAACCTATTGGGCTCTACCCGTATTCGGTAACCTGGTCAACCAGGTTCTGTTGACCTTTCAGCGGCTGATTGAGTTTGCAGCCCACCTACCAGGGGAGGTCGTCTTCGGTAAGCCACCACTTTGGCTAGCGGTGGTGCTATTTCTACTGACCCTTTGGACAATTAGTGACTACCGACAAGTCCGGCGGTGGGTACTCTTGGGGCTTGCTTACTTAGCCTGTTTTATGGTGATTCACTTTCCACTCAACGGTGAGGTTGCCTTCGTTGATATTGGTCAGGGAGACTGCATTATCATTCGTGAGCCGCTGAATCGCCGGGTAATGATGATTGATACCGGGGGTAAGCTGAACTTTGGCCACCGGCAGCAGGCACCGGGGTGTGACGTGGCTACCCGGACCAGTATTAATTATCTGAAGAGTCGGGGTATCGACCATATTGATACCATTTACCTTAGTCACCGGGATGCCGATCACATTGGCTACCTGCCGACGGTCCTACAGGCGATGCGGGTCAAACGGGTTGCGGTACCGGCGGGGATGGAGAAGCAACCCGTCCTGACCCGTAAGGTGGGAGGCGTAAACCAGCCCCAGGTTATTTCGGTTATGGACCAGCACCCCAGCATTGATCCGGGGCTCAGGATCCTTCATCCGTTTGCCCCTGGTGAGGCGAAGAATGAAGATTCGATGGTGCTGACTGGATGCTTTGGTGGTCGGCAATTTGTCTTCACTGGCGACCTGGATCGGGCCGGGGAATGTGCAGTCCTCGACCGCTATCCGCAGTTACACGCCGATGTACTGAAGCTTGGCCACCATGGTAGTCGGACGGCGAGCGATGACCGCTTTCTGGATCAGCTGCACCCGCAGTGGGGAATTATCTCGGCGGGGCGGTTCAACCGCTACCATCATCCCAATGATGAGGTTGTAGCCAGCTTGCGGCAACGGCAGATTAAGATCCTATCAACCCAGCAGTACGGGATGATCAGGTACGTATATGCACAGCAACATGGTCGTTTTCAGACCACTCTTGAAGGAGGAGAACTTAAGTGGACATTACCGAACTGTCTCAACAACTAA
>SRR1151252_00196 competence protein ComEB
ATGGTAAGAAAGCGAATTGACTGGGACCAGTACTTCATGATCCAAGCTGCCCTGCTGGCCTCACGCAGCACCTGTAACCGGCTCTCGGTCGGGGCAGTGTTGGTCCGTGATAAGCGGATCATTGCCGGTGGCTATAATGGATCAGTATCCGGTGACGACCATTGCATCGACGCAGGCTGCTACCTACGGGATGGTCACTGTGTCCGGACGATCCATGCCGAGATGAATGCCATCCTTCAGTGTGCCAAGTTTGGCATCTCGATGGACGGGGCCAGTCTGTACGTGACTGATTTTCCGTGCCTCCAGTGCACGAAGAGCCTCCTGCAGGCCGGTATTAAGGAGATCAACTATATTCGCAACTACCATAATGACGATTACGCCATGAAGCTGATTAAGCTTAAAGACATCCACCTTCACCAAATCAAGCTTGACGATAATATCTTAGATGAGGTTCGCTTAGGCCAGTACATTCAGCCTGAGCAGTAG
>SRR1151252_00197 competence protein ComEA
ATGGAACGCTTGAAGGAAATTTGGGAGACCTATCGTTATCAACTGTTGATCCTGATAGCGGTCTTGGGATTGGTTATGGCATGGTTGGTAAAGCGACCAGCAGCCGAACCCGCGCAGCCGGATCAGACCCTGGCGATAAGCACGACAGCCAGCAGCATGACGAAAGCACCGTCCACAACCAGCAGCCAGATCTGTGTTGACGTTAAGGGGGCCGTCAAGCATCCGGGAATCTATAAGCTGAAGAATGGTGCCCGGGTAAACGAGGCGGTTGCGGCCGCGGGCGGCATCATCAATAGCGCCGATATGAAACAGGTCAACCTGGCTAAGCAGCTGAATGACGCTGAGGTGGTCTATGTCCCGGTAAACGGGGAGACGATGCCGGGGATAAGTACTGTCGGTGCTAGTAGCGGGGACGCGACAGCCGGCAGTGGGAGTCAGACGGCTACGGTCAACATTAACACGGCGACCAAGGAGCAGCTTTGTCAGATTACCGGGATCGGTGACAAGAAGGCCGACCTGATCTTGCAATATCGGCAGCAGCACGGTCAATTCAAGTCGGTTGATGAATTGAAACAGGTCAGTGGCTTTGGTGACAAGTCGGTGGAGAAAATCAGGGACCAGTTGGCGGTCTAG
>SRR1151252_00198 levansucrase
ATGTACAAGAGTGGTAAAAACTGGGTCGTAGTAACCCTGTCCACCGCAGCATTGGCCTTAGGTGCCTCTGTCGTTAATGCAAACGCAGACGCCACTACGCCTGTTACAAGTAGTACTGATGTCCCGGTTACTGAATCCGTCAACAGCAGTTCTGCCGTTATGAGTTCATCTTCGACGCCAATTAAGTCTAACGCTGCACAGACCGCAACGACTTCCCAGTCAAGTGCTGATAACGTTCAATCGTCCGACGCCCCAAAGACGGCAACCCCGGTAACAAAACAAGGCAACACCACAACGGCACCTGCTGCCAAAACTACCGACAGCCAACCAGCTGACCACCACCAGGCACAGCTTAACCCAGTAAGCAGCGCAGCTAAGGATGCTGAGCAGCGGTCCACGCACTTAACAGACAAGGCAGCCACGGTAGTTAAGAATGCTGGTATTGCCCCGAACAGCCTGACTTCTCAACAGGTCAAGGAACTGAATAAGGTCAACTTCTCGAAGTCAGCCAAGACCGGTACACAAATGACCTACAATGACTTCAAGAAGATTGCTAACACGCTGATCAAGCAAGATGGCCGTTACGCAATTCCATTCTTTAACGCTAAGCAAATTCAGAATATGCCGGCCGCTCACACTCGCGATGCCCAGACCGGTGAGGTTACTGACCTGGATATTTGGGACTCATGGCCAGTTCAGGATACCAAGACCGGCTATGTCTCAAATTGGAATGGGTACCAATTAGTTATCGGAATGATGGGGGAACCAAACGTCAACGATAATCATATTTACCTGTTGTACAACAAGTATGGGGACAACAACCTAGCCAACTGGAAGAACGCTGGTCCGATCTTTGGTTATAACGCTAATGCGGTTCGTCAGGAATGGTCTGGTTCTGCAACCGTAAACCCAGACGGGTCCATTCAATTGTTCTATACACGCGTTGACACAAGTGATAACTACACCAACCACCAGAAGTTGGCGAGTGCAACGATCTACCTTGATCATGATGATAAGACCGGAACGGTTTCAATTAATCATGTGGCCAATGATCACGTCATCTTTGAAGGGGATGGCTACTACTACCAGACCTACAAACAATGGCGTGCCACTAACAATGGAGCCGACAACATTGCAATGCGTGATGCTCATATTATTGAAGATAATGACGGCAACCGTTACCTGGTATTTGAGGCCAGCACGGGACTTGAAAATTACCAGGGCTTGAGTCAGCTTTATAATTGGCAAAACTACGGAGGCAGCGATAAGTTTAACGTTAATAACTTCTTCCACCTGCTGTCTAATAACGATATGCGGAGCCGTGCAAGTTGGGCCAATGCCGCTATTGGTATTCTGAAGCTTAATAATGACATTAAGAATCCACAGGTAAGTGAGCTCTACACGCCATTGCTTACGGCACCGATGGTTAGCGATGAGATTGAACGGCCGGATGTTGTTAAGTTAGGAGACAAGTACTATCTCTTTGCGGCAACGCGGTTGAATCGTGGTAGTAATGATGATGCTTGGAATGCTGCCAACAAGGCTGTTGGGGACAACGTTGTCATGGTTGGTTACGTCTCCGATAAGCTGACGGGTGGTTACAAGCCTCTGAACGACTCCAGTGTTGTTTTGACGACGTCAGTTCCAGCAAACTGGCGGACCGCTACCTATTCCTACTATGCAATCCCAGTTGAAGGACACCCTAACCAGGTCCTGATCACTTCCTACATCACCAACCGGAATGAGGTTGCTGGTAAGAATATGAACTCAACCTGGGCTCCAAGCTTCCTGGTTCAGATTAACCCTGATAACACCACGATGGTTCTCGCACGGATGACTAACCAGGGTGATTGGATCTGGGACAACACCAGTGAGAATGACAACATGGCGGGCGTTCTTGACAAGAATACTGCTAATAGTGCAGCCCTGCCTGGTGAGTGGGGCAAGCCAATCGACTGGAACCTGGTCGGCGGCGACGATTTGATCCCTCATAACCCGGGTGAGCCAGACACACCTAACGTTCCTAATGTTCCGAATACGCCAGACACACCAAACACGCCTAACGTTCCTGATATCCCGAATACGCCAAATACACCAAATACTCCGGACACACCAAATGTCCCGAATACACCAAACACGCCGCGTGAACCACAGACGTCTAACAAGACCGAAACTAGGTTACCACAAACCGGCAACCATAATGGTCAAGTAGCAATGGGCCTTGGTTTCGCATCCCTGTTGGCAATGTTTGGCCTGGTGGGTGCTAATAAGCGTCGTTACTAA
>SRR1151252_00199 hypothetical protein
ATGAAAAGACAAGATAAACAGGTCCTCCGCTGGATTGGGGTTGTCCTTGCGCTGATCCTCTTTTTGGGCTGGTTTCTCCTCTGGCCGCTGAATTCCTACGTTGAGGCGCCGGGGACCGCTACCAACCTACGCTCCTTTGTCCGGGTCAAAGACCACCCGGATTTGGGGAAGGGAAGCTTTATGATCACCTCGGTGGCGCTCCAGCGTGCCCACCCGGCGACCTATCTCGTTGCCAAGGCGGTCCCATACCTGTCCATTGAGAAGGCGGCGGACGTCACGGGGGGACAGAGTGGGGCGACCTTTGACCGGGTTCAGCATTTCTACATGCAGAGCTCGATCAACGAGGCCATCGCGGTGGCCTTTCAGGCGGCCCACCAGCCGGTTTCCCGAAAGTATTTGGGGATTTATGTTCTCCAGGTGGAACCGAACTCTAAGTTCAAGCGGGTGATTAAGGTGGGGGATACCATCACGAAGGTTGATGGTCGTCACTTCAACACCGCCCAGGGATTTCAGAAGTACATTGGTAAGCAAAAGATCGGCTCCCCGCTGACGGTAACCTATGAGCGCACTGGTCGTCAGCACCAGGCGACTCGTCGGCTGGTACGGCTAACCGCCCGCCGAGCCGGGATTGGGATCCTGTTGACCAATAATATGAAGGTTAAGACTAGGGTGCCAGTGAAGGTCGATCCGGGACAGCTGGGCGGTCCGTCCGGTGGGCTGATGTTTACCCTGCAGATCTATGAACAGATCAGCGGACACGACCTCCAGCGGGGCCGCAAGATTGCTGGCACCGGGACGATTGCCCCGGACGGCAGTGTTGGTGAGATCGGTGGGATCGACAAGAAGGTCATTGCCGCGCACCGGGCCGGTGCCACTATTTTTCTGGCGCCGTACATCAAACCCACCAAGCTGGTTCTGAAGTACGAGGACGGCCACCAGACCAACTACCAGCTGGCCAAGAAGACGGCTAAACGATATGCACCGGGAATGAAGGTCGTTCCGGTGACCTCCTTTAAGCAGGCGGTCCACTACCTAGAACAGAAGTAA
>SRR1151252_00200 phosphopantetheine adenylyltransferase
ATGAAAGTTGCTGTATTTCCCGGGACCTTTGACCCGCTAACCCTGGGTCATTTGGACCTGATCAAGCGGGGGAGCGCCCTTTTTGATCAACTGGCTGTTGCTGTGATGACCAATAACAGCAAGAAACCGTTGTTTACGGTTGAGGAACGGGTTGACCAGATTAAGGAGGCCGTGGCTGGACTAGACAACGTTTCCGTAATTACGGCGTCTGGGTTAACTGTTGACCTGATGAACCGGATCGGGGCCGACTACCTGATGCGGGGGTTGCGAAACAATACCGATTTCCAGTATGAACGCGATATCGCCGCCATGAACAACTTTTTAGATGACCAGTGCGAGACGATTTTCTTCCTGGCCAAGCCGGAGTATCAGCACCTATCGAGTAGTCTGCTGAAGGAGGTTACCTCCAATGGTGGTGACATCTCCGCCTACCTGCCGGCCAATATCAATGCGGCCCTGAAGAAGCGACTGGAAGAACGGCAATTGATGCGGGTAAAGGCACAGAATGAAAAGACAAGATAA
>SRR1151252_00201 rRNA methyltransferase
ATGAGAGTAGTATCTGGTGAGTTTCGCGGCCGGAAGCTAAGTGCCGTACCCGGCATGGCGACCCGGCCCACGACCGATAAGGTGAAGGAAGCCCTCTTCAACATCATCGGGCCATACTTCGATGGTGGACAAAGTCTGGACCTGTTTGCCGGTAGCGGGGGACTCAGTATTGAAGGGGTCTCCCGCGGCATCGATCACGCTGTCCTGATTGATCGGCAGTACCAGGCGATCAAGACGATTCGCCACAACGTTGAAGTGACTAAGCACCCTGAGCGATTCTCAATTTATAAGATGGATGCTCGTAAGGCGCTAGGAATGCTCGGTAAGCACCAGGCTAGGTTTGATCTGGTTTATCTGGACCCGCCATATGCTAAGCAGCAGATCTTGAAGGATCTTGATCAGATGGTGGCAGACAACCTGCTCAACGATGGGGCGGTGATCGTTGCCGAGACCAACCAGGCGGCGGACCTGCCGACCACCGACCGACCGAACTTTACGTTTATTCGCCGGCAGACATATGGTATAACGGTACTGACCATTTACCGTTTTCGAAAGGAGTAG
>SRR1151252_00202 hypothetical protein
ATGTTTAAATTAACTGCGCGGCGGGCCCTAGTGGTGTACGTCAATGGCAACCGGGTCGTACGGGCCCTTCGCCATTACGGGCTGGTCCGTTACGTTTCCCGACGAATGCATTACGTGATTCTATACGTTGATCAAGATCAGATCGACACGGTAAAGGACAAGGTCAAACACCTGCGGGCGGTTCGGCGAGTGGAGGAATCAGTCCGCCCCGACCTCGACCCAACCCTGACCGACCTGGAGATGACTGGACTATACAAACTACATGATGAGGATGATAAGCAATGA
>SRR1151252_00203 cell division protein FtsW
GTGAAAAAGATAAAGCTGCGGCCCCGTCATGGACTGGCCACAATTAAACAAAACTTTCATTTTTGGGACTATTACTTGATGGTTCCCTACCTTGTTCTGTGCCTGATCGGGATCGTGATGGTCTATTCATCAAGCGCGGCAATTCAGATGCAAAATGGGGGCACGCCCCAGGCCTACCTGATCAAGCAGACCATCTATGTCATCCTGGGGGTCCTCGTCCTCCTGTTCTGTGCCAACTACCCCCTTGAACACTACCGGCACCGTCGCTTCCTCGAATATTCGACCGTCGGCATGGGTTTCTTGCTAGCGGTAGTCCTGTTGATTGGGAAAGCGGTCAACGGCGCCAAGGGGTGGCTGAATCTGGGGCCGATCAATATCCAGCCGGTGGAGTTCTGTAAACTCTACTTTATTCTCTACCTGGCCGACCGGATGGCCCGCGCACGGCAGCAGGGGAAACACTTCCTGCTTTCCAAGTCATCGCGGGGACCACTGATTCTTGCCGCGGGTTACCTGATCTTGATTCTTGTTCAGCCTGACACGGGGGGCTTTGCGATCAACGCCTGCATCATCGCCGTGATGATTCTCGCCTGTGACATCCGTTGGGGGAAGGCCATCACCGCAGTGATTGGTTTTCCACTGCTGGTTTACTTTGGCCTGCAACTGGCCATCATCAACGGGTGGCTGCATGGTGGCTACCGGATTCAGCGATTCATCGCCTTCATGAACCCGTTTGGTAACGCCAGCGGGTCCGGGAGTCAACTGGTCAATTCCTACTACGCCATCAGTAACGGTGGTATTTTTGGCGTCGGGTTGGGAAACAGTGTCCAGAAGATGGGGTATCTGCCAGAGCCCAACACCGATTTTATCATGGCGATCACCAGCGAGGAGCTCGGCCTGGTCGGTGTGACGGTCATTTTGGTTCTCCTCTTGGTCCTGATCTGCCGGATGATCCAGCTGGGGGTCAAGAGCCAGTCATTGTACCAAAGCCTGATCTGCTATGGGTCCGCCACCTTCTTCACGATTGAAACCTTCTTTAACATCGGTGGGGTCCTGGGCCTGCTGCCGATTACTGGGGTGACCTTCCCTTTCATCAGTTATGGGGGATCCAGTATGCTGGTCCTCTCGGCAACGGTGGGGATCATCATGAACATCAGTATTCGCCAGAATAAGGCCCAGTTGGAAATCGGCGAACCATTTTTACCAACAGATTAG
>SRR1151252_00204 GTP-binding protein TypA
TTGAAAACTCGTGAGGACATTCGTAACATTGCGATCATTGCCCACGTTGACCACGGTAAGACGACCCTGGTTAACGAAATGTTGAAGCAGTCAGATACTTTACCGGAACACTTCAGCATCCAAGACCGGGCCATGGATACCAACGCCATTGAACGGGAGCGTGGGATCACCATCCTGTCCAAGAACACGGCCGTTAAGTACGGCAAGTACCAGATTAATATCCTGGATACCCCGGGACACGCCGATTTCGGTGGTGAAGTTGAACGGGTTATGAAGATGGTTGATGGGGTATTGCTGGTTGTCGATGCCTTTGAAGGGACCATGCCACAGACCCGCTTCGTGCTGAAGAAGGCCTTGGAACAGCACCTGACCCCAATCGTGGTCATCAACAAGGTTGACCGGAAGGGTGCTCGTCCGGAAGAAGTTGTCGACGAAGTATTGGACCTCTTCATTGAACTGGGTGCTGACGAAGACCAACTGGACTTCCCAGTGGTTTACACCTCAGCCATGAACGGGACTTCCAGTTACGATTCTGATATTTCAACTCAGGAACACACGATGAAGCCACTGTTCGACACCATCATCAAGACCATTCCGGCCCCAGTTGACAACTCCGACGAACCGCTCCAGTTCCAAGTTGCCATCCTGGATTACAATGACTTTGTCGGCCGGATCGGGATTGGTCGGGTTTTCCGTGGTAAGATCAAGGTCGGCGACAACGTTACCCTGATGAAGTTAGACGGGACCAAGAAGAACTTCCGGGTTACCAAGCTGTTCGGTTTCTTCGGTCTGAAGCGGTTGGAAATTAAGGAAGCCAAGGCTGGTGACCTGATTGCCGTTTCCGGGATGGAAGACATCAACGTCGGTGAGACGGTTACCGACCCAGACCACCCAGAAGCCCTGACCCCACTGCGGATTGATCCACCGACGCTGCGGATGACTTTCCGGACCAACGATTCACCGTTTGCCGGCCGGGAAGGTAAGTTTGTGACGGCCCGTCAGCTGGAAGACCGCCTGAAGCGTGAGATGCAGACCGATGTTTCCCTTAAGGTTGACGACACGGATGATCCAGGTGCCTGGACTGTTTCCGGTCGTGGTGAACTCCACCTGTCCATCCTGATCGAGACCCTGCGGCGTGAAGGCTACGAACTGTCCGTATCACGGCCAGAAGTTATCTACCGTGAAATCGACGGGACGATGTGTGAACCATTCGAAGAGGTTCAGATTGACACCCCTGATGAATACACCGGGGCCGTGATCGACGGTCTCTCCAAGCGTAAGGGTGAGATGAAGAACATGGAGCCTGGTGAAAACGGCCAGACCCGGTTAATCTTCCTTGCACCATCACGTGGTTTGATCGGTTACTCCACCGAGTTCATGACCCAGACCCGTGGTTACGGGATCATGAGCCACACCTTCGAGAAGTACGCTCCAGTAATCAAGAACTGGAACCCAGGTCGGCAAAAGGGTACCCTGGTTTCCATGAACGCTGGTAAGGCCACGACTTATGCCATGATGGGGATTGAAAGTCGTGGGCAGCTTCTGATCGACCCAGGTACGGAGGTCTACGAAGGAATGATCGTTGGTGAAAACAGCCGTGAAAATGACATCACGGTTAATATCACCAAGGGTAAGAACCTGACCAACGTCCGGGCAGCCGGTTCTGATGAGATGGCCCACATCAAGACGCCAACCCACTTCTCCCTTGAGGAATCACTCGAATTCCTGAACGAAGATGAGTACTGTGAGGTTACGCCTGAAAACATCCGCCTGCGTAAGAAGATCCTGAACACGAATGCTCGTGAAAAGGAAGCCAAGCGCCGTCGTGCGGCTTCACGCAAGTAA
>SRR1151252_00205 inositol monophosphatase
ATGCTGGAAGGGATTGACTTACAAGTGCAAAGAATGCTGCGTCGAGTTAACCGTCAGACCCTCCGGCACCTGGATGGCTCCTACCAGGTAGCTACCAAGAGCAGCTATAGCGACCTGGTGACCACGATCGACCGGCAGAATGAACAGGAGATTGACCGTCAGCTCCGGGTGATTGATCCTGGCTGCCGGATTTTGAGTGAGGAGGGCTTTGGTGACCGCCGGGTTGACGACCTGGATGGTCATGTCTGGATCGTCGACCCCCTGGACGGCACCCTCAACTTTGTTAAACAGCATGATCACTTCGGCATCATGTTGGCCCTCTACGTTGACGGACGGCCGACCCTGGCCTACATCATGGATGCGGTCAACCAGGACCTCTATCATGGCGGTAACGGCGGGGGTGTTTTCAAGAACGACCGCCGGCTGACACGGCCGGCTGACGTTGGTCTCCATGATATCTTGGTTGCCATCAGCTCCTCACTGGTCCTAGATGACGTGGCCCACCTGACCCGGGTGGCCCGTCAGGCGAGTGGCCTTAGGATGTATGGCAGTGCGGCGATGGAGATGATCGGCGTGTTGACCGGTGAATTGGGAGCATACGTTTCACGCCTGAAGCCATGGGACCTGGCCCCGGGACGAGTCTTGGCAGAAGAATTAGGATTGAGCGTTAAATCAATTGACGATGATGGAATAAGTGTGCTATCATCTAATCTTGTATTAGTAGCAACGAAGCGCGCGGGTCAGGATATTCTGGATCGCACCGATTAG
>SRR1151252_00206 hypothetical protein
ATGCAAAGCCAAAATTACTCTTACCCATTGAACCCCAGTTGGTCAACTACCGAGATGGAGACCGTGATCGCGATGCTCCGGGCCGTTGAGGATGCCTACGAGGTCGGGATCAATCGTGAAGAACTGTTGAAACGTTACCGTTCCTTCAAAGAGGTCGTTAATTCCAAGGCTGAGGAGAAGCAGATCGGTCGTGACTTTGAACGTGAATCCGGCTACGTCCTCTACCGGGCCGTCAAGGCGGCTCAGGAGGGTGATACTAAGCGGATCAAGATGGCGGGGGAGCGCTGA
>SRR1151252_00207 dihydrolipoamide dehydrogenase
ATGGCTGATGTTGAACAAAAAGATACGGTTATTGTCGGAGGGGGCCCTGGTGGCTACGTTGCCGCTATCCGTGCCTCTGAATTAGGACAAAAGGTTACCCTGATCGAAAAGGGTACAGGTGAGCCTAACCATACTGGTTTGGGTGGTGTCTGCCTGAATGTTGGTTGTGTACCTTCTAAGGCTTTGATTGCTGCTGGTCACCGGCTTCGTGAAGCTCGTGATGCCTCGACCTACGGAATTTCCAAGACCGACGCAACAATTGACTTTAAGAAGACCCAAGACTGGAAGCAACATAAGGTTGTTGACCGGATGACCCGTGGTGTCAAGATGCTGCTCAAGAAGCACAAGGTTGAGATTATCGACGGGGTTGCCATGATGGACAACGATCACCAGCTCCGGGTTCTGAAGTCTGGTTCAAAGCAATTCATGGGTTTTGACGGTGGTAAGAAGATTACCTGGAAGAACCTGATTTTGGCAACTGGTTCACGTCCAGTTGAAATTCCTAACTTCAAGTTTGAAGGTCGGGTTATTGACTCTACGGGTGGCTTAGGCCTGAAGGAAGTTCCAAAGGAATTAGTTGTCATCGGTGGTGGTTACATCGGGACCGAATTGGCTGGTGCTTACGCTGATCTCGGTTCACACGTAACGATCATTGAAGGTACTGACAGTATCCTTGGTGGCTTTGACAAGGATATGGTAAAGGTCGTTGTCAAGAACCTGAAGAAGAAGGGGATTGACATTATCACCAAAGCCATGGCCAAGAACTCTACCCAAGATGATTCTTCTGTCACGGTTACCTACGAAGTTGATGGCAAGGAAAACAGTATCAAGGCAGATTACTGCATGGTTTCTGTTGGTCGGAAGCCAAACACCGATAACTTTGCCCTCGACATGACGAGTGTTAAGCTCAACGATCACCATCAAGTGATCGTTGATAAGCAGGGTCGGACCAACGTACCAGGTATCTGGGCAATTGGTGATATTGTTCCAGGTCCTGCCTTAGCCCACAAGGCCTTCTTTGAAGGTAAGACTGCTGCTGGAGCGATTGCCGGTAAGAACACCGCCAATGACTGGGTAGGGGTACCTGCCGTCTGCTTCGCTGACCCTGAATTGGCCCAAGTCGGCATGACTGCTGACGAAACCAAGGAGAAGGGGATCGAGGTTGCCACCGCTAAGTTCCCATTTGCCGGGAACGCACGTGCGGTATCACTTGACCAACCTGATGGGTTTGTCCGGTTCACCTACACCAAGGACAAGAAGAATGTTGTTGGTGCTGAGGTTGTTGGGCCAGAAGCAAGTACGCTGGCCGGTGAATTGTCATTAATTGTCAACTGTGGCATGAATGTTGAGGATGTTTCCTTAACCATTCACCCGCACCCAACCCTTAATGAACCAATTCAAGAAGCTGCTGACGTTGCAATGGGCTTCCCAACCCACATTTAA
>SRR1151252_00208 pyruvate dehydrogenase complex E2 component dihydrolipoamide acetyltransferase
ATGGCTTACAAATTCAGACTACCTGAAATGGGTGAAGGCCTTACCGAAGGTGACATCGCTTCATTCCTGGTTAAGGAAGGCGACCAGATCAAGGCCGACGATCCATTAGTAGAAATTCAAACCGATAAATCAACCACCCAATTGGTATCACCAGTTGACGGGACCGTTACTAAGCTGGATGCTAAGGAAGACGATCACGTTGAAAAGGGTGATGACCTGGTTGAAATCGATGACGGCAAGGACGGTGTAAGCACCAACGTTGAAGCCGAGGATGATGACGACGATGCTGGTGATGATGCTGCTGATGAGGCACCAGCTGAGGAAGAATCTGCTGCGCCAGCCGAGAGTGCTGCTCCAGCAAAGCCAGCTGAAGGTGCCAAGGGTGGCGTTGCACCACTGGCTGAACCAAACAAGCTGGTTATGGCCATGCCATCAGTTCGTCAATACGCTCGTGATAAGGGCGTTGACATCTCCTTGGTACAGCCAAGTGGTAACCACGGTCAAGTACTGAAGGAAGACATTGACAACTTCAACGGCGCTGCTGCTAGTGCTCCAGCTGCCGGCGAGGCACCAGCTGCAGCCGCCGCTCCAAAGGCTGGTAACACGATCAAGCCTTACACCGGTGCTGGTGAGGATGCTGAAACTCGTGAACCACTGTCCAAGATGCGTCAAATCATTGCTAAGAACATGCGTGAGTCTGCCGACATCAGTCCAATGGTTACGGTCTTCGCTAACGCTGAAGTATCCAAGATCATGGCTAACCGGAAGAAGTACAAGTCAGTTGCTGCTGACCAGGGTATTCACTTGACCTTCCTGCCTTACGTTGTTAAGGCCCTCATTGCCATGATGAAGAAGTACCCAGAATTCAACAGTTCAATTGATGACAGCACTCAAGAATTAGTTCAAAAGCACTACTACAACATTGGTATTGCTACTAGCACTGATCACGGGCTGTATAACCCGAACATCAAGAATGCTGACTCTAAGAGCATGTTTGAAATTGCTAAGGAAATCTCCGACAACGCACAAGCTGCTGAAGACAACAAGCTTAGTCCGGAGAGTATGGCACACGGCTGCATCACCATCTCCAACATTGGCTCCATGCGTGGTGGCTGGTTCACACCAATCATCAACCAACCAGAAGTTGCTATTCTCGGGATGGGTACCATTGCTACCGAACCAGTTGTCAATGCTGAAGGTGAAATTGTTGTTGGCCATAACATGAAGTTATCACTGACCGTTGATCACCGTCTGATTGATGGTGCCTTAGCTACTGAAGCTTTGAACTATCTGAAGAAGCTCCTTGAAGATCCTGAATTGTTAATGATGGAGGGCTAA
>SRR1151252_00209 pyruvate dehydrogenase complex E1 component subunit beta
ATGGCTAAAAAGACATATATCAAAGCTATTACTGAAGGTATTGACATTGCTTTGGCTGAAGATCCAAAGACCTTGGTCTTCGGTGAAGATGTTGGTAAAAACGGTGGTGTCTTCCGTGCTACTAATGGCTTACAAACGAAGTACGGCAAGGATCGTGTATTCAGTACCCCACTTGCTGAATCAGGTATTTTAGGGATGTCAATTGGTCTGGCTGCTACTGGCTGGCGTCCAGTTCCAGAAATTCAGTTCATGGGCTTCACCTTTGAAGCAATGGACTCCATTGCCGGACAGATGTCTCGTGTACGTTTCCAATACAACGGTACCAAGAACATGCCAATCACCATCCGGACTCCTTACGGTGGTGGTACCCACACTGCTGAGCTCCACGGGGACGACCTTGAAAACTTCTTCGTTGGTATCCCAGGGCTGCGGGTTGTTACCCCAAGTTCCGCTTACGATGCCAAAGGTCTGGTAATTTCCGCTATTGAAAACAACGACCCAGTGCTCTTCCTTGAAAACCTTCGTCTCTACCGTTCAGTTAAGGGTGAAGTTCCTGATGACAAGTACACTGTTCCGTTGGACAAGGCTAATGTTGTTCAAGAAGGGAACGACATTACGATCGTTACCTACGGTGGGATGGTTCCAGAAGCTGTTAAGGCTGCTAAGAAGCTGGCTAAGGACAACATCTCTGCTGAAGTTATCGACCTTCGTTCACTCTACCCACTTGACACTGACACCATCTTCGAATCTGTAAAGAAGACGCACCATGTTGTTGTCGTTCAAGAATCACAAAAGATGGCCGGTGTTGGTGCCCAAGTTGCTTCCGCAATTTCCGAAGGTGCCATCATGTACCTGGATGCACCAATCACCCGGGTTGCCGCACCTAACTCTGTCTACCCATTCCCAATGGCAGAAGACGTATGGCTTCCACGTGCTAAGGAAATTGAAGACGCAGCTCGTCAAGTAGTTAACTATTAA
>SRR1151252_00210 pyruvate dehydrogenase complex E1 component subunit alpha
ATGATGTTAATTGGATTTGGGAAGGGATGTTTTATAATGGCCAATGCTGTTGACTTTGCAAAGATTAAAGCCGATGAAGGCGCTGCATACGCAAAGCCTGTTCAAATTCTTGATAATGATGGGAACGTCGTTAACAAGGAATTAATGGCTAATTTCACTGATGACCAATTAGTAGACTTAATGAAGAAAATGGTTTGGGAACGTGCACTGCACGAACAAACGATGAGCTTCTCTCAACAAGGTCGTTTAGGCTTCTATGCTCCAACCTGGGGTGAGGAGGCTTCCGAAATGGGTACGGCATCAGCATTCAAGAAGCAGGACTTCCTTTGCCCTGCATACCGTGACATACCACAATTGATTCAACACGGTGCTACTGTTGCTCAAATGTACCTGTGGTCCAAGGGTCACCTCAAGGGTAACCTGTTCGAAGCTCGTGCTCTTCGTCCACAAATTATCATTGGTGCCCAAATGGTTGAAATGGCCGGTGCCGCTCTTGGTATCAAGAAGAACGGTGAAAAGGATGCCGTTGCTTATGCCTACACTGGTGAAGGTGGTTCTTCACAGGGTGACACCTACGAAGGGATGAACTTCGCTGGTGCATTCCAAGCACCTGCCGTATTCATTATTCAAAACAATGGTTGGGCAATTTCTTACCCAAGTAAGCTTCAAACCGAAGCACAAACTATTGCTCAAAAGGGTGTTGCTGCTGGTATTCCAGGCGTTCAAGTTGACGGGATGGATGTACTGGCATGTTACGAAGTTGCCAAGGAAGCACGTGAATTCGCTGCTGCCGGTAACGGCCCAGTTCTGATTGAAACCTTAACTTACCGGTTCGGTGCCCACAGTTCTGCTGGTGATGACCCTAGTCGGTACCGTACCAAGGAAGAAGAAAAGCCTTGGTTCGACAAGGACCCACTGATTCGGCTTCGTAAGTACTTAACTAAGAAGGGCCTCTGGTCTGAAGACGAAGAAAAGAAGTACGCCGATGAATGCAAGGACGACTTCAAGAAGGCTATCAAGGAAGCTGACTCTGTTGAACCAGAAAAGGTTTCTGACATGCTGAAGCGGACCTTCGAAGTACCAACCCCAGATATTAAGGAACAAATCAAAGAGTACGAAGCAAAGGAGTCGAAGTAA
>SRR1151252_00211 peptide deformylase
TTGTACCTAATGAAGGACATTACTCGCGACGGTAACCCCGTCTTACGGAAGCGAGCCGCAAAAGTTGAATTCCCACTCTCGGAAGAAGATCAAGAGTTAGCCAAAAAGATGATGGAATACCTGGAGGTCAGCCAGGATCCCGAGCTGTGCGAAAAGTACAAGCTCCGCGCCGGGGTCGGCCTGGCCGCTCCACAGGTAGGGGTTTCTAAGCAGATGGCCGCCGTCCTAGTGCCACCGCTGGATAGTGACGACGAGGACGCCAAGCCCTTGTTCAAAGACGTCATCATCAACCCGGTGATCGTCAGTGAGTCCGTCCAGTACGGTGCCCTGACAGAGGGCGAGGGCTGCTTATCAGTTGATAAGGACGTCCCCGGCTATGTTCCCCGCCACGACCGAATCACCCTGCGCTACCAGGATGTTAAGGGCGAAAAGCACCAGGTTCGGCTAAAGAACTACCCAGCGATCGTCTGTCAACACGAAATTGACCACCTGCACGGCGTTCTCTTCTATGACCACATCAACAAGGAGCATCCCTTTGAGGCTCCGGAAGGCACGATCATGATCAGCTAA
>SRR1151252_00212 hypothetical protein
ATGCGACTATTTTGGGTATGTTTGGTTGCTGTCATCATTGTGATTGGCCTATACGTAGCCATTCACCGGATCCTGATTAACCGGGCAACGATTATGCTGCGCAATCGTGCACAACAGACGACTGATGATGCGGTCAACGCCAGCCTGCAGAAGCTACTGAGCTGGGATCAGACCTTGAATTCCCAGCTGGTGGCTGATGTTTGGGGCAAGGGGGTCCTGGCCTTTGAGTATCATTTTGATCGTAAGCAAGCCAGCGCTCAGCTAGATCGGGACCAGCTCATGGCGGCCCTGGGCGACTATGCCAACCGGCACGACCTAAAGCCCGCCCAGCCAGGGAAACCGGTTTTTGTGGTGACCGACTGGTGGGAATATGAGGAAATCCTCCATATCGACGTGGCCTACTTGCTGAATGAGTCAACAATGGAATACGTCAGCGACCTGAAGCGTCTCGACCATCACGATAAGCATTAA
>SRR1151252_00213 hypothetical protein
ATGACTTTCAAGGTATACTACCAACCGGATAAGACCAAGCGGCCGGTCCGTGAGAATACTCAATCCATGTACATCGAAGCCGACTCAGAGGCTGAAGCACTGCTGATGGTTGAGCACAACACCGATTACAACATCGAGTATGTTGAACAGCTTGATGACCAGGCCCTCGCTTACGAAAAGCAAAATCCTAACTTTAAGATTACGACATTTGATTAA
>SRR1151252_00214 diacylglycerol kinase family protein
ATGCATTATTCAATCATCATTAATCCCCAGGCTGGCAACGGTACAGCCAAGCAGGCATGGCAACATATCAAGAGCCAGCTCGATGCAGCAAACGTTCACTATGACTACCAGCTGACCAAAGAGGTTGGAGATGCCGAATACCTTGCCCGTCGGATCGGTCATCGCCAATGGTCACAGTCACTGGTGATGATCGTGGTGGGTGGTGACGGTACCCTCCACGACGTCTTGAACGGTCTCATCAGGTCCACGCCGAATCACGCCGACCAGGTCCCCCTCGCCTACATCCCCATTGGGGTTAACAGTGTCTTTGCCAAGGGCTACGGTATCTCAATGGACCCAGATAAGGCCCTCCAGCAGATTCTCAGTGCCCACGAAATTCGTCGAATCAACATTGGCCACTACCATGATGCGATCAAGGACCAGGACCAATACTTTCTCAACAACCTCGGAATCGGTTTTGACGCCGCAATCATCAGTCGGGTGAACAGTCACTCCAAACGGCAACGACCACTCAGCCGATTCGGTTTCTTCCGTCACGCCCTTGAGGTCCTATATAATCAGCAGCAGGCCTTCAACCTGATGGTCCAGCAGCAAGGCAGCCGCGAGTTCTTCAAGAAGGCCTACATTGTGATCATCGCCAACCACCCTTACATGAGTGGTCACCTCCAAATTACCCCAGCCGCCGACCTAACAGAATCCTCCTTGGACCTGATCGTGGCTGAACGGAAAAACTGGCTGGTCACCTTCTGGCAAATCTGGAAGTTTACCCACGGCAAATTAGCCAATTCACGTTTTGCTAGCTACTACCATGGTCGCAGTTTCCACTGCACGACCACCTCACTAGAATTTGCCCAGGTTGATGGTGAAGAGATCGGTAACCAGTTCATGGACCTGCTAATCACCACCACCAGCTACCCTTTCTATCAACAAGCACAGAACTAA
>SRR1151252_00215 hypothetical protein
GTGAGTAATAAACATGAGATTGAAGAAGAATTGAACCAGGCCCAGGCGCGGCTTGACGCCCTCTGTCAAAATGAGGGGACGGTTGACGACCATGGTAATCAAACGGTGGTTGTTCAACCAACCTATGGTGATGAGATGCAGTCATTGCGTGAGGAATGCAGCAATTTGCAGATTATCCTCGAAGCGATGGAAGCCTCTGAAGACTAA
>SRR1151252_00216 NLP/P60 protein
ATGGTAAAACGAGCACACCATCGTTCAGCGGTCCGCAACGTGCTGGCCGGGACAATCGGTACCTTAGGTGCATTAGCGGTAACTACCCAGGTCGCTAGTGCTAACCACGTCATTGTTAAGGCTGGGGATACCATCTGGAAGATTGCCGAACAGCACCAGACCACCGTTTCCGCCCTGGAAAACGCCAATACTAATACTGTCAAGAAGGTTAGTGATAGTGTTGACCTGATTTATGCTGGTCAACAGCTCGCCCTTCCTGGTAGCAACGACCAGGCGATGCAGGCAGATGCCAACGGCCACTATACCGTGAAGCCCGGTGATACCCTGAGTAAAATTGCCCAACACTTCCACACCTCAGTTGCCAACCTGCGGGCCTTAAACGGGTTGTCTGGTGATCAGCTTTACATCGGCCAGCAACTGGTTGTTAATGGCCAGGCGGTTTCGACCACTGTTACCACCCCAGCGGTTACCACTCAGCCAGTAGCAACGAGTGAAACGTCGGTGGCCAGTGCCGCCCCACTTGCTAGTCAAGAAGCAACAAGCACGCCAACGCCGGTCCAGTCTGCCAGCGCCAGTCAAGCGCAACCGGTTAGTGCAGCTGATAGCTCAGCAAACGTGACGACCCCGGCCACAAGTGCTAGTGCTGGTTCTGTTGCCCCGACTAGTACCGAAGCAACTGACCAGATGGCCGTGGCTGCCACCACTAATAGTGCTGCTAATAGTAACGCTGATACGACCACTACGGCAGAGACGGCGAGTCAGACCAGCGCGGTAGCGACGAGCACCACGCCGGCCAACGTCCAGTCGACTTCCGTTGCGCCAGCTCCAATGCAATCCGCCAGTGCCAACGTCACGACAACGGCAAACACTAGCTCGGCAACACCGCAGCCGGTTGCCTCCCAGGCCCCGGCTAGTGCTAGCCAGCAGGCCGCCCCACAAGCAGCCAGTCAAGCGCCGGCTCAACAATCGGCCAGTCAGGCACCAGTTCAGCAATCTAGCCAGCCGGCCACACCAGCGTCGGCCCAACCACAGACTAACGCCAGTCAGAATCTCAGCTCTGGTTCCGTGGTTAGCCTGGCTACCAAGGTTGCGAACTCAAACAGCGTCCCTTACGTTTGGGGTGGTTCCTCATTGAACGGAATGGATTGCTCTGGCCTGGTGGATTACGTTTACGCCAATGCCGAGGGCAAGCAGCTGCCGCATAACACGGTAGCCCTCGAAAGCCACGTTAACCAGCACGCTGTCAGTGACGCCCAGGCGGGGGACATCCTCTTCTGGGGCCAGCACGGGTCAACGTATCACTGTGCAATCTACACCGGTAACAACCAATTCGTTGCGGCGGCTAAGCCCGGAACCAATGTGGCTTCCTACACGATCAGTCCATACTTCCAGCCAAGCTTTGCCGGAACGGTTAAGTAA
>SRR1151252_00217 aspartate-semialdehyde dehydrogenase
ATGAGTAAGGAATACAATGTCGCAATTTTAGGGGCCACCGGTGCGGTTGGTACCCGGATGATTCAACAACTTGAACAATCTACCATCCCGGTTAAGAGCTTGAAGCTCCTGGCCTCCAGCCGATCCGCCGGCAAGCAGCTCCAGTTTAAGGGGCAGCCGATCACGGTTGAGGAGGCCACCCCAGATGCCTTTAACGGGGTCGACCTAGTACTTTCCTCTGCTGGGGGCAGTGTCTCCAAGAAGCTCTTGCCTGAGGCCGTCAAGCGTGGGGCGGTCTGTGTCGATAACACCAGCGCCTTCCGGATGAAACCGGACGTGCCACTGGTTGTTCCCGAGGTTAACGAGGAAGCCCTGAAGAATCATCATGGGATCGTTGCCAACCCGAACTGCTCAACGATTCAGATGGTCGTCGCTCTTGAGCCAATCCGACAGGCGTTTGGTCTCAAGCAGGTGATCGTCTCCACCTACCAGGCGGCATCCGGGGCCGGGCAGTCCGCCTTAAACGAGTTGAAGCATGAGGCCCAGGACTACCTAGACGGCAAGGACATTCAGGAGGATGCTCAGATTCTGCCGACCAAGGGGGATAAGAAACATTACCCGCTGGCCTTCAACCTCCTGCCACAGATCGACGTCTTCGAGGACGACGGCTACTCCCACGAGGAGTGGAAGATGATCCACGAAACCAAGAAAATTATGCTCAACGACATGGACGCTGGTGACATCAAGGTTACCGCCACCTGTGTCCGGGTACCGGTTCCGATCGCCCATGGTGAGTCGGTCTACTTTACGGTCGATGACCCGACCGTCACCGTTGACCAACTTCGTGAAGTCTTGCAGGGGGCCCCGGGTGTTACCCTCCAGGATGACCCGGCCCACCAGGTCTATCCACAACCGTTGAACGCCGTCGGTAAGCGTGACACTTTCGTCGGCCGGCTACGGGCGGACGCCGAAAACCCGGGTTCCTTCAACATGTGGGTGGTTGCCGATAACCTCCTGAAGGGGGCTGCTTGGAACACGGTTGAGAATGCCGAGTGCCTGGTCAAGGACGGTCTTCTCTAA
>SRR1151252_00218 4-hydroxy-tetrahydrodipicolinate reductase
ATGAAAAAGGTTTTAATTGCTGGGGCTGCCGGAGCAATGGGACAGAAGGCCGTTGACCTGGTTAACTCCCTCCCGGATTACCAGCTAACAGCCGTCCTGGCTCCCCACCTGGCGGCTGAGCAGGCGGAGCAATACCACCTGGCTGCCGCGGTCAAGGTCTACCACCGGTTGGCCGAGATTGAAGACGGGATCGCTGATATCTGGGTTGACTTTACCCTACCGGACGCCGGCTACGAAAACGTCAAGTTCGCTCTCCAACACGGGATGCGGCCGATCGTCGGCACGACTGGTCTGACCGATGACCAGGAGGCGGAATTGGTCCGGCTCAGCCAGCGGCAGGGGCTGGGCGGCCTGATCGCCCCGAACTTTGGGATGTCGGCCGTCCTCTTGATGAAGTTTGCCAAGGAGGCGGCGACCTACTTCCCGGACGTGGAGATCATCGAGATGCACCACGCTGACAAGAAGGATGCCCCCTCTGGGACCGCCCTGAGTACGGCCAAGCTGATCGACCAGGTCCGGTCTGACCACGAGACCAACCCGGATGAGCAGGAGAGCTTAGCCGGGGCCCGTGGCGGTGACTACCACGGGATCAAGATCCATGCCGTTCGCCTGCCCGGCTATATTGCCCACGAGCAGGTTCTCTTTGGGGGCGCCGGTGAGGCCCTGACTATCCGGCAGGACTCCTTTGACCGCCAGTCATTCATGAGCGGGGTCAAGGTCGCCCTAGAAAAGATCTGTCAGCTGGATCAACTGGTGATTGGCCTTGAGAACATCCTTTAG
>SRR1151252_00219 N-acetylneuraminate lyase
ATGACAACATTACAAGACGCTGATTTACTAACCGCAATCGTGACCCCGTTTGACGGCGACAATCATATCAACTTTGCCAGCCTTAAGACACTGACCGAGCACCTCCTGGCCGGGGGCAGTAACGGTTTCGTCATCGGGGGTACCACCGGTGAGACGCCAACCCTCTCCCACGACGAGAAGATCGCCCTCTACCAGCAGTTCGGTCAGATCATCGCTGGCCGGGTACCCGTGATCGCTGGGACCGGGTCCAACAACACCCAAGAGACGATTGACTTTACTAACGAGGTCGCCGCGATTGCCGGGATCGACTACGCCCTGGTGGTGGTTCCGCCGTACAACAAGCCGAACCAGCGGGGGATGATCGCCCACTTTACCGCCGTCGCCGACCAGGTTAAGATCCCGATTATTATCTATAACATTCCGGGGCGGACCGGGGTCAAGATGGATGCCCGGACCGTCGTGGAACTGTCACAGCACCCAAACATTGCCGGAGTCAAGCAGTGTGCCTCCCTCGAAGAGATGCAGTACATCATCGACCACGCCGCTGACGACTTCGCCATCTTCACCGGTGAGGACGCCCAGGCACTGACCGCCCGTGTTCTCGGCGCCAACGGGGTTATCTCCGTGGCTTCTCACTGCTACGTCAAGGAGATGCGGCAGATGTATGACCAACTCTACGCCGGCAACTACCAGAAAGCTGGTCAGCTACAGCGTCTGCTGACGCCAAAGATGGCCGCCCTCTTCATGTACCCGTCACCGTCACCGGTCAAGGCGGTCCTGAATGCCCAGGGCCTGGCCGCTGGCGGCTGCCGGCTGCCGATCCTCTCCTTAAACGATCCGGAGAAGCGGGCCCTGGAATCCGCCCTGGAACTGCCGGCTAACTCGCTGAGTACCCAGGACCTGCCGTTGGACTTGTAA
>SRR1151252_00220 acetyldiaminopimelate deacetylase
ATGCTAACGGAAGAACAACTGATTCACGTGCGGCGCCACCTTCACGAGATTCCGGAGTTGGCCCTACACGAATACCAAACCCATGACTACCTATTAGAAGTGATTCACGAATTTAACCAGGCCAACCTGGAAATCCGGGTGCCAGACGATCTGCCGACAGCGATCCTGGTCCTGGTTCACGGCCGTCAGCCAGCCCGGACGATCGGTTACCGGACCGACATCGACGCCCTGCCGGTGGAGGAGCAGACGGGCCTGCCCTTTGCCTCCCGCCACCCGGGGGTGATGCACGCCTGCGGACACGACATCCACATGACCGTGGCCTTAGGAGTGCTGAGCTTCTTCAGTACCCACCAGCCCAAGGACAACCTGCTCTTCTTCTTCCAACCGGCGGAGGAGAGCGACTACGGTGGTAAGCGGGCCTACGAGGCGGGGATCTTCACCGGTAAGTGGCACCCAGACGAGTTCTACGGCCTCCACGATAACCCCGACCTACCTGCCGGGGAGATCGGTTGTCGGATGGGAACCCTGTTTGCCGGGACCACTGAGGTTAACATCGACATTAACGGGAAGGGGGGGCACGCAGCCTACCCCCAGGACGCCAATGACACTGTGGTCGCGGCCGCCAGCCTGATCATGCAGGTCCAGACGATTATCTCTCGCAGCATTGACCCGATTGCCAGTGGGGTGATCACCCTGGGCAAGATTCGGGGTGGGACGATCCGCAACGTCATCGCGGGCCACACCCGTATTGAGGGGACGATCCGCGGCCTCACCCAGGAGATGATCGAGCATATCGACCACCGCCTGCAGGCCGTCTGTGACGGGGTTGCCACCAGCTTCGGACTGGACGTCGACCTGGAGCTCAACCAGGGCGGCTACTGGCCGGTCGAGAACGATCCATCCTTGACTAAGCGTTTTATTGACTATATGCAGCAGAATCCGGATGTTAACTTCATCGAGACGGCCCCGGCGATGACCGGGGAGGACTTCGGCTACCTGCTGGCCCAGTTTCCGGGCACGATGTTCTGGCTGGGAGTTGACGAAGACTCCCAGCTCCACTCCGCCACCTTGACACCAAAGGAGGACGCCATCCAAAAGGGTGTTGACGCCATTGCTGGTTTCCTAAACTACCGGATGCAAGAGAATTAA
>SRR1151252_00221 2,3,4,5-tetrahydropyridine-2,6-carboxylate N-succinyltransferase
ATGGCAAAATTAGACGCACAGACGATCATTAACTACATCGGTAACGCCCCTAAGAAGACCCCCGTCAAGGTCTACCTGCGTGGGAACCTGGCCGATCTGGAATTTCCTCAAGGGGTTCAGCACTTCACCGAGGCCCACAGTGGAGTAATCTTCGGTGATTGGGCAGACGTCCAGCCCTTCCTTGAACAGGCCGGCGACCGGATTGCCGACTACCACGTCGAAAACGACGCCCGCAACTCCGCTGTCCCGTTGCTTGACCTGAAGGGGATCAACGCCCGGATCGAACCGGGGGCGATCATCAGGGATAAGGTCCTGATTGGTGACAACGCCGTCATCATGATGGGAGCCACAATCAATATTGGTGCTGAGATCGGTGCCGACTCGATGATCGACATGGGCGCCATCCTCGGTGGCCGGGCGATCGTCGGTAAGCACTGTCACATCGGTGCCGGGACCGTTCTCGCCGGGGTGGTTGAACCTGCCTCTGCCCAGCCGGTGCGAATTGATGACAATGTCCTGATCGGGGCCAATGCCGTGGTGATCGAGGGGATTCACGTTGGTGAGGGTGCCGTGGTCGCCGCCGGGGCGATCGTCACCCATGACGTGGCACCGCACACGATGGTCGCCGGGGTACCCGCCAAGTTTATCAAGAATGTCGACCAACAGACTGAGAGTAAGACGGCCCTGGAAGACGGCCTCAGGAAGCTGTAG
>SRR1151252_00222 diaminopimelate decarboxylase
ATGAATGAGCAATTAACTGAGCAACAGATTAACGCCGCCGGCCACCTGACAATCGGTGGCTGTGACGCGATCGAACTGGCCCACAAGTATGGGACACCGCTGGTGGTTTACGACGTCAGCCGGATCCGTGACCAGATCCGCCGTTTTAAGAAGGTCTTCGAGGCCAACCAGGTGGATTACGAGGTCAGCTACGCCAGCAAGGCCTTCGCCGCTATTGCTATGTATCAGGTGGCTGCGGCGGCGGGCGCCCACATCGACGTGGTTTCCGGTGGGGAACTCTACACGGCGATCAAAGCTGGCTTTCCGATGGACCGGGTCAGCTTCCACGGCAATAATAAGTCTGCCGACGAGCTGGCGATGGCGATCCACCACCATGTCGGGGTGATCATGCTGGATAACTTCCACGAGACTGACCTCCTGTCCCAACTTCTGGAAGAAAATGACGCCAAAATCAAGGTCATGCTCCGGATCACCCCGGGGATTGCCGCCCATACTAATAAGTACATTCAAACGGGGCAGGTCGACAGCAAGTTCGGTTTCGACCTGGCATCCGGCCAAGCGGATGAGGCATTGGAAAAGGTCCTGGCTAACCCACGGATGGAGATGCTCGGTCTGCATGCCCATATCGGGTCGCAGATCTTTGAACTGGCCGGCTTCGAAGGGGTCGCTGACAAGCTGGTCGAGGTGGCCAGCCACTGGCAAGCAAAGTACGGCTACCAGGCCCGGGTCATCAACGTCGGGGGCGGCTTCGGGATTCGCTACGTCAGCGTTGATCACCCGCTGATGCCAGAGGAGTTCGTCGACGCCATCATCAAGGCGATCAAAACGGCAGTAGCCAAGACCAACCTGGACCTGCCGGCCATCTGGATTGAACCTGGTCGGTCGATTGTTGGCCCCGCGGGTTATAACCTCTACACGGTGGGTTCGCGCAAGGACGTACCGGGATTGAAACCCTATGTAACCGTTGATGGGGGGATGGGTGACAACATCCGGCCAGCGCTTTACCAGGCCGAGTACGAGACGGTGCTGGCCAGCAACCCCCACGCCCCGATCGAGGAACACGTTCGCCTGGCCGGCAAGTACTGTGAGTCCGGCGATATCCTGAGTCAGGACCAGGGGCTACCGGCGACCAAGCCTGGCGACGTACTGGCAATGCTGGATACCGGCGCGTACGGTTACGCGATGGCCTCCAACTATAACCGTAACCCGCGGCCAGCGGTGGTCTTCGCCGAAAACGGCCATGACCAGCTGGTAATTGAACGCGAGAGCTATGCCGACCTGGTGCACCTAGACCGGCCCTATGAACAACAATAA
>SRR1151252_00223 aspartate kinase
ATGAAAGTAGTTAAATTCGGTGGCAGCTCTCTGGCTGACGGGGACAGCTTCGCCCAGGCAATTAAAATTATCACGGCCGACCCTGAGCGGCGAGTGATCGTTACCTCCGCCCCCGGTAAACGCCACGCCGGCGACACCAAGGTCACCGACCTCCTGATCAAGTACGCCCGATCAGTGATCGACGGGCAAGCTACGGATGATGTCCTCCAGCAGGTCACCGACCGCTACCGGGCCATCGCCAACCACTTCCACTTACCGGCAAGCCAGTTAACACCGATCATCGACCGCCTCCGCGACCTGCCAAATGGGGACTACCCGAACAACCAATATCTGCTGGCCGCCTTCAAGGCCCACGGTGAGCGTTCCAACGCCCAGTTGATGGCCCTGATTCTCAACCACCTGGGTTATGAAGCCCGCTTCGTCACCCCAACAGCTGCCGGGATCCGGGTTTCCGGAACCCCAAACAACGCCAGCGTAATCCCCGAGACATACAGCCTGCTCGATCAATTTACGGCCAAGCAAAGTGAGCTCCTGGTCTTTCCCGGTTTCTACGGCATTACCCTGGCTGGCCACATTGCCACCTTCTCCTGGGGCGGCTCCGACATCACTGGCGCAATCCTGGCCCGCGGCCTACACGCCGACCTGTACGAAAACTTCACCGACGTCGACGCCATCTACGCAGCTAACCCCAGCGTAGTCGACGAGCCCCAGCCGATCCGCAAGATGACCTACCGTGAGATGCGGGAGCTCTCCTACGCCGGCTTCTCGGTCTTCCATGATGAGGCCCTAATCCCGGCAATCGAGGGCAATGTTCCAATCAATGTCAAGAACACCCACCACCCTGAGAAGTCTGGCACCCTGATCGTTCCCGACAAGGACTTCCAACCAAGCGACATTGTCACCGGGATCGTCAGTGGTAAGCATTTTGCGGCCCTCTACCTCCACAAGTACCTGCTCAACAAGCAGACCGGTTTCACCCTGCGGATTTTGGAAATTCTAGCCAAGTACCACGTTTCATACGAACACATGCCATCAGGAATCGACGACATCACCATTATCATGGACCGCAACCTGGTTGACGACCAGCTGATCGACACCATCTCCAACAAGATTCAAGAGGCGGTCAATCCCGACCGACTTGAGTGGATCAATAACTACGCCATCACCATGGTCGTCGGCGAAGGGATGCGTAACCTGATCGGGGTCATCAACGATATTCTGGCCCCCCTGGCCCATAACCACATCGCCGTACCGATGATCAATCAGGGAGCATCCCGAATCTCGATCATGATCGGTACCGACGACCAGGATGCCGACAACGCCGTCCGTGCAATCTACCACCGTTTCTTTGCCAACTAA
>SRR1151252_00224 diaminopimelate epimerase
ATGCCAACCCTACTCAAAGTCCACGGTTCCCAGAACCAGTTCTTCATCCTTGACCAGACCACTCTTGATCAGCCATTGACCGACCCTGAGCTCCGTCAACTGACCCAACAGGTCACTAACCCCCAGACCGGACTGCTGGGCGGTGCCGACGGGGTTCTGGTGGTCGATCGACCATTCCGTCCAGGTGCCCAAGCCCAGATGCGGGTGATCAACGCTGACGGTAGCGAGGCTACCATGTGCGGCAACGGACTGCGGACGGTGGCCCGTTACGTTGCCAACCGTGACCAGCTTGACCAGTTCAAGGTCGATACCAAGGACGCCAGCCTTCGGGTCCGCAAGCAGGATGACCTGGCCCCCGGGGTGCCCGCCTTTGCCGTCGAAATCTCACCGGTCCGTTTCGCCAAGGACGCCCTCCCTTTTGATAACCTCGGCCACGACCGCCTACTCGACACCCCAGCACCAGAACTCTGGCCCCGCCTACGTTTCAGTGCCATTGCGGTCCCTAACCCCCACCTGATCAGCTTCGTTGACCGTCCGGCCCTCCAGGATGACGTTCTCGGCGTGATTGGCCACCGTCTAAACGGGAAGAACCCCTACTTCAATGACGGGGTCAACGTCAACTTCGCCCACATTCTTGGTCATAATCAACTCTTCGTCCGTACCTATGAGCGTGGGGTAGGCTTCACCAACGCCTGTGGAACCGGGATGTCGGCCACCAGCTTGGCCTTCGTCCTCCTCCACCCCGAGGCTGCCGACTTCGATCAGCCGATTGAGGTTTTCAACCCGGGCGGCAAGGTGCGGACCATCGTCCACTTCCAGAACCAGGAATACTGGATTGAACTGATCGGTAATGCGACCTTCACCCACGAGATTGTGGTGGATGAGGCGGATCTCCACCGGGCAGCGGTCCAGTGTCAGATCACAACCACCGGGGAGCAGGCAGCCTACCAGGCCTTTGTCAGCCAGCTCCCTCAGCTGGGTCTCATTGATTAA
>SRR1151252_00225 ribose-phosphate pyrophosphokinase
ATGACGCAGATTAAGAACGCTGAGAATGTCCGCCTGTTTGCCTTAAACTCAAACCGGCCCTTGGCTAAGAGCATTGCCAACCGGATTGGCTTGCCATTGAGTAAGGCCTCCATCAGCCACTTTGCTGACGGGGAGATCAAGATCACGATTGACGAGAGTGTCCGGGGCTGTGAGGTTTACGTGATCCAGTCTGTTTCGGACCCGGTCAACACTAACCTGATGGAACTCCTGATCATGGTTGACGCCCTGCGGCGGGCCAGTGCGGCGAAGATCAACGTGGTCATGCCCTACTATGGCTATGCCCGCCAGGATCGGAAGGCCCGGAGCCGGGAACCAATTACGGCCAAGCTGATCGCCAACCTCCTGGAAATGGATCAGATCGACCGCCTGGTCACCATTGACCTGCACGCCGCCCAAGTTCAAGGCTTCTTCGACATTCCAGTTGATCACCTCCAAGCCACCAGCCTCTTTGCCAGCTACTGTGAGCAGCATGGCCTGACTGGGGATGACGTTGTCGTTGTTTCACCCGACCACGCCGGAGTTAACCTGGCCCGGAAGTTTGCCGAACACATCAAGGCGCCGATCGCCATCGTCGACAACCGGGCAGATGAGGTCCGGGAGCGGACCAGCCAGGAAGTTCCGGAATACGTCATCGGTGACGTCGAAGGACGGACTGCACTGGTGGTTGACGATATTGTCGATACTGGGGTCCGGATGAAACTTTCTGCTGCCGCCCTGCAGAAGTTTGGTGCCAAGCGGATCTTTGGGATTGCGACCCACGCCGTCCTCTCCGGTGATGCCGTCAATATCCTGGAAGACTCTGGATTGGAGAAGATGATCGTCACGGATACCATCCAGTTGCCAGAGGAGAAGTGTTTCGATAAGCTAGTCCGGTTGTCAGTGGCTGACCTGCTGGCCGAGGCGATGGTTCGCATCCATAATCATCAGTCTATTGATACGCTATTTAATCGCAAGTAA
>SRR1151252_00226 exodeoxyribonuclease V subunit alpha
ATGGCAGCTGAAATGGATCTATTTAAGACGCCGACGGAGCCGTCTTTTTTTGTTGGGCAGGTCCAGTCGGAAATTTTCACCAGCCCAGACTCCTTTTATAAAGTCCTGATTGTCTCGGTGGAGGAGGCTAATTTTGACTGGAATGAGACTGAGATCACCGTCACCGGGAGTTTCGGCGACCTCAGCGACGATCGCACCTATCGCTTTGAGGGTCAGCTGGTCGACCATCCGCGCTACGGTCGTCAGTTTCAGGCCCAGTCCTACCATATCAACCAGCCGACCAGTCGGGACGGGTTGATCGACTTCCTGTCTGGCAAGCAGTTTAGTGGGGTCGGCAAGAAAACGGCCGAGAAGATCGTCGACACCTTGGGGACGGACGCCATCGCGAAGATCAACCGTGACCCCCACGTGCTGGATTCAATCACTCTCCGCCACGGGGTTAAACAGTCGATCATCGAGAACCTCCAGGCCAGCCAGGGGATGGACCAGATCATCATCGGGCTGAATGACCTGGGCTTCGGGAGCAACCTCAGTAGCACCATCTTTGACAAGTATGGCGACGAGACCCTCCACGTAATCCGGGGGAACCCTTACAAGTTGGCCCAAGACATTGACGGGATCAGCTTTAAGCGGGCTGACCAGGTGGCAAACCAGATGAAGATCGCCCCCGATGACCCCCGGCGGATCACGGCGGCCATCTTCCAGAGCCTCGATGATTTGATGATGGCCACCGGGGATACCTACACCAGCAGCCAGCCCCTCCTTTCGCAGACGGTCCGCCTGCTTAACGAGAGCGGAGCCGGGCAGGTTGGCGTAAATGCGATTTCGGATCAGATCGTGGCCTTGGAGAAAAAGGACGCCATCAACTATGAGGACCAGCGAATATACCCGGCGTCCCTCTACAAGGCGGAGTGGCAGATTGCCGATCACCTGCACCGGTTGATGAACGCCCCAGAAGAGGAACTCGACCAGAAGACGGTTGACCAGACCGTCGATAAGGTCAGTGTCCAGACCGGGATCAAGTATGACCCGGTTCAGGAGCGGGCAATCAAGATGGCCCTCAACCATAAGGTGATGCTGTTGACCGGGGGGCCTGGGACCGGTAAGACCACAATTATCAAGGGGATCGTGGCGGCCTATGCCCGTCTGCACCAGATTTCCCTTGACCTGGATGAATATAAGGACAACGCCTTCCCGGTCCTGCTGGCCGCCCCAACCGGCCGGGCTGCCAAACGGATGAGCGAGGCGACCGACCTGCCGGCCAGCACCATTCATCGGATGCTGGGGCTCAACGGGCGTGAGCTGCCGACCGACATGAACGCCCGGGACATCAAGGGGGCACTGCTGATCATTGATGAGATGTCAATGGTCGACACCCTCCTCTTCAAGACCCTGGTCCAGGCGATTCCGACCGCGATGCACGTCGTCCTGGTTGGCGATAAGGACCAGCTGCCCTCGGTCAGTCCCGGTCAGGTCTTCCACGACCTGCTTAGCTTTCCGGAGATCCCCCGGGTGGAATTGACCAACATTCACCGGCAGGCGGCCGATTCGACCATCATCCCATTGGCCCATGCCATCAAGGAGGGACACCTGCCGGCCGACCTGACCAACCGCCTGCCGGATCGTTCCTTCATCAAGTGTCATACCCCCCAGGTGCCAAGCATCATTAACCAGATCATCACCCTGTCGGCCAAGCGGGGTTACACCGCTGCCGATGTTCAGATTCTGGCCCCGATGTATCGCGGCCAGGCCGGGGTCGACAACCTCAACCAGCTTGCCCAGCAGTCCTATAATCCGCCGGCCAAGGGCAAGCAGGAGGTCGCGTTCCGGGGGCAGATCTTCCGGGTGGGAGATAAGGTCCTCCAGCTAGTCAATAGCCCGGAGAACAACGTCTTCAATGGCGACATTGGTCAGATCACGGCCGTCGAGACGGGGGCCAAGAAGGGGGGGGAGCGGACCGATACGATCACGATTGACTTCGATGGTAACGAGGTCAATTACGGTCGTCAGGAATGGACGCAGATCCGTCTGGCCTACTGTATCTCAATTCATAAGGCCCAGGGGAGTCAGTTCAAGATGGTCCTTTTGCCCCTGGTCCGGCAGTTTAGCCGGATGCTTCAGCGGAATCTGGTCTACACGGCAGTGACCCGGGCAGCCGAGAAGCTGGTTTTAATCGGTGAACCAGCCGCCCTGGTGACGGCCACCCAGCACACGGGTGAGAATCGGCAAACGTCCCTGCCGCAACGGCTGGTGACGGTCTGGCAGCGCCATGATCAGTTGAAGTCACCGCTGGATAAGCCCATCGCACGGCCCCAGCATGCTGCCTCGCAGGTGGTGCCGCAGATTAAGAGTACCGATGTGTTAGAACCGGTCGCCCAATCCCCAGCTCCCGATCAGCCAGCTATCCTGACGGCGGCGATGATTGAAGATCAGCAAATCGACCCGATGATCGGGATGGCTGGTCTCACCCCTGATAACTGCTAG
>SRR1151252_00227 tetratricopeptide repeat protein
ATGGCAGAAAAAGAATTTCGTGAAGAAAAGAAGAAGGAAACGGAAAAGCTGGTCCACAAGCTGATCCAGGAGATTGATGAGCACCCGGACAAGGTGAACAACTACTATGATCTGGGTTCTCTGTTGACCCGTTTGAATGACTACACCCAGGCTGAAGAATTGTTCATGAAGGCGCTTGGAATCTTCGAGGCCAAAAATGACCGGGAAGCCCAGGACCTGCTGAACTACGGTTTGGGGAACCTTTACTACGAGGTTGGTAAGGTTAATCGGGCCATCGAACTCTACAATAAGATCGAAGACGGTAAGCTCAAAGCGGACGCCTACCTGATGCTGGCCCAGAGCTACATGAAGAAGGGGCAGCATAAACAGGCCGTGGCGTACGGTCTGACCGCCCATGAGCTACGGAAAGAGGATCCGGCTATCAATCAGGTAATCGGGGACTCACTGTTGGCCCTCGGTGAATTTACTAAGGCCAAGGAGTACTACGATGCGATCTTGAAGCGGCACCCAGGCCGGGCTGACACCCAGTTCAACCGGGGGATCGTCGCCATGGTCCTCGGCGAGCCTTACAAGGACTACCTCGCCCAGGCCAAGCAGCTGGACCTCAACTACTACCAGAAGAGTGAACAGCGCCTGGCCGACATCGAAAAGACCCTGCAGAAGACCCAGGGCAAAAACAATTGA
>SRR1151252_00228 phosphoglycerate mutase
ATGACAAAAGTTTATCTAATCCGTCATGGAAAAACTGAATGGAATCTGCAATCCCGCTATCAGGGTGCCCACGGTGATTCACCGCTCTTGGTCAGCAGCTATCACGAGATTGCTCAGCTCGCTAAGCCGCTGGAATCCGTGCCGATCGCGCATGTTTACGCCAGTCCTCTGAAGCGGGCCCGGGTGACCGCCCAGAAGCTGATTGATCACCTCAACCGGCCGATCCCACTGACGATCGACAGCCGTCTCCGGGAGTTCAACCTGGGGAAGATGGAAGGGATGCACTTCGCCGATGTTGAGGCCAAGTGGCCGGAAGCCCTCCATAACTTCCGCCACCATCCCGACAAGTACGATGCCGAACTGATCGAGAGTGAGAGCTTTCAGGAGGTTATCGACCGGGTGGGGTCGGCCATTAAGGAGTTCTGCCGTCTCAATTCCGACAAGAACATTGTGGTCGTCTCTCACGGGGCAGCCCTAAACGCCACCATCAACGCGTTGGTGGGGACCCCGATGGCTCATCTGAAGGACCGGGGTGGGTTGAGCAATACCTCGACCACCATCCTACAGACGACGGATGCGGAGCACTTCCAGCTTGAGCAATGGAACGACACCTCATACCTGCATAAGACCAAGGTTGACCCGACGGACACAATTTAA
>SRR1151252_00229 tRNA (5-methylaminomethyl-2-thiouridylate)-methyltransferase
ATGACTGATCACAGTCACACACGTGTTGTTGTTGGGATGAGCGGGGGTGTTGACTCCTCAGTGACCGCCTTGCTGCTCAAAAAGCAGGGCTATGACGTTGTCGGCGTCTTCATGAAGAACTGGGACGACACCGATGAGAACGGGGTTTGTACCGCCACCGAGGATTACAAGGACGTGGCCAAGGTAGCCGCCAAGATCGGTATTCCCTACTACTCGGTCAATTTTGAGAAGGAGTACTGGGACCGGGTCTTCAAGTACTTCATCGCCGAGTACAAGAAGGGGCGGACACCCAACCCGGACGTTATCTGCAATAAGGAAATTAAGTTCAAGGCCTTCATCGACTATGCTAACCAGCTGGGGGCTGATTACGTGGCCACGGGTCACTATGCGGACCTCAAGCGGGATGAAGGTGGCCGGATGCACCTGATGCGAGCTGCCGACCAGCACAAGGACCAGACCTACTTCCTGAGTCAGCTAGACTACCACCAGCTAGACAAGGTCATGTTCCCGCTGGCTCACTACACCAAGCCGCAGATCCGGCAGATCGCAGCGGATGCTGGCCTGGCCACGGCGGACAAGAAGGACTCCGTCGGGATCTGCTTCATTGGTGAGGACGGTCACTTCCGCGAGTTCCTCAGTCAGTACATCCCGGCTCAGCCCGGGAACATGGAGACCGTCGATGGCAAGGTCGTTGGTCAGCACATGGGGCTGATGTACTACACGATCGGTCAGCGGCGCGGTCTGGGTCTCGGTGGTAACAAGGAGAGTAATGAGCCTTGGTTCGTGATCGGTAAGGATATCGACAAGAACGTCCTTTACGTCGGTCAGGGCTACCACAACCCGCACCTCTACGCCACCCACCTGGAGGCCAGTGATATCCACTGGGTCGACGACATGGTCAGCCGCTACGGTCGTGACTTCCATTGCACGGCCAAGTTCCGTTACCGTCAAAAGGACGTCGGCGTGACCGCCCACACCAGCGAGGATGGCCAGCAGGTCACGGTCGAGTTTGATGATCCAGCCCGGGCCATCACACCGGGTCAGGCGGTGGTCTTCTACGATGGCGACGAGTGCCTTGGTAGTGCCATCATCGACCGGGCTTACAACCATGACCGGCAATTGCAATATGTTTAG
>SRR1151252_00230 cysteine desulfurase
ATGCAGTTTACCAAGTGTGTGCAAATTCAGGGTGATTCTGACACCTATTCCATCAGTACCGACATCAAGAAGTACGCCCTCTTAGACCTAGGCTTCGAACAGACGCGGCGGGGGAACTTCGAGTACAAGGGGAGCCTGGACACCGACAACCCCTTTAACCCGGTCGCCCGGCTGCGGATCCTGATTGATAGCGACCTGACCGGGTTCAAAATGGAGACCCTCTCCGGTAACGGGTTGCGCAAGGTCAACATCTTCACCCACCCGCGGTCGGCTGAGTTCGTTGAGCAGTACCACTACATCTTAAAAGAGATGCTCGACCGTCACGTTCTGGTAAAGAATTAA
>SRR1151252_00231 cysteine desulfurase
GTGAGTGAGGTTTACTTAGATAACGCGGCTACCACCCCGATGGCCCCGGAGGTAATCGCCACGATGACCAAGGAGATGGCAGATTCCTGGGGAAACGCCTCGACAGGCTATTCCTACGGGCGTCACTCCAAGCTGGTGATGGAGAACAGTCGTTACCTGATTGCCCAGAGCATCAATGCAGATGACAACGAGATCATCTTCACCAGTGGGGGGACCGAGAGTGATAACACCGCCATTATCCAGACCGCCCTGACCCGGCAGCAACTGGGTAAACACATCATCACCACGGCGATCGAGCATGAGGCGGTCCTAAAGCCCTTGCATTTCCTGGAACAGCGAGGCTTTGAGGTTACCTATCTGCCGGTGGACGAGAACGGTGAGATTTCCCTTGCCGACTTCAAAGCCGCCCTGCGTGATGACACCATCCTGGTTACCATCATGACCGGGAATAACGAGGTCGGTAGCCGGATGCCAATCCACGAGATCGGTGAAATCCTAAAGGACCATCAAGCCTGGTTCCACACCGATGCTGTCCAGGCATATGGCCTGCTGCCGATTGACGTCAAGCGTGACCACATCGACATGTTGTCGACGTCGGCCCACAAACTCAACGGCCCCAAGATGATTGGCTTTCTTTACCGTCGCGATGGGATCAGCTTCCCGAGCTTCATCAAGGGCGGTGACCAGGAAACCAAGCGCCGGGCCGGCACCGAGAACGTGCCCGCCATCGCGGCCTTTGCCAAGGCGGTCGAGCTCGATTCGCCGGAAGAGAAGCAGCGGCGCCAGGAGCGTTACTACCACTTTAAGCAGAAGATTGTTCAGGGACTGCGCGATAATCACATTGACTTTGCGGTCAACGGCAAGCTTGACCCGAGTGGCCTGAATCATGTTCTCAGTATCTGGTTCAAGGGGATCTCAACCTACGTCATGCAGACCGACCTCGACCTGGCCGGGATCGCCGTCTCTGGGGGTTCTGCCTGCACTGCCGGCAGCATCGAGCCATCCCACGTGTTGACGGCGATGTACGGGGCGGACAGCCCGCGGATCAGTCAGTCTATTCGGATCAGCTTCGGGGCGATGAACACCGATGAGGACATCGACAAGCTGATTGCCGCCATCGTCGAGATCGTGGCCAAGCTCAAGCGGGTCAAGGAAGAGGGGAAAGCCTGA
>SRR1151252_00232 5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase
ATGAAATTTGGAATTATTTGTGCAATGCCAGAAGAAATCAAGGAGTTGACTGCCCGGCTCTCTGATAAGCAAGTTGAGACAATCGGCGGTAAGGACTACCTCCAGGGGAAGATCAGCAACCAGCAGGTCGTCTTAGTGGAGTCTGGGATCGGTAAGGTCGAGGCCGGAATCACTACGGAACACCTGATTACCGATTTCAACGTCGACGTGGTGATTAACTCTGGTTCCGCCGGTGGAATCGGTCGGGGCCTCCACATTGGGGATGTGGTCATCTCCAGTGAGACGGCCTACCATGACGTTGACGCCCGCGCCTTTGACTATGTTTACGGTCAGCTACCGGGCAAGCAGCCCCGCTTCAAGGCCTCCGAAAAGTGGGGACGAGCCCTGGAGACGGCCGGGGAGCAGACCGGGTTGAACATCAAGCGCGGCCTGATCGTTTCCGGTGACCAGTTCATCGCCAGCCAGGACGCCATCGACCAAATCCTCCACTACTTCCCTGAAGCCCTGTCCAGCGAGATGGAGGGGGCTGCGGTTGGTCAGGTAGCCACCGATCATGACGTGCCATACGTCGTGGTGCGGGCCATGTCCGATACCGGGAACGAGGATGCCGGCGTCAGCTTCGATGAGTTTATCATTGAGGCCGGTAAGCGGTCCGCCAACATGCTCCTGCAGCTGTTTGCCGACCTGAACAAGTAA
>SRR1151252_00233 hypothetical protein
ATGAATAACCAACCGACCACCCCCCATGATGGCCAACCAAGTGCAGAACCCTTTTTGTCCCGGCAGCAGTACCGGCAGCAACAGAAAGCCCAACGTCACCAGCGCCCGGAGCAACCCGTCGAAAATACGGCCGCTCCGGAGCCGGCGATGCGGCGTCGCGACTTTGAAAATGAGCGCGCCGATAGTGACCAAGAGGAAAAGGTGCGGCGGTTGAAACGGCGTCTGAACATCGCTATCGTGGCCCTTGTGGCCGCAATCATCGTCGTGTATTTGATCCTCTTTTACGTTGGATAA
>SRR1151252_00234 ADP-ribose pyrophosphatase
GTGGATTTTGAAGAAAAACCGATCGAAAGTAAGACGGTGTTTCACGGTCACCTGATCGACGTTGAGGTGCAGCAGGTCAAGACCCCCCAGGGCAACGTGGCCCAGCGAGAGATCGTCCACCATGCACCGGCCATTGCGATCCTGGCGCTGACGAGTGATGACAAGATGATCCTGGAGAAGCAATGGCGCGCCCCAATTGCTAAGACCACCTTGGAGATTCCGGCCGGTAAGCTCGATGACCGTGATGCCGATAATGCAGTTCACGCCGCCAAACGGGAGCTGAATGAGGAGACGCGCTATCGGGCCACTGACCTGGAGAAGGTCTCATCCTTTTATACTTCGGTGGGCTGTATGGACGAATACATGACCCTTTACCTGGCTCGGGGCCTGGAGCGAGTCGACCACGAGCTACCCCAGGACCAGGACGAGCAGTTGGCCCTGCAAACGGTCAGCCTAAACGAGGCCCTGGCGATGATTGACCGTGGTGAGATTGAAGACGCCAAGACGATCATGGCCATCTACTACTGGCGGGGAATGAAGAACCATGAATAA
>SRR1151252_00235 cold-shock protein
ATGCTTGAAGGCAAAGTAAAGAGTTTTGATGAGCAGAAGGGGTGGGGCTTCATTACTGTTCCCCACGAGGGCGAGATCTTCGTCCACTACAGCGGGATTGAGGGTACCCACCGGCGTGTCCTGCATCCGGGCCAACGGGTGTCTTTGGTGATCGTTCAGGGGAAGAAGGGGCCCCAGGCCGCTCATGTCCGTATCCTAGCGAAGGAGGGATTCTAG
>SRR1151252_00236 isoleucyl-tRNA synthetase
ATGCGTGTGAAAGACACACTGAACATCGGCCGGACCAAGTTTCCAATGCGCGGGAAGCTGCCGGTTACCGAAGCCCAACGTGAACAACTTTGGGAAGAGAATAAAGTCTATCAATTACGGCAAAAGTTGAATGAGGGGAAGCCATCGTTCGTTCTCCACGATGGCCCCCCGTACGCCAACGGGAACATTCACATTGGCCATGCCATGAACAAGATCTCCAAGGACTTCATCGTCCGCTACAAGTCGATGACCGGCTACCGGGCTCCATATGTACCCGGCTGGGATACCCACGGTTTGCCGATTGAACACCAATTGACTAAGTCCGGTTACGACCGCAAGAAGATGTCCACCTCCGAGTTCCGGGACCTCTGTCGCAAGTACGCCCTGGAGCAGGTTGACAAGCAACGGACTGACTTCAAGCGGCTGGGCGTCAGCGGTGAATGGGACCACCCATACCTGACCCTGGACAAGGAATTCGAGGCGGCCCAGATCCGGGTTTTCGGTGAATTTGCCAAGAAGGGGCTGCTTTATCAGGCCAAGAAGCCCGTTTACTGGTCATGGTCATCCGAGTCTGCCCTGGCCGAGGCCGAGGTTGAATACCACGACGTTGTAGCCAAGACGGCCTTCTTCGTTGAACAGGTTAAGGACGGTAAGGGACGTTTAGACGACAACACCTACCTGGTTGTTTGGACGACAACCCCGTGGACGGTTCCCGCATCTGAGGCGGTCGCTGTCAACCCGAAGTTCGATTACTCCGTTGTGAAGCCCGCTGGTGACGACCGTAAGTACGTTGTTGGTACCGAACTGTTGGGCAACCTAGCCGAGAAGCTCGGCTGGGACGACTACGAGGTTGTTGACCACCTTGCCGGCGCTGACATGGAAGGGATGACAACTCAGCACCCATACCTCGACCGGGAACTGCTGGTGGGCAACGCCGACTACGTTACCGCCGACACCGGGACTGGCCTGGTACACACCGCCCCTGGTTATGGTGACGACGACTACAACTTCGGTAAGAAGTATGACCTGCCAATCTTTGCCCCGATTAATGACCAGGGTGTCCTGACCAAGGAGAACGGTGCTGACTTCGATGGCGTCTTCTACCAGAAGGCCGACGATATCTCCCTGCAGAAATTGGAAGACAACCACGCCCTCTTGCTGGAAGAACCGCTCAAGCACTCCTACCCATTCGACTGGCGGACTAAGAAGCCGATCATCTTCCGGGCCACCGACCAGTGGTTCGTCTCCATCGAGAAGATGCGGCAGGATATCCTCGACGCCTTAGAAGACGTTGAGTACCACCCGGCATGGGGGAAGGTCCGGTTGCGTAACATGATCAAGGACCGTGGCGACTGGGTTATCTCCCGGCAACGGGTCTGGGGTGTGCCGCTGCCAATCTTCTACGCCGAGGATGGCACGCCGATCATGGAAGAAGAAATGATCAACCATGTTGCTGACCTCTTTGCCAAGTACGGCTCCAACGTCTGGTTTGACCGTGACGCCAAGGACCTCCTGCCAGAGGGTTACACCAATGAGCATTCACCACACGGGAAGTTCACCAAGGAAACCGACATCATGGATGTTTGGTTCGATTCCGGTTCCTCCCACCAGGGGGTTCTGGCGGAGCGTGACTACCTGACCTACCCGGCTGACATGTACCTGGAAGGGTCTGACCAGTACCGTGGTTGGTTCAACTCTAGTCTGATCACCAGTGTGGTCTGCTCCGGCCACGCCCCGTACAAGAGCATCATCTCCCAAGGTTTCACCCTGGACAAGAAGGGTAAGAAGATGAGCAAGTCAATGGGGAACGTCATCGACCCGAACAAGGTGGTCAAGCAGATGGGGGCCGAGATCATCCGCCTCTGGGTAATGTCTGCCGACACCTCTGCCGACGTCCGGGTTTCCATGGGGACCTTCCAACAGATCTCTGAGGCCTACCGGAAGTTGCGGAATACCTTCCGTTTCCTGCTGGCCAACACCGCCGACTTCACGCCGGCCGAAAACACGGTTTCCTACGAGAAGCTGGAAGCCGTTGACCAGTACATGCTGGTTAAATTGAACCACTTCCTCAAGCAGATGCGGGACGACTTCGACCAGTACGACTTCCTGGACGCCTACAAGCTCTTGATCAACTTTGTCAACAACGACCTGTCCGCCTTCTACATGAACGTGGCCAAGGACGTCCTCTACATCGAACCGGCCGACTCCCATGTTCGCCGGTCGATGCAGACGGTCTTCTACCAGATCCTACTGACCCTGGTCAAGCTGCTGACGCCAATCCTGCCGCACACGACGGAAGAGGTCTGGGGCTACATGGACGAGCCAGAGGAATTCGTCCAACTGACCGAGATTCCGGACGTTCAGACCTTTGATAACGAAAGTGACCTCTTGGATAAGTGGCGCGACTTCATGGAGGTTCGTTCCCACGTCCTGAAGAGTCTGGAAGAGGCCCGGAACGCCAAGATGATCGGGAAGTCCCTGGAAGCTCAGGCCGACCTTTACTTAAACGATCAGCAGGCGGCGCTCCTGGATAGCCTGAATGCTGATGCCCAGCTCCTGCTTGGCGTCTCCGCTCTCCATGTTCACCCACTGGATGAGGCGCCTGATGCTGCCGACCAGTTCAACGACGGGGTTGCGGTCAAGGTTAGTCCGGCTCCTGGTGAGGCCTGTGCTCGTTGTCGGATAGTTAAGGAAGATGTCGGCAGCGACAGTGCATACCCAACCCTCTGTGCGCGGTGTGCCAAGATTGTTCGCGACAACTTCCCAGAGACGGTCGATGAAGGCTTAGAGAAGTAA
>SRR1151252_00237 cell division protein DivIVA
ATGGGGTTAACAATTGATCAAATCAACAATCAGGATTTCTCGACTAAGATGCGGGGTTACAACCAGGAGGAGGTCCACAACTTCATCCAGGAGGTTTCCCAGACGGTTCAGGAACTGACTGAAAAGAACAATGCCTTGCAGGAAGCCATCAAGGCCGATGAGGAGAAGCTGAAGTACTTCACGGAACTTAAGGATTCCCTGAACAAGTCAATTCTGGTTGCCCAGGAAGCCGCTGATAAGGTCAAGACAAATGCTAAACGTGAGGCGGACATCATGATTCGTGAGGCCCAAAAGCAGGCTACTGATATCGTCTCCGAGGCGAATGAAAAATCCAACCAGGTCATTGAGACGAGTGCGGAAGATACGCGGAAGCTGACCACGGAGACCAACGACCTTAAGAAGCAGACCCGGATCTTCCGGCAGCGGCTTCAGGTGATGCTGGAGTCCCAGCTTGAGGTTGTCAAGAGCGATGAGTGGGATAAGCTCTTGGCTACCGACAACACTGACAAGTACGATGAAATCCAAAAGATCTTGGGAGCATCGCTTGACAAGCATTCCGACGACAGTGTAGAATCATCAACAACTAGTTCAGACACGCAGCCCGTAGCTGGTGACCAGCCAGCCGTTGAGCCGGCGGACAATGATAGTGCGGCATCTGATTCTGACGATCAGAGTGCTGATGCCGGGCAGACTGTCGTTGTCTTCCCGGATGATGACAGTTCTGCCGACAAGTAG
>SRR1151252_00238 S4-like RNA binding protein
ATGGATAGTGAAAACATTAAACAGCATTTTCGCCCGGAAGAGGCCCCGTTGATCGACCAGGTCAACGATTGGGTAGCCACGGCAACCAGACAGTACCGGCCCGTCTTGACCGCCTTCTTGAACCCCCGTCAACGCTACATTGCCCAGACGATTGCCAACCGGGTCGATGAGATTAAATTGGCTAGTGATGGTGGTTGGTCAGGGGCCGAGATGCAGCGTCTGCTCTTCTACCCGACCTACTATCAGCCGACTGCTGCTGACTTTGACCTCCAGCTCCTGACCGTTGATTACCCGGTTAAGTTTGCCGAACTTCACCACTGGCAGATAATGGGGACTCTGATCGGGGAGGGGCTCAGTCGGGAATCGTTTGGTGATATCATCACCGATGGTCAGCGTTGGCAGGTGGTAGTGACTAAGGAGATGGCCCAATTCTTGCGTCAGGAAGTTCACCATGTTGGCCGGGTGAAGGTGAAGTGGTTGGTCACCGAACAAACTGGGGTCCTGACTCCAGTTGAGGATTGGGAGCAGGTAGCTACCACCATTTCGTCGCTGCGTCTTGACAATGTCGTGGCGGCCGGCTTTAATTATTCTCGTAACCGGGCCAAGCAGCTGATTGAGCACGGGCTGGTCCACCTAAACTGGGAAGTGATGGACCGACCGGATTACCCGATCGTCGCCCATGACCTCCTATCGGTACGGCACGCGGGTCGGATTAGGATTGACGCAATCGGTGGCAAGACCAGAAAGCAGAAGGATCGGATAAGCATGTCCGTTGTCCGGGCATAA
>SRR1151252_00239 cell division membrane protein
ATGTTAGGATACATATTCTGGTGCCTGAACTGGCTGATCAACGCCTATATCCTGGTGATCGTGGTCTGGTGTCTCTTGTCATGGTTCCCGATTTCTCGGGACACGCGGCTGGGTGAGATTATTAATCGGCTGGTTGAACCCTATATGCACTGGTTCGACTTCATCCCACCGTTGGGCGGTATCAGTTTCGCACCGGTTGTGGCCATTATTGTCTTGTACCTGGTGCAGGACGGACTGGCCTTCTTGGCACACCTGATCTAG
>SRR1151252_00240 cell division protein SepF
ATGGCACTTTTCAAGAGCCTGTTCGGTGACGATGACGCTGCCCAGGATGAATACTACGATGATGAGGCGCCAGCTCAACAGTCTGGGCGACGCAACAACGTCGTTTCTATCCGCCAGGCCAAGCAGGAGACCCGGCTCAGTCAGATTTCTCTGTACGAACCGCGCTTGTATGCTGATGTTCGCCAGATTGCGACGCAGCTGCTTGATGGCCGGGCGGTGATCGTTAACTTCACCCAGATGGATAACGACAACGCTAAGCGGGTAGTTGACTTCCTAAACGGGGCCACCTTTGCGATTGATGGTGGGATTAAACGGATTGGCAAGGAGATCTTCCTCTGTACACCGAAGAATTACGAGGTTTCCGGTAACCTGTCTGACAGCCTGAAGATGGATAACAGCAACCTGCCAAATTAA
>SRR1151252_00241 cell division protein FtsZ
ATGGACAACAACGAAACAAACACTATGGAAAACGAATTTGCCGGTGCACGGATTAAGGTAATTGGTGTTGGTGGCGGTGGCGGTAACGCCGTCAACCGGATGATCAGTGAAAAGGTACAGGGGGTTGACTTTATCGTGGCCAACACGGACCTGCAGGCCCTAAACGCTTCGCAGGCTCCAACCAAGATTCAATTGGGCCCTAAGCTGACCAAGGGCCTGGGTGCCGGTTCCAACCCTGAAGTTGGTGATAAGGCGGCCCAGGAGAGTGAAGAACAGATTCAAAAGGCGCTTGAGGGTGCTGACATGGTCTTCATCACTGCCGGAATGGGCGGTGGTACCGGGACCGGTGCCGCCCCGGTCATTGCCAAGATCGCTAAGGACAGCGGCGCCCTGACGGTGGGGGTTGTCACCCGGCCATTCTCCTTTGAGGGACCACGGCGCTCTAAGTTTGCTACCGATGGTCTTGAGGAACTCAAGTCCAACGTCGACACGCTGATCATTGTGGCTAACAACCGTCTGCTGGAGATGATCGACAAGAAGACGCCAATGATGGAAGCCTTCAAGGAAGCCGATAACGTCCTGCGGCAGGGTGTTCAAGGGATCTCTGACCTGATTGTGACGCCAGGTTACATCAACCTGGACTTTGCCGACATTAAGACCTTGATGTCCAACCAGGGGGCAGCCCTGATGGGGGTTGGTAACTCTACCGGCGAAAACCGGGCCACTGAGGCTACTAAGAAGGCCATCTCCTCACCACTCTTGGAAGTATCCATCAATGGTGCCCAGCACGTTCTGATGGACATCACGGGAGGCAAGGACCTGTCAATGTTTGAGGCCCAGGAAGCTTCCGACGTCATCCGTCAAGCAGCAGGGACCGACGTTGACATTGCCTTTGGGATGTCCCTCAACGAGAAGATGGGTGATGAGGTTCGGGTAACCGTGATTGCCACGGGAATCGACAAGAAGAAGTCATCTAATCCTAGCCAGCACCAGCAAACGATGGCGCAAAGTGCGGCCCCACAGAGTGTCGCTCCATCGCAACCAACGGAAGCGGCTAAGGAGCAGGACCCGTTTGACAACTGGAGTGACCCAACGGCGGGCAACACGGCAGCTCAACCGGGTTCAGCAGCGGATAGCAGCTTTGCGCACGTTGATAAGCCGGAATTCAATGTATTCAATGATGATACCGCTAGTTCGGATGATAGCGATGACGACAACCTGTCAACCCCACCTTTCTTCAAGAACCGGCGTAAATAA
>SRR1151252_00242 cell division protein FtsA
ATGAATAATTCAGAAGTTTATGTTGGATTAGATATTGGAACCACCTCGATCAAGGCAATGGTCTGTGAAAATGTAAAGGGACAACTGAAGGTCATCAGTGTTGGCGTTGTACCTTCGGCTGGTCTGAATCGTGGCGTGATTGTTGATATCGATAAAACCGCTCGTGCAATTTTTCAAGCTGTTAAGAAGGCCGAGGCAAGGTCCAATATCGATATTAAGAATGTTGTCGTGGGGTTGCCGGCAAACTATCTCCAGATGCAGCGGGTCCACGGTTCAATCACGATTGCCTCACAGGGTCAGTCGCGCGAGATCACTGACCGTGACGTGATTGACGTTGCCAAGGAGACGTTGACTCAGAGCATCTCACCCGAGTTAGCGGTCCTTGATTTGATTCCAACCGAGTTCACGGTGGACGGGTTTAATGGTATTAAGGATCCCCGTGGGATGGTTGGTGTCCGTCTCGAAATGAAAGGGACCCTGTATACCGGACCTAAAACTATTATTCATAACACAAAGAAGGCCGTTCAGCAGGCCGGCTATGGCATCCGCGACTTCGTGATCGCGCCGATTGCCACCGGCTTTACCCTCCTCAACGATGGTGAGCAGTACTTTGGGACGGTGGTCATCGACCTTGGTGGTGGCCAGACGACGACCAGCATCATCCATGATCACCAGCTTAAGTATACCTTCGTCGATCCCGAGGGTGGCCAGTACGTCACGAGAGATATCTCGACGGTACTCAACACCTCCCTGCGCAATGCTGAGCGACTAAAGCTCGACCATGGTTATGCCATGGCTAATTTGACCAAGGCTGACGCCCAGGTCGATGTCCCAGTCGTGGGTGAAAATACCCCACAGCAGTTTTCGGAAGAGTACCTGGCTGAGATCATTGAGGCCCGGGTTCGCCAGATCCTCGAGCGGAGTGTTCAACGTTTGCATGCCATTCACGCTCCACGGCTGCCCGGCGGGGTGGTTCTGGTCGGTGGTGGTGCCTCACTACCGGGAATCGTCCAGCTGGCTCAGCAGTACTTCAAGGAGAGTGTCAAGGTCTACCAGCCTGAACAGATGGGGGTTCGTTATCCTCGCTACTCACTGGCCCTGGCACTGACCATGTACGAGAGTCAGCTGACGGACGTTGACCGTCTTATCAAGCAGACCCTGCAACAGACGGACCTGATCACCAGCCCACACGAAACGGCGGTCAAGCCACGTCCTGCCCAGGCCAACAAAGGGCAGTGGACCGCTACACCGACTCAGCCTAGCACGGCCAACCAGGCGGTGGAAAAGAAGCCGGCGCACGCTAAAAAGAATAAGAGCCACTCGATTGGCAACCGCTTTAAGAGTATGTTTAACAACTTATTCGATTAA
>SRR1151252_00243 cell division protein FtsQ
ATGACAAGGGATCACTATGTCTCTGAACACCAGCGTTACGCCAAGCGGCTGGCAGAGCTGGAGGAACGAAGCCGTCAGGCACACCAGCAACGTCAGCAGCCAAATAAGAAGCACATTAGCAAACGGTTGCCGCGCCTGCGTCACCACCACTACCGCAAGAACGGTGAGCGCGTGTTCAAACTAGTCCTGGTGTTTGGCCTTGTCCTCCTGCTGATGGCCTATATCATCTCACCACTGAGCAAGCTTTCATCCGTGAAGGTGGTTGGCAACAAGGAGTTGACGGCCACAAACGTTGAGGACGCGGTGAAGGTGTACCCGGGGCGTTTTATCTGGGGTGTCTACTTGAACAGGGGCAAGCTCTGTCGGCAGGCCCGGGTGACCCAACCCCGGATTGCCAGTGCCAAGATCAGGGTTACCGGGTTACAGAGCATGACGGTCACAGTCCAGGAGAATCCGCTACTTGGGACTGCCCGGCTCGGTAAACAGGTATACGCCGTGTTGGCCGATGGACACCTGCAGGTAACCACGATGGATAGCACGGGGATCGACTATCGGCAGTTCAACGGTCACCGCGCTGATCTTCAGCTGGTTGCTCGCCAGATAGGTAAACTAAAGCCAGCAATTCGTAGCGGGATTTCGGCGATCGTCTATCAGCCTACTAAGCAGATGCCAAACCGGATTGTTTTGTACATGCGTGATGGCAATACGGTCCTGGCCAACAAGAACACGGTGGGCACGAAGATGGCCTACTACCCTGGTATTGCGGCAAACATGAAGCAAAATGGGGTTGTTGACCTGCAAGTGGGGGCCTTTTCCTACGATTATGGTGCAAAGGATAAGTGA
>SRR1151252_00244 UDP-N-acetylglucosamine--N-acetylmuramyl- (pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase
ATGCGGTTACTTGTATCTGGTGGGGGCACCGGTGGTCATATCTATCCGGCGCTGGCCCTGATTGAACGTTTGAAACAGGTGGAACCCGATACGGAGGTCCTCTATGTTGGAACCACCCGGGGGTTGGAGAATAAGATTGTCCCCGATGCGGGCATTAAACTGGAGACCATGCATATGCAGGGCTTTAAGCGTTCCCTTTCCCTGGATAATTTCAAGACCATTTATTTATTCCTGCATTCGGTTCACCATGCTAAGAAGATCATTCGCGACTTCAAACCCGATGTCGTCCTTGGTACGGGGGGCTATGTCAGTGGGGCGGTCCTGTATGCGGCAGCCAAACACCATGTTCCAACGGTTATCCACGAGCAAAACAGCGTGGTGGGGGTCACCAACAAGTTCCTCAGCCGCTATGTTGACCAGATTGCGATCGCCTTTGCGGCGGCGCGTGACCAGTTCCCGACTGATAAGGTAACAATGGTGGGAAACCCACGGGCTCAACAGGTGGCAGCCCAGGCCGACAGTGACTTCTCCTGGACCAGCTATGGCCTCAGAGATGACGTGCCAACCCTGATGATCTTTGGTGGAAGCCAGGGGGCCCCGAAGATCAACCAGGCAGTCGTGGATGCCATTCCCGAGTTTAGTAAGCGCGACTACCAGGTGATCTTTGCCACCGGGCAGAAGCGTTATGACCATGTCAAGGAGCAGCTGGGTGACACCAAGATTGGCACCAACGTTAAGGTCGTCCCATATATCAAGGACATGCCGGCCAAGATGCCCCGGGTAGCAGCCCTGGTTTCCCGGGCGGGGGCGACGACCATTGCCGAGGTTACCGCTTTGGGTGTGCCTACCATCTTGATCCCAAGCCCGTACGTCACGGCCAACCACCAGGTGAAGAACGCCCAGGCCCTGGTCAAGAACAATGCGGCCGCCATGATCACCGAGGACAAGCTGGACGCCAAGTCATTACTCTTACAGGCGGATCGGATCATGGAAAATGACGACCTGCGGGCTAAGATGTCAGCAGCGTCCAAGAAGATGGGACGCCCCGATGCGGCCGATCGACTGATTAAGGTCCTGCACCAGGCAATGGATGAACACAGGTAA
>SRR1151252_00245 UDP-N-acetylmuramoylalanine--D-glutamate ligase
ATGAAGAAGATTAGTAAGTATCAAGGCAAGAAGGTTCTGGTAATGGGCTTTGGAATTAGTGGGATTAACGCAGCCCACCTGCTCGTCAAGCTCGGAGCCACGGTAACGGCCAATGACCAGCAGACACCTAAGGACCCGAAGGTGGTTGCCGACCTGGAAAACGACGGCATTAAGGTTATCACCGGTTCCAACCCGGTCAGCCTGGCCGATGAGGGATTTGATATTGTGGTGAAGAACCCCGGAATCCCGTACGATAATCCGCTGGTTGCCAAGTTTGTTGAGCAGGGCACGCCGATCATTACCGAGGCTGAACTCGGCTGGGAGATCTTTGATGGCCACCTGGTTAGCGTTACCGGGAGTAACGGGAAGACGACCACCACGACTTTGACCCAGCTGATGTTGGCTAAGAGCTCCAGTCACAATGTTAAGTACGCGGGGAACATCGGTGTGTCCTTCAGCAAGGTTGCCGAGGGGATGGGGCCCGACGATACCCTGGTCACTGAGCTATCCAGCTTCCAGCTGCTTGGCTGCCCGACCATCCACCCGCGCATTGCCATCATCACCAATATTTTCTCCAACCACCTGGACTACCACAAGACCCGGGAGAACTACATTAACGCTAAGCTCAACATCACCCGGAACCAGACCAAGGATGATTTCCTGATCATGAACTGGGACCGCGACGAGTGGCAAGAGATTGCCCGGCGTTCCCAGGCGACAATCGTACCGTTCTCCCGGCTTAACAAGAGCCATGAGGGGGCTTATGAAGAGGACGGGATGATCTGCTGGCGTGGTGAACAAATCATGAAGGCAAGGGATATTCGGTTGATCGGTCCCCAGAACGTCGAGAACGCCCTGGCCGCCATCGCCGCTGCCAAGCTTAGTGGGGTATCAAACGAAGACATCATCAGTGTCCTAACAACCTTTGGTGGGGTTCGGCACCGCCTTCAGTACGTCATGGAATACCAGGATCGCCTGTTTTACAACGATTCCAAGTCAACCGATATTGAGGCCACCGAGGTTGCCCTGCAGGGGTTTGATCGTCCGGTGATCCTCCTCGCCGGGGGCCTGGACCGTGGTTATACCTTTGAACGACTGGTACCGTACTTTAAGAAGCACGTCAAGGCAATCATCGTCTTCGGTCAGTGCAAGGACAAGATGAAGGATGCCGCAAAGCAGGCTGGTATCCCGACGATTCTGGAGAGTGAGAATGCCATCACCGCGGTTCCGGCGGCCTGGGAGGTCAGTGAACCCGGGGATGTAATCCTGCTGTCACCGGCCAACGCCAGCTGGGACCAGTTCCCGAGTTTTGAGGTACGCGGGGACCGGTTCATTGAAGCCGTTGAGAAGTTAACGAATCAAAAGGAGAAGTAA
>SRR1151252_00246 phospho-N-acetylmuramoyl-pentapeptide transferase
ATGAATTTATTGACAGCTATTCTGACGGTAATCAGTGCGTTTGCGATTACCTTTTTCCTGATGCCATCACTAATTCGCTATTTTCGGGCCAAGAAAGAGGGCCAGCAGATCAGAAAGGAAGGACCAACCTGGCACGCCAAGAAGGCTGGGACCCCAACGATGGGGGGACTCCTCTTCATCATCTCGGCAGTGATCACCATTCTCTGGGTGGCGGTCTGGCAGGGGATGGTTACCAACACCCTCTGGGCCCTCCTCTTTATCCTGGTCGTTTACGGTCTGATCGGGATGTGGGACGACAGTATTAAAATTTTTCACCACCAAAATGAGGGCTTCAAGGCATGGCAGAAGGCCCTCTGTCAGGTTATTGCAGCGATGACCTTCACGGTGATCTACCAGCACGAAGGTTTCTGGATGGGCTTTGGCACCAGTCAAATCGGCTGGTGGTTTGGCCTATTCATTATCTTCTGGATCGTTGGTTTCTCTAACGCGGTCAACCTGACCGATGGCCTCGATGGCCTGGTCAGTGGCCTGTCGATTATCTCTTTTGCCGCCTATCTGATCATTGCCCTGATCGACATCAACCAGCCTGGTTATCCTGAGGTAGCCCTGTTCTGTCTGGCGATGATCGGGACGCTGGTGGGCTTCTTCCCGTATAATCACAAGCCAGCCAATATTTTCATGGGTGACATGGGGTCGCTGGCAATTGGGGCCTCCCTGGCAGCGGTATCCTTGCTACTGCACCACGAATGGTCCCTGCTGGTTATCGGGATCGTTTACGTTTGCGAGACGGCCAGTGTTATGCTGCAGGTGGCGTCATTCAAGCTGACTGGTAAGCGGATCTTCAAGATGAGTCCAATCCACCACCACTTCGAACTTTGTGGCTGGAGTGAATGGAAGATTGATATTGTCTTTTGGATCGTTGGTCTGATCGGTGCCATTGTTGCCGTAAGTTGGATTTTAATTGCAGGCTAA
>SRR1151252_00247 penicillin-binding protein 2B
ATGAATAAGATGCCACGACGAACGAAAAACAAGTTGAATAATAAAAACCGCGGAACATTTGGTAAATGGTTGTTCATGATCACGGTTGCGTTATTCGTCTTGTTTATCGTTCGTTTTGCGTATATTGCGATTAACAAGGATGTTCAGCACGTTAACCTTCAATCAAAGGCGGAGCAGATCTACACCCAGCGCCAGGTAATTCAAGCCAAGCGGGGAACGATCTATGATGCCGAAGGTAACCAGCTGGCTAGCGATACTAGCAATTATACGCTCTATGCCGTGGTTGATCGCAACCAGCGTTCCAACACCGGCAGGCCACTTTATGTGACGAATAAGAAGAAGACGGCCAAGGTGCTGGCACGCTATATCAACCTGTCACCCGCTAAAATTGAGAAGATCCTGACGACTAACCGGCAGACCTATCAGGTCGAATTTGGGGCGGCGGGGAGTCACCTATCCGTGGCGACCATGCAGAAAATCAAGAGTCACCACCTACCGGGGATCAACTTTGTGGCGACCCCGGCCCGCCAGTATCCAGAGGGGGAGTTTGCCTCTCAGCTGATTGGGATGGCTAACCCCAAGACCGATCCAAAGGTTCCTGGGGGGACTACCCTGGTGGGTCAGCTCGGCCTGGAGGGCTACTTCAATAAGCAGCTGACCGGAGTTAACGGGATCCGGCAGGATAAGCAGGATGTTTACGGCTACCAGCTGGCCAACTCTAAGGCGACAATGAAAAAAGCCGTTAATGGTGATGATGTTCGGACCACCCTAGACCCGCAGACCCAGCACTTCCTTGAAAGTAAGGTCAATAAGGTCTATGAACATTCACGGGCCAACGCGATGACGGCCGTCGTGATGGAGGCCAAGACCGGTAAGATCATTGCGGCCACCCAACGGCCGACATTACGTTCTAAAAAGGACCCGGTCTGGCGCAACATGCTGGTCCAGGATGCTTATGAACCAGGTTCGACGATGAAGATTCTGGCCCTGAGTGCGGCGATTGACTCTGGTCACTTCGACCCCAACGGAACCTTTAATTCTGGAACCTGGTCGATGGGTGGTGGTAAAATCACCGACTGGTCATCCGGTGGCTGGGGTGTAATTACCTATAAGGACGCCTTTGACCTGTCCAGTAACGTCGGTTTTGCTCACCTGGAACAGAATATGGGTGCCGATACCTGGTATAAGTACATCAAGCGCTTTGGCCTATTAAAGAAGGTCAACGTGGTTGGGATGGGAAATGAGGTCGCCGGATTCACCCAGTTCAAGGGAATCCTGGAGCAGGCTAACACCGCCTTTGGTCAGGGGATTACAGTAAATGTGATGCAGATGATGCAGGCATTTACGGCAGTTGCCAACCATGGTAAGATGATGCGGCCTTACTTTGTTTCTAAGGTGACGAACAGTGACGGTCAGGTGGTCAAACGAGTCAAGACAACCGAGGTCGGTCACCCGATCAAGAGCCAGACCGCCCATAAGGTCCTTGACCTGATGCAGGGAGTTGTTTACGACCAGAAGGGACTCGGCCATGCCTATCAGATCAAGGGCCACCGGATTGCTGCTAAGACCGGGACCGCCCAGATCGGTGGGGCCAACGGGTACAGTAATGGTGATACCAATTACCTCTACTCGATGGTTGGGATGGCACCGGCCGAGAATCCCCAGTACATTATCTACATTACCCTGCGCCAGCCACAGAACATCAACCCGCAGCCAGCTGATCAGATTGCCGAAGTCTTCAACCCAACGATGAAGATGCTGCTCAACCGGCGGAGTGCTAGCAAGAAGGCTGCCCACAGCAAGGTCACTGTGCCATCCGTTGTCGGTCACACCAGCCAGGCCGCCAGCGATGAACTAAGCGCTCGCCGCCTCCAGCCGGTCCTGATCGGTAGTGGCAAGAAGGTCAAGCAACAATCACAAGCGGGTGGTCAGCAGGTGTTGGTCAACCAGCGGGTTATCCTGGATACCGGTGGTCGCGTCAAGATGCCAGACCTGACCGGCTGGAGCGCTGCCGACGTTGAGGAACTCGCCCAGTTGCTGCACCTACAACTCAGTGAACAGGGTGACGGCTATGTCGACTCGCAGAGTATCAAGGCTAACGCGTCAATCAATAAGAACCAAACCTTGGTTGTTAAATATAAAGCAAAGAACTAA
>SRR1151252_00248 cell division protein FtsL
GTGGTTTCAAATACTGCACGAGAATTATCAAACGAGCAAGCGACACGACCGGCTCAACAGGCGCACCCAGTTGGGGTTGTCAAGGTAGCCTGGTCGCCCTTTGAACGTTCGCTAATGTTTGTCGGCAGTATTGTGACCCTGTGCTTAGTCATTACCTTATTATCGACGAAGGTGACGATGAATAGTCGTCAGCACCACTTGCAAGACCTGCAGAATCAAATCACCCGGGTGAAGAATTCTAATACGAGTGCCCACCAGGAGATTGCCGAACTGACCAGCCAGTCCAACCTCAAGGCCGCGGCACACAAGTATGGCCTATCCGATAAAATCTCGAATGTAAGGAACATTAACAAATAA
>SRR1151252_00249 16S rRNA (cytosine(1402)-N(4))-methyltransferase
ATGGCAGAATTTAAGCACGTAACGGTTTTACTTCATGAGGCCGTGGCAGGATTAAATCTGCAACCAACTGGCACCTACGTTGATGCAACCCTTGGTGGTGGTGGTCACTCTGGCGAGATCCTAAAGCAGTTGACCACCGGCCACCTTTATTCGTTTGACCAGGACAAGACCGCGATTGAATATAATCAGGAACACCTGGCACCGACCCTGGCGGCAGGGAAACTGACCCTGGTGGAGGACAATTTCCGTCACCTCAAGGCGGCCCTGACTGCACGGGGAGTAACGAGCATCGACGGAATTGTCTATGACCTTGGGGTGTCGTCACCACAGTTTGACGACGGTGCCCGGGGATTTAGCTACCAGCACGACGCTCCCTTGGACATGCGGATGAACCAGGAGCAATCGCTGTCAGCGATGCAAGTGGTCAACGAGTGGCCATATGAGCGGCTAGTGAAGATTCTTTACCGGTATGGTGAGGAGCGCTTTGCCAAGCAGATTGCACGTAAGATTGAGCAGCGGCGGGCGCATCGGCCAATCCAGACGACCTTTGAACTGGTGGATGTCATCAAGGAAGCTATTCCGGCGGCAGCGCGGCGGCATGGTGGGCACCCAGCCAAGAAGAGCTTTCAGGCTATCCGGATCGCCGTCAACGACGAGCTGGGCGCCCTTGAGGAGTCACTTGAACAGGCCCTCGACCTCCTAAATGTTCATGGCCGGATCAGCGTGATCACCTTCCAGTCATTAGAAGACCGGCTGGTGAAGACGATGTTTCGGGAAAAGACTTCACTGAGTGCTGACCTGCCCCAGGGCCTACCGGTAATTCCGGCCGGGATGGAGCCCCATTTCAAACTAGTAAATAAGAAGCCAATTCTTCCTAGTGCTCGCGAATTAGCTGATAATCACCGAGCACACAGCGCTAAATTGCGGATTATCGAGAAAGTCAAATAA
>SRR1151252_00250 cell division protein MraZ
ATGGGTGAATATCAGCACACGCTTGACACCAAACAACGGCTGATCATCCCGGCTAAGTTCCGCGATCAGCTCGGTGGTCAGTTCGTGGTTACCCGGGGATTAGACGGGTGCCTATTTGGCTACCCGATGGCTGAATGGCGAGCCCTTGAGGAGAAACTAAAGACGTTGCCACTGACCAAGCGGGATGCCCGGGCATTTGTCCGTTTCCTCTATTCCGCCGCGACCGTCTGTGTGATCGATAAGCAGGGACGGATCAACATCCCCGACCCGCTGTGCCAGTATGCTAAGTTAAGTAAGAAGTGCATGGTGGTGGGGGTTTCTAACCGTCTGGAGATCTGGGACTGTGATCGTTGGAATGAATACAATAGCACCACCGCAGATAATTTTGACGAGATTGCTGAGGACCTAAACATTGATTTTTAA
>SRR1151252_00251 hypothetical protein
GTGTTGGTTGACTATCATCGTATCTTAATGCAGCTGGCGATTGTTATTTTGCTGGCGGTAGTGACCCGGCTGCTGCAACGGTTCAGCCGGGGGCGCCGGATGAAACAGATCTGCGGCTACGTCTGGGTGACGGTTCTCTGGGGGATGAGCATTACTAATCTAGGACCATACTGGTTTGCCTATCCGATGGCCCTTTGGATGATCCTGGCCCTGGTTCTGATTTTCATTCAGTTGATCCATAACCATGAGTTCATTTATCGGCGGCCCTGGCCAGTCTTCTGGCACGGGTCCTTGCTGTATGCGGTGGTGGTGTTTATCGCCTCACTGTTCAGCGGAAAACTGCCATTGATTTAA
>SRR1151252_00252 hypothetical protein
ATGCAACGGAAAAAGAAGACACGTTTCCAAAAGATCACCATGGTCGCCATCTGGTTAATGCTGATTGCGATGCTGGGATCCCTCATCTTCAGTGCGGTCGCCGCATTGAACCTCATCTAA
>SRR1151252_00253 cell division protein FtsK
ATGGCACAGCGAAAGAAAATAAGCAAGCGGCGCCGTCCGCGGCGTAGTTCAAGCGCTAAGCAGCACCGCCTCATTAACAACCTGGTTGGGCTCATTGTGGCCCTCTTGATGCTAGTGGGATTATTTAAGCTCGGGGCCCTGGGAGCACTCATCCAGGGGATCTTCAAGCTCTTGGTGGGGGCAAGTTACCCGGTATTGATGCTGGTTGTCCTCCTCTATGGGCTTGGCTTTGCCCTTTATGCACGGTGGCTGCGCTTCGGCCCACGGCGGATCGTTGGGGTGGTGGTTTGCTATCTCGGTCTATTGATTTGGCTGCACGTCCTGATGATGAACCAGCTAAACGTTCACGCTAAGATTCCGGTGGTCACCTGGAGTAACCTGAGTAAGGCAATTCTCAATGGCGACAGCACGCTGCCGATCGGTGGGGGGATGGCGGGTGCTTACCTCTACACTGCCTGTGACGTCCTGGTTGACCGGGTTGGCACCGCGGTCTTTGCCTGGCTGCTAATGATCTGTGGGGTGGTGATCTTCTTTGCCCTGCCGTGGCGGGATTCTCTCCGGCTCTGTGGTCAGCTGGTTCAGCGCTTGGCGCGGGCCCTGCATACCGGAGGGCAGGAGCTGTCGGCCAAGGTGAAGCAGCCGGGGGTGACCACCCCGACAGCGCCAGCCCCGGGCCCATCGTTGGGTAAAAAGGTGCAGGACTTCTTCAAAGACGATGACGATAATCAGGCACCATCACCGGCGATGTCCGCCCCTGCTCCACAACCCACCACGCCGGTGACCGAGCCCAAGATCACAGTGGCTAGTGACCACCAGGAGAAGACGACGCCAGAGAGTGCAAAGGACAACGAGCGGCCGGAACTTTCCCTGGCTGGGGTTTCCGCCCAGGCGGATAAGGATTATCAGCTGCCGCCGCTGACCTTGTTGAGTAAGGTCAAGGCGACTGACCAGCAGGCCGACCTGAAGAATATCAAGAAGAACACCCAGCTCCTGCAGAAAACGCTGAAGTCCTTCAACGTTGACGCAACGGTTGAAAATGTTAACCTAGGACCGTCCGTTACCAAGTACGAGCTGCGGCCGGCCGTAGGTGTCAAGGTCAGCCGGATTACCCATCTGGCGGATGACCTAGCCCTGGCCCTGGCCGCCAAGGACATTCGGATCGAGGCCCCAATTCCCGGTAAGTCGTTGATCGGGATTGAGGTGCCAAATCAGCAGGTCGCCACCGTTGGCTTCCGCGACATGTTCGAGGCAGCACCCCAGGACGATAGCCCGATGAACGTGCCCCTTGGTCGAACCGTCACCGGGGACGTTGAGATGGCCGACCTGACCAAGATGCCCCACCTGCTGATCGCCGGGGCGACCGGGAGCGGGAAGTCGGTGGCCATCAACGTTATCCTGACGAGCATCTTGCTTAAGGCCAAGCCTCACCAGGTGAAAATGCTCTTAATCGACCCGAAGAAGGTTGAATTGAGCGTCTACAACGACATTCCCCACCTACTCAGTCCGGTGGTTTCCGAACCTAAGAAGGCTGCCCGGGCCCTGGCCAAGGTGGTGGCGGAGATGGAACGGCGCTACGAGCTGTTTGCTAAGTTTGGGGTGCGCAACCTCAAGGGTTATAACCACCTGGTTCAGCAGCAAAATACCGCCCACCCGGATGACCAGCAGCCATCACTACCCCTGGTCCTGGTGGTCGTTGATGAGTTGGCGGACCTGATGATGACGGTCTCCAATGATGTTGAGGATGCAATCGTCCGGATTGCCCAGATGGGGCGGGCCGCCGGAATTCATATGATTCTGGCGACGCAGCGACCATCCGTCGACGTCATCACTGGTCTAATCAAGGCCAACGTGCCGTCCCGGATTGCCTTTGCCGTTTCCAGCGGGGTTGATTCCCGAACCATCTTAGATGCCAACGGGGCCGAGAAGTTACTCGGTCGTGGGGATATGCTGTTTGAACCGATTGACCAGAACAAGCCAGTTCGGGTCCAGGGGGCTTTTATCTCCGATCATGATGTGGAGGCCGTGGTGGACTTCATCAAGCAGGAGCGACCGGCCGAATATGACCAGCAGATGGTGGTCAGCGACTCCGAGATGGCTGCGGAGGCCGAAAAAGAGGACGAAGATCCCCTCTTCAAGGAGGCACTCGACTTTGTAGTTCAGGAGCAGCGGGCCTCGACTTCACTGATCCAACGACGTTTTCGGATTGGTTACAACCGGGCGGCGCGGATTGTTGACGATATGGCGCAGCGCGGCTACGTCAGTCCGGCTAACGGCTCCAAGCCACGCGAGGTTTATAAGAAGCCTGATCAACTGGAGCAAAAATAA
>SRR1151252_00254 RNA methyltransferase
ATGACCAATCATATCGTACTGTTTGAACCACTTTTTCCCGCCAATACGGGTAATATCGCCCGGACCTGCGCCGGTACTAATACGGAGCTGCACCTGATCCGGCCGCTGGGCTTCTCGACCGACGACAAACACATGAAGCGGGCCGGGCTGGATTACTGGGACAAGGTCAAGATTACCTACCACGATGACCTGCAGGACTTTGTTGCCAGCGTAGCGGACATCAGCAAGCTCTACCTAGTCTCCAAGTTTGCCAGCCGTGACTACACAGACGTCGACTACACCAGCGCGGGTGATCATTACTTCCTGTTTGGCAAGGAGACGACCGGCCTGCCCGAACAATTCATGCGGCGCTACCCGGAAAATACCATCCGGATCCCGCAAAATGATGACAATATTCGGGCGCTCAACCTCTCAAACAGTGCCGCCATTGTCATCTACGAGGCCTTGCGCCAGCAGAGTTTTCCGGGACTGGCCCGGGTTCACACCTATCACTTTGACAAACTGAAGTAG
>SRR1151252_00255 23S rRNA methyltransferase
GTGAAGAAAATTGAAAAGCAGCGGCAGTTTGTAAGGGCGCACCTGGACCTTTTCCGGTGCCCAACCTGTCAGGAACCCTTTGTCCAGCTGGAGGAGAACAGTATTGTTTGTGGTCGGGGGCACCGAATTGACTTTAACAAACACGGTTACCTCCATTTCCTGAAGGGGGCCGCAGATACGGAATACGGGCGGGAGATGTTTCTGGCCCGCCGCCAGCTCCTGGACGCGGGCCTGTTCAAACCGATTATTCAGGCGGTTGCCGAGCGATTATCCCAGCGTCCCCTGAAAATTCTGGATGTCGGTACGGGGGAGGGAACCCCACTTGCTCAACTGGCAACGTTGCGGGCCGGTCAAGGTGACTCCCTGCTGGGTTTTGACATTGCCAAGGCCGGGGTGATCCTGGCCACCCAGTTGGACCTGGACGCCTTCTTCTGTGTGGCCGACCTCCGCCAGCTACCCTTCAATGACCAGGCCTTCGACACCGTGATCGAGCTCTTCTCACCGTCAGACTACGCGGAGTTTAACCGGGTGCTGGCTCCAGATGGAACCCTAGTCAAGGTGATTCCCAATGCTGACTACCTGGTCGAACTCCGTCACTTACTCTATAGTCAGGATGACCAGCATGCCCACTACGATAACTCTCGGGTCAGGGAGCTCTTTGCTCGGCACTATCCGGATAGCCAGGTGCAGCGGGTCCGCTACCGTTTTGCTCTACCGGCAGGGATGGCAGCGGCCCTGGTTGAGATGACACCACTGCATTGGGGAAGGGGCGCCAAGCAGCTGACGGCTAGTGAATTGGCTGGTCTGCAGGCGGTAACCGTCGATGTTTCCCTGCTGATTGCTAAGAAATCTTAA
>SRR1151252_00256 6-phosphogluconolactonase
GTGGAAGAGAATTTTCTAATTGGAACCTATACTAAGAAGGACAGCAAGGGGGTCTACGCCGTCACCCTCGATGACGACGCTGGTAAGCTGACCAACGTCCGCCTGGCCATCCCGTCACAAAAGCCCGCCTACCTGCAAGTCGGCAGCAATGATCGAGTCTACGCCATCAAGCAAATTGATGACCAGGGCGGGGTCGCTTCCTACTCCCTGAAGGACGACAACGCCAAGATGCTCAGTAAGGTGCTCGCTGCCGGGGCCCCACCGGCCTACGTCGGCCTTGATGAACAACGCCACCTGCTCTACAGTGCCAACTACCACACCGCCAAAGTCGACGTCTTCAAGATCAACGAAGATGGCACGCTGACCCAGACTGATTCTGTTACCCACCAGGGTGCTACCGGTCCACGGCCAGAGCAGGAGGCCCCCCACGTTCACTTCGCCGACCTGACCCCCGACAAGCGGCTGGTCGTCTGTGACCTGGGGATGGACCTACTCGTGGTCTACGATGTCTCCGCCGATGGCAAACTGACCGCCGTCTCCCGTTATAAGTGTGAAGACGGTTTTGGGACCCGTCACATCGCCTTCCACCCGAATGGTAAGTACGCCTACGTCCTCGGTGAACTATCCAGCAAGCTTGAAGTTTTGAAGTACAACGCCGCCGACGCCAGCTTCACCCATGTTCAGACGGTCAAGACGATTCCAGATGACTGGACTGCTCATAATGGGGCCGCTGCTATTCGCTTCTCCAGCGATGGTAAGTTCATCTACACCTCTAACCGGGGTGAAAACACGATCGCGGTCTTCGCGGTTCAGCCGGACTTCACCGTCAAGCACATCCAATCCATCTCAACTGAGGGGGACTTCCCGCGTGACTTCAACCTCAGCAAGGACGAATCCTACCTGCTGGCCTCCAACCAGAACTCCGACAACCTCACCCTCTACAAGCGGGATGCGGACACTGGTAAGTTGACCCTCCTACAAAAGGATGTCGCCTGCCCCGAGCCGGTCTGCGTCATGAAGTGGAAGTAA
>SRR1151252_00257 ribosomal large subunit pseudouridine synthase D
ATGGAGTTTAGCTGGAAATATCAGCAGGCCGTCCCCCGACGGCTACGGTCGGCACTGCGGATGATGGGGGTGACCAGCTCTTTAATGAAGGTGGCCATCTACCACGGCGGTAAGATGCTAATTAATGGTGAAGAGAAGTGGGCGGTTGACATGGTCCAGCCCGGTGACCGTTTCTCCCTGGTCCTTCCACCCGAGGCGGGGAATGAACACGTCGAAGCCTACCCGGCACCGATTCAGATTGTTTACGAGGACCGGGACTTCCTGGTCCTGAATAAGCCGGCTGGGGTGGCAACCGTCCCTGCCCATCACGTAGCGGTACCGGACAGCCTGGTCAACCGGGTCAAGGCCTATTATCAAGACCAGGCCTATGAGAACCAGGTGATTCACGTGGCGACCCGCTTGGACAAGGATACCAGTGGACTGGTGATCTTTCCCAAGCATCGTTTTGCCCATGCCGTCCTCGACCGCCAGCTGAAGCACCACCAAGTCAAGAAAAACTACCTGGCCCTGGTCCAGGGGCAGTTGCAGGCCACTCACGGCTACGTCGATGCCCCGATCATGCGTGATCCCGAGTCGTTTGTCCAACGGATGGTCGGCGCAGGGGGCAAGGCCTCGGTTACCGAGTATTGGATTCATGACCGTAACAAGCAGGGATCGTTGGTCAAGATCCGCCTCCATACCGGACGGACCCACCAGATTCGCGTCCACTTCAGCTACTTGGGCCACCCGCTTTTCGGGGATGAAATGTACGGACAGGGGTCTGCTCTCATTGCTCGTCAGGCTCTTCACTGTTACTGGTTGCAGTTCTATAGCCCGTTTAAGGACGCCAACATCACGGTGACCGCGCCCTTACCGGCTGATATGCGGACGGCAATTGCAGCCCTCAAGCTAAATGAACCGAAAAAACAACCTGGGAAATAA
>SRR1151252_00258 ATP-NAD kinase
ATGAAAGTAGCGATTTATAACAACGAGACGGCCGAGTCCCAGCGGGTCACCAAGCTACTCCGGGCAGAGATGAAGAAGGCTGGACTGGTGTATGATCAGCAGCAGCCTGAGGTGGTCATCACGATCGGTGGAGACGGCACCCTCCTGTCGGCCTTTCATCACTATCAAAAGCAGCTTGACCGGGTACGCTTTGTCGGCATTCCCACCGGGCACCTGGGTTTCTATACCGACTGGCGTAACTTTGAGATTGATGATCTAGTCGACAGCTTGGTCCATGACAGTGGCCAATCGGTCTCCTACCCGCTGTTAGACATGCGGGCCGTCTATTCGGATGGGGTGGTGGATCACTTCACCGCCTTAAACGAGTCGACGATCCGTAACATCACCAAGACGATGGTCTGTGACGTCTACATCAACAACCAGCTCTTCGAGAATTTTAGGGGGGATGGGCTCTGCATCTCAACACCAACCGGGTCTACCGCCTACAACAAGTCGGTCGGTGGGGCAATCATGGATCCCCATAGCGTCGGCTTCCAGCTGGCCGAGATGGCATCCTTAAACAACCGGGTATTCCGGACTCTAGGCTCACCAATCATCTTCGGTGCCGATACCAAACTGATGCTGCGCCTACGGGATGTCAATGGGCACGTGCTGACCTGTGATCGGGACCAGCTCATGTTGAAGAATAAGGCCGGGCAGCGCTACCTGATGGAGCTGGCCTACCAGGTCTCAGACCAGAAGATTAACTTCGCCCGCTACCGTCACACCAACTTCTGGAACCGGGTTAAGGATTCATTCATTGGCGAGGCCCGGTAA
>SRR1151252_00259 GTP pyrophosphokinase
ATGATTGAAAATTGGCAGCACTTCTTATTGCCATATCAACAGGCCGTCAATGAATTAAAGGTTAAGCTACGCGGGATGCGTAAGCAGTATCAAGAGCAGGGCGAGCACTCGCCGATTGAGTTCGTCACCGGCCGGGTTAAACCGGTTGACAGTATCAAGGAGAAAATGGTGCGGCGCCACGTCCATGAAGACCGGTTAGAGCAAGATATGCAAGACATTGCCGGCCTGCGGATCATGTGTCAGTTCGTTGAGGATATCTACGTCGTGGTCGACCTCTTGCGACAGCGGAGCGATATGACCATTCTGGAGGAGCGGGATTACGTCACCAATGTCAAGCCGAGTGGTTACCGGTCCTACCATATTGTGATTGAGTACCCGGTCCAGCTGGTGACGGGGGAGAAGAAGATCCTGGCCGAGATTCAGGTGCGGACCCTCGCGATGAACTTCTGGGCAACGATTGAACACTCGTTGAACTATAAGTACCAGGGGGTCTTCCCCGAGGAGCTGTCAGCCCGGCTTCAGCGCGCGGCTGAAGCGGCTTTCCGCCTGGACAATGAGATGTCGGAGATTCGTGAGGAGATCAAGGAGGCGCAGACCCTGTTCTCCCAGCGGACAGCGGCCCAACCGATAAAAGCGGATGATGAGCAGGATAAGGAGAAAAGACAGCATAATGAAAGTAGCGATTTATAA
>SRR1151252_00260 dithiol-disulfide isomerase
ATGCTTGAGATTCATTTATTTGTCAACCCCTTGGGGATACGTTGTTTCCGCTGTGAAAATGACGTTTTGCGGGTAGATCATGAACTGAATGCCAAAATTAATTATCAATTTGTCCCGCTGTTTAACATGCAGACAATTAACGATACCTTACGCCTGTACGACCTTAGCAGTCATGACCTGACCGTGCGTCAACACGTTGCTGACACCATCTACCAGGTCATCTTAGACTACAAAGCCGCTCTCTTCCAAGGCCGTAAACGGGGCCGGTGCTACCTCTTACGGCTCCAGGACGCCATCGTCAAGGACCAGGTCGACTATTCACGGCAGTTAGCTGAACGAGTCGCTAAGGCTGCTGGCTTGGATCTGGAGATGTTCCTCGAGGATCGCCAGTCCAATCTCGCCCGCCAGGCCTTTCATGAGGACCAGCAGATGGCCGCCGAACTAGGGGTCACCCAAACAGCTACGGCGGTCGTCTTCGATACCGACCAGACGGACTATGGCTACCTCATCGCTGACTTCGACTATGAGACCCTCATCCAGGTCTTCCGCGAAAATAAACTTGACCACCGCCAGAGTGCGGCCCAGTTTGCCGCCCAATTCCACCGGCCAGACCTAAAGATCGTTCAAAAGTAG
>SRR1151252_00261 dipeptidase
ATGAAGATTTTGGAAAAACATACTTGCACGACACTCTTGGTGGGCAAGAAAGCAACCCTGGACGGTTCAACAATCGTCTGCCGAGAAGAGGACTACGGTAACGCCTTTGCCCCGCAGCGCTTCGTCTACGTCAAACCGGCGGATCAGCCGCGTCACTACGCCAGTAAGACAACGGACTTCACAATCGACCTGCCGGATAATCCAGTTGGCTACACGGCAACCCCGGACGCGGACAGCTCCGCGGGGGCCTTCGCGGCCGGGGGAATTAACCAGCATAACGTTGCCATGACGGGGACTGAAACGATCACGACCAATTCCCGGATCCTCGGGATTGACCCCTTCAACGCCACCGACGGAATCGGTGAGGAGGACCTGGTAACCCTGGTTCTGCCGTATATCAAGACAGCACGGGAGGGGGTAGAACGGCTGGGGAAACTGCTCGAACGCTATGGAACATATGAGTCAAATGCGATCTCGTTTGGTGACCATGACGAGGTCTGGTATATGGAGACAATTGGCGGCCACCACTGGGCTGCCGTACGAATTCCGGACGATGCCTTCGTGATTGCGCCCAACCGGCTGAACATTGCCGACTTCGACTTCAGTGCGGCCAATACCATGTGCTCGGCCGACTTAAAAGGGCTGATTGATGATAACCGGCTTAACCCGTCCCTTGATGGCCACTATAATCTGCGGCAGATTTTCGGGAGCCAGACAGTTACCGACACCCGCTACAACAATCCCCGGGCCTGGTATGTGCAGCGACAAATAAGCGTTAACCCGACCGGTCAGCCAACTGACCAGGACCTGCCCTTTATCTGTCACCCGCGGCATAAGCTATCCGTGGAAGAGATTAAGCAGTTAATGAGCTCACATTACCAGGGGACGACATTTGATCCCTATGAGCGCGACCATGCACCATACCGGTCAATCGCCCTCAACCGGAACTTGGAGCTGCACATCCTTCAGATTCGCAACCATGTACCGGACACCATTGCCGGGGTTCACTGGCTTGCCTTTGGCCCCAACGCCTTCAACACGGTGGTACCTTTTTATGCCAACGTCACTGATACCCCGGCTAGCTACCGTGATACACCCGTTGATTATGCTTCTGGCAACATGTACTGGCTGACCCACACGATTGCGGCGATCGGGGACAGCCACTATGCTAAGGCTCAGTCGATGGTTGAAGCCTATGAGCAGAAGGTAGTCGCTACTGCCCGACATATTCAGCGGACGACTGACCAACAGGTTGACCCGGCTAACCCTACAGAAGCATTAACCGCGGCCAACGAGCGGATGGCGGCCGTCGCCATGAAGGAGGCTACGGTCCTGCTGGGTAAGCTGGTTAAGGTCGCCTTTGGGGATGCAAGGCTGCAATACTAA
>SRR1151252_00262 competence protein CoiA
ATGCTTGTTGCGATGAAGGCTGGACAGCTGGTTCTGGCCGACAATGCCCACGATAAGACTGGCTACTCTTGTCCGGGCTGTCACGAACCGGTGATCTTACGGCGGGGACGTCACAAGATTGCCCACTTTGCCCACCGACCGGGGAGTCAGTGTCAGCTTGGGGAGGGAGAGACAGCCGAACACCTCCTCGGTAAACGTCAGCTATTGCAGTGGTACCGGCAGCGGGGCGAACAGGTCGAGCTAGAGGTTTACCTGCCCCAGATCGCGCAGCGCCCAGACCTACTGCTGATAGAACGGGGACACCGAGTGGCAATCGAGTTTCAGTGTAGCCCACTGAGTCTGAAGCGGCTCCGGGAGCGTAATGCCGGTTACCGCCAGTGCGGCATTGGCTTTCATTGGCTGCTTGGTGCTCCCTACCAGCGCCGTCATCTGCAGGGACCTAAGATAGCGCAGTTCACCCAGGAAGTGGCTGGTCAGCCGGGCCTACTCTTCTGGGATACCCGTGTTGGTCGCCTGGTGGTACGGCGGGACCTAGTACGCTGCTCCTTTACTCACGGGACCGGGATGCGGCCGGTGTCTGTGGTCAAGGTCCAGACCCGCCATCTCGACAGCCTCCAGTATGGTCGTGGTGGCATTGCTGCCCGCCAGCTACTGGCTAAATTGCCGAGTCGCCGTCCGCTAGCGGCCTGTCCGTTAGTCTGTCATGATACCGTTCCAACTTGGCCGTTGCTGGATGAGCCGGTTATCATATGGCGGATCCGGGTTGTCATGGCCCTCACTCGGCTGCCGATCTTTTACTTTTGGTCGCAAGCGCGGTGGCAGGGATGGCTGATGGCAACAGTGGCAGGCCACTGGCTTGGATTTGCCTGCCTTGATCCGCACGAACTGCGCAGTGGTTTACTGGGGAACTTCACGCGGGATCTACTGCGGGAACAAATCCTGATTGCCTGCCCGGGAGGCTACGTTCTCTTTCGGCACCCACACTGGTTTGCCAGTGTTGCCGAGAAGCTAAACCTACTAGTACGGGGTGGGCTTTTGTCGGTCGGTGGATTAGAATAG
>SRR1151252_00263 adapter protein MecA
ATGGAAATGGAACACATAAACAAAAACACGATTCGCGTCTTAATCAATAATGATGATCTGAGTGCCCGAGGAATTACCATTCTGGATCTCCTGGGTGACCACCAGCAGATTGAGGATTTCTTTTACAGCATCTTGCGTGAGGTTGACACTGACCACCAATTTCAGGACAACGATACGGTAACCTTTCAGGTAATGCCAACGGAGAAGGGGCTGGAGTTGTTTATCAGCAAGAATGATCCTAATGATCCCAATAATGATAACAGTGCTCAGATTGCTCAATACATCAAAAATAACCTGGCGCGCTCTGCCGCTGCTCAGCAGGAGGGACGGCCAAATGACGATGCGGTGCATTCGATGCCGTTGCAGCAGGCCAATGCGGGTGAGCCGCACCAGGCAAATAGCTGGCGGGTGGTTGCCTTCGACTCTTTCGAGGACCTGGTCGACTTTGCTCGCATCGCCGAGGATGAGGATGTCGTGAGTGAACTGTACAAGTATGCGGGCAAGTACTACCTGGCCCTCCAGTACTTTCAACCGGTTGAAAACGATGGCCTAGTAAAGGATAGTCTGGCCCTCGCCTATGAATATGGTAACCCGACAGCGACGACGCCGGTTTATCTGAGTGAACACGGGAAGAAGCTGATGGCTGTCTCGGCCCTGCATACGATTCGTCACTACTTCAATTAA
>SRR1151252_00264 arsenate reductase
ATGGTTATTCTCTACACGTCTCCAAGTTGTACCTCCTGCCGCAAGGCTCGTGCCTGGTTGCAGGAGCACAACATTCCATTTAAGGAACGAAATATTTTTTCTGAACCGTTATCACTTGATGAGATAAAAAACATCTTACGGATGACGGAAAATGGAACTGAGGATATTATTTCTAAGCGGTCCAAGGCTTATAAGAAGCTGAATTTGGACCTTAACGAACTGCCGATGAAGCGGCTTTTTGCCCTGATCAGCAAGAATCCAGGCCTGCTACGGCGCCCAATTATCATGGATGACAAGCGGCTGCAGGTGGGGTATAACGAGGACGAAATCCGTCGTTTCTTACCACGAAAGGTACGGGCGTTTGAGCTGGCCGAGGCTCAACGCAAGGCAGATCTGATTTAA
>SRR1151252_00265 hypothetical protein
GTGTTAACTAAAGTTAGTTTTACGTTTGGCTCACACCAAATTTTAGAAGATATCATTAAAAATAACCCCGATCGCCAGTTCAAGTTAATGCAGGCATCTACGCATAGCAATAAGCTCGCCCTGTTTGACCTATCTGGAGAGGAAACGGTATTCAAGTCACCAGTTACCCTGAATGTTCTGGAGTCATCGCTGGATGCTAACCTCGCCGGTATCTTGTACTACCAGTCATTCCAGGTCAATGGCGACCGACAAAAGTTGCTCTACAACAGTCTGGAGAAGATTGTTGACGATGCACCAAGTATTGCTAACGGTGTCTTAATGACTTCCGTTGCCAACCACAACGAAAGTTCCACCCTGGTTCTCCTGACGGCTTGGAACGACTTTGAAGACCTAACCGCTTGGCGTGAAAGTGATGCTTTCAAGTCACTGACGAACTTCACCACCATGGGCTCAGACAACTACTACTATGACGAAATTTATCGTCCCGTACGTTAA
>SRR1151252_00285 metal ABC transporter substrate-binding protein
ATGAAAAAATTTACCATCGGCATCAGCAGTCTCATCGCGATCCTCGTCGTGATGATTGCGGTCGCCATGATCCCATGGAAAAATATCAACCACCAAAAGCCCATTCAAGTCGTCACCGGTATGGACTTCTATGGGGAGGCAGCCCAGCAAGTCGCCGGTAACCACGGAAAGGTGACCTCCTTCATCAGCAACCCATCCGTCGACCCCCACGACTACCAGCCCGGAACCAAGCAGGCCCAAGAGCTCGGTCAGGCTAACGTCATCATCGAAAACGGTGTCGGCTACGACAGTTGGATGAACAAGCTGGTCAAGTCGAACGGCAACAGCAAGGCCCGGGTGGTCAACGTTAGCCACCTCGTTGGCAAGAAGGATGGTGACAATGAACACCTCTGGTACCAACCGGCAACCGTTAAGAAGCTGGCATTAGACCTCGCAACCCAGTTCGGCAAGGCTGACCCAGAGCACAAGGCCGACTACCAGAAAAACGCCCAACGCTACCTGACTTCACTTAAGCCCCTTGACCGTGAGATCGCTCGGGTTAAGCGACAGGTCAACCCGAGCAATAACCAGGTGGCGGTCAGCGAACCCGTCTTCGACTACGCCCTCAGCAACCTTGGTTACCAGGTAATGGATCAGCACTTTGAAAAGGCAGTTGAGGACAGCAGTGACCCGTCCCCTAAGGACATCAACGAAATTCAGCAGGCTATCAAGAACCACCAGATTGCCTTCTTCGTCAACAACTCCCAAGCCAGCGACAGTGTTGTCAAGAACCTCGTCAAGCTCGCCCACCAAAACAACGTTCCGGTACTCAACGTTACCGAAACTAAGCCAAAGGGTAAGACCTATACCCAATGGATGACTGACCAGTATAAGGTCCTCGCCAAGATTCAACAAGCAGAACAAAATTAA
>SRR1151252_00286 glycine betaine/choline ABC transporter permease component
ATGATTGAGTATTGGCAGATGAACTCCAGTGAGATACTTCAGGAGGTGGCCCAACACGCCCAGATGGTACTGACCTCTCTAGTGATTGCCCTGCTGGTGGCGATGGTGATTGTGCTCGTCTTCTTGCGCCGCCAGAACTGGCTGAACGGCCTGGTTTACTTCTTTTCCCTCCTGTATTCGATTCCCAGCTTCGCCTTCTTTTCCCTCCTCCTGCCGGTCTCGGGGCTGGGTATGAAAACGGCAGTGATCGTCCTAACGGTCTACTGTGAGTACATCCTGTTGCAGTCTTTTATCACTGGGATCCGCGGTGTTGACCCTAGCCTGGTTGAGGTTGCTCACGGGATGGGCATGACTCGGTGGCAGACCTTCACCAAGGTCCAACTGCCCCTAGCCCTGCCGGCGATCTTCAGCGGAATTCAGGTGGCCCTAGCCTCGACGATGGCGATGACGACGATTGCCGCAACGATCAACGCTGGCGGGCTCGGTCAGCTCCTCTTCGACGGCTTACAGAACCAGCAGGTTGTTCCAATCCTCTGGGGAACCCTACTGACGATGGCGCTGACCCTGGTTTGCGCCGGGCTGATCTGGCTGCTTCAGTGGGCGCTGACCCACCATTGGCTGAAGATGGTGAAAAACTAA
>SRR1151252_00287 glycine betaine/carnitine/choline ABC transporter ATP-binding protein
ATGACCAAGACAAGTATTCAATTTAAGCACGTCCAGAAGAGCTTCGGCGGCAACCTGGTCATCCCGGACCTCTCCTTTACCGTCGGGGCGGGGGAGTTTGTCACCATCCTTGGTTCTTCGGGGAGTGGCAAGACGACCGTCCTCAAGATGATCAACGGCCTGCTTGAGCCCAGTGCCGGTGAGATCCTGATCGGTGAAAAACCACTGGCCGACCAAGACCTGGTGAACCTGCGGCGCCACATCGGCTACGTGGTTCAGCAGATCGGCCTTTTTCCCCACATGACGATCGCTGAGAACATCGGGGTAGTCCCCAAGATGCTCAACTGGACTCCGGAGAGGATTGTTTCACGTGTAACGGAGCTGCTCAAGCTGGTCCAGCTCAACCCGACCAGCTTTGCGGACCGTTACCCCAGTCAGCTATCGGGTGGTCAGCAGCAGCGGGTCAGTGTGGCCCGGGCCCTGGCAACCAACCCGCCATACGTCCTGTTTGACGAACCGTTCGGCGCCCTAGATGCCCTGACCCGGTTGGAACTCCAGCGCGAGGTCAAGCGAATCCACGACAGCCTGGGGGACAAGACCTTCCTCTTCGTGACCCATGATATTAACGAGGCCCTCTTCCTTGGCCAACGGGTGATGGTGATGCATGCGGGACGGATTGAACAGTTTGCTACCCCGCAGGAGATCGTGGCCCATCCGGCGACGACCTTCGTCAAGGAACTACTGGGGACCGTTTGGCAGAACCAGGAGCTATGGGGGCGGGACCATGATTGA
>SRR1151252_00288 glycine betaine/carnitine/choline ABC transporter permease protein
TTGTTAGCGCAGATAATTCATTACTTTCAGACCGACAGCGGCCAGTACTGGCAGTATGTCGGCCAACACATCCTACTGAGCGCCAGCACCCTGGTGATTGCGATGGTAATCGCCCTGCCGCTAGGCTACCTCGGCTCCCGGGTCAAGCCGGTGGCCAGCTTCTGTACTGCCTTTGCTCAGGTACTGCGGATCATTCCCAGCCTGGCCCTGCTCTTCCTGTTGATCCCATTCATCGGGACCGGCGTAGTACCGGCGCTGATTGCCCTAGTGGTCTTGGCCCTACCACCGTTGATGATCAATACCATCCTTGGTTTCAACGAGGTCAGTCCCACCTACAAGGAAGTCGGCCTGGCACTCGGCATGGACCGGCGCCAGCTGCGGCGGCAGATCGAGATTCCTCTAGCGATGCCCTACATTCTGAACGGGATTAAGCTGGCCCTGGTCGAAATCATCGCCAGTGCAACTCTGGCCACTTACATCGGTGCCGGGGGGTTAGGAACGCTGATTTTCACCGGCCTAGGCTTGTATGATATGTCCTATGTCGTAATCGGTGGGGTCAGCGTGGCCCTGCTCTCGCTGCTGGCGATGCTCGGTTTTGATTTTCTGATTAGGAGGGTCCAACGAAATGACCAAGACAAGTATTCAATTTAA
>SRR1151252_00289 glycine betaine/carnitine/choline ABC transporter substrate-binding protein
ATGAGATTCAAAAAGTTAATAGCAGCGGTCCTATTTGCTACCGTAACTCTGCTGGTCGGGACAATAGTACCGGCAACGGTAAGTGCCGCCAGCAGCAAGCCGATCATCGTTGGTTCCAAGAGTGTCCCGGAGAGTAAGACGGTCAGTGAGATTTACGCCATTGCTCTTGAACATGCTGGCTATAAGGTGACTCGCAAGCAGAACATCTCTAACTCGGTTGTCTATAAGGCCGTCAAGACCGGGCAGGTGGACGTCTACCCAGAATATACCGGGACGATCGTGACCGCCTACCTGAAGAAAAACGGCCAGGGTAAGTCCGCGGCTCAAATGGCTAGTATTGCCCAAAGGGGGGGTGCCAAGGACGGCCTGACCACATTTAAGTACGCGCCCGATGATAACCGGCAGGGGGTCGGCATCCGGACCAGCGTGGCCAAGAAGTACAATATCAAGAACCTGAGTGATCTCCAGAAGAAGGCCGACAAGATCCGCTTTGCCTCCCAGGGTGAGTTTGAGAAGCGTCCCGACGCCTTACCACTGATGGACAAGGCCTATGGCAAGTTCCGCTTCAAGTCGATCAAGGACTACGACGCCAACCTCCTCTACAAGATCATGGAGCAGGGGAAGGCTGACGCGGCGCCGGTCTCCACGACGGATGGTCAGCTGGCCACCAGCAAGTTCCAGCTGGTCAAGGACAACAAGAACATCTGGCCGCCATATAACCTGGTTCCGCTGGCCAACAAACAAGCCGTCAAGCGCTACCCAAAGATGGAGAAGACCCTGAACAAGGTCGACGCTAAGCTGACGACCAAGGCGGTGACCCAGCTGAACAAGCAGGTTGGGGTTGATGGTCAGAATTACCGGACCGTTGCTCAGAACTGGTATAATAAGAACATGAAGTAA
>SRR1151252_00290 Rrf2 family transcriptional regulator
ATGAAAGCCTCGACGCGTTTCAGCGACAGCATCCATATTCTCGCTTTCATCAACATCTACCAGGGGAACCTCCCCCTGACCAGTAATAACATTGCCGCCAGCATCGGAACCTCACCGGTAATGGTGCGGCGGCTAATGAGTCAGCTGCGCAAGGCCGGATTACTCAACACTGTCCACGGGGCCGCCGAACCAACACTTGCCAAGAAGCCAGCCGACATCTCGCTATACGACGTCTACCTCGCTGCCGAGGACGGTGCTCCCCTCTTCACGATCGACCGTAAGACGAACCCGCAGTGCATTGTCGGTGGCAACATCCAGGAAACCCTGGGTGAGGTTTACCACGAAGCGGAGGTCGCCGCGGAGGCCAGACTGTCACGGACCAGCCTCCAGGACATTATCGACAGTATCCAAGTTAAGCAGGCAAAAAAGAACGCCCGGTAA
>SRR1151252_00291 3-beta hydroxysteroid dehydrogenase
ATGATTACCGGCGCCACCGGTCACCTCGGCCAGCAGGTGGTCGCCCAACTCAGTAAACTAACTACCAAGCAGAGCATTCGACTCGGGGTTCATACCCCGGCCAAGGCTGCCCATCTCAAGGACGACGGTTACGAGATTGCAGCAATTGACTACCACAATGTCGACCAGATGACCGCCGCCTTTACGGGGGTCAACGTCCTTATCTATATTCCCAGTCTGACCTACGACGTTCAAGGGCGGATCAACGAGTTCGAAAACTCCCTGACTGCCATGAACCGGGCCGGCGTCACTGATCTGGTGGACGTCAGCTTCATCGCCGACCAGTTCAACAATCCCTTCCAGATGGCCGGCTACTACGCCTACCTGCCTGCTCGACTGGCCTCGTCCAAGCTCCGGTATGCGGTCTTAAAGAACGCCCTCTACGCCGACCCACTGATCCCCTACCTAACCGAGCTGATCGAGCGGCAAAACGTGATCTAA
>SRR1151252_00292 putative nucleoside-diphosphate-sugar epimerase
ATGAGTTTCATCAGCCGGAAGGATAGCGCCGAAGCAATTGCCAACGTCGCCCTCAAGCCATACCTGCGTGACCGCGGACAGAACTACCTGCTGACCATGACCCAGAACTATAACATGGTTGAGCTGGCTCATTTGATGACCGCCGCCACTGGCCAGCAGATTAGCTACGCCCCGGTTTCGCTCCAAGAGTTCGCCGATATCTACCGGGCCGAGGGTGACGGCGACGAGCTGGCCTCGATGTACCACGCCGCCGCCATGGGCCTGATGGACGGGGTCACCAACGACTTCCGGCACATCACCGGCCACGCCCCGCAGGATATGGGAACCTTCCTCAAGGAAAATTATCAACAATGA
>SRR1151252_00293 LysR family transcriptional regulator
ATGAACATCAAACAGTTACAGGCGTTCCTGGTTGTTGCCAGGGAACACCAGATTACGGCCGCGGCCAAACGACTCTACACAACGCAACCGCCGCTGTCCTACCAGATGAAGCAGCTGGAGAAGGAACTGGGGGTCAGGCTCTTCGTCCGCAACGCCCACGGGATCCGGCTGACGGCGGCGGGGCAGACCTTCCAACGTTACGCCCAGCGGATTGTCAACCTCGAACGCCAGGCCCACGACGAGCTCCATCAGGAGGAAAATGGTGAGATCGGGCAGATTAACCTGGGCCTGATCTCATCAGCTGGGGAGTTGATCCCCAATACCGCCATGCAAACCCTAACGAGGAACTACCCCCGACTTACCTTCAACATCACTGAAGGTAATACCTTTGACCTGGTGGACCGCCTCAACAGTGGTCTGCTCGACCTGGCCGTCGTGCGGACCCCGCTGAATATGCGGGGGCTGGCGAAGAAGGTCCTCAACACGGACCGGATGGTAGCAGTTGGTGACCCGGCCATCACGCACCTACCGAGCCCGCTACGGTTGACCGACCTGGCTGGGGTGCCATTGATCCTCTACCGGCGCTTCGAGGCGATCTTCAACCGTGACTTTGCTCAGGCGGGAGTGACCCCGTTCTACGTGGTTAAGTGTGACGACGCCCGGACCGCTATCCGCTGGGCTGACCGCGGGATGGGTGTGGCCCTGGTTCCGGAATCAATTGCCCGTTGCACTACCCAGCAGACGTTTACCCCGGTGGACTATCCGGCCTGGGACACCCACGTTCAGTTGGTTTGGAAGAAGGAGCAGATGCTGCGACCAGTGATCAGACACCTGCTTGACCTGCTTTAG
>SRR1151252_00294 transcriptional regulator
GTGGTCGTCGGCAACAAGAAGCTGCCCACCCAGTTGAAGGATCGGCGACCGTTCTCCGTCCTGGTCATGGGAACCGACGTCGGTGCCCTGGGCCGGGGAACAAGTTACGCCGGCAACACCGACACGATGGAACTGGTGACTGTCAACCCCCAGCAACGGGCGATCACCATGACCGCGATTCCCCGTGACACCCTGGTTGAAGTCGACACCAAACGCGGCCCCGATTACGTCAAGATCAACGCCGCCTACGCAATCGGCGGCGCTAAACAGGTCGAGCACCAGGTCCATGAGCTCCTCGGCGTCCCGGTCGACTACTACGCCCTGCTCAACATGGGTACTTTGAAGAAGGTCGTCGATGCCGTGGGCGGGGTCACCGTTGACAACCCCTTTGCCTTCACCTACGAGGGACATCACTTCAAGAAGGGGATCCAACACCTCAATGGTGACGAGGCCCTGAAGTACTCCCGGATGCGCTACGACGACCCTAACAACGACTACGGCCGCCAGCGCCGTGGACAGCAGGTGATCGAATCGGCGATCACCACCTTCCGCAAGCAGGGGTCGCTCAGCGATGCCAACCAGCTGATGGTGGCCACGGCCGACGGGGTGCGGACCAACCTCCCCATCAATAACGTCGTCACCCTCTACCTGAACTACCATACCGCCATGACGCACGTCGCCAAGGATCACCTGCAGGGTAGGACGCCGTAA
>SRR1151252_00295 diaminopropionate ammonia-lyase
ATGACCTTACAAATGCAGAAGTCGCCGTTTACGTACCGGGTCCGCGGCGGCCAGGTGATCAACACGGATGTCATTAGATTCTACCGGTCAGTTCCAAGCTACCAGGTGACGCCGCTTTACCGTCTAACCAACCTGGCGCACCAGTACGGGGTTGGTGAGATCAGTGTGAAGGATGAGGGCCAACGGTTCGGGCTGGAGGCCTTCAAGGGTACCGGGGGCCTGTATGCGATGGCCCAGTACATCGCCAGTAAGGCCGGGCTCGACCCGCAGAACCTGACCTACGACCAGCTTCAGACGCCGGCGGTCCGGAAACTGGCCGATCAGATCACCTTCTACACCGTCACGGATGGTAATCATGGCCGGGGGATCGCCTGGGCCGCTAAGCAGCTGGGTACCCACGCAGTTGTTAACATGCCTAGGGGCTCCCAGCAGGTGCGCGCCCAGCATATCCGTGACCTGGGGGCGCCGTGTCAGATCACCGACCTCAACTACGACCAGGTGGTCAAGTTTACCAGTGACCAGGCGGACCGGGACCCGCACGGCATTCTAATCCAGGACATGGCCTGGGACGACTACCGGACCATCCCGACGGACATTGCCGATGGCTACTCGATTATGGCTGATGAGTTTCTTCACCAGCTTGACCAGGTCCCGACACACATCTTTCTGCAGGCCGGGGTAGGGCAGTTCTCCGCGGGGATGATCAACGCTCTGATCGACGCCCTCCCACAGGACCAGCTGCCAACCATCACGATTGTTGAGCCGGCCGCCGTAGCCTGCTACTACCTGTCGGCCGAGCAGGCGGATGGCCGGCCCCACACGGTTCCCGGGTCACCCCAAACGATCATGGCCGGGCTCAACTGCCAGACACCGAGTGCCATCTCCTGGCCAGTCATCCGCGACACCGCCAGATTCTACGGCACCCTGACCGATGACGTGTCCGCCAAGGGGATGCGCCAGCTGGCCAACCCAGCCGGTAATGATCACGCGATCGTGGCCGGGGAGTCCGGAGCCGCGGCCTTTGCCTTTGTCAACGAGGTGCTGAGCAACCCTGATTATCGTGATTTACGGAATACCTTAGGACTAGATGAGGACTCCCAGATTATCGTGATCAATACGGAGGGGGCCACCGACCCAGTCAACTACCAACGAATTATCAACGCAAATAAATAG
>SRR1151252_00296 hypothetical protein
ATGAAAAACCCGTTTAACCCTAGCTTTGGCCGGGTCCCAAAGATCTACCTAGATCGGGAACAGATCGTTCATCAGTTGGAGGAAGACATCCAAGACGTGGATAGCCCCTACCTGACAACCCTTATCTATGGAATGCGGGGCTCCGGGAAGACCACCCTACTGACGGACGTCAGCCCTGATATTAAGAAGCAACCTGACTGGATCGTCGTCGACCTTACCATGGGAGACGCCCTGATTCCCACGTTGATTGAGCTGGTCTACAAGCAGGCAGATAGCGGTCTGAAGAGTATGTTGAAGAAGGTCTATGGTATTAGCGTCAGCGCGGCCGGGATCAAGATCGACTACCACCACGAGCAGGCCAGCGTAACCAACTCACCACATCAGCCTCTTCTGGAGTCATTGGCCGAAACGCTACAACAGCGGAAACTAAAGCTGCTGATCACCATCGACGAGATCAGTTCAACCCCGGCATTACGTGAGTTTGCGGCCATCTACCAAATTCTGTTACGCAATGAATACCACATCGCCCTGTTAATGGCTGGGTTACCAAGCAAGGTATCGGAGTTACAAAACGATGATGTTCTCACCTTCCTGTTGCGAAGCCAGCGCATCTACCTAGAACCGCTGAGTCTCCTGACAATTAAGAATAGTTACCGTCAGGCCTTCACCCACGGGAAACGAACTATCGATGAGAACACGCTGAACCTCATCACCAGGATCACCAGCGGCTACGCCTACGCATTTCAATTACTTGGCTTCCTCCTGTGGCGAACAAGGTCACAGGTGATCAACCAAACGACGGTTAACCAGGTATTGCCCGACTACAAGGCCGCGCTTTTTAGGAACGTTTACCTCAAGATGCATCAGGAACTCTCCCGGGTCGACCAGGAGTTTGTTTGGGCGATGGCCGAACTTGGCGGTAATACCGTGAAGACAGCAGCGATCGGTGCCAAGATGGGTAAGCCCAAGAACTATATTTCAACCTACCGGCGGCGCTTGATCGATGACCAGCTGATCAAGGCACCCGCCCGCGGGGAGCTTTCCTTCACCCTCCCTTTCTTCGCTGAATTCGTCCAGGAATATCATGACCTCTATTAG
>SRR1151252_00297 hypothetical protein
ATGAAATCAGCAAAATTAGCAAAGACCCTGACGGCCGCGGCCCTAACCTTAACCTTACTGGCGGTGCCGGTCAGCTCTACCGTCGTTCACGCTGCTGACCAGGTCACCAGCAGTTCCACTAGCGCTAACTCGACCAGCCAGACCCATACCCTGAAAAAGTCCTACGTGGTCTACGGGGCCGGGGCAGCGGATAAGGGTAAATTGAGTCAGGTCCTAGCCGTGGGGGACGACTTCACGACCCTGACGGCCACCGCTGATGACTACCAGAAGTACATCAACCCGAACGATTCGACCACCAACGCGGCGATGGTCAGCTCGGTCTCCATTGTGCCGACCGACCCAGGCTCCGGGGTCCAGGTCAACGTCAAGAAGTTTAACGGGGACAACAACATCACCAAGGTCACCGCGCAGCAGTATGCGATGGTCGCCCAGATGGCGGGAGTGACTGACGTGACGATCACCGTCAGCGCCAACCGACCCGTCTCTGGGGAATCGGCCCTGACCGGGGTCTATAAGGCCATCGCGACCGATGGGGTGGACCTCAATAGCCAGAACACCCAGTCCGCCAACCAGATGCTCGGGGCCACCAACGGGGCAATTGCGGCCAACAAGGACGATGGTTCTTACCCTGGTAAGCTGATGGCAGCGGTTGGTGACACCACCAAGTCGATCAACCAGCAGAAGAAGCAGGGTGAGACACCGACCAAGACAACGATCCAGACAACCCTGAACCAGAACCTGCAGGAGCGTAACATCTACAATCAGACCAAGAACTACACCGGGCCGATTATCAACGCCCTGGTCCAGTTTAATAACTCACCGATCAGCTCCAGCAAGGACTACAGTTCCCACGTCAACGATACGATCAAGAACGTCAAGAATTCTTCCGGTGACATCATGAACAAGGCCAAGAAGTTCCTCAACTCTGCTGACGGTCAGGCCGCCCAGCAGAAGGCCCTGTCTTGGTGGGATAAGTTCATTAACTGGCTGCGCAACTGGTTCTAA
>SRR1151252_00298 gluconate:proton symporter
ATGTCGATTCTGATAATGCTGCTGGGCGTGCTGTTGCTGTTCTTCCTGATTATAAAGTTCAAGCTGAATACATTTGTCTCCCTGCTCCTCGTCTCAATTGTTGTTGGCCTACTCCTGGGGATTCCTTGGACCAAGGTACCAACGGTGGTCGAGCAGGGAATTGGGGACCAGGTTGGCCACCTTGCCATCATCTTTGGCCTGGGAGCGATGCTGGGCCAACTGATTTCAGATTCGGGTGCCGGCTTCCAGATTGCCAACACCTTTACGGCGCGGTTTGGTCGCAAGTATATTGAACTAGCCGTCGTGCTAACCTCGTTTATCATTGGTCTGGCGATGTTCTTTGAGGTGGGGCTGGTTATCCTGCTGCCGATCATCTATGCGATCGCACTTGAACTTGACGTGGCCTTCCTGTACCTGGCGCTGCCGATGGCGGTTGCGCTGAACGTGGCACACGCGTTCCTCCCCCCGCACCCGTCACCGGTAGCCGTGGCGGGAATCTTACATGCACCGTTGGGCCAGGTCCTAATGGTGGGGATCCTTTGTGCCGTTCCGGTTGTCCTGATTGCCGGCCCACTGTACAACCACTTTCTGATGAAGGTTTACCCACGGGTTTATCGTAAGAACGTTCAGAGTGCGGTGCTGGGTGACATTCACCAGCCTCATTCGGATAAGGACCTGCCGGGCTTTGGCATTAGCATCATCACGGCAACGTTACCGTTGGTCCTGATCATCATTGCTACCGTTATCAAGTACCTTTTGCCAGCTCACCAGCTTTTCTCAAGCATTATCCAGTTTATCGGCAACCCTGACCTAGCGATGATCATCTCACTAGTTTTTGCCGTGCTGGTCCTCGGTGTTCATCGGGGAACGGCAATGAAGAAGATTGGTCAGTCGATGGAGAACGCCATCAAGCAGATTGCGATGATGCTACTGATCATTGGCGGCGCTGGGGCCTTCAAGCAGGTGCTGGTCACCGGTGGGGTAGCCGATGATATCTCCGCCTTATTTCTGCACTCGAGCATATCGCCATTGGTAGCGGCATGGCTGATTCCGGCTCTACTGCACTTCTGCCTGGGCTCAACAATGGTCGCCGCACTGACTGGCGCCGGATTGGTAGCCCCACTGGCCGCTGGGACGACCGTTGATCCCGTCCTGATGGTTTTAGCCGTGGGTGCCGGCTCGACATTCGGTGATCATGTTAACGGGGCCGGTTTCTGGATGGTCAAGGAGTACTTTGGCCTGGGCCTTAAGGAAGCCCTGGCGACCTGGTCGGTGCTGACCTGTGTGACCTCCATGATCGGCCTCGGGGTTGTTCTCCTGGCTTCGTTGTTTGTTCACTAA
>SRR1151252_00299 malate permease
GTGATTAGTCCGCTTGCTTACTGGCGCGTATCGTCAGCCGACCAGCGGCGGATTCTCGGTATTATTACCACCTTTGGCTCGACCACGGTTTTCGGAATTCCAATCGTTGGTGCGGTCTATGGTGCACGTGGGGTCATCTATGCATCCCTGTTTAATATTGCCTACCGGATCCTGCTTTACACCTATGTCTACATCCGGATGTCTAAACAGCAGGTAACACTGCGACAGATGATGAAGATTCTTGTCAACCCGATTGTGGTAGCGACCCTGCTTGGTCTCGGCTGCTGGCTCTTTCAGCCCCTGGCACCACACGTGATTGTGGGTCAGCACCTTGTTGCGTTTTACCGCATTGACCAGACGGCGCCGTGGCTCTACCAACCCCTACAATATCTCGCCAGCCTCGCCGCACCGCTCTCGTGGCTCCTCGTTGGGTGCGCCCTAGGGAGTCGCCTTTCCCCGACAGAGATCCTCACCGACCGTCTAGCCTGGTACTACGGGGCCCTAAAATCCTTCATGGTTCCTGCCGTTTGCTTAGGCAGTGTTGAGGCTTGTCAGCTGGTGGGGATTGGACAGGTCTCACTAACGGGAATAGCAGCCATCGCCCTATTGATGTGTTCACCAACGTCGACCATTCCAGTAGTATACTCGGTGAACTATCACCAGTATCCACTCATGACGGCCAAGTGTTCCATCGTCTCAAATATTACCTCAATCATGGCGTTGCCAGTCTGGTTGGTTGTTTTGAACTTGATTAGGGTCGGCGGGTAA
>SRR1151252_00300 malate permease
ATGGATATTTGGCGTGAATTATTAAGAGTCCTTGCAGACACACGGGTCAGCGGAATAATCGTCTCGGTGGTCCTGATAACTGGGCTTGGCTACGTCTTGACGGCCGGGCGCGTTTTCTCGGATCGCTTTGAAAAGGAGATTTCCCGTTTAGTTTTGGTTGCCGCGGTCCCCGCATTATCATTTAACTCGTTTATGCAGCCACTTGATATTCGGGCATTGCGACAGGGAATGACATTGATCGCCTGGACTTTGTTCTCTATGCGGTTCTGTTGGTGA
>SRR1151252_00301 putative glucarate dehydratase
ATGTCAATTCCAAAGATTGCTAAAATGGAAGTTTACCCGGTTGCCGGTTACGATAGTATGCTGCTCAACCTCAGTGGGGCTCACGGCCCATTCTTTACCCGGAACATCGTTATCTTAACGACGGACGAAGGTCAAGTTGGGATCGGCGAAGTCCCTGGTGGTGAAAAGATCACGGATACACTGGAAAAGTCCAAGGATATCGTGGTTGGCTCATCCATCGGTGAATACAAGGCCGTACTGCAGAAAATTCGCGAGAAGTTTGCCTACTTAGACCAGGGGGGGCGTGGTGAACAAACCTTCGACCTGCGGATTATGGTTCACGCCCTGACCGCAATTGAAACAGCCTTCCTGGATCTCCTGGGGAAGCACCTCCACGTACCAGTTGCTGCCCTCTTGGGTGATGGTCAACAGCGGGAAAAGGTGGGTGTCCTCGGTTATCTCTTCTGGGTTGGGGATGCTTCCAAGACCGACCTGCCATACATTCAAGATGATGACGATTCCAGCGAATGGGGCCGCCTGCGTCGGAAGCCAGCCATGGACGTCGATTCCCTGGTAAAACTTGCTCAAGCTGCTTATGACAAGTACGGTTTCAAGACCTTCAAGCTCAAGGGTGGGGTCTTCGACGGTGAAAAGGAAGTTGCCGCAATGAAGGCACTCCACAAGGCCTTCCCAGATGCCAAGTTGGACCTCGATCCTAACGGTGGCTGGAGCCTTAAGCAGGCCCTTCACTATGCTGATGAACTGAAGGATGTTCTTCACTACATCGAAGATCCAGCTGGTGCCGAGAACGGCTTCTCCGGTCGTGAGATTCTGGCCCGCTTCCAGAAGCTGACCCACATGCCAGTTGCCACTAACATGGTCGACACCGACTGGCGGCAAATGTCTGCTGCTCTGGCCTTAAACGCCATCTCCATTCCACTGGCCGACCCTCACTTCTGGACCATGGAAGGTGCCGTTCGGGTTGCCCAACTCTGCAACGAGTTTGACTTGAACTGGGGTGTGCACTCCAATAACCACTTTGACATTTCCCTGGCGATGGTAGCTAACGCCGCTGCCGCCGCTCCAGGCCGCCTCTACGATGTTGATACTCACTGGATCTGGCAGGATGGTCAGAACCTGACGAAGAACCCGTACAAGATCGAGAATGGGCAGCTGACGGTTCCGCGGACCAACGAAGGTCTGGGTGTTGAGATTGACATGGACGCCATCAAGAAGGCCCACCAACTCTATGTTGATAACCACCTGGGTGCCCGCGATGATGCAGCTGCAATGCAGTACCTGATTCCAGGCTGGAAGTTCGATCCAAAGCGTCCGGCATTGGTACGTTAA
>SRR1151252_00302 LysR family transcriptional regulator
ATGGATATTGATAAGCTAGAAACATTTCTAATGGTTGCTAAATTCGGTAGCTTCCGGGCCGCCGCACAAAAACAGTTCCTGTCGCCACGAGCGGTCTCCAAACAGATGAACCAGATTGAGGCCGAACTTGGCGTCAAGCTATTCGAACGGGAAAAGAACCGCACCAAGTTGACCTCTTACGGGAGCGACTTTATCGTCACGGCCCAAGATATTGTCAACTCATACAAGACCGCGGTCACCAAGATCAAGACCCGGGACACAATCCAAGAGAAGCGCCTGAAGTCTGGAATTTCATCCCCAAGTCAAGCCACTATTTGGCAGACCGCGTTGACTGATTTCCTGAGTAGAAATCCCGATATCAACATTGAGATCCAGCAAGAGACCGGACGGCGCCTCCTCACCCTCGTCGATAACATGGCCCTTGATTTCTGCATCTCGCCTTACTATGGGACCCATGAGATGGACAAGATCCTCCCCAATCTCCAACGCGTGGACCTATACACCGGTACCTTCTACATCGGGATCAGCAAGCTCAACCCGCTAAGCAAGCAGGACTCAATCAGCTTTACCCAACTGCAGGACCTCAAGCTGCTCTACTACACACCCTTTAGTTCAATTCACCTCAAGAAGATCTTTCTGGAGAAGTTTGCGGGCCTTCTGCGTGAAGAACAGGTCGAGTTGATCACCACCCTAGAACAGCGGAATCTGATGGTCGCCGTCAACAAGGGCTTTGGCCTCTTTCCAAGCGTGCTCGTTGATGAGGAAGAGCTCCAAAACCCATTAATCAACTTCCTCCCGATCCGTGATGACTGCAACGACTTCTATTCATCTGCTTTCTGGTATAACCGGCAAAACGACAATCCGGTATTAAAAAAGTTGGTTGACGAATTTAGTAACCGCCAATAA
>SRR1151252_00303 6-phosphogluconolactonase
ATGGAAGATAAGTTTTTGCTTGGTGGCTACACCGCCGATAGTTACACGAATGGTAAACATAACAGCTCTGAAGGAATCTACACGGCGACCCTGGATACGGACAAGGGCGAGGTAACCGCCATCGAACCCGTCGTTAAGCTGGAGAACCCCGCATTCTTTAACTACTCAACCAAGGACCACAAGATCGCCGTGGTCATGACCAAGGATGACAAGACTGGTGGCATCGGCATTGTTGACGTTGACCCGGAGACGGGAAAGGGTAAGCTGATTTCTGAATCAATGCTCGACCAGTCCGTCAAGGGGAGTTACGAGGCATATAACTACTTCGATCACCTCTACTACTGGAATGACCTGAAGTACACCGTTCCGTCTTATGTTTACCTTGATGATAAGCGGAAGATGGTCTTCGCCGCTAACTACAACACCAATGCCATCCACACCTGGAAGCTGGATGACAATTACCAGTTTATCGAATCATACCGTTACCCAATCGAGGGGCGGGGACCAAAGGCAGTTCAGGACGCTGCCCACATCCACTTTACCCGCTTACTGCCGGATGGACGGTTGATCGTCTGTGCCCTGGGAGCCGATCGACTCTTTGTCTACGATGTGAACGATGATGCCAGCCTGACGAAGGTGTTTGAATACGAGGTTGAACCAGGCTTTGGCCCTCGGCAGCTGGCGTTCAATGAGAACACCAACAACTACATCTACGTCTTAAATGAAGTTGGCAGCCGGACCGCCGTTGTTAAGTATGATCCAGCTACTGGCCACCTGAGTCGGATTGCCAGCTACTCCAACATTCCGGAGGGCTATGCTGGACATAACCAGTCAGCTGGGATTCGGGTTTCCGCTGATGGTAAGTTTGTCTACTCATCTAACCGTGGACATAACTCGCTGGCGGTCTACCGGGTAATTGATGGTGGCAAGCACTTGGAGAAGATCCAGACCATCAAGACCAACGGGTTTTCCCCACGTGACTTTGACCTCAGCAAGAACGGTGACTTCCTGCTCTGTGCCAACCAGATGTCACACGAATTGATTCTCTTTAAGCGTGATCCAGAGACCGGTTACCTGTCAGTGGCCCAGGAAGGGATCAAGCACGATGCCTGTGTTCGGGTGCTTGAAGCAACCGACTTCCTGGCATAG
>SRR1151252_00304 galactonate dehydratase
ATGAAGATTACTAGTATTGATGTAATGAAGATCCCATCTCCTGACGTCAGCTTCAGTGGGAATGGTGGCGGATCGACTGAAGAATGGTCACCGATTATTGTCCGTATTAATACGGATGAGGGAATCTCTGGTTTTGGTGAAGCTGGCCTGGCCTATGGTAAGGGTTGGCGTGCTGGCTTTGGCATGGTTCAAGATTTTGCCCACACCATTATCGGTGAGGACCCAATGAATATTGAAAAGATCTGGGACAAGCTGCAGCGGACAACCTACTGGGGCATTGCCGGTGGGGTGGTACCAAATGCCGCTATCAGTGCCATTGATATTGCCCTGTGGGATATTAAGGGTAAGTACTACCGGTCACCGGTTTACCAACTGTTGGGTGGTAAAACTAACCAACATCTGCGGGCTTACGCCAGTCAGCTCCAGTACAACTGGGGGACCGCGCCTGACCTGGCCCACCCAAAGCTCTCGACGCCGGCTGAGTATGCCGATGTGGCACGGCGGGTAAAGGAAGCTGGCTTTACCGCGCTGAAGTTTGACCCAATCATGTGGGGTGACGACCCGCAGAAGCCATGGCACACCAAGGGTCCCCTGAATCATCGTGAGATTAAGGTTGCCTACGACCGGGTCAAGGCCATTCGGGACGCCGTTGGTCCGGACTTCGACATTATCATTGATATGCACGCCAACACAGATACCACCGCGGCGATTGAATATGCGCATGCCTTTGCACCGCTGAACATCCTCTACTACGAGGAGCCAGTTGACCCGATGAACCCAGACTTCTACAAGATTGTCCGTGATAAGATGCCGGCCAAGATGGCTATTGCGGGTGGGGAACGAACCTTTACCCGGTGGGGCTTTCGGCAAATGCTGGAGGACCGGTCCATCGACATTGTCCAGCCTGACCTGACCCTGGCCGGGGGGATCACCGAAACGAAGAAGATCTGTGACATGGCCTACACCTACGACATCAACGCCCAGGTGCACGTCTGTGGCTCACCAATTGCCATTGCGGCGGCCCTGCAGGTCGAGGCGGTCATTCCAAACTTCTATATTCATGAGGTTTACCAGCGGGCGATGTACACCAAGGACCGGAATGCGGCCGTTTATGATGACCTGATTCCGCAAAACGGCTACGTTGATGTTCCCGACCGTCCCGGAATTGGCCAGGAGCTGAAGCCGGAGATTATTAAGCAGAGTTTGATTGAAACGATTGAATAG
>SRR1151252_00305 2-hydroxyacid dehydrogenase
ATGAAAAAAGTATTGTTAAGTGAAAAAATTGACGATGCGGGAATTCAGTTATTAATGGATAATGGTTTTTCCGTCTCAATCGCTTCTGGTACTGATGTTGCGTCAATGAAGGATGGCATCAAGGATGCTTACGCGGTCATCATGCGTTCATCCGAGCTGCCTGCCGAGGTAATTAACGCTGGTCAACAATTGAAGATTATTTCACGTAACGGAACGGGGATTAATAACGTTGACGTCGACGCCGCAACCAAGAAAAACATCCTGGTCGCTAAGGTTAACGGGGCCAACGCCTTCTCCGTTGCCGAATACGTCATCACGACGATGTTGATGCTCAGCCGCAAGCTGATGCGAACCGACCAGCTCCTTCATGAGAAGAAGGAAGAATTAAGCGGCATGTCATTACCTGGCTTCTCTACCAAGTATCAATTAAACGGTAATGAACTCGCCGGTAAGACCTTGGCCATCCTGGGCTACGGTAAGATCGGCCAACAGCTGGCCAAGTTGGCTCAAGCCTTCGACATGAACGTCATCGGTTACGACCCATATGCCAAGAACGCCGACATCAAGCTGTATGACAAGCTGACCGACATCTACCCAATTGCCGACTTCATCTCCATCAACATGCCGTTGACACCGGAGACTAAGGACACGATCACGGCCAAGGAACTCAAGATGATGAAGAATTCCGCCTTCCTGATTAATTCTGCCCGGGGCGGTATTGTCAACGAAGCCGACCTGGCCGATGCCCTAAACAATGGCATTATCGCTGGTACGGCCATCGACTCATTCAATCCCGAACCACCAAGTCCGAATAACCCGCTGTTTACCAGCAAGAACACGATCGTGACGAGCCACGTTGCGGGGACCACCAAGGAAGCCAACCGGCGCCTTGGCCTGGGGGCTGCCCAAGCCATCATTGACTACGCCAACGGCAAGATGCCTCAATTCCCAGTCAATCCTGAAGTTGGAATTTCCAAGGAGGACTAG
>SRR1151252_00306 2-oxoglutarate translocator
ATGAAACACACTAAACTAATCAGTGGGGTCATCGCTATCATCCTCGGGGTCATCATCGCCTTCTTCATCCCTGCACCGGCGGGCCTTTCCCACGCCGGCATGGTTGTCCTGGCCTCCCTGGTGACCGCCAACCTCTTCTGGATCTTCAACGTCATCCCAAGTTTCGTCACCGGGCTGTTAATGCTCTCCTCATGTGTCATCCTGCGGGCCGTTGACTTCCCAACCGCCTTCAACATTTTCTCCTCAACCACCATGTGGATCATCATCGGTGGCCTGGGTTTAGGTGCAGCGGCCACCAAGTCCGGCCTGATTAACCGGATCGCCCTAAACATCATGAAGCGTTTCCCCGCTAACTTTAGCGGCCAAACGCTGGCATTGTTTACCGCTGGAACGATCATTTCGCCAATGATTCCGAGTGCCCACCCGAAGACGGCGATGAGTACCCCACTGGCCCTGGGGATCAGTGAATCACTGGGTTACAAGAACAAGACAAAGCAAAGTTCCGGGATCTTCCTGGCCGCCATCTGGGGCTTTCTGGTAATGGAAGCCAGCTTCCTTAGTGCCACCGCCCAAAACTACGCCTTCAAGGGGCTGCTTCCCCAAAAGGCTCAGGCAACGATGAGCTGGGGGAACTGGTTCCTGATGATGCTGCCATGGACGGTAATCACCCTGGTCTTTGGCTTCTTCCTGCTGAAGTTCCTCTTCGCACCGAAAGATGACAAGCCAGCCTCCAAAGAATTTATTTCTGAACAGCTACATAAACTGGGACCAATGTCGCGCAACGAAAAGATCACGGCGGCCGTTATCCTGGTTGCTATTATCTTCTGGATTCTTGAAACCACCCTGAAGATTCCTGCTGCCGTTACCGCCTTGTGCGGGGTAAGTATCCTGGTTGTCACCGGTGTGCTGACGCCACAAGACATCAGTAAACGGCTGAGTTGGAACACTATCATCTTCATCGGGACCGTCATGGCCCTGGGGAACGTAATGCAGGTTGTTAAGCTGACCACCTGGCTGCGGATCATCCTCAAGCCAGTCATCAGCCCAATTCTCGGTAACATTTACATCACGGTCATTGCACTGCCAATCATCATTTACCTGTGCAAGTTCGTCGTTGTTTCATTGATTTCCACTGGGACACTGATCATTATTGCCCTGTTGCCATTCTTCTCCACGATGAGCTTCAGTCCGGCCATCATTGCCCTGATCGTTACGACGAGTGTCAACATCTGGATGCTGTCCTACATGGATGCCCCATTCCTGACTGGGATGGCTGCCGTCAACGATAAGATGGCAACGCGGGCCGCACTAGCTAAATCATCACTTGGCTATATGATTATTAACATCATCGGCCTCCTGCTCTGTGTTCCCGTTTGGAAACTGATGGGGATTGCCTGA
>SRR1151252_00307 GntR family transcriptional regulator
ATGACAAGCTACTCCCGTAATAATCTGACGAGCAAGGCCTACGACGTCATCCTCCAGAAGATCATCAGCGCTGAATACAAACCCGGTCAGAAGATTTCCGAAAAGAAGATCGAAGAAGACGTTAACATCGGCCGGACCCCGGTTCGTGAGGCCCTCCTGCAATTGCGTCAGGAAAAGCTAATCAACGTCATCCCCCAGTCCGGGACCTACATTTCCAAGATCGACCTCAAAGACGTTTTTGAGGCACGCTTCATTCGCTCTAGTATTGAACAGCGGATTATGCGCGAGGCAGCCGCGTTAAATATTGCCCCCGAACAAAAGACGGCTATCAACGACATTATCAAGGAACAGATCCAAGCCCGGGCAACAGATAACTTCCCAGCCCTCCTCAGGTTTGACGACACCTTTCACAAGTACTTCTATCGAATCACCGGACATGAACGGGTCTGGGACTGGCTCCGTAAGGTCAATATTCAGTTCAACCGATTCCGTTTTTTCCGCCTCAAGGTCCAGAAGCTATCGTGGAAGGGTCTAATCGAGGAGCACCAGCGAATCGCTAATGCCGTCTTAAACAGTGACATCAGTGAGGTCGACCGCTTGACGGCCAACCATATGCACCGGATGTTGGACGAGGAGAAGCCATTGATCGAGGCCTTTCCCGATTATTTTGAAAATGCTAACTAA
>SRR1151252_00308 signal peptidase I
ATGAAAACATTTCGGCAAGTGATGAGCTGGGTGATCCCGATTGTGATCGGGCTGTTGATTGCCCTGCTGATAAAACAGTTTTTGTTCCAGGTTGTCCGGGTCGATGGGCCGTCGATGCAGCCGAACCTGCAGAATAACGAGCGGGTCTTCTGCCTGAAACGGTCCCAGATCCACCACGGGAGCGTCGTGATCTTCGACGCCAATGGGGTTGACCCCCAGGTGGCCGTCAAGACCGACTACGTCAAGCGGGTTATTGGCCTGCCGGGTGATACGGTCCGGTCCAAGGATGGTAACATCTACGTCAATAGCAAGAAGATTAACCAGGACTACATCAGCATGAAGCAGCGGGGTGCCGGGACCGGTAACTGGACTTTGAAGAGCATCTCCGTGCAAAACAGCTGGCTGAAGCACAACGGGGCCACCAAGGTACCGCAGGGCGAATACTTCGTCTTGGGGGATCACCGGAGCGTCTCCAATGATGGTCGCTACTGGGGCTTTGTGCCGAAGGATAAGATTGACGGGGTCGTTAAGGTACCATCATGGGCCGGGACAAAGACTACCCGCCAAAACGTTAATAAGGAGTGGCAACACTTCTATGCTAAGTAA
>SRR1151252_00309 UDP-N-acetylmuramoylalanyl-D-glutamate--2, 6-diaminopimelate ligase
ATGCTTTCACTAAAGGAAATGACCGACCTCCTGAAGGAAGAGGGTCTGTACAAGGAAACGATTGTCAACGGCCACTGGTCCTACACCCTGCCGGACAGTGCGGCCCGGGTGGAACCACGGTCCTTGGCCTATGACTCCCGAAAGGTTGGGGATGGGACCCTCTTCTTCTGCAAGGGGAACAATTTCAACCCGAAGTACCTGGAGAGTGCCATTGAGGCGGGTGCCAGTGCCTTCATGTCTGAACTAGTCTACCATGATGAGCTCAATACCGCGGCCCAGGCGATTCCCCAGATCATTGTAACCGATATCCAAAAGGCGATGGCCACGGTGGCCCGGCACTTCTACGGCTGCCCTGAACGGGAGCTGCAGCTGGTGGGCTTCACCGGGACGAAGGGGAAGACAACCTCGGTCTACTTCACCCGTCACATCCTGCGCCACGTCTACGGGCCGATCGTTGGCCAGTTCTCCTCGATTGATGAATGTCTCGATGGTGAACACTTCATCGAATCCCACCTGACGACTCCTGAATCATTGGATCTCTTCAAGATGATGCGCGAAGCCGTCGATAACGGGATGAAGTACCTGGTGATGGAGGTCTCCAGCCAGGCCTACAAGAAGTCGCGGGTCTATGGTCTCCACTTCAACATCGGGGTCTTCCTCAACATTTCACCGGACCACATCAGTCCAGTTGAGCACCCGACCTTCGATGATTACCTCTACTGCAAGAGCCAGATTATCGTGAACAGCGATACTGTCATCCTGAACCGGGACATGGATTACTACGACCTCCTTTCCCAGAAGGCCCGCGAGTTGGGTAAGAAGCTGATCACCTTTGGTAGCGACCAGGGTGATGCCGACTACCGCTACCATGGTGGTCAACACGGGCACTTCAGCGTTACCACTCACAATCTGGATCTGCCCCAGGTGGCCGGCGACTTCCGGATCATGATTCCGGGACACTTCAACTACAGTAACGCCCTGGCGGCCATTGCAGTTAGCACCCAGCTGAAGGATGACGTCAGCGACTTTGCGGCTGGCCTGCAGGAGACTAAGGTGCCTGGTCGGATGGAATTTCTGAAGAACAAGCAGGGGCTGGTGGCCTGTGTTGACTACGCCCACAACTACCTGAGTCTTACGGAAAGCTTCAGTTTCATGAAGCACGAGTACCCGAACGGTCGCCTGATCGTGGTAATCGGGGCCGCCGGTGGGAAGGCCGAGTCTCGTCGAAAGGATATCGGTCGGGCCCTCTCCGAATTTGCGGACGTGGCCATTCTGACGAGTGAGGATAACTTCTTTGAGGATCCCCACCATATTGACGAAGCAATCAAGGAGCACATCACCAACCCGAACGTGCAGGTGATCATCAACGTTGACCGGGTGGCGGCGATCAAGGAAGCCTTTGCCATGGCTAAACCGGGCGACGCCATGTTCATGGCCGCTAAGGGACGGGAGCAGTTCATGCATGAGCGTGGCCGCGATATTCCTTACGTTGGTGATTATCAGCTGTCCAAACAACTCATGGAAGAGTATGATAAGAAGTAA
>SRR1151252_00310 asparagine synthase
ATGTGTGGAATTGTTGCGTTTGTGGACAACGAAAAGCCACAAATCAAGGATAAGCTGATTAAGAAAATGAAGAACCGGATCATCCACCGGGGCCCTGATTCAGAGGGGCAATACGTGGATGAACACGTGGCGCTAGGCTTCCGGCGGCTGAGTTTTATTGACGTGAAGAGCGGTAACCAGCCGATCTTCAACGAGAACCGGTCGATGGCCATTGAGTTCAACGGTGAGATCTACAACTTCCAGGAACTGCGCGAGGAACTGATCAAGCGTGGTCACACCTTCTCAACCCATGCGGATACCGAGGTTATCCTGCATGGTTACGAGGAATGGGGCGATGATGTTTTGAAGCGCCTACGGGGAATGTTTGCCTTCATCATCTGGGACTTTAAGAACCAGGAGATGTTTGGTGCCCGGGACCACTTCGGAATCAAGCCGCTTTACTACGGCAAGATGAACGGCACCTTCTTTGTGGGTTCCGAGATCAAGGCCTTCCTAGACCACCCGAACTTTGATAAGCAGCTGAACAAGGAAGCGTTGAAGCCTTACATGACCTTCCAGTACTCAGCAACCCAGGAGACCTTCTTTAAGGGGATCTACAAGCTGCCAGAGGGTCACTGCTTCCACTACAAGGATGGCCAGTTCAGCATGAAGGAATACTGGGACGCCGACTTCGACCCCCAGGATGAGAGTTTCGACCAGGCCGTCGACAACATCGAAAACGTCGTTACCAACTCGGTTAAGGCCCACTCCTTTGCTGACAAGGGGATCAAGGTTGGCTCCTTCCTGTCTGCTGGGGTCGACTCCAGCTACGTGACGGCGATGATGCGGCCGGACAACACCTTCTCCATCGGTTTCGACAGCACCTATGACGAGACCAAGCAGGCCCGGGAACTGGCAGCCAAGCTGAAGCTGAAGAACACCGATGCCAAGCTGACGAACGAGGAGGCCTTCCACACCTTCCCACTGATCCAGTACTACCTGGACGAACCAGACTCCAACCCGTCCGTCATCCCGCTGTACTTCCTGACCCGTTTGGCCAAGGATAACGGCTACAAGGCAATGCTGTCCGGTGAAGGGGCCGATGAGCTGTTCGCCGGCTACATCGACTACGGCTTCAACTCCAACTCCATGCTGATCCGCTGGTTCACCGACAAGCTGCGTGAACTGCCACAGGCTAAGCGTTACAAGATCGCCAAGTGGTTGGACGGCAAGCACTTCCATGGTCAGTTGCACATGTTCCGGGCCCTGGCCCCCGTGCGCGAATCCAAGTTCATCGGTCAGGCCTACATCTTCTCACCAGATGAGGCGGCCGATATTCTCCAGGACAAGTACAACTGCGGCCCGACGATTGACGACATCATCGACCCAATCCTGAAGAACGTTGAGGACAAGGATATCGACGAGGTTGCCAAGAAGCAGTACTTGGACATTCACAAGTTCATGCCGGGCGATATCTGCCTGAAGGCCGATAAGATGAGCATGGCCAACTCCCTGGAACTCCGGGTACCACTCCTGGACAAGGAGGTCATGCGGGTCGCGGGTCACACCCCAACCAAGTACCTCTTCAACCGTCACGGGACCAAGTGGGCCTTCCGGATGGCCGCCAACCGGCACCTACCAGAGGAATGGGCAACCCGGCCAAAGATGGGCTTCCCGGTTCCTGTCCGGGCATGGCTGCGGGAGAAGAAGTACTATGAGGAGGTTCGCGAGCTCTTTGAGCAGGACTTCGTCAAGGAATTCTTTGACCAGGACAAGATTCTGCAACTGCTGGACGACAACTACAACGACAAGGTCGACGGTCGTCGGAAGATCTGGACGATCTACACCTTCCTGGTATGGTACAAGCAGTACTTCATTGATGACTTTATCCCTGAAGAAGTAAAGAAGTTAGACGAGGTGGCAGAATAG
>SRR1151252_00311 carboxylate--amine ligase
ATGAATAAGATGTCAAGCAAAGAAAAGCGGACTGACTTCCAACCAATTCTGTTGGGGACCGATTTTAACTGCTACGGAATGGCGCGGTCGTTCTACTCGCAATACGGAATTAAGAGTATTGCCTATGGGGTGATGCACATGGCCCCGACGCGCTACACCAAGCTGGTCGATGTCCACGTTATTGAAGGTTTCAACGAGGACCCGGTCTTCATTGAGACGATGCGCAAGATTGCTGCAAACCTTGATCCCGACAAGAAGTACCTTCTGCTGTCCTGTGGGGATGGTTACACCGAACTGATTGCTAAGCACTTAGATGAGCTGAAGAAGAGCTTCATCTGTCCCTATGTTGATGCCGAGCTTTTCAAGCGGTTAGGCACCAAGGAGACGTTCTACGAAGCTGCCGAAAAGTATGGTCTTCCTTACCCCAAGACGAAGATCATCACGAAGGAGGAGGTCGAATCTGGGCAGCCGATCGAGCTGCCGTTCGATTTTCCAATTGCCCTGAAGCCATCTGACAGTGTGGAATGGCTTGATATTCAATTTGAGGGCCGCAAGAAGGCCTATGTCCTGGACAAGCGGGAACAGTTCGACGAGCTGATGCCAAAGATCTACCAGGCGGGCTACACCGGCAAGATGATCGCCCAGGACTTCATCCCCGGCGATGACTCCAACATGCGGACGGTTAACGCCTACGTCGACTCCGACCACCACGTCCGGATGATCAGCCTGGCCCACCCGCTTTTGGAGGACCCGTCACCGGTGGCCGTTGGTAACTACATGGTGATCCTCCCCGAGAAGGACATGGCCATCTACAAGACCATTCAGAAGTTCTTAGAGGAGGTCAAGTACGTCGGCTTTGCGGACTTCGATATGAAGTACGACCGGCGTGACAAGCAGTTCAAGATCTTTGAGATCAACCTGCGGCAGGGGCGGAGTAGCTTCTACTGCACCCTGAATGGCTACAACCTGGCCAAGTACGTGGTTGATGACGTGATCGACCACAAGCCCTTCACCGGAACTGACTATGCCGATGGTGATATGCTGTGGATGAACGGCCCGAAGAAGGTCTTCTACAAGTACGCCAAGGAAAACGAGTACAAGGAGAAGGCTAAGCAGCTGCTCGCGGCTGGCAAATGGGGAACTACGGCCTTCGACAAGCACGACACGCTCAAGCAACGGCTGTTGATGCACTACTCATTCTGGATCATCAACAAGAACTACCAGAAATACTTCGTTCAACGCTAA
>SRR1151252_00312 tRNA uridine 5-carboxymethylaminomethyl modification protein GidA
ATGAAGTCTGCAGAATCATTGAAAACTTCGGACGCCGTTCAATACGAGGGCGGCGACTATGATGTCATTGTTGTCGGTGCCGGCCACGCCGGGAGTGAGGCCGCACTGGCCGCTGCCCGGATGGGAAACAAGACCCTGCTGGTGACGATTAGCCTGGAGATGGTGGCCTTTATGCCATGCAACCCGTCAGTTGGTGGCCCGGCTAAGGGGATCGTGGTCCGCGAGATTGACGCCCTTGGTGGTGAGATGGGGCACAATATCGACAAGACCTATATCCAGATGCGGATGCTCAACACCGGGAAGGGTCCGGCTGTCCGTGCACTGCGGGCCCAGGCCGACAAGCACGCCTACCACCGGCAGATGAAATTAACCATCGAGCGCGAACCAAACTTGACCCTGCGCCAGGCGACGGTCGACCAGCTGATCGTTGAGGATGGCGTCTGCAAGGGGGTCATTACCAACACGGGGGCCCGCTACCACGCCAAGACCGTGGTTCTGACCGTCGGTACTGCCGCCCGGGGTAAGATCATTATCGGCGAGCTCCAATACCAGTCCGGCCCGAACAACTCCAAGTCGGCGGTTAAGCTCTCGGAGAACCTGGAGGATCTCGGCTTCGACCTGGAACGGTTCAAGACCGGGACACCGCCGCGAGTCAACGGGAACACGATCAACTTCGACGAGACCGACATCCAGCCCGGCGACGAGGAACCGCACCACTTCAGCTTCGATACCCCGGACAGCCAGTACATTGCCGTTTCCGACCAGCTGGCCTGCTGGCTGACCTACACCAACCCAACCACCCACGGGATCATCCGGGCCAACCTGGACCGGGCCCCGATGTTCTCCGGGATGATCAAGGGGGTTGGTCCCCGTTATTGTCCGTCGATTGAGGATAAGATCGTCCGCTTCGCCGATAAGTCCCGCCACCAGGTCTTCCTGGAACCCGAGGGCCGCGATACCGACGAGTACTACCTCGATGGGGTTTCGACCTCGATGCCCGAAGAGATTCAAAACAAGATTGTCCACTCGATCAAGGGGCTGGAGAACGCCCAGCTGATGCGGCCGGGCTACGCCATCGAATACGACGTGGTGGCCCCATACCAGCTCCACCCAACCCTGGAGACCAAGATCGTCAAGAACCTTTACACGGCTGGCCAGACGAACGGTTCTTCCGGTTACGAGGAAGCAGCCGGCCAAGGACTGATCGCGGGGATCAACGCCGGGCTACGGGCCCAGGGCAAGCAGCCATTTGTCCTTAAGCGTTCGGATGCCTACATCGGCGTGATGATCGACGACCTGGTCACCAAGGGAACTAAGGAACCTTACCGCCTGCTGACCAGCCGGGCCGAGTACCGCCTGATCCTCCGTCATGACAACGCCGACTTCCGGCTGATGGAGAAGGGCCATGCCATCGGTCTGGTTAGCGACGAGCGCCTGGCCAAGATGGAGGCCAAGAAGGCTAAGGTGGCCGCCGAGATCAAGCGCCTGCAGTCGATCAAGCTTAAGCCGAGTGATGAGAAGGTCAACACCTTCATCGAGCAGCACGGTGACAACCGCCTCAAGGACGCGGTGGCTGCCGCCGACCTGCTGAAGCGGCCGTACTTCGACTACCAGACCCTATTGAACTTCATCCCGGCCCCGCAGGACACCCTGGACCGGCACGTGATCGAGCAGGTTGAGATCCAGCTTAAGTACGCCGGCTACATCAAGAAGGAAGAGGTCAAGGTCGAGCGGATGAAGCGGATGGAGGCCAAGCGGATCCCGGCCGATATTGACTACGAGGATATTGACGGCCTGGCAACCGAGGGTCGGCAGAAGCTCGAGAAGATTCGGCCCGAGACATTGGCTCAGGCCTCCCGGATCTCCGGGGTCAACCCGGCCGACATTGCCATCTTGAGCGTCTACGTCCGGCAGGGGAAGTTCTCCAAGAAGGGCGAGCAAGAGTAA
>SRR1151252_00313 tRNA modification GTPase
ATGGTAAACAGTGAGGCGGATACGATCGCGGCTATCTCAACCCCGGTGGGCGAAGGGGGCATTTCGATCGTCCGGATCAGCGGGGATGACGCAATCAAGGTGGCCCAACGGATCTACCAGGGTAAGAACCTGGAGAAGGTGGCCAGCCACACGATCAACTATGGGCACATCATCGACCCCGACACCAAGCAGGAAGTCGATGAGGTAATGGTCTCGGTGATGCGGGCGCCACACACCTACACGCGTGAGGACGTGATTGAGATCAACTGCCACGGGGGCCTGCTTGCTACCAACCGGATTCTCCAGCTGGTGCTGAGCTACGGGGCCCGGATGGCCGAACCAGGTGAGTTCACCAAGCGGGCCTTCCTGAACGGTCGGATTGATCTTTCCCAGTCCGAAGCGGTGATGGACCTGATTCGTGCCAAAACGGACAAGTCGATGAAGGTGGCGTTGAATCAATTGGACGGGGACCTCTCCCGCCTGATTCGCCACCTGCGTAAGGACATCCTGGACGTGCTGGCCCAGGTCGAGGTCAACATCGACTATCCCGAGTACGATGATGTCGAGGAGATGACCACCAAGATGCTGAAGGAGAAGGCCACCGACATTCAGCAACGAATTCATTCCCTCCTCAAGACGGCTAAACAGGGGAAGGTCCTGCGCGAGGGGCTGGCGACGGCGATCATCGGCCGGCCCAATGTCGGTAAGTCCAGTCTCCTAAACGCCCTGCTCCATGAGGACAAGGCGATCGTGACCAACGTCGCCGGGACGACCCGGGACGTGATCGAGGAGTATGTCAACGTCAACGGGGTACCCCTGAAGCTGATCGACACCGCCGGGATTCGCGACACCGCTGATACGGTCGAAAAGATCGGGGTCGAACGGAGTCGTAAGGCCCTGGACGCCGCCGACCTGGTCCTGCTTCTGATTGACAACTCGGCCCCGCTGACGGCGGAGGACGAGAAGCTCCTGGCGGCTACCAAGGATAAGCAGCGGATCGTTATCCTGAACAAGACCGACCTGCCGAGTCAATTGGACCTGGACCGCTTAAAGGAGTTGGTTGGTGATGCCGCTTTGATCGAGACCTCGATCGTCAAGCGCGAGGGGATGGACCAGCTCGGTGCACAGATCAGCCATATGTTCTTTGATCAAGGGATCGAGAGCAGCCAGAACAACGTCATGGTCACCAACGCCCGCCACATCGGCCTTCTTCACCAGGCTAACGATGCCCTGAGCGATGTCTTGAAGGGGATCGCGGACGGGATGCCGGTCGACCTGGTTCAGATCGACATGACCCGTTGCTGGGACCTCCTCGGTGAGATCACCGGGGACAGCTACCAGGACGAGCTGCTCGACCAACTGTTTAGTCAATTCTGCCTAGGAAAGTAG
>SRR1151252_00314 hypothetical protein
ATGCCAATCTATACTGGTAAAACAATTGCAATTGCTAAGCAGGCGGCTGCCACGGCCCTCGGGGTGCCCACTGATCAGCTGACGATCAAGGTCATCCAGGAGCCTCGCAACGGCTTCCTTGGGATTGGTCGGCGGGCGGCCAAGATCAGTGCTGAGCCGGTAGTTAAGAACAAGCCAGCCGCGAAGCCGACCCCGGACCAGCCGGCTACAACTTCGGCACCGGCCAGTGCCCACTCGACGACCGCACCTCGTTTTGCTACTTCCCAGCCGACCGCGGCCCCAACTGACGTTAAGGATGGGGATGAACTGGATCCGGCCGTTATCAAGGCCCACCATGCCGCTAACATAAGCAAGGTCCGGAATGCGGGCGACCAGCTGGTGGAATACCTGCAGGGAATCTTCAAGGACCTGGGTGTTGAGACGGCACCAACGATCACTCAAGTGGAGGCCCACGCGATCACGGTTGATGTTAAGACGCCGGCGCCTGGCCGGGTCATCGGTCGCCATGGCCAGCGGATTAACGCCCTCGAACAGCTGAGTAACGTCTTCATGAACTACCACGGTGCCCCGAAGACGGTGGTCATGCTCGACACCGCCGACTATCGGGAACGCCGCCGTCAGGTCCTACATGACCTGGCCCAGCGTGCCGAAACCGAGGTGGTGGCCAGCGGACAGGCCGTCTTCCTCGACCCGATGCCAGCACGGGAACGTAAGCAGCTCCATAAGGAACTCGAGAATAACGCCCACGTCAAGACCTACTCGCACGGTCGGGAGCCTTACCGGAGTGTGGTGGTCGCCCCACAGAATTAG
>SRR1151252_00315 preprotein translocase subunit YidC
TTGACAAAGAAGCGAAAAAAGATCTTAAGCCTGTCAGCGGTCATGAGTTTGACCCTGCTGCTGGCAGCCTGTTCTAACGCGCCGGTCACCAAGCACAGTACCGGCCTGTGGGATCACTACATTGTTTACAACTTCTCGCAGTTTATTATCTGGCTCTCTAATCATATCGGTGGTTACGGGATGGGGATCATCGTCTTCACGCTGATCATCCGGGTATTGCTGTTGCCACTGATGTTCTATCAGACCAAGATGATGATGAAGACGCAGGAACTAACGCCGAAGCTGAAGGCCCTGCAGAAGAAGTACTCGTCACGTGACCGGGAATCCATGCTGAAGATGCAGGAAGAATCCCGGAAACTCTATAAGGAAGCCGGGGTTAACCCGATGGCCTCCATGCTGCCGCTGATCATTCAGTTGCCAATTATGTGGGCCCTCTACCAGGCCATCTGGCGGACCCCAGAACTGAAGCAGGGGACCTTCCTTTGGATGCAGTTGGGTCACCTGGATCAGTACTACGTCATGCCGATCCTGGCCGCCCTCTTCACCTTCATCAGTTCCTGGCTGTCGATGGCCTCGATGCCGGAAAAGAACGGGATGACGACGGCAATGACCTGGTTTATGCCAGTGATGGTCTTCGTGATGGCCCTGGGCTTCTCGTCGGCCATCACCCTCTACTGGGTGGTTTCTAACGCCTTCCAGGTGGTTCAGACCCTGCTGATCCAGAACCCATTCAAGATTCGTCGCGAACGGGAGGAAAAGCAACGCGCGGAACGGCACCGCAAGCGGAAGCTGGAAAAGACCAAGCGTCGTGCCTACCAGAGTCGGCGTAAATAA
>SRR1151252_00316 ribonuclease P
ATGAGAAAATCATACCGAGTTAAAAAGGAAAGTGAGTTTCAACGGGTCTTTGAAACCCATAATTCCGTCGCCAACCGTAAATTCATCATTTACCAGATGGCCAAGCCGGGCCAGAAACATTTTCGCGTGGGAATCTCAGTCGGCAAAAAGATCGGCAACGCTGTCCATCGTAACTGGGTGAAGCGGCGGATCCGGCAGACCCTGTTGGAGGTCAAAGCGCAGATCAAGCCGGACGTCGACTTCTTGGTGATTGCGCGGCCAGCCGCGGACGGCCTTGAGATGCCGGAAGTGAAGAAGAAGCTTGTCCACGCCCTGAAGCGGGCAGACCTATTGAATGAAAAGTGA
>SRR1151252_00317 50S ribosomal protein L34
ATGAAGCGCACGTTTCAACCAAAGAAGCGTCACCGTGCACGTGTCCATGGCTTCCTTAAGCGCATGAGCACCAGTAACGGCCGTAAGGTATTAGCACGTCGGCGTCAAAAGGGCAGAAAAGTATTATCTGCATAA
>SRR1151252_00318 chromosomal replication initiator protein DnaA
TTGACTGAGCTCGATTCTCTGTGGGAAGCGATCCAAAATTCATTTCGTCAAAATACCACTAAGGTCACCTTTGACACATTGATTGCTCCGGCAAAAGCAATTTCTCTCTCCCAAAACCAACTGACCGTTCTGACACCAACTCAGATCCACCAGGAGTTCTGGCGTAAAAATCTGGATGCCAAGCTCCGTGAGTACGCCCGGGCGGACCTAGGCCATGATATTGAGCCACGTTATGTTTTGAAGAGTGAAATCACCCCAACACCCGATAAAAATGCGGCTGGCATCCCGACCTTTGAAATGGATACCCCATTAAACCCCCACTACAACTTTAATACCTTCGTTGTCGGTGAGGGCAACAAGATGGCCCACGCAGCGGCATACGCCGTTGCGGAGAGCCCCGGCGGCCTCTATAACCCGCTTTTCATTTATGGGGGCGTGGGGCTGGGCAAAACCCACTTAATGGAGGCCATCGGTAACCATATGCTTCAGGCCAACCCGAAGGCTAAGGTCAAATACATTACCAGTGAGGAATTTACCAACGACTTCATTAACTCGATCCAGAGCAACTCAATGGAGAAGTTTCGTGAGGAATACCGAAACCTCGACCTGCTCCTGATTGATGATATCCAGTTTCTCGCCACTAAGGAGGGAACCCAGCTGGAGTTCTTCTATACCTTCAACGCCCTGCACGATCGAAAAAAGCAGATCGTTATGACCTCCGACCGGATCCCAAACGAGATTCCCGAGCTCCAGGATCGACTGGTTTCGCGGTTTCGCTGGGGTCTGCCGGTTGAAATTACACCGCCAGACCTGGAGACCCGGATCGCCATCCTGCGTAGCAAGGTCGAAGAAGATCATATCCAAATCGGCAATGATACCCTGAACTATATTGCGGGCCAGATCGATACCAACATTCGTGAACTCGAGGGTGCCCTCAACCAAGTTCAGGCTTTTGCCAACCTCAGCGGCGAACCGATTACCCCTCACCTGGCTTCCCAGGCACTGAAGGGGCTACGGCAAAAGCAACAAACGACCATCTCAATCGCCGAGATCCAAAAACAGGTGGCTAGTTTCTACAATATTACCCAAAGCGATATTCTCGGGAAGAAGCGGGTCAAACAGATCGTGGTCCCACGGCAGATCGCCATGTACCTCTCCCGTGAGCTGACCGATTTTTCCCTACCAAAGATCGGGAATGAGTTTGGTGGCAAGGACCATACGACCGTCCTCCATGCCATCGACAAAATTGAGGCCGCCCTCAAGAAGGACACCGACCTTCAAAAGGACATCAATAACCTGAAGGAACGCCTGCATTCATAG
>SRR1151252_00319 DNA polymerase III subunit beta
ATGAAGTTTACAATTAACCGGCCAGCATTCATTAGTCAACTCAACAATGTGTTACGTGCCATTTCATCTAAGACCACAATTCCAATTCTAACGGGCCTTAAAATGGTAGTTGATAAGGAAGGAATCATTTTAACTGGTAGCAATTCCGATATCACCATCGAAAGTGTTATTGAAGCGAGTGACACCGATTATGACCTGACCGTTGAAGATCCAGGCGCCATTGTGTTGCCTGCACGTTTCTTCAGTGAAATTGTCAAGAAACTGCCAGATAAGCAGGTAACTATTGAAGTTACAAGCGGCTTTCAAGCTGACATTACATCCGGAACAGCCAAGTTCCAGATCAATGGTCAGGATGCAGAAAACTTCCCTCACCTGCCCGAAGTTGAAACTAATAAGACAATTACCCTGCCTAATGATGTCTTAAAGGAGGTTATCCGGCAAACCGTCATTGCCGTTTCAAAGCAGGAAAGCCGACCGATCCTCGCCGGAATTCATATCACCCTTCACGACGGCCTACTGACGGCAGTGGCCACGGACAGTCACCGGCTTGCCCAACGGAAGGTCACACTGAACGATGTCGATAATGGGATCGACTTCGACGTTATCATTCCAGGAAAGAGTATGAATGAGTTATCCGGGATGATCAGTGACGTTGACGAGGATGTTCAAGTTCAGGTCACTGAGAATCAGATCCTGTTCATCTTCGGCAACACCCACTTCTACTCGCGGCTGCTGGAGGGGAACTACCCCGAGACTAGTCAGCTGATTCCAGACACGGCCGATACCACCGTCGAATTAGACGCGGGTACCTTCCTGGCCTCCATCGAGCGGGCCTCCCTCCTGTCTCATGAGAGTCGTAACGACGTGGTTAAGCTCACCCTGAATCCTGATGAGAACCTCGTGCGGATCAGTAGCGATTCTCCAGACATCGGGACCGTTGAGGAAGAGGTTGCAACAACCAGTCTGGATGGGAACGACCTTGAGATCTCCTTCAACCCGAACTACATGAAGGATGCGTTACGGTCGTTTGGTCAGACGACCGTTAAGATTGCCTTCACCTCCGCATTGCGGCCATTTACCCTGGTGCCAACGGAGGACGGCGAGAACTTTGTCCACCTGATTACCCCAGTGCGGACGTTCTAA
>SRR1151252_00320 S4-like RNA binding protein
GTGGAAGATAAGCAGATTACGATTGACCGGCCGTTCATTACGCTCGGTCAATTACTGAAAGAAGAAGGAATCATTCCCACCGGTGGCGCAGCCAAGTGGTACCTGAAGGAAAATCGGGTTCTCGTCAATGGCGAGTCGGATGATCGTCGGGGCCGCAAGCTCTATCCAGACGACCAAGTGGCTTTGCCGGACTACCCGACCCTGGTTATCAAGACTAAGTAG
>SRR1151252_00321 DNA replication and repair protein RecF
ATGATTCTGACAGAACTACGGTTGCATAACTTCAGAAACTATCAGGATCTGACCGTTCACTTTGCCCCCGGGATCAACGTGCTGATCGGCCGCAATGCCCAGGGGAAGACCAATATGCTGGAGGCCATTTACGCCCTATCGCTGACCCGGAGTCACCGGACCAGCAACGACCGTGAGCTGATCAATTGGCAGCAGCAGTCGGCGTCGATCAGTGGCGTGGTGCAGAAGGCAACGGGAAAGGTTCCGCTGGAGTTGCAATTTACCAAGAACGGTAAGAAGGCCAAGGTCAACCACCTCGAACAGGCGCGCCTCGGCCAGTACGTCGGTCAGCTGAACACCATCCTCTTTGCCCCTGAGGACCTATCACTGGTGAAGGGGGCGCCCGCGGTGCGGCGGCGTTTTATGGATATGGAATTTAGCCAAATGAGCAGCAAGTACCTGTATGACGCGAGCCAGTTTCGCACGCTCCTGCGCCAACGCAACAAGTACCTGAAACAACTGAAGTATGGTCAGCAGCACGACCGGGTTCTGCTCACGGTTCTGTCAGACCAGTTAGCAGCGTATGGTGCCGAGGTAATCGTTGCTCGGCATCATTTTTTGCAGCACTTGGAGAAGTGGGCGGCCGACCTGCATTATCAGATCTCGCTCAACCAGGAGCATCTTCACCTGGCATACGTAACCCAGGTGAAGGTCGGGGATGAGACGACGGTCGACCAGGCCTACCACGAGCTACTTAAGCTCTATCAGGACAACCAGGGCCGCGAGATCGACCAGGGGACCACGATGTACGGCCCCCAGCGTGATGATATCCGTTTCATGGTCAACGACAAGAACATCCAGGCTTTTGGCTCCCAGGGCCAGCAGCGCACGACCGCCTTGTCGGTCAAGCTGGCGGAGATTGACCTAATGAAGGAGCAGACGGGTGAGTACCCGCTCCTGCTTTTGGATGATGTTTTGTCCGAACTCGATCCGGTCCGGCAGACCCACCTGCTGACGGCAATTCAGGATAAGGTTCAGACTTTTCTGACCACCACTAGCCTGAGCGACGTGGCCCGGCAGCTGATCAAAAAACCGACGATTTTTGAGATTAAACATGGCACTTTGAACAAGGAGGAAGCATAG
>SRR1151252_00322 DNA gyrase subunit B
GTGAGCGACGAGCACAAGGAAACAAAAGCTGAGTTGGCAAGCGAGTACGATGCCAGCCAGATTCAAGTCCTGAAGGGATTAGATGCGGTTCGTAAGCGTCCCGGGATGTACATTGGATCGACGTCTGCACAAGGTTTACACCATCTTGTTTGGGAAATTGTCGATAACGGGATCGACGAGGCCTTGGCGGACTTTTGTACGGAGATCAACGTTGAGGTTGAACCTGACAACAGCATCACGGTCCGCGACAACGGTCGGGGAATCCCGGTTGATACCCAGAAGGAAACCGGTAAGCCCGCCCTGGAGACGGTCTTTACGGTCCTCCACGCCGGTGGTAAGTTCGGCGGTGGCGGGTACAAGGTTTCTGGTGGTCTGCACGGGGTTGGTGCCTCAGTCGTCAACGCCCTGTCCACTGAGCTGGACGTCAAGGTGTCGCGGCAAGGCAAACGCTACTACATGGACTTCGACCACGGCCACGTTAAGACGTCGATGAAGGTCATCGAGACCGGTCTACCTGAGGACGTTCATGGGACCACGGTCCACTTCAAGCCGGACCCGGACATTTTCCGCGAAACGACGACCTATAATATCAAAACTCTGACCGACCGGTTGCGTGAACTGGCCTTCTTGAACAAGGGGCTGAAGATCACGATTGAGGACAAGCGTGACGAAGATTCTGAGCGCCAAGAGTTCCACTATGAGGGTGGGATCCGTCACTATGTTGAGTACCTCAACCGGGGCCGGGAAGTCCTCTTTGACCCACCGATCTACGTTGAGGGGAAGGAAAACAACATCACGGTGGAGGTTTCCCTCCAATACATCAACGGCTACCGCAGCGAGCTGTTGACCTTTACTAACAACATCCATACCTATGAGGGTGGGACCCACGAGACCGGGTTCAAGATGGCTCTGACCCGGGTTATCAACGATTACGGTCACAAGAGTGGGGCACTGAAGAGCAACGAGACCCTATCCGGGGATGATGTCCGGGAAGGGCTGATTGCGGTGGTTTCCATCAAGCACCCCGACCCGCAGTTCGAGGGTCAGACAAAGACCAAGCTGGGGAATTCTGATGCCCGGACGGCAACCGATCATATCTTTGCCGAGACCTTCAACCGCTTCTTAATGGAGCACCCAGACGAGGCCAAGCAGATCATTGAAAAGGGCCAGTTAGCTTCCAAGGCCCGGGTTGCCGCTAAGCGGGCCCGGGAAGTCACCCGGAAGAAGAGCGGTCTTGAGATCTCCAACCTACCCGGGAAGCTCGCCGATAACACCAGCAAAGATCCGAATATCTCCGAACTGTTCATTGTCGAGGGGGACTCCGCCGGTGGTTCCGCCAAGCAGGGACGGTCCCGGCTGACCCAGGCGATCCTGCCAATTCGGGGGAAAATCCTAAACGTTGAGAAGGCTACCCTGGACCGGGTTTTGGCCAACGACGAGATTCGGTCTCTCTTTACGGCCCTGGGAACTGGTTTTGGTGATGATTTTGACATCACTAAGGCCAACTACCATAAGCTGATTATTATGACCGATGCCGACGTCGATGGGGCCCATATCCGGACCCTGCTCTTGACCCTGTTCTACCGGTTCATGAAGCCAATGATCACCCACGGCTACGTCTACATCGCCCAGCCGCCGTTGTACCAGGTTCGTCAGGGTAAGTTCGTCAAGTACATCGAATCCGACGAGGAGCTGGAGCGGGTCGTCAACTCTCTGCAGCCGAGCCCGAAGCCGGTTATCCAGCGGTACAAGGGGCTTGGTGAAATGGATGCCGAACAGCTCTGGGAGACCACGATGGATCCTGAGAACCGGCACCTGCTCCGGGTTCAATTGGATGATGCCAAGCAGGCGGACGAGATCTTCCCGATGCTGATGGGGACTAAGGTCGGCCCACGGCGGGACTTTATCGAGCAAAATGCCAAGTTTGTAGAGAACCTGGACCTGTAA
>SRR1151252_00323 DNA gyrase subunit A
TTGGCTGAAGAAAATATGTCAAACCGGATCACGGACGTTAAGCTGACGAGCCAGATGAAGAACTCATTCTTGGATTATGCCATGAGTGTCATCGTCTCCCGGGCCCTGCCGGATGTACGTGATGGCTTAAAGCCGGTTCAACGGCGGATCCTGTATGGGATGAACGAACTGGGGGTTACCCCAGATAAGCCGTACAAGAAGTCGGCCCGGATTGTCGGGGACGTCATGGGGAAGTTCCACCCCCATGGTGACTCCTCGATCTACGAAGGGCTGGTCCGGATGGCGCAGGACTTTAGTTATCGTTACATGTTGGTTGACGGTCACGGTAACTTCGGATCGGTCGACGGTGATAGCGCCGCCGCCATGCGTTATACCGAGGCCAAGATGAGCAAGATTGCGGTGGAGATGCTGCGCGACATCAATAAGGACACCGTTGACTTCCACCCGAACTACGACGGTACGGAGAAGGAGCCGGACGTCCTACCAGCCCGCTTCCCAAACCTGCTGGTCAACGGGGCCTCGGGGATTGCCGTCGGGATGGCGACGAACATTCCAACCCACAACCTGGGTGAGGCCATCTCCGCCATTCACATGCTGATGGACAACCCGGACGCCAGTACGGAGGACCTGATGAAGGTTCTGCCGGGGCCGGACTTTCCAACCGGTGGGGTTGTCATGGGCAAGTCTGGTATTCGGAAGGCCTATGAGACCGGTCGCGGGACGATCATTGTCCGTGCCAAGGTCGACATCGAGGAGCAGAAGAACGGTAAGCAACGGATCATCGTCCACGAGATCCCGTACATGGTTAACAAGGCCAAGCTGATTGAGCGGATCGCCGAGTTAGCCCGGAATAAGGAGATTGAGGGGATCACCGATATCAACGATGAGACCGACCGTGACGGGATGCGGATCGTGATCGACGTCCGCCGGGATGCCAGCGCCGAGGTTATCCTAAACAACCTCTACAAGATGACCCTGATGCAGACGACCTTCAACTTCAACATGCTGGCGATCGTCAACGGGGCACCGAAGATCCTTAGCCTGAAGCAAATCCTCCAGTACTACCTGGAGCACCAGGAAGACGTCGTCCGGCGGCGGACTAAGTTTGACCTGAAGAAGGCCCAGAACCGGGCCCACATCGTTGCCGGTTTGCGGATCGCCCTCGACCACATCGATGAGATCATCAAGATCATCCGCAATTCCCAGACCAGTGAAATCGCTAAGGGCGAGCTGATGCAGAACTATGGCCTGTCCGATCGCCAGTCCCAAGCCATCCTGGATATGCGGCTGGTTCGGCTGACCGGTCTAGAACGGGAGAAGATCGAATCTGAATATAAGAAGCTGATGGATGCCATTGCTGACTACAAGGACATCCTGGCTCACGATGAGCGGATCCACCAGATCATCTATGATGAACTGTTGGAGATTCAGCGTAAGTTTGGTGACAAGCGGCGGACCGAACTCCAGGTTGGTGACATTACCAATATTGAGGATGAGGACCTGATCGAGGAGGAAGACATCATTGTCACCCTCACCCATAACGGCTACATCAAGTGCCTGCCGGCCGACGAATTCAAGTCCCAGCACCGTGGTGGCCGTGGTGTCAAGGGGATGGGCGTTCACAAGGACGATTTCATCGAACAACTGATTTCAAGCTCAACCCACGACCTCCTGCTCTTCTTCACGAACTCCGGAAAGGTCTTCTCCATGAAGGGCTACGAGGTTCCAGAATACGGGCGGGCCGCCCAGGGGATCCCGATCATCAACCTGCTGGGGATCAATAACAAGGAGAAGATCAGCGCCGTCATCAACGTTTCCCACGCGGCCAACGATGATGATAAGTTCCTCTTCTTCACGACTAAGCAGGGGACGGTCAAACGGACGCCGGTTCCGGAATTTAAGAATATCCGTAGTAACGGTCTGAAGGCCATCAACCTCCATGACGGTGACGAGTTGATCAATGTTAATGTCATTGCTGATGGTCAGCCAATGATCATTGGGACCCACAACGGCTATGCCCTGAGTTTTAACTCCGACGTGGTTCGGTCGATGGGGCGGTCGGCTGCCGGGGTCCGCGGAATTCGTCTCCGCAATGCTGACTACGTGATTGGTGCTGCCCCATTAAAGAAGGACGGCAATGTCCTGGTTATCAGCGAGAACGGCTTCGGTAAGCAGACGCCAGCTGCTGAGTACCCGATCAAGGGCCGGGGTGGCCTCGGAGTCAAGACAGTCAACGTGACGGCCAAGAATGGTCCGCTAGTTGGCCTAACCACGGTCGATGGTGACGAAGACATCATGCTGGTCACCGACCACGGGGTCATCATTCGTTTTGGCATTGAGACTGTCTCCCAGACCGGTCGTTCCGCCGTTGGTGTCCACTTGATCAAGATGGATAAGGGCACCAAGGTAGCGACGATGGCTAAGGTTGAAAAGGAGTCCGATGAGGATGAGGAGCCTGACCAGGACCAAAAGGAAACGGACCAGGCACCTGCTAAGACGGAAGATCACCAATAA
>SRR1151252_00324 30S ribosomal protein S6
ATGGAAACACGTAAATATGAAATTACTTACATCATTCGTCCTGATATCGAAGAATCAGCTAAGAGCGAACTGGTTGACCGGTTCGACAAGGTTTTGACGGACAATGGTGCAAACATCGCTGAATCAAAGGATTGGTCAACGCGTCGCTTTGCTTACCCAATCGAAAAGTACACTGAAGGTACTTACCACGTGGTTACTCTGACCACTGACACTGACGAAGCATTAAACGAATTTGACCGTTTAGCTAAGTTCAACGACGATATCCTACGTCACATGATCGTTAAGCTTGATGCTTAA
>SRR1151252_00325 single-stranded DNA-binding protein
ATGATTAATCGTGCAGTTTTGACTGGACGCTTAACGCGAGATCCTGAGTTGCGATACACTACCAGCGGTACTGCGGTAGTTTCATTTACGCTCGCAGTTGATCGGCAATTCCGGAACCAAAATGGTGATCGGGATGCGGACTTTATCAACTGTGTCATCTGGCGTAAATCCGCTGAAAACTTCAGCAACTTCACCCACAAGGGCTCCTTGGTGGGACTCGATGGCCGGATCCAAACCCGGAACTACGAGAACCAACAGGGGCAACGGGTGTACGTTACTGAAGTCGTGGTTGATAACTTTGCCCTGCTCGAACCCCGGCAAAATGGCGGGATGAACCAGGGCGGCCAGCAACCGTTTGGTAACCAGGCCCCATTTGGTGGTCAGCAGGGCCAATACGGTAACAACAATCAGCCGCAATCGACTAACAACGCTCCTCAAGCTAATTCGTCAACTGATGCCGGAGCTCAAAGCTTTGGTGCCAGCCAGAATAGCTCAGCCAACCCATTCTCCAGTAGTAACGATAATGGGGACCAATCGACTGAGATCTCTGATGACGATTTACCATTCTAA
>SRR1151252_00326 30S ribosomal protein S18
ATGGCACAACAACGTCGGGGCGGCCGTCGTCGTCGTAAAGTCGACTTCATCGCCGCAAACCACATCGAATACATCGATTACAAAGATACTGATTTATTACGTCGGTTTATCTCCGAACGTGGTAAGATCTTACCACGTCGGGTCACTGGGACCAGTGCTAAGAACCAACGTAAGTTAACGGTCGCTATCAAGCGTGCCCGGATCATGGGTCTTCTGCCATTCGTTGCTGAAGACTAA
>SRR1151252_00327 amidohydrolase
ATGCGTAAAATCGAAGGACACATCCACCTTGTACGGGAAACGGCCGGATCCAAGGGCCAGGGCCGGCTTAGTCCGCTCGGCAACGGTTACGCCATCTGGGATGACGGCGAGATCATCAAGCTGATTCCAGATGGTTGGGGCGACGATAACTTTCTGGCCGAGAAGTACCTGCCGATCATGGACAAGGAGGGAATTGACAAGGCGGTCATCCTTCAGGGAACCCTGAACGGCTACCAAAACTACTACACTTATCAGGTAGTTAAACGTTATCCAGACCGGTTCATCGGGGCCTTTGCGGTTGATCCCTTTGCCGACCGGTCAATGGTGATTGTCCACCGCTACGTCGAGGACCTGGGCTTTCGGGCTATCAAGTTTGAGATCAGTCAGGGCGGGGGTCTACACGGTTTCCACCGGTCCTTCCGCCTCGACATCGACAACCGGGTTTCCCAGATCTTCCACTACTTGGCTGGCTACCCGGGCTTCGTGGTGACGGTTGACTACGGGGCTAGCGACCAGACCAGCTACCAGCCGGAAGCAATCGTCAACCTGGCCCGGCGCTACTCACAATTAGACTTTGTCGTCTGTCACCTCTCCTTTCCTGATGCGGACCATCCCGACCAGCTGGTCAATGCGCTCGACCAGTTTGCCCCACTGACTAACATTAGCGTTGATATCTCGGCAATCCAGGACATCTTGGGCGAGGGGCGTGATGACTTTCCATACCCACGGAGTCAGTGGGCGGTCAGGCTTGCCAAGAAAAAGCTGGGTCCCCAGCGCATCATCTGGGGCAGTGACGCCCCGTGGTCGGCAACCTTCAACAGCTACCACCAGCTGGCAACCTGGTTGGAGCATACCGATATCTTCACCCCGGCTGAGCTGGCTGACGTGATGGCCAATAATGCCGCGCGGGTTTATTTCAAGCCCGCTAACGTGGTCGCAGCCCGGCAGGCGCACGACCCAGTCACTAAGGATTTCACGACCCGGCATTAA
>SRR1151252_00328 DHH family phosphoesterase
ATGCGTGAATTTTTCAGTCGTGAAAACTGGCTGTTTTATCTGAAACACCCAGCGGTCCGCTGGAATGTCTATTATCTACTGTGCATGACCGTGATCAGCCTGGTCCTGGCCTTCATGTTCAACTGGATGATCGGCCTGGCGGTGGTGGTGCTGGCGGTCATCGGGAGTACGATCAGCCTGCGCCGGCTTCGACAGCTGGTTAATGATACCCACGAGTACCTAAACCACCTGACCTACCAGATCCAGCATGGCCAACAGGAGGCACTATTGGCCATGCCGGTGGGGATGATTATGCTTAATGATCGCAACGAGGTCGAGTGGATCAACCCCTACATGGCACGCTACTTTAAGCTTGAGAAGGTAGTTGGCAAACCGGTGGCCAGTGTTGACGACCAGTTGGCCAAGCTGATTGAAGACGGGCGCGATCACCAGGAACCACGGATTGTCACCTGGCGCGACCACCAGTTTGAGTTTCTGGTTCAGCCCCGTTACCGGGTGGCGTACCTGCTGGATATCAGCAAGTACGCGGCGGTAGAACGGCGCTACCGGCAGGAACAAATCTTTCTGGGCAATATCTACCTGGATAACTATGACGAGCTGATTCAGGGGATGAGTGATACGGACGTCTCTAACCTGCACAACTACGTTACCTCGGAGATCAGTAAGTGGGCCAGTGACAACCACCTCTTGATGAAGATCATCGATGATGATAACTACTTAATCATCGGGCACCAGAGCTCACTTGAAGAATTGGAGAAGAAGAAGTTCAAGATCCTGGATGTCATTCGTCAGAGCACGTCCCAGCGCAACTCACCGGTCACCCTCAGCGTGGGGATTGCCTATGCCGAGAACGACCTGATCAAGCTGGCCGACACGGCGCAGAACAACTTGGACCTGGCACTTGGTCGTGGGGGCGACCAGGTCGTCGTCCGGTCCAAGGACCAGCCAGCTCGTTTCTACGGGGGCAAGACTAACCCGATGGAGAAGCGGACCCGGGTCCGGGCGCGGATGATCAGCCAGGCTCTTCAGGAACTGATCAACCAGGCGGACCAGCTCTTCGTCATGGGGCACCACAACCCGGACATGGACTCGCTGGGGGCCTGTCTGGGAATTCGTCGGATCGCTGAGATGAACGGCAAGAAATGCTGGATCGTGGTGGACGACGAACACCCCCACGCCGACATTCAGCGTCTGATGAACGAGATCAATAACTACCAGACGATCAAGGATCATATCATCACGCCGGACGAGGCCCTAGAGAAGGTCACAGACAATAGCCTGTTGGTGATGGTGGACCACGCCAAGCGCAGCATCACCATCTCGCCCGAGTTGTATGATAAGCTGCAGAATCGGTTGGTGATCATCGACCACCACCGGCGCGGCGAGGAGTTCCCTGAGAATCCACTGCTGGTCTACATCGAACCGTATGCCTCCTCGACCTGTGAGCTGATTACCGAGATGTTCGAGTACCAGCCGCGGGAAGGCAAGGGGCTAAACAAGCTCGAGGCTACAACGATGTTGACCGGGATCCAGATTGACACAAAGTCCTTCACCAAGAGTGCCGGAACACGGACCTTTGATGCTGCCTCCTACCTGCGTTCAGCCGGGGCGGACGGGATGATGATCCAGTCCTTCATGAAGGAGGACCCACAGAGCTTCATGGATCGCAACCACTTAATTTCCCGGGCAATAATCAATGACCAGATTGCCATCTGTGCCGGTGAGGATGACCGGGTCTATGACTCCGTTACGGCGGCCCAGGCGGCTGACATGCTCCTCCAAGTCGAGGGAGTCGAGGCCTCGTTTGTCATCACCCGGCGCGCAGACGGCAAGGTCGGGGTTTCCGCCCGGTCTGCAGGCGACGTCAACGTCCAGATCATCATGGAGCAGATGGGTGGCGGGGGTCACCTGGCCAACGCGGCCACCCAGGTTGCCGATAAGACGGTCGATGCGGTAAAGAATGAATTGATTGATCTTCTGGCGAAGACGGATGATAATAGTAGTCAGGAAGATGAAGAGGAGTGA
>SRR1151252_00329 50S ribosomal protein L9
ATGAAAGTTATTTTTACGCAAGATGTTCGTGGTCGGGGTAAGCGCGGCCAGGTCAAGGAAGTTCCCGATGGTTACGCCCAGAACTACCTGATCAAGCGCGGCCTGGCCAAGCAGGCTACCAAGGCGGCAATGAGCCAGCTGGCCGGCCAACAACGGGCCGAGGCCAAGCACGCCGCTGAGGAATTAGAAGAAGCTAAGCAACTCAAGAAGGTGCTGGAGGACGACAAGACGGTCGTTGAGCTGAGCGGGAAGGCCGGTACGGACGGTCGGATGTTTGGTTCCATTTCCACTAAGCAGATTGCCACGGCCCTGCAGAAGCAGTACAAGGTCAAGATTGATAAGCGCAAGATCGAACTGGCAGCGCCAATTAGGGCCCTGGGCTACGTCAACGTGCCGATTAAGCTCCACCCCGAAGTCAGTGCCGAGATTCGGGTGCACATTGCGGAAAAGTAG
>SRR1151252_00330 replicative DNA helicase
ATGGATAATGCACCAATGCAAGAAGAGCCACACGATATTGAAGCTGAAAAGGCAGTTCTCGGAGCTGCTTTTTTAAGTAAAAACGCGTTGGCTGATGCAATGGAATACCTGCAGCCCGGGGATTTTTATAAGCGGGCCCACCAGATCATCTTCGAAAAGATGGTGGCGTTAAACGATGACGACCAGCCGATCGACGTGGTGACGATCAAGAGTGCCCTGGACAAGGACAATCAGACCGAGAACGTCGGTGGGATGGTCTACCTGGCCGAATTGGCCTCATCGGTCCCGTCAGCGGCCAACGTGGCCTTCTATGCCAAGATTGTCCATGACAAGGCCGTACGGCGGAACCTAATCAACACCGCCACCAAGATCATCAACGAGGGGTACGCGGACGACAACGACACCACCGACCTGCTCGATCAGGCGGAACAGTCAATTCTTCACGTCTCCGAATCCAACAGCCAGGACGGCTTTCAGAACATCCAGCAGGTCCTAAATAGCGCGATGAACCACATCGAGACCCTGTCGGGCAACGACTCGGAGATCACCGGACTGGAGACGGGCTACCCCCAGCTGGACCGGATGACGACCGGCTTCCACCCCGATGAGCTGGTAATCATCGCGGCGCGGCCAGCCGTTGGGAAGACCGCCTTTGCCCTCAACATCGCTCAGAATGTGGCCACCAAGACCGACAAGACGGTGGCGATCTTCAGCCTCGAAATGGGGGCCGAATCGCTGGTCAACCGGATGCTGTGTGCCGAGGGGAATATTGACGCTAACCACCTGCGGACCGGGAACCTGACCAGCGACGAATGGGAGAGCCTGTTCTTTGCTGCTGGGACGTTGTCGAATGCCCACCTCTACATCGATGACACCGCCGGGATCAAGGTGGCCGAGATCCGGGCCCGCTGCCGGCGTCTGAAGAAGGAGACCGGTAACCTGGGGCTGATCGTAATCGACTACCTGCAACTGATCGAAGGGAATAACCCCGATAACCGGCAACAGGAAGTCTCCGAAATCTCCCGGCAGCTCAAGAAGCTGGCTAAGGAGCTTGAGGTCCCGGTGATCGCCCTGTCTCAGCTCTCTCGTGGGGTTGAACAGCGACAGGACAAGCGGCCGGTGCTGTCTGACATCCGTGAGTCTGGATCAATCGAACAGGATGCGGATATCGTCAGCTTCCTCTATCGTGACGACTACTACGAGCACGATGGTGGGGATGACGACCAGCAGGATGGTGGCCAGGACAACGGTGACGACTCCAACGTTAGTGAAGTTGAAGTCATTATTGAGAAGAACCGGAGTGGTCCGCGGGGGACGGTCAAGCTGCTGTTTGCCAAGTCATACAACAAGTTTGCCTCCGTGGCCTACGTACCGGGGGAACAGAATTAA
>SRR1151252_00331 major facilitator superfamily transporter
ATGAACCGTCAAACACAGGGAATTGAGTTGAAATGGCTGTTGCTGGGGATGTTCTTCGGGAGTATCGGCAACAGTTTTGTCTGGCCGTTGACCACGATCTACATGCATGAACAACTGCACGAGTCATTAACCGTATCAGGGATTGTGCTGCTCTTCTATTCCGGGGCCAATGTGGTCGGCAGCTATATTAGCGGCATGCTCTTTGATAAACGGAATCCGCGCCACCTGATGCTGGGCGGGACAATTGCCGCGACAGTCGTTATTGCGACCATGATCTTCTTCAACGGTTGGCCGATCTACGCGATCCTACTGACGGCGATCGGCTTTTTTAACGGTTGGATCATCACGATGGTCAACTCGTTCGGAACCCGGCTGCATAAGGATGGCCGTTACGTCTTCAACATGCTCTACTTTGCCAACAACCTGGGGATGGTGATCGGGACCACGATTGTCGGCCCGCTCTACCAGCACGCCCACGGCAATATTGCCCCGCTCTTCACGATCACGACTATCCTCTACATCCTCTTCTCGATCGTCGTCTTCGTCTACTTTAAGGAGGACCCGCATCCGGAGCCGGTGGACGAGGCCCGCTTCAAGGACGATTCACCGGTAACAACGACCAGTCTGCCCCGTGCCAACCTGTGGATCAACTGGATCTTTTTTGTGGCCCTCTGCGTGGTCTGGACAATGTACGAGCAGTGGTCCAGTAACCTGTCCGTCTTCATGACCGACCAGGGGATCTCGATGACCAAGTACAGCCTGCTCTGGACACTCAACGGGGTCCTGATCGTGGTCATGCAGTTATTGCTGACCTGGCTAAACCGCTGGTACAATAACCCCTACGCCCAGGTCTTCGTCGGCATCTTTACCGTCGGCTTGTCCTTTGTCCTCCTCCTGTTTGCCAAGAGCTACATCTGGTACATCATCGCCATGGTGATCCTGACGATCGGGGAGGCGACGGCCTTTCCGACAATGCCGGCAATCGTCAACAGCCTCTCCCCAGTCGAGGTCAAGGGGAAGTACCAGGGGATCCTCAACGCCTTCTCGTCGCTGGGGAAGGCGTTTGGTCCCCTATTTGGGGGGCTGATCATCGGGGCGGCCTCCTACCACATCCTCTTTGTGATCTGTGCGGCCTCGATATTTGTGATGGAAATCATTGTCTGGGCGGTTGTCCAGCTGAATAAGTCCCAGACGGTTAAGTACTAA
>SRR1151252_00332 hypothetical protein
GTGTTCTACAACAACTTTGATAATGTTCAAGGCGAGGATCGTTACGGGATGGTCGGTAAAACTGGCGACGGTTTTCGTGAGAATCGTCGGCTGTTGGTACCGTGCTATCGCTGCCAGCAGGAGCCGCTGGTGATTGCCGAGCGCAACTGGATGGACACCAACCAGGATGACTCCCAGCGCTACCAGATCGTGGTGGTCTGCGAGCACTGCGGGGCGGTCGACGAGTTTGTTGTCAACAACGGCCGCGAGGGCAAGATCGGTAAGCTGAAGCATGGCAAGCACCCGGTCAGCCCCGAACAATTACAACAACAATAA
>SRR1151252_00333 alcohol dehydrogenase
ATGAAGATTAAAGCAGCGGTTGTTGACAAGAAGGGTGCCAAGTTTGACATCCGGGATGACGTCGAGCTCGCCGACATGCAGGCTGATGATCTCTTGATCCACATGGTGGCCTCCGGAATCTGCCACTCCGACGAGGCCCTACGAAAGGGTGACGCCGAAATTGGCTACCCGATCATTCTGGGTCATGAGGGTGCCGGGATCGTTGAGAAGGTCGGCCCCGAGGTCAAGAACTTCAAGCCGGGAGATCACGTCATTCTCTCTTTCTACGGTTGTGGTAACTGTATCAACTGCCTGAAGGGTAAGCCAACCAAGTGTCTAAACTACGCAGCCAATAACCTGTCTGGGGTTCGACCAGACGGTAGTGCCCACTTCACCGAGGATGGTCACCAGGTTGATGACATGTTTGACCAATCATCCTTCACCACGACCACGGTGGTTCGGGAGCGGAACGCCGTCAAGGTGCCAAAAGACCTCGACCTGCGAAAGTTAGGACCACTGGGCTGTGGTTACGTTACTGGCTCCGGAACGGTCTTCAATACGCTGAAGCCAGAACCAGGATCCACGATTGCGGTCGCCGGTACCGGGGCGGTTGGTCTGGCAGCCATGATGGCCGGCAAGATCTCCGGTTGCACTAAGGTCATCGCAATTGATCGGGTTCCGGAGCGGCTGGCATTAGCCAAAGAACTGGGTGCTACCGACACGATCAATACCAACGACGTCGACATGGTCAAGGCTGTCCAGGACCTGACCGGTGGTAAGGGTGTTGACTACCTGGTTGACACGACCGGGGTCACCAAGGTGCTGGAAGACTCTATCCAAGCCTTGGCCCAGGGGGGTGTTCTGGCTGCCATCGCGGTGACGGTCAACCACATCGACGTCAACACCTGGACGGACCTCTGCCCAGCCGACCGGACAATTGTCGGAGTCAACATGGGGGACTCCATCCCGCAGGTTGACATTCCACGCCTGATCGAATTCTACAAGCAGGGGATGTTTGACTTTGACAAGACTGAGAAGTTTTATGACTTCGCTGATATCAACCAGGCTAACGCCGATTCCGTTTCCGGAAAGACGATCAAGCCGGTGCTGATTATCGATAAGGACTACCAGCCGGGTGAATAA
>SRR1151252_00334 phosphate--nucleotide phosphotransferase
ATGGATACGAAACAGTACCGCTACACTAAGGATAACTTTAATATCAAGAAGGCCCCAACCTGGGTGGCTGACTCTGCCGATGAGCTTGACCAGATCAAGGCAACGATCGATAAGAATGTCAAGCGGATTAAGGACGCCCAGAAGAAGATGTACGCCCGCCACCGCTACGGCGTCATCGTCGCCTTCCAGGCAATGGATGCGGCCGGCAAGGACAGCATGATCTCGCACATCTTCTCCGGGGTCAACCCGGTCGGCTTCAAGGTGGCCAACTTCAAGCAGCCAACCTCCGCAGAGCTGCAGCACGATTACCTCTGGCGGATCAATGAGGCCCTACCGAAGCGCGGCTCGATCGGTATCTTCAACCGTTCCTATTACGAGGACGTCCTGGTCTCCCGGGTCCATCCTGAGATCATCCTCAAGGCTAACCTGCCCGGGGTCACCACCCTGCTGGACGTCAACAAGGACTTCTTCGACGGGCGCTACGAGGACATCCGCGAATACGAGAAGTACCTGTCCCGCAACGGCTACGTGATCCTGAAATTCTTCCTCCACGTCTCCAAGGATGAGCAGAAGAAGCGGTTCCTGTCCCGGATCGAGACGCCGCGAAAGAATTGGAAGTTCTCGGCGGCCGATATTCACGAGCGGCAGTTCTGGGATAAGTACCAGTCGGCCTACGACAAGGCGATCAATGCCACGGCCACCAAGGAAAATCCCTGGTACGTTATTCCGGCCGATGACAAGTGGTATTCTCGCCTGATCGTCTCGGACATCATCACCAAGCGGATTGAGAAGCTCCCGCTGGCCTATCCAGAGATGACACCAGACCAGGAGGGAGAGCTCGCCCGGGCCCACCAGATCCTGCTGAATGAGGGTAAGGATTAG
>SRR1151252_00335 phosphate uptake regulator
ATGGGTGCTATTTTTAACGATGAACTGAAACGCCTCCGTGGTCACTTCATGGAGATGGGGATCGACGCCAGCGAACAGATCTACCAGGCAACCAAGGCCTTCACGGAAAATGATCCGCAGCTGGCCAAACAGGTTCTGGCAGCGGATACCAGAATCAATGACGAGGAGGTCAAACTGGAGAAGGAGGCCTTAAAGCTGATGGCCCTCCAGCAGCCGGTAGCTAGTGACTTCCGTAAAATCATCGGGATCCTTAAGGCCAGCAGTGATATTGAGCGGCTGGGCGACTATGCCACACACATCGCCCGAGCCGCAATTGACCTGAGTGACCGGGGACACAACCCGACCATCGAGGAGCAGATCGAACAGATGATGATGATGATCCGGGAGATGCTGGAGCGGGTCCTCGACGCCTACGCATACACCAACGAGCAGCTGGCCTACGAGGTCGCCAACAAAGATATTCAGGTCGACATGATCTATGTCCAGCAGCAACAGGCGATCATGACCGCTCTGACTACAGCCGGGGCCAACGTCAAGCCATACGGCGACTACCTGTCGGTGATCCGCTTCCTCGAACGGGCGGGCGATCATATCGTCAACCTGGCCGAATGGGTCATCTATATTGGATCGGGTAAGCTGGTGGAGCTCAACCCCGGCAAGGCCGACCCGGACATGGTCAAACGCAAATTAAGTAAAAAGTAA
>SRR1151252_00336 phosphate ABC transporter ATP-binding protein
ATGCCAACTGATTCAATCTTAGAACTAAAGGATCTTCAGGTCTTTTACGGTGACAAGCACGTTATCCATGACGTCAACCTCAAGTTCCCACCCAAGCAGATCACGGCCCTAATCGGCGCCTCTGGTTCGGGTAAGTCCACCGTCCTGCGGAGTCTCAACCGGATGAACGATGACCTCGCCACGGTCACCGGAGCCATCAATTTCCACGGGGTCAACATCAACCAGCCCCAGGTCAACGTCTACCGGGTCCGGCAGCGAATCGGGATGGTCTTCCAGCAACCGACCCCCTTCCCAATGTCAATCTACGAAAACGTGATCTACGGCCTCCGTCTGGCTGGAGTCAAGGACCGGGCCGTGTTAGACCAGCGGGTCGAGGAGAGCCTGCGTCAGGCCGCCCTCTGGGATGAGGTCAAGGACCAATTGAAGGCCAGTGCCCTCGCCCTCTCCGGTGGTCAGCAGCAGCGCCTGTGCATCGCCCGAACCCTGGCGGTGCGCCCGGAGATCATTCTCATGGACGAACCGACCAGCGCCCTAGACCCGGTTTCGACTTCGCAAATCGAGGATACCCTTGTACAATTAAAGGAGCAGTTTACGATCATCATGGTGACCCACAACATGCAGCAAGCGTCGCGGTCAGCCAACTGGACAGCCTTCATGCACCAGGGGCACCTGATTGAATTCGACCAGACGGCTAAGATTTTCATGAACCCGCACGAGCAACAGACAGCCGATTACCTGAGCGGCAAGTTTGGTTAG
>SRR1151252_00337 phosphate ABC transporter permease protein
ATGTCTCCAGAACGCATTGATAAGGTCGCCAGCACCATCATCCTGGGAGTAGCCGGACTCATCGGACTCGTCGTCTTGAGCCTCCTCATCTACATCCTAGCGCTAGGTATCCCCCACATCTCCTGGCACTTTCTAACCAGCGAGGCCGAATCTTTTGCGGCCGGTGGGGGGATCCGCGACCAGCTGTTTAACTCCCTCTACCTAGTTGTTTTGACCCTGATCGTCTCCGTACCGCTGGCGCTTTGGGCGGCCATTTACTTGAATGAGTACGCTCCCGACAACCAGGCCACCCGCTTGCTGCGCCTGGCAATCGAGGTCTTGAGTTCCCTGCCCTCCGTGGTCGTGGGGCTGTTCGGCTACCTCGTCTTCGTCCTCAAATTCGGCATGGACTTCTCCCTGCTCGCCGGGGCCCTGGCCCTGACCATTCTGAACCTGCCGATCCTGACCCGTAGCTGCGAGGATGCCCTCCGCCAGGTCCCCTACCTCCAGCGCCAGGCGGGACTAGGTCTGGGGATGTCGAAATGGCGGGTGACGACCAAGATTGTCCTGCCGGCGGCCCTCCCGGGAATCATCACCGGAGCTATCCTCAGTGCTGGCCGAATCTTCGGCGAGGCGGCGACCCTGATCTACACCGCCGGGCAGAGTGCTCCCTTGATCAGCTACACCGACTGGAACCCGTTTAGCCCGACCAGCTTCCTTAACCCCATGCGGCCCGCCGAAACACTGGCGGTTCACATCTGGAAGGTCAACAGTGAAGGCCTCGTCCCTGATGCCCGAGCGGTTTCCAATGGCTCCGCAGCCGTTTTGATCATCACCATCCTACTGTTCAACCTGGTCGCCCGCTACGTTGGGCACCGCATCAAACGACACCTAGCAAAGTGA
>SRR1151252_00338 phosphate ABC transporter permease protein
ATGATCGTGACCTCCTTTGGCGTGACCCTTCTTGCGGGTGCGGTGTCGCTTCCCCTGGCACTAGTGGTCGCCGTCGCAATTACGGAGATCCTGCCTGGCAAGGTCAAACTCGTCTTCCAGCCCCTGATTGAGCTGCTGGTCGGCATCCCCTCCGTGGTATATGGATACCTGGGGCTGACCACCATCGTCCCCGCCCTACAACGGCTCTTCGGTGGGACTGGATTCGGGATCCTCGCCGCCACCGGGGTCCTCTTCCTGATGATTCTGCCAACCATGACTTCGATGACCATCGACAGTCTGCGGGCCGTCCCCCAGAAATACCGGGAAGCCTCAGCTGGTTTGGGGGCAACCCGCTGGCAGACCATTTCTCGGGTGGTCATTCCGAGTGCCAGGAGTGGGATCCTGACGGCGACGGTCTTCGGCATGGCCCGGGCATTCGGGGAGGCGCTGGCCGTTCAGATGGTGATCGGTAACACCACCGTGATGCCTACGGGATTGGTCGAATCTGCGACCACCCTGACCAGCGTCTTGACCACCGGAATCGGCAATACCGTTATGGGCACAGCAGAAAATAACGCTCTCTGGTCTCTGGCCCTGATCCTTCTGCTAATGTCCTTGGTCTTCAACCTCCTGATCCACCTGGCAAGTAAGAAAGGAGCGCGCTGA
>SRR1151252_00339 phosphate ABC transporter permease protein
ATGAATGACTTTCAACAACAACTGACCCAGTCGTCCCCGGAGAGTCGGCAGGAATGGACCGGTAAGTTCACCAGCCGTCTCGCGATCGTCCTTATCGGGGGCCTGGTTGGCACAATCCTGATTTTCCTGACGGTCAAGGGGGTGGCCCTGTTTACCGACAATGGGTCTCAGTCTGGAGATTTCTTTCCCAGACCGACTGGCAGCCCGGCCATCATCACTTCGGGGCTCTCCCGATGA
>SRR1151252_00340 phosphate ABC transporter substrate-binding protein
ATGAAGAGAATTATCACCCTTGTGGCCTTAATATTGGTCATCGGTAGCCTGGGGATCGGTTGGGCCACTGCCAGGAAGCAGCCGCCGCTGGCCAAAGTGACGGTGGTTGGCTCTACCGCCCTCCAGCCGCTGACCGAGGCTGTCAGCAAGGAATACCGCACCGACCATCCCCAGGTAAGCATCACCGTTCAGGGCGGCGGTTCCGGCACTGGATTGAGTCAGGTCCAGGCCGATGCCGTTAACATTGGGGCCTCGGACATCTTCGCCGAGCAAAAGGATGGGATTGATCCCCACCGGCTCCGCGATCACGTCGTCGCGGTTTCTGGGATCGTCTCCATCGTCAACCGCGACCTGGGGATCAGGAACCTCTCCCTGGCCCAGCTCCGGCAAATCTACACTGGTGAGATCACCAACTGGCAACAGGTTGGGGGCCCAGATCGTCCGATTACGGTGATCAACCGGGCGGCCGGCAGCGGTACCCGGGTGGCGTTTGAGCAGGTCGTCTTAAAGAACCGGCCACCACTCAACGCTCAAGAACAGGATTCCAACGGGACAGTCAAAACAATCGTGGCTAACACCCCGGGCGCCATCTCATACATATCTGCCGCCTACCTCAATAAGCAGGTCCAGCCGTTGACAATCGATAAAGTGACACCCACCACCAACAACATCACGACTAACCGCTGGCCCCTGTGGTCCTACGAGCACATGTACACCCGGCAGAAGCCAAGTCGGGCAACCCGAATTCATCGCCTTCATGCAGAGTAA
>SRR1151252_00341 two-component system response regulator
ATGACGAACCATTTCTTGCTAATGGGTCAGGATCCCGATCTGATTCACCAGCTCGACCAGCTTGGCAAGCAGGCCCACTGGTCATTTGATCAGGTCACCACCCCGACCGGCCTGGTGGTGGCCTTAGAGAACCACCAGCCTACCGGGATCTGGTGGGAACTTTCCGCGACCGACCTGGATACCACGATTGCGACGATGACCCTGGTCCGCCACCAGGTCCACGGACCGATCACCGTCTTTACTCCCAAACTGACGGAGCGGATCCAGCGAAAACTCTACCGGGCCCGGGTTGATGACATCGTCGCCTTTCCATTAACTGCGGCGGTCCTACGTGCCCAGCTCGAACAGCGCCAGTGGCTCTACCAGCACGCCCAATTTAAGGCCGCGGTCACGCCAAGCAAGCAGCCCTCACGGCAACTGATTACCATTGGTCGGTGGCGGCTGGACCGGCAAAACTATACCGTGACTAAGGACGGCGCCCGTGTCGACCTGCCCCCTAAGGAGTTCCAGCTCCTTTCCTACCTAATTGACCACCACGATCAGGTTCTCAGTCGTGATCAGCTGGTCGCTGGGGTCTGGGGGTACGATATGCTGAACACCTCGCGGATCGTCGACATCCACATCAGTCACCTTCGCGACAAACTGGAGGATGATCCCCATCACCCGGCCCACCTGCTAACGGTCCGAGGATTTGGGTATAAAATCGTGAAGTAA
>SRR1151252_00344 two-component system response regulator
ATGGCAAAGAAGATACTAGTCGTTGACGACGAGAAACCAATTTCAGATATCATCAAATTCAATCTTGAAAAGGAAGGCTACGAGGTCGTGACCGCCTACGATGGTGAGGAGGCCCTGGAGAAGGTCGAAAGCGAAAGCCCCGACCTGATCATCCTGGACTTGATGCTGCCGAAGATCGACGGTCTGGAAGTGGCTAAGCGGGTTCGGGCCAAGCATACGATGCCGATCATCATGGTGACGGCCAAGGACTCCGAGCTCGACAAGGTCTTAGGACTCGAATTGGGGGCGGATGATTACGTCACCAAGCCGTTCTCCAACCGGGAACTGGTCGCCCGGGTCAAGGCCAACCTGCGGCGGCAGGCAACCCTGAAGGCCCCAGCTGAGGAGGGGAAGAACACCGATATCAAGGTCGGTGATCTGACGATCCACCCCGAGGCCTACACGGTTACCAAGCGGGAGGAGAACATCAACCTGACCCACCGGGAGTTTGAACTGCTCCACTACCTAGCCCAGCACATCGGTCAGGTCATCAACCGGGAGCACCTCCTGCAGACCGTCTGGGGCTATGACTACTTTGGCGATGTTCGGACTGTTGACGTGACGGTCCGGCGTCTCCGGGAAAAGATCGAAGACAACCCGAGCCACCCGCAATGGCTGATCACGCGGCGTGGGGTCGGTTACTATTTAGCAAATCCTGATCAGAATTAG
>SRR1151252_00345 two-component system sensor histidine kinase
GTGAACAGCAAGTTAAAATTTTACCAGTCGATTCGTTTTAAAATCGCCCTCGTATTTGCGTTGATGCTGATGCTGACGTTAGAATGCGTCGGGGCGGTTTTTGTGCGTCAATTGGAGCATCAAAACCTGAACACCTTCAAGCAGTCGATTGAATTGCCGTCCTACGTTGACAACTCCCTGAGCGAGCAACTGGCCCGGTCCAACACCAGGAAGGCCAACCATCAGATCCGGCAGATCCTGTCCGAGGTCAATAACAATAACATCTCAGAGATCCGGGTGATTGACAACAAGGGAATCATCCGGGGGACCAGCGATTCCGACAACCGGGGCACGGTCGGCCAGAAGACCACCGACCAGATTGTCAAGGCGACCCTGCTGAACAACCGATCGCACTCGGAGAACGTCTATGATAACGGAAACCACAACCGCTACTACGTCAATGTGATTCCCGTGGTCGATAACAGTAACAACAACGTCATCGGGGCGGTTTACCTGCGGGCCAGCCTGGAGTCGGTCTACGCCAGCATCAATAGTATTACCCTGATCTACCTCTCGGCGGCCCTAGTCACCATCGCAATCGGCCTCTTCCTGGCAATCCTTATTTCCCAGGAAATAACCCGGCCGATCGAGGAGATGCGAAAGCAGACGTTGCGGATTGCCCGGGGAGACTTCTCCGGTCAGGTCCGGGTGATGGGAAACGACGAACTCGGTCAGCTGGCCGGGGCCGTCAACAACCTCTCCGTACGGGTGGAGGAGGCCCAGGCGTCGACGGATTCTGAGCGGCGTCGACTGGACAGCGTCCTCTCTCACATGTCTGACGGGGTGCTGGCGACTGACCGTCGTGGTAACGTGACGATCGTCAACAACATGGCCCTCCAGCTGCTGGGTGTTGATCATGAGGATGACCTGATTGGTAAATCGATCATTGACGTCCTCGATATCCGCCATGACTACACGGTCCGGCAGTTGGTCAATGCCGACCAGCGTGAGATGATCATTGATATGTCCAACGATGGTAATAACCTGATCCTAAACGCCTACTTCTCACCGATTCAGCGGGAATCCGGCTTCGTCAGTGGGCTTGTCTGTGTCTTGCATGACGTGACGAGTCAACAGAAGGAGGAGCGGGAGCGGAAGCAGTTCGTCTCCAACGTCTCCCATGAGCTCCGGACGCCGCTGACCAGTGTTCATAGCTACGTTGAGGCCTTAAGCGACGGGGCCTGGCAGGATAAAGAGGTGGCGCCGAAGTTTCTAAACGTCATTCAGGGCGAGACGGACCGGATGATCAGGATGATCAACGACTTACTGAGCCTGTCACGGATGGACGCCGGAACGACCAAGCTCAACCCGGAGTACGTCAATATCAAGGAACTGCTCAACTACATCCTGAACCGGTTCGACATGATCATTAAGAACGAGGAATCTGATTCTAGTAAGAAGAAGTATAAGATCGAGCGCCACTTCACCAAAAAGGACCTCTGGGTGGAGATTGATACCGACAAGTTCACCCAGGTGATCGATAACATCATGAATAACGCGATCAAGTATTCGCCGGATGGGGGGATCATCACGGTTCGCCTGCTGGAGACCCACAACCACGTCATCATGAGCATCTCTGACCAGGGCCTGGGGATTCCGCGTAAGGACCTCGGCCGGATCTTCGACCGTTTCTTCCGGGTTGACAAGGCCCGGAGTCGGAAGCAGGGTGGGACCGGCCTGGGCCTCGCCATTTCCAAAGAGGTCATCAACATGCTGGGTGGCCAGATCTGGGTTGACAGTGTCGAAGGCCACGGCTCGACATTCTATATCTCATTGCCGTACGTACCATATGAAGAGGAGGATGACTGGGATGATCAAGAAGCTGAAAAGTAA
>SRR1151252_00346 hypothetical protein
ATGATCAAGAAGCTGAAAAGTAATTGGCTGACGATTGCCCTAACCCTAGTGGTCCTAGTCAGCTTTATCCTGTCGGGAATCATCTGGACCAACCCCTTTCAATATGAGCGACCCCACCGGGAGAACAGCACCAGCTCGTCCCAGCAGTTCACCACCCAGTCGATGGGGGATGTCTACCTGCCGACGACCATCGTGCGGACCGGTAAGGATGGTCAACAAAACCTTCTTTACAGCCAGCGCGCCAACCTGATCAACGACGTCCAGCGGAACCTGTGTGACTGGAAGCTTGGCCGGACCAGCGAAGTCAAGACCAATAACTGTGACGTCTACCTGAGCTACCTGCGCAACCGCCATTCGTTGATGCTTAGCTACCCAGATAACGTCACGGGGGAAGTTTTTAATGAGACCTTCGACCAGTCGATCGATACTAACCGGGTCAAGGGGATCAACCACATCGTGATTCCGCTCAACGGGACCCACGAGATCTACCTGCTACGTGACTATCACTATGAGGTCTACCGGGTTCAGGTCAATAAGGGCGATTTCGCTAAGCTCCCCAAGATCGGGCGCCATGTCCGGCCGATCCCAGTTGACCATAAGATCATCAAGGGCAACGCCATGATGGTGTACCCGCACGGCTTTACCCTCCCAAAGCTGGCGTACCAGGTCAGCGATCAGCGGATCAACAACCTCAGCACCAACCTGCTGAGCACCAACCGCCATACCAGCGTGACCTCTCATGAGGATAGCGACAAGACGGTCTATACGGACGGTACCAACCGGCATCTGATTTACGACCATACCAACGGCACGGTTGATTACGAGAACGATATTGGTAATTCTAATGTGGTGGCCACGGGCCAACTCTACGCGCACTTCTACAACATCCTGGTGAAGACGGGGATGCCCCTGGATAACATTCGTTTTGACCAGGCCAAGGATCATAACCGGACTTTCATCTACCGGACCTATGTCGAGGGCTTCCCGATCATCAACACGGACGGCTATGGCGGGGCCAAGCTCCAAGCAAGTCAAAGTGGGGTTGAGCGTTACTGGATGAGCCTCTACACGGTTCAGGTCCCGCTGCCGCTCAGCGGTGACCAGGATGTCAAGCTGCCATCAACCACCAGCGTTCTCAATGAATTGCACGCCAGCAACCAATTTAAAGACATTACCGATCTGCGGGTTGGCTACCTCTGGAAGGGCAACTCTCAGGACAGTAAGGTGGTTAAGCTTGTGCCAACCTACTTTGTAAAGTATCACCACCGCTGGGTTGATTACACGGAGTTGCTGAAGTAA
>SRR1151252_00347 hypothetical protein
ATGAATTTCAAACGAATCCAATGGATCTTCTTATTTGCCTTCCTCCTCTTTGACCTGATTGTTGCCGGAAGCCTCTTCCTGCAGAACCGGTTCACGATCACCAGCAATGCGCCTAACCGCCAGGAGGTCATCCTAAAGGAGATGCGCGCCGATGAGATCACCAGTGTTCCCCTGTCTAACCATGCCCAGAGCGGCTACTACATTGCCGGGACGCGGTCGGGGAAAAACGGTGAGCTGGGGCAGCAGGCCGACAAGTTGCGGGACCAAAGTTACCACTTTAACACCGATGAACTGGCCAGTGACCTCGAGACCGGGGTCAAGGTCGACCCCAAGCACCCGGACAAGCGACTGAATCGCCTGGTCAACGACGACCATTCGATCGCCCTGGGGAGTCATTACAAGTACGACGCTCAGCTGTCCGACCGGCGCACGGTCGTCTACACCCAACAACTGGCGGACCGGGACTTGAAGTCACCCGATGGTCAGATCCGTTTTCGGGTCAACAGCAATCATGAGGTTCTCGGCTATACCCAAACCTACCTAGCAGGGGCCCGGATCCTACGGCCTAAGGCGGACACGATCAGTCAGCGGCACGCGGTGACCTGGTTGTACAAGCACAACTTGATCCCTAATAACTCCCAGGTCAGGTGGGCGGAGTTAGCGTACACCAAGCTTCTTAACACCAGCAGCCACAATCAGGCGGTCTACGTACCGACCTGGATCATCGAGGTGCGGACCAAGAATGACGACACGGTTCAGCAGCTGCGGGTCAACGCCTTCAACAGTACGATTATGCGGAGTACGCCCAGTAGCGTTAACACAAGTTCATTAGGAAAATAA
>SRR1151252_00348 metal-dependent hydrolase
GTGAGTGAAAAAGACTTTTTGCGATACAGTATTCTAGCCAGTGGGAGCACGGGCAACGTGACCTATCTGGAGACTGCCCACCACCGGATCCTGATTGATGCCGGGTTGAGTGGTAAGCGGATCGAGAATCTGATGACCAAGATCGACCGGTCACTGAAGGACGTTGAGGCGATCTTCGTGACCCATGAACACAGTGACCACAGCCATGGGGTCGGGGTCCTGGCCCGGCGCTACGGGATGGACGTCTACGCCAACGCGGGGACCTGGCAGGCGATGGCCAAGCGGGTTGGTAAGATTCCCCTGGACCAGAAACACGTGCTGGCGCCGAACCACGTGGCCGACCTGGGCGACATGGAAATCGAGAGCTTTGCGGTGTCACATGATGCGGCAGAACCCCAGTTTTATCAGGTCCACCATGATAATAAGACCTTTTGCATTCTGACCGACACCGGCTACGTCTCGGACCGGGTGGCCGGAACCATCAGAAACGCCGACGCTTATCTGATGGAGTGCAATCACGATACGGAGATGCTGCGGATGGGGCCCTATTCCTGGCCGCTTAAGCAGCGAATCTTGGGGGATACCGGTCACCTCTCCAACGAGGAGGGGGCCAATGCGTTGATGGACGTCATCGGGCCGCGAACCAAGGAGATTTTCCTCGGCCACCGCAGCCAGCACAATAACATGCGCTCCCTGGCCCACCTGACCGTCGCCAGCATGATGGAGCAACACGACTTTGGGGTCGACCATGACTTTAAGCTGGCTGATGCTGAGCCTTCAACACCGAGTCAACTACTAACGTTATAA
>SRR1151252_00349 serine protease
ATGAATAATGATAACCAACGATCACCAAGACGGACTAACCGCTTCTGGGCCAAAGTTGCTGGGATCGGCCTGGTTGCCGGATTGATTGGGGGTGGCGTTGCCTTCAGCGTTGGTAATGCCGTTCAGCACCATGAAGAGGTCGCCAGTACCCGGGTACCGAGTGGCTCCAATAAGTCGGGTGGTACCCAGGTCAACAAGAATAAGGCTGACCTGAACGGGAAAGCTACCAAGGCCTACGATTCCGTCCAGGGGGCGGTCGTCAGTGTCATCAATAAGCAGAAGGTCCAGCAGGGAAACGGCACCCTGGGGATCTTTGGCCTCTATTCCAATGGTGGCAATTCGTCAAACTCCAGTAACAGTGGCAAGCTGCAGACTGCTAGTGAGGGGTCTGGGGTAATCTATAAGAAGGATGGCAAGACTGCCTATATCGTCACCAATAACCACGTGGTCAAGGGATCCAACGCCCTGCAGGTGATTTTGAGCAACGGTAAGAAGGTTGATGCCGACCTGGTTGGGACGGATGCGGCGACCGACCTAGCTGTTCTGAAGATTAATGCCGCCAACGTCACCACCGTGGCCCAGTTCGGGAACTCCAACTCGATTGCGGCTGGGCAGGACGTTCTGGCCATTGGATCGCCAATGGGCAGTGAGTACGCTAACACCGTCACCAAGGGGATCGTTTCCGCCAAGAACCGGACCCTGAAGGCAGGAACCGATGGCACCCTGACCTCGGTCATCCAGACAGACGCCGCCATCAATTCTAGGAACTCTGGTGGTCCGCTGATCAACATGGCCGGCCAGGTAATTGGGATCAATTCGATGAAGCTCTCCTCTGATAACGAGGGGTCCTCGATTGAGGGGATGGGTTTTGCGATCCCAAGTAATGAGGTTGTTTCGATCATCAACCAGCTGATCAAGAACGGTAAGATCGAACGGCCAGCCCTGGGCATCGGGATGGTTGACCTGAGCAACGTCACCACCGACCAGCAGCAGTCGGTCCTCAAGCTGCCAAGCAGCGTCAGCAAGGGAGTTGTCATCATGCAGGTCGCTGATGGCTCCGCCGCTGCTAACGCGGGTCTCAAGCAGTACGACGTGATTACCCAGCTGGGTAACACCAAGGTGACGAACACCAATACCCTGAAGGCGGCCCTCTACAAGTACAAGGTCGGTGACAGTGCCAAGATCACCTACTACCGGAATGGTAAGCAACAGACCAGCACCGTCCACTTGACTAAGGTCGCCAGCGATAATAATAGTCAATCTACCCAGCAGGATGACGGTCAATAA
>SRR1151252_00350 phosphatidylglycerophosphatase A
ATGAATAATCGTAACTTCAAGTACCCGGACACCCGGGCCTATAACTTCGTGGTCAATCGTCTTCAGGAACGTGGCGTTGAGCTGGAGGACCTGGTCGATGTGATCTACCAGACCCAGAAGGATTTTGCACCCGCCTTAACGATGGATCGCTGCCGGGAGTATTTGACCGATGCCATGCACAAGCGGGAGCTCCTGAATAACGCCATGGTGATGTTGGAACTCGACCGGCTGACCGAGGCTGGGGAGGTGGCCGAGCCGCTCTCCAGCATCATCAAGAATGACGTCGGTGTCTTTGGCGTCGATGAGACCCTGGCCCTACAGATCGCTAACATCTACGGGACGATTGGGACGACTAACTTTGGCTACTTCGACCGGGTGAAGAAGGGGATCATGGCTAAGTTTGACCAGGATGACCGCCACGTCAACACCTTTATTGATGATCTGCTGGCGGCAATCGTCGCTGCGGCCTGTGGGAAGATCGCCCATAAGTACGCTTAA
>SRR1151252_00351 rRNA methyltransferase
GTGAATATTAAGATTATTGGTGTTGGGAAGCTGAAGGAAAAGTACTTTAAAGCCGGAATCGCCGAGTATGCCAAGCGACTGGGTCGGTTTTGTAAGTTCCAGATCGTCGAGGTGCCGGATGAGAAAGCGCCGGAATCCTTGAGTCAAGCCGAGATGGACGAGGTGATGGCCAAGGAAGGGGAACGGATCCTGGCAAAGATCAAGGATCGTGAGTATGTCTACGCCCTGGCAATCAAGGGAAAAGAACGCAGCTCGGAGGAGCTTGCCAAGGAGATCAACCGGCTGACCACTTACGGCCACAGTGACATTACCTTCGTCATCGGTGGCTCCCTGGGGCTGAGTCCGGAGGTGTTAAAGCGGGCTGACACCCAGATTTCCTTCGGTCGTTTCACCCTGCCTCACCAGCTGATGCGGCTGGTCCTAACTGAACAGGTCTACCGGGCATTTACGATTATTAATGGCCTGCCCTACCATAAATGA
>SRR1151252_00352 hypothetical protein
ATGGACACCGACAGCTTGAAACGACTGTTATTATTCTGCCTGGTGGTGGCCGGATTATTGATCTGCGCGTACCGGGCCCAGGCGGCCGAACATGAGCTGGCCATGCCAGATTCGCTAGTGATCACTGCCTTTGAGGCAACCCAGCCGACGGAAAAGCGGCCAGAATCCCGGCAGCGTAAGCCCCAGTTTCGGGCCCGCCTGCTTCGTCACTGGTGGCAGCCACGGATCATGGCGGCTACCCCGTCCCGGCGACCGACAATTACGAGGATTATCTAA
>SRR1151252_00353 NADPH-dependent FMN reductase
ATGAAAAAAGTCGCAATTATTATCGGTAGTGTCCGCCCCAACCGGCGGAGCAGCCAGGTGGCCGCGTGGTTAAAGGTCCAGCTGCAGCAGAGTAGCCGGGTGCAATTTGACGTGGTTGACTTGAAGAAGGTGGACTTGCCGATGATGGATGAACCGAAGCTTCCATTTACCGGCCTGTACACCCACGCCAAGACCCGGGCGTGGAGTGACCTGGTCAGCCAGTATGACGGCTTCGTTTTTGTTTTTCCGCAGTACAACTGGGGTTACCCGGCCGTCCTGAAGAATGCCCTCGACTACCTGGGCAAGGAATGGCAGGGGAAGCCGGTCAGCCTAGTAACCTTCGGCGGGCACGGCGGCAGTCAGGCCCAGCTGGCGATGCGCTTAGTCGTCGCCGGATTGAAGATGACCCAGATGGCGGTCAACTTGCAGATCAGCTTGATGCCGGGTGATTCTAGCGCCACTGCTGATCGGCTCCTCCATACCCACGATTGGGAGGCCGGCCTGCTTCGTCAAGAGTTTGAACACCGGCTCGGTTAA
>SRR1151252_00354 1,3-propanediol dehydrogenase
ATGAATAGACAATTTGATTTCTTAATGCCAAGCGTTAACTTCTTTGGCCCTGGCGTTATCGCCAAGATCGGTGACCGTGCCAAGATGTTGCATATGCACAAGCCACTGGTCGTTACCCAAGAAAGCTTGGAAAAGATCGAAAATGGCCCCGTTGTTCAAACTATTGATTCCCTGAAGAAGGCTGGCGTTGACTACGCCATCTTCATCGGTGTTGAACCAAACCCAAAGATTCGTAACATCAAGGCTGGTAAGAAGATGTACGAAGAAGAGCACTGTGACTCCATCATCACCGTTGGTGGGGGCTCTGCTCACGACTGTGGTAAGGGAATCGGGATCATTCTGACCAACGGTGACGACATCACCAAGCTGGCCGGGATCGAAACCCTGGACAACCCGCTGCCACCTCTGATGGCTGTTAACACGACTGCCGGGACTGGTTCTGAATTGACCCGTCACGCGGTTATCACCAACGAGGAAGACCACCTGAAGTTTGTGGTTGTTTCTTGGCGTAACATTCCATTGGTATCCTTCAACGATCCAATGCTGATGCTCGGTGTTCCACAATCAGTTACGGCTGCTACCGGTTGTGACGCCTTCGTTCAGGCCATCGAACCATACGTTTCCGTTGACCACAACCCAATCACGGACAGTCAATGTAAGGAAGCAATCCAGCTGATCCAAGAAGCATTGCCAGAAGCCGTTGCCAACGGCCAAAACGTCGAGGCTCGGACCAAGATGGTTGAAGCTGAAATGCTGGCCGGGATGGCCTTCAACAACGCCAACCTGGGTTACGTTCACGCCATGGCTCACCAACTTGGTGGTCAATACGACGCCCCACACGGTGTTTGCTGTGCATTGCTGCTGACTACGGTTGAAGAGTACAACCTGATCGCTTGCCCAGACCGGTTCGCTCAACTGGCTGAAATTATGGGCTACGACACCACTGGTCTGACTACCATGCAAGCCGCTCAAAAGTCCATCGACGGGATGCGTGAGATGTGCAAGGCTGTTGGTATCCCAGCATCCATCAAGGAAATCGGTGCTAAGCCAGAAGACTTCCCGTTGATGGCTGAAAATGCTCTCAAGGATGGGAACGCCTTCTCCAACCCTCGTAAGGGTACTAAGCAAGAAATCATCGACCTTTACCAAAAGGCTTATGATGGCATCTACTAA
>SRR1151252_00355 ammonium transporter
ATGAGTACGGTCAACACATTATTTGTCATGGTTGCTAGCGTCCTGGTCTTCTTCATGACTCCAGGACTTGCCTTTTTCTACGGCGGGATGGTGGCACGCCGCAATACGGTCAACACCCTCCTGTCGGTCTTCTATATCTGTGGTCTGGCCATCATTCTCTGGGTGGCAGTCGGCTACTCCCTCTCCTTCAGTGGCAACGTTGCCGGGCTCGTCGGCAATCTCAGGGTGGTGATGTTCAACCACGTCCCACTCGACCAACTGACGGCCACCAAGATTCCCCTCGGTATCTACGCGCTCTTCCAAATGATGTTTGCCATCATCACCCCGGCCCTGTTTGTCGGGGCGATCGTCGGCCGGGTCCGCTTCAAATTTCTGACCTGGTTCATCATTTGCTGGTCAATCCTTGTCTACTATCCACTTGTCCACCTGGTCTGGGGTGGTGGAATCCTATGCAAACTCGGGGCTCTCGACTTTGCCGGGGGGACAGTTGTTCACATTAACGCTGGGGTCACCGCCCTGGCGCTATCCCTCTGGGTGGGCCCCCGCCACGACCTGAACGATGAGCCCGCCAACCGATCATGGGTCCTCCTGGGCACGGCGATTCTCTGGATCGGTTGGTACGGTTTCAACGCCGGGTCAGCACTGGCCATTGACGATGTTGCCGTCCAGGCAATGCTGACGACCACCGTGGCTACCGCAGCGTCCATGGTTGCTTGGCAGCTGCTCGAGTCCTGGCAGACCAAACACACTACCCTGGTTGGTACCTGCACGGGCGCCCTCTGCGGCCTGGTCGCCATCACCCCGGCTGCCGGCTACGTCTCGATCAATGCCGCCCTCTGGATTGGTATTATCGCGACGGTCTGCAGTTTCTATTTCATCACCGCCATCAAGCCCTACCTTCACCCTCTCGACGATACCCTGGACGCGTTTGGCTGTCACGGGATCAGCGGGATCTGGGGAAGCATCGCTACTGGCCTGTTTGCCTCCCACCACATCAACCCACAGGTGGTCAGTGACGGCCTGCTCGTCGGCGGTGGCTGGCACCTTTTTAGCATTCAGCTGCTGGCCACGGCAGTTACCATCGTGATTGCCTTTGCCTTCAGCACCATCATCATCAAGGTTCTGGGGATGTTCATGACCATCCGGGTTTCGGAAAATGCGGAAGCTAAGGGTCTCGACCTCAGTGAACACGGCGAAACAATCGGCACACTAGGCATCAGATAA
>SRR1151252_00356 OsmC family protein
ATGAGCACTTATAAAGTCAAAGCAACAAAGACGTCAACGGGGATGCAGGTCTCCGCGGGGACCCGCGGCTTTGAGGTGACCTTTGACGAGCCCGGCAGCACCAACACGGGGATGAACCCGGTGGAGATCCTGCTTGCCTCATTTGGGGCCTGCCAGGCCATCACTGCCACAGAACTGGCCCGTAAGCGTAACTTCGATCTCAGCGCCTTCTGGATCGAAGTCGAGGGTGACCTGGGCCGGGAAGACGTGACCGCGGATGACAACCGCTACAAGTTCACCGAAATCCGCTACCAACCGCACGTTCGCAGCGATGAATCTGACGAGGATATCAAGCAATTCTTAGCTGATGTCGCTCGTAAATGTCCGGTCGAAAACACCCTGGCCTTCGGAACCAAGTTCGTTCCGGACGGCTTCGTTAAGGAATAA
>SRR1151252_00357 D-lactate dehydrogenase
ATGACCAAGATTTTAATGACCAGCGTTCGAGACGACGAGCAGCCCGCCATCCAGGAGTTTGCCAAGAAACACAATGTCGAGATCGTTACCAGCCCCAAGTTGATCGATGACGCCGTTGACCTAACCGCCGACGTGGACGGGCTAGTGATCCAGCAGCGCAGCAAGATGGCCCCCAACGTCTACGCCAAGCTGAAGGCCAACGGGATCAAGCAGATTGCGACCCGGACGGCCGGCTTTGACATGGTCGACCTGCAGGCGGCCAAGGAGAACGGCCTGGTGGTCACCAACGTCCCAGCCTACTCACCTCGCAGTGTTGCCGAGCACGCCCTGATGCAAATCTTCCGACTCCTGCGTAAGTCCTACCGTTTTGACCACCAGGTTGCCAATAACGACTACCGCTGGTTCAGTGACGAGCAGGCCCTCGAGATCCACACCGCCACCATTGGGATCATCGGGGTCGGCCGGATCGGGGGCACCCTCGCTAAGCTCCTCAACGCCCTGGGCGCCACCGTCCTCGGCTTCGATACCAATCCCCGTGACGAGATGAAGGACATCGTGGAATACACCAGCAAGGAGGACCTCCTCAAGTGCGCCGACGTGGTCAGTCTCCACGTCGACCTCAACCCGACCTCAGAGGGCCTGCTGACCGCCAAGGGCTTTGCCATGATGAAGCCAACGGCCGGCCTGGTCAACGCCAGCCGGGGGCCGGTCGTCAACACCGCCGACCTGATCGCGGCCTTGAAGGACGGGACGATCGCCGCGGCCGCCCTCGACACGGTTGAGGGTGAGGGCCCGGTTTTCCAGACCGACCGCAGTGAGAAGGGACTGGCGGACGAACCACAGATCCAGGAGCTCCACGACCTGGACAACGTCATCCTGACTCCCCACATCGCCTTCTTCACCAACCTGGCGGTCAAGAACATGGTTGACTTCGCCCTCAACAACGTCCTATTGATCCTAGACGGTAAGGAATCCCCACACACCGTCACAGCCTAG
>SRR1151252_00358 aspartate aminotransferase
ATGCCAACTGTTAAGCCCGCCATTATGAACAATCTCAACAAGAACTTCGCCCGCCTCAAACCGGTCGGTATCCGTGAATTCGACTACCAGGCTAGTGCAATTCCCGGCATCATCAAGCTGACCCTGGGTGAACCCGACTTCAACGTTCCCGACGCCATGAAGGAAGCCGCCATTAATAGTATCAAGGACAACGACTCCCACTACGCCCCCGGGAACGGAACGGCCGCATTGCGCAAAGCCATCGCCCACTTCATGGCGGACCGCTACGGACTAAACTACGATCCGGCTAGTGAGATCGCCGTTACCATCGGGGCCACCGAAGGGATCTACGCCTCCCTAGCCACAGTCACCAACCCCGGCGATGAGGTCCTGATCGCCACGCCGACCTTCCCCCTGTACGGTGCCATCACCACCCTGCTCGGTAGCAGCCCAGTCGAGATCAACACCTGTGACGACGGCTTTGTCCTGACCCCGGTACGACTCAAGCAGGCCCTGGCCGACCACCCACACGCCAAGGCGCTGGTCTTAAACTACCCATCCAACCCGACCGGTGTCACCTACACCCGTGACCAGGTCAAGGCCTTAGCCGGAGCGGTCAAGGATACCAACCTGATCGTCATCGCGGATGAAATTTACGCCGAGCTGGTCTACAACGACCAGCACACCTCAATTGCCGAGTTCATCCCCGGCCAGACTCTCGTCCTGAATGGGGCCTCCAAGTCCCACGCCATGACCGGCTACCGAATCGGCTTCATCACCGGCCCAAAGGAACTGATGGGTCCAGTTAGCGCCACCCACGCCATGATGGTCACCGCGGCTTCCGATCCGGCGATGGCCGCCGCCACGGCCGCCTTTGCCACGGACGAGGGCAAGCAGGCTACCCAAAAGATGAAGGCCGCCTACCAAAAGCGGCGGGACTTCCTCGTCGCCGCCCTCCGCAAGCTCGGCTTTGAAATCACCACCCCTAACGGCGCCTTCTACATCTTCGCCAAGCTGCCGGCCAAGTTCGGTGAAGATGACGTCAAGTTTGCCACCGACCTGGCCCAAAATGGCAAGGTCGCCGTCATCCCCGGCTCCTACTTCGGTGCCGGCGGTCAAGGCCACCTGCGGATTAGTTACGCCACCAGCCTTGATAACATCAAGGCTGCCGTGGAACGCATCAAGCACTTTGTAGAGGAGGACTAA
>SRR1151252_00359 hypothetical protein
ATGCGGATCGATATTAAACACTATCTGGAGGTTAACAACTTAACCATTTACCAGGTGTCGAAGCGCTCCGGCTATGGCTACACGACTTTACACAAATCTTTTAACAAACCACAGTCAAGTTCCACATCGCTGAATTTGCGTGACCTTGACGCATTGGCGCGTGCCCAGCACAAGGCAATGTGGCAGGTCCTTCGCGAACTTGAAACGCACTATCTGGAGCGGGACAGTGGCGAGTCGTTGCAGCCAAAGGGCGTTAAACCTTTAATTTATGACTACAAATTTTGA
>SRR1151252_00360 ATP-dependent Clp protease ATP-binding protein
ATGGCTCAAAATCCAATGGATCCATTTAACAGCGATATGAATGACATCTTCAACCAATTAATGGGTGGCGTGAACGGTTACAACTCTGAGAACCGTCGCTACATGATTAATGGTCGTGAAGTTACACCAGAAGAGTTTGCTCAATACCGGCAGACAGGTCAATTACCTGGTGGTGCAGCACCACAAGCTGGCCAGCCAGGTCAACAGCCAAACGAAGGTAAGGAGAGTATTATCCATAAACTCGGCCGGAACTTGACTGAAGAAGCCCGGCAAGGTGAGCTTGACCCCGTAATCGGCCGGAACAAGGAAATTCAAGAAACTGCCGAAATCTTAAGCCGGCGGACCAAGAACAACCCAGTGCTGGTTGGTGACGCCGGGGTTGGTAAGACGGCTGTTGTCGAAGGATTGGCTCAAGCCATCGTTCACGGCGACGTTCCGGCACCAATTAAGGATAAGGAAATCATCAGTATTGACATCTCCGGCCTGGAAGCTGGTACCCAATACCGGGGCAGCTTCGAAGAAAACATGCAAAAGCTGATCGATGAAGTCAAGAAGGCGGGGAACATCATCCTCTTCTTCGATGAAATTCACCAGATCATCGGTGCCGGCTCCACCGGTTCCGACAGCGGCTCCAAGGGCATGGCTGATATCATCAAGCCAGCCCTGTCCCGTGGTGAAATCACGGTGATTGGTGCCACGACCCAAGATGAATACCGGAACACCATCATGAAGGATGCTGCCCTGGCCCGGCGGTTTAACCCAGTTACGGTTAACGCCCCAAGCAAGGCCGATACGGTTGCCATCTTGAAGGGGATCCGGGACTTGTACGAACGTCACCACAACGTCAAATTGCCTGACGACGTTCTCCAGGCAGCGGTCGATTACTCCGTTCAATACATGCCACAACGGGCATTGCCTGACAAGGCTATTGACCTGATCGACATGACGGCCGCTCACCTGGCTGCTAAGCACCCAGCACACGATGCAAAGCAGATCGAAGCCGAAATCAAGAAGGAAGAAAAGAACCAAAAGGCTGCCGCTGCCAAGGAAGACTACAAGGCTGCCCAAGCTGCTAAGGACAAGATTGCTGACCTCAAGAAGCAGCTCAGCCAGAATTCCGAGGACGAAAAGGTTACGGCAACTCCAGAAGACATTGCTAATGCCGTTGAACAGATGACTGGCATCCCGGTATCCAAGATCGGGGCCAGCGATGTTGAACGTCTCAAGGACATGGACAAGCGCCTTGAAGGCAAGGTTATCGGCCAGGACGAAGCCGTTGAAGCTGTTGCTCGTGCCATCCGGCGTAACCGGGCTGGCTTTGACGAAGGTGATCAACCAATTGGCTCCTTCCTCTTCGTTGGTCCTACCGGGGTTGGTAAGACCGAGCTGGCTAAGCAATTAGCTCTCGACATGTTCGGCTCCAAGAACGACATCATTCGGTTGGACATGTCCGAATACTCAGACCGGACTGCCGTTTCCAAGCTGATTGGGACGACGGCTGGTTACGTTGGCTATGACGACAACAACAACACCCTGACAGAAAAGGTTCGTCGTCACCCATACTCCATCATTCTGCTTGATGAAATTGAAAAGGCCAACCCACAAGTTATCACCCTCTTGCTGCAAGTACTCGATGATGGTCGCTTGACTGACGGTCAAGGTAACACTATTGACTTCAAGAACACGGTCATCATCGCTACTTCCAATGCCGGTTACTCCAACGATGCACCAATCAAGCTGGGCGATGACGAGAACGAGGAAGACCTGATCAAGAAGTTGACCAATTACTTCCGTCCAGAATTCCTCAACCGGTTCAACGCTATTGTTGAATTCCACAGCCTGACTAAGGAAGACCTGCAAAAGATCGTTGACCTGATGCTAGCTGATGTCAACAAGACGCTGGCCAAGAAGGGTATGGACGTCAAGGTAACACCAACCGCTAAGAAGTTCCTGATTGACGAAGGTTACGACGAGGCCATGGGTGCTCGTCCACTCCGTCGGGTCATCGAACGTGAGATCCGTGACAAGGTCACTGATTACTACCTTGATCACCTCGATGCTAAGCACTTAGTTGCTGAGATGAAGGATGGCAAGTTGGTAATCGTGGATGCCAAGGATGCTGCCAAGGACGACAGTAAGGAATACACGGCCAAGGATGACCAGGCTGACAGCAAGGACGAAAAAGAAGATAAGTAA
>SRR1151252_00361 GNAT family acetyltransferase
ATGTCACAAATCTACCTCCGTCAGGCCCAGTTGGCCGACCGGGATGCCATCATGAAGATCATCGACGAGGCCAAGGCTACCATGAAGCGGGCCGGCAGTCCCCAGTGGCAAGATGGCCACCCCAACGCCACCATGATCACTGAGGATATTTCCCGGGAAATTGGCTGGGTTCTCATGTTCAACCGGCAAATTGCCGGGTACGCGGCCATGCAGCTGACCCCCGAACCGACCTACCAGCACATCAGCAACGGGCAGTGGGCCCAGCCGGGTCAGCCCTACGCCACCTTCCACCGGGTCGCCATCAGTGACCGTTTCCGGGGCCAGCACCTCGGGCAGTTTCTGATCGCAAACCTCTTAACCCTGGGGATAGCCAAGGGATTGGTCAACTTCCGTCTGGACACCCACCCTGTTAACGACGCCATGCAGGGGTTGGCCAAGAGCTGTGGTTTCATCCAGCGCGGTAAAATCGAAGTCGACGACCAGCTCGACCCCCACCGCCTCGCCTTCGAACTCAACCTTAGCCAGCCGCGGGCCAAGCTAGGCCACGTCAGCAACGATTTCATGAAGCCCTTGCTCCACCATAATCAATAG
>SRR1151252_00362 cardiolipin synthase
ATGGCATTAACGTGGACAATCATTCGATGGTTTCTGCTGACAATCGTCTTGATCAATGAGGTGGCGGCGATCTACACGGTCTTCCGTGAGAAACGCGACATCGCAGCAACCTGGGCCTGGTTGTTGGTTCTGACCCTGATCCCGGTCATCGGCTTCATCATCTATGCCTTCCTCGGCCGGAAGCTGCCCCACCGGCGGTTGAACCTGATGAAGACTCAGACCCAGCTCCGGATCCAGGAGGCCATCGACCGGCAGAAGCGACAATTCATCAACATGCCCAAACCTCGGCACACTACCACCCAGATCTATCGACGGACGGTGATGCTCTTCCAGAGCCTTGACGACTCCTTTCTCAGCCAGCACAACCAGGTGACAATCTACACGACCGGTCAGGAACTTTTCGCCCGGATGTTTGACGAGATCGCTGCCGCCAAGGAGAGCATCCACATCGAGTTCTACACGATCTACAACGACCAGATCGGTAACCGGCTTCGGACCCTCTTAGAGCGTAAGGCGGCCGAGGGGGTCGAGGTCCGGGTCCTTTACGATTCCTGGGGTTCGATGGGCGTTCGGCAGAGTTTCTACGACGGGCTACGGGAGCGTGGTGGGTACGCTACCCAGTTTCTGTTGACCCATAACAACCTCTTTGACTTCCGGCTGAACTACCGTGACCACCGGAAGATCGTCGTCATCGACGGTAAGGTTGGCTACGTCGGCGGCTTCAACATCGGTGACCAGTACCTGGGACGATTGCCAAAGTTTGGCCCCTGGCGTGATACCCACCTGCGGGTTGTTGGTGGGGGCGTCTATGGCCTCCAGCGACGGTTCATCGGTGACTGGAACGCCTCCGTACGGTCTGAGGAGAAGCTGGCTCACTACCGGCAGTACTTCCCGGAGATCAAGGTTAAGCACGGCAGTACCGCTCTTCAGATGGTCTCCAGCGGTCCGGAATCCGAGCAGGAGAAGATCAAGCTGGGCTACCTGCGGCTGATCAACGCCGCCCAGGACCACATCTGGATCCAGACCCCCTACTTAATTCCCGACGACAGTGTCCTGGACGCCTTGCGGGTGGCCGCTCACTCGGGAATTGACGTCCGGATCATGATCCCGTGCAAGCCGGACCACCCCTTTGTCTACCGGGCAACCGAGTACTACGCCCACGCTCTCACCAGTGAGGGAGTTACCATCTACACCTACCAGCGGGGCTTCCTGCACGCCAAGACAATGATGATTGACGGTAAGATGGCCTCGGTCGGTTCGGCCAACCTCGATTTCCGCAGTTTCAAGTTGAACTTCGAGATTAACGCCTTCATTTACGACAGTGACACTACCGACCTGTTGGAGCAGATCTTCGTCAATGACATTCGAAACAGCCGGGTGAAGACGGCTGCATCCTTTGACCAGCAGTCTCACTGGCTGCACTTCAAGCAGCGCTTTTCCCGTCTGCTTTCCCCAATCTTGTAA
>SRR1151252_00363 ATP-dependent helicase/nuclease subunit B
ATGGGGAGCCTGGGTTTTGTTTTAGGGACTGCAGCGGTCGACCACCAGCAGGCGCTGGTCGATCAGCTGGCGGACCAGCTACGGACGGCGCCAAAGACGGACACTTTCTTCTACATCGTACCCAACCACATCAAGTTTGAGACAGAAATTAGTGTGCTCGCCGGCCTGCGTGATCGACTGAATCACGGTGGTAGCCAGGATTGCTTTGCCGCCAGTCGGATCCAGGTACTTTCCTTTAGCCGGCTGGCCTGGTACCTCCTGCGGGACACCCCGCTTTTCAAGCGCACCCGACTTTCCAAGGTTGGCACGGCGATGCTGACGACCAAGATCCTCCAGGAACACGCGGCGGATCTCCGTCTTTACGGCAGTGAGATCCAGCACCCCGGCTTCGTCCAGAAGCTGACCGAACAGTTGTCCGAGCTCCAGGGAGCCAACATTACTGCCGATGACTTTTCCGCTATCCTCAAGCAGGCTCAGGCCGATGATCGAGTCAGGCGCAACCCGGCCTGGCTGGCCAAGATGCACGATGTCGAGTTGATCTACCACGCTTTTGAGGAGCGGATGCAGAAGTATTTCCTGGGAAATAATGACCTCTACCAGCAACTCGCCCAGTACCTCTATTCCCAGCCGACCAGCCGGCACATGCACTTTTTTCTCGACCGGTTCACCCAGTTCACGGCCATGGAGCAGCAGGTCGTCGACGCCATCATCCTTAACGCCCAGACGACCACGGTTTCTTTGACCCTGGACCGTGGCTACCCCGATCAGCGCCACCCTAACCCTAGTGAGTTGCCGGGGAAACGTGACCTCTTCTACAATTCGGCGATGCAGTATCACCGTCTCTGGAAGTTTGCTCAGTCCCACCCCCAGCAGGTCCAGTTGGTGGATAATGTCGAATATGCCCAGACACCACGGGTCAGTGGGGACCTGGCGGAGTTCGACCACTTCTTCCAGCGCTACGCGGCCGCCCCAATTGACCTAACGGCGGGAATGCCACTGGCCGATCCACAAAGCATCCAAGTCCAATCGGTTCCCAACAGGCTGGCTGAGCTCAACCACGTGGCTACCCAGATCCGGCAGCTGGTGGCGACCGGGAAGTACCGCTACCGGGACTTCCTGATCCTGACCCGGCACCTGGACGGCTACCAGACGATGATTGGCCCGGTCTTTGCTAACCACCAGATCCCGGCCTTCAACGACCATGAACGGCGGATGGACAAGCACCCCCTGGTTGTCCTGCTGACCACCCTCCTGCAGATTCCCCTCTATGGCTACCAGACGGCCGACATCATTCAGCTCCTGAAGACCTGGCTCCTGCTACCGGCGGGGGAGGAGGCGGCCAAGCTGGCTGAAGCGGTCTTCACGACGGAAAACTGGTGTCTCAAGCAGGCAATCGCCGGTAAACATGCCTGGATCACTCAGGATCCCCAGGAGATTGCCGACCTCTGGCAGGTCAAAGGGACCAATCCCCAGGCAGCCAACTATGCTCATTCTCGGCAGAAGAAGGTTAATGACCAGCTAGCCCTGATCCGTAACTTTGCCGGTCAGACCCTGATCCCGTTTTTCGATGAGCTCAAGAATGTTCAGACGGGCCGTGAGCTGGCGACCAAGCTCTACCAGTTCCTCGTCGATAATGGGGTGACCGACCGTCTAAACAGTTGGCAAAACTACCAGGCCGACCAGGGCAACCTAGATCTGGCTCGGCAGCCTAAGCAGGTCTGGGCGACCTTCTGTCAGATCATTGAGGAGTACGTCATGATCCTTGGTGATCGTCAGGTGGGGGACGACAGCCGTGCAACCCTGTTGACTAATTTCGGTGAGATTCTCCAGGCTGGTTTTGCGGCGGCCCAGTACTCCCAGATTCCGGCAACCCTAGACCAGGTGGTCATCTCCGAAACCGGGATTACCCAGAGTCAGGGTCACCGGGTCGTCTTCATGATCGGGGCTACCGACGATGTCATGCCGGAGGTCCACGATGACGAGGGTCTGTTGACTGATAGTGACAAGGATCTGCTGAGTCAGTATCTTGATCAGGATTTCCAATACCTGCCGGCTACTGCGGTTGACCAGCTGGAAGACGAGCCCTTCCTTCATTACCAGGGCTTCATGAGTGCCCGGGAACGGCTGATCATCTCGGCTCCCCAGTTTGGTGAGGACGATAAGGAATTGAAGCCGTCGCCATACCTAACCGACGCGGCCCGTTACTTTCAGATCGAAGGGACAGTGATCCCGCTGGTCACCAGTCCCGCCGGCCAGGCGGATGCTAGCCCGTTCGTGAGTGCACCATTGGCTACCAGTAGCCAGCTGGTTCAGGTGGTCCGTCAGCTTGCCGATGATCAGGGGACGGCAATCGGTCAACGACCACGGTGGACCGCTAGTTGGCGACAGGTCGGCCGGGTTCTCAACCGCCTATCTAAAGACGATGAAGAACTCCGTAACCGGTTAGCGATTATCCAGCGGGGCTTTGCTTACCAGAACCAGACGAAGCGTATTACGGCCTCAATGGCCCAGGCCCTCTACCTACACACTGCAGCGGACGAACTGGGACGAGTTCTCTACGCCTCGATTTCTCAGCTCCAGGACTTCTACGTCAACCAGTACGAGTACTTCCTGAAGTATGGCCTGCGTCTGCGAAAGCGTGATGAACTGGCCCTCTCTACCGACCGGATCGGGACCTATTTCCACCGGGCAATGGAGGTATTCGTCAACCTTGTTCGTGCCTCTTCATTGACCTTTGCTGACCTGACTAAGCCGGGGAATCAGGCTGCTCTGACGGAATTCACCAGTCGGGCCCTGGATGCGGCCGACCAGCTCCAACCTGAGTTATTGCGGCTGGTTAGCTCATCCGCCCAGCCCCGCTTCCAGTACCAGCAGCTGACGGCGATTGTCAAGACGATGCTGACGACCCTCTGCCAACAAGCGGCCAATGCTCGCTTTGTTCCACGTGAAACAGAGATCCAGTTCGGTCAGATCAATGGCCAACAGGACAGTGACTGGGCGCCACTTGAGTACCCACTCGACGACCACCGGCACATTCAGCTGCGGGGACGGATTGATCGGATCGATCAAATTGACGTTGATAACCAGCGATACCTCGCCGTAGTCGATTACAAGTCGGGTGATCGTCTCTTTGACCTGACGGCGGCCTACTATGGAATTTCCCTTCAACTACTGACCTACCTCAGTGGGCTCGAGGTCAACCTCGATAAGCTTCAGCTGAACTCGGCTGGCCTTGCGGGGGCCCTCTACCTCCACCTAAATAACCCGACGATTTCGGCGGCCGAACTGCTGAAGGGGTCCACGGCTCACCAGGATCAACGCCTCACCGAGCTCCGTCTCAAGGCCCACCGGTACAAGGGCATCATCCTAAACAACAGTGACCTCCTAGCTAACCTTGCCAAGCAGGGGCACGCTGACCTGGTCTACCCCTTGCGCAAGAACCTCAAGTCGGGGAAAGGCGCCTTGCTGGCGGATGACCAGCAGCTCCAGTGGTTACGGGATAACAACCGTCGCCTAATCATTGATGCCGGTAAGCAGATCCTCAGCGGTCAACTCAAGCTAAATCCTTACCGCCTGATCGACGGCAGCACCCGGCAGACGGGACTAGACTACACGGACTACCTGGATATCTACCAGTTTGACAGCATGCTGGATCAGGGTCTCTACCATGAATTGGATACCCGGATTGCCAAGGAAAAGTTCGATGACGTGCGCAAACAAGAAGAGCAGAACAAAGATGATGGGGAGGATCAATAA
>SRR1151252_00364 recombination helicase AddA
ATGGCAGAATTTAAGCCTACCAAAGCCCAGTCAGCAGCAATCGACACCCGGGGGAAGAACATTCTGGTCTCGGCCTCGGCTGGTTCGGGGAAAACTGCCGTCCTGGTCAACCGGGTGATTAAGTTGATTCAGGAGGGCCAGGACATCGACCGGATGCTGCTGGTGACCTTCACCGACGCGGCAGCCAAGAATATGCGGGATAAGATCAGGGCGGCCCTCCAGAAGATTGTCCAGGACCCCAGCCAGCCCAAGGGGGTACGGGATCGGATGGCCAACCAGATCAACCGCCTGGCTGCGGCCGACATCAGTACCATCCATGCCTTTTGCCTGAAGTTGATTAAGCGTTATTACTACCTGATCAACCTGGATCCCCAGTTTCGGATGTTGACCGACCAGACGGAACAGCTGCTGCTCGAGGAGGAGGTCTGGAGTGCGGTCAGTGAGCGCTACTACGCAGACGCGGATCAAGAGGAGGACGGGATGGCGTCCTTTCGCCAGTTGGTCCTCAACTTCTCAAGCGACCGGGACGATCAGGGACTCGACGACCTGGTCCTAAAACTCTACGATGTGGCCAACGCCCAGGCCGACCCGGCTGCCTGGCTCCAGCAGCTGCCGGATAGCTATGATCTCGCGACGGGGGACGTGTTAGAATCGGCCTTCTACCAGTGCCGGCTCAAACCGGTCCTAATTGAGCGTCTTCGCCAGCTACAAAGCGATGCGGCCGAGGCCATCCAACGGGCTGAAGACGCGGCGCTGGATAACGACATTGCAACCCTTCGTCAGGATAAGGCGGGCCTCCAGCAGCTGATTGACCAGGCCAATGGTGGTGAGGACCGTGACGTACGGGTCGCATTGGCACAGGTACAGTTTGCTGGATTTCGGGGAAAGCCCAAGGATGATGGTGACTTGCTCACGACCTACAATTCCCTTAAGGACGACCGCAACCAGCTTAAGAAAGATTGGGAGCAGTTGGTTAAGGATTACCTGGGAGATGAGTTTGCTGATGCCCAGTTGGTGACCCGGGTTAGGGCACTACAAGGGCAGTTTGCTGACCTGACGAAACGGGCGGTCGACTTACCCACGGCCCAGCGAGTATTGACTCAGGACCAACGGCGCCTCCAGGTGGTACTCGACGTCTTCAAGCCGGTGACCTGGAACTCATTGCGGGCAGCCTTCACCAACCTGGCCTTTGCCAGCATCAAGCGGCTTGGTAAGGACCCAACGGCCGAGATGACCACCGCCCATGAGGCCATCAAGGCGACGCACCAGGGGATCAAGGACCAGCTGGGGAAGATCAACGAGCACTTCTTCATCTATGATGAGGAACAATTACGGACGGTCTCACGGCATGCCCAGGCAATTCTGCGTAAGTTGAGCGTGGTTACCCAGGACTTCTTGAACCAGTATCAGCAGACAAAGCTCAACCGCCACGTCCTCGAGTTCAGTGACCTGGAGCACTACGCCTACCAGATCCTTAATCCGCAGGAAGGCGACACGGACTGGCAAGCCCTGGTCGCCAACCTGCAGGACCACTACCAGGCAATCATGATTGACGAGTATCAAGACACCAACCAGCTTCAGGAGAGTATCCTGATGCGGCTGGCTAAGGACAGTGCCCACAACCTCTTTATGGTGGGGGACGTCAAGCAGTCAATCTACCGTTTCCGGGAGGCCGACCCATCGCTTTTCCTCAATAAGTACCAGCGCTACCAGCACGCGACCGACAGCGCGGCGATCGTATTGGGGGAGAACTTCCGCTCAATGAATAACATCACGACATTCACCAACCTGCTCTTCCGGCAGCTGATGGATCCGACGGTTGGGGAGATTGCCTATGACCAGGATGCGGAGCTCAAGTACGCCGCACACTACTACGACGATGCCGACAAGCCCAAGCCGGTCGAGGTGATGCTCTACGATGCCAACGCCCGCCAGCAGACCACCGCTGCCGATGAAAAGCCGCACCGGGAGACCGACAAGCTGGTTGGTGAGTTTCAGATGGTTGGTCGGCGGATCAAGCAGCTGGTCGCGGGCCACGCCCAGATCTATGACGCTGACCAGCAACGGATGCGTCCCGTCGAATACGGCGACATCGTGATTCTGGAGCGGACTAAGGCGATCAATAACACGTTGATGGAGCAGTTTAGCCGGCTAGACATTCCCCTGACCGTCCACGACGTTGAGAGCTACTTCCAGGCCACCGAGGTCCGGGTCATGCTGGCCCTGCTCAAGGTGATCGATAATCCCCACCAGGATATTCCACTGGTGGCGGTCCTGCGTTCGCCGATCGTCGGCTTGGACAACCAGGAGCTGTCCTTCATTCGCCTACAGAATCAGGCAGCCGACTACTATACCGCCCTGAAGACCTTCACCTACAGCTACCAGCACCACCACAAGATGCGGCCCTACAAGAACGCCAGTGAACTGCTGGACGCCGCCCATCAGCGGTCACTCTATGAAAAGGTATCAACCCTGATGGATCAGCTCGATCAGTTCCGCCATACCGCCCAGCAGGAGACCCTGGTCGACCTGATCTGGCAGATCTACCAGCGGACCGGCTACCTGGACTACGTGGGTGCGATGCGCGGTGGCCAGCAACGTCAGGCCAACCTGCACGCCCTTTACCAGCGGGCTCACGCTTACGAGGACAGCAGCTTCAAGGGCCTTTACCAGTTCATCCGCTTCATCGAGAAGATGCAGGAACACGACAAGGACCTCGGGGTGGCCCCCACCCAGCTGACGGCTAACACGGTCAACGTGATGACCGTCCACGGAAGCAAGGGCCTTCAGTTTCCGATCGTCTTTCTGGTTGACGCTACCCACGGTTTCAACGACAGTGCCAAGCGGACCCCCGCTGTGGTGGACGCCAAGGCCGGGGCCGGGATTCGTTGGCTGGATAGCGACCGGGTGGTTTACGATACCCCGCAGCGTCAGGTAATTGCCGACATGATTAGTCGTAGCGAACGCGCGGAGGACCTGCGGGTACTCTACGTGGCCCTGACCCGGGCAGAACAGCGGCTCTTCATTACCGGCTCCTTCAATGAGGAGACCAAGAAGCAGGGGCTGACGCTTGCTTGGTCCCGCTGGCAGAAAGCCTTCCAGAGTCCGGGGACGGTGCTGAGCCCCCAGCCCCGGCTTGATGCCAACTCGTTCATGGACTGGGTCGGTCTGGCCCTCGCCCGCTATGCCAATGACCGCAACGGCTTCACCGCTCCGGCCCTGGCAGTGGGGGACGTGGAACTGACCGCCAGTGCCCTGGCCGGCGACGACCACCGGGCCGAGGACGCAGCAGCCCAGGACTTTGTTGTCCGGGCCTATGACGCGGTCGGCCTTGCCAAGCTGACGGCCACCGCCAATCCGGCTGACGCCCCGGCAACTATCCCAGTGGCCCCTACCAAGCAGTCGGCTCATCATGTGGACTTTGCCCAGGTGCTCGGCTACCAGTACCCGCACCAGACGGCGACGGTGACGACGGCCTACCAGTCGGTGACCGACGTCAAGCGGGTCTTCGAGGACGATGACCCCCGTCTGGGTCAGCGCGACTACGGGGGTGACTCCGACCAGTTAGATGATCAGGCAGCCAAACGACAGCACAGCGGGATCTACATCAACCCTGACTTTGCGGTCCCAAGTTTCGTCCAGCAGGACACTAGTCGGCCCAAGGCCACTCAGGTGGGGACGGCGACTCACCTTGTCTTCCAGAAGTTACCGCTCGACGCCCCAGTCACGACAAACGTGGTTAGAGACGAGATCGCTGACCTCCAGCGCCAGGGGCTAGTAACCCCGGCCGTTGCCAGTCAGATTAACGTCCCCGGGATTGTGAATTTCTTTAAGACTGCGGTTGGTCAGCAGATCCTGGCTGCACCGGACAACTATCACCGCGAGGAACCGTTTGCGATGATTATGAACGGCCACGAACCGTTTGCCGATATCGCCCCCGACGACGATGACCAGGTCCTGATTCACGGGATCATCGACGGTTACCTGACTGGCGACGATGGGATCATCCTGGTTGACTACAAGACCGACCACCTGCCGACCCAGACGACCGCGGCGGTCAAGCAGGTCGTCCAGAAGTACAGCGGTCAGCTCCGCCTGTATGCCGAGGCGTTGAACATCATGCAACCAAGACCGGTTGTCCAAATGGGCCTATACCTGTTAGAATTGAATGAGTTTGTATCAATTCAAGGTAGAGGTGAGCAGAGTGGCAACCATTAA
>SRR1151252_00365 LacI family transcriptional regulator
GTGGCAACCATTAAGGACATTGCTCAGCGCGCCGGGGTATCGGTCTCAACCGCGTCCCGGGCGCTCAATGATAACCCGCGGATCAGCCAGGCGACCCGGCTGAAGGTTAAACGGGTGGCCAGCGAGTTGAACTACCAGCCCAACTACAACGCCCAGAACCTGACGCGGGGTGAATCGAACATGGTGGGGTTGGTCTTTCCAGTAACCAGCGATACGGCGCCGGCCAATCCCTTCCACATCGACCTGATGCGGGGGATCAGCAGTGCCCTTAAACCACTGCAGTACGAAATGGTGGTGGCGATCGCACCAAATCCCCAGGAGCTTTTAGCCAGCGTCAAGTCGATGGTGACCCAGTCTAAGATCCATAACTTCCTGGTCTTCTACACGATGGCCAATGATCCGGTTACCGCCTACCTGCGAAAGAATGGGCTTAACTTCGTGGTGATTGGCCGGCCGACCGCCCAGCACCACGACCGCTTCGTCGATAATGACAATGTCAAGGCGGGGCAGGTAGCGACGGAACAGCTGCTGACCCGGCACGGGGCCCGGCATCCGCTCTTCATCGAGTCGGGTGATAACTGGACCTATGAGTTGGCCCGCCGCGATGGCTACCGTCAGTGCATGACTGCCCATCGGCTGCCGGCCCTCACCTGGGCGGCCAGTCGGGACACGGGCATTAGCCAGTTCCTGGACCACCATCCTGAGGTCGATGGGATTGTCTGCGCAGATGATATCCTCTATGGTCGCCTGAACCGTGACCTGCAACGCTATGACCTGCCGACAGTTTGCTTCAACAACAGCCGTCTGATGGGGATGCTACTGCACGAGAGCGAGCGGGTCGACCTCCAGCCCCGGGAACTGGGTCGAGCGGCGGTTGAGCTGCTCTTCAACTCCCGCAAGGACCACCAGCTGGTTGATTTTAGGATTTATGATTAA
>SRR1151252_00366 acetyl-CoA acetyltransferase
ATGGAGAAAGTTTACATTGTGGCGGCCCAGCGGACACCGATCGGCAAGTTCAACGGGGCCCTGGCGTCACTGTCGGCCGTCCAGCTTGGTGCGACGGTGATCAAGGACACGGTGAATAAGGCCGGGTTGGCCGCCGACCAAGTCGACCAGGTCCTGATGGGTAACGTTATTCAGGCTGGCAGTGGTCAGAACCCGGCCCGCCAGGCCGCCATGGCCGCGGGAATGGGCCAGGGGGTGCCGGCGATTACGATCAACGACGTCTGCGCCTCTGGCCTCTCCAGTATCAACCTGGCGGCGAGCCTGATCCAGTCTGGCCAAGCCCGGGTCATCGTTGCTGGGGGAATGGAGAGCATGACCAACGCCCCCTACGTCCTCGAACAGGCCCGGGGCGGCTATCACTTCGGCCATGGCACCCTGATCGATGCCATGCAAAAGGATGCCCTCCAGGACGTCTACGGTGACTACCCGATGGGGATCACGGCGGAGAATATCAACGAGCGTTATCATGTTACCCGCCAGCAGCAGGATGAGTTCGCCCTGGCCAGTCATCAGAAGGTGGTCCGCGCCCAGCAAGCGGGGGTGTTTACTGCGGAGATCACCCCGGTAACGGTCACCGACCGCCACGGCAGTCACGTGGTCGCTACGGACGAGGCGCCGCGCCCCGACACCTCCTTGGCTGCCCTGGCCAAACTAAAGCCGGCCTTTAAGCCGGACGGGACCGTCACGGCTGGTAACGCCTCGGGGATTAATGACGGGGCGGCGGCTGTGGCTTTGGCGTCGGCCAGCGCGGTGGAAGAATTTGGGCTGACCCCGTTGGCCGAGTGGGCGGGGGCCTCCCTGGTCGGGATTGATCCGGCGGTGATGGGCCTCGGTCCTTACTACGCCATCAAACGGCTCTTCAAGACGACTGACCTGACCGACGCGGATATTGACTGCTACGAGGTCAATGAGGCCTTCGCCACCCAGGCCCTGGTCTGCCAGGACTGGCTCGGCCTCGACCCGTCGAAAGTCAACCCGCACGGTGGGGCGATTGCCCTCGGTCACCCGGTCGGCTGTTCTGGGGCCCGGATCCTGGTTACCCTAGTTCACGAGATGGGTGAACTAGACCAGCACACCGGGATTGCCTCCCTCTGCGTCGGTGGGGGGATGGGAATTGCTGCTTTGGTCCGCCGCCAGGGATAA
>SRR1151252_00367 sugar transporter
ATGAGTCAAGAAAAGTCCGCCGGTGCCGGGCTGCCAGCGCTCTCGAAGTCAACCATTTGGATGATTAACTTCGGGTTCCTGGGTGTCCAAACCGCCTTTACCTTGCAAAGTTCACAAATGAGCCGGATCTTCCAAACCATTGGTGCCGACCCTAACAACCTGGGATGGTTCTTCATTCTGCCACCACTGGCTGGTTTAATTGTTCAACCAATTATTGGTTACTACTCAGACCGTACCTGGGCCCCAAAGCTCGGTGGTCGCCGTCTTCCATACCTGCTCTTAGGTATGATTGTGGCGGTTATTGTTATGTTGCTGCTGCCGAACTCCGGTAGCTTCGGCTTCGGTTATGGTTCACTGGCCGCCCTGTGGTTTGGTGCCATCACCGTTGCCCTCCTGGACCTGTCATCCAACGTGGCCATGCAGCCATTCAAGATGATGGTCGGGGACATGGTCAACGATGACCAGAAGAGTTACGCATACGGGATTCAGAGTTTCTTGTCAAACACCGGTGCCGTTCTGGCCGCTATCTTCCCGTTCCTGCTGACCTGGTTTGGAGTCGCCAACATTGCCAAGAAGGGTGTCGTTCCTGACTCCGTTATTATTTCCTTCTACGTTGGTGCCGCCCTGCTAATCATCACCAGTCTGTTCACGGTCTTCCGTGTTCACGAATATGATCCAGCAACCTACGCAATGTACCACGGAATTTCCGAGGAAGATAACAGTGAAGGTGGTAACTGGATCGAACTGCTGAAGCATGCGCCAAAGGCCTTCTGGACCGTTACCCTGGTTCAATTCTTCTGCTGGTTCGCCTTCCAATACCTGTGGACTTACTCCGCCGGTGCGATTGCCAAGAACGTTTGGAACACGACCAATGCGACTTCCGCCGGCTACCAGACCGCTGGTAACTGGTACGGTGTCTTAGCCGCCGTTCAATCAATCGCTGCCGTTGTATGGTCATACGTCCTGGCCAAGGTTCCTAACAAGTACCACAAGGCTGGTTACGCCGGTAGTCTGCTGCTCGGTGCCTTTGGTTTCCTGTCAGTATTCTTCATCCACTCACAAGGTGCCCTGATCGTATCTTACATCCTGGTCGGGATCGCCTGGGCTGGTATGAATACCTACCCACTGACCATCGTTACGAACGCCCTCTCTGGTAAGCACATGGGTACTTACCTGGGCCTGTTCAACGGTTCAATCTGTCTTCCACAAATTGTTGCCTCCCTGCTCAGTTTCGCACTCTTCCCGTTGCTCGGTGGTTCCCAAGTCAACATGTTCTTAGTTGCTGGGATCGTCCTTGCCTGTGGTGCTCTGGCCGTTGGCTCAATTAAGGAAACCTACGCTGAATAA
>SRR1151252_00368 maltose phosphorylase
ATGAAACGGACATTCGATATTGCTCCATGGCATGTTGCTACCAAGACTTGGGATCCTGAAGACAAGCGTCTCCAAGAATCCATGACGAGTCTGGCAAACGAAAACCTCGGGATGCGGGGCTTCTTTGAAGAAGGTTACTCTGGTGACCACATGCAGGGTCTCTACCTCGGTGGGGTATGGTTCCCTGACAAGACCCGTGTTGGTTGGTGGAAGAACGGTTACCCGAAGTACTTCGGTAAGATGATCAACGCCGTCAACTTCATGAAGCTGGTCATTAAGGTCAACGGCGAACAGCTGGACCTGGCCAAGCAGACGCCAAAGGACTTCAAGCTGGACCTCGACATGAAGCGTGGGGTTCTGGAACGTGAATTCACCGTTGAAATCGGTGGTACGACCATGTACTTTAACTTCGAACGGTTCGTCAGCGCCACCCAGAAGGAACTGGTTGGCCAACGCCTCCACATCAAGAACCGCGGGACCGACGATGCCAAGATTGAAATTACCAGCATGATCGACGCCGACGTCTACAACGAAGACTCCAACTATGATGAACAATTCTGGAACGTCCTCAACAAGAGCGCTAAGGATGAACACGCCGAACTGACCTCCATGACCAAGAAGAACGACTTCGGTACGCCGCAATTCATCGTGGGCATGAAGACGACCACCAAGACCGACCTCGACCACGCCGGCGACGGCACCAGCGACAAGACGGCCTACAACACCTTTGAAGGTACAGTAGCTGCTGGTAAGGAAGTCAATTTCGAAAAGCGGAGCCTGACGGTTACTTCCCGGGACTTCGACACTGAAGAAGCCATCGAAAAGCACCTCGACGAACTGAGCGAGAAGCTTGACGACCAGAGCTTTACCGACCTGCTCGCCGATCATATTTCCGAGTGGGCAGAACGGTGGACCAAGTCCGATGTTGAAATCGAGGGTGACGAGGAAGCACAACAGGGGATTCGTTTCAACCTCTTCCAGCTCTTCTCAACTTACTACGGCAACGATTACCGCCTGAACATTTCACCAAAGGGCTTCACCGGTGAGAAGTACGGTGGTGCTACTTACTGGGACACCGAAGCCTACTGTATCCCAGTCTACCTGGGGGTTGCCAACCCCGAGATCGCTCGTAACTTGCTGACGTATCGTTACAAGCAACTTGATGGCGCCTTCATCAACGCCAAGGAACAAGGCCTCAAGGGGGCACTGTTCCCAATGGTTACCTTCAACGGGATTGAGTGCCACAACGAATGGGAAATCACCTTTGAAGAAATTCACCGTAACGGGGACATTGCCTACGCCATCTACCTCTACACGAAGTACACCGGCGACAAGTCCTACGTTCTGAACGAGGGTGCCGAAGTCCTGACCGAAGTCTCACGGTTCTGGGCTGACCGGGTTCACTACTCACAGAGCAAGAACAAGTACATGCTTCACGGCGTAACTGGTCCGGACGAATACGACAACAACGTCAACAACGACTGGTACACTAACCTGCTCTGCCGTTGGACCCTGAAGTACACCCTGGAAATCCTCAAGGAAGTTGACGACAAGGTTGCCAAGAAGCTGAACGTCTCCGAGGATGAAAAGCGGCAATGGCAAGCAATCGTGGACAACATGTACCTGCCATACGACAAGGAACGCGACATCTTCCCAGAAAACGACGGCTTCATGGACAAGGACCTCAAGCCGGTTGCCGACATTCCAAGCGACCAACTGCCAATCAACCAGCACTGGTCATGGGATAAGATCCTGCGGTCACCATACGTCAAGCAGGGTGACGTTATCCAGGGCCTCTGGGACTTCATCGACGACTTCACCAAGGAACAGAAGAAGCACAACTTCGACTTCTACGAACAATACACGGTTCACGAATCAAGTCTGTCCGCTTCCGTCTACTCCATCATCGCGGCTGACCTCGGCTACGAGGACAAGGCCGTCGAGATGTACGAACGGTCTGCACGGCTTGACCTGGACAACTACAATAACGATACCGTCGATGGTCTGCACATCACGTCCATGACTGGTTCATGGCTCGATATTGTGCAAGGGTTCGCTGGCATGCGGGTTCGTGATGGTCAACTCCACTACGCACCATTCCTGCCAAAGAAGTGGGATTCCTATCAGTTCCGTCAGATGTTCCGTGGCCGGATCCTGAAGGTCAAGGTTGATAAGCACGGTACCAAGATCGACCTGGTATCCGGTGACCCAATCACCATCGACCTTGCTGGCAAGAAGCTCGAATTAAAGTAA
>SRR1151252_00369 beta-phosphoglucomutase
ATGAAGTTTGAAGATCTTAAAGGTTTTGCTTTTGACCTTGACGGTGTGATTGCCGACACGGCCCGTTTCCACGGCCAGGCATGGCACCAGCTCGCTGACAAGGTGGGCACCGAATGGACACCCGAACTGGCGGACAGCCTGAAGGGGGTCAGCCGGATGGATTCTCTTGAGTTGATCCTGAAGGCCGGTGGCCACGAAAACGACTACAGCCAGGATGAGAAGATCGCCCTGGCCACGGAGAAGAACGACAACTACATCAAGCTGGTTGAGACCCTGACGCCGGCCGACATCCTACCCGGGATGAAGGCCCTGCTGGATGAACTGAAGGCTAACAATTATCACATTGTGCTGGCCTCGGCTTCCAAGAATGCGCCCAAGGTTCTCAAGTACCTGCAAATCACCGACTACTTCGAGGGGATCGTTGACCCGGCCAAGCTGACGCATGGTAAGCCAGACCCGGAGATCTACAGCGAAGCAGCTAAACTGATGAACCTGCCTGCTAACCAGGTTGCTGGGCTGGAAGACGCCCAGGCCGGGATTGAATCAATCAACCGGGGCGGCGAAACGTCGATCGGCTTCGGCTCATCACTGCAGGATGCCGATGTAAAGTTCGCTCACACTGGTGACGTTTCATTGGCAGCCATTAAGGAACAAATGGACAAGTAA
>SRR1151252_00370 glutamate-cysteine ligase
ATGTTTAGCAGGATCGGTCAACTAATCTTTGACAACGAGGCGGTTGCCAAGACTTCGGACTTCACGATGGGCCTGGAGATCGAGATGCAACGGGTCGACGAGACCGGCCACATCAGTCAGGAACCGTATCCTGCCGGCATCGGCGACGAGAAGACCAATCCTTGGCTGACCAACGATTACCTGGAGACGATGGCCGAGATGGTCACCCCGTCGGCCAAGCACGCCCTCGATGCCATGCACTACCTTTACGTCATCAACAACACCCTGCGCTCAGCCCTGGCGCCAGGTGAACTCCTCTGGCCGCTCTCGATGCCGCCCAAGCTTCCCAAGGATAAGACCCAGCTCCGGTTTGCCAAGATGGGACCGAAGAAGGAGGCTTACCTGAAGGAGTGGACCAAGCGCCATAGTTATTCCAAGGGTACGCCCTGCGGTGCTCACATCAACCTGAGCATCGATTCCCACGTCATCCAGCTGGTCCTGGACAAGTGCGGTGACCAGTTTAAAGACGAGGTGGCGGTCCGTAACCACATCTACACCGTCCTTGCCCAGGGCTTCGTCCGCTATCGCTGGTTCATCACCTACCTGTTCGGAGCTAGCCCGATCGCCGAAGAGAACTACTTCGCGCCCGGCCATGAATTGGCCCATCCCATCCGCAGCATCCGTCAGAGCAGTCACGGCTTTGGCACCAAGTTTGCCGGGGACTACACAAACGTCCAGCGCTACGTTGACCGGATTGAGGAGGGGGTCAAGCAGGGCATTTTGACCTCGGACTACGAGTTCCACGACTCGGTCCGCTTTAAGGGGAACGAGAACCTCAAGCAGCTACCACAGACCGGGGTCGAGTACCTTGAATTACGGATGCTGGACCTTGACCCGAGCAGTTCGGTGGGGGTGCGGACGGGGACCCTGCGCTTCATCCGCCTGCTGGCCTCCTACTTCATCATGCACCCGGCGCTTAAGGACGACGAGGTCAACCCGGTGCTCGACCTGGCCAACCAGATGAACGAGGTGGTGGCTGAGGAATCGCCGACCGCCGCCTGCCACTACCGGACTAAGGCCTTGGCCCTCATCAAGCACCTGGAGCGCTACGCCAACCAGATCCAGCTAGGGCCGGAGTACGCCGAGATCCTGGAAGACTTGGAGGACCGGGTCATTAACCCGGCGACGACGCCAAGTGCCAAGTTACTCAACTATGTTCAAGACGGCTCCCTGACTGCCTACGCACTGCGCCGGGCCAAGCGCTACCAGGAGGCGGCCCTAGAGACTATCCAGCCCTTCAAGGGATTTGAGGATGGCCGGGTCTACACCGCCGCCGAGTTGCGCGCCGCTTTGGCAAAATAA
>SRR1151252_00371 glutamine amidotransferase
ATGCGACCACGAATTGCTATCCCTGCTGACACCCTGACCGAGGCCACCAACATCATTAACGAGCGCAACGCTGCCTTTGCCCCCCGGCCCCTGATCGAGGCGATCGTCAAGTCGGGTGGCCTGCCGGTGATCCTCCCCAGTATTGACCCAGCCTTGGCCGCCGACTACCGTGACCTGTTTGACGGCATAATCTTCGCCGGCGGGGCTGACGTCGACCCGACATTCTTCGGCGAGGAACCCCACCAGGCGTTGGGCCCAACCTACCGCAAGCGGGACCTCTTCGAAATCGCCCTACTCAAGGAGGCCGTCCATGCTGGCAAGGCCATCATGGGGATCTGCCGGGGAATGCAGCTAATCAACATCGCCCTTGGTGGTTCGGTCTACCAGGACCTGTCGGAGGACCCGCGTAAGACCCTCAAACATGCTCAGGCAGCCCCGGGCAACCTGCCCTCCCACCACGTCACCGTTGAAGAGGACAGCCGGATCTTCCAGCTGGTCGGTAGGCGCCCCTACGTTAACTCCCGTCACCACCAGGCCCTTCACGAGATTGCGCCCGCACTCCGGGTCACGGCGATGGCCGACGACCAGGTGCCCGAGGCAGTTGAGTCCTTCGCCAACGACCGCATTCTCGCCGTCCAGTGGCACCCGGAGAATATGTTCAAGCACTATGATTATTCCCAACGGCTCTTTGCAGACCTGATCCAACGGGCAGCCCAATAA
>SRR1151252_00372 2,5-diketo-D-gluconic acid reductase
ATGGCAGAATTAAAGAACATCAACTCGCCACTGCGGCTGAACAATGGTGTCACGATCCCCTGCGTCGGCTACGGGACCTTCCGCACCCCGGCTGACGTCGCTGAGCAGGCCGTTGCCGATGCAATCGAGGTCGGCTACCGTCACATCGACACGGCCGCCGTCTATGGCAACGAGGAAGCTGTCGGTAAGGGGATCAAGGACTCCGGGATTGACCGGCACCGCCTCTTTGTCACGAGTAAACTCTGGAACACGGAGCGGGGCTACGAATCGACCAAGAAGGCCTTGGATGAGAGCCTGGAGAAGCTGGGGATGGACTACCTGGACCTCTACCTGATCCACTGGCCGGCCAACCAGAAGCAGTTCGGCGACCGGGCTGCCGAGATCAACGCCGAAACCTGGCGGGCAATGGAAGATGCCTACCATGAGGGCAAGATCCGGGCCCTGGGCCTCAGTAACTTCATGCCCCATCACGTCATCGACCTGATGAAGACGGCCAAGGTGGCTCCCGCGGTTGACCAGATCGAGGTCCACCCCGGCTGGCCACACACCCAGGAGGTCAAGTACCTTCAGGCCCACAATATCCTAGTCGAGGCCTGGGGACCACTGGGGGGCCAGGGCGCTAAGGTCCTGACTAACCCAACGATGGAGAAACTGGCCGCCAAGTACGGCAAGACGACCGCCCAGATCAGCCTACGCTGGATCCTCCAGCAGGGCGTCCTGCCGCTACCGAAGTCTGTTCACCCCGACCGGATGGTGCAGAATACCCAGATCTTCGACTTTGAGCTGAGCGACGAGGACATGAAGACGATCAGTGAGCTGCCAAACCTTGGGGGCCAGTGCAAGGACCCCGATGAGGTTGACTTCTAA
>SRR1151252_00373 glycerophosphodiester phosphodiesterase
ATGAAAAACATCCTATCGGAAATCAGGCAGGGGACCCGCCACTTCAACCAGCACTGGTGGATCTACCTGACCCTCTTCGTCAGCGTGGACCTGGTGATCCAGCTGGTGGTCATCCCCAGCTTTCGCCTGGTGACCACCTTCGTCCTCCAGGCAGGGGCGATTCCGTTCGTCTCCTATCAGAACATCGTGACGATCGTCAGCCAGCACCCCCTGGTTGTGGTGGCCCTATTGCTAGAGTTGGTGGCCCTCCTACTGGTCATCTACTGGCAGTTTGCCATCATCCTCCTCGGGGTGCGTGACATTCAGGACGGCACGATCAGCGTTCGTCGGCTCCTGGCCGAGAGTGGGCAATCCCTCCGTCAGCTTCGGGCTTCCTCACTCCTGGTCCTGCTGGGTTACTTTGTCCTGGTGATCCCCTTTGCCGACCTGGTCTTCCGGACGCCGCTCTTATCAAAGGTTCAGATTCCGGCCTTCATCCTGGATTTCATGACCCGCAACGCCTTCCTGCTGATGGTGCTAATTATCTTCTACACGGTGGTGGTCGTGCTCGGCGTTCGCTACCTGCTGGCCCTGCCGCTGATGGTTTATGAGAAACAGCGGCCACGGGTGGCCCTGGCCAATAGTTGGCGCCAGACCAGTCACGGGCGGTGGTGGCCACTACTTACCCGGATCCTGGTGATCGGCCTGGTTGCCAGTGTTGTTATGGTCGTCTTCTACGGCCTGCTGGTGGGCCTCCAGTTCCTCTTCGATTTATTTCCCGGGAAATTATCCCTGGTGACTGCCGTTGTCGACCTGACCCTGGTCCAGTTGGGTAGTGAGTGCCTGGCCGTTTGGATCGGTGTGGTGACAATCCAGATCTTGGTCCAGCCGTTGGGCAATATCCTAGCCACCAGTCCGGCCACCTTTACGGTCAGTCGGGGCGTCAAACGGACCATGGCCGTGGCCGGGAGCCTGATCGTCCTCGTGACCCTGATCAGCGCCAGTTTTTACCTCACCGGAACGGGTAGGCGACCGGTAACGATTTCACACCGGGGGGTCGCCGAGGAGAACGGGGTCCAGAATACGATCCCGGCGATGGAGAAGACCCACCGCCTCCACCCCGATTACATCGAGATGGACATTCACGAGACCAAGGACCATCAGTTTGTCGTCATGCACGACGAGAACCTTAAGGATCTGACCGGGGTAAACAAGGCGCCCCACCAGCTGACCCTCCGCCAGTTGACCCGCCTGACGGCTCACGAGAACGGCCACCGGGCCAAACTTGCCAGCTTCGACGACTACCTGAGGGTGGCCCACCGCCTCCACCAGAAGCTTCTGATTGAGATCAAGACGACCCCGTACGACTCCAAGGACATGCTGGCGCGGTTTAGTCACCGCTACGCCAGCACTCTCCTGTCCCACCACGATCAGGCCCAGTCCCTGGATTACCGGGTGGTCACGGGAATGCACCGGGATGCACCACGGCTGCCGGTCATCTACATCCAGCCCTACAACTTTACTTACCCAAATACGGCGGCAGCCGGCTACTCAATGGAGTATTCAACCCTGACGGATGACTTCATCAACCTGGCCCACCTCCAAAAGAAGGTCGTCTACGCCTGGACGGTGGACCAGCGACCGGTGATGATGCAGGAGATGTACGATAACGTCGACGGCCTCATCACCAATAACCTCGGTGAGCTCAACGTCGCCATTCAGTCCTACGAGAGCAAGCAGTCCTACGCCCGACGGATCCTTAACTACATCATGGTAATCCCGGGCAGTCAGGAGTTTGAACCATAA
>SRR1151252_00374 2-hydroxyacid dehydrogenase
ATGTCTAAATTGAAAATTTTGGTAGCTGGCTTGGTCCCCGATGAGGGCTTGGTCGAGTTGAAACGCGACTTTGCGGTCGACCACCAGCCGGATGCCAGCCGCGCTTGGATCCTAAAGCACCTGGGGGAGTACGATGGTCTCCTACTGGCCAGCACCCGGGCCGATCGGGAACTGATCGACGCGGGGAAGAAGCTGAAGATCATCACGACCTTTGGGGTGGGGTACGACCACGTCGACGTCGACTACGCCAGGGAGTGCGGGATCGTTGTCACTAACTGCCCGATCAGTGTCCGGATACCGACCGCGGAGATGGCCCTGACCCTAATGCTGGCGACGGTGCGCCGCCTCCACTTCTATGATCACGCAATGCGGCAAGGGGAGTGGGTCAACGTCTCCCAGCCAGTCAACATGGGGACTAGTATGCAGGGTAAGACTCTCGGCGTCTACGGTATGGGGCGGATCGGGGCGGCAGTTGCCCGCTTCGGCCGGATGCTGGGGATGCGGGTGATCTATCACAACCGGCACCGGGTTGACCCGCAACTGGAGCAGGAGCTGGCTGCCCGTTACGTTGACTTTACTACCCTGGTCAAGACGGCCGACGTGCTGACCCTCCACGCGCCGGCGCTGCCGAGCACGCAGGGTGTTTTCAACGCGGCGGTCTTCGCCCAGATGAAAGACACCGCCTACCTGATCAATACGGCCCGCGGCGCCCTGGTTAACCAGGATGACCTGGCCGTAGCCCTCAGGGACCGCCAGATTGCCGGGGCCGGCCTCGATGTCTTCGTCGACGAGCCGGCGATTCCGATGGCCCTGACCAAACTCGACAACGTGGTTCTGTCACCGCACGCCGGCACCGGGACGAGGGAGGCCCGGCTGGCGATTGCCCGGGAGGCGGCCGACAACCTGATTTCCTACCTGCGTGATGGTCAGGTAGTCAACCGGGTCAATTAA
>SRR1151252_00375 GMP reductase
GTGCAAACGTTCGATTATGATGATATCCAACTGATTCCTAACAAGTGCATCATCAAGAGCCGCCGGGAAGCTGACACCAGTGTGAAGTTCGGCCCGCGGACCTTCAAGATTCCGGTCGTCCCCGCCAACATGGAGAGTGTCATCAACGAGGACCTGGCTGTCTGGCTGGCGCAGAACGGATACTACTACGTGATGCACCGTTTCGAACCCGCGGACCGGGCCGGCTTTATCAAGCGGATGCACGAGCGTGGGCTCTTCGCCTCGATCTCGGTCGGTATCAAGGACACCGAGTACGACTTCATCGACCAGCTAAAAGCCGAACATTCGGATCCGGAGTACGTCACGATTGATGTTGCCCACGGTCATTCGGATTTTGTCATCAAGATGATCAAATATATCAAGAAGAACCTGCCGAACAGCTTCGTGACGGCCGGCAACGTCGCCACCCCCGAGGCGGTCCGGGACCTGGAAAACTCTGGGGCCGACGCCACTAAGGTCGGGGTGGGTCCCGGTAAGGCCTGCATCACCAAGCTGAAGACCGGCTTCGGGACCGGGGGATGGCAGCTAGCGGCCATCCGCCTCTGCGCCAAGGCCGCCCGCAAGCCAATCATCGCCGATGGGGGAATCCGCCACAACGGCGACATCGCCAAGTCTGTCCGCTTCGGTGCCTCGATGGTTATGATCGGGTCGATGCTAGCCGGTCACCTGGAGTCGCCGGGCCACGTCATCACGATCGACGGCAAGCGCTACAAGCAATACTGGGGCTCGGCCTCCGAGGTGCAAAAGGGGGCCTACCGGAACGTCGAAGGCAAGCAGATGCTGGTCCCGTTCCGCGGGTCAATCAAGGATACCCTCCGCGAGATGGAAGAGGACCTGCAATCCGCCATCTCTTACGCCGGGGGCCGCGACCTGGAGGCTATCCGCAAGGTCGACTATGTGATCGTCAAAAACTCCATTTTGAACGGAGATTATTAG
>SRR1151252_00376 adenylosuccinate synthetase
ATGTCATCAGTTGTAATTGTTGGTAGTCAATGGGGTGATGAAGGAAAGGGGAAGATGACCGATTACCTCAGCCGGGACGCGGACGTTGTTGTCCGTTCCCAGGGTGGTAATAACGCCGGTCACACCATTGCCTTCGATGGAAAGAAGTTCGCCCTGCGGTTGGTACCGTCCGGGATCTTTGGGAAGGACAGGCTGGCCGTCATCGGTAACGGGGTGGTCATCAACCCACCGGCCCTGCTGAAGGAACTCCACTATCTGCAAGACAACGGGATTGATATTTCCGGTCTGCGGATCTCCAGCCGCTCGCACGTGACCTTCCCATACCACATCCTGCTCGATAAGTGCCAGGAGGCGGCCAAGGGTGATCACAAGGTCGGGACCACCAAGAATGGGATCGGCCCAACTTACATGGATAAGGTTTCCCGGGTCGGGATCCGGATGAGTGACCTACTCGAAAAGGACACCTTCAAGGTTAAGTTACAGCGTAACCTGGCCGAGAAGAATGAGCTCTTCACCAAGCTCTACCATGTTGATCCGATCAGCTTCGACGATATTTTTGAGAGCTACTATGAATATGGTCAGGAACTGAAGAAGTACGTCACCGATACGTCCCGGATTGTCAATGACGCTCTTGACCAGGGCAAGAAGGTTCTCTTTGAAGGGGCCCAGGGGGTAATGTTGGACGTCGACCAGGGGACCTACCCATACGTCACCGCCTCCAACCCAATCGCCGGGGGTGTCTGCACCGGGGTCGGCGTTGGCCCGAATAAAATCGACACGGTCGTCGGCATCTGCAAGGCTTACTCCACCCGGGTCGGAGCCGGTCCGTTCCCAACCGAACTGACCGACGAAATCGGTGACCGGATCCGCGAGACCGGTCACGAGTACGGGACCGTCACCGGGCGCCCACGCCGGGTCGGCTGGTTTGATAGTGTGGCCATGCGTCACGCCCGGCGCGTTTCCGGCCTGTCCTGCCTCAGTCTGAACCTGCTGGACGTCCTGACCGGGTTGAAGACCGTCAAAATCTGCACCTCCTACAAGTTGGACGGCAAGCAGATTGACTACTACCCAGCCAGCCTGAAGGAACTGGACCGCTGCGAGCCCGTTTACGAAGAACTGCCGGGCTGGGACGAGGATATCACCGGAGTCAAGAGGTTCGAGGACCTGCCGATTAATGCTCAGAACTACCTGAAGCGGGTCAGTGAATTGTCTGAGACGCCGCTGGCCACGGTTTCCGTTGGTGCTGACCGGATCCAGACGATTATCGTCAAGAACCCGTGGGAACTATAG
>SRR1151252_00377 mucus-binding protein
ATGGACGTTACTGATCCAGATAATCCGATTGAATTGACCAATGGTGATAGCAAGGATAGTTTAACTGGTCAGGTCGGGGATAGTATGGTCCTTACCATTCCACAACAGCAATTAAATGATTACTTGGACACGGACGAGTATGAACTAGCTGACAATAATCCTAATGTAGATGTGAATAGTAAGACAATTAATCCGCGGAAGTTTGCCGTACAGACTACGGATAACGTTATTACGATCAACCTTGTTCAATCACAAAAGGCTGACTTGAAGTTCGTTGACCAGGATACTAGTGGTTGCGATTCTGATAATCCTTACAATAGCCCGGTAATTAATGTTACAGGAATTACGACAACCTATGCTGCCACTGGTAAGCCAGAAGCAGTGATTAGCTTTGGCAAAGGTACACCGATTGCGGACGCTATTAGTGCTCTTAATAAAAAAGGCTATGAACTGGTAAGCAATAATTTTGGTGATAGCACAAAGTTTGATACCGACAGTAAGAATGATCAGCACTTCGTTGTCATTATGAAACACGCTACCTGCCAGCTTAACGACAACCATACGGTTCACGAAACTATCCACTATCAATACGAGAACGGTGATATGGCCGAACCAGACTACATCGCTGAGGCTAGTTTCAATTGGACGGGGACCTACGATGATGTGACTAAACAGACGACTTGGAATTACCCGACTGAAGGCCAAACCTTTGACAAGGTCAGTTCTCCTACGATCAAGGGCTATACGCCTGATCAAGCCTCAATTCCTCAAGTCACGGTTAAATATAACAGTTACAATATCGTGAAGACCGTTATCTACAAGGCTGATAATCAGACCGCTAAGATCACTTACATCGACGATACTGATAACCAGCCTTTATCGACCGACAATGCCAGTGGGAAGTTCGACACGGTAATTACCTTCTCGCCTGACGTCCTAAACAAGATCAACGATTATGAACGGCAGGGATACCGGCTCGTCTCCAACAACTTCGATAACCAAACCTACCAGGCCAATAACGGCGATAACGCATTTACCGTGCACCTTGCCCATAACATCGTCAATGTTTCGGATACGGACACGGTCAATGAAATTATCCATTATGTTTACACTGACGGTTCGCAAGCTGCTCCGGATTACCTGGCCCACGTCACCTGGATACGAAGCGGCAAGCAGGACATGACCAAGACGGGGGAGAAAGATAGGGGAATCATCTGGGATAAGACCGAGCTACAGACGCTGCCGGTCGTTGATTCACCACAAATTTCTGGCTACGTTGCCGATCAGGGCTCAATCCCGGCCCAGACCGTTAACTTCGGTGATAAAGACATCGTCAAGACGGTTACCTACCATGCGGGTGACCAAAAGGCAACGATCACCTACATTGACCAGGCCACGGGGAAGACGCTGAAGATCATCCCCCAGAAAGGGAACGCTGACACGCCTATCCAGTACCTGTCTAAGAACGATCTGCAGGGTTACTTCGATGATGGTTATCAACTGGTTAAGGATGGTAATGGTTATGATCCGAAGGGGGTAGCACCAAACTTCGACGACAACAGCAATGTTGACCAGAACTTCAATATTTACTTGGAGCATACTTACCAGACGATTAACCCGAGTCATCCAGGCAACCCAGGTAAGCCAATTAACAATAATCCGAACGGCGTTAAGTACCAGTCAGGGACGGATGCCAAGAGTCTGACCATCAATGGTACCCAGACGATTATCTATACTGGCCTGCCGAAGGATAAGCAGCTGGCAAACGATACCAGTCAGCATGTTCGATTCACCCATGAGATCGTGATCGATAAGGTCACCGGGCAAACAGTCGAAGACCACGGCTGGACAGGCCCACAGACCTACCAGACGGTCAAGACCCCTGAGGTTGCCGGGTACACACCGGACAAAACAGTTTCCGGTGGGGAGACGGTGACCTACCAGAATCCTGATAGTCAGGATATTGTCCACTTCACGCCGGTTAATGATACTCAAAAGGCGACGATCATCTATGTTGATCAAAATACTGGTGATCACGTTAAGACCGTCACAGAGAGTGGCAAGTCTAATTCGGTCATTGATTATTACTCCGCTAGCGATCTACAGAAATTGAGTGATCAGGGTTACCAGCTTGTCAACAACGGCTATGATCCGGATAATCAGGTACCAAGCTTTGATGATAGTAGCGATATTGATCAGACCTTCTACATCCACTTGGCCCATGGTACGCAGGAGACGACTCGTGATGACACAATCAACGAAACCATCCACTATATCTACGCTGGTGGTAAGAAGGCTCATGATGATGTAATCGCTGAAAAGACCTTTACCCAGAATGGGACCAAGGACCTCGTCACCGGTGATATTACCTGGCGGCCAGTTACTAGCCAACAGTTCGCTAGTGTTAAGTCACCGACGATTTCCGGTTACACACCTGATTATACGGTGGTTCCAGCGGTCACCGTTAACTATGGTGATCCAGATATTAACACCACGGTAACCTATACGGCTGGTCAGCAGGTTGCAACGATTGTGTACGTCGATCGGACAACTGGTCAGACACTGAATACGTTGATGGAACACGGGGCCTCCGATACGACGATTCCTTATCAATCCGCCAATGACCTGAAGACCTACGAGGGTCAAGGTTACGTCCTGGACGATAACCAGTATGATCCGACGACAACGCCGAAATTCGATGACGACAGTAACGTCGACCAGACCTACTATATCTACTTGAAGCACGGTACGAAGAATGTCAGTGAAACGCCAACTGTTCATGAGACGATTCACTATGTCTATGCGGATGGTACTACCGCTGCTAAGGACGTCACTGCTCAGAAGCAATTTAGTCGGCAGGGGACGGAGGATCTGGTTACTAAGCAGATCACCTGGCAGCCAGTTGCTAGCCAACAGTTCGCCAGTGTCAAGTCACCGACGATCACTGGCTACACTCCAGATCAATTGAGCATTCCGGCCATCATGGTTAACTACAACGATGGTGATGTTGTTCGGCGGGTTACCTACACCCCGGCTGAGCTACAAGCCACCATCAAGTATATTGACGATAACACGGGTGCGGTTCTGCAGACTGACAATGGGACTGGCAAGTACCAGGATCCAATCAAGTTCGCTAATGACGTCAACACCCAGATTAAGGACTACGAGGGTCAAGGCTACACCCTGGTTTCCAATAACTTTGCCGGGCAGAAGTACCAGGCAGATAATGCTAAGAATACCTTTTAA
>SRR1151252_00378 cell surface protein
ATGGCCGATGTTACCCGTGACAGTGTGGTTCATGAGGCCATCAGCTATCTCTATAGCAATGGGCGGACCGCCCATGCCCCAGTAACAGCTGAGGTTAAGTTTACCCAGCACGGTAGCCAGGATCAGGTAACTAAGCAGATTACCTGGCAGCCAGTTGCCAGTCAACAGCTCACTAGTGTTAAGTCACCAGTTATCGCTGGCTATGTACCGGACGTTACCGAGGTACCAGCAATTGCGGTCAACTTTGGCGGCAGTGATATATTCAAGAGCGTTATCTATACTAGTACTCAACAACAGGCCATAATTATCTACGTTGATCAAACAACAGGCCAGAACCTGAAGAGTGTTGAACAACACGGGGATGCTGATACCACAATTCCATACCGTTCCAAGAGTGATCTCCAAGGTTACCTTGATAATGGGTACCTATTAGTTAAGAACGGTTACGATCCAGCTGATAAGGCACCAAGTTTTGATAACGATCAAAATATTGACCAAACCTTCTACGTTACGTTGAAGCATGACATTCAAACGATCAATCCGGAGCACCCTGGTAAACCAGGCCAGCCGATCAATAAGAATCCGGGTGGCCCAAAGTATGGTCCACACACGGACGCTAAGAGTTTGACCATCAATGGGACCCAGATGATTCACTATGTTGACCAAGATGGAAATTCAGTCGCTCCCGATGATAATAGTCAACACGTTCAATTTACTCATGAGATCGTGATTGATAAGGTAACCGGCGAACAGATTGCTGACCATGGTTGGACGACGGCGCAGACCTATAAGCAGGTGAAGTCACCGACAGTCAAGGGATATACCACTGATCAGACAATGGCGGGCGGTAAGACGGTTACTCATCAACAACCGGATAGCGTCGTCTACGTTCACTATATGCCGGTTGCCCAACAACGGGCTAAGATCGTCTTTGTTGATCAGGTGACGGGAGACGACCTGAAGACTGTTACTCAGAGTGGTCAGTCTGATACGGTTATTCCATACTTATCTGAGGACGACCAGGCCACCTTTGCTAATGAACATTATGTTCTGGTCAAGAATGGTTACGACCCGGCTGGCAATGCACCGAACTTTGACAGCAACGATGCGGTCGATCAGATCTACTACATCACGTTAAAGCATGGTACCCAGCCGACGACCAGGCAGAGTGACGTTACGGAAACGATTCATTACGTTTACAGTAATGGTAAGCCAGCTCATGATGATGTGGTTGTGACTAAGCATTTCACCCAGAATGGGACTAAGGACTTAGTCACTGGTCAAACTGAATGGCAGCCAGTAGATAGCCAACAATTTACCAGTGTTATGTCTCCGGAGATTGTCGGTTACCAGGCAGATAAGAAATTTATTCCAGCCATTACGGTTAACTTTGGTGATGGTAATGTGACTCGGACAGTCACCTATAGTAAAGTAGTCCAGCCGACGAAGCCAACGAGTCCGACGCAACCGACGGCTCAGCCGACGAAGCCAACGAGTCCGACGCAACCGACGGCTCAGCCGACGAAGCCAACGAGTCCGACGCAACCGACGAATCAGCCGACGAAGCCAACGAGTCCGACACAACCGACGGCTCAGCCGACAAAGCCAAGTGGTCAACAACCAACAGGTTCAAGCGTACCAACACCGCGGCCAGTACCAGCTGGTCGGCCGACTATTCCAACGGCTGCACCTGAGCCGGTACCGGTAGTTCAACCAGTAGCCAAGGTGGTTACTGCCCAACCGGTCAGCCTGCACCAGGGTCAGCCGACACCACGGGCGGCGCAACGGAACAACACTACCTTGCCACAGACCGGCAACGCAGAAGTTGTTTCTGCCGCTGCTCTTGGCCTGATGGGCTTAGCACTTGCCGGCGGTTTTGCTGCCACGAAGAAGCGTCATGAATAA
>SRR1151252_00379 hypothetical protein
ATGGCATTGACGATAACCACCGTGCGGCAGTACCTTGACTGGCCGCTGGGACAGACGATTAACCAGGAGGATCTCAAGCGCCAGCTCGGCGTTCACGTGACCGGCAACAACGGTGAAGACCTGACCGACAAGGCCCTGTTCAACCTCACCCAGGTCAATATCAATCAGGAAGGGGAGTACCCGGTGCTCATCAGCGTGATGGACGCCACCGGCCAGACCGCCCAGACGAGTGTGACCCTGGACGTGCGGCCACTGCGGAGCCAATCAAGCCAACCAACCGCACCAAGTCAGCCGACCCAGCCGACTAATCAGACCGCGATGCCGCAGAAGAAGCGTGGATGGCTTTGGGGTCTGCTCGCGGTGATCGTGATTATCTGCCTACTGTGGGGCTGGTCGAGCCACCGGCGCCAGCAGCAGGACCAGGCGGCTAATAACGCCCAGCAGAGCAGCCAGATTGCCAACAATTCCAGTAGTGTTTCCAAACTGAATGGTGATAACCAAAAGCTGGCTAACCAGGTCGCCGAGCTCCGGGGCGCTGTCAAGCAGTACCAACACGATAAAGACCAGGACGCCCTCAACCAGCGCCTGGATAAGATTGAAAATCAAAACCAGCAGCTGACTAACCAGGTCAATAATGACAGCACCAAGAGTCGGCTGAACCAGGTTACCAACGTGGTGCAGCAGGTACGTCAGGACCCGGACAACGGGATTCAGATCGTCAACGACCTGAAGAACCAGAGCGGCTTTAAGAATATTTGGAACAACATCAGCAGCATGGTTCAGGGCTGGATGGACAAGTTTGCGGAATAG
>SRR1151252_00380 uracil phosphoribosyltransferase
ATGGCACACGAAGTTGTTGATGGATCAAGCATGCAGCGGGCGCTAACCCGGATTACCTACGAGATTATCGAACAGAACAAGGGGGTCGAAAACCTGGTCTTTGTCGGCATCAAGACTAGGGGGGTCTACCTTGCCAAGCGCCTCGCTAAGCGGCTCAACCAGCTCGAAAATGTCAGTGTGCCGGTTGCGGCCCTCGACGTCTCCCTCTACCGGGATGACCGCCACGTGCCGGACCACCACCGCGAGCCAACGGTCAATACCGACCAACTCGACACCGACATCACCGACAAGCATGTCATCCTGGTCGACGATGTCCTCTTCACCGGGCGGACGGTCCGTGCCGCCCTGGATGCCTTGATGGACATGGGCCGGCCGAAGCGGATCTCCCTGGCCGTCCTGGTTGACCGGGGACACCGCGAGTTGCCGATCCGGCCTGATTTTGTCGGTAAGAACATCCCAACGGCCATGAACGAGACGGTTCACGTGGCGGTTGAGGAATATGACGGGCACGAAGACGTTACGATCGATCATAATTAA
>SRR1151252_00381 hypothetical protein
ATGCAAAACCCATTTGGCAATAACAATAATAATGACCAAAACCTGTTTAACCTCAACAATCTCCCCTTACCACCAAACTACGCTAAGATTGTTAACAACCAGGGGGACCTGCGTATTGCCAAGGTCGGCTTCTCGTGGACGACCCTCTGGTTTGGCCCCATCCCGGCTCTCTTCCGGGGGGACTACTATAATTTTCTCCTGATGATCGTCCTGGACATGGACTATGTCCTGGTGGCAATGTTCTTTGGCTGGAACCAGCTGCTTGAATTCCCGTGGCCGTCGATTGCGTTCGGCTTCTTCTACAACATGATGTACTTCAAGCATCTCTTCAACAAGGGCTACCACCCGGCCGACCAGCGCTCCCGTGAGCTACTGACCCGGGCCCGATACTGGAAAGAATAA
>SRR1151252_00382 poly(glycerol-phosphate) alpha-glucosyltransferase
ATGCTATTTTTCTTAAATGACGGCATTCAGGAAAATAAATCGGGGATCGAACACGCCCAGATGAAGCGGCTCAAGCTGTTCAAGCAGTTTGACCAGCCGGGCAAGATCGTCACCCGCCAGTACTCCAACGAGCTCCACCTGGTGACTGAGCACGCCGGGATCGCTGACGCCGACTTCGTAAACCTATTCGACTATTTCCAGGACGCCTGCACCGTCACGCCCAAAGACGTCACCATCCGCGACCTCCAGCTTGATCCGTCCTGGCGCCGGCAGGCTGATGGCATCAACTACTCCTACGCCCGTGATGGCCACCGGATCCTCTATGTCCGGCGGCGCAACGACGCCAAGAAGCACATCATCAACTTGCAGTACTTCGACCACTATGGCAAGCTGCTCAACGTCAAGTGGTATGACGTGCGCGGCTTCCTCTCCGTAGAACAGGTCTACGACTGGCAGGGCAACATCACCACAGAGAACTACTTCACGCCGACCGGTAAGCTGGCCCTCCAGCTGGCCCACATGAAGGACAAGCGGGGCAAGGAGATCAAAACCTACCACCTCTTCGATTACCGCGGTCAGGACTATCAGTTTGCCGGCCTCGACGAGCTGACCCGCTTCTTCTACGACCAGCTGGTCACCGACCGGTCGATCTGCGGGGAGGGTCCCGTCGGTCTGGTCGTTGACCGGGTCTACGAGGTGGGCTGGTCGGTCCTCCACATGAAGAACCGGGTGCCGCGTTACATGCAGTTGCATAACGACCATATCAACAATAACAACGACATCCTCCACTCGACTTTGAACTACAACTACGAGTGGGGCCTGCACCACCTCACTGCCTGGGACGGGGTAATTGCTCTAACCCCCCAGCAACAGGACGACGTCAAGGCCCGCTTCAGCCAGGCTGGGGTCCCGATCTTCCGGATCCCAGGACCGATCGTGCCCGATGCGGTCTTGAACAAGCCCCACGTGCCGTTTGCAAAGCGGACCAAGAACCGGGTGGTCATGGTGGCCCGCCTGTCCCCCGAGAAACAGCAGGACCAGTTGCTGAAGGCCTGGCCACAGGTGCTGGCCAGCGTTCCCGGTGCCCATCTGGACTTCTGGGGCTACGCCAATGACAACTTCGACCAGCAGCTCAAGAAGATGGTGGCCGACGAGGGAATTGGTCATTCGGTTACCTTCCATGGCTACACGACCGATGTCAACGCCGTCTACGAGGATGCCCAGTTACTGATCTTGCCGAGCCGGGTCGAGGGCCTGCCGCTCTCCCTGGTTGAGGCCCAGTCGCACGGCCTGCCGATCATTGCCAACGATATTAAGTACGGGCCCGCCGACGTGGTGATCGACGGGCGCGACGGTCTGTTGACCACCAACGGCGACATTGATGGCCTGTCCCAGGCAATCATTGCCCTGCTGAGTGACCAGGACCGGCTGGCGAAGATGAGTGCCAACGCCTACGCGGACAGTGAACGCTACTCGGCGCCCAACGTCATGAAGCTCTGGCAGGGGATCATCACGGATATGCAGGAAAAGGAGGCCCAGAAATAG
>SRR1151252_00383 poly(glycerol-phosphate) alpha-glucosyltransferase
GTGTTTTTCTTTGTGAACCAATACCTACTCAGTAGTAATTCGAGTGTTGAGCACGCTGAGATCAAGCGGGTCCAGCTCTTCACCGACCACGGCGCGGCCGCCAAGATCGCCACCCGTGACTTTGATCCGGTCCTTCACCATACTATGCCGCGCTTCGGCCTCCGTGACGACCAGCTCGTCAACATGTTTGACTTCTTCGCCGGAACAACGGATTATCAGGGGCGGCCCCGTCATACCGAGGACCTTCACCTTTCCGCTGACTACCAGGTTGGCACTGGGAACAACTCTCGCGAGGTCAAAGACGGACAGCGCCTGGTCGCTGAGGTCTTCTTCGCCGGGGGCACGGTCGGCGAGGTCAACCGGGTCGACTGGTACGACCCCGCCGGTAACCTGACCCTCCGTCAGCACTACGACCTACGCGGTTTCAAGGTGGTCGACGCCTTTTTCGGCCAGGACGGCCAGGAGTTCTTTGAGCGCTACTACCGACCGGACGGCAGCACCTACCTGGAGCGCTACTACGTCCAGTCCGTCCAGAACACGCCGATCAACTCCCTAAACGTCCTGCGGGACTACCAGGGCCATGACCACTACTTCGACAGTCTCGACGACCTCTTCACTTTCTTCCTCGACGAGTTGAACCGGACTAACGGCACGGGCAATACCTTTATCGCCGACCGGCCGGCGATGGCGATCCAGCCGGTACTGGGGATGACCAGTGATGCCAAGCGTTACCTCTGGCTGCCGATCAACCACGTCGACGATGGCCAGGACCCACTGAACGGGCCGCTGGACGGGATGCTCCAGGAGCCGCTGACCAGTGAGCTCAAGCGGTGGGATGGCATCATCGTGATGACCGACCACCAGGCTGAGAACCTCCGCCAACGGATCGGCGACCAGATTCCAGTCCTGGCAATTAACGGGACGCCGGTCAAGCGGTCCGCGACAACCGTGGCGATGGCCGACCGGACACCGGGTCAGCTGATCTACGTCGGCCGGCTGGGTGAGGACAAGCAGGTTGGTCAGCTGCTGACAATGTTTGCTGCCATCCATAAGCAGGTGCCGACCAGTCGGCTAACCCTGTACGGCTACGGGGTAGCAGAGGATGTTAAACGCTACAAGGACCAGGTCAAGCAGGCCGGTCTCGACAATTGTGTAACCTTCGCTGGCTACCAGGTCGACCTCACCACTGCCTATGACCGGGCTCAGTTGTTCGTCGATGCCAGCCGGATCGACGCCCAGCCGCTAGCGATGGGTGAGGCCTTGAACCATGGGGTGCCGGTGGTTAGCTACGACTACTCATACGGCCCGGCCGACATGGTCCAGTCCGGGGTCAACGGCGAGCTGGTCCCGCTGGGCAACCAGGATCGCTTCGTTGCCACGGTCGTCAAGCTCCTGGAGGACCCGACCGCCCTGCAGCGGCTGAGCACGGGTGCCTACACCAATCAGGACCCAATCAGCGAGGCAACGACCTGGGCGCAGTGGACTCCGGTCTTAGACAATGAATAA
>SRR1151252_00384 oligo-1,6-glucosidase
ATGAAGAACAATCATTGGTGGAAGAACGCGGTGGTCTACCAGATCTACCCGAAGAGCTTCCAGGACAGTAACAACGACGGGGTCGGTGACCTCCAGGGGATTATCAGCCGCCTGGACTACCTGCAGAAACTGGGGGTCGACATCCTCTGGCTCAACCCGATCTACGAGTCACCCCAGGTCGACAATGGCTATGACATCAGCGACTACCGGGCGATCAATCCAACCCTGGGGACGATGGCCGACTTTGACCAGCTCTTGGCCGCCGTCCACCAGCGGGGAATGAAGTTGGTCATGGACCTGGTCGTCAACCACACCTCCGATCAGCACCGCTGGTTCGTGGCGGCCAAGCAGGGGCACGATAACCCCTACCGCGACTTCTACATCTGGCGGGACGGCAAGGATGGCCATGCCCCGAACAACTGGGGCTCCTACTTCTCGGGTCCGGCCTGGAAGTACGATCCGGCCAGCGACCAGTACTACCTCCACCTCTTCGCCCCCGAGCAGCCAGACCTCAACTGGGCCAACCCCAAGGTGCGGACGGCAGTCTACGAGATGATGAACTGGTGGGCTGACAAGGGGGTCGACGGCTTCCGGATGGACGTTATTAATTTGATTTCCAAACCCCAGGGCCTGCCGGACGGTCCCCAGAGTGCCGACGAGAAGTATGCTACCGTCGAAGGCTTCGTACCCAACGGTCCTCGCGTCCACGACTACCTGCGCGAGATGAACCGACACGTCATGAGCAAGCACCGGATGATCACAGTTGGCGAGACGCCGGGGGTCACCCCGACCGACGCCCAGCGCTACGCTAACCTGGACAACCAGGAGCTCAACATGGTATTTCAATTTGAACACATGAACCTCGATGCCAACCCGAACCCGGCCCTGGGCAAGTGGTATGATCAGAAGCCATGCCTGACCGACCTGCGCGCCAACCTGTCTAAGTGGCAGACTGAGCTGGCAGGGACGGCCTGGAACTCGCTCTACTGGAACAACCACGATCAGCCCCGGGTCGTCTCCCGCTTCGGCGACGTTTCGACTGAGGACTACCGGGTCAAGTCGGCCAAGATGCTGGCGACAATGACCCACTTCATGCAAGGCACCCCCTACATCTACGAGGGTGAGGAGATTGGCATGACCAACGCCGGCTTCACCAGGCTGGCGGACTACGTGGACCTGGAGTCGTTGAACGCCTACCACCAGCTGGTGGAGGAGCAGGGGTTAGTCGACGGGCCGACGATGCTGAAATATCTGGCGATGCACTCGCGAGATAACGCCCGGACGCCGATGCAGTGGGACGGCAGCGCCAATGCCGGCTTCTCGACCCACCAGCCCTGGGAGAAGGTCATGGCCAACTACCGGCGGATCAACGTTGACAACGCACTGGCCGACCCCAACTCGATCTTCTACTACTACCAGCGTCTGATCAGGCTCCGCCACACCATGCCGGTGATCACTGACGGGGCCTACGCCCTGGTGGTGGGCAATGAGGACGATCCGGCGGTCTTCGCCTACACCCGCCACGACCAGGAGACGACCCTGCTGGTTATCCTAAACTACACCGCTCAGCCCCTGGAACGGCACTATGATATTCCGGACACCGCTGAGCGCTTGATCAGTAACTACCACGATGATCAAGGTGACACCCTCCGGCCATACGAGGCCAAGGTTTACCAATACTAA
>SRR1151252_00385 YSIRK Gram-positive signal peptide
ATGGTATCGAAGAACAATCATAAGTTTCAACAGTACAGGCAGGAGGACAAGAAACAACGATTCGCCCTCCGGAAGCTGACGATTGGGGTCGCATCTGTCCTGCTGGGAACGACCTTCGCCATTGGCGGGACGGTTGCGCACGCCGATGAAGTAACGCCGTCAACTACCACTCCAGAAACTGAACAAACAGCAGCGAATGGAGATGAGCACAAGCCTCAAAGTGGCGTGATTGACCTTAACGTAAAGCAAAGTAGCATTGCGACTCCTGCTGAATCTGACAATAACGCAAAAACCAGTGCAAGTTCAGTGGCAGTGGTGCAACGTATCCAGCCTGATGGGGCTACTAAGGCATCCCAGTCGTCCACGTCAGCGTCGAATGAGGCTAATGCTGAGCAAGTAGCCCAAATAATTCGAATCAAGCGTCGACGCCTAATTTTGCACCAGTAG
>SRR1151252_00386 hypothetical protein
GTGTTGGCACAGCAGGCTGACACTACGACAGTTCCTACTGATCAGGAGAACGAAGGGGTAATTAACTTTACCTTCCATGATAAGTTTACAAATAGATCCTTAGGCTGGATGTCATCAGTGGATGGTAAAACGCGGACCAATCAGAGCTATCAGTTTGGATCTGAGTATGTCGGCAAAACGATTGGTGACTACATCAACGCTAATGGTACTGATTGTCTGAATCATATTCTTCGACAAATTTCTGGATATAAATACACGGGTGACTTAAGTGCTCTCAAGCAAACGGTTATTACTGGTGACGATCAGCGGATTTCGCTTGAATACACGCGTTTATCGCCAATATATGTGCGCTATATCGACTGGACCAATAAAAAGGTTCTCTATGTAGCTAATTTTCATGTCCAAGATATAGCCTTGCCACAAAATTTTGATGATAAAAATGCATATAAGGGTGATACTTTTGATACGTTACCGATTGATCCATCGGGATATACAGACCTCGGTAGTGATGGTTACCAAGCCAACATTCCCGGGTATACTTATAAGCAAGTTCATAGTCAGGTAACATCTGGTGATATTACCCGAACTTGGAAATCAGCGACGGATTCTGACCCGATTATCATTGACTACCTTTATGAAGTTAGTGATCCGGTGGTCGCAAAATACTCGCGAGAACATCCAAAACCCGGAAAGTCTGTCCAAATGGATATCGGGCCGCTCTTTGGATATATCCAAGATCAATTTAATTATCCCTTAGCCAAACAGGAATTAAAGAGATTATTAACAAAAAATGGTGTAGCCCTTATCGGTGGTGTCGCCATTAGGGATAGTTATCTTTACTTATACAGCCACAGCTCCTTATTATTACTTCCTTGGTAA
>SRR1151252_00387 putative mucus binding protein precursor
ATGGCGACGGTGAGTGCTACGCCGACGTCAGAGCACCTTACAGCTGGCCCAAATCGGAACCCGTATTTTGGCAACTGGACATCTGAAAAGAACCCTTTTCCTAACTTGGTCTTCCATAAGGTTGATCGATCGACAAGTGGTCGTTATGGTATTTTCCCTCAAGAGGTTAACTATTACTACCTGCTGATTGCTAAACAACAGCAGGAAGTTAAGACGGCAACCCGAACGATCCACTATGTTGCAAATGACATTCATGGTGAGCAGCTTCAGAAAGATGCTACCCAAACGGTTCAATTAACGGGAACCTACTTTGTAGATGCTAATCAGAAGCGGGTAAACGCTGTTGAACTGAAGGACGATCAGGGTAAGGTTCAAACAGATACGAACGGTAAGCCAATTTTCGTCGTTACAACGGGCGATGCAACGGAAACCTGGAAAATTGATAATAAGTCAGATGATGTAACAAGCAATGTTGATCAATCAGTCACGTTTGGTGCAGCGCAGGGCGATGAAAAGCCTGATTCGATCCACGTTAATAACAACTGGTCAGCTCAGCATAACAATGTGCCAACTGGTGATTGGATATATGTAGACGAATCTAATAATAAGGATGCTAGCTTTGCGCCGAAGAATGCAGCTGATAAGGACACGACGCTGGATCCGGTTTACCTGATCTATAAGCAGCGGGCCAGCAAGCAGACCGAAAAGAAGACGGTAACTCGGAAGATCCACTACTATGAAAATAAGGTTGGTGGTACCGAGCTTTCATCTCCGGTTACTCAGCATGTAACGGTAACTGGCACCTACTATGAAGCCAACGGCAAGCGGGTCAATGCTAAGCCGCTGACGGATGCCCAGGGTAACGATATCTATGTTGTTACCGATGGCAACGCGACCGAGACTTGGATGGTTGATGACAAGTCAACTGATGTTACGGTTGATAATCAGAAGTACAACTTTGCAAAGGCTACTAGTGAGAATGGTGAGTACCATGCCTCATTTAAGGATCCTGTTAAGTCCACCGACGCAAAGTATGATTGGCATTATGTTGGAGATAATAACGGGACCAACCAGGAAGCCACGTTTGACCCAGCGGCCATGACGAATGTTGTCTGGGATGCCGACAATGGTAAACTCGCCGACGTTGATCTGATCTACATGCAGAAGGCGACGACTGCTCACAAGAAGATTACCCGGACGATCTACTTCGTTACCGATGATCATGATCACAAGACGCTTAAAGATAAGGTTGATCAAATAGCTAATCTATCATCGGACTTCTACGTTGGACCCGATGGTAACCCGGTTGCGGTTAAGAAAGTCGGTAACGACTATTACGTTGATCCTGATGGTACGGTGCCCGCTAAGGCCTGGACAGTTGATGCCACGGGTAACGTGGGTGTTACCGATGGTGCATTCAAACAGATCGTACAGGATGACATCAAGATCCCAAGTGGGGACCTACAGGGTAACTGGCATATCAAATATGCTGCTAATGATAGTGCAGACAGTACCCATCTAACTGAAAATAATGCCCCGCAGACGGTACTTAATACTAACGCTAAGAATGGGTCACACCAGGATGTTTACCTGGTCTACAGTCATGACGTCAATGCCGACATCACCTACTGGGACATCACTGACGGTATGGAGCACAAGGTTCAACTTGGCAAGACCGATAACGACAACGATGACCATGGTAAGACTGGCAGCACGATTAGTCTTAACAATAACAAAAAGCGGATTCCTGACCTTAAAGCTGACTACTATGTCTTTGTTGATACTGATTACCACCAGGGTGATAAGTACGGCAATGAAGACAGTCACTTTAACGTTTACTTCAGCCACGCTGTTAAGCAAATTACGTCCAAGACGCCAAGCAATAAAGTGCCTAAGGACAAGGATGGCAATCCAGTTGTTGACCCATCTAGTTTGAAGAAGAAATTCACTCGTAATATCTACTTCAAGGCAAATACTGAAGATGGCCCAACTTTAAAGGATTCAGTTCAACAAAAAGTTGAATTCAATGGTACGGTCTATGTTGACTTGGTCGATAAGACAACAGCTACTCCAGAAACCGTCAAGGATGTTAACGGCAACGATGTTCAAGTGGCAACGACCACGCCAGACACTGTGAAGTGGGATGCTGCTGGTAGCCACACCATGAATAAAGTTGAACAGCACTTTATCAAGCTGGCTAAGGGCGACAAGTACGCAACTAGCTCGGACATGGTTGGTACTTGGCAATTGACGTCTGGCAAGGCTGACCAACTGACCTTAACGCCAACGTCTAAGAATCCGAACGACGAAACACTCGTTTATATCTTGCAAAAACACGACACTGGTATTCCAGAAGTTCATCCGGATAAGCCAAGTATTGATGTTAAGCAGGAAACCAAGACGTTTATCCGGACGATTGTTTACCGTGGGACGAAAGACCAGGGTTACAGTTACGAAGACGTCAATGGTTCACCAGAGAAGACACATAAGGTTGTCCAAAAGATTACTTACACTCGCAACATTCTTAGTGAAGGTGATAAGGTGCTTGAAACTACTCCATGGACTAGTGAACAAAAGGGTTTGAGCGCCGTTAAGTCACAAGATCCAAAGAGTGTGGGTTACGATCGTGTGGATAAACCACAAGTCGATGGTCGGACAGTAAATCCAGATACGGATAATACTGATTTAGGCACGATTGTTGTAACTTACACCACTGATCCACATCATGAAACCGGTATTCCAGAGATCCACCCAGAAAAGCCAGCGGTCGATGTGACGACGGAAACCAAGACCTTTGTTCGGACGATTGTTTACCGGGGGACCAAGGACGGCAATAAGACCTTTAATGCTGTTGATGGTTCACCGGATGGCACGAGTTCTTATAAGCAGACGGTCACCTTCACCCGCCATATCCTCAAGCAGGGTGATCAGGTCCTCGAAACGACGCCGTGGACCAGTGACGACCCAACCATGGCCAAGGTTGATTCCAAGACGCCGGCCACGGTTGGTTACGAGATGGTCGACAAGGACGCCGTCGAAAGTGTCACGGTCGAGCCAGACAAGTCACCAGAAGACCTTGGTAAAGTGGTCGTTACCTACCGGGTTAACCCCGTTGAAAAGACCTCGGTATCGCGGAACATCTACTACCGGGATGCCGCAACGGGTAAGACGATCAACGAGGAACTCGGCAAGGACGCCGCTCCAGCTGTTAAGCAAACCGTCGACTATGTGCGGATGCCAATCTTCAACCGCTTCGGCCTGTTCTTTGGCTTTGCCGAGTTGGCTACCAATAAAAACGGCACGGTTAAGTTCAATGGTGATGGTCAACCAGTGATTAAGAAGGATGCCAACGGTCAACCAGTGATTGCGACGACCGATCCTAACCAGGCTTGGGTTGCCAGTGGTATGCATACCGAATACCCTGAGCAGGGTTCACCAGATCTGACCAAGTATGGTTACAAGAAAGTTCGGGCACTCGATAGCCGTGATGAGGACGACCATGATAGCGGTAAGGCAGTCGGTAACAAGGCCTCTGACCCAACGAGGAATGGTGCTGACGTCAATGTTTACTACTTCCACGACCAGGATGACGTAACCTCGGACCGGCCGGAATATGGCATTGATGTTAAGAACCTGGAAAAGACCTTCATTCGGACGATCGTTTACCGCGGAACCAAGGACGGTGGTAAGACCTATGAGGCAGTTAATGGATCACCGGAGCATACGGCCAAGTACCAGCAGACCGTTACCTTCACGCGGCGCGCAGTTATTGATAAGGTAATGAAGAAGGTATTGAGTTACACCGATTGGGTAGCAAAGAAGGCCGGCATGGACGCAGTTGCTTCGTAG
>SRR1151252_00388 hypothetical protein
GTGGCAAAGTCGAGTCAGCCAACGACACCGAAGAATCCGGAGACACCAACGAGTCCAACGACACCGAAGAATCCGGAAACACCGACGAGCCCGACAAACCCGACGACACCAAGCTCAAAGACCTACAAGACAACGGTCAAGTACGTTGACCAAGACGCCCACGAGCTGCTCCCATCAGTTGATGGTCAAAAGGACCTGAAGCCAGGCGAGGGCTTTGACAACGCTGGTGCCAAGAAGGACGTAATTACGATACCTGATGGTACCCAGTACAAGCTGGTCAAGCACACGAACGTCACCGGTCAGGCGACAGCACAAGGTGCGGTGACGGTCTACGTCTACGAGAAGGTGACGACCCCAACGCCGGGTCAAGCCACGACGCCTAGTCACACTAAGACACCTGATCAGACCGGGACACTGGCTCAGCCAACAACGCCGCAACCGGCACCGCAACCCGATCAGTCGCAGCCAACGCCAAGTGCCACCCCTGAGCCGACCGTTCAGACCGTGGCGCCGGCACCGGCTAAGACGACTGCTACTGCCAAGGAAACGCCAACCCAGTCAGCCGCACGGCAGCTGCCACAGACCGGTAACGTCAAGGGCGCAACTCTTGCGGCATCCATCCTCGGTGTGATGGGTGCGGTTCTGGGCCTTGGCCTCGGTAAGAAGCGTCACCATGAATAA
>SRR1151252_00389 L-alanine-DL-glutamate epimerase
ATGAAAGATAGTCTTATCATTCAACACGCAGCAACACAACTCGTCAAGATTCCCCTCAAGCGCCCGTTCGTCACCCGCCTACACACGGTCACGGCAATCAACGCGGTCAAGCTGAAGGTCACCCTCGCCAACGGGATGGTCGGCGTCGGGGCCGCCACCCCTAATCCAGTGGTCACCGGCGACAACCTGACCAGCATGAAGGCGATCCTCGATGACGTCATCATTCCCCAGATGATTGGGGAGTCCCTGACCCACGTCGAGCCACTGGAAAACAAGCTCCAGGCCTGTGTCGTTGGCAATCCGGGGGCCAAGGCGGCCTTCGACATTGCCGTTTACGACCTCCTCTGCCAGGTCTACCAGGTCACGCTGAACCACCTACTCGGCGGCAGCAAGCAGTCGATGGCCACCGACTACACGATCAGCATCGGTGACCGTGACCAGATGGTGGCTGAAGCCCGGGCCCTAGTCGAGAAAGGTTTCTCCGCCCTGAAGATCAAGATTGGCAACGCCCCGGTGGCGGAGGATGTGGCCACGGTCACGGCGATCGCCCACGCGGTCGGGCCCCAGATCAGCCTGCGTCTGGACGTCAACCAGGCCTGGTCCTACAAGCAGGCGCAACGGGGCCTGGCCCAGCTGGCGGCGGACGGATTGAACATCGCCTTCGTTGAGCAACCACTGCCAGCCGACCAGCTGCACGAGCTCGCCCTCCTGCGTCAGGAGAGTGACCTGCCGATCATGCTGGACGAGAGCGTCTTCTCGCCGGCGGACGCACTGCGGGCGGTCAGCGCCCACGCGGCCGACTACGTCAACATCAAGCTGATGAAGGCCGGCGGGATCTACCAGGCCACCAGGATCAACCAGATCTGTGAAGCAGCCGGCGTTCCCTGCATGGTTGGCTGCATGATCGAGGCCCCGGAGAGCATTGCGGCGGCCGTGGCCTTTGCCAATGCCCACACCAACGTCCGCTTCATCGACCTCGATTCGATCTACATGATCGACGAAAGCGTGGATCTCGGCGCTGTCAAGCGGGTCGGCACCCACCTCTGGCACGCGTGA
>SRR1151252_00390 Fe-S cluster assembly protein HesB
TTGACCCGCGGCCAGGGGGTCAAGCTCTTCGGCAAGACGGTCCAACCCCACCATGTCGCCCACACCCCCGACCAGGGCTTCGCAGTTGAGGACGACCTCGCTGACGCCGTCTTGACCACCAGTAGGGACGGGATCAACTACTATAACTTTGCCGACGAGTGGTTCTTCTCCGGCCTGGTGACGACGGTCGACTACCAGTCTGGCACTGACCAGCCGCGCTTCACCTTCACCAAGGAGCAGTCAACCATGACCACCACGCCGACGAGTGATTCTCCGACTCCGGCAACCGACGCCTCCACCGCTGCTTCGCAGAAGTTCGAGGATTACTGGGAATAA
>SRR1151252_00391 LysR family transcriptional regulator
ATGGATATTGAACAGCTCAAGAACTTCCTGGCAGTGGCCCAGCTGGGCAGCTTTCAGCGGGTCGCTGACCAGCAATTCATCTCCCAGCGGACCGTCTCCAAGCAGATGACCAGCCTGGAGGACGAGCTCGGGGTCCAACTCTTCTTCCGCGGGCCGAACAAGATCACCCTGACCAACGCGGGCGCCTACTTTGTTCAGCGGGCCACCGAGCTGCTCAACCAACTCGACGACAGCATCATCAAGCTCCACAGCATCAGCCAGCGAAACTTCCAGCACCTCCGGATCAGTTACTTCTCGCCATTCGAGGGGCGGCTTCTGGTCCGCCACATCCACGCCTACCAGGATAATCCCGCCAACGTCCCCATCCGCTTCCACGTCAGCGAGGCCAGCATCGAGCACCTGATCGCCGACGTGACCATGGGGATGCTTGACTGCGCCTACATCCTGGATTATGGGACCCACGAACACCTGGTCCACGCCGAGCTCACCAGTACGACGGTCGCCGACGGGGAGATGGTCCTCGGTCTCAGCCGGCGCAACCCCCGCGCTGACAAGGACTTTCTCACCAGTGCGGACCTCGCCCAGCGGCCGATCCTCTACTACAGCAATGAGAGTTCGACCTACCTCCAGACCGCCTTTTTGGCCACCCTAAAGTCGCGTAATCCGGAGTGCCAGGTCCAGCGGGTGGGAACGATCGAGCAGATGCAGACCCTGGTGTCGCTCGACCAGGCAATAGCCTTCTACCCCCAGAGTCTGCCCCTCTTCCCCAGTGATGAGATTGTCTACCGTCGCCTTAAGACTAACGGCTCCTTTGCCAACCAGCACTACACCGTCCAGCTAGTTGCCCGGACCGACAACAACGTCAACGGTCTGACCGCCTACCGGGACTTTCTGGTCAGGCACAATCGTTGA
>SRR1151252_00392 fumarate reductase flavoprotein subunit
ATGAAGAGCAAACAAGATAATTATGATGTTGTTATTGTTGGTTCCGGAGCTGCCGGCATCGCGGCTGGTTTGACGGCGGTTCAGGACGGTCACCGGGTGCTCCTGCTTGAGAAGGGGAAGACCACCGGCGGGAGCAGTAACTACACGGAGGGGCTGGTTGCCATCAATTCCTACCTGCAAAAGGCCAAGGGGATCAAGATCAAGGCTACCGATGTCCTGAGTGAAGAGGTGAACTATTCCAAGTACAAGGCCGACTCACGGATCTGGCGCGACTATATCAACAACAGTGCCGAGAACGTCCAGTGGCTTCATGATCAGGGCGTTGAATTTGAAGGCGTTCAGGCGATGGGGGCCGGGGAAGCTACCTGGCACATCTACAAGGGGATGGGTCATGGTGTGATCCACGATGTTCTCCAGCCGAAGTTTGAACAGCTGGGTGGTGAAGTTCTGACACTGACCCGGGCAATTAAACTGACCCGGCAGGCCGACGGACAAGTGCGGGTAACCCTGCGCGACCACCGGACCGGTGACAAGTATGACGTAACTGCTCGGGCCGTGGTTCTGGCCGCCGGTGGTTACCTGAACAACGCCAAGATGATCGCTACGGAAACCCCCTATGACGAAACCCGGCTGGTCCCGGTTAGCTCCGGAAAGGGGACCGGTGATGGCCTGCGGATGGCCTGGAACATCGGGGCGCAGAAGTACGGCACCGGGATGGCAATGCTGTTTGGTGGCTACCTACGTGACGAGGACGAGCCATCCTACAAGATGATGGCCTCCCAGATGAACACCGCAGCCGGTCAGCAGCCCCTCCTCTGGGTCAACCAGGACGGGGAACGCTTCGTCAACGAGGAGGTTGTCTACAACTTCTCCCTGGCCGGCAACGCTCTCTACACTCAGTCTCAGGTTTACAGCATCCTGGACCAGGCTGTGATTGATAAGATGGCTACGACTGGTAACTTCATGGGTCTCGGGATCTACTTCAAGCGGGGCCAGAAGATGGACCAGTTGCAGGACGAGCTCGACCGGGCCGTCGCCGCTAAGAAGTCCTTCATCTTCAAGGCCGATACCATTGAGGACCTAGCCCGACAGATGGGGCTGCCGGTCGAGAAGCTGACCGCGACGATTCAGCGCTACAACCGATTTGCTGACCAGGGGAGTGACGATGACTTCGGCAAGGATCCGAAATACCTCCAGAAGGTTGCCCAGGGGCCATTCTACGGCTTCCACCTGAACATTGGGGCCTTCTGCACCATGGGTGGTCTGAAGGTGACCCCGGCCAACGAGGTCTTGAATGACCACGCCCACGTCATTTCCGGCCTGTACGCCGCGGGAAACGACGCCTCTGGACTGGTCGGCGACACCTACGGCCCTAACATGCCGGGAACTTGTGTTGGTTACGCCTTCTACTCCGGTCGCAACGCTGCTCACCATATCAACGATTACCTGAAGTAG
>SRR1151252_00393 TrmA family RNA methyltransferase
ATGACACAGAATCACACGAAACAAGATGTCACCGTCAATGTGGGGGACCGCTTCCCACTGACGATTCGCCGCCTCGGGGTCAACGGCCACGGGATCGGCTACTTCAAACATAAGGTCTGCTTTGTTCCTGGCGCCCTGCCCGGGGAGGTTGTCGTCGCCGAGGTCACCAGGGTTATGCCGCGCTACCTGACGGCCAAGATCCACCGTCTCCGCCGCACCAGCAAGCACCGGGTCACCCCGCGCGATTCCTACGCCGACGTGGCCGGGGGCTTTGAGCTCGAAAACCTCGCCTACCCGGAGCAACTGAAGTTTAAGCGTCAGGTAGTTATCGATAGCCTAGCCAAGTTTCAGCCCTATGGTTACCGTAACTACGAGGTTCGGCCAACGATCGCCGCGCCCCAAGAGTACGGCTACCGGAACAAGGCCCAGTTCCAGGTCCGGATGATCGACGGCCACGTGGCCGCTGGGCTCTACAAGCCGGACAGCCACGACCTAGTCGATATGCAGGAGTGCGCGGTTCAGATGCCGCAGACGGTGCACGTCGTCCGGACGATGGTCAAGCTGATTGAGGAGTTAGACATCCCGGTCTATGACGAGGACCACAACAGTGGAATCATCAAGACCCTGGCGGTACGGGAGTCCCGGACAACCGGTGAGGTCCAGCTGACGATCATCACCAACACCCCCAAGCTGATCCACAAGCACCAGCTGCTCGATGCCATCGCCGACCAGCTTCCCGAGGTCGTCTCGGTCATGCAAAACGTCAACCCCGGCGATACCCCATTGGTCTGGGGCGACCAGATGATCCACCTGGCCGGGAAAGACGCGATCACCGAGAGCCTGATGGGGCTGGACTTCAAGCTCTCCGCCCGGTCCTTCCTCCAGTTGAATCCTGAGCAAACCGAGACCCTGTACGAGGAGGCGGCCAAGGCCCTCGACCTGGCACCAGAGGACACCCTGATCGATGCCTACGCCGGGATCGGCACCATCGGCCTATCCCTGGCCTCCCGGGTCAAGGCAGTCCGCGGAATGGAGGTCATCCCTGAAGCGGTGGCCGATGCCAACGAGAACGCCCGGGTCAACGGAATCACCAACGCCGAGTATGTGGTCGGCAAGGTCGAAGAGATCCTACCCCAGTGGCAACGTGACGGCCTCAATTTCGACGCCCTGGTAGTCGATCCGCCGCGAGCCGGCCTCGACGACGACCTGATTAAGGCAATCCTCAAGACTAAGCCGCGCAAGTTTGCCTACGTCTCCTGTGGGATGGCCTCCCTGGCCCGTAACCTGCGCCGGCTGACCAGCGTCTACCATGTTGACTACATCCAACCGGTCGACATGATGCCGCAGACGGCCCGCTGTGAGGCGGTCGTCAAGCTGTCCCTGCGTAAATAA
>SRR1151252_00394 DedA family protein
TTGTCTACTTTAATAGATTTCATTCTCCATATTGATGTCCACTTGATTCAGATTGTTAATCAGTTTGGTAACAGTACTTACTTCATCCTACTAGCGATTATCTTCATCGAAACGGGAGCGGTTATCATGCCCTTCCTTCCTGGCGACTCGCTACTTTTTGCAGCTAGTGCTCTTGCGGCTGATCCTCGCTACCACCTTAATATTTGGATTTTCGTCCTCACCTTCCTAATTGCCTGCCTAGCTGGGGACTCTATTAACTTCCTGATTGGGCATAAGATCGGAAAAAGCCTCTCCAACCACTCCCTCTTTGGAAAGCTTATCAATAAGGAAAGCCTTGCTAGGGCAGAGGGATTCTTCGAAAAACACGGGGCACCAGCGATCATCCTAGCCCGTTATATGCCGATTATCCGGACCTTTGCCCCCTTTGCAGCCGCTGGATCCGGGTTCCCCTACCAACGTTTCATCCGCTATAGCATTATCGGTTGTACCAGCTGGGTGGCCCTATGTTGCGCCTGCGGTTACTTCTTTGGTAACCTTCCCTTTGTTCAGGAACACTTTTCGATTATTATCCTAGCTATTATCGTGGTAACCCTGATTCCGGCCATCGTCGGTTTTATCCGTTCGAAGTTTAAAAAGGCCTAG
>SRR1151252_00395 membrane protein
TTGGTTAGCATGGTGCTTGGCGTTTGGCTTTTGGCAAAACAAAAACGGCAGGGGCAACTGTTATCCGTGCTCTTGCCGTTGAAGTGGCTATTTTATATGATTGTGATGACTGTATGGATACCCTTGATCAACTTCTCAAGGGATTTTGTTTGCTTCCATCAACTTTTGTTTAATAATCAGGACTGGATCTTTGTACCTAGCCGGGACCCAATCATTCTGGTGATGCCGGAGGAGTTTTTCTGGCACCTCTTTATTATTTTTGTAGTGATTGCGATTACCTTGTTGCTGCTCCTATGGGGGTGGCTAGCATCTCAGCTAGGCCTTTTTAAACTTCGAACGGATAAAACCGACGATGGCCGGAATCAGGGTTACCACGATAATAGCTAG
>SRR1151252_00396 HAD family hydrolase
ATGAAAAAATATCAGGGATACTTTATTGATCTTGACGGGACAACATACAAGGGCACTAAACGTATCCCCGCCGCGGCCCGGTTTATTAAGCGGCTGCAGGCGGCGAATAAAACAGTGTTGTTTGTAACCAATAACAGTACGCGGACGCCAGAGTTCGTGGCTGCTAACCTTCGCGACAATCATGATATCGACGTCACGGCTGCTAACGTCTACACGACTGCCCTAGCCACTGCCGATTATCTGGACAGGGTAGCCGGCGATCGGCGACAAGCTTACGTGGTAGGGGAAAGTGGCCTGCGCGATGCTCTTAAGCAGCGTCACTTTATACTGACTGATCACCAGCCCGATTACGTGGTTGTCGGGCTCGACTCGCAGGTCACATATGCCAAACTGGAGACGGCCGTATTGTTGATCCGGGCCGGTGCCACTTTTATCGGGACCAATGCGGATAGTAACCTGCCTAACGAACGTGGGATGGTGCCGGGCGCTGGTTCATTGATCAAACTGGTTGAGTATGCCACCCAGCAGAAACCGGTAATGATTGGTAAACCTGAGGCCACCATTATGCAGATGGCGTTGCAAAAGACGGGACTGTCGCAAGAAGAGGTAGTAATGGTTGGCGACAACTATAACACGGATATTCGGGCTGCTATTAACACGGGGATGGATAGCCTACTAGTCTATACGGGGCTGTCAACACCGGAGCAGGTAGCGAAGATGACGATCCAGCCCACCCATACGGTGAAAAATCTTGATGAATGGGCAATTGAGTAA
>SRR1151252_00397 transcriptional regulator
ATGAACCGAGCAAAAATACAAGACTACATTGACCAACGTGAGGAACAGCGTGCGGACCTGTACCACTTTGCGGCCCAGGACCACGACCGCTTTACTCTCAACGGCCACCCTTACGAGCTGGTCAAAGAATACCGTGACGGTTTCAACGGTACGGAGCTGGCCAAGCGCTATAGTAACATTCTCAGTAAGTACGACTACATCGTCGGGGACTGGGGCTATGAACAGTTGCGACTGAAGGGCTTTTATGCCAAGAGTAACCCGCATTATAACCCTGAACAGGGGGCCGATACGATCGAGGACTACCTCTATGAGAATTGTAATTTTGGTTGTGCCTATTTCATTATCCATAACGATGATGTGCGAGTGCCTCGGCGGCGGCGACGGAAGAAGAGTCCGGTAATTAAGGAACGACGTCGTAAGCTCAAGCAGCCAGGGGTTCGGCACCGTCGTCACCAGCAGGCTGAGCGGGTCAAGACTAGTAACCACCAGCAAAAGTTTGTTATCCATAAGCGTCGACAAGGAGCAAAGAAATGA
>SRR1151252_00398 metallophosphatase
ATGCAGTTTGTAACGGCCGATACCCATTTCTTTCATAGTGACCTGCTAGGGGTTGACGACTTTGCGCCGCGGCCCTTTCCCAATGTCCAGGTGATGAATCAAACCATTATCGACAATTGGAATGCCAAGGTAGCCCCTAACGATACGGTCTACCACCTCGGAGACATTGCCCTTTACTTCACCAAGCCGGCTAAGGAATCCCACGCGGCAGTCCTGGATGTTTTAAACCAGCTCAATGGTCACCTGGTCCTGATCAAGGGCAATCATGACAGCCGGGACCTCTTTAAGTACCTGGCAGCCCATAACTATGAATTCGGTGGGGCGCCCAAGTTCCGTTTTCACGATGTCGGGGTCCTGCTGAAGTATGACCACCGCCAGTACTATCTGACCCATTACCCGCTGATGCTCGGGATCGCCCCACAAATTATCAATCTTCACGGTCACATTCACCACTATGCCGTCCCCGTTAAGGAAAACATTAACGTCGGCGTTGATAGTCCAGAGCTTGACTACCTGGCAGCCAAACCAGCCTTTGGTGAACCGCTGAACTTCGCCGAGGTGGAGCAGATGGTGGAGGGCAAGGCTGCAGACTTTGCCAAGCGGCAATAA
>SRR1151252_00399 acetate kinase
ATGTCAAAAACAATTGCCGTTAATGCCGGTAGTTCAACGTTAAAGTTCAAGTTATTCGATATGCCAAGCGAGGACGTGGTTGCTGAAGGAACCATCGAACGGATTGGTGAAAAGATGGGTCATGCTAAAATTAAGTACGGCGATGGCCAAAAGCACGAAGAAGAAAAGCCATTTGAAGATCACGGGGCAGCCGTTAACTACCTGCTGGACCAATTAATTGATTTGGGGATCGTCAAGAGCTATGACGAAATCACAGCGGTCGGTCACCGGGTCGTTGCCGGTGGTGAGTTCTTTAAGGATTCTGCTGTTATCGATGATGATGTCATCAAGAAGATTGACGAATTATCTGAATACGCTCCCCTTCATGACCCTGCTGAATTAGTTGGGATTAAGGCCTTTCGCAAGGTTTTGCCGAATGCCTTTGCGGTTGCTGTTTTTGATACCTCCTTCCATGTCAACATGCCAAAGATGAACGCCCTCTACAGTGTGCCATACGAGTGGTACGAGAAGTACGGTGCGCGGAAGTATGGTGCTCATGGGACCAGCCACCGTTACGTTGCCGGTCGGGCTGCCGCCATGCTGGGTAAGCCACTTGAAGATCTTAAGCTGATTACAATGCACATTGGAGCCGGTGCTTCGATCACGGCCGTCAAGGGTGGTAAGTCCTTCGATACCTCAATGGGCTTCTCCCCACTGGCTGGGATTACGATGGCTACCCGTTCTGGGGATGTTGACCCATCACTGGTTGCCTTTGTTCAGGAAAAGCTGGGGACAACCTCACAGGAAATGATCGACACCTTAAACCACAAGTCCGGTTTGCTGGGTATTTCCCAACTCTCACCTGATATGCGGGATATCCTGGCAGCGGCTGATAAGGGTAATGATCAGGCTCAGCTGGCTCTTGATATGTACGTCAACCGGATTGTTCGGTACGTTGGTGCCTACATCGCCGAAATGGGTGGTGCCGATGCGATCGTCTTCACGGCCGGGGTTGGTGAGAACAGTGTCCCAGTCCGGAAGATGGTTACTGATAAGCTGGCCTACTTCGGGATTAAGATTGACCAGGAGAAGAACCAGTGCCACGGTGTTGAACGTGATCTGTCAACGCCGGATGCTAAGATCAAGACCCTGTTGATCCCAACCAATGAAGAGCTGATGATTGTTCGTGACATCGAACGTCTGAAGAAGGAACAGGGTAAGTAA
>SRR1151252_00400 adenine-specific DNA methylase
TTGCAGGCGGCCCTGCGAAGCTCTTACCTGGACGCTATGCTCGAGAACATTGAGAATCTCATTAATAATGAGGTTCAGGTTGAGGACGGGGTGCCCGATTCGGCAACGGTCAAGAAGTTGACGGAGATTTACCGGCAGCTCAATATTACCGATACTGATCCTGAGACTCTCCGTCAGCTGGTGCAGCTGAGTTTCTTGAAGGTGATTCGTAAGGATGCCATTCAGGCCAACCACCAGATGACACCGGACACGATTGGATTCTTGATGGCCTTTCTGATTGAGAAAGTCACGAAGATTAACCGGCCGTACACTATCTTTGACCCGGCGGTTGGAACCGCTAATCTATTGACGACGGTCATCAATCAGCTGCAGAGGGCCAGCAAGGAGCCCATCCACGGTTATGGGATCGACAATGATTCTGCAATGCTGGAGGTTGCCAGTGCAAGTGTTGCTTTGCAGAAGTTGGACGTGGACTTGTACCACCAGGATGCAATCAACGCGCTGGACATTCCACAGTGTGATCTGGCGGTGGCCGACCTACCAATTGGTTACTATCCACTGGACCAAAACACCGAAAACTATCAGACCCGGGCAAAGGAAGGTCATTCCTACGTTCACCACCTGCTGATTGAGCAGTCGATGAACTATCTGCGACCGGGTGGCTTTGGGGTATTTTTGGTACCAAGCAACCTGTTCCAGACCAAGGAATCGCAGTCATTTGTCAAGTGGATTCAGTCGGTCGCTTATTTACAAGGGCTGGTTAACCTGCCTGCCGAGCTGTTTGCCAATCCGGCCGCCCAGAAGGCGATTCTTCTCTTGCAACGTCAGGGAGGCGACAGCAAGCAGGCAACGAAGGTTCTCCTAGGTGAATTCCCGTCATTTAAGGAGACCAAGGAATTTGCTGCCTTTGTGAAGAAAATCGATCATTGGGTTGCCACGAATTTAGTTCAATAA
>SRR1151252_00401 hypothetical protein
ATGGTGAAGAATTGGTGGGGATTATTCAGTTTTATCACGAGTAAACGTCCTGGTTACGCCCTGCTGACGGCGATGATTGTCCTAATAGTAATTTGTTTGACGGTGGTTTGGCAATATCATTATTACAGTCAACAATGGCTAATTGAGGACCGGCTGGCGCGGCAGTTTTTCCGTGAGGCTGTCCATAACTTGGCAAATAAAAAATAA
>SRR1151252_00402 hypothetical protein
ATGAAACGACTGACCGGCTTTACGATTATCGAGTGTGTGCTGGCGCTTGTGGTTGCGTCCCTGACGTTATTACTAGCGGGATGGGGGATGACCGCGCTGGCAACCAGTAACCGTCATTCCTTAGATAGTCCGGTTGACTGGTACGTCTTCTTGCAGGAAATGGAGGCCGACAGTCACCACTTTATTTTGAGGAATGTGGGCGAGGACGAGCTCCAGGTATTTAGCCCCCATACCGGTCTGGACTATACTCTTCAGGGACGTGATGCTCTGTACCTGAAGGCCTGGGACCGGGGCGGCTACCTGCCACTATTTGACGGCATTAAGGGGGAGACATGCCGTTTTAAGCGACTTCCCGGTCAGCGGGTGCGTGTGGAGGTGAGACGAAAAAATGGTGAAGAATTGGTGGGGATTATTCAGTTTTATCACGAGTAA
>SRR1151252_00403 hypothetical protein
TTGAAAAGGTACCGGATTAAGGGATTCGTGATGGCTGATAGCATTCTGGCTCTGACGGTGGTGACGCTCGGTATTGTAACCTTACTGACTGCTCAACAGCAGCTATCCCGCCAGCAGGGTCAACATGATGCACGGCTGATTGCTGCCCGACTGGCGAAGGAGAGTAGTGACCAACTGGTGGCCACGGGGCGGCCAGCGATCATTGAGCGTGGAGGTTATCGGGCCCGGGCCACTCTGGATCAGGTTACGGTTTACCATGGTTCGCGATTGGTGGTGTTACTGAGAAAATGA
>SRR1151252_00404 hypothetical protein
ATGAGGGCGAGCCGAGCCTTTACCAGTGTCGAAATGATCGTGGTGATGGGGCTGGTGGCGGTCATCTACCTTCTACTGGTGCCCAACTTTCAGCCGAGTCGACAGGCAATTGTTGAACAAGAATTCTGGCACGGGATGCGGCAGGAATGGCGAGCCGCTCAGGTTGCCGCCCAGGTCCGCCACCAGGTAACGGTGATTGACTACCATCCTGCCAGCCAACAAATTGCGTTTGACCGGGATGGTAACACAACCTGCTTGAATATTCCGCCGACGCTGAAGGCTGACCGCTTCAGTAGGTTCATGATTGATGGTTCGGGGTATACGGCTCCCCAGACGATGCGGTTCACGTCCCAGCGTGAGCACTGTAGTTACCTGATGAAGATCCAACTAGCGTGGGGAGGTTATCGACTTGAAAAGGTACCGGATTAA
>SRR1151252_00405 competence protein ComGC
ATGATCAAAAAGTATCTGACGAAAAAACGCGCTGGGTTCACCTTACTAGAAATGTCAATTGTACTCTTTATTATTAGCCTGTTGATCTTGATCATTCTGCCGAATCTGGCCCAGCAACGACAGAACGCCAACCGGATTCACCGCAATGCGATGGTTTCAGTTGTCCAGACCCAGGTTGACGCCTACGAAAATGAAACAGGGAGCAGTAGTGTGAGCCTGGATCAGCTTAGGGAGCACAACTATCTGACGCCGGCCCAGGTACAGAAAGCCAAGAAGGAGGGAATTGCGATTGTTGACGGGAAGGCGGTCCACCGATGA
>SRR1151252_00406 competence protein ComGB
TTGATCCACGACTTGCTGACGGTTGGCTTTTCACTTCAACACGCCCTGAGATTTACCAAGACGGTAATGCCAGGCTTGACCCCGCTCCTTGATGACGTTGAGCGGCAGCTAGCGGCGGGCGAGATGCTGGCAACCGGCCTGCAACGCTATGTCAGCCAGGACCTCTACTATCAGTTGCGCCTGGCCGAATTACACGGCGCCCTAGGGCAGACGTTAAATGAGCTGGGAACACTCCGGATGGCCGAGATCCGGCAGCGACGTAAGCTTCGTAGCCTCCTCCAGTACCCGTTGATTTTACTCGGAATGTTGGTAATGGTCGTCAGCGGTCTCGTTATCTTCGTCTACCCGGAGCTCAATAGCTGGCAGACGCAATCGGCAAACAATCATTGGCAGGCCCTAGCAATCAACCTAGGTGCTTACCTCCTGACTTTTTTACCGATTATCGGCGGATTTAATTGGTACCGGTGGCAACATTTGTCATCACGTCAGCGGATGATTCGGCGGTGCCACTGGCCAATTGTGGGCCGGAGCTATCAACTGTACTACAGCTACTACCTGACGACTAACCTTGCGGGGATGCTCCGTCATGGCCTGTCTCTTCAAGAGATTATTCGGGTAACGAGCCAATACGGGGAGCAATCACTCCTGTACCAGTTCAGCGCCATCATTCGTCGTCTGGTGGACGAGGGCGAACAATTCGATCGCGTGATTGTTTCGTACCCCTTCATTCCCGACGAGCTAGTGGTCTTTATCAACAAGGGGATTACCATGGAGGAACTGGGGGATGAACTGGCCGTTTTTGCCCAGCTGCAGTTTAAACGGCTGGTACACTCGATTGAACGGCTACTGGTCTGGGTACAACCAGTGGTCTTCGTCCTGATTGCGGCAGCAATTGTTAGCTTGTACCTTAGTATTCTCTTACCGATCTATCATTCATTACAGGGGGTTGCCTAA
>SRR1151252_00407 competence protein ComGA
ATGGAAGCCTTTGAAAAGGACCTGAATGTGATTACCAGCCGGCGGATTGCTGACCTTTATGTTCTGCCGTTTAAGCACTACTACCGCTTGATGGTGGCCCAGCAGGGGCAATTGGAGCTGTTCAAGGAGGTCCCAACTGACTATGGCTGTCGACTGATTGCCTACTTAAAATACCGGGCTGACATGGCCGTCAGCGAGCACCGGCGGCCACAACTGGGGGCAATGAATTGGCACTGCGGCCCAGAGAAGATCAACCTTCGCCTGTCTAGTGTCGGCGACTACCAGGGTCGTGAATCACTGGTGGTGCGCTTCATCTACCAGCTAACTGATGATCGTTACCACCTGCTTTTTCCACAGCAGTGGCAAGAGCTCAAGACCCTCTTGCACCGTCGGGGGCTAGTTCTCTTTGCGGGGCCGATGGGGTCGGGGAAGACCACGACGATGTACCAGCTAGCCCGTGAACTGACCCAGGACCAGGTTGTGATGACGATCGAGGATCCGGTTGAGATTAATGAGCCCCGTTTTATTCAGCTTCAGATTAATGAGTTGGCGGGAATGGGCTATCAAGAGCTATTGCGACTGGGGCTCCGTCATCGACCTAACGTTTTTATCATTGGGGAGATTCGTGACCCCCAGACAGCCATGATGACGGTTCAGGCGGCTTTAAGTGGTCACCTGGTGTTGGGAACGGTTCACGCGCGGGATGCCTACGGGGTAATCGCACGGCTGGTTCAGCTGGGGGTGGCACCATACTACCTCGAGCAGGTGATGACCGGCGTGGCCTATCAGCGCTTGATGACGCGAAGCAATAATCAGTCAGCGGTCCTGTTTGACCTGCTGAGTGGTCCGACACTAGTTGATGAGATCAGGCAACAAAAGGGGAGGGGGATGACCGATGCGTGGACGCGATACCTGGAAGAGGCGGTGGCGACGGCCCAGCTTACGCCTAAAGAGGCGAACCACTACCAAAACGGTTAA
>SRR1151252_00408 transcriptional regulator
ATGTCAGGACATTCAAAGTGGCATAACATTCAAGGACGTAAGAACGCCCAAGATGCTAAGCGTGGTAAAATTTTCCAAAAGATCTCACGTGATTTGTACCAAGCAGCTAAAGCAGGTGATCCTGATCCAGCGAACAACGCCCAACTGCGTTTGGTAATTGATAAGGCACATGCGGCTAACATGCCAAAGAAGAACATCGACCGGGCCATTGCTAAGGCTTCTGGTATTGGTGGTGCCAAGTTCGAAGAAGTAACTTACGAGGGTTATGCTCCTGGTGGTGTTGCTGTCATGGTTTCAGCACTGACCGATAACAAGAACCGGACCGCTTCGGCAGTTCGTTCTGCCTTCAGTCACTCTGGCGGTTCCCTCGGGGCTAGTGGTTCCGTTTCCTACATGTTTGACCGGAAGGGCCTGATTGAAATCCTTCGTGACGGTCTGGACACCAGTGAAGATGACATGTTGATGGACGCCCTGGATGCGGGTGCCGATGACATGAAGGCCGATGACGAGAAGTTCCAAATCTTCACCGACCCAAGCAGCATGGCCAGTGTTCGTGACGCCTTGCAATCCAAGGGCTACGAACTTGACACAGCCGAAGTAACGATGATCCCACAAAACCGGACCGCCGTTCCTGAGGACAAGGTCAAGCAATACCGTCACTTAATTGATGAATTAACTGCTAACGACGACGTTGCCGACATCTACGAGACTGGGATCCTGCCAGATGATGATGACGAAGAAGAATAA
>SRR1151252_00409 hypothetical protein
TTGACAACGCGTAGTGAATTACGAGCCCAACGGGAGACCGCCCAACAGGAGACCGTCCAACAGGACGAAGTAAAGGCCGTACCCGAACCGAACCCGGCCCCGGTCAGGCGGCATCACTTCTTTAACTTCTGGGGAACCATTTTTTTGGTCCTTTTCGTGTTGAGTATGATTCTCAATGCGACGATCCTCAATCCAAAGTTTATCCTGCATGAGGTTCACGACTCGGTGGTGGAGACAACCATCACCGATCAGGTTAACGGTGCCCTGGAGCGGTATGGAGTCCCGACCTCGATTATGACCGATAAGGATACCGACCACCTGCTTACCCAGGCGGTCAACCAGGTCTATGCTGGTAAGAATATTCACCTGGACCTCAATCAAGTAACCCAGCGAGCCGGGGCAACGGCCGACAATGAGCTTGCCCAGTATGGGCTGGCAGGAGTTGGCAGCGCGGTCTCGGCTAACCTGGGGCAGAATGTCAACAACGTAGTTAACAGTCAGTTGAATACGCCCATGGTGGCGCGCCTGGTCAGCGGTATTCACCTTGCCCGTTTGACCAGTAATGCCGTCTTCATGGTGACTGGTATTGGCCTGCTCATCCTTGCTGTGATAGCGGTACTCGGCCGACACTTTGCCCGCAGCTTCAGTCGGATGGGCCTCTGGACGGTGGTGATCGACGGTGCCCTGTGTACCGCTGTTGGCAAGCTGGCTCCGCAAGTGGCGGCTGATCAGCCCGACTACACCGCCTTTGTGGCCCAATTAGCGACCGCCTTCTTGCACACGACTGTCGCGACAATTGGCCTGGTTCTGGCAGTGACCATTGCCCTGTTTATCTGGCGGATGGTTGGCAGCCGGTTGCTTTCCCACCGTTGA
>SRR1151252_00410 catabolite control protein A
ATGGAAAAACAATCAGTAACAATTTACACCGTTGCACGTGAAGCACGAGTATCGATGGCAACTGTTTCACGGGTTGTCAATGATAATCCAAACGTTAAGCCAGCCACCCGGCAGAAGGTGATGGACGTCATCAAGCGCCTTAACTACCGGCCAAACGCTGTGGCACGGGGCCTGGCTTCCAAGAAAACAACCACGGTTGGGGTCGTCATTCCCCAGATCACCGACCCGTACTTTGCGGACCTGGCCCTCGGAATTGATGATATTGCCTCGATGTATAAGTACAACATCATTTTGACCAACTCAGATAACGATGACGACAAGGTCCTCAAGGTGGTTCGCAATCTTTTGGCCAAGCAGGTCGACGGGATCATTTTCATGGGCTTCAATATCCCTGATGAACTGAAGGAGGAACTTAAGAGTGGCAACACACCAGTGGTGGTCGCCGGATCGGTAGTGAACGACGATGAACTCGCGACGGTTCGGATCGACTACCAAAATGCAGCCAAGGAGGCGACACTCAAGCTCCTTGACAATGCCAAGGATCACGTGGCCTTTGTCACCAGTTCACTGAAGTACACCATCAACGGACGGGACCGGTTAAACGGTTATCAGGCTGCCCTAGAGGAACGGCAGGTTGCCCTTGACGATCAGCTGGTGGTGGAAACCGATGGGAGCTACCAGTCTAGCTACGACCAGGCAAAGAAGTTAGTGGCTGCCGGTGCAAAGGCGGCCTACGTCAATGACGATAACCTGGCGGTGGGCCTACTTAACGGCCTGACCGACAACGGGGTCAAGGTACCGGAAGACTTCGAAATCATTTCGTCCAACGACACGAACTACACAAAGATTGCCCGGCCGACGATCTCATCCATTACGCAACCGACATATGATATTGGGGCCATTGCCATGCGGCTGTTAACCAAGCTGATGGATGGCGATGAGTCAACCACGGACGAGAAGGATGTTATCCTGGACCACGGTTTTGCCAAGCGGCAGTCGACCCGGTAG
>SRR1151252_00411 hypothetical protein
ATGGCGGTAATGATCGCGGTTGTGGCTCCCTATTTTTATATGGAGTGGTTCATTAGTCATCGTGGGCAAAAAAATAAAGCAGGGGTATCACTAATCACCAATTTTTTTGCTGAAAACGTTTGCTATTTTGGGACCGATCTGCTATATTAG
>SRR1151252_00412 hypothetical protein
ATGAGTAAAAAGGTATTAATTGGTGCACTGCTGGGAAGCGTAGCAACTGCTGCTGCCTGGAAGCTCCTGCCAAATGAGAAGAAGACGGCACTGAAGCAACAATTTAATGAGAAGGCGACCGGCCTGGCCGACCGGGGTACGGACTATGCCTTAGATGCTCTTGACATTGTTGACGCCAAGATGGCTGAGGCCGAAGCTGACGATAAGCTCAGCGGAATGGTCAATAGCGTCAAGGGTGCTAAGGATAAGGTTAAGCAGACTGCCAGCCACCTGGCTGACCGGCTGACTAACGATGACTTTGACCAGGAGACAGCCGATATTCGTCAGGAGTTGGCCAATGTTGCCCATCCGGACGACAATGATGACCGGGTGGTTGATGACGATATCGTGATTGACGCAACGGATGCCGACGATGAGGCAAAAAAGGCTGACAAATAA
>SRR1151252_00413 chemotaxis protein
ATGACTTTTGGACAGTTAGCGGGCCTGATTGCCGCAATTGCCTTTTTGATCCTGGTTGTGTTCGCCTGCGTTGTGCTGACTCAGCTAAGTAAGACGATGAAGGAAGCCAACGCCACAATTGCGGTTTTGACCCGTGATATGGATAACCTGAGTAAGGAGGTTGAGGATGTCCTCGGCAATACTAATAGCCTGCTCGATGATATCAACAAGAAGTCCACTCAACTGGATCCGGCTGTTAAGGCGGTGGCTGACGTCAGCCAGAGCGTGATTGATGTCAACAACAGCCTGCACGAGATGACCGAGAAGGTTAATGCTCGTCGCGAGAAGGCCCAGCTAGGGATGAGCCTGCTAAAGACCGCTGGCAAGGCTGCTGTTGTTAATGGCATTGCCCGTTTCAAACAACGGCGTGCGGAAAAGAAGGGAGTCGATACTGATGAGTAA
>SRR1151252_00414 small-conductance mechanosensitive channel
ATGGTCATCGCTGCCAGCAATGCCCAGCTTAACAAACAAATTGAGGAGGTACGCAAGGCCTTTACCGACCTGTCCTGGCACCAGATCCTCCAGCAGTGCCTGAACAAACTCCTGCTGATTATCCTGACGATCATCCTGTTTGCCTTTATCCTCTGGATCGGCCGTTTGACCATTAACCACTTGTTTATGGAATCCAACAAACACCAGCTGCTTAAGAATAGCAACCGGCTGGCAACCATTCGCGCCCTGACCCTCAACATCTATCGCTACACCTGCTACTTCTTCTTCCTGTACGCCCTCCTATCCGAGATCGGCGTACCGGTCGGAACCCTGATCGCTGGGGCAGGAATCTTCAGTATCGCCCTCGGGCTGGGGGCCCAGGGATTCGTCAGCGACCTAGTCAACGGCTTCTTCATCCTCCTCGAGCAACAGCTGGACGTGGGCGACGTGGTTGAGGTCGACCAGATCAAGGGGACCGTCACTGCCCTGGGGATCCGAACCACCAAGGTGACCAGCGCCGATGGGACCCTCAACTACATCCCCAACCGTAACATCACGATCGTCCGGAACTTCTCGCGCAACGACATGGTCGCTAACGTCGACATCCACATCGCACCGAGCGCGGTAATCAGTGAAGTAGCCGCGACGGTTCGGGCGGTCAATCAGAAGTTGGTCGCCACCACCCCCGAGTTACGTGACCAACCAGTGATTGTCGGGCCGGTCACGATCGGCACCCAGCTGGCCTTCCGGGTAACAATCACCGTTGCCAACGGCAGCCAGTCGCAGGCAGCCAGCAAGTTCCTCGCCGCCTACCTTCAGGCCCTGCACGCTAAAAACATTCCATTATCATGGGAGGGAGAACACCACAATGAGCATTAA
>SRR1151252_00415 haloacid dehalogenase
ATGAGCATTAAACTAATCGCCACCGACATGGATGGCACCTTCCTGCGTGACGACCATCAATACAACCACCGCCTCTTCAAACACCTCTTCCACCAGCTACAGAAGCGTCACATCCACTTTGTTGCCGCAAGTGGGTCCAGCTTTCCCCGGCTGGCCCGGGAGTTTCAGCCCTATATCGACCAGATGGACTTCATCTCGCAGAACGGTTCGGTGATCCACCACGGCCAGCAGTTTTTGACGGCCTACCCGATCGAGGTAACCGCTCTGAAACGGGTAATGCATATTCTCGACCGCTTTTATGGTCCCCAGGACATCAACCAACTGGTCGTCTCTGGACCAACGACCTCCTACGTTGACCAGACGATGGATGATCAAAACTTCGCCGTAATTAAGCTCTTCTACGAGGATGTGGTTCGGGTACCTGATATCCGCCAGGTCTTCAGTCAATATCCCGACGAACAGTTTACCAAGATTTCGGTCAACTTCGCACCACACATCAACCTCAACAAGGTGGCCGCCGTGATGGATGGCTACCTGCCGCCGTCTCTAATCATCGAAAATTCCGGCTTCAATACCGACCTGATTGGCAATGCCAAGGGCACCAAGCGTAACGCCCTGGCTGTCCTTCAGCAACGCCTCCATCTGGCTGACGATGAGATCGTTACTTTTGGCGATAACGAGAACGACCTGGGGATGCTGGCGATGACTGCTCGTAGCTACGCCATGCAAAACGCCAACCCGGTCATCAAGCTCCAGGCGGCCCACACGACTGCGATCAACAATAACCATGACGGCGTCCTCAAGACCATCGAACAGTTACTCAAGAATGACGCCTAA
>SRR1151252_00416 hypothetical protein
ATGATTGATCAACACCTGCAGCAGATGCTCTTGACCAACAAGCAGAAGTTCATGATCCCAGCCAGCTTGGTGGCCACCGTCAACGTTACCAACAGCCTTGACCATGCCTTCCTGGTGCTGACTAAGGACCGCTATGCCAAGATCGTGGTAGTCGATAACGACAACCGGTACCGGGGCCTGATCTCGCTAGCGATGATCACGGACCACCTCCTGGACACCCACCGGATCGCCATTAACCGCCTGCAAAAGCTGGTGGTCGGCGACGTCATGCAAACGGACGCCCCAACAATTACCGACCCCTTTGACGTTGAGGAAAACCTCCACCTGTTGATTGACCAGTCCTTTTTGACGGTAGTTGATGGTACCCAGCACTTCCAGGGGATTGTTACCCGTCGGGAGCTGCTGAAGGCGGTTAACTACACTGTCCATAATTTTAATCACTTTTATCGGGTTCAGAATAAATAG
>SRR1151252_00417 metallophosphoesterase
ATGATGAAGGCCTTAATTATCAGTGACAACCATGGTGACCAGCGGATCCTTGAACGAGTAACCCAACAGTGGCAAGAACAGGTCGATCTCATGATTCACTGTGGCGACACCGAGATGGCGCCGACCCTGCCGGTGATGCAGCGGTTTAAGGTTGCTGTCTTGGGCAATAACGACTGGGGCCTGGACTATCCACTGGAGCAGACGGTGGTTACGGCCGGTCAGCGGATCTATGCCACCCACGGTCACCGTTACCAGGTTAACACGACCCTGACACCGTTGATGCTGAAGGGGCAAGAGCAAGGCGCCGACCTGGTTTGCTACGGCCATACCCACCAGCTGGCGGTAACGGTCGAAAGCGGGATGCTGATTATCAACCCGGGCAGCATCAGTCTGCCGCGGGGGCAGTACGCCCGGCTCGGGGGTACCTTTGCGGTGGTGGCGACGACGCCCGACTCCTTCGTTGTTGACTATTATGACCGTAAAAGTCAGCCGGTGGACGGCCTCCACTTCGTCTTTAATCGAAAGGGGGGACGGGCATGA
>SRR1151252_00418 nucleoside-triphosphate diphosphatase
ATGACCACGTTAGTAATTGCTACCAAGAATGCCGGTAAGGCGCAAGAGTACCGGAAAATGCTGGCGCCGCACGGTATCACCGTCAAGACCCTTGCCGATTTTCCGGCAATTGCCATCAATGAAAATGGGACTAGTTTCGAGGAAAACGCCACAATCAAGGCTAAAACGGTTATGCAGGCCCTGGACCTACCGGTGATGGCCGATGACTCGGGTTTGGTGGTTGATGCCCTAAATGGCGCCCCAGGTATTCATTCGGCCCGCTACGCCGGTGACCACGACGATGCGGCCAACAATGCCAAACTCCTCCATGAATTAGCCGGGGTTCCTGACGATCAACGAACGGCCCACTTCCATACAACCATCGTGGCCCTCAAGCCAGACGGAGCCAAGCTGGTTGCCAAAGGCCGGGTTGACGGGCGGATCCTCCATGAACGGCAGGGGGATAACGGCTTTGGCTATGATCCGCTCTTCTTCATTGATTCCCTGGGCAAGTCACTGGCCGAGCTGACAGCTGACCAGAAGAACGCCATCAGCCACCGTGGCGCGGCCCTGCGTGACTTTATGACCCGGTTTCCAGAATGGTGGCGGGCATGA
>SRR1151252_00419 glutamate racemase
ATGGATGAACGGCCAATTGGCTTAATGGATTCAGGACTCGGCGGCCTGTCGGTGATGCGGGTCCTGCACAAGCAGTTACCCAACGAATCGCTGGTTTTCGTGGGCGACCAGGGGCACTTTCCATATGGAACTAGGAGCCAGGCGGAGTTACAACGGTTGGTGCTGAACATCGGCCGTTTCCTGGTTGAACAGGACATCAAGATGATGATCGTGGCCTGTAACACCGCCACTGGTGCGGCGCTTCCCCTCCTCCAACGTGAGCTGCCAGTTCCGGTAATTGGCGTGATTGAACCCGGGGCCATCGCGGCGGTCCACCACCAGCTGGAGACGGTCGGGGTGATTGGGACTGCGTCGACGATCGAGAAGGGAGCCTATCCGGCGACTATCCACCGGCTGGCGCCCCAGATGACGGTTTATAGCCATGCAGCCCAGGCGATGGTGCCCGTCGTCGAACACGGCCTGACCGGGACGCCCCAGGCCCAGAAAACGGTCAATACAGCCCTGAGCTTCTTTGACTCACACCCGGTTGACGGGTTGATCCTGGGCTGTACCCACTTCCCGTTTCTGGCACCCGAGATCCAGCAGAAGATGGGACCGGACGTTTTACTGATTGATCCGGCCCATGAGACAATCAAGCAGGCCCAGGCGATGTTGACTGAGCAGGACCTGCTGACGGATCGGAACGGGGGAACGATTACGCTGTTTACGACCGGTGACCGGACGGACCTGGTGGCCGGGGCAAAGCAGTGGCTGGCTGGTCAGTTCACCAGCTGTGATCACGTTGACCTGTAG
>SRR1151252_00420 hypothetical protein
ATGAGTCAAAAACGTTATAATCAATTGCTAGCCAGTCATCAGGGGCTGATGAACGGTACCCTGCGCGATGTGATTCTCCCCAGCATCCTCGGCAAGGAGGCCGACGACATGCTCTACTGGATTGGAAAGGACCTGGCGCGGGAATATCCGGTGGCCACCCACGATGACCTGGTCATTTTGACTCATCAGCTGGGGCTGGGGGACCTCCAGCTGCGTCGCCACGACAAGACCAGCCAGGTCTGGCGGCTGGGCGGCCCCATCGTGGTTGAACGGATCCGCCGCGATGAGGAGCAAACCTCCTTTGGCCTTGAACTGGGCTTTCTGGCCCAGGAAATTGAATTTCAACTCGGCAGTGTGGCCGAGGCCAAGATTACCAATCGCCACCATGAGTATATCGACATCACCGTCAAGAACGACCCCCAGAGCGATGCCGATAGTGAACGCAGCGAGCTGGTAACCTTCATCCACGTTACCGCGCCACAGGACGGGATAACAACCCCGAAGAAAAAACATAAACACTCATTGCTGAAGAAAAAACACGCTGAATAG
>SRR1151252_00421 thiol-disulfide isomerase/thioredoxin
ATGGCTGTTAATGTAACGACTGACCAAAGTTTTGAACAAGATACGGCGACCGGGGTGGCCCTGATTGATTTCTGGGCTACTTGGTGCGGCCCGTGCCGGATGCAATCACCAGTGGTTGAGGCATTGTCAGAGGAAATGCCAGACGTCATCTTCTTCAAGCTGGATGTTGACCAAAACCCAGCGACCGCACAGCAGTTCCGGATCATGAGTATCCCAACATTGATGATCAAGAAGGACGGTCAGGTGGTTGACCAGATCGTCGGCTACCACCCGAAGGAACAGCTGCAGCAGATCCTGCAACAATACACGGCATAA
>SRR1151252_00422 DNA mismatch repair protein MutS
ATGAATCACAAGATTACGAAAACACTAGAATTTGCGCGCGTCAAGGGAATGCTGGCCCGCTACCTAGTTTCGGCGGCCGGACACCACGAGCTGGAACATATGGCGCCCCAGGGGGACTACGACCGGGTCCAGCACTACCTGACGGAGACCACTGATGGGGCTAATATCTTGCGCCTGGAAGGTGGGATCCCGATCCCCAAGCTGGCCGACATCCAGCCCCAGATGAAGCGGCTCAAGATCGGTGCCAACCTGAACGGGACGGAGCTGGCCCAGGTGGCTAAGGTCCTGCAGACCAGCATGAGCGTGCGAAACTTCTTTGAACAGATGCGAGAGAAGAAGATCAAGCTTCGCGTTCTTGACCAGTTGGTGGATCAACTGGTAACCATCCCGTCGATCACCCAGCGGCTGGTCCGGTCGGTAGACCCGGATGGCCGCCTGAACGATGAGGCCTCCACCAAGTTGCACGGAATCCGCCAGCTGATCGTCAAGACCGAGGGGGAGATTCACCAACAGATGGAGCATTACACCCGGGGCAAGGGGGCCAAGTACCTCAGTGAACCGGTGGTGACAATCCGCAATGACCGTTACGTTGTTCCGGCCCTGGCCCGTTACCGTAATAAGCTCGGCGGGGTGGTTCACGATCAGAGTGCCAGTGGGCAGACCCTCTACATTGAGCCAGCCGGCGTGGTCGAATACAATAACCGTCTTCGTCAGGCCCAGATCGAGGAACGGCAAGAGATGTTGCGGATCTTGGCAGAGTTGTCGGCTCTGATCGCCCCCTACCGTCATGACATCCAAAACAATGAACGGGTGCTGGGGAAGCTGGACTTCATCAACGCCAAGGCGGCCCTGGCCCATGATATGAAAGCCAGCCTGCCAGTACTGAGCCGGGAGAACCATGTCAACCTCCGCCATGCCCGCCATCCCTTGATTGACCCGCACAAGGTGGTCCCAAACGATATCAAGATTGGCGACGATTACCAGGCAATCGTGATTACCGGACCAAACACCGGTGGGAAGACGATTACCCTGAAGACGTTTGGTTTGATCCAGTTGATGGGACAATCGGGGCTCTTCATTCCGGCCGAAGAGGGAAGCACGATCGGCGTTTTCGACAATATCTTTGCCGACATCGGGGATGAACAGTCCCTGGAGCAGAACCTGTCGACCTTCTCGGGACACATGGACAACGTCAAGGCGATTCTGGAACAGATCACCAATCGCAGCCTGGTTCTGCTGGACGAACTGGGTGCTGGGACCGACCCAAAGGAGGGGGCGGCCCTGGCGATGGCGATCCTCGACCAGATTGGCAGTAAGGGAAGTACGGTGGTCATCACGACCCACTACCCAGAGCTGAAGGTCTATGGTTATGACCGGGCCAAAACGATTAACGCCAGCATGGAGTTTGACCAGGCGACCCTCCAGCCAACCTACCGGCTCCTATTGGGGATTCCTGGTCGATCTAACGGGATTGAGATTGCCCAGCGGCTGGGGATTGATTCGGCCGTGATCGATGAGGCCCGGTCGCTGGTTAGCGATGACAGTCAGGATCTCAATCAGATGATCGGTGACCTGGTGGCGCAACGCAAGGCTGCTCGTGAGGAGAGCGAACGCCTGAGTAAGCTGGTTGCCAAGAATGAGCGGACCCAGAAGGAACTGGATGAAAAACTGTCCCGGTTCAATGAGCAGCGGGATAAGCTCTTTGACCAGGCTCGGTCCCAGGCCAACCACCAGGTATCAATGGCTAAGCGCAAGGCCAACAGCATCATTCACCACCTCCGTCAGCTGGAGGTCCAACAGGGGGCCAACGTTAAGGAGAATCAGCTAATCGATGCTCAGGGGGCCCTGAATGCCCTGCACCAGGAGGATCCTCGCCTTAAGCACAATAGTGTCCTCAAGCGGGCCAAGGCCAAGCACGACCTTCACGTGGGGGATGCGGTTTTGGTCAAGTCCTATGGTCAATATGGTGAACTGCTCGACAAGCGTGGTAACCACAAGTGGGAGGTCCAGATTGGAATCCTCAAGATGGAGGTTGATGAGCAAGACCTGGAGAAGGTCGCCAAGAAGTCGCTGCCTAAGGAAAAGACGCCCCGACACTCAAGTGCTGTTCACACCGCTCAGACCCGGCACACCTCGGCCCGGCTTGACCTACGTGGTCACCGCTATGAGCAGGCGATGAGCGAACTCAGTGACTTCATTGATCATGCTCTATTGAACAATCTGTCTTCGGTCACCATCATTCACGGGAAGGGAACTGGAGCCTTGCGGAAGGGGACCCAGCAGTACCTGCAGAGTAACCCGCGGGTCAAGTCCTTTGGCTATGCCGCGCCAAATAATGGTGGCGATGGAGCCACGATTGTTAATTTATAA
>SRR1151252_00423 colicin V production protein
ATGATGGTCCTGTACGCCGGAACCTACCTGGTCAGCTGGCTGGTCGCCAAGTGGGGGGCCCGGGTAATCGGTACCAGCTTGAGCGGTCTGCTACCCGATGTCAGCCGTAGTGCAGCCTATTCGACGACCGTGTTAAAGACGGTCGACAACAACGTCTTTTTCTATAACGGGATTGCCTTCCTGGTGATCTTCACCCTGGTCTCGATCCTCTGTCACTGGGGGATTAGCAAGCTGCGCTGGATCAAGCGGCTACCGGTGATCGGCACCTTTGATCAGTTGGCCGGGGGACTCCTGTCACTGGTCATCGGCTACGTGGTGATCTACGTGGCTTTGGTGATCCTTCAACTGTGGCCAGCCGGTTGGTGGCAACTCCAACTGGCTAATTCGGGACTGGCCCAGTTCATGATCAACCAGACCCCGGGCCTGGCTCAGCTAATGCTTAATACGCTTAAATAA
>SRR1151252_00424 hypothetical protein
ATGAGTAAACAACAAGCTAATAACGATGAAAACTTAATCACCCTGATCGACGAGGATGGCAATGAGCAGCTCTTTAAGGAATTGTTCACTTTCGATTCCGACGATTATGGCAAGTCCTACATCTTCATCTACCCTGCCGAGCAGGAGAATGATGATTCGGTTGACATTCAGGCTTACATCGTGGCGGACAACGAAGACGGTGATGGGCAGGACCTGGTACCGATCGAGGACGATAAGGAATGGGACATGGTTGAACAGGTCTTAAACACCTTCCTCGATGATGACGGGAACTTCAATGCTTAA
>SRR1151252_00425 Holliday junction resolvase
ATGAGACTGATGGGGCTCGATGTTGGTTCAAAGACGGTTGGAATTGCGGTCAGTGATCCCCTGGGCTGGACAGCGCAGGCGGTGGAGATCATTCCCATCGACGAGGACAATGAGGTTTTCGGGATTGATCGCGTCGCCGAGCTGGTAGCCAAGGAGCAGGTGGCCGGGTTCGCGGTCGGCTTGCCGAAGAACATGAATAACACGGAAGGACCGCGGGTGGAGGCCTCTAAGCACTATGGAGACCTTCTCGCCCAGCGCTTTCCTGATATTCCCATTGATTTCCAAGACGAACGACTGACCACCGTTGAGGCTCACCGGATGCTGGTCGAGGAGGCCGATATCTCCCGGGCCAAGCAGAAAAAGGTGATTGATGAGGTTGCGGCAACCTTCATCCTGCAGAGTTACTTGGATCGTCACGGTCGCTTAGTTCAGAAATTAAAATAA
>SRR1151252_00426 hypothetical protein
ATGACTACCAATAACGATGAAACGATGTTCTATGACTTCGGTCAGGAACGGCAGAAGAATATCAAGGATACCCTCAAGACGGTTTACGAATCCCTGGAGGAGAAGGGCTATAACCCGATCAACCAGATCGTGGGTTACCTGCTGTCTGGTGATCCAGCATACATTCCCCGCCTAAATGATGCCCGGAACTTGATCCGTCAGCACGAACGTGACGAGATCATCGAGGAGTTGGTTGTGTCGTATCTGAAGAATAATGGTGAGACTAAATGA
>SRR1151252_00427 alanyl-tRNA synthetase
ATGAAAGAATTAAAGAAGCTGAACAGTGCTCAGGTTCGGCGGATGTACCTGAAGTTCTTTGAGGAGCACGGTCACAAGATCATGCCAAGTGCCTCATTGGTTCCGGTCAATGACCCAACCCTGCTTTGGATCAACTCCGGGGTGGCCACGATGAAGAAGTACTTCGACGGCAAGGTCGTTCCGGAAAACCCGCGGATGACCTCATCGCAAAAGAGTATCCGGACCAATGACATCGAAAACGTTGGGAAGACGGCTCGTCACCACACTATGTTTGAGATGCTGGGGAACTTCTCCGTCGGTGATTACTTCAAGAACGAGGTTATTCCATGGGCCTGGGAACTACTGACCAGTGACAAGTGGTTTGGCTTTGATCCCGAACGGCTCTACATCACCTACTACCCGAAGGATCATGACGCCTACAACAAATGGCGCGAGGTCGGCGTGGCCAAGGACCACCTGATTCCGGACGAGGACAACTTCTGGGACATTGGTCAGGGTCCATCTGGTCCTGATACCGAAATCTTTTATGATCGTGGTCAAGAATTCAACAACCTGGCCGACGACGATCCCGAGAACTACCCGGGTGGGGAGAATGAGCGTTACCTGGAGATCTGGAACATCGTCTTCAGTCAGTTCAACCACACCCCTGAAGACACCTACGAGCCGCTACCTCACAAGAACATCGATACCGGGATGGGACTCGAACGGGTGGTTTCCATCTTCGAAAATGCCCCAACCAACTTCGAAACCGACCTCTTCATGCCGCTGATCAAGCAGACTGAGGAATTCAGTGGGACGAAGAAGTACGGTGAAAACAAGGAAGATGACATCCAGTTTAAGATCATCGCCGACCATATCCGGACGATCACCTTTGCCATTGGCGACGGGGCCCTGCCGTCCAACATGGGGCGGGGCTATGTTATCCGGCGTCTCTTGCGGCGGGCCGTGGTGGCTGGCAAGAAGCTGGGTATTGACGAGCCATTTTTGGCCAAGATGGTCCCAACCGTCGGCAAGATCATGCAGGACTACTACCCAGACGTCCTGGAAAACGCCGACTACATTGCCTCCGTCATCAAGTCCGAGGAAGACCGCTTTAGCGCCACTTTGAACGGCGGCTTGAACCTGCTGAACAATGTGATTGCCGAGGCCAAGAAGAACGGGACCAACGAGATCGACGGGAAGACCGCCTTCAAGCTCTACGATACCTATGGTTTCCCAATCGAATTGACCAAGGAATACGCCAGTGATGAGGGCCTGAAGGTTGACCAAAAGGGCTTTGAGGCCGCCATGACCGAACAGCAGAACCGGGCCCGGAACGCCCGTGATATGGACAACGGGATGGGAGTGCAGACCGACCTGTGGACCGACTTCAAGGAAGATAGTAAGTACGTCGGCTACACCGACCTGACCGTTGACGACGCCAAGGTGATCGGCTTGGCTCACGACGGTAAGCAAGCCGATTCTGCCACTGCTGATGATAAGAACGTTGAGCTTATCTTCGACGTCACCCCATTCTACGCTGAAATGGGTGGTCAAGTGGCCGACACCGGTGACATCATTGACAACTATGGCAAGAAGGTTGGTCGGGTTGTCGACGTTCAGCACGCTCCGAACCAGCAAAACCTGCACCGTGTTGAGCTGACGGCGCCGATCAAGAAGGGGGCCCGCTACAAGCTGGTTGTTGACCGGCTGCGGCACCTGAAGATTGAGAAGAACCACACCGCGACCCACCTGCTAGACCAGGCCCTGCGGAACGTTCTGGGTGGGCACACCCAGCAGGCCGGGTCCCTGGTTGAGGAACACTACCTGCGCTTTGACTTCAGCCACTTCGGTCAGGTCACGGCTAAGGACCTGCAAGCTGTTGAGCAGATGGTTAACGAACAGATCTGGAAGGAAATTCCGGTCAAGACCGTCGAGACCGACATTGATTCGGCTAAGGAGATGGGGGCGATTGCGCTCTTCTCCGACAAGTATGGTGACAAGGTCCGGGTTGTCAAGATTGGCGACTACAACACCGAATTCTGCGGTGGGGACCACGTTAAGAACACCAACGAGCTTGGCCTGTTTAAGATCGTTTCCGAAGGTGGGGTTGGTGCCGGTGTCCGGCGGATCGAAGCCGTGACCTCCAGTGACGCCTTCAAGTTCCTCCAGGATCGGGATGACCTGCTGACCGAAACGGCTATCGAACTGAAGACCGCCCAGATCAAGGAGGTTCCTCACCAGGTTGCTGCTCTTCAGGCCGAATTGAAGGAAGCCCAGAAGAAGAGTGCGGCCCTGGAGGCTAAGATTGCGGCTCAACAGGCCAACAACTTTTTTGAAAACGTTCAGGACACCAAGCAGGGGAGCCTGATTGCGGCTGAGGTTAAGGTTGCTGGGATGGGTCAACTCCGGCAACTGGCCGACAGTTGGCGGGCTAAACAGCTTTCTGACGTGCTGGTCCTCGGGACGGCTAACGATGGTAAGGCCAACCTGCTGGTCGCCGTCAGTGACGACAAGGTCAAAGCAGGCTTGAAGGCCGGTGACCTGATCAAGGCAATTGCCAAAGCCATCAACGGTGGCGGCGGTGGTCGGCCAAACCTCGCTCAGGCCGGTGGGAAGAACCCAGCCGGGATTCAAGACGCCCTGAAGCTGGCCAAGGAATACATGGATAAGTAA
>SRR1151252_00428 DEAD/DEAH box helicase
ATGACCGAAAATAAGTTTAAGAACTTTAACCTACCACCGTACCTGATCAAGGCGGTCCAGGCGATCAACTTCTACCAACCGACACCGATCCAAGAGCGGGTCATCCCGGATATTCTGAAGGGGCAGAGCGTGGTCGGCCAGTCGGCAACCGGGAGTGGGAAGACCCATGCCTTCCTCCTGCCGATCTTTGCCCGGATCGATCCTGAAGTTCAGGCGGTTCAGGCGGTGATCACCACGCCGAGCCGGGAGCTAGCCTACCAGATATACGCTGCCGCTAAGCAGCTTAACAAGTTTGCCCCCCAGTCCCTGACTATTCATAACTACGTCGGCGGGACCGACAAGCAGCACCAGCTCGATCAGCTATCCCGTAAGCAGCCCCAGTTGGTGATCGGGACACCGGGGCGGGTACTTGACCTGATCAAGAGCCAGGCCCTAGACATTCACACGGCGACGATGTTTGTTGTCGACGAGGCCGATATGACCCTGGACATGGGCTTCTTGGAGCAGGTTGACCAGATCGTCAGCAACTTCCCGGAGGACTTGCAGATGATGGTCTTCTCGGCAACAATTCCTAAGAAACTGCGGCCGTTTCTGAAGAAGTACATGGCCAACCCCGAGGTCGAGGAGATCCCAACCCAGGCGGTCATCAACCCCGATGTGCAGAACTGGCTGATGTCAACCAAGGGGCAGGATAAGAACCAGCTGATCTACCGGCTTCTGACGATGGGTGAACCTTACCTGGCCCTCGTCTTTGCCAACACCAAGGAGCGGGTTGAGGAGTTGACCCACTACCTGGAGGAACAGGGACTCAAGGTCGCCATGATCCACGGGGGTCTGGAAGCACGTCGGCGCAAGCGCACCATGCGCCAGATCCGGAACCTGGATTACCAGTACGTGGTCGCCACCGACCTGGCCGCCCGGGGAATCGACATCGACGGGGTTTCCCTGGTAATCAACGATGACATTCCAACCGACCTGGAATACTTTATTCACCGGGTTGGTCGGACGGGTCGTAACGGGATGACCGGGACGGCGATCACCCTCTACGCCCCGGCTGAGGACGACCTGATTGCCAAGCTGGAAGAGCGCGGAATCAAGTTTGTTCCCAAGGAACCACGTGGCGGCCGGCTGGTCACTACCCACGACCGGAACCGGCGGAAGAACTACCGGCGTAAGCGCGACGAGCTGGACCCGTCCATGAAGGGCTTTGTCAAGAAGACCAAGCGCCGCGTTAAGCCGGGCTACAAGAAGCGGATCAAGCGGGCTATCAGAGAGGACGAGCAGCAAAAGCATAAGCTCGAGCTCCGTCACAAGATCCGCAAGGCCAAGCGGCAGCGCCAGCGGCAACACAGGCGGGAGCGGAATGCCCGTTGA
>SRR1151252_00429 phosphoesterase
ATGGCTGATCAATTAGCAGCAATTTTTGCACAAATTAAGAAGTACAACAAAATCATCATTCACCGGCACCAGCGTCCCGATCCGGATGCCATCGGTTCCCAGGTCGGGCTGGCCGAGATCCTGAAGGCCTCCTTCCCCTACAAGCAGGTCTACGTGGTCGGCAAGTACATCCCGGGCTTCGACTGGATCGGCACGATGGACGAGATTGATAACGAGACCTTCGACGACGCCCTGGTGATCGTTACCGACACCGCCAACGCTCCGCGAATTGATGATCGCCGCTTTAACAACGGAGACGAGCTGATCAAGATCGACCACCACCCGAACGATGAACCTTTTGGCGACCTGATGTGGGTCGAACCGGATGCTTCTAGCTGTTCGGAGATGATCTACGCCTTCTACCAGCACTTCGCCAAGGAACTCAAGCTGCCCAAGCAGGCCGCCAGTGCCCTCTACGCCGGGATCATCGGTGATACCGGCCGCTTCCTCTACCCAGCTACCACGCCGCGGACGATGCTGGTTGCCGGGGCCTTGATGGCGGCGGGGGCGGATGCTAGTGCCATCAGTCAACGGGAAAACGAGATTACCCTGCCACTGGCCCGTCTGTCGGCCTACGTTTACGAGCACCTGACCATTCTGGAACACGGGGCCGCATACGTGGCTTTAACCAATGACCTGTTGGCCAAGTTTGGCCTGAGCGAAGCCGGAACCTCTGCGGTGGTTTCGCTACCGGGACGGATTAAGGACGTGACTGCCTGGGCAATCTTCGTTGAACAAGAGGACGGCCATTACCGTATTCGCCTGCGTTCCAAGGGCCCCTCCATCAATGGCCTGGCTAAAAACCATGATGGCGGCGGGCATGCCCTGGCTAGCGGTGCCAAGGCCAAGGATCAGGACGAGATCAAGCAGGTAATTGCTGAGCTTGACCAGCTGACCGCTGCTTACGCAACAAAATAA
>SRR1151252_00430 6-phosphogluconate dehydrogenase
ATGCAAATCGGATTGATTGGTTTAGGTAAGATGGGTATTCACCTTTGCCAAAACATGTTGCGCAATGACAACCAAGTGGTTGCCTTTGACCTTGATAAGAAGTTAGTTGAAGAAGCTGCTTCTTACGGTGCAGAACCTGCCTACACCCTGGAAGAAATGGTTAAGAAGCTTAACCAACCACGGACTGTTTGGGTTATGGTTCCAGCCGGCAAGCCAACTGACTCCACGATGGACCAATTGGCCAACCTGCTCGATGCCGACGACACGGTTATCGACGGTGGGAACACGTTCTGGAAGGACTCCATGCGTCACAACCGCATGTTCACCGAAAAGGGTATTCACTACTTCGACTGCGGTTCTTCAGGCGGTTGGAAGGGTGCCCTCAAGGACGGTAACTTCATGATCGGTGGGGACGATGAAGATATCTTCAACGAACGTCTTGCCCCACTGTTTGATGGGATTGCTGAAAAGGACGGTTACCTCTACACTGGTAAGGCTGGTTCCGGTCACTACCTCAAGATGGTTCACAACGCCATCGAATACGGGATGATGGAAGCCATGGGTGAAGGTTTCGAAGTTCTGGAAGCTTCTGACTTTGACTACGACAACGCTGCTGTTGCCAAGATGTGGAACCACGGTTCTGTTATCCGTTCATGGCTGATGGAACTGGCTCAAGAAGCCTTCGAAAAGGACCCACACCTGGATAAGATCGCTGGTCGGATGCACAGTTCTGGTGAAGCTCACTGGACCCTGATGGATGCAATGGACAAGCAAGTACCAACGCCAGTTATCTACGAAGCATTAAGCCAACGGTTCCGTTCAATGCAAGACGACTCCTTCGATGGTAAGGTCGTTTCTGCACTGCGGAACGGTTTCGGTGGCCACGCAATGGACACTGCCAAGAAGGACTAA
>SRR1151252_00431 preprotein translocase
ATGGATATTACTGTGAATAGTTTAACTTTTGGAATTTTAGGTGCCGCTAGTGCCGGGGCAAGTAGTTACTCTGGGATCATTCTGATTCTGTTGATGATTGCCCTGATGTACTTCTTCATGATTCGGCCACAGCAGAAGCAACGGAAGCAACATCAAGATATGATGAGCAGTCTGCACCCCGGTAATGAGGTTGTCACCATCGGCCGTCTTCACGGAAAGATTGACTCAATCAACAAGACTGACAGGACGGTAACTCTGGACTGCGAAGGCATCTACCTGACCTTTGACATGGTAGCCATTGCGCGGGTTGTTAAGACCAGCGATAGTAAGGCAGACAATGATAGTCAACCGGCCGCATCTGCTACTCCGGTATCTGCCGCCGATCAAGTCGCCAGTGCTGAGCCTGCTGCTGATTCTGCAGCCGACTCTACCGCTGACTCCGCTGCCGATCAGGAAAAGTAA
>SRR1151252_00432 queuine tRNA-ribosyltransferase
ATGAAGAAGTTAACTTTTCAGATTAACCATCACTGCCAGGAGATGCGGACCGGGACGGTGACGGTCAATGGACGACAGCTGACCACGCCTGCCGTCGTCCAAACCGGGAGTGCCCTAACCACCCTGACCCCGGCGGAGCTTGCAGGATGTGGTGCTCAGGCCATCAAACAGGATGCCATTGACTACTGGCTGACCGCCAGCCACCCAGGCGACCTGCACGCGTTCTTGGGCTGGTCCGGAATCCTGGTGACGGCCTCGGGTGCCGACCGGGCCTATCAATGGGCCAAGCCCCGCGGCCGTAAACACGATGGGGTCAGCTTTCATGACCCGGTCAGCGGGCAGTTGAAGTTCTACACGCCCCAAGATGCCCGGGCGATTCAGCGGGGGTTGGGCGCTGACCTTACCACCGGCTTTGCCCGCGCTGACGCCTATTTTGCCCCCGTCGACGACCTTAATGCGGCGGTTGAGCAGACGAATGGCTGGCTGACATCGAATCCCTGCCTGGCCGGTGACCTGGCCCCATTGGTCGGGGGCGGGTTGAAACGGGCCCGGCAGACCAGCCTAACTGCCGTGCCTGCTGGTGCGTCTGGTTATAGCATCCTGGGGGTGACTCCGGATGTGCCGGTGGCCGAGCAGGTCCGCCTGCTTAACGAATTGGTGGGAATGATGGAGCCGACTAAACTGCGCTACCTGCCGACCAGTGGGGACCTCCACCAGTTGGTTGCTGCATTGCTGTGCGGCCTTGACCTGATCGATAGCGACCTGGCTGGACGCGAAGCTGCTATGGGGAACGCAATAGTTGGCTTTGGCCGACTGCCCCTCGATCGGGAGCGTTTTGCCGGCGACGGTCAAGTGCTTGCGGACCGGTGCAATTGTCCAACCTGTCGTGCCGGGGTCTCTCGGGCGGCGATCCACCACCTTTTGACTACCAGTCAGCCGGTGGGGGAACGCTATCTGCTTCTCCACAACCTGTTTACTATCAATCAATTGCTTGCCCGGATTCGAGTAATGATTGCCGCGGGACAAATATCAGCGGACTTGCGTAAATTTACCAGACAGTGCGGCCAATAG
>SRR1151252_00433 Holliday junction DNA helicase RuvB
ATGGCTGAGGATCATGGACTGATGTCCGATCACTCACAAGATGATGAGGAAGAGCAGATCGAGCTGACGTTGCGGCCGCAACGCCTGCGGGATTACATCGGTCAAACCAAAATCAAGCGTGAGCTGAGTGTCTATATCCAGGCGGCCCAGGCACGTGAAGAGGCCCTTGACCATGTCCTGCTGTATGGGCCACCGGGCTTGGGGAAGACGACCCTGGCAATGGTGATTGCCCACGAGATGGGGGTTAACATCAAGACCACCAGTGGGCCGGCGATCGAGAAGCCCGGTGACCTGGTGGCCATGCTCAACGAACTCAAGCCCGGTGACGTCCTCTTCATCGACGAAATTCACCGCCTACCCAAGGTGGTCGAGGAGATGCTCTACTCGGCGATGGAGGACTACTACATCGACATCGTAGTCGGGGAGGGGCCAACCGCCCACCCGGTTCATTTTCCACTACCACCCTTCACCCTGATTGGGGCAACCACTAGGGCCGGGATGCTGTCTGCTCCGCTGCGGGACCGCTTTGGGATCGTTGCGCACATGAGTTACTATAACCAGGACGAGCTTAAGCGAATCATCTTCCGGTCGGCTAAGATCTTTAACACCCAGATTGAAGACGAGGGGGCCCACGAGCTGGCACTGCGGTCGCGGGGGACGCCCCGGATCGCCAATCGTCTGCTCAAGCGGGTTCGTGACTTTGCCCAGGTGGCTGGCAAGCCAAGTATCGACTCTGCCACCGTCAGCAAGGCCCTTGACCTGCTGCAGGTAGACCGGCAGGGACTAGACGAGATCGACCGTAAGATGCTGCTGACGATGATCAACTACTACCACGGTGGTCCGGTCGGCCTGAAAACAATCGCCGCCAACATCGGTGAGGAGACCAACACGATCGAGGAGATGTATGAACCCTACCTGTTGCAGATCGGTTTTATCAGCCGGACACCGCGGGGACGGGTGGTCACGCCGGCTGCTTACCGGCACTTGGGGATTAGTTACCCAACGGAGAAATGA
>SRR1151252_00434 Holliday junction DNA helicase RuvA
ATGTATGAATATTTGACGGGGCTGGTTACTAGTGTGACCCCCCAGTATGTTGTTTTGGAGGTTAGCGGGGTTGGCTACCAGCTATTCGTGGCTAACCCCTATCGTTTCCAGGAGGACCCGGCAAAGAAGGTCCTAATCTATGTCTATCAGGCCGTACGTGACGACGCAATTACCCTGTTTGGCTTCGTCGACCGGGCCGAGAAGCAGCTTTTCTTACAGCTGATCAACGTCTCCGGGATCGGGCCCAAGAGTGCCCTGGCGATCTTGGCTAACCCCGACCACCAGGGGTTGATCGACGCGATTGCTAACGATAACGTCGGCTACCTAACTAAGTTCCCGGGAATCGGCAAGAAGACGGCCTCACAGATTGTCCTTGATCTCAAGGATAAGGTGGCCGGCATGACTAGTAATACCCTGCTGACCCCGGCCGCCCCGGCGGAAACCGATAATCCGGCCCTCCAGGATGCACTGGATGCCCTGACGGCCCTAGGCTACAAGGAACGGGAGGTCAAGCGCATCAAGAAGCAATTGCTTAAGACCGACGCCAATACCACCCAGGAGTACCTGAGCCAGGCATTGGCGCTGATTAACTAG
>SRR1151252_00435 DNA mismatch repair protein MutL
GTGGGAAAGATTCATGAACTAGACACCGTCCTAGCTGACCAGATTGCGGCCGGGGAGGTGATTGAGCGTCCGGCCTCGATCGTTAAGGAACTGGTTGAGAATGCTCTGGACGCCCACAGTCAGCGGGTCGACATTATTGTGGAGAACGCCGGCCTCGATAGCATCCGGGTGATTGATGACGGCGACGGGATCGCCAGCGACGACGTTCAGCTGGCCTTTCAGCGGCACGCCACCAGCAAGATTGCTAGCCGCAAAGACCTCTTCAAGGTGCAGACGATGGGGTTTAGGGGAGAGGCCCTGCCCAGCATTGCCTCCGTTGCCGATGTCAAGATGGTAACCGCCCAGGCGGGCCAAGATGCTGGCACCCAAATCCATATTCGCGGCGGTAAGACTTTGGAGGAGAAACCAGCCGCTGCCCGGCAGGGGACCGATGTCCGGGTCACCGACCTCTTCTTTAACACGCCGGCCCGGCTGAAGTACCTCAAGTCACCCCAGACGGAACTGACCCGGATCACCGACATCATCAACCGCCTGGCCCTGGCTAATCCGGCCGTGGCCTTTAGTTTCACCCATAATGGCAAGGAGATCTTTCGTTCGGCCGGTAATGATAACCTCCAGCAGGTCATCGCGGCCATCTATGGTATCAAGGCCGGGCGCAAGATGCTGCCGATCGCGGGGCAAGACGATGATTTCACAGTCAGTGGTTTCGTGTCGCTGCCCGAGTTGACCCGGGCTTCGCGTCAGTACATCACGATTACCATCAACCACCGTTATATCCGTAATTTTGAGTTGACCAAGGCGATCATCCAGGGGTATGAGTCCAAGCTGATGGTCGGTCGCTATCCAATTGCGGTGGTCAACATTGATCTGGACCCGGTCCTGGTTGACGTGAACGTCCACCCGGCCAAGCGGGAAGTCCGGCTGAGCAAGGAAGCCCAGCTGACCAAGCTGATTGCCAGGACGATTCGTCAACGAATTGCTAGTGAGAACTTGATTCCCGATATTAGTCCGGACGCGTTTGGACCAAGTGCCGACGAAATTGCCGCCCTTGACCAGCGCCTGAATGAGGCGGCCGGTCACTATCAGGTTAGTAGTGCGCCTAACCCTAGGCCTGACGAGGCGGCTCCCCAGAGTACCAAGCCGGCCATACGCCCTAACAATGGTCCAGCTGACGCCGATGCCGACGACAGTCAGGTGGCGGCCCCAGTGGTTATCCACCATGTTGGCGAATTAGACAGTCCGGCCATGCGGGCCTTTGATCGGCGCTACCAGGATGAGGAGACGGCCCAGCCGTTTGGTCACCCCTTGGATGCACCGGCCACAAACATCCGCCCAGGGTCGGCGAAGAACATAGAGCTCGACGTCCATGATAAGAGCGATGAGTCCAAGCGGCGCTTTCCTGACCTCCAGTACATCGGCCAGCTCCAAGGGACCTTCCTCCTGGCCCAGGCCGGCGATGGTCTTTACATTGTTGACCAGCACGCCGCCCAGGAGCGGATCAACTATGAACGGTTTCGCAAGGAGATCGGCCAGGTCAGCAGTGCCCAGCAGGCCTTTCTGGTCCCGCTGGTCCTAAACTACTCGACGGTCGATGCGATGACCATCAACCACCACCTCGACACCCTGGCCGGGGTAGGGTTAAACCTGGAACCGTTCGGGCAGAACAGCTTTATCTTGCGTTCCCACCCGACCTGGTTCAAGGAGGGGCAAGAGGAGGATACTGCACGGGAAATTATCGAGTGGCTGATCAAGGACGGCAAGATCACCGTCCGAGATTTCCGGATGAAGACGGCAATCATGATGAGCTGTAAGCGGGCGATTAAGGCCAACCACCACCTCGACGATCGTGAGGCCAGGGCCCTCTTACGCCGCCTGCCCAAGTGCGAGAATCCCTTTAACTGTCCCCACGGGCGTCCGGTAACGGTTCACTTCAACGACTCGGACCTGGAAAAGATGTTTAAGCGGATTCAGGACAGCCATACCCCGTTTGCCGACGAGTTTGACGACCATGAATTTTAG
>SRR1151252_00436 DNA mismatch repair protein MutS
ATGGGGCACCAGGAATATGTCCCCAACGACGTTATGATGGACGATCAGACTGATATTTTACTGATCACCGGGCCTAACATGTCCGGGAAGAGCACCTACATGCGCCAGCTCGCCCTGACGGCGGTGATGGCTCAGATGGGCTGCTTCGTGCCGGCCAAGTCGGCTGAGTTGCCGATCTTCGACCAGATCTTCACCCGGATCGGGGCGGCTGACGACCTGATCTCCGGGGAGAGTACCTTCATGGTCGAGATGATGGAGGCCAACAACGCCCTTATCCACGCGACTGACCGTAGCCTGATCCTCTTCGATGAAATCGGGCGGGGGACTGCAACCTACGACGGGATGGCCCTAGCCCAGGCAATCATCGAGTATGTGCACCAACACGTCCGGGCCAAGACCCTCTTTTCAACCCACTATCACGAGCTGACTGCTTTAGAGGACACCCTGCCCCGGCTGAAGAACGTCCACGTTGGAGCAACCGAGAAGAACGGTGAACTGGTCTTTCTCCACAAGGTCAGTGCCGGGCCAGCAGACAAATCCTATGGGATCCACGTCGCCAAGCTGGCGGGGATGCCTGACACGTTGCTGAAGCGGGCCGACCAGATCCTCCAGAAGCTGGAGAAGAAGTCGACTGGCTTGCCGACCCCGGCCAAGGAGAAGGCCGCGGTCTATGAACCGACGCCACAGTCCGACCGGGTTGAAGAATCGTCCACGGCGTTGAATTCCACTAGTAGTGCTCCGGCCCCGACGGTTGACGCCAACGGACAGATGGAGCTCTTTGCTCCAGCCCCGAAGAAGAGCCGGTCGAGCAAGGGGGACAAGATCCTTCACCAGCTCAAAGAGCTCAACTTAATGGGGATGACCCCGATGGAGGTAATGAACCAGATCTACCAGTGGCAGGAAAAACTGAAATGA
>SRR1151252_00437 DNA mismatch repair protein MutS
TTGACGAAAAAACAGACACCGATGATGGAACAATACCAAAAGGTGAAGGACCAGTACCCGGACGCCTTCCTGTTCTACCGCCTAGGTGACTTCTACGAGCTCTTCAACGATGATGCGGTGAAGGGGGCCCAGTTACTGGAGCTGACCCTGACGACCCGCAATCACAGTGCCAAGAACCCGATTCCAATGTGTGGTGTTCCGCACCGGGCAGTGGAAAACTACGTCGACATCCTGATCGATAAGGGCTACAAAGTCGCCATCTGTGAGCAGATGGAGGACCCCAAGAAGGCCAAGGGAATGGTTAAACGAGCGGTTACCCGCCTGGTTACCCCGGGTACTCGGATGGACCTGAGCGGGGATGCCGCCCGGCAGAACAACTACCTGACGGCGATCAGCGCGACGCAGGGCAAATTCAGCCTGGCCTATACCGATCTTTCGACTGGGGAACTGAAGACTACGACCCTCGACAGCATCAGTGCGATTGTCAACGAGCTGGTCAACCTGCGCAGCAAGGAGACGGTCGTCGATGGCCAGTTGCCGGATGGGCTGACCGATCAGCTGACCAAGCGTAACATCCTGCAGTCCCACCAACCGACGATCCTCAAGAATGCTGAGGTTAGTTACCTGACCCAAGACCTGGCATCGACTGACCAGCAACACGTGGTGGCCCTACTGGTGTCCTACCTGCTGACCACCCAGAAACGGTCGCTGGCTCATATGCAACGGGCAGTGGCCTACCAGCCGAGTGCCTTCATGAAGATTGACCATTACTCCAAGACTAACCTGGAGTTGATGACCAACATGCGTAGCGGTAAGCGTCAGGGAACCCTTTCCTGGTTACTAGACGAGACAAAAACCGCGATGGGGAGTCGGTTGTTGAAACGGTGGCTGGATCGACCACTGATTGATAAGGATCAGATTAACGAGCGCCAGGACAAGGTTCAAGAACTCCTCGATCATTACTTTGAGCGCAGTAACCTCCAACAGGAACTGATCAAGGTCTATGACCTGGAACGGCTCGCCGGTCGGGTAGCCTACGGGAGCGTCAACGGCCGGGACCTAATCCAGCTCAAGACCTCCCTGATGCAGGTACCCAAGATTAAGTATGTCCTGGAGACGCTGGATTCCCCGGTCTTTGAATCGCTAGAGAAGCGCCTCGACCCCCTGGGAGACGTGGCTAGTCTGATTGATTCCGCCATTGTCGACGACCCCCCGATCGCCGTTACCGATGGTGGCCTGATCAAGGCGGGCTATAACAAGCAGCTCGACCAGTACCGGGACGCGATGAATAACGGTAAGCAATGGATTGCGGACCTCCAGGCTCATGAGCGGGAGGCCACTGGGATTAACAACCTGAAGATTGGCTATAACCACGTCTTTGGCTACTACATCGAGGTCACCAAGGTCAACCTAAGTAAGATTCCCAAGGACCGTTACGAACGCAAGCAGACCCTGGTAAACGCCGAGCGCTTCTCCACCCCGGAGCTGAAGGAGAAGGAGGCCCTGATCATGGGGGCCCAGGAGAAGTCGACCGCCTTGGAGTACGACCTCTTCGTCGACATCCGGGAACGGGTCAAAAGGGAGATCAAGCGGCTGCAGAAGCTGGCCCAGGCCCTCTCTGAGTTGGACGTCCTGCAAAGCTTCGCGGTAGTCAGTGAGGACTACCACTTCGTACGACCGAAGATGAACACCGGCCATACCCTGAAGATCAAGGAGGGCCGGCATCCGGTCGTTGAGAAAGTTCATGGGGCACCAGGAATATGTCCCCAACGACGTTATGATGGACGATCAGACTGA
>SRR1151252_00438 ribonuclease
ATGAACGTATTAATTTTCGCCGCGCTTGCTATGGTTGTCGGGATTATTATCGGCTATGCGGTTCGTAAGCTTTCCTTTGAGAAACAGATTGAGGAAGCTCACCAGGACGCCGCTGGCATTATTGCGGACGCCAAGAAAAAGGCGGCAACGGCGAAAAAGGAGGCCATCCTGGAGGCTAAGGAGGACAGTCACCGCTATCGCGAAAGCGTTGAGGACGAACTCAAACAGCGGCGCAACGAAATCCAGCGTCAGGAGGACCGGCTTTTGCAACGCGAAACCTCTCTTGACCGCAAGGATGACGCTTTAGAGAAGCGTGAGAACACGGTTGGGGCGCGTGAACACAAGCTTGACCAACGAACGGAACAACTTCATCAATCACAGAAAAAGGCCACGGCATTGGTGGAACAACGGCAGCAGGAATTAGAAAAGGTTGCCGAGATGTCTCATGAGGATGCCAAGCAGCAATTATTAAGTGAAATGAAAGATCGGTTGAAGACCGAGCGTGAAGTAATGATTCGAGATAGCGAGCAAGAGGCTGAATTGACGGCTGACCGGAACGCCAAGAAACTGATCGTTGAGGCGATCCAGCGCAGTGCCGCTGACGTGGTTTCTGAGGCAACCGTTTCGGTGGTTAACCTGCCGAATGACGACATGAAGGGCCGAATCATTGGCCGTGAGGGTCGCAACATTCGGACCCTGGAGACCCTGACCGGAATTGATCTGATCATCGACGACACTCCCGAGGCGGTGGTATTGAGTGGCTTTGATCCCGTCCGGCGGGAAATCGCCAAGATCGCCCTGGAGAAGTTGATCCAGGACGGGCGGATCCACCCGGCCCGGATTGAGGAAGCCGTTGAGAAGGCACGTAAGGAGATGGATGCTCAGCTTCGTGAGACCGGTGAACAGGCCCTCTTTGACCTGGGAATTCATTCCATGCACCCGGACCTGATTAAGACGGTTGGCCGGATGAAATACCGGACTAGTTACGGGCAAAACGTCCTTAACCACTCGATTGAGGTGGCTAAGCTAGCCGGTATCATGGCCGCTGAGCTGGGTGAAGATGTCACCTTGGCCAAGCGGGCTGGCCTGCTTCACGACATTGGAAAAGCCGTTGACCACGAGGTTGATGGCTCTCACGTCGAACTGGGAGTGGAACTGGCACGTAAGTATAAGGAGAACAAGGTGATCATCAACACGATCGCCTCCCACCACGGCGACGTTGCTCCATCCTCGATCATTGCGGTCCTGGTTCAGGCAGCGGATGCCATTTCTGGCGCCCGGCCTGGTGCCCGGAGCGAATCGCTTGAGCAGTATATCCAGCGCCTAAAGAAGCTGGAAAGCATAGCAAATAATTACGATGGTGTTGACCATAGTTACGCAATTCAGGCAGGCCGTGAGCTGCGCGTAATCGTCAAGCCGAAGAAGATTTCGGACTTGGAAGCCACCACCCTGGCCCATGATATCAAGCAGCAGGTTGAACAGCAGCTTGAGTATCCGGGGCACATCAAGGTGACTGTTATTCGTGAGGTACGTGCAGTCGACTATGCCAAGTAA
>SRR1151252_00439 recombinase RecA
TTGGCTGATCAGCGAAAGGCAGCACTAGATGTTGCCATCAGAAAGATCGAAAAGAATTTCGGTAAGGGCTCCATCATGCGGATGGGGGATGCTGCCGATATGAAGATCGCGACGATTTCCAGTGGCTCATTGGCGATTGACAAGGCACTGGGAGTTGGTGGATACCCACGTGGCCGGATCGTTGAGATTTACGGCCCCGAGAGTTCTGGGAAGACAACGGTTGCCCTACACGCGGTGGCAGAAGTTCAGCGCCAGGGCGGCACGGCGGCCTACATTGATGCCGAAAACGCCCTGGATCCACAGTATGCCGAGGCCCTCGGGGTCGACGTTGATAACCTCCTCCTCTCCCAGCCAGATACCGGTGAAGAGGGGCTGGAGATCGCCGATGCCCTGATCTCTAGTGGGGCGGTTGACCTAGTTGTGGTTGACTCAGTAGCTGCGTTGGTTCCCCGGGCCGAGATCGAAGGCGAGATGGGGGACGCCCACGTTGGTCTGCAGGCACGGCTGATGTCACAGGCCCTGCGGAAGCTCTCCGGTGAGATCAACAAGACCAAGACCATTGCGATCTTCATCAACCAGATCCGTGAAAAGGTTGGGGTGATGTTTGGTAACCCTGAGACGACGACTGGTGGTCGGGCCCTCAAGTTCTACTCCACGATTCGAATGGAGATTCGCCGGGCCGAACAGATCAAGAACGGTACCGACGTCATCGGTAACCGGACCAAGGTCAAGATCGTCAAGAACAAGGTTGCGCCACCGTTCAAACGTTGCGAGGTTGACATCATGTATGGTGAGGGAATCTCCAAGGCCGGTGAGCTCCTCGACATGGCGGTTGAAAAAGATCTCGTCAACAAGAGTGGTGCCTGGTACTCATACGGTAGTGACCGAATTGGCCAGGGGCGTGAAAACGCCAAGAAGTGGTTAGCTGACCACCCTGATCAGATGGCTGAGTTGATGAACAAGGTGCGGGTTGCCTATGGGATGGCTCCACTAGAGAATTCCAAGGATAAGGATGACGCGGACCAGCCTGGTGAATAG
>SRR1151252_00440 damage-inducible protein CinA
ATGGATGCTGAGATTATATCGGTTGGCACGGAGATCGTGCTTGGCCAAATTGTGAACACCAACGCACCGTTCCTCGCCCGGCAGCTGGGGACACTGGGGATCACGGCGGATCGTCAGTTGGCGATTCCGGACCGGCAGGAATTAATGGTTGCTTCAATTCGGACGGCCTGGCAACGGTCACCGCTGGTCTTTGTCTGTGGGGGACTAGGGCCAACCGCCGATGATGTGACCCTGGCGGCCGTGGCTCAGGCCTTGGGGGTCAAGTTGACGGTTGACTCTGACCACTGGCAGTGGATTCAGGGGACCTTTGCCCAGCGTCATCAGCCGATGATGCCGGAGAACATCCAGCAGGCCAAGTGCCTGACGGGTGGTGAGCCACTAGCCAATTCTGTTGGTCTGGCTTTGGGCAGCTGGTACGAGCATGATGGCCATCGCCTGGTTGTCTTACCAGGGCCACCACGTGAGTTCGTCCCGATGGTCACCGGGGAGGTTATGCCGCGTCTGGCCAAGATCGTGGGCCAGCGTGTACAGATCACCAGCCGAACCCTGAATTTCTTTGGGCGGTCGGAGTCACAGCTGATGGATGAGATTGCTGACGTGACCGCTGACCTGAGCGGGGTGATGATCACCTCATATGTCCAGTCGGATGCGATCCAGGTGCGGATGACCGTCCGTAATCAACCGCGGGCTGCCGCCAATCACTTGCTGGATACGGCCCAGGCGCTAATCGTCAAAGAGGAGGCGCCGTACTTCTTTGGCGTTGGTGATGACTGCCGCCTGGCCGCGGTGGTGGTTGACCAGCTGCGGGACCGAGGGTGGCGGCTGACGGCCGCAGAGAGCCTGACTGGCGGGATGTTTCAGAGCACGATCTGCTCGGTTCCCGGTGCCTCCAACGTTTTTGACGGTGGATTCGTAACTTACGCGGCCCGGGCCAAGGAAGAGCTGTTGGGGATTGATCACCAGGTCATCGCCGAACACGGGGTCGTCAGTGCCCAAACGGCGGCGCAGATGGCTGAGCGGAGCCGGCAACGGCTTGGTGTCCAGGTTGGCCTAGGTTTTACTGGTGTGGCCGGTCCGGACAGTCTGGAGGGGCAGCCAGCCGGAACCGTCTGGGTTGGTCTGGCGATCTCCGGCCAGCCAACGACGACCAGGTTGCTTCACCTCGGTGCTTACCGCGGCCGACAGGCGGTTCGTCAGCGGAGTGTCCAGGCGGGACTACAGATGCTTTACCGGGCACTACAGAAATAA
>SRR1151252_00441 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase
TTGAATTTACCTAATAAGTTGACCGTTGTACGGTTGATTATCATTCCCTTTTTCTTGTTGTTAATGGTAGTTCCGTTATCCTGGGGCAGCGTAACCTTCTGGGGCGCTACCATTCCGGTTACCCAGCTGATTGCAGCAATCCTCTTCATTGCGGCGACGATTACCGATAACCTTGACGGCCGGATCGCCCGGCGTGACCACCTGGTGACCAACTTCGGTAAGTTTACCGACCCGCTGGCCGACAAGCTCCTGGTCATGACCGCCTTTATCGTTCTAACCGGTAGTCAGGTGGTTCCCGCTTGGGTTACCACAATTATTATCTGGCGTGAGCTGTCGGTAACCGGTCTTCGGCTACTGTTAGTTGAACAGAGTGGGATCGTGCTGGCGGCCAAGATGCCGGGGAAGATCAAGACGACGACTCAGTTCATCGCCATCATTTTTCTGCTGCTCAACAACGTTATCTTTGCCATCTGGGGGATCCCGTTTGGGCAGATTATGCTCTACATCTGCCTGTTCTTCACGGTTTACTCCGGGGTGGACTACTTCATCCAGGGGCGGGGCGTCTTCTCCGATGGTTTTAAGTAA
>SRR1151252_00442 transcriptional regulator
ATGAGTGAAAACAATAGCGAACAAAAGCATGTTGAGATTGGTAAGAAGCTACAAGCGGCCCGCCAGGCCAAGGGGTACACGCTCGATGACCTCCAGCAGATCACCAAGATCCAGAAGCGATACCTGATCGCAATTGAGGATGAAAAATTTGATGAGCTGCCCGGGGATTTCTACGTACGGGCCTTTGTCAAGCAGTATGCCAATACGGTCGGCCTAGACGGGGATGACCTACTTAAGGAGTATGAGGATGACCTTCCCAAGGCCAAGACGGCTGAGTACTCCGACCACATTGCCCAGGCGGTGGAATCGCGGGCTAGTCAGCATAAGACCATTGGCAACCAGGTCAGCAAGAGTCGTAAGTACGTGCCAACGATCATCATTACCGTGGTGATCATCCTGGTTCTGGCGGCCATCTGGTTCACCGCGATTGCCCGGAGTCACCGGGACTCCTCAACGCGGATCGACAACAGTTCCGTCTCCGTTTCGGGTGAGAGCCGGAAGAAGGCCTCCTCATCCAGTAAGAAGGCAACCAAGAAGCCGGCCGTAGCGGCACTTAAGCTCAAGCAGACCAGTCGCAGCGGGAACAGTGTTACCTACACGGCTGATAAGCTGAAGGCCGACACTACCCTGCAGATTAACCCGACTGATCGGGCCTGGATGCAGGTACGGGCTAACGACAACGACCTGTTGAACCGGACCCTAAACGCCAACGACAAGACCAAGATTAAGGTGGGCAGGGATACCACCAGTCTAGTCATCACAGTTGGTAATGCCCGGGCCACCAAGCTAAGGATCGACAACCAGACGATCGATTTCACCGATAACGGCCGTTACCAGAATACCCGGACGGTGACGATCAACTTCGGGAGCCAGCAGGGCAGTAGCTCAACGTCCTCGTCGAGCAGTGTGACAAGCACCAGCAGTAGCCAACGGGTGACGAACAACAGTAGTGTGGCTAGTCAGACAAACACCGCTAACCGGCAGTCTACGACGGCAACCTCAAACGTCAATAACCGTCAGCAGACGAATACGCAGACACGATAA
>SRR1151252_00443 peptidase M16
ATGGATAGACAAACGTATCAAGAATTTAATCGGATCATATACCGGCGGCGTTTGGCCAACGGACTGCTCGTTCAGCTCCTGCCAATGCCGGGCTTTCAGAAGACCTACGCGACCTTCTCGACGGATTTTGGCTCAATCGACAACCACTTCATCCCATATCATGAAGAGGACCCGGTCCTGGTGCCTGATGGGGTGGCCCACTTCCTCGAACACAAGATGTTTGAAAAAGCCGACCACGACGCCTTTGACCTCTTTGGCAAACTGGGGGCGGATTCTAATGCCTACACCAGTTTTACCCAGACCAGCTACCTCTTTTCGACGACCAGCCATCTTCACGAAAACCTGAACGTCCTCCTCGACTTTGTGCAGGATCCCTACTTCACTGCTCAGACAGTGCAAAAGGAGCAGGGAATCATCGGCCAGGAGATCAAGATGTACGACGATGATGCCGACTGGCGCCTCTATTTAGGCCTGATCGGTAACCTCTACCCCCATGACCCGATGCGAATTGATATTGCGGGAACGGTGGAGTCAATCAGTCAAATCACGCCAGAAGTCCTGATGCAGAGCTACCGGACCTTCTACCAGCCAACCAATATGAATCTCTTCATTGTTGGTAACCTGGATCCAGAGGAAACCCTGTCCTGGATTGACCAGAACCAGGGGGCCAAGAACTTCTTGCCAGCGGAGACACCACGACGCCTGTTTGAACTAAACGACCCAACCGCCCACGATGTCATTCCCTTCCGGTCGCTGACGATGAATATTGCCCGGCCCAAGGTGATGGTCGGCCTGCGGGGAATCAAGCAGTTTACCGATGGACGGGCACGCTTGCACTACAAGCTGGCCGTGGACCTGCTCTTGGACGTCCTTTTCGATGACACGTCTGATAACTACCTTCGTCTCTACAATAATGAAGTACTTGATGATTCCTTTGGCTACAACTTCGAGATGCAACGTGGCTTTCATTTTGCCTACTTCAGCTCGAACACTGATCAGATGGAGCGCTTTGCTGATGAGGTCGTGGCCATCCTAGAGAGTGCCGATAAGCAGATTGATGCGGCGCGGACCCGGTTTACCGGGATTAAGCGGGCCGAACTCGGCCGCCTGATCGGTCTGCTGGACTCACCGGAGGCCATTGCTAACCGTTACGCCGGCCAGCTCTTCGACGGGGCTAACTTGATGGATGAGATCCAGGCCTTAAAGTCCATCACCTTAGATGACCTCTACCAGGTGGCGGCAGATTTCATCAATCCGCAGGGCATTTCGGTTTACCAGGTGGTTCCCCATCACCAGTAA
>SRR1151252_00444 peptidase M16
GTGCACTTTGATCTTGCCAGTGGCGTGGCCCTCCACGTTATTCCCACCAAGCAATTTAAGATGACGCATGTTCTAATTACTTTTACCACGTCCCAGACCCGCGATAACGCAACGGCCCGTAACCTGTTGGCTAATCTTTTGGAGACCAGCACCCACCGCTACCCGACCCAGACGGCCCTGGCACGGCAGCTGGCTAAGCTCTACGGGGCCTATGTGGGCATGGGAGTCGGTCGGGTCGGCCGCCTGCACACGGTTCGGCTCCGGGCCAGCTTTGTCAACGACCAGATTGCGGGAACGAACCTCTTCGCCCAGGTGGTGGACCTGATCAATGAGATTCTCTTCCATCCCCTGATCGACGATAATGAGTTCGATGGTCCGACCTTCCGGATTCAGGCCCATAACCTCCGGCAAACCATCACCGCCCTGTATGATGACAAGCAGTTCTACGCCAACCGCCAGCTGATGAATCTCTACTACCCGGATGAGGCCGTCTTGCGGGTGCCGAGCTTTGGCCGGGTGGCGGACCTCGCTAACTTGACGGCCCAGAACCTCGTCCCCGTTTACCAGGACATGGTGGATCGCGACCGGGTCGACATCTTTGTGCTTGGCGACGTAGATCCAGCAGGGGTTCGCGATGAAATTAGTCAGCTGCCGTTTAGCAGCCGGGCAGTATCGTCGCTTTCACCTTATTACCAACAGCCGCCTCATCCAGCCGTGCGACGCAAGGTGGAGCACCAACCGGTTGTCCAGGCCAAACTCAACCTGGGTTACCAGTTGCCGGTCTACTACCATGACCAGAATTATTACGCCGGCCTGGTCTTCAACGGCTTGTTTGGCGGTACGCCATACTCCAAGCTCTTCACCAACGTTCGGGAGAAGGCCAGCCTGGCATATTACGCGACCAGCCGGCTCCTACCGTTTACCGGCTTCTTGGGAGTCCAGACGGGGATCCAGGCGGTCGATGCCCAGCGGGTGACGGACCTGATTGCTCAACAACTGGCCGAACTCTGTGCAGGGAAGTTTAGTGCTGAACAGCTAGCGGAGGTTCAGGACAGCCTGATCAACCAGTACCGGGCCAGTCACGACCTAGCTAATAACATCCTGGGTCGCCAGCTCCTGCGGGCCCTACTTGACCTGCCACCGGAAACGGCGGTGACCGATAAGATTAATGCGGTGACTGCTGATGACGTTTCCCGGGTGGCCCAGCTGGTGAAGATGCAGGCGACTTATTTATTGAGTGGTGAGAAATAA
>SRR1151252_00445 amino acid ABC transporter substrate-binding protein
ATGAAAAAGTTCAAAGCAATCTGGCTACTACTGCTGCTTTTGATCCCCACCCTGTGCCTGACCGGATGCGAGAGTGTCACGACGCGGGCCAACCACCAGGATACCTGGTCACGGATTGAACGCCGCAAGAAGGTCATTGTCGGCCTCGACGATAGCTTCGTGCCGATGGGCTTTCGGCAAAAGAACGGGAAGCTGGTCGGCTACGACGTCGACCTGTCCCGAGCCGTCTTCAAGCAGTACGGGATCAAGGTCGACTTCCAACCGATCGACTGGTCAATGAAGGAGACCGAGTTGAAGAACGGGACGATTGACCTTCTTTGGAACGGGTACTCCGTCAACGCTAGCCGGCGCAAGAAGGTGGCCTTCTCCCGCGACTACCTGGCGAATCGGCAGGTCCTGGTGACGTTGAAGCGCGACCGCATTAACAACCTCGACGACATGCAGGGCAAGACCCTCGGGGTGCAGACTGGGTCAACCGGGGACACGGTCCTAAACGAACACCCAAAGCTATTGAAGGACAAGATCAAGGACAAGACCCCGGTCATGTATGACACTTTCCCAAACGCCTTCATTGACCTGAACGCTGGGCGGATTCAGGGGATTTTGATGGATGAGGTCTACGCCAACTACTACGTCAAGCACCAGAAGGACCCTGGCGCCTACCGGGTTGATGTCAACAAGCAGTTCCCGGTTGAATATTTCGCCGTTGGGATGCGGAAGGGCGACAAGACGCTGCGCCGCAAGATTAATGACGGTCTCGGTCACCTCCAGCGCGATGGTCAGTTGAAGAAGATCAACGAGAAGTGGTTTGGGATGGACAGCACCTTCCTCGGCCCTGACAATAATTAA
>SRR1151252_00446 amino acid ABC transporter ATP-binding protein
ATGTTAGAAGTTAAGAATTTATACAAGAGTTTTGGTGATCGGGTCATTTTAGACAACGTTAGCTTAACGGTTAAGGATGGCGAGATCCTCAGCATCGTCGGTCCGTCCGGGGCCGGGAAGACGACCCTCTTGCGATGCATTACGGGTTTGGAGACGGCCGACAAAGGAGAGTTCTTGATCGACGGTCAGCCCTTTGACCCCCAAGGGACGGCGGAATCCGACCGGGTGATCGGGGTGGTCTTCCAGGATTATAACCTCTTTCCCAACTTATCCGTGATGGAAAACATTACGCTGGCGCCGATCTTGGTCTTGAAGAAGTCCAAGGAGGAAGCAGAGGCGGATGCCCGGGGCCTGCTGGAGGAATTAGGGTTGAACACCAAGGGCGACCTCTATCCCTGGCAACTGTCCGGTGGGCAGAAGCAACGGGTGGCCATCGCCCGGGCCCTGGCGATGAGTCCAAAGATCCTCTGCTACGATGAGCCAACCTCCGCCCTGGATCCGGAGATGCGCAAGGAGGTCGCCAAGATCATCATGGGCCTCAAGAAGGACGGGATGACCCAGCTGGTCGTGACCCACGATTTCGACTTTGCCAACGAGATCGCCGACGACATCCTGAAGGTCAAGGCCCTCGACAAGTCCTTCGACCAGATCCAGGATGTTGACAAGAAGCAGGCATAG
>SRR1151252_00447 amino acid ABC transporter permease protein
ATGCAATACGTTACTGAGATTTTGCCATCATTATTACAGGGAGCGGGGTTGACCCTGCAAATTTTCTTCTGGACCCTGGTTTGTTCGCTACCGCTGGGGATCCTGGTTAGTCTGGGACTGATCTCCAAGATCCGGCCCCTCCAATGGATCCTTGAAATTTATGTCTGGTTGATGCGGGGGACGCCGTTACTACTTCAACTGATCTTCGTGTTCTATGGCCTACCGATCATCGGAATCGTCTTCCAGCGTTACGATGCCGCCCTGGTGGCCTTCATCTTAAACTATGCAGCCTACTTCGCTGAGATCTTCCGGGGTGGTTTCCAGGCCATCGACGAGGGGCAGTTTGAAGCGGCCCGGGTCCTGCGACTAAGCTACTGGCAGACCCTGCGTAAGATCGTGATCCCCCAAGTGGTCAAGATCGTCATCCCATCCATCGGAAACGAAGTCATCAACCTGGTCAAGGACTCCTCATTGGTCTATGTCATCGGGCTGGGCGACCTACTGCGTGCCGGCAACGTTGCCACTGCCCGGGACGTTACCCTGGTACCGCTGCTCCTGGTGGCCGTGATCTACCTGATCCTGGTAGGAATCTGTACTTTGGTTCTGCGGAAGGTTGAACAACGTTATTCATACTTCAAGTAA
>SRR1151252_00448 rod shape-determining protein MreD
ATGTATCGATTATCACGATTAAAATACGTTTTTCCCGTGGGGCTGTTTGTGTGCCTGTTTCTGGATGGCGCGCTGAGTCACGTCTGGGCACCGCTATTTTTTCACTATCCCTATTCGATGGCCAGTGAGCTGGTTCTCTTGTGGTTGACGCTGGCCTACTTCTTCGAAAATGGTATTGAGATCCCACTGATTCCGTTTGCGGCGGTCGCGGGGATCGTGGCGGACCTGTATGGGTCGGGGATCCTCGGCTTATATATGTTCCTGTTCCCATGTGTTATGGGGCTGACCACCATCCTCTCGAAGTACTTCTCGTCGTCGTTTCTGTCGATGATCATGATCTTCTTCATCGACTTGGTTGCCTTTTCCACCCTTAACTACTGGGCCTATTCACTGGTCGGGGTTACGTCAACCCCATTCGGTGACTACCTGGTCTACGTCTTGGCACCAACCCTGGCCCTAAATCTTGTGTACTTTGTGGTCCTCTACTGGCCAATTCGCGCGATCTTCAATTGGGCGACCGATGAAAAAACTGCCTAG
>SRR1151252_00449 rod shape-determining protein MreC
ATGCGCAAGTTCTTTTCCAATCGCCGGTTGGTTATCATTGTGATAATTCTGGTTGTCTGCTTTGGCCTGATGGCGGGTTCGATTACCATGCGCAACCGGCGGAATACACCGCCACTGATCCAGCAGTTTGGTAACGACATCGTTGGTTTTGCCGATAGTGCCGTGGCCCTGCCGGTCAATTGGCTTCAGACCAGTTTCAGCTCGGTCAATGACCTGATGAATACCTACTCAGAGAACCGGGAACTGAAGCAACAGGTCACCGACCTCGCCCAGACGAAGGTCCGTAACCAGGCCTTGGCTCATGAAAATAAACAGTTGAAACAGGAACTCAAGCTTAACAGCTCGATGACCGACTATGACACGGTCACGGCCGCCGTTTTAATGCGGACCCCATCCGCTTGGCAACAGCAACTCGTGATCAACAAGGGTCAGTCCAGTGGTATCAAGAAAAATATGCCGGTCATGAGTGACGGTGGTTTGATCGGCCGAATCGCCGAGGTCAATAAGACCAACAGCAAGGTGGAGCTCCTCAGCGACACCAGTGAGTCATCCAACCGTTTTGCCATTGCTATCCACGGTACGGACGGGATCGTCAACGGGATCGTCACCGGCTACAACGCCTCACGTGATGAGCTGGTGATGGGGCAAGTCAGCTCTAAGGCCAAGCTCAAGAAGGGGGCCCGGGTAACCACCAATGGGATGGGTGGTATCACCCCTAAGGGCCTGTACGTCGGCAAAGTTGCCCGGGTTGGCAAGGACGACTACGGCCTGGCCCAGAAGGTTTATATTACTCCGGCAGCAAACTTTAACGACATCAACATCGTGACGGTTGCCGAATCGGCATCTCAGGAGTGA
>SRR1151252_00450 rod shape-determining protein MreB
TTGCTAGGAATTGGAACCAAAAATCTAGGAATCGATCTGGGGACCGCTAACACAATTGTTTACCTCGAGGGTAAGGGGATTGTGCTGCGTGAGCCATCAGTTGTTGCGCGTAATGCCAAGACTAATGAAGTGATCTCCGTCGGTTCAGACGCTCGTGATATGATCGGTCGGACACCGGAGAGCATCGTAGCCATTCGGCCGATGAAGGACGGGGTTATTGCCGACTACGACACGACCGTTGCCATGATGAAGTACTACATCGAAAAGGCTTTGGGCGGTAGCAACGGTAAGCCATACGTGATGGTTTGTGTGCCAAGTGGGATCACCGAGGTTGAGAAGCGAGCAGTCATCGACGCTACCCGGGTTGCCGGAGCGCGGGATGCCTACGTCATTGAGGAACCGTTTGCGGCGGCCATCGGTGCGGGTCTTCCGGTAATGGATCCAACTGGTAGCATGGTTGTTGATATTGGTGGTGGGACCACCGATGTTGCCACGATTTCCCTGGGGGGGATCGTTTCTAGCCGGTCCATTCGGATGGCCGGCGACAAGATGAATGATGCCATCGCTCAATATGTTCGGCAGAACAAGAACCTTTTGATCGGTGAGCGGACATCTGAAAAGCTCAAGTGGGACATTGGCTCGGCTTCCGTTGATGCTGCCGACGAGATGGGGACGACCGAGGTACGTGGTCGTGACCTGGTCACCGGTCTGCCGAAGACGATGGAGGTTTCGGCCAAGGATGTTTCGACTGCTCTTCAGGGCGTGGTTGAAAACATCATTGCTGCCATCAAGGGAACGCTGGAGGAGACGTCACCGGAAATTGCCGCTGACGTGATCGACCACGGGATTGTCCTGACCGGTGGGGGTGCACTGTTGAAACACCTGCCAGATGTAATCGCGGATGCCACTAAGGTACCCGTCTTCATTGCCAACGATCCACTTGACTGTGTGGCAATTGGGACTGGTGAATCTCTCAAGAGCATCGACGTAATGAAGAAGAAGTAA
>SRR1151252_00451 DNA repair protein RadC
ATGAATGAATACCAGGCGCTATTGATGCACAGCATTCCCAACACGACGATTGACGGTGAGGACGGCTACCATTATATGCTGACCCACTACCCGACGCCGCTGGACCTCAGGACGATTCCATGCGATGAACAGACCGCCCTCTGTCAAGATGACGCCGGCCTGCGGGGGTTCTTCGCCGCAATCCAGCTGGGGCAGCTGATGGCCCGATCCCACCCGACCGTGGAGGGGTGTGCTTATTCCAGCATGGAGTTGGGCCAGGCAATGATTGATCACTTTACCGGTGACGAGCAGGAGAGTGTCTGCGTGGCCTTCACCAACGTCCATAACGAGATTATTAAGTTCAAGCGAATGTTTATCGGTGGGCGCAGCGAGTGTGTCCTCTACCCGGACCAGATTTTCAAGCAGGCCCTGCGCTGTTCGGCCAGCGGTCTGGTGATGGTTCATAACCACCCGTCTGGCGACGTCAAGCCCTCACACCAGGACCTGGCCTTTGCCAAGCGTCTTGAGAAGGGGGGTCACCTCTTGGGGATCCAGGTGTTAGATTTCATGATTGTAGGTGGTCAGCGTTACTATAGCTGGCGTGAGCAACAAGTTTAG
>SRR1151252_00452 folylpolyglutamate synthase
ATGATTCAAAACTATGATGACGCCCTGGCCTTTATCCACGGACGAACAAAATTTAAGAAGGTTCCCACCCTCAAGCGAATGCGGCGCTTCCTAGCCGAGCTAGGCAATCCCCAGAATGGCTTACACTATATCCACGTGACCGGAACCAACGGCAAGGGATCGACGGTGGCGATGCTACGGGCGATGCTGCTCGAATGTGGCCTGACAGTCGGCAGTTTCACCTCTCCCTTCATCACCCGTTTCAATGAGCGAATCGAATACAATGCTGAACAGATTAGCGACGATGACCTAGTACGGCTGACCCAGCGCCTGGAGCCGGTAGTCGCCAAGTTGGATCGGGATCTTTCGAGTGGTGGCCCAACCGAGTTTGAAATCGATACAGCCCTGATGTTCTGTTACATGGCCGAAAAGAACCCGGACGTCGTACTCCTGGAGGTCGGCATCGGTGGCTTATACGACTCCACTAACGTAATCATCCCCGACGTCAGCGTAATCACCACGGTCGGCTGGGACCACATGAAGTACCTCGGTGACACCCTGGCCGCTATTGCGACACAGAAGGCTGGAATTATCAAAGCGACGACCCCGGTAGTCATCGGGCAGGTGCCAGAGTCTGCCCGGAAGGTAATCGTCCAGACTGCTGACAAACTGGCGGCTCCCCGATACGAGTTAGGGCGTGACTTTACGGCCCATAAGTTTAATGGTCATGACCTGCGAGCCCAGCTTCAGTATGAGGGCCTGGCGATCCACCGTGTCCATTTCCGCTTGGGCCTAGCGGGGAACTACCAGGTGGAAAATGCGGCGATCGCCCTGACGGCGGCCCAGCTCTTCCTTCAGCGCCGGGGATTGCCCTTAGACCAGGCGGCCCTGCGCAAGGGGCTGGCAAGCAGCCAGTGGCCGGGGCGGATGGAGGTCGTCAACGACGCACCGCTTGTCCTACTCGACGGGGCTCATAACCTTCCGGGAATCCAGGCACTAGTCAAGTCAATTCAAGATGACTTCGCCGACCGTGATGTCTACGTCCTGGTGGCCATCTTGGCCGACAAGCAGTATGACCTAATGTTGGGGGAGCTGGCCAGTCTGGGCAACGTTCACCTGACCGTCACCAGTTTTGCCGGCCCAGGTCCTAAACGGCCGAGTGCTGACCTGGCAACGGTGGTTGACCAGTTTACTAGCCGTTACCCGATTCAGGTGGCAGACAACTGGCAGGTCGGCTTTTCTCAGGTGGCCGGCCAGCTCAGCGAAGAGGACGTTATGATTGTGACCGGGTCGCTCTACTTCATTGCCGACGTTCGCCACTTATTTGACGATTAA
>SRR1151252_00453 valyl-tRNA synthetase
ATGACAGCCGATAAGGAAATGTCAACAAAGTATGATCCGACCGCCGTCGAAGCCGGTCGTTACCAATGGTGGATTGACCAGGGCCTCTTCAAGCCGAGTGGCGATAAGAAGGCTCACCCGTATTCAATTGTGATTCCGCCGCCGAATGTTACCGGGAAGTTGCACCTGGGCCACGCCTGGGACACGACCCTGCAGGACATGCTGATTCGCCAGAAGCGGATGCAGGGCTACGATGTTCTCTGGTTGCCGGGGATGGACCACGCCGGAATTGCCACCCAGGCAAAGGTCGAAGCCCGTTTACGCAAGCAGGGGATTTCCCGCTATGACCTCGGTCGGGAGAAGTTTGTTCAGCAGGTTTGGGACTGGAAGGATGAGTATGCCGACATCATCCACAAGCAATGGGCTAAGCTCGGGATCTCCGTCGACTACGACCGCGAGCGCTTCACCCTGGACGAGGGACTGAACAAGGCCGTCCGCAAGGTCTTCGTCGACCTCTACAAGAAGGGGTTGATCTACCGAGGAACCTACATTATTAACTGGGACCCGCAAGCCCGGACCGCCCTGTCCGATATCGAGGTTATCCACAAGGACGATAAGGGAGCCTTCTACCACGTCAAGTACCCATTCACGGATGGGACAACTTTCAATGGCAAGGACTATATCGAGATAGCCACGACCCGGCCGGAAACCATGTTCGGTGACGAAGCTGTGGCCGTCAACCCGAACGACGACCGTTACAAGGAGTTGGTCGGCAAGCACGTCCGGGTTCCGTTGGTTGACCGGGAGATCGAGATCATTGCTGACGACTACGTTACGCCGGACTTTGGGACTGGGATGGTGAAGATTACCCCTGCCCATGACCCGAACGACTTCAAGGTCGGCAAGCGTCATAACCTGCCAGAACTGAATACGATGAACGAAGACGCCTCGATGAACGAAAACGCTGGCAAGTACCAGGGAATGGACCGGTTCGAGGCCCGTAAGGCGATGGTCAAGGACCTGACCGACCAGGGCTACATGCTCAAGGTGGTTCCAATCGTTCACTCTGTTGGTCACTCTGAGCGGACCGGGGTTCAGGTGGAAGCCCGCCTGTCAACTCAGTGGTTTGTCAAGATGAAGCCATTGGCTAAGCTGGCTCTTGACAACCAGAAGACGGCTGACAAGGTCAACTTCATTCCGGGCCGGTTCGAGCACACCTTCACCCAGTGGATGGAAAACGTCCATGACTGGGTCATCTCCCGTCAGCTCTGGTGGGGGCACCGGATTCCAGCCTGGTACCATAAGGGGACCGGCGAAGTCTACGTCGGCATGGAGGCCCCAAAGGATGCTGAAAACTGGACCCAGGATACCGATGTGCTGGACACCTGGTTCAGTAGTGGTCTGTGGCCATTCTCCACGATGGGTTGGCCAGATACTGATTCACTGGACTACAAGCGCTACTTTCCAACCAGTACCCTGGTTACCGGCTATGACATTATTTTCTTCTGGGTATCCCGGATGATCTTCCAGTCCCTGGAATTCACCGGTAGGGCTCCGTTTAAGAACGTCCTGCTGCACGGCTTGATTCGTGACGAACAGGGCCGGAAGATGAGCAAGTCCCTGGGGAACGGGATTGACCCGATGGATGTCATCAAGAAGTACGGGGTCGACGCCCTACGGTGGTTCCTGATCACCGGGTCGACACCGGGTCAGGACATCCGCTTCTCCTACACCAAGATGGATGCAGCTTGGAACTTCATCAACAAGATCTGGAACGCTAGCCGTTACGTCATCATGAATCTTGGTGATATGCCGGCGCCGGTCCTGCCTGACAAGTCCAAGTGGGACCTGGCCGACCGCTGGATCCTCAGTCGGTTGAACGCCACCATCAAGCAGGTCAACGAACAGTTTGATAAGTTCGAGTTTGGTGAGGCTGGCCGGGCCCTGTACAACTTCATCTGGAACGACTTCTGTGACTGGTATATCGAAATGACTAAGGAGAAGCTCAACAACGGGACGGCTGAGGAAAAGGCCAACACCAAGAACATCCTGGGTTACGTTCTTGACCAAACCCTGAAGCTGATGCACCCGATCATGCCATTCGTTACCGAGAAGCTCTGGCTGTCAATGCAACACGAGGGAGAATCGATCATGGTCGCTAAGTACCCAGTAGCCGACGCCGCCCTTGATGACCCGGCAGCTACTGAGCAGATGAGCAACCTGATCGAGATGATCAAGGCGGTCCGCAACATCCGGAACGAGGCCAATGCCCCAATGTCCAAGCCGGTTGACATCCTGGTCAAGGTTGACAACCAACACCTCGGCGATATGCTGAATGCCAACCGGGACTACATCGACCGCTTCTGCCACCCCGCAGAGTTGACCATCAGTACCGATGTTCAGGCACCTAAACTCGCCATGTCCGGCATTCTGGTCGGGGCCGAGGTCTACATTCCGATGGCCGAACTGGTCGACCTGGATGAGGAACGGGCTAAGATGAAGAAGGAGATTGCCAAGCTAGAAAAGGAAGTTCAACGCTCCCAAAAGAAGCTGGGCAACGAGAAGTTCGTCAATAATGCTCCTGAGAAGGTTGTTGAAGCTGAGAAGCAGAAGGCTGTCGAATGGCAGCAGAAGCTGGATTCGGCTAAGGAACGGCTTGCTTCCTTGGAAGAGGCCTAA
>SRR1151252_00454 thiamine biosynthesis protein ThiI
GTGCAATACACCGAAATTATGGTCCGCTATGGTGAACTATCCACCAAGGGCCATAACAAGAAGTCATTTATCGACCGTCTGGGCGTCAACGTCCGGCACGCCCTGCACAGCTTTGACCAGGTCAAGGTTCACGCCCAACAGGACCGCCTGCATGTTGAACTCAACGGGGCGGACTACGACCAGGTGATGAAACGGTTGAAGCTGGTTTTTGGTATCCAGAACTTCTCCCCGTCAATCCGGGTTGATAAGTCCTTTGAGGCCACGGCCAAGGCGGCGGCCCAGATGATTGAGGAACAGGTTGACCACCCGATCACTTTTAAAGTAGAAACGCGGCGATCTGACCACTACTTTGAGTTGGATACCTTTGCGATGAATAACCAGCTAGGTGGTTACCTGCTAGAGAAGTTTCCTGACAAGCTGAAGGTTGACGTCCACCATCCCGACCTGACACTGCGGGTGGAGATCCGGCTCAACGGGATCTACCTTTCTAGCGAGACGATCAAGGGGGCCGGTGGGATGCCGGTTGGCACCGCTGGTAAGGGCATGATGATGATGTCCGGGGGTATCGACTCCCCAGTTGCCGCCTACCTGGCCATGAAGCGGGGTGTTTCCCTGGAGATGGTCCACTTCTACAGTCCGCCGTACACCAGTCCCCAGGCGCTTGCTAAGGCCCAGCAGCTGACGGAACGGCTGGCTAAGTACAGTGGTAACATCCGCTTCATCCAAGTGCCGTTTGCTGAGATCCAGGAGACGGTCAAGGAGAAGGTTCCCGAGGGCTACCTGATGACGGTCCAGCGGCGGATGATGCTCCGCCTGGCCGCTGCCCTGATGGTTAAGCGTCACGGCTTGGCAATTTTCAACGGGGAGTCCCTCGGTCAGGTGGCCTCCCAGACAATGGAGAGTATGCTGGCCATCAACGACGTCACGACCTACCCAGTCCTGCGGCCAGTCCTGTCCTACGACAAAACCGAGATCATCAAGATTGCCGAACAGATCGGTACCTACGACCTCTCCATCCTGCCGTATGAGGACTGCTGCACGGTTTTCACTCCACCGTCGCCAAAGACTCGGCCAAGTGTGGAGCGCGCTCGCAAGTACGAGCAACGCTTAGACATTGAGGGCCTGATGAAGCGGTCGCTGGACGGTATTAAGATTACCAATATCCACCCGGGTGAGGACTTCCTTAACCAGAATGAGGATGTTTTTGCCGAATTGCTGTAA
>SRR1151252_00455 cysteine desulfurase
ATGATTTACTTTGACAACAGTGCTACTACCAAGGTGGCACCGGAAGTTCTGCAAACCTACGATACGGTTAGCCAGAAGATCTGGGGTAACCCGAGCAGCCTCCACAACTTCGGCGAAAATGCCTGGAACCTGCTGGAACAGGCTCGGCAGCAAATTGCTAAGCTGATGGGGGTCAAGCCCAGCGAGATCATTTTCACCAGCGGTGGTTCCGAGGGTGATAACTGGGTGATTAAGGGAACGGCGATGGCTAAGCACCGCTTCGGTAAGCACGTCATCACCACCAGCGTGGAACACGCGGCGGTCCATAACCCGATGGAGCAGCTACGGGAGCTGGGCTTTGACATTACCTACCTGCCGGTTGACCGGGAGGGGCGGATCAACCCCGCCGATGTCAAGACCGCTATCCGTCCCGACACCATCCTGGTCTCCATCATGGCGGTCAATAATGAAATCGGGACCATTCAGCCGATTAAGGAGGTTGGTGAGATCCTGAAGGACTACCCGAACATCCACTACATGGTTGATGCGGTTCAGGCCATCGGTAAGGGAATCGACGACCTGGTTTTCAGCGACCGGGTTGACTTTGCCACCTTCTCTGGTCATAAGTTCCACGCCCCACGCGGTACCGGCTTTGTTTACATGAAGAGTGGCCGGAAGCTAGCCCCGCTGGTTGCCGGTGGCGGGCAGGAACGGACGATGCGCAGCGGGACCGAAAATACCCCGGGTGACGTTGCCATGGCGCGAGCCATCCGCCTGGTTAAGGAAAACGAGACGACCACCGTTAAGCGTGAGCAGGCAATCAAGGAGCGGATCTATGACCACCTCAGCCAGTTCGACCACGTCAAGCTGATCTCCGGTCGGGACCAGGGCTTTGCCCCCCACGTTCTCTGCTTTGCCATCCCCGGTGTCCGGGGGGAGACGATTGTTCATGCCTTCGAGGACAAGGGCATCTATATCTCCACGACCAGCGCCTGCTCTTCGAAGAAGCACGCCGAAGCCGGGACCCTGGCCGCAATGAAGGTTCCTGAAGAGGTTGCCACCAGCGCGGTACGGATCAGTCTCGGTGACCAGAATACCTTGGAAGAGGCCGACCAGTTTAACCAGGTCTTCGATGAACTTTACGCCGGTTTTCAGAAGATTATTGATTAA
>SRR1151252_00456 septation ring formation regulator EzrA
ATGTTTCAAGTTTTAATTGTAATTTTGATCGTAATTCTCGTCATCCTGGCTGGCATCGTCTGGTACCAGCACCGGGTTCTCAAGCAGGTGCAGGGGATGGTGGTTGCCTGCCAACAGCTGCGTGATAAGAAGATCGAAGAGCAGTTAAAGCAGGCCGACCAGCTCCAGTTGACCGGGGATGCGAAGAAGGAACTCGATAAGCTGCAGACTTCTTATAATAATAAGATTATGCCCCAACTGAAGGCCATCCGAGCAACCGGACAGGACCTTCAGCGGGCGGCCCGGACCACGAAGCTGTTGACGATTGGTGGACCGGTCAATGACCTGCGCGCCGACCTGGCCAAGGTCACGACGACCCTCAAGCAGGTTGAACAGTCCCTACAACATATCGAGCGGCAGAGTAAGGCCCACAAGCAGGCCATCGACCAGATTAAGCAGAATTACCAAAAGTTCCACCAACAACTAAACGAGAAGAGCTTTGAATATGGTGACAGTGCTAAGAAGCTAAACGAAAAGCTGGCCGACCTGGAGAAGCAGTATGACCACTTCGTCGACCTGACCAGGAAGGGGGACCAGGAAGCGGCCCAGGAGGTGCTCACTGACCTTCAGCAGGGCAACCAAGAACTGGCTACCCAGATCAAACGGGTACCAGCCCTTTATAAGCCGCTGGTGACCGAGTTCTCCGACCAACTTCGGGAACTGGCCAGTGGTTATGAAACCCTGACGACGGAACACTACCACTTTACTGAGCCCGACCTCGACTCGCAGATCAAGCGTCTGCAGACCAAGGTTGACGCAACGATGGACCAGCTCAATGATCTCCAGCTAGACGTGGTTAAGCAGGCCAATGATGACCTGGCTGAGCAGATTGACCATGTTTACGCGGTAATGCAAAAGGAGATTGATGCTTGTGACGAGGCCCACCACCTGATCGAGATGATGGGGCGCTTTACCCAGCACGCTCAGCACCAAAACAACGAACTGATTGGTAAGTTGGATCGACTGAGTCTCAGTTACACCCTGAACAATAACGAGTTTGAGCAGGCCCGTCAGCTAAACGAGCAGATTAAGACGATTGTCAAGCAGTACAATGAGGACCAACAAGCGATCCGTGATCGACGGGCGGTTTACAGCCAGATTGTTGATCGGGAGAAGGCCAACCGGGACAGTCTGACCGATATCGAGCAGGAGCAGGGCAAGATCAACGACGCCGTGGCTAAGCTGCAGACCGATGAGCAGCGGGCTCGCAAGATGCTTCAACAGTATTCTGTCCAGATTCGGACGATCCGCCGCCAGGTCGAACAACTCAACCTACCGGGAGTTAGTCAGGAATATATGGACTACTTCTTCGGGGTCAGCGACGAGATCAAGAAACTAGCCGATGAGCTTAATGAGTACAAAATCAACATGGAGAACGTCACCAAGCAGTTGATCATGGTTGAGGCGGACCTGGAGAAACTTCAGGACAAGACCAACGATCTCCGTGATAGTGCCGAACTGACCGAACGCCTCCAGCAGTACGCCAATCGATTTGCGGGGAGTGAGAAGGTTGCGGCGGCCGCTAAGAAGTCCCAGCGGCTGTTTGATCAGTATAACTATGCTGGCAGCCTGGAGGCTATCGCTACCGCCCTGGAGGAAGTTGAGCCGGGGAGCTACAAGCGGATTGAGGATAGCTACTACCAGGAAGTCAATGAATAA
>SRR1151252_00457 30S ribosomal protein S4
ATGTCTCGTTACACTGGTCCAAGTTGGCGTGTATCTCGTCGTCTTGGTGTTTCACTTTCAGGTACTGGTAAGGAATTAGCACGTCGCCCATACGCTCCTGGTGACCACGGTCGTGATCGTCATGGTAAGCTTTCTGAATACGGTACGCAACTTCGTGAAAAGCAAAAGTTGCGTTTCACCTACGGGATGACGGAACGGCAATTCTCCAACCTGTTCGTTCGTGCCGGCAAGATCAAGGAAGGTACCCACGGTGCTAACTTCATGGCCCTGCTGGAACGTCGTCTGGACAACATGGTTTACCGCTTAGGTTTGGCTACTACTCGTCGTCAAGCTCGTCAACTGGTTAACCACGGTCACATCACCGTTGATGGTAAGCGCGTTGATATCCCTTCATACGAAGTTGATGTTAACCAAGTTATCGGTGTTCGTGAAAAGTCCAAGAACCTGGACATCATCAAGAACGCGGTTGACGCCGTTGTTTCACGTCCATCTTACGTTGACTTCGATGCTGATAAGCTCGAAGGTAAGTTGAACCGGATCCCTGCCCGTGAAGACATGGATGCCGACATCGATGAAGCCCTCATCGTTGAATTCTACAACAAGTAA
>SRR1151252_00458 hypothetical protein
ATGAAGATTATTTTCGCACCGGCACGGACGATGCGTGTCGACACCGATTCGCTGCCCTACCAGGGCCTACCGCAGTTTTTACCCCAGACCCGGGAGATTCTGGCCTGGATGCGGAGCCTGACCTATGACCAGCTTCGCCGTCTCTGGTGGAATTGCAGCACCAGGCTAGCCCAGCTTAACTACCAGCGGGTTATCGAGATGGACTTGACCCGCCAGCTGACTCCGGCGATCCTAGCCTTCTCTGGGCTTCAGTACCAGTACATGGCTCCAGACGTTTTCACTGACCGGGGCCTGGTATATGTTGAGGACAACCTACGGATCTTATCGGGCTTTTACGGTCTTCTCCGGCCGTTCGATGGGATTGTGCCCTACCGTTTGGGGATGGGGGACCGGGCTCAGGTAGCCGGTAGCAAGAATCTTTACGATTTTTGGGGCTCTCGACTGGCTGATGAGTTGTACCGCGATGACCAGCTAGTCCTCAACCTGGCCTCTAAGGAGTATGAACGGGCGGTGACACCCTACCTGACTGACCAGCGGCGCCTTGTGACCTGCGTGTTTGGTGAGCTGGTCGACGGGCGGGTAAAGCAAAAGGCCACCTTGGCAAAGATGGCCCGCGGCGAGATGGTCCGTTATCTGGCGGAGAATGATATTCACGATCTGGCAGGGGTGAAAGCCTTTGGGGTTGCCAACTACCGCTTTCGCCCTGCATATTCGACGGCAGACCGGCTCGTCTTTACCAAATAA
>SRR1151252_00459 membrane protein
ATGAATGAAGAAATGCCAGCCCATGGTCAAGTCGCCGAGCGGACAATCTCGCTGACGGCCAGCTGGGCATTCTTTGCATTTTCAATTGTTATTAACTCGATGGGGAACGTACTGACCCTGGTCACTAGTTCCCACATTCATCCCCAATTCCTGGGTTCAGCATACTGGACCGCCGCGGAAAACAACCTGGGGATTGCCGTCCTCGGTAACCGGCCAACGACCCTGTTCTGGGCCTTCATGATCCTGGGGATGTTGACTGCGGTCCTAAACGCCATCCTGATGCATAAGTGGGACTGGCGACGGATCGGCGGCAACTTCATTTTCATGCTGCCGTTCTCCCTGTTCATCCAGTGGTTCTCCAACATCTTCAACCGGATCATGCCGGACGCCACGACCCTGCCGATGATTATCCTCTACGTGCTGATCAACTTCCTCGGGGTCGCCTTCATCGGCACCGCTATTTCGATCTACCAGCGGGCCAACCTGGTCCTGCACCCAGCTGATGACCTCTTCCAGATCATCCGTTTTCGTTACTGCCACGGAAACGCCACCGTTGCGATGTGGGCATCCTACATTCCGCCGACAATCATGGCCATCATTGCGGCTATCATGCAGGGCGGAATCTATAACTTCGGACTTGGGACCCTGTTTGCCCTAGCCTTCCAGGGAGCGATCACCGGTTGGGCGGATCTCCACATCTTCCCCCATCTCAAGCACCAGGCCTTAGACATTGGTAACTAA
>SRR1151252_00460 hypothetical protein
ATGGCAGCAAACAACGAAAAATCAGGCGCCGAGCAGCGGATCGAAAACGCCATCTACGGAACGCCGAAGATCAAGCCCGACGAGCAGCGCAAATACCTGGGGACCTTCCGAGAACGGGTCTGCCTAACAATTAGTGTCAAGGAGCTACATGAACAGAACTGGCAACCGGCCCTGGTCGCCGAACTCAAGCGGGGAATTGGCAACCTGGTCTTCTTAAATGGTAACCTTCCCCATGAGGAGATCCACCCCTACCTGCTGGCCACCAACCAGCACGGTGGCTCCTTTACCATGAAAACCGCCCCAGAGTTCAAAACGGACCCGGACTCCTTAGCGGTCGTGGTCGCCGCTAAAACGGGGGTCTTCCAGTCACCGGTCGACGTCGAGAAGCGCTACCCCCAATTTAAAGTCGGCCAGCACCCAGCCGCCAAGCAGACCGACGATGAGCACCACGGCTTCTTCTACCGGCTCTTTCACCAGAAGGGGGAAGAGTAA
>SRR1151252_00461 recombination factor protein RarA
ATGCAGCGCCCACTCGCTTACCGTATGCGGCCCCGCACCCTGGATGAAGTCGTTGGCCAGCAGCACCTTGTTGGCCCCGGTAAAATTATCAACCGGATGGTCAAGGCCAAGATGCTCTCCTCGATGATCCTTTATGGCCCACCTGGTACCGGGAAAACCAGCATCGCCAGCGCCATCGCCGGTTCAACCAAGTACGCCTTCCGGAAGCTCAACGCCGCCACCGACTCTAAGAAGGACCTCCAGATCGTGGCGGAGGAGGCCAAGATGAGCGGGACGGTGATCCTCCTGCTCGACGAGATCCACCGTCTGGACAAGAGTAAGCAGGACTTTCTCCTCCCCCACCTGGAGAACGGGCGGATCGTCCTGATCGGGGCCACCACCGAGAACCCCTACATCAGCATCAACCCAGCCATCCGCAGCCGAGCCCAGATCTTCCCGGTTCATCCACTGACCAGTGCCGATATCAAGGTCGCCATCGACCGGGCCCTCCAGGATGACAAACGCGGACTGGGTAAGCTACCTATCGACCTGACGCCAGCCGCCGAGGAGCAGCTGGCAACCGCGACTAATGGTGACCTACGCAGCGCCCTTAACGGTCTAGAGCTGGCTGCCAAATCGACCGACCCCGGCGATGACGGCAGGATTCACCTGACCCTGCCGATCATTGAAGAAAGCGTCCAGAAGAAGTCTCTGGGGGCGGACAAGGACGGGGATGCCCACTATGACGTCATCTCAGCCTTTCAAAAGTCTATCCGCGGCTCCGACACCGATGCCGCCCTCCACTACCTAGCCCGCTTGGTGGAAGCCGGGGACCTGCCCAGCATCGCCCGGCGACTGATGGTGATTGCCTACGAGGATATTGGCCTGGCTAACATGCCAGCCGCCCAGCGCGCGGTAACCGCCGTCCAGGCCGCCGAACAAGTCGGCTTCCCCGAGGCTCGGATTCCCCTGGCCGACGCAGTGATCGAGCTCTGCCTCTCCCCCAAGTCTAATTCGGGAATCAGTGCGATTGACGCCGCCATCACCCAGGTCAAGCAGGGGGGCTTCGGTGACGTGCCGGACCACCTCAAGGATGCCCACTATAAGGGTGCCGGCAAGCTCGGTCACGGCACCGACTACGACTTCCCCCACGACCATCCCCAGGACTGGGTGGCACAGCAGTACCTTCCCGACCGGATCAAGGATGCCCAGTACTTCCACCCCAAGCGAAACGGCCACTTCGAGCAAGCCTTAAACCGCCAATACTGGCAACTCCGCCGGGCCCAGCAGCAGGCCCTGCATGGTCACCGCCATCCGGGTAAATGA
>SRR1151252_00462 hypothetical protein
ATGCTCTTATCAATCTTCGTGACCCTCTTCGCCCTGATCGCCCTCTTTGAAGGAATTTACTTTCTCACCCACCTGAGCAAGCCCTTCATGATCTTCGACCCGGTCAAGAGTCCCTTTGTCCACCGTCAACTCCAGGTCTGGGGGATCATCATGACAATCCTCGGCCTGATCACCCTAGTGGCTGCTTGGACGAACAGCGTTGCCTTCATCGTCATCATGGTCGTCCTGGGCTGCATCTTAGAGACCCAGATGGCCTTTACCATCACCAGCGAATTTCGCGCAAAGAATCACTGA
>SRR1151252_00463 universal stress protein UspA
ATGGCACAAGAATATAAACACATTTTGGTTCCAGTTGATGGATCCGCAGAAGCCGAATTAGCCTTTAAGAAGGCGGTTGCCGTTACCAAGCGAAACGGTGAAGATGCTGAGTTACGGTTGCTTCACGTCGTTGACACGCGGGCATTCCAGAACATCTCCAGCTTCGACACCTCGATGGTTGAGCAGGTCACCGACACTGCCAAGAAGACCCTCGATAAGTACGTTGATTACGCCAAGAAGAACGGTGTCGACAAGGTCAGCTACTCCATCGAATACGGGGCACCGAAGACCATCATCGCACGCGACGTTCCAAAAGAAATGAACGCCGATTTGATTATGATTGGGGCCACTGGTCTGAACGCAGTTGAGCGGATTCTGATCGGTTCCGTTACCGAATACGTCACCCGGATGGCAATCTGTGATGTCTTAGTTGTCCGGACCGACCTCGATAACAAGCCAATTGCAAACCCAAAGAACAAGAATAAGAAATAA
>SRR1151252_00464 GntR family transcriptional regulator
ATGGACGGCAAGTACCAGATCAACCAGAAGCTCCCCACCGAAAGCGAACTGATGCAGCGGTTCAACGTCTCCCGCTACACAATTCGGCGGGCCATTGGGGACCTGGAAAACGAGCACTATGTCTACCGCATCCAGGGGGGCGGGATGTTTGTTCAGGACTGGCAACGGGATTGGACGGCCAATGACACTAATAAAATTATCGGGGTCATCAGTACCCACATGGCCGACTACATCTTTCCTTCCATTATTTCGGGAATCGACAGCGTCATCACCGACAAGGGCTATTCAATCATCGTCGGAAACACCCTCAACAGTCCCCAACGTGGTCGCCAAACCCTGCTCAACATGCTCGACTTGAAGATCGCTGGTCTGATCATCGAACCATCCCAAAGCGCCCTTCCCAATCCAAACCTTGACCTTTACCGGCAGATCACCGAGTACAAGATCCCGACCATCCTCTTCCACTCAACCTACCCAGAGCTGACCTTCCCAACCCTGCTGACCAACGATAAGAAGGGCGAGCAGGCCCTGGTCGAATATCTCTTCCAACTCGGCCACCAACGGATTCTCGGTGTCTTCCAGGTTGACGACCAGCAGGGGGTCGACCGAATGCATGGAATGATCCAGGCATACCAGTCTGCCGGAATCCCCCTAATGAACAGCAATATCATTATGTATCAGTCCGCCGACTCCTATGATGACATCATCGACCGGGTCGATAACGTCCTAGCTAGTCCGGCAACCCTGACAGCCATCGCCTGTTATAACGACCAGCTAGCTACCCACCTGATTGGCCACCTCCAGAAGACCGGTCGGCGAGTCCCCGATGATGTTTCCGTGGTTGGCTTCGATAACTATGACATGGCCCAGGTACTCTCACCGACCCTAACCACCGTCGACCACTCGAAACGTCGCCTTGGCCGGGATGCCGGCGAGATGATTCTGAAAATGATTAACGGCGAAGAGGTCACTTCTAAGACCTATGATGTACCGATGATCGTCGGTAATTCCACCAAGGCACTCAAGTAA
>SRR1151252_00465 transcriptional regulator
ATGAAACTCCGTGGAGACGTTTTAAAACAAATTCGCCGCAAGAGGGGCTTGTCGCAGACCGCATTAGCCGAGGGCATCTGTACTCAAGCGACGATTAGCTTGATGGAAAAACAAAACCGATTACCAAAGATGGACATCTTGACTGCAATTTGTGAGCGGTTAAATATTTCGTCAGATCGGATCGTCGAAAACGAGGTCAGTGGGGTCAACGATACCTTCAATAAGGTCATCGACATGCTGACGGCGCACGAGTATGATAAGGCCGAAGAGATGCTCGATGCGGTCAAGGTCAAGCAGCTGGATAGCGACTTTGATAAGCAGCGCTACTACTACTTGTTGGGGATGGTCCAGGTCGAAAATGACCAGATTGACGATGCCATCTTTAATTTTGAATTAGTCTTGACCCAATTTGCGACGACCAGTGCCAACATCTACCTGGCCATGACGACGGCCGGGATGGCGATGGCTTACCTGAAGCGTAACGACCGTGAACGGGCCATTCGATTGACCAACCGGTCGGTCAAGCTGATTGACAACAAGAAGCTGATTGGGAGCCTGCACCAGTGGGCATCGATCAACGACCAGATCGCCAACCTCTACCTTGAGCTGGGTGATCCGGATAGTGCCATTGAGATGGTCAACCGGGGGATCAAGATGTGCCGGGCTCACGATTCCCTTTTCCTACTCGATGAGCTCTATCTATGCCTGGGTCGTTGCTACATCGCCAAGGGTGAGCAGGAGGATGCCAAGCAGGCTCTGGAGATTGCCAAGAGCCTCAGCATCGCTCGTCACGGTACCTTGATGGAAGAAGACATCGAGACCGAGCTGGAAAAGCTACAATAA
>SRR1151252_00466 D-alanine-D-alanine ligase
ATGGCTAAGAAGTTACGAATTGCACTGCTCTTCGGTGGCAACTCCTCTGAGCATGACGTCTCCAAGCGTTCGGCCCACAACATCTATGATGCCCTCGATAAGGACAAGTATGACGTAAGTCTGTTCATGTTCACTAAGGACGGGATCCTGCTGGACAACGCGGCTTCCCAACGGATCTTCGACGGGGAGCCAGAGGATACGGTGGTCAAGGATGCCTATGCCAAGATGGACCTGACCCAGCCCCTCGCCCCAATCATGGCCCTGAATGAACTGAAGACGATCGACTTCTTCTACCCGGTCATTCACGGTAACCTTGGTGAAGATGGGACTATCCAGGGCCTCTTCAAGCTCCTGAATAAGCCCTACATTGGTTCCAATATCGCAGCGAGTGCGATGGCCTTCGACAAGGACCTGACCAAGAAGATCCTGACTGAGGCCGGGATCCGGAATACCCCATATGTTCTGTTGACGCCAGAGAACCGGGCTGACTACTCGTGGGGACAGATTGAGGAACGCCTCGGTGACCTCGTCTTCATTAAGCCGGCTAAGCAGGGTTCCTCTGTCGGCATCCACCGGGTCACCAACGCCGATGAGTACGAGGCGGCCTTAGACGACGCCTTCAAGTACGACTTCAAGGTCCTGGCCGAACAGGGTGTGCCTAACCCTCAGGAGGTTGAGATTTCGATCCTTGGTAATGAACACCCGATTGCCTCCAAGCTGGGGGCGGTCCGGGTGCCAGCCGGCGACCCGTTCTACGACTATGAGAACAAGTTCGTCGATGCCAGCGGCGTCGTCTTCGAGTTGCCAGTTAAGCTGCCCCAGTACCTGACCGACGAGATCACCGACATGGCGCTAAAGGCCTATAAGACTCTCGGTATGAAGGGGATGGCCCGGATTGACTTCCTGGTCGACGAGAACAACGTGCCGTACCTGGGTGAACCTAACACCCTGCCAGGTTTCACCAACATCAGCCTCTACCCGCAAATGTGGGAGGTTTCAGGAATCAGTTACTCTGAACTGATCGACCGCCTAATTCAGCTGGGGCTGGAGGAGTTCAAGCGCAACAGCCAGATTACCTATGACTTCAAGGAGCTGGGGACAGAGCGCGTTGGTAAGAAGAAATTTAATTAA
>SRR1151252_00467 glycine cleavage system H protein
ATGGCTGCAAAGAACAACTACTTTTGGACCAAGAAGCTTGATAATGGCAACACCCGGGTGGGGTTGAATGACCAGGGGCGTGACGACCTGGGCCAGATCAGTTTCATCGACGTACCGGCTGTGGGCACCGTCCTGGAAGATGGCGGCAAGTTTGTCGCTGTCGAGGCGGAGAAGGCGGTTACCGACCTGGACAGTCCAGTTGCCGGGAAGATCGTGGCGGTCAATGCTAAGGTCGTTGATGACCCGGCCGGCCTGAGTTCTGCCGATGAGGAACAAAATTGGATCGTTGAAGTTAAGTAA
>SRR1151252_00468 rod shape-determining protein RodA
ATGCAACGTTCGCAAAGTGATGAAGAAAGTCGGATCGACTGGGGGATCATCTTCTGTGTCCTCCTCCTGGCCCTGATCGGCCTGGCCTCGATCTACGTGGCAGCCGTCCACGACCGCCAGCAGACCAGCGTGGCCCGGCAGGTGATTACCCAGCTGGTCTGGTATGCGATCGGGACAATCCTGATCGTGGTGATCATGCAGTTTGACTCGGAGCAGCTCTGGAAGCTGGCACCGATCGTTTACTGGCTGAGTATCTTCCTGATGTTTGCCATCTTGGTCTTCTATAGCCGTTCGTACTACGCCAGTACGGGGGCAAAGAGCTGGTTTGCCATCGGGCCGGTTACCTTACAGCCTTCGGAAATTATGAAGCCGGCCTATATCCTGATGATGGGGCGGGTGATCACCACCCACAATAACCGCTACAGCGTTCGGACTGTCCAGTCTGACTGGCATCTGATTGGAACGATGTTTCTCTGGTTACTACCGATCCTGATCTCCCTGCACTTCCAGAACGACTTCGGGACGGCCTTGGTCTTCTTTGCCATCTTCTGTGGGATGGTTCTGGTTTCCGGGGTTACCTGGCGGATCATCGCTCCGGCAGCGATCGCCCTGGCGGTGGTCGGGGGCTCGGCCCTGGCTATGGTGACCTCCTCAGTCGGTCGGCGGATCCTGGAGCATGTTGGTTTCCAGGCCTACCAGTTTGACCGGGTTGACACCTGGCTGCATCCGGAGCAGGATACGACTAACCAGGGCTATCAGCTCTGGCAGAGTATTAAGGCGGTCGGCTCCGGTGGGATCACTGGGACCGGGTTCAACAATTCTAAGGTTTACGTGCCGGTGCGGGAGTCGGATATGATCTTCTCCGTGATTGGGGAAAACTTCGGCTTCATCGGTGGCGTCCTCCTAATCTTGATCTATTTACTCTTAATTTATCTGATGATTCGTGTTACATTTGATACGAAGAATGAGTTTTACGCCTATATCTCAACCGGGGTCATCATGATGATCCTTTTCCACGTTTTTGAAAACATTGGGATGAACATTGGATTACTCCCGCTGACGGGGATCCCGCTCCCGTTCATTAGCGCCGGGGGATCTTCTTTGATCGGGAACCTGATCGGGATTGGGATGGTAATGTCGATGCGTTACCACCACCATTCTTACATGTTTAGCAACAAGAAAGAGTTTAGATAG
>SRR1151252_00469 hypothetical protein
GTGGCTAAAAAAGACAAAAAAATTGAAGTAAGTGTTAAAGATATTGAACGGCAGAATCAACCGGTTCAGCAGATCTTTATTGGTGAACGGCTGATCGGTGAGGTGGTAACGGATAACGATCGTTTCAAGGCCCTGTTGACGGCGGATTCGAGCGAGTTCTTCGTTCATTCGCAAGAAGAAGGCCTGGAGATGGTTCTCCAGCAGTACCACCTGCATCAGCACTAA
>SRR1151252_00470 hypothetical protein
ATGGTTCAGGTATTATGCAAAATGGTGCGGTGGTACCAGCGCACGATCTCGATACGCCGGCAGATTCGGGTCTGCCGCTATTACCCCAGTTGTTCCCAGTACATGCTGGAGGCTTTGGAGCGCTTTGGCCTGAAGGGGAGCCTGCTGGGGATTGCCCGGATTATGCGCTGCCACCCGTTTGCGCGCGGGGGGTATGACCCGGTACCTGACCATTTTACTTTTCGACGCAAATACTAG
>SRR1151252_00471 rod shape-determining protein MreB
ATGGCACAAGATATTGGTATTGATTTAGGAACAGCCAACGTGCTGATCTACGTTCAGGGCAAGGGGATTGTCCTGAACGAACCTTCCGTTGTTGCAATTGACACCCAAACCAACAAGATCCTGGCGGTTGGCTCCGAGGCCTACCGGATGGTGGGGCGGACGCCAAGCAACATCCGGGCTATCCGGCCATTGAAGAACGGGGTGATCTCCGACTTCGACGTGACGGAGGAGATGTTGGCTTACTTCATCGGTAAGCTGAGCGTCAAGGGCTTCATGTCCAAACCAAACATCATGATCTGCGCACCAACTAACATCACCGAGATCGAACGCAAGGCGATCATTCAGGCCGCTGAGCAGTCTGGTGGTGGCAAGGTTTATCTGGAGTACGAGCCTAAGGTGGCCGCTATCGGTGCCGGACTTGACATCTTCAAGCCACGCGGCAGCATGGTTATCGATATGGGTGGTGGTACCAGTGACATCGCCATCCTCTCCTTAGGTGACATCGTCTCCAGCCGGTCGATCCGGATGGCTGGTGATAAGCTCAACAACGACATCGCGGCCTACATCAAGGACCAGCACGGCCTGGTCATCGGTGAACACACCGCTGAGAATATCAAGATGAAGATTGGGACGGCCCTGAAGTCCGATAATCCGGCCGAGATGGATGTCCGGGGCCGTGACGTGGCCAGTGGGATGCCAAAGCAGATCACCGTCAATGAAAACGAGATCGAGGAGGCCATCCACGACACCCTGGAACAGATCCTGACGGCCACCGTCAACGTCTTAGAGACGGTCCCGCCAGAACTGGCCAGTGACATCATTGACCGGGGCATCGTATTGACCGGTGGGACGGCCCTCTTAAAGGGGATCGACCAGCTCTTTAGCGACCGGCTCAAGGTCCCCGTAGTTGTCTCACAGAGTCCATTGGACAACGTGGCTAAGGGAGCCGGCGAGATGCTGGAACGGATGCAAAAGACTGATCGGAAAAAGTAA
>SRR1151252_00472 UDP-N-acetylglucosamine 1-carboxyvinyltransferase
ATGGAGAAAATGGTAATCAAGGGCGGTCGGCGTCTTACCGGCCGGGTCCACATTGAGGGCTCAAAGAATGCGGCGCTGCCGATCCAGGCGGCCAGCCTGCTCGCAACGGTCGGTAGTTTCCGCCTGACCAACGTGCCACCACTATTGGATATCATTACCATGAACCGCCTGCTTAAGTTCTTGGGCGTGGCGGTAGCCTTTGATGAGGCTAAGCATGAGCTCTTATTGGATGCCCAGCAGCCGGTGGCTAACGAGGCACCGTTTGAGTACGTCGACGAGATGCGGGCTTCCCTATTGGTAATGGGGCCTTTGCTAGCCCGGACCGGTCACGTCAAGGTGGCCTTGCCTGGGGGCTGTGCAATTGGCTCACGGCCGATCGACCTCCACATCAAGGGACTAACAGCGCTTGGTGCCCGGGTTGACCAACGTGACGGTTACATTGAGGCCCGGGCCGACCAGCTGACCGGGGCTAGGATCTACCTCGACTTTCCTAGTGTGGGCGCCACCGAGGACCTGATGATGGCGGCAACCCGGGCCACCGGAATCACCACGATTGAAAATGCCGCCCGGGAGCCTGAGATTATCGAACTGGCCAACTTCTTAAACAAGATGGGGGCCCGGGTCCACGGTGCCGGCACGGCGGTTATCCGTATTCAGGGGGTCAACTTCCTCCATGGCTGTGAGTTTCGCCTGATGCCGGACCGGATCGAGGCTGGGACCTTCATGATTGCCGCGGCGATCACCAACGGGGACGTCCTCGTGGCCGACACGATTGCCGAGCATAATGCCTCCCTGATCGCCAAAATTGAGGAGATGGGGGTGACCGTCATTCGTCAGGACGACGGTATCCGGGTTCTCGGCACGGCGGTTTTGCTGCCGACCAACATCAAGACGATGCCCTATCCCGGCTTTCCAACTGACCTGCAACCACAGATTTCGGTTCTTCAGCTCCTGGCCAACGGGGTCAGTACCTTGGACGAGCGGATTTTTGAGAAGCGCTTCATGCACCTTGAGGAACTACGGCGGATGAATGCCAAGTTCCAGATCAGCGGACCGGTGGCGGTTCTAGATGGCCCGACTGAGTTTAGTGGGGCCGAGGTGACCGCCTCCGATTTGCGGGCGGGCGCGGCCCTTGTTCTGGCCGGCCTGGCTGCTAAGGGAATCACCCAGGTACGCAACGTCACCGAGATTGACCGGGGTTACTACCATTTCCAGGAAAAGCTCCACGCCCTTGGCGCCATGATCGACCGGATCGACATCGTAGATAAGTACAAGTTGTCACCGGGGCATCCGACGAACGAAACTAACCATGACTGA
>SRR1151252_00473 membrane protein
TTGGAACTGACGGGAATACATGCACTAATCGAGATCGTGGTTCAGCTACTATTCGTGTGGCTGGCCTTTAACGCCATCCAGGAATTTCATGTTGAGCGCTTCTTTAAGCACCCGCCCCGCACCCTGCCACTGGCCATTGTATTGGCGGCCACGGCGGTGGGTTACCTATGCGCCAGCTTTTTTCTGAATATTATCAGTGCAATTGGTAACTTAGTGTATCTTGTTCGCTAG
>SRR1151252_00474 F0F1 ATP synthase subunit epsilon
ATGGCTGACAGTAAATTTAAAGTCACGATTATTACCCCTGACGGCACTGTTTACGACAATGATAATGCCACGATGGTCATCATGAACACAGCTGGTGGTCAGATGGGGATCATGGCCAATCACGTGCCCCTAATTGCCGCGTTGGAAATCAGCACCGTCCGTATCAAGCACAGTGAAGGCACTGCCGAAGTTGCTGCCGTCAACGGTGGGATCATCCAATTTGATGGTCACCAGGCCCTGATCGCTGCTGATAGTGCCGAAATGCCGGAGGAGATTGATATCCAGCGGGCAGAAGAGGCTAAGAAGCGGTCCGAGTCCGAGATTGAAAAGGCCAAGCGCGAACACAATCAAGATGAATTGGCGCGGGCGGAGGTTCACCTTAAGCGGGCGATCAACCGTTTGAACGCTTCCAAGCTCATCAAAAAATAG
>SRR1151252_00475 F0F1 ATP synthase subunit beta
ATGAGTACTGGTAAAGTTCTCCAAGTTATCGGACCAGTTGTCGATGTTGAGTTCCCCTTAGACGAAAAGCTTCCTGAAATTAATGATGCCCTGAAGATTAAGGAAAGTGATGACAAGGTTCTGACGACCGAGATTGCCCTGGAATTGGGTGACGGGGTTGTTCGGACGATTGCCATGGACGGAACCGATGGTCTTCAACGGGGAATGGAAGTTGAAAACACTGGTGCCGCAATTAGTGTGCCAGTTGGTGACGATACTCTTGGTCGGGTATTTAACGTCTTAGGTGAACCAGTTGATAACGGACCGAAGTTTGGTCCAGATGCTAAGCGGATGCCAATTCACCGTGATGCACCTAAGTATGACGAATTGAACAACAACACGGAAATTCTGGAAACCGGGATCAAGGTCATTGACCTCTTGGCTCCATATGTCCGTGGTGGTAAGATTGGTCTCTTCGGTGGTGCCGGTGTTGGTAAGACCGTTTTGATTCAGGAATTGATTCACAACATTGCCCAAGGGCACAATGGTATTTCTGTCTTCACTGGGGTCGGTGAACGGACCCGTGAAGGTAACGATATGTACTACGAAATGAAGGCATCTGGGGTTCTGGAAAAGACGGCCATGGTCTATGGTCAGATGAACGAACCACCTGGCGCCCGTATGCGGGTTGCCCTGACTGGTCTGACGATTGCGGAATACTTCCGTGATGTCAAGGGTCAAGATGTGCTGCTCTTCATCGATAACATTTTCCGGTTCACCCAGGCCGGTTCAGAAGTTTCTGCCCTGTTGGGGCGGATTCCTTCTGCCGTTGGTTACCAACCAACCCTGGCAACTGAAATGGGTCAGTTGCAGGAACGGATCACTTCTACCAAGAAGGGTTCCATCACGTCGATTCAAGCCGTTTATGTTCCTGCCGATGACTACACTGACCCGGCGCCAGCCACTACTTTCGCCCACTTGGATGCCACTACCAACCTGGAACGTCGGCTGACGCAAATCGGTATTTACCCAGCCGTTGACCCACTGGCCTCAACCTCAACTGCCTTGACGCCAGAAATCGTTGGTAAGGAACACTACGAAGTCGCAACGCAGGTTCAACACGTTCTGCAACGGTACCACGAACTGCAAGACATCATCTCTATCCTGGGGATGGATGAATTGTCTGATGAAGAAAAGACGATTGTTGCTCGTGCCCGGCGGATCCAGAACTTCCTGTCCCAAAGCTTCAGTGTTGCTTCACAGTTTACCGGTCAACCTGGTAAGTATGTTCCATTGAAGGACACCATCAAGGGCTTCAAGGAAATCCTGGAAGGTAAGTACGACGACCTGCCGGAAGAAGCATTCCGTTTGGTTGGACCAATCGAAGATGTTGTGGAAAAGGCAAAGAAATTACAGGCGGATTCTGACGAGAACAGCAAAGATTAG
>SRR1151252_00476 F0F1 ATP synthase subunit gamma
GTGCCAGCTTCACTTGCTGCAGTTAAACATAAAATTGAATCTACGAAGAGTACTCGGCAAATCACGTCTGCGATGCAGATGGTTTCAACTGCTAAACTGAACCAAATTCAACACCATACCCAAACCTACGAAGTGTATGCTGAGAAGGTTAGACAAATGTTGGCTGATCTGGTTAAATCTCACAGCGCAACATCTGCTGCTTCACAAGATGATGTTTACGCTGCACTATTCAAAAAGCGTCCGGTTAAGAAGACCGGGATCCTGGTGATCACCTCAGACCGGGGCCTTGTTGGTAGTTACAACAGTAACATCATCAAGGAAACCATGAGTCTGATGGCCAAGCACAACCTGACCAAGGATAATACCGTCTTCTTGACGATCGGAAAGACCGGAACGGAATTCTTCAAGAAGCGGGACATGAACATCGTGTACCAGTATTCTGGGGTTAGCGATGTGCCATTGTTCCGTGAGGTACTGCCAATCGTCCGGACCGCGGTCCAGATGTACAATGACGGTGTCTTTGACGAACTGTACACGGTCCACAGTCACTATGTGAACCGGGTTACGTCGCACGTGATGGTTCACGATGCATTGCCAATTACCGAGAAGTCCCTGCTGAGTGAGAACGAGCTTGCCCAATTAGCGACTAATGATCAGCAGGATAAGCCGGCAAACGGTGATGTGATGACCGCACACGTTTCGGCTGAATATGAATTTGAACCGTCAGATACGGCAATTGTTTCTGCACTGGTTGAGCAGTACGCAGAGAGTGCCTTGTATGGAGCAATCCTGGATGCCAAGACATCTGAACACTCCTCAAGTGCCAACGCCATGCGTTCTGCCACCGACAATGCTGATGATATTGTTTCAACATTGCAATTGCAGTATAACCGAGCACGGCAAGCAGCCATTACCACCGAGATTACTGAAATCACCGGTGGGATGACCGCACAAGAATAA
>SRR1151252_00477 F0F1 ATP synthase subunit alpha
ATGAGCATTAAAACTGAGGAAATCAGTTCACTCATCAAGAAACAGCTTGCCAACTACCAAGACCAGGTTTCGGTTGAAGAAACTGGGACGGTTACCTATGTTGGTGATGGTGTTGCTCGTGCCGATGGCTTGGAAAACGCCATGGCTGGTGAGTTGCTCGAATTTAGCAACGGTGTTTACGGAATGGCCCAAAACCTCGAAAGTAACGATGTTGGTATCGTTATTTTAGGGGACTTCACGGGAATCCGTGAAGGTGACACCGTTAAACGGACGGGTCGAATCATGGAAGTACCCGTCGGTGATGCATTATTAGGGCGGGTTGTTGATCCATTAGGCCGGCCAATCGATGGCCTGGGCGAGATCAAGACTGACAAGACACGTCCAATCGAACGGAAGGCTCCAGGGGTTATGGAGCGGAAGAGTGTTAGTGAACCACTGCAAACCGGGATCAAGGTTATTGATGCCCTGGTTCCAATTGGTCGTGGTCAGCGTGAGTTGATCATTGGTGACCGGAAGACCGGTAAGACCGCCATTGCATTGGACACGATCATCAACCAAAAGGACAAGGATGTTATCTGCATCTACGTCGCCATTGGTCAAAAGGAATCAACGGTTCGTGCCAACGTGGAAACCTTACGCAAGTTTGGTGCCATGGACTACACAATCGTTGTTTCTGCTAGTGCTTCTAACCCAGCCCCAATGCTCTACATCGCGCCATATGCTGGTGCCGCAATGGGGGAAGAGTTCATGTTCGGTGGTAAGGACGTTCTGATCGTCTACGATGACCTGTCCAAGCAGGCCGACGCCTACCGTGAACTTTCCCTGATTTTGCGTCGTCCTCCTGGCCGTGAAGCTTACCCTGGTGATATTTTCTACACCCACTCACGGCTGCTGGAACGGGCTGCCCGTCTGTCTGACGACCTTGGTGGTGGCTCAATGACCGCCCTGCCAATCATTCAGACCCAAGCCGGGGACGTTTCCGCATACATTCCAACCAACGTTATTTCTATCACCGACGGCCAGATCTTCCTGGACGCTGATGAGTTCTACGCTGGTCAGCGGCCAGCCATTGATGCCGGGACCTCGGTTTCTCGGGTCGGTGGTGACGCCCAGATCAAGGCCATGAAGAAGGTTGCCGGTACCCTGCGTCTGGATATCGCTTCCTACAACGAATTGGCATCATTTGCCCAGTTCGGTTCAGACCTGGATGATGCGACCCAGGCCAAGTTGGCGCGTGGTCAGCGGACGATGGAGGTCTTAAAGCAGGGCCTGCACCAACCGCAATCCGCAGCACAACAAGTCGTAACGTTGTTCGCCCTCTCCCGTGGTTTCATCGATAAGATTCCGTTGGATGATGTTCAACGCTACGAGAGTGAGCTGGCTGCTTACATGCACGCTAACCACCAAGACCTTTATGACGACATCACGAAGACTGGTAAGCTGCCGGAAGGCGATAGCTTACAGAACGCGGTTGCTGACTTCTCCAAGTCATTCCAGACGAGTGACAGCCAGAAGAAGGCCGCTGCTAACAAGTAG
>SRR1151252_00478 F0F1 ATP synthase subunit delta
ATGAGTCTTGATAAGAAGAGGGTTGCTGGACGCTATGCCCGGGCACTGTTCGAATTGGTCGATGAAGACAATGAACTCGATCAAACTTATCAAGAATTGATTGCTTTGCGCCAAGTCTTTGAGGACAATGAGAGCTTGGAATCCGCACTGGCGGGTGTCCAACTGTCACTCGATGAAAAGAAAGCATTAGTTCAGGATCTGCAAAAGGGGGCTTCCCAACCTGTTGTGAACCTGATTCAAATGCTTTTTGATTACGGCCGCATGGATTGCATGGTCGCAATTATTGATGAGTTTGAACGGCGGTATGACGCTAAAAACAAGCGGATGCATGCTGACGTTGTCACAACGATCCAACTCGATAAACAACAACGGGATCAACTGAAGGCCAACCTTGCCAAGCGTTTTGGCGCCACGGAGGTTGTCTTAAATGAACAGGTTGATCCAGAAATTTTAGGTGGGGTTATTGTCCATGCTAATCACAAGACCATGGACGGTAGTCTCAGCTCAAAGATTAAGCAAATTCGTCGTTTACTAGTTAGATAA
>SRR1151252_00479 F0F1 ATP synthase subunit B
ATGTTTGTGAACAGTGTGTTAGCTGAATCGAACAGTTTATACATTGGGGACCTTGTCTTCTACATCGTCACCTTCATTATCCTGATGCTTCTGGTCAAGCACTTCGCATGGGGACCAGTCACCGACATGATGAAGAAGCGGGCAGACAAGATTGCCAGCGATATCGACAACGCGGCGCGGTCACGGGAACATGCCGAAAAGATGGCTGCCAAGCGTCAGGCGGAACTGCAAAATTCACGTCAGGAAGCTGCAGACATTGTAAGCAATGCCAAGAAGTCGGCTGAAACACAACGAGCACAAATTGTTGAGGCAGCACAAAACGATGCTCAAGCCCTCAAACAACAGGCACAACAGGATGCGGATCAAGCACGTCGCGATGCGCTGAACGGTGCCAAGGATGACGTTGCAAACTTATCTATTGAGATTGCTTCCAAACTCATCCAAAAGGAATTAAAGGCAGACGATCAAAAGGAATTGATCGACTCCTACATCGAAGGGTTGGTAAATCATGAGTCTTGA
>SRR1151252_00480 F0F1 ATP synthase subunit C
ATGGCATTAGGAGCAATTGCTGCAGGACTCGCGGCTATGGGTGCCGCTATCGGTGGTGGTATTGGTGATGGTATCTTAATCGGACACACTGTCGACAGTATCGCACGTCAACCAGAATTACAAAGTAGATTACAAGCAACGATGTTCATTGGTGTTGGTTTGATTGAAGCCATGCCTATTATCGCCATCGTTATTGGCTTCCTTGTTATGAACAAGTAA
>SRR1151252_00481 F0F1 ATP synthase subunit A
ATGGGCGGTGATGCTTTAACTTTTAAGCTTTTCGGACTCACGTTCAACACAACGAACATTGTTTCTGGACTGATTATCTACGCAATCGTGTTCTTCACTCTTTACGGGATGTCACGAAAGATCAAGATGAAACCAACCGGTGCACAGAATGTTTTTGAGTGGTTAGTTGATTTCACGAATGGAATTGTGCGGAGTCAGATGCCGACAGCCGAGCAGGGACGCTATAGCTTCTTTGCCTTCGTGCTGTTCGTCTTCATCTTCTTCGCCAACCAGTTTGGGTTGATCTTCCAATTCCATTGGAACGGGGCAGAAGTGCTTAGAAGTCCAACGGCGGATCCTGTCGTTACGCTGACCTTCTCACTGATGGTAATGGCTTTAGCACACTTTGCTGGTGTTGCCCACAACGGTCTTGGGGGTTACCTCAAGAACTATACCAAGCCATTTACCCTGATGCTGCCAGTCAACATCATTGAAGAGTTTGCGAACTTCTTGACGCTGGGTCTCCGTATCTTTGGTAACATTTTTGCTGGTGAACTGTTAATGAGTTTGATTGCCAATATGGCCTTCTCACACGGTGCCTTAACAATCATTCCGGGATTGCTTCTGGAATTGGCATGGCAAGGCTTCTCCGTATTTATCGGTTCAATCCAGGCTTATGTCTTTGTAACATTAACGACGGTTTATATTTCTCGGAAGGTTTCCGAATAA
>SRR1151252_00482 membrane protein
ATGACAACGATTACTGCACTTGGCCTGGTTCTGATGGTCCTGATGATTCTGGTCGGTGGCCGCCAGGGGTGGTCTGCCTTCCTCAGTCTCCTGCTTAACTTCGGCTTTCTCTACTTTGCAATGGTCCTGATCGCCTTCCACGTTCCGCCACTCTTTGTCACGGTGGTCACGGGGATCACGATCTTGGCGATCACCATCTTCATGGGGGAGGACGACCTACGGACCACGGTGACCGCCTTCTATGCGTCGCTGATCGTCATGGCCCTGTTAGTCGTCTTCATCATTCTGGTCGAACACTGGGCCATGGTTCAGGGCTTCGGGACCGAGGACAGTGACGACCTGGAGGGAATGTCGATTCTGATTGGGATCAGCTATCTGAAGGTCGCCGTGACGGTGACCGTCCTGAGTACGCTCGGGGCAATTGCGGAGGCCGCCATGGCGATTTCCTCGGGGCTGACCGAGGTCTTGGAGAACCATCCAGACATCAGCAACCCCCGCTTGATTAAGAGCGGGATGGCGATCGGTCGCCAGATTATCGGGACGACCTTCAACACCCTCTTTTTCGGGGCCTTCGGCGGCTTTTTGGCCCTCTTCATCTGGTTTGCGGGCCTCCACTATTCCCTGGGGACAATCATGAACAACAAGATCTTCGTGGCCGAGATGCTGGAGATCCTGATCTCCTTCATCGGCGTCCTGATCACGGTGCCAATGACGGCCTGGGTGATGACCAGGCGGCGAAACCACCTGGCTGATGGTCATGATCAACATGAATGA
>SRR1151252_00483 membrane protein
ATGTCGAAATTGACTAATGCTGCATGGCTGCGCAATAAACGCTGGCTGCTAGTAGGATTATTCCTTCTTGGCCTAGTTTGCGTGGCCTTTACAATGAATAACCAGCGCTTCTATCGCCGGCCGATTGCTAGGGTAGTCAAGGTGACGGCCGTGGGACACCCGCGGCGGACCAGTGACCAGTTCAAGAACGTTGACCACCAGTATGACCAACGGATCGTAGCCGTGATGGAGAACGGGGCGCACCGGGGACAGCGGGTCCTTCTCAGTAATACTTACAGTGACTCTCGACCGATGGACCAGCGCTACCGGGTTGGTAACCAGGTCTTCTTGAGTCAGGTGCGTCGGCACGGCAGGCAGCTCTCGGCCAACATCACCGGTTATAAGCGGGACACGGTCCTGGTTACACTGGCCTGGCTGGTCGTCTTTCTTCTCCTGGTGACGATGGGGAAGGCCGGGGCCTGGGCACTGACTAGCGTGCTGGTCAACGCCCTCCTCTTCGTTCTGGCGGTGGAACTTGACCTCCGCAATAACGGTGAGCATATCATGGGGATCTTCAGTATCCTCACGATCATCTTTGCCTTCGTCAGCCTCCTCCTGGTTCTGGGGCCGAGCAAGAAGATGCTAGCCACCTTCAGTGCGACCGTGATCGGGACCTTTGCCGCACTTGGCGTCAGCCTCCTGGTCTTCTCCTGGACCCACCAGCGGGGGATCTACTACGAGTCGATGCAGTATGTTACCCAGGTGCCGCGCCCACTCTTTTTGGCCGAGACTCTGTTGGGATCGCTGGGGGCAGTGATGGACGAATCCAGTGACATCATTGCGACCCTGTTTGAACTCAAGCAGCTGGAGCCGGCTGTTAGCCCACGCCGGCTGTTCATGTCCGGGCGCAATGTCGGCAAGTCGATCATGGGGCCACTGATCAACGTCCTCTTCCTGATCTTTATGGCTGACACCTTCACCTCCAGCCTTCTCTACATTAAGAACGGGAACTCTTGGGGCTACACCTTCGCCATGAATATGAGCCTGGGGACCGTCCAGAGCCTGGTTTCCGGAATCGGAATTGTGCTGGCAGTGCCCCTGGTCAGTGCCTTTGGGGCGTTACTATTAGGGAGGCGATCATAG
>SRR1151252_00484 uracil phosphoribosyltransferase
ATGGGCAAGTTTGAAGTAATTGATCACCCACTGATTCAGCACAAGTTGACGATGATTCGGGATAAGAACGTCGGAACCAAGTTTTTCCGGGAAACGGTGAAGGAGATCTCAACCCTGATGGCCTATGAGGTGGCACGGGACATGCCGCTCAAGGACGTTGAGATCGAGACACCAATTGCCAAGACCACCCAGAAGGAGCTGGCCGGCAAGAAGGTTGCCATCATCCCGATTCTGCGCGCTGGTCTGGGGATGGTTGATGGGATGACCGACCTGATCCCAGCCGCTAAGATCGGGTTCATCGGGATGTATCGTGACGAGACGACCCTGAAGCCACACGAGTACTTCGTCAAGTTGCCAAACGACATCACGGAACGGCAGCTGTTTATCGTTGACCCGATGCTTGCCACCGGTGGTTCCGCAATGATGGCCATCGAAGCGCTGAAGAAGCGGGGTTGCCAAGAGAAGAACATGAAGTTCGCCTGCCTGGTTGCCGCACCAGAAGGGGTCAAGGCCGTTCGGGAGGCCTACCCAGACGTCGACATCTACACCGCCGGGCTCGATGACCACCTCAATAAGGATGGCTACATCGTTCCTGGTTTAGGGGATGCTGGTGACCGGCTCTTTGGGACCAAGTAA
>SRR1151252_00485 translation factor Sua5
ATGGATACCAAGATTTTTCAATTGAGCGAAATTGACCAGGCGGCCGCCGCCATCAAGGCCGGCCAGCTGGTGGCTTTCCCGACCGAGACTGTCTATGGCCTCGGGGCTGACGCGACAAACGAGGATGCCGTTAAGAACGTTTACCTGGCCAAGGGCCGGCCGAGCGACAATCCGCTGATCGTTCATGTTAACTCGGTCGCAATGGTAGAACAGTACGCGGCCGAAATTCCGGATAATGCCCGTAAGTTGATGAAAGCTTTTTGGCCGGGTTCCTTGACAATCATTCTGAAGATCAAGAAACACGTCCTGTCCAAGACGGTCACCGGGGGGCTGAAGACAGTGGCCTTCCGCTTTCCGGATTGCCAGCCGACCCTTGACCTAATCGCTAAGGCGGGCGTACCAATGGTTGGTCCATCGGCCAACACGTCCGGTAAGCCGAGTCCCACCACGGCCCAGCACGTCTACCATGACCTGCATGGTAAGATTGCCGGGATTCTGGACAACGGACCAACCCGGGTTGGGGTCGAGTCAACGGTCCTCGACATGTCAACGGATCAGCCAGCGATCCTGCGGCCGGGTGCGGTCACCAAGAAGGACATCGAGAGCGTGATCGGCTCGATCGATGTTAACCACCATAAGGTTGGCAAGAACGAGACCCCCAAGGCGCCGGGAATGAAGTACAAACACTACGCTCCCAACGCCCAGGTCTACATCGTCGATGAGGGGACTGACTGGGGGGACGTGGTTAAGTGGATCCAGGCCCAACCCTTTGACGTCGGGATGATGGCCGAGGAGCAGCTCCTCCAGCAGGCGACCCTGCCGATGAATGCGGTCCAATTCTCCCTGGGGACCGGGGTTAAAGATGCCAGCGCCCGCCTGTTTGACGGTCTGCGCCAGTTTGACGACCAACCAAACGTCAAGGCGATCGTCACCCAGGCCTTTCCTGCCCAGGGACTCGGCGGGGCCTACATGAACCGGCTCAACAAGTCCGCCGGCGGGGTCCATTTCGATCCGGCAATGCTCAGGTAA
>SRR1151252_00486 N5-glutamine S-adenosyl-L-methionine-dependent methyltransferase
ATGAGTAAGACTGGACAAACCTATTTTGCGGCCCAGCGTTGGGCTAAGGAGCAACTGGCAGGGACGGACGTCGATTCCGCGTCGCCCCAGTTCTTACTGCAGATGCACCACGGCTGGGACGCCACCCACCTGCTTTTACACAACCGTGACCAGATGCCAGATGATGAACAGGCCTGGTTTTACCAGGCAGTCCGGCGGCTTCTGGGACATGAGCCGGCCCAGTATATCGCCGGTCAGGCCCCGTTTTACGGCCGGACCTTTACCGTCACCCCGGATGTTTTGATTCCCGAGGCGGAGACGGCCGAGCTGGTGGACTGGGTCCTGACCACGGTGCCTGATCGGCCATTATCGGTTTTGGACCTGGGAACGGGTAGTGGGGTGATCGGAATTACGTTGGCCCTGGAGCGTCCCCACTGGCGAGTAACGTTGAGCGATGTTTCACCGGCAGCCTTGACGGTAGCCCAGCAAAATGCCGGCCACTTTGGATTGGACCTGCCGGTGGTTGAGAGTGACCTCTTTGCTGGCATGGCTGACCAGCGATTTGATCTGATCGTGACCAACCCGCCCTACATTGACCCGGCGGCAACCAGTCTGATGGACACGGCGGTGTTGAAGTATGAACCGGACCTGGCCCTGTTTGCCGATGAGGCCGGTCTCGGCTTTTATCACCGCCTATTTACCCAGGCGGGGAACCACCTAACCAGGACTGGCCAGCTCTTTGGTGAGACCGGTTTTGACCAGGAACGGTCGATTCAGGACCTACTTCACCGGTGTGACCGGCAGGCACAAATTGAGACCCGCCATGATGTGGCAGATAAGATGAGGATGATACACGTATGGGATTTTTCAGGCGCAGGAGGAAATTAG
>SRR1151252_00487 peptide chain release factor 1
ATGGAAATGAAGGACATCTTCGATAAGTTGCAGGCGGTGGCGGACCGCTACGACGAATTGAATGAATTGATCAGTGACCCGGCCGTGATCGCCGACTCCCAGCGCTTCATGAAGCTTTCCAAGGAGGAGGGGAGCCTGCGGGAAACCGTTGAAAAGTATGACGAATACAAGAAGGTCACCCAGACGATCACTGATGACGAAGAAATGCTTCGTGAGATTGATGACCCTGACCTGACGGCACTGACCAAGGACGAGCTGAGCGATGCCAAGGACCAGCAGGCCAAACTGGAGAAGGAACTGGAGGTACTCCTGATTCCAAAGGACCCGAATGATGACAAGAACATCATCATGGAGATCCGTGGGGCCGCCGGTGGTGACGAGGCGAGTCTCTTTGCCGCCGACCTCTATAACATGTATCTCCACTATGCTGAGCGCCAGGGCTGGAAGGTCGAGGTTGTCGACAAGAATGAGACCGAGGTTGGGGGCTTCAAGGAAATTGCCCTGATGATCACCGGGGACAAGGTCTACTCCAAGCTAAAGTTTGAGAACGGGGCCCACCGGGTGCAGCGGGTACCGGTGACGGAATCCGCCGGCCGGGTCCACACTTCTACCGCCACGGTTGGGGTGATGCCCGAGGCCGAGGACGTCGACGTGGAACTGGACCCGAAGGACATCCGGGTGGACGTTTACCGTTCCAGTGGTGCTGGTGGTCAGCACGTCAACAAGACGTCGTCCGCGGTCCGGATGACCCACCTGCCAACCGGGATTGTGGTTGCCATGCAGGATGAACGTTCCCAGCAGCAGAACCGGGCCAAGGCTATGCGGATTTTGAAGGCCCGGGTCTACGACTACTACCAGCAGAAGGAGCAGAGTGCCTACGACCAGAAGCGTAAGGATGCCATTGGGACCGGTGATCGCTCCGAGCGGATCCGGACCTACAACTACCCGCAGAACCGGGTGACGGATCACCGCATTGGGCTGACCCTTAACAAGCTGGATAAGATCATGGCCGGCGACCTCGACGAGATCATCGAGGCCCTGATCGTGGCCGACCAGACCAAGAAGCTGGAACAGCTGCGTAATGAGTAA
>SRR1151252_00488 thymidine kinase
GTGGCACAGCTATTTTTTAAGTATGGTGCAATGAACTCGGGTAAGTCGATCGACATCCTGAAGGTTGCACACAACTATGAGGAGCAGGGCAAACCGGTGGTCCTAATGACCAGCGGTGTCGATAATCGGTCAGGGCAGGGTGTGATTGCCAGCCGGATCGGCCTTAAGCGTCAGGTGACCCCGGTCATGGATGACACCAATATTTATGAGTACGTCAAGGGGGTTGACCACCCGGTCTACTGTGTGCTGATTGACGAGGCCCAGTTCTTGAAGAAACACCACGTTCTTCAACTGATCAAGATCGTCGACGAGCTCAACATTCCGGTGATGACATTTGGCCTGAAGAACGACTTCAAAAACGAGTTGTTTGAAGGTTCCAAGTACTTGTTGATCTATGCTGACAAGATTGAAGAGATGAAGACCATCTGCTGGTTCTGCCCCCACAAGGCGACAATGAACTTGCGTATTCACGATGGTAAACCGGTCTACGAGGGTGAGCAGGTACATATTGGCGGTAACGAATCCTATTATCCCGTTTGCCGCAAGCACTACTTTCACCCCCTACTAGACCAAGGACAGGAGGAATAA
>SRR1151252_00489 UDP-N-acetylmuramyl peptide synthase
ATGTCAATTCGAAGTTCATTTGCTGAGTTTGCTGGCCGGTCTAGCTACTGGTTTCTCCACACCTTCATGCACGGTGGCAGCTCCCTCCCCGGCAAGCTCACCCTCAAGCTCGACCCCAACATTCTCCAGTCCTTCAGCCAGAAGTACGACCTGGTCATCATCACTGGGACCAACGGGAAGACCTTGACCACCGCGTTGAGCGTCCGCGTTCTGCGAGAAAAGTACGACCAGGTACTCACCAACCCCACCGGCTCCAACATGGAACAGGGAATCGTGACGACCTTCATTACCGCTCCCCGTGCCAAGAAGAAGGGGCTGGCAGTGCTGGAGGTCGACGAAGCCAACGTGCCGATCGTCTGCCGCTACATCACCCCGAAGGCCTTCGTCTTTACCAATATCTTTCGCGACCAGATGGACCGCTACGGGGAGATCTACACAACCTACAAGAAGATCCTCCGCGGGGTCAAGCTGGCCCCCAAGGCGACGATCATTGCCAACGGGGATGAGCAGCTCTTCCACAGCAAGGACCTGCCCAACCCGATCATCTACTACGGCTTCAACCATGAACACCACCCGGCCTTCAACGCCCCAGCCAACACCGATGGTCTGCTCTGTCCGAAGTGTCAGCACATCCTCCGGTACCACATGCGGACCTATGCCGGGTTGGGGGACTACTTCTGCCCCCACTGTGGCTTCAAGCGCCCGGAGCTGACCTACAGTGTCACCAAGCTCGACAAGCTGACGCCAACCAACTCGACCTTTGAGATCGACGGCCATCAGTACACAATCGGTATCGGTGGACTCTACAACATCTACAACGCCCTGGCTGCCTACTCCCTGGGCCGCTTCATGGGGGTAGCTCCTGAGCAGATCAAGCACGCCTTCGAATCCGACGAACGGGTCTTCGGTCGTCAGGAGATCATCAATGTCGACGGTAAGCAGGTTACGATCATCCTGGTCAAGAACCCCGTGGGCCTCAACCAGGTCCTCGACATGATTGAGACCGATCCGCAGCCATTTAGTTTTGCCTTCCTCCTCAACGCCAATTATGCCGACGGGATCGACACCAGTTGGATCTGGGACGGCAACTTTGAGAAGCTGGCTACCCACCAGATTCCCCAGTACATGACCGGGGGCGAGCGCTACAAGGATATTACTACCCGGCTGACGATGGCGGGGATCGACAACGTCTGGCACGAACCGGACCTGACCAAGGTCGTTGACAAGATCAAACAGATGCCAACTAAGCACGTATACATCCTGGCCAGTTACACGGCCATGCTCCAGCTACGCAAGCTCCTGGCCGAGAAGGAATACATCAAGAAAGGTGGAATGGACTAA
>SRR1151252_00490 glutamine amidotransferase
ATGGCAAAGTATTATCTTCGACTCGCCCATCTCTACGGTGACCTACTAAACACCTACAGCGACGTCGGTAACATCATTGCCCTGCGTTACTATGCTAAGCAAATGAACGCCGACATTGCAGTGGAGGTCATCAGCATCGACAACCAGTTTAATCCTAACGACTTCGACCTAGCCCTCTTTGGTGGCGGCCAGGACTATGAACAACTTGTGGTTTCCCGTGACCTGCCTAACAAGAAGGACGGGCTCGCCAGGTTTATCAATGATAATAAGCCAATGCTGGCCATCTGTGGTGGCTACCAGCTGCTGGGTCACTACTACATCGGTGCCAACGGTGAGAAGATCCCGGGACTCGGGATTCTCGACCACTACACCCTCAGTCAGGACAATAACCGCTTCATCGGTGACATCACCATCAAGAATCCGGAAACCGGTCAGGAATACCATGGTTTTGAAAACCACAACGGCCGGACCTTCCTCGGTAAGGACGAGCAGCCCCTGGGGATGGTCGTCACCGGGCACGGAAACAATGGTGAGGACCATACCGAGGGGGCCATCTATAAGTCGACCTACTGCTCCTACTTCCACGGCCCAATTCTGACCCGGAACGGGGAGATCGCCAAGACCCTGCTCCTGCGCGCGCTAAAGAATAAGTACCCAGACGCCGATTTCAGCAATCAGGAAGCCCTTAAAGTCAAACCAACCTTCTAA
>SRR1151252_00491 hypothetical protein
GTGGAATCATTACTAAGTTTTGGGCTGACCCTAATCTTTCTGGCTGAGAGCTTCTACGAGGTTCGTTTATACCTCTTCCTCCAGTTTGTCGCCCAGCACCATCCCCAGGTCGCTAGCCGCCAGCGCCTCCAGCGGATCTTACGGATCGAACGGGCCTGGAACTGGCTCTCCTGGGTATTTATCCTAGCCCTCATCATCCTACCCAACCACTATTCAATTCTCTTGATCAGTATTCTTACCCTGACGGAAACTGTCATCGTTCGCCAGTGGTCCAGCTTAAACAGAAATTAA
>SRR1151252_00492 arginine/ornithine antiporter
GTGAAAGACAAGGAATTAAACTTGTTTCTCTTAATCACCTTAATTATTGGAACAATCATCGGTGGGGGGATCTTCAACAGCCCCACCGATTTAATCTTAAAGTCTAACCCGCTGGCCGCTGTTCTGGCCTGGTTGCTTGGTGGCTTTGGGGTTTTGATGTTGACCCTGGTTTTCTATGAGTTATCGGTCCACAAGCCGGAGCTGACTGGCGGAATCTATACCTACGCCAAGCAGGGGTTCGGTAACTATGCCGGTTTCAACTCCTTCTGGGGCTACTGGATTGGCTCGATCTTTGGTAACATCGCCTTTATCACGCTCTTCTTTAAGACCGTGAACAGCATGCTGGACAGTCACCAGCTGTCGCCTTTGGGCTGTTTTATCGGCGGTAGCATCATCATCTGGCTCTATGCCCTGATCGCCTGGCGGGGGATCAAGGGGGCCAGCATCCTGAATGCGGTGATCACAATTGCTAAGATCTTGCCACTCCTCTTGGTTGTGGTGGTCTGCATCGGGCTCTTTCACTGGGGGACTTTCACCGTACCACATTGGACGACGATCCTGGCTTCTACCCACCAACCAGTTGCTCTACCACACCAACTTGGTGCAGCAATGAGCACGATTGTTTGGTGCTTTGTCGGGATTGAGGCGGCGGTCTCCATGTCACGACGGGCCAAAAAACCGGCTGACGTGGGGCTGGCCACGGTGATCAGTTTTGTGATCGTCCTGATTCTCTACATCGTCATTTCGGTGATTCCGATGGGGATCCTCCCAGCTGACCGGCTGGCCAAGGCCGCGGTGCCGTTGGCAACGGTCTTGGAGGCTACCCCGATCGGAATGGTGGGGGCCGACATTATCAAGATCGGCCTACTAATCTCGTTGCTGGGGGCCCTGCTAAGCTGGTACATGATTGGGCCGGAGATTGCCTATGTGACCAGCATGGATCACGATATGCCACGGCCATTCTCCCTGGTCAACAAGCATGACATTCCTGGGTTCTCCCTGATTGTCTATACCTTGCTGATGCAGGTCTTCCTGGTCGTTCTTCTGGTTCCGCAGCTCCAAAAGGCGTACACGATTGCCTATACCCTAGCGGCGGCGATGACCTTGGTGGCATACCTACTCTCGGCCTTGTACGGCCTTAAGGTGGCCTTTTGCGAGGGGCAGGGGATCTTCTTCAAGACGGTGGCACTCTTAGCCAGTGTCTACTCGGCTTACACCCTATTTGCTTCAGGAATTGAGTACGTTTTTGCTAGTGCCCTAATTTTTGCGCTGGGGATCCCGCTTTTCATCAAGTCGGCGAACCAGCTTAACCATCGTGAGCGGGTGGCAATGGTCATTATTGCCGTCCTCGGGGTGGCGGCCCTGATCCTTATCCTGGCCGGTAAGATTAAGTTTTAA
>SRR1151252_00493 arginine/ornithine antiporter
ATGGATACTGAGAAAAAAGGTATCGGTAAGGGCGAATTAATTGCCCTGATTGTTAGTTCATGTATTGGTACTGGGATATTTGGGATCACTAGTGATGTCTCAGCTGCCGCTGCACCAGGTCCAGCACTGCTCGCCTGGGTATTTGCAGGTTTAGGTTTCTTGATGTTAGTTCTCTGTCTGAACAACTTATCCGAAAAGCGGCCAGATCTTGAAGCCGGGATTTTCTCTTATGCCGGCGCTGGCTTCGGACCAATGGGTGAGTTCATCTCTGGTTGGTCCTACTGGCTCTCAGCATGGCTGGGTAATATTGCCTTTGCCACGATGCTGATGGCTTCTCTGGGGACCTTCTTCCCCGTATTTAAGGGTGGTCAGAACGTTCCGTCAATCATTGTAGCTATTATTTTCTGCTGGTTATTGACTATTCTGGTTAACAATGGTGTTGAAACGGCCTCATTTGTTAATATGATCGGGACGATCTGCAAGGTTCTGCCACTGATTATCTTCATCATTATTATGATCGTCAGCTTCAAGAGCGGCATGTTTACTGCCGACTTCTGGGGCCGGGTTGCCAATAACGCATCGAAGGGTACGACCACTGGTTCTACCTGGAGCCAGATGAAGGGGACCCTGATGACCCTGATCTGGGTATTTATCGGTGTTGAAAGTGCCTCCGTCATGGGTCACCGTGCTAAGTCACGGAAGGATGCCCAAGCAGCGACCCTGATTAGTTACGGCCTCCTGGTATTAGCCTACGTATTGATCTCCATCCTGCCTTACGGTGTCCTGACCCGGGCTCAATTGGCCGGCATGGGTCAACCAGCCATCGGTCACGTTCTTCAAATGACCATTGGTAACTGGGGTTCCATCCTGATCAACGTTGGTCTGATCATCTCCACCATTGTTTCCTGGCTGTCATGGACCATGCTGCCAGCCGAAACGACGATGCTGGTTGCCGATGATAAGGCAATGCCAAAGCTCTGGGGTGACACTAACGCTAAGAACGCCCCAACGGCTTCCCTGATGATCACCGGTGTACTGCAAACGATCTTCCTGTTCTCCCTGCTGTTCACGCAAAAGGCTTACGAGTTTGCTTATTCCCTTTGTGCCGCAGCTATCCTGTTCTCCTACCTCTTTGTTGGCCTCTACCAGATGAAGTACAGTAAGGAAAACGGTGAATGGGGTCAGTTTACGATCGGTCTGCTCTCCGCTGCCTTCATGTTTGCATGCATGTTCTTAGCTGGTTGGCAAGAAGTTCTGCTGGTTTCCATCAGTTTCATTCCTGGTTTCTACATCTACTACCTGGCATGCAAGGAGAATAACCACAAGATGACGACCGCTGAAAAGTGGGTTATGACGTTGATCCTGGTATTGTCCGTTGTTGCCATCTGGCTTGTTGCTAATGGAACGATTGCTATTAGCTAA
>SRR1151252_00494 arginine repressor
ATGGATCGAAAAGCGAGAAGGAAATTTATTGAGCAACTAGTCAATGATCGAAAGATTGAGACCCAGGATGAGTTGTTGCAACTTCTTACAGAGGCCGGAGTTGAGACAACCCAGGCGACCATTTCTCGTGACATTCATGCGCTTAACATTGTTAAGGCAAATGATGGCAAGGGACATACTTACTACGTCCAGTTGCATCTGGCTCCGGAACATGACTTTAACCGACTCTATCAGGGCATTCATGACAATGTCCGGACGATCGAAACGGTGCAGTTCCTAAATGTCGTCAAGACGGCACTAAATTCGAGCTACGCAACGATTCTAGCGGGGATGTTCGATGAACTTGATATTCCAGAAGTTGTCGGAACAATCGCGGGGAATGACACCTTGATCATTATTAGCAAGGATAATGCGGATGCCAAACTGGTCTATAATCTGATTACAAAGCACATTAACGCACGTATTGTGTAG
>SRR1151252_00495 arginine deiminase
ATGCAAAGTCCAATTCATGTAACATCTGAAATTGGAAAGCTGAAGACAGTTATGCTTCACCGACCAGGGCATGAAATTGAAAACGTCTACCCTGACATCCTTCACCGGATGCTTGTCGATGACATCCCATACCTGCCAATTGCACAGGAAGAACACGATTACTTTGCTGACACGCTGCGCAAGCAAGGAATTGAAGTATTATACTTCGCCAAGTTAGCCGCAGAAGCCCTGCAAGATAGTCAAGTTAAGGATAAGTTCCTTGAACAAATGCTGGCAGAATCCGGCTACGCAGCTGGTGCTGTCCACGACGCATTGAAGGAATACTTGCTGAGCATGGATACCCAAGCAATGGTTGACAAGATCATCGCTGGTGTTCGTAAGGACGAGATCGATGTTAAGTTTGTTTCACTTGCTGAAATGGCAGAAGACAAGGACTACCCATTCTTCATGGATCCAATGCCAAACACCTACTTCACTCGTGACCCACAGGCTTCCATTGGTGACGGTATTACCATCAACCACATGACCTTCAAGGCTCGTCAACGTGAATCTCTCTTCACTGAATACATCATCAAGTACAACCCACGTTTTGCAAACAAGGGCGTACATGTATGGCGTGATCGTTACCACGACACCCGGATTGAAGGTGGGGATGAATTGGTACTTAGTGACCACGTATTCGCCATCGGTATTTCACAACGGACGTCAGCAGATGCCATCATGGACATCGCACGGAACCTCTTCAAGGACTCCAACTACGATACGGTTATCGCTATTCACATTCCACACAACCACGCAATGATGCACCTTGACACCGTCTTCACGATGATCAACTACAACCAGTTCACTGTTCACCCGCAGATTCTGGATGAGCACGGTAAGGTTGACACTTACATCCTGCACCCAGGCAAGGACGGCGAGATCGAAATTAAGCACCGGACCGACTTACAACACGTTCTGGAAGAAGCGCTTGATGAACCAGAAATCGACCTGATTCCTACTGGTAACGGTGACCCAATCGTTGCTCCTCGTGAACAATGGAATGATGGTTCCAACACCTTGGCCATCGCGCCAGGTGAGGTTGTAACTTATGACCGGAACTATGTATCAAATGATTTGCTGCGTAAGCACGGAATCCTCGTTCATGAGGTTCGGTCAAGTGAATTGTCTCGTGGCCGTGGTGGTCCACGTTGCATGTCCTGCCCACTTGTTCGTGAAGATCTTAAAAAATAA
>SRR1151252_00496 serine hydrolase
ATGGAACGATATCAGAAAACAATCAAACAGCTGAATGACATGGTTAATGATGGGGTAGTGCCGGGGATGACCTACCTGATCTTCGACGGCAAACGAGAATGGCGGGCAAGTCGTGGCTGGGCCCAATTGAAACCAACCCGGGAGAAACTCCGGCCTAAAATGGTATATGACCTGGCTTCTCTGACTAAGGTGGTGGGGACTGTGCCGGTGGTCGCGATGCTGATCCAGGAGGGGCGTCTGGGATTGGATGATCCCGTTCAGCAGTACCTACCGGAGTTCGGGGATCCGCGGCCGACCATCCGGAACCTTCTGACCCACACTTCGGGGATCCGCGGCTATATTCCCCACCGTAACGCTTTGCCGGCGGATAGACTGATCACGGCCTTTCTTACCAGCCAGACGGTCGATAGCACCCTGAACCGGCAGATCCGTTATGCTGATGTTAACTATCTTTACCTCGGTTGGATTGTGGAGCGCCTCTGCGGTCGACCGGTTCAGGAGGTGATCGCCCAGCGGGTGCTGACTCCTCTAGGGATGAAGACGGCGACTTTTCAACCCGACATAACCAGTTCGGTACCAACGGAGATCCAGGATGGACGGGGACTGATTCGCGGCCAGGTCCACGATCCCAAGGGCTATATCCTGGGTACCCATTGTGGCTGTGCCGGTCTCTTTGCTGGTCTTAGTGACTTAGTAATATTCAGTCGGCAGCTGATCGAAAACCAGCTTGGCGGCTTACTCGATGCTAAAATAGTCGATGCGATGTTTATCGATCAGACCAGGATCCCCGGTCCCCACAGTCGATCGTTAGGCTGGAAGCTCCTTCATGATCAAGAAGACGGTCACCTCTTGATCAGCCACACCGGCTTTACTGGTACCTGGCTGATCCTTGATCGCCAAACTGACCAGGGCTTCATCTTCCTTTCTAACCGGGTACACCCGACCGCTGCCAACCAGGAGTACCTGAACCGGCGTGAGCAGATCTATGCGACCTACCTGCGTGAAAAGGTTAAATAA
>SRR1151252_00497 multidrug ABC transporter ATP-binding and permease protein
ATGAAAAGCGTGCGGCGCGCACCAGCCAAGACTAGAAAGGCCAAGCAATTTTGGCCGACAACTAAACGCCTGATCGACTACCTGCGGCCATGGAAGGTCGGGGTAATCTTTTCCATCCTTTTGGCGATTGTCTCGGTTATCCTTTCCATCATCGCCCCGAAGATCCTCGGTGAGGCCACGACGATTATTTACAATGGGGTGATGAGGGGCTACGCAGCGATCAAGGCCGGGCACCACCTGACCAGGTTACCGATTGACTTCCACCGGATCATGATTATCGGGGTGACGGTTGTCCTCTTGTATGTCTTCTCGGGGCTCTTTAGTTTTGCCCAGCAGATCATCATGACCAGGATCTCCCAGCGGGTAGTTTATAACCTGCGTCAGGACCTGGAGGAGAAGATGGGGCGGGTCCCGGTTAGCTTCTATGACACCCACAGCAATGGGGATATTATGAGCCGGATGGTCAACGATATGGACAACATTGCCGGAACCCTTCAGCAGAGCTTTATCCAGATCATCACCAGTGTGATCACCTTCGTTGGGGTCTTGATCCTGATGATCACGATCAGTTGGAAACTGACCCTGGTGGCGCTAATCACCATCCCGCTGAGTTTGGCCGTCGTTGCCTTCGTGGCACCGACCGCTCAACGACTGTTTAGTCGTCAACAGGCCGAACTGGGGAAGATCAACGGCCAGGTTGAGGAGACCTATGCCGGGCACACGATCGTTCGAACCTTCAATAAGGAAGCCGACGAGGAGCGCCAGTTTGCCGAGAAGAACCATAACTACTACCGGGCCGCCTGGAAGGCTCAGTTCTTCTCCATCCTGATCTTTCCCCTGATGAACTTCATCCGGAACCTTGGTTACCTGATGGTGGCGGTCGTCGGGGCCATTCAAGTTATTCATGGTCAGATCACCCTTGGTAACGTTCAGGCCTTCCTGCAGTATACCAACCAGTTCTCCCAGCCGATTACTCAGATTGCCAACCTGAGTAGTACCATCCAGCAGACGGTGGCCTCCGCCGAGCGGATCTTTACCGTCCTGGACGCGCCTGAGATGAATGAAGAACGGATCCCAGATAAACCACTGACCACGAAGCCGGTACCGAAGATTGCTTTCAAAAATGTCAAGTTCAGCTACCAGCCCAATGAGCCCTTGATTGAGAACTTTAACCTGGCAGCTCCGGCTGGACATATGGTGGCGATCGTTGGGCCAACGGGGGCTGGTAAGACCACCATCATCAACCTCCTGGAGCGTTTCTACGACATCCAGGGTGGGCACATTTACCTCGACGGACACGATACGCGGTCGATGAGTCGTCACGCCTTGCGTCAGCACATCGGAATGGTTCTTCAGGATACCTGGTTGTTTACCGGCACGATCATGGATAATATCCGCTTCGGTCGTGAAGATGCCAGCGATGAGGAGGTCTACCAAGCGGCTAAAATGGCCTACGCCGACAGTTTTATTCGTGAACTACCGGACGGTTACCAGACGGTCCTAAACGAGTCTGCTTCTAATATTTCCCAGGGACAGCGGCAGTTGCTGACGATTGCCCGGGCCTTCCTGGCCAACCCTGAGATCCTGATTCTCGATGAGGCTACCAGTTCGGTTGATACCCGGACAGAAGCCCTGATTCAGAGCGCCATGAACGCCCTGCAGAAGGGACGGACCAGCTTTGTGGTGGCCCACCGCCTGTCAACAATCCGCGACGCTGAGCAGATCATTGTGGTCAACCATGGTCACATCATCGAGACCGGTAACCATGACCAGCTGATGAAAGCCAACGGTTTTTACGCCGACCTGTACAACAGTCAGTTCATGGGTCAACCAATCTAG
>SRR1151252_00498 multidrug ABC transporter ATP-binding and permease protein
GTGATTAAGATTGCCAAGAAAAACCTGGTTTGGTGGGCAAGCGCCCTGGCCGTAATCTTCCTGTTGATCCAGGTCGCCTGTGACCTCTACCTGCCGACGATTACGTCCGACCTGGTTGACAAGGGGATCATGCAGCAAAATATGCACTTTATCTGGCGTGAAGGGGGATTGATGCTGCTAGTTGCGGCTGTCGGACTGGTAGCCGCAGCCGGGAATGTCTACTTCGCCGCAACTCAATCGATGCAGGTGGGAGAGAAACTCCGCCGCCAGATTTTCAGTAGGGTGCTGCGGTTCTCCAGCAAGGAGGTTAACGCCTTTGGGGACTCCTCACTGATTACCCGGTCAACTAATGACATTGTTCAGATCCAGAATGTGATGGTGCAGGTACTCCGGATGATGCTTCAGTCACCAGTCATGCTGGTGGCGGCCTGCGTGCTCGCTTATGTCCGAGAACCGCGGTTGACCCGGGTTTTCCTGGTCAGTTTACCGGTCTTGGCGGTGGTCGTGATACTCGTGATGTACTTTGCGGTCCCACTATTCAAGAGCATTCAGCAGAAGACCGATAAGATCAACCTGGTCTTTCGCGAGGGCCTGACCGGAGTCCGGGTTATCCGGGCCTTTCGTCAGGAACGGCGGGAGCAGAATCGCTTTAAGGCAGCCAACGAGGACTACACCCAGACGGGGATCAAGGCCTTCACCCTGGTTTCCTTTCTTTTCCCGGTGATGACATTGATCCTCAGCCTGACCAATGTCGGTATCATCCTGCTGGGGAGCCACCTGATTGCCAATATGACAATGCAGGTGGGGAACCTGATCGCCTTCATGACCTATGCTACCCAGATCATGATCAGTTTCATGATGCTGTCGATGGTCTTTGTCTTTGTCCCGCGGGCCTCGGCTTCGGCTAGCCGGGTCAATGCGGTCCTGGAGATGCCGATTAGCGTTGCCGACCTACCGGCAGATCAGCAGGATAAAATCAATCCGGACCACCCAGCATCCCTTAGCTTTGACCACGTCGACTTCCGGTATGATGGGGCGGAGAAGCTTGCCCTCCAGGATCTTAACTTCAAGGTCCAAGCCGGCCAGACCCTGGCAATCATCGGGGGAACCGGGTCGGGTAAGTCAACCCTGGTTAACCTGATTCCGCGACTATTTAATATCGAGAGCGGGCGGATTGAGGTTGATGGCCAGTCGATCGAGCGGCTCAGTCAGCACGACCTTCACCAGGTGATTTCAATTACGCAACAAAATACGGTCCTATTCACCGGGACGATCCGTTCTAATCTTCAATTTGGTAATGCCCAGGCGACTGATGAACAGATGTGGCACGCCCTAAAGGTTGCCCAAGCAGCCGATTTCGTCAAGGAAGCCGGGGGCCTAGATGCGGTCGTTGAGCAGGACGGAAGTAACTTCTCCGGTGGACAACGGCAACGGCTGGCCATCGCCCGGACAATCATCAAGCCGGCCTCAATTTACATCTTTGATGATTCATTCTCGGCCCTTGATTTCAAGACTGACGCAAAGCTCCGCCTAGCCCTGCGCCAGGATAAGCAGATTCAGCGGGCCGTTACGGTAATCGTCGCCCAGCGGGTTTCTACCGTAGCCGATGCCGACCTGATCATTGTTCTTGATGATGGCAAGGTGGTTGGTCAAGGGACCCATGCCGAGCTGAAGGCCCATAACGAGACCTATCAGCAGATTGTTGATTCACAGATTCAGAAGGGGGATGAAAAGCGTGCGGCGCGCACCAGCCAAGACTAG
>SRR1151252_00499 transcriptional regulator
ATGGCGGTTTCCAATGAGGAGTTCTTTAAACGCCTCGCCGACCTGGTGAAGGACATCAACAGTACTATCCAGTGTGCGGCCCAGCCGTCCAACTTTCGGGGGCAGGGCCGGATCATCGACCTGATTGCCCACCACGAGGGGTGTGCGCAGCGTGAATTAGCCGTACTGGCAGGTGTCAAGCCGGGGTCGCTGACCGAGGTCTTAGAACGCCTGGAGCGCAACGGTTATGTGTCACGCCAGCGTGATGAACGGGACCGGCGGGTGATCCGGGTTGCCCTGACCACGCGTGGGCGCACCTTTCACGCCGACCTGGTGGCGAAGCGGACCGCGTTTGCCCGGCGCCTGCTTACGGACGTCAGCCCCAAGGAGCGCGAGCAGTTTATTCGGGTTGTCGACAAGATGCAGACCCAGCTCACGGATATGATGGCCAAAAACGCACAGCTGAAACGAAAGGGATGA
>SRR1151252_00500 hypothetical protein
ATGCGAATTAAGAATTTATTGATAATCATAGCAATTGTCGCCGCTGTCCTACTGGTCATGTGCTACGTTCGTCAGGTTAAGGATACGCGACGGGGTTATAACTACGTCAGTGGCAGCCGGGTCGCGGTGAACTGGCTGCTCGTCGTTCTTCTGGTCGGCAGTCTGGTGGGCATTGGGGTCACCTCGTTTGCCGGTCACAAGGAGAGCGCGGCGCCAGCCAAGAGCAGTCAGTCTTCCTCAGCAGTGGAGCCAACGGCCGATGATGATGAGGGCGACGTGATGCTCAAGTTTAAGAAGACGGCCCGCATGAACGATAACGGTGAAGCCAAGGTTAAGTTCCTAATCTCGGCAAAGACTAAGGTTGTAATCAAGGGGCACCGCAGCGGCGTGGTTGTGAAGACCTTCAAGCCAAGCAAGGGTGACGATACGGTTACCCGTTCGTTTGTCTTTGATACCCCGGGAACCTACGATATCACGGCTAAGCGTGGTGACAAGAAGGTTGTCAAGCGCCTGAAGGTCAAGGGACAATCAAACGATGAGTCGTCCGACAGCAGTAGCAGCTCATCCGCAATTAGTCAGTCATCAAGCAGCAGTGATCAATCGTCCAGTACCAGTTCAGATCAGAGTGATAGCAGTACTGCCACGAGCCAAAGAAATAGTGGTGGCAGCAGCAGGACGACCACGCGCCAGAGTAATGCTGGTTACACTGGTGGCAGTCATTACCGTGGTGGAAGCTATGGCGGTGGCCGTGGTAGTGGTAACAACAGCACTGAGGTTCCGCGGAGCGACAATAATGCCAATTCAGAAGGTACCGATAACCAGGGCCCGGCTGGTGGCGGTAATGTAACGCCAACGCCTGACGAACAGTAA
>SRR1151252_00502 hypothetical protein
ATGGCAAGCAATTCTGATTCGATTTATTATGTTTTAACGAAGATCAAGCGACACCCGGAGTTGATCATGATGCAACAGCCGCGTTATACCAACACAATCATGATGGCAATTAATGATTCATTGAAGATCGCAGACGCGGGGTATTATTTTCCCAACCTGTCACTGATGGTTAACCGCCTATCAAATGACTTTGTGGCGAAGAACGAGGACCTGCTTGACGACTATTTTGCTAAGACCAACAGTGAGCAGCCGATTTACCACGACGTGTGGGTGACGACTTCGCACCTGCCGGCAAAGGGGGCCTACTTGCTGGAGTTATCATATGAATAA
>SRR1151252_00504 hypothetical protein
ATGGCACATGTATTCAAAGTTCATGTCATACTGAGTTGGGGAGAGCAGCGTGATTACCTGGTGGCAAACGATGTTGAGCCTGGCCTAGAGCACCGGATGGCCACCCGCAAAAATTGGCAGGAAGTAATGCAAGGAGCGTTGATCAACGTCCCAGTTGCCCCGTACTTGCCCAGTGGCGGGCCCTTACCGCCGATCGCTACGGCTAAGGTCGATGATGTGGTGGCGATCACTGCTGATGAGATGCCCACGGACCTACAGCGGACCCGGAGTCAGTTCATTATGGCAGAGATCTGGCAAAAGCAAAGTAGTCAGGTCAACTATAACTACCTGCGTCACGATTATGTTCCGGCCTCTCAGGAGCAGATCAAGGCCGATGTCGATCACTGGTGCAACGGGACAGACACACGTGCGGTTTCATTAGTAACCAAAGCCCGGATTGCCACTCAAAAAAAGAAATTTCAAAAAGAGTTGGGAAAAAGGGTTGACTAA
>SRR1151252_00505 hypothetical protein
GTGGTCAAAATCCGCAAACGCCTATTCTTGCCACTGGTCTACCTGCTTGCCTTTGGTGCCCTCATCTGGTTCTATCAAAATAGCCCGCGCTTCCAGCAGTACGCGAACGTTGCCATCCATGATGCCCAGGTCCTCACCTATAACGGTCTTAACAAGCTGACGGGGAATAAGCCAACGGCGACCGAGCAACGGGTCGACCCAACCCATACCAACGCCACAACAACCGGATCACGGTGGCCTCATGCCTCAGCAACGGTTTATGTCGACCTCAGTAACCCCGTCCTCCGCTCTGCCGCAGAATCGGCCCTCAGTCAGTGGAACCGGACCGGTGCTTTCACCTTCAAACAGATTAATGATAAGTCCAAAGCCGATATTACCATTACGGCCATCAACGAGAACAACGATAACGCCGCCGGACTGACCAACTCGACGACCAACGCAATGACCGGTTACATTACTCACGCCGACGTCCAACTCAATGCCGGCTACCTGCTCGATCCCAGCTACGGCTACTCACAGCAGCGCGTGATTAACACGGCTGAGCACGAGCTGGGCCATGCCATTGGCCTCCAGCACAACAATGGTACCTCGGTCATGCAACCAGCCGGCTCCTTCTTCAAGATCCAACCAGCCGACGTCGCAGCGGTCAGGAAGTTGTACGCACAAACACCCCAAGCCACCAACGAAAGCAGCAGTAGTACTCAACAATCTATCGACGCAAAAAAACTGTCCACTTTATCGAAATGA
>SRR1151252_00506 drug/metabolite transporter permease
ATGACAAATAAAAAAGTCTTGGGGACGGTCATGGTCATCGTGGCCTGTACTTTCTGGGGGATCTCGGGCCTGTTTGCTAAGGCCCTCTTCAACGTGAGCACCAGTATCACCTCAATGTGGGTGACGCAGACCCGGATGATCTCAGCTGGCGTGATCCTGCTGATAATCAGCCAGTTTAAGGGGGACCACCCGCTGCAGATCTTTCGTAACCTACACGATGCCTGGGTAATCTTTGCCTACGGTTTCTTTGGCCTGGTGCCGGTCCAGTATGGCTACTTTATGGCGGTGCAGTATGGGAATGCATCGATTTCAACGGTGCTGCAATTTCTTGGCCCTTTCTTCACCATTGCCTACTTGGCAGCCTTTCGCCACATTCCGCCGCGGCGGATTGAGATTATCAGCGCTATTATTGCCTTTTCTGGGGTTTTCATCATCGCTACCCACGGTAAGGTAGACCACCTGGCGGTCACGCCCCTGGTCCTTTTCTGGGGGATGGTAGCAGCCATCGGGGTGGCTACTAACACCCTGATTCCTCAACAGATGCTGCGGACCAATCGCGTACCGTCCCTGGTGGTTACCGGGTGGGGGCTTCTCTTCGCTGGTTTGGCTCTGCTGGCAATGCATCCTGCCCAGCCCCATATTCCAAACCTGCCAATCGTCTGGACCTGTTGGCTCGGCATCTTGGTGATTGGGACTCTGATTCCGTTCCAACTGGCTAATAACTCGCTGAAATATATTGATGCCACGACTTTTAGCCTGATGGACGCCTTTGAGCCGCTCTCGGCCACGATTGGCTCGGTGCTGATATTTCATCTGCACATGACCGGTGCCGACGTGCTGGGCTCGGTCCTGGTCATCGTGGCGGTGCTGGCGATTAATATCCGGATCCCGCTTCACCATGATGGCGGCGAGATCGCATAA
>SRR1151252_00507 carbamate kinase
ATGGCTAAAGTAGTTGTTGCCTTGGGTGGTAACGCCCTTGGTAAGTCACCTGAAGAACAATTAAAGCTGGTTAAGAACACCGCTTCCTCACTGATCGGTCTGATCGACGCCGGTAACCAGGTTGTTATCAGCCACGGTAACGGTCCACAGGTCGGTGCGATCAACCTGGGTATGAACTTTGCTGCGGAAAATGGTAAGACGGCTGCCTTCCCATTCCCAGAATGTGGGGCCATGAGCCAAGGCTACATTGGTTACCACTTACAGCAAAGTCTGCAAAACGAACTGCACAAGCGTTGGATGAATAAGAATGTGGCCACGATTGTTACGCAAATCGCCGTTGACCCACAGGATCCTGCATTCAATAACCCATCCAAGCCGGTTGGTGACTTCTACACGAAGGAACAAGCTGAGCAGATCGAAAAGGAAAAGGGTTACACTTTCAAGGAAGACGCTGGACGGGGTTACCGTCAGGTTGTTCCTTCACCACTGCCGAAGAAGATCATGGAGCTCAACAGCATCAACACGCTGATCGAATCCGGTGATCTGGTTATCGCTGGTGGTGGCGGTGGTGTCCCAGTCATCATGACTGACGACGGCCTCCAGGGTGTTCCTGCCGTTATCGATAAGGACCGTTCAAGTGCCCTCTTAGCTGATCAAATTAGTGCCGATAAGCTGATCATCCTGACGGCGGTAGATTACGTTTACGTAAACTATGGCAAGCCAGATGAGAAGGCTCTGAAGACGCTGACGATCGATGAAGCCCACAAGTACATGGACGAAAAGCAGTTTGCTGCCGGCAGCATGCTGCCAAAGATTGAAGCCTGCCTGTCATTCGTTGAAGGTCACCCTGAGCGGGAAGCAATTATCACTTCCCTCAATGGTCTGGACGATGCCCTGGCTGGTAAGGTTGGTACGGTTATCCGTGACAACTAA
>SRR1151252_00508 ornithine/putrescine carbamoyltransferase
ATGGCTTTTAATTTACGTAATCGTAGTTTCTTAACTCTTTCAGACTTCAACAAGCGTGAAATGGAATACATGCTTAACCTGGCTGAAGACCTGAAGAAGGCTAAGTACGCAGGTACTGAAGCTAAGAACCTTGAAGGTAAGAACATCGCTTTGATCTTCGAAAAGAGCTCAACTCGTACCCGTTGCTCCTTCGAAGTTGGTGCTAAGGACGAAGGTGCTCATGTAACCTACTTAGGTCCTTCAGGCTCACACATTGGCCACAAGGAATCTGTTAAGGATACTGCCCGTGTTCTTGGTGGCATGTTCGATGGTATTGAATACCGTGGTTTCTCACAACGTAACGTTGAAACCCTTGCTAAGTACTCAGGTGTTCCTGTTTGGAACGGTCTGACTGACGAAGACCACCCAACCCAAGTCCTGGCTGACTTCTTAACTGCTCACGAAGTATTGAAGAAGCCTTACGAAGACATCAAGTTCGGTTTTGTTGGTGACGGTCAAGACAACGTTTCTAACGCTCTGATGCTCGGTGCTGCCGTTATGGGGATGGAATACCACGTTGTAACTCCTAAGGAATTGAACCCAACTAAGGAAGTCCTGGACAAGGCTAACGCCATTGCTAAGGAAACTGGTGCTAAGATCGTTGTTTCCAACGATGTTAAGGAAGACGTTAAGGGCATGGATGTTATCTACGCCGACGTTTGGGTATCAATGGGTGAATCCGATGACATGTGGGAAAAGCGGATCAACCTGCTTAAGCCTTACCAAGTAACGATGGACGTTATGAAGGCTACTGAAAACCCTAACGTTCTCTTTGAACACTGCCTGCCTGCATTCCACAACCTTGACACTGAAGTTGGTAAGGAAATCTACAAGAAGTTCGGCCTTAAGGAAATGGAAGTTACTGACGAAGTCTTCGAAAGCAAGCACTCCGTTGTCTTCCGTGAAGCTGAAAACCGGATGCACACTATCAAGGCTGTCATGGTTGCAACCTTAGGTGAACAAGGCTAA
>SRR1151252_00509 chemotaxis protein CheY
GTGAACTTTTACATTGTCAACAGCAACGACAACAGCACGGAACTACTGAAGGACATCATCGAAAATGACTTCAATAACTCAATTGTCGGCACCACCACCAACCCCCAGCAAGCCTACGATGATGCCATGCGGCTTAGCATCGACATTATGTTCGTTGACTTTACCATGCCACGGATTGACGGGGTAGAGTTAATTCGCCGTATCCAGGATAGCCGTCACTACCCCCACTTCATCATGATGGCCCCGGCAATCGACCCGGCCACCCGAACACGAGCTTACAAGAGCGGAATCGACTTCTTCATCGAGAAACCGCTCAATATTGCCGAGGTCAAAACCGTTATTAAACTGGCCAGCCAGAACATCGATATGTCCAAGCGTCTCCTCCAGATCCTCGACCTGGTCAGCGGGGCTGCCACCAACAGTAACACCGTCTCGATCAGCTACAAGGAAAAGCAGAAGGAAAACGCCAAGTCGATCCTGCGCTTCCTCGGTATTACCGCTGGTAACGGCGGGCAGGAGATTATTAGCGTCATCAACATGATGATTGAGCGGGAGCTAGACTTTGAAGAGATTAATTTTGAGGAAAGCTACCACTGCGATAAGCACGGTAAGAAGATCATTTTTCAGCGGATTCGGCGTGACATCCGGGCTGGTCTGACTAACCTCGCCCATATGTGCATCGACTACCCGGAAAACGACATCATTTTGGAGTATGCCAACAACCTGTATGAGTATAAGAACATCCACAACGAAATTGCCTACCTTCAGGGGCAACGTCAGACTGGGGGGCAGGTATCAATCAAGCATTTCTTCAACGGCTTGATCCAAGAGAGCAACTAA
>SRR1151252_00510 glucose-6-phosphate isomerase
GTGGCCGCCCACACGGCCGGTGGTGTCCCGGTCATGACCGTCCACATCCCAGAAGAAAACGAGTACACCCTCGGTTACCTGATCTACTTCTTTGAGGTGGCCATGGGGATCTCCGGTTACCTCAACGGAATCAACCCGTTTAACCAACCGGGCGTGGAGGCCTACAAGGTCAACATGTTCGGCCTGCTGGGTAAGCCTGGTTACGAGGAGATTGGCAAGCAGCTGCGTGCCGAGATGGATAAGAACAACTAG
>SRR1151252_00511 lysyl-tRNA synthetase
GTGTCACAAGAACTAGATCAAATGCGTGTTCGTCGTGAGAAGATGGAGGAGCTCAAGCAGGCGGGAATTGAACCGTTTGGCCGGCGCTTCAAGCGGGACCACCTAGCCCAGCAGATTCACGATGAATATGACCAATTCGATAAGAAAGAGCTAAACGACAAGGGCGCCATGGTGATCATTGCCGGGCGGATGACCCGGAAGCGGAGCAGCGGTAAGGCTGGTTTTGCGGACTTCGTTGACCGGACCGGAAAGATCCAGGTATACGCACGTAAGGATATGGTGGGTGATGATCAATACCACATCTTCAAGCGGGCGGACATTGGTGATTTCCTCGGTATTGAAGGGGATGTCCTCAAGACCAACTCTGGTGAGCTGACGGTGCGGGCCCATAAGATTACCTTCCTGGCCAAGGCCCTGCGTCCACTGCCAAACAAGTGGGAAGGGGTTACCGACCCGGAGACCATTTATCGGCAGCGGTACCTAGACCTGATCTCCAACCCTGAGAGCTTCAAACGATTCCATCAGCGGACTGCAATCATCAAAGCGGTTCGTAAGTACATGGATGAGCACGGCTTTACCGAAGTTGAGACGCCAATTCTGAACACCCAGGCCGGTGGGGCCAACGCGCGGCCATTTGTTACCCACCATAATGCCTTAGACATCGACATGTACCTGCGGATTGCGACCGAGCTGTACCTGAAGCGCCTGATTGTCGGTGGCTTCGAGCGGGTCTATGAGTTGGGCCGGATCTTCCGAAATGAGGGGATGGACCCTCACCACAACCCTGAGTTTACGACGATGGAAACCTATGCCGCCTACTTTGACTTCCACGACGTCATGGATGAGACCGAGGGGATTGTCAAGGCCGCTGCCAAGGTGGTTTCCGATGATGGGCACGTTAACTGCCAGGGGCACGATATTGACCTGGCAAGTGACTTTAAGCGGATTACGATGGTCGATGCCGTCAAGGAGAAGACGGGGATCGATTTTAGTGACCCAGCTATGACTGACGACGATGCCAAGAAGTTGGCTGACGAACACCATATCGAATACAAGCCGTTCTGGAAGAAGGGCCATATTTTGAGCGCCTTCTTTGATGAGTATGTTGAGAAGACCTTAATCCAGCCAACCTTCGTCTATGAGTTCCCAGTGGAGGTTTCACCACTGGCCAAGCGGAACGCTGATAATCCTGACATGACTGACCGGTTTGAACTCTACGTGGACGGGAGCGAACTGGCCAACGCTTTTAGTGAATTGAACGATCCAATTGACCAGAAGCACCGTTTCGAGATGCAGGCTGAGGAGAAGGCTAACGGAAACGACGAGGCCGAACCAGTCGACCTCGACTATGTTCAAGCGCTGGAATACGGGATGCCGCCAACGGGTGGTCTTGGAATCGGAATTGACCGGCTGATAATGTTGCTGACCGATGCCAAGTCGGTTCGGGACGTGATCCTGTTCCCAACGATGCGGCCGGAAAAGAGTAAGAAGTAA
>SRR1151252_00512 tRNA-dihydrouridine synthase
ATGAAGTGGAAGATCGGTAATGTGGAGATTCCTAACCAGGTGGTGGTTGCCCCGATGGCGGGTGTAACCAACTCGGCCTTTCGGGTGATCTGCAAGGAGTTTGGCGCCGGGTACGTTGTCTGTGAGATGATCTCCGACCGGGGAATCATGTACCACAACAAACGGACACTGAACATGATGAACGTTGACCCGAGCGAGCACCCGATGGGGATTCAGATCTTCGGTGGGACCAAGGAGACCCTGGTGGAGGCTGCCAAGTACGTTGACGAGCATACCGCCGCTGACGTGATCGACATCAATATGGGCTGCCCGGTCAACAAGGTCGTCAAGACTGATGCCGGGGCCCGCTGGCTGCTTGATCCCAACAAGGTTTACGAGATGGTATCCTACGTTACGGATGCCGTCAAGAAGCCGGTGACGGTCAAGATGCGGACCGGTTGGGATTACAAGCACATCTACGCGGTGGAGAACGCTCTAGCGGCCGAACGTGCCGGCGCCAGCGCCATCGCCATGCACGGCCGGACGCGAAAACAGATGTATACGGGACACGCCGATTGGAATATACTAAAAGAAGTAGCTGATCATTTGACGATCCCGTTCATGGCCAACGGTGACATTCGGACACCGGAAGACGCCAAGAAGGTCCTGGATATGACCGGGGCCACCGCCGCGATGATCGGTCGGGCCGCCATGGGGAACCCGTGGATGCTGACGCGGACGGCGCACTACCTGGAGACGGGTGAGCTGCTGCCGGAAGCCACCCCAGCCGAGAAGATCAAGATGGCCAAGGAACACCTGAACCGGCTGATTGACCTCAAGGGTGAGTACGTTGGCGTGCGCGAGTTCCGGGGCCTGTCGACATACTACCTGAAGGGGATTCCCCGTTCTGCCCGGACTAAGGCGGCCCTGGTGGAGGCGGAGACCCGCGACCAGATGAACGAGATCTTTGACCGTTTTGCTGAACAGACGGCGGAGCGGGAAATGAAGCGGGCTGCGCGCAAGCAAGCTCAATAA
>SRR1151252_00513 heat-shock protein Hsp33
ATGAAGACGACAGATTACTTAGTAAAGAGCATGAGCAAGGACGGTAAGTTCCGGGCCTATGCCGTAAATGCCACCCAACTGGTTGAAAAAGCTCATGAAATCCACGATACCTGGAGTGCGTCCTCTGCGGCGTTGGGCCGGACGATGATCGGGACCCTCCTGCTGGCTACTGCCGGATTGCAGGGTGAAGCGGGGATGACCGTCAAGATCCAGGGTAACGGATCGGTTGGTTACATCGTGGCCGACGGGACGGCCAAGGGGACCGTGAAGGGCTACATGGGCAACCCCCACGTCAACCTGCCAAGCAACGATAAGGGGAAGATCGACTTTGCCGGGGCGGTCGGCACGAAGGGGATCCTGTCTGTCACCAAGATGGCCCCTGGCGATAAGACGCCATACACCGGGGAGGTCAACCTGGTCTCTGGTGAGCTCGGTGACGACTTCACCTACTACCTGGCCCAATCTGAGCAGATTCCATCTGCAGTCGGCCTTTCCGTCTTCGTTAACACCGATGACAGCATTGAGGTGGCCGGTGGCTTCATGATCCAGGTCATGCCAGGTGCCTCTGATGAGGAGATCAGCAAGCTTGAGAAGACGCTGAAGGGGATGCCGCTGGTTTCAGAGATGCTCCGGGATGGTGACACGCCGGAAGACATCCTCCACAAGATGTTCGGTGACGACCTGAAGATCCTCGATAAGATGCCGGTTCGCTACGAGTGCGATTGCTCTAAGCAGCGCTTTGCCCGGGCCCTGGAAAGCATCGCCACCAAGGATCTGAAGAAGCTGATTGATGAGGACCACCATGCCGAGACGGTTTGCCAGTTCTGTGGTAAGAAGTACGAGTTCAGTGAGGACGAGCTCCAGCTGATCTACGACAAGAAGGTTGCCGATGCTGAGGCCGATAAGGAGATCGCCGAGAAGCAGCAGAAGGAAGACAAGGACAAGCCGGACCAGAAGTAG
>SRR1151252_00514 cell division protein FtsH
ATGAACAACAATCGTAGAAACAATAATTTCACTCATAACGTTCTCTTCTACGCCGTGATGTTCTTGTGCATCATGGGGATCGTCTACTTCTTCTTCGGTGGTAACCAATCCAACGGGCAGAGCAAGACCGTTTCCCAGAGTGAGTTCATCACCGAGCTGAAGGACAATAAGGTTAAGAGTGTCCAGCTTCAACCAAACGGTGGGGTGTACAAGGTCACTGGAACTTACCGTAAGCCACAGTCCAACAACGCTGATACCACCAACAGCTTTGCATTAGCACCACAACGCAACAACAAGGTTTCACAGTTCCAAAGCTCCGTTCTCGAAAGTGACGTGACGGTTGGCCAGCTGCAAAAGTACGCCAACAAGCACGACGTCAAGCTGACGACCCGGGCCGAGGAATCCAACAGTATTTGGATGAACCTGCTGCTGACGGTACTGCCACTGGTCATCATGATTTTCTTCTTTTACATGATGATGGGCCAAGCCGGCCAAGGTGGCGGCGGTCGTGGGGTGATGAGCTTTGGTAAGACCAAGGCCAAGCCAGCGGACCCGAAGAAGAATAAGGTTCGCTTCTCCGACGTTGCCGGTGAAGAGGAAGAAAAGCAGGAACTGGTTGAGGTTGTCGAATTCCTGAAGAATCCAAAGAAGTTCACCCGTCTTGGGGCCAAGATTCCATCTGGGGTCCTGTTGGAGGGACCTCCGGGTACCGGTAAGACCTTGCTGGCCAAGGCCGTTGCCGGTGAATCCGGCGTACCATTCTTCTCCATCTCCGGTTCGGACTTCGTTGAGATGTTCGTCGGGGTTGGTGCCAGCCGTGTTCGGGACCTGTTTGACCAGGCCAAGAAGGCGGCCCCAGCCATCATCTTCATTGATGAAATTGATGCCATCGGTCGTCGCCGTGGAAACGGCATGGGCGGCGGTAACGACGAACGTGAGCAAACACTGAACCAGTTACTGGTTGAGATGGACGGTTTCCAGGGGGACGAAGGAATTATCGTGATGGCGGCGACGAACCGTTCCGATGTCCTTGACCCTGCCCTCCTGCGGCCAGGTCGTTTTGACCGGAAGATTCTGGTTGGGCGGCCAGACGTCAAGGGCCGTGAAGCGATCCTGCGCGTTCACGCTAAGAATAAGCCAATCGCTCCTGATGTCGACTTGAAGGAAATCGCCAAACAGACGCCTGGCTTTGTCGGGGCCGACCTGGCTAACCTGCTGAACGAAGCGGCCCTGCTGGCGGCGCGACGTGGTAAGAATGAGATCGACGCCTCCGACTTAGACGAAGCTGAGGACCGGGTTATCGCTGGTCCAGCCAAGCACGACCGAGTCGAATCCGCCCAGGAACGGAAGACCGTGGCCTACCACGAGGCGGGTCACACGATCGTTGGCCTGGTCTTAAACGACGCGCGGGTTGTCCACAAGGTGACAATTGTGCCGCGTGGTCGTGCTGGTGGGTACGCCATCATGCTGCCACGTGAGGACGAGATGCTGATGTCTAAGAAGAACGCCAAGGAGCAGATTGCCGGTCTGATGGGTGGTCGTGCGGCTGAAGAGCTGATCTTCAAGTCCCAGTCATCCGGGGCCTCCAATGACTTTGAGCAGGCGACCCAAATCGCCCGGGCCATGGTTACCCAGTATGGGATGAGCGAGAAGATTGGGCCGGTCGAGCTGCAAAGCTCCGGGCAGGTCTTCACCGGTCAGGGTTATGACCAATCACCATACTCTGAGAAGACAGCGGCCTTAGTTGACGAGGAAATTCGGCGGATCTTAAACGAAGGGCATGAACAGGCCCTTCATATCATTGAGACTCACCGCGAACAACACAAGGCGATTGCCGAGGCCTTGCTGAAGTACGAGACCCTGAACGAGAAGGAAATTCTCAGCTTATACAAGACCGGGAAGATCCCCGAAAAGGATCACGCTGCCGAAGATGAGAAGGCCTATGCCCAAACCTTTGAGGAATCCAAGCGGGCACTTGAACGCATGGAGGATGCAAAGCGGGACAGCAAGAATGAATCCACTGACGATTCAACCAAGGATGATCAGCCAGCATCAACTGATGATCACCCGACTGACCAAGGTGGTCATGATGATCAGAGCGATCACAATGATCAAAATGGTCACGACGACTCAGCAGATTCTGATCACCGTGAATAG
>SRR1151252_00515 hypoxanthine phosphoribosyltransferase
ATGAATAACGATATCGAAAAGGTCCTGTTCACTAAGGAAGATATTGAGGCCGCCACGGACCGCCTGGCCAAGCAGTTATCGGATGAGTACCGTGACAAGCGGCCACTGATCATCTCAGTCCTGACCGGGGCGGTCCTGTTCACCGTCGACATGATCGAGAAGATGGACATCATGGCCCAGCTTGACTTCATTGACATCTCGACCTATTTTGGCGGTGCCCAGTCTACCGGGCAGCTGACCTTGATCCACGACCTGACGACCGACGTCAAGGACCGCAACGTCCTGATCATGGAGGACATCGTTGACAGTGGTCACACCCTCAAGTTCTTGATTGACCTGTTGAAGGAACGGGGCGCCAAGAGCATCAAGGCGGTGTCGATGATGGACAAGCCCGAGGGTCGGCAGTACGACGTGGCCGTTGACTACTACGGGGTTCGGGTTCCTAACGAGTTCTTGGTCGGCTACGGGCTTGACTACAAGGGCTACTACCGCAACCTGCCATACATCGGGATCTTAAAGCCGTCTGTTTACCAGGAAGACTAG
>SRR1151252_00516 tRNA(Ile)-lysidine synthetase
ATGACCGAGACAATTCGTAAACAATTTGAGCGGCACCTCAGGCGGGGCCGCTTTTTTGCTAGGTGCGACCTGGTGGTGGTAGCCGTCTCCACCGGTGTTGACTCGATGGCCTTGCTTGACCTCCTTCAAAACCTGCCTGCGGACCTGCGTCCCCGCCTGCTGGTTGCCCACGTCAACCACGAGTTGCGGGCCCAGAGTACGGTTGAGGAGGCCTACCTGCGTGAATATTGTCACCAGCACGACCTGCCCCTGGTGGTGGCCCACTGGCCGGTGGCAGATCATCCCGCTCACGGGGTGGAGAACGCCGCCCGCCGGTTTCGCTACGCCTTCTTCAAACAGCTGATGCACCAGCGCGGAGCGACGGTGGTGGTGACGGCCCACCACGCCAACGACCTTGCTGAGACGATGCTGATGAAGCTAACCCGGGGCGGACGGCTTGACCAGCTGGTCGGCATTCGTGATCAGCGGCCCCTGGGGACGGGGCGACTAATCCGGCCCCTGCTGGTCTTTACCAAGGACGAGCTCTATCATTATGCCCGCCAGCGGGGACTGAAGTGGTATGAGGACCAGACCAACCAGGAACTGACGGTCACCCGAAACCGTTATCGTCACCGGATCGTGCCGGCCTTAGAGGAGGAGAACCCTCGCCTGCTTGACCACCTTCTTGACTACCGGGATCAATTGAATGACCTGCTAAAATGGCGGGACCAGGAACTTAACCGCCTCCTTGACACCATCCAGGAGGGGCCTTGTCTTGATTTACCCGCCCTCCTGCGCCTGCCGAAGTTCCAGCAGGAAGCGGTGCTGCGTCGCTGGTTGGAGGGCGCCGGGGTCCCCAATCTAAAGGCGGCCCTGGTGACCCAGCTCTGTTCGGCCCTGGCCAATCCCCAGAAACCGCAGGACCGGCTCACCCTACCAAGCGGGTGGATCCTGGTCAAGGACTATGATAGCTGCTGGTTGGAAAATAACGATAAATTCCCGGACCAAGGGCAAAAAGGGATGGTGGATATGGTAAAATTGGGCCAACAATACCCAATCGACGATCACCGTCATCTGATGGTGACCACTACACCCGACCAATTCGGTACCGCGGACTGGGTGACGGAGATGTGGCTGGATCCGCAGCAGTTACCGCTAACCCTACGGCCCTGGCAGCCTGGTGACCGCCTTCGCCTTAAGGGGGGCGGCCACCAGCCGGTCCGTCGGGTGCTGATCGATCAGAAGGTACCAACCGCCGCCCGCGAGCGTCAGCTGGTCCTGGTTGATGCCGAGGGAACGGTGGCCTGGCTGGTCGATCGCAAGTGGAGCTGGTTTGACCGGCCCCGTGATTATCGTCAACACTGGCAGCAATTGTTCATTGGGATTACAAAGTTAAAGAGGAGAAAGCGTTATGAATAA
>SRR1151252_00517 S1 RNA-binding protein
ATGGCAATTGAAGTGGGAGCAAAGGTTTCAGGTAAGGTTTCAGGAATTACAAACTTTGGTGCGTTCGTTGACCTGGACGACAACCAGACGGGACTGGTGCACATCAGTCAAATTTCTGATAAGTACATTAAAGACATCCACGACGTCCTGTCGGTGGGCGACACGGTGACGGTCAAGGTTACCCGGATTGGTGACGATGGTAAGATCGCCCTTTCAATGAAGGCGGCGGCCCCCCACGAGCACCATGAAGGCCATGAACACGGTCACTTCGATCATCGTCAACACGGCGAGGGACATCATTTCCACCACGAGCGCAACAACGACTTCCGTGGCCATCATGATAGCCACCGGGGCGGCTTCAATGGTGGTCGTCACCACGGTGGTCACCAGCACGAGAACTTCGACGACATGCTAGCCGGTTACTTAAAGGAAAGTGAATCCCGCCTGTCCACGCTGAAGCGCCAGAAGGATGGTAAGCGTGGCGGTCGTGGCGGCCGGCGGAGCTAA
>SRR1151252_00518 septum formation initiation protein
TTGAAGAATCGTAAAGTTGTTCGGCTTGAGACTCCTCACGCCCAGCAGATGAGCATGGATCGTGCGGCCCGCCGTCGCGTCCACATCCGCCGTTGTAAACGGATTGTGGCGGTTTTTGCCATCATCTTCTTGTTCCTGGGATTCCAGATCGTGCGTAGCCGTCACTCACTGGCTAAGGTCAACGCCAGCATTCGGCAGACACAGACCCAGCTGGCGGCACAGAAGGCCAAGGGTCGGGACCTCAACCAGCAGGTCAAGCAGCTACACGATCCTGAGTATATCCAGCAGGTAATTCGCTCCAAGTACAATTATTCCAAGAAGGGCGAAACGGTTTATAATCTGAATGATTAA
>SRR1151252_00519 hypothetical protein
ATGCGATTAGATAAGTTCTTAAAGGTTTCACGGATCATCAAGCGACGGTCAATTGCCAAGGAGATTGCTGACCAGGGCCGGATCCTGGTCAATGATCGACCGGCTAAGTCGTCAACCAAGGTGGTAACCGGCGATACCCTGACGATCAAGTTCGGCAACAAGACCGAGGTGGTCAAGATCAACCGGATCGTCGAGACTACCAAGAAGAGTGAGGCCGAAGACATGTATGAGATTATTGACGAAAAGTACGCCGAGAATTTTGACTAG
>SRR1151252_00520 transcription-repair coupling factor
ATGAACGTGCAGCTTGCGGACTTTATTGAGAAGACGCCCGCTTTCAAGAAGATTATCTCCCAGCTGAAGCCCACCACGCGTCAGCTGATCACTGGCATCTCAGGTTCGGCGCGGGCACTCCTTTTAGCGGCGCTCCAAGACAAGCGGTCCCACCCACTACTGGTGGTGACCGACAACATGGCTCACATGCAGGAGCTGGCCGATGATTTGGGAGGGCTGGTTGACGCGGACCGGGTTCTCCAGTTTCCGGTCGAGGAGGTGTTGGCAGCCGAGGTGGCCACTAGTTCACCTAACTATCGTCTTCAACGAGTCCAATCTTTGGCGGCGCTGGCAAAGCAGGACAACGCCATTGTGGTAACGACAACAGCCGGCCTACGACGCAACGTGGTTTCTCCGCAGTTCTTCACCCAGGCAACTCTGACGGTCAAGGCGGGGGGCGAATTGGATCCCCAGCAGGCTCGCGACCAGCTGAGCGCGATGGGCTACCAGCTCCAGAAGATGGTCCTGCGTCCCGGTGACTTTGCGATTCGTGGTTCGATCATCGATGTCTACGCCCTGAACACGACCGACCCGGTCCGGATTGACCTCTTTGACACCGAGGTTGACTCACTGCGTTACTTTGACGCCAGCACCCAGCGAAGCATTAAGAATGTTGACGAGGTAGAGATCCTACCCGCCACCGACTTTATCCTGCCACCGGATGAGTTTGACCGGGTCAGCCAGGCGGTGAGAGACCAGTACCACCAGCTGACGTCCCAGCTGACCGACACGGATGACGATATCCGTCAGCAGGTCGATAACCGTTTTAAGCCGATGCTGGCGGCGTTACAACAAGGCCGATTGACCAATGACCTCCAGGAGTTCAGCAACCTGGTCTACCCAACCGCTCACTCCCTGCTTGACTACCTGCCCGAAGACGGGGTGGCCTACTTTGACGACCTCGGCCGAATCAAGGAGGCGGCCAAGCAGCAGGCGGCTGAGGACCGGTCCTGGCTGGCCGATAAGGTGAAGTACCACCAGCTGGTGACGGTATCGACCCTGAGCAACGACCTGGATCAACTGATCAAGGCTGAACATCACGCCCAGCTTTACGGGGCCCTCTTCAAGAAGGGGATGGGCAACCTGCGTTTCACCCAGCTGGTCGAACTAACTACCAGGCCGATGCAGCGCTTCTTTGGCCAGATGCCTCTACTCAAGACGGAGCTCCAGCGCTGGGTTGACCAGGGGCAGACTGTGGTCCTGATGGCCAACAGTAAGGCCCGTCGCGACCAAATTGCCCGGACCCTCCATGACTTCGGTATTACGGCGACCGAAACGGGGGTCAGTGACCTGAAGACCAATACGGTGCAGCTGGTGGCGGCCAACCTGAACAACGGTTTTGAGATGCCGGCAGGGGGCCTGGTGGTCATTACCGAGGGTGAGATGTTCAAGCAGGTGACCAAGCGGCGCCACCGCCCCCAGAAGTTAGCCAACGCGGAACGGCTCAAGAGCTATACCGACCTCAAGCCGGGAGACTACGTTGTCCACGTCAACCACGGGATCGGGATCTTCAGCGGGATTCGAACGATGGAGGTCGATGGCGTCCACCAGGACTACATGGTGATCAACTATCGCAACAATGCCCAGATCTTCGTACCGGTGACCCAGCTGAACCTGGTTCAGAAATACGTCTCGTCCGAATCAAAGACGCCTCGGATCAACCGACTCGGCGGCAATGAATGGGCAAAGACCAAGCGGCGGGTGGCCTCCAAGGTCGAGGACATCGCCGACGAATTGGTTGACCTCTACTCCAAGCGGGAGACGGCTAAGGGCCATGCCTTTCCGGCAGACGACTACCTACAAAAGCAGTTTGATGCCAACTTCCCCTATACAGAGACCCGCGACCAATTACGCAGTATTAACGAGATCAAGCAGGACATGGAAAAATCAAAGCCGATGGACCGCTTGCTGGTCGGGGATGTCGGCTACGGTAAGACCGAGGTGGCAATGCGCGCCATCTTCAAGGCGGTTGCCGGTGGTAAGCAGGTGGCCTTCCTGGTACCGACGACTGTCCTGGCCCAGCAGCACTATGACACCATGACTAAGCGTTTTGCGGGATTCCCGATCAAGATCGCCCTGATGTCACGATTTAAGACCAATAAGGAGCTCAAGGAGACCGATGCCGAGCTGGCTGCTGGCAAGGTCGATGTCGTCGTCGGTACCCACCGGATCCTCTCCAAGGACGTCCGTTTTAAGGACCTCGGCTTGGTGATCGTCGACGAAGAGCAACGTTTCGGGGTCAAGCATAAGGAACGACTCAAGGAACTGAAGAATAACGTCGACGTTTTGACCCTGACGGCAACCCCGATCCCACGGACCCTCCACATGTCGATGCTGGGGGTCCGGGACCTCTCCGTCCTGGAAACCCCACCGGCCGGCCGTTTTCCGATCCAGACTTACGTGATGGGGCAAAACGACGGCGCCATCCGTGACGGGATCATGCGGGAGATGCAGCGGGGCGGCCAGGTCTACTACCTACACAACCGGGTCAGCGACATCGAGGAGACGGTTGCCAAACTCAAGGAACTCGTTCCCGAGGCCGCTATCGGCTACATCAACGGCCAGATGAGTGAAAACGAGCTGGAGACGGTCCTGTACGAGTTTATCCAGGGCAACTACGACGTCCTGGTGACGACTTCAATCATCGAGACGGGGGTGGATATCCCTAACGTCAACACCCTTTTCGTGGAAAACGCGGACCGGATGGGGCTAGCCCAACTCTACCAGATTCGGGGACGGATCGGCCGGAGCAACCGGGTCGCCTACGCCTACTTCATGTATCAGCCGAACAAGGTGCTCACCGAGCTGGGTGAGAAACGGCTGGCGGCGATTCGGGACTTCACCGAGCTCGGCTCTGGTTTCAAGATTGCGATGCGGGACCTGGCAATTCGTGGCGCCGGTAACCTACTCGGTAAGCAGCAGCACGGCTTTATCGACTCGGTTGGTTACGACCTCTACTCGGCAATGCTGAGCGACGCAGTGGCCAAGAAGCAGGGGAAGAAGGCCAAACCAACTGCCGATGCCGAGGTCGAACTGGGTGTTGAGGCCTACTTACCAGACAGCTACATTGACGACCAGCAGCAGAAAATCGAGTTGTACAAGACCATCCGTCAAGCGGGTGACGATAGCGAGTTACTGGACATTCAGGGTGACCTGATCGACCGCTTTGGCGACTACCCAACCGCGGTCGGCAACCTTCTCTTGATTAGTAAGTTGAAGCGGCGGGCGGACCTGGCCCTGATTGCCCAGATCAAGCGACAGCGCGATAACATCATGATCACCTTTAGCCTCAAGGGAAGCCACATGGTCAAGGCGGCGGACATTATCAAGCAGCTAGCCAAGACCCACTTCAAGGCCACCCTGGGTGAGCGTGACCAGCAGCTGACCGTCCGGCTGGTGATCCAGCCGAAGATGACGACCAGCGACTGGCTCAACCAGTTGCTAAAACTGGTCGGGGGCCTGGCTGACGTCATCCAAAACAACCATCAAGCAGCAGAGAAAATGGAGGATTAA
>SRR1151252_00521 peptidyl-tRNA hydrolase
ATGAAGATGATTGTTGGTTTGGGAAACATCGGGACCCGCTACGACGAGACACGGCATAACACCGGCTTCATGGTCGTGGACCAGCTGGCCCGGGACTACCACCTGGGGGCCTTTAGCCACCTCAAGCAGGAGGCGGTCGCGGTCAGCGGTGTGATCAACGGGACGAAGGTAATGCTGGTCAAGCCGACCACCTTCATGAATGACTCTGGTCGGGCAGTCGGGCCGCTGGTTGACTACTACGGTCTCGACCTCAATGACCTGGTGATCGTCAACGATGACCTTGATATGCCGGTTGGTCAGATCCGTCTGAAGACCCACGGGGCCTCGGGTGGCCACAATGGCCTGAAGAGCATCATCAATGCCCTAGGGACCAAGCAGTTCAACCGGGTCAAGCTCGGTATTGACCACCCCCAGCACGGGACGGTGGTCAGTCACGTCCTGGGTAAGTTTACCAAAGAGGAACGTTCCCAGTTTGACGCGGCCGTTGAGCAGGCAGAACACGCTCTGGAGGACTGGCTCGGTGGTGAGAATTTTGCCCAATTGATGAACGATTACAACTAG
>SRR1151252_00522 hypothetical protein
ATGATTTTTAGTTCACTCATCAAGAAAAAGGACACCCTGACGACTCTGCCCGAGACGGCCACTCTTGCCGAGGCACTGACGGTGCTGGAGAACACCGGCTACCGCTGTGTACCGGTCCTGGACGAATCTGGCAAGATCTTCCGGGGCAATATTTATAAGATGCACCTCTACCGCCATAAGTCTCGTAATGGTGACATGAACCTACCGGTAACGGCCCTGCTCAAGAACGCTACCAAGTTTGTCTCCATCAAGTCAGCCTTCTTCTCGGTCTTCTTCGCCATTCGGGACCTCCCCTACATCGCTGTCCTCGATGAGAATAACCAGTTCTACGGGATCCTGACCCACAACAGCTTACTCCGGGTCCTGGCCGAGGGCTGGAACGTCAATAACGGTAGCTACGTGCTGACGGTGGTGGCCCCTGACGAACGGGGCGCTTTGATGACCGCCACCAAGGAGATCACCCGCTACTGCCAGATCGTCAACGTCCTCTCCTTTGACCCCCAGCACTCCGCGGTCAAGCAGATTCTCTTTACCCTGCCGGCCGACGTTAGCCACGAGAAGATGGAGAAGGTCGTTAAGCGCCTAACCAAGAAGGGGTTTGAAGTCCCCGAGGTTGAAGATCTCCACCAGGGTTACTAA
>SRR1151252_00523 cell surface protein
ATGCTATCAAAAAAGAACGTAAGATTAATGATTGAAAAGCAACAGCCACGTAAGCAGCGATTTGGGCTCCGCAAGCTGAGTATCGGGGTCGTATCCGTACTGTTGGGGCTGTTCTTTATCGGTGGTGGCAACCGGGCAGCCGCTGATGACCAGGCACCAACGACGGAAGCCGTTGCGAGCACGGCGGTGATGAGCACCACCCCGGCCAGCGCTCAGAATACGACCGACAGTGCGTCGGTGGTGCTAAGCGGTGCGGTAACGAGTGAAGCGACCCCGACCAGTGCCGACCAGCCAGCGAGTACGGCCGCTAGCCAGGCGACTAGTGCATCCCCAGTAGTTAATAGTCAAGCGACTAGCCAGGCAGTAGCCAGCCAGCAGCCGGTTCAGTCAGCGGTCAGCGCTGCAACACCGAGTGTTCAACCAGTAGACTCCGCCGTAGCGGCCCAGCCGGCTGTCAGTGTAGCGCCAAGTGTGGACAGCAGTGTCAACGCGAGCACTACGCCAAGTGTAGACAGTAGCACTCCGGTGGTGACACCAGATGCGGCAGATCAGGTAATCGACAGTGACAATAACAACGTCGACAACCAGCAGGGTAAGGTGCAAACGGTGGACAAGATCCACTTCGACCAGATCCTAAAGGACAAGTACCAGATCGACGTTAACCACCTCGATGCCAAGAGTGCCTTAATGCTGGCGTCCCTCTTCCACATTTTCGCTAATGAGGCCCAACTGAGTGCCGACGTGAACGGAAACATCGCTGTAGGTATTCTCAACAGCAACGTGGACTTCGGTACCCGTGGTGACTCTGTACACCTGACGCAGGGTGACATCTACTACATCCAGCAACTTAATACGGGCCTGCAGAGCGGCTCCTTCAGAAACGAGCTGTTCAACCACGTGGTGTTCGGCCAGGATGTCAACGTTGAGATCGTCAACGGTCAGGTCCACGTCAACGGCCACCACATGGTTAACCTGAAGCCAGAAGAAGTTTTTAAAGACGCCGCTGGTAGTAACTACATCGACTTCCCAACGGTTTTCTCGCGGCTACTGAAGGCGTCGAACTTCTACGCTAGCCAGGAAGAGTCGGCCGGTGTAATCAAGAACTTCGATGACCAGAATAACCGCTTTGTGGACGTGTCTAACGCGGTACCGAAGGACAATGTTATTTACGTAAACATCCCGTTTGAGTACCTTACGCACCCACAACCGATCAAGATCTTCGGGCTGTCGAGTAAGGTTCACGGACCAACCGTAGTGATCAATGTGATCAGGATGCCAGCGGATGGTGAGGTTTCAATCTCCACGCAGGTTAAACTGTACTACGATGATGAGAAGGGCAACCACGTCAACCCAGGCGAAAGCCACGATCACCCGAACCACGTTTTGTGGAACTTCGGTGAAAGTGCCGCTCATATTAACATCGGAAGTGGGCACTTCATGGGGAGCCTGCTGGCACCGAATGCTCACGTGACGGCTGGGGTGAACGTTGATGGGAACATCATCGCCAACATCGTTGATATCCGGGGTGGGGAGAGTCACAAGTGGGACATCCACCCGGTAGAGCCACCGAGCTTCATCGTGATTCCAGATCCAACGGAGACACCACAACCGACAAGTCCAACGAGCCCGACGAGCCCGACAAGCCCAACGGAGCAACCAACCACTCCGCCGCAGCCAACAGAGCAACCGACGGATCCACAACCGAGTGACCCAATCATCGTTGTGCCACCAACGGTTGACATGGAAGAGGCGGGGACGACCAACCCTGGTGGTAACAAGGATCCAAAGCCAGATGAGGAGCCAAAGGGTGACGATGCCCCAACACCACAACCGGACCCACAACCGGCACCAGTGAAGAAGCCAGTTTCGCCGATGGTTGCCGTTCCAACGCCAGCTGTCCACCAGCCAACGGCCACAAGCCCAGCTAGTGACCAACCAGGTCCGACACTGAAGGCTGTCTCGGCAGCTGCAGTAGCTACGAACCAGGCTGACGACGCAGGTGAGAGCCTTCCGCAGACGGGGTCTGACAACCACGGCATCATCTTGGGGATCGCACTGGCCATCACCGCTCAACTGATGATCTGGGGACTGGTCAAGCCCAAGAAGAAAAAGTAA
>SRR1151252_00524 cytosine deaminase
ATGCTGATCAAGAATGTTCACGTTGATAATCATGAGGAAACGTCTGACGTCCGGATCGTCAATGGTAAGTTTAAGGAAATTGCACCGGAACTGACCGCGGTTGACAACGAGCAGGTGATTGATGGCCAGGGGAACGTCCTCCTGCCACCGTTCGTGGATTCACACGTCCACCTGGATGCAACCCTGACGGCCGGCCAGCCGGAATGGAACGAGAGCGGAACCCTCTTTGACGGGATCCGGATCTGGAGTGAACGTAAGCAGGACCTGACCAAGGAGGACGTCAAGAAGCGGGCACGTAAGACGATCAAAAACATGGTTGGTCACGGGATCCAGCACGTCCGGAGCCACGTTGACGTCACCGATTCCCACCTGATCGCTGCCCAAGCCCTGCTGGAGCTGCGTGAAGAACTCAAGGACCAGATCGACCTTCAGCTGGTCGCCTTCCCTCAGGAGGGGATTTTGAGCTACCCGCACGGCCGTGAGCTGATGGAGCAGGCCGTCAAGGAGGGACTGGATGTTGTCGGCGGAATTCCGCATTTCGAATTCACCACCGAGTACGGTTGGCAGTCGGTTCACTTCCTGATGGCCCTGGCTGACAAGTACGACCGGCTGGTGGATGTTCACTGTGACGAGATCGACGACCCGGCCTCCCGGAACCTGGAAGTTCTGGCCACCGAGGCCTACGAGCGGGGAATGAAGGATCGGGTAACCGCCAGCCACACGACGGCGATGGGTTCCTACAACAACGCCTACACTTACAAGCTCTTTCGCCTGCTGAAGATGAGTGACATCAATTTCGTCTCCAACCCGCTGGTCAATGTTCACCTGGGCGGGAGGTTCGACACCTACCCGAAGCGGCGGGGGGTTACCCGGATCAAGGAGCTCACCAATGCTGGGATCAACGTTTCCTTTGGTGAGGATGATGTCCAGGATCCGTGGAACCCATTGGGTAACGGTAATATGCTCGACGTGGTCACGATGGGGGTCTACATTGCTCATCTGATGGGCTACCACCAGCTCCAGGACGCCTTCAACTACGTCACCTACAACGGGGCCAAGACGATGCACATCAGCGATCAGTACGGTATTGAGGTTGGCAAGCCGGCCAATTGCATCCTTCTGAACGCCGCTGACTTCTATAACGCCCTTAACAAGCATGTTGAGGTTCTCTACAACATTCGCCACGGGAAGATCCTGGCGGCGACTAAACCGGCTGAAACCAAGATTAATCTGAAGTAA
>SRR1151252_00525 purine-cytosine transport protein
GTGTACTTTTGTGAAGTCTTAGGGGACGAAGAGGACCCTGAGGCTTTTTGCTTTCAGTTCAAGGAGGAGAAGAAGTTGGAAGAACAGCAGCACACGCATATTTTCAGTATTCCGATGAAGAGTCGGAAGACCACCCGGTGGGACATGTTTGCGACCTGGGTCGGAGCCAACGCCAACAACGGGACCTGGTTCGTTGGTGGGGTCCTCGCCGCGTGTGGTTTCGCCCTGGCCATGAAGGTCCTGGTATTATCCTCGGCCCTCTCGTACGTTTTTCTGAGTCTGATCGGCTATATCGGCTACAAGACCGGGGTCTCAACGATGACAATCAGCCGGGCCTCCTTCGGTGAGCGGGGGAGCTACCTGCCGTCCTTGGTTAATATCACCCAGTTTATCGGCTGGACCGCGGCCAACACCTTCATCGCCGCTCAGTCGGTCAGCATCCTCTTCCACGACCTGCTTGGCTGGCCGGTCTGGGGCAAGCACGGTGGCTACCTGGGGTTGGTCGTCGGCATCCTGATCATGAGTGTCCTCCACATCATCAGTGTCTCTAGCGGCTCCCGTTCCGTTCAGTTGATCGAGCGGCTGGGAATCATCCTGGTGCTGGTTTTTGTGGTTTGGGAATCGATCGCCGTCTTCCGGACTGTCTCCCTGGGCCAGATCGTCCACTGGCGGGTACCGGTTCATGCCAAGATGGCGACTGGGGCCGCAATTGACTACGTTGCTGCCTTCAACCTGGCCTGGGTCACGGCCGGGGCCGATTTTACCCGCTTCACTGCCAAACGCGACAACGCCATCTACACCCCCTTCTTCGGGGCCCTGTTTGGGGTGGTCTGGTTTGCCTTCATCGGCTTGATCTCCACGATCAGTATTGCCATCTCGACCGGGGTTTACGACGCCAATAACTCCGACCCGTCGACGATTGCCAGCAAGCTGGGCCTCGGGGTCGTAGCCCTGTTGGTCATCATTTTGACCTCAATGACAGCCAACGCGGTTAACCTGATGGCTGCTGGATCGGCCCTGTCCAACATCTTTACTAAGCTGCGACTGAAATACTCCCTGTGGATCGTGGTGCTCTTAGCCACCATTGTCACCTTCATCCCGATGTTTGTCGGCAGCTTTTTGACTACCTTCGAGTCCTTCCTCGATTACGTCGGGATGGTCCTGGGGCCAACGATTGCGATTATCTGCACCGACTTTTACATCCGGGCCCACCGTCATTACGACATCAGTGAGCTAGGCAAGGTCAACGGTAAATACTGGTACCACGGTGGCATTAATTGGGCAGCAATGATAACATTTATCTTAGGAGTAGCCTTCTTTGTTGGCTTCCACCAGCAGCCGCTGTTTGCCGACACGGTCGGGGCGACCTTTGTTGATATGGCAATGAGCGGCCTGTTGTACTACGTATTGATGCTGTTTGCGGATCGAAAGGAAGCATAG
>SRR1151252_00526 toxin-antitoxin addiction module toxin component MazF
GTGACAATGACCAAGCAGGTGAGACGCGGCGAGGTCTACTATGCTGACCTGTCACCGGTAATCGGCTCCGAGCAGGGTGGGGTCCGGCCAGTAGTCATTATCCAAAACAACCGGGGCAACCGCTACAGCCCGACCGTGATCGTGGCCCCGATCACTGCCCGGATGCAAAAGGCAATCCTGCCAACCCATGTGCGCTTGGAACACTCGACCCTGCCCCATGACTCCCTGGTCTTGCTAGAGCAGCTGCGGACGATCGACAAGTCCCGCCTCCAGGATCGGCTGACCAAGTTAGATACAAATGAGCAGGCGGCGGTTGACCGTGCCCTGGCCCGCAGCGTCGGGCTAAAATCCCTGGACGGGGATTGA
>SRR1151252_00527 alanine racemase
ATGATTAGTGGTCGTTTACGAAAAACAACATATCAGGTAGACCTGGGCGCCCTGCGGCACAATATCCAGGCTCAGCGGGCGGTCCTGCCGGCTGGGAGCCGGATTCTGGCGGTGGTGAAGGCCAACGCCTATGGGCACGGGCTGGTACCGGTGGCCCAGGCGGCCCTGAACGCCGGTGCTGCTGGTACCTGTGTGGCGATCCTCGATGAGGCCCTAGAACTGCGCGACAACGGGATCGACGCCTTAAGCCTGGTCCTGGGGATCACCCCGGTCGAATACGCCAACGTGGCCGCGGCGGCTGGGGTGTCACTGACGGTGGGGTCCCTGGACTGGCTTGAGGAGTACCACCACCTGGCCCAGGCCAACCACTGGACAAAGCCGTTGAAGGTCCACCTCGGTATCGATACCGGGATGGGGCGGATTGGCTTTACCGACATCGCCGAATTCAAGCGGGCGGTGAACCTTCTGGCGGAACCGGAGTTTGAATTTGAAGGGATGTTCACCCACTTTGCGACAGCCGACAGCACTGATGCCAGCTACTTCGAGAAGCAGGTTGCTCGTTGGCAACGTTTCGTCGATAGCCTGGACACCTTGCCGCCATACGTCCACATGGCCAACTCAGCCACGGGGATGTGGCACCGGGAATGCATCATGGCCAACACGGTCCGGATGGGGATTTCGATGTACGGGCATAACCCGTCCGGCTACGACATCAAGGAGAACCTTGGCCTCCAGCCAGTTGGCACCTTCCAGACGACGATTTCCTTTGTCAAGAAGCTCAAGGCCGGTGAGTCCGTCAGCTATGGGGCAACCTACACCGCTAAGGAGGACGAGTGGCTGGCCACTCTGCCCGTTGGCTATGCGGATGGCTACCCGCGTTCTCTGACTGGCTTCAAGGTAATGGTCGACGGTCAGTTTTGTCCGATTGCCGGGCGAGTCTGCATGGACCAGATGATGATTCGCCTGCCGAAGTACTACCCGGTCGACACCCCGGTCATCCTGATGGGCAAGTCCGGCCAACTGACGCTGACCCCAACCGACCTGGCCAAGCAGGTGGGGACAATCAACTACGAGATCCTGACCGGGATCGGCAACCGGGTCCACCGGGTCTATAAGAACTAG
>SRR1151252_00528 4'-phosphopantetheinyl transferase
ATGATTGTGGGACTTGGCATTGACCTAACACCGCTGGGCCGGGTCAATGAGCTCGCCCAGCGCCACCCCCAGTTCGTAGACCGGATTTTGACCCCGGCCGAACGCGAACAGTACGCGAGCTTCAGTGGTCAGCGGGCCCTGGAGTACTTGGCGGGACGGTGGTCACTAAAGGAATCCTTTGCCAAGGCGATGGGGACCGGAATTGGCCCGGCGGTTGGTTTTCAGGATGTCGAGGTTATCGACAATCAGCAGGGGGCCCCGGTTGTGACCGGGTCACCGTTTGCTGGACGGGTCCACGTCTCGGTCAGCCACACCGCAACCCTGGTGATGACAGAAGTAATTTTAGAAAGTGAGCAGAAAAATGATTAG
>SRR1151252_00529 D-Ala-teichoic acid biosynthesis protein
ATGGCAAAATTTAATCAAGAACACCCCACCCTAAGCTTCACGCTGAAGACGGTGTTTTACTTTGTTGTGATTCTCCTTTTAGTCTATCTATACGGATATTATGGTGCTGGGCAAGAACCATTTATCTATAATGAATTCTAA
>SRR1151252_00530 D-alanine--poly(phosphoribitol) ligase subunit 1
ATGACCAAAAATATTGTGACATCGTTCGATGAGTGCGCGCAACACAACGCCGCACGCATCGCCTATGATGAGATGGGGACAGCCACCACATACGGTGCGCTATCCACTAATACCAATACCCTGGCCGCATGGTTGGATGAGCAAGGCCTTGCCAAGCAGACGCCGATCTTAGTCTTTGGTGATCACCAGGTTGAGATGATCGTCAGCTTCCTGGCCGCCCTGAAAACCGGCCATCCTTACATCCCTGTCTCAGCCGACTCCGCCATGCCTCGGATCCAGTCGATCCTCGACACAGCCCAACCAGGAATGATCATCGCTGTTGACGACTTTCCCAGCGACAAAGTGACCACCGACGCCACTGTCGTCAGCCGGGACCAGCTGGACACCATCCTTAAGGCGCAACGGGACTTCACCCCGGCTGCCAATCAGATGGTTAGTGGCGACGAGCTCGCCTACATCCTGTTCACGTCCGGGACAACCGGTTCGCCGAAGGGGGTCGAAGTCAGCCATGACAACCTGCGGACCTTTATCGACTGGATGCTCGGACCCGACCTCAAGCTGCCGGCCAACGTCAACTATCTCGGCCAGCCCCCATACTCGTTTGACCTATCAAACATGTACTGGTGGCCAGCCCTGTTAAGTGGCAGTACGATCAAGGCCATCCCACATGACGTGGTTGAAAACTTTGGAAAGCTCTTTACGGCCCTGCCGCACCTCGATCTCAACGTCTTTGTCAGCACGCCGTCCTTTGCCGACATGCTGATGCTCAGTCCGGCATTTAGCGAAAAACAGATGCCGGGATTGAAGTTCTTCCTGTTCTGCGGTGAGGAGCTGACCATCAAGACCGCGAAGAACCTGCAGCAGCGTTTCCCACACGCCAAGATCTTTAACACCTACGGCCCAACTGAGGCCACAGTGGCCATCTCGGGTGTCGAAATCACCCCCGAGATCGTTGCCAACACCGACCGACTCCCGGTCGGCTACGCCAAGCCCGGCGTCACCCTCTCCATTTGGAAAGATGACCAGCAGATTACCAAACCGGGCCAGGAAGGTGAGATCATCATCAGTGGCGATAGCGTCGCTCAGGGTTACATGAACAACCCGGAGAAGACGGCCAAGGCCTTCTTCACCCTCAACGGACAGAAGGCCTACCGGACCGGTGATGCTGGGGTTCTCGACGCGGAAGGTCTCCTTCACCATAAGGGCCGGATGGACTTTCAGATCAAGCTGCACGGCTTCCGGGTCGAGCTCGATGAAGTTCGGGCCAGTCTGGAGAAGAGTCCGCTAATCAAGCAGGCGGTCGCCGTTCCAAAGTACAATAAGGACGGCAAGGTTACCCACCTGATTGCCGACGTCATCCCCAATGAACAACCCGATAATCCAGCGGCCCTGACCAAGGCCATCCGTGAGAGCCTGGACGGGTTGATCATGCCATACATGATGCCAACCCAGTTCATCTATAAGGAAAGCTTCCCAATGTCGGCAAATGGTAAGATTGCCGTCAAGCAACTGATCAGTGAGGCTAACAAGTAA
>SRR1151252_00531 D-alanyl transfer protein DltB
ATGATTAATTGGATTGCGAGCCTACCTAACTTCAGTGCCTATGGGACCCCGATGTACTTCTGCTACCTGATCCTAGCCATCTTACCCCTGGGAATTGGCCTGTACTTCGGTAAACGATTTAGCTGGTATGAGGCACTGATCAGCTTCATCTTCATCTTTTTAATGTTTGATGGGGACAGTTGGCAGCAGGGGATCTCCCTGATTGCCTACGTGATCTGGGAAACCTGCCTGGTGATGTACTACCACCACTACCGCCAAAGCGCCAATTCGGCCGGGATCTTCTACCTGTTTACGGCCCTTTCAATTATCCCGCTGGTGATTGTCAAACTGACCCCAGCGATGGTCGGTCACAACTCCCTGCTTGGTTTTCTGGGAATCAGTTACCTGACCTTCCGGGCAGCCGGCACCATCATCGAGACCCGTGACGGCATGGTCAAGGATATCTCAGCATGGAAATTTATCCGTTTCATGCTGTTCATGCCGACCCTGACGTCCGGGCCAATTGATCGCTACCGGCGCTTTTCCAAGGACTACCAAAAGGTCCCCAGCCGGGATGCTTACCTGGCCCTGGTCAACAAGGGGATCTTCTACCTTTTTCTCGGTTTCTTATACAAGTTCGTTATCGGCTACTTCTTCGGGCAGTATTTCTTGCCCCACTTTGAGAAGACGGCCTTACTCCAACCCCACATGATCTCATGGAGCATGGTCGGTGTCATGTACACATACGGTCTGTACCTCTTCTTTGACTTTGCCGGCTACTCCCTGTTTGCCGTTGCAATCTCCTACTTCATGGGTGTCAAGTCACCAATGAACTTCAACCAGCCGTTTAAGTCCAAAAACATCAAGGAATTCTGGAATCGCTGGCACATCAGTCTGTCCTTCTGGTTCCGGGACTACATCTTCATGCGGTTCGTCTTCCTGGCCACCAAGAAACGCTGGTTCAAGAACCGCAACGCACTGTCATCGACGGCCTACATGTTGAACATGACCCTGATGGGCTTCTGGCATGGGATCACCTGGTATTATATTCTATACGGGATTGTCCATGGACTCGCCCTCGTCACCAACGACTGGTGGCTGCGGTACAAGCGCAAGCACCTACCGAACCTGCCCCACAATAAGCTGACGACCGGCGTGGCCATCTTCATCACCTTTAACTTCGTAATGGTCACATTTTTGATTTTCAGCGGTTTCTTAAACACCTACCTGTTGAGCAAATAG
>SRR1151252_00532 D-alanyl carrier protein DltC
ATGCAAGAACAAATTATTAACATTTTAGCTGACGCAACTGGCCGCGACGCATCTGACTTCAGTGACGCAAGCCAAGACCTCTTCACCTCTGGTCTGTTGGACTCCATGGCCACGGTTTCCCTGCTGCTCGGGCTCCAAGACGCCTTTGACATCCAGGTACCGGTTTCCGAATTCGACCGGAGCCAATGGAACACCATCGAAAAGATTGAACAACGGGTAAAGGAGTTACAAAATGCATAA
>SRR1151252_00533 D-alanyl transfer protein DltD
ATGCATAACGGCAAGCGGCTGTGGTCGATCTTCGGCCCGGTAATTCTTGCTTTTGTCCTGATCCTGGTCCTCTTCTCCCTACCAATTAAGAAGAGTTACCCTCTGCAGACGGAGAAGCAGGCCGCGGTTTCCCTGAGCCCGGTTATCTTTAAGAACCAATCGCTCAAGAAGCAGGCGCTCAACGATAAACGGGCCAACTTCGTCCCCTTCTTCGGGTCCAGTGAGCTACGCCGGATGGATTGCTATCACCCGTCCGTCATGGCCGCCCGTTACCATAACTACACACCGTTTCTCTTTGGGTCTCGGGGGACCCAATCCCTGCCCCAGTTCTTCAACATCAACTCGATGGAGAATCAGATGACCGACCAGAAGGCAGTCTACATTATCTCCCCGCAGTGGTTTACCAAACAGGGTGTTCAGACTCCGGCCTTCAAGTACTACAACGGTTCCTATGCGAATCTAACCTGGCTGCAACATGCCAACCCACGTTCGCCATACGACCGTTACGTTGCCAAGCGCCTGATCGCCTTGATCGGTGACGACGGGACGGTCGGTGCCGGGGCTCGCAAGATTGCGACCGGCAAGTCCCTGAGTTCCTGGGATCGCCTGATTATCAACAGCCGGGTTAACCTGCTTGCTCACGAGGACGCGATCTTCTCCGAGTTCCAGATTAACCAGAACTACGAGAAGCACATCCTGCCGAACATCAACCGCCTGCCGAAGAAGTACGACTACGACCACCTGTACAGCCAGGCCGAACGGGTTGGTAAGCGCGACTCCAACAACAACGAGTTCAGCATCCGTAATGGCTTCTACAACAAGCGGGTCAAGCCGGACCTGAACAGACTGGCCGGGTCGCAGCGCAAGTTCAACTATACGGCCTCACCAGAATACAGTGACCTCCAGGTGGTGCTCAACCAGTTCAAGAACACCAATTCCAACGTGCTCTTCGTCATCCCACCGGTCAACGCCAAGTGGGAGAAGTACACTGGCCTGGACATGGATATGTACTACCGTTCCGTGGAGAAGATCAAGTTCCAGCTGCGCGAACAGGGCTTCACCCACATTCTGGACCTCTCCCACGACGGCAGCAAGCCAGCCTTCATGGAAGACACCATCCACATCGGTTGGGCCGGCTGGGTCAAATTTGACCGGGCCACTAACCAGTTCATCTCGACTAAGCAGCCCCAACCGGACTACCGGATGAACGATGAGTTCCTGACCAAGCGCTGGGCCAACCTGAACCCAACGGCACACAACCTGCAAGAATTCAAGAATCAAGAATTACGCTAA
>SRR1151252_00534 DEAD/DEAH box helicase
TTGAAATTTAGCGAATTGGGCTTATCGCAGAGCCTATTGAGGGCAATCAAGCGGAGCGGTTACGAAGAAGCCACTCCGATTCAGGAACAGACGATTCCAATGGTACTGGATGGTCAAGACGTGATTGGCCAGGCCCAGACTGGGACCGGGAAGACGGCGGCGTTTAGCCTGCCGATCATCGAACACGTCAACACCAAGGATCCGGATATCCAGGCCCTCGTGATTTCACCGACCCGGGAGTTGGCCATCCAGACCCAGGAGGAGCTCTACCGGCTTGGTAAGGACAAACATGTCCGGGTCCAGGTCGTCTACGGTGGGGCTGACATTCGGCGTCAGATCAAGAGCCTGAAGCAGCACCCGCAAATCCTGGTCGGAACGCCAGGGCGGCTGCGCGACCACCTGAACCGGCATACCGTCAAGCTGGACAACATCCAGACCCTGGTGCTGGACGAGGCCGACGAGATGCTCAACATGGGCTTTCTCGACGATATCGAGGCAATTATCAATCAGACACCGAAGGACCGCCAGACCCTGCTCTTCTCGGCCACGATGCCACCGGAGATCAAGAAGATTGGGGTCCAGTTTATGACCGACCCCAAGATGGTTCGAATCAAGGCCAAGGAACTGACCACCGACCTGGTCGATCAGTACTATGTCCGGGCCCGTGATTACGAGAAATTTGACATCATGACGCGGTTAATTGACGTCCAGGATCCGGAGCTGACGATCGTCTTCGGTCGGACCAAGCGTCGGGTCGACGAGCTCTCCCGGGGTTTGGTTGCCCGGGGCTATAACGCGGCCGGTATCCACGGTGACCTGAGTCAGGATCAGCGGACCAAGATCATGCGTCAGTTCAAGAACGGCCAGCTTGATATCCTGGTAGCAACCGACGTGGCGGCCCGGGGATTGGACATCTCTGGCGTGACCCACGTTTACAACTACGACATTCCGTCTGACCCCGACAGTTACGTTCACCGGATCGGTCGGACGGGCCGGGCCGGCCACCATGGGATGTCATTGACCTTTGTAACCCCGAACGAGATGGACTACCTCCACGAGATCGAGAAGCTGACCCGGGTCCGGATGCTACCGCTGAAGCCACCGACGGCTGAGGAGGCCTTCCGCGGTCAGGTTGCCAGCGCCTTCAACGACATTGACGAACTGGTTGCCCAGGACACTACCGACCGTTACAAGGATGCGGCAGCCAAGCTCCTGGAGACCCACGACGCCACCGACCTGGTTGCGGCCCTACTCAATAACATGACCAAGGAGGCCGCCAGTGACGTGCCGGTCAAGATCACGCCAGCGCGGCCCCTGTCACGGCGTAACCGTCACAATCACCAGCGGGGCAATGGCCGGGGGAACGGCCACTACCGTCGTCACCGCGACAACCACGGCCGGCGGAGTAATTACCGGTCCCACCGGAACAACGACCACCATGGCAACAGTCATTCCTTCAGTATTCGTCACCGTAAGGAAGACTAG
>SRR1151252_00535 UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D- alanine ligase
ATGAAAATGAAGTTAGCGGAGATTGCCAAGGCAATCGATGCGCAAAATAATATTGACCAATGGCAAGACGTTGAGTTGACCAGCGTGTCCTTTGACAGCCGCCACCTTGAACCTGGGGCGCTCTTCATCCCGCTGCAGGGGGCCCAGGATGGTCACCGTTTCGTGGCCAGTGCCTTTACCAATGGGGCGGCGGCCTCCCTGTGGGCCAGTGATCACGAGCTCGTGGACCACGAACACCCTCTGTTGGTAGTGGATGACCCGTTGAAGGCCCTCCAGCAGCTAAGCAAGTACTACCTGCACAAGATCAACCCGATGGTGGTTGCCGTTACTGGGAGCAACGGGAAGACGACCACTAAGGACATGATTGCTTCGATTCTGAGCACCCAGCTGAACGTTACCAAGACCTATGCTAACTTCAATAACGAGATCGGGGTCCCGGTGACCCTGCTCAACATGGAGGCCAACACCGAGGCGGTGGTCGTTGAGATGGGGATGGACCGTTTTGGTCAGCTGGATTTTCTGAGCAAGTTAGCGTCCCCCGATATCGCGGTGATCACGATGATCGGTGAGGCCCACATCGAGTTCTTTGGGACCCGGGACCGGATCGCCGATGCTAAGATGGAGATCACCCACGGCCTTAAGGAAGATGGTACCCTGGTCTACAATGGTGATGAGCCCCTGTTAAACGAACGGGCCGCCCAGGTTGATCAGCGTCTGGTTCGCTTTGGCCGTCACCTGGATGATGACCTCTATGCTACCAGCGTTGAGGATCATCCACGCTCCCTTACCTTCACGGTCAATGAATGGCCGGACAAGCAGTTCACGATTCCAATGGTCGGGGAGTACAACGTCAACAACGCCCTGGCCGCCATGGCAGTCGGTCGCTTGCTCCACATCACGCCGGACCACATCAAACAGGCCCTAGCTAACGTTGAGCTAACCGAGAACCGGGCGGAGTGGCTGCTTGGTACGAACGGTGAGCAGATCTTAAGCGACGTCTACAACTCCAACCCGACGGCGGCCAAGCAGGTTCTCAAGACGGTTGCGGCGATGCCAGCTGCGGGGCGGCGGATCGCCGTCCTGGGTGACATGCTGGAGCTCGGTGACGCGTCCGCCCGCCTGCATGCCAGTCTGGCGAGTGAGATCGACCCGCAGGAGATCCAGGCAGTCTACCTAGTGGGGGAACAGATGCAGGCCTTAAAAGACCAGTTACAGCGTGATGGCTACCCGAGTGATGCCATCCACTACTACCAGGCCGGGCAGCTGGAGCAGCTGACTGCCGACCTCCAGGCCACCCTGACCGGTGACGACATTGTCCTGCTGAAGGCGAGTCACGGTATTCACCTTGAAAAGGTACTAGACGCAATTGAAAAAAAGCAAAATGATTAA
>SRR1151252_00536 heat-shock protein HtpX
ATGCTATACCAACAGATTGCACGCAATAAGCGTAAAACCATCCTGGTGATGTTTGGTTTCTTCCTACTGGTGGCCCTGATCGGGGCGGCAATCGGCTACCTCTTCGCCCGGTCCGCGGTGGCCGGAATCATCATCGCCGGGGTGATTGCTGTCATCTACATGTCGGTGATGATCGGTCAGTCGACCGACGTGGTGATGAACGTGAACAACGCCCGCGAGATCCATTCGGCTAGTGAGGCCCCGGAGCTCTGGCACGTGGTCGAGGATATGGCGATGGTGGCCCAGGTACCGATGCCCCGGGTCTTCATCATTGATGACCCTAGTCCCAATGCCTTTGCGACTGGAAACGACCCCCAGCACGCGGCGGTGGCGGCTACCACGGGCCTCCTCCAGATGATGAATAGGGAGGAGCTGGAAGGGGTGATGGGCCATGAGATGAGCCACGTCCGCAACTATGACATCCGCCTGCAGACGATTGCCCTGGCTCTTTCTGCGGCGATCTCCGTGTTGGTGAACTTTGCCGGTAATTTCTGGTGGTTCGGTGGACGGGGCAACGACCGGGACGACAACAGTGCCGGTGGTATCTTTGCTGTCTTCGGCTCGATTCTCCTGATTATCCTGGCCCCGCTGGCGGCGACGATCGCCCAGATGGCCCTGTCACGGAACCGGGAGTATCTGGCGGATGCCGGTTCAGTTGAACTGACCCGGAATCCACATGGCATGATTGCGGCCCTGGAGAAACTCAAGGGGGCCCAACCGATGAAGGCGGCTGATCCAAACAGTTCAGCCCTCTACATCAGTGACCCCGAGCGTAACGCCAAGTACCGGCGATTTGCCCACCTCTTTGACACCCACCCGCCGCTGGACGACCGGATCAAGCGGCTGGAGGAAATGTAG
>SRR1151252_00537 LemA family protein
ATGACACTGATTATTGTGATTGTGGTCATCGCGATCATTGTCGGGATCTACGTGGCCCTCTACAACAGTCTGGTCCAGCTCCGGGTTCACGCCCAGGAGTCGTGGAGCCAGATCGACGTTCAGTTGCAGCGGCGAAACGACCTGATCCCCAACCTGGTCTCCACCGTCAAGGGCTACAGCAAGTACGAGGCTTCAACCCTGGAGAAGGTTACCCAGCTGCGGACAGCCCTTAACAACGTGCCTGATGATGACCGGGCCCAGAAGATGGAAGTCTCCAACCAGCTTTCCGGGACGCTGAAGACCCTGTTTGCCGTTTCTGAAAACTACCCGGACCTGAAGGCGAGCACCGAGTACCAACAGCTGATGGAGGAGCTGAGCAACACCGAAAACAAGATTGCCTACGCCCGTCAGCTCTACAACTCCACGGTGGCTGCCCTAGATGCCAAGATTCAGAGCTTCCCGAGCAATATCATCGCCAAGATCCATCACTTCACGACGATGGACTACCTGCAGGTTCCAGAGACGGCTAAGGAAGTTCCCCACGTTTCCTTTGATGATTAG
>SRR1151252_00538 protein-tyrosine phosphatase
ATGAACGTATTATTTGTCTGCCTGGGTAACATCTGCCGGTCACCGATGGCCGAGGCGATGTTCAAACAGATGGTTACCGAAGACGGGCTCAGTGATCAGGTCCACGTCGATTCCGCCGCCACTAGTAGTGAAGAGGAGGGTAACGGCCCCCACCCCGGCGCTCTAGAAGTCATGCAGCGCCACCAGCTGCCAACTGCGGGGCTAGTCTCCCGACCGATCACCAGTCGTGACTTCGCCTGGGCGGACTACATCATCTGCATGGACAACATGAACCTTTACAACCTGCGCCGGGTTGCCCCAGTGACCGACGTCAACAAGATCAGCTTGGCCAACGAACCGGTACCGGGCAAGGCGGATGCCGAGATTCCCGATCCCTGGTATACCCACCGCTTTGAGGACACCTACCAGAGCCTGAAGGTCGCCCTCCCCTACTGGCTTGATATCATCAAAAAACAACTCAAATAA
>SRR1151252_00539 sortase
GTGAAGAAACAGCAACGTTCACGCGGTTGGCTCCGCTGGGTCGCCATTGTCATCCTGCTGGTGGTGTCGGTCTGCCTGATCTTCAACCAGCAGATCAAGGAACACCTGGTGGGCAGTTACCGACCAACGATCACCAGGCAGTCGATCAAGCAAGACCGGCAGAAGAAGGCCACTTATAACTTCAACGACGTTAAGGACCTGAACTTCCAGACGGTCGCCCAGGCCCGGGCTAAGAAGCAGCCGATTAACATCATTGGTGAGATCACTGTACCGGCCATCGACATGACCCTGCCGATTGCCAACGGGGTCAACAACACGACCCTGGCGTTGGCCACTGGGACCATGCGCCCGGATATGCAGATGGGGCAGGGTAACTACGCCCTGGCGGGTCACAACATGGCCAACGGGAGTAAGATTTTATTCTCGCCGCTTTACTACCACGCCAAGGTTGGTCAGATGGTTTATATCACCGACCTTGACCGGGTTTACGAGTACCGGATCAGCCAGCGGCAGTTTATCGACGCCACCGACGTCCAGGTGGTCAATAACACGCCGCAAAAGATTATCACCCTGATCACCTGCGATGCCACGGGGGCCCGGCGGCTGATGATCCGCGGTGATTTCGTCAAGTCGGAGCCGTTCAAGCAGGCGCCGACGAAGGTCCAAAAGAACTTCAGTACCAAGTACACGACCGGGCGCGCGTCGTGA
>SRR1151252_00540 acyltransferase
ATGCATAATTTACGAAAACAGCTGACCCGGCGAAGTCGCCACGTATTGTTGGCCCTCATCGGCTTGATCGTAATCCTGGCCTTGCCAACCTACTTTTGGATGAAGAGCGCCAACGCCAACCTGGCTGCCCAACGAAACTCCCGGATGTCACCGGTGATCATGATCCCAGGGAGTTCTGCGACGATGAACCGTTTCAACCAGCTGGTCGAGATATTAAACAAGCGGACTGCCAAGAAGCACAGCCTGTTACGACTTGAGGTCGAAAACAACGGTAAGATTAAGTCAACTGGCTGGATCAACCGCGGCGATACGGAACCGATCATCGTGGTCGGCTTCCAGAATAACCATGACGGCTACCAGAACATCAAGAAACAGGCCAAGATGTTCAACCGTGCGTTTGCCCTGCTGAGCGACAAGTATAACTTCAACAATTTTAAGGCCTTCGGGCACTCCAACGGGGGCTTGATCTGGACCTTGTGGTTAGAAAAGTACTACCACCAGTACAGCGATCAGATCACGATCACGCGTCTAATGACCCTGGGGACGCCCTATAACTTTGCCGAAACCTCGATCAACCAGCCTACTCAGATGTTTCATGACCTGGTCAAGGGGCGTAAGAAGATCCCCAAGACCCTCGACGTCTATTCAGTCGCCGGGACCGAGAGCTATGACTCCGACGGCCTGGTCCCCGAGCAGAGTGTGGAGGCCGGTAAGTATATCTACCAGAAACAGGTTAACCACTACACCACGATGACGGTCACCGGGAGTAAGGCCCAGCACTCGGGCCTGCCGCAGAACAAGCAGATTGTCAACCTGATCAGCCACTACCTGCTGGACAACGAGCAGGGGCCTAAACCCGGTCCCAACAATCCAAATAATAGTGGCAGCTAG
>SRR1151252_00541 cellobiose-specific PTS system IIC component
ATGCAGTCCAAAGTTGTCAACATGCTTGTCCGTTTCAACCAGCATTCCTTTATCCAGGCCGTCCGCCAGACCCTAGTGGTGCTCTTCCCGGTGACCCTAATCGGGGCCCTGGCCCAGCTGGTGGTCAAGAGCTGTCTGGATGCCAACGGTTTCTTTTACAACATCTTCGGTATCGGTAGCTGGCTCCCCTTGACCTGGCTGAAGACCCTCCAGTTTGTCTTCACCAGCGTCACCCAGATCTTCTTTAACCTCCTGGGAGTACTAGCTTGCTTCATCTGTGCCTATAACACGGCCCGATTTTACCGTAGGGATGCGCAGATGGCTGGCTTGACCGGTGTTTTCGCCCTCCTGCTGGTGGCCTATCGCTATGGAAAGAATCCCCAGGTAGCACTTGACTTCCACATGACCCTACTCAGTGGGAAGAGTCTGCTTTTCGCCCTCCTGATCGGCTACGGAGTTGGTCAGCTTTACCGGTGGAAGGGGCCGGGAGAGCTGATGGTGAAGAAGATCACCTGGCTGGATGTTCGCCGTCAGGCCTTTGCCTCCCTGTGGCCCTTATTGATCACCACCTTACTAGCGATGCTGGTGTCTTTGGCGATCAACTCGGGGCGTTTCTACCATGCGTATTCCCACACCTATACGGCCCTCACCAGTGCCAGCCAGGAACTACGGAACGTGTGGCTGGCCCTATTGTTGTCACTGGTCCTGGCCGTGATGGACTGGATAGGGCTCGGGGTTCCATCCAGTTATAACATGCCGTTGAACACGCCCGCCTACATGGCCAACCTAAACTACGCCTTGGTCCACGGCAGCGCCTGGCACGTACCCTACAAGTTTTTGGGTAGTACCCTTTATAATTCATTTGCCAACTTTGGTGGGGACGGGTTGGTTCTGGCCTTGGTGGTGGCGATCCTGCTCTTCCCGGGTAACACTAGTCTGCACCGCGTGGGACGCTGGACGGCCCTACCAACGCTCTTTAACTTTGACTACAGCTCCCTGGTTGGCTTGCCGGTGATCCTAAACCCGGTCTTTCTCCTGCCCTTCTTGTTCCTGCCCTTGATCAACATCGGGATTGCGGCTGGGGTGACAGCCCTAGGACTGATCCCAGCAACCCCGTATCCGGTGCTGTTAGGGACACCGGGCCCGTTGATCGGGTTCGTGGCCACCAACGGAAATTGGGCTACGTTAATCTTCACGCTGGCCCTCCTGCTTTTGGACATCGTCTTATACCTCCCCTTTGTCCGCTTGAATTTTCGGGTTGAGGATCAGCTGGGACGGGCCACATTAGGTGGTGAAGACGATGCATAA
>SRR1151252_00542 50S ribosomal protein L31
ATGAAACAAGGAATTCATCCAGATTACCACCCAGTAGTATTTGAAGACTCATCTACTGGTTACAAGTTCATTTCTGGTTCTACTGCTACTTCTAAGGAAACGGTCAAGTGGGAAGACGGTAACGAATACCCACTGATCCGGGTTGAAGTTACTTCCGACTCTCACCCATTCTACACTGGTAAGCAAAAGTTTACCCAAGCCGATGGTGCGGTCGACAAGTTCAACAAGAAGTACGGTCTCAAGTAA
>SRR1151252_00543 UDP-N-acetylglucosamine 1-carboxyvinyltransferase
ATGAAAAGAATGATCATTCAAGGAGGAAACCGACTTTCGGGTGAAGTCACCATCGGCGGTGCTAAGAACAGTACCGTTGCCTTAATCCCAGCAGCAATCTTAGCCGACACACCAGTGCAATTTGATACCGTGCCGGATATCTTGGATGTTCACAATTTGATGATTATCTTAAAGTCGATGAATGTTAAGTCTAAGTTCAACCATGGGGTCTTAGACATTGACCCGACCCAAATTGTGGAAGCCGAGTTACCGAGCAAGGCGATCAAGAGCCTGCGGGCCTCTTACTATTTCATGGGTGCGTTACTGGGCCGCTTCCACCGGGCAACCCTGACCTTTCCCGGCGGTGACAACATCGGGCCGCGGCCAATCGACCAGCACCTCAAGGCCTTCAAGGCGATGGGTGCTGAGGTCAGTGAGGATGGCGGGACCGTCCACCTTGATGCCACTAAAAATGGCCTGCATGGGGCCCGGGTCTTCCTGGACATGGTCTCCGTTGGGGCCACGATCAACGCCATCCTGGCGGCTGTTCGTGCTGACGGGACCACGATTATTGAAAATGCGGCCCGTGAACCGGAAATCATTGACTTGGCAACCTTCCTCAACAACATGGGGGCCAAGGTCCGTGGTGCGGGAACCGGGACCATCCGGATTACTGGGGTAAACACCCTACAGTCGATGAATACCCACACGATCATTGCCGACCGGATTGAGACGGGTACCTACCTGTCACTGGCGGCGGCCATGGGTGATGGCGTCATGATTCATAATGTGATTCCTGAACACCTGGAGTCCTTCACCAATAAGATGATCGAGATGGGGGTCGACCTGCAGATTGATAGTGACAAGATCTATGTACCTAAGGTGACCCACCTCAAGGGGATCCACGTCAAGACCCTGCCATTCCCAGGCTTTGCCACTGACCTCCAGCAACCACTGACGCCACTGCTTTCCCTGGCTGAGGGGGATAGCATGATCGTGGATACGATCTACCCAAAGCGGGTTAAGCACGTTACCCAATTACAAAAGATGGGTATGAACATCGAAGCCCATGACGGGACGATCATCATTAAGCATACCGAACAACTTCATGGGGCCAACGTCGAGGCTGGTGAAATCCGGGCCGGGGCGGCCCTTACCATCGCTGGTTTGATGGCGGATGGTACAACAGTGATCAACAACGCCGGCAACATCCTGCGGGGTTATGACCGAATTGTCTGGAAACTGAACCGGCTGCACGCCAACGTGGCAATCGAGGACGATACATCGGTAAAAATCGACTAG
>SRR1151252_00544 CTP synthase
ATGACGAAATACATTTTTGTAACCGGTGGGGTTGTTTCATCACTAGGAAAAGGGATTGTTGCCGCATCCCTTGGTCGCCTACTGAAGAACCGGGGCTTAAAAGTGGCCATTCAGAAGTTTGACCCATACATCAACGTTGACCCGGGGACGATGAGTCCATACCAACACGGGGAAGTCTTCGTCACCGATGACGGGACGGAGACCGACCTGGACCTCGGTCACTACGAACGATTCATCGATAACGACTTGAATAAGTATTCCAACGTCACTACGGGGAAGATCTACTCCGAAGTGCTGAAGAAGGAACGGCGGGGTGACTACCTCGGGCGGACCGTTCAGGTGATTCCGCACATCACCAACGCCATCAAGGACAAGATCAAGCGGGCCGGTGAAAGTAAGGATGCCGAGGTGGTCATCACCGAGATCGGGGGGACCGTTGGTGACATCGAGTCTCAGCCGTTCATGGAAGCCATCCGGCAGATGAAGGAAGAGGTTGGTGCTGATAACGTCTTGTACATCCACACGACCCTGGTACCATACCTGCGGGCTGCTGGTGAGATGAAGACCAAGCCAACCCAGCACAGTGTTCGCGAGCTACGCGGGCTCGGGATCCAGCCGAATATCCTGGTCGTCCGGACTGAGAAGCCGATCACTGAGGAGATGCGCAACAAGATTGCCCTCTTCTGTGACGTGGACCCGAAGGCGGTAATCGAATCCTTGGACGTCAACACCCTCTATGAGATTCCGCTGAACCTTCAAAAGCAGGGGATGGACCAGTTGGTTGTTGACCACTTCGGCCTGGACGTGCCGGTGGCCGACATGCATGACTGGACGAACATGGTTGACCACATTGAAAACGGCCTGACTAAGACGGTCAAGATCGCCATGGTCGGCAAGTACACCGACCTTCAGGATGCCTACATCTCCGTCAATGAGGCCCTGCGCCACGCCGGCTACCCGGTTGACGCCAAGGTCAAGATCGACCACTTCAACGCCGAACACATCAACGAAGATAACGTGGCCGATACCCTGAAGGACTACGACGGGATCCTGGTTCCGGGGGGCTTCGGTAACCGGGGTGTCGAAGGGATGATCACCGCGATTAAGTACGCCCGAGAAAACGACGTGCCATACTTGGGGATCTGCCTGGGGATGCAGACCGCCTGCATTGAGTTTGCCCGGGATGTCTTGGGCTACAAGGATGCTAACTCAACCGAGTTTGACCCGAACACCGAGCACAACATCATTGACCTGATGGCTGACCAGGAAGACGTTGAAAACATGGGTGGAACCCAGCGGCTAGGCGCCTACCCATGCAAGCTGAAGGCCGGGACGGTAGCAGCTGCAGCTTACGACAACCAGTCGATGATCAGTGAACGACACCGTCACCGTTACGAATTCAATAATGCCTACCGTCAAGAGATAGAGGACCACGGCCTGGTTATCTCCGGGGTCAACCCGGACCGCAACCTGGTCGAGGTCGTTGAGCTGCCAGATAAGAAGTTCTTCGTGGCTGCCCAATACCACCCAGAATTCAAGTCGCGGCCGAACCATCCTGAGGGTCTGTTCAAGGCCTTTGTCAAGGCGGCCGTGGAAAACCACGAGGCCTAA
>SRR1151252_00545 DNA-directed RNA polymerase subunit delta
ATGATTGAAGTGGCACACGCTATTTTGGCTGATCACGGTGAGGCAATGGCGTTTGTTGACTTAACCAACGAGATTCAGCAATACTTGGGTAAGAGTGACGAGGAAATCCGTGAACGGCTTGCCCAATTCTATACTGATTTGAACATTGACGGCAGTTTTATTTCCCTTGGTGACAATACCTGGGGCCTGCGGGCATGGTACCCATACGAGTCCATCGACGAAGCCACGGTTGGTGAAAACGAGGACGACGAGGACCGGCCAAAGAAGAAGCGCCGTAAGGTTAACGCCTTCTTGGCAGACTCTGACGATGACGACGATGTGATCGACTACGATAACGACGATCCCGAGGATGAGGATCTCGATGACACCGACGATGACAATAATGATGACGACGCCGACAACGACGACTACAGTGACGATGATGATGACCTGGATGATGGTATCGAAGGTCAACTCTCCGAACTGCATGACGAAGACGATGATGATGACGAGGACGACGAATAA
>SRR1151252_00546 hypothetical protein
ATGATCAAGAAAAAGGTACCAGTAAAAGTCAGCCTGAAGACGACCATGGAACAGGATGGCCAGCAAGAGACGTTTGCGTTTGAAGAGGACGGCGAGTTCATCGCCTTAAACGACAAGTACTACTTGCGCTACCTGGAGCACCAGAATGGTCAGACCACCCCGGTGCAGTTTCGCCTTAATGATGGGGAGGTTCATATCCATCGGCAGGGGGCCACGGAGACCTGGCTGGTGTTTGACCCCAGCCAGCCGACCATTACCCGCTACCGGACGGCATACGGGATAATGCAGCTGCAGGTAGTCACCAGTCGTTTGGAGTGGGAACTGGATCCGGCCGTTCCCGCGGGCCGGCTCTCCCTGAGCTATCGGCTGCGGGGCGGTGGCCAGGAGATTGGAAGTTACCAAATTGAATTGCATTTTACGGCCTAG
>SRR1151252_00547 lipoate-protein ligase A
ATGCAAAATTTTACCCAACAACACGTTGAATACTTCGACCAGCCCCTGCAGCCGGCCAACAACCTAACCTCATTTGCCTATACCAACGCCCTCCTGCGGTTAAGCGAAGAACTGCCGGCCCCCCTGCTCCACTTCTGGACGCTTGAGGACTCAGTCATCCTCGGTCTCAAGGACCAACGCCTGCCCCACCTCAATGCTGCCCTGAGCTTCCTTTATGACCACCAGCAGCACTACTTCATGCGTAACTCCGGCGGCCTGGCCGTCGTCAGCGACGGTGGCGTCCTGAACTTCTCCCTCTTCTTCCCCTGGCACCTTGAGGATCACCAGCTGACTATCGATGCGGCCTACCAGCGGATGGAGGAGGTCGTTGCCGCCGCCTTCCCAGAGCTGACCATTGAGACCGGTGAGATCACCCACTCTTACTGCCCCGGTAGCTTTGACCTGAGCGTTAACCGGCAGAAGATCGGTGGCATCTCTCAGCGCCGTAACGCCAGCGAAGTCGTGGTCATGCTCTACCTGAGTGTCAATGGTAACCAGTTAGGCCGGGGCGAACTCATCCGCGACTTCTACAGCCGGGGTCTCCAAGGTGTCGCCAACAAGTGGCACTTCCCCGACATCTGGCCGACCGCAATGACCACCCTGGCGGACCTTCTCCACCAGCCACTGACCGTCGAAGATACCAAGCAGCGACTGCTCAATGTCTTCCCCGACCATGGCCAGGACAATTTCCACCAGCTCACCTGGTCGCCATCCTTCATCAAGCTGGCCAACGACGAACTAGTGGCAATGACGAGGCTCCAGGAACGACTGCACAAGGGGTGA
>SRR1151252_00548 HD superfamily phosphohydrolase
GTGATTCACGTGGAACACTTTGAACGTTTTAATGCGGAGAAGCTCCCCCGGGAAAAGGTCTTCCGTGACCCAATTCACGGGCAAATCATCGTTGATAATCAGATCATCATGGACCTGATCAACACACCAGAGTTTCAACGACTGCGCCGGATCAAGCAGCTGGGGACTTCGTCGTTTACCTTCCACGGGGCCGAGCACTCCCGTTTCGGTCACTGCCTGGGGGTCTACGAAATCACCCGGCAGATGTGCAACAACTTCCAGCGCAACTACCCGAGCCAGCATCCCGGTGACGGCCTGTGGGACGACAGTCAACGGCCCGTGGCCCTCTGTGCAGCCCTACTCCATGATCTCGGTCACGGCCCCTACTCACACACCTTTGAGCACATCTTCCACACCAACCATGAGCAGATCACCCGCCAGCTGATCACTAGCCCGGAGACTAACATCAATAAGATCCTCCGCCGGGTCGCCCCCGATTTCCCTCACCAGGTAGCTAGCGTGATCGACCATACCTACCCAAATCAGCAGGTCGTCCAGATGATCTCCAGCCAGGTTGATGCCGACCGGATGGATTATCTCCAGCGGGATTCCTACTACACCGGAACCAACTACGGCAAGTTCGACCTTGACCGGGTCCTCCACGTCATGCGGCCAGTCAAGGACGGGATTGCCTTTGAGATTTCGGGGATGCACGCCGTCGAAGACTACATCATCTCCCGGTTACAGATGTATCTTCAGGTTTACTTCCACCCGGTTTCCCGGGCAATGGAGGTCATCTTAGACCACCTCCTGATGAGGGCCAAGCACATCTACGAACACCCCAACGAATTTGCGCCGGAGTTCACCCCCTACATGCTGATGCCATTTTTCAACAAGCGTTTCACCCTCGACGACTACCTGGCCCTCGATGACGGGGTACTGACCACCTACTTCAACCACTGGACTCACTCCAGCGACGACGTCTTAAATGACCTGGCCGACCGCTTTCTTAACCGGCGGCCCTTCAAGTCGGCGATCTACGACCAGCAAACAGCCAACCTCTTGCCGACCCTGCGCAACCTGATTCAGACGGCCGGTTTCGACGAGCGCTACTACACGGCCGTCAACGATAGCTTCAAACTGCCCTACGATACTTACAACCCGAAGGCCTCCAAGCCGCAGACCCAGATTGAATTGGTCCAACCCAACGGCGAGTTCATCGAGCTCTCCCAGGTCAGCACACTGGTAGCCAGCGTCTCGGGCCGGGAAGCCGGTGACCAACGCTTCTTCTTCCCTAAGGAAATGCTGCAGGGACATGAGGATCTCGAGATCTTTGAGCCAATCTACGAGCAGTTCCAACACTATATCCAGAACAATCACATTATTAAACCAAAGGAGAATAAGTAA
>SRR1151252_00549 sugar phosphate phosphatase
ATGGCAATCAAACTAATCGCAATTGATATCGACGGCACCCTGATCAACGACCAGCGGCAGATCACCCCCAAGACGGTGGCGGCCCTCAAGAAGGCCAGCGCGGCCGGGGTTAAGGTAGTCCTTTGCACCGGACGGCCAATGACCGGGGTCGAGGCCTACCTGGAACAGCTCGGGGTCGCCAACAAGGATGACGAGTACGTGGTCAGCTTTAACGGTGGCCTCGCCCAGTCAACCAGTGGTAACGTCATCGTCGACCACAGCATCGCCTTCAATGACTACGCCGACTGGGTGAACTACTGTCTCAAGGAGGGTATCCACTCCCAGATTGAAACCCGGGACTATATCTACACCACCAACCAGGACCTCAGCTACTACACCATCTATGAGTCCGAGTTGGTCAGCATGCCGGTTCGCTACCGGTCGATGGATCAGATGGCCCGCGAGCGTGACCAATACATCATCGCTAAGGCAATGATGGTTGACACCAAGGACAAGATCGACCGTGCTCTGGCCGACCTGCCCCAGGACCTGCGTGACCGCTTCTCGATTGTCCGCAGTGAGGACTTCTACCTGGAATTCATGCACCCGGACGCCAGCAAGGGTAAGACCCTGAAGACCCTCAGCGAACAGCTGGGCATCAAGCAGGACGAGGTGATGGCCCTGGGCAACGCCCAAAACGACAACTCGATGATCGAGTTTGCCGGGATCGGTGTGGCGATGGGCAACTCGATCCCTGCGACCCTGGCAGTGGCCGACGTGACCGTTGCCGATAACAACCATGACGGAGTTGCCGAGGCCGTCGACAAGTATGTCCTTGGTCAGGAGTAA
>SRR1151252_00550 choloylglycine hydrolase
ATGTGCACCGTAATGACAATTGACCAGCAGCACCTGCTGGGGCGGACGATGGACTTTCCGCCACGGACGCCCTGGCACCTGACATACTTGCCGCGGGGTTACCAGTGGCGGGCAGCCCAGATGACCACCACCCATAGTAACAGCCGGGCTCTGCTCGGTGGGATGCGAGTTGTCGATGGCCACTGCCTGGTCGGCGACGCGGTCAACGATGCTGGCCTGGCCGGGGCCGAACTCTTCTTCCCAGTGGCGGCCGACTACCCAACCACCGTCCGACCGGGGACGCAGGGGTTGACGCCCCAGGACTTCATCATGTGGGCCCTGGGTAACCACGCCACGGTCCGGGAGCTGGCGGCCGACCTTGATCGGGTGACGGTGATTGATGCCCGCTGGTACGACGGCCAGCGCTACCCCTTTCACTGGCTGCTGATGGATCAAACGGGGACCTACGTGATCGAGCCGCTGGGCGACCGTCTCCATGTTCGTGCTAACCCCCTAGCGGTCTTTACCAACACTCCGGCCCTTGATGATCAGTTGGCGCGCCTGGCCACCTACCTGGAGCAACCGGTTACCGCCACGGTAACTCAGCTAGCACAGGCGATTGCGACCAGCAATAAGTCGCTGCCAACGGGTGGTAACTCGGTTCAGCGGTTCATCCAGGCGGCCTGCTGCCGGTGGGGACGGACCCCACGGGATGTAGCCGACTTGCTGGCTTTTCTGCGACTGGTAACGGTGCCCCACACCCCGGCCCACGCGCACAACTACACCCACTACCAGGCGGTGATTGACATTGCTGACCAGCGTTATGATTTCCACGACCTGCATTCTGGGGTGGTGGTCAGCTGGTGCCTGACGAAATTAATGATGGAATCGCCAACCACACCGCGGCGGTTTGAATAG
>SRR1151252_00551 hypothetical protein
ATGAACAAGGTAGTTAAAAAGACAATTGTGGGGACCGCCGCCCTGACGGTTTCCCTCATGCTGGCGGCCTGTGGTCAGCAGAGCAGCACGGCCAGCTCGCCGTCGAGCAGTTCGTCTTCTAAGGCCCGCTCCGCAGAAAACGAATCAACCAAGGCATACCGGTCAGCTAACCGCCTGATTCGCAACCATGACTACCAGGGTGCTTATGATAAGTTGAACGCCGTCAACAGCCGTTCCGGCCAGGCCGACAAGTTGAATACGGACCTGCAGAACTACATCAGTGCTAAGTCCGCCTATGACAGCGGCGACTACGACCAAGCCGCCAGTAATCTGAAGAATCTGAAGTCGACGAGCCCGGCCATGCGAGATGCTTACGCTGACTTGCAGAACAAGATTACGAGCGCCAAGAAGAACAGTTACAGCACGAGTAGCTCTAGCAAGCACAGCAGTTCGGCCACGACGTCCAGCAACAGCAGTCAGCGTGGCACAGCTGCTAACCAGGCCGTGGACAGTCAGGCCAGTGACCAGGTTGTCGATCAGTTTGCCAACAAGATGGGCTTCACCGGTGAAAAGGGGTATGAGATCATCCCAACCGCTAAGAACGGTAATCTCTACCGGTTTGAGGTTCGGCAGAATAACCAGGACAACACGGTTGCCAGCATGATTGGAATCTACCAATACAATGGCCAAACCGGTGCGGTAACGAAGCTGCAATAA
>SRR1151252_00552 ribose-phosphate pyrophosphokinase
ATGACACAGCATTATTCTGACTCTAACTTAAAAATCTTTGCGTTAAATTCTAACCGCCCGTTGGCAGAGAAGATTGCGGAACACGTCGGCGTTGAACTGGGTAAGTTATCTGTCGACCGGTTCAGCGATGGTGAAATCCAGATCAACATCGAGGAGAGTGTCCGCGGTGACAACGTCTACGTCATCCAGTCCACTTCCGCTCCCGTCAACGATAACCTGATGGAGCTTTTGATCATGGTGGATGCCCTGCGGCGGGCCAGTGCTAAGACCATCAACGTGGTGATCCCATACTATGGTTACGCACGGCAAGATCGGAAGGCGCGGAGCCGGGAACCAATTACGGCTAAGCTGGTTGCTAATATGCTTCAAAACTCCGGGGTCGACCGGGTCATCGCCCTCGACCTGCACGCTGCCCAGATTCAGGGCTTCTTCGATATTCCAGTTGACCACCTGATGGGGGCTCCGCTGCTGGCGGAATACTTCATCAAAGAAGGGGTGGCTGACGATGCCGTTGTCATCTCACCGGACCACGGTGGGGTGACCCGTGCGCGGGCCCTGGCTGAATTTCTGAAGTCGCCAATTGCCATCATCGATAAGCGGCGGCCACGGGCTAACGTTGCCCAGATCATGAACATCATCGGGAACGTCAAGGGTAAGACGTGTATCATGATTGATGATATGATCGACACAGCCGGGACGATCACCCTGGGCGCCCAGGCCCTGATCGACGCGGGGGCCCAGGAGGTCTACGCCTCATGTACCCACGCCGTCCTGTCTGGTCCAGCCATCGAACGTCTGGAGAAATCACCGATCAAGGAGGTCGTGGTGACTGACTCCATCAAGCTGCCGGCAGAGAAGCAGATCAAGAAGATCAAGCAGGTATCCGTGGCACCGTTGATTGCGGATGCCATTAAGCGGATCAACGAGAACCGGCCGGTTAGTCCACTGTTCAAGCGGGTTTTCCAGAGCGCCGAATTAGAAAAGTAA
>SRR1151252_00553 UDP-N-acetylglucosamine diphosphorylase/glucosamine-1-phosphate N-acetyltransferase
ATGACAAAACGCAACGCAATTATTTTAGCTGCTGGTAAGGGGACCCGGATGCGGTCCAAACTATACAAGGTCCTGCACCAGGTCTGCGGTAAGACGATGGTCGACCACGTCCTGACCCAACTGGAGAAGGCCCACATTGAAAATATCATTACGGTCGTTGGCTTCGGGGCTAAGACGGTTGAGGAGAGCCTCGGCCACCGGACCCGCTATGTCCTGCAAAAGCAACAGCTGGGGACCGGTCACGCAGTTATGCAGACCAAGGATATTCTCGGTGACATTGATGGTGAGACCATCATCGTTAGTGGTGACACGCCGCTGTTTAAGGCAGAAACCTTCGAGAAGCTGTTCCAATACCATGAACAGCGGCACGCGGCGGCCACCATTCTGACCTCGACCGCCCCGGACCCGACTGGCTATGGCCGGATTGTCCGCAATGATGTCGGCATCGTGGAGCGAATCGTGGAACAAAAGGACGCCAATGCCCAGGAACAGGCGATCAATGAGATCAACACCGGGGTCTACTGCTTCGACAACCAGAAGCTCTTTTCAGCACTGAGCAAGATCAACAACGATAACGCCCAGGGCGAGTACTACCTGACCGACGTTATCGGCATCTTGAAGGGCGAAGACGAGATCGTGACCGCCTACAAGGTGGACGACTTCGACGAGTCGATGGGGGTCAACGACCGGGTTGCCCTCGCCCGGGCTAATCAGGTGATGCGCGACCGGATCAACAAACACTGGATGCGGGAAGGGGTCTCCATGATCGATCCATCAACTACCTACATCGACGCCGATGTTACCCTGGGTAAGGATACCGTCCTGGAAGGCAACGTCGTCCTTAAGGGCAAGACCGTAGTTGGCAACGATTGCTACATCAGTGCCGGCTCCCGGATCATCGACTCCACCATTCATGACGGGGTCAAGATTACCTCCTCGACCCTGGAGAGTGCAGAGATGCACAACGGTAGTGATATTGGTCCTAACAGTCACCTGCGTCCAGAGGCTGAGATCGGCGAGAATGTCCACATCGGAAACTTCTGTGAGGTCAAGAAGGCCTACATCGGTGAGGGGACCAAGGTCGGCCACCTGACCTACATTGGTAACGCCACCTTGGGTAAAAACATCAACATCGGTTGCGGGGTTGTTTTCGTCAACTACGACGGTACCAACAAGCACCATACCAACGTGGGTGACCACGCCTTCATTGGCAGCAACAGCAATCTGGTGGCCCCGGTCAACATCGCTAAGGACGCCTTCATTGCCGCCGGTTCGACGATCACCGACAGTGTTGAACAATACGACATGGCCATCGCACGGGCCCGGCAGGTCAACAAGAAGGACTACGCCAAGAAGCTGCCGTGGTAA
>SRR1151252_00554 purine operon repressor
ATGAAAGTACGTCGAAGCAACCGTTTGGTAGATATGACACGTTACCTGATGGAACATCCCCGCACCTTGGTATCCTTGAAGGTCTTTAGCGAACGCTACGGATCCGCTAAGTCCTCAATCAGTGAAGACCTGAGTATCGTCAAGCACACCTTCCATACCTGGGGAGAAGGGCGCCTTGAGACCATCCCGGGAGCCAGTGGTGGGGCCGTTTTGACACCGTTTTACTCCAAGGAGAACGCACAGCGAGCCATTGATAACCTGGTGGCGGCGGTCAACGATGATTCCCGCCTCTTGCCAGGAGGGTATGTCTACCTGTCTGACCTGATCGGTCGGCCGGATATTCTCCGACAGGTTGGGCGCCTGATTGCCACCCAGTATGTGGATAAGGACGTTGACGTGATCATGACGGTCGAGACCAAGGGAATTCCGATTGCCCAGAGTGTGGCCATGTACATGAATAAGCCCTTTGTGATCGTCCGCAATAGCTCGCACATCACCGAGGGACCAACCGTCAGTGTTAACTACGTCTCCGGGTCCGTCCGCCGGATCAAGAAGATGGAACTCTCCCGGCGGACCCTGTCGGCGGGGGCCAATGTGGTGGTCGTCGATGACTTTATGAAGGGTGGCGGTACCCTCAACGGGATGCACTCCCTGATTAAGGAGTTTGATGCTAACCTGGTTGGGATGACCGTCCTGGCCGAGGGAAACGCGACAAACGGTAAGCGGCTGGTTGACAACTGCACGGCATTAATTAAAGTAGATGCTGAAGACGGCGAGACAAAGTCGATTACGGCCCGTCCCGGCAACTTCATGACAACGGTATTTGATTAG
>SRR1151252_00555 Mn/Zn ABC-type transport system permease protein
ATGTTAACATTAGCTTTCATGCGGCATGCCTTCATTGCCAGTGCCTTCATCGCGGTGGTCAGTGGAATTATCGGGGTATTCGTGGTGGCCCGGCAACTGTCGTTTCTGACCCACACCCTGTCCGAGATCGGTTTTGCCGGGGCGTCGTTTGCGGTGTTCGCCGGCTGGCCGGCCCTGGACGGGATGATCCTTTTCACCATGCTCAGCTCGGTCCTGGTCGGTCAGATGAGCATCAAAGAGTCCCGGCGTGAGGCCGTCATCAGTGCGGTCTCGGCCCTGTTTATCGGGCTGGGGATCCTCTTCCTCTCCCTGAGCAGTCAAACCGCCAGTTCGGCCACCAGCATCCTCTTCGGGAGTGTCGTCGGCATCAGCATCAATGAGGTTCACCAGCTGATTGTCCTCTCAATCGTGGTTCTGCTGATCACCCTGGCGATTTATCGCCAGCTAAAGTTCAGCTCCTTTGACCCGATCGGCGCCCGGGTGGTCGGTATCAATGAGACCCTGATCTCGGTGATCTTCCTCCTCTTACTGGCCCTGAGTGTCAGTGTAGCGGCCCAGATTGTCGGCTCGCTTTTGATCTTCATCCTCCTGACCCTACCAGCTGCCAGTGCCAAGTACTTCACTCACGGGGTAGCCAAGATGGTTGTTTTGGCGATCCTCTTCTCCCTGCTGGGCACCTGGCTGGGCTTGCTCCTGGGTTACCTGACCAACTGGCCGGTTAGTTTCTTCATCGCGGTGATCGAGGTTGTGATTTACGTGGTGGCCTTGATCTACCAGAACTACTTTGTCGAGGCCAATTAA
>SRR1151252_00556 Mn/Zn ABC-type transport system ATP-binding protein
ATGGCAGTTATATCAGTAGAAGACCTCAACGTGGCTTATGGCAACCACCAGGTCATTACGGATCTGAGCTTCACGGTCAACGAGGGGGACTTCATGGTCGTGATCGGTGAAAACGGGGTTGGCAAGACCACCCTGGTGCGGGCCCTGCTGGGGCTACTCAAACCGCGCAGTGGGGAGATCGATATTCCCGCTAACACCAAGATCGGCTACGTTCCCCAGTTTCGCAATATTGACGAGGAGTACCCGCTCTCGATCCGTGACTTTGTCTCTCTGAACAGCGGTAAGGGGATCATTCCCTGGCTGAATAAGCGGGAGCGGGCCCGTGTTGATCGGATGATCCGGATGACGGACCTGACGGCAATTGCGGACCGCCCCCTCGGCCTGGCATCCGGAGGGGAGAAGCAGCGGGCTTACCTGGCACAGGCCCTCCTGCAGTCGCCCCAGCTGTTGATTCTCGATGAGTCGACCGCCAGTCTAGATAACGAGATGAAGTACGAACTGCTCGACCTGGTGACCCGCTTCCAGCAGGATAACCTGAGCGTGATGTTCATTACCCACGACTGGGACTTGGCCCGGCACTTCGGCACCCGCTTCCTGCAGATGAAGCCAAATGGCTATAACGAGGGACCGATCAACGAGTTGCCCGAACATGAAGAGGAGGAGTGA
>SRR1151252_00557 metal ABC transporter substrate-binding protein
ATGGGAAGAAAGAAGTATTGGCTGGGGGTTAGCGGCTTGATTGTGGCCCTGCTGGTGATTCTGGGTTTGTCCCTTGTTCCGTGGCGAAACATTCACCGGGAAAGACGGCCGATTCGGGTGATCACCAGCCTGGACTTTTATGGTGAGGTGGCCCAAGAAGTGGCCGGGAAGTATGGTCAGGTGACGGCGTTAATCAACAACGCCTCGATAGACCCACACGACTATCAACCGGGGACCAAGCAGGCTCAGAGGATGGCCCAGGCTAACGTGGTGATTCAAAACGGCCTTGGCTATGACCACTGGCTGACCAAGCTGACCCAGTCAGCGGGGGGACAGCACGACGCGGTGGTTGACGTCGGTCAGGAGGTTGCCGGCAAGTGTCCCGGGGCCAATGAGCATGTCTGGTATGATCCACAGACGATGGGACGGCTAGCCAATACACTGGCGGAGCGCTACGGGAAAATTGACCCTGAGCACCGGGCCTACTACCGGCGCCGTGCCCAGCAGTACCACCGGTCATTGGCACCGCTCAATCATGAAATCGCTAAGGTTAAGGCTCATGTGGGTGCTAAGCGGGCCGTGGCGGTCAGCGAACCGGTTGCCGATTATGCCCTTGAATCGCTGGGCTACCAGGTGATCGACCCCCACTTTGAAAAGGCTATCGAGGATGGTAACGATCCGTCACCTCAGGATATTCAGGAGCTCCAGCGGGCGATTGTTAACCACCGGATCGCCTTCTTTGTCGAGAACAGTCAGGCCAGCGACCGGGTAATCGACAACCTGGTTCACCTGGCACATGAACACGGGGTCCCCGTCCTGAAGGTGACTGAGACCAAGCCTAACGGCGTCAGCTATGTCCAGTGGATGACAAAACAGTATCGGCAACTGGCGCGGATACAGCAGGAAGGAGAATAG
>SRR1151252_00558 4-diphosphocytidyl-2C-methyl-D-erythritol kinase
ATGCTTGTTACAGAGAAGGCCCCGGCAAAACTTAACCTGAGCCTGGATACCCCGATGCGGTATTTCGATGGGTCACCGCGCTGGGATATGGTGATGACCTCAGCAGACCTGGCCGATTACGTCACCGTGGAGACGCATCCTCGGCCCGCGGCGATCAAGGTTTACACTGATAGTGGCTTTCTACCCAATGACCAGCGCAACCTGGCCTATCAGGCGGCCCACATCCTGCGGAGCCGCTTTCACCGGCGGGAGGGCGTGACCATTCGAATTAAGAAGAATATTCCCGTGGCAGCGGGACTCGGCGGTGGTTCATCCGACGCGGCAGCAGTCTTGCGGGCCTTGAATCGAATTTGGCGGCTCGGCCTCAGCAAGCAAGAGTTGGCCAAGGTAGCCCTGACGATCGACTCGGACGTCCCTTACTGCGTCTATAGTCAGTTAGCCCACGTGACCGGCCATGGTGAGCAGATCGAACTACTGCCGGCTCATCCCCACTACTGGGTGGTGATCGCAAAGCAGCAGACCAGTGTCTCCACTCCGCAGATTCTTCGCCAGATCAACTACGAGCAGCTGGATCACCTGGATAACGACCGCCTGATCGCCTGCTTGAAGGATCAGGACTGGCAGAACGCCGTCAAGTACATGGGCAACGTCTTAGAACCAGTGACGATGCGGAGCCACCCGGAAATCCGCCGCCTGAAGGATAAGATGGTTAGCCTTGGCGCAGACGTGGCCCAGATGAGTGGGACCGGGCCGACGGTGTTTGCCATCTGTCACACGGAATCGCGGGCGCGGCGAATCCAAAATAGCATTCGCGGTTTCTGCCGGGATGTCCATGTCGTGACCCTGTTATAG
>SRR1151252_00559 Veg-like protein
ATGCCAAACAGTATTGCTGAAATCAAAGAATTGCTGAATGCCCGAATTGGCCAGAAGGTAATTGTAAAGGTTCAGGCTGGTCGTAAGCGGGTGAACACCCTTCACGGGACACTCGCTAAAACCTACCCAGCAATTTTTATCGTTCACCTGAATAGTAGTGAGGACGACCTGCAACGGGTCTCATACACGTACACCGATTTATTAACACACAACGTTTCGCTTGCTTTTGAATAA
>SRR1151252_00560 dimethyladenosine transferase
ATGAGTCAGTCACCAGAAATCGGTAGTCGTACCCGGACCAGGGCGATCATGGAGAAGTACGGGATCCGGACCAAGAAGAGCTTTGGGCAAAACTTCTTGACGGACCTGAACGTCTTAAACAATATCGTCGCCGCTGCAGACATCACCAAGAATGACAACGTGATCGAGATTGGTCCAGGGATCGGGGCCCTGACGGAGCAGCTGGCCCAGGCGGCCGGGGAGGTCCTGGCCTTAGAGATTGACGCTGACTTGATTCCGGTGCTGGGAGAGGTTCTGGCGCCCTACGATAACGTGACCGTTCTCAACCAGGACGTCCTAGCGGCTAACCTGCCGGAGCTGATTCAGCAGCAGTTCAGTGACCCGACCAGGCCGGTGAAGGTGGTGGCCAACCTGCCATATTACATCACCAGCCCGATCCTGATGAACCTGTTAGCCAGTCCGGTCAATTGGGCAGCTATCTGCGTCATGATGCAGAAGGAGGTTGCCCAGCGACTGACTGCTAAGCCGGGGACCAAGCAATATGGGGCGCTGACCTTAGCAATCGAGTACCAGATGGATGCCAAGATTGCCTTTGAAGTCTCCCGGAAAGTCTTTGTGCCGTCTCCCAACGTTGACTCGGCCATCGTCGTTTTGACCCCGCGTCAACAGCCCCTGGCCGTCCAGCCGTTTGATAAACAGAAACTCTTTGGCTTCATCCGGGGGTGTTTCGCTCACCGGCGCAAGAGCCTCTGGAACAACCTCCAGGGTGTCGTTGGCAAAGATAAAACGACTAAGGACCGGCTAGCTGCAATCCTGGATGACCTACAGATTTCACCCCAGCTTCGGCCCGAACGGCTATCGTTTGCCCAGTTCATTGAGCTGGCCAACGCCCTCCATGCGGCGAAGCTTTTGTGA
>SRR1151252_00561 ribonuclease M5
ATGAGCAAGATTAAAGAAGTTATTGTTGTTGAAGGCAAGGATGACACTAAGCAGATTCATAAGGCCGTTGATGCCGACACCTACGAGACCAACGGGTCGGCTCTATCAAACGCTGACTTGGCCCGGCTGAGGAAGCTCCAGGCTAGCCGGGGGCTGATCGTCTTCACCGATCCGGACTTCAATGGAGAACGGCTGCGCAAGATGATTAGTGCCGCCGTGCCGGGGGTCAAGCACGCCTTTATCCGCCGTGACCAGGGGGTGCCAGACGAGGCTCACGGCAGTCTGGGGGTGGAGCACGCCACCCCGGCTACTATCAAGGCCGCCCTGGCCCACCTCTATACTCAGACGAGTGAACCACCGGAGGACCCCTTCACGATTCGTGACCTGCAGGCGGCGGGCCTGACGGGAAATTCCCACGCCCGGCACCGGCGGGAACGTCTGGGGGCCATCCTCGGAATTGGCTACGGTAACGGAAAACAGCTAGTTCACCGGTTGAATATGTTTCAGATCACGCCTGCCCAATTTACGCAGGCCATGACAAAGATTAGGCAGGAGGAGAATGGATGA
>SRR1151252_00562 TatD family hydrolase
ATGAGTAAGCATGCAAGCTGGCGTCAGGTCTATGACTCCCACACCCACCTGAACGACGGCCCCTTCTATGATGATGTGGCTGCCTTCATCGCCCGGGCCGACCATTACGGCGTCACAACGATGAACATTGTTGGTTCTAACCGGCAGTTAAACGACCGGGCAATTGATCTGGGACACCGTTACCCCAACCTTCACCCAATCGTTGGCTGGCACCCGGAGGACCTGGCGACCTTCAACGCCGCCGAGGAGGACCACCTAAAGACACAGTTGGGTGATCCAACGGTGGTGGGGGTCGGCGAGATTGGCCTGGACTACTACAATGACCAGCATTCGCCCCATGACCAACAGTGGGCCTTGTTTGAACGGCAGCTCCAGTGGGCCCGCGACCTAGGTCTCCCCGTCTCAATTCACTGTCGGGATGCCCTAGCAGACACCTACGCGATCCTGAAGAATGCCCACCTTGCCGAGTTCGGCGGGGTCATGCACAGCTTCAACGGCAGTCCAGACTGGGCGAATAAGTTCATGGAGTTGGGGATGGCGATCTCCTTCAGCGGGGTGGTCAGCTTCAAGAACGCCACTGACGTCCACGTCGCCGCCCTGGCAACACCACTGGATCGGATGATGGTGGAGACCGACGCTCCTTACCTGACCCCCAAACCATATCGGGGGAAGCAGAATGAGCCAGCCTTCACCAAGTTTGTGGTCGACGCGATCGCCGCGTTGAAGGGTGTCGATGCGGAACGGGTGGCCTACCACACTTACCACAACGCCGCCCGGTTATTTCTCAAGGATGGAGTTCAAGATGAGCAAGATTAA
>SRR1151252_00563 methionyl-tRNA synthetase
ATGGCAACTGAAAAACCGACTTATTACATTACAACACCAATTTACTATCCATCTGGTAAGCTCCACATTGGTAACTCCTACACCACAATTTCCTGTGATGCGGAGGCACGCTTCAAGCGACTGAATGGCTATGATGTTTTCTTCCTGACTGGGACCGATGAACATGGCCTGAAGATCGAACAGAAGGCGGATAAGCTCGGCATGCAGCCACAGGAATACGTTGACCAAATGGCAGCGAGCATCAAGAAGCTCTGGAAGACGCTGAAGATCACCAACGACAAGTTCATTCGGACGACCGACGATTACCACGAAAAGGCCGTTCAGAAGATCTTCCAGAAGTTTGTCGACCAGGGTGACATCTACAAGGGTGAATACACCGGCTGGTACTCCGTAGACGATGAGGAGTACTTCACCGAAAGCCAGCTGGCTGAGGTTTACCGCGATGATAACGGTAAGGTGATCGGTGGGAAGGCCCCGTCCGGCCACGAGGTTCAGCTGGTCAAGGAAGAGTCCTACTTCTTCAAGATGAGTAAGTACGCCGACTGGCTGATGAACTACTACAAGGAGCACCCGGACTTCATCGAGCCCCACACCAGGATGAACGAGATGGTCAACAACTTCTTAAAGCCGGGCCTGGAAGACCTGGCCGTTACCCGGACTTCCTTCAACTGGGGGGTCAAGGTGCCAAACGATCCGAAGCACGTGGTCTATGTCTGGATCGACGCCCTGTCCAACTATATTACCGCCCTCGGCTATGGCAGTGACAATGACGAGCTCTTCAAGAAGTTCTGGCCGGCTGATGTTCACATGGTTGGTAAGGAGATCGTTCGTTTCCACACCATCTACTGGCCAATCATGCTCCATGCCCTGGGGTTGCCCCTGCCTAAGCACGTCATCGGTCACGGTTGGCTGACGATGAAGGACGGCAAGATGTCCAAGTCCAAGGGGAACGTGATCTACCCAGAGACCCTGGTGGACCGCTACGGCCTCGATGCCACTCGCTACTACCTATTGCGGGCAATGCCGTTTGGTAACGATGGGGTCTTCAGTCCCGAAGACTTTGTCGACAAGGTCAACTTCGACCTGGCCAATGATCTGGGGAACCTTCTGAACCGGACGGTGGCCATGATTAACAAGTACCAGGATGGTAAGCTGGTCGCTGACAATGATGCGACGACACCATATGACGCCGACCTAGAACAGACCGCGGCCGACGTGATCGATGAATACAAGGACCTGATGAATAAGACCCACTTTGCTGACGCCCTGGCAGCGGTCTGGAAGCTGGTATCCCGGGCAAACAAGTACATCGACGAGACCGAACCGTGGGTACTGGCTAAGGACGACAGCAAGAAGGCAGAGCTCTCCGACGTGATGACCCACTTGGCTAAGAGCCTACGGGTAATCGCCGCCCTCTTGCAACCGGCAATGCCGGATGCGCCAAAGGAGATCTGTCGGCAACTTGGCCTGTCTGAGGAACCAATTGCCTTGACAAGTCTGGCATTCAATGACTTCCCGGCTACCGCTCAAGTAGTCAAGAAGGGGACGCCGATCTTCCCACGGCGGGACGTCAAGGAAGAGGTCGAGTTCATCAAGAGTAAGATGACAACGAACGAGAAGAAGAAGGGACGTAAAGCAATGGAAGAAGCAAAGCAAAAGGTACAGGCGAGCGCTAAGCAGGAAGAAGAAAGCACCGGTAAGAAGGCCATCCGGATCGACGCCTTCGATAAGGTGGAACTGAAGGTGACCAAGATCACAGCCGCCGACCACGTTGAGGGGGCCGACAAGCTGCTCAAGTTCCAGATGGATGACGGAACCGCGGAAGGCCGTCAGATCCTGTCTGGAATTGCCAAGTGGTACCCAGACCCATCCGTATTGGTCGGCAAGAACGTCGTCATCGTGGCCAACCTGAAGCCACGGAAGATGCGGGGCGAGCTCAGCCAAGGGATGATGCTCTCCGCCGAGAAGGATGGGGACGTCAAGGTGGTCATCGCCCCTGACGACCTGGTTCCGGGCATGAGTGTCGAATAA
>SRR1151252_00564 hypothetical protein
ATGAAAATAACCATCGGCTTGACGACCTGGACCGAGCACCCGGCCCTGATTAACGATAAAGAGCGTCCGGTTACCCTAAATGAATATGCCCAGCACCTGCCCACGGTAGAAGTGGACACCTTTTTTTACGCGCTGCCGCAGATAGCCACCATTCAGAAATGGCTGGCCCAGGTTCCGGAGTCGTTCCAGTTTATTGTGAAGGCTCATCGGGGGATGACCCTTCACGAACGTGGCCAGGAGAAGGGGGAACTCGAGCAGGTCTTCCACCGTTATAAGCAGATCGTGGCACCCTTGGTAGCGACCGGTCAGTTGAAGACGGTTCTCTTCCAGTTTCCACCGTACTTTGACGCCTCGCCCGAAGACATCGAGTACCTCCGTCTGGTCCGCCTCTGGATGGGGAAGTTGCCGGTAGCCATCGAGCTGCGTAACCAAACCTGGTACCGGCCGGGGACACTGAAATCGTTCTTGTCCTTCTGCCGGGAGCTCCACTTCACCCTGGTGGCCGCCGATGAGCCGCACGGGATTGTTGCCTCGGTGCCCTTTGTCCTAGCGACAACCAATCTAGACCTGGTGATGATGCGCCTACACGGTCAGAACACGGCGGGTTGGACCAACCAGGGGAAGAGCTGGCGCAAGACCCGCACTCTGTATAAGTACTCTGCCGACGAGCTAGCGGCCTTTCGTGACCAGATCAGGGGGCTGGCCCCGCAGCCGGCCGAACTCTGCGTCATCTTTAACAATAACTCGGGCAAGGACGCGGCGCCCAATGCCCTGCAGCTGCAACGGCTACTCGGTGTCCACTTCACCGACCTGGCCCCGCGTTCCCCCGAGCAGATTGACCTCTTTTAG
>SRR1151252_00565 hypothetical protein
ATGCTACTAAACACCAATGCAATTCGTAACGTAACACGTCACTTTAAGAAGGATGGCCACCCAAAGGGCTCAGTGGCATTGCCATTCAAGGTGGATGGTAAGGTCGTCTTCTTCGAATAA
>SRR1151252_00566 uroporphyrinogen-III decarboxylase
ATGGTTTTGAATCGTGAAACTGTCCTGAAGGCCCTGCATAACGAGACCGTTGACCAAGTGCCAACCTCGTTTTGGCGTCACTTCGCCGATAACGAGTTTACCAATGCGGCCACCAACCCCAGCGTCTTAACCACCAACCTGACCGGCCACCGTAGCTACTACCAGGCCGTAGACGTTGACTTCGCTAAAACGATGCTCGACGGCTACTTCCCCTACCCGTTCCACGGGGTCAAGGATCCAAAAGACATGTCCGACCTCCACAACCTGCGGCCCATCGCAGACGACGACCCCTGGTTGACTGGGCAGGTGGCCCTGGCAAACCAGCAAAAGGAGATCGCCGGCGAGCGGCCAACCTTCGTCACCATGTTCTCCCCACTCTTCCTCCTGAAGTGGGCGTTGATCGAACACTATAAGGAACCCCTCCTGCTGGCCGACAAGCGCTTCGCCGATATGTATGAAGCAGACCCCCAGCTGATCCTCCACGTCCTGAAGGTCCTCGGTGACGACCAAAAGAAGGTTGCCCGGGCCCTGATGACAGCTTCCAACATCGACGGTATCTACTACAGCACCCAGGAAATCCAGGATCCGCGCACCCAGACGTCGAAGTTCTTCGAAGAGGTGATGGAACCGGTCGACATCGACGTCCAGAACACCATCAACGCCGTCTCCCCGCTCAACATCCTGCACATCTGCGGCTTTGACGGGGCCGACAACCACCTGGACTGGTTTGTCAACTACCCCCTCCAGGTAATCAACTGGGCCACCGAGACCGATGGCTATACCCTGGCAGAGGGTAAGAAACTCTTCGGCGACCGACCGGTGATGGGAGGCTTTGATAACAGCACTAAGGGGGTCCTGTACCGCGGCAATAAACAGCAGATCCAGGACAAGGTCCACGCCCTGATCGCCGAAGCCGGTAAGCAGGGGGTCCTACTCGGTGCCGATTGCACGGTGCCACGGGATATCGACTACGACCACCTGCGCTGGGCGATTGAAGCAGCACACGACTAG
>SRR1151252_00567 amino acid ABC transporter ATP-binding protein
TTGCTACTAACCGTTAACGACTTACACAAATCATTCAATGGACGGGAGATCCTGAAGGGGATTGACTTCCAGATCGACAAGGGCGAGATCGTTGTCATGATCGGCCCGTCCGGTTCCGGGAAGACAACCTTCCTGCGTAACCTCAACTTCCTGGAGCACGCCGATCAGGGACAGATGGACTTCGCCGGTCACCAGATCGACCTGGCCAAGCCAGACAAGAAGGAGGGTCAATGGGTCCGGCGCCACTCCGCAATGGTCTTTCAAAACTACAGCCTCTTCAAGAATAAGACGGCCCTGCAAAACATCACTGAGGGCCTGATCTACGCCCAGGGGATGGCCAAGGACAAGGCCGAAGCCATCGCCAAACATGAATTGGCCAGTCTGGGGCTCAGTCAGGAGGCCCAACTCTACCCCGCCCAGCTGTCCGGTGGGCAGCAGCAGCGAATCGGGATCGCCCGGGCGACGGTCCTAAACCCAGAGATCATCCTCTTCGACGAGCCAACCTCCGCCCTCGACCCTGAACTGGTCGGATCGGTCCTCGGTGACATGCGCAAGCTGGCGGAGGCGGGGCAGACGATGATCATCGTCACCCACCAGCTCGGCTTTGCCCGTCAGGCGGCCGACCGGATTGTCTTCTTCGATGAAGGAAAGGTCATCGAGGAAGGTGCCCCACAGGCAATGTTCGACCACCCGCAGAATAAACGGACGGCCCAGTTTCTCACCGCCCTCAACGACGCCAACTAA
>SRR1151252_00568 amino acid ABC transporter permease protein
ATGAACAACGCTAAGATTCTCGGCGTCATCCTCCGTGGCCTTCCCAACACCCTCTACCTCCTGGTCCTGTCCTTTGTCTTTGCGACCATTCTGGGGATCTTCCTCGCCTGGCTAGACCTCCGGCAAAACCGGGTCGCCCGGGGCGTGGCCCACGTCTACCTCGGCCTGATCCGGGGGACCCCACCACTCTTGATGTTGCTTTTGGCCTACTACGGGCTGCCGGTTCTCCTGAAGGGCATCGGCATCAACATCGACGGCTGGACCAAGCTAACCTTCGGGGTATTCGGCCTGTCCTTGGGCTGGAGCGCCTACCTGTCTGAGGCCTTCCGGAGCGCCTACCTGTCCGTGGACCCCGGCCAGCTGGAGGCCGCCCGGTCGATCGGCCTGCCGGATCGGACCACCTTCTGGCAGATTTTGATCCCCCAGGCCACAATGATCGCCCTACCGAACATCGAGAACCTGGTGATTGGCCTGTTCAAGGCCACCTCCCTGGTCTATGTGCTCGGCCTCTACGACCTCTACAATGAGGCTTCCAACCTGTCCAACCAGACGGCAGGAATCCACCAGCTCCGGATCTTCATCCTGCTGGCCCTCACCTACTGGGTCATCGTCCTGATCATTGAGGGGCTCTTTCGCTTGATCAGGAACCGCTTCGCCGCCATTCGTGCCTAA
>SRR1151252_00569 glutamine ABC transporter permease protein
TTGTTCGATTTAAACTTTGCCCGCGCGTCGTTCGGCCAGATCCTGGCAGCCGCCCCGCTTACCCTCCTGGTTGCGGTGGTGGCCACCCTGGTCGGGTTGATCCTGGCAATTCTCGTCGCCATCGCCCGGGAGAAGAAGATTCCGGTCCTCGCCCAGGTTCTAGCCGTCCTGGTCTCGTTTATCCGGGGAACCCCGATCCTGGTCCAACTCTACGTGGTTTACTACGGGCTGCCCCAACTCCTGGTCCTGATGCGCAGCTGGGGCTGGAACACTAACCCAGATGGTCTCCCCGCCATCGTTATCGCCTTTTCCGCCTACGGACTGAACGCAATGGCTAACCTCTCGGAGAGCATCCGATCAGCCTACCATTCGGTGGACCCCCGCCAATACGAGGCTGGGATCGCGGTCGGCATGCCCCCCTTTAAGACCATGACCCAGATCGTGGTCCCGCAGCTGATCACCAACCTGATCCCCAACTTCACCAACATCTTCCTCGACCTGATTAAGGATACCGCCCTGATCTACAACATCGGCCTGGTAGAGATCATGGGCCAGGCCAACATCGTCTCTTCGATCGGTTTCAAGTACCTGGAGACCTACACCGACGCCCTGGTCATCTACATCGTCATCTGCTGGATCTTCGCCAAGATCTTCCAGCTGATTGAGAGCCAGCTCCGTCGTCGTTACGTCCCGAACTAA
>SRR1151252_00570 amino acid ABC transporter substrate-binding protein
ATGAAGATAAGTAAACTCATCACGACTCTGTCCGTCCTCGGCCTGGCTGCCGGGACCCTCTTAGCCCCAGTCACAGCACACGCCGCCAAGGAAACCACCGTCAACGTCGCCGCCCCCAATGGCAACCCCGAGTTCATCGTCAATACCGACCACGGCCCCGAAGGTTACTACGGAGAACTGATCAAGCGGATTGACCACGACCTGCCTCAATATAAGTTCAAGACGACCTTTACCTCCCAGAACGCCGTCTTCTCCGGTCTCCAGTCGGGCAAGTATGACGTTGCCCTGAACAACTCCTGGTACAACGCATCCCGGTTTAAGAACTACTATCACACCCGGGCCACCAGTCTGGATGACGTCCGGATCATCTACCGGAAGAACAGTCCCCAGGCCAAGTACTTGAAGAACGCCACCTCACTGAAGCCGGTCGCCGAACACAAGCTCTCGATGGTACCACTGGCCACCGACGACGCTCTCTACTCCGTCGTCAAGACCTACAATGATACCCACAGTCCCAAGGTTGACCTAAAGCCGTTCGGTGACCAGTCAACGGCCGACGCCCTCGGCCAAGTCGCCTCGGGCAAGTACGACGTCACCATGTACCCCTACGCTGCCTTCCGTGAGGTCCAAAACACCAAGGACGGCAAGAAGTTGGCGGTTTCTAAGTCAATTTACCTCAAGAGTGCCTACCTCCTGGTCCACAAGAGTCCACAGAATAAGAAGCTGACCGCAGCCCTGAACAAGGAGATTGACCACCTCTACCGTGACGGCTACCTCGAGCACCTGACCAAGAAGTACATCCACGAGAACACCTTCGCCTTCCCAAATGCCAAGAAAGCCTATAACGCAGAATTCAACAAGTAA
>SRR1151252_00571 amino acid ABC transporter substrate-binding protein
ATGCAATTATCCCATTTTATTAGCCGGGCCGCCCTGGCTGGTCTGACCATCCTCGGTCTCTTCACTGCCGCCGGGTCCGCATCTGCTGCCACCACCGTCACCGTCGCTGCCCCGAACGGCAATTTCCCCTATATCATCAACACCGACCACGGGGCCGGCGGTTACTACGGCGCGTTGATCAAGAAGATTGACCGCGACCTACCGCAATACAAGTTTAAGACGACCTTTACCTCCCAGAACGCGGTCTTCGCCGGCCTCCAATCCGGGAAGTACGACGTCGCCATGTCCAACTTCTGGTACAACAAGCAACGGTTCAACAACTACTACCACACCCGGGCAAACGGCCTCGATGACCTCCGCCTGGTCGAGCGCAAAAACGGCAAGCATGCCAACTCTCTGGCCGAGGTGGCCAAGAAGAAGCTGACCGTGGTTCCCGTTTCAACCAGTGACGCCCGCTATAGCCTGCTTGAGAATTACAACCAGCAACACCCCAACAACAAGCTCAACCTCAAGGGGATCGGTGACCAGACGACCGGGGATGCCCTCAAGCAGGTCGCATCCGGGAAGTACGATGTCGCCGTCTACCCGTACGCCGCCTACAAGTCCGTCCAGACGACCGCGGCTGGCAAGAACCTGACCGCCTCCAAGTCGATCGGCCTAGAGAGCTCCTACTTCCTCCTTCACAAGAGTCCGGCCAACAAGAAGCTAACGGCGGCCATGAACAAGGAACTCAAGAAGCTCCACGACGATGGTTACCTGAAGAAACTGACCAAGAAGTACCTCTACGAAAACACCTTCAAGCTGCCGGGTGCCCAGAAGGAATTTAACGCCCATAACTAA
>SRR1151252_00572 NAD-dependent deacetylase
ATGGACGCGCAAATTCAGCAAATGTTTGATGATGCCAAGCGGATCGTCTTCCTGACGGGGGCCGGGGTATCGACCGCTTCGGGGATTCCCGACTTCCGTTCGGCTAACGGGCTCTATACCCAGGACAAGAACGCCGAGTACTACCTGAGTCACCGCTACTTCAGCAGCGACCCGGAAGGTTTCTATGAATTCTGCAAGAAGAACCTCTACTTCCCGGATGCCAAGCCGAACGTGATTCACCAAAAGCAGGCGGCCCTGACTAACCAGGACCGGGCGACGGTGATCACCCAGAACATCGATAACCTCTATGAGGAGGCGGGGGCGACTCACCTGATCGACTTCCACGGCAACCTTTACCACGTCTACTGCGAGCAGTGCGGTGAGACGGTGCCGGTGGCCGATTACCTGAAGAGCCGGCTCCACGAAAAGGACGGCGGCCCCCTGCGGCCCGACATCGTCCTCTACGATGAGGGAATCAAGCAGGATGACATCATGAACTCGGTCCGGGCGCTGCAGGCGGCCGACCTGGTGGTCATCGTCGGCACCTCGATGAAGGTCTACCCCTTTGCCGGCCTGCTCGAATACCGGAACCGGGATGCCCAGGTCCTGGCGATCAACCAGCAGGAGCTGCACCTGCCGTGCGATTTCACGATGGTCCAGACTGACGCGACGAAGTTCTTTGACGAGCTGCGGGTTTAA
>SRR1151252_00573 hypothetical protein
ATGAGCGAAGAAGAAATCAAGTTAAACGCGACCAACCAAGCCCTGCTGGATGAGGTCAACGCCCTCTATCCGGAAGGGACGGTCTTTGTACAGTTCCACGGTAAGAAGTCCGGTTACGTCCGGCACGACCAGGCGACCCAGAAGACGTTGCCCGGCGGCCTCTTCATCATTGTGACCGACCTGACGGCGCCGAACTACACCGCCTCCCATGAACTGCTCCACCTATTAATGCTGCTCAAGGGCTTCCCCCAGATCTTCTTCCAGCTGTCGCTTGGTGACAAGGAACTCGATGAGCAGATGATGATCATGTCTACGGACCTCTACAACGTGGCTATTCACCGGGTCGTGGTCGCCGAACAGCGCAAGCACGGCCTGATCGATGACCAGATCGAAGAGGAATACTGGAGGGGTGTTGAGCACACCCTGACCAAGGAGGGGGCGAAGGATGATGACGAACGGACCCTGCGCCTGCTGACGGGCCTTGACGCCCTGGTCTTCTATGGTGATCACTTCGCTAAGTTTGCCGACCGTTTTGAGGAAAACTACCCGGTAGCCCTGGAGGCGGCCCAGAAGATCTACAAGCAGATTACGGCTAAGCCGATCAAGTCGCCATTTGACATGCGGCGGACGATCATCAAGATCTATTCACTATTCGACGCCCAGATGCAGGAATGGGGACTGCCGGCCCTGCACAACAACGAGTACACGACCGTCTCCCCAGTGCTGAGTGAACGCCAGCTCCGCCTCGAGATGCGGCAGGTCTTCGAGATCTTCCACTCCGACATGAAGGAGCGGGGGACGACCAAGCGGGCCTACGTCGGTTTACGGCGCAGCGACCGCCAGAACTCCTTTACCCTGGCAACCCCGGCTGGCAACAGCCCTGAGTACTTCAAGCGGGTCTATGACATGCCGGTCAAGAAGTTCCTGGAAGAACACAGCGTGCCATATATTGTAAGGAAGTGA
>SRR1151252_00574 3-hydroxy-3-methylglutaryl-CoA reductase
ATGAGTAATTGGCAACACGGCTTTTACAAGGTCGATCCCCAGATGCGGCGCCAGCGGCTGGCCCAGGGATTACACCTGCCCCAGTCGGTGACCGCCCTGTTAGCTGATCACGCGAGTGCCCTGGGTAACGAGCTGGTAGAAAACTACCTGACCGACTATGGCCTGCCGGAGGGGGTCGGGCTCAATCTGACCGTCAACGGCCATGAGTATGTCGTCCCGATGGTGGTCGAGGAACCATCCGTCATCGCCGCCGCCAGCAATGGCGCTAAACGGGTACAGGCCTCTGGCGGCTTCACGGCGCCCCATCAGCACCGGGAGCTGGTCGGCCAGGTGGTCCTGACCGACGTCGCTGATGTGTCCGAGACGGTAGCCAAGCTGACGGCCCAGCGTGACCACCTGCTGGCTTTCGCCAACGCGGCTCACCCGTCGATGCAGCGGCGGGGCGGTGGTGCCCAGTCGCTGACGGTCCGGACCCCCGGCGACTTTGTCAGTGTCGACCTGGGAATCAATGTCTGTCAGGCAATGGGGGCCAACAGTGTCAATACGATGGCCGAGGCGGTCGGCCGTGAACTGAGTGCCCAGGGCTACCACGTTCTGGTGGCGATTCTCAGCAACCTGGCGACCAATAGTCTACAGACGGTTAGCTGTGACGTCGATTTCAACCAGCTGGCCACCAAGCAGCTACCCGGGGATCGGGTGGCCGAACGGATTGCCAAACTCAGTGACCTTGCCCAGGTTGATCCCTACCGTGCCGCCACCCATAACAAGGGGATCATGAACGGAATTGATGCCGTCATGATCGCCAGCGGTAATGATTGGCGGGCCATCGAGAGCGGCGCCCATGCCTACGCCACCCGCGACGGCCACTACCGGGGATTGAGCACCTGGACCGTCCGTGATGGGCACCTCCACGGTGAGTTGACCCTACCGCTACCGGTCGGAGTGGTCGGTGGCTCGATCGGGTTAAACCCGTTGACCAAGGCTAATTACCAGATCAGCAAGATCCAAACGGCCGAAGAGTTGGCAGCCGTGACTGCTAGCATCGGCCTAGCCCAAAACCTGGCCGCGCTACGGGCCCTGGCGACGACCGGGATCCAGGCGGGCCACATGAAGCTCCAGTACCGGTCACTGGCGGTCAGCGTTGGTGCTACCCCAGCGGAGGTCCCGCTGGTCGTGGCCCAGCTGGCCCAACAGAGCCACGTTGACCAGGAAACGGCCCGTCAGGTACTAGCCAAGATTAGAAAGGATAAATAA
>SRR1151252_00575 exopolyphosphatase
GTGGAAAACCTCGCGATTGTTGACCTCGGCTCTAACTCGGCCCGGATGGCGATCACCGAAATCGCCCCGGATGGCCGTTTTCGCGAAATCAAGCGGGTCAAGGAGAATACCCGCCTGTCCGAGGGGATGGGCCGCGAAAAGATGCTACAAGAGGACGCCATGAACCGGACCATTGCCGCCCTAAAGCGCTTCAAGCAGATCTACGAGTTCATGCCCCATATTCAGGTAAGGGCGATTACGACGGCGGCGGTACGTCAGGCCCAGAACCGGCAGGAATTTCTCAACCGGGTCCAAAAGGAAGTGGGAATCCGTCTTCAGGTCCTTTCGGGCAAGAAGGAAGCCTATTATGACTACTTAGGCGTGATTCGGACGATGAAGTTGAACCACTGTTTGATTCTGGATGTCGGTGGTGCAAGTTGTGAACTGGTCCTGGTCCAGCAGCGGCGGGCGCGGGACCTAATTTCGATCCCGGTCGGCGCTGTCACGTTGTCGGAGCAGTTCCACCTCAACGGCTACGTCCGTTCAGCTGACCTGTTCCGGGCTCAGGTAGCGATGAACGAACGTCTAACTAAGATTCCCTGGCTACGGTATGCAACCCGGGTGCCAATTGTCCTCCTGGGCGGGGCCAACCGGACCCTGGCCCGGATGACCTGGTCCTACCACCATCGTCACCGGTGCCAGCGATCGATCCACGGTTACCAGCTCTCCTCCCGGGTGGTCTTTGCCACCTACCGGGAGCTGTTGAACCGCAACCTGGCTCAGCGCAAGCGGATGCCCGGCTTGGAGCCGGAGCGGGCGGACATCATTGTCGGGGGAATGCTCCCCCTGGTCAGCCTGCTCCAACGCAACAGTGACGGTCGGGTGATCTTCTCAGAGAGTGGGGTCCGGGAAGGAATCATCACGGAATACGTCAACCAAAGGAAGCGAGACCACAATGAGTAA
>SRR1151252_00576 tryptophanyl-tRNA synthetase
ATGACGGAAAAGAAACACGTAATTTTGACTGGTGACCGGCCAACAGGGAAGCTCCACATCGGACATTACGTTGGCTCCCTCAAGAACCGGGTGGCCCTACAAAATACCGGCAAGTACGATACCTACATCATGATCGCCGACCAGCAGGCCCTGACCGATAACGCCCGCGACCCGGAGAAGATCCGGCACAGTCTCCACCAGGTGGCCCTGGATTACCTAGCCGTCGGGATCGACCCGAAGAAGTCAACGATCCTGGTCCAGTCCCAGATTCCGGCCCTGAGCGAACTGACGATGCACTACCTGAACCTGGTCACGGTTTCTCGCCTGAAGCGGAACCCGACCGTTAAGACCGAGATCAAGCAGAAGAAGTTCGGTGAGAGCGTTCCGGCCGGTTTCTTCATCTACCCGGTCAGCCAGGCGGCCGATATCACCGCCTTCAAGGCCGATACGGTGCCGGTTGGTGATGACCAGGAGCCGATGCTGGAACAGACCCGGGAGATCGTTCGGACCTTCAACCGGATCTACCAGCAAGACATTCTGGTAGAACCAGAGGGTGTCTTCCCGCCAAAGGGTGAGGGCCGGATTCCAGGCCTCGACGGCAACGCCAAGATGAGTAAGTCCCTGGGCAACTGCATCTACCTGTCTGACGATGCTGACACTATTCAAAAGAAGGTCATGTCCATGTACACCGACCCAACCCACATCAAGGTCAGTGATCCTGGCCACGTTGAGGGTAACACGGTCTTCACCTACCTGGACATCTTTGACCCGGACAAGGACCACGTGGCCGAGCTGAAGGAGCAGTATCAAGCTGGGGGCCTCGGTGACGTTAAGATCAAGCGCTACTTAAACGATGTTCTCCAGGCCGTCCTGGAGCCGATCCGCAAGCGGCGTGAGGAATACGCGGCTAACTTGGACTACGTCGATCAGGTCCTGACGGCGGGCTCCGCCAAGGCCAACCGGGTGGCTAACCAAACCCTAAAGGAGGTCCGGGACGCCATCGGGATCAACTATTTTGACTAA
>SRR1151252_00577 excinuclease ABC subunit A
ATGGCAACCTACCTGGCAATTGATCTTAAATCATTCTACGCCTCCGCGGAGTGTGCTGACCTGGGCTATGACCCGCTCAACACCAACCTGGTAGTGGCAGATGCCAGCCGGACCAGCAAGACAATCTGCCTGGCCGTTTCTCCGGCCCTTAAGAAGTTCGGTCTACCCGGCCGGCCGCGATTATTTGAGGTCGAACAACGGGTGGCCGCACTCAACCGTCAACGGGCTCAGGAAGCTAGCGACCACCGCCTGGCCCCCTGGGGATCAATTTACCGCGACGAACTCCTCCGTTCCCCCAGCCTCAAGATCGAGTACAAGGTCGTCCCACCCCGAATGGCCTTCTACCTCCAACGCAGTGCCAAGGTCTACGAGATCTACCTCCGTTACCTGCCACCGGCCAAGATCCATCCCTACTCGATTGATGAGGTCATGATGGACGTCACCGACTACCTGGCCAGCCACCACACGACCGCACACGACCTCGCCAAAGAGATCATCCAGGTAATTCAGGCCGAGACCAGGATCACGGCAACCGCGGGAATTGGTGACAACCTCTACCTGGCCAAGATGGCCATGGATATCGTCGCCAAACGGATTCCGGCCGACCGCGACGGGGTCCGGATCGCTGAGATGGACGAGCAGAAATACCGCCACTACCTCTGGGCCCACCAGCCGATCACCGACTTCTGGCGGGTCGGCCGCGGCTATGCCAAGCGCCTAGCCAAGCTCGGTCTGCACACGATGGGTGACATTGCCCGCTGCTCCTTGGGTACCCTCTCCGAACCGCAGAACGAGGAGACCCTTTACCGGGAGTTTGGCAAGAACGCCGAGCTGCTGATCGACCACGCCTGGGGGCACGAGTCAGCAACCATCGACGATATCAAGCACTACCACTCCACCAACCACGGCCTCTATTCCAGCATCGTCCTCCCCCGCCCCTACACCTTCGCAGAGGGACGAATCGTTGTCCGGGAGATGGCCAATATGCTCTGCCTGCAGATGGTCAAGCGGGACCTGGTGGCTGACGAGTTTTCCCTAACCGCCAACTACGACGCCCAGAACCTGCAGGACGGACATGATTACCACGGCGCCGTCAGTAAGGACTTCTACGGCCGGGACGTCCCCCACCCCGACCACGCCAAAATCAGCTTCAAGGTCCCAACCGCCGCGCCCAGCGAGCTGGTCGACCACTTCCTTGCCGCCTACGACCAATCTTTCCACCACCAGCTCACCATCCGCCGGGTCACCGTCACCGCCAACCACCTAGTCAACCGCCAGCAGGCCCAGGAGCGGACCTATACCGAGCAGCTTGATCTTTTTGCCGACCCCGAGCAGGCGGTTCAGGCGGCCGAAAAACAACAAGCCCAGCGTGACCAGGACTATAAGCTGCAGAAACTGATTCTGAAGATGCAGCAGGGCTTTGGTAAGAACGCCATCATCCGGGCTGCGGACCTCAAGGACGGGGCCGTGGCCAAGAAACGCAACAAGGAGATTGGAGGGCATCAGGCATGA
>SRR1151252_00578 hypothetical protein
ATGACAGACAGGCAACAGTGGGCAGCCGAACAGGCCCAGTTCAATGACACCAGCCGTTACAATGACATCATGAATGTACCTCGCCACGTTTCCCGGGCCCACATAGCGATGACCAAGCAGGACCGGGCCGGTCAGTTTGCCCCCTTTGCGGCCCTCACCGGCTACCGGGAGTTGCTCGATCAGACGGCCCAGCGTTACGCTAACAAGCGTTACCCAACCGGGGAAGAGGTCCAGGCGGTCTTTGACTTCTTCCGTGAGCTACCGGTGGACGAGGCCGTAACGCTGAGTCTCACCTACTTTAACGGGGAGAGCGGCTACTATGATCACTACCGGGGTGCCTTATCCCGGGTCGACTGGGCTCAGCAGGTGGCTTACTTTACGGAAGGGCCCCGCATTCCCCTCCGCAATATCCGTGACGTCTCCCGGGAGGAGGATTCCCATGGCAACTGA
>SRR1151252_00579 hypothetical protein
ATGGCAACTGACAACGAGATTAGGGCAGCGATCAAGCAGGGTAACCAGGTCATCGCCGACTTCCAACAACACTCATCCGGTCGGCTCAACCTCTGGACATCAATCGTCACCCCCAGCCGCAACTACGTGATCACTATCGAGGCCCAGAAGCGGGTCGGCACCGGGATCACCACCGCAATCGTTGGTCACCTCTCCTTCGACCGGTACGATGACGACGACTACCTGCAGGTCCTGATGAGCCTGCAAAAGGAGTGGGATATCCCCGTCCTCTGTCATGCCTTCTCCCGGCGCCGCCTCGCTAACCTTCGTTCTCAGTATGGTAGCCGGATTATCCGCGACGACATCGTTCGCCGCTACAAGTAG
>SRR1151252_00580 alpha-galactosidase
ATGAGTATTCATGTCAACGAAGAACAGCAGCTTTTTCACCTGCAGACGGCCAAGACCAGCTACATCTTTAAGATCTTAGAGAATGGGGCGGCCGGTCAGCTCTACTACGGGCCACGGATTCCGGTCAAAACTGACTATGCCAACCTGGCCAGCCGGGAGGAGCACGACTGCACCAGCACCTTGACCGTTGAGCAGGGGGATTTCCAGCTGGAGTTGATCAAGCAGGAATATGCTGGTCTGGGCAAGGGGGACTACCGCTATCCGGCTTATCAGATCACCTACCTGAACGGCTCACGGACCTCGGAGTTTGTCTACCAGGGCTATGAGATTACGGACGGCAAGCAGCGGCTCGCCGACCTGCCATCCAGCTTCGATGACCAGGGCGATGATGCCCAGACCCTGACCGTCAAGTTCAAGGATGAGCTGGCCAACGTATTGCTCGACCTGCATTACACAATCTTTGAAAAGGAAGATGTGATCGTCCGCAGCGCCACCTATACTAACCATGGTGAGCCGGTCACCCTCAACCGGGCCCTGAGTACTCAGCTGGACCTGCCAGACAGTGACTACGACCTCTTGCAATTCTCCGGGTCCTGGGCACGGGAACGCCACCTCATCCGAACCCACCTGCGTTCCGGTATCCAGAGCATCAGCAGTCTGCGGGATGCCTCCAGCCACCAGCAGAATCCGTTCTTCATCCTGGCCCGGCCCCACACCGACAACAACCAGGGTGCCGCGATCGGCTTTAACTTGATCTACTCGGGTAACTTCCTCGATTCCGTCGAGGTCGACCAGTTTGACACCACCCGGGTTCTGGTGGGGATTAACCCGGACGAGTTTGCCTGGCACCTGGACGACGGTGAAAGTTTCCAGACGCCGGAAGCCGTGATGTCCTACACGACCGCCGGGCTGAACCAGTTGAGTCAACAGATGGGGGCCTTCTACCGGGACCACCTGGTCAACCCCCGCTTTGCCCATGAGGATCGGCCAATTCTGATCAATAACTGGGAGGCCACCTTCATGGACTTTACTGAGCAGAAGCTAATGCCAATCGTCGACAAGGCCCACGAGCTTGGCATTGAGATGTTCGTCCTCGATGATGGTTGGTTTGGCCACCGGGACGACGATAAGTCCAGCCTCGGGGACTGGTTCGTCGACGAGAAGAAGTTCGCTGACGGGATTGACGGCTTCGCGGATGCAGTCCATGCCAAGGGAATGAAGTTCGGCCTCTGGTTTGAACCCGAGATGATCTCGATTGACAGCCAGTTGTACGAGGATCACCCGGACTGGATGATCGCTACGCCGGGACGGCAGAGCACCCCGGCCCGGAACCAGTTTGTCCTCGACATGAGTCGGCCCGAGGTGGTTGACTACCTGTTCGACCACATCAGTGCCATCATCAAGAAGACCAAGCTAGACTACATCAAGTGGGACATGAACCGGAACATCACCGAGATGTACGGCGACCGGCTGCCAGCTGACCGCCAGCTGGAGTTTGCCCACCGCTACATCCTCGGCGTTTACCAGCTATATGCCCGGCTGATTAAGGCCTTCCCGGACGTCCTGTTTGAATCCTGTGCCTCCGGTGGTGGCCGTTTTGACCTCGGGATGATGTACTACGCTCCCCAGGCCTGGTGCAGTGATGACACCGACGCCATTGAGCGGATCAAGATCCAGGACGGGACCTCGTACGGCTACACCCAGTCGATGTGGGGTGCTCACGTCTCGGCCGTGCCGAACGACCAGGTTGGCCGGCTGACCTCACTTGATACCCGGGCCACGGTGGCCTACTTTGGTGACTTCGGCTATGAGCTGGACATCACCAAGCTGCCGGAAGACCAACTGGCAACGATCAAGAAGCAGGTGGCCTTCTACAAACAGTACCGGCACCTCTTCCAGTTCGGTAAGTTCTACCGGCTGGAAAACCCGGACACCAACAACGCCAACGTTTACGGCTGGCAAGTGGTCAACGATGACCAGAGCGAGGCGATCGCCGCCCGCTTCCAGATCTTAAACGGTGCCAATCCGGCCTACATCCGGGTCTACTTCGCTGGTCTCGACCCCGAAAAGACTTACACGGTTAACGGTGGTCAGGAGAAGTTCTCCGGTGCCGAGTTGATGCACGCTGGTTACTTTGTGCCGCGGATCATGGACCGGACCAAGCCGGAGAAGGATCCATCCGACTCCAGCAGCCGTCTGTTCGTGGTCAAGGAAGCCTAA
>SRR1151252_00581 nucleoside diphosphate kinase
ATGGTTAAAGACGAATACACATTGGTTTTAGTAAAGCCTGATGGTGTCAAGACCCGGCACATCGGCGAGATTATCACGCGGATTGAACGCAAGGGTTGCAAGATCGAAGCCCTGAAGATGATCCAACCAACCGAAGAACTGCTGCGCCAGCACTACGCTGACAAGGTCGATAAGCCATTCTTCCCCGAACTACTCGAGTACATGACTGAGGGACCGATCGTCGGCATCGTCGTTTCCGGGACCAACGTCATCAAAGCCATCCATAACATGGCCGGGGCTACTAACCCGGTTGAGGCCGAGTGGGGGACCATTCGTGGGGACTACGGTCGTGAGTGGCCAGATGGCAACCTGCGGAATATCGTCCACACGTCCGATGAACCGGCCAGCGCTACCAAGGAGATCAAGATCTGGTTCCCAGAATTTAAGTTTACTCAGCCAGACTGA
>SRR1151252_00582 DNA helicase
ATGGGAGAACGAGAAGAAAGACAACAGGAACAAAGCCGTGTCGACCGGGTAGTTAGAGAGATCAAACGCCAGGTGGCTGAGACGACCACTGCCGTTGAGGCCGCCCACAAGGAAACCCGGGCGGTCGAACGCAACTACAGTGAAAACGCCTCGATTAACCGTTACGAGGTTGATGACATTGCCGAGTCGCGGTCGATGCTGGAGCAACAGCGGCAACTGGTCTCCCGGGCCGCCGAGAGTGAGACGATCCTGAAACACCAGTTGGCAACACTAAAGGGCCTGCAGGGGTCGCCGTACTTCGGCCGGATCGACATTGTAGATCCTGGTGAAAGCGAGCCGGAGTCACTCTACATCGGGACCGCTTCACTGATGAACGACGACAAGACCGACTTCTTGGTCTACGATTGGCGGGCCCCGATCGCGGGGGTCTACTACAACGGGACCCTCGGCAAGGTCAGCTACAAGACGCCAGCCGGCACTCAGCAGACTGAGTTGGTCAAGAAGCGGCAATTTACCATCAAGGACGGCCAAATCACCAACATGTTCGACACCAATGAGACGGTCGGTGATGAGCTCCTCCAGGCGGCCCTGGGTGAACAGAACGACCAGTACATGCATAACATCGTGGCCACGATTCAACAGGAGCAAAACGATATCATCCGCGACACCCACAGTGACCTCCTCCTGGTCCAGGGGGTTGCGGGGTCCGGGAAGACCTCGGCCATCCTACAACGAATCGCCTACCTCCTCTACCACAGCCGGGCCGTCCTAAACGCCGACCAGATCGTTCTTTTTAGTCCCAACAACCTCTTCAGTCATTACATCTCCGAGGTCCTACCCAGCCTGGGTGAGCGCAACATGCGTCAGGTGACCCTGGAGGGCTTCGTGCGTCGGCGCTTCGAGGGCTTGAAGGTCGAAGGTCTATTTGAACGTTACGAGACGCGCCAGGCTCACCCGGATGCCGACCAGACAATCGCCAACTTCATGGAGGGAACGGCCGTGATGGACCAGGTCCGCCAGTACGTGGCCAAGCTGACCGATGCCGACCTCCAGTTTGCAGACTTGCGCTTCAATGGCCGGGCCTTCTTCAGCGCCGACCATATTCGGGAGGTCTACGAGGCCCTGCCGTCTGCCATGCATCTCGCCGACCGGATGGTACAATTGAAAAATAAGCTGATTCGCGAGCTCCAGCACCGGGTACGGACCGAGGCCAAGCAGGATTGGGTGGCTAAGGAGCTCGACGACCTGACCACCCAGCAGCTCCACCGTCTTTACGGCAAGAAGACGGTTGATGACTTTGCCGACGAGGATGCCCAGTACACCTACCTGTCCCGGCGGTGGGCCAAGCGTAGGCTGCGGATCATTGCGGATGCCATCTACAATAACTACTTCCTCGACTTTTACAACCAGTACGAACGTTTTCTCCGTCGGGTGGAGGTGCCGGATTCGATCAGCACCCGGGACTGGACAAACATGATTCTGACCTACCAGGACGAGATCGAGTTTCACCGGCTAGAACTGATGCACGCCGCCCCGCTGATGTACCTGCGTGACCTGATCACCGGCAGCGGGCAGAACCGGTCCTTCCAGTACGTCTTCATCGACGAGATGCAGGACTACTCCCTGGCGATGATGGTTTATCTGCGTCACGCCTTCCCCCAGGCCTGCTTCACCGTCCTTGGTGATAGTGAGCAGGCCCTCTTCAAGCCCCTCCAGCTACCGGAGACGATGCTCAAGGAGCTTAGCAGCGTTCTTGACGCCAAGCACCCGAACCTGATCGCCCTGCGGCGGAGCTACCGGTCAACCAAGGAGATCGCCGACTTCGCCAAGGCCCTCCTGCCCGATGGTGATCAGATCATCTCCTTCACCCGGCACGGCGCCACGCCACATCTGCTGGTTCGCTACTCGGCGGAGAGCACCCGGCAGGCCCTGCTTGATGAGGTGGCCACACTCCGCCAGGACAACGAGACAGTGGCGATCCTGACCAAGAATCGCCAGCAGGCCCAAGAGGTCTACCAGACCCTCCACCGGCAGAAGGTGGCGGATCTTCACCTACTCAGTGAGCGAGACAGTGCTCTGCCGACCGGGATCCTGGTCCTGCCGATTTACCTGGCCAAGGGGCTAGAATTTGATGCTGTCATGGCCTACGATGTCTCGGCTGCCAATCTGGCTAACACCGATGCGGTCGGGATGGTTTACACGATGGCCTCACGGGCGATGCACCAGCTGACCCTGCTGAGCAACGGTCCGGTCAGTCCGGCTTTGAACGCTAAGGCCTGTCAGAAGCTGGTAATTGAGCACGAAATTGTCAAATAA
>SRR1151252_00583 Na+/H+ antiporter
ATGGAGTTTATCGCGACCTTAGCGGGTCTGCTACTGGCAACCCAGGTAGTGGCCCACCTCTGCCGACGGGTAGAGATCCCCGAGGTGATCGGCCAGATCCTGGTGGGGATCATCGTCGGTCCGGCCCTCCTCAACTGGGTGCACCTCGACGGGATGATGAATGAGTTTCAGGAGATTGGGGTCATTATCCTGATGTTTATCGCGGGGCTAGAGAGTGACCTGTCCCTGCTCAAGAAGTATCTGCGCCCGGCCGTGATCGTTGCGGTTATCGGGGTCATTGTACCGGTGCTCGTGATGGGCGGCGCCAGCTACCTGTTTGGCTTTACCAAGATGGAGTCCCTCTTCATCGGGGTGATCTTCTCGGCCACCTCGGTCAGCATCTCGGTGGCGGTCCTGCGGGAGTTCAAACGCCTCGATAGCCGTGAGGGGGCCACGATCCTGGGGGCCGCGGTTGCTGATGATATCATCGGTGTGATCATGCTGAGTATCATGATCAGCATGATCAATGGGAGCCAGGGCGGTCACACCAATATGCCGCTGGGGATGGCCCTCCTCCTCCAGGTCCTCTTCTTTGGTGGGACCTACCTGGTGGTTCGCTGGTTAGCACCGTACCTGATGCACCTCAGCGAACGCCTACTGACCGTGGCCGCGCCCTCGGTGATGGCGATGATCATTTGCTTGGGAATGGCGGCGCTGGCCGATTACGTTGGCCTCAGTGGGGCGGTCGGCTCCTTCTTCGCCGGGATTGCTGTGGCTAATACCCACCGCAAGGAGACGATTGACCGGAGCTTTATTCCGATCGGCTACGCCCTGTTTATCCCGCTTTTCTTCGTCAGCGTTGGCCTCAACATGCGCTTTGATAACCTGCAGCGCTCCTTTGTCTTCGTGATCGTGATGACGATCCTGGCCTGCCTGACCAAGCTGGTCGGCTGCGGGGCGGGGGCCAAGTTGTCCGGCTTCAACCTGCCGAGCTCCTATGTTGTCGGCAGTGGGATGGTGGCCCGGGGTGAGATGGCCCTGATCACCGCCCAGATTGGTTACGAGGCCCACCTGATGTCATCGATGTACTACTCGGACGTGATCACCGTGATCATTCTGGCCACGGTTCTGGCCCCGTTCATGCTCAAACACGCTTTGAAATCTGCCCATGAAGAATAA
>SRR1151252_00584 chloride channel protein
TTGAATAATTCACATACGCACTATCACCGGGCCACGGATGTCCTTGCCAAGCCATTCTCGGCCCCGTTTCTCAAGTATATCTGGGCCGGCATCGCGGTCGGGCTGGCTACCGGCCTCGTGGTCAGCGTTTTTCGCTGGATCATCGACCAGGCCCTCCACCTACTGACCGTCGTTTATCCCTTTCTCAACCATCACCCAGTCTGGCTGATTCCCTATGTCCTGGGGTACCATCCTTGTCTCATGGCTGATCGGTCAACTGATTAA
>SRR1151252_00585 chloride channel protein
TTGCTCCAATGCGGCGTGGCGGCTGGCCTGTCCGCCGCCTTCAGTGCTCCATTAGCTGGAACGGTTTTCCTACTTGAAGAGATTACCCACCACTTCAAGAACAAGGTCTGGGTAACCGCCTTCATCGCGGCAATCGCAGCCGATGCCGTCACCTTCCTTTTCTTCGGTACCAAGCCCTGCCTCTACCTGCCGATCAAGCTGGAGCTGCCAGTGCGGGCCTACCCCTGGCTGATCGTGCTCGGTCTCGTCCTAGGGGGCTTAGCCTTTCCCTTCCAGTACTTCATTTTTAGTCTCAAGTACTGGTACCGGAAGTTCCCCCTGCTGCCCAACTACTACCACAGCATCCTGCCCCTCCTGTTGGTTATCCCGTCGGCCTCTGGAACCCCCACATTCTCGGCGGAAACCACAACTTCATCATGTACGTGGCCGACACGAGCTTGCATACTGACTGGGCGCCGCTCATGGAAATGA
>SRR1151252_00586 chloride channel protein
ATGCCGATCTTCGTCCTTGGCAGCGTCCTGGGGGCGATCGCCGGAATCATCATGATCCACGCCGGCATCATCCCCGCCAGCTGCTATTTAAACATCATCGCTATCAGCATGGCCGCCTACTTCGGGGCTGCCGAGGGGGCGCCGTTCTCTGCGATTCTGCTGGTTACCGAGATGGTGGGGTCAATCCAGCAGATCTTCCCAATGATGATGCTGACCTTCATCGCCTACTACGTTAGCATGTTGCTCGGCGCCCGGCCGTCGATCTACAATGCCCTCCGCCAGCAGATGGTATTCAAGAGCTAA
>SRR1151252_00587 hypothetical protein
ATGTGGATGAGTATCCTACTTGCCTTATTAATCTATTCGTTTGTTCGCGGGACCTTTGAAGACGAGCCCGTCACCCGGAAGAATCTGGTGATTATCCCCGGCTACGCGCTCGTCATGATGATCTGCTCCCTGGCCGAAGAAGACTTCAACCATAAGCTACTGCTGACCACCCTTCTCCTGGTCGTCGGGATCCTAATCGGGCTCTTCCAGGCCTCGCGGGTGACCGTCACCGACACCCACGAACAGGATCCTTACGGGCGCCAGATCATCAAGGTCAAGTGCAACTGGCCCTACCTGTTCGGTTGGATCATCGTCTTCGTCATCGACATTGCCATCGAGTTCGCCGACCAGGCCAGCATCAGTGGGGACGCGGTCTTTCAGGAGTTGATCAAGGAAATCCTGAAGGACCTCTCCTCGATTGCCTTCTTTAGCTTCAGCAACGAGTGGTTCGTCTGGGTGCTGACCGTCGCCACCAGTTTTGCCTATGGCATCACCCTGCTGGTCAGATACCCGAAGATCCGGCAGGCGGTCGTCCGGCGCCACCGGAAAAGTTAA
>SRR1151252_00588 3-oxoacyl-ACP reductase
ATGAGTTTTCTAAAAGATAAGGTAGCCCTGGCCACCGGAGCCGGTCGGGTCGTCCTCAGCAACGGCCAGAGTGGTTCAATCGGGTACGGGATCGCAACTGCCTACGCCAAGGAGGGGGCTAACCTGGTCATCACCGGCCGCAATGAGGCCAAGCTGACGGCCGCCCAGGAGGAACTGGAGAAGGAATACGGAATCCGGGTTCTGCCGATGGTTGCCGACATCAACGCCCACGCAAACAACGCGGCAGTCGTGCAAAACGTCGTCGACCAGGCCATCCAGAAATTTGGCCAACTGGACGTCCTGATCAATAACGCCCAGGCCTCGGCCTCCGGAGTAACCCTGGCCGATCACACCACCGACCAGTTTGACCTCGCCATCTACTCCGGCCTGTACGCCGCCTTCTACTACATGCGGGCCTGCTACCCCCACCTCAAGAAGAGCCAGGGAAGCGTGATCAACTTCGCATCCGGTGCCGGGCTCTTCGGCAACTACGGGCAGTGCGCATATGCTGCCGCCAAGGAGGGCATTCGGGGGATGAGCCGGGTGGCCGCCACGGAATGGGCCAAGGATAATGTCAACGCCAACGTTGTCTGCCCGCTTGCCTGGACGGCCAAGCTGGAACAGTTCAAGGAAGCCTTCCCGGACGCCTTCAAGGCCAACGTCCACGTCCCACCAATGGGCCACTTTGGCGATGCCGAGAAGGAGATCGGTCGGGTCTGTGTCCAGTTGGCCTCACCGGACTTCAAGTACATGACCGGGGAGACGATCACCCTGGAAGGTGGCCTCGGCCAGCGGCCATAG
>SRR1151252_00589 alpha-acetolactate decarboxylase
ATGGCCGGAAACTTTGCCGGCACGATCACCGTGGGCGACCTGCTAAAGCACGGATCAACCGGGATCGGTACCTTTGATGGTCTCGATGGCGAGGTGGTTATCCTGGATAATGAGGTGTATCAGGCAGTCGCCAGCGGCCGGGTAAACCACATCACCGATCTGGACGCGACGATGCCGTTTGCCGCCGTCCATTTTCCAAAAGATCTGCAGCCCCTAACGCTGAAGGATGTTAATTTTACCCGGGTGAACCACGACCTGGTGGCAGCCCGCCAGCTCGACAACGTCTTTGCCTTCCTGCAGCTGCATGGAACCTTCATGCGAGTGCGGATCCGGATTGCCCCCAAGCAGCAGCGACCGTACCCGACCCTGCTGGCAGTCGCCCAGCACCAGCCCGAGTTTAGCGCGATAGACATCACTGGAACCATCCTCGGCTACTACGCCCCGGCGATCTTCGGCACGATTACCGCGGCGGGTTGGCACCTCCACTTCATCAGTGATAACCGCCAGTTTGCTGGCCACCTCCTGGACTTTGCCGCCCCGCAGCTGACGGGGAGCCTGGAGGTGTTCGACAGCCTAGAGCAGCATCTGCCGATCGAAAATCACGCCTTCCGGGAGAGCACGGTCGATATGCGGACCTTGCGCGAGGGAATCGCCAGGTCCGAGGGGAGCGCAGAGTGA
>SRR1151252_00591 4-aminobutyrate aminotransferase
ATGAGTGAGGAAAGTAATCGTCAGATTCTGGAAAAGGAACAGGCGGCCTTCGCGACGGCGGCCCGCATCAAGTACTATGACATCGTGATTGACCATGGGCACGGGGCTATTATCACGGATGTTGAGGGCAACGACTACATCGACCTCCTGGCTAGTGCCAGTTCGACCAACACCGGGCACGCCCATCCTAAGGTCGTCAAGGCTATCCAGGACCAGGCCGCTAAGATCATTCAGTATACGCCGGCCTACTTTGCTAACTCCCAGGCGGCTCGCCTGGCACCGCGCTTGGCAGCTCTGGCCCCAATGAGCGGCCCAGTCGAGGTTGCCTGGGGGAACTCAGGCTCGGATGCCAACGACGCCATCATCAAGTTCGCCCGGGCCTACACCGGCCGCTCCTACATGGTCTCCTTCACTGAGGCCTATCACGGGTCGACCTTTGGCTCTATAACCCTCTCTTCGGTTACCCTGAATATGAGCCGGAAGATGGGGCCGCTCCTTCCTGGTGTGGTCAAGGTGCCGTTCCCGTCGCCGTGGGACCGTCTGCCCGCCGAGAGTGAGGGCCAGTTCGTCGACCGGATGTTTGCGGCCTTCAAGCAGCCGTTTGAGACCTACCTGCCGGCCGAGGAGACCGCGGCCATCCTGATCGAACCGATCCAGGGCGACGGGGGGATCGTCAAGACCCCACCGGCTTTCATGCAGAAGATCTATGACTTCGCCAAGGAGCACGGGATTCTCTTTGCCATCGACGAGGTCAACCAGGGGATGGGGCGGACCGGTAAGTGGTGGTCCATTCAGAACTTCCCCGGCATCGAACCCGACCTGATGTCCGTCGGCAAGTCCCTGGCTTCCGGGATACCGCTGAGTGCGATCGTCGGCCGTAAAGAGATCATGGAGTCTCTGGGTTCCGCCGCCAACATCTACACGACGGCGGGAAACCCAGTCACGACCGCGGCGGCCAACGCCACCCTGGACGTGATCAAGGATGAACACCTGCTGGAGCGCTCGACGCGACTCGGCAAGAAGGCGGCGGACTTCTTCAACCAGGAGAAGGCCAAATACGACTTCATCGGCGACGTCCGGATGTACGGCCTCGACGGTGGTATCGACATCGTTGATCCGGCTACTGGTAAGGGTGACGTCGTAGCGACTACCAAGCTGATGTATCGGATCTTTGAGCTCGGCGCGATCATTATCAGCCTGCGGGGGAGCATCCTGCGTTTCCAACCGCCGCTGGTAATCACCGATGACCAGCTCGACCAGGCCTTTGGGATGATTGACCAGGCCTTTAGCGAGCTGGCGGCCGGTAAGCTCGACCTGCCAAGCAACGCCGATGAGCTCGGTTGGTAA
>SRR1151252_00592 amino acid permease
ATGAGTTTTTGGAAAACGATCACGCGGAAAGAAGATCCGCATGTTTACGAAAGCAAAGACAGCCATCTGGTCCGATCGCTGCGGGTGCGGGACTTTCTAGCACTGGGTGTCGGAACCATTGTGTCGACTTCGATCTTCACTCTTCCCGGTGAAGTTGCTGCGATGCATACCGGTCCGGCGGTTGCCATCTCGTTTCTGGTGGCGGCCGTAGTTGCCGGGCTGGTTGCGTTTGCGTATGCCGAAATGGCGGCGGCGATGCCGTTTGCCGGGTCTGCATACTCGTGGATCAACGTTGTCTTTGGTGAGTTCTTTGGCTGGATTGCCGGGTGGGCACTGCTGGCCGAGTACTTTATTGCCCTAGCCTTCGTTGGTTCTGGTCTATCGGCCAACTTTCGGGCGCTAATCGCCCCCATGGGGTTGAAACTGCCGGCTTCACTATCTAACGCCTTTGGGACCGATGGCGGGGTCGTGGACCTGGTTTCCGTTATTGTCATTGCCCTGGTGGCCCTCCTCGTTTCCCGCGGGGTCTCCCGGGCGGCCCGGGTGGAGAACATCCTGGTGGTCCTGAAGGTCTTTGCAGTCCTGCTCTTTATCGTGGTCGGCCTGTTTGCCATCAAGGCGACCAACTACGTTCCCTTCGTCCCGAAGTATCATGAAACTGCCAACGGTCCGTTTGGTGGTTGGCAGGGGATCTATGCTGGGGTCTCCATGATCTTCCTTTCCTACATCGGCTTTGACTCGATCGCCGCTAACTCAGCCGAGGCGGTCAACCCGCAGAAGACGATGCCACGGGGGATCCTTGGTTCCCTGGCGATCGCCGTGGTCCTTTTCGTCGCTGTCAGTTTGGTCCTGGTCGGGATGCTTCCATACCAGAAGTATGCCAACAGTGCCGAACCAGTCGGCCTGGCACTGCGGGCCGCTGGTCATGGCGGTGTGGCCGTAGTTGTTCAAACCATTGCCGTTGTGGGGATGTTCACCGCATTGATCGGGATGAGCATGGCCGGTTCGCGGCTGATCTACTCCTTCGGTCGTGACGGCATGTTACCGAAGTGGCTCGGGGGCCTCGACAAGAGTAAGCGGCCGAACCGGGCACTGTGGACGCTGACCATCGGGGGAATCCTGATCGGGGCCTTCTTCCCGTTCGCCTTCCTCTCCCAGCTGATTTCCGCGGGGACCCTGATCGCCTTCATGTTCGTTTCCCTGGGGATCTATGCCTTGCGGAAGCGTGAGGGTAAGGACATTGCCAACCCAGCCTTCAAGATGCCGCTCTACCCGGTTCTGCCAGCGTTGGGCTTCCTGGCCTCCCTGTTTGTCTTCCTCGGCCTGGACTACCAGGCCAAGTTGTATGCGGGGATCTGGTTTGTCCTCGGCTTGGTCATCTACTTTGCCTACGGGATGCGCCATTCCTACCTAAACAATAAGGGGGCGGATGATCATGAGTGA
>SRR1151252_00593 endonuclease III
ATGCTAACCGACCACGAAATCCGGCGCGCCATCAAGGTCATGCGTCATACCTTCCCCGATGCCGGTACCACCCTAGAGGCTGATACCACCTTCCACTTCCTCCTGGCCACCATCCTCAGTGCCCAGGCGACCGACAAGTCCGTTAACCTGATCACCCCGGCCCTCTTCCAGCGTTTTCCGGGTCCCCGCGACCTGGCGGCGGTGGAACCAGCAGACGTCGAACCCTACATCAAGCGCCTTGGCCTCTACCGCAACAAGGCCAAGTACCTGGTCAACTGCTCCCGGGCGATCATCGACGACTTTGGTGGGACGGTCCCCCACACCCGTAAGGAACTGATGAGTCTGCCTGGCGTCGGGCGTAAGGTAGCCGACGTGGTGCTGGCCGAGTGTTTCAAGATTCCGGCCTTCGCCGTCGACACCCACGTCAGCCGGGTTGCTCGCCGATTAGCCATGGTCGAACCAAAGGCCACCCTCCTCCAGATTGAGCACCGGCTGATGGCCGCCGTGCCCGAACGGCAGTGGCTAGATGCCCACCACAGCATGATCTTCTGGGGCCGCTACCAGTGCACGGCCCGTAATCCCCAGTGCGCACACTGTCCCCTGCTGGCAATGTGTAAGTACGGTCGGAATAACGTGATGTAA
>SRR1151252_00594 major facilitator superfamily transporter
ATGACTAAAGAAGTTAAAAAGATCATTGCCACTGTCATCTTTTGCGAGTTCCTGATCTGCTTGGGGATGAGCCTGATCTTTCCGGTGATGCCCTTCATCAAGAATGAGTATGGCTTCTCGGCCTTCGACATGGGGATGATGTCCTCCCTGTTTGCCTTCGTTCAGTTTGTGGCCTCACCAATCGTCGGTCGGATCTCCGACAAAATTGGGCGAAAGCCGATGTTGGTGTGGGGGCTTTTGATCTTCTCTCTTGCCGAGTTTCTGTTTGCGATCGCCCAGCACCTCTGGGTCTTCGATGTCTCACGCGCGGTTGACGGCCTGTCGGCAGCGATGTTTGTGCCCACCTCGATGGCACTAGCTGCTGACCTGACGACCGCCCGTCAGCGGGCCAAGGTGATTGGCTGGCTCTCGGCGGCCTTCAGCGGGGGTCTGATCCTGGGTCCCGGCCTGGGCGGCATCCTGGCCAACGTCAGTTACAAGTTTCCATTCTGGGTGGCTGGCGTCCTGGGCCTGATCAGCACCGTGGTGGCCTGGAGCCTCTTACCGCGCGATGACGATGAGCGTTTCCAGAGTACGACCAAGCACCCGGAAAACCAGTTATTGGGCAGTACTCGATCCCAGCTCAGGCAGCTCATGACCCCGGCCCTGATCACCTTGTTTATGATGATCTTCGTGGCCGCCTTTGGCCTAGCGGGCTTTGAGAGTATCTACAGCCTCTACGTCAACGAGGTGCACCACTTTGACCTGGCGACGATTGCCCTGGTTTTGACCCTGAACGGGATCATCTCCCTAGTTCTCCAGGTCTTCTTCTTCGAGGGCCTGGTCCACTGGCTAGGGGAGGTTCGCTTGATCCGGTACAGCTTTTTTCTCAGCGTTGTGGGAACGGTCTTCGTAATCTATGACCACTCCCATTGGCAGCTGGTGGTGGCGACCCTGGTTGTCTTCGAGGCCTTTGACATGTTGCGGCCAGCGATCACGACCCTGCTGACCAAGATGAGTAAGAGCAACCAGGGGCTATTGAACGGGATCAACATGTCCCTGACCAGTGTCGGGAACATCATTGGCCCGCTGATCTCGGGGGCCCTGCTGGACATGAACTACCAGTACCCGTACTGGGTGGTCATCGTCTTCCTGGCGGTGGCCTTCGTCATCACCTTTGGCATGAACCGCCTGGTCGTGCGGGATTGA
>SRR1151252_00595 L-2-hydroxyisocaproate dehydrogenase
ATGGCACGAAAAGTTGCAGTAATCGGAATGGGGCATGTCGGCTCGACCGTTGCCCACTACATCGTCGCGAATGGTTTTGCGGATGACCTGGTCCTGATCGACACGAACGAGGCGAAGGCAAAGGCCGATGCCCTGGACTTCAAGGATGCGATGGCCAACCTGCCCTTCCATACCAACATCATCGTCAACGATTATGCGGCGTTGAAAGACACCGATGTGATTGTTTCCGCCGTTGGTAACATTAAGCTCCAGGACAACCCGAACGCGGACCGGTTCGCTGAGCTGCCGTTTACCCGTGACGCCGTTGCCGATGTGGCACAGCAGATCAAGGATAGCGGCTTCCACAGCAAGATTGTGGTCATCACTAACCCGGTCGACGTAATTACCTCCCTCTACCAGAAGATCACCGGCCTGCCGAAGGGCCACGTCATCGGGACCGGGACCCTGCTAGATTCTGCCCGGATGAAGCGGGCGGTGGCTGACCGCCTGCACGTCGATCCTCGTTCCGTGGCTGGCTATAACCTCGGTGAACACGGAAACTCCCAGTTCACGGCCTGGTCGACGGTCAAGGTACTTGACCAGCCGATCACCAAGCTGGCTCAGGAGAAGGGCCTCGACTTAGACGAGTTGGATAAGGAGACCAAGATGGGCGGTTGGACCGTCTTCCAGGGCAAGAAGTACACCAGTTATGGGGTTGCCACCGCGGCGGTTCGCCTGGTCAATGTCATCCTGTCTGATTCACTGACGGAGCTACCGGTCTCCAACTACCGGGCCGAATACGGGGTCTACCTGTCATACCCAGCGGTGGTTGGCCGTGACGGGATTGTCACTCAATCACAGCTGGACCTGACGGAGGAAGAACTTAAGAAGCTCCAGACCTCAGCGGACTTCATCAAGGAAAAGTATGCGGAGAGCCTGGCCGCCACGAAAAAGTAG
>SRR1151252_00596 methionine ABC transporter substrate-binding protein
ATGCGGAATCGAAAGAAGAAGAGAACAATCATCTGGGTGGTCGTAGCCATCCTGGTTATCATCGCCGGTTACTTTAGTTTTGTCCGGCCCAAACAGGAGAGCCAACGGACGGTGACCGTGGGAATCATGGCCGGTGACAAGAACGAGGCCAAGCTGTGGCAGTCCGTTGCCAAGACCGCTAAGGACAAGTATCACGTCACGGTCAAGACCAAGGACTTCACCGACTACAACCAGCCGAACAAGGCCCTGGAAAACGGTGATATTGACCTGAACGCCTTCCAGCACAAACTTTTCCTGCGGAGTTGGAACAAGGCGCACCACACCGACATCGTCTCCATTGGTGATACTTACATCACCCCAATCCGGGTTTACTCCGACAAGTACAAGAGCTTAAAGGACCTGCCGGATGACGCCACGGTCGCCGTGCCAAACGACGCCACCAACGAATCCCGGGCCCTCTTCGCACTGAAGAACGCCGGACTGATCACCCTCAAGAAGGGGACGACCCTGGCCAGCGCCAATTCCGTTGCCAAGAACCCGAAGAACATTCAATTCAAGGAATTAGCTGCTGAGCAGACCGCCCGTTCCTTAAAGGACGTTGGCGCCGCGGTGGTTAACACCAACTACGCCCAGGCCGCCGGAATCAACTACAAGTCCGCAATCTTCGTTGAACCAATCAACAAGGATTCCGAACAGTGGGTCAACATCATTGCCGCCAAGAAGAGCAACAAGGACAAGCAGACCTACCAAGACGTGGTCAAGGCATACCAGACCGAAAAGACGAAGCAATTCATCAAGAAGCACTACGGTACCGCTGAATTACCAGCCTGGGACCTGAACTTCAATAAGTAA
>SRR1151252_00597 methionine ABC transporter ATP-binding protein
ATGGCAGACCCAATCATTAACCTACAAGACATTAATGTAACCTTTAAGCAGGGTAAGAAGGTGGTTCGCGCCGTCCAAGACGTCTCCTTAGCGATTCAACCCGGCGACATCTACGGAATTGTTGGTTACTCCGGGGCTGGGAAGTCGACCCTGGTGCGGACAATCAACCTCCTCCAGAAGCCGACGGACGGCACGGTGACCGTTGCTGGTGACACCTTCTTCAGTGACCACCGGCAGCAGATTTCCAACAAGGAGCTCCAGAGCAAGCGCCGCAAGATCGGTATGATCTTTCAGCACTTCAACCTGCTCAACGAGACCTCAGTGATCGAAAACGTCCTCTTCGCCCTCAAGCACAGCGACCTCGACGATGATGCCCAGGAGAAGAAGGTCCTGGAACTGCTCGACCTGGTTGGGCTAAAGGACAAGGCCGAATTCTACCCGGTCCAGCTCTCCGGTGGTGAGCAGCAGCGGGTTTCCATCGCCCGGGCGCTGGCTAACGACCCGCAGATCCTGATCTCCGACGAGGCAACCTCGGCCCTGGACCCGCAGAACACCAACCAGATCCTTGACCTCCTGAAGCGCCTCAACCAGAAGATTGGTCTAACTGTCGTCTTGATCACCCACGAAATGGACGCCGTCAAGCGGGTAGCCAATAAGATCGCCGTCATGGAACACGGTAAGATCATCGAGAAGGGCGCCCTCCAGGACGTCTTCCTGCGGCCAAAGGAGGAGCTGACCCGGCAGTTTGTCGGTGGTTCCCTGGCTGCCATCGACACTCTCAAGGCCTTCAACCTCGACCACCTCAACGATAACGAGGAGCTCTTCCAGCTAGTTTACAACGGTAACAACGTGACCCAGTCGATTATCGTCGAGCTCTACAAGCGGCTCAACGTCGAGGCCAGCATCCTCTACGGGAACGTCGAGGTCTTAAGTGACCAGCCGGTCGGGACCCTGTTCATCGTCGTCAAGGGCGACAAAGGCCAGCGTGACCAGGCCGTCGACTTCCTCAAGCAAAGCAACGTAACCGTAACTAAGATTGATGATAGGAGGATTTGGAATGAGTAA
>SRR1151252_00598 methionine ABC transporter permease protein
ATGAGTAACTTTTTACCAAACGTTATTCAGCTCGGCTGGGGTGGTGATAACGGTTGGGGTACCTCAATCATTCAGACCATCTACATGACCTTCTGGCCGGCAATCTTCGGTGGCATCCTCGGCCTCCTCTTCGGGGTCGCCCTGGTGGTCACCGAACCCGGCGGCATCCTTGAGAATAGATTTTGGTTTAACGTCTGTGATAAAATTGTATCAATCTTCCGGGCCATCCCGTTCATCATCCTGCTGGCCTTCATCGCCCCATTCACCCAGCTGCTGGTTGGAACCCAGATTGGGACGACCGCGGCCCTTGTTCCCCTGACCATTGGGGTATTCGGCTTCTACGCCCGGCAGGTCCAGGTGGCACTGGAGAGCGTCGACCACGGTAAGATCGAGGCGGCCGAAGCCATCGGCGCAACCAACTGGGACATCATTAAGGACGTCTACCTGCGTGAGGCCCGTTCCGAACTGACCCGGGTCTCCACGGTGACCCTGATCAGTCTGGTGGGCCTGACCGCCATGGCCGGGGCCATCGGGGCTGGTGGCCTTGGTAACACCGCCATTTCTTACGGTTACAACCGCTTCAACAATGATGTGACCCTGGTTGCCACCCTGCTCGTGCTGCTCTTTGTCCTGATCATCCAGGTGGTTGGTGACTTTATCGCCAAAAAGCTCGATCACCAGACACGCTAA
>SRR1151252_00599 acetylornithine deacetylase/succinyl-diaminopimelate desuccinylase
ATGGAAACCAACGAACAAGTCCGCATCCTGCAAGACCTGATCAGAATCCACTCCGTCAACGGCAATGAGATTGCAGTGGCGGATTACCTGGAAAAACTGCTACGATCCCACGACATTGACGTTACTGTCGATGCCTTCGGTGACCGCCGGGCTAACCTGATTGCCCAGATCGGTGACGGTACCGATCCCCGCATCCTCGGTTTCACCGGCCACATGGACACAGTGGCGGTCCCGGACCCGACCCGCTGGCAGCACGATCCCTTCGGCGGTGAGGTCGTCAGCGGCCACATCTACGGACGGGGGGCCGCCGACATGAAATCCGGCCTGGCCGCTCAGGCAATTGCCCTGATTGAATTAAAGGAGGCCGGGCACCTGCCGGCCGGGACCCTCAAGTTTATCGCCACGGCGGGTGAAAAATTGGGCACCCCGGGGGCCTGGCGACTGGAGAAACAGGGCGTGGCCGATGGTCTGGACGCCCTGGTGGTCGGGGAACCAACCGGCGGAAACGTGGTATTTGCCCACTCCGGCAGCATCACCTACCGGATTACCAGCATCGGTAAGTCCGTCCATAGTTCACATCCCGACCAGGGAATCAACGCCATCGACGGCCTGCTCCACTTCATTGAGCAGGAACGGGCCCTCTTTGGCGACGTGGCCGATGACCAGTACCTGGGCAAGGTCCAACACAGCATCACCATCATCGAGGGTGGTAAGCAGGCCAACACGATCCCCGACCAGGCCCAACTCTTCGGCAACATCCGGCCAACCGCGGCCTTCAACAACCAGGCGGTTACGGACCGGTTGAATGACCTGGTGGACCAAGTCAACCACCAGACTCCGTTCCAGCTGGAACTAAAGGTTACTCAGAGCTTCGGGCCGATTTTGACCAAGCCGGACAACGACTTTGTTCAATTGGCCCTCCACGCTGCCCAGCGGAACTATCCAAATGACGTGGAACTCAAAACGATTAACGGGGCCACCGACGCCAGTGTCTTCACGCTCAACCGACCAGACCTCCCCGTGGTTGTCCTCGGCTGTGACTCTTGGAACATGGCCCACCAGACTGATGAGTGCACCACGATTCCGAGTTACCTGGCAGCGATCAAGGCCTACAAGCAGATCGCCCGTGACTTCTTCAATTAG
>SRR1151252_00600 peptide methionine sulfoxide reductase MsrB
ATGACAGACAAGGATAAGGAGAAACTTCGTCAACGCCTGACGCCGACCCAGTATGCGGTCACCCAGGATGCCGCCACGGAGCGCCCATTCACTGGTCGCTACGACCACTTTGACCAGCCGGGAATCTACGTCGACGTGGTCAGTGGGGAGCCACTGTTCTCGTCTTTGGACAAGTACGACGCCGGTTGCGGCTGGCCGTCATTCACCAAGCCAATTGCCAAGCGGGTCGTCAAGGAGAAACGCGACCAGTCGTTTGGGATTGAGCGTACCGAGGTCCGCAGCAGGCAGGCGGACTCCCACTTGGGCCACGTCTTCACTGATGGGCCGACCGATCGGGGTGGGCTGCGCTACTGCATCAACTCCGCGGCCCTCCAGTTTATCCCGGTTGCGGAACTAGAACGGGCCGGTTACGGTGAATACCGCCAGCTCTTTGAATAG
>SRR1151252_00601 D-lactate dehydrogenase
ATGACCAAGATTTACGCTTACAGTATTCGTAAGGACGAGGAACCGTACCTGAAGGAGTGGGCCGCCGCCCATCCGGAGGTCGATGTCGACTACACCAGCGACCTATTGACTCCGGAAACCGCCAAGCAGGCGGCCGGAGCCGATGGGGTGGTGGTCTACCAGCAGCTGGATTACACGCCGGAGACCCTGCGTGCCCTGGCTGACGAGGGGATCACCAAGATGTCCCTGCGAAACGTCGGGGTTGACAACATCGACATGGCGACCGCCAAGGAGCTGGGCTTTGAGATCACCAACGTCCCAGTCTACTCGCCGAACGCGATTGCCGAGCACGCCGCCATTCAGACAGCCCGGATCCTGCGACAGACCAAGGCCTTGGACCGTAAGATTGCCAGCGGTGACCTGCGCTGGGCCCCGACGATCGGGCGCGAGGTTCGGGACCAGACGGTGGGGGTCATCGGGACCGGTCACATCGGTCAGGTCTACATGCAGATTATGGAGGGTTTCGGCGCCAAGGTGATTGCCTACGACGTCTTCCACGACCCGAAGTTGGAGGCAGCCGGCTACTACGTTGACTCCCTGGATGACATTTATGCCCAATCTGACGTGGTGTCCCTCCACGTGCCAGCCCTGAAGAACACCATCAAGATGATCAACGACTCGACGCTGGCGAAGATGAAGGACGATGCGGTCCTGGTCAACGTCTCCCGTGGCGCCCTGGTGGACACGGACGCGGTAGTTCGGGCCCTGGACAGTGGTAAGCTCTTTGGCTTCGTGATGGATACCTACGAGGACGAGGTCGGCGTCTTTAACGTTGACTGGCGGGGAAAGGACTTCCCGGACGCCCGGCTCAAGGACCTGATCGACCGGCCAAATGTCCTAGTCACGCCGCATACCGCCTTCTACACTACCCATGCCGTCCGCAACATGGTGGTGAAGGCCTTCGACAACAACCTAGCCCTGGTTAACGGTGAAGCGCCAGCCACGCCAGTTAAGGTTGAACCATAG
>SRR1151252_00602 hypothetical protein
ATGTTCAATCTACCCCTCGGTATCGGCCAGGTCCACGCCATGCATGAGCTCTTCAAGGCCGACCCCCGCCTGGCGATCATCGTCCTCGCATTGTTGATTGCCCTGGCCTTCTACCTCAATAACCGCCGCTAG
>SRR1151252_00603 NAD(P)H dehydrogenase
ATGAAGATTATCGTAATTTCGGGTAGCGCTCACGCCAACGGGGCCTCGATCTACCTGGCCGATCGCTTCGTTGCCGGATCCACGGCGGCCGGGCACCAGGTTGAACGCTACAATGTGGTTGACCACCAGACCAACTTCGTCATGGTGGCAGAAAACGAGGACCCAATTCCCCAGGATGACGACGGGGCTCAGCTGCTAAACAAGGTGGTCGCCGCCGACCTAGTGGTTCTGGTGACCCCGGTTTACTACTACGCGATGAGTTCCCTGCTCAAGACCGTCATCGACCGTTTCTATGAGGTCAATGAGGAACTGAAACAGGCCGATAAGCGGATTATGATGATGGCGACGGCCTATGACCCGGACGAGCACGTCTTTGATTCAATGAAGATCAACTACCGCCAACTGGTAAATTATCTCGGCTGGCACGATGCCGGGACCGTCTGGGATCACGGTGCTCTGACTCATCCCCAGATTGATCAATATGGTCAGCAGGCCTATGATCTGGGGGCGCGACTGCGAGACTAG
>SRR1151252_00604 cation-transporting ATPase
ATGAAACGCCTGTCAAATAAGCAGAAGCTGATCCTGATCCTTGTGATTGCGGCAGTGGCCCTCCTGCTCCAGTACGGTGCTCACCAACCGTTTTTTGCCCAGGTCCTGGTCACCGTCGTCGGGGCCGTGGTGGCGCTGACCATGTTCATCGGCATGATCAAGACGCTGCGCTCCGGTAAGTACGGAGTCGACCTGCTAGCGATTCTGGCCGTGGTTGCCACCCTAGCCGTCAGCGAATACTGGGCCGCGATGGTCATCCTGGTTATGCTGACCGGGGGTGACGCCCTTGAGGACTACGCCGCCAAGAAGGCCAACACGGAGCTCAAGGCCCTGCTCGACAACTCGCCCCAGGTGGCCCACGTCATCACCGACGACGGCACCAAGGACGTCAAGGTCGACGCCGTCCAGGTCGGCCAGCAGGTCTTGGTTAAACCCGGGGAACTGGTCCCCGTCGACGGTAAGATCGTCAAGGGAGCCGGCCTGTTCAACGAGGCCTCGCTGACCGGGGAATCCAAGCCGGTTGATAAGGGGGTCGGCGATGCGGTGATGTCCGGATCGGTCAACGGGGACAGTGCCGTCACGATCGCCGTCACCAAGCTCGCCAAGGACAGCCAGTACCAGCAGTTGGTCAAGGCTGGTCAAGGAGGCCGAGAGTACCCCGGCTCACTTTGTCCGGCTGGCTGA
>SRR1151252_00605 cation-transporting ATPase
TTGTCCGGCTGGCTGACCGGTACGCGGTACCCCTTCACCATCATCGCCGTCCTGATCTCACTAGCCGCCTGGTGGCTCTCCAAGGACCCGCGGCGGTTTGCGGAGGTCCTGGTCGTCGCCTCACCGTGTCCCCTGATCCTGGCCGCCCCGGTGGCAATGGTCTCGGGGATGAGCCGGGCCTCGCGGAACGGGATCATCGTCAAGACCGGGAGTGTCCTGGAGAAGCTGGCTGGCGCCAAGACTGGGGCCTTTGACAAGACCGGAACGATCACCAGTGGTCAGCTGACAGTCGATGAGGTGCGCCCCGCCAACACTGCTGACCGGGATCAGCTCCTCCAGTTCGCCGCTAGTGCCAAGCAGGAATCATCCCACATCCTGGCCCGTTCCCTGCTAGCCTACGCCAGCCAACGAACGGTCAATCTCCTGCCGGTCAGCGACCTGGTCGAAACCACCGGAAAGGGCGTGGTCGCCACCATCACTGGGCACCAGGTCAAGGTTGGCAAGCTCAAGTACGTTGCTCCCCAGAGTGATCAGCCACTACTGAAGGCCACCGCAATCTACGTCGGTATCGACGGCCACTACTACGGGGCCATCACCTTCACCGACCATATCCGGCCGGAAGCCGAACGGACGATGGCCACCCTGCGTAAGCTTGGTGTCACTAACCTAATGATGCTGACTGGTGACCAGCGGGCCATCGCCGAACGGATTGCTAGCCAAGTCGGAATCACCAACGTCAAGGCCGACCTCCTGCCCCAGGACAAGATTGCAGCCCTCAGGAACGTCCCAGCCAACCTTCACCCGGTCTTCATGGTCGGTGACGGGGTCAATGACGCTCCATCCCTGGTAACGGCCGACGTCGGGATTGCCATGGGGGCCCACGGTTCATCGGCCGCCAGCGAGTCAGCGGCGGTTGTGATCTTGAAGGATGACCTCTATAAGGTCGCTAAGGCGGTCGCCATCTCAATGGATACGATCAAGATCGCCAAGCAGGCCGTCCTGATCGGGATCGCGATCTGTACCATCCTGATGCTCATCGCCACCACCGGGATTATCCCGGCCTTCGTCGGCGCCATGCTCCAGGAGGTCATTGATACCGTCTCGATCCTGTGGGCACTGAAGGCCCGGCAGATGCACAATTAA
>SRR1151252_00606 hypothetical protein
GTGGCCGGCGGGGGAATCCTCCTCTGGTATTTCCAAGACCAGGCCTGGGCACAAGTTGCCCTCGGCTGGCTGGCAACCGAGCCGGGCCAGATCACCATGGTTGTGATTGCCGCCTACCTGGTGATCCTCGCCCTGGTGACGATCAGAATCGCCGTCTTTAGGCCAACCACAACCAAGAAGATGACAATTGTTCACGATGGTCCCTACCAGATGCGCGTTGACCAGACAGCGGTGGAGAAGAATCTCTGCCTCGCCCTGGCCGACTATGACCTCTACAACACCGACGTCAAGGTCAAGATGCACCGCAACAGTCAGCAGGCAGACGTCACCGTGGGCGGAATGCTCTCCCAGCGTTCCAACCCGCAGCTCCTGCAACGCAACATCCAGCGCACGGTTGCTCAGAACCTGAAGCAACAGTTTGACATCGAACTACGTAAGCTCAAGGTCAACCTGAAGCCTTATAGTCACAAGCAATCCGTCGCGATCGTCTAG
>SRR1151252_00607 hypothetical protein
ATGAAACTCGCAATAATCTTCATGGTGGTCGGTCTGATCATCAGTGTCAGCTGGGTCGCCTGGGGCTTTCTCCCCATGCTGGCGATCCTCTTAACCACCCTGATTCTCGGCGCCATTGGCTACGTGCTCGATATCATGGGTTACTCTCTCAACAAGTTTACGAGCAAGATGCTCGAAAAAATCAGCAACTAA
>SRR1151252_00608 alkaline-shock protein
ATGACAACCACTAACCAAACTACTAAAAACGCTGTTGACCAACAACTGACTTTTGACGACCAGGTAATCGAGAAAATCGCTGGGATCACCGTCAGCCGGGTTCCCGGGATTGTCTCCCTCGACGGCAACATGTTTAGCGAATTTGCTGACAAGGTAACGTCTGGAACCAGTGTCACCAAGGGAATCAAGGTCGATGCCGGCGAGAAACAAGCCGCTGTCAAGATGGACGCCACCATTGAATACGGCAAGTCCGCACCTGAGATCTTCAAGGCCGCCTGCCAAGAAGTTGCCACGGCCCTGGAACAGATGACCGGGCTGAAGCTGGTCAAGTTTGAGCTGCACATCAACGACGTCAAGACGCGTGAAGAACTGACCAACGACAACAAGAAGGAAAAAGAAGTCACATAA
>SRR1151252_00609 ABC transporter permease protein
ATGATTAACACGAAACAGAAAATGGTTGCCAGCAACGCCTTTCATCGCCTGGGCTTGGCGGCCCTGATTACAGTGGGGTGGATTGTCGGATTCGAGCTGGTCACCTACCTGCTTGGTCTGGCCTTCAATCACAACCTAACTTCCTTCTTGGTCAGCCTGCAGGGGATCCCGGAAACCCTGGTGGCCTTCCTGCCGATCGTCCTAGCGGCTTACTTCCTGATGACTGCCTACGTTGACTTCAAGTGGGCAATCCAGAATGGCATTTCCCGGTCGACCCTCTGGCAGGGACGGTTAATTGCCCTCCTGCTTAGTTCGGTTCTGGTTTACCTGGTGGATGAACTACTGACCATGGCGTACCGACCGCTCGGTGACTGGCGGGAAATCCTGATCAACTTTGGCGGCCTTTTGACGACCGTCCTGACCTGTCAGGCGATCGGCAACGGCTTCAGCCTCTTGAACCGGAAGTGGAAGGTAATCGTCGGCATCGGCCTGCCGGTGATGGCGATTATCCTACTGATGATGATGCTGAGTGGGTTGGAACACCTGAGTACGGGGATGCTGCCGACCTACCAGGATGACCATTTTGTCGGTCCCCTGGCCTGGGTCTTCAACTTGACACTGTCTCCGGTAACCCCTTGGATCATCTGGGCCATCTACCTAGTCATTGTCGTCTACCTGACCAAACTATTCAACGACCGCCTGCAACTACGGCGGGACTAA
>SRR1151252_00610 ABC transporter ATP-binding protein
ATGGAACAATTAAGCATTAACCACATTTCAAAGCGGTTTGGCCGTCAGCTGGTCTTGGACGACGTCTCGTTCACCCTGGCGCCGGCCAAGATCTACGGCCTGCTGGGGCGTAACGGGGCCGGGAAGTCAACCCTGCTGAACATCATTACTAACCGGATCTTTCCGACGTCTGGGACGGTCAAGCTGGGTGATCTGGACACTAATAATAACGATGACGCCCTCGGCAAGATGTTCTTGATGGGTGAGGCCAACCTCTATCCCAAGCGGACCAGCATTCGACGGACCTTTGACCTGGCCAACGAGGCATACGGGCAGTTCAACTACCAGACCGCGGCCCGCCAGCTCCAGGAGTTTGGTCTTGACGACCAGCAGCATGTCAATGACCTGTCGACCGGTCAGCGGACCATCGCCAAGTTGGTCCTGGCCCTCAACGTCGATGCGGACTACATCCTGATGGACGAGCCGGTCCTCGGCCTCGATGCCACCCACCGTGATCTCTTCTACAAGGAACTGCTAAAGTCCTACCAGGCCAAGCCACGGACCTTCGTCCTGTCGACCCACCTGATCGAGGAGGTTGCGCAACTGGTGGAGCACGTGGTCATCATCGACCAACATAAGGTGATTGCCGACGACCAGGTCCAACACCTGCTCGATTTGGCCCACACCGTCAGCGGCCCGGCCAAGCTGGTCGACGAGTACACGGCTGGCCTGCGGGTCCTGGCCAGTGAGAACCTGGGCAACATCAAGACGGCCTACCTCTTAGATGACTTGGATGACCAGCGGGTAATCCCCGACCAGGTCAAACTCGGTCACTATGACTTACAGCACTTATTCATCTATTTAACGAGCGGAGGCGAACACAACAATGATTAA
>SRR1151252_00611 GntR family transcriptional regulator
GTGCAATTCGATTTTGACGGTTCGGCGCCGCTGTACCAGCAGTTGGCGGCCCAGATCGAGGAGATGATCTTCACCGGCGGCTTCGACGAGGGGGCCCAGGTGCCATCAACGACCCAGCTGTCACAGCAACTCCATATCAACCCGGCTACGGTCCTCAAGGGGATGAACATGCTGGTCGATGAGGGCTTGCTGGAGAAGCGGCGGGGGCTGGGGATGTTTGTTCGTCCCGGGGCCCGGCAGAAGATCATGGAACGTCGCAAGGATAATTTTTACAACGACTACGTCAAGAAGCTCCTGGTGGAGGCCGCCAAGCTCGGCATCACCAAGGAGCACCTGATTGAACTGATTGAACGGGGGGAACACGATGGAACAATTAAGCATTAA
>SRR1151252_00612 helicase
GTGGAGACACTAAAGAATGCCATTCTCAGCGGCCTGTATGACCAACGCTACCGGGGCCATGAACTACTGGGCCCGGCCCTGTTGGATAACCAATCCGGTGATCCGCTCTGGCTGAGCCTGCGCCGTGAACTGCTAACTTGCCGAAGCTTTACTTGGGCGGTGGCCTTCATCACCCAGAACATGCTGGCGCCCTTCAAGGTCGTGATGGCTGACCTGGCCGCCAAGGGGGTGTCTGGGACGATCATCACCGGAGATTACTTGGGCTTCAACTCGCCGACCGTCTTTAGCGAGCTGGTGAAGATTCCCAACCTGACTGTCCGGATTGCCCAGGCGACGGGTTTCCACGCCAAGGGCTACCTCTTCGACCATGGCGACTACCAGACGGCCTACGTCGGCAGTGCCAATTTCACCCGGTCGGCCCTGCTGGAAAATGCCGAATGGGTGCTCCGGGTGAGCTCGGCGACCGATGCGACCCTGACAAAGCAGGTTGAAAGGCAACTGGCGGCGCTGGAGCAGGCCAGTCAACCGCTTGATGATCATTGGCTGGCTGACTATCGGGCCAAGTGGGTGCCGCCGGTTCGCCCGCCGGCTAAGTACACCTCGCCAGCTCCGGTCGCGCCAAATGCCATGCAGGTAGCGGCGCTCCGGGAGCTCCACGCCCTGGTGGCGGCCGGTGCTCACCGTGGTCTGGTGGTTTCGGCCACTGGGACGGGGAAAACCTACCTGGGGGCCTTTGCCGTCAGAGACTTTCGGCCCCGGCGCTTCCTCTACGTGGTTCACCGGGAACAGATTGCCCGCAAGTCACTGGCGAGTTTTCGCCGGGTGATCGGTGGACTGGACAGCGACTACGGGATGCTGACCGGGGACCGGCACGATTGGAACGCCAAGTACCTGTTTGCAACTATTCAGACCCTCAGCCAACCCGCCGTCCTGAAGAATTTGGCCCCAACGGCCTTTGACTACGTTCTGGTTGATGAGGCCCACCGGGTGGCGGCACCAAGCTATCGGCGGGTGCTGGACCACTTTCGGCCACAATTCTGGCTGGGGATGACCGCCACCCCGGACCGGCCGGATAATCAGGATGTTTATGCGGCCTTCGACTACCACTTGGCTTATGAGATCCGTCTCCAGGATGCCCTGGAAGCGGGGATGCTGGCACCCTTTCACTACGTCGGTGTTCAGGATTACGTTACACCTGGTGGTGAGCAAATCAACGATACTAGCAGCCTCCGCCGTCTGGTGGCTGCCGACCGGGTTCGCTACGTCCTTCAGCAAATGGATTACTACGGCTATTGTGGAAGTCAGCCACGGGGGCTCGTCTTCTGTTCCCGGCAGGACGAGGCCCACGAGTTGGCGGCGATGTTCTCTGCTGCCGGGCATCCGGCGGTGGCCCTGACCAATACGGACAGTCCATCTCGCCGCCGTGATGCGGTTGATCGGCTGGAGGCGGGAAAGTTGGAGTATATTATCACGGTGGACCTCTTCAACGAGGGGATCGACATTCCCTCGTTGAACCAGATCGTGATGTTGCGCAACACCCAGTCGGCAATTGTCTTCCTCCAGCAGCTTGGCCGGGGGCTGCGGAAGTATCCGGGCAAGGATTACGTGACTGTCCTGGACTTCATTGGTAATTACAAGAACAACTACCTGATCCCGCTGGCCCTCAACCACGACACCAGCCGGGACATTGACCGGGCCCGGGCGGAAACCCGCCTGCCGGGAATTATCGGGGTGTCGACGATCAACTTCGACCGGGTCGCCACCGCCCGGATTCTGACCTCCCTAGCCCAGACTAAGCTGGATTCGATGCGGGTCCTGCGACAGTCCTACCAGGAACTAAAGAATCGGCTCGGTCGGGTGCCCTACCTTGCCGACTTCTATCGCTACGGGTCGACGGCGCCCCAGGTCTTTGCTGGTAATCCGCGGTTAGCGCACTACGGAAGCTTCCTGAATAAGGTGGGCGAACGGGTGGCTCTGCAGTCCAATGAGAACAAGGTCCTCTCCTTTGTCACTAAGGAACTGCTGAACGGCAAGCGCCCCCACGAGCTCCTCCTGCTGGACGAGTTACTCAAACATGGTGAGTGTTCAACTGCCCGATTGGCAGAACGCTGGCGGACGGCCGGGGCCTATGACACCCCGGCGGTCCGGCAGTCGGTGGCCGATATCTTGAGCCTTAGTTTCTTCGACGTGAAGGCAGGGAAGGAGACCAAGAAGGCGCGCTACGGTGGCCGGGCGTTGGTGGACGTGACCCCAGACGGTTACCGCTGGCATGCGCCGGTCGCCGCGGCCCTGGACAACCATCAGGACTTTCGCCGCCTGCTGACGGACGCGATCAAAACGGGGCTGGCCCTCAGTCAGACTTATGATCCGGGGCAGCCCTTCACCCGCGGCCAGCGCTACGACCGCCGGGACGTCTGCCGCCTGCTGAACTGGCCCCAGGACGTCAGCGCGCCCATGTACGGCTACCGGGTAGCAGATGATGAGTGCCCAATCTTCATCACCTATCACAAGACAGATCAGGAACGGCGTAACGCGGTTTACGATAACGAGCTCCGTGACGGTCAGTCCCTGCGCTGGTACACCCGGAGTCCTCGCCATTTAAATTCTCCCGAGGTTCAGCAGCTCCTGGCGGGGGTGGATACCGGCCATCCCGCGGTGACTCTCCGGCTCTTTGTGAAACGCAGCGATGCGGCTGGCAAACAGTTTTACTACCTCGGCACCGCCAAGATCGACCCGGCTTCGGTGCGCGAGGAACAGCTCGGTCCGAAGAAGAAGGCGGCCGTGGGGATGGACCTTATCCTTGATCGGCCCCTGACACCGCGGCTGTATGGGTTGTTATTTGATTAA
>SRR1151252_00613 PAP2 family protein
ATGGCCCGGGATTACGCGGCCTCCTACCACCGGTTGAGTGCGCCCTTCCGTCGCCACCCGCGGTGGGTCACGGCCCTGCGCCTCACTAACCGGGGAATTGAGGTCGTCATGTACGGGGCCTACCTGGTCATGGTTGCTGGTTTGGCCTGGCGAGGCTTCACCGCTAGCGGGTCCTGGAGCCACCTCCTCCGGCTGGTACTGATTCCCGGGGGCGGGTTTGTTCTCCTCTCCCTGGTTCGCCGGTATCTCAATGCCCCGCGGCCCTATGAGCAGTGGCCAATCGACCCGCTAATCACCCGTGAGAAGACTGGCAATTCTTTTCCAAGCCGCCATGTCTTCTCGGCGACGGTGATCGCAATGGCCGCCCTGTGGCTCGACTGGCGCTTTGGCCTGCCGCTTTTGGTACTGGCGGTCCTGCTGGCGGTTATCCGGGTGGTCGGCGGTGTCCACTACCCCCGCGATGTGGTGGTCGGTGCCCTCTGCGGCCTGGCGGTGGGTAGTCTGTTGTTTATCTAA
>SRR1151252_00614 aldo/keto reductase
ATGAAGACAGTCAAGATTGGCAACAGCAATTGGCGGACCTCAAACGTGGCGCTCGGTATCATGCGGATGGGGACGCTACCGGTGCCTCGGGCAGTGGAAGCTCTCCAAGCGGCCCATGAAGCGGGGATTAACTTCATTGACTCGGCCGACATCTATGGTAATGACCCGCAGTTGGGGCGGGGGTCCTCGGAGATTCACTTCGGCCAGGCATTCAAGCAGAGCGGCCTGCAGCGGGAGGACTTCTACATCCAGTCCAAAGGGGGCCTATATGCCAACCTGGATAACAAGATTACCCGTTACGACTCCTCCAAGCACCAGCTAATCAGCGCCGTGGACGGGATCCTCAAGCGAATGGGGATCGACTACCTGGATTCGTTTTTGATCCACCGGCCCGACCCGTTGATGGAACCCGCCGAGATTGCGGCGGCCTTTGACGAGCTCCAGGCGGCCGGCAAGGTGCGGCACTTCGGGGTTTCCAACTTCAACCCCCAGCAGATCGCCATGCTCCAGGAAGCCGTTGACCAGAAGTTGCTGGTTGACCAGGTCCAGTTCGGTCTGTGTCACACCGGGATGATCGACTTCGGCCTCCACACCAACATGACTGACACGGGAGCCATCAACCACGACGGCGGGCTGATTGAGTACACCCGGCGCGTCGGCATGACGATTCAGACCTGGTCACCGTTCCAGTACGGGACCTTCGCGGGAACCTTCATCAACAATGTCAAGTTCCCCGAACTAAATACAGCGCTGGCTAAGCTGGCCGACAAGTACGGCGTCAGCAAGAACGCCATTGCGGTGGCCTGGATTCTCCGCCATCCGGCCCACATGCAGGTCCTCCTGGGGACGATGAACCCCGACCACATCAAGGACAGCGCGGCGGGGAGCGACGTGACCCTCACCCGCCAGGAGTGGTACGACCTCTACCTGACCGCCGGGCACGACCTGCCATAA
>SRR1151252_00615 drug/metabolite transporter permease
ATGAACCGACAAACCAAGGGCGTGCTGCTGGCAGCGGGCGGGGCCTCACTTTGGGGTGGCTCCGGGGCCGCCGCCCAGTACCTCTTTTCCACCACCACCATCTCAACAACCTGGCTGGTTGCCGTCCGCCTACTGACGGCGGGGATCCTCTTGACCGCCATCTCAATCATCCGGGCGCCCCAGCAGGTCCGAGCCCTGACCCACCGGCGCCGTAACCTGGGCTACCTACTGGCCTTCGCCATCCTGGGCATGCTGAACTCGCAGCTGACCTACTTCCTGGCGGTCAAGTTCAGCAATGCCCCCACGGCGACCGTAATCCAGTACCTCCAGCCGGTGATCATCATCATCTGGTTGGCCCTATCCCAGCGCCAGTGGCCCCGGCGGATCGACTGTATCTCAATCGCAATTGCCCTGGTCGGGACCTTCTACCTGGTGACGGGTGGTCACCTCAATACCCTGACATTGACGCCGACCGCCCTCTTCTGGGGACTCTGGTGTGCCGGGGCCGCCGCCCTCTACACACTACTCCCCCGCCCCCTGCTGGAGCACTACGACGCATTGGCCGTCTGCGGGCTCGCCATGCTAGTCAGCGGGATCATCCTCACCCCGTTCCTGTTCACCATCCCACTCCCCACCTATCCAGTGGTGACTGGTGGCTGGTCGGCTACATCGTCGTTGGGGGGACAATGTTCTCCTACACAATGTTTCTGCAGAGCATCCGCTACATCTCGCCGTCGGTCACCGGGATCCTTAGCGCCTTTGAGCCCCTCGTGGCAACCCTGCTGGCGGTCACCCTCCTCGGTACCTGGATGA
>SRR1151252_00616 alpha-galactosidase
ATGAGCTACGTTTACGATAACGACTACGACTTTTCGCTCGGTAACGTCAAGCAGGAGTACCCGGCCTACGGGACCACCGACTACCGTATGCCAGCTGTCGAGGTCAAACAGCCCAACGGCAGCACGGTAACCAACTTCCGCTACCGGTCCCACCGGATCTACGCCGGTAAGCCCCGCCTAGCCGGTCTCCCGGCCACCTACGTCGAGGACGATGGTGAGGCCACCACCTTGGAGATCCTCCTCCAAGATGACGTGATCGACGTCGAATTGACCCTTACCTACACGATCTTCAACGACTTCGACGCGATTGCCCGTAGCGTCCGCTTCGCCAACCACAGCGACCAGGACTACCAGTTATCCACCGCGATGAGCATGAACCTCGACCTGCCCGACGATGATTATGATTGGCTACAGTTTTCCGGTGCCTGGGGCCGGGAACGGCAACTAAAGTCTGCCCACCTGCGGCCCGGTATCCAAGCCGTCAGCAGTACCCGGGGTGCCTCCAGCCACATGCAGAACCCGTTCGTTATTTTGAAACGGCCCCACACCGATGAATTCCAGGGGGAGGCGTACGGCTTCTCACTCGTCTACAGCGGGAACTTCCTCGCCCAGGCCCAGGTCGACGCCTACCAGGTTACCCGGGTCCAGCTGGGGATCAAACCCTTCCACTTCTCCTGGAAGCTGGCTCCCGGGACCGAATTCCAGACTCCCGAGGTCGTGATGGTCTACACCAGTGACGGGCTCAACCGGCTCAGCCAGACCTACCACCAACTCTACCGGCAGCGCCTAGCCCGTGGCTACTGGCGCGACCGGCCACGGCCGATCCTGGTCAACAACTGGGAGGCCACCTACTTCGACTTCACCGAGGACAAGCTGGTCCAACTAGCCAAACAGGCCCACGACCTCGGCATCGAACTCTTCGTCCTCGACGATGGTTGGTTCGGCAAACGGACCAAGGAAACGGCCGGGCTCGGTGACTGGTGGGCCAATCGCGACCGCCTCCCCAACGGCATCAGTGGCCTGGCCGAGCGAATCCACCAACTGGGCATGATGTTTGGCCTCTGGTTTGAACCAGAGATGACTAATAAGGACAGCGACCTCTACCGTAACCACCCGGACTACATCATCCAGACTCCCGACCGGCACCCATCCCAGGGGCGGCGCCAATACGTCCTCGACTTTTCGCAGCCGGAAGTTGTTGATTACGTTCACGACCTGATCGCTAAGGTCCTCCGCGAAGGGAATGTCGATTACGTCAAGTGGGACATGAACCGCAACATCACCGAGTGCTTCTCCGCGGCCTTCCCGGCGGACCAGCAGGGGGAGATCTTCCACCGCTACATTCTCGGCGTTTACCACCTGTACGAACAGCTGATCCAGGAGTTTCCAAAGATCCTCTTTGAGTCCTGTGCCTCAGGTGGTGGGCGTTTTGACGCCGGAATATTATATTACGCCCCACAGGCCTGGACAAGTGACGACTCCGACGCCATCGAGCGGCTCAAGATTCAGACTGGGACGTCATACTGTTACCCGGTCAGCGCGATGGGTGCCCACGTCTCCGTCTGCCCCAACGAGCAGGTCAACCGCAACACCCCGCTGAAGACCCGTGGCGATGTGGCCTTCTTCGGCGACCTCGGCTACGAACTTGACCTGACCAAGCTAAGCACTGACGAGTTAGCCCAGATTAAGGACCAGGTCAAACTGATGAAACACTACCGGGCCCTCTTTCAGTTCGGACGCTTCTACCGACTTAAGAGCCCCTTCGACGGTAACATCACCGCCTGGCTAGTGGTGAGTCCCGACCAGCAACAGGCGGCGATGGGCTACTTCAAGGTCCTCAACGACGTCAACGCTCCATACCGCCTGCAAAGGATTCCCGGCCTGATAGCGGACCAGGAATACCGGGTTCACGAGGAGGCCGGTCAGGACTGCGGCACCTACACCGGTAGCGAGTTGGCCAACATCGGCTTGGTCACCTCAGATGCCGAATCCGAGCAGTCTGCGGCTACCCGTGACGTTCCCGACTTCTATAGTCGACTGTTCATATTTGAAGCAAGGAAGAATTGA
>SRR1151252_00617 putative membrane spanning protein
ATGTATCAATTAAGTCGAATCATTATGGCTTTTTGCGGCGTGATCCTCTGCGGTTTCTGCGTTGGGATGTTGCAGAAGGCAAACCTCGGCGTTGACCCCTTCACCTGCTTTGTGACCGGAATCGCCAACATCTTCAGTTCAACCTACTCGACCTTCTACCTGATCCTGACGGGGGTACTCCTCATTCTGGTCTTCATCCTGAAGAGGCACTACATCGGTGTAGCCACCGTGATTAACCTCTTCTTCACCGGGGTGGCAGCGGATGCCATGCACCACCTTCTCGACCTAATGTTGTCTCATCCCAGCCTGGTTATGCGAGGTACTCTGATGGCGGTAGCGATCGTTTTCACCTGCCTGGCCGCCGCCCTCTACTTCACCGCTGACCTGGGCGTCTCGGCCTACGATGCCATCGCCCTGATCGCCGCCTACCAATACCGGCTCCTCCCCTTCAAGTACTGCCGGATGATCACCGATGGCCTCTGTGTCCTGGTCGGCTTTCTCTTCAACGTCACCCTCGGCGTGGGAACGATCATCACCGCCCTCTTCATGGGACCACTCACCCAATGGTTCCGTACCCACCTGGCGGAGCCCATGCTAACCCATAGGCAAGGTGCTGTAGCGTAA
>SRR1151252_00618 AraC family transcriptional regulator
ATGGAAAAGGCCGTGGCGTTTGATTATTCACCCGAGAAAGAAAGTCAGTTGGGGATCACCTCGGTAGGGCGGTCGGATACAATGGCGGGTCACCGCTTCGGTCCCGCTGTGCGGCCGTATTATCTGATCCATTATATTCTGGCTGGTTCAGGGACGTTTCAGGTGAATGGCGTCGACTATCACCTACATTCTGGACAGGGATTCTTTATTGAGCCGAACTATCAGACCTACTATATTGCTGATGAACTGACACCCTGGTCGTATGTCTGGCTAGGTTTTACTGGCTCTTATGCAACCGCGCTGATTCAGCAGCTAGCGATCTCGGAACAGACCCCAATCTTCAATAACGATCATTATTATGAGCTGGCCAACTGCGTTAATCAGATTATCCAACATCCATTGATGAACACTGCTACCGAGTTGCGGGCCAATAGCAACCTCCTCCGTTTCCTTAGTCTGATTGCTGACTCAACGGTGGTCAGCGGGCACCGAGCCACGCAGCGGAGTCCCTATGTCGACCGGTCGATCGCCTATCTGGCGCAGCACGTCACGACGGCTTCGGCTGACCAGCTTGCTCAGGCCGTTAATTTGGACCGCAGTTACCTCAGCATCCTCTTTAAGCAGGCAACCGACCTGACGCCGGGGCAGTATATTCGAAATTTTCGGATTACCAAGGCTCGACACCTGCTTGAGTCCTCAATGCTACCGATCGAGAAGGTGGCACAACAGTGTGGCTATGACCACGCCAACTCCTGTACCCGCATCTTCAAGCAAACCTATGGAATGACGCCGCGCAAGTATCGGCGGCAGGTTCGTGAGCAGAACCCAAAATAG
>SRR1151252_00619 tRNA threonylcarbamoyladenosine modification protein TsaD
ATGGCAGAACGTACGCTCATTTTAGCGTTTGAAACCAGTTGCGATGAAACCAGCGTGGCCGTGGTCGAAAACGGCACCAAGATCCTCAGCAATGTGGTGGCCACCCAAATTGACAGCCACCAGCGTTTCGGTGGGGTGGTTCCCGAGGTTGCCAGTCGGCACCATATCGAGTGGATCACCCGGTGTGTTGACCAGTCTCTGGAAGAGGCCGGGGTCGGCTACGGTGACATCGCAGCCGTGGCCGTTACCTATGGTCCTGGTCTGGTCGGCTCCCTGCTGGTCGGGGTCACCGCTGCCAAGGTGGTCGCCTGGGCCCACCACTTGCCGCTGATTCCGGTTAACCACATGGCTGGTCACCTGTATGCGGCACGCTACGTCGGTGAATTCATGTATCCCCAGATGGCTCTGCTGGTTTCCGGCGGGCACACGGAACTTGTTTACATGCCTAAGGAACATGAGTATGAGATCATTGGGGAGACGCGCGACGATGCGGCCGGTGAGGCTTACGACAAGATCGGTCGGGTGCTGGGGGTCAACTACCCGGCTGGGAAGACAATCGACGAGTGGGCAGCCCAGGGTCATGACACTTTCCACTTTCCCCGGGCAATGGAAAAGGAGGCCAATTACGACTTTAGCTTCAGCGGGTTGAAGAGTGCTTTCATTAATACGGTCCACAATGCCGACCAGCGGGGCGAGCAGCTGAACAAGTATGACCTGGCCGCCAGCTTCCAGCAGAGTGTCGTCGATGTCCTGGCGGAGAAGACGATGCGGGCTCTCGATCGCTACCCGGTCAAGCAGCTGATTCTGGCCGGTGGGGTGGCCGCTAACCATGGCCTGCGGACCCGGCTTGACCACGACATGGCCAAGTACCATCCCGAAGTGGGAATGCTCCAGGCCCCACTGAAGCTGTGTGGGGACAACGCCGCCATGATTGGGGCTGCTGGTTACGTTGACTATCAGCACGGTGATCATGCTGGTATGGACCTCAACGCGGTTCCCGGCCTGATGTTTAAGCGAATGGAAGTTAAATAA
>SRR1151252_00620 ribosomal-protein-alanine acetyltransferase
ATGTTCGAGAAGTTTAAGAGCTGGTGCCGGGTTAACATCAACGGTCGGAAGTGGCCGATGCTGGACTTCGCGCGCCGGGTGGTGATGATCAAGCGTCACCAGTACGTCGTTCGGATGGCAGCGGAGCAGGACATCAAGACAATGGTTGAGATCGAACGGGCCATCTACGGGACTGCACCGTGGAGCTACGCCGCCTTTCAGATTGAATTACGCCGACCCCACGACCGCCTCTATCTGGTGATCGTCGACGATGGTCGGGTCGTCGGCTTCATCGGGATGGCGGTCGATTGGTACCGTCTCGACCTGCACATCACCAATATCGGTGTTACCCCTGGCTACCAGCATAAGGGGATTGGTACTTACCTGATCAGTACCGCCCTTAATTACGCCCGTCATACCCAGCTGCACTCGGTGAGTCTGGAGGTGCGGGTACACAACCTGGTTGCCCGGAAGCTGTACGAACAGCTGGGCTTTCGGGAGCGAGAGATCAAACACCGCTACTACCTCGATAACCATGAGGACGCGGTGGACATGGAAGCGGACCTATTGAGTAAAGGAGAGCAGAGATAG
>SRR1151252_00621 tRNA threonylcarbamoyladenosine biosynthesis protein TsaB
ATGAAAGTATTAGCAATTGATACGTCAAACCACCCGATGAGTGTGGCCCTGGTCGAGGATGACCAGCTCCTGGCGACGACCACGCTTAACATGGTGTGCAACCACAGCATCTACCTGATGCCGACGATCGATCGCCTCTGTCAACTGGTTAAGTGGTCCCCGACCGACCTGGACCGGGTCGTCGTAGCCCAGGGACCGGGATCCTATACTGGAATTCGGATCGCGGCCACCACGGCTAAGGTCCTGGCCGACACCCTCAACATCGACCTGGTTGGGGTCTCCAGCCTTGAGGTGGTTGCCCGTAACGTCCTGCCGATGACTACGGCAATCATCGTACCGTTCTTTGATACCCGGCGAGGAAACGTCTTTGCGGGGGCCTACCAGTGGAAGGATGGTCAGCTAACCAGCCAGATTGCTGACCAGCACCTGGCGATGAGCGACCTGCTCACTCAGTTAGCTAAGATTGACCAGCAGGTGATCATGGTGGGGCACGTGACGAAGAAGCTGGCCGATCAGTTTGAAAAGCTGCCGCAAAACGTCAGCCTGGCACCACGGGCCTACGGGATTCCATCGACCTACCAGTTGGCGTTAGTGGGGGTAGACCAGCCGGCCGTTAAGGAGATTGACCCGTTTGTGCCACATTACCTAAGGATTACTGAGGCGGAGGCTAACTGGCAAAAGCTCCACCCGGGAGTTACCAGGAAGAATTATGTTCGAGAAGTTTAA
>SRR1151252_00622 cell division protein Fic
ATGACTGACCAGGAACTGTTTGACCGTTTCAAGTACCCTAACGGCACCCTGAAGAACAAGCGGGGGATTACCGATGCGACCGAGCTGGCCCGGCTTGAGTTTCAAATGGTCAATGCCAACATGGTCGCCCTTCTCCAGCACGCGGCTCAGTTTCCACGGATTGAGACGATTGATCAGCTGACGGTGGTGCACCGCTTCCTGTTTGACGACCTCTACGCCTGGGCGGGGGAGGTCCGCAATTATAACCTGGCCAAGGCCGGGCACGTCTTTCAGGACTTCCATACTTTCCGTGAGACGACCCGGTGGATTAATATCTTGCTATCTAAGGCCAACCAGGAGGTCCGCCCGCCAGCGCCTATGCTGAATTATTGGACAACATCAACGAGTACCACCCTTTCCGCGAGGGTAACGGGCGCAGTACTAAGACATTTCTTCAGCTCTTGGCGATTCAGCATCACCAGTACATCAATTTTCCTCGTCACCAGGACCAGCTGGTGGATGCCTTCAACCAGGCGACCCCGATCGACTATGCGGCCCTAG
>SRR1151252_00623 hypothetical protein
ATGCAGGTGCAGTTTAGTTTTGATAACCAGCAACAGACGATCATGGGGGTCGCTATTGCTGATCGGCAGTGCTACCGTTGTGTGCGGGATGCGATGCTGTTCAATGTCTACGAAGACTGGCGGCCAACCGTCAGCGATGTCCAACGGGCAGCCCAGGAGGCCCAGGACGCGGCTAGCCGTGCCAACCGGAAGTTTAAGGAGGAGTTTCAATGA
>SRR1151252_00624 UDP-glucose 4-epimerase
ATGGCAATTTTAGTTGCTGGTGGTGCCGGATACATCGGCTCTCACATGGTCAAGGATTTAATCGAACACGGTGAGGACGTGGTCGTGGCCGATAACCTGTCAACAGGTCACCGGGACGCCATTAACCCGAAGGCAAAGTTCTACGAAGGGGATATCCGGGACCGGAAGTTCTTGGACAAGGTCTTTGACAACGAGGACATCACCGCCGTGGTTCACTTTGCGGCCTTCTCAATTGTTCCTGAATCAATGAGCAAGCCACTGAAGTACTTTGACAACAACACTGGTGGTATGATCACCCTCCTGGAGGAAATGCGTGATCACAACATCAAGTACATCGTCTTCAGTTCGACCGCTGCTACCTATGGGGTTCCTGAGCACATGCCAATTAAGGAAACTGACCCACAGAAGCCAATCAACCCATACGGCCTGAGTAAGCTGATGATGGAGAAGATGATGGCCTGGGCGGATAAGGCTTACGGCATCAAGTTCGTTGCCCTGCGCTACTTCAACGTTGCCGGTGCCGCTCCTGATGGTACGATTGGTGAGGATCACGGTCCAGAAACCCACCTGGTTCCAATTATCCTGCAGGTTGCCCAGGGTAAGCGTAAGGAACTGAGCATCTTCGGTGACGACTACAACACACCAGATGGTACCAACGTTCGTGACTATGTTCACGTCATGGACCTAGCCGATGCTCACATTCTGGCCATCAAGTACCTGAAGGCTGGCAACAAGTCCAACGCCTTCAACCTTGGTTCCTCCACTGGCTTCTCCAACAAGCAGATGTTGGAAGCTGCTCGGGAAGTTACCGGCAAGCCAATTCCGGCCAAGATGGCCCCACGGCGTCCCGGTGACCCCGACTCACTGGTTGCCGCCAGTGACAAGGCCCGGACGATTCTGGGCTGGGATCCGAAGTACGACGACGTTCACGACATCATCGCCACGGCCTGGAAGTGGCACTCAACCCATCCAAAGGGCTATGATGATCGCGACTAA
>SRR1151252_00625 exopolyphosphatase
ATGAATAAGCACCTAGTGGTAATTGACCTGGGATCCAACTCGATCCGCCTCAAGATCAGTGAGCTCCAGCCGGATGGTCAGACGGTGACCAAACACTACGAGAAACGCTATGTTCGCCTGTCTTCAGGGATGGGGACGGAGAAGGTCTTAAAGGAGGAGCCAATGCAGCGGACCCTCAGCGCCCTGCGCGAGTTCCGCCAGATCTGTGATCAGTATGAAGATAAAAAGGTAGTAGCGGTGGCTACGGCCGCGGTCCGGCAAGCCAAGAACCAGCAGGAATTTCTCCAGCAGGTTAAGGAGGAGAGCGGCTTTGACATCCAGGTAATCTCCGGTGAGCAGGAGGCCTACCTGGACTATGTTGGGGTTACCAGCACCCTGCCGTTGAAGCGGGGGATCATCATTGACACCGGGGGCGCCAGCATGGAGCTGATCGCCGTTGAGGATGGGGCTGCCGAGGAAACGGTCAGTATTCCCCTCGGCTCGGTGACCCTCTCCCAGCGTTACCACCTGGGGGACCAAGTCGATGCTGCCGACCTGTTTGACGCTATGGTTGAGGTCGATGAGGTCCTCTCCCACCAACGCTGGCTAAACCGTTTCCAGCGGAGCAAGATCATCGCCCTGGGCGGTAGTAACCGGGCCCTAGCGAAGATCTACCGTTGGCGTAACGCGGTTGATGGCAAGGCGGCACCGGTCCAGGGGCTGACCCTGCGTTCGGAAACGGCCTTCGCCATCATGCACCAGCTGCTTGAGGCCGACCGGGCAACCCGGGCCAGCATTCGCGGGGTCATGAAGGAACGGGCTGACGTTGTAATCGGCGGTCTACTACCCCTGTTGGCTCTGATGCGCCAGTTGGCCATCGACGAGGTTAGCTTCAGTAATAGCGGCCTGCGGGAGGGGGTCCTCGTCAAGTACCTTGAACACGCGATGGACCTTCTTGATCTGACACCCAATAAGGATCACAAGTGA
>SRR1151252_00626 polyphosphate kinase
ATGTATAAGGATTTCTATAAGCCAGAAAATTATGTGAACCGGGAACTCAGTTGGATTGACTTCAACGGCCGGGTCCTCGGTGAGGCGACGGACATGGATAATCCGCTGTTAGAACGGGCCAACTTCCTGGGGATCACCCAGAGTAACGTTGACGAGTTCTTCATGGTCCGGGTGGCTTCATTGCACAAGCTGGCGGCGGCAAACGTCACCACGACCGATGCGTCCGGGCTGACTCCGCAGGAACAGCTGGATGCGGTCAACGAGAAGGAGCACCGGATGGTGGAGGAGCGCTACACGGTCTATAACCAGCAGATCATTCCCCAGTTGGCTGAGCAGCGAATCAAGATCCTTCATGTTAAGGACCTCGACGACAAGCAGTACGAGTTTATTCGCCGCTACTTCAATGATGAGCTGATGCCGGTCCTGACCCCGATGGCTGATGACAGCTCCCGGCCATTCCCGTTTATCTCCAACAATTCCCTAAACATCGCGGTCCAATTACGGCGTGACCCTACCCAGCGGGCCATGTCGATGAAGACCAAGGAGATCCTGGAGGGGGACCAAGAGGTGGAACGCCACCAGAACGAGCCCCACGACGACTCCAAGGAAGCCGACATTAAATTCGCCACGGTCCGGGTCCCGGAGATCTATAAACGCCTGGTCCGGTTACCGGGGGAGAATAACTTCATCCTGATCGACGAGCTGATCAAGGAGTTTCTGTCGCTGCTCTTCCCGGGCTATCAGATCATCGAGACGGCCACCTACCGGGTCATGCGGGACATGGACCTCGACGTGGCCGAGGAGGATACCTCCGACCTGCTCCGGGCAGTTAAGCACCAGCTTCGTGAACGTGAACACGGTCAGGTTATGCGGCTAGAGGTCGAGCACGATATTGATCCCTGGCTGGAGGACCAGCTGATCGACAACCTGCACGTCAACGAACGCTCCCTCTACCGGGTGGACGGGCCGGTCGACCTGACCTTCCTAAAGAAACTGTCGGGGATGGTCGATGGCCACGACGACCTGCGTTACAAGCCGTTCAAGCCCTACCTCAACCCGAAACTGGACATGGATCATAATATTTTCCAGTCGATCCGGGAGAAGGACTACCTGGTCCAGCACCCTTATGATAACTTCAACGCCGTGGTTAACTTTATCCACCAGGCGGCCGTCGATCCCGAGGTCCTGGCGATTAAGATGACCCTCTACCGGGTTTCCGGGAACTCCCCGATCATCAAGTACCTGGGGATGGCGGCCCAGCGTGGCAAGCAGGTCACCGTCCTGGTCGAGGTCAAGGCCCGCTTTGATGAGCAGAACAACGTCCGTTGGGCCCAACGGCTGGAACGGATGGGCTGCCACGTCATCTACGGCTTGGTTGGCCTGAAGACCCACTGTAAGGTTGCCCTGGTCATTCGGCGGGATGAGGATGGTCTCCGGCGTTACATGCACCTGGGGACCGGGAACTACAACGACGTCACGGCGCACTTCTACACTGACATGGGCCTCTTCACCTGCGATCACGAACTAGGAATTGACATGACCAATCTCTTCAATATGCTGTCCGGGTTCGCCCGGCCGCCATACTTCCACCAGCTCCGGGTTTCACCAAATGGGATCCGGGAGTTTATCAACAAGAAGATTGATGAGCAGATCGCAGTGACAAAAAACGGCGGGCCCGCCCTGATCCGGATGAAGATGAACTCCTTGTCCGATAAGCAGATCATCGCCCGCCTATATGATGCGGCAGCAAACGGGGTCAAAATCCAACTGATTATCCGGGGGATCACCTGCCTGCGCAACGACCTGCCGGAACTCCACGGTAACATCGAGGTCCATTCGATCGTCGGCCGCTTTCTGGAACACTCTCGGATTTACTACTTCAAGGGTAATGGCAACGAGGAAATCTACCTGGCCAGTGCCGACATGATGACCCGGAATCTTAACCGGCGGGTCGAGGAGCTTTACCCGGTCAAGCAGGCCGATACCAAAGCCCGGGCCATTCAGATTTTTAACATCATGTGGAGGGATAACACCAAGGCCCGGATCCTGGAGGGCGACCATTACGAGCGGATTGACCGTGGTGACGCGGCTCCGTTCAATGCCCAGGAGTACTTCGTAGCGGAGGCGGAGAAGTTGAACCGCCAAACGCGGCACCAGCACAAGAGCCAGCGCCACCTGGCCTCGGTCTTTGAGACCCTGTCCAAGCATGTGCCGTCCCTGCACCTCAATGACGAGAAGAGTGATTCGCATGAATAA
>SRR1151252_00627 exopolyphosphatase
GTGAAGAATTCATTGACTGCAGTGATCTATTTGGAGCCTGACCAAGTTAGTCTGCGGATAATCGAACTGCCAAAGGGCCGCGTGATCAATGACGTTCATTCCGGAGCGCTGGCGCTAGGCAGTGGCAAGATTGCCAACTATGCCCAGAATATGGCCGCAATCGTCAACAACCTCGACGGGTTCAAACAGCAGCTGAAGGACTACCAGGTCCAAGACGTGCACTTCTACGGGGCAATCGAGGACCTGGCCCCGATTGATGCCCGCTACGTTGCCGACCAGCTTGAGGTCCGCACTGGGTTCACAATTCACTGGCTGAACAACAACCAGCTGATGGCCAAGACGATGGGCTGCGTTGTTAACCACCTGACCGAGTTCAAGGCATTGAGCAAGCACTGCCTGTACCTGCTGACGCTGGGGCTAGACTCGATGACCCTGGCCTTCTTCCACCATGGCAATTTCGAGAAACAGTGGGAGATTGACCTCGGTGGGGCCAAGATCAGCCGGCTGGTCCAGCGGCTGCGCCAGACGACCACCAATCCCCAGGAAATTATCCAGGATTACATCTCGAGCAAGCTGGAATACATCTCACCCGAGCTGAAGCGTAAGAAGCGGACCGTCCTGCTGATCCAAAATGCTCCGGTATTGAGCAACCACTACATCAAGGAGGGGGAGCACCTGGCGGAAATTCCTCAGGAGCCGCTGAAACGAGCCAACCAGACCCTGGGGATCAAGATCAATGACCAGCAGCCGTGGGCGCAGGATGTCACCACCGAACAAGAGCAACGCCTAGTCGTGCCCAACTACCTGGTGATCGCCCGGACGGCCTACCTGGTTCATCCATTGAGCATCTACGTAACCGACATCTCAATGATGGATGGTCTGGTCAACGGCTTTGCGGATAACCGGGCTCAGAGCCAGATCAACACGATGATCCGAACCTCCGCCGATGATCTTGCCCAGCGTTACGGGGTTGATCCGGCCCACAAGGACTTTGTGACCAGGTTCGCCCTCCAGTTTTTCGACCAATTGCGGCCGATTCATCGGCTGGACAACCATGCCCGCCTCCTGCTGGAGATTGCTAGCAAGGTCGACGATATTGGGAACTTTATCAACCAGGAGAGCCACTACCGGCACTCGGCCTACATTCTGAAGTCCAACCCACTGATTGGCCTCTCCGATGATGACAACCAGATCATTGCTGAGGTGGCCCGGTACCACAGTGCTGAGAGCCCGACGGCAGCCCAGGAACACTACCGGCAAATGGATGATGATATCCAGCTGGTTGTGGCCAAGCTGGCGGCGATTCTCCGCCTGGTCGACTCCCTGGATGACTCACGCCAGCAGAAGATTTCGGTGATCAAGCTCAAGCTGACCGACGATCACCTCCTCAAGATCAAGGCGAGTGCTAACGACGACCTGGTCCTTGAGAAGTGGTCGTTTAGCAAGAAGTCACAGCTATTTAACGACGTATTCGGCATCAAGCCAGTATTGATTGAAAGGGGCGGACACTAA
>SRR1151252_00628 diguanylate phosphodiesterase
ATGACTGAGTTGCGGATTTTTCTCTGGTGGGTCTTCGTGGCCTTCACCATTATCTGTCTTGCCTTTTGCATTGAGGCCCACGTTCGTTACCGGACCAAGCGTGGGATTGATGATGATCAGGGCTTTGACAGTCGGTATGAATATTTTGGTCAACCGGTCTATGATCAGCGGGGGAAAGTTTACGGCTATGAACTACTGTTGCGGGCATTTGACTCACAAAATCATCGCTGGTACCTACCGACGGATGTCATCGACTTCCCGTTAAGCAGGATGGTTTACGCGGTCAGTGAGATTGATCCCTATATTACCTCGACAATCAAGGTGTTAGCCCTAAACATGACGGTTAACCAGATTAGTGACTTCCGGGCGGAATACTTTTTCAAATGGGCCCAGGGGATGGTTGGTGACTGGCGCCTGTCAGTTGAACTTAATGCCGTGGATATCTGTCGCGCGCGATTCCTCCAGCGTCAACGAATGCGGATCGTCCTGAAGCGGCTCGACCATGCACGCATCCAGGTAGCAATTGAAAACGTGGATTCGTCAAAGCGGATGTGGCGACGCCTAAGGGGCTTCTTACCGTATATTGATTACCTTAAGTTTGATGCTTCGGCCTTCAATAAGTCTGCTGACCACTGGATCGACGTTACCATTGCCCAATGGCAGTGGCGGGCCCAGGAACATCGGGTGGTACCAGTTGTCGGTAAGGTTGAGGATAACACACAGGTGGAACTTGCTAACCAGCTCGGGATTAACCTTCGGCAGGGCTATGCTTATGGTCATCCTGGCCGGGTCCGCGAAATGAATGATGGCGACAATTAA
>SRR1151252_00629 glycosyltransferase
ATGGTTTCTAACATTATGAGTACGGTCTTTCAGACTAGATCACCGTGGATGGCCTTCCTACTGGTTATTAACTTAATCCTCTGTCTCTACCCGATTCTCGGGGCCCTATTCTGGTTCTTTGGGGCCCTCTCCTACATGACCTTTCGCCACGATGAGGAGCTGGCACCAACAGACAACCAGCTGACGACGGAACCATTGGTCACGATTATGATTCCGGCCCACAATGAGGAGGTCGTTATCCAGGGGACCCTAGAGTACCTCCTAAATGAGCTCACCTACCATAATTACGAGATCCTGGTGATGGACGATGGCAGTACCGATGCCACCCCGCAGATTATCCATGAGCTCCAGGAGAAATATCCCCGTCTGCGGACCATCCGGATTGAGGAAAACCAGGGGAAGGCCCATGCCTTTAACATCGGAATCTTCTTTGCTAAGGGTGACTACATCCTGAGCAACGATGCGGACACGATCCCTGAACGTGATGCCCTAACGAAGTACATGCGCTACTTCACGAGTCCGGAGGGGATCAACTACGCCGCCATCACGGCTAATATGGACGTCTATAACCGGTCCACCCTCTGGGGAAAGCCGCAGACCGTCGAATTTTCGAGTATCGTGGGGATCATCAAGCGCAGTCAGACGGCCCTCAACAATACCATGTATGCCTATAGTGGGGCCAACACGATGTATCGCCGTGACTTTTTGATCAACGTCGGCGGTTTTCGGCAGGATCGGGCGACGGAGGACATCAGCATTGCCTGGGATCATACCTTCATGAACGTGACCCCTAAGTTTGCCCCCGACATTGTCTTCCATATGAATGTGCCGGAATCCTTTGCCGACCTCTATAAGCAGCGTAAACGCTGGGCACAGGGTGGAACCGAAGTCTGGCTAACTAACTTTACCAAGGTGTTGCGTCATCCTTGGCGATACCGCTTCATCATCCCGATGCTTACCGACACGACTCTTTCGATCATCTGGTCATTTTTCTTTTGGATTACGAGTATTATCTTTGTCCTGCTGATGATTCACTTTGCCGTCGTCGGCAATTACGAGCGGATTTGGCACGGGATCGTGATGAGTATGATCTTCGTCACCTTCCAGCTCGTGGCGGGGCTGTTTCAGGTCCTGGCGGCACTGCTCCTCGACTTCAACGGTGCCAAGCTGCGTTACCTGATGTTTTCGCCGATCTACCTGCTCTTCACCTGGATCGTCAACCCCCTGACGATCGTTACGACCTTCCTCAGGGCGGTTAAGGCCGTGGCGGGTTACGGAAATGGTAAGTGGGTTAGCACGGAAAGGAAGGCTGGTAGCAATGACTGA
>SRR1151252_00630 hypothetical protein
ATGCGTGGTCACTGGGGGACCAAGATTTGGCAGACGGTGGTGGTCGTGCTGAGCTGGTTGGTCTTAATCGTCCCCATCACGATCACGGTTGCTAGCTACGTTGCTTACCGTACACATGGCCGGCATGGCCACTTCTTCTGGCACTACGCTGAGGGCTTTCAGGAGCTAAACTTTCTAATGATCTTCCTGAGCTTTGCACTCGGGGTTATTGCGGTGTTTTGCTTTGCCATGGGCTATATCCAGTTGCAGCGGGCACATGGGCTGATGACGAAGTGGCCGATGTTTGATATGGCGAAAAATCGGCATGAGCGAGAACGAGATGAGCTATTTATGACGGCCCGTTTTGATAGTGAGGCGAAACGCCGGGCCCGCCGAAACTATACGGTTAAGGCCAACCAGAACCTAAGGAAAATCAGTTGA
>SRR1151252_00631 signal transduction diguanylate cyclase
TTGGCCGCTAAAATATTTGACGCCGTTATCTATCTACCAATCATTGTAATCACAATGATTATCGCCCAGATTTACTTTGAAGACTACCGCAAAACGGTCCGCAGCCGCCGTCAGATTATCCTGACCCTGATCGTGGCCGTCAGTTACTTTGTCCAGGAGTACTGCCTCCTCCAGATCTCCCTGATCAATATCAACGAGGTGGCCTTCATGATGGTGGTCCCCTTCACGATGCTTTTCCGAAATAACCACGATAAGATTTGGTGGGGACTGCTCATCTAG
>SRR1151252_00632 signal transduction diguanylate cyclase
GTGGGTCGGCTGCCCGAGTCCGCCGTCTTCCTTATCATCTGTGCGGCTTTGACCACTTGGCAGTACTGGTCACTCCAGGTCCGCTATATTATGGCCATCAGCAGCCTGGGCCTAGTTGAGTTGGTCTCTCTGGCCATCAACAACCGTTTCACGATTGCCAATATCGCCGCGGCCACGTTTGGCCTGCTCCTCATTCTTATCTTCGAGGGCCAACGTTACAAAAACGAGATCAAGAACCAGCAACGCATCAACCTTCTACGTAGGGAAAGTGAACGTGATGACCTGACGGGACTTCTCAACTATCGGGCCCTCAGTCAGGAGATCAAGGCCCTAACCCAAAACCGGTCAATTCATAATATAGTGATCGGTGGGCTCGACATTGACCACTTCAAGAAGATTAACGATACGTATGGACACTTTGTGGGTAATGAAGTCTTAAACCATTTCTCGACCGTTCTTCGTAACCGAACCCACACCGCCTTTCCCAATCATGGCTACGTCTACCGCTTCGGGGGTGAGGAATTCTCGATTGTCGTCTCCAACCACTCCATCAAAGAGGTCTACAGCGGTCTCCAACTAATTGAGGAGGAGATGGCTGGACAGCCGATCACTACCAAGGAGGGTATCACTGTTTTCATCAGTTTCTCCGCCAGTTTGACTAATCATTTGAATGGTGAGCAGCTAGACGATACCTTGAAATGGGCAGATAAAATGTTGTATAGTGTAAAGAACAGCGGTCGTGGCTGGATCGTCACTGATCACCATACATCGGTAAAAAAAGTCCACCGAATTGATCGCTAA
>SRR1151252_00633 diguanylate phosphodiesterase
TTGAAAAAGAATTGTGTGAAGACAATCCTTAATGAGCAATTACAATTACACAATATTTTTCAACCCATTCTCCGGGTTGACCAGCAGCTCCACGCAACGGTCGACACTTACGAAATGCTAATGCGTGATGCGGCGGGAAACTTTCCAGGAACCGATTTTCTGACTAGTCTCACGACCCCCGGGGGGAATGAACGCTGGATCACAATTAGTCAGGCCTCCCTTAAGAATACCCTGATGGGCCACTCCCAACGGAAGATCTACATTAACATCGAACCCTGTCAGCTGGACTTTGCTAGTACCTGGAAATTTTTAAGTAACATTCACCAACAGTACGGCGCTCAGGTTGCCATTGAGCTAACCGAACGTCGTGAAACGCTTCATGATCCGGAATACCTGGATCATGAAATTACCCGCCTCCGTCGAATTGGCTTTGAGCTGGCAATCGACGACGTCTGTGCCGGTAGCAACAGCTACGCGTTCGTCGCCCGCCAACTTGGTACGATTCACCGCATCAAGCTATCCCTCCTCCTGTTTAAGAACGAGGACCAAACAACTAGGCAACACTTTGTCGATGCCTGGCTTACCTTCGCGGCTGAACACCAACTGGACTTTGTTATCGAAGAAATTGCCGATCGCAAGCTCGCCCGCCGCTTTGCCGGTAACCCCACCATCCTTCAACAGGGCTTCTACTGGGGAAGAGGCACCGCTAACATTTGA
>SRR1151252_00634 acyl-ACP thioesterase
ATGGACTTACAGCAAGATAAGCAGGTATACGAGATCGCCCACCGGCTGACCTACTATGAGTGCGACGATACTGGTCACCCGACCATGAGCATGTTGCTTAGTATGATGACGATGGTCTCCGACGCCCACAGTATCGCTCTGGGGATGGATACCGCCACCATCCAGGCAACTGGAGAAGCCTGGGTGATTACTGAATACGATGGGCGCCTGTCACCTGAACAACCGACCTTTGGTGATCAGGTTATCTTGGGAACACGAGCAGTTGCTTATAATCGTTTCTTCGCGTTACGGGAGTTCTGGATGGATGACGCCAACCACACACACCGTTACCTCCACCTGCGTGCAACCTTCGTCTTCATGAACCTAAAGAAGCGGCGGCTGATGTCGATCCCACCGGCTTTGATCACCCCCTTTGAGTCACCGGAAGAAAAGCGGCTTCCCCGGTTGGGGCGGCCCGGGTCGATCACGGCGGAAGCGCCAGTGAGTCAGCAGTACCGGGTTCGTTACTTTGACATTGACGTCAACCACCACGTGAATAACGCCCGCTACCTCGATTGGTTACTCGACCCCCTCGGTGGTGAATTCCTTCGCCACCATCGACCGGTTAAGCTGGTGATTAAATACGAGCACGAGGTTCAGGCGGGGGCGAGCGTTACTAGTCAGTACCAGCTGGTCGATGATAACGGCCTGCATAGTCGGCATGTGATCGTTGTCGACGGCCAGGATTGCGCGACGGCGGAGTTGACCTGGACACCAATTAAATAG
>SRR1151252_00635 16S rRNA methyltransferase
ATGATGCAACAGATTAGCAGTTTTAATAATCAGCAGGTGGGACACCTCTACCTGGTGCCAACCCCGATTGGCAACCTTGATGACATGACCTTTCGGGCGATTAAGACCCTCCGTGATGTTGACCTGATTGCGGCGGAGGACACCCGCCACACCCAGCAGTTGCTGAACCACTTCGAGATTGATACTCGTCAGATTAGCTTTCATGAGCACAATACCGAGCAGCGGATTCCCGAATTATTGGCCAAACTCCAGGACGGGATGGACATTGCCCAGTGCAGCGATGCGGGGATGCCCTCCATCTCTGACCCCGGAAAGGAACTGGTGGCGGCGGCAGTCCAGGCTGGTATTCCAGTTATCCCGCTGCCAGGAGCCAACGCGGGGCTGACTGCCCTGATTGCCTCGGGCCTGGTTCCGCAGCCGTTTTACTTCTACGGCTTTTTGGAACGCAAGCACCAGCAGCAGGTGACGGCCCTTCAGGAATTGGTGAATCGACCGGAGACAATGATCTTCTATGAGGCTCCGCACCGACTGAAGAAGACCCTGGCGACGATGGCGGAGGCGTTCGGCGATGACCGGCCCGCCGTCCTTGCCCGGGAACTGACGAAGCGTTATGAGGAGTTTAGCCGGGGACACCTGGGTGAACTGCGCGACTGGTTTACCGACCACCAAGCCCGGGGTGAGTTTGTCGTTTTGGTGGCTGGCAACCCCAACCCGCAGGCCGCGGCAGTTGATAACGATGAAGGTCTTTCGCTGACCGAACAGGTGGACAAGGCGATTGTCAACGGCCTTTCCACCAATGCGGCCATCAAACTGGTTGCCAAGCGTAACCACATCAAGCGCCAGGAACTTTACAAGCAGTACCATAACCTATAG
>SRR1151252_00636 DNA replication initiation control protein YabA
ATGAGTGAGAAACAAGCAAATGAGAATATCTATGACCGTTTTGCCCAGGTGATGAAACAGACCCGGGAACTGGTTGCTAACATGGAGCAGCTTCAGGCCCAGATCACGGAGGTGTTGGAACAAAACGCCGAACTGTCGATTGAGAATGACCACCTCCGTAAGGCAATTAAGAAGATGAAGGATCAAAGTGGTGAGGCCAAGCTGTCTGGCTCGCGGCAGAACCTGAAGGAGCTCTACCAGCAGGGCTTCCACGTTTGCAGTGAGTACTTTGGTAAGCGTCTGGCCCCGGGTGAATCCTGTGCCTTTTGTACGGACGTCATCTTCGGCCATGATCCCGACAAAGCAAAGTAG
>SRR1151252_00637 DNA polymerase III subunit delta'
TTGGCTGAGGAACCACAAGAACGTGCCGAAAGGCTCCAACCACGGATTGTTGCCCGGCTCAAGCGGATCTTGGACAAGCACGAACTGGCCCATGCCTACCTGTTCGTTGGCCCTGATGGATCCGGCAAGCTTGAGGTGGCCCGTTGGCTGGCCCTCCGCCTCTTTTGCCTGCACCCGCAGGATGGTGAGCCGGATCTGACCTGTGCCGAGTGTCAGCGGATTCTGTCCGGTAACCACCCGGACATTGTGACTGCCGCGGCGGAAGGACGGCAAATTAAGGTGGACGAGATTCGCCATCTGAAGGCCGAGTTTACCAAGAGTGCCATGGAGGGGAGCCAGAAGCTCTTCATCATCCAGGATGCCGATAAGATGACTACCGGGGCGGCTAACAGCCTTTTGAAGTTCATTGAGGAGCCCGGTCCCGGAGTCTACATCCTGATGCTGACTACCAACAAGAGCGCAGTTCTACCGACAATCCGGTCACGGACCCAGGTGATCGAGATGCAACCGCTAAGGCGCGCTGACCTGCTTGATCAGTTGGCCGCCCTGGAAATTCCCAAGGGGCAACGGCTGGTGGCGATTGGCCTCACCGATTCCGTTCAGCAGGTTCAGGAGTGGTGTGCTGACGGCTGGTTCGCACAGGCGGTCACTGGGGTCAGTCAGTGGTTCAATAGTGTCAGTCAGGGGAACATGTTGGCCTTTGTCGAGGTCCAGACCAAGCTAGTCAAGTTGGCCACTGACCGTGATAAGCAGCAGGTCTTACTCGACCTGATTACCCTGATTTGGCGCGACGCCTTACTGGTGGCCAACGGCATCAGCGATCCGGATCGACTGCACTTCGTCAACGAGCAGGGACAGATGCAGGCGCTGGCGGGCCAGTATTCGATGGCCCAGCTGTTGACGGTCAGTCAGCTGACCCTGGAGATCAGGCACCTACTCGGTCAAAACGTTAACTTCCAAAACATCGTCGAGCAGCTGACCATCAGGATTGTTCAGACATTGCGTGCAGTGGGGGCAGAATAA
>SRR1151252_00638 hypothetical protein
ATGAAGATGATTGTGGCCATTGTTCAAGCAAAGGATAGCAGCCGTCTGCGGAAGGCATTCACGGCTGCCAGCATTCAGGTGACCCAGCTCTCCACCACTGGGGGCTTCCTGCGTGAGGGGAACGCGACCTTTCTGATCGGAATCCAGGATGACCGGGTTCAGGACGTCTTAAACGTCATCAAGAAGAATGCCAAGTCACGGGAGCAATACATTACATCACAGATGCACATGGACGTGGAAGGCGGCTCGGCCTTCCCGGTTAACGTTAAGGTCGGCGGGGCAACGGTCTTTGTCCTGCCCGTTGATGACTTCATCAAGTTTTAA
>SRR1151252_00639 thymidylate kinase
ATGAGTGGAAAATTTATCTCTTTTGAGGGGCCCGATGGTGCGGGTAAGACCAGTGTCATCCGCCAGATCAAGGCTGACCTAATAGCTCAACTGGGGGAAAACCAGGTGTTATACTCACGGGAGCCGGGCGGCAGCCCGATTGCCGAGCAGATCCGGCAGGTGCTCTTCGCCCCGGAGAACAAGGACATGGACGCCCGTACCGAGGCCCTACTTTTTGCCGCATCCCGGCGCCAACACGTCGTTTCCACCCTGCGCCCCGCACTGGCGGCCGGCAAGGTGATCCTGTGTGATCGCTATGTTGACAGCTCGCTGGTCTATCAGGGTGCCGGACGTCAGCTGGGAGAGGAGACCATCTGGAAGCTCAACCAGTACGCGATTGACGGCCTGATGCCGGGATTGACGATTGACCTGGACGTGCCTTCGGAGGTCGGCCTGCGTCGGATCGCCGAGCACCGTGCTGACCAAGTAAATCGTCTGGACAAGGAAAAGCTATCCTTCCACCATATGGTTCGCCACGCCTTCCTGGACCTCCAGAAGGACGACCCGGACCGGATCAAGCTGGTTGACGCCAGCCAGCCCCTCGACCAGGTGGTTGCCAACGTCAAACGGGTGATCAACCAGCGCTACCCAGAACTATTCGCAAACGAAACACAGAGGTGA
>SRR1151252_00640 hypothetical protein
ATGCTATTCAGACATCAACCCAAGCACGAGGTAGCGCAAGAACGCAACCAGCGGCTATTGGCCACGATCTATGAGACCAAGGCCAGCTGGGACCATGCCCGGGAGACCGAGCGGGCCGTCTATGAGGCCAACGTCAGCAGCGAGCTTCAGGACCGGGCCCACCTGCAGGAGCAGAAGTATCTCTACCTGTACCGGATTGCCCGGCGCTACCACGTGCACGGCCAGCTCAACCATGGCATTGTCAGCCAATAG
>SRR1151252_00641 recombinase RecR
ATGCAGTACCCAGAACCACTTGCCAAGCTGATCGAGAGCTACACCAAGCTACCGGGAATCGGCCAGAAGACAGCCACCCGACTGGCCTTCTACACCCTGGGGATGGAGGAGGATGACGTGACCAATTTTGCCAAGTCCCTCCTGTCGGCTAAACGCGACCTCCACAGCTGCAGCATCTGCGGCAATATCACGGAGGATGACCCCTGTCCGATCTGCCGGGATAAGACCCGGGATCGGTCCAAGATCCTGGTGGTTGAACAGTCTCAAGACATCATGGCCATGGAAAGAATGCATGAGTATCATGGCCTCTACCACGTCCTGCAGGGGGTCATCTCGCCCGTTGCCGGGACCGGTCCCGAGGACATCAACATCACCAGCCTCCTGAAGCGGCTCCAGAAGAGTGATGATGTCAAGGAGGTCATCATTGCTACCAACGCCTCCTCGGACGGGGAGCTGACGGCTGGCTACCTTGCCAAGCTAATCAAGCCGGCGGGGATCAAGGTGACCCGTCTGGCCCATGGCCTGTCGGTCGGTGCCGACATCGACTATGCTGACGAGATGACCCTGTTCAAGGCGGTTCAAGGACGAACGGAGATGTAA
>SRR1151252_00642 DNA-binding protein YbaB
ATGATGCGTGGAATGAATATGCAACAGATGATGAAGCAGGCTAAGGCAATGCAGAAAAAGATGATGGCCGAACACGAGGAGCTGGCCAAGCAAGAGTTTATCGGCAAGGCACCCGACGATATGGTGACCGCGACCTTCACCGGTGATAACAAGCTGGTCGACCTGAAGATCAAGAAGGAGGCCGTTGATCCCGACGACATTGATATGCTCCAGGACCTGGTGGTGGCTGCCATCAACGACGGGATGACCAAGGTCAATGATGCCACTCAGCAGACCCTCGGTAAGTACACCCGCGGCATGGGGATGTAA
>SRR1151252_00643 DNA polymerase III subunit gamma/tau
GTGAGTTATCAGGCTTTATATCGGGTTTGGCGGCCCCAGCGCTTTGATGAGCTGGTCGGCCAGCAGATTGTTACCCAGACCCTCAAGAACGCAATCATCACCAACCAGATTAGTCACGCCTACCTCTTTGCGGGACCGCGGGGAACGGGAAAGACGTCGGCGGCCAAGATTTTTGCCAAGGCGGTCAACTGCCACCATTCTAAGGATGGCGAACCATGCAACCAGTGTGATATCTGTCAGGCAATCACCAAGGGACAGCTCAATGACGTGATCGAGATTGATGCAGCCTCCAACAACGGGGTCGAGGAGATCCGTGATATCCGTGATAAGGCCAAGTACGCGCCCACCCAGGCCGACTACAAGGTCTACATCATTGACGAAGTCCACATGCTCTCGACCGGGGCCTTCAATGCCCTGCTGAAAACCTTGGAGGAGCCACCGGCGAACGTCATCTTTATCCTGGCGACGACCGAACCGCATAAGATCCCGTTGACGATCATCTCCCGGGTGCAGCGCTTCGACTTCCGTCGGATCAGTGCCCAGGATGCCTTCGACCGGATGAAGTACATCCTCGACCAGAAGAAGGTCGACTACGAGGAGAAGGCCCTGTGGGTGATCGCCAACGCTGCCGAGGGAGGAATGCGGGATGCTTTGAGTATCCTGGATCAGGTCCTCTCCTTCAGTGACAACGAGGTTAAACTTGATGACGCCCTCCTGGTGACCGGCAGTGTGACCAAGCAGCTGCTCAAGAAATATTTCCTGGAGTTGGCCCACCACGAGAGTGCCAACGCCCTCGATACCATGAAGGACATCCTGACCGAGGGGAAGGATGGTCAGCGCTTCATCGAGGACCTGATCTCTTTTATTCGGGACGTCCTCCTATACCAGGAGTCCCCGGACCTGATCAGCGTGGCGGCCACCGGACTCAAGGATGAGGACTTCAAGAGCCTCAGTGCGGCGGTATCTGCCACCAGCCTCTACCGGATGATCGATGAACTCAACGACATCCAGGAGGAGATGCGGTTTACCACCCATCCGGATGTCTACCTGGAGGTCCTGACGGTTAAGCTGTGTCAGATCAAGGACCAGCCGACCCCGGCAGATGCACAGGCGGTCCCCCAACAGGATACGACTGCGCAACCGGCCCAGCCGAGTCCGGCGGCTGATGCGACGATTAAGCAGCTTCAACAGGAGGTTCAACAACTTCAGCAGACCGTGCAACAGCTTAAGACCAGTGGCGGGGCAGTAGCTAAGAAGCCGGCCCAGCCGCGCGTCAAACAGCGTAAGGTCCAGGTTAACCTGGGGCAGATTTATCCGGTTCTTGGTGCAGCAACCCGTAAGGACCTGGTCAACATTCAGAACCTGTGGGAGGATATGCTCAACCATCTGACGGTCCCACAGCGTTCTCTTTTGCACGTCTCCAAGCCAGTGGCGGCCAGTGCTACCGGGGTAATCGTTGCCTTTAATTACGCCTTCCTATTCCAAGAGGCCACAACGGATGATAACCTGATTGCGGCGATGGAGGGCGCCTTCCAGCAGCTGATGGGGACCGAATACAAGGTGGTCTTCGTTCCAAAGAATAAGTGGCCGCAGATTCGGCAAAATTATATTAAGGAACACGGCCTCGACCGCCGTAAGCCAGCTACCGGCAAAACAACGGCCAGCGCGGCACCGAAGTCGGCTGCTAGTCAGGCCCCAAGCCAAGCTACGACCGCCGCACCAGCTAGCCAGCCAACGGTCCCGGCGAGCCCGGAACCGCCCCTGCCGGAGGAACCACCGGTTGATGGTGATGATGACGGCCCGGCTGATAATCAGCCAGCTCACTCAGCCGCCAGTCAGGATCCTGTCACCGCGGCAAAGCAGCTTTTTGGCGATGATATTGTTAAAATAGAAGATAACTAA
>SRR1151252_00644 deaminase
ATGACAGAGGAACAAATACATCAGAAGTATATGCGGGCCGCGATTGCGGAGGCTCACCAAGCCCAGCTCTTGGGGGAGGTACCGATCGGAGCAGTGATTGTCCATGATGGTAAGATCATCGCCTGTGGGCACAACATGCGGGAGAAGTTTCAGGATGTGACCTACCACGCTGAGATGCTGGCGATCATGGAGGCCTGCGCCGCCATGGGAAGCTGGCGCCTGGAGGAGTGCGATCTCTACGTCACCCTTGAGCCCTGCATCATGTGTAGTGGAGCGATTGTCAATGCCCGGATCAAAAATGTCTATTACGGGGCCAAGGACCCCAAGGCCGGGGCGGTGGACAGCCTTTACCACTTATTGAATGATCAGCGGTTGAACCACCAGGTGCATGTTGAGAGCGGCATCCTGGGGACCCAATGTAGTCAGATGCTGAAGGACTTCTTTCGGGCGATCCGGAAAAGAAAGAAGCTCGCCCGGAAAAAACGTCGAGCAAGGGGCTAG
>SRR1151252_00645 glutaredoxin
ATGGTAACGGTTTTTTCCAAAGATAACTGCATTCAGTGCAAGATGACCAAAAAGTTTCTAAAGCAACACCAGATCGACTTCATCGAACACAACATCGACGAGCAACCCGAATACGTTGACCAGTTGAAGGCTGAAGGGTTCATGGCAACCCCGGTTGTTAAGCTCCCCAACGGTAACGCATTTTCTGGCTTCCGTCCAGACCGCCTTTCACAACTGGCATAA
>SRR1151252_00646 ribonucleoside-diphosphate reductase subunit alpha
ATGGCACTATCTGATATTGACCTGACTAAGGTCCGCTACTTCGACCTCAATAACGAGGTTAACATCCCCCGCAACGGACAGATCCAACTCGACAAGGACAAAGAGGCCCTGGCGGACTTCATCGAACACAATGTCAAGCCGAACACCAAGCAGTTCTCTTCATTAAAGGAACGCTTCGCCTGGTTGGAAGACCACGACTACATCGAACGCGGCTTCATGGACAAGTACAGTCTAAGCTTTTTGGAGAAGTTGTACGCCTACCTTAAGAGCCAGGATTTTCACTTCCACTCCTTCATGGCCGCCTACAAGTTTTACGCTCAGTACGCGCTGCGGACCAACGACAAGGAATACTACCTAGAGAACTACATCGACCGGGTTGCCATGAACGCCCTCTACCTGGCGGACGGGGATGAGGACCTGGCAATGGACCTGGCCGATGAGATCATCCACCAACGCTACCAACCGGCGACCCCGACCTTCCTTAATGTCGGCCGGAAGCGGCGGGGTGAGTTTATCTCCTGCTTCGCCATCCAAACGACTGATGACATGAACACCATTGGGCGGACAATCAACTCCGCCCTCCAGCTCTCCAAGATCGGTGGCGGGGTCGGCATCAACCTATCCAACCTCCGGGAGGCCGGTGCCCCGATCAAGAAGATCAAGGGCGCCGCCAGCGGGGTCGTTCCGGTCATGAAGCTCCTCGAAGATAGCTTCTCCTATTCCAACCAGCTCGGCCAGCGGCAGGGAGCTGGCGTGGTCTACCTGAGCGTCTTCCACCCCGACATCATCGAATTTCTCGGAGCCAAGAAGGAAAACGCCGACGAGAAGATTCGTTTGAAGACCCTCTCTTTAGGTGTTACCGTTCCTGACAAGTTCTACGAGCTGGTCGAGCGCGACGAAGACATGTACCTCTTCAGTCCCTACGATGTCGAGCGGGTCTATGGGGTCCCGTTCTCCTACGTTGACATCAGCAAGGAATACGACAACATGGTTGCCAACGACGAGATCCACAAGAAGAAGCTCAACGCCCGCGATCTTGAGGACGAGATCAGCAAGCTCCAGCAAGAATCCGGTTATCCCTACATCATCAACATTGACACCGTCAACCGGGCCAACCCGATTGCCGGCAAGATTGTCATGAGCAACCTTTGTTCAGAGATTGCCCAGGTCCAGGTACCATCCCGGGTCAATGATGATCAGACCTACACCGAGCTGGGCCAGGACATCTCCTGTAACCTCGGCTCGACCAACATTGCTAACATGATGGAAAGCCACGACTTTGGCCGGTCCATCCGGGCAATGGTCCGGGGATTGACCCGGATCAGTGATGTCGAACAGATTGACACCGTCCCGACCATCAAGCATGGTAATGCCCTCACCCACGCCATTGGTTTGGGGGCGATGGGCTTACACGGCTACCTGGCTAAAAACCATATCCAGTACGGCAGTCCGGTCGCCATTGAGTTCACCGGCATCTACTTCATGTTGCTGAACTACTGGTCCCTGGTTACCTCTAACGAGATCGCCAAGGAACGGTGCGAATCCTTCCACGACTTTGACAAGAGTGCCTACGCCGACGGTTCCTACTTTGATAAATACGTCAGCCAGGACTGGCGGCCCCAGTCCGACGTCGTCAAGGAGCTCTTCAAGGGCATCTTCATCCCCGGTCCGAATGACTGGAAGGCGCTCCGTGACCGCGTCAAGAAGGATGGTCTCTATAACGCCTACCGCCTGGCCGTAGCACCAAACGGTTCGACTGCCTACATCAATGACTCGACCGCCAGCCTGACCCCAATCGTCAACCGGATCGAGGAACGCCAGGAGAAGATGATCGGTAAGATCTACTACCCGGCCCCATACCTATCTAACGACACGATGCCATACTACAAGTCCGCCTACGATACTGACATGCGTAAGGTCATCGACACCTACGCGGCTGCCCAACAACACGTCGACCAGTCGATGTCTTTGACCCTCTTCATGCGATCCACCATCCCGGCCGGACTCTACGACTGGAAGGCTGGTCGGACCAACAAGATGACCACCCGGGACCTTAACCTTCTGCGCCACTATGCCTACAAGAAGGGGATCAAGTCGCTCTACTACATCCGGACATTCACCGATGATAACGACGAAATCGGGGCCAACCAGTGTGAGAGCTGTGTTATTTGA
>SRR1151252_00647 ribonucleoside-diphosphate reductase subunit beta
ATGAAGCTTGAAGAAGAATTTAAGCCACTGAAAAAATATAAGGCGATCAACTGGAACGAGGTTTCCGACATGATCGATAAGGCGACCTGGGAGAAGCTGACCGAACAGTTCTGGCTAGATACCCGGATACCGGTTTCTAATGACCTTGATGACTGGCGGGAACTAGATGACGACCACCGCTGGACAGTTGGTCATGTCTTCGGGGGATTGACCCTCCTGGATACCGTGCAATCTGAGGCCGGTCTGACCGCCCTCAAGCAGGACGTCAAGACCCAGCATGAAACTGCCGTCCTGAACAATATCCAGTTTATGGAATCGGTCCACGCCAAGAGTTATTCCACTATCTTCTCAACCCTGAATACTCCCGACGAGATCGACGAGATCTTCAACTGGTCCGATTCCGAGGAGTACCTCCAAAACAAGGCCACCAAGATTGCCAACATGTACCTTGATCCCGAAGAGGACCCCCTCAAGAAGAAGGTTGCCAACGTCTTTTTGGAGACCTTCCTCTTCTACTCCGGCTTCTACACACCGCTCTACTACCTGGGTCACAATAAGCTGAACAACGTGGCCGAGATTATCAAGCTGATCCTCCGGGACGAATCCGTCCACGGTACCTACATCGGCTACAAGTTCCAGGTTGGCATGCACGACCGGACCGAGAAGCAGCAGCAGGACATGAAGGACTTGGATGTACAACTTCCTCTATAA
>SRR1151252_00648 ribonucleoside-diphosphate reductase subunit beta
ATGTACAACTTCCTCTATAATCTTTACAGCAATGAGGAAGAGTACACCAAGATTCTTTATGACCAGGTTGGCTGGACGAGCGACGTTTTGACCTTCATCCGCTACAATGCCAACAAGGCCTTGATGAACCTCGGGCAGGAACCACTCTTCCCCGACACCGCGGCTGACGTCAACCCCGTCGTCATGAACGGAATCTCCACCTCCACCTCCAACCACGACTTCTTCAGCCAAGTCGGTAATGGTTACCGGCTCGGTGAGGTTGAGGCGATGAGTGACGATGACTACAACATCAAGGACCCTAACGCCGGTAAAGACAAGAACTCACGTGAATAA
>SRR1151252_00649 bifunctional acetaldehyde-CoA/alcohol dehydrogenase
ATGGCTAATCAAAAGAAGCAAACCATTGAATCAAAGGAAAGCAAGCAACAACAGGCTCAGGCAATGGTCGATGACCTGATGCAAAAGAGTCTGGATGCTTTTGAGAAATTACGATACTATTCACAAGAGCAAGTTGACAAGATCTGTCAGGCGATGGCCCTGGCTGCCGAAGAACATCACATGGACCTGGCCGTTGACGCCGCCAAGGAAACTGGCCGGGGGGTTGCCGAAGATAAGGCGATCAAGAATATCTACGCCAGTGAATACATCTGGAACAACATCCGTCACGACAAGACGGTCGGGATCATTGAAGACAACGATGAAGACCAAACCATCACCATCGCGGACCCGCTGGGTGTGATCGCCGGAATCGTACCGGTTACCAACCCAACCTCCACCACGATCTTCAAGTCCATCATCTCCGCTAAGACGCGGAATACGATCATCTTCTCCTTCCACCCACAGGCCCTGCAGTCCTCCATCAAGACCGCCAAGATCCTGCAGGAAGCCGCCGAAAAGGCCGGTGCCCCAAAGAACATGATCCAATGGATTCCACAATGTAGCCTGGAAGCCACAAACGCACTGATTACGAACCCGAACACCGCCACCATCCTGGCAACTGGTGGTCCGGCCATGGTCAAGGCTGCCTACAGTTCCGGTAACCCAGCCCTGGGGGTTGGTCCTGGTAACGGTCCAGCCTACATCGAAAAGTCAGCTAACATCGCCCGTTCCATCTACGACATCGTCCTCTCCAAAACCTTCGATAACGGGATGATCTGTGCCTCCGAAAACTCCGTTGTGGTTGATGATGAGATCTACGATCAGGTTAAGGAAGAATTCAAGAAGTGGAACTGCTACTTCATTAAGCCAAACGAGATCAAGACCTTCACTGACGGCTTCATTGACCCCGAACGTCACCAGGTTCGGGGCCCCATCGCGGGTCGTTCCGCCAACGCCATCGCCGAGATGTGTGGTTTGAAGAACGTACCAGCCAACACCAAGGTCCTGATCGCCGAATACGACGGGGTCGGTGACAAGTACCCGCTGTCCGCCGAGAAGCTGTCCCCAGTGCTGACCATGTACCGGGCCAGCTCCCGTGAGAACGCCTTTGATATCTGTCGTCAACTCCTGCACTACGGTGGTGAGGGACACACGGCTGCTATCCACACCTTAGACGAGGACCTGGCCACCAAGTACGGCCTGGAGATGCGGGCCTCCCGGATCATTGTCAACTCACCATCCGGGATCGGTGGTATTGGTAACATCTACAACAACATGACGCCTTCCCTGACCCTGGGAACTGGTTCCTACGGTGGTAACTCGGTTTCCCACAATGTTACTGACTGGGACCTCTTGAACATCAAGGTCATCGCTAAGCGGCGTGAGAACCGTCAATGGGTCAAGATCCCCCCAAAAGTATACTTTCAACGGAACTCATTAAAAGAATTGCGGGATATCCCAAACGTTGAGCGGGCCTTTATCGTTACCGGCCCGGGGATGAGCAAGCGGGGTTACGTTCAACGGGTGATCGACCAACTACGGCTCCGGCAAAACCGGACGGCCTACCTCGTCTTTGATGACGTTGAGGAAGACCCATCCACGAACACCGTTGAGAAGGGTGTCGCAATGATGAACGACTTCAAGCCGGACACGATCATCGCCCTCGGTGGTGGTTCACCGATGGACGCCGCCAAGGCAATGTGGATGTTCTACGAGCACCCCGAAACTTCCTGGTACGGCGTAATGCAGAAGTACCTCGATATCCGGAAGCGTGCTTACCAGATCAAGAAGCCGGTTAAGTCCCAGATGATTGCCATCCCAACCACCTCCGGGACCGGTTCTGAGGTGACCCCATTCGCGGTTATCACCGACTCCAAGACCCACGTCAAGTACCCACTGGCCGACTACGCCCTGACGCCAAACATTGCGATCGTCGACTCCCAATTCGTTGAGACGGTTCCGGCCAAGACCACGGCCTACACGGGTTTGGACGTTCTCTGCCACGCTACTGAATCCTACGTTTCCGTGATGGCAAGTGACTACACCCGTGGTTGGTCACTGCAAACCATCAAGGGGGCCATGGAATACCTGCCGAAGTCAGTCCGCGGCGATAAGCTCGCCCGGCGGAAGATGCACGACTTCTCCACGATGGCCGGAATGGCATTTGGTCAGGCCTTCCTGGGAATTACCCACTCCCTGGCCCACAAGATGGGTGGTGCCTTCGGTCTGCCTCACGGTCTGCTGATCGCCATTGCTATGCCACAGGTCATCCGTTTCAACGCCCAACGGCCACAGAAGCTTGCCCTCTGGCCACACTACGAGACTTACCACGCAACTAAGGACTACGCCGACCTAGCCCGGTTCATCGATCTGCAGGGTAACACGGACGAAGAATTGGCGGAGGCCTACGCCAAGAAGTACATCGAAGTGGCTCACGAATGTGGTGTCAAGCTGAGCCTTAAGGACAACGGCGTTACCCGTGAACAATTCGACAAGGTTGTTGACCAACTCGCTGTCCTGGCCTACGAGGACCAATGCACGACCACCAACCCGGTTGAACCGCTGGTTAGCCAACTAAAGGAACTCCTGGAGCGTTGCTACGACGGTACCGGTGTGGAAGATGTTAAATAA
>SRR1151252_00650 large-conductance mechanosensitive channel
ATGCTTAAAGAATTCAAAGAATTTATTGCCCGCGGCAACGTGATGGACATGGCCGTCGGGATCATCGTCGGTTCGGCCTTCACGACCATCGTCAAGGACCTGGTCGCCTACCTGATCAATCCACTGATCGGGCTCTTCGTCGGCAAGATCGACCTGTCCAACATCGTTTTCACCATTGGCGCCGCCCAATTCAAGGTCGGTTCCTTCCTAAACGCGGTGATCAACTTCCTGATCATCTCCTTCGTCGTCTTCCTCCTGGTCAAGGGAGTCAACCGCTTCCGTACCAAGAAGGAAGAACCAAAAGAGGCTAAGCCGAGTGCTGAAGTTCAATACCTCAAGGAGATTGCTGAGACCCTGAAACAGCAACAGGATCAGCCTTCCCCAGTGGCCGTTAAAAGCCAGGCGACGTCAACAACAAAATCTGAGTAG
>SRR1151252_00651 hypothetical protein
ATGAAACGAATGTTTAAGATTGGCTGGCTGGTCCTAATGGTTGGGCTGGTCGCCCTACTGGTTGGCTACCTCAACCATGGTGACCGCAACATTGAGTTCAGCGGGGGCCGCCCTCAACTGCAGCACCAGGGCAGTTGGCAGTTAACCAGCAAACACTTTGACCGGTTGGACCTGGATGTATCAAGCGCCGATGTCACAATCAGACATGGGGCCAAGTTTGGCGTCAGTTATCAGGGAACCCGGTGCAACCGCCCCCGGGTAACGATCAAGGATGGGACCCTGACGGTTAACCAAACGGCGGTCGGTCACTTCTTCTTTAGCGTGCACGGGGTCAACGATCACCTAATCATTACCGTACCCCAAGACGTCACAATTAACGGCGGGACCGTCAAGCTGTGGAGTGGGAACCTTGTCGTTGACGGGGTTAACCTGACCAATACCAAATTGGCCGTCGTCAGTGGCGATGCTGACCTCAATCGGCTGATGGTCAGTGGTGGACAGGCTCAACTTAACTCCGGCGACTTCACGGCCCGCGAACTGCGGATTGAGGGCCATTACCGGGTCAAAAACAGCTCTGGAGATAACGAGGTCCATGTGGCCGCAGTCGATGGCTACCGTCTGCAGACGTCTAGCGGGGACAACACCGTCAATGGTCACGACTATAATGACCAGGACGCGGTTGAAGAGAACATGACGGCCGCCAACACCCTAGAGCTGGTGACCCAGTCCGGGGATAATGAATACGACAATTAG
>SRR1151252_00652 hypothetical protein
ATGAACGCGCGGGAACGATACATTGCGGACCTGGCCAGCCACCTCAGTCCGTTGACGGATGTGGAGCGCCAGGATGCGCTGGAGTTTTATGACGAGTTTATTGCTGACGGCGACCTGACCAGCCGCCAGGCAATCGAGGGGAAGCTGGGGACGCCCCGGCAGTTGAGTCGGCAGATCCTGGCCGACTACTCAATCAGGGCTAATGACCAGTCAGCTCAGGATGGCCGCCCGGCTAGCACCCATTCTAGCTGGCAAGTCTTCTGGTGGGTATTAATTGCCATCATCACCTCACCGCTGACCTTTGGGGTTGGCTTGGCGGTGGTGATCCTGATCGCAATGGCTGCCTGTCTCTTCGGCCTAGCAGTGGGGGCGGTCGCCGTGGTTGGCTCGTTAGCCGTGGCGGCAGGGGCGACCCTCTATGTCGGGATCAGTATGCTTTTCACGGCTCCGATGACCGGTCTTTACTACGGTGGGATTGGTTTGGCGGCAATCGGTGGCTTCATGGTCTGCCTGCCGCTGCTCTACTGGTTAGTCCGCCTGCTGGCTCAGGCGGTTGCTAACTTTGCTAAGTTTATCTACCGGAAGATTCAGACACGAGGGAAGGGGACTAATCATGAAACGAATGTTTAA
>SRR1151252_00653 PadR family transcriptional regulator
ATGAAGATTCAGATTACGGCGGACCTCCTGGACGGGATTGTGCTAGCCATCTTAGAGCGTAATGACTACTACGGCTATGCACTGACCCAGCGTGTCCAGGAGGTCATCACGATCTCAGAATCGACGATGTACCCGGTGCTGCGGCGACTGAAGAAGGACGGTTACGTGACCACTTACGACCAGCCCTACCAGGGACGAAATCGTCGCTACTACCAGATTACGGCCGATGGGAAGAGCCACCTGGCCCGGGTTCGGCAACTCTGGAACGACTACAAGAACACTCTTGATCAGATATTTAACCCAGATGGGGGAGGGGATGCAAAATGA
>SRR1151252_00654 hypothetical protein
ATGCTATTCCAGGTTTACGGTGACCAAGCGACTTGGCAGTTTCTCGGCTGGTTTCTCGTCTTCATTAGCTTGATTGTCGCCAACGAGATTGCCCGGCGGAGCAGACTTGGGGGATTGCTCTTCTTCGTCATCCTGCCGGTCTGTTTGACCATCTACTTCATCACGATCTATGTCTGCGCGGCCCATGGTCAGTCATGGGCGTTGCACAACCAGACCTACGTTCACATGAACAGCTGGTTTCACTATGCTAAGCTTTACGCGGCCACTTTCGGCTGTATTGGTTTCATGATCCTAAAGTACCACCGGGGACGCCTCGGCAAGGCCTACTGGTTCAAGATGTTCCCGTTTGTTATTGTTGCAATTAATATTTTTATCGCCGTCGGGAGCGACTTTGAATCGGCTATTCAGGGGATGCGCGCCCTCCAGACCACCGGTAGTCAGTGGTGGCTGTCATCCGAGGGTGTCTGGCTCTATGGTGGTTGGTGGAACGTCCTCAACGGCCTAGCCGGTATCCTCAACGCCTTCTGTATGACCGGCTGGTTCGGCATCTATTCGTCCAAGAACGAGGATGACATGCTGTGGCCGGATATGACCTGGCTATTTATTTTAGCTTACGATGTCTGGAACTTCGAGTACACCTACGCCAACCTACCGACCCACACCTGGTACTGTGGAGTGGCTCTCCTGCTGGCGCCAACCTTTGCCGCGGCCTTCTGGAACAAGGGTGGCTGGATCCAAAATCGGGCCTTCACCCTGGCTATTTGGTGCATGTTTGCCCAGGTGGTACCAGAGTTCCAAGGTACCGGGAAGTTTGCGGTCCTACCTGTCCTATACAAGGATGGGGTGATGAACCCGGCCGTTCACCCCGGGGCCGCCGATCCGCACATGATGGGGATGATTGCGGTCCTCTCGCTAGCGATCAACGTGGTTGTCTTCGCTATCATCTGGAAGCGGGCCAAGAAGATGCACATCAACCCGTACCTGCATCCGGTATTTGTCGGGACCAAGGATTACGAGGAAGCGATGGCTCGTCGTTAA
>SRR1151252_00655 hypothetical protein
ATGATTAGGAAAACGCTTTCTATCACGCCCTTATTGTACAATAGTGTATTTTTGACAAACAACGTTTATTTCTGGGCGATTGTGATTGGATTCTGGGTATACTACGGTGTTACCCACGACGTCAGCGGAATTGACGGCTGGTTCATCACCATGAACTGGGTCAACATCGCCGTCGCTGCTATTCAGGTCTACTTTGGCTACAAGAGCATGTCGAATGCTAACCACATGCACTATGCCGCTAGCTAA
>SRR1151252_00656 alcohol dehydrogenase
ATGAAAGCTGCTGTAGTACGTGATAATTGTGATGGATACTTTGACGTTAAGGACGTCCAACTACGTGACCTCAAGGCGGGTGAAGCCCTGGTCAAGATGGAATACTGTGGCCTCTGCCACACTGACCTCCACGTCGCGGCTGGCGACTTTGGTAAGGTTCCTGGCCGGATCACCGGTCACGAGGGCATCGGCCGGGTTGTCAAGGTGGCACCCGGAGTTACCAGCGTCAAGGTTGGTGACCGGGTTTCTATCGCCTGGTTCTTCTCTGGCTGTGGCCACTGTAAATACTGCGTCAGCGGTAATGAATCGCTTTGCCGCCACGTCAAGAACGCCGGTTACAACGTCAACGGGGCAATGGCCGAATACTGCATCGTCGAGGCCAACTACGCGGTCAAGGTTCCTGAAAAGCTCGACCCCATCAAGGCAACGTCTGTAACCTGTGCCGGGGTCACCACCTACAAGGCCATTAAGACCAGCGAGATTCGTCCTGGCCAGTGGATCGCCATCTATGGGGCCGGTGGCCTAGGAAATCTCGACGTTCAGTGGGCTAAGAACGTCTTCAAGGCCCATGTTATCGCCGTTGACATCAACGACGAAAAGCTGCAATCCGCCAAGGAAAACGGCGCCGACATCGTCATTAACTCCGCCAAAACCGATCCAGCCAAGGAGATCCAGGACAAGGTTGGTGGCGTCCAGGCGGCCGTGGTAACGGCCACCGCCCCAATTTGCTACGACCAGGCCTTAGCCTCCGTCAAGGCTGGTGGCAAGGTGGTTGCCGTCTCCCTACCAAAGGGTAACATTGACGTACCGATATCCAAGACCGTCCTCGACGGGATTGAGATCGTCGGTTCCCTGGTTGGTACCCGGCAGGACCTGGCCGAGGCCTTCCAGCTCACGCCTGACGGGGGGATCGACCCAATCGTCCACACCCGGAAGCTCAGTGAGATCAATGATATTGTTGACGAGATGAAAGAAGGTAAGATCATCGGTCGGATGGTCGTCAACTTCACTCACGGTGCAAATTAA
>SRR1151252_00657 hypothetical protein
ATGCAAATGTGTCTCAAGCCTGCTTTGTCGTTTAAAAAGAAAAAAGCCGCTAACCAGCGGCTTCTTCCTGTATTAATGAATGTAGGACTACTTAAGGGTAACAGTAGCACCAGCGGCTTCAAGCTTTTCCTTGATTTCGTTGGCTTCGTCTTCCTTAACGTCTTCCTTGATTGCTGA
>SRR1151252_00658 50S ribosomal protein L7/L12
ATGGCTTTTGATAAGGATGCTATCATTGCTTCATTAAAGGAAGCATCAATCTCTGACCTTAACGACCTTGTTAAGGCAATCGAAGACGAATTCGACGTTTCTGCTGCTGCTCCAGTTGCTGTTGCCGGTGCTGCCGGTGGCGACGCTGCTGCTAAGGACAGCTTCACTGTTGAATTGACTGAAGCTGGTGTTGCTAAGGTTAAGGTTATCAAGGCTGTTAAGGACATCACTGGTGTCGGCCTGAAGGATGCTAAGGACCTGGTTGACGGTGCTCCTTCAGCAATCAAGGAAGACGTTAAGGAAGACGAAGCCAACGAAATCAAGGAAAAGCTTGAAGCCGCTGGTGCTACTGTTACCCTTAAGTAG
>SRR1151252_00659 50S ribosomal protein L10
ATGAGTGAAGCAGTTATTGCTAAGAAGGCTGAAATCGTTAAGGACACCCAAGTCCTGCTTAACGATGCACAATCAGCCATTGTTGTTGACTACCGTGGTTTGACGGTTGCCGAAGTTACCGACTTGCGTAAGCAACTCCGTGACGCCGGTGTTAAGATGTCAGTTATCAAGAACAAGATTCTTGAACGGGCCGTTGAAGGTACTGACTACGAAGACCTGAAGAGCACCTTTGTTGGTCCTACTGCTGTGGCTTTCTCAAACGAAGACCCAATCGCACCAGCAAAGATCTTGAAGAAGTTCGCTGATGACCACGACGCTCTTGAAATCAAGGGTGGCTTCATCGAAAAGAGCGTTAAGACTCTCGATGAAATCAACGAATACGCTACTATGCCAAGTCGCGAAGACCTGTTGTCAATGCTTGCATCTGCACTGCAAGATCCAATGCGGAAGATTGCCCGTGCAGTCAAGGCCGTTGCCGACAAGGAAGACGAAGCCGCATAA
>SRR1151252_00660 aminotransferase
ATGACACAATTTAAGTTCTCAAAGCGTGTTCCGGCAGATGGAACGGATGCGGTGGGCGCAATTCTCAAGGCAGCGGCTGATCCGCAAATTATTTCATTTGCTGGGGGATTGCCGGCACCCGAATTATTCCCAGTCAAAGAAATGAAGGCTGCGGTGGACAAGATCTTCGCCACCCACGGCCAGGAAGCCATGCAGTATGGCGCGGCCAAGGGGGTTACCGCCCTGCGTGAGTTGATCCAGCATCATGTTAAGGAAAAGGAAAACGTCGATGCCGAGCTTGATAACGTCCTGGTCACCACCGGTTCGGAACAGGTCCTCGACCTGGTCGGCAAGGCCTTTGTTAACCCCGGCGACACCGTCCTGGTTGAACAGCCAACCTACCTGTGCGCCCTCGATGTGTTCAAGACCTACGGGGCTAACTTTGCTGGTGTGGAGATGGACGAACAGGGGATGAAGATGGATGCCTTAGAGGAAGCCCTGAAATCCCATCCAAACACCAAGCTGGTCTATACGGTGCCGAATTTCCAGAATCCGACCGGCCGGACGATGGCCCTCGACCGCCGTCAGAAGTTGGCTGAGCTGGCGGCCAAGTACGACGTCTACGTCTTGGAGGACAACCCCTACGGTGAGATCCGCTTCGCTGGTCAGCACGTGCCGGCGGTGAAGTCTTTTGACAAGACCGGCCATGTCTTTTACATGAGTACCTTCTCCAAGACCCTGGCCCCTGGCTTCCGGCTGGGCTGGTTGGTTGCCGATGCTGACGTGGTCAACAAGCTGACCGTGCTGAAACAATCGGCTGACCTCCATACCGATAACCTGGTTCAGTATGCGGTGGCCCAGTTCTTTGCGGACAACGATGTCAACGCCCATGTTCGTGAGATCAGTGACCTCTACGGCAAGCGTAAACAGCTGATGGCCGACGGGATCAAGCAGTATTTCCCGGCCGGGGTTAAGTACACCGATCCCGAGGGCGGGATGTTCCTCTGGATCGAAGTACCCGGGGTGGCCGACACCGTCGAACTCTTCAAGGAATGTCTGAAGCATAATGTGGCCTTCGTGCCCGGCGACCCGTTCTTTGCGGGGAAACCACAGCCGGGGGCCTTCCGCCTGAACTACTCCAACGCCCCGGAGGACAAGATCAAGGCCGGCATGAAGCAGCTTGGCGAAGCCCTTCAAGACGCCGTTGCCGGTAAGTAG
>SRR1151252_00661 prolyl aminopeptidase
ATGAACGTAACCGAGCTTAACATTCCCTTTGGTCACTTCCACACCTATTGTCGGATCGCCGGGGCGCCCAGTGACCGCCCACCGCTGTTGCTCCTGCATGGTGGCCCGGGTTCGACCCATAACTACTTTGAACTATTGGATGGACTGGCGAAACGGGCCGGTCGCCAGCTGATTATGTATGACCAGCTGGGCTGCGGTCGGTCGTCGATTCCCGATGACCAGCCCGAACTTTACACGGCAGGGACCTGGGTGGCCGAGTTGGTGAACCTGCGTCGCTATTTGGGGCTCGACCAGGTCTACCTGCTGGGGCAGTCTTGGGGTGGAATGCTGGCAATCATCTATCTCTGCGATTACCAGCCCCAGGGGGTCGAGGGCGTGATCCTCTCCAGCACCCTGTCATCGGCCCGGTTGTGGGCCAGTGAACTTCACCGCCTGATCAAATTCATGCCGGAAGAAGAACAGGCGGCCATTCGCCAGGCTGAACAGACGGGGGACTTCACTAGTCCGGTTTACCAGCGGGCTAATGCGGCCTTCATGACCCTGCACGCGGCCACCCCGGCGACACCCCAGTCGCCGGAGCCGCTGCGCCGGGTCAAGCGGGGTGGTGAGGTGGCCTACCTGACTGCTTGGGGACCCAACGAGTATAACCCATTGGGCAACCTCAAGGACTACGAGTACACTGCCAAGCTTGACCAAATTAAGATTCCGGCGCTGGTGATCGACGGGACCAACGACCTTTGCACGCCCCTGGTAGCCAAGACGATGTTTGACCACCTGCCTTGGGCCCGTTGGCAGCTCTTCCAGGGGGCCCGGCACATGGTCTTTGCCGAGCAGACTGCCGCTTACGAACGGACGGTGGTCGATTGGCTGATGGCGATTGAAAATTGA
>SRR1151252_00662 2-keto-4-pentenoate hydratase
ATGACTGCCTTAAACGAACAACAAACGAAATTTGCCCAAGCATTATTCGACGCTTACACCTCGGGTAACCCCCTCCATGAGGCGGACTGGGATGACACCGTCACCGATGACAACACCGCCTATGCCGTCCAGGACCAGGTGATGAAACTCAAGGGGGTCCCAGTCGGCGGCTACAAGGTCTCCCTGACCAGCAAACAGACCCAGCAGATGTTTGACGCTGACTCCCCGCTCTATGGTCAGCAGGTCGACAGCCACTTCCTGCCGTCACCAGCCACCGTCAAACTAGCCGACCAGATGGAACCGCTGGTGGAGGTTGAACTCGCCTTCCGGGCCACGGAAGACCTCCGTCCCGACGATCGTCTTGACGACCTAATGCATAAGACCACGGTCGCCGGGGCGCTGGAGGTCCCTGACTCCCGCTTTGCCGACTGGTTCCCGGACCTCAGCAAGTACAACGTGATGGCCGATTGTGCCGTTGGTGGACTGGTCGTCTACGGCCAGGAGCACCCGACCGCTTCCCTCTTCAAGAACGTTGACGAGCTCGCGACGGTCAACGCCCAGCTCTTCCTCGGCGACCGTAAGCTGGATGAAGGCGTCTCAAGAGAGGTCCTCGACAACCCGCTGTATTCCCTGCAATGGCTGGTTAAGAAGCTGGCCAGCCAGGGAAAGGTCTTCCGGCAAGGGCAACTGGTTTCATCAGGGACCTTCGTCTTGCCGCCAAAACTGGTCCAGGGCCACTGGTTGGTCCGCTTCGGCCATGGGCTGGGCAACGTTGAGTTAACCGTCCAGTAG
>SRR1151252_00663 50S ribosomal protein L1
ATGGCTAAGAATCGTGGTAAGAAGTACCAAGACGCGCTTAAAAAGGTTGACAGCAAGAAGGAATACGCTGTTAACGACGCGGTTCAATTAGTAAAAGATATTGACTTTGCTAACTTCGACTCAACCGTTGAAGTTGCATTTAACTTAAACGTTGACACTAAGCAAGCTGATCAGCAATTACGTGGTGCCGTTGTTTTGCCAAACGGTACTGGTAAGGACCAAACCGTGATCGTATTTGCTGACGGTGAAAACGCCAAGGCTGCTCAAGACGCCGGTGCTGACTTTGTTGGTTCCGACGACTTGGTAGAAAAGATCCAAGACGGCTGGCTCGACTTTGATGTTGCCATCGCAACACCAAACATGATGCCTAAGGTAGGTCGCCTGGGTCGGATCCTTGGTCCTAAGGGCTTAATGCCAAACCCAAAGACTGGTACGGTTACGATGGACGTTGCTAAGGCTGTTTCTGACGCCAAGGCCGGCCAAGTTACCTACCGGACTGACCGTGATGGTAACGTTGCTGTACCATTCGGTAAGGTTTCCTTCGACACCGACAAGCTGGTTGAAAACCTGAAGACGTTGGAAGACATCGTCACTAAGGCTCGTCCTGCTTCAGTACGGGGAACTTACATCAAGCACGCTTCAATCGCCTCAACCTTTGGCCCAAGCGTTACGCTTGATCTGACTTCATTCTAA
>SRR1151252_00664 50S ribosomal protein L11
ATGGGCTTCACTAAGGAATTCAACGCACGGACTGCAGACCAAAAGGGTATGCTGATCCCAGTTGTAATTACCGTTTACGAGGACCGTTCATTTGACTTCATTACTAAGACGCCACCTGCTGCTGTCTTACTGAAGAAGGCCGCTGGTGTTGAACACGGTTCCGGTGAACCTAACACGAACAAGGTTGCTTCTGTAACCAAGGACCAAGTTAAGCAAATCGCCGAAACTAAGATGCAAGATCTAAACGCAGCTGACGTAGAAGCAGCTATGCGCATGATTGAAGGTACTGCACGCAGCATGGGCTTCACTGTTGAAGACTAG
>SRR1151252_00665 transcriptional antiterminator NusG
GTGGAATCGCATGAAAAACGTTGGTACGTCTTGCATACTTACTCCGGTTACGAAAACCGGGTGAAGAGCAACCTGGAATCACGGGCGCAGTCAATGGGAATGCAGGACTACATCTTCCGGGTCGTCGTTGCAAACGAGACGGTACGGCAGGTGAAGGATGGCCAGGCCAAGGAGGTTGTTGAAAATACCTTCCCGGGCTACGTTCTGGTTGAGATGATCATGACCGACCAAGCGTGGTACATCGCTCGGAATACGCCAGGCGTTACCGGCTTCCTGGGTTCTCACGGTGGGGGTTCCAAGCCAACCCCGCTGCTTCCTGAAGAAGTGGAACGGATCATGAAGCGGATGGGTGCCGTGATCACTGTCAGCGACCTGGACGTCAAGGAAGGTGACACGGTCAAGGTCATTGCCGGACCGTTCGCCGACCTGACGGGGAAGGTTACCGCGGTCGATCACGAAAAGCAGAAGCTCAAGGTCAACGTGGAGATGTTTGGCCGGGAAACCTCTGCTGAACTGGGTTTTGACCAGGTTGACACCACGGTCGACTGA
>SRR1151252_00666 preprotein translocase subunit SecE
ATGCACTTAATTCGATTTATCAAGAGTGTTAACCATGAGATGAAGCTGGTTGTTTGGCCAACCGCAAAGGAGAACCGGCGCGACACGACAATTGTCATTTCACTGACGTTGTTCTTCGTCCTCTTCTTTGCCCTGTTCGACTGGTTGATTCAATTATTAATGAAACTGTTTGTCTAA
>SRR1151252_00667 50S ribosomal protein L33
ATGTCCCAACGAAAAGTAGCCTTGGAATGTACCAAGTGCGGTGCGCGTAACTACACGGTCACCGCAAATCCGCAGCGACAATCAAGATTAGAGCTACGTAAATTCTGTAAGCATTGCGGTGAGTACACGCTCCACCGTGAGAGCAAGTAG
>SRR1151252_00668 DNA-directed RNA polymerase specialized sigma subunit
ATGCACTGCACTCACAATAATAGGTACTTTTTAAATGATGATGATGAACTGAGGCTGCTGACTGCGGCCCGCGCAGGCAAGGGTCGGGAGTTCCAGGCGCTATTCAACCAGTATTGGCCACTGGTTCGCCGCCTTTGGCAGGAGTACTACGTCACGGATCTGGAACTAGAAGACTGGCGCCAGGAGGCCGAGCTTGTAATGATGCGCGCCCTGGACCGGTATCAAGGAGGATCACTCACCAGGTTTGCGGGCTTTTACAAGCAAAGCCTGATCAATCGTTTGTTAGACTTGTACCGGGCACGCCAGGCCTACAAGCGGATTCCTGCTAGTCAGCTTTCTTCATTGGGAGAAGAGGATGTTGACCGGCTGGTGGATGGTCACCACAACCGTCCGGAAGACATTATCTACTGCCAGTTCTGCCTGGAGGCTTTCATGCAACGGTGCTCACCGTTTGAACGGCAGGTAATCAGCCGCCTGCACCAGGGAGCCAGTATCACGGAGTTAAAGGGGCAGCTTGGTTGCGACGAGCGTAAGATCCGCAGTGCCCTGACCCGGGGCCGGCGTAAACTGGTCGCCGAGCTGCGACAAAAATAA
>SRR1151252_00669 rRNA methyltransferase
ATGAAGACTGAAAATACTGATTTTATCATCGGCCGGCACCCGGCGATCATGGCCCTCAAGTCGGACCAGGAGATCAACAAGGTCTTTATCCAGTCGGGCTTGAAGGCGGACGCCATCGCCCAGATCATCAAACTGGCTAAGCAGAAGCACCTGGTCATCTCCAATGTCCCTAAGAACAAGCTGGACATGATGACCGACCACCAGAACCACCAGGGGGTTGCCCTGGCGGTGGCTGCCTACCAGTACGCCACGATCGACGACCTCTTTGATAACGCGGCCAAGCACGATGAGGATCCCTTCTTCTTGATCTTAGATGAGCTGGAAGATCCCCACAATCTGGGTTCGATCATCCGGACAGCGGACGCGGCCGGGGTTCACGGGATCATCATCCCGCGGCGCCGGGCAGTCGGGTTGACCTCCGTGGTTGCTAAGACCTCAACTGGGGCCATCGAGCACGTGCCAGTCGCCCGAGTTACCAACCTGGTTCAGACCGCTAAGGAGCTTCAATCCCGTGGGGTCTGGCTCTTTGGAACTGACATGCAGGGCAAGGACTACCGGACCTGGGATGCCCACGGGGCGGTGGCCCTGGTAATTGGTAACGAAGGGAAGGGGATTTCCGCCCTCCTCAAGAAGACCTGTGACGAGATGCTGACGATTCCGATGATCGGCCATGTTCAAAGCCTGAACGCCAGTGTGGCGGCTAGTTTACTGATCTACCAAGGCTTTAATTCTCGTCATCCATTAGAATAG
>SRR1151252_00670 mini-ribonuclease 3
ATGGAAAACGCAGACTATCGACAATTAAACGGGATCGCCCTGGCCTACCTTGGTGATGCCGTCTACGAAGTGTTCATTCGCCAGCACCTACTGAGTACGGGGCTGAGCAAGCCGACCAAGCTCCAGCACATCGCCACCCACTACGTCTCAGCCAAGGCCCAGGCGGCATTGATTGACCTGATGAAGCAGGACGACATCCTCAATGAAACGGAGTGGGCCTACTTCAAGCGCGGTCGCAACGCCAACAGCCATACCCACGCCAAGCACACCGCGGTCCTGACCTACCGGATCTCAACCGGCTTTGAGGCCCTGATGGGGTATCTCCAACTCTCGGGTCAGCAGGAGCGGTTGAGCGAACTAGCTGAATGGTGCATCGAACAAGTGGAAGCGGGGCGGACAAGACATGAAGACTGA
>SRR1151252_00671 cysteinyl-tRNA synthetase
ATGCTAACAATTTATAATACGCTGACGAGGAAGAAAGAGGAGTTCAAGCCACTGCATCCTGGCGTTGTTAACATGTACGTCTGTGGCCCGACGGTTTACAACTACATCCACATTGGGAATGCCCGCTCGGCGATCGCCTTCGACACGGTGCGGCGCTATCTGGAGTTTAAGGGCTACAAGGTCAACTACGTCTCTAACTTTACCGACGTTGATGACAAGATGATCAAGGCCGCCCACGAGCAGGGGATCACGGTTCCCCAGCTGGCGGAGAAGTACATCAATGCCTTTATGGAGGATACGTCGGCGATCAACATCGAGCCGGCGACCATGCACCCGCGGGCCACGGAGAACATCCCCGACATCATCGAGTTCGTCAGCGGCCTGATCGACAAGGGCTACGCCTATGAAAAGGACGGCGACGTCTACTACCGGGCCCGGAAGTTCAAGCACTACGGCCAGCTGTCTGGTCAGTCGATCGATGACCTGGAAGTTGGGGCTAGCGAGCACGTCAGCGCTGACGAGGTGGACAAGAAGGAGGACCCGATGGACTTCGCCCTCTGGAAGGCGGCTAAGCCCGGTGAAATCAGCTGGGATTCCCCGTGGGGTAAGGGTCGGCCTGGCTGGCATATCGAGTGCTCTGTGATGTCGACTAAGTATCTCGGCAAGACGATTGATATCCACGCCGGGGGTCAGGACCTGGAGTTTCCTCACCACGAGAATGAGATCGCTCAGAGTGAGGCCGAGAATGGTCAGCAGTTCGTCCGTTACTGGATGCATAACGGCTTTGTCACCATCGGCAAGGACAACGAGAAGATGAGTAAGTCCCTGAACAACTTCATCACCGTCCACGATATCATCAAGGAGGTCGACCCGCAGGTGCTGCGTTTCTTCATGGCGACGACCCAATACCGGCGGCCAATCCAGTACAGTGAGGACAACCTGACCGACGCCCAGAACAACCTCGACCACATTCAGACGGCCTATGATAACCTGACCTATCGTGAACAGGACGCCCAGGCCGGTGGGGACGATGCCGTTGACGCCAAGCTGGCGGACTTTAAGCAGCGCTTCACCACGGCCATGGACGATGACATCAACGTTCAAAACGGGATTGCCGTGGTCTACGAACTGGTCAAGTATGCCAACGTTTACGCCCAGGAGGACCAGGTTCACGCTGATGCCCTGGCCGCGTTGAAGACAACCCTGGCCACGTTGATGAGCATCTTCGGCGTCAAGCTGACCGCCTCCGACAACCAGATCGACGACGACCAGATCAAGCAGTTGATTGAGGAACGCGATGAGGCCCGTAAGAACAAGGACTTTGCCCGCAGCGACCAGATCAGAGACGACCTGAAGAAGCAGGGGATCATTCTCGAGGATACCCCCCAAGGCACCCGCTACAAGAAGGAGTAA
>SRR1151252_00672 twitching motility protein pilT
ATGAGGAAACGGATTGTGGTTGCGATCTACGTCCTTGTCGGGGCCATGGTAGGCTTTTACTACCTGCCCCTGCTCTGGGACGTATTTAACCTACACTTTGCACTCCCATTGTTGGTATTCTTAGATATTATTATTGGTGCACTTATTTTCTGGCTGTTAGGACTGCTATTGGCCAAACCAACGATGCGACTGCTGGCCCAAATCGAGCGGGAGTTGACGAGAAAGAACCCGCTTTACCTGATCTTTGGGGCGCTATTGACAATCCTGGGCCTGATCCTGGCGGTATTGATCTCGATTCCGCTCTGGCAGACCAATATTCCAGTTGTCAACAACGTCTTGCCGATCCTCTTGATGCTGGTGTTTAGCTACCTGGGTTTTCGCCTGGGAACGACCCGAATCGACGAGTGGAAGAAGCTGCTGAACCGGCGAAACCAGCACGATGACAAGGGCGAGGTCCTGGACCGGCACGATGCCAACTACCATCACTACAAGATCCTAGACACCAACATCCTGATTGACGGCCGAATCTATGACCTGGTCAAGACCGGTTTTCTCGAGGGGACTCTGCTGGTGCCTAGCTTTGTCCTCTATGAGCTGCAGTATATTGCCGACGCCGGGGAGAGTATCAAGCGGGTCCGTGGCCGGCGTGGCCTGGACATCCTGAATAAGCTACGCAGCGAGAAGATCGTCCCGATCGAGATGTACGATGGTGACTTTGAGGATATCCCTGAGGTCGACAGCAAGCTGATTGCCCTGGCCAAGAAGGTCGATGGGGCGATTGTTACCAACGACTACAACCTCAATAAGGTCATCCAGTTCCAGAACGTCGATGTCTTGAACATCAACAACCTGGCCAAGTCACTGCGGCCCCGGGTGATCCCCGGTGAGACCCTCAACGTCGTGGTCGTCAAGAAGGGGACCGAGCGTCAACAGGGGGTTGCCTACCTTGACGATGGCACAATGGTGGTGGTCGAAGATGGCCGCTACTTCATGAACAAGCCAATCGAAGTTGAGGTCACCAGTGCCCTGCAGACCGATGCCGGCCGGATGATCTTTGCCCGGCCGCTCCACTCCCAACGGGGGATTGATGAACACGCTAAGGACGGCGGGCAGACCAAGGACGACGGTCAAGCCAAGTCGAAGAGCAACAAGAAAAAATAA
>SRR1151252_00673 DNA repair protein RadA
ATGGCAAAGCTAAGAACACAGTACGTCTGCCAGACCTGCGGTTATAATTCGCCCCGCTACCTGGGGCGGTGCCCAAACTGTGGGGAGTGGAACACCTTCGTCGAGGAGCAGGTGCAAAGCAGCACTACGACGGCCACCAAGGCCAAGACAACCACACTGACCGGGCTGGTGTCTAAACCGCAGAAAATCAGTGAGATCAACAGTCAGGAGACACCCCGGGTCAGGACACGACTCAACGAGCTCAACCGGGTCCTTGGCGGCGGAATCGTGCCCGGCTCCCTGATCCTGATCGGTGGGGACCCCGGTATTGGGAAGTCAACCCTCCTCCTCCAGGTTTCGGGCCAGCTGAGTGATGACCACCATCGAGTTCTCTACGTTTCTGGGGAGGAGAGCGGCACCCAGATTAAGATGCGGGCGGAACGGCTTCATGTGGCAGGAGACAACTTCTACGTCTACCCGGAGACCAACATGGATAGTATTCGCGACACAATCCGTGAGCTTAAGCCGGAGTTCGTGGTGATTGACTCCGTGCAGACGATGCAGGCGACCGACGTCAGTTCTGCGATCGGTAGTGTTTCCCAGATTCGGGAAGTGACCGCCCAGCTGATGCAGATTGCCAAGAGCAACAACATCACGATTTTCGTGGTCGGCCACGTCACCAAGGGCGGGGCACTGGCCGGGCCGAAGATCTTGGAGCACATGGTGGATACCGTCCTCTACTTTGAGGGGGACCTCCACCACACCTACCGGATCCTGCGTTCGGTGAAGAACCGGTTCGGGTCGACCAACGAGCTGGGAATCTTTGAGATGCACACCAACGGGTTGACCGAGGTCAAGAACCCGTCCGAGATCTTCTTGGAGGAGCGGCTCCGTGACGCTACCGGGTCGGCAGTCGTGGTTTCTTTGGAGGGAACCCGCCCGATTTTAGTTGAGATTCAGGCCCTAGTTACGCCGACGGTCTACGGGAATGCCCAGCGAACGGCTACCGGTTTGAACCGGAATCGGGTATCATTGATTATGGCGGTACTGGAGAAGCGAGCCAGCCTGATGTTGCAAAACCAGGATGCCTATCTGAAGGCAGCCGGTGGGGTCAAGCTGGATGAGCCAGCGATTGACCTGGCCATTGCGGTGGCGATCGCGTCGAGTTACCGTGACAAGGGGACCCAGGCGAGTGACGCCTTCGTCGGTGAGGTTGGATTGACCGGGGAAATTCGCCGGGTCAACCGGATCGAACAGCGAGTGGCAGAGGCGCAGAAGCTGGGCTTCCGGCGGATCTTCGTACCGAAGAATAACCTGAAGGGCTGGACACCCCCGACCGGGATCGAGGTTATTGGGGTCGCTACCCTGCGTGAGGCCCTGCGTCTCGTCCTGGCATGA
>SRR1151252_00674 deoxyuridine 5'-triphosphate nucleotidohydrolase
ATGAAACGCGGATTCAAGGTAGTTTCGAGTAAGATCAAGGATGGCATCAACCTGCCCCGGCGGCAGACGGCTAACGCGGCTGGTTATGACTTCGAAGCGGCGGCGGACTTTACCCTGCCGTCAATCTGGAAGGGAAACTTCATCAAGGCCCTCTGGACAATTCACCAGCAGAAGAAGCTGACGGACGCCGACTTCACCGCGGCTGATGCTCCCCTGAGGCCCTACCTGGTGCCAACCGGGATCAAGGCTTATATGCAGCCCAACGAGTTCCTCCTTTTGGCCGACCGGTCGAGTGGCCCCCTGAAGCGCCGCCTGGTCCTGCCCAACGGGGTCGGAATCGTCGACGCCGACTACTATGACAACGATAGCAACGAGGGGGAGATCTTCTTCCAGCTGATTAACTACGGTCTGCGTGACTACCATGTCAAGAAGGGGGAACGGATCGGCCAGGGGATCTTTGTTCCCTACTTGCTTGCCGATGATGAGGAAACGCCAACCGCCCAGCGGACCGGTGGATTTGGCTCGACTAAAAAGTAA
>SRR1151252_00675 acetyltransferase
ATGGATGTGATCACTTTGCAATATCAAATTGAGGATCACCGGATCGTTGCCAGTGATGACCAGCAGTCGTTCGTCGGTGAGATCAGCTTCCCCGCCGTTGTGGGCTACCCTGACCGGGTCGTCGTCGAACGGGTCTTTGTCCACCCCGACTACCGTGGCCGGGGGATTGCTGCCGTTCTTGTAAAACGTTTTATCGACTACGCCAGCGACCAAGGCTGGACCGTCAAGCTAATGTGTCCTTACGCAACCCAACAGTTCAAACTGCATCCGGAATACCAGCGTTTGTTATTACCAGAAGATCGTTTTTAG
>SRR1151252_00676 ribose-5-phosphate isomerase A
ATGAATCAAGACGAATTGAAAGCCCAAACGGGTAAGGAATCAGTCAAGTACATCAAGTCCGGCATGATCGTCGGCCTCGGTACCGGGTCCACCGTCCGCTACATGGTTGACGAACTCGGTAAGCAGGTCCAGGCCGGCAACCTGACCAACATCATCGGGGTCACGACCTCGAGCCGGACCACCAAGCAGGCCGAGAGCCTCGGCATCACCATCAAGAACCTCGATGACGTCGACCACATCGACCTGACCATCGACGGTGCCGATGAGATCAGCGACGACTTTCAGGGCATCAAGGGTGGCGGTGGCGCCCTGCTCTGGGAGAAGATCGTGGCCAACGCCTCCGATAAGGTGATGTGGATTGTCGACCAGAGCAAGTTGGCCCACAAGCTGGGTAAGTTCCCGCTCCCCGTCGAGGTCATCCCGTTCGGTAGCCAACACGTCTTCGCCCGCCTGGAGAAGAAGGGCTACAAGCCAAGCTGGCGGATGGATGGCGACAAGAAGTTCCGCACTGATGAGAATAACTACATCATTGACCTCCACCTGGGCGAGATCGACCACCCGGCCCAGCTGGCGGATGAACTGATCCATATGGTCGGGGTTGTGGAGACCGGTCTCTTCCTCAACCGGGTCAACGACGTCATCGTCGGCACAAATGAGGGTCCCAAGGTACTGCACGCCCGTTAA
>SRR1151252_00677 hypothetical protein
GTGTCACAGACAATCATGTGGGTGCGGTTTTGCTTCTGGCTCCTGGTGGTGATCCTGACCTTGGGCAAGCAGATGATGCTGGCAATGGACCTGATGGCGATCGGGATGTTCCTAGAGGCCAGCTACTGCCTCTACCGTAACTACCATCAGCGTTAA
>SRR1151252_00678 aminopeptidase C
ATGGCTTTTAAGATTAAAAAAGATGATATCAAACGGTTCCGCAGCGATTACGACAACCGGCGTGACAGCCACGTCATCGAGAACACGGTCACCAAGAACGGGGTGCGTAACGCCAGCTTCAACTGGCACGCCATCAAGGATAACGATCCCCACTTCTCAATTGACCTGAAGACTGGGGACGTCGCCGACCAGAAGCAGTCCGGTCGTTGCTGGATGTTCGCCGCCCTGAACACGATGCGTCACGAGATGCAACAGAAGTTCAACCTGCCCGACAACTTCGAGCTCTCCCAGTCCTACCAATTCTTCTGGGACAAGTTCGAGAAGGCTAATTACTTCTACGAAAACGTCCTAAAGACCGCCCACAAGGCCACGGACAGTCGTAAGGTTGCCTGGCTGATGGCCGAACCGCAAAACGACGGCGGCCAGTGGGACATGCTCTGTGCCCTGATCGAAAAGTACGGGGTCATGCCAAAGTCCGCCATGCCAGAATCCTTTAACTCCAACAACTCCCGGGGTATTGACAGCGTCTTAAACAACAAGCTTCGCCACGATGCCGTGATCCTTCGTAAGATGATCAACGAGGACCACGCCGACCAGAGTGAGCTCGATGCCAAACGGACCGCGATGCTGAACGAGGTCTATCGGATGCTGGCCTACGCCTTTGGGGAACCAAGCACCCACTTCAACTTTGAGTACCGGACCAAGAAGGACAACGAATTCCACCGCGACACCAACCTGACCCCACAGGAATTCTTCAAGAAGTATGTCGGCTGGAATCTCGACGACTACGTTTCCATCATCCAGGCCCCAACTGCCGACAAGAAGTACCACCAGCCCTACACGATCGACATGCTGGGTAACGTGGTCGGCGGCCGTCAGATCAAGCACCTCAACCTGCCGATGGACGAGTTCAAGGAGCTGGCCATCGAGCAACTCAAGCATGGTGAGAGCGTCTGGTTCGGTTCCGACGTCGTCCAGTACTCTGAGACCAAGCTTGGGATCATGGCCCTCAACACCTATGACTACAGCGCCCTCTTCGACATGGACCTCGACATGACCAAGGCCGAGGCCCTCGACTATGGACAGAGCATGATGGACCACGCAATGGTCCTGACCGGGGTCGACATCGCCAACGGCAAGCCAACCAAGTGGAAGGTCGAAAACTCCTGGGGCAACAAGGTCGGCCACAAGGGCTATTTCGTAATGAGCGACGCCTGGATGGACAAGTACTGCTACCAGATCGTCATCAACAAGAAGTACCTCTCTGACAAACTGAAGAAGGCCCAGGCCCAAGACCCAATCGTCCTGAAGCCATGGGATCCGATGGGCACCCTAGCCTAA
>SRR1151252_00679 esterase
ATGATTCATGAGCTGCATAACAACCCCGAACTAACCGGACAGGTCCGCCTGATTGAGAACATCACCTACGCCGCCGTGACTGGGTGCCCCCTCAAGATGCAGATCTTAGCGCCGTGGACCCAGCGCTACCCCAAACAGTACCACACCGATCCCCGGCCACTAATCGTCTTTGTCCAGGGGAGTTCCTGGCGGACGGGCCGGATGGGGGAGGAGATCCCGCAACTGGTCCAGTTCGTCAAGCATGGCTACGTGGTCGCCACGGTCCAGCACCGCAGCGCCATCGACGGTTTTGCCTTCCCCGCCTTTTTGAAGGACGTCAAGACGGCAATCCGCTTCCTCCGGCACAAGGCCACCAAGTACGCGATTGATCCCCACCGGGTTGCTATCTGGGGGACCTCATCCGGGGCCAACGCCGCCATGCTGGTTGGCCTGACCGGGGATGATCCGCGATACAAGTCCCACCTCTACGCCCACGAATCAGACCGGGTTGATGCGGTGGTCTCCTGTTTTGCCCCGATGGACGTGGCCGATACTTTCAAGGCGTCTGCCAAGGTTCCCGGCAACAAGCTCTTGCAGTTCTGCCTGTTTGGCATGGATACCAGCAAGTGGCCAGCTGAGATGGCAGCAATGAGTCCGCTGGATGTTGCCGAGCCGGGCCAGGACTACCCACCCTTCCTGCTGATGCACGGGGATGCCGACGAGGTGGTGCCGTACCACGAGATGGTCGACATGTACAACAAGCTGGACAAAGACGGCTACGATGTTGAGGCCTACCGGGTGAAGGGGGCCAATCACGAGCGTGACTTCTGGAGCCAGCAGGTCTACGATATCGTTTTGGACTACCTCAATCAAAAAGTGAAATAA
>SRR1151252_00680 2,3-bisphosphoglycerate-dependent phosphoglycerate mutase
ATGGTAGATTTAGTAATTGTTCGGCATGGTCAGAGCCAGGCCAACCGGGATAACATCTTTACGGGCTGGACGGATGTACCGTTGACCCCCGAGGGCGTTCGACAGGGGATCACGGTCGGCCATGAGCTAAAACGGTTAGGTATTCAGTTCAGTGACGCCCACACTTCCTACATGGAGCGGGCAATTATGACTACCAACCTCGTCCTCGATGAGATTGACCAGCTCTATATTCCGATTCACAAGACCTGGCGTCTCAACGAACGACACTACGGCGCGCTGAGTGGGCGAAACAAGGCCGAGGTTAAGAAGGAGGTTGGTGCTGATCAGCTCCATCGTTGGCGGCGGGGCTTTACCGACCTGCCACCGCAACTGGAGTATCGCCAGCACGAGCGCCGCTACGACCGGTTGGGAGTCAGGATGCCGCTGAGTGAGAGCCTAGCAATGACTCAGCAACGCTTGTTACCGTACTGGCAGGACCATATTGTCCCGCGGCTCCTGGACGGTAAGAACCAGTTGATCGTGGCCCATGGCAGCTCACTGCGGGCCCTGATTAAGTACCTCGACCAGATTCCTGACGACGAGATCGACCAGGTCGAGGTTCCCAACGGCAAGCCGATCTGGTATCGTTTCGACGACCGGCTGAACATCGTCAAGAAAACCTTTATTACAATGGATGGTGAAAATTAA
>SRR1151252_00681 malate permease
ATGCTTTCTATTTTCTTATCGGCCGTTTCCGGGGTTCTAATCATCCTGGTAATGGTCGTGATCGGCTTCGTGATGAACGAGCGCGGCTGGTTCAATCCCCAGTCGCCGCGGATTATCTCTCGGCTGGTGACCGAGGTGGCGTTGCCGTGTTACATGGTCACCACCATCATACGTGACTTCTCGGCCGGGGAGCTGAAGACCCTCCTGCCGGACCTGCGCTACCCGGTCCTATCGATGATCATCCTCTTTGCCCTCTCCTTTGCGGTCGCCCGGGCAATCGGGATCAAGCGGTCTCGCCTCGGCCTCTTCTCGTCGATGTTCTTCAACTCCAACACGGTCTTTATCGGGTTGCCGATCAACCTAGCCCTCTTCGGCAACGCCTCGATCCCATACGTGCTGGTCTACTACATGGCCAACACGACCTTCTTCTGGACGTTGGGAGTCTGGCTGATCCAGCGCGACGGTCTGCACGAGGCCAGGGTTGACGTCAAGACGGCCCTCAAGAAGATCTTCTCACCACCGCTGCTCGGCTTCATCGTCGGGGTCATCCTGGTGATTCTCCACGTTCACCTACCGAAGTTCGTGATGAGTGGCCTCGCCTATATCGGTGGGCTGACCATCCCGCTATCGATGATCTTTATCGGGATCGCCATCTCCAACGCCGGGCTGAGCCGGGTTCGGCTGACGCGCGACGCCTGGGGGATCCTCCTGGGCCGCTTTCTCTTCGCCCCGGTCCTGATGGCGATTCTGGTCCTGCCCAGCAGCATGCCGCCACTGATGAAGCAGGTCTTCATCCTCCAGGCGGCGATGCCGGTGATGACTAACGCCCCGGTCGTCTCCAAGCTCTATCACGCGGATGCCAACTATGCGGCCATCATGGTGACCGAGACCACCGTGTTGAGTGTGATCGTCATCCCAATCCTGATGGTGATTATCAAGACCTTATTGTAG
>SRR1151252_00682 hypothetical protein
ATGAAACATAAAATATACCACCTTATTAACTGGTCATTGCCCTATCTGGCGATCTGCGCGATGACCTACATCATCATGTATCCCCAACTGATCTCCCACGGGGTGATCCTGGGAACCGACTCGATCTTCCACTTTAACCGCTTCTATGACGCGGCTAAGCAGATCCAACAGTTCAACTTCAGCTACTTCCAGAGCAACTACTGCTTCCAGCAGAGTGGCCGGGTGATCAACGCCGTCTACGGGCCACTATTTGCCTATCTCAACGGGGCCCTGATTGGCCTGCTCGGCACCTGGTTTCGTTACGAAATTATCACTAACCTGATCATCTACATCGGTGGGGGCGTTGGGATGTACCTCCTGGCCATCAAGGCCCACAGTTCCCGCCGCTTCGCCCTCCTGGTCAGCCTGATCTTCATGAACATCGGTTGGCTGCCCCGCTGGGAGCTCGCCCAGAACATGAATGCCTGGGGTGCAATGCTGGCGCCGTATATGTTGATGTGCGGGCTGACGATGCTCCAGGATCGCCACCGGCCCGTCCACTGGCTGCCGCTGATGACGCTGATGACCATCATCATTCAGATTCACCTGCTGAGCTCGCTCTTCTTCGTCGCCACCCTGATCCCCTTCTTCATCATTGGCCTGGTCCGGACCGACCAGCGCTGGGGGATGATTAAGGAAACCGCCCTGGCCGTTGTTGGGACCACCATCCTGACGGCCAACGTCTGGGGAGCCCTGCTGATGCTTAACCTCCACAACAACATTGCGACCCCAGCGGCCTTTAACATGTTCAAGAACTCGCTGGTCCCGTCGCGGTTTAGCAGTACCCGGGACTACCTGATCTACTTCTGCTGGCTACTCTTTCTCCTACAGTTTATCTACGTCTGCTGCCACCTGAAACGTTCCCTGGTCAATACGACCGTCACGATCATAGGGGCGGCTATCCTGATGTTCAGCTCGATCTGGACCCCGTGGGAGAAGCTGGCAGTTGCAATGCCGAGCCTCCAGCACAACCTTCAGTTTCCAAACCGGCTAACGGTGATTGCCTACCCCCTGCTCCTACTCGGGGTCGCGATATCTGCCACCACCTTCGTCCAGCACGACCATGAGCCAGTCCTCCACCTGCGGCGCAACATCACAATCGGGGTCCTGGTCTTCGTGGTCACCCAGGTATTTGTACCCAACACCATCGACGTCTTCCAGCGGACTGCCCGCTACAAGTCGAACGATGTCCTCAACACCTCCAGCGCCATCGCCTGGGTTACCGACAACCGGGTTAAGCTCCGCAGGTCCGTCCACGATCTCTACCCTGGACAATTGCTGACGATGGTTGAGAAGCGCAGTCCGGACTACCTGCCAATTCCAAAGAAGTATGTCAACAAGAAATACATCCGCTCCTTTGCCTACCAGGACCAGATCATCAACCACGCCCAGGAATACCAGCACACGGTCCTGCCACACGGCGGCCTGAAGCTGACCTGGAATGCTAACCAGGCCAGAAAGGTCCGGTTGCCGATCATCGCCTATCACGAGTCTCAATTGACCGTCAATGGTAAGCGCCTGACCCACTACCAGCGCTCCTCGATTGGGGCCCCATACGTCCACCAACGCCGCGGCAAGAACACCGCCACCCTCTACTTCAAGATCGCCGGCTGGTTCAAGGCCATGCTCGCTGTCTCCCTGACCGGGTTGACCCTGCTTCTCTTCTACGGGATTTACCGCTTTATCCGATCCTGCCCTCGCTTCTGGCGGCAGGTAACTGAATAG
>SRR1151252_00683 hypothetical protein
ATGGTCAATATTACCTACACGGCTAACGACCAAGCCACCCACATCGTCTACACCGATCAGGATGGTCACCAGGTTAAGACCGACATGATCACCGGCAAGACCGCCCAGACCGTTGATGTCCACTCTGATGTGCCAACTGGTTGGAAGATTGTCGATGGTCAGGTTCCAGCGACGGTCCACTTCACTGGTGACCAAACACCGGACATGACGATCACGGTTGACCACCGGCACCACATCATCGACGGTCAGGGAGAACTGCCGACGGGCCTAGCGCCAAGTGCCTTCACCAAAACGGTAACCCGGACGATCAATGTTCGCCAGCCGGACGGCACGGTCAAGACGACCAAGCAGACGGCAACCTTCAACCGGATCGCTGACGTGGATGAGGTTACGCAGCAGGTAACGTTTAGTGACTGGCAGCTGACCAGCAATGGCTGGGTGGCCTTTACTACCCCGGCAATTGACCACTACACGCCGAGTCAGGCCATGGTCGAAGCGGTCGACGACGCGGCAAGCCTGACCAGGGACGTCACCGTTGACATCGCCTACACGGCCAACCGCGGCACGGTTGAGATCAAGTACGTCGATAAGGACGGCAACGAGATCGGTTACCAGATGATCACTAGCCACGTCGGCGACACGGTTAAGGTAACGCCACAGTTCCCGACCAACTGGGTACCGATGGATCCGGCCACGGTTCCGACAGCGGTTCGGATCAAGGAAGAAAATGGTCAGATCATCATCGTGGTTATTCGCCACGCCGTGAATGATCCGGCCCAAACCAAGACGGTGACCCGGACGATCAGGGTAACCACTCCGGATGGTCAGACAACGACCACTAGCCAGGTTGCCAAGATCAGCCGCTACGGTGACTTGGACCTGGTAACCGGCCAGATCGCCTGGAACCCATGGACCACGGCCCGATGGGATGCCTTCAAGCCGGCAACGATTGTTGGTTACACGCCGAGTCAGGCGGAGCTGCCTGTGGTCACGGTAGATGGTGAAACAGCCGATCAAACGGTCGCCATCACCTACGCCGCGGTAGCCATGCCGACGCCGACCCAGCCGGCCAACGACGTCCCGGCTGCCGACCACGCTGTTGACCAGGGTGCGGCGGATAACGGTGACTATCAGCCGGCGGGTCAGGGGACGGCGACCAACGCTGCCCACCAGGCAGCAACAGCCACGACACATCATCTGACAGCTACCACGTCGGCTCCGGTCGCGGTAGCCGCCAAACAGACGCCTGCTGCCCAGTCAGCGGCACCGGCGGCAACGAACCGTCAGCGCCTGCCACAGACCGGCAATGGGCACGACGCCAGTACCTTGGCGGGTCTGGCCTCCCTGTTGGGACTGTTCGGCCTGGCCGGCAAGCGCCGTAAGCGTGATTAG
>SRR1151252_00684 hypothetical protein
GTGCCTGAACACTACACGATTATCAACCAGGACCGGCTGCCGAAGGACTACACATTCCAGGCCGCTAGTAACGACGACGTGATCGTCGAACTGGGGCACCAGACAAAGCCGGCTGCCGACAGTCAGACGATTACGCGGACGATCAACATCACTGATCCACAAAGTAAAGTAACGATGATCAAGCAGACCGCCACGCTGACTCGCCAAGGTACCACTGATAAGGTCACTGGTCAGACAGAGTGGGGTAACTGGACAACTGCCAGCTGGGATGCCTACAACGTTCCAGAGATCAAGGGTTACACCGCTAGTCAACCATCCGTAGCCGAGGCGGATGTTACGGCTGATACCAAGGACGCAACGATCGATATTTCTTACACTGCCAATGATCAGTCAGCTAGGATCGTCTACAAAGACGGTAGCAAGATCGTTAAGTCCGCGCCAATCAATGGTACGACTGCTCAGACCATTAGTTTGACTTACACGGCACCTGATGGCTACACCATTGCGGATGCGGGGAAGCTGCCGAAGAAGTATACCTTCAAGGCAGATAAGAATGCGGATGTGGTCGTTGAACTGGGCCACCAGCACGGTGAAGTATCCGACAGTAAGACGATTACCCGGATGATTAACATTGCTACTCCAGATGGCAAGACGCAGTCCATCAAGCAAACTACTAAGTTGACTCGTCACGGCCAGAAAGATGCGGTTACTGGCGACATTAAGTGGTCTAACTGGAGCGGTGGCTCATGGGATGACTACAAAGTTCCAGAAATCAAGGGATACACCGCTAGTCAACCATCCGTAGCCGAGGCGGATGTTACAGCTAATACCAAGGATGCAGTTGTCAACATCATCTACACCGCCGACGAACAAACTGCCCACGTGGTTTACAAAGATGGCGATAAGGTAGTTAGAACTGATAAGCTGACTGGTAAGACCGGTGAGACGGTTAAGCTTACTACTGACGTACCTGCCAACTATCACGTAACTGGTAAGGTATTAACTCCCTACACCTTCATGGCGGATGGTAACAAGGACATTGTAATCAACTTGCTTCACGACACCGAAAAGGTATCTGATAGTCAGACGATTACGCGGACGATCAACGTTACGGTACCGTCTGGAAAGGTTACGACCACCAAGCAAGCTGTTAAGTTGAACCGGACTGGTGTGAAGGATCTGGTTACCAACGATACTACTTGGGGAGACTGGACAAGCGGGAACTGGGCTGAATATAATGTTCCGACTGTTGCGGGTTACACGCCTACACAAGCAGCTGTTATCAAGGCAGCTGTCACTAGTGAGACCAAGGACATAACGGTTAGTATCACCTACACGGCTAACGATCAGATAACCTGCATCATCTACGTTGACAAGAATGACCACCAGATCAAGATCGATACAATCACCGGTAAGACCGCCCAGATCGTTGACGTCCACTCTGATGTGCCAACTGGTTGGAAGATTGTCGATGGTCAGGTTCCGGAAACGGTCCACTTTACGGGAGCCCCGACGCCGGACACGACGATCACGGTTGCTCACGACAGGACCACCGTTGACCATAACAACCCGGTTGAACCAGGCACGAAGACGCCAACTGGTCAGGACATCAAGGGTGCCCACCAGGGGAATCTGAACCAGATGATTACGCGAACGATTAACGTGACGAAGCCGGATGGCCAGATCACGACTACAACGCAGGTCGCTAAGCTCCACCGGGATGCCATCGTTGACGATGTTACCGGTGAGGTTAGCTATGGCGACTGGACGGAAGACACATGGGCGGACTTCAAGCCGGGGCAGATTGCTGGCTATACGATTTCCCAAGCAGATGTACCAGCGGTTACGGTTAAGGACGGTCAAAAGGCCCAAATCGTCAGCATCACCTACGCGGCCAACGAGCAAGCAACCCACGTTGTCTACAAGGACAGCGATCGGGTTGTGAAGAACGTTCTGGTAAATGGAGAAACTGATCAGACGGTTAATCTGAACTATGCAACGTCTGAATACTACAAGATTATCAACCAGGATAGCCTGCCACAGAACTACACGTTCAAGGCTGACGGCAACAACGATGTGATTGTTGAACTGGGGCACCAGACGAAGCCGGCTGCCGATAGTCAGACGATTGCGCGGACAATCAACGTCACGGATCCCCAAGGTAACCTCACAACCACGCATCAAGTGGCACGGCTGACGCGGCAGGGGACCACGGATCTGGTCAATAATCAGACGACCTGGAACGAGTGA
>SRR1151252_00685 hypothetical protein
ATGGTTGGTAAAAATAATAAGTTTTCGAAAAGCAACAGGAATAATCGAAGGTTTCAACGTTTCTCGTTGCGAAAACTTAGTATTGGGGTTGTTTCGGTCGCAATTGCCGCCGGATTTTACATGGGCGGCAGCCAGAGCGCGCTGGCTGATGCATCTTCACCACAGCAGGCCGTTCCAGTCGTTCCCGGTAGTTTAAATACCGCTACCGTTGCGTCGCCGCGTTCAAGCAGTATCCCTAGCGCAGCAGCGGTGAATACCAACGATGGGGTCCCGGGCGATGTAAACACGCAGCCCGTCACCGCCCCCATAACCAACAGCACAGGTGAAAACCAGGCTAAGTCATTTGCGCAAAACGTTAATTTGGATATGTACACCAAAGCGCAGAATAATGAAAGCCATTCGTCAACCATCACGGCAACAGGTAATAAGGTCGTGGGGTTGAAGGGTTCTTTTGAAGTTACCAGTCAACAACTGGCTGCTGGTGGCATCATTGAGGTGGGAACGATCAGCCAAGTCCGCTCTGACCAGGGCAGTAAGCAAAATATTTCGGTACTAATTCGATCTGCCAAGCACGAAATCACGGCACCAGTAAACGGGGTTGATGTAAGAGTTGGGGATCTACACCTTGAGAATGGTGAGCAGAAAGGGACCATTGTCATTAGTCTGCAAAACCTCAACCGAAACGCTAAGTTTAACGACGACCGGCGGATTAAGTTTGATATTCCGGTCGCCCTCGACCTTAACCACCCTGCTAATGCGGATGCATACCGGGGAACATTACTTAATCCAGAACAGCAGGTCAAGTTTACCAATGGTAAGAACACTCTTTATACCCTTACCATCACTGCCCCTAAGTTCACTCTGGAAACCTCAAGCGGTAACTTTAGTGCGGCTAAATTAAATTCCGGTGATGAGGGGCTATTTTCGGTAAGCAGCAACTACGTCAGTGATAGTGCGCAAAAGGCATTCTTGAGGAATCCCCTGACTGCCACCAAGGCGACCTTGCCAGGTACTTATCAGTGGGGTGGTGTCCTAAATGGGAAGAGTATTGCGGACATTCAAGTATATGGTGGTGCCAAGGCAGAAGCATTGTTTGACCTAGACAATAAGGGAAACGTCCATAAGGTTGTTCGCAACAATAGTAAAATCCCACTTTGGGAAAAGATTAGATCGGTTCGGGTAGCGGATAATCTTGATCTATCAGCACTGAAGAAACAAAATGCTGATGAATTAATCTGGTCCCGTCAGAATAACGGATCAATTAATCTCTGGTTTAAGTGGCCGACAGCACGGTTACATACCGAATGGGTCAACGCAATTGATCAACAGTACGGCAGTCTGTATAACTACTTTAAGAGTGTCCTATACACTGCGCAGCCGGGGATCGACCCGGACAAGTTTTCCCGCGATAATGTCGAAGCATATCAACACTTTTTAGGGGATAACCCGTTGAAGTGGTTGCAGGAGATCCACGTGGTTAGCTATGACCATACGGCCAAAAATCAGATTAGTGTCGCTCTTTACGATGGAAATCTCCAGCGGATTAAAGTTCCGTGGACGATTACCACTAATCCAGGCAAACACGTTGTTCAGGGGCATTCCTCTGCTAAGGTTCATTTCATTGACGTCAACTCACAGGCAAAGAATATCGCGAATGCGGAGGTCCAGCTTCCGCAGGGGCAACTGATAAAGTCTAATTGGTGTGGTGAGTCGGGGCAAATTAACATTGACCCGGCCACGCTACATGGTTACACCCTCGTTGATGCCAACGCTGTGAATAACCGCTTTAAGATCCCAGCAGATAGGATCCTAAAGAGTACGTCGACGGTAGTCACTTTTCCTGGAAAAGAAGGGGCAACGGATGATTACTACGTCTTCGTGGAGGGAAATAATACGCGGCTCCCACTGGAATATGTGGATGATGATAAGGGCGGAGAAAAAGTTCCTTCAAACAAAACGGAATTTATTGAGGGGAAGACCGGTAGTGCTGTAGCGATCACTGTTCCTAAAGACTTGCAAGCGCAGAAATATGAGCTGAACCAACAGCCGGTAATTGTTCTTAGCGATGACCAAAATGGTCAGCCTAAATATGAGGTTAGCAACGATAATGGCAAGGTGTTTGCAATTGTCCATCTTCGTCACCAAAAGACAACTAAAGCTACCGAAAAGACCGTTACCCGGACAATCAACGTTACGACTCCTGACGGGGAAAAGACGACGACGATCCAGTCAGCAACGGTAACCACGACGACGAATCATGATTATGTCACGAAGCAAACAATTCCTGGAGTTAAAACCAATGTTAAGGAATGGGCAGAATATGAGCCAACAGAATTTGCTGGTTACAGTGCGACGATGGAGAATGATGCGCACCAGTCCGTTAATAATATTCCTAAGATTCCTAGCAAAGAAATCATTACGCGGGCGCAGAAAGGCATCAATGAAATCATCAATGTTAAATACACGGCCAATTTACACACCAGTTATGTTATTTTTCAAGACGTTAAGGGTAATACTATTCGTTCTGATGAGGTTAATGGTTACACCCACGAAACCGTTGCTTACCATGGCCAAGTGCCAGCTGGTTGGAAGTTAATTGCTGGGCAAACGGTTCCAACGTCGATTGAGTTTGGTACTGATGGTCATGTCGATATCACATTAACGCTTGAGCACGTTATTGAGAATGTTGACCACGATAAGCCATTACGACCAGGTACGCAGACACCAACTGGCATGGTCATTGATGGTGCTCGTGAAGGTGACTTGAACCAAATCATTACCCGGACGATCAACGTGAAGAAGCCAGCCGGCATGATCAACGCGATGAAACAGGCCGCTCATATCTACCGCGACGCTACTTATGACGCAGTTACTGGTGAGGTAACCTATGGTGATTGGTCAGCTGATGATAAGTCTTGGGCGGACTTCAAGCCAGACCAGATTACCGGCTACACGGTCTCCCAGGCCGATGTGCCAGCAGTCACGGTTAGGGATGGCCAGAAAGACGTGACGGTTAATATCGCCTACACGGCCAACGACCAAATAACCCGTATCATCTACGTTGACCAGGATGGCAACAAGGTCAAAACCGACACAATTAACGGTAAGACGGACCAAACCGTTGACACTAACTCCATGGTTCCCTCTGGTTGGAAGATTATCGATGGTATTCCGGAAAAGGTCCACCTTACGGGTACCCCGACACCGGACACGACGATCACGATTGACCACAACGAGACCGCCGTTAACCACAACAGCCCAGTTGATCCAGGCGCCAAGACGCCAACCGGTCGGGATATTAAAGGTGCTCACGAAAACGACTTGAACCAGACGATCACCCGGACGATCAACGTGACGGCGCCGAATGGCAAGACTGCCACGACTAAACAGGTTGCTAAACTTCACCGTGACGCCGTAATTGACGATGTTACCGGGGATGTTACTTATGGTAAGTGGACAGAAGATGCTTGGGTAGATTTCCAGCCGGGTCAGATTGCCGGTTACACAGTTTCTCAAGCTGTTGTGCCAGCATTCACGGTTAAGAACGGTCAAAAGGGCCAAATTGTCAACATTAACTACGTAGCCAACAAGCAAGCGGCTAACGTTGTCTACAAGGACGGTGATCAGGTTGTGAAGACCATTCCGGTAGGTGGAAAGACCGACCAAACGGTTGACCTGAACTATTGTTGTGCCTGA
>SRR1151252_00686 beta-galactosidase small subunit
ATGGCTTACACAAATAAATTACACGTCATTTACGGCGACGGCGCCCTCGGGGTTGCTGGCGATGACTTTCACTATATTTTCAGCTACGAGCGCGGCGGCCTGGAGTCAATGAAGATCAAGGGCAAGGAATGGCTCTACCGGGTCCCGACACCGACCTTCTGGCGGACCACGACCGATAACGATCGGGGGAACGGCTTCAATATTCGTTCTGCCCAGTGGGTCTGCGCCGACCTCTTCCAGAAGTGTGTCAACATTGATCTGAGCGTCGGCGACCACCACTTTGACGAACTACCGGTGGCACCGCGGACCAACGACTTCAGGGGGGATGAAGAGGCCGATGGTGTGATCATCAGCTACACCTTCGAAACCCTCACCAGCCCGGCCACGCACGCTACGGTCAGCTATGAGGTCCAGGTGGACGGCCAGATTAAAGTTGGGGTTCACTACACTGGTAAGGATGGTCTACCTGAACTGCCGGTCTTTGGGCTGCGGCTGATTATGCCGACGGAAGCGACCGGCTTCACCTACGAAGGTCTGTCTGGAGAGACCTATCCAGACCGGATGGCTGGGGTCACGCACGGGACTTTTGCTATAAAGGGACTACCGGTAGCTAAGTACCTGGTTCCCCAGGAGAATGGGATGCACATGGCCACGGACTGGGTTGAGATTACCCGGGATACTACCCAGAATAATGCTGACCATGACCGGACCCCGTTCAAATTAAAGGTCGCCAAGGATGATCAGCCGATTAACTTCAGTTGCCTGCCATATACGGCCGAAGAACTGGAGAATGCCACCCACCTGGAAGAGCTGCCATTGGCACGGCGTACTGTGTTAGTAATCGCGGGAGCCGTTCGTGGTGTCGGTGGAATTGACAGCTGGGGTGCAGATGTCGAACAGAAATACCACATTTCGGCTGATAAAGATATCGAATTTTCATTTATCATGAATGCCAAATAA
>SRR1151252_00687 beta-galactosidase
ATGGATGCAGATATCAAATGGTTAGACGATCCGGAGACTTTCCGGGTCAACCAGCTTCCTGCGCACAGTGACCATCATTACTATGGCAATTATGCAGAGTGGGCAGCCGGTGCCAGTCGCTTTACACAGTCCCTCGATGGTCAGTGGCAATTCAAGTTTGCCCAGACTCCCCAAGAACGGTTGCACGGTTTCTACGCATTGGATCAGGACACCACGGACTTTGATTCAATCACCGTGCCGAGTGAGATCGAGATGAACGATTACGCCCAGAACAACTACATCAACACCCTGATTCCGTGGGAAGGGAAGATCTATCGGCGCCCAGCCTATGCCCTGAGTGCCGATGACACCCAGGCCGGCTCCTTTAGTACCGGTAGTGACAATACGGTCGGTATGTATCGAAGGACCTTTGACCTCGACCCAGCCCTGCGTGGCAAGGCGGTCCGGGTCCGATTTGAAGGGGTCGAACGGGCCATGTACCTCTGGCTCAATGGCCACTTCATCGGGTATGCCGAAGACAGCTTCACCCCGTCCGAATTTGAACTGACCCCGTACATCCAGGACGAGGGTAACGTGATGGCGGTCGAGGTCTTCAAGCACAGTACCGCTTCCTGGATTGAGGACCAGGACATGTTCCGCTTCTCCGGGATTTTCCGTAGCGTTAGCCTGCTGGCCCAGCCGGTGACCCACGTTGAGGACATGACGATCCGGCCGGTGGTGGCGGATAACTTCAAGGATGCCCGCTTCAACCTCAGCCTCAAGCTGGCCGGTGAACGGGCCGGTAGTGTCCACATCATGGTCAAGGACGCCGATGGCAACGGCCTCTTGGACCAGAGCCTGCCAGTGACGACGGCGGTGGACTTAGAAGACGTCGACTTCCATGATGTCCACCTCTGGGACAACCACGACCCATACCTCTACCAGCTGCTGGTCGAGATCCGCGACGAATCCGGCAAGCTGCTGGAGTTGGTTCCGTACCGGTTTGGTTTCCGGCGGATTGAGATCAATGATGACCATGTGGTCCTGCTCAACGGCAAGCGGCTGATCATCAATGGGGTTAACCGGCACGAGTGGGATGACCACCGTGGCCGGGCAATCACGATGGCCGACATGACGAAAGACATCGCCACCTTCAAGGAAAATAACATTAACGCGGTCCGGACCTGTCACTACCCAGACCAGATCCCGTGGTACTACCTCTGCGACCAAAACGGGATCTACATGATGGCAGAAAATAACCTCGAGTCCCACGCCACCTGGCAGAAGATGGGGGCCATCGAGCCGTCATACAACGTTCCCGGTTCCGTATCACAGTGGAAGGACGTCGTTGTCGACCGGGCGCGGAGCAACTACGAGACCTTCAAGAACCACACGGCGATCCTCTTCTGGTCGCTGGGAAATGAGTCATTTGCCGGTGACAACCTGGTTACCATGAATCAGTTCTACAAGGAGCACGATGACAGCCGCCTGACCCACTATGAGGGCGTTTGCCACACCCACGACTACAGTAAGCAAATTCCGAGCCTGGATCCGAAGGGCTACCTACCAGCTGGGGGAACCAAGGACTACCGTGACCAGATCTCCGACGTCGAGAGCTGGATGTACCTACCACCGAAGCAGGTTGAGGAATACCTGAAGAACAACCCGGACAAGCCATTTATGGAGTGTGAGTACATGCACGACATGGGTAACTCCGACGGGGGAATGGGATCTTACATCGAGCTGCTCGATAAGTATCCACAATACTTCGGCGGCTTTATCTGGGACTTCATCGACCAAGCAATCGCGGTCAAAGACCCGATCAGTGGTAAGGAGGTCATGCGCTACGGCGGTGACTTCGATGATCGGCACTCAGACTACGAATTCTCGGGTGACGGCCTGATGTTTGCGGACCGGACACCAAAACCAGCAATGCAGGAGGTACGGTACTACTATGGCTTACACAAATAA
>SRR1151252_00689 SprT family metallopeptidase
ATGGATAACCAGGAATTACAGAGCCTGACTGAGCAATGGTCGTTGGAATATTTCCGACGGCCTTTTCTGCACCGGATTGTCTTCAACAACCGGCTGAAGACGACCGGGGGCCGTTACCACCTGACTGACCACCATATCGACATCAACCCGCTGATGTACACTGAGTTTGATCAGGAGAACCTGAAACAGGTGGTCCTCCACGAGCTTTGCCACTACCACCTCCACCTGACCGGCCGGGACTACCACCACCGTAGCCGGGCCTTCAGGGAACTTTTAGTCGTGGTTGGTGGGTCCCGGTACGCGCCGGTAACCAGCAAGGCCCGGTCGCGCCGGCAAGCTCGCTGGCTCTATCAGTGCCAGGGCTGTGGGGCGTTGGTAGCCCGCCAGCGCCGGTTTAATACGGCGCGCTACGTCTGCCGACGGTGCGGGGGCCGATTTAAATTAATTAATTTAAAAAAGTAG
>SRR1151252_00690 transcription accessory protein
ATGGACGAAAAGACACTGCAGTTAGTTAGTCAGCAACTACCCGACATCCGGCAAGGACAGATCAAGGCGGCCCTTAAGCTGATGGACGAGGGAAACACGATCCCCTTCATTGCCCGGTACCGCAAGGAAATGACTGGGACCCTGGATGAGGTGCAGTTGCAAGCGGTCCGGGACCGATACCAGCACGTCACCAGCCTGCTGGAACGTCAGGAGACCGTCATTAACAGGATCAAGGAGCAGGACAAGCTCACCCCGGCCCTGGCCAAACAGATCCGGGATGCAACGGACCTGCAGACGGTCGAGGATCTCTACCTACCATATAAGCAGAAGCGGCAGACCAAGGCTCAACAGGCCCGGGCAGCTGGTCTGGCCCCACTGGCCAACTGGATGTTGACCTACCCGGATGAGGATCTGACTGGCGCGGCTGCTAAGTACGTCAATGATTCGGTACCAGATGCCCAGGCGGCCCTGGATGGAGCCAATGAGATCTTGGCCGAGGCGATCAGCGAAATGGCGACGGTTCGTGGTTGGCTGCGTTCCTACACCGTTAACCATGGCCAGCTAGTTACCACCCTGAAGCGCAACGGTGAGGAAAAGGACGAACTGGGCACCTACAAACAGTACTACGACTTCACTGCCCCGGTTAAGGACCTTAGCTCCTACCAAATTCTGGCGGTCAACCGGGGCGAGAAGGAAGGGGTCCTCAGCGTCAAGATCGCCGTCGATACTGAGGCCGTGTTGAATTATCTTCGCTTTCGGCTTATCCGGACCAGCAAGCGTAACGCGGCCACCGACTTCATCACCGCGGCATACACGGACGCCAACAAGCGCTTCCTGGCGCCGGCGATCGAGCGGGAACTCCGCCGTCAGCTGACCGACCAGGCGGACGAGCAGGCGATCAAGGTCTTTGGTGAGAACCTCTACCACCTTTTGATGCGGGCCCCAATCAAGGGGAAGGTTGTGATGGGCTTTGATCCGGCCTACCGGACCGGCTGCAAGCTGGCAATCCTTGACGAAAACGGTAAGTTCCTGACCAAGGCGGTCATTTATCCGCACGATCCGGTCCCGGCGAAGAAGCGGGCGGCCGCGGAGGGCGAGCTTCTCCAACTGATTGAGCACTACGGAGTTGAGATGATCGCAATCGGTAACGGGACCGCTAGCCGGGAGTCTGAACGTTTCGTGGCCAGCGCCCTGAAGAAGATTTCCCGGTCGGTCTACTACGTGATTGTCAATGAGGCTGGAGCATCAGTTTACTCCGCCAGTGAGGAGGCTCGTGATGAGTTCCCGGACCTTCACGTCGAGCAGCGGAGCGCCATTAGTATTGGTCGCCGTCTTCAGGACCCCCTGGCCGAGCTGGTCAAGATCGATCCCCAGGCGATCGGGGTTGGTCAGTACCAACACGACCTGCCGAAGAAGGAACTAGGGACGGCCCTGGACGACGTGGTCGAGCGGGCGGTCAATCGCGTGGGGGTCAACCTCAACACTGCCAGTTACCAGCTGTTGACCCAGATTTCGGGCCTCAACAAGACGATCGCTAAGAACATCGTCCACTATCGTGATGAGCACGGTCGCTACACGAACCGGACCCAGCTGAAGAAGGTACCGCGCCTCGGACCGAAGTCCTACCAGCAGTCGGTCGGCTTTCTCCGGATCCCAGCCGGGGATAACCCGCTGGATAACACGGACGTCCATCCAGAGAGCTATGACATCGCGGCCAAGATCATGAAGGACACCGGGATTGCGGTCGGGGACCTCGGTACTGCGGCGGCCACGAAACGGCTGGCCAAGGTTAAGGCGGCCGATTACACGACCGATCAGGCGGGGGAAGCAACGGTCAACGACATCATCGCCTCCCTGAAGAAGCCGGGCCGGGACCTCCGGAATAGTATGCCGGCGCCGCTGCTCAGGCATGATGTTATGACCATCGAGGACCTTAAGCCGGGGATGAAGCTCCAGGGGACTGTTCGTAACGTGGTCGACTTCGGGGCCTTTGTCGATATCGGGGTCAAGCACGACGGCCTGGTCCACGTCTCGGAGATGAGCAAGAAGTTCGTCCGTGATCCCCGGACAGTGGTGGCAGTCGGTGACATTGTCGATGTGTGGATTGATGATGTCGACTTGAAACGTCAGCGGATCCAGTTGACGATGGTGGCGCCAAAGAAGGTTGCCAATGGATAA
>SRR1151252_00691 NAD synthetase
ATGCGTAAAATGCAGGAACAGATTATTGATGATTTGAAGGTCAGTCCAAGCATTGACCCCAAGGAAGAGGTTGAAAAGCGGGTCAAGTTCATCCATGACTTCATGCAGAAGACGGGGATGAAGACGATCGTGCTCGGCATCTCTGGCGGGCAGGATTCCACCCTGGCTGGTCGGCTCTGCCAGCTGGCGGTTGAACGGCGCCGGCAAGAGACCAATGACGATGACTGCCAGTTCATTGCGGTCCGCCTGCCCTATGGCACCCAGGCAGATGAGTCCGATGCCATGGAGGCGATCAACCACTTCATTAAGCCCGACAAGACGATGCGGGTCAACATCAAACCGGCCACGGACGCCATGGTGAAATCGCTGGAAGAGGCCGGTGCCGATATCAGTGACTTCAACAAGGGCAATATCAAGGCCCGGGAGCGGATGATTGTCCAGTATGCCATCGCCGGCCAGTACGGCGGGGCGGTTGTTGGTACAGACCATGCCGCAGAGGCCGTCACTGGGTTTTACACCAAGTTTGGCGACGGCGGGGCCGACATCACCCCGCTGTCCGGCTTGGACAAGCGGCAGGGGAAGGCCCTGCTCCAGTATCTGAAGGCCCCGGCCAACCTGTATGAGAAGACGCCAACGGCCGACCTCGAGGACGACAAACCGATGCGGGCCGATGAGGCGGCACTGGGTGTCTGTTACGAAGACATTGATAATTACCTGGAAGGGCACGTGATTGCCGAGAAAGCGGCCGCAAAGATTGAAGACTGGTACAAGAAGACCCGCCACAAGCGTCACCAGCCGATCACCCCACTGGACACCTGGTGGAAGTAA
>SRR1151252_00692 nicotinate phosphoribosyltransferase
ATGAAATTCAATTATCCCGATGATAGTTTAGCCCTGCACACCGATGCCTATGAGCTGAGCATGATGCAGACCTACTGGAAACAGGGGGTCGGTAATCGCCGCGCCGTCTTTGAGGCCTTCTTCCGGAAGATGCCGTTCCAGAATGGCTATGCGGTCTACGCCGGACTTGACCACATCATCCGCTACGTCAAGCAGCTCCACTTCACCGCCAGCGACATCGACTACCTCAAGTCAACTGACCAGTACGACGATGATTTTCTGGAGTACCTGCGTGACTTTAGGTTTACCGGGTCGATCCGGAGCTTCGAAGAGGGGGACCTGGTCTTCAATCACGAGCCGATCTTCCAGGTAGACGCCCCGATCATCGAGGGTCAGCTGATTGAAACGGCGATCCTGAACATCCTCAACTACCAGATCATGGTGGCCACCAAGGCATCCCGGATCAAGTCGATCGTCGGTGACCAGAGTGTAATGGAGTTTGGTACGCGGCGGGCCCAGGAGCTGGATGCCTCGATCTGGGGTACCCGGGCGGCCTACATTGGCGGCTTTAACGCCACCAGCAATGTACGTGCCGGCAAGCTCTTCGGGATTCCGATCTCCGGGACCCATGCTCACGCCCTTGTCCAGGCCTACCGGAATGACTACGACGCCTTTAAGGCCTATGCTCAGACCCACCGTGATTGTGTCTTCCTCGTCGATACCTTCGACACCCTGAAGAGTGGGGTGCCGACCGCTATCCGGGTAGCCAAGGAGTTTGGCGATAAGATCAACTTCATTGGGGTCCGGATCGACAGCGGCGACCTGGCTTCACTGTCCAAGCGGGTCCGGACGATGCTGGACGAGGCTGGCTTCCCGGACGTGAAGATTTTTGCCTCCAACGGCCTCGATGAGAAGACCATCCAGAACCTGAAGATGCAGGGGGCCAAGATTGATGTCTGGGGGATTGGAACCAAATTGATCACTGCTTACGACCAGCCAACCTTAGGCGCGGTATACAAGTTGGTAGCCGTCGAGGACGACAACGGTCAGTTGGTTGACACGATCAAACTGTCGAACAACGTGGCCAAGATGTCGACCCCGGGCAAGAAGCAGGTTTGGCGAATCAACGACCGGCTTGACGGCAAGAGCGAAGGGGACTATATCACCCTGGCTGATGAAGATCCCCGTAAAGAGGAATCTTTAAACATGTTCAACCCGAACTTCCCCCTCCAGCAAAAGGACGTCAGCGACTTCATCGCCCGGCCGATACTCAAGGATATCTGGAAGGATGGTGAGTTTGTTTACGATGAACCAACCTTGGACGAGACCCGTGATCACCGGACGGCCAGCCTGGATGCCCTCTGGGATGAGTACAAGCGCGATCTCAACCCCGAGGTTTACCCGGTCGACCTCTCCCAGAAGTGCTATGACAATAAGCTGGCGATGATTCATCACATTCACGAATATGTTAAGACACTTGGTCATAAGGAGTAA
>SRR1151252_00693 GntR family transcriptional regulator
ATGGGATCACCAGTATACATTCAGATTCATAATCAATTGCGCGAGAACATCGAGAGTGGCAAGCGGAAGGTTGGTCAGAAGATTCCGGCCGAACGGGAACTGGCAGCCAGCTTTGACGTCAGCCGGATGACCCTGCGCCAGGCAATCCAGGCCCTGGTCGACGAGGGCATCCTGGAACGCCGGGTCGGGTCCGGGACCTTCGTGGCCAATCGTAAGGTCCAGGAGAAGATGTCCGGGGTGACCAGCTTTACCGAGTTGATGCAGGCCTCGGGCAAACGGGCTTCCAGCAAGACGATCTCCTACCACTTGACGATCCCGTCCCAGACGGAGATTGAGAAGCTCCAATTACCAGCCGGGGCCAAGGTACTGCGGATGGAGCGGATCCGCTATGGTAATGACGTTCCGCTCTGCTACGAAATCGCCACTGTCCCGGCCAAGCTGGTGGAGGACTTCAGTAAGAGTGAGATCACCAGCTCATTCTACCGGACCCTGGAAGAGAAGGCCCACCTCTACCCGGGCCACGCTACCCAGGCGGTTTCGGCCACCACGGCCACCGAGAAGATTGCCACCTACCTGCAGATTAAGCGGGGGGATGCCCTGTTGCGGATGACCCAGCTGTCCTACCTCCAGGACGGGCGGCCGTTTGAATACGTTCATACCCAGTACGTCGGCTCCCGGTTCGAGTTCATCCTGGAGAAGTAG
>SRR1151252_00694 aspartate racemase
ATGAAACAATTCTTTACAGTGCTCGGCGGCATGGGGACCCTGGCCACCGAGAGTTACGTCCGGATCCTCGACGCCCGGACACCGATTCACCGCGACCAGGACTACCTGAACTACATCGTGGTCAACCACGCCACGGTCCCGGACCGGACCAGCTGGATCCTGGACCACAGCAAGCCCGACTACAACCTGGACCTGATCGAGGACATCAAGCAGCAGAGCCTGCTCAACCCCGCCTTCTTTGTCCTGATCTGCAACACCGCCCACTACGCCTTCGATAAGCTGCAGGCGGCCACCAACATCCCGATCCTGAACATGCTCCAGGAGACGGTCAACGCAATCAAGAAGATCAAGCCGGATGCCAAGAAGGTCGGACTGCTGGCCACCCGGGGAACGGTTACGGCGGGTCTTTATGACCACTACATCACCGATGCTGGTTACGAGGAGATCAAGCCGACCCCGGAGATCCTCGACATGACCGAGGACCTTATCTATCACGATATCAAGGAGAGCGGCCACTCCGACGGCGCCAAGTACCACGAGCTGGTGCGGCGGATGATTGAGGAACAGGGCGCCGACATTGTTATCCTTGGCTGCACGGAGCTGTCCTACGCCGAGGAGATGAACCCGGAGACCAAGTACCCGGTTGCAGACTCCCAGTCGATCATTGTTGACCGGTCACTGGAGAAGGGCCTGGCCCTGCGGCAGAATAAGTAA
>SRR1151252_00695 aspartate/alanine antiporter
ATGGATACAATCATCCGCTTCATGGTGAACAATCAAGTCTTTACCCTGTTTGTCTGCATGGCCCTCGGCTTTGCAATCGGTAACTATAAGATCGGCGGTAAGTTCAACATCGGGGCGACGGTGGGGACCCTGATCGTGACCCTGATCGTCGGTCAAGTCGGGGCCTTCCCCCGCAACGAGATGCTGGGCACGATCTTCTTCGGCGCCTTCATGTTCTCCGTCGGTTACCGGATTGGGCCCCAGCTGCTGGTCAGCCTGCGCCTGTTCGGGGTGCGGATCGTTATTGCCAGCCTCTTCTGGATGGTGACGGCCTTCCTGGTCGGCTGGGGGCTGTTCGCAGCCTGCCACATCGGCCCAGGGATCGCCGCCGGGGTTATCTCCGGTTCACTGACCCAGTCGGCAACGGTGGCCAGCTCGCTGCAGACGATCGGCGCGTTGCCGGTTAGCCACGCGGTTAGGATGACCTATGAGGCCCAGCTGCCCGTTGCCTATGCCTTGACCTACGTCTTCGGGACCCTGGGGGTGATCATCTTCCTGCGGGACCTGGCGCCTAAGATGATGGGGATCACCATCGAAGAGCGGGGACCGCAGATGGCGCGCAAGTATCACTTTCACGCCAAGAACCCGAACCCAACCTGGCGACGGACCTACCAGATCGCCGTCGACTCACCCCTGGTGGGGAAGACGATCGCCGAGTTTAACAAGTGGACCAATTACCACATCATCGCCCTGGCCGTTTTTCATGGGCACGAGATGACCGACCACCTCGAGTATCAGATTAAGCCTGGTGACCTGGTGACCGTGATTGGCTACGCGGTCCACTTCGACCGTCTCCATCAGGTCCGGGGAATCAAGGAGGTCCTGACACCAACCAACGCACCCAAGGAACGGAAATTCGTCCTTGGCAAAAAGTTCAAGCCGGTCCAGCTGGCAATCCTACGTCAGCACGGGGTCTTCATCAATATTCAGGACCCAATCACCGGTAACGAGCAGCTGGTCAACCAGCTTCATCCCGGTGATGTGATTTCTTTGACCGGGAACACATCCCGAACGGCCAATATCCTCCACCAACTCGGCCGGTGGGCAACCACTGACCAGGCGATCAACTATGTTTTGTTCTCGCTTGGGATTGGTGGGGCTTCCCTTTTGGGGATTATCGGCTTAAAATTAAATGGTATTCCCTTGCAACTGGGGAACGGGACCGCGGCCCTGATCATGGGCCTGGTTCTGAGCTCCTGGATCGACCGGCACCGCGACTACAAGTCCATCCCGGAGACCGTGACCAACTTCTTGCAGAGCTTTGGCCTGACCCTCTTCGTAGGGACGGTTGGTCTGCAGTCGGCCCAAGCCTTCACCGGGGCGATCAAGAGCCTTGGCTTCGGCGTTTTGATTGTTGGGGCCGTGATCTCGATCGCTCCACACCTGCTGACCCTCCTGTTTGGCCGCTACGTGCTCCGGATGGAACCCCTGGCCCTGCTAGGAGCACTGACCGGTTCTGGGACGATCGCGGCCGCCATGAGCGAGATCTCACAGAAGGCGGGGCCTGAGGGTGGTGCCTACTACGCCGCCGCCTTTACCCCGGCCTTCGTTGTCGGCAACATCGGAATTACCCTGCTGGGCCCGATCTTTGTGGCCCTCCTGTCATGA
>SRR1151252_00696 major facilitator superfamily transporter
TTGCAACAGACACAACCAAAACACATCTATCCCGCTCTGGGGGCCCTGGCCCTGATGACGTTCATCGGGATCCTGAATGAGACCTCGATGAACGTTACCTACCCAGAGCTGGCCAACCTGTTCCACGTCTCGCTGGATGTTGTCCAGTGGATCACCACCGGCTACCTATTAATGGTGACGATCACAATGGGGACGACCGCCTATCTGCTCCGCCAGTTCACGGCCCGGCGATTGCACCTGGCTGCGGTGACGGCCTTCATCGTTGGTGACGTGCTCAGCGCGATGGCGGTCAACTTCCCGATGCTATTGGTCGGCCGGCTGATCCAGTCGGTAGCCACCGGGCTGGCGACACCGATTCTCTTTCACCTGATCTTCACCGAAATTCCGCGGGAGAAACTGGGGGCGATGACCGGGTTTGCGGGGATGGTGATCTCCTTTGCCCCGGCCCTGGGGCCAACCTATGGGGGCTTCATCTCTGAGACCCTTTCTTGGCGGATGATCTTCTGGTTACTCTTACCCCTGGCCCTGATTAGCCTAGTGATCGGCCAACTCTACATCTGCAATCGGCCCTTCGGCAATGATAAGCCCTTCAGCTACGGCAGTCTGATTGCCCTGGCGCTGGCCCTCTTTGCTGTCGTCTACGGTTGCTCGACGATTGGGAAGGGTGGTTTTGGTCCGGCCTTCTGGATCCTGATGGTGGTCGGTGCGGCCTGCTTTGGCCTCTTCATCTACGTCAACGGTCATGGCCAATCCCAGCTCTTTGACCTGACCGTCTTCAGGGTTAAGCCGCTGCGCCTGTCGACCTTGACCTACTTCAGCCTCCAATTCATCAATATCGGCATCTCCTTGGTGATTCCCCTGTACGCCCAGTACGTCCTCCACACCTCGGCCACGGTGGCCGGCCTGGTCCTGTTGCCGGGCTCGGTCCTCGGGGCCTTCCTGGCACCGCTGGCGGGGCGGCTGGCCGATGAGCAGGGCTTTGCCAAGCCGGTGACTTTTGGTGGGATCCTCCTCCTGGTGGGGACGGCCTGTTTTGCGATCTTCCAGCACCAGCTGAATGCCTGGTGGCTGATGGTCTTCTTCCTCATCCTGCGGGCCGGGTTTAACTTTGCCTTCGGGAACACGATCTCCAACGCCTCGGTCCTGGTTGACCAGCGCAACAGCTCCGATGTCAACTCGATCTTCAACATGGTTCAGCAGTTTGCTGGCTCCCTAGGAACGGGGCTGTTGGCTGCGGTGATCGCCCTGACCCAGCAGCGAGGCACCGGCAACCTGGCCCGGCAAACGTTTGTCGGTGGCCGAATTGACTACCTCCTGCTGACCGTGCTGGCGGTCGTCGTGGTGGCTGCCATCGTTGTTAACTACCGCTGGCAGAAGCGCCTGCACCTGGCAGAAAAATAG
>SRR1151252_00697 hypothetical protein
ATGCCCAAACAGGGACAGTTTGCCAAGTCGGCCCGGCTCAAGCGGGTCAACAACTTCAAGGTGCGTCGTCACCAGCAGGGACAGACGATCGGGGACGACCAGCTGACCGACTTCCTCCTGGTCCGGTTCAACCTGACGGCCAAGAAGCGGGTCTCCCGGGCAGCCCAGGAGACGGTCCAGCGCTTTTTGATCGAGGTCAGTGACCAGCTGATCGCGGCCAACGGTGACATGGCGGCCCTGGTGCCCGACCTCCTGGACGACATCAACCACCGGGCTCCCTGGCAGTTCTACCGGCAGCTGCTGCCCCAGTGGACGTTGCTGCAGGACTTCTTGAAAAAGGAACTGCCGGCAGTACCGCTGGCTTCTCGCCGCTATGTGACCACGACGGTGACAACGGCCGACCTGACCGAGCTAGTGGCCCGCCTGCTGGCCAAGAAGGCAGCGGCGATCACCTTCCTGAAGCGGCCCAACGTTTCGGCAGCCATGCAGGCACAGACGGCCCAGCTCCTGGTGGCCAGTATCTACTCGGGCGGGATGGTCGACTGGGACAAGGTCCAGGCCCTGCTGGCACCGTTTCCGTTCAAGGTCGATGATGACCTAGATGCGGGGACCAAGGAGTGGCTGCGGCAGCTGGCCGTGTCCTAA
>SRR1151252_00698 membrane protein
TTGAAGCGACTGATTCACAATCACGTTTTTGCGTTGATTGCCTGGGTCGTAATCACGGTGGTGGCCATTGTCGCCTTGCCAAACGTCAACCAATTGACCCGTGAACACTCCGCAATCAACCTGCCGAAGAGCGCCCAGAGCCAGGTGGCCAGCGCCTTGCAGAACAAGCACTGGGGACATCACCAGAACAACACCTACCAGGTGGTGGCGGTGTTCAACAACGGTGACCGGGCCATGTCGGCCAGGGATAAGGCCAACGTTCAAAAGACAATCAATCACTTGGACAAGCACAGCGATCGGTACGGGATCAAGGCGATCACCGGGCCTAACGATAATGCCGCAACCCGCAAGCAGTTGATTTCCAAGGATAAGACTACCGAGATCGCCCAGCTCAACATTTCCAAGGGCCACGGGACTTTGCGTTATATTAATCATCAGCTGTCTCGTGCCGCCAAGACCAATGGCGTCAAGACTTACATTACCGGGGCTGACATCCTAAACGATGACTTCTCCGGGGCGGTTCAGGAGGGGATTAAGAAGACCGAGGTCATCTCGGTGATTTTCATCTTTGTCGTCCTGCTCCTGGTCTTCCGTTCGCCAATCACCCCGTTGATTTCCCTGCTGAACGTCGGGATTGCCTTTATCACCTCCTTCAGCATCGTGACCAACCTGGTCAAGCACGTCAACTTCCCGTTTTCCAACTTCACCCAGGTATTCATGGTGATCGTCCTCTTCGGAATCGGGACCGATTACAACATCTTGATGTACAACAAGTTCAAGGAAAACCTCGGGCAGGGGATGGACAAGTGGACCGCGGCCCACGATGCCCAGCACAAGGCCGGTCGGACGATCCTCTACTCCGGTTCCTCGATCCTGATTGGTTTCACCTCGCTGGCCCTGGCCAAGTTTTCGGTCTATCAGTCGGCGGTCGGCGTGGCCGTTGGGGTGGCCGTCCTGCTGGTCCTGCTGTTGACGCTGAACCCATTCTTCATGGCGACGTTGGGCAAGAAGATGTTCTGGCCGGACAAGAAGTTTACCGGGGAGTCGACCAGTAAGCCATGGCACCGGATGGCCCAGAACTCGGTCCTGCACCCGATTATTACCCTGGTGGTCGTCTTTGCGATCATCCTGCCGATCGGATTATCCTACCACAACCACCTGAACTACGATGATGCCGATGAAATCAGCAACACCGTCCCGTCCAAGAAGGGACTGCTGGTCGTGGAAGACCACTTCTCCAAGGGGACGGCGGAACCGACGACCGTCTACATCAAATCCAATCATCGGCTTGATAACGAGCGCGACCTGATGCTGATTGACCGGGTTACCAACCAGCTGAAAAAGAGTACTGGGGTCAAGACGGTGGTCTCGGTCACCCAGCCGGCCGGTTCCAAGGTCGATGAGCTCTACGTCAACAACCAGTTGAAGCAGATCACCGGTCAGCTTGGCACCGCCCAGTCCAGCATCGGCCAGCTCTCCCAAGACATGCAGAGTCAGGAGAGTGCGGCGGCGGCCCAGGCAGCCCAGGCTGGGGCCAGCCCGGCCCAGCTTGCTGCCCAACAGCAGAGCGGCATGCAGATGATGCAGGGTGTTGATCGAATGAGTGCCGGCCTTAGCCAGGGCGGTGACTACCTGACCGGCCTGCAAAACTCAGCTGCGGCCAAGACCTTCTACATTCCAAGTAACCAGCTAGGAAACAAGGAATTCCAGCAGTCGATTAACAACTACCTGTCCGCCGACAAGAAGGCGGCCAAGATCACGATCGTTCTCGACTCCAACCCGAGCGGGGCCCGGGCAACGCGTGAGATCCCGCAGATCACCGACCTGGTTCGCTATAGCCTGAAAGGGACGGCCCTGCGCCACGCTAATGTGGTCGTCGGTGGCCAGTCTTCCAAGATTACTGACACGAAGCAGGTGGCCGGTGGTGACTTCATTCGGACCGCTGCCATCATGGTCATCGGGATCGGCCTGGCACTGATCCTGATTACCCGGTCGCTCCTCCAGCCGGTCTATATCCTAGGGACCCTGGTTTCTGCCTACATGGTGGCCCTGTCGATCACCCACCTGCTGACCCGGATCTTTTTGGACCGGCCGCTGCTGACCTGGAACACGCCGTTCTTCAGCTTCATCATGCTGTTGGCCCTCGGGGTCGACTACAGCATCTTCCTGGTCATGCGTTACCGCAACATTGACCAGAATAAGTACCTGCCAACGGAGCGGATCGTCCGGGCAGCCAAGGAGATCGGGACCGTGGTTATCTCCGCGGCCATCATCCTGAGCGGAACCTTCGCGGCACTGATTCCGTCGGCGATCCCGACCCTGATTGAGGTGGCGATGACCGTCATCTGCGGGCTAATCATCCTGGTAATCATCATTCCGCTGGTTGTACCAGCCACGATTCGCCTGACCTACCCGCTCAAGTCGACCTTCCGTGACGATGAGGGAAACCGCAAGAAACAATTGAACCATTAA
>SRR1151252_00701 dipeptide/tripeptide permease
ATGAGTAAACAAAAAGATATTGATACTGCATTCTTCGGGCAACCGCGTGGTCTCTCGACCCTGTTCTTCACTGAAATGTGGGAACGGTTCAGTTACTACGGAATGCGGGCAATTCTGTTATTCTACATGTACTATGCCGTCACTAAGGGCGGCCTGGGGATGAGCGAAACCACCGCTGCTTCGATTGTGTCGATCTACGGTTCCCTGGTTTACCTGTCTGGGGTTGTCGGTGGTTGGCTGTCTGACCGGGTCTGGGGCCCACGGCGGACCGTCTTTATCGGTGGTGTCCTGATCATGTTCGGGCACATCGCCCTGTCACTGCCGTTTGGCGTCAGTGCCCTCTACGTCTCGATCGCCCTGATCGTTGCCGGGACCGGGCTCTTAAAGCCTAACGTCTCCGAAATGGTCGGTGGCCTCTACTCTGAGAATGACCGCCGGCGGGATTCCGGTTTCAGTATGTTCGTCTTCGGGATCAACTTAGGGGCCGCGGTTGCCCCATGGGCGGTTCCGTGGGCTGCCAATGGCTTTGGGCTGAACCTCTTCCATGGCGAGATGAACTTCCACGCCGGCTTCTCCCTAGCCGCCATCGGGATGTTCTTCGGCCTGGTCCAGTACGTCATCGGTGGACGGAAGTACCTGTCCAAGGATAGCCTGTATCCAGACGATCCGATCGACAAGGAAAGCCTGCGTCCGGTTATGATCTGGACCCTGGTTGGGGTTGTTGTCCTGGCCGTCGTTCTTGGCCTACTGGCTGCGATGGGGCAGTTGAACATCACCAACATCATCACGATCATCACGATCATTGCGATCGCACTGCCGATCTACTACTTCATCATGATGCTGAACTCCAAGAAGGTCACGAAGGAGGAACACTCCCGGGTATTAGCCTACATCCCGCTGTTCATCGCCGCCGTTATCTTCTGGGCAATTGAGGAATCTGGTTCAGTTGTTTTGGCCCTCTTTGCCGAACAGCGGACGATCCTCCACATCGGGAGCTGGCACTTTGCTGCCGCTAACTTCCAGACCCTGAACCCCCTGTTCATCATGATCCTGACGCCGGTCTTCGTTACCCTCTGGGATCACTGGAAGAATCAACCAAGTGCTCCTGGTAAGTTTGCTGCCGGGCTGGTCTTCGCCGGTCTGTCTTACGCCTTCATGGCGCTGCCAGCCCTGATCCACGGCACCACCGCCGGCCGGGTTTCCCCATTCTGGCTGGTTGGTTCCTGGTTCATCGTTGAAATCGGTGAAATGCTGATTTCACCAATCGGCCTGGCCGTCACGACCCGGCTGGCCCCGAAGGCCTTCAAGTCTCAGATGATGAGTATGTGGTTCCTGGCTGACGCCGCTGCCCAAGCGGTTAACGCCCAGATCGTTAAGTTCTACTCATCATCCACCGAAGTGCCATACTTCCTGACGATCGGTCTGGTAAGTATCGTCTTCGGGATCATCCTGATGTTCTTCGTCAAGAGGATCCACGGTCTCATGGGTGGCGTTGACTAA
>SRR1151252_00702 hypothetical protein
ATGGATATTTTGTACCTAACATTGTGTGTCGTCTTCATGCTGATTGGGGTTCAGTTCACTCGGGGCAAGTGGCTGCGCCTGCTGGCGTGGCAGTCAAAGCAGGACCCAGCGGCGCGTAAGCAGGCGGGCCTGATCATCGCCCCAGGGCTGATTGGCCTGGGCCTGAGCATGTTTTTCTTCGGCTTCTTTAACAGCCACTACTGGGCCAACATCGGTAATGCGGTTTTCGTACTGTCAGTTGGTTATCTAGTGGCGATGGTAATCCTGGCCTATATCAAGTTTGGGCGAAAGTAG
>SRR1151252_00704 flavodoxin
ATGTCAAAAACGATTGTACTCTACTACTCCGCCACTGGAACCACCAAGCGAGCTGCGCAGGCGGTCGCTAACCAACTCAACGCCGACCTCGCCGCAATTCACCCGGTTAAACCCTACACGGCCGAAGACCTTAATTGGCACGATGAGACGACCCGGGCCACCGTCGAGCAGAAGCAGGAACACGACGGCCGGGTCCCAATCGAAGACGACCTGCCGGACCTGGGCGAATACGATAATGTAATCATTGGCCACCCGATCTGGTGGGGAATCCCGCCGCGCCTGATCGCTACCACGATCGACCACTTGGACCTCAACGGCAAGGTCCTCGCCACCTTTGGCACGTCCAGCAGCACCGGCTACGACCGTGCCCAGACCAACGTCGCCCGGACGGTCAGGGAAAACGGCTTCCAGCTGGATCTCCAACAGGGGGACGTCCTGAATTCCCCGGCTAGATTGACGGCCTGGGTAAACTCCCTAAATCTTAAGTAG
>SRR1151252_00705 acyl-CoA thioester hydrolase
ATGGACATTAAATGTAACGATACCCTGGCGGTTTCACTCCACCGGGTTTTTAATGCGGACCTGAATGAGCACGGGACGGTCTTCGGTGGCCAGATCCTGAAGCTGGTTGACGGTGAGGCCTCGGTGGCGGCGATGCGGGTGACGCGGTCAGTCGTGGTCACCGCAGCGATGGATCACGTCCAGTTCCTGCGACCGTTCAGACTCCAGGATTCGATGTGCATGGAGGCCTACGTCACCGGGGTTGGACGGCGGTCTTTGGAGGTCTTTGTCAAGGTAATTGGGGAGCACCTGATGACCGGGGAACGCTTCCTCGGTTTTACCTGCTTCATGACCTTCGTAATCCAGGACCCAGACCAGCAGATCGAATATGATCGGGTCCTGCCCGAAACGCCGGAGCAGGAGGCAATGGTGGCCGGCTATCAGGGGCGCCGCCTCCACCGCAAGGAGAACCGCCAACGCCAGAAGGTTATCCTCAATTCAATCAACATTAACAAGCCTTGGTAA
>SRR1151252_00706 peptidoglycan-binding protein LysM
ATGAAGTTATCTAAGAAAGCCGCCAAGATTACAGCAGCCATTGCCGGTGCCGTTGCATTGGGAACCGTTGCTACTGCAACCTCTGCCAGCGCCGATTCAATTTACACGGTGCAGGCAGGTGACACCCTTTCTGGAATTTCTTACAAACTAGGCCATGATTTAACATTTGTCGACACCCTGGCTTCTAACAACCAAATCGCTGACAAGAACGTCATCTACGTTGGTCAGAAGTTAGTGGTCAAGGACGACGGTGAGGTTGCACCGGCAACCGCTCACCAGGTGGCAACCCTGCCGGCTGCTACCAGCCAAAACACGACGAGTCAGGCTGCCGCCAGCCAGGCGCCAGCACAACAGCAGACGAGTGCGCCAGCCGCTAGTGCTAGCTATAACTCCGGGGTATCCGGCAACGACGTCACTGCCAAGGCCTGGATCGCCGGTCGCGAATCCGGCGGTAACTACGGTGCCCGCAACGGTCAATACGTTGGTAAGTACCAACTCTCCGCTTCCTACCTGAACGGTGACTACTCTGCCGCCAACCAGGAGCGGGTTGCTGACCAGTACGTAGCCAGTCGCTACGGTTCCTGGTCCGCTGCGCAGTCCTTCTGGCAATCACATGGTTGGTACTAA
>SRR1151252_00707 small heat shock protein
ATGGCTAATGAAATTCAACGTCGTGGTAATTTGTTCGATAACTTGATGAATATGCGTGATTGGATGAATGATGATTTCTTCTCTGACTTAACACCAGCGGCCGACCATATGAAGACCGATGTCGCCGAAACTGACAAGGCCTACCAGGTTAAGATCGACATGCCGGGCTTTGATAAGAAGGACATTCACATCAACTACGCCAACAACATCCTGTCCGTCACCGGTCACCGGGACACCTTCAGTGATGAGAGCGATCAGAAGGGCAACATCCTGCACAGTGAACGGCGCTACGGCCAGATGAGCCGGCAATACCGGTTGCCGGATGTTGACAGGGCTAAGGTTGCGGCCCACTACGAGAACGGGGTATTGACCCTCGAGTTGCCAAAGATCCAGGCGAGTGAGGACAACGATAGCCGGATTGACATCGACTAG
>SRR1151252_00708 membrane protein
ATGTTTACTGAACAAAAGCGGGGCTTTGACTGGTTCAGTCTGATCGTCGGGATCCTGTTCATCCTGGCCGGGCTGGCAGCAATCATGCACCCTGACAGAACCTTGCATTTCTTAGCCATCTTGGTGGGGATTGCCTTCATTCTCCGGGGAATCTACGAGTTATGGTTCCGGCAGTTTGTTAACCGGACCCTTAACCAAAACTCAGGTTGGATCATCTTTGCAGCAATTTTAGATATTATTCTGGGGATCATCGTCCTAGTCTACCCTGGCTGGGGAATCCTCTACATTGCCATCCTGTTCGCCATCTGGTTCATCGTTGACTCCATCATAGAAATCAAGGCAGCCAAGCTCTTCAAGGAGTTTCACCGTGGTTACGCTACCTGGCTGGTTGTTCTGGGCGTGATCAGCATCATCATGGGGGTCGTCCTCCTCTTCAGTCCGCTGCTCTCGGCCATGACGATTGTCTGGTTGGTATCAGTCATGCTGATTGTCTTCGGGATCATGCACGTCGTTCAAGCATTTTAA
>SRR1151252_00709 hypothetical protein
ATGATTTCAAATGAGCAGCGGGCACACGACATCGCGATTGCCCTGATGAAGGCCCACGGCGACGATCTGAAGCCGATCGACGCCTACCACCAATACGTCAACTACCTTCTACCGATCCTGCGGGAGATCAACAAGGACTTCCCCCACGGCATCAAGGAAAATCCCTAA
>SRR1151252_00710 glycopeptide antibiotics resistance protein
TTGCGTGCTTGGCTTCCCTTTATTTTCTACTTTGGTCTTGAAATGGTACTCTTCGTCGCAAGTGACTGCTGGAATCGGCACCCCCGCTGGGGCGAGCGGGTCACCACCGTCTCCTTTGTCGTCTACGTCACGGCGGTGATGTGGCTGTGCCTGACCCCGGCCCACTTCAGCTTCCTCTCGGCTCCCAAAGCCCTCTTCTACTTCCACGGGGTCCCCTTCAACGCCATCCCCTTCCAGGGCTTTAGTCCCGAGTTCTTCCTCAACATCGTCATGACCTTCCCGCTGGGCGTCTACATCTTCCTCTTCAACTACCGCACCCCCTTTGAGCGGGCCATCCTATATGGCCTCTGCTTCAGCCTCTTCATCGAGATCAACCAGTTTGTTTGGGACTACTTTCTCAATCTCCAGCGGCTGGCCGACATCGACGACCTGATCACCAACACCCTCGGGGCGGTGATCGGTTTCTCGTTGATGATCATCCTCTACCAAAACGGCTGGCGGAAATTTCTCCAACGATTTATGCTCACGCGTGCCGAGATTTGTTAA
>SRR1151252_00711 amino acid permease
ATGGAAAAGAAGCAGCAGATGAATCGGCGCCTGAAAAGCCGCCACATCGAGCTGATGGCTCTAGGAGGGACGATCGGGACCGGACTCTTCCTAGGATCTGGCAAGGCCATTCGGGAGGCCGGCCCGGCAATCCTACTGGCCTACCTGATTACCGGGATCATCTGTTTTGGCATCATGCGGGCGCTCGGTGAGCTCCTGCTGTCAAACCTGCACTACCGGTCGTTCATGGAGGCGATTCGGGACTACCTTGGCCCCCGGGTGAGCTTCGTCGCTGGTTGGGCCTACTGGGCGTGTTGGCTGGCCCTGGCGATGGCCGAGATCACGGCGGTCGGCCTGTACATTCAGATCTGGTTGCCCAACGTGCCCCAGTGGATCCCAGGGGTGATTACCCTGGTCATCTTCTTGTGTCTGAACCTGATCACCGTGAACGTCTTCGGGGAAATCGAATTTTGGTTTGCCCTGATCAAGATCCTGGCGATTGTCGTCCTAGTGGCGGTCGGGATATTGATGATGGCCCTGCAGTTCAAGACCGGCAACGGCTACGTGGCCTCGCCACTGAACCTGGTTGCCTATCACGGCTTCTTTGCGACCGGGCCGGGCGGTTTTGCGCGGTCCTTCCAGATGGTGGTCTTTGCCTTCGTTGGTATTGAGATGGTCGGGGTCACCGCGGCAGAGGCCGAGAACCCCCGTAAGGTGATTCCCAAGGCGATCAACGGCATCCCCGTCCGGATCCTGCTCTTCTACATTGGGGCGCTGGCGGTGATCATGTGCATCTACCCCTGGAATCAACTGTCGCCAAACAATAGCCCCTTTGTCCTAGTCTTCAAGGACGTCGGCTTGCGCGGGGCGGCCAGCATTGTTAACTTCGTGGTGATCACGGCGGCGGCCTCGGCCTGCAACAGTTCGATCTACACGACCGGTCGGATGCTTGCTGAGCTGACCTCCAATGCCCACCGGCCGGCGATTCAGCGGATCAGCCACCTGTCCAAGCGGGCGGTTCCGTCCCGGGCGGTTGTGATCTCATCGCTGGTGATCGGTTTGGCTGCAATCCTCAACCTGCTGATGCCCGGTGAGGTCTTTACCTTCATCTCCAGCATTGCCACGACCAGCTTCCTCTTCATCTGGGCGGCCATCATCCTGGCCCACCTTCGCTACATCCGTCTTCACCCGGACGAGCGGACCTTTAAGATGCCGGGAGCGCCGGTGAGCGACTACCTGGTTCTGGCCTTTTTGGCCTTCGTCATGGTGGTCCTGTGCATGGAGCGCCAGACCCTGGAAGCCTTGATCTTGACCCTGGTCTGGTTTGCCATTCTCGGTGTGGCATCCTTGAGCCAACCCAGGTATGAACGACAGTAA
>SRR1151252_00712 Fur family transcriptional regulator
ATGGCAGAGGCTGAATTTGACCACGCCATCGCTGTGCTGCGGTCTAGTAAGGTCCGGCTCACCCCCCAGCGGAAGCTGATTCTGGAATACCTGATCAACCACCATACCCACCCGAGCGTGGAGATGATCTACAACGACCTGAAGGACAACGTGGACAACATCAGTATGGCGACCGTCTACAACACCCTGAAGCTGCTTGTCGATTACAATCTCGTCATCGAGCTGAAGAATGGTGACGGCAGTACCCACTTCGATTACTTTGGGCACCCCCACTACCACGTCGTTTGTGATAACTGTGGCAAAATTTCCGACGTCTTCGATGAACATTTTTCGGCAATTAACAAAGACCTGCAGGCAATGACCCGTGAGAAGACCGGCTACCTAGTGACCGGCTGTCACATCGAGGTCCACGGGCTCTGTCCCGACTGCCAACGCAAGCTCCACCTAAACCAATAA
>SRR1151252_00713 major facilitator superfamily transporter
ATGGAGAAGAGTATCGACCAGAACGGCCGCGCATACAGCCGTTTTTGGTTTATTTTTACCTTGTTAGTGGGGACCTTTACGATGTCGATTAGCCAATCGTCACTGTCGACGGCCTACCCCACCCTGATGCGGGCGTTTGGCATCTCCGCCTCGACCGTTCAATGGCTGACAACGGGGTTCATGCTCGTCATGTGTGTCAGCATGCCGATTAGTCCCTGGATGCTGAATAACCTCAACTTCAAGACGATGTTCATGGGGGCCCTGGCCCTATTTGATATTGGCTCGCTGATGATCATTTTAACCCCGGCCAGCTGGGGTAGCGGGGGCTTCTGGTTTATGATGATCGGCCGGGCGATGGAAGCCTTCGCGGTCGGCGTCTTGTTTCCGTCCTACCAGTCGGTCCTGCTGGAGATTACCCCCAAGGAGAAGCGGGGAACGGTCATGGGGATTGCCGGCCTGGTTATGGGTTCGGCCCTGGCCTGTGGCCCGATTGTCTCTGGAATCCTGCTGAAGTTCTTTGACTGGAAGAGCCTGTTTGTCCTCTTCATGCTGGTGATCACCGTGATCATCGTGATGGCCAGGACGGGGCTAATCCGTGACGTCATGGCCCGTCACACCAGCAGTCTGGACTGGTTATCGGTGATCCTGCTGGTTGGTTTGATTGGGGTCATGTACGTGGTTAACCTGGCTGGCAAGCAGGACATTAACTGGCTGGTCAACGGGCTCATCCTGCTGGTCAGCATTGCCGCTATCGTGGCCTTCTGCTACCGGCAGCTGCACCTGGATACGCCGTTGCTCGAGCTGCGTGTCATGAAGACCTTCAACTACGACCTGGCGATCCTCTTGACCTCGATCTCATATATTGCCTTGATCGTCACCACGATCATCTTCCCCCTGTACTACCAGGGCGTCCTGCACGTCAGCCCCTTCATCTCGGGGATGTCGTTGGTACCGGGGGCGGCCTTTTTGAGTATCCTCAACCCGCTGACCGGTAAGCTGGCGGACAAGATCGGCTTCAAGCCAACGATGATCGTCGGGATGCTGATGATTATCGGGGGCTGGCTGGCGGCCTTCTTCCTGCTCAACCGGCTCAGCCTGCTGACGATGATCTTGTGTGCGATGGTGATCGAGGGTGGCAACGCCTTCGTCATGATGCCGGCAGTTACCCTGGGGGCCAACGCCCTGCCCAATGAGCTGGTACCCCACGGAACGGCGGTGATCACCACTGTCCGGCAGGTCCTCGGTTCGGCCGGGGTTGCGGTTTCAACCGTTATTCTGACGGTGGCGACGGCTAACGCCCTACACCGGGGCAGCGCCAATTTGGCAGCGTCCCTGCACGGTTACCGCCTCGTCTTTGCCCTAATGGTCGTCATCGAGATCATTGGCCTGATTCTGGCCCTGATGCTCAAGGACGTTAAGAAGAATAGCGCCGCTTAA
>SRR1151252_00714 DNA-3-methyladenine glycosylase I
ATGAGCAATGTAAAACGACCAACCTGGGCCGAGCGGACACCGTCGATGCAGGATTACTACGACCACTACTGGGGGTTACCGGAGCACGACGACCGTCAGCTGTTTGAGATGCTGAGCCTGGAGCTCTTCCAGGCGGGGTTGACCTGGCGGACGATTTGGGAGCGGCGGGCAGCCTTTGAACGGGCCTTCGCCGACTTTGACATCGACCGGGTGGCGGCCTTTACCGCTGCTGATATCGATCGTCTCTGCCAGGACCAGACGATCATCCGTAACAGCCGTAAGATCAGCGCGGTGGTGGCCAACGCCCGGGTGGTTCAAGGCTTGCAGGGGTCCGGCCAGACCTTCGATGACTATGTCTGGCACTTTGTTGACTACCAGCCCCAGCGCCTGGTTCTTGCGCCAGATGAATCACTGCCTGCCCAGACGGATCAATCGAAGACGATGGCCAAGCAGTTCAAGGCAGACGGTTTCAGGTTTGTGGGGCCAACGATCATGTACTCGTTCATGACGGCAATCGGCCTGGTCAACGCCCGCATTGAAATCTGA
>SRR1151252_00715 S-adenosylmethionine synthetase
ATGGCAGAAAAACACTTATTTACATCAGAATCAGTCTCTGAGGGGCACCCGGACAAGATCGCTGACCAGATCAGCGATGCCATCCTGGATGCCATGCTCGAGCAAGACCCGGATGCCCGGGTGGCGGTCGAGACGTCCGTAACTACCGGGCTGGTGCTGGTCTTCGGTGAGGTTTCCACCACGGCCTACGTTAACATCCAAAAGATCGTGCGCGACACCATTCGCCAGATCGGCTACACCGATGGTAAGTACGGCTTCGACGCCGATAACTGTGCCGTTATCACCGCAATCGACGAACAGTCACCAGACATCGCCCAGGGGGTTGACGACTCCCTGGAGACCCGTGAAGGGGACGGCGACCCGCTCGATAAGATCGGGGCTGGTGACCAGGGACTGATGTTTGGCTACGCAACCGATGAGACACCGGAATACATGCCGCTGTCCCTGATGCTGAGCCACAAGCTGATGCAAAAGATCGCCCGCCTGCGCAAGGACGGGACGATCCCGTACCTGCGGCCAGATGCCAAGGCCGAGGTCACGGTTGAATACGACGAGAACGACAAGCCGCTCCGGGTTGACACCGTAGTCCTGAGTACCCAACACGATCCCGAGGTTTCCCTGGATCAGATCAAGAAGGACGTCAAGGAACAGGTCATCAAGGCGGTCATTCCGGCCGAATACCTGGACGATGACACCAAGTACTTCATCAACCCAACCGGCCGCTTCGTCATCGGTGGTCCCCAGGGGGATGCCGGTCTGACCGGTCGGAAGATCATCGTCGATACCTATGGTGGGGCCGCTCACCATGGTGGTGGGGCCTTCTCCGGTAAGGACGCCACCAAGGTGGACCGCTCGGCTAGTTATGCTGCCCGTTACATCGCCAAGAACCTGGTTGCCGCAGGGTATGCCAAGAAGCTGGAGATTCAGGTGGCCTATGCCATCGGGGTGGCTGAACCGGTCTCAATCTCCATCAACACCTACGGCACCGGAACCAAGAGCGACGACGAACTGATCGCCGCTGTCCGGAAGGCCTTTGACCTGCGTCCGGCCGGGATCATCAAGATGCTCGACCTCAAGCGGCCAATCTACAAGCAGACGGCCGCTTACGGTCACTTTGGTCGGACCGACATTGACCTGCCGTGGGAACACCAGGACAAGGTCGACGAACTGAAGCAGATTTTAGGCTAG
>SRR1151252_00716 leucyl-tRNA synthetase
ATGGCTTACGATCATACAGCGATTGAAAATAAGTGGCAGAAGTTCTGGAAGAAGAACGAAACCTTCAAGTCCGAACTGAAGCCGGATCAAAAGAAGTACTACGCACTGGACATGTTCCCGTACCCGTCTGGTCAGGGCCTGCACGTTGGGCACCCCGAGGGTTACACGGCCACCGATGTGATGTCCCGGATGAAGCGGATGCAGGGTTACAACGTCCTGCACCCAATGGGCTGGGACGCCTTTGGTCTGCCGGCTGAACAGTACGCCCTAAAGACCGGTCACAACCCTAAGGGATTCACCAACCAGAATATCAACCACTTCCGTAACCAGATCCAGTCCCTCGGCTTCTCCTACGACTGGGACCGGGAAGTCAACACGACCGACCCTGAGTACTACAAGTGGACCCAATGGATCTTTGAGCAGCTCTACAAGAAGGGCCTGGCCTACGAGAGTGAGATCATGGTCAACTGGGCGCCCGACTTTATGGGTGGGACCGTGGTTGCCAACGAAGAGGTTGAAGACGGTAAGACCAAGCGGGGCGGCTACCCGGTTTACCGGAAGCCGATGAAGCAGTGGGTCTTAAAGATCACCGCCTACGCTGACCGTCTGATCGACGACCTCGACCTGGTCGATTGGCCGGAGAGCGTCAAGGAGATGCAGCGGAACTGGATCGGTCGTTCCGAAGGGGCCGCCGTCTTCTTCCCGGTTGCCGGTGACGAGGACACCAAGATCGAGGTCTTCACGACCCGGGCCGACACCCTCTTCGGTGCCGCCTACGTGGTTTTGGCACCAGAAAATGACCTGGTTGACCAACTGACGACGCCGGAACATGCTGATGCCGTCAAGGCCTACAAGGAAGAGACCGCTCGCCGGTCTGACCTGGAGCGGACCGACCTGAATAAGGACAAGACCGGGGTATTCACCGGTTCCTACGTCATCAACCCGGTTAACGGCGAGAAGCTGCCAATCTGGATCAGTGATTACGTCCTGGCATCTTACGGGACGGGTGCCGTGATGGCCGTTCCCGCCGGTGATCAGCGGGATTACGACTTTGCTAAGAAGTTCGACCTGCCGATCAAGCCGATTATTGAAGGCGCCGACCTCTCTGAGGGGGCCTTCGACGGCGATGGCAAGCACATCAACTCCGGTTTCCTGGACGGCCTCAATAACGCTGACGCCAAGGCCAAGATGATTGACTGGCTGGAAGAGCACGATGCCGGACATAAGAAGGTCAACTACCGGCTGCGGGACTGGATCTTCAGTCGGCAACGCTACTGGGGTGAACCGATCCCGGTTATCCACTGGGACGACGGCCGGACGACCCTAGTACCAGAGGACGAACTGCCACTGAAGCTGCCGGACACCGACAACATCGAGCCATCCGGGACCGGTGAGAGCCCACTGGCCAACGTTAAGGATTGGGTCAACGTTTACGATGACCAGGGCCGCCACGGTCTGCGGGAGACCAACACGATGCCGCAGTGGGCCGGTTCATCATGGTACTGGCTCCGCTACACCGACCCGCATAACAGCAAGGAGTTTGCCTCCAAGCAGGCTCTGGACTACTGGTCACCAGTTGACCTCTACGTCGGTGGGGCAGAACACGCCGTCTTGCACCTGCTCTACGCCCGCTTCTGGCACAAGGTCCTCTATGACCTGGGCCTGGTCCCAACCAAGGAACCATTCATGAAGCTGGTCAACCAGGGGATGATCCTGGGGGCCAACCACGAGAAGATGTCTAAGTCCAAGGGGAACGTGGTCAACCCCGATGACATCGTTGAAAAGTACGGTGCCGACACCCTGCGGCTCTACGAGATGTTCATGGGGCCTTTGACCGAATCCGTGCCGTGGGATGAGGAAGGCCTCCACGGTTCCTACAAGTGGATCCAGCGGGTATGGCGCCTGCTGATGGACGACAACAACCACCTGCGGGACCGGGTCTCCAACTTCAACGACGGTAAGCTGGACAAGGTCTACAACCAGACGGTCAAGAAGGTTACCGAGGACTACGAGCGGATGCACTTCAACACCGCCATCTCCCAGCTGATGGTCTTCGTTAACGAGGCCTACAAGGCTGATGACCTGCCGGTTGAGTACATGGAAGGCTTCGTCAAGATGATCTCCCCAGTGATGCCGCACGTGGCCGAAGAGCTGTGGAGCCAGTTTGGCATCAGTGACACGATCGCCTACCAGCCATGGCCGAAGTACGATCCAAAGGCCCTGGTTGAAAACGAGGTCGAGATGATCATCCAGGTCAACGGTAAGGTTCGGGCCAAGATTAAGATGGCCAAGGATACCGATCGCTCGGAAGCACAGAAGATGGCCCTGGCCAACGAACACGTTCAGAAGTTTACGGAAGGCAAGGACATCAAGAAGGTCATTGTCATCCCGAACAAGATCGTCAACATTGTTGCTAAGTAA
>SRR1151252_00717 hypothetical protein
ATGGAAATGGTAAGCTATCCGGCCTTTTTCACCCCTAAAGAGGACGAGATCCAGGTGGACTTCCCTGACCTCCCCGAGGCCTTCACCCAGGGGAAGACGATGGCAGAAGCGATGGACTTTGCTAAGCTGGGTTTAGCGATCACGATCAATGATAAGCTTGGTCACTTCGAGCCAGCCCCACCGGCCAGCGACCTCACCACCCTGCGTGCTAAGTACCCGGACCGCAATGTGCAGCTGGTGACCGTCGACCTGGACCAGTATTAA
>SRR1151252_00718 polysaccharide transport membrane protein
ATGAATGAAGAGGAAACAAGCACGTCCAGGGGGACCACGGCCAAGAACGACTCTCAGTCTAAGATGTTGAGTGGCTCGGCCTGGATGACCGCTGGGAGCATCGCCTCACGGCTGTTGGGGGCCTTATACATTATCCCATGGGTTACCTGGTTCGGCTCCTACAGTAACGTGGCCAACGCGCTCTTTGCCCAGGGGTATAACATTTACAACATATTCATTATCATTTCGACCGCCGGGATTCCCTCGGCAATCTCCAAGCTGGTTGCGCACTACAACGGGATTGATCAGTACATCATCAGCCAGCGACTCTACCGGACAGGGATGTACGTCGCTGCGGTCATGGGGATTGTCGGGGCGACGGTGATGATGTTCGGGGCTGCACTGATGGACAATGGCGACCCCAACGTCATTCCGGTCATCCAGTCCTTAGCCTGGGCAATCCTGATCATCCCGGGAATTTCAATCACCCGAGGTTACCTGCAGGGGTATAACTGGATGGCGCCGTCTGCCATGTCGCAGTTTGTCGAGCAGCTCTGCCGGATCATCTACATGCTGGCGGCCACCTACCTGATCATGAAGATCGGGAGCGGCAACTGGGTCAGCGCGGTAACCCAGTCGACCTTTGCCGCCTTCATCGGGGCGGTCGGCGCAGCGGCGGTCTTGATGTTTAGCCGCCTCCGTCACGCCGGGGAAATGCGCGAGATGGCCCGGCATAGTGTTAAGACTGCCGACGTTTCGGTCATGGACATGGTGATCAAGATCATCTACCAGTCGATTCCGTTCGTGATCATCGAGTCGGGAATTGCGGTCTACCAGCTGATTGACCAGTACTCGTTCCCGCGGATGATGTCGTTGGTCGGCCATTTCTCCCGCTACCAAATCCAGGTCATCTATGCCCTGTTTGCCTTCAACGCCAACAAGCTTTACATGATCATCATCTCACTGGCGTCGGCGATGGCGGTAACGGTGATTCCGTTGCTGGCCACGGCCCGGGTTCAAAACGACCAGGCCGAGATGAAGAAGCAGATTGAAAATGTTTTGATGCTGTTCTATTTCGTCATGATCCCGGCGGCCCTCGGGTTATCGGCCGTCGCCCAGCAGATCTACACGGTCTTCTACCGTTACGATGCAGCCGGGGTGGTTGTTCTTGAGTTTGCGGCTTTCATCTCCATTCCGATGGGGCTGTATACGGTGGGGGCCGCGATGATGCAGGGGATCTCCGAGAACCGGCGGATGATGAAGTTTCTTGCCATCGGGCTGGTTATCAAATTACTGATCCAATACCCGTGCATCTGGTTGCTCCAGGGCCTGGGGCCACTAATGGCGACGGGAATCTCGATGATGGTGGTTAACTACCTGATCCTGCATTCCTTCAACATGGAATTTCGCCTGCGTTTCGACGAGATGGCCCGGCCAACCAACCAGATCCTCTGCTTTTCCTTGATCATGTTTGCCCTGACCAAGCTGGTGATGGTACTGATTGATCATTTCGTCAGCCCGTATGGTCGCTACACCGCCTTCTTCTCCCTGATTCCGGGAGTGCTGGTTGGGATGGTAGCCTATGCTTACCTGGCCCTGAAGTTCCGGCTGGCAGATCGGGTTATCGGTGCCCGTTCAGAGTTCCTGCGGCGCAAACTGCATATTCACTAG
>SRR1151252_00719 L-lactate dehydrogenase
ATGCTTGATGAATATACACATAAAGTCGTCCTCGTCGGTGACGGGGCGGTCGGTTCGGCCTTTGCATTCTCCCTGCTCCAGTCGACCCACGAAATCGACGAACTGGTCATCGTTGACCGCAACCAACAAAAGGCCACCGGGGACGCCATTGACCTTGCCGACATCACCCCACTGACCAGCCCGGCCCGGGTGATCGCTGGCAACTATGCAGACGCCAGCAATGCGGACGTGGTCGTGATCACGGCTGGGGTTGCTCGCAAGCCTGGTGAATCCCGCCTGGACCTGGTCAATAAGAATGCGGCAATCCTGAAGTCAATCGTCGACCCAGTTGTCGCCGCGGGCTTTCGGGGGGTCTTCGTAATCTCCAGCAACCCGGTTGACATCCTGACCACCCTCACCCAACGCCTCAGCGGCTTCCCAAAGGAGCGGGTCATCGGTACTGGAACCTCGTTGGATTCAATGCGGCTGCGGATCCTGCTCAGCCACCGTCTCCACCTCTCCGTCAATGCCGTTGACGCCCAGATCCTGGGGGAGCACGGTGACACCTCCTTCGCTGCCTTCAACGAGATCACCATCAATGGCAAGCCCCTCGCCGAACGAGCCCAGCTGACCAGCCAGGATAAGGCGCAGATCGAAGACGATGTCCACCAGGCTGGGGGCAAGATCATCGGTAACAAGGGAGCAACCTTCTACGGGGTTGCCAAGTGCCTTGCCTACATCACCAGTGCCATCATCGAGAACCGCAACGTCGCCCTACCGATCTCGGCACCGCTGGAGGGGCAGTATGGCATCGACGGCCTTTACCTCGGTTCCCCAGCGGTGATCAACAGCCAGGGGATCGGCCAGGTCATTGAGTACCCGCTCACTGACGATGAACTAGCAAAGATGAAGCATTCAGCCAGCGCCATGAAGCAGGTCCTCGATAGCATTGAACTTTAG
>SRR1151252_00720 phosphomethylpyrimidine kinase
ATGACACAACAGAATATTCAGGCCCTGACCATCGCGGGCCACGATTCCGACGGTAGTGCCGGGATGCCGGCCGACCTCCACGCCTTCTTTGCCGACGGTGTCTATGGCCACGGCATTCTGACCGCCGCCGTCGCCGGTAACTCGTATGATATCACCGCCCAGCAGGTGATGCCCCCGGCGTTTATCGCCGAGCAGTTTCACCAGCTGGCCCGCGACTTCACAATCGGTGCCACCAAGACGGGAATGCTGGCCAACGATGACGTGATCAACGTCGTGGCCAATAACTACGATGAGCAGATCTTTGGCCCCCTAGTGGTTGACCCGGTCATCATTACCAAGCACGGGGCAATGCTACTCGCCCAGTCCGCCTACGAGCGCTTCCGGGAGCAGATCATCCCCTTAGCCACGGTGATCACCCCAAACTTCTACGAGGCCGAAAAGCTGGCCGAACTAACCATCGCTAATCGTTTAGATCAACTCACCGCCGCCCGCCAGCTCCAAAAACTGGGTGCCCAAAACGTCATCATCAAGGGGGCCCACAGTGATACCAATCAGGATACCGTCGACGACCTAGTCCTCCTAAAAAATGGTGACCACTTCTGGCTGTCCAAACCGCATATCAAGACCAACCGCCTCAACGGCACTGGGGACACCTTCTCCGCCATCATCGCCGCCGAGCTCGCCAAGGGCCAAGACGTCGCCAACGCAGTGCGGTTAGCCAAGAACGCGGTCTACGCTGCAATCGCCGCTCCCCTGACGGTTGGCCATCAATTCGGCCCGATCAACCACTGGGCTGCCCAAGTTGAATTAGGAAAGGAAGCTAAACATAATGCTTGA
>SRR1151252_00721 arginyl-tRNA synthetase
ATGGACGAAAAGCAAAGAGTTGCAACTGCGCTGGCAAAGGCACTGCCGGAGATGGAGATTGCCGACATCGCAGACAAGATCGAACGGCCCAAGGATGCCAAGAATGGGGATTATGCCTTCCCAACCTTCTTCCTGGCCAAGACCCTGCATAAGGCCCCGCAGATGATCGCCAGCGACCTGGTGGAAAAGGTTGACCAGCAGGGCTTCGACAAGGTTGTCGTGGCCGGCCCGTACATCAACTTCTTCCTTGATAAGGCCGGGGTTGGTTCTGACGTCTTAAAGGAAATCCTGAATGACCCTGAACACTACGGTGACCTGGACCTTGGTCACCAGGCCAACGTCACAATCGACTACTCATCACCAAACATCGCCAAGCCGATGGGGATGGGCCACCTGCGTTCAACGATGATCGGTGAAGCCGTTGCCCGGATCATGGAAAAGGTCAACTACAACCTGATCCGGATTGACTACCTCGGTGACTGGGGTACCCAGTTTGGTAAGATGATGGCTGCTTACAAGATGTGGGGCGATGAACCCGACGTCCAGAAGGGGCTGAAGGAGGACCCGATTGACACCCTGGTTAAGCTCTACGTCCGGATCAACACTGAGGCCGACGAACACCCTGAGTACACTGAAGCCGGCCGGGCATGGTTTGCCAAGCTGGAACACGGTGACGAGGAAGCCTGGAAGCTGTGGCACTGGTTCCGTGAGATGTCTTTGCAACGGTTCCAGCGGGTTTACGACATGCTGAACGTTCACTTTGACTCCTTCAATGGTGAGGCCTTCAGTGCCCAGAAGATGGACGAACCGATCCAGCTGCTCAAGGACAAGGGCCTGCTCAAGGAGAGCCGGGGCGCCCAGATTGTGGACCTCGACCATTACAAGTTGCCACCATTGCTGATCATCAAGTCCAACGGGACGACCACCTACATCACTCGTGACCTGGCCACGGCCCTCTTCCGGAAGCGGATGTACGGTCACGCCAAGTCCCTCTATGTCGTGGGGGCTGACCAGGAGACCTACTTCCGTCAACTGCGGATGGCTCTGAAGGAAATGGGCTTCAACTGGTGGGACCAGATCACCCACATCTCATTCGGACTGATGAACCTGAACGGGAAGAAGATGTCCACGCGGAAGGGGAACGTTGTTTCTTTGGAAGACGTCTTAAACGACTCCATCGACCTGGCCCGCAAGCAGATCGCCGAGAAGAATCCTGACCTGAAGAATGCCGACGAGGTAGCCAAGCAGGTTGGTGTCGGTGCCGTTATCTTCCACGACCTGAAGAACTACCGGCGCAACGCGGTCAACTTTAAGCTGGAAGACGTCGTTAAGTTCGAAGGGGAAACCGGACCGTACGTTCAATATGCACGTGCCCGGGCCGAGAGTATCCTGCGGAAGGGCGGCATCCAGGACTTCAGCAACGTTGACTTGACCAAGGTTGGCGACTCCGCTTGGGATCTGATCAGCTTCCTGGGTCAATACAGCGAGGCCATCAAGCGGGCCGCATTGAACTATGACCCGTCCGTTGTTGCCAAGTACGCCTTAGAGCTGGCCAAGAAGTTTAACCAGTACTACGCCCACACCCGGATCCTGGATGAGGATGAGGGTCAACGAGCGCGGTTGGCATTGACTCAGGCCGTCAGCAACGTCCTGAAGTCCGCCCTGAATCTGCTGGACATTCAGGCACCAGATGAAATGTAA
>SRR1151252_00722 hypoxanthine phosphoribosyltransferase
ATGAATAACGATATCAAAGAGGTACTCTACAGTGAGGAACAGATCGATCACCGCCTGGATGAACTAGCCGGGGTACTCACCGCAAAATACCAGGATAAGAACCCACTGGTGGTCTCAGTCCTGACCGGAGCCATGATCTTCACCAGTGATATGTTGAAGCGGCTGAACTTCAAACTCAACGTCGACCTGGTCGATGTCTCCAGCTACGACGGGGCTGATTCTACCGGCCAAGTCAAGCTCGTCTCAGACCTCAAGTCCGACGTTAACGGGCGCGACGTCATCATCATGGAGGACATCATCGATACCGGCCGCACCCTCAAGTACCTGGTTCAGCTGTTCAAGGACCGGGGGGCCAAGAGTGTTGTTACCTGTGCCATGCTTGATAAGCCGGACCGGCGTGAGGTCGAGATCGAGGGGGATTACGTTGGTTTCACCACCCCCAACGAGTTCCTGGTCGGCTATGGGTTAGACTACAACAACCTCTACCGTAACCTCCCCTACGTCGGCATCCTGAAGCGGGCCGTCTACGCCAATTAA
>SRR1151252_00723 penicillin-binding protein 2A
ATGAAGCGAGAACCACAGAAGAGACCTTTCAAGGAGCAGGTGGTGGCATGGTTGAAGTCAAGTGCTGCCCGGATCTGGGCCGTCCTTAAACGGGTCGGTCGACGAATCAAGAAGTGGGTTGGCAGGTTCTGGTATCGTTACCAGCTGACGCGGTGGATCATTGCCGTCTGCCTAGCCCTGTTTTTGATCATGAGCATTCACTTGACCTTCGTCGCTAAGACCGCGGACGTCAAGAACCTGAAGAATCGTCTGGAGCGGACCACAGTGATCTACGACCGCAATAAGCAGTCGGCCGGAAGCCTGTACGCGCAGAAGGGGACCTATGTTAACTTGGACCGGATCTCGAAGAACGTTCCCAACGCGGTGCTATCGACCGAGGACCGCAACTTCTATAAGGAACATGGCTTCTCAATCAAGGGGCTCGGGCGGGCTGGTTTCCTGCTGGTCAAGAACAAGCTCCTGCACCGTGACTACATCTCTGGTGGGGGGAGTACCATCACCCAGCAGCTGGTTAAAAATGCCTTCTTGACCCAGCAGCAGACCTTCTCACGGAAGGCCCGGGAGATCTTCATCGCCATTGAGGTGGAAAACCAGTACAGCAAGAACGAGATCCTGACGATGTACCTCAATAATGCCTACTTTGGTCATGGGGTCTGGGGGGTCCAGGATGCTGCTAAACGTTACTTCAATGAGAACGCCAGTGAGCTGACGGTGCCCCAGGCCGCCACTTTGGCCGGGATGCTGACCTCACCGGGGATCTATGACCCGATTGACCACCCGGCGGCTACTAAGCAGCGACGTAACCTGGTCCTCCAACTGATGGTCGAGAACCACAAACTAACCCAGACCCAGGCTAACCAGTACAAGCAGACGCCGTTGGCCACCAGCAATGGCTATGCGCCAAGTGACACCTATAAGTACCCTTACTTCTTTGACGCGGTGATTGCTGAGGCCGAGAGCAAGTATGATATCTCCGAGAAGGACATCATGAATAATGGTTACAAGATCTACACGACCCTGGACCAGGGTCAGCAGCGTTCGATGCAGCAGACCTATGATGATGACGACAACTTCCCGGTCAACGCCGCGGACGGCACCAAGGTCCAGTCGGCCTCTGTGGCAATGGATCCCAAGACCGGTGGGGTGACCGCAGTCGTTGGTGGTCGGGGTAAGCACGTCTTCCGGGGCTTCAACCGGGCCACCCAGATGCGGCGGCAACCGGGATCGACTATTAAGCCGATTGTCGTCTACACGCCTGCCCTGGAGCATGGCTACTTCTATGACTCGACCCTCCAGGACAAGAAGCAGTCCTACGGTACGAACCACTACACGCCGAAGAACTATGATGATACCTATAGCGGGTCGGTGCCGATGTACAAGGCGCTGTACGAGAGTCTGAATGCTCCGGCTGTCTGGCTGCTTAACAAGATTGGGGTTAACCAGGGCTACGCGATGGCCGAGAAGTTTGACTTACCGGTGGAAAAGAGCGACAAAAACCTGGCCCTGGCCCTCGGGGGAATGACCAAGGGGGTCTCCGTTCAGCAGATGGCCCGGGCCTATGCGACCTTCGACAATGAGGGGCAGATGCCAAGTGCCCACTACATCACCAAGATCGAGGACGCCTCGGGGCGGGTGATTGTCCAAAACAAGGGCAATAAGACCAAGCACGTCATTTCGGCCAAGACGGCTCGTGAGATGACCAGCATGATGATTGGTGTTTATGCCCACGGGACCGGGGCCAGTGCCAAGCCGGCCGGCTACACGCTGGCGGGAAAGACTGGAACAACCAACTCGGGCATCAAGGGTGCCGAGGACGGTGACCGTGACAAGTGGATGATTGGCTACACCCCGGATGTCGTTGTGGCGACCTGGGAGGGCTATGACGATACCAACGCCAGTCACGCCCTTGCTGACATCACTGACCGTAATATCAATGTCTTATTCAAGAGTGAGATGACCGGGATCCTGGATAATACCCCAGGAACCAAGTTTACGGTCAAGGACGCCCAAAAACGGGCTCAGGACAACACCAGCAAGTCCGGTGGCGGCTGGAAGTCGCTCTTTAATAACGACGGCGACCTGCTCAACCAGTTCAACCAGTCGGTCAACAACTTTAGCAATAAGGCTGGCCAGTGGTGGAGTGGTGTGAAATCGCTATTTTGA
>SRR1151252_00724 hypothetical protein
ATGGTTGTAAACATCTACGACACGGCCAACGAGATGAGCCGGCAATTAGTTGAAACACAGGAATTCCAAAACCTGAAGAAGGCCTTTGAAGCCCTGAAGGCAGATGAAGACGCCTTCAACTCATTCAAGAAGTTCCAACAGATGCAGGTCGAGGCCCAAAAGAAGCAGATGCAGGGGCAACAGCCGAGTGACGACGAGATCAAGGCTATCCAGACCATCGCTAAGGAAATCAGCGGCAAGAAGGCCGTTCAGGACCTGATGAACCAGGAGCGCCAGGTTGACCAGATGCTGCAGCAGGTCAACAAGACGATCACGGACCCACTGCAGAGTCTCTACAGTGAGATCATGCCAGACGATGGTGAAAACAAGTAA
>SRR1151252_00725 peptidylprolyl isomerase
TTGAAATCCAAGAAATTATTAGCAATTGTTGCGGGGGTCGCCCTGATGATGCCCCTGGCTGCCTGCGGTAACAAGGCCGTGGCCACGACCAGTGGTGGCAAGATCACCGAGAGCGAATACTACAGCAGCATGAAGGCCACCAGCAACGGTAAGCAGGTCCTTCAGCAGATGATCTTAGACAAGGTCCTGCAGAAGGAATACGGTAAGCAGGTTTCTGACAAGCAGGTCAATGCCGAATATAATAGCTACAAGTCACAGTACGGTTCCCAGTTCAGCGCGGTTCTGCAACAGAATGGCCTGACGGAGAAGACCTTAAAGAAACAGATCCGGTCCAACCTCCTGCTCCAGGCGGCTGTTCGTGACTACTCCCACATCACTAATAAGCAGATCAACAAGCAGTGGAAAAAGTATCAGCCAAAGGTCCAGACTGCCGAGATCCTGGTCGGCAGTAAGTCCGAGGCCGAGGATATCATCAGCCAGCTGAACGACTCCGATAACGCCTACAAGACCTTCAAGAAGCTGGCCAAGTCCAAGTCGACCGACAGCTCCAACAAGGACGAAGGTGGGAAGGTACCGGCCTTTGATAATACTGATACCCAGCTCGATTCCGCCTACAAGAAGGCTGCCTTCAACCTGAAGACCGGTGAGTACACCAAGACGCCGGTCAAGACGGATGACGGCTACCAGGTCATCTACATGATCGAGCACCCGGCCAAGGGGAAGAAGAGCCAGCACATCAGCGACCTGCGCAACCAGATTGTTCAGGAGAACATGAACAACAGCACCTTCCTCCACAAGGTGGTGGCCAACGTCCTGAAGAAGGGGAACGTCTCCATCAAGGATAACGACGAGAAGAACATCCTCGATGACTACCTCAACTCCAACAGTACGACCAATGGTAACCTGGGTAAGACCAACCCAACCACGGCATCTAATTCCAACAAGTAA
>SRR1151252_00726 hypothetical protein
ATGCTGAATGATATCAAAGAAATGATCGCCCAGGTCAAAAAGATTCAGGCCCAGGTCACCAGCCTGCAGGGCAATCTTCAGCAGCTCCAGCAGGCCATGGCCGGCGTAAACCACTTTGTCGACGGGGTCAATAGGGACGTCGCCAAATGGCGGTTCAAGAACGCCCCACGCCTGGAGCGAATCCAGAAGATCATGGACCGTTTGGACGAACACAAGTAA
>SRR1151252_00727 histidine triad protein HIT
ATGACTGATTGTATCTTTTGTAAAATTATCGCCGGCGAGATTCCCAGCTACACCGTCTACGAGGACGACGTGGTTAAGGCATTTTTAGACATCTCACAGGGCACCCCAGGCCATACCCTAGTCGTCCCAAAGAAGCACGTTCCCGACCTCTTCGCCTACGATGAGGACCTCGCCGCGGCCGTCTTCGCTCGCCTGCCAAAGATTGCCCGGGCCATCAAGAAGTCCAACCCGGCCATCAAGGGGATGAACGTGGTCAACAACAACGGTAAGGTCGCCTACCAATCCGTCTTCCACTCCCACATTCACCTCATCCCACGCTACAGCGACGATGACGACTTCAAGATGATCTTTAAAGACAACTCCGGCAACTACAATGACGAAAAGTACCGGCAGATCCAGCAGGCGATCAAGGACCAGATGGAAGATGATCAATAA
>SRR1151252_00728 ABC transporter ATP-binding protein
ATGGCACTTGAGATTAAGAACCTAGTCGGGGGCTACTCCCAGCTCCCCGTGTTGAAGGATGTTAGCCTGGATGTCCAGCCCGGTGAACTGGTCGGCCTGATCGGACTGAATGGGGCTGGTAAGTCGACGACAATTAACCACGTGATTGGTATCCTGCGCCCGTTCTCCGGGAAGATCATGCTGAATGGGATCAGCATCCAAGACGAGCCGGAGAAGTACAAGCAACAAATTGCCTACGTTCCCGAGACGCCGATCCTCTATGATGAGTTGACGTTGAAGGAACACCTGGAGCTGACGATGGACGCCTATGGTCTGGACCACGACCAGGCCTGGCAGCGGGCCCACCGGCTTCTGAAACTCTTTCGCCTCGATAACAAGTTGGACTGGTTCCCGGCCAACTTTTCCAAGGGGATGAAGCAGAAGGTGATGATCTGTTGCGCCTTCATGACGGACGCCAAGCTATTGATCGTCGACGAGCCCTTCTACGGCCTGGATCCCCTGGCGGTTCACGACCTGCTGGGCCTGATCGAAAAGAAGAAGGAGGCCGGGGTGGCGGTCTTGATGTCGACCCACGTTCTCGACACCGCCCAACGCTACTGTGATCGCTTTGTCCTGCTGGCCGATGGTAAGGTTCGGGCACGCGGAACCCTGGATGAGCTACGTAAGCTGGCGGACCGGCCGGATGAATCTTTGGACGAGATCTATCTTCATTTAGCAAGGGATGGTCAGAATGAGTAA
>SRR1151252_00729 multidrug ABC transporter permease protein
ATGAGTAATCTATTCAACAAGCGCCGTCAGCGGCACTTCATGATGTTGCTGAAGTACTGGCGGCTGGTATTTAACGACCACTTCGTCATCGCCCTCTTCTTCCTGTTCGGTGCCCTAGCGTATGGTTATGCCCAGTGGCTGCCCCAATTAGGACCGCACCTGTGGTGGAGCCGCTGGCTACTGGTGGCCTGGTTTACCGTCCTGGCGCAGGTGGGACGGTTGGCGACCCTGGTGGAACGACCGGACCCGGTCTTTTTGCTCCCCATGGTGGGGCACATGCAGCGTTATCTCCGGCAGGCTGGACGCTATAGCCTGGCCCTGGGGGAATTGATGACTCTGGCGGGTGCCTTTGTGGCCTTGCCCTTTGCTCTGACGACCGAACGGCTGACCATGGTTGATGTGGTAAGCATTTTTCTGGTAGCCATGCTGGCCAAGGACAGTTGGCTGCGGCTGGCCCAGGGAATGATTAGTCAGCAGTGGGGGCAACGGCGGCAGTGGCTGCATTTAGCCCAGTGGTTATTACCCCTGGTGGTCGCCATGGTTACCTGGCTGGTAAATCCGCTGTGGGGGCTTGTTCTAGTCATTGCCATTGGCGCAAATGTGGACTACTTCTTCAGCCCGACCAAGCTGACGATTGACTGGCGGGCGGCGGTGAAGATGGAGGATGACCGGATGTACAGCGTCTACCGCTTCTTCAACCTCTTCACCGACGTGCCGAAGGTTCAGGGCAATGTCAAGCGGCGGCCCTGGGCCAACGGGCTGATCCGGAGATTGACGGTTCCTGGCCACCCCTGGTCCTATCTCTACGCGCGTGGCCTGTTACGTAACACCGACATCAGTGGGATCGTCATCCGGCTGACCCTGCTGGCAATGGTGGTGGCCTTCGTTGTGCCGATCACCTGGCTCAATAGCGCCCTGGTGGTCCTGTTCATCTACCTGATCGCCAGCCAGCTGATGCCCCTGTTTGACCAGTTCGACGGCAACGTCTTCACCCACCTCTACCCGGTACCCTTTGCCCAACGGCGGGCGGATTTTTCCCGGCTCCTGGTCCGGGTAACCGCCTTAGTTGCGGCACTGATCATCCTGGCCAGCCTCGGCATGACCCTCAACTGGCGGCAGTTCGGGGTCAACCTGGTCCTGGCCGTCATCGAAGTTGTATTGTTGACCCGGTTATACTTCCGGGCCCGAATCAAGAAATTAAGTGAGGAAAGTTAA
>SRR1151252_00730 tRNA (guanine-N(7)-)-methyltransferase
ATGCGTGTTAAACATAAAAAGTGGGCCGATCCCCTGATTGTGGCCCACCCAGAAAAGATGGTTACAAATGCTGCCGATTGGAAGGGAAAGTGGCAGCAGCGCTTTAGCAAACAGCAGCCGATTCACCTGGAAGTTGGGATGGGGAAGGGTCAGTTTATTATCGGCATGGCCAAGGCCTATCCGGAAATCAACTTCATCGGCCTGGAGATCCAGCGGACGGTGGCGGCGATCGCGTTGAAGAAGGCTTTGGGCGAGGAAGACCTACCGAACCTGCAGCTGATCTGCGGGGATGGGGAGGACCTTGACACCTTCTTTGAACCCCACGAGATCGACCGGCTGTACCTGAACTTCTCCGACCCGTGGCCGAAGAAGCGGCACGCTAAGCGGCGGTTGACCTACAAGACCTTCCTGGCTAGCTACCAGGAGATCTTAAAGGATCAGGGGACCGTTGAGCTCAAGACCGACAACATGGTCCTTTTTGAGTTCTCCCTAGAGAGCATGAACAACTTTGGTATGCACTTCGACGGGGTCTGGCTTGACCTCCACAACAGTGCGGAGGGCGAACATAACGTCGAGACCGAATACGAGCAGAAGTTTGCGGCCAAGGGTCAGCCGATCTACAAGCTGACGGCACACTTCGAATAA
>SRR1151252_00731 small secreted protein
ATGAACGATTCAAACAGTACAGCCAACCCCTGGATCGTCCCCATTACCCTGGGGGCCTCCGGGCTTGCCGGCTTCATTTGTGGTAAGCTCTTCGGCAATCGACCAATGTCCGCCCGGCGAATCTTACGGATGGTCCGTAATGATTTTGCCCGCGAAGGCCAGATTACCGGAAGTTGGATTGACCACCATTCGGTACCATTTCAACGCTTTGCCGTTAAGACGAGTGCCTACCAGGGTGGCTTGACCCGCCGCGAAGACGATGAGCTGGTAAACTACGAGTTTAAGGCCGACGCCTACACCGGTAGCTTACTGGAGCTCAAGCGAATTGAAGAATAA
>SRR1151252_00732 thiol-disulfide isomerase/thioredoxin
ATGGAAAAACTACCGGTAATGCGTGAGGACGAACTATTGAGGCGGGTTGACGACGGCCGTTTTGTCCTCTTCTTCACCGCTGACTGGTGCCCGGACTGCCAGGCGATCAAGCCGGCGATGCCAGACATCGAGCAGGACTTTAGCGATGCTCACTTCTACCTGGTTGACCGCGATGAGAATATCGACCTAGCCGCCGACCTTAATATATTTGGGATCCCGAGCTTCGTCGTCTTCCAAGATGGTCAAGAGATTGGTCGTTTCGTCAGCAAGGAGCGGAAAAGTAAGCAACAAGTAGAAGATTTTTTGCGCGATTTGAAGTAA
>SRR1151252_00733 tRNA binding domain protein
ATGTTAATTTCAAGTTACAACCCGAAGGAAATGGGCGACATCCTGGTTGTCATCACGGCTCCCGATAGTGGCGATCAGACCAGTACGGTCAAGGATGGGGTGGCTCAGATCACCAATGATAAGGGACAGTTGCTCGGCTATAACTTCCTAGCCGCCAGCACGATTCTTCCCGAGTTAAAGGGCGAAAATGGTCAGGTCTTCCTAGATGATGACCAGGTGGCTAAGCTCAACGCCAAGCTGACGGCGGCCGGCTTCGACCAGCAGTTAACGGCCGATGCGGCGCCAAAATTTGTTGTCGGTTACGTGGAGAAGCTGGAAGACCACCCGAAGTCCGACCACCTGAAGATCACCCAGACCAGGATCGGTGCGGACCAGACCGTCCAGATTGTCTGTGGTTCACCTAACGTCGAGGAGGGTATCAAGGTCGTCGTTGCCCGTCCCGGTGCCATGATGCCGGATGGTAAGATCATCTGGCCAGGAGCCCTGATGGGGGTTGAGAGTGACGGCATGCTCTGCGGCTTCCGGGAGTTGCAATTGAAGAACGCCCCGGACGAAAAGGGCCTCTGGATCATCCCTGATGACTGGCAAGAAGTTGGGGAAGCGGTTGACTTCGACCGGGCCAACACCTTCTTCCCCGCAAAATAG
>SRR1151252_00734 UDP-N-acetylmuramate--L-alanine ligase
ATGGAAAAGCAAACATACTATTTTGTTGGAATCAAGGGAACCGGGATGGCCTCGCTGGCCCGGATCCTGCATGACAAGGGAAACACGGTGTTGGGGTCTGATATTGAAAAGGAGACCTTTACCCAGGGACCCTTGCTGGAAGCGGGCATCAAGATCCTACCCTTTGACCCGGCCAACATCAAGCCGGGGATGACGATCATCCAGGGGAACGCCTTTGACGATGACCACCCGGAGATCAAGCGGGCTAATGAGCTTGGCCTGAAGATCATGTCCTACCCAGAAGCGGTGGAAAACGAGGTCGCCAACCATACCAGTATTGGGATTGCCGGGGCCCACGGTAAGACCAGTACAACGGCCCTGCTGGCCCACGTACTGGACGCCGTGGAACCAACCAGCTACCTGATCGGTGACGGGGTCGGTAAAGGCAACGCCCAGGACCGTTTCTTCGTCTTCGAGGCTGACGAATACCGGGATCACTTCCTGGCCTACCACCCGGATTATGCTATCATGACCAACATCGACTTTGACCACCCGGACTACTTCAAGGACATCGACGACGTGCGCCAGTCCTTTGAAACTTACGGCCGCCAGGTCAAGAAGGCCATCTTCGCCTGGGGCGACGACGAGAACCTCCACAAGCTCGACGTCGACGTGCCGATTTACTACTACGGGACCGGCGAGCATGACGACTTCCGGGCGGAGAATATCCAGCGGACACCGGCCGGCTCAACTTATGACGTCTACTTCCGCGACCAGAAGCTGGGGACCTTCACCATCCACCTCTACGGTGAGCACAGCGTCTTGAACAGTCTGGCGGTCCTGGCGGTGGCCTACATGGAACACGTTGACATGGCTGACATCAAGAAGGAGCTGGCCAACTTCACCGGGGTCAAACGGCGGTTCAGTGAGACCGATGTGGCCGATGACAAGATGATCGACGATTACGCTCACCACCCGAGCGAGATCAAGGCCACGATCGATGCCGCCCGGCAGAAGTACCCGGATAAGCAGATCATCGCCGTCTTCCAGCCGCACACCTACTCCCGGCTGGCGGCCTACATTGACGGCTTTGCCAGCTCACTCAGTCGGGCTGACAAGGTCTACGTTACCCCGATTTTTGGTTCCATCCGGGAAAACAAGGGGAACATCTCTAGCGCCGACCTGGAGGCCAAGATCCCGGGCAGCGAGGGAATCGATATGGATACGATCGACAAGCTGGCCCAGTACCATAACGCCGTTCTCATCTTCATGGGTGCCGGTGACGTTGAGAAATACGAGGATAAGTATAAAGAAATCCTTAATAAGTAG
>SRR1151252_00735 membrane protein
ATGGATAACTTTTCTAATGGTTCGGGCCGGCGGATTGTGACCGACGCGGCGGGGCTGAACCGTTTCCTAACCCGGATGTATGGGAACATGACCCTGGCTGTTCTGTTTTCGGCGCTGAGTGCCTACCTGACGATGACGGTTTTCCGTGCCCAGGTGATGGGTTTCTTCGGTCAACACCCGGCCATGGTTTGGATCATCTTGCTATTGCCGATCGCCCTGTCGATGGGGGTCAGCTTCAGTGCGACCCGGAACCCGGTTGGTGGCTTTGTGATGCTGATGCTGACGGCGATCATCTACGGGGTTGAGTTTGCCCTGATCGCCGGCGTCTACACGGGGGCCGATATCGCGGCAGCCTTTGTTTCATCCGCGGCGGTCTTCGCCACGATGGCCATCTACGGGACGGTCACCAAGCGTGATCTGAGCCGGTTTGGCGCCCACGCCATGGCGGCCCTGGTGGCATTGATGATCGCCTGGATTGTCAACATGTTCCTGCACAGTCCGGCCATCACCTACATCTTTTCCTTCATCGCCGTCATTATCTTTGTCGTACTGACGGCCTGGGATGCCCAGAAGATGAAGCAGATCTACATGAACTACAGTGACCAGAACACGCTCGCCGGGTTAGCAATCGTGGGGGCCCTCCAGCTCTACCTCGACTTCATCAACCTGTTTATCTCATTCCTGCAGATCTTCGGAATGAGCGAACGTGACTAA
>SRR1151252_00736 hypothetical protein
ATGAAGACCATTTGGGTGGCCGTGTTGATCATCCTCATTACCAACGTCACCTATTACCTCCAGAAATGGTCAATCGAAGGCAAAAAATAA
>SRR1151252_00737 membrane protein
ATGCATAATCTCATCGACCAGGGACACCTGGCTGAGGCCCGCCTGTTCGCCATCGTCCTCACCTTTTGCGGGGGCTTCACCTACATCCAGTGTGACCATATCCTGGCAGCGGCCCAGACCGGAAACATCGTCTTCTTGAGCGCCGCCCTCGCCAACCATAACCTGCTCGGCGTGGTCGACCGGCTGGCCTCGCTGGTCGCCTTTGTCATTGGTTTAGCCGTCGTCAGCGTCTTCCACGCCCACATCATTCACTACTGGCGGTTCTTCTGCCTGATGCCAATCCTGATCATCGGGATCGTCGTCGGCGGCCTGCCGGCAAGCTTTCCGACCTACATCAGCGTCCCGGCAATCTCGTTTGGCCTGGCCATGCAAAACGCCGCCTTCACCAAGATCGCTGGGCTCGGCTACAGTAACGCCTTCAACAGTGGCAACCTCAAGAAATCGGTGGTGGCCTGGAGCGAGTACTACTTCCACCACGATCAGAGTCAGCGCCCACCCGCCCTGGATTATAGCGCCATTGTTATCAGTTCACCCTCGGCGCCATTGTTTCTGCCCAGGTCCAGCCGCTCCTCCATATGA
>SRR1151252_00738 DNA polymerase I
ATGACAAAACAATTGCTATTGATTGATGGTAACAGCATCGTCTTCCGGGCGTTCTTTGCCATGCACAGCCAGATCGACAAGTTTACCAACAAGGACGGTCTGCACACGGCGGCCATTTACGGCTTTAAATTAATGTTGGACCACGTACTGAACAGCTTTCATCCGGATGCGGCCCTGGTGGCCTTTGATGCCGGCAAGGTGACCTTTCGCACCAAGATGTACAGTGATTACAAGGGCGGTCGAAACAAGACTCCCGAGGAACTGACCGAACAGCTACCCTACGTTCGCCAGCTCGTCAAGGCATCTGGCCTGCACAGTTATGAGCTGTCTGACTACGAGGCCGACGACATCATCGGTACCCTGGCCAAGGAGGCCGATGATGCCGGTTACACGACCCTGATTGTGACCGGGGATCGGGACCTGACCCAGCTGGCTAGCGTTCACACCACGGTGGCGGTGACCCACAAGGGGGTTACCGAGACCGAGCACTACACCCCGGCCCACGTCGAGGAGAAACTGGGGATCACCCCGACCCAAATTATTGACATGAAGGCCCTGATGGGGGATAGCTCAGATAACTACCCGGGTGTCACCAAGATTGGGGAGAAGACGGCCCTGCGGCTAGTCAAGCAGTTTGGCTCAGTCGAGGGCCTCTACGACCACATCGACGAGCTCAAGAAGAGCAAGATGAAGGAGCACCTGGTTGAGGAGGAGGACATCGCCCGGGAGTGCAAGACCCTGGCGACGATCCTGCGTGACGCCCCGATTAAGGTCGGCTTGAAGGACCTCACCTACCAGGGGGAGCAAACCGAGGAACTGGTTGATTTCTACCAGCAGATGGGCTTTAAGTCCTTCCTGCAGAAGATGGACGTCGCTCCTGAAGGCGATGAGCCGGCGGTAGCGCCGATTGAGTACACGGAATTGGCTGCTGACCAGCTGGCTAAGCAGGTTGGTGAACTTGAGGGCCCAGTCAGCTTCTATCTGGAGATGCCCGCGGCCAACTACCACCTGTCCCCGTTTGCTGGTTTTGTGATTGGCGACGGTCAGCACTGGCTGGTCAGCCGCGATGCCGAGCTTTTGAAGCAGGCACCGCTCAAGAAGCTGTTGGAAGACCCGGCAGTAGAGAAGAACGTCTTCAACGCTAAGGGGCAGATTGTCGGCCTTCACCGTCTGGGAATTAACCTGGTCGGGGTTGATTTTGACCTCCTACTGGCTTCTTACCTGCTCAACACCAACGACAACAGCAATGACTTGGGCAAGGTGGCCGGCGAGCATGACTACCACAACGTTCAGACCGACGAGGAGGTCTATGGCAAGGGGGTCAAGCGGGCGGTTCCCGAGGATGATAAGGTCTTCTTCACCCACCTGGCCAATAAGACCCGGGCAATTGCGGACCTCCGCCAACCCCTCTACGACCAGTTGAAGGAAAATCAACAGATGCCGCTCTACACCGACATCGAGCTACCGCTAACCCGGGTCCTGGCCCAGATGGAGATGACCGGGGTTCACGTCGATGCCCAGACCCTCAAGAACATGGGCAGCAAGCTTAAGGAGCGTCTGGCTGAGATTGAGAGCCAGATCTATGAGGAGGCCGGTGAGGAGTTTAACATCAACTCCACCAAGCAGCTCGGCCACATCCTCTTTGAGAAGCTGAAGCTGCCGGTGATTAAGAAGACTAAGACTGGGTACTCCACGGCCGTTGACGTCTTAGAGAAGCTGGCCGACCGGGCCCCAATCGTCGCCCAGATCCTGGAATACCGTCAGATTGCCAAGCTCCAGTCAACCTACATCACGGGGCTGCTCAAGGTAATCCACTCCAGCGACCAGAAGATCCACACCCGCTACCTGCAGACCCTGACCCAGACCGGCCGCCTGTCCTCGGTTGACCCGAACCTGCAGAATATTCCGGTTCGTCTCCCTGAGGGCCGGCAGATCCGGCGGGCCTTCGTACCGAGCCATGACGGCTGGCAGATCTTCTCGTCTGATTACTCCCAGGTGGAACTGCGGGTCCTGGCCCACATCACGGGGGACAAGAACCTCCAGGAGGACTTCAAGAATGGTGAGGATATTCATGCTAGCACGGCCCGGCGGATCTTCCACCTGCCGGCCGATGCCGAGATTGACCCGAACATGCGGCGCCGGGCCAAGGCGGTCAACTTCGGGATTGTCTACGGGATCAGTGACTACGGGTTGGCCCAGCGGATCCACGTTAGTCGCTCCCAAGCCCACGAGTTCATCCAGAACTACTTCCACGAGTTCCCCGGGGTTGAGAAGTACATCCATGATACGGTAGCCTACGCCAAGGAACACGGTTACGTTGAGACGATCACCCACCGGCGGCGCTACCTGCCGGATATCAATGCCAAGAGCTTCAGCCGGCGTTCGTTTGCCGAACGAACGGCGATGAACACCCCGATTCAGGGGAGTGCGGCCGACATCATCAAGATTGCCATGATCCGGATGCAGCACGAACTGGAGCAACGCCATCTCCAGGCTAAGATGCTCCTCCAGATCCATGACGAACTGGTCTTCGAGGCCCCCAAGGAAGAAATCCCGGTATTGCAGAAGCTGGTTCCTCAGGTGATGGACTCGGCCGTCAAGCTAGACGTTCCACTGAAGGTGGACAGCAAGTTCGGCGATACCTGGTACGATCTTAAGAAGTAA
>SRR1151252_00739 formamidopyrimidine-DNA glycosylase
TTGCCAGAATTACCAGAAGTAGAAACCGTCCGGCGTGGTCTGCAAAAGATCGCCAAGGGACGCAAGATTAATGCCATTGATGTTTACTACGGCAAGACCATCACCAACGACGTCGAAGAGTTTCGCCAGGCCCTGATTGGCCAGACAATTGAGGATGTCGACCGGCGGGGCAAGTACCTGCTCTTCCGATTTAGCAATGACCTGACGATGGTCTCCCACCTGCGCATGGAGGGCCAGTACTTCAGTCAGCCGATCAGTGGACCAATCGACAAGCATACCCACGTCGTCTTTCAGTTCACAGATGGCACGGAGCTCTGCTATCACGATACCCGTAAGTTCGGCCGGATGACTCTGGTGTCCACCGGGGATGAGATGCAGGTTGGCGGGCTCAAGACGATCGGGCCGGAACCGACGCCAGAAGCGTTTAAACTGGACTATTTTGCTGCCGAACTCCATAAGAGCCGGAGTAAGATCAAGCCCTTCCTCCTCAACCAGCGCCACGTAGCCGGCCTGGGCAACATCTATGCCGATGAGGTCCTCTGGATGAGTAAGATCAACCCGGAGCAGCCTGCTAATACCCTGACCGATTCTCAGATCAAGGATCTTCATGACAACATTATTAGGGAACTGGCCCAGGCCATCAGGTACAAGGGGACGACGGTTCACACCTTCACCGATGCCTTTGGGGACGCAGGCGGCTTCCAGGAACGCCTTAATGCCTATGGTCACGGCGGCGATAAGTGTCCGCGCTGTGGGACCAAGATGATCAAGATCAAGGTGGCCCAGCGGGGGACCACCTACTGCCCTCACTGTCAACCGCTGCGGGAGGAACAGTGA
>SRR1151252_00740 dephospho-CoA kinase
ATGACAAAAATCATCGGTTTAACTGGCGGAATTGCCAGCGGTAAGTCCACCGTCAGCGCCCTGCTGCGCCAGGCGGGGATACCGGTCATCGACGCTGACCAGGTTGCTCGCCAGGTTCAGCGCCCTGGCTCGGTGGCCCTCGATAAGTTGGCAGCCGCCTTTGAACCCGCGATCATCGCCCCTGACGGCAGCCTGAACCGACAACGACTGGGACAGCGGGTCTTTGACGACCCGGCCGCCCGCCAGGAGCTTGACCGGATCGTCCAGCCTCTGATCAAGGACACCATCTGGCAGGCCGTTGATAACCTCAGGCGGCAGGGGGTCGCAAACGTCGTCTTAGACGTGCCCCTTCTGTTTGAGGCCGGCTACGACACCGACTGCGATCTGGTCGTGGTCGTCCGGGTGAGTCCGGCGACTGAATTGCGCCGACTGATGGCCCGCAATGGCTATTCAAGGGCGGCGGCCCAGGCACGGATTGCCGCCCAGCTCCCCTTGAGTGTGAAGGTGGCTAAGGCAGACGTAGTGATTGATAACGACGGCAGTCGAGAAGAAACGCGGCGCCAGGTGGCCCAATTGGTTGAAGACCTGCGGGGCACGCGGTAA
>SRR1151252_00741 NrdR family transcriptional regulator
TTGCGATGCCCACACTGTCATAAAAATGGTTCGCGGGTGGTTGACAGCCGCCCTAGCGAGGACGGTACCTTCATCCGACGCCGGCGTGAATGTGTCCACTGCGGATTTCGCTTTACCACCTTCGAACGTTATGAGGAGACACCGCTGCTCGTTATCAAGAAGGACGGTACTCGCCAAGAATTCAGCCGGCAGAAGATCCTAAACGGGATCGTCCGGTCTGCCGAAAAGCGGCCGGTGAGCATGGAGCGCCTGACCAAGCTGACCGATAAGGTGGAGAAGCAGGTACGGGGCCTCGGCGAGAATGAGGTTTCCAGCCAAGTCATCGGTAAGTTCGTGATGAATGAACTGAAGGACGTTGATGAGATCGCCTACATTCGCTTTGCGAGCGTCTATCGCCAGTTCAAGGACGTGGACGCCTTCATGAGTGAGTTGGAGACGATGGTCAAGGATGAGCACAAGAAGAAGTAG
>SRR1151252_00742 replicative DNA helicase
GTGAAGACGGCACCAAGTTTTGATCCGCAGGCGGGATATTTAGTGACTGCCGCGGCTGACTTCATTAACTTCAGTGATCAGACCTTCACCGATTTTTACCAGCCGGTACTGGGGCCGGCCGCCTTCAGCCTCTTCTATGCTTTGCGAAGTCAGCTTGTTGATGCACCAACCCTGGCCGATCGGCGCCTGCAGTCAAACCTCTTGGTGCAGGTCAATGCTGGTCAGCGGCAGGTTGATGAGGGTCTGTGTCGCCTGGAGGGGATGGGGATTGTTTCGACCTATTTCCAACACGATGCCCAGGGTGACCTCTACGTCTACGAGCTTCAGGCAACCCTGACCCCGGAAAGATTCTTCGCTGATAATCTGTTGAGCGTTCTCCTGCTTGAAGCCATTGGTGAGTCGGCCTTTCAACGCTTAGCCAAGCGCGCTTATCGATACCGGCTGGCCGGGGACCGGTCTCATCTCAAGGATATCAGTCACCACTTCCTGGATACATACCAGGTCGACCAGCGCGAATTGGTGAGTGTGCCGGCGGCCGTCAAGCAGGCCCAGACGATGACCAGTCCGGCACCGTCCCGCTCCTTGGTGACGACGAGCGATGATTTTGACTGGCCGACCCTGATGGCCCTATTGAAGGGACAGCCAGTGGCCCAGGATGACCTTGCTGACCACCGGGAACTGATCGAGGTGGAACACCAGCTCTACGGAATTGATGAGCCGACGATGGCCCGGTTGATTCGGGGGGCGCTGGACCTAGCAACCAACCACTTCGACGCCAAGAAGTTTAAACGCCAGGTGGCCGCCAGTTACAAGCGGGTGGCCGAGTCGTCCTCCCAAACTGCCAAACAGGTACCGAGTGATGATAAGCAGCTGACGACCAAGGACCGTCAGCTGCTAAAGAGCACCGATAATTACGCCCCGATCACTTTTCTCCAGGCATTAAAGGAGCAGACGGGGGGCTACGTGACCGCTGGTGAGCGCAATGTCTTGACCCGTCTGATTCAGGATGGCAAATTGCCGTCGCCGGTGATCAACGTCCTGGTCTGGTACGTCATCGCTGACCTCGGCAACGCTACTCTGAAGGGCAACTTTGTGGATGCCATCGCTAACGACTGGCTGCGGGCCGGGGTCCACGATGGTGCCGGGGCCCTGATTCAGCTGAAGAAATTTAACCAGGATCGCCAGCAGGCTCCGACCAAACGAAAGCCCGGACAGCACGGCTACCGCCGGATGGAGGTTCGGGAGACAATGCCTGACTGGAGTAAGCAGGATAAGGCCGCCCGGACCAAGAAGGCCTCGGCGGTGGCCCTGGCCAAGGCCCGGGCACGTCAGGCTAACAAGCGGAAGGAGGGGTGA
>SRR1151252_00743 primosomal protein DnaI
TTGGAATCACTAAACAAGACAATTCAGAAGATGATGCAGGGGCGTAACGTGGCGGCCAACATGGATCAGGTGATGAAACAGGTATACCAGGATCCGGAGGTACAGGCTTTCTTAAACCAGCACCAAGCCCAGCTTAATAAGGAGAGCATCCGGCGGGGACGGTCAAAGCTGTACGAGTTCTTCCACGAGAAGCAACTGATCAAGGCTGGCAAGGCGACGGTCGCCCCCGGCTACTCACCCCAGCTGCAGCTTGTTGCTGGTCAGATTGACGTGACCTACGTGCCGACCCAGCAGCTGATTGAGCGTCGTCACCAGGAGCACCTGCGCCAGCTGGTTAGCTCAATCAACATGCCTAAATTCATTCGGCGGGCAACCCTGGATGGCTACTACCTCGATGACCAGAACGGAACGGAAGGCCGGGTGATGGCCTACAACGCCGTTAATGACTTCATCGATAATTACCAGCCAGATCACTTCCGGCCGGGCCTCTACCTGACGGGGAGCTTCGGGGTTGGGAAGACCTATCTCCTGGCAGCGACGGCTAATGAACTGGCCAAACACGACGTTGCGACCACGATGGTCCACTTCCCGAGCTTTGCCGTCGAGATGAAGAATTCGATCCGGACCAACGAGGCCGGCTCGAAGATCGACGCGGTTAAAAAGGCCCCGGTCCTGATGCTCGATGATATTGGTGCCGATGCCATGTCAACCTGGGTTCGCGATGACGTCCTCGGTGTGATCCTGGAGTACCGGATGCAAGAGGAGCTGCCGACCTTCTTCAGCTCCAATTTCTCCATGGACCAGCTCGAAAAACAGCACCTGGCGATCAACAACCAGGGGGTCGTTGAGCCGGTCAAGGCGGCCCGGATCATGGAGCGAATCAAGTTCCTCTCCCGGGAGATCACGATGAACGGTGAAAATCTGCGAAAAAAGGGATAA
>SRR1151252_00744 translation initiation factor IF-3
ATGATTGTCAATAACGGTATTCGTGCACGGGAAGTGCGGCTGATTGACCAAAACGGTGAACAGTTAGGGATCAAATCGAAGCGTGAAGCACTTCAATTGGCAGAAGATGCCAACCTTGATTTGGTGTTAGTAGCACCAAAGGCACGGCCAGCTGTTGCCCGCATTATGGATTACGGTAAGTACCGTTTCGAGATGCAAAAGAAAGAGCGTGAAGCTCGTAAGAAACAAAGGACAGTAACCGTTAAGGAGATTCGGCTGAGCCCATCAATTGACACGAACGACTTCAACGTCAAGCTGAAGCGGGTTCGTAAGTTCATCGAAAAGGGTGACAAGGTTCGGGTTTCGTTACGTTTCCGTGGCCGTGCCATTACGCATAAGGATATCGGTCGTGACATGATTGAACGGATGGCTGAAGAAACTTCAGACATTGCTACTGTTGTCCAACGTCCAAAGATGGAGGGGCGGAGCATTTTCCTGACGCTCGCCCCAGCTGCTGATAAAGCGAAAAATTAA
>SRR1151252_00745 50S ribosomal protein L35
ATGCCAAAGATGAAGACTAACCGCGCTGCTGCAAAGCGTTTCAAGCGTACTGCTAATGGTGGATTCAAGAGTGGTAACTCATTTACCAGTCACCGTTTCCACGGTAAGACCAAGAAGCAACGTCGTCAATTACGTGGCTTGAGCATGATGGACAAGTCCAATGTAAAGCGTTACAAGAAGTTACTGCCATTATTCAAGTAA
>SRR1151252_00746 50S ribosomal protein L20
ATGCGAGTTAAAGGTGGAACTGTTACGCGCGCACGTCGCAAGCGCATCATGAAGTTGGCAAAGGGTTACCGTGGTTCAAAGCACCGTCTGTTCAAGACTGCTAAGGACCAGGTAATGAAGAGTTACGTTTACGCTTTCCGTGATCGGAAGGTTAACAAGCGTAAGTTCCGTGAACTCTGGATTGCCCGGATCAACGCCGCTGCTCGGATCAACAACATCAGCTACAGCAAGTTGATGCACGGTCTGAAGTTGGCTAACATCGACATCAACCGGAAGATGTTGGCTGACCTGGCTGTTAACGATCCAAAGGCATTCACGGCCATCGTTGACGAAGCCAAGAAGGCCCTCAACTAA
>SRR1151252_00747 haloacid dehalogenase
TTGTTAGAAAAATTTAAGCCAACCTGGATGGTTAAAAATATCTACCAGGTATCACCACAAGAACTACAAGCCAAGGGGATTCGTGCCGTCTTCTCCGACCTAGACAATACCCTGATTGCTTGGAACAACCCGGATGGGACACCGGAACTTCGCCATTGGATGGATGACCTCCATGCGGCCGGGATTCCCCTGATCGTGATTTCCAATAACAGTAAGCAACGGGTGGCCCGGGCGACGGCCAGCTTGAAGTTGCCCTTCATCTCCCGGGCCCTCAAGCCGCTGAGCTTTGGTATCACCCGGGCCCGACGCAAACTGGGCTTGAAGCCTCATGAGGTCGTGATGGTCGGTGACCAGCTGATGACTGACGTAATTGCGGCCAATCGGGCGGGGGTCTACAGTATCCTTGTCCAGCCGCTGATCAGCACGGATAAGTGGGTTACCTGGCCCAACCGCGTCATGGACGACCTGGTGGAGAAGCGGTTGAAACAGAAGTATCCAGATACGAAATGGCAGGAGGGATTAACTAAAGATGAGTGA
>SRR1151252_00748 GTPase
ATGAGTGAACAAGACGATCAACTACGGTGTATCGGTTGCGGGGCGATTATCCAGTCAACGGATCCGGCCGCCCCGGGCTACACCCCTAAGTCGGCAATTGAAAAGGGATTGGCGAACAATGAGCTGTACTGTCAGCGCTGCTTCCGCCTCCGTCACTACAATGAAATTGCCCCGGTCTCCCTATCTGACGACGACTTTTTGAAGCTGCTGAGCCAGATTGGTCAGTCCAAGGCCCTGATTGTCTACGTGGTCGACATCTTCGACTTCAACGGCAGTCTGATCCCGGGGCTCCACCGCTTTGTCGGCGATAATCCGATCCTGCTGGTCGGCAACAAGGAGGACCTTCTCCCACATTCGCTGCGGCGGCCTAAGCTTCGTGACTGGATCCGCCAGCAGGCTAACCGGGCTGGGTTGCGACCGATCGACACGGTCCTGGTTTCAGCCAAGAAGAACCACCAGATCGACCAACTCCTGGATACGATTGAAAAGTACCGGGGTGATCGTGACGTCTACGTAGTCGGGGTTACCAACGTTGGTAAGTCAACCCTGATCAATCAGATCATCAAGTTGCGGACCGGGGTCCAGAATCTGATCACGACCTCCCGTTTCCCCGGGACGACTCTAGATGAGATCGAGATCCCACTGGATGATGGCCATCGTCTGGTCGACACGCCGGGAATCATTCATTCTCATCAGATGGCCCATGTCCTGTCACCCAAGGCCCTAAAACTGGTTGCCCCGCAAAAGGAAATCAAGCCGCGGACCTACCAGTTGAACCCGGAGCAGACCCTGTTTCTGGGTGGCATTGCCCGCTTCGACTATCTGAAGGGGGAACGGGCCGGTTTAGTGGCCTACTTTGACAATAACCTGATGATTCACCGGACCAAGCTGGCTAACGCGGACCGTTTTTATGAAAAACACGTCGGTGAGCTTTTGACGCCGCCGAGTGAAGACGACCTGGCGACCTTCCCGCCACTGGAACGTGAGGAATTCCGGGTCCATGAGAAGAGTGACATTGTCTTTGAGGGCCTGGGCTGGATTACCGTGCCGGCGGGAACCACCGTCGCTGCCTGGGTACCCAAGGGTGTGGCGGCCCTGATCCGTCGCGCAATGATTTAA
>SRR1151252_00749 RNA-binding protein
ATGCAATTACGAGGAAAACAAAAACGTTTCTTACGGGCCCAGGCTAATCACCTGCAGCCGATTTTTGCCGTGGGTAAGGAGGGGCTGACCGACCAGTGGCTGGCCCAATTAAATGGTGCCCTGGACCGGCGTGAGCTGATCAAGGTCAACATTCTGCAGAATGCGGACGTCACCACGGCTGAGCTCAAGGACTTTATCGAGCGGGGCACCGACATCCAGGTGGTCCAGTCGATCGGTCGGGTCCTGGTCCTGTTCAAGGTTTCAGCCAATAAGGACCGGCGCGAGCTATCTGATCGCGTGGCCCGAATCTAA
>SRR1151252_00750 nicotinic acid mononucleotide adenylyltransferase
ATGCAGCGTTGTCGAGTATTTGCTAATCCGCAGACGCGAGTGCAACCGAAACCCGTCACGACCAGTCACCGGTTCCGGGTCGGGATTTACGGTGGAACTTTCAACCCAATCCACAACGCTCATCTCCTGGTGGCCGACCAGGTGGGGAACTCGTTGTCCCTGGATCGAGTCGATTTCATGCCAGACGCGACGCCACCACATGTGGACAAAAAGACGGCGATTGCTGCCGACCTGCGGCTGGCGATGATCAGGCTGGCGATTCATGATAACCCCATGTTTGGAATCGAGGAGAGTGAGCTGTACCGGGGTGGGGTCAGCTACACCTATGACACGATGAAGCAACTGGTCGAACAGCACCCGACCACGGACTACTATTTCATCATCGGTGGCGATATGGTAGACTACCTACCCAAGTGGCACCGGATTGATGACCTGGTCCGCCTGCCACGCTTTCGCTTTGTTGGGGTTCGTCGACCGGGCGCCAAGAACGAGTCAGCCTACCCGGTGATCTGGGTGGACGTGCCGCCGACCAGCTTCAGTTCAACGGACATTCGACGTCGGATCGCCCAGGGCCTGTCGATTCGGTACATGGTTCCGGACGCGGTCGCCGCATTTATAAAGGAGCATCACTTGTATCATGAATGA
>SRR1151252_00751 hypothetical protein
ATGAATGAGGAAACAATTGAGTACAGCCATCATTATGTGCCGCTGACCCGGGGCCAGCTGGTCGACCGCCTGCGGGCTGCCCTGAAGCCCAAGCGCTTCCACCATGTCCTGCGGGTTGAGCAGACCGCAATTGCCCTGGCCAAACAAAACGGGGTTGACGTCGAGAAGGCCAGCATTGCCGGGCTCTGCCATGACTACGCTAAGCAGCGCCCTGACCAGGACTTTATCGACGAGATTCATGCTAAGGGCTTGGATCCTGACCTGCTGAACTACGGAAATGCCATCTGGCATGGGATCGTGGGGGCAGAATTGGTCAAGGATGAGCTCGGCATCTGGGATGAGGACATCTTAAACGCGGTTCGTCATCACACCACCGGCGCAGCTAAGATGACTAAACTGGAGCAGGTGGTCTACATGGCTGACTACATTGAACCGGCCCGTGACTTTGATGGGGTCGAATCGGCACGGCGGATCACGGCTACCGACCTTGGTGCCGGGGTTGCCTACCAGACCAAGCACACCCTAGAATATTTGATTGAAAACAGCAAACCAGTGTACCCGAAGACGATTGAGACTTATAACGCCTGGGTACCGGCTTATGAAGGGAAGATTAAATAG
>SRR1151252_00752 ribosome silencing factor RsfS
ATGGAAAGCAAACAATTACTAGAGATGGTTGTCAAGGCTGCCGATGGTCGGCGGGCCGAAGACATTGTGGCACTGAAGGTTGACGAGATCAGCCCGATGGCAGACTACTTCGTTATTATGACTGGGGGCTCTGATCGACAGGTTCAGGCGATTGCCAACGCGATCATCGAGAAGGCCCACGAGGATCAGGTTAACATTGGTAGCGTCGAGGGTAAGAACCATGCCAAGTGGGTTCTGATCGACCTGGGCGACGTGGTGGTCCACGTCTTCCGTGAAGAGACCCGGAGCTTCTACAACCTGGAGAAGCTCTGGTCCGATGCCCCGGTAGTCAACGTCGATGAATGGGTCAATGACTAA
>SRR1151252_00753 SAM-dependent methyltransferase
ATGATTTACCACACCTTTGCCCAGCTTTACGACCAGCTCTTCGATGATGAGCTCTATGCTAAGTGGGCGGCCTACACCCGGGATAATGGCGGCCCGGCTGCTCACCGGATTCTCGACCTAGCAGGGGGCGCCGGTCGACTGGCGGTCCTGCTGGCCAAGCGGGGGCAGGATGTGACGGTGGCCGACTTCTCGGCTGATATGCTCAGCCTGGCCAGTCAGCATGCCGCGGCTGCCGGGGTCAACTTGACCCTGGTGGAGGCTGACATGCGCAACCTGGCCGCCTTGGGGCAGTATGACCTGGTGACCTGCTTTGCCGACTCACTATGTTACTTGGCGGGGATTGATGAGGTTGAAATAACCTTTCAGCAGGTGGCACTCCACCTCCGGGCTGGCGGCCGCTTTCTTTTTGACATGATCACCCCCTACCAGACCGACGTAGTTTACCCGGGCTACATGTACAACTACGAGGATGATGACCATCAGCGGGCCTTCCTCTGGCAAAGCTACGGCGACGACGATGTAGCTCACGGGGTGATCCATGACCTGGCCTTCTTCAACCGGCTGGCGGATGGACATTACGAGCGGATCGGGGAGAACCACTTTGAGCGCAGCTACCCCCTGAAAGCCATCGAGGCGGCCTTGACTCGCAGCGGCTTTACCAACGTTGAGGTAACGGCTGACTTTGGTGCAGCGGCTCCGGATGAGCAGACGACGCGTTGGTTCTTTTCTTGTCGAAAGTAG
>SRR1151252_00754 nucleotidyltransferase
ATGCAGGCAGTTGGGATGGTCGTCGAATACAACCCTTTCCATAATGGGCACCGTTACTTCCTGAATCAGGCACGGCAAATAACCGGGGCCGACGTGACGGTGGCGGTAATGAGTGGGAACTTCACCCAGCGGGGAGAACCGACGATCGTCGATAAGTGGGCCCGCGCTAAGGCCGCCCTGGAAAGCGGGGTCGATCTGGTGGTGGAGCTGCCGGTCTTCTACACCGTTCAGCCGGCCCACCGGTTTGCAGCCGGTGCCCTGGCGATTCTGGCCGCCCTTCAGGTTCATCGGGTGGCCTTTGGGGCTGAACATCCCGCCTGGGACTTTCCGGCCCTGGTGGCGGCCGAGCAGCGGTTTAACCAGGCCGATTTTGACCAGTACAACGCCACCTATGCTACCCAGTTCAACCAGCAGCTGCGGGCGCAGACGGGCCTGGAGCTCCGTGACCCCAACGATATTCTGGCTTTCGCTTACACCAAGGCGGTACTGGCCAATCACTACCCGATCCAGTTGACCCCGGTCCAACGACAGGGCAGCGACTACCACGACCGGACGATCCATGGCCGGATTGCCAGTGCCAGCGCAGTCCGGCGGGCGGTGGCTGCTGGGACGGAATTCTTTGCTACGGTACCGCCGGCGATGAGGACCACCCTGGCGCAGGTTGACCAGGTCCCCGACTGGGCAAGCTTGTATCCGCTCTTGCGTAACCAGCTAATTCAGGCACCGTTGGGCTACCTGGCGGCGACCTACCAGATGGCAGAGGGACTTGAGCACCGGATGAAGGAGGTTGCCCAACGGTCGCTGACCTTTGACGACTTCATTCATGGGGTGAAGACCAAGCGCTACACTTACGCCCACTTATTACGGATGTGTCTGTACACGACCCTGCAGCTGAGTGAGGAGGAGGTGGCCGCCAGAGTTGACCACCCCTACATCCACATCCTGGGCTTTAACAAGCGGGGGCAGGAATACCTTCACCAGGTCAAAAAGGTGGTCCCGGTGCCGCTATTTACCAAGGTCAGTCAGGGGATGCGGGATGGCTTCTACAACCTTGACTACCGGGCCGGCAAGCTCTATCAGCACTTTACCCCAGTTGAGCAGGACCTCAAGCACCCGCCGCTTATGATTCGCTAG
>SRR1151252_00755 DNA-binding protein
ATGAAATGGTCGTTAGCAGAGTTACATCGTTACCAAAATGAACCACTTCATATTCAAAGTACTTTTGATCTGAACGCATCATTGACTAAACTGTTCCCGGACATCATCCTGGCCGTTGCACCGGTCAAGGTTGACGGGTACGTGTCCTATGACGACGGGGACACAACCATCAGCGCACACGTGAAGACGACGCTGACGGTGCCATCCAGTCGTTCACTGACGCCCGTTCAGTTACCACTTGACTTTGACTTTACGGAGACGTATATTGATGATCGTTCCCACTTCTCCCGATACGAGGATGACGAGGTTGTCTTCTTGTTGAAGCGGGGTGAGACGATCGACTTCGATACCGCGTTAGCCGAGAACATCGTCGAGCAGGTACCGTTACGAGTGCTTTCTGCCGATGAGAAGGCCGGCAAGCCCATGCCAACCGGCAAGGGCTGGAACGTCATCTCCGAGGATGACTACGCCGCCAGCAAGCAGAAAGATAAAAAAGTTGATCCACGTTTCGCGAAACTCCAAAAATTATTTCCTGATCAGGATGATAAAAAGTAG
>SRR1151252_00756 50S ribosomal protein L32
ATGGCTGTTCCAGCACGGAAGACTTCAAAGACCAAGAAGCGTATGCGTCGGGGTCACATCAAGTTGAATGTCCCTGGCTTAACTCCTTGCCCAAACTGTGGTGAACTTCGCAAGTCCCACATGGTATGCCCTAACTGCGGCTACTACAATGGCAAGCAGGTTGTTAACGCTAACAACTAA
>SRR1151252_00757 two-component system response regulator
ATGAGTCGAATCTTAATTATTGAAGATGAAGAAAATTTGGCAAAGTTTGTGGACATGGAGCTCAAGCACGAAGGCTATGAGACCGATGTGGAGCTTGATGGCCGGGCCGGATTGGAAGCAGCCCTGAACCAGGACTTTGACGTGATCCTTCTTGACCTGATGCTGCCCGAGTTAAACGGGATCGAGGTGGCACGGCGGGTCCGTGAATTAAAGGACACGCCGATCATCATCATGACTGCCCGCGATTCGGTGATCGACCGCGTCTCCGGTCTGGATCACGGGGCCGATGACTATATTGTCAAGCCGTTTGCCATTGAGGAACTACTGGCCCGGGTCCGAGCACTGCTGCGGCGGATTAGCATCGAGGACGGCAACAACAAGGAACACCAGACCACCGTCAACTACAAGGACCTGACGATTGAGAAGGAGAACCGGGTCGTTCGGCGTGGCGACGAGGTGATCAACCTGACCAAGCGGGAGTATGAACTCCTCTTGATCCTGATGGAAAACATCAACGTGGTCATGTCGCGTAAGGAACTGCTCTCCAAGGTCTGGGGCTATGATTCCAAGGTTGAAACCAACGTTGTCGACGTCTACATCCGTTACTTACGGAACAAGATTGACCGTCCGGGAGAAAAGAGCTACATTCAGACCGTCCGGGGTACCGGATACGTAATTCGTTCGTAA
>SRR1151252_00758 two-component system sensor histidine kinase
ATGGAGGAAAAAACTAGCAACCGCCGTTTTATTTCCTTAAAGCTTAAATGGGCCTTTGGGACTGCCGTGGGCTCGCTGATCATCTTCTTCATCGTCGCCATGGCGATGTTTAGCTCGTTTACGCAGAGCCTCTTTAACCAGGAGCGTGCCCTGCTCAACCAGGGGATGACCAACATCAGTCGGCAGCTGGGTCGGATCAACCAAACCCTGACGAAGAAGAACATCAACAACGTGATTGATCCCGACAATGGGCACTCAATGACGGGGAGTGAGTACCAACGGCCGATCATCCAAGAACTCAGTGACGGTCACCTGATCGTCAATATCTATGACCACCAGCAGCACCCGATCCTGAGTACCGGGAAGAGTATTGTTAAACCCACCTTCAATAATCGGCGCCAGGTCCGGATGACAAAGGGGCCGACCCACCAGGTGATCGTCGGCCAAGCGCCGATCTATTCCCAACGTGGACATCGGCTGGTCGGCTACCTGCAGGTGGAGAACAAGCTAAATGCCTACTACCGAAACTATAACCAGCTACGCCTGGTCGTGATCCTGGCGATGTGCCTGGTCGTCCTCGCTAGCGGGCTGCTTGGTTACTTTCTTTCACTACTGTTTTTGCGGCCGCTCGGTGAAATTCACGATACCGTCAAGGCCATCAGCAAGGACCCGACCAGAAACGTCCGGGTTCCGGTACCCAGTCATAACGATGAACTGGCCGAGCTGACCACGATGTTTAACGAGATGCTGGATCGGATGCAACGCTACATCGACCAGCAGTCACAGTTCGTCAGTGACGTCAGCCATGAGTTGCGCACCCCGATTGCCATCATTCAGGGTCACCTTGACATGCTGGAGCGGTGGGGAAAGGATGATCCGGAAGTCCTCAACGACTCGATCAAGGCCTCTCTGATTGAGACCAAGCGAATGAAGAACCTGGTTCAGGAGATGTTGGACCTTAGCCGGGCCGAGCAGGTGGAGATCAACTTCCGCAACCAGAAGACCGTGGTCAACGATGTGGTCCACCAGGTCTTCAACAACTTCAAGATGCTTTATCCGGACTTCAACTTCACCCTCGACGATGACCTGAACGAGCCGATCACGGCCAATATCTACCGGGACCACCTCGAGCAGGTCCTGGTAATCCTCTGTGACAACGCCATCAAGTACTCGACGGAACGCAAGGAGGTCCACATCTCCCTGTCTAGGGGGATGAACACGGTTGAGATCGGGATCCAGGACTTCGGTGAAGGGATTCCGTCTGAGGATGTCGACCGGGTCTTTGACCGCTTCTACCGCGTGGATAAGGCCCGCAGCCGTAAGAAGGGCGGTAACGGTCTTGGACTATCGATCGCCAAGCGGCTGATCGAGGGCTACCATGGGTCGATTATGTTGGAGAGTTCCCTGGGGGCCGGTTCACTCTTTCGAATCATCTTGCCGATTGTGGAGGATCCGGAAGCGCTTTAG
>SRR1151252_00759 amino acid permease
GTGGCTGATAAACAGAAAAAATTAATCACCACACCGACCCTGGTGTTGATGATTATTTCGACAATTTATGGTTTTGGGAACGTCTCCATCGCCTATGCCCAGATGGCCTATGCGGGGATGTTCTGGTATATCCTGGCGGGGGTATGCTTCTTCTTTCCGTGCTGTCTGATGATGGCGGAATACGGGTCGGCGTTCAAGGACGCCAAGGGGGGCATTTACTCCTGGCTGGCCGGGTCGATCGGCGAGAAGCTGGCCTTTATCGGGACCTTCATCTGGCTTTCCAGCTGGATCCTCTGGCTGGTTTCGAGTGCTTCTAGGTTGTGGATTACCCTTTCGGCACTGCTGTTTGGGCATGATACCACCCAGCACTGGCACTTCTGGATCTTCAATTCGACCGAGCTGATCGGGATCCTGGCGATCCTGTTCGTGCTCCTGGTTACCCTGCTGAGCTCGCAGGGGATGAACGGGATCACCAAGATCAGTTCCTTCGGTGGGGCCTTCATGATCGCCGTGAACGCAATTTTTATCCTGGCAAGCCTGGTGGCAATCATCGCCAACAAGGGGGTCACGGCCCAGCCAATCCACGGGGTCGCCAGCTTCTTTGAGTCACCGAACCCATCCTTCAAGACGCCGATTGCGGTGATCTCCTTCGTTGTCTATGCCATCTTTGCCTACAGCGGGATGGAAAACCTCGGTGGGGTCACCGACAGTATGAAGGATCCGGCGCACACCTTCCCGCGTGGCTTGGTGATCGGGTCCCTGCTGACGATCGGCAGCTACGTCTTAATGATTCTGATGACCGGCTTCACGGTTAACTACGACCACGTCATCGCCCGGCCGAATGTTAACTTGGGGAACGTTACCTACGTGGTCTTTGATCGTCTTGGTTACATGATGGGGGTCTCTTTGGGATTCAGTCACGGCATCAACCTCCTGTTGGGTGACATCTTCACTCGGATGATTGCCTTGGCCGGTTTGATGGGGATGCTTGGAGCCATGTTCCTGCTGGTCTATTCACCGATTAAGTCCTTCATCATGGGGGCCAACCCGAAGCTGTGGCCGGCCCGGGTCACTAAGTTGAATAAGCACGGCATGCCGGCCTTTGCCATGTGGATGCAGGCGATCTTCGTCTGCTGCATCATTTTCCTGATTTCCTTCGGGGGTTCGGCTGCCGATGCCTTCTACCAGATCCTGACTGACATGGTGAATGTCTCAGCCTGTGCGCCGTACATCTTCTTAGTCGGGGCCTTTCCAATCTTCCAGAAGAAGAACATCCCGCATGACTTCGTGGTCTTCAAGAACCGCTTCTGGACCAACATCCTGGTCGGCTTCGTTGAGATCATCGTCTGTCTGGGGATCATCTTCACCTGTATCCAGCCAATCCTGGACCACGACCCGCAGACGGCTTTCTGGACGGCGTTTGGGCCGATCTTCTTTGGCATCGTCGCCTGGCTCTTCTACCGGCACGCGGTCAGGAAGAACCGCCTCAACCTTTAG
>SRR1151252_00760 MATE family efflux transporter
ATGAATTCAACACAAGCCATTCAAGGTGAGGTTCGGCATTACGTGGTGCGAAACGTTGTCGCCACCCTGGGAATGTCGCTCTACGTCCTGATCGACACCCTCTTCATCTCAATTGCCGCCGGGGCGCTAGGGCTGACCACCCTCAACCTGGTTCTCCCCCTCTTCAACGTCTTCAACGGGGTCGGCCTCCTGCTAGGGGTCGGCGGAGCGACGATCTTTTCGCTTAACAAGGTCCTCCACCCCGAGCGAATCCGCGACCTCTATAGTCAGCTGATCATCTTTGCAGCGACCCTGGGCATTGTTCTGGCGGTCCTGCTCAACGTCTTCGCGACCCCGGTGGTTAACTTCCTGGGGGCCAATGACCAGACCCGGCGGATGGCGATCATCTACCTGCGGATCTGTGCCTGGTCCGGGCCCCTCTACATGTGCAACTACATCTCCATCAACTTCATCAGAAACGATGGTAACCCGACCCTGACCATGAAGGCCACCCTGACCGAGACCCTTTCCGTTATCGTGATCGACTGGTTCTTAATCTTCGGTTGCGGGCTCAAGATGGAGGGGGCCGCCCTGGCAGTGCTCTTCTCACCGCTGATCAGCTTAATCGTCCTGTCACGCCACCGGCACTTTGCCGGTCGCCAGCTCCAGCTCTACTGGGCCCGGCCGCAACTGGCTAACCTCGGTCGTTCAGCGAAGCTCGGCGTGGCCGCGGCCTTAAACGAACTCAGTACCGGGGTCAGCATCTACTTCTTCAACCATGTCCTCCTCCAGCTGGCCGACAACTACGCGGTGGCGGCCTACGGGGTGATCTCCAACATCGCCATCGTCGTGCTGGCGATTGCCAACGGGGTGGCCCTCGGTGTCCAGCCGATCGCTAGTCGGGAATATGGCCAGCACCACTTCACCAACGTGACGACGGCACTCAAGATGGGGACGCTCATCACCCTCCTGCTGGCGACGATCTCCTTCGTCATCCTGGTGACCTTCAAGCTACCGCTCATTGAGGCCTTCAACACCGCCCACTCCGCTCAGCTGGTCAGCTACGCTCGGGTGGGGCTGCCAATCTACTTCACCAGTACCTTCTTTAGCGCCCTCAACCTGCTCTTCATCCTCTCCTTGACGGCGATCAACGCGGCCCGGGCCTCGTTTACCCTCTCCATCTTGCGGGGGTACGTCATTCTCCTCCCCGCCATCCTGATTCTCGCCGCCCTGGTCGGCATCAACGGGGTCTGGTCGGCAGTGCCGGTCACCGAATTCCTGGTCTGCATCATTGCCTCCCTACTGGTCCGTCAGCGGATCAAACAATTTAATGCATAG
>SRR1151252_00761 peptide deformylase
ATGATTAAACCTATCGTCACTGATACCCACCAGCTTCAGCAACCATCCAGGCTCGCCAGCCGGGCCGACCTACCTCTGGCCACTGACCTCAAAGACACCCTGACCGCTCACCGGGATGCGTGCGTCGGCATGGCGGCTAACATGATCGGGGTCCATAAGCGCGTCATCATTGCCCAGCTCGGTCCCCTGCCAGTCGTGATGTTCAACCCGACCCTCACCAGTAAGGCCCAACCCTACCCGGTCAAGGAGGGCTGCCTCTCCCTGACCGGGCAGCGTCCCACGACCCGTTACAAACGGATCACGGTTGACTTTTTCAACGAACACTGGCAACGCCAACAACTGACCCTGACCGACTTTGCCGCCGAGATCGTCCAACACGAGCTCGACCACTGCCAGGGGATTCTCATTTAA
>SRR1151252_00762 preprotein translocase subunit YidC
ATGAAACATAAACGCCTTACAGTTGTTGGTCTGATGACCACAATGCTCCTACTGCTCAGTGGCTGTGTCCGTACCACCAAGAGCGGCCGCCCCTACGGCTTCGTCTACGACTACATGGCCAAGCCGATGCAGCACCTGATGGAATGGCTGGCCAGCCACCTTGGCAACAACTACGGCTGGGCGATCATCGTGATCGTGGTGATCGTCCGGACAATCCTGCTGCCGGTGATGTTCTCACAGATGAAGAAGTCCACCATCACCCAGGAGAAGATGGCCCGCGTCCAGCCCCTGATCAAGGAGCTGTCCGCCAAGCAGAAGGCCGCCAAGACCCCTGAGGAACAGGCCGCGGTCAGCCAGCAGATGATGGCCCTCTACCGGGACAACAACATCAGCCTGACCGGGGGGGTCGGCTGCCTGCCGCTCTTGATCCAACTGCCAGTCTTCGCCGCCCTCTATGCTGCCATCCGCTACTCCCCGGACCTCTACCACGCCACCTTCTTCGGGGTCGCCCTAGGGAAGCCGAGCTTCATCTTCGCCGTCCTGTCCTTCATCGCCTACGCCATCCAGAGCTACCTTGGCCTGGTCGGGGTACCCGAAGAGCAAAAGAAGCAGATGAAGATGGCAATCTGGATGAGTCCATTCATGACCTTCTTCATCTCCCTGACCTCCTCGGCCGGGTTGGGGCTCTACTTCTTCATCGGTGGGCTCTTCGCCATCCTGCAGACCCTGATGGTCAACGCCTACCGGCCACGAATCCGTAAGCAGATCGCCGAAGAGGCCAAGAAGCACCCGGTCAAGATGCCAGCGGCCCCGACGACTAAGTCCAGCACTGACACCAGTACGGCCAACGCAATCGACCAGCTTAAGAAGCCAAACCCGGCTAAGCAAATGGCCCAACACAACCGCCAGCGTAACGCCGGCAAGCAACAGCATCACAAGTCAAACAAGTAA
>SRR1151252_00763 acylphosphatase
ATGGTTAACGTTCAACTCACCATCACCGGGCACGTCCAGGGGGTCGGCTTTCGCTGGGGGACGCTTAAATTAGCCCAGGAGCTTGGCATCACCGGCTTTGTCCGCAACCAGGCTGACGGGACGGTCTATGTTGAGGCCCAGGGCTCGGACAAGGTAGTGGCGGCCTTTATCCGGCGGCTGGCGGCCGGTCCCACCCCGTATGCCATCGTCGATCGAATTAGGCAGACGGCTGCTCCCCTCGCTGACTATGACGACCGCTTCACCGTCCGGCCCTAA
>SRR1151252_00764 rRNA methyltransferase
ATGGAAGAATTAACATCAATTCACAATCAACACGTTAAGGACTGGAAGAAGCTTTCCACCAAGAAGTTTCGCAAGCAGACCGGCTACTATCTATTGGATGGTTGGCACCTGGTCAACGAGGCCGTTCATGCCGGGGTGGCAATCCACCAGCTGATCGGGACGGCTGATCAGTTGGATGAACACCGCGAGCTCTTCGACGATGCAAAAGCGGTCTATGCGGTGACCCCTGAGATCATGAAGCACATCACGGACACCGTTACCCCACAGGGGATTGCGGCCGTCGTTGACCTGCCAGATGCCCACCGGGAACCAACGCAGCCCTTGACCGGGGCCTGGTTATTCTTGGACCGGGTTCAGGATCCGGGAAACGTCGGTACCATGGTCCGGACGGCGGACGCCGCGGGCTTCACCGGCGTTGTCGTTGGGCATCGTTCCGCCGACCTGTTCGGCCCCAAGGTCGTACGCTCCATGCAGGGAAGCCAGTTTCACCTCCAGCTCTTTGAGGGTGACCTTACCAAATGGATCGCTGATTTCAAGGAAAATGGGGCGCCGGTGTACGGTACCCAACTGAATCCCCAGGCGAAGAACTTCCGGGACGTTCATCCGGGGAAGACCTTTGCCCTGATCATGGGTAATGAGGGCCAGGGGATGAGCCAGGAATTGCTCACCGCTACCAGTGATAACCTCTACATCCCGATGCGGGGGGAGGCCGAGTCGCTGAACGTGGCCATTTCTGCGGGGATCCTCATGTTCCAGCTAAATCAATGA
>SRR1151252_00765 HD family hydrolase
ATGAAATCAATGAATGAGTGGCGCAACGATCAAGAATACGTTTCAATTGTTTCTGACCTGCTGGCCCAGCCCGCTGTTAAAAAGTTGGCTAACTATACCCAGCACCACCATTCGAATCGTTTACAGCATTCAATTGCGGTTTCTTACGATAGCTATAAGATTGCTAAACGACTCCACCTAGATTACCGGAGCGTTGCCCGGGCCGGGTTGCTCCACGACCTGTTCTACTATGACTGGCGGACGACCAAGTTTGACTTGGGGACGCATGCTTTCATTCACCCACGGGTTGCCCTGCGGAACGCGGAGAAGATTACCCCGTTGAACAAGATGGAGAAGGATATCATCTTAAAGCACATGTTTGGGGCAACGCTCGCTGTGCCTCGGTACCCAGAAAGCCTGATCGTTTCATTGGTTGATGATTTTGAAGCAGAGCACGAATTCTGTAGCCCGCTGCGGGCCAAGCTTCGACGTCGGATTAAGAAGCGGCGGATGCGGACTATTTGGTAG
>SRR1151252_00766 HxlR family transcriptional regulator
ATGCAACACGAAGCTAGTACACCGGTTGCGGATGGTGGTTGTCAGCTGTGTCCCAAGTTCACGCAGACCTTCATGATGCTAGGTAAGAAGTGGAATGGCTTGATTATTGAAGTCTTACTGGGAAGCGACACCTTACGATTCAAGGACATTGCCAACAGCGTTAGCAAGTGCAGTGACCGGGTCCTTTGTGAACGACTGAAGGAACTGGAGGATGACCAGATCATCGTGCGCAACACCTATCCGGGATCCAGTCGGGTTGACTATTCATTGACAACGCGGGGTCGCGAATTGGCACCAGTAATGGAGGAAGTTCACGCGTGGAGCGACAAGTGGTGCTAA
>SRR1151252_00767 phenylalanyl-tRNA synthetase subunit alpha
ATGGGATTAAAAGAGAAGCTTGCTGACCTGCGCCAGCAAGGATTACAAGAGATTGAAAACTCACAAGACCTCAAGAAGATCAACGAGATCCGGGTCAAGATGCTAGGGAAGAAGGGCCCGATCACTAATGTCCTGCGGGGGATGCGGGATATCAGCGTCGAGGAACGGCCCAAGGTGGGGCAATTCGCCAACCAGGTACGTGATGACCTGAAGACGGCCATCGAAGAAAAGCGAGCTGCCTTGGAACAGGCCGCCCTGGATGCGGAACTGGCGGCCGAGACGGTCGACGTCACCCTGCCCGGCAGCCCGGTGGCCCAGGGTCAACCCCACGTCATCCAACAGATCATTGATCAGGTGGTGGACCTCTTTGTCTCCATGGGTTATGAAGTTGCCGTTGGTGACGAGGTTGAGCAGGAAGTTTACAACTTCGAAAAGCTGAACCTGCCTAAGGACCACCCCGCCCGTGACATGCAGGATACCTTCTACGTCACCCCGTCCGTTCTGATGCGGACCCAGACCTCGCCGATGCAGGCCCGAATGCTGGAGAAGCACGACTTCAGCCAGGGACCTTTGAAGATGATCTCTCCCGGGAAGGTCTACCGGCGTGATACCGATGACGCTACCCACAGTCACCAGTTTAACCAGATTGAAGGAATGGTTGTCGGTAAGCACATCACGATGGCCGATTTGAAGGGAACCCTGGAGACGGTTGCCCAGGCCCTCTTTGGCGACAAGCTGGACGTCCGCCTGCGGCCAAGCTACTTCCCGTTCACGGAGCCATCAGTCGAGGCCGACATCACCTGCTTCAACTGCATGGGAAAGGGGTGCGCCATCTGCAAGCATACCGGCTGGATTGAGGTCCTCGGTGCCGGGATGGTCCACCCCAACGTCCTCAAGATGTCCGGCGTGGATCCCGAAGAATACGGTGGCTTTGCCTTCGGGTTGGGCCCGGACCGGTTCGCTATGCTCAAGTACGGGGTCGACGATATTCGGAACTTCTACCAAAACGATGTCCGCTTCTTAAATCAATTCGACGAGAAAGGATAA
>SRR1151252_00768 phenylalanyl-tRNA synthetase subunit beta
ATGAAAGTATCATACCAATGGTTAAAGGAATACCTCGACCTGGACGTGGCGCCGCGCGAGCTTGCGGAAAAGATTGCTCGGACGTCGGTTGATATCAACGATGTCTACCAGCCAGCTGATGGGTTGAAGAAGATTGTGGTTGGTAAGGTCGTCGCAATGCAAGACCACCCGAACTCCGACCACCTTCACATCTGCCAGGTTGATGTCGGTGAAGAACAGCCGATCCAGGTGGTCTGTGGGGCGCCAAACGTCACCACCGGCAAGAAGGTCATCGTAGCCCTGAACGGTGCCCGGATTGCTGACAATGTCAAGATCAAGCGGGGGAAGATCCGTGGGGTCGAATCCAACGGGATGCTCTGTGCCCTCCAGGAAATCGGCTTTAGCGACAAGATTGCTCCGAAGGACTACTCGGCCGGCCTCTACTTCCTGCCGGACGATGCCAAAGAGGGTGAACCGGTCTTTGGCTACCTGGGGATGGACGACACGATCATTGACACCGATGTTACCCCGAACCGGGGGGACATGTTAAGTATGTACGGCAATGTCAACGACATCGCTGCCTTCTATGGCCTCCAATCCCATTTCAAGGAACTGCCGGTTGAGGAGAACGGCACCGAAAACACTGGCGACCTGGTCAGTGCCAAGATTGATGACCACAAGATTGCTCCAACCTACAAGTTGCGGGTAATCAAGGGGGTCAAGATCGCCGATAGTCCGCTCTGGCTGCAGATTCGTCTCTGGAACGCTGGGATCCGGCCGGTCAACAACGTGGTCGACGTCACCAACTACATCCTCTTGAAGTATGGTCAGCCACTGCACAGCTACGACTACGACCGCCTACCTGGTCATGACTTCGGGGTTCGCCACGCCAAGGAGGACGAGAAGTTCACGACCCTGGATGGGGATGAACAGACTCTTAAGGCTAACGACATCCTGGTCACGGTAGACAATCAACCGGTTGCCCTGGCCGGAACGATGGGCGGCGAAGGTACCGCAGTCAGCGATCAGACGACCACGGTGGCCTTAGAAGCGGCCATCTTTGACCCCGTCATGGTCCGGAAGCAGGCCCGGCGATTAGACCTGCACAGCGAGTCCTCAATGCGCTTCGAACGGGGAATCAACCCGGCTACTGTTGAGACGGCTCTGAACGAGGCTGCCGAACTGATTAAGGAACTGGCTGGTGGCCAGGTCACGAAAGGAATCGTCACCGGTAGCGAGAAATCCGCCGCTGATAAGCAGATCACCCTGTCACTGGCCAAGGTCAACCATGTGCTTGGGACCGACCTGCAGATGGCGGATGTAGAGGACGTCTTCTCCCGCCTGCGCTTTGCCGCTGACGTCAAGGATGACGACCAAATCGAAGTCACCGTCCCTGCCCGGCGTTGGGATATCTTTGTAGCCGCCGACCTCTATGAAGAGATTGCCAGAATTTACGGTTACGATAACCTGCCGTCGACCCTGCCGGTGATGACCCGGAACCGGGGCGGGTTAACCCCGCGGCAACGTTTTATCCGGGCTAGTCGCCATGACCTCGAGGGGATGGGGCTGACCCAGGCGATCAGTTACTCCCTGACCACGGTTGACAAGGCCAAGCAGTTCCAGATTGATCCGGTTGCTGAACCAATGAAGCTGGACTTCCCGATGAGTTCCGACCACGTGGCTACCCGGATGAGCATCATCAGTGGCCTCTTGATTGACATTGCCTACAACGTCTCCCGCAACGTCAACAACGTAGCTCTCTACGAAGAAGGCCGGGTCTTCCTGCCAAAGGGCGGCGAGCGGCCTGAGGAGCAGGAACACCTCGCCGGCGCCATCACCGGTCAGATGCTGGCTAATGACTGGCACACAGAGGATCGGCCGGTGGACTTCTTCCAGGTCAAGGGAATCGTTGAGCGCTACCTTCACAACATGGGCCTGACAGGTAAGGTAACCTACGTGGCTGACCAGTCCCGGCGTGAGATGCACCCCGGTCGCACCGCTAACATCCTGCTTGACGGCCAACTGGTCGGTTTCCTCGGCCAGGTTCACCCAAGCACCGCCAAGGTCTACAAGATCCCAGCAACCTACGTCTTTGAGCTGAACCTGGAATCCTTGATTGCGGCGCCAAAGGTTGCCAACGAGTACCATCCAATCAGCAAGTACCCATCGATCACCCGGGATATCGCCCTCCTGGTTGACGACGACATCACCAACGCGATGGTTATGGACGTTATCAACAAGCGTGGTGGGGCCTTCTTAAAGGACGTTCACCTCTTCGATGTCTACAGTGGCCTCCACCTGCCGAAGGGTAAGAAGTCTTTGGCCTACACCCTAACTTACCAGGATGACAACGACACCTTGACCGAAGACCAAGTCAACGCGGCCTTCGATAAGGTTACTAAGTCCCTGACGGACACCCTAGGCGCTGAAATTCGTTAA
>SRR1151252_00769 aminodeoxychorismate lyase
ATGAATGATAAGCGATTGAAACGGCAAAACCGCCTGGTCCTCTGCCTGGTAGCCATCTTGGTGATCACTGGCTTAGCCATCCACCAGTACTTCAACTATTCACTGAAGGCGGTGGACAGTGATGATCAACGGCGGGTGACGGTGGTTATTCCAGCCGGGGCGACCGACCACCGGGTGGCCAGAATCCTAAAGGAGCATGGTCTTGTCCGGAGTCAGTTTGTCTTTGACTACTACCTGCAGACCCACAAGACCCATGGAGTAAAGGCCGGCCGGTTTCGCCTAATGCGTTCGGCTACCGTGCCCGAGTTGGCAGCGACCATCCAGCAGAATTGCGCCGCAAAAAGGCGTTAG
>SRR1151252_00770 uridine kinase
ATGAGTATAAAAGAACAGCGGCGGCCAATTATCATTGGTGTTACCGGGGGATCCGGGAGTGGGAAGACCACGGTCAGCAAGGCGATCTATAACCAATTGCACGGCCAGGCCATCCAAATTATTACCCAGGATACCTACTACAACGACCAGGACGACATGACGATGGCTGAGCGGAAGGCGGTTAACTATGACCACCCCTTGGCCTTTGATACCGACCTACTGATCGAGCAGCTGGCCGACCTGCGAAACAATAAGGCAATCGAGATGCCGGTGTATGACTACACCCAATACACCCGGTCCGCCGAGACGGTTCACGTCGAGCCCCAGGACGTCATCATCTTAGAGGGGATCTTGATCCTAGACGACGAGCGTCTGCGAGACCTGATGGACATCAAGGTCTATGTCGACACCGACGATGATATCCGGATTATTCGCCGGATCAAGCGGGATATGGCTGAGCGTGGCCGGACCCTGGACTCCGTGATCAACCAGTACCTGGCCACGGTCAAGCCGATGTATCACCAGTTCGTGGAACCGACGAAGCGCTACGCCGACATCATCGTTCCCGAGGGTGGTGAGAACCGGGTGGCCATTGATATCTTGACGACCAAGGTCCGTGACATCCTGGTCAAGCGAGGTCACACCCTACAATAG
>SRR1151252_00771 transcription elongation factor GreA
ATGGCTGAAGAAAAAGAATTTCCAATGACCCTCGAGGGGAAGCAAAAATTAGAGGCAGAACTGGAAGACTACAAGATGAAGCGTCGTCCAGAGGTAATCAAGCGTATCAAGATTGCCCGGAGCTACGGGGACCTTTCCGAGAACTCCGAATACGAGTCTGCCAAGGATGAACAGGCCATGGTCGAGGGGAAGATCGCCCAGATTGAAAACATGCTGCAATACGCAGTCATCATCGACAACGAGGACGTGGCCAAGGACGAGGTCTCGATGGGCCGGGAAGTCACGATCAAGGAGCTGCCCGATGAAGAACCGGAGACTTACTCGATTGTTGGTGAAACCGAATCCGACCCAATCAACGGTAAGATCTCCAACGAGTCACCGATGGCCAAGGGCCTGCTCGGTCACAAGATCGGCGAGGAGGTCAGCATCGACATTCCAAACGGCACCATGAAGGTCAAGATCTTAGACGTCAAGTAA
>SRR1151252_00772 hypothetical protein
ATGAAGTTAATTGTTACCGATGCCGCTAATCAGTGGTTCAAGGATGAAATGGACCTGAAGCCGGGCGATGGGATCAAGTTCTACGGCAAGGTCTACGGGCGCACCGAGGTTCACCACGGCTTCTCCCAGGCCTTCGCCAAGGATAACCACCCGATTGACCCGGTATTGGAGGTTGTTAAGGACGGGATCGACTACCACGTCAACGAGGTCGATGAGTGGTTCTTCACCCGTCTGATCACGACCGTCGACGCCAATGACGATGGCCTCGTTTTCCACTTCCAGCACGAGGATGAAGACGAAACACCAGACGTTGCCGGGCTGACCAGTGATCAAGACGACCACGCCGACAACCAGGCGGACGCCTCGACCGGTGCCTCCCAGCACGAGCATTAA
>SRR1151252_00773 bacterial membrane protein YfhO
GTGAATCGCCAGAATTGGAAAAATCAGCACACCGTAATCTTGACCGGGAGCTTCCTGATCCCGGTCGTTTTAATGGGGGCCTACTTCGCCTACCGCCAGATGGCCCCCTTTGGCCCGAGCAGCCTTTTGACCGTCGACCTGGGCCAGCAGTACATTGACTTCTTCGCCTACTTCCGTAACCTGATTCTCCACCATCCAGGCAGTCTCTTTTACTCCTTCAGTAAGGGTCTGGGCGGGGAGATGCTGGGGACCAACGCCTACTACCTCTTTAGTCCCCTCAACCTGCTCTTGCTCTTCTTCCCCGGCAAGTGGCTAACCAGCGGGGTGATGCTCTTGACCCTTACTCGCTTTGGGTTGGCGGGGATGGCAATGGCCTGGCTCCTGCTCAAAACCAAGCTCCAGTCTGGGCCGCGCACCTGGGCCTTCAGCACCGCCTATGCCCTCAACGGCTGGATGATCGCCAACCAGCTCAACATGATCTGGCAAGACGCCCTGATTATCCTGCCCCTAATCGTCTGGGGGTTACTGCGCTTACTTCACCGGGGGCAGCCAGGCACTTATATCGCTTGGCTGGCAGTGATGATGATTGACAACTATTACATGGCCTGGATGATCTGCCTGTTCACCATCCTAGTCGTCGCCTGGCAGTTGCCAACCCTTGCTGGCTGGCGGGCCCGGCTAAAGGCGTGTGGTGCCTACCTAATCAGCTCCCTGGCCAGCGCCGGAATTGCGGCCATCACCCTCCTGCCGACCATTTACGCCCTGACAACCAGCAAGGGAACCTACACCGAGACCATGATCAGCAGTAAGTTTGAGTATCGACCAATCAAGATGCTTGGTAAGCTGGTTCCCGGCTCGTTTGACTTCAACCAGATGCCCAGCGGCCAGCCTAATATTTACGTTGGAATGCTGCTGATTATCGGGACCGGGCTGTACTTCTTCGCCCGAAAAGTCCCGTGGTCCCAGCGACTGGTCGCGGGCCTGATAACCGTCTTCTTCATCCTATCGTTTTGCTATGAACCCCTGGACCTCCTCTGGCACGCCGGACAGTTTCCGGTCTGGTACCCGTACCGGTTCTCGTTTATCTTTGCCTTCTGGTGCGTCCTGCTCGCCGCCCGAGCCCTCCAGCCCGCCTACCAACTCAAGTGGCCCGGGGCCCTGGCCATATTGGTGTTGAGCATCCTGATCTTCTGGGAAACCGGCCGGCTGAAGCTATCCTACCTGTCGACTAGCCAGCGACTCATCGGTCTGGGCTTCGTCGTGGTCTCCCTGGCTGTCCTCCTGATCGCCCGGCATAATTCACCCCGCCTGTATGACTTCCTAATCATCCTCATTGTGGTCTGCGACGTGGGGACCGCCGCCTTCACCAGCCTCAACAAGATTGCCTACGTCTCCCAAGCCGAGTTTGGCAAGTACACCCAACAGCTCGACACCGCTAGTCGCCAGCTGAAACGCCACGACCCGGGCTTCTACCGGGTTGCCAAGACCTTCATGCGGACCAAGGACGACCCGATGCAGGGTGATTTCTTCTCCGCCGATCATTTTGGTTCGACCCTGGAGCCAGCAATTCCGGCCTTCATGGGCGCAATTGGCCAACCAGCCGGCGACGGCTTCGTCAGCTATGACAACGGAACACAGGTCAGTGATGCCCTGCTCGGCTTCAAATACACGATGACCGCCCGCCACCACGGGATTGAAGACAGTAACCAGATCATGCCACTGTCTGGCTACCGGCCGGACTGGGCGCACCTCCCTGAGGTTGGCCGGACCAAGATGACCACCAGCCGCTACAACCCGGCCGCCCTACCGATTGCCTTCGGAGCCAGTTCGAAGATCTTCCAGCTGGGCAAGGCCACCCTGGATCCGCTAAGCTACCAGTCACAGATCTTCCAGGCGCTGGCAGGCCGGCCAATTAACCAGCCATTGTTTAACGTCCAGAACTTCACCTCCGTCCGTTTCGATAACGTCCAGGCCGCCCACCAGATCACGGGAACAACCTTCCGTAAGCAAAACCTCCTCAAGCCGGCCGATATCAAGCTGACGTTTATCCCGCCAACGGATGATTCCTACTACCTCACCCTCGGCCCTGAGGTCAAGGACAACGCTAGCATCAGTATGGATCGACGCGACTTTAACCAGTACAATACTTACCGCGATACCGTGGTGATTAACCTGGCCCACCATCAAAAGGGCAAGCCGGTCACCATCACCTTCCGCCTAAAGAAGACCAGTGTCTGGCTGCAAAACGTCAGTGTCTACCGACTCAACCAGCGGGCCTTTGACGCCAGTCTCAAGACCCTCCACCAGTCACCGCTAAAGATCCAGCACGCGACCCCGACGCGTATCCGAGGGACGGTCAAGATCCACCGGGGGCAATCGACCCTGATGACCACCATCCCCGCGGCTAAGGGCTGGCACGTTAAGGTCGACGGCCACCGGGTCCAGCCACGAACCGTCATCGGTACCTTCATGGCCCTACCGATCACAGCCGGCACCCACCAGGTTGAATTTAACTACCGGCCGCCGTACCTGATCCTCGGCGCGTTGGTCACCGTTATCAGCCTCACCGCAACGATCTACTTCATCCGCCGGCAACGATAA
>SRR1151252_00774 penicillin-binding protein 2B
GTGAAAGTCTTTGATCGAATAAAGAACCTATTTAATTCGCAAAACCGCAAGAAGCGCAGTGCCCAGTCGGTAATCCCGTTCCGGCTGAACCTCCTGCTGTGGATTGTCGGTATTCTCTTGTTGGCACTGACGGCCCGGCTGTTTTACCTGCAGGTGCTGAACGGAAGCTCATACAAGGCCGAGGTTAAGCGGTCCGACACCTCGATTCAGACCAACAATGTCCAGCGGGGGATGATCTACGATTCCCAGGGCCGGGTCATGGTTGGTAACCAGACCCACCAGGCGATTACCTATACCAAGGGTTCCAACGTCACCGCAACTGAGCTCTACAAGATCGCCAACCGGTTGGGCCGGTACGTAACGGTGACCAACAAGAATGCCCGGCTGACCGACCGGAATGAGGAGGACTACTACCTGGCGGACAAGGGGCGGCTGAACAGCGTCCTCAAGCACGTCAAGACCAGTAGTAACGATAGTGAGGATGCTAAGTACAACAAGGCCCTAGACTACCTGAACAGTCATCCAGATGCCTGGAGCCTGACCAGCCAGCAGAAGAACAATGCCCGGATTTACGCGGCCATGAGCGGGGCCTACTCCCTGTCGACTACCTATATCAAGGAGACTGGGGTGACCTCCGGAGAACTGGCGGCCGTTGGTGAACACCTTAACGAGATGCCGGGGGTCAAGATCGGGACTTCCTGGACGCGGAACTATCCGCAGGGTAAAGACGTTCAGAGCCTGACCGGGACGGTTTCCACGACCGGGTTGCCGAGTGATCAGGCTAATAGCTTGCTCTCGCAGGGCTATTCACGAAACGATAGCGTCGGCCAGAGTTACCTTGAGAAGGAATACCAGGCCACGTTGGCCGGATCCAAGTCCCAGACCGAGGTCACCACGAATGGTAATGATGTTACTAAGGAAGTCACGAAGTATCCTGGTAAGAAGGGGGACAACCTGGTCCTGAACATTAACTCTAAGTTCCAGAGCCGGGTTCAAGAGATCCTTAAGAACAACTACTCGGCGGCGGGGAATGCCTATTCAACCGGTGTCTATGCCGTGGTCATGAACCCGCATACCGGAGCGGTGCTGGCGATGGCCGGCATCGACCGGGATCCGACAACCGGTAAGGAAACTCCAGACCAGATCGGGGCGATTAACCACCCGATCACCATGGGGTCGGTTGTCAAGGGGGCCACGATCATGGGGGCCCTGATGGATGGCGTCATCACGCCAAGCAACAATACCTTAGTTGACCAGCCGATCAAGGTGGCTGGGACCTCATCCAAGGGTTCTTGGTTCAACCACGGTGGCTCAGCCAACATGTCCCTGGACGCCCCAACCGCCCTTGAGGTGTCCTCCAACTCCTACATGATGCAGCTGGCAATGAAGGAGGGGGGCATGAAGTACAGCCCGAATGCCCAGATTACGCTGAAACCAAGCATCTTTGCCAAGGAACGGGGTTACTTCAACATGTTCGGTCTTGGGGTCAAGACCGGGATTGACCTGCCGGGTGAGACGGCCGGGTACAACGGACCGTCGGATCAGAAGCACATCGGTTCGGCCCTCGACTTGGCCTACGGGAACTACGATGGTTACACCACCATCCAGCTGGCCCAGTACATGTCAACGATCGCCAACGGGGGTTACCGGATGCGGCCATACGTTGTCCAGTCCATCCGGGGAACCAAGAAGAACGGGCAGTTGGGGAAGGTTGAGTACACCACCCAGCCACAGGTCCAGGCCACGATTCCAGCTTCCAAGGCCGACTTCGACCTGGTAAGACACGGCCTCTACCTGGTTACCCACGGGACCAGCCCGTACGTTACCGCTAAGTCGTTGGGGACGGTCAAGCCATCCATCTCCGGGAAGACCGGGACTGCCGAAACCTTCTACAAGAAGCACCCGACCGCCACGATCAGTTTTGCCGGTTACGCACCGTCCAACGATCCCCAGGTGGTTGTGGCCCTGGCCATTCCGGGTTCCACCAACGAAAATGGGGGAGCCAACATCAACATGGCTAAGCAGATCTTTGAGGCCTACTGGAAGATGGTCCAGTCGCCAAAGGGCTTCACGGACGGTGAATAG
>SRR1151252_00775 50S ribosomal protein L33
ATGCGTGTCAACATTACCCTTGAATGCACTTCATGCCACGAGCGGACTTACTTAACCAGCAAGAACCGTCGTCACAATCCCGACCGTCTTGAATTAAACAAGTACTGCCCACGGGAACGCAAGGTGACATTACACCGCGAAACTAAGTAA
>SRR1151252_00776 5-formyltetrahydrofolate cyclo-ligase
ATGACGTATTCTAAGAATGAGCTGCGGCAGGCCTACATCGCCCGCCTTCAGCAGCTCGACCTTAATACGCGTCTTAGCGAGGAGAAACGTCTGACTTCGATGCTTTTCAACCAGCCCGAGTGGATGCGAGCCAAGGTGGTTGCCCTGACCCTCAGCCAGTCGTTTGAGATCGACACGGCCCCGATCCTGCTACACGCCCGTCATGAGGGGCGGACGGTGGTGGTTCCCCGGACCCTGCCGAAGCGGCAGATGGAGTTCGTCGAGATCACGGAGAGTACCGACTTCGTGGAGAGCTCCTTTGGGGTCTTGGAGCCGGCAGACGGCCGGGTTTATGGTCCTGATGAGATTGACTTGATGGTGGTACCCGGGGTCGCTTTCACCACGGATGGACTCCGGGTTGGCTTCGGCGGCGGTTACTACGACCGTTACTTGAGTAAGTATCATGGGGATACAATCTCATTGGCGCTACCAACCCAGCTGGCCACGGATGGCGAGTGGCAACCTGATGCGTACGACCAGCGCGTTGCTAAGGTATTGACGCTGGCGGAGTGTTAG
>SRR1151252_00777 membrane-associated serine protease
ATGCGGTCACGTAGTTGGTCCCTGGCACCGGTCACCGTCACCCTGGTCGTCATCCAGGTGCTGGTCTATCTTGCAATGAGCCTGGTTGGCGGTTCAACCAATCCGGCAGTACTGGTGCGCTTCGGGGCGCTAGTGCCGGCGCTTTTACAAGCGGGACAGTGGTGGCGCCTGGTCACCCCGGTCTTTGTCCATATTGGTTTTACCCACTTGCTGATCAACAGCCTAACCCTCTACTTCTTGGGGCTCTACATTGAGCAGCTGTTTGGTCACTGGCGGATGGTGGTCATCTACTTTGTCAGCGCAATTATCGGTAACCTTTGTAGTGCCTACTGGCTGGCGGGGAGTCTGGCAGCCGGCGTCAGTACAGCCATCTTCGGCCTGTTCGGGGCCTTTTTAATGCTGGGTGAGTCCTTCCGGGACAACTTGGCACTGCGCCAGCTCAGCCGCCAGTTTCTCATCCTGGTCCTGTTAAACGTCGGGACCGACCTGCTGGTGCCGGGCATCGACCTGGCGGGGCACATTGGTGGCCTGGTGGGCGGCTTTTTGATGGCGTATGTCGTCGGGGCCCCAAAGCTGGGATCGGTGACCGTGGCTAAGCGCTGGCTGAGTGCCGCCGTGTTGGTGGTTGGTGTCCTGGTCCTGATTTGGGAAGTGAGCTGA
>SRR1151252_00778 hypothetical protein
ATGGCAATGGTACCGCACGAATTTAGGACGTTATATGATGTTCAGCAGTTGCTCAAGGAGTTCAACGTGTTTGTCTACGTTGGCAAGCGCCTCTACGACATCGAGCTGATGGCAATCGAGCTCGATAACCTCCACCAGTCGGGGGTCGTTGACCGGGCGACCTACATGAAGGCCAAGATTGTCCTGCGCAAGGAACATCGTGAAGAATTGAAACGAGAGCAAACGGGGAAACTGTATTAA
>SRR1151252_00779 glucokinase
ATGGCAAGCAAGAAATTATTTGGTGTTGATCTTGGTGGGACGACCATCAAGTTTGCAATTTTGACGGAAAACGGTGAAATTCAACAGAAGTGGTCGATTCGGACCAACATCCTGGACGAGGGTTCCCACATCGTTCCGGACATCATTGAGTCCATCAACCACCACCTGGACCTCTACAAGATGGATAAGGACCAGTTCATCGGCATCGGGATGGGGACTCCTGGGACGATCGACCGGGACAAGGGAACCGTTGTCGGGGCCTACAACCTGAACTGGAAGACGACTCAGAATGTCAAGGAAGCCATCGAGGCTGGTACCGGGATGAAGTTTGCTCTCGACAACGATGCCAACGTGGCCGGTCTTGGTGAACGTTGGAAGGGTGCCGGGAACGAAGGTGACGACGTGGCCTTCATCACCCTGGGGACCGGTGTCGGCGGTGGGATCATCGCCAACGGTAAGCTGGTTCACGGTCTGGTCGGGGCCGGTGGTGAGGTTGGCCATATGATCGTCCAACCAGATGGCTACCTCTGCACCTGTGGTAACCGCGGCTGCCTGGAACAATACGCCTCCGCAACCGGGGTGGTTCACATTGCCCAGGACAAGGCCGAGGAATACGAGGGTTCCAGCCGTCTGAAGGCCATGATCGACAACGGTGACGAGATCACCTCCAAGATTGTTTTCGACCTGGCCAAGGAGAACGACTACCTGGCTAACGAGGTTGTTGACGCGGTCTGCCATTACCTGGGGCTGGCCTGTGCTAACCTGAGTAACGTTCTCAACCCTGAATACGTCGTCATCGGTGGTGGGGTCTCTGCAGCCGGGGACTTCCTGCTCAAGCGGGTCGAGGCCAACTTTGAGAAGTACGCCTTCCCAACGGTCCGGACCTCAACCCAACTGAAGCTGGCTGAACTGGGTAACGACGCCGGAGTTATCGGTGCCGCTTCCCTGGCCCGTCAGTTTGCCAACGAGTAA
>SRR1151252_00780 rhodanese-like domain protein
GTGGTTTTAGGAGTTAGTCAAGGATTATTAATCTTCAATACCGTTATTGTTATCCTCCTCTTGGCTTGGCTATTGACCTGGGGCTTCCAATACTGGCGGCGTAATCACTACGCCACCGTTTTGGACCAGGAGGAGTTCCAAAAGGGAATGCGTAAGGCCCAAGTGATTGACCTGCGTCAAGAGAACGAGTTTAAGGCTGGCCACATCCTTGGAGCCCGCAACCTGCCATATGTATACCTGCGTCAGCAGTATGGTGAGCTGCGTCCGGACCTGCCCGTCTACATGTACGACCAGGGGATGGCGATCAGTACCCAGGCGGCCGCATTCCTGGGCAAGCGCGGCTACCACAAGTTGTACATCTTAAAGGGTGGTTACAACAACTGGGACGGCAAGACCAAGAAGAACAAGTACTAA
>SRR1151252_00781 hypothetical protein
ATGAAGCAATTCACGAAGGGCGTTTTCATCGGTGCCGCATCAACCATCGCCGCTTTGGCCAGTGGTGCCATGGCATTCCACAAGAAGGTTATCAAGCCAGTTGAGGAACAAGAAGAGAAGTTTGACGAGAACCGGCGGGCTGCTATCCGCAAGGGTCATTCTGCTCACCAAATCTAG
>SRR1151252_00782 tRNA delta(2)-isopentenylpyrophosphate transferase
ATGACTAAAGTAGTTGCAATTGTGGGCCCGACGGCGGTGGGGAAGACGGCCCTGTCGATTAGGATTGCCAAGCGCTTTGCCGGTGAGGTGATCTCAGGGGACTCGATGCAGGTTTACCGCCAGCTCGACATTGGAACGGCCAAGATCACCAAAGACGAGATGGCTGGGGTTCCCCACCACCTGATTGATATCTGTGACGTTACCGAGCGCTATTCGGCCGCCATGTTTAAGCAGCAGGCCACCGCTGCGATCGACGCGATCGCCGGTCGGGGGCACCTCCCCCTGGTTGTCGGTGGGACCGGTTTTTATCTCCAGACGTTGACTAACAACCTCACCCTGGGTCAGGATCACTTTGACGAGGAATCGGCCCAAATCAGGGCGCACTGGCACCAACTGGCCGAGGAGCGGGGGGCCGCCTATGTCCGCCACCATCTCGCTGAGCTGGATCCGGTAGCAGAGAAGCATATTGAGGCGGGGAACCTACGGCGGGTGATTCGGGCCCTTGAAGTGATTGAGAAGACCGGTCAGCGTTTTTCCAACCAGCCCCACCAGGCGAGTCCCAACGACTACCTGTTGATTGGGCTAACGACGGATCGTCCCGTCTTATACGACCGGATCAATCACCGGGTCGACCTGATGGTTCAATCCGGCCTAGTCAACGAGGCCCGCTGGCTCTATGACCATGGTGGCGCGACTCTGCCGGCGGGAAAGGGGATCGGTTATCACGAGTTCTACCCTTACTTTGCCGGGGACTGTGATCTGGATACGGTGATCCGAAAGGTCAAACAGGATTCCCGCCACTACGCTAAGCGTCAGCTGACCTGGTTCCGCAATAAGATGGACGTTCACTGGTTCGACCTGGTCAGCGGTCGGGATGATCCTGAACAAATTAATGAATTGGTCCAGTCGTGGTTAATTAAGTGA
>SRR1151252_00783 glutamine synthetase
ATGGTGAAAGATGAGGACATTCGTTTCTTACGGGTAATGTTCACCGACCTACTGGGGACGATCAAGAGCGTCGACCTACCGGTGAGTCAGTTGGAGAAGCTGCTGGACAACAAGATCATGTTTGATGGTTCCTCCATTGATGGCTTTGTCCGGATCGAAGAGAGTGACATGTACCTCTACCCAGACATGTCGACTTGGCTGGTCTTCCCGTGGGGAGCTGAACACGGTAAGGTGGCCCGGGTGATCTGCAGTGTCCACAACACCGACGGTACCCCGTTCTCCGGTGACCCGCGGAACAACCTGAAGCGGGTGCTCAAGGATATGCAAAAGCTTGGCTTCAAGGACTTCAACATCGGTCCCGAGCCTGAATTCTTCCTTTTCAAGCTCGACGAGAACGGTAACCCAACCACCAAGGTCAACGACCAGGAGAACTACTTCGACATGGAACCCGCTGATCGCGGTGAGGACTGCCGGCGCGATATCGTCTTGGCCCTTGAGAAGATGGGCTTTGACGTTGAGGCGGCCCACCACGAGGTTGCACCGGGCCAACACGAGGTTGACTTTAAGTACGCCAACGCCCTGGAGGCGGCTGACAACATCCAGACCTTCAAGCTGGTAGTCAAGACGATCGCCAAGAACTACGGCCTCCACGCTACCTTCATGCCAAAGCCATTGTCTGGGATTAACGGGTCAGGGATGCACCTCAATATGTCCCTGTTCAGCCAGGATGGCAAGAACGCCTTCTACGACGAAAACGATAAGGACCAACTTTCACAGACGGCCTACCACTTCCTGGGTGGCTTGATGAAGCATGCCCGGAGTTTCACCGCCATCTGTGATCCGATCGTTAACTCCTACAAGCGGTTGGTTCCCGGTTACGAAGCCCCAGTTTACGTTGCCTGGTCAACTTCTAACCGGTCACCACTGGTGCGTATTCCAAACGACCGGGGGATGGGGACCCGCTTGGAACTGCGGTCTGCGGACCCATCGGCTAACCCATACCTGGCCATTGCCAGTGTGCTGGAGGCCGGCCTGGACGGGTTGCGCAATGACCTGCCACCGGTTCACAACATCGACGAGAACATCTACCAGATGAGCCTGGCTGAACGCCAAGAGAAGGGGATTGTCAACCTGCCTGACACCCTCCACAATGCGCTGAAGGACCTGGCAACCGACGATGTCATCAAGGGTTCCATGGGCGAGCACCTCTACAAGAGCTTCATGGAGGCCAAGACCCGTGAGTACGATAGCTACCGCCAGCACGTTTCCGACTGGGAACGGCACCAATACATGGAGCAGTACTAG
>SRR1151252_00784 glutamyl-tRNA synthetase
ATGGATCAAAAGGTCAGAGTTCGGTATGCACCAAGTCCAACCGGTTTCTTGCATATTGGGAATGCCCAATCGGCATTGTTTAACTACTTATTTGCACGGCACTTCAACGGGACGATGGTATTGCGGATCGAGGATACCGACACGAAGCGAAACGTTGAAGACGGTGAAGCCAGCCAGCGGGAGAACCTGCACTGGTTAGGAATCGACTGGGACGAGGGTCCAAACAAGCCGAACCCGAAGTATGCTCCATACCGGCAGAGCGAACGGAACGCCCAGGGAATCTACCACAAGTACATTCAAGAACTGTTGGACAAGGGGATTGCCTACAAGGACTACACGACCGAGGAAGAGCTGCAGGAAATGCGGGAACGCCAGCGGGCCAACAAAGAGGCTCCACACTACGACGGTCGTTGGTACGGCCGGAGTGAAGAGGACCAGCAGGCGGCCGAAGCCAATGGGTTGAAGCCAACGATCCGTTTCCACTTTCCGAAGAACCACGACTACGAGTGGGACGACATCGCCCGGGGTCACGTTTCCTTCAACTCTGACAACCTTGGTGGTGACTTCATCATCGAGAAGAGCGATGGGATGCCAACCTACAACTTTGCCGTGGTTGTCGACGACCACTCCATGGACATCACCCATGTCCTGCGTGGTGCTGACCACATCTCCAACACGCCAAAGCAGATTGCAATCTATGAGGCCCTCGGTTGGCAGCATCCTACTTTCTGCCACATTCCATTGATCTTCAACCCGAAGACCCGGAAGAAGCTGAGTAAGCGGGACAAGGATACCCTGCAGTTCATCAGCGAATACAAGCGGCATGGTTACCTCCACGAGGCCATCTTCAACTTCATCGCCTTTTTGGGCTGGTCACCAAAGGGCGAACGGGAAATCTACTCCAAGGACGAGCTAATCAAGGTTTACGATCCTGACCGGATGTCCAAGGCCCCGGCCTACTTCGACCAGAAGAAGCTGGATTGGATGAACGCCCAATATATCAAGGCCATGTCCGTCGATGAACTGACCGACCGGACAATGGAACTGGTCAAGGAGGGTGAAACCGAGGAAGCCAAGCGCCTGCAGAGCATTCCGGAGGACGACTGCCGAGACATCATCAAGAAGACGATCCACGTTCACCAGCGCGACGTCAACAAGTTGCTTGAGGTAATCGAGCACGCCTGGAGCTACTACAAGGTCTTAGATGAACACTTCAACTACGACCAGCTGATTGACAATGAAGATTTCAACAACGCTGACGTGGTTGCCGTTCTGCAGGGTCTGAAGGACAAGCTGGTCAACGGTGGCGACGATCTCGACTACGCCCAGGCCATCAAGGAAGTTGGTAAGGAAACCGGCATCAAGGGCCGCAACCTCTACTTCCCATTGAACCTGGCCTTCACTGGTTCAACCTCCGCTCCACAGATCTACGAGATCATGGACATTTACTCACGTAAGACGGACATTGAATTGCTTGACCGGATGATGGCAGCATTTAAGTAA
>SRR1151252_00785 transposase
ATGGCGAAGAAACGTTATCAAAACAATCCTAGCAGTCACTTCGTCAATGAATACGGCATGAACTATCTCCTAAAAAGACTCAAGCAGGAATACCCATTCCTTAGAGCTAGTGACGCAACTAGTTTTCTGGTGGCCAATCGCAACCTCGCTCAAGCCTTTAAGATGCTCTTTAGGCACCAAGGTGGTTACCCACGGTTTAAATCGCGTCATTCGACCCGGCAAGCTTATACAGGACGGTCAGTTTGTCAGGTGCTTGATAAACGGCGAGTTAAGTTGCCAAAGTTGGGCGGCATTCGGACCAGTAAGACAACCCGGTTAGCTGATGGCAAAGTCAAGTGCTATACGGTTTGCCTTGCGCCAACTGGGCGTTACTATCTGTCATTACAAGTGGCATTTGAGGCTCCCAAACATTTAAGCAAGACAGGAAAAGCGGTCGGCATCGACGTTGGAATTGCGATCTAG
>SRR1151252_00786 aspartate aminotransferase
TTGCAGGCAGTGGCCGATAACCTGGCCGACCGCTACGGCCTCCACTACGACCCCAAGACCGAGATCCTGATCACCAACGGGGTCACTGAGGGGGCCTATTCCGCCATTACCGCCGTCACCAATCCCGGCGATGTCGTCCTGGTGCCGACACCGACCTTCTCCATTTACGGCCCTGACGCCATCATCGGTGGGGCCCAGGCGGTTGAAGTTGACACCTCGGTGACCGACTTTAAGCTGACTCCGGCCCTTTTGAAGAAGTACCTCGACCAGTATGGTGATCGGGTGAAGGCGATTATCTTCGTCAACCCGTCCAACCCAACCGGGATCGCCTACACCCAGCAGGAGCTCGACGACCTGGCCGCTTTGATCAAGGGCAAGCCGATCTTCGCCATCAGTGATGAGATCTACAGCGAACTTAACTATGATGGTGAGTACGCCTCGATGGCCAAGTCCCTGCCGGACCAGACCATCCTGACCAACGGCTTCTCCAAGTCCTACGCCATGACCGGTTGGCGGATCGGCTACCTCTGTGCACCAAAGGATATTACCAGTGAGATCTTCAAGGTTCACTCCTTTGTGATGATGGACGTGGCCACCTTCACCCAGGATGCAGCCGAGGCGGCCCTGCGTGGTGGCACCGCGGCCATTGACGAGATGGATCGTCAGTACATAAAACGGCGGGACTACATGCGTTCTCGTCTAGAGAAGATGGGCTTTAAGTGCTCGAAGCCGATGGGGGCTTTCTACATCTTTGCCAAGATTCCGGCCTTCCTCGACCAGGACGACACCAAGCTGATCTACCAGCTGGCCCAGGAGGCCCACGTGGCCGTGACGGCCGGGACCTTCTTCGGTGCCGGCGGGGAAGGCTACCTGCGCTTCAGCTATGCGACGGCCCTCGATCAGATCAAGGAGGGGATGGATCGGCTCGAACGGTTCTGCCAGGAACAACAAAAGTAA
>SRR1151252_00787 hypothetical protein
ATGGCACTGAGCAAACAAGAACGTAAGGAAATGGCCCGTAAGGCTATGGAAAAGCGTGGAAACAAGAAGCCTGATGGCTCTGGTTTCGCAAAGCTTGATGAAGAAGCCAAGAAACTGAGTGACTAA
>SRR1151252_00788 exonuclease SbcC
ATGGCAAGTAAAAATCAAGACAGTAAGGCCGTAGATGTTAGTCAAGAAATCGAGGGCCGGATTGCGACCAAGGTCAAGTACCTTCAGGAGTTGAACTACGCCATTGACCAGCACCATGACCGTGACGTTTATCGTTTATTAGACAACCAGCGTTACGCCAAGGAGATCGAGCATCGCGAACAGCAGCCCAACGACGAAGGGGTCATGAGCCTGGTGGACGACCTGGCCGATCAGTTGAGTAGCTACCTCAGTGTCAACCTGATCAAGTACCTGGGCAAGACCTACCCGTTCTTCTATTATGAGGAGTACCAGACGGGACACTACCGGATCTACTTCGGTAATTGGTGGGACCGGCGCCGCTTTGGGGAGCTGGACGTCTTAAATGTCCGTTTCTCCTTTGACCAGACCGAGTACCAGATGTTAAATAAGTCCTTCGAGCTGGCCCGGAAGAACAAGCGCTATAACAGCGACCGGATCAACAAGATCTCCAGTGAAAATGACCGCCTTCAGGAGCTGATTGACCACCGGCGGGAACGCGAGGAAAAGCGCCAACAGATTCAGGCTGAGCTCAAGGATATCAACTCCCGGTCGGGGTTGTTTGAGTCCAGCCGCAACCGGGCCACCCGTGAGGAACTGGTGACCCAGCTGCAGAAGCTGGAGGACCAGGAGACCGAGGCTCGGACGGCGGCCCAGACGATCAAGGAGAATGAGCAGGTTGTCTTGGCCTTATCCAAGGAGAACACCATTCTGAGTTACGAACAGAAGAGCATCATTGATACTTTCGGCAGTTTTGAGGACTTCGAGCTAGCCAACCGCAACCTCTATGCCAATTACCTCAAGAGCCTGTCCGCTGACCAGGACGCCGGGAAGCAGGTGAATGCAGATGACTAA
>SRR1151252_00789 hypothetical protein
ATGACTAATAAGATCGTAAATTCTCCAGCTGCCCGGATCAGCTCCCTGGCCGATTCATTCAAGGATGTTTTGAAGTGTGGCCAGCAGTACGTTGAACTGCTCGACCAATTGGCATCAACTGACCAGGCGGAGGACCTCCTGACGGCCGCCAGCAAGCTGACCGAACAGGACCTCCATAACGCCTTCATCGACTTTCCACAGCACTATCAGGCCGCTGACTACTACATGCTCTTCATGGGTCGCCTCCTGGAGATGCATCAGGTAGCCAGCGTGACGGTTGATGAGAATCAGCAGCACGAGTTCGTGGCCACAATTGACCCACTGACCGACGCACGCTTCAAGTTTGTGGTCGGTGCCAATGGGGAGGCCGCCTTCACGGAACAGAGTCAGCAGCAGCCGCTCTTCTACATGAACCTTAACCAGCGTTTGTTCCAGTTTAACAACCGGGCACTGGTGAACTACTTTATCGTTTATGCTCTGAAGAAACACAGTGACCTGGAGCTGCGGGATGCCATCAAGTCGCTGATTGAATTTGCTAATGAGCTGGCTGATGACCTAGGCTTCACCATTAACCTGGGGATTTTGAACACCGCTAATGACCGGCGTTTCAAGCTTCAGCAGCCGGACCTGCGCCTGACGATGATCGACCGTCTCTTCGTCAAGACCGGGGAGACCGATTACATGCTGATGAACCTGCCGCACAACAGTGGGGCGGAACTGTTGTTGGATCAGGGAATCAAGTTTGACCTTTCCTTTGACCCGGATGACTACAGTCAGGAGTGGGCCTTCTCGGTCAAGGACCCGGGTGAGCAGGTTTCATTCTTTGATATCTTGCTCCACTACAACCTGGTCCGGCAGTGGTACCTGGCTGATCGTGATGCCTTGGCGGTACGGTCGGAACAGCTGATTATCACCGATGATGAGTCGACGAGTCCAGTTGCCACGACCGTTCCGGCGGCGCCAACCGAACCGACGGAACCATTCCCAGCACCGGCGGATCAAGTCACAGAACCAGCTTCAGCGGTCAGAGACAGTGAGAAAACGCCAACCGATAATGGTGACGTGGTGGATACAGAAACGGATGAGGATGATTAG
>SRR1151252_00790 hypothetical protein
ATGACACTAGATATTACTAAGATGCTGCATAGGGTGGTCGATCTGGAGCTGACGGTCGACGATGCCAAGGAGCTACTGATCGGCCCAGCAGCCCGCCAGCAGACGATCTTTGTCATGCTGGACTGCCAGCTGGCCAACTTCGCCCAGGCGGCGGGGTGGGCCGACGTCCTCAACCAGGAGGAACATGATCCAGCCCTGGCCCGGCAGAGCTACCTGAAGGCCCTGGCCCTCCTGCTCCTGTTTAGCGCCAAAAAGCAGTGGACCCACCTGGTAGTGATGGATGATGCCCAATGGCAACGGGTCACGACTGCCAAGCAATCGACTAAGCTGGCCGACCTGAATAAAGAGTATTTGGCGATCAAGCACTTCCTGAACGGGGCCTACTACAGCCACCGTCAGGAGGACTTCCGCCACGCCTGGCACCTCCTACTCAAGATGGGAATTGTCGACTTTGGCTACCAACCGGCCGACCTCCAGCAGGGGTACCTGGACCTGTTGGACCGGCTCGCCAAACAGTACCAATAA
>SRR1151252_00792 TetR family transcriptional regulator
ATGGCTGTTAATAAAACAGATCCGCGCGTAATCAAGACTCGTAACAGTCTACGCAAAGCTCTTGTTTATCTGATGCGTCGTGACAAAATTGAAAACATCAGCGTGCAGAAGATTACCGAAACTGCTAACATCACCCGCGGAACTTTCTATCTTCACTACCGCGATAAGCAGGATTTTATTGAGTCCGCGATGAAGGACATCCTCGATGATTTCTTTGCACAGGTGATGGTGGATAGTGAGAACTTTGGCTTGTCAAAAGAGCGGACAGTGCAGGCGATTTCTCTGCAGAAGGCATTCCAGTATATCGAAAACAATGCCGATATTTTTGATGTTCTTTTGAATGAGGCAGATTGCAAGAAATAA
>SRR1151252_00793 UDP-galactopyranose mutase
ATGAAAAAGTATGATTATCTAGTAATAGGTGCAGGACTTTTCGGGGCAACCTTTGCCTACGAAGCCGCTAAGCGTGGCAAGCGCGTCAAGGTGATTGAAAAGCGTGATCACATTGCTGGTAACATCTATACTAGAGAAATTGATGGCATCCAAGTCCACCAATATGGTGCCCACATCTTCCATACTTCAAACAAGAAGATCTGGGATTACGTCAACCAGTTTGCTGAATTTAATCGGTACACCAACAGTCCAGTGGCCAACTACAAGGGTCACATGTACAACCTGCCCTTTAACATGAACACCTTCAGTGAGATGTGGGGGGTCCGGACACCACAGGAAGCTGAAGACAAGATCAATGAACAGCGCCAGGAAATGGCGGGTAAGAAACCACAAAACCTGGAGGAACAGGCAATCTCATTGATTGGCCGTGATATCTACGAGAAGTTGATCAAGGGCTACACTGAGAAGCAGTGGGGACAAAAAGCTACGGAGCTGCCGGCCTTCATCATCCGGCGGTTGCCAGTTCGGTTAACCTATGACAACAACTACTTCAACGACCTCTACCAGGGGATTCCAATTGGCGGCTACACCCAGATTGTTGAAAAGATGCTAGCCAGTGACCTGATCGACGTTGAGACCGGCGTTGACTTCTTTGCCAAGAAGGATGAATACCTTAAGGATTACCCTAAGATTGTCTTTACTGGAATGATCGATCAGTTCTTCGACTACCAGCTGGGGGAATTACAATACCGGAGCCTTCACTTTGAGACCGAAGAGAAGCCCGTTGGTAATTACCAGGGGAACGCGGTCATCAACTACACTGATGCTGAGACGCCATACACCCGAATCATTGAGCATAAGCACTTTGAATTTAGTAAGGGTGACAAGGACAAGACGATCATCACCCGTGAGTATCCAGCTGACTGGCACCGTGGTGATGAACCATACTACCCGGTTAACAACCAACGTAACAACGAACTCTACACCAAGTACGCTCAATTGGCTAAAGAAAAGGCCGATAACGTGATTTTCGGGGGTCGTTTGGGTCAGTACCGGTACTACAACATGGATCAGGTCTTGGGGGCTGCATTAAAGTCAGTCGACCAGGAATTTAAGTAA
>SRR1151252_00794 capsular polysaccharide biosynthesis protein
ATGTTCTGGAAAAGTTTGTGCTTAATTATTATTTTAGCCATTGTCGGTAGCGGTGCTATGGGTATCTATGCTAAGCATAAGCAAACAACAACTTATACGGCTACACGAGATGTCATGATTACTCATAATTTGAATAATGTTCAAGCAAGTGATGGTAATCCATATGACACAAGAGTGAATGCTGATATTAATATGATGCCAACCTATGCTAGCATAGCCGAAAATAAGAGTATCTCTGTTCAAGCTCGTAAGTATTTACCGAAAAAATTAAAGAAGCAATACTCAGTGGATGCACTAAATAGCACTATTGACAGTGAAAGTCACCAACAATCATTAGTTCTCACGCTGAAAGCCAAAACGACTTCCCCAAAGGACTCTGTTGAGATTGTCAATGCAACATCTAAAGCTTTGAAACAACAATTACCTAAGTTACAGCCTGGTGTTGGACGAATAGTCTTATTAGAAAAGGCATCTCCAAAGACCGTTAACGCTACTACCAAGCCTGGATTAAAGAAATATGTGGCGGCTGGCCTAGCTCTAGGGGCATTATTGGGTATTATCATTTCATTTATTGTAATTACCCTTAAGGATATTGCTAAAAGAAATACGCTCGGCAAAAAGAATTAG
>SRR1151252_00795 hypothetical protein
ATGAAGGTTTCCAAAGCAAACCATCGACTCTTAGATATACCAATTACAGGGGAACAAATTTACCTTTTTGCTTTTTGCTTTTATTTTATCCTTGCTTTTTTACAGACAACTACATATATAGCTTATGTCAGTGAGAAGGCCTCACAAAAAATAGCACTTCTTGCTGTAGTGCTTTTATTAGTAAAAATATTTATTTATGATAATAATTCTTTAAGGTCTTTTATAATAAACATACTTGCGCTAGAATTCTTAGTAGTTATTTGGCGGACTTCCCATGACGTAAAGTTTTTCTCGCTGGGGATGTTTGTATTAGGTGCACGAAATGTTAATTTCAGAAAAATAATATACTTGTATCTAAGCATCGGTACCATTTTTCTTATTTTCACGGTTGGTTCTTCCCTAAGTGGTCTAATTAAAAATTTGATTTATTATCGAGGAACTGATACCAGTATCGTTCGTCAGTCACTGGGAATCCTTTATCCAACCGACTTTGCTGCGCATGTACTCTTCTTATTCTTGGCTTACCTTTATCTACGTTTTGATAAGATCAATGTACTGGATTACCTGGCCTTAATTATTGCAGCAATCGTAATAACAGTTATCTGTAATGCAAGATTAAACGTATATGCCCTGTTATTGGCTATTCCGGTATTTTTCTTCGGTAAGAGAGCAAAAAGCGGAAAGATAATCAGTTCCTTTATCGCCGCCTTTTATTGGACCGTGCCTACAATTGCTGCTTATTTCATCATTATGTTAACGGCCTTTTATGATAAGTCTAATAATATTATGTTGAAGCTTAACCACCTGTTGTCTGATCGTCTTAAGTATGGATCGGCGGCATTTAAGCAGTATGGGACATCTTTGCTCGGACAGCATGTTCAGGAACATGGCTGGGGTGGTTTAGGCGGACAAAATATGGCAGATCACAGTATGATGAATAGCTATTTCTTTATTGATTCGTCATTTTTGCGTTTATTTATAATTTACGGAATCTTAGTCACCATTGCCGTCTTGTTGATTATGACGATTATTTCTTGGCGATCTATTCATAATAATTCTTATGCATTAGCAAGCGTAATGATGATTGTGACTATCAGTGCTGTGGTTGAACAGCACCTACTTGATCTAAGTTATGATCCCTTTTTGATAGCTTTGCTGGCAAATACTTCATTGCCACTGCTTGGTGATAAAGGATGGAGGAAGAAAGTTGAAAAATTACACTCTTAA
>SRR1151252_00796 sugar transferase
ATGGAAAAAAAGGTAGAAATCAAGCAACGATCGAAAGGGTACCTTTTCTGGAAAAGGTTCTTTGATATTGTGCTGTCTTGCATCGCGCTGGTCTGTTTCAGTCCGGCCTTCCTGGTAGTGTTCATCGTGAGCCGCTTCGGCAGTAACAAGGGACCACTGTTTTACAAACAGGTTCGAATCGGCTGGCATGGCAAGCCGTTCAAGATCTATAAGTTCCGCTCGATGGTGGCTAACGCTGATGCCATCCTCGAGAACGATCCAGAACTGTACGCAAAGTACGTTGCCAATAACTATAAACTGGAACCGGAGGAAGACCCCCGGATCACCCGCTTGGGACGGTGGCTGCGGAAGACATCGATCGATGAAATCCCCCAGTTTCTAAATATCCTGCGTGGTGAGATGAGTATCATCGGACCACGGCCGGTGGTTAAGAAAGAACTCGCTGAATATGGAAATAGGGTTGATAAATTCTTATCCGTTAAGCCCGGTGCAATGGGACTCTGGCAATCCAGTGGACGGAGTAATATTCCTTATCCAGAACGTTGCGACGTGGAACTAGAGTATGTTGATAAGGCCTCATTGGCTTTTGACACTAAGATTATGTTTAAGAATATTATTAGCATTTTTAAGAGCGAAGGCGCCTATTGA
>SRR1151252_00797 bactoprenol glucosyl transferase
ATGCCAAAGTTATCGATCGTCGTTCCATGCTATAATGAGCAGGAGTCAATTCCGCTCTTCTATTCGGCGGTGGAGAAGGTCGTCCGGCAGATGCCCGTCGAGGTCGAATACTGGTTCATCAATGATGGGTCGGGTGATCATTCACTAGAAGAGATGCGCAAGCTTCACCAGTCCGATCCGGACCGGGTCCACTACGTATCATTTTCCCGTAACTTTGGTAAGGAGGCGGGACTCTATGCGGGCCTGCAGGCGGCCACCGGTGACTATGTCGTGGTCATGGATGCCGACCTCCAGGATCCGCCGGAGTACTTGCCAGTGATGTACAAGGCGATCTCCAGTGGTAAATACGACTGCGTAGGGATGCGGCGAACGGACCGGAAGGGGGAGGCACGCTTCAAGTCCTTTCTGAGTGACCAGTTCTACAACGTCATCAATAAGATCTTGGACACCAAGATTGTCTCTGGTGCCCGCGACTACCGGATGATGACTCGCCAGATGGTCGATGCTGTCTTGTCACTGACCGAGTATAACCGCTTCTCTAAGGGGATCTTTAACTGGGTCGGCTTCAATACGAAGTACCTCCCGTATAAGAATGTAGAGCGGGTTGCCGGGACCACTGATTGGTCGACTTGGAAACTGTTCAAGTACGCCTTCGATGGGATTACCGATTTCTCGGAGGCCCCGTTATCGATTGCCACCTGGATTGGGGGACTGTCGGCGTTTGTTGCGATTATCGGTCTGATTGTCGTAATTGTCCGGCGCTTCATCGTTCCAGGGAGCAGTGTGAATGGTTGGGCGTCACTGGTCTGCATCATGTTATTGCTGGGTGGAATTCAGCTACTCTGCCTGGGAATTGTTGGCCGCTACATCGGTCGTATCTACATGCAGACTAAGAAACGTCCAATCTATATTGTAAAAGAGAAAAAATAA
>SRR1151252_00798 glycosyltransferase
TTGAAAGTAAAAATCTTAGTTGCCGTTCATAAGAACTACCGGATGCCGGATGATCCGATGTACCTGCCTGTTTTTGTCGGTAAGGAGGTCCGCCCGGCGGTCAACCATACCTTTCAGGGCGACAACACGGGGGATAACATTTCCGCGAAGAACCCGCATTATAATGAATTAACTGCTCTCTACTGGGGATGGAAGAACCTCGACGTCGACGCCCTCGGTCTGGTTCATTACCGGCGTTACCTGTCGATGAGCCACTCCAAGGACTTGTCGACCATCCTCAACCAGGAGCAGGTCGAGCAGCTCTTCCAGGATGCCGACGTGATCCTGCCGAAGAAGCGGCACTACTATATTGAAACAAATGAGTCCCATTACCTGCACGTTCACGAACATGCACCATTGGAGATCACGCGTGAGGTGCTGAAGCAGGACTATCCGGAATACATGCCGGCCTTTGAGCACGTGATGAAGCAGACTTCAGCCCATTACTTCAACATGATGGTCATGAAGAAGCAGCCGCTGGATGAATACTGTAGTTGGCTGTTTGAGGTGTTGGGCAAGGTTGAGCAGCAGGTTGACTATTCCAGCTACACACCATATGAGCAGCGGGTCTTCGGCTTTCTTAGTGAGCTCCTGCTAGATACCTGGTTGAGGACCCACCAGGAATATCGGACGGTGGAGGTCAACCGGGTCTTCCTCGAGAAACAGAATTGGCCGCTGAAGATTGCTAAGTTCCTGAAACGGAAGGTTACCGGCCACGGTGAACATTAA
>SRR1151252_00799 regulatory protein RecX
ATGGGTAAAATTACCAAAATCGAGGCCCAGAAGCGACGGGGCCGTTACAACGTCTACCTGGATGGCAAGTACGCCTTCCCGGTGGCTGAGAGTGTCTTGATCAAGTTTCGCTTGATCAAGGGGATGGAGTTGGATAAGAAGCAGGTGGCCGCGATCACGACCGCCGACCAGCAGGCGCGGGCCTACTCACGGATGCTGGACTACCTGGCCCACCAGCTGCGGACGGAGAGTGACATTGTCAAGAAGCTCCATGACCTAGAAACGCCAGAGCAGTTTGTGGGGCCAATTCTCCAGAAGCTGCGTGAACAACACCTGGTGGACGACCACGAGTACGCGGCCAGTTACGTGCGGACGGCAATAATTACCAGTTTGAAAGGGCCGGGGGTAATTCGCCAATATCTGCGGATGAAGAAAATTGGGGAGAACGACATTGCCGATGCGCTGGCCCAGTTTACCCCCGATCAGCAGCGCACCAACGCTAGTAAGCTGGCTGAGAAACTCTTTCGCCGCTACCGCAACCAACCCTTGATGCGTCAGGAGCAGAAGGTGCGGCAGGGGCTACTGACCAAGGGATACACAAGTACAATTTTCGATCAGATTCGTGAACAGGTAACCCCGCAGGAGGATCCCGACCAGCAGGAGGAACTGTTGGAAAAGACGGCCACAAAATTGTGGCATCGCTACCGGCGTTATATCGGGCGTGACCGGATCCAGCACTTCAAGCAGGGGATGTTCCGACGGGGGTTCGACCTCGACCGCGTCCAGGCCTGGCTGGACCAGCAGGAAGAAGGGCTTTCCTAA
>SRR1151252_00800 hypothetical protein
ATGAGTATGGAACGTCAATTCAAGTCTGCAAAGGTGCAAGTCACGATGGTCGGGGACCAACATCCTAAAGGGGTCAACCACCTCTTCAACAATGTTAGTCAACAGTTCAGCAATGACCAGCTCACCAGCTTGACCCAGGCGGTCGCCCTGTTGACCAACGAAAAGTGCGTTGGTGTCAACGTCATCGTCACGGACCACGTTACCCTCGACTAA
>SRR1151252_00801 hypothetical protein
ATGAAATCACTCAACCTCACATTCAAGACCAACAAGGGCAAGAAGCACCTACTCAAGCTCAGCTACGCCAACAGCGACCTCGACGCCAAGACCGTCCGCCAGGCAATGGACCTGATTGCCGCCGCCAACCTCTTCGTCAAGGGCGACGAGCAGCTATGTGCCACCCCGCTGGCTGCCAAGTACGTTGACACGGTCGACACCGTGCTTTTCAATGACGCCGAAAAGACCACCAATAAGTAA
>SRR1151252_00802 ribonuclease BN
ATGACAGAAGAGCCGGGAAAAATGAAGAGGTTTATTGCGTTGCTAATGGAGCACTTCCAGATGGCGCAGATTTCAAGCTCGGCAGCGGTATTGGCCTACTATACCCTGCTGTCGATCTTTCCGGCCGTCCTGGTGATTGGAAACCTCCTGCCGATGGTGGGAATCGATGCGAAAACGGTCCTGAGCTATCTTCAGACTGCGGTGCCAGATGCCGTTTATAGCTTCCTCCAGCCGCTGATCTACGACTTCCTTCAGCGGGGGAGTGGAGGCCTGCTGACGACCGGGGCCCTGATTGCCCTTTGGTCGACCAGCCAGGGGATCGCGGCCTTCCAGCGGAGTGTTAACTTAACCTATGGGGTGGCCCGTAATCAGAATCCGGTCAGCAACCGGGTGATCTCATTCATCTGGATGATTGTGGTACTGGCCATTATCTTTGTAATTGTCCTCCTGTACGGTCTCGGTGAACAGGTGCTGAAAAGCATTCAGCCGATCTTCAACTTCCGGCGTGAATATATCTATATCTTCAACTCCTGGCGGTGGCCGGTTACCTTTGCCGTCCTCTTTATCGCCCTCTGCCTCCTTTACTACTTTGTACCTAATGCCAAGGTCCGCCTGCGCTATGCCGTGGCCGGGGCTTTCATGGCAGCGCTTCTCTGGATGGGGCTGTCGCGGTTGTTCTCCTTCTATACGGTGATCTTTCGCCACAGCGTCATCTCTTACCAGACGATCGGGGCCTTCATCGCCATGATGGTTTGGCTGGACTGCTCCGGCTACGTGATCATGCTGGGGGCCGTCCTCAATGCGACCCTCCAGGAGGCCCATGAGGGGGAGCTTCGTGAGCGGGAACACTTCTGGCAGCTGGGTGACAATCGGCATAATAAAAAGGAGCAGTAA
>SRR1151252_00803 amino acid permease
TTGGACGATCAAAGTGGTAATACAAAGAAAATGATTACTACCTTCGGCCTGGTGGCGATGATCATCACCTCAATCTTCGGATTCGGGAATGTTTCAAACGCCTACCTACAAATGGGCTACGGTAGTATTATTTGGTACGCATTAGCCGGGATCTGTTTCTTCTTCCCATGCGGTTTAATGATGGCCGAATATGGTTCAACCTTTAAGGATGCCAAGGGTGGTATCTATTCCTGGCTGGCCGGCTCGATCGGTGAGCGGATGGCCTTCATTGGGACCTTCGTCTGGTTAGCATCCTGGATCGTCTGGATGGTTTCTACTGCCTCACGGATCTGGATCACCTTCTCCGCACTGATCTTCGGTAAGGACACGACCCAGCAGTGGCACTTCTTGGGACTGACCTCGACCGAACTGATCGGGGTCCTTGGGATCATCCTGATGCTGATCTGCACCTACTTCAGTTCACGGGGCATGACCGCGATTGCTCGGGTTGGTTCCCTCGGTGGGATCTTCACCGTGGTTGTTAACATCATTTATGTTATTGCAGCAATTATTGTTTTAATCGTTAACAAGGGTGCCATCGCCCAGCCATTCCACGGTGCTAAGGACCTGATCCTTTCACCAAATCCACAGTTCCAGACACCGATTGCCATTATTTCATTCGTTGTCTACGCCATCTTTGCCTATGGGGGGATGGAGTCTCTGGGGTCCGTTACTGATAGTATGGAGAACCCCGAGAAGACGTTCCCACGTGGCCTGATCATCGCCTCCATCTTCACGATTGGGGCCTACGTTGTCATGATCATCATGGCTGGTTGGTTTGCCAACTACAACGGTGACTTTGCCAAGGGTTCAACCAACCTGGGGAACGCCACCTACGTGCTCTTCAACATCCTGGGGGTAAAGCTGGGCTTGGCCCTGGGTTGCTCCTACGCCACGGCGCTGGTTTGGGGTGCTGCCATGACGCGGATCGTTGCCTTCTCACAGGCCCTCGGGTTCCTGGGTGCGCTCTTCGTTCTGATGTACTCACCAATCAAGGCCTTCATCCTGGGGTCTAACCCAGAACTTTGGCCAAAGAAGCTGACCAAGCTGAACAAGGCCGGAATGCCAGCCGACGCCATGTGGCTGCAGGTAACCATCGTTTCCATCATCATCTTATTGGTGGCCTTCGGCGGTTCCGCTGCCCAGAAGTTCTACACGGTTCTGACCGATATGGCCAACGTGTCAACCTGTTTCCCATACCTGTTCCTGGTGGGTGCCTTCCCATTCTTCAAGGCTAAGAAGAACCTTGATCGGCCGTTCGTAGTCTTCAAGAATCGGTTCTGGACCAATGTCTTGGTATGGTTCGTTGAGATTATCCTGATTATCGGGATTATCTTCACCTTCGTTCAACCAATGCTGGATCACGATTGGCAGACGGCCTTCTGGACGATTGCCGGCCCAATCTTCTTCGCCGCGGTTGCCCTGATCTTCTACCAGGTTTCTGCCAAGAAGCACCACATCAATGAAAAATAG
>SRR1151252_00804 methionine aminopeptidase
ATGATTACGTTAAAATCACCTCGTGAAATTGAAGCGATGGAAAAGGCCGGGGCCGCACTGGCGGGAATGCACCTCGGGATTCGTGAGTTTATTCGGCCGGGGATGTCCAGCTGGAAGATCGAAGAGTTCGCTCGCAAGTACTTCAAGGCGGCTGGCGCCAAGGCTGAGCAGATCGGCTTTGAAGGCTACAAGTACGCTACCTGTGTCAGTGTCAACGACGAAATCTGTCATGGTTTCCCGCGCAAGAAGCTGGTCCTGAAGAAGGGGGACCTGGTCAAGGTTGACACCGTGGTCAGCGTCGACGGTTTCTTCAGTGATTCCTGCTGGTCCTATGCGGTCGGTGAGGTTAAGCCGGAGATTGCCAAGCTGATGGACGTCACTAAGAAGGCCCTCTTCATGGGGATCGACCAGTGTGTTCCGGGCAACCGGATCGGTGACATCGGTGCTGTAATTCAGCACTACACCGAAGACGAGAACGGCTACGGTGACGTTCGAGAGTTTGTCGGTCACGGGATCCAGCCAACGATGCATGAAGATCCGATGGTGCCGCATTACGGTGAGCACGGTCAGGGTCTTCGCCTGCGGAACGGCATGACAATCACCGTTGAACCGATGATCAACACCGGTACCTGGGAGGCCGACACCAGCGACCCGAGCGGCTGGCTGGCCAAGACGGCTGATGGCGGTTGGTCTTGTCAATACGAGCACACGCTGGTGATCACCAATGATGGTCCCAAAATCTTAACTTCGCAGGATCCCGAGGCCGATGCCAAGTACCTTTATGATGACAACTACGCTAAGTACCTCGACCACTACGGCAAGATTGCCCGTGAAATCGCCGAACAATTCAAGTAA
>SRR1151252_00805 flavodoxin
ATGAAAGCTCTTGTGGTCTACGCGACAATCACCGGTAATAACGAGGACGTGGCCGACATCATCACCGATGCCCTGGAGGACCTGAACGTCGACGTCGAGGAAACTGAAATAACAATGGCCGACCCTGCCGACTTCAACGATGTCGACATCTGCGTCATCTGTCCATACACCTACGATGAGGGAGCCCTGCCCGAAGAAGGTCTCGATTTCTATGACGACCTCCAGGAGGAACAGCTGGATGGCAAGGTCTACGGGGTGGCCGGTTCTGGCGACACCTTCTACGGCAACGACTTCTGCGTGGCTGTCGATAAGTTCGGTGAGGCCCTGGCTAAAACTGGTGCTAGCAAGGGGGCTGAGAACGTTCACGTCAACCTGGCACCGGACGAGGACGACATCAAGAAGCTGGACGCCTTTGCCAAGCAGCTCGTAGAAAAGGCGGCGCAGGCCAATGACTAA
>SRR1151252_00806 cell wall teichoic acid glycosylation protein
ATGACTAAGCTCGTCGCCCTCTTCAACAGGTACCGCTCGGTCATCGCCTACCTCTTCTGGGGCGTGGTCACCACGGTCGTCAACATTGTGGTCTTCCAGTTTCTCAGCTCCGGGGTCCATTGGAACTACCAGCTGGCTAACGTGATCGCCTGGTTCCTGTCCGTTCTGGTCGCCTACTTTACTAACAAGGTCTGGGTCTTCGGCTCCCACTATTCGACCGTCAAGGCCTTTCTTAAGGAGTTCTTCTGGTTCTACTTCTACCGGGGGCTGACCCTGATCATGGACGTGATCATCATGTACGTCGGCATCAGTCTGCTGAAGTTCAATAGCCCGCTCCAGCAGCTGATTGTCAAGATCATCGATAACGTCATCGTCGTGATCGCCAACTACATCTTCTCGAAATGGCTGATCTTCCACGATAACCGCGACATTGTGGAACACGGCAAGGACGAAGACTAA
>SRR1151252_00807 UDP-N-acetylglucosamine 2-epimerase
ATGCGGGGGCCGTATCAGATTATGTCGTTATTTGGAACGCGGGCGGAGGCGTTGAAGCTGGCCCCGGTGATCGAACGGATGCAGGCGGCACCAGACACCTGGCAGCCAATTGTGGTTACCACCGCCCAAGAACAACACCAGCCCCAACTGCGCCAGGTCCTTGACCGGTTGAAGATCACACCGGACTTCAACTTGGACGTGGCTGGCGGGCCGGAATACGACCTGGTTGAGCAGCTCAGCAAGCTCCTCCATAATCTGAACAACGTCATGCACGCCAGCCAACCAGACATGATCCTGGTAGCGGGGGATGCGACGACCAGCCTTGCCGCCAGCCTGGTCTGTTTCTACCAGCACCTGCCATTGGGGCACGTCGAGGCTGGCTTGCGGACCTACGATAAGGAGCTGCCTTTCCCTGACGAAATGCACCGGCGTTTGACTGATGACCTGGCGGACCTTTACTTTGCGCCGACGACCCGGGCCCGGGACAACCTGCTCAAGGAGTTTCACCCGGCCGAGCAGATCTACGTCACCGGGAATACCTCGATTGACGCGGTCGAGGAGGCGCTCAGCCCGGACTTTCACAGTGACCTGCTCAATGGGCTGCCGGACAGTCACCGTTTAATTATCCTGATGATGAGTCGGGCGGAAAACGTCGGGGAGCCGATGCGCCAGGTCTTTCATACGGTCCGGGACATCGTCGAGACCAACCCCGATGTCGAGCTAGTCTGCCCATTGACGCCAGATCCCGAGGTGATGAGCCTGGCGGGGGAGGTCCTCGGTGAGCGGGACCGGATCCACCTGACCAAATTGTTGCCCCACAAAGACTTCCTCAACATTGCGGCCCGCAGTACCCTAATCATCACTGATTCCGGAACCATCCAGGAGGAGGCTCCAGCCCTGCATAAGCCGGTCCTCCTCCTGCGGGAAAAGACTGAGCGTCAGGAAGCCGTCGACGTCGGGGCGGTCCAGATTGTTGGTACCGACCCGACCAGCATCCAGCAGGCGGTCTTTGAGCTGCTAAACAATGAGCGGGCCTACCAGAAGATGGCCACGGCGCCGAACCCATTCGGTGACGGCCACGCCAGCGCCCACATCCTGGGAATCATTGAGGATTACCTGAAGGCCAAATAG
>SRR1151252_00809 DEAD/DEAH box helicase
TTGATCAAACAGTTTCAAGAACACTTTAACGAACGCTACCAGGAACCAACGGCGATCCAGTCAGCCGTCGCGGCGGCACTGGCCAATGATCAATCGGTCCTGGGGATTGCCCCAACCGGTTCCGGGAAGACTTTGGCCTTCACCCTGCCCCTCCTGCCCAAGGTGATGCCGGGGACGGGGACCCAACTGTTGGTCCTGTCGCCTTCTCAGGAGTTGGCCTTGCAGACCGCCCGGGTGATGCGGGAATGGGCAACCCTGATCGGGGTCAAGGTTCAATCCCTGACCGGGGGCGCCAACCTTCGCCGCCAGGTGATGAAGCTTCATGAGCACCCGGATGTCGTTGTCGGCACCCCCGGCCGGGTCCTCCACATGCTGGATAACCACCACCTGAAGCTCGGCCACCTCCAGACCTTGGTGATTGATGAGGCGGACGACCTCCTCCAGGATGATACCCAGGCTGTGGTTGAGGATATCGAACGGGTCACGCCGCTCAGCACGCAACTGGCCTTCTTCTCAGCCACCAAGTCACCGGTATTCAACGACCTCGACGTAATGTTTGGCCGGGACATTGTGACCTACGACGTCCGCAACACTGACCACTCCCGCGGCCCGGTCAAGCATGGTTACCTGACCGCCCGGACCAACCAGCAAAAGACAGCGATCCTGCGGCGATTAGCCAGTGTCAAGGACTTCCGGGCCTTGGTCTTCTTCAACAGTACCCGGACGCTGAACTACGCAGCCAGCCGCCTGCGCCATGAACACGTTGCCGTGGGAACCCTTGGTGGGCGTCAGCGCCAGGTTCAGCGGGAGAAGGCGATGCGGATGTTCCGCAAGCGCCAGCTGAAGCTCCTCTTGACCACCGACCTGGCCGCCCGGGGGCTCGATATCCCGAAGCTGCCGGGAGTGATCAACTTTGACCTCCCCAAGCAGACTAACACCTACATTCACCGGGCCGGACGGACGGGCCGGCAGGGTGAACCGGGCGTGGTCCTGAACCTTGGGGATGACCACGACATCCGTGACCTCAAGAAGCTGCTCACGGATACCGACTACCGCCTGGTGCGGATGTATATCGGCAACGACCAGCTGACCGACCAGAAGCCGGTGGCCGGCCAAAAGGTGGTTTCCTTAGGGAAGCAGGCCAGTCGCCGCCTCCAGGAAGAACAGCATGACGATGGTAATGTCCACAAGCGGATCCACAAGACCCTGGCCAGCTTCAGCAAGCCCCAGCGCAAGCGGCACAAAAAGAACCGGAAGAACAAGGGAATTCGGCTCAAGCACCGCCGCAAGAACGCGGGTAAGTAA
>SRR1151252_00810 oxidoreductase
ATGCTTAAACTCGGAATTATTGGAACGCACATTATCACTGATCAGATGTTAGATGCAGCTAAGACGACCGGCAAGTACCAATTGACGACGGTTTATTCACGGGCGCTGGCCCGGGCCAAGGAATTTGGTGAGCCATATGGTGCCACTGAATTCTACGATGACCTGAATAAGTTCTTCGAAGAGGGGGACTTCGACGTTGTCTACATCGCCTCACCAAACAGCCTCCACTACCAACAGGTTCGGTTAGCGATCGAAAATGACAAGTTCATCATCGTTGAGAAGCCGGCCTTCGTCAACCCGGACGAGTTCAGCGCAATCGAATCCCTGCTGGCAGCCCACCCAAAGGCCCGGCTGGTCGAGGCGGCCCGCCACATCCACACACCACTCTACCAACAGGCCCTGGAAAAGGTCGATTCGATGAAGCAGAACCATTGCCAGGGGGCCACGATTACGGTCATGAAGTACTCCTCCCGTTATGACAAGGTTCTGGCCGATGACAAGCCATACCCGAACATCTTCACCCTGAAGTTTGCCGGTGGGGCACTGATGGACCTCGGGGTATACGCCGTCTATGGTGCAGTTACCCTGTTTGGTGAACCGTCAACGGTGGTCTACTACCCAACCCTGGCCAAGACCGGCGTCGATGCCAAGGGTGTGGCCATCCTGAACTACCAGGACTTCTCTGTCACTCTGAACTTCGGGAAGACGGCTAACTCCCACCTCGACTCCGAGGTCTACGGTCTCAAGGACACCTTGGTCTTTGACAGCATCTTCAACACCAAGCAGGTTACCTACTATGATGCCGACCAGAACGCCCACCCGCTGGACGCCCCGGTCGAGAAGAACTCGATGACGGATGAGATGAATGACTTTGCCGACCTCTTCAACAACCCCGACGACGAAGGCGAGATGAAGAAGTACAAGCACTGGATGGACCTGGCACGGACGGTCAACTCCGTCATGTACTCGATGCGCCAATCCGCCAACCTTATTTTCCCCGCCGACAATGATCAGGAATAG
>SRR1151252_00811 hypothetical protein
ATGAAGAAAAAGGGAATGTTACTTTTCGGTGCGGGACTGATGGCTGGACTCAGCAGTACTTTAGGGTTCAGTCACGCCAAGAAGAGTAACACTACGACCGCGTTACCAATTTTTTACACTGGCACCTGGCAATATTATGATAAGGAACGCGATCGATCCCACAAAATCACCATTTCTCCTGAATTAAAACTGGACATCGATAATCAACCCATTCCGGCCACCGTTCAACAGATCAAAGCCGATAAGCTGGTCTTCCTCGACAAGTTCGGTTATCACATTACGATCCGCGCCAACGAAAACCGGCCCGTCTCGCTTACCGACGAGGCCGATGACCAGGTCTATGCGATTCAACCATTACAATAA
>SRR1151252_00812 lysine decarboxylase
ATGATTAAACGCTTAGCAATATACTGTGGGGCCCGTGACAGTCACGATCCCCGTTACCTTCAGTCAGCCCACGAGCTTGGTCTGACGATGGCCAAGCACCAGATCGAACTGGTCTATGGTGGGGGTCGCTACGGCCTGATGGGTGCCGTTGCCCAGGGGGTCCTCGATGGGCAGGGGATTGTCCACGGGGTGATTACCAAACAGCTGGCCGGGCGTGGGGTTACCTTCGAGGCGGCTACCGACCTGCACCTGGTCGACGACATGGATACCCGTAAGGAAACGATGATGAAACTGGCCGATGGGATGCTGGCCCTTCCCGGCGGCCTGGGGACCCTTGAGGAGATTAGCCAGGCGGCATCTTGGATGACCCTTGGCAACAACGACAAACCAATTGCCTTTTATAACCTCAATGATTTCTATTCTCCCCTGCAGAAGCTCCTGGTCGAGATGAATAAGGCCGGTTTCCTGGAGCAGCGCTACCTGGATAGTCTCTGCTTCAGTGCCGACTTCAAGCGGGTCCTGGCCTTCATGAATAGCTATCGGGCACCAATGCGGCGGCATTATAAGAACGAAAAAAGAAGTTTAAACTAA
>SRR1151252_00813 L-2-hydroxyisocaproate dehydrogenase
ATGAGTAAGATTGGAATCATTGGATTAGGACACGTCGGCCGGCTGCTGGCCCACCAGCTACTGGTGACGGGAATGGGGGATGAGTTGGTGCTGATTGACCGGGATGACCAATTGGCCCTGGCCGTCCAGACCGACCTGCGTGATGCCGCGGTTGCCCTGGCCGGCCACCCCAAAATTATTATTCAGGACTACGCTGCATTGCGGGATGCCCAGGTCATCGTCGTGGCGGTGGGCAAGAGCAGCCTGATCGCTGACCAGCCAATGGCTGAGCTGGTCTTCAACCATGACGCCATCAAGCAGGTGGCTACTCAGGTCAAGACCAGTGGCTTTACCGGCGTTGTCCTTAATCTGAGCAACCCCAACGAGGCGGTCACCGCCTACCTCCAGCAGCAGCTCCTCCTGCCGCCCAAGCAGGTGCTGGGAATCGGCACCGTTTTAGAGACGGCCCGCCTGCACCAGGCGATCGCCGCGGCGGCCAAGCTTGCCCCGGCCAGTGTGTCCGGCTTCGTTTATGGTCAACACGATGGTCAGCAGGCCTTTGCCTGGTCGACGGTCCGGGTTAACGGCCAATCCCTTGACCAGACGATTAATGGCCACCACCTTGACCACCAACAGCTCAAGATCAACGCCGACCTTGACAACTGGTACACTTTGCAGGGGCTGGGCTACAACGCCAGCGCGGCCTGCACCTGGGCAGCTCGGATCGTCAGAGCAATCCTGACCGATGAGCAGCTGGCCCTACCGGTGGCAATCTTCCAGCCCCAGTACGAGGGTTACGTCAGCTTCCCGGCCCTGATAGGTCGGCAGGGCATTGGTAACCTCCTTTTGCTCAATCTCTATCCGGTTGAACAAGCCGGAATCAAAACCGCCGCGGCGACGATCGGTCAACAGGTTGCGGCACTACAAAGGATGGATGAAAACAATGATTAA
>SRR1151252_00814 glutamate-cysteine ligase
ATGACTGGAAAATATGATGCGATTAAGACGGCATTAAACGAGCCCGCGATGAATGCCAAGATGTTTGCCTGTCGCTTTGGATTGGAAGTAAAAAAGCACCGGGTGCTGACGAATGGGCGAGCAAGTCGCTATCCATACCCGGTCAACCTGCGTTCCCGGCGGCACAACCTGTACCTAAACTCTGGGTTTACTGATGATATGATTGACTTTGAGACCGAGCCGGTCGTTGGTAGCAAGCGAGCGGTACAGCACTTAAAGGCCCTGGAGCAGATCATGATCGCCAACCTGCACGACGATGAACGCCTCTGGCCACTGAGCATGGCCCCAGCGCCACTCTACCAAAATGACCTGGACTACCTCAAGACGGACTTTACCAAGCCGTGGGGCCAGGCCAATCACGACTACCTGGGGAAAAAGTATGGAATCGCCCAGGAGATCTTGGGGGATGTCCACGTTAATTTCAGCCTGGACAACGACCTGGTTCAGGAATTGTACCAACGCTTCTATACTGACCGTTACACGAGCCTGACCGACTTTCAAAACCACCTCTACTTCAAGTTGGCTCAGCACTTCTACCTCTATCAATGGCTCTTCACCTACCTCTTCGGCGCCAGCCCGGTCACCGAGGACATGCCACAGAGCTTCCCAGACGATCTCCAGTTACCGGTACGGAGCCTGCGCTGCAGCAACTACGGTGATGACAATCTGGCTACGGAGCAGGTAACCTACGCCTCACTGGAGGAGCACTTCAAGCAGCTCCAGGCTTACATCGACAATGGAACCTTCTACAGCTTGAAGGAGTTCTTCGGTCCGGTGCGGATGCGGCGGCATAACCACGATAACAACGACCTGATGGGAATCCTCAACAACGGGATTAACTACCTGGAGTTTCGGAACTTTGACCTTGACCCGCTATCCCGGACGGGGATCAGTGACGACACGATCAACTTCCTGGAGCTTCTTCTCCTGGACAGCCTGGTTTCACCACTACCGAATAACCTGGCGCACAGCTTGGTCGAGGCCCGGAAACTGAATAACGAGGTGGCCCTCCAGAAGGCCAAGGACGAGACGGAATGGATGAAGAAGGCGGCCAACGAGTTGATGATCGAGCTCCAAGCCTTCGTCGAGGACTTCAACGCTCCGCGAGAGTACCGGCTAGCATTGACCTTTGCCCAACGGCGAATCGACGACCCGTCGCTGACCATCAGTGGTCAATTGGCAGACCAGTTGGAGAATGGAAACCTCCTGTCATTTGGCCTGAAGATCGCTAATGACCGCTACACTGCTAATATCGGCTATCAGCACCCCCTGCAGGCCCTTAGCAATGAATATTCCGACGATGCCCAGCGCCTGGTCCGGGCCGCAATTGAACTCGGTGTTCAGACCCGCCTGGAGCCGACCGCGATTACCCTGTCGGTCGGTGATCACCAGGAGGTCTACCAACCGCATGGTGAATTTGACTTCAGCAAGGGCGCCCGTGAGTTTGTTCTCAACGTCTTTCCTGAGGCTGCGGCATTTCAGGAAGAGCAGTAA
>SRR1151252_00815 glutamine amidotransferase
ATGCGGATTAATGTTTTACAACACACGCCAAACGAGGGCCCAGGGTCGATTCAGGACTGGGCCCACGTGCATGACCATGAATTCTACGTCTACCATCCCTACCAGTTCGGCAACCTCCCGACCGCAGACGAGACGGACCTCCTGGTAATCCTTGGCGGCCCGATGAGTCCCAACGATGACCTGCCCTGGATCAAGGAGGAGCGGGTGCTGATCCAGCAGCTACTTGACCAACATAAGCCGATCTTCGGCGCCTGCTACGGTGCCCAGCAGATTGTCAAGACGCTAGGCTACGCGGTCACTAAGGCACCGCACAAGGAAGTCGGTTGGGCACCCGTTTACCGTCAGTCGGACGCTATTCCGGGCATCCCGGACCAGCTGGTGGCCCTTCACTGGCACGAGGAAATGTTTCAGGTGCCAGCCGAAGCCCAGCTGCTCTTCTCCAGCGACCTGGTCGAAAACCAGGGCTTCCTGCTCGGTGACAACGTGATCGGCCTACAGTTCCACTTCGAGCCGCAGGTCGATAACGTTCGCGAGATGGCGGTCAACGATGACCAATATCCATTGGAACACAATGACCTCCACCAGACCCCACAAGAGATCATTGACCACGGGGTTCCGGCGGCCAACAAACGGGTCATGTTCAGCCTGTTAGATTACATCACGAGATAG
>SRR1151252_00816 hypothetical protein
ATGAATAAAAATATGGAGCTCGGTCATCGCCTGGTTAAACAGCTAGACGTACTGGCCGGGGAGGGCTGGCCCGGACCTGCCTGCCACGTATACCGGTGCAACCTCCAGCGGTCACCGCGGACGCACCGCCTCCTCAACACCACTTTCCATCAGGCCCACCTGGTTGGCAGTCCCCTATACATGCGGATGCTGGAAGCAAGTCAGTTGACCGCTCGTCAGCGGCTTAGCCTGATCTTGGATCGTCACCTGGGCGCACGTGTTGAATGGACCGGCTTTCTTCAGCTGACCAGTCACGACTACCAGTTGGACCCCACGATATCGCCACTTGCCCCATTCTATGCCGAGTTTCGGCAGCTGGTCCGTGATGCCTATCCGGGGACAGCCGGGCTACGAGCGGATGAATTGGGGCACCGTCTTCACCTCTTTCGGGCCTACCTGGATCACCAGGCCATCACCTACGTTCGTGCCTACACTGACGGTCTTCCTGACGAGGCTTGTGATCTCGACCGCCTGTATCAGTTTGCTCACGACCATCACGTGGCCCTCGATTTTCAAACCGCGGCAGCCTACCATAACCGCCAGCACGGCCCAGCTGTGTATCCACGAAACATGAAGGTCCAGCTACGGCGCAACTCCTATGCCCGCCGTGTGAATCCAGCCCGGATGATCGAGTTCATTGTTGATATCGACAGCGGCGACTTTGTCAGTGAGTGGAACGTTTACCGCAGCCAGCCGAATGGGCGAGTGGACGCTGATCCGCACCATTACACCGCGGCGGACCTGTACCAGGTAGCGAACACCGAGTCCTTTAACTACGGGATCCCGCATGGCGGTTACTTTGTCTGGCCCCGCGACCGCCAATCCCACCGCCGCCTGGATATCGACCAGCCCACGGACAGTCGGATTCGTGCCCGGGCTAAGGGCTATTGGAAGACCCCGCGCCTATATGCCGACCTGGTGAAGGGGCCCCGCGATGTTCTGGCCTGGCGCCTGGTGCCCGCTAGCGTCCGCACACAGCTCTATGCCGCTTTTGTCCACGATACTCAAACCCACCGTAACCAGGGTATCAACTACTTTCTATTAAAGAGTCCACGCTACCGTTGCTACCACGTCGGCCGTGGATGTGATAAAATGAGGCCATCTTAG
>SRR1151252_00817 hypothetical protein
ATGCCCAGGGGGCAGTGGCAGACTAAGCACGGTTATTGCCAGATCAAGTACAGCTGGCGGCAGGCGGGCTGGCGCTACGAGGCCCGCTGGCACGAACGGATCCCGAAGGCCAAGCTGATTACGCGGCCCAGCTGGCGCCTTGACCGGGTCCGACCCGGTAAGGGATACGGCCCTCATGTCCAGCCACGGCTGGCTGAAACCAGGGTGGGGGATCGCTGGTTACCCCTGCGGCGGATCCGTTATGCAGCGGTGCGCTACAACCATGGTCAGGCGACCACGGCGGATATTCAGATGCTGCGGGCGGCCCACCCGGTAGCCGTCGCCAAACCATTTCCCGGGAAATAA
>SRR1151252_00818 hypothetical protein
ATGACGTCAGACCTTATATTAGCTAACCAGCGCGGAATTGCGGTTTCAATGGATACCATGGAGGCAAGCTCACAGGGTGAGGAATACCGGAGGACCAACCAGTAG
>SRR1151252_00819 hypothetical protein
ATGCCATACGATTTCAAAAAAGAACAGCGCTCCCTGTACCACCCGGGCAAGCGTCCGGCCCTTATTGACGTCCCCACGATGAACTACATCGCCGTCCGTGGGCAGGGCGATCCTAACCAGCCGGACAGTGAATATAAGCGCTCGATCCAGGATCTTTACAGCGTGGCTTACACTATCAAGATGAGCAAGAAGGGATCTCACCATATTCCGGGTTACTTTGATTTTGTCGTGCCACCGTTGGAGGGTTTCTGGTGGCAGGATGGGGACCAGGGGATCGACTTCACCCGTAAGGACCGCTTCCACTTCGTCTCCTGTATCCGCATGCCAGACTTTGTTGACCGGGCTACCTTTAACTGGGCAGTCCAGACGGCCAGCACCAAGAAGCAGCTTGACCTTACCAACGTTGAGTTTCTTACCCTTGATGAGGGCCGCTGCGCTCAGATCATGCATGTCGGGACGTATGATGAGGAAGCCGCAACCATCGCTAGGCTGACCGATTTTGTTACGCAAAACGACCTACAGCCTGACTACTCAGCCACCCGGCGCCACCACGAGATCTACCTCTCTGACCCGCGGCGGACCAAGCCAGAAAACTGTAAGACGGTGATTCGGATTCCGGTACGTTGA
>SRR1151252_00820 hypothetical protein
ATGAAAACCAGTAAGCAATTAATGGAGAACTTTAATTATTTAACCGATCCCATGGCGGTTGGTAAATATGGTGAACGCTTTGCGAGCCTGGAAGCATTTGTTGCCGCAATGGGTGCCAACATGGAACTCGATTTTGTGTTCAACCATATTCGCTGGTACCTTGGCCCGGCTAAATGTGGCTACATACTTAGCAAAGATGATGGACAATGGACGCATCCATTTAATTCGATCGATGAAATATTGAATTATGATTTCAATGGCTTGAACATTCGCCAAAATTGGTCAGAAATTTTTATCAACGAGCTATAG
>SRR1151252_00821 hypothetical protein
ATGAAATTTATCCAGTATAGCCTGGTGGGTAAAGTGATTAGGCAGTGTTATACCAATAGCATTAGCGAGTTTAGTTCATACCCATTAGGTCAAAAGGTGAGGGTGACAACGAGTGATCGGAAGGAGTATGTTGGCTTTTGGTCAGCACCATATAACCCTGCTGTAGTAAAAACGGTTGAATTATTACGGTACAATTTAGATGAGGGTACCGGGATGCTGAGGAGTCATGATCTGAATGGCGATACAATAATATTTGTTCCGGTAGCGCCCATTGTGAAGATCGAGGCCATCATGCACAGCAACCCCCGCTGGGGAACGCGGCCAACCAATAAGTTTGAATTTGCAAAGACGGTAAAGTTCGACCCCGAGACGGATCCGTTTAAGAATTGGCCTAGAAAATAG
>SRR1151252_00822 TrmA family RNA methyltransferase
GTGAAAGTTAAAGTGCCAGTTCATAAGAATGAAGAGTACCCGGCTAAGGTGGTCGACTTATCATACGAGGGCAACGGGGTCGTCAAAATCGACGACTTCCCGGTCTTTGTGCCCAACGCCCTGCCGGGGGAAGAGGTCACCGTTAAGATCACCAAGGTGGCCAGTCACTTTGCCTGGGGGCGGGTGATGGCCTGGCAGACCAAGAGTCCGGACCGGGTGGACGTTAAGGATAAGAAGTACATCCAAACTGGGATTGCACCACTGGGTCACCTGAAGTACGCAGCCCAGTTGAAGTTCAAGCAGCATCAGATTGAAGAGCTCTTGGAGAAGGCTCACCTAGATGATATTGAGGTATTGCCGACGATGGGGATGGACCAGCCTTACCACTACCGGAATAAGGCCCAGGTGCCAGTTAAGATGATCAGGGGCCAGCTGCAGACCGGCTTCTACAAGCGGGGGAGCCACAGTCTCGTACCGATTGAGGACTTCTACATCCAGGATCCGAAGATTGATTCGGCAATCGTGGTCGTTCGCAACCTCTTGCGCAAGTACCACGTGACCCCGTACGATGAGCGAACCAGTAAGGGGGTTATCCGGACGGTGATGGTGCGGCGTGGCTATTACAGCCATGAGCTGATGGTAGTATTGGTCACCAATACCCGGCGCTTGCCGATGGCCGACCAGATCGTGAATGGTATCGTGGCCGGGGTACCGGAGGTCAAGAGCATTGTCCAAAACATTAATGACAAGCGGACCAACCGCCTGCTGGGTGACCGGAACAGGACCCTGTGGGGGAAGGACGAGATCCACGACCAGCTGCTGGGGATTGACTTTGCGATCTCACCGCTGTCCTTCTACCAGGTCAACCCGCAACAGACCGAGCGCCTCTACCAGACGGCGATTGACAACGCCGGATTGGACGGTAGCCAGACCGTGATCGATGCCTACTGCGGGATTGGAACGATTTCCCTGGCCGTGGCCAAGCACGCCAAGCAGGTCTACGGGGTCGAGATCGTCCCTGCCGCAATTGAAGATGCCAAGCACAATGCCAAGCGTAACGGGATCAAGAATGCCCAGTTTGTAGTTGGGAAGGCGGAGGACCAGTTTGCTAAGTGGCAGGCGGCCGGTCTGAAACCGGACGTGGTTATCGTCGACCCGCCGCGTAAAGGAGTGGCCGAAACGCTGATCGAAGCCACCGGCCAGATGGCATCAAAGAAGGTTATCTACGTGTCCTGTAACCCGGCAACCCTGGTCCGGGACATCAAACGCTTCGGGGAGCAGGGCTACCATGTAGTCAAGCCAATCCAGCCCGTCGACCAGTTTCCGCAGACGACGCATGTCGAGAGCGTTACTGTGCTGGAACGCGTCTAG
>SRR1151252_00824 hypothetical protein
GTGGCTGATTTCGAAATTGGTGACGTTGTGAAGGGTAAGAAGTTTGGGCCGCTGGAACACGACTTTTCTGGTGTTGTTGAGAAGGTCTACACCAACTCAATCATGGTTTCAATCCAAGACTTTGATCCCGCCGACAAGAGCGGGGTCAACGAGCTGAACGGTCGGGCCGTAATTCGCCAGAAGGAAGCAAAGATGATCAAGGCCGTGCCGCGCGTGGAAAAAGACGACGAGGCTGACGAAGACAAGGAAACAAATACGACATCTAAGTCAACTAAGTCAGCATCCAAGGCCAAGGCAACCCCCAAGAAAAAAACTCGGAAAAAATCAACAAAAAAGGCTGACAAATAG
>SRR1151252_00825 hypothetical protein
ATGTTACAAGCAATCGCGATCTTTGCCACCGCGTTCTTGATCGTGGCCAACCTTGGTGGCAGCAAGGCCAAGAAGGAAAAACACGTGACCGACTGGTTGATTCTTGCCCGGCTCTGTTTCTTCACCCTACTGACCGTTACCATCATCAAATTAATTCTGACCTTCCCACACGAACTGTGGATTGGCCTTTGCCTGTGA
>SRR1151252_00826 hypothetical protein
GTGATCCTTTACCTGATCCTGGTGGATGCCTTTATGGAGACCAACTTCCGCCTGAAGCGCGAGACCTTTGGCAATCCCAACCGTTCATACATGGCCATCTTTGCCCTGGTGATCGCCCTCGTCGTGGTTACACTCTGGTTTTAA
>SRR1151252_00828 diacylglycerol kinase
ATGCGAAAACGAGCGCGAGTGATTTATAACCCAACTTCTGGTCGGGAGGCCCTGCGCATCGACCTGGTGGACATCCTCTCGATCTACGAGCAGGCCGGCTATGAGACCAGTGCCTTTGCCACCACGCCGGCACCAAACTCCGCTAAGAACGAGGCCCGGCGTGCGGCTGAGGAGGGTTTTGACCTGATCGTGGCTGCCGGTGGTGACGGGACTCTAAACGAGGTTGTCAACGGGATTGCCGGGTTGAAACACCGGCCGACGATGGCAATCATCCCCGCCGGGACCACTAACGATTACGCGCGGGCGTTGCGGATTCCGCGTGATGATCCGATTGCGGCGGCCAAACTGATCCTGCGCAAGAACAAGAAGTTCAAGATCGACATTGGCCAGGCCGGCGATAACTACTTCATGAACATTGCGGCCGGGGGAACCCTGACCGAGCTGACCTACGATGTACCATCACAGATGAAGTCGTTGTTTGGCTACGCCGCCTACTTTGCCAAGGGGGCCGAACTCCTACCCCGGGTTAAGCCGGTCGACGTAGATATCAAATATGACGGCCAGGAGTACCGGGGCCAGGCCTCAACGCTTTTCCTGGCGCTGACCAATTCAGTTGGTGGCTTCGAGCAGATTGTACCCGACGCTTCGCTGGACGACGGGAAGTTCACGATGATCATCGTCAAGAAGAGCAGCCTGATCGATATGCTGAGCCTGATGGCGAAGGCCTTGCAGGGTAAGCACATCGGTGACCCGGGAATCATCTATGCCAAGGCGACGGACGTTGAGGTGACGCCGCTAAATAAGGATGACCGGATCATGATCAACCTGGATGGTGAATACGGTGGCGATGCACCGATGAAATTCCACGATCTCAAGCAACACCTGGAAGTAATCGCCAACTTAGACGAGATTCCGGACGATGCAATTACTGAATCACCCGACTTCAAGCGGGTTGAGAAGGACTTCGTCGAGGGTGTCAGCAAGATCAATCGGGATCAAGAAATGTAA
>SRR1151252_00829 aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B
ATGAACTTTCAAACAACCATTGGGCTCGAAGTCCACGTTGAATTAAAGACGAATTCAAAGATCTACAGTCCATCACCGGTTGAGTATGGTGACCAGCCAAACGCCAACACCAACGTGATCGACTGGGGGTACCCCGGTGTTTTGCCAACCCTGAACAAGGGGGTTGTTCGTGATGGGATCATGGCCGGCCTGGCCCTGCACGCGCAGATTGCCCACCACATGCACTTTGATCGAAAGAACTACTTCTACCCAGATAACCCGAAGGCCTACCAGATTACCCAATCCGATACACCAATCGCTCATGACGGGTGGATCGAGATTGAGGTCAACGGCAAGAAGAAGAAGATCGGGATCGAAGAGATGCACATCGAGGAAGATGCCGGGAAGAACACCCACACCAGCAAGTACTCCTACGTCGACCTCAACCGGCAGGGGACGCCGCTGATCGAAATCGTCTCTAAGCCAGATATTGCCTCCCCAGACGAGGCCGTGGCCTACCTGGAGGCCCTTCGGCAGCGGGTCCAGTTTACCGGGATCTCCGACGTGAAGATGGAAGAGGGGTCGATGCGTGTCGACACCAACATCTCCATCCGGCCGGTCGGCTCCGATCAGTTTGGGACCAAGACGGAAATGAAGAACATCAACTCCTTCAACTACGTTCGTAAGGCCCTGGCCTTTGAAGAGAAGCGGCACCAGAATGTCCTGATGTCCGGTGGTCACATTGCCCAGGAAACGCGGCGATACGATGAGCCAACCGGGACCACGGTTTCCATGCGGACCAAGGAAGGGGCCGATGACTACCGTTACTTCCCAGAACCGGATATCCCAGACTTAAACGTCAGTGATGACTGGATCAAGGAAATTGAATCCGAGATGCCGGAAATGCCGGGTGAACGGCGTAAGCACTATGTCGACGACCTCGGGTTGACCGACTACGACGCCATGGTTCTGACCCAGACGAAGGAAATGTCTGACTTCTTTGAGGCTACCGTCAAGGATGGTGGCGATCCAAAGCGGGTGGCCAACTACCTGATGAACGATGTGAACTCCTACTTAAACGACCAGCACCTTGACCTGCCAGAGACCAAGCTGACACCAGCCAACCTGGCCGGGATGGTCAAGCTGATCGAAGACGGTACCATCTCATCCAAGATGGCTAAGAAAGTCTTCAAGGGGATCCTGAAAGGAGAGGAACCGAGTGCCTACGCTAAGGCACACGGTTTGGTTCAACTCTCGGACCCGGCTCAGCTGCAGCCAATCGTCGACGATGTCCTGGCCAACAACCAGCAGTCCATCGACGACTACAAGAGTGGTAAGGACCGGGCATTCGGCTTCCTGATGGGGCAGATCATGAAGCAGACCCGCGGGAAGGCTAACCCACAGATGGTTACCCAGCTGTTGAAGAAGTCCTTGGCTGCCATGTAG
>SRR1151252_00830 aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit A
ATGGATTTCTATCAAACTGATCTGACCCAGTTACACGATGACCTGGTCAACAAGAAGATCAGCGCCACGGAACTGGCCAAGGAGACCTTCGACCACATCAAGGATAACGACGATCAGGTCAAGGCCTTCATCACCCTGAACGAGGACGCAGCCATAAAGCGCGCTCAGGAGATTGACGCGGCCGGGATCGCCGGGGACCAACTGGTTTCTGGGGTGCCACTGGCGGTCAAGGATAACATCCTGACCAAGGGACTGACGACGACGGCCGCCTCCAAGATGTTGGCCAACTTCAACCCGGTTTACGACGCCACGGTTGTTGACAAGCTGAATCGTGCCGGTTTCATCAACGTCGGTAAGACCAACCTGGACGAATTTGCCATGGGTTCCTCGACGGAAAGCTCCGCCTTCTTCACCTCCCACAACCCGTGGGACCTGACCCGGGTACCCGGCGGTTCCTCAGGTGGTTCGGCGGCAGCCGTTGCGGCCGGTGACGTCCTCGGCGCCCTCGGTACCGATACCGGTGGTTCCATCCGGATGCCAGCCTCCTTTAACGGCGTGGTCGGCATGAAGCCAACCTATGGCCGGGTTTCCCGGTGGGGGATCATTGCCTTCGGTTCCAGCTTTGACCAGGTTGGCTGGTTGACTCGGACCGTCAAGGACAACGCCTACCTGACTGCCCTGATCGCCGGCAACGATGAACACGACATGACCTCCTCACTCAAGGAGGTACCGGACTGGGCCGCCAACCTGAACGACAGCACCAGTGTCAAGGGCCTGCGGATTGCCGTGCCAAAGGAGTACTTCGATGACCTGGATGAGGATGTGCATGACGTTATCAAGGCAGCCCTAGACCACCTCGAGTCCCTCGGCGCCATCATCGACGAGGTTAGCCTGCCGCATACCAAGTACGGGGTACCGGCTTACTACATCCTTGCCTCATCTGAGGCCTCATCCAACCTGCAGCGTTACGATGGGATCCGTTACGGCTTCCGGGCCAAGGACGTCAAGAACCTGGAAGACGTCTACGTGCGGTCCCGTTCCGAAGGCTTTGGTGAGGAAGTCAAGCGGCGGATCATGCTGGGGACCTTCTCCCTGTCCGCCGGGTTCTACGACGCCTACTTCAACAAGGCCGCCAAGGTTCGTCGCCTGATTGCCCAGGACTTTGACGATGTCTTCAAGAACCACGATCTGATTCTGGGGGCTACCGGTGCTTCCACCGCCTTCAAGATCGGTGCCGAGATTGACGACCCGAAGAAGATGTACATGAACGATGTCTTGACCGTGCCAGTTAACATGGCCGGTCTGCCGTCGATGTCTGTCCCAGCCGGCTTCTCCGCAAAGAATGGGATGCCTGTTGGCCTGCAGATTATTGGGAAGCCATTCGACGAACAGACCATCTACAATGCCGGTTACGTCTTTGAACAGACGACTGACTTCCACAAGCAAGCACCAAAGTTAGGGGGCCAAAACTAA
>SRR1151252_00831 aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit C
ATGGCCAGTAAAATCACTGAGCAACAGGTAGAACACGTTGCTGAACTTGCCAAGCTTGAGTTCCCCAAGGACGAACTGGGTAAGTTTACCACTCAATTAGGAAGCATTATCGATATGTTTGAAGACCTCACTGCCGTCGACACCGATGGGGTTGAACCAATGACTTCAGCCACCGACCGGGTCAACGTGATGCGTGAAGACAAGGCCGTCAGATCATCCAAGGAGGAGCGCGAGGCAATTCTGAAGAACGCGCCGGACACCGATGGCGGTTATATCAAGGTTCCAGCAATCATTGACGAAAGCGAGGACGGCGAATAA
>SRR1151252_00832 hypothetical protein
GTGAATGCGAAAGTAAAGAAAATTACCGCTGCCACCATGATCCTGATGAGCAGCCTTGTTCTAGCATCATGTGGCTTCGGCGGGCACTCATCCTCATCCAAGGATTACACCACGACCGGTTCCGGTGGTGGCAACTATCAGGGGGTTATCCAAAACGGTCGCTATAAGACCAGCAAGGCCCGGGGGATCAACGTCAGCCAGAACGATAACCAGTATAACCTGAAGAGCTTTGAAAATGGGCTGACCCAGGTTTCAAAGCGGGTCTTCTCACCGAAGAGCTACATCTTCCAGGAGGGGCAGTACCTGGACACCAGCACGCTGGAAGACTGGCTCGGACGAAAGACGAAGAATAACCCGTCCGGTCTGAATCCAGCCGAGGGGAAGCAGAGCAACCCGAACCCGATATACATTCAGCAGATCGAGGAGCAGGACTACATGGAAGAGAGTGGTAACTCCATGAAGCTGAAGGGGATGACCATCGGGATTGGGATCAACTCCGAGTATAACTACAAGAAGAAGGATGATGGCCCAAGCTTCACCAAGAAGATTAGTGACGCAGAGGTCAAGCGTCAGGGAGAGATCGCTGCGGCCAAGGTCCTCAAGCGGGTCCGGCAGAAATCGGGTGTCGGCGACATTCCAATCGTGATTGCCCTCTACAAGCAGGCACCGGATGACAGCCTAGTCGGTGGGAGCTTCTTTGCCTACAGTAAGAATAGCGGTAGTACGATCAGCGGCTGGCACCAGTTGAACTACAAGACCGTGGTTCTGCCAAAGGCCAGCGGGACGACCAGTTCGACGGGGAGTGCCAGCCAGACTGACAACGATAGCTTCTCCAACTTCAAGAGTCAGATTCAGAGCTTCTTCCCGAACCTGAGCGGGGTTACCGCCCAGGCCCAGTACAAGAACGGCCAGCTGAACGGGATGCACATTACCGTGACGACTCAGTTCTATAGCCAGTCGGAGATCGCCAGCTTCACCCAGTACATCGCCCGGGCGGCTAAGAAGTACCTGCCAAACGGGATTCCGATTGACATCCGGATCCAGTCTGACTCCGAGATGCAGGCAATCGTTTACCGTGACGCCGGATCTGATACCTTCCGGACCCACATCCTGACATCATACTAG
>SRR1151252_00833 DNA ligase
ATGGATAAACAAGTACCAGTAAGCCAGCTCAGTCTGGCGGCGGCCAAAGAAGAGATTGCCCCCCTCCGTAAGCAGCTCACCCAGTGGGGGAAAGAATACTACGAGCAGGATAATCCTAGCGTAGAAGATTACGTCTACGACCGGGCCTACCAGCGCCTGGTTGAACTGGAGACCCGGTTTCCCGAACTGAAATCGGCGGACTCCCCAACGCAGCGGGTCGGCGGGGCGGTGACCACCCAGCTGACTAAGGTCCACCACGATATCCCGATGCTGTCGATGGGGGATGTTTTCTCCGTGGACGAGTTGATGGACTTCAACCGTCGTCAGCAAGAAAACGGCGACGTGACCGTGGCCCCGGAATACAACCTGGAGCTCAAGATCGACGGCCTGTCCCTCTCCCTGGTCTACGAGAATGGAAAGCTGGTTCAAGGATCGACCCGCGGTAACGGGACGATCGGCGAGGACGTAACTGCCAACGTGATGACGATCAAATCGATCCCCCACCAGCTCCCCGAGCCGTTAACCTTGGAGTTTCGGGGCGAGTGCTACATGCCTAAGGCGTCCTTCGTAAAATTGAACCAGGAGCGCGAGGCGGCGGGCCTGCCCGTCTTCGCCAACCCGCGGAACGCGGCGGCGGGTAGCCTTCGTCAACTTGACCCTAAGGTGACGGCCAAGCGGGACTTGGCAACCTTCATGTATTACGTGCCGGAATATCAGAAACTGGGGGTGACCACCCAGGCCGAGTCCCTCGATCGGATGCGGGAGCTTGGCTTCAGTGTCAATCCTAATAACCGGGTGGTTCATAGCGAGGAGGAGATCGCTGTCTACATTGACGAGTACACCAAGCAGCGTGACCAGCTGTCATACGGGATCGACGGGATCGTGGAGAAGGTCAATGACCTGGCCACCGAGAACGCCCTCGGCAACACGGTCAAGGTACCCCGCTGGGAGATTGCCTACAAGTTCCCACCGGAGGAACAGGCAACGATTGTTCGGGACATCGTCTGGACGGTCGGCCGAACGGGCAACGTGACGCCGACCGCGGTGATGGACCCGGTTCAACTGGCCGGGACGACGGTCAGCCGGGCCTCCCTCCACAACCCAGACTACCTGCGGGAGAAGGATATCCGCCTCGGCGACACCGTCTACATCCACAAGGCCGGCGATATCATTCCCGAGATCTCCCGGGTTGACCTCAAGAAACGTCCGGCCGATAGTCAGGAGTATGTGATTCCAACCAAGTGCCCGATCTGTGGGGCTGAATTGGTTCACTTAGACGACGAGGTGGCCCTGCGCTGCATTAACCCAATGTGTCCGGCCCAGATCAAGGAGGGGTTGGCCCACTTTGCCTCCCGGAACGCCATGAACATCGATGGCCTGGGACCAAAGATCATCCAGCAACTCTGGGATCGAAAATTGATCCATGACGTGGCTGACCTTTACCACCTGACCTACGACCAATTGTTAACTTTAGATAAATTTGGTGACAAATCGGCTAATAACCTATTGACATCAATTGACAATAGTCGTAATAATTCTGTCGAGCGCTTATTATTCGGCCTTGGTATCCGTCACGTTGGCGCCAAGGCGGCCCAACAGATCATGGCCCACTTTGGCAACCTGGACCAGCTGATGGCGGCCAGCGCCGATGAGATCGCAGCCGTCGACGGAATTGGTCCGACCATCGGCGAGAGTGTCCACACCTACTTTGCCAATCCGCAGGTAGTGGCACTGATTGACGAGCTCCGGGATGCGGGGATCAATTTTTCCTACCAGGGGCCGGCCGCCACGGTGGCGGTAGAGAGCGACTGGAACGGTCGTCGGGTTGTCTTAACCGGGAAGCTGGAAGAGATGACCCGCGGTGCCGCAAAGCAGTGGCTTGAGGCTCACGGTGCCAAGGTAACTAGCAGCGTATCAAAGAAAACAGATATTGTCATTGCGGGAACGGCGGCCGGCAGTAAGCTGACCCGTGCTCAGGACCTCGGGATTACCGTTTGGGACGAGGCCCGGTTCCACCAAGCAATGCAGGAGGAAGAATAA
>SRR1151252_00834 ATP-dependent DNA helicase PcrA
GTGAGTAATAGTCAAGAGCTTTTAGAAGGAATGAATGACAAGCAGGCTGAGGCGGTAGTGACCACTGAGGGGCCGCTGCTGGTGATGGCCGGGGCGGGTTCCGGGAAGACCCGGGTCCTGACCCACCGGGTGGCCTACCTGATTGAGGAGAAGGGGGTTCTTCCCTGGAACATCCTGGCGATCACCTTCACGAACAAGGCCGCCAAGGAGATGCAGGAGCGGGTCGGCAAGCTGCTCGGCGAGAGTGCCAACGACGTCTGGGTTTCGACCTTCCACGCTCTGTGTGTGCGGATCCTGCGTCGCGACATTGAGAAGATCGGCTATAATCGGGCCTTCACGATTGCCGACACCAGTGAGCAACGGACGCTGATGAAGCGGATCTGTGGCGAGTTGAACATCGACACCAAAAAGTTCGACCCCCGCAGCATTCTCAGCGAGATTTCCAACGCCAAGAACGCCCTGCTGACGCCGGCTGAGTACAGCGATAAGGCTAACAGCATGTTTGAGAACATGGTAGCCCGGGCCTACAAGCTCTACCAGCAGGAACTGGAGGCCAACCAGGCCCTAGACTTCGACGACCTGATCATGAAAACGATCGAGCTGTTTGAACAGGACCAGGAGACCCTGGAGTTCTACCAAAACAAGTTCCACTACATCCACGTCGACGAGTACCAGGACACCAACGACGCTCAGTACCGCCTGGTTAACCTGCTGGCCCGTGGTTATCAGAACCTCTGCGTTGTCGGGGATGCCGACCAGAGCATCTACGGCTGGCGGGGTGCCAACATGAATAACATTCTGAACTTTGAGCACGACTACCCGCAAGCCAAGACGGTCATGCTGGAGCAGAACTACCGGTCCACCCAGAACATCCTGGACGCGGCCAATGAGGTGATTGTCAACAACGTCAACCGGCGCAAGAAGAAGCTCTGGACCGAGAATGGGCAGGGGGAGAAGATCTCCTACTACCGGGCCCAGAGCGAGCACGATGAGGCCCAGTTCATCGTTGCCAAGATCAAGGAGGAACGGGAGAAGCACGGCTACCACTACAATGATTTTGCCATCCTCTACCGGACCAATGCCCAGTCACGGGTGGTCGAGGAAACCTTCCTGAAGAGCAGTGTGCCCTACACGATGGTCGGGGGCCACAAGTTCTACGACCGCAAGGAAATCCGGGACGTCCTAGCCTACCTGACCCTGATTGTCAACCCCCAGGATTCGATGAGCTTCACCCGGGTCGTCAATACTCCCAAGCGGGGCATCGGCATGACCAGTGTTGAGCACCTGCGAGAATTTGCCAATGACAACCACTGGTCCCTCCTTCAGGCGGCCGAGAACGTCGACATCGCCAACCAGATTACCAGCCGGACCCGGAACAAGATCGCCGCGTTTGGCGACCTGATGAAGAACCTAACCAAGCAGTCCGAATACCTGAGCCTGACTGACCTGACCGACCAGATTCTGGAACTGAGCGGCTATAACAAGATGCTTGACCAGGACAAGAACCTCGAGGCGCAGGCCCGCCGGGAGAACCTGGACGAATTCAAGTCTGTGACCCAGGAGTACGACGAGAAGCACAAGGACGATGAGGGTGATAACATCCAGAAGATCACCAACTTCCTGGCCGACCTAGCCCTAGTTTCCGACCAGGACGACGTCGACGAGCAGGCACCGGCCGTCACGCTGATGACCCTGCATGCGGCCAAGGGGCTGGAGTTCCCGGTTGTCTTCCTGGTTGGGATGGAAGAGGGGATCTTCCCACTCTCCCGGGCCGTCATGGAGGACGACGAGCTGGAGGAGGAACGGCGCCTGGCCTACGTCGGGATCACTCGGGCCAAGAAGAAACTCTACCTGACCAATGCCTTCTCCCGTCTGCTGTATGGACGGATCCAGCGCAACCAACCGTCCCGCTTCGTCGAGGAGATCAACCCCGACCTGCTGCAGTTTGAAAACAGTGACGAGGGTAATGACCTAAACGAGCGTAAGCTGCCGTTTGGGCAGGGAGTCAAGCGCAGCAGCTGGGGCAATCGCAAACAAGCCGCAGCCACGGCGACGACCTACAGTTCCCAGCAACACCATTACCGTGACGCCGGGAAAAAGGTCAAGCCAATTACCAACACTGGGACTGGGGCCGACAAGGTCAGCTGGAAGACCGGTGACAAGGTCCAGCACAAGAAGTGGGGCCAGGGGACCGTGGTCAAGGTCAGCGGGACCGGTAACGACATGGAGCTCGATATTGCCTTCCCACAGCAGGGGGTCAGACGGCTCCTGGCCAGTTTTGCCCCAATTACCAAAGTTGATTGA
>SRR1151252_00835 MATE family efflux transporter
GTGGATAAGCTATTTGAAAACACCTCGATCAAGCGCGCCTACTTCATCCTGGCCCTGCCGGTGGTCATGAGCATGGCGGTCACGATCGTCTACAACATGGTCGACACCTTCTTCGTCGCCAAGACCGGTAACCCCGACCTGGTCGCCGGGGTCTCCCAGGGGGCACCAATCTTCACGTTGATGATCGCCATCGGGGATATCTTCGGGCTTGGCGGTAGCTCGGTGATCTCCCGTCTCTTCGGTGAGCGCCGCGATCAGACGGCCCGCTACGTCAGCGGCTACTGCTTCTACGCATCCATCGCCTGTGGTCTGGTCGTCACTGCCCTGATGTTCATCTTCCAGACTCCGGTCCTTCACATGCTGGGAGCTTCCCCGACCACCTGGAAGTACGCCCGTGAGTACTATCTGGTAATTGCCGCCGGGGCAACCTTCATCATCTTCGGCCTCTCACCGACCAACATCCTACGGACCGAGGGCTTGGCTTCCCAGTCGATGATCGCCAGTATCACCGGGACCGGGATCAACATCGTCCTCAACCCGATCTTCATCTTCACCTGCGGGCTGGGGGCGGCCGGATCGGCCCTCGCCACCGTGGTCAGCAACGTCATTGCCGACATCCTGATGGTCTACTACCTGCGGACCAGGAGCAAGAAACTGACCACCTCAATCCACGAGACCCGGATCTCCGGCCGGCTTCAACGTGAGATATACGCCATCGGCATCCCCGCCTCGGTGACCAACATCATGGTGACCTTCGCCACCGCCCTCACCAACCGCTACCTGATTGCCTACGGGGCCGACAGCGTCGCCGCAATGGGGATCGCCATGAAGGTCAACACGATCATTGTGATGGTGATGGTCGGATTTGCCTTCGGTGCCCAACCGCTGATCGGCTACACCTACGGAGCCCGCGACGAACGCCGCTTTAGGCAGATCCTTCACTTTGATCTGGCCGTGGTCGCCGGCTTGGCGATTGTCCTGACCGCCCTGATGATGATCCTGGCCCCCCAGATCATCCGCCTGTTCATGCACGATCCGGTCATCGTCCGCGAGGGAACTGGGATGCTGCGTTGGCTGGCATCATCAACGACCATCGCCGGGATCGTAATGGTTCTGACCACCACCTTCCAGTCGATGGGCAAGGCCGTTCCCGCCTTCTGGCTCTCCTTTAGTCGGCAGGGGCTGATCTTTGCCGTCGTCATCGTCGTCTTGACCCACTTCTTCGGCTACACCGGAATTCTAGCCGCCCAGGCCTGTGCCGACGTCCTCACCCTGGTCCTCGCCGGCTTCCTCTATCACGTCTACCGACCGCATTTCAACTAA
>SRR1151252_00836 phosphoribosylaminoimidazole carboxylase ATPase subunit
ATGAAGAGGAATGCATTTTATCCAGGGAGCACCCTGGGGATCATTGCCATCAACCGGAACGGCGGTACCTTGATTGCGGCGGCAAAGAAGGCCGGGTTCAACGTCCTGGTCTACGTTGACCATGCCCAGCCAGCAATCACCAAGATGGCTGACGAGACCATCGTGGGGGCCTACAACGATAAAATCAAGCTGGCCCAGTTTGGTGAGGCTTGTGACGCCATCATTTACCAGACGCCGAACGTTGACGCCCGGGTCCTGCATTTTCTGGGTCAGTACGCCGCTATTCCGCAGGGGACCAACGGCCTGGAGATCATCCAGGATCGGTTGATGGAGCGGGCCTTTCTCGACCAGATCAACATCAACATCACCCCCTATGTTACGGTGGTCAGCCTGGATGACGTCTACCAGTCGATCGACTCAATCGGCTACCCAGCCCTGTTGAAGCCGATTCAGCGAGGATTGGGTGAGCAGTCAATGATCATCAAGCGCCAGTCCGATATTGTCCGGGCGGCGGACTTCGTTGAAACCGGAACCTACCTGCTAGAGTCCTGGATTGATCACACGAGCGAGTACACGATGACGGCGGCGACCGATGGTGAGGAGACTGCGATCTTCCCGCTGGCCAAGTTGCACTTCACGCCGGATCGTCAACTGCTCGCGGTTGCTGCCCCAGCAACTGTTAACGATGACATGTTGAATGAGATGCAGCGGATCGTGAAGAGCGTTGCCGGTTCGCTGGAATACAACGGAGTCTTCTCGGTTAACTTCTACGTTACCGGGACCGGGACCCTCTACGTCAAGAACATTGAGCTGGGACTGACTTCAATCGCCAATGTCTACGACACCACAACCAACGTTGATCAGTACGAGGAACAGATCCGGGCGACGGTGGGGATGCCCCTCCACCAGATTCAGCCCCTACAGGTGGGCTTGCTGATGGTCGTTCGCAAGTATCAGCAGCTGGCTATCCAGCGTCAGTGGCTTCTGAAGAACAACTGGCAGTTCCGGTTTTTCAACGATCAGGACGGTGACGACCAGAGCATTCTTGGCTTCGTCTGGGTCACGGGTAGTGATAACCTGGTCGACCTGGAGAATCAGGTGGACGATACCGAGGTTTGGAAGGAACCGGTCAGTGAGGAACAAGCAGATAATTAA
>SRR1151252_00837 xanthine phosphoribosyltransferase
ATGCGTGAACTAGAGGAAAAAATTAAAGAATACGGAACGGTTTTGCCGGGCAACGTCCTCAAGGTGGACGCCTTCCTGAACCACCAGGTGGACCCGGAATTGATGCTGCACGTGGGTCAAGAGTTTGCCAGGCTCTTCGCCGATGCAGGGGTTACCAAGGTCTGGACCGTCGAGTCATCCGGGATCGCCCCGGCGGTGATGACCGGGCTGGCGATGAAGGTGCCGGTGATCTTCGCCCGTAAGCACAAGAGTCTGACCTTAAACCAGAACATGTACGTAGCCGACGTTTACTCGTATACCAAGAAGACGACTAACCGGATCTCAATTTCCAAGAAGTACGTTTCACAAGACGACAAGGTCCTGATGATTGATGATTTCCTGGCAAATGGTCAGGCCGTTGAGGGGATGCTGGAGATTGCCGATCAGGCCGGTGTTCAGGTTGCCGGGGCCGGCATCGTGATCGAGAAGAGTTTCCAGCCAGGAGCCAAGGAACTCAAGGACCGGGGGATCCGGCTAGAATCACTGGCCCGGATCAAGTCCCTAGCCGACAACCAGATTGAATTTATGCCCGACTAG
>SRR1151252_00838 N-acetylmuramidase
TTGGCAAAACGTAGAAGAAAAGCAAAGAAGCGTCTTTCGACAACCAAGACGACGGTATGGATACTAGCAATCATCGTGATCTTCTTGGGAGTGTATGCCGGCCACCACTTCTATCGGATCTGGAACCAGCAGCGGATTGAGCAGCAGGCGTGGGAGCGGGATCGGGAGGCCAAGGAACTCTTCATCAAGCAGGTCGCACCGGAGGCCCAGGCAATGCAGAACACCTACCACGTCTATGCCTCGATCACGATTGCCCAGGCGATCCTGGAGTCGCAGTGGGGGACCAGCAAGCTGGCGTCACAGTACCACAACCTCTTCGGAATCAAGGGGACCGGTCCCAATTCTCGTGAACTGACTACCAAGGAGTATATCAACGGCAAGTGGATCGTAACCAAGGGTCGCTTCCGGGTTTATGACAGCTGGAGTGACTCGATCAAGGATCATACTAAGCTGATGCTGACCGGAACCGACACCAACCAGCAGAACTACGACCGGGTGGTCAAGGCCAGCAACTACCGGGAGGCTGCTCAGGCCCTTCAGGATTCCGGCTACGCCACCGACCCGGATTACGCCCAGAAATTAATCTCGGTAATCAAGGCTTATAAGTTATATAATTATGATAAGTAG
>SRR1151252_00839 acetoin reductase
ATGGCAAAGAAAGTTGCAATTGTTACCGGTGGTAGTCAAGGGATCGGGAAGGCGATTGCCGAACGGCTCGTTCATGATGGTTTTGCTGTTGCCCTGGTCGCTCTGGAAAAGGATAAGCTGGATGCGACCGCTAAGGAGCTTGAGGACAAGGGTGGTGAAGCACTGCCGATCGTGGCTGACGTCTCCGATCGTGATGCCGTCTTCGCTGCGGTTGACCAGACCGTCGACCACTTTGGCGATCTTAACGTGATGGTCAATAATGCCGGCCTGGGCCCAACCACCCCGATCGACACGATCACCCCGGAACAGTTTAGTAAGGTTTACGGTGTCAACGTCGGTGGGGTCCTCTGGGGAATCCAGGCTACCCACCAGGCCTTCAAGAAGCTGGGTCACGGCGGGAAGATCATCAACGCCACCTCACAGGCCGGAGTTGTCGGGAACCCGAACCTGGCCCTGTACTCCGGCACCAAGTTTGCCATCCGGGGAATTACCCAGGTAGCCGCCCGGGACCTCGCGGATGAAGGGATTACCGTCAATGCCTACGCACCAGGAATCGTTAAGACGCCGATGATGTTCGACATCGCTCATCAGGTCGGGAAGAATGCCGGTAAGAGCGACGAATGGGGGATGCAGACCTTTGCCAAGAACATCGCCCTAAAGCGGCTTTCTGAACCAGAAGACGTTGCCAATGCGGTCGGCTTCCTGGCTGGACCGGACTCCAACTACATTACTGGTCAGACCATCATTGTCGATGGTGGGATGCAGTTCCACTAG
>SRR1151252_00840 30S ribosomal protein S9
TTGGCTCAACAAGTACAATACAGTGGTACTGGTCGGCGTAAGGACGCAACCGTACGTGTTCGCTTAGTACCAGGTTCAGGTAAGATTACGATGAACGGCAAGGCAATTGACGACTACATTCCATTTGCCGACTTACGTGCTATCGTAAACCAACCATTTGATGTTACCAAGACTAACGGCCAATACGACGTTATCGCTAACATCAATGGTGGTGGATTCTCCGGTCAAGCCGGCGCTGTTCGTCACGGGATCGCCCGCGCCCTGCTCAGCGTTGACCCTGACTTCCGTGACGCCCTCAAGAAGGCCGGTCTTTTGACTCGTGACCCTCGGATGAAGGAACGTCGTAAGCCAGGTCTGAAGAAGGCTCGTAAGGCTGCTCAATTCAGTAAGCGTTAA
>SRR1151252_00841 50S ribosomal protein L13
GTGAGAACGACATACATCGCAAAACCTGGTGAAGTTGATCGCAAGTGGTACGTTGTCGATGCTAAGGATGTCCCAATGGGTCGTCTGGCCACCGTCGTCGCATCAATTCTGCGTGGTAAGAACAAGCCAACATTTACTCCACACGTTGACACTGGTGACAATGTCATTGTTATCAACGCTGCGCAAGTTAAGTTAACTGGTAAGAAGGCTTCGCAAAAGAAGTACTACCGTCACTCAAACTACCCTGGTGGTTTGAAGGAACGGACTGCCGGTGACTTCCGTGCTAAGGAACCAGAGAAGCTTCTGGAAACTGCTATCAAGGGTATGCTTCCACACAACTCCCTGGGTCACAAGATGGGCTTGAAGCTGCATGTTTACGCTGGTGAAGACCACAGTCATGCTGCTCAAAAGCCAGAAGCATTGGACATTACGAACTTAATCTAA
>SRR1151252_00842 tRNA pseudouridine synthase A
TTGTATCGCTATAAAATTACCTTTGCCTACGATGGCACCAACTTCTCCGGCTTCCAGATCCAGCCTCATAAGCGGACCGTGGAACAGGTGTTGAAGAATGCCGTCAACAAGATCGCTAAACACCCGGATCCCGCCATCCCGGTAATTGGGTCGGGGCGGACGGACGCCGGGGTTCACGCTCTCAACCAGGTTGCCCACTTTGATATTCCATACCACCTGAGTAACGATTCGATGCGGAAGGCCTTAAACAGCATCCTCCCCCTCGATATCCTGGTAAAGAAGGCTGAGGAGGTCACCCCCGACTTTCATGCCCGCTACAGTGCCCACCGCAAGACCTATCGTTACCGGGTCGACCAGGGGGAGTTCGTCAACCCCTTCAAGCGCAACTACACGGCTCACTTCAAGTACCCGCTCGACCTGGCGAAGATGAAGGAAGCTGCCAAGGACTTCATCGGTGAGCACGACTTCACTTCCTTTGTTGCCTCGGGGAGCCAGGCCAAGAGCAACTTCCGGACGGTGGAGAAGATCAGCATCTACCGCGACGAGCACGATAACGAGGTGATCTTCGAGTTCACTGGTAACGGCTTCCTCTATAACCAGATCCGAATCATGGTGGCCTTTTTGCTCGAGGTCGGCAGCAACCAGCGGCCGGTCAGCGACGTCAAGCGGGTGCTGGCGGCTAAGGACCGGACCCAGGCCCGGATGACCGCCCCGGCCAGTGGCTTGTACCTTGTATCAGTGGATTACGGAAAATGA
>SRR1151252_00843 energy-coupling factor transporter transmembrane protein
GTGAATAATAAGATTGTCTTTGGTAGCTATGTCCCGGTTGCCTCGCCCCTGCACCGTCTTGACCCCCGGATGAAGCTTTTGATGTGCATCTGGTACGTTATTCTGGTTTTCTTTGCCAACAGTTGGGGAACCAGTCTTTGGCTGCTGGCGGGACTCCTGCTAGCGATGCTGATGAGTCACGTCAGCTTCCGCCAGTACTGGCAAGGGTTGCGCCCGCTGGCTTGGGTGATCGTCTTCACGGTTGCCTTCCAGGTACTCTTCTCTAGCGGTGGGCGGCTTTACTGGCATTGGGGGATCATGTCGATTACCCATGATGGACTGGTGAACGCCCTGATCATCTTCTACCGGTTCATGGTTATCATCACTGCCTCGACGGTGCTCACGGCGACGACCCCGACCCTGCGGATTGCAGACGGCTTGGACTGTTTCATGCGGCCGCTGAAGTTCTTACGGGTACCGGTCAACCAGATTACGTTGATGCTGTCGATCGCCCTGCGCTTTATCCCGACAATCATGGATGAAGCGGGTAAGATTACCAACGCCCAGCGGTCACGGGGGATGAACTTCCACCAGGGAACCCTGGTTCAGCGGGTAAGGCACCTCGTTCCGGTCCTAATCCCGTTGTTTGTCAACTCCTTCAAGCGAGCTGAGGACCTGGCCACCGCCATGGAGGCCCGGGGCTATGATCCCGACAGCCCCCGGACCCACTTCCGTCAGCTGCACTGGCGGGGATGCGACACGATGACCTTTGTGGTGATGGTTTTGGTAACCACCATCCTATTCTTGATCAGAGGAGGACTATTGTAA
>SRR1151252_00844 energy-coupling factor transporter ATP-binding protein
ATGGATATGCCAGCAGTTGTAATTAAAAACGTCAGCTTTAATTACTCGTCACAAACGAAGCGCCCGGCACTGGACAACGTCAGTCTGCAAATTGCGCCCGGTAGCTTCGTCGGCATTGTCGGACATACCGGAAGTGGGAAGAGTACCCTGGTTTCTTTGATTGACGGTCTGGGCCGCCCAACCAGTGGCCAGATCCAGGTGGGGGACGTTGTGGTTGATGCCCAGTCGTCGGCAACTGACCTAGCTAAGTTGCGCCACCACGTCGGTTACGTCTTTCAGTTTCCCGAGCAGCAGCTCTTTGCCGAGACGATCGGCCAGGACATTGCCTTTGGTCCCACCAACCTGGGCTGGTCGGCCGACCGCGTCCAGGCTGCGGTCAGCGACGCCTTGAGGATGGTGGACCTGCCAGCGGAATTTGCCAAGCGTTCGCCTTTCGCTCTTTCCGGTGGTCAGATGCGGCGGGTCGCCATCGCCGGTGTCCTAGCCATGCATCCAGCCATCCTGATCCTGGATGAGCCAACCGCGGGGCTCGATGCCGCGGTCACGCACCGTTTGATGGCCAATATCGCCAAGCTCCACGTGGCCGGGACCACGATCCTCCTGATCACTCACCAGATGGATCAGGTGGCCCAGTATGCTGATCAGGTAGTGGTGATGAATCAGGGACGCCTGGTAAAAAGTGCCTCCCCGCGGGAGATCTTTGCCGATCCAGCATTTCTGATGGCTAATCACCTCAACGTCCCACCTGCCGTAGCGATATCTCACCGGCTCCGTGACGCTGGCCTAGCAATCGCCCCGGCGATGAGCATTGATGCCCTGGCTGATCAGCTAGCGGCCAAGTTAGGGGGGACGCCTGGTGAATAA
>SRR1151252_00845 energy-coupling factor transporter ATP-binding protein
GTGGTGGATGCAGTCACACTGACCAACGTTCAATTTCAATACCCCAATGCTGACCGGATGATCCTCGATGGCGTTAGCCTTCGTTTTCCCCAGGGTGAATGGACGGCAATCATCGGGCGTAACGGGAGCGGGAAGAGCACCTTGGCCCGCCTGATCGACGGTCTCTTACTCCCTAAGCAGGGACAGGTCACGGTTTGCAACCTGCCGGTGACCGAGGAGAACATGACGAGGGTGCACCAGCAGGTCGGAATTGTCTTTCAGAACCCCGATAATCAGTTTGTTGGTGCCACTGTGGCCGATGACGTCGCCTTTGGCTTGGAGAATCGCCAGGTTCCGCTTGCAAAAATGCGGTCCCGGATCCAACAGGCCCTGGCAGCGGTTGATATGACCGACCTGGCAAGTGCGGAACCGACGATGCTGTCCGGGGGACAAAAGCAGCGGGTGGCGATCGCCGGTATCCTGGCCCTTAAGCCGCAGGTGATCATCCTGGATGAGGCCACCAGTATGCTCGATCCGGCCGGGCGGCAGCTGGTTCTTGACCTTCTGCAGCGTCTGCGAACACAGCAGCAATATACGATTATTTCAATTACTCATGATCCCACGGAGATGGCGATTGCGGATCGGGTCGTGGTTCTTGATGGCGGCCAGGTTATCCGTCAGGGGGACACGGCCACGGTGCTGGCGGATGTCGACCTCCTGCGCCATGTTGGGGTTGGTGTGCCGGCGGGTCAGGCCCTCCGTCAGGCCCTAGTTGACCGTGGGATAACCGTGCCGGCCCGCTACTTCACGGAGGAAGAGATGGTGAGATGGATATGCCAGCAGTTGTAA
>SRR1151252_00846 50S ribosomal protein L17
ATGAGTTACCGTAAATTAGGACGTACAAGTTCACAACGTAAAGCTTTATTACGTGATTTAACTACTGATTTAATTGTTAATGGTCAAATTACCACTACCGAAGCACGGGCTAAGGAAGTTCGTAAGACTGCTGATAAGATGATCACGCTTGCCAAGCATGGTGATCTTGCATCCCGGCGTAAGGCTGCTGCTTACCTTCGGAACGTCGTTGCTGACGTTAAGGAAGATGGCGACAACATTCGGATTCAATCTGCTCTTCAACACCTGTTTGAAGAACTTGCTCCAAAGTATGCTGACCGTCAAGGTGGTTACACGCGGATTCTGAAGACGATGCCTCGTCGTGGTGACGGCGCACCAATGGTTATTTTGGAATTCGTTGACTAA
>SRR1151252_00847 DNA-directed RNA polymerase subunit alpha
ATGATCGAATTTGAAAAGCCAAACATTCACAAAATTGAAGAGACTGATAACTACGGCAAGTTTGTTGTAGAACCACTTGAACGCGGTTATGGAACTACTCTTGGTAATTCATTAAGACGTGTACTGCTGGCTTCACTCCCGGGTGCAGCAATCACCAGTATGCAAATTGATGGGGTTTTGCATGAATTTAGCACCGTTGAAGGTGTTACTGAAGATGTGACCCAAATTATCTTAAATCTTAAGAAGGTTTCCTTGAAGATCAACTCCGAGGATCAAAAAGACCTCGAACTTGATGTTAAGGGGCCGGCCGAAGTAACCGCCGCCGACATCCAGGGTGATGGGGAAGTCACTATCTTAAACCCTGACCTGCACATTGCAACTGTTGCTGATGGTGCGGAATTACACATTAAGATGACAGCTGATAAAGGTCGCGGTTACCTTTCTGCTAATGATAACAAGGCCCGGATGGAAGATCTTGCCATCGGTGTATTACCAATTGATTCCATCTATACCCCAATCGAACGTGTAAATTACACTGTCGAAAATGCACGTGTTGGTCAACGCAACGACTACGATAAGTTGACTTTGGATGTTTGGACTGACGGTTCATTAACACCTACTGAAGCGGTGAGCCTTGGGGCCAAGATTTTGACCGAACACCTGGCAATTTTTGTGGATCTGACTGAGGAAGCACAAAATTCCCAAGTGATGGTTGAAAAGGAAGAGACCCACAAGGAAAAGATGCTCGAAATGACAATTGAGGAATTGGACCTCTCAGTACGGTCATACAACTGCCTCAAGCGTGCTGGCATCAACACCGTCAAGGAATTAACTGATCGGACCGTTTCTGACATGATGAAGGTTCGGAACTTAGGACAGAAGTCATTAGAAGAAATTAAGCTTAAGTTAAATGATCTCGGTGTTTCATTCCGCCAAGATGATTAA
>SRR1151252_00848 30S ribosomal protein S11
ATGGCAACCAAAAAGGGTACGCGTAAGCGTCGTGCAAAAAAGAACGTTGAAACTGGTGTTGCCCACATTCACTCAACGTTCAACAACACTTTGATCATGATCACTGATGTTCAAGGTAACGCTGTTGCTTGGTCATCAGCCGGTGTTTTAGGCTTCAAGGGTAGTCGTAAGTCTACGCCATTCGCTGCTCAGATGGCATCAGAAGCTGCTGCTAAGCAAGCAATGGAACACGGTATGAAGACCGTTGAAGTTGAAGTTAAGGGTCCAGGTTCCGGTCGTGAATCTGCCATCCGTGCTCTTCAAACAACTGGTTTGGAAGTTACTGTTATTCGTGATGTAACTCCAGTCCCACACAATGGTTCTCGTCCTCCAAAGCGTCGTCGTGTTTAA
>SRR1151252_00849 30S ribosomal protein S13
ATGGCTCGTATTGCAGGTGTCGATTTACCTCGTGACAAGCGTATCGTAATCGGCTTAACTTATATTTACGGTATTGGTGATTCTCGTGCAAAGAAGATCCTTGAAAATGCCGGTGTTTCAGAAGACATTCGTGTTCGTGATTTGACTCCAGATCAAGAAGAAAAGATCCGTGCACAAGTCGACCAAATCCAAGTGGAAGGTGACTTGCGTCGTGAAGTTTCCATGAACATCAAGCGGCTCCAAGAAATTGGTTCATACCGTGGTATGCGTCACCGTCGTGGTTTGCCTGTTCGTGGTCAACACACGAAGAACAACGCCCGGACTCGTAAGGGTAAGGCCGTTACCATCGCAAACAAGAAGAAGTAA
>SRR1151252_00850 50S ribosomal protein L36
ATGAAAGTAAGACCATCAGTCAAGCGGATGTGCGAGCACTGCAAGATCGTTAAGCGTCATGGACGTGTTATGGTTATTTGCTCTGCAAACCCTAAGCACAAGCAGCGTCAAGGTAAGTAA
>SRR1151252_00851 translation initiation factor IF-1
GTGGCAAAAGCCGATGTGATTGAAGTAGAGGGTAAAGTTACCGAAACTTTGCCTAATGCGATGTTTAAAGTTGAACTGGAAAACGGAGCTGAGATCTTAGCCCACGTTTCCGGTAAGATTCGGATGCACTACATCAAGATCTTACCTGGTGACCGGGTTAAGGTTGAAATGTCCCCTTATGACCTGACCAAGGGTCGGATCACGTTCCGGTTTAAGTAG
>SRR1151252_00852 adenylate kinase
ATGAGTATGAATCTTGTTTTAATGGGTTTGCCTGGTGCTGGTAAGGGTACCCAAGCTCAGAAGATTGTGGAAGACTTCGACATTCCTCACATCTCAACCGGTGATATTTTCCGGGCGGCGATCAAGAATGAAACGCCGATGGGGCTCGAAGCCAAGAAGTACATCGATAAGGGTGAGCTTGTTCCAGACGAAGTCACTAATGGTATCGTCAAGGAACGGTTAGCGCAGGACGACACCAAGAACGGCTTCATGCTTGATGGTTTTCCTCGTAATCTTAACCAAGCAGCTGCCTTGGATAAGATGTTAGCTGAGAGTGACCGTCACTTAGATGCAGTCATCAACATCCACGTTGAACCGGATGTATTGGTTGAACGTCTGAGTGGCCGGTTCATCTGTCGCAACTGTGGAGCAACTTACCACAAGGTTTACAACCCAACCAAGGTTGAGGGAACCTGTGATGTTTGTGGCGGCCACGAATTCTACCAACGTGACGATGATAAGCCGGCAACGGTTAAGAATCGTCTTGATGTTAACATCAAACTGAATACACCACTGGTAGATTACTACCAAAAGCAAGGCGTTTTGCACACGATCGATGGTCAACAGGACATCGACAAGGTTTACGACGACGTCAAGAAAGTGCTTAATAATCTTTAA
>SRR1151252_00853 preprotein translocase subunit SecY
TTGTTCAAAGCCGTCAAGAATGCACTCGGGGTTAAGGATATTCGTAAGAAGATTCTGTTCACCCTGTTTGTATTGATTGTTTACCGAATTGGGGCGGCTATCACTGTTCCTGGAGTTAATGCTGCTGCACTGCAGGAGATTTCCTCGACCGGGTTAGCATCGATCCTCAATACTTTTAGTGGTGGTGGCTTGGAAAACTACTCATTGTTTGCAATGGGTGTTTCCCCATACATTACCGCTCAAATTGTTGTTCAACTGCTGCAGATGGACATTGTCCCGCGGTTTGTTGAATGGAGTAAGCAGGGTGAAGTTGGACGGCGAAAGTTGAATCAAGCAACTCGGTGGTTGACGATTGTGTTGGGGTTCATCCAATCGATCGGGATCACCGCCGGGTTTAATGCCTTGAGTTCAATCCACTTGGTTAACCATCCCGGGGTTCAGACCTATCTGACCATCGGATTGATCTTAACCGCTGGTACAATGTTTGCTACTTGGATGGGTGACATGATCACGGAACGGGGCCTTGGTAACGGGGTTTCCGTCATCATCTTCGCCGGGATTGTTGCACAGATGCCGGGTGGAATTCGGCAACTCTGGGATGATCAAATTGCGGGTGAATCTGGTTCCGCCCTCTGGATGGGAATCGGCTTCATCGCCTTAGTAGTTATTGCATTAGTCATTATTGTGGCATTCGTCACTTGGGTTCAACAGGCCGAGCGGCGGTTGCCAATTCAATATACTCGTCGGACAACCACTTCACCATCAAGTAGTTATCTACCATTAAAGATTAATGTTTCTGGAGTTATCCCAGTTATCTTCGCGGGTTCCTTCATTTCGACGCCGCAGACCATCCTGATGGCGTTCCAACAGAACCACGGTGGAGATACCTGGTACCAAGTTATGTCAACAATTTTTAATATGCAGTCTGGTCCGGGGATTACCCTTTACATTCTGCTGATTGTTGTCTTTACCTTTTTCTACGCCTTTGTTCAGGTTAATCCCGAAAAGCTGGCCGAGAACTTGCAGAAGCAAGGCAGTTACATTTCAGGTGTTCGTCCTGGAAAGGGAACGCAGGGATATGTTTCGTCACTGCTGATGCGCTTGAGCACGGTCGGTTCACTGATTCTGGGGTTGATCTCGTTAATCCCACTGGTTGCAAGTAACGTTTGGAACCTCAGCCAATCAATCGGTCTTGGTGGTACTAGTTTACTGATCATTGTTCAAATTGCATTGGATCTGGTTCGGCAATTGAATGGTTTAACCATGAAGCGCGAATACATTGGATTTATTCGTGAACCTGAAGGAGGAAATGAAAAATGA
>SRR1151252_00854 50S ribosomal protein L15
ATGAAGTTAAATGAATTGAAGCCTGCAGAAGGTTCTCGTTCAAAGCGTCTTCGTAAGGGTCGTGGCCTGTCATCTGGTCATGGTTTTACTTCCGGACGTGGTACGAAGGGTCAAAAGGCTCATGGTAAGACTCGTCTGGGCTTTGAAGGGGGCCAAATGCCACTCTACCGGCAAATCCCAAAGCGTGGTTTCACCAACATTAACCGCAAGGAATACGCTATTGTTAACTTGACTGCATTGAACAAGTTCGATGACGGTACTGAAGTTACCCCACAAGTCCTGATGGAAAGTGGTCTGGTCAAGAACTTGAAGAGCGGTGTTAAGGTTCTTGGTAGTGGTAAGCTTGAGAAGAAGTTAACTGTTAAGGCTAACAAGTTTTCCGCTTCTGCAGTTTCTGCCATTGAAGCTGCTGGCGGTAAAACTGAGGTGATGTAA
>SRR1151252_00855 50S ribosomal protein L30
ATGGCTAAAGTTAAAGTTACCTTAATCCACAGTGTTGCCCACCGTGAACCAACCCAACGTAAGACCGTTAAGGCATTGGGCCTGGGCAAGATCGGCAGTTCTAACATCCTGCCAGACAACGCCGCAACACGTGGTCAAATTTTCAAGGTTGCACACTTAGTTTCCATCGAAGAAGTTAAGTAA
>SRR1151252_00856 30S ribosomal protein S5
ATGACATCATCAGAATTCATTGATCCAGCAAAGTTGGACTTAGACGATCAAGTTGTTGCCATCAACCGGATTACCAAGGTTGTTAAGGGTGGTCGCCGGATGCGGTTTGCTGCCTTAGTAATCGTTGGTGATCGTAAGGGTCACGTTGGTTTCGGTACTGGTAAGGCCCAAGAAGTTCCGGAAGCCATCCGGAAGGCCCAAGCTACTGCTGAAAAGAACCTGATCACTGTGCCAATCGTTGGTACGACTATTCCACACGAAGTTATCGGTGTATACGGCGGTGGAAAGATCATGTTGAAGCCAGCCGTTGAAGGTTCCGGGGTTGCTGCCGGTGGTGCGGTACGTAACGTCATGGACCTTGCTGGTGTAGCTGATGTTACTTCAAAGCGTCTTGGTTCCAACACTCCTGTTAACGTTGTTCGTGCAACGTTTGAAGGTTTGAAGCACTTGAAGAGTGCTGAAGAAGTTGCCAAGCTTCGTGGCGTTTCAGTTGACCACTTGGCAGAATAA
>SRR1151252_00857 50S ribosomal protein L18
GTGATTTCTAAACCAGATAAGAACAAGATCCGTCAACGCCGTCACATGCGCGTTCGCGGTAAGATTTCTGGTACTGCGGAGCGCCCACGCTTAAGTGTTTACCGTTCAAACAAAAACATTTACGCTCAATTAATTGATGACGTAAAGGGTGTGACGCTCGCTAGTGCCTCCACTATGGACAGTGAAGTTAGTGGCAAGACGAAGACTGAGCAAGCTAGTGGTGTTGGTGCCTTAATCGCCAAGCGTGCGGTTGCTAAGAACATCAGCAACGTTGTCTTCGATCGTGGTGGGTACCTCTACCACGGCCGTGTTGAAGCATTAGCTGACGCTGCTCGTGAAAACGGACTTAAATTCTAA
>SRR1151252_00858 50S ribosomal protein L6
ATGAGTCGTATTGGTTACAAGGAAATTGACCTGCCAAAGGGCGTTGAAATATCACAAGATGGTAACGTGGTAACTGTTAAGGGGCCTAAGGGTACCTTATCTCGTGAAATCTCACCATTGATCAAGATGACCGTTGCCGACAACGTTGTTAAGTTTGATCGTGATGGCGATTCCAACAAGTTGAAGATGATCCACGGTACTACCCGGGCTAACGTTAACAACATGGTTGAAGGTGTTGTTGATGGTTACAAGAAAGTTCTGAAGCTCGTCGGTGTTGGTTACCGTGCACAATTCAAGGGTAACAAGCTGATCTTGACTGTTGGTTACTCCAACCCAGTTGAAATCGACAAGCCGGAAGATGTTGACATCAAGGTGCCAGATAACACCACGATCGAATTGAGCTCAATCAACAAGGAACACCTTGGTGATTTTGCTGCGCAAGTTCGTGCTGTTCGTTCACCTGAACCATACAAGGGTAAGGGTATTCGTTACGAAAACGAACACATCATCCGTAAGGAAGGTAAGACTGGTAAGTAA
>SRR1151252_00859 30S ribosomal protein S8
ATGTCTATGAGTGATCCAATTGCAGATTTCTTAACTCGTATTCGTAACGCTAACATGGCCCAACACGAATCAGTTGAGGCACCTGCATCAAAGATGAAGAAGGACATCGCTGAAATCTTGAAGAACGAAGGTTTCATTCGCGATGTTGAATATGTTGACGATAACAAGCAAGGCATCATCCGAGTATTCTTGAAGTACGGAAACGACGGTCAACGCGTTATTTCCGGCTTGAAGCGGATCTCAAAGCCTGGTTTACGCTCATACGTTAAGGCTGACGCTGTGCCAAAGGTTCTTAACGGTTTAGGTATTGCCATTATCTCAACATCTGAGGGTGTTGTGACTGACAAGGTTGCTCGCGCCAAGAACATTGGTGGCGAAGTTATCGCCTACGTTTGGTAA
>SRR1151252_00860 50S ribosomal protein L5
ATGGAAAACCGTTTGAAAGCTAAATACGAAAGCGAAATTCGCCCAGCCTTAATTGAAAAGTTCAACTACTCTTCAGTTATGCAAGCCCCAAAGATTGACAAGATTGTTTTGAACATGGGTGTTGGTGATGCTACTACCAACTCAAAGAACCTGGATGAAGCTGTTGAAGAACTTAGCCTTATCGCTGGTCAAAAGCCACTGATTACCAAGGCTAAGAAGTCGATTGCCGGCTTCCGTCTTCGTGAAGGTATGGCAATTGGTGCCAAGGTTACCCTGCGTGGTGAACGGATGTACGATTTCTTGGACAAGTTAATCAACGTTGCTCTGCCACGGGTTCGTGACTTCCACGGTGTAAGCAACAAGGCCTTCGATGGTCGTGGTAACTACACCCTCGGTATTCGTGAACAATTAATTTTCCCAGAAATTGATTACGACAAGGTAAATCGTGTTCGTGGTTTGGACGTTGTAATCGTAACGACTGCTCAAAGTGATGAAGAATCACACGAATTACTTGCCAAGCTCGGCATGCCATTTGCTAAATAA
>SRR1151252_00861 50S ribosomal protein L24
ATGTTCATTAAGACAGGTGACAAAGTTCGCGTTATCGCCGGTAAGGACAAGGGTAAGGAAGGTAGCGTTAAGAAGATCTTAGCTGCTGAAAACCGCGTTGTCGTTGAAGGCATTAACAAGATCAAGAAACATCAAAAGCCAAACAACGCTAACCCAAACGGTGGTGTTATCGATACTGAAGCTCCAATCAACGCTTCAAACGTAATGCTGATTGATCCTTCAACTAACGAACCAACCCGTGTCGGTTACAAGTTTGTTGATGGTAAGAAGGTTCGCGTTGCCAAGAAGTCAGGCAAGACCCTCGACTAA
>SRR1151252_00862 50S ribosomal protein L14
GTGATTCAACAGGAAAGTCGGTTGAAAGTCGCTGATAACTCCGGTGCGCGCGAAATCTTAGTTATCAAGATTTTGGGTGGTTCCCGAGTTAAGACTGGTAATATTGGTGACATTATTGTTGCTACTGTAAAGCAGGCAACACCAGGTGGCGTTGTTAAGAAGGGTGACGTTGTTAAGGCCGTTGTCGTACGGACTAAGCATGGTCTGCACCGTAAGGATGGTTCATACATCAAGTTTGATGAAAACGCCGCTGTTCTGATTAACAATGACAAGAGCCCTAAGGGTACCCGTATTTTTGGCCCAATCGCTCGTGAGCTCCGTGGTGATGACTTCATGAAGATCGTCTCACTCGCTCCAGAAGTTCTGTAA
>SRR1151252_00863 30S ribosomal protein S17
ATGAGTGAAGAACGTAATGCACGTAAGGTTTACCAAGGTCGCGTTGTTTCTGACAAGATGGACAAGACCATCACTGTCGTAGTTGACACTTACAAGAGTGCTCCTGTCTACGGCAAGCGTGTACGTTACTCAAAGAAGTACTACGCACATGACGAAAACAACGAAGCTAAGACCGGCGACACTGTACAAATCATGGAAACTCGGCCACTGTCAGCTAAGAAGCGTTTCCGTCTTGTAAAGATTGTCGAAAAGGCTGCTACCCTTTAA
>SRR1151252_00864 50S ribosomal protein L29
ATGAAAAGTAAAGATTACGTACAAGAACTGAATGGATTAACCACTGACAAGCTACTTGACCGTGAGAAGGAATTGAAGGAACAATTGTTTAACTTACGTTTCCAGTTAGCAACCGGCCAATTGGAAAACACTGCAAGTCTGAAGCAAGTACGTAAGGACATTGCACGGGTTAAGACAGTTCTTCGTCAACAACAATTAAACAAATAA
>SRR1151252_00865 50S ribosomal protein L16
ATGCTAGTACCAAAGCGAGTAAAGCACCGTAAGGTTCAACGTGGTCACATGCGTGGTGAAGCTAAGGGTGGCAAGACTGTTACCTTTGGTGACTACGGTTTGCAAGCCCTTGATTCTCATTGGATCAGCAACCGTCAAATCGAAGCTGCCCGTATCGCTATGACCCGTTACATGAAGCGTGGTGGGAAGGTTTGGATCAAGATCTTCCCTCAACTTTCCTACACCAGCAAGGGTGTTGGTGTCCGGATGGGTAATGGTAAAGGTGCTCCAGAAGGCTGGGTTGCCCCAGTTAAGCGCGGCAAGGTTATGTTCGAAGTAGGGGGCGTTTCTGAAGAAGTCGCTCATGAAGCTTTGCGTCTTGCCGGTCACAAGTTGCCAGTTCGCACTAAGATCGTACAACGTGAGGAAGTAGGTGGACAATCTAATGAAAAGTAA
>SRR1151252_00866 30S ribosomal protein S3
GTGGGTCAAAAGATCAATCCTAATGGTTTTCGTGTCGGAGTCATTCGCGATTGGACTGCAAAGTGGTACGCTGACAAGAACTTTGCCGACTATCTGAACGAAGACCTTCGGATCCGTAAGTACATCGAAAAGCGACTTGCTGATGCCTCTGTATCAACCGTTGAAATTGAACGTGCCGCTAACCGCGTCAACGTTTCAATTCACACTGCCAAGCCAGGAATGGTTATTGGTAAGGGTGGTTCAGAAGTTGAAGCACTTCGCAAGGAATTAAACAAGTTAACTGGCAAGCGTGTCCACATCAACATTGTGGAAATCAAGAAGCCAGACTTGGATGCACACCTTGTTGGTGAAAGCATTGCTCGTCAACTGGAAGCGCGGATTGCCTTCCGTCGTGCAATGCGTGGAGCAATGCAACGCGCAATGCGTGCCGGTGCTAAGGGTATCAAGACTCAAGTTGCTGGTCGTCTGAACGGTGCCGACATGTCTCGGGTTGAATCATACTCAGATGGTACTGTTCCGCTTCACACACTCCGTGCAGACATTGATTACTCTTGGGATGAAGCTAACACTACTTACGGTGTCCTTGGTGTTAAAACCTGGATCTACCGCGGTGAAGTTCTTCCTGCCAAGAAGAATGAAAATGATGATGAACAAGGAGGGAAGTAA
>SRR1151252_00867 50S ribosomal protein L22
ATGGCTGAAAACATTACATCCGCTAAGGCAACTGCCAAGATGGTTCGGGTTGCACCCCGTAAGGCTCGTTTTGTGTTAGATGCAATTCGCGGCAAGAGTGTTGCTGAAGCATTTGCTATTCTGAAGTTCACCAGCCGCGGTGCCGCTTCAGATGTTGAAAAAGTATTAAAATCTGCTGTTGCAAACGCTGAAAACAACTTTGACTTAGATCGTGCATCTTTGGTTGTTAGCGAAGCTTATGCGAACGAAGGACCAACCTTAAAGCGGTTCCGTCCACGTGCAAAGGGTTCTGCTTCACCAATCAACAAGCGGACTAGTCACATCACAGTGGTTGTTACAGAACGATAG
>SRR1151252_00868 30S ribosomal protein S19
ATGGGTCGTAGTTTGAAGAAGGGGCCTTTCGCTGACGCTTCATTATTGAAGAAGGTCGAAGCTCAAAAAGATTCCGAAAAGAAGACTGTCATCAAGACATGGTCACGTCGTTCAACCATTTTCCCAAGCTTTATTGGCTACACTTTTGCTGTTTACGATGGTCGGAAGCACGTACCAGTTTACGTTCAAGAAGACATGGTTGGCCACAAGTTAGGTGAATTCGTACCAACGCGGACTTTCCATGGTCACGCTACCGATGACAAGAAGACTGGTAAGTAA
>SRR1151252_00869 50S ribosomal protein L2
GTGGGAATTCGTAAGTACAAACCTACTACTAACGGTCGCCGGAACATGAACGGTTACGACTTCGCCCAAATCACGAAGAGTACCCCTGAAAAGTCATTGCTGGCACCATTGAAGAGTACTGCTGGTCGTAACAGTTACGGTCACATTACTGTTCGTCACCGTGGTGGTGGAGTTAAGCGTCAATACCGGATCATTGACTTTAAGCGGATCAAGGATGATGTTCCTGCAACGGTTAAGACCATTGAATATGACCCTAACCGGACTGCTAACATCGCTCTGCTTGGTTACGCTGATGGTACTAAGTCATACATCATTGCTCCTAAGGGCTTGAAGGTTGGTATGACGGTTCAATCCGGTCCAGATGCTGATATCAAGGTTGGTAATGCCCTTCCATTGAAGAACATTCCAGTTGGTACTGTTATTCACAACATTGAATTAAAGCCAGGCAAGGGTGGTCAACTCGCCCGTTCAGCTGGTGCTTCTGCACAACTGCTTGGTAAGGAAGAAAAGTACGTCTTAGTTCGTCTCTCATCCGGTGAAGTTCGGATGGTTCTGGCTACCTGCCGTGCCACGATTGGTACTGTTGGTAACGACGAACACGCCCTGCTAATCAAGGGTAAGGCTGGTCGTACGCGTTACGCAGGTCAACGTCCACACGTTCGTGGTTCTGTAATGAACCCTAACGATCACCCACATGGTGGTGGTGAAGGTAAGCAACCTGTTGGTTTACCATCACCTCTGTCTCCATGGGGTAAGAAGACCGTTGGTAAGAAGACCCGTTCACACAAGGCTCGTTCAAACAAGTTCATTGTTCGTGGTCGGAAGCGCGGTCCACATACTCGTTAA
>SRR1151252_00870 50S ribosomal protein L23
ATGGAAGCACGCGAAATTATTTTACGTCCAGTTGTCACTGAAGCTTCAATGGCTGGCATGGACGACAAGCGTTATACGTTCGATGTTGATTTACGAGCAACCAAGACCCAGGTCAAGAACGCGGTTGAAGAAATCTTCGGCGTTAAGGTTGTTAAGGTAAACATCATGAACGTTAAGGGTAAGAAGAAGCGTCAAGGCCGTTACGTTGGTTACACTAAGCGCCGTCGTAAGGCAATCGTTACGCTCTCTGCCGATTCTGATGAAATTAAGCTGTTCAACGACAACAGTGAAAACTAA
>SRR1151252_00871 50S ribosomal protein L4
ATGACTAGCGTTAATTTGTACAAGCAAGATGGTAGCCAAAACGGCACCATTGAACTGAACGCAGCGGTATTTGGTGTTGAACCAAACCAAAACGCTGAATTTGATGCTATCCTGCGTCAACGTGCTTCATTGCGTCAAGGTACTCACGATGTTAAGAATCGTTCAGCTGTTAGCGGTGGTGGTAAGAAGCCATGGCGTCAAAAGGGTACTGGTCGTGCTCGTCAAGGTTCAATCCGTTCACCACAATTCCGTGGCGGTGGTATTGTCTTTGGCCCTACCCCACGTTCCTACAAGTACAGCCTTCCTCGCAAGGTTCGTCAACTGGCTATCAAGTCAGCTCTCTCCCAAAAGGTTCTGGACGACAGCTTAGTAGTTGTTGACTCCCTGAGCTTCGACGCACCAAAGACGAAGGACTTTGCAGCTGCCTTAGACAACTTGAAGGTTGCCGAAAAGGCACTGATCGTTGTTACTGACGATGACAAGAATGCTGCTTTATCTGCTCGCAACCTGGCTAATGCAACCGTTGTTACGCCAGCTGGTGTTAACATCTTAAACGTTGTTGACGCTCAAAAGGTTGTCATCACTAAGTCAGCTCTTTCTCAAGTAGAGGAGGTGCTCGCATAA
>SRR1151252_00872 50S ribosomal protein L3
ATGGCCAAAGGAATCTTAGGTAAAAAGGTTGGTATGACTCAAGTCTTCACTGATAACGGTGAATTGGTACCAGTTACTGTTATTGACGTAACGCCAAACGTTGTTATGCAAATCAAGACCGTTGAAAACGATGGTTACAACGCCGTTCAACTCGGTTTTGACGACAAGCGCGAAATCTTGAGCAACAAGCCTGAACAAGGTCATGCAGCAAAAGCAAACACGACCCCTAAGCGCTTCATCGGTGAAATCCGTGACGCTGAATTAGGGGATGACATCAAGGTTGGAGATGAAGTTAAGGCTGACGTCTTCTCTGAAGGTGAAACTGTCGACGTTACGGGTGTTACCAAGGGTCATGGTTACCAAGGTAACATTCACAAGGACAACCAATCACGTGGTCCTATGGCTCACGGTTCTCGTTACCACCGTCGTCCAGGTTCTCTGGGTGCAATCATTAACCGGGTATTCAAGGGTATGAAGCTCCCAGGCCGGATGGGTAACAAGACTGTTACTATGCAACACTTACAAGTTGTTAAGGTCGACCTCGACAACAACGTATTACTGATTAAGGGTAACGTTCCTGGCGCTAACAAGTCATACGTTACGATTAAGAACTCTGTGAAGGCTAACACCAAGAAGAGCCTGAGCAAGCAACACAACAAATAA
>SRR1151252_00873 30S ribosomal protein S10
ATGGCAAAACAAAAGATTCGTATTCGGTTAAAGGCTTATGAACACCGTATCCTCGACCAATCTGCTGATAAGATTGTTGATACCGCTAAGCGGACAGGTGCTCAAATCTCAGGTCCTATCCCGTTACCAACTGAACGGACTATCTACACGGTTATCCGTTCACCACACAAGTTCAAGAAGTCTCGGGAACAATTTGAAATGCGGACCCACAAGCGTTTGATCGACATCATCGACCCAACCCCAAAGACGGTTGACTCACTGATGAAACTCGACCTGCCAAGTGGTGTTGACATCGAAATCAAGTTGTAA
>SRR1151252_00874 elongation factor G
ATGGCTAACAAACGTGAATATCCACTTGCTAAGACGCGTAACATCGGTATCATGGCCCACATCGATGCCGGTAAGACGACTGCCACTGAGCGGATTCTTTACTACACCGGTAAGATTCACAAGATTGGTGAAACCCACGATGGTGCTTCACAAATGGACTGGATGGATGAAGAAAAGGAACGTGGTATCACCATCACGTCCGCTGCCACCACGGCCGTTTGGAAGGACTACCGGATTAACATCATCGATACCCCAGGACACGTGGACTTCACTGTCGAAGTTGAACGTGCATTGCGGGTGCTTGATGGTGCCGTAACGGTCCTCGATGCCCAAGCCGGGGTTGAACCACAGACCGAAACAGTTTGGCGTCAAGCCGACCAATTCAACGTTCCACGGATCGTCTTCGCTAACAAGATGGACAAGGTTGGTGCCAACTTTGACTACTCTGTTCAAACGATCAAGGACCGTCTGAACGTTACCCCACTTCCGATCCAAATGCCAATTGGTGCGGAAGACACCTTCTCTGGTGTTGTTGACCTGGTTAAGATGGTTGCCTACGTTTACGACGAAGATAAGCTGGGTACCAACTGGGACACCGTTGACATTCCGGATGACATGAAGGACGAAGCCCAAAAGCGTCACGATGCCATGATCGAAACGCTGGCGGACATCGACGACAATATCATGGAGAAGTACCTTGAGGGTGAAGACATTTCCGTCGATGAAATCAAGGCTGCTATCCGTAAGGGAACCCTGGAAGAAAAGCTCTTCCCAGTACTTGCTGGTTCTGCCTACAAGGATAAGGGTATCCAAATGATGCTTGACGCCGTTATCGACTACCTGCCATCACCACTGGATGTTAAGCCATTCGTTGCCCACGACGCTGATGGTAACGAAGTTGAACTGACTGCCGGTGATGACAAGCCATTCGCTGCCCTGGCCTTCAAGATCGCCACCGACCCATTCGTTGGTCGTCTGACCTTCTTACGTGTTTACACTGGTTCACTGCAATCCGGTTCATACGTTCTGAACGCCACTAAGGACAAGCGTGAACGTATCGGTCGTCTGCTGCAAATGCACTCTAACCAACAACACGAAATCCCAGAAGTGTTCTCTGGTGATATCGCCGCTGCTATCGGTCTGAAGAACACCACGACTGGTGACTCCCTGACCAACCCTGATCACCCACTGCAACTTGAATCAATGGACTTCCCTGACCCAGTTATCCAGGTTTCCGTTGAACCAAAGTCTAAGGCTGACCAGGACAAGATGGACAAGGGTCTGCAAAAGCTGGCCGAAGAAGACCCAACCTTCAAGGCTGAGACTAACCCTGAAACTGGTGAAACTTTGATCGCCGGGATGGGTGAACTGCACCTGGACATCATTGTTGAACGTCTGCGTCGTGAATTCCACGCCGAAGTTACCGTTGGTAAGCCACAAGTATCCTACCGTGAAGCATTTACCAAGCAGGCAAGTGCCCAAGGTAAGTTCGTTCGTCAGTCTGGTGGTAAGGGTCAATACGGTGATGTATGGATTGAATTTACGCCACTAAAGGAAGGGGAAGGCTTCGAATTTGAAGACGCCATTGTCGGTGGTGTTGTTCCTCGTGAATTCATCCCTGCCGTTGAACAAGGTTTGAAGGAAGCTATGCAAAACGGTGTCCTGGCCGGTTACCCACTGGTTGACATGCACGCTAAGCTCTACGATGGTAGTTACCACGAAGTCGACTCTAGTGAAGCGGCCTTCAAGGTTGCCGCATCCCTCGCTCTGAAGAATGCTGCTAAGAAGGCGGACCCAGTTATCCTTGAACCAATCATGAAGGTTGACATCGTTGTCTCACAAGACAACATGGGTGACGTCATGGGTCAAGTAACTGCTCGTCGTGGGACCATCGATGGGATGGAAGAACGTGGTAACGCTCAACTGATCCACTCATTCGTTCCGCTGTCAGAAATGTTCGGTTACGCTACTGCCCTGCGTTCTGCTACCCAGGGTCGTGGTACCTTCACGATGACCTTCGACCACTACTCAGCTGTTCCTAAGTCAGTTCAAGAAGATATCATCAAGAAGAGCGGTAAGGGCAACGACTAG
>SRR1151252_00875 30S ribosomal protein S7
ATGCCACGTAAAGGACATGTACAAAAGCGTGAAATTTTACCAGATCCAGTGTACAACTCAAAGCTGGTTACGAGCTTAATCGACCGTCTGATGGTTGATGGTAAGCGTGGGACTGCTACGAAGATCTTATACGCAGCCTTCGACCAAATTAAGGAAGAAACTGGTAACGATCCAGTTGAGGTTTTCCAACAAGCAATGGAAAACGTTATGCCAGTTCTTGAAGTTAAGGCTCGTCGTGTTGGTGGTTCTAACTACCAAGTTCCGATCGAAGTTCGTCCAGAACGGCGGACCACGTTGGGTCTTCGTTGGATTGTTCAATACGCACGGCTGCGTGGGGAACACACTATGGTTGAACGGCTTTCCCGTGAAATCATCGATGCTTCCAACAACACCGGTGCTTCAGTTAAGAAGCGTGAAGACACTCACCGGATGGCAGAAGCTAACCGTGCCTTTGCACACTACCGCTGGTAA
>SRR1151252_00876 30S ribosomal protein S12
ATGCCAACCATTAACCAATTGGTACGTAAGGGCCGTAAGAGCCACAAGGGCAAGTCAAAGTCACCAGCTCTTGGCTATGTTTACAACACGTTTAAGAAGGAAGAAGTCAAGGTGCCAGCTCCACAAAAGCGTGGGGTTGCTACCCGTGTTGGTACCATGACTCCTAAGAAGCCAAACTCAGCGCTGCGGAAGTACGCCCGTGTACGTCTTTCCAACCTGATCGAAGTTACTGCTTACATTCCTGGTATTGGCCACAACCTCCAAGAGCACTCAGTTGTTTTAATTCGTGGTGGTCGTGTTAAGGACTTGCCAGGGGTTCGTTACCACATCATCCGTGGTACCCTTGATACTGCCGGTGTTGAAGGCCGGATGCAATCACGGTCCAAGTACGGTACTAAGAAGCCTAAGAAGTAA
>SRR1151252_00877 prepilin peptidase
ATGTTTACCAAGCTATTCGTCACCATCATCGCCGTTGTTCTTGCCTCGTTCACCACCCTCTGCGCCCAGCGGTCTGGCAGCGGGCAGTCCCCCTGGTCGCCGGCACGGTCTTATTGTGACCACTGCCATCATCCCCTCACCTGGTGGCAGCTATTTCCCCTCATCGGTTGGGTTGTCCAGGGCGGGCGCTGTCATTTCTGCCGGGAACATATCACTGTCTACGACCCTTTCTGTGAATTAACCTGTGGATTATTTGCCTGGGTGCTCGCCGGACCGGATCTTTTCCACAGCCTACTAGCAGTCCTGGTAATCCAGGCCCTCCTTTTCATTGCCAGCTGTGACTACTTCTACCAGTACTTATACCCGCTCAGCTTGGTCGGCCTCCTCCCCCTCCCCCTGCTTATACCTGGCTGGACCGTTCCTGATCCGCTCGACCTGCTCATCGGGACCATCTTTCTTATCCTGCTTACCATCATGGTTGTTCACTACCACTGGCTCGGCGACGGGGACGTCCTTTTCATCGCCATCCTCCTCGGTGCTCTCGGGACCGAGCATACTGCCATGATTACCCTCTTAGCCTGCCTGTTCACCCTCCCCGTATTTTTCCACAACCACCGGGCCCGGCTCCCCTTCTTGCCAGCCCTCTGTCTGGCCACGCTAATCATTTTGATCAGTTACTAA
>SRR1151252_00878 hypothetical protein
TTGACTAAAAAATATCAAATTGAAATCCCCAAGGCGGCCCTTGAGCAGACTGACTTTCAACCGGGCGACCACTTGGCCTTGAGCGTCAATCATAAACAGATTGACGTCCGGTCGGCCCGGGTGATTGATCAGCTGCCGCAGATTGTCTTTTGGTGGTATGCCCTACCGGCTGCGGTAGTCACCCTGATCTTCTATGCCTTCTTCCGCCAGCGAAACGCCGTCCACCCGATCCCACTGACGGGGAGTGACTATTCGCTGGCTAATGGGACGATGTTTCTCGGGGTGATCTCGGGGCTGGTGCTCTTTATCACCACTTTCATTGTGGAAAAGGTGAAGAAGACCGGGCCAACCAAGGACTTCTACTGGCGAAGCTTGCCACCCCTGGCGATTGCCTGTGGATTAATTATGGTTTTTTCCTTCTCGGCTTTCTTTTGGCTGCTCGGTCAGATGTTTGCCAACGCCAGTTTTGATCTTTATACGACGACGGTCTTTGCCTTTGTAATCTTCGCCGCGGTCAACTATGTGATGATCAACCTGGCGATGACCCTGACTTCTGGAGTGGTCACCAACCTGCTGACGATCATGATCATCGGCGGAATGCTCTTTTCAATGCTGACCAATTCATCACGGGACTGGTGGAAGCACAACTTCAGCTTCCTTGGCACCGTGGAGAACTCCGCCAGCCTTCAATTCAATGTTACCCTGATCTTCTCGGGATTGTTGATGCTGACCCTGGTTGACTACCTATTTGTCAACCTGCAGAAGCGTTACCGGGGCTGGCAGGTACTGACCCTCCGCTGGCTTTTGTACATGCTGTCGGCCTGCATTGCCTCGATTGGCCTCTTTCCCAATGATCCCCAGTTTCACATCTTGCATGACCGGGTATCGATGTGGTTGGTCTACATCATGCTGATCCTGATCGTGTTGGTTCGCTGGCTATTACCAGAGGTGACCCGGCAGTTTTTGATCCTTTCCTATGTTATGGGGGCGTTAATGGGCCTGGAGTATATTATCTTTAAGCTCAGCAACTACCTATCGTTGACGGCCTTTGAGTTGCTTGAGTTTGGCCTCGCCTTCTCCTGGCTGTTACTGCTCTTGCAGAACATCGAAAATCTGGCCCGCTTTGGTCACAACCTCTTCCTGGTGAAGATCACCCCGGTTGAGGATAAAACTAAATAG
>SRR1151252_00879 DNA-directed RNA polymerase subunit beta'
TTGATTGATGTCAATAAATTTGAAAGCATGCAGATCGGTCTGGCATCTCCAGATAAGATCCGTAGCTGGTCTTACGGTGAAGTAAAGAAGCCGGAGACCATCAACTACCGGACGCTGAAGCCAGAGAAGCAGGGTCTGTTTGACGAACGAATCTTTGGCCCAACTAAGGACTACGAGTGTGCTTGTGGAAAGTACAAGCGGATTCGTTACAAGGGTCGGATTTGTGACCGTTGTGGGGTTGAGGTTACCAGTTCCAAGGCTCGTCGTGAACGGATGGGTCACATCGAGCTGGCTACACCGGTTTCTCACATCTGGTACTTTAAGGGGATCCCAAGCCGGATGGGCCTGGTCCTGGACATGAGCCCACGCTCTTTGGAAGAAGTCATTTACTTTGCTTCCTACGTAGTGCTCGATCCTGGTGACACCCCGCTGGAGAAGAAACAATTGCTCTCCGAAGCCGAATACCGTGACAAGAAGGCTGAATTCGGCAACCGGTTCACTGCTGAGATGGGTGCTGCGGCAATCAAGAAGCTGCTCGCCGACGTGGACCTGGATAAGGAAGCTAAGGAACTCAAGAAAGAGCTGAAGGAAGCCACCGGGCAAAAGCGGACGCGGGCAATCCGGCGTTTGGATATCCTGGAAGCCTTCATCAAGTCTGGCAACAAGCCGGAATGGATGGTCATGGATGTTATCCCGGTTATGCCACCGGACCTGCGTCCAATGGTTCAACTGGAAGGTGGCCGGTTCGCTACTTCTGACTTGAACGATCTCTACCGGCGGGTTATCAACCGGAATAACCGTCTGAAGCGGCTGCTCAAGCTGCAGGCCCCTAATATCATCGTTCAAAACGAAAAGCGGATGCTACAGGAAGCCGTTGACGCCCTGATCGATAACGGTCGGCGGGGTCGTCCGGTTGCTGGTCCTGGTAACCGTCCGCTGAAGTCCCTGTCCCACCTGCTCAAGGGTAAGCAGGGACGGTTCCGTCAGAACCTGCTTGGTAAGCGTGTTGACTACTCTGGTCGTTCCGTTATCGATGTTGGTCCATCCCTGAAGATGAACCAGATGGGTCTGCCAGTACCGATGGCCCTCGAGCTGTTCAAGCCATTCATTATGCACGAGCTGGTTAAGCGGGGACTGTCCGCCAACGTTAAGGCGGCTAAGCGCAAGATTGACCGTCGTGATGACGATGTCTTCGATGTATTGGAAGACGTCATCAAGGAACACCCAGTATTACTGAACCGGGCACCTACTCTGCACCGGCTTGGTATCCAAGCCTTCGAACCAATCCTGGTTTCCGGGAAGTCCATGCGGTTGCACCCACTGGTATGTACCGCCTACAACGCCGACTTCGATGGTGACCAGATGGCCATTCACGTACCGTTGTCTGATGAGGCCCAGGCTGAAGCTCGGTTGCTGATGCTGGCTGCCCACCATATCCTGAGCCCACGTGACGGTGAACCAATTGTGTCCCCATCCCAGGATATGGTTATCGGTAACTACTACATGACCACTGAAGATAAGGGTCGTGAAGGTGAAGGGATGATCTTCAAGGATACCGATGAAGCTGAGATGGCCTACAAGAACGGTTACGTTTCCCTGCAGACTCGGGTTGGTGTTCAGGTATCATCATTCCCTGGCAAGCCATTCACCGACGAACAACGCGGTCGGATCATGGTAACGTCCGTTGGTAAGCTCCTCTTCAACCGGATCATGCCAAAGGACTTTGCTTACATCAATGAACCAACCGATGCCAACATTCATGAAGGGGTCGCTGACAAGTTCTTCCTTGAACCTGGCGAAGACATCCATGAATACCTTGAGAACGCACCGCTGGTTCCACCATTCAAGAAGGGCTTCCTGTCTGACTTGATTGCCGAAGTCTACAAGCAGTACAAGGTTACCAAGACCTCCCAGTTCCTGGACCGGATCAAGGACCTTGGTTACTACGAATCCACGATTTCTGGCTTGACCACTGCCATGTCTGATATTCATGACCTGCCTGAAAAGCCGGAGATCATCAAGAACGCCCGTAAGCAGGTGGCCCTAATCACCAAGCAGTTCCGGCGTGGCCTGATCACAGATGACGAACGGTACGAGCGGGTTATCGCGGCTTGGAACGATGCCAAGGATGAGGTACAAAACAAGCTGATTGAGCACATGGATATTCACAACCCAATCAACATGATGTCCGACTCTGGTGCGCGTGGTAACATCTCTAACTTTACCCAGTTGGCTGGGATGCGTGGCCTGATGGCCTCGCCAAACGGTAAGATCATGGAGCTGCCAGTCCTGTCCAACTTCTACGAAGGACTGTCCGTTCTGGAAATGTTCCTGTCCTCACACGGTGCTCGTAAGGGGATGACTGATACTGCCTTGAAGACCGCCAACTCAGGTTACCTGACCCGGCGGCTGGTCGATGTTGCTCAAGACGTGGTTGTTCGCGAAAAGGACTGTGGCACGGATCGTGGCCTGGAAGTTACTGCCATCACCAACGGTAACGAAATGATTGAACCACTGTACGACCGGATCATGGGCCGCTACACGATGAAGTCCGTCTTCGACCCGAAGACCGGTGAGAAGATCGTTGGCAAGAATGTTCTGATCGACGAGAACATGGCTCAGAAGATCGTCGACGCCGGGGTTAAGAAGGTTACGATTCGTTCTGCCTTCACTTGCAACACCGAACATGGTGTCTGCGAACGCTGCTACGGCCGGAACGCCGCTACTGGTGACCGGGTTGAAGCTGGTGAAGCCGTTGGGACGGTTGCCGCACAATCAATCGGTGAACCAGGTACCCAGCTGACCTTACGGAACTTCCACACTGGTGGTGTTGCCGGTAACGACGATATCACCCAAGGGCTCCCTCGTGTGCAAGAAATTGTGGAAGCCCGGAACCCGAAAGGTCGGGCAACGATCACCGAGGTTACCGGTGAGGTTGTCTCAATCGAAGAGAACCCGGCTGAACGGACCAAGGACGTTACCGTCAAGGGTGAAACCGATACTCGGACCTACACTCTGCCGATCACGGCCCGAATGCGGGTGGCCGAAGGTGACTTTATTCACCGTGGAACGGCCCTCAACGAAGGTTCCATCGACCCTAAGGAACTGATTCGGGTTCGGGATGTCCTGTCCACCGAAACCTACCTGTTGGCTCAGGTTCAGGGTGTTTACCGGATGCAGGGGATTGACCTGCTTGATAAGCACGTTGAAATCATGATTCGGCAGATGATGCGCAAGGTTCGGGTCATGGATCCAGGTGACACCGACCTCCTGCCAGGTCAATTGATGGATATCGGTCAATTCCGTGAAGCTAACAAGCCAACCCTGTACGCTGGTGGGATCCCAGCAACTGCTCGTCCGGTTATCCTTGGGATTACCAAGGCGGCGCTTGAAACCAACAGTTTCCTGTCTGCTGCTTCCTTCCAAGAGACGACCCGGGTACTTACCGACGCTGCTATTCGTGGTAAGAACGACCCATTGGTTGGTCTGAAGGAAAATGTTATCATTGGTAAGATCATTCCAGCCGGGACTGGGATGCCAACCTACCGAAATATTAAGCCAAAGGAAGTCAGTGTCGCCGCTTACTCCATCAAGGACCTTGAGGCCAAGATGAAAGAGGAAGACAAGCAAAACTAG
>SRR1151252_00880 DNA-directed RNA polymerase subunit beta
TTGGCCGGACATTTAGTTAAATACGGTAAGCACCGTACCCGTCGTAGTTACTCCCGGATTAAAGAAGTTCTCGAGTTGCCTAACCTGATTGAGATCCAGACTAATTCCTACAATTGGTTCATGGACAAAGGGCTGCGGGAAATGTTTGATGACATTATGCCAATTGATGACTTCCAAGGTAAGCTTTCCCTGGAATTCGTTGACTATCAACTTTTAGAACCTAAGTACACTGTTGATGAAGCACGTGAACACGATGCTAACTACTCAGCACCACTGCACGTTACTTTACGGTTAACCAACCACGAAACTGGTGAGATCAAGTCGCAGGATGTTTTCTTCGGTGACTTCCCACTGATGACTGATCAGGGAACCTTCATTATCAATGGGGCCGAGCGGGTTATTGTTTCCCAATTGGTTCGCTCCCCTGGCGTTTACTATAATGAAGAAACCGATAAGAATGGTCGGCCAAGCTACGGTGCCACCTTCATTCCGAACCGTGGTGCCTGGTTGGAATACGAAACCGACGCCAAGAATGTTTCCTACGTCCGGATCGACCGGACCCGGAAGCTGCCAATGACCGAACTGGTTCGGGCACTGGGCTTCGGTTCCGATGACGAAATTATTGATATGTTCGGTGGTGACAGTGAGACCCTGTCACTGACTTTGGATAAGGATGTCCACAAGAACGCTGAAGACTCCCGGGTTGAAGAAGCCCTGAAGGACATTTACGAGCGCCTGCGTCCAGGTGAACCGAAGACCGCTGACTCGGCCCGGAACCTGCTGACTGCCCGGTTCTTCGATCCAAAGCGTTACGACATGGCTCCGGTTGGCCGTTACAAGACCAACAAGAAGCTGATGCTTAAGTACCGTCTGCTCGGTGAGAACCTGGCTGAGACCCTGGCTGATCCTGACACTGGTGAAGTGTTGGCGCAGAAGGGTGATACGGTTACCAAGGAAGTTCTCAAGAAGTTGGAACCTTACCTGGACCGTGACGACTTCAAGATGGTTACCTACACGCCATCTGACGAGGCTGTTGTTACTGAACCGGTCAAGCTGCAGAAGATCTTGGTTTACTCCAAGAAGGATCCGGAACGGATTGTCCCGATTATCGGTAACGGCCACATTCCGTTGGAATACAAGCATATCGAACCAGCCGATATTCTGACTTCCCTGAACTACTTCTTCAACCTGCAGGAAGGTATCGGTTCGACCGATGACATCGACCACTTAGGTAACCGGCGGATTCGTTCCGTGGGTGAACTGCTGCAGAACCAATTCCGGATCGGTTTGGCCCGGATGGAACGGGTAGTTCGTGAACGGATGTCAATTCAAGATCCTGACACCGTTACCCCACAACAGCTGATCAACATTCGTCCTGTGGTTGCATCAATCAAGGAATTTTTCGGTTCCTCCCAGCTGTCCCAATTCATGGACCAAACCAACCCACTGGGTGAACTGACGCATAAGCGGCGTCTGTCCGCCTTGGGTCCTGGTGGTTTGACGCGTGACCGAGCCGGCTATGAAGTCCGGGACGTGCACTATACCCACTACGGCCGGATGTGCCCAATTGAAACGCCAGAAGGGCCAAACATTGGTCTGATTAACAGTCTTTCCTCTTACGCCCGGGTTAACAAGTATGGTTTCATTGAGACGCCATACCGGCGGGTTTCCTGGAAGACTCACAAGGTTACGGACAAGATCGACTACCTGACGGCCGACGAAGAAGATAACTTTGTGATTGCCCAAGCCAACTCACCACTGAATGACGATGGTTCATTTGTTGATGATGAGGTTATGGCTCGTGACAAGGATGAATACGTTGAAACTAGTGTTGAGAACGTCGACTACATGGACGTTTCACCAAAACAAGTTGTCTCCGTCGCTTCCGCATGTATTCCATTCCTTGAAAACGATGACTCCAACCGTGCCCTGATGGGTGCCAACATGCAGCGGCAAGCCGTGCCGTTGCTCAACCCACACGCACCGTTGGTAAGTACCGGGATCGACTACAAGGCGGCGCATGACTCTGGGGTAGCCATGATTGCCAAGAAGGCTGGGACCGTGGAATACGTTGATGCCCGTGAGGTTCGGGTTCGCGAGGATGATGGGACGCTTGACACTTACAAGCTGATGAAGTTCCGTCGTTCTAACGGTGGTAAGAACTACAACCAGCGGCCAATTGTCAAGGTCGGTGAACACGTTGATGCCGATGATGTGCTGGCCGATGGTCCATCAATGGAGCAAGGGGAACTGGCCCTTGGTCAAAACCCATTGATTGCCTTCATGACTTGGCAGGGTTACAACTTCGAAGATGCCATTGCCATCAACGAACGCCTGGTCAAGGACGATGTCTACACGTCCATTCACATTGAATCCTATGAGTCCGAAGCACGGGAAACCAAGCTTGGGCCGGAAGAAATGACCCGGGAAATTCCAAACGTCGGTGATGACGCCCTGAAGGATCTTGATGAAAACGGGATCGTTCGGGTCGGTGCCGAAGTTCATGATGGCGACATCTTGGTTGGTAAGGTGACGCCGAAGGGAATGACTGAACTGTCTGCCGAAGAGCGGCTCCTGCACGCCATCTTCGGTGAAAAGTCTCGTGAAGTCCGTGACACCTCACTGCGGGTTCCTCACGGCGGTGGCGGGATCATCCAGGACGTTAAGGTCTTCACCCGTGAAAACGGGGACGAACTGTCACCAGGTGTCAACACCATGGTTCGGGTCTACATTGCCCAGAAGCGGAAGATCCAGGTCGGTGACAAGATGTCCGGTCGTCACGGTAACAAGGGGACGGTTTCTATCGTTATCCCTGAAGAAGATATGCCATATATGCCGGACGGGACGCCAATCGACATCATGCTGAGTCCAATGGGTGTGCCAAGTCGTATGAACATCGGTCAGCTGCTTGAATTACACCTGGGGATGGCTGCTAAGCGGCTTGGTATCCACATGGCAACGCCAGTCTTCGATGGTGCCTCTGACAAGGACGTCTGGGACGCCGTTCGGGAATCTGGTTTCCCAGAAGATGGTAAGACGATTCTCTACGACGGACGGACTGGTGAACCATTTGAAAACCGGATCGCCGTTGGGTCCATGCACTACCTGAAGTTGGCTCACATGGTTGATGATAAGATTCATGCCCGGTCAACTGGTCCGTACTCACTGGTTACCCAACAGCCACTGGGTGGTAAAGCCCAGTTCGGTGGTCAGCGGTTCGGTGAAATGGAGGTTTGGGCCCTCGAAGCTTACGGTGCGGCCTACACCCTGCAAGAAATCTTGACTTACAAGTCTGATGATACGGTTGGTCGTGTCCGGACCTACGATGCCATCATCAATGGCCAGCCGATTCCAAAACCAGGTGTTCCTGAGTCATTCCGGGTTCTGGTTAAGGAACTCCAGGCGTTGGGTCTTGACATGAAGGTCCTCGACGGCAACCACCAGGAAGTTCAATTAAAGAACATGGATGAAGATGACTCCGAAGTTGTCAGCGTTGACGCCCTGGCTAAGTACGCTGAGCAGCACAATGCCGACAGTGATAAGAAGAACTCGGCTTCGAAGACCACATCTGCATCAACGACTGAAGATAAAACCAAGCAAGATTAA
>SRR1151252_00881 TetR family transcriptional regulator
ATGTCAATTCAAATGAAACGAACGGAGCAGCTTGAAAAGACGCGGGCCGCGATTCTGCGGACGGCAACGCGGCTCTTCTTGCAAAAGGGCTTTGCCCAAACATCAACCAGGGACATTGCCAAGGAGATCGGAATTACCCAACCGGCCCTGTATCACCACTTTAGCGACAAGGAGGTCCTCTTCTTGAGCGTGATGACGGACTTTTCTGGAAAGGTCCGTACGGATATCAACAAGGTCTTACGCAAGCATAAGTTATCACCAGAAGAACAGCTATTTGAAATTGTTAAGGTTTTGAAGAAACACCACCCGATCAGCATCTATGACCAGTATAACCAGGCCATGCAGTTACTTTCCAAGAGTGCCCAGCGGAAGTTCAATATGATTTTTGTGATGGACTATCTGATTCCAATTGGTGAATATTTCAAGCAGCCGGCGGTTAACTTACGGGCAGACCTCTTACCGAAGGAAGCGGCAGAACTCTTCTTGGCCAGCCTGACGCCAGTCTTTGGTACCTACCAGGTGATCGGTGGTCAGGCCATCACCAACGACCAGCGCACTAAGCTGATCATTGACTGTATCGTTAACGGTTTGAAGCGGACACCCAAGGAAGAAATTATTCAATCCTTGACAAGTTAA
>SRR1151252_00882 ATP-dependent Clp protease ATP-binding protein
ATGGATAACATGTTTACACCTAGCGCTAAGCACGTTTTAGCAATTGCTCATGAACAAGCAAAATACTTCAAGCACCAGGCCATGGGAACGGAACACCTCCTGCTGGCCTTGTCGATGGATAAGGACGGGATTGCCAACAAGATCTTCGAGCAGTTCTCAATCACGAGTGATGATATTCGAGAAGAGATCGAGCGCCTGATCGGTTATGGAACGATGGATGACCTCGGGCCGGCAGACTATCTGCCGTACTCACCGAAGGCCAAGCAGGTTCTGTCATTAGCCGGGCGGGAGGCCCAACAGATGCATGCTCTGAAGATTGGTACCGAGCACCTGCTATTGGCTTTGATTGCTGATGAGGGAGTGCTTTCCTCCCGTATCTTGTACAGCCTTGATGTTCTGCCACGGCAGGTACGCAAGGTAACTCTACGGCGGCTTGGAATTTCTGAGAGCCAGGTTCGCCGTCAGGCCGGTCAGAAGGGGAATGCTAAAACCCAGTCGGCCGGGACGCCAACCCTTGATAAGCTGGCCCGTGACATGACCCAGCTAGCTCGGACCAAGCGACTCGATCCGGTGGTCGGCCGGGATAAGGAGATCAAGCGGGTCGTCCAAATCCTGAGTCGGCGGACGAAGAATAATCCCGTATTGATTGGTGAACCCGGTGTCGGAAAGACGGCAATCGTCGAGGGCCTGGCCCAACGGATGGTTGCCGGGACCGTTCCTGAGGAATTGGCCAACAAGCGGCTGATGGTCCTTGATATGGGCTCACTGGTCGCTGGCACCAAGTATCGTGGTGAGTTTGAGAACCGTTTAAAGAAGGTCATCGAGGAGATTCAAAATGATGGGCACGTCATCCTTTTCATTGATGAGCTTCATACCTTGATCGGAGCCGGCGGGGCAGAGGGGGCCATTGATGCCTCCAACATCCTGAAACCGGCCCTGGCCCGTGGTGAACTACAGACAATCGGGGCCACCACCCTGGATGAGTACCAGAAGTACATCGAATCCGATGCGGCCTTAGAGCGTCGTTTTGCGACTGTCCAGGTGGACGAGCCAACGCCCGAAGCAACCCTCCATATCCTAAAGGGCTTGCGGCCGAAGTATGAAGAACACCACCACGCCAAGATCACTGACGACGCCCTGGAGCAGGCGGCTAAGCTTTCTGACCGTTATATCAGTGATCGCTTCCTGCCCGACAAGGCCATTGACCTGATGGATGAGTCGGCAGCGATGGTTCGGATCAACGCTGAAGAGAAGCGCGATCGACAGCCATCTTTGCAGAGCAAGCTTGATGACCTGCGCTCGGCCAAGGAAGCGGCGATTGAGAACCAGAACTTTGACCGGGCTGCCCAGCTCCGCCAGGACGAGCTGACCCTGAAAGCCGAGCTGGACCGCCAGCAGAAGAAGTTAGCATCACAAACGAGCGCCAAGGGCAGTTACCGCCTGAAGGTTACGGGTGAAGATGTCGCCAAGGTGGTGGCCGAATGGACCGGGGTACCGCTGACCCAGCTGAAGAAGAGTGAAAGTGAACGCTTGGTCAATCTCGAGCGGGTTCTCCATCAGCGGGTGATTGGCCAGGAGGAGGCCGTCAGTGCCGTTGCTAAGGCCATCCGGCGAGCGCGCAGCGGGCTCAAAGACCCGAACCGGCCGATCGGTTCCTTCATGTTCCTTGGGCCAACTGGGGTCGGAAAGACCGAGCTGGCCAAGGCTTTAGCCGAGGCAATGTTTGGTTCTGAGGACAATATGATCCGGATCGACATGTCCGAATACATGGAGAAGTACAGCACCAGCCGGCTGATTGGGGCTGCTCCGGGCTATGTCGGATACGACGAGGGGGGCCAATTAACCGAGAAGGTTCGCCAACACCCGTACTCGGTTGTCCTGCTGGATGAGGCCGAGAAGGCCCACCCGGACGTCTTCAACCTCCTCCTTCAGGTGCTGGATGACGGTTACCTGACCGATGCCAAGGGTCGTAAGGTTGACTTTAGAAATACGATCATTATTATGACCTCTAACCTGGGGGCTACCCAACTTCAGGACGAGAAGGAGGTCGGCTTTGGTGCTAAGGACCTGAGTCACGATTACAACGCCATGTCGGCGGCTATCAGGCAACAGTTGAAGTTGCACTTCCGTCCGGAATTTCTCAACCGGATCGACGAGGCGATTATTTTCCACTCCCTGAACAAGAAGGAGCTGCACCAGATTGTCAAACTAATGGCTGGCGACCTGAGCGCCCGGATCGCGGAGCAGGGGATCAATCTTAAGATCACCCCGGCTGCGATTGACGAAATTGCCAAGATCGGGTACAATCCGGCTTATGGGGCCCGGCCACTGCGGCGGGCGCTTCAGGACCATGTTGAGGACAGTCTTAGTACGGCCCTGCTGGATGGCCAGATCAAGGTGGGCGATGACGTTACGATTGGCGCCCATCGTGGCCAACTGACAATGAAAATTAGGAATGCTAACACGACCAAGCCCGTCTTGGTCAAGATGAATAAGTGA
>SRR1151252_00883 transcriptional regulator CtsR
ATGGAAAACCGAAGTATTTCGGATATAATTGAAGCATATCTTAAAGAGGTCTTTGGCGACGACACTCAGATAGAGATCCGTCGTTCTGAAATTGCTGATCATTTTAACGTTGTTCCATCACAAATTAACTATGTAATCAAGACCCGGTTTACCATTCAGAATGGCTACCTTGTGCAGAGCAAGCGGGGTGGCGGTGGTTATATCCGGATTGAGCGGGTTAATTTACTTGGTGATGTGGATGTGCTAAACTCACTGGTCCAGGCAATTGGCAACACAATTCGTGAACGGGACGCATTTGCAATAATTCAAACGCTCTATAATGAAAAGGTGATTTCACAGCGTGAGGGTGATCTAATGCTGATGGCACTGTCGAAGCAGACCTTAGCAGTTGATGATACCAATATGGTGAACAAGCTTCGTGCACGGATTTTAGTTTCATTTCTTAATCGCTTACGGTATGAAAGTTAG
>SRR1151252_00884 alcohol dehydrogenase
ATGAAAGCTGCTGTTATCAATGATCCAGTAGATGGATACGTTACTATTAAGGATGTTAAGCTTCGTGACCTCAAGCCAGGCGAAGCTTTAGTTGACATGGAATACTGTGGTCTTTGCCACACCGACCTTCACTGTGCCGCCGGTGACTTCGGTAAGAAGCCTGGTCGGATTATCGGTCATGAAGGTGTTGGCCGTGTATCCAAGGTTGCCCCTGGTGTTACCTCACTGAAGGTTGGGGACCGGGTATCAATCGCTTGGTTCTTCAAGGGCTGTGGCCACTGTGAATACTGCCTGACCGGTCGTGAAACCCTTTGTCGGAACGTCCTGAATGCCGGTTACACTGCTGATGGTGCTATGGCACAACAATGTATCGTTCCAGCCGACTACGCTGTTAAGGTTCCAGAAGGCCTGGACCCAGTAGAAGCAACTTCACTGACCTGTGCCGGTGTTACGATGTACAAGGCACTGAAGGTTGCCGACATTAAGCCTGGCCAATGGGTATCAATCGTCGGTGCCGGTGGTCTTGGTAACCTCGGTATCCAATTTGCTCACAACGTCTTTGGTGCTCACGTTATCGCCGTTGATGGTAACGAAGATAAGCTGAAGGCTGCTAAGGAAAACGGTGCTGAAATTTGCATCAACCGTCATGATAACAACGTTGATGAACAGATCCAGGAAAAGGTTGGCGGTGTTCACGCTGCAGTTGTTACGGCTGTTACGACCGCTGCCTTTGACCAAGCCGTTAACTCCCTTCGCCCAGATGGCCGCTTAGTTGCCGTTGCCCTCCCACAGGGTGACATGAAGCTGAACATCGCCAAGACGGTTCTTGATGGGATTATCGTTGCTGGTTCCCTGGTTGGTACTCGTCAAGACCTGGCAGAATGTTTCCAATTCGGTGCTGAAGGTAAGGTTCACCCAATCGTTCACACTCGTAAGTTTTCTGAAATCAATGACATGATCCAAGAACTTAAGGATAACAAGGTTGTTGGTCGGAACGTCGTTGACTTCAGCCTCGAAGACTAA
>SRR1151252_00885 pyrroline-5-carboxylate reductase
ATGAAGATTACAGTTGTGGGCGTCGGCAGCATGGGCGGCGCCATCGTCAAGGGACTTATCAACAGTGGCGTCGATGAGGTCAGCGGCCTCAATCCGACCAACCCCCGGGTCAGCAAGCTGGCCGACCAACTTGGCTTCCAGCTCTTTACCACGGCCAGTGAGGTTATCGAATACCGGCCTGACGTGGTTATCCTGACCACCCCGGCCAACATCACGGTCGCCGTGGCCAAGGAACTCGACGGTCTACCGGGCAGCACCGTCATCATCTCGGCGGCAGCCGGGGTTCGCCAGCACGATCTGCAGGAGGCACTGCCGAATAACACGATTGCCACAATGATTCCAAACACCCCGGTGGCAGTCAACGCCGGCACCATCGGTCTGGCCCTTCCTGCTCTGGATAGCAAGGATAACAGTGCTAACATTACCCACGTCTTAAATCAACTTGGCGACGTCATCCTGGTCACCGAAGACAAGCTCGACATCGTGGGCGTCGTCGGTGGCTGTGGTCCCGCCTTCGTCGACGTCTTCATGGACGCCATGAGCGATGCCGCGGTCAAGCACGGGTTGGATCGGCGAACCGCCTACGAATTAATTGCCAGCATGGTCAAGGGCACCGGCGCCCTCGCCTACGACACCGGAAAGAGTCCGGCCGCACTACGCGACGAGGTGACCTCCCCAGCCGGCACGACGATCAAGGGGGTCGAGGCCCTGGAAAAGCACGGTTTCCGTTTCGGCGTGATCGACGCGGTCAACAAGGCTAACGGTGAAAATTAG
>SRR1151252_00886 gamma-glutamyl phosphate reductase
ATGAACGAAACACTCATTGAGATCGGCCAGCGTGCCCAAACGGCCGCTGACCAGGTAGCCCTGCTCGACACCGCAACAAAGAATCGGGCCCTGGGCGCCATGACCGATGCCCTGCGGACCCACCAGAATGAAATTATCACCGCCAACCAAGCGGACCTTGCTCAGGCCACCGATATGCCCAAGAAATTCACCGACCGACTAATGGTCAACGAACAGCGGGTCGCTGACATGGCCAATGGGCTGCGGACCGTCGCCCGGCTTGCCGATCCAACCGCCCGGATCGACCGGGGCTGGATTAACGCTGATGGACTGCAGATCCTCCAACGGCGGGTCCCCCTCGGCGTCATCGGCATCATCTTCGAGGCCCGGCCAAACGTCACCGTTGACGCCACTGGGCTGACCTTCAAGAGCGGGAACGCGGTCATCCTCCGTGGGGGAAAGGAGGCTATCCGGACCAACACCGCTTTAGCCAATATCCTACGGGCTGCTCTGGAGAAGCAGGGACTGCCAGCCGATGCGGTCCAGCTGATTGAAGATACCAGCCACGAGCTGGCTCAGGAGATGATGAACCTGACCGACTACATCGACGTCCTCATCCCCCGCGGTGGTCGGGGACTGATCCAGCGGGTCGTCAAAACGGCCACCGTCCCCGTCATCGAAACCGGGGCCGGCAACTGCCACGTCTATATTGACAAAGACGCCGCCCTACAGATGGCTACTGATATCACCGTCAACGCTAAGGTCCAACGGCCGTCCGTCTGCAACGCCGCCGAGAAGCTTCTGATCCACCGGGACGTGGCGGCTAAGTTCCTGCCGACGATCGCTCAGGCCCTGCTCGACCACGGTGTTCAGCTCCGTGGTGATGACCAAGCCCGGGTCATCGTCCCTCAGATGCAGGCCGCTAGTAACGCGGACTGGGACACCGAATACAACGACCTGGTCATGGCCGTTAAGGTGGTTGATTCCTTAGATGATGCCATCCAGCACATCAACCATCACAGTACCCACCACTCCGAGGTTATCGTCACTGACAGCATTGAGCGCGGTCGAGCCTTCCAGCAGCGGATCAACTCCGCCTGTGTCTACGTCAACGCCTCAACCCGGTTTACGGATGGTGGGGTCTTCGGCTTCGGTGCCGAAATCGGCATCAGTACCCAGAAGCTCCACGCCCGCGGGCCGATGGGACTGGACCAGCTGACAACCATCAAGTACGAGATCACCGGTAGCGGCCAGGTGCGGCACTAG
>SRR1151252_00887 glutamate 5-kinase
ATGGCAGCAAAGAAGCAACGAATCGTCGTCAAGGTGGGAACCAGTAGTCTGATTCTTCCCAATGGGCAGACAAACCTACACGCAATCGATGGGCTGGCGTTCACCCTTGCTACCCTCAACCACCAGGACTACGAAATGGTCCTTGTCTCGTCTGGGGCCATCGGGGTCGGTCTGGCGAGCCTGGGTCTAAAAGACCGACCACATGAAATTGCCAAGCAGCAGGCCTTGGCCACCATCGGGCAGACCGAGCTGATGCGGATCTATTCGCAACGTTTTCTCGACTACCAGACCAAGGTCGGTCAACTCCTCTTAACCCGGGACGTCCTTCACTTCCCGGTCAGCCGCCAGCACGTCCTCAACACCATCTCGACCCTGCTGGCAGACGGGGTTGTCCCAATCATCAACGAGAACGACCCCGTCTCCGTCGACGAGCTGGACCACCACACCACCTTCAGTGATAATGATGAGCTCTCCGCCCTGGTGGCCACCCGGATCCATGCCGACCTGCTGGTGGTCCTCTCCGACATTGACGCCTTCTACAACAAGGATCCCCACAAATACTCCGATGCCCAGCCGATTCGCCGGGTCGCCGAAATGACACCGGAACTGGCGGCCGCAGCCAGCGGATCCAGTACCCGCTTCGGTACCGGGGGAATGGTCACCAAGCTCCACGCTGCCGCCACCATAATGAAGGCCCACCAGCGGATGATTCTCTGCAACGGTGCCGACCCGAAGATTGTCTTCAGGATCGTTAACGGCGATGAAGTCGGCACCCAATTTGGTAAGTAA
>SRR1151252_00888 ATPase component of ABC transporter with duplicated ATPase domains
ATGATACTTTTACAAACTAACGACGTCATGCGCCGCTTTGGTGCCGATGTCTTATTTCACAATATCAATCTCCAAGTCCAGGATCACGGTCGGACAGCCCTTGTCGGCCGCAACGGTACCGGCAAGACGACCCTCTTGAAGATGATTGCCGGGATCACCCAACCGGACGAGGGAACGATCAGCAAGGTCAAGGACCTAACAATCGGTTACCTGGCCCAGGACCAGGGGCTCGATAGTCAGAACAATATTTGGGCCGAGCTCGACCTGGTCTTCACTCCCCTCCACGAGATGGAAAAGGAAATCCACCAGCTGGAGGGCCAGTTGGCAGACCTTGATCCAAATAGCGACCAGTACCAGCAAGTGCTTAACAAGTACGACCGCCTCCAGGGGGAATACAAGAAACAAGGTGGCTTTGAGTATGAGTCCCGGATGCGGGGGATCCTGCACGGTTTCGGCTTCGGTGAGGAGTACTACGACACCCCCGTCGACGCCCTCTCCGGTGGTCAGAAGACCAAGCTGGCCCTGGCCAAGATCCTCCTTCAGGAACCCAACCTCCTGATCTTGGACGAGCCCACCAACCACCTCGACATGAACGTTCTAGCCTGGCTGGAGGACTACCTCAAGAGTTACCGTGGCGCCCTGCTCGTCGTCTCCCACGACCGCTACTTTCTCGACCACGTTGTCAAGGACGTCTACGACCTTGACAACCGGACCCTAACCCACTACACGGGTAATTATACCCAGTTCGTCGCCCACAAGCAGGAACGGCTCAAGGCGGAATGGAAGCACTACGACCAACAACAGAAGAAGATCGCCAAACTGGAGGATTTTGTCAACCGTAACATTGTCCGGGCCTCAACCACCAAGCGGGCCCAGGCACGGCGAAAACAGCTGGAGAAAATGGATCGCCTGGAGCAGCCCGAAACCGACGACCGGTCAATCCACTTCCAATTCCATAGCAACCAGGATAGCGGGACCGAGGTTCTTGACGTTGAGAACGCCAAGGTCGGCTACAACGACCAGGTGCTGGCCGGCCCCCTCTCCTTTACAGTGCGCAAGCCACAGCGAATCGGGATTATTGGGCCAAACGGGATCGGTAAGTCAACCCTCCTGAAGTCACTGCTCCATCAGATTCCCTTGGTCAGCGGAACGGCCAGGTTCGGGGCCAACCTTGAGATCGGTTACTACGACCAGGAGCAGCAACAACTCCATCCCGAGAAGACCGTACTTGATGAGGTCTGGGACGACCACCCCGAGGTTCCCGAGAAGGACATCCGCTCCCTGTTGGGCAGTTTTCTCTTCGTCGGTGATGACGTCTACAAGCCGGTTCACGATCTTTCCGGTGGTGAGAAGGCCCGCTTGGAGCTGACCAAGCTCTCCTTTAAGCCGATCAACTTTCTAATCCTTGATGAACCGACCAACCACCTAGATATCGACAGTCGGGAGGTCCTGGAAAACGCCATCAATGAGTTCTCCGGAACGGTCCTCTTCGTCTCCCACGACCGCTACTTCATCAACCAGGTAGCCACCGACATCCTCGACATGCATAAGGATGGGATCACCCACTACGAGGGTGATTACGACGACTTCCGAGCCGAACAGGCCAAGCAGCAGGCCTCAACTACGACAACCGGCACGACCAGCCAGGCGCCAAATATCTCCACGGGTAAGCAATCCTACCAGCAGAGTAAAGAACAGCAGAAGGCCCGCCGTAAGCTCCAACGCCAGGTTGATAAGCTAGAGGCCGAGATGGGCGAGCTGGAGAAACGGCAGGCCCAGCTCCAGGAAAAGATGAGTCAGCCGGAGATCGCCACTGATATCAGCAAGCTGACCGACCTGCAAAAGGAACTTGATGCCGCCCAGGAGAAGGTCGACGAGGTTGAACTAGCCTGGACGACAGCCGCCGAGAAGTTGGAGGAGTTTGACCAGCAAGACTGA
>SRR1151252_00889 redox-sensing transcriptional repressor Rex
ATGCCAAGCAAAAAGATTCCGCGAGCTACGGCCCGTCGTTTACCAATTTATTACCGTTACCTGACGGTGCTGCTGAGCGCTAACAAGCAACGAGTATCATCAACTGAATTATCCGAGGCCGTTCAGGTAGACTCAGCAACCATCCGGCGGGACTTCTCCTACTTCGGTGAGTTGGGGAAGCGGGGCTACGGCTATGACGTCGCCAATCTGCTGAAGTTCTTTAAGGGTATTCTGCACCAGGATTCCCTGGTCAGCGTGGCCCTGGTCGGGGTCGGGAGCCTGGGGAGCGCCTTGCTTAACTACAACTTCCACCAGGACACCAACCTGCGGATCAGTGCGGCCTTTGATACCAAGCCGGAATTTGCCAACACGGTTAAGAGCGGGATTCCAATCTACCCAGCCGAGGAGATGACGACCCAGCTCAAGGAGCAGCAGATCGACGTGGTCATCTTAGCGGTACCGGGCACTAAGGCCCAGAAGGTTACCGACCAGTTAGTTGAGGCGGGTGTGAAGGGAATCCTAAACTTCACCCCGGTCCGCCTGTCCGTACCTAAGGATGTTCAGGTCCAAAACATTGACCTGACCAACGAACTGCAAACCCTGATCTACTTTATCAAGAACTATTCGGAAGACAATAAGTAA
>SRR1151252_00890 co-chaperonin GroES
GTGTTAAAACCATTAGGAGATCGCGTTGTTCTTAAAGCTGAAACTGAAGAAGAAAAGACGGTTGGTGGAATTGTCCTTGCTTCCAATGTAAAGGAAAAGCCAACTACTGGAAGGGTTATTGCCGTTGGTGAAGGTCGGACCTTAGACAACGGACAAAAGCTCACTCCAGCTGTTAAGGAAGGTGACCGGGTTCTGTTTGATAAGTACGCCGGTAACGAAGTGGAATACAACGGGGAGAAGTACCTGGTTGTCCACGAAAAGGATTTAGTTGCGGTAATTGACTAA
>SRR1151252_00891 chaperonin GroEL
ATGGCAAAGGAAATTAAGTTTTCTGAAGATGCACGAAACGAAATGCTCCACGGTGTTGATAAGTTAGCTAACACGGTTAAGACCACGATGGGTCCTAAGGGTCGTAACGTTGTCCTCGAACAAAGCTACGGCAACCCAACCATCACGAACGATGGGGTAACGATTGCCAAGAGCATTGAACTGGAAAACCACTTCGAAAACATGGGTGCTAAGCTGGTTTCCGAAGTTGCTTCCAAGACCAACGACATCGCCGGTGACGGGACCACGACCGCTACGGTTCTGACCCAAGCAATCGTCAACGCCGGGATGAAGAACGTCACGGCCGGTGCTAACCCAGTTGGTATCCGTCGGGGGATTGACAAGGCAACTCGGGTCGCTGTTGAAGAACTGAAGAAGATGTCACACGACGTTAAGACCAAGGATGACATCGCTCAAATTGCCTCCATTTCCGCGGACAACAAAGAAGTTGGTAAGTTGATCGCCGACGCCATGGAAAAGGTTGGTAACGACGGGGTAATCACCCTGGAAGACTCCCGTGGTGTGGACACCAGCGTGGACGTTGTTGAAGGGATGAGCTTCGATCGTGGTTACATGTCACAATACATGGTAACCGATAACGACAAGATGGAAGCCGACCTCGACAACCCATACATCCTGATCACAGACAAGAAGATCAGTAACATCCAAGACATCTTGCCATTGCTGCAAAGTGTTGTTCAGGAAGGCCGGGCACTGTTGATTATCGCCGATGACATTACCGGCGAAGCTCTGCCAACCCTTGTATTGAACAAGATCCGTGGTACCTTCAACGTGGTTGCTGTTAAGGCTCCTGGCTTCGGTGACCGGCGGAAGGCTCAACTCCAAGATATCGCCGTATTGACTGGTGGTACCGTCATTTCCGATGACCTGGGTATGAACCTGAAGGACGCTACGGTTGAACAGCTTGGCCAAGCCAACAAGGTTACGGTTACTAAGGACGCCACGACCATCGTTGACGGTGCTGGTGCCAAGGAAGCCATCGCTGAACGGGTTGACCAAATCAAGCAGGCCATCTCCAAGGCAACCTCTGACTTCGATAAGGAGAAGCTCCAAGAACGCCTGGCTAAGCTCTCCGGTGGTGTTGCCGTTGTTCGGGTCGGTGCTGCAACCGAAACTGAAATGAAGGAAAAGAAGTACCGCATCGAGGATGCCCTGAACGCAACTCGGGCCGCTGTTCAAGAAGGATTTGTACCTGGTGGTGGTACGGCCCTGATCAACGTTTTGCCTGCCCTGGACAAGGTTGAAGCTGACGGCGACGAAGCAACTGGTGTCAACATCGTCAAGGACGCTCTGGAAGCACCAGTTCGTCAAATCGCTGAAAATGCCGGTGTTGAGGGTTCCGTTATTGTTAACCAATTGAAGAGCGAAAAGCCTGGCATTGGTTACAACGCTGCTGACGGTAAGTTCGAAGACATGGTTAAGGCTGGGATTGTTGACCCAACCAAGGTTACCCGTTCTGCTCTGCAAAACGCGGCCTCCGTATCAGCACTCCTGTTGACTACTGAAGCCGTTGTTGCTGACAAGCCAGACGACAGTAAGAACAATGCTCCTGCTGCTCCGCAAGGCGGCGCTGGCATGGGTGGGATGATGTAA
>SRR1151252_00892 amino acid permease
ATGAAAAAACTAAAAGTACAGAAGATAAGTCTTTTTTCGGGAATCATGTTGGCCCTAAATTCCCTGATTGGGTCAGGGTGGCTGTTTGGGGCCGGGACCGCCGCCAGGGTGGCCGGTCCGGCTGCCATCATCTCCTGGGTCCTTGGGGCGGTGATTATCATCAGCATTGCTCTAACCTATGTTGAACTAGGGGCGATGTTCCCTGAGAGTGGGGGGATGAGCCGCTACGCTCAGTACAGTCACGGTCAGTTGCTTGGCTTCATTGCGGCCTGGGCTAACTGGATCTCCCTAATCACCCTGGTACCAATGGAGGCCGTGGCCTCGGTCCAGTACATGAGTTCTTGGCCCTGGTCCTGGGCCAACTGGACCCACCACTTTATGAAGAATGGCAATATCACTGGTGCGGGCATGTGGGTAGTAATTCTCTTCATGCTGGTCTTCACCCTGATTAACTTCTGGTCGGTCAAGCTGATGACGCGGTTTACCAACCTGATTTCAGTCTTCAAGATTGTCTTGCCATCACTAACCATCCTCATGCTGGTCGTTGCCGGCTTTCATCCGGCCAACTTCGGCCACAGTGTCGGGACCTTCATGCCGTACGGGAGCCGGTCGATCTTTGAGGCGGCGGCAGTCTCGGGGATCATCATGTCTTACGATGCCTTTCAGACGATCATCAATATGGGTGGTGAAATGGTCAACCCCCACAAAAATATCGTTCGGGGAGTCCTGATTTCGATGATCATTACCGCGGTGATCTACATCATGCTCCAGGTGGCCTTCATCGGGGCGATTGACCCAGCAATGCTGGCCAAGGGGGGCTGGCACGGGATCAACTTCACCTCACCGTTTGCCGACATCGCCATCCTCCTCGGGATGAACTGGCTGGCCATCCTCCTCTACATGGACGCCTTTGTGTCACCATTTGGGACCGGGGTGGCCTTCGTGGCGACGGCCTCCCGGGCCCTGGCAGCGATGACCCATACCAAGCACCTGCCCCAGTGGCTGGGGCGGTTGGCCCGGCGGTACATGATTCCGCGTTTTGCCATGGTAGCGGATTTTGTTCTGGCGGTCATCCTGGTCAATACCTTCCGAAACTGGAGCTTGTTGGCGACGGTTATCACCGGCTCGACGCTGATTGCCTACCTGACCGGGCCGGTGACCGTGATGGCCCTGCGCAAGATGCGCCCCGACCTGAAGCGGCCCTTTGCTCCTAAGTACATGTCCTGGCTGGCTCCAGTAGCCTTTGTCCTGGCCAGCCTGGCGATCTACTGGACGATGTGGCCAACGACGATCCAGGTCATCCTGGTGATTACCCTGGGGTTGCCAATTTACCTCTACTATGAGTTTCGTTATCACCACACGGCCTGGGGGATTCAGCTGAAGAGCAGTGCCTGGCTGTTGTGCTACCTGATTTTTATTTCAATTATGTCCTATGCTGGCAGTGAGGGCTTTGGCGGTCAGGACTGGGTCAAGTACCCGTGGGACTTTGTCGTCATCATCGTCGTCTCCCTGCTTTTCTACTGGTGGGGGACACATAGTCACCTGCCGGAAGTTGACCACGTTGCCGAAGAGGTTAACCAGCGGGTCAAACTTTAG
>SRR1151252_00893 amino acid permease
ATGTGGCGTTATCTTAAACGCGTGTTAATTGGAAAACCATTGAAAACCCTCGATGAAGGGCAAACCCACTTGACCAAGTTTAAAGCCCTAGCAATGCTGTCGTCGGATGCTATTTCGTCAGTTGCCTATGGTCCAGAGCAGATCACCACGGTGCTGGTCACCCTGTCAGCAGCGGTAATCTGGTACTCAATCCCGATCGCGGCGATTGTTCTGATTCTGCTGCTAGCCATTACCCTGTCCTACCAACAGATTATCCATGCTTACCCAAGCGGTGGGGGCGCCTATGTGGTGGCCACCCGAAACTGGGGTAGTAACGGGGGACTATTCGCCGGGGGATCACTCCTGGTCGACTATATGCTGACCGTAGCGGTTTCTACCACCTCCGGGACCGAAGCCATTGCCTCGGCCATCCCGGCCCTTTATCACTACTCGGTGCCGATCTCGATCATCATTGTCCTCCTGATCATGTTCATGAACTTGCGGGGGATGAGCGAGAGCGCCAACTTCCTGACCGTACCGGTTTACTTCTTCGTCCTGATGACGATGGTTATGATCATTTGGGGTGGTTACAACATCATTAGCGGGCAGATTCACTACCACGCGGTTGCTGACTACGGAACCCCGGTGGCCGGGATGTCGTTTGTCCTGTTCATCCGGGCGTTCTCGGCTGGTTCATCCTCATTGACCGGGGTGGAAGCCGTAAGTAACGCGGTGCCAAACTTCAACAAGCCTAAGGAGAAGAACGCGGCGACGACCCTGGCGATCATGAGTGCCATCCTGGCCTTCTTCTTCATCGCCATCATCTTCTTCAGCTTCTACCTGGGCGTTGTTCCGAACTCACGAACTACGATCATGTCACAGATGGCGGCCCAGATCTTCGGCGGTCACGGCATTGGCTTCTACCTGCTGCAGCTGTCGACAGCCATGATCCTGGCTGTTGCGGCCAATACCGGGTTCTCGGCCTTCCCAATCCTGGCCTTCAACATGGCTAAGGATAAGTACATGCCACACGCCTTCATGGACCGTGGGGACCGGCTGGGCTACTCTAATGGGATTATCTCCCTGGCGATCGGGGCGATCATCCTGATTCTGATCTTCCATGGTCAGACCAACATGCTGATCCCGCTGTATGCGGTTGGGGTCTTCGTGCCGTTTACCCTGTCCCAATCCGGAATGATTATCCACTGGTTCCGTGAACGTCAGGGTTGGTGGGTTGCTAAGGCTTGCATCAACTTTGTGGGGGCCCTGATCTCCTTCATCCTGGTGGTCTGCCTCTTTTGGCAGCACTTCAGCAATGTTTGGCCATACCTGATCATCATGCCGCTCCTGCTCTACATGTTCCACGCCGTCCACTCCCACTACGCTAAGGTGGCGGCCCAGCTGCGGGTAGCAGAGAAAACCAAGGTTCAGCTCCATGACTACGACGGTTCCACCGTCATCGTCCTGGTGGGGAACGTGACCCGGGTTACCCGGGGAGCGATCAACTATGCCCGTTCGATTGGGGATTACGTCATCGCAATGCACGTATCGTTTGATGAAAACCCCGGCAAGGAGCACAAGACGGCCAACGAGTTCAAGGCGGAGTACCCGGATGTCCGCTTCGTCGACATCCACTCCTCCTACCGTTCAATCGCCAAGCCAACCTTACGTTTTGTTGACGTGATTGCCAAGCGGGCGGAGGCCCGGAACTACTCGACTACCGTCCTGGTTCCCCAGTTCATTCCGAAGCACCCGTGGCAGCTGGCCCTGCACAACCAGACCAGTGTCCGCCTGCGGGCCGTATTAAACTCCCGGGAGAACATCATCGTGGCCAGTTACAACTACCACCTGCATGAATAA
>SRR1151252_00894 hypothetical protein
ATGAATAAGAAACAGCTATTGTTCGGCCTGCTCTTTGGACTGGGCCTCTTCTTTACCGCCAGTTATTCCATTGACAACCGGGGCTTTCACTCGGGAATATATGGAGTGATTGGCTGCCTGTTGATGCTAAGTGCCTATTGTGGCTTCAACTGGGATAAACTAAAAGCCCATGATCACCATACACGGCTGATCCTGGGCTGGATAACTGGGATTACGATTTTAATTGTTATTTTGGACATTGCAGAAGCCGTTCTGGCCTAG
>SRR1151252_00895 YigZ family protein
ATGTCAGAACCATTCATCACGATCGCCCAAAATACCAGCTTCACGATGGTTATCAAAAAGTCCCGTTTCATCTGCTCACTCGGTCGAGCAGAGAATGAAGCGGACGCCCAAGCCTTCATTGACGAGGTCCAGGCAGCGAACCGCAAGGCCACCCACAATTGTTTTGCCTACATGATCGGTGACCACGATCAGGTTCAGCGGGAGAGTGATAACGGCGAACCCAGTGGGACGGCCGGAGTTCCCATTCTGGAATCCCTTCAGCTGGCCAAGCTCCATAACGTCGTGGCTGTGGTGACCCGGTACTTCGGCGGTATCAAGCTCGGCGCGGGCGGGCTGATTCGGGCGTATAGCAACGTCACCACCAATGCCATCCGCCAGGCCGGTCTCGTCCAGCGAGTAGTCCAGACTGGTGTCGACATCACCGTCAGTTACGCTCAGCACGACCAGCTTTTGTACTTTCTCAAGGAGCAACAGGTGGCTGTGGTCAACGATGCGTACGGGGTTGATGTGACGGTCACCGTCTTTGTCAACCAGGAGGCTTGTGACGACCTAATTGCCCAACTCACTACTCGTTTCAATGACCAGCTCCAAATAAAAAAGGGCCAGCCCCGTAACCACGAGGTGCCCTATCAGCCGGCCTAG
>SRR1151252_00896 competence protein ComFA
ATGGAACTGCATGGCCAGCGGGTGCACTGCCTGCGTTGCGGTCAAGAGACTGACTGGCGGCTGGCCGCCTTACCCAACGGGGAATACTATTGCCCTCGCTGTATCAACCTGGGCCGGGTGGCGACGCTAAATAAATTTTATCATGTTCCCGAGCCAAATCAATTTACGGTCCACCAGCCTGTCTTGACCTGGTCCGGACAGCTGTCACCCTTGCAGGAGGATGCCGCCACCACGGTCGATCAAGGGCTGGCCGCTCATCGGCACCAGCTCCTGTGGGCAGTGACCGGGGCCGGGAAGACGGAGATGATGTTTCATGGGATTGCTCACGCCCTGGAGCGGGGGGAGCGACTAGCGGTGGCCTCGCCCCGGGTAGATGTTTGCTTGGAGCTCTACCCACGTCTAGTAGCGGCTTTTCAGAACACGATAATGGTTCTACTCCATGGCCGTCAAGAGTTACCCTACCGCTACGCCCAGTTGACGGTCTGCACGACCCACCAGCTACTGCGCTTTTACCACGCCTTCGATAACCTGATTATCGACGAGGTGGACTCTTTTCCCTTTGCCGCCAATGACGCCCTGCTTTTCGCCAGTCAACAGGCAGTCAAGACAGACGGGGGGTGTCTGTACCTAACCGCCACCCCGGGGCCAACCCTCATGCGGCGAGTACGTCGTGGCGAGCTGGCAGTCAGTTACCTGCCGTTGCGTTATCATGGCCACCTATTACCGCGGATTCGGTTACAGCTGGCACCGGGCTGGCGCCGCGGCGTCCAGTGCGGGCACCTACCGACCAGCCTGGTTGCACGCCTGCGTCGGTCCCTCACTGCTGGTTACCGTTTCCTCCTATTCCTACCTCACGTGGCGGATCTCGGCACAATTGAGCCCCTCTTGCGGTTGGCTCTACCGGATCACAACTTCACTACGGTGCACGCCGCGGATCCACAACGGCTGACTAAGGTTCAGGCAATGCGGGACGGGCAGTATGACTTTCTGGTGACCACCACCATTATGGAACGAGGAGTGACCTTTCCAGAGATTGACGTGTTTGTTCTGGGGGCTGATGATCCGGTCTTCTCCAGTTCGGCCCTGGTCCAGATTGCCGGCCGGGCCGGACGGTCGGTTAGTCGGCCGACGGGGACGGTCTACTTCTGGATTGCGAGCCAGTGCCGGCGAGTACGGTCGGCAGTGCGTCAGGTGGACTTCATGAACCGGAAAGGCCGGGCCTTGCAGAAATGA
>SRR1151252_00897 competence protein ComFC
ATGAACTGCCTGCTCTGTAATGCCCGTCTTCCAATTCGGTTGACCTTGGCCGACTTAGTCATGCTGCGACCGCTGCCCCGGCTGACTCTTTGTAACCGCTGCCGAGCGAATTTTGCCCGGATTGATCCAGCCTACGCCTGTCCTGGTTGTGGACGGCCTCAGAAAGGCACCCGCCTCTGTGCGGAGTGTGTGGCCTGGCAACAGCATTGTGGTTGGCACCTCTCGCACCAGGCCCTTTACACCTATAACAATGCTATGAAGGAATACATGCACCGCTACAAGTTTGCGGGCGACTACCGGCTACGACTCGTCTTTCAAGCTGAGTTACAAGCACGGGTGCGTGAGCTGGCCGCGGATGTGGTGGTTCCAATCCCCGTAACCGAAACGACGATGGCCATCCGGGGGTTCAACCAGGTTTTGGGGTTGCTAGGGGAGACCTCCGTGGCTCCTGTCCTGCGTCACCGTGCCCGCGACAAGCTGGCGCAGTCGCACAAGACCCGCAAGGAACGTCTGCGGACACCCCAACCATTTGAGCTGGTCGACCCCACAATGGTTCGGGGAAAGCGGGTCTTATTGGTAGATGATATCTATACGACAGGTCGAACCCTTTACCACGCTGCCGACCTCATTAAAGGGGCGCAATGCCGTGAGCTGGTAAGCCTTTCACTTGCACGTTAA
>SRR1151252_00898 ribosomal subunit interface protein
ATGTTAAAGTTCAATATTCGTGGTGAAAACGTTGAAGTTACGGACTCAATTCGTGACTATGTAGTAAAGCGGATTAGCAAGCTTCAAAAGTTCTTTGAGGACAACGTTGAAGCAACCGCCCACGTGAACTTGAAGGTTTACCCAAACCGGACCTACAAGGTCGAAGTAACCATTCCGCTTCCGTACCTGACATTGCGGGCTGAAGAGACCTCTAACGACATGTACGGTAGTGTTGACCTGGTAACCGACAAGCTTGAACGTCAAATTCGGAAGTACAAGACTAAGATCAACCGGAAGTCACGCGAAAAGGGCTTCAAGAACTTAGAATTTGTACCAAGCGATGACGACTCAGCAAGTAGCGATGACTTGAAGATCGTTCGGACGAAGCAGGTTCCCCTGAAGCCGATGGATCCCGAGGAAGCGGTTCTGCAGATGGACATGCTGGGCCATGACTTCTTCGTCTTCCAAGATGCTGAGACCAACGGCACGAGCATTGTATACCGTCGTCGTGACGGTCGCTATGGCTTGATTGAAGCTGAATAA
>SRR1151252_00899 preprotein translocase subunit SecA
ATGGCCAACATTTTAAAGAAATGGATTGAAAGCGATCGTCGTGAACTACGGCGAATTAACAAGATCGCAAATAAAGTCGACAGTTATGCGAAACAGATGGCTGCACTGACCGACGAGCAGCTACAGGCAAAGACGCCAGAGTTCCGCCAGCGCTACCAAAAGGGCGAATCACTGGATGACATGTTGCCAGAGGCGTTTGCTGTTGCTCGGGAGGGGGCCAAGCGGGTCTTGGGCCTCTACCCATTCCACGTGCAGATCATGGGGGGCGTTGTGCTCCACGAAGGAAACATCGCTGAGATGAAGACCGGTGAAGGGAAGACCCTAACCGCCACAATGCCGGTATATCTGAATGCCCTGTCTGGCAAGGGTGTCCACGTTATCACGGTTAACGAGTACCTCTCCAAGCGTGACGCCACCGAGATGGGTCAGCTTTACAACTGGCTGGGTTGCAGCGTCGGCATTAATAATTCTGAGATGAGTCCCGACCAGAAGCGGGAAGCCTACAAGGCTGACATCATGTACTCCACCAACAGCGAGATCGGGTTCGATTACCTGCGTGACAACATGGCGGTCTACAAGGAAGATCAGGTTCAGCGGGGCCTGAACTACGCCATCGTCGACGAGGTGGACTCCATCCTGATTGATGAGGCCCGGACGCCACTGATCATCTCCGGACCGGGGACGGGGACCTCCAAGCTCTATAAGCAGACGGACCGTTTCGTCAAGCAATTGAAGAACGAGGTTGACTACAAGATTGACCTTGAGTCCAAGACGGTGGCCCTGACCGATGCCGGGATTCAAAAGGCAGAGAAGTACTTCAACCTAAAGAACCTCTACGATCCAGAGAATACGCCGCTGACCCACCACCTCGACCAGGCGCTGCGGGCTAACTACATCATGCATCTGGATAAGGATTACGTGGTTTCTGACGGCGAAGTTCTGATTGTTGACTCCTTCACCGGTCGGGTGATGCAGGGACGGCGGTTCTCTGACGGTCTGCACCAGGCGATTGAGGCCAAGGAAGGTGTCGAGATTCAGGAAGAGAACAAGACGATGGCCAACATCACCTACCAAAACCTCTTCCGGATGTACAATAAGCTGGCTGGGATGACCGGAACCGCGAAGACGGAGCAAGAAGAGTTCCGTGAGATCTACAACATGGAGACGATTTCGATTCCAACCAACAAGCCGGTCATTCGTAAAGACGAGCCAGACCTGCTTTACCCAACCCTAGAGAGCAAGTTTGCGGCGGTGGTCAAGCGGATTAAGCGACTCCACGAGAAGGGCCAGCCGATCCTGGTCGGGACCGTGGCGGTGGAAACCTCGGAATACCTGTCCCACCTGTTGGATCAGGAACACATCCCGCACGTGGTCTTGAACGCTAAGAACCACGCCAAGGAGGCCGATATCATCAAAAATGCCGGTCAAAAGGGTGCCGTCACGATTGCCACCAACATGGCCGGACGGGGGACCGACATCAAGCTCGGCCCCGGCGTTCGGAAGCTCGGCGGCCTAGCCGTGATCGGGACCGAACGGCACGAGTCACGACGGATTGATAACCAGCTGCGTGGTCGTTCTGGCCGGCAGGGGGATCCGGGCTTGTCCCAGTTCTACCTGTCCCTGGAGGATGACCTGATGAAGCGGTTCGGTGGTGACCGGATCAAAAACTTCTTGCAACGGATGAAAGTGGATGATGAGGATGCCGTCATCAAGAGTCGTTTCCTGACTCGTCAGGTTGAATCAGCCCAGAAGCGGGTTGAGGGAAACAACTATGACTCCCGGAAGAACGTTCTCCAATACGATGATGTGATGCGTGAACAGCGTGAGATCATCTACAAGGAACGGCAGCAGATCATCACCGAGGACAAGTCATTGAAGTGGGTCCTGATGCCGATCTTCAAGCGGACCATCCAGCGTGAGGTTGAGCAACACACCCTCGGTGATAAGAAGGATTGGGACCTGAAGGGGATTGTTGACTTTGCCGAAGAGGTCCTGGTCAAGCCGGACACGGTTAAGGTTGATGACCTCAAGGGGAAGAGTCAGGACGAAATTGTCGACTACCTGATGTCTTTTGCCAAGGGTGTCTACAAGGATAAGCAGCGCCAACTCTATGATCCGGCTCAGATGCTGGAGTTTGAGAAGGTTGTTCTCCTGCGGGTGGTTGACTCCCACTGGACTGACCACATCGACGTGATGGACCAGTTCCGGCAGTCGGTTGGTCTGCGGGGTTACGGGCAGTTGAACCCGTTGGTTGAGTATCAGACAGCCGGCTACCACATGTTTGAGCAGATGGTTGCCGATATCGAATACGAGACAACCCGGCTCTTCATGAAGTCCGAGATTCGGCAAAACGTAACGCGCTAA
>SRR1151252_00900 peptide chain release factor 2
ATGGCTCAGCCCGACTTCTGGAACGACAACGAGGCTGCTCAAAAGGTCATCAACGCAAACAACGCCCTGAAAGAGAAACGGGACACCTTTGTCCAGTTGCGTGACCAGATCGCCAACCTACAGACGACGATTGAGCTGTTGGCAATGGGGCCTGACGCCGACCTCCAGAAGGAGCTGGACGATTCCTTTGGCAAGACCAAGCAAGCCCTAGAACAGTACCGACTCAACCAGCTCCTCGATGGTGAGTATGACGCCAAGAACGCCATCTTGGAAATCCACCCGGGTGCCGGGGGGACCGAGGCCCAGGACTGGGGTGCGATGCTCTTGCGGATGTACATTCGCTGGGGAGAACAGCACGGCTTCAATGTTAAAACCGCCAGCTACGATGCTGGTGATGAGGCCGGAATCAAGAGCGTGACCCTCCTGATCAAGGGACACAATGCCTTTGGCTACCTGCGCAGCGAGAAGGGGGTTCACCGGTTGGTCCGGATCTCACCGTTCGATGCGGCGGGGCGCCGGCACACCTCCTTTGCCTCAGTTGATGTGATGCCAGAACTGGACGAGAGTGTCAATATCGACATTGACCCGTCCGACCTGCGGGTTGACACTTTCCGGTCGAGCGGGGCCGGTGGTCAGCACATCAACAAGACGGAATCGGCCGTCCGTATTACCCACCTGCCAACCGGGATTGTCACCTCATCGCAGGCGGAACGTTCCCAATTGCAGAACCGGGTAACCGCGATGAATATGCTGAAGTCCAAGCTGTATGAATTAGAAGAGGAAAAGAAGGCCAAGAAACGGGCCGAGATCGAGGGGGAACAGCTGGATATCGGCTGGGGCTCCCAGATTCGTTCCTATGTTTTTCACCCCTACACCCTGGTCAAGGACAACCGGAGTGGTTACGAGACCCACAACGGGCAGGCCGTGATGGATGGGGACCTCGATCCCTTCATCAACGCCTACCTCCAGTGGAAGCTCAGTCAGAAGAATCCCCAATAA
>SRR1151252_00901 phage shock protein C
ATGCGTGAAAGTCGTCATCGCCGCCTGACCCGGTCCGCTGCCGACCGGATCCTCGGCGGGGTTCTCGGGGGCTTTGGCCAGTATTTCCATATTTCAGCTAACCTCCTGCGGATCATCTACGTTATTCTAACCATCATGACGGCGATCGTGCCGGGGGTAATCATTTACCTGATCCTGCTGATCATCATGCCACCGGACCCTGCTAATCCGGGGATCCTGGGAATGCTCCATACGCTAGGCGACCTGAGCAAGCAGGTCACCCGGGATAACCATTCACGGTCGCGCCGCCAGCTGACTGACGTGGAAGAAAAAGACATTAAAAGAAACGAGCGATCATAA
>SRR1151252_00902 membrane protein
ATGGGATTTTGGGAAAAAGTACTGATTGATACGATCTTGTTTATTGCCCTGGCGGGACTCTTTGCGGGTACGGGGATGTTTTACGTCAGCAGTGCCTGGATGGCGCTTCTGGCCAGCTTTGTATTGGCGATTCTCAACGTCCTGATTAAACCGATCCTGGTGATCCTGTCGCTACCGATCAACATTTTGACGCTGGGTCTATTCAGTATTGTGATCAACGGGGTGATGCTTGAGCTGACGTCCGTATTTGTTGGATCGACGCTCTTTCACTTTTCATCGTTCTGGAGCGCGATGTTGATTGCCATCATCATGTCGATCTGTAACACCCTGATCACCGATCATCAGGAAAATAGTTATTGA
>SRR1151252_00903 HPr kinase/phosphorylase
GTGCCAAACAGCGTTACGGTTCAGGAATTAGTTGAAAAGGTTCGGCTGAAGGTCCTCCAGGGTGAGGATTACCTTGACCGGCCGATTACCACCAGTGATATCTCACGACCGGCCCTGGAATTTGCCGGCTACTTTAAGCACTATCCGGCCCTGCGGATCCAACTGCTGGGGATTACGGAGACGTCATTTGCTAAGGACCTGACTCACGAGAAGATGGTCAAGTACATGACCAAGATGTGCACCCCCCAGACACCATGCTTCGTCATCTCGACCAACCTGCCGATTCCGGCAGAGCTGAAGGTGGCGGCCGAGGAGACCCACATCCCGATCCTGGGCACCCACCTGACCTCCTCACAGATCCTCAGTAACATGACTTCCTTTTTGCTGGGGCGGCTGGCTCCGCGGAAGTCACTTCACGGGGTTCAAGTTGACATTAATGGGGTTGGGGTCTTGATCACCGGTGATTCCGGGGTTGGGAAGAGTGAAACCGCCCTGGAACTGGTCCGGCGGGGACATCGCCTGGTTGCCGATGACCGGGTTGAGGTCTATGCGCGTGATGAACAGACCCTGATCGGTAGTGCCCCAGCTATTCTGGAGCACCTGATGGAGATTCGGGGGATCGGGATCATCGACGTTGCCACCCTGTACGGGACTGGGGCCGTCATGCCCAACGACAAGATCGACCTGATTGTCCACCTGGAGACCTGGACGCCGGATGCCAAGTTTGACCGTCTGGGTGACCGGGGTGATACTCAGACCATCCAGGGAGTCATCATCCCGAAGGTTTCCGTACCGGTTAAGATCGGGCGGAACTTGGCGATCATCATCGAATCGGCGGCGATGAACTACCGTGCCGAGACGATGGGCTATGATGCCACCGAGACCTTTGACCGTAACCTGAACAAGCTGATCAAGGAAAACTCCGCCCGTGACAGCAAGAAGAAGGATCAGCAGTAA
>SRR1151252_00904 diacylglyceryl transferase
ATGAGAACACCAATTATCGCCGCCCTCAATCCGATTGCCCTGCAGTTCGGTCCCTTCACCATCCACTGGTACGGGGTCATCATCGCGACCGGGGTGGTACTGGCCCTTTGGCTGGCCATCCGTGAGGGGAAGCACCAAGGGATCCCGGAGGACTACTTCTATGACTACCTCCTCTGGGCTCTGCCGGTAGCCATCGTGTGTGCCCGGATCTACTACGTTGTCTTCCAGTGGCCGTACTACGCGGTCCACCCGGGGGAGATCATTGCTATCTGGGACGGGGGGATTGCCATCTATGGGGCCATCCTCGGTGGCTTCCTGGTCCTTTGCCTGTTTTGCCGTGCTCGTCACCTATCGCTGTGGACGATGCTCGATGTGATCGCCCCAACCGTCATCCTTGCCCAGGGGATTGGCCGCTGGGGCAATTTCATGAATCAGGAGGCCTTCGGGGTAGTCACAACGAAAGCGGCCCTGTTGGCCCAACACATCCCGAACTGGATTGTTAATCAGATGGATATCGGTGGTCAGTACCGGGTACCAACCTTCCTGTATGAGTCACTCTGGGACCTCCTTGGCTTTGTCCTCCTGGTCCTCCTGCGTCACCGCCGCCGCCTCTTTCGACGCGGTGAGGTTTTTCTGGCCTACGTGATGTGGTACGCGTTTGGCCGCTTCTTCATTGAGGGGATGCGGACGGACAGCCTGATGATCGGGTCCGTGCTTCGGGTGTCACAACTGTTATCGTTGGTGTTCTTTGTTGGGGCACTAGTTGTTTTGCTTGTTCGTCGTTACCGGGGCAATGTCCCTTGGTATCAGCAATCAAAGTAA
>SRR1151252_00905 glycerol-3-phosphate dehydrogenase
ATGACGGAAAAAGTAGCAGTGTTGGGTGCCGGTTCTTGGGGCAGTGTCTTGGCTAACCTGTTGGTTGAGAATGGCCACACGGTTGAGTTATGGTCACGAGACCAGGAACAAGTTGACTGCTTAAACCAGGAACACGTCAACCCAGCCTACATGAAGAACTTCACCTATTCTAGTAAGCTCCACGCCACGACCGATATGAAGGCCGCGGTGAAGGGGGCCGACGTTATTTTGATTGTAATTCCAACCAAAGGGATCCGTCAGGTGGCCCGTAAGCTCAATGCCGTCCTGGCCGAACTCGACCAGCAATCCCTGATTGTGCATGCGACCAAGGGGCTGGAACAGAATACCTACAAGCGGCCGTCTGAGATGCTCAAGGAGGAAATTGATCCCAAGTACCGGCGCGATATCGTGGTGCTTTCCGGGCCGAGCCATGCCGAGTCCGTGGCCATCAAGGATATGACTGCGGTTACGGCCGCCTGCGCCAACCTGGCAGACGCCGAGAAGGTTCAGAAACTCTTCAGTAATTCCTACTTCCGGGTCTACACCAACGACGACGTGATTGGTGCCGAGTTTGGTGCCGCCCTGAAGAACATCATTGCCATCGGGGCTGGTGCCCTTCAGGGACTGGGCTACCATGACAATGCCCGGGCGGCCTTGATCACCCGGGGTCTGGCCGAGATCCGGCGGCTAGGCGTGGCCTTTGGTGCTAACCCGATGACCTTCATTGGCCTGTCTGGAGTTGGGGACCTGGTCGTCACGGCGACGAGTAAGAACTCGCGGAATTGGCGGGCCGGTTACCAGCTCGGTCAGGGTCAGCAGCTCGATGACGTCATCAACAACATGGGGATGGTGATCGAAGGGGTCTACACCACCAAGGCTGCTTACGAGCTCAGCAAGAAGCGCCAGGTCCCGATGCCAATCACCGATGCCCTTTACCGGGTCCTGTACGAGGGTGAGGATATCAAGACCGCGATTTCTCAACTGATGAGCCGAGATCTGACTTCCGAAATGGAATAA
>SRR1151252_00906 UTP--glucose-1-phosphate uridylyltransferase
ATGAAACGTGTTAGAAAGGCAATCATTCCAGCTGCCGGCTTAGGGACCCGTTTTCTCCCTGCCACGAAGGCATTAGCTAAGGAAATGCTGCCAATTGTAGATAAGCCAACGATCCAGTTTATCGTTGAGGAAGCGCGGAAGTCGGGAATCGAAGACATCGTCGTGGTCGATGGGAAGAACAAGCGTTCCATCGAAGACCACTTCGACTCCAACCCTGAATTGGAAGACAACCTGCGTTCCAAGCATAAGGACGAAATGCTGAAGCTGGTGGAGGATACCACTGACATCAACATCTACTTCATCCGCCAATCCCACCCACGTGGCCTCGGGGACGCTGTCTTGACGGCACGGGACTTCATCGGGGACGAACCATTCGTGGTTATGCTCGGTGATGACTTAAACAACATCAACAACAATGGTCAACCGCTGACTAAGCAACTGATCGAGAGCTACCAGCAGACCGGTGCTTCCACGCTGGCTGTAATGCGGGTTCCACACGAAGATACTGCCAAGTACGGGGTTATCAACCCAAGCAAGGAAGTTACACCAGGCCTCTACAACGTGACGAGCTTCGTCGAAAAGCCGGCCCCGAAGGATGCGCCAAGTGACCTGGCCATCATCGGCCGCTACGTCTTCACTCCAGAAATCTTTGATGTTCTGGCCAAGACGAAGCCGGGGAAGGGCAATGAAATCCAGCTGACCGACGCCATTGACACCTTGAACCAGACGCAACGGGTATTTGCGCGTGAATACAAGGGCGACCGTTACGACGTTGGTAACAAGTTTGGTTGGGTTAAGACCAACATCGAATATGGTCTGCAGCACCCACAAGTTAAGGATGAATTACGTGAATACATCAAAGAACTTGGTGCTAAGCTGACTGCCGAAGATAAGAAGGGCAGTAAGAAGTAA
>SRR1151252_00907 thioredoxin reductase
ATGGCAGAGACAAAGAACTATGACGTGGTTGTGATCGGGGCCGGTCCTGGTGGGATGACGACGGCCATGTATGCTTCCCGGGCCAACCTGTCCGTGGTGATGTTGGATCGGGGAATCTATGGTGGTAACCTGAATAACACGGCTTCAATTGAGAATTATACTGGCTTTAAGAGTGTTCAGGGACCTGAACTGGCCAAGCAGATGTACGACGGAGCCACCCAATTCGGTGCCGAGTACGCTTACGGAACAGTTACCAAGCTGGTTGACAAGGGGACGACCAAGGAAATCACCACCGACATGGGTGAAACCTTCGTCGCCAAGGCGGTCGTGATCGCCACCGGATCAACCCAGCGGCACCTCGACGTTCCTGGTGAGGAGGAGTTCAGTGGTAAGGGTGTTTCCTACTGTGCAGTCTGCGACGGGGCCTTCTTCAAGGGTCGTGACCTGGTTGTAGTTGGCGGCGGTGACTCCGCAGTTGAGGAGGGGATGTACCTGACCCAGCTGGCTGCCAAGGTGACGGTCCTCGTTCGTGGTGACCACCTGCGCGCCCAACCGTTGCTGCAAGATGAGGCTCGCAAGAATGATAAGATGGAATTCGTCTTCAATACCAGTGTTACTGATATCGTCGGTGATCAGGTTAAGGTGACCGGGGTCAAGACCCATAACAATGTCACTGGTAAGGACGGTGAGCTGGCTGCGGACGGTATCTTTATCTATGTCGGCAGTCTGCCGATGACCGCTGCATTTAAGGACCTGGGGATCCTCGATGACCAGGGCTGGGTCAAGACTGATACCCAGATGAAAACCAGCGTGCCGGGCATCTTTGCCATCGGGGATGTTCGTGAGACCCCGCTGCGTCAAATTGCCACAGCGGTTGGCGATGGCGCCATTGCCGGGCAGCAGGTTTACCAATACATCAACGCCATGAAGTAA
>SRR1151252_00908 hypothetical protein
ATGGAAGAGATCAGTATTCAGGAGGACTTTGTCTTCGGCAGCGTAATGAGCAATAAGCACCTCTGCCAGCATCTGATTCAGATTATTCTGCCAGAACTGCGGATTGAGCGGATCGAGTTTCCCACACTCCAGAAGGCCGTGCAGGAGAACACCATCAGTCGTGGTGTCCGTTTCGATGTCTACACCAAGGACCAGGATGGCGTAGTGTACGAGATCGACATGCAGGTCCGCCATACCCGGGGGCTACCGCAGCGGGTGCGTTATTATCAGGGCCGGATCGATGGTGACATGTTGCGACACGGGCAACCGTACGCTAAACTGCGGCAGTCCTACGTGATCTTCATATGTCCCTTCGATCCCTATGACAAGGGCTTGCATAAGTACGAGTTTAGGAACTACTGCAGCCAGGACAAGGCGCTGGCGATGGGGGATGGACGTACGGCGATCTTCCTTAATACTAAAGGAACAGTAAATGATGTTGACCAGGACTTGTGCAACTTCCTTGAATACGTAGATAATAAGAATGTAAAGGATGATCACTATGTTGACGAATTGAGGGACTACATCAATGTCCTGAGTAAAGATACGGAATGGAGGAAGGAGTATATGGATAACAAAACTCACATGATGTTTCATGATGAGGACATCCGTGCGGAGGGTCGTATGGAGGGTCAGACCATGACAATTAAGAAGACGGTCACCATGCTCAAACTGATGGACGTTCCCGACGCCGAGATTGCGCAAAAGATCCAGCAGACGTTTGGCCTCTCCGACCGGGAAACCGCCGACCTAATCAGTACCAGGTAA
>SRR1151252_00909 phosphoglucomutase
GTGAGCTGGAAAGATACCTACCAAGTTTGGAAAAAACAAACGGACCTCGATCCGCTGTTGAAGCAAGAACTAGACGCCATGAGCGATGACAAGGAGATCGAGGATGCCTTCTACGGTCCCCTGTCATTTGGAACGGCGGGGATGCGTGGCCTGATGGGCCCGGGGATCAACCGGATGAACATCTACACCGTTCGCCAAGCCACCGAAGGGTTAGCAACCCTGATGGACTCCCTGGGGGACGACGTTAAGAAGCGTGGGGTTGCCATCGGCTACGACTCCCGTCACCACTCCTACCGCTTTGCCCATGATTCGGCTCGGGTCCTGGGTGCCCACGGCATCAAGGTCTACATTTACGACAATGTACGGCCAACCCCAGAGCTGTCCTTTGCCGTTCGTGACAACCATACCTACGCCGGGATTATGATCACGGCCAGTCACAACCCAAATGAATACAACGGTTACAAGATCTACGGTGAAGACGGTGGCCAGATGCCACCGAAGGAATCCGACATGATGACTGGCTACATCCGCAAGATTACCGACATCTTCGACATCAAGCTGGCTGACGAACAGGAAATGCTTAACAGCGGCCTGGAGACGGTGATGGGCGAAGACGTTGACCACGCTTACCTCCAACACGCCAAGGAAGTCACGGTCAACCCTGAACTGGCCAAGAAATACGGTAAGGACATGAAGTTTGTCTTCACGCCACTCTGCGGGACGGGCCGGATGCTGGGTGAACGGGCCCTGCGTCAAGCTGGCTTTACCAACTTCACGATCGAACCAACCGAGGCCCAACCAAACGGCGACTTCCCAGGTCTGAAGCACCCGAACCCAGAGTTCCCGGAGGCCTTTGTGCGGTCCATCAAGCTCGGTAAGCAGATCGACGCCGACGTCCTGATCGCCACCGACCCCGATGCCGACCGGCTGGGCTGCGCGGTTCGCCAACCGGATGGCGAATACCAATTGCTGACCGGGAACCAGATTGCCTCGATCATGCTCCATTACATCCTGGAGGCCCACAAGCAGGCCGGTACCCTGCCGAAGAACGCTGCAGCAGTTAAGTCGATCGTTTCCACCAACTTTGCGACGAAGATTGCCGAGAGCTACGGGGTATCAATGATCAACGTCCTGACCGGTTTTAAGTGGATCGCCGACCAGATTCACCAGTACGAGACTGGCAAGGCTGACCATACCTTCATGTTTGGCTTTGAAGAAAGCTATGGCTACCTGGTTAAGCCATTCGTCCGGGACAAGGATGCCATCCAATCCCTGACCCTGTTGGCCGAGGTGGCTGCCTACTACCGGAGCCGGAACATGACCCTGTATGACGGTCTGCAGGAACTCTTCAAGAAGTACGGTTACTTCCGTGAAAAGACGATCGCCAACACCTACGCCGGGGTTGACGGTCCGGCCAAGATCCAGGGCCTGATGAAGAAGTTCCGTGAGGAGGCGCCACAAGACTTCGCTGGTCACAAGGTCATGGTCACCGAAGACTTCGCCAAGGGCACCAAGACGACGGCCGATGGTACGGTCAGTGAGCTGGGAATCCCAGAGTCCAACGTACTGCGCTACGTCTTGGATGATGAGACCTGGATCGCCATTCGGCCATCCGGGACGGAACCAAAGCTGAAGTTCTATATCGGTACCAGTGCGGACTCCCTTGACAAGGCCAATGCTAAGTTAGCTGACTTTGAGAAGGCTTTGCAGACATTTGCCGAAGAATAA
>SRR1151252_00910 putative surface protein
TTGAGTAAGCGCGAAAAATCTGAACACTATAAGCTATATAAAGCGGGAAAACTATGGCTGACAGTAGCGATTGCTACTTTTACGCTGGGCATGGCTAGTGTGGCCAGTGCCGATCATAACCAACCCGCTGTGACAAAAGGGGCGGTGGACATTATGCAGACCGCGGCACCAGCCAGTCAACCGGCAGCAGCTAGTAGTGTAGCTGCATCAGAAACTCCGGGTGCTGTAAAATCAGAGGTAGCAAGCCAAGAAAGTGCGGCATCAAATGTGGTATCAGATGTTAAGAGAGCCGCTAAGGAAGGCGCGGCGGCAGCATTACCTGTCGCGTCAACGAAGAAGACGGTAACTCCGGAGAGCGCTACACCTAAGGCTAAGCTGCCACAAGTGGATAATGACCTCTTGTCACGGGCAGAGAACTTCCACATCTTTGCTAAGGAAGTCAAGATCAGTGCGGATGTTAACGGGAACATCGCAACCGCGCACCTTATCTCCGGTCCTGAGTTTGGGACGCGGGGCCAGTCATCTAATTGTGGTGAAGAGGACATTTACTATATTGACTCCCTCGACAACCTAGGCCCCAAAGCGTTCCGCACTGGTAATAACAAGGCAATCTTTGGCGATAAAGCATACGAGAGTCTAGAAATTAAGAATGGCCAGGTATTTGTCAATGGAACCCGGCTGGATCACCTCAAGGCAAACAATGTTCAGCACATCGGTAACTTCATTGACTTTGATGCTGAATTCGTCAAGTTGACCAACTTGGCAGCAACCTATGCCAGCCATCAGCAAACAGCAGGGGTTAAGGTGGACCTCAAGGACATGAACAACCGATCAATCGACGTTAGTGGTATTGACGACAACGTTACCTTTGTGGGTGTTCCGGTTGATATTATGGAGGCTCCTTAA
>SRR1151252_00911 excinuclease ABC subunit B
GTGATTTATCGACAGCCTGATAAGAAGTTTGACCTGGTCTCGGACTACCAGCCGACCGGGGATCAGCCCGAGGCGATCGCCGAGCTGACCAAGGGGATTGAGCAGGGTGAGAAGGCCCAGATCCTCTTGGGGGCGACGGGGACCGGGAAGACCTTCACGATCTCCAACGTGATTGCCAACGTGAATAAACCGACGTTGATTCTCTCCCATAACAAGACCCTGGCGGGACAGCTCTACGGGGAGATGAAGAAGTTTTTCCCCAACAATGCGGTGGAATACTTTGTCTCCTACTATGACTACTACCAGCCGGAAGCCTATGTGCCATCCAGTGACACCTACATTGAGAAGGACGCCTCGATCAACGACGAGATCGATAAGCTCCGGAACGCTGCCACGACGGCCCTGCTGGAGCGTAACGACGTGATCGTGGTCGCCTCGGTCTCCAGCATCTTCGGCCTTGGTAACCCCAACGAGTACCAGAACAGCGTCCTCTCCCTGCACGTCGGCCAGGAGATCGAGCGCGACACCATCTTAAATGACCTGGTCAAGATCCAGTACGACCGCAACGACATTGATTTCCAACGGGGGCGTTTTCGGGTTCACGGCGACGTGGTGGAGATCTTCCCGGCATCGCACGGGGAGACCGCCCTGCGGATCGAGTTCTTTGGTGACGAGATTGATCGAATTCGAGAGGTTGATGCCTTGACTGGTGAGGTCAAGGGTGACCGCGAGGAGGTCTCGATCTTCCCGGCGACCCACTTCATGACCAACGAGGACATCATGGACCTGGCCCTGCCCGAGATCGAAGCCGATATGAAGACGCAGGTCAAGAAGTTCACGGACCAGGGGAAGCTTCTGGAGGCCGAGCGGATTCAGCAGCGGACCAGCTACGATATCGAGATGATGCGGGAGGTCGGTTACGTCAACGGGATTGAGAACTATTCCCGCTACATGGACCGGCGCAAACCCGGCGAGCCGCCGTACACCCTGCTCGACTTCTTCCCCAAGGACTTCCTGATGGTGGTCGACGAGTCTCACCAGACGATGCCCCAGGTGCGGGGGATGTATAACGGGGACCGGGCCCGTAAGCAGATGCTGATCAACTATGGTTTCCGCCTGCCAAGTGCCCTAGATAACCGGCCCCTGAAGCTGGCGGAGTTTGAAAAGCACGTCAACCAGGTCGTCTACATGTCGGCAACCCCGGGTCCCTATGAGGAAAACCAGACTAACCACGTCGTTCAACAGATCATTCGGCCAACCGGCCTGCTGGATCCGACAATTGAAGTCCGGCCGGTAATGGGCCAGATTGATGACCTGGTCGGCGAGATCAACAAGCGGATTGAGCGTAACGAGCGGGTCTTCGTCACCACCCTGACCAAGAAGATGTCGGAGGACCTGACCGACTACCTGAAGGACCTCGGCCTGAAGGTCAAGTACCTCCACAGTGACATCAAGACCCTGGAGCGGACCCAGATCATCCGGGACCTACGACTAGGCAAGTTTGACGTCCTGGTCGGGATCAACCTGCTCCGGGAGGGCCTTGACGTGCCTGAGGTTTCCCTGGTCGCGATCCTCGATGCCGATAAGGAAGGCTTCTTGAGAAACGAACGGTCGCTGATTCAAACGATCGGCCGGGCCGCCCGGAACGAACACGGGGCGGTCATCATGTACGCCGACACGGTCACTGAGTCGATGCAGAAGGCGATCGACGAGACCAAGCGGCGGCGGGCAATTCAGGAGAAGTACAACGAGGAGCACCACATCACACCGAAGACGATCATTAAGCCAATCCAGGATGTGATCTCAGCCACGAAGCCGAGCGAGGATACCGGTGAGACCGAAGACAGCACTGAGTTTACGACTAAGGACTTTGCCAAGCTGAAGCGGGCCGACCAGGAGAAGATGGTGGCCGAATTGACGGAACAGATGCAGTCCGCGGCCAAGCGGTTGGACTTCGAGCAGGCCGCCACGCTGCGTGATACCGTCATGGAGCTGAAGGCCCAGATGACGGGCAAGAAGAATAAGTAA
>SRR1151252_00912 excinuclease ABC subunit A
ATGGCAACCGATAAGATTGTGATTCATGGGGCCCGTGCCCATAACCTGAAGAACATTGATGTGACGATTCCCAAAAACAAACTGGTGGTGATCACCGGTCTGTCGGGGTCGGGAAAGAGTTCCCTGGCCTTTGACACCCTGTACGCGGAGGGGCAGCGGCGCTACGTGGAGAGCCTGTCCGCCTATGCACGGCAGTTCCTGGGCCAGATGGATAAGCCAGATGTCGATTCGATTGACGGCCTTTCCCCGGCCATTTCGATTGACCAAAAGACGACCTCACACAACCCGCGGTCGACAGTTGGCACGGTCACCGAGATCAATGACTTCCTCCGCCTGCTCTGGGCCCGTGCCGGGACGCCGATCTGTCCGAATGACCACAATCCGATCACTAGCCAGTCTCCAGACCAGATGGTGGACCGGATTCTACAATTGCCTGAGCGGACCCGTCTCCAGATCCTGGCGCCGATTGTCCGTGACAAGAAGGGCACCCAGAAGAAGGTCTTCGACAAGATCAAGCGTGAGGGCTTCGTCCGGGTCCAGGTCGATGATGAGACCTATGACTTAGACGAGGTTCCGGCCCTCGATAAGAACAAGAAGCACACGGTCAACGTGGTGATCGACCGGATCATCGTCAAGGACGGCATTCGGTCCCGGCTCTTTGACTCCTTCGAGGCGGCCCTCCGCCTGAGCGACGGCTACGCGATTGCCGACGTCATCGGCGGTGAGTCGATTCCGTTCTCCGAGAAGTATGCCTGCCCGATCTGTGGCTTCACGGTGGGGGAGCTGGAACCGCGACTCTTTTCCTTCAACGCCCCAATCGGTGCCTGCCCGGTCTGTGAGGGCCTGGGGTCCAAGCTTGAGGTGGACGTCGACCTGGTTGTCCCTGACCGGACCAAGACCCTGAGCGAGGGAGCAATGGTACCGTGGAACCCGATTTCCTCCCAGTACTACCCGCAGCTGTTGGAGCAATTCTGTACGGCGGTCGGCATCGACATGGATACCCCATTCAATAAGTTGCCTAAGAAGCAGCAGAAGATGGTCCTCTACGGCAATGGTGACCAGAAGTTCCACTTCCATTACGAGAATGACTTCGGTGGCATTCGGGACGTCGACGTGCCGTTTGAGGGGGTCATCAACAACATCAGCCGGCGTTACAAGGAGACCAACTCTGACTTCACCCGTGAACAGATGCGCAAGTACATGACTGAGCTGCCATGTCCGGCCTGTCATGGTTACCGGCTGAACGAGCGGGCCCTGGCGGTGAAGATCGACGGTCAAAACATCGGTGAGGTTTCCGACCTGCCGATCAGCAAGGCAATCGACTTCTTTAAGGGTGTTAAGCTATCCGAACAGAATGAGCAGATCGCCAAGCCAATCCTAAAGGAGATCCTGGACCGGCTGACCTTCATGCAAAACGTCGGGGTCGACTACCTGACCCTCAGTCGGTCGGCCCGGACCCTCTCCGGTGGGGAGGCCCAGCGGATCCGGCTGGCCACCCAGATTGGTTCCAACCTCTCTGGCGTGATGTACGTCCTGGACGAACCGTCAATTGGTTTGCACCAGCGTGATAATGACCGGCTGATCTCCTCACTCAAGGCGATGCGCGACCTTGGCAACACCCTGATCGTGGTTGAGCACGACGAGGACACGATGCGGGCGGCCGACTACATCATTGACATCGGTCCCGGTGCCGGCGAGAACGGTGGTCAGGTGATGGCCGCCGGGACGCCGAAGCAGGTCATGCGATCCCGCAAGTCACTGACCGGGCAGTACCTGTCCGGTAAAAAGCTGATCGAGGTACCGACCGAGCGCCGGGCCGGTAATGGCAAGCACATTGTCCTCAAGGGCGCCGCGGCCAACAACCTCAAGGACATCAACGTCGACTTCCCGCTTGGCAAGTTCATCTGTGTCACCGGGGTCTCCGGTTCCGGCAAGTCGACTCTGGTTAACCTGATCCTGAAGCGGGTCCTGGCCCAGAAGCTAAACCACAATTCGGCCAAGCCCGGCAAGTACAAGTCGATCTCGGGGATCAAGAACATCGAGAAGGTCATCAACATTGACCAGTCTCCGATCGGCCGGACGCCGCGGAGTAACCCGGCCACCTACACCGGGGTCTTCGACGACATCCGCGAGCTCTTCGCCCAGACTAACCAGGCCAAGGTACGGGGATACACCAAGGGGCGGTTCAGTTTTAACGTTAAGGGCGGCCGTTGTGAGGCCTGCCACGGGGATGGAATCATCAAGATCGAGATGAACTTCCTGCCCGACGTTTACGTTCCCTGTGAGGTCTGCCACGGGACCCGGTATAACTCTGAGACCCTGGAAGTCGAATACAAGGGGAAGAACATCGCCGAGGTACTGAACATGACGGTTTCCGAGGCCCTGGACTTCTTCAGTGCCATTCCGAAGATCCGGCGCAAGCTCCAGACGATCGAGGACGTCGGCCTGGGCTACGTCCACCTCGGCCAGCCGGCCACCACCCTGTCCGGTGGGGAGGCCCAGCGGATGAAGCTAGCGGCCGAGCTGCACCGCCAGTCCCACGGCAAGAGCTTCTACATCCTGGACGAGCCGACGACCGGACTCCACATGGACGACATCAAGCGCCTGCTCGGCGTCCTGCAACGGTTAGTTGACGCTGGCAACACTGTCTTGGTGATCGAGCACGAACTCGACGTAGTTAAGTCGGCGGACTGGCTGATCGACCTCGGTCCAGAAGGCGGTGAGGGCGGTGGCCAGGTTGTGGCTACCGGGACGCCAGAGGAGGTTGCCCAGGTCAAGGGCAGCTACACCGGCAGGTACCTCAAGCAGATGTTGGATCGTGACCGCGAGCTGATGACAGCCCACGTGGCCAAGCAGCGTAAGAAGAGATAA
>SRR1151252_00913 hypothetical protein
ATGATACTAATTAGTGCCTGTCTGGCCGGCTTCAACGTCCGCTACGATGGTGGCAACGCTCGCAACGACCTGGCGGTGAAGCTGGTAGCGATGGGGCAGGCGATCACGGTCTGTCCGGAGATTATGGGCGGCTTTAGGACACCCCGGCTGCCAGCGGAGATTCAGGGTGGTACTGGGGATGATGTGCTGGCTGGTCAAGCCGTGGTGGTGAACCGGGCCGGTCAGGATGTGACTAAGGAATACCTGGCGGGGGCCCGGATGGTCCTGAAAATTGCCCAGGACCACGGGGTGACGGTCTCCTTTTTGAAGCAGAAGAGTCCGGCCTGCGGGACCAAGCTGGTCTATGATGGTCACTTTACCGGCCATCGGATCCCGGGGATGGGGGTGACCGCGGCCCTTCTCCAAGCCCACAACATCAAATGCTTTGGCGATGAGGACCTAAAACTGGCCAATGTGGAACCTTACGTCGACCCGATCACCTGGGGAAATCTCCACCATAATAACCTACGGGCTTAG
>SRR1151252_00914 ATPase P
ATGGCTGAAAAGATGCAGGTAGTAATCATCACGGGGATGAGCGGCGCTGGAAAGACGGTGGCGGTTCATAGCTTCGAGGACCTCGGCTACTTTGTGATTGATAATATGCTGCCGAGTCTGGCGGAGAAGTTTGTCGATGTGATCAAAAATTCCGGGGAGTTCGACAAGATTGCCATGGTGATGGACCTGCGTTCGCGTGGCTTTCACAGCAAGGTCCTACCAAGCCTGGAGAAGCTCCGCCAGCATGATGACTTAGCGGTACGGTTACTGTTTTTGGATGCGGATAACGTTACCCTGGTTTCCCGCTACAAGGAGACACGGCGGGCTCACCCGTTGGCACCCCAGGGCCGGCTCTTAGATGGGGTTGAACTGGAACGGAAGCTTTTGACCGAGCTGAAGAGCCGGGCCAATGTGATCATTGACACGACTAACCTGACCCCACGGAACCTGAAGCTGCGGATCAACAAACTTTTCGGTCACGGTGAGGGCAGTAACTTCTACGTTGAGGTGATGTCTTTCGGCTTCAAATACGGCCTACCGTTGGACGCCGACATTGTCATGGACGTGCGCTTCCTGCCGAACCCCTTCTATATTCCGGAACTGAAGCACCAGACGGGAAACGACCAGGCGGTTCAGGAGTATGTCATGAAGAGTGCTGAGGCCCAGCAGTTCTACCGGCACCTGTCCGCGCTGATCAAGGGTGCCCTACCTGGCTACATCCATGAGGGTAAGAGTAGCCTGACGATTGCCATCGGATGCACCGGGGGACAACACCGGTCAGTCACGATCGCCAATCGATTGGCTGACGACCTTCGAAACAGCGGTTATCAGGTTAACCTCTACCACCGTGATGTCGACAAGGCCCAATAG
>SRR1151252_00915 hypothetical protein
ATGTTTCGTAAACCAAAGATTGTGGTGATCGGCGGTGGGACCGGCCTGCCGGTTGTCCTACGCGGGTTACGCGATAAGGACGTCGACATCACGGCGGTGGTCACGGTCGCCGACGATGGCGGTTCATCAGGGATTTTGCGCAACTACATTAACGTGGTACCGCCTGGTGATATCCGTAACGGCCTGGTGGCCCTGTCCGAGCTGCCGCAATTGGAACTGGATGTCTTTCAGTACCGTTTCAACAGTCGTGACCAATTCTTCGCCGGCCACGCCATCGGTAACCTGATTATCTCGGCTTTGTCGGAGATGAAGGGCGGGATCTTCACCGCTGTCCAGGAACTATCCGCGATGATGAAGATTAACGGCCATATCTACCCGGTGGCCAACGAGCCCCTAACCCTGAATGCCGAGTTTACCGATGGGACCACCATACGGGGGGAATCCGAGATTACCGCGGCCCACAAGCAGATCAAACGGGTCTGGGTCACTCCCGCTAATGACGGTGATGGCCACCAGGCCAAGCCGGTTCCTGAGGTTATCCAGGCCATCAAGGAAGCTGACCAGATCGTTCTGGGTCCGGGAAGCCTGTTCACCAGCATCCTGCCTAACCTGATGATCGACGAGGTCGGACGGGCAGTCTGTGAGAGTAAGGCCGAGGTTGTCTATATCTGCAACATCATGACGCAGAAGGGAGAGACCGACCACTTCACCGATGCTGACCATGTCCGGGTTCTCAACCGCCACCTCGGTAAAAACTTTATTAATACGGTCCTGGTCAACATCCGACCGGTACCGAAGAATTACATTGATTTTCAGGAATGGAACGAGATCTCTCAGCCGGTTGGGCATGACTTCCAAGGCTTACGCGACCAGGGCTGCCGGGTGATCAGTTCCAACTTCCTGCGCCTCAAGGACAATGGGGCCTTTCACGACCGCGACTTGGTGGTGGCTGAACTGATCAACCGCCTGCACCAGGTCCATGACTAG
>SRR1151252_00916 sporulation regulator WhiA
GTGTCGTACGCGAGTGAAGTAAAGAAGGAATTGACGGCCATTAAGGTTCACCAGAAGAACGCCCAGGCGGAATTGATGGCGTTGATCCGGATGAATGGTAGTATCGCCCTGGCCAACCACCAGCTGGTCTTGAATATCCAGACGGAGAACCCGGCAATCGCTCGGCGGATCTATTCCCTGCTCAAGGAGTTCTATCATGTTGAGAGTGAGATCGTGGTGCGGCGCAAGATGAAGCTCAAGAAGAATAACCAGTATATCGTTCGGCTGCGCTATGCGGCCCAGCACGTTCTCGATGACCTGGGGATCTTACAAAACCTGCAGATCAAGGAGCGGGTGCCGCTGGAGCTGCTTGACGATGAGTGGATGGTTCGGTCGTACCTGCGGGGGGCTTTTCTGGCCGGGGGTTCGGTCAATAACCCCGAGACCTCGCGCTACCACCTGGAGATCTATTCCCTGTATGAGGAACATAATGAGATGATCGCCCAGATGATGAATAAGTTTGGCCTGAATGCCCAGACGACAGCTCGGCGGAGCGGCTTCATCGTCTACCTGAAGGAGGCGGAGAAAATTGCCAATTTCATGTCGCTAATTGGGGCCACCAACTCGATGCTCCAGTTTGAAAATGTCCGGATTGTTCGTGACATGCGGAACTCAGTCAACCGGCTGGTCAACTGCGAGAATGCCAACATGAATAAGATTGCCAACGCTTCGACCCGGCAGATTGAAAACATCAAACTGATTGATGCCCGGGTCGGGATCAAGACCTTGCCTGATAAGCTTCGTGAGATTGCGGAGACCCGACTGGCCCATCAGGAGGTCAGCCTAAAGGAACTGGGGGGGCTCGTTCCTGGTGGTCCCATCTCCAAGTCAGGGGTTAATCACCGACTGCGTAAGCTCAACGCCTATGCTGATGAGCTGCGGATGTCTAAAGCTGAATAG
>SRR1151252_00917 ATP-dependent Clp protease proteolytic subunit
ATGAACTTAGTTCCAACTGTCATTGAGCAATCGTCTCGTGGCGAGCGTGCTTATGATATTTACTCACGGCTTCTGAAGGACCGGATTATTATGCTGTCTGGTCCAATCGAAGACGACATGGCAAACTCAATTGTCGCACAACTGCTGTTCCTGGATGCGCAAGATTCAACGAAAGACATCTACTTATACATCAACTCACCTGGTGGTGTCGTTACCTCCGGGATGGCGATCTACGATACGATGAACTTCATCAAGGCTGACGTACAGACGATCGTCATCGGGATGGCGGCTTCCATGGCCAGTGTCCTGGTATCCTCTGGTGCCAAGGGCAAACGTTATGGACTGCCTCACTCCCAGGTCCTGATTCACCAGCCATCCGGTGGTGCCCAGGGTCAACAAACTGAAATTGAAATTGCCGCTACCGAAATCCTGAAGACGCGGAAGATGCTGAACGGCATCCTCGCCAAGAACTCCGGTCAACCGATCGAGAAAATTCAGGAGGATACGGAACGTGACCACTACTTCACTGCTCAGGAAGCGGTGGACTATGGTCTACTCGATGGCGTCATGGAAAACAACTCCAAGCTGAAGTAA
>SRR1151252_00918 hypothetical protein
ATGGAAGACACTAGTAAATTAAATGTATTCAAGACCGCAGCAGATTGGAAGGAACTCGACCAACAAAGTGCTGCCACGGAGCTGGACATGGTTTCGGAAAACGCCAGCGAAAAGTAA
>SRR1151252_00919 hypothetical protein
ATGCGTAAAGCACACCCACACGGTGTTCAAGGCCGTCGCCCAGTTGCTCCTAAGTACAAGCGAGCATTAAAAGAAAAGAAGATCGAAGCTATTCGTAAGTGGGCTAAGGAAAAGCCAGCCGACGAAAAGTAA
>SRR1151252_00921 glyceraldehyde-3-phosphate dehydrogenase
ATGACTGTAAAGATTGGTATTAATGGTTTCGGCCGTATTGGTCGTTTGGCATTCCGTCGTATTCACGAACTCAACACTGATGACATCGAAGTTGTCGCTATCAATGACTTGACTTCACCAGAAATGTTGGCTTACTTACTGAAGTACGACTCAACTCAAGGTCGTTTTGATGGCGAAGTTTCATCAACTGACAAGGGCATCGTCGTTGACGGTAAGGAATACCCTGTATACGCAGAACGTGACGCACGTAACATTCCTTGGGTAAAGAACGACGGTGTTGACTTTGTTCTTGAATGTACTGGTTTCTACACTTCTGCAGAAAAGTCTCAAGCTCACTTGGACGCCGGCGCAAAGCGTGTTCTGATTTCTGCACCTGCTGGTAACATCCCAACTGTTGTCCCAGGTGTTAACTTGGACACTCTGAAGGCTGATGACAAGATCGTTTCAGCTGGTTCATGCACGACTAGTTGCCTTGCCCCAATGGCATACTGGCTCAACAAGAACTTCGGCGTTAAGGTTGGTACGATGACGACTGTTCACGCCTACACTGGTAGCCAAGCAGTTCTTGACCAACCACGTGGTAAGAAGTTCCGTAACAACCGTGCCGCAGCTGTTAACACTATTCCTCACTCAAGTGGTGCTGCCAAGGCTATCGGCCTGGTTATCCCAGAACTTAACGGTAAGCTTTCTGGTCACGCACAACGTGTTGCCGTTCCTACCGGTTCATTAACTGAATTGGTTACCCTCTTGAACAAGAAGGTTTCTGTCGACGAAGTTAACGACGCTATGAAGAAGGCCGCAGAAAACAACCCAGCTTACGGTTACACTGAAGACCCAATCGTTTCAAGTGATATCATCGGTTCTACTTTTGGTTCAGTATTTGACCCATCACAAACCGAAATCATGGAAGGCGAAGACGGTACTCAATTAGTTAAGACCGTTGCTTGGTACGACAACGAAAACGGCTTCACTTGCAACATGATTCGGACTCTGCTTCACTTCGCAGAACTTTAA
>SRR1151252_00922 phosphoglycerate kinase
ATGGCTAAATTAACTGTTGAAGACCTGCCATTAGAAGGCAAGAAGGTCTTAATGCGGGTTGACTTCAATGTTCCAATTAAGGATGGCGTCGTTGGCGATGACAACCGGATCGTTGCCGCACTGCCAACTATCAAGTACGTTATTGACCATGGTGGCCGGGCAATCCTGTTCTCCCACCTTGGCCGGATCAAGAAGGAAGAAGACAAGCCAGGCCTGTCCCTTCGTCCAGTTGCTGAACGGCTTTCTAATCTGCTGAACAAGCCAGTTACCTTTGTTCCAGTAACGGAAGGTAAGCAGCTTGAAGATGCCATCGACAACATGAACAACGGCGACGTCCTGCTGGTTCAAAACACCCGTTACGAAGATGTTAAGGATGGCGAATACGTCAAGCGCGAATCCGGTAATGATCCTGAATTGGGTAAGTACTGGGCTTCCCTCGGTGATGTCTTTGTAAACGACGCTTTCGGTACTGCTCACCGGAAGCACGCTTCCAACGTTGGTATCGCCACTAACATGCCTGGTAAGGCCGCTGCTGGTTACCTGATGCAAAAGGAAATCAAGTTCTTGGGTGATGCCGTTGACAACCCAGAACGTCCATTTGTTGCCATCCTGGGTGGTGCCAAGGTTTCCGACAAGATCGGTGTTATTGACCACCTGCTCGACAAGGCTGATAAGATCATCATCGGTGGTGGGATGGCCTACACCTTCTACGCTGCTAAGGGCATCAAGACCGGTGACTCCTTAGTCGAAAAGGACAAGATCGACGTTGCCAAGCAAATTCTTGACAAGGCCGGCGACAAGGTTGTTCTGCCAATTGACAACGTGGTCGCTGACAAGTTCGACAACGACGCTAACACCAAGGTTGTGGAAGGCGACATTGATGATGGCTGGATGGCCTTAGACATTGGTCCAAAGTCCGTCAAGGAATTCGAAGACGTTCTGAAGGATGCCAAGACGGTTGTCTGGAACGGCCCAATGGGTGTCTTCGAAAAGCCTAACTTTGCCAAGGGAACCCTTGAAGTTGGTAAGTTCCTTGGTACCTTAGCTGATGCAACCACGATTGTTGGTGGTGGTGACTCAACTGCCGCTGTTAAGCAATTAGGCGTTGCTGGTAAGCTTACCCACATCTCCACTGGTGGTGGGGCTTCCCTGACCTACCTTGAAGGGAAGGTATTACCAGGAATTGCTGCAATTTCTGAAAAGTAA
>SRR1151252_00923 triosephosphate isomerase
ATGCGGGTCCCGATGATTGCGGGCAACTGGAAGATGAATAAGACGGTTGAGTCGGCGGTGGCCTTCGTCAACCAGGTTAAGGACCAACTCCCGCCGGCCAGGCAGCAGGAAACCGCCCTGGCGGCACCGACCCTGGCCCTGGTGTCGATGGTTAAGGCCGCGGCTGGTTCGCCCCTGAAGGTGATGGCGGAGAATTGCTATTATAAGGACAGTGGCGCCTTCACCGGGGAGACGAGTCCCAGGGCCCTTTATGCGGCGGGAATTCACCATGTCATCCTTGGCCACTCCGAGCGACGCAACTACTTCCATGAGACCGACGAGCTGATCAACAAGAAGGTTAAGGCCGCCCTGGATAACGGTCTTTGCCCAATTGTCTGCTGTGACGATACGATGGGGCGGCGAATTGCTTATGACCAAAAGATCCACTGGGTTGTCAACCGGATCCTGGCCGACGTTAAGGACCTAAGTGAGGCCGAGGTGGCGAAGGTCACGATTGCCTATGAACCAAACTGGGCGATTGGCACCGGCCAGAGTGCCGATCCGGACCAGGCTGAGGAAGGCTGCTATTTGATTCGACAGACCATCTCTGACATGTACGGTCAATCAGTCGCCGATGAGATTCGCATCCTCTATGGGGGTAGCGTTACAACTGAGAACGTTGGGGCGCTGATGGCCCAGCCGGATATTGACGGGGCCCTCGTCGGGGTTTCCAGTCTGGATCCGACTACCTTTTTACAAATCGTCAATCATTAA
>SRR1151252_00924 enolase
ATGTCACTTATTACAGATATTTATGCACGTGAAGTTCTCGATTCACGTGGTAACCCAACCGTTGAAGCTGAAGTTTACACTGAGGCTGGCGGTGTTGGCCGTGGAATTGTTCCTTCAGGTGCTTCAACTGGTGAACACGAAGCCGTTGAATTGCGTGACGGCGACAAGGACCGTTTCGGCGGTAAGGGCGTTCTGAAGGCTGTTTCAAACGTTAACAACATCATTGCTAAGGAAATCGTTGGCATGGAAGTCACTGACCAAATTGCCATCGACAAGGCAATGATCAAGCTGGACGGTACTCCAAACAAGGGTAAGCTTGGTGCTAACGCTATCCTGTCAGTTTCATTGGCTGCCGCACGTGCCGCTGCTGATGAACTGCAAGTTCCGCTTTACAACTACCTTGGTGGTTTCAACGCCCACGTTCTGCCAACGCCTATGATGAACGTTATCAACGGTGGGGCTCACTCCGATAACAAGGTTGACTTCCAAGAATTCATGATCATGCCAGTTGGTGCCCCAACTGTTCGTGAAGCCATTCGTTGGGGTTCAGAAACTTTCCACGCCCTGAAGAAGGAATTGGAAGCTGCTGGTAAGGTAACCTCTGTTGGTGACGAAGGTGGATTCGCTCCTGACTTTGCTAACAACGAAGAACCATTCGAATACTTGATCAAGGCCATCAAGGATGCCGGTTACAAGCCAGGTAAGGACATTGCCATCGCCTTTGACGTGGCTGCTTCCGAACTCTGGAACGACGAAGACAAGAAGTACAAGCTTCGTTGGTCAACTGGTGAAGAATTCTCCACTGAAGAATTCATCGACTACCTTGCTGGGATTATTGAAAAGTACCCAGTTGTATCTGTTGAAGACCCAATTGATGAAAACAACTGGGATGACTGGGTAACCCTTACCAAGAAGCTCGGTAAGAAGGTACAACTGGTTGGTGACGACTTCTTCGTAACCAACACCGACTACCTGAAGAAGGGTATCCGGATGGGTGCAGCTAACTCCATCCTGATCAAGCTTAACCAAATCGGTACTTTGACTGAAACTGTTGAAGCTATCGAAATGGCTAAGGAAGCCGGTTACACGGCCATCGTTTCTCACCGTTCTGGTGAAACCGAAGACACGACGATCGCTGACCTGGTTGTTGCTACTAACGCTGGCCAAATCAAGACTGGTTCCATGAGCCGGACTGACCGTCTTGCTAAGTACAACCAACTGATGCGGATCGAAGACCAACTTGGCGACGTTGCTCAATACAAGGGTATTCACTCATTCTACAACCTGAGTGAACAAGCTCGTCAAGACATCGAAAACCGTTAA
>SRR1151252_00925 phosphoenolpyruvate-protein phosphotransferase
ATGCCAAAGGATATTCAGGGAATTGCGGCCAGTGACGGGGTAGGGATCGCCCCGGCCTACCTGCTGACGTCACCGGATCTGTCATTCAAACGGCGGCGGGTAGCGGATACTGACCAGGAGTACCGCCGGGTCAAAGAGGCCTTTACCGCTTCAATTGCCGACCTGCGACAGATCAAGGGAAACGCGCGGCAGCGGTTGAGTGACAAGGAACTGGATGTTTTCGACGCCCACATCACGATCCTTTCCGATCCGGAGATGTTGGGGCAGATCAAGAGTGAGATCGACACCCTCCAGGTCAATGCTGAGGAGGCCGTCAGCAAGGTAACCGGGAACTTTGCCAACATGCTGGCGGCAATGAAGGATAACCAGTACATGCAAGAGCGGGCAACCGATGTCCGGGATATTGCCAAGCGGACACTCAGCCACCTTTTGGGGAAGAAGCTGCCGAGCCTGGCCGCCATCACTCATCCGGTGGTTATCGTGGCCGATGAGCTGACCCCGTCTGACACTTCCCAGATGGACCCTAAGCTTATCAAGGGGATTGTAACCAACCGCGGTGGGCGGACCAGCCACGCGGCGATCATGTCCCGAACCCTCCGTATCCCGGCGGTAGTAGGGACCAATGACATCACCGCTAACGTCCAGAACGGCCAATTAATGGTTGTCGACGGCTTGAGCGGGACGGTAGTGGTGGACCCATCCGATGCCCAGGTTGATGCTTACCAGCGCAAGGCGGCTGGCTTCGATGAACGAACCGCCGAATGGGCCCGGTTGGTTGATGCACCATCGATTTCCAAGGACGGCCAGTGTTTTGAGATCACCGCCAATATCGGCACTCCCGACGATGTCAACGACGTGATCAAGCAGGGGGCTGAGGGGATCGGGCTCTTTCGCTCCGAGTTTCTCTACATGAACAGTGACCACCTACCAACCGAGGACGAGCAGTTTGAAGCCTATCGACGGGTGATCATCAATATGCAAGGGAAGCGGGTTGTGGTCCGGACCCTCGACATCGGCGGTGATAAGCCCCTGCCGTTTTTGCCCCTGCCCCGGGAGATGAACCCCTTCCTCGGTTACCGGGCAATCCGACTCTGCCTGGACCACCCCGAGATCTTCAAGCCCCAGCTCCGGGCCCTGATCCGAGCTTCTCAGTACGGGCCGCTTTCGATCATGTTTCCGATGATCGCAACGGTTCAGGAGCTGCGCCAGGCCAAGCAGATCTTCAACGAGTGCAAGGCTGAGCTCCAGGTTAAACAGCCGGGAATCGGTGATGATATTCGGTTGGGAATTATGATTGAGATCCCCCTGGCCGCTGTCAACGCCGGTAACCTGGCCAAGGAGGTTGACTTCTTCAGCATTGGGACCAATGACCTAATCCAGTACAGTTTCGCCGCTGACCGGGGAAGCGATGCGGTGTCCTACCTCTATCAGCCCCTCAATCCGGCCTTCTTGAGCCTGGTCAAGCACGTAATCGATGCTGCCCATAAGCATAAGATCACCGTGGCAATGTGTGGTGAAATGGCGGGTGATAAGTGGGCCCTACCGCTACTGATGGGGCTCGGATTGGATGTTTATTCGATGTCGGCTTCGACGGTGCTGCGAACACGGAGTATGATGAGCAAGCTCGATACCCGGGAATGCCGGCGGGTGGTAACAGACGCCATCAACAACTGTTCGACCGATCGCGACGTCAAGATGCTAGTCAAGAATAGCCTCAACATCAAATAG
>SRR1151252_00926 amino acid permease
ATGAAAGACAATGCACCGAAACTCCGACGGTCGATGACGGCGGGGCAGATGGAGATGATTTCCCTCGGTGGGGCGATCGGGGTCGGTCTGTTCATGGGATCGACCTCGACGATCAAGTGGACCGGGCCATCCGTCCTGTTGGCTTACGCCTTCGTGGGGTTGATCCTCTACATCGTGATGCGGGCCCTTGGCGAGATGATTTACATCAACCCAGGAACGGGATCATTTGCCGATTATGCGACCGAATATGTTCATCCCCTGGCCGGTTACCTGGCCAAGTGGGCCAACGTCTTCGAGTACATCGTCGTCGGTATGTCCGAGGTGGTGGCGGCAACGGAGTACCTCAAGTACTGGTGGCCGCACATGCATACCTGGATCGCGGGGATCGTGATCATTGCCTTCCTGGTTTTAGCCAACCTGGCGAGTGCCAAGGCCTATGGGTCACTGGAATTCTGGTTTGCCATGATCAAGGTCATCACGATCATCTTCATGATTCTCCTGGGCTTTATGGTGATCTTCTTCGGCTTTGGCAATGGGGGACACCCGACCGGATTCAGTAACCTCTGGGCCCACGGCGGCTTCTTTACTGGTGGGGTTTCCGGCTTTTTCTTCTCAATGTCGATCATCGTCGGCTCCTACGAGGGGATCGAGCTATTGGGGATCTCTGCCGGGGAGGTAGCTAACCCCCAGCGGGCGATCGTCAAGTCGGTTAAGTCGGTCCTCTTTCGGATTCTAATCTTCTACGTTGGAGCGATCTTTGTCATCGTGACGATCTACCCGTGGAACAAGCTGTCGAGTGTTGGCTCCCCGTTTGTCTCGACCTTCGCCAAGGTGGGGATCACGGCGGCGGCCTCAATCATCAACTTCGTGGTTCTGACGGCGGCCCTGTCCGGGGCTAATTCTGGAATCTACAGCTCCAGCCGGATGCTCTTCAAGCTGGCCCACGAGGGGGACGCTCCCAAGATCTTCGGCCGGCTGTCCAAGCGGGTCGTGCCAGACGCGGCAATCCTCGGCATTTCCGGGGGGATCCTGATCGGGTTCATCATCGACATGATCTCCTCAATCTACAGCAAGTCGACAGCTGACATGTTCGTGGTTGTCTTCAGTTCCTCGGTATTACCGGGGATGATCCCGTGGTTTGTGATCCTGTTGGCCGAGTTGCGCTTCCGCCACAACAATTCAGAAGTGATGGCTGATCACCCATTTAAACTGCCATTCTACCCGTTCTCCAACTACTTTGCCTTCATCATGTTGATCGTCATCGTGGTCTTCATGTTTATCAACCCGGACACCCGGGTCTCGGTAATCGTCGGGGCACTTGTCCTGATCGCCGCTGTTCTGGTCTACCTCTACCGTCACCGGAATGTGGCTCGCAGCAAATAA
>SRR1151252_00927 chloride channel protein
ATGAAAAACATTCAGCGCGATAGTCAAACCAAACAGCTCCTGCGGGCGATCCTGATTGGCCTTTTGACCGGGGCGGTGGTGAGTCTCTTCCGCCTGGCCATCCAGCACCTGCTGACCCTGGTCGGTAAGAGTTTCCAATACTTCCACACCCAACCACTCTGGCTGATCCCTTGGGCAGTCGGTTCGGTTATCCTGGCCCTTCTGTTGGGGTGGATGGCCCAGCGCAACCCCAATATCAAGGGGTCAGGGATCCCCCAGGTTGAGGGACAGCTGACCAGTCAGTTTGATGAAGAATGGTGGCCGGTTCTCTGGCGTAAGTTTGTCGGTGGAATCCTGGCAATTGGGTCGGGCCTCTTCCTCGGTCGGGAGGGGCCATCGATTCAGCTGGGCGCCACGATCGGTCAGGGAGTGGCGGAAAACTTCCATTCTAACCAGCTGGATCGCCAGGTCGGCATTGCCAGCGGGGCGGCGGCCGGATTATCGGCGGCTTTCAACGCCCCGATTGCTAGTACCATCTTTATCCTTGAGGAGGTTTACCACAACTTTTCCCCGGTAATCTGGCTGTCAACCTTCGTTTCGGCCCTCTGTTCGAACCTGGTCTCGATGGTCATCTTCGGCCTGCACCCCGTCCTCAACGTTCCCTATCAGCAGATGTTACCGACGCGGTTCTACTGGCACTTACTGGTTCTCGGCCTGGCCCTGGGACTACTGGGACGACTGTATCAGGTCGTGATCCTGCACCTCAACACCTGGAGCGCTAAGCTAAAGTGGCTGCCCCCGTTGGCCTACCCGGTGGTTCCGTTCCTGCTGGTGATTCCGATCGCCTGGTTCTGGCCCCAGACCCTGGGTGGCGGAAACCAGCTGATCGGTAACCTGCGCCTGATGCCGGTCTCCGTCGGCCTTTTTCTCGGCCTCTTCGTCCTTCGTTTTGTCTTCTCAATGATCAGCTATGGTTCACAGCTGCCCGGGGGAATTTTCCTCCCGATCCTGACCCTAGGGGCAGTGCTCGGGGCCCTCTACTGTGCCCTGATGAGTCAATTGGGACTCCTGCCGGCGCGTTACCTGCCGAATTTCATCATCTATGCGATGGCGGGTTACTTTGCCTGCATCAGTAAGGCCCCCTTCACCGCAATCTTGTTGATTACGGAGATGGTCGGCTCCTTGGCCCACCTGATGCCGTTGGCCACAGTGGCGGTGTTCGCCTACCTGGTGGTCAACGCCCTCCACGGCGAGCCGGTCTACACGGCAATGTTCAACGCCTTCATCGGCAAGCACCCGCAGAAGCTAGAGCAAAACGTTACGATGCCAGTGACCGTCTACGCGGGTTCGCGCCTGGATGGTTGCCAGGTCAAGGATTACCCGTGGCCGGCTGACAGCATTGTGACCCTGATCTACCGGGGCGAGGATAAGCTGATCCCCAACGGCCAAACGACGATCCAAGCCGGCGACACCCTCCTCATCCGGGCCAACTTCACCCCCACTAACCAGTGCTACCGGCGGATAATGAGTGCGGCTCACTATGCGAACGTATAG
>SRR1151252_00928 preprotein translocase subunit SecG
TTGTATAACACATTAATGACTTTATTTTTAATTGATTGCGTAGTTCTGATCGCGTGCGTAATGATGCAGCCGGCGAAGAACGATAACGACGCAATGTCAGCCTTGACGGGTGGGGCCGGTGACCTTTTCTCCCGGCGCAAGGCCCGCGGTTTCGAGGCGGTCATGCAAATTGTCACGACAATCTGTGGGGCACTCTTCTTCATCCTGGCATTGGCACTGGTTTACGTATCATCACATTAG
>SRR1151252_00929 carboxylesterase
ATGAAAAAATATCCTGGCGAACCCTTTTATTTTAACGGCGGGCGGCCGGCGGTGATCCTCCTGCATGCCTACTCGGGCAACAGCAACGACGTCCGAATGCTGGGCCGGGCCCTGCAGAAGCATGGCTACACGGTCTACGCCCCCGTCTTCACCGGGCATGGTGGGGATCCCTGCCGAATCCTAAGTGACGGGAATCCCGATGCCTGGTGGGAAGATACCCAGCTAGCAATCCGCCGCCTGCGCGATAGTGGTCACGACCAGTTGGCGATCTTCGGCCTCTCACTCGGGGGGCTCTTTGCCACCCGGGCCCTAGAAAACGATCAGCAGTTGCGCGGCGGGGGCGTTTTTGCCTCACCGATCACCAGCTGGGGGCGTTCCAACGTGCCGGAGTACTTTCCCCGCCTGGCAATGAACTACTACCACAGGGAGCAGACACCGGCGGCAACGGTTGCCACTAAAATGGCCTGGATCAAGGACCACCTGCCGGCCCAGCTGGCGGCCATCCAGGCGATGACCAAGCAGTTGGATGCAAATCTGGATCGACTCCACCAGCCCTTTTTCATTGCCCAGGGTGGTCATGATGAGATGATTGACTCTGACTCGGGGGCGCAGTTAGCACAGCGGCTCCGTGACCAGGGGACACCGGTTGATTACCACTTCTACCCGAACGCCACCCACCTGCTGACGGTCAATACGGCCCACCGGCAGTTGTTTAATGACGTCAATGACTATTTACAAAAATTATTCGAGGTATCAGATGACAACGAGAACAAATAA
>SRR1151252_00930 exoribonuclease R
ATGACAACGAGAACAAATAATAAGCAACAATTAGCAGACAAGATTCTTAATTATTTAACGGATAACGCAGGCGTTAGCTACTCCGCCGAGCGGATCGCCTACCACCTGGGGATGGACAATGGTAACCAGTTCACCCCGGTGGTCCAGACCCTGGCCCAGCTGGAACGTGATAAGAAGGTCCAGGTGACCGACAAGGGAGAATTTGAGGCGGTTATCAAACAGCAGCCCCTGACTGGGACCTTTCACGGTAACGACAAGGGCTTCGGCTTTGTCGACTACGATCCCGACCTGCCCGACATGTACATCAATCCCGACCACACCATGCACGCCCTGAACGGTGACCAGGTGACGCTCAAGGTCCTGCGTCCCGGAAAACCGGGGACTGACCAGGGACCCGAGGGACAGGTTACGTCTATCGTTGAGCATAACTACACGCGGGTTGTCGGCGAGTTTAAGCAGGAAACGGTCGGTAACTACATTGGCGAGATCCTGCTCAAGGACAAAAAGCTCAGCACCTACCGCTTCTTCGTCACCGACCAGGGCCTGAAGCCAATGGATGGCCAAGTGGTCACGGCGACGGTTGCCACCTACCCAGACGATGATTCACCCAAGGTCATGACCGGGGCGGTCACCGAGGTTATCGGGGACAAGGACGAACCAGGGATCGATATCATGTCGGTCATCTACGCCCATGATGTTCCCCATGAATTTCCTAAGGAAGCCCTTGAACAGGCCAATAAGATTCCATTACACGTTTTGCCAGAGGAGAAGAAGGGGCGTGAAGACATCACCGACCAGCCGCTGGTCACGATCGACGCCATCGAATCTAAGGACCTCGACGACGCCGTGGTGGCCTGGAAGATGGACAACGGCCACTACCACCTCGGTGTTCACATCGCCGACGTCAGTCACTACGTCAAGCCGGGGACCCCGCTGGATAAGGAGGCTTTCAAGCGGGGAACCTCTGTTTATCTGACCGACCGGGTGGTCCCAATGCTGCCGAAGCGCCTGTCCAACGGGATCTGTTCCCTAAACCCAGGCGAGGAACGGCTGGCAATGAGCTGTGAGATGGAAATCGACGAGCAGGGTAAGATTGTCAACCACCGGATCTTCCCAAGCGTCATGCGGTCCCACGCCCGGATGACCTACAAGGCGGTAAACCGGATCCTGGAGGCCCACGATTCGAAGACGATTGCTGAGTACAAGGACCTGGTACCGATGTTTGAGACTATGGGCGAGCTGCACCGGATCCTGCTCAAGAATCGGAAGCGGCGGGGGGCCATCGACTTCGAGGCTCCCGAGGCCAAGATCATTGTCGACGAGAAGGGCCACCCAACCGATATCCAGCTGCGGGAGCGGGGGCTGGCGGAACGGATGATCGAATCCTTCATGCTGGCAGCCAACGAGACGGTGGCTGAGCACTACTTCAAGGAGAAGGTCCCGTTCCTCTACCGAATCCACGAGACGCCAGACAAGGACCGGATCAAGTCCTTCGTCGACTTCCTGGAGGTCTTTGGAATCAACGTCCACGGTGACATCAACAATGTCAAGCCGAAGATGTTACAGAACGTCTTGAAGGACGTTGCCGGCAAGCCTGAGGAAGAAATGGTCCAGGTAATGATGCTGCGGAGTATGCAGCAGGCGAAGTACTCCGATGAAGAACTCGGTCACTTCGGCCTGGGGGCCCCGTATTACACCCACTTTACCTCACCAATCCGGCGTTATCCCGACGACACGGTTCACCGCCTGATCAAGTGGTACGATGCCCACGGTAAGGGTGAGCATGCTAAGGCTCGTTGGCGCGATAAACTGCCAGAGATTGCCGAGCACACCTCCGTTACCGAACGGCGGGGAATTGACACGGAACGTGATGTTGATAGCATGAAGAAGGCCGAGTACATGGAGGATCATATCGGTGAGACCTTTGACGCCGTGGTCAGTTCCGTAATGAAGTTTGGTCTGTTTGTCGCGTTACCGAACACGGTCGAGGGCCTGATCCACATCAGTGTGATGAACGATGACTACTACGAGTATTCCGAGAAGCACCTGGCCCTGATCGGCCGTAAGACTCACCGGATCTTCCAGATTGGGCAGCCAATCCAGGTCAAGCTTCTCCGGGTCGACAAGGACCTGCGGGAGGTCGACTTTGAGATCGTTCATCCCGAGAATACCCCAACTACCAAGATTCGGGTGCCCCATGATGATCGCCGCGGTAATCACGGTCACTTCAACCGTCGGGACCGCAACAAGCACAACGGCCACGTCAACAACCGGCAGATCAACCGGGGGCAGAGTCGCCACCACAACAATTCACGTGACCACCATTCGGAGGGTCGTCGTCACCGGCGTCGGCGTTCATGA
>SRR1151252_00931 SsrA-binding protein
ATGGCAAAGAAGTCCCAACATTCAAACGATAACTTGATTGCCCAAAACAAAAAGGCCCGTCACGACTATTTTGTGACGGACACCTATGAGGCGGGGCTGGTGCTGACCGGGACCGAGATCAAATCGGTCCGGGCCCACCGGGTCAACCTCAAGGACGGGTTTGTCCAGGTCAAGAACGGGGAGGCCTGGTTGATGAATGTTCACATCAGTGAGTACGACAACGGGACCTACTTCAATCAGGACCCGTTGCGTAATCGGAAGCTCCTCTTGCACAAGAAGGAGATCCACCGCCTGACCGGGACCCTCCAGGATAAGGGGGTCACCCTGATCCCACTGAAGATGTATATCAAGCATGGCTATGCTAAGGTCCTGCTGGGAGTTGCCAAGGGTAAACACCAGTATGACAAGCGTGAGGCCATCAAGCGGCGGGAGCAGAACCGCGAGATTGAACGGGTAATGAAGCATTACTAA
>SRR1151252_00932 hypothetical protein
ATGCGGCAATTATATCTGCGGGATCACACAACCGACCTTCACGGGACCACGGTCATCCGTGATCACCAGGGCCGGTCTTGCTACCTCCTCGTCGGTAAGTGGGGTATGCACTACGACGTCCTTTCCCTCTATGCAATCAACGGGACCCTGCTCGCTGAGGTCAAGCAGCAGTCCTTGGGAATGCTGCCCAAGTTCGCCCTCTACCTCAACCGGCAGCGGGTCGGCACGGTCGGTAAGTCCCTAGGCTTCGTCCGCCAGGTGATCTACGTCCGGGGGTTGAATTGGTTCATCGTTGGTTCTCCCCTGGCCGGCCGCTACCGGGTCTTTCAGGGCAGTCGTCAGGTCTTCTCCCTCCAGCCAGTGGAGCTCACCGGGAACTACTACCACGAATTGAAGGTTGATCAGCAGGCTGATGAACCCCTTGCCATTTTAGTCGCCAGCGTTCTCGACCATTGGGCCCGTCGCGGACAACGTGACAAAGGTCGTCTGCGCCTCCGTCGTCCCCGCCTGGCCGACAATCTTGGAATGGACATCAAGTGTAACACTATTAAAAACGAGCAGCACCGTTGA
>SRR1151252_00933 uracil-DNA glycosylase
ATGAAACAATTAATTCATAATGACTGGTGGGATGTTTTAAAACCACAGTTTGAGAGTGCATACTATGCACAGCTACGCGAATTCCTGAAAGAGGAATATACACATCACACGGTTTACCCGGAGATGCACCACATTTTCGAGGCCTTCGAGTGGACACCCTTTCACGCGGTCAAGGTTGTGATCCTGGGTCAAGATCCGTACCACGGACCACACCAGGCCCATGGGTGTAGTTTTTCCGTCCTGCCGGGGGTTCCGGTGCCACCGTCGTTGCAAAACATTTACAAGGAACTACAGAACGACCTGGGGTGCACCCCGGTCAACCACGGCTACTTGAAAAAGTGGGCCGACCAAGGAGTCCTGCTTTTGAACTCGGTGCTGACGGTTCGTGACGGCCAGGCATTCTCCCACAAGGGTCACGGTTGGGAAAAACTGACGGACGCGGCGATCCACGCTCTGTCCGAACGTCCTAAGCCAGTGATCTTCATCCTGTGGGGGCGGGCCGCCCGTGACAAGAAGAAGCTGATCAACCTGGATACCAATATTGTCCTCGAGTCAGCCCACCCGAGCCCGCTGTCCGCCAACCGTGGTTTCTTCGGCTCCCGGCCATTCTCCAAGACCAACGAGGCACTTCAGGCGATGGGAGAAACGCCGATTGATTGGCAACTGCCGGCCCAGCCGGTGGTTGATTCGCAAATCGCAAACTAG
>SRR1151252_00934 phosphotransacetylase
ATGGAACTATTTGATGAAATTGCTGCTAAGGTAAAGGGACAGGGGAAGACGATTGTGTTCCCTGAAGGTGAGGACAAGCGGATCCTCGGTGCAGCTATCCGTCTGCAAAAGGACGGTCTGCTTAAACCAATCCTGCTTGGTACCCGGGCCGACATTGAAAAGACTGCTCAGGACAACGGCTTCGACATCGCTGGACTGACGATCATCGATCCGGTTGAATACCCAGCTGCCGATAAGAAGGCCATGTTTGATGCCCTACTGGAACGGCGGAAGGGCAAGAACACTCCTGAACAGGTGGAGGAGATGCTCAAGGACGTCAGCTACTTTGGTACCATGCTGGTCTACATGGGTAAAGCTGACGGGATGGTTTCCGGGGCGGTTCACTCCACCGGTTCCACCGTTCGTCCCGCCCTCCAGATCGTCAAGACCAAGCCGGGTGTTCACCGGATCAGTGGAGCCTTTTTAATGATTAAGGGTGACCAGCGCTATATCTTTGCTGACTGTGCCATTAACATCGAGCTGGACGCCCCAACGATGGCTGAGGTGGCCGTTCAGAGTGCCAAGACGGCCAAACTCTTTGGAATTGACCCGAAGGTAGCCCTGCTAAGCTTCTCCACTAAGGGTTCCGCCAAGGGGGATATGGTTACCAAGGTTGCCGACGCCACGGCCAAGGTTCACGAGATGGAACCAGACCTGCCGGCCGACGGTGAGCTTCAGTTCGATGCTGCCTTTGTTCCGGCAGTCGGTGAACTGAAGGCCCCTGGCTCTAAGGTTGCCGGTCACGCCAACGTCTTCATCTTCCCAAGTCTGGAGGCCGGTAACATTGGCTACAAGATTGCCCAGCGTTTTGGTGGCTTCACCGCTGTTGGCCCAATCCTGCAGGGCCTGAACGCCCCAATTGCGGACCTCTCACGGGGATGCAGCGAGGACGATGCCTATAAGGTTGCCCTGATTACGGCAGCCCAGGCACTGTAA
>SRR1151252_00935 hypothetical protein
GTGCGGCATTGGTGGACGCTGCTTTGCTTGCTGGCCCTAGTGGCTAATGTTGCCTTTCTATCCCCGGTCCATGCCGAAATGCGTGCTAGTCCGAGCACGGTCAACCAGCAGTTGGCCCAGGAGTTGGCGGACCACCGCGCATATGCTGCCGGTGATCCGGGTAACTATGGTTATGCCAAGTTTATCCACCAGGTCAGGGTGACTGGCCACCGACGGATCATGGTCTGGGTCAGCCGGCGCTTTTGTCGTCTGCCGGCGGGTGATAAAACCAGCGTGATGAATCAGGTCCAGGCCCTCGCCCGGATGGTGCTGGTTAACAACCATTGGATCGACAAGGAAAATTCCGCCCGTGGCCTGACGGTGACGGTTCGTTGCCGGGGACAGGTGGTCGGGTACAGTCAGCCTCATAACTCCTATTGCTACAAGTGGTGA
>SRR1151252_00936 tRNA threonylcarbamoyladenosine biosynthesis protein TsaE
ATGAAGAAGAAAACGTTAAGCAGCCGGGACGCGACGATTGCGCTCGGTGAACGGATTGGTCGCCAGTTGGTGGCGGGGGATGTTCTGGTCCTAGATGGGGACCTTGGGGCCGGTAAGACGACCTTTACCAAGGGCCTGGCCAAGGGGCTCGACATCCCTGACCTAATCAAGAGCCCCACTTTCACGATTATCCGGGAATACCAAGATGGCCGCCTGCCCCTCTACCACATGGATGCCTATCGTCTGGAAAGTGGTGGGGCGGAGGATCTCGGTCTCGAGGAGTACTTCGACAGTGACGGGGTAAGTGTCGTTGAGTGGGCCGAGTTTGTGGAGGACGAGCTGCCGGATGACTTCCTGGCTATCCACTTCAAGCGGACCGATGATGAGGGTACCCGAATCCTGGAGTTTGAACCGCACGGGACCCACTTCACCAAGCTAGTTGAGGACGTGGTAGCGTAA
>SRR1151252_00937 GNAT family acetyltransferase
ATGGCAGACCAGGTAACGATCAAACTGGCAACGGCCGACGATGCCCCAGCGGTCCTGGATTTTCTCCGACAGGCGGCCACCGAAAGCGACGCGGTCCTGATTCCCCACCTCGATCAGGTAACGGATGACCAGGAGCGGCAGAATATTGACCTGATCAATCGCTTCGACGACTGCGTGATCATGCTAGCGATGCTTGGGTCTCAACCGATTGGGATCGTAACGGTGATGGTCCAAGGTGACCGGCCCACTGCCGGCGAGCTTGGCGTCGTGGTTGCCAAGAATTACTGGCGTAACGGCATCGGCCGGCTGTTGGTTGAGGAGGCCCAGTACTGGTTCGCCACCTATAGCAGCCTGGATTCTCTGGTATTGACCGTTTTTGCCAGTAACACCCCGGCGATTGCCCTCTATCAGCGTTGTCATTTTGTCCAGACCGGGACGACGGTCGAAGATGGCAGGAACGTCCTGCAGATGGAATATCGTAGGTAA
>SRR1151252_00938 DNA polymerase III subunit epsilon
ATGAACTTCATCGCCATGGACTTCGAGACTGCCAGTGGCAAGCGCTACAGTGCCTGCTCGCTGGCGTTGACCATTGTCCGTAACGACCAGATTGCCGATGAGTTTTACACCCTCATCAACCCCCACACCGACTTCTTCTGGCGCAACGTCCAGATCCACGGTATCCATGAGCGCGACGTCCAGGACGCCCCGGACTTCCCGGCGGTTTGGGAACACATCAAGTCCTTCTACACGCCAGATAAGCTGGTAATCGCCCACAATAACCGCTTCGATAATAGCGTCCTCAAGAGCACCCTCGAACACTACGGGATCGAACCCCCGGCCTACCAGACCCTCGATACCGTCCGCAGTAGTCGGCAACTGATCCCGGGGCTTGCCAACTACAAGCTCAACACGGTCTGTGACGCCCTCAATATCGACCTCCATCACCACCACAACGCCCTCAATGATGCTCAAGCCTGCGCCAACATCCTCCTCTACCAGGACCGGAACTTTGGCGACCAGCGGATCCGGCCCTTCATCAAAATGTTCGGTTAA
>SRR1151252_00939 UDP-N-acetylenolpyruvoylglucosamine reductase
ATGAATGAATTTCCAGAGATTGATATCAAGCAGGACGAACCACTGATGAAGTATACCTACACGCACACCGGGGGGCCGGCCGACTGGTTAGCCTTCCCCAAGAGTATCGACGAGGTCAAGCAATTGGTTCAGTATGCCCGGGCCAACCAGCTGCCGCTGACTGTGTTGGGCAACGCCAGCAACCTAATCGTTCGCGATGGGGGAATTGATGGGCTGACGATGATCCTCACCAAGCTTGACGCCATTACCGTCGACGGCAATCAGGTGACTGCCCAGGCCGGGGCCGCCTACATTGATACCACGATTGCTGCCCGTGACCACCACCTGTCCGGGTTGGAGTTTGCGGCCGGGATCCCGGGGAGTATTGGTGGAGCGGTCTTCATGAATGCTGGGGCCTACGGTGGCGAAACCAAGCAGGTGGTCACCGCTGCCACGGTGATGCTGCCGGACGGCACAATCGAGCGCCTCGATAACGCTGGCCTTGACTTTGGCTACCGTCACAGCAGTGTCCAGGATAATCATGGGGTGGTCTTGGATGCGACCTTTACCCTGGAACCCGGTGACTATGACCAGATCAAGACCACGATGGATGACTTGAATGAACGTCGGGCCGCCAAACAGCCTTTGGAGTTGCCGTCCTGCGGGAGTGTTTTCAAGCGACCACAGGGCTACTACGCCGGGAAGCTGATTCACGACGCCGGCCTGCAGGGCTACACACATGGCGGGGCCCAGGTTTCCACCAAGCACGCTGGCTTCATTGTTAACATCGACCACGGGACCGCGGCAGATTATGTAGCGGTTATCGAGCACGTTCAAGCGACGGTTAAGGATAAGTTTGGTGTGGCGTTGCAGACCGAGGTCCGGATCATCGGTCGTAATTAA
>SRR1151252_00940 ribokinase
ATGAGTAAGAAAGTAGTTGTTTTAGGAAGCATTAACGTTGATACGACCTACCACGTTGACCGGTTCCCACAACCGGGTGAAACGATCTCAGCCAAGAGCAAGAGCTCGGCTCCGGGCGGAAAGGGTGCCAACCAGGCTGTAGCCGCTGCTCGGTCCGGTGCCAAGACGGCCTTCATCGGTGCCGTTGGTTCTGACAGTGAGGGGCAGTACATGCTGGAGGCCTTGAAGGACAACGATGTTGATACTCACCACATCACGGTTGATAAGTACCACGGTACCGGGACCGCTGCGGTTACCCTGGATGCCGAGGGACAAAACGATATCATGATTTATGGTGGTGCCAACCAGGCGATGACTCCCGAACTGGTTGCCGACATCGATGACATTTTGGACGATGCCGACTTCCTGATCAGCCAGTTTGAAACGCCACAGGATGTTACCCTGGCCGCTTTCAAGAAGGCCAAGGAACACGGTGTGACCACCATTCTTAACCCGGCCCCGGCCCACGAGATCATTCCCGACTTGCTCAAGGTAACCGATGTAATTGCCCCGAACGAGAGCGAATGTGCCCTCCTGACTGGGATTCCGGTGACTGACGAGGATGCCATGCTGAAGAGTGCGGAATACTTCCAGAAGCAGGGGGTTAAGCACCTGCTGATTACCCTGGGTTCCAAGGGTGTCTTCTACGCCACCCCTGACCAGCACGGCCTGGTTCCAGCCTTCAAGGTACACGCGGTTGATACGACGGCTGCCGGTGATACTTTCATTGGGGCGCTGAGTTCGCAATTAGAGGATGACCTGTCCAACGTTGCTGACACCCTGGTATACGCCCAGCGCGCTTCCAGCCTGACTGTTCAGGAGATGGGAGCCATGCCATCAATCCCAACGGCCGACAAGGTCAAGGCCGCTCTAGCAGAAAAGTAA
>SRR1151252_00941 membrane protein
ATGAAACACCTATCTTCCGTCTGGCGGATCTGGCTCTTCTTCTGGGTCCTGATCATCTTACTAAAGCTTTTCGCACAAGCACCCTACGACTTCATGGCGTTTAACACCTTTCTGGGTTACGTCCCGATCGAGCTGAGCTTTCACCTCAAGCGCTTCAATGACCGCCGTGCCCTCGCCTTCTGGCTGCTCCTGATTATCTGGTTGATCTTCTATCCAAACGCCCCCTACGTGATGACCGACCTCTTCCACCTCTCCTGGCTGCATCCGCACACCAGCATCAACGGAATTCTCCGCTCGGACCCGGTCATCTGGCTCAATTTTGCTATGATGATGGTCTGCGCCCTCGCCTGCCTGTTGGTAGGAACCGTCACCCTTGACCAGACCGCCCGACAATTGACTAGGCTGACCACGCCACACCAGCCAAGGCTGCGTTATCTTTGGATCGTCATCTTCATGACCATGGCTAGCATTGGTATCTACATTGGTCGCTTTCTCCGCCTTCATTCAATCTACCTGCTCTTCACACCAACTTGGTTTTTCCGCCAGCTCTGGAGTATCTGGAGCGGGCGAACAGCGGCATTTGTGGCCATCATGACCATTCTCCAATTAATCGTCTACTGGCTGTTGAAAGTCTGCCAGCACTTTAGCATTGATGATAACAAATAA
>SRR1151252_00942 membrane protein
ATGCAGTTTATAAGTTCGCTTTTGACATGGCAGAACCTGATTCACCTAATTGACATCTTAGTAATTTGGTTTCTGATCTATGAACTTCTGGTCCTGATCCGCGGGACTCGAGCGGTTCAGCTCTTCCGCGGGATCATGATCATTATCCTGGTGAAGGTCGTCAGCTGGTATGCCGGCTTGAGCACGGTCTCCTGGGTGATGGATCAGATCCTAAACTGGGGAGTGATCGCCATCGTGATCATCTTCCAGCCGGAGATTCGGCGGGGGCTGGAACACCTAGGCCGGGGAAGCTTTCTCAGCCATAACCAGTCCACCAATGAGACCGAAGAAGAGATGATCAAGCAGCTGGATCAGGCGATTCAATACATGTCGAAGCGTCGGATTGGGGCCTTGATCAGTATTCAGATGAAGACCGGGCTGGAGGAGTACATCGAGACGGGGATCCCGCTCGATGCGGATATCTCCGGCGCCCTCTTGATCAATACCTTCATTCCTAACACCCCCCTGCATGATGGGGCGGTGATCATCAAGAACAACCGGATCGCGGTCGCGGCGGCCTACCTGCCCCTCTCGGACAGTAAGCTGATTCCCAAGGAATTGGGGACCCGGCACCGGGCTGCGGTCGGCATCAGTGAGGTGACCGACGCGCTGACGATCGTGATCTCCGAGGAGACCGGGGAAGTCTCGATTACCAAGGACAACGAGCTGATCCGCAACATGTCGCAGAACGATTACCTGAAGTTCATGCGGTCGCAGCTGTGCACGCACGAACCGACACATGACAACCTGTTGACGCGACTCTACTCACTCTTTGAGCGGCAAGGAGGTGGCCAGCATGGGCAGAAATAA
>SRR1151252_00943 hypothetical protein
ATGGGCAGAAATAAGGGCTTCTTCAGTCATAAGTGGGTGATGCGCCTGGCCTCACTGGTGCTGGCAATCCTCCTGTTTGCCTACGTCAACGGGAGTAAGAATGGCTTTCTCCGGCAGAACACGCGAAACAACAACGAGAATAGTGCCCTGATGTCCAACAAGTCGGTCACCCTCAAGATGCCGCTGGACATTACGGTCGACAACGCCAAGTACGTGGTTTCCGGCTACCCGCAGTACGTCAAGGTTCGTCTGAGCGGGCCGTCCGCACTGGTTACAACAACCAGTAACACCCAAAACTTCAAGGTATACGCTGACCTGAGCAATCTCAGCTCGGGTAAACACCGGGTACCGATTAAGACCAGCGGCTTAAATTCGGAACTACGAGCAACCGTTGAACCAAAGAATATTGCGGTTCAGATTCAACCCCGGCGGACGGTCAACGTTAAGGTCAGCGTCCGGCTGAATGACCGGAACCTGGCTGACAATTATCAGACTGGTCACCCGCACGCGGATGTGGATAGTGTCCAGGTTACTGGGGCCCAGAACGAGGTCCGGCGGGTGAACCGGGTGGTCGCTTACGTGGTGGTTCCGCGAGATGCCAAGGACAACCTGCAGCGGCAGGTGACCCTTCAGGCCCTCGACCGGAATGGTCAGACCTTAAACGTGGTGATCTGGCCAGCCACAACGACCGTTACGGTGCCGATCAGTTCCAAGACCAGTGATTCTTCCAGCAGCCATTCGGGCTCTGATAGTAGCACATCGTCGAGCGCGTCATCGGATAAGAAAAGGGTGCAAACCCAGTCGTCAAGTAGTAGCATAAGTAATAGCACAAGTAGTGATTCGGAATCAGCTGCCACAAGCAGCAGTTAG
>SRR1151252_00944 phosphoglucosamine mutase
ATGAAACTTAAGTATTTTGGTACCGACGGTGTTCGGGGAGTTGCAAACGAAGATTTGAGTCCAGAACTGGCCTTCCGGGTTGGCCGGGCCGGTGGTTACGTCTTGACCCGGCATTCGGACCGGAAACAGCCCCAGGTACTGGTGGCCCGGGATACCCGGATCTCCGGTCAAATGTTGGAAAACGCCCTGATTGCGGGGCTACTTTCGGTTGGGATTGAGGTTCTGCGGCTCGGTGTGGTTACCACACCAGGGGTTGCCTACCTAGTACGGGCTCAAGAAGCTGATGCCGGGGTCATGATCACGGCTAGTCACAACCCAATCAAGTACAACGGGATTAAGTACTTTGGTGGCAACGGCTTCAAGCTCTCCGATGACCTAGAATACGAGATTGAACAACTCTTAGATGCCGAGTCTGACACCCTGCCACGGCCTTCTGATGAGGGGCTCGGGACGGTTGCCGACTACCATGAAGGAGCATTGAAATACACTTCCTTCCTGGAGCAGACGGTTTCAACTGATCTTTCTGGTTTGAAGGTCGTCGTTGACGCAGCTAACGGGGCAACGAGTGGCTTTGTCTCCAACCTGTTTGCGGACATGAATGTTGATTTCGTGCCGATCAATGACCAACCAGATGGCCTCAACACGAACCTCAACTGTGGTTCTACCCACCCGGCAGGCCTGCAGAAGGCCGTTGTTGAAAACGGTGCTGACCTCGGGGTAGCCTTCGATGGTGATGGCGACCGTTGTATCGCGGTGGACAACGAGGGTAACATTGTCGACGGTGACAAGATCATGTACATCTGTGGGAAGTACATGGACAGCAAGGGAATGCTGAAGAAGGACACCGTAGTCACGACCGTGATGAGTAACCTGGGAATGTACAAGGCTCTGGAGTCACACGGGATGAAGAGTGTCAAGACCAAGGTTGGTGACCGCTATGTCGTTGAAGAGATGCTGAAGAATGGTTACAATCTTGGTGGTGAGCAGTCCGGGCACATCATCTTCCTGGACCACAATACCACCGGTGACGGGATGCTGACCTCCCTGCAGCTGCTCTCCGTGGTTAAGGAGACCGGTAAGGGCCTGAAGGAGCTGGCCAGTGACGTAACGACCTACCCGCAGGAGTTGTTGAACATCAAGGTGGCTGACAAGGCGGCTGCAATGGAGAACCAGAAGCTCAAGGCCATTATTGCCCAGGTCGAGGACGAGATGCATGGCGATGGTCGGGTCCTGGTTCGGCCGAGTGGGACAGAACCACTACTGCGGATTATGGCTGAAGCCCCGACTAAAGAACTGGTTCACCAGTATGTTGAGAAGATTGGTGACGTGGCCCGGGCCGAATTAGAAGTTAAATAA
>SRR1151252_00945 glucosamine-fructose-6-phosphate aminotransferase
ATGTGTGGAATTGTTGGAGTTACAGGGACTGATAACACCCTGTCAATCTTAATCAATGGTTTGAAAAAGCTGGAATACCGTGGCTATGACTCCGCGGGTGTCTATGTCAACGACAATGCTGGTCATGACTACCTGGTCAAGCGGCCGGGGCGGATCAGTAACCTGGAGGCGGCCCTGACCGATGATGTACATGGCCTTTCCGGGATTGGGCACACCCGTTGGGCAACCCATGGTGAGCCAAACGAGGCTAACGCGCACCCGCAATACTCCCAGGATAACCGCTTCTACCTGGTGCACAACGGGGTTATCGAAAACTACGCCCAACTGAAGAAGGAGTACCTCTCCGGCGTTCACTTTACTAGCCAGACCGACACCGAAGTCATCGTTCAGCTGGTTGATAAGTTCGTCGTTGAGGATCATATGGACACCCAGGCGGCGTTGCTTAAGGTCCTGCGCCTGATCAGTTCCGATTCGTCATATGCCTTCGTGATGATCGATCGTGAGGACCCGGAGACCCTTTACGTTGCCAAGAATAAGAGCCCGCTGTTGGTCGGTCTGGGTGATGGTTACAACATGGTTGGTTCCGATGCCATGTCCATGCTTAAGGAAACCAACCGCTTTATGGAAATTGCTGACCACGAGTTGGTCATCGTCAAGCCTGACCACGTCCTGATCAAGGACTTCGACGGTAACGAGAAGCACCGTGACAGCTTTACGGTCGATATGGACGCCAGTGCGGCTGACAAGGGTGCCTACCCGTTCTACATGCTCAAGGAGATTGATGAACAGCCAGCCGTAATGCGGAAGCTGGTTCAGGAATACTTTGGGGACCAAGACGACCCGCAGATCAACCCTGACCTGCTCAAGGCAATGGCTGACGCTGATCACCTTTACATCGTTGGCGCCGGGACAAGTTACCACGCCGGCCTGGTTGGTGCCCGGATCTTTGAGCGCCTGTGTGGGATCCCGACTTCCGTTCACATCTCATCCGAGTTCGCCTACGACCAACCGTTGCTCTCTAAGAAGCCATTCTTCATCTTCCTGAGCCAGAGTGGGGAGACGGCCGACAGCCGTCAGGTCCTGGTCAACGTCAACGAGCACAAGTGGCCAAGCCTGACCATCACCAACGTTGACAAGTCCACCCTGTCCCGTGAGGCTACCTTCACGGAGCTGCTTTACGCTGGCCCGGAGATCGCCGTTGCATCTACCAAGGCCTACACGGCACAGATTGCGGTTGAAGCAATCCTGGCCAAAGCCCTGGGCGAATACCTGGGCAGGGACGCTGCCAAGCAGTTTGATGTTAAGCACCAGCTCGGTCTGGTTGCTAACGGGATGCAGTCGATCACCGACAGCAAGAAGACGATTGAAGAGGTTGCAGCACGTTACCTGTCTAAGCCACGCAACGCCTTTTACATTGGGCGGGGCCTCGACTGGACGGTTTCTCTGGAAGCGGCCTTGAAGCTTAAGGAAATTTCTTATGTTCAGGCCGAAGGGTTCGCGTCTGGTGAGCTGAAGCACGGCACGATCGCCCTGATTGAGAAGGGGACGCCAGTACTAGGGATCATTACCCAGGATCGGACGGCCGGTCTGACCCGGAGCAACCTGGATGAGACCAAGGCCCGGGGTGCTAACACGATCACCATCGTTTCCCGCCACCTGGCCCAGGAGGATGGCACGATCATCCTGCCGGACGTCGATGAATGCCTGACACCACTGCTGAGCGTGGTTCCGGCCCAACTGCTGGCCTACTACACCAGTTTGGGGAAGGGGCTCGATGTCGACAAGCCACGTAACCTGGCCAAGTCCGTTACGGTTCAATAA
>SRR1151252_00946 hypothetical protein
GTGGAAAAGCAGCATCAGGTATTGACGTTAATTGAGCAGATCACCCGTAATGATGGGAGTAAGTACTTCGAGATCGGCAACATGGTTCACAACGGCCGGGCTGAATTGGCGGCCGAGCGCGGCTTCATCAAGGAGGTTCGGATTTTGCAATTAAACATTCCCCATTCACGGAATGTCATTCGGTATGAAGACTTCATCAACAGCCATTATCAGATGCAGGACGAGTCCATGGATCACTGGGAGGAATGGAAACGGACGCCTGAGATGGACCAGGTCGTCGGTGACATTCTCAAGGAAAATCATATCGGGTAG
>SRR1151252_00947 acyltransferase
ATGAAGACAATCGGGCCAAAGCAGTATATAACCGGGATTGACGGTTTACGGACGCTGGCGGTGCTGGGGGTAATCATCTACCACCTCCTCCCCAACGTCTTGCAGGGTGGTTACCTGGGGGTGCCGCTCTTTTTGCTGATTTCGGGATACTTTGTGACTTATCAGTTTAGCCGACAGTGGATGGCCGAGCAGCGGCTTACGATCGGCCACTTCTACCATAAGCGCTTTAAGCGACTCTACCCGGTCTTGATCACGATGCTGATCCTGACCACGGCTTACATTACCCTCTTTGCGCGGGAACTGCTGCATAATATTAGGATGACCGTACTGACCAACCTGCTCTGGGTCTATAACTGGTGGGAGATCGGGCATGGGCAATCCTACTTCGATCAGTTTGGCGGGGCCTCCCCATTTACCCACCTGTGGACCCTGGGTGTTGAAGCCCAGTTCTACCTCTTGTGGCCGTTGATTATCTGGGGACTTTATAAGCTCGTGCACCGGAAAGTGATTGTACGGCGGATCGTCCTCACCCTCGCCGTCCTGTCGGCGGTTGAGATGGCGATTCTCTATGACCCGGCTAACATCAACCGGGTTTACTACGGGACCGACACCCGAGCATTTTCTTTATTGCTGGGTTCCTGGCTGGGGCTGGCTTGGCCGTTGAACCGGTTGAACCCACACCCCACGAGTTACTTGCGTCAGTTGTTGAACGTCGTGGGGATTGTCATGACCGCAATCACGGTTATTGGCTTCTTCACCCTTAATGGGCAGAGCAGCTTCACCTACCGCGGCGGGATGTTCCTGTACAGTGTTGTCGGGATGCTGCTGATTGCCACTATCCTCCATCCCGGCTCGCGGATGAATGCCTGGTTCTCCAACCCGGTCTTTCACTGGGTGGGGCAGCGCTCCTATGGGATCTACGTTTATCAGTACCCGGTGATGATCTTTTATGAACGGATTGTCAAGGTTGGCCTGCACCCGGTCCTCAACGCGATCATCGAGCTGGCGATCATCGGCTTGATCAGTGAGGCTTCCTACCGGTTCCTGGAGCGGCCCTTAGCCCATGCCGACTGGCCTAAGCTGCTGGCCGGTTTGGTAAACTATCGTAGTTGGCACTGGACAACGGTGACCAAGTTAGCCTTTAGTGCCGTGATGGTCCTTGTCGCTGTCGTCGGTCTGTGCCAACCGGATCGTGGTCCTAAGAAGACGGCCGTCCAGCAGCGCATCGAGCAGAATCACCAGCAGGCGGCCACCCATAACAAGGAGATTGCGGCCGGCAAGAAGGTGACGACCAATACGAATGCTAATGCCAAACAGTATGTGTTGACACCGACTGAGGTCAAGCAAGCCCAAAAACTTAAGATCACGGCGGTCGGTGACTCAGTCATGGCCGATGCCTCTGGAAGTATTCAGAAGTTGATGCCTCAGGCCTACGTTGAGGCCCAGGTCGGTCGCCAGGGCTCAGCCACCCCAGCGGTGATCAAGCAGCTCAAGGCGCAGGGCCATCTCAATAAGATCGTGGTGTTGAACCTGGGAACCAACGGGGCCATGAGTCAGCAGACCATTGATGAAATTCTGGATACAATTGGCCCTGACCACCAGGTTTACTGGTTGACCGCCCACGTGCCAACCAAGCCATGGCAGCAGACTGTCAACCGCGAGATCGCGGCGACTGCCAAGAAGTATGCCAATGTCCACCTGGTCGACTGGTATGGGGTGAGTGCCAAGCATAGTGAGTGGTTTGCCAGTGACTCCGTTCACATGGGGGAACGGGGAAACAATAGCTATGCTCGCCTGATTGCCAAGTCAATCCTCGATAATCAGAAGGGAGATTAA
>SRR1151252_00948 MarR family transcriptional regulator
ATGGCAGAAGATGAGTTATTAAACCAGGCGATCGACATCTACATGTCATCATTGAAGGGCTTGGAGCACTTTGTCTCACAGCCGGCCGCGCGATATTCCCTGTCCTTTGAACAGTACCTGATTCTCCAAGAAGTAGTCAGGTCACCGGGAATAAAGCTGATGGATATCGCCGAGAAACGCCGGGTGACCAGGAGTGCTGTCTCCCGGCAGCTGCGCGTGTTGATCAGAAACGACTACATCAAGCAGGAGCCCGACCAGGCTGACCGGCGCAAGGTTTCCCTGGCGGCAACTCCTGCGGGGCGGGCCGTGGCGATTAAGATTGAGCGTCGGATCAGTGAGCGTTTTGCCAAGTGGGTGGCCGTCTTTGGTGAGGAGCGAGGGCGGCTGCTCCTGCAGCTGTTGGACGAATCCAACCACCAGGTGATCCAACCGGAAAACGATAGTAAATGA
>SRR1151252_00949 haloacid dehalogenase
ATGATTAAGATGATTGCACTTGACCTTGATAACACACTGTTGAACAGCAATAAGGAGATTTCCACCCGTAATGAGCGAGTACTGCGCCGTCTCCATGACCAGGGAATCCACGTCGTCCTTTGCACGGGGCGGCCAATTAACGCAATCTGGCCATACATTGAGCAACTGGGCCTGACCCAACCGGATGACTTCACCATTACATTTAACGGGGGGCTTGTGATTAACAACGTCACTAAGGAGCACCTGTTTGAACTCGGTATGGGTAAGCAGGACCTGCAGCCATTATTTGACTTTGTCCGCCAGGAAAATATCCCGCTGGACGTGCTGGACTTTGCCCGGGTCTACGAGCTCAGTGACCAACCGGCTTCGATCTATCGGACGGTCCTCAAACACATCGAATTTAGGGACACCAGGATGGCCGACCTGCCAGATACCACCTTCAGCAAGGCGGTGATGGCGATTCCGGCTGAACAGCTCAGTCCGATCATTGCCCACTTGCCGGCGGCGTTGAAGGAACGCTACCATGCGGTGCAGTCCCAGGCGATGATCATGGAATTCTTGCCCAAGCAAGTTGACAAATACGTCGGCCTGCAGGCGTTGCTTGACCACTTTGGCGATGACTTTAGCAACCTGATGGCCTTTGGGGATGCCGATAACGATCTGGGGATGATCAAGGCGGCCAGTCAGGGGATTGTGATGGCTAATGGCTTGCCAGAGGTCAAGGCAGCGGCTACCGCCCTGACCGATTCTAATGACGAGGACGGGGTAGCGACCTACTGTGAACGTTACTTTGCTGACCAGCTAAATTAA
>SRR1151252_00950 peptidoglycan-binding protein LysM
ATGATTTCTAAGAAAAATATTGTAAAGACAGTAGCAACTCTGGGAACGGTCGCATTAGGTGTTACGGTAGCCACGACGGTTGCTAACGCCGACAGCACTTACACCGTTAAGAGTGGAGACACACTTTCCAGTATTTCTCAGAAGTTCGCAAATGACAACAGCCTTGTAAACAGCATCGCTCAGGACAACCACATCGCTGACATCAACAAGATCACCGTTGGTCAACGTCTGGTTATCAAGGGCGACCACAGTGAACAAAACTCTCAAAACAACACCAGCGTTGCCAGTCAACCGGCTCAGTCAACGGCCAACACCGCAACCCAGAGCCAGGGCAGCACGACCAGCTACAACTCTGGGGTTTCCGGTAGTGACGCCGCTGCTAAGGCCTGGATTGCCGGCCGCGAATCTGGTGGTAACTACGGGGCCCGTAACGGTCAATACGTTGGTAAGTACCAATTGTCCGCTTTCTACCTGAACGGTGATTACTCTGCCGCTAACCAGGAACGGGTTGCCGACCAGTACGTTGCCAGCCGTTACGGTTCATGGACTAACGCCCAACAACACTGGATGGCCAATGGTTGGTACTAA
>SRR1151252_00952 hypothetical protein
ATGAAAAAGATAGGTTTATTTTGTGCCACCGTCCTAGCAGGGCTTAGTCTTGCCGGGTGTAATAATCTGGCGTCACAATCGCACAAGACGACCAGCAGCAGTTCGTCCATTAAGGTAGTTAAGCACCACAAAGGCCATAAGAAATCCAACAAGACCAGCCGCAAGGACAAGCAATCATCATCCAGTAGCAGTAGTCAATCAACGTCCAATGGTAATGCTACTAACCAACAAGGTAATAACAGTGGTCAACAGGCTACCGCTCAATCTAATAACAGCGGCCAGCAACAAGCACAAGGCAGCTCACAGAGTAATAGCAATATAAATAACGCAGATCAAGCACTCGCCGCAGCCCGTTCTAAGTATGGCGATGGTAACGGCAATTACCACTGGACAGTAATGTATGACGCAAGCACCGGGCAGCCTATCCGTAATGATGATGGTTCCTATTTTGTTAAAGCTATTGACCCAACTCAAGGAACAATGACTGGAACCGCCCAAAGTGTCAACGTTTATCCAGATGGCTCAATGACTAATAATTAA
>SRR1151252_00953 hypothetical protein
ATGTCAATCATCCCCACCATTAATAAGAAACAGGCTGCCAGCATTGCTAAAGGCTATTTAAGGCAATTCAAAGACTGGCAACTAATATCGCTTAGGCTGGACGATAACAACCCCAGAGCTACCGACCAGGCGCAGCAGGAACACGTTAAAGTCATGTTTGAATTACAAGAACGACAGAACATTATTAAAGCAATCAGCAAGGACGACCAGGCCAGCAGCATCATCTTAGATCAACGGTTTATTAAGCAGCACAGCACTAAAAGGACGCTGGCAGAGCTGGCAACCAAACACCACAGCATTACAGAGGGCAACTTTTATCATCGTCAACGTAAGGCACTATTGATGGCCTACTACCTCATCCCCACTGACCAGGTGAAATTAGTAAGGTGTGAATAG
>SRR1151252_00954 hypothetical protein
ATGGCCCCGTTTAAGCAAGAAATGACAATGACATTTCAGCCGCCGCTGTTCATGCTTGGCTTGCGCCGTTTCACCATAGTAGTGATGGTAAAGGAAGTAATCTGA
>SRR1151252_00955 NADPH-dependent FMN reductase
ATGACAAAATATGGTGTAATTGTAGGTTCTATTCGTAAAAATTCTTATTCTAAAGGGGTCGCTGAAGCCATCGTTGCTGGGTTACCAGACGACGCTGAAGTAACGTACTTAAATATCGCTAAGTTGCCACTATATAACCAGGACTACGATGCGGATTCACCCGTAGAATATACAGAATTTCGTCAGGCCGTTGCGGCTCAAGATGCGTTCATCTTTGTCACACCTGAACATAACCGTAGCATCCCAGCAGCCTTGAAGAATGCTTTGGACGTTGCTTCACGTCCATGGGGTCAAAGTGTTTGGGGCGGCAAGCCTGCTTTGGCTGCTTCCCAATCGATCTCTGGTATCTCTGGCGTCTTAGCACACCATGTTTTACGTCAATCCTTGGTCTTCTTAGACATGCCAACGATGCAACAACCAGAATTGTACATCGGTAATACTGATAAGTTGGCTGATGAAAATGGTCATATCACAAATGAAGGCACCCAATCATTCTTAGCTGGTGCTGGTAAGCAATTCAGCAAATTTGCAGCGAAGTTTATTGGCTAA
>SRR1151252_00956 alpha/beta hydrolase
ATGAGTTTCTATGGTGATGAAGTAGTCGAGAAGATCGACTCCGCAACTCCCGGCTTGAAGATCCTGACGAGGACGAACCTTGCTGCAACCCCGCAGGCCAATATTATTATTTCACATGGCTTGGCGGAGTACTCTGGGCGCTTTGACCCAATCGCCAGCTACCTAGTCAAGCATGACAACAATATTTTTCGATACGACCAGCTTGGCCATGGCGGCTCTGATGGTGAGCGGGGGTTCCTCGCGTCACCGGACGACCTGTCGGATAATCTCAAGGTAATGGTTGACCGGGTCGAGGCCAAGTACCCAAACCTGCCAACCTTTATCCTTGGTCACAGTATGGGCGGTGAAACGGTCCTCCTGTACGGGGCCAAGTATCCCCACACCGTTGATGGCATGATAGTTACCGATCCGGTTTCGCTGTTTGAGGATCAAGAGATTGGCATGGCGAAACAACTGCCGGTTTCTGGTGATGAAAAGAAGATTATTCCCAATTCAATTGGTGAAGGCCTGGTCACTGACCAACGGGTGGTCGAGAAGTACAAGCATAACCCGCAGGTTCTTCACCAGCTGACGGTGGGGATTGAAAATGTCCTTTATCAGGGGGCCCGCTACCTCCGTGAGCACATTGACCAGATCAGTGATCCTATCCTCTACCTGCAGGGTCAGGCGGACGGTCTCCTTTCCTACCGGGATGCGCTGAAGGCCTACGCTCGAATCTCTTCGCCAGATAAGGAGCTCCACGTTTACCCGTTCCTCATGCATGAGATCCTGAATGAGCCCAGTCGTAAATGGGAGATCTATGGCGAAATTAATCGCTGGGTAAGCAAACGGATCTATTGA
>SRR1151252_00957 hypothetical protein predicted by Glimmer/Critica
ATGACGGAAAAGGAACGTCAGTTTGTGCAAGCAATGGTAAAGGTGGGGCATCCCAAGGTGAAAGCACAGGAGATCGGTCATCAAATGGGTCAGAAGCCGGGTTATATTTCTGTTTATCAGCGCAAGTTAATTGATGATCAGATTATTATGCCGGCTAGTTATGGCTATGTGCAATTTATGTTGCCATTTTTTGACCGGTTTGTTGAGAAACAAATCATGTTTGATGAATTTTAA
>SRR1151252_00958 hypothetical protein
ATGAAATGGTTTAAGAGGAAACCAGAGGCTAAGCAGGAAGACAATAAGCCCGAAGAAGCTGAGCTTTCTCCTTTTGAAAAATACGAACAGCATTATCTTGACACATACAAAAACTGCTCTGATAATACGAGGTTTCATGTAACAACTACTCTGGATAGTGGTCATCAAATTAAGATCACAAGAAACAAGACCACCGTCGTATGGATACTAGCTTGCTTTGCGGATAAGATTGTATGTGGTCTAACCTACGATGAATTGTCTCATGAGCACGATGTTGCCATTGATTTTAGTAAAGTTACTGACATATTCATTGACAAAATTGAAGATGTGGAAAGCGATCTGGAAGAATTGGAGACTGATTAG
>SRR1151252_00959 nucleoside deoxyribosyltransferase
ATGAGTAAGAACAAGACGGTATATTTCTGTGCAGGTTGGTTCACTGATAAGCAAAATAAGGCATACAACGAGGCAATGGAAGCCATTAAGGCCAACCCAACTGTTGATGTAGAAAACTCCTATGTACCATTACAACATCAATACAAGGGGCTGAGAGTTGATGAACACCCTGAACTGTTAGAAGACCGTGAATGGGCTGCCGCTACTTATAATGGGGACCGTGTGGGTGTTCAGACCTCTGATGTAATTATGGCTGTATATATTCCAGACGAGGAAGATATTGGCATGGGTATTGAATTAGGAATGGCCCGTGCTCTTGGCAAGTACAACCTGATCGTGATCCCAGATGATGAATGGGGTAAGCCAATTAACCTAATGACGTTTGGTGCGGGTGATAACTTCATTAAGTTGTCTGAATTGAAGGATTATGACTTCAACAAACCGTCATTTAACTTCTATGATGGGGCGGTTTACTAA
>SRR1151252_00960 hypothetical protein
GTGCGGATTAAGATCGCAGGTGATTATAAGTGGTTGAGTACAATTGAGTTCCTGCGCGAAGCACGCCACCGATGTGAATATAAACTCGTCAGTTTGGCGAACGATGCCAGGGATGCAAAATGGTCGGGTGCAATTTATACACTTGCAGACGATACCGCTGGAATGGGAGAGTTGTGTCAGTGGAGCTTCTCAGAAAGAACCACCCCCAATCTTCGTCTTGATGATTTTTTATTGGAGCCTGAAGATGAAGATTGTGTTTTTGATGGTGATTATGAAGAGAGTGAAAAACAGCACTACATTAAGCTTATGGAGTTGTTTAAGCTCTATTTGAATACGCCGACAAATAAGCGCGGTGACGGACAGGTCCCACTGTATCTCATTACGGTGGATGGCAGCTTCGATGATGAAAGCTTGACCATCGAAGTGGCATGCGACACAAGAAGGCGTGAGAATTGTATAGAACGAGTATCATTGTTCGCCACAGAGGACAATATTAATGAATATGATTCTCTTGATCATATAGATTTTCTTTATTTGGAGCATATAGTCAATGCGTTCGAGGTGCCATATATCCAGCAAGAATATGGCAATACGACGGCACATGAAGTGTCCAATGTAACTAACTTTAATTATACATTAGAGCGCATTAATGACTATGTATAA
>SRR1151252_00961 membrane protein
ATGATTGGAACATACGCAAACGTCACCGCGATCCTGGTCGGCACCACCATCGGCTGCCTGCTAAAACGCGGTATCAGCAAGAAGTATGAGGACGCCCTCTTCACGGTGATGGGGCTCGCCGCCCTGGGGATCGGCCTTGAGAACGTCGTCAACAATCTACCGAAGAGCCACTACCCGGTCCTCTTCATTGTCAGCCTGGCGATTGGGACCCTGCTCGGCACCCGCTGGGACCTCGACAGTAAATTTGACCACCTGATCAGACAATTCGGGGGTAAATCCCAGCTGGTTAAGGGGCTGGCCACCGGGATCCTCCTCTGCTGCATCAGCGCCCTCTCAATCGTCGGCCCGGTGATGGCCGCCGTCCGCGGTGATCAGACGATGCTTTATACCAACGCCACCCTCGACCTCGTGACCACGATGGTCTTCGGTGCCAGTTTTGGCTGGGGGATGCTCCCCTGCGCCCCGGTCCTCTTCTGTTGGCAGGGTGGCATCTACCTGGTCGCCAAGTACCTGTCGGCCAGCTTCTTCACCGGACCGCTAGTCACCGAGATCGCCATCGTCGGCGGTTTCCTGATCGCCACCACCGGGATCACCCTGCTCAAGCTCCGCAACATCAAGACCCTCAACATCCTGCCGGCCCTCCTGGTGCCGATCGTATTCTTCATCGTCATCGACCTAGTCTGA
>SRR1151252_00962 glucose uptake protein
ATGGCATCCTTGATCGCACTGATCAACATCGTTGCCTGGGCACTGATTCCCCTGACCGTTCGCAAGTCCCCCGCCAGCCAAATTGCGGGGATGGGGATCGGCGCTTCAGCAACCGCACTGATTATCTACCTGTTCACCCGGCCGGCCTTTGACCTGGCTACCTGGGCCGTAGCCTTCTGTGCTGGGGCCCTCTGGACGATCGGGCAGATGGGACAGTTCATCTCATTCAAGCGGATCGGCGTCAGCGGGACGATCCCCCTGTCGGCCGGTTTCCAGCTGGTCGGCAACTCCCTGATCGGGGTCCTGATCTTCGGCGAGTGGCCATCTGCCACCGCCAAGGTGATCGGCTTCATCGCCCTGGCCCTGGTGGTTGTCGGCATCGTCCTCAGCTCCAAGAGTGACGATCCCTCCGGCGGTAACGCCAACGCGGGCAACGTCCTCTTCCTGCTGGCGACGACCATCGGTTTCTGGATCTACTCCAGCTTCCCGAAGCTGATCAGCAAGGACATCAACCCCGGGGTCAGCGGGCTGGACTACCTCCTGCCTGAGATGGTCGGGATCCTGGTCGGCACCACGATCTACGTCCTGGCGACCCACTCTGGCCGTGTCTACCGGCAGCGCGCCACCTGGCACAACGCCCTGGCCGGAATTGAATTCAGCATCGGGACCCTCTTCTCGGTGAAGCACAACGGGGTCACCGACGCTTTCATCTACAGTCAGCTGAGCTCAATCCTGTCGACCTTTGGGGGGATCCTCTTCCTCCACGAACACAAGACCCACCGCGAGATGATCTACATCACGATCGGCCTGGTCCTGATCGTCGGCGGCAGTATCATGACCGGCTTCGCTAAGTAA
>SRR1151252_00963 hypothetical protein
ATGGCAAAAGCAACCACCCTGGCCGAACTGGCCAACAGTCTCCCGGATTCAATCGACCCGGGCCGGTTCACGGCCGACCTCCTGCAGGCCATCGAACGCCTGCGCCGGCGGCCCCTCGACATCTACTATGCCGGGCCGCGGAGCTTGCGGGTCGACGGGATCACGATGATGGTCGACCTCCAACCCAAGCAGGCGGTGATTACTCACTTCGCCGGCCGGGCCGTCAACGTTCAGGTTCCCTGTTAA
>SRR1151252_00964 hypothetical protein
ATGAGTAAGAAACACGCCAAACAGCTTAAGAAAGTCAAGGCGGACCGCTATGTCTACATGGTGATTGAAACAACCATCTTCCAGGATGGCAGCAACCTGCGGACCCAGAACTTCTGGGCGGCCCACTCCTATAAGCGGGCCTTAAAGATCGTGGCCAAGCAGGCCAAGAACTACCAGAAGCGGGACGCTCACGTTAGTTTTGCCTGGCAGCCGCTCAGTCAGGATATCATCAACGATGGCCTGTTGCGTCACGCGATCATCGACACAGTGGTCGATGGCGGGGACGGGGAGACGCCCATGAACGTTCGGGTGGCCATCAGCGTCCAACGCCTGGTCACCGAGTAG
>SRR1151252_00965 exonuclease SbcC
ATGCGACCAGTAGAAATTAGATTAAAAAACTTCGGTCCCTACGCGGATACGGTGGTCGACTTCACCGAGTTTGACCAGCGGCCGCTCTTCCTGGTGGCCGGCAATACCGGGGCGGGGAAGACCACCATCTTTGACGCGATGTGTTATGCCCTCTTTGGCCAGACCACCAATGAACAGCGGTCGGCGGCGGCCCTGCGTTCCGACTTCGCCCCGGCCGACCAGGAAACATCGGTGATCTTCACCTTTGTTCACCAGGGGCAGAAATACCGGGTGACCCGGCGGCCCAAGCAGACCCTAATCGGGCGCCGCGGCCGGCCGGTCGAGCACAACCAGGCCGTTGAGCTGGTTTACCCCCTGGAGAGCGACCAGCCCCACGAGATTACCAAGATCAAGGAGGCCGATGCCTTCATCACCGACCTGCTCAACCTGACCCGGGACCAGTTTCGCCAGATCGTCCTCCTCCCCCAGGGGAAGTTTCGTCAGTTCCTCGACTCGGACAGCAACACCAAGGAGGAGCTGCTCCGCGACCTCTTCAACACCACTGTTTACGAGCGCTGGACCACGGAGCTCAAGACCCGGCTAGCCAAACGCAAGCAGACCCTGGCCGACCAGGCAACCAAGCTGCAGACGGCCAAGGAAAACGTCAGCACGGTGGACGCCCAGCTGGGAACCGATGACTGGTTAGCAGCCATCACCAGTCAGCTGACCGACCTTGATGCGGCGCTGGCCAAGCTGGCTAAGCAGCGGAGCGCCCAGCAGGCCGCTGTCGACCAGGCTAGTAGGCAATTGCACGCCGACCAGGAATTGACCAAACTACAGGCGGAGCTGACAACGGCCAACCAGGCCGCCGCCAAGTTGGCTAAGGAGCGGGCGAGCGTGGCTGAACAACAGTCCCAGCTTGCCGACCTCCAGTGGTTTCAGGTGCACCGAGCCAGCTACCAGCAGTGGGCGGACGGTGCCCAACGAGTCACTGACCAGGAGAAACGACTGACCCAGTTGAAGGGGCAGGTGGCGACCCTGGACGAACAGCACCAGGCCGCTGTTCAGCACTATCAGGCGTTGACCAGCCGTCAGGATGAGATGGTGCAGGTGCGTGACCGGGCCAGTGAACTGCAAAAGCGGCTACCCCTGTTTGCTGAGTTTAGCCGGCTGACGGACCAGGTCAAAAGCAGCGAGCACCAGCTGGCCACGGCGCAGGCGCACCAGGCCGCCCACCAGAAGCAGGTAGCGGACCTGGCCGAGCAGGTCGCTAAACTGACTGCCCAGTTGGCCAGCCGCGGTGACCTGGCGGCCCAACGGCACCAGGTTGATCAGGATCAGCACCACCAGGAGGACCTGGACCGCGCTGGTCAGACCGTGAATGACCTGATTAGTAAGCAGGCCGCTGCCGGCAAGCGCCAGGCGGACCTGATGACCAAATTGAAGAAGCAGACCGCCGTCGTTGCCCAGCAGGCCCAGGCCCTGGCCGACCTCAACGACGCCGATGCGCGCTATCAGATTGCCCGGCTAGCCACGCGGCTTAAACCGGGGTCACCGTGCCCGGTCTGCGGGGCCACCGACCACCCGCACCCGGCCCAGGTGGCAAATGGCGTACCAGTGGTTACCGATGACCAGCTCCAGGCAGCCAGTGACCGCCTCCAGGGCAGCCGGGACACCCTGAGCCGCCTACAGGAACAGGTAAAGCAGGTCCAGCAAGAGCAGGCGGACCTCACCGCCCAGCTGGTGACCGCCCAGGCTGAGCTGGCAGGCCTGCTAGGCACCACCCAACTGCCGGATGACTGGCAGAACCAGCTTGACCACCACCGGCAACGGGTCCAGGCAGCGGCCCACCAGTGGCGGGAAGCCCAGGCGGCGGCAACGGCTGAGCAGGACCAACTGGCTGCCCTTCAGGAGGAGCAGGCTGCCTTGCAGGCCCCACTAGAGAAGGATACCGCGGCGGTGCAGGCGGCCCAGGCAACCCTGACCCGCCAGCAGGCGATCCTGGAGACCAAACGGGCAGACCTGCCGGCCGGGATTGCCGATGAGGTGGCAGCCAAGCGCCGGTTGACCGCTCTCCAGGACCAATTCCAACAGTTTACTGACCAACTGACCGCCGCCGACCAAGAACGACAGGGACTGGCCCAGCGCCAGGCGGTCACCAAGAATGCCCTGAAGACGACCAAGAGTGAGCAAGCGTCCTTACATGATGAGCAGACGGCTCGCCATGAACGACTGCTGGCGTCCCTACACGACTACCGGGAGGGGCTGACCTGGGACTTCTGGGAGTACTGCCAGGCGGCCCTGCCGAAGCTAGCCCGGCTGCAAGCAGCCATCCAGGACTACCAGACCCGTGTTCACGACAACCAGCAGCACCTTCAACGCCTGACCACCCAGATTGCCGGGCGGCCGGTACCGGACTTGGCCGCCAGCCAGGACCGGCTCAACCAGGCTCAGGCGGCGTTGAGCAGGCTCCAGCAGCTAGCCGGCCAGCGTACCGCCGAGCACGACCAGCTCCAAGTTGCCCGGCAGAGGGTGACCAAGTTGGTCCAATCCAGCGGCAGGCAGGAGGAAGAGCTGGCTGCCTTCCAGACCCTGACCGACGTCGTTACCGGGAATACCGAGAACCACCTTAGCCTGGAGCGCTACGTCCTCCAGGCCTACTTCGAAGATGTCCTGACCGCGGCCAACGTTCAATTGGACCGGCTGACCAATGGCCGCTACCAGTTTGAACTGGCCAACGAGAGTCACGGGGCCGGGGCCAAGTGGAGCGGGCTGGAGGTCAACGTGTACGATGACAACGCCGGCAAGACGCGGAGTGCGCGGACCCTGTCCGGTGGGGAGAGCTTCATGGCCTCGCTCGCCTTAGCGCTGGCGTTGTGCCAGATCATCCAGGAGCAGAGCGGGGGGATTGCCATCGACGCCCTCTTCGTCGACGAAGGTTTCGGCTCTCTGGACCAGGACGCCCTAGCCGACGCCCTGCGTGCCCTCCAGGACCTCGAGGGGGGCCGGATGATCGGGATCATCAGCCACGTCACCGAGCTCGAGGAACAGATTCCTGACCAGCTGCGGGTTACCTCGGTCAACGGCCGTAGCCAGGTCTCCTACCAACACGACCTCCACGCCTAG
>SRR1151252_00966 exonuclease SbcD
ATGCGCTTTTTGCATACCGCCGATTGGCACGTCGGCAAGAACCTGAACGGTTTCGACCTACTGTCAGACCAGCAGGCCGTCTTTAAACAGATCGAGGGAATCGCCAAGGAGCGGCAGGTGGACGCGGTGGTGATCGCCGGTGACCTCTACGACCGCAGCATCCCCAGCGAGGCGGCGGTTCGTCAGCTCAACGGCGAATTGGTCCAGCTGAACCTGACCGACCATTTTCCGGTGCTGGCGATCAGTGGTAACCACGACTCCGCTACCCGGCTGGGCACCGGGGCCTCCTGGTTTGCCAAGGAGGGCCTCTATCTAAATACCAGCTTGGACGACGCCTTTGATCCGGTGACGATCGGTGACACCGAGTTCTTTCTGTTGCCGTACTTCGGCATTCAGGCGGTCCGCAACCACTTCGGCGACGACGCGATCCGCGACGTCAACACGGCGATAACCCGGATTGTTGCGGCGATGCAGGAGCACTTCACCCCGGGCAAGCACCATGTCCTGGTGGCCCACTTCTTTGCGGCCGGCAGTCAGCACACGGCGGATTCGGAGACCCTGATCGAGGTCGGTGGGCTGCAGGCGGTGGCCACGACAACCCTGGCGCCCTTTGACTACGTCGCCCTGGGCCACCTCCACAACCGGGACGCCCTCCACGACGATCGGGTGCGTTACAGCGGCTCACCGATGAAGTTCTCGGTGTCGGAGGCCAACCAGGAGAAGGGGGTCTGGATCATCGACACCGACCCGTTTACGGCCGAGTGGGTGCCCTTGGCGCCAGTCCACGATATTCACCGGTTGACCGGCGCTTTTGCCGACCTGGTTGCTGACGACGATCACCCGCGGGATGACTTCTATGACATTGAACTGACCGACCATGAACGGATCCCGGACGTCTTGAACAAGCTACGCGAGCATTACCCGAAGATCGTCAGCCTCCACCGGACCCACGCCGCCCGGCAGATCGACACCAATCACGCCCGGGCCCGCCGTCAGCAGTCCCCGACCGACCTCCTGGCTGATTTCTACCAGCAGACGATGGGGATCGATCTGACCGATACGCAGCTTAAGTGGGCCAGCGACGCCCTAAGCGCGGTTAATGATGGGGAGGAAGAGTAA
>SRR1151252_00971 hypothetical protein
ATGCGTAAACCATTGCAAAACAACCAGCAGGCCACGATTGCGGCCCTGGTGATCGGGGCGATTATCTGGCCGGTTTCTCTCTACCTGCGGACTCGGCGGAAGCGATAA
>SRR1151252_00972 hypothetical protein
TTGAATAAGCAACGAACAGGACTGCTACTGGCGACGGGGGTGCTCGTCCTGACCCTGGCTGGTTGTGGAAACCATGTCGGTAGCCAGCAGACGAGCGAGAACAGTTCTTCCACCAGCCTGATCGCCAAGAGGTCGCGCACCAAGGTTAGCGCCCAGGGGATGACCCCGCAGCAGGCCGTCAGCCTGGTCACGGCCTACGCTGGCAACCGCTACGGCGGGCAGTGGGCCCGGGTCGCCAAGCAGGCCCGCCAGTCCCAGCTGGTGGTCAACCTCTACCCAACCGATCGCTACCGGCTCAGTGACAACGGCCAGGGGATGGCCTACGAGGTGACGGCCAACGGTCAGGTGACCGGCCTGATCTACACGATCGACCGGGATGACGATGTCGTGATCTACCAGAATGCCAAGAATGGTCAGGCGGCCAAGAAACTGGCCACCGTCACCAAATCGGCGATGGCGGACTACATCAACCAGTATGGTCAGGGCGACTTGGTCAACCAGCTGGCCAAGAGCGCCCAGGTGGTTGATAAGAGTGGGGCCACTAGCAGTGACAGCAATGGATCGGCCACCAACCAGCATGACCGGGTCACCGGCAAGTATGGCAACAAGGGGCCGTTTGACGTGCCGGGTGACATGCGGGGGGCCTGGTACTCAGCCGATTATGACGACAATTCGACGATGACCATTAGCGATCACCGGATGATCATTGACGGCGACACGGTCAGTCTCTACCACCAGGACCCGCAATACGCCGCGGATAACGAGCGGCCGAGTGCGGACCTGATCGAGGCAACCAAGCATTGGGGACGGACCCAGTACCTTCACACCGACAATGGGACCTGGCTGAACGTCCAGGGCTGGTTCCAGGGCGCCGGGGACGGTACCTCCTACATGGTCAAGACCGAGAACATCAACGATAAGCCGGTCAAGGTCCTGGTCGTCGGCGAGGGGGCTGAGAACTGGGTCAGTGCGGTCTACTACCCGACCAAGACCATGGCCCAGCAGCAGGCGGACCAGAAATATGACGACCTGCACTATCAGGACGACGATGAATAA
>SRR1151252_00973 phosphoesterase
ATGGTACGGATTGCGATCAGCAGTGATAATCACCTAGACGTCAACCAGGTCGACCCGGGCGCGGCCCTGACTATGCAGGCCGACTACCTGCACGCTCATGGAGTCGGCTACTACTTCTTCGGTGGTGACCTCTTCAACGACTTCACCCGGACCCGGCAGTACATGGCTGACCTCCGGGATCGCTTGGCCGGGACCACTCGGGTCTACTACGTCGCCGGCAACCACGACCTTCTCCAGCATGCCCCCTACGACCTGGTCGAGGGCCTGACTGCTCCCGGCTATCTCCACAACCGCTACGTTGACCTGCCGGGGACGGCCTGGCGGGTGGTGGGCAACAACGGCTGGGACGACTACTCCTTCTCAGCTTATCGGGATGATCCCATGGCGGTCCAGCAGTGGAAACGGGTCTACTGGCTAGACAGCGAGGTTGACCAGCCGGGGGGCGACCAGGACCGGATGGCGACCGTGCTCGACCAGGTCCGATCCCAGCTGACGGCGGCTAAGGGGGCCGGCAGGCGGGTGCTCTTCTTAACCCACTTCGCCCCGCGCCACGACCTGCTGAGTCCGCGCCCATCCGCTGTCACGACGGCACGGCGGGAGCGTTTCTACCAGATGATCAATGCAATGATGGGCAGCGACCGTCTGGGGGCCCTGCTCGAGGCGGCGGGCAACGTTGACACGGTTTTCTACGGGCACCTCCACGGTAACCACCCGCCGGTGACGCGGTCCGGGGTCACCTACTTGAACCAGGCGGTCGGGGTGTTCAACAAACGGATCAACGAGTGGCAGGCCCCAACCTTTGCTGCCCAGTGGCAAACCCGGCTGCGAATCCTCGATCTCTAG
>SRR1151252_00974 carbamoyl phosphate synthase large subunit
ATGTCACAGACAAGCATAAAGTCGGTTCTGGTGATCGGGGCCGGGGCCAACGACATCCAACACGGGGACGAGTTGGACGCGGCCACCTTTGAGATCGTGTCGACCTTCAAAAAGCTCGGCATCAAGACCATTCTGGCAGATAACAACCCCTTTTCGGTCAGCCTGGAGAACCGTTCGGCGGTCGATCACGCCTGCATTGGCCCGTTAAACGTTGAGTACCTGGTTAACCTGATTGACCGCTATCGTCCGGCCGCCATCCTGCCGACAGTCGGCAACCAGCACGCCTTTGAACTGACCCAGGAGCTCCTTGAGAAGGGAATCATTCAAAAACGCGACATCCAGCTGCTGGGGGTGCCCGAGGCAACCGTGCGCCAGGTCAACAACCCGGTCCTGCTCAGTCGGACCCTTCACAAGATGGACGCACCGATGAAGACTGTGGTCACGGTCAGCAACTACCAGGATGCCCTGGAGGAGGCCCAGAAACTGGGTTACCCGGTGATCATCCGGTCCGTCTTGCCAAAGAGCAACAGTACCCGGCGGATTGTCCATGACCAGCGGGAATTGGCGTCGGCGGTCCAGAGCTGCCTGAGTCAGTCGCGGGCCGAACAAGTCCTGGTTCAGCAGAGCCTGGCCGGTTACAAGGAGATTGAGGTGATGGTCCAGCGTGACGCCTCGGGAACGATGATGATGCTCTCAATGGTTGAGGACATGGACCCGATCGGTATCCATGCCGGTGACTCGGTGGCCTTCAACCCGCCGCAGACCCTGTTGGACCGGCAGATCCAGGATATGCGGGACACCGCCTTTGCGATCACGCGGAAGCTGCGGATCGTCGGTATCAACCATGTTCAGTTTGCCCTGAACCCTGATAACGACAAGTTCTACGTCATCAAGAACAGTCCCTACTTCGACCGGATGGCCTCCTTTGTCGCCCAGTCGACTGGCTACCCGATTGCCCGGGTCTCTGCCCAGCTCTATGCCGGTCAACGTCTGCGTGACATTGACCTGGGGCCCAACTACGTTCATCACGCGGCCCTGGTGGAACCGACAATGGACCACATTGCGGCCCGGGTCCCGGTCTGGGGCTTTACCGAGATCCCCGAGGCCAGTCACCTGCTGGGGACGGAGAAGAAGTCGGTTGGGACCGTCTTTGGGGTTGGTCGGAGCACGATTGAGGCCCTCTTCAAGGCCATTGAATCCCGTTACCGTGAGCCGGCTGACTTTCACCTGGCCGCCCAGAAGAAGCTGACCGACGACGAGCTGATCGTCAAGCTGGTTCATCCCGAGGCCGGCCGCCTCTTTGTCCTGATCGAGGCGATGAACCGGGGCTACGGCGTTGACGAGCTGGCGGAGATGACCAAGATCGATCCCTTCTATTTCGATCAGATCAATAAGATGCGCCTCCTCATCAAGGAGGTTGTTGACAATCCGGGCAAGGAGCCGGTCCTGATCCGGGCCAAGGGCTGCGGGCTGAGTAACCAGCTTATCGCCCGTCTCTGGAAGACGACGCCGGACCGAATCTACCAGATGCTGCTTGACCACCAGATCACCAGCAAGTACAAGGAGATCGAGCCCTCGGCCGGCGAATTTGACCAGCATACCAGCAGCTTTTACTCGGCGCTGGAGGATGAGAACGAGGGGACCAAGACGGCCCAGCCGAGCGCGATGGTCATCGGGACCGGGGGGCTGCAACTCGGCCTTAGCAATTCCGGTGACTATTTCGTGGCGGCAATGATCCAGCAACTTCACCGGGAGGGCTACCACACGGTGATTGTCGATACCAACCCGAGCTCGGTGGCCCTAGTAAGCGAGCTGAGTGACAAGCGCTACCTGGAGCCGCCGACCCCGGAGAACGTCTTCCAGCTCCTGAAGGTAGAACAACCCCAACTATTGTTCGTCCCGGCCTCCTATACCCAGCTCCTGGATGCCTTAAAGCGGGTTAACCTGGAATGCCAGCTGATCGTCCTGCCTGACGACCGCTTGCCCCAGCTCGACAACCGGGCGGCCAAACTGGTGGCCTTCAATTATATCTATGATGGTGAATACGCCTACCCGCTGGGGACCACCACCAACCTGCTCTCCCCGGAGCAGCTCAACTACCAGTCGACGGCGATCCGCTACCCAGCGGCGGTGCCAGACTACGCCTTCCAACCGATCAGCGACCAGGCCAGCAGCGCGGTCATGGACCAGGATGAGCCGGGACTCTTCCAGGTGATCTTCGTCAAGGCGGGGGATGAGTACCACCAGGTTGGGGTGCAGCCGCTGCCACTGACTGAGGTTGCCTTCCTGTCGAAGGTTCTCTGCGTCAGCTTGCCCGGCATCTTCATCCAGTTAGTGACCGGTAAGGCGGCTGGCGAGACGGTGGCTGAATCCTTAAAGCGGGCCAACGATCCGGGGGTGGTGACCTACCGGGCGACCTTCCCGTTCAAGGCCCTCCACGTCCACGATGGGGTCCCGACGGTCAACAAGATCATTGGGGCGCGGATGCAATTCTTGACGCTGCCGTCCTCAAATGAGTAA
>SRR1151252_00975 carbamoyl phosphate synthase small subunit
GTGACTGCACGCTACCTAATATTTGAAGATGGAACGATTTTTGCCGGGGAGGGATTCGGCGCCCCCGCGGTGACCTTTGGTGAAGTTGTATTTAACACCAGCATGACTGGCTACCAGGAGATCATCACCAACCAGATCTACAACAACCAGATCGTGGTGTTTTCCCAGCCCAACATCGGCAGCTACAGGATCCAGCATAACATCTACGAGACGATTGTCCCGACCATCAAGGGGGTCGTCGTGCACTCGCTGGCCAACGCTGGAGCCACCAGCGCCCGCCAGCAGACCCTCGACCGCTACCTTAGGCAGATGAACATCCCCGGGATCACCAACATCGATACCCGGGCGGTGGTCCACAAGCTTCGCGACGCGGGTAAGCCACTGAAGGGGAGCATCGTGCCGGTTCCCGATGATCATGCCTTCGACCAGCTACACGCGACGGTCCTGACCAACCAGCAGGTCGCCCAGGTGGCCACGCCCAAGCCCTATCCGAATCCGGGCGTGGGGATGAGCGTGGTGGTCGTTGACTTCGGCCTGAAAAACGGGGTCCTGCGGGAGCTCAGCCGGCGCAAGTGCAACGTCACAGTCCTGCCCTACACCGCCACGGCCGAGGAGATCCTCCGCCTGGATCCGGACGGGGTGGTCCTGTCCAGTGGCCCCGGAGACCCGAACAGCATCAAGCGTTCGGTCCTGGAGATGATCCAGCAGATCCAGACCAAGGTTCCGCTGTTTGCAATCGGTCTGGGCCACGAGCTGTTTGCGATTGCTAACGGGGCAACGGTCGAGCGCAACCCGGTTGAGCACCACGGGATGAACCACCCATTAAAGGAGATCATCACCGACCACATTGTTTACGCCAACCAGGGCGGCGGCTACCGGATTGACCCGCACACTGTCGACCGGTCCCAGCTGTTCATCACCTATGTTGACCTGATTGACGACAGCATCCAGGGCCTGCGTCACCGTCACTACCCGGCCTTTTCCGTCCAGTTCTTCCCGGACGGGGCGCCGGGTCCCGATGAGACGGACGGCCTGTTTGACGAATTTCTCGACATGATGAAGCGAAAGGAGGCGCGGCGCTGA
>SRR1151252_00976 ribosomal large subunit pseudouridine synthase D
ATGGATGAACCAGTACGCCTGGTGATTGATAACGAACTGACGGGGCGGATCGACAAACAGCTCGGCCACCACTTCAGCCAATACTCGCGCTCCCAGCTCCAGCGTTGGATCGAGGACGGCCACGTCCAGGTCAACGGCCAGCCGGTCAAGCCCAAGTACAAGCTAGCGGCGGGGGACGTGGTGACCATCGAGCCGGAAAAGCCCAAGAAGATCGACCTGGTGCCGGAGAACATCCCCTTAGACATCGTCTACGAGGATGACGACGTGATCGTGGTCAACAAGCCCCAGGGGATGGTTGTCCACCCGGCCCCCGGCCACCCTGACCATACCCTGGTCAACGCCCTGCTCTACCATTCGCCACTGTCGACCATCAACGGTGAGTTCCGCCCCGGGATCGTTCACCGGATCGACAAGGACACCTCGGGACTCCTGATGGTGGCCAAAAATGACATGGCCCACCGGTCGCTGGCCGCCCAGCTCAAGGCCAAGACCAACGAGCGGGAGTACGTGGCCCTGGTGCACGGGGTGATTAAGGAGGACCAGGGGACGGTCGATGCCCCCCTGGGTCGGTCGCCCAAGGACCGCAAGAAGCAGGCGGTCGTCGCCGATGGTCGGCACGCGGTGACCCACTTTAGGGTTCTTCGGCGCTACCGCCACTATACCCTGGTGGCTTGCCGGCTGGAGACCGGCCGGACCCACCAGATTCGGGTTCACATGAAGTATATTGGCCACCCGCTGGCCGGGGACCCCCTCTATGGACCACGCAAGACCCTGCCAGGCAATGGCCAGTACCTGCATGCCCGCCTGCTGGGCTTTAAGCACCCGCAGACCGGGGAACAGCTGACCTTCACGGCTCCGCTGCCACTATATTTTCAGCAGATGCTAGACAAACTTGATAAAACTGATAAGTAG
>SRR1151252_00977 lipoprotein signal peptidase
GTGACCATTAGCATCAGCCTGCTGCTCGTCGCCGCCCTGGTCGCCGTCGACCAGCTGGTCAAGCACTGGGTGACAACCACGATTGCCCTCGGGGCTAGTCACGTGGTCATTCCCGGGGTGCTGGCCTTGACTGACCTTCACAACGACGGGGCTGCCTGGAGCATTCTCCAGGGCCAGCAGTGGTTCTTTACCATCATCTCGGTGGTGGCCATCGCCGTGGTCGGCTACCTGATGGTCCGCTGGCGTCACCAGCCGGCTTTGATGGTCGGCCTGGCGCTGATCTTGGCCGGAACCCTGGGCAACTTCATCGACCGCCTGGCCAACGGCTATGTGGTCGACATGTTCGAAGTGCTCTTCGTCAACTTTCCGGTGTTCAACGTGGCCGACTCCTGCCTGACCATCGGGGTGCTGGCCTTGATTATTGCAATTCTACGAGAGGATGATTGA
>SRR1151252_00978 hypothetical protein
ATGGAGGAAGAGACCCGATATTTTTATCAGCCGGACCTGACCGGGACGATCATCAGCTGGTGCTGGACGTTCCTGTTGTTTTTGATCGGTCTGATCGTCTGGCTGGAGATCACCCATTTTCAGTGGGTGTCGGCCCTGTTCTTTGTGGCCTTTGTCATTTTAACATTTTTGGAGATCAAGCGGCGGACGGTGGTGATCACGCCGACCAAGCTGGTCTTCAGCCGGCTTTTGCAGCGTGACTACCTGATGATTCCGCTGGCCGACATCCGTCAGCCGCGTTTTACCAAGCATACGGTGACGATGACGGTCAACGGTGAGGTCCTCAACTTTACCTTCAGTCAGAAGGACATCAAGCGCCTGCAATTAGCCCTGAACAACCAAACGGAGGAGACCAGCCGTGACCATTAG
>SRR1151252_00979 ribonuclease HI
ATGTTAAAACTGTACACCGACGCCGCCAGCAAGGGCAACCCCGGTCCCACCGGTCTCGGCGCCCTAATCATCGCCGACCACCAGCAGTACCAGGAGACCGCCACTTTGGCGCGGGCCGACAATCACCACGGCGAATTTGCCGCGGCCCAGTTCGGCTTCCAATACATCCTGGACCACTTTGGTCCCCAGCAAACAGTGCTATTCTACACCGACAGCCGGGTGCTCAGTGACGCCATTGGGAAAAATTATACAAAACATTACCAAAGGGAGCTAACAGAACTCAACCAGCTGATCGGCCAGTTTACGACCATCGTCACCCAGTGGATCCCCGACCAGCAAAACCACGGTGCCCATCACCTGGCCAACCAGGCGCTGCGGTCGCTCGAATAG
>SRR1151252_00980 glycerol kinase
ATGAACTACTTTATTGGTGTTGATGTTGGTACGACGTCAACCAAAGCCGTCCTTTACGATGAACATGCAAAAGTATTAGACCACTTTAGCGAAGGCTACTCCCTTTACCGGGATGCTAGCGGAATGGCTGAACAGGATCCAGAAGCAATGCTCAATGCCGTTGAGAAGGTGATCCATGACGCTGGAACGAAGATCGATTTTGCAAACGAAAAATTGTTAGCGGTTTCGTTCTCTAGTGCTAATCAAAGCGTGATCATGCTTGATCACCATTTTCGCCCCCTTTCTCGGGTAATCACGTGGGCAGATACCCGAGCGCGAACGGTTGCTGACCAGCTGAAACGCAGTCCGGAGGGGCAGCAGCTATACGCCAAGACCGGGACACCGATTCACCCGATGTCACCGCTGACCAAGATAATGTGGCTTAATCAGGCCCACCCGGAAACGGTGGCCAAGACCACCTACTTTGGCGATATTAAGTCCTACCTCTTCTATAAATTCTTTGGGTCATTCAAGGTTGACATCTCAATTGCCTCCTGCACCGGAATGATGAACATCAATACCGGCAACTGGGACAGCCAGGCCCTGACCCTTGCTAAGGTTAAGGCAAACCAGCTGCCCACCATCGTTAACGGGACAAGTCAGGCAGTCGGTTTAACAGACGAGGCCCAATCAAAACTGGGCATTCCAGCAGACACCCCATTCGTCTACGGGGCCTTTGACGGGGCCCTGTCAAACCTGGGTGTCGGCGCAATCAAGCAAAACACGGTTGCGATCACCATCGGCACATCAGCCGGTGTTCGGGTTGTCACGGATCATCCCGTAATTGATCCCCAGCAGCGACTCTTCTGCTACGCCGTCGATAACGGGCTTTGGGTAATCGGCGGCCCCCTGAACAACGGTGGCGACGTCTACCAATGGGCGGTTGAGCACCTGGTGGACGCTAGCGCCGTTAAGAACGAGCAGGTTGACCCATATACTCTTGCCAATCACGTCATTGAAGGGGTCCCGGCCGGCGCCCACGCCCTCCTCTTTCATCCCTTCCTCGGTGGTGAACGAGCTCCCCTGTGGGATGCCAACGCCCGGGGAAGCTTCTTCGGCCTTTCGCAACTGCATACCCGTGCCGACATGCTACGGTCGGTAATGGAAGGAATCTGTATGAATATCGCCACCGTCTTCCAAGCTGTTCGAAACCTGGTTGGCGAACCATCCAGCGTCACCGCGACTGGTGGTTTTGCCCGGGCAGAAGTATGGCGGCAGATGCTGGCGGACGTCCTCAATTGCCCGGTCAACATTCCAAACTCATTTGAGTCTGGCTGCTTGGGAGCGGTCACCATGGCAATGAAGAGCCTCGGGATTGTCGATAGTCTTGACGTTGTCCAAGACCTTATTGGCGATATCAGCTCATACCAGCCACGGGCAAGTGCGGTTCATGTTTACCAGCAATACCTACCCTTGTTCCAACAGGTCGAGGGACTGTTAACCCCGGCCTACTCAACAATCGCGATGCTGCAACAACAATCTTCTCACAAGGAGGGGTAA
>SRR1151252_00981 gluconate:proton symporter
ATGCCATTACTTATCGTTTTAATCGGTGTTGTCCTCTTAATCTTCATGATCGTTAAGTTAAAGCTCAACACCTTCGTTGCCCTAGTTATCACTTCGTTTATTATCGCCCTCCTACTGGGGTTGCCGCTCGCCAAGATCCCGACAACCATTGAAACCGGGATTGGCGGTCAGCTAGGTCACCTTGCCATCATTTTCGGCTTTGGATCAATGCTGGGGAAGCTTGTCTCTGATGCTGGTGGTGGCTACCGAATTGCCACGACCCTTATTGATAAGTTCGGTCGCCGCTGGATTCAGGTCGCCGTTATCCTCGCCTCATTCATTATCGGGCTGGCACTGTTCTTTGAAGTCGGCCTGGTTGTTGTTCTGCCGATTATCTTCATCATTGCCCGCGAGCTTGACATGCCGCTGATGTACCTTGGTATCCCCATGGCTGCCACACTGAACGTTACCCACGCTTTCCTGCCGCCGCACCCGGCACCAACAGCGATCTCTGATATTCTCGGTGCCAACCTCGGGCACGTCCTCCTGCTCGGTATTATTGCCGCAATCCCAACAATTATTATTGCCGGACCGGTGTTCAACTGGTTCCTTCACAAGGTCTACCCAAAGGTTTACCGGAAGAATATTGATATCTCGGTTCTTGGCGAATACAAAGAATTCAGCCTGGATGAGACCCCGAAGTTCGGTATCTCTGTTCTGACAGCGATGATGCCAGTTATCCTAATTGCCGTTGCCACCATTTGTTCATTTATTTTCCCGAAGAGCAACCCCGTTAACGAATTCATCCAATTTATCGGTGCCCCTGACCTCGCAATGCTTCTTTCGTTAATTTTTGCCATCTTTACAATGGGGCTTTGGCGAAACAAGAAGATGGGTGAAATCTCCAACTCGATGGTTGCTTCCATTAAACAGATTTCCGTAATGCTCTTGATTATCGGTGGTGGGGGTGCCTTTAAGCAAGTCCTTGTCGACGGTGGCATCTCGAAGTATATTTCAACCCTCTTTGCGCAAACCAATATTTCACCAATTCTGGCCGCATGGCTCATCACCGCAATTCTCCGTGTATCGCTAGGGTCATCTACGGTTGCGGCAATGACTGCCGCTGGCCTTGTTGCTCCAATGGCACACCAGTTTGGTTCCAACTCGGCGATGGCCGCCCTAATGGTTCTAGCCGTTGGTGCCGGATCGGTCTTCTGTGACCACGTCAACGATGCTGGCTTCTGGATGATCAAGGAATACTTCGGCCTTTCATTAAAGGAAACCCTGCTTTCCTGGTCAACCCTAACCTCCGTCCTGGCAATTGCCGGACTGGGTGCGGTATACGCAATTTCACTATTTGTTTGA
>SRR1151252_00982 LacI family transcriptional regulator
ATGACACAGCACATTACAATTGCAGACGTCGCCAGAGCCGCTGGTGTCTCAGTAACTACCGTTTCCCGGATTCTCAATGGTCGCTTTGAGAAAATGCGCCCAGCAACCCGCAAGCACGTCGAAATGGCAATTCATAGCCTCAATTATGTCCCAGCCGCATCAGCCCAACGCCTTCGCCAAGCACAGGGTCACGTAATTGGGGTCCTGGTCGGCGATATTTCCAACCCCTTCTCATCCCTACTCGCCAAGGGAATAGATGATGTGTTACAGAAGGCGGGTTACGATATCTTGCTAATGAATACTAACAACTCGATTGATACCGAAGCGCGGGCATTAAAACGACTATACCAGCAACGGGTCGACGGCATAATCGTCCAGCCAAATTCCCGCCACTTTACCCAGTACGAATTTACCAAAAGAAATAATGTTCCCCTGGTCATCGTCGATCGGGAAGTCGATGACCAGCCGCAAACGACCGGTAAGGTTACCAGCACCAACCGGGATGCCTGCTATCAACTGGGGAAATCACTCAGCCGGCGCGGCTATGATAACATCCTAACCATCAGCGCCCGCTTCGCTGAAGCCTCGGGGCAAATTCCCCGAATTGCCGGTCTTAAGCTGGCGGCAAAAGAGGCTGGCCTAAGTTATCGTAATATTGAAACACGCGGCCATGACCGGCAATGGCTAACCCAAGCGTTCCGTAAACAGTTCAATGCACTAGATGGGCGGACGGCCGTTATTTCATTGATGGGGCCCGTTCTCTTTGACCTCCTCAGCATCTTCAAAAATCTTAACCTCACCTTCCCGGCTGACCTGGGGCTCGTCAGCTTTGACGACTGGGAATGGTCACAGTACGTGGGTGATGGGATCTTTCTTTTAAAACAGGATATGGAACTGATGGGTAACATCGCCGCCGATAAATTGCTGACGCAAATAAGTAAGAAGGACAGTGCTAGTTCGACCACCCTCCTCCCCGTTGAAACCGTCGAACGGCATTCAATTTAG
>SRR1151252_00983 major facilitator superfamily transporter
ATGGGCCGAATTGCCGATCAATTTGGTCGCCGCAAAATGCTCATGATCGACATGTACTTATTCGCACTTCTCTCCCTGCTCCAGCTGTTAACAGCAAGCCCATTGGCGCTATTTCTTATCCGTTTCCTCATCGGACTAATGATTGCCATTGACTATACTGTTGGTAATTCCTTATTAGTGGAATGGCTGCCCCTTAATGAAAGCGGTAAGCGACAGAGCCAGCTAATTATTTATTGGACCATCGGATTCATTCTCTCGTATATCGCCGGGATCATAATCCACGGCTTTGGCAGTCGAAACTGGCAGATAATTCTGGCTTCATCAGCCATTTTAGGCTTGATTACCGCAATTTTTCGTTCGGTTGCCAAACTTCCGGCATCCCCCAGCTGGTTGGCCAGCCAGGGCAAATACAAGACTGCCCAAAAATTAATTCAGAAGCATATCGGTAAAAAGTGGGGCCTGCCGTTCAAGCTCCTAAAAGCAAAACCAACTGATAGCGTGTCCTGGAAGGCCCTGTTTACAAAACAGTATCGACGCAGAACTTTGGTCGGCGGGCTATTCTATGCTTGCCAGGCCTTTGCCTTCTTTGGCATCAGCATCTTCTTGCCCATTTTACTAGCAAGCATGGGGATGAGTGATAGTAACCTTTCCGGAATTATCTATAACGGTTGTATGCTAGTCGGGGTCCTCCTTGGTAGCCGGCTATTTCAAACTTTAAGCCGGCGCATTTTCCTGATTGGAACATTTTTCCTGTCAGCCCTAGCCCTTTTGCTAATGCTACTTGGCCCTGCTCATGCTTTCGTCTTTCAGATGGCGCTCTTTGCCCTGTTTTCAATCGTCCTCTCTTCCGGTCTGACATTAGATTACCCGTATCCAACTGAGCTATTTGACATCAAGGTTCGCGCAACTGGTGTTGGAACCTGCATTACGATCAGTCGAATCGGCGCAGCTAGCGGGACCTTCTTGTTGCCGATCCTGACTAGTCTTGGCGGCGCCCACCTTGCCATGCTGGTTTGCCTGGTGGTTTTAATTGTCGGTGGGGTCATCTGTCTTATCTGGGCACCAGAAACGTCGCCTAAATACATTTCTAAAAATAACTAA
>SRR1151252_00984 hypothetical protein
ATGGCACAACGAAGGATGTTTAGTCAAAAGGTGGTTGAAACGGATCGCTTCCTCGACATGGCTCTGACCGCTCAGACCCTGTACTTTCACCTGGGGATGCACGCCGACGATGACGGCTTTGTCGGCAATCCCAAGTCGCTTCGGCGGATGATCGGGGCGAGTGAAGACGACCTCAAGGCCCTGGTCGAGAAGGGCTACCTGATTCTCTTCGAAGACGGGGTGGTTGCCATCCGGGACTGGCTGGTGTCCAACTACGTCAAGAAGGACCGCTACACGCCGACCATTTATACGACGGACCGCCAGCTGCTGGTGGTCGACCGCAATCGGCGTTATCAACTGGCGGCTGAAGTCACCCCCGAAGACACTGTGGAACCAGAACGGATCCAAAATGGTTCCAAAATGGATCCACAGGTTAGGTTAGGTCAGGATAGGTTAGGTAAGAGTAAGGGTAAGGATAGTTTAATTCAGACTACTAGTCCTGCTGAAGCCAAACTCAAGAACCTCCACATCAAACTCAATCCCACCCAACAACAACTGCTCGCCGATTACATCGGGGATCTGTCGTCTGATGTGGTCTGCTTTGCCATCGGCTCAATGGCCCTTTACGCTGACAAGCCGCGTTTCAACTACCTAGACCGAATCCTCAGTCGTTACCGACAAAGCGGGATTCGGACCCGTCAGCAGGCCCAAGAGGATGATGAACTTTATCAGGGGAAGCCCGTTCAGAACAAGCCTGGCCCGGTAATTCCCATCTACCGGCTAGGGGAGTGA
>SRR1151252_00985 RNA methyltransferase
TTGGAAAAGTATCAATTGATCGCGACGGTGGCGGCCGGCATCGAGGCCCTGGTCGGCAAAGAGCTGCGCCGACTGGGCTATGACACCCGGGTGGAGAACGGCCGGGTCCGCTACCAGGGAGACATGAAGGACATTTTGAAGACCAACCTCTGGCTGCGGACCGCGGACCGGGTCAAGATCGTGGTCGGCGAGTTCGATGCCCGCAGCTTTGAGGAGCTGTTCGATTTGACCACCGACCTGCCCTGGGAGGACTTCCTACCGGTCGATGCCCAGTTCCCGGTCGAAGGGAAGAGTCACCACTCCCAGCTACATAACGTACCGAGCGTCCAGGCGATCGTGAAGAAGGCAATCGTCCAGCGGCTGAGTCGCTTTTACCACCGGCGGACCCGCCTGCCGGAAACCGGGGCCCTGTACCCGTTGGAAGTGGCGATCAACAAGGACCACGTTTTACTGACACTGGACACCACCGGTGAGGGCCTCTTTAAGCGGGGCTACCGGAAGAACAAGGGGGGCGCACCACTCAAGGAAAACATGGCGGCGGCCCTGGTGATGCTGGCTCACTGGTTCCCGGACAACCCGTTTGTCGACCCGGTCTGCGGTTCGGGGACGATCCCGATCGAGGCCGCCTTGTACGGGCACAACATCGCCCCGGGGATCAACCGCTCCTTTATCTGTGAGCAGTGGGTCAACCTGACCCCGGATGGCCTGTCCGATGAGGTCCGCGATGAGGCGGACGCGGCGGCTGACTATGACGTTGAGCTGGAGATCCACGGCTACGATATCGACCAGAACATGATCGACATCGCCGACGAAAACTGCCGGGCGGCGGGGTTGACCCACGACATCACCTTTAAGCAATTGGCAGTCAAGGACTGGCACACCGATGAGATCAACGGGGTTATCGTCGCCAACCCGCCATACGGGGAGCGGTTGTCCGACCATGAGGCGGTCCACGAGCTCTACCGGCAGATGGGGGACCTCTACCGACCGCTGACTACCTGGAGCAAGTACATTCTGACGGCCGACATGGAGTTCGAGAAGTACTATGGTGCGCCAGCCACCAAGCGGCGTAAGCTCTACAACGGGGCATTGCGGACCGACCTCTTCCAATACTGGGGCAAAAAGAAGAGATAA
>SRR1151252_00986 oxidoreductase
ATGAAAACAGTACGTTTGAACAATGACGTGGTCATGCCAATGGTTGGCTACGGGACCTACCAGATTCCGATCACCACGACCCGGGACAATGTTCTCCAGGCCCTGCGCACCGGCTACCGGTTGATCGACACCGCCCAGTACTACGGTAACGAATCCGGGGTCGGCGCGGCCCTGACCGAGAGCGGCCTGGCCCGCGATCAAGTCTTCGTGACGACCAAGGTCCAGACCAGTGGCTATGCCGAGACCAAGCGGGGGCTGGACGAGTCGTTGAACCGGTTCAACCACGACTACTTCGACCTGGTATTGATCCACTGGCCAACTGGCAACGACCTGGAGACCTACCGGGCGCTTGGGGATGCCTACCAGGACGGTAAAGTGCGGGCGATTGGGCTGAGCAACTTCAATGCCGCCCAGGTCCAGACGATCATCGACAACTCGACGGTCGTGCCGATGGTTGACCAGATCGAGACCCACCTGCGCTGGCAGCAGAAGCGGATGCATGCCTTCCTGGCCAGTCGGGGAATCATTCACGAATCCTACGCCCCGCTGGGTGAAGGACAGCCGGGCTTCATGGACGCCCCGGAGCTGGTCAAGATCGCAGCCAAGTACCACCGGACCCCGGCTCAGATCGTCCTGCGCTTTCTCAACCAGGAGGGGGTTGTGGTGATTCCCAAGACCCTGAATCCGGAGCATATGGCCCAGAACCGGGACCTCTTCAGCTTTGTGCTGGACAGTGCCGACCTGCACGTCTTAGAGGGCCTCGACCGTAAGCAGGCCCTCGACGGCTGGCCGGAGTCGATGCACGAGGATCAGTATTAA
>SRR1151252_00987 cell division protein GpsB
ATGATTGGGGTGTTTGAGTTGGATAGCATTAAGTTTACGCCGCAAGATATCTTGCATAAGCAGTTTAAGGAAAGAAACATTGGTAAGGGCTATGATGAAGCTGATGTCGATGCCTTCCTTGACGATGTTATCAAGGACTACGACACCTATAACAAGGAGCTTGACCGTTTAAACAACGAGAACGAGCGTCTGCGGACCAAGGTCGACGAATTAAATCGGCAGGTTGAGGTAGGGTCAACGATGAGTGCCCACAGCAGCAACCAGCAGCCGGTTTCTAACGCCACGAACATGGATATTCTGAAGCGGTTGTCCAACCTGGAACGGCGGGTTTTCGGCTCCCAGATCAATGGCGGCGAAGGCCAAGACGATTCGCACCTGCTATAG
>SRR1151252_00988 hypothetical protein
ATGCGGCGCCTATGGGTAACCGGTTATCGCAGCTATGAATTGAACGTCTTTAAAGAGGATGATCCCAAGGTTCAGGTCATTAAGAAGGTCCTAACCGACTATTTGAAAAACTACCTGGAGGAGGATGAAGAGGAGTGCTGGCTGATCTCGGGACCGCAGATGGGGGTCGAGCGGTGGGCATTAGAGTGTGGGCTGGACCTTAAGGATGATTATCCCCAGCTCCGGTTAGCCCTGATGGAACCCTACACGGAGTTTGACCAGCGCTGGAATGAGGGTAACCAGGAAAAACTGGCAGTGGTCAAGGGCCGAGTCGATTTCACGGCGCCGGTCACCGACCACCCCTACCAGTCGCCCCAGCAACTGCGGGCTTACCAGCGCTTCATGCTGACCCACACGGATGGCATGTTGATGGTCTACGATCCCGAGTATGAGGGCAAGCCCAAGTACGACTACCGCCAGGCCCAGCGCTACCAGGAGCAGGGAGACTACCCGATCACCCTGATTGACTTTGACGAGCTCCAGGAGACGGCGGTCGAGTGGCAGGAGGACCAACGAAATAAAAATCAGGAATGA
>SRR1151252_00989 recombination protein RecU
ATGCAGAAAATGAAGATTCACTATCCCAATGGTCAACACCCGCAGCAGGCATACCATGCCAGCCGCGATCTGCCGACTCCCCACCGGTCCATCTATGCCAAGCGGGGAATGTCACTAGAGGATGAAATCAACCACAGTAACCAGTACTACCTGGCCCGCCACATCGCGGTGATCCACAAGAAGCCAACCCCGATTCAGTTGGTCAAGGTCGATTACCCCAAGCGCAGTGCGGCCGTGATCCGGGAGGCCTACTTCCGCCGCCCGTCAACTACCGATTACAATGGTATCTACCGGGGACGCTACATCGACTTCGATGCCAAGGAGACGCGCAACCGCCGCTCCTTTCCCCTGAAGAACTTTCATCCCCACCAGATCAACCACATGCGGGAGTGTGTCAACCAAGGCGGGATTTGCTTTGCCTTCATCAAGTTTACCGACCTGGACCTCGTCTACCTATTACCAGCAACCATTCTATTCCATTATTGGGACGAGGCGGACCAGGGCGGCCGCAAATCAATCACCTTGACCGATATTCAGCACTGGGGCTTCCAGATTGAATACCAGCTCAACCCCCGCCTACCATATTTAAAGGCAGTCGATCAGATCATCGCTGCCGAGCACAAAGGAGTTTATCATGACAAGTAA
>SRR1151252_00990 penicillin-binding protein 1A
ATGACAAGTAATGATCAACCGCGTCGTAGCGACCGCCACCGGCCGGACTACGACGATTATGACTACGATGATGAACCACGCCGGGGCGGACTCGCCAAGCGAATCCTCCTCTGGGCACTGGGAATCATCGTCCTGCTCTTCGTGGCGGGAACCGCCCTCTTCTTCTACTACGCCTCCAGCGCTCCCCGGATCAGCCGGAGTGAGCTCGCCGGTCAGAGTACCACCACAATCTATGACGACCAGAACCGGATCATCTCCCGCCTGGGCGCCCAGAAGCGTGAGGTGGCCAAGAGCGACCAGGTGCCTGATAACCTCAAGCACGCCGTCGTCGCCATCGAGGACCGGCGCTTCTACAAGCACCACGGGGTCGACCCGATCCGGATCGTCGGGGCGGCCACGGCCAACATCTTCGGCCGCTCCGCCGGGATGCAGGGTGGGAGTACCCTGACCCAGCAGCTGGTCAAGCTGTCGGTCTTCTCGACGGCCACCTCGGACCGGACCTTCAAACGCAAGGCCCAGGAAGCCTGGCTGGCGATCAACGTCGAGCGCCACTTCAGCAAGAACCAGATTCTCGATTTCTACATTAATAAGGTCTACATGGGTAACGGGGTCTACGGAATGCAGACCGCGGCCCAGTACTACTATGGTAAGGACCTCGACGAGCTAGACCTCCCCCAGCTGGCCCTGCTCGCCGGAATGCCGCAATCACCGTCCTACTACAACCCGCTGGCCGACAACACCAGGTACGCCACCCAACGGCGTAACGAGGTCTTAGACGCCATGGTCCGTAGCAAGTATATCTCCCAGTCCCAGGCCAACCAGGCGGCCAGCGAAAGCATCACCGACGGCCTGGATCCCGACCACGGTAACACCTCTAACAACGGCACCGGGGTCAAGGAAAAGGTCATCGACGCCTACGTCAAGCAGGTGCTGGCTGACCTGGAGGCCCGGGGTTACAACCCCTACAGCGATGGGCTGAAGGTTCACACCAATCTCGACCTCGACGCCCAACGACACCTCTACGACGCTGCCAACAACACCGTCTCCTTCCAGGGGAACAACATGCAGACCGGGGTAGCCGTCACCGATCCCCACAACGGGCAGATCGTGGCCATGCTCGGTGGTCGCCACACCGGCAACGTCATCTACGGGTTGAACCGGGCCGTCCAGACCAACCGGAGTTCCGGTTCGACTGCTAAGCCACTGATGGACTACGGCCCGGCCATCGAGTACCTCCAATGGCCAACCTTCAAGCGAGTCCAGGATACCAAGTTCGTCTACCCTGGGACCAACAAGGTCTTACGGGACTTCGATAATAAGTACAAGGGTTCCATGACCATGCGGGCCGCCCTCGTTCAATCGCGGAACGTTCCCGCCATCCGGACCCTCCAGGAGGTCGGCATCAAACGGGCCACTGACTTTGTCAACGGCCTGGGGATCTCGCAGAAGGATCCGTACACCCTGCAGAGCGGGATTGCCCTCTACATTTCCCCACTCCAGGTATCGGCTGCCTACGCGGCCTTTGCCAACGGGGGAACCTACTACAAGCCGTACTACATCAGTTCCATCACCACCCAGGACGGCAACATCAAGCAGATCAACCCGCAAGGTAAGCGGGCAATGAATCGGGCAACAGCCTACATGATCACCGACATGCTCAAGGGCGTCTTCAACGCCTCTGACCAAGGAAGTGCCAGCGCCGCCAAGCTCGACGGGGTCAACCAGGCTGGGAAGACCGGGACGACCAACTACCCATCCGGTAGTGGTCACTCCGGCGCCATGGACTCCTGGATGGCCGGTTACACCAAGAACTACTCGATCGCCGTCTGGACCGGCTACGACCGCCCAATGCAGTCACCAGGCCTCAGCGATTCCGGTACCCAGTCCGCCATCCTCTTGTACAAGGACCTGATGAGCTACCTCGACAGTCAAAACCACGCCAGCAACTGGGCAATGCCCGACACGGTCGAGGCCGTCCGGGTCAACGGCAAGCGCCAGCTAGTCATCAAGGACTCCAAGTGGGCCCTCGAATACGCCGCTGATGACAGCAACGACGATAGCGGTCAGGATAATGACCACTCATCATCGTCATCATCATCCAGCTCCAGTCACAGCGAATCAAGTGGCAGTGAATCAAACAGTGAAAGTGGTCGACACAATGGCGAGTCCTCCTCGTCTAGTGCGTCCTCATCCTCAGCCGCTAGCTCATCATCGGCTTCGGCGGCCTCCACACCGTCAACGGCCCCTACGAACAACGCGCAACCCGCTAACAACGGTCAATAG
>SRR1151252_00991 drug/metabolite transporter permease
ATGCAAAACGCGTCACACCAAGTCATGAAGGGAATCGGCATCGCCGCCTTGGCCTCAACCATGTGGGGGATCTCCGGGACGGTCCTCCAGCTGATCTCGCAGAACCTGGCCATCCCAGCCACTTGGATGCTCTCCGTTCGGACCCTGGTTACCGGGGTTATCCTGCTGACGATCAGCGCCTTCATGTATGGCAAGCGGATCTTCAACGTCTTTGCTACCCGGGCGACGACCATCTCGGTGGTCACCTACGCGATTTTCGGCCTGATGGCGAACCTATTGACCTTCTACTACGCCATCCAGCGGGGAAATGCCTCGGCCGCCACGATCCTCCAGTACCTGTCACCGCTCTTCATCGTGCTCGGCGGGATTGTCTTTCTCCACCGCCGTCCGTTTAGAAGCGACATCAGCGCCTTCGTCATCGCCCTGTTAGGGGTTGTCTTGAGCATCACCCGGGGCAACATCACCAGGCTGGCGATCCCGTTTGACTCCCTGATGTGGGGGATCGGCTCCGGGATCACCGCCGCCTTCTACGTGGTTCTGCCGCAAAAGGCGGCCGAGAAGAACCCGCCGATCATCGTCCTCGGCTGGGGGACGATGATCGCCGGGATCCTCTTCAACCTCTACCGACCGTTCTGGGTCAACCCACCGCAGATCTCCACGACCCTGGTGGCCTCGGTCGGCACCGTCGTCCTGTTCGGGACGATCCTGCCCTTCGGCTTGCTGATGGAGGCCACCAAGTTCGCCCCGTCGGACGTGGTCAGCATCATGGATGCCCTCCAGCCGATTGTCACCTCGGTCCTGAGTGTGATCTTCTTCCACCTGGTTCTCAACTGGGTCGAGATCCTGGGCATCATCCTGGTGATTCTGGCTATCTATATCCTGCAGGAGGGCCGGCGTCGCAAACTCAAGGGAGTCTAG
>SRR1151252_00992 DNA replication protein DnaD
ATGATTGTGACAGAAGAAACACCGCTGCAACGCTACATCCGTGCCGGCCAGACGACGATTAGCAACCTGCTGGTCCACCACTACAAGCAGATCGGCATGTCGACCGCCCAATTGGTCTTGTACCTGCAGTTTAAGTCCTACCAGGACCGGGGAACGATGAATCCTGATGTCCGGGTGATCGCCAAGAACCTTGGTACCAGCGAGAACCAGGTCTTTAACCAGCTCCACCAGATGATGACCAACCACCTGGTGGAGCAGGGGATGCGTCGGCTACCAGACGGTAAGGAGGACGCCATCTACGACTTCAGCCCGCTGCTGAACAAGCTGGCCCTCCTGGAGGATCAGGCGACCACGACCGACCATGAGGAGGCCAGCCAGAATAGCCGCCAGCAGGTCTTTGCGACCCTGGAGAACGAGTTTGGCCGGACCCTCTCCTCGATGGAACTCCAGATCGTCAACGACTGGTTAGACAAGGATGCCTACACGCCGGCGATGATCAAGCTGGCCCTTCGTCAGGCAGTGATGAACAGCGCCGTAAACCTCCAGTACATGGAGCGGATCCTGCAGAGCTGGGCCCACCAGGGACTGCGGAGTGAGCACGACATCAATGAACACGAGCGCCAGTTTGAGAGCCGCCGCGCCGGGCAGACACCAACACAGGGGAGCCAGCCCCGCTCGGCTGGCCCCAAGATCCCAATCTACAAACTGGGTGAATAA
>SRR1151252_00993 hypothetical protein
ATGCAAAGTCGTCGCGAAGTGCAGCGCGAGCAGAGTCGTGGTTCGGCGCTGCGCACGATTCGAAATATACTACTTACAATCCTAGTGCTATTGCTGCTGGGCTGGAGTGTCTACGCGGTTGCCAATCAACCACGGGCCGCCGCCCGCCGGCAGACGATCTCTTTGACTGAAAAGTATGCCCACCTGCATAGTGCGGGTCACTTCTACATCTATAACCGGGAGAGCACCTACTACACGGTGGCTGGTAAGAACCAGGATAACCAACCGATCCTGGTGATTGTCCCCCAGCACGGTGGCAATATCCGGGTGGTCAAACAGCGCGCGGGGATTAGCGAACAACAGGTGCGCTCGATGATCACTGCGACCCGGCACCCGGCCACGATCCTGAAGGTTGCCCCCGGCGTCTTCAACAACAAGGTGGTCTGGGAGGTTACCTACCGCAACCACAAGGGGAGCCTGTGCTACGACCTGATTAATTTCAAAAACGGTCGCTATATTCAAAATATCAATAACCTGTAG
>SRR1151252_00994 ATP-dependent helicase
GTGATAATTGTGAAGAAACAGAAAACAACGCGCCGCGCCAAACGTGATAAGCAGGCGCCGATTTACGCCGTGGTCGACCTGGAGACGACCGGGACCAATGTGAACCACGGCGATCGGATCATCCAGATTGGCTGTGTGCTGGTTCAGGATGGTCAGATCATCAACCAATTTGAGACCAAGGTTAACCCCCGGGAGAAGATCCCGCACACGATTGTTCAGCTGACCGGGATCCACAATCAGGATGTCCGGCACGCCCCGCTCTTTGAGGACGTCGCCGGCACGATCTACAGCCTGTTGTCGGGGACAATCTTCGTGGCCCATAACGTTAACTTCGATTTTCCGTTTTTAAACGCGGAGTTGGAACGGGCCGGCTACCCCCAGCTGTCGATTCCGGCAATCGACACGGTGACGATGAGCCAGATCCTGCTGCCGACCGCCCAGAGCTTCCGTCTGCGGGACCTGACCAGCAGCCTGGCGATTGAGCACGACCACCCGCACAGCGCGGTCTCCGATGCCGAGGCGACTGCCCAGCTGCTGATCGACCTGCTCGACCGGCTGCACCGTTTGCCGACCCTGACCCTGAGCAAGATCGTTGACCTGCAACTAGCCCTGCCCCAGCGGACTAGCGAGGTTTTTGCCCAGGAACTGAAACGCCGGGTTGACCACCCGCTGCCGCTTGCCGACGACCTCTACGTCAGCCACGGCCTGGTCCTCCACAAGCAGCGGCCCCTAACCGTCGATAAGCCATCTGCCGCACCACGCTACCCCTCAACCAAGCGGGGGAAGGCCAAGCTCTTCGGCGACCAGCTGACCGTCCGGACGGTCCAATCCAAGATGATGAATAGTATCTATAATAACTACACCCACGACGAGCCCAAGAACATGATTGTCGAGGCCGGGACTGGGAGCGGGAAGACCCTGGGCTACCTCCTGCCGCTGAGCTACGTGGCCCATCCCGACAAGCGGATCGTGGTCAGCACCGCCACCAATCTCCTCCAGCAGCAGATTGCCCAGCAGGCGGTCCACCAGCTCAACGGTGTCCTGCCCTTTAAGATGAATGCGGTGGTCGTCAAGGGCAACGACCACTACCTGGACCTAGCTAAGTTTGCCCACTCGCTGAGCGTGATCGAGGACTCCAAGCTGGTCCAATTGCTCAAGGCCCGGATCCTGGTCTGGCTGATTGAGACGACCAGCGGGGATTTGGACGAGCTTAACCTGACCACCCAGCAGTCGCCGTACTTCACCGAGATCCGCCATCACGGGGTCAAGAGCCTCAACCCGGCCAGTGAGCTCTACAACGATGACTTCCTCGTCCGTCGTGATAAGCGGCTCAAGCAGGCCAACATTGTGATTACCAACCATGCCTACCTGGTGGCCCACGCCCAGGAACTGGGTGACGGGACCCGGCGGCCGTACCTGGTGGTTGACGAGGCCCAGCACCTCAGCGACAGCATCCTGCACCGGTCGCGGCGGAGCTTCTCCTTCCCCCGCTTGCGGACCGCCATCCACGTCCTGACCGGCCTGGTCAGCAATGGTGAGGACCGCAACCTGGCTGATATCTTTGCCGACCATGCCCTGGCCAGCTACAATGTCGAGCTCCTGCGCGGCGACCTGACCACCCTTGATGAGGCCCTCAACCGCTTCCAGCAGGCCCTCTACCGCCAGTTTGGCCAGCAGACAACGGCCGGTGGGGAGAACGAGCTGATCGAACAAGAACTGGATAATCAGCAGCTCGCCCAGCTCCTCGACGTCAGTGGGCCGGTGATGATGGAACTGGAACAGGCCCTAGGCAGTGTCCAGCTGCATTTCTCGGCCCTCCAGCACATCTTCAACCAGCAGGCCGACCGTTGGCTGCCCAGCGATCGCTACCTAATGAGCCAGTTCCAGAGCCAGATGGCTAAGCTGACCGCCGCCGATGCCACCCTGAATAAGTACAACGAGACCCTGCGCCAGCGGAGGGACGCGGCGGCCTTCTGGCTCACCATCCGCCAGTCGAGCGAGTACAGCGCCATGCAACTGACCGGGGGCCTGCTGGCGGTCAACCACTACCTAACCGAAAACGTCTACCCGTACTTCGCACAGCCGCTCTTCGTCGGCGCGACCCTCTTCTCATCGAGCCGGTCGCGCTACCTTTACCAGCAGCTGGACCTTGACCGGCAGTCGACCTTGGCCAAGCGCTTCGCTTCGCCATTTAACTACCAGCAGCATGCCCGTCTCCTGGTGGCCACCGACGCCCCGGTGCCCAACCGCAAGAACAACGCCGAGTACGTCCGCTACCTGAGCAGGACGATCTATCAGCTGACCAAGCAGACCGACTGCCAGACGATGATCCTCTTCAACTCCCTGGTGATGATCGAACAGGTTTACAGCCAGCTGCGCGGCACCGACCTCTTCGACCAGCGTGACATCCTGGCCCAGGGAATCACCGGCGGCCGGGAGAAGCTGCTCAAGCAGTTTGCCAATGGCAAGAACGCCATCCTGCTCGGCGCCGCTAGTTTCTGGGAGGGGGTTGACCTGCCCAAGACCGCCCTGGAGCTTTTGATCATCACCCGGCTGCCGTTTGACGCCCCCGATGAGGTGATGACCCGGGCCTACCACGACCTGCTCAAGCGTGAGGGTCGCAACCCCTTCTACGGGGCCGCCCTGCCTAAGGCGACAATGCGCCTGCGTCAGGGGGTTGGCCGCCTGATCCGGACCGCTGACGACAACGGGGTCGCGGCGATCCTCGATTCTCGTCTCCACAGCCGGCGCTATGGGGCGACGATCCTGAAGAGTTTCCCGAAGGACCTGCCAATCATGGAGTTGCCGACTGACCAGCTGATGGCGACGGCAAATAATTTCATCAAAAAGAATCATCGCCACCCCGAAAAGTAA
>SRR1151252_00995 mevalonate kinase
ATGGTGAAAGAACAAGGGATTGGCACGAGTCACGCGAAAATCATCTTAATGGGGGAGCACAGCGTCGTCTACGGCCAGCCGGCCATCGCCCTGCCCCTACCCTCGGTTAAGCTGACCGTCACCCTAACGCCGGCCGACCAGGGTCAGACCGTCACCAGCCGCTACTTCACCGGTGACTGGCACGACCTGCCGCCGGTCATGGCGGGCGTCGGCAAGCTGATTGCGACCCTGGTTACCCGCTTCAATGGCCAGGATGACCACTGGGAGTTAACCATCGATAGCCAGCTCCCTGCCGAGCGCGGGATGGGGTCGTCAGCGGCGACCGCCGTGGCCATTGTCCGGGCCTTCTTCGACTACTACGAGCAGCCACTCAGCCGGGATACTCTCTTAGCCCTGGCGGACGTCGAGGAGCAGATCACCCACCGGAGCCCGTCCGGCCTGGATGCGGCCACGGTCAGCGCTAAGACCCCGCTCTACTACGTCAAGGGGCAGGCCGGCACGCCGATTCCAATGAACTTGCAGGCAACGATGGTGATCGCCGACACCGGCGTCAAGGGCGCCACCAAGGAGGCGATCATGGCCGTTCAGGACCTGCTCCAGGACGATCACGACCGCGCCCAGGGGCACATCGAACACCTGGGAAAGCTGGTCAACGTCAGCCGGCAGTTGCTGGCGGCGGGTGAAGTTTTCAAGTTAGGTACAACGTTAAACGCTGCCCAGCAGGACCTGGTCGCACTGAGGGTCAGTGACGATCAACTCGACCACCTGATCGACGTCGCTACCCACAACGGTGCCCTGGGGGCCAAGCTGACTGGTGGCGGCCGCGGTGGCTGCATGTTTGCCATCACCCGAACCGCCCTGGGGGCCCGCAAGTTGGCGGGAATCTTGAAGGACAATGGCGCTCGAAAGACCTGGATCCAACCGCTAGACACAACACGAGGTGATAACTGA
>SRR1151252_00996 diphosphomevalonate decarboxylase
ATGGCAACGGCTAAAGCACATACCAACATCGCCCTGATCAAGTACTGGGGCAAGAAGGATCAGGACCTGATCATCCCGCAGACTGACAGCCTCTCGATGACCCTGGATGAATTTTACACGACCACCCGGGTTAGCTTCGATCCGGCCCTGACCGCCGATCAAATCACGGTTAATGACCAGCCGGTAACTGGGGACGGGGCGGCACGGATCACTCGTTTTCTGGACATCGTCCGTCAGCTGAGCGGCCGGCATGAATTTGCCCATGTCGACTCCCATAACCACGTGCCAACTGCGGCCGGGCTGGCCTCGTCAGCTTCCGCCTTCGCGGCCCTGGCCGGAGCGGCGAGCCGGGCGGCCGGCTTGGACCTCTCCCGCCGTGATCTGTCGCGCCTGGCCCGACGTGGTTCCGGTTCGGCCACCCGTTCCATCTACGGGGGCCTGGTCGAATGGCACCGCGGCCACGATGACGCCAGCTCCTACGCCGAGCCAATCATGGAAAAGGTCGACTTTGGATTGGAGATGCTGGCAATCATGGTTTCCACCGGCCGCAAGAAGATCTCCAGCCGCTACGGAATGCAGTCCAGCGTGATCAGTTCGCCCTACTACGACTCCTGGAAAGAGGTCGTCGAAAGCGACATGGCCACCATGAAGGCCGCCATCGCCGCTCATGACATCCAAGTCATCGGTCATACTGCCGAGGAGAACGCCCTGCGAATGCACGCCCTGACCCTCTCGGCTGACCCAGGCTACACCTACTTCAACAGCGAGACTCTGAGTGCCATCGCAGCCGTCCGCCGGCTTCGCGAACAGGGCATCAATTGCTACTTCACGATGGATGCCGGCCCCAACGTTAAGGTCATCTATAACCGGGCCGACCGTGACCGAATTGTGGACGGACTTGCTCAGACCTTTGACCGCGACCGCCTGGTGGTTTCCCAAGCCGGCCCCGGGATTGAAATTTGGGATGAAAATAACTGA
>SRR1151252_00997 phosphomevalonate kinase
TTGATAACTGAAAAAGCACCTGGTAAGTTGTACATCGCTGGCGAATACGCGGTCGTCGAGAACGGCTACCCGGCCATCCTGGTGGCCCTAGACCAATTCGTCACCTGCACGATCAAGGATAGTGCCCGTGAAATCGGCCAGATCATCAGCCAGCAGTACACCAACGACCAGTTGAACTGGCGACGGATGGGCGATCGGCTGGTGGTCGACAAGCGCGACAACCCCTTCTCCTATATCCTGTCAGCCATCCGGATCACGGAGGAATACGCCCGCAGCTTCGAACGCGACCTGCGGATCTACGACATGCAGATCGACAGCCAGCTGGACAGTGCCAACGGCCGCAAGTACGGGCTCGGTTCCTCGGCGGCCGTCACGGTAGCGACCGTCAAGGCACTGTGCCACTACTACCACCTGCCCGTGACCAAGGACGAGATCTTCAAGCTAGCGGCGATCGCCCACTTTGAGGTCCAGGGGAACGGCTCGCTGGGTGACGTGGCGGCCTCGGTCTACGGGGGCTGGATCTCCTACCACTCCTTTGACCGGCAGTGGTTGGCCCAGCAGCGCAAGTACCTCGACCTGAAGAGTCTGATCGACCTCCCTTGGCCAGACCTCAAGATCGAGTCATTGACCGCCCCGCAAAATCTGGAGCTGCTGATTGGCTGGACCGGGAAACCGGCCTCGACCTCCCAGCTGGTCGATAAGATCTCCCTCTTCAAGGCCCGCCAGCAGGATGAATACCACCGCTTCCTCGAGGACAGCAAGGCCTGCATTCAGCGGATGGTCGAGGGCTTCCACCAGCAGGACCTCGATAAGATCAAGGAGGAGATCCGCTTCAACCGTCATCTGCTGAAGCAGCTCGGCGCCAACTCTGGGGTCAACATCGAGACACCGGTGCTCAACCGCCTCTGCCAGATTGCCGAGCACTTCGGCGGGGCTGCCAAGACTTCCGGCGCTGGTGGTGGTGACTGCGGGATCGTGGCCATCGACCGCAACGTCAACTTCAGGGCCGTCCTCAAGTCCTGGACCCAGGAGAAGATCGAACAACTCCCCCTATCCGTCCACTTCATCGACGACGTCAAGTACACGGTGCGCGAACACCTGCCATTAATCTAA
>SRR1151252_00998 isopentenyl pyrophosphate isomerase
ATGGAGTCACAACAAGCCCATCGCAAGGATGAGCACCTTTCCTTGGCCACCGCATCCTACCAACGGGCCCATGCCCACCACTACTTTGACCAGGTCCGCCTGATCCACGACGCCCTGCCGGAAACGGCCGTCGCCGCGGTGGACCCCACCGTCCAGCTGGCAGACGGCCTCCAGCTGGAATGGCCCTTCTACCTGGAGGCGATGACCGGCGGCAGCAAACAGGCCACGAAGGTCAACCGGGCCCTGGCTAAACTGGCCCATAAGCACCACCTGGCGATGGCGACCGGCTCGCTCAGCGTTGCCCTCAAGGAAGCAGCGGCCCAACCGTCCTTCACCGTGGTCCGGGAGGCGAATCCGGACGGGATCGTGATCGCCAACCTCGGCGCTGATGCTAGCCTAGACAAGGCTCGGGCCGCCGTGGATCTCCTGGCTGCTGATGCCCTGGAACTCCACTTGAACGCAGCCCAGGAGCTGGTGATGCCCGAGGGTGACCGCCAGTTCTACTGGCTGGACAACATTACCCGCCTGGTTGACGGCCTGGACGTCCCGGTGATTGTCAAGGAGGTCGGCTTCGGGATGAGCAGACGGACCATCGAACGGCTACAGACGGCCGGTGTCCAGCTGATCAACGTCAGCGGTCGGGGCGGGACCAACTTCGCCATGATTGAGAACCGGCGCAACCACCAGCTCGACATGGCCGACCTCGCTGACTGGGGCCAAACCACCCCAGAGTCCCTGCTTGAGGCTCGGGATAGCCAGGCGACCATCATCGCCTCGGGCGGGGTCACCTGCCCCCTCGACGTCGTTAAGGCCGGGGTCCTCGGTGCCCGGGCGGTCGGCGTGGCCGGTTACTTCCTCAACATCCTGGTCCGGGACGGTGCATCAGCCCTCGACCAGGTCCTGACCGATTGGCAGGCACAGCTCCCCCGCCTGCTGACCCTGGTCGGCGCCCAGCACTTCATCGACCTCAGCCGGGTTGACTATGTCCTGACCGGCCCGCTCTACGAATACGCCCAGCAGCGCGGGCTGGTTTAA
>SRR1151252_00999 DNA-damage-inducible protein J
ATGGCAACAACGACAATCCGTCTCGACGATAAGCTCAAAAAGGAACTCAGCAAAGAGCTTAAGTCGATGGGGCTGAGCATCAATGGCTACTTTAATTTGGCAGCCCGTCAATTGGTTATTCAAAAGAAGGTTCCGTTTGAATTAGTTACAGAATCAGAGGTACCAACAGAAACTACCAGAAGGGCACTAGTGGAGGCTGAAGCAAAGGAATTAGGAATTATTCCAGACGATTCACCAAGCTTTGCCAATATCAATGACCTTAAGGACTTTTTGGATAAAGAATAA
>SRR1151252_01000 addiction module toxin RelE
ATGTACCAGTTGAAAATCGAAGCCCAGTTCAAAAGAGACTACAAAAATTTAAAACGCCGCCATCCAGAACTAATCCGCGAGCTAATGAACACCCTGAAGCAGTTGCAAATTAATGGGATTGTTAATAGCAAATATCGACCATATATATTAAATAATCGTGGCGGAAATTATAATGGCAGTTACGAGTACCATTTATCTGATGGCAGAGTCGATATACTGGTTATTTACATGCCTCATAAAACAAATCCAACAATTCGACTGATACGGGTCGGTAGTCATAATGAAGTATTTCATAGTGATTTAAGGTAA
>SRR1151252_01001 L-lactate dehydrogenase
ATGACCAATAATCATCAAAAAGTCGTCCTTGTCGGTGACGGTGCAGTTGGTTCAGCCTACGCCTTTGCGATGGTCCAACAGGGGCTTGCCGAAGAGTTCGCCATTGTTGATCTGACGAAGAAGCGGGCTGAAGGTGATGCTCTGGACCTGGAAGACGCGACTGTCTTCACGGCACCCAAGCAAATCTATGCTGCTGATTACGATACTTGTAAGGATGCTGATGTTGTCATCATCTGCGCGGGTGCGGCCCAGAAGCCTGGTGAAACCCGTCTGCAGCTGGTCGGCAAGAATCTCAAGATCATGCACGAGATCGTCCAGCCGATCGTGGCTTCCGGTTTCAACGGTGTCTTTATCGTTGCTGCCAACCCGGTTGACATCCTGACTTACGCAGTTCAGAAGATCTCCGGCTTTCCAGTCAACAAGGTCATCTCTTCCGGCACGTCACTGGACTCAGCCCGCTTGCGGGTGGCCCTGGCGAACCGGTTCGGGGTTGACCCCCGCGACGTCAACGTCAACGTGATGGCCGAGCACGGTGATTCTGAATTTGCCGCCTACTCGAGCGCAACCATCGGCGGCCTGCCGCTGTATGAGTTGGCCGAACAGGAGCACATCTCCCATGATGACCTGCTGAAGATCGAGGATGACGTGCGCAAGAAGGCCTACGAGATCATCAATCGCAAGGGTGCTACCTACTACGGTGTTTCCACCTGCCTGATGCGGATCACCAAGGCCATCCTGCGTGATGAAAACGCGGTTCTGCCGGTTGGTGCTTACGTCGATGGCGAGTACGGGGTCAAGGATCTTTACCTTGGTACGCCGGCCGTCATCAACGCCAACGGGATCGCCAGGGTCATCGAGGTACCCCTCGATGATTGCGAACGCGCCGCAATGACCAAGTCAGCTGAAACATTAAAGAAGACCGCCACGGATGGCATGACCAAGGTCGGCTTGGTCAACTATCTCTGGTAG
>SRR1151252_01002 antiholin-like protein LrgB
ATGTCAGCTACAATTGCAACAAATCTAGCATTGCCATTCACTGGTATTTTCATTTCATTGATTGTTTATCTTATTGGTATGTGGTTAACCAAGATTAGTAACGGTTTCTTCCTCTTCAACCCACTGCTGGTTGGGATGGTTCTCGGGATCGTTGTTCTGGCCATCTGGGCTAAGAGCACTGGCTCCACGACCGCTGCTGTTTACACGAAGTACTACCTGCCAGGTGGTAACATCATCTTCTGGTTCCTGAACCCTGCTACCATGGCCTTCGCCATCCCGGTTTACAAGGTTAACGAAACCTTCAAGAAGTACTGGTTCGATATCATCGTTATCTGCTTCGTCGGTGGTTTCATTTCCCTGTTCCTGATTCAACTGGTATCTAAGCTCTTCGGTCTGTCCGCTGCTTCAACGGCTTCCATGCTGCCACAAGCTGCTACCACTGCCGTTGCTATGCCGATCGCTGCTGGTGTTCACGGTGTTCCTGCCGTTACCGCGATGGCATGTATCTTAAACGCCGTTGTTATCTACGCCTTGGCTGAATTCCTGATCAAGATCCTGCGGCTCGACAAGGTTTCTCCTGTTGCTACTGGTTTAGGTTTAGGTTCTGCTGGGCACACGGTTGGTTCCGTTAAGGCCCTTTCCCTTGGTGAAATTCAAGGTGCCATGGCCGGTGTCTCTGTCCTGATTATTTCTCTGGCAATGGACATCCTGGTTCCAATCTACGCAAACCTGTTCATGTAA
>SRR1151252_01003 antiholin-like protein LrgA
ATGGACAAGAAGGATAAAAAGCCAGAAGCTTCCAACATTTATGTTCAAATGGGAATCTTCGCCGCTATTCTGTTTGTTTCTCAATTGATCTCTGATCTTTTTCCAAAGAGCTTCGTTGTGCCAACCCCACTGATTGGTATGGTTCTGCTCTACATCCTGTTGGCTTGCCACATCGTTAAGCTGCACCAGGTTGAAAAGTTCGGTACGTTCATGATCGGTCTTATTGCATTCCTGTTCGTTCCATCAGGTATCCAATTGGCCGCTCACCTGGACATCATGCGTCGTGAAGGTATCCAAGATGTATGTGTAATCATCATCTCCACGATCATTCTCTTGGTCGTAATTGCCTACGTTGGTGCCTTGGTTATGAGCATTCACCACAAGATCACTGGTAACAAGAAGGACTAG
>SRR1151252_01004 two-component system response regulator
ATGAAGGTGTTAATTGTTGATGATGAGCCGCTCGCTCGTGACGAACTACACTACCTGGTCGACCAAAATCCACTGGTGACTGATATTTATGAGGCTGACGGGGTAGTCAGTGCCCAGCAGGCCGTGGACCAGGAAGCTGTCGACCTGATGTTTCTCGATATCCAATTGGCTGACGGGAGTGGGATGGCCCTGGCGGAGAGCCTGAAGAGTCGGCCGCACCATCCCTACATCGTCTTTGCCACCGCCTATGACCAGTACGCCCTCGACGCCTTTGATGCCGATGCCGTCGACTACCTGCTGAAGCCGTTCTCCCAGCAGCGGGTCAATGACGCCATCACCCGGGTTGCTAAACTGGCGGCCCCCAAGCAAGCGGCGATTACCCCACAGGACCAGCGGACCAACCCGCGCCTGTCGCTGACCAATGACGACCGGACGATTATTCTGCAGAAGGACACGATCCTCTACATCCAGACCCAGGACGGGGAGACCGCGGTCTGGGCCAAGGGTGGTCACCGGGTGGTCAGCAAACAGCCCCTGGCCGGCTTGCTCAAGCAGCTGGATCCGGCCCAGTTTATCCGGGTCCACAGGAGCTTCGCCGTCAACCTCAACATGGTCAGTGAGCTTCAGCCCAGTTTCAACCATACCTACGAGTTGACCCTAAAGGACGGCAGTAAGGTCCCGGTCAGCCGGTCCTACGTCGCCACTGTCAAGCAGGCGCTGGGGATGGCATAA
>SRR1151252_01005 two-component system sensor histidine kinase
ATGTTTTACCTAACCATTCTAATGATCGAGCGGGTCGGCTTCGTCATCATCCTGGCCTTTCTGTTGGTCAACGTCCCGGCCTTTCGCCGGCTGATGTCTTCAGACCGGTTGATCGACCGGGTTCAATTGACGATTATTTTCGCCATCTTTGCCATTTTGGCCAACAGTACCGGGATCGAGATTGACCCGGCCAACCAGCTCCATGACAAGGTCTTCTTGACCACTATTTCCGAGAACTATTCGATCGTCAACGCCCGGATCCTGGCCGTTTCGGTTGCCGGGATCATTGGTGGACCCTGGGTTGGTGGGGCGGTTGGCTTGATTGCCGGCCTCCACCGGGTCATGTTGGGCAATATGGCGGCCCAGTCCTGGTTCTACGTGCCCAGTTCGGTTCTGATCGGGCTCTTGTCCGGATATCTCTACAATGACCGGCGGAACCCCTTTGCGGTGATGAGCCCCTGGCATGGTTTCCTGGTCGGCCTGTTGATGGAAAGCATCCAGATGGTCTTCATCTTCTTATTTAGTCCGACCGGTTGGACACTGGTTCAATACATTGCCCTACCGATGATCCTGGTCAACTCGGTCGGGACCTCGGTCTTCCTGTCAATCATCGGCATGTTCCGGCGCCAGGAGGAGGAGACCCGGGCGATGCAGACCCATTCGGTCCTTGAGCTGACCAAGGAGACCCTGCCATACCTGCGCAACGGGTTGAACATGCAGTCCGCCCGTCAGGTGGTCAGGGCCATCAAACGCCACACCAACTTTGATGCCGTCAGCCTCACCGACCGCCAGACCATCCTGGCCCACGTCGGCGCGGGGAGTGACCACCACATCCCCGGTAAGATGATGTTGACCCACCTCTCGGAGACCGTCATCGAAAGCGGCCGTGTCCACATTGCTCACAACCGTGACGAGATTGGCTGTTCCCACCGTGACTGTCCACTGGAGGCGGCGATCGTGGTGCCGCTGCGGATCCGTGAACGGGTTGTCGGCACCCTGAAGATGTACTACACGGCCGCCTGGCGTCTGACGCCGGTGGAGGTTCAGCTGGCTGAGGGACTCGGCGAGATCTTCGCCAACCAGATCGCCCTCGGCCAGGCCGAGATGCAGGCCAAGCTGGTCCGCGACGCCGAGATCAAGTCCCTCCAGGCCCAGGTCAACCCGCACTTCTTCTTCAACGCCATCAACACGATCAGCGCGATGATGCGGCGGGATAGTGAAAAGGCCCGCCAGCTCCTCCTTCAGTTGAGCACCTACTTCCGGGCCAACCTGATTGGGGCGCGGTCAACGCAGATCACCTTGGCGCAGGAGCGCGACCATGTTCACGCCTACCTGACCCTGGAGCAGACCCGCTTCCCGGACCGGTTTAAGGTTAATTTCAACAACACGGTGGGGGATGACGTCCTCTTGCCACCATTCACGATCCAGGTGTTGGTCGAAAACGCCCTCAAGCACGCCTTTGGCCACCGGATGCACGGTAATGTCGTCAACATCAACCTGGCGGCGGTGGGGGACAGGCTCCAGATCAAGGTGGCCGATAACGGGGAGGGGATTGCCCCCAACATTCTTGGTAGGCTGGGGCATGAACCGGTCCGGTCCAGCCACGGAACCGGGACCGCCCTGCAAAACCTTAACCAGCGTTTGGTCGGCCTGTACGACAAGCGGAGTCAGCTGAACTTCGCGACCAGTCAGGCCGGCACCACGGTTACCATTTCAATTCCGCTAGTTACGAAAGGGGAATCATAA
>SRR1151252_01006 membrane protein
ATGAAAGAGAAAAATGTGTTTCACGTTAACGGCTACCTGGGCCTCCTGATTGCGATCATCGGCGCTGTAGCCGGCTGCTGGCTGGTCGTCCGTGGCTACCAGGCCGGCCGGATGGGGGTCATCGTCACCGGGGGGATTATCCTGGCGATCGTGATTATCTTCAGCACCTCACTGACGATCATCCAGCCCAACGAGGCTAAGGTGCTGACCTTCTTTGGGAACTACATCGGTACGATCCGCGATGCCGGCTTGTTTATGACGGTGCCCTTCACCGATAAGCAGCGGGTCTCACTGCGGGTCTGCAACTTCAACAGCCAGATCCTCAAGGTCAACGACTCCAAGGGGAACCCGGTCGAGATCGCCGCGGTGATCGTCTACAAGGTGGTTGACACCGCCAAGACCCTCTTCTCGGTCGATGACTACGAGCAGTTTGTTCAGATTCAGAGTGAATCGGCGGTTCGGCACGTGGCCAGCGAATACCCGTACGATACCTTCGAGGACAATTCTGCCCTGACCCTGCGGAGCAACCCGACCGAGGTCTCAAACCGCCTGACCGCCGAGCTCCAGGACCGGCTGAACGTCGCCGGGGTCAAGATCATCGAGACCCGGCTGACCCACCTGGCCTACGCCACCGAGATTGCCAGTGCCATGCTGCAGAAACAGCAGTCGGCGGCCATCCTCTCGGCCCGTAAAATCATCGTCGAGGGGGCGGTCTCGATCACCGAGGACGCCATCGACCGCCTGGCCAAAGAGGCCAAGCTTAACCTGACCGATGAGCAGCGCCTCCAGATCATCAACAACATCATGGTGGCCATCATCTCCGAACGGGGGACCCAGCCGGTCATCAATACCGGGACCCAGCAGTAA
>SRR1151252_01007 23S rRNA methyltransferase
GTGTTGCAATTACCTGAGGAATTCATTGAGAAATATCGACGCCTGCTGGGGGATGAGGCCCCGGCATTCTTGGCGTCCTTTGACCAGTCCAGCCATAGTGGCTTCCGGGTCAACCCACTGAAGGCCGCCCCGACGGCCACCATTGACAAGGCGACGGGGCGGGTACCGTATGTGCCAACCGGCTACTACGGGACGGTCGACGGTAAGTCCCTCGACCACGTCACTGGGGCGATTTACAGCCAAGAACCGTCCGCCATGTACGTCGGCGAGGTGGTCGACCCACAGCCCGGGGAGCGGGTCCTCGACCTCTGTGCGGCCCCCGGTGGGAAAACAACCCACCTGGTGGCGAAGATGAAGGATACCGGCCTCCTGGTGGCCAACGAGATCTTTCGCAAGCGGGCCAAGGTCCTGGCCGAGAACCTGGAACGGTGGGGGACCAGGAGTACGGTCGTGATGAACGAAAGTCCTGCCGACCTGGAGGAGCAGTTTTCCCACTTCTTCGACCGGATCCTGGTCGACGCCCCCTGTTCAGGTGAGGGGATGTTTCGCAAGGAACCGGCCGGGATCGAATACTGGAATCCCGACTACCCGGCCGAGTGTGCCAACCGCCAGCGCAAGATCCTGGCCTCAGCCATGAGGATACTCAAGCCGGGTGGAATCCTGGTTTATTCGACCTGCACCTTCGCCCCCGAGGAGGACGAGCAGAACCTGGCCTGGCTGCTGGCCACCTATCCAGACCTGAAGACGGTGCCAATCAAGAAGTACCCGGGGATGGATGATGGCCGGCCGGACTGGGCTGACAATAACCCGGCCCTGGCCGATGCCGTCCGCCTCTTTCCCCACCACATCGCCGGGGAGGGCCACTTCATCGCCAAGCTGCAGAATGGTGAACCAGCGGCGGGGGCAGTGCCAGCGCCGGCCAAACGTCGGCGTAAGAAGAAACAGCGCCACCAGCAGCGGTCCGGACTGGATAAGGCAGCCCAGGCCGAGTTTGCGGCCGTCCGCGACGCCCTGCAGCCGGGCTACGAGCCCAAGCGCCTGTTGACCTTTGGTGACCAGCTCTATGCCCTGCCGTCTGGGATGCCAGCAGACCTGGCCGGGATGACCATCCTGCGACCCGGCCTCCACCTGGGCACTTTCAAGAAGAACCGCTTTGAACCAGCCCTTGCTTGGGCCCTGGCGACCGATCCGGCGACCTGCCCGACGACATTGGCGTTGGACCATGACCAGTGGCGCCAGTACGTCCATGGTGACGTGGTGACTGTTGAATCGGGCCACCCCAATGGCTGGTACTTGTTGACCTGCGACGGGTTTGCGACCGGCTTCGGTAAGCTGGTCGGGACCACGGTCAAGAACTTCTATCCCAAGGGATTACGTTTTTAG
>SRR1151252_01008 haloacid dehalogenase
GTGAACCAACATTTAATTGCCATCGACCTCGATGGAACCACTTTGAATAACCAGTCCCAATTGACGGCGGAGACGATTAAAACCCTGCGCGCCGCGGCTCATGCTGGCCATATCGTCAGCATCATCACCGGCCGGCCCTACCGGATTGCCCAGCGGATCTACGACCAGATCGGTATCAAGACGCCGATGGTCAACTTCAACGGGGCTCTGGCCCACATCCCCCACGAGCACTGGGACAAGGAGTATGACGTCGAGCTGACCCGCGAACTGGCCCTCGACCTACTCGCCCAGCATAAGCAGCTCGGCATCGACACGATCACGGTGGAGAACAAGTTCCACGTCTGGGCCAACCACGCCAGCAACCACCTGCCCGAGTTCCTACCGAACCACCTGGCTAAGAACCAGCTGCTGACGGCTAGCAACCTCGACGCTAACCCGATTGCCTTGACGATCGAGTACCAGCCCGACCACGAGCAGGAGATCATCAAGGCAGTCAACGAGAAGTACGGCGACTACGTGGAGCCCCGGGTCTGGGGTGGTCAGTACCACATCCTGGAGCTGATCCACCGCGGGACCCACAAGGAATCAGGGATGTATTACATCGCCAAGCAGTATAACATCAGCAAGGACAACATCATTGCCTTTGGGGATGAGCACAACGACCTGGAGATGCTCGACGCCGCTGGCCGTGGGGTCGCCATGCAAAACGCCATCCCGGCCATCAAAAAAGTTGCCGACGATGTTACCCCCGTCGACAACGATCACAATGGCCTGGCCAAGTACCTCCAGGCCTACTTCAAGCTGTCCGTCTAA
>SRR1151252_01009 hypothetical protein
ATGCGGCAGAAGGTATCAATCGGGCTGGCCATCCTGGGCCTGGCCATCATCGTCTATGCACTGACCTTAGACGGGCAGAACCGGCTGGCAACGATCACCCTGGGGGTTATTGTTGCCTGTGGTGGGGGCCTGATGATCTTGTCCAGCGGTCGGTGGTTTCAGGGCCACCGGGCGGTGAGCGGGCTGATCTCCGTCCTATTCGTCCTGGTTATCATCGGTTACCTGCTGAAGATGACCGTGCTGGGTTAG
>SRR1151252_01010 serine/threonine exchanger SteT
ATGGAGAAACCACAAACGACAACTGAGGAGCTCAACCGTTCCTTGGGCCTGTGGTCAGCATTATCAATCGTTATTGGAACGATTATCGGTTCCGGAATCTTCTTCAAGCAAGCTTCAGTATTGGATAGTGCGGGTTCCTCCAGCCTCGCATTGCTTGCCTGGGTCATCGGTGGGGTCATCACCCTGACTTCGGGGCTGACCGTCGCCGAGATCGGGGCCCAGATGCCATACACCGGGGGCCTCTACGTCTACATTGAAAACATCTACGGCCGCCTGCTGGGCTTTCTATCCGGCTGGATGCAGGCAATCGTCTACGGCCCCGCGATCATCGCGGCCGTGGCCGGCTTCATGAGTATCCTGATGACGGAGCTCTTCGGTCTGTCTGCCGCCTGGCGGGTGCCGCTAGCGGTGGTGACCATCCTGGCAATCGGGGGGATGAACCTCCTCGATAACCGGGTCGGTGCCGGCTTTGCGATCCTGACGACGGCCGGGAAGCTGATCCCGATCGCGGCGATCATCGTCTTCGGCCTCTTCTTCGGCCATGAGGACGCGATTGGCCAGACGGTCAGCCAGGTCCAGCAGTCCAGTGGCAACTTCGGGGTGGCCGTCTTGGCGACCCTCTTCGGTTATGACGGCTGGATTTTAATCGCCAACCTCGGTGGGGAGATGAAGAATCCCCAGAAGCTCCTCCCTAAGGCGATCATCATCGGGATCACGACGGTCCTGGTGATCTACACCCTGATTACCTTCGGCGTCTTCCGCTTCCTGCCGGCGGATAAGATCCACCAGCTCGGTGAGGGGGCGACCGGCTACCTGGCCACGGCGGCCTTTGGCAAGGTCGGTGGCCGCCTGCTTTCGATTGGGATCATCATCTCAATGATGGGGACGATCAACGGTAAGATCATGACCTTCCCGCGGATCGTCTACGCGATGGCTAAGCGTCGTGACCTGCCCTTCTCCCGCTACCTGGCCTACGTTACCCCGAAGGCCAAGGAGCCGGTGGTAGCGATCGGCTTCATCCTCGCCCTGGCGACGGTTATGATGTGCTTCTTTGACCCCGACCACCTGTCGGACCTCTGTGTCTTCACGGTCTACTGCTTCTACACGCTGGCCTTCTTCGGGATCTTCATCCTGCGCCGACGTAATAAGGGCAAGGAGCGGCCATTCTCGACCCCGCTCTACCCATGGATTCCGCTGATCTCAATTGCCGGGGGCCTCTTCGTGTTGGTCAGCGAGGTCTTCAATGATCCCTGGGGAGTGGTCCTCTTCGTCGGGATCACCATCCTCGGCCTGCCAGTTCTCTGGGTGGTCAAGGAGATGGATAAGCGCCGTCAGATGTGA
>SRR1151252_01011 hypothetical protein
ATGAAACCGATGGACATTTATATTGCCAGCGTGCCGTTTGATGAAGGAACGGACGATAAGGTACAACCAGCCTTGGTAATTGAAGTCGCAAGTGAGAAGGTAATTGTCTTTAAAATTACCAGTCAATATAAGCAAAAATCGGCACAGATTAAACGATTGTACTATCCGATTAAGGAGTGGCAAGCGGCAGGACTTCGAAAGAAATCTTACGTTGATACCCATAAATTGTATCGGCTGTCTAAAAAATTAATTTTCAGTCAACGACCGATCGGAAAGCTGACGGATGTTGATCGTTTAGGATTATTTGAGTTTATTAATCAATTGAAGAATGGATAA
>SRR1151252_01012 hypothetical protein
ATGGATAATGCCGTAATCGGTAAGGTATCACAAAAGGGACAAATCGTCATTCCGGCAGCCATTCGAAAAGCATTAGGTCTGCAAAAGGGGACGGAGGTTTCATTCGAGGTTAAGAATAATGAAATTCGGATAAAGAAATTACCGACGGCGCTTGATTGGGCTGATCTCGTTAAGCAGATTCCCGTTGAGAATATTGAAATTGATGAGCATGGTCACTATGATCCCAAAGCGCATCCGGACTTTCATGATTGGATGGTCAATGGCTAA
>SRR1151252_01013 hypothetical protein
ATGAATAAGACGTTTATGAGCGGTTATTATCAGGGGGTCGTCGAGGTGGCCCCGGCATCGCTGTCCGCCGCCAAGGTCGAGGAGCTGGCGGTGACGATGACTATCCAGCACCTCCGCCACGCCGGGGTGGCCATCACCACGATCCATGACTTCCTGGTTGACAACCTCCACGCCGATGCCCGCCTGGTCAGTCGCTACATCAACTGCGACGCCGACCAGCTGGAGACCGCCCAGGCAAAGATCCTGGCGGGGGCTTTTGCGAAAAAATAG
>SRR1151252_01014 hypothetical protein
ATGCTTAACAAGAGTGACTTACAGCTAATTGAATCCGAATTGATCGCCATGGAGGAGCCCTACCTGGCGACGTTGGCCAGCGACATCCACGCCGACCCGGCCGCGCTGCTAGCGGTGCACAATGGCCAGAGCTTCGTGACCAGCCTCAGCCTGAGCGTCCTCCAGCGGATCAACGCCTACTTCCGGGACTTTCCGCCCTTCAATAGCGCCACCGGGGAGGTCATTGACGACCTCAACCAGTTGCGGCTGAGTTGTGACTACCGCCACGTCCACGACCTCCTCCAGCAGGAGATCATGGAGTACAACTTCTACCATGACACCGACCTGGACGCCTACAGCCCGATCTGGGTCGAGCGCGACAGCCAGACCGCGCCGGGTGAGGGTTACCGGGCAATCGTTAACTTCTACCTGCCGGCCCTCGGTGGGGTACCGCAGTCGGAGACGACCCTGTACGAGAGCCTGGTCGGTGACGTGATGACCGAGATGGCGATCATGGGCTGGCAGTTTGACTAG
>SRR1151252_01015 potassium/ion channel protein
GTGGCGCAAATCGTGCACAACAAACTTACTTATATTATCTACCAAGTCATCATCGCCATCCTCGCGATCATCTCGATCGTCATGCTGCTGGCGTACTATGCCAAGGAGATCGACATCGATGCCTACCCCTATAACCTGATTGACAACGGGATCTGGCTGGTCTTTGTGGTCGACTACTTCACCAGCCTGGTCCTGGCCGACGACAAGAAGGCCTTCTTCAAGCACCACATCTTCGACCTGCTCTCGATCATCCCGGCCAACTCCCTGTTCTTCTTCTTTCGGATCGCCCAGATTGGGGAGACCTTCCGGATGCTCAAGCTCTTCCGGCTCCTCCGCCTAATCGGCTTCACCGGAAGATTGGCCAGCTTCTTCAAACGTAACGAACTGGTCTACTACCTCTACATCAGTATCGCCGTGATCATGGTGACCGCCGCAATGTTCTGCATCTCCGAGAAGGTTTCCTACCAGACCGCCCTCTGGTGGGCCATCACCACCGCCACGACCATCGCCTACGGAGACGTCATCCCCAAAACTGAAATCGGCCGGGGTGCCGCCATCATATTGATGCTGCTGGGGATCGGTTTTATCGGGATGCTGACCGGGACGATCACCGAGTTCTTCGCCAAGAAAGACGAGGCCGCCATGAGCAAGCAGCTCGACCGCCTGGAGGCTGAGAACCACCAGCTCCACGCCGATCTCGATGAAATCAAACAGCTCCTGGTCGCCCACACCAAACAGGATAACCGCGACAATGACAAGTGA
>SRR1151252_01016 membrane protein
ATGGACTTTTCATTCACCCGCCGATCCGGCCTGCGCAAACTCTACCTAGAATATACCGTCATGTTCGTCTTCCTAGCGGCCTGTATCTTCGGCACCTACCTGGTGACCGGGCATACCTTCATCCTCAGCAAGGACGCCCTCAACCAGCACCTGCCCCTTTTGGTCAAGTACCGGGCGGCGTTGATCGAATTTCTCCACCACCCCGGTCGCTTGACGTTCTGGTCCTGGCAGATGGGGCTGGGGACCGACACCTTTTCGGTCTACTCCTACTACACGATCGGTGACGTCTTCGCCTACCTGGCCCTCCTCTTCCCGGCCGCCAAGATGACCCTGGCCTACCAGGTGATCGGGATGGTCCGGATGTATTGCATCGGCCTGGCCTTCGTCTACTTCGCCCAGCACTTCAACCTGCGCAACCAGGTGATCCTGATCGGGACGGTCGCCTACACGGTCAACGCCTTCCTCCTCTACGCCGCGATCGCCCAGCCCTTCTTCACCACCCCCTTCATCCTCTTCCCGCTCATCATTGTTCAAATCGAACGGGTCCTGCAGGGGGGATCGGCCTGGCCGCTGACCGGGGTCTTCACCTGGATGCTGGTCAGCAACTACTACCTCGCCTTCGTCCTCGGTATCGGTGCCCTGGCCTACCTAATTCTCCGGGTGGCCACCCACTACCGGACCAGCCTGAACTACCTGAAGACCCTGGGCAAGCTGGCCTTTGCCACCGTCACCAGCTTCCTGGTCTCGGCGATCCTGTTGGTACCCGAGATCCTGGCCGTCACCAACTCGACCCGGACCGGGGCTCAGTTTGCTAACGGCCTCAAGGTCTACCCACTTTATTACTACCTCTTCTTACCCAAGCAGCTGATCAACGGGGGGCAATGGTACTTCATGTACTGGACGGCCCTCGGGGTGGTCTCAATCGGCTTTTTAGCCCTGGTCTACATCTACTCCCGGCCCCGCAAGTACCCCCTGTTGACAATTAGTCTGGCCTTTTCCTTAGTGATGCTTCTGATCCCGGCAGTCGGTGCCTTCTTCAACGGGATGATGTCGGCCTCCAACCGCTGGACGCTGTTGATCTACCTGCCGCTGGCGATGGCGGTCTGCATCCTCGCCCAGGACGCGCCCCACTTCTCGCACCGCACCCTCTGGATCCTCAACATTGCGACGGCCGTCTACCTAGCGATCCTGGTCGTCACCTTCTACTTTGCTAATAACGACGACATCTTCATGCCGGTCCTCTTTCTGATCGTCTCCCTGATGGCCCTCTGGCTGATCACCTTCCACAAGACCCGCTTCCCGGACCGGTGGCTGCTGGCCATCGTCCTGCTCAACGCCGGTTTCAACGCCATCTATGCCGCCTTTCCCTACAAGGGGGACTTCACCGACAAGATGCTGTCGCGGGGTGAGTACCAGGCAATCACCGCCAACCGTTACGGCGGGCTCGACCAGGGGCTGAGCCGGAGTCCGGCCTACCGGGTTTCGACGATCAGTCAAAACCAGATCATCGAGGGTCCCAACCTCGACAACGACCTGACCTCGGGCTTGCACAACATTGACTCCTACTACTCCCTGCAGAATAAGTACCTCGGCCAGTTTAACACCGCCCTGCAGAACAACCAGTACCAGGCCAACATTCCGATCCGCCAGGCAGACGACCGGACCGTGATGAACAACTTCTTTGGCGTCCGCTACCTCTTCGTCCAGAGCAACGGTGACAACGCCACCAAGCTGCCAGCCGGCTATTTCTTGGACAAAACCAGCCAGCCGATCATCAACTACGACGTCGGCCAGCCCAGCTCCGCCACCAGCAAGGACCAGCTGATCCCGATCCAGACCGAGCGCTACAAGACTAACAATGCCTTCCCATTGCTCTACTGGCAGGACCGCTACATCAGCCAATCCCGCTACCGGAAGCTGTCGCCGACCCAGCGGGAACGGGCGTTGGCCAGCGGGGTCGTCATCTCCGGCAAGACGACCGGGATGCGGCCGGCAACGCTCCATTCGGCCGTTATCCCAATCAAGAGTGTCCTGGTCTCCAACCGCTTCAACAAGGTCAACCCGGCCCAGCTCAAGTACGTCGACAGTGACGAGAAATACCAGCTGCAGTTCCCGCAGATGCAGAGTAAGGCCTTTCGCCAGCGGGTCCGGGGCAGTGAGCTCCACATCGAGTTTACGAAGATCAAATACACCCCCTTCACCATGAAGGAGCAGATCCACTATGATATGAAGCACCGGGCGGCGATGGCCGACAACCCGGGTAGCGTCTTCAACCAGCGCTTCAACAAGTACCGCTACTGGCGCTACCACGTCCTGAACGGGTCGCCGGACATCTCGTTTAAGCTGAACTACTTCAGTCGCTTTGGGACCGCCAGCGTCGTCCAGGCCAAGCAGAACGTCCTCTCCCTCTTCAAGCACGTCACCAATGGTACCCTAAACGTTGGCTACTACTCCGGTAACCTACCGCAGAAGTTGACCTTCAAGCCGTCAAAGCTGGGAAACTACGAACTAAAGTACCGGGTGGTCGCCGAGAAACTCGACGGTAACTACACCCGTGAGGTTCGGGCCATCCAACGCCATGCCCTGACTGATCTCAAGTTCAGCCGTAACCGGGTCAGTGGCCGGATCACGACGCCGCGCACCGGGGTCCTGACTTCCTCGATCCCTTACTCCAGTGGCTGGCGGGTCACGGTCAACGGCCAGCCGGCGACGACCGTCCGCACCAACCAGGCCTTCCTCGGCATCCGGCTGCCGGCAGGAACCCACCACGTCACCTTCACCTACCAGACACCGGGTCTGCGTACCGGGGCATGGATCTCCCTGGTCGGGCTGGTCTGGACCGGTTTAGCCGCCGCAGTCACCCTGGTCGTCAAGCGCCGCAGGTAA
>SRR1151252_01017 peptide methionine sulfoxide reductase
ATGAGTTTTGATACAGCAATTTTTGCGGGTGGTTGTTTCTGGTGCATGGTCCAACCTTTTGATACCTACCCCGGCATCGAGAAGGTGGAGTCCGGCTATACCGGCGGCCACGGGGCCAACCCGACCTATGAGCAGGTCAAGTCGGGCACGACCGGTCACACCGAGGCGGTGCGGATCACCTTTGACCCGGCCAAGATTTCGTACAAAGAGCTGGTCGAGATCTACTGGCACCAGACCGACCCGACGGACGCGATGGGCCAGTTCCAGGACCGTGGCGACAACTATCGGCCGGTGATCTTTGTCAAGGATGAGGAGCAGCGCCGGATCGCCGAAGCCTCCAAGCACCACCTCCAGGAGAGTGCGCTCTTCGGCGATGCTAAGATCGTCACCCAGATCGAGGACGCCCAGCCCTTCTACCTGGCTGAGGACTACCACCAGGACTTCTACAAGAAAAATCCGGAACGCTACGCCGCCCAGGAGGCCGGTGGACGCGAACGGTTCAAGCAGGAACACTGGGGTGAATGA
>SRR1151252_01018 hypothetical protein
ATGGACAAGAAGAAGGTCCTCCACCAGCTGTGGAACTTTTTGCAACTGTGTATTGCGGCCCTGTTGCTGTACTACATTGTTAACTACCTCGACATGTTGATCAAGTAA
>SRR1151252_01019 potassium/ion channel protein
GTGAATTATTTGACCAAAAACAAGCTATACGACATCGTGATGGCGATCCTCGCCCTCGTCTCGATCTTCCTGATCACCCTGGACTTCGGTGGGGTCATCAGCCTGAACAACGGCTACCCCGAGCTGCTCAACAACATCCTCCTGGTCATATTTACGATCGACTACTTTGGCCGGCTGACGCTCGCCAAGGACAAGAAGAAGTTCTTCCGCGATAACATCTTCGACCTACTCTCAATCATCCCCGCCTCACCGGCATTCAACATCTTCCGGCTGGGGCGGCTAGCCCGCTTCTTCCAGATCTTCCGCCTGCTACGCCTGATCGGACTGACTGGAAAGCTGAACCGTCTCCTCCACACCAACGGCCTGATCTACATCATCTACACCAGCATCGCCATCCTGGTCATTGCGGCCTCGATGTACTCAATCAGTGAGCACGTCTCTTACGGCCGCTCGCTCTGGTGGGCCATCGCCACGGCGACCACCATCGGTTACGGTGACATCTCGCCGCACACCTTCATCGGCAAGCTCGCCGCGATCTTTTTGATGATCGTTGGGATCGGGATCGTCGGCATGCTGACCAGCTCGTTGACCAACCTCTTCATCCACGACCACGCGGATGACCGAATGCAGCGGATCCTCGACAAGCTCGACCGCCTCGAAAAGACTAACCAGCAGCTCGCCGCCGAGATCCGTGAACTTAAGACCGACCCAAAAAAGATGAAGTGA
>SRR1151252_01020 hypothetical protein
ATGTTTTTATCAACCGAAGCCTTTCCCCAGGCCCACCGGATTCTGGGGATCGTCAACGCGACCAGTCACCTGATGTTGCCGAGTGAGGACATCGACGCCTTTGAGTCGATGGACCAGCTGTTCAGCGAGGTCGAGGGCAAACTCAAGTCACGGGCAACAGCCAAGGGGGCCGATGGGGTGGTCAACGTCCGCTTCACCACGAACGTCGCTAACGTCCAGGTGGCCCCGAAGTTCCTGGTGGTGACCGGGTATGGAACCATGATTCAATTGATCAATAAGAAAAAGATGAAGTGA
>SRR1151252_01021 CAAX amino protease
ATGAGTAGACTTGCCAATTTTTTCAACCTTTTCTACCGGATCGGGATCATGCTGATCCTGTTCTTTTTGATCCAGCTGCCACCGGTGGCCATCACCATTGCCAACCGCTATCTCGATAATCTCGGCCTGACAATCATCCTGGTGGCGATCTTCTTGATGCTCTTTGCCTTCATTATCGGCTGGGCCCGGCGCCTTTATCGCCAGTATGACCAGCTGGGACAAGGCGGACACCTACGATTGGGGCTGGTGGCCGGTGGTTACCTGACCCTGCTGGTTGGGATGATGTTCTTCGGCCAGCTGAACATGCTGCTCTTTCACCAGACGCAGACCGCCAACAACGCCGCCGTCGCCCAGATGCTTAACCATAACCAGTTGGCCACCATCGTCTTTGTCATCGCGTCCTGCACCCTGACCCCCGTGGCCGAGGAGCTGATCTTCCGTGGGGTGTTGACCAACCTCTTCTTCCCGACCAGTTGGTTCTGGCCCAAGCTGGTCCTGTCGGGGCTGGTCTTTTCCTGTGCCCACCTCAGTACCAACGTGGTCAGCTTCTGTACCTACCTTTTCATGGGGATGGTGCTGGCCTATGTCTACCGGCGGTCAGGGTCGCTCAAGAACTCGATTGCCCTCCATGCCATCAACAACATCGTGGCGATGGCCGTCCTGCTGAAAATTTAA
>SRR1151252_01022 hypothetical protein
TTGAAAGCAGAATACCTGATTAAAATCATTCTTCCGACCTTCATCATCTTTGCGGTCCTGGTCTGGCTGACGGCCGCCCACGTTATCTCCGGCTGGCTGATGTACCTGCTCTGGGTGCTGGGTTTTGTCTGCGCCAACCTGTGGGTGACCCGGGTGACGGCCAAGCGCAGCTACCACCGTTTAAGAAAGCAGCGGGAGGAGGAAGCCAAGCAGCGTAAAAATGAGTAG
>SRR1151252_01023 ribokinase
ATGAGTAACAAGGTAACGGTAGTTGGGAGCTTGAATGTTGACACGACACTGCGGATCAAGCGGATGCCGCTGCCGGGTGAGACCCTGGCGGCTGCGGACAAGACCAGTGCGGCCGGCGGTAAGGGTGCCAACCAGGCCGTTGCGGCGGCCCGTTCCGGTGCCCAGACGGCCTTTGTCGGCCAGGTCGGCAAAGACAATGGCGGTGAGATGATGATCAAGGACCTTCAGGACAACGGCATTGACACCACCGGCATCCGGGAGAACGACCAGGTCGGTACCGGCTCGGCCGCTATCCTGCTGGATTCGGATGGCCAGAACAGCATCCTGGTCTACGGTGGTGCCAACCAGCAACTGAGTGTCGATGACGTGACGGCGGCCCAGCAGCAAATCGCGGCGGCCGACTTCGTGATTGCCCAGTTCGAGACACCGCAGGCCGCGACCCTGAAGGCCTTCCAGATCGCCAAGGCCAACGGGGTTAAGACGATCCTGAACCCGGCCCCGGCCCACGAGATTGACCCGGCCCTATTGAAGTTGACCGACCTGATCATCCCCAACGAGACCGAGAGTGCATCATTGACCGGGATCATCATTACCGACGAGACCTCAATGCTGATGTCGGCGGCCAAGTTTGCCCAGATGGGGGTCCGCAACCTGATCATCACGGTCGGGGCTAAGGGGGCCTTCTACTGCACCCAGGACGGTTATAACTTCGTGCCGGCCTTCAAGGTCAACGCCGTGGACACCACCGCGGCCGGTGATACCTTCATCGGTGCCCTGTCGTCGCAACTGAAGCCGGACATGAGCAACATCGAGAAGGCCCTGGTCTACGCGCAGCGGGCCAGCTCCCTGGCGGTGCAAAAGATGGGGGCCCTGCCGTCGATCCCGACCCACGAGGCAATCATCGCCGCCAGCCGGCAATAA
>SRR1151252_01024 LacI family transcriptional regulator
ATGAGTAAAAAAGTAACAATTCGCGATATTGCCTGGCTCGCTGGCGTCTCGGTGACGACGGTGTCCCAGATCCTCAATGGCAAGGGGGAGCGCTTCAGTAAGAAGACCCAGGACAAGATCTTTAAGCTGCGCGACGAGTACGGCTACGTGCCAGACTTCAACGCCCGCAGCCTGATCCTCCGCCGGTCATCAAGCATGATCGGGGTCCTGGTGCCCAACATCTCCAGCCCCTTCTTTGGCACCTTCGTCGAGGGGGTCCAGGAGGTGGCCCAGCACGAGCGGATGATCCCACTGATCTTCAGTGCCAACCGGAATGCCGAGTTGGAGCAGAACTACCTCTCCCAGATGCTGGAGCGGTCGATCGACGGGCTGATCATCGCCAGTGCCACTATGACCACCGACACGATCGACAAGATCATCGGGGCCCGGGACGTTCCCTACATCCTCTTCGACCAGAACTACGCCCAGGAGGGGACCCGGGTGCTGACCGATGACTACCACGGCGGTGAGCTGGCGGCCCAGCACCTGGCCGACCTCGGTCACCGCAAGATCGCACTCCTGGAGCCCCGGGAGCTGAGTGAGAACTTCACCCAGCGCTTGACCGGTTTCAAGGACCGCCTGGCCAAGAACAACATCAAACTCGATATGGCCCATGACGTGGTCCGGACCCCGCTGAGTCGGCAGGGCGGCTATGACGCGGCTGAGGCGGTCATCCAGACCGGAGCCACCGCGGCCTTTGCCGGCAATGATGACATGGCGATCGGCCTGATGCGGGGGCTGAGCGAACGGGGCATCAAGGTGCCGGATCAGGTTTCGGTGATCGGCTACGATAATATCTACCTCGATGAATACGTCTCGCCACAGTTGACGACGATCAGCCAGCCGATCACAGACCTGGGGATCGGGGCGGCTAAGATGCTGCTCAACAAGATCCATTCTGATCAGACCCAGGAGCAGATTCAGCGCTTCCCGGTGGAGCTGATCCAGCGGCAGAGCACGGCAAGATTACACGAGGCATGA
>SRR1151252_01025 hypothetical protein
ATGGAAAAGATGACGGAACGCATGGTACGTGAACAGCTGGCCCTGGCCAAGCAGGGGGGCTACCTGGTCGAGGTCCATAACCTGCCGGGGGATGACTACTTCAACGTCGGCTTCGTAGTGGGGATCGACCCGACCTTCTGCCTGCTGATCAGCATTGACTGGGACGGGAAGATCAACGGCCTGATCGTCATCCGAATCAGCAGCATCCAGTCGGTCATCAAGGGCAGCGACTACCTGACGACCGTCTCCGAGAAGACCAAGGTGGCCCACCGCTACCACTACTTTGACATCTTTAGCGTGCAGGAGTTTCTCGACGATCATCCGGAAATCACCAGCGGTAACTTACTCGGCAACGCCCTGCAGGACGCCTATGCTCACCAGCTGCCAGTCGTGGTGGGGACGCAGAAGTACAAGGGCAATGACGACTTTTTCGGCCGGATCGTCCAGCTCGACCGCATCCAGTTGGTTCTCCACTACTTCAACGAGCATGACCTGTCGTCTCTGTGGGAATACCGGGTCCTGCTCGCCCAGGTTGACTACCTGCGCTTCCGGGGTACCCAGATGGCCACCGGTCAGCAGATCTTCAAGGATATTTTCCCCGAAGAATAA
>SRR1151252_01026 deoxyadenosine kinase
ATGGTGATAATTACAGCAGGAATGATCGGTGTCGGCAAGACCACCCTGACGGGCAAGATCGCCGAACACCTTAACACTAAAGCATTTTTCGAACCAGTCGGCGACAATCCCGTCTTGCCACTGTACTACAAGGATCCGAAGCAGTATGGTTTCTTGCTCCAGATCTACTTCTTGAACAAGCGATTCTCAATGATCAAGCAGGCGCTGTCCGATGACAACAACGTCCTCGATCGCTCAATCTACGAGGACGCCCTGTTCACCCGCGAAAACAACGCCGAGGGGAACATCACGGATACCGAGCTCGAGGTCTACCTCAACCTGCTCGATAACATGATGAAGGACCTGCAGCAGCTGCCGAAGAAGGCGCCGGACCTCATGGTTTATTCCGAGACCGACTTCGAGACGATCCTCTACCGGATCAAGAAGCGGGGTCGCGACTACGAGCAGATCGACGATAACCCGGAGCTTAAGGACTACTACTACAAGATGTGGAGCGCCTACAAGCAATGGTACAAGGACTACGACGCCAGTCCAAAGATGAAGATCGACCTGGAGACCTACGACCTGGAGGACCCGAAGAACGTGGCGACCGTCCTGGGGATGATCGACGACCGCCTGGCTTCGATCCGCTAA
>SRR1151252_01027 mannosyl-glycoprotein endo-beta-N-acetylglucosamidase
ATGAAAAAACCAATCTTGATCAGTGCCGTCGCCGCCCTGGCGATTGTCCAGCCGGGGATGGTCGCAACGGCCAGTGTAATGCATGATCCAATTCAGGAGGCCACTCACGCCATCATCAGCCAACAACCGGTTGATGAGCAGGCCATCCGCCAGCAGGGGGCCGCGTACGCCACGGCCTTCTTGAATGCCTTTCGCCAGTACAGTGCCAGCTACCGTCAGGCTTTCGCCCAGGGGGTGGCGGATGGCCGTCAGGGACGGGTCCGCGCCGTCAGCGGCAACGTGGCTAGTGCGGCCTACCAGCGCGGCCTGGCCCGTGGTCGGCAGCTCCGGGCGGCTGATGCACCGCAGAATGCCACGGGACAACCGGCGGGGACGGTGATGCCGGATAACGATGACCAGCAGGCACTACCGGTCGGCGATCAGGGGGCGGCCAACGACGGGAGTACGATCACTGGACCTGCCGATTCGGGGGATTACGCGACGCAGGTGCCGACCAACGACCAGCGGGCCTTCATCAACCGCCTGGCCACGGCTGCCCAGCGGGTGGGGGCCGAATACGACCTCTACCCGTCGGTGATCATCGCCCAGGCCGCCCTAGAGAGCAGCTGGGGGACTAGCCGGCTCGGCCGGGAACCGTTCCATAATCTCTTCGGGGTGAAGGGTTACTTTGCTGGGCAGACAACGCGTCAGCCGACCAGCGAATACCAGGACGGCCGTCAGCTCCTGGTGGTCGATAACTTCCGCCGCTACCAGAGTGACGAGGCGGCCCTGCGCGACTACGCTGAGACCCTCCAGGCGCCGCTCTACCGTGGGGTTCACCGCCAGTACGCCAGCAGCTATCGCCAGGCCACCCACGCTCTCCAGGGACGGTACGCGACCGATCCCCAGTACGAACAGAAGCTCAACCGCCTGATCGACGGCTTTAAGCTGACCCGCTACGACCACCAGCCCCGCCATGCCGCGGCTGGCCACACGACCCCGGTTAAGGTCAGGGTGGCCGATGACCGGGTGGCCCAGCCAGCGCCGGCGGCCAAGCCACGTCACCAGGAGGGGCACCACCATCTTTCAACGGTGGCCTCCGTGCTTGGCGGGCTGAGTTCCGCAGGCCTGGTCGAGCTGGCCCGCCGCTTGCTTTTAAAATGA
>SRR1151252_01028 hypothetical protein
ATGCAATTACGACTTAAGTACCTAATTGGCGCCGTCGTGGCCCTGTTGCTCGTCCTGCTGGTGGGACTTGGTATTCACCAGCACACCCACTTCAACCGCAACACGACCATCAACGGCGTGCCGGTGGGCGGTCTGACCGCCAAGCAGGCCTACAGTAAGGTCAAGAACACCAAGCGGGCCAACCGGGTCTACCTGAATGGCCAGCTGATCTACCAGGGCAGCGCCACCGCCTCTGGCATCGGCAACGGGGACCAGGCGAAGTTTGCCCAGACCCTCAAGCAGCAGGCGACCTTCTTCCCGTCCAGCAAGCGACAGAACATCCTCGTCTGGACCAGCCAGATCAGGCACGATCCCCAGTCAGCGGCCAAGAAGCAGGCGGTGGTCAACCGCCTCCAACAGCTGAACCAGGGACGGCAGGCACCTGTCGATGCCTATGCCGTGCTGGAACATGGCCAGGTCAAGCTGGTGGCCGCCAAGCAGGGGACCCAGTATGACCAGGCCGCGCTGCTGAAGCAGTTTGACCAGCGGGCGGCCAACGGGACTGTCCGGCTGACCGCCAAGCGCCAGCGGCCCCTGACCACCTCGAGCAAGACGGTGCAAGACGAGAAGAAGCAGCTAGCCAAGCTGACCGGGCGCCGCGTCGACTACAAGGTGGAGGACAAGACCTACCACTTCACGACCACGGACGTGATCACCAGGGCCACTTACCGCGACGGCAAGTACCAGTTTGATACCAATGCGGTCGATGGACGGATCCGTGAGATCAACCGGGCCCAGGCCACCCTGGGCCGGGCCTTCAAGTTCCGGACCCACGATGGCAAGGTGATCACCACCAACCGCAAGGGGACCTATGGCTGGAAGCTCAGTACCCAGCGCGCCGGCCAGACACTTGCCCAGGCACTGGCGGATGGCAAGAAGTCCGTTAGCGCCGCCCGTGACGTCTACGGGATCGGCTACACGACCCGCGGGACCGGCTACGGTGTCACCAGCAATGACGGCATCGGCGACACCTACGCCGAGCTGTCGATTGCTGACCAGCATGCCTGGTTCTACCGGGACGGCAAGTGTGTCTTTGACGCCGATGTCGTCACCGGGGCCAACAACCCGCAGAACGAGACCCCCAAGGGCGTTTGGTACATCATGTACCAGCAGTCGCCATCCGTTCTGAAGGGCAAGAACAACGACGGTTCCAACTACGCCAGCAAGGTCCAGTACTGGTCACAGTTCACCAACAGCGGCTGTGGCTTCCACGACGCCAGCTGGCGGAAGAACTGGTCAAAGACCGCCTACCTGAGCGGGGATAACGTCGCCACCGGTGGTTCCCACGGTTGTGCCAACATGCACCCGCGGGACGCCGGGCCGGCCTACCACGCCCTCCAGGTTGGTGAACCGGTAATCGTATACTAG
>SRR1151252_01029 universal stress protein UspA
ATGAGTTATCAAAAGATCCTAGTCGGCATTGATGGTTCGACGCAATCGGACATGGCCTTCAACAAGGCGGTTGAAGTGGCCCTGCAAAACAACGCCCAGCTCAACCTGTTGAGTGTGATCAACGGGGAGCGCTACCCAAGTACGGGCCCGAGCGGCTATGGTTTCGTTGACCACAGCATCTACGAGTCCGCCGTCGAAGAGATGAAGAAGCGGCTCGGCACTTACCAGACGAAGGCCGAACATGCCGGGGTCAAGGACGTCAAGACCGACGTCGTCATCGGGGCCACTGGGCTGAACGTGGTTGGCCGGCTGATCGTCGGCTCGACCGCGGCCTACACGATTCGTGAAGCACCTTGCGACGTCACGGTGGTTAAGACCGACATGAAGAACAAGAAGCTGAACATCAAGAAGGAAAACTATCCTGAAATTTAA
>SRR1151252_01030 dipeptidase PepV
ATGACAGACTGGTTAAAAGCGGCACAGAGTCAGGAGAAGGACTACCTGAACGACTTAACGGCCCTGATGAAGATCCCAAGTGTCCGGGATGATTCGGCGGCCACCGACGAATACCCACTCGGTCCCCGGCCGGCCCAGGCCCTGGCCGCCTTCCTGGAGATGGCGGAGCAGGACGGCTTTAGGACCAAGAACATCGACAACGTGGTCGGCTACGCGGAGTGGGGTGAGGGTGATGAAACCCTGGCGATCCTGGCCCACCTGGATGTCATGCCGGCCGGCAAGGGTTGGGATACCGACCCCTTTGACCCGGTAATCAAGGACGGCAACCTCTACGGCCGTGGTGCCTCTGACGACAAGGGCCCCGGGATGGCGGCCTACTACGCCCTGAAGTACCTCAAGGACCAGGGGGTGACCTTCAACAAGCGGGTCCGTTTCATTGTCGGGACCGATGAGGAGAGCAACTGGACCGGGATGCACCGCTACTTTGAGGTGGAACCGGCCCCAACGCTGGGCTTCTCACCCGACGCCGAGTTCCCGGTCATCAATGGTGAGAAGGGTCAGGTCTCACTGAAGATCGGTGCCCCCGCCACCAACGGCGACCAGTACGTCCTGGAGAGTTTCCACTCCGGCCTGCGCTTCAACATGGTGCCGCGGGAAGCCGTTGCCCTGGTCACGGTTCCCGACCGCAACGAGGTGACGGCGGCCTTCAGTCAGTTCGTCGACGACAACCCGATCTCCGGGACGGCTGAAGAGACCGCTGATGGCCTGCGATTGACCGTGATCGGTAAGGCGGCCCACGGGATGGAACCCGAGCAGGGGATCAACGCCGGGACCTATCTGGCCACGTTCCTCGACCGGTACGACTTCGCGGGTGGGGCCAAGAGTTTCATCCACTTCCTGGCCAAATACCTCCACCTTGATACCCGGATGGCTGGCTTTGACGGGGCCTTCACCGATCCGGTGATGGGCGAATTGACGATGAACGCCGGAATCCTGAACTTTGACCAGGACAATGGTGCTGACATCGACATGAACTTCCGCTTCCCTAAGGGGATCACGCCGGACGAGCTGGAAACCAACGTCAAGCGGGTCACCGACCAGCTGGGGATGACGGTGGCGCAGGGACCGTCTCAGAAGCCACACTACGTTGACCCTGAGGGCCCGATCGTCAAGACTCTGATGCAGGCCTATATCGACCAGACCGGCGACACTGACGCCAAACCCGAGGTCGTCGGCGGGGGGACCTATGGCCGGCTGATGGCGCGCGGGGTTGCCTTTGGGGCCCTGATGCCGCAGACGCCGAACACCATGCACCAGGCCAACGAATTCCAGCCGGTGGCCGACCTGATCAAGTCGATGGCCATCTACATGGAGGCCATCAATAATTTGGTGACTGATTAG
>SRR1151252_01031 carbohydrate kinase
ATGGAAAAATTAACGAATCAAATCCTGCATGATGTCATCAAGCCGCGGCCCGAGCACAGCTTCAAGGGAACCTTCGGCAAGGTCACCCTGGTCGGGGGCAACCGCAACTTCGGCGGGGCCATCATCATGGCCGCCACCGCTAGTGTCTGCGCCGGGGCCGGGCTGGTGACGGTCTGCACCGACCAGAGCAACTCCGGCGCCCTGCACTCCCAGCTCCCCGAGGCGATGTTTGCTGACTTCACCAACGATACGCAGGTTGCCAGCCTGGTCACCGCGGCCACGACGGTCGTGGTTGGTCCCGGCCTCGGCGACGATGACCAGGGCCTACACATCCTGAAGAACGTTTTCGCCCACACCACCAGCCAGCAGAACGTCGTCGTCGATGGGTCCGCAATCACCCTGATGGCGCAAGAGCAGCTGACCGCCCCCCGGGGTAACATCATCTACACGCCCCACGAGATGGAATGGCAGCGCCTCTCCGGGATCAAGATCGCTGACCAGACCCCTGACCGTAACCGGGCGGCACGCGACAAGCTCGACGCCACGGTGGTCCTCAAGAAGCACCACACCGAAATCTACGCGAAGGAGCAGACCTACCAGCTGACCATCGGCACCCCCGCCCAGGCGGTCGGCGGGATGGGCGACACCCTGGCCGGGATGGTCGGCGGTTTCGTGGCCGAGTTCCACCAGACGCCACTGAAGGCGGTCCTGGCCGCCGTCTACGCCCACAGCGCCATTGCCGAGCAACTGGCCAAGAACCAGTACATCGTCCTCCCTCACCAGATCAGCCGGGCCCTGCCAACCTTCATGAAGAAGATGGAGGCCGCCCCCGATGAGCACCACATCGGTTTTCTGGACTAG
>SRR1151252_01032 dTDP-6-deoxy-L-talose 4-dehydrogenase (NAD(+))
ATGAAAATTTTAGTAACAGGTGCGAATGGTTATTTAGGCCAAGGAATTGTTGAAGAACTAAGCCAAAAAAGTAATGTAGAAGTCATCGCGACTGGCCGTAAAGTCGATCGGATAAATGTCGATGTAAAAAAAATCCCAGTTGATCTTTTCGAGGTTAAAGATCCGTATAATTACTTTGGTAGGCCCGACGTTTTACTGCATTTAGCGTGGAGAGACGGCTTTATTCATAATTCACCAGCCCACATTGACGACTTGCCAAAGCACTATAGTTTCTTGAAAAAAATGATGGAAGCAGGTATTTCACAAGTTGCGGTTATGGGAACTATGCACGAAATAGGCTTCTATGAGGGGAGTATTGATTCCGGTACACCTTGTTCCCCGGAAACGCCGTATGGGATAAGTAAGAATGCGCTTAGACAACTGGTTGCTTTAACTGCGGCGCAGAAAAAAATCACGTAA
>SRR1151252_01033 dTDP-glucose 4,6-dehydratase
ATGGAGAAAGCATTCAAAAACATTATTGTGACCGGTGGCTGCGGCTTCATTGGTTCTAACTTCGTTCATTACCTGGTCAATAACCACCCCGAGGTTGAACACATCACTGTCCTCGACAAGCTGACCTACGCCGGTAACCCGGCCAACATCGCCGGCCTGCCGAAGGACAAGGTGGAGCTGGTCGTCGGCGACATCTGTGACGCTGACCTGGTCGACAAGCTGGTCAGCCAGGCCGACGCCGTGGTTCACTACGCCGCCGAGAGCCACAACGACAACTCCCTGATCGACCCGACGCCGTTCATCAAGACCAACATCGAGGGGACCTTCACCCTGATTCAGGCCTGCCGGAAGTACGACGTTCGTTATCACCACATCTCTACTGATGAGGTCTATGGCGATCTGCCATTGCGCGAAGAGCTGCCGGGTCATGGTGAAGGCAAGGGCGAGAAGTTCACGCCCGACTCCCCATACCGGCCATCCAGTCCATACTCCTCATCGAAGGCTAGTTCTGACCTGCTTGTCCGGGCCTGGGTCCGTTCCTTTGGCCTGCGGGCGACGATTTCCAACTGCTCGAACAACTACGGGCCTTACCAGCACATCGAGAAGTTTATTCCGCGGCAGATTACCAATATTCTGAGCGGCATCCGGCCAAAGCTCTACGGCTCTGGGAAGAACGTCCGGGATTGGATCCACACCAACGACCACTCGCGCGCCGTCTGGGACATCCTGACCAAGGGGAAGATCGGTGAGACCTACCTGATCGGGGCCAACGGCGAGAAGAACAACAAGGAAGTCCTCGAGATGATCCTGGAACTGATGGGTCAACCAAAGGACGCCTACGACCACGTCAAGGATCGGCCGGGCCATGACCTGCGCTACGCCATCGACGCCACCAAGCTGCGGACGGAACTCGGTTGGGAGCCGGAATACACCGACTTTAAGACCGGTCTCCAGCACACCATCGACTGGTACACCGCCCACGAGGACTGGTGGAAGGACGAGAAGGCCGCGGTCGAGGCCAAGTATGCCAAGAACGGCCAATAA
>SRR1151252_01034 hypothetical protein
ATGAGGCTCTATTTTGAGATGGATTTTATCTTTACTATACTTAATAATTTTATCTTTAAGGCTAGTAATCAGTTTCACTTTATCTTTGGATGCCGGAATAACAACTATAAAATCATCTGA
>SRR1151252_01035 translation elongation factor P
ATGATTCAAACAATTGATTTGAAAAAGGGTATGGTCTTTGAACGTGATGGCAAGCTGCTGAAGGTTCTGCAAATCAACCACCACAAGCCAGGTAAGGGTAACACCCTGATGCAGATGGACATCCAAGACCTGCGTTCTGGCTCCATCGTTCACACCACGATGCGTCCTTCCGAAAAGGTTGAACAGGTTAACGTTGACAAGCGTTCTGCCCAATACCTCTACGACGAGGGTGACGACGCGGTATTCATGGACCTGGAAAGCTACGACCAATACACGCTGAATCATGACCTGCTCGGTGACGACAAGAACTACCTGGTTGAAAACATGAAGGTTACCCTGAACTTCGTCAATGGCGACATCATCGGTGTTGACCTCCCAACCACGGTTGAACTGACCGTTGCCCACACGGAACCAATGATCAAGGGTGCCACGATCGATGGCGGTGGTAAGCCAGCCACGATGAACACCGGTCTGGTAGTTAACGTCCCAGCCTTCATCAAGGACGGCGACAAGCTGATCATCAACACCACGGATGGTAGCTACAAGTCCCGTGCCTAA
>SRR1151252_01036 GNAT family acetyltransferase
TTGGACTTAGACATACAGCCCGTCAGACCGGGCCAAGATAACTATCGACGTGTAAAGCAGCTCTACTTCCGGGCCTTCCCGAAGTACGAGCAGGAACCCTGGAGCTGGCTAATGCTGAAGAGCCGCTTCAAGCGGGCCGACTTCATGGCCTTCTACGACGAGGATCAGTTTGTGGGCTTTGCTTACGTGATCCACAGCCAGGGTTGCCACTACATCCTCTTCCTGGCGGTGGCTGACCAGGTACGGTCACAAGGCTACGGCAGCCGGATCATCCACCAGCTGCGTCGCCACTACCGGGATGATTCCCTCCTCCTCGACGTTGAGGAGCCAGATGACCGCGCCGCCAATAATCAGCAGCGGCTACGGCGGGTGGCCTTTTACCGACGCAACGGTTTCTACCCGACGACCAAGCGCTTCCCGGAGGAGCACGTCACCTTCCGGGTCCTGGCCACCAAGCGTCAGATCAACGGCCAGCGGGTGGACCGGATCTTCGACTGGTTTTCTTGGCCACTGGGCTGGTTAATTCAATAG
>SRR1151252_01037 ATPase
ATGCAGGAAGCACTGGATTTTTTGACGATCACGGACCGAGAGGCAGTGGACCGGCTAACCGCGACCCTGTTTAGCCACCACCTGTTGATCGTGGGGCAGACGGGCAGCGGCAAGACGACGACCACCCTCTCGTTATTGGGCCAGCTCCAGCAGCTGAACCAGACGGCGATCATCCTTGACCCGACTGGTGAGTACACCAAGCTACCCAACGCGATCACCTACCGGCTAGGCGACAACTGCTACCTCGAGGCAGGGAAGCTGACGGTTGACCAGCTATTGACCACCCTCCAGCTCCAGGTCGATCCTGGCCTGCAAGCCAAGCTGCGGCAGGCGGTCACCGACCTTCAGATCCAGCACAACATTCAGGATGCCCCGGGTATTTACCGGCGCTTGGGACGTTCCCTGGCCGACTATCAGGCCGACGAAAACCAGCTGGGGGCGTGGGCCAGCGACTTCCCGGTCCAGGATCTCTTCGCCCAGCTGATTGAGGAGTTCGTGGTCCCGTTCGCTGATGACCGGGCCGATTACACCTGCCTGGGCCAGCAGTACGACCGGGCCACCATCAACCACTACTGGCCACTGTTGACGGCAATCCATGACCAGCTGGCCAGTCCCACCTTCCGGGCCCTCTTCGACATCGACCACCACGCCGGAACGATGAAGAGTGAGCTTAACTTCATCCTCAAGATGTTCCTCCACCACCGGAGTAGCCACCGGACATTGGTGGTCGACCTGTCGCTGCTAAAAGACTATGAGGAGAGTCAGCGCCTGATTATTTCGCTGTTGCTTAAGGAAATCCTTCGTCTCCGCCTCCACGACAACGCCGGCTTCCCAGTTAACGTAATCATTGATGAAGCCCACCGTTACCTGCCCAAGGACGAGCGTGACCTGGCGGACAATGGCATCTTCCAGCTGGTGCGGGAAGGCCGGAAGCTAGACCTGAAGATGATCCTGACGACCCAATCCCCGCTTGACCTCCCCGCCCGTCTGCGCTCTCAATTCAGTGACCTGCTGGTTCACCGTCTCCTTGACCAGGCAGAGATAGCCAGCCTCCCCAGTGCCGGGCTGACCCTCCAGGATGCCGGTGCGTTGTCGGTTGGTCAGGCGGCTCTCTGCGTGTTTGGTGAGGCGCCGACCCTGGTGAAGGTGAACTTACCGGAGTGGCGGAAGGCCGGTGGCCACCGTGACTAG
>SRR1151252_01038 alpha/beta hydrolase
GTGGCCACCGTGACTAGGGGGATCAAGTTGGCTCTGTGCTGCCTACTGATGGCCGGGGCAACGGTTGCTGGAACGGTCCAGCAGAATTGGGCGGCGTTAAAGAGCCCCGCCAAGCTCAGCACGGCCACCCCGACAATTTTCGTTCACGGGATGCCAAGCAGCTACCATTCCGAGATCAAGATGGTGCGGAGCCTGATTGACGCCGGGATCACCACGCCGGACAATGTTGTCCTGGCAACGGTTACCAACGATGGCCAAGTAACCTTCAATCACTACTTGCCGGCTCATCCCCACAACCCGATTATCGAGGTCAACCTGCAGAACAGCCACGAGCGCGATAACCACATTTCAGCAGCCTGGATTAAAAACGTCGTAGTTGCCCTCCAGCGGCAGTACCACTTTAGTCGGGTGAACTTCGTCGGCCACTCCAGCGGTCCGCTCCTGATCCTATGCTATATCATGGATAACGCCAACGATCCACAACTGCCCCGGGTGGCGCGGCTGGTTTCACTCGGTGGGGCCTTCAATGGTGCCCTGGGCAAGCGCGACCGCCCGAACACGATGCAGCTGGCGCCGGATGGCCTGCCGGTGACCCGCCAGGTCAAGGAGTACCGAAAACTTCTCCCGTTACACGGGAGTTTTCCACGCCACATCCGGGTTCTCAACCTCTACGGTGACCTCCAGGATGGCAGCAACTCCGATGGCCGGGTCGCCAACAATTCCTCGCGGGCGATGCGCTACCTAGTGGCCATTCGGGCCCGATCCTACCGGGAGGTCCGGGTGACGGGGGCTAAAGCGGACCACAGTGGGTTGCATAATAATAAAAAGGTTGATTTTTACCTAATCCGCTTTCTTTATGGGCAGAACTGCTGA
>SRR1151252_01039 myosin-cross-reactive antigen
ATGCTCTCCTGGGCGATCCACCGCCAGCCCCACTTCAAGAAGCAGAAGCCAAACGAGACGAGTGTCTGGATCTATGGCCTCTACTCCGATACCAAGGGGAACTACATCAAGAAGCGGATCGTCGACTGTACCGGTGAGGAGATCACCAAGGAGTGGCTCTACCACCTCGGGGTCCCAACGGCCCTGATTGACAAGCTGGCCGACGAGTCCTCGATCAATACCGTACCGGTTTACATGCCGTTTGTCACCTCCTACTTCATGCCCCGGGTCAAGGGCGACCGGCCAGCTGTCGTGCCAATCGGATCCGCCAACCTGGCCTTCATCGGTAACTTTGCCGAGTCCCCGACCCGTGACACCGTCTTCACTACCGAGTATTCGGTCCGGACCGCGATGGAAGCCGTCTACACCCTGATGAACGTTGACCGGGGTGTGCCGGAGGTCTTCAATTCGATCTACGACATCCGGACCCTGATGCGGGCGATGTACTACATGAACGACAAGAAGCCGCTGAAGGACATGGATCTGCCAATTCCAAAGCTGGTCGAAAAGCCCCTGCTCAAGAAGCTGGAGAACAACTGGATCGGCGAGCTGATGAAACAACAACACCTGCTTTAA
>SRR1151252_01040 myosin-cross-reactive antigen
ATGTATCATTCTAACGGAAACTACGAAGCCTTTGCCCGGCCGCGCAAGCCAGCGGGGGCCGATAAGAAGCACGCCTACATTGTCGGGGCCGGGTTGGCTGGCCTGTCCGCCGCGGTCTTTCTGATCCGTGACGCTCAGGTACCGGGCAAGCAGATCCACATCTTCGAGGAGCTACCGATCGCCGGTGGTTCTCTGGATGGTCAGGATCGGCCAGACGTCGGCTTTGTGACCCGGGGTGGCCGGGAGATGGAAAACCACTTCGAGTGTATGTGGGACATGTACCGGTCCATCCCATCCCTGGAGATTCCGGGGGCATCATACTTGGACGAGTACTACTGGCTCGACAAGAACGACCCGAACAGTTCCAACTGCCGACTGACTTACAACCGCGGTAACGAGGTCCCATCCGATGGTAAGTACCTCCTCTCCAAGAAGGCCATCAAGGAGCTAACCAAGCTAGTGCTGACCCCTGAGGACCAACTCGGCGACCAGACGATTGGGGACTACTTCTCCGACGAATTCTTTGAAAGCAACTTCTGGACTTACTGGGCCACCATGTTTGCCTTCGAGAAGTGGCACTCCCTGGCCGAGATGCGGCGCTACATGATGCGGTTCATCCACCACATCGACGGCCTGCCGGACTTCACCGCCCTGAAGTTCAACAAGTATAACCAGTACGAGTCGATGACCAAGCCACTACTGGCCTACCTCAAGGGCCACGGCGTCCACTTCGACTATGACACCCAGGTGGAAAACGTCCTGGTTGACACCAAGGATGGCGAGAAGCACGCCAAGAAGATCGTCATGACCCAGGGGGGTGACCACAAGGAGATCGACCTGACCGACGATGACCTGGTCTTTGTCACCAACGGTTCGATCACCGAGAGCTCCAATTACGGCAGTCACCACGAAGCTGCCAAGCCAACCCGGGCCCTGGGCGGTAGCTGGAAGCTCTGGGAAAACATCGCTAAACAGTCACCGGCCTTCGGACATCCCGACGTCTTCTGCAAGAACCTGCCGGAGCGGTCCTGGTTCATCTCAGCCACGGCGACCGTCAAAACCCCCAGGTCGAACCCTACATTGAGCGGCTGA
>SRR1151252_01041 potassium transporter TrkH
ATGATAGAAATCAATGGACGACGATATTCGTTCCCCAAAATTTTAACATTTGGCTTCCTGCTGGTGATCATGCTGGGGACCGCCATGCTATTGCTGCCGTTTGCGACACGGCCGGGCCTCCACACCAGCTTTATGACGGCCTTCTTCACGTCAACCAGCGCGACCTGTGTGACGGGGTTGACCCTGGTCAGCACCGCCGGCCACTGGACACCCTTTGGTCAGGTGGTGATTGCCGTTTTGATGGAGGTCGGTGGCCTGGGCTTCATGACCTTTGCCGTCATGATGTCACTGATGATTCGGCGGCGGATGCGGATGTCGACCCGCCTGCTGACCCAGGAGGCGCTCAACCTCGACCACCTCTCACAACTGAGTGTGGTCTACCTGATCATCCGGCTGTCGATTCTGATCCAGCTGGTCGGCGCCGTCTTCCTCTTCTTTGACTTCTACCCGCGCTACGGTTTATTGCGAGGAATCTGGTATAGTATCTTTCACGCGATCTCGGCCTTCTGCAATGCCGGCTTTGATCTCTTTGGCAACAGCATGGAGAACTACGTCAACGACCCCTACATGCTCTGTGTGCTGATGGTCCTGATCGTGGCGGGGTCCTTTGGTTTCCTGGTCTGGAAGGACATTCTGGGCTACCACCGTTACCACCACCTATCCCTGCACACCCAATTGGCGTTGCGGACCGGATCCGTGTTGTTCATTTTATCGTTTTTGGTCTACCTGATTACCGAGCACAACCTGGCCCAGCTGAGCAGCACCTTGTCGAGTCCCCAGCGCCTGCTGAACACGATCTTCATGGCAGTAACGCCCCGGACAGCCGGGCTGATCACCTTCCCGTACACGAAACTGAGCGCGGCTGGGTTGAGCTTCACGATTATCCTAATGTTCATCGGGGGGACGCCGGGATCGACGGCCGGTGGGGTTAAGACGACCACGGTTGGTCTGCTGGCTATCCAGAGTATCGCCACGCTGCGGGGACAGAAGGATACTGAATTTGCCCACCGCCGCTTCACCCAGGAGAATATCTACCGGGCCCTGACCCTCTTATTCGTGGCCCTGGTGATCCTGCTGGCGGCGATCCTCCTGTTAGTCGAGACCCAGGCCCTGCCCAAGCATGACTCGCTAGCCTACGTGACCTTCGAGGCGGTGGCGGCGTTTGGAACGACCGGGATCTCACTGGGGATCACTGCCCAGCTAAATTTCATCGGTCAGGTCATCATTATGATTCTGATGTTTATCGGCCGGGTCGGCATCTACACGGTCATGTTTTCGATCTTCAATGCCCAGCCGAAGCGCAAGAGCTACCATTATCCAGAGGAGAGTGTTTTAATTGGCTAA
>SRR1151252_01042 potassium transporter TrkA
TTGGCTAAAAAAGAAAGCTACGCCGTGATCGGGATCGGCCAGTTCGGGGCCTCCATCTGTGAGTCCCTCGTCCGGGCCGGTCAGGAGGTCCTGGCGATTGATATCAACGAGGACGTCATTAACGAGTTGGCCAACTCGGTTATGCGGGCGGTGGCCGCGGATGCCCAGGACGAGGACACCCTGCGTGAACTCGACATCGGCAGTTTTGACCACGTCTACATCTCGATCGGCAAGAACATCGAGGTCAGCATCATGGCAACCCTGATTGCCAAGGACCTTGGTGCCGCGGATGTAACCTGCCGGGCCGAGAATGCCAACCATGCCCGGGTCCTGGAGCGAGTCGGTGCCGACCGGGTTGTTCGGCCGGAGCACGACCTGGCCAAGCGGTTAATCTTCCAGCAGCTCAATCCCAGCGTCGTTGATTACGTCACCCTGAGTAAGGAGACAACCCTGGCTGAGATCATCATTGATAATCCCAAGTTTGTGGGAAGAACTTTGGATGAGCTTGATTTCCGGAATAAGTACAACGTCAATGTGATTATCATCGTTGGTGCCGACGACCAGGTCAACCAGATGCCGCAGGCCAACGACGTGATCCAGCTCCACGACAAGATCACGGTGGTTGGTAAGCTCACGGACATTCAGAAACTTAACGATATTGTTAATTAG
>SRR1151252_01043 SAM-dependent methyltransferase
ATGAAATTAAGGGAAATTAACATTGTTACCATCTTAGCGGTGGTTTGTTTTGTTGTTGTGTTCGGTTTGATCGGGACCTTGGTCAGCCACCTCTACTGGAACTTGATCTGGCTGGTCCTCCTGATCGCCTGGGCGGGGATCCTGGTCCACACCCTGACGACCGGGCACCTAAAGATCTGGCAGCACCTAGTGGATCGGATGGAGTTTGGCGACCATGACCAGGTCTTAGACCTCAGCGCCGGTCGCCTGAATGACCTCCTTCTTTTGGCCAAGAACCTTCAGGCACCCGCCAAGGTAACCGGGACCGGGAACTGGCGCCAGGACCAGCATGCTGTTCAGGCCCGGGTCAATGCGGCCGGGGTCGCGGACCGGGTGCGGTTGGTGGACACCGACGTCTTTAACATGACCTTTCCGGACCGCAGCTTTGACAAGGTCCTGGTCGACCTGGCCTTCCACAACATCAATCCGGCCCTGAAACGGAACCGGTCGGTCCAGGAGGCGGCCCGGGTCCTCAAGGCTGACGGGACGATGGCAATCGTTGACTTCGGCCATGTTGAGGAGTACAAGCGAATGCTGGCTAGCCTGGGCTTCAACGACATCCGGGTGGTCAACACCGGCTTCAACGGCTGGTGGGGTGGTCCCTGGACGACGACCAAATTGATTGTTGCACGACATTTTCGGCAAAGAAGGTAA
>SRR1151252_01044 aldehyde oxidoreductase
ATGAAGTACGTAACAATGAATGGTGAACGCCTGAGTCAAATCGGCATCGGCGGGGCGGACCTCGGCCGGCGTCCCTTCAAGGAGGCTGAGGCGATCCATTATGGCCTGGAGCACGGCATCAACGTGGTCGACACCGCCGAGAGCTACCCGGGCAGCGAGGAGCTGATCAAGTGGGGGATGACCGACATTGACCGCCAGCAGGTCTTCTTGATCTCTAAGGTCCTGCCTAGCCACGCCACCCCGGACCAGGAGCGGCGGAGTCTGGAGGGGAGCCTGAAACGTCTGGGCGTTGACTACCTGGACCTCTACCTCCTTCACTGGCGGGCTAACGCGGACCTTACGCAGGCGGTGGCCGGCCTGGAGCAGCTCAAGCAGGAGGGCCTGATCCGCCACTGGGGCGTTTCCAACTTCGACGTCAAGGATATGGAGGACCTCCTCAAGGTGCCCCACGGTGACCAGTGCTTTGCCAACGAGGACCTCTACAACCTGACTAGCCGGGGAGTCGAGTATGACCTCCTGCCCTGGCAAGCAAAACACCAGGTGGGCTTTTTGGGTTACTCGCCCTTCCACGCGGTGGGCTGGAACTACCTCCACCCGACCAAGGTCCTGCGGGATATCGCGGCGGCCCATGATACCGAGCCCTACCCGGTCATGCTAGCCTGGATCACCCGGAACAACAACCTGGTGACCCTGCCCAAGGCAGCCACGGTTGACCACGTCAAGGCCAACATTGCGGCGATGGACCTCAAGCTGACGGACCAGGAGCTGGCGATGATCGACCGCGAGTATCCGGCCCCGACCAAGAAGGTTCCATTGGAGAAAATTTAA
>SRR1151252_01045 membrane protein
GTGGCCCTGATCGTCGGCTACTGGTACCAACACCGTCTGGTCAAAGAGAGTGAGGAAGACCACACGGCAGCCCCAAAGAAGCTGCCAATCCCGTGGTTCCTCGGTGGTTTCATCCTGACCAGTATTCTGGGGACCTTCCTGCCGTTCTCCGCAGCGGCCCTGGATGTCCTGGTTCAGGCCGCCTACATCTTCCTGGGGATGGCGATGGCTGCCCTGGGCCTGTCCGTCAACTTCAAGGTAATCTTCAAGCGTGGTGGCGCGGTCTTCGGTGCCGCGGTCATCAGCTCCACCTGCCTGCTGGTCTTCATGATCATCATGAGCAAGCTGTTCTTCTAA
>SRR1151252_01046 membrane protein
TTGGCTAGCAGCCATCATGACGTTAATTTGCTCCGTATAGCCGGGGTATTACTGACCAAGCTCCCCTACGTCAACCTGATCGGAGCCCTGGTTCTCGCCCTATTATTGGGGATCGCCATGCAGCTAGCACCGGCACATATGCGGGCAGAAGCCAAACCGGGGGTCGGTTTCATTTCCAACAAGTTCCTGCGCCTGGGAATTATCCTGCTCGGTTTTCGGTTAAACTTGGAAACTCTGGCCGAGGCCGGGGTTAAGACCATCCTGGTGGCCGCCGTAGCCGTTACCGGAACGATCTGTTTGACCTACTGCCTCAGTCGCAAGTTCGGGGCCAGTGACGAACTGGCAATCCTCAGTGCCTGCGGGTGTGGGGTCTGTGGCGCTGCCGCCGTCATGGGGGTTTCACCACAGCTGGAAACAACCGACGAGGAACGCAAGCGTGAGGACGAGGTGCTCGCCGTCGCGGTGGTCTGCGTGATGGGGACTGTCTTTACCCTGATCGAAATCGGGATCAAGCCCCTTCTCCACCTGACCGATCCACAGTTTGGGATCGTCGCCGGGGGATCCCTTCACGAAATCGCTCACGCGGTGGCAGCCGGGGGGCCTTCGGTGAGGAGAGCCTGGACAACGCCCTGA
>SRR1151252_01047 esterase/lipase
ATGCAGATTAGGAATGTCAAACTCGCCCAGGCCCATTCGTCCCTGGACATCTACCATAGTGCCAGTGACGTGGTCCTGCCGGCAGTCGTGATCGTGCCGGGCGGCAGCTACCAGCAGATCAAGGAGCGGGATTCCGAGCGGGTGGCCCTGACTCTTGCCACCCACGCCTTTCAGAGCTTTGTGGTTCGCTACCCGGTTCTGGAGTATCGTGACTACCAGGCAGCCAAGGTGGCTATATCGCAGACCTTTGACTACATCGTGGCCCATGCGGACGAGCTGGGGGTTGACCCGGAACGACTGGGGATCCTCGGCTTCTCGGCCGGTGGCCAGTTAGCGGCGGCCTACAGCAACCAGTCAGGGACCAAGGCACGTTTTGCCGCCCTGGGCTACCCGGTGATCAAACCAACCATTGACGAACGGATGGGGGTCACCACCGAGGACGTCAGCCAACTGGTGACGGACCGGACCCCGGCCACCTTTGTCTGGGGGTCGGTCAACGACGGCCTGACCCCCTATCTGGATCATATCAACGCCTACGTGACGGCCCTGGCCCAGCACGGGGTACCGTTTGAACTTCACGAGTTTGGGACCGGCAACCACGGGATCGCCCTGGCTAACAAGTATACCGGGATCGTCAACCGGGACCGGGTCGACCGCCACATGAGCCGGTGGTTCCCGCTTTTTTTGGAGTGGCTAGGCAACCTTAAATAA
>SRR1151252_01048 GNAT family acetyltransferase
ATGTGGCAAAGACGCGCATTTGACGACCTATCAACCATGAAACTATTCGAAATCTACAAGCTCCGCGACGAGGTTTTCACCGTCGAGCAGCAGCGAATCCACAACGACATCGACGACAACGACCTCAAGGCGATCCACGTCTATGACGAACTGGACGGCCAGGTTGCCGCCTACTCCCGAGTCTACCTGAAGGCGCCCGGCCTGGTCACCTTCGGCCGGGTGGTCACCGCTCCCAACTTCCGCGGCCGCGGACTGGGTAATGAACTTCTCCCCCAGATCATGGATACCATCCGTGATTATTTCCCGGGAAATAAGATCGAGATCGACGCCCAGGTCCAGGTGGAGGGCTACTACCAAAAATTTGGCTTCCACAGTGAGGGCGAACCCTATATCCACGTATCGACGCCCCACATCAAGATGGTCCATGCGGCCCTATAA
>SRR1151252_01049 ATPase component of ABC transporter with duplicated ATPase domains
ATGGGAAACATCACCATTAAGCAACTCAACTTCGCCTATCCGGGGCAGGAGCCGCTTTTCACTGATTGTCAACTGGCCATTGACGGCAGCTGGAAACTGGGCCTCCTCGGGAGAAACGGCCGAGGGAAGACGACCCTGATGAAGATCCTGATGGGTCAACTCGACTACCAAGGATGGGTAGCGAGCAATCTTCCCTTCGCCTACTTTCCCCAGGCGGTAACCGACCCGACTGCCTTTGCCTGGGACAACCTCAGCGCAGGCACCCCACAGTTGGAAGAGTGGCAAGTCGAACGGGAACTCAACCTGATGGGCGTCGACCCGGTCCTTCTCTGGCAGCCGTTTGCAACCCTCAGCGGCGGGGAACAGACCAAGGTCCTGCTGGCCGCCCTCTTCGCCCAACCCGGGGTCTTTCCCCTCCTGGACGAGCCGACCAACCACCTCGATACGCGGGGCCGGCAAGAGGTCGCCGCTTACCTACGAGCCAAGCACCAGGGCTTCATCATCACCAGCCACGACCAGGCCTTCCTCGACCGGTTGATCGACCACACCCTGGTGATTGAGCGTCACCAGCTGGTCCTGGAACGGGGCAACTATTCCACCTACTTCGCCCAAAAGAAGCGCCGCAACCAGACGGCAATCGCCACTAATGACCGTCTCCACGCCGATATCCAACGCCTCCACGCCGCCAAGCAGCAGCGCCTCCAGTGGCCACAACGCGCCGAGGGCGAAAAGCGCCACAACGCCCACGCTGACAAGGGTTTCATCGGGGCCAAGGCCGCCAAGATGATGAAGAAGTCGCAAACGATGGCCCACCGGCTCGACCAGGTCGCCGCGGCCAAGACCGGCCTCCTCCAGGAAGTCGAGACCGTCGCCCCACTGACCACCAACCAGCAGTCCAGCTACCACCAGACCCTGTTGACCCTCGAGCAGGTCGGGATCACCCTGCCCGGACGCCAAGTCTTCACCGACCTCTCCCTGACGGTCAAGCAGGGCGAGTGTGTCCTGCTGACTGGGGACAACGGCAGCGGGAAGTCCACCCTGATCAAGGCGATCCTCGGCCAACCGGTCGGGCAAGTCAGCGGAACGATCACCCTGGCCCACGGGACAACGGTCAGCCTGGTCCGCCAACACTACACCGACCAGCGCGGCAGCCTCACCGCCTACGCCCACCGCAACCACCTACCGGTCGACCAGCTGCTCAACACCCTAAAGAAACTGGGGATGGAACGGGCCAGCTTCACCACTCCGCTCGACCAGCTGAGCATGGGTCAGCAGAAGAAGGTCGAGCTCGCCCGGTCGCTTCTGACCCCCGCCCAACTCTACATCTGGGACGAACCGCTCAACTACCTGGACACCTACAACCAGGGCCAGTTGATCCAGCTCATCCAGACGGCGCACCCAGCGATGCTGATTATCGAGCACGACCAGCATTTCATTGCCGAGGTGGCAACCAAACGCGTTACAATTTAG
>SRR1151252_01050 peroxidase
TTGCCTCCCAAAGCCAAGATCAACGGGGTTGAGCAGAAGATCGTCCGGATGAACGTACCGTACTCCGACCCGGCTGTTGGGATCACCGGGACCTACTTCATCGGCTACGCCCGCCACTGGACGGTCACCAAGAAGATGCTGGAGAACATGATCGAGAAGCACGACTACCTCCTCTCCTTCTCCGACATCCTATCCGGCCAGCTCTTCTTCATCCCGTCCCGGCCACTGCTTGACAAGATTGCCGATGGTGAACTGAGTAAGTAG
>SRR1151252_01051 peroxidase
ATGACCATGAACCCAAACCAAGCACAGGACGTCTGGAAGGACGCCGGTGAACACGTCCAGTTCACCGTACTGGAGTTAAAGCGTGAGGACCAGGCCAAGGAGCAAGCCGCCATCGAGGAATTTGTCGACCGCTACCAGGCCATCGTCCGTTCACTCCGTATCCGTGACAACCGGGGTAACCTGAAGGCCTCCCTGGGCTTTTCTAACGCCGCCTGGGATTACCTTTTCCCTGACGCGCCAAAGCCCAAGGAACTGGAAACCTATAAGACGATCAGCGGGGATAAGTACGCCATGCCCGCCACTGAAGGGGACATCTTCCTCCATATTCGGGCCAACGATGAGGCCGCAGTCTACGAACTGATGGCCCAGTGCATGCTCTTCCTAAAGGATTACACCACCGTTGTCGATGAGACCAAGGGCTTTCGTTACTTCGAGGGCCGGGCGATCATCGGTTTCATTGATGGTACCGAGGCCCCCCAGGTCGAGGACGCCGCTGAATACGCCATCGTCGGTGATGAGGATCCGTTCTTTGAAAACGGCTCCTACGCCTTTGCCCAGAAGTGGCGACACCACATGGACATCTGGAACAAACTAACCACTGAGGACCAGGAGAAGGCAGTCGGCCGCAAGAAGTCCAGCGATCTGGAACTGAAAGACGCTGAGAAGTTCAAAAACGCCCACAACGTTGCCTCCCAAAGCCAAGATCAACGGGGTTGA
>SRR1151252_01052 C4-dicarboxylate anaerobic carrier
ATGCCGTCTGCTTATACGATCTTGTTCATTATTATTGTCATTATTGCCATCCTGACCTGGATTATTCCAGCCGGGACCTACGCTACTGATAAGGCCGGCAACATCATCTCTGGAACCTACAAGGCGGTTTCCAGCAAGCCGCAGGGGATCTGGGATGTCTTCATGGCGCCGGTCATCGGGATGGTCGGGGACAAGAAGACGGAGGGGGCGATCTCCGTCTCCCTGTTCATCCTGGTCATCGGGGGCTTCTTGGGGGTTGTGAACAAGACTGACGCCCTTAATGAAGGGATCAGCTCGATTGTCCGGCGTTACAAGGGCCGGGAGAAGCAACTGATTCCGATCCTGATGATCCTGTTTGCCATCGGTGGTTCCACCTACGGAATGGGTGAGGAGACGATTGCCTTCTACCCACTGCTGATTCCCGTCATGATGGGGGTTGGCTTTGACTCGCTAGTTGCCGTGGCGATTGCCTTGGTCGGGACCCAGGTTGGGTGCCTGGCCTCGACTGTCAACCCATTCGCTACCGGGGTTGCATCACAAACTTTGAATATTTCACCTGGTGATGGCCTCGGTTCCCGGTTGCTTTTGCTGATTATCACGACCGCCGTCAGCATCATCTACGTCTACCACTACGCTTCCGTTATCCAGAAGGACCCGACTAAGTCACTGATCTATGACCAGCGGGCCGAAGACGAGAAGCGGTTTGCCATCAAGGCGCGGACCGATGATGACCACCAGATGACCGGCCGCCAGAAGGCTGTTATCTGGCTCTTCGGATTGACCTTCGTCATCATGATCCTCGGGCTGATCCCGTGGACCAACCTGAACAGCCACTGGACATTCTTTGATACCTTTACCAAGTGGTTGACCGGGATTCCATTCCTGGGTAACCTTTTGGGGCACGATATGGCGCCATTGGGGACCTGGTACTTTAACGAAATCACGATGCTCTTCCTCTTCATGTCCGTTGTGATCATGTGGGTCTACCACATGAAGGAGGGCGAATTCATGGACGCCTTCATGAAGGGAATGGCCGACTTCCTGAGCGTTGCCATCATCGTGGCTGTTGCGCGTGGGATCCAAGTGGTCATGAACAACGGGATGATTACCGGGACCGTCCTGCATTGGGGTGAAATGGGCCTGCATGGGCTCTCACAGAGTGTCTTCATCATCCTGACCTACATCTTCTACATTCCAATGTCATTCCTGATTCCATCGACCTCTGGACTGGCCGCCGCAACCATGGGGATCATCGGCCCACTGGGTCACTTTGCCCACGTCTCCGGTAGTCTGGTTATCACGGCTTACCAGGCTGCCTCTGGCTGGGTCAACCTGATCACGCCAACCTCCGGGATCGTAATGGGGGCCCTGGCCATCGCTCATGTCAACGTCAGTGTTTGGTGGAAGTGGATGCTCAAGTTGATGATCTACCTATTTATTGTTACCTGTGTATTCTTAGGTGTTGCTGCCGTATTGTAA
>SRR1151252_01053 dipeptidase PepV
ATGGCACAATTAGTAAATGAGAAGGAACAACAAGAAGCTGTTAAGGCTCTGGAACGACTGATTTCGGTACCGTCATACAATCAGCCGGCTGAGGACGGGGCACCGTTTGGCTGTAAGATCCGCAACGCCCTGGACGAAATGATGAAGATCTGTGACGAGCTGGGCTTCAAGACCTACGAAGACCCAGATGGCTACTACGGTTACGCCGAGGTCGGTACGGGTGACAAGGTCTTTGGGGTAATCTGTCACCTCGACACGGTTCCGGCCGGCGACCTCAAGAACTGGACACACGACCCGTTCAAGGGCACCGTCATCGACAACGCCGTCTACGGGCGAGGTGCCCAGGACGATAAGGGTCCCGGGATCGCCGCCTTGTACGCGGTCAAGGCCCTGATGAACGCGGGTTATCACTTTAACCAGCGGATCCGCTTTATCTATGGGACCGATGAGGAGATCCTCTGGCGGGGAATCGCCCAGTACAACAAGAAGGAGTCCCAGATCGACAGCGGGATCTCCCCGGACGCCGAGTTCCCACTGATTTACGCTGAGAAGGGGCTGGAGCAGGCCTACCTGGTCGGCCCTGGCACGGATAAGCTGCACATCAGCTTGAAGAACGCCTTCAACGCCGTCCCGGACAAGGCCGTTTATGACGGGCCTAAGCAAGATAAGGTCAAGGCAGCTCTCGACAAGCACGGCTTCAAGTACACCAGCGATGACCACTCGATCACCGTCCTGGGGAAGTCGGTCCACGCCATGCTGGCGCCCCAGGGTACCAACGCTGTTCTCCGTCTGGCGATCGCCCTTGATGACGTCTTTGACTTCAAACTACTGGACTTCATCGGCAAGCTCTTCAAGGAGGACGCCACCGGGACCAACGTACTCGGTGACGTTGAGGACGAGTCTGGTCACCTGACCTTCAACATTTCCAGTCTGGAGATTAACGAGAAGGAGACCCGGATGCAGATTGACCTGCGGATTCCGGTCACCGTCGACCGGGACAAGCTCTTGAAGAAGCTTGACGAAAACGTTGCCGACTACGACCTCAAGTACGCTCCGTTTGACTACGTTGCCCCGCTCTACGTACCAAAGGACAGCAAGCTGATCCAGACCCTGATGGACGTCTACAAGGAGCAGACGGGTGATACCAAGGCCACACCACAGATCTCTGGTGGGGCGACCTTTGCCCGGACCATGCACAATTGCGTGGCCTTCGGGGGAATGCTGCCAACTACGCCGGACTACATGCACCAGGCCAATGAGCAGTGGCCGTTGCCAGATATGTTCAAGGCGATGGAGATCTACGCCCAGGCGATCAAGAAGCTCTGCGTTGATGGTGAATAA
>SRR1151252_01054 sucrose phosphorylase
ATGCCAATTCAAAACAAAGCAATGTTAATCACCTATTCCGATTCCATGGCTAAGAACATCAAGGAAACCCACGAAGTCCTGAAGGAATACATCGGCGATGCCATCGGCGGTGTCCACCTCCTGCCATTCTTCCCATCTACCGGTGACCGTGGTTTTGCCCCATACCGTTACGACGTGGTTGACTCCGCGTTCGGTGACTGGGATGACGTTGAAGCCCTTGGCAAGGACTACTACCTGATGTTTGACTTCATGATCAACCACATCTCCAAGAAGTCCGTGATGTATCAAGACTTCAAGAAGAACCACGATGATTCCAAGTATAACGACTTCTTCATCCGTTGGGAAAAGTTCTGGGAAGCTGCCGGTAAGGGCCGTCCAACCCAAAAGGACATCGACATGATCTACAAGCGCAAGGACCGGGCCCCAGAACAGGAAATCGAATTCGCCGACGGGACTAAGGAACACCTTTGGAACACCTTTGGCGAGGAACAGATCGACATCAACGTCAAGAGCAAGGTCGCTAACGAATTCTTCAAGCAGACCCTGACCTCCATGGTTAAGCACGGTGCCGACCTGATCCGGCTGGACGCCTTTGCCTACGCTGTTAAGAAGGCCGACACCAACGACTTCTTCGTCGAACCAGAAATCTGGGACCTGTTGGAAGACGTTCGTAAGATTCTGGCACCTTACCAAGCCGAGATCCTGCCGGAAATCCACGAGCACTACACGATGCCACAAAAGATTTCCCAACACGACTACTTCATCTACGACTTCGTGCTGCCAATGACCACCCTCTACACCCTCTACTCTGGTAAGACCAACCGCCTGGCCAACTGGTTGAAGATGAGCCCGATGAAGCAGTTCACCACCCTGGACACCCACGACGGGATCGGGGTTGTTGACGCTAAGAACATCCTGTCTGACGACGAGATCGACTACACCTCCAAGGAACTCTACAAGGTTGGTGCCAACGTCAAGAAGAAGTACTCCAGTTCCGAATACCACAACCTGGACATCTACCAGATCAACACGACCTTCTACTCCGCCCTCGGTGACAACGATAAGGCCTACCTGATGGCCCGGGCATTCCAAATCTTCGCCCCTGGTATCCCAATGGTTTACTACGTTGGTCTGCTGGCCGGCTCAAACGACCTGGAACTCCTCGAAAAGACCAAGGAAGGCCGGAACATCAACCGTCACTACTACAGCAAGGAAGAAGTGGCCAAGGAAGTGCAACGGCCAGTAGTTAAGGACCTGTTGAGTCTGCTTTCCTGGCGGAACAAGTTCGCCGCCTTCGATCTGGATGGCTCCATCGACGTTGAAACGCCAACCGACACGACCATCAAGATCACCCGTAAGGACAAGGACGGTGCCAACGTGGCCGTCCTCGATGCCGACGCCGCTAACAAGACCTTCAAGATCATCGCAAACGGTGAAACGGTCATGGAACAAAAGTAA
>SRR1151252_01055 major facilitator superfamily transporter
ATGAATAACAAGCATTCCATGATTACCAAGCTAGCGTTCCTGTCAGTCTCATTCATGATCACCAGTGCTTACGCGATCCAGGGTTCCCTGCCGCAACTCAAGGCGGCCTTGGGAATCACCCAGACCCAGTCCGAGTACCTGGTAACCACCCCGTCCTTTGCCGTTATGATCTTCGTGGTCCTCTCCCCACTCATCCAGGAGTGGTTCCACATCTCCGATAAGAAGATCATCATGGCTGGGGTCACGATTGTCGGCATCGCTGGGCTAGTCCCACTGTTCGTCAACAACTACATGACGATCCTGGTCTCCCGGCTGGTCCTGGGGGCCGGCTACGGACTCTATAACTCCCAGGCCATCTCGATGATCGCTGTCTGGTACGACGGCACGGAGCGGGCCCAGATGCTGGGCTGGCGGGCCGCCGCCGAGCAGATCGGTCAGGCCGCCACACTGACTATCGCGGGGTTGATCCTGAGCTACGCCGGTTGGCACCAGTCCTTTGCGGTTTACGCCCTAGCCTTCGTCGTTCTGGTCTTCTTCGCACTCCGGGTTCCCGACGATAGTCAGGCCCAGGGCCAGGAAGTCGACGAAGATAACCTAGCAGAGGACCTTGGGGAAGACGAGAACCAGACGATCACCAAGATCAGTCCGGTAGTCTACCTGCTCGTTCTCTTTGCATTCCTGCTGGTCGTGGACTATGTTGGAATGGAGAACCGTTTCCCTGGTCTGGCCGTGGCCATCAACGGTAGCCACTACACCGGTTCCTCAATGTTTCTGTCCTTGATGCTGATCGGCGCCACGCTGGGTGGGATCTGCTATGGTACCATCCAGAAGCACCTGGGCTTTGGGACCGTCTACCTGGGGTTAGGGCTGATGGCCCTGTCCAACTTCCTGTTCGGCTTTGCCGGCCATAACTACTTCCTGATGGTGGCCGGCCTGCTGCTGATTGGGTTCCCACTCCAGCTGGTTTCACCGCTGATCTTCAACCTCCTGCCGGACCTGGCGCCTGCTAACCGGCAGCCGTTGGTTACCTCCCTGTGCCTGATCGGTTTCAACTTTGGGGCCTTCTTCTCCCCAACGATTGCCGAATGGACCAACCACCTGTTGGGTCAGCCACTGTCCGGAATGGGGCTGGCAGCACCATTCCCGATCTACGGGGTGGGGTTGATCATCATCGCCCTGATTATTTTCTTTGCTACTCGTCACACTGCTCACTAG
>SRR1151252_01056 2,5-diketo-D-gluconic acid reductase
ATGAATGTTAAAGATAACTGGGTAAAGCTCGCGGACGGTAACCAAATGCCGCAGGAAGGTTTCGGCCTTTACAAGGTTGACGGCCAGGAAACGATGACCAATGCCATCAAGGATGCCTACTCAACGGGGTATCGGCTCTTTGATACCGCCCAGCTCTATGGCAATGAGGCCGCGGCCGGGACCGCCTTCAAGGACTTGCGAATCCCCCGGGACCAGTTTTTCCTTACTACTAAAGTCGCCGAAGATAACCAGGGATATGACCAGACAATTCAATCAGTCAAGGAATCACTGAAGAGGTTACAGACAGACTATGTTGACCTCCTGCTTATTCACTGGCCGATCGAACAACACTTCTTTGAAACCTGGCGGGCCTTTGAGGACCTGAAACGGGCCGGGATGGCCAAGTCGATCGGGGTTAGCAACTATCAGATGATCCACCTCCAGTACCTGGCCATTAAGGCTCACGAGATGCCGGTAGTCGATCAGGTCGAGTTGCACCCGCTCCTCACCCAAAAACCTTTGCTCCAGTTCAACCATGACCACCAGATTATCACTCAGGCCTGGAGTCCCTTAGGCCGGGGAGCCGTCCTCAGTGAGCCAGTCCTAAAGCAAATCGGTGCTGCCCACGGTAAGTCACCGGCCCAGGTAATCCTACGTTGGCACCTGCAAAATGGGGTCTCCTTCATTCCAAAGGTCGGTCCACGCTGA
>SRR1151252_01057 penicillin-binding protein
ATGCAGCGTGCTCAGCATCCCCGCCGTCGGCCACGGCTAATCTTAATCATCATATTAATACTGGTCATTATCCTTGGCCTCCACCATTTCCTGTCACTGGGGTCCCGCCTCAAAGCTAACTGGAACAAGATCGTCTACACCTCCAGTGATAACGTCAGTATCGCGGTTTATTCTCCCAAAACGCATCGTATCTACACCTCAACGAATGCTCCCCACCACAAGTTTCACACGGCCAGCACCGTCAAGGTCGGCATCCTCGCCGGGCTCCTGCTCAAGCAGCAGGCTCCACTGAGCAGCACCCAGACAGACCTGGCCAAGAAGATGATTGAGCAGAGTGACAACAGCGCTACGACCACCCTCTTCAACGAACTGGGGGGGCAATCAGGACTCCAAGAGGTCTTCAACAAATTTGGCATGAAGGACTCAATTGCCCACAAGAGCTGGGGACTGACCACCACCACTCCAAAGGACCAGGTCAAGTTACTCAACAATATCTTCTACCAGTCCAAACTCCTCTCTAGCCAGGACCGGACTACCATCCGTAGCCTGATGAGTAACGTTGAATCAGACCAGGCCTGGGGAATCTCGGCTGTCAGTGACAACTTCGCCATCAAGAACGGCTGGTTGAGCTACGGATCTGACGACTGGATCGTCAACAGCATTGGTTACGTCAAGAACGCCAATGGGACCAGCTATACCATCGCCGTCTACACCGACAAGAACGACAGTATGATGACCGGTCAGCAGACCATTGAACAGTTAGCCCGGACCACCAAGTCAATCATGGAATAA
>SRR1151252_01058 D-alanyl-D-alanine carboxypeptidase
ATGAAGAAATTTGGTCATAAGTTGATCTGCTACTTGCTGGTGCTCCTGTCTTTTAACCTGAGTTTAATCGGCCTAGAAAACCGGGCCCAGGCCAGTGACGGAGCGTTTTACGATATGAAAGCACGGGCGGCTTATGCAATCGATGCCCAGACCGGACAGGTGCTCTACCAGAAGAATGCCAATAAGGTCTACCCAATTGCGTCCCTGACCAAGATCCTGACTTTAGCGGTGATCGAACAGGACGTCCGTGACCACCGGCTGAGTTGGAAGCAGAAGGTTAAGATCACTCCTGCCGTTGCCAAGGTAGCTAACGACTGGCACTTCTCCAATGTCCAGTTAAATGCCGGGGAGCGGTACAGTATCTGGCAGCTGGCCGAATCTATGATGCTGGTCTCAGCCGATGGAAGCGCCGAGGCCTTGGCACTGGCTAGTGCTGGCAGTACCGCCGCCTTCAATAAGAAGATGCAAAAGGTTGCCCAGGCGGCTGGGGTGCATGATGCCAAGATCTATAACATGATTGGCCTTTCCAACGACAGTCTGGGTAAGCACCGGCTCAAGGGTGTGGCCAACGACGCGGAGAATAAGATGTCGGCTAAGGACTTGGCCCTGATCTCACGTTATGTGATCAACAAGTATCCGGAGACGTTGAAGATCACCAAGAAGAAGTTTGCTAATTTTGATGTCTCAGCCGACCAGCAGTACTTGATGACTAACATCAATGCTCTCCTGCCGCAAAATGGTTTTGCCCCAAGCGGCTGGACGATTGACGGCCTGAAGACGGGGAATACCGACGCGGCCGGCAAGTGTATTGTGACGACCGGGACCTATGCCGGCCGGCGGGTCATCCTGGTCGCATTGCACACTAAGGGGGACTGGAATAACCAGTCAAAGATGCAGAAGGAATTCTACGAGGCCCTGGCAGCTAACTACCAGCCAGTTGAATTGCAGAAGATTACTGACCTGCCCAAGAACGTTCGTCAGACGCGACTGGTTCACGCTAAGGGTCAGCATCATGTTCATCTACAGCTGGCTCATGCCCAGTGGATCTGGATGAAGAAGGGTGATGACTGGCGGGCTACTAGGCCGCGCTTTGTTGTTGATTCGGCCCACCGCTCGGTTACTGGAAAACTGACGGCTCCGGTGAAGAAGGGCGAACGGGTTGGTAGTGTTGAGCTGCGGATCAAGGGGATGCCGGTCATACAGGTGCCGGTTACCAGCAGGCAAACGATTACTAAACGGGTCCTGTAA
>SRR1151252_01059 dipeptidase
ATGATGATAAACCGATTTAAGTGTTTAGTAGGGCTTGCCACCTTTGGCATGGTGATGGGGACCGTCAGCTCGGCCAGCGCCTGCACCACGGTCCTGGTTGGTAAGAAGGCCAGTAGCGATGGTTCCACGATGATTGCGCGGAACGAAGATGTTGACACGGCCTGGGCCAAGCACTATGTTTTCCACGCTGCTAACAGCAACGGGCCAACACAGTATGTCTCCAAGGACAACCACTTTACGGTTGACCTACCGGCTGACCAGCAACGTTACACGAGTACGCCGGATTGGCAGCAAGAAGATGGCCAAGACCAGTTTGGTGAGGATGGGATCAACGACAGTAACGTGGCGATGAGTGCTACCGAGTCTGGGACTACCAACAAGAAGGCCCAGAAGGCGGACCCATTCGTCAAGAACGGACTGGAGGAACAGTCGATGCTGGATGTTGTTCTGCCATATGTTCACTCCGCCCGAGAAGGGGTTCAGCGCCTCGGCCACATTATCGAAACGAAGGGTTCTGCTGAAAATAACGGGGTGATCTTCTCAGATAAGAGCTCCATCTGGTACATGGAGATTGTCTCCGGTCACCACTGGGCCGCTGTTCGGGTACCAAACAACAAGTACGCCGTCATTCCAAACCAGACAATGATCGGCAACGTCAACACTAAGAAGGGGAACTACATGGCCTCCAAGAACCTAGTCTCCTTTGTTAAGAAGCACGACCTGAATGGTTACGTTGATGGCCACCAGGTTAACCTGGCCAAGGCCTTCGGGACCAACAATAAGGAAGATGCTACCTACAACCGGCCACGGGTTTGGGACGGTCAACGAATCCTGACCCCAAGCAAGAAGCAGTCCATCGACCAGAAACACTTCACGATGTTTATGAAGCCCGACAAGAAGATTTCGGTTGCCAAGGTTCAAAAGGTCTTGGGCTCCCACTTCACGGGTACCAAATACGATAGCAACGGCAAGTGGGCTGGCGGCTACCGGCCAATTAATGTGCCAACGAATGTTGAATCGCACATCCTGCAGATCCGCAACAACGTGCCAAGTGACATTGCCGGAATCCAATGGTTAGCCATGGCCTCACCAGCCACGAGCGGCTATGTTCCGTTCTATACAAACGTCACTAACACTCCGGCTAACTACCAAAGGAAGGGGACTGACAAGCCGGATAACGATTCCGCTTACTGGACCTACAAGATGACCCGGGTACTGACCGACCCATACAAGAACAAGCTGATCAACAAGGATGTTCTGCCGGTGCAAAAGAAGGTTCAAAAGCACCTCGACCAGAACCTAACAAAGTCTGACAAGCAGGCTGAATCATTACCAGGTTGCTGA
>SRR1151252_01060 aldose 1-epimerase
ATGGATATTGCACAGGTTCCGTTTGGACATTTTAAGGGTGAACCAGTCACTAAGTACGTAATGACCAATGATAATGGGGTGCAGGCCGGGATACTTGACTTCGCCGGTCTACTCCAGTCATTCAAGGTCCCAACCAAGGACGGCGGCATGGCCGACATGGTCCTGACCTCAGAAAACCTAGATGAGTTTACCAACAACGGTTTCTGCACCAACCGGCTGATCGGTCGGGTGGCTGGCCGGATCGCCCACGGGGAGTTTAAGATCTTCGGCAAGACCGTCAACCTAGAACAAAATGAAGGGGAGAACACCCTGCACGGTGGGACCAACGGCTTCTATAACCACATCTGGCACGTTGATGACACAAATGTTACTGATGACCATGCTTCAATCACCCTCAGTCTGACCCTGCATGAAAAGGACGACTCCTTCCCGGGTACTATCCACGTCACCACCACCTACACGCTCGATGATGACGATTATCTGACCCTGAAGCTTGGCGCAACCAGTGATTCCGACACCGTCTTCAACCCAACCAACCACACCTACTGGAACATGGCCCACGCGGACGCCAAGACCGTTGACGACCTCATCCTGCAGGTCAACTCCCAGTACCACCTGGCCGTTGACGGTGGGAAGATCCCGACCGGCGAGAAGGTCGCCAACGCTGGCACGCCGTTTGACTTCAGCACGCCGACCCGTCTCGGTGACGCCCTGAAGCAGATGGCTTCCACTAAGGAGAACGGCTTCGACGACATCTGGGTTGTTGAACCGAGTTTGACTAAGCCGGTTGCCACCCTAGAAGATAAGGCTAGCGGACGGAAGATGGAACTTTTCTCCGACCGGAACGGCCTGGTAATGTACACCATGAACTCCGACGACAAGGCCGTCTACAACCACGGTCAGGTCCACCCACACCTGGGGATCGCCATGGAAGCCCAGACCCTGCCGGACGCCCCACACCACCCAGAGTTTGGTGACATCAACCTGCGGCCAAACGAGAAGAAGGAATACACCATCAAGTGGCACGTTGAGTACTAA
>SRR1151252_01061 hypothetical protein
ATGGCAAAGTTTAGTTGGGACCGGTTCAAGAAGTCCTGTAACCGTAACTTTATGGACTTTCTCGGAATTTTTGCGGCCGAGGACCGCTTCATCCATGAGCATCGAAACAAGAGTAGTCGGATCGCCGAGCAGGATCGCTACGGCACCGATGATCATGATCAGAAGGATAAGCAATAG
>SRR1151252_01062 hypothetical protein
ATGGACCAACAGCGACTAGACATTTTCGATTTAAAAAAGATCAAGATCAACAAAAGCAAGGCTGAACTCGAGCAGACCGGCAAGCAACGACAGAAGGCAGTCACCAGTGCGGAGCTGAGCACCTTTGTCCCCGTTCACCGGGACCCGGTGGCCGATATCGAACAGACCGAGGCCAAGATGATCCCGGAACTCCTTCCCCTGCGCCACCAGCGAATGCTAGCCGGCCGCTTTGCCTTCTTTCGTGGGACGGCCGAGTTGATGGAGCGCGACCTCAAGCAGCAGTACCAAAGCATGATGCCGGTGGTGATCAGTGGTGATGCCCACGTGAACAACTTCGGCTTCTATGCCTCCCCCGAACGCAAACTACTCTTCGGTCTCAATGACTTTGACGAGGCCCGGATCGGTAACTGGGAGAGTGACGTCAAGCGTCTCCTGGTCAGCATTGAACTGGCCGGGGAGGAGAACGGCTTTAAGAAAGACGACCTCTATGACCTCCTCCAGTTGACCACCAAGACCTACCGCCATGCCATCAAGAGCGCTAACAAGCTCCCATTGTCCGCGGTCTTCTACTACTCCTTTGAGATCCATGACATGATCGAAAACATTCACAAGCTTGATGACGACGACGCCCCAGAACAGATGGAGGCGGTCCTGCAAAACATCATCAAGAAGAGCCAGAATAGCAATTCCGAGGAGATCATCCGCAAGATGGGCACCATCAATAACCGCGGCCAGCTAGTCTTCCGGGACAACCCGCCCCGTGCCAAGCACCTCAGCGACGCGGAATACCAGGCCGTGGCTAACGGTTATGAGAAGTACCGGGAAAATGTTCGCCAAGATATCAAGGTCTACCTAGCCAACTTCCACATCACCGACATCATCCGCTACAGCGTCGGCGTTGGCAGTTTCGGTACCCGTTGCTTCTTGCTCCTGCTGACTGGGATCGACGGCAGTCACCTGGTCCTCCAGGTCAAGGAGGCCATGCCCCTGCGCTATAACCTGCTCCAGCTTCAGGTTCAACAGGCCATCGCCAACGGTCTCCAGGCGGGACGACGAATTGTGACCGCTCAACGTGTCCTCCAGTCCTCCTCCGATCCTTTCCTGGCCAGCACCAGGTTTGGTCAACGCAGCTACTACGTCCGGCAGTTCCGTGACATGAAGGAATCGATCAAGATTGAGAAACTCGATTTCAGCAGCTACCGCCTCTACTGCCAAACCTGCGCCTTCTGCCTGGCGATGGCCCACGCTCAGAGTCCGACTTCGCCGATGCTGCGGGGCTACCTCCGTCACCAGAAGGTCCTCGACCAGGGGCTGGCCGACTGGGCCCTCCACTATGTCGACCAGGTTGACCAGGACTACCAGGCCTTTAAGAAACACGTCCAAAAGTAA
>SRR1151252_01063 hypothetical protein
GTGATTATTACCGTTGAAAAACCAGTTGCCCAGCACCTGCACGTCAATCCCCAGCTGGTTAACGCCCATCGCCTGGCCACGCCGGAAGCATGGTCGGTCCGTATTTGCGGTGACTTCATGATTGTCATGAACAACCTGTTGGCACTACCGGTGATTGTTCGCCATCCCCAGCGTTTCAACGATTCCCGGTCATTTATTACCGCCTTTAAGCAGGAGTTCCTGCAGCTGATGGAATTGGCGCCGATTCCGCATGCCAAGATTCGCCTGGTTCGTGATGCCCAGTTTCAAGACGTTCGTTTTACCAGTCAGCAGGCCGATTCGGTTGCAATGCACCTGCAGACCTACCAGAATATTCTGACTGGTGCCAATTCAATCATTGATTGGGACCGCCAACCGTCTAACGCCATGCTGGCACTCAAGTTGGCTCATCAGACCGTGCTTGCCGACCCCGATGGTGACGACGGATTGGCGTTGTTTGACCTGTTTGAAAATTATGTGATGACAAATTTCGCCCTGCCAGCGCACCCGACGTTAAACGAGCACAACCGTAACTACCGCTACCGGAGCGGCTCTTTGAACGACGTCATGAACGCGGTTGCTGTGGGTGAGCACCTGCTCAATGATTACCGTCGTTTTCTGGAAAACCGGGGTAAGAGTGATCAGATCATTGACCGGGACCTCGACGTTGCGGACGATTATTTCAGCTTCTGTGATGGCTACGAGAAGACCCTCTTCGACGATCTCACCCTGGTTTATAACTACTTGATCCACTATGAGGAGGCGAACCAGACCCAGTTGAGCGCTACCCAGCTTCGGGACAAGGGGGTGGCGCTGCGTGAACTGGGTCGCTTCATGCGCTACCAACGGCTCTTCTCCGCAGCTGACTTTGATCACTTCGTTCAGGCAATTGGCCAGGGGATCAAGGACCTCGGCTTCAGGGATCGCAACTACTACTTTCAACGTCTTTTGCGTAAGGTGCAGGGGCAGCGGGACGCCTTAAATGGGCCACATCGCTATCGTCGCCAGCGCTACCAACTGACGGTGACCCTGGCTGACTACCAGCCAACTATGTGGCGCCAGATTATCCTCGGCGGTGACGCCCGGCTGGATACCCTCTGTTACCTGGTCCTGGCCAGCTTCCGCGCGCAGAGTAGTCACCTCTTTACCCTCCAGGACGGTGTCCACACCTATCAGCTACCAATCTTTGAGAGCGGGCTCGGTGCCAACAAAAGCTTACTGGCCCATTGGCTTGGCGAGTATCGGGCGGGGGCTGAACTGACCCTCGCATATGACTTTGGTGACGGCTGGCGTTTCAAGATCAAGGTTGATGAGGTGGCTGACCAGTCCCGGTTGAAGACGAATGGTACCGCCAAGCTGGTGGCTGGCAGTGGGCATGGGATCATCGACGACATCGGTGGTACCACTGGATTGACCGACGTTGCCAAAGACGATCCGGGGATTGACCATCCCCTGAATGTCAACCGCGAGCAGGCGGCCTGGCGAAAGCGCGTTGACCGTCTTAAGAAGAACTACCGTTAG
>SRR1151252_01064 alcohol dehydrogenase
ATGGAGACACAAATTGATGATTTGCCAAAGACAATGCGGGCCTGGGCCGTTACCACGCCCGGGCCGATTGATGGCGATCGGGCGCCACTAAAGATGGTAGAGAAGCCGGTGCCCACTCCTGGTCGGGGGGAGGTCCTGGTCAAGGCTTTGACCTGCGGGGTCTGCCATACCGACCTTCACGTGACCGAGGGTGACCTGTCCGTCCATCAGGAGCACGTCACGCCGGGGCACGAGATCGTCGGTAAGGTGGTGGCGACGGGACCGGATACCCAGCGTTTCAACCTCGGTGAGCGGATTGGAATCCCGTGGTTCCGTCACGCTTGCGGGGTCTGCAAGTTCTGCCGGTCCGGACACGAAAACCTTTGTCCCCACTCCGTCTACACTGGTTGGGACCATGACGGCGGTTATGCCGAGTACGTGACCGTGCCGGAGGGGTTTGCCTACCGGATTCCGGAGAAGTTTAACTCCCTAGAGGCAGCCCCGCTGCTCTGTGCCGGGATCATCGGCTACCGGGCCTTTGAACGCGCTAATGTGCCAGCAGGTGGGCGTCTAGGTTTGTACGGCTTCGGTGGCTCGGCCCACATCACGGCCCAGATTGCTATGGCCCAGGGGATCGAGGTCCACGTGTTTACCCGCGGTGCTGATGCTCGCCGGTTTGCCCTCCAGTTAGGCTGCGCCTCGGCCCATGGTGCCTATGACCTTTCCGACGTGCCGTTGGACTCCTCAATCATCTTTGCCCCGGTCGGCGACATCGTGCTGCCGGCGATGGCCAGCCTAATTCCGGGTGGGACCCTGGCCCTGGCTGGAATCCACATGACCGACGTACCGGCCCTCAACTACCAGGAGCACCTCTTCCACGAGAAGACGATTACTAGCGTTGAGAGTAACACCCGTCGCGATGGGGAGGAGTTTTTGACCCTCGCCGACCGGCTGGATATCCATCCAGAGGTGCACGAGTACCCGTTTGAGAAGGCGGATGAGGCCTTGAAGTATGTTAAACGTGGTGATATTGAGGGGGCTTGTGTCCTGCGGATTAGCCAGGATGATTAG
>SRR1151252_01065 peptidyl-prolyl cis-trans isomerase
ATGGACTATCCACAATTAGATTTGGCCAAGGCGCAGGGGCCGAAAGCCATCATTAAGACTAACAAGGGAACGATTACGGTCCAGCTCTTTGAGAAGCTGGCTCCTAAGACGGTCAAGAACTTCGTCGAACTGGCTAAGCAGGGCTATTACGATGGGGTGACCTTCCACCGGGTCATTCCGGACTTTATGATTCAGGGCGGTGACCCAACTGGGACCGGCCGTGGTGGCGAAAGCACCTACGACCACCCATTTGAAGATGAATTTGCCGACCAACTGTTCAACTTCAACGGGGCCCTCTCGATGGCAAATGCCGGCCCAAACACCAACGGTAGCCAGTTCTTCATTGTTTCCAATGAACATGTCCCGGCCAACATGATTGACCAGATGAAGATGGTTGGCTACCCGCAGGCAGTCATTGACCACTACAAGGAGTTCGGTGGGACGCCGTGGCTTGACCACCGGCACACCGTTTTTGGCCAGGTCATCAAGGGGATGGATGTTGTCCAGGTGATCAGTAAGGTCAAGCGTGACCAGATGGATAAGCCGAAGGACGACGTGGTGATGGAAAAGGTCACCATTGAATAA
>SRR1151252_01066 malolactic regulator
ATGAAAATCAAAGATTTAGAATATTTTCAGCAACTGATAAAAGATCAAAATTTTTCTAGGGTGGCTCAGCACTTTGGAGTCAGCCAACCGACGATTACCATGGCCATTCAGCGCTTGGAGCACGAGTTTAACACCAGCTTCTTCGTCCGTGATCATGTTCACCGGGAGCTACGGGTCACCACAACCGGCCAGCAGTTCGCCAACCACGTCGACCTAATCCTAAATGAGCTCCAAGTTGCCCACCAGGAGATTGACCGAGCTAACTCGACCAAGGTGCGCTTCGGCCTACCGCCGATCATCGGTAACTACTACTTCCCACCGTTGACGCCCCGCCTGATGCGCCACCAACTGATGGGGTCCCTGGAGACCTATGAACATGGTTCCAGGGGGTTATTGAAGATGCTCCAGCACGGCGAGCTCGACATGGCCCTGCTCGGCTCCCTAACCCCGCTCAAGGAGGCCCAACTAAAGGCCCAGGAACTGGCCCGCTTCCCCTTCCAGGTGGTCGTTGGCGCCGCCCATCCCCTAGCCGGGCAAGCAACGGCGGACTTCGCCGCCCTAAAGAATGAGCAGTTCATCATTCCCGACACCGAGTTCTTCCACGACCAAGCCTTCAAGCAGATGTGTCGTCGGGCCCACTTCCGCCCCCGGATTCTCTACCGGACCGCCGACATCCACGTCATTAAGGCAATGGTCAGCGAAAACCTCGGCATTACCTTCCTGACCAGCCTCGCCATCGAACCCGGCGACAAGGTCAAGCAGGTCGAGATCCAGGGACCTGACCTGCCGATCTTCCACCTATCCGTAGCAATGCGGGAGACCGAGGAATTAACGCCCCGCAAACAGGAGCTGTGGGACCTCTTGACTAACCATCACAACTGA
>SRR1151252_01067 malolactic enzyme
ATGAATAAGGCAATGGCAATCTTAAACAACCCCTTCAAGAATAAGGGGACGGCATTTACGATGGAAGAACGAGAACAGTTAGGCCTGGTTGGGGCCCTGCCGCCACGGGTCAAGACGATTGAGGAGCAGGCCGCGGAAACCTACGCCCTCTTCGAAACCAAGTCGAGCAACATTGAGAAGCGGCATTTCCTGATGGAGGTCTTCAACACCAACCGGCCCCTCTTCTTCTACCTGATGGGTCAACACATCACCGAGTTTATGCCGATCGTGTACGATCCAGTGATCGCCAAATCAATTGAAGACTATAACGAACGTTATCAAAAGCCCCAGGACGCTGTCTACCTCTCCGTCAAGCATCCCGAACGGATTGGGGAGAGCCTGGCCAACGTCAGTGGTGACCGGGACATCCGCCTGATCGTGGTTACCGATGCCCAGGGAATTCTCGGCATCGGTGACTGGGGTGTTGACGGGGTCGACATCGCGGTCGGTAAGCTGATGGTCTACACGGCTGCTGCTGGGATTAACCCGGCCCAGGTCCTGCCGGTTTCTATCGACGCTGGGACAGATAACCAGAAGCTGTTGGACGATCCAAACTACCTCGGTGAGCGTCACCACCGGATCAGCGGACCGGAGTACTTTGACTTCATTGACCGTTTCGTTGCCGAGATCGAGAAGCACTACCCGAAGAGTCTGCTCCACTTTGAGGACTTTGGGCGGGGAACCGCGGCCCGGATTCTTGACAAGTACCAAGACAAGATCCTGACCTTCAACGATGACATCCAGGGAACCGGGATCATTGCCCTTGCCGGGGTACTCGGTGCCATGAATATCTCCAAGGAGAAGCTGGTTGACCAGACTTTCCTGACCTTTGGTGCCGGGACCGCCGGTATGGGGATTGCCAAGATGCTCTACGACGAACTGATTCGCCAGGGCCTGACCCCTGAAGACGCCAAGAAGCACTTCTACCTAGTCGATAAGCAGGGCCTGCTCTTCGATGATACTGCGGGCCTGACCGACAAGCAGAAGCCGTTCACCCGTCAACGGAGCGAGTTCGCCAACGCCGACGAGCTGACTAACCTGTTGGCCGTGGTCAAGGCGGTCCACCCAACCGTCATGATCGGGACCTCTACCCAGCCGGGAACCTTTGACGAGGCCGTGGTTAAAGAGATGGCCGCCCACACCAAGCGGCCAGTGATCTTCCCCTTGTCTAACCCAACTAAGCTGGCCGAGGCCAAGGCTGATGATCTCTTGAAGTGGACCGATGGCCGGGCCCTTGTGGCAACTGGGATTCCGGTTGATGATATTACTTACCAGGGTGTGACCTACCAGATCGGTCAGGCCAACAACGCCCTGATTTACCCTGGGGTTGGGTTTGGTGCCCTGGCTGTTCAGGCACGCAAGCTCAACGATAATATGCTGGCTGCTGCCGCCCACGCCCTATCCGGCCTGGTCGACCCCGACCAAACGGGGGCCGCTGTCCTGCCACCGGTATCCAAGCTGGCTGAATTCTCCCAGCGGGTTGCCCAAAAGGTTGCCCAGTCCGCTATTGACCAGGGCCTGAGTGACATGTCCGATGCTAAGCAGGCGGTGGCTGCTGCCAAGTGGGAGGCCAAGTACTAA
>SRR1151252_01068 fumarate hydratase
ATGACAGAATACCGCACTGAAGAAGACACCCTGGGTCCCGTTAAGATTCCCGCTGATACGCTGTGGGGACCACAGACGGAACGTAGTCGTAACAACTTCCCAACTGGTCAATACATGCCCCTGGCCATCATCCGGGCACTGCTGAACATTAAGAAGGCTGCTGCCCAGGCCAACATGGAAACCAAGGCCATCTCTGATGAAAAGGGGAACCTGATCGTCAAGGCCATCGACGAACTGTTGGCCCTGAGTGACGAAGACCTTCGCAAGGACTTCCCACTGAAGGTTTACCAGACCGGTTCCGGTACCCAGACCAACATGAACACGAACGAAGTTGTTGCCCACAAGGCCCACCAACTCAACCCGGACATCGAAATTCTGCCAAACGATGATGTTAACAAGGGGCAAAGCTCCAACGATACCTTCCCAACGGCCATGAACGTAGTGGCCCTGGAAGCCGTTAACAAGCTGAAGCCAGCCATTCAACACCTGATCGACGAGCTGAAGATCAAGCAGGATAAGTACTGGAAGACGGTCAAGGTTGGCCGGACCCACCTGCAAGACGCCGTACCGTTGACGTTTGGTCAAGAGGTTTCCGGTTACGTTGCCGCCCTCGAACACGACCTGGACTACATCAAGACCTTAGAACCAACCTTAGACGAATTAGCCATCGGTGGTACCGCTGTTGGTACCGGCCTGAACGCTGCTGAGGGGATGCCAGAAAAGATTGCCGAAAAGCTGTCTGAAGTTTACGGCCTGAACCTGACCGCTAAGAGCAACAAGTTCTACGGCCTGGCTAATCATTCCGGCTTAAACGTGGTTCACGGTGCCCTGAAGACCCTGGCCGCTGACATGTTCAAGATTGCTCAGGACATTCGCTTCCTCGCTTCTGGTCCCCGGGCCGGTTACGACGAATTAAACATCCCGGCCAACGAACCTGGTTCATCCATCATGCCTGGTAAGGTTAACCCAACCCAGGCCGAGGCTGTGACGATGGCTGCTCTCCGGGTCTTCGGTAACGATACCGTCGTTACGATGGCTTCATCTCAAGGTAACTTCGAAATGAACGTCTACAAGCCAGTTATGATCGACGCCTTCCTTGAATCCGCCGACCTGCTGACCGGGACGATCACCGGCTTCACTGACCGTTGTGTCAAGGGCCTGACCGTCAATGAGAAGCGGATGGCAGAACTGGTTGACAACTCTCTGATGACGGTTACGGCACTGTCACCACACATCGGTTACCACGACAGCGCCAAGATCGCCCAGGCCGCAGACAAGGCCAGCAGTACGCTGAAGGAAGCTGCTCTGAAGTCTGGTAAGGTCACAGAGGAGCAATACGATGAGTGGATGGACATGCTGAAGATGACCAACGCTGATCGCAAGGACAAGTAA
>SRR1151252_01069 fumarate reductase flavoprotein subunit
ATGGCAGAAAAGTTTCAACCATTATCCGTAAGTAAGCTGGCCGACAGCTACGACGCCGTCATTATCGGGTCCGGTGGTACCGGCCTGTCCGCAGCTATCCAGGCCCATGAACTGGGCTTGAAAGTGGCCGTCTTTGAAAAGGAAGCAGAGCTGGGTGGGAACACCAACCGGGCTTCCTCCGGGATGAACGCCGCCGAGACCAACGTCCAACTCCAGCACGGGGTCATTGACAACGTGGCCGATTTCTATCACGAAACCTACAAGGACGGTGGCCGCCTGAACGATAAGGACATGCTGGGCTACTTTGTCTACCACACAGCACCGGCAATTGACTGGTTGGCCGACCACGGCATCAAGTTGGACGACATCACGGTAACCGGGGGAATGTCCAAGAAGCGGACTCACCGCCCGGCCAGCATGGCGCCAATTGGTGGCTTTTTGGTCAAGAGTCTATTAGACGTTGTTGCCAAGGAAGATATTCCAGTCTTCAACAAGACCAAGGTGACTAGCCTGGTTCGCGATGATGAGGGGCGTATCGATGGGGTCAAGGTTAATGCCAACGGCCTGATCAAGACAATCGGTGCTAAGGCGGTTATCCTGGCCACCGGTGGTTTCGGCGCCTCCAAGGAATACATCGAACGGTTCCGGCCTGACCTCAAGGACTATAAGACTACTAACCAACCGGGTGCTACCGGTGACGGCCTTAAGCTGGCGGAAAACGTCGGTGCCGAGCTGATGCAGATGAACCTGGTTCAGGTCCACCCAACGGTTCAACAGGACCACCCGCACGTCTACCTGATCGGTGAGGCGGTCCGTGGTGAAGGTGCCATCCTGGTCAACGCCCAGGGGAAGCAGTTTGTCAACGAGCTCAACACCCGAAAGATCGTTTCCAACAGCATTACGGCCTTACCGGAACACAGTGCCTACCTGATCTTTGACCAGGGCATCCGTGACCGGGCCAAGGCCATCGAGTTCTACGACAAGACTGGGTTAGTGGTTCACGGTGACACCATCGAGGATCTCGCCAAGAAGTTGAAGATGGATCCCGATACGCTGACCCAGACGGTTGCCACCTGGAACAAGGCTGTCGAAGGTCACAACGATGCCGAATTTGGCCGGACCACCGGAATGGACCGGGGGATCACCAAGCCAGGCTTCTTCGCCATCCACATTGCCCCAGCCATTCACTACACGATGGGTGGGATCCACATCACGCCGAAGACCCAGGTGCTCGACGGTAACGGTGACGTGATCAAGGGCCTGTTCGCGGCCGGCGAGGTTGCCGGTGGACTCCATGGTAACAACCGGGTCGGCGGTAACTCCATCGCCGAAACGGTGGTCTTTGGACGTCAGGCCGGACAACAGGTCACCCTGTACGTTCGTAAGCAAAAGTAA
>SRR1151252_01070 integrase
ATGACCTACAAACATCTTACCACACGTGAATTAACTCTCATAGCTGAATTTTATCGTCAAGACACTCGAGCTTATCGAGTTGCTAAATCACTAAAGCGTAGTGCTGAAACAATTTATCGAGTTTATCGTTACTTGGATACGGGCAAGACAATTACGCAGTATTTAAAGCAGTACCAACGGAATAAGCGCCGTTATGGTCGTAAACCAATGACGTTACCTGATGATGAAGTAAGTTACATTACCAAGCAAGTTAGTCAAGGTTGGACGCCAGATACCATTATTGGTCGGTCAGAGAAGAAAATCAGTTGTAGTATGCGGACGCTTTATCGCATGTTTGCTCGTGGTCAATATGGCTTTGATGTTAAGCAGTTACCAATGAAAGGTAACCGTCACCCAAATGGCTACGTTGAACGGCGTGGGAAAGCTGGCCATCTTGGTCGCAGTATTTACCAACGTTACCGCGATTTTCCACATTACCAACATGAATTTGGTCATTTAGAAGCTGATACGGTTCAAGGGAAAGCTCACCATGGTGCTGTGATGACCCTAGTAGAACGGATTTCAAAAGTTGAGATTGTTTTGAATGTCCATCACAAAACGGCCGAGAGTGTGAACTATTATTTAGACCAATGGCTATCAAAACAGCCTCGTCATCTTTTTAAGTCCATCACCTTTGACAACGGTAAGGAATTCGCAGGCTGGCGTGAGATTGCCAATAAGCACGATATCCAGACATATTTTGCGGAAGTCGGTGCGCCTAATCAGCGAGGGTTAAACGAAAACACCAACGGTATTCTTCGGCGTGATGGTCTGAGTAAAAAGAAAGACTTCCGTAATCTCCCGGATGAATTAGTTACTCAGCTAATGTCATACCGGAACAATATTCCACGGAAGTCACTGCACTACCGCACACCCATTGAGGTATTCATGGAGAATATCACAGATGCACAGTTAGTTTCTTTCTAA
>SRR1151252_01071 2-oxoglutarate translocator
ATGAAAAAACTAGAACACGTTAACTACCGTGGCTTCATCTTGCCAGTCGTCGTGGGATTGATCCTCTGGCTGATGACGCCAATCAAACCGGCCGCGGTGCCGGTTGCCGGCTGGCATATGTTTGCCCTGTTCGTGGGGACGATCATTGCCTGCATCACCCGACCGCTGCCAATCGGTGGGGTTTCTATCGTCGCTTTTGCCCTGACCGTTCTAACCAAGACGGTGCCAATGGACAAGGCAATTGTTGGCTTCGGGAATGCCTCCATCTGGATGATTGCGATGGCCTTCTTCATCGCCCGGGGGTTCATTAAGACCGGCCTTGGTCGTCGGATTGCCCTCAACTTTGTGAAGGCCTTCGGTAAAAGGACGCTGGGTTTGGCCTACTCCCTGATCGGGGTCGACCTGATCCTGGCCCCGGCCACGCCAAGTAACACGGCCCGTGCCGGTGGGGTCCTGTACCCAATCATCAAGTCACTGTCCCAGTCCTTTGGTTCTGATCCGAAGAACGGGACCCAGCGCAAGATTGGTTCTTTCCTAATCTTTGCCGAATACCATGGTGACATGATCACTGCGGCCATGTTCATGACCGCGATGGCCGCCAACCCGCTGGTTCAAACGCTGGCCACGGGGAGCGGTGTTAACATCACCTGGGGGGGCTGGTTCCTGGCCGCCCTGGTTCCGGGGATCATCTCATTAATTGTCGTTCCATGGCTGATCTACAAGATGTACCCGCCGGAGGTTAAGGAAACGCCGAATGCCAAGCAGTGGGCGGAAGAACAGCTTTCTGAGATGGGCCCAATGAGCGTGGCCGAAAAGATCATGGCCGTCATCTTCGTCCTGGCCCTGGTTCTCTGGATGACCGGGAGCTTCATCGGCATCGACGCCACCCTGGCCGCCTTCATCGCCCTGGCACTGTTACTGTTGACCGGGGTGCTGAGCTGGCAGGACGTTCTCCACGAGACCGGTGCCTGGAACACCCTGACCTGGTTCTCCGTCCTGGTCATGATGGCCGGCTCCCTGACCAGTCTGGGCTTCATCCCATGGTTGAGTAAGGCGATCAGCAGTTCCCTGCACGGGATGAACTGGGTTCTCGTCCTGATCGTCCTGATCGTCTTCTACTTCTACAGTCACTACCTGTTCGCCAGTTCAACGGCCCACGTTACGGCGATGTACAGTGCCCTGTTAGCTGTTGCTATCTCCGCAAGCGTGCCACCAATGCTGGCGGCCCTCTTACTTGGGTTCTTCGGTAACCTGATGGCTTCCACGACCCACTACGCCTCTGGCCCGGCACCAGTTCTCTTCGGTTCTGGTTACGTGCCACAGTCCAAGTGGTGGTCACTGAACTTTGTCCTGGGGATCTTCTACCTGGTCGTTTGGATCGGGATCGGCAGTCTCTGGATGAAGCTGATCGGTATGTGGTAA
>SRR1151252_01072 malolactic regulator
ATGAACACGCGTGATCTACAGTATTTTGTCGCCCTGGTCAAGTACAAGAACTATACCCAGGTGGCTAAGCAATTCCAGGTGTCTCAGCCCACGATCACCCAGGCGATCCAGCGGCTTGAACGCGAATTTGGCGCGCCCCTGGTTCGCAAAGACCGGGTTCACCGTGACGAGATGATCACGCGCAGCGGGCGGTTGCTCTACGCTAATGCCCAGCTGATTAACGAGAAGATCGAGCTGACCCACAAGGAGATCCGTCGGGCCAACCAGAAGCAGATCCGCTTTGGGATGCCGCCAATAATCGGTAAACTCTACATCTCCAAGATTGTCAGCGAGTTCTCAAAGGACCTCCTGTCGCGGCTCAAGATCACCTCGGTCGGCTCCCACGAGCTGCTGAACCAGGTCCGCAACGGCAAGATTGACATCGCCCTGCTAGGGTCGACCGCCCCGATCAACGAGCCGGGAGTGTTTGCTGATCTGATTGCGACCCGGCGCTTTGGGGTGATCGTCAGCACCGCTAACCCGCTCGCCCAGCGTGACCAGGTTAGTTTCAAGGAGCTAGCAAATGAGCGCTTCATCAGCTTCGACCAGCAGTACGTTCACCAGGCTGCCTTCCGGGCCTACTGTACCTATGCCCAAATTAACCCGACCGTGGCGATGTACCGGATTCCTAACATTTCCTGGATCAAGGAACTGGTACGCCAAGACATCGGGATCAGCCTGATGGTCAAGGATGCCGTAGCCAATGAGCCGGGGATCAAGCTTGTTGAGATCACTGACCCCCTTCCGGAGCGCTTCTATATCTCGGTGGCCATTCGGGAGGGCTACGTGTTAAGCGCTGATGAGCAGGACTTCCTCGACCGCCTTCGCAAGCTCCCCATTAAAAACTAG
>SRR1151252_01073 membrane protein
ATGAGCAAAGATGATGAACTCATGTCGGCGTTCGAGCCGGCGCGGCACCTATCCGCAAAACACCACATGGCGATTCCGTGGCAGGACTTCTTCACCAATGATAACTTCACACCGACCAGCGAGGCCAACCTGGTCGAACGGGCGGCCATTGTCGGCCGGATCGGCCTGATGATGCTTTCCTATGGGACCGGGGCTTGGCGGGTGCGGGACTCGATGAATATCGTGGCCCGGAAGCTCAAGATGACCTGCACGGTCGACATCGGTTTGGTGTCCCTCGAGTACACCTGTATGGATGCTCACCATAGCTATACCCAGGCGGTCTCGCTGCCCAGCACCGGGGTCAATACGACCAAGCTCTCCAAGATGGAGCGCTTCATCGACGACTTCAACGATCACGGTGACGAGATGACGATCGGGGAGATCCATGCTCACCTGGAAAAGATCGACCATTCCAAGGGAAACTATGCTCCTTACCAGGTGGGACTGGCGGCTGCCCTGGCCTGCAGCGCCTTCGTTTTCCTGCTTGGCGGGGGACCAATCGAGATGGTCTGCAGCTTTATTGGGGCCGGGTTGGGTAATTTTGTCCGCCGTAAGTTGATCGACCGCCATATCACTCTCTTTGCCTGCATTGCCGTGGCGGTGGCAGTGGCCTGTCTGACCTACCTGTTGTCGTTGAGCCTGCTCCAGCTCTGTCTTCACGTCAGTTCACGGCACGAGGCCGGCTACATCGGGGCGATGCTCTTCATCATCCCGGGATTCCCGTTTATCACTAGTGGCTTGGATATCTCCAAGCTTGATATGCGGTCGGGACTGGAACGGATGGCCTACGCGATCGCCATTATCATGGTGGCGACCCTGGTGGGCTGGATCGTGGCCTTGGCGGTGAACCTGCGGCCGGAGAACTTTGCCGCCCTGCCGCTGTCGGACATGGCGATGCTGCTGCTGCGGATTCCGGCCAGCTTCTGCGGGGTTTTCGGTTTCTCAATCATGTTCAATAGTACCCCGCGGATGGCGGCAATTGCCGGTCTGATTGGGGCGGTGGCCAACACCACCCGGCTGGAGCTGGTCGACCTGACGATGATTCCAGCGGGGGCTGCGGCCTTTATCGGGGCCCTGGTGGCCGGGCTCTTGGCAGCGATTGCCAAGCGCAAGGTCCGTTTCCCCCAGATCTCGATCACGGTGCCGTCGATCGTCATCATGGTGCCGGGCCTCTACCTCTACCGGGGGATGTATAACCTCGGCCTGACCTCGATCAGTGTCGGTGCTCTCTGGATTACCAAGGCACTGCTGATCGTTGTCTTCTTACCGCTCGGGCTGATTGCGGCCCGGATCCTGACCGATACCAAGTGGCGTCATAACGGCTGA
>SRR1151252_01074 uracil-DNA glycosylase
ATGATTATTAAGTATCCCACTGACCTCCTAGCCCAGGTCAAGGCGGCCACCGCAGGCCGGCGCCTGACCGGGTTTACCCCGGGGCAGGGTCCCCGTCACCCGGAATTGATGCTGATCGGGGAGGCCCCTGGCCGCCACGAGGAGCAGGTCAACATCCCTTTTTCCGGGGCGTCGGGGCAGGAACTGATGAAGCTGGTTGAGTCGATTGGCTACTCCCAGCAGACGGTCTACATCGCCAGTGTTGTTCGCCAACGCCCGTACTCAATTAAGCAGGTCCGGGATAAGAAAACCGGCGAGTTGGTGGAGAAGCGGCCAAATCGGACCCCGACTAAGAGTGAGGTTCGGGCCTTCGCACCGCTCTTTGACTGGGAACTGGGCTATGTTGATCCCCAGGTGCTGGTCCCCTTGGGCAACACCGCTCTCCAACGCCTCCTCGGCCCCCAGGCTAATATCGGTCGGCTCCATGACCACCTACTGACAGTTCCCGTTCAGGAGGCCGATCCAGCTGGCAATGGCTACCGATTGAGCCAGCGCCAGTATCAAATTTTCCCGATGTACCACCCGGCAGCGGTCCTGTATGCCCGGCGTCTTCAGCCCACGGTGGAAGCCGATTGGCAGCGTCTCGGTCGCTTCATACAGAAAATGCATGAGCAGAAAAACAAATAA
>SRR1151252_01075 major facilitator superfamily transporter
GTGCTAGAAAATCAACGTCGGACAATTGTTACCGGGGCTCTGCTGCTTTCCAACATCATGGCCGGGATGGATGGGACAATTGTCAACACTGCCCTGCCAGCGATCACCAGTGACCTCCACGCCCTGCAGTACATGGGCTGGATCGTGGCCACCTTCCTGCTGGGGATGGCGGTGGCCACGCCCCTGTGGAGCAAGTTCGGTGAGCACAAGGGGAACAAGGTTGCCTACATTAGCGCCACGATGATGTTCATGGTCGGGGCTATTTTCCAGGGGCTGGCGCCTAACATTCTCTGGTTCATCATCGCGCGGACGGTGATGGGAATTGGTGCTGGGGGAATGAACACGATCCCCTTCATCGTCTTCGCCGAGATCTACCAGAACCTGCGGAAACGGGCCGAGGTGCTGGGGATCTCCAGTGCCTGCTTCGGGACGGCCTCGATCATTGGTCCCCTGCTCGGGGGCTGGCTGGTCGATACTTGGAGCTGGCACTGGGTCTTCTACGTCAACGTCCCCATCGCGATTGTGGCGATCACCATCATTTCGATCTTCTACCGGAACTCGGGACAACAGGCAGCTGGTAAGCCGGTTGACTACCTCGGCGCAACCCTGCTGGTGACTAGCCTGACCATGATCCTGGTGGCTGTCCAGTTAATCGGCTCGGTTGCCTGGTGGGTGGTCGTGTTCCTTTTCCTGATTGGCGTGGGCCTGCTCTACTGGATGGCCCAGGTCGACAACAAGGCGGCTGATCCGATCGTACCGAGTCGGCTCTTCAAGAACCGCGAGCTGGTGATCGACTTTTCCCTATTTGTGATTATCTGGGGATCCTTCATTGCCTTCATAACCTACATTCCAATGTGGGCCCAGGGCTTGCTGGGGCTAAGTGCCCTCCTCGGGGGAATGACCCAGATTCCGGGGGCGGTCACCAACTTTATCGGCTCCGAGCTGGTGCCGTTTCTCCAGGACCGCTGGGGGAAGTATTGGATTGTCACCTGTGGGGCCGCCTCGATTTTTATCGCCTTCCTTGGCATCTGGATTGCCGGTGAGGACGCCCCGTTCTGGCTCCTGCTGACGATGGGGGCCTTCGAGGGGATGGGGGTTGGCCTGGTCTTCAACATCCTGCAAATCAGTGTCCAGACCGACGCCGAACTGCGGGACGTCCCGATCGCCACCTCGATGGGCTACCTCCTGCGAATCCTCAGTCAGACCCTAATGGCGGCGGCCTATGGAGTGATCCTCAATAACCAGCTGTTCAAGGGGGTCCAACATTCCCACGGCATCACGCTGACCATGCTGAATAAGCTGTCGAACGCCGAGACGGCCGGGTCACTGCCCAAGGCATTAGTGCCGACGATGCGTGATATCCTCTACAATGGTTACCGGGATATCGTGATTGCGGCGCTTATCCTAATCGTTATCTCACTGTTGATCGTGGTACCGCTGGGCTGGAAGCACCACCTGGCGGTCCAGAAACAAGGCTAA
>SRR1151252_01076 recombinase RarA
ATGCATCAAGAATCACTGTTTGCTCAGGACAACGCCAATAACACCCCCCTGGCCAACCGGATCCGGCCGACGACGATTGATGAGTTCGTTGGCCAGCGCCACCTGCTCGGACCGGGGAAGGTCCTCCGCGACATCATCGAAAACGACCAGATCTCGTCCATGATCTTCTGGGGGCCGCCCGGCATCGGGAAAACCACCCTGGCAGAGATCATCGCCCACCAGACCAAGGCCCACTTCATCACTTTCAGCGCGGTAACCTCCAGTATTCGTGATATCCGTAAGATTATGGAGGAGGCCGAGCAAAACCGGGAGTATGGGGAACGGACCATCTGCTTCATCGATGAAATCCACCGCTTCAACAAGGCCCAGCAGGATGCCTTCCTTCCCTTCGTCGAACGCGGCAGTATCACCCTGATCGGGGCGACTACCGAGAACCCCTCCTTTGAGATCAACGCGGCCCTGCTCAGCCGCTGCCGGGTCTTTGTCCTCAAGTCCCTGACCACAGAGGATCTCGAGCAGGTTTTGCGCCGGGCTCTCAAACACCCCGCCGCTTTCCCGGGATTGACCATTCACTGTGCCGACGACGAACTCCACACCATCGCCCAGTTCGCCAACGGGGACGCCCGAATCGCCCTCAACACCCTGGAGATGGCGGTCTTGAACGGCCAACGAACCGGCAAGAAGGTCACCATCACCGATGACGACCTCGATCAGCTGGTCAACACCAAGTCCCTGCGCTACGACAAGCACGGCGAGGAACACTACAACATCATCTCGGCCCTCCACAAGTCGATGCGCAACAGCGACGTCGATGCGGCGGTCTACTGGTGCTCACGGATGATCGACGGTGGCGAGGATCCGCTCTACATTGCCCGCCGCCTGGTCCGCTTTGCCAGCGAGGATATCGGCCTGGCCGATACCAATGCCCTCCGCGTGGCGATCAACACCTTCCAGGCCTGTCAGTTCCTGGGAATGCCGGAGTGTGATGTCCACCTGACCGAGTGTGTGATCTACTTGGCGATCGCTCCCAAGTCCAACGCTGCCTACCAGGCCCGCCAGGAGGCTCACGCAGCGATCAAGAAGACCGGCAACCTCCCAGTCCCTCTTCAGATCCGCAATGCACCGACCAAGCTGATGAAGGACCTCCATTATGGTCAGGGCTACCAGTACGCCCATGACAGCAAGGATAAGTTGACCACCATGACCACGATGCCGCCGGAGCTGGCCGGCAGTCGCTTCTACCACCCTGGCGACCAAGGCTTCGAGCCCCGCTTCAGGGCCCGGATGGCACAGATCGCCGAATGGCATCGCCACCATCCCAAAAATAAAAAATAA
>SRR1151252_01077 esterase/lipase
ATGGAAAGACTCAAACGGCTGCGGGGCGGACTTGCCGGCCGACTGGTGAACAATTTAAGCAACAGTTTTCGGGACCTGCACCGGTGTGGCGACCACCGCTCCAACAAGGCCACCTTCATCGAGATGGGAATCCAGCTTAGTGGCTTCAAGCATGCCCTTGCTGAACCCACTGCATATGACAAACTGATCCAGACGGCCCGACAGACCAACGCCCAGCGTTACGACCTGCCACAGGTGACCTTCAACGTCAAGCTCCGTCAACTAAAGCACTACCGGGTCCCGGTCTATGTCTTAAATGAGCGCGGGTTTAACCAGCAGGTGATTGTCTACCTGGCCGGTGGGGCCTATGTCCAGCCCGCAGACAAGACTCATTGGCAGTACTTGAACCGCCTGGCCCAGGCGACAGGGGCGCGGATCTATGTCCCAATTTACTCCCTGGCTCCTCAGCATAACTTTCGGGCGGCCTACCAGGAGGTTGCCCAGCTCTATGGCAACCTCTACCAGCAGGCGCCGGCCAGTGATATCACGGTGATGGGGGACTCCGCCGGGGCGGGATTGGCACTGGGATTCAGTGAGTACCTGGGCCAGCGGGGCCTGCCCCAGCCGGGCCACCTGATTTTGATTTCCCCATGGCTGGACCTGGACCTGACCAACCCAGTCATCGCCCGTTACGAACAGGATGACGTCACCCTGGCCCGCTATGGGCTACGGCGGATCGCGGACCTCTGGGCGGGGGATACCAGTCACCGTGACTACCGGCTGAGCCCAATAAACGGTGACCTGGACCAGCTCCGCGATGTCCATGTCTATGCCGGCACCAGGGAGATCATGTACCCGGATGCCGCTCGGCTGGTGGAGAAAATCAAGGAGAGCCGGATTCCGGTGGACTTCACGGTTGGGCGGGGGATGTTTCATATTTACCCACTCTACCCGGTTCCCGAGGCTGATGCCGTGATGAAACAAGTTGTTAAGATTGTGAATAGTTAG
>SRR1151252_01078 4-methyl-5(B-hydroxyethyl)-thiazole monophosphate biosynthesis protein
TTGACAAAGGTAGCGGTAGTATTTGCACCTGGTTGTGAGGAAGTTGAGGGATTGTCGATCGTCGACGTACTGCGGCGGATGGGAATCGAAACGACCATGGTTGGCCTGGAGGGGATCAAGGTTCCTGGGGCCCACGGGATCGAATTGACCTGTGACCATGTCCTTGATGATCACTTGCTGGACTATGACCTGGTTGCCTTCCCAGGTGGCCGGGGCGGGGCCGAGAAGCTCCGTGACAACGAGCGGTTGGCGGACCTGATGCGCCAGCGGAACCAACATGGGAAGTGGAACGCCGCCATGTGCGCGGCCCCGATCACTTTGGCCAAGTATGGTCTACTGGACGGGCGCGACTACACCTGCTTCCCAGGGATCAACGAAGAGGTTGACCGCCTGGCCAAGAATGCCCGCTTCAAGGAGACGATTACCGTGGTCGACGAAGCCGGCAAGGTGGTCACCAGCCGCGGTCCGGCTACGGCCCTGGCCTTTGCCTACCAGATTGCTGAGGTCCTCGGCTACGACACCAAACAGATCAAACACGAGATGCTCTATGATTATCTGATGGAGCAACGATAA
>SRR1151252_01079 2-hydroxyacid dehydrogenase
ATGGCTACTGTATATCTTTCCGCAAAATTACCAACGATCACGACCAAGCTGCTCGATGCAGCGGGGATCGATTACGAGGTTTACGATGGTGAGGGGCTGATCACCAAGGACGAACTCCTCAAACACGTCGGCGACTGCCAGGTCCTAATCACCCCACTGTCGACCCAGGTCGATGCCGCGGTCATTGACGCCGCCCCAGAGCTCAAGCTGATCGCCAACTTTGGCGCCGGCTTCAACAACATTGACGTTAAGTACGCCCGGAGTAAGAATATCGACGTCACCAACACCCCATTCGTCTCATCCACGGCGACCGCCGAAGTCGCCTGTGGACTGATGATTGCCCTGATGCGGCGAATCGTTGAGGGTGACCACCGGATGCGGTCGATCGGTTTCGACGGCTGGGCCCCGCTCTTCTTCCTCGGCCACGAGCTGGCCGGTAAGACCCTCGGGATCGTCGGCCTCGGTAGCATTGGGAGCGCAGTTGCCAAGCGGATGCACGCCTTCAACATGAAGATCATCTACACCCAACGGCACCAGGCAGATCCGGCAGTTGAGGCCGCCTGTGCCGCCGAGTACGTACCACTAGATGACCTGCTCAAACGGGCTGATGTGATAACCCTTCACTGTCCGCTGACCGAAGCGACCCACCACATGATCGACGTAGACCAGCTGAAGATGATGAAGAAGTCAGCCATCCTGATCAACTGTGCCCGGGGTCCAGTTATTAACGAGGAAGCCGTCCTGAAGGCCCTCATCAACAAGGAGATTGCCGGGGCAGCCCTCGACGTCTACGAGAAAGAACCCCAGGTTGATGATGAATTCAAGGACCTCGACAACTTTATCCTGACGCCGCACATCGGCAACGCCTCCGTGGAAGCCCGGGACGCCATGGGTAAGATTGTCGCCACCAACGCCATTGCGGCCCTCAAGGGTGACCTGGTCAAGTACATCGTTAACAAGTAA
>SRR1151252_01080 lysyl-tRNA synthetase
ATGAAATCACTAGGTATGCGTTTCGAATCCTGGTGGGAAAATTATTCACGGATTATCAAGCTGCTATTCGTAACCTCGGTCCTCGTGTTCGTGGTTCACGCACTCGGCAGCTTTTTCAAGACCGTCGACTGGCATAAGGTGGGGATCGGTCTGACCGACCTGACCTGGGAGCAGTTTCTGCTCTTGATGGTTGCTGGCTGTATTGCCGTTATCCCGATGCTCGGTTACGACTTCGCGGTAACCCGATTATTACCCGGGAAATTTAAGTGTTCCTATGTTATCCGCTGCGGGTGGATCACTAACACCCTGACCAACATTGCAGGCTTCGGCGGCCTGCTGGGATCGTCTTTGCGGGCCTACTTCTATCGGAAGAACGCCAGCAAAAAAGAGATACTGCTGGCCATTTCAAAGATCGCAATCTTTCTCTTGTCCGGACTGTCGGTTCTCTGCTGGGTGGCCCTGATCATCATGTTTGGCTTCCACGATGGCGGTCACTTCAACCAGTATGCCATCTGGCTAATCGGCGGCGGGCTCTACTTTCCGATTGTCTTCTTCGTCACCCAGGTTTACAACAGTAACGTCTTCAAGGACATCACGCCAAAATTAGAGGCCTTTATCGTCACCAGTTCGACCTTTGAATGGCTCTTCGTGGCCCTCTTCTTCCTGCTAGTCGGCTGGTGTCTCGGGGTTCGTGATAACCTGATCAGCGTCCTTCCCCTTTACGTCGTCGCCCAGGTTCTTGGGGTAATCTCCATGATCCCCGGAGCGCTGGGGTCCTTCGACGTTATGATGATCCTTGAGCTCTCCCTGCTTGGGGTACCCCAGACGACCATCATCATCTGGCTGTTGCTCTTCCGGATCTTCTACTACATCGTGCCGCTGATCCTAGCAGCTGTTATGTTCCTCCACAACCTGGCCCAACAGGTCAACGAGTTCTTCGATGGTCTCCCACTGATGATGCTGCATAAGACGGCCTACTTTCTAATCACTGCCTTCATGTACATCTCTGGAATCCTGATGCTGTTAACCGCCTCGGTACCGGATCTGACTAGTCAAAATAAGATTATCCAACGGCTCTACCCCTACACCTTCTTCTTCTTGCACCAGATGACCACGATTCTCTTCGCGGTTGCCATGCTAGCCTGTGCCCGTGGGCTGCAGGCTAAGGTCAAGAAGGCGTACTGGCCCACCCTGGTCCTCCTGCTGATCGGAATTGGCAACACCATCTGGAACTTAGGGACGCTTAGCCTAACCATCTACCTGGTCATCGTCCTCCTCCTCGTGCTGATGTCACGGCACGTCCTCTACCGGGAGAAGCTCCAGTACTCCGTCAGCAAGTTCTTGATCGACGGAACCATCTTCGCTGGCAGTTTCATCCTCTACGTAATCATTGGGGTGATTAATACACCGCAGTACATCAGCAAACACCATATTCCCGACTTTCTCTTCTTCCCCGGTGAAAGCGTCTGGCTATCCGGCCTGATAGGGTTGTTTCTTGGCCTGATTCTGATGTTCTTGATCCTGCGCTACTTCACTGCTGGCTGGGACCCATTTACTGCGGTTCACAGCTTCAACGCTGACCGGGTACGGGGCGTGATCAACGAATTTGGCGGTTCCTCTACCAGCCACCTGGCCTTCTTGCGGGACAAGGCAATTTACTACTACCAGGAGGGCGACCACGACCAACTCTTCTTCATGTATCGTAAGAAGAACGACCGGCTCGTGGTCATGGGTGACCCGGTCGGTAACAAGACCGTCTGGCGGTCAGCCTTCCGCCAGTTCATCCGGGCGGCGGACAAATACGACTACCAGCTGGTCTTCTACGAGGTCTCCAGTGAAGTCACCCTTCTCTTACACGAGTTCGGTTTCGACTTCATCAAGACCGGGGAAACCGGCCTGGTCAAGCTCGCCGACTTCACCCTGGCCGGTAAGAAGCAGCGGTCACAACGGGCCCTGATGCACAAGTTCGACCGAGAAGGGTACACCTTCACCGTCGAGCAACCGCCGTTTAGTGATGACCAGCTGGCCGAATTAAAGCGCGTCTCAGACAGCTGGCTGGGTAACCAGGTCGAAAAGGGCTTCTCACTGGGCTTCTTTGACCCCTACTACATCAACCAGGCCCCGGTCGGTGTCATTCGTGACAAGAACGGCAAAACGGTCGCCTTCGCCACCTTCATGCCAACCGGCGGCAAGGAGATCTTGACCATCGACCTGATGCGGCACAGCAAGGATGCCCCGTCCGGGATAATGGACAAGATCTTCATCAGTATGTACCAGTATGGCCAGGAGAATGGTTATACCTACTTCGACCTCGGGATGGCCCCCCTTTCCAACGTCGGTGAATACCAGTTCAGCTTCATCGAGGAGAAGGCAGCCCACTTCATCTACGAGTATGGCTACCACCTCTATGGCTTCCAGGGCCTGCGCCGCTACAAGGATAAGTACGCCTCGGTCTGGTACCCCCGTTACATCGCTTATCGGAAGAAGAACTCCCTGATTGCCACCATGCTGATCCTGGTCAGCGTTGTCAACCAGCGGGTCGATGCTCAGAATCACCACCTCTTCTTCTGGTTGAACAAAAATTAG
>SRR1151252_01082 ribosomal large subunit pseudouridine synthase D
ATGGAAGCAAGTTGGCAGTATACTGGTGCGGAACCGGTCAAGATCAAGAAGTTCCTGCAGTCATTGGGGATGGGACACCGTCTCTTCAACGACATCAAAAAAGGGGAGGGGGAGTTTTTGGTTGACCACCGTCCGGTCCGGCCGACTACCAAGATCCTGCCCAACCAGCCCTTGACGATTAGGGTTAAGCCCGAGCCGGTTGATCCGACGGTGGCGGTTAGCCATGATCCTCTGCAGGTTGTCTATGAAGACGATAACTGGCTGGTCATCGACAAATCGGCCGGGGTGACCTCGATTCCCGGTCCCGGTGTGGCCAACGGGACGATCCTGAACCGGGTCACCGGTTACCTGATTGACCAGCAATCCCCAGACCAGCGGCCCCACCTGATTACCCGGCTCGACCGTGACACGGGCGGCCTCCTGCTGGTAGCCAAGCACCACGTGGCCTCAAGTATGATCAGTCAGCAGGTCCAGCAGCACCAGATGGTGAAAGAGTACACGGCCCTGGTTAGCGGTCACTTTACCGCTGATCACGGAACAATTGACCAACCGATCGCCCGGGTGGCCGGCCAGGTTCGCCGAGTGGTGGCTGACGATGGCCAACAAGCTTTGACCGAGTATTGGGTTGAGGACCAGGGCGACGATTGGGCCCGCGTTCGCGTTCGCCTCCACACCGGTCGGACTCACCAGATCCGGGTCCACTTTGCCGCCATCGGTCACCCCTTGCTCGGCGATGCCCTCTACGGTGGTGACACTAGCCGGGTCGACCACCAGCTGCTCCACGCCAGCCACCTGGCCTTCCTGGACCCCTTCAGCCGGCGTCAGCTCAGCTTCACATCGCCGTTACCGGCAGTCTTTAATGAAATCATGGCATAA
>SRR1151252_01083 hypothetical protein
ATGGTTATTGTCTTAACCTTTCTCGGGGCTGTTTGTTTCTTCCTCAGCATCATGTTTACCCGGAGCCGGGCCTCACGGATCGTGTTGGCCACCATCACCGGACTGGTCTTTGTTGGTTCAACGGCCCTGATGACCCTGAACTACAGCCAGCACTTCGGTATGCACCAGGTCACCACGACCACCAGCCGCCAGATCTACCCGGTCAACGCCAAGATGCCGCTGGCCCTTTATCAACCGGTCGGTACCAGCGGCAAAGATGATGTCTACATCTACAAGACTAAGCCGTCGCAGACGAAACCGACCCACACCCAGGCTAACGAATACACCCACAGTCAGGTCAAGTGGAAGAAATCTGGTGATCCCCGACTCGTGACCACCACAACCCGTTGGCGCTTCAAGAATGACTTCTACAAGGTCCTCTACGCCTGGTCCGGGATGGACGGTACCCTGGTCAAGCGGACCAACACCCTGGAGTATCCACGGACCTACGTCCTACTGACCACCAAGCAGGCTAAGCAACTCCAGGCCAAGGCCAAGTCGCCGGCCGGTCAACAGGCCATGGCTACGACTCGCCAGCAGGGACAGGCCTACGTTACCAGTCGGGTTCAGGCTGCCATGACCAAGAATCCCCACATGACGGCTGCCCAGATTCGGGCCGTCGCCAAGCAGGCCGAGCAGGAGTTCCAGGCCAAGAAGGTTCAGGCCCTGCTAAAATAG
>SRR1151252_01084 major facilitator superfamily transporter
GTGAATCATAATCCACAAGCGGTTGATATCACCGGCAAACCTTATAATCGTAGCCTGATGGTCCTGGTCCTTTTGATCGGGGCTTTTTGTACGATTTTAAACCAGACGATCCTATCGACCGCTTTTCCGGCATTAATGAATGCCTTTAACATCAGCACCTCCACCGTTCAGTGGCTGACCACTGGCTTTTTGATGGTCAACGGGATCATGATCCCGGTCAGTGCCTACCTGAGCAGCCGTTTCAACACACAGTTGCTGTTTATCCTGGCAATGTCAACTTTCGAGGTAGGCACTATCATGTCCTGGTTGGCACCATCCTTTGGCGTCCTACTCGCCGGGCGACTTATCCAGGCGGTCGGCGTTGGGGTCAACATGCCGCTGATGCAAAACATCATGCTGACTATCTACCCACCAGAAAAACGGGGCGCCGCCATGGGGATCAACGGCCTCGTCATCGGGCTGGCCCCGGCGATCGGTCCAACCCTGTCTGGATGGGTCATCGATAACTTCAGTTGGCGTTGGCTCTTCGGGATGATCGTCCCGATTGCCGCCCTAGTCATCCTGGCCAGCTTCTTTCTCGTCAAGAACGTTATCCCGAACCGGCGGCCCCACCTCGACTGGCTATCTGTCATTATCTCGACACTTGGCTTCGGGAGTATGCTCTACGGCTTCTCCAGTGTCGGTGACAAGGGCTGGACCAATCCGGTCGTCGTCTCAACGATCATTATCGGGGCCATCCTGGTTGCCATCCTCGTTTGGCGTCAGGGTAAACTCGACGAACCGTTTCTGGAATTCAAGGTCTTTGAGAGTGGTGAGTTTACCCTTGCCACGGCGCTCAGCTCCATCGTCATGATGGCGATGGTCGGGGTCGAATTGGTCATTCCGCTCTACCTGCAGATTATCCACGGAATGTCAGCCTTTCATTCTGGGCTGACCCTCCTCTTCGGGGCAATCTTCATGGGTCTGATGAGCCCAATCACCGGGAACCTCTTTGACCGTTACGGTGCCAAGCGGCTAGCCGTCACCGGGATGTTTATCCTCTTCGTCGGCACCCTGCCCTTTGCCTTCATTACCCGGGACACCCCAACTATCGATATCGTCTTCCTCTATGCGGTCCGGATGTTTGGGATCTCGATGGTCATGATGCCAGTGACGACCGCTGGGATGAACTCCCTGCCCTACCAGCTGATCTCCCACGGTACCGCGGTCAATAACACGATTCGCCAGATGGCCACCTCCGTCGGGACCGCGATCATGATTTCCGTTTTGACCAACATCACCAACGGTCACAAGCCGGGCCACGCCCTACTGGCCCAGTCCCCACTCCAGTACAAGGCCAAGATGTTTGACGCCACCCTGATGGACTACCACGCCGCCTTCTGGTTTACCATCGCCTTTGCCTTCCTGGGGCTGATCCTAACCTTCTTCGTCACGTCGGGTAACGGAATTCACCAGCGAATCGACAGCGAAGATATCCTCAACGACAAGGGAGGTGCTAACTAA
>SRR1151252_01085 MerR family transcriptional regulator
ATGGACGCACTGGGAAAGCAATTCCGTGAAATTTTTAAAAGCAACGACATTAAGATCGGCATGACTGAACTGGCCAAGGTGACGGGGGTGTCGCCGAGTCAGCTGCGCTATTGGGAGCGCAAGGGCTTCATTCACTCCCAGCAGGGCCAGCAGAATAAGAACCACCACTTCAGCCTGATGACGGCCTACCAGGTTCGGACAATTAAGTTCTACCTTGACCAGGGCTACACCCTGCAGGTTGCCGTCCAAAAGGAACACGAGCGCCGGACCCTGGGGAAGGTTTTTCGGCACTTCATCACCGACCGGATTCAATCGATTGACCAGGACGACAACGGCGATGGCCTGGTTATGTTGGGAAAGCTCGACGACGATCCGACCAAGGAGGTCTACGCCCGGGTTGACCAGGATGGGAAGACGACCCTTCACCTACGGCCGGTTCAGGACGATTAG
>SRR1151252_01086 hypothetical protein
GTGAGTGAAGAAAGACTACATTATTCTGACCTGAGTGCGCCGGCCCAGGAGCATGCCTTAAAGTCATTTATTAACTACTACGTTAAGCAGTATCGGCAGGGTAGCCTGGAGATACTGGGTGCCAAGGTTTCTAACGGGGTGATGGGGACGATCAACGAAATCCTCAACCTGAATAAATTCATGGGCCACAGTGAGTTGGTTGCCGAGAGTTATCGTCTCTCCAAGAGTGCCTATGTTGAGATCATGAAGCAACTCACCAACGTGCTTTACCAGCAGGACGGCGAACCGGTCGTGGACTGGGACGTTTCCTGGGAGAATCAGGAAGAACAACTACCGAGTGAGGACTAA
>SRR1151252_01087 ribonuclease J
ATGGCAAAGCTAAAAATTAAGAATAACGAAGTTGCCTTTTTCGCCATGGGTGGTCTTGGCGAAATCGGTAAGAACATGTACTGTGTCCAATTCCAAGACGAGATCGTGATCATTGACTGTGGGGTCCTCTTCCCAGAAGACGAGCTTCTCGGGGTTGATTACGTCATTCAGAACTACGATTACCTGGTCGAAAACAAGGATAAGATCAAGGGAATCTTCATTACCCACGGTCACGAAGACCATATCGGTGGGTTACCGTTTTTCCTCCAGAAGGTGAATGTACCAATCTACGCGACCCCGTTTGCCATGTCTTTGATCAAGGGGAAGCTGGACGAGAAGCACCTCCTGCGTAGCGCCGAACTACACGAGATTAATGAGTTTGACGAGGTCCACTTCAAGAAGCTCTGGGTCAGCTTCTTTAGGACGACGCACTCTATCCCCGATACGATCGGGGTAGCGGTTCATACACCGCAGGGAACGATTGTCCAGACCGGGGACTTCAAGTTTGATCTGACGCCGGTTGGTCACTTGCCGGGGCCAAACCTCCAGCAGATGGCCAAGCTAGGCGACGATGGGGTTCTCTTGCTGACCTCTGATAGTACTAACGCCGAGCGGCCGCAATTCACCAAGTCGGAACGGTGGGTTGACATTCACATTCGTCGGATCTTTGAGCGAATCAAGGGCCGAATCATCTTCGCCTCCTTCGCCTCTAACGTTTACCGGCTGCGTGAAGCCTCCGATGCTGCCATTGCTCAGGGCCGTAAGATTGCGGTCTTTGGGCGGAGTATGGAGAACGCGATTGCCGCGGGCCAGGAGCTCGGCTACTTAAACATCCCCAAGGAGTCGCTGATTGATCAAAACAAGATCAACAACTACCCACCGGAGAAGGTTCTGATCATGTGTACCGGGTCTCAGGGTGAACCGATGGCCGCATTGAGCCGGATTGCCAACGGCACCCACCGGCAGATCTCAATCCAGCCTGGTGATACGGTTGTCTTCTCCAGCAACCCTATCCCAGGGAACACAACCATCGTTAACGCCCTGATCAACAAGCTGGAAGAGGACGGTGCCGCGGTCGTTCACGGTTACGTCAACAACATCCACACCTCCGGGCATGGTGGTCAGATCGACGAAGAGTTCATGCTGCGACTGATGAAGCCGAAGTTCTTTGCCCCAGTTCACGGGGAATACCGGATGCAGAAGATCCACACCAAGCTGGCCCAGATGACTGGAGTGCCAAAGGAGAACTGTTTTATCCTTGAGAACGGTGACGTCCTGGCACTGACGAAGGACTCCTGTCGCCTGGCTGACCATATCGACAGCGTTTCAGACGTCTACATTGACGGTCGGGATGCCGGCGATACAGTTGGTAACCCTGAGATCCGGGAGCGTCGTTTGCTCTCTGAAGAAGGGGTCGTAACTGCTATTGCCGTGGTTAATCTTAAGGACTACCAGATCGTGGCCGGGCCGGACATCGTCTCCCGAGGCTTTGTTTACATGCACGAGTCCCAGGAGCTGATTAAGGCTGCCAACCACGAGGCCTTCTGGGCTATCCTGAACACCTTCAAGAATCATAAGGTGGTTGACCAGCGGGCCCTGAACCGGACGATTGTCAGCCGGTTGCAGAAGCTACTCTTTGACCGGACGGGCCGGAAGCCGGTGATCATCCCAATGATTACCATCCTGAACGGGGATAACCGGACCGAGAATCATCACTATCGTCATTCTAACCGGAAGAGTGGCCAACACGAGGGCAAGAAGGGCCACCAAGGTAACAACCACGGTGGACACCACCAACACCGGTCCCACAACAAGAAAAACGAAAAGACACCGGTTGCTAGCAAGTAA
>SRR1151252_01088 hypothetical protein
ATGTCTGGAAGTGATTACCTAAAAATTTGGTACCGAGTACAGATCGGTGCCATCCTACTGATTCTCGCCATGATGATGATCCGTAACTACGAGTTCAACCGTCACCGGATTGCGCTCCTGCTCCTGTGTACAGTTGCAATCCTGGCGGTTGCCCTGGTTGCGGAGCTCTGGGAACAGTTACCGTCGCCCATCAAGCGAGTCAATGCCTGGCTACAGGCCCTAACCCAGCCGCTGATCTTAATCCTTGCCTGGGATGTTATTACCCGGGAAATAATTGTTCTCCTGCACCTACCGTCCCGTGGCGTCGTTACCCTGATGATCGTGTACTACTTCATCATGTTTGCCCCATTTGCTAGCGTGATCGGGAGCCAGTTGACCTTCAGCATTGAACGCTTTATCTTCGCCTTCTGGACGGTGACGGTGGTATTCTTGCCCCTGATGGCCCTGCCGATCGACCTGATCGACAACCACTTCCTGCTGCTCGCCTTGTCAACGGGCGCGGTGGGGACGGTGGCCTACTTCATCCTGATGACAACGGCCATGCGGGCCTGGAAGTTATCCTGGCCGGGCCTGCGTCCGCACTGGAGCGGCGACTTTAACTGGTGGATTCTGCTGGGATTGGTCGTAATTGACCTCCTCTTCACCAGCCTGAACGTCGGTCAGTGGCCGAACCTCCACTTGATCAACTGGCACCTGACGGTGTCGGCATTCGAAGCGGGCGTGACGGAGGAGACCCTCTTCCGTTTCGCAGTTCTGGGAATCCTATTTTATGCCTGGCGAAACATCAAGCAACGCCTGCCACTGGCGATCGTCACCAGCGCTCTCCTGTTTGGTCTGGCTCACCTGTCTAACGCCATGCTCCAGCACTGGGACATGACGGTTCTTCAGGCGCTCAGTGCTTTTGCCCTGGGTCTCTTCTTTGCCGTGGTTTACGTCTACACCGGTCAGCTCTGGTTGGCAATTGTGATGCATGGCCTGCTGGACTGGACGAGCTTCATCGTCACCGGCTCTGACCTGATGAAGGGGGCCACGACTTGGGCTGACTGGCTTAGTGCGATCCTGGAGCTAGTCGTCTTCGCGGGGATTACCGCCTGGATGATGTTTGGTCAACGCCGTAAGGTCATGGAGCGCCATGTGGCCCGGTTAACTGGTGAACACCAGCACTTTGGCTTCATGGTGCGCTACTAA
>SRR1151252_01089 glutamine ABC transporter permease protein
ATGCAAAACTTTATTGATGCTTATTCCTGGATCAACGTCCGCTTCCTCCTGCAGGGGCTGTGGATTACCATTGTGATCTCCGTGGCCTCGATCGTGATCAGTTTTATCGTCGGCACCCTGTTGGGGATCATCCGGTACGCGAAGATCAAGTACTTCTCCGCAATTGTCGGCTTCATCATTGACATCATCCGGAACCTCCCCCTCCTGCTGATCATCTTCTTCACCTACTTCGGTTTGCCGAACATTGGGATCAAGCCGGAGATCATCCCGGCCGCCATCATGGCGATGTCAATCTTTGAATCCGCCATGGTTGCCGAGATCGTCCGCTCGGGGATTAATTCGATCGACAAGGGCCAAACGGAAGGGGCCCTGGCCAATGGGCTGACCCGCTGGCAGGCCCTGCGAATCATCGTCCTGCCCCAGGCAATCAAGAACATGACGCCAGCCCTGGTCAGTCAGTTCATCTCACTGGTCAAGGATACCTCACTGGCAACCATCATTGTCCTGCCGGAACTGATGTACCACGCCCAGATCATCTATGGTCAAAACACCAACTACATCATTCCGATGTTCGTTGCTCTGGCGGTCCTCTACTTCATCGTCTGCTACTCCCTGTCGCTGTTAGCTGACTACCTACACCGCCACCTCGCCTAA
>SRR1151252_01090 glutamine ABC transporter permease protein
ATGGCACATTTAATTGCAACACAATGGCAACCGCTGCTGATGGGCCTCTGGAACACCATCCTCTGTAGCATCATCGCCCTAATTGGCAGTATGATCATTGGAACGCTCTTTGCGCTCCTCGAAATCTCACAAACTCGCATCCTGCGGGTCATCGGTAAGGTCTACGTCGAGGTCTTCCGTAACATTCCCCTACTGGTCATCACAATGGCCTTCTTCCTGATTATTCCCATGTACATCGCCAAGATCAATGGTTTCACGGCCGGGACAATCGGCCTGACCCTCTATACCTCCGCCTTCATTGCGGAGACCGTTCGGGCCGGAATTAACTCCGTTGAGGGCGGCCAGCTAGAAGGAGCCCTCTCCAACGGGATGACCTACCACCAGGCGATGCGCTACATCATCCTCCCCCAGGCATTCCGGGTCGTTATTCCGCCGCTGGGCAATCAGTTTATCAACCTGGTCAAGAACTCATCTGTCTTGGCCTTTGTGGCCGGGTTCGACCTGATGTATCAGGGGAACCTGATCGCCAACGATACCCTACAGACAATTCCAACCTACTTCATTGTTGGGATCATGTACCTGATCATCACGCTGCCGCTCAGCTACTACATGCGGCACCTGGAAAAGAAACTGGCCTAG
>SRR1151252_01091 glutamine ABC transporter substrate-binding protein
ATGAAGAGATTATGGCACTTATTAGGGCTGGGCACCCTGCTGGCAGCAATGCTATTGACCCTGTCGGCCTGTGGGCAATCCGTGGCCAAGCAGGATGTGCTGGCCCGCGATGAACAGAGTAAACAGATCACCTGGGGGGGCAAGTCCGATACCCGCCTATTCGGGCTAGAAAATATCCGAACCGGTAAGCTGGAGGGCTTTGAAATCGACCTGGCCAAGGCAATGACCAAGAAGATCCTCGGCCCCAACGGCAAGTGCGTTTTCGTCCCCGTCACCAGCGGAACCCGGGTACCGTTACTGAAGAATGGGAACATCGACGCCATCATGGCCACCATGACAATCACGCCGGAACGGGAGAAACAGGTTGACTTTACCCACTCCTACTTCGACGCTGGTCAGTCCCTGCTAGTCAAGAAGGGTAGCCCAATCAAGAACATCCACGACCTGAACCGGCCTGGCAAGGTGGTTCTCGGTGTCTCCGGCTCAAATTCAGTCAAGAACGTCGCTAAGCACGCCCCCAAGGCCCGGGTCCTTCAGCTTTCCGACTACGCTCAGGCAATGACGGCCCTCAAGTCCAAGCAGGGTGATGCCCTGACCACGGATAACGGGATTCTCTACGGGATGGCCGCTGAGAACCCTGGCTACGAGGTTGTCGGGGGTAACTTCACCAAGGAGCCCTACGGAATCGCCGTCAATAAAAACCAGGAGCGCTTCCGCAACAAGCTGAACTGGGCCCTAAGGGAAGTTGAAAGAGACGGCACCTATAACCGTCTCCTCCTCAAGTGGTTTGGTAACGTCAAAGGCTTTAATTATCAGGAGATGAAACGCTAA
>SRR1151252_01092 glutamine ABC transporter ATP-binding protein
ATGTCAATGATTGAATTCCATAATGTGGAAAAATATTATGGTAAGTTTCACGCACTGAAAAACATCAACCTCACAATTGATAGCGGAGAGACGGTCGTTTTGATTGGCCCATCCGGCTCTGGAAAGAGTACTTTGATCCGAACCATCAACGGGCTCGACCCGATTCAGTCCGGCCAGCTAATCGTCAACGGCTATGATCTCTCGGACAAGAAGACCAACATCAACAAGATCCGGCGTGAGGTCGGAATGGTCTTCCAACACTTTAACCTTTACAACAACAAGTCCGTCATCGAAAACATCATGCTCGCTCCACGGATCGTCCTTAAGCGGCCCGAGGACGAGAACCGTGAACTAGCGATGAAGCTCCTGGACAAGGTCGGGCTGGCCAGCAAGGCTGATAATATGCCCGCCCAGCTCTCTGGTGGTCAAAAGCAGCGAATCGCCATCGCCCGCAGTCTGGCGATGAAGCCCAAGTGCCTGCTCTTTGACGAACCAACCAGCGCCCTGGACCCCGAGATGATCGATGACGTTCTCGACGTTATGAAGGACATCGCCGAAAACTCCAACATGACAATGCTGGTCGTCACCCACGAAATGAGCTTTGCCCGGGCAGTGGCCGACCGGGTTATCTTTATGGCGGACGGCCAGATTCTCGAGGACGACTCGACCGCCAAATTCTTCGGTCAGCAGCCAAGCACCAAGCGGGCCCAAGAGTTCATGAGTAAGATCAGTGGACATATCATTTAA
>SRR1151252_01093 universal stress protein UspA
ATGTTCGAAATTAAACCAAAGAAGTTCAAGCGAATCCTCGTTGGGGTTGATGACGCACCGGATGCCCGGGCCGCCTTTGCCTACGCGGTTGACAAGGCCAAGCGTGATGGTTCCGAAATTGGAATCGTCTCTATTCTGGAAACGGGCCACGTCAGCGTCTACCAAATTTTAGATAAGGACTATGTTCACAGCAGTGAAGATGAACTACGCAAGCGGATCAACGAGTACGTTCAGGCTGCCATCGACTACGGTGTTGACCCGAAGAAGATCACGGCAATTGTTGACCAAGGTGAACGGCCAGCTGAACGGATCTGCAACCACGTCATTCCTGCCTTCCAACCAGATCTGCTGGTAGTTGGCTCCATTGGTAAGTGGGGTAACCGGAAGGCTGTTGGTTCGCAGGCCTCCTACATGACCCGTCATGCGGGGACCTCCGTTTTTGTCATCCGGACGACCGCGGTTGAAACATACGAATAA
>SRR1151252_01094 membrane protein
ATGCCAAAGAAGAAAATGTCATTGGCCCAAAAGGTCAACGTCCTGCGTGCGAGCGTCATGGGTGCCAATGATGGGATTATCTCCGTTGCCGGGATCGTCATTGGGGTGGCGGCGGCGACCAGTAATCCCTATTCAATTTTAATTTCTGGCCTGTCCGGGAGCCTGGCCGGAACAATTTCGATGTGCATGGGGGAGTACGTGTCGGTCTCCACCCAGAAGGATTCCCAGAAGATGGCCCTGATTAGTGAGCGGCAGCGGCTGACCGACCAATATCAGCAGGAGTTTGATTACGTCCAGCAGCAATACGAGAAGCAGGATATCGACCCCAAGCTGGCCAACCAGGCCACCCGAGAACTGATGGACAAGGATGCCCTGTCAACCGTGGTCCAGGAACGGTATGGTTTTAACCCCAAGGAGTTCACCAGCCCCTATGCGGCGGCGATTACGTCCTTTATCTCCTTCCCGACCGGATCGATTCTCCCGATGGTAGCGGTGACGATGGCACCGGAGCACGTTCGGATCTTTGCGACCATGATCGCCGTTTTGATTGCCCTTCTGATTACCGGGTACTTTGCCGCGGTATTGAGTAAGGCCAACCGGGTTAAGTCAATGTTGCGTAACGCCACGGCGGGACTCCTCACGATGTGTGTAACCTACCTGATTGGGCAGCTGTTTGCCCGCTAA
>SRR1151252_01095 membrane protein
ATGGCGAAAATCAAACGAAAAAAGCAAACGATGGAAGAAAAGCTGAACACACTCCGGGCGGGGGTCCTAGGTTCTAACGACGGGATTCTGACGGTTGTTGGGGTCCTGGTTTCCGTGGCGGCGGCGACGACCGATCGCTTTACGATCTTTATTGCCGGTCTGTCTGACCTGCTGGCCTGTGCCTTCTCGATGGCCTGTGGTGAGTACGCCTCTGTTTCAACACAGCGGGACACCGAGGAGTCAGCGGTTAACACCGAACAACGCCTGCTCAAGACCGACTTTGCTGGCGAGCTCGCGACGGTCAAGCAGTACTATGTCGATAAGGGGGTTACCCCGGCGACCTCCATGGCGATTGCCAAGGATCTTTTGAGCAAGAAACCCCTAGAGATGATGGTTCGGATCAAGTACGACATTGAACTGGGTCACGTCCTGAGTCCGTGGGATGCCGCCTTTTCCTCACTCTTCAGTGCGGCAGCTGGGGGCCTCTTCCCACTGATGGCGATGACCTTTGCACCGAACGCCTACAAGTGGTATGCGGTGATCCTGGCGGTGGTCCTGACGAGTGCTTTGACTGGGTTCATCAGTTCTAAACTGGGGAACGGTCTGGTCAAGGTGGCCGTCATCCGGAATATCATCATCGGGTTGATCACGATCACGATCCACTACGGTGTTGGGAAACTCTTTTAA
>SRR1151252_01096 cation transporter
ATGGAAGAAAAGATCACCGGTAAACGCTTCTTAGCGGTTACCCTATTGAACGTCTTAATCACGGTTGTTGAAATCATCGGGGGCCTGGTCTCGGGCAGCCTGGCCCTGCTTTCCGATGCTTTCCACAACATGGGAGATTCCTTCTCGATTGTCCTCGGCTACTTTGCCCAGCACATCGGCAGCCATCCCGAAACCCGGGAACAGACCTATGGCTACCGGCGGGCAGAGATCCTCTCGGCGCTGACCAACAGTCTCCTGCTGGTCATCATCGCTATCTTTCTGATCGGTGAGGCCATTCAGCGACTAGATCATCCCCAACACATTAACGGTGGGATCATGCTGGCCGTGGCGATCGTCGGCCTGGTTGCCAACCTCGCCTCGGCCCTGCTGCTTCACGCCGGTAGTCATGACAGCCTGAACGTCAAGGCCACCTACCTACACGTACTCAGCGACGCCCTCTCATCAGTTGCCGTCATCATCGGCGGTTTAATTCTGACCTTCGTCAACGTCCCCTGGCTTGACCCGGCACTGACCATCGCCGTGGCCCTCTACATTGCCTACGAGTCCTGGCCGATCATCGTCCAGACAATCAAGATCCTGATGCAATCATCCCCAGACCTGGACTATGACAACATCGCCAAGGATATCAAGCAGGTTCCCGGTGTCGAGGATGTTCACCACGTCCACGCCTGGATGATTGATGAACACCGAATCATCTTCTCTGCCCACCTCAACTGCCAGGATCTCCCACTCAGCCAAGTGGAGGGTATCTACAGTCAGGTTGAAGACATTCTCCGTCAGAAGTACGGCATCTGTCACATCACCCTCCAGGCGGAATGTTCTCGAGGGCGTGACGAGGAGCTCTTCAACACCCCCGTCGACGAGGAAAACGTCATCAGGCCGGGTGGCTACAAACACCGCCACTAA
>SRR1151252_01097 metal-dependent transcriptional regulator
TTGACTCCAATGAAGGAAGACTACTTGAAAATTATTTTTAAGCTGGGCGGCAGTCACAAAAAGGTATCAAACAAGGAGATCTCACTGGGCCTGGGGATCGCAGCCGGGTCCGTTACCGAGATGATTTCCAAGCTGGCTGACGAAGGCCTGGTCGTCCACGAGCCTTACTCGGGGATCTCACTGACGGCTAAGGGCCAGCGCTATGCAGCTGAGCTGGTCCGCAAGCACCGGCTTTGGGAGACCTTCCTGGTGGATAAGCTTCACTACAACTTTGCTGACGTCCATACGGAGGCCGAAATTCTTGAGCACCAGACCAGCGACCGGCTAGCCACGGCACTCGATGACTTTCTCGATCACCCGCAAAACTGCCCCCATGGTGGGGTAATCCCTGAGGCCAACGGGCACTTCCCAGACGTCAGTCACCGACTGTTGGCTGATGCAAATGATGGTGAGGAAGTCGAGCTGGAACGTTTCCTGGATAACCATGAGTTATTGACCTACCTGGAGGAGCTCAACCTGCGGCCCCAGGATAAGGTGAAGGTTGTCCGTCACGAACCGTTTGAGGGTCCAATCGTGATCACCAAGGACGGGAATACCCAGCCGGTCAGCGTTTCCTACAAGGCCGCTCACAACATCTTTATTAAGTAG
>SRR1151252_01098 cold-shock protein
ATGGAACAAGGAACTGTTAAATGGTTTAACAACGACAAGGGCTACGGCTTCATTAACCGGGAAAGCGGTGACGACGTATTCGTTCACTTCTCCGCTATCCAGGGTGATGGCTTCAAGAACCTGGATGAGGGCCAACACGTAACTTTCGACGTTGAAGAGGGCGATCGGGGCCTTCAAGCGGTCAACGTTGTTAAGGATTAG
>SRR1151252_01099 membrane protein
ATGCTGACGAAAAAACGGCGCCGGCTGGCTCTGCGAACGTGTTCGCTGGCTGGACGGATCCTCATTGAGAACGGCTCCAACATGGAACGGGTCAACGATACCCTCCATCGGATGGCGCACACGGCTGGTCTTCAGGACTTTCAGGCCTTCACAACGGTGACCGGGATCGTGCTTGGCGCCAACAACATGCCTAACGCGATGGTGATGAACATCCGCCGTCGGAAGAATGACCTCAGTAAGGTGACCGCGGTCAACGAAATTTCCCGGGAAATGTCCCAGGGCCTGATCACCCTGCCCGAGGCCTATGCCCAGCTGAAGTGGGTTGACCGTCAGGGACCGTACAAATACCAAAACTTAGTTGAGGCGCTGGCGGCCGCGGTTTTGAGTATGGCGTTGATGATCGTCTTCACCGGTGACTACCGGGATTCCTGGGCTGGCTTCATCGACGGTGGGATCAGCTATGCCGTCTTCTCCTATGTGATTCGTAAGTTTAAGATCCAGTACCTAGGTGAATTTTGCTCATCGTTGGTGATTGGCTTTTTGACGGTTTTGATGGTTAAACTCGGCTGGGCCCACAGCATCAATGACATCATCATTGGAGCCGTGATGCCGCTGGTCCCGGGGATTCCACTGACCAACGCAGCCCGGGACCTGGTATCAGGTAACCTGATCTCTGGACCGACCCGGGGAATTGAAGCAATCCTGACGGCGGTTTCGATCGGCAGTGCGATCGTGATTGTCCTGCACTTTGCTTAG
>SRR1151252_01100 membrane protein
ATGCATTATTGGTTAAATCTGGCGCTGCAGTTTTTTCTCTCCTACATCTCAACGGTCTGCTTCGGTATCCTTCTCCACATTCCATCCCGCGCCTACAACGTGGCCGGGGTTATCGGTGGTGGCTCCTGGGTTATCTACTGGGTCATGTACTACCAAGACGGGGTTGGGCTGGCCTTTAGCAACCTTTTTGCTGCCATCCTGATCGCCCTTTGCAGCCGGTGGGCGGCCCAGCACAAGAAAATGCCGGCGATCGTCTTCGAGGTTCCGGCCCTGGTACCCTTTGTTCCCGGCGGCCAGGCCTACAAGATGGTCCGCAACTTCGCCATCGGCAACTACTACCTGGTTACTGTTTATTTCTACCAGGTGGTGGTCATCGTCGGCGCGATTACCCTGGGTTTTGGACTGGGGGAGCTTTTGAACCGGATCATCCACTACCGCCGCTGGAAAATTGTAAAAAAGAACCGTTGA
>SRR1151252_01101 phosphatase
ATGTTTATCGAACGCGATCAGCACCGGTGGTGGCGCTTTGCCATCTCAGGTGGTGCTTTTATTATTTTAATGCTGCTCATCAAGTTTAATTCGACAGTGGTTACCATGATTGATGCCATTCTCCAGTCGCTATTCACTGGACAGCGTGTTGAGGGGGCGGGCTGGTTCCACGCCCTGATGACCTTACTGTCGTTTCTGGCGAGTCCGAAGATGGACCTGCTCTGGGTAATCATCATCGCCGCCCTCCTCTGGTACAAGCACTACCAGATTCCGGCACTGTGGGCCCTGGGCACGATTGTTGGTGGGGACGTTTTTGGCGAGATCTTTAAGCACATCGTTAAGCGGGCCCGGCCAGCACAGCACCTGGCTGCCGATGATGGTTACAGCTTCCCGAGTGGTCACACCCTGGGGATCTTCCTGGTGGCCGCAATCCTGCTGCTGATCGTGGTACCGCTGATCAAGAAGCATTCCACCCGGACGATTTGCCAGCTGCTAATCGTCTTCGTGGTATTCTTCCTGGCGGTCTCCCGGGTTTACCTGTACGCCCACTGGCCCTTTGATACAATCAGTGCTATGTTGCTGGCTTACGCCTGGCTCCAGGTGGCCGAATGGCTCTACGTGGCCTGGGCACCGCGCTTGCGGGAGATTCCGTTTTTATCCACGTCCGAAATTTAG
>SRR1151252_01102 N-acetyltransferase
ATGCCGGAGATTGAACTTAACATGGCTACCATTGATGATGCCCCGGCCATCGCCCGTATCCTGACTGACCCATTGGTTTGTCAGCGCGCCCACCTGCTAGTTGTCCCTGATCCGGCCGCGGTAACCATGCTGATGGCGAGCGTTCACCTGTTGGCGATCCGCCGTGCCGGTCGGGTGGTGGGAATCATTACTCTTGACCTGGTCAGTGAAAACTGCTGGGAACTGGGCTACCTGCTTAGCCGGTCCGACTGGGGCCAAGGAATCATGACGACTGCTGTCGGCCTCCTCCTTGAACGACTGCGTTCGGGGACCCAACTGACGGCGATCGTGGACAATGAGAATGTTGCTTCGCAGCGAGTCCTGGTCAAGAACGGTTTCGTCCGGGTAGGCGATGATGGTGAGCGGGGCACCTGGCGATATAAAAAGGACTTGCGTTGA
>SRR1151252_01103 lysine-specific permease
ATGGCAGAAACAAGTCACAGCGACGGAGCCAGTGGCCATATTAAACGGTCGCTGAAGACCCGCCACCTTTCAATGATTGCCCTTGGTGGGACGATCGGGACGGGGCTTTTTATCACCAGTGGTGAGGCAATCTCGACTGCCGGACCTGGTGGGGCCCTAATTGCCTACGTCGTGATGGGGATGATGGTTTACTTCCTGATGACCAGCCTCGGTGAGATGGCAACCTATATGCCGCTAACCGGGTCCTTCTCCGCCTACGCCACCAAGTTCATTGACCCGGCCCTCGGCTTTGCCATGGGGTGGAACTACTGGCTGAACTGGGCTGTTACCATTCCCGTGGAGGCGACGACGGCGGGGATCATCATGAACTACTGGTTGCCGGAGGTTCCCCAGTGGATCTTTAGTGTGACCGTCTTGGCCTTGATCTTTTTGATCAACTATCTTTCCGTCCGCTCCTATGGTGAGACGGAGTACTGGTTAGCCCTGGTCAAGATCGTTACCGTCGTTGTCTTCCTGATCGTCGGGGTAGCCGTCATCTTTGGAATTATGGGTGGCCACGCCGTTGGGGTCAGCAATTTCCACTACAAGAAGGCGCCGTTTGTCGGTGGGATACCGGCGATCATCAGCATCTTCCTGATCGCTGGGTTCTCTTTCCAGGGAACTGAGCTGGTTGGGATTACGGCCGGTGAGGCGGCAACCCCTGAGGTTTCGGTCTCCAAGGCCATCCGCTCGACCTTCTGGCGGATCCTGATCTTCTACATCTGCACGATCTTTGTGATTGCATGTATTCTTCCATACACTGACAAGAATCTGCTGAATCAGGATGTTTCCAACATCACGATGAGCCCGTTTACCATTGTCTTCAAGCGGGCGGGCCTGGCCGTTGCTGCCAGCGTGATGAACGCGGTAATTCTGACGGCGGTTATTTCATCGGCCAACTCCGGGCTCTATGCCTCGACACGGATGCTCTTTTCTCAGGCACGGGAAGGGTATGCATGGCGCTTCTTCGGTTACGTCAACAAGCGGGGGATCCCGATCTATGCCCTGCTAGGAACCATGATTGTCTCCTGCCTGATCTACCTGACCCAGTTCATCGCTCCTCAGGCATATAATTACCTGATCAGTGCCTCGGGGTTGTGCGGGTTCATCGCTTGGCTCGGGATCGCTGCTTCACACTGGCGGTTCCGGCGGGCCTACGTCAGCCAGGGGCGTGATATCAACGACCTGAAGTACAAGTCGTCCTTCTTCCCGTTCGGCCCAATCTTTGCCTTCATCCTTTGCTTCATCGTGATCTGTGGACAAAACGTCGATGCCTTCATCAAGTGGGACTGGCAGAACATCGCCATCTCTTACATGAGTGTGCCAATCTTTTTGATCTTGTTCATCTACTACAAGGTCCGTTACAAGACCCACGTCATTCCACTAGACAAGGTGGACCTGTCACCAAGTACTAAGGGTGAGAAGTATGTGGCACCAGATGATGAGGATAAATAA
>SRR1151252_01104 deoxyadenosine kinase
ATGATTGCTTTAGCCGGAACAATTGGTGCTGGGAAGACCAGCCTGACGCAACTCTTAGCTGACCACCTGAATAGTCAGGCCTTCTATGAATCGGTCGAGGGAAACAAGATTCTGCCACTCTTCTACAAGGACCCAAAGAAGTATGGCTTCCTCCTTCAAATCTACTTTCTAAACAAGCGCTTGGACGAGATTAAGGCCTCCTATGGCAACGATCTGAACGTTTTGGACCGTTCGATCTTCGAGGATGCTCTCTTATTCAAGCTGAATGCCGACATGGGGCGGGCCACGGAGACTGAGTCTGACATCTACTCATCCCTGTTGAGCAACATGATGGAGGAGCTGCCGGATCAAGTTCACCAGAAGGCCCCTAACCTGTTGATCACTATTAAGGTTTCCTTTGACACCATGCTGAAGCGGATCAAGAAGCGGGGTCGCTCATATGAACAGCTCGCCAACGACCCGTCCCTGTATAGTTACTACAAGAACCTGAACGAGCGTTACGTCAATTGGTACGAGCAGTATGACGAGAGCCCGAAGATGCTGATTGATGGCGACAAGTATGATTTTGTCGAGGACGAACAGGCGGCCCAACAGGTATTGAAGATGATTGATGCGAAGTTAGCAGAATTAAATCTCAAGTAG
>SRR1151252_01110 rRNA methyltransferase
ATGCATAACTTGATTTATCTTAACAACCTGGAAGCTGCTGCGCTGGACCCCTACGTACGACTCAATGAAGCCCAGCTTTCCCATGCCATGAAGCCGGGAATGTTTGTTGCGGAGAGCCCCAAGGTAATCGAACGGGCATTGCGGGCCGGCTATCAGCCAGCCTCGCTCCTGATGGAGAAACGGGTTCTTGACCGCGACCTGGCAGACCTGGACCATGAGATGATTACCAACGGAACCGCCGACCTTGGTCAGACGCCGATCTATGTCGTCGATAGCACGCAGATTCGCCAGCTGGCTGGTTACAACATGCTCCGCGGAGCCTTGGCCGCGATGTGTCGGATGGCGCGCCCTGATCTTTTCGACTTTCTGGCCGCACTGCCGACTGACCACCCCCGAATCGCGGTCCTAGAACGGGTGGTTAACCCGGCCAACATTGGAGCAATCTTCCGTTCCGCTGCTGCGCTGGGGATTGATGGGGTGGTTGTGACCAGTGATTCCGCTGATCCCCTCTACCGTCGGGCCTCGCGGGTGGCGATGGGGACCGTCTTCCAGGTACCATGGACCTATGTTGACGCCAAGACCTGGCAGGCCGACGGAATTGGTCTCCTGCATCGACTGGGTTACCGGACAGCGGCCATGGCCTTACGTCATAATACCGTTAGTATCGCTGATTCCCGGCTAGACAGGGTGAATAAGCTGGCGATCATTCTTGGTGCGGAGGGCCCCGGACTAAGGGAGCAGACAATTGACCAGAGTGATTTTACAATTAAGATCCCGATGGCCCCGGGCGTCGATTCTCTGAACGTTGCTGCAGCCTCGGCCCTAGCCTTCTGGGAGCTAGGGAATCACGGCGTCCATTGA
>SRR1151252_01111 hypothetical protein
TTGCGGACCGTTCTCTGGCTGTTGCTCTTCCTGAGTACCATTACCTACTATTTCGGTCTGCTTGCCAACGGGGTCTACAACCACCGGCGCCCCTTCACCATGCAGAATTTCTTACTAACAATCATTACGCTAGTCCTTGGAACGGGGGCATTCTTACTGCGAGCTAGCAACCCGGAGCTGATCATTTGCTTGGCACTGGTCGCCGGCATCGTGTGGGCCAATCCTAATGAAAAAAGTTAA
>SRR1151252_01112 hypothetical protein
ATGAAAACAATCGTCGCCAACCTGATCTGGCAGTACCTGTGTGGATCCGGTGACCACTCACTGCGATACCGCGACGTCCGGGGCTTCGCCTTCATCACCGCCATGTTTGGCAGCTACATTCTACAAAGTAAACACCTCATTAACGACCATCAATATAGTCGTGAGTTTGCTCTGATATACTCCCACGTCTTAATGGTGATCGCTATCCTCTCACTGACAGCTGGGCTAGACTAA
>SRR1151252_01113 short chain dehydrogenase
GTGGTCAAGGGGCTGCCGAGACGGCTCTTTTTGTTAAGGAGGGTGCCAACCGACATCAACACCAAGCTCCTCAATCAGCGTGCCGACAGCCTGCGTGAACAGTACGGCGATGTGATCCTGCCGCTGGCGCTGGACGTTACCCAGGAGGAGCAGTGGGGCGACGCCATTGCCAAAGGAGTCGCAAAATTCGGCAAGATCGATATCCTGGTTAACAACGCCGGAATCGGGGTCACCGATAGGACATCCGGCCTGACCGATTCTACAATTGCTGACTGGCACCGTTACATGGAAACTAATGCCATGGCCCACTTCCTAGGGATGAAGTACATCGTCCCCGTAATGAAAAAGAACGGCGGCGGTTCGATCATCAATATCTCCTCCCTCGCCAGTGTCCAAGGAATTGCTGGTGCATCCCCGTACACCGCTTCAAAGGGGGCCTCACGAGCATTTACCAAGGGTGCAGCCCGCGACCTCGGCAAGTATAATATTCGGGTCAACTCCGTCCTCTCCGGCTGGATTGTCACCCCGATGATGCAGGTCTTCACCCTCAACAAGCAACTGCTTGACTCACTGATCGATGGCATTCCGCTCGGCCACCTCGGTAATCCCGAGGACGTGGCCTACCCAGTTCTCTTCCTGGCCAGTGACGAGGCCAAGTACGTCAACGGCGCTGAACTGATTGTCGACGGTGGTCAGTCCGTCCGCGGTTAA
>SRR1151252_01114 peptidase M10
ATGAAACGCCTATTGATATTATTATGTATGCTGCCATTTTTCTGGGGGTGGGGGATGCCGGCCCATGCGATGACCATCTCTTCAATTAATCAATCATCGGTCTTCAGTAGCGGCAATGACCAGGAAAACGGCATGGATAGTAGGGCCAACCGGGCTGCAGCCAAGGCCCTCCACCTGCCGTCTAGTACGCCGACGCCGACTGAGGGCTACCGCTGGCCGACCCGACAGCTGAAGATCTACATGGCCACCCATGATCGCTTCCTCCAGTCAGCATTTTTTGGTGCAGTTCGGGCCTGGAACCGTACCGGTGCCGTTCACATCAGTTGGTGCCATGATGAGGACCGGGCCGACATCATTGCCCAAGATGGTTCCTTGACTAGTACAGGCACGAGCTCGAACGTGGGTTACGTTTCTTCCCAGCTGGGCTCGACCAGTACCGAATACAATCCTGATACCCACGCTCTTATCAGGGCGCGTTCCACTCTTGACCCAAGTCAACTCGATTGCACTAGTCGCCACTTCCGGACGGCGGTTGCGGAACACGAACTGGGACACGCCTTGGGCTTGGCCCACGCCCCTGAATATATGCACAGTGTCATGATTCCACGGAACGTGCGGACAGGGATTACCAGGGATGACCGAGCGACGATTCGCCTCCTCTATGGCCTTAAGCGGTAA
>SRR1151252_01115 TetR family transcriptional regulator
ATGTTCAACTTAAATTTTACAATCTGCCATGATGAAAACAATAATGGTTTCTACGAGCGATTCTATAACCGCTTAGCCAACTACTTAACCACTTATGGTAACGTTATTACAGATAATCAGAAACAGCTTGAGGTTCCTTTAAATTTGCAGATTTCCTTCATCGGTTCGGCATTTCTTGGTCTGATTAGTCACTGGCTTGAGGACGGGATGATCTACACGTCCCGTTACATGACCCAGAGCACCGCCAAGATGTTCAACCGGTTAAACAATGACGGGGCATCGCTTGTGGGCTTCTTTAGTGGCGAGAGGGACTCAGTCGTTGAAGAGATTTGA
>SRR1151252_01116 50S ribosomal protein L21
ATGTACGCAATTATTGTTACTGGTGGCAAGCAATACAAGGTTGAAGAAGGTAAGTCAATCTTCGTTGAAAAGCTTGATGCTAAGCAGGGTGACAAGGTAACCTTTGACAAGGTTGTCCTGGTCAGTGGCGACGATACCAAGATCGGTACTCCATTCGTTGATGGTGCAGCCGTTGAAGGTACTGTTGACAAGCAAGGTAAGGAAAAGAAGGTTGTTACCTTCAAGTACAAGCCAAAGAAGCACACCCACACTAAGCAAGGTCACCGTCAACCATACACCAAGGTTACGATCAGCAAGATCAACGCTTAA
>SRR1151252_01117 hypothetical protein
ATGATTCGGGCTCATTTCAACTTAGATTCGGATCGGCGGATCACCGCATTTCAGATCACCGGCCACGCCGATGCTGGTCCCTATGGCCAAGACATCGTGTGTGCGGCGGTTTCGGCATTATCGATCTCCGTCATCAACGGCCTGGACAAGCTTGTTCAGGCGCATCCGGTGATTGAGAGCGATAATGATAACGGTGGCTTTCTCAAGGTCACCGGTCTCAGGAGTGATCATGACAGTCAACTCCTGCTAACGACCCTCCTGAATGGCCTGCTGGACATTCAGGAGAGCTATCCTGATAACATTGAAGTTAAAATGTTAAACTAG
>SRR1151252_01118 50S ribosomal protein L27
ATGATTATGGATTTGCAATTCTTCTCCCACCACAAGGGGGGTGGTTCCACTGCCAACGGTCGGAACTCAGCTGGTCGTCGTCTGGGGACCAAGGCTGCTGATGGTTCAGTAGTTACTGCTGGTTCAATCATCTACCGTCAACGTGGTACGCACATCAACCCAGGTGAAAACGTGGGCCGTGGTGGTGACGATACCCTTTACGCTAAGGTAGCCGGTGTTGTTAAGTTCGAACGCATGGGTCGCAGCAAGCGGAAGGTATCTGTTTACCCAGTTGCCGAATAA
>SRR1151252_01119 Xaa-Pro aminopeptidase
ATGACACGAATCGAACGCCTGCAAAAGCGCCTGCCCAAACTTTACATTGATGCCTTCCTGGTGACCAGCCATGATAACATCTTCTACCTGACCGGCTTTGACCTAATGGAAGGGGACGGCTACCTGCTGGTGACTGCTAACGACGCCATCATTGTCTCCGATGACCGCTACCAGTTGGCCCTGGAGGAATTCGAAAACGATGAGGTGGTGGCGACGATTACCCGAGACTACTACGGTGCCCTCAACCGGATCTGCCAGGCCCTCAAGGTGACCGTCCTTGGTTACGAGGATACGATCTCCTACCGGCTCTATGACATTCTGGACGAGGTGATGGTGGCCGACATCGTCCCCTTCACCAACCTAGTCGAGAAGATGCGGATGGTCAAGGACAGCGGCGAACTAGTCAAGCTCCAGCGGGCCGCCGACCTGCAGGCCCAAGGCTATCAGTACATCCTGGGGCAGGTCCATCCCGGGATGACGGAGCGCGCGCTGGCTAACCGGCTGGACTTCTGGATGAAGGAGCACGGGGCCAGCGGGGCCTCCTTCCCGACAATCATAGCCAGCGGGGCAAACTCGGCCAAGCCACACGCCACGGCAGGAAACCGGGTGATCGCTGACGGGGATGTGGTTACCCTAGACTTCGGTTACTTTGTCGATGGCTACACCGCCGACATGACCCGGACGTTTGCGATCGGGTCGATCGACCCCGAGCTCCGTGACGTCTACGAAATTGTCAACACCGCCCGCCAGCAGGTGATCGACCATATTCATGTTGGGATCCACGGTGACACTCTGGACGCGTACGGACGTCAGCTGATTGCTACGGCTGGTTATGGTGATGAATTCAACCACGGGATGGGGCACGGCATCGGCCTGGCGGTCCACGAGCTGCCAGCCAGCTATGGTCCTGCCACTACAGATGTCAAGCTCCACAACAATGAGGTGGTCACGGTCGAGCCGGGGATCTACATTCCTGAGATCGGCGGGGTCCGGATCGAGGACGATGTCGTGGTGACTCATGGCGGCTCCCGGGTGCTGACGACGGCCCCGACTGACCTGCTGATTGTGGGGGACTGA
>SRR1151252_01120 hypothetical protein
ATGGACGGCCTGCACGAACTTTATGCCAAAATTGACCGGCAGGGACGCCGAGCCCTGGCTGACCATCAGGAGGACGTCGATCCTTATCTGACCGCAGCCACCGATGACCGGTGGGGGCTGGCCCTGATTCTCCGCCTGCCTGCCCACGTCTCTCGTAACATCACCTTTGTCCTGCAAACGTTGCGCGCCGCGGAACCGGACCTATACTGTTATCCGGCCGCGGACATGCACATCACCGTCATGGACATCATCGGCGCGCGCCCCGGCCTACACCTGTCGTCCCAACAGCTGGCGCGCTACCGGCAGGCGGTCGCCGCGACGGTGGCGGGAAGCCCGGCAATCGACTGGCACCTGGCGGGACTAGTGTTGAGTCCGGGAGCCGTGATGGTTAAGGGCTACTATTCCACCGCGTTGCAGATGATACGTGAGAAGCTGCGGACTAACTTGGCTCAGACTGGATTGCCGGTTCATGAACGCTACCAGACCCGGTCCGGGCACGTCACGGTGGCCCGCTTTGCTCACCCGTTGCACGACCCGGCAGCCCTGGTTAGGTTGGCTAACGCTGACCGGACGCTGGCCTTTGGCAATTTCACCAGTCACCGGGTTGACCTGGTCATCCATGACTGGTACAACCACCGGGTTCGCCCCGTGGCCACGTTTACCCTGACGGAATGA
>SRR1151252_01121 alkaline shock protein
ATGGCAGAAGATTCAAGAATTATCCTCAACAATGATGATCAGTCCCTCGGCACGATCCAGATTGCCCCACGTGTACTGGAGATCATTGCGGGGATTGCCGCTAGTGAAGTCGACGGTGTTTCGAAGATGTACGGGACGTTTGCCAACAGCGTCAGTGAACTGTTGGGCCGTTCCGACTTTCGGCGTGGCGTGAAGATTGCCAACGACCAGGACGAACTGTCGATCGACGTTGACGTCTATGTCGAATATGGTGTGTCTGTTCCTAAGGTGGCCGGCTTAATCCAGGAACGGATCAAGCAGCAGGTGGCCCTAATGACCAGCCTGAAGGTCACCGAGGTCAATGTTCACATTAAGGGCATCGTGGCGGCGGTTGAAGACCAGGCCGTCGATCCGGATGATATTTTTGGCGAGAAGAAGGACAACGAAGAAGCGGGGGATCACGAATGA
>SRR1151252_01122 transcription antitermination factor NusB
ATGAGTTTAAATCGACACCAGGTTCGTGAGGAGGCCTTCCAAGTTCTGTTTGCCCTGCAGACGGACGCGGACGCCGACCTTGCGACGATTTACCAGTCCATCCCGCACCATGACAAGCACCAAATCCCAGAATACCTGAAGACCCTGGTTGAAGGGGTCAATGAGCATCAGGGAGAGCTTGACCAGGAGATCAGTTCTCTTCTGGCCGATAGTTGGACGATCGACCGTCTTGCCAAGCCTGATCTGGTTATTCTGCGTCTTGGGTTGTTTGAAATGCAATACGTGGACGATGTACCGACGGCGGTGGCCATCAACGAGGCCTTAGAGCTTGCCAAGACCTTCAGCAATGACAAGTCGCGCCGGTTCATCAACGGTGCTTTAGGAAAGTTTGAACGTCAATTAGCAAACTAA
>SRR1151252_01123 bifunctional 5,10-methylene-tetrahydrofolate dehydrogenase/5,10-methylene-tetrahydrofolate cyclohydrolase
ATGGCAACAGTGATTGACGGCCGTCAGCTGGCCACGGAGTTGAACCAGGCGACCGCCAAACGGACCGCTAAACTCGCCACACGTGGGATTACGTCGGGGATCGTGGTGATCCTCGTCGGTGATGATCCAGCCAGCCTCATTTACACCCGGAACAAGCATCGCCGGGCGGAGAAGATGGGGATTAGGTCGGTGCTTGAGAAGCTTCCGGCTGACGTCGATCAGGCGACCGTGATGGCCGCCATTGACCGCTACAATCAGGACGACACGATCGACGCCATCCTGGTTCAGGAACCGCTGCCGGCCCACCTGGACGGCTTGGCGATCACCAACGCCATCCGGCCTGATAAGGACATCGACGGCCTCCACCCGATCAACCTGGGGAAGCTCTATGCTAATCAGCCGGGACATTACCCGGTGGCCTGCACCCCGCGCGGTGTCATGACCATTCTCCGTCACTACAATGTTGAACTGGCCGGAAAGAACGCCACCCTCGTTGGCCGCAGCATTCTGGTCGGCAAACCCCTGGCGGCGATGCTGGATAACGCGAACGCGACGACCACCGTGGTCAACCGGTACACGCCGAACCTGAGCAAGGTCACTCGTCAGGCGGACATCCTGGTGGTGGCGGCGGGCAGTCCCCACCTGATTACGAGAGAAGACGTCAAGCCCGGCGCCGTGGTGATTGATGTCGGAATCAACCGCCTGCCGTCCGGAAAGTTGACCGGGGATGTCGACTTTAACGATGTGCGCGACATTGCTAGCCTGATCACACCGGTACCCGGTGGGGTCGGTCCGATGACGATCGCCAGCCTGATGGCGCAGACGGTCGACCTGGCAGAATGGAGGCAGCATGGACAGGAGTAA
>SRR1151252_01124 exodeoxyribonuclease VII large subunit
ATGGACAGGAGTAAGTATTTAACGGTCAGTCAGCTGACCCGCTACCTGAAACTCAAATTTGACCGTGACCCCTACCTGCAGACCGTCTACCTGACCGGGGAGCTGTCGAACTTCCGTCTCCGTCAACGCCACCAGTACTTCAGTCTCAAGGACGATAAGGCGGTAATTGACGCGGTTATGTTTGAGAGTAAGTTCCGTCAGGTCAAGTTTCGTCCCGAGGAGGGGATGAAGCTTCTGGTTGTTGGTCACGTTGGCTTATATGAACGTAGCGGCCGTTACCAAATCTACATTGATAAGATGGAGCCGGATGGGGTCGGCTCGCTCTACGTGGCCTTTGAACAGCTTAAGAAGAAGCTGAGCGCCGAGGGCCTCTTCAGCCGGCCAAAGAAACCCCTGCCGCAATTTCCCAAGCGGATCGCGGTGGTCACCAGCCTCGATGGGGCGGTGATTCGGGACATCAACACGACCGTCCGGCGGCGCTACCCGATTGCGCAGGTCGTCCTCTACCCAACGGTGGTCCAGGGTGAGAAGGCGGCGGCCGATATTGCCTGCCAGATTAACCGGGCTAACGAGCGGGGAGACTTTGATACCCTGATCATCGGTCGTGGTGGGGGTTCGATCGAGGACCTCTGGCCGTTTAACGAGGAGGTCGTTGCCCGGGCCATCGCCAATAGCGAAATTCCCGTGATCTCGTCGGTTGGTCATGAGACCGACACAACGATTGCGGATCTAGTGGCCGACCAGCGGGCTGCCACGCCAACCGCAGCTGCCGAGCTGGCCACCCCAGTGCTGACCGATACCCTATTGGCCATTCGGGATAGTCAGAGCCGGTTGGCCAACGCGATGCAGAATCGGATTACCTTTGCCAAAAAGGAGCTGGCCAAACAGACCCAGAGCTACATCTTTCAGCAGCCGACCCGGCTGTATGAGAACTACGCACAGAAGGTGGACCAGCTCACTCAGCAACTGATCCAACTGCAGCAGAACATGTTCGTCAATCGGCGGGCCCAGCTCCAGCAGTTGGCCAGCCGACTCGCTGCCGGCTCGCCACGGCACCGGATTGACCAGCAGTTGCAACTGGTGAACCAGCTGAGCAGGCAGTTGAAGACGGATGCGGCGGCTGACCTTCAGCGGCGTCAGGAGAGGGTCACCGGCCTGATTCGCCAGTTAGACGCCCTTAGCCCACTGAAGATCATGTCCCGCGGCTATACCTATGTCACCAAGAACCAGCGTGTAGTTAACCATGCCAGCCAGCTGGCGGTTGGTCAGGCTGTCCAGCTCCACTTCAGCGATGGACAGGCGCTGGCTGAGATTACTAAGATCAAGGAGCAGAAGAAATAA
>SRR1151252_01125 exodeoxyribonuclease VII small subunit
ATGGCAAGCAAGAAAGAACCAAGCTTTGAAGAACAATTGGCCCAGCTGCAGGCAATCGTCAACCAGCTAGAACAGGGCAACGTCCCACTGGAGGAGGCCCTAAAGCAGTTTCAGGAGGGAATCAAGCTCTCCAAGGAATTGCAGGGTAAGCTGACTAATGCCGAGAAGACCCTTGGCCACTTAATTGATGACGATGGCAACGAGAAGGTTTACGAGGGCACTGATGACGATCCCAGCAACAACGGTGGTGGCAACCGCGGCTACAGCAGCGGGGACCAGGTGAAGGGCTAA
>SRR1151252_01126 geranyltranstransferase
ATGGTAGAGACAATTAGTGAACTCAAAACCAGGATCGACGACTACCTGGGTGTCAACCTGGCCGCTGACGTTGACCAGGATACCCTCTACTCATCGGTGCGATACTCGCTGATGGCTGGGGGTAAGCGGCTGCGGCCGGCCCTTACCCTGGCGACAGTACAAATGCTTGGCGGGGCGGTCGATACTGACGTCATGCGCGCAGCGACCGCCCTGGAGCTTCTCCATACCTACTCCCTGATCCATGACGACCTGCCAGCGATGGACGACGACGACCTGCGCCGGGGTAAGCCCACCAACCATTGTCGTTTTGGTGCCGGGATGGCAACCCTGGCCGGGGATGGGCTCTTGACCCTGGCCTTCCAGTGGGTGAGTGATAATAACCTCCCGGCGGCCACACGTGCTGAGTTAACCCTGGCCCTGGCCCAGGCGGCTGGGCCGGCCGGGATGGTCGCCGGCCAGGCCCGTGACATTGAGGGCGAGGGGCAGCAGTTGGACCTTGACCAGCTGCGTTACCTCCACCGCCAGAAGACGGGGGCCCTCCTGCGTTACGCCGTCTTAGCTGGGGGGATTATCACCAACCAGTCGCGGCCGGTCAAGGCGGCCCTGGCCGACTTTGGCGCCCAGTTCGGTCTAGCCTTTCAGATCTACGATGACCTAATGGACGTCTTGGGGACGACTGCCCAGATGGGAAAGGCGGTTCACAAGGATGCCGGCGAGCAGAAGAACACCTACCCTGGCCTGTTGGGAACCGCTGGAGCGAAGGATCAGCTCCACCAGGCACTGGCCGGGGCCCGCGCTGCCCAGACCAAGATCGGCAAGCTGACCGGCCGTTCATTTGCCGGTTACGACCAGTTTTTAGCATATTTCAAATTGTAG
>SRR1151252_01127 cell division protein FtsJ
ATGAAAAAAGAACGCGTAGATGTGTTATTAGTTCAGCAGGGGCTCTTTGACTCCCGGGAGCAGGCCAAGCGCTCCGTGATGGCCGGCGAAATCCTGGGTAAGAATAACGAACGGCTCGACAAGCCCGGCCAGAAGATTCCGGTGACGACGACCCTGCACATGAAGGGGCACAAGATGCCCTACGTCAGCCGGGGTGGCTTGAAGTTGGCCAAGGCCCTGAAGGTTTTTGATATCAGTGTCGCCGACAAGACGGTCTTAGATATCGGTTCATCGACCGGGGGCTTCACCGACGTGATGTTGCAAAACGGGGCCAAGCTGAGTTATGCCCTGGACGTGGGGACCAACCAACTGGTCTGGCAGTTACGGGAGGACCCGCGGGTGGTCGTGATGGAGCAGACCAACTTCCGCTACAGCACCCTGGATGATTTCACCCATGGTCAGCCGGAGTTTGCCTCCATCGACGTCTCCTTCATCTCGTTGCGGCTGATCCTGCCACCACTGGCCCAGATCCTAAAACTGGGTGGCTCGGTGGTGGCCCTGATCAAGCCCCAGTTTGAGGCGGGTAAGGAGCACGTCGGCAAGCACGGGATCGTCCGTGATCACGCCGTTCACCGCGCCGTCTTGGAGGAGGTCCTTCAGTTTGCCAATGAGGATCACTTCGACGTGGTGGGCCTGGACTATTCACCAATCAAGGGCGGCCAGGGTAACATCGAGTTTCTGGCCCACCTTAAGCTGACCGACCGGCCGGGAACCGTGTCATCAACGGTTGATATTGACCAAGTTCTGGCGGCGGCCGACCAGGATCTAAATCAAAAGGAAAAGTAG
>SRR1151252_01128 arginine repressor
ATGAAGAAGGCAGAACGTCAGGAGAAGATTCGGGAGATCATCACGGCGGAAAGCATCGAGCGCCAGGAGGACCTGGTGAAACGGCTGAACGAATTGGGACTGCGGGTCACGCAGGCGACGATCTCACGTGACATCAAGGAGATGCAACTGGTCAAGATCCCGGCTGAAAACGGTGGGTACCGTTACGGCCTGCCGGCATACCATCGGCAGAGCGACGAACGCCAGCTGATGGATGTCCTGCAAGACAGTCTGATCCAGCTACGACGAAGTGATCGCTTCCTAGCCCTCTCGGTTCACCCGGGAAACGGGCCGGTTGTCGCGGCCTTGTTGCGCCGGGTGGACTACTCGACGATTTTCACGACCATTGGGGATGATGCCAGCGTGCTGATCGTCTGCGTTTCGGCCGACGGGGCGGCTCAACTAGAACAGAAATTGAATGAATTAGCAAATGTCTAA
>SRR1151252_01129 DNA repair protein RecN
GTGCTGCAAGAACTGACAATTGATAACCTGGCCATCATCAAGCACCTGACCCTTGACTTCGCTAGTCAGATGACGGTATTGACCGGGGAGACCGGGGCCGGGAAGTCGATCATCATTGACGCGGTCGGCCTCCTCGCCGGTGGTCGGGGGTCCCAGGAATATATCCGGCGGGGTGAAGACAAGCTGAGTCTCCAGGGCCAGTTTGCCATCCCCGCTGACCCCGCGATGGGCGACCTCCTGGATTCGATGGGGATCGACCATGAGGATGGGATGCTGATCATCTCACGGGAGATTCACCGCAACGGCCGCAACATCATCCGGGTCAATGGTGAGCTGATTAACACAACGATGCTGCGCAAGATCGGTGCCCACCTGGTCGATATCCAGGGGCAAAACGAGCACCAACGCCTGATGCAGCCGGAGACCCACCTGGGGATGCTGGACCAATTCGCTGGCGCGGCGGTAACCCCGCTGCTGGCTAAGTATCAGGAACGCTATCGTGACTATGTCAAGCTCAAGGCAGCGGTCAACAAGAAGCAGGCCAACGAGCAGCAGTGGGCCCAGCGTTTGGACATGCTCCGCTACCAGGTTAAGGAGATCAGTGCGGCCGACCTGAAGCCAAATGAGGAAGATGAGCTGACGAGTGAGCGTGACCGTCTGGAGCACTTCCAGCAGATCAACAACGCCCTCCAGCAGGCGGTGGCCACCTTCAATGAGGGGGAGGTGCCAGTCCTCGATCAGATTGCGACCGTGATGGACGCGATTAACGGGATTGCCGATTTCGATGACGCCTATGACCAACTGAGCAAGTCACTCAATGATGCCTACTACGCCCTCCAAGATGTGGCGAACGAGGCCGGTCAGCAGCTGGACCTGCTCGAATTTGATGATGGCCGCCTGGCCGAAATCGACCAGCGGCTGACGACGATCGGTGACCTGGAGCACAAGTACGGCGACCAGGTCAAGGATGTCCTGGCCTATTACGATCAGATCAAGGCCGAGCTCGACGAGATGGAGAGTGCCGCCGACAGTAATAGTGACCTTGAGCAACGGTTGGCGACTGCTGAGGGTGAACTCAAGGAGTTGGGTAAGCAGCTCAGTCAGGTCCGGCAACGGGCTGCCCACGAGTTGGCCAAGCGGGTTCACCAACAGCTGACCGAGCTCTACATGGCCAAGGCGGATTTTGAGGTTCATTTCGCTAACCATAGTGCTGACGAGTTCACGCCAACCGGGATCGATACGGTTGAATTCTACATCCGGACTAACCCCGGAGAGACGATGGGTCCCCTGACCAAAATTGCCTCGGGTGGGGAACTATCCCGGGTGATGCTGGCCCTGAAGACGATCTTTGCCCAGAACGAGGGGGTCACCAGCATTATCTTTGATGAGGTCGACACCGGGGTCAGTGGCCGGGTGGCCCAGGCAATTGCCGATAAGATCAAGCTGATTGCCGCCCACTCGCAGGTGCTTTGCATTACCCACTTGCCACAGGTGGCGGCAGTGGCCCAGCACCACTTCCTGATCAAGAAGGGGGTCCACGACAACCGGACAACGACCCGGGTGACCGCGCTGACCGATCCACAACGGGTCGACGAGCTGGCACGAATGCTGTCGGGGGAGAAGATCACCGCACTGACCCGGGAGCACGCCCAGGAGCTACTTGAGATGGCCCATCCTGACGATAAATAG
>SRR1151252_01130 hypothetical protein
ATGCAACAAGTCAATCAACCAACCCTACTTCAGCGCGCTCCACAACTCCTGACCCGGACAATCCACCACCTGATGACGACGGAGCCGGTCTTCGTCCCCCAGGTTAGGCTCCTGACTCCCCAGCCGGTTCACCAGCGGCGGCTTTTCCTCAACCGGGCCATCAGTGCGCACTGGTCGGTCTTCTTCCAGCTAATGCCCAAGACAGCGGAGGGCTACCCGGTCAATACCTATGGCCAGGTCAAACCACTGGGCAACGACCGCTACCTTATTAACAGTCACCAGACAAGCTACGTGGTTGGCTTCGACCAGATCCGCTACATCGCCAACCTCTAA
>SRR1151252_01131 guanylate kinase
ATGGCAAATCGTGGAATGTTAATTGTCCTTTCTGGTCCATCCGGTGTTGGTAAGGGGACCGTCCGAAAGGCAATCTTTGATTCGAATGGCAATGACTTTCAATACTCTGTTTCAATGACGACCCGCCAGCCACGGCCGGGCGAGGTCGATGGGGTCGACTACTACTTTGTATCAAAAGAAGAGTTTGAACACGAGATTCAGACCGGGGGTATGCTGGAATACGCCAAGTATGTTGACAACTATTATGGCACCCCATTAAAATATGTAAATGAAACGTTGGATTCCGGCAAGGATGTTTTCCTGGAGATTGAGGTCAACGGGGCAATGCAGGTACGGTCGAAGGTGCCCGATGGGGTCTTTATCTTCCTGACACCACCGGACTTAGACGAGCTTAAGCACCGCCTGATCCACCGGGGAACGGACAGCATGGAGGTCATCAACAAGCGGATTCAGAAGGCATTTGGCGAGATCCAGATGATGCAGAACTATGATTACGCGGTTGTCAACGACGAAGTGCCCCGTGCCGTAGAGAAAATTAAGGATATCATCCGGACGGAACGGTTGCGGGTTCCCCGGGTGATGCCACGCTATCTTGAAATGTTAGGAGACTCACAGAAATGA
>SRR1151252_01132 DNA-directed RNA polymerase subunit omega
ATGATTCTTTACCCATCAGTTGACGAATTATTAAAGCGGATTGATTCTCGTTACTCACTGGTTATGCTGGCCAGCAAGCGGGCTCACGAACTGGACACCGGTTCCGCACCCCTGCTGGATCACTATGAATCCAGCAAGTCCGTTGGTAAGGCCCTCGAGGAGATCCTGGCCGGCAAGGTCACAATTGATCCTGACCACACCGAGGATTTGCAGGACTAA
>SRR1151252_01133 phosphopantothenoylcysteine decarboxylase/phosphopantothenate-cysteine ligase
ATGATGGCAAGAATAACGGTATATCTTTCGGGAAGCATTGCGGCCTACAAGGGAGTTGAAGTGGTTCGTGGCCTGCAGAAGGCCGGTCACGATGTCCGGGTCGTGATGACTGCAGCCGCTACCAAACTGGTCGGCCCGGCGACACTGAACGCACTGACCAAATATCCGGTGTTGACCGATCTCTGGAATAACCAGGACCGGCCGATCCCGCACATTGAGCTAGCCGACTGGACCGAACTGGCCCTGGTCGTGCCGGCCTCGGCAAACATCCTAGCCAAGATGGCCAACGGAATTGCCGACGATGCCGCTTCGACGACCCTGCTGGCCACGGCGGCGCCCAAGCTGGTGGCCCCAGCGATGAACCGGCAGATGTGGGTGAATTCGGCAACCCAACGGAACCTGGCCCAGCTCAAGCGTGACGGGGTCATCGTTATTGAACCGGTAACCGGTCGTCTGGCCGAGGGCTATGTGGGCCACGGTCGCCTGCCGGAACCGGACCAGGTTGTCGCCCGGGTCCAGGCATTCTTCCACACTCACGGCCTCCTCGCAGGCAAGCGGGTGGTCGTGACCGCTGGTGGAACGCGGGAACCACTTGATCCGGTGCGCTACATCGGCAATCGCTCCTCCGGTAAGATGGGGGTTGTCATCGCCCGGGCCGCCGCTCAGGCTGGTGCCCAGGTAACTCTGATCACCGGCCAGGTCAGTGTCCCCTTGCCGCATGAACCGCAGATCAAGGTGGTGACAGCTCTGACAACTGAGGAGATGTTGACGGCGGTTCAAGCAGCCTTTCGTGGGGCGGATGCCCTGGTGATGGCGGCGGCCGTGGCTGACTACCGGCCGGTCAGGGTGGCCAGCCAGAAGGTCAAGAAGACCACGGGCCACGGTTTACGGACGCTGGAACTGACCGAGACGGTCGATATCCTGAAGACCGTGGCCGCCACGAAACGGCCCGGCCAGCAGGTGATTGGCTTTGCGGCCGAGACTGAGAAACTCCTGACCCACGCCCAGGATAAGCTGACTAATAAGCACGCCGATATGATTGTCGCCAACAGCGTCGCAGGCGATACGGGGGCGTTTGGCCGTGATGACGACCAGGTTATCATCCTCCAGCCGGGACAGGATCCTGAGAAGTGGCCGCGAATGGCCAAGACGGCGGTCGCTCAACGGTTGGTTGCCGCATTAGCAGCGAAGATGAAGTGA
>SRR1151252_01134 primosomal protein N'
ATGGCAGAACTGGCACAGGTTGTTGTGGACGTGCCGACGATGCAGACAAACCAGCCCTATACCTACCTGGTACCGGCACCACTGGAAAAGCAGCTTCAGGTGGGAATGCGGGTGGCCGTCCCCTTCGGTAATGGTCACCGCCAGGTCCAGGGATTTGTGGTTGGCTTCTCTGAGCACGCCAATTACGATGGTGAGCTGAAGCCGATTGCCGCGGTGATGGACCTCCAGCCGGTAGTAAATACTGAACTCCTCGACCTCAGCAAGTGGCTGGCCGATACCACCTATTCATTCTGGATCTCCTGCCTGTACACCATGTTGCCCAATATGCTCAAGTCCAAGACCCAGCGCTTCGTTCAAGTGGTTGATGAGGTTGACGAGCAGACCTATTTCGACCTCTTCGGTGGCAAGGACGAGTGTGACCTGGCTGAGCTGCAGGGTGACCCGGCCAAGGTCAAGCAACTGTTGAAGCTCCAACGGGCAAAAAAGGTCGAGATTGACTATCGGGTGACCGACCGGGCCCACGCCAAGACGGTAACCGGGATCACCCCCCTATTGAACTTCGAACAATTAGAAGATGCGCGGACGTCATTGCACCCGAACGCCCATGCACAAAACCGCCTGTTATCATATCTACAGAGCATCGTCGGCCAGACCGTCAAACAGACGACGGCTGAACAGCAGGCCCAATTGCGGGCGGCAACATTTAACCAGGGGGCCAAGAAGGGCTGGCTCAAGAAGGTCCCGGTCGAGGTTTATCGCAATCCCTACGCCCAGCTGATTGACGATGACCACCTGGAGCAGCCGTTGCCCCTCAATCCTGACCAGGAAAGGGTGGTGCAAGCCGTCGACCAGGCGATTGATGGCCAACGGAGTCAGACCTTCCTCCTCCAGGGCGTGACGGGCAGCGGGAAGACCGAGGTTTACCTGCAGACGATTGCCCGGGCCCTGGATAAGGGACAGACTGCCCTGATGCTGGTTCCTGAGATCTCGCTGACCCCGCAGATTGTCAACCGGGTGCGGCGGCGGTTCGGTTCCCAGGTGGCGGTCCTGCACAGCGGCCTTTCCAACGGGGAACGCTACGATGAATGGCGGCGGATCAATAGCGGGGACGCCCGGGTGGTGGTCGGTGCCCGTTCGGCGGTCTTTGCGCCGCTGGATAATATCGGGGTGATCATCCTCGATGAGGAACACGAGACCAGCTATAAACAGGATGACATGCCCCGCTACCACGCCCGTGAGGTGGCCAAGTGGCGGAGCAGGTTCCACCACGCCCCATTGATCTTGGGGTCCGCCACGCCGATCCTGGAGAGTCGGGCCCGGGCACTGAAGGGGGTCTACCAACTGCTGCGGTTGCCGCACCGGGTCAACCAGCAGCCCCTGCCGCCGATTGAGGTGGTCGACATGCGGCCCGAGGTTCAGCGGCGCGGCGAGAGTAACTTCTCGACCAAGCTCCTAGAAGAGCTCGACCGCCGCCTGCAGCGCCACGAGCAGAGCATTCTGATGCTGAACCGGCGGGGATTTTCCTCGTTCATGATGTGTCGTGATTGTGGTGAGGTTCTGAAGTGTCCCAACTGTGACATTTCCCTGACCCTCCACCTGGACACCCGGACGATGAAGTGCCACTACTGCGGCCATGAGGAACCAATTCCCCAGGTGTGTCCCAATTGTCACAGCCGCCATATCCGCTACTACGGGACCGGGACCGAGAAGGTGGAACAAGAACTCCACCAGCTCCTGCCTGCTGCCCGGATTATCCGGATGGACGTCGATACCACCCGGCGCAAGGGAATGCACGAGAAGCTCCTCCGCCAGTTTGGCCACCAGCAGGCAGATATCCTACTTGGTACCCAGATGATTGCCAAGGGGCTCGACTTCCCTAACGTTACCCTGGTTGGGGTCCTGAATGCCGATACTGGCCTGGGGCTACCCGACTTTCGGGCCAGTGAGCACACCTTTGACCTCCTGAGCCAGGTTAGTGGTCGCGCTGGCCGGGCTAACAAGCAGGGGCAGGTGATCATCCAGACCTTCAACCCCGGCCACTACGCCATCAAGGATGCCCAGGCCCACGACTACGAGCGTTTCTTCCGCCATGAGATGAAACTGCGCCACCAGGCCGGCTACCCGCCCTACTATTACACGGTTCGGCTGATGGCTAGTCACCCGGAAGAGGCCCAGGCCGCCCGGGCGATGACTTCAATCCACCAGCAATTGGTGGCCAACTTGGCCCCGTCGACCATCATCTTAGGGCCGACACCCCGGGCGATTGCACGGATGAAACGGCGCTACTACTACCAGATTGTGATCAAGTATAAGTATGATCCGCACCTGCACGACCTTCTCCAGCAGATCCTGCAGGAGACACAGCGAAAGGAATTCAAGGATGTCCAGGTCAGCATTGACCCGGACCCGCAATACTTCATGTAA
>SRR1151252_01135 methionyl-tRNA formyltransferase
ATGTCAACATCAATTGTTTTTATGGGAACCCCGCAGTTTGCCGTCCCAATCCTCCAGAGCCTGATTGACCATCCCGAATACGACGTCAAGGCGGTGCTGACCCAGCCGGACCACCGGATCGGGCGCAAACACGTCCTGACCGCCTCACCAGTCAAGCAGCTGGCTGAAAAGTACGGCATCGAGGTTCTCCAGCCGGCCAAGCTCGCCAAGAGTCCTGAACTGGATCAAATCATTAACCTCCATCCCGACCTGATGATCACGGCGGCCTATGGGCAGTTTTTACCGACTAAACTGCTGGAAGCTGCCAAAATTGCGGCCATCAACGTTCACGGCTCCCTCTTGCCTAAGTACCGGGGTGGGGCCCCGATCCAGTACGCGGTTATCAACGGTGATAAGGAGACCGGGATCTCAATCATGTACATGGTCAAAAAGATGGACGCCGGGGATGTGATCGCCCAGGAGGCCATTCCAATCGAAAAGGATGATGACGCCGGCACAATGTTTGATAAGCTCAGTATTCTCGGGCGCGACCTCCTGCTCAAGACCCTGCCCGACCTGATCGCGGGCCGGGTCCACCCGGTTGCCCAGGACCCGACCAAGGTGGTCTTCTCACCAAACATCTCCAGTGAACAGGAACGGATCGACTACCGGATGACTGCCGCCCAGATCGACGACAAGGTCCGGGGGCTGCGGCCGGCCCCGCTGGGTAATATGGTCATCGATGGTCTGCGGACCAAGATCTACGATGTGACCCCGCTGGACGAGACGACCGACCGGCCCGCCGGCCAGGTCGTCCGGGCCACCAAGCACCAGCTGGTCCTGGCGGCCGGGGATGGGACGACCTACCAGATTAACCGCCTCAAGCCGGCCGGCAAGCAGGCCATGGACATCACGGCCTACCTCAACGGCCACCAGCAGCTCAAGAAAGGAGTTCAAGCAGTAAGCGATGACTAA
>SRR1151252_01136 16S rRNA methyltransferase
ATGACTAAGAAGACACAAACGACGGCCCGCGGGGTTGCCCTGACGGCCCTGGAACGAATCCGCCAGGGGGCCTACTCCAACATCGAGCTCGACCAGCTCCTTTCCCGGACGGCCCTCAAGGATAGTGACCGCCGCCTGGCTACCAACATCGTTTACGGGGTCCTCCAGCACCGGCTGACCCTGGAATACTGGCTGCGGCCGTTTATCCACCGGAAGCTGGACTCCTGGGTTGAGACCCTATTATGGATGTCGATCTACCAGTATCACTACCTCGACCGGGTTCCCGACTGGGCGGTTACCAACGAGAGCATCGAATTGGCCAAGCAGTGGGGCAATCCTGGTACCCGTAAGTTCGTCACCGGAGTCCTCCATGCCATCCTCCGCCAGGGCCTAGCTGACCTGGACACGATTGCCGATCCGGCCCAGTGTCTCGCCACTAAGGCCAGCGTACCGGCGTGGATGGTCAAGCGTTTCGTGGACCGGTACGGTCAGCCAACCACGGCGAAGCTCCTGACGGCGATCAACCAGCCGGCCCGCGTGGCCATCCGGGTCAACCCGGCTATCACCACTATGGACCAGGTCATGGCGGCCTTGGATCGGCAGGGGGTCGAATACCGGCCAAGTGAGATTGCCCCGGACGCCCTGGTGATTACCAAGGGGGAGGTCCTCTCCAGTGACCTCTTTGCTCAGGGAGCGATCACGGTCCAAGACGAGAGTGCCATGCTAGCCGTCGACAGCATGGGAGTTCAGCCCGGTGACCGGGTTCTAGACGCCTGTGCTGCTCCGGGTGGTAAGACGGTGCAGGTCGCATCCCGGCTCACCGCTGGCCAGGTCGATGCTCTTGATATTCACCAGCACAAGACCCGCCTGATTGAGAAGAACGCTCGTCGGCTCCACGTTGCCGACCGTGTGGTGACCCACACCCTGGATGCCCGCCAGGTCGATTCGGCCTTTGCCGATTCAACCTTCGATAAGGTCCTGGTTGACGCCCCCTGCAGCGGGATCGGCCTCCTGCGTCGCAAGCCGGAGATCCGCTACAGCAAGCGGCCGGCAGACAGTGACCACCTTCACCAGATTCAGCTGGCAATTTTGAACACAGTCGCGCCAAAAGTAAAAAAAGGCGGTATAATTACGTACAGTACGTGCACAATCCTGAACCAGGAAAACAACGGGACGGTCCGGGCCTTCCTGGCTGATCACCCCGACTTCGAACTGGTCAGGACCAAGACGACACGTCATGTTAAGGGTGATCGAACTTCCGCCACGTTGACGATCCTGCCGTCCGACTTCGGGTCCGATGGCTTCTTCATCAGCACACTCAGGCGGGTCAAGTAG
>SRR1151252_01137 serine/threonine protein phosphatase
ATGCAAGTTGCCTATCAAACGGATATCGGTCGCCAGCGATCGCAGAACCAGGACCGGGTTACCCAACACACCGACAAGAACGGTAATCACCTCGTCGTGATTGCCGATGGGATCGGGGGTAACCAGAGTGGTGACGTGGCCGCCGAAATGACCATCAAACGGCTCGGTCATCGTTTTAAGGTGGACAGCCCCACCGAACCACTGGAGGCGATCCGGTGGTTTGCCCGGGAGGTCCAGATAATTAACGACCAGATTCTTAAGAAATCAAAAGAGAAAATCAACTACCAGGGGATGGGGACGACGATGGTGGCCGCCATCATCTTCAAAAAGACACTCGTGGTTGCCAACATCGGTGATAGCCGGGGCTACCTGCTGCACCGGAGTACGTTGACCCAGGTCACGATCGACCATTCCCTGGTTAATGAATTGGTAATTAGCGGTGATATCACTGAGGAGGAGGCCTTAGAGCTTCCGCAAAGCAACATCATTACCCGGGCAATCGGGATTTCTAAGGATGCCCAGATTGAGGTTAATCGTTTTGACTTCAATCCGGGCGACCAGCTTTTGATGTGTTCGGATGGGCTCTTCAAGACCGTCGAGAAGCGGGACATGGTGGCGGTCCTTCGCCAGCCGATCTCGCTGAAGGCCAAGTGTGCCCAGCTGGTGGACATGGCCAATTCGGCGGGTGGCCCCGATAACATCACCGTCTTAATTGGAAAAAATGATGACCAGGAGGGTTGA
>SRR1151252_01138 serine/threonine protein kinase
ATGAATCCTGGAGACATAATTGGTCATCGGTATAAGATTATTCGCTTCCTTGGCGAGGGGGGGATGGCAAACGTTTACCTGGCCTACGACACGGTTCTTGACCGGCAGGTATCGGTCAAGGTGCTGCGCCTCGACCTGCGTGACGATCCCAATACCAAGCGGCGTTTTCGACGCGAGGCGATGTCGGCGACCAAGCTCAACGATCCCCACATTGTCGGGATCTTCGACACTGGCGAGGAGAACGGCCTCCAGTACATGGTGATGCAGTATGTTCAGGGGACCGACCTCAAGGCCTACATCAGGGACCACTACCCGATTGCCCTGCCCCAGGTGATTGACATCATGGAGCAGGTCCTGTCGGCAGTGGAGGCTGCCCATGCGCACGGTATCATTCACCGGGACCTCAAGCCACAGAATATCTTAATCGATGAGAATAAAAACGTTAAAATTACGGACTTTGGGATCGCCGTTGCGGTCTCCCAAAACTCCCTGACCCAGACCAACACCCTGATGGGGTCGGTCCACTACCTCTCACCCGAACAGGCGCGGGGCAGCATTGCAACAAAAAAGTCGGATATCTATTCGCTGGGAATTATCCTCTACGAGCTGCTGACCAGCAAGGTGCCGTTTGAGGGGGAAAATGCCGTCTCAATTGCCATCAAGCACTTCCGTGAGGACATCCCGTCGGTGCGATCTGTCAATCCCCATATTCCTCAGCCATTAGAGAACGTGGTGATTCGGGCAACCGCCAAGGACCCGATTGACCGCTACGAAAACGTCAAGCAGATGGCTGACGACCTGAAGACGTCTTTGGATCCATCCCGGGCCAACGAACCGCGGCTGGTGATCGACCATGACGACAACGACGAGACCAAGGTCCTGCCGCTAAACAAACTGCCCCATAACCGCACGGATCGCCAGCAGAGTCAGCCGACCACGCCTGAAAAGACAGCGGCCCAGCAGCCGAGCTTCTGGCAACGTAACCGCCGCCACGTCATGGTGGTAATTAGCCTGATCTCGGTTGCCATCGTGGCCGGGTGCAGCTGGTGGTTTCTCCTCCGACAGGTAATTGTTCCAGATATCGAGGGGCAGACCCCGCTTCAGGCTGAGCAGCGGTTGAAGAAGCAGTCGCTACGGGTTGGTAACATTACCCGGGTGCGTAGCCAAAACGTTGCAAAGAACCACATTATCAGCATGCAACCCGGCCCGAGTGCTAAGGCCCGGGTCAACAGCAGTGTGGACTTGAAGGTCAGCACCGGGGTCAGCCAGCTGAAGATGGGTCAGTATGTCGGTGAGGACTACGCTGAGACCGCCAAGCTACTCCGGCAGAAGGGCTTCCGGGTTCACAAACGAATGGTGTATTCCGACACAGTCGATGCCGGGACGATCACCAAGCAGAACTACCGGCGCGGGACGGTTGTCAAGCCGGGACGCAACATCATCGACTTTGAGGTGAGTGCCGGCAAGCAGAACATCAAGATCCCGGACTTTACTAACCAGGACGTCAGCGTTGTTCAGCAGTTTGCCAACAAGCATAACCTCCAGCTGACGACCCAGCAGAAGAAGTCCAAGACGGTTGCCACCAACCACGTGATCAGTCAGACCCCTAAGGCGGGGATGACCCTCAACCACGGTGACACCCTGACGGTCACGATTGCCAACTCCGGCAACCAGACCAAGACGACCAACATTCAGATTAATATTCCGTTTGATAGTAACGGTGGCCAGCGGGAGAACCGGGTCCAGGTCTACATTCGGGATGCTAACCATAACCTGACGATGGAGTATCAAGACATCACGATCAACCAGGAGACCACCATCAACGTGCCGTTCACCCTCAAGAACGGTCAGACGGGGGCCTATCGGGTTGTCCGCAACGGGCGGACGATCATGAGTGCCACCAACATTACCGGATAA
>SRR1151252_01139 ribosome biogenesis GTPase RsgA
GTGAAGACAGGAATAATTCAACAATCATTGAGCGGCTTTTATGACGTCATTGCCGATGGGCAGATCTACCGGACGCGGGGACGGGGAAACTTCCGCAAGAAGAAGATCAAGCCGATTGTCGGCGACCACGTTGAGTTTGAAGACGGCTACCTGCTGAAGGTGCTGCCGCGGCGTAATGCCCTGGTCCGGCCGCCGGTAGCCAACGTCGATGCCGCCGTGGTGGTCACTGCCGCCACCCAGCCGGTGTTCTCGGCCAACCTTCTGGACCGGCAGCTGATCGCCCTGGAGCGGCAGGGGATCATGCCCCTGGTCTACTTCTCCAAGACGGACCTGCTGACGGAGGACGAATACCAAGGTATTGCCCAGGTGGCCGCGGGTTACCGGGCGATCGGCTACGACGTCTTCTGTGCCCGTGAACCCTTTAATCGGGAGCAGCTGGCCCAATTGCAGGATGCCTTGACTGACAAGATCGTGACAATGATGGGTCAGACCGGGGCCGGTAAGTCGACCCTGCTCAACCATCTGGCACCCGGCTTGGACCTGGCGACGGGAGCAATCTCCCAGGCCTTAAAACGGGGCCGCCATACCACCCGGAAGGTCAGCCTGCTGGACGTCAATGGGGCCTTGATTGCCGACACGCCGGGATTTTCATCCTATGAGACCTTTGATATGACGGTGGAGGAGCTGCCGGGGCTTTTTCCGGAGATGCGCCGCCTGGCTCCCCAGTGCAAGTTCCGCGGCTGCCTGCACATCAAGGAACCGCATTGTGCAGTGAAAGACGCCGTCGAGAATGGTATAATCATGAAGAGCCGGTATGACGATTACCTGCAGTTTCATGAGTTAATCGCCAACCAGAAACCAAACTATAAGAAATGA
>SRR1151252_01140 ribulose-5-phosphate 3-epimerase
ATGATTAAAGTAGCGCCATCAATTTTGAGTGCCGACTACGTAAACTTACAGAAGGACATCGAAAAGGTTGACAAGGCCGGTGCCGAATACCTGCACATCGATGTCATGGACGGGACCTTCGTGCCAAGTATTTCTTACGGACCAGGCTTCGTGAAGGCCATCCGGCCAATCACCAAGATGACCCTGGACGTTCACCTGATGGTTGAAAGCCCAGAGCACATCCTGCCGATGTTCATCGACGCCGGCGCTGACATCATCGGGGTCCAGGTCGAAGCCACCCAGCACATTCACCGTGCCCTGCAGATCATCAAGAACGGTGGGGTTAAGGCCGAAGTCGTTATCAACCCTGGTACGCCAGTGGCAATGATCGAACCAGTCCTGCACATGGTTGACCAGGTTCTGGTCATGACGGTTAACCCTGGTTTTGGTGGCCAGAAGTTCCTGCCGGAGACGGTTGATAAGATCGCCCAGCTGAACGCCATCAAGCAGGAGAAGGGCTACAATTTTGACATTGAGATCGACGGTGGGGTCAACAACCAGACCGTTGTCGACTGCTACAAGGCCGGTGCCACGGTCGCCGTAGCTGGTTCCTACGTCTTCAACGCCGATGACCCGGCTGAACGGGTTAAAGCCCTGCGTGACGCAACGAAGTAA
>SRR1151252_01141 thiamine pyrophosphokinase
ATGCGCGTAAATGTGATGGTCGGGGGACCACACGACCTGATTCCAGCCGAAATGATCAAGCAGTATCGAGATGAGCCCTGGATCGGGGTTGACCACGGCGCCACCCTCCTTCTTGAATGGGGGATCACCCCGGTCGCCGCAATCGGTGACTTTGATTCCACCAGCCCGACTGAGCTCGCCAGGTTGAGGGCGGCCTTAAATGACATCGAAGTCTACCCGCCAGCCAAGGACTTCACTGATACCCAGCTGGGCATCATGACCGCCATCAAGAAGTACCAGCCGGATAAGATCGTCATTTGGGGCGCCACCGGTGGCCGGCTGGACCAGGAGCTGGCCAACCTCTACCTGCCGCTCCAGGATGCCTTTTCTGACTACCTATCGCAAATTGAGCTGGTCGACCGCTGTAACGTTATTCGTTACTTCCGGCCGGGGACCTATTCGATCCACCGGCGGCCGGGCTTTGACTACCTGGCCTTCGTTAATTTGACTCCGGTAACCGGGCTGACCCTGCCAGACGAGAAGTACCCACTGGTCAATTGGGCCAGCACGATTCCCTTTTCCTGGTCAAGCAATCGCTTTACCAGTGCGGTCAACCACTTCTCCTTTGATAGTGGGGTGGTCGCGGTGATCTGGTCCCGCGATTAG
>SRR1151252_01142 50S ribosomal protein L28
ATGGCTAAAGATTTTATCAACGGTAAACGGACACGCTTCGGTAACAAGCGTTCTCACGCCCTTAACTCAAGTCGGCGCAGCTGGAAGCCAAACTTGCAAAAGGTAACCATTCTGGTTAACGGCAAGCCAAAGAAGGTTTACGTTTCAGCACGTACACTGAAGTCCGGTAAAGTGACTCGGGTTTAA
>SRR1151252_01143 hypothetical protein
ATGGCAGTAAAGATCAAAACCAAGGCGGGCACGATTGACATCGACAACGATGTAATCTCATCGGTTGTCGGCGGGGCCGCCACTGATAACTATGGAGTTGTTGGGATGGCAAGTCGGAAGCCATTACGCGATGGCGTGAACCAGATCTTGCGGCGCGAGAACTTCAGCAAGGGTGTCGTCATCCGGCAACAGGATAATGGAATTACCGTTGAGGTCAACATTATCGTAAGCTACGGGACGAAGATCTCTGAGGTTTCCAAGAGCGTCCAGTCCAAGGTAAAGTACAATCTAGAATCAATGCTCGGCATCACGGCAGACGCCGTTAACGTCTGTGTTCAGGGTGTTCGTTCAATGGAAGACTAG
>SRR1151252_01144 DAK2 domain fusion protein YloV
TTGGCTGTCACAGAAATTACAAATCTTGAATTTGGCAAGATGGTCCAAGCGGCCGCCGACAAGCTCAACAAGAATGCCGAATTCATTAACTCTTTGAATGTTTTTCCGGTGCCCGACGGTGATACTGGGACCAACATGGCCTCATCCATGGCCAGTGGTGCCAAGTACGAACGCGCTGAGCACAGCACAGCAGTTGGTGACCTCAGCGCTGCGCTGGCCAAGGGTCTGTTGATGGGGGCGCGGGGTAACTCGGGGGTTATCCTGTCCCAAATTTTCCGGGGCTTTGCCAAGGCTGCGGATGGCTTGGACAAGCTGAGTGCCCAAGACTTCGTTGACGCTTACGCCAACGGGGCTAAGACGGCCTACAAGGCGGTTATGAAGCCGACGGAGGGAACCATTTTGACGGTGGTTCGTGAGTCCGCTCAGGAGGGGCTCAATAAGATCAAGGAGACCGACGACCTGACGGCGATCATGCACGCCATCTACGAGTCCAGTGAGGCGGCCCTCAAGACCACCCCCGACCTGCTACCGGTTCTGAAAGAGGTCGGCGTGGTTGACTCCGGTGGCCAGGGCCTGGTCTTCGTTCTCCAGGCCTTCGATGAGGCCCTGAGTGGTCGAATCGACAAGAGCGATAGCTACAAGCCGGACACCGCCGAGGTCGACGAGATGGTCAACGCCATGGACCACCAGAGCGTGCAAGGCAAGTTGGACCCCAAGGATATCGAGTACACCTACTGCACCCAGATGCTGGTCCGGCTCGGCAAGGGGAAACAGGTCACCAAGCAGTTTGACTACGACACCTTCTACAACCACCTGGCCAAGATGGGGGACAGCCTGCTGGTCTTAAACGATGATCAGGTCGTCCGGGTGCACGTCCACACGGAGCATCCCGGTGAGGTGTTGACCTGGGGACAGCAGTTCGGTGACCTGCAGACCATTGAGATCCACAACATGGTTTGGCAACAAGAAGAGATCATGGAACACGATGACGAAGAGGCTGCCGCCGGTTCCGCTGACCAGGCCGAAGAAGCGGCCTCCGCACCGGAGACGGCCGTCATCGCAGTGGCCTCTGGTGACGGGATCGCCAAGCTCTTGAAGAGTCTTGGTGTCACCCACATCATCAGCGGTGGTCAGACCATGAACCCAAGCACCCAGGACATCACGGACGCCATCAACCAGAGTGGTGCCAAGCAGGCCCTGGTGCTGCCGGATAACGGGAACATCTTCATGACCGCCGATCAGGCAGCCAAGGTGGCCGACATCCCAACCAAGGTGGTTCACACCAAGACGATTGCCCAGGCCATGTCTGCCATGCTGGAGTACAATGCGGAAGCCGCCCTTGAAGATAACCAGGCCAACATGGAGGAATACATGACCACGGTGGCTAGCGGTGAGGTTACCCACGCCATTCGTGACACGAAGATCGATGGCCAAGAGATCCAGAAGGACGACTTCCTCGGTATCGTCGACGGTAAGATTGTCTCTGCCACCCCGGACCTGCAGGAGACCGCCATCAAGATGGTCAAGCAGATGCTGGATGAGGATAGTGAAGTGGTCACGATCCTTGTCGGGGCCGACGGTGATTCTGAGACTGCCGAAGCCATCAAGGGGGCCATCCTGGATGTGGACGACGAATTGGATGTCCAGATCTATGACGGTGGTCAGCCAGTCTACCCATACCTGATCTCAGTTGAATAG
>SRR1151252_01145 ATP-dependent DNA helicase RecG
ATGCAGAGCTTACAGGATCCGGTCACCAAGTTGAAGGGGGTCGGGGCCAAGCGCGCTGCCGATCTGGCAACGTTAGGGATCGATACGGTGGCCGACCTCCTGACCTACTATCCGACCCGCTACAATGACTTGACGCCCGCAGACATCCAGGCGGCCAAGGACAAGCAGAAGGTTACCCTGGTCGGTAAGGTGGTGTCCGAACCCCTCCTGACCCGGTTCGGTTACCGTCGCAACCGGCTCAGTTTCCGCCTCCAGGTCGGCAACAACGTGGTGATGGTAACCTTCTTCAACCAGCCCTACCTGGAGAGGAAGCTGGTCATCGACAAGACGGTGACGGTGATGGGCAAGTGGGACGCCCGGCGCCAACAGGTAACCGCCAACCGCCTCCTCGACGCGGCCCCCCAGGAGAGCAATGACTTTGGGGCCGTCTATTCCGTGAACAAGCATGTTAAGCAGGCGCTGTTGCGGAGCCTGATTCGCCAGGCATATGAGGAGTATCGAGGGGTGATCCCCACCCTCCTGCCGCAAACCCTGCGCCAGCGTTACCGCCTTCTGAACCGGCGGACGATGATTAAGGAACTCCACTTCCCGACCGACGCCGCCCAGGCCAAGGCAGCCCGGCGAACCGCCACCTACGAGGAGTTCTTCCTCTTCCAGCTCCGCCTGCAGGCGATTCGTCAGGCCCAGCGCCAACAGGATGGGCTACAGATCCTCTACCATAATGATGAGGTCAAGGAGTTCATCTCCCACATCGGTTTCGAGCTGACCAATGCCCAGAAGCGGGTGGTCAACGAGATCTGCGCCGACCTGCGCCGGCCCTACCAGATGAATCGCCTCCTTCAGGGGGATGTTGGCTCCGGGAAGACGATCGTGGCGGCGATTGCTATCTACGCCACGATCACGGCGGGCTATCAGGCGGCGCTGATGGCCCCCACCGAGATCCTGGCGGCCCAGCACGCCGAGAAGTTGGCCAAGACCTTTGCCGGAACCCACGTCCACATTGGTCTGCTGACGGGTTCGCTGTCGGCCAAACAACACCGTCAGCTGCGCGACGCCATCAAGCGCGGTGATATCAACCTGGTCATCGGGACCCACGCCCTGATCCAGGACGACGTTGAATACGCTAACCTCGGTCTGGCAATCACCGATGAGCAGCACCGTTTCGGGGTCAACCAACGCCAGCGGCTTCGGGAGAAGGGGGACAACCCCGATATTCTAGCCATGACCGCTACCCCGATCCCGCGGACCCTGGCAATCACGGCCTACGGTGAAATGGACGTTTCGATCATCGATGAACTGCCAGCCGGTCGTAAGCCGATCCAGACCAAGTGGTTCAAGGTCGACCAGCAGAACGAGGCCCTCCACTTTCTACGCGACCAATTGGCAGCCGGGGCCCAGGCCTACGTGGTCAGCCCCCTGATCGAGGAGTCCGAGGCGCTCGATGTTCAGAACGCCACCGACCTCTACCAGCAGCTGGCGACCTACTTGGCCCCTGATTACCAGGTTGGCCTCCTCCACGGGCGAATGACCGGTGAGGAGAAGGACCAGGTCATGCACGACTTTCAGGATGGCAAGACCCAGGTCCTGGTTTCGACCACCGTCATCGAGGTTGGGGTCGACAACCCCAACGCCACGGTGATGATCATCTACAACGCCGACCGCTTCGGCCTGGCCCAGCTCCACCAGCTGCGGGGCCGAGTCGGTCGTGGCGACCGGCAGAGCTACTGCCTCCTGCTGGCCGACCCCAAGACCGACGACGGTAAGGCCCGGATGAAAACAATGGTCGCGACCAATGACGGTTTTAAGGTGGCCCAACGTGACCTGGAGCTGCGCGGGTCCGGGGACGTCCTCGGCCGCAAACAGTCCGGCCTGCCCGACTTTAAGGTCGGTGACCCGGTCGGTGACCTGAAGACCCTCCAGATTGCCCGCAACGATGCTGAGCAGCTGCTTAAGGCCCCTCACTGGGACATGATTGATGACAACCAGCCGCTGGTGCTGTACCTACAACGCCACCAGCTAGAAACACATTTTGATTAA
>SRR1151252_01146 phosphate acyltransferase
ATGAAAATTGCAGTTGACGCGATGGGCGGCGACAAGGCCCCCAAGGTAATTGTGGAAGGGGTGGAGCAGGCCCGTGACCTGTATCCCGACCTGGAGTTTGACCTCTATGGGAACCCGGACGCCATCAAGCCGCTGATTAAAAACGACCAACGCCTGACCATCATCCCGACCAGCGACGACATCACGATGGGGGAAGAACCGGTCCGGGCAATCCGGCGCAAGAAGGACTCCTCAATCGTGAAGGCAGCCACCGCTGTTAAGCACGGGGAGGCCGACGCATTCTTCTCCGCCGGCAACACCGGGGCAGTCCTGGCCGCCGGGATCTTTATCGTCGGGCGGATCAAGGGGATCGACCGACCGGGGCTGACCAGTGTCCTGCCGATCGCTAAGCCCGGTGCTAGCCGCCACAGCTTCGTTTACCTCGACACCGGGGCCAACGCCGAGAGTAAGGAGAAAAACCTCCTCCAGTACGCCTACCTGGGTAAGTTTTACGCCGAGAGCGTCCTCGGCGTGGCCAACCCGCGGATCGGCCTACTCAACAACGGGGCCGAGGAGGACAAGGGGGATTCCCTGCATAAGGCTGTTTGGCAACAGCTCAATGCCCGTGACGACCTGAACTTCATCGGCAACGTCGAGGCGGGCGACCTCCTCTATGGCAAGGCCGACGTGGTGGTCAGTGATGGCTGGACCGCTAACGCCGCCCTGAAGGCCACCGAGGGAACGGCCAAGATGATGCTGACCCTGATCAAGCACGGGATCTTAAACGGGGGTTTGCGGGCCAAGCTGGGTTACCTCCTGCTCAAGCCGGTCTTCCATAAGATCGGGCAGACGATGAGCACCTCAACCTATGGGGGCGCCGTCTTACTCGGGCTGAAGGCGCCGGTCGTCAAGACCCACGGGGCCTCTGACGCCCTGGCGGTCAAGAACACCATCGGCCAGATCCGGACCATGCTCCGGGCCCAGCTGATTGAGAAGACCGTCGACTTTTTCACCGATAATCCAGAAGTGGACAAGTCAGGGAAAAACGAATAG
>SRR1151252_01147 acyl carrier protein
ATGGCTGATAATAGAAGAAAGGAAATCTTCGATAAGGTTTCCGAGATTGTGGCCGACCATTTCGATGTTGATCGGGCTAAGATCACCGATGAATTAAACCTGAAGACCGACTTAGACGCGGACTCCATTGACTTCGTTGAATTTGTCCTGGAACTTGAGGATACCTTTGGCTCGGAGATTGACGACGAAGACGCCGAGAAGCTGAGTACGATCGGTGAAGTGGTTGACTACATCGAGCAACACACAAACTAA
>SRR1151252_01148 ribonuclease III
ATGATCAATGAACTACAAGACTACCTGGCCAAGGAATTTGATATTCATTTTGATGATCCGGCACTGCTGGCCGAGGCCTTTACCCAGGCTTCATACGTCAATGAGCACCCGAATCAGAATCTGAAGTTCTATGAGCGGATCGAATTTCTTGGCGATGCCGTGTTGGAACTGATCGTTTCGGAGTACATCTACAAGCGTTACCCCGAACTGCCCCAGGGAAAATTGACCCGACTGCGGGCGGCAATGGTCTGCGAGGACAGCTTCTCCAAGTTTGCCAAGGAGTGTCACTTTGACCAGTACATCCGCCTGGGCAAGGGGGAGGAGAAGGCTGGCGCCCGGCAGCGTCCCGGCCTGCTCTGTGACATCTTCGAATCCTTCGTTGGGGCCCTCTACCTCGACCAGGGACGGCCGGCCGTGGAGAAGTTCGTCCGCCGGGTGATCTTCCCGAAGCTGGACATGGGCTGGTTCGACCACGCTGTCGATGCCAAGACCAGTCTGCAGGAATACCTGCAGCGCGACGGTGATGTCAAGATCGGGTACTACCTCCTCAACGAGACCGGGACCGAGAACGACCCCGAGTTCCACGTCGACGTGATGGTGGACGGGCAGGTCATCGCCGACGGGCACGGCTCCTCGAAGAAGCATGCCGAGATGCAGGCGGCCCAGAACGCCCTGAACAAGTTACGCAAGCAAAGCAATTAA
>SRR1151252_01149 chromosome segregation protein SMC
ATGCAGTTATTGTCTTTAACGTTAGACGGCTTCAAGTCGTTTGCCCAGAAGACCACGATCAAGTTTGAACCGGGGATGACCGGGATCATCGGGCCCAACGGCAGCGGCAAGAGCAACATCATCGAGGCGATCCGCTGGGTGATGGGGGAGCAATCCGCCCGGCACCTGCGTGGTGATAAGATGGCTGATGTCATCTTCAACGGAGCCGCAGACCGGCAGCCGCTGAACCGGGCCCTGGTTTCGATCACTCTGGACAACAGCGACCACTACCTGGCCAGCGATTTTCGGGAGTTGACGATCACCCGGAAGCTTTACCGCAACGGGGACAGTGAATACCTGATCAACAGCCAGAAGGTACGGCTCAAGGACATCACCGACCTCTTCATCGACTCGGGACTGGGCCGGGAATCGTTTTCGATCATCTCCCAGGGCCGGGTGGCTGCGGTCTTCAACGGGAAACCGGTCGACCGGCGCGGGATCATCGAGACGGTGGCCGGGGTGGCCAAGTACAAGCAGAACAAGGAGACCGCCGAGAAGCGGTTGACGGCGACGATGGACAACCTCAACCGGGTCAATGACATCATCAGCGAGCTCTCCCGGCAGTTGGAACCGCTAGCCGACGAGAGCGCCCTGGCCAAGGACTACCTTGAGCAGAAGAAGCAGTTTGACCTCCTTGACCGCACCCAGACCGTCCGTCAGTATGACCGGGAGCGGGCCCACTTCACTAAGGTGCAGAGTAAGTACCGGCAAACAGCCAAGCTGGTGGCCGACTACCAGGAGAAGCAGGCCAAGGTCGACGCCGTATTAGCCAAGCTGAAGCAGCGCCGGGCGGCCCTCCTCAAGCAAAAGGATGCCGACCAACAGGCAATCCTGACCCAGACGGAAAAGATTGCCCAGCTGAAGAACGCCCAGTCGATGTCCTCGATGAAGCACGACCAGCAGAAGGCCGACCAGCGCCGGTTAAGTGACCGGGCCGCGCAGCTGAGTGCTGACCTAAAAGCGGCCCAGCAGGCCCAACAGACGGTACAGGACCAGTTGACTACCCACCAGCAGGAGATGGACCAGCACCAGGCCGACTACGACGCTGCCCAGCAGATGAGCAACGCCGAGCGGATTCAGGCATTGAACAAGCAGTTAGATGACCTGCGCGATCAGCAGGTCAACCTGATGCAGGAACTGACGACGGTGCATAACCAGCAGGCCTTCCTGAAGCGTAGCCATGAGCAGCGACTCAGCCAGCAGAACCAAAGCAGCAGTGAGCTTCAGGATAAGCAAGCCCAGCAGGCTAAATTAACGGCCGACCAGGCGGATCAACAGCGATCGGTCGAACAGTTGGGCCAGCAGGTGACCCGGCTTCAGGAGCAGTTTGACCGCGTCAGTCGGCAAGTGACCACGACCGGTTCCCAGTACCAGCAGGCCCAGCGTGACTGGTATGCGGCCCTGGGGGATGTTCATTCCACCAAGGCCCGGATCAAGAACTACCAGGCGATGAGCGAAGAATACGCCGGCTACTACCAGGGGGTCCGGACCGTCCTGCAGCACCGGCAGAACTTCCCGGGACTGGCGGGGTCGGTCAGTGAGCTCTTTGACGTACCGGCCAAGTTGACCACGGCTATCGAGACCGTTCTCGGTGGTCAGCTCCAGCAGCTGGTGGTTGACCGGCAGGCAACCGGGAAACAGATCATCAGCTACTTGGTCAAACACCGGGGTGGCCGGGCAACGATCCTGCCGCTCGACACCCTGATCCAACGTCGGCCCGCCGGTTCCTGGAACCGGGTGGCCGCACTTCCGGGGGTCGTTGGTCGGGCCGTTGACCTAATTCGATTTGACCCCCAGTACCAGCTGGTGGCGGACTACCTGCTTGGTAGCACGGTGGTGGCCGATAACCTCGACCACGCCACCGTAATTTCCCGGGCGGGTCACCACCAGCTCAGGGTGGTAACCCTAGATGGTCAGCTGATCAACGCCAGCGGGGCAATGACTGGTGGGGCCAACCGCCACCGCCAGCACGGCCTGTTGGCCCAGAAACAGCTGGGCAAACAACTGACTGACCTCCTCCACCAGCAGGAGGAGCAGGTCACCCAGGCCGAGCAGCGGGTGGCCGACCTCAAGGACCAACACGATGACCTGGCTAAGCAGGCAACCGCCCTGCAGGAGCAGCTTCACGCGGCCCAGCTCGACCAGCACGCAGCCCAGTCCCAGCTGACAGTCTTGGCTGACCGGCTCCAGGACCTCAATCGCCAGGTCCAGGCTCTCCAGTCGCAGGCCGACCAGCAGGGCAGTCAGGTTAAGAGTGACCAGGACCAGGTGGCCCAACTGAAAAAGAAGGAAGACGCGGTAACCCACCGTCAGCGGGCTACCGAGCAATCAATCAGTAAGCTGACGACCCAGGTTCATGAGCTGGAGACCAACGCCTCGGCTCAAAACGAGCAGCTTCACCAGATGGAGCAGTGGCTGGCCGTGGCCGCCGAGCGCAAGCAGCAGTTTCAACGTCAACTGTCGGCGGCCCGGCAGACGGTCACCACTACCCAGGCGGCCTTGGACCAGGTCCAACAGCAACTGACGGCGCTGACAGCGGTCATGAATGATGACCATTCCGCAACGATGTCCAACGCGACCGCCCTGCAGGATGCCCAGGAGCACTTGGCCAAGACCAAGCAGGCGGTCAAAGAAGATGACCAGCAACTGGCCAGCCTGGCTGACGACCTCGCCATTCAGGAGGATCAGCACCAGCGGACCACCGCCCTTCAACAGGCGGCGAGCGATGATGCCGGCGACCTCAAGGCCCAGCAGGCGCGCAGCGAGAGCCGGATGGACCAGTTGCTCAACCACCTGAGTGAGCAGTATCAGCTGACCCTCGACGCGGCCCGGCAGGGGATCAGTGACCTGGCCGATGACCAACTCAACCGGCAGTTGAAGCTGTTGCGGCGGGGGCTGGCCGAGCTGGGTGACGTCAACGTTGGCTCGATTGCCGAATACGACCGGGTCAAGAAGCACTACGACTTCCTCAAGGGCCAGCAGGATGACCTCCTGGCGGCCCGTAAGCAGCTCAACCAGACAATGGGTGAGATGGATAGCCAGGTCGAGCGGCGCTTCACCCGGACCTTCAAGCAGGTTTCGACGGCCTTTGACGAGACCTTCAAGCAGATCTTCGGTGGCGGTCAGGCCAAGCTGGTCCTGACCGATCCGGACCACCTGCTGACGACGGGGATCGACATCATGGCCCAGCCACCGGGCAAGAAGAACCAGCACTTGAGCCTCCTCTCCGGGGGTGAGCGGGCCCTGACCGCCATCACTCTTTTGTTTGCGATCCTGAAGGTGCGGCCGGTACCGTTTGCGATCCTAGACGAGCCCGAGGCGGCCCTGGACGAGGTCAATGTGCAGCGCTTTGCCCAGTACCTGAACCGCTTTGGCAAGACGGGGCCCCAGTTCATCGTCATTACCCATCGAAAGGGGACGATGATGGGGGCCGATGTCCTGTACGGGGTCACCATGCAGGAATCCGGGGTTTCCCGGATGGTTTCCGTCGACGTGATTGATACAATGAATGAAAAAGAAAATTAG
>SRR1151252_01150 cell division protein FtsY
ATGGGATTATTTGATATTTTCCGCCGCCACAAGAAGAAGGCGGCCGAACAGTCGACCGCGCCCGCTCAAGAGAGCAGTGCGGCGGCCAGTCAGCAGCCCAGTGCCGACCAGGAGGGAGCAGCCAGCCAGGCTAGTCAGCTGACTGCAGCTCCCCAGTCAACGGCAAGTGCCGACCAGGGGGGAAGTGCGGCCCCAACCGCCCCTACGTCTGCTGTCGATCAGCAGCCAACTGAGCCAGAGGGGGCGACTAGTGTACCCGCTGATTCTGGAGCCAGCGTCCAACCAACTGTGGGATCGTCAGCTACCCAGTCAACCAGCCAGCCCGCACCGGTCCAATCAACAACCAGTGCGGAATCGGCTGTGGCCAGCGAATCGACCACTGACAGCCAAGCCACGGTGTCGGTCACGTCGACCGGCACCACTTCCTCAGCCAGCGTTGCTTCTGCCACGGCCAGCGAGTCCGCGGCCAAGGAAGCAGCGTCCGTGCGGGCCGCGTCTGCTAGCCCGATGAGTGACACCACCCCAAGCAGCGAGGAGGTTGCCACGTCTGCCGCAGCAGTGGCCAGCAGTACGGCCGCCGTTGAGGAAGTTGCATCGACGGCTGCCGCGACTAGCGAAGCACCGACCAGTGCAGACGATAGCGAGACCGACCAGACCGCTAAGAAGTACGACCGTGGCCTGGCCAAGTCCCGGACCGGTTTCGGGGCCCGGCTCAACCGCTTCTTGGCCAACTTCCGTCACGTCGACGAGGACTTCTTCGACGACCTGGAGGACATGCTGATCGAGTCGGATGTCGGCTATGACATGGCGATGAAGCTCAGCGATGAGCTTCGCGAAGAGGTCAAGTTGGAGAACGCCAAGAGCAAGCAGGAGGCTTCCAACGTCATCATTGAGAAGATGGTTGACCTCTATGACGCGGCCGGCAAGGATGAGAAGGCCGACCTCAACATGGCAGCTACGGGTCCGACGGTGATCATGTTTGTCGGGGTCAACGGGGCCGGAAAGACGACCACCATCGGAAAGATGGCGGCCCTCTTCAAGAAGCAGGGCAAGAAGGTCCTGCTGGCGGCCGCCGATACCTTCCGGGCCGGGGCCACCGAGCAGCTGGTTGTCTGGGCCAAGCGCGACGGTGTTGACATCGTCACCGGGCCGGAAAATGGTGATCCCGCTGCGGTCGTCTTTGATGCGGTCCAGAAGGCCAAAAAAGAGGATTACGACATCCTCTTCGTCGACACGGCTGGTCGGCTGCAGAACAAGGTCAACCTGATGAAAGAGCTGGCTAAGATGAAGCGGATCCTGACCCGGGAGATCCCGGACGCCCCGCATGAGGTCCTGCTGGTCTTGGACGCCACGACCGGGCAGAACGCCCTGAACCAGGCCAAGCTCTTCAAGCAGAGCACCGACGTCACCGGGATTGTCCTGACCAAGCTCGACGGGACCGCCCGCGGGGGAATCGTCCTGGCGATCAGAAACGAACTGCACCTGCCCGTCAAGTACGTCGGCCTCGGTGAGCACGTGGACGACCTGCAGAAGTTCGACGCTAGCGACTTTGTATACGGCCTTTTCAAGGGCCTGGTCGATGTCGATTAG
>SRR1151252_01151 DNA-binding protein
ATGGAAATTGAAAAGAACTACCGGATCAACTCCCTGTTTGAGTTTTACCAGCCCCTTTTGACCAAGAAGCAAAACGAGTACCTGGACCTCTACTACGGGAACGACTACTCTCTCGGTGAGATCGCCGAGAACTTCAACATCAGTCGGCAGGCGGTCTACGACAACATCAAGCGGACCGAGAACATCCTCGAGAGTTACGAGACCAAACTGCACCTGTACGCAGAGTTTCAGGCCCGCAACAAGCAGGCCGACGAGATCCAACAGTACGTACGCACACACTACCCGGATGACGCCCGGCTCAATGAACTGGTGGGTCATCTGGAAAGCTTGGAGGAAGAATAG
>SRR1151252_01152 signal recognition particle protein
ATGGCATTTGAAGGATTAACGGAACGCCTGCAGAAGGCGATGGAAAAACTACGGCGCAAGCCCAAGGTTACGGAGGCTGACCTCCGGGAAACCATGCGGGAGATCCGCCTGGCCCTCCTGGAAGCCGACGTTAACTTTGCGGTCGTCAAGGACTTTGTGAAGAAGGTCCGCGAGCAGGCCGCCGGGGCCGAGGTCCTCAAGGGATTGAACCCGGCCCAGCAGATTGTCAAGATCGTCAACGTCCAGCTGACCGAACTGATGGGGGAGGAGGCCGTGCCGCTCAACAAGGCCGCTCACATCCCAACCGTCATCATGATGGTCGGGCTCCAGGGGGCCGGGAAGACGACCACGGCCGGCAAGCTGGCCCTGCGGTTGAAGAACGAGAACCACGCCCGGCCGCTGTTCATCGCGGCTGACGTCTACCGGCCAGCCGCCATCACCCAGCTGCAGCAGGTGGCCGCCCAGATTGACGTCCCAGTCTTTGAGAAGGGGACCGACGAAGACCCCGTCGAGATTGTCCGCCAGGGGATGGAGGTTGCTAAGCAAAATCACAACGACTACGTGATCATCGATACGGCCGGGCGGCTCCAGATTGACGAGCAGCTGATGGATGAGCTGGCCAACATCAAGGAGCTGGTTCACCCGGACGAAATCCTCCTGGTAATCGACGCGATGACCGGTCAGAACGCGGTTAACACCGCCCAGGGCTTCGATGATAAGCTTGACATCACCGGGGTTGTTCTGACCAAGCTCGATGGTGATACCCGTGGTGGGGCCGCCATGTCGATCCGGGCCGTCACCGGCAAGCCGATCAAGTTTGTCGGTGAAGGGGAGAAGATGGAGGACTTGGATGTCTTCCACCCCGACCGGATGGCCTCGCGGATTCTGGGCATGGGAGACATGATGACCCTGATCGAGAAGGCCCAGAAGAACTTCGACGAGGAACAGGCTCAAGAGACCATGGACAAGATGCGGGAGAACACGTTTGACTACAACGACTTCCTCGCCCAGATGGACCAGGTCACCAAGATGGGGCCGCTGGAGAACATCCTCAAGATGATGCCGGGGATGGCCAACAACCCGGCGTTAAAGAACGTCAACCTCGACCCGAAGCAGTTTGCCCACATCCGGGCGATCGTCCTCTCGATGACGCCGGAAGAACGGGAGAATCCCGACCTGATGAACCCGAGTCGACGGCGGCGGCTGGCGGCTGGTTCCGGCCGGCCGATCGTCGAGGTCAACCGGATGATCAAGCAGTTCAACCAGATGCGTAAGATGATGAAGCAGGTCACCAACGGCAACATGAGCGGGATGCAGAACCTGTTTGGCGGTCAGATGCCCGGTGGCAAGATGGGGCAGATGGCGATGAACCGGATGGCCCGCAAGATGAAGAAGGACAAGGCCAAGCGGATCAAGAAGCTCCGCAAGCTGCGCAAAAAACACTAA
>SRR1151252_01153 putative mucus binding protein precursor
TTGAACGACCAGATTGGTACCGCTGACGGGCAGATCGCTGTTACCAGTCATGAGGTCACCCAGAGTGTCGGGAATAAGCCTTCGGGAACCCCCGGAACACTGGATATTCACCTGGGGTTGAACATTCCAGTCAGTGCGATGTCCAATATCCAGTCCGGTGACTACCTGGACGTTAAGCTGGGGTTGCCCTACCAGACTAGTGACGGGCAGAACTACATCCTCAATTATGGTTCGATTAACGACCAGGCCGGTGCGCAGCCAATCAACTACCGGGGTAACGTGGCGGGCTATATTGTCCCGGTCGGTGACCTGCTGAATAAGTACCGCCAGACCGTCGTAGGACCGGATGGCCAGGAGACGGTTCAGGTTAACAACAATACGGACCAGGCCAGCTACGGGTCCGGGAACGGCTATTACCGGATTATTTTTACGGATGGATTAAGGAATATTCTGGCGAGCCACCCCGGAATTAGTACCCCTTGGGACCTAAGTGCCGATCTGGTCTGGTATAACGGGAGTTCTAATGGGGACGATAAGGTTAAGAAACCGACGGACCGGGTGACGGTCTACACAAATGGGGACGCCAGCAGTTACCAGCCCGACAATGACCTGCAGGTGGGGAACCTGTCAATGGGCAGCGGTGTTACCGTTAAGGCCGTCAAGGTTAACGCCCAGGACGATGCCATTTCACTGAGTAATGAGACGGTTGCCAGCAACCACACCGCCAGTACTCCCGCCCATAACTGGTTCAAGGACGAAGATGGCAAGGATTACGTGGTTACCTCGCCACAGCAGGGGGTGGGCCTGTCCACCACGGACGGCAATAACCACCAGCTGGGCAACGACTTCACGATCACTGTAACCAAGCCTAGCGGTACTAAGGCGGTAACGATGAACTTCGTATCGGCCGATGCCCTACAGCAACAGCTCCAGAAACTGATCGTGCCGGCAAGTTATAATTCAGCAATGGCGGATAGGGTTGATGATGGTGACTACTACCTGTCGCACCTCTTCACCTACCAGGCCCCAAAGGTTACCGTCACCAGTACGGGTTCTGGTGACCAGGTGGCCTACCACGTCCAGATTGATGGTGACTATCAAGGCTTCCGTTCCAATAATGAGTATCAGGATAACCAGGGGGACCACCGCAATTCCCTGTTCACCCTGATCAACTGGACACCGAATGACAGTCAGGCATTACTGCCACCGGTGAACGTCAAGACCCCGGATGAGGATGCAAAAGGGGTTACTTATCAGGGAGCGGGTAACTGGATCGCTGGTTACCCCATTAAGAGTACTGACGTTAAGGATGACCTGAAGGATAAGCCTTGGCACGTTACGGTAAATAATAACACGGGCTTTAACTACGATACCGACTACGGCTATTGGATCGACCGTGGAACCAGCGACAAGCCAATCAGCAAGGGCCAGGTCGATAACCACTACTATGGCTGGGTCAAGCAGACCATCCATTACGTCAATGAGCAGGGTCAACCGATGAAGGACGCCAACGGCCAACCGATCACCGATACGGTCCGCAATGTTCAGTTCGAAAGCACCGAGGATGACAACACCTTTGCGGACCAAAAGTCGTTTGCCAACGACATTGATGTTCCTTCGATTACGGGCTACACGGCCTATGCCGGGCTTAAGGATGGCGACCAGCTAAAGATCGTTGACGGTAAGGCCCAAACAACTGGGGGCCCAATTGCCAAGTATGGGAAGGAGCCTTCATTCGACTTCCCACACGCGGACTTTGTTGAGTACGTGGTATACAAGAAGCGCGATCAGGCGGGATACAGTATCTACTATCGTGACGTCACTGACGACCCGACGAATCTGACCCCAACCTCCGGGACGGACCTCGGGCACGCGATTCCTAATATCACCGGTTATGTTGGTGATACGCCTGACAGGACGGAACAGCTCTGGAACTACCAGGACCAGTATGTATTGGTTGGGCTCTCCCCTAACGCCAAGAATGATCAGCTTGCCAAGCAGACCTTGACCAAAGGGGTAGCCGATCAATACGTCTACCTGGCGCGGAAGGCTAATGTGCAGCATGAAACCAAGAAGGCTACCCGGACGATTCACTATGTTGCCAACGATATCCATGGTGAAAATCTTCAAGGTGACGTTACTCAGCAGGTAACGTTGACTGGTACCTACTATGTGGATGCCACTGCCCCAAATAAGCGAGTAAACGCTGAAGAACTGAAGATTAACGGCGTAGTTCAAAAAGATGCAGATGGCAATCTGATCTATGTTGTTACCAGCGGGAACGCAAAAGAAACTTGGACCATTAAGAGTGATCCAAATAATCATGATGTCACTACTAACACTAGTGATAACCAAAAATTTGACTTTGCCAAGGCTGAGGGTAACGAAGCGCCAACTAATATTACCGTAAGTGAAGACTGGTCACACAATCACAATAATGTTGCCATGGGTAACTGGGTATACGTGGATTCGTCACACAACAAGGACTATAGCTTCTCGCCAAATGAAACAACTAAGCAAACAATCACCCTTGATCCAATTTACCTGATCTACAAACAACAAGTAAATCAGGTGACTGAGACCAAAGAAGGTTAG
>SRR1151252_01154 hypothetical protein
ATGGATGCCCAAGGCAATGTTCAAAAGGATAGTCAGGGCAAGGACATTTACGTTATTACTGATGGCACGGCACCCGAAAAGTGGACCACTGGCGGCCATTCGAATGACGTAACTGAAAATAATCAAAAGTATCATTTCAATAAGGCAACACTGGAGAATGGTGAATATTACGATTCATTCAATGATCCTACTTATCGGACTGATGCTAAATACGATTGGTACTACGTAAATGATAATAATGGTACTAACAAGGAAGCTATGTTTGATCCGGTCAAAGGCGAAAACGTTACCTGGGATGTCGATAAAAAGAACGGCAAGCTTCCCAATGTTGATTTGATCTACAAGCAGAAGGGCCAATATCCACTATATTGA
>SRR1151252_01155 mucus-binding protein
TTGCCAGATGCTGACTGGAAAATTGCTAACATCGGTCAAGGCAAGTTTGCCGGTGATTCAACAGATGCATTCAGCGACATTGCTGATCGGCAGGATAAGTTCAAGGACAAGTATGTCGAAGTACAAGAAGATCCTAACTTAGGTAAGTTAACTATTGAGCCTAATATGAAGGATCAGTACGTCTACCTGGTTCGGAAGGCTAATGTGCAGCATGAAACCAAGAAGGCTACCCGGACGATTCACTATGTTGCCAATACAGTTGATGGGAAGCAGCTTAAAGATGACACCAGGCAAAGCGTTACCTTGAATGGTACCTACTACACCGATGCGGTGACTGGCAAGCGGGTCGCCACGAAGACGGTTAACGAGCAAACGGTTGTTGATCCATCCGAGCCAGCGAGTGAGACTTGGACAGTCGATCCAACCACGGTAGCCGACTTGACTACTGACCAGAAAGGCTTCAAGGCGGTTACTACGCCGCAGACAATTTCTCTGACTACACGCGATGCACAAAGTCGTGGCGTTAGTAGTGGTAACTGGGACTTGATTGATCATCAAGACAATGGTGATGTATCGTACGGTGATCCGCATGATACTGCTTGGACGTCCGCGACGCCAAAAGAGGTTACAGAAGCCTACCTAATCTACAGCCAGCCGACGCAGCCAACTAAACCGACGACGAATCCAACGGCGCCAACGCAGCCGACGAAGCCAGCAACGAATCCAACGGCGCCAACGCAGCCGACGAAGCCAGCGACGACACCAACGGCGCCAACACAGCTGTCCGCGCCAACGCCGGCAACGCCTGGTCAAGTTACCACGCTGAACCAGCAGCCGACCTCACCAGTACGTCAGACGTTACCAGCTACCCAGTCAACAAGTGCTCGGCTACCGCAGGCTGGCAGCCAGCATGAAAAGGGTGCGTTAGTCCTAGGACTGACCGCCCTGATGGCCGCACTTGGCCTGGCCGGTCACCGGCGGAAGCAAAATTAA
>SRR1151252_01156 30S ribosomal protein S16
ATGTCCGTTAAAATTCGTTTAAAGCGCATGGGTTCAAAGAAGCGTCCTTTCTACCGGATTGTTGTCGCTGACTCACGTTCCCCACGTGATGGTCGTTTCATCACTTCATTAGGTACTTACAACCCGTTGACTACTCCAAAGGAAGTTAAGTTCGACGAAGACGCCGTTATGGATTGGTTACAAAAGGGTGCACAACCTTCTGACACTGTTCGTAACATGCTGCAAAAGGCTGGCGTTATGAAGAAGTTCCACGAAGCTAAGTACGCCGCAAAGAAGTAG
>SRR1151252_01157 16S rRNA processing protein RimM
ATGGAATTTTATAACGTTGGTAAGATTGTGAATACCCACGGCATCCGCGGTGAGGTCCGGGTGATGCCAACCACTGACTTCGTTGACGAGCGCTTTGCGGCGGGGCAGGACCTCTACCTCAAACGCGATGGCGACCCGCTGAAGCTGATGGTGGAGTCGGCCCGCCAGCACAAGGGCTTCATCCTGGTGAAGTTCGTCGGCTATGACAACATCAACGACGTCCAGACTTTCCGCGACCATGAGCTGATGGTCAGCGGGGAAGACCAGGAACCGTTGGAAGATGGTCAGTACTACTACCACCAGATCATTGGCCTGGTTGTCAAGACGGTCGATGGGGACGAGCTCGGGAAGATCAAGGAGATCCTCTCACCCGGGGCTAATGATGTCTGGGTTGTCCAGCGGACCGGCAAGCAGGACCTCCTTCTGCCGGTGATTGACGATGTGGTTAAGGACGTCGACCTAAACGCCGGGGTAGTCACTGTTGAATTAATGGAAGGACTAGAATAG
>SRR1151252_01158 tRNA (guanine-N1)-methyltransferase
GTGCGAATTGATATTTTAAGCTTATTCCCAGATATGTTTCAGGCGACGCTGGGCGAGTCAATCGTCGGGCGGGCCCAGGAGAGCGGCTTCCTCGACATCAACGTCACCGACTTTCGTAAGTACACGACTGACAAGCACAACCATGTCGACGATGCCCCGTTCGGCGGGGGCGCAGGGATGCTCCTCCAGCCCCAGCCGATCTTTGACGCCATGGCGGCGATTGAGGAGGAGACTAAGAACACATATCCGAAGGGGCGGGTGATCCTGATGGACCCGGCCGGCCGGCGTTTCGACCAGGACTATGCCCAGGAGCTGGCGATGGAGGATCACCTGACCTTTATTTGCGGCCACTACGAGGGCTATGACGAGCGGATCCGCCACCTGGTCACCGACGAGGCCTCCCTGGGGGACTACGTGCTGACCGGGGGCGAGCTGGCGGCGATGGTGATGATCGACGCCACCGTCCGCTTCGTCCCGGGCGTACTAGGCAACCAGGCCTCCCCGATGGGCGACTCCTTCAGCAACGGTCTGCTGGAGTTTCCTCAATACACCCGGCCTGCGGACTTCCGGGGGATGAAGGTGCCTGAGGTCCTGACCAGCGGTAACCACCAGAAGATCCGGGAGTGGCGGATGCGCGAATCCCTGCGACGGACCCTCCACCGGCGCCCCGACCTCCTCAAGACGGCCAAGCTGACCCGTGAGCAGCAGAGAATGCTGGAGGACATCAAGCTCGAAGAAGATCCGGACGTGCCCGACTGA
>SRR1151252_01159 amino acid permease
ATGGTGAGATGGATGAAAAAACTAATTCAACGTTTATTATGGAAACAGGATCCCGCGGTCTATGAGGCCAAGGATTCCAAGTTGACCCCCAGCCTGACGACGATCGACCTGATCGGCCTGGGGACGGGGATGGTGGTTGGCACGGCCGTTTTCACCCTGCCCGGAATCGTGGCGGCCGAGCACACCGGCCCGGCTGTCCCGCTGGCCTTTATCGTGGCGGCGATTGGGGCGGGCCTGTCCGCCCTGGCCTACGCCGAGACGTCCTCGGTCCTGCCCTTCGCTGGGTCGGCCTTCTCCTGGATCAACGTCCTCTTCGGCGAGTTCTTCGGCTGGATCGCCGGCTGGGCCTTGCTGGCCGAGTACTTCATCTCGGTGGCCTTCGTCGCCTCGGGCTGGTCGGCCTACATGCAGGGCTTTCTGGCCAGCCTCGGCATCCAGCTACCCCGGGCCCTCACCGGCGGCTTTGATCCCGGCCATGGCTCCTACGTCGACATCCTGGCGGCCCTGGCGATCCTAGTCGTCGGCATCTTGATCTCGCGCGGCCTCCATCAGGTGAGCCGGATTGAGAACGTCATCGTGGCGGTCAAGCTCCTGGTGATCCTGATGTTTATCGTCGTCGGGGCGACCGCCATCCAGGCCAAAAACTACGTGCCCTTCATCCCGCCGCACCGGCCGGGCACCAGCTTCGGTGGCTGGCAAGGGATCCTGGCCGGGACCGCCCAAATCTTCATTGCCTACGTCGGCTTCGACGCGATCGCAGCCAACACCGCCGAGACTCGTAACCCACAGAAGACGATGCCCCGCGGTCTGATCGGAACGCTGGTGCTGGGGACCGGCTTCTTCATTGCCGTCTCCCTGGTCCTGGTGGGGATGTTCAGGTACGACCGCTACGCCAACAACGCGGAGCCGGCTGCCTGGGCCCTCCGCCATGCCGGCCACTACTTCACGGCCAACCTCCTTTCGGTGGTGGCGATCGTCGGGATCTTCTCCGCTTTGATCGCCATCCTGCTGGCCTCGTCGCGGCTGATCTATGCCTTTGGGCGTGACGGTCTGCTGCCCAAGGGGCTCGGCGTGATTGACGACCGCCACGTTCCTAACCACGCCCTCTGGCTAATCACCGTGTTGGCGATGATCTTAGGCTCGGTATTCCCGTTCACTTTTCTGGCAACGCTAGTTTCAGCGGGGACGTTAGTGGCCTTTATCTTCGTCTCCCTGGGGATTTACGCCCTGCGCCCGCGTGAGGGGAAGGACCTCCCTGATGCCCAGTTCAAGATGCCCTGGTACCCGGTCCTGCCGGCAATCTCGGCTCTGTTTTCGGCCGTGATCTTCTGGGGACTCAACATTGACGCCAAGATCTTGATGATTGGCTGGTTTGCGATCGGGCTGGTGATCTACTTTGCCTACGGGTTGCGCCATTCGATCATCAACCAGGAACACCGAAATAGGCCTTGA
>SRR1151252_01160 50S ribosomal protein L19
ATGCGTCAAAACAAGTTGATCGAAAAGATTACTGCTAGTCAATTACGTGATGATATTCCTGACTTCCGTGCCGGGGATACTGTTCGGGTTCACGCCAAGATCGTTGAAGGTTCACGTGAACGTATCCAGATGTTTGAAGGTGTCGTTATCAAGCGCCACGGTGCTGGTATCAGCGCTACCTACACTGTTCGGAAGATCAGTAACGGTGTCGGTGTTGAACGGACTTTCCCACTTCACTCACCACGTGTTGAGAAGATCGATGTTCTCCGTCATGGTCGGGTACGTCGTGCTAAGCTGTACTACCTCCGGGCACGTATTGGTAAGGCTACTCGTATCGCAGAACGTCGTCGCAATACTGGAAAGTAA
>SRR1151252_01161 RelB/DinJ family addiction module antitoxin
ATGGCACAAATTAATATCAAAATTGATGATGACTTAAAGCAGGATGCCGTCAGAACCTTTTCTGCCATGGGTTTGGATTTGTCGACCGGCATTAAGCTTTACCTTAAGCGAGTTACTCAGGACAATAAATTGCCATTCACGCCCAAGGCGACTTCGGAACTCAATCAAGCCATTGCCGAAGCTGATCGGGGCCAAGTAGAAACGTTTGATGACTTTGATGATTGGGCGGCGTCATTGGATGAAGATTGA
>SRR1151252_01162 addiction module toxin RelE/StbE family protein
ATGAAGATTGAGCAGGTACCAACTTTCAAACGTAATGTGAAGAGATTGAAGCGCAAACATTATGATATTGAAAGGCTAAAGGAAGTTGTTAAACTAATCGTTGAGAATAACGTGGCCGAATTAAAGCGAAAACATAAGTTAGGAATAATTAAGGGGACGCATCCAACCGTTTGGTATGTTCATGTGGATAGAAACTACAACGATGATTGGGTTCTGTGCTACAGAATTGAGAACGACCGGTTATTATTATTACTGACGACAGGCGGTCATGAGGTTCTTAAGTATATTCCAGATGACTAG
>SRR1151252_01163 major facilitator superfamily transporter
ATGCAACAAACAAGTACGCATCTTGGAAGCACAATGACGACGAACCAGCGGTGGGTGATGGCATCTACCGCGGCGGGGTTCTCGTTGGAAAACATGGACATCATGTTTCTGTCGTTTGCCCTGGCACCGATCATCGCCGAGCTGCACATCTCGAGTACGGCGGCCGGGTGGATCGGCTCAATCACAAACCTGGGCATGCTGGCCGGTGGCGCCATCTTCGGACTTGTCGGCGATCGTATCGGCCGGGTCAAGACCTTCACCTATACGATCTTTATTTTTGCCTTCGCCACGGCGGCAATGTTCTTCGCCCACACCCTGCCGATGATCTACACGATGCGGTTTTTGGCTGGGATCGGGGCCGGTGGTGAATACGGGGTCGGCATTGCCCTGATCGCCGAGAACTTCCAGCCCGGGCTGATCGGGCGGTTGACCTCGGTTGCGGCGATCGGTGGTCAGGTCGGGGCAATCTTCGCGGCCGTGATGGCGGCCTACATCATCCCGGCATTCGGTTGGAACGCCCTCTTCCTGCTCGGGGTCATCCCGGTGATCCTGACCTTCTTCATCCGGCGCCACGTCCACGAGAGTAGCGAATTCCTGACCGCCCACGCCCACGCGGTTAAGACCCACGAGAAGATCGCGGTCAGCCGGCTCTTTGCCACCCCGGCCCTGGCCCTGCAGACCCTGGGCCTGATGGTGATGACGATTGTCCAGATCGCCGGCTACTTCGGCTTGATGAACTGGTTACCGTCGATCGTCCAGAAGCAGCAGGGCCTGTCGGTGTCCGGCTCTTCACTCTGGATGGTGGCCACGATCATCGGTATGAGCATCGGGATGATGGTCTTCGGCACGATCATGGACAGCTTTGGACCACGCTGGGCCTTCGGGATCTTCTTGCTTGGGTCCGCCGTGGTCATGTTTACGATCCTGATGGTCAAGAGCGCCATTGCCCTGATCCTCGCTGGTGCCTTGATCGGCTTCTTCTCAAACGGGATGTTCGGCGGTTACGGGGCGGTCATCAGCCGCCTTTACCCAACCGCGATCCGGTCCACCGCCAACAGTATCATCATGAACGTCGGCCGGGCAATCGGCGGCTTCTCCTCGGTGGTCATCGGCCTCTTGATGGATCGCTACAGCCTGGCGGTCACGATGGGCTGCCTGTCCGCCCTCTACATCCTCTCCTTCCTGGTCATGGAGGCCCTGTCGGGGATGCGGAAGTTGACGCACTAG
>SRR1151252_01164 glucosamine-6-phosphate deaminase
ATGCAAATCATTAAAGAACAGACGGCCGCTGCGGCCAGCGCCCAGGCCTTTAAAATCGTGGCTGACCTGGCCCAGTGCGACCAGCTCCACGTGATGGGCCTGGCGACCGGGAGCACACCGTTGGAGCTGTACAAGCTGATTTCTGAGAGTGACCTGGACTTCAGCCAGGCTAGCTCGGTCAACTTGGACGAGTACGTGGGCCTCAAGCCAACTGATCCGCAGAGCTACCACTACTTCATGCAAGAGCACCTCTTTGACGCCAAGCCCTTCAAGGAGTCCTTCTTCCCGGATGGGACCAACCCTGACGCCGGGGCGGTAACCCGGGAATACGACCGGATTCTGGCCCGGCACCCGATCGACTTACAGGTGCTGGGGATTGGGCGCAACGGCCACATCGGCTTCAACGAACCCGGGACGACCTTTGATAGCCATACCCACCGGGTGGCCCTGACCCCGTCGACGATTGACGCCAACGCCCGCTTCTTTGACCAGCCAGAACAGGTGCCACGCTACGCCTACACGATGGGGATCGCCTCGATCATGGCCGCCAAGCGGGTCATCCTGCTGGCCTTCGGTAAAGAGAAGGCCGCGGCGATCCGGGCGAGCCTTCTGGGACCAGTCACCCCGGACGTTCCGGCGTCGGTCCTCCAGCGCCACCCCAACGTGACGGTGGTCCTGGACGTGGCCGCCGTCAGCCAATTCTAA
>SRR1151252_01165 hypothetical protein
GTGACAAGCAGTTCCGTGGGTTTTACCAACATCAAGCAGATCACCTACACCAACAGGCATACGATCAAGGTCGACGTCAACGCCGAACTCTTCCAGCTCAGTAAGGCCCGCCGCACGCTCCTGATCGACACCATGCAAAATGGCGTGATCGGCACCCTGATGGACAATGGTCTGGCCAACTTCAGTCAGACGGCCATCCAGAAGGGTTGCAAGACGATGATCTACCTGAACGGTCATGTGATCGGCCGCAGTGCCGCCCACAACTACCGGCAGATCAACTGGAATAAATAA
>SRR1151252_01166 lipoate-protein ligase A
ATGTTCCTTATTGATACCAGCCGCAATGGCCAGCCCGTCCACGACGCCCTGGTCAACCAGTCCCTGGATAATTACCTGATCAACGACCTGCGCCTGCCGGGCCACGGCCTGATTTGCTACATCAACCAGCCGTCCGTCATCATCGGCGTTAACCAGAATGCCTATGCCGAGATTGACCTGCCATACCTCAAGCAGCACAAGATCGAACTGGTACGGCGGTCCAGCGGTGGCGGGGCCGTCTACCATGATTTCGGTAACCTGGTCTTTGAAAACATCGTCGTCGGTGACACCAGCAAGTTTGGTGACTTCCACGCCATCGGGGACCCGGTCGTCGATGCCCTCCACGATCTCGGCGTTGATTCGGCTGAGGTTAGCGGCCGTAACGACATGACAATCGACGGCAAGAAGTTCTCCGGGATGGCAATCGTCAAGGGTGACAACTCCTATGCCGCCGGGGGTACGGTCATGTTTGATCTGAACATGGCCGCCGCTAGTGAGGTCCTGACCCCGGAGAAGGACAAGTTGGCCTCCAAGGGGGTCAAATCCGTCGATGCCCGGGTCACCAACATCAAACCCTACCTGCCGGCCAAGTACCAGGGCTGGACAACGGAAGACTTTAAGAACTACCTGCTCTGTCATATGTTCGGCGTCGACTCGCTGGATCAGGTCGAGACCTACCACCTAACCGACCACGACTGGGCCATCATCGACCAGCGCCTGGACAAGCAGTACCGGACCGACGAGTGGAACTACGGGAAGAACCCGGGCTTTAAGCACTACGTTTCCAAGCACTTCCCGATTGGGACCGTCTCCTTCAACTTCAACGAAAAGGATGGCCGAATCACTGAGGCCAGGATCTACGGGGACTTCTTCACGGCCGGTGACCCGCACGTCGTTGAGAATCACCTGATTGGGACCAAGCTCGACAAGCCAAGTCTGGTCGCCGCCCTGGTCGCCGGTGACCTCGCCGCCAACCTCGGCAAGGTTAGTGCCGATGACCTGGCCGACCTGATCTTGGCTGACTGA
>SRR1151252_01167 glycine cleavage system H protein
ATGTGGCAGAAGATTGTTGACTGGTTCAAGCACCTGTTCAGTCACCAGGCCCCGGTTCACCGGGAAAGTAACGGTCTCTGGTGGCAGGAGGACAATGGCACGGTCAAGGTCGGCCTGGCCAGCCAGGTGATCGACGAGCTCGGCGACATCACCTTTCTGGCAACGCCCCAGGTTGACGAGCAGGTCGACAAGCACGACCAGCTGATCGACATCGAGGGCGGCAAGGCGGTTGAAACCTTCAAGTCCCCGGTCAAGGGGAAGATCAGCCGGGTCTACGCCGCCTACCAGGATGACCCGGCCAGCCTGAGCAGGGCGGCCGACCCGCTCCTGGTGGAGATCCAGCCCGCTTGA
>SRR1151252_01168 amino acid permease
ATGAACCTGACGGCCGTCCTCGTCCTGCTGTGCACGGCGCTGACGGTTTCGATGATTGCCCTCTGCTACGCCGACCTGTCGAGCCGGTTCAAGGGGTCCGGGGCAGCCTGGCTGTATTCCTACAACGCCTTTGGCCGCTTCACCGGTTATGAGCTTGGTATCTTTACCTGGTTCCTGGGGTGCTGCACCCTGGCTGCCGAAATCGTGGCCCTGTTGACCACGCTGAAGAGCTTCCTGCCAGTCTTTGATAACCATGTTGTCTACTACGGGACGGCGATGGGGCTGATCATCCTCTTTGCCATTATTAATTTCTTCGGCCGGGACCTGGTCAAGGCGGTCAACAACATCTCCGCCGCTGCCAAGATCCTGACCCTGATCGTCTTCATCATCGTCGGTGTCTTCTTCATCCACAAGGCCAACTTCTCGCCGGTAATCCCGGCGGCAGGCATGACCGGTGCCGGCCCGTTCCTCAAGCACTTCGGGGCGGCCTTCACGCCGATCTTCTACCTGTTTACCGGCTTCTCGTTCCTACCAATTGCCGCTAAGCAGATGAACAACCCAGAGAAGAACATCCCCCGGGTCCTGATCGCGGTCATGATCAGTGTCACAATTCTCGACGCGTTGATGATGATCGTCGCCATCGGGATTGCCGGATCCCGGCTTGGCGGCTACTCTACGCCACTAGCCAGCGTGTTTGGCGATGCCATCGGCAAGTGGGGCTACACGGTGATCATCGTCGGGATGCTGATCAGTATCTTTGGGGTTGCCTTCTCAGCCTCGTTCAACGCCCCATCCCTGGTTGCCTCCCTGGCCAACGAGCACGGGATGCTGCCGAAGGTGATCGGTAAGAAGAACAAGCACGATGCCCCTTGGGTTGGCATCATCCTGACGGCCATCCTGACCGCCGCCTTCGCCACCCAGAGCTACCTCTTCCTGGTATCCTGCACCGTGCTGGCCTCCTTCGTCCAGTACGTCCCGTCAATTCTCGCGGTGATCAAGTTCAAGCACACCAACGAGTTTCCGAACCACGGCTTCAAGCTGCCCGGGAAGTACATCATCCCGGCACTGGCCCTGGTGGTCTCCTGCTACATGGTCACCAACTTCACGGCCAAGACCCTGTTAGTCGGAACCGTTGTGGCGGTGCTTGCCGCCGTTGCCTACTTCTTCATCGACAAGGATGAGGAGGCTGAGCGGCGTCACGAAAGCTTCCTCGCGGCCCTGCGTAACGAAAAGAAATAG
>SRR1151252_01169 transaldolase
GTGCAAACATCATATCAGGGTGGATTCTTCATCAGCAGTGCGGATCCAGCAATGGTCACGGCCGTCGCAGAGGTTGATGACGGCTGCGGCCTGGTCCTCAACCCGACCGGCGCCCACGTTGACGTCCGGCAGTTGGCGGGTGAGTTGGCCGGCCACCGCCTTCTCCTGCCGCTGACCGTCACCACGTCTCGGCAAATGCGGCGACAGGCTGAGGAGCTGAGCCTGCTTGGCGACAACGCCTATGTCCAGGTTCCGGTGATGACGGCTGGCCAGTTCAACACGGCCTTGATCCATGACCTGCTGGCCGAGGGGGTGCCGCTGGCGGTCACCGGGCTCGCGACCCGCCAGGCCGTTAAGCGGGTGCTTGACCAGGCCGTAGCCAGTCAGACCCCGCTCTTGCTCATGATGAGCGCCGCCACCGCCTACTACGACCTGATCGTCAGTACCGCCCTGGCCCATCTTTTCCCGACTGTCCAGCTCGTGGTGGGGGCTCCTAACCAACTAGCGATTCTCCGCGCCCAGCGCCTGGCCGTCGACGGGGTGAACATCACCGCCGATCAACTGGCGATCGCCCAGGAACCGGTCGTTGGGGCTGCCTGTCAGCTGTAA
>SRR1151252_01170 major facilitator superfamily transporter
ATGGATTCTCCAGCCGCAACTGGTAAATTCCCCCGGGGCTGGCACCGCACCTTTTACACCCTCTGGCTCGGCGCCTTCATCACCGGGATGGGCTACTCAATGACGATGCCCTTCATCTCTCTTTTCATCAACGAACTCGGTCACTTCAGCCGTTTCCAGCTGAACTTCTACTCCGGCCTGGCCTTTGCCATGACCTTCATCAGTCAGGCAATCGTCTCCCCACTCTGGGGAAGCCTCGCCGATCGGAAGGGGCGGAAGCTGATGTGCATGCGGGCGTCCGGGGTGATGGCCTGCACGATCTTCGTCACCGGACTCTCCCAGACCGTCTGGATGATCATCGGGATGCGTTTCCTCCAGGGGGTCTTCTCCGGCTACATCAACAACGCCACGGCGATGATGGCCGGTGAGACCCCTCACCAACGCTCTGGCTGGGTCATGGCCGCTATGACGACCGCCGGGGTGGCCGGTAACCTGGTCGGCCCACTGCTCGGTGGGGCCCTGTCCGGCTTCTTCGGCTACCGGATCCCCTTCTTCATCACCGGGGGACTGATGTTTCTGGTCTTCCTGTCGACCTGGCTGCTGACGACGGAGCACTTCAAGCCGATCCAGAAGACCGCCATGAAGCCGATGAGGCAGATCGTCGCGGAACTGGACAGCCCTAAGCTGATCTTCGTGATGTTTCTGACCACCATGATCGTCACCGCTTCCACGATGTCGATCGACCCAATCATCAGTCTCTATGTCCGGTCACTGATGCATAACCACGGGAACGTGGCCTTCGTCGCCGGGGTGGTCGCCGCCACGCCGGGTCTGGGGACGTTGATCGCCGCCTCCAAGATCGGTCACACCATGGACCAGATCGGGCCCGAACGCGTCCTGCGGGTTGGCCTGACCGTTGCCTTCGTCCTCTTCATCCCAATGACCTTCACCCACTCACCATGGTCACTGGCCTTCTGGCGCTTCCTGCTGGGGCTGGCCAACGCCGCTTTGATGCCGGCTACTCAGACCGTCTTGACCCTGGACGTGCCAACCGAGGCCTTCGGGCGGATCTTCTCCTACAACCAGTCCTTCCAGGCCGGTGGGGCCGTCCTCGGTTCCCTGCTGGGGTCGGCGATCTCCGGGCTGTCGTCCTACCCGATGGTCTTTGCCGTCACTGGGCTGACCCTGCTGGTTAACCTGGGCTTGGTTCTCACGGTCCGGACACCGAAGAAAACATATTAA
>SRR1151252_01171 major facilitator superfamily transporter
ATGTCAAAATCACCAACCGTTTCGATCAGCGACCGCACCCGGCGGCTGATCACCACGATCCTCCTGCTCTCAACCTTCGTCAGCCTGGCCAGTCAGACAATGATGGTCACCGCCCTGCCGGTCATCCAGCACGACCTCCACGTTTCGCTCAACGCCGCCCAGTGGCTAACCACCGGCTACACGTTGATCATCGGGATCGTCACCCCGCTCTCCTCCAACATGTATGATAAGTTCACCAACCGCCACGTCTTTTTGAGCATCATTGGGACTTTCATCGTTGGGACCCTGTTGGGGTGTTTTGCCACCAACTTCTTCACCTTGCTCCTGGCCCGGCTGATCCAGGCCAGCGCCAGCGGGATGCTGATGTCGTTTCAGATGACCACCATGATCTCGATCTACCCGATTGAGAAGCGGGGGTCGATCCTCGGCCTCTCCAGCCTGGTGATCTCGGCCGGGCCCGCCATCGGTCCGACCCTGGCTGGCTTTATCCTCCAGGTTCTCCCCTGGCGGTGGCTGTTTATCCTGGTCCTCCCCTTCATGGCCCTGGCCTGGATTGGCGCCTACTTCAAGCTGGCCAATTTCTCCCAGCCCCGCGACATCAAGATCGACTACCTGTCCGTTTTGATCTCCTTAATCGGGTCCGGGCTCACCCTGGGCAGCCTGACCGCCTTCCAGGAGAATGTCTGGCTGGGGTTAGCCATGCTGGTGGTCGGCCTGGCGGTGATCGCCGTCTTTGTCAAGCGTCAGCTCCACCTCACCAACCCGATGCTCAAGGTCCAAATCTTCAAGTACTCCTCGTTTCGCCTGATGACGACTGTCGGTATCTTCGCCTTCATGGTCCTGCTGGGCACCGAGCAGCTCCTGCCGATTTTCACCGAAAACGTCACCCACACCGGGAGCTTTGTCTCCGGGCTGATCCTCCTCCCCGGGGCGGTCTGCAACGCCATCGCCGCCTCAATCGTCGGCCGGCTCTATGACCAATACGGACCGAAGTGGCTAATCATCACCGGTGGGGTGATCATGCTCCTGGCCTCGATCCCGCTGGTCACCATCTCACGTGACTCGTCGCTGTGGGTGTTGACAATCGCCTACGCCATCCGGATGATCGGCAACGCCTGCGTCTTCAGCCCGGCCCTGTCGGCGGCCTTCGCTGACCTGTCACGGGCAGAGAACAGTCACGGCACCGCCCTCAACAACACCCTCCGTCAGGTCTTCGGGGCCGTCTCGGTCACCATGCTGGTGGTCATCGCCGAGATTCCGGCCTCTTTGATCATCGGCATTCGGATTGCCATGTGGGTCACCGTCCTGCTGGTCATCCTGATGATGCTGGCCTTTGCCCGCTATCTGATTAAACAAAAGCATTAA
>SRR1151252_01172 serine/threonine protein phosphatase
GTGAAAAAGAAGATTGCGGTGTTTTCAGACGTGCATGGTAATAGTTCGGCCTTGCAGGCGATGTATAAGGACAGTATCGCCCAGGGCGTGGATGAGTACTGGTTTGTGGGGGACCTCCTGATGCCGGGACCGAGCGTCAATGCCATCTGGGACCTGGTGAAAACGATGGCCCCAACCGTCATTGTCCGGGGCAACTGGGATGACCTGGTGGTGGTCGGTACCCGGGGCCAGATGGACATGGCTAAGCCCTCGCACGTCTACTTCGGTCGCCTGGCCCAGTACGTGGCTGAGCACGCTGCGCCGGGGATGGTCGACGAGCTCGCCGCTTGGCCGCTGCAAGTGACCCGCCAGGTGGGACCCTTGCACTTCGGCATCTCCCATAACTTGCCGGACCTCAACATGGGTCAAGACCTCTTCCCGACCAATGACTCGGCGAACTTCGACCAGCTCTTTGTTACCAAGCCCGGTCAGCCGCCGATCGACGTGGCGATCTACGCCCACGTCCACCACGACCTCCTGCGCTACGGGACCGATGAACGGCTTGTCCTCAACCCAGGGGCAGTTGGCGAACCCTTCAACCACTGGCCAGCCCTCCAACGCGACCTGCGTGCCCACTACCTGATCCTTGAGGTTGACGACCAGGGGATGGCTGCCACCAGCTTCCGGCACGTTGCCTACGACCGGGAGCGTGAGAAGGCCCTGGCCGCTGCCAGTGACCTGCCGTACCAGGAGCTCTACCAGAAGATGATGGATACCGGTTTTGCCTACACCCACGACGACGAACTCCTCCAGAATTATAATGATCGTTATCAATACGTCGCCGAGTACGAGCGTTTTAAGAAAAACTTAAACAAATAA
>SRR1151252_01173 30S ribosomal protein S14
ATGGCAAAAAAGTCAAAGATTGCTAAATTACATCATCAAGAAGCATTGGTTAAGAAGTACGCTGCCAAGCGTAAGGAATTGAAGGCCAAGGGCGACTACATCGGTCTGTCCAAGCTGCCACGAAATTCTAGCGCGGTCCGGTTGCATAACCGTGACCGTTACGATGGCCGTCCCCACGCCTACATGCGTAAGTTTGGGATGTCCCGGATCAATTTCCGGGAGCTGGCACACAAGGGACAGATTCCGGGCGTCCGGAAGGCCAGCTGGTAA
>SRR1151252_01174 hypothetical protein
ATGAGTACGCAGGTTAATTATCAAGAGCTGGAACGGTTGGTCAGTGACCAGGCCCGGGTCCACGGGACGGATTACTACCGGAATGCCCCGACCAGAACCCGGTCTGTCTATGATCAGACGGTCTGGATGGGGAAGAGCATTCTGGAGGAACGGGACGGGGCCCAGCTGTCTCCCCAGACGATGGTCGATATGACGGTCCAGTCGATCAACAATGCGATCAAGGCCCTCAAGAGCAATGCCAGTGCAAAGGTTGCCACCAGCACGAATGCCGCGGCACCCAGCCAGTCATCCGAAAAGGTGAGGCGGGGCCAAGCTACCGGTCCGGTCGAATCTCACGACGGCGACCGGTCCCCAGCCGGCGCCCCGACGCAGGCAACGTCGGCTGCACAGCAACGGTCAACTGACGAGCCGACCCGGTCGCAACCAACTGCGCAGAAGTTGGCACCTGAATCGGCATCCCAGCCGACGACACCCGTCCAGCCGACCGAGCCGGCTGACCAGCCCACACAACCATCATCACTAACTCCGGTAACGGTGGCCACCGCCCCAGGGGCAACAACCCAACCGACGGCAGAACCGGAAGGCCCCGCCGCGTCCACGCAGCCAACGGAACCAGCCTCGGCCCAGCCCGAATCGGCCCCACAGAAAGACGAGCCCGGCTTCGCAACCGACGGCACCAGCCCAAACTAG
>SRR1151252_01175 alkyl hydroperoxide reductase subunit C
ATGAATTTTGTCGGACACGAGATTGAAGACTTTAAGGTGAACGCATATCAGGATGGCAAGACGGTTGAAGTTACCAAGAAGGACGTTTTGGGCAAGTGGAGTATCTTCTTCTTCTACCCAGCCGACTTTTCGTTTGTCTGCCCAACGGAGCTCGAGGCCCTGCAGGACAAGTACGAAGACTTTAAGCAGGCCGACGCCGAGATCTACTCCGTCTCCGAGGATACCGAATTCGTCCACAAGGCCTGGGCCGAGGCCTCCGAGAGGATCGGTAAGATTAAGTACCACATGCTGGCGGACCCCGCTGGCAAGCTGGCCCGGATGTTTGACGTTTTAGACGAGGACGCTGGGCAGGCCTACCGGGGCGTCTTCATCGTCGACCCGGATGGCAAGATCCAATCTTACACCATCAACAACATGGGCATCGGCCGGAGCGCTGCCGAGATTCTGCGGACCCTGCAGGCCGCGCAATTCGTCCGTGAACACGGTGACCGGGTCTGCCCTGCCAACTGGAAGCCGGGTCAGGACGCCATCAAGCCAAGCCTCGACCTCGTCGGCAAGCTTTAA
>SRR1151252_01176 alkyl hydroperoxide reductase subunit F
ATGAGTGAGCAACATTTATATGATTTAATCATCGTCGGTGCCGGTCCCGCGGGTCTGTCCGCGGGCCTCTACGCCGGGCGGGCCACCCTGGACACCCTGATTGTCGAGGGCGATGCGGTTGGCGGTCAGGTCACCACGACCTCGGTGGTCTACAACTACCCGGCGGTTGAAAAGGTGGACGGCACCCAGCTGATGAACCAGATGCAGCGCCAGGTGGCCGACTTTGGCGTCACAATCAAGCACGATGAGATCACCAAGTACGACGTTGCCAGTGAGGTCAAGACCCTGACCGGCAAGAGCGGGGCGACCTACCAGGCCCGTAGCGTGATCATCGCCACCGGGGCCAACCCGCGCAAGGTCGGTTTCCCGGGTGAAGACGAGTTCCGGGGCCGGGGGATCGCCTACTGCTCGACCTGTGACGGTGAGCTCTTCACCGGCCTGCAGATCTTCGTAGTCGGTGGTGGCTACGCGGCCGCCGAGGAAGCCGACTACCTGAGCCGGTTCGGCAAGCACGTCACGGTCCTGGTCCGTGGTGACCACTTCACCTGTCCACCGCTGACCGCCGCCCGGGCCCTCAACAACCCCAAGGTCAGCGTCGAGTACAACACCGAGGTTAAGCGGGTCGATGGTAATGACTACCTGACCAGCGCGACCCTGGTCAACAACAAGACCGGCAAGGAGACCGTCTACCACGTCGATGAGGGGGACAACACCTTTGGGATGTTTATCTACGTCGGCACCGAACCGGCGACTAAGCACCTGGCCGGGATCGTTGACCTGGACCAGGCTGGCTACGTCAAGACCGATGACAATGGTGCCACCAACGTGCCGGGGGCCTACGCGGCCGGGGACGTGATCGTCAAACCGCTGCGCCAGATCATCACGGCCGCCGCGGATGGGGCCTCGGCAGCCACCGCCGCCGAGGCCTATGTCACTGCCCAGAAACAGGAGCAGGGGATCCCAATTCACGCCGCGGTAGCCAAGAAGCCAGCCGCAACGGTGGGGCAGACCTCCCAGCTGGACCACCAGGAAGAGGTGACGCCGCACCAGGGCAACTGGTTGACGGCGGATATCGACCAGCAGCTGCGGCCAATCTTTGACCGCCTGACCAAGGACGTCACCTTCCAGGTCAACACCAACGATAGTGACCTCAGCCAGCAGCTGGTCAGCTTCGTCACCGAGTTTGTCGGCCTCGACGACCACTTCTCCCTGACCACGGTCAAGGGGGATGACCAGTACCTGCCGATGCTGAAGCTCCTGGACAGCGACGGCAACGACACCGGCCTCCACTATGCCGGAATCCCGACCGGTCACGAGCTGAACTCGCTGGTCCTCGGCGTCTACAACGTGGCGGGACCGGGACAGACGATCGCGCCGGCAATGGCCGATCGGATCAAGCAGCTCGGCCCGGTGGACATCCGGATCGGGGTCTCCTTGACCTGCCACTTCTGCCCAGACGTGGTCGCGGCCTGCCAGCGGATGGCCTCCCTGAATCCGGGAATCACGGCCACGATGATCGACCTCCAGCACTTCCCAGAACTACGCAAGGACAAGAAGATCATGTCCGTGCCGGCGACGATGATCGGTGACGACCCGGTCATCTTCGGCAGCCAGTCCCTCGATGAGCTGGTTACGGCCGTGGAGAAGCACGAACAACAAGATTAA
>SRR1151252_01177 dipeptidase
ATGGTTAACAAATTATCAGCTTGCACCAGTATTTTGATCGGTAAGGACGCCAGCATCGACGGCACGATCATGATCGGCCGCAACGAGGATGCAAAGGCGGCCTGGCCGAAGCACATGGTCGTCCACCAGCACGGCGAGATGCCGACCCACTTCATCTCCAAGGAGACCAAGTTGGAGCTCGACCTGCCCGCCGACAGCGCCCGTTACACCGCCACGCCTGAGTGGACCGACAAGGTCGGTGTCTTCGAGGAGGACGGGATCAACGAGTACGACGTCGCAATGAGCGCCACCGAGAGTGCCTACTCCAACAGCCTGGTCCTCGGTTACGATCCCCTGGTCGAGCACGGGCTGAACGAGGAGGCAATGGTCACGGTCGTCCTCCCTTATATCAAGACCGCCCGTGAAGGGGTCCAGCGGCTCGGTAACCTGATCGCCAAGTACGGAACCGGTGAGACCAACGGGGTCCTCTTCGCCGACAACGACGAGGCCTGGTACTTCGAGTCCGGGGCCGGTCACTACTGGGTTGCCCAGCGGATCCCGGACGACTCCTACGCCGTGGTCGCCAACCAGCTGGCCATCCAGGAGATCGACTTCACCGACAGCGACAACTTCATGTTCCACCCCGGCATCCAGGAGTTCGTCGACAAGCATAACCTCAACCCGGACCCGACAACCTTCAACTTCCGCAAGATCTTCGGCACCGCGGACCGGTCGGACGCCGTCTACAGCGAGCCCCGGGTCTGGATCGGCCACCAGCTGTTCAGCCCGAAGCAGGCCACGAATGAGGCGCCGGAGTCAACGGAACTGCCGTTCTTGATGAAGCCAGACCGCAAGCTCTCGATCTTTGACGCCCAGCGCTACCTGAGCAACCACTACGAAGGCACCGAGTTTGACCCGATCGGCACCGGCAAGTCCGGCCACAAGTACCGGCCGATCTCCCTGGCCAAGACCCAGGAATCCCACATCCTGCAGATGAACCGGCCGGGGGCTAACATCCACTGGCTGGCGATGGGGGTTGCCGCCGAAAGTACCTACGTGCCGTTCTTTGCCGGGATCACCGACGTGCCGGCACCGTATAAGCGCGGCAAGCTCCCCGCCCAGCTGAATTCGGCCTACTGGATCTTCAAGCACGTCAGCGTCTTGGTCGACAGCCACCTGCACGACTTCCTGCCCTTGCTGCGGGAGGTGCAAAAGGAACGCAACAGCGCCGCCATTGAGATGATCGCCAAGACCGATCGTGAGGTCAAGACGATGACGGGCGACAGCCGGGCCTCCTACCTGACCATGCAGAGTAGCGGTTACGCCATCGATACCCTCAACGCCTACAAGAAACTAGCACTGGCGCTGATCACCAAGATGACCGACTACTGCGAGCTGAATTTCAAGACCGACGAAAACCTGTAA
>SRR1151252_01178 potassium transporter Kef
ATGGAACAATTATCCCTCCTGATTGTGATGGTGGCGGCTCTGCTGATCCCGCTGGTGATGGCACGTTTCAACATCTCCAGTGTCCCGACAGCTGTGGCCGAGATTGTGACCGGGATCATCCTTGGCAAGAGCCTTTTCAACGTTGTGACGACGACTGAGGCGCTCAGCCTGATGTCGACGCTGGGGGTCATGATGCTGATGTTTCTGTCAGGGATGGAAATCAACTTTGACCTCTTCAAGAAGCAGCCGGGGGCGGCCCCGAACCCGAAGTCGCCGGTCAACCTGGCGGGGCAGGCGTTCGGCCTGGTCATCGTCAGCGCGGCCGTCTTGGGGATCATCCTCAACCAGATCGGCCTCTTTCACGACGTCTTTTTGGCAACGATCCTCTTTTCGACCGTCGCCCTGGGCGTGGTGATTGCGACCCTTAAGGAAAAGGAAATTCTCGGCCGGCCGGCAGGGCAGACGATCCTGCTGACCGCGGTCCTCGGGGAGGTCGTGCCGATGCTGGCTCTGACGATCTACGCCTCGCTCAACGGGGGAAACGCTAGCCGGCTTTGGCTGATCATCCTCCTCTTTCTGGCGGCGATCGTCCTCCTGCGCCGGTTCAAGCAGCCCTTCATCTGGTTCAACAAGATCTCCAAGGCGACCACCCAGCTGGACATCCGGCTGGCCTTCTTCCTGATCTTCATCCTGGTGACCATTGCCGAGCGGGTCGGCGCCGAAAACATCCTCGGGGCTTTTTTGGCGGGGATGGTCATGAAGCTGCTCGAACCCAGTGAGGCCACCCAGGAGAAGCTGACTTCGATCGGCTACGGCTTCCTGATCCCGTTCTTCTTCATTATGACCGGGGTTAAGCTCAACATCCGCCAGCTCTTCGCCAACCCGCGGGCCCTGGCCCTGATCCCGATCCTGGTGGCCTGCTTCGTCCTGGCCAAGCTGCCGACGATGCTGATCTTCAGCCGGCGCTTTAACCGGCGGAACTCGTTTGCCGGGAGCTTCCTGACCGTGACGACGATCACCCTGGTCCTGCCGTCCCTGCAGGTGGCCCGCAACCTCCACGCCATCACCAGCACCCAGTCCGATGCCTTCGTGCTGGCGGCGGTAATCGTCTGCATCATTGGCCCGATCGTCTTCAACTCGACCTACAAGCTGGAAAAGGCGGACCTGATCAAGCAGCGGGTCGTCATCCTGGGCGCAAACACGGTGACGGTGCCGATCGCCCAGCAACTCTCCAAGAACTGGTACGTGATTCGGATGGTGACCGACAGCGAGGAGAACTACAAGACCTTCAACTCCGAGGTCCGCGACCTGGCCTACCTGGCGAAGGTCGATGAGACAACTCTGGACCAGGGGAATTACTTTGACACCGATATCCTGGTGGTTGCCTTCCTAAACGACCGGAAGAACGCCCGCCTGGCCCTCCTGGCGAAGAAGCACGGGGTCAGCCGGGTGATCGCCAGTCAGGAGAGCCCAAACGTCGACCAACGACGGCTTACCAGTCTGAAGACGGCGGAGGTTGAAATCTTCAACTCCTTCAACGTTGAGACCAGCGTCATGCGGTCGATGATCGAAAGCCCATCGATCATCGACCTGCTGACCGACACCGAGGCCGGCCTGTTCGAGGCCACCGTCCGCAACCAGCGCTACGCCGGGCGGGAGCTCCACACCCTGCCGTTTATCGACAAGATCACGGTCAGCCGAATCTACCGCAACCACAAGCCAATCTCGCCGCACGGGGACACGATCCTCGAGCTGGGCGACCACATCCTCTTCACCGGCGCTCATGGCGAAGCGGAGGCGGCCCGCAATGAGCTGCGGCGGAAGAATTAA
>SRR1151252_01179 hypothetical protein
ATGAAAGCACTGTGCGAGATAGACCGTGAATACGAACTACGGGAGGCCAAAGCAGCCACTATCAAAGAAAACCACCTCAAGCTGATCAACGGCCTGATCGGGCTGGGCTACTCCAAGCAGGAGGTCATCGACTTTCTGACCACCTACATGCACACCGCCGTCACCGAGGCGGAGTAA
>SRR1151252_01180 hypothetical protein
ATGAACCGACTTGAACGTGCCGCGCGGGCCTGGTCCAGTGCCGGCCTGGAGAACGATTTCGTCTTTAGCAAGGTGATGAGTGACCCGGCGATCTGCCTGGCCGTCATCCGCAGCATCCTACCCGACCTGACGATTGCGCGGCTGGCCCCACCCCAGACCCAACAGGAGGTCAGTCCGACCAACGATGCCAAGGGGGGCCGCTTCGACATCTACACCACCGACGAGCACGACAACCGCTACGACATCGAGATGCAGGTGGCCGACCACCACAACCTCGCCCAGCGGGTCCGCTACTACCAGGTGATGAACGCGCTAGACGCCTACGACAAGGGCGCCAACTACCACGACGCCAACAACTCCTACGTGATCTTCATCTGCTGCTTCGACCCCTTCAAGCTAGGCGCCCAGTTCTACAGTGTCAACAAGCACCTCAACGAGTTTCCCGACTACCGGGTCCTAGACGGGGCGACGGACATCTACCTGAACGCCACTAGCCCCCGCCATGAGGTCCCACCCCGCTTGCAGACTCTGCTGGACCTGGTGGCGCACCGCGACAGTGGGCAGGCGGATGAATTTGGGGTAAAATTAAAGAAGAAGATTGCTGCGGTCAAGCACAACAAGGAATGGAGGGCGGACTTTATGCGACTGTCATTATACGAAATGGATCACGAGTATGAGTTAAAGGAAGCCACGGATAAGGGCGTTAAAAAGGGCGTCAAAAAAGGTGTTAAATTGGGACAGAGCCAAGGTATCAACATGACTCTTGTGCAGATGGCCGACGGACTAATTTGTCAGGGCTTGTCTGAGGAACAGATTATCTCTTTCTTCACCAACGTCATGAAGGTTTCCCGCGAACAAGCCAAAGGCTATTACCAGCAAGCACTGCGAAATTAA
>SRR1151252_01181 4-oxalocrotonate tautomerase
ATGCCATTAGTACATATCGACTTAATCGAAGGCCGGAGCGAGGAACAACTGAAGGGGCTCGTCAAGGACGTGACCGCGGCGATCTCCAAGAACGCCAATGTTCCAGCTGAACGGGTGCACATTGTTCTCAACGAAATGAAGAAGGACCGCTACAGCGTTGGCGGCAAGATGGTTAGCGATAACTAA
>SRR1151252_01182 glycerol kinase
TTGAACGAGCAACAATATATCATGGCAATTGACGAGGGGACGACCAGCTCCCGGGCCATCATCTTCAACCACGACGGCAACAAGGTGGGGATGAGCCAGCAGGAGTTCCCCCAGTACTTCCCGCAGCCGGGCTGGGTGGAGCACGACGCCACCGAGATCTGGGATAGTGTCCAGACGGTGATGTCGGATGTGATGATCAAGACCCAGATCAAGCCGTATAAGATCGCCGCCATCGGGATCACCAACCAGCGGGAGACGACGGTCATTTGGGATCGCCACACCGGTCAGCCGATCTACCACGCGATCGTCTGGCAGTCCAAGCAGACCAGCGACATCGCCGAGCGGCTGATCGCCGACGGTTACAAGAAGATGATCCACGATAAGACGGGGCTGGTGATTGACTCCTACTTCGCCGCCACCAAGATCAAGTGGATCCTCGACCGGGTCCCGGGTGCCCGGGAGAAGGCAGCGCGTGGTGACCTGCTCTTCGGGACAATCGACACCTGGCTGATCTGGAAGCTGACCGGGGGCCGGGTTCACGCCACCGACGTCACCAACGCCAGCCGGACGATGCTCTTCAACATCCACACTCTCGACTGGGACCAGGACATCCTGGACCTACTCGACATCCCGCGGGCGATCCTGCCGGAGGTCAAGGAGAGCTCGGCCATCTACGGCTACACCGGGGACTTCACCTTCTACGGGGTCCAGATTCCGATCGCCGGGATCGCCGGGGACCAGCAGGCGGCCCTCTTCGGCCAGGCCGCCTATGAGGAGGGCTCGGTCAAGAACACCTACGGGACCGGGGCCTTCATTGTCATGAACACCGGCCTCACGCCGACCCTGTCCGACAACGGCCTGCTGACGACGATCGCCTATGGGCTCGACGGCAAGATCCACTACGCCCTGGAGGGGAGCATCTTCGTGGCCGGGTCCGCCGTCCAGTGGCTCCGCGACGGTCTACAGTTCTTCACCCACGCCAGCGAGTCCGAAAAGCTGGCCGTATCCGCTAAGACGACCGGCGGGGTCTACGTCGTGCCGGCCTTCACCGGGCTGGGCGCCCCTTACTGGGATCAGGAGGTCCGCGGGGCGATGTTTGGCCTGACCCGGGGGACCGACCGCGGCCAGGTGATCCGGGCGACCCTGGAGGCGATTGCCTACCAGACCCGGGACGTCGTTGACACGATGGTCAAGGACACCCAGCTGCCCCTGTCGGCCCTGACGGTGAACGGGGGTGCCTCGCGCAACGACTTTCTGATGCAATTCCAGGCCGACATCCTGCAGACGCCGATCAAACGGGCGGCGATGGAGGAGACGACGGCGCTGGGGGCGGCCTTCCTCGCCGGGTTGGCTGTCGACTACTGGGCCGACCAGGACGAGCTGCGCACGCTCTCCAAGATCGGCGACGAGTTTGCTCCTCTGATGGGCCAGGAGGAGGCCAACCGGATCTACGGCGGCTGGCAGCAGGCCATCAAGGCGGCCCAATTCTTCAGTCACGGAAAATAA
>SRR1151252_01183 hypothetical protein
ATGAACAGACAAGAACAGACGAACATCATCAATGACCTTGCCACATTTGTCAAAGACCACCGGGAGGACCAGTTCGACGACCATGAGTCCTTCTACTACGAGCTCCTCAAGCAGTGGCGTGAGCTGAGCCGCTTCAGCATGGACGGCGCCGACCCGGCCAGCCGCGACCTCTACGACCGCTACTGGGCGGCGATGGGCCAGTGGCACCAGCGCTTCGTGGCGGAGCAGGATCGGATTGTCAATCCAACACCGATGCCCGGCCCGACCCTTCAGGAGGAGTACGAGGCCCTGATCGCCGAGCTGGCGGACGAGATCATCGGCGACCTGCCCCGGCCAGCATCGGCGGCGGTCATCCGGATCGACGACTTTGCCCGGCGGTTGAACCTCCAGCTCCAGGAAATGGAGGACCTCTACACGGACGTGCTGACGCCGATCGACCTCCTCTTACTGGTGGAATATTGGCGAATGGTTGATCAAGCTGTACAAGCAAAGGAAGGGAACGAGTAG
>SRR1151252_01184 beta-phosphoglucomutase
ATGCAAGGAGCAATCTTAAACGTCAACGGAATCATCACCGACCTGGACCGCCGCCAGTTTGCGGCCTGGCAGAAGGTCGCCATGTACGAGTACGGGATGGGCCTGCCGGGTAAGCTGGCTGGGGACTTCAAAGGCCTCGACCGCAACGCTGCCCTCGACCGGGTACTGAACCGCTTCAACGCCAAAGCCGATAAGGACGGGCGCCAGGAGTTACTGGCCGAGCAGGACCGCTTCTACGGTCAGGTCCTGGCCGAATTGAGCGAAGACGACCTGGTACCGGGGATCAAGCGGTTGCTGGTCGCCCTCTACGACCACTACGTCAAGCTGGCGATCAACGCCCCCGCGGGCCACGGGGATGAGATCAGCAGGCAACTAAAGCTGGATGAATTCATCGACGCGGTGGGAAGCGAAGATAACGCGGTACAGCCATACCAGTCCCTGGTCACTCAACTGGACGTACCGGCTACCGGTTGCATCGCCCTGGTTACCAATAAGGCGGACCTGCAGGCAGCGACGGCGGCCCGGCTGACGACGATTGGGGTCGGGGATGCCAGCTCGCTGGCGGACGTCGACTACCGGGTCAGCCAGGTAGGCGACCTGCGCTACCAGATGCTGGAAAAGGTGTGGGAAGATACCCACGAGGATAAGTAA
>SRR1151252_01185 hypothetical protein
GTGAATCAGCATCAAACCACATCGACACCGGCCTGGTTTCACTCCCGCTACCGGGGTGAAGATCGCGACGACGGCTGCACCAACGAACTCAGCGTCTACCGGGATCCGGCCGAACCACGGCTGGACGTTCTCCTGACCAACGTCGACTTCGCCGGGGTCGGCCACGATAATACTTATTCCCTGACCAGGGAGGATGCGGCCCAGCTCCGCGATTTTCTTCAGGAGTGGCTGCAACATTAA
>SRR1151252_01186 DNA-directed RNA polymerase specialized sigma subunit
ATGACCAAACAGACAATTCAAGATGGCTTCGACTTCCTCTACCAGGACGACCACGTTCGGCTCGTCCACGGCGTCCTCAAGGGGCTCGGCATCCCCGTCCACCGCGACGACTACCCCGACCTCTTCCAGGAGGGCTGCATGATCTTCGCTGAGGTCTACGCCGATTACTCAGGCCCACTGACGACCCCGCTGGAGAAGCGCCGAATGATGTCCTATGCTTACCGGAAGATCCGCTGGCGTCTCCTCGACATCCTCCGCCACCAGCAACTGGCCATCGAATGCCGCCAATACTCCCTCGACCAGGCGGCGACCCCCGCGGACGCCGACCTGGTTGATGGCCGGGCCCAGCTCCCCTTCAGCCGGCTGACCAACGCCGCCTTCTTCGACGAGCTCTGGCGACATTCGGGTGCACCAGCCCGCCGCTACCTCCTCCTCGCCCTCCAGGACCGTTACCGGAGCGACACGGCGATCGCTAAGCACTGCGGGGTCTCCCGCCAAGCGGTCTTTCAATGGAAGAAACAGTTGATCGCTACCGCTCGCCGCCTGGGAAAGGACTGGCCAAACATGGTATAA
>SRR1151252_01187 hypothetical protein
ATGAAGAAGACCAAGTTTATAGATTTGACTAAGATGGACAAACTTCGGATTGACGAAGAGACGGGTGCCTTTCACCCAAACTGGGACAATACGATTCTGATGACCGCCTATGACGCTGAACGGACCTTCCTCCTGACGAGGGACGGCCGGAACTTGCTCCTTACTCAGCCGCTTCGCGATGTTTTGCATTGCTTTGCCCGTGACAATGATATCGATGAGTATGAGCGTCAGGCGATCTATAAAATGGTCGGTGCCCATAAGGGGCGCGGATATATTGCCGGCCACCACCGATTGGTACCGACCCACGGGACGACTAACGCAAACGTGGTGTACTACATGGCCCACTGGCTCGATGGGAATGGGACCTCAGCCAACGGCCAGCTGATGATTGCCTCCTTCCACGGACGCAAGCGAATCTACCGTATCAGCATTGATACCAGTCTTAAGACCCTTGATCGCCTGCTTAAGGCCGCTAATCAGGCGGCATCGTGTCAGCTAGATGGGCTGGACTGGCTAATGTACAACTACGGGGTCAAAACGGTTAACAAGAAGAAAAGTGTTCGCTATCACCATAATATTCGTGATAAGTGCCGGTGCGCTCACCACCGGATCCAGTGTGCCTGGATGATTACGCTGATTCGGCATATCCTGAGTGACTACCTCAGTGAGGAGGAAATCAGGGAAATTATCAAGAAAATCAAAAGAAATATCTAA
>SRR1151252_01188 HxlR family transcriptional regulator
TTGGTTCCTGAGCTGTCTGGTGACGATCTCAAGGCTGAGCTGGCTAAGTTGCAAAACCTGCGGATCGCCAACCCAGTAAAGGACACCGATAACTGCTACTCCCTGACTAAGGAGGGGGATGATTTTCGTCAGTTAATGATCTCACTGAGTATCTGGGGTAAGCAGCAGATGAACGATGACGAAAACAAGGTTAGCTCGCTGATTGTGGAGCCTGAGACCAATGCTAAACTGAGCGAATTGGTCAAATACAACAAATTCTTGCGGGAGCACATCAATTACGATGAATAG
>SRR1151252_01189 glucose-6-phosphate isomerase
GTGGCCGCCCACACGGCCGGTGGTGTCCCGGTTATGACCGTCCACATCTCAGAAGAAAACGAGTACACCCTCGGTTACCTGATCTACTTCTTTGAGGTGGCCATGGGGATCTCCGGTTACCTCAACGGAATCAACCCGTTTAACCAACCGGGCGTGGAGGCCTACAAGGTCAACATGTTCGGCCTGCTGGGTAAGCCTGGTTACGAGGAGATTGGCAAGCAGCTGCGTGCCGAGATGGATAAGAACAACTAA
>SRR1151252_01190 fructokinase
ATGCTATTAGGAAGTATCGAGGCCGGCGGGACAAAGTTCGTCTGTGCAGTCGGTGATGTCAACTACCAAATTAAGGATTCAATCCACATTCCGACCACAACACCGGCAGAGACCATTCAGAAGTGTATTGACTGGTTCGACCAGTATAAGGATGAACTATCTGGAATCGGGATCGCCTCGTTCGGGCCGATCGAAATCCGGCAGAGTTCGCCGAAGTACGGCTACATCACCAACACCCCGAAGAAGGGCTGGGCGGATACCGACTTTGTAGGCCCGTTCAAGAAGCACTTCAATATCCCAATCTACTGGACCACGGACGTCAACGGGTCAGCCTATGGTGAATATGTTCTTGCAACACTGTTCAATAAGCGGATCAACTCCCTGGTCTACTACACGATTGGGACTGGTTGCGGGGCTGGAGCCGTCATCGACGGGAAGTTTGTCGGTGAACTCGGTCACCCCGAGATGGGCCACATTCGCCTGAAGCGCCACCCCGATGACCTTGACTTTAAGGGGATCTGCCCGTTCCATGGTGATTGTCTGGAGGGCCTGGTCTCTGGGCCAACCTTTGAGGCCCGGACTGGTAAGAAGGGACAGGACGTTCCGCTGACTGATCATGTCTGGGACATCATGGCCTACTATGTTGCCCAGGCTGCCCTGAACGCCACATTGATGTTCCGGCCAGGCCAGATTATCTTCGGTGGCGGGGTCGTCAGCGAGGAGTTCTTGAAGAAGGTCCGGCGCGAATTTAAGAAGCTGTTGAATAACTATGTTGATGTTGGCAACGTCGACGAATACATCACGATGCCACTGGCCCAGAACAACGGTTCAGCCACAATCGGTGACTTCGCCCTCGCCCTGAAAGCTGCTACAAACTAA
>SRR1151252_01191 membrane protein
ATGAAGGAAACAAAATTCATCCGGGTCCTGAGCGTGATTGCCAGTGTAATTGCCGTCTGCATGTACGTTTCATATATTCCACAGATCATTAACAATCTTCATGGTGCCTACTGTGCACCACTGCAACCGTTTGTCGCCGGTTTAAACTGCACACTCTGGTCAATTTACGCCTGGTTCAAGAGTGAACGGGATTGGGCCGTGTTCGTTGCTAACTTCCCGGGGATCTTCTTCGGATTTATCACTTTCTTTACTGCCTTGCACTAA
>SRR1151252_01192 ABC transporter substrate-binding protein
GTGACTGAGCACAAGAAAAAACGGCGGCTTGCCCGCCTATTGGCTAATCGACGGCAACGTTGGATGGCAATGGGGAGCCTAGTTCTTGCGGTAGTGATCGTTGTTGGGGTTGTTCACGCCATGACTGGCAAGAAGAATGTCCTGCCGAAGTATCACACCATGCGGGTTACCCGCCAGGCTGACTTTGCCCTGACCGGAAAGGTGGAACCGACCCAGACCCAGGTACTGTCCCTGCCGGCAGGTAAGCTCCAGAACCTGAACGTCAAGAACGGTGATCACGTAGCGCAAGGGGAGACGATCCTGACAACTCACGACCAGGACAGCCAGGACAGCGCCGTCGAACTCCAGGGCGACCTGACCAAGAGTCAGCAGCAGGTCCGGTCCCAACAACAAACCATCAATAATCTGCAACAGCAGCTGAATGGGGCGGACCCTGAGGTGGCTGATGACCTGCAAAGTCAGCTCACCGAGGCCAAGAGTGCCTATGCCGATGCCCAGGCGAGTGTGAGTGCCGCCCAAAACAAGCTGAATACCACCAATGGCCGGATCAACCAGAATCTGACCGCTCCTTACGCTGGCTACGTCACGATCGATCAGTCCAAGCAAGGCGCGCCAGTCGTGACCCTCTACTCCGATAGTCTTCAGTTTACCGGACAAGTGTCCGAGTACGACTACGCCAAGCTCCACAACGGCACTGACCTTCACGTGAAGGCCCTGGCTACGAATCGTACCGAGACGACTCCGGTGACCTACCTGGCTAAGGTACCGACCAGAAACAGCGGTAATAACACGAAATATGAGGTGAACGCCAACCTGAACGCGGGCAAGTTCATGGCGGGACAGACGGCCAGGGCCTTTATTGCCCAGGATGGGATCCGGATTCCCAAGTCGGCGGTCCGTCACGGTCACGTCTTTGTTGTTGAGAATGGTCGGGCCCGGGCGGTTAACGTCAGCGGGCACGCGATCAACAGCTACTACGTGGTCACGGACGGGGTCGATACGGGTGACCGAATTGTCACCAACCCCGGTCACCAGTTGAAGAACAACGCAAAGGTTGATCAAGATGATTAA
>SRR1151252_01193 antimicrobial peptide ABC transporter ATP-binding protein
ATGATTAAGCTGACCAACATCAATAAGTACTACCGCCAGGGTGACCACCGTTTTCACGTCCTCCACGACATCAACTTATCGGTTGACCAGGGTGAACTTGTGGCGATCATCGGTGAGTCGGGCTCCGGGAAGTCGACGCTGATCAATATCATCGGCTTCCTCGATGACGACTTCTCCGGTACCTATTTTTACGAGGACCATCCGATTCACGACTACACCCGCAAACAGTTTTCTCACCTGCAGAACCAGAACGTTGGCTTTGTCTTCCAGAACTTCAAGCTGATCCGGGAAGCGACAGTAGCGGAGAACGTCGCCCTGCCCCTCCTCTATACTGGTAAACGGCGTCGGGAGATTGGTGACCGGGTGACGGCGGTGCTCGACCAGGTTGGTCTGCATGGTTACGAGGACCAGCTGCCTCAGAACATGTCTGGGGGCCAACAACAGCGGGTCTCAATCGCCCGGGCGATTGTCGGCCATCCTCACTTCTTGATCGCGGATGAGCCGACCGGGGCGCTAGACACGGAGACCAGTCAGGAGATCATGAACCTCTTCAAGCGGCTCAACCGTGACGAGGGGACCACGATTATCATGGTTACCCACGACCCTCACGTCGCTGCTCAGTGCGAGCGGGTGGTCAAGATTATCGACGGCCGGGTGGTCAGCGACAGTCTGGAGGTGCATCATGCGGATAAGTGA
>SRR1151252_01194 ABC transporter permease protein
ATGCGGATAAGTGAACTCTTGCGAACGGCGCTGCGTTCACTGCGGGCCAACAAGAAGCGCAGTTTTCTGACAATTATCGGGATCATGATCGGAATTGCGGCAGTGATCACGATCCTGGGTATCGGGGACGGGATCACCCAGACGATGTATGACAAGTTTGGTAACAATGCCAAGCAAGGTCAGCAGACGACCGAGATTTACTACATGCCAGATAACGAAAACTCGACGGTCAGTGGCTTCAACCAGCAGGACATGGCCAACATCGATAACCAGTTTGGTGGTGAGATCAGGCGGGTCCGGATTGAACACGAGACCGCCAACATCAACACCAGAGCTGACCTCGGTGACGTTAGTAAGAACGTCACCGTCAGCCTCCTCAGGGCCGCGCCGACCGATGTCAAGCTGGTGGCGGGGCACCGCCTGACTGCTAACGAGATGGCGACGGGCCAGGCCGTGGCAATGATGAAGTCCTCACTGGCTCGCCACCAGTACGGCACAGCCCAGAATGCCCTCGGAACCACCGTGACCGTGGGGGCGACGACCTACCAAATCGTCGGTGTGTACCAGGACCAGGCCGAATACTCGATGGACGGTGGTCAGAACAAGTTTGGCGCTAGCTTCCTCCTCCCTAAGGACCTCTACTACCAGGGTGACACCGCTAGTTCGGGGAACACAATCAAGCTGACCTTTGACCAGGGCAGCAACGCCGGTCAGATCTCCAAGCAGGTTGCCAAGTACCTGAAGAAGAATGGGTCGGCGGCCAACCAGGGGAGTTACCAGTACGAGGACATGGAGAAGGAACTTAAGCAGTTCTCCTCCCAGATGAGTATCATCACCAAGTTCATCAGCTTCATCGCTGCCATTTCCCTTTTCATCGCGGGAATCGGGGTGATGAACATGATGTATATTTCGGTGTCGGAACGGACCCAGGAGATCGGGATCCGGCTGGCGGTCGGCGCTACCCCGTTTAACATCATGATGCAATTTCTGGTCGAGGCGGTGGCCCTAACGGTGACTGGGGGACTGCTCGGCTTCCTCGGTGGGGCTGGGCTGGCGCACCTAATCGCGCCGTTGCTGTCCAGCTCAATTGGTGGCGGGATTCATATCCATGCCCACATCACCATGACTGCCTTCCTGATGGCGTTTGGCACCTCCGCGGCGGTCGGCCTGATCTTCGGAATCCTGCCAGCCCGCCAGGCGGCCAACAAGAACCTAATCGATATCCTGCGCTAG
>SRR1151252_01195 prolyl-tRNA synthetase
ATGATTAATGCCCAACGGATCGCCGCGCAGTTGCAAGCGGCCAAGCTTCCCTTTCGAACCATCGACCACCCGGCCGTCTTCACCGCCGCGGAAGCCGACCGTTACGTTCAGGGTGAGAGCTTTGTGCGCACCAAGAACCTCTTTTTGACCACCAGTAAACATAACCATTACTACCTACTGCTGATTGCGGAGACCAAGCGTCTGGACACCCGCCGCTTCCGCCAGCAAGCTAATACGTCACGGATCACCTTTGCCTCACCAGATGAGCTGATGGCTAAGCTCAACCTCACCCCCGGTAGTGTCTCCACGTTTGGCCTCTTGAACAACCGTGATCATGACGTGGAGCTATTCGTCGATCGGGACGTGGCCCAGGCACCAACAATTGGTTGCCACCCCAACGACAACACCAAGACGACCGTTCTCGCCACCGCCGACCTACTTGATTTCCTGAAGCAGGCGGGCTACCCGGCTCACCCGATTGACCTCTAG
>SRR1151252_01196 cardiolipin synthase
ATGAATATTGTTTGGACGTGGGATGTTATTCGTCGCATCATCGAAGTCCTGTGGTTAATTAACATTGGTTTTGCAGTCTGGACCGTCTTCCGGACCCGGCGTGATATTGCCTCGACCTGGGCCTGGCTCCTGGTTCTGTCGGTCTTTCCGGTCGTTGGCTTCATCGTCTACCTGTTCGTGGGGCGGAAGCTGTCGAATGACGATATCTTCAGCATCCGGACGGAGCAGGAGGCCTTTGGCAAGCAGCTGGTTGAACAGCAGCAGACAATGGTGCGGGGTCACCAATTGCTGATTCCTCAGGGCAAGCTGGCCCGGGCCCGACAGTTGGTCAGCCTCTCTTTGAGTCTTGACCGGGCGGTGGTCACCTTTAACAACAAGGTGCGGGTCTTCACGGACGGCCACCAGCTCTTCGATGCGATGATTGACGATATCAATCATGCTCAGGACCAGGTCTACGTGGAGTTTTACACCTTCTACGCCGATGGCCTAGGGAAACGCGTCTTAAAGGCCCTGGAGGCAGCGGCAAAGCGGGGGGTCACCGTCAAGGTCCTCTATGACATGAGTGGGTCCCACGGTACCACCTACCGTTTCTTCACCCACTTGGAGGAATTGGGTGGTGAGGCTCAGGCCTTCAACTCCAAGGCTAACAAGCGGATCACGACGCCGCGCTTGAATTACCACCTTCACCGCAAGATTGTGGTGATTGACCGGAAGATTGGCTACACGGGTGGCTTTAACATCGGGGACCAGTACCTGGGGATTGCCCCGAAATTCGGTTATTGGCGCGATACCCACCTGCGGATCATCGGCCAGGCGGCCATGATGCTGATGGTTCGTTTCGCCATGGACTGGAACACGACCTGCCGGAAGACCGATAAGCCGCGGATCGACCTGACAGCCGCCTTCAAGGACTTTAAGGTTGAGAAGCCGACTAACGAGGACGACGATGTGGCCATGCAGATCGTCTCCTCGGGGCCCGATAACGACAACTTTGCCATCCGGCGGGGGTATGAGTCGATCATCAGCTCGGCTCGTAAATACGTCTACATCCAGACGCCATATTTGATTCCCGGGGAGCCGATCCTCGAATCCCTAGTGATCGCCGTCCGGAGCGGGATCGACGTAAGAATCATGATCCCGTGCATGCCAGATCACCCCTTCGTCTACCGTGCTACCGAGTACTACGCCAAGTATCTGGTCAACAACGGGGTGAAGGTTTACAAGTACAACAATGGTTTCATCCACGCTAAGACGATGGTCAGCGGTAGCAACCTGGCCTCGGTTGGTTCGGCTAATCAGGATTACCGGAGCTACCGACTCAACTTCGAGGCCAACGCCTTTGCCTACAATGAGGAGCTGACGGCCCAGCTGAAGAAGATCTTCGAGCAGGACATGGAGAAGAGTACTCTGTTGACGCCGGAGTACTTCGACCAGCAGTCCAACTGGCGGAAGTTCAAGCAGTACTTCTCCCGGCTGCTGTCACCAATTCTATAA
>SRR1151252_01197 MerR family transcriptional regulator
ATGTACACGAGTGGGCAACTCGCCAAGCACTGTCGGGTCTCAGTTCGGACGGTCCAGTACTATGATCAGCAGGGACTCCTGCACGCCCGCCGAACCGCCAGCAACCAGCGCCGCTATCAAGAGGACGACCTGCGACGACTGCAACGGATCCTGGCCTACCGTCAGCTCGGTTTCACGATTAAGGATATCCGAGAGCTACTCGACCAGCAGGATGATCAGGCACTCAGAACCGCAATTGTCCTCCAGGAGCAACGCACCCAGCAGGAGCTGCAGGCCGCCCAGGACCGGCTAGCTGGGCTCGAATACCTCCACAATCAGCTTGTCCACACAGGTAATTTCCCGGGAAATATTGCCGCTCACGTCAAGAGAAGTCACGCGCACCGTCTCACCCGTCTCCGGGTAAGGACCGCACTCGTCGGTCTGCTCGTCGACTTGCTCATCTGGGGAAGCCTGGCCTACGTCGTCTGGAATGGGGCCAGTATTGGCTGGCTCGTTGCCGGCATTCTGGCGTCGCTCATCCTGATTGGGGAGGTCGTGGTCAGCTACTACCAGCACGCCCAGTACGTCTGCCCTCACTGCCAAAAGTCCTTTATCCCGGCAGTTGGAGAATGGTTCTGGTCGAAGCACACCCCCAACACCCGCCAGCTTACCTGCCCCTTCTGCCAGCAAAAGAACTACTGCATCGAGGAATACCGGCCCCACACTGATGCCTAG
>SRR1151252_01198 inosine-uridine preferring nucleoside hydrolase
ATGGCAAAGAAGATTATCTTAGACTGTGACCCGGGGCACGATGACGCCCTGGCAATGACGATGGCGGTAGCCTCACCAAAGATCGACCTGTTTAGCGGTCACCACCTCGGCGGGGAACCAGACTCCGGACAAGACGCTGAACAATGCGATGCGGATGTTGACCCTCCTCCACCGTGA
>SRR1151252_01199 inosine-uridine preferring nucleoside hydrolase
ATGCGGATGTTGACCCTCCTCCACCGTGAGGATATCCCGGTGGCCCAGGGGAACCGGACGCCCCTGGAGACGGCTCCGGAGGTCCATGGTAAGACTGGCCTCGATGGTGCGGACCTGCCGGACCCCGACTTTGCTGTTCAGGACATACCGGCAATTGAATTGATCGCCAAGACGCTGCGGGCTAGTACCGGCCCGGTGACCCTGGTGGTGACGGGGCCGATGACCAATGCCGCCCTCTTTCTCCGTGTCTACCCTGACCTGGCCCGGGAGAAAATCGACCAGATTGTCTTCATGGGCGGGGCGATGGGCCTGGGTAACTGGCGGCCGTCCGTTGAGTTCAACATCTTCGTGGATCCGGAAGCCGCCAAGATTGTGCTGAACTTCGGAATTCCGCTGGTGATGGCACCACTGAACGTCACTCACCAGGCCCAGATCATGAAGGACGAGATCGCGGCCATCAAGGAAATTGACAACCCGGTAGGTCAGGCTTTCTATGGGCTACTGAGTTTCTTCGAGCAGTACCACGAGAACCCCAAGTGGGGCTTCAAGGGGGCGCCGCTACACGACCCGTGCACAATTGCCTGGCTGATTGATCGGACGATGTTTGAGACCGACCAGATGAACGTCGACGTCGAGACCCAGGGGGACCTGACTCGGGGCGAGACGGTCTGTGACTACTACCAGCTGACCGGGAAGCCGGTGAACACCGAGGTCATGCTGGGCATCGACCGGTCGCGATTCATCAAGCTGGTGATGGACTCCCTGAAGAGCTTTGACTAG
>SRR1151252_01200 cysteine synthase
ATGACTAACATTGTTAACTCAATCACCGACCTGATCGGTAACACCCCGATCGTCAAGCTAAACCGCGTCGTTCCCGAAGACGCCGCAGATGTCTATGTTAAGCTGGAATTCTTCAACCCGGCCGGATCAATCAAGGACCGGATCGCCCTGGCCATGATTGAGAAAGCCGAGCACGACGGCAAACTGACCGCCGGTGGGACCATCGTGGAGCCAACCTCCGGGAATACCGGGGTTGGCCTGGCCATGGTTGCGGCGGCTAAGGGCTACCAGCTGGTCATCACCATGCCCGAAACGATGAGTGTGGAACGGCGGAAGCTGATGCAAGGTTATGGTGCCAAGCTCATCCTTACCCCGGGGGCCGATGGAATGAAGGGAGCCATCGCCAAGGCCGAAGAGCTTGTCAAAGAGAAGGGTTACTTCATGCCAATGCAGTTTGATAACCCTGCCAACCCAGCCATCCACGAACAGACAACTGGTGCCGAGATCATCAACGCCTTCGGTAAGGACAACCTGCCGGATGCCTTCGTCGCCGGGGTCGGTACTGGTGGTACCCTGACTGGGATCGGTCACGCCCTCAAGAAGGCCAACCCGACCACCAAGGTTTACGCCCTGGAGCCAGCCGAATCACCAGTTCTCAAGGAAGGTCACGGTGGCAAGCACAAGATTCAAGGGATCAGCGCCGGCTTCGTTCCCGCCGTTCTCGATAAGGATGTTTACGACGGCATCCTTGAGATCAGCAGTGACGACGCCATCGCCATGGCCAAGGAAGTTGCCCACCGGGAAGGGATCCTGGTCGGGATCTCCGCGGGTGCCAACATCAAGGGCGCCATCGAGCTGGCCAAGAAGCTGGGCAAGGGTAAGAAGGTCATCACCGTCTCTCCAGACGGCGGCGATCGCTACCTGTCCACCGACCTGTTTAACTACTAA
>SRR1151252_01201 homoserine O-succinyltransferase
ATGGCCACTCCCCAGATTCGGGTTGGGGTCCTCAACCTGATGCACGATAAGGTCGACACCCAGCAACGGTTCACAGGGGTCCTCACCCACACCGACTACCAGCTGGCGCTGACCTTCTTCTACCCGCGGACCCACTACCGCGGCCGGGCGGTGCCAAACCTGGTGCAACAGATATCACAACCACTGGAGTTCGACCGGCTCGGTGAATTCGACGCCTTCATCATTACCGGCGCCCCGATTGAGCAATTGGACTTTGGTGCGGTCACCTACATCGATGAGATCCACCGACTGATCGACCGCCTGGTACAACTAGACATCCCCCAGCTCTACATCTGCTGGGGAGCAATGGCCGCCGCCAACTACCTATACGGTATCGAGAAACACTGCCTGAAGGAAAAGCTGTTTGGGGTCTTCCCCAACCACATCGTCAACCACGCTCCCCTGCTGGCCGGTCTGCCGGATGGTTTCCTGGCCCCGCACGCCCGTTACGCGGAGCTGGACCACCAGCAGATTCTCAACCATCCCGACCTGATTCTGGAGGCCACCACAATCGACGATAACATCTTCTCCTTCCGGGCCCGTCAGCACCCGCAGTCCTTCCTGTTCGCCCATTTGGAATACGGACAAGAGGCCTTGCTGAAGGAATACCGGCGCGAGAAGAACGCCTATTCTGACCGGGAGTACGCCAAGCCGCAGAACTACTTCCGTGACCCGGTCCACATGCGCGGGCCAGAATTCAAGTGGCAACCGGCCCAACACGCCTACTTTGCCAACTGGCTTCAGACGGTTGCCCATGACATGCAGAACAAGAAATTAGTAAAGGAGTAA
>SRR1151252_01202 permease protein
ATGCTGTTCTTCAAACTCATCAACTCCAGTTTCCGCCGTAACGGCAAGGCCTACGGGCCCTACCTCCTGGCGACTAGCATGCTAGTGGCAATCAACTATATCTTCGCCGCAATCGGTGTCAACCACAGTCCCCACCGCCTGGCCAGCAGTTCGGCCACCACAGCGATGATCAACATCAGTGCCAACTTCATCCTCATGGTCACCTTTGCCTTCCTCCTCTACGTCAACCGCTTCCTCTGGCAGCAGCGCAGCAGTGAACTCGGTCTCTACAGCATGTTAGGGATGACCAGCCGCAACCTGGACATCCTGACGGTCATTGAGAAAGTCTACCTCTTCATCGGTAGCATCGTCTGTGGGCTGGTCACCGGTGTCATCTTCGAGCGGCTCGCCTTCCTTGGACTGGGCCGCCTCCTCAAGGTGCATAACCTCAAGCAGCCCTGGATCGAGCCGGCCGTTCTGGGGAAGACGATCCTCTACATGGGCGGCTTCTTCGTCATCCTAATGGTGGTCGACCTGGTCAAATTGCACCGGCTCAACCCAAACCAGCTCTGGCACGCCACCGCCCCGGCCCCGAAGCGCCACGGTTGGCTGTTCAAACTGCTGGGGCTGCTTGGCATCGTTCTGTTAGCCGGAGCCTACTACATCACCCTGACCACCAAGCCGCAGATCTCGGCCTTCAGCAACTTCATGACCGCCGTCCTGCTCGTCGTTGCCGGGACCTACCTACTCTTCATCGCCGGGAGCGTCATCATCCTCCAGTTCCTGCAACGGCAAAAGAAGTTCTACTACCGACCACGGCACTTCATCGCTATCTCAGGGATGCTCCAGCGGATGGAACAAAACGGGGCCAGCCTGGCCACCATCTGCCTGCTCTGCTCAGCCGTCCTGGTCGCCCTCTTCAGCTCGATCACCCTCTATGCCGGGATCGGAGACACGGTCAAGCTCTACGCCCCCAAAGACGTAGTTATGATTACCAATCAACCGGTCACCCGCCGGCAACAGGGTGTGATCGAGTCCGTCGCCAAGAACCACCACGCCAAGATCACAAGCCAAACCAGCTACCAGGCCACCACGACCCAGAACGGCTACTGGCGCGGCCAGCACTTCATCAATCAAGGTTCCCTGGAGCACATGACCAACAAAACCACTAACTCGGTCATCTTCGTCAGCAGTCATGACTACCGGAAGATAACCGGCAAGCCAGCCCACCTCCGGGACAACCAGGCCCTGATCTACTCACCGGCCAAACAGCATACCGGCCAGGTCACCATCGCCGGGCATCGCTACCAGGCCAAGAACCTGTCCCAGCTCAGCTTCGCCTTCAACCCTGAGCATTCGATCTACGCCCCGGCCTTCGTGATCGTCAACCACCTGCCGGCCGGGCTGCCGAAGATGAACGTCACCGGCTTCAACTACCGTCTGAAGGGGTCGGATCGTCAGCACATTCGTTTTGAAAATGACCTCCAGGCCCACCTCCAGCTCGCTAACATGCAGTTGACTGGCCGTTACAACATTCACTACCTATTCAACAGCCTGTACGGGGGGATGGTCTTCGCCGGGATCATGATCAGCCTGGCTCTGGGGATCACGACCACGATCGTCATCTACTTCAAGCAGATCTCCGAGGGGTATGCGGACCAGTACCGGTTTAAGACGATGCAGCAGGCCGGCCTCAGCAAACGAGAGACGACCAAGAGTATCCACAGCCAGGTCCTGATGGTCTTCATGCTACCGATCGCCGGCGCCGTCATCAACCTTCTTTTCGCAATCCCAGCCATCAAGCAGATCATGACCCAGCTGAGTTTCTACAATCTTCAGCTGATGATCACGGTCGCCGTGGCGATTACTGCCGCCCTCATGGTTATCTACCTATTGATCTACGGTCTGACAACCCGGGTCTACCACCAGATCGTCGATAACATTCACTGA
>SRR1151252_01203 antimicrobial peptide ABC transporter ATP-binding protein
ATGACACTATTACAGCTCAACCATGTCCAACGAACCTACAATGCCAACTCCACTCACCCGGTCACCGCCCTGAAGGATATTAGCTTCACCGTCGACCGCGGCAAATACGTGGCAATCATGGGGGAATCCGGGGCCGGCAAGAGCACCCTGCTCAACATCATTGCCACCCTTGAGCAGCCCACAGGCGGCCAGGCGATCCTCAACAGTCAGGACCTCGGCGCCCTGACCAAGGACGACGCCGCCCGTTACCGCCGTGAGCACCTCGGCTTCATCTTCCAGCATTTCAACCTGTTGGACAGTCTCTCCAACCGTGACAACGTCTACCTCCCCCTGGTACTGGCTAAGACCGACCCCGCCGTCATGGCGCAGCGCCTCCAACCCCTGATGAAGCGGCTGCAAATTGCACAGATCATCGACCGCTTCCCGAGCGAGATTTCCGGTGGACAGCAGCAGCGGGTGGCGATCGCCCGGGCTCTGATTGCTCAACCCGACCTCCTGCTAGCTGACGAACCGACCGGGGCCCTAGACTCCAACACCAGCGCCGAGATTCTCGACCTCTTCGACGACGTCAACGAAAACGGTCAGACCATCCTGATGGTGACCCACAGTGCCGCGGCAGCCAGCCATGCCAAGCGGACCCTCTTCATCAAGGATGGACGAATCTACCACGAGCTCTTCCGTGGCGACCTGACGATGAAGAAGTATCAGGAAGAGATCAGCGACACAATGATGACCCTCACGAATGGTGGTGAATAA
>SRR1151252_01204 two-component system sensor histidine kinase
ATGAATAATCACTTCAGTCACCTTTTCCTCCGGGCCGTCCTCCCGATCATCGTCGCCTACCTGCTGATGGTCGGGCTGTCCTGGCTCCTGGCCATCCTCTACCAGATTCCCCACCGCTACTGTTGGGACCTGGTTCGCTTCAGCCTACCACTCCTCCTAGCTTGGTTGGGTATCGTGGGAATCCGTAGCTGGCAACGGGTCCGCCACCTCCAGCGCCATGACGCCACGGTGTGGCCCCACAACCCGGTTGAGGATGAACTCCTGACCCAGCTTATCACGGCCCGGACGGCCAGCGACCGCCACGTTCGTGACCTCCGCCTCCACCAGCAACGCCAGCTCGACCGTCTGGACCTCTTTGCCCACGAGATCAAGAACTCCCTGACTAGCCTGCAAGCCGCCGCAGAGAACGGTCCGGACGTCGACAGCACCAGCGTCCAGGACGGGGTCCGGACGGCCAACTACTACTTAGACCTTCTCTTAAACGACGAACGCCTGGCGATGTCCACCACCGACTATAACTTTTCCTGGGTCAACCTCCAGGACCTCGTCAACGCCATCATCCGCCAGAACTCGGCCGTCTTCATCCGCCGTCAGCTGGTTCCCCAGCTGGTCAACCTCGATCGCGCCGTCCTGACCGACCCGAAGTGGCTGCGCTTCTGCATCAACCAGCTACTTTCCAACGCCATCAAGTATTCCCACTCCGGCGGTTCGATCACCATCGCCTGGCACGACCACGCCCTGATGATCAAGGATGAGGGCGTCGGGATTCCGCCTGCCGACCAACGCCGGATCTTCGAGAACGGTTTTACCGGTCACAACGGCCACCAGACTACCCAGTCGACCGGAATGGGGCTCTACCTGGTCAAGAAGGTCGCTGACAAGCTTAATTTCACTGTCCGGGTCCGTTCACGGGTTGGGGTCGGGACCAGTTGCTACCTGATCTTCCCCGCCGCTAATATCCGCTAA
>SRR1151252_01205 two-component system response regulator
GTGGCAAAAATCTTTATCGTGGAGGATAATCAGCAGATCATCCGGAACGTCACCGACGAGCTGAGTAAGTGGCAACACAGCGTGGCCACGGTTGACGATTGGCAGGACGTCACCGGCGAAATTATGGCAACCCAACCCGACCTAGTCATCTTTGACATCACCCTGCCGAGTTTCGATGGCTTCTACTGGATTCAGGACCTACGCAAGCACAGTCAGGTGCCAATCATCGTGATCTCCGCAGCTGATATTGATAGTAACGTAATGCACGCCGTCGCGGCGGGGGCGGACGACTACCTGATGAAGCCCTTCTCAATGACCGTCCTGTTGGCCAAGGTCCAGGCCCTCCTGCGGCGTAACCGCCAGGAAGGCAACGCTACCCAGGTCGATTGGGACAACAACTACTTTAATACCCTCACTAACGAGGTGCAAAACGAACGCGGCCAGGTCCAGCTGACACCAACTGAGGGTGCCCTCCTCCAGGTCCTACTCAGCCACCGCAACCAGACTGTCAGCAAGGCCACCCTACTTGAGTGGCTCTGGCAGGGTGGTAAGTACCTCAATGAGAACACCCTCAACGTCAACATCAGCCGACTGCGGGCCAAACTAGCGCCCCTCCAGCTAGATCGAGCAATCCGTACGGAGCGGGGCGTTGGCTACCGCCTGGTGACCACCGATGAATAA
>SRR1151252_01206 nicotinamide mononucleotide transporter
ATGTTTAATAATTATCTCAAATTTCTTGGCCACCAGCTCCAGGGCTGGCCACAGCAGAACTACTACCTGTTCTTCTTCAGCCTGGGCTGTCAGGTGATGACACTGGTCAGCAGCCCGATTACCTGGGTGACCGTCATCACCTTCATCGGGACCACCCTGGGCGTCCTCTGTGTCCTGGCGATCAACGCCGCCAAGTCGGTCAACGGCTGGCTGGGGATCCTCTCGGCGATCTGCTTCATCATCGCCGGCTTGAACGCCAAGAACTACCTCAGTATCGGTGAACAGTTGGCCTACGTGATCACCCTCGACGTCCCAGTCCTCCTGTCGGCCAACTGGAACGTCAACATGGCGTCCAAGATCCGCCACTTCACCGCCAAGAGCTGGGTCGTGGCTATCGTCGCCACCATCCTGGTTTACCTGGTTTCTGGTTACCTGATCGGTCAGCTCACCGACGACCCGCGGCCATGGATCGACGCGATCAGCTTCTCCATCAGCCTGACCGCCGGGGTAATCTGTTTCCTGCGCTACAACAACCAATTCTTCTGGTGGCTGGCATCCGGGATCGCACAGCTGGTCCTCTGGTTCGTCTCCTATCGCCAAGGGTCCGCAACCCTGGCGATGGCCGTTAACTCCTCAATCTACGTGATCAACGACATCCTCGCCTTCACCGTCTCCCCATGGTACAACAAGAAGGAACGGCAGCGCCTGATCCGCGAAGAATCCGCTTACGCTCACAAGATGGGGTTGGAATAG
>SRR1151252_01207 transcription elongation factor GreA
ATGCAACGCAAAAAGATTACTGAGGCAATGAAGCACGTCTACTTCCAGAAGATGACCCCCACTGGCTACCACGAGATCGAGCAGGAAATCACCGCCCTGCAGGCAAAACGACCGGCTAAGATCGCCCAGCTTAAGGCAGCCCGGGCCCTGGGTGATCTCTCGGAGAACACCGAATACAGCACGACCAAACGTGAACTCCGCCACCTGGAGAGTCGCCTGCGCTACCTCAACAAGCAGCTCCAGTACGCCCAGGTGGTCACACCGGCCGACGGGCAGACCGTTGACCTCGGCACCCGGGTGACCCTCCGTTTTGAAGACGACGATGCGGTCACCACCTACCAGGTCGTCGGCAAGATGGAGGCCGACCTGGCCAAGCAAAAGATTTCTTTTGACTCGCCACTAGGCCGGGCCATCCTCCACCACCGGACCGGGAAGACGGTCACCGTCCAGGCTCCCCAGTCCGCCTATCAGGTTGAAATCATCAAAATCCAGGCCGCCGATTAA
>SRR1151252_01208 hypothetical protein
ATGAACGAGCAAGAAGAACACATTAATCAGTTCCTCACTTCGTCCACGTATCATCAGCTATCTACTAACCAGCAGAAGCATGCTCAGGATATTTTAGTCCGGTTTACCCAACAGATGAAAAATGAGCAGCATTTGGCCGACACCGCGTGGACACCCCAGGCGGTTAAGGACGTCATGGTTGGCGACTTTATCGCGGACCCGGCCCTGACCAATCAATTTGGGATTGCGGTCGCTCCGGTGTTAAAGGCCTACCAAAAGTTCCTTGGCGTTGACCAGCTGAAGGAGATTACTCAGGCCATTGATGACCAGCGGGCCAACATGAACGCCTGCCGGAAGGCCCACCAGACCTGGGCCCAGCTGCACGGGGGAGCTAGCAAGCAGGATGCGGCGAAACAACCGGTAGCGGCCAAGAAGGGTGCGGAATCTGCACCAGCTGCAGAGGTCAAGTCACAGACGGCGGCCGTCAAGCCGACCACCTGGACCGCAGAAAAATTAGCCCAGCTGATCAGCCAGGTTAAGGATGCCATGCCGGCAGCAGCGGAGTTTCAACACCAATCGCTCAGCCTGGGCGAGCAACAGTACGTGGTGACTGAGTTTCTGACCCTGATGCACCAGGAGTTCAATCAATATCCTGGTGAGTGGGTCTTTGCGGACTTGCAACGGGTGCTGGGGATGATGATGCCCCTGGATCCAGACATCACGCCTAAGCAGATCAAGAACATCGTCCCGACCGCTCAGGCTTTGTTTGACTACCTGAAGCGGACCGGTGTGATCGCAATGGACCAGTACAAGGTCGGCCTGAAGGCAATCGCCAATATGCAAAACTCCGAGGAGATGCTGGCCTCTCTTTCACGCAAGGAGCGGGAGACCCAGCTGATGCTGTCCTTTATCAACAGCAACGGAATCAACACGGACGACGTCAAGACGGCGGAGGCCTGGATGGATGACCACCGGGACGAGGTGGCCGCCTTCATGCGGACCCTGCTTAATCCATGGCGCGATTACGAACATCAACAGCTGGTCAAGCGGCAGGAGGCGGCCCGGCGTCGGGCCCAGTTAACAGTGGCAGATCGCGGTGAGATTACCCATCACCGGGCACCGCGGGGCATTAAGTTCAGCAAGAAGGCTCGTAAGAAGCGGCACCGTAAGTAG
>SRR1151252_01209 hypothetical protein
ATGAGTATTCAGATTCCGCAGAGTATGACCGAGGTTGAGGTTCAGCTCCTGGATCGCCAGAAGCATGGTGAACACGTGACCAAGGAGGAGATCATTCGTAATGCCGTCAAGGACACCCTGCAGGCATTGATGGATGAGGCCTTGGATGGTCACTATGACGATGTCAAGTGGGATGACCAAGGCCGTGACCTGGTAATCTATGACATCATGGGCAAGCAGGTCGGCCGGGTGGCACCCATAAAGGATACCTTCGTGGAGGAGTTTACCGCCAGCCCCGACAACATGATGCTACACTTTGATGATGCGGTCACCAAGTTGGTAGGCGGTCGCTAA
>SRR1151252_01210 NG,NG-dimethylarginine dimethylaminohydrolase
GTGATTAATGGTATCGATGACTATGCCAATGAGGGGAAGCCGGACTGCCAGTTAGCCCTCAAGGAGCACCACGACTATGTCGCCACACTCACTAAGCTGGGCGTCGCCGTCACCACCCTAAAACCACTGGAGGACTACCCAGACTCCTGCTTCGTTGAGGACCCGGCGGTGGTCTTTGATGACTTCGCCGTGATCACTAACCCTGCCCGCAGCACCCGACAGAAGGAACGCGAACTCATCAGGCCCGCTATCGAGCACTTCTACGCTGACAAACAGATCTTTGCGATCACCAGCACCGGAACTCTGGAGGATGGTGACGTGATGCCGGTCGACAATGACCTCATCTACGTGGGCCGCTCCGCCCGGACAAACCAGGCTGGGATCGACCAGTTCACCAAGATTGCTGCTAAGTTTGGCAAAACCGTCAAGATGGTGCCCGTTAAGCAGGTCCTCCACCTCAAGACCGGCACCACCTACATGGGCAACAACAAGCTCCTGGTTTCCGGCGAGTACATCGACAGCCCCTACTTCAAAGACTTCGACCAGCTCCCAGCCGGCGAGGACTACGCCGTCAACTGCATCAACACCGGCAATGGTGTGATCATGCCGGCCGGCTTTCCCGGGGTCAAGGGGCTTCTAACTGACAACGGCTTCACTACCCCACGAGGTCAACATGTCCGAATTCAGCAAGATCGACGGTGGCCTGACCTGCTTGTCACTACGTTTTAA
>SRR1151252_01211 hypothetical protein
ATGGAAACAAGAATCTTCTTCAACCCTGGTGACTCCATCGCCAACATCCATGACTACAATGAAGCCGTCCGGAAGGGTCAGATCTTCAAGCGGGAACGGCGCAACGATGACCTGGTCATCGCCAAGGGCCCCGATGATGAGGAGTATGCCATCTTCTACGCCAAGGACGCCGCCCAACAGCCCGGCGCTGGCCAGAAGCCTTATCAGATCAAGCATAAGCTTTAA
>SRR1151252_01212 phosphatidylethanolamine-binding protein
ATGAAGATTTCAGTACCACTCAAGGACGGTCTGCTCGCCGACGAATACGGTAAGTACGCTCCGGCATCGGCAATGCTGGCCGGCCACCCGATCAAGTCATTTCCAATCACCGTCACCGGCCTACCCGTCGGCACCAAGTCGCTGGCCCTGACCCTGGTCGACTACGACTCGACGCCAGTCTGTGGTTTCACCTGGATCCACTGGCTGGCCGCTAACATCCCCGTCAACCTAGCTAAACTGCCGGCCAACGCCAGCCGGGATTTGGCCGACCAGTTTGTCCAGGGACGCAACAGTAACGCCGGTGCCCTGGTCAATGGTGACCCCCAGATCATCACCGGCTACGTGGGCCCCCAGCCACCGGACCAGACCCATAATTACACACTGCGGGTCTACGCCCTCGACACCGTCCTTCCATTGGAAAACGGCTACTGGCTAAACGAATTTATCCATGCGGCTCACGGTCACGTCCTCGATCATGGTAAAATAGATTTACCAAGTCGTGCATAA
>SRR1151252_01213 protein tyrosine phosphatase
ATGCCAAATCGATTACTCAACATCAAGGACGGTCACAACTTCCGTGACCTTGGTGGCTACCAGACTGAAGACGGGCGGACCGTCAAGTGGCGCCAACTGCTGCGGACCGGTTCCCTAGCCAACCTCAGCGACAAGGACCTAAACACCTTGGCTCAGATCCCAGTTACCGTAGACATTGACCTGCGTGGTCAGGCCGAGGTTCAGCAAATGCCGGACCGGGTGCCAGAGAGTGCGACCTACTACCACCTGCCCGTGTTTGCCGAAGACGAGACGGACGCCTCACACAGTAACGAGGAGATTGCCAAGCGAATGCAGGACCCCGGCAACGGCTACCGCCACATGCTGACGGTCTACTCACGGATGGTCATCATTCCGAGTGCCAAGAAGGCCTTCCGGCAGCTGTTTGACCGCCTGCTCGCCAACTCAGATGGGGCCACTATCTTCCATTGCACCGCCGGTAAGGACCGGACCGGGATGGCTGCATTCCTGATTCTCAGCGCCCTGGGTGTTCCACGTGAAACGATCCTTAAGGACTACCTGCTGACCAACGAGTTGACCGCGGACTTTCGTGAAGGCTGGTTGGCCCAGATGAAAGCTACGATGCCCCAGACGCCAGCCACCGATACCCTGATCAACAACCGTCGTGACCTGGCCTCGGTCAACGCCGATTACCTGGGCACGGCGATCACTGCCATCGACGACCAGTACGGCGACATCCAACATTATTTGCGTGACTACCTGGGACTCAGCGATGATGAGCAACAGCAATTGCGCGAGCGTTACCTAGAATAA
>SRR1151252_01214 GDSL-like lipase/acylhydrolase family protein
ATGCGTACCTATCTACCAGCTCAATTATTACCACTCGCCCAGCGAACCGGCCGTTGGACAATCAAAAAGGACAGGGATGACCCAGTCCTCTACACCACTAACCTGGGAAGCTACCTACGCTGCCGGGTCACCGGCACCAGCCAGCTTGTCTTCACCATCAGTAACCGCCATTCCCCACTCGGCCCCGGTCAAGTCTACGCCGTCCGGGTCGATGACCAGCCCTGGCGACGGTTTGCGGCCCAGCCGGGGAAAATCGGTTTGTCCCTCACCCCAGGGGTCCATACCGTGGAGATCATGGCCGCCGGCAACACCGACCTGGATGCAGTTTGGTCTGGTAAGCAGGGCTTCGGCATTCGCTCCCTAGCCATGGACGATGGCGGTACGCTGGCAGCCATGCCGGGCCGCCCGGTAATTGACTTCATCGGGGACTCGATTACTGCCGGCTGCTGGGTGGCTGGGCGCCACGCCGCATTGGACTACCGACCGGAAAGTAACTACGCCGCTATCTGTGCCGATATGCTGGGGGCGGACAGTGTCCGGATTGCCTACTCAGCTGGTGGGGTGCTCCGACCCGCCACCGGGGGCGTCCCCGTCGCCAGCACCTTCCTGCGTCGGATCGACCAGGAGACCGTCTGGACACCCAATCATCCCCAGCTGGTGGTGGTTAACCTCGGTGTCAACGACCGGCGCTACCCACTACCCCAATTTGTGAAGGCTTATGATCGTTTTATTCACCAGGTCACCACAACCTTTCCCGGTGCCACGGTTGATCTGCTGGTGCCGTTTAGTCAGCACTTCCGGGATCAAATCACCACCATCGGTCACCACTACCGGCTCCGGGTGATCGATACAACCGGCTGGTGTCCCTCCTCCACCGACGGCCTCCATCCAGACCAGGCCGGCACCACCATTGCGGGCCACCACCTGGCCCAGGCAATTGCCCCCGACCTGGCCAAAAAGGTATAG
>SRR1151252_01215 galactokinase
ATGGATAAGCAACAATTCTTAGACGAATATAAAAAGGTCTTCAACGAAAATGGCAAAGACGTCTTCTTCTCACCAGGCCGAATCAATGTGATTGGTGAACACACCGACTACAACGGTGGTCACGTGTTCCCGTGTGCTATTAGTATCGGTACCTATGGTGTCTATGGCCCACGTGAGGACACGACGGTTGCCATTTACTCTGCCAACTCGGCTAAGGAAGAAAACAGTAAGATCATCACCTTCGATATCAATGATGATCAACCACAGACCGCCAAGGACGAGAAGTGGGTTAACTACTTCAAGGGGATGTTGGTTTACCTGAAGCAACGCGGTTACAAGATTGACCACGGCTTCAACTTCTACATTCACGGTTACCTGCCATACGGTTCTGGCCTGTCTTCATCAGCCTCAATCGAAATGTTGATGGGGAACATCCTCAAGGAAGAATTCGACCTCGACATCGACGAGATCGACCTGGTTAAGCTCGGTCAAAAGACGGAAAACGACTTCGTGGGCCTGAACTCCGGGATCATGGACCAGTTTGCGGTCGGCATGGGCAAGAAGGATAACGCCATCTACCTCGACTGCAATACCCTGGAATACAAGTACCTGCCACTGGAACTCGGGGACTACGAGATCGTTATCATGAGCACCAACAAGACCCACTCCCTGGCTGGCTCCAAGTACAATGAACGGGTTCAGGAATGTGAAGAGGCCGTCAAGCGCCTGAGCAAGAAGCTCAATATCAACAAGCTGGGCGAGATTGACCTCGACACCTTCGATCAATACACCTACCTGATCAACGACGACACCCTGATTCGTCGGGCCCGTCACGCGGTTAGTGAAAACGAACGGACCAAGAAGGCCATCGATGCCATGGAGAAGGGTGACCTGGAGGAACTTGGCCGCCTGATCAATGCATCCCACGTTTCACTGAAGTACGACTACGAGGTCACCGGTAAGGAACTGGATACCCTGGCTGAAAACGCTTGGGAACAACCAGGCTGCCTTGGTGCCCGGATGGTCGGCGGTGGTTTCGCCGGTTCCGCAATCGCAATCGTCAAGAAGTCTGAAGCCGATAACTTCAAGAAGAATATTGGCAAGATCTACCGTGACAAGATCGGTTATGACGCCAGCTTCTATGACGCCGAAGTTGTTGACGGGCCACACAAGCTCTAA
>SRR1151252_01216 galactose-1-phosphate uridylyltransferase
ATGAAGTTAATGGAAGCATATGCCGACAAGGTAATCGCCAGCGGTGCTTACGAGCCGCTTGACCGAATCTACGTCTTGAACAAGATTCGCGGCTTTGTTGGTGACGAAGATGTTGAAGCACAAGACGGTCAGCCACTGGTCAGTCAACTGGTTGATCTGGCAGTTAAGCGGGGCAAGATCGAGGAAGGTCAGACGGAACGCGAAATCTTAAACGACCAACTCTATGACCTGATGACGCCTCGTCCGTCTGTCGTCAACCACGAGTTCTGGGAGAAGTACCAGCAGTCACCAGACACGGCCACGAACTGGTTCTACAACCTGTGTACGAGCAACGACTACGTCAAGGTTGCCGCCATCAAGAAGAACGTGGTCTTTGACAAGCCAACCAAGTACGGTAACCTGGAGATCACCATTAACCTGTCGAAGCCGGAGAAGGATCCTAAGGCGATTGCGGCAGCGGCTCATGATACCAAGAAGAAGTACCCACAGTGTGCCCTCTGCATGGAGAACGAGGGTTACAAGGGCCGGCTCGGCCAGGCGGCCCGGAGCAACCACCGGATCATTCGGATGATGATTGGCGGCCACAAGTGGGGCTTCCAGTACTCGCCATACGCCTACTTCAACGAGCACTGCATCTTCCTGGACAGCAAGCACGAACCAATGCAGATCAACCGGCAGACCCTGGTCAACCTGGTTGAGATCGAAAAGCAGCTGCCGGCTTACTTCGTCGGGAGTAACGCTGACTTGCCGATTGTCGGGGGTTCCATGCTGGCTCACGAACACTATCAGGGTGGCCGGCACAGCTTCCCGATGATGAAGGCGGCCATCAAGAAGTCGCTGGAGTTCAAGGATTACCCCGACGTTGAGGCCGGGATCGTCAACTGGCCAATGAGCGATATCCGCCTGACCAGCGCCAACACAGCCCAACTGATCGACCTGGGGACCCACATTATTGACGTTTGGGACCACTACAGCGACGAGAGCTTGGATATCAAGGCCTTTGATGGCGATACCCGTCATCACACTGTGACGCCGATCATGCACCGCGACGGTGACCGATTCGTCCTCGACCTGGTATTGCGGGATAACAACACTTCCAATCAGTACCCACTGGGGATCTTCCACCCACACGAAAAGCTGTGGCACATCAAGAAGGAAAACATCGGCCTGATCGAGGTCATGGGGCGGGCAATCCTGCCGGCCCGGCTGAAGAGTGAATTGGCCGAAGTTAAGAAGTTCTGGCTCGGTCTCGACAACGAGATTGCCGACAGCCATCTGCCATGGGCCAAGGAGGTCCAGGCCAAGATGAGCATCACCGAGGACAACGTTGATGAGGTCATGGAACAGGAACTGGCCAACATCTTCGCCAACGTTCTCGAAAACGCTGGGGTCTTCAAGGATGATGCAGCTGGTCAGGCCGGCTGGTCCAGATTCATTGAAAAATTATAG
>SRR1151252_01217 LacI family transcriptional regulator
ATGGCAGTTACACTGCGTGATATTGCAAATAAGGCGGGGGTCTCGATTGCCACCGTTTCACGGATTCTTAATAATGATACGACCCTTTCCGTGAATGAAAAGACGCGGCAACGGGTGCTGGACACGGCGGAGCGCTTCAACTACACCAAGCACAAGCGCTCCCAGAGTAACCGTACCCAGAAAATCGCGGTCGTCCAATGGTATTCCCTGACCCAGGAGCTCGACGACCTCTACTACATGGCAATCCGTATGGAGATCGAGCGTTCCGCCCAGCAGCGGGGCCTGCAGACCGTGCCGATCTACCAGAACAACATGGAGGACATCCCCCAAGACGTCACCGGGATCATTGCCATTGGTAAGTTCAGCGACAGCCAGGTCGAGAAGTTTCGTCTGGTGACCCCGAATATCGTCTTTGTTGATTACGACAGCCTGGCCGCTGGCTATGACTGCCTGGTGCCGGACTTCGAGAACGCAGTCCGGTCGGTAATCAGCGAGTTCTGTGCCGAGGGAATCAAAGACATCAGTATGCTAGCGGGGACCGAGACGACAACCGATAATGAAACCGTGCCCGACCTGCGGCGTTTCTACTTTGAGAGTGACCTGCGCCAGCGGGGCCTCTATCATCCCGAGTATATCTTTGCCGGCAACTACACCTCGATGTCCGGCTATCAGGTGATGAAGAAGGCCATTGCTGACCTGGGCGACCGCCTACCGCACGGGATCTTCATTGCGAATGACTCGATGGCGGTCGGGGCCCTCAAGGCGGTTCAGGAGGCTAAGATCAAGATTCCAAGCCGCCTGGCGTTGATCAGCTTCAACGATACTGCCTTGGTCAAGTACGTCTACCCAAGCATGTCCGCGGTTCACGTTGCCACCGATGAGATGGCGCATTCGGCGATCGACATGATGATCAAACGACTACGAAATCCTGATAACGATCCATGCAAGACCGTCGTTGGTACCCACCTGATCAAGCGGCAAACAACGCGTTAA
>SRR1151252_01218 alkaline phosphatase
ATGGACGCTTGGATCACCTCACTAATTGATCAGTTTGGCTACCTGGCAATCGCCCTGCTGATCGCCCTGGAAAACATCTTTCCGCCCCTGCCCTCAGAGATCATCCTGACGATGAGCGGCTTTTTGGCAACGAAGACCTCCCTGACAATCGCCGGTACCGTTATCAGCGCCACCCTTGGCTCCCTGATCGGCGCCCTGGTCCTCTACGCAATCGGCCGTCAGTTGACCGTACAACGCCTTGGCGCCCTTCTCAAGCGGCGCCCCTTCCAATTGCTCGGCTTCAAGGCCGACGACGCCTACCGGGCGGTCCGGTGGTTCAACCGCCATGGTACTAGCGGAATCCTCTACGGCCGCTGCATCCCCGTGGTCCGCAGCCTGATCTCGATTCCAGCCGGGATTGCCAAGACCCCGCTGGGCAAGTTCTGCCTGCTAACCACGATCGGTAGTGCCATCTGGAACACCATCCTGGTTGGTCTCGGCGCCTGGGTTGGCGACTCCTGGGCGACGATCGTCCAGATCTTTGACGATTACACCACGTTTGCCATCATCGTCATGGCCCTGGTTGGCTGCTACCTGGCCTATCGCTGGTATCTGACGCGGATCAAGAATAAGAACTGA
>SRR1151252_01219 amidohydrolase
ATGGGCGTCAGTCTGACCAGCGTTGCCAAGCTCAAGCGGGCAGTTGCCTTCGCCCGGCAGAACAAGCTGCAGATTGCCATCCACGCGATGGGCAACGCCGCCATTCAGCGGGTCATCGACGTCACCAAGGACCTCCACCCCTGGCTCGACGGAATGCCATCTGTCCGGATCGAACACGCCTCACTGATGACCGACGCGATGTTTGACGAGATTGACGCCAGCCCGATGAACTATGCCCTGGTCACCCAGCCGATCTTCTACTTTGCCGAGGATGAATCCTACCGCAATTACCTCTCTCCGGCCCAGTTCAAGACCGCTTACCGGGTTAAGACAATGCGCAACTCCAACGCCCTTCTCGGCCTGAGCTCTGACGCCCCTTGTACGCCCTGGGCTGAGCCTGACAGTCCCTTCTATAGTATTTATGCCGCCGTTACTCGGAAGGCCGCTAACGGCGACGTGGTGAACGCTGACGAGGCGATCACGGTTCCCCAGGCCGTCCTCGGCTACACCCGTGACGCTGCCAAAATTGGTGGCTTCACCAACAACGGAACCCTGACGGCTGGCAAGGACGCCGATTTCGTAATTTTGAATAAAGATATCTTTACGGTCTCGCCCGCGGACTTACAAAATGTTAAGGTAAGTGAGACATGGATTGGTGGACACCGCGTCTACCAAAATTAA
>SRR1151252_01220 amidohydrolase
ATGTTAACAACCTATGTTAATGGCAAGATTTTTATCGGTACCGATGAGCAGACTTTTGCCAACACGATGATCATTGAGGATGGTAAGGTTAAACAGATTGGCGACGACCTGACGCCCGCCGGTGAGGTAGTCGACCTGGGTAGCCAGACCGTCCTCCCCGGCCTGATCGACTGCCACACCCACCCGAAGTATATTGCCGATGCGCTTCACGGTACCGCCTGCACGCCACCTAACGTCAACAGTATCAAGGAGATGCAGGCTGCCCTCCGTCAGTCGCCAAGCTACGGTCAGGGGCCGGATACTTGGATCGAGGGCTGGGGCTTTGACGAGACCAAGCTTGCAGAACACCGCAGCCCGAACCGGGACGACCTCGACGCCGTCTCTACCGACCAGCCGATCTTCATCTACCGGTCATACTGTCACTCATCCGTCGGTAATTCCAAGGCCCTAGAGTTGGCAGGGATCGACGAGAATACACCCAACCCGGTCGGCGGCAAAATCGAACGGTTCGCGGATGGACGGCCAACCGGCTTTATGCGGGAGGTTGCAGCGACCCAGCTCCTAATCCGTGCCAAGTCCGCCCAGAGCTATCAGACTGACCTGACAAATATGGTCAACAGCTCCAAGCACTACCTGGCAAACGGCCTGGTCGCCATCGGTGAGATGATGGGGCGGATGAAACCCTACACGACCCTGAAACTGTATCAGGACAGTGTTAAGGAGGGATTTTCCCCGAAAGCCTCCATCTACTACGTCTTTGACGAACTCGCCCCGGACCAGCCCCTGCACCCGAGTGGCGACCAACAGCTCCGGGTGGCCGGGATCAAGGTCTTCATGGACGGCAGCATCTCCGGGGAGACCGCCTTTAATAACCCTACCCATCCGGTAAGATGGGCGTCAGTCTGA
>SRR1151252_01221 proton glutamate symport protein
GTGAAACACTATCGCTTTAGTCGGCTCAGCATGGGCTGGCAGATTATGATTGGGCTGGTACTGGGGATCATCTGTGGGGTGATCTTCTACCATAACCAGGGGGCCATCGTCGTGATGCAGAGCCTTGGGACCATCTTTATTCGCCTGATTCAAATGATTGTGATGCCGATCGTCGTTTCCTGCCTGACGGTGGGGATTGCCAACATCGGTGACATCAAGAAGCTGGGCCGGATCGGGGGTAAGACCCTGATCTACTTTGAGGTTCTGACTACCATTGCCCTGATTCTTGGGATTGCCATGGCCAACGTGACTCACCCGGGGAGCTTCATTAATGTTCATGACCTGCACGGGACGGACATCTCCAAGTACATGGCGACCGCCAAGACGGCTGAGCACAACAGTGGCTTCTGGCCGCTCATCTTGTCGATCATCCCGACGAACATCTTTAAGTCGATGGCCGACGGTGACATGATGCCGGTGATCCTGTTCTCCGTTCTCTTTGGGCTCGGGATTGCCGCGGTCGGCGAGAAGGCCAAGATCCTGATCGATGTCTTAAACGGGGTGGCCGAGGTCATGTTCAAGGTCACCAACTGGGTGATGAAGTTTGCTCCGGTCGGGGTCTTTGGCCTGATCGGGATGACGATCGCCGAGATGGGGTTGAGCGCCCTGCTGCCACTGGGCTATTTCATCCTGATCGCCTACGTAACGATGCTGATCTTCATTATCGTCATTCTTGGGATCACCGCCCATATCTTCCACCTGCGCTACTGGAAAACGATGCATGTCATCCTAGACGAAATCGTCCTGGCCTTCACCACGGCGAGCTCCGAGGTGACCCTGCCACGGCTGATGCGCAAGACCCACGAGATGGGGGTCAACAAGGGCATTACTTCCTTCGTCATCCCAACGGGGTACACCTTCAACCTGGATGGCTCGGCGATCTACCAGTCGCTGGCCGCCATCTTCCTTGCCCAGGCGTACGGGTTGCACCTGTCCCTGGCGCACCAGGTTACCCTGTTGATCGTCCTGATGATCACCAGTAAGGGGATGGCCGGGGTTCCCGGCGCCTCCTTCGTGGTCCTACTAGCCAGTGTCTCCACGATTGGGGTGCCGATGGCTGGTTTGACTTTCATTGCCGGAATCGACCGTTTCGTCGACATGGGCCGAACCGCCGTCAACGTGGTCGGTAACTCGATTGCCACTTTGGTCATCGGGGAGTCCGAAGGTGAACTGAACCGCCAGCAGTACAATGAATACCTCGATAATTACGGTAAGAAGAAGTAA
>SRR1151252_01222 AsnC family transcriptional regulator
ATGGATAAAATCGATCGGAAAATTGTTAACCTGCTGCAGACCAACGCCCGGGCCTCGCTCAAGGAGCTCTCTAAGGCCTGCTTCATCTCCTCCCCCGCGATTGCGGCACGGATCACGAAGTTGGAGAAGGCCGGCATCATCACTGGCTACCATTCCAGCATCAACATGGAGAAGATCGGCTTCCATGTCAAGGCCTTCATTCAGGTCCAATTGGAGCCCCGCCAGAAGCAGGAGTTCTACCCTTACATCCAGAGTATTCCTAACGTCATCGAGTGCAACTGCGTCACCGGTGACTACTCCGAGATCATGGAGGTAATCTTCCCATCGACCACCAATCTCGACGACTTCATCAATACCATCCAGCAGCGTTTCGGTAAAACCAGCACCCAGATTGTCTTCAGCACCAGCGTTGACCATCGTGGCGTCAAACTCAGCGCCTCCCAAGACGAGAAGTAA
>SRR1151252_01223 universal stress protein UspA
ATGGATCAAGAATACCAAAACATTTTAGTACCAGTTGACGGCTCAAAGGAATCAGAGCTGGCCTTACACCGGGCAATCTTTGTTGCCAAGCGTAACGGTGCTCACATCGACATACTGAACGTCATCGACACCCGGGCAATGGCCTACAACTTTGCCGGAATGTCCGATGGCAGCATTGCCTACCAGCTGGTTGATAAATCCAAGGAATACCTGGATGGCCTGCTGAAGACTGCTAAGACTAAGGACGACTTTGACAATCTCGACATCCACATCCGTCTGGGGAACCCGAAGACGATCATCTCCTTCGACTTCCCACACGACCACCATAACGACATGATCATCATGGGTGCGAGTGGCCTTTCACGGATGCAGCGGGCGGTAATGGGTTCTGTTACCTCTTATGTAAAGCGGAATGCCCCGGTTGACGTCCTGGTTGTTCGGACCGACGTGGACCAAGTTAAGTAA
>SRR1151252_01224 sugar transport protein
ATGGATAGTTCAAAGAAAGATCAGCATATTGTCCGCTCGCGCCTGGCATACTCGCTGGGGGCCTTTGGTCATGATGCTTTCTTTGCATTACTTTCTACTTACTTTATGATGTACGTCACTGGTCACCTGTTCGATTCGGGTGACAAGCACTTCGATAACAAGATGGTCGGTTACGTTACGCTGATCATCCTGATTCTGCGGATTGGTGAATTGATCATCGACCCAATGATCGGGAACGCAATTGACCGGACCAACACCAAATGGGGTAAATTCAAGCCTTGGGTTGTTGGCGGTGGTGTTATTTCAGCCGTCCTGCTTGCCGCACTGTTCACGCCACTGGGTGGTCTGAACATGAGCAACCCAATCCTTTACCTGGTTCTGTTTGCTATTATTTATATCGTTATGGATGTATTCTACTCCTTCAATGATGTTGGTTTCTGGTCCATGGTTCCAGCGATGTCCTTTGACTCGCACGAACGTGACAAGATCGCTACCTTCGCCCGTGTTGGTTCAACCATCGGTGGGCAGATCATCGGTTTTGTCATCATGCCAATGGTCCTATTCTTCTCCGTTAAGCAAAACGGTGGTACTGGTGACGACCGTGGTTGGTTCATCTTTGCCGTCATTGTCGCTGCCGTTTCCGCCATCACGGCGATCGGGGTTGGGATGTTCACCCACGAACAGAAGTCACTCCTTCGTGAAAACAAGGAAGAAACTAAGTTCAAGGACATCCTGAAGATCTTAGTCAAGAATGACCAACTGCTGGCCATTGCGATGTCCTACCTGTTCTTCACAACTGGTCAGACCCTGCTGAACAGTTTTGAGCTCTACTACTTCACCTACATCTTAGGTGATTCTAAGGCCTTCTCCATCCTGGGTGGTCTGAACACGGTTGTCGGTGTGATCTCCGTCTTCGCATTCCCACTCTTCTCTGGTAAGATTGGTCGTCACAAGCTTTTCTACGGTGCCGCTTCTATCGAAGTTCTTGGTGCCCTGATCTTTGCCTTTGCTGGCAAGTCCTTAGCACTCGTATTACTCGGGGCCGAATTATTCTTCATTCCACAACCAATCATCTTCCTGGTTGTCCTGATGACGATTACCGACTCTGTTGAATACGGTCAATTGAAGCTGGATCACCGTGATGAATCACTAACCCTGTCAGTTCGTCCACTGCTCGATAAGTTCGGTGGTGCCGTTGCCAACGGTGTTGTTGGTGCCGCTACCGTTGCTGCCGGTATGACCGGTGGTGCTACCGCCGCTACGGTTACTGCTCACGGCGTAAGTATCTTCAAGATCTACATGTTCTTAATTCCAATTGCCCTGATCGTTGTCGGAATCATCATCTTCGCCCTCAAGGTTAAGTTGGATGAATCTTCACACGCCAAGATCGTTGCCGAACTGGAACAAACTTGGGGTAAGCAATTCAACAAAGGTGGTCAAGACGCCGCTGCTGAAGAACCAGCAGCTCAACCACAACCAGGTGTTACCGAAATTCCGGCACCGGTTGCCGGGACCCTCGTTGACCTCAAGGACGTCAAGGACAACGCCTTCGCCAGTGGCAGCATGGGCCAAGGTTTCGCCATCAAGCCATCTGATGGTAAGGTCTACGCACCATTCAGCGGCACGGTTCGGGCAACCTTCTCAACCCGGCACGCGGTTGGGTTGGTTTCCGACAGCGGTGTTGCCCTCCTGATCCACATCGGGATTGACACTGTCAAACTGCACGGGACGGGCTTTGTCACCTACTTCGACAAGGGTCAACACGTCGAAAAGGGTGCTGAGCTGATGGAATTCTGGGACCCAACCATCAAGAAGGCGGGTCTCGATGATACCGTCATCGTTACCGTCACGAACAGCGAAGAATTCAACTTCGACATGCTGAAGCAGGCCGGGACCACGGTTACCCACACGGACAATGTCCTGAAGGTTACCAAAAAGGACCAAGCCGCTAAGTAA
>SRR1151252_01225 6-phosphogluconate dehydrogenase
ATGTCTGATGAAAAAGCACAAATTGGTGTTGTTGGTTTAGCCGTCATGGGTAAGAACCTGGCCTTAAACATTGAAAGTCGGGGCTTCACGGTTGGTGTCTACAACCGGCACCGCAACCGGACCGATGAGATGATGAAGGACCACAGCGACAAGAAGCTTGTCCCAAGCTACACAATCGAGGACTTCGTGGACTCTCTGGAGAAGCCACGGCGGATCCTGCTGATGGTCAAGGCCGGCAAGCCAACTGATGCAGTGATTAATGAGTTGCTCCCTCTGCTGGACAAGGGTGACGTCCTGATCGATGGTGGTAACACCAACTTCCACGACACCATGGCCCGGAATGCCAAGCTGGACAAGTCTGGTATCAACTTCATCGGCATGGGTGTTTCCGGTGGTGAGCTTGGTGCCCTCCACGGTCCTGCCCTGATGCCGGGTGGTCAAAAGGAAGCCTATGACCTGGTTGCCCCAATCCTGACCAAGATTGCTGCTAAGGCCGAGGAAGATGGCAAGCCATGTGTTGCCTACATCGGTCCTAACGGTGCCGGTCACTACGTCAAGATGGTCCACAACGGGATCGAATACGGTGACGAAGAGCTGATCGACGAGAGTTACAACATCATGCGTAACGTCCTGAAGATGCCAGTGGATGACATTGCTAAGACCTTCGCCGAATGGAACAAGGGTGAATTATCCAGCTACCTAGTTGACATCACTGCCGATATTCTGACCCGCAAGGATGACCTGGGCGACGATAAGGACAAGCCGATCGTCGACATGATTCTCGACCGGGGTGCCAACAAGGGAACTGGTAAGTGGAGTTCTGAGACCGCCCTTGAAGGTGGTGCACCACAATCCGTGATCACTGAAGCTGTTTACGCCCGTTACATCTCCATGATGAAGGACGAACGGGTGGCCGCAAGCAAGGTTCTGCCAGAAGTTACTGAGTCCATCACCATTGATGACAAGAAGGAACTGATCGAAAAGGTTCGTCAGGCCCTCTACTTCGGCAAGGTAATGTCCTATGCTCAAGGCTTCGAACAGATGCGGATCGACTCCGAACGCTACGACTGGAACCTGAAGATGGGTGAACTGGCCCAGATTTGGCGGGCTGGCTGCATCATTCGGGCTCAGTTCCTGCAAAACATCACCGGTGCCTTCGACAAGAACCCTGATCTGAAGAACCTCCTGCTGGATGACTACTTCAAGGATATCGCCAAGAAGTACCAAAAGGCCATCCGGGACGTGGTTGCCCTCGCCGTCAAGGCCGGTATCCCAGTCCCTGCCCTCAGCGCAGCCATCAGCTACTACGACTCCTACAGGGCAGAGGTTGTTCCTGCTAACCTCCTACAGGCCCAGCGTGACTACTTCGGTGCCCACACCTACGAGCGGGTTGACCGTCCTGGCAACTACCACTACAGCTGGTACAAAGAACAATAA
>SRR1151252_01226 glucose-6-phosphate 1-dehydrogenase
TTGGCTACAGAAAATAAAGCTGTCATTACATTATTCGGGGCAACCGGTGACCTGGCTAAGCGGAAGCTGTACACTGCCCTCTTCAAGCTCTACCAAAAGGGCTACCTGGCTGATCACTTTGCTCTGCTCGGTACCTCTCGCCACGAGATGAGCGACGACGAGTTCCAAAAGTTGGTTCAAAACTCAATCAAGGACATTGAAGAAACGCGCACGGGCGAAGCGGCTGACTTTGCCAAGCATTTCTTCTACAAGGCTCATGACGTTACAAAGCCTGAACACTACACCATCTTAAAGGACCGGATTGCTGAATTAGACAAGCAATTTGGCACTGATGGTAACCGCCTCTTCTACATGTCAATGGCCCCACAATTCTTCGGTACCATTGCTCTGAACCTGAAGAAGCAAGGCCTGCTCTCCGATGACGGCTTCAACCGCCTGGTTATCGAAAAGCCATTCGGTCGTGACTTCGACTCCGCCAAGAAGCTGAACGATGAACTGTCCAAGACCTTCGATGAAGACCAGATCTTCCGGATCGACCACTACCTGGGTAAGGAAATGGTTCAAAACATCCAGGCTCTGCGTTTCGGTAACACGATCATCGAATCCCTGTGGAACAATCGTTACATTGACAACATCCAGGTAACGCTGAGTGAAAAGCTGGGTGTCGAAGAACGTGCTGGTTACTACGATAATTCCGGTGCCCTGCGTGACATGGTACAAAACCACATCATGCAGATCGTTGCCCAACTGGCCATGGAACAACCAGTTTCCTTTACCGACACCGATGTGCGGGTTGAAAAGATCAAGGCACTGCGGAGCCTGCGGGTCTACACCCCATCCGAAGCTGCTGCCAACTTTGTTCGTGGCCAATACGACGCCGGCAACGGTACGGAAGCTTACCGCGACGCTGACGGGGTTGACCCAGAGTCCGGTACGGAAACCTTCGTTGCTGCCAAGCTTTTGTTTGACAACTACCGCTGGTCCGGTGTGCCATTCTATGTTCGGACTGGTAAGAAGTTAGCCGACAAGTTCACCCGGATCGACGTTGTCTTCAAGAAGCCACTGATCGACATCTTTGCCGACCCACGCAACGAAAGCGACCAGTCCCTGAACTCCAACGTACTGACCATCTTCGTTGAACCAAAGTCTGGGTTTGCTATGCAACTGAACGCTAAGCGCGCCGGCCAAGGCTTCACCACCCAGCCGGTCAACCTGAGCTACCTGCAAAGTGACACCGACAAGAAAGAAGCCCCAGAACCGTACGAGCGTCTCTTCCACGATGCACTGGAAGGTAACCACACCAACTTCGCATCATGGGCCGAAATTGCTTACGCATGGAAGTTCGTTGACGTTATCCGCAAGCTCTGGGACATCGAAAAGCCACAATTCCCTAACTACACGCCTGGCTCAATGGGCCCAGCTGCATCTGACGAACTGCTGGCCCGCGATGGCCGCAAGTGGGTTTACCGGCTCAACCACTAA
>SRR1151252_01227 cadmium transporter
ATGAACACAACATTGATCTTCATTACCTTCCTAGCCGTCAACCTGGACTTCTTCTTCATCCTGCTCTTTTTATTGGAACGCTACCGAACCCGGGATGTGATGGTGGGCTACCTGCTGGGAATTGCCATCCTATTAGTTGCTAGCTTCTGTGTCGGTAAGGCACTAGCCCTCCTTTTACCGGAGTGGGTACTAGAGATCCTTGGGTTCCTGCCGATCTGCATGGCCCTGCACGATAATGACGAGGAGCCAGGTCAGGACTCGCACCATAGCCCGGTGGTGGCAACACTGGTCACCTACCTGGCCGTGTGCTCGGGCTGCAACCTGTCGATTTTCTTGCCGGTCTTGACGGGAGAGAACTACCGGGAGTTTGCCTTGACGGTGGCCTTCGTTCTCTTCCTGGCGGCGATGGCGGTTGTTCTGATTAAGCGCTTCGGGGCCTTGACGGTGGTCAAGCGGCTCCTAAACCGCTACGGTGAGGTTTTGATGAAGACGGTCTACATCGGGGTGGGCCTGTACGTCTTCTACGACAGCGGCCTGCTCGTTCACATAATCAATCTGGTATAA
>SRR1151252_01228 ArsR family transcriptional regulator
GTGGTGCTACCGGCAGATAACCTGATTGAGGAAGCAACAAAAATATACAAGGTGCTGAGCAATAGTACCCGGATCACGATCCTGTACTACTTGCGTCACCAATCGGGGGCGGTGGATGTCTCCACGATCGTCAGTGACCTGGGACTCGCCCAGCCGGTCGTTTCCAAGCAGTTGGGGATTCTTTACCGTTACCAGCTGGTCTGCAAGCACAAGCAGGGGACCCGGGTCTACTACCTCCTTGATGATCCGCACGTGGTGGAGATGATTGATGACATGCTCAACCACGTCAGACACGAGATCAAGGGGGAACCACACCCCAAGAATTTGTACGATAAAAAATAA
>SRR1151252_01229 cyanate permease
GTGAAAGCAGTAAAAAAACATAGTCCACTCTTGATCGTTGGGCTCCTCCTCCTCGGGGTCTGCATGCGTATGCCGATTACCGCCATTCCATCAGTCGTCAAGGAAATCGCCCACACCTTTACAGTGGCACCCACCAGTCTGGGCATTTTGACCACCATTCCCCTGCTCTGCTTCGGCCTCTTATCGGCGGTTGTCTCCAGCACCGCCCAGCGCTTTGGCAACGAGCTGACCATCGAGGTGGCAATGGTGATTATGTTCATCGGTTCCTACCTGCGGATCCTTAACTTCGCCTCCCTGATGATCGGGACCGTGATGGTCGGAATTGCCATCACCTGTATCAACGTCCTCCTGCCGGCCATCATCGCCGACAAGTATCCCGATCGGATCGGGAGCGTGACCGGGATGTACAACACCGCGATGACCCTGTTTGCGGCCATCGGGGCCTACGCCATCACCCCAATCACCCACCAGAGCAGCTGGCAGACCGCCGTCACCATCATCAGCGTAATCGCCCTGGTGGCCGCCGTCGTCTGGTTACCTAACCTCAAGTACAACGAGCGGGCAACCACCAGCGAGGAAGAGCCAGCTAAGGGGACCAACATGTGGAAGAACATGAATGCATGGTGGCTTCTCCTCTTCTTCGGGGGCCAGTGCTTTGTCTTCTACAGTATCGTCGCCTGGCTGCCGTCCATCGCCATGGACGCCGGCCTCTCCAGTGACCAGGCCAGTCTGATCGCCGGCCTGCTCCAGCTCTTCTCGATTCCATTTGCCTTCCTGGTGCCAATCATCGCCACCAAGATGGCCAACCGGCAGCCGATCATGCTCTTCGCCGGGATTTCGTCGCTGGCGGGAACCGTCATGATGTTCTTCCCGGTCAGCTCATTTGCTTACTACTGTGTGGTTGCCCTGCTCTTGGGGATGGGAACCACAACAACCTTCGTTCTGGCCATGACCCTGTTTGGGCTCAAGACCAAGAACGCGGCCGACACCCGGAACCTGTCAGGGATGGTCCAGTCGGTCGGTTACCTGATCTCTGCCTTGGGGCCGATTATCGTCGGTAACCTCAACGCCCAGACCCACAACTGGTTCGCCAGCCTGGTCGTCATCGCCATCGCCGCGATCTTCTTTACGGTCTGCGGTGTATTGGCTGAGCGCAAGCAATACATTTAA
>SRR1151252_01230 3-demethylubiquinone-9 3-methyltransferase
ATGACGGCAAAAATATACCCGTACTTAACGTTCGAGAATGCCAAGGAGGCCATGGACTACTATGCCCAGGCATTTGGCGCGGTGATCACATACCACCAATCGTTTAACAAGGAGCAGGCGGAGAATCTCAGCATGGCAACGGACGAATCGAGTCTCCAGCAGACGACCCTGCGGGGGGAATTCACGATTGCTGGGCAGAAGGTTATATGCGCGGACGCCACAATGGGGACTCCCCAGTCCTCAGCCCGGGTTTCGCTCATGCTGGACTTCGATGACGCCGGTGCGGCCCAGCAGCTCTTTGACCGCCTGGCTGGATCGGACGACCAGCGGGTAACGGTGCCGTTTGGTAATTGGATGTTTGACAGCCAGATGGGTCAGGTCGTTGATAAGTATGGAGTTACCTGGTTGATTACCGCAGCCGCTGATGCGCCGCAGGAATAA
>SRR1151252_01231 ribonucleotide reductase
ATGGCCCCAATCAACATCATCTACATTTCAATCGAAGGGAACACGCGCGCATTTATCAAGCGCCTCAGTGCGTTTGCCGAACAGCAGCACGCCTTCGACAGCGATAAGCCACTCATCAACGCCAAGGAAATCACTGACCAGACAATCCCGGAAGAGGAAAAGGCCCCCTTCTTCGTCTTCGTACCTACCTACCTAACCGGAGGCAACGGCATCGACTCCGGCTTTACTGAGATTATGACCAATGCCCTGGGTGAGTACATCGCAGACGGTAATAGTGCTAGAAAATGCATCGGGGTGGTCGGCTCTGGTAACCGAAACTTTAATGAGCAGTACTGTTTGACCGCTCGCAAGTATGCCAAGCAATTCAACGCCCCATTTATTGCTGATTACGAGCTACGCGGTACTGCACGTGATGCTGAACACATCTACGCCACCCTCTGTCAGCGCTGGGCCAGCGTAAATGCCTAG
>SRR1151252_01232 ABC transporter ATP-binding component
TTGAGTAGAATTAGCTTAAGCAATCTGATGTTTGAAGCTAAGTCTGGTGATCAACTTGAGGACGTTTCAATGGAGCTGGTATCGCCACAGATGGTTGCAATCTGTAGCAATGATGACGGGACGACCTCCTCACTGGAACAGCTGGTCACGGGTGCCGGCAAGGTCTTGGATGGGAAGGTCAGCGTCGATGGTCGGGACTTGAAATACCTTCGCCGTCACCACGACGAGTTAATTGCCAACCTGGCAGAGACTGACCTCCGGGGGCGGACGGTCGAGAAGGCAATAAAAAAGGCCTGCCGTCATCAGGATGGGGCCCTGAGTGTGGATGCCACCCTTAGGATGCTGCAACCGTTGGGCCTCCAGCCTGACACTAAGCTGGCCGCCCTCAATGATCGGCAGCAACAGGAGCTGAAGATCATCATCCTGCTGGCCCTGCGCCGGCCCGTTGTCGTCTTGGGTCGGGGCCTCGACCAGTTGGAGGAGCAGGCCCGGCTGACGATGGGGCAGCTACTCAAGGACTACGCCCAAAAGACCAATTCCCTGGTCCTCTTCACCAGTGAGAACGTCTCGACGATGATGCGTTTTGCCGATGTGATCTATTACTTCAACGGCAGCCACCTGACCTCTGTCCGGGCGCTACGCCTGGGCGATGGGGTCGACTGCACGGTCACCGTCACGGGTACGGGGCTGCCAGTGGAGATGGCGGTCCGGATGGGAGCCCACATGTTGGAGGAGGCCCCGAACGAGACCCGCTTTCTCTACACGGGCAATATTCAGGCCCTTCTGCCGCTTCTTGAGCAGAGCACGATTACCGATGTCCGGATCGAAGACGCCTCGGTTGAGGATGAACTGATGGCATACTAG
>SRR1151252_01233 hypothetical protein
ATGACACGAATTGTGGTAATCAGTCGTCGACACGATAAGCTAGCCCGACTGATCATGGAAAACTCGTATGCGGCCGTGGCGGCCAATAGCTTTGATGTCGACCTGGAGGTGGGGGGTGTTCTCTGCTGGCTTCCCCAGGCCAATGACCCGGTCGATGACGCGGTTCAGCAGCTGGCAGCCCTCGTCGATCGTTCCCTCTTCCCGCCACGCAAGATCGTGATGCTTTCGATTGCCGGGACCGCTGATGATGCCAATGAAGACCAGCTGAAGCACTGGTACGGCAGACACGCGATGCAGGCGGTTTGGACCCACCAATATGCGATCAAGATGATTGACGAGTTGGAGCTCCCCTACGTGGTGGTCCGGGCCCTGCCGTTGGGGGACGGCATGCCAAACGTTAAGATTGTGGACGAGGGGCAGCCACTGGCCGGTGAGAGCGTAAATGAAGAACAACTGGCCCAGGTTCTGCAGACGGCCTTGACAACCAGTAAGTTTGATAACCAGTCGATTGGCGTCATGCCAAGCAAGTGA
>SRR1151252_01234 hypothetical protein
ATGAAAAAATTAACGGACTACCAACACTGGCAAGAGACAGTTCAGCACGTTCGCCTGCCACGGTGGAAGGAGTTGCCGACCCTGGGTTTGTATGTGGACCAGGTCGTGACGGTTGTCAACGAGCAATTGGCTAGCTTCGACGTTGAGCCCCTGACTAAGGCGATGGTTAACAACTATGTCAAGAAGAAGGTCATCCAGGCACCCATCAAGAAGAAGTACGCCGTCAACCAGCTGGTCGATCTGCTGCTGATCGGTTTCTTCAAGGTTAGCTTCAACATTGATGACATCCGCGCTGGGATCGCCCAGTTGACGATCACCACCTACCCCCAGCTGGCTTATGACCACTTTGCCACCGTTCTGGAGTCGATTTTGACCAGTCAGCCAATTGACGATGATGTAGAAATGGATCCCGCAAACCAGGAACTGATGGAGTCAGCAATCAAGGCGGTACTAGCCCACCTTAAGGCCGAACATATTTTTGGTGACATGCGCCGCAAGCAGCAGCCGTTGAAGGTCGAGAAGGGATAA
>SRR1151252_01235 MarR family transcriptional regulator
ATGATCGATATATTACGAGAAGTCGGGATGATTGAACGCGCATTGGATTCAATGTCGAATATTGAATTTAAGCAGATCGGGCTGGCGCGTGGACAGTACCTCTACGTCGTCCGAATCTATGAGCACCCGGGCATCATTTCCGAGCAACTATCGAACTTGATAAAGGTCGATCGGACCACGATCGCCCGCGCTGTCAAGAAGCTCGAGGATAAGGGCTTTATTAAGCGCCGCAGTGACCCGCAAAACAAGAAGATCAAGCGCTTGTTTGTCACCGAAAAGGGTAAGAAAATCTACCCCTTCATCATTCGGGAGAACCAGCACTCTAATGCGGTGGCGCTTCGTGGTTTCACTGATGAGGAAGCTCAGCAGGTCCATGATTACCTGGTCCGAATCCGTCACAACATCGATGGTGATTGGGACCTAGTCAAGCATGGCGGTAAACGAGAATATTAA
>SRR1151252_01236 B3/4 domain protein
ATGGAAAAAGTTGTTGTTGACCAAAGCTTCTGGGACCTCTTCCCAGACGCCCAGGTAAATATTTTGTACGCTAACGGGATCGATAACCATGATATGGACAAAAACGTTGCCGAACGGCGCAAGATGCTCGCCAACGCGGTCAAGGAGGCGGACAAGTTCCTGACAAACGAGACCTTCCGGCTGAACCCGGTAATTGACCAATGGCGGAAGGCTTACCAGCAGTTTAAGAAGAAGAAGGGTGCCCGGGCATCCATCGAAGCCCTGCTGAAGCGGGCTAACCAGGGGCGGACCTTTGACCCGATTGACCCGATGGTGGATGTCTACAATAGCATTTCCATGACCTATGGGGTACCGGTCGGCATGGAAGACCGGGACAAGATCAAGGGTGCCATGCACCTTGGCCAGGTCGACGGCGGTCAGGCCTTCCGTCCGGTTGGTGCCGATGATGACGAGCCAACCCTGCCCGGCGAGGTTTGCTACTACGACGAAGAAGGGGCTGTCTGCCGCTGCCTGAACTGGCGTGATGCCCAGCGGACAATGCTGACGGAGGACTCCCAGAACGTGGTGGCAGTCATCGAATCCGTCAACGCCGAACAGGCCGAACGGGCCAACGAGGCGATGGAGGAACTGAGCAAGTTGATCAACAAGTACTTCGGTGTTGAGACGACCAATGTCTACCACCTGACCAAGGACAACCCGGTTGCCGAAGTGCCAGCTGACATGCAATAA
>SRR1151252_01237 hypothetical protein
ATGCGTAAGGACATCATCACGGACCACGCCAAGCTTTCCTGGATTCTTGACCAGTGTCAGATCCTACACCTGGGTCTGACTAACCAGCGCGGCACCTATGTCGTCCCGGTCCACTATGGCTACCAGGAAGGGCCGGATGGCCACTATACTATCTTCATTTACGGCACCGGGGATGGTGAGAAGGCGGCTGCCCTCGACCACGCGACTTTGATCGGCTTCGAGGCCGACCATGGTCACGAAAACCTGATCTATACCCCACCCCGGCCCAGCGATTTCAGCCCATCCTTCATGAGCGTGATCGGGACCGGGACACCGCGGCGGTTGACCAATCCCCAAGAAAAACTGACCGCGGTGCGGACGCTGATCCACCACTACGTCAACACGATCCCAGTGGCGATTGCGGCGGACGACGTCAAAAACCTTGCTGTCTGGTCCATTACGGTGACGCACATCACCGGCCGGGTGCACAACCCGACAGCAAAATGGGCGCACGCCCTGGGTATTCCCTTCAAGGAACGCTATGGCAAACACTACCAGGATGGGGCCGTGATAAAAGATGATTCCGATCACCTGGCTGTTGACGATCAAGATGTGCTGGATGCCGCGACCGGCGCTTCCCAAAAGGAATAG
>SRR1151252_01238 membrane protein
ATGAAGATTCATATTCACCGCCGCCACCTCTCTCTAGTCTTGGCGTTCTTCCTCCTCTTCCTGGCGGTCACCTACTGGGGCGTCGTCGCTAAGTTTCTGAAGACGATCTTGAGGGCGGCCATGCCACTACTGATCGGCTGCGTGGTCGCATACATCGTCAACCTCCTCCTCCGTCAATACGAGCACCTCTACCAGCGCCTACTGCCCGGTCCCCGGGCCCAGCGTTTCAAGCGGGTGGTTGGCATCGTCTTGTCCTACCTGTCGATCATCATCATTGTCGCCCTGGTCATCCGGCTGGTGATTCCTGAAATCGTCAGCTGTGTCCGCCTGTTGATCACCAACCACGGCCGGGTCATCAACCGCTTCATCAGCACCGTCCAGGAGAACAGTAGCCTCAAGGACTTCTGGAAGAGTTTCGACCCCAAGCACCTCGACTGGGACAAGATTGGCAAGTATGTCGGCTATGGCTTCGGCGGAACCATGAAGACCGTCATGTCCACGGCTAGCTCGATCGTCTCCGCAACCACGACTGCGGTGGTGGCCTTTTTCTTCTCAATATACCTGCTGATCTACAAGGAGATGCTTGCCCGCCAGTTCAACCGGGTGATGGATACTTATTGCAGCAAGATCAAGCGGCCGGTGATGCACGTCATCCGGACCTTCGACGAGAGCTACAGTAACTACATCGTCGGTCAGTGCAAGGATGCCGCCCTCCTGGGGATTGCCTGCTTCATCGGCATGAAACTCCTGGGGATGCCATACGCCTCCATGATCGGGGTCGTCACCTTCTTCGGCGCCCTGATCCCGATCATCGGCGCGATCCTGGGGGCCAGCATCGGGGTCGTCCTGATCTTCGCCGTCTCCCCGATCAAGTCCTTGATCTTTTTGATCTTCATCATCGTCCTCCAGCAGTTCGACAACCGGATCACCTACCCGCTGGTCGTCGGCAAGAGCATTGGCCTTCCCAGCGTCTGGGTCTTCGCAGCCGTTATCGTTGGTGGGGGCATCTCCGGGATCCTGGGGATGATGCTGACGGTGCCGCTGTTTGCCGCAATCTACAAGCTGGTCACCGAGGATGTCCAGCGCCGACACGCAAATGTTAATAATTGA
>SRR1151252_01239 xylose isomerase
ATGTTCAAGCCCATTCTCGGCCTCAAGGGAAGCAGTACCCGCGTTCAGATTGACGACCGCCTGCAGCACCATCCCAGTGTCTACGAATTTTTTACCGCCGCCAGTGACTTCACCCCCGATGGTTACCGGCACCTCTATGATGCCATCCAGTATGTCCAATCCCAGGGCATCCACCGGATCATCCTCCACCACCCGATGAAGTTTGGCAACCACCACTCCGACGTTGTGGCTCCGGAACGGTATTACCCGGACCTCTACCGCTTCATCGAAACGACCACCGAGCAGCTGATCCGACTGGGTCACGACCTCAACGTCCGAGTCCTGGTCCATGGTGGCTACTCCGGTCCCGAGGTTGAGCACATGGTCAACCTCTACCCGAGTGTCGAGGATGCTCGTCAGGCCGTCTACCATCGTCTGGACCGCTTCGCTGACGAGGGTGGGGACCAGATCATGTTTGAAAACTCGATTGCCCCCGTCTTTGCCTATGGCCACCCCGACCAGGAGGATGAAATTCTGGCCCACCACTACCGGCTGGCCTTCGACACCTCCCACTGTTTCATCGAATTGCACGGTGATAACACCGGCCTCCAACGCTCCCTACGTCACCTAGCCCCGGCCGTCGTCCACTACCACCTGGTTGACACGATGGGTCAGACCCACGACAGCTTGCAGCTAGGCAAGGGCAAGATCGACTGGGCACCGGTTCTGCCATTGCTCAATCCAGCAGCCACCAGCATCTACGAGATTAACCTGCACGACCAGGCGAATTGTAAGGAACAGCTGGCCAGCCATGAATACCTGCTAGACATCTACCGGCAACTGAAGGAGGGCTAA
>SRR1151252_01240 hypothetical protein
GTGCAGGAGAAATGGCCTCGTCAGCCGTTAATCATTATGCCCAACCTGCCCCTGGCCTGGCTTGCTGGCTACTGGGTCGTCGTCACCATGCTGCGGGGGTGCGGGCTTACTGTTGTCCGGCCGACCGGTGATCAGGTAGAACTGGCCCTGATGATGGCGGTAGTCTGGATCGTGGCGAGCGGCGCCAACCAACTTCTGATTTACCAGAATGCACCGTTGACTGCGGCCAACCGTTACAAGGACCTGGCGATGGTCAACGCTCTGGCCCTGATTTGCACGATCGTCCTCGCCTGGGGAAAACCAGCAGTGATCCTCTTTCCCCGCCAACTATCGTCGTTGACGGCCTTGATGCTGGCGCTGACCTTGTTGGTAGCCGGGATCGGTAACTACTTTGTTGTCGTGACCCGGGTGCGGCATGGTCGCCTGTCACTGTGGCTGGGGAGCGGGGCCCTGGCCCTCTCGGCGGTGGCGGCCCCGTTGCTGTTTGCTAGCAGTGACCGCCTTAGTTGGCTGTTGGCTGCTATTCTGGTGGCGCTGATTCAGGCCAGCGTCTGCTGGCAGCTGCCCCGCCTGTTGGCCGCGGTTCCTGCTCGGCGTAGCGGCCTCTATAACCTGTTGGTCGGCTTTGTGCTGGCGGCCCTGTTTGCCAGCTTCCTCCTGGGAGTGGCCACCATCGCCCAGCTCTGGATATGGGCCGTTTACAGCCGCCTGGCGATCTGCTGGGGGCTTTCCTGGCTGGCCATCGGTAGTGGAACCCTGGTGATTGCCGCCTGTCAACGCTACCAGAGCGACTTTCGCTATGGACATGCGACCGGGCATGAGAACTGGTTCGTGGCGGCCGGTGCCCTCTGCTGGGTGGTGGGCCAGGTCCTGGTGGTTATTTTACTTTAG
>SRR1151252_01241 hypothetical protein
TTGACGCTTTTTCGTTACAACAAGACAATTACCTTGCCGAAGGAATGCCGCCCCCTCCAAGAAGGCATGGGCAGCAGCCACCTGGTCCAGGCGAAAAATCCTGGTTGGCTTGACTGCTACATGCTTTTCCTCAATCAGTTGGAGCATTCGATTCAGCTTTGTACCATCAACGTTACCCGAGTAGAAGCTGGTGAGGTAGGCATTGGGCGCGATGTCCATGATCGGGTCGAACTGCGGCAGGTACCACTGGTTGCCCAACTCGCCAGTGGAGCAGACAATCCCGCCAGCTTCGGTATGCTTGAAGCTATCCTTGACCGTAGCTGGGCCGATCAGCTCAAAGATCTTGGTAAACTTGCGAGCCGTCTGGAGCTCGCCTTCGTGGTCCACGATCACCTCGTCGAAACCCTGGTCGACTAG
>SRR1151252_01242 dipeptidase
ATGAAGAAAAACCTGTCTGCCTGCACGACGGTGTTAGTTGGTAAGGATGCCACCATCGATGGTTCCACCATGGCCGCCCGCAACGACGATACCTTTGGTCCCCTAAACCCGATGAAGCTGGTTGCCTACCCGGCCTACCACAATCACCCCAACCAGGTGAAGGCCTACCTGAACAAGTGCGTGGTTGACCGTCCCGCCGATGGCTACCGCTACCAGGGAACGCCAAACATCGACTACGTTCACCAGGGGATCTTCGACGAGAGTGGCTTCAACGAGAAAAACGTCGGCATGAGCGCCACGGAGAGCGTCTATGCCAACGAGCGCGTTCTCTCCTGTGACCCGCTGAACACGGAGAGTGGGATCAACGAGGACCTGATCGTTGCTGCCACCCTGCCCTTCATCGACAGCGCCAAGGATGGGGTTACCTACCTTGGTGGGCTGATCAAGAAGTACGGTTCCGCCGAAGGGAACGGGGTCATCTTCTCCGACAAGAATGATATCTGGTATATGGAAATTGTCACCGGTCACCACTGGGTTGCCGAACGGATCCCCGACGACGCCTACGCGGTCACCGGGAACCGGATTGCCATCCAACAGGTCGACTTTGACGACACCGACAACTTTATGTGGTCCGAAGGGATCCGGGAGTTCGTCGAAAGCAACCACCTCAACCCGGACAAGCATGGCTGGAACTTCCGCCACATCTTCGGCACGGCCGACGTCTTTGACCAGCACTACAACACGCCACGGCAATGGTTCGGCCACAAGCTGCTCAACCCTGGCGTTGACCAGGATCCACTGGACTTCGACCTGCCATTCATCATGCGGACCGACCACAAGATTGCCTTAGAGGACGTTGAAAAGGTCCTCAGTAGCCACTACCAGGGCACCCCATATGATCCACTGGGCCACGGCACCGAGGAAGAAAAGCACCTCTTCCGGCCGATCTCGCTTAACCGGACCCAGAACTCCCACGTCCTGCAGGTTCGTCCCGACCTTCCCGAGGCCGCTTCCACGATCCTGTGGATGAGCTTTGGCGTTCCAACCTTCACCCCATACGTGCCGTTCTTCGGCAATGCGGATGACATCGACGTTTCATATCGGGAGACACCAATGAAGCTCGACATGAGCCTGAAGAGTGCCTACTGGATGTACCGGGCCCTGTCAATGATCGTCGAGTCCCACCACGCCGAATTTGCCAAGGAGGACCTGGACTACCTCAAAGATGCCCGGGAATACCTCTACCGCTGGGTCAACCAGACCGCCCCGCAAGCCGCCGGAATGGATGACAAACAGGCCAGTGAGTTCCTGAGTACGGAATCCCACAAGATGGTCGCCGAGATGGCTAAGCGGACCAAGGCCCTGATGGCCCAACTGATCATGCACGGTCTCGAGCTCTCCAAGCTGACCTTCATCATGGACAAGAACCTGTAA
>SRR1151252_01243 prolyl-tRNA synthetase
ATGAGTAAGAAGAACAAGAAGAGCAAGCTGAAGAAGACCCAGGTGGAACAAATCCTGGACAAGAACCACATTGCTTATGAACAAAAGGAGTTCCCGACTCATCAGGACGGGGACGTACGGACAATGACCGTCGACCACACCGGCATCGACGAGCATAACATCTACAAGACCCTGGTCCTCTCCGGGCCGACCACCGGACCACTGGTCGGCGTCGTGCCGATCGACAGCCATCTGGACGAGAAGGCCCTGGCCAAGGTCTCCGGCAATAAGAAGGTCGAGATGGTCCCCCTCAAGAAACTGCTGAAGACGACCGGCTACGTCCACGGCGCCAACACCCCGGTCGGTATCTACGAAAAGCACCATTACCCGATCTTCATTGACAATGCCGCCCGACAGCAGGGGGACATCTACGTTTCCTCCGGCAAGATCGGCCGGTCTGTACGGGTCAATGCCGAAGACCTGGCCAAGCTAGTTCACGCCGAGTTTGCCGACCTGGAACAGAAGTAA
>SRR1151252_01244 GntR family transcriptional regulator
ATGGCAGATTTAGTATATCGCTCCGTGATGCGTGATATAAAACAAAAAATCCTAAAAAATCAGTATCCGGGGATGCGCCTGCCCGATGAGCGCACCCTCAGCGATGACTACGGGGTCAGCCGCAGCTCGATCAAGCGGGCGCTTGGGGTGCTGGCTCAGCAGGGGATTATCTTCAAGAAACGCGGGTCGGGAACCTTCATTAACCCCCTCTACCTGAAGAACCAGTCGCTCTTCCATTACGAGGGGAGCAACCTGGGGGTCACCGACAGCTTCCAGCTTGACGGCAAGAAGCAGAGCATCAAACTGCTCGACTACCAGGTGGTGCCCGCCAACCCCGACGTTCAAGAGGAACTCTTCCTTAATGATAATGATTTTGTCTACCAAATCAAACGGCTGCGGCTGATCGACCAGCAGCCTTTCATGATCGAGACCGGCTTCATCCCGATCAAGATCCTGCCGACCCTATCGCCGGCAATCGTCGACAACTCGATCTTCAACTACCTGGAGGAGAGCAAGGGCAAGCGGGTCACCAAGTCCTTCATGACAATCAGTGTTGCCCCCTCCAGTGCCGACGACCAGCTCCTACTCGACCTACAGGCCACCGAGCCGGTTGGTTTAATGGGTGGGGTCTTCTTCCTCGACGACGGGACGCCGTTTGAGGTCTCCAACATGCGAATTCACTACCGCTACATGAAGTACAGCACCTTCGTCAATCTGGACCAGGAGCGGTAA
>SRR1151252_01245 integral membrane protein
TTGGATCATTTAGGGGCCAACAGCCAAGCCGATATCGGCGACTTTGCGAAGATGTTCGCCGTCACCACGGTGATGATTCAATCGGTGATCACCTTTTTGATGAGCAGCCGACTGGCAATCGGCCAGCAGTTCTTCCTCGGTGGTTTCTATGAGCTAGCCAAGTTTAGTGCTTCCGCCTTCATCTTCGGGATTCTCTTCTCGACAATCCGGACCCACCCGGAAGCGAGTTGGCACAACTACCCCGGTTTCATGCGCAATCGCTGGCACGTCCTCTTCGTCCCCTCGATCCTGTGGACGGCGGTCTACCTAATCTTTGTCCCCCAGCTCCAACAGCACGGCCACTACCACAACTGGGCGGAATTTGCCTGGCAGTTCGTCAACGGCAACGCGGCGCCCCACCTCTGGTACAACGTGATGATGCTCCAGTTCATTATCATCATGCCCCTCTTCTGGACTCTGGCCCGCTGGATTGACCACCGCTGGAGCCGCGGCCTGGCTGTCTTCGCCCTTGCCCTAGTCTTCGAGCTCAGCTGGCACCTGGTCTACGCACTTCAGGTCTTCCACGGGCCAAAAGCCCAGCGTTGGTACCTGCTCGACCGGGTATTCCCCAGCTTCCTGATCTTTGCCGTCACCGGAACCGTTCTCTGGCAGTGCTCCCCGACGCTGACGCACTTTCTCAAGCACCACTGGCTGAGCCAGATCATCCTCTGGCTGGCCCTTTTCTACTACGTGACCTTAAATTTCTTCAGCTACGGGACCCCGGTCCGGCTCACCAACGCTCCTTACTACCTGCCGTCGATGATTTTCTACAACCTCGCCACCATTGGGCTAATTACTACCTTCGCCCTCTACATGCAGAAGTACCGTAACCAGTGGCTACCGCTGGTTCACTGGGTTGCCCTCTACGCACACCGGGCCTACCTCTCCCACGTCTTCTGGCTCTACTGGTGCTGGCGGCTGCTGGCCCCGCTGCACTGGCCACTCATGATCCGCTTCCCATTATTGGTCGTGCTAACGGTTGGCCTGGCCTTCCTGTCAGCGTTTGGTTTCCACCTGCTCTGGGTCGGGATCAAGGACTTGCTGGGGATTCACCGCCACCTGGCCAACGGTTGA
>SRR1151252_01246 phosphoketolase
ATGGCAGTAGATTACGATTCCAAGCAATACTTGGAAAGTGTTGACGCTTACTGGCGTGCCGCTAACTACCTGAGTGCAGGTACCCTGTTCTTAATGAACGACCCGCTGTTACGTCGGCCATTGAAGGCTGAAGACGTTAAGCCAAAGCCAATTGGTCACTGGGGTACGATTGCCCCACAAAACTTCATTTACGCCCACTTAAACCGGGTTATCAAGAAGTACGGTCTGGACATGTTCTACATCGAAGGTTCCGGTCACGGTGGCCAAGTTATGATGAACAACTCTTACCTGGACGGTTCATACACTGAAATTTACCCTGAATTTACTCAGGATGAAGCAGGTATGGCTAAGCTGTTCAAGCACTTCAGTTTCCCAGGTGGGACTGCTTCACACGCCGCACCAGAAGTTCCTGGTTCAATCCACGAAGGTGGGGAATTAGGTTACTCCCTTTCCCACGGTGTTGGTGCGATCTTAGATAACCCAGACGTTATCGCTGCTGTTGAAATCGGTGATGGTGAAGCTGAAACCGGCCCACTGGCTGCTTCATGGTTCTCAGACAAGTTCATCAACCCAATCAAGGATGGTGCCGTATTACCAATCATCCAAATCAACGGTTTCAAGATTTCTAACCCAACGATCCTTTCACGGATGAGCGACGAAGAACTTACTAAGTACTTCGAAGGAATGGGCTGGAAGCCATACTTCGTTTCTGCATACAAGGACGCTGACCGTGGTGGCGAATTCGACGGTTACAAGGACCACATGCAGATTCACGAAGAAATGGCTAAGATCATGGACAAGGCCATCGAAGACATCAAGGCAATCCAAAAGAACGCCCGTGAAAACAACGATGACTCCTTGCCACAATGGCCAATGATCATCTTCCGGGTTCCAAAGGGCTGGACTGGTCCAAAGAAGGACTTGGATGGTAACCCAATTGAAAACTCATTCCGTGCTCACCAGATTCCTATTCCGGTATCACAAGATGACATGGAACACAAGGACATGCTTGTTGACTGGATGAAGTCCTACAAGCCAGAAGAACTGTTCGACGAAAACGGTCACCCAGTTCCGCTGGTTGAAGAAAACACGCCAGATGGCGACAAGCGGATGGCTATGAACCCAATCACCAATGGTGGTAAGGATCCTAAGCCGCTGATCCTGCCTAACTACCGTGACTTCGCTGTTGATGTTCAAAAGCCAGGTACGGTTGTAAAGCAAGACATGCTTGAATGGGGTAAGTACCTCAGCAAGATGGCAGAACTGAACCCAGAAACCTTCCGTGGCTTTGGCCCTGACGAATCCAAGTCTAACCGTCTTTACGCTCTGTTGGACAACGACAAGCGTCAATGGATGGAAGGCATCCACGAACCAAACGACGAAGACCTCGCTCGTTCCGGTCGTGTGATCGACTCACAATTGTCCGAACACCAGGCTGAAGGTTTCCTTGAAGGTTACACCCTGACTGGTCGTCACGGCTTCTTCGCAACCTACGAATCATTCGGTCGTGTTGTTGACTCCATGCTGACTCAACACATGAAGTGGTTACGGAAGGCTAAGGACCTCTACTGGCGTAAGCAATACCCAGCACTGAACTTCGTTGATACTTCAACGGTATTCCAACAAGACCACAACGGTTACACTCACCAAGATCCAGGTCTGCTGACTCACATGTTCGAAAAGGAACGTCCAGACCTCGTCAAGGAATACCTGCCAGCTGATACTAACTCACTGTTGGCTGTTTCCAACAAGGCCTTCAACGGCCAAGAATGCATCAACATCTTTGTAACTTCCAAGCACCCACGTGCACAATGGTTCTCCATTGACGAAGCTACTGAACTGGTTGGCAATGGTCTTGGTTACATCGACTGGGCTTCTACTGACCAAGGTAGCGAACCAGATGTTGTCTTCGCTTCCTCCGGTACTGAACCAACTGAAGAAGCACTTGCCGCTATCGACCTTCTTCACGACAACTTCCCTGAACTGAAGATCCGTTACATCAACATCGTGGAAATCATGAAGCTGATGAAGACCGACAAGAACCCAGAAGGCCTGACTGACGCTGAGTTCAACCGTTACTTCACGACCGACAAGCCAGTTATCTTTGCATGGCACGGTTTCCGTGACATGATCCAAGCTCTGTTCTTCGATCGTGCAAACCGCAACGTTCACATCCACTCATACGAAGAAAATGGTGATATCACCACGCCATTCGATATGCGTGTACTGAACGAGCTTGACCGCTTCCACCTTGCTAAGGACGCTATCCAAAGCGTACCTGGCTACGAACAGAAGAGTGCTGCCTTTGTTGCCAAGATGGACAACATGATCAACAAGCACAACCACTTCATCCGTTCAGAAGGTAAGGACTTACCAGAAGTTACTAACTGGACTTGGAAGGGTCTTAAGTAA
>SRR1151252_01247 histidine kinase
TTGCCCTTCAACTTCTTTATCAACGACCTGATCTGGATCGTGATTGCCATCGCCCTAATCTACTTCCTGGTCAACCATAGCACCTGTTCCCTCACCGACTTGGTCGCCAGTTTCAGCTACAGCATGCTGGTCTACTACTTCAGTCAGGTCATCGTCGTCAGTCTTTTGCCTCTCCTACTCCAACTGCTGGCTTCGAATACTGCCTACTTCGTCCTGACCAACCTTACCATTCCGCTGTGCTATGGGGCTTCTCTGATCCTAATCCGTCTTACCCGTTCCTTCTTCAAGCGTTACCTGACCTGCCTGCAAAACAACCACCTGATCGCTAAGTGGCTGTTCAGTCTAGCCTTTCTCCCCTTTTCCTACTGGTTCTACTATAGCCAGTACAACCGGCGACTGATGCAACTCCCGGTTCTCCCGGCAGGGGCCAGCCCACTCAGCCACCGCCTGGCCTTCCTGGGTATCGGCGGCGGTTACTTCCTGCTCGTCCTCCTTGCGATGGGCATCACCGGACATTTCCTTGCCCACCGCGATCGGGCCGACGCGGCCGAATACCGCCTTGCCAACCTGGCCAGGTACACCAGCCAACTCGAGGTGATGACTGATGACCTGCGGCGTTTTCGTCATGACTACCAGAACATCCTCTACAGCCTTAACAGCGCCCTAGCGACCGACAACATCGCCTACGCCAAGCGGGCCCTGAACCACCTCACCCACGCTACCCAACGTGATATCAAGGTGCCAACCGGAATCATCGGCCCGCTCAAGAACATCAAAGACCCCGGTATCAAGGCAGTGGTCTTCGACAAGATCTCGACCGCCCTCGACCAGGGTCTCAGAATGGATGTCGAGATCGCCGACCCAATCCGGCTCACCCAGACCCTCCAGCAGGTCGACGCCATCCGAATCATCACCATCCTCTTCGATAACGCCATCCATGCCGCCCGACTCAGCGACGACAAGCGCCTCGCTTTCAGCCTCTATGAGAACCAGTTCGCTCAGTTCATCGTCATCGACAACTCGACCGTCCAAGCCCAGGTCAACCTAGAGAACCTCGCTAACCTGGCCCACACCGTCACCCTCGGCAAGAGCCACCAGCTTGGATTGCAAAACTTACAAATCATCCTGGCCCGTTACCCCGGTGCTAACAACGACCGCAGCGCCCAGCACCACTACTTTGAGCAGCGGATCATCGTTCCGAAGAAGAAATAA
>SRR1151252_01248 hypothetical protein
GTGAAGGATAACAAGCTCAGTATCACCTGCCCAAATTGTGGCAAGCTCAACGTGATCGGCAGTCCACGGTGCAGCAACAGTGGTCACCCCCTACCAAATTCAAACCAGTGGGGGCCGCCGCAGCACCAGCGAATCCCAAAGCGGCTGGTCGGTATCACCTTGACCGTGGCCGCTGTTTTGGCAATGATCCTCCTCTGGACCATCATCCAACACAACCAGGCTCTGTCCTATGCGACCTTCTTGAACTCCGCTCCCCAGAAGGTCATCCTGTATAACGCCCGGCATCGTCCCGTCAAGACGGTCTATCTGATTGGTGACCAGCGTAAGAAAACCACCACCGGGATTCAGGGAACCCTGGTGGTGGCTAATAAGGTTCGGCCCGATAGCGACTACCGCAACCTGCGGCCGGTGCGCTACACCGATAGTCGGTCGGCGGGGATGGTTGTAATTGAAACTAAACCGACGATGCGCTTTTACTACCCCGAGCGAACCGGAAAGCTGACCTATAATGGCCGCTGTACGGTGGCCGGTCACCCGGACGTGCGCTACTTTAGCTGGCAGAACATCAGTGGGGGCGTGACTAAATGA
>SRR1151252_01249 two-component system response regulator
ATGAACGTTTTTATTCTGGAAGACGAATGGATTGAGCAGCGTTACCTTGACCAGACCCTCCGTAAAATTCAGACGGAACTGGGGATACCCGATCTAAACATTAATTCCTTTACCGAGGTCAACAAACTGCTGTCGAGCCTGCCGGACCCCAGCGTCGATAATGTCTTCCTCCTCGACATTAAGATTTCAGGTAACAAAAAAGCTGGCCGCCAAGCCAGCCAGCAAATTCGGCAACATGATCCCTTTGCTACGATTATTTTTATTACCGTCCACGACGAATTCCTGCCGACCACCTACAAGTTCAAGAGTGCGGCATTGGACTTCATCGCCAAGGATCGCGACAACATCCCTACCCAGCTCAAGGATGACCTCGCACTTATCACTCAGCGTAACCACCAACACACCGGCCAGCAGTTGGTTTTAAAGACCGGGGCCGGCTACCTGAAGGAGGCACTAGATAACATCTATTACTTCGAACCCAACCCGGCCAATTCACACCAGTCAATGCTGTACACGACCGATAACCAGGTGATTACGATCAACGCCACCCTCAACGAATTAGAGAAGACCTTTCCTGTTCTCTTCCGGACGCACCGGCACTACCTAATCAACCCGCTGAAGGTCGTGTCAATCAACCTCCAGCACCACGTCCTCTACCTGAAGAACAACGACCAGGCCTACCCATTCTCCCGGCTGCGGACCAAGGCCATCCTCACCCGGCTCAAGGAGAATGAACAATCCCTGAAAATCATTTAG
>SRR1151252_01250 branched-chain amino acid permease
ATGAATTCACTAAAAACAGCGTGTAAGACCTACCTAACGATTGGGTCTTTGATCTTTGGGATGATTTTTGGGGCCGGGAACCTGGTCTTCCCGGTGCATCTTGGTCAGCTGGCCGGGCACAACTGGCTGCCTGCAGCGGTTGGCTTCATTGTTTCGGGGGTGTTTTTGCCGCTCTTTGCCCTGCTGGCGATCAGCATCACTCGTTCACGGGGCCTCTTTGAGCTGGCCCTGCCGGTGGGACCCTTGTTTGCCCTGATCTTCTTAGTGCTGGTCCACGCCACGATCGGGCCGCTGTGTGCCACGCCGCGTTCGGCGACGGTGCCGTACGCAATTGGGGTGGCTCCCTACCTCAGTGCGGGGATGCATCCCTGGGGGTTAGCTATCTACACCGGCCTGTTTTTCCTGTTGGTCTACTTCTTCGCGACGCGGGAGGGCAAGATCACCGAGATCATCGGTAAGGTCCTTAACCCGGTTTTTTTGGTGATGCTCTTCATCATCTTCTTTCTGGCCTTCATCCGGCCGATGGGGAGCCTGCGCGCGCCGCAGCCGACACATGACTACCTGCAACACGCCTTCGCCAGTGGTTTCCTGCAGGGCTACAACACGATGGATGCCCTGGCGATGCTGATCTTTGGGGTGACGATCATCGCCGCTGTCCAACAGATGGGTTTCAAGCGTGGTCAGCAGACCTCCCTGGCAACGGTCAAGGGGGGAATGATTGGGATCGCTGGGGTCGGCATCATGTACCTGGGCCTGATTTACCTGGGGACGACCAGCCGAAACCACTTTGCGGTCGCCGCCAACGGGGGAACGACCCTCAACCAGGTCGCCCATTACTACATGGGGGACTTCGGAAACGCCCTCCTGCTGACCCTGGCGACGATCACCTGCATGACGACGGCGATGGGGCTGGTGATCGCCTTCTCCCAGGACTTTCATGATCGCTTCCCGAAGGTTTCTTATAAGGCCTTTCTGCGTATGAACTGCTTCTTATCCTTCATCATTGCCAACCTGGGACTGGACAAGATTGTCACCTGGTCGACACCGATTTTGATGCTCCTGTACCCACTGGCGATCGTTCTCATCATACTGGGGATGCTGTCGCCGTTGTTTGCCAACGCGGCGATTGTCTACCGCCTGGGCCTGCTGTTCACCTTCGTTCCAGCGGTTCTGGACATGGTCAACGCCTTCCCACCGGTGCTGCGGCAGTTGAATATTAGTCAGACCCTGATCAAATACGCTAGTCATATTCCCCTCTACCAGTTGGGGCTTGGCTGGCTACCCTTTGCCATCGTCGGAGTGGCCTGTGGTCTGTTGGTCTGGCGCCTACGCCGTGATCGGCCAGTGGAGTAG
>SRR1151252_01251 transcriptional regulator/sugar kinase NagC
ATGGCTCGACAGTATCTGAGTATTGACGTTGGCGGTACCGCGGTGAAGAGTGCCCGGATTGATCATTCCGGCAACATTATTGTCCGCCGCCGTGCTGTCACGCCCCGTGACCAGGCTGCTTTTCTCCACCTGCTGACCACGATTATTGATCGGCAGCCGGGGGTGGCGGCGATCTGCGTCAGTGTTCCTGGAATCGTTAATCCACACACTGGGGCGGTTAAGTTTACCGGGGCCCTGGCCCTTTTGGGACAATTCCCCCTGGCGGCTTATCTGCGTCAGTATGCTGGCCTGCCGGTCTACGTCGGTAACGATGCTAACTGCGCGACCCTTGCTGAACTCTGGCTGGGTAACCTGACCGGCGTGGCCAACGGGGCGGTGATCACCCTGGGGACCTCAGTTGGCGGGGGCCTGGTCATTAATGGTCAGTTAGTCCACGGGCCTCACTTTCGGGCCGGTGAGCTTAGTGCAATCGTCAATAATTATGACCATGCTGCTCCCCACCAGGCGACGGTTGGTGCCAGTACCTCGGCTGTCAAGATGATCGCGACGGTGGCCACTGCATGTGACCTGCCGGATCCGACTGATGGCCGGCGGGCGTTTGAAGTCATTAACCGCCGACAGGCCCCGGCCTGGTCAATTTTTACGGCCTTCTGTCGGCGGGTGGCTGTTCTGATGGTCAACGTCCAGGCAGTGGTTGACCTTGAACGGATCCTGATCGGTGGTGGTATCAGTGCCCAGCCGATCCTGATCAGCGAGGTTCGGCGCCAGTTCCGCTTGCTCCAGGAGGGCGATCGCCGCCTTATGGATGATATTGCAATGCCAATGATCATGGCGGCCCGTTTCGGCAACGACGCTAACCTGCTGGGAGCCTTGTACGGGCTCTTGCTAAAAATTGAGGAGGAGGATCGCTGA
>SRR1151252_01252 elongation factor G
GTGAAGAAAATCGTGATGGGTATCGTGGCCCACGTTGATGCCGGCAAGACTACCCTTTCCGAGGCCCTGCTCTACCGGACGGGGGCTCGGCGGAAACTCGGCCGGGTCGACAACGGTGACGCCTTTCTTGACCCCGACCAGCTGGAAAAGAGACGGGGGATCACCATCTTTGCCCACGAGGCCCAGCTCCACTACGACGACCTGAGGATTACCCTTCTGGACACCCCGGGTCACATTGATTTTGTGGCCCAGACGGAGCAGGTCCTGCAAGTCCTTGACTACGCCGTCCTGGTGGTCGATGCAACGAACGGTCTGACCGGGTCTACCCTGACCCTCTGGCGGCTGCTGGCCCGCTACCACGTGCCGACCTTCATCTTCATCAATAAGACGGATAGCGTCGGCGCCGACCCGCAGGCAATCCTGACCGCGGTGCAGAAGACCTGCTCACCGGGCTGCGTAATGTCTGATGACCCCCTTAGTGAGGAGGCGGTTGAAACCATTGCCAGTCAGGACGAGGATGCCCTGACCGAGTATCTGGAGGATGACCGTCTAACCCCCGCCACGATCCAGCGGCTAATCCGTGAGCGTAAGGTCTTCCCCTGTTACGCCGGTGCCGCTCTCAAGCTGACCGGGGTCGATGAACTCCTGGCTGGCCTAGCCAAGTGGACCACCCCGTTCACACTCCACCAGGAGTTTGGTGCCCGGGTATTTAAGGTCGCCCACGACAAGGGTGACCGTCTGACCTGGCTCCGGGTCACTGGGGGAAGGCTCCAGGCCAAGGCCGAAGTGCTTGACGGACAGAAGGTTAACCAGATTCGCGACTACAACGGGGGCAAGTTCAACGTTGTCCAATCCGTGCCGGCGGGTGATGTCTGTGCGGTCACTGGGCTGAATGCGACTTTCCCCGGTCAGGGCCTCGGTGTGGAAAGCGACCAAGGTCAGGCGGCCTTTCAGCCGGTCCTGAGCTACGCCGTTGATCCCCGGGGCAATGACATTCACGCCTGCCTGACGGCCCTCCGTCAGCTGGAGGATGAGGATCCCCAACTGGCGGTCACCTGGTCACCCCACCTCCAGGAGATTCACGTTCACCTGATGGGTGAGGTCCAGCTAGAGATTCTCCAGCAGCTACTCGCCGATCGTTTCCAACTCAACATTGCCTTTGACCAGGGTCAGATTCTCTACCAAGAGACGATCACCGGGGCGGTGGAAGGCGTCGGCCACTTCGAGCCGCTACGCCACTACGCCGAGGTTCACCTCCTGCTGGAGCCCGGCCAAGCAGGGAGTGGTCTGCGTTTTGCCAACGAGTGCCGAACCGACGTGTTCGACCACAACTGGCAACAGCAGATCATGACTAGCCTGGGGGCCAAGGAGCACCGGGGCGTCCTGGTTGGTGCCCCGCTGACCGATACCCGGATCACCCTAATCGGTGGCCGCGGCAGTATCAAACACTCGGTCGGCGGCGACTTCCGCGAGGCTACCTGGCGGGCAGTTCGCCAGGGGCTGATGGAACTTTGCGCCCAGGGCAAATGTCAGCTCCTAGAGCCCTGGTACCATTTCCGCCTGACCATCCCCGAAGAAGAGGTCGGTCGGGCAATCAATGATATTCAGCAGATGAACGGGACCTTCCATCTCGGCACGGAAACTGGTGGCGCCACCATCATCACCGGGGCCGCCCCGGTAGCCACGATGCAAGACTACGCCCAGACGGTCCGTAACTACAGCCATGGTCAGGGCCAGCTAGAATGTGTCGTTGCCGGCTACCAACCCTGTCACAACGCTGAAGAGGTCATTGCAACCCACCACTACGACCCGGTGGCCGACCTTGACAACACCCCGAACTCGGTCTTCTGTGCCCACGGTGCCGGTTACCCAGTGCGGTGGGATCGCCTGCCGGAGATGGCCCACTTCCCCTATCAAAAGAACCCAAAGTAA
>SRR1151252_01253 universal stress protein UspA
ATGACAGACGATTTCCAATACCACAAGATCCTGGTCGCAATTGACGGTTCCAAGGCCACGAGCCAGGTCCTCGATGCGGCTATCGATAGTGCTGTTCGCAACGACGCCAGCCTCAACATCCTGACCGTCACCCAGGTTGACCAGATCACCGATGGCTACAGCAATGCCGTCCTGAGCGAGGAAGATACCTATGACGCTGTCCATACCACCCGGGAACGGATGGATGACCTCAAGGTGCAGGCGGAGAAGGCCGGTGTTCGTGACGTCAGCATCCACATCCGCTTCGGCAATCCGAAGCGTGTCATCGCCCGTGAATTTCCTAAGGACCACAACAACGACCTGATCGTCATTGGGACAACCGGCCTGTCTGGCTTCGAACGCTTCGTGGTCGGTTCGGTCACCAACTATGTTAACCGAAACGCCCACTGCGACGTCCTCGTCGTCCAGATTACAAAGTAG
>SRR1151252_01254 3-hydroxyisobutyrate dehydrogenase
ATGAACAAAATTGGTTTTATCGGCACCGGCGTCATGGGAACTGGAATCATTAACAACCTCCTAAAGCATGGTAACCCGGTCGTCGTCTACAACCGGACTAAGGCCCATGCCCAGGCAGTCCTCGACAACGGGGCCCAGTGGGCTGACTCCCCGGCCGCGCTCACCCAACAGGCCGACGTCATCTTCACAATGGTTGGTTTTCCGCAGGACGTCGAGCAGGTCTACTTTGGCTATGATGGCATCCTAGCTAACGCCACCACTGGCCAGTACCTGGTCGACATGACAACCAGTAAACCGTCCCTCGCCCAACAGATCAACGCCGTTGGGGCCAAGCGCGGCGTCCACGTCCTCGACGCCCCGGTCTCTGGGGATGACATTGGCGCCAAAAACGGGACACTGACGGTGATGGTCGGCGGTGACGCTGCCGATCTCAACCACCTGCGTTCCCTCTTTGACCAGTTCAGCAAGACAGTTAGTTATTACGGCCCCGCTGGCAGCGGCCAACACACTAAGATGGCCAACCAAATCATGATTGCTGGCATGATGACCGGCCTGACCGAAGCACTGGTTTACGCTAAAGCCGCCCACCTCGACCTGAAGCAGGTCATCGCAACCCTGCAGGGCGGAGCCGCGGAAAACTTCAGTCTCGGCTCCTATGGTCCACGGATTCTTAAGGGTGACTACACCCCGGGCTTCTTTGCTAAGCACTTTCTGAAGGGCCTCCGGATCGCCCTGGATGAGGCGGATGCAATGGGACTTAACCTCCCGGCCACCAGCGAGGCCAAGCGGCTCTACGGAGAACTCGTCGACGACCGGGGCCTCGGCAATGATGGTACTCAAGCCCTGATCAAGCTGTGGTGGCACTAA
>SRR1151252_01255 hypothetical protein
GTGAAGAGCTTTTTCAAAAACCAACGGCTGACGGCGGGGGTGGCCTTGGTAAGTCTCGTTTTGCTGGTCATCACCGCCCTGCCGAGTCTCCACACTCCCAAGTGGCTCCAGATCATCATCCTGGTGGTCTTTCTAGTCTGCGCGGTCGTGTTTACGGTCTCGTCCGGACTGGATCGGTACCGAAATCATCAATGA
>SRR1151252_01256 L-asparaginase
ATGGCACAAAAGAAAATACTATTGCTCTCCACTGGGGGCACGATTGCCTCAGTGGTTTCCGACCAGGGCCTCGTCCCCGGTGAGAGTGGTGAGCAGCTCATTCAGGCCCTCGGCAGTGTCCCCTATGACGTCACTGTTAAGGACATCCTCCAGCTGGATTCCTCCAACATCCAGCCCGAGGAATGGAAGATTATCGCCGAGGCCATCTACCGGAACCGGAACGACTACGACGGGATCGTTGTTTCACATGGAACAGACACGATGGCCTACACCGCCTCAATGATGACCTTCATGCTCCAGCACATCAATATCCCGGTCGTCTTCACCGGGAGTCAGGTACCGATGAACGTCATCCTGAGTGACGCCCCTGATAACCTCCAGCTGGCCTTTGAGGCGGCCGCCAGCCTCCAGCCAAACATCTACCTGGCCTTCAACCGGAAGATTATGCGGGGCTGCCGGAGCGTCAAGGTGCGGACAACCGCCTTCGATGCCTTTGAGAGCGTCAACGTTCCACCCGTGGCCGAAGTGACCTCCGACGGTTTTACCATCAAAACAAAGCGCCCACGGACCGATGAGCAATGTGTCCTGAACACCAAGATTGACACCAATGTCTTCCTGTTTAAGCTCTTCCCTGGTTTCGACCCCCGCCTGCTCCGGGCCCTGGCCAAACACGACTGTCATGGTATCGTCATCGAAGCCTATGGACTCGGCGGGATGACCTACATCCGCCGCAACATTGCCGCCGCAGTTGGTGAGCTGATCAAGCAGGGCATCCCAGTCGTCGCCACCAGCCAGTGTCTCTACGAACGCAGTGACTTGACCAAGTACGAGGTCGGACGTCAGGCCTTGGTGGAGGGCGCAATCAGTGCCCATGATATGACCTCGGAAAGCGCGATCACCAAACTGATGTGGGGGCTGGGTCAAGGAATGAATGTCCAGGCCATCGCCAATTTCTTTGCGACCGACGTGGCGGGCGAGGTCACCCTCGATTAA
>SRR1151252_01257 prolyl-tRNA synthetase
ATGCCAATGGGAACGTATCAACAGTTTAAGGACGAACTAAAGAAGCTGGAAATTGACGACTATGACGTGGTTGACCACCCGGCGGCCCACACCACTGAGGAGGCTGACAAGTACATCGCTGGTCGTGAGGGAGTTCGGACCAAGACGATGTTTCTGAAGGGGAAGAAAAAGAAGTTCTACATGGTGATCATGGATGACAAGAAGCGGATGGACTTCCACGAGTTCCAGGACTTGACTGGGGCTAAGCGAGTCTCGATGGCGCGGCCCGAAGACCTGGCGGAACAGCTGGGCCTGGCGCCCGGGATTGTTTCCCCGTTTGGCCTTCTAAATAATACTGACCATAACGTCCAGGTCTACTTTGATAAGGACATCGTCGACGAGCCAATTCAGACCTTCCACCCGAACGAAAATACTCACACGATCTTCATCAAGACACCGGACCTCTTCAAGTTCCTGAAGGAAGAGGGATACGAGCCGGAAATCATTGATCTGTAA
>SRR1151252_01258 peptidase propeptide and YPEB domain protein
ATGACAAAACAACATTCACTGAAGTCCCGCCTCGTGCGTCTGATGGCCGTGACCGTTCTGACCACCAGTGCCATCGGTGGGGTCAGCCTGGCCACGAGTCCAACGGTTAACGCTGCCCAAGCCAAGACCCAGGACATCAAGATCAGCCAAAAGCAGGCCGTCAAGAAGTTCCAAAAGGAGTTCAAGAACGCTAAAATCTCAGAGATCACCCTGGAACCGAAGGGCAACCGCTACCAATACCAGATCGACGGGTTCGATAAGGAGCAGGAGCACACCGCAGCAATCAATGCCAAGACCGGGAAGATCACCTGGAGCCATTCCAACAAACTCGATAAGGACGACGGCAACTCCGCCCTGGACCTGAAGAAGACCATCAGCCGAAAGACCGCTAACAAGCTGGCGGAAAAGGAAGCTAAGCAGGGTCAGGGTCAGAAGTGGACCCTGGAGAATGACGAAGGCAAGCAGATCTGGGAGGTCGAAGTGGTTGACAGCAGCCAGACCACCGAGGTCAAGATTAACGCCCTCAATCAAGACATCATCAGCAGCAATGTCGATCACTAA
>SRR1151252_01259 Fic family protein
ATGAAGTATTTTTCCCTATCAAAGTTTAAATATATCGTTCAGAGCAATGATGACCCTAAAGTTATCACCGAAAATGAGTATCAGCATCGCTTAAACGCCTATACCGTCCAAAAAGCGCCCCTCTTCCCCCTGCTGAGTTACCGAAGTGAGCAGCAAACAAGCAAATACCCGATCTTTTTCCTCCCCCTTCCGGAGATTTTAAGCCTTGCCGAGCAATTTCGAATGAACTCTAAACATATTGAGGAGATCGCAAGCCACCTGCCCTCTATCGCCATTAGTCAGTTTCTAAACTCACTATTAGTATCAGAAATCTTTTACACCAATGAAATCGAGGGGGTTAAGACTAGTAAGATCGAAATTGGAACGGTAATTCAGGAAAACAACCTCAATGCCAATCGGAAGAATAGCGTATCGAAACGCCGCCTGGGATCAACGATCAAACTATACCAACAGACTCAATATGGTAAGCCAATCCAGATCAACACTCTGCAGGATTTTCGAAAGATTTATGATACCCTTCTAAAGGGCGAGATTACCCCAGATCGCCTACCTAATGGAGAAATCTTCCGTGACCGGCTGCCTAATGGTGAGGTCCTAACCATTGGCTCAGCAACCAAGGGCGTCCACCGTCCACCCGCCAGTGAAGATAAAATTCAGCATGCGTTAACCGCCTTGATTGAATTCATGAACGACGATCACATGCCTGCATTGTTTAAAGCCCTGATTACCCACTTTTTCTTTGAGAATACTCACCCCTTCCTCGATGGTAACGGGCGAATGGGACGTTACCTCCTCTCGTCCTATCTTTCTAGTAAGTTTGATCGCTTTACTGGTTTCTCGGTCGCAACCGCCTTCCATGCACACGTTCAGCAGTATTATCGGGATTTTATCGAAGCTGATAATGCCGACAACTACGCCGACCTGACATTGTTTATCCAGTCCTTGCTCGCTATTCTCGTTAGCCAGCAGCAGGAAAACCTAATCACCCTGCGTCAGTTAAAGGATGAGCTGGATGATGCCCAGGGGATGATTCAGGATTGGGTCACACAAAATCAAACGACTTTTCCCAAACATATCTCCGCCAAGTTGGTTGGCCAAGTTTTATACTACTTGGCTCAGTCTAAGCTCTTTTCATACCAGTCTTCACTAGGAATCAAAGATAATGAAATAATTGAAAAAAATAAAAGGAAAGGAATTGCGATGGCCAAAACACGGCGTGCCATCACTTTTCTAACGGAGGCTAGCGCCATTAAGCTCATTTCTAAGAAACCGAAGCAGCATGAAATCCTTATTATTTAG
>SRR1151252_01260 asparaginyl-tRNA synthetase
GTGGAAACAATTACGATTAGTGAATCACCTAAACATGTTGGCGAAACCGTCAAGATCGGTGTCTGGCTGACGGACAAGCGGTCCAGTGGTAAGATCGCCTTCCTGCAACTGCGGGACGGTACCGGCTTCTTCCAGGGAATCATTCGAAAGGCCGACGTCGATGAAGCAACCTTCGACCTGGCCAAGCACGACCTGCACCAGGAAACCAGCTTCTACGTCACCGGTGAGATTGCCGAGGACAAGCGGTCCAAGTTTGGCTACGAAATCCACATCAAGGACATCGAAGTCGTCGGCGCCAGTGAGGACTACCCGATTGGGAACAAGGAACACGGGATCGGCTTCCTGCTCGACCACCGTCATCTCTGGCTGCGTTCCCGCAAACCGTGGGCACTCATGCGGATCCGCAGCCGGGTCAAGCTGGCCACGATGGAATTCTTTGATAAGCACGGTTTCACCCAGTTCGACGCCCCTGAACTGACGGCCAGTGCACCGGAAGGGACGACGGAACTCTTCGACGTGAAGTACTTCGATGACGACGCCTACCTGTCCCAATCTGGTCAGCTCTATGCCGAAGCCGGGGCCATGGCCCTCGGTCGGGTTTACACGATGGGCCCTACCTTCCGGGCCGAAAAGTCCAAGACCCGCCGGCACATGACCGAATTCTGGATGATCGAGCCAGAAATGGCCTGGATGCACCAGGACGAAAGCCTGAAGATTCAGGAACAATACGTTGCTTACCTGGTCCAAGACCTGATTGACCACTGTGCCACCGAGCTGGAAATGGTTGGTCGTTCCGTGGAGAGCCTGAAGCCATTCACCGAACTGCCATACCCACGGATCACCTACAAGAAGGCCATCGAGATGCTCCAGGAAGGCGGCTTCGATTCCAAGTACGGTGACGACTTCGGTTCGCCAGAGGAAGCCTACCTGGCCGACCAATTCAACAAGCCGGTCTTCATCATGAACTACCCACGGGCAATCAAGGCCTTCTACATGCCAACCAACCCCGAGGATGACCGCGAAGTCATCTGTGCCGACCTTCTGGCACCAGAGGGTTATGGTGAGATCATCGGTGGTTCCGAACGTTCCTACGACTACGAATACATCACCAACAAGCTGGAAGAGAACGGCCTGAATAAGGAAGACTACGGCTGGTACGACGACCTGCGCAAGTACGGTTCCGTACCGCACTCCGGTTTCGGAATGGGACTGGAACGGTTCCTGTCTTGGATCACCCTGCAGGACCACATCCGGGAGAACATTCCGTTCCCACGGATGCTCAACCGCCTGCGCCCATAA
>SRR1151252_01261 aspartate-ammonia ligase
ATGAGTTTAATTATTCCAAAGAACTACGATCCCAAGCTGTCAATCCGTGATACCGAAGCAGCCATCCGCTTTATCCGTGAGAACTTCCAGGATGAATTCGGTCATGAGCTGCACCTCCAGCGGATGTCGGCCCCAATGTTTGTTGAGAAGGGTACCGGGCTCAACGATAACCTGAACGGGGTCGAAAAACCGGTTTCCTTCACCATGCAGTCACTACCTGGCGAGACGATTGAGGTCGTTCACTCCCTCGCTAAGTGGAAGCGGATGGCCCTTAAGAAGTACGGCTTCGGCATGCACGAAGGCCTCTACACCAACATGAACGCCATTCGCAAGGACGAGGACGTCGACAACTTCCACTCCATCTACGTTGACCAGTGGGACTGGGAGAAGATCATCGCCAAGGAGGAACGGACCGAAACCACGCTGAAGGCCACCGTTCGTCAGATCTTCAAGGTTATCAAGCGGATCGAACGCGAACTCTGGGAGCTCTACCCGGACGCTGTTTACCAGTTGCCTGACGATATTCACTTCATCACCACCCAGGAGCTGGAAGACCGCTGGCCAGACCTGACGCCGATGGAGCGTGAGGACAAGATCGCCAAGGAGATGGGCGCCGTCTTCATCATGAAGATCGGGGACAAGCTCAAGCGCTCTGGTAAGCCGCACGATGGCCGGGCACCCGACTACGATGACTGGCAACTCAACGGTGATATCATCTTCTGGTACGAGCCACTCCAGTGCAAGCTGGAAATCTCCAGCATGGGGATCCGGGTCAGCGAAGAATCAATGCGTGAACAGCTGAAGAAGGCCGGCGCTGAAGACCGGGCCAAGCTGCCGTTCCATAAAATGTTGCTCAACGGCGAATTACCATATACAATTGGTGGAGGAATCGGTCAATCCCGGCTCTGCATGCTCCTCTTGGGTAAGGCCCACGTCGGCGAAGTGCAGGCCAGTGTTTGGCCAGCAGAGATGCTGAAGAAGTGCGAAACAGCACACATTCAAATTCTGTAA
>SRR1151252_01262 hypothetical protein
ATGTCAATTCTATCTTTTTCTGGTCCCCGTTTCACTACCCGGCAGATGACCCTGGCTTCCATGCTGATCGCCCTACAGGTGGTCCTCGGCAAGCTCTCGGTCGGTGACCCGGCCGTCGTCAAGGTTGGTCTCGGCTTCATCGCCACCACTTTAATCGGCTACTTTCTGGGGCCCTGGATCGGTGGCCTGGCGATGGTTATCAATGACCTGATCTCCAACACCATCCTGAGCTCGGGCACCCTCTTCTTCCCGGGCTTCACCCTGTCGGCCTTCGTCTCCGGGGTGATCGCCGGGATGTTCCTCTACAATCAGAAGGTCACCTGGCAGCGGGCCCTGGTCTACGAGTTCTTCCAGATTCTCGTGACCAACGTCCTCTTCACGACCCTGTGGATCTACCTGATGAGTCTCAGCTCATCGAGTACCGGCCGGACGTTCATGGCCCTGCTGACGATCCGGCTGCCCAAGGAGGTCATCACCTGGCCAATCGAGGCTTTGATCGTCTTTGTCATCCTACGGCAGGTGGCCAGGATTAACCTGGGCGCAACCAGATAA
>SRR1151252_01263 N-acetylmuramoyl-L-alanine amidase
ATGCAGAAGCGGCAACTAAGTCTGATCGGGGCCTGCGTGGCAGCGGCACTGGCAATTGTCCTGCTGGCAGTCCTGATGATCCCAGGTCGGGGAGTCCACTACGTCTCGGCGGCGACCCTCCAACGCCACTTCTTTCTCCACAACGGTTGGTACTACGATGGTCGTGACTGGGCCTTTGTCCAGGGCGGCCATAAGGTAACCGGGGTCCGGCAGATCAACGGGGTTACCTACCGTTTCGGGCGGGACGGCAAACAGGTCCTGCCCTACAAGATTAGCTACCAATACCAACTCAGCACGGAGCAGGGGACCAACCAGCCGGCCACCCCGAAATATATCATCCTTCATGACGTCGGTAGTCGGGCCGATGGGCAGCAGGCGGCCAGCTATATGCAACGCACGGCCAACAGCAGTCAGGCCTATACGAACTTCGTGGTCGGCAACGGTGGGGTAGTCTACCAAATGAAACGTCCGGGGACAGTGGCTTGGGGCGCCGGCACGACCGCTAACCAAAATGCCCCCGTCCAGATTGAACTCGGACACGCCACCAATGCGGCCGCGTTCCGGGCGGACTACCAGTCCTATGTGGCCCTGACCCGCGATATGGCCGGCAAGTACAACATCCCGCTGACCCTGGATCAGGGAAGCACGGGAACTAGCGGGGTTAAGAGCCACCGCTGGGTTAGTCAGCACATCTGGGGAGACCATCAGGACCCCTATGAGTATCTCACCCGATATGGTGTCAGCAAGGCCGACCTGGCCAATGATCTGGTCGGAAAATAA
>SRR1151252_01264 glycerol dehydrogenase
ATGATTAAAGAATTTGCTTCACCATCATCATATGTTCAAGGTAAGGGTGTACTGTTGAAGAGCGACCCATACCTGAAGGGATTTGGCAAGAAACCACTGCTGCTGACGGACGATAGTGTCTACAAGATCGTCGGTGAAAAGCTGGAGAACTACCTGAAGGACAATGGTTACGACGTCGACCTAGTCAAGTTCAACGGTGAATCCTCCACCAACGAGATCGACCGGATCAGTGAGATCGGGAAAAGGGACCAGGTCACGGTCATCTACGGCCTCGGTGGCGGTAAGACCAGTGACTCCGCCAAGGCGGTCGCCGACAACCTGAACCTGCCAGTGGTTATCATGCCAACCCTGGCCTCAACGGACGCTCCGTGTTCTCGTCTGTCGGTGATCTACACCGATGACGGCAGCTTCGACCACTACCGTTTCTACTCCCACAACCCTGACCTGGTCCTGGTCGACAGCCAGGTCATCGCTGGTGCCCCAGCCGGACTGCTGATCGCCGGGATCGCCGACGCCTTGGCCACCAACGTTGAAGCCCAGGCAGTGGCCCAAGCTGGTGCCGACACAATGCTGAACGAGAAGCAGACCCTGGTGGGGAACGCGATCGCCCAGAAGTGTGAGGACACCCTCTTCAAGTACGCTCACCTGGCCGTGGCCGACGTCAAGAAGCACGTCGTTACCAGCGCTCTGGAGAAAATCATCGAAGCCAACACCCTGATGAGTGGGCTAGGCTTTGAAAGTGGTGGCCTGTCCGGTGCCCACGCCATTCACGATGGCCTGACCACCCTGGAGGAAACCCACGACCTTACTCATGGTCAAAAGGTTGCTTACGGGACCCTGACACAGCTGATGCTCGAAGGTGCTAGCCAAGAACGTTACGACAAATACTTCAAACTGATCCTGTCCCTCGGTCTGCCAACCACCCTTGACGACCTCCACCTGGCCGATGCTTCCGATGAAGAGCTGTTGTCCGCTGCTAAGGCGGCCTGCTCCGAGAATGACACCATCAGCCGACTGCCGTTCGCCGTTGAACCAGATGACGTTGCTCAAGCCTTCCGGGCCGTTGACGCCTACACCAAGGACTACCTGGCTGCTCACAAGGGTTAA
>SRR1151252_01265 LacI family transcriptional regulator
ATGACCACCATCTACGATATTGCCAAACTAGTGGGGTGCGCCCCCTCGACCGTTTCCAAGTACATTACCAAGCACGGCTATGTCAGTCAGGCCCTTGGTGAAAAGATCGCCGCGGCCATGCGAGACCTCGACTACCACTACAATGGCATTGCGCGCATCCTCAGCACCAATAGTAGTAACCGGATCGGGGTAATGGTCCCCTTCCTCGACCACCCCTACTTTCAGAGCCTGGTGAATGCCATCACCATGGCCGCAACCACCGATCAGGAAGTCACCATCCTGCCCACGGCTTACTCGCCCGTCAAGGAACGCCGCTGTCTCGACGAACTTGAACACCGACTCATCGACAGCCTGATCATTACCTCCCACACTCTTCCCTACCAGGAGATCACCCCGTACGGGAAAAAGCACCCGATCGTCTTCTGTGAGACCATCCCCGATCCCACTGCCCGCTCGGTTCACATTGATCGGCAGGCCGCCCTGACTGAGCTCTTTCAAACACTGAGGCACCGCCACCTCAACCGTATCGGCTGTCTCTTCATCCGTCCCGCCAAGGAGAGCGTGACCACCACGGAAACCCTCGCCGCCTACCAGCAAGTCTTTGGCCACCCCCTGTCCCCGGACCTGGTCCGCTATCACTGCCGCTCATTTGCGGATAGTCAACGATTGACCACGGAACTCTTAGCTACGACCCCTAATCTTCAGGTAATCCTAACGGAAAGTGACATCAGTGCCGCCGGGGCGCGTCAGGTCGCTGGCCCAAAGGTAGTCGTCATCGGCCAGGGGAATCAGTTGCTCAGCCAGCTCCTGGGCTTCCCCTCCATCGACCAACACCTCGACACGATCGGCCAGCAGGCGGTATCGTTGACCCAACCAGACCAGCCGGCCAGCATAGAAAAAATTAAATTTGACATAATTTGGCGAAAATAA
>SRR1151252_01266 phosphoglycolate phosphatase haloacid dehalogenase hydrolase
ATGAAGAACTTTATCTTTGATATTGATGGCACCCTGATCGATACCTTCAACATGTACATGCCAGCATTAATGGAAATCCTCAAGGACCACGGTTACCGGTTTGCTGACCCGGCACGGTTGAAAAAGAACTTATACGGGATTGCGGCCGTTGATGCCTTGCAGCAGTTGAATATTCCAGCAGGTGAGATTGCCGTGATCAATCGAGAATGGCTTACGCGGGCCTATCAGCGGTTTGACCAGGTAAGGCTTCTTGCTGGGATCCCGGTAGTCATCGAGCAGTTGGCTGCGCGGCCGGATACCAAATTGGCGATTGTAACTTCTAAGACGCGAGCCGAATACCAGCAATATTTTCAAGACCAGTACCAGTTTGCCAAGAACTTCACGGTGGTGGTGACGGCTGATGACACTGCTGCCCATAAGCCGGCTCCAGAACCGCTTCTGCTGGCAATGCATCGTTTGGCTGTCGATCCGGCAACCACGGTCTACATCGGTGACATGCCGACTGACATGCAGGCGGCCCACGCAGCCGGAATTTGCTTTGCCGGGGCCATGTATGGGGCCGTGCATCCCGAACAGCTGGCGCCGGCCGACCTACTGATGATCTGA
>SRR1151252_01267 hypothetical protein predicted by Glimmer/Critica
ATGGGAAATCCATTTAATCCCAGCTTTGGGACGGTACCCAGCATCTTCCTGGATCGGAACTCACTATCCAAGCGGGTTGTGACCGAGTTGAATAATGAAAACTCGCCATTTCAGACATCGCTGATTTACGGACAGCGTGGCGCTGGAAAGACCACCCTGATGACCGACGTTGCTAACGAACTCGGTAAGGAGCCACACTGGCAGGTAGTCAACCTGGTTCTGGATGATGACCTACTTGAATCACTGCTGGCTCAGCTTCGCGAAAAGCTAGTAGACCTGAAGCTTTTCAAGGACCTAGATCTTAAGATTGCCTTCAAGGGGATTCAGGTTGATACCAAGATGGGGCGGCCGGCCGTGTCGGCCAACTTTCAGACCGCTTTCCATCAGCTACTTGAAAAGTTCACCCAGAAGAAAATCAGGATCCTAATCACCATTGATGAGGTCAAGGCCACGCCGCAATTGCGAAAGTTGATCTCATGCTATCAGATTATGCTTCGTGACAACCTGGGTGTGTCCCTACTGATGGCGGGACTACCGGATAATGTCTCGGAGATTCAAAACGATGATGTGCTGACCTTCCTGCTGCGAGCTAATCGGATCACCCTTAATCCCCTTGATGCCGAGAGTATCAAGACCAGCTATGCGCGAATCTTCCGTGACGCTGGCTACGAGATTGCGATGCCAACCCTGCTTTACATGACTAAGCAGACGTTGGGCTTTGCCTACGCCTTTCAACTTCTTGGTTACCTAGTCTGGCAGGCGGCTAAAAGTCGGACTACCAAGCGGGTCACGTTGGAGACGGTTAAGGAGATTCAAGACCAATACGTCAGTGCCCTGTTCCGTAACGTCTACCGTAAGGTTTACCATGAGATGTCAATGCGGGAACGCGAATTTGTCCAAGCGATGGTTAAGACGGGTCAATCCCAGGTAAAGGCCCAGCAGATCGGCCAACTCATGGGAAAGCAGCCGGGCTATGTCTCCGTTTACCGGCGTAAGTTGATTGACGATCAGATCATCACACCGGCGGGCTATGGTTACGTTCGCTTCATGCTGCCTTACTTTGACCAGTACGTTGAGGAACAATTATTAATGGATCAATTCTAA
>SRR1151252_01268 aminopeptidase N
ATGACAGAAAACAAACGATTGTTGGACACGTTCCAACCGAACCACTACGACCTCTACCTCGACATCGACCGGGGCAAGAAGCTGATCTCGGGAACCACAACCATCACCGGTCACGCTAGTCAACCCGTCATTCAGCTTAACCAAAAGTACCTGCACTTCACCACCATCTCAGCTGATAACCAGCCGCTTCCTTACACCGTCAAGGACGATGCGGAGACTGTGGAGATCACCCTGCCAAGTGCTGGTGATGTCACAATCAAGATCGACTACACTGCCCCACTGACCGACACCATGATGGGGATCTACCCGTCCTACTACCAGGTCAACGGTGAACAGAAGCAGATCATCGGTACCCAGTTCGAGACCACCGCGGCCCGTCAGGCCTTTCCGTCTGTCGACGAGCCGGCCGCCAAGGCGACCTTCTCCCTGGCTATCAAATATGATGAACACCCCGGTGAGACCGTCATCGCCAACATGCCCGAGGACCACGTGACCGATGGTGTCCACTACTTCCAGGAAACCGTTCGGATGTCGACCTACCTGGTGGCCTTTGCCTTCGGAGAGTTGCAGAACAAGATGACAGAGACCAAGTCCGGCGTCAAGGTCGGGGTCTTCTCTACCAAGGCTCACCAGCCCAAGGAGCTCGACTTCGCCCTCGACATCGCTAAGCGTGCCATCGAGTTCTATGAAGACTTCTATCAGACGCCATACCCGCTACCACACTCCTGGCAGTTGGCTCTGCCGGACTTCTCAGCCGGAGCCATGGAGAACTGGGGGCTGGTCACCTACCGGGAAGCCTACCTCCTGCTCGACCCTGACAACACCTCTCTGGACATGAAACAGCTAGTCGCCACCGTCATCACCCACGAGCTGGCGCACCAGTGGTTCGGTGACCTGGTCACGATGAACTGGTGGGACGACCTGTGGCTCAACGAGAGCTTCGCCAACATGATGGAATACGTCTCCGTCGACGCTATCCACCCCGACTGGAAGATCTGGGAACTCTTCCAGACCTCTGAGGCACCGATGGCCCTGCAGCGGGACGCCACAGACGGTGTTCAACCGGTCCACGTGGACGTGAACGACCCGGCTGAGATCGACTCAATCTTCGACGGCGCCATCGTCTATGCCAAGGGTTCGCGGATGCTGGTCATGGTCCGGGCCCTGCTCGGCGACGATGCTCTCCGTAAGGGCCTGAAGAATTACTTCGCCGCCCACAAGTACCACAATGCCAAGGGGAGCGACCTCTGGCAGGCCCTCGGCGAAGCATCTGGACTGGATATCGGTAAGATCATGAACTCGTGGCTGGAGCAACCGGGCTACCCAGTTGTCTCGGCCACGGTCAATGACCAGGGCCAACTAGTCCTGCGCCAACAGCAGTTCTTCATCGGGGCCGGTGAGGACAAGGGCCGGATCTGGCAAGTCCCGTTGAACAGTAACTACGCCGCGGCTCCACAGATTATGAGCGACCGGGAAGTCGTCCTCGGTGACTACCAGGCCCTGCGCCAGCAAAACGGCCAGCCATTCCGGCTCAACGTCGGCAATAACTCCCACTTCATCATCAAGTACGACGACACCCTGCTCCAAGATATCCTCGATCATGCCGACCAGCTGGATCCAATCAGCCAGCGGCAGTTACTCCAGGACCTCCGCCTACTCGCCGAGGGGCAGCAGGTTTCCTATGCCGACCTGATTCCACTTCTGAAACGCTTTGCCAACAGTCCATCGGCTATCGTCAACGCCGAGCTCTACCGTATTGCCAACAGCCTGAAGATGTTTGTTCAACCGAATAGTTCAGAAGAAAAGCAGCTCAGGGCATTCTTCGACCAGTTGAGCAAGCAACAGGTGGCCCGGCTCGGCTGGCTGCCTAAGTCCGGCGAGAGCAACGACGACCAGCTGACCCGGCCATACGTCCTGAACGCCGCCCTGTATGCCCACAATGCCGACGCAATGGCCGCAGCCCACCAGATCTTCAGTGATAGTAAAGATTGGTTAAACGAACTGACGGCTGATATCCGGGGACTGGTCCTCAAGAACGAGGTCCAAAACTACGGCAGCCCGGCCCTCTTCGACCAGCTGATCAAGGCCTACCAGGACACCGCTGACGCCAGCTTCAAGCAGGACATCCGTGGTGCCCTGCCGAACACGACCGACCCGGCACTGATCAAGCGGCTCGTTGCCCTTTACAAGGATACCAGCGTTATCAAGCCACAGGATCTGCGGGCTTGGTACCGGGGTGTTCTCGCCAACGATGCCGGTCAGCGGGCGGCCTGGGATTGGCTGCGCGACGACTGGCAGTGGCTCAACGACACGGTCGGTGGTGATATGGAGTTTGCTACCTTCATCACCGTCACGGCCGGTGTCTTCCACACGTCAGCTCGGCTGGCCGAATTCAGGGCCTTCTTCGCGCCGAAGATCAACACACCTGGCCTGACCCGGGAGATCAGGATGGACATCAAGGTCATCGAGAGCAAAGTCGCCTTGGTCGATAAGGAACAGGCAGCCGTCAACGCTAAAATTGCCCAGAGTCTTAATTAA
>SRR1151252_01269 malate permease
ATGTCAATCAGTCAAATCTTTACCCAGGTGGTCGTGATCTTCTTACTAATGCTTCTTGGGGTGGTCATCCGAAAGCTGGGTTTCCTGCATTCCCAGTCGATTAATGACCTGACAAATATCATTCTTTATTTTTTGTCGCCAATCGTGATCATCAAGGCATTTGAACAGCCATTTTCGCGGGCCCGTTTTAACCAGTTCCTGGTCCTGGTGGTGGCGGTTTTCTTAACCTACTTCGTCTCGATCCTGCTCGCCAGTTTACTCTTTCGCCGGGTCCGCGACCAGAACATCCGGCGAATCGCGATCTACGGGAGTATTCTAACAATGGCTTCATGGGGATCCCCCTGGCTCAGGGGCTCTTCGGCAGTATCGGGGTCTTCTATGCCGTGGCCTCGATGA
>SRR1151252_01270 malate permease
ATGATCGGATTTAACGTGATGTCGTGGACCCAGGGGATTGGGATCTTCCAGGACCGGACCCAACGGCGCTTCGGTGAGCAATTCAAGAAGATCATCTTAAACCCCAATATTATTGCCATCATCGTTGGCTTAATTATGTTTGTTACTTCATATCATTTGCCTAAACTACTATCCTCGTTTATTGACTACACCAGTCCAGCTTTCACCCCAATGGCAATGATTGTCATTGGCTGTAACCTGGCTAACCTGAGCCTCAAGGATGTCAAGCTACCTGGTTCACTGTGGGTCAGCCTGGTTGTCCGGAACCTGGTCTTCCCGATTCTGGGCGCCCTCATCCTGTTGGCAATGGGGGTTAGCGGGGTGCCAATGGTGACAACCGTGATTCTCAGTGCCTGCCCGGTGGCCGGGCTGGTGGTCCTCTTTACCCTACAGGCGGGTGGGTATGCTAAGCCGGCCACGATCCTGATGAGCATTTCGACCATTCTGAGTCTAGTGACGATCCCGATTGTCTACGGGATCGTCAGTCTGTGGTGA
>SRR1151252_01271 alpha-galactosidase
ATGTCCTACACGATCTACCGGGACTACCCCGTCATCACCCGCAACGTCCGCGTCGTCAACACGAGTGACTACCCAATTGACATCGAGAAGGTCGCCTCCATCCAGCTCGACCTGCCGAAGAACGACCAAGACTACGACCTCGTCTACCTGCCCGGCCAGTACGCCCACGAACGGCAGATGCGGCGGACCAGCCTCGACCAGGGGATCTTCGAGCTGTCCAGCCGGCGTAACTCCAGCTCCCACCACATGAATCCGTTCGCCGCCATTGTCGACAAGTCCACCGACGAGTTCCAGGGCAACGCACTCGGTGTCCTGCTGGTCTACTCTGGCAACCACCAGTTCCAAATTGAGAAGGACCAGATCGACCAGATTCGCCTACTCGCCGGGATCAACGAATTCAACTTCTCCTGGCGCCTGGAGGCCGGGGAGAAATTCCAGACCCCCGAGGCGATCACCGTCTTCTCCACCAAGGGCCTCAACGGGATGTCCCAGGCCTTCCATCACCTGCTGACCAACCGGGTGGCCCGCGGCAAGTACCAGTACGCTGACCGGCCAATCGTCATTAACAACTGGGAGGCCACCTTCTTCGACTTCGACGACAAGAAGCTCGACGAGGTCGTCAAGGAAGCTAAACCGCTGGGGATCGAGATGTTCGTCCTTGACGATGGTTGGTTTGGTCACCGGAACGACGACAACTCTTCGCTGGGTGATTGGTTCGTCAACAGCAAGAAGGTCAACCTCAAGCAGGTTGCAGATCAGACTCACGCCGCCGGGATGAAGTTTGGCCTCTGGTTCGAGCCCGAGATGATCTCCATGGACTCCGAGCTCTATAAGAAGCACCCCGACTGGGCAATTCACGAACCAGGCCGGGGGATGACCCTCTCTCGCAACCAGCTCGTCCTCGACTTCAGCCGCAAGGAAATCGTCGACAACATCTTTGACCAGATGTGCCAGGTCCTGGACAAGGTCGACATCGACTATATCAAGTGGGACTTCAACCGGAACCTGACCGAGGTCTTCTCCGTCGCCACCACGCCGGAACACGAGGGTGAGATCGGCCACCGCTACGTCCTCGGTCTCTACGACCTCCTCGATCGGCTAACCAAGCGCTACCCACAGATCCTCTTTGAGGGCTGCTCCGGTGGTGGCGGCCGGTTTGATGCCGGAATTCTCTACTACATGCCACAGAGCTGGCAGTCCGATGATACTGACGCGGCCGACCGGATGAAGATCCAGTACGGGACCTCCCTGGTCTACCCGACCTCGGCAATGACCGCCCACGTCTCCGTCTCACCAAATCAGCAGACCGGGCGGGACATCAGCTTTGAAACCCGGGGTGCTGTAGCGATGAGCGGCGTCTTCGGTTACGAGCTCGACCTGGCCGACCTGACCGCTGATGAAAAGAAACTGGTCAAGCAACAGATCAAGTTCTACAAGGCTCATCGCCACCTGATTCAGTACGGCGACTTCTACCGGCTAGAGAGCCCGTTTGAGGGTGGCAGCAAGGTGGCCTGGGAGTTCGTTAGCCCCGACAAGTCCGAGGCCCTGCTCTTCACCTTCCGGACCCACCACACCAACCGGTTCGAGATCTACAACACCAAGATGGTGGCCCTCGATCCAAGCAAGAACTACCAGGATGACACTACCAAGACGACTTATGGCGGTGACGAGCTGATGAATGTCGGCCTGTTATCCGACCCGACGGATAAGGGTGACTACCTGTCAGAAATCCATTACTTCAAAGCCAAGTAA
>SRR1151252_01272 LacI family transcriptional regulator
ATGGCAAGCATCCGACAGATCGCCCGGCTGACCGGGTATTCTCTGGCCACGGTATCCCGGGTTCTCAACCACGATGACCGCCTGGCGGTGAAGGCCACGACCCGGGAGAAGATCATTCAGACGGCCGCCGCCTTGCACTATGAGACCCATGAGCATCATGGCGAGCGGGTCCGGGCGATGAACCTGCAGCGTAGCCGGATCCTGGTGCTCCTGACGCACCAGGACAGCGGGCCAACGTCCTATTTCACCGAGATCAACCGGGGGATCAAGATGGCGGCCCAGGAGCACGGCCTGCCGATCAGTGCCTGGCTGATGTTTCCCCAGCCGGACTTTGACTACCGTCGGGCCGCAGACTACCACGCGCTAATCCTCGTCGGCACCTTCAGTCAGCACTTTCTGACCCGGCTCTACCATTACAATCAGAACCTGATAATCATTGACGACTACCGCTACTCGGACCGCTACGACCTGGTGCGCAACAACTACGAGGCGGTGATGCACCAGGCACTTGATCAGCTCTATCGGCAGGGGCACCGTCATATCTTCTTCATCGGTGGAGCGATCAACCCGGTGGCGGCACGGGGGAGTGAACAGACCGGGATCGCCGACATCCGGACCCGGGTGTATGAGAACTGGATGCAGGTCCACCACCTAACCGCCCATACCTACGTGACGCGGTGGATCGAAGCGGACGGGCACCACGCGATGACCGCCATTCTTGACCGGCGGCTGCCAATCGATGCCCTGGTGATCGCCAGCGACCGGTTGGCGGTCGGGGTGTATCAGGCCCTGCACGAGCGCGGGGTGTCGGTGCCGGACAACCTGGCTGTGGTCAGCTTTGACGATTCTGCCCAGGCTGCCCAGCTGACCCCACCACTGTCGTCCATCCGCCCGCACAGCTACGAGATGGGCCGGGCCGCTGTTCGTCTGGCGATCGAGCGCTTGATCGACCGCCGGACTGTGGCGGAGCAGGTGATCCTGCCGTCCCGCCTCGTGGAGCGGGCCAGCAGCGCGCCGCAGTCAAAGTGA
>SRR1151252_01273 DNA-damage-inducible protein J
ATGGCAACGATTAAACCAAAAGCTAAAACTAGTTCGACCATTCGTCTCGACCCAGAATTGCGTAAAGAACTTTCAGAAGGATTAGCTAATGTTGGTATGACCGTCAACGGCTATTTCACGATGGCTGCTAAACAATTCATTATTCAGGGGAAAGTACCATTTGAAATCAAGAATGTGCCCAAGGTCGAGCACGTAACCTTTAATGATGAAACCCGAAAAGCAATTGTTCGTGCGTATGCCGAAGAAGAGGGAATTATTTCAGATACCGCGAAGACCTTTGATGATGCCGATGATGCAATGAAGGAACTTTTCAATGATAAATAA
>SRR1151252_01274 addiction module toxin RelE
ATGATAAATAATAATTGGAGGGTTTGCTTTGACCGGCAATTCCAGCTTGACGTTAACAAATGGAAAAATCAGGTTGACGATTTACAGGGTGAATTACGAGATATTGATGACTATATTATAGAATATGGGGAAATCCCAAGCGAATATGATCCACACGAACTAGTGGATCCAACTCTCCCGTATACTGGTACGATGGATTTCCATCTTTTCGACAGTAAAGTTGATTTGCTGGTAATCTATACCGAAATCAATAAACACCGTGTTTTTCGCTTTATGCGCCTTGGTAGTCATAACGAACTTTTTCATTGA
>SRR1151252_01275 sugar O-acyltransferase
ATGGGACTTCATGACCAACAGATCTATAATCCAGAGGACCCGGCCATCCTCAAGGTCCAAAAGCAGGCTCAGCTGAAGATGTACGAGTACAACCGGACCCTGCCAACCGAGGACGACAAGCGTCAGCGCCTGTTGAAAGAGATGCTCGGCAGGGTCGGCAAGGGCTGCTACCTTGAACCACCCTTCCGTGCCAACTTTGGCGGCCAGCACGTTATGCTCGGCGACTATGTCTACGCCAATTTTAACCTGACCGCGGTCGACGACACCTACATCTACATCGGCGACCACACGATGATCGGGCCCAACGTCACCCTGGCCTCGGCCGGCCACCCGGTCCTGCCGGAGCTGCGCCAGCGCGGTTACCAGTACAACCTGCCGATCCACATCGGCAAGAACTGCTGGCTGGGTGCCAACGTGACCGTCGTGCCGGGCGTCACGATCGGTGACAACACCGTGGTCGGCGCCGGGGCGGTCGTCACCAAGGACCTGCCGGCCAACGTGGTCGCGGTTGGGGTCCCCGCCAAGGTGGTCCGGCCGATCAGCAACCACGACCGCAAGTACTACCACGGCCGGATGAAGATCGATCCTAAACTGCTGTCGGAAATTTCAAAATAA
>SRR1151252_01276 oxidoreductase
ATGAGTAAAGTATTCATCGCCGGTGGCTCCGGACGTGTGGCCACCGAACTAATCAAGGACCTGATTGCCGCGGGTAACGAGGTCGTGGCCGGATCTCGCCACCCTGAGAAGATCGTCCAGCTGAACGGGGTCACCCCCGTTGCCCTCGACCTGCACGGTGACGTCGCCAAGCTTGCCAGCCTGATGGCGGGTTGCGACGCGGTTTACTTCGTCGCCGGCTCCCGGGGTAAGGACCTCCTCCAGACCGATGCCATGGGCGCGGTCAAGACCATGCAGGCCGCTGAACGGGCCGGGATCAAGCGCTACATCATGCTGAGCTCGATGTACGCCCTCCAGCCGGAAAAGTGGGCTGAATACCCGGCTCTAGCAGCGATCACCGACTACAACATCGCCAAGTTCTTCGCCGACAACTACCTGATCAAGAGTACCAACTTGGGCTACACGATCGTCCAGCCGGCATCCCTGACCGAGGCGGCCGGCATCGGCAAGGTTAGCTTCGGTTCGGGTAACGACACCACCAACCCGATTCCGGACGTCGCCCAGGTATTGGCCGACGTGCTTGACGCCGACAACACCATCGGCAAGGTTATCATGATGCGCAGTGGCGAAACACCGATTGCGGATGCTGTTAAGAACGTCTAA
>SRR1151252_01277 nitroreductase
ATGGAATTCAAGCAAGCTGTCAACTATCGTCAATCGGTCCGCTACTTTACCAACCGGCAGATCGATGCGGCCACTTTGCGGGACCTGATAAGAACCGCCGCACGAACCCCATCCTGGGCCAACTCACAGCCTTGGAAGGTCTATGTTGCGACCGGCGATAGCCTGAAGAAGATTAAAGCCCACCACCTGGCCGCCACCCAGCAGGGAGTCAAGGGCAACAGTGATCTGCCCGTCGCCCACCGGACGCAGTGGAATCAGCAGGCACAGGAAAACATGGCCGACTGGAGCACTGCCCTCCAGCAATACCTGGGAACCGATATCCAGCAGATGACCGATTCACAGACCCGGCTTTATGACGCTGCGGCTCTGGTCTACCTCACCCTGCCCAAGGGTGCAACGGGGTGGTCCATCTATGATCTCGGCGCGTTTGGTCAGACCCTGATGCTGGCGGCAGCCGACCAGCGAATCGACTCCATGCCGGCCTACGAGATCGTCCGCTACCCTGACGCGGTGCGGGAGATCATGGGCATCCCCGCCAATACCCAACTGGTGATGGGAATCGCCCTTGGCTACCGCGATCCGGCCAAGAGGATCAACGACTTCCGCTCCGCTCGGGCACCGGAGAATTCAATTCTAACCATTAAGGATTAA
>SRR1151252_01278 aminopeptidase C
ATGACGGAAGAACGCCATCTAACAAGTAAAATGGTTGAAAAATACCAGGAAGAATTTCACACGCGCCGGGACGCTGACGTGATTGCCCGGGCCGTCCAGAAGAACGGGATCAAGAACGCCAGCGAGGATCCGGCGGCCAGCCAACGCCTCCACCGGGCCTTCTCCTACGAGATCAAGACCGGGAAGCCGTCCAACCAGCGTCACAGTGGCCGTTGCTGGTCATTTGCGACCCTGAACACGCTCCGTCACAAGTTCGCCACGAAGTACAACTTCAAGGACTTCGAGCTCTCCCAGAACTACCTCTTCTTCTGGGACCGGATCGAGCGGGCCAACATGTACTTCCAAAAGATCATCGCAACGGCCAAGAAGCCGCTTCATGACCGGACCGTCGACTTCTACCTCAGCTTTGCCTTAAATGACGGTGGTCAGTGGGCCAACGCTGCCTCGATCATCGAGAAGTACGGGGTCGTTCCGGAGTATGTGATGCCGGATACCCACAACACCAGGGACACCAGCGATGTGGCCGAGGTCATGAACTACCTGATGCGTAAGGATGCCCTCGAGTTGCGGCGGATGGTCAATGACGGTGCAGACAAGGCCGAGCTGGCCAAGGCCCAGGAGCGGATGATGGCCGATGTCTACAAGGTGGCCGCCTACTCCTTTGGTGAACCACCGACGAAGTTTGACCTGGAATACCGGGATGACGACAAGAAGTTCCACCAGGTGTTGGGCCTGACCCCGCTTAAGTTCTATCGGGAATACTTTGATACTAACCTGAATGACTACGTGGTGGTCACCAACGCCCCTGATCACGAGTACAACAAGGTCTATGCGATGCCGACCCAGGACAGCGTGGCCAATGGGATCCCGATCAAGTTTGTCAACGTGCCATTCAAGTACCTGCAGGAGGCTGCCATGAAGCAGCTGAAGGCCGGTGAGACTGTCTGGGTTGGTAACGACGTCCTCCAGCAGATGGACCGCAAGCGGGGCCTGATGGACGCCAAGCTCTTCCGGCGGGCCGAGTTGCTCGACGTCGACTTTGTGATGGACAAGAAAGACCGGCTGGAATCCAAGCAGGCAATGGTTTCCCACGCCATGACCTTGACCGGCTTCGACCTGGCCAAGGGCGAACCAACCCGGTGGAAGATCGAAAATAGCTGGGGCAAGGATAACGGGGCTAACGGTTACTTTGTCATGACCCAGGATTGGTTCAAGGAATACACCTACGAGGCGGTCATCAACAAGAAGTATCTCGATGACGACCTTAAGAAGCTAGCTGCGTCACCAGCAGTTGACCTGACGGCCTGGGACTCATTACAATAA
>SRR1151252_01279 multicopper oxidase
ATGGCAGAAGAAAAAGTTATCAATGACTACTTCTATGACGAAGCGGCTTACGATTACCATGATGGTGGTTATGTCCCACTGGAGGAACCGCAGACCCCTCAGCAGCCCCTGAACATCCCGGGCCTGCTGAAGCCGGATAAGGAGACGGCCACGGACATATACTACACGATCGTGGCGCAGACGGGGGAGGTCCAGCTCCTGCCAGGTAAGAAGACGAAGACCTGGGGCTACAATGGTCCGTTATTGGGCAAGACGGTGGTCTTCAAACGCGGGAAGACCATCCACGTTCACCTGGTCAACCACCTGCCCGAGGTGACGACCTTCCACTGGCACGGTCTCGCCATCCCCGGTCCGATCGAGGACGGGGGGTGTCACGCCCCAGTATATCCTGGTGAGAGTCGGGACGTCACCTTCAAGATCGACCAGCCAGCCGCCTTTGTCTGGCTCCACGCCCACCCGTGTCCGTCAACGGCGGAGCAGGTTTGGCATGGCCTGGCCGGGGGTGCCATCGTCCAGGACGACCATGAGGCCAGCCTGCCTCTGCCGCGTAACTACGGGGTCGATGATATTCCGATCATCCTCCAGGACCGGCGCTTCCACGAGGATAACCAGTGGGACTACCGGACCGACTATGATCCAGACGGGGTCGCGGGCCCGACACCGATGATCAACGGGACGATTAATCCCTACTTCGACGTCACCACCCAGAAGGTCCGGCTCCGTTTCCTCGACGGGGCCAACCGGCGTGAGTTCCGCCTCCACTTCAGCGACGACCTGGAGTTTACCCAGATCGCCGGTGACCTGAGTCTCCTGCCGCATCCGGTCAAGATGACGAAGCTGTTGATTACCTGTGCCGAGCGCCAGGAGATCATCGTTGACTTCGGCAAGTACAAGCCGGGTGATGTGGTTACTCTTTACTCCGACGATGTCCCGTTGGTTCGCTTCCGGATCCACGAGTTCAAGCCGGACCACACCGAAATTCCACAAGATCTTTTTGAAACCCCAGACCCGGCGGCCGATCCTGACCTGCCTGTCCACCATGTCACCCTGGATGGGATGGATGAGTCCGTGGCAATGAACGGCAAGAAGTTCAAGATGGACCGGATCGACTACAAGATGCCCCTGCACAAGGTTCAGATCTGGGACATCGAGAACACCAACCCGGCGCCCGGAATGATCCATCCTTACCACATGCACGGTACCGCCTTTGAGGTGATCTCCCGTGATGGTCACGCCCCATATCCGAACGAGCTTGGGCTGAAGGATACCGTGGCGGTCAACCCGGGTGAACACGTCCGGATCAAGGTCTGGTTCAACGTGGCCGGGGTCTTCATGTATCACTGCCACATCATCGAGCACGAGGACGGCGGAATGATGGCCCAATTGCAGGTTGTTGACCCGGCCGATCCCGACAAGCAGTACCACCTGATGAACCACATGACGCTGATGAAGGCCTTCGCTGAGGAACGGCACGTGCCGATGGACCAGCTCTGGCTCGGTGGGATGGAATCCTACAAGAAGATGGGGATGGAGATGTAG
>SRR1151252_01280 Sir2 family NAD-dependent protein deacetylase
TTGACTAAAATTCAGGAAGCACAACGGATGTTACGAACAGCGGATGCAGTGCTGATCAGTGCCAGCAATGGGCTTTCCATCAGTGAGGGCTATAACATTTTTGCTAACAATGCTGCTTTTCAGCGTTACTTTGGTAAGTTTACCCAGCAGTATGGGATTACCAGTATCCTGCAGGGCGCCCAGGCCCTCCTGCCAGCGCCGGCTCACCGTGAATTTATCCACCAGCTGCATAAATATATGATTACGATGGCAGTCCGCAGTTCCAGCAGTTGA
>SRR1151252_01281 Sir2 family NAD-dependent protein deacetylase
TTGAAACAGCTAGTTGCGGGGGAAGATTACTTTGTGGTTACGTCTAATGCTGATCAGCACTTTCAACAAAATGGCTTTGACCCCCACCGGATTTGGGAAGTAGAGGGTGACTTCTTTGACTTGAAGATGCGTAGTCCCGAGTGGGAAGCCCAACAGCGCGCCTGTCAAGACTTCCTTCAGCAGTATGCGGATCGCCGGCTTGTTCAGTTAGAACTGGGAATTGGCGCCGCTAATCAATTAATCAAGGCACCGCTGATGCAGATGGTAGCAGTCCACCCCAAGTGGCGCTACATTACGTTGAACCTTCCGGATGAAATCAACGTTTTGCCAGTAATTCAGTCCCAGGCGATTGAATTGCCAGGCGATCTCAAGCAGACATTGGCACAGTTAGTAAAGGAGAACTAA
>SRR1151252_01282 Sir2 family NAD-dependent protein deacetylase
ATGACGCAATCATTATATGAGCAGCTAGTTATGCAGACGCAGATGAATTACTCACAATATTACGGTGTATACGCGAGTGGCAAGACGCCATTTAAGCTGACTGAGCGCCAGCCCTTACCGTATGACCAGCAGATTAAGGTCTTTGCTGAAAAGGTGAAGGAAGCCGACCACATCATTGTGGGTGGGGCCTCCGGATTGTCCGCCGCTGGTGGTGATGATTTTTACTATGCGGCAACCCCGTCCTACCAGCAGGCCTTTAAGCGTTTCTATGAAAAGTATCATTTCACCGGCGCCTTTGCCGGGATGCGGCATCGCTGGAGTAGCCGGGGAGAATTCTGGGGTTACCTGGCGACCTTCCTGCACACCACTCTCCATGCCCCAATTCGGGAGCCCTACAAGGACCTTCAGGCGATTCTCCGGGATAAGGACTACTTTATTCTGACCACCAATCAGGATACTCAAGCAATTAAGGCATTCCTAGAAGAAAAGGTTGCCCAGATTCAGGGTGATCATCGTTTCTTCCAGTGCAGTCAGCAGTGTACGGATGACGTCTGGGATGCTACTGAAAAGATTGATGAGATGTATGACTACCTTGAAGAGCATGACACAACAACTATCCCAGATGCGATGATTCCCCGCTGCCCGCATTGCGGTGCAGAGGCTTTCCCGTGGGTCCGTGGCTATGGTAATTTCCTGGAAGGGAGCCGGTACCAAGAGCAGTACCAGAAAATCTCTGACGACCTTGAACACCATCTTCATGACCAACATCTCTTATTCCTTGAGCTCGGCGTTGGTCAGATGACGCCAATGTTTATTCAGGAGCCATTCTGGGCCCTCACCAACAACCTTCCCGGGGCTTACGACGTGATGGTTAACCGGGACTATCAGTTTCTCCCACAACAAATTGAGGATAAGGGAGTTGCAATCAAGGGCGATATTGCAAAGGTCTTAAAGGATGTACGCCAACAATTGAATTAG
>SRR1151252_01283 hypothetical protein
ATGGTTAGCGATAAGCACGGATTAAAAGACCGCGTGGCCGGAACCTTCAGGGAACTGAAGGGTAAGGCGACGAACGACAAGACAGAGGAAATGGTCGGCAAACTTCGTAAGGCCAAGGGCAAGATCAAGGACAAGGCCCGGGACCTGAAGGACGACCTGGACAAGAAGGAAAAGGAGGCTTAG
>SRR1151252_01284 transglycosylase associated protein
ATGCATTGGTTATGGGTATTAATCGTTGGTGGGATTATCGGTTTAATCGCCGGTGCCATTACCCACCGGGGCGGCTCCATGGGCGTTATTAGCAACGTGATTGCCGGTTTAGTCGGTTCATCAGTTGGTGAGGCAATTTTAGGATCCTGGGGCCCGCAAGTTGCCGGAATGGCGATTGTGCCATCGGCAATCGGGGCCGTAATCCTGGTACTGATCGTTTCGATGATCTTCGGGATTCGTCGGACCTGA
>SRR1151252_01285 Rrf2 family transcriptional regulator
ATGAGATATTCCTACAAATTCAGTGATGCCATTCACCTGCTAGCCTACCTGGTCGTCTATCACGACGGGGACCGGTCAAGCAAGGCGATTGCTAATAGTATTGAGGCCAACCCCAGCGCTGTCCGGAAGCTGATGGCCGACCTCCGTCAGGCCGGTCTACTGGTTACTCAGGCTGGCCGGGCCCAGCCAACTCTGGCCAAGGCAGCGAAGACGATTACCCTGCTGGACATCTACCGGGCCCTTCAGATGGACCACGACCTCCTCCACGTCGACCCGGCTACCAATCTTCAGTGCCCGGTTGGCGGAGCGATCCAGCCGGTCCTCGGTGGCTTCTACCAGGAGATCCAGGTAGCGGCCTATAAGCGAATGCAAGCAATCACCCTCGCCGACGTCGTCCAACAGATCAAACAATATAACCAAGCAAAATAA
>SRR1151252_01286 HxlR family transcriptional regulator
ATGAACCCACATAAAAAAATGTTTAACACCGGTGCCGACTACGCCCTCTCAATCATTGGCGGCAAGTGGAAGTCGGTCATTCTCTATCTGCTAGCGGGCCATCCCCGCCGAACTGGAGAATTGGTTAAGCAGCTGGGTACCTCCCATAAAGTTCTCAGTGACCAGCTGAGGGAATTAACCGATGCCGGGATCGTCGCCCGAAAGAGTTTCAACACCGTTCCACCGCACGTCGAATACCGGCTAACCGACGAAGGTGAAAATCTCTACGCTGCCCTCCGCTACCTTAACTACTGGGGCGAGGAGAAGGCCGCTAAGACTCCCGGTGTCGCGATCATGTGCACTGACGCGATGAAGCAGACCGGTGACGACGGCCTTTGCGTCATCACCAAGCAACACCTCCACCACTGGTGCCAGGAGATCGTCAGAAAGTAA
>SRR1151252_01287 NAD-dependent dehydratase
ATGACAAAGCAAATCTTAATTCTCGGTGCCACCGGGCAGATTGCCGGGCACGCTATCAAGGCCCTACTACAGGATAGTGACGACCACCTCCTGCTTTTCACCCGGCACCCACAGCACCTCACCGTCGTTGATGAAGACCGGGAGACCGTGATCAAGGGTGACACGCTGAAGATGGACGAACTTGACGCGGCCGTGGCTCAGGCCGACGCGGTTTACGCCAACCTGCGAAACCCATCCATCGCGCAACAGGCTCAAAATATCGTTCGGGCGATGGATAAGCACGGGGTCAAGCAGCTGGTCTGGATTTCCTCGATCGGGATCTACGATGAGGTACCCGGCAAGTTCGGCGAGTGGAACAACGCCGAGCTCGGTGGGGGCCAGTCCGATAGCTACCTGGGTACCTACCGGCAGGCGGCCGACGTGGTCACCAATTCCGATCTCGATTACACGATCATCCGGCCGGCCTGGCTGACCGATAAGGACGAGGTTGACTACGAGACGACCGCGCGGGGCGAGGCCTTCAAGGGGACTGAGGTTTCCCGGAAGTCGATCGGGAACTTCGTGGCCAAGATCCTCGAGAACCCGGCTAAGTACGCACGTAAGGACTTCGGGGTTGATAAGCCGGGGACCGCTGGGGATAAGCCCGCCTGGTATTAA
>SRR1151252_01288 D-alanyl-D-alanine carboxypeptidase
TTGGGGGGGGTAATACCCCTGACTCATGCGGCAAGTGTAATTGATGCCCGGGCAGCCATGATGGTTGATGCTGATACCGGGCAGGTTATCTACGAACAAGGTGCAGATAAGCAACTACCGGTGGCCTCAGTTAGCAAGCTCCTGACTATCGCAGTTGTTCATGACGAGTTGCAGAAGAATATTATCACGGCTGACTCCCGAGTGTCGGTTACCCCAGCGATTGCCGCTATTTCTAATGATCCTGCCTATTCCAGTATTGATCTGGCGGCAGGGCGGTCCTATCCGGTGATTGAGCTGTTGAATGCAGCAATGGTCAAGTCCGCCGACGGAGCAACCCTTGCCCTGGCGACTGCTGCCGGTAATTCACCGGATGAATTCGTCCTCGCTATGGAGAAGAAAGCACGAGAAGTTGGTCTGAGAAAGACGAGTATTGTTAATCCGACTGGGTTGACCAACAGTGAGATGAAGAGTTTTCGTTCACCCAACATTGCGGATAATGTCGAAAATGCCATGAGTGCCCGAGATATTGCCATCCTGACCCGTTACTTACTCCGGACCTATCCTGCCCTTCTTCAGGTATCTGACCAGAAGAAGGCAAATTTCCTCATCACGAAAGGGAATGTCAAACGGATTGCCAACCTTAATGAGATGCTACCGGGAGGGCGATACACGGTCCCGGGAGTTACCATTACCGGATTGAAGACCGGGACGTCGGATAATGCAGGAGCTTGCTTTGTCAGTACTGGTAAATACCACGGTCACCAAATTATTACGGTGGTTCTTCATGCTGGCGGGCACAACCCCGATAATCGATTTATTCAGACGCAGCGGTTATATGCAATGCTAAAACATGACTATCGTCTGGAGCGTGTCCGACTACCTCAAGCCGTCCGACAGGCTGTGGTGACCAATGGTGCTAAACGGACCGTTGCTACCTGTCCGACAACGGTAACTATCTGGGGGACCGGGCGTTTAACCTCCTACACTGCCTCCCAGGAGCTCAATCCGCGGCTAATTGGCGACCAGGGGCGGTTGCGTGCCCCAATTCGGAATCACCAGCGCGTCGGGCAGCTTTATTTGACTAGTCCTCATCTGAAGACTGTTTCCGGGGTCCCGCTGATCTATCCGCTGCGCAGTACCGAGGTGGTACCACGGGGTAATTTTTTGCAGTGGTTGTTTAATTAG
>SRR1151252_01289 amidase
ATGACTAAGGCACTGATTATCATTGATATGCAGAATGGGGTGGTTAATCCAGCTGGTAAGGTGATTTATAACCAGACCGGGTTGGTACACTTGATTAACGAGCGGATTGACAGCTACCGATCATCTTTGTCCAGCATGTGGATGAAGACCTGGTACCGGATTCGTCGGCTTGGCAGCTGGTTCCCAGCTTAA
>SRR1151252_01290 amidase
GTGGATGAAGACCTGGTACCGGATTCGTCGGCTTGGCAGCTGGTTCCCAGCTTAAGCGTTCTGCCAACGGATCTGCGCATTCAGAAGGAGCACCCTAACGCCTTTTATCGGACCAATCTGCAAGCCATCTTAACCCAGCGACGAGTCGACCAGCTGGAGATCTGTGGCGCCCAGACCGAGTACTGTGTTGATGCGACCATCAAGATGGCCCATGGCCTGGGCTACCAGGTAGTGATGAAGCATGGCGCTGCCAGCACGTTTGATAATTCGTTCATGACCGCCCAAGAGAAGAACGCCTTTTTTGCGAGAATCTGGCAGGACCGCTTCCTGAAATTGATTGACTAA
>SRR1151252_01291 alpha/beta hydrolase
ATGCACCGTCGTACCGTTTCGATCGTGGGCGCCCTGATCATCGCCGTCATCGCGATCATTTCATTCAACGCCTGGCACCGGGCCCAGGCCGCCAAGCAGTTCGTTCATTCCAATATCCCAACCATCTTCGTCCACGGCTGGGGCAGCAGCGCCCACGCCGAGGAGAAGATGGCCAACGCCGCCAAGCGCGCCGGGGTCACCAACACCATCGTCCGGGCCAACGTCAGCCGCCAGGGGAAGGTCACCTTCAACAAGACCATCCCCGCCCACGCGATCAACCCGATCGTCGAGGTCAACCTGGCCGACAACAAGCTTAGTGGCTACGAAAACGACTACCCAACTGGCTACAAGCATGGTGCCACCTACGTCAAAAACGTCGTCCTGGCCCTCGAACGCCAGCATCACTACCGGGCGATCAACCTGGTTGGCCACTCGATGGGGAACCTGGAGATCATCAACTATATCAATGACAACACCGGTAACCGCAAGCTGCCCCGGGTCGACCACCTCGTCGCCATTGCCGGCCACTACAACGGTCTGGTCGGTCAGAAGACTGCCAAGAGCCCAGTCAACCAGCAGACCGGGGACCCCGAGCGACAGGACGCAACCATCAAGCCGTTACTGACCCTACGCCAGACCTTTCCGACCAATACCCGGGTCTTAAACATCTACGGTGACAAGGAGGACGGATCGCACTCCGACGGGGACGTCCCCGTCAACTCCGCCAAGTCGCTGAAGTACATCATCAACGGCCGGGCCAAGTCCTACCGGGAAGTCGAGATCACGGGGGCCAACGCCCAGCACAGCAAGCTCCACAATAACGCCCAGGTCAACCGCGAGCTGATCAATTTCCTGTGGCGCAAGTAA
>SRR1151252_01292 membrane protein
ATGGCATACGGATACATCACAGAATTAAGTAAGCAGGTCCACCGCGACCACATTAAGTTCCACAACCGTTACAACACCACCCTCGCTGGTGACCTGTACTACGCCAAGGACATCGACAAACACCAGCAGCTGCCAGCCCTGATCGTCGGTGCCCCATACGGCGGGGTAAAGGAACAGGGCCCGGTCGTCTACGCTAACGAGCTCGCCCAGCGCGGCATCGTGGTTCTTACCTTCGACCAGGCTAATATGGGTGAATCTGCCGGGGAACCCCGCCACGTTTCGTCACCAGGTCTATTCGCGGAATCGTTCAGCGCCGCGGTCGACTACCTCGGCATCCAAGTACCCTTCGTTGACCGGGAGAAGATCGGCGTCATCGGGATCTGCGGTTCCGGTGGTTTCTCCCTGGCCGCCGCAGCTGTCGACCCGCGGATCAAGGCCATCGCCACGGCCTCGATGTACGACATCACCGACGTTCGGGGGATGATGAACCTGTCCAAGGAACAGATTGACAAGATGAAAAAGCAGCTGGCCGAACAACGGTGGAACGACTACGCCAACGGTCAGCCGGAATATAAGCCATCCTTCCCCACTAAGCCGTATCCGGACGTCGACGCCCTGCCGGATGTCGACCCGATCAGCAAGGAATGGCTGCGCTTCTATGCCGTACCCCGGGGCTTCCACCCAAACGCCCGCGGAAACTTCACAACTACCTCGAACATGGCCATGATGCAATTCTCCGCCCTGGACTACATTGACGAGATCACCCCACGACCGATCCTCTTCATCTACGGTGACCGGGCCCACTCCCGCGCCTTCTCCGAGCGGGCCTATGATCTGGCTAAGGAACCCAAGGAGAAGTTCATCGTCAAGGACTGTGAGCACATCGACCTCTACGACCGGGTCGACAAGATCACATTTGACAAGCTGGAAGGTTTCTTCAAGCAGAACCTGTAA
>SRR1151252_01293 acetyltransferase
ATGACAGCAAGCAAATACCTTGATCCCCAGCACATCGCTGAGCTGGCGGAGATCATTGCCCATAACCAACAGCTGGTCCAGGAGCTCAACACTGGTGTCCACTCAGCAGCCGATGTCCGGACGACGCTCGCCCAACTGACTCAGCGGGCCGTAGATCCATCGGTAGAGGTCCGCCTGCCCTTCTATACCGACTACGGCCGGAACATTCACTTCGGCAAACGGGTCTTCATTAATAACGGGGCAACATTCACCGACCTCGGTGGAATTCACCTGGCCGATGACGTCCTGATCGGACCCAACGCTACCCTGATCACCGTCAACCACCCGCTCGACCCCGCTCAGCGTCGGGGAAACGAGCTTAAGCCAGTCTATATCCGGCACAACGCATGGATTGGGGCCAACACCACCATCCTGCCCGGGGTCACAGTCGGTGAAAATGCCGTCGTCGCAGCCGGTGCGGTCGTCACCAGAAACGTCCCCGCCAACACCGTCGTGGCCGGGGTCCCCGCCCGGGTTATCAAGACCATTAAGCACAACAATCATTAG
>SRR1151252_01294 LysR family transcriptional regulator
ATGGACGTCCGAGTACTACGTTACTTTATTGAAATTGTGCGTGAGGGAAATATATCAAGTGCTGCCCACCGCCTTCATATCTCCCAGCCAGCGCTATCACGGCAGATCATGGACCTCGAGACCACCCTCGGTGTAACCCTGTTTGAACGGGGGCACCGCCAGATCAAGCTGACCCAGGAGGGCTATTACCTCTATGAGCGGGCCCAGGAGATCACGGCTCTGGTCGATAAGACCACCTACCACTTGCAGGCCAATGAGGTGGTTAGCGGTACCCTTGATATCGGGGCCGGGGAGAGCCGCGCGCTGTCTCCACTGATGGATGTCGTTGCCCAGATCCTTCGCGACTACCCAGAGGTAAAGGTCAACTTGGTGAGCGGGGATGCAACGATGATCCGTCGTCAGGTCGACCAGGGAAGTCTTGAGTTTGGGGTGGTGATGGGCCACGAGAACCTGTTGAACTATGATTCGTTGACCCTACCAGCCGTCAATCGGTGGGGGATCCTGTTATGTGCCGATGCACCCCTGGCGGCCAAGGAAGCGATTGAACCGCAAGACTTGCTGGGGCACCCCTTGTTGGCGTCGGCCCAGTCCCGGCTCCAGGATACCTTCCGCGATTGGGCCGGGGACCTGATCAACCAGTATAACTTTGTTGGCAACTACAACCTTATTTATAATGCTGAGCTCCTGGTTAAGACCGGCGCCTGCCTGGCCCTGGCCTACGACGGGATTGCCAACCTCTATGACCAGGACTTGGTCTTTCGGCCCCTGACCCCGGCGGTGACGGATACCAACATCCTAATCTGGAATAAGGACCGCCACCTCCCCAACGTCGGTCAGCTCTTCCTTCAGCTACTCCGAGAGCGGATCAGCACGGATAAATAA
>SRR1151252_01295 phenolic acid decarboxylase padC
ATGACCGAAAAACAATTCGAGACCCTCGACGACTTCTTAGGGACCCACTTCATTTACACCTATGACAACGGCTGGGAGTATGAATGGTACGCCAAGAATGACCACACCGTTGACTACCGGATTCACGGCGGGATGGTTGCCGGCCGCTGGGTCAAGGATCAGGAGGCTAACATTGTGATGTTGACGCCGGGCATCTACAAGGTGGCCTGGACGGAACCAACGGGTACTGACGTGGCGCTGGACTTCGTGCCGAACGAGAAGAAACTCAACGGGACGATCTTCTTCCCAGCTTGGGTCAAGCAACACCCCGAGATCACCGTCACCTTTCAGAATGAGCACATCGACCGGATGCACGAAGCGCGGGAGAAGTACGATACCTACCCGAAGATGGTTGTGCCAGAATTTGCCCACATCACCTACATTGGAGATGCCGGTCAAAACAATGAGGATGTCATCGCCGAGGCCCCATATGATGGCATCACTGATGATATCCGGGCCGGCAAGTACTTTGATGAGAATTACCGGCGGATCAAGAAGTAA
>SRR1151252_01296 PadR family transcriptional regulator
ATGCCAAAACGACGAATACTACCCTTTATCATCCTCGGGATCGTCAGTAACCGTCCCCAAATTACGGGACGCGAGATCACGGCCGAGTTTAGCACCGAAATTGGGGACTTCTGGAAGGCCTCGCACAGTCAGATTTATCCGGAACTACGGCGGATGGTTGATGACCAGTGGTTGACGACCACCACGAGTCCGCAGAACGCCAAGGAGAAGTATTACCTGATCACCGCGACCGGACAGGAGATTCTGGATGAGTGGTTGGGCCGGGCGGTCGATGAGTTGCCCATCCACCAGGACCTCTTCTCGCTGAAACTATTCTTCATCAAAGACCCATTCGATCCGCGGATCCGTCAGCTGATTGCTACGCAGACGGCCCTCTTGCAGCAGAGTCTGACCCACTTACGTCAGCGCCAGCGAACGGTCTTTCCTGATGACCAGGCGATCACCCGCCACTACAGTCACTATCTGATTCTGGCTCGGGCCATCTCTCGGACCGCGGGCCAGCTTGCCTGGCTGAAGAATGTTGGGGATAATTTAAAATAA
>SRR1151252_01297 glutathione reductase
ATGAAGAACTACGATTACATCATCCTTGGGACCGGCCCCGCCGGCTACCGGCTTGCCCAACTACTCGCCAATACCGGTAAGTCCCTACTGGCAGTCGAGGGCGGTCTGTTCGGCGGCACCTGCCCGAACGTGGGCTGTGAACCCAAGATCTTCCTCTCCGGCGCTGTCCACACAGCCCGGGCCAGCCAGCAGTTGGTCGGCCGCGGCATCGCCCAACCAGCCCAACTCGACTGGGACCAGTTGATGGTCACCAAGAAGGCGCGGTTTGATTCCTGGCCAGCAGAGACAAAGGCAATCTACGAGAAGATGTGTGACGTAGCAGTTGGTTATGGTCAATTCGTCGACAGCCACACGATCGAGGTGGCCGGCCACCGTTATCACGGTGACAAGATCATCATCGCTACCGGTCACCGGCCCCACCGGCTCGCCATTCCCGGCAGCCAGTACGGGCACGACAGCAGTGACGTCCTTTTCCTCGCCCACCGGCCGGACCAGGCCGTCTTCATCGGCGGGGGCTACGTTGGCATTGAGCTGGCCACTTTCCTCGCCGCGGCGGGTACTAAGGTCGAGATTCTGATCCGTTCCGACCGGATTCTCCGTGGCTTCTATGCTAAGTATGCTCAGGCGATGGTCGACGCTATGGAACAACAAGGAGTTAAGTTCCATTTCCACACCAGTGCCACCAAGATCGAACCCCACGAGGGCAAGTACCTCGTCACCACCAACCAGGGCACCCAGCTGGCCACCGATTACGTGGTCGACGCTAGCGGCCGGGTGCCAAATACCGAAAAGCTCGACCTGCCGGCCGCGGGAATCACCTTCTCTAAGCACGGCGTCGACGTTGACGACCACCTCCAGACCAACGTCCCTGGGGTCTATGCGATCGGTGACATCACCAGTCAAAAGTTGCCAAAGCTGACCCCGGTAGCAGAGCTAGAGGCCAACTACCTCTACCACCAGTTTGAAAAGGGAGCAACCGCACCGGTCCACTACCCAACCATCGGCACCGCCGTCTTCGCCTTTCCGGAGATCGCTCAGGTGGGGATCAGCCCCGACCAGGCCGGCGGTGAATACCATATTGAGGAACGCAACCTCAGTGGCGGCAGCCTCTACGCCGGTCTGAACGAGCAGGAGGCCAAGCTGACCCTGGTCTATGATTCGACTGACCACCTAGTAGGGGCCAGTGAGATTGGGGCCAGTGCTGCCAATGATATCAATAACCTAGTTCCCGTCATCGGCCTGAAGATTAGCCGGACCGACTGGGAACGCCATGTCCTGCCAATCTATCCGGCCCTTGCCGACAAGGTAGCTGGCCTCCTTAAGAAGTAA
>SRR1151252_01298 hypothetical protein
ATGAAACACCTAACCTTTACTGATGACGCCAAGAAGCGAATCGCCAAGTACCTGAGTCCTGACAAGACGATCGTGCTGGACTTCGACGATGGGGTCGGTCCGTTCTCGGCAGTCGGCAACTGCAGCCTCGACGCCAACTACCGGCTGATCTTTGTTAAGAAGGGGATGGACCTACACGACTTCGATGAAAAGATTGAATCCAATATCGGTGACATCTACATCAAGAGTGAGATGTACGCCAACATCCAGTTTGAGGACCAGATGGAGGTGCGCTTCAACCCGAAGTATTTCACCCTGCCGCTGATGAGTCCGACTAAGGGTGTCCTGACTGAAAACCTGGAAGTGGTCGACCTCACCGACCCCGTTTCAACTGAATACACCGGCACCCATGACTGCTAA
>SRR1151252_01299 deaminase
ATGGAACGCGCACAGGTAATCATCCACATGTATGAGTCCATCGACGGCAAGATCGATGGTGACTGGGACGGTCTGCCGGGGGACAAGGCCTCCGGGGACTACTATGACGACATCCTCTTCAAGATCAGCAACACCAACGCTAATGGTACCAACACAATCGTGATGTATGCGGCGCCGGGAGATCCCGACCTCAGTCAGTATGATCCGGCGGGGATCGACTACCAGGACTGGATACCGGCCGGGATTTCAGCGGCTACCTGGGACGTCAGCTTTGACCGCCGCGGCCGGGCTGGTTGGGAGAAGAACTACTTCGACTATGCCGGTAAAAAGAGTCGGGCGATCGAGGTGGTCACCAAGCTGGCCGATCGGCGTTACCTGGCCTTCCTGCGGGCCATGGAGATTCCGTACCTGATCTGTGGGGATGACCAGATCGACTTTGCCAGTGCCCTGGTCAAGCTCAGGCAATATTTCGGTATCAAGAAGGTTGCCCTGGGCGGTGGCGCCCTGATAAACGGTGCCTTCCTGAAGGCCGGCCTGGTTGACGAGATTTCCCTGGTGATGGCCCCCTACATCAGCGGTGACACGAGCAAGAAGGGGACCTTTGACACCCGCCAGGTCTTCGTCAACCAGCGCTTCAAGGTTGTCCAGACCAAGCTACTGGGCGACGGCGGGATCCACCTGCTTTTCGCCAAGGACAATTGA
>SRR1151252_01300 cytochrome B5
ATGATGGCAGAGAAGACATTTACGAAGGATGAATTGGCAAAGTACAACGGTCAAGACGGTCAGCCAGCCTACGTGGCCATCAAAGGCGTGGTCTACGACGTCTCCGGTAAGGCAGCCTGGCAGGGTGGCAAGCACCACGGCAACCTGGCCGGCCAGGATCTGACCGACGTGCTGTACAACAAGTCGCCCCATGGTGACCGGGTTTTGCAGGGCCTGCCGGTGGTCGGTAAGCTTACCGATTAG
>SRR1151252_01301 major facilitator superfamily transporter
ATGGAAAAGAAAAGCTTATTCAAGAACCCCTTCTACCGGTTCGATTCGTTAAACATCCTCCTCTTCTTCACCGCCTGGGGAATCTGGTGGTCATTCTTCCAGATCTGGCTGACTAACACCCTGCACTTCTCCGGTGAACAGGTTGGGACAATCTACTCCTTTAACTCCGCTATCACCCTGGTCCTGATGTTCGTCTACGGAGCTATCCAGGACCGGCTCGGCCTCAAGCGGCACCTCCTGATCTTCTGTGCCGTAATGGAAATGCTGCTCGGCCCATTCTTCACCTGGCTCTACGCCCCACTCCTCCACAGTAACTTCTACCTTGGGACCTTCCTCGGTTCCCTCTACCTGTCCTTTGCCTTCCTGGCCGCCTCACCAACCTTCGAAGCGGTCACGGAACGAATCAGCCGGCGCTACCGCTTTGAATACGGCCAGGCCCGGTCATGGGGGTCCTTCGGGTACGCGGTTTCCGCCTTACTCGCCGGTTTTCTCTTCACGATCAGTCCAAACCTGGTCTTCTGGCTCTCATCGGCCATCGCCCTCCTGCTCTTCTTGCTGCTGGTATTCGTCCACCCCGAGAAGAACCAAGAGATGATCGACCTCTACGAAAACAAACTCGAAAACGCCAAGGAAAGCTCCACCGCCTCCCTCAAGGAAATCTTCGGGGTATTCAAGATGAAGGCTCTCTGGCAGATCATCATCTACATCATCTTCTCCTGGACCTTCTACACCGTCTTCGACCAGCAGATGTTCCCGCAGTTCTTCACCCAATTCTTTGCCACCAAGACCCTTGGCCAGCAGATGTACGGGGTGCTGAACTCCGTCGAGGTCTTCTTGGAAGCCATCATGATGGCCTGTGTCCCATGGCTGATGAAGAAGATCGGGGTCCGCAAGACCCTCTTGGTCGGGATCACGATCATGGTTATCCGGATCGGGGGCTGTGGCCTGGTCACTAACCCGCTCGGCGTCTCCTGCATCAAGCTGCTGCACGCCCCGGAAACGGCCTGCTTCGCCCTCGGCCTCTTCCGTTACTTCACCCTGCACTTTGATACCAAGGTCTCTGCCACCCTTTACATGGTCGGCTACCAGATTGCCGCCCAGGTCGGGCAGATCATCTTCTCCACGCCGCTCGGTGACCTGCGGGACCACATCGGTTACAGCCACACCTTCCTGGTCATCTCTGGGATCACACTGATCGCCGGGATCTACGCTACCTTCATCCTGAAGAAGGATAACGTGGACGTCAACGGTCAGCCGCTAAGTCGGGATTAA
>SRR1151252_01302 sucrose-6-phosphate hydrolase
TTGCGTCAAGTCAACGAATCACGGGTGGTAAAAGTCACTAACACTCGTTACCGCGAACACTACCATATCCAGACACCGGCGGGTTGGTTAAACGATCCCAACGGTCTCTGCTTCTTCAAGGGCTACTACCACGTTTTTTACCAGTTTCACCCCTATTCCGCCGAATGGGGCCCGATGCACTGGGGTCACGTCCGTAGTAAAGATTTAGTCCATTGGGAAAATTTACCAGTTGCCCTGGTTCCTGGTGACCCCGAAGACTCCGGCGGCTGTTTCTCCGGGTCAGCAATCGTCCGGGGAAACCGGCTCTACCTAATCTACACCGGCCACCACTACTACGACGATGATAATCAGGACCACTTCTGGGAGAACCAGAACGTGGCCTACAGTGATGACGGAATCCACTTTACCAAGTACACGGGTAACCCCGTGATCGAAGCGCCGAAGGACAACAGTCAGGACTTCCGAGATCCCAAGGTCTGGGAACACGACGGTCAGTACTACCTGGTCCTCGGCAGTCGGGAGCAGGCCAATAACCGTGCCCGGATCCTCCTCTACCAATCTGACGACCTGCTGAACTGGCAGTACCGCGGGCCGATCACCGAATCGCGAAGCATCGAGTTGGAGGGTTCAATGTGGGAGTGCCCCGATCTCTTCCGTCTCAACGGTCAAGACATCATCGCCTGCTTGCCGATGGGGATCCAGCCCCAGCGGCATCGCTTCCTCAACCTGAGCCAGGCAGCGTACTTCATCGGTCAACTAGACTATAATCAGGCCCACTTCAGCCATTACGACCTCCACTTACTGGACTACGGGCATAACTTCTACGCACCCCAATCCTTTTTGACCCCGGATGGCCGCCGGATTCAGTTCGGTTGGTTCAGTTCCTTTGACAACCCGATGCCGGAACAGGCAGATGGTTGGGCTGGGGCCCTGACTCTGCCACGTGAACTGGTAATGCACGGTGACCGGCTTGGTGCCATCCCCGCTCAGGAGACAACCCAGTTACGGACTGGTGAGGTCCTTAATACTTCAGCAATTATTCATTCACCACACCGGTTCACCGTGACTGACCCCCAGCACACCGAATGGGACCTGACCTTCGACCTGACTGGTTATGATGGTCAGGTCAGTTGGCAGCTGGCCAATACCGACCAGGTCCTGATCAGCCTCAGCTATGACCAAGGATCTGGTGAGATCACAGTCCACCAGCACGGCCAGGCCAGTGACCGCTACGCCACGATCGGCCACGTCGGCCAGCTGCGGGCCCGGATCTTTGTTGACACCAGCTCGGTTGAGATCTTCATCAACGACGGGGCGGCTACCTTCACCGAACGCTATTACACTGACGATCAGCCGGTCACGACCACCCTGGCCGCCAGCCGACCAACCGCTACCGCCATCAAAGCTTACACTCTTGACATGAAAGGATAA
>SRR1151252_01303 5-methyltetrahydropteroyltriglutamate-- homocysteine methyltransferase
ATGACTACATTCACACCACGGACCGTTTCCCCGTTTCGCTATGACGTTGTTGGCTCATTTCTCCGTCCCCAGGAATTGAAGACGGCCCGCCAGCGATTTGCCGCGGGACAGAGCAGCAAGGACGACCTCACCGCCGTTGAAGATCGCCTGATCGTCGACCTGATTCATAAGGAGGAGGCTGCGGGGCTTAAGGCGGTGACTGACGGTGAATTCCGGCGTAGCTACTGGCACCTCGACTTCTTCTGGGGCCTGCAGGGGACCGAACACGTTAACCTCGAACACGGCTACTTCTTCCACGATGAGGAGACTCGCAACGACTCTGTCCAGCTGACCGGCAAGCTCAGCGGTGAGAACCACCCCTTCGTCAACGCCTTCAAGTTTGTCCGGGACCACGTCAGCACCGGCACCCAGGTCAAGCAGACGATTCCTGCCCCAGCCCAGTTTCTAGAGGAGTTTCTCCGTCCAGAAAACCAAGTCAACCTCAAGAAATTCTATCCGGACGTGGCCGACTTCGACCATGACGTCGCGGCCGCCTACCACCAGGTCATCGAGGACCTCTACGCCGCCGGTTGTCGAACCCTTCAGTTCGACGACTGTACTTGGGGGATTTCGGTGAACAACTTCGCCAACCTCAAGAAGAAGGACCCCCACGCCGACACCTCCCAGTTGGTCGCCCTCCAGGAGCGCTTCCTCAAGGTCAACAATGCCGCCATCGCGGATCTGCCGGATGACCTCACCGTCAACACCCACGTTTGCCGGGGGAACTACCACTCTACCTGGGCCGCGGCGGGTGGCTACGGTTCCGTCGCCGACACCCTCTTCGCTCAGGAGAACGTCAAGGCCTTCTACCTGGAATATGATTCCGACCGTGCCGGGGGCTTCGAACCGCTGGCCAAGGTACCGGACGAAAAGTACGTGGTTCTCGGTCTGGTAACCTCCAAGACCGGTGAACTGGAGGATAAACAAACGATCATCGACCGGATCCACGAGGCGGCCAAGTATCACCCGCTCGATCACCTCTGCCTGAGCCCCCAGTGTGGTTTTGCTTCTACTGAGGAAGGAAACATTCTGACAGAAGACCAACAGTGGGCCAAGGTTGCCCTGGTGAAGGAGATCGCCCACGAGGTCTGGGGCTAA
>SRR1151252_01304 putative NAD(P)H-flavin oxidoreductase
ATGAACAAGGAAGCAATTCGTCAGCAGATCGTAGACACCGCCAACCGGCGCTACGCCACCAAAAAGTATGATCCGCATAAGCATATTGACCCCGCCGACTGGCAGACGATTCTGGAGGCCGGCCGCCTGTCGCCGAGTTCGTTTGGCTACGAACCCTGGAAGTTCATCCTGATCAACTCGCCGCAAGTCAAGGAAGACATCCGCCCCTTTGCCTGGGGCGTGGCCAACAGCCTGAACGGAGCCGACAAGCTCCTCTTGATCCTGGCCCGGACCGACGTGACCTACGACAGTGACTACGTGCGCGGCCTGGTCGAGGGTCTCCACCACCACCAATTCTCACCAGATTCTAAGGCTTCCCAGAGTTTCAAACACTTTCAGGAGCGTGACATGGCGATCAATAACGACCGCGAACGCTTCGACTGGGCCAGCAAGCAGACCTACATCGCCATGGCCAACATGATGACCGCCGCGGCAGAACTTGACATCGACTCCTGCCCACTGGAGGGCTTCAACTACCAGAAGATGGACGACTACCTAACTACTCACGGCATCATCGATCCAAAGCATTGGCGGGCCTCGGTTATGGTCAGTTTCGGCTACCGCGACCAACCGATTAAGCCTAAGGTTCGTCAACCCCTCGATCAAATTTATGAGGAATTGAATTAG
>SRR1151252_01305 dipeptidase
ATGTCACGATTCAGAAACTCTGCATGCACGTCAATCATGGTCGGTAAGAAGGCCTCGCTAGATGGTTCCACCTTCATCTCCCGAAACGAAGACCGGGTCATCGCCATCGAGCCCAAGCGCTTCTTAGTCCAGCCCGCCGTCCACGACCGACACGAAACCTACGTCTCCGCCTACAATAAGCTAACCGTTCCCCTGCCGGAGAGTGGGATGCGCTATACCGCTACCCCATCTATTGACCAGAGCGCCGGTCCCAACGAAGAAGACGGCTTCAACGCGGCCAACGTTGGTGAGAGTGCCACCGAGAGTGTTTACGCTAACGACCGGGTTCTCGCCTACGACCCCTACATTAAGAACGGCCTGGCCGAGGATTCGATGACCACCCTAGTCCTCCCCTACATCCACTCCGCCCGGGAAGGCGTTGAACGCCTGGGACAACTGGTCGCCGAGTACGGTTCTGCCGAGGGGAACGGGGTCCAGTTCAATGATCAAGACGAGGTCTGGTACATGGAGATCGCCACCGGTCACCACTGGGTGGCAGTCCGGATCCCCGACGATTGCTACGCGGTGGCTGCCAACCAGATTGCCATCGAGCAGATCGACTTCAACGATCCAGATAACTACATGTGGTCCGACGGCATCCGTGAATTTGTCAACGACCACCAGCTCAACCCGGACGATGACCAGTGGAACTTCCGCCACATCTTCGGTACCAACACCAAGCTGGACCACCACTACAATACCCCGCGGGTCTGGTTCGCCCAGCGCTACCTGAGCCCAGTTGCGGCCGCTGATCAGACACCAGAGTCCCCCGACATGCCATTCATCCGCCAGCCGGAACGCAAGATTGCAGTCGAGGACATCCAGTACCTGCTCAAGTCCCACTTCAACGAGACCAAGTTTGACCCGCTGGGCGACAGCAGTGAACACGACAAGAAGGTCTACCGGCCGATCGCCCTGTCGCGGACGGCTCAGTCCCACATTCTGCAGGTGCGCAACAACGTCAAGCCGGAGCAGGCGGCCATCCAGTGGATCGAATTCGGCCTACCGAGTTTCTGTGCCTACACACCGTTCTTCGCCAATGTCGACGATACCGACGTCTCATACCGGAAGTTCCCGGCTAATATGAAACTTACGAACGCATACTGGCTGAACGAGGCCCTCGCTATGGTTGTGGAGAGCCACTACCGTGAGTTCTACGACCAGGACGAGGCCTTCCAAAAGGACCTCAACGAGTGGGCCCGGCGCAAGATTGCGGCGGTTGATGCCAAGGCCAGCCAGCTGGATGGTGCCCAGCTGACCACCTACCTGACCGGCCAGAACCACAAGATCGCTAAGCACTACAATAAGAAGGCCAAGCGGCTCCTCTTCGATCTGATGACCCAGGGAGCGGAGTTCTCCAAGCTGACCTTCAAAATGGATCCCAACCTCTAA
>SRR1151252_01306 amino acid permease
ATGAAAAATAATCCGCAGCTCAAAAAAACCGAACACGAGAAGACCCTCGGCCTCTTTGATCTGGCCGTCCTCGGGATCGGGGCGATCATCGGAACCGGGATCCTGGTTCTGACCGGGATCGTTGCCGCCGAGGATTCCGGACCGGCAATCGTCTTTTCCTTTCTGATCGCCGCCCTGGCCAGTGGCCTGATCGGACTCTGCTACTCCGAGTTAACCACCAGCCTGCCCAATTCCGGCAGTGCCTTCTTCTACGCCTGGGTCTCCATCGGTAAATTTGTCGCCTTCCTGGCCGGCTGGACACTGATCGGGGTCTATATCACCACCACGGCGACCGTCGCCAACGGCTGGACCGGCTACGTCCAGTCCTTTTTGGAGGTGCTAGGCGTCAAGCTCCCCCACCAGCTCCTGATGAACCCGTCGGCAGGGGGGATCGTCAACCTGCCGGCCGTTTTAATGATCCTGCTGATGACCATCATTCTCACCCGGGGAACCAGTGAGAGTAAGCTAATCAACAACTTCCTGGTCGGGGTCAAGATCTTCATCATCCTCCTCTTCATCGTTGTCAGTGTCCAACACGTCCAGCCAAGTAACTGGCACCCCTTCCTCCCGTACGGCTTCAAGGGGATCTTCACTGGGGCCTCGGCCGTCTTTTTCTCCTTCCTCGGCTTCGATGCCCTCGCCACCTCCGCCGAGGATGCCAAGGATGTCGACAAAAATATTCCCCGGGCAATAATCCTGTGCCTGGTAATTTCGACCACCCTCTACATCCTAGTCAGCCTGGTCATGACCGGGGGCGTTTCCTACACCAAGCTGAACGTCTCCGAGGCGATGTCTTATGTTCTGATTGTCAAGGGTCACACCTACGTCGCCGAGGTGGTCTCCCTGGGGGCCGTCCTCGGAATCATGGCGGTGGTCTTCGCCTTTATCTATGCCGGATCTAATATTCTCAAGTCAATGAGCCGAAGTGCCTTCCTGCCCCAGGGACTGGCCCGGGTCAATGCCAAGACTCACAGTCCCAACCGGGCAATCTGGCTGGTTGGAATCCTCGCGGCCATCCTCGCCGGCGAGTTTGATCTTCACTACCTGGCCCTGATCGCCAACATCGGGTCCCTAATGGTCTTTGCCCTGATCTCACTGATCGTAATCATCCTCCGTTACCGTTATCCGGAGCTGAAACGGCCATTCAAGGTGCCGTTTGGTAAGACAATCCCCGTCCTATCGATCGTCATTTGCATCGTTCTCCTGGTCAGTATCTCCCTGACGGCTTGGCTGACCTACCTGGCCTGGATCGGGGTGGGACTACTCATCTACTTTTCCTACTCCCTCCGCCACGCCGACGAATTTAATTTTACAGAAGAATAA
>SRR1151252_01307 nucleotide pyrophosphatase
ATGATGCCTAGAAATAAACTAGTTGTTATCTCCCTGGATTCTCTTGGCTTCCGGGACCTGGATGAGCTGGCCTACCTGGTGCCGCACATCAGTCAAATGATGAAGCGGGGGACCTGGGTCAAGCGGGTCCGTGGGATCTTCCCGACACTGACCTACCCGTCCCATACCTCGATCATCACGGGGCAGTATCCGGCAGTTCACGGGATCGTCAACAACACCAAGCTCCAACCCCAACGGCTTTCACCCGACTGGTATTGGTACCGTAAGGATGTCCAGGCAACGCCCCTATACGACGTTGCCCACGACGCCGGGTTGACGACGGCGGCCTTCCTCTGGCCGGTCACCGCGGGCAGCCAGATCGACTACAACTTGGCCGAGATCTTCCCCAACCGGATTTGGACCAACCAGGTGCTGGTCTCCCTGAAGGCCAGTTCACCACTCTTCCTCCTACAGATGAACCATCGTTACGGCTACCTGCGGCACGGGATCAAGCAACCCTGGTTGGATGACTTTATCACGGCCTGCGCGGTTGATACCCTGAAAAATAAGCAGCCCGACCTGACCCTGGTCCACCTGGTCGACATGGATAGTATGCGTCACCGGTACGGGGTCCGGTCTGCCCAGGCCCAACACGCCCTCCAGCGACTTGACCGGCGGGTTGCTCAGCTTGTCCAGGCCACCATGGATGCTGGGACCTATGACCACACCAATTTTGTCCTGCTTGGTGACCACTACCAGATCAACGTGCAGAGGATGATCCACCTCAACATGCTCTTTGTAAAGCAGGGGTGGTTAACACCGCTGGCCGGGAAGACAACCTACCGTAATGACTGGCGGGTGACGGCCAAGACCTGTGACGGTGAGACCTACATCTATACCCGGGGCTACGTCAAGACCGGGCGGCTCAAACAGCTGATCGCCGGTGTCGAAGGGGTTGAACACATCTATGACGGTGCTGAAGCTGTCAAGCTGGGGGCCGACCCACGGTGCACCTTCCTAGTCGAGGCTAAGCCGGGGTACTACTTCACCGACGAGGTCAACCGGCCCGCGGTAGTCGAGGATGTTGACCCGGACTCACTGGGGACCCATGACCGCTACCAGGGGGTTCATGGCTATGGGCCAAGCCAGCCAGGCTACTTCACCACGGCGGTATTTGCCGGTCCGGACATCAACCAAGGGACGACCGTCGCCGGTGCCCACCTGGTCGATGAGGGACCAACCTTTGCCCAATTGCTGGGCTTACACTATCCAGCCCCGACGGCCGGGCAGCCGATTCCCGGCGTTGTTAGAAAGTGA
>SRR1151252_01308 major facilitator superfamily transporter
GTGCGAATCAATAAGCAACAATGGCAATGGATATTCTACGACTGGGCCAACTCCGGCTACGGAATCCTAGTTGTGACCGCGGTCCTGCCCGTCTACTTTAAGGCCGTGGCCGAGCAGGCGGGGATCAGTGCGGCTAACTCGACGGCCTATTGGGGCCTATGCTAA
>SRR1151252_01309 major facilitator superfamily transporter
GTGCGGCTAACTCGACGGCCTATTGGGGCCTATGCTAACAGTTTCGGCACCCTGGTGGTCTCGCTGCTGGCCCCACTCCTGGGTGCCTTGGCTGATTACCCCAACGCCAAGCGCCGGTGGTTGAACGTCTTCACCTGGCCAGCAATCATCCTGACTCTTGGCCTGGCCCTCCTGCCGGCCCAGCAGTGGCAATGGTTGCTCTTTCTGTACGTCCTGACGATCATCGGCTACTCGGGCGGCAACCTCTTCTACGATAGCTTCTTGACCGACGTGGCCCCGGATGGCCAGATGGACCTGGTTTCTTCGGCCGGCTACGGGATGGGTTACCTTGGTGGCGTGATTGCCTTCATCGTCTTCCTGGCGGCCCAGCTGACTCATGGTTTCAACGGGCGCCTGTCAGCCTATGGGATCGCTAAGTTCAGCTTCATTATCGCCGCTATCTGGTGGGTGATCTTCGGCTGGCCACTGCTGGCCCACGGCCGCCAGCGTTACAGCGTCGATGCGGTGGCTAACCCGTTGCAGGATAGCTTTCATCGCTTGGCCCAGACCTTCCACCATATCCGCCGTTATCGGCAGATCACCTGGTTTTTGGTTGCCTACTTCTTCTACATCGACGGGGTCGACACGATCTTCACGATGGCCACCGCGATCGGTAAGGACATGGGGGTCGAAACGACGATGCTGATGATGGTTCTGCTAGTCGTCCAGCTGATTGCCTTCCCGTTCTCCTTGCTCTATGGCTGGCTGGCGAAGAAGACCTCCAACCGGACCGCCATCCTGGTGGGTATCATCGTCTACGTCATTATCTGTCTCGATGCCCTGCGCCTGACCACGCTAACCGATTTCTGGATTCTGGCCATCCTGGTGGGGACCAGTCAGGGCGGCCTACAGGCGTTAAGCCGGTCCTACTTTGGTCAGCTAATCCCCAAGGACTCCAGCAGTGAGTTCTTCGGCTTCTACAATATCCTGGGGAAGTTCTCCGCGATTCTGGGGCCGGTGGTTGTCGGCCTGGTGACCCAGTGGACGGGACACTCGACGATTGGGGCGGCCTCACTGAGCAGATCGGTCTGA
>SRR1151252_01310 hypothetical protein
ATGACCAAGATTGATGAGAACTTCATGATTGATGTGCTAAACATTGTCGACATTATCCCCCTGGGCCGGGTGGCCACCTACGGACAGATTGCCCGGTTGATCGGGCGGCCTCGCAACGCCCGCCTGGTGGGGAAGGCTCTCGGCAAGTCCGGCGCCTACGGGAAACACCCCTGTCACCGGGTCGTAACCGCTACTGGGCGCCTGGTTCCGGGCTGGATCGACCAGGGACCGATGCTGGCGGCCGAGGGGATTCCCTTCAAGGACGCCAGTCACGTTGACATCAAGCGGTGCCAGTGGCAGGGTATTTAA
>SRR1151252_01311 RelB/DinJ family addiction module antitoxin
ATGGCACAGATTAACATTAAGGTCGACGACCAATTGAAGGACGATGTTAGCAAGATTTTCGCTGAGATGGGGCTGGACCTCACCACGGGGATTAAGATTTACCTCAAGCGGGTCCAGCAGGATAGACGGATTCCGTTCGCAATCACGGGAACGCAAGACGTGGACGAAGTTGCCCAGCAGTACCGGGCGGGTAACCCTGAGGTGGTGAGCCGGCTGAACAAGCTGCTGTCCGCACTGGCCGGGCCGGACAACGGCGCCACCGGAATCGGCGGCAGTGTCTTAAAAGCCACGAGCCGCCAGAAGAAGGAGCAACCCGGCGGTATCGGTCAGGGAATCCTTAACAATACCCACGACTAA
>SRR1151252_01312 threonyl-tRNA synthetase
ATGGCTCAAGTCGCAGTTATGTCACCTGATGGATCCGTTAAGAAGATCGACCGGGACTCAGAAGAAGGTTTACAAGCACTCCGTAAGTTGTCCGCCTTGATGCTCAAGGCCGCCTTACAACAAGAATTTAAGGGAATTCGCCTCGGTGAAGTCGTTGCGGACGAAGACGGTTTCCACGTTGATTCCGACAAGGACAACCAACAAGTTTCCGCCGACGAATTACCGGCCTTGGAGGATGTCATCAAGGGGATGGCCAAGGACGACGTCAAGGTTGAGTTTGCCGAAATGGCCGTTGACGACGCCATGGCTGCTGTCAAGGACGACCAGTTCTCCACTGAACTGATCAACGAAAACGCCAAGGACGGCAAGGTTGCCATGTACAAGCTTGGTGACTCCATGGCCATTGCCGACCAGGACATCCTGGTTTACGGTGACGTGGTCAAGAACCTCAAGCTCCTGTCCGTTGCCGGTGCCTACTGGAAGGGCATGTCATCCAACCCAATGCTCCAGCGGATCTACGGGACCGTCTTCTACAAGAAGGACGCCCTGGCCGAAGATCTGAAGAAGCGTCAGGAAGCCCGCGAGCGTGATCACCGGGTAATCGGTAACCAACTCGATCTTTTCTTCGTTGATCCAAAAGTTGGTGCCGGGCTGCCATACTGGATGCCAAAGGGGGCCACGATTCGGCGGACGATCGAACGTTACATCATCGACCGTGAAGTTGCCGACGACTACAAGCACGTCTACACCCCAGTCCTGATGAACCTGGATGCCTACAAGACTTCTGGTCACTGGGAACACTACCGTGACGACATGTTCCCACCAATGGACATGGGTGACGGTGAAATGCTGGAACTGCGGCCAATGAACTGCCCAAGCCACATCCAAGTTTACAAGCACCACATCCGTTCTTACCGTGACCTGCCACTGCGGATTGCTGAACTTGGGATGATGCACCGTTACGAAAAGTCTGGTGCCCTCTCCGGTCTGCAACGGGTTCGTGAAATGACCTTAAACGACGGTCACACCTTCGTGGCCCTCGAACAAATCCGGTCTGAATTCGCCAAGATCCTGAAGCTGATCATGTCCGTCTACAAGGACTTCGACATCACCGACTACAGCTTCCGGCTTTCCCTGCGTGACCCAAAGAACACTAAGAAGTACTACGCCAACGATGAGATGTGGGAGAAGTCCCAGACCCTGCTGAAGGCTGCCATGGATGACCTGAACCTCGACTACTACGAGGCCGAGGGTGAGGCCGCATTCTACGGTCCAAAGCTGGATATCCAAACTAAGACGGCCCTGGGCAACGACGAAACCATGTCCACCATCCAACTGGACTTCATGCTACCAGATCGTTTCGGCCTGACTTACGTTGGTAAGGACGGTAAGGAACACATGCCAGTCATGATCCACCGTGGGGTTGTCGGCACCATGGAACGGTTTGTGGCCTACCTGACTGAAATCTACAAGGGTGCCTTCCCAACCTGGTTAGCCCCTGAACAGGTTCACATCATCCCGGTCAGCGAGGATGCTCACGGTGAATACGCCGATGAACTTGCTAAGAAGATGAAGGCCGCCAACATCCGCGTCGTGGTTGACCACCGGAACGAAAAGATGGGTTACAAAATTCGTGAAGCCCAGACCCAGAAGGTTCCATACACCCTGGTTGTCGGTGACGACGAGCTGAAGAGCAATGGCGTCTCCGTCCGGAAGTACGGTGAGAAGGAACAAAACGAAATGAGCCAGGATGCCTTCATGGATGAAATCCTTGCCGACATCGCTTCCTACTCTCGTGAAAAGTAA
>SRR1151252_01313 hypothetical protein
TTGAACAACAACCAAGACAAGGATAAAAAGCCCCTGACCCGGGTCGAATTATACGACACTCCCAAACCGGGTGATAAAAAGAAGAAGCGGAAGTCCTCCATCTTCGATAATCTCAAGCGCCAGGAACAGAATAGCAAGCGACCACGCCCGAAAAAGGACAAAGCATACCATCCTGGCCAGAAGCACCAGAACCACCGAACATTTAAGCTCCTGTTGGGAATCCTGTTGGCGGTCCTCTTGGTGATGATCATCGTCTTCATGGTTAAGCAGCAGAACCCGGTCAACACGAGTGATGACAACACCACCACCGTTTCAACCAGTTCAAAGAAGAAGCGTCACAGTTCCAGTCACAAGCGTCACAAACACCACCGTTCCAGCAACGACAGTGACAACACCGATACCAGTGATACTTACTCCTACACGGTGCCAAGTAGCAACCACAGTAACCAACCAGCCCACCGGCAATCAACGGTGCCGGCTAACAATAACCAGCACACGGCCTCTAGCCAGCCGGCCCAGAGCAGCAGTCAGCAACCAGCTGCCAACAGCCAGTCCAATAACAACCAGCAACAGGAACACTCCAGCACCGCCCCAAGTCAGAGTACTGGTAGCAGCAACCAACCAGCTAGTCAGCCACAGCCCCAAGCAAACTCCCATAAATAA
>SRR1151252_01314 manganese transporter
GTGGATAACACAAAAAATCAGCACCGTAAGCATCACTTGATTGAGTATGCTAACGGTAAGTCTCTAGAAGAAATCAACGGTACCGTTGAAGTTCCTCATGGTAAAGGTTTCTGGCGGACATTATTCGCCTACTCTGGCCCTGGTGCATTAGTTGCCGTGGGTTACATGGATCCTGGTAACTGGGCTACTTCAATTACCGGTGGTCAAAGCTTCCAATACACCCTGATGACTACCATCTTGATCTCAAGTTTGATTGCGATGTTACTGCAATACATGGCGGCTAAACTCGGGATTGTGAGCCAAATGGACCTCGCTCAGGCAACACGGGCGCGGACCGGTAAAGCGTTAGGGGTTATTCTTTGGATCATGACCGAGTTAGCGATCATGGCGACCGATATCGCCGAAGTTATTGGTGCGGCGATTGCCTTGAACCTGCTGTTCCACATTCCGTTGATCCCATCAGTCTTCGTTACTGTTTTAGATGTTTTAATTCTGCTCTTATTGACGAAGATTGGGTTCCGGAAGATCGAAGCAATTGTTGCCTGCCTGATTCTGGTTATTCTGTTTGTCTTCGCATACCAGGTTGCCCTCTCCAAGCCGGACTGGGGTGCCGCATTCATGGGCCTGCTGCCTTCCACTAAGGCCATCGCCCAGCACCCTGAGATCGGTGGGATCACCCCATTGAGTGGTTCTCTGGGGATCATCGGGGCCACGGTTATGCCGCACAACCTGTACCTGCACTCCGCAATTTCACAAACGCGGAAGATCGACCACAACGACCTCGACAGCATTCGGCAGACCGTACGCTTCACGACTTGGGACTCCAACATCCAGTTATCCCTGGCCTTCGTTGTTAACGCCCTCTTGCTGATCATGGGGGTGGCCGTCTTCAAGTTCGGTGCCGTTAAGGATAGTTCCTTCTTCGGTCTCTACGATGCCCTGAACAACACCACTATGCTTTCCAACCCAATCCTGATTGCGGTTGCCAAGTCTGGTATTCTGTCCACCCTGTTTGCCGTTGCCCTGCTGGCTTCTGGTCAAAACTCAACTATCACTGGTACCCTGACCGGTCAGGTGATCATGGAAGGGTTCGTCCACATGAAGATGCCACTCTGGGCCCGGCGGCTGGTTACCCGGATTATCTCCGTCATCCCAGTTCTGGCCTGTGTAGCCATGACTTCCGGTGAATCCACAATCCAGCAACACACCGCCCTGAACCTCCTGATGGAAGACTCACAGGTCTTCCTGGCCTTCGCCCTGCCGTTCTCCATGCTACCACTGCTGATGATGACCAACAGTGAAGTCGAGATGGGTGAATTCAAGAACCGGATGTGGGTCAAGGCCTGCGGTTGGCTTTCCGTCATCGCATTGACCTTCCTGAACCTCTACAACCTGCCAGCAACCTACGAAGGCTTTGGTATCTGGTCTAAGGGTGCGTCCGATGCCTTGGCCTACCTGACGATCGTCGTCATTCTGCTTCTATTGGCCTGGAGCTGCATTGAACTCTACCGTGGTGATAAGCGCTTTGCTGCAGAAGGCAAGGGCTTTGGCCAACAGGAAGAAAAGATGCAAGACTCTGCTAAGGACTAA
>SRR1151252_01315 mannosyl-glycoprotein endo-beta-N-acetylglucosamidase
ATGAAGAAACGCCTATCAATAATCATTGGAATAGTCCTTGGGATTGTCCTGGTTGTTGCCCTGGTACTCGGTGCCGTCGAGTTTAACCACAAGCCGGTTTCGCACCACCGTGAGACCCACTCGGCCAAGATCACCGTCAACCAGTTCATCAAGCAGGTGGCCCCGGCAGCCCAGCGGGAGCAGAAGAAGTACCATATTTCCGCCAGCATCACCATTGCCCAGGCCGGGACCGAGTCGAACTGGGGCCGCAGCAAGCTGGCCTACAAGTATAACAACCTTTTCGGTATCAAGGCCAACTCCAAGCACGACCGGGTGCGGATGTATACGACCGAGAACATCAACGGCAAGAACAAGCAGGTCAAGCAGTACTTCCAGGTCTATGACAGTTGGGATGACTCGATCAAATCCCACACCTACCTGATTGTGCGGGGGACGGCCGACGATCACGATCGCTTCCGTGGGGTCCAGAAGGCCAAAAACTACCGGCAAGCGGCCTATGAACTGCAGAAGAACGGTTATGCAACCGACCCAAACTATGCCGACGAATTGATCTACGCCATTCAGAAGTTCCACCTCGACAAGTATGATAAATAA
>SRR1151252_01316 C4-dicarboxylate anaerobic carrier
ATGGATGCAACGGTTGAGCAGCCAAAGAAAAAATGGAAGCTGAAGATGCCCGGCGCCTTCACGATTCTGTTCTTCCTGACGGTAATTTCGGTATTTTTGACGTGGTTTGTGCCCGCCGGTTCCTATTCCAAGCTGACATACGGTCACAATGAATTGACCGTCACTCAGCCAAGTGGTAAGAAGTCGACCATGCCGGCCACCCAGGCCACGTTGAAGAAACTCAATGTTCAAATCGACATTGATCAGTTTAAGTCGGGAGCCATCAGTAAGCCGGTCTCAATCCCAGGGACCTACAAGCGCCTGAAGCAGCACCCTGCCAGCCTCTATTCGATCTTTACCAACATGGTCAATGGGACGATGCAGGCCGTTGACATCATGATCTTCATCTTCGTCCTTGGCGGCCTGATCGGAGTTGTTAAAGCTAGTGGGGCCTTTGAGTCTGGGCTGGAATCGTTAACAAAGAAGTCTAAGGGTAAAGAGTTTATCCTGGTCTTCATGGTTTCGGTCCTCCTGGCCTTCGGGGGAACGCTGTGTGGAATTGAGGAAGAGGCCGTGGCCTTCTACCCGATCCTGGCACCAGTCTTCATCGCAATGGGCTACGATTCAATTGTGGTTGTCGGGTCGATCTTCCTGGCCTCCTCGATTGGGACGACCTTCTCAATCATCAATCCCTTCCAAGTAGTCATCGCCTCTAACGCTGCTGGGACACAGTTCACCCAGGGGATGCCCGGCCGAATCGTCGGCTTTACGGTAGCCGTCATCTGCCTCCTCCTGTACCTCCACTGGTACGCCCGGAAGGTACAAAAGGGCCCCGCATCCTCATACACCTACGATGACAAAGCTAAGTTCGATGCAATGTGGTCAATGGATTCCACAGAGGAAAAGGATCTCCGCTTCACGATGAAGAAGAAGATCATCCTGATTCTCTTTGCGGCCTCCTTTATCATCATGATCTGGGGAGTAATGGCCAAGGGTTGGGCCTTCCCAGAAATGGCGTCATCATTCCTGTTGATCGCCGTCATCATCATGTTTCTGACCTGCTTTGACCCTAGGGATGGTCTGGGGGAATACCAAACGACTGAGGCCTTCTCCCAGGGAGCCGCAAGTCTGGTTGGGGTTTCCCTGATCATTGGTTTGGCCCGGGGAATCAACAATATTCTCAGCGATGGCTACATCTCCGATACCATCCTGTACGAATCATCCGAAATGGTTCGACACATGTCCGGTTCAGTCTTCATCATCATGATGATGCTCATCTTCTTCGTACTCGGCTTCATTGTGCCATCCTCATCTGGTCTGGCTGTGCTCGCCATGCCGATCATGGCCCCGCTGGCCGATACGGTCCACATTCCACGCTACATCGTTGTTACTGCCTATCAATTCGGTCAATACGCGATGCTGTTTCTGGCACCAACCGGACTGGTTATGGCTACCCTCCAAATGCTCGACATGAAGTACTCGCACTGGGTTCGCTTCGTTTGGCCGGTTGTTGTCTTTGTCCTTCTCTTCGGGGGCGGAATTCTAGTAACCGAGGTCCTGATGAACTAA
>SRR1151252_01317 two-component system sensor histidine kinase
ATGTTAAAAAACATCAGCTTCCTGCATTACCGTAAATATCAGCGGATCATCATTGCGGCAATTTGCGTAGCTTTGGCTTCTCAGGTGCAGTTCCCCTTCTTTACCCCGGGATTCATCGTGGCCCTGTCGGCACTGTTGTTACCAATTTTCCTGTACTTCAGCCAGGACTTTAACCCCCTGCAGTTAGGGTGTGCTATTGCGATTGCTTCACCAGTTTTTCGTGGTCTGATATTATTGTTGACGCATAATGCCACTCATGCGGTGACCTATACGATTGCTGATATCATTTATTTCATGTTGTATATGCTAATTTACTATTTGTTGTACTGGCGGTTGGTTTACCACAATGATGTCGCCCTCTTTCTCACGATTATCATCTGCGACTATGCCGCTAACCTGTTGGAGATTGGCTTTCTAACCAAATTTCACGGTTACACAATGTCCGTCTTGGCGATTGTTTTCACCGTGGCGCTGGTCCGGGCGACGATTGCCTCCCTCATCGCCTTTATCATTCACTACTTCCAATTACTGATTGTCAACAGTGAGGAACATGAGCGACAGTATTACCACTTCATCTGGGTGGCCTCAGCCGTTAAGAGTGAGGTCTACTTCATGCGGAAGACCATTACTGATATTGAGGAGGTCACAAAGAAGGCGTATGTTTTAAACGAACACCTTAAGAAAACGGGACAGGATGACGAACAGAAGATGGCTTACGCGATTGCCCAACACGTTCATGAAATCAAGCACTCTTATCAGGATGTCATCAAGGGCCTGGGGGACTACTTTAATGACCAGGATAATGTGCCAATGCAGATGGATGATATTTTAAGGATTGTGACCTCCTATACCCAAATGATTATCCGTAGCCGGCACCTGTCAATTAATCTTGTTGTTCATAATACCGTTGACTGTACTGTCCCAAAGCATTATTACCTGGTCACAATCATGTCAAACCTGATCTTAAACGGAATCGATGCGATTGGCAGCCGTCGTAACGGCGAAATCCTTATCCAGGTTAGCCATGAAGGACCCGACATTTGCTTGGCGGTCACTGACAATGGATCGGGTATTTCCCGGGAAATGATTCCCCTTATCTTTAAGCCGGGTTTCTCCACGAAGTTTGACCAGTCCGGAGATATTTACCGGGGCATTGGTCTTTCGAACGTTCAGACGATCGTTCAGGAACAGTTTGCCGGGCATATTACGGTTGATTCAACCCCGCAGGTTGGCACAATGTTTTTTGTGACGATGAATAAGCACCAGCTCACGAATAGTCAGGAGGTAACAACATGA
>SRR1151252_01318 chemotaxis protein CheY
ATGAAGTTCTATCTTGTTGACGATGAACAGTCAATTCTATACGTGTTACAGAATATTATTGAGCAGAACTTTGATGATGAGGTGGTGGGGATGAGCAGTGATCCCCAACAGGCGGTTAACGAGATCCAGCTTCGTGACGTTGATATTGTCCTGGTTGACCTCCTAATGCCGGAGATGTCCGGCATCGAGTTGATTCAAACGATCAAGAACGTCAAACCCCAGATCCGGTTTATCATGATCTCCAAGGTCCAGGATGGCGACATGCGGGCTAAGGCCTATCAGGCAGGGATTGAATTCTTTATCAGTAAACCCCTGAATATTATTGAGATTAAGTCGGTGATCAAGAAGGTTGAGCAAAACGTGCAGATGGCTGCCCAACTCTCTTCGATCTCAGCGATGGTCAACAAGTTCAATACACAGCCGGACCCCCAGTCGCAATCCGTGACGGACCAGGCCACAACAATCCTTAAGGCGCTAGGAATGTCCTCGGAGCGTGGAACCAGTGATATCTTGCATGTGGTCAAGCTCATGAAGATCCATCATTTGAACTATCGAAGCCTGGACCTAGTAAAAATTCTTGGGATTAGTAACCACGAGAAGAAGATTATGGAGCAACGGATGCGACGGGCAATCAAGGTAGGTCTGGTTAACCTAAGCAATCAATTGATTGATAATCCATATGATGAAGGACTGAGTAACCATGCCAATAACCTATTCGGCTATGAGAATGTCCATGCTCAAATGCTTCACCAGCAGGGAAAACAGCTCACTGGTGGTCGGATCACCCTGCAAAAGTTCATGGATGGCTTAATCGATGAAGAGTCATTCCATGATTAA
>SRR1151252_01319 branched-chain amino acid permease
ATGCAAGATCTCACATCACGAAAATTAACGTGGAAACAGTATCTCGTTGTCGCTTCGCTGCTGTTCGGCCTGTTCTTCGGTGCCGGGAACCTGATTTTCCCTCTGCACCTGGGCCAGCTTGCCGGTGCCCACTGGGGAACGGCCGTAGTTGGCTTCCTGGTCACCGGGGTCCTGCTCCCGCTGCTATCCGTCCTCGCCGTCGCCGTTACCCAGGCCGAGGGGGTCTATGATGTCGGTCGGCCGCTCGGTGCCGGATTTGCCTTGGTGTTCATGGCCCTGATCCACGCCACCATCGGTCCCCTCTTCGGGACACCACGGACCGCCACCGTCTCCTTCACGGTTGGGGTCGCACCGTTCCTGCCAAAGCAATACACGTCCGTCGCCCTATTTGTCTTCTCGGCCCTGTTTTTCCTGGCTGCCTTTGCCTTCTCCTACAAGGAAAACAACATCCTGGCCAACGTCGGTAAGGTCTTAAATCCGGTCTTCTTAGCCCTGCTCTTCCTGGTCTTCGTGGTCGCCTTCCCTAACCCGCTCGGTAACCCTGCCAGCGCACCGGTAACTACTGCTTACGCGCACCACGCTCTTTCCAACGGCTTCCTGGAAGGTTACAACACGATGGACGCCCTGGCCGGTCTGGCCTTTGGGGTTACCGTCGTCACCGCCGTTCGTTCCATGGGTCAGCGGCGGGCCAGCGATGTCTCCCGTGTCGTTGCCAAGTCCGGTGTCCTGGCCGTTAGCGCCATCGCCGTTATCTACGTTCTCCTGATCGTCCTCGGCGCCATGTCCCTCGGTCGTTTCAAGGTCTCCGCTGACGGTGGGGTTGCCTTCAACCAGTTGGTCAACGCCTATGCCGGGGCATTCGGTCAGGTTGTCCTCGCCTTCCTGCTGACGGTAACCTGCCTGACCACTGCGGTTGGTTTAGTGGCCGCCTTTGCCCAGGACTTCCACAAGCACTTCCCAAAGGTCAGTTACCACACCTGGTTGGCCCTTAGCTGCCTGGCCTCATTTTTGACCGCTAACTTCGGCCTCGACCAGATCATCGCCTGGTCAACCCCAATGTTGATGTTCCTCTACCCACTGTCAATGGTTCTGATCCTCTTATCCGTCACTTCCCCACTCTTCCACCGCGATGGTGTGGTCTACCTCTTCGTCGTCCTCTTCACGGTGGTTCCGGCCCTCGGTGACATGGTCGTCGCCTTCCCGGCCGTGGTCAGCCAAAGCCACTTTGGCCTGATGGTCGCCGCATGGCGGGCCCACCTGCCACTGGCCGCAATGGGACTGTCCTGGTTGGTTCCAGCCCTGGTCGGTGCAGTCGTTGGCCTGCTCGTTCATTGGTTCCGGCGGCAACGCTCCACAACAACATCAGCCGAACTTAATTAA
>SRR1151252_01320 hypothetical protein
ATGGAAATTTACGATTATCGGCAGGAACTTATCGACCTGCTTGAGAACACCGGTAGTGACCCGCGGAGTCTCCACCAGACCCTGCGCAGTCTCACCACGGTGGTCAACATTCTTAACCATTACAACAGTCGCTCCGGTGACGCTCACCGCAGTCATCATGAAAAGACCGGTCACCAGCGCTACCAGACCCACCAGCGCACTGAGCACCCGCTCTCCCCAGCCGCCCGGCGAACCCTCCACTCCCTGCTGACCGGTCCATCTGACCAGCCGAAGAAGCCGACGCGGACCAAGACCACACCAAAAGTATCAGCCGCCCCGGCACCCGAAGCCCCTAAACAGATCAGTGCTGAAGAACGCCTGGCCGCGGATAACCTCTACCTGGTCCACCGGAAGCTGAGCGGGGCCGAGATCAATCACCACTACTACTCAGAAGCAATCCTCCACCAGCTCCACTTCCCGCTGGAAGACGGCGACGTGGTCGAGCTTGACCCCCACCAGCTGGTCCGCGGTCTGCCAAGCATCCGGCGGGTCACCAGTGACCACCTCGATGACTACACCCCAACCAAAATTAAGGTAATCGAGTATGCCGAACTCCGGCCCGTTCCCGGCTCCGACGTTCTCCAGATTGCCAACACAATGAAGGGCGACTCCATCCTCGATCAGGCCCCGGCCAATACCATCGTTGTTGACCCATTCAAGTATCCGGGCCGCGACCTGAAAGCGGGCATGGTAATCGACTTTGCCTACTTCGACCACGGTAATGGTCTCAAGGACGCCAGCGCCGGTAGTATTCGCTGGATCCACGAGAAGCAGGATTACGACACCACCCGACAGCCAGCTAAACCGAAGACGGCCAAGAAAGTTGTCAACACCAAGCACGACTATGAGAAGAAGCTCGACTACGACCTCAAACAACGAACTGTCCTGGTCATCACCGGTGTTCGCGATAAGGTCCAGGGACTCAAGCCGGTGATCGCCAAGCACCACGGGGTCTTCCACGGCCTCGATGCCTCGGCTGAGGAGAAGGTCTCCAGCAGCAAGATCAAGCGAGAGATCCGTGACGCCGACTTCGTGATTGTCTGCATTGACGCCATCCACCACCGGATCAGTCAGTTGGCTAACCACCACGCTAAGCGCTATGAAAAACCGCTAGCCATCGCCAATGTCACCTCCAACACGGCGGTTGAACGGGCAGTGGCCCGGGCGCTCAACGGTGACCCAGCCTACGCGGCCTCTAGTGAGAAACTCGGCTAA
>SRR1151252_01321 phosphoesterase
ATGGCAAGACGAACGATAAAATTATTTTCCCATAATGACCTGGATGGCTTCGGCGCCCCATTGCTGTTGAAGGCCGTCCAGCCGGTGATGTTTGACGACACCGAGTTTGACATGACCAACTGCGGGGCCGGCCGGATCGACGACGAGTTTGCCCGCTGGATGCGGACTCCTGAGGCTAGCCGGTTCACCGACGTTTACATCATGGATATGACCCCCGACAGCGACTACACCTTCCAGCAGCTCAACGCCAACTTTGCCAACCACTGGCTGGTGTTTGACCACCATGAGAGTGAGGCTGCCCTGCGGAGTAAGTATGCTGCTAATAGTGTCACAGCGGCAGACCCGACTACCAACCCGAGCGCAACCAGCCTAGTTTGGGACTGGCTTCAGCAGCAACCGCACTTCGCCGACCTACCGAGCCAGCGTCAGGACGAATTAGCCTACCTGGTCGAGTTAATCCGGGCCTACGATACCTGGGACTGGCAGAATGATCCCGACATGGATGCGGCGGAACGGACAGCGGCCGATAACCTTGACCAGCTTTTCTGGTTCTACCCGCTCCAGGACTCATCCTCCTTCGTCGAGGGGGTGCTGGCGGCCGGCTGGCCTAAATACGAGAAGGCAAATCATCTCCTGATCCACACCCTGAACGAGCGGCGGGCTAAGTACCTGAAGAGCCACCTCAAGGACATGATTAAAACGACAATTGCCGGCCACCGGTTCGGGGTTGTTTACGCCGATGACTACAAGTCCGAGATCGCCCATGAGCTTTTGAAACAGCATCCGGACGTGGATGCTGCCCTGGTGGTTAGTCCAGTCAGTGTTTCGCTACGCAGCAACGGTAAGCTGGATGTTGCCAAGTTCGCGGAGAAGTACTTCAACGGCGGTGGTCATGCCGACGCGGCAGGGGGACGCCTGACGGTTAACCCGGTTCAGGTCGGAGAGCAGGCCATGATCGACGACCTGAATCAGACCGTTAAGAACCAGCAGGAGGAGAAACAGACCACGGAGAGTACCCTGGCCGACAACCTCGATCCCGCGGTGGCGGCGAAGATGGCGGCTCTGTTCAAGAAAAAAGACTAA
>SRR1151252_01322 membrane protein
ATGGATTACGGACTCGTCACAATCAAGTTTATCCTCGGTATGCTGTGCCTGATCCTGCAGATCAACATCCTCGGCAAGGGCAACCTAGCCCCGACCACGGCTATCGACCAGGTACAAAACTACGTCCTCGGTGGAATCATCGGTGGGATCATCTATAACAACGACATCACCGTCCTCCAATTCATCAGGGTCCTCCTGATCTGGACCCTGATCGTCTTCGTCGTAAAGTTCACCAAGGAGCACAACTACCTCGTCCAGAAGGTCGTCGACGGCCAGCCCCGCCTACTGATCCGTAACGGTCAGGTCCTGGTCGACAATTGTATCCGGGCCGGGATTTCGGCCAATGACCTGATGTTTAAGCTCCGCAGCCGGGGGATTTACGAGGTCAGTAAGGTCAAGAGCGGAATTCTCGAGCAAAATGGCCAGCTAGTCGTCATCGAAAACGATGAGGAAAACATCCGCTTCCCCCTGATCAACGATGATCGGATCAACCAGGACGTTTTGGAGCTGATCCACCACGATGAGGCCTGGGTGGAGCAGCAGGTCCGCCAGGCCGGTTATGCCGAGATCGGTGATATCTTCTTGGGGGAGTACATTCACGGCCAGGTTCACCTGGTTGCCTACCCAAAGCGTTAA
>SRR1151252_01323 hypothetical protein
ATGACCTTCTACACTGATCATTATCTTGCTAACCACCAACAGCTTAACTCACTGATCAACTACGCGGTGATTTTAGTCTTGCTCGTGCTCCTGGCTTTTACTCTGCTCTACTACTTCCGCCACCAATTGCAGACCAAGTACCGGGACCTGGGAATCATCATCTTCTTGCTTCTCCTGATCTTCAGCGGCCTCCAGGTGACCAACCTGGAGAAGAGTCAGGCCCAACACGCCCAGGCCACCCAGATGCGACCGTTCATCCAGGCCGTGGCCCGTGACCATCACCTAAAGCCTAGTCAGGTAGTAGTCAACTCGACGACCCTGACTGATGGGATCATTGTTCGTTTCAACAAGCAGGACTACCGGGTCAACTTCAGCCCGAGCGGGGACAACTACACCCTCACTCGGACCCGCGTGGTTGACCACCACGTCAACATTCAGGATTAG
>SRR1151252_01324 phosphoglycolate phosphatase haloacid dehalogenase hydrolase
ATGACAAAGAGAATGCAGAACTTTATTTTTGATATCGATGGCACCCTGATCGACACCCTCGATATGTACATGCCGGCGATGATTCAGACCCTCCGTAACCACGGCTACCAGGTGGCGCCCGAAGACGAAGAGGAGACGATGCACCGTCTCTTCGGAATCACCGGGGTCGACGCCCTGCGGATCTTCGGGGTCAAGGAGGACGAGATCGCCCCGATGGTCAAGGAATGGTTCGCCCTCTCATACCAGCGTGAGGACCGGGTCAAGATCCTGCCCGGTATCCCCGAGACCCTGCAGACACTGGCCGACGAGGGCAAGAACCTAGCGGTGGCTACGTCCAAACTCCAGTCCGAGTATGACCACTTTAAGCAGCAGTTTGCCTTTGCCAAGCTCTTTAACACCGTGATCACCTCTGACGACACCAAGAAGCACAAGCCAGATCCGGAGCCGATCCTGGCAGCAGTTGAGAAGATGGGGGCCAACCCGGCCACGTCGGTCTATGTCGGCGACACCATCAACGACCTCAAGGCGGCCAAGGCGGCGGGCGTCAAGTTTGCCGGGGCTCTCTACGGTTCTGCCAACCCGGATGCCATTAAAAACGCCGACTTTCCGTTGACTAGTCCAGCCGACCTGTTGAAGATTTAG
>SRR1151252_01325 cation-transporting ATPase
GTGATCTACATCCTGCTGGTCGCCACGGCCCTGACCATCATGATCGGCCACTACACCGACGCGATCGTCATCGCCGCCGTGGTGGTCCTGAACTCGCTGATCGGCTACTTCCAGGAGACCAGTGCCGCCAACGCCCTGGCCAAGATCAAGGAGATGTTGGCACCGCGGGCTACGGTCTACCGTGACAACAAGCGGCAGGATATCGACGCCGCTGACCTGGTGGTGGGCGACGTCGTCTTCCTCGAGGCTGGTGATAACGTGCCTGCCGACCTGCGAATTGTCTCTGCGGACAACCTGCGGATTGAGGAATCAGCCCTGACTGGGGAAACCAACTCAGTCATCAAGACCGATGACGCACTGACCGACGGCAGTGTACCGTTGGCTGACCGGGTCAACATGGCCTACGCCTCCACCCTGGTAACCAGCGGGAGCGGTATCGGGGTTGTCGTTGCCACGGCTGAGGCGACCGAGATTGGGAAGATCTCCCAAGAGGTGGCCCACATCAAGCAGAAGAAGACGCCGTTGACTCTGGAGATTGATCACGTCGGCAAGGTGGTTTCCTACATTACCATCACCGCCTCCGTAATTGTCTTCATCGTTGGCTTCTTCCTCCAGATCTACTCCCTGCCGGCCCTCGCTCTGGCGGTTGTGGCCATGCTGGTGGGTTCAATTCCTGAAGGGCTACCGGCCACGACATCCGTGATCCTGGCGTTCGGGGTCAGCAAGATGGCCAAGAAATACCAAACGATCATCAAGTCGATGCCGGCCGTGGAAACGCTGGGTTCCGTTGATGTCATCGCTACCGACAAGACCGGGACGCTGACCAAGAATGAGATGACGGCGATCGAGCTCTGGGTCGGTGACCACCACTACACGGTGACCGGAACCGGATATGCCCCAGATGGTCAGATCTTAAGCGATGGCCAGCCTGCCACATTAACTGACCAGCTCAAGCTCTTCGTCGAGGCTGGCTACCAGGCTAACGACACCGTGTTGAGTCACGAGGATGGTAAGTGGCACATCAACGGGGAACCAACCGATGGTGCTTTTCTGACCCTCTACCACAAGGCCTTCGGGGCTGACTACCAGTCCCCATACAAGGCCATTGACCTTCTGCCGTTCGACTCCGACTACCGTTACATTGCGGAATTGACGAACGATCCGCAGACTGGCCAGCAGGTGATCTTCGTCAAGGGGTCACCGGACAAACTCTTTGAGATGGCCGCCAAGGAAGATCCACGCTTTGACTTGCAAAAGTGGGAGCAGCGGGTTAACCAGTGGTCCAAGCAAGGTAAGCGGGTCATTGCCGTCGGGTACCAGCCGGTGGCGGGTGAAAACCTGGTGGAGGTCGAACACGACCACCTCTACCAGGGAATCCACCTCCTCGGGCTGGCCGCCCTCCAGGATGCACTACGTGAGGAAGTCATCGCGGCCCTCAAGCAGATGAACCGGGCCGGGGTCTCCGTCAAGATGATCACCGGTGACGACCCGCAGACTGCCCGGGCCATTGGGAAACAGCTTGGCCTGACCAACGGGCCGATTCACGCCGTCACCGGGGCCGAATGGGACGCCCTGAGTAAGGACCAGCGTGGTGACGTTGCCCTAAACACCCAGGTATTTGCCCGGACTACCCCGCAAAATAAGCTTGAGATCATCGAGGCCCTGCAGGACAAGCAGCAGGTAACCGCGATGGTCGGGGATGGGGTCAACGATGCCCCAGCCCTCAAGCGCACTGACATCGGGGTTGCCATGGGAATCAAGGGAACCGACGTGGCTAAGGACGCCGCGGACATGATCTTAGGCGATGACAACTTCGCCACGATGTCCGCCGTTATCAAGGAAGGGCGCCGGATCTACGACAACATCAAGAAGAGCATCCTCTTCCTGTTGCCGACCTCATTCTCCGAAGGGCTTGTCGTCGCCTTCTGCATCTTGACTGGTCAGGAGGTTCCCCTCCTGCCGGCCCAGTTGCTGTGGATCACCCTGATTGCCGCCATCACGATTCAATTTGCCTTCGTCTTCGAACGCGCCGACGAAGGTATCATGGACCGGAAGCCACGGCCAATTACCCAGCGACTGATGAACCGCCACGACCTGATCCAAATGGGCTATGTTTCGGCCCTGATCGCGATCTTCTCGCTGATCGGTTACGTATGGTTTATCAACTCCGGTTCCAGCATTGCCAACGCCACGACCATGATGATCAACACGATCGTCATCAGCAAAGTCTTCTACTTCTTCTCCATCCGGACCGACCAGTACGGTTTGGGCCAGATCAAGACGATCAGTGGCAAGGCCTGGGGAGTGATCGCCATCTTGATCCTCTTCCAGCTGATCCTGACCTACGTACCGTTCATGCAGGCCGCCTTCCACGTCTCCGGCATTAGCCCACTGGAATGGCTGGCGGTGATCATCATCTCCGCTTTGATCATGCTGTGTACGGAATTGGACAAGCTGATTCGCTTCCAGCGGCAGCGCAGCACTAAGTAA
>SRR1151252_01326 prolyl aminopeptidase
TTGAAACAAGGAACTAAGATTTTAACGCTGGATAACGGCTACCACCTCTGGACCAACACTCAAGGTGAGGGTGATATCCACCTGCTCGCCCTGCACGGCGGCCCCGGCGGCAACCACGAATACTGGGAGGATGCGGCCGAACAGCTGGCTAAGCAAGGACTCAATGTCCAGGTCACGATGTACGACCAACTGGGGTCTCTCTACTCCGACCAGCCCGACTACTCCGATCCCGCAATCGCCAAGAAGTACCTCACCTACGACTACTTCCTCGATGAGGTGGATGAGGTCCGCGAAAAGCTCGGCTTGGATAACTTCTACCTGATTGGCCAGAGCTGGGGCGGTCTCTTGGTCCAGGAATACGCCGTCAAGTACGGCCAACACCTCAAGGGCGCCATCATCTCCTCGATGGTCGACGAGATCAACGACTACGTTAAACACATCAACGCCCTGCGTGAGAAGACCCTCTCACCAGAAGCGGTGGCCTTCATGAAGCAGTGCGAGGCCAACAACGACTACAGCAACCCGAAGTACCAGGAATACGTCCAGGTCATGAACGAGAACTACATCGACCGCCGGCAACCGTCCAAGCTGGAACATCTGAAGGACCTCGGTGGCGATGCGGTCTACAACGTCTTCCAGGGTGACAACGAATTTGTCATCACCGGAAAGCTGAAGGACTGGCACTTCCGCGACCAGCTCAAGAACATCCAGGTACCAACCCTGATCACCTATGGGGACCATGAATCAATGCCAGTGCCAACCGGTGAGAAGATGGCTGAGCTGATCCCGAACGCCAAGTTTGTTACCACACCAGGCGGCGGACACCATCACATGGTCGACAACCCCGACGTCTACTACAAGCACCTCGCCGACTTCATCCGGCAGGTGGAAAACAACACTTTTAACAAGTAG
>SRR1151252_01327 Xaa-Pro dipeptidyl-peptidase
ATGAAAATCAATCAATTCAGTATCACACCAACCAATCCAAGCCAGCGTTTGGCCGAGCTCGCCGGCATTCGCCTGCTCAAGGATGATGAGTGCGAGGCTATGGACGCTAAGGCCCTGCTTGAGACCCTGCTGGTCCGCACCCACCTCTCCTGCACCACGCCGCTGACCAGTACGGAGTGGCTCCACGACCTGTTGGCCACCCCCGACCTGGCGATCGACGACTGGCTCGCAAGTGGCCAGGGGCTGACGAACGCCGTCTTCTACCGGATCGCCCTCCAACTGCTGGACTTTGAACCCGGGATCGACTTCCAACTGGCTGACCCGCTGACTAGCTGGCATAAGCTCGGCCTGCCGCTTGAGGAGCACGACCACTGGACCAGCAGCGACGTCGCTAACGCCTACTACCTCCTCTTAAACACCCGGGGCAAGAACGGCCAGATCCTCATTGACCGGCTGAGCGCAGACGGTTTTTTGACCTGGTCCTACCGACTGCCGGCCGACCAGAAGCCGCTCTTCTTCAATGGCAAGCCCCTGGCTAGCTTTGACCCGGCTCACTTCATCCGCGAGGTCGTTTACGTGGAGACCGACATGGACAGCGACTTTGATGGTCAGGCTGACCTCGTCAAGACCGAAATCATCCGGCCAGCAGAATCCAACCACGGCTTGAAGGTCCCGGCTGTCTTCACCGCCAGCCCGTACAACCAGGGAACCAATGACGAGTGGGGAGAGCAGGCCACCCACAAAGTCGACTATCCCCTTACCCACAAAACAGCCGACCAAAAAGCGCCCGCCGAGATGACCTTTCCAACCCAGTTTAGCCACCGAACCGTGACTGGCCACGCCGAAGCAGCTACTCAGCACTTCAGTGATAGCCCGGCCTACACCCTCAACAACTACCTCGCCGTTCGCGGTTACGCCATCGTCTATGCCGCCGGGATCGGCACCAAGGATTCAGACGGGGTTCAGACCTGTGGTTCTCCGGAGCAGACCGACTCGATGAAGGCGGTCGTGGAGTGGTTACACGGTGATCGGCGGGCCTTCACCGACCGGACTGGTGGCGTCACCGTTGATGCTGACTGGTGCAACGGCAACGTCGCCATGACCGGTCGTTCCTACCTCGGGACCCTGGCCACCGCCGTTGCCACCACCGGGGTGCCCGGACTGAAGGCAATTATCAGTGAGGCTGCCATCTCGAGCTGGTACGACTACTACCGGGAGAGTGGCCTGGTCCGGGCGGCCGGCGGTTTTCAGGGCGAGGACGCCGATACTCTGGCTGACGAGACCTTCAGCCGAACCAAGCGGCCCGCGGACTTTGCCCGAGTTAAGCCCGTCTACGATAAGTACATCCACCGACTAGCCGCGGCGATGGACCGACAGACCGGAAACTACAACGCCTTCTGGGACCGGCGCAACTACCGCAAGGATATTCCGGGGATCAAGGCGGCGGTGATGATGGTCCACGGCCTCAATGACACTAACGTCAAGCCCAGCAACGTTAAGGCCCTGTACGACGCCCTCCAGTCCCTGCCCGTCACCAGCAAGCTGATCCTCCACCAGGGCCAGCACATCTACATCAACGCCTTCCGGTCCCTCGACTTCTCCGAGATGGCAAACCTCTGGCTAGCCGATAAGCTCTGGGGCATCGATAACCAGGCCGACCGGGTCCTGCCAAAGGTTCTCGTCCAGGACAACGCCCAGCCGGAAAACTGGACCGCCTACGACTATTGGACAGCTGGTGACCCACTGACCCTCCACCTGGACGAACACGGCCTGATCGACGGTGACATCCACCTGGGTAAGGAAATCACCTTCAACGACCACCAGGATGACGCTACCTACCAGGCTTGGTGCAAGGACCCGGCCAAGTGGCAGGCGGCACTGATGAAGGATCCCGGCCGCTTCAGTCACCGCTTCACCAGCCAGGCGGTCGACTCCGACCTCCTGCTGCGGGGGACGCCACGGGTCAGTCTTGCCGTTGCCAGTTCCAGCGATCACGGTCTGATCAGTGCGGCACTTGTCGACCTCGGTACGGACCGGCGGCTGACCAGCTCGCCCGTGATCATCAACCGGGGCGGGCTGCGGCTCGGTTACCACTGGGCGACGGATGACCTGCGCGAATTCCGCTTGCAGAAGAAGCCGACCGACTACCGGATCATTGCCCGTGGTTACATCAACCTGCAGAACCGTCACGACCCGTCCACAGTTGACCCCTTGGCCCCAAACGAGCTGGTGAACATTGCCTTTGACCTCCAGCCAATCTTCCACCGGCTCCGGGCCGGCCACCGCCTCGCCCTGGTTATTTATGCAACGGATTATGCATTTACCCTCTGTGGCAACGAAGATATCAACTACCAAGTCAGCCTTGAAAACGCTATTTTAACGGTCCCCGGCGTCAATCACTTGAACTAG
>SRR1151252_01328 spermidine/putrescine ABC transporter ATP-binding protein
ATGAGCAATAACATCATGGAGTTCCGGCACGTCTCCCAGCAGTTCGGCAACAACGTGGTCCTGCGCGACATTGACTTTGAGATTGAGGCTGGTAAGTTCTACACCCTCCTCGGCCCGTCCGGCTCCGGGAAGACCACGATCCTGCGCCTAATCGCCGGTTTCGACCAGCCGACCAGCGGGGAGATCTACTTTGATGGTCAGCAGATCAACGACGTCCCGGCCAACCGGCGCCAGGTTAACACGGTCTTCCAGGACTATGCCCTCTTCCCCCACATGAACGTGGCGGAGAATGTGGCCTTCGGATTACAGATCAAGGGTGTTAAGAAGGCTGAAACTGACCGGCGGGTTAAGGAGGCCCTCCACCTGGTTCAGCTGGACGGCTACGGGCCGCGGGAGATCACCGCCATGTCCGGTGGGCAGCGGCAACGGGTGGCAATTGCCCGGGCGATCGTCAACCGGCCCAAGCTCCTGCTCCTAGACGAGGCCCTGTCCGCCCTCGACCACAAGCTGCGGGTCGAGATGCAGACGGAACTGCGCCAGCTCCAGCGCCAACTGGGGATTACCTTTATCTTCGTCACCCACGATCAGGAGGAGGCCCTGGCGATGAGCGACCAGATTATGATCATCAACGACGGCACGATCCAACAGAGCGGGACCCCAGTTGATATCTATGATGAGCCCTTGAACCACTTCGTTGCCGACTTCATCGGCGAGAGCAATATCGTGCCCGGGGTGATGAAGGCCGACTACCTGGTGACGATCGACGGTCAGGACTTCGAATGCGTCGATGCCGGGATGCGGCCCAACGAGCGTGTCGAGGTGGTAATCCGCCCCGAGGACCTGGACATCACCACGGCTGACCAGGGCAAGCTGACCGTCACCGTCGATACCCAGCTTTTCCGGGGCGTTGACTACCAGATCACCGCCCACGACCAGCGGGACCATGAGTGGAAGATTAATTCGATTCACCAGACCACGGTCGGGGCCCAGGTCGGGTTGGCCTTTGATCCCGAAGATATTCACGTGATGCGTTACAACGAAAGCGAGGAGGACTTTGATGCCCGCCTGGATAGTTATGAGGAGGATGACTGA
>SRR1151252_01329 spermidine/putrescine ABC transporter permease protein
ATGCGGCAGAAAGTAATCTTTACGGTTCCCTACGCCCTCTGGATCCTGCTCTTCGTCATCGCCCCGCTCGTGCTGATCTTCTACCAATCGTTCTTCAACATCGACGGCCAGGTTACCCTGGGCAATTACGCAACCTACCTGACCTCGGGGGTCTACCTGAAGATGACCCTCAATTCGGTCTGGTACGCCTTCCTGATTACCCTGGTGACCCTAGTGATCTCCTATCCGACGGCCTACGTGCTTAACCACCTGCCGAATAGGCAGTTCTGGCTCCTGCTGGTGATCCTGCCGACCTGGATCAACCTCCTGCTGAAGACCTACGCCTTTATCGGCCTCTTCAGCCGGACGGGAACGGTCAACCAGTTCCTGCAATTCGTCGGCCTGGGCAGTCACCAGCTCCTCTTCACCGACGCCAGCTTCATGTTCGTGGCGGCCTACATCGAGATCCCCTTCATGGTCCTGCCGATCTTCAACTCACTGGCCGAGATCAACCCCTCGCTGATCAACGCCAGCAAGGACCTCGGCGCCAGCCAGTGGCAGACCTTCACCAAGGTGGTCTGGCCGCTGTCTTTGCCGGGAGTTAAGGCCGGAATTCAGGCCGTCTTCATTCCATCGCTTTCCCTCTTCATGATTACCCGCCTGATCGGGGGCAACCGGGTCATCACCCTGGGGACGGCGATCGAGGAGCACTTCCTGACCACCCAGAACTGGGGGATGGGTTCGACCATTGGGGTGATCTTGATCCTGGCAATGTTTATTGTCATGTTTGTCACCGGTGAGGGCCGGCAGAAGGGGGGGACGGCACTGATGAAAAAACACCGTTTCACCTGGGGCGGCCTCTACCTGGCCCTGGTCTTCGTGATCCTGTACGCCCCGATCCTTTACCTGATGATCTTCTCCTTCAGTGCCGGGAAGACGATGGAGAAGTACCACGGTTTCTCCTTCCAACACTACACCGACCTCTTTGCCGACAGCCGGATGATCACGATCGTCATCAACACCCTGATTGTGGCCCTGCTGGCGTCCTTGATCGCTACCATCATCGGCACGATGGGGGCGCTGGTGATCAAGGACAGCCGGGGGACCTGGCGCAATAGCCTCCTTTCCCTGAATAACGTTCTGATGGTTTCACCCGACGTCATCATCGGGGCGAGCTTTTTAATCTTCTTCACCGTCCTTGGCATCAGGTTGGGCTTCGTGTCGGTCCTGCTTAGCCACATCGCCTTCTGCATTCCGATCGTCGTCCTGATGGTCCTGCCCAAGCTCAATGAACTGTCACCAACCCTGGTCGACGCTGCCTACGACCTGGGGGCCTCGCGCTGGCAGACCCTCTCCCGGGTGATCCTGCCCGCTATTGCACCCGGTATCTTCGCCGGTTACTTCATGGCCCTGACCTACTCTTTAGACGACTTTGCCGTGACCTTCTTCGTCACCGGTAATGGCTTTTCGACCCTGTCGGTGGAGATCTACTCCCGGGCCCGGCAGGGGATCAACCTGGAGATCAACGCCCTGTCAACATTGATGTTCATCGTGTCGCTCCTGCTGGTGGTTGGTTACTACTTCATCAGCAAGCATAGCGGCCGACGGAACCGAATCGTGGCCGTAAAGGAGGGGGATGCGCAATGA
>SRR1151252_01330 spermidine/putrescine ABC transporter substrate-binding protein
ATGAAGAAGCTATTTGCCGCACTGGTGGGTATCCTGGCCCTCTGCCTCCTGCTCGCGTTTGGTGACTACGCCCTGAACCGGCAGACCAGCCAGGCGGGGCGGCGGACGGTCACCATCTACAATTGGGGTGACTACGTGGATCCGGCCCTGATCACCAAGTTCGAGAAGCAGACCGGCTACCACGTCGACTACGAAACCTTTGACAGTAACGAGTCAATGCTGACCAAGATCCGTCAGGGCGGGACCAACTACGACCTGGTGATCCCCAGTGAGTACACCGTCCAGCGGATGAAAAAGGAGGGCTTGGTTGCCCCACTGGACCACCGTAAGCTTCCCAACCTACGCTACATCGACCGTCAGTTTCTGAACCGGTCCTTTGACCCCGGCAACCACTACTCGGTGCCGTACTTCTGGGGCACCCTGGGGATCATCTATAACGATGAGCAGGTCAATGGGCGCGACGTCCAGCACTGGTCCCAGCTCTGGAACCCGCGCCTGAAAGACAACGTGATGCTGATCGATAGTGCCCGCGATGTCTTCGCCATGGCCCTGATCACCCAGGGAGACTCGGTCAACACGACCAACTATTCTCAGCTCAAGCGGGCCCAGCGCCATCTCAAGCGGCTGACGCCCAACGTCAAGGCGATCATCGCCGACGAGATGAAGATGTACATGGAGCAGGGCGAGGCCGCCGTCGGGGTGACCTACTCGGGGGATGCTCGCGAGATGATGGACATCAACCACCACCTCCACTATGTCGTGCCGAGCGAGGGGAGTAACATCTGGTTTGACAACATGGTGATCCCGAAGGCGGCCCGCAACAAGGCGGCTGCCTACCAATTCATCAATTTCATGCTGGAGCCAAAGAACGCGGCCGAAAACGCCCGCTACGTTGGCTACGCGACGCCGAACTGGAAGGCCAAGCAGCTCCTGCCGAAGAAAGTAACCGCAGACCGGTCCTTCTACCCGCCAAAGAGCACGATGAGTCACTTACAGACCTACCGTGACCTGCCATTGCACGTGCTGGGGGAGTACAATGACCTCTTCCTCGAGTTCAAGATGTTTGCCAAGTGA
>SRR1151252_01331 amino acid permease
TTGCAAAACCAACCCAAGAAGAAGATAACCCTGTTTTCCGCAATTATGCTGGCCATCAGCTCCCTGATCGGGTCCGGCTGGCTCTTCGGGGCCAACGAGGCCGCCGCGGCTGCCGGACCAGCCGCCGTGATCTCCTGGATTGTCGGTGCCGTCGTGATGGGGATGATTGCTGCCAACTATGTTGAACTCGGGGTGATGCTGCCCGAGAGCGGGGGTATGAGCCGGTATGCCCAGTACAGTCACGGCCCCCTGCTCGGCTTCATCGCCTCCTGGGCCAACTGGCTGTCCCTGGTTGCCATCATCCCGATCGAGGCCGTGGCGGCGGTCCAGTACATGAGCTCCTGGCCGTGGAAGTGGGCCAACTGGACGAACCGCTTCATGGCGGGTGGCCATATCAGCTCCCGCGGACTGCTGGTCGTCTTTGCCTTCATGATCGTGTTCACCCTCCTGAACTTCTGGTCGGTGGAACTGATGACCAAGTTCACCAACGCCATCTCGGTCTTCAAGATCGGGATGCCGCTGTTGACGATTATCCTGCTGATTCTTAGCAGCTTCCACCCGGCCAACTTCGGGAATAGTGTCCACACCTTCATGCCACATGGGACCAGTGCCATCTTTGAGGCGACGACGATCTCCGGGATCATCTTCTCCTACAACGCCTTCCAGACAGTCATCAACATCGGCGGAGAGATCGAGCGGCCGCAGAAGAACATCTTCCGGGCGATCATAATCTCCCTGACGGTGGCGGCGGTCATCTACATCCTCCTGCAGGTGGCCTTCATCGGCGCCGTCGCTCCCCACGACCTGAAGCATGTTGGCTGGGGCGGACTAAATTTCAACTCGCCGTTCGCCGACCTGGCAATCATGGTGGGGATGAACTGGCTGGCCACTCTGCTCTACCTGGATGCTTTCGTTTCACCGTTTGGTACCGGGGTCTCCTTCGTGGCCTCCTCGGGGCGGACCCTGGCGGCGATGACCCTCAACCGGCACATCCCCAAGTGGCTGGGCAAGACAGATGGTATCTACGGCAACCCGCGCCTGGCCTACCTGGCGAACCTGGTCATTGGGGGCCTGCTGGTAACGATTTTCCGCGATTGGTCCGTCCTGGCCGCGGTCATCTCGACCTCGACTTTGATCGCCTACCTGACCGGGCCGGTGACCGTGATCTCGATGCGTAAGCTCCGGCCCGACTACAAGCGGCCGGTGAAGTCCAAGTCAATTCGGGTGGTGGCTCCGCTCTCCTTTATCCTCGCCAGCCTAGCGATCTACTGGGCGATGTGGCCGACGACGGTGGAGGTTATCCTGGTGATCCTGCTGGGCCTGCCGATGTACATCTACTTCGACTATAAGAACGGTAAGACGACCATTCGCCAGCAGTTACGTAGTAGTGGCTGGATGATCTGCTGCCTGGTCTTCATCTCGGTGATGTCCTATATTGGTAGCGCCGGGTTCCGGGGGCAGAACTTTATTCACTATCCCTGGGACTTCGTGGTGATCATCATTGCCAGCTACTTCTTCTACCGGTGGGGATTGAAGAGCCGGATGAAGAACAGCCCCGACCTACCGATGGCCGACCAGATCAATCAACGGGTTAAAATTGAAGAATAG
>SRR1151252_01332 amino acid permease
ATGGACTTAAACATTCTCCGCAAAGAAAGTCTCGACCGTTACTTGGGGGCGGACAAGAAGTTTGTTAAGACGATGACCGCTAAAGACTTAATGGCGATCGGCATCGGTGCGGTGATTGGGACCGGGATCTTCATCCTCCCCGGTACGATCGCCGCGGAATCGGCCGGTCCGGGGGTGACCCTGTCATTCTTCCTCTCCGCCATCATCTGTGCCCTCGCTGCAATGTGCTACGCCGAGTTCTCCTCTGCCCTCCCCGTTGCCGGGAGTGCCTATTCATATGGAAACATCGTCTTCGGTGAGTTCTTCGGCTGGCTGCTCGGCTGGGCCCTGGTCCTGGAATACATGCTGGCAGTGGCCACCGTTTCAACCGGGTGGGCCGCCTACTTCAACTCGCTGATCGGGTCGTTCGGCCTACACCTGCCAACCGCACTCAGTGGTCCCTTCGACCCGGCCCACGGCACCTACGTCAACATCGTGGCGGTGGTGATCGTCCTGCTGATTGCGTTGATGCTGGCCCACGGGATGCAGTCATCAATGCGGATCAATGACTTCGCCGTGGTATTGAAGTTGGCAATCATCCTGATCTTCATCGGGGTTGGGCTCTTCTTCATCAAGCCTAGCAACTACCACCCCTTCATGCCCTTCCATCTTAAGGGGGTCATCCACGGGGCCACGCTCGGTTTCTTCGCCTACTTAGGTTTCGACGTGGTCTCCAGTTCCGCCGCCGAGGTCATGAACCCGAAGAAGAACATGCCGATCGGGATCATCGGCACCCTGGTCGTCGCTACGATCCTCTACATGGGGGTGGCTGCCGTCCTAACCGGGATGGTCAAGTACACCAAGCTAAACGTCGCCAACCCGGTCGCCTACGCCCTGCAGCTGGTTAACCACGGCTGGCTAGCCGACCTGCTCTCCATCGGGGCCCTAGTCGGGATGCTCACCATGATGATCTCCATGATCTACTCCAGCTCCCGGCTGGTTTATGCCATCGGCCGTGATGGGCTCCTGCCGTCCAAGCTGGCCCAGTTCGATGAAAAACACCATTCACCACAGATCGCCCTCTGGGTGGTTTCAATCATCGTCGCCGTCATGGGGGGCTTGGTCCCACTGGATGAATTGACCAGCCTGGTTAACATCGGGACCCTGTTTGCCTTCACCCTGGTATCGTTCGGGATCATCCCCCTGCGCCACCGGAAGGACATCGGTAACCGGGGCGGCTTCAAGGTGCCGCTCTACCCTGTCCTGCCGATTCTCTCCGGTTTGGCCTGCCTGGGAATGATGACCCAGCTGTCCAAGATCACCTACATTGGGGCCGGGATCTGGTTTGCCATCGGCATCATCATCTACTTCGCCTATGGCTACCGGCACAGTAAGCTGAATAAGGAACGTTAA
>SRR1151252_01333 NUDIX family hydrolase
ATGGCAATTGAAGTAACGAGTGGTGCAGTGGTTTACCGGCGGACGGATTGTGGGATCGAATACCTGCTGCTGGAGAGTCAGAACAAGAGGCACTTCTGGGGCTTCCCCAAGGGCCATGTCGAGGGCAACGAGAGCCTGAAGGAGACCGCTGAACGGGAGATTCGCGAGGAAACCCAGCTGGTCTTGCCGATCGACACCAGCTTCCATGTTTACACCGAGTACGACCTGCCCAACGGCAACCGTAAGCAGATGACCCTCTATACCGCCAACCTGACCGAGCACGAAAATATCCGCCTCCAGGGTGAAGAGACCAAGAACTGCGGCTGGTTTACCTACCAGGACGCCCGGGAACGGCTGACCTACGACAACCTCAAGCAATTGCTTGACCAGGTCAACGACCACTTGACGAAGTAA
>SRR1151252_01334 guanylate kinase
ATGATGGCAAAGCACGTATTCATTATCTGTGGGGCAGCTGGGTCTGGCAAGACGACGGTGGCCAACTACCTCCGGGAACACTACGGCATGCACCGGGTGATCACCCACACGACCCGGGCACCGCGGCCGGGCGAGCGGGATGGGGTTGATTATCATTTCGAAGATGACACCTCGATAAGCCGCCTCCACCTCCTTGAACAGGTGACCTACGATGGCGCCCAGTACGGTTCGTCCTACGAAGGCCTGCAGGAGGGCTGGCAGGCGGGACATGACGACGTGATCGTTCTTGATACGGCCGGGGCACTGACCTACCACCAGCAGCTGGGTGATGATGCGGTAATTATCTTCCTGACCGTTTCCCAGCTGACAGTTCTTGCCAAGCGGATGACCCAGCGGGGAGACCAGCAGACGGCCATTAATTCCCGCCTGCACAGTAAGGAGTATCAGCGTGACCTGCACCTGCCAGCAGCCCTGGACGGAATCGCCCACGTGATCACTAACGATGACTGGTCAGCGACCCGGCAGGAACTGGACCACTTGGTCGGCAAAGTCCTGGCGGCCCAGGATCAGAAATGCTAG
>SRR1151252_01335 Fur family transcriptional regulator
GTGGATAAATTGGTTGAACGGGCCCAAGCGGTCCTGAAAAAACACCACTTGCGATGGACCAAGCAGCGGAAGATGATGATTGCCGCGGTAGCTGCCGATCCGACGCGCTATGTTGACATTACCAAGGTTGACCAGTACCTGCGGCGTGACTATCCGGGCCTCAGCCATAACACGATCTATCGTAACTTCAAGGAGTTTGAAGAACTGGGAATCGTCGAGCTGCGGCAGCATAATGACCAGATGCAGGTTAAGTACCGCTGCGACCCGGTTCACCACCACCACTTTATCTGTGACCGCTGTGGTCGGGTTCAGGAGATCAAGATGATGCCGATCGACGATGCTTTCTTTGAGCGTCAGCTGCCAGGAATCAAGATCACCGGTCACAGCTTTGAACTGCACGGGATCTGTGCCCAGTGTCGCGCTGCCCAAGCGGGTGACAAATAA
>SRR1151252_01336 hypothetical protein
ATGGCAGGAAAAATCCCACCTTTAGTAACCCCCTTTGCCTTGGTATCACTAGTTTTGGCACTGGGGGCCACCAATGTGGTTGTAAACAAGACTACCCATACCAACGAAGGGGCTAAGGTCACCAGGGTCTCCTCGCGGCGGTCGGACGATTCGACCATGGACGATGATCAGAAGATTTCCCGGAGCTCCAGTCGCGACGACGATGATGATGCTAGCAGCAGTTCTGCTCAAAGCAACAACGATAACAATCAGGCCACAAAGACGAGCAACAACGATGACCGGGGAAATGATAATAACCAAGCCAATGATAACTCAACCAGGTCAGCTGGTAATGCCAATCAGAGGAACGATCAGACGAATAACGATAACCACTCGACTGGCAATACTGGTACAACACAGAGTAATGGTGGCGGCAACACTAGCCACTCGACTGGCAATACTGGTACAACACAGAGTAATGGTGGCGGCAACACTAGCCAGGGGAATGGTAACACCGGTGGTACCACGACCACGCAGGGCAACAACCAGTAA
>SRR1151252_01337 hypothetical protein
ATGTTTAGTTTTCTTGATATGATTAATTCATCGCTGAGTTACTTCAACCTCGACACGAAGCTGAAGAGCCGGATCTACATCGGCATCGCGGCCGCGGGTGATATCTACCTGGTCTACGTTACCTTCCGGCTATTCGCAAACCACGTCTGGATGCGGGCTTTCCTCTATTGTCTGGCAATGCTGGCGATCACCTACTTCCTCTACCTCAACTTTGTTTTCTACTTTTTGGGGAGGACCTCACAGTTTGACTTCCTGTCTCCGCGTTTTGCCAAGGTGACCGGGCAGAAGTTTGATACCGCTAGTGGTAACCCTAACCCATCCATTGCGGCCCAGCAGCAACTCGCCCAGGAATTGGCCAACAATTCAAATGGGGTCTTCAATGGTGCCGACACCATCCCCGCCGTGGTGGCGATTGATGACCACGAACAGCGTAATCTGCAAGTGATTGTCGACCGGCTTTTAAAAGAGGGCATCTTCGTCAACGACTACAGCGGCCTTAGTGACCGGGAGATTGTTGAGCAGTACGCTCAGACCAATCGGCCGGTGCCGGCCCTAAACGCCCGGTCGGTTCCACCGTACTTTGAGCTGGTCCACGACCAACTCCGGCACCGCCTGGAGATCTACATCGGGATGAACCAGATGGAACGGCGGGCAGTCGGTCATATTGTTAAGATCGGCTTGACCGACGCGGCAACGGCCCACCACCGCTACCAAATCTACCTGGCCAACCTAGCCGTCGTCGGGGGACCAAACAAGATCCCCGGCCGGCGGGGCTCGACCATCATGACGACCGCCGATTACGGCTTGAATGCCCAGGTGGCCTATCGCGAACGACCAAAAGAATAA
>SRR1151252_01338 D-ribose pyranase
ATGAAGAAGACCGGAATTATCAACTCAGAGATTTCCGCTGTCGTTGCCAACATGGGCCACATGGACTGGCTGTCCATCGGTGACGCGGGGATGCCGGTGCCGTTTGGGACCAAGAAAATTGACCTGGCCCTCGACAAGGAACTGCCGAGCTTCATCGACGTTTTGAAGAACGTCTTAAAGGAGATGAAGGTACAAAAGATCTACCTGGCCGATGAGATCAAGGGCCAAAACCCTGACCAGCTCGCTGCCATCAAGGAGCTCCTGCCCGACGTTGAAGTGGCCTTCGTACCCCACAGTCAGCTGAAGAAGGACCTGGCCAAGACCCACGCCTTCATCCGGACTGGGGAAATGACGCCATACTCCAACATCATCTTGGAATCCGGCGTAACGTTCTAG
>SRR1151252_01339 sugar:proton symporter
ATGGATAAAGTAAAACACCAAAGTTGGGAGCAGCTACCGAACGGTTACCTCAGCCGGACGCCAATGTTCCAATTCGTTATCTTGTGTTTGATCTTCCCACTGTGGGGAGCCGCCGCCAGTCTAAATGATATCCTGATCACCCAGTTCAAGACGGTCTTCACCCTGAACGATACGGCCACGGCCTTCGTCCAGAGTGCCTTCTACGGTGGTTACTTCCTGATGGCTATCCCGGCCTCGATCCTGATCAAGAAGACATCCTACAAGCTGGCAATTTTAACTGGTTTGTTATTCTACATCATTGGTTGTGGGATGTTCTTCCCGGCCTCACACGTGGCCACCTACAGCATGTTTTTGGCCGCCATCTTCGCCATTGCGATCGGTCTGAGTTTCCTGGAAACCAGTTGTGACACCTACGCCACGATGTTCGGCCCCCAGGCGACGGCCAACAAGCGGCTCAACGTTGCCAACGTCCTGATCCCGCTGGGGGACATCATGGGGATCGTCCTCGGTAAGTACCTGATCTTCGGTGAGGGTGGTAACATTGCCGACAAGGTTGCCAAGATGTCCAAGGCCGAGGCCGAGGTCTACAACCAACACCTCTTGCAACTGACTCTGCGGCCATACAAGTATATCCTGATCGTCTTGATCATCATCTTCATCGTCCTGGCAATCACCAAGATGCCACGGGCCAAGGCAATGTCCAGTGAATCAGCCGAGGCGCAGCCAAAGCTCGGCGAGACCTTCCACTATCTCTTCCACAACAAGCGGTACATGAAGGGGGTCTTATGTCAGTTCATTTACGCCGGGATGCAGACCACGGTTTGGTCCTTCACCATCCGGCTGGCATTACGCCTGGACTCACACATCTCCGATTCTGCAGCCTCAACCTTCATGATCTACAGTTACATCGCCTGGTTCTTCGGTAAGCTGGTTGCCAACTGGTTCCTGAACCGTTACTCAATCACCAAGGTGCTGACCTGGTTCTCCCTGCTGGGGACAATTTCTTTGATCGTCACCTTCACGATTCCGAACCTGACGGCCGTCATCGCCGCCATCGTTACCAGCTTCTTCTTCGGTCCGGAATGGCCGACGATTTACGCCCACACCTTGGACCAGATTCACGAGAAGAAGTACACCGAAACTGGTGGGGCCTTCATCGTGATGGCACTGATCGGTGGGGCCATCATCCCAGCTGTTCAGGGACGGGTATCCGACCTGAGTGGTTCGATGCAGTTCTCATTCATCGTGCCGGCAATCTGCTTCACCCTGATCACCCTCTACTTCTGGACGGAACACCGTTGGGAAAAGCAGCACCCGAACGAAGTCCACGATGGTGAATAA
>SRR1151252_01340 phage shock protein C
ATGGAAAAGAAGCTTACCAAATCAAAGAACAAGGTCTTCCTCGGGGTCTGTGGCGGTCTCGCCAACTACTTCCACGTTGATCCCACCATCGTGCGGCTGATCGCCCTGGTTCTCCTGGTCATGACCGGGTTCTTCCCGCTTGGCCTGATCTACCTGGTGGCCGGCCTGATCATGCCCGATGCCAAGAGCAAGGGCGGCAAGCACGTTGTCGAGGGCGAATTCAAGGAACATAAGTAA
>SRR1151252_01341 aldose 1-epimerase
ATGAAGATTGCAACGGAAAAATTCGGTGAATACCGTAACCAAGATGTCATCAAGTACACCCTGACTAACGATAACAACGTCAGCATCAGTGTCCTCAACTTCGCGGGGATCTGGCAGGCCTACATGGTTCCCAACACGCGGGGCGGACGCGTCAACCTCCTCCTCGCTGCTGATACCTTCGACCCCTACGTCGAGCACGGTAGCCTCTACGCCAGCCGGATCGTGGGGCGGACTGCGGGCCGGATCGCCGGTGGCCAGTTCGACATCGACGGTCAGTCCTACAGCGTACCAACCAACGAGGGCGATAACCTCCTCCACGGTGGCGCCAACGGGCTCGCCCAGCAGTTCTACCAGGTCGAAACCAAGCAGGATAGTGATCAGGTCCAGGCCATTCTGACGACCAGCATCACCCCGGCTACCGACCACTTCCCGGGCAAGGAGGACGTCAAGGTCACCTACACCCTGGCCAACGACAATAGCGTCACGATCGACTTCGACGGCCAGACTGATTCGAAGACCCTCTTCAACCCGACCAGCCACACCTACTGGAACCTGTCCGGCGAGGCCAAGACGATCCAGGGCCACGTGCTGACCCTCAACTCCACCTACCACCTCCAGCTGGACGAGGAGAAGCTACCGACCGGGAAGAAGATCTTAAATAAAAACACCCCGTTTGATTTCAGATACCCGACCGTCCTCGGCACCGCCCTTCAGCACCTTCAGGAAGAAAACAATCCGGAGGGGGGCTTTGACGACGCCTTCGTGGTCCTGCCAAGCAACCGCCTGGCCCACGAACCGGTGGCCGTACTGATGGACGCCGCCACCGGTCGCAAGATCAAGATGTACTCCGACCGCAACGGGCTGGTGGTTTACACCGCTAACGGCCTGCAGGTGCCGGACTACAACCGGCCAGCGGGCAGCTGGTTTGCGATCGCTCTGGAGGGACAGACCCTACCGGACGCCCCGCACCACCCACAATTTGGTGACATTGCTCTGCGGCCCGGCCACCCCGAACACTTCCAGTTACGTTACGAGTACTTTGCCTAG
>SRR1151252_01342 TetR family transcriptional regulator
ATGATGCGCGTTACACGGACAGTTCGGGACTTTCAGAATGCCCTGATGGTCCTGCTGGAAACCAACTCATTTGATCACCTGACGGTTGACCAGATCTGCAAGGAGGCGCTCTTGCACCGGAGTAGCTTTTATCGTTACTTCAACGACAAGTACGACTTGCTTGAGCAGACCCTGAAAGCCCAGGTGGTGCGGATCGTCGATAACGGTAATTCTGAGGATGATATTGTTAAGCAGGTTGTTATGTATATTGATCAGCACCGTGACGTGGTTCGTCATCTGGCCGCCAGTGACACTCACAGCTCCCTGTACTCGGAGCTACTGCAGATTCTGACCCAGATGTTTCTGGAACGGCGCGAACAGGAGAGCAGCGACCCGGTTATTCAGGCACTACAGAAGTCGGATAATCCGGAGCTGTTGGCCTACACGCTGAGTGGCGCGATCCTTGGGGGCTTCCACTGGTGGCAGAGTAAGAACTACAACGTGCCGGTAGCGGAAGTCATCAGCTTCGTTCGGGAGACAGTCCACAGTCTCTCCGACGATAAGAAAATGTAG
>SRR1151252_01343 membrane protein
ATGTGGGAAATGATCAAGCAGGAATTTAAGAATATCTACCATAATAAAATCCTGCTGGTTTCGACCCTGGTCATCTGCATTATTCCCTTCCTATACAGTATCTTCTTCCTGAAGTCGGTATGGGATCCGTATGGGAACACGCAGGACCTGCCAGTCGCAGTTGTTAACAAGGATGACCCGGTCGTATACCAGGGCCGTAAGATGGACGTTGGAGATCAGACGATCAGGAATCTGAAGACCAACCACGCCCTGAAGTGGGAGTTTGTCTCGGCCAAGAAGGCCCAGGAAGGGTTAAAGGACCGAAAGTATTACACGGTTGTTACCATCCCGAAGGACTTCTCCAAGAACGCTGCAACGGTGATGGATAAGCACCCGAAACCAATGAAGCTTAAGTACGAGACCAACGACTCATTGAACATGATCGGTGAGGTTATCTCCCAGATGGGGATGCAGAAGCTGAACACCAAGATTCGGGCCTCGGTTACCAACGCCTACGCCTCGGCCATGTTCAAGGAACTCCACGTGGTTGGCAAGGGCATGAGCAAGGCCGCCAGTGGTGCCAAGCAGCTCGATACCGGAATTGTGACCCTGAACAATGGGGTTAACCAGTACGTTGCCGGGGTCAGCCAGGTCAACAATGGTGTCCAGGAGATGCGTGTCAAGGTCGCCCCACTGACTGCGGGTGCTGCTCAGCTGGCCAGTGGTAGTCAGACCCTGGCTAACGGGATCCAGCAGTACACCGGTGGGGTCGGTATGCTCGGCGCCGGGGTCAGCCAGCTGGTTGCCAACTCGGCCGCCCTCAACAGCGGTGCCGGTCAGCTCCGTTCAGGGGTCGGTCAGTTTACCAGTGGGATCAACCAACTGAACTCTGGTCTTGGTCTCTTAGACAGCAAGAGTACCGCTCTGCAGAACGGTGGTGCCCAGCTGGCCGACGGTGCCGGTAGCCTGGCCGGTGGTGCTAACACCCTGGCCACCGGTGTTGCCGGTGGTGCCAACAAGCTGGCCAATGGGACCAACACCCTGGCCAGTGGGGTTGCTGGTGGCTCTAGCAAGTTAGCTGATGGTGCCAACCAGCTCAACAGCCAGGTCACCAGCTCCCTCAGTGGGATCAACACCGCGGGGATCATGGGTGCCCTGAACCAGGCCGACCAGATGAAGAACAGCATCGCCCAACTGAGCACGGCTCTCGGCCAAGCCAAGTCCTCACTGACTGCCGCCTCTGCCGCTGCCGGTAAGCTTCAGAATGCCGGCGGTGCCATCAGCAGTGCCCAGGGTGAACTGGGTAAGCTGAGTGGCGTTGCGGGTAACGATGCCAAGATTGCGGCGACGGCAGCCGCCCTTGCTGGGAGTATGAGTGACGATAAGATCAAGGGCCAGCTGCAGGAAATCGCTGGGATGGCAAAGTCGAATGCCGCGACAATCCAGGGGATGTCTGGGGCCCTTAACCAGATGAACAGCCTCAACAGCAGCCTTAAGGATCTCCAATCACAATTGGGTAACCTGAGCAACATGTCCGGCACCCTTGACCAGGCCACGACGGTGATGGGCCAGGCTAACCAGCTGCTTAACCAGCTCGATGGCTACAAGGGCACAATCGCCGGTCTGCCAAACCAGATCAAGGCCCTCCAGAACGGGACCGCCCAACTGGCTGCTGGTGCTAACCAACTCAGCAACCAGGCGACGGCCGGTGCCAACCAACTGACTGCTGGCGCCAACCAGCTCAACAGCCAGGCCACTGCTGGTGCTAACCAGCTGAACGCTGGTGCCAACAAGTTCCAATCTGGTGCTCAAGCCGCTCAGGCCGGCATCAACCAGTACACGGCCGGTGTCCGCACCGCCGCTGCTGGTGCGGGCCTGCTCGCTGCCAACACCGGTGCTCTGCAGTCCGGTGCCAACCAACTGGCTAGTGGTATCAACCAGTACACGGCTGGGGTCGGCCAACTGGGCAGCGGGATCAGTCAGCTTACCGCCAACAGCGGCCAGCTGAACTCCGGTGCCATGCAGTTAGCCGGTGCCCTTGGTCAGTTCAATAACCAGATTCCAACCCTGGTGGCTGGGGTTAACCAATTAGCGGCCGGGACTCAACAGCTCCAGGACAACTCGCCAGCATTAATTTTCGGGATTGCGCAATTGAACGCCGGTGCCGGTCGTCTGGCCTCCTCCCTGGGCCGTGGTGCCAAGACCATCAACGGTATCAAGCCAACCGCACGGACAGCTAAGATGTTCGCGGAACCTACCCAGCTCCAGCACAAGAACTACAGTTACGTACCGAACTATGGTCACGCCCTGGCACCGTACGTACTGTCGGTTGCCCTCTACGTCGGTATGCTGGTCTTCAACTTCGTTTACCCAATTCGGCGGATTGCGGCGCCAGGCAAGTCCGCAACCGCTTGGTGGGGGAGCAAGGTTGTGATCGGCAGCACGGTAGCCGCTGCGATGGCAATCGTCGAGGATGGAATCATGATGGCCTGTGGTCTGCACATCGACCATGTTCCGTCATTCTTCCTGACGACGATCTGCTTCGGGCTGGCTTCGATGGCGATCGTGATGTTCCTGTCGATGACCTTCGACAACCCTGGTCGTTTCCTGGCCATGGTTCTGCTGATGCTCCAGCTCGGTGGTTCCGGTGGGACCTTCCCGATGGAGGTTACCATGAAGTTCTATAACGTGATCCACTGGTTCCTGCCGATGACCTACTCCATTCAGGGCTTGCGGCAGTCGATCAGTAGCGGACTGGGCCAGCACTACGCAATGTTCTGCAACGCTGTCCTGCTCGGGATCGCCGTGGTCTTCTTCCTCCTGCTGTGGGCGTCGATGATTGGGATTCGTTCCCACGCATTCAACCTCTTCCCACGCTTGGACAAGGACCAGAAGTTCCTCGATAAGATGGAAAACGATGGCGGAATTCAATCCGACCAGAAGAATAAGTAA
>SRR1151252_01344 D-lactate dehydrogenase
ATGAAGATTATCATGTATGGCACCGGTAAGGCCGAGCGCGAGTACGTTCAGGACTGGATGAAGGAGACCGGAAACGAGGTTGAGATGGTCAGCGACCAACTAAATGCGCAGACCATTGACCTGGCAAAGGGCTGTGACGGGATCTCGATCCAGCAGACCAAGCCGCTTGGTGACTCGGCGGTATACCAGGAGCTGGCCGCAATGGGAATCAAGCAGATTGCGACCCGGACGGCGGGTTACGACATGATCGACCTGGCGGCGTGCCGGGCCAACGGGATCGTGGTGACCAACGTGGCGGTTTACTCACCGCGGGCGATCGCCGAGATGGGCCTGACCCACGCAATGTACCTCCTGCGCCACATCGGTGAGTTCACCAGCCGGATGGACCAGGGTGACTTCCGCTGGAACCCCGACCTGATCAGTAGTGAGATCTATACGCAGACGGTTGGGATCATTGGCCTGGGCAACATCGGTGGGGCCACCGCCCAGCTCTACAAGGCCCTCGGCGCCCGGGTCCTCGCCTACGACCCGAACAAGAACGTCGAGTACGCCCCGTTTGTTGAGTACACCGACCTCGACACGATCATCAAGACCGCCGACATCATCTCCCTGCACACGCCGCTGTTGCCGAGCACCAAGAACATGCTGGCGGCACCGCAGTTTGCGGCGATGAAGAAGAATGCCATCGTCATCAACATGGCCCGGGGTGGCCTGATCAACACGGCCGACCTGATCACCGCATTGGAGAATCACGAGATCGCTGGGGCCGGCCTCGACACTCTGGCCGACGAGACTGGTTTCTTCAACCAGGAGGTGGCAGTTGACCAGTTGCCGGCCGACTACCAGCGCCTTCACGCGATGCCGAACGTCCTGATCACACCGCACGTGGCCTTCTTCACCACGACCTCGATCAGAAACATGGTTGAGATCAGTCTGAACGATGTCGTCCGGGTGGTCACCGGTCAGCGGACCAAAAATGAGGTTCACCTTTAA
>SRR1151252_01345 GTP-binding protein
ATGGATACCAACATACAATCTGACGAATTAGTAATCATCACCGGCCTAGACACGGGCCAAGAAGATTATGACTACTCCATGGTCGAGCTCGCTGAATTGGCCCAGGCCAACCACATGGACGTTGTTCAACGGGTCGACCAGGTCATCGACCGGCCAAACCCGGCCACCTATTTTGGTAAGGGCAAGGTCCAGGAGATCGGTGACGTAGCGGCCGCTAACCACGCCACCACGATCATCACCAATGATGAACTGACTCCGAGTCAGCTCCGCAACCTCGAAGAAGAGACCAGCTGCCGAATCTTGGACCGGACCGCCCTGATCCTTGAGATCTTCGCTACTCGGGCCCAGACTAAGGAGGCCAAGCTCCAGGTTCAGATTGCCGAGCTCCAGTACCGCCTGCCCCGCCTGCAGACCAGCGCAAGCCAGCGCCTCGACCAGCAGACCGGTGGCGGGAGCGGCTTTACCAACCGGGGAGCCGGTGAAACTAAGCTGGAAATGGATCGGCGGACAATCCAGTACCAAATCACCCACCTCCGTCACGAGCTAGCTGCCATCGCCAAGTCCGAGAAGACTAAGCGCAAGCAACGGGCCAAGAGTGAGATTCCGACGGCCGCCCTGGTCGGCTACACCAATTCCGGTAAGTCCACCATCATGAATGGCCTGGTCAAGCGCTACGGCAGGGTTGAGGACAAGACCGTCTTCGAAAAGGACATGCTCTTTGCCACCCTGGATACCAGCGTGCGACGGATGGCCCTACCCGGCCAGAAGGAATTCCTGCTCAGTGACACGGTCGGTTTCGTCAGCAAGCTACCGACCCAGCTGGTGGAATCATTCAAGTCCACCCTGGCCGAGGCTGCTAATGCCGACCTCCTCATCCAGGTGATCGACTACTCCGATCCGCACTACGAGGAAATGATGGCAACGACCAGGAAGACCCTCAAGCAGATCGGCATCCACGATATTCCAATGGTCAACGTCTTTAACAAGGCCGACAAGACCGAGATCGAGTTCCCAGTCCTGGAGGGTGACGACCAGATCGTCATCTCGGCCAAGCAAGGCGCTTCCCTGGAGCTGCTGGTGGACGTCATCCGCAAGCACCTCTTTAAGGACTATGTGCAGGCCAAGCTCCTGGTACCATTTGCCGACGGGCAGGTTGTCTCCTACCTCAACGAACACTCCAACATTTTGGACACCGAGTACCAGAACGACGGTACCCTGCTGACGGTCGAGGCCGCCCCTCAAGACTACCAGCGCTTCGCTAAGTACGAGGTTAAATCTTAA
>SRR1151252_01346 phosphoglycerate mutase
ATGGCAATTCAAGTTTACTTTGTTCGTCACGGCCAGACCTACCTGAACCGTTACAACCGGATGCAGGGTTGGTCCGACGCCCCACTCACCGAAAAGGGAAAGGTCGATGCCAAACGGGCCGGCAAGTTGCTCTCCAAGGTGCACTTTGACTACCTCTTCAGTAGTGACCTGCCACGGACCCTGGCCACTGCCCGCCTGCTCCTTGCTGCGGACGAAAACACTGACATCACGGAGCCCATCCCCGAGCCAGCCTTCCGCGAAGAGTTCTTCGGCTCATTTGAAGGCCAAAACGGGGCTGAGTTTGCCGACTTTCTGGGCGGTGCCGAGGGCTACCACAGCTTTGCGGCAATGGTCGGCGGCTGGGGTCCTGACAAGCTAAAGGACAAGATTGCCGCGGCCGACCAGTATGGGGATGCCGAGGACCATGTCCAGTTCTGGGACCGGATCAACAAGGGCTTTGACCGCCTGCGGGCCCTCCCTGATGGTTCAACCGTCATCGTGGTTTCCCACGGGGCTACGATCCGTTCCATCGCTGCACACTACTCCACTGAATTGGATCCTGGCGAGTCACCACGTAACGGCAGCATCACCAAGCTGACCCTCGACGGCGACTCCACCCACGTTGATTTTTACAATATGCTTGAAATACCCGAATAA
>SRR1151252_01347 DedA family protein
ATGGCCCATATTTTCTATATTCTGACCCACATCGCAGAAACACTGATTCCAATGTTTCAATGGCTGGGGCCGTGGAGCTACGTCATCCTCTTCACTCTGGTCTTCATGGAGACCGGACTAGTGGTCTTCCCCTGGCTGCCGGGCGGATCACTAGTTTTTTTGACTAGTTCGTTTATCGCCGTCAAACCGGTCCTGAAGATGGAGATTGTGATCCCCGTCTTCTTCTTTGCCGCCTTCATCGGTGACTCGGTCAACTACTACATTGGCCACCGCCTCTCCCACTGGCACTGGTTAAAACACCAGCTGGAGGGTCCCCGGATGGTAGAGGCCGGCCGGTTTCTCGACAAGTACGGCTTCTGGGCGGTCGCCTTTGGTCGCTTTGTCCCCTTCATTCGGTCCTTCATCCCGCTGATCTCCGGGATCATGGGTTACAGTTTCCACCGTTTTACCATCGGCAACATGGTCGGCGTCGCATCCTGGGTCGCCCTGGGCTGCGGTTGCGGTTACTTCTTCGGGACGATCCCCTTTGTCCGCAAGCACTTCTCCCTATTCATCCTGCTCTTCGTCCTGGCCGCTCTGGCGATTGCCGGACTGACCTTTATCATCAAGCTGATCCGCCAGAAAATCATCCGGAAAAACCGGATGCTGTAA
>SRR1151252_01348 ATP-dependent DNA helicase
GTGGTTGAAGATGCAGTAAGAAAGTATGAGCAGGATCACTTAGACCACGTGGTGGAGGAGATCAAAAAGGCCGAGGACAAGGCGGCACAGAAGATCAGTACCGCCAAGCACGATATCAAGGGGATCAACAAGCAGATCGACGACATCCACCTCAACACGACCACCTACTCGGGGATGATGGACACGGCGATGTCCTTCCGCGCCCAGCAGCAGATGCTTGATGAACGACAGAACAGCTGGCAGCACGCCGCCGACCACCTGGCCACCCTCCAGCGCTTGGAGAAGAAGCCCTACTTCGCCCGGATCGACTTCCAGGAGAAGGGGGCGGCCAAGCCAGAGTCAATCTACATCGGTCTGGCCTCGTTTAGTGACCAACCCGACCACTTTCTGGTGTACGACTGGCGGGCGCCGATTTCTTCCGTTTACTACGAGGGTAAGCTGGGCAAGGTCAGTTACGACACCCCGGTGGGCAAGCAGGAGGTCGACCTGACCTTGAAGCGCCAGTTTCAGATCAAGGACGGGACGATCGTGACCATCTTCGACACCGATGAACAGGTCGGGGACCAGATGCTGCTCGAAGCCCTGGGTAATCACTCCAGCACCAAGATGAAGAGCATTGTGACGACGATTCAGCGGACCCAGAACGAGATCATCCGGGACACTAAGGATGACCTGCTCTTTGTCCAGGGGGCCGCGGGTTCCGGGAAGACGGCGGCGGTCCTACAACGGGTCGCCTGGCTGCTCTACCGCTACCGGGGGAACCTGACCTCCTCACAGGTGGTCCTCTTTTCACCCAATCAGCTCTTCAACGACTACATCGACCAGGTGCTGCCGGAGCTGGGCGAACACAACATGGTCCAGATGACCTACTTCCAGTTCGTCAACCGCCGGGTACCCCGCCTCCACGTCCAGACTCTGGCGCAGCGTTTTGCGGCCGGGCAGACGGCCACGGCTCAGCGGATCCAGCGTCTGGTCACCAGTCTTCAGTACTTCAAGTTGACCGGCCGTTACGCCCAGCACCTGGGTCACGCCAACATGCGCTTCCGCAACATCATGTTCAACAACAAGGTCTTCATCAGTAAGGAGAAGATCAAGGAGATCTACTACTCCTTCAACAACAACTACAACCTGGGCAACCGGCTGGACGGGACCAAGGAGGCCCTGATCAAGTACCTCAACCACCGCGTGTCCAGCGAGATGCGGAGCAAGTGGGTTGAGCAGCGTATCCAGGACTTGAGTAAGGAGGAGATCGACAACCTCTTCGCTAATGAACCGCGGGAATTTGAGAGTGACGATAAGGAGTACCGTTTCCTGGCACGAAAGATTGTCATGAAGGCCCTCGAACCGATCAAGCGGGCCATCAACCATAACCAGTGGATCAACATTAACGGCCAGTTTCTCCACCTCCTCCGGGTTACCCCGAAGCTAGTTGACCTGGCGGAATATGACTTAACGGCCGACCAGTGGCGGTCCTACGTCGACGGGGTCAAGGACGACCTGAAGAAAGGGGCGATCAGTGCCAGCAACATTACGATCTACCTCTACCTCTACGATCTGGTCACTGGCCGCAAGGGTGACCGCGACATCCGTTACGTCTTCGTCGATGAGGTCCAGGACTATGACGCCTACCAGCTCGCCTACCTGAAGTACCGTTTCCCGAAGGCCAAGTACACCCTGCTGGGCGACCTCAACCAGGCGATCTTCACCCACGCCAACAGCCACTCCCTCCTGAAACAGCTGGGGACGATGTTTGATCCAGAGAAGACCAAGGTGGTTCAGCTGACCAAGTCCTACCGGTCGACCAAGCAGATCACCGACTTCACTAAGCACCTGCTCGTCGACGGGGAAGCCATCGAGGCCTTCAACCGTAACGGCGCCCTGCCGCAAGTGATTGTCAGTCCGGATACGGCTGGGAGTGCGGACGCCGTGGTTGATACCCTGCAGAAGGATCAGCAGGAGCACGACGCGGTGGCCATTATCGGCAAGACCCTGGCGGATTGCGAGGATCTCTACCAGGAGCTGGAGCGGCGCAACGTCAAGACAACCCTGATCCGAACCGAGAACCAACGGCTGGTCAAGGGCCCCATTATCGTGCCATCCTTCTTAGCCAAGGGACTGGAGTTCGACGCGGTCATTGTCTGGAACGCCAACGACCAGCAGTATCATGGCGATGACGAGCGGCAGCTCCTTTACACGATCTGTTCGCGGGCCATGCACGCCCTGACCCTGACGGTAACCGGTCAGCCAACATCGCTACTAGCCGGGGTACCTGAGGACGAGTACCAGCTTATTAAGCACGAATAA
>SRR1151252_01349 putative membrane protein
ATGTCAATTACGAAACACCGGGCGAACCTGATGCTGCTGATGGTCGCGATCCTGTGGGGGAGCAGCTATATTTTCGCCAAGCTGACCATTGAGGCCGGGATGCATTCGGGCCTGATCAACGCTTGCCGGGGAACGATGTGCGTGGTCGCTGGCTACCTGATTTTCTACAAGAAGATCAACCGGATGAACTGGACGGACGTCAAGCTGGGCCTCTTGATGGGGATCATCAACTTCCTCGGCTACTACCTGCAGACCGACGCCCTCCGCTACACGACCCCGGCCAAGAACGCCTTTCTCACCACGCTCTACATCGCCGTGGCCCCACTGATGTTGTGGCTCTTCTGGTACGAGAAGCCCCAGCGCAAGGCCTACTTTGCGATTGTCCTGGCCATCATCGGTATGGCGATCCTCACCAACGTCGTTCACAGTGGCCTCCGCTTTCAGTACGGCGACCTGTTAACCCTGATTTCGACCGTCTTCTGGGCCCTCCAATTGATCAACTTTGGTAAATTTGCGCCCCGGGTCTCCAGTCCCTGGGTCGTCATCTTCATGATTGGCCTCTGCCAGGGCGTCTGCGGCTGGATCACGACCCTGCTCTTTGAACGCGACACCCTGGGTCAGGTCCATTGGGCGCAGGCCCTGATCCCGCTGGCGATCCTGGCCATTGGGGTCACCTTCCTCGCTCAGGGGATGCAGATCACCGCCCAGGCCTACACGGACGCCACCTCGGCTGGGCTGATCCTGATGCTGGAATCGTTCTTTGCCAGCGTCATGTCGGTCATCCTCGGCTACGATCCGTTGACTCACCGGCTCCTGGTCGGTGGGCTAATCCTCCTGCTGGCCAACGCCATCATGCAGGTCGACCTCCGTCGGCTACCAATCTTTAGCAAACACCACCAAGTCTAG
>SRR1151252_01350 alkaline phosphatase
ATGAAAACAGCGTTTCAGAAGCTCCAACGCGGCTTGAACACCAAACTTGGCTTCTTCCTGCTCGTGGTGCTCTTGTTCTGTATCAAGAGCTACTGGGCATATCAAAATGAGTTCAACCTTGGTGTTAAGGGAAGCATGCAACACTTCCTGCTCGCGTTTAATACAATTCCGGGGGCCCTGATCTTTCTCGGGATTGCGCTGTACTTCCGGGGTCGGCTGTCGTATTGGCTGATGATCATCATCAACGCCCTGCTATCAACCTGGCTCTTTGCAAACATCTTATACTATCGTGAATTTTCTGACTTCATCACCTTCAACGTGATCAAGGGGTCGGGGGCGGCTTCCAACAACCTGGGGAAGAGCCTGATGGGAATCATGCGGCCCGAGGATTTCCTCGTCTATGCCGACGTGATCATCCTCGCCTTAATCCTGCTCTTCCACGTTATCCGAGTTGACATGCGCTACTTCAAGATTCGCTATGCCATGACGGTCACGATGCTCGGCCTGGTGCTGTTCGGCGCCAACCTGGGGATGGCGGAGAAGGACCGGTCACAACTCTTGACCCGGACCTTTGATAACAACTACATTGTTAAGTACCTGGGACTGCAGGCCTACACGATCTATGACGGGGTGAAGACCACCCACAACAGTGTTATTAAGGCCCAGGCCAACCAGAACGAGCTCAAGCCGGTCCTGAATTTCATTCATCATAACTACGCCGGACCAAACATTCAGTATGAGGGGGTCGCCAAGGGGAAGAACATCTTCGTCATCCACCTGGAGAGTCTCCAGCAGTTCATGATCGACTATAAGCAGGACGGCCAGGAGGTCATGCCAAACCTCAACCGGCTCTACCACGCCAACGATACCCTGGCCTTTGATAACTTCTTCCACCAGGTCGGCCAGGGGAAGACGGCCGATGCCGAGACGATGCTGGAGAATTCCCTCTTCGGGCTGCCGGAGGGGTCTGCAATGGTCACCGATGGGACGACTAACACCTTCCAGTCCGCACCGGCTCTCCTTCACCAGAAGCTTGGCTACACGACGGCCTCCTTCCACGGGGACGTACCGAGCTTCTGGAACCGGGACAACGCCTACAAGTCCTTTGGCTACCAGTACTTCTTTAGTAAGGAGTACTTCCCGAAGACCAAGGACTACGACGCCGGTTACGGGATGAAGGACAAGATCTTCATGAAGGAGACGGCCCACTACATTGAGCAACTGCCGCAGCCGTTCTACGCCAAGATCATCACGGTCACGAACCACTATCCATATATCCTGGATAAGCAGAACAAGGACATTGAGCCGTGGAAGACCGGGGACGATACGGTAGACCCGTATGTTCAGACGGCCCGCTACCTGGATGAGGCCCTCGGTGAGTTCCTCGACTACCTGGATAAGTCCGGCCTGCGCCAGAACAGTGTCTTAGTTCTGTACGGGGACCACTACGGGATCTCCAACAACCACCAGCCAGCAGTTGCCCAGATCCTGCACAAGAAGAAGCTGACCAACTACGACCTGGCCATGTTCCAGAAGGTACCATTCATGATCAACATGCCGGGCCTCAAGGGGGGCATCGACCACACCTATGGCGGTGAGATTGACGTCCTACCGACCCTGGAGGACCTGCTGGGGATCAGTTCCAAGAACTACATTCAGTTTGGCCAAGACCTCTTGTCACCAGAGCGTAACCAGATTGTGCCGTTCCGTAACGGTGACTGGGTAACACCGAAGTACACCAAGTACAACGGCGATTACTTCTACACTAAGAATGGGAAACAGATCACTAAGGCGACGTCAAAGCAGAAGGCCGAGTTCAGCAAGATCCAGAAGTACGTCACAACCGACCTCGGATTGTCCGACCGGGTTGTGAACGGCGACCTGCTCCGCTTCTACAAGTTGCCGGGCTTCAAGAAGGTTAACAAGAAGGACTATACCTACAATCTCAAGAAGAGCCTGCAGAACCTGAAGAAGCAACAGAAGAAGCAGAAGACTAGCCTCAAGACTGAGAATGACAACCAGAGTACTTTTGATGAGTACACGACCAACGCACCGGAACTTAAGGATTATCCAAAGCTGACTTTCCCGAAGCCGTAG
>SRR1151252_01351 copper-binding protein
ATGGAACGGACTTTAGCTTTGATTATTGGTTTGGTATTGATCGGCGCAATACCGTGGTGGTTCTTCGGTAAGCATACCGAGACCGCGGGTGACGCCAAGGTTGATGGTGGTAGCCAGGCGGCCACAGTGGTCGTCAAGGGTGGCTACTCACCATCGACGGTTGTCCTGAAGAAGGGGATGCCGGGGAAAGTCCACTTTGACATGAAGGACTCCACGGCCTGCCTTTCCCACGTCGTCTTCGATAAGCTTGGTGTCGACAAGGACCTGACCAAGCAGTCGGTCACCACGGTAGACATCCCCACTGACCAGGCTGGCGAATACAACTTCGCCTGCGGGATGGACATGTTCCACGGCAAGGTAATCGTTAAGTAG
>SRR1151252_01352 copper-binding protein
ATGGAAAATACGGTGAAAATTAATGTTAATAATGGCTATGAACCACAGACTGTGACGGTACCAAAGGGCCAGTCAACCAGGCTGGTATTTAATCGCACCAACCCATCTGCCTGTTTGGCGGCCGTCCAGTCTAATGACCTTGGCTTTAAGCAGGATCTTCCCCTGAATGAAGATGTGACGGTTACGATTAATCCACAGCAGGCCGGTGAATACGATTACGCCTGTGGGATGGACATGTTCCGCGGAAAGGTGGTTGTCAAATGA
>SRR1151252_01353 cation-transporting ATPase
ATGAGAAAGCTGACGAGCAGCCAGCGCTTCTGGATCTCCTTCGTCCTGGTGATCCCGATGCTTATCCAGATGCTGGCGATGCCGTTTCACTGGATGATGCCGGGCTACAACTGGGTGGCCCTGGTCACTACGACCCTGATCATGCTGGTGGCGGCCCTGCCTTACTGGACCAGTGCTTGGGCGGCCTTTAAGCACCATAACGCCAACATGAACACCCTGGTCGCGATTGGGACCACAATCGCCTACTTTTACAGTCTCTTTGCGATGGTCACCGGTCGGCCAGTCTACTTTGAGAGTGCGGCCTTTATTGCCGTCTTCGTCCTGCTCGGTGACACGATGGAGGAACGGATGCACAACAACGCCTCCAACGCCCTCAAGAAGCTGTTGGACCTCCAGGTGAAGAACGCCATGGTCTTGCGCGATGGTCACTTTGTTCAGGTCCCACTTGACCAGGTTCAGGTTGGCGACATCATCCAGGTCAAGCCGGGGCAGAAGGTGTCGGTCGATGGGGTGATCACCAGTGGGCAGACCAGCCTGGACGAGTCAATGATCACCGGGGAGTCAATGCCGGTGACCAAAAAGGTCGGTGACACGGTGGTCGGCTCGACCATCAACGGCGACGGGGCAATTCAGTTCCGCGCCACCAAGGTTGGTCAGGACACCATGCTGGCTCAGATCGTCGAGATGGTAAAAAAGGCCCAGACCAGCCACGCGCCGATCCAGAACCTAACCGATAAGATCTCAGGAATCTTCGTACCAGCGGTTCTGATCATTGCGATCATCACCTTTGTGGTTTGGTACAGCTTCCTGGGTGCCACCCTGGTTCAGGCCATGCTGTTTGCGGTGGCAGTCATCGTGATCGCCTGCCCATGTGCCCTCGGCCTGGCAACCCCGACCGCATTGATGGTCGGAACCGGTCGCGCCGCCAAGATGGGGGTTCTGATCAAGGACGGTCAGGCCTTAGAGGAGATTAACGACATCAAGACGGTGGTCTTCGACAAGACCGGGACGATCACGGTTGGCAAGCCAACGGTCACGGATATTGTCGGTGACCCGGCCGAAGTCCTTACCGTGGCGGCCAGCCTCGAGGATAACTCTGAGCACCCGCTGGCCAAGGCGGTCATGAAGGCTGCTGCGGACAAGCAAATTACCCCACAGACTGTCACTAACTTTACGGCGGTTGAGGGGAAGGGTGTTCAAGCTACCCTCAACGACCAGCAGGCATTTGTCGGCAACGACAAGCTCTTGGCTGACTACCAGATTACCGACGATTTCCGCCAGCGGATGGCTGACCTCCAGGACGAGGCCAAGACGGTGATCCTGATTGGCTTGGCCAAGAAGGTAATCGGTCTGATTGCCATCCAGGATGCCCCGAAGCCGACATCCGCCGCGGCGATTGCGGCCTTGAAGGCACGAGGATTGCAGACGGTCATGCTGACTGGGGATAATGACCGGGTTGCTACGGCAATCGCCAAGGAGGTCGGGATTGACCGGGTCATTGCCAACGTCCTGCCTAACGAGAAGGCGGAACATGTCCAAGCCTTAGAGCAGGACGGTAAGGTAGCATTTGTCGGTGATGGGATCAACGATGCTCCAGCCCTGACGGCGGCCAGCGTCGGGATCGCCATGGGCTCAGGTACCGACATTGCGATCGAGTCCGGGAGCATTGTCCTGGTACAAAATGACCTCCGTGGGGTAGTCAAGGCCCTCAATATCAGTAAGAAGACCTTCAACCGGATCAAACTCAACCTGTTCTGGGCCCTGATCTACAACCTGATCGGGGTGCCGATTGCAGCCGGCGTCTTCGTCGGGCTTGGCCTCCAGCTCAGCCCCGAGTTTGCGGCCCTGGCAATGGCCTTCAGTTCGGTCTCGGTCGTCACCTCATCCCTGTTGCTTAATAAGGTACGGATTGGTGGCAGCAAACCCGCTACTGTAACGCAATAA
>SRR1151252_01354 pantothenate kinase
ATGGATGAATGGATGAATTATGAACAATTTGATCGGCAGACCTGGCACAGCTTCTTCCCGACCAATACGGTGCGCTTGAGTCAGGATAACCTGGAGGACATCAAGTCGCTGAACGACCGGGTCTCGATCCAGGACGTGCAAGACGTCTACCTCCCCCTGATCAAGCTGATCCAGCTGCGCTACCAGAACTTCCTAGAATGGCAGATGCAAAAGGCTAACTTCCTGCGCCAGTCGGTCCACCGGGTACCCTATATTATTGGGATTGCTGGTTCGGTAGCGGTCGGCAAGAGCACGATTGCCCGTCTGCTCAGCATCCTGCTTAATAAGCTCCTGCCGGATAAGCGGGTGGAGCTGATGACCACCGATGGGTTCCTCTGCCCTAACGCCGAACTGAAACGACGGGGAATCATGGATCGCAAGGGTTTCCCCGAGTCCTACGACATGGAGAAGCTGCTGAAGTTCTTAAACGACGTCAAGGCAGGCGAACCCGAGCTCAAGGCGCCGACCTATTCCCACCAGGTCTACGATGTTCAGTTGGATAAGCCCCAGCTGATTGAACAGCCCGATATCCTGATTGTCGAGGGGATCAACACCCTCCAGCTATCGACCAACCAGCGTCTCTACGTCAGCGACTACTTCGACCTGTCCTTGTACGTTGACGCCGATGCCGACCTGATCGAGCAGTGGTACCTGCAGCGGTTTGGGCTATTGTTGGACACGGCCTTCACCGACCCATCCAACTACTACTACCCTTACTCCCAAGGCGATCGTGAGGCGGCCTTCAAGATGGCCCGCGATGTCTGGCAGCGGGTCGACCTACCGAATCTAGAGGAGTTTATCCTCCCCACCAAGAGCCGGGCCAACGTCATCCTCCACAAGACCGTGGGCCACGTGGTCGACCGGATTTACCTGCGGCGTGACTAG
>SRR1151252_01355 ATPase
GTGGTTCCCCTCCTGCAGGATCTACTGAGCCGGGGCAACGTCAACCTCTTTGTGACTGCTGCTACCCGTTCCCTAATTGGCCGGTTATCCCCACTGCGAGCCCAGTTGGTGGTCATCCCGGTCCTGCCGCTGGGCTTTAGTGAGTTTTGCCGGTATCAGGGGCACCCCGCTGACCACCAGGCCCTCTACCGGTACCTCAATACCGGTGGCTTTCCCTTTGCTCAGGGGGTTCATGACGCCCACTCGCTGGGTAACTACCTGGACGAGGTCTTCAATACCATCCTGGTCGGCGGTTTCACCAAGCATGGCACCCTCTGCAACCCCTTTTTGACTAAGCAGTTAGCGATCTTTCTGGCCACCCAGCTGGGCGAAGCAGTCAACGCCTCCAAGGCCGTCAGCGGACTCCGGGCAGCGGGTGTTTCAGTCTCCAATAAGACCCTGGCCACCTACCTGACCTTTCTCCAGGACACCTTCCTCTTCTACCCCTGCTACGAACTTGACCTGGCCCGCAATCGGACCAAACCGACCAACGTCAAATACTACCCGGTCGATCCCAGCCTACGTAACTACCTGACCAATCAAAAAGGAGCGCTCTCCCAAGCAAACTTGGAGGCGCTCATCTTCATCGAACTCGTCCGCCGCGGCTACCTGGTCCACTCCAGCAAACGGTTCACCTTCGTTGCCGACCGCGGTCAGCAACGTTCCTATATTCAGTTTCGGTATTCTCTTCGCAGCCAACACGACTACGACCAAGTTCTGGCAGCCTTTCGGACCCTACCAGCTAGTGCTCACAAACAACTAATCGTCATGCAGGCCGGTGACATGGTCGTCACCGCCCCCGACCTGCCGCTGATCCGTCTCACCGACTGGCTAGTCACGCCGCAGGTAAATCCGGTCGACCACGTGGCCCACGGTCTTGTGGAGGATGACGTTGGCCCGGCTCTTGGTGGGGAGGATAAACTCCTCTAG
>SRR1151252_01356 ATPase
ATGTTCACACGATCATTTCAACTAGACCAATTTATAAAATATTCGAATGAAAGCTGGATTAAGGTCATCACTGGCGTGCGCCGCAGCGGCAAATCAATTTTACTAAGACAGGTAAAAGATAGCTTACGGCGAAACGGTGTCAGCATGGACCAGCTCCACGTCGTCCGCTTCAACCAACTCCATCGCCAGCTCCTGATCGACTGGCCCTCACTGGCTGCCTCAATAGAAAAAAGCTCGCCGCTAAAAAGGAAAACTACCTCTTCCTCGACGAACTTGACCAGGTTGACGCTGTGGTTCCCCTCCTGCAGGATCTACTGA
>SRR1151252_01357 transaldolase
ATGAAAATTTTTGCCGATACAGCCAACGTTGAAGACATCAAGAAGGTAAACGAACTCGGAATCATCGACGGGGTAACCACCAACCCGACCCTGGTTGCCCGTGAAGGCAAGGACTGGGAGAGCGTCGAGAAGCAGATCTGCGCGATCGTTGACGGCCCGGTTAGCGCGGAGGTTACTGCGGACCGGGCGCCGGAGATGTTTGACCAGGCGCGGGCCCTGAGTAAGTGGGCGGACAACATCGTGGTGAAGATTCCGATGACCGCCGAAGGACTGAAGGCGGTCAAGGTCTTATCTAAAGAAGGAATCAAGACCAACGTCACCCTGGTTTTCTCTGCCATGCAGGGGATGCTGGCGGCTAAGGCGGGTGCCACCTACGTCAGCCCCTTCCTTGGCCGGCTAGACGATATCGGGGCCAGTGGGATCGAGCTGGTAGAGAAGCTTCGCCAGATCTTCGATAACTACGGCTACCAGACCGAGATCATTGCGGCCTCGATCCGCAACTACCAGCATGTCGAGCAGGTGGCCCTGGCCGGTTGCGACATCGCAACGGTCCCCGCCAAGATCCTGGTCAAGCTCTGGGAACACCCACTGACCGACAAGGGGCTGGCTGCCTTTGAAAGGGATTGGGCGGAGTTTGAACGCCTGCAGAAGTAG
>SRR1151252_01358 triosephosphate isomerase
ATGGTGATTAGGATGTTGAAGAGTACAATGCCGGCACTACAGGCGTTTCGTCCCCTTCCACTGCGGATTGACACGGTGCGAGGGACCACGGCGATCGCCGATTATGCCTGGATCGAATGTCGCAGCGAGGGTGGTCGCCTAGCAAATCGAAACGTAAAGCGAGCCCTTGCTGCTCAACGGCCCCTGCTGGTTTGCCTGGACGAGGGCGAGCAGCGTCTGGCCCCGCTGGACTTTGCTGCGACAATCATTACTCAGCTGGCGGGTGCCCTTCACGGGGTGAACTCGGCTGACCTCGGGCACGTGACCGTTGCCTATTGGCCACAGTGGTCCCAGGTCTGCTGGCTACCCGATGATGCCCAGCGAATCCGGGTGGCCCACCGGCAGATTCGGGACATCCTCGCCAGCCTGTACGACCGTGAACTGGCACGCCGGGTCACGATTGTCTACGCCGGCCCCGTCCTGGATGCAGAACGGGCGACCGTAATGAATGATATCAACGTCGACGGGGTGGTGCAGAACCCGTTTGGCAAGCAAAACATAGAAAATGAGGTTAGAAAATGA
>SRR1151252_01359 transketolase
ATGATTACCAGTCGAAACACTTCTGTGATGTGGGCACCAGCGCCCCAATTTACTGACCAGGACCAGCAGGCGGTTGACGCCCTGCGGTTTATGAGTATGGACATGATTGAACGAGCCCACGGTGGGCACCCGGGTTCGCCAATGGGGATGGCCCCGCTGGCCTACACCCTCTGGGAGAAGTTTCTCTGTTTCAACCCGAACGACCCGCAATGGCTAAACCGGGACCGCTTCGTCCTGTCCGGGGGCCACTGTTCTGCCCTCCTGTACAGTCTCTTACACTTCAACGGCTTTGACCTGTCACTGGAGGACATCAAGAACTTCCGCCAGCTGGGCTCCCGGACCCCGGGCCACCCCGAATACCGGTTGACACCGGGCGTTGACGCCTCGACCGGTCCCCTCGGTCAGGGCTTTGCGATGGCCGTGGGAATGGCGATGGCCGAACGCCACCTGGCCCTCCAGTACAACAAGCCAGGATATTCGATCATTGACCACTACACCTATTCGATCGTCGGTGACGGGGACCTGATGGAGGGGGTCGCCGATGAGGCCATGTCCCTGGCCGGGAAGAACCGGTTGGGCCGCTTGATCGTCCTCTACGACTCCAACGATGTTTCCCTGGATGGTCCGCTGAACCTCAGTAATAACGAGAATGCTGGCGAGCGTTTCAAGGCTGCCCACTGGGACTACCAGTTGGTTGAGGACGGTGCCGACATGAATGCCATTGCCCGTGCCATCAGCCGGGCCCAAAAGTCACCGCAGCCGTCGCTGATCGAGGTGAAGACAATCATCGGCTACAATTCGCCGAATGAGGGGACTAACAAGGTACACGGGAACCCGCTGGGTGCGGACAACCTGGCCGTCACCCGGGAGAACTACCAGTGGGAGTACCCACCGTTTGAATATCCGGATAGCGTCTACCAGCAGTTCGCCCAGTACGTGATGGGGAAGAAGGAGCGCTACAACGAGTGGCAGGCCCTCTTTGCCGACTATCGGCGGGCGTTTCCGGCTAAGGCCAAGCAGCTGGTGGCCCAACGCTTGGATATCCGGGACCTGGCCAACCATTACCGGCCGGGGGAGAAGGTCTCAACCCGGGTCGCCAACTCCATGGCCATGCAAGACCTGGCCAAACGCAATCCCCAGCTCTGGGGTGGTTCAGCTGACCTCTTCTCGTCCAATAAGACCCTGTTGAAGGACTATGATGCCTTCAAGCCCGCCAACTATGGTGGTCGTAACATCTACTTTGGGGTCCGGGAATTCGCCATGGCCGCGGCCATCAACGGGATTAACCTTCACGGTGGCAACCGGGCCTACTGTTCCACCTTCATGGTCTTCAGCGACTACCTGAAGGCGGCCATCCGCTTGGCGGCTCTGCAACAGTTGCCGTCCATCTTCATTCTGACCCACGACTCCCTGATGGTTGGGGAGGATGGCCCGACCCACGAGCCGGTGGAACAATTGGCAATGCTGCGGACGATTCCTAACGTTCAGGTCTTCCGGCCGGCTGACGCCAACGAGCTGGTAGCCGTCTGGCAGACGATCGCCAAGACCACCGACCGGCCGAGCGTGATCATCGCCTCCCGCCAGGATCTCCCCGTCCTAAACGAGACGGTCGGGGCCGTCTGCGAACGTGGAGCCTACGTGGCTGCCGACACCCATAAGCCGCAAGGGATTATCATGGCCAGCGGGTCGGAACTCTCCCTGGCCCTGGCCGCCCGTGACCGCCTGGCCAAGCAGCATAATATTCACGTCCGGGTCGTGTCGATGGTCAGCATGGAGCGTTTCAACCAGCAGTCCGCGGCCTACCGGGAGCAGATTCTGCCGGGCCGAATCCGGACCCGCCTCGCCGTCGAGATGGCCTCACCCGCTATGTGGGGTCAGTATGTGGGCCTCGACGGTGACGTGATCGGTGTCGATCAGTTTGGCCAGAGTGGGGATGGTCAGACGATCGCCGACCGGTACGGCTTTACCGTCGACAATGTCGTAAAGCACTTCCTGGATCTGAAGCGGAAGGGGGCTGGCAAATGA
>SRR1151252_01360 hypothetical protein
ATGATCACAAGGGTTAACGAGGACCTCAACCAACTTGATGAGCAGGCGGTCATCACGGAGCTCGAACTCCTGACCGCCGCCCTCGAGGACTAG
>SRR1151252_01361 GMP synthase
GTGGCAAACGTCAATTTAGATGCATTTGATAAGATCATCGTGCTTGACTTCGGGAGTCAGTACAACCAGCTGATTACCCGGCGGCTGCGGGATTTCGGGGTATACTCTGAGCTGCTGTCGCACAAGATCACGACTGACGAGATTAAGAAGATCAAGAACCTCAAGGGGATCATCTTCTCCGGCGGCCCGAACAGTGTGTATGATCCAGACGCATTCAAGGTTGATCCAGCAATCTTCAAGTTAGGTATTCCGATCCTGGGAATCTGCTACGGGATGCAGCTGATGTCCTATGACCTGGGTGGTAAGGTCGAGAAGGCCGAAAATTCCGAGTACGGCCGCGCCGATATCACGGTGCTCGACGACGATGCGGTCCTCTTCAAGGGCCTGCCAAAGAAACAGTACGTGTGGATGAGCCACGGTGACTTGGTCACCAAGGCGCCCGACGGCTTCAAGGTAACGGCCACCAGCAAGAACTGCCCGATCTCTTCCATCGCCGATGACAAGCGGAAGTTCTACGGGATCCAGTTCCACGCCGAGGTCCGCAATTCCGAGTACGGGCTTGACATCCTGCGGCGTTTTGCCTTTGACGTTTGTGGTGCCAAGGACAACTGGACGATGGACGACTTCATCGACCTGCAGATTGACCACATCCGCCAAGAGGTTGGCGATAAGCAGGTCATCCTCGGTCTGTCCGGTGGGGTCGACTCCAGCGTTACCGCCGTGCTGATCCACAAAGCGATTGGCGACCAGCTGACCTGCATCTTCGTGGACCACGGTCTGTTGCGGAAGAACGAGGCCGATCAGGTTATGAACGCCCTGAACCGCGACCTCGGGGTAAACATCGTCAAGGTCGACGCGTCTGAACGCTTCCTGGGCAAGCTCAAGGGGGTTACTGATCCTGAGAAGAAGCGGAAGATCATCGGTAAGGAATTCATCGAGGTCTTCAACGAGGAAGCCAAGAAGATCCCGAATGCTGACTTCCTGGCCCAAGGGACCCTCTACACGGATGTGATCGAGTCTGGGACTGACACGGCCCAGACGATCAAGTCCCACCACAATGTTGGGGGATTGCCGAAGAAGCTCGGCTTCAAGCTGATTGAACCGCTGCGCAAGCTCTTCAAGGATGAGACCCGGGAGCTGGGTGAGAAGCTCGGCATTCCGCACGAACTGGTCTGGCGGCAGCCGTTCCCTGGCCCTGGCCTGGGAATTCGAGTGATTGGTGAGATCACACCGGAAAAGCTGGAGATCGTCCGGGAGTCCGACGCTATCCTGCGTGACGAGATCAAGAAGGCCGGCCTCGACGAGAAGATCTGGCAATACTTCACCGTCCTGCCAGGTATCCGCTCCGTTGGGGTGATGGGTGACGGCCGGACCTACGACTACGCGGTTGCCATCCGGGCCGTGACCTCGATTGACGGGATGACCGCTGACTTCGCTAAGATTCCGTGGGACGTCCTGCAGAAGATCTCGGTGCGGATCGTCAATGAGGTCGACCACGTCAACCGGATCCTTTACGACGTCACGAGCAAGCCGCCTTCGACAATCGAATACGAGTGA
>SRR1151252_01362 hypothetical protein
GTGACGATCTTTGAGTATGTAGCCAGCCTTTTCCTAGAGAAAGTGTTTCACATGAAACTCTGGGACTACTCCCACCTCTGGGGCAACCTCCAGGGACGGGTGGCCCCGCAGATCTCACTCTTCTGGGGGATCGGCGTGGTTCTTTTAGTCCGGTTTATCCAACCAGCCATCCAGCGGGTAATCAACTGGGAGGAGGCCCATACCCATGGGATGCTGGCCCTGTTGGTTGTCCTGGTGATGGGGACCGATACTATCCTAACAATCATTAGTATTCACCACTTCCACACGACCACCCAGCAGTGGGAACAACGGGCCGTGGCTTACCAGGAGAAGCTTAAGCAGCGTCTTGATAAGGCCCTGCCAGCAGAACGGCCAGGCCCTGGCCCGGCGGCTGGAGAATTGGCACGCCGACCTCTTAAAGCGCCACCCTGA
>SRR1151252_01363 hypothetical protein
ATGCCCTTTACTATCTCTGAAATCATTGTCCTCTTCTTTACCTACTCAGTTGTTGGCTGGTTGTGGGAGACCTTCTATTGTTCCATCAAGGACCACCACTTCGCCTACCGGGGCTTCTTATTTGGTCCCTACCGTCCGGCCTACGGCTTTGCGGTGACCACCATCCTGGTTGCTACCTACGACGTCCAGCATAACCTGATCTGCTGTTTCTAG
>SRR1151252_01364 ATPase component of ABC transporter with duplicated ATPase domains
ATGGCAGTGTTAGATGTTGAAGGCCTGACGATGAGCTACGCCGATAAGAAGCTCTACGAAGATGCCAGCTTTCAATTGGAAAAACACGAACACATGGGAATTGTCGGTCAGAATGGGGCCGGCAAGAGTACCCTGATCAAGATCCTGATCGGGAAGGTCCTGCCGGTGGACGGTAGTGTCAAGTGGCAGAGGGGGGTCAAGATCGGTTACCTTGACCAGTACGTCGATATTCCCGCGGGGATGACGCTGATTCAGTTCCTCCACACGGCCTTTCAGGAGCTCTACCGTCTGAACGAGCAGATGAACAAGTATTACGCCGCCTATGCAGACAAAATGGATGATGACCTTTTAACGAAGGCCGGCCGGATTCAGGAGAAGCTCGACGCCAATAACTTCTACGAGATCGAGACCCGAATCGAACGGGTGATGAATGGGCTGGGCCTGACCGACATCGGTAAGGCCCACGTTGTCTCCGAGATGAGTGGGGGTCAGCGTTCCAAAATTATCCTGGCTAAGATGCTGCTGGAAAATCCCGATGTGATCCTACTCGACGAGCCGACCAACTACCTTGATACCGCCCATATCGAGTGGCTGATTGACTACCTCAACGACTTCGATGGCGCGGCGATGATCATCTCCCACGACTATGACTTCCTGGAGAAGGTCACTAACACCATCTGTGATGTCTCGTTTGGTAAGATCACCAAGTACCGTGGGAGCTTCCAGCAGGCGATGCGACAGAAGGAGGAACGCAAGGAGGCCCAGGAACGGGAATACGAGAAGCAGCAGGTTGTGATTGAGAAGGCCGAGCGCTTCATTCGTAAGAATAAGGCGGGTTCCAAGTCGACAATGGCCAAGTCGCGGGAGAAGATGCTGGCCCGGATGACAAAGATTGACCCACCGGCTGACAACCTAAAGGCTACCTTCCACTTCCCATACGAGAACACCGGATCGGCCAACGCACTGCGGGTTGAGAACCTGTCTGTCGGGTACGGACGACCGCTGCTGGCGCCGGTGACCTTTTCGATGACAATGGGGGAGAAGCTCCTCTTCACCGGGTTCAACGGGGTCGGCAAGTCGACCTTGATCAAGTCGATTTTGAAGAAGATTCCCGCCCTGGCTGGGACGGCAACCTTTTCCCCGTCGGCTAGGATTAACTACTTTGATCAGGACCTGGTCTGGGAAGATCCGTCACTGACCCCGTTACAGACCATTCAGAACATGTTTCCGACCATGCAGCCGCGGACGATCCGGACGAAGCTGGCCCGGGCGGGGATCAACGCTGCCAACACGATGAAGCCGCTCCACCTGCTCTCCGGGGGTGAACAGACCAAGGTTAAACTGGCGATCCTTGAGCTGACGCCGTGCAACTTCTTGATCATGGACGAACCGACGAACCACTTGGATGATGAGACCAAGGATGGCTTGAAGAAGGCCCTCCAGGAGTTTCCAGGGAACCTGATCCTGGTCAGCCACGAGGAGAGCTTCTATACCGGCTGGCTGGGCAAAATCCTCAACGTCGAGAAACTGAGTCTGAAGTCATAA
>SRR1151252_01365 hypothetical protein
TTGGCCGTGGCCACTGGTGCCAATGCCGACACCCAGGTCCAGGTTCAATCCGGTGATACTGTCTGGAACTTCGCCCAGCAGTATGAATCCACAGTCGACGCTATCACCCAGCGCAACCAGCTGGCCAACCCGAACTACATCCAGGTCGGTCAACAGCTGATTATCCCCGACTCCGCCACCAGCGCCGTCAGCCAGGCGGCCAGTGCTGCCAACGTTGTGGCAACGAACGCCACGTCAGTCACTGCGGCAAGTGCAGCCACCAGCAATGCCGTAACGAGCACCACGACCAACGTGACTACCGCTTCTGCTACGCCAACGACTAGTACCGCCAGCTTTACCGCTACACCAGTGACCCTCAGCTCCAGCACAGCTAGCTCAGCTACCAGCCTAAACAGTGCCACGACGGTTCTGAGTAGCACCCCAGCCAGTGCGGCGGCAACCGCCAACCAGGCCAACACCAGCACGGCCACTAGTCAGACCGACTACGCAGCCAACTCAGCTGCTGCCCTGCAGTCGATGAGCAACTATGTCATCTCCTACGGAACGGTCGAGGAAACGGCCGCCAGCCACAACAACGGCAGTCAAACTGCCCAGGCTGCCCAGCCAACCCAAACCGCAGCAACCACCAACCAGACGAGCAACACCACGTCTGCCAACAACTCCGGCGCTGTGGCCACGGCCAAGTCGATGATCGGGGTACCATACGTTTGGGGTGGCAACACGCCGAGCGGCTTTGACTGCTCCGGGCTGGTTCAATACTCCTACAACCTTGGACCAAACTACCGGACGACCTACCAACAGACCAACCTGGGAACCCACAAGTATGACGTGGAAAACGCCCAGAGCGGGGACCTCTACTTCTGGGGAACGGAAAGCGCCCCTTACCACGTTGCCATTGCCGAGGGTAGTGGAAACTACATCCAGGCCCCAACCCCGGGTCAAAACGTTCAGGAAGGTAATATTCAATACTACCGGCCGAACTACTACATCAGCATGAACCAAAATTAG
>SRR1151252_01366 ABC transporter substrate-binding protein
ATGAAAAGAATGTATACCCTCATTGCCATTATTGTCGCCTTCTTGCTGGTTGCCTTCTTCACCGAGAATAACCAACTCAGTCGCCAACGTATTCCCAAGGTCGGGGTCCTGACCCTGATGCACCACCCCGCCCTCGACCAGATCTACAAGGGCTATGTCGATGAGTTAGCACGGGAAGGTTACCACAACGGTAAGAATATTAAGATCGAATACCAGAACGCCAACGGTGACCAGAGTAACCTCAAGACAATGGCCGCCAAGCTAGTGGACGACCACGCCAACGTGATCTTCGGTATCACCACCCCGGCGGCCCAGGCAGTCGCCAACTCGACCCGCCAGACACCGATTGTCCTCGGCGCGGTGACGGATCCCAAGGGGGCGGGCCTGGTCAAAAACAACCAGCACCCCGGCGGCAACATCACCGGGGTCTCTGACCAGGCACCGATCAATGAACAGCTTCACCTAATCAAGGAATTCATGCCCCACCTGAAGACGCTCGGGGTGATCTACACCTCCAGCGATTCCTCGGCGGTCGCCGGCTACCACCAGATCGTCCGGGAAGCCAAGAAGATGGGAATCAGTCTGAAGGCCTACTCGATCGCCAATAGTAACGACCTCAACCAGGTCTCCGAGCAGATGCTTAGCCAGGTCGACGCCGTCATCGTCCCGACCGACAACACGATTGCCGGGGCCATGCAGACCCTGGTCAAGAACGCCGACGCGGCCAACAAGCCCGTCTTCCCGGCGGCCGGCACGATGGTCAAGCAGGGGGGCGTGGCCACCTACAGCGTCAACCAGTATGACCTCGGGGTCCGCGGTGCTAAGATGACCGTTGCCATCCTGAAGGGGAAGAAGCCGGCCACCATGCCAATTGAATTCGTGCGGCACGGGGAACCAATCCTCAACCTCAAGCAGGCCCGTAAGCTCGGCCTGACCGTTCCCCAACACTTTGAACACGAAGCCAAGAACAAAGGAGTGATCTACAAATGA
>SRR1151252_01367 branched-chain amino acid ABC transporter permease protein
ATGAATCTCATCGTTTCCGCAATCGGGCAAGGACTCCTCTGGGCACTCCTCGGCCTGGGCCTCTACCTGACCTTTCGTATCCTTGATTTCTGTGATATGACTGTTGAGGGGACCTTCCCACTCGGGGCCGCCACCGCGGTGACCGCCATCACTCACGGGGTCAACCCATTCATCGCCACCCTGCTGGCCGTAGTGGCCGGGATGGTCGCCGGTCTGGTTACCGGCCTCCTCTACACCAAGGGAAAGATCCCGAGTCTGTTGGCCGGGATTCTGACGATGACCGCCATCTACTCCGTCAACCTACGGATCATGGGCAAGTCCAACATCTCCCTGCTTGGTCAGCCGACCCTTTTCAACGGCGCCCTCCACAACCTGCCCCAATACTTTGACAGCGTCACGCTCGGCCTCGTGGTCATCGCGATCGTCACCGTTTTGATGATCCTCTTCCTGGCTACCGACTACGGCCAGGCCTTCATCGCCACTGGGGATAACCCGACGATGGCCAAGTCACTGGGAATCCACACCGATAAAATGGTGATCGTCGGCCTGATGATCTCCAACGGGATGGTCGGTCTCTGTGGGGCCCTGATCGCCCAAAATAACGGTTACGCCGACATCAATATGGGAATCGGCACCATCGTCATCGCCCTGGCCTCAATTATCATCGGTGAGGTCGCCTTTGGAGAGTTGACCCTCAACCAGCGGCTGGTTGCCGTCACCCTGGGGAGTATCATCTACCGGATCATCCTGCTGGCCGTCCTCCAACTCGGCTTCTCCGCCAACGACCTCAACCTGATCTCATCGGTTGTCCTAGCCATCTGCATGATGATCCCGCAGTTCGAAAAACAGCTCAACATCAAGAAACCAATTCTGAAGGGAGTCCGGCCTCATGAATAA
>SRR1151252_01368 ABC transporter ATP-binding protein
ATGAATAAACCAATTCTGGAACTCAAGAACGTACAGACTCTGGTCAACAAGGGGACCGCTAACCAGACGAAAATTCTGAAGGGGATTAACCTGCAAATTAACGCAGGCGACTTCATCACGATCGTCGGTACAAACGGGGCCGGGAAGTCGACCCTCTTCAACGTCATCGGCGGGAACCTGCGAGCCGATGGCGGCCAGATTCTCCACAACGGTCAAGACATCACCCGGACCAGTGAGGAGGACCGGACCGCCTTCCTCGCCCGGGTCTTCCAGGACCCCAAGCTGGGAACCGCGCCCCGGATGACCGTCGCTGAGAACATGCTACTGGCCACCAAGCGGGGTGAGCACCGTTACCTAATTTTCCGGCAGCTCAAGCAGAACATGGCCCGCTTCACTAAATTGGCAGCGACCATGAACAATGGCCTGGAAAATCGAATGACCACGGCGACCGGGGCCCTCTCCGGCGGACAACGGCAGGCCCTCAGCTTCCTGATGGCGACCCTGAAGCGCCCTGATATCCTGCTCCTGGATGAGCACACCGCTGCCCTGGATCCCCATACCAGTCTGAACCTCCTCCACGCCACCAACGAGCGGATTACCACGGACCACCTGACGGCCCTGATGATCACCCACCACCTGGAGGACGCCCTCACCTACGGAAACCGCCTGATCGTCTTAAAGGACGGCCAGATCAAGGCCGACTTCAAGGGCGAAGCTAAGCAGGTCCTGACGGTTGATAAGCTCTACCAGTATTTTGAGGACTAA
>SRR1151252_01369 hypothetical protein
ATGACAAGCAAGGATTTATTTAGGATTATGAAGATCAATCACGTCAAAGTCGATCCGCAGAAGACGGGTGAAACCACTGACGTTTTTGAGATCGACCAGCACCGGTTCGGCTACCTGGATCAGTACGGTAACGTTTATCTCAACGAGTATGGTGAGGAGAAGTCGCGGCCGCTGAGCCTGGGTCAGCACTTCTTCAATCGGTGGATCCACCGGGCAGCGGAAGGCTTCCGGACGAACCTTCGCCGTCTCGATAAGTGGCAGGCGGCTTAA
>SRR1151252_01370 hypothetical protein
ATGGAAACCAATACCTATCAGGAACTGGTCGCCTGGTTACACGGCCGTCACTACGGTCTGATTGTCGATGGCCACCAGCTGCACCTGACCCGGCAGGGCAAGGTCATGGCGATCGTGACCCCACCCGACCGCTACCAGGTCCAAGACGTCAACCTAACCTTCAATGAGTGGGTTGAGTTTAACAAGTGCCTACGCAACATCCGCCACTACCTACTGGCGAGTGGCCGGGCCAAATAA
>SRR1151252_01371 phosphoenolpyruvate synthase
ATGAGTAATCGCGATACCGCTAATGTACTCTGGTTTGACGAGCTCCATCGTCAGGATGTTAACCTGGTTGGTGGAAAGTCCTCGTCGCTGGGGGAGATGACCTCGTCGATGGATGTGCCGGTACCCTATGGCTTTGCCACTACGGCTCACGCTTACCGGTACTTCATGGAAGCCACGGGACTAAATGACCAGGTCAATGCCCTGCTGGATCAGCTCACGGACTATGAGAATGCCGACGAGCTCCACGCCACCTGTACCAAGATCCGGGACCTGATCACCAGTGCCCAGATGCCTGATGACCTGGCTAACGACATCAAGCAGGCCTACCTGGACCTGGCCAAGCGGATGGGGCAGGATGACCCCTTTGTGGCGATTCGGTCATCGGCCACGGCCGAGGACCTGCCGAACGCCTCCTTCGCAGGTCAGCAGGAGTCCTACTTAAATATTCATGGTGCCGATGACGTGGTTGACCGTGTCCAGCAGTGTTACGCCTCACTCTTCACTGACCGGGCGACCTACTACCGCCATAAGCAGCACTTCCCGTACGAGAAGGTGGCCCTATCAGCAGCCGTCCAGATGATGGTCTTCTCCAAGGCCTCGGGGATCATGTTCTCCGTCGACGTGACCAACGGGGATGACAGCAAGATCGTGATCGACGTCATCTATGGCCTGGGCGAGTACATTGTCCTGGGTAAGGTGACCCCGGATCACTTCGTCGTTGACAAGCAGTCGATGAAGATTGTCACTAAGAACATCACAACCAAGCCGGTTGAGCTGGTGCGGCTGCCGGATGGCGGGACCAAGGAGCAGCCGGTTCCTGCCGACAAAGCCGATCAGCCGGTCCTGACCGATGACCAGGTCCTGGAGCTGGCTGGCTACGTCAAGGAAATTGAGCAGCACTATGGCTGCTATATGGATATGGAGTTTGCCCTGGATGCCAACACCAATAAGCTCTGGCTCGTCCAGGCGCGGCCCGAAACGGTTTGGTCACAGCGCAATAAGGAAAAACATGCAGAATCAACGGGAGATGATAACGTGGTTGCAGAGAGTGATGCTAAGGTTGCCGTTCGTGGATTACCGGCCAGTCCTGGGGTAGCCAGTGGAGTGGTTCACGTGATTGACAGCCCAAAGGATATCGACGAGTTCAAGGCTGGAGAGGTGTTGGTCACCCTGATGACCTCACCGGACTGGGTGCCAGCCATGAAGAAGGTTGCTGGGATCATCACCAATAACGGGGGGATGACCTGTCACGCGGCGATTGTTTCCCGGGAAATGCAGATCCCATGTATCGTGGGGACCAAGAGCCGTGGCAAGGCCGCAACCGACGTCTTCAAGAACGGTGACGTGGTGACGGTCGATGCCAAAAACGGGGTCGTCTACCAGGGTAAGGTTGCTGCCCTCCTCAAGAAACCGGCTGCGGCCAACCCAAGTGGTGGTCAGGTCGTGGTGGCTGAGACCTTTGCCCCAACTGCCACCGGGGTCATGATGAATCTCGGTGACCCGGACCTAGCGGAAAAGTACGCTAGTCTGCCTGCTGACGGGATTGGTCTGATGCGGGAAGAATTCCTTTGGACCACCTACATCCACGAGCACCCACTTTACCTGATTGAGCAGGGGCACCCTGAGAAGGTTGTTGATATGTTGGCGGACGGGGTAAGCAAGGTCGCCCGGGTGATGGCCCCGCGGCCGGTGATTCTCCGGCTGTCAGACTTCAAGTCGGGCGAGTACCGGAAGCTCAAGGGTGGCGAGAAGTACGAACCACACGAACCGGCCGACTTGCTCGGCTGGCGGGGTGCTTCCCGTTACTACGACCCGAAGTACATCGAGGCCTTCAAGCTGGAGCTAGCCGCCGTCAAGAAGGTCCGGGAAGAATTTGGCTTGAAGAACCTCAACGTCATGATCCCGTTTGTCCGGACAGTCGATGAGGCCCGGAAGGTCACCGCAATCATGCGCGACCAGGGGCTGGTCCGCAGCGCTGACTTCAAGGTTTACATGATGGCCGAGATCCCGTCCAACATCATCCTGGCCGACCAGTTCAACGAGTTTGTCGATGGGTACTCCATCGGCTCCAACGACTTGGCGATGCTGATCCTCGGTTGTGACCGGAATAATGACACGGTGGCTAGTCTCTTCGACGAGCGGAACCTGGCTGTCAAGCGGGCCATCCGCCACCTGATCAAGGTTGCTCACAAGGATGGCCGGACCGTTTCGATCTGTGGTCAGGCTCCATCCGAGTATCCTGAGTTCACCAACTTCCTGATTCAAAGCGGGATTGACTATGTCTCGGTCAACCCCGATATGGTCAAGGCGACGAAACGGAACGTGGCCCACTTTGAACAGCGAATCATGCTGGACAAGGCCACCGGTCGCGGCCTGCAGGACCCAACCGATTACGAGTGGTAA
>SRR1151252_01372 thiol-disulfide isomerase/thioredoxin
ATGGCAATTGAGGCAACAGTGGCCGACTTCGACCAGCAGGTCACCGGTCCGCTGACCGTCGTCGACTTCTGGGCGCCATGGTGTGGCCCCTGCAAGATGATGGACCCGATCATGACAAAACTTGAACAGCGCTACGGTAAGCAGATTAAGTTTGTCCGCTTTAACGTGGATGGCAACCAGGAGATCGCCCAGCGCTACCACGTCATGAGCGTGCCGAGCCTGGTCCTCTTCCGTGATGGCCAGGCCAAGGAAAAGGTGACCGGGGTCTATCCGGAAGCCAAGTTGGCTCACTACTTTGAACGTAAAATTACTGAATAG
>SRR1151252_01373 TerC family membrane protein
TTGTCACTTTTAGAAAAGTTATATGGACCGTTCTTTGATCCACATAACTGGGCAACGGTTATCACATCTGGCCAGGACTGGTTGATCATTCTCTCACTGGTAATGATCGAATGCCTGCTCTCGGTCGACAATGCGGTCGTACTGGCTGCCCAAACACGAGTACTACCGACACTGAAGGAACAGGAAGAATCGTTATTCTACGGGATCTGGGGCTCCTACATCTTTCGGTTCTTAATCATTGGGATTGGGACCTACCTGATCAACTTCTGGGAGATCAAGGTAATCGGGGCAGCTTACCTGGTCTACTTAGTTTATCGCTTCTTCCATAATAAATTCTTCGGCAAACGACCGATGCACAAGGTCCGTAACCGGGCCACCAGCCTGACCGGGCGGAAGCGCTTCTGGTCGGTTGTTGCCCAAATTGAATTCATGGATATCATCTTCTCTGTCGATTCCGTCCTGGCCTCTTTGGCGATTTCGCCCAACCCGGTGATTGTGCTGATCGGGGGCTTGATTGGGATTGCCTGCATGCGGGGGGTCGCGGAGATCATCATGCGTCTGATGCGCAAGATTCCGGAACTAGAACCGATGGCCTACGTGCTGATTTTCATCATCGCGATCAAGCTATTCCTGACCATTCCGGCAATCGATATCGAGATCCCGGCCGATATCTTTGGAATGTTCATGCTCTTCGTCTTCGTCCTGACGATTATCATCCACTTCGTCCGGCGCAAGAACAAGCAGAAGGAGGAATAA
>SRR1151252_01374 ribosomal large subunit pseudouridine synthase D
ATGACCGCTGAAATCCGCTGGCACCTCACCGAATTTCTGCCGGTCAACCAGGAATCGCGCCCGTTGCGTGACCTCCTCCACCGACAATGGTTATTGCCGGACCGGCTGATCCACTACCTTCGCCGCCGACAACATGTCCTGGTCAACGGGCGCTACCAGCCGGTCAACGAACTGGTTCACGCTGGCGACCGGGTCGACCTCCTCTTCACCGGCGACGAGGTCCGGACCCCGACGGCTAATGACTACCGGCCGACCCCCAATCCCCGGCTGGCGGTCCTGTTTGAGAACCGTGACCTCCTGGTGGTCAACAAGCCGCGGGGGCAGAAGAGTCACCCCAACGTGGCGGGGGAAACCGGCACCGTGATGAACGACGTGGCCGGCTACCTGGCGGGGAGTGCTGACGGGGCCTACATGGTTCATCGTCTCGACCTTCAGACCAGCGGTGCCCTGATTGTTGCCAAGAACCCGATCGTTGTCCCGGTCCTCAACCGCCTGATCGCCATGGGCCAGATCCACCGGGAATACCTGGCGGTGGTCGAGGGCCGGCTGACGGGCGCCGGCAAGTGGGACTGGCCGATTGGTCGTGACCCCCGTGATCCCCGTTGGCACGCGGTCGACGGCCTCCACGCCCAGCCCGCGTTGACCTATTACCAGGGTCTGGCTGCCAGCGACCAGCGCTCCCTGGTCCGCCTGCACCTGGCGACGGGCCGGACCCACCAATTGCGGGTTCACCTGGCACACAGCGGGCACCCGATTGTGGGTGACCCGATCTATAACCGCGCTTCCCCTGAACAGATGCTCCTTCACGGGGTCCGCCAGCAACTGCTAATTCCATTTACCTTTCAAAAACATGAAATTGTGGCCCCTCTACCAACCTATTTTCAGGAATATCTGGTAAAATGCAAATTGAGTTAG
>SRR1151252_01375 choloylglycine hydrolase
ATGTGTACCAGCATCTACCAGGTGACCGGTGACCACACCCACCTCCTGGCGCGGACGATGGACTGGCCGGTCCTGGCCGTCTCACCACTTTTCGTTCCTCGCCACTTCCGGTGGTCAACCGCCTTTGACCACCGGGTGTACGAAAACCGCTACGCGATGGTCGGTGGGGGCAGCCTGTCCGCCAGCCGAATCGACGTTTCCGATGGGGTCAACGAGCACGGCCTGATGGCCCAGAAGCTGACCTTTGATAACGGGGCCCACTATCAGGATGCGCGGCGAGATGACAAGGTCCAGCTGGCGGCATACGAGTTCATCTTCTGGGTTCTGGGTAACTTTCGCTCGGTTCAGGACCTGGTCGACCACCTGGATGAGGTTGAACTGATGAGTGAAAAGAATAGCGATACCAAGTACGGCAAGCCCGAGCTCCACTTCGCCCTGGCTGATCGTACCGGTCGGGCCGTGGTGGTCGAACCCAGCCAGACCCCGCTGAAGGTGATCGAGAACCCCCTCGGCGTGGTGACTAATAGTCCGGACTTTGATCGTCAGTTGGCCCAGATGGAACGCTACGTGGACTTTACCACTGATTTTCGGGCAGGCCGGGTACCGCTGAACACGCCCCGGGTGACGACTGGTCGCCTCTCCGGGAAGGCCAACCCGCCCGGCTACTACTCACCGAGTGCCCGCTTTATCCGGGCAGCCTACCTGAAGGAGCGATCGGACGTGCCTGCCGATGAGGCCACCGGGCTGATCAGTGAGTGGCACCTGCTCGACAGCGTGACCGTGCCGCAAAACCGCCGCCACCAGCGGACCTACTCTGTTTACCGGGCCGTGACGGTTGCCGAAAGCCGCAGCTACTACTTCCAATCCTATCATCGGGGCGACATCACCAAACTCCAGCTGACCGACGACATGCTGAACTGGACCAAGCCCAAGGTCTACCACGTCCCTGACCGACTGAGTGTCCGGGAGGTGAAGTAG
>SRR1151252_01376 magnesium and cobalt transporter
TTGTTGAGTACCGAAGAAATTAATGACCGCAGCAAGTGGATCAGTGTCTTTGAACCCCTCCCCCGGGAACGTGAGGACCTAATCAAGAAGTACGAGGTTACCAAAGAACTGCTCGACTACGCTATTGACCCCTACGAGAAGGCCCGGGTGGAAGTCGATCCCGATGCCGGCGTAACCCTGCTGATCTTTGACGTTTACGTGCCAACCCACGCCATCACTGCGCCACAAACTGCCCCGATCGGCATCATGTTGACAACCAATAACATCATCACCTTCACCAACGCCAAGACCAACTTTGTCAACGGGATCATCGCCAATCAGCTGCGAATCCTGAAGCGGCGGGCCCCAATCACCGACAAGTTCAACCTGGTCTTTCCGATTCTCTACCGCCTGTCTACCAACTACTTTAGGCCCCTGCGCCGGGTTGACCAGCAGCGTCAGCAGATCCAGCGCAACCTGCAGCGGCGGACCGGACGTAAGGCGATTAATGAGTTCATGGAGATTGAGACCGGCCTGGTTTACATTCTGACCTCACTCAAGGGGAACGTCTCCCTGCTGGCCGAATTCAAGCGCCACTACGCCGACAAGATGTCGACCCGGCAAAACAACGACCTCGACGATGTTATCGTTGAAGCACAACAGGGGCTAGAGATGGCCCAGATGACCTCCGACGTCTCCGAACGGGTCTCCAATGCCTACAGCAAGGTGATCGACAGTGACCTAAACCAGACGATGATGTATCTGACCATCTACTCCATCGTTCTCTCGGTTCCAACCATCGTCTCGGGGTTCTACGGGGAAAACGTCAAGCTCCCCCTCGCCAATGGTCAGTACTCATGGGTCTTTACAATTGTCATCACCCTGGTCCTGATGGTGGCCTCGGCGATCTTTATGATCACCCGTCACTGGTGGAAGTAA
>SRR1151252_01377 cation transporter
TTGAGTAAGTTCAAGAAACACGTCATACGGGAAATGAAACAGTGGGAGCAGAGCCAGGCTCACGAGCTGACCAAGATTCGGGCCGCCCAGCGTCACCTGATTTACAACGTAGTGGCCTACCTAGCGATCTCGATCCTGGAGTATTGGCTGGCCGCCATCAGTCAGTCCCAGACGCTGCGGGCCGATGCCTTCAATAACCTGTCGGGGATCATCTCGACCGTTCTGCTGATGATGGGCCTGCATATTGCCCGGGATATCAACGATAACGATATTGCGGGAGCCAAACTTCCGGACAGCAAGTACCAGAAGGTGTTGGGTGGGGACCAACGGATTCAGTTTGTTCGCTGGCGCTATGAAACGGTCTTCTCCCTGGTTACGGCGGTAGTGATGGTTTCCATTGCCCTCAGCGTTATCGGTGACGGAATTCGTGGGCTTCTCACCCCAGCCAGGCGGGTAGTCCCCGAACCAGTGGCCATTGTCGGGGCCGGGATTGCCTCGGTAATCATGCTGGTCGTCTGGTACATGAACCGCCGCACTGGGCACCAGTTGTCGAACGCCGCCCTGCTGGCCTCGGCTCAGGATAGCCTGAGTGATGCCTTCACCAGCATCGGGACGATGGTTGCCATCGCCGGGGCCCTGCTCTTTCACTTGACCTGGTTGGATGGGGTCACCAGTATCGTAGTCGGCTTCTTCATCCTCTATTCGGGGTTGAAGATCTTCTTTGAGACTAGCTTGAACCTGGCTGACTACTTTGACCCCAAGGCGGAGCAGCAGTACTATGACGCCATCCGCAATGTCAAGAAGGTCCACCAGATCGTGGAACTCAAGGCCCACTATAACGGGAACGTTGTCTCATTGGACGCCACCTTGATCGTTAATGGCAAGATGACCGTTCTGGAGAGCTACCAGCTGTCGGAGAAGATTGAGCGGATGCTTCGCAAAGAATTTGGGATCATCGACGTCGATATCTCCTTTATGCCGGACCCGCACTCGTTTTCGGATAAGGATGTCAGCGGGCACTTTTAA
>SRR1151252_01378 dipeptidase
ATGAAGAAAAAGATGAGCAGTTGTACGGCCATGCTGGTCGGGAAGGGTGCCACGATTGACGGTTCCACGATCATTGCCCGGGACGAAGACGCCGAGGATGGGGTTAATCCTAAGACTTTCAGGGTATTCCCAGCCAAGGATTACACCGGTGAGCACTACGTTTCTAAGTACAATGGCCTGACTGTTGATATGGAAGGTCAGGGATGCCGGTTCACGGCGACGCCCAATGGGGTTCCAGACGAGGGCCGCTGGGACGAGCAGGGGATCAACGAATACAACGTGGCCATGAGCTCTACCGAGACCGAAATGACCAACGCCCGTGTCCTCGGTCACGACCCACTGGTCAAGGACGGGGTCAACGAGGACTCGATGCTCTACTTGGTTCTGCCGTTTATCAAGAGTGCCCGTGAAGGGGTTCAACGCCTCGGCCACCTGATCGAAAAGTACGGGACCGGCGAGACCAATGGGATTGCCTTCAGCAACCACGATGAGGTTTGGTACCTGGAAACCGCCGGTGGTCACCAGTGGGTTGCCCAGCGGATCCCGGACGATGCCTACGCAATTGCGCCAAACATCATGTGCATCGAGGAGATCGACTTCGCTGACCCTGACAACTACATGTTCGCCAGCGGCATTCGCGAGTTCGTGGACAAGTTCCACCTTAACCCGAACCCAGGCACCTTCAACTTCCGGAACATCTTCGGGACCCAGGATGAGGCCGATGCCTACTACAACACGCCGCGTTCCTGGTATGGACAGAAGCTCTTCACCCCATCTGTAGAGCAGAATCCAACTAGTCAGAACATCCCATTTATCCAGCACGCCGAGAAGAAGATCGCGGTTGAGGACGTGGAACAGTTCCTGTCATCGCACTACAACGGTACCCCGTACGACCCGATGGGCACCTTCGCCTCCGGTACCCCAGAGGAACAGCGGAAGTTCCGCTCCATCGCCTTAGACCGGAACCAGAGCTCTTGCATCCTCCAGATTCGCAATGACGTGCCAGCCGAATACGCCGCCATCCAGTGGATTAACTTTGGCTTCTACTGCTACAGTCCATACGTGCCGTTCTTCACCAACATCAACGATACCCCGGCCAACTACCAGGTTGCCACGAACGATGCCGACCCGGCCAAGAGTGCCTACTGGCTGCATAAGCTCCTCGAGGTGGTCGTGGAACCACGCTACCACGAGTTCATTAACGAGGTGAATGATTACCGTGACGGTTGCCAGAGCTACGGGGTCGGCCGCGTCGACGCGATCACTGCGGCGGCCGCGGGTAAGCACGGTGACGAGCTGACCGCCTACCTGACGACAGCCAACAAGGAGTCCGCCGCCTACGTGACGACAGCCACTCACCAATTGATGAGCAGTCTGATTCACCAGGCCCTGTTGAACTCCAAGTTCCAGTTCGAACGTGGGGATAACCTTTAA
>SRR1151252_01379 xanthine permease
GTGAAACAACCAATGACGGTCACAACTCATGCCCACCAATTCAACTTCGCGGACCAGTGGAAAAACTTCGTGCTCGGTTTCCAGCACCTGCTGGCAATGTATTCGGGGGACGTCCTCGTACCACTGCTGATCGGACAGTACCTACACTTTTCGACCCTGCAGATGACCTACCTGGTCTCCATCGACATCTTCATGTGCGGGGTCGCCACCCTGCTCCAGCTGAAACGGACCCCGGTAACCGGGATCGGCCTCCCCGTTGTCCTCGGCTGTGCCGTCCAGGCCGTCACCCCGCTGGAATCGATCGGTGGCAAGCTCGGTATCACCTACATGTACGGTGCAATCATTGCGGCCGGGGTCTTCGTTTTCCTGATCGCCGGCTTCTTTGCCAAGCTCAAGCGCTTCTTCCCGCCGGTGGTCACCGGGTCTTTGATCACCATCATCGGCTTCACCCTGGTCCCAGTCGGCTTCCAGGACCTCGGGGGCGGCTCAGCGACGGCCCACTCCTTCGGTGACCCGGCCAACCTGCTGATTGGCTTCCTGACCATTACCATCATCCTGCTCTTCAACGCCTTTGGCCGTGGCTTCATCAAGTCGATTGCCATCCTGCTAGGGATCCTGATCGCCTCCTTTGCCGCCGGAGCAATGGGCTTCGTCTCCCTGAAGCCGGTCAGTGAGGCGGCCTGGTTCCACGCCCCACAACTCTTCTTCTTTGGGGTACCTCGTTTCAACCTCAGTGCCATGATCACCATGATGCTGGTCTCCTTGACCACCATGATTGAGTCGACCGGGGTCTTCTTCGCCCTCAGTGACATCACCGGTCAGCAACTAACCGGTAAGGATCTCGAGCGCGGTTACCGGGCAGAGGGGATTGCGGCCATCCTGGGCGGCCTCTTCAACACCTTCCCCTACTCAACCTTCTCTGAGAATGTCGGGGTCCTGAAGATGTCCGGGGTCAAAACCCGCCGGCCCGTTTACTACGCCGCCTTCCTCCTGCTTCTCCTCGGCCTTTTGCCGAAGGTCGGCGCCCTGGCCACCGTCATTCCGACGCCGGTCTTAGGTGGGGCAATGATCGTGATGTTCGGCATGGTCGGCGTCCAGGGAGTCCAAATCCTGCACAAGGTTGACTTCAGCAACAACGCTAACCTGCTGACGGCCTCCGTCTCGATCGGCCTGGGCCTCGGAGTCACCATGTACCCTCACATCTTCCAGTACCTACCGACCGAGTTCCAGATCATCCTCGGCAACGGGATCGTGGTTACCAGCGTGTCCGCTGTCCTGTTGAACCTACTCTTCAACCACCGCTGGGCCCAGGCAGCGAAGTAG
>SRR1151252_01380 Na+/H+ antiporter
ATGAAAAAAGTCAGTTTCGGTGAGTCCATCACCATCTTAGTCATTATGTTAATCATCCTGGGGACGGCGGTCATCCACTTTGGCCTCTCCCCACAAATTCCGGTCCTGTTTACCATCGCCCTGCTGGTCTTCTGGGCCAAGCTGCGCGGTGCTTCCTGGGATGACATCCACAAGGGCATCCAGGATGGGATCGGCACGGCAATCATCCCGATCTTCATCTTTATCCTGATCGGATCCCTGATTGCCGTTTGGATCCAGGCGGGGATCATCCCCTCCATCATGGTCGCCGGCTTCAAGCTGATCAGCGCCCGTTTCTTCGTCCCGTCAACCTTCGTCGTCTGCTCCCTGGTTGGGCTGTCGATTGGAAGTGGCTTCACCACTATCTCAACGATCGGGATCGCCCTCTTCGGGATGGGAATGGCGATGAACGTCAATCCGGCCCTGGTTGCGGGTGCCATCATCTCCGGGGCGGTCTTCGGGGATAAGATGTCCCCCCTATCCGATTCCACCAACCTAGCATCGGCCATTGCCGGTAGCGACCTCTTCGCCCACATCAAAAACATGATGTGGTCCACCATCCCCTCGTTTGTCGTCTCCTTCATCCTCTTCTGGATTCTGGGCAATAGCAACGGTCAGATGAGTGCCGCCAAGATCAACCATACCATCACCATCCTGCAGACCCACTTCACAGTCAGCTGGTGGGCCCTGCTACCGATCATCCTGACGTTCGTCTGCGCATGGCGTCACGTTCCGGCCATCCCAACCCTCTTCATCAACATCCTGGTGACCGTGGGGATGATCTTTGTCCAGAAGCCAGGTGAGTCGTTGAAGTCACTGACCAACCTGATTTCTGAGGGCTTTGTCGCCCACACCAGTGACGGTGCCGTCAACGCCCTCCTCTCCCGGGGTGGGATCACCAGTATGATGGGAACCGTCTCCCTGATCATCGTCACCCTCTCACTCGGGGGGATCCTGATGCAGTTCCACGTCGTTCAATCCGCCATGGAGCCCCTAGTCAAGCGTCTCCGCAAGCCGGGGCCGCTGGTCACCACGACCATCCTGTCCGGGATCGGGATCAACCTCTTCGTTGGGGAGCAGCACCTCTCCGTCATCCTACCCGGTAAGGCCTTCAAGCCCGCCTTCCAGCGGATGGGCCTTGCCCCACTGGCCCTCAGTCGGGTCCTCGAGGACGGGGGTAGTGTCATCAACTACCTGATCCCATGGGGTGTGGCCGGCTCCTTCGCCGCTGCCACCCTGGGTGTCCCCGTTCTCCACTTCCTACCGTTCGTCTTCTTCAGCCTCCTCAGCCCGGTCTTCTCAATTCTTAGTGGGTTCACTGGGGTTGGTCTGAAATGGGCTAAACAACCACAACAAAATTAA
>SRR1151252_01381 aminotransferase
ATGGTTAAAATTGCGCCATTTGGCGTGGAATCCTGGCTAAACAAGTGGGAGAAGAGCGCCACTTACGACATTTCCCAGAGCACGATCGCATCCCTGAGTATGCACGACCTGCTCAACCTGGACGGTAATAACGGTCAGGAGTTCTACGCGATGTTGGATAAGCAGAAGATGAACTACGGCTGGATCGAGGGGTCACCGGAATTCAAGCAGGAGGTCGCCAAGCTCTACCAGCATGTTGATCCGGAGAACATCCTCCAGACGAACGGGGCCACCGGCGCCAACATTCTGGCCCTCTACGCCCTAATCAACCGCGGTGACCATGTGATTGCCGAGTACCCGTCCTACCAGCAGCTATACGACATTCCAAAGTCGCTGGGCGCCGCCGTCGACTACTGGCACATCCACGAGGAGGACAACTGGTATCCCGACCTCAACGAGCTGAAGAAGCTGATCCGGCCCGACACTAAGATGATCTGTCTGAACAACGCTAATAACCCGACCGGGACCATCCTGGACCGGGACTTCCTGGAACAGGTGGTGGAGATCGCCAGGGCTGTCGGTGCCTACGTGTTGGTGGATGAGGTCTACCTACCATTGGACCACCCGGCGGACTTCACCCCGATCGTTGACCTCTATGACAAGGGGATCTCAACCAACTCCCTGTCGAAGACCTACTCCGTGCCCGGGGTCCGAATCGGTTGGACGGCAACGAACGCCGAATTGGCGGACGTCTTCCGTAAGTTCCGGGACTACACGATGATCTGTGGTGGGGTCTTCAACGATCAGCTGGCCACCTACGTCCTCCGGCACCGGGACCAGGTTTTGGCCCGTAACCGGCAGCTGGTCCTCGGCAACCTGGCCATTTACAAGGACTGGATCGACCACGAAGACCGGGCCAGCGTCGTGATGCCCCGGGCCGTCTCGACCTCCTTCCCGAAGCTGGACGTGCCGGTGGATATCCACACCTTCTGTGAAAACCTGCTGAAGGATACGGGAGTCCTGTTGGTTCCCGGGGACGCCTTTGACACGCCGGAGCACGTCCGTCTGGGCTACTGCGCTCCCGAGGTGACACTGCGGGAGGGGCTTAAGCGGCTTTCCAAGTACATGCACCAATACGACTAG
>SRR1151252_01382 phosphoglycerate mutase
ATGATGACAAAACTTAATCTGTACCTGGTCCGTCACGGACAAACCTACTTTAATATTTACAATAAGCTCCAGGGCTGGAGCAACTCCCCGCTGACCGAAAAGGGTAAACAGAACGCCCGTGATGCCGGGGAACGGCTCAAAAATATTCACTTCGCTGCGGCCTTCTGCAGTGACACCACCCGGGCGGTGGAAACCATCCAGACGATCCTGGACCTCAACCAGGCTGACTCGGTGAAGCACCCAGTAACTTCGCCGTACTTCAGAGAGGAGTTCTACGGTTCCTACGAGGGTACCAACATGGACCTGGCCTGGTACAACGCTGGAGCCCCCCACGGCCTTAAAAACTTCCATGACATTGTCACCGAGCATTCGATCGGCCAGGCTAAGGATTGGCTGAAGGACGCCGACCCGTTCCACGATGCTGAGAACAACGACGAGTATTGGGCGCGGATGGATAAGGGAATCGAACTGGTTCGCCATGCTGACCTCCCCGACGGTGCTAATGTCCTCTGGGTCAGCCATGGTAACACCCTGCTAAGTCTGGTCGAACGCTTCGGCGGTGGCAAGTATGACGTCACCGTACGGCCCAAGAACGGGAGCTTGACGACGGTCACCTTAACGGACGATCGCTTTAAGATCGTTGAATACGACAAGTAA
>SRR1151252_01383 hypothetical protein
ATGACATTAAAGAATACCAGTAACGCTGACATCGTTGCCGCACGAATTGTGGCCGTCAATGGCAGGGCGGTCAAGGTTATCACCGAAGATGGCCAGAAGCTGCGCATTCTCCTCACCAAGCAATACCGCCAAGATAAGAACTGGTTGGCATCACTCAAAGACATCCTCAACGCGGGGATCTGGATCCCGGTCAATCGCCATCTGAAGCGGCTGTTCAACTACGACTGGCTGACCGGGCCAACCCCGGCCACCGTTCCCGTAAAGGATTAA
>SRR1151252_01384 alkaline phosphatase
ATGAAAAAATTAAGCAAATTTGTGGACACTAGGATTGGCTTTTTCGTCCTCCTGGTCGTCCTTTTTTGGTTCAAAACCCTGTTTGCTTACTTTACCGACTTTAGCCTCGGGGTTGAGGGACCCTTTCAGTTCCTGATTCTAATCTTCAACCCCCTGGCAACCACTGCACTAATTTACAGCCTAGCATTCTACTTCAAACGGGCCCGCTTCTTCTACCCGGTGATCATGGGCTTGGACATTGCCAACACGCTTTTGCTTTACCTCAACGTGATCTACTACCGGGAGTTCACGGACTTCATGACCATCGCCACGATGACTGGTTACTCCAAGGTCAACCAGGGTCTTAGTGGCAGTTCCTTGGCCCTGACCAATCTCCACGACGTTTTCTATTGGCTTGATATCGTGGTCATCCTGGTCCTGATGTTGCTGCGCAAGATCCACTTCGACCCGCGGGCAATCGGCAGCCGGTTGGCCTTCGCCTTCACCTCAATGTCACTGGTCCTCTTCGGGGTCAACCTGGCATTTGGTGAGATGAGCCGTCCGCAGCTGCTTGGCCGGACCTTTGATCGCAACTACATCGTCAAGTACCTGGGGATCGACGCCTTCACTGGCTACGACCTAGTTAAGTCCCAGCACATCAACGATATGCGGCAGAGTGCTACCAAGTCCGAGCTGGAGAAGGTCAAGAAGTTCACGGACAAGCACTACGCTAAGGCGAACCCACAGATGTTCGGGATCGCCAAGGGACGGAACGTGATCGTCATTCACCTGGAGAGCTTCCAGCAGTTCATCATTGACAAGAAGATCAACGGCCAGGAAGTGACCCCCTTCCTGAACTCGCTCTACCACAGCAACGACACCTACGCTTTTGATAACTTCTTCCACCAGGTCGGCCAGGGGAAGACCAGTGACGCGGAAAACATGCTGGAAACTTCGACCTTTGGCCTGCCCCAGGGGTCCCTGTTTGCTACCTTGGGCAGTGACAACACCTTCCAGGGGGCCCCGGCAATTCTCAACCAACGGGCCGGCTACACCAGCGCGGTCTTCCACGGCAACGTTGCCAGCTTCTGGAACCGGAACAACGTCTACAAGAACCTTGGTTACCAGTACTTCTTCGACGCCAGCTACTACGATACGTCCGGTGACAAGGCAACCGGCTATGGACTGAAGGACAAGCTGCTCTTCAAGGACTCAATCAAGTACCTGCAGGCCCTCCAGCAGCCGTTCTATGCCAAGTACATCACGGTCACTAACCACTTCCCGTACGACCTGGATGATGAGGATAAGGATCCGAACTTCCAGACCACTAACACCGGTGACAGCAATGTCGATAACTACTTCGTGACTGCCCACTACCTCGACCAGTCTATCCAGCAGTTCTTCGACTACCTGAAGAAGACCGGTCTCTACGATCACTCCATCATCATGCTCTACGGTGATCACTACGGAATCTCTAACAGCGAAAACACCTCGCTAGCTAGTGTTCTTGATAAGAACGCCGACGACTGGACCGACTTCGATAACGCCCAGCTCCAACGTGTCCCGATGATGTTCGTCATTCCACACTCCGGAGGCCACGGTCACATCGACCATACCTATGGTGGGGAAATCGACGTCCTGCCGACCCTGCTTCACTTGCTGGGGATTTCGTCCAAACGCTATATCCAATTTGGGACCGACCTCTTCTCCAAGCAGCACAGCCAGGTCGTCGCCTTCCGCAACCAGGATTTTGTCACCCCCCACTATACTGTGATCGGCGGCACGGTTTACGACAACCGGACTGGCAAGGAGGCCAAGCTGACCAAGAAGCAGCAGGAACGGATCAAGAAGGATCACGAGCTGGTCAACACCGAGCTTAGCCTGTCCGACTCACTCAACGAGAAGAACCTCCTCCGCTTCTACCATCCAAAGGGCTTCAAGGCGGTCAACCCGGCCGACTACAACTACTCCAACGGGTTAAAGCGGGCCGAGCGAATCGAACGGAAGAAGGGGAATAAGTCGACTAGTCTCTATTCCGAGAACCATGATCAGTCGACCGAAAACGACTTCAGTACCGATGCACCGGAGCAGAACCACTCCTCGACCGATTCTAACCGGATCAAGATTACCAACCCGGATGCCAACAACAAGTAA
>SRR1151252_01385 GNAT family acetyltransferase
TTGCCTTTAACTGTTAAACTGCTCAACCCAAGTCTACCTGAATATCGACAGGTCAAGGCGCTCTACTACCGGGCCTTCCCGAAGTACGAACAGGAGGCCTGGAGCCGGCTGCTCTTCAAGCGGCTTTTCCGGCGGGCCGACTTCCTGGTCTTCTATGACCATGACCATTTTGTCGGTCTTTCCTACGTCATCCACCACTACGGAATCCACTATGTTCTCTACCTGGCAGTCAACGACCAGGTTCGATCTCGGGGCTACGGGAGCCGAATCCTCGACCAGCTCAAGCGGCAGTATGCTCCAGACATCCTGATCCTGGATATCGAGCAGCCGGACGCCGCGGCGGCTAACAATCACCAGCGTTTGCGCCGACTGCGCTTCTACCGCAAAAATGGTTTTACCCTGACGGAGCGTTTGACGAGAACACCAGAAGTCACCTACCAGTTGTTGGCAACCCGGCAGCGGGTTGAACACACCAAGGTCGACGAAATGTTTGGCTAA
>SRR1151252_01386 D-alanyl-D-alanine carboxypeptidase
ATGAAAAAGTTTTTGGCACTCTTATTGATGATCCCCCTGCTGCTTGGGATGACTGTGCCCCCTGCACACGCAAAGCCACTGATTGATGCCTCGGCCGCGGTAATGGTGGATGCCTCTACTGGTCAGGTGATCTATGAACAAAACGCCCAAAAGAAGTTGCCAATTGCCTCGATCAGCAAGCTCCTGACGGCGGTGGTGATTGAAGATGAGGTCCACAGCAAGCAGATCACCGGTGATACCAAGGTCAAGATTGACAGTGGGGTTGCTGATATCTCAAATGATCCCCAGTATTTGGCAATCGGCCTGCAGGAGGGGAATGCCTACACGGTCCGGGAGCTGTTGAACGCCTCCTTGGTCAAGTCAGCTGACGGGGCGGCGCTGGCCTTATCAGCGGCAGCCGGGGACAGCCTGGATGAATTTGACATGAAGCTCCAACAGAAGGCTCGAGATATTGGCTTGAAAAATTACACGATTGTCAATCCGGTTGGGCTGACTAACGGGGACCTGAAGTCATTGGCTTCTAAGCAGTACGCGGACAATGCCGAAAACGCCATGACGGCTACGGATGTTGCCATCCTGGCCCGCTACCTAGTAAACCATTACCCGCAGCTGCTCCAGGTCACGGCCCAGAAGCAGGCCACCTTCATGATTAGTAAGGGTAAGACAAAGACCGAAAAGAACCTGAACGAGATGCTGCCCGGTGGCAAGTATACCGTACCGGGGGTGACGATTGACGGCCTGAAGACGGGAACCTCGGACAAGGCGGGGGCCTGCTTTGTCAGTACCGGGAACTACCGGGGTCACCGGATCATCACGGTGGTACTCCACGCTAACGGCCAGAACAAGGATAACCGCTTTGTACAGACCCAGCGCCTGTACCAGATGCTAAAGCAGAGTGACCGTCTGCAGACCATCACCCTACCGAAGAATATCCGCCAGCAGCCACTGGCCGATGGGCAAACCCGTCAGGCGACACTTAGTCCAAAGCAGATCACGGTCTGGAATGCCGGCGGTCATATTCACAAGTACACGTTAGCGGTCAAGATGAAGAAGCAATACCTAAATAAACAGGGACAACTGGTGGCGCCACTTCGCCGCAACCAGACCCTGGGGGATCTCGACCTTTCCAGTAGTCAGGTCAAGACCCTTGACGGTGGTCCGCTGACATACCGGCTGACCAGCACTGATAATGTTGCCCGGGGAAACTTCTGGCAGCGGCTATGGCACTAA
>SRR1151252_01387 hypothetical protein
ATGAATAACAAGCAAAAGCAGTTTATCTTGCTCACGACGGCCATGTTTGCCGTCATCGTCCTTATCTTCAACATTCACGCCTACGTCGACAGCAGTCGCTTCATCAGTGGTGCCAGTCGCCCGAGTCAGGTCCTTAACGTTAACCGGCTCCGCCATCCAAACATCAACAAGCCATCTGAGCACCGGCACTACCTGGACCTATCCAAACAGGGCCAGCTGCGGCTCATCATGGTACCCGGGCTAAACCGTCTTTACGTGCTCAGCGGACAGCGGGTGGTCTACATCATGCACACCCGTACCAACATTCAACGACGAGCACTCACCAGTCAGGGACACCATGGCCAACAGGTTGCCCACGTCAATTCCGACCACACCCTGGCAGGGCGCAACTGGTCGGCACTGAGTCATCAGTGCTACATCATCGCCCCCGCAACGGTTGACCAGGACCATGTTGCCAAGGACTGGCTGAAGACGGCATTTGCCTTTCCCAACAGCATCCAGTTATCACAGCCGGATGCCCAGTGGCTCCAATCCCTGCCCAAAAACACCAAGATCATCATTCGTTAA
>SRR1151252_01388 hypothetical protein
ATGCTTAGACAGTACCTAACGCCGGCGTTTCTTCGTCACCTCGTCATCAGTGACGGCGCCCTGGTTGTTTTAATCATCATCTATAACTTGCTCGCGATGCTTATTCCCATTGTAAAGCTCACCTGGCTGACGGGACTCTGCATCTTCATCCTGATCAACGTAATCCTAATCGGTCTAAAGGTGGTTATCCCGCTACTTAACCAACGATGA
>SRR1151252_01389 cell surface protein
TTGAACAAACGAGCGAAGTATTGGATCTATGGGGCGTTCTGCTTAATTGTCATTGTACTGGCTGTGACGCCACAATTACGGGACCACCGCCAGCGGGCTCAGCAACCGCGTCAGGCAGCGGCCAGTTGCCCCGTAAAACGCCCAAATAGCATGGGGAGGGGGACGGGAAGCCACTATCTGCGGAAGCCGATTAACTGGCGTAAGTCCTCAGAAACGGTTCCCTACCCGGATGTTAATAAGGTTAAGGACCTCTGGGTTAAGGTGGACCTAAAGAAGAACCGGACCTACCTCTACGACGGGTCAAAGCTTATCTATACAATGTATTGTACCGGCGGCATCTACAAGAAGGATCCCAAGACCGGCAGGGAGAAGAGCGCCACTCCGACCGGGACCTTCCATGTTCAACAGGAGCGTGGTGATAGCTTTTACAACGCCAAATTGCAGGAAGGGGCTAACTACTACACTTCCTGGCTGAACCACGGGGAGTACCTCTTCCACAGCGTACCGACCACGGCCGATGGATCGTACAACATAAAGGAAGCGGCCAAACTGGGTAAGACCCAGGGATCACACGGCTGTATTCGTCTGTCAGTTCCCGATGCCCGCTGGATGGAGCAGAACTTACCGGTTGGCACCAAGGTCGTCATCGTTGGTTAA
>SRR1151252_01390 hypothetical protein
ATGGAAAACATCCTCAGTTATCCCCGGCGGTGCTGGACGTATATCATCCACCACCATTGGTCTAAGGACATTCTGCGGGCCAACCTCTTTTACGTCCTCCTCGTGATCGTGTACAACCTCTGCCACTTTTCACTGGCCGCCATTCATTGGCACGTCTTCAACCAGTTCTTCTGGCTGATGAACCTCTGCCTCTTCTTCAAGCTCGGCCTCGACGTTATTGACCGCATCCTCCAGCAAAAGTAA
>SRR1151252_01391 sodium transporter
ATGAATAAGGTTGTTTCATTTGGAAGGTGGCTAAGCAAGTGGTTTACACTCTTTGTGGTGTTATGGGCGGTATTCAACTACCTTGTACCCAGTTTTTCAGCCCCCGTTGTTGCTAACACAAAGTATCTGTTGGGCGTGATCCTGTTTGGGATGGGGCTGACTCTGACTGGCCAGGACTTTAGACGGATTGTTCAAAAGCCAGTCCCAGTCCTGCTGGGGACAGTGGCCCACTATCTGATCATGCCGAGCCTAGCCTGGCTGCTATGTCTGGTATTTCAGCTGAAGGGGGCGACAGCGGCCGGGGTGATCCTGGTGGGCGCCTGCCCGAGCGGAACCTCATCGAGTGTCATGGCCTACCTTGCCGGTAGGGACGTGGCCCTGGATGTGTCGATTGAGGCTCTGTCGACCCTGCTGGCCCCGGTGATGCTACCGATGATTCTCTACCTGTTTGCCGGGCAATACGTCAAGGTACCGACCCAGAGTCTGTTCATGAGCACGCTTGAGATCGTGGTTCTCCCGATTGTCTGTGGGGTGGTGGTACACACCTTCTTTGGCAAACGACTGGCGCCGGTTCTGGACTTTTTGCCAATCGTATCCCAACTGGCGATCCTGGCCATCATCGGGGCGGTGGTGTCGGCCAACCATGCCAACCTGTTTACCGCCGCGACCGCGATCGTGATTCCGGTGGTAATGCTGCACAATCTATTGGGTTACACGCTGGGTTACCTATTTTCACGGTTGCTGCGTCTTCGCCAGCCGCAGCAGAAGGCCCTGACGTTTGAGGTCGGCATGCAGGACTCTAGTCTGGGGGCCACCCTGGCACTGACCTACTTCTCACCGGCTGCCGCGATTGCGTCAACCCTCTTCAGCATCTGGCATAACATTTCAGGATCTGTCCTGTCATCCTGGTGGAAAAGCCATACAAGAAAAGTCTGGCGGAGATGGTCCAGGACTACCGGCGTGTGGAGGATGAGGCCGTGGAGTAGGTTGATGTTTTGA
>SRR1151252_01392 hypothetical protein
ATGAATGAAGTACGACAGGATGGTCAGATTGTTGACCAAATCATCAAGGCCTTGCAGGGTGTTGTTGACCCGGAGCTTGGAATTGACCTGGTTAACCTGGGGTTGATCTACGGAATAGATATGACCATTGATGGGACAGTAACGGTCACGATGACCCTGACGACGATGGGCTGTCCGATCACGGACGTGTTACGACAGATGATCGAAACAGCGATCCGGAAAGTGAATGGGGTTTGTCGGGTCCGGGTCGACGTCGTTTGGGAGCCGGCCTGGACGCCGGCGCGGATGAGTAGGCTGGCCAAGATTACCCTTGGCTATCACGGTTAA
>SRR1151252_01393 dihydroxy-acid dehydratase
ATGGACAAACCGTTCATCGCCGTCTGTAACTCCTACATTGAGATTGTTCCGGGGCATGTCCACCTGCGTGAGCTTGCGGATATTGCCAAGGAGGAGATTCGTAAGGCGGGTGGGGTACCGTTTGAGTTCAACACGATCGGGGTCGATGACGGTATTGCGATGGGCCACATTGGGATGCGCTACTCACTACCCAGCCGGGAACTGATTGCCGATGCGGCCGAAACGGTCATCAATGCTCACTGGTTCGATGGGGTCCTGTTTATGCCAAACTGTGACAAGATCACCCCGGGGATGCTGATGGCGGCCGCCCACACCAATGTCCCGGCGGTCTTTGTCTCGGGCGGACCGATGAAGGCGGGGCTAGACCCGCATGGGAAGGCGATTACCCTCTCCAACATGTTTGAGGCGGTGGGGGCCTTTAAGGATGGGAAGCTCTCCCGGGAAGACTTCTTGGAAATGGAGCAGAATGCGTGTCCAAGCTGTGGCTCCTGTGCCGGAATGTTCACGGCTAATTCCATGAACTGCCTGATGGAGGCGCTGGGGATGGCCCTACCGTTTAACGGCACCGCTCTGGCGATCTCAAAACAACGCCGGGAACTGGTTCGTCAGGCCGCGCGTCGGGTGGTAGCGGTCGTCAAACAGGGGCTGACCCCGCGGGAGATCATGACCAAGGAGGCCTTTGACGATATTTATGCTGCCGACATGGCGATGGGGGGATCTACCAATACGTTCTTGCATGGCCTGGCGATCGCCCACGAGGCCGGGGTCGATTATACCGAGAAGGATATCAACCGGATCGCCAAACGGACCCCGCATATCGCCAAGATTGCGCCATCCTCGCATTGGACAATGGAGGATGTCCACCGGGCCGGGGGGATGCCCGCGATCATGAACGAACTGATCGAAATGGGTGGCGATGTCTTTCACCCCGATCGGCCGAGTGTCACCGGTAAGACGATTCGGGAGAACGTTCTTGGTCATCATTTGCAAGACGAGGCGGTCATTCGCCCGGTTGCCAAGGCCTACTCACCGGTGGGCGGCCTGGCGGTACTGTATGGCAACATTGCTAAGAATGGGTCGGTGATCAAGTCTGCGGGAGTTGACCCGACCATCACAACGTTTACCGGTAAGGCGGTCTGCTTTGACTCCCATGATGCCGCCGTCAAGGGAATTGATGGTGGAGCTGTCAAGAAGGGCGATGTAGTTGTCATCCGTTACGACGAGGGACCAAAGGGCGGACCGGGGATGCCTGAGATGCTGAATCCCACGGCCGATATCATCGGACGGAGGTTGGAGAAGGATGTGGCCCTGATCACGGATGGCCGCTTTTCGGGGGCTACCCACGGTATCTGCATTGGTCACGTTTCACCGGAGGCTGCCTCGGGCGGGGAGATTGCCCTCATCAGAAACGGTGACCGGATCCACATCGACTTGGTCAGACGGACAGTCGACCTGCTGGTATCCGATGAGGAGCTTAGGCAACGCCGGCGGGAACTACCGCCCTTCACGCCCAAGGTCAAGCAGGGGTATTTAGCCCGTTACCAGGCCCTGGTGACCTCGGCCGATACCGGTGGTGTAATGGTCGGTTATGATCAGCTGCTTAAGGCGGCCAATAAGTTGCAATAG
>SRR1151252_01394 thioredoxin reductase
ATGACGGAAGAAAGTTATGATGTAACGATTGTTGGTGGCGGCCCGGCCGGGATGTTTGCGGCCTTCTACTGCGGCCTGCACGAACTGCACGCCCAGCTGATTGAAAGCCTTCCCCAATTGGGTGGACAGGTGGCCGCCCTGTACCCCGAGAAGCAGGTTTGGGACGTAGCCGGGTTGCCGGGCGCCACCGGCCAGGAATTGGTCAACCAGCTGAAGAAACAATTGGCGATCGCCCCGGTCGACCAGTTTCTGGGTGAAACCGTTGACGACGTGGTCAAGGAGGAGGATGGGACCTTCACCATCAAGTCAGCCGACCGAATTTCCCACTCCAAGGCGGTCATTATCGCCCTGGGCAACGGGGCCTTCACGCCGCGTAAGTTGGCCCTCGATGGTGCCGACCAGCTCGAAGGGGACCGGCTGCACTACTTTGTCAGTCACAAGGACGACTTTGCTGGTCAGCGTGTGGCGGTGTTGGGTGGCGGCGACTCAGCCATCGACATTGCCCTGATGCTGGAACCGGTGGCTAAGGATGTCTACCTAGTCCACCGGCGCAATGAGTTTCGGGGCCTGGAGCATACCGTCAGCCAGTTGAAGGCGTCGTCGGTCCACCTGGTTACTCCCTACTTGCCAAAGCGTCTCACGACGATGGCAGATGCAGTGACGATCGACCTGAAGAAGATGCGCAGTGACGACGAAGACCAGCTGACGGTCGACTCAATCGTGGTCAACTACGGCTTTACCGCCAACAACGCTGCTTTGACCCAGTGGTCGCTGGACCTGGCCAGCGAACGTCACCTCCTGACGGTCGATTCGACCATGCAGACGAGTGTCCCCGGGGTCTACGCCATCGGTGACGGGGTGACCTACCCAGGGAAGACGGCGCTGATCGCCACGGCCTTTGGTGAGGCACCGACCGCGGTAACGGCCCTCGCTAAGCAGCTCTATCCACAGAAGCGGTTAGCTGTTCACTCCTCGTCGATGAATATCAAACGTAAGTGA
>SRR1151252_01395 inosine-uridine preferring nucleoside hydrolase
ATGGCTAAAAGAAAAATGATTCTTGACTTGGACACCGGTGTTGACGACGCTTTGGCGATTGCCTACGCCCTGGCTGACCCAGAAGTTGACCTGATCGGGATCGTTAGCTCCTACGGTAACAACCTGCTCGACGTTTGTGCCGAGAACAGTCTGAAGCTGTTGGAACTGCTCGGTCACACCGACATTCCAGTATTCAAGGGCTTACCACACTCATGCACGACGGACCACTTCGACGTCATGCAGGTTTCCAAAGACATCCACGGAAACAACGGGATCGGTGAGGTTCAACTGCCAGCGCCAAGCCGGAGTATTGAGGAAGAATCCGGGGTGGACTTCTATATCGACGCCGCCCACAAGTATGGCAAGGACCTGATCATCATCCCAACTGGCCCGATGACTAACCTGGCTGCCGCCCTCAAGAAGGACCCAGAGATTGCCCACCTGATCGGCAATGTTACCTTCATGGGTGGTGCCCTGACGGTTGAGGGGAACGTTACCCCAGTTGCCGAAGCCAACATCAACCAGGACCCAAAGGCTGCTAACGAAGTCTTGACGTCTGACCTGCCACTGACGATGGTTGGCCTGGACGTTACCCTGCGGACTCTCTTGACCAAGAAGGAAACCCAACAATGGCGTGACCTCGGTACCAAGGCTGGTAAGGCCTACGCCGACATCACCGACTTCTACATCGACGCCTACTACAACCTGGATATCGACAAGAACGGCTGTGCCATCCACGATCCACTGGCCGTTGGTGTTGGGATCGACCCATCCTTCGTTACTACGCTGAGCCTCTTTGTTAAGTGTGTCTACGAGGAAGGCCCTTACTACGCCCGGATCATCGGTGACAATTCCAAGCTGAACGATCCAAACCCGAACGTCAAGGTTGCCATCAACGTCGACAAGGAACGTTACCTGAAGGTCTTCATGGACCACCTGACGAACCTGTTCAAGGAACACTAG
>SRR1151252_01396 TetR family transcriptional regulator
ATGCCGAGTCGGACCTTTCAAAACTTGAAGGACGAGAAAAAGCAACGGGTGACGGCGGCCCTGCTGACCGAGTTCAGCCAGCATAGCCTACCAGATGCCGAGGTGGCCCGAATCATCAAGCAAGCGGGGATCTCACGGGGAGCCTTCTATAAGTACTTCCCAGACCTGACTGACGCCTACTTGTACCTGTTTTCGACGGTGATGGATGAGGTCCACGCCCCAATCACGGCGGCAGGCCGTCAGCTGACCGCCCGAGACTACTACCGGATGGTGGCCGATTTCGTCGACCGGGTCCACCACAGCCCCTACTATGACTTCATTCGCCGCCACTTCTTGACCAACGAGGGTGTCCTTCCAGTCCGGCGGGCCGCCGAGCCGCGGGGCGATACCGAGTGGGCGGTGATGGCACTGTGCCACACCACGATTAACGAGTGTCTCCAGGATCCTACCGGTCAGGTGGTGGCCTTGATTAGGCTGAGGAAGATTTTGGAAAAATTACTTCAATAA
>SRR1151252_01397 sulfite exporter TauE/SafE family protein
ATGTCTGAATTAGTTTCGATTATCTTGTTAATTATCATTGGGATCCTGGCGGGAATCACCAGTGCTGCCGCAGGCCTGGCCTCGCTAGTATCGTACCCGTCACTACTGGCGATGGGGCTCTCGCCGGTAATGGCCAACGTTACCAGCTGTTTTTCGACTGTCGCCAGCGGCTACAGCTCGGTGGTCGCTTCCGCCAAGGAACTCCGCAATAACCGGAAGCAGATGTTGATAATGATCCCAGTCGTTCTGACCGGGTCAATCATTGGCGCCCTCCTGCTCTTCGCCCTGCCCAGCAAGTGGTTCCAGGACCTGGTTCCGATCTGCATTGGGGCTGCCGGGGTCATCCTGATCATGCCGCACAAGCCGCGTCAGGCTCACCCAGAGCTAGTGAAGAACAGCCAGGCGTTCGGCCGGTCCCGCCTTCACCGCTTCCTGGCCTGGGTTGGGATCTTCATTGTTGGTATCTATTCCGGCTACTTCAACGCCGGGGCTGGGGTTATGATGCTGACCCTGCTGACGGTGGTCAACCGCTCGCAAACCTTTGCCGTCAATAATGCCCTGAAGAACGTTGCGATGACGGCTACCAACACAATGGCGGCTATTATCTTTGCCATCGAGGCGGTCATCTACTGGCAGTACGTCCTGCCCCTGTTTGTCGGTAACATCCTTGGGGGGATTCTCGGGCCGATCATCGTTCGTCACCTGCCGGGGCGACTGATGCAGATCATTGTTGGTGCCGGGGCCCTGATCCTGGCTGTTTCTCTAATCATTCGCAATGTGATGTGA
>SRR1151252_01398 energy-coupling factor transporter substrate-binding protein
ATGAAGAAAGGCTTTCACTTGCGCGACATCATCCTACTCGCTCTGATTGGGATCATCTTCGGGGTCATCTACTTTGCGGCGGCATTCGTCTACAACGGTCTGACCCTCCTGCTGACCCCGGTCGGCTATGGACCGCTGGCCAACGACATTACCATGGGGATCTGGTGCATGGCCGGCCCCCTTGCTGGTTTTATGTTCCGCCTCCCCGGGGCATCATTTCTCGGCGAGTTTCTCGGGGCCACCGTGGAGATGTTTCTCGGTGACCAGTGGGGTGCGGCCAACCTGATCTCCGGTGTCGTCCAGGGGGCCGGGACCGAGATCGGCTTCACCCTGACTGGCTATCGGATCTATAACTGGCTGACTGTCGTCCTGGTAACCGTCGCGACGACTATCGTCACCTTTGCCTGGGACTGGTTCCGCAACGGCTACAGCCAGTTTGCCGTTCACATGCTAGTCGTGATGATCATCGTCCGCTTCGTTTCAATCTTCCTCTTCGCCGGGGTCTTGAACAAACTAATCATTAACATGCTCACCCGGGCGCACGTCATTCGGAGGTAA
>SRR1151252_01399 energy-coupling factor transporter ATP-binding protein
ATGCCGACAATTGCGATTGAACAACTAAGCTTTCAGTTTGAACGCCAGCACCCCGTTATCCGCGACCTCAGCATGACGATCAACGGTGGCGAGGTCGCCCTGGTCACCGGGCCATCCGGCTGTGGGAAGTCCACCCTCCTCCGCCTGATTGCTGGCCTCCTGCCCAAGTACGGGGGCAAGGTGACGACCGGACGGATCGAGCGGCCCCAAGTCGACCACCACCCGGCCCAGATCGGAATGCTCTTCCAGGATCCGGCCATGCAGTTTGCCATGGACACCCCCCGCCACGAGCTTGAGTTTACCCTGGAGAACTGCCAGGTTGTCCCCCGCCAGATACCGGTCAGGATGCAAGCGGTTAGTGACTTCTGCCGGATCGGCGACCTGCTTGACCAACCAATCACCACCCTCTCCGGCGGCCAGCAGCAGCGGGTGGCCCTAGCAGTAGTCGTGGCAATGGAACCGGACATCCTCCTGCTCGATGAACCCTTCGCCGCCATCGACGAGGACAACCGCCGCTTCCTGATCGGCCAGCTCCAGCAGTGGCACGAGGCCCAGCCGGGACGGACAATCATCATCACCGACCACGACTGCCATGGCTACGCAGGTCTTCATCCCCAAGTCTACCGTTTCAGTAACCAGCGAGTCACCGCCCTCACCCCTGAACAAGGGCAGAAAATAATTACCCACGCCGACCAGCTGGCGGCGGTCCCGCTCAAAGTCACCCGACCAACGGCAACGGTTCCAGCGATCATCCACCTCACCAACGTCAATATTACCCGCGGCCAGCGCGGCCTGATTATGGTCCCCGACCTGACAATTGTCCGTAACAAGATCACCCTGCTGACCGGGGCCAACGGGGTCGGCAAATCAACCCTCTTTCGGGCCCTGACCCGGCTGATCCCCTACCAGGGAATGATCTCTTACCGTGGGAGGGACATTCAAGAGATATCACCCGGGAAATATCACCAGGAGGTTGGCCTGGTCTTTCAGCAGGCTAACGAGCAGTTCCTCGACGTTACGGTCGGCGAGGAACTAACCCTCAGCGCCAAGCACCAGCGCCAACTGCTATTAACCAACGATCGCTTAACAGATGCCCTCCGTAACTTTGGCCTGGCCGGAATGGAGGACCGGGTCGTCTACTCACTCAGCAGTGGTCAGCGCAAGAAGCTCCAGCTGCTGGTCATGCTGATGATCGGCCACCCCGTTCTCCTGCTTGACGAACCCTTCACTGGGCTTGATCAGGGCTCCCTGGCGACCGCCTTCGACCTCATTAGTCGCTGCCAGCAGGCCCTGCCGCAGACCATCATGATCATCAGCCACCGCTTGGCCGGGCTCGACCGGCTGATCGACTACCACCTACACCTGGCGGATGGTCAGCTGACCTATCAGGGGGTGAAAGCATGA
>SRR1151252_01400 energy-coupling factor transporter transmembrane protein
ATGAATCCTAGTTTAAAGCTATTTTTGGTCCTTATCGTTGCTTTAGAGGCCACCTTCACCAGCCACCTCTACGTTAACCTGGTAATCATCGCCTGCGCCCTGGCTGCCCTGCTCTATCACCGAATCGGTTGGCGCCGCCTGTCCTGGCTGGTGGTCATCACCCTGGTGCCAGCCGCGGCCCTCTTCGTCACCATCGTCTTCTTCAGCCCCGCCCATAACGTTCACTTTGCCTGGGTCCTGGTGACCCGACTCTACGTCTACGTCCTGACCGGAGCAACCGTTTCTTGCACCACCAGCGCTCTCCAGTTGGTCCAGTCCCTTGAACAGAACTGCCACCTGCCGAGCAAGTTTGCCTACGGGATCCTGGCCGCCCTCAACCTCCTGCCGCGAATCCACCAGGAGGTCAGGATCATTCGAGTGGCTGGCCAGATGCGTGGCATCACCCTCCATTGGTGGTCACCCCGCCTCTACTTCAAGGCAATCCTGGTCGCCAGCCAGTGGGCCGACCAGCTGGCCCAGGCCATGGAAAGCCACGGCTTTGTCGAAGGACAATCACGCACCTATGCCCACCGTATTCCCCTGGCCAGCCGGGACTGGCTCACCTTCGCCGTCCTGGTGGTTGCCCTCCAGGCCCTTATGATTGCACTTCCCTGA
>SRR1151252_01401 hypothetical protein
ATGCAGAGTAATACCACAACGCGAATCGTCAACGCCCTTTCCTACCTCAGTATCCTCTTTCTCCCGGTGATCTTCCCCCTGATCGTCTGGATCGTCGCCCGGGCTAGTGATGACCCAACCATTAGCCAGAATGCCCGGAAGGCCTTCTGGTCGCAGATCTTCCCCTTGCTCTACGTTATCTTTGCGATCCTCACGATGAGCATCGCCTCCCTCTACCAGGCGACCTTCCATGCGGGGGCACTGTTTGGAATCCTCCTGACCTTCGCCCTGCTGATTGCCCTGTTGCTGTTCACCTACAACATCGCAATGGCCGTCAAGATGTTGCTGGGACGGGAATAA
>SRR1151252_01402 transposase
ATGGCGCATATTATAAAAGGGGTTAAACTTCGCCTATATCCCAATGCCCAGCAAAGAGAGCAGCTGTGGCAGATGTTTGGTAATGATCGCTTTGTTTGGAACCAGATGTTGACGATGGCGAAGGAACGGTATCAAAACAATCCTAGTAGTCACTTCGTCAATGAATACGACATGAATTACCTGTTAAAAAGCCTTAAGCAAGAGTATCCATTCCTTAAGGCTAGTGACTCAACCAGTTTCCTGGTGGTTAATCACAACCTTACCTAG
>SRR1151252_01403 transposase
ATGCTCTTTAAGCATCAAGGTGGTTACCCACGTTTTAAATCACGTCATGCTATTCGCCAAGCCTATACTGGTCGTTCAATTTGTCGGCTGCTTGCTAAGCGGCGGGTTAAGTTACCGAAGCTGGGTAGCATTCGGACCAGTAAGACGACCCGGTTAGCTAATGGTAAAATCAAGTGCTGTACGGTTTGCCGCGAGCCAACTGGTCGCTACTATCTGTCATTACAAGTTGAAGTTGAGGCTCCCAAACATTTAAGAAAGACGGAAAAAGCGGTCGGAATTGATGTTGGGATCACCGATCTAGTCATTAGTTCTGATGGCATTAAGTATGGAACCTTTAATACCAAATGGTATGAGAAACAAGCAATCACCTGGCAACGCAAATATAGCAAACGACGTCACCAGGTGACTATTGCCGTTCGTCAGTGGAACCATCATCACAAAATGGTAAAGGAAGAGCTAAATGATTACCAGAACTGGCAACGGGCGCGACAACAGAAGACTCGCTATCAAGCCAAGATAGCGAACCAACGGAAAGATTATTTGCATAAGTTAACGACGGCTTTGGTTAAGCAGTACGTCCTAATCGTTATTGAAGATTTGAAAACCAAAAATCTTCAGAAGAATCATTGCTTAGCTAAGTCGATCGCGAATGCTAGCTGGTATCAGTTTCGGACTATGCTGGCATACAAGTGTGCCTGGTATGGTAAACGCTTGGTGGTTAAACCAAACTATACTAGCCAAATTTGTAGCCACTGTGGTTACCATAGTGGATCTAAGCCACTTAACATTCGTGAGTGGACGTGTCCAAGTTGTGGCACCCACCACGACCGGGATATTAATGCGGCAGTTAATATCCTGCATCAAGGATTAAACGCCGTTGGCTAG
>SRR1151252_01404 Na+/H+ antiporter
TTGGACCTACTACTAGGTGTCATTTTGCTGTTGACCACGGTCGTCGTGGCCAACATTATTCATCTGATCTACCCTAAGATCCCACTCTCAATCTACCAGATCGTGGCCGGGGTCCTGCTGGCCAGTCTGCCAACCGCAACGACCAATTTCACCATGCATCCCGAACTCTTCATGATGGTGATCATCGCGCCGCTGATGTTCAATGACGGACAAAACCAGTCCTTCCATTACCTCTCACGTAACTTCCGCTCGATCCTCTCGATTGCGGTTGCCCTGGCTCTAGTGACGGTCATCATCGCCGGTACCGTCCTGCACCTGGCACTGCCACAGACCTTCCCCTTCGCCCTGGCCTTCATGTTGGCCGCAATCATCACACCGACGGACGCGGTGGCGGTCAAGTCAATCACCTCGAGCATGTCGGTTCCTGAAAACGTCGACGGGGCCCTGGAATACGAATCGCTCTTCAACGATGCATCCGGGATTGTCCTCCTCGACCTCGCCCTGGCCGCCTACCAATCCGGCGACTTCTCGATTGGCCACGGTCTGTGGATCTTCGTCTACGTCTTCTTCGGCGGGATTATCTTTGGGGCAATTCTCGGCAGCCTCCTGATCAAGCTACGAATCGAGCTGATGCAGTCCCACGTCGACATCGGCTCGATCGTCATCCCGATCAACGTCATGACGCCGATCGTCATCTACTGGTTGGCCGAGGAGCTCCACTTCTCCGGTATCCTGGCCGTCGTGGCTGCCGGGGTCGTCCATAGTATCCTCTACAACCGTCTCCGGCTGACCTCCACTAAGGTCCAAATCGCCACCACCACTACCTGGTCGATCATCAGTGACGCCCTCAACGGCCTGGTCTTCGTCCTTCTTGGGGTCCTCTTGCCCCAGGTCCTCAGGCGCACCAGCCTGGCTAACCTGGGCCGACTATTCATCATCTCCCTAGTTCTCTACCTAATCATGACCGTCATGCGCTACTGCTGGGTTCGTTTTAAACTGGTTAAGATTGACTCGCATAGGAACCAGCTTAACCGCGACAGCATCCTGATGGCCATCGGGGGCATCCACGGGACCATTACCCTGTCGCTGGCCTTCTCCTTGCCAGTAATGATTAACCACCACGCCTTCGCCTTCCGGAACTCAATGATCCTGATCGCGGCGATCGTGATCCTAATCAGCCTGCTGGTCGGCGCCATTGTCTATCCGATGCTCCTACCGGCCAAGACACAGAGCTACACCCCGGCCGAATTTCGGCAGCAGCTGATTGCGACTGTTCAGTACGCACTCAACCAGTTGCGTAGTCAGACCAAGCACTCCCCAGAACAGGCGGTGGTGATTGACCAGCTCAGCACCCAGATGAATCAGTACCACCAGTTCAACCAGCAACGCTACAACCAGTTAATGAATCGGGCCCATAAGGTCGAGATGCAAACCCTGGATCGTTTGAACGAGGAAAACACCATTACGGACCGCGAGGCGAACTTCTACGCACAGTTCGTCAGCCACGCGATCCTGCGGAACAACCAGCACGGCCTGCTGGAATACTTCCAGCTCCTCTGGCACCGGCTCAAATGGCATCGTTTTCGCCGCAATCACCTGCACCATCACCTCGTTGCCAACCCCCAACTGGCCGTAGACCCGCAGCAGCCCCTCCTCGCGGTTAAGCAACAGCGTCAGGCGATCCTGAAGGTTCTAAAGGTGGTCATCAAAAATGTCGAAAACTACCTGCAGTCCATCGAAAACACCACCAACGCCAATGAGGTCGCCCTGGTCCGCCGGGTCTATCTCCAACAGGTCCAGCTCTTCAGCCGGGGGCAGGACCTCGACGCCGACGTCATCACCGGACTCTTCATCGAAGCCTTTCAGTGGGAACACAGCTTCGTTCAAGAGCAACTAGCCAGTGGCCAACTTTCTCAGGAGCTAGCCAACGCCCTCAATGAGAAGATCTCGACTGACGAGCTCGTCTATGCCCAATCGTTAGACTAA
>SRR1151252_01405 membrane protein
ATGATCACAATGATTTTAGTATTAGTCGTGGCGCTTGAACACCTGGGAATCATGTTCCTGGAGATGTTCGGTACGCCGGCCCAGCAGGCCAAGGCCTTTGATATGCCGCTGGAATACGTCAACCAGCGTCCGGCCCGTGTTGCCCTGGCTAACCAAGGAATCTACAACGGGATGCTGGGGATTTCGCTGATCGCTAGCTTCTGGCTCTTCCATGGGCCGGCCCTAGTAACGGTTATCCGCCTCTTATTGGGCTTCATCGTTATCGTGGCCCTGTATGGCGGCCTGACGGCAACGCGGAAGATCTGGCTGGTCCAGCTGCTGCCGGCAGCGATCGCCCTGTTAGTCACTTTTATATAG
>SRR1151252_01406 alpha/beta hydrolase
GTGGGGTTAATTAAATTGAGTACAGTTGTTAAGAAAAAGCGTCATCTCTTCAGAAACTGGCTGATTGGAATCATCGGCGTCATTGTGGTGGCCATGCTCATCGCGGGGAGTTACTTCTTTACGGTGGCGATGGTGCCAGGCCATAAGGACTTTATCCACCAGTCGTCTTCCCGGATCAGTCGTAATGATCCCCTCTACCACCAGAAGACCTGGTTTGAGCACGCCAAGAAGCAGCACTGGACCATGGAATCGGCTCAGGGGCATTATCACCTCGTGGCCGACTACATTCCCGCTGCCCACGAGACCACCAAGAATGTCATCATCCTTCACGGCTTCATGGGCCGCAAGGAGGACATGGGGGCCTACGCAGCGATGTTCCACCAGCTAGGCTACAATGTGTTGTTGCCTGATGCTCGGGCACACGGCCAGAGCCAGGGAAAATACATCGGCTATGGCTGGCCCGAACGTTACGATGTCCGGAAGTGGGCCAACAAGCTGATCACCAAGGACGGCTCACGTAGTCAGATCGTCATCTTCGGGACCAGTATGGGTGGAGCCACCACGATGATGACCAGTGGGATCAAACTTCCCCACCAGGTCAAGGCCTTTGTGGAGGACTGTGGTTACACCAGCCTAAACGCCGAGCTAAATCACGAGGCTAGCAAGCTCTACCATATTCCGACCGTCCTGCGCTACCCGTTGATTGCGATCTTGAGTGGGGTCAACCGCATCCAGAACGGCTTCTTCACCGGGGAGGCCGATTCACTGGCGATGTTACATAACAACACCCGGCCGATGCTCTTTATCCACGGCAGCGAGGACACCTTCGTCCCGGCCAAGATGGTCTACAAAAACTATGCTGCTACCCGTGGTCCCAAGGAACTATGGGTGGTGCCGGGCGCCAAGCACGCGGCCTCCTATGCTCATTGCCCACAGGCTTACACGCACCATGTTCAGGATTTCCTGGCAAAATATGTGAAGTAG
>SRR1151252_01407 Cro/Cl family transcriptional regulator
ATGTTTCCAGAAAGACTGCGCGCTTTACGTAAGGGCCAGAAAATTACACTAAAGGAATTGGCGAACCACCTCAACGAGCACCTAGGACCGGGTGAGAAGCCCAACACTGCCTCCCAGATCGGCAACTGGGAGCGGGGCATCCGGACCCCGTCATACATTGAGGCCCGCAAGCTTGCCGAGTTCTTCAACGTGAGTCTTGACTACCTGACGGGGAAGACCGATCGCAACGACTTCGACCTCGCCAAGCTTTTCTTTTCCAATAAGGACCTCCTGTTTAACAACACCGTGTTGTCCAGTGACGATCGCTATGAAATCTTCCAGCTGATCGACGGCTACCTCAAGGGGCGGACCAACCGACACGACACCGATAAGTTCTATGGCAAGCAGGAGCAACTCGATCTGAAGTTAAAATAA
>SRR1151252_01408 SAM-dependent methyltransferase
ATGAATCCAAAGAAGCTAAAGCAACTCAAAAAACGGGTCAAAAGGGCCCAACAGGCAGTCCACCAGGCTCCCTACATCAGTGAGCTGATGCGCGACCGCGACCTCTTCGACGATTTTCCCGAGGTCAAGTACCTGATCAACAACGCCCTGGAAAGTGACCGCCTGCTTAAGAACGGCCTCCTTCCCCAACCGCTACCGACCCTCCTGCTGCCCGACGATATCCAAGACACCATTTTTAAGCAGGTCAACCAGCAGTATCCTCAGGGTGATCCGCGGGGCGACCAGCTGTGGAACAAGTACAGTGCGCCCTTGCCAAAACTGGATAAGTCCCTGCGCAACTTCCGTGACTACCTCGAGGACACCTACGGGATGTGGTCCTACGTCAATGCCCCGTTTGCCAAGGCGCTGGCCGATTACCTCAACGGGGCCCCGGTCCTTGAGATCATGGCCGGTAACGGCTATATCTCCAAGGGATTACGGAACAATAACGCCAACCAGCGGATCTACACCACCGATAGCCAGGCCTGGACCAGGGAAAACGAGACCGGCAAGCACCCGGTCACCACGATCGAAAAGCTCGACGCCATCAGCGCCATCAAGAAGTATGGGGATCAGGTCGACTACGTTATCATGTCCTGGGCACCAGACAAGGAGGAAGTTGACTGGGACGTTCTCCAGCTCCTCCGTCACGACTACCCGGACGTCAAGTTCCTGGTCATCGGCGAACAAGACGGGGCCACCAACTCCAAGAAGTTCTGGCAGGAGGCCCAACTCAGCCAGGATGAGGGCCTGCAAAAGGTCAACCAGCAGCTGCATTCATTTGACCTAATCGACGAGCAGATCTACCTGGTCAAATAA
>SRR1151252_01409 major facilitator superfamily transporter
ATGAAATATCGTCTACAAGCAATTCTCTTCGTCTTCGTTGCCTTCATGCTCGGCTGCAACGAGTACATGATCGTCGGGGTCCTGCCTGATATCGCTCACGAATACCATGACTCCCTCTCCCGGTTGGGACTACTGGTCACGGTCTTCGCGCTGATCTACGCGATCTTCACCCCGATCATCACCTCGGCGGCCAACCGTTGGCGCCGCCACCACGTCCTCTTATTCCTGATGCTGATCTTCTTTGTCGGCAATACCTGGTCCGCCATGGCGACCAACTATTACTCGCTCCTCCTCTCGCGGATCCTGACCGCGACCGTGGCCGGAGCAATCATCTCAATGGTCCTGGTGATGGCCAGTTTCGTTGCCCCACGGGAGAAGCGGGCCAGCCTGGTATCATGGGTTTTCGCCGGGTTCAGCATCGCCTCGGTCATCGGGATTCCAATCGGTACCATCATCAGTACCACCTTCTCCTGGCACGACAGTTTCTGGATGATCTCCGGCCTGACGATCATTGTCTTCGCCGGTCTGATTTGGCTGGTACCACGGGATACCCCCCAGTTTAAGAGTACCCTCAGCAAGCAGTTCAGCCTGCTCAAGGACATCCGGGTCTTACTTGGGGTGGTCTTCATCGTTGCGGTCTGCGCGGCCGATTACACGATCTACACTTATATCCGGCCACTGATCACTAACGAGATGGGCTTTGACAATACCTGGCTCAACTGGCTGCTGTTCGGAATGGGGATCTTCTTCATTATCGGTAACAAGTTTGGTGGCTACCTGGCCGACCGTGGTGGCGTTCACCGGCTCGGCAGCATCTACATCGCGATGACCATCCTCTACATTGCATTCGGACCCCTGCTGAGTTTCAAGTGGCTGGCGATCATCGTTGTCGCCCTACTCTGCGTGGCATTCTCCTGCTACGGGTCCTCTACCCAGCTGATGTTTCTCGACATCGCCGAGAAGGACTACCCGCAGTCTCTCGACCTGGCCTCGTCGCTAAACTCGATCTTTGCTAACATTGGGATCTCCCTGGGTTCCTTCACCGCCTCAACCGCGGTTCAGTTCACCACCATGAACCACCTCGGCTACGTCGGCGCCGTCTACGGGATCCTGGCCACGGCCTTGATCATCATCCTCAGTAAGAAGTACACGGGAATGCGTTATTAA
>SRR1151252_01410 toxin-antitoxin system antitoxin subunit
GTGGACTACCGCCTGGCCAAGGACATCCTACACGGTCGGCGGAAGGTGTCGGTGGATACGTCGATCCGGCTGGGACGCTACTTTGGCGTCAATGACCGCTACTTTCTAGATCTGCAGAATGATATTGACATCCGCAACGAGCTCCGGGATAAGGGAGCCGAGTTCGACCGCATCAAGCAGCTATCCCGTGCTTGA
>SRR1151252_01411 hypothetical protein
ATGAAGTTAACGGTTGATGATTATCTTAAGATGGTGACGGGTGATAAGGTCCAGACTGAAGATGCCGACAAGACGGCCTCCCAGACCCAGCAAAAGAAGGTCCTGACGGCAGCGGTTGAGTTCATGCTCGACCAGTTTGATAAGGGCTACCTCGGGCAGTACCGGTTCAACGTTCGGATGCGCAAGGGGGACCCGGTTAGTTTTCGCCTCGAGAGTAATCTGATCAACGTGCCGATGGATGAGGCCGAGCGCCTGGACCCCAAGCTTCTCGACAAGGGGCCGGCCTACCCGGTCAACCTCTACATGGTGGTGGAGAGCGACGACGTCAACAAGTCCGGCCTGCGGATTGACGAGCTGGCCAACGAGACCGACCAGGCCCAGGCTGTCAGCACCCTGGTGGCCAAGCTCCAGCCCTGGTTGGCGGACCACTTGGCGGCTGTGATGGAGGCCCGAGCATAG
>SRR1151252_01412 hypothetical protein
ATGAAAAATTCTGAAAAGGTCATTACGGTGACGTCGGTTGCTGCGGTCGTTGCCCTGGTACTTGATGCCATCATGTTTCTCCAGCACGGCCACTCCCTACTGGCCAGTAACGTCTGGCCCCGCCTGGCCCTGTTCATTGTGCTGGCGGTGATTGTCAACGCCCTGGCTCTGGTCAAGATGCGCTTCTGCGGGTATGCCACCATTCTGGTGAACCTCTACTTTGCAATTGCCAGTTTAGCGACCTTCCAGTCCGTGACGCCACGGACAAGTGTCTACGGCCTCTTCGTTGAGGCCCTGAGCATCATCGGGATCCTGCTCGGCACCGCGGGTATCTACTACGGGATCAAGCAGCGGTCTGACTACACGAAGGCCCGGATTGAAAAACTAATGAAGAAGGCGAAGAAAAAATGA
>SRR1151252_01413 lipoate-protein ligase A
ATGCGTTATGTGTCAATGACTTCCCACAACATTGGGATGAATTTAGCAACGGAACAGTATCTGATGAATAATAAAGACTTCGGTAACGAGCCGCTGGTCCTGTTCTACTACGAGAAACCATGCATCATCGTCGGTCGGAACCAAAATACCGCCGAGGAGATCAACCAGGACTACGTTAAGGAGCACAACATTCGGGTTACCCGGCGCCTGTCCGGTGGTGGCGCGGTTTACCAGGATCTGGGGAACCTCTGCTTCAGTTTCGTGGTGCCAAGTGACAGCGAGGAATTTGGTGATTTCAAGTCCTTTACCCAACCGATCGTCGACGTCCTCCACAAGATGGGTGCTACGGGGGCCGAGGTCAGCGGGAGAAACGACATCCTGGTCGACGGTAAGAAGTTTTCTGGTAACGCCATGTACTCCCGGAATGGGAAGACCTTCTCCCACGGGACACTGATGCTTGACGTCGACCTGAGCGTGGTCGCCGACGCCCTGCACGTCGCCAAGGACAAGATTGCCTCCAAGGGGATCAAGTCCGTGCGTTCCCGGGTAACCAACCTGCGGCCATACCTGAGTGACGAATACAAGGATATCGACGTGCCAACCTTCCGTGATGAGCTGATCAAGGGCCTCTTCCGCGTTGACAGCCTGGACGAGATTAAGGACAAGCAGTACGTGGTTACGCCAGAAGACCAGCAGAAAATCGACAAGATCTACGAGCAGTACTATAACAACTGGGACTGGGTCTACGGTAAAAACCCTGAGTACACGACTAAGCGGCGGAAGCACTTCGACATGGGAACGATTGATGCTCGGCTGGACGTCAAGGACGGCGTGATCAAGAATGTCAAGTTCTTCGGTGACTTCTTCGGCCCCCAGGACGTTACGGAGCTGGCCAACAAGCTCAAGGGCGTCAAGTACGACCACGATGCCATTAAGCAGGCTCTAGACGATGCCGGTACCCAGCAGTACATCACCGGGATTCCGACTGACCAGATTGCGGACCTCCTGGCATAA
>SRR1151252_01414 transcriptional regulator
TTGGTAAATGGGCAAAGGCGCCAAGACCGCCGCACGGTATACACAGTTAATGTCATTAAGGATAGCTTTTTGGAACTTATTCAGGACAACCCCTATTCCAAAATAACGATTAAAAAGATTTGTCAAACTGCTGAGATAAGCCGCTCAACTTTCTATTTGCATTTTGATTCGATCAATGATGTTTTGAACGCCGTTTTAGATGATGCAATCATGACAACATCAACGGATTACTTTAGTATTAATAACTTTAGCGTTGATTATCTTAAGGAAAACGAGTCCTTAATCCCCGCATGCCAAAGGGTGGGGTCAAATGCAAAGTATCGTAAGTTACTTCTGGATCCTGATTTGATCGAATACATTGTCGGACGAATCATGGTTCATGAACGGGACCGGGTAGTTCCAGCAATTCAGAAAAAGACGGGGCTTTCCAAAGAAGACGCTGAGACACTATTCCTATACACCCTTCACGGTTCCTTTGCTGTTAACTGCGCTAACCACTTTAGGAAAAATGACCAATGGTACCATGATGTCCAGCTCCTAAATAAATTTACCTTGAATGGGTACCGGGCTCTTAAGTAG
>SRR1151252_01415 DNA-entry nuclease
ATGTACCGCATAAAGAAAAAGATTTGGCACATTGTCTTCGGGATCGTGGCCCTGCTCGTCGTGGGCGGCGTGGTCCAGAAGCCGACCGAGGGCGATGCCTCCCTGAGTCAGGGAATTCAGCGTTTCATGGCCTGGGGCAAGAGTAATTCGGCACAGTCCGGCCACTATGGCCACCAGCAGCAGGAACCACCGACCGAACAACAGGCGTCGGTGGTCCTGACCCCGGCCGTCCGTCAGCAGCTGGGCAAGAGTATTGTCTGGAATGGTCATGGGGCCTACATTATCAACCATAACCAGGCCGACTTGAATACCAATATCAGCAGCGCACCCTACGCGGTCAACCAGCTGGACAATCAGGGGCGGGCCTGGCGCGGCGACGCCTGGCTGAACAAGACAACCCGCCAGTACCGGAACCGGGCCGCCACCGGGAACGGGGCGACCGACTGGAAACCCGCGGGATTCCTCCAGGCGCATAACCTGACTGGCGGCTACAATCACGCCTACGACCGTGGCCACCTGCTCGGTTACGCCCTGGTCGGCGGGATCCGGGGCTTTGATGCCTCCGAGTCCAACCCCAAGAACATCGCTACCCAGACGGCCTGGGCCAACGAGGCGCGCAGTTCCACCTCGACCGGGCAGAATTACTACGAGGGAATCGTCCGCAAGGCCCTCGACCAGGGCAAGCAGGTCCGCTACCGGGTCACCGACATCTACAGTGGTAACAGTGTCGTGCCGGCCGGCGCCCACATCCAGGCCCAGTCCAAGGACGGCAGTGTGAACTTTAACGTTTTCGTGCCGAATGTCCAGAAAAATATTGAAATAAATTACGCCAACGGAGCGGTTAAGCAACGGTGA
>SRR1151252_01416 amino acid permease
ATGATTGCCATCGGGGGGACCATTGGGAGTGGGCTCTTCATGGGGGCCACTTCTACTATCAAGTGGACGGGGCCATCGGTACTTTTAGCCTATGCCTTCGTTGGCCTGTTCCTGTATGGGGTCATGCGGGCCCTGGGGGAGCTGATCTACATCAGTCCCGGGACCGGATCGTTTGCCGACTACGGCTCTAAGTACATTCACCCTCTGGCCGGCTACCTGACTAAGTGGAGCAACGTCTTCCAGTTCATCATCGTCGGGATCTCGGACATCATCGCGATGAGTCAGTACCTGAACTACTGGTGGCCGAACCTGCCGGACTGGATTTCAGGCCTGGTCATGATCACGATTCTGACCCTGGCCAACCTGGCCTCAGCTAAGGCCTATGGGCGTCTAGAGTTCTGGTTTGCCATGATCAAGGTGGTCACGATCATCGCCATGATCATCCTCGGCTTGCTGGTGATCGTCCTCGGGCTGGGAAACAACTGGCACCCGGTTGGGATCTCCAACCTCTGGACGCACGGCGGCTTCTTCACCGGCGGCTTCATGGGCTTCATGTTCTCCCTGTCGGTGATTGCCGGTTCCTACCAGGGGATTGAGCTGCTCGGGATCACGGCGGGGGAGGCCGCATCGCCGCGCCACGCCATTGTTAAGTCGGTTAAGTCCGTCATCTGGCGGATTCTGATCTTCTACATCGGTGCCATCTTCGTGATCGTTTCCATCTACCCATGGGACGAACTCAAGGCGGTCGGTTCACCATTCGTCGAAACCTTCACCAAGGTTGGGATCACTGGCGCAGCCGGAATCATTAACTTCGTTGTTCTGACGGCGGCCCTGTCCGGTGCTAACTCCGGGATCTACAGTGCTAGCCGGATGCTCTTCAAGCTCTCCGTTGACGGTGAGGTGCCAAAGGTCTTCAGCAAGCTCTCTAAGCGGGTGGTGCCAAACGTTGCCATCCTGACGATTGCCTTCTGGATCTTCCTCGGTTTTGCGGTCAACATGCTGCTGTCGATGTTTAGTGCCAGCGCCAAGAACATCTTCGTGATCGTCTACAGTTCTAGTGTTCTGCCAGGGATGGTGCCATGGTTTATCATCCTGCTGTCCGAGCTGAACTTCCGTCGGCACAACCCGGACCAGTTAGTTAATCACCCGTTCAAGATGCCATTCTACCCGGCATATAACTACTTCAGCCTGATCGCCCTGACGGTCATTCTGATCTTCATGTTCTTTAACCCAGACACCCGGGTCCCCGTTTCGGTCGGTGTGGTTTTCCTGATTATCATGGCCCTGATCTACAAGTTCCACACTGCACCCAAGCTCGAAAAGTAA
>SRR1151252_01417 LPXTG-motif cell wall anchor domain protein
ATGCATAAGCAATTATCACGTCACATCTATCGTTCGTCACTGATCGGTTTGACCTCGACCGCGGTGCTACTGGCCCTGGCAGCTAGCAATGCTACGGCTGATGCCAAGGCCGGTCAGCCAACGACGCCGTTGCCGACCCTCGTTCGTCAAAATTCCATCGGTGAAGCGGGCGTCACCACTCATGAAGTGGTCCGGACCATTACTTACGTGGACCCACTGACTAAGGAAAAGCACACCATCCGCCAGGTGGCCACCTACCAGTTTGACCGTGAAGGACAGGTCATCAAGAGTATTAACCCCCTCTGGTCGGCTTACTTTCCACCGTACTTCGCCGGCTATGCGCCAAGCTGGGCCGAGGTGAAACAAAAAATGACTAGTCCGGATTCGGCCGATGAGCAGGAGACGGTTACATACGATAAGCTTACGGGTTCCGGGGATGTCATGACGGTTCACGTCTTCTACGTTGAACCGAACGGCAAAATGCTATGGGATCTGCGCAAGGCCATTGAGAATCCTGACGGCAAGCCGGTGACCAGTTTCACGCTTCCGGAACTTCCAGACGGTTGGGAGTACGTCGATCTAGACCACCTACCCAAGACCATCAAGGTGGCTCCTAAGGCTGCTGGGTATACCTTCATGATTCAACCGGCCAAGGACCCGGAGCACCACACGGAACATCACCAGGAGACCAAGGAGCTCTGGCGTAAGATCGTCCTCCACCTGCCGAGCGGTGACCAGGCCATCATGCAAAAGGCCACGGCGACCCGTAGCGTAACGGTGACGGATGGCCAGCCAACATATGGCAAATGGCAGATCAGCCCATTTGCCGAGCTGCGTCTGCCGGCGATGGCTAATTACCAGACCTCCGTTGACCAGGTCCCAGCCTTGCAGCTGACGGCCGACCAGCTTGACCAAGACCCGGTCACGGTTGAAGTAAATTACCAGCGGATTGGCGGACCGGCCGCCAAGGATGAGGGGACCCAGACCGGTACCAATACCACCATCGATGCTGGTAGCCAGACGGATGGGATAAGGGTTACTGATGAAGGTACGCAGACCGAACCAGCAGGTGGTGAGACGACACAGCCGGAGAAGCCCGCGACAAGCGATGCAGGGACTCAAACGAATCTGCCGGCTGGCGACGAGGACTCACATCCGGCCACGAGTGAGGAAGGTACCCAGACTGATTCAAATAGCGGCACGGATGTGGATACCCAAACGGACGGAGCAGCGACCACCGATACGGGGGTTGGCGATGGCCCTGTCGACGTGACCGACCAAGGCAGTCAAACCGAGCAATCGACTGGCACGGATACGGGTACCCAAACCGATACGTCAACCGGAGCGAATAAGGAGACTCAAACCGATGAACATCCAACGGCTGATGCTGGAGTCGGGGATGACACCGTTGACGTCACTGACCAAGGTAGTCAAACCGACCACTCAACCACCACAGATGCCGGTGTTGGCGATGACACCATTAGTGACGTGAACCAGGGTACCCAAACTGACCATTCAACTGGAAAAGATCAGGGCAGTCAAACCGATGAGTCAACGACGACCGATACAAAAACGCAGACGGACCAGGCACCAACTACTGATACTGGGACCCAGACCGATAATTCGATCACCACGGATACCGGTGTTGGCGATGACACCGTCGACACAAACGACCGGGGTAGTCAAACCGACCAGTCGACCGGCACGAACGTGGGTACCCAAACCGAGCAGACAACGAGTACAGGTAAGGAAATCCAAACCGTTACACGGCCAGTCACCGAAACCGGCGTTGGGGACGACCCGGCTGCCACCACTGATCAGGGCAGTCAAACTACCACGCCACCGGTAACCGACACAGGGATTGGCAGAGCTAGTATTGATAGTACCAATCAGAGTACCCAGACCGATCAGCCATCAACCAGCGACCCGGTCAAGGCGAACGATAAAGACACCCATACTAACGGAACACCGGCCATAGAGGAGAAAACCAGCGAACCAACCGGCCAGAAAGAACCGATCAAGCCAACACGACCGGTCATAATCACCAGTCCGGACCGTGGTGAGGTTGTCACCACCCCTAAGCAGACTAGCCATGACAGTAGTGTCCAAACGGCCAGTATCGACCCCGCCGCCTTCCACAGTGAATTGGACCACCTTCAAAAACCGTTGCGGGAGCTAACTGCCGACCCGCAACACGAGTCAGCCGCCGAACTACCGCAGACGGGGAACCAGCCACTAGGGATCAAGGCAGCCGTACTGGCAACCGTGACCACCCTGACGGCCGCGGGAACAGCCATGTTTACCCGGCAAAAGCGGCACTAG
>SRR1151252_01418 1-deoxy-D-xylulose-5-phosphate synthase
ATGAATCTGCATCCTGATTACCTGTTAAATGATGTGAACGAGCCAAGCGATATCAAGCAGATGTCGCTGGATGAATTGAAGGAACTGGCTACCGAAATGCGGCAGCTGGTCCTCGAGCGTGATGCCGCAATTGGCGGCCATGTCGGTCCCAACCTTGGGGTAATGGAACTGACAATTGCCTACCACTACGTCTTTAACTCACCACACGATAAGGTGGTTTGGGATGTTTCTCACCAGGCTTACGCACACAAGATGCTGACGGGACGTAAGCTGGGCTTCTTGGATCCGGGCCACTATGAGGACATCACCGGCTACACCTCGCCCGAGGAGAGTGTTCACGATTCCTTTGAGATCGGTCATACCTCGACTTCAATTTCCCTGGCGGTCGGTCTCGCCCAGGCGCGTGATCTCTTGCGGCCAGAAAAGCATAACAACGTCGTCGCGGTCATCGGGGATGGCTCCCTCAGCGGTGGTCTGGCCTTTGAGGGGCTGAACAACGCTGCTAAGCTATACTCCAACCTGATCATCGTGGTCAACGATAACCAGATGGCAATTGACCAGGACCAGGGCGGCCTCTACAAGGGGCTCAAGGAGCTGCGGGATACCAACGGCAAGTCCGAAAACAATATCTTTAAGTTCATGGGGTTGGACTACCGCTACGTTGCTGACGGTAATGACCTGCAGACGGTGATCGACGCCTTCCGCGACGTCAAGGATATCGACCACCCGATTGTCCTTCACGTCAACACCCAAAAGGGGAAGGGCTATGCCCCAGCCGAGGAACACAAGATGGAATATCACTGGCGCGACCCGTTTGACCTCAAGACGGGGGCAGACAAGCAGCCCGCCGATAATGGCTACAATGATGCCGTGATGGCGGAGCTGGATCGTCAGGTCAAGTCCGGGGCACCGGTGGTTGCGATCAATGCCGCCATCCCCGGGGTCTTTGGTTTGAAGGATTTTCAGGCCAAGCACCCGGACCGCTACTTCGACGTTGGTATTGCCGAACAGGATTCGATCACGACTGCGGTCGCCATGGCTTCCGCCGGGGCCCGGCCGGTCGTCTTCCAGAACAGCACCTTCCTGCAGCGGGCCTATGACCAATTGATTCACGACATGGCCTTAAACGATTCACCGGTAGTCATGGTCGTGCGTGGCGGGACGATCGCTAGCGGGTCGGCTACCCACCAGGGCTCGTTTGACATCTCGATGATCAGTGACCTGCCGAACATCGAGTACCTGGCACCAACCAACGTCGAAGAGATGATCTCGATGCTGCGCTGGGCGATCAAGCAAACCGACCAGCCGGTAGTCATCCGCCAGCCGGAAAAGGAATTGCTACATGGTCACCCGAGCCAGGACGACTACAGCACCATCAACTATGATGTTGTCCACCACGGTAGCGAGGTCGCCATCATGGCCGTCGGAGACTTCTGGCAGCTTGGCGAGGAGGTCTGTGAGCAACTGAAGAAGAAGCTCAACATCGACGCCACCCTGATCAACCCCAAGTCGGTTACCGGGATTGACCAGCATGACCTCCACCACCTGGCCGAGAATCACGACGTCGTGGTCACCCTGGAGGACGGTAACCTGAGTGGGGGCTTCGGTGAGACGATCGCCCGTTACTACGGGCCGACCGACATGAAGGTCCTCAACTTCGGGGCACCACGGGAGTTCGCCGACAACGTGCCGCTTGAGGTCATGGACGAGTGGTACCACCTCACGCCAAAGCAGATCGTCGACGATATCGAAAAAGTTATCCATTCACTGTAA
>SRR1151252_01419 hypothetical protein
ATGATAGAAACAAGCAATGCGGCAATTGATAAGCTCTCGCCATTCAAGAAACTGACGAGCGAGCAGGAGGACCTGGTCGAAGACATCCTGCACTTCACTGCCGACCACCTACAGGGCGACTACCCGGCCACGTACACCATCGTCGGGGATGCCGGAACCGGGAAGAGCGTGGTCCTCTCCCAGCTCTTCGACCGCCTCCAGAAGGCCGCACGTAAGGACCTGGCCTCGCCCTTTTACCAGACAAGCAACTACTTTCTCGTCAACCACCCCGAGATCCTTAAGGTCTACCGGGAGATTGCGGGCAGCCTGCCGGAGCTGTACAAGAAGGATTTTGCCCGGCCAACATCGCTGATCAACCAGCTCGACAAGAAGGATCAAAAGATTGACGTTGCCATCATCGACGAGGCCCACCTCCTCCTGTCCAAGGCCGACCACTACAACAACTTCTACCACGATAACCAGCTCGTCGAGATCATCAAGCGGGCCAAGGTGGTGGTAATCGTCTTCGACCAGTACCAGGTGCTGCGGATGAAGAGCCTCTGGACGCCGAAACGTCTCCACCAGATCACCGACCGGTACCCACACAAGGAGTATCAACTTACCAAGATGTTTCGGATGAATGCCAGTTTGGAACTGATCGAATGGTTCAACACCTTCACCAACGATTACCGGTTGGCCCCACTACCAAAGAGTGCCCGCGACCACTACGACTTCCGGATCTACGATGACGCCGAACAGATGCGCCAGGCGATCGTCCGCCGTAATCGCGAGGTCGGTCTCTCCCGGATTCTCTCGACCTCCGGCTACCCGTCGACCCTCGATGGCGGTAAGCATTATATCGAAGAAGGCCGCTTCAAGATGCCTTGGGACCAGTATAATTACACGGTGACTCCCTGGGCGGAGTTGCCGCAGACGATCGACGAGGTCGGCTCCATCTACACCTGTCAGGGCTTTGACCTCAACTACACCGGGATCATCCTCGGGCCGCCGATCAGCCAGGTGCCAGGCACCAACCGCCTCCAGATCAACCTGGACCGTTACACCGACACCGAGGCCTTCAAGAAGCGGGACGACCTGACCGATCCAGCAGAGATCACCGCCCTCAAGAAGCGGATGATCATGAACTCGCTCAACGTCCTCTTCAAGCGCGGCGTCTACGGGACCTACCTCTATGCCCATGACCCCCTGTTGCGCCAAAGCCTCTGCCAGCTATTTGCCGCGGCCGGCTTTCAACTACCAAAGGAAGGTGACTGA
>SRR1151252_01420 hypothetical protein
ATGAAGAAACACCTCAATAAGCACGTCCTGATTATCGCGGCCCTCATCGTCGCCCTGGTCGTGATCTACGGGATCTACCGCGACTACCGGCCGGAGATCAGCCTGCTCTTCGACCTGACCCCGCACAACCAGGTCATCCTTCTCCACCTGATCCGGAGCCACGGTCTGGCCACGATGGTCCTCCTCCTACTCTTGATTGCGATCTTCAATGCCATTCCCGGGATGTCCAACTTAGTCATCTGCATCTTCGCCGGACTCTGCTACGGCCCCTGGGTCGGTTTTCTGATCAACTGGCTGGGTAACATCCTCGGTAACTGTGCCGTGATGAGTCTGATTCGTGAGGTCGACATCTCCAAACGGACCAAGAAGTCCAAGATCCTGACCTACCTCCTCCACCAGAAGCACCCGCTGATCGGGCTGACCATCGGCTACATGATCCCGGTGATCCCTAGCGCCCTGGTCAACTACGCAGGCGCCCGGCTTAACCTCAGCCGGGGCCGCTTCCTGACAATGGTGGCGATCGGGATGGCACCGACCTCGTTCATCTACGCCTTTGGTGGGGACGCGATCTTCCGTGGCGACAGCAAGCGCCTGATCGGGGCGGTTGTGGCGATCGTCGTGATCCTGCTCGGCTACGTGGTCGTTCGCAAGATCGTTGATCGCTCTAAGGTTGCCCACGAAGCCGCCTAA
>SRR1151252_01421 exodeoxyribonuclease III
GTGAAATTTATCTCATGGAACATTGATTCAATCAACGCGGCCCTGACCGGGACGTCCAAGCGGGCCGGGGAAACCCGCCAGGTCCTGCACACGATTGCCAACCAGGACCCGGACGCAATTGCCATCCAGGAAACCAAGCTGTCCAAGGACGGTCCAACCAAGAAGCACCTGGCTGTCCTGGCCGACCTCTTCCCGGACTATGCGGTGGCCTGGCGGAGCTCGGTTGAACCGGCACGCAAGGGTTACGCCGGGACAATGTATCTCTACAAGAAGGAATACCAGCCAACGGTCACCCAGCCGCAGATTGGGGCCCCGTCACCGATGGACGACGAGGGGCGGATCCTCACCCTGGAGTTTCCAACCTTCTACCTGACTGAGGTCTACACCCCCAACTCGGGCAACAGTCTCAAGCGGCTGGATGCGCGCCAGGTCTGGGACGATCATTACCGTGATTACCTCCATCAGCTTGACAGCGACAAGCCGGTCATCGCCAGCGGGGACTTCAACGTCGCCCACGAGCCAATCGACCTGGCCCACCCGGCAAACAACCACCACTCGGCCGGCTACACTGATGAGGAACGCGAACACTTCACCAAGCTGCTCGCGGCCGGGTTCACGGACAGCTTCCGTTACCTCCATCCCGACACGGCCGGTGCCTATTCCTGGTGGGCCCAGCGGGTGATCACTAGTAAGCAGAACAACTCGGGCTGGCGGATCGACTACTGGCTGGTCAGTGACCGGCTCGCCGATAAGTTGCGGAGCTCAACGATGATTGACAGTGGGGCCCGCCGCGACCACACGCCGATCATGCTGGAAATTGATCTTTAA
>SRR1151252_01422 DNA-binding protein
ATGGTGAACTATGAAGAACTGATCCCAAAGATCGCCGAATGGGCCCACGCCCGGGGAATCGACCAGGCTGATCCGCGGGTGGAATTCATGAAGCTGGCCGAGGAGCTCGGGGAGCTGTCAGCGGCCTACAACAAGAAGAACCACGAACGACTGGTCGACAGTATTGGTGACCTGCAGATTGCCCTGCTGATCTTCTGCCGCCTGGTCGGGGTCGACCACAAGAAAGCGCTGAATGCGGCCTATTCGGAGATCGCCCACCGGACAGGGGAGACCACGCCGGATGGGGTATTCATCAAGCAGAGTGACATTGAAAAGGAGAACTAA
>SRR1151252_01423 excinuclease ABC subunit A
ATGATGACTAAGCAAACAGCATCCCTCCCGACCCAAATCGAGGTCCGGGGTGGCCGCGTCCACAACCTGAAGAACGTTGACGTCAACATCCCCCTCCACAAGTTCGTCGCCATCTCCGGCCTGTCGGGCTCCGGGAAGAGCTCACTGGCGATGGGAATCCTCTATGAGGAGGGGTCGCGGCGTTATCTGGAGGCCCTGTCGACCTACACCCGGCGACGGATCAAGCTTGGTGCCCAGGCCGAGGTCACCAGCGTCAAGCACATCCCCTCGGCCCTAGCCCTCAAGCAGCGTCCGGCAATTCCGTCCGAGCGGGCCACCGTCGGCACGATGAGCGAGATCTTCAACGTCATCCGGTTGATCTTCTCCCGGCTGGGTTCGCCCCGCTGCCCCAATGGCCACCAGGTCAAACCGAGCCTGGCAATTGCTGAAGCGATGAGCAAGTCTGGTGACCAGATGGGGATGATTACCTGCCCAACCTGTGGGGCCTCCTTCCCGGCCTTCAGCGCCGAGGACTTTGCCTTCAACTCCGCCGGCGCCTGTGAGAACTGCCAGGGGACCGGGGTTGTCCGTGAGATCGACGAGAGCAAGTTGATCGGCGATCCAAACCTCAGCCTGGCCGACGGGGCGGTGGCGTCCTGGCACCTGCCCGGACGGAACTTCATGCCGAGTGTTGCCGAACAGGCCGGCGTTCGGATCCACGTCCCCTACAAGGACCTGACCGACAAGGAGAAGGAGTTCGTCCTTAACGGCCCAAAGAAGAAGTTCAAGATGGATTTTCGTTCCGGGACTGGCCGGGTCTTCCATGACTTCAATGCTCTCTACGAAAACGCCCATGAGGCAGTCTACGAATCGGCCCGGACCAGCAAGAGCGAACGGGCCCAGAAACGGATCAGTGAGTTCTTCCACTACTCTACCTGCCCGGTCTGCCACGGTACCCGCCTGAAGCCGGCCCTATTGACCCAGCTGGCCGGTGGACTAAACATCGCCCAGGTCAGCGGACTGACCCTCGGTGACCTGACGAGCTGGAAGAAAGATGTTCTCGGTGAGCTGCCCGCCAACATGGGGAAGATGGCCCACTCCCTTTTCAAGGAGTTTGACGATAACCTGCGGCCCCTCCTTGAACTGGGTCTGGACTACCTGACCCTTTCGCGAAACGGCAACACCCTCTCGACCGGGGAGCTGCAACGGATCCAACTGGCCCGGACCCTGCGGACACAGACGACCGGGGTTCTCTACATCCTGGATGAGCCCTCGATTGGCCTGCACCCCGACAACGTCACCGGCCTGCTGAACGTCTTCCGCGAGCTGGTCGACCAGGGGAACTCACTGGTCGTCGTTGACCACAACGTCGACATCATCAAGGCCGCCGACTGGATCATCGAGATCGGCCCCGGTTCCGGCGCCCAGGGTGGCCGGATCCTTGATCAGGGAACCCCGACCCAGATTGCCCAGGACCCCGACTCCAAGATCGGTCCCTATCTGAATGGCAGCGCTGACCTGCTCGCCCGCCCGGTTGTCGATGCGCCCGCCGACCAGGAGATCAGCTTTGAAGTCGCTGACTACTACAACCTGACCGACGTTGCCGGCCGGCTCCCGGTCAACCGGCTCAGTGCGGTCACCGGCTTCTCCGGGGCCGGGAAGACCAGCCTGGTCCTCGATAGCCTGGTACCGGCGATCAAAGCTCAGGCCAAGGGACTCGGCTTGCCCAAGCAGGTCAAGCAGCTTAATGCCCCCCTCAAGGAGGTTGTCAGCGTCGATGCCGCCCCGATCGGTAAGACGATGCGGTCAACGGTTGCCACCTACACCAGCATCATGGACAACTTGCGTAAGCTCTTCGCGGCCCAGCCCCGCGCCAAGGAGAAGCACTACACGCCGAGTTATTTCTCCTACAACAATAAGCAAGGAGCCTGCCCGAACTGTGGCGGTAGCGGGGTCGTCACCCTGGATATCCAGTTCCTGCCTGACATGCAGCAGACCTGCCCCGTCTGCAACGGTGACCGCTACAACCAGGCCGTCCAGGCGGTCAAGTGGCACGGCTACTCGATTGTTGACCTACTCAAGCTCGACATCCGTGCCGCCCTGCCCGTCTTCAAGGACGTCCCAAAGATTGAGCGGGAACTGAAGCTGTTAATGGAGGTTGGCCTGGGCTACCTCCACCTCGGCGAGAGCACGCCGAGCCTGTCTGGTGGTGAGGCCCAGCGCCTGAAGCTGGTCAAGCACCTCAACCGCAACCAGGCGACAACCCTCTTCGTCTTCGATGAGCCAACGATCGGCCTCCACCCCCTGGACGTCAAGACCCTGCTCGGGGTGATGCAACGCCTGCTGGATCGCGGGGCGACGATTTTCACCATCACCCACGACCTTAACCTGATCGCTAACGCTGACTACATCCTGGATATGGGGCCACGCGGCGGGAAAAATGGGGGCCAGATTGTGGCTACCGGCCGACCGCGGGACCTGATCGCCCATCCGACCAGCCTGACGACGCGCTACCTGGCCGAGTACTGGCACCGGTACAACAAGTAA
>SRR1151252_01424 camphor resistance protein CrcB
ATGCTTAGTGTTGGTTGCGGTGCGGCCCTTGGCGCCCTCCTGCGTTACTGGTTGACCAGCATCTGGAAAAGGCAGCGGATCGACTGGCCCCTGGCAACCCTCCTGATCAACCTGACCGGGGCCCTGGTTCTCGGCTTCCTAACCGGGCACCTGGCTGCCGATGGTGCGGCGATGCGTTTCTGGGGTGTCGGCCTGCTCGGTGGCTACACGACTTTCTCGACCTTCAACACCGAGTTGGTCGCAATGGTTGACGAACGCCGCTGGGGGAGCCTCGTGGCCTACTTGATTCTTTCCTACGGTGGGGGCCTGGTCGCTGCCTGGGTCGGGATGCAAATGTAA
>SRR1151252_01425 chromosome condensation protein CrcB
ATGAAGCTAACGAATGCCATCAGTGTGGCGGTCTTTGGGTTTGCTGGCGGGGTCTTCCGCGGCCTGCTCAGCACCGCCTTTGACGCCAACGGGGTACTGGTTGCCAACCTGCTGGGCTGCTTCCTCTTGGCCTTTCTGACCTACTACGTCATCGAACGGGACCTCCTGGCCGGCTGGCTGAATGCCGGGCTCGGTACCGGCCTGATCGGGGCCTTTACCACCTTCTCCTCGTTTTCGACGACCACCATCAAGCTTACCCAGCACAGCCCGCTCCTCGGTGGAGCCTACCTGCTGGTCAGCATGGTGGGTGGCCTAGCGATGGCGGGGCTAGGGATGACCCTGGCCCGCCGCCTGGGAAGGGTGGTGGACCGCCATGCTTAG
>SRR1151252_01426 glyoxalase
ATGAAGATGCGTCGTATCGACCACATTGTTTTAACCGTCACCAGCCTCGAGGAGAGCAGCCGCTTCTACCACGAGGTCTTCGACATGCCAATCATCGACCGCCAGACCAGCAACAGCGTAATCACTCTCCGCTGCGGCCACCAGCTGATCCGCCTGCAGAAGACAGACCGCCCCACCGACCTGAAGCCGGCTAAGCCAACCGTCGGCAGCGCGGACCTTTGTCTGGTCGCCGGTGATAAGCTGGAGGACATCCTCCACCACCTGCGCAGCTACTACGTGGACGTGGTTGCCGGGCCGGTCGAAAAGCACGGGTCTGAAGGTGAAATGACCTCGATCTACGTCCACGACCCCGACAGCAACCTGATCGAGATCGCCGTCTACAAGAATAAGTAA
>SRR1151252_01427 2-octaprenylphenol hydroxylase
ATGACCAGTGAGACCGACATTGAAATCAAGAAGGGGCAACGCCTGCGCGAAATCATGCAGGTAATGCGCCGCCACCACTTTCTCAGCAACTTCTACCACCAGAAGAACCCCGAGGAGGTCGTCGCCGCCCTTCAGGAGCTGGGCCCGACCTTTATCAAGATGGGTCAGATCCTATCGACCCGGCCGGACCTGATCTCGCCGGCCTACGTCAAGGCCCTCCGTAAACTTCAGGACCAGGTCAAGGCCGACCCCTTCGCTAGCGTCCAGGCGACCTTCAAGGCCCAGACCGGCCACACGATCGATGAGGTCTTCGCCAGCTTCGACCCCCAGCCCTTTGCCTCGGCCTCGATCGGCCAGGTCCATCACGCAACCTTAAAGGACGGCACCCCGGTGGTGGTCAAGGTCCAGCACCCGGCGGTCGGTCAGCTGGTCAACACCGACATCGCCCTGCTGCGGCGGGCGGTCAAGCTCTTCCAGTACGTGCCCAACGAGGTGACGGTGGTCAACCTCGACAAGGTTCTCGACGAGCTCAGCCGGTCCCTGCTCAGCGAGGTCAACACGCTGAACGAGGTCCATAATGGTGAGGAATTCTACCGGCTCCACAACGGCGACGATATCATCACCGTCCCCAAAGTCTACGCCAAGTACTGCGCCCCCCAGATCCTGGTCAACGAGGCCATGGCGGGCAAGAGTGTCCGTCACCTCTTCCCGCAGAACAGCAAGGATAACGACGATCCACAGCTGCCGACTCAGCGTAAGTACATCGCTCATGTCCTGGTCCAGAACTTCATGAAGCAGGTCTTCGTCGACCACTTCTTCCACGCCGACCCGCACCCGGGAAACATCCTGGTCCACGAGCTCGACCCGGCCGATGAGGACGCAGCGACGATGAAGACGACCCACCAGCACCAGGTTCAGGTGGGAAAGACCACCGTTGGCTACCGGGAACAGACGGCCCTGCCGCCGTACCGAATTGTCTACCTGGACTTCGGGATGATGGGGGTCCTGACCCCGGCCATGGCCGATGGGATCGCCAACGTGATTTTGGCCATCACCACCAAGAACGTGCGGCGGATTGCCCAGGCGGTCCTGGCGATCTGCAACCAGACCGGGCCGCTGGACGAGCTGGCCTTTACCAAGGAGCTGGGCAGCTTCATTCGGCCCTACCTGGCGATGGGGGTCGGGGAGATTGACTTTACCGCCATGCTCTATTCGATCGTCCAGCTCTGCCAGCGCAACCACCTGCAGATGAAACCCGAGGTGACGCTGTTGATCAAGGCCTTTGGTACCCTGGAGAGCACCGTTGCCCGGCTCGATCCCGATATCTCGATGATGGAGGTCGCCCGGCCGTTTGGGCTCCGCTACCTCAAGCGTAAGTTTAACTGGCGCGACAGCCTCGATGAACAGCTGATCAGCCTGGTCACCACCGCCCAGGAGACGGCCCAACTGCCGGACCGGATCAACGCTACCCTGGAGACAATTGCCAACGGCGACGCCCAGGTCAACTTCAAGCTCAAGGGCCAGGACCGCCTGATCAAGCAGGTCGAGCGGATCACCAACCGCTTTTTGATCGTGATCATCCTGGCGGCGGTGATCCTTGGCTCCTCGGTGATTGTCGAGGGCAGCAGCCAGCATCCCCACATCTTCCGCCTTGGCGTGATCGGCTACTCGATCGCCTTGGTCGTAATTGTTGCGCTGGTCTTGAGCGAGCTCGGTCACCGCTGGCGAAACTGGCGAAATAAGAATAAGTAG
>SRR1151252_01428 hemolysin-like protein
ATGGGTGCATTATGGTCTTCATATTGGTTTAAGTTAGTTGTTATCATTCTGATTTTACTGCTGGCAGCGCTGTTCACGCTGCTGGAGTACTCGGTCGTCAAGGTGCGGCCGAGCGAGTTAAAAGAGCTCAAGCAGACGCGCAAGGTCAAGCGCGCTGAGCACATGGTCGGCAACCTCAACGAGTACCTGTCCACCGCCCAGGTCGGGGTCACGATGACTTCCCTGGTATTAGGGTGGATTGGTGACCAGTTCATCACCGACCTCCTGCTCAAGATCACGGCCGTTCCGGCGACGGTCCGGGAGATCATCTCCCCAATCCTGGGTGTGCTGATCTTCACCTTCTTCCACGCCGTCTTCACCGACCTGGTCCCGAAGAACATGGCAATCGACCGGCCGGTACCGATCCTGCTGTCGATTGTTCACCCGATCCAGTTCTTCCACGCGCTCTTCTACCCATTCGTCTGGCTATTTGCCGTCGTGGCCGCCCAGATCACCAAGATGCTGGGCTACAACGTCCAGCCGGAAGAGGATACCTACTCGCAAAACGAGATCATGACCCTCTCCCAGCAGTCCGAGAAGGCCGGTGAGATGGACAAGGAGGACGTCCTCTTCATGCGGCGGGCCTTCCAGCTGAACGATAAGGTCGCCGCAGATATCATGATCGACCGGACCCAGCTGTCCGTCATCGACATCCAGGCGACGATCGACGACGCGGTCAAGCTCTACTTCGAGAAGAAGTTCACCCGGTTCCCGGTCGTGGCCAACAATGACAAGGACCACATCCTCGGTTACATCTTCTCCTACGACATCATGCGGCAGAGTCAGATCAACCCCGACCAATCCATCCGGACGATCATGCGGAAGATCCCGATCGTCTACGAGAGTGAGCCGATCACCAAGGTCCTCCAGGTCATGATGAAGAAGCAGGTGCCAATTGTCGTTGTCCAGGACGAGTACGGTGGGACTTCCGGGATCATCACCGACAAGGATATCTACGAGGAGCTGTTCGGTACGGTGGGCGAGGAAATCGACCACGCTACCTCCGACATGATCGAGAAGAAGGACCCCGATTCTAAGGGCAACCCAACCTACGAGGTTTCCGGAAAGATGCCGCTGGCGGACTTTGAGCGCTACTTCAACACCAACGTCGAGCAGTTCGACAACTCCGAGGTCACGACCCTGACTGGGTTCTTCCTGGAACGGCAGTATGATTTGAAGGTCGGCCAGCCAATTAGAGTCGACAACTTCTCCTTCACCCCGCTGGTCCTGCAGAACGCCTACGTCAACAAGTTTAAGGTCATCTACATCAAGCCGAAGAAGAAGCCGGCAGATGCCGATAGCCAAGAAGATAAGAAATAA
>SRR1151252_01429 multidrug ABC transporter ATP-binding and permease protein
GTGCCCGCCGACCTGGCCGACCCCGATCTCTTCGAGGACCTCAGCGACCGACGGTTGAATGCCGTCGAGGAACAAGATGAGGAGGATCCGGTTGCTTCTGGCCAGGTCCTGCGCGGGATCGAAGATGGGGTCAGTCTCAAGGACGTCCACTTCGGTTACAGCAAGGATAAAGAGATTCTCCATGGCATTAACATTAACGCGCAAAAGGGCAAGGAGGTCGCCATTGTTGGTCCCACCGGATCCGGTAAGACCACGATCATGAACCTGATCAACCGCTTCTACGACGTTGACGCCGGCCACGTTGAATTTGATGGAACGGATGTCCGCAAGCTGACCCTGCATTCCTTACGGGACAACGTCGGCATCGTTTTGCAGGATTCGGTCCTCTTTACGGGGACGGTCGCCGAGAATATTAGTTATGGAAAACCGGGGGCCAGCCGGCAGGAGATTATCGCTGCGGCCCGGGAGGCCCAGATTGATGACTTCATTCAGGGCCTACCAGAGGGATACGATACGCGGGTATCCGATGAGAATGCCGTGTTCTCGACCGGCCAAAAGCAGTTGATTTCAATTGCCCGAACAATATTAACCAACCCGACATTCTTAATTCTGGATGAGGCGACCTCAAACGTTGATGCCGTCACCGAGGAGAAGATCCAGAAGGCGATGGACACCGTGATTGCGGGGCGCACCAGCTTCGTCATCGCCCACCGGTTGAAGACTATCTTGAATGCGGATGAAATCATTGTTCTCAATAATGGTAAGGTGATGGAACGCGGGAGTCACCAGCAGCTATTGCAGAAGCGTGGTTTCTACTATGATCTTTACACCAGTCAGATGGCGTTCAACTAA
>SRR1151252_01430 hypothetical protein
ATGGCTTGCAGCCACGTTGGCGGGCTGTCCGGTGCCTTCATCCCGGTTTCTGAGGATGCGGGGATGATCAAGGCCGTCGAGTCCGGCACCCTCAACATCGCCAAGCTTGAGGCGATGACCGCGGTTTGCTCGGTCGGTCTCGACATGATCGCCATCCCCAGTGATACCCCAGCGGAGACGATCAGTGCAATGATCGCCGACGAGGCCGCCATCGGGATGATCAACAACAAGACCACCGCCGTCCGGGTAATCCCGGTCCCTGGCAAGGAGGTCGGCGATACCGTCGAGTTCGGCGGCCTGCTCGGTCACGCCCCGATTATGGCGATCAACCCGGCCCCGGCCGACCGGTTGATCCACCGCGGGGGCCTAATCCCGGCACCGATCCACAGTTTCAAGAACTAA
>SRR1151252_01431 CopY/TcrY family copper transport repressor
ATGCAGTACTTTTTGCAAGGGGGACCAATGAGTGTTATAATTACAAATGTAATCAAAAACGAAAGGGGCGGTCAGATGACCAAGGGATTAGAGATCACGCCGGCCGAGTGGCAGGTAATGCGGATTGTGTGGACGCTGGGTGAGACGACCAGCAGCCAGATCATCACCATCCTCCAGCGCAAGGTCGATTGGAAACCGGCAACGGTGAAGACCCTCCTGCGACGCCTGGTGGCCAAGGGCGCCCTCTCGACCACGCGGCAGGGGCGGTCCTTCATCTACCGGCCGCTGGTGGAAGAGCAGGCGACGATGGACCAGGTGGCCGATGCCCTCTTTAGCAGTATTTGTGAGCACTGTGTCGGCCGGACCCTGGATCACGTGGTCGACCAGGTAACCCTGAGCAAGACTGACATTCAGCGCCTCCAGCAGGCCCTGCAGGATAAGCTGGTAACGGCGCCCGACCAGGTCCACTGTAACTGCGTCCCGGGCGAGAAGATGCATTGTTAA
>SRR1151252_01432 major facilitator superfamily transporter
ATGCAAAACAAACGAATTCAGCACGCCCTGATCATCATGGTGCTGGGGACCTTCTTCGGGATCCTCTGTTCCACCCTGATGAACATCGCCCTGCCGACCTTCATGCGGGTCTTCAATATCAGCGAGGCCCATGTCCAGTGGGTGATCAACGGCTACATGCTGGTCAACGCCCTGATGATCCCGGTCAGCTCGTATCTGATCAAGCGCTTCTCCTTTCGCTGGCTTTTCATCTTCTTTTGCGGGGTCTTTCTGGTCGGAACGGTCATCGGGGCCGCGGCACCTAACTTCAACACGGTGGTTGTCGCCCGGATGATCCAGGCGATTGGTGCGGGGATGATGATGCCCCTGGTCAACGTCCTGGCCATTCGCTACGCCGATCCCGGGAAGAAGGGCCGGATCATGGGGGTCATCGGTTTGGCCTTCAATTGCGCGCCGATCTTTGGCCCAGTCCTCTCCGGAGTGATATTGAACTACCTTTCCTGGCGCTACCTCTTCATCCTGATTATCCCCTTCCTGGCGCTCGTCTTAGTCCTGTCCTTCATCTTTCTCCCCTACATCCCACATAACGAGTCGCCGCGCTTCAACACGGTCGGCCTGGTTACGATCACGATCGGGCTCTGGTCACTGTTGATGGGACTGTCCAACGTCGCCAACAATCACCTGGCCTCCTTCGCCGTCGCCGGCTACGTCCTAATCGGGATCGCCTTTTTAGTCCTCTTCTACCTCAGCCAACGGCGTAGTGACCACCAGCTGATCAACCTGACGATCTTTCGCCACAAGCAGTTCGTCCTCGCCACCACCATCAACATGCTGATCACGGCGACAATGTACGGGAACACCATCCTGATCCCCCTCCTGGTCCAGATTGTCCTCGGTAAGAGCACGATTGTCTCGGCGATGACGGTCCTCCCCGGCGCCTGCCTGACCGGCTTATTGTCGACCACCAGCGGCCGCTTCTACGACATCTACCCGATCCGGGTCCTGGTCGGCACGGGGCTGGTGATCGACATCATTGGGACCCTCGGCCAGGCGATGATCGGTGCCAACAGCTCGGTGTTGATCATCACCATCTTCCAGACCGTCCGCCAGTTCGGTCTGGTCACGATGCTGATTCCGTTGCAGACCCAGGCCCTGGCGCTGTTGCCCAACGAGATCGTCCCCGACGCGGTGGCCTCCTTCAACACCTTCCGCCAGATCGCGGCCTCGTTTGGGACGGCCCTGATTGTCGCGGTCGTCGGGATCGTCAACGGGATCATCCATAACCCGGCCTCCCACCTCGGGATCCAGTCCGGCTTCCTACTCTGCCTGTGCCTGCTGGTGGTCTCGCTGGTTCTCAGCCGTCAGCTCTACCACAAGATTGAAAAGCCTAATAATGACTAG
>SRR1151252_01433 major facilitator superfamily transporter
ATGAAGTATCGTTTGCAGAGTATCGTCTTTGTCCTGACGGCCTTTTTGCTGGGCTGCAATGAGTTCATGGTGGTCGGGGTCATCTCCAATATTGCCAAGAGCTATCACGCCTCGCTGTCGACGGTCGGCCTGCTGGTCACCTTCTTCGCCATCACCTACGCGGTCTGCACGCCGGTCTTGACCACGGTCACCAGTAAGTACAACCGCTTCAAGGTCCTGATGGCCATGCTGGTGATCTTCTGGATCGGTAACACCATGACCGCCCTGGCGCCGAACCTCTTCTGGCTCTTCGTCGCCCGGATCATCACGGCGGCGGTGGCCGGGGTCATCATCTCACTGATCCTAGTCTTCGTCAGCGTGATCGCCCCGCTGGCGAAGCGGTCGATGCTGGTCGCTGCCGTTTTTTCAGGCTTTTCCACTGCCACCATCATCGGGGTGCCGGTCGGGACCACCATCAGCATGCTCTCGTCCTGGTACATCAGCTTTCTGGTGATCTCGGTGCTGACGATCATCATCGGTGCCGCCCTCTACTGGCTGGTTCCGCGTGACAGCGATCAGGTCACCGGTTCGATCAAGAGCCAATTGCGGCTGATGGGTGACCGGCGAATTGTCCTCGGGGTGGTTGTGATGATCGCCCTGATGGCCGCTGAATATACCTTCTATACCTACATTCGTCCAATCATCACCGACGTCCTCGGCTACAGTACCGCCCAGCTGAACTGGCTGTTGGGTTTGATCGGGGTGATGTTCATCCTCGGCAACACCGCCGCCGGGATCGTCTCCAGCCACTACGGGATCGCCAAGATGCCGCAGGTCAGCGCTGCCTGCCTGATCCTCCTGTTGGTCATGGGATTGGCCTTCCACCTCTCCTGGATGGGGATCGCCCTGCTATGCCTGATCTGCTTTGTCCTCGGCATGCCCGGCTCGATCCTCCAGGTGATGTTCTTAAACGTCGCCGACCGTGACTACCCGGAGGCGATAAGCCTGGCCTCTTCGCTCAACCCGATCTGCACCAACGTCGGCGTCTCGGTTGGCTCGCTGGTTGCTTCGATCAGCGTTAACTTCGTGCCGATCAGCCAGGTCGGCTACATTGGCGCCATTTTCGCCCTGATTGGGGTCGTCGGCACGATGATGCTCGTGAAAATCAAATAA
>SRR1151252_01434 ATP-dependent DNA helicase RecQ
ATGGCGACACCAACAGAAATCTTACACACCAACTTCGGCTTTGACCACTTCCGCGACGGTCAGGAGCAGGTCATCAAGCAGGTTTTGGAAGGTCATAACACCCTGGCAGTGATGCCGACCGGTGGGGGGAAGTCCCTGTGCTACCAGATCCCGGCCCTGATCAATCCCGGGGTGACGATCGTCGTCTCACCCCTCCTATCCCTGATGAAGGACCAGGTCGACTCGCTCCGCCAGAACGGGATCGCCGCCGCGGCCCTCAACAGCGCTACCCCGCGTGAAGAGGTCAACCCGATTCTGCGCAGTGCCTACAATGGCGAGATCAAGCTCCTCTACGTGACCCCGGAGCGGCTGGCGATGGATTACTTCCAGTACCAGCTGGGCTTTCTCAACATTAACCTGGTGGCAATCGACGAGGCCCACTGTATCTCCCAATGGGGGCACGACTTCCGCCCGGCCTACCGCCAGCTCAACGACGCCATCCAACGCCTCAAGACCCATCCAGCGATCCTGGCCCTGACTGCCACCGCTACGCCCCAGGTCCAGCAAGACATCGGCGACCAGCTGGGAATCCCCGAAGACAACTTTGTCATCACCAGCTTTGCCCGGCCGAACATCAGCTTTGCGGTGGCCCACCCGCACCAGGGGATCCGTCAGTATATCCTCAAGTACCTGACAGCCCACCAGGGTGAGGCCGGGATCATCTACGCTAACACCCGTAAGCGGGTTGAATCGCTGACTGCCTTTCTCAACGAACACGGGATCCAGGCGGCAATGTATCATGCCGGGATGACGGCGGAGGACCGGGCCCAGGTCCAGGATGACTTCCAGTTTGACCGGGTACCGGTGATCGTGGCCACCAACGCCTTTGGAATGGGCATCGACAAGAGCAACGTTCGCTTCGTCCTCCACGCGACCAGCGCCAAGAACCTGGAGTCCTACTACCAGGAGGCCGGGCGCGCCGGGCGGGACGGTCTGCCCAGCGAGGCGGTGATGCTCTACCACGCCAATGACATCCAGCAGTATCGCTGGTTCATCGACCAGTCGACCGCTGACGACGAGTACCGGGAGGTCCAGTACGAGAAGCTCCAGGCGGTCACCGCCTACGCCAACACCCCGCGCTGCCTCCAGCAGCAGATTGTCAGTTACTTTGGCCAGGAATGCGAGCCGTGTGGCCATTGCAGCAACTGCACCGACGACCGCCAGCTGGAGGACATCACCGCCATGGCTCAAGCAGTCATCGCCGTAGTCAAGGAGCTTCACGGCCGCTTCGGCAAGTCCCTGGTCGCCAAGGTGGTGACCGGGTCCCACGACCAGCGGATCAACCAGCTCCACGCCGACCAGCTGGAACATTACGGCGCCCTCAAGCTCTCCCAGCAGGCCGCTGGCGCCCTGGTCGACTACCTGCTGGCCACCGGTTACCTGGAGTTGGATGGCGGCCAATACCCGGTGGTTAAGATTGCCAAGCCCGGTTGGCGGGTTCTTGATGGTGAGGCCACCGTCCAGCGGCGGAGTGAACCCCAGCCGACCCGGTCGTCGACGACAGTGGATGAGACGCCGGAGCAGGCGGCCCTGTTTGAGCTTCTTCGTAAGCAGCGCCGCAAACTAGCCGACGATCAGGGGGTCCCACCGTTTATGATCTTCTCCGACCGGACCCTTCATGACATGGCCCGCCTGCAGCCTCAGACCCCGGCCGACTTCCTGACGGTCAACGGGGTCGGCCAGGCCAAGTTGAAGAAGTATGGCCAAATCATGATGGACGAGATCGGCGCCTACCTGTCCGGTAATACTGACTAA
>SRR1151252_01435 glyoxal reductase
ATGGAAAAAGTTAAATTAAACAATGGTCTGGCGATGCCCCAGGTCGGCCTGGGCGTCTGGAAGGTGCCACTCGACGTGACGGCCAAGATGGTCGCCACCGCGGTCGAAAATGACTACCCCCTGATCGACACCGCCAAGCAGTACGGCAACGAGCAGGGGGTCGGTCAGGGAATCGCTGCCGGGCTGGCTGCCACTGGCAAGTCCCGGGACGACCTCTTCTTGACCACCAAGATCTTCAACGGTGACCAGGGCGACTACGACCGGGTCCGCAACGCCGTCAACCAGCAGTTGGCCGCCCTGCAGACCGATTACGTTGACCTGCTCCTCCTCCACTGGCCGGTCTTCAACCGTTACAACACCAGCTGGAAGGCCCTCGAAGATATCTACCGCGACGGCCAAGCCAAGGCGATCGGTGTCTGCAACTTCAACGTCGACCACCTGACCAACCTGCTCGACCATGCTGAAATCAAGCCGATGGTCAACCAGATCGAGTTTAACCCGCGGATCCACCAGCCGGACACGGTCGCCTTCTGTCAGGGGCAGCACATCCAGCTGGAAGCCTGGTCACCGCTGGGCAACGGGCAGCTGCTCGACAACCCGGTAATCAACAAGATCGCCAAGGCCAAGGGGAAGTCCCCGGCCCAGGTCGAGCTGCGTTGGGAAATCCAGCAGGGCTTCGTCGTCATTCCAAAGTCGACCCACGCTGCCCGGATGAAGGAGAACGCCGACATCTTTGACTTCAGCCTCGACGCTGACGAGATGGAGGAGATCGCCATGCTCGACGAAGAGAAGCACTCCATCTGGTACCAAAAATTCAAGTGGTCCGGAAATCCGGACGGGGTCGATGACTACATCGCCAAGCCGGGTGCCTACTAA
>SRR1151252_01436 diacylglycerol kinase family protein
ATGAAGTACCACTTTATCATCAATCCCTGTGCGGGTGGCGGCAAGGCCTGGACCGCCTGGCACCAGGTTCAAACCGCACTGGCTGCCAAACCGGGGATCCAGTTTGATCACGCCACCAGTCAGTACGCCGGTCACCCCCGCGAGCTCGCGATCCAGGCAGTCCAGCGCGGTGACTGCGACTGCCTGGTCGTGGTCGGCGGCGACGGCACCCTCCACGAGGTGATCACCGGCCTGATCGCGACCCAGCAAGAGGAGCCCCTGCCGGTCGGCTACATTCCCGCCGGTACCGGGAACGACTTTGCCCGCGGCTACGGGATCGCCACCGAACCCCGCCAGGCCCTGGACCAGATTCTTACCAACCAGCACCCCCACTGGATCAACATCGGCCACTACCATGATTTCAGCCGCGAGTGCGAGGGGATCTTCCTCAACAACTTCGGGATCGGTTTCGACGCGGCAATCGTCCACGCCACCAACCATTCCCGGGCCAAGGCCTTCCTGAACCGCCACCACCTCGGCACCTTTGCCTACATCTACAAGGCGGTTCGGGTCTTCTTCGCCCAACCGGCCTTCCGGGTGGTGGTCGACGATGATGGACACCAGCGAACCTTTAACCACGCCTTCCTCCTGGTTGCCAGCAACCACCCCTACATCAGTGGTGGGGTCCGGATCGCAGCCGACCAGCGGATCGACCGGCGGGAGCTGGAACTGGTAGTGGTCGAGAAGCGCCACTGGCTAACCTTGCTCTGGGCAATGCTGATGTTTGCCAGCGGCCACTTGGTCGACTCCCGCTTCGCCCACCTCTTCCGCGGGACCCAACTGCGCTATGCGGTCACCCCCGCTCAGTACGGCCAGATCGATGGTGATGAACCGGGCAAGCCCCCCCTTGACCTGGCCCTGGACTGTTGCTCTTACCCGCTCTGGCAGACGCCACTATGGTGA
>SRR1151252_01437 transposase
ATGGCGCAGATTATAAAAGGCATTAAGCTCCGTCTATATCCCAATGCTCAGCAGAGAGAACAATTATGGCAGATGTTTGGTAATGATCGCTTTGTTTGGAACCAGATGTTGGCGATGGCTAAAGAGCGGTATCGAAACAATCCTAGCAGTCACTTCGTCAATGAATATGGTATGAATTATCTCCTGAAAAGACTCAAGCAGGAATATCCATTCCTTAGCGTTAGTGACGCAACTAGTTTTCTCGTGGTTAATCATAACCTCGCTCAAGCCTTTAAGATGCTCTTTAGGTACCAGGGTGGTTACCCACATGTTCACAGAAGCGCGGTCATTGATGGCCGAGTAGTTCACCATAGTGGCGTCTGCCAGAGCGGGTAA
>SRR1151252_01438 hypothetical protein
TTGAAACAACGGCTAAGCACCCCCACATATGAATGGGACATTGACCATTACACCAAAATTGACATGACCTACGATGACTTCCTCGATATGTTCAATAAAGCGAAGAAGTCCGACCAGAAGTCTATTCAGGAGAATGGTTACGCCCAGCCGGATAATTAA
>SRR1151252_01439 hypothetical protein
ATGCTGACTGGGGTTTATAAGGAAAAGGAATCCGATGCTGATGCCAAGTACGGTCCGCAGCCAAATTATATCTACTTCAACCGGAACGGGACCTTGATGATGGCCACCCCGGAGATTGGGGGTAGTGACGAGGGTTACTACGGGTCGGCTTACCGTGGTATCTGGAAGGCGATGGGGAACAATTGTTTCATCCTTAACGTTCACTCTGTCTACAATAAGGACCACTACAAGCTCGAGCTCAATAAGGATGGGAGCCACATTTCCTTTGAAACAACGGCTAAGCACCCCCACATATGA
>SRR1151252_01440 4-carboxymuconolactone decarboxylase
ATGGCTAGGAAACAAACCGCTGGCCGCGACCAGCTGGGCGACTTCGCCCCGAAATTCGCGGAATTAAACGATGACGTCTTGTTTGGACAGGTCTGGTCCCGGGAGAAGGAACTCAGCCCACGTGACCGGAGTTTCCTGACGGTGACCGCCCTGATCACCAAGGGGGCTTTTGCGCAACTGCCATACCACATGCAGACGGCTAAGAAGAACGGGATCACCAAGGAAGAGATCGCCGAGATGATCACCCAGCTGGCCTTCTACGTCGGCTGGCCAAACGCCTGGTCCGCATTTAACGTGGCCAAGAAGGTCTGGGATGACTAG
>SRR1151252_01441 LytTR family transcriptional regulator
ATGGCAAGGGACGAACAAGCAGTAAAGAACGACCTCTTTGGCTTCGGTGACAAGAACGTCGCCTACGCCAAGTACTTCATCGGGACCAGCTACCTCAACGGCCTGGTCAGCCCTGATGACAACATCGACATCAACGTCGCCAACGTCAACTTCGAGCCCGGCTGCCGCAACGACTGGCACATCCACCACGACGGCTACCAGATTCTCCTGGTCACGGCCGGTGAGGGCTGGTACCAGGAGGAGGGCAAGCCAGCCCAACTCCTGAAGCCCGGTGACGTGGTCGCAATTCACGAGGGCGTCAAGCACTGGCATGGTGCTACCAAGGATTCCTGGTTCTCCCACATCGCGATCACTAAGGGGACCAGTGAATGGTGCGAGAAGGTCACTGACGACTACTACGATCAGCTGACGAAGTAG
>SRR1151252_01442 flavodoxin
ATGAAAAACCTCCAGATTCTAAGTAAGGGAATGATTGAAATGGCCAAACAGGCACTGATTTTGTATTATTCACAATTTGAAACGACGGCGAAACTCGCCAGCCAGATCCACCGGCTGACCGACGCCGACATCCTGCAGGTCAGGGTGGCACCGGGGACCTTTCCCGACGACATGACCGCCACCAATAAGGTCTATAAAAAGCAGCGGACCAGCGGCCAGCTACCGGTCCTAACGACCAAACTGCCGAAACTGGACTACTACGACGCAATTCTGGTCGGCGGCCCGGTCTGGGACGGCCAGGTTTCCTCGCCGATTATGCAGCTTTTAAAGCAGTTGCAGGGCTATTCAGGTGTTGTGGCACCGTTTAGCACCGGCTGGAGCGCCACCGGCAACTACCAGCAGGACTTCATCGCCCACGCCGGTAAGCTCTACGTGATCACGGGTTACCACGTCCTGACCCATGCCGCTCCACGTTTTGCCGTTTCGGCCCTAGCGACCTGGTTACGTAAATTATAA
>SRR1151252_01443 LysR family transcriptional regulator
ATGGACACGCGCGTCATCAAATACTTTCTCACGGTCGCTCACACCAATAATATCACAAAGGCCGCCAAGCAGCTGCACGTCACCCAGCCGACTCTCTCCCGGCAGATCATGGACCTGGAGAGTGAGCTGGGCGTCACCCTCTTCGACCGCCAGCAGCGACGGATGGAATTGACACAGGCCGGGGTCCTCTTTCAACGGCGGGCCACCACGATCCTCCAGCTCCTCGACCAGACCGAGGCGGAACTCCTCCGCCAGGACAGTGACGAACTGACCGGGACGATCAATCTGGGCTGTGTCGTCTCCAGCGTCTCCCCCTACCTGATGGGGCTAGTCGACCAGTTCCAGCAGGCTCACCCGGCGGTCCGCTTCAACCTCTTCGACGGCGACGGTGACTTCCTCCGCCGCCAGCTCGATGAGGCCGCTACCGAGCTGGCCTGCCTGATCGAGCCGGTCGAGGCAGCTAAGTACAACTACCTGGTCCTGCCCAGCCGGGAGCAATGGGGGATCATTTTGCGTGCCGACGACCCCCTGGCCAAGAAAACGGCCTTCACCCGCGACGACCTCTACAAGCTGCCCCTGATCATCCCCCACCGCAACATCGTCCGCGATGAGGTCAGCGACGTCCTCAAGCTCGACCAGCGCAGGCTCAACGTCCGTGCCAGCAACAACCAGCCCAGTAACGCCATCGCCCTGATCCGGACCGGTCACTACTACGGCCTGGCGATCAAGGGAGTGGCCGACCTCTTCCACGACCCCGCCATCACCTTCGTTCCCTTCACCCCGGCGACCAGCACCGGCCACGTCCTGGTCTGGAAGAAGAACCGCCAGCTGTCCACGGCGGCCGAACGCTTCCTCCAGTTCGTCACCGATCACGCTAATTAA
>SRR1151252_01444 branched-chain amino acid transporter
ATGACCATCGTTCAACAGGTCATCACAATTGCGATCGCCACGGTGACCAACTTCATCACCCGCTGGCTGCCGTTTAATCTCTTCACCAGTGGCAAGGACGACCGCGACGAGCCGTCGCCCTTTATCAAGGGACTCGGCGCCTTCCTGCCGCCCGCCATCATGGGGATGCTGGTGGTATACTGCTACCGCAATATCAACCTCTTGTCCGGGGACCACGGCCTACCGGACCTGATCGCTGGGCTGATCACGGTGGTCATCCACCTCTGGCGGCGGAGCATGTTCCTCTCTTTAATCGTGGGAACCGTCAGCTACATTGTTTTGGTTAACTTTATCTTTTGA
>SRR1151252_01445 branched-chain amino acid transporter AzlC
GTGAATAGTAAGCGTGGACGCAACTTTCGCCTGGCCCTGACCAGGTCTAGCCCGGTCTTCTTCGGCTACGTGATCCTGGGGCTCGGTTACGGCCTGTACATGCACAATTTGGGCTTTTCGTTCTGGTACCCGACTCTGATGGCGGCAACGATCTACGGGGGTTCGGTCGAATTCATCATCGCCACCCTCTTGACCCAGCACTTCAACCCGGTCAACGTCCTGCTGATCACGGCGGTGGTCGGCTTCCGCCAATTCTTCTACGGGATCTCGATGCTGACCAAGTACCCGCACCGCGGCTGGCGCAAGTTCCTATTGCTGTTTGGCCTGACCGACGAGACCTTCGTGATCAACTACAGCTTGCAGGTGCCGGACGACTGTGACGAGACCAGTGTCCAGGCCTGGATCACCATCCTGGACTACGCCTACTGGGTGCTGGGGGCCTTTCTCGGTGGTTTTTTCGGTGCGACCTTCAACGTTCAGGTCAAGGGGCTGGACTTCGTGATGACGGCCCTCTTCATCGTCCTGGCCCTGGAGCAGTTCATGCAGGAGAAACGCCACATCAGTTCGCTCAGTGGGGTGGCAATCACGATCGGCTGCCTGCTGGTTTTCGGTAAGACCTATTTTCTGATCGCGACCCTCCTGCTCCTGGTCGCCGAGTACTACTACTTCTACCGTCGTCACCAGAAGGGCGGTGACCGGGCATGA
>SRR1151252_01446 GNAT family acetyltransferase
ATGCAAATCAAGCAAGCAACGATGAATGGCCTCGACCAGATTATTGAAATCCTGCGCGATGGTCGTGACCAACTGGCCTCCCAAGGAATCGACCAGTGGCAGGGGGACTACCCGAACGTTGAGCATGTCCAGGAAGACATCAACAACGGCTTTGCCTACCTAGTCCAATCTGACGATGACGAGACGGTCGGTGCCCTGTCGATCGTCGAGGCACCGGACCACTCCTACGACGAGCTGCACGGTGACTGGCTGATTGACACCGACAAGTACGTTGTGATCCACCGGGTGGCCATCCACTCCAACCACGCCGGCAAGGGTTACGCATCGGCCCTCTTCACCAACGTGATCGACTACATCAAGGCGCACCGGCAGGATATCAAGACGATCCGGATCGACACCCATGAGGATAACAAGATCATGCAGCACCTGATCACCAAGAACGGCTTCACCAAGGTTGGGGAGCTGCACGGGGTTTACCGGCCACAGGAAATTTCCTACGTTTACGCCCTATTGACGGGGAACTAA
>SRR1151252_01447 endonuclease III
ATGCAGCTCACCATTACCCAACTATACGAAAAGATGCGCGCCAACATGGGCCCGTCCGGCTGGTGGCCCGCCGACAGCAAGGAAGAGATCATCATCGGGGCAATCCTGATTCAAAACACCAACTGGCGTAATGCCGACAGGGCCCTGACCCTCCTCCGTAACGCTACGGGCCTTGTACCCGACCGCATCCTGACCCTACCCCCGGAAAAGCTACATGACCTGGTCCGACCGGCAGGCTTCTACCGCAACAAGAGCCGGGCCCTGGTCAGCGTCCTCACCTGGCTGGCCCAGGGCAACTACGACTACCCGGCCATCGGGCAGCACTATGGGGCGCACCTTCGCCAGGAGCTGCGTGCCCTCCACGGGGTTGGGCCCGAGACGGCCGATGTCCTGCTGACCTACATTTTCGACGTGCCGACCTTCATCAGTGACAAGTACGCCCGGACCCTCTTCACCTGCCTGGGGGTAACTGGACTGACCGACTACCGGAGCTTGGCGCGGCGGTGCACCCTGCCGGCCAGCTTCACCCCGGCGATGGCCCAGGACTTCCACGGCCTGATCGACGAGTTCGGCAAGGTCTACTTCCACCCGCTAACAAAGTTCCAGGAGAGCTTCCTGGCCGGTGATACCCTCGCCCTCTGA
>SRR1151252_01448 isochorismatase
ATGACCAAGGCGCTATTGATCATTGACTATACCAACGACTTCGTGGCAGACGATGGGACATTGACGGTTGGCAAACCGGCCCAGCAGCTGGACGGCTACCTGACCGCCCTCGCCGACCGCTTCTACCAAAACGGTGACGTCGTCCTCTTCCCGACCGACGCCCACCACTTGCACGACCCCTTCCACCCGGAGTCGAAGCTCTTTCCACCGCACAACATCATCGGGACGTCGGGCCGCAACCTCTACGGCCAGGTCGGCAACTGGTCCCAGGCCCACCGCGCCAGCGATCGGGTCGACCTCTTCGCTAAGAACCGCTACTCGTCCTTTGCCAACACCAACCTCGACAACTACCTCCGCGAGCGGCGGATCACCGACCTCTGGATCAGCGGGGTCTGCACCGACATCTGTGTCCTCCACACGGCGATCGATGCCTACAATCGTGACTACCAGATCACCATCCCCCGCCGCGGGGTCGCCACCTTCACCGCGCACGGCGACGAGTGGGCGTTTGACCACTTCCAAAACAGCCTCGGCGCCACGGTCGTCGACTAG
>SRR1151252_01449 lipopolysaccharide biosynthesis glycosyltransferase
ATGAACCTATTATTCTCAATTGATGACCATTATACCACCCAGTTGGCAACCGTCCTGCTCTCGATTAAGGTCAGCACGCCCGCACAGCATTTCGACGTCTACGTGATCCAGAAGCAACCGCTCCAAAATGGGGACCAGCTAGCAGCCTTCTGTCAGCGGCTGGGGATGACCTACCACCCGGTGATGGTGAAAAACGAAATGTTTAAGGACGCCCCGGTCACCGACCGCTACCCGACGACGATCTACTACCGGCTCCTGGTCCACAAGCTCCTGCCGACTGACCTGCATAAGATCCTCTACCTGGATGCCGACGTCCTCTGTATTAACGACTTGACCCAGCTGTATGCGACCGACCTGACTGACTACCTCTACGCTTCGGCCATCCACACCGGCCTGACCAACACGACCGAGGTGATCAACAAGATCCGCCTGCAGAACTTCGACGCTGATGGCTACTACAACTCCGGGGTTCTGCTAATGAACCTCGATGCCATCCGCCAGCGGGTCCAGCCGGCCGCCATCTTCAACTACATCCGCGACCATATTCTGTTGCTACCGGACCAGGACGTCCTCAACGCCCTCTACGGCAAGGATATCAAGTCAGTGCCCGACGAACTCTACAACTTTGACACGCGTAAGGGCCAGATCTACGAAACGATCTCCTTTGGCGAGTGGACGACCGACTGGGTGGTCAAGAACACCGTCATCCTGCATTACTGCGGCCGTGATAAGCCCTGGCTGGTCAAAAAGAACAGTGGGCGCTACACAGCCCTGTACAAGCACTACTTCCACGTTGCCCAGCGCCTGCTCCAATCCTAG
>SRR1151252_01450 metal-dependent phosphohydrolase
ATGAAGCAGGAAGAACAAATTGTCGCAGTCAAAAAGTACACGATCGCCAAGCTCGGTCAGGACAAGACCGGCCACGGCATGGACCACATCAATCGGGTTGTCCGGATGGCCCGGCGCCTGGCAGCTGGCGAAGGAGTTGACCCCTTCCTGCCGGTGGTCGCTGCCTACCTCCACGACACGATCGACGAGAAGCTAGTCGATAGCATTCCGGCGGCCGAGCAGGAGCTGCGCGACTACCTGAGTGCCCACGACTTCACGGAAGACCAAGTCGCCACGATCATGGACACCATCAGTAACATCTCCTTTGCCCACACCCTCGACGGCGTGCCGATCCACCTCTCGATCGTCGGCAAGATCGTGCGCGATGCCGACTGGCTGGACGCGATCGGTGCCCTTGGTATTACCCGGGCGATTTTCTACGGCGGCGGCCACCACGAGAAGATCTATGATCCAGCAATCAAGCCCCGCCAGAACATGAACCGGGAGGAGTACCGTAACCTGGCTGACGAGACGATCATCAACCACTTCTACGAGAAGATCCTCAAGTTATCGGCCATGCTGCAGACGCCGACTGCTCGCCAGATCGCGGCGCACCGCCAGCAGGTCATGCTCGACTTCCTAGCCGAGTTCAAGGCCGAGTGGAACGCCGAGAAATAA
>SRR1151252_01451 hypothetical protein
ATGAGAATCAATATTAAGTCCTTCGGTTACGCTGCCCTGGCGGTGGTCCTGATGGTTCTCGTCGGCCTGATTAGTGCCCGCTTCATCCTGCCGACCGGGGTCTTCGTGGCCCCCTGGGCGGGAATCATTGCCCTGGCCGTTCTGCTGGCAGCAGGGGTTGGTGATGCCCTCGGTGTGGCGATTGTTTCCTTGGTGATTATGTTTCTGGCCGGGACCGCTGACCTGGTGGCGATCGTTGCCATCCTGCTGACGGTGGTCATCCTAGCCTGGCTGGTAGGCTGGCAGTTGCGTGACCGTACCGTCACCCACCAGCAGCTGATCTTCCTTGGTCTAATTGCTGGTTTGTTGCAACTGGTCCTGATTGAGGGTGGTCTGGTAATCGCGGGCCTGTGTTTCGATGGGCAGGGAGCAACCGCCCTGGCCTACGTCCGGCTGGGACTGTCGACTAGTATCCTGACGGCCCTGCTCTACGCGGTCCTGACCCCCTTGCTGGGGTTGGGGGCCCGCTGGCTGTGGCGGCACTGGGTTGCGCCCGTTGATTCCGATAATAAAGAGTAA
>SRR1151252_01452 DegV family protein
ATGAAAGTTGCTGTTGTGACCGACAGCACCGCCTACCTCACTCCGGAAGAGGCGGCCACCAACCATATTCACGTTGTCCCAATTCCATTCGTTGTGGACGGTAAGAGTTACCGTGAGGGCGTCGACATCACGACCGAGGAATTCTATCACCTGTTGAAGACGTCCAGTACCTTTCCCAGCACTTCCCAGCCGTCAATCGGTGAGATGATGGAGCTCTACCAAAAGCTGGCCGACGAGGGTTACGACGCCGTCATCAGCATTCACCTGGCCAAGTCGATCTCCGGTTTCCTGAACAACATCGCCCAGATCGCCGAAGAAATGAAGGACACCATCAAGATCGTGCCGTTCGACAGCCAGATCACGGTCAAGCTGATGGGTTACCTGGCCATTCAGGCGGCCCAGATGATTGAGGACGGTGACGACCTTGATACGATCATCACCAAGCTGACGGCGCTGCGGGACACGATCAACGAGGTCTTCGTGGTCGATGACCTGCAAAACCTGGTTCGCGGGGGGCGGCTCTCCAACGCCTCCGCCTTTGTCGGTTCGATTCTGAAGATCAAGCCGCTGTTGAGTTTCCACAACGAGCACCACGCCATCGAGGCCTTTGAGAAAGTCCGGTCGATGAAGAAGGCCAAGCTGCGCTGTGAACAGATCTTCAAGGATAACCTGGCCAAGCTGGACTACCCGGTCCGTGGGATTGTCTTTCACGCTAACGCACCGGAAGCGGGGCAGAAGTGGCTGGACAAGCTCCAGGATGACTTCCCCGACATCAAGTTTGAACTGAGCTACTTCGGCCCGGTTATCGGGACCCACCTCGGTCAGGGTGCCCTGGCCCTGGCTTGGATGCAGGATACTGATAAGAAGCCGCTCTAG
>SRR1151252_01453 fibronectin-binding protein
ATGTCCTTTGACGGTTTCTTTACCCATGCAATGGTGCATGAACTAGACCAAACACTAACTACCGGCCGGGTCGCCCGGGTCAGCCAACCCTACCCCGCCGAGCTGATCATCACGATTCGGGCCCACCGGCACAACCACGCCCTCCTGCTCTCGGCCAACCCGACCTACCCGCGGATCCAGATCACGACGATCCCCTACAGCAACCCGGCCGTGCCGACCAACTTCACGATGACCCTTCGCAAGTACCTGGAGGGCGCCATCCTGCATTCGATTACGCAGGTCGGCAATGACCGGATCATCAAGCTGACTTTCAATACCCACGACGAACTCGGTGACAGCCAGCAACTGGTCCTGGTCAGCGAGATCATGGCCCGCCACAGTAATATTTCCCTGGTCAACCAGAAGACTGGCAAGATCATCGACACGGTCAAGCACGTCGGCTCCGACCAAAACCGGGTCCGCCTCCTCCTACCAGGGGCAACCTTTGTGATGCCACCCAAGCAGGACAAGCTCAACCCCTACCTGCCCAACCAGCTCTACAGCGACCTGGTCCGGCAGTACCAGGATCCCCGGGAGTTAGCTCACCAACTGCAGCAGGGTTACGAGGGCCTGGGCACCGATACGGCCCGCGACCTCGCCAACCGCCTGCTGAGTAGCGACCACCTACCAACCACCTACCAGCAGTTCATCCAGCATTTCGACAGTCCCGACCCGGTGATTATCAACGGCAAGCGGAAGTCGTTCATGGCCTTTCCGCCGGCTGCGGCTGAGGAAGACGACCTCCAGCACTTTACCACCCTGTCCGAGTTGCTGGACAACTACTATGCCCAGAAGGCCCAGCAGGACCGGTCCAAGGAGCTGGCTGGCCAGGTCATCAAGGTGATCAAGAACGAGCTAAAGAAGGACCGGCGCAAGGTCAAGAAGTTCAACCAGCAGCTGGCCGACGCGGACGCCGCCGACCGCTACCGGATCCGCGGCGAGATCCTGACCACTTACCTGGGCAAGCTTAAGCCGGGCATGACCGAGATCACCCTACCGAACTTCTACGACGACAACAAGCCGCTCAAGATCAAACTGGCCCCGGAGCTGTCGCCATCGCGCAATGCCCAGAAGTACTTTACCAAGTATGATAAACTAAAGGCCTCGGTCGCCCACGTCAACGAGCAGATGAAGCTGACCCAAGACGAGATCGCCTACTTCGAGAACATCCAGAACCAGATCGACCTCGCCTCCCCGGCCGACATCCAGGAGATCCGGCTAGAGCTACAACAGCAGGGCTACATCAAGGGCAAGAAGCAGAAGAGCAAGAAGCGGCGCAAGGTCCGCTTGAGCAAGCCCGAGCAGTTCCACACCAGCGACGGCACCCTGGTCCTGGTCGGCAAGAACAACCTGCAGAACGACCGGCTGAGCTTCAAGACCGCCAACAAAAACGAGATCTGGCTCCACGTTAAGGATATCCCGGGCTCCCACGTGGTCATTCGGTCAACCGACCCCAGCGAGCAGACGATCCTGGAGGCGGCCCAGCTGGCAGCCTACTTCTCCAAGGGCCGTGATTCTGACAACGTCCCGGTCGACTACCTGCCGGTCAAGCGCCTCCACAAACCCAATGGTGCCAAGCCCGGTTTCGTGATCTTCACGGGCCAAAAGACATTGTACGTGACACCGCATAAGCTCGCGGATTAG
>SRR1151252_01454 abortive infection bacteriophage resistance protein
ATGTCTGGTGCCTCCTTTGATGAAATTCGTGAACTTTACTGGTTCGACAAAGAGATTAAGCAGATTCTTTTGGATGGGATCCTGAATGCTGAGCATCACCTAAAATTTATTGCTGCCTATCGGTTTGCAGAAATAAGCCAAAATGAAAAATATGGATATCTCAATATAGGAAACTATGATCATGAAAAGCTTAACTACGACTGGAAATTAATCTCAAAACTATCTCAAATCTTAAGTAGTAACTGTAAATATAATAACAACACAATTTACCACAATATTCATACCCACAATGATGTGCCAATATGGGTACTCGTTGATTTCTTTGATTTCGGAACATTACGTGCTTTTATCAGGGATCTCCCTCATAGTGTACAAAATAAAATTGCGGTTGACTGTATTGGCTTCATTCAGGATAACGTACCGGGCTTTGACAGTGCATTTCCCGTCGAAATTATGAACTCTTTCATTAAAAACATTCACGAAACAAGGAACATTTGCGCACATAATAAACACCTACTAAAGTTTGAATGTCGTTCAGATGTCACCTACTGTAGAGGGCGGGACTAA
>SRR1151252_01455 DeoR family transcriptional regulator
ATGGATGGAGAAAACAAGAAAGTTGCCCTGGCCCTCAAGGTGGCGACCCTCTACTACCGGGACGGCTTCAACCAGCAGGAAATCGCCAGTGAGCTAAACATTTCCCGGGCGACGGTCTCCCGCTTGCTCCAATACGGCCGTGACCAGGGATTGGTGATAACCCCCTGGCGCCACTCCACCAGCTTCAGGGGGACCTGA
>SRR1151252_01456 DeoR family transcriptional regulator
ATGGCCAAGTACCCGAGCCTCAAGCAGGCAATCATCGTGCCAGGTAAGAGCAATCCACTCGAGGAGGTCGGGATTGCCGGGGCCCACTATATTGAGAAGATCGTCAAGAACGACGACATCATCGGTCTGGGCTGGGGGAAGACGGTCTACCAGGTCGCCCTCCACATCACGCCTAAGGATGTCTCAGGAATCAAGGTCGTCCAGATGAAGGGGTCGATGGCCAACACTGAGACCCGTAACTACGCCTTCGAGACGGTCAATACCTTTGCTAGTGCCTTCAATACCCTGCCCCAGTACTTGCCGGTGCCGGTCATCTTCGACCACGCCAAGACCAAGGAACTGGTTGCCAATGATACCCACATCAAGTACATCCTCAGGCTGGGCCAGCAGGCTAACATCGCCGTCTTCACGGTCGGGACGGTCCGCGATTCTGCCCTGCTCTTTCGCCTGGGTTACTTTACCGAGCGGGAACGGAAGATCCTTCAGCGGGAGGCGGTGGGGGACATCTTCTCCCGCTTCATCGATGCCCGTGGTCAGATCGTGAACCAGGACATCAACGAGCGGACAATCGGCATCCGGTTGGCCGCGCTGAAGAAGAAAAAACACAGTATCCTGGTGGCGGCCAATGTGGCCAAGGTTCCAGCAATTCACGGGGCGCTGGTGGCTGGATACGCCAATACCCTGGTGATTGACCAGGAAAGTGCGAACAATCTCCTGGAATTTTCCTAA
>SRR1151252_01457 inosine-5'-monophosphate dehydrogenase
ATGTCAAATTGGGACACAAAGTTTGCCAAGAAGGGTTTAACGTTCGACGATGTTCTGCTAATTCCGGCAGAAAGCCATGTTTTACCGAATGAGGTTGATTTAAGTACTCAACTAGCAGATAACTTGAAACTCCACATTCCGTTGATCAGTGCCGGGATGGACACCGTCACGGAAGGACCAATGGCAATTGCGATGGCCCTGCAGGGTGGCCTTGGGGTTGTTCATAAGAACATGTCGATCCAGGCCCAGGCAAGTGAAGTGGCTAACGTCAAGAGTGTAGTGGTACCGGCCAGCGCTATCAAGGCCGCGGTGGATGACCAGAACCGGCTTCTCTGTGCCGCAGCTGTCGGGGTGACCAGCGATACCTTTGAACGGGCCGAGGCTCTCCTGAAGGCCGGCGCCGATGCAATCGTCATCGACACTGCTCACGGTCATTCCGCGGGAGTCCTGCGCAAGATCAAGGAGATTCGCGACCACTTCCCAGTCGTGACCCTGATTGCCGGGAACGTTGCCACTGGTGAAGCAACCGCGGCCCTCTTTGACGCCGGGGTTGACGTGGTCAAGGTCGGTATCGGCCCTGGCTCCATCTGCACGACCCGGGTGGTAGCTGGTGTCGGTGTGCCACAGATCACCGCGATCTATGACGCCGCCTCGGTGGCCCGCGAATACGGTAAGCCGATCATCGCCGACGGGGGGATCAAGTACTCCGGTGACGTGGTCAAGGCCCTGGCCGCCGGTGGGAACGCGGTCATGCTTGGGAGTATGCTTTCCGGGACGACCGAGGCCCCTGGTGAGGTCTTCGAGGACCATGGTAAGAAGTACAAGGCCTACCGGGGGATGGGTTCCGTCGGTGCGATGGCCCAGGCCCACGGTTCCTCCGACCGTTACTTCCAGGGTGGCGTCAACGAGGCCAACAAGCTGGTTCCGGAAGGGATCGAAGCCCGCGTGGAATACAAGGGAGATGTTTCCGACATTGTCTTCCAGATCGACGGTGGCCTGCGCTCCGGGATGGGCTACGTTGGTGCACCAGACATTCCAACCCTGATCGACAAGGCCCAGTTTGTTCAAATCACGAATGCCGGCCTGCGTGAATCCCACCCGCACGATGTTCAGATCACTAAGGCAGCACCAAATTACAAGTAA
>SRR1151252_01458 hypothetical protein
ATGAATTATCAAATGCTTCTATTGGGCCTAGCGGGGTTATGTGTACTACTATTCCTAGTGCAATGGATCCGTCAGGCCCGGCACGCCCTACACGGTGGGACCCGGCCGCTTGCCCAGACTCACCCGGTGTTGAACTGGTGCCTGTTGCTTGTGGCCGTCTTGGCCGGTGCCGGGGGTAGCATCAGTAACACGCAGACGGAAGCCGCTACCAGCCAGGCCGCCCAGTCGTCGTCGATCAAAGCTCGGCGTACGGAACGGGGGTCGAGTAGTTCGGTCGCTAAACAGACCATGGCGAACACCACAAATAATAACCGGCAGGGTGAACAAAAGCCGACTAAGCAGCCAGTCCCGGATCGGCAGAGTATCCGGCTTGACCAGAATGGCCGCGCCGCCTTGAACAACTTTGCGGTACCGGCTAAGAACCAGCTGCAGGTTATCGACGCGGGTAGTGGGAATGTCTTACAGACGTTTCCTGGCCAACCCAATGCTGGTGCGGTCAACTACACCTTCACCAGAGCCGGTAACTATTACCTGGTATTGACGGATGGTCAGCAGACGAAGACCATCGTAGTCAACGTCAGCCGCTAA
>SRR1151252_01459 two-component system response regulator
ATGAAGATTTTAGTTGTCGATGATGATAAAGAGATTGTACAGCTGCTGGAGATTTATATCCGCAACGAGGGCTATGAGCCGGTGGCCGCCTACAATGGTAAGGAAGCCCTGACCAAATTGAACACCAACCCGGACATCGCCCTAGTAATATTGGACCTGATGATGCCTGAGATGGACGGGATGGAGATCATCAAGCAGGTACGTAAGGATTCGGATATTCCAATCCTCGTCCTGTCCGCTAAGACGGCCGACATGGACAAGATTCAGGGCCTGATCAGCGGGGCCGACGATTACGTTACTAAGCCGTTCAACCCGTTGGAGGTCATGGCCCGGGTCAAGTCCCTGTTACGCCGGAGCCAGGGGGAGGTCACTAATGGCCAGCCGGACGTCCTCAACGTCGGGCCGCTGATCATCAACAAGGACTCCCACGAGGTCAAGACGATCAAGGGGGACACGATTCAGCTGACGGCCCTGGAATTCGGTATTCTCTACCTACTGGCCAGCCACCCGAACCGGGTCTTCTCCGCCGATGACATCTTTGAGCGGGTATGGCAACAGGAGAGCGTGGTTTCCGCCAAGACGGTGATGGTCCACGTCAGCCACCTGCGGGATAAGATCGAAGAGGCCACGAACGGCGAAAAGGTGATTCAGACGGTCTGGGGTGTCGGCTACAAGATTGAGAACCACTAG
>SRR1151252_01460 two-component system sensor histidine kinase
GTGAAGCTAACTGGACGTGAAAAAAGTTCACTGATTTTTGAAGGGGTTATCACGGTCATCCTGCTGATCCTGCTGAATATGGCCGTCCTGACCATCATTCAGGATGTCATTCAGTCCAACCCCGGGGTCACCAGCGGGATCTTCATGATTAAACAGTCGCTTAAGATCGGTCCAATGCAGGCACAGACCTGGTCTTACCAGCGGGTCCTGATCATCTTTTTGGTCCTGATCGACGTCTGGGTTGTCTGGTGGCGATTACGGCGACGTTACCACCTTTACCTGATGAACCACATCATCGGTGAGCTCCACTACATCGCCCAGGGACACCTCGACCACCGGATTCCCTTCCGGCTCAAGGGGAGTGAGCAGCACGTGATCACCAGTGTCAATGCCCTAGTTGATAGCGCCGTCCAGTCGATGGACGATGAGCGTAAGATCGAGAAATCCAAGGACGAACTAATCACCAACGTCAGCCATGACCTGCGGACCCCACTGACCAGCATCATCGGCTACCTCGGCCTGATCGAGGACAAGCAGTACCAGAATGAAGAGGATATTCTCAAGTACACCCACATTGCCTACGAGAAGGCCAAACAGATGAAGAACCTGGTGGACGACCTCTTCGAGTACACCAGGTTCAGCAACACGGGGCCCCCGTCAATATTATGTGGGTCGACCTTAACCAGTTGCTGGAACAGCTGA
>SRR1151252_01461 two-component system sensor histidine kinase
ATGTGGGTCGACCTTAACCAGTTGCTGGAACAGCTGACCGCCAGTTTTGCCCTGGAGGCTGATCGACGGGGGATCAAGATCAGCTCCAAGGTGGTCCCCAACCCCCTGATGATCGAGGCCGATCCCGAGAAGTTGGGCCGGGTCTTCAATAACCTGGTTGCCAACGCCTTCAAGTACGGCAACGGGGCCAGCTACATCCGAATCACCGCTCATCAGGAGCAGGACAAGGTCGTGGTCAAGGTCGCTAACGACGGGACCCCAATCCCGGAGAAGGCCCAGAGCCACCTCTTCGAGCGCTTCTACCGGGCTGAAGCGTCGCGGTCGCGGGCCACGGGCGGTACCGGCTTGGGTCTGGCGATCGTCAAGAGTATCGTTGACCTCCACCACGGTCAGGTGACAGTCAGCTCAGATGCTGACGAGACGGCCTTTATTGTCACCCTGCCTCTCAAGCAGGAACAGATAAACGAATAA
>SRR1151252_01462 azaleucine resistance protein AzlC
GTGGCTAAAGCGCAAATAAATCCAGAAAAAGCACGATGGCTAGAAGTCTTAGGCATTGCAATGCCGCTCTGCCTTAGCTATATTCCAATCGGATTAGCTTGTGGAATTTTATTACACGCAGCGGGCTTTAACTTTATCATGACCCTTGTGGTGTCAATCGTGGTTTTCTCTGGCGGGGCCCAGTTTATTCTGGCGTCGTTATTGACCATTCATGCACCATTGACATCAATCTTCATGACCCTGTTCTTCTTGGAACTGCGATACGCGCTCCTGGGGTCAAGTCTTTCTAAATACATCAAAAATGAATCACAACACTTTATCTGGCTCTTCGCCGTTTCGATGAACGATGAAAACTATGCGGTGAACTACCTAAAGTTTGCCACTGATAAGAAGTGGACCCCCAAGGACGGGCTGCTAGTCGAGCACTACTCCCTGATCTCCTGGTCGGTGGCCAACATGGTCGGTGGTCTGATTGGGAGCACGATCTCAATCAACCTGGAAGTGGTGGACTTCGCCCTGACGGCGCTCTTCCTCTACATGGTCGTGATGCAGGTTCGTAACCACCTGACCCTGTTGATCTGCCTGCTTTCGGCGGTTCTGGCCGTGTTCTTCCTGGTTCTCACCAAGAGCACGTTGGGGATCGTGATCGCCACGCTGATTGCCTCCTTCATCGGCTTCCTGATTGAAAACACGGTCCGCAAGCACAGTAAGGATCCCGACAGCAACTGGTTCCTGACCAAGCTCTTCCGGCCGATGGCTACCCGGATCACGGTGGAAGACCAGCAGGAACGGCGTGAACTGAAGAAAGTTAAGCAACAGCTGGATGCGGATCGGGAACAGACCCCATCCGAGCACGATGATTAG
>SRR1151252_01463 branched-chain amino acid transporter
ATGGAACAACTATTTAGTAATTTGCCCTTATTGATTTCCGACAGCGGTAACAGTAAAACCTTGTATCATATCATTGTCATTATCTTCGCGGCGTTTGCGGCATTCATTCCTCGTTACTTCCCGATTTTATTCTTCTCGACCCGGAAGATTCCGGAATGGTTCAACGAGTGGATGAAGTACGTCCCGGTCAGCCTCTTCACTGCCCTGATCGTGAAGGGGATCTTCGTGACGACGGCCGGCTACCACTTTGTTCCGTTTGGTCACGTCGAACAGATTCTGGCAGCCTTGGTCGTGATGGTGGTTGCCTACTTCACCCGGTCGATGGCGATCTCGGTTGTTGGCGGTCTAGTTGCGGTCTGGTTGCTGAGCATGGTAATTTAA
>SRR1151252_01464 DNA methyltransferase
ATGTCAAAATCACCACGCAACAAGACCATTGATTTCTCCCTGGCTGATGCCCCGGCCGGCGTTCTCGATCGGATCCTGCATGAAAACGACCAGCTAGAAGACCGGAATGTGGTGGTCGATCAGACCATTAACGGGGACGCCTTTAAGGTTCTAACCCGCCTGCCCGACCAGCTGGCCGACCTGGCAATTGTTGACCCACCCTACAACCTCAATAAGCAGTACGACGGCCTCAACTTCAAGAAGATGAGTGACGCGAACTACCAGGCCTATACCCAGCGCTGGGTCGATGCCCTCCTGCCCCGTCTTAAGCCCCAGGCCAGCCTCTACGTCTTTGCTGACTGGCAGACCAGCATTGCCCTGACTCCGGTCCTGGAACGCAACTTCACCATCCAGAACCGGATCACCTGGCAACGTGAGAAGGGCCGCGGTGCCCTGACCAACTGGAAGAACGGGATGGAGGATATCTGGTTTCTCACCCGCAGCCCACACGACTACACCTTCAACGTCGACCAGGTCAAGCAGCGGCGGCAGGTGATCGCCCCCTACCGCGTCGATGGTCAGGCCCGCGATTGGGAGGAGACCGCCAACGGCCGCTTTAGAGACACGATGCCCTCCAACTTCTGGGACGACATCTCAATTCCCTACTGGTCGATGCCCGAAAACACCGGTCACCCGACCCAGAAACCAGAGAAGCTGCTCGCCAAGGTCATCCTGGCCAGCTCCAACCCCGGCGACTTGATCTTGGACCCCTTCGCCGGTGCCGGATCGAGTCTGGTCACCGCTAAGAAACTCGGCCGCCACTTCATCGGCATCGAACAGAGCCTCCTCTACACCGCCTGGGGGGAATACCGCCTCCAACAGACGTCCACTGGCGACAGCATTCAAGGCTACACGGACGGGGTTTTCTGGGAGCGCAACACCCTGGCCGCCCAGCACCGACACCAAAAGTCGAACCAAACCAAGCTATTCTAA
>SRR1151252_01465 aspartate carbamoyltransferase
ATGATTAGTACTGAACGCATTCAACCAAACGTTGTCACGGTTGCCGACATGGACGCGGCCGACGCCCTGGACCTGATCAACGAGGCCGAGGAATACAAGCACGGCAAGAAGACGGAACTCACCCGCCCGGCTTACGCTGCCAACCTCTTCTTCGAAAACTCTACCCGGACCAAGACCAGCTTCCAGATGGCGGAGATGAAGCTTGGCATACACGTCATGCAGTTCGAAGCGGGCACCAGTTCGGTCAAGAAGGGGGAGAGCCTCTACGACACCGTCAAGACGATGGAATCGATCGGGGTTGACGTCGCCGTCATCCGCCACCCCGAAAACGAATACTACCGGGATCTGATCAAGCACCCCGGCTTAAAGATCGGGATCGCCAACGGTGGTGACGGGAGCGGCCAGCACCCATCCCAATGTATGCTCGACATGATGACGATCCACGAAGAGTTCGGCAACTTCACCGGGCTTAGGGTCCTGATCATCGGTGACCTCGCCCACTCCCGGGTAGCCCATTCCAACGCCATGATGCTTAACCGGCTGGGCGCTGAGGTCTACTTCGCCGGCCCTCAGGAATGGTACGACGACGAACTTGCCCAGTACGGAACCTTCGGCGATTTAGACGAACTCCTGCCGCAGATGGACGTTGTCAACCTCCTCCGGGTCCAGAACGAACGCCTATCTGGGGCGGAGAACGGGGCCTTCGATGCTGAGAAGTACCACGAACAGTATGGCCTGACCCACAAGCGTTACAGCAAGATGAAGAAGGGGGCCATCATCATGCACCCGGCACCGGTCAACCGGGGAGTGGAAATCGACAGTGACCTGGTTGAGGCGCCAGACTCCCGGATCTTCCGTCAGATGCAGAACGGCGTCTTCGTCCGGATGGCCATCCTGAGCCGGATCCTTCGCTACAAGGACATTATGTAA
>SRR1151252_01466 dihydroorotase
ATGAGCCAAACCCTATTGAAGAACGGCCGCCGCGTGGTCACTGGCCAACTGGCCGCCAGTGACGTCTTGATCGAGGACGGTAAGATCGCCGCGGTCGGGACCAACCTCAGTGCCAACGATGATGCTACGGTGTATGACCTGGACAACAACCTGATCACGCCGGGCCTGGTCGACATTCACGTCCACCTGCGCGAGCCGGGCTACACTAACAAGGAGACGATCGCTACCGGTAGTCGGGCCGCGGCCCACGGTGGGTTTACCACCATCGCCGCCATGGCCAACCTGAAGCCGACCTGTGACACGCCGGAACGTTTCCACGCCCAGGAGGCCCGCAACGTCAAGGACGGTGCCGTCAAGATTATCCAGTATTCACCGGTTACCAAAGGCCGGGCGGGACAGGAACCAGTCGATGTCGCTGCCCAGTACGCCGCGGGAGCCCGCCTCTTCAGCGATGACGGGGCCGGGATCCAGGATGCCAGCGTCGTTTACCAGGCTATGCAACAGCTTGCCAAGTACGACCTCCCAATATGTGACCATGCCCAGGACAATCAGCTGGCCAACGGCGGGGTGATCAACGACGGTTCGGTTGCCAAGAAGATGGGTCTGCCGGGGATGCCGAAGATCAGTGAGACGGCCCAGATTGCCCGCAACATTGTGATCGCCCAGGCCACCGGAGCCCACTACCACGTCTGCCACGTTTCGACTAAGGAGAGCATTGAGCTGATCCGCCACGCCAAGCAGCTGGGGATCAACGTCACCTGTGAGGTCACGCCCCACCACCTCCTGCTGGCCGATGCGGATATCCTGGACGACGATGCCGAGTACAAGATGAACCCGCCGCTGCGTAGCCGGGAAGATCAGGAAGCCTGCCTGGCTGGCCTGCTTGACGGGACCATCGACTGCATTGCCACCGACCACGCTCCGCACACCGACACCGAGAAGCACCGGGGGTTTCTGGCCTCACCGAACGGGATCGTTGGTAGCGAGACCGCCTTTGCCCTCCTCTACACCCGCTACGTCAAGAACGGGATCTTCACCTTGGCCCAGCTGATCGACTGGCTGAGCGGGGCGCCCAAGCGGGTCTTCAAACTCGAAGACGCCGGGCAGCTGGCGGTTGGTGACCCGGCCGACATCGCGGTTTTTGACATTGACCACCAGACCACGATCATGCCCGACCAGTTCTTCTCTAAGGGGCACAACACCCCCTTCGTCGGTGATCGGGTCTACGGGGCGAGTGTAAAGACCTTTGTTGATGGCAAGCTTGTCTATGATCGGGAGGATACAGAATGA
>SRR1151252_01467 dihydroorotate dehydrogenase
ATGAACGATGAACAACGATTAGCAGTCGAACTGCCGGGCCTTTCCCTGAAGAACCCCGTGATTGCCGCCAGCGGCACCTGCGGGTACGGGCAGGAGATCGCCAAGAATTACGACCTCAACCGACTGGGGTCCCTGGTGATGAAGTCAACCACTATGCACCCGCGGTCGGGAAATTCGCGGCCCCGGGTCTGCCATACGACGGCCGGCTGGCTGAACGCCAACGGCCTCCAGAATGTTGGCGTCGAGAACGTCATCGACGAGAAGATCCCTTGGCTCCAGGTTAACTACCCCAAGCTACCGGTGATCGCCAGCGTGGCCGGTTTCTCCACCGACGAATACGTAGCGGTCACCGACCGGCTGACGACTGGCGGCGGGGTCAACGCCCTGGAGCTGAACGTCTCCTGCCCTAACGTCAAGCATGGCGGTCTGGCGATGGGCACCGACCCGGCGACTTTGGAGCAATTGACCAAGCAGGTCGTCGCCGCGGCCCACGGGGTGCCGGTTTACGTCAAGCTGACGCCCAACGTGACCGCCATCGTGCCCCTGGCCCAGGCGGCCGAACGTGGTGGGGCCAACGGGCTGACGATGGTCAACACCATAACCGGGTTGAGCATCGACCTCAAGACCCGGCGCCCGGTCCTGGCGAACGTGACTGGTGGCTTGTCCGGCCCAGCCCTGAAGCCGCTGGCCCTACGGATGATCCACCAGGTCCGCAGCGTTTCGAAGATCCCCATTATCGGTGTGGGCGGGATCGAAAGCGCCGAAGATGTCCTGGAGTTTATGATGGCCGGGGCCAACGCGGTTGAGGTCGGTGCGGCCAGTTTCCATGACCCGCTGGCCCTGCCGAAAATTGTGGCGGAACTGCCGATGACAATGGATAAGTACGGGATTGAGAAGCTGACGGACCTATGGGAGGTAAGATTTTGA
>SRR1151252_01468 orotidine 5'-phosphate decarboxylase
TTGAAACGTTATGTGCCAATGGTTGCAATTGACGTGGCAACCAAGGAAGCAGCGGTCAAGCTGTTTGACGAACTCGATGTGACGCCAAAGCCGATTGTCAAGATCGGCATGGAGATGTACTACGGATTGGGTCAGGAGATCGTCCGTGAGGCCCAGAAGCGCGGCTTCAAGATCTTCCTCGACCTGAAGCTTTACGATATCCCCAACACCGTCCACCGGGCGATGGCCGCGATCGGCCGGCTTGGCATCGACTTCACCACCATCCATGCGGCGGGCGGCACTGAGATGCTGACGGCGGGACTGGCCGGCCTGGAGGAGGGGGCGGTTGCGGCTGGTATTCGTCCGGCCAAGCTCCTGGCGATCACCCAGCTGACCTCGATTGATGACGAAATTCTGCATGAACAACAACACGTCGACCTGTCCCTGATTGAGTCGGTCCAGAACTACGCCCAGCTGGCGGAGAGCGTCGGCCTGGCCGGGGTGATCTGCTCGGCCCACGAGCTGCCGGCCATTCGTCAGGTGACCCGGCCCGACTTTCTCTGCATCACCCCCGGCATCCGGCAATCGCTGAAGGTCCATGATGACCAGAAGCGGGTTGTCACCCCGGCCCAGGCCCGCGAGCTCGGCAGTAACGGCATCGTGGTCGGTCGGCCAATCACCCAGAGTGCCGATCCGGTCGCAGCATACCAACAGATTCAGCAAGCATTTCTCGCAGATTAG
>SRR1151252_01469 orotate phosphoribosyltransferase
ATGACTTATTCACAAAGTGTTGCTAAGGCATTATTAGACATTCACGCGGTGACCCTGAGCCCCGACAAACCCTACACCTGGGCCAGCGGGCTGAAGTCCCCAATCTACACGGACAACCGCCTGACGATCTCCTACCCCGATGTGCGTCAAGCCATTTACAACGGGATGGAGGAACAGATCAACCTCCACTTTGCGGATGCTGACGTGATCGCCGGGACCGCCACGGCTGGGATCCCGCACGCCGCCTGGGTGGCCCAGGAGATGGGGCTGCCAATGGTCTACGTTCGTTCTAAACCGAAGGACCACGGCCAGGGACACCAAGTTGAGGGGGTCCTCAAGCCGGGTCAGAAGGTGGTCGTGGTCGATGACCTGATCTCCACCGGCGGCAGTGTCCTCAATGCCGTCCGCGCCATCGACAATACCGGTGCCCAGGTGGTCGGGGTGGTAGCCGTCTTCACCTACCAGCTCCAGGCTGCCGAGCAGAACTTCCTGGCCAACGACCTTAAGTACTTCGCCGTCACCGACTACACGACGTTGATTGAGGAGGCCAAGGCCAGCAACCAGATCAGCACCGACCATCTCAAGTCCCTTCAGCAGTGGCGACAGGACCCGGTTAAGTGGAGCAATGATCATAAACTCAACGCTGTCGGCTAA
>SRR1151252_01470 hypothetical protein
GTGCCGTGCGTGGTCACCATCGGCACCTACCTCGCCTACATTACCGACGGGCGGCGGGGCATCTACTTCTGGCACTACCTAGAGGGCTTCAGCGAGTTGGACCTGCTGATCATCCTCCTTTTCATCATTGGCTTGGCAATGGCAATCTTCTGCCTACTGGTCGGGGGCATCCAGAACCGGCGGCGCAAGCGGGTCCTGGAGAAGAAGCCCCAGTATGACTTCCAGGAGAGTAATCGCCAGGTCGTCAAGGCGATGCAGCTGGCGGCCGACCGTTTCGGCTCTCGGCATTTTCGGCACACGGTGCGTTACTACCTGGTCAAGCCGGAGCAGAACTTTAGCCGTGATGATATCAAGGATACGATCAAGCAACGTGGGGAGGGGCAGAAATGA
>SRR1151252_01471 glycosyltransferase
ATGATTTCCAACATTGTCAACGGTATCCAGTTGGGGCACGATCCCTGGATGATCGCCCTGCTGGTGGTCAACCTGGTCCTGTGCATCTACCCGATCATTGGGGCGATGTACTGGTTCTGGGGTGCGGTTGCTTACGCTCTTTTTCGTAAGCACGACGATGAGCTGGCTAGCCGGGACGAATTGAAACGACACCCCTTCATCACGATCATGGTGCCGGCCCACAACGAGGAGGTCATCATTGAAAGTACCCTCAACTACCTCCTCCACGACCTGCACTACCATCATTACGAGGTTCTGGTAATGGACGACGGGAGTACCGATCAGACGCCGGCAATCCTGGCCCGCCTCCAGCAGACTAATCCGCGCCTGCGGGTTGTCCGGATCGACGACAACCAGGGGAAGGCCCACGCCTTTAACGTCGGGATGTTCTTCGCCCGGGGTGAGTACATCCTGAGTAACGACGCCGACACGATCCCGGAGCCCGACGCCCTGGTCAAGTACATGCGCTACTTCGAGAGTCCGCGCGGGGTCAACTACGCGGCGGTCACCGCCAACATGGATGTCTATAACCGGACGACCTTGCTGGGTAAATCGCAGACGGTCGAGTTTTCCAGCATCGTCGGCATTATCAAGCGCAGCCAGACAGCGATTAATAACACCATGTACGCCTACAGTGGGGCCAACACGATGTATCGCAAGCGTTTCCTGATCAACGCCGGTGGCTTTCGCCAGGACCGGGCCACTGAGGACATCAGCATCGCCTGGGACCACACCTTCATGAACGTGGTGCCGCGCTTTGCCCCGGACATCGTCTTCCACATGAACGTTCCCGAGACCGTTCGTGACCTCTTCCGTCAGCGCAATCGTTGGGCCCAGGGCGGGACCGAGGTCTGGTTGACCAACTTCACTAAGACCTTTGCCCATTCCTGGCGCAACCGCTACGTCCTACCGATGGTATTGGACTCGACCATGTCCTTGGTCTGGTCCTTCTTCTTCGTCATCACGACAATCGTCTTCATCCTGTTGATGTGCTACTACCTCGGTGTCGGTAACTATGAGCGGATCTACCACGGGATCGTGATGAGTATGATCTTCGTCAATTTCCAGCTAATCGCCGGCCTCTTCCAGGTGCTGGCGGCCCTGATCCTCGACTTCCAGGGAACCAAGCTGAAGTACATCCTTTTCTCACCGCTCTACCTGCTCTTCACCTGGATCGTCAACCCGCTGACGATCATCATTACCTTCCACAAGGCCATCAAGACTATTCTGGGCTTTGGGAAGGGAACATGGAAGAGTCCCAAGCGCCGGACTAACTGA
>SRR1151252_01472 cyclopropane-fatty-acyl-phospholipid synthase
ATGTTAGAAAAGACGTTCTACAAGTCACTGTTGAGCCACTCCTTTAACATCCCCGTCAAGATAAACTTCTGGGATGGATCAAGCGTGGTCTACGGTGACGGCGAACCCGAGGTTACCATTACGTTCAAGGAGAAGATCCCGATTCGTGACATCACGAAGAACGCCTCAATCGCACTTGGGGAAGCCTACATGGATGGCAAGATCGAAATCCAGGGCAGCATCCAAAAACTGATTGAATCCGCCTACGAGAGTGCCGGCGGTTTCATGCGTAATTCCAAGTTCCGCAAGTTCCTGCCTAAGCAAGGCCACTCCGAGAAGGAAAGTGAAACCGACGTCCAGAGCCACTACGACGTCGGTAACGACTTCTACAAGCTCTGGCTCGACGACACGATGACTTACTCCTGTGCCTACTTCACCGACGGCAACCACGATGACCTGACCAAGGCTCAGGAAGACAAGGTCCACCACATCCTGAAGAAGCTCAACCCGAAGCCAGGCAAGACCTTCCTCGACATCGGCTGTGGCTGGGGGACGTTGATGCTGACGGCGGCCAAGGAATACGGGCTGAAGGTCACCGGGGTCACCCTAAGTGAGGAACAGTACCGCTTCGTCCAAGACCAGATCAAGAAGGACGGCTTGGAAGACGTCGCCGAGGTCAAGCTGGTCGACTACCGGGAGCTTGGCGACCGGCAGTGGGACTACATCACCTCGGTCGGGATGTTCGAACACGTCGGCAAGGAAAACCTGGGCCTCTACTTCCAGGACATCCAGCGTTACCTGACGAATGACGGGGTTGCCCTCATCCACGGGATCACCCGGCAACAGGGTGGCGCCTACAACGGCTGGATCAGCAAGTACATCTTCCCCGGCGGCTACGTTCCCGGCCTGGTCGAAATGGTTCAGCATATTGAGGAGAACCAGATGCAGATTGCCGACATCGAAATGCTGCGCCGACACTACCAGCGGACCCTGGAGATCTGGGACGCCAACTTCAACGCTCACCGCAACCAGATCCAGGATATGATGGGTGAACGCTTCACCCGGATGTGGGACCTCTACCTGCAGGCCTGCGCCGCCTCATTTGAGTCCGGTAACATTGACGTCATCCAGTACCTGATCACCAAGGGGGCTTCCGGTAAGAACCTGCCGATGACCCGTGACTACATGACCAAGTAA
>SRR1151252_01473 membrane protein
ATGATTAACGTGACAGATGCCTGGCACCGCTTTATCAAGAACGTGGAGCTGCGCCGCTTCGTTGTCTTGCTTCTGATTATCTTTGTATTGTGGATGATGCGGTCGATGATGAACATGATCCTGTTCACCTTTATCCTGACCTTCATCGTGGTGAGCTGGATCCGCTTTGTTCAGCGCTGGTGGCCGCGGGTGGCGGTCAAGCCGCTGGTGATTTTGACCTACCTGGTATTACTGCTTCTGCTTTACTTTGGGGTGACCAAGTACCTCCCCGTGTTGGTACACCAGGTCGTTAAGATGGTCAACTCGGTCATCAAGTTTTACAGCAGTAAGGACGCGACGATCCTCTACCATTACATTAACCACTACGTCAGCTGGTCGACAATCATGGCCCAGGTCCGCCACGGGGTCAGTTTTGCCATTAGTGCCCTGACCAGCATCGGGGCGATCACGGTCACCTTCGTCCTGTCCTTGATCCTGAGTTTTTTCTTTGCCCTCGACCTGCGGGAGACGGCGACCTTCTCCAAGCTCTTTTTGAACAGCACTTTTGACTGGTTCTTCCAGGACTTGGCCTACTTTGGCAAGAAGTTTGTCAATACCTTTGGGGTTGTCCTCGAGGCCCAGTTCTTCATCGCCATCTGCAACACCGTCATCACGACGGTCTGCCTGCTCTTCATGGAGATGCCGCAGATCCTGGCCCTGGCGCTGGTGGTCTTCGTCTTCAGTCTGGTTCCGGTGGCTGGGGTGATCATTTCGACGATCCCGCTGAGCCTAGTTGCCTACTCGGTCGGCGGGATTCGCGACGTAATTTACATCATCGTGATGGTGATCGTCATCCACACGCTGGAGGCGTACGTTCTCAATCCGAAGTTCATGGCCAGCCAGACCGACCTACCGATCTTCTACACCTTCATCATCCTGCTGGTGGGGGAGCATTTCTGGGGGACCTGGGGGCTGATTGTTGGCGTACCAATCTTCACCTTCCTCTTGGATATCTTGGGGGTCAAATCGATCCGCAAAAAACGCGAATAA
>SRR1151252_01474 formate--tetrahydrofolate ligase
ATGATGACTGATATTGAGATCGCGGACCAGGCGAAGATGCAACCAATCACTGAGATTGCGGCTAAGATCGGCTTGAGTGAAGACGAGATCGAACAGTACGGTAAGTACAAGGCCAAGATCACCCTGCCAGTCACTGTGCACCCGGACAAGAAGCATAAGCTGGTCCTGGTAACCTCCATCAACCCCACGCCAGCTGGGGAGGGGAAGTCAACGGTCCTGGTCGGCCTCGGTGACGCCATGAACCAGCTTGGCCACCAGACGATCATCGCCATGCGGGAACCATCCATGGGCCCGGTCTTCGGGATCAAGGGCGGGGCAACTGGTGGCGGCTACAGCCAGGTGGTGCCGATGGAAGACATCAACCTCCACTTCACCGGTGACCTTCACGCCCTGACCAGTGCTAACAACACCCTGGCAGCCCTGGTCGACAACTACATCATGCGTGATAACCAGCTGGGTCTCGATCCGCGGCGGATTATCTGGAAACGGGTTGAGGACGTCAACGACCGGGTCCTGCGGAACGTGGTCACCGGTCTCGGTGGCATCATGCAGGGAGTTCCACGCCAGACCGGCTTCGACATCACGGCGGCCTCTGAAATGATGGCCATCCTCTGCCTGTCGACCAACCTGATGGACCTGAAGCGCCGGGTTGGTAAGATTGTTGTCGGCTACACTTACGATAAGCAGCCGGTGACGGTCGCCCAGCTCCACTTTGAGGATGCCATCACGATCCTGCTCAAGGACGCCATCAAGCCGAACCTCGTTCAGACCCTCGACCACACACCGACGATCATCCACGGGGGGCCATTTGCCAACATCGCCCACGGTTGTAACAGTGTTCTGGCCACCAAGACGGCCCTCCAGCTGGCCGATTACACCGTCACCGAGTCCGGCTTCGGTGCCGACCTGGGAGCAGAGAAGTTCATGGACATTAAGCGGCGCGTCCTCGGTAAGAACCCGGATGCCGTGGTCATCGTCGCTACAGTACGGGCCCTCGAATACAATGGGGGCGCCGAGTTGGCTGACCTGAAGGAGAAACACCTGCCGGAACTGAAGAAGGGGATGGCGAACCTTAACCGCCACATCAAGAACATGCAACGCTACGGGGTTCCGTTGGTCGTTGCCATCAACCACTTTGTGACCGACACCGACGCCGAGGTTCAGATGATCGCGGATAATTGTCGCCAGCTCGGCGTAAACGTGGTTACAGCAGATGCCTGGGCCAAGGGTGGCGCCGGTACCCAGGACCTGGCCCGTGAGGTTGTCTCCCTGACTGAGCAAAAGAGCGACTTTCACGAGCTCTACAGTCTGGACGCCAGCCCAGCGGAGAAGGTCGAGACCGTTGCTACTAAGATCTACGGGGCTCAGGACGTCGAATTCAGTCGTAAGGCCCAACGCCAGCTCAAGCAGTTTGCTGACCTCGGCTGGGACAAGCTGCCGGTCTGCATCGCCAAGACCCAGTACTCCTTCACCGACGATCAGACTCAGCTGGGGGCCCCAAGTGACTTCACCTTCCACATCCGTGAGTTTGTACCGAAGCTGGGGGCTGGTTTCATCGTCGCCCTGGCTGGCAACATGATGACGATGCCGGGCCTGTCCAAGGTTCCGGCGGCCGTCAACATGACGATCGACAAGGATGGCAAGATTACCGGATTGTTCTGA
>SRR1151252_01475 phosphoribosylaminoimidazole carboxylase catalytic subunit
ATGAGTCAGATCAGTGTTGTAATGGGTAGTATGTCGGACTGGCCAACTGTCAAAGCAGCCTGTCAGATTCTCGACGAGTTTGGGGTCGACTATGATAAGCAGGTAATTTCTGCCCACCGGATGCCGGACGAAATGTTCGCCTTTGCTAAGGGCGCGGTGGCCAGGGGGACCAAGGTAATCATCGCCTGTGCCGGTGGGGCTGCCCACCTGCCAGGGATGATTGCCGCTAATACACCGTTGCCGGTGGTCGGTATTCCCGGGCAGACCAAGGCTCTCGGTGGGCTGGACTCCCTGCTGTCGATCGTTCAGATGCCGGCTGGAATCCCGGTGGCCACGACCGCAATCGGGGTGGCTGGGGCCAAGAACGCGGCCCTGTTGGCCCTGCAGATCCTCGGTATCAATGATGCTAAGATTCAGCAGGGGATCGTTGACTACCGGCAGCAGATGCACGACCGGGCGGTAGAAAGTGGGGCGCACCTTGACTAG
>SRR1151252_01476 phosphoribosylaminoimidazole carboxylase ATPase subunit
GTGGGGCGCACCTTGACTAGGATGATTCAACAGGGAAAAACGATTGGGATCATTGGCGGTGGCCAGCTTGGGCAGATGATGGCCCTGGACGCCAAGCAGACGGGGATGAAGGTGCTCGTTCTCGATCCAACCCCGGCGTGTCCGGCCAGTCAGGTGGCGGACGACCAGATTGTGGCCCCTTACGCCGACGTCCAAGCGATTGAGGAGCTGGCTCGGCGGTCGGACGTTTTGACCTACGAGTTTGAAAATGTCGACCTCAAGGCCCTGGAGGATGTGGCGGATAGGGTCTACGTGCCCCAGGGGACCCACCTCCTCTACACGACCAAGAACCGGATCCGGGAGAAGACCTTCCTCCGCAACGCCGGCCTGCAGACGGCCCCCTTCATGGCCGTTAAGGACGCCGGTGACCTAAAGCGGGCGGTGGCCAAGATCGGCTACCCGAGCGTCCTTAAGACCTGCGAGGGTGGCTACGATGGTCATGGCCAGGAGGCCCTCCAGAGCGCCGCTGACCTAGCCAAGTGCGATGGCATCCTGTCGACCGGGGACGCCATCCTCGAGGGCTGGGTACCATTTAAGCTGGAGTGCTCCGTGATGGTGGCCCGCAACGAAAACGGCGAAGTGACCGTCTTCCCCGTTTCTGAGAACATTCACCACGATGAGATCCTCCACCTCAGCATCGTCCCGGCCCGGATTTCACCCGAACTGCGGGAACGTGCCCGGCAGATGGCTGCCCAGATTGCCGATGCTATCGACCTTCGCGGGATCCTGGGCGTTGAGATGTTCGTGACCGCTGATGGCCAGATCTACGTCAATGAGCTGGCGCCGCGGCCGCACAACTCGGGTCACTACTCGATCGAGGCCTGCAACTTCTCCCAGTTTGCTATTCACAACCGGGCGATCTGCAACTGGCCGCTGCCCAAGATTGACCTCCTCCAGCCGGTCGTGATGGTCAACGTCCTGGGCCAACACGTCGCCGGGGTGCGTGAGCAGATTACCCACCGGCCAAACTGGCATTTCCATGACTATGGGAAGGCTGAGGTCCGTCACAATCGGAAGATGGGCCACGTCACGATCCTAACCGACGATATTGATACTACCCTGGCAGAAATTGACAATACTGGTATCTGGCGGGAATAA
>SRR1151252_01477 adenylosuccinate lyase
ATGATTGATCGCTATACTAGTCCAGAGATGAAGAAGATTTGGAGCCTTGAGACCCAGTACCAGTGCTGGCTGGAGGTCGAGATTGCCGCTGACGAGGCCTGGAGTAAGCTTGGTCACATCCCGGCCGAAGATGTGGAGAAGATCAAGAAAAACGCCAAGTTCAGCGTGGACGGGATTGCCGAAATCGAGGCCGTCACTCACCATGATGTGATTGCCTTCACCCGTGACGTCTCCAAGTCCCTCGGTCCCGAACGCAAGTGGGTTCACTATGGGATGACCAGTACCGACGTGGTCGACACTGCCCAGGGGCTGCGTTTGAAAAAGGCGAACGATATCATCCGTCAGGACATCGTCGACTTCATGGCCGTATTGAAGGAACTGGCCGAGAAGTATAAGTACACCGTCTGCATGGGCCGGACCCACGGTGTGCACGCGGAACCAACCACCTTTGGCCTGAAGGCGGCCCGTTGGTACTCTGAGATGAAGCGTAACCAGGAACGGTTCGAGCACGTGGCCCGTGGTGTCGAGGCTGGTAAGATCTCCGGAGCGGTGGGGACCTTCGCCGAGATCGACCCCTTCGTCGAGAAGTACGTCTGTGACCGCCTCGGCCTGCGCGCCCAGGAGATCTCCACCCAAGTCCTGCCGCGTGACCTCCACGCCGAATACATCGCCACGATTGCCCTGATTGGGACCAGCATGGAGGAGATGGCCACCGAGATCCGTTCCCTCCAAAGAACTGAGATCCACGAGGTCGAGGAGCACTTTGCTAAGGGACAAAAGGGTTCTTCCGCTATGCCGCACAAGCGCAACCCGATCGGCTCAGAAAACATCTGCGGTTGTGCCCGGATGTTGCGGGGGTACATGGTCCCGGCCTACGAGGACGTGTCACTTTGGCATGAACGGGACATTTCCCATTCCAGCGCGGAACGGATGATCCTGCCGGACGCCACCTCCCTGATCGACTACATGCTGCGGCGTTTTGGCCGGATCCTCAAGAACCTTGACGTCTTCCCCGAGACGATGAAGAAGAATATGGACAAGACCCTGGGCCTGATTTACTCCGGCCGGGTCCTGCTCAAGTTGGTCAACTCCGGAATGACTCGGGAGGCTGCTTACGACCTAATCCAGCCTTACACTGCCAAGTGCTGGGCCGAACAGATTCCGTTCCGGCCACTCCTGGAGGCGGACCCGACGATCAAAAAACAGCTCACCAAGCAGGACCTTGACGGCGCCTTCGACTACCATTGGCACCTCCGCCACGTCGACGACATCTTTAATCGGGTTGGCTTAGAATAA
>SRR1151252_01478 hypothetical protein
ATGAAAAAGCGACTGACTAGCTGGCTACTGACGATCATCCAGGCGGTGGTTGACCTTGAGATTGCAATTGTCGCGGTGGGTGCCTTCGGGGGTCTGATCGCCGCCCCGTTCACCGAGATCGGCCACGCGTTCTTCGACTACCGCAGCGGTTTTGGTCTGCTGGTTCAGGTTCTTGACGTGGTGTTGGAAGTAGGCCTGCTGGTTATTTCCCTGCTGGGGACCCGAAACTTGCTGTCCAACATCAATGACGGCCAGTACTTCGTCAGCCAGAACATGCTGGCGGTCTGGCAGATCCTGTGGTCAACCCTGCTGGCCCTGGTGCTCGGCGGTCTCAATACGGTGATCTACCACCTGCTCCATCTTCGAGACAAGTTAGGCTTGTTGACCATGAGCGGGGATGACTTCACTAACGGCCTCGGATTCGTGACGGTGATCTTTTTGATCTATTTAATTTTCAGACGGGGTGTTGCCCTGCAGCAGGAAGCAGACGAGATTATCTGA
>SRR1151252_01479 transcriptional regulator
GTGATTAGGGTGAACCTGGATGTCGTGTTGAGCGAACGTAAGATGACCTCAAAGGAACTGGCTCAGCGGATCGGCATCACCCCGGCCAACCTCTCCATCCTGAAGACGGGGAAGGCCCGAGGAATTCGCTTTGAGACGTTGGACAAGATCTGCCGGGCCCTAAACTGCCAGCCTGGTGATATTCTTGAGTATCAGGGGGGATAA
>SRR1151252_01480 hypothetical protein
ATGATGAGACTAAATAAGCACTTCTACAAGACGACCGACTTTTACTTCGGCCTGGTGATGACCGCAGTGCCCATGGTGGGGATCGTGGTTAATCGGAATCCTTACGACAACATCCTCTTGGGGTTGTTTGTCATCATCGGCCTGGTCTTTTTCGGCCACGCCCTGTTGAGCGCCGAGGCAACAGACTGGCTGATCAGCGGACAGGGACGCCGGCTGGGGTTCAATCGTCACTTCTATCGGACCGTGAATTTTTACTTGGGCTGGTTCCTAATCCTCACTGACTTACCGGGATCCGGGCCGCTCCAGTGGGACAATCTTACCTTCCTGGTCCTCGGGGTGGTCATGGCATTTTGCTCCCTACTTTATTGGCACAACTAA
>SRR1151252_01481 phosphoribosylaminoimidazole-succinocarboxamide synthase
ATGGAAAAGTTACTGTATACCGGAAAAGCAAAGCAGATGTGGCAGACTGACGACCCTGACGTCCTGCGGGTGGTCTACATGGATCAGGCGACCGCACTGAACGGCAAGCAGAAGGACCACTTCACTGGCAAGGGAGCCGCCGCCAAGGCCATCTCCGACCTGGTCTTTCGCTACCTGATTGATCACGGGATCCAAACTCACTTTATCAAACAGGTTTCTCCAACCGCGGACCTAGTCAAGAAGTGCCAGATGTTCCCGCTGGAGTTTGTCACCCGCAACGTCATCGCCGGGCACTTCGCCAGCCGTTATGGACTCGACGAAGGTCAGGTCCTGGACGAACCGGTCGAGGAAACCTTCTACAAGAGTGACCAGCTTGATGACCCCTTCATTAATGAATCGGCCACCATTGCCCTGGAGATCGCCAGTCATGCCGACCTGGCGAAGATGTGGGGCCTCTGCCGGGAGGTCAACGGCCTGCTCAAGCCGCTCTTTGAGAAGGCTGGAATGCGGCTGGTCGACTTCAAGCTCGAGTTTGGTCGTCTCAGTGACGGGCAAATCGTCCTGGCCGATGAGTTCTCCCCGGACAATTGCCGGCTCTGGGACCTCGAGACCGATCAGCACCTGGACAAGGATGTCTACCGACGTAAGCTCGCCGACCTGACCCAGACCTACGACGAGGTACTGGATCGCCTGCAGGGTGTTTTGACAGAGGAGGACTAA
>SRR1151252_01482 phosphoribosylformylglycinamidine synthase
ATGACGAATGTTCGGATTTTTGTAACCTATAAACAATCGGTGTTTGACCCTCAAGGTGAGACTATCAAGGATGCCATCCACACCCTGGGTCACGATGAGGTCACCGCGGTCAAGGTCGGTAAGTTCTTCGACGTCACCATCGACGCGACCGGAGCCGCCGTCGACCAGTCCGTCAAGGAGATTGCCGACCAGCTGTTGGTCAACTTCAACATGGAAACCTATCATTACCAAGTACTGGAGGAAGCAGAATGA
>SRR1151252_01483 phosphoribosylformylglycinamidine synthase I
ATGAGAATCGCCGTAATCGTTTTTCCAGGTTCCAACTGTGACGTCGACCTGTACGAGGCCCTGGGCACAGTCTGTGGTGCGGACGTCGCCTACGTTTCCCACCATGAACACAGTCTAGTTGGCTTTGACGCGGTGATGCTGCCGGGGGGCTTTTCCTATGGTGACTACCTGCGGGCCGGGGCGATTGCCCGTTTTACCAACATCATGCCGGCGATCATCAAGATGGCTGAGGAAGGCAAGCCGGTCTTTGGCACCTGCAACGGCTTCCAGATCCTGACGGAGGCCGGGCTGCTGCCGGGGGCCCTGAAGCGCAACGACAGCCAGCGTTTCGTCTGCAAGGCCGTCCCACTCGAGGTCGTCAACAACCAGACCCTGTTCACGAGTCGGTACCGGCCGCACGAACGGATCAGCCTGCCGATCGCCCACGCCGACGGTAGTTTCTACGCCGATCAGAAAACCTTGGACCGCCTGGAGGCCAATCACCAGGTCGTCTTTCGTTATGCAGAGGAGAATCCAAATGGTAGTTTGCGAAATATTGCTGGAATTACTAACCAGCGTGGCAACGTTTTGGGAATGATGCCGCATCCGGAACGGGCAGTGGAGGCAATCCTAGGCAACACGGATGGCCTGCGACTGTTCAAGTCCCTATTGACCAACGGTAGTGTGAAAGTGGGGGAATAA
>SRR1151252_01484 phosphoribosylformylglycinamidine synthase II
ATGAAGCAGGCAATGACGCCCGAAGAGATCAAAGAACAGAAGCCATACCTGGACTGGAGCCTAAGTGAGGACGAGTACAACTACATCAGCGATACTCTGCTTGGTCGGCTCCCAAACTACACGGAGGCCGGCCTCTTCGCCGCGATGTGGAGTGAACACTGCTCCTACAAGAAGTCCAAGCCGGTCCTCCGCCTCTTCCCCAACAAGAACGACCGGGTCATCCAGGGCCCGGGCGAGGGGGCTGGGGTTGTCGACATTGATGATGGCCAGGCGGTCGTCTTCAAGGCCGAGAGCCACAACCACCCGACGACGGTTGAGCCCTACCAGGGGGCAGCAACCGGGGTCGGGGGGATCCTTCGCGACATCTTTAGCATGGGGGCCCGCCCGGTAGCCTCGCTGGACTCCCTCCACTTTGGTGAACTCGATGACTCGACGACCCGGATGAAGGTCGACGGGACGGTTCGTGGAATCGGCGACTACGGCAACTGCATGGGAATCCCGACGATTGCCGGTGAGACCACCTTTGACCCCTGCTACCAGGGCAACGTCCTTTGCAACGCGATGAGCGTCGGCCTGATGGACCAGAAGGATATCCAGCAGGGGAAGGCCGCCGGGGTTGGTAACGCGGTGATGTACGTCGGCGCCAAGACCGGGCGTGACGGCATCCACGGTGCGACTTTCGCCTCAGCGGACTTCAGTGATGAAAATGCCACCCAACGGTCCGCCGTCCAGGTCGGTAATCCCTTCATGGAGAAGCTCCTTCTCGAAGCCTGCCTGGAACTGATCTCTAAGCACCCCGACTGGCTGGTCGGTATCCAAGACATGGGGGCCGCCGGAATCGTCTCCTCCAGCGCCGAAATGGCCGCGGAAGGGAAGAGCGGGATGGACCTCGACCTCGACCTGGTTCCCCAGCGCGAGACCGGAATGTCGGCCTACGAGATCATGCTCAGCGAGTCCCAGGAACGGATGCTCCTCTGTGTCAACAAGGGCCACGAGGACGACGTCAGGAAGATTTTTGACTTTTACGACCTCGACGCCGTCACGATCGGCCGGATCACGGCGGGTCATCAGTACGTCCTCCGCCACGACGGCCAGGTCGTCTGTGATATTCCTGTCTCCAGCCTGACCGACGATGTTTTGGAGGAAGAAAGCACGGAGCACAAGCCAGTCCGGATCACGGTTGCCGAACAGGAACCCGTTTGGCGGCCTAAAATTGACGATCCGGCCGCCACGCTTCGTTGTCTGCTCGCTCAGTCGACCATCGCCGACAAGAGCAGCTTCTACCAGCAATATGACTCCCAGGTGCGCACCTCAACCGTGGTCGGCCCCGGCAGTGATGCCGGTGTCCTCCGCGTTCGGGGTACACACAAGGGCCTGGCGATGACCACCGATGGTAACGGTCGCTTTGTCTACCTTAATCCTGAAGTTGGTGGTCAGATGGCCTTGGTCGAGGCCGCTGCCAACATCGTATCTTCGGGGGCCGAACCGTTGGCGATCACCGACTGCCTGAACTACGGTGATCCGAACGATCCCGAAATCTTCTGGGAGCTCCACCAGTCGGTCAAGGGAATGGCGGCTGCCTGCCGGATCTTTGATACTCCGGTAATCTCCGGGAACGTTTCCCTATATAACGAAAATAACGGTCAGGCCATCCACCCGACGCCAATGGTGGGGATGGTCGGCCTGGTCAAGAATATCGATCGGGTGGTCCCAAGCTTTGTCCAGCAAGCTGGTGACCAGGTCTACCTGGTCGGTGCGACCCGTGACGATTATGCTGGATCCGAGCTACAGAAGATGCTGACCGGAAAGATCAGCGGGGTGGTGCGGCCCTTTGACCTTGACGGCGTTCACACCACCATGCGGCACCTCCTTCACGCGATGGAAAACGGGCATGTGGCCAGCTGCCATGACCTTAGCGAGGGCGGCCTGGGAGTGGCCTTGGCCGAGACCCTCTTCAAGACCGACCGGGGGATGAACCTCGACCTTCGCAATCTGACGGGGGCCCAATTGTTCAGTGAGACCCCAGGTCGCTTTGTGGTGACCGTCCAGCCGGACCACGTGCCCGCCTTTGAACAGGACCTCGGCGACGCTGCCCAGCTGGTGGGGACGGTTACCAACGCCCATTGGCTGGAGGCCCACCTGGCCGACAGCGACTTGAACTTGAGCGTTGGTGAGCTGCAACAGATCTGGGAGGAGGCAATCCCATGCCAAATGAAATCAAAGGACTAA
>SRR1151252_01485 amidophosphoribosyltransferase
ATGCCAAATGAAATCAAAGGACTAAATGAGGAATGTGGGGTCTTCGGGGTGTTTGGCGCCCCGGATGCTGCCCAGCTGACCTACTACGGCCTCCACACCCTACAGCACCGCGGGCAGGAGGGGGCCGGGATTGTGTCCAGTGATGGTGCCAGCCTTTACCAGCATCGTGACCGGGGGCTGCTCGCCCAGGTGTTTGCCGACCAGGCCGAACTCAAGCGGCTGGTCGGGAATGCTGCGATCGGCCACGTTCGTTACGGTACCAGTGGCCACAATTCAATTGCCAACGTCCAGCCATTTTTGTTTCACTTCCACGATGGTGATATCGCCCTGGCCCACAACGGCAACCTGACCAACGCGGTAACCCTTCGCCGCCAGCTTGAGGACGACGGGGCGGTCTTCCAATCGGACTCGGATACCGAGATTCTGATCCACTTGATCCGCAAACACATTCGAGAAGGCTTCATTCCCGCCCTCAAGCAGAGCCTCAACCAGGTTCACGGTGGATTTGCCTTCCTCCTCCTCCAGAAGAATCGCCTGGTGGCGGCCCTTGACCCGAACGGCATTCGTCCGCTCTGTATTGGTCAGCTAGCCAACGGTGCCTATGTGGTGGCCAGCGAGACCTGCGCCCTCGATATCGTCAACGCCCGCTTCGTCCGTGATGTCCAACCGGGGGAGCTGATCGTGATTGATCGCGATGGCCTCCACATCGACCACTACACCACCAAGACCCGGCTGGCGATCTGCTCAATGGAGTATATCTATTTCGCCCGGCCGGACTCGATTATCCACGGGGTAACGGTGCATAATGCCCGCAAGCAGATGGGCCGCCTCTTGGCCCGGGAACATCCGGTTGATGCCGATATGGTGATCGGGGTACCGAACTCCTCACTCTCCGCGGCCAGCGGTTATGCCGAGGAATCCGGACTCCCCTATGAGATGGGGCTGATCAAGAGTCAGTACGTTGCCCGGACTTTTATCCAGCCGACCCAGATCCTTCGCGAGCAGGGGGTCCACATGAAGCTTTCCGCCGTCCGTGGGGTCGTCAGCGGCAAACGAGTGGCGGTGGTCGATGACTCGATTGTCCGGGGCACGACCTCCAAGCAGATCGTCAAGATGCTTCGTGATGCCGGGGCCAAAGAGGTGCACCTCCTGATCTCGTCGCCGCCGTTTCGCTTTCCGTGTTTCTACGGGATCGACATCTCGACCCGTTCGGAGCTGATGGCGGCCCGCTACTCGGTTGAGCAGATGCGCCAACGGATCGGGGCGGACTCCCTCCACTTCCTGAGCGTCGATAGTTTGATCAGGGCGATCAATGTGCCGGACGCCGGAGATGCACCGGATGGGGGCCTGACGGTGGCCTACTTTACCGGGAAATACCCAACCCCGCTCTATGACTACGAGGCGGGTTACCTGAAGTCGCTGAATGAACAGGAACGTCGCGCGCAAGGGAGGTTAATCAAATGA
>SRR1151252_01486 phosphoribosylformylglycinamidine cyclo-ligase
ATGAATCGCTACCAAGAAGCTGGGGTCGATGTCAACGCGGGCTATGAGCTGGTCCGCCGTATCAGAGACGCCGCCAGCTCCACCGCCCGGCCCGGGATGATGACTGGGATCGGTAGTTTCGGGGGGATGTTCGACCTGGGTGAGTTACACGTGAAACATCCCGTGTTGGTTTCCGGCACCGATGGGGTGGGGACCAAGCTCCTGATCGCCCAACAAATGGGAAAACACGATACAATTGGCATCGACGTCGTGGCGATGTGCGTCAACGACGTTCTCGCCCAGGGTGCCGAGCCACTCTTCTTCTTGGACTATATTGCCACCGGCCACAATGACCCAGCCAAGATGGCAGCAATTGTCCAAGGAGTCGCCGCCGGTTGCTGGGATGCTCACGTCGCCCTGGTCGGTGGTGAGACCGCCGAGATGCCCGACATGTATGCCCGTGATGAGTATGACCTGGCCGGGGCCGTCACTGGGGTCGCTGAGAAGGACCAGTTGCTGACGGCTGACCTCCCTAAGGATGGTGACGTCCTGATCGGTCTGCCGTCCAGTGGCCTTCACTCTAACGGTTTCTCCCTGGTTCGTCAAATCCTCTTTAAGGATCACAATGTCCAGTTGACGGATCGGCCCGCGGCTCTGAACGGTCAGACGGTGGGGGATGCCCTACTGACCCCGACACGGATCTATGTCCGCCAGGTCCTGCCCCTGGTTCGGTCCGGTCTCGTCCGCGGAATCGGTCACGTCACGGGTGGCGGTCTGGTTGAAAACGTGCCAAGGCTGTTTGGCGACCGGCTACAGGCCGTGATTGACCACCAGGCCTGGCCAACCCGACCGATATTCGACTACCTACGCGACCTGGGTCAGCTAGCGCTAGAGGACTGTTATCAGACCTTCAACATGGGGATCGGGCTTGTCCTAGCGGTGGCCCCAGACAAGATAGCCGCCGTCCAGCAACACCTGGTAGCGGCCGGTGAGACCAGCTACCGGATCGGTCACCTGCATCCCCGGCCGGCTGGTGAAGAAAAGATTGTCATTAAGTGA
>SRR1151252_01487 phosphoribosylglycinamide formyltransferase
ATGAGAACCGCAATTCTAGCATCTGGCAACGGGACCAATTTTGAGGTTCTTGCTAAACATTTCCAATCCGGTGACCTGCCTGGTGAGCTGGCCCTGCTCTTCTGCAACCACCCGGACGCACCAGTGATGGCCCGGGCCCACCGTCTTGGCGTCCCGGCCGTCAGTTTCACCGTCAAGTCCTGTGGTGGTAAGGTGGCCTACGAAAAACGGCTACTTGCCGTCCTTCAAGAGTATCGAATCGATTTCGTTGCCCTGGCCGGCTACCTCCGGGTGGTGGGGCCGACGATCCTTGATCACTATGACCACCGGATCATCAACCTTCACCCGGCCTGGTTGCCCGAATACCCAGGTCTGCACTCGATTGAACGGGCCTTCGCTGACCGCCGTGCCCAGACCGGGGTGACGGTCCACTACATTGATGCCGGCTTGGATTCTGGCCCAATCATTGCCCAGTGTCACGTGCCAATCCTGACGACGGACACGGAAGATACTCTGGAGGCCCGGGTCCATGCCACTGAACACCAGCTGTACCCGCTGGCTATGAAACAAGCGTTGACTGCATTGAACGAAAAGGAGAATTAA
>SRR1151252_01488 bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase
ATGAAACGTGCATTGGTAAGTGTATCTGACAAGACCAACCTGGTGCCCTTCGTCAAGGGCCTAGTTGCCAACGACTACGAGATTGTTTCGACGGGTGGGACGAAGAAGGTCCTCGACGATGCTGGCGTGCAGACGATCAGCATCGAGGACGTCACCCACTTCCCAGAGATTCTCGACGGCCGGGTCAAGACCCTCAACCCCTATGTCCATGGTGGCCTGCTGGCCCGGCGTGACCTGCCTGAGCACATGGCAACGTTGGAAGAGCTCAACATTACCCCCATCGACCTTGTCTGTGTTAACCTCTATCCATTCAAGGAGACAATCGAGCAGCCGGACGTTAAGCTGGCCGACGCAATCGAAAATATCGATATCGGTGGTCCGTCGATGGTGCGGTCCGCTGCCAAGAATTACCACGACGTTACCGTGGTGGTCGATAAGGGTGACTATGATCAGGTTCTGAGTGAGATTGAAGATGGCGGGGACACCATCCTGACCACCCGGGCGCAACTGGCGGCCAAGGCCTTCCGCCACACCGCGGCCTACGATACCCTGATCTCCCAATACCTGACCAAGCAGACTGGCCTGGCGGATCCCGAGCAGCTGACCTTGACCTGGAACCTGAAGGAGACGATGCGTTACGGTGAAAATTCTCACCAACAGGCCTGGCTCTATGAGGATGCCATCCCGAAGCGTTTCTCCATTCTGAGTGCCAAGCAGCTGCACGGTAAGCAGCTCTCCTACAACAACATCAAGGACGCCGACGAAGCCCTGCGCTGCATTCGTGAGTTTGATGAGCCGACCGTGGTAGCCATGAAGCACATGAACCCGTGTGGCATCGGTCGCGGCCAGAACCTAAAAGAGGCCTGGGACCGAGCCTATGCGGCAGATTCCGTCTCGATCTTCGGCGGGGTAATTGCCCTCAACCGCCGTGTCGACTTGGCCACCGCCACCAAGATGCACAAGATCTTTCTGGAGATCGTGATCGCGCCCGGCTTTGACGATGACGCCTATGCGGTCCTGGCCAAGAAGAAGAACATCCGCCTACTCACCCTCGACTTTACCCACAAGGACGAGCCAACCAGGCACGAGGTCGTCTCCGTCATGGGCGGGATGCTGATGCAGGAACAGGATACCCTAAAGGAGGATTATCATGACTGGCACTGTGTTACCGAAGTCCAGCCGACTGAAAGCCAGCTCAAGAGTCTGATGTTTGCCTGGAAGGCGGTCAAGCACGCCAAGTCGAATGCCATCGTCCTCGCCAACGATGAGCGGACCCTCGGTGTCGGCGAGGGGCAACCGAACCGGATCGACTCCCTGAAGATCGCCGTCAAGCACGCTGGGGATGCCATTGATGACCGGACCGTGATGGCCTCCGATGCTTTCTTCCCGTTCGGTGACTGTGTCGAATATGCCGGCCAGCACGGCATCAGGGCGATCGTCCAGCCCGGTGGCTCAATTCGCGACCAGGAATCAATCGACATGGCGAACAGGTATGGAATTGCGATGGTGACGACCGGAATCCGTCACTTCCGTCACTAA
>SRR1151252_01489 phosphoribosylamine-glycine ligase
ATGGGAGAACAAGTAAATGTACTGGTGGTCGGTGAGGGTGGCCGTGAGTTTGCGATTGCCCGCAAGTTGCAGGCTAGTCCCCGGGTCAAGCAGGTCTACTGCGCTCCCGGTAATGTAGGGATGACCACGATCGGCGTTCAGCCGGTGGACATCGCCGAAACCGACTTCGCAGGCCTGATCCGCTTTGCCAAGGAACATCAGGTGGCCTGGACCTTCGTTGGGCCCGAAGATTGCCTGGTCGACGGGATCGTCGATGACTTTCAGGCGGCTGGCCTGCAGGCGTTTGGCCCGACTGCCCGGGCCGCCCAGCTAGAGGGGTCGAAGGACTATGCCCTCAGTTTCATGGATAACTACGAGGTCCCGACCGCCCAACATGCCTCCTACCGGGATCAAACCAGTGCGATTGCCAACGTCGACCAGTTCGGCTTCCCGGTGGTCATCAAGGAGAACGGTCTGGCCGGGGGTAAGGGGGTTGTGATTGCCCCGGACCGGATAACGGCGGTTCGAACCATCAAGGAGATGTTTGACCAGGGACAATCCCGCTTGGTGCTGGAGGAATGTCTCCAGGGCCCTGAATATTCGATGTTCGTCCTGCTCAGTGATGACCAGTATCGAATCTTGCCGATGGCTCAGGACCATAAGCGGGCCCTCGACGGTGACCGGGGCCCGAATACCGGGGGGATGGGCGCCTACAGCCCGCTGCCCCAGCTCGATCCGACCGACCGGCAAGCGATGATTGATACTGTGGTGGTCCCGACTGTCCACGGTCTGGTGGCGGGAAACTACCATTACCATGGCATCCTCTACGTCGGCCTGATTCTGACTGCCGATGGGCCCAAGGTGATTGAGTACAATGTTCGGCTGGGTGATCCGGAGACTCAGGTGATTCTGCCACGCCTGGCAACCGACCTCTTTGACCTGGTCGACGCCGCCCTCAATGACCAGCCCCTCCCGGCGGTGAAGGTCAAGGACACCGCCTGCCTAGGCGTTGTCCTGGCATCCAAGGGTTACCCGAATAATCCGCTACACGGCCAGTCCCTTGGCCAGTTGCCCCAGAAGACGGGAATCAGTATCGACTACGCCAACGTCAGCGGTGACATGTCCGACCTGCACGGGGCCGGTGGTCGTCTTCTGATGGTCCTGGCCCAGGATAGCAGCCTAAAGGACGCTCACGACCGAGTCTATGAATACCTGGCCCACCTAGATGAACCGGAATGTTTCTACCGGCACGACATCGGTGCTAAGGCCGGCTTAAATTAG
>SRR1151252_01490 hypothetical protein
ATGAAGAAGAACAATAACCACCTGATCGGCCTGACCGTCCTAGCAGTGGTGGTCCTCTATATCCTGGCCAAGAGCAGTCTTTTTACCCCATTCTGGTCGCGAGCCCTGGCCACCGGCGCAATTCTGATAGCAGTCAGCGCGGTTGCCTACCTGGCCCTGGGCCGGGGTGCCAACGTGAGCATCCTCAGCGGCTCCCAGCGAGAACTGGATTCCCGCAGCCAGCAGGTGACCAGTGTGAACTTGCTTGGGGGCACCAAGCTTTTCCTCAGCCAAGGGGATGGGAAAGTAGTGGTCGACGCTAGCTTCATCAACATTCTGGGCGGTGGCGATATCTTCCTGCCGGCTGGTTGGCGGGTTGAGGACCACTCCCTGAAGTTGCTCGCCGGGATCACCGACAAGCGGCAGACCCACGTGGCGGGCCCGGCGCCGACCGTCCGGATCACCGGCTTCATGCTCCTGGGTGGGTTGACAATCCGTGAGCTTCCACAGACGGCGGTCAGCATGGCATCGTGA
>SRR1151252_01491 2,3-bisphosphoglycerate-dependent phosphoglycerate mutase
ATGGCTAAATTAGTACTGATTCGTCACGGTCAAAGTGAATGGAACCTGGCTAACAAGTTCACCGGTTGGATTGACGTTGACTTGAGCGAAAAGGGCGTTGAACAAGCTAAGGAAGCTGGTAAGGCCCTTAAGGAACACGGCATCGAATTCGACTACGCTTACACTTCTGTTCTGAAGCGTGCCATCAAGACGTTACACTACGCCCTTGAAGAATGTGACCAACTCTGGATCCCTGAAACCAAGACCTGGCGTCTGAACGAACGTCACTACGGCGCTCTGCAAGGTCTGAACAAGAAGGATACTGCTGAAAAGTACGGAGACGAACAAGTTCACATTTGGCGTCGTTCATACGATGTTCTGCCACCATTGCTGAAGGCAACTGACGAAGGCTCTGCTCTGCACGATCGTCGTTACGCAAACCTGGACCCACGCACGGTTCCTGGTGGTGAAAACTTGAAGGTTACCCTGGAACGGGTTATCCCATTGTGGCAAGATGAAATTGCACCAAAGCTCTTGGATGGCAAGAACGTCATCATCGCTGCCCACGGTAACTCCCTCCGTGCTTTGAGCAAGTACATCGAAAACATCTCTGATGACGACATCATGAACCTGGAAATGGCTACTGGTCAACCAGTTGTTTATGACTTCGATGACAAGTTGAACGTTCTTAGCAAGGAAAAGTACTAA
>SRR1151252_01492 hypothetical protein
ATGAAAAAGCAACATAGTTTACCATTAAAGAGCTTCATTACGGAGCTCAAGGCCCTGGTAAAGCCTGATTATCTCAAGACAATGTGGCCCGTTGGCGGGATTACCATTATCTTCATTGCCCTGACTTGCATCCTTAGTTTCCTTACCACCAGCATAATGTCATCCATGATGATGAGCGTCATGATGATTATGTACGGGATGGCTTCACCACTGGCCCTCTTGATGGGCTTATTGGAGATCCTTGGTGCGGCCGCCATTTCGATTGCCCTGTCCTTCTTCTTCAACTTCTTCATGGTAGCCATCCAGTACACCTACTGGGATCGTCTGGCTCATCCTGAACAACCGGTCAGTGCCGGTTCAATCTGGATGCACTACAAGCACCTGCGGAAGAACCAGGTTTGGCGAATTGCCCTCTACATCGGCCTGTTCCTTTTCCAGTGGAGCCTGCCGTTGGATATCGTCGGCGGTCTGGTTGGTGGGATGACTAAGAACACCATTTGGCCACTGGTTATCCGGATCATCAATGACATTGTGATCCTTTGGAAGTCCCTGGAATACTCCCAGTCATACTTCCTCTACCGGGAGAAGCAACCGCAGTTCCTCGGCCAGTCAATGCGGCACGCCCTGACGGCCAGCCGGCGGTTCATGGATAGCCGGAAGTGGAACTACCTGCTGATCAACGTGGTTTGTGAAGTGCTGCCGGTCCTGATCTGGACGCTGATTTTCGGTGGCCTGGCCTTCTACGGTAACTACACTGCAACCTACGTTTTGACCTACGTCGGCATCGCCCTAGTGATCATCGGGATTGCTTGCTATATGCCGGTGATCTTGGCTACTGGGACTTTGTACTTTGTTAAGAGTAAGAACGCCCCGGACCCGGTTGATATTGATGCCACCTTCAAGGATACCTTCAAGCCGGTTGCTGAACTGACCGGTGAGGCTTACGTCCACGAAATTTACACTCCGGCCAAGCCAAAGAAGCATTCAACACCGGTTGCCAAGCTGGATAACGAACCCAAACGGGAAGCCAAGAAAGACGAATAG
>SRR1151252_01493 tyrosyl-tRNA synthetase
ATGAACATTATTGATGACCTGAAGTGGCGCGGTGCGATCAACCAAGCCACCGACCTCGATGCGTTGAAGGAACTGACGGAGAATAACAAGATCGCTCTCTACTGCGGGACCGATCCGACGGGAGACAGTCTGCATATCGGACACCTGATTCCGTTTATGATCCTCAAACGATTCCAGCTGGCTGGACACCATCCGGTAATCATCATTGGTGGGGGAACCGGTGCAATTGGTGACCCATCCGGCCGGAAGTCTGAACGGCAGTTGCAGACGATGGACCAGGTCCACCACAACGAGGCAGCACTGACCGCCCAGATGAAGAAGCTCTTTGGTACGGAGAACTTCACGATTGTCAACAACTACGACTGGCTTTCCAAGATTAGCCTATTGGACTTCCTACGTGACTACGGGAAGCTGTTTAACATCAACACGATGCTGAACAAGGAAGTCGTTGCTAGCCGGCTGGAAGTGGGGATCTCCTTCACCGAGTTTACCTACCAGATCCTCCAGTCCGTTGACTTCCTGCACCTCTACCGGCACAACGATGTTCAGCTGCAGATCGGTGGTTCCGACCAGTGGGGGAACATCACGGCCGGTATCGACCTGATCCATAAGGTAGAGGGTCCGGACACCAAGGTATATGGCTTGACCATTCCGCTGATGCTGAAGGCTGACGGGACCAAGTTTGGTAAGACTGCCGGTGGGGCCGTCTGGTTGGATCCAAAGAAGACTTCTCCGTACGAGTTCTACCAATTCTGGATCAACCAGGATGACCGCGACGTGGTTAAATACCTGAAGTACTTCACCTTCCTCTCCAAGGACGAGATCGACGCCCTGGCCGAGAAGGTCGAAAAGGAACCATGGAAGCGGGAGGCTCAACGCCGTCTGGCTGAAGAAGTGACGAAGTTCGTTCATGGTGAAGCCGCGGTTGAAGAAGCTGAACGGATCAGCAAGGCTCTCTTCTCCGGTGACGTTGCCGACTTGTCCGTTGATGAGATCGAACAGGGCTTCAAGAACATGCCTTCTGTTGATGTTGAGAACAAGAAGGAGAATATCGTCATTTGGCTGACTGACAACGGGATTGAACCATCCCGTCGCCAGGCACGGCAGGATGTGTCTAACGGGGCCATCCGGATTAACGGTGAGAAGGTTGACAATGTTGATGCTGAAATCGACCCAAGCACCCACTTTGATGGCAAGTTTGTGATTGTCCGCAAGGGTAAGAAGCACTACTTCCTGGCGCGGGTAAAATAG
>SRR1151252_01494 hypothetical protein
ATGTCAGATGATAAGAAGTCAGAAAGTATCGAAGAACGGTACGCCAAAGCTTCAAATTATTTGAATCGATACTCCTATTCTAGCCGGAAGTTATACCAAGCCATTCTTAAGGTCTTACCGCCTTTGCAGGTTAATGACCAATATGACGAAGACAATATTAACTTGGCAATTAAAGCTGGTAAGATCCTGGACCTTCTTGGTGAAGCGTCACGAACTTGGAACATCTCAATTCATTGGCTTTTCACCGTCTGCAATCCCAAGATTACTGATCAATCTAATCCAAAGTACAGTCCAGTGTATAAACAACACGCAAGCCAGTTACCATTGAATCGTTTCGGCGAGTTAGATCATCTGGAAATGGATGATGATGACAAGCTTATTCGTGCTGGTGACAAGCTGGTTGGTGATGACTGCTTCGTTGGTAAGGGTTGTGAAGATTATGGGGCAGCCTGGGATGATGATGGCAATGTTATTAAACGTGATGCTCGTGGGCAACCAATCTTAGATGGATTCACTGCTTGGGTAGCACGACATGTTGATGAACTTCAAAAGATCTGTTGCCGAAATCCAAACAGGGATCGTCACTTTGCTGCGTTTCAGATTAACCATACTCGTGACGACGAAGAAAATCAGCGAAATGGTGAAGGTGAACATAAGAAAGCACACAGCCACTTAGTAGTAGACATGCCGACAAGACGTACCCGATACCGAATGATGGAATTATTTGGCTATAGCTTTGATGATTTAACAGAGACGTTCAAATGGATTGATCAGATTGACGATCAACGAAATGAACGGATCGAGGCATTTCTTGAAACACTTCAAGGCGCTATGCAGAACTTTGTTGTAACTAAGCATTATATTTTCTCACTTCAGTATCTTGTTCATCAAAGTAGTAAGGCTAAACGCGATCAAAAGACCCCATACGCGATTGCTGAAGTAATGAGCTGGCTACCAGATGATCCAGGTAAGAGCTATTCAAGTATTGCTGGTGTATATGATGATGAAACGGTTGCCAAAGGTATTGATTCAGCCATTGTTCGTAATCTACATAGTCCTTACAACTTGGCGCATCACACTGCTAGGTTGGTAGGACATAGCGATGGTAATCGCGTCTTCTCTGGACACCAATTGTCGGAATTAAGGAGCCTTGGAACAAAGGGTACCGGGAAAATGAACTTTAGTAAGCAATCTAAGAAGTTGATTCTGGATCAATTGATGGAATGGATTTATTCCGGACGGATGCAAGTAACTGATTGGAAAGATGCAATTCATGCGGCTTTTGATGATAGTGATGCAGCAGGTTTAATTACTGATGGGATCTTTATCAGTCGTTTGACTGCTGTCTTAGACGATCAGCGAATGATATTAATGCTGATCGTAAACATGAACACCATTTTCATTAGTGCTGCACAGGGTGGTATTGGTAAATCGTATCTAGCTAGTCGACCATGTCAGTATCTGGAAAAGGGACGTACACCCTATATGACCGCAGCTGAGGATAAAGGTAAGACAGTCGACTGCTGGCAAGACTACCGAGATCAAGCAGCAGCAGTGATTGATGAAGTATCACCTTCATCAATTGAATGGAGCGCCCTTAAAGATATGCTAGATCCACACAAAATACCAAGGGTTGCCAGCCGTTTCCATAACACTAGTCCTTGGAATTTGAACCTTTTGGTGATGACCAATGTTTATTCTGATGGGGTAGCAGGATATGTGAGAGATGTCCTTCACTATGCCCCAGGCGTGGTAAAACTTGGTTACTTAGAACAGAGTGATTCATATAGTAAAACTTGGGAGCTAAAGACAGATGATCCTGAGGCTGGGCAAGTCTATTTGTCGCAATTAAGTCAATTGCTGCGACGTCTGCCAATTAATGTCCATATGATTCCACAGAAGATGGAAAAGGAACTGAGGTTGTTGTTTCAATCATCAATTTCCGCCCAGGCGGTCGTGCTATTAAAAATTATGACTATATCTATACACGTGAGTCAGATCATATTTTCAACGTTGTAA
>SRR1151252_01495 membrane protein
ATGAAGTACAGTGTAAAACCATTAGCAGAAGATAGCCGGGTCTTTAAGGTTGATCCCCAGATTAAAGTAAAGTCCGTCCGTTTTCAGAACCGTTACGGCTTTATGGTGGCCGGTAACCTCTACCTGCCAGCCGACTTTGATGAAAGCAAAAAGTATGCGGTAATCGTCATCTTCGGGCCATTCGGGGCCGTCAATGAACAGTCCAGTGGCCTCTACGCCCAAACTCTAGCGCAACGGGGCTTTATGACGGCTACCTTTGACCAGTCCACCACTGGTGAGAGCTCCGGTGATGTTCGTAACGTGGCCTCCCCAGACATCTTTGTCGAGGACTTCTCCGCTGCCGTCGATTTCCTGGGCACGCAGAAGTATGTTGACCGTGAAAAGATTGGGGCCATCGGGATTTGCGGATTGGGCTCCCATGTCCTGACTGCCGCCTCCATTGATGTCCGGATTAAGGCCGTGGCGACGTCGGTCATGTACGACATGGCAGAATCAATGTGGTCTGGGCTGAATAATTCTAAGACCGCGGAACAGCGGGACCGCGAAAAACAGTACCTCGCAGATATTCGTTGGGAAGATGTTGACAATGATACTCACGTCGGCGGTTACCATGAACTGCCGTTTGATGAGAATAATAATCCAGTTCGGGCAGATAAATTATTACCTAATGAGGTGCCAGCTGGCGCGGACCCGGTTACCACGGAATTCATTAACTACTATATCAAGCGGGCTTACCACCCACGTTCCATCAACTCGGCAATGATTTGGGACGCCACCAGTCCGTGGGGCTACTACAATTTTCCACTCCAACAACGGATTGGGAAGATCACTGCTCCTAAGTTAATTGTCACTGGTGAAAAGGCCCACTCACGTTACATGGCCGAGGCGGCCTACGAGCGGTTGACCGACCCGAAGGAACTGGTATTGGTACCGGGGGGCCACGCATACCGACCTGTACGACCAGATGGACAAGATCCCATTTGA
>SRR1151252_01496 LysR family transcriptional regulator
ATGCCAGCTTTAGTGAATTCAGCCAGTGCGGCACCCTCGCCAAGACGGTCAACCTGCCAGCTGGCCGGTGCCAAGCAGCTATCGTTCGCCGACCTGCACGACCAGACCATCTTAAGTCCGCGCGGCATCGGCTTCTGGGAGCAGATCTACCAGCACCGGATCCCCGGCAGTCGCATCCTCTATCAGAAGCATGCCCACGACTACAGCGAGTTGGTCAACTACCCCATCCTCCCCTACTTCACCACCAACCTGACCCAACTGGACGACAGCTGGGGTGCCGACCTGCTGCAGAATCGGCTGACCATTCCGCTCACCGACCAGGTCGCCCAGCAGAAGTTCTACGCCTGCTTTTTAAGGGAAAACCAGCGGCGCCTGACGTCTCTGATCCAGCAGCTTCAGGACCAGTGGGCCAAGGTCGACTGA
>SRR1151252_01498 alcohol dehydrogenase
ATGAAAGCCCTCGTTGTTGCTAATCAAGGCGATCAATCAATAAATTGCTTGCAGATTGCGGAGGTTGCCAAGCCCATCCCCACAGCCGATCAGGTCCTGATCCGGGTTCACGCGGTTGGCCTGAACCCCGTTGACTATAAGGTGGTCGAGGGCGGTGTTCCCGCCTGGACTTACCCGCACACCCTCGGCCTGGACGTCACCGGTGAGGTCGTTGCGGTCGGAGCGGCCGTCACCGACTGGCAGGTCGGGGACCGGGTCTCCGGTCACGGTGACCTGACCCAGAATGGCTGCTTTGCCGAGTTCGTTGCCGTGCCGACCTACCAACTGGCCCGGATCCCGGATAACGTCAGTTACGAAACGGCCGCCAGCCTCCTCTGCGGTGCCCTGACTGCGTATACGGCGGTGGAACGTAAGCCCAACCTGACGAATGTCAGGACGGTTCTGGTCCACGCTGGAGCTGGTGGGGTCGGTAGTATTGCCATCCAACTGGCCAAGCTCCATGGCCTCAAGGTGTTCACCACGGTTTCCACCGGGAAGGTCAAGTATGTTCGGCAACTTTATCCCGACGCGATCATCGACTACCGCCAGGAGGATGTCGATACCCGACTTGCCCAGCTGACTGACGGCCTGGGGGTTGACCTGATCATCGACACGGTTGGTAAGGCCGGGCCGAACGAGACCTGCGCCGCCTGGCCTACAATGGGACCCTGGTGA
>SRR1151252_01499 alcohol dehydrogenase
GTGACGATCGTGGACGTGCCGGACCTGACCGGGGCGCCAGTGTTTGATCGCGGGCTGAGTATGGATGTTGTCAACCTCGGCGGTGCCCACCTCAGCGGCAATCCGTTTCAGCAGGCCGATCTTGGGAAGATGAATTCCGAGATGTTAGCTTTGGCCGCGGCGGGGAAGGTCGACCCGCTGATTGAAAAGGTAATCTTCTTTGACCAAATCAAGGACGGCCTGCAGGCAATTAAGGACCACCGGGTCATCGGGAAACTCGTGGCTGAGATCGACTAA
>SRR1151252_01500 cation-transporting ATPase
ATGGTAAAGATCCAACAATTTTTAACGAAGCACCGCCAGGGCCTAGTCATCCTGATGACCATCCTGCTGGTCCTGGCCGAGGCCGCCCGCTGGCTGGGCCAGATGTCATTAGCATACCAGGTCATCATGGCCTTGACTGGGGTCATCGGACTCCTGCCGATCCTGCTCACGGCGATCTCAGCGCTTAGGGTCCGGCTGGTCTCGATTGACGTCCTGGTCAGCATTGCCGTGATCGGGGCGTTTGTCATCGGTGAGTACAACGAGGCGGCAATCGTCACCTGGCTGTTCATGCTCGGTGAGGTACTAGAAGACCTGACCCTGAAGAAGACCCGGTCGGCAGTCAAGCAGCTCACCGACCTGGCGCCCCAGACGGCCCTGGTGGTTGATGCGGACGGGAATACCCACCAGGAGGATGTTGACTTCCTGGATCCCGGTGCCCATGTCCTGATCAAGACCGGGGCTCAGGTGCCGGTTGATGGGACCGTTCTGACCGGGGATGCCCTGGCCAACGAGGCCAGCATCACCGGCGAGGCCCGCCTGGTCAAAAAGGAGGTCGGGGATAGCGTTTATGCCGGGACGATCCTGGAGAACGGCACCCTGACCGTTGAAACAACCGCGGCGGGGGATGACACCACCTTTGGTAAGATTATCGAACTGGTGGAGGAGGCCCAGGACTCGCAGACGAAGACCCAGCGCTTCATCGACCGCTTTGCCCAGTACTACACACCCTTCGTCTTGCTGGTGGCGGTGGTGGTTGGTCTGCTCACCCGCGACTTCCGGCTGGCGATCACGGTGATGGTCCTCGGCTGTCCGGGGGCCCTGGTGATCGGGGTACCAGCTTCAACCGTGGCGGGGATTGGTAACGGTGCCCGTCGCGGGATCCTCTTCAAAGGCTCCGACGTCATGGACCGCCTGCGTCAGGTTGACACGATCGCCTTTGATAAGACCGGGACCCTGACCCGGGGTAAGCCGACGGTCCAGACGCTCGTGGTACTGAAGGGCGACCGGCAGGCGATCATCGACCGGGCCGTGGCGATTGAGGGCCAGTCCGACCACCCGTTGGCGCGGTCAATTGCCGCCCTGCCGACCCAACAGCCGCTAACGGCAACCAAAGTTGAGACGGTTAAGGGGCAGGGCATCAGGGCCGAAGTTGACGGCCAGGAGTACCTGCTGGGCAACCGGGCCCTGGTCAACGCGGTTGTTGGGGACGATGCTGCGTTAACGCGGGCCGTGGCCCAGCTCGTGGCTGCCGGCGACTCCCTGGTGATCCTGGCCAGCGCCGACCACCAGGAGCTGGCGGTCTTTGGGATCAAGGACCAACTGCGGCCCCAGGCAGCCGTGGCCTTGCACCAGCTGAAGCAACTGGGGGTTAAACGGTTGGTAATGCTGACCGGAGATAACACGGGGACGGCCAAGGAGATTGCCGCCACCCTGCCGATTGATGAGGTTCACGCCGAAATGCTGCCCCAGGACAAGGCCCGCTTCGTTGCCGATGAGCGGGAAGGCGGGCACCGGGTCGCCTTTGTCGGGGACGGGATCAACGATAGTCCCGCCCTGGCGGCAGCTGACGTTGCCATCGCGATGGGCTCCGGAACGGACGTGGCGATGGACGTTGCGGACCTCGTCTTAGTGAAGTCGACCCTGGCTAGTCTGCTGACTGCCCGGCGCCTCGCGCGGCGGACGATTACCAACATGAACGAGAACATCGTCATTGCCCTTTTGACCGTCCTCCTACTGTTTATCGGCCTGTTTGCCGGTTACGTCGAGATGGCGTCGGGGATGCTGATCCACGAGCTCAGCATCCTAATCGTGATCCTGAATAGCATGCGGCTCATCAAATATTCACCGCAAAATTGA
>SRR1151252_01501 copper chaperone
ATGGAAAAAGTAATGATGAAACTCGGCGGGCTGACCTGCCCGTCATGCTTGGCCAAGATTCAAAAGGGCGTCGAGGCGGTGGATGGTACCGCGGACGTCAAGGTGTTGTTTAACGCGGGTAAGGTCAAGTTTACCCTCGACCCGGCCGTCAGCTCACCGGAGACGGTTCAGGAAGGTATCGAGAAAATGGGCTATACGGTCCAGGGCACCAAGATGAAGGAGGTCTAG
>SRR1151252_01502 DNA-binding ferritin-like protein
ATGACAAGCGTTGAACGATACGAACAGGAACTAAAGCAAAGCGACGTCGACCACCATACCCCGACTGCAGGGGCGATGACCTGCCACATCATCGCTAACCTGTTGATCCATTCCCTCAAGATTGGTCAGGCCAAGCTATTTGCCCAGGGGCCGGCCGCCCTCTTTTTGGCCCAGTATGGTAGCCAATGGGTCGGCCATGAACAGACCGTGTTTGCCGACCTCAACCGCCTGCTGGTCAATAACGGCGAGAGCATCCCCACGACCACGGACCAGTTTAAGCAATTCACGATGCTCGAGGAGGACGGGGCCAGCAAGTACGACCCGGGCGATGACCAGCTCTTCGGCCTCGTCAAGGATTTCGACACCCAGACCCTATTCATCACCAAAGCCATCGCCCTAGCTCAGCAGGCGTCCTGGCCAGAACTAGCAATGACCTTGGGTGAGTTGCTGGCGTGGATCAAGGAACAAATTGCCCTGGCCCAGCGCTTCTTGGGCCACGACCTGCGCACGGGGTTGTATACTGAAGAGGATGATGACGACTTTTAA
>SRR1151252_01503 ArcR family transcriptional regulator
ATGGCAGAGGAACTGTGCGTCCAGCTGGTACCGCTCTTTAACCAGCTCGACTTTGAACGTCAGCGGCAGGTGGAGCGACTGGTCCACCACCAGCACGTCCACCGGGGGACGATCGTCGCCAGCCCGGCCAACAACGATCGCTTGGTGATCGTCGAACGTGGTCAAGGACGGATGTACCAGCTGAGTGCGTCCGGTGATGAGCAAGTCCAGCGGACCCTGACCACCGGGGATTACGTCGGTGAGACCTGGTTGCTGGGTGCGGCGAACACCAGCAGCTATGTCGAGATGACGACGGACAGTGACATCTGTATCCTGGACCGGCCGGACTTTACCCGCCTAATCCAGGCTCAGCACGATCTTGCCCTAAAGCTCCTGGCCGGCCAGGCGGCGACGATCAGTCGGCTTCGGCAACAGACCCAGCTGTTAGGCTTGCCTAGTGTGGAGGAACGTTTGACCGCCTACCTGGACCAACTGATGGCCCAGCAGGGGAGCGCCACGGTGACCCTGCCGCTGAAGCTGAAGGACCTGGCAACCTACCTGGGGACGACCCCGGAGACCCTGTCCCGCCAGCTGACCAAGCTGACGCAGGCGGGGCGAATTAGCCGCCACCGACGGCAAGTGCGGGTGCTTAAATCCCTTTAA
>SRR1151252_01504 hypothetical protein
ATGGACGGCCAATTCCACGCCATTCTCCGTGTCAAGTTCGATGGTCAGGTCAGCGGTAACGTCATCGATAACAACACGGGTGAGGAGTACCTCCCCCTGCGGGCCGTCCACTTCGGTCCCTTCGCCGCCCAGGTTGAGGCCGCTTACCTGGACCTCCTCCACCAGGTTGCCACGCAATGCTTCGTTAGGGTCCCCTTCCACGGTGACCAGGCCAACCGGCTGGCCGCCTGGATCGCCCGGACATTTCACGACCAGCCCGAATTTCTCTTCAAGCGCCTGCCGGACTACGCAGCCTTCCGCGAGCCCCGGTCGCAGAAGTGGTACGGGCTGGTGATAAATATTCCCCGGGCCCGGCCAACCGATAAACAATCGACTAGTAAGTCGGACAAGGTCGAGGTCATTGAGCTCCGTTGCCCAGCATCGCAACGCGCGACCTGGCTCGACCAGGATGGCGTTTACCCCGCCTACCACCTCAGCGAGAAGAACTGGCTCTGCGTGACCCTCGACGATACCATAGCCGACGCAAAGCTCGAGCAGCTGGTCCAATCCAGCCGGGCGCTACTCACTAAGCCTCGGGCCTGGTTGGTCCCCGCCAATCCCAAGTACTATGACATCATGCACGCCTTCGTCGACCACGACACTATCACCTGGAAGCAGTCAACCAGCATCCGGGTCGGGGATACCGCCTATATGTATGTCGCCGCCCCGGTTAAGGCGATTATCTACCGCTGCCGAGTCGTAGAAACCGATATTCCCTACGACTACCAGAGCGCGGCGTTGAAGATCAAATAG
>SRR1151252_01505 hypothetical protein
GTGATTCACAACATCAAGACGGTCTCCAACTACATCGAGGAGATCGAACAACTCATCAACAACAAGGATCATAACTACTACTTCCGTGGGCAGGATGACGCCTTCTCCAACACCCTGCCATCAATCTTTCGGAGTCGGAAACTGCTTGACAACGAGGATAACCTCTTCAACGACTTCCTGATGGCTGATCCCCAGCTCTTCGAGAAGTGCCGGACCAACTTCGAGCGGATGGCGCTGATGGAACACTACCACCTACCGACCCGGCTGCTGGACGTCAGCTCTAACCCCCTGATCGCCCTCTTCTTTGCTGTCAAGGGTGGTCAAGGCAACGGCGAGGTCTATGTCTACAAGGATCAGCCCAACCCGGACAAGCTGGCGAAGATGCTTAACCAGCGCGGCTGGCACAACCTGATCGCCGAGTACCGGTTCAAGAGCGGCCGAACCAACCATAACTACTTCAAGAAGAACGCCTTCTCCAACGAGATGCAGCTGGAATCCTCCCTGGCCCGCCAGTCGATGGCCGACAAGAGCTCCTTCTTCCAGACGATCAAGAAATTCTACCAGCTGGACAACAGCTACATCGCCCAACAGCACCGCCTCTGGAGCGACGACTACCTGAACTACTTCGACAGTGGGGAATCGGACTACTTCGCCGAGTTCAAGCATGACCTACAGACCCTGCCCTTCCTCCGCCTGTTTGAGGAGGCCAAACGCGACATCCCCAGCTTTGCCAACAAGCTGAACCCGCTTGAGCTAATCGTGCCCAAAATCGTCACGATCAAGCGGATGAGCCGCCGAATGGAGAACCAGCAGGGGCTCTTCCTCTTCGTCCCCTTCATCGGCGACGAATACGACCAAGCCGTTGACATCGACTATGCAGAGGTCGAGCGTCGGGCCCAGCTGGCGATCGACATCCTCAGCCTCTACAACAGCGAGAACCCGAATGAGAAGGAGAAGTACATCATCCCCGCTCGCTACAAGCGGCCGATCCTGGCCGAGCTGGCCAAGTTGGGGATCGATTACAGCTTCATCTACCCCGAGGATCACGCCAAGAAGGCCGAGATGATCAAGGATAAGTACCTGGGCCTGTAA
>SRR1151252_01506 quinone oxidoreductase
ATGACAGAGAATAAGATGCAGGCGATTCGTCTAACCCAACCGTGTGCCGCGGCCGACCTGAAACCGACCCAGATTGACGTTCCCCAACTCAAACCCGGTTACGCCCTGGTGAAGGTCAGGGCCTTCGGGGTCAACGAGTCCGAGGTCACGAGCCGGAAGGGTGAATCCTCACCCGACTTCCAGTTTCCCCGGATCCTCGGCATCGAGGGCGTTGGCGTCATCGATCAGGTTAATGCCAACTCGTCCTTTAAGCCGGGTCAGCAGGTAGCCACGATGATGGGCGGCATGGGCCGGGCCATCGATGGTTCCTATGCCGAATACATGCTGGTCAAGGAGGAGAATCTGATCCCGTTTGAAAGTGACCTGGACTGGTCGATTCTCAGGGCCCTGCCGGAGATGCTTCAGACGGCCTATGGTTCGATCAGTCAAGGCCTCCACGTGCAGTCAGGGGACTTATTCCTGGTTTGGGGCGGTAGCTCGACAGTTGGCCTGATGGCATCCGTTTTGGCTCGCCATATGGGCGTCAAGGTGATTGCCACCACGAGAAACGCGGCCAAGCTGACCACGATGAAGGAGTTGGGGATCGACTACCCGGTCTTAGACGATCAGGATTTCGTGTCCCGGGTGCAGAAAATCGCTCCGAACAAGGTCGATAAGGCCCTGGAGCTGGTCGGCTTCTCGACCCTCTTTCAGGACATGGGACTGGTCAAGGACGGCGGCCTGACCTGCTTCACCGGCGCCCTTGGTGGCCAGTGGACGCTCGACAACTTCTCCCCATTCATGATCCCAACTGGGGTCTATTTGACCAGTTATGCCGGGGAAGCAAAGGACTTGCCAGCCGAGTACTTCAGTCACGTGCTAAACATGATTGAGGAACATAAGCTGACCGTGCCGATCGCCAAGGTTTACAATGGCCTCGGTGAAGTCGGCCAGGCCCAGGCTAACCTGGAGTCCGGCAAGTTCAGCGGCAAGCACGTGGTGATTCTGTAA
>SRR1151252_01507 transcriptional regulator
ATGCCAGATGAACAACTGATGACCATTTCCAAGTTTGCCCAGGCGGTGGGGACGACCCGGCGGACCCTGCTCTTCTATGACCAGCAAGGGGTCTTTAAACCTGCCAAGACGACAGCCAACGGCTACCGCTACTACAGCTATGACCAGATCTACCGGATGAACTTCATCCTGAGCCTGCGCAGCCTTGGTCTGTCGATCGAAGAAATCAAGAACTACCTTAGTGATAACGACTCACAGACCCTGAACAAGGAACTCGGTGCCCTCAAGCAGAAGGTCCAATCCCAGATTGCCAACCTCCAACAGGTCCTGGAAGTGCTCAATCAGAAGGAAGAAAATAACACCCAGCTTCGCGACGTTGACTTTTATACGGTCAAGCGCTGCTACCTGCCGGCCCGGGAGTTCTGGTGTTCCGACTTTGAGGTTGACTGTTCGGAGAGGGAGATCGCCCAGGCCTACAGTGACTTCTATCAGCGGCTCGGCGCCGGGGTGATGGTCAACAAGCGCCTGTCCGGCTTCCTGACCGCCCTGCCCCAGGCCCAAGCTGGTCGCTACGCCGATTCCGGTTTCCGGATCATCAAGGAGCGCGACCGGACGGCAGCGACTGGGGTACCGATGATCGCCCAGCCGGCGGGTGATTACGTGATTACCAAGGCGGCCAACACCGGTGAGGGGATCGAACGGGGTCTTGCCGCTATTCGCCAGTGGGCAACGCAGCATGGCTTGACTCTGGGGGATGACCTCTGGCAGTTCAATCTCGGCGTTGACGTTACCAGGCTGGGCCTTACTGAAAACAGCATCCTCGCCTACCAGAGCAAATAA
>SRR1151252_01508 arsenate reductase
ATGATCACTATCTACACCTCACACAACAGCAATTCCTCGCGTAAGGCCAAGGCCTGGCTGCGCAAGTACCAGCTTCCCTTCATCGAGCAGAACGTCTTCACCGCGCCGCTGTCCTATACGGCCTTCAAGGAAATCCTGGCCCGGACCGAGAACGGCACTACCGACATCATCTCCACCCGTTCCAAGGCCTACCGTCAGCTCAAGCCTCTCCTAGACGATGACCTCTCCTTGCGGCAGCTCTATGACCTGATTAGGGACTACCCCGGCCTTCTTCGTCGGCCCCTGATCATCGACGAGCGGCGCCTGCAAATCGGCTACAACGTCGACGACATCCGCCAGTTCCTCCCCCGCAAGATTCGGCGGCTAGAGCTGATCAAGGCCCTGCGGCGGTCCGCCGCCTAA
>SRR1151252_01509 recombination protein RarA
ATGTCCGAGGAAATCTCATTATTCAATGCTGGTGACCAGCCCGGCGGCCACTTCAAACAGCCGCTGGCGGACCGGATGCGGCCACAAAATTTGGCCGAGATGGTTGGCCAGGAGCACCTGCTGGCCCCCGGCAAACCGCTCCGCCAGATCATCGATCAGCATATCCCGATCCCGTTAATTCTGTGGGGGCCACCGGGAACCGGGAAGACGACTCTCGCCCACGTGGTTGCCAACGAGCTCCACTACCCCTTTGAACAGTTCAACGCCAGCATCGAGAACAAGGGCCAGCTGACCAAACTGATCGGCCGCCACCCCGCGAAGTCGTTCGTCCTCCTGCTCGACGAAATTCACCGTCTGACCAAGCCAATCCAGGACTACCTGCTTCCCTACCTGGAGAACGGTCACGTCCTCCTGGTGGGGGCGACGACAGAGAACCCGATCATGTCCCTGGTGCCCGCCGTCCGGTCCCGCTGCCAGATCTTCGAGTTTCACCCACTGCAGACGGCCGATATCCAGCGGATGGTGGTCCGGGCCGCCCGGCAGGTCTTCGATTACCAGATCCCGGACCCGATTGCCCACATGATCGCCAATACCGGGAACGGGGATGTCCGCACGGCTCTGAACGTCCTCGACACCCTGTATGCGATGTACCAGCAGGGCCTGACGATTGACCAGGTGAAGGCCTTCTCTCGCCAGCAGCACCTTGCCTACGATAAGGATGCCACCCAGCACTACGACTACCTGTCGGCCTGGCGGGATTCGGTCGAGGGCTCCGACGCTGATGCGGCCCTCTACTACCTGGCGGTTCTGCTGGAGGCGGGGGACCTGGAGTCGGTCGTCCGCAGCCTGAAGGACATGAGCGCCCTCGACCTCGGTCTGGCGGATCCCGCCCGGGCAGCGCAGGTGATCACCCTAGCCAACGCGGCTCAGGAGATCGGCCTGCCCCGGGCGGCGACCCACGTGGCGATGGCGACGATGCTCCTGGCGATCAGTCCCCGTTCCGATTCGGTGATGCAGGCCTACCGGCGGGCTGCCAAGGACGCTAAGCACGCCAGCCAGCACCCGATGCCGACTTACCTGCGGGATGCCCACTATAAGGGTGCCGACAAGTTACGCGGGGCCGGAGTGATGGAGAACATGTTTGAGGAGCCCAAGAAGGTGGCCAAACAGCCCTACCTCCCGGCTGACCTGGTGGGGCGTCACTACTATGAGCCGGCGCCAAATCAGAACGAGCAGCAGCTTTATTACCAGTATCAGAAGCTGTTTGAATATATTTACCAGCAGAAGTTTAAGCCCAACCCCAACAGTAGTCACTTCGACCACTTCAATCCCTACCAGGAGTAA
>SRR1151252_01510 LacI family transcriptional regulator
ATGGCAACGATCAAGGAAATTGCGGCAAAATCAGGGTTCTCCTCAGCGACGGTCTCCCGTCTGCTAAACAACGACCCCAACCTGTCGATTGCTCCAGCCACGCGCAAGCGGATCATGACGGTGGCCAACGAACTGGGCTACTGGAACGACCACCGCAAACAGGATGCCATCCGGCCGATGATCGCCCTCCTCTACCGGGTTGATAGTAAGGAGCAGCTTCAGGATGAGTACTTCTCCTCATTGAAAGATGAGCTCCTGAAGGTGATCAGTGCGGCGGGGCTCCAGGTTCAGGTCTTCGAACACATCACCGACCTGGTCGCTAAGGCTGATGACTTCCAGGGCTTCATCGGGGTGGGGCCCCACCGATTGACCCGCCAGAAGCTGATGACCTTGCATGATGCCCTGCCCAACGGTGTCTTTGTCGACATCAACCCGGCCCCGGAACTTTTTGATTCCGTCCGGCCCAACCTGACCCTGGCGATCCGCGATGCCATCCAGCGTCTGATTACGGCCAGTGCCCACCGGATTGGCTTCATCGGTGGGGTGGGGCTCAACTTCGACCGCGTCCAGCAGCCCGACATCAGGGAGACGGTCTTTCGGGAGTTTACCAGCATCAATCCTGGGGTTGTCGAGGCGCCGATGTTTGTTGGCGGCCCCTTTAACATTGAGAACGGTTATGCCCTAGGCAAACAAGCAGTTGAGGAGTGCGGCGACCAGCTACCGGACGCCTTCATCGTGGCCTCCGACACCCTGAGTGTTGGTGTGCTCCAGGCCTTCAACGAGGCGGGGGTCATTGTACCCCGGGATACCGCGGTGATCAGCGTTAACAACAGTGAGGTCGCCCGCTACGTTTCACCGCCCCTGTCCTCTTATAACATCAACCAGGAGACCCTGGGGCGGATGGCAATCAAACTACTCCAGGACCTGATCGTCCACCCATCCCGACCCCACGTGCACCTGACCGTCAACACCAACCTGGTGATCCGCAAGAGTTTCGTAACCGAATAA
>SRR1151252_01511 hypothetical protein
ATGATCACGAACAGGATCGCGAAGAGGACCCAATTGACCTTGGCCAGGCCGAAGATTCCGGTGAACAAGATCAGCAATAATACGACACTGACAATGTTTCCAATCATGATCCAGGGCTTGAACTTTCCCCACCGGGTCTTGGTGTTGTCGACGATGTTTCCCAGAAGCGGGTCGATGACCAACTCAAGGATCCGGACCGCGACAATCAGTCCGGTGATCAGGCCGATTAGCTTATCGGCAACCGACGTTTTCAAACCATTAAACATGCCCCCGGTGACGAAGATAATGAAGTAA
>SRR1151252_01512 PTS sugar transporter IIA component
ATGGTCCCAGCACTGAGCGAGGATTCTGCGGAGCGGGGTGTCTATACCTCGCTTGGGGCCTTTGCCGGAACGATCGGTTGGAACGGGCTGACGATCATCGTGGTTCCCGTCGTCACCTTCTTCACCTACCTGGCCACGGGTCAGCACAAGGAAGGGCCGATCGGTTGGTTTGCCTTTGCAGCGATCGTCTCCATCGTTGCCCTGCTGAGTGCGCTGGCGGTTTGCCTGGGTACCAAGGAAAAGCACAATATCATTCGGAACTCCGTCCAGGATAAGACGACCATCCGGGAAGTCTTCTCCGCCATCTTCCATAATGACCAGATCCTTTGGCCAAGCCTGGCATACCTGCTCTACTCATGCGCGTACGTCATCACGAATGGGGTTCTCTTCTACCTCTACAAGTTCGTCATCGGTAAGCCGGGCGAATTCTGGATTGTTGGGGTCATCGCCACGATCATCGGCTTCTGCACCAGTCCGCTCTTCCCAGTCTTGAACAAGTTCATCCCGCGGAAATGGTTGTTCACGGGGGGCCAGGTTTCAATGGCATTGGCCTATGTGATCTTCATCTTCTTCCGGTCCAACGTCTTCATGATGGACCTCGGTCTGGTGCTCTTTAACATCAACTTCGCCCAGTTGGTCACGGTACTGACCCTGACCGACGCGATCGAATACGGTCAACTGAAGAACGGACAGCGGAACGAAGCCGTTGTCCTGGCGGTACGGCCAATGATCGATAAGCTGACCGGGGCCATCTCCAATGGACTGGTCGGCTACATCGCCATCGCGGCCGGAATGACCGGGACGGCAACCGCGGCCGACATGACGGCCCACGATATTCGGACCTTCGATAGCATGGCCTTCTACATTCCACTGGCCTTTGCCGTCCTGGCGATCATCGTCTTCCTAACGAAGGTTACCCTGAGTGAAAAGAAGCATGCCGAAGTGGTTGAAAAGCTGAAGGACCAGTTGGCGGCGGGCCATGACAATGTCGTTACCGGAGCGACTATTAGTACGGCAAACGCTGCTACCGGTGTTGCAACCAAAGCGACGACGATCTATGCCCCCGTTGATGGTAAACTGGTTGAGATGAAGAATATCGTTGACCAGGACGGCAAAGGCTTCCCGGGTAAGGGTTTTGCCATCCAGCCAACCAGTAACCACATCTACGCCCCGTTTGACGGCCAGGTCTGCTTCACCTTCGGCACCCGGCACGCCTTCGGGATCGTTTCCAAAGACGGCTTGGAGCTCCTGGTCCACATCGGGGTCGGCACCGTCAATATGCGTGGTGAGGGCTTTGTCAGTCACTACAACGACGGCCAGGTAGTCAAGAAGGGGGAAATGCTCTTCGACTTCGATCGGCAGCTGATCAAGGAGTCCGGCTACCAGGATACGGTGGTCAACTTCTTCACCCAGCCACACCGGGTCACTGACGTTTCACCGATCGCCTATGGCAGTACTGTCAAGCATGGCGACCTGGTCACCACAGTTAAGTTCAAGTAG
>SRR1151252_01513 beta-galactosidase
ATGGAAAAGAAAGCACTACCCCGCTTCCTCTATGGCGGGGACTATAATCCAGAACAGTGGCCGGCCGATACCTGGCCCCGGGATATTCAGGTATTTAAGCAGGCCGATATCAACTCGGCGACGGTCAACGTCTTCTCCTGGGCACTGTTAGAACCCCAGGAGGGCCAGTACGACTTCAGTAAGCTGGACCAGATTGTTGATGAATTAGCAGCCGCCGATTTTGACATCGTGATGGCGACGTCCACGGCCGCCATGCCGGCGTGGATGTTCAAAAAGTACCCCGGGGTCGCCCGGGTTGACTACCAGGGCCGGCGCCATGTCTTCGGTCAGCGGCACAACTTCTGCCCGACCAGTCCAGACTACCAGCGACTCGCCAGCGACTTGGTCACCCGGCTGGCCAAACGCTACGGGGACAATCCCCGCATCGTTGCCTGGCACGTCAACAACGAGTACGGCGGCAACTGCTACTGTGACCACTGCGCCGCGGCCTTCCGCCAGTGGCTACGGGCCCGTTACCAGACTCTGGATAAGCTGAATGCGGCCTGGAACATGAATGTCTGGAGCCACACCATCCACGATTGGGACGAGATTGTGGTACCAAACGAGCTTGGTGACGCCTGGGGACCCGAGGGCACGGAGACGATCGTGGCCGGCCTGTCGATCGACTACCTGCGTTTCCAGTCCGACGCGATGCTCGACCTCTTCAAGATGGAGAAGGGGATTATCGAGCAGTTCGCCCCAGATGTGCCAGTGACGACTAACTTCCACAGCCTGCCGAATAAGATGGTTGACTACCAGAAGTGGGCCAAGGCGCAGGACATTATCTCCTACGATAGCTACCCGGCCTACAGCATGCCAACCTATCATCCGGTCTTTCTCTACGACCTGATGCGGACGCTGAAACACCAGCCGTTCATGCTGATGGAGTCGACTCCGGCCCAGGTTAACTGGCAACCATACAGCCCCCTCAAGCGGCCCGGTCAGATGCGGGCAACCGAACTACAGGCGGTGGCCCACGGGGCTGACACCGTCCAGTTCTTCCAGCTGAAGCAGGCTGTCGGCGGGTCGGAAAAGTTCCACAGTGCGGTGATTGCCCATTCCGGGCGCACCGATACCCGGGCGTTTAAGGAAGTGGCCCGGCTGGGGCATGACCTGAAGAAGGTCGGCCCAACCATCAAGGACGCCAACATCCACGCCAAGGTGGGGATCGTCTTCGACTGGAGTAACTTCTGGTCCCTTGAATACGTCGACGGGATTACCCAGGACCTCCAGTATGTGCCGATCATCCTGGACTACTACCGCCAGTTCTGCGAGCGCAACATCCCGACTGACGTAATCAGTGTCGACGACGATTTTAGCCAGTACGACCTGGTGGTGGCCCCGGTCCTCTACATGGTTAAGCCCGGCTTAGGTGAAAAAATCAACCGCTACGTTGAGGAGGGTGGCCACTTTCTGACCAGTTTCATGTCGGGGATGGTCAACTCTTCTGACAATGTCTACCTGGGCGGCTACCCCGGTCCCCTAGAGGATGTCACCGGCGTCTGGGTCGAGGAGAGCGACGCCGTGGTACCGGGGCACCGGACCACGGTCCGCATCAATGACCACGAGTACGACGCCCACCTGATCTGCGACCAGATCCACCTGACGGGTGCCCAGGCCGTGGCGACCTATGCCAACGAGTTTTACGTGGGCACCCCGGCGGCCACCGAGAACCAGTACGGCCGGGGGATGGCCTGGTATGTCGGCAGCCGACTTGACCACGGCGGCCTCTGGCAGATCATCGACCGGGTGGTTAAGGCCAGCGGGGTCAAGTCCCTGGTGGACGAGGCGACCGCTCTGGAGATCACCGCACGAACGACCACTGATGGCCACTGCCTGTATTTCGTGCTGAACATGAGTAACGACCAGCACGCCCTGCCGATGAAGTTCCGGGGCTACCGCGACCTGTTGACCGGCCAGGTGGCCAAGCCAACCATGGCCGGCTGGGACGTTGAGATCCTGACCCGACCGTGA
>SRR1151252_01514 succinate-semialdehyde dehydrogenase
ATGGCTTATCAAACCATTAATCCATATACTAATGAAATTTTAAAAACATTCGCTAATACTAGCGACGCTGAGCTTGAGGAAACCTTGACTAACGCCCACGCTCTTTATCAGGAATGGCGAAAAAAAGATTGTTTAGCTAAACGCAAACAGGTTATTCTCCGTTTCGGGGCACTTCTCCGTGAACGTAGGACAGCCTTGGCTACAATTATGACTAAGGAAATGGGAAAGCTAATTGGAGAAGCCGAGGGCGAGGTTGATCTTTGTGCCTCTTTCTGTGACTACTACGTCGCCCATGCCGATAAATTTCTTCAACCTACAGTGATCGCAACTACGTCTGGCCGGGCCAAAGTTTTGAAACAGGCACTCGGAGTCCTAGTAGCTGTCGAGCCGTGGAATTTCCCATTCTACCAAATTGCCCGAATCTTCATTCCCAACTTCATCGTTGGTAATCCAATAATCCTTAAGGACGCTTCTAACTGTCCATCCTCAGCCCAAGCCTTTGCAGATCTAGTAATGGAGGCAGGAGCACCGGCTGGTAGTCTTACCAATCTCTTTCTCAGCTACGATCAGGTTGGGAAAGCAATCGCCGATAACCGCGTTGTTGGGGCCTGCCTAACCGGTTCTGAACGTGGTGGGGCTTCCGTAGCTACTGAGGCTGGCAAGAACCTGAAGAAAAATACAATGGAACTGGGGGGCAACGACGCCTTCATTGTTCTCGACGATGCCAACTGGGATCAGCTCGTGAAGGTGGCCCCCGCCGCCCGCCTATATAATGCCGGTCAAGTATGCACTTCTTCCAAACGCTTCATCGTCAATGCCAAGTTCTACGACCGTTTCCTAAAAATGCTAAAAGAACACTTTGCCAACGTCAAAATGGGAGATCCACTCGACCGTTCAACCACCTTGGCTCCAATGAACTCTAAGCGGGCTAAAGAAAAGCTCCAGTCTCAGGTTACCCTGGCCGTTGCAAACGGTGCTAAAGTTTACTACGGCAATCAGCCGGTCGATAACCTGACGGGACAGTTCTTTATGCCCACCATCTTAACCGACATTACCCCAGACAATCCGATCTTCGACACCGAGATGTTTGGACCGGTTGCATCCGTTTATAAGGTTAACAATGATCAAGAAGCCATCGAACTGGCCAATAATTCCAGCTATGGCCTTGGCAACACCATCTTCAGTAGCGACTTAGCCCATGCTGAACGGGTAGCTGCCCAGATTGAGAGTGGAATGTCATGGATCAACTCCGGTTGGGCATCACTGCCTGAACTGCCATTTGGCGGTATTAAAAACTCCGGGTATGGACGTGAACTGAGCAATCTCGGTTTCAATGAATTTGTCAATGAGCATCTGATCTACGAGCCACGGCAATAA
>SRR1151252_01515 Na+/H+ antiporter
ATGAATCTCTTCAAGAAACACCGCCAGGCCGCCGACCCCACCCTCGGCTTTGGTGAAAGTCTGATTATCCTAACCGTTATCTTATGTATTCTGGGCTACCTGATCATCGTCCGCCAGCAGGAACCACAAGCCCCACTGTTCATTGCCTTCACCCTGCTGGCTATCTACGGGCGACTGCGCGGGTTCTCCTGGGATACCGTCATGGACGGGATGCGGAGCGGGCTGCGTGCCGGGGTCGACCCGCTGATCATCTTCCTCTCCATCGGGGTGCTGATCGCCACCTGGATCTTCTCTGGAACAATTCCGACGATCATGTACTTCGGTTTTGAGATCATCTCCGTGAAGTTCTTCCTACCGACCGTCTTCATCGTCTGCACCCTGGTCGGGGTGGCCTGCGGGAGCTCCTTCACCACTGTCTCCACCATGGGGATCGCCTTCATCGGGATTGGCGCGACCCTGAAGATCAACCCGGGCCTGACCGCCGGGGTGATCGTCTCCGGAGCCTTCTGCGGATCCAATATCTCACCACTGTCCGGAACCACCAACCTGGCCGCCAGCGTCGGTAAGATCAGCATCTACGAGCACATCAAGGCCCTGACGATCACCGACATCCCCGCCTGGGCCATCTGTGTCGTCCTCTACACCGTCCTCGGCCTGAACTCCAAGAGCGTCAGCCTCGGTGCCGTCCACCAGATGATGCACGGCCTGGCCAGCGGCTTCTGGATCTCCGGCTGGGCCCTCCTACCCGTCCTACTCCTGGTCATCCTGGCCATCCTGCAGGTACCGGCCATTCCGTCCCTGGGTCTGGGCTCCCTCTTCGCCGCCCTGCTCGGCTGGATCCACGCCCCGGCCACCAGCATCAGCACGATCACTAAGACGATCATGATGGGCTTTGTCTCCCACACCGGTGACAAGACAATCGACACCCTCCTCTCTAAGGGTGGGATTTCCAGTATGCTGACTTCCCTGGCCCTAATCGTCTTCGCCCTCGCCCTGGGTGGCCTGCTAATCAAGTTCAACATCATCGGTGCCATCATTGACCACCTTTCCAGCGCCATCCAGACGCCGGGCCGGCTCACCCTGGCGACCGCCATCACCTGTGTTGGGGTCAACCTGATCGTTGGTGAACACTACCTCGCCATCATCCTGCCCGGTCAATCCTTCCTCAAGTCCTTTGACCAACTGGGGCTCAAGCGCAAGTTCCTCACCCGGATCCTAAATGATGCCGGGGCCGCGGTCAACGCCATTGTCCCATGGAGTGTCTCCGGGGTCTTCATCGCCGGTGCCCTACAGATCAACCCGCTGAAGTTCATCCCCTGGACCTTCTTCCCGTTCTTGGTCACCATTCTCGCGGTGATCACCGGGATGTTCCTGAAGGTGCCGAAGAAGGTAGCTGCCAGTCGTACTGCTTAA
>SRR1151252_01516 hypothetical protein
ATGGAAATTAATGAAGATGCTCTTAAGAACTTCCAAAACTCGAAGTTTGATTTTGTTGATGCTAAGGATAATGATGTTGACTTCAGTGACCTGTCTGATGACGTCACGTACACGCTGCGGGACGGCGAGACCGTTGTTGAGGATGACATGAAGGCCAAGGATGTTGTTGACACGATCAACAATGAGTATGGCAAGACCATGAATGTCTGA
>SRR1151252_01517 acetoin reductase
ATGCCTAAGGTTGCAATGGTTACTGGTGCTGGACAAGGGATCGGGGAAACAATTGCCAAGCGACTCGCTAAGGCAGGCTTCGCTATGAGTGTTGCCGACCTGAACGGCGATAACTCCCAACGAGTTGCCAACGAAATCAAGGATGCTGGCGGTAATGCACTGGCGGTCACCGTCAATGTTGCCAACCGGGCCCAAATGTTCTCAGCCGTTCAACAGACAGCGAACCACTTTGGCGGCTTCGATGTTCTCGTCAACAATGCTGGTCTGGGCCCCGTCACCCGGATTAAGGACGTTACCCCGGAGATGTTTGACCAGGTCATGCATGTCAACGTCGCCGGTGACATGTGGGGAATCCAGGCAGCCCTTGAGCAGTTCGAGAAGAAGCCACGCCAAGGCAAGGAAGTCGTCGGTAAAATTATCAACGCCACCTCGCAGGCTGGGGTCCGTGGCAACAAGAACGAACTACTCTACTCCAGCACCAAGTTTGCGGTCCGTGGTCTCACTCAGGTAGCGGCCCGGGACCTGGCTAAGCAGGGAATCACGGTCAATGCTTATGCCCCGGGGATCGTCGACACACCGATGATGAGAAAGATTGCTGACGACCAGGGCCTGAAGATGAGCGACTATGAATCCCTGATCGCTCTCGACAAGCTGTCCGATCCGGACGACGTCGCCAAGGTGGTCGAGTTCCTGGCTAGCGACAAGGCTGACTACATCACCGGCCAGACGATTCTCTGCGACGGTGGAATGCAGTTCGAATAA
>SRR1151252_01518 membrane protein
ATGGATGATAAAGAAGTTATGAAGCGTTCGCACGAGGCAAAGGTGATCGGTAACATCGCCACGGTCGCCTGCCTAATCATGTACGCTTCCTATATTGATCAAATTGCACTCAACTTTACTGGCCACCCGGTATCGCCCCTCCAACCGATCTGCGCTGCCATCAACGCTTCCCTCTGGGTCGCCTATGGTTGGCTCAAGCCGGACAAGGACTGGCCAGTCATCATCGCCAACTTCCCCGGGATCATCTTTGGGGCAGTTACCTTCATCACATCGTTTATCCATTAA
>SRR1151252_01519 macro domain protein
ATGGGAGAAATTAAAGTAGTCCAGGGTGACATCACCAAGGCTCGCGTTGATGCCAGCGTCAACGCGGCCAACACGACCTTGATGGGCGGCGGTGGCGTCGATGGGGCCATTCACCGCGCTGCGGGGCCTGGTCTGTATATAGCCTGTCGGAGGTTTAACGGCTGTCCGACGGGGGAGGCCCGGATCACCAGTGGCTTCAACCTGCCGGCCCAATACATTATTCATACCCCGGGCCCGATCTGGCACGGTGGTGACGGGGTGGAACGCCAGCTGCTGGCGAACTCCTACCGTAATAGCCTTCTGCTGGCTGAGGAGTACGACTGCCGGACGGTGGCCTTCCCGTCGATCAGTACCGGAGTTTATGCCTTCCCGCTGAACATTGCGGCACCGATTGCCCTGACCACAATCCGTGACTTTCTGAATACAGCTAAGGTCGTCAGGGAGGTTACGATGGTCTGCTTTGATACACAAACGTTGGCGGCCTACCGCCAGGCATTATAA
>SRR1151252_01520 XRE family transcriptional regulator
TTGGTCGGCGTGCTAATTGGTCTGATGTCGGTGAACATCTACTTCTTGTTGAGTAAGGCCGAATGGAAGACCACCAGCCGGTCCATGAAGGTTGGTGCAATAATGACCTTTGTCGTCGTGGCGACTTTCTTATTCAGATTGGATACGGTGACGTTGCCTAAGAGCTCTTATCAATTTGGGGTTGGGGTTGGCCATGGCGTTATTATCGGGTTGTCAGCCTTATCGATTGTCGAAACAATCTGGTTGTACCAGCAATTTAAGAAACGAAGGGATCATTAA
>SRR1151252_01521 XRE family transcriptional regulator
ATGGAATTTGCGACGAAGATTAAAAAGTATCGCCAGCAGAACGAGTGGACCCAGCAGACAGTGGCGGAGAAACTTGGTGTTTCCCGCAAAACCGTTTCAAGTTGGGAAAATAGTCGTTCATATCCCGATATCTTCATGCTGGTTCAGCTCAGTGACCTCTATCATGTTAGCCTAGATGACTTATTACGGGAGGATCACGAAATGATTGATAATTACAAGCAAGAGCACGATGCCAACAGGAAACAGGACCACACCTTTGTCACTTCGTATATAATTAACGTGGTTGCCAGTTTCTATTTCTCTGCCGCTCGCTAG
>SRR1151252_01522 endopeptidase
GTGGCAGTAGATAAAATGATGATCAAAGATGACCTGTATGAGGCCGTTAACGGGGACTGGATTAAGGATGCGAAGATTCCCGACGATAAGCCGGCCACCGGGGGCTTCAATGACCTCGTGGATGCGATCGACAAGCAAATGATGGATGACTTCGATGCCTACGCTGATGGCAAAGAGAATTCTGACGACCCGCGCTTCAACGAGATGATTAAGCTGTACAAGGTTGCTAAGAAGTTTGACTTCCGGAAGAAGGTCGGCCCCAAGGCTTTGAAGCGGGTGCTCAGTAGCGTTAAGGAGCTGCAGTCCTATGATGACTATCAGGCCCAGTGGCGCAACTGGGTCATGTTTGGCCTACCGTCGCCGGTCAACTTTGATATCGATGCTGACATGAAGAACGCGACGGTTTACGCCCTCTTTGTTTCGTCACCATCGCTGATCCTGCCCGACAAGAGCTATTACACACCAGAGAAGCAACAGGAGCATGACCAGCTCCTTGGCCTGTGGACTGACATGGTAGCAACCCTGATGGATAAGCTAGGGTATGATAAGAATGAAGCTGCCCGGATCATTCAGGGTGCTAAGGACTTCGATGCCCTCCTAGCGCCTAATGTCAAAAGCGCTGAGGAAGCCGCCGACTATAGCAAGATGTACAATCCACAGACGGTAGCTGAGCTGACAGCTTCAACCGACCAGCTGGATTTGGCAGGGGTGATCAAGCGTCTGGTTGGCACAACACCGGAGAAGGTGATCGTGATGGAGCCAGACTACTTCAAAGCCCTCGATGGTATCCTGAAGGACCATTTCGACCTGTTCAAGGACTGGGCCACGGTCAACGTCATCCGTGACTACGCCAGCTACCTAGACGATGAGATGCGGGAGATCAACGGTCGTTACAACCGGGCGCTGTCCGGTAGCAAGAAGCCGATCAGCCAGCGCAAGTTTGCCTACTACCTAGCCCGCGATGTCTTTAGTCAGGTGGCCGGGAACTACTACGGCAAGAAGTACTTCGGTCCCGAGGCCAAGGCCGACGTACATCAGATGGTCGAGCGGATGGTAGATGTCTACAAGAAGCGGTTGGCCAAAAACGACTGGCTGAGCAAGGCGACCCGGGAGAAGGCCATCCTCAAGCTGGATAAGCTTGGCATTCAGGTCGGCTACCCAGACGAGATCCCGGCAGTCTACGACCAACTCAAGATCGACGAGGGCGAATCCCTGATTGCCAATCTCAACCAGGTCAGCTACGTCAAGAATCACGAGATGTTCAGTCGCTGGAACAAGCCGGTTGACCGGATGCGGTGGGAGATGAGTGCCGCCACGGTCAACGCCTACTACCACCCGTTTAAGAACATCATCGTCTTTCCGGCCGCCATTCTGCAGGCACCGTTCTATTCTCTGAAGCAGACCAGCAGCCAGAACTATGGCGGGATCGGGGCCGTGATCGCCCATGAGATCTCCCACGCCTTTGACAACAACGGGGCCCTCTTCGACGAGTACGGGAACCTCAACAACTGGTGGACGGATACGGACTCCGCCCACTTCAAACAGCTCGCTCAGAAGATGATCAAGGAGTTCAATGGCCTGCCGTATGCCGGGCAAAAGGTCAACGGGAAGCTGACCGTCTCCGAGAACATTGCCGATGGCGGGGGCCTGTCCTGTGCCCTCGAGGCCGCTAAGGAAGAAGATGACTTCAGCGCCACGGAATTCTTCATCAACTGGGCGACGATCTGGCGGATGAAGGCTACCGAACAGTATGAACAACTCCTCCTGTCGATCGACGTTCACGCTCCGCAGAAGTTGCGGGCCAACGTCCAGGCGCAGAACCTGGCCGACTTCTACACGGCCTTTGGCATTCAGCCGGGTGACAAGATGTACAAGGCACCAGAGGACCGGGTTAACATCTGGTAA
>SRR1151252_01523 hypothetical protein
ATGACAACACTATTGAATCCCCAGGCTATGCAGCGGGTCCTGACCCATAGTGAGGAATACCGTCGAGCCGTGGGGTTATTGAACGAGAACTGGGATCCGGAAGATCAGCCGATCTATCGTAACGTCCTAGAGGCGGCCGATGTCCACTTTGCCCGCCAACTCCAGATGGCTGGCCTAGTGGGCGGGACGACCGACCTTGGTGATTACCGGGCTGTTAATCAGCTGATCATGCGTCACGATCAGTGGTTATCAACTGGTGCCCGCCAGGCCTTACTGGCGCCGTTTCAGGACTAG
>SRR1151252_01524 hypothetical protein
ATGACCTTCTGGAATCGTCTTTTTCATCGCCGCCAGCCGGAGGTGACCGCACCGGAAATGGCTAGTCAGGCAGTTGTCAGCATCTTGGAGGACCATCGCCTACTGGGGGAGATCCTCCTCCAGCTTCCCCGCCAGTTTGATGACCAGCAACCCGGCGTAGTCGGTCTTCGCTGGGTGGGGGACCAACTGGCCCTCGTGATCAACCCGAATTCTTTTACCCAGCTAAGAATGGATGATGCGCAGCTATTATTGGCCCACGAGTCTCTGCATGTCCTTTGGCAGCATCCTCTTCGTTATGCCGATCACCCGCACCCCCAACTGGTCAAGGTGGCCACTGATATGGCGGTCAACCAGTACTTGCCAGCAGCGCCGCCTGGTACCGCCACCCTGGCGCAGGTTCAGCGGCTGCTGCGGAGGAAGATCCCGGCCCACCAGGATTCTCAGGACTACCTCCACCTGCTGGTCAAGACTAGTGTGGCGGAACGGGAACGCCTGAAAGAGGGCGGGATTAACCTGGAGGGCGACCGGCAGGGGAAGCTACCGGCACCCGGTGACCAAGACGATCACCGCGGCTGGTCCCGGCAGGGGCAACACCGGGCCGGCAACCAGCAGATCCGGATCGCCAACCTGCACCGGCTTCTTCGCCATGCCTGGCAACAGACACCGCAACGCGATCGTGGTCTGCTACCGGGTGAAGTACGTCAGGTGTTAAGTGCGGGCCATCAGCGGACCTGCTTCGATTGGCAACTTGTGCTGGCCCACCAGGTTGGTCAGATCACCCGGGGCAGGGAGCCATCTCACGCCCGGTTTAACCGTCGCCAACCCTTACGGATGGACCTGCCGGGACAGGTTACCCACCTGACTGCCGATCTGCGGATCTTTGTTGACAACTCGGGCTCGATGACTGGTGCTGAGATCGGCCAGGCCCTGACGGAAATCGGTCGGCTGGTCCGCCATGAACGGGTCCGGGTGACAGCCTACGCCTTTGACGCCAAAGTCTACCCACCCGGTCAGCGTCTGCGGCCAGGACAACCGGTTGAGTGGCAGCGTCGGGGCGGCGGGGGCACCAGCTTTCAGGCGGTCTTTGACTACCTGGCAGCTCACCATGTACCCCGCGTCGGGACGATCGTGGTGATTATCACCGACGGCTGGGGTGAGCAGCACCTCCGCACTCATCGTTATCGGAACGTCGACTGGCTGCTGACGACAGCTGCTGACCAGCTGTCAGTTGCCGACCAGCCAGGTCGCGTATTTGAGCTAAAGAAGGAAGTAAAATGA
>SRR1151252_01525 ATPase
ATGGCATTGACGTATCAACAACTATTGACTGCCGTTCCCCTGGTCCTGCGGGCGGGAAACGTGCCTGACATTGTCGGTGACGCTGGAATCGGCAAGTCGGCCCTGGTCGAAGAGGTAGCCGACCAAATGGGTGCCGACCTCTTCACCACGGTGGTCAGTCTGAGTGAGAAGGGGGACCTGGCCATCCCGGTACCACCGCTGACCAACGACTCCTTTGTTGAGACCAAGGGTTACGGTCGACTGGCGAACGTTCAGTTTGGCTACTCGGAGACCCTGATCCGAATCATAAAGGATGCCGAGGCCCACCCGGGTAGGACAATCATCTGGTTCCTCGACGAGTTCAACCGGGGGACGGCGGCCGTTCAGAGCGAGCTGATGAACCTGGTCCTGCAACGGCGGATCAATGCCCTCCGCCTGCCCGCCACTGTTAAAATCATCATTGCCGAGAACCCCGACAGCACGATGGCCGGCTTTGGAGATCGGGAGTACGCGGTGGCCACCGCCGATGCGGCGATTAAGGATCGAACGGTTCGTTTAGTGATGACGACCGCGACTGCGGAATGGCTGGCCTGGGCCAAGCGTACGGGAATCAATCAGCTGGTGATCAACTATCTGACAACCTATCCAGAGCGGCTGTCGATTCTTGACCCTGAGAACTTGGACCTCCATCCGACACCCCGGGCCTGGGAGCGGGTTTCTCGTAACCTAAACCAGCTTCGTCAGCTCCCGCCAGCCGACCAACAGTCCCTGGCCGCCGACCTCTTCAGCGGCGACCTTGGCACGGAGGTGGGTGTCTCCTTTGCCCAATTCGTCCTGGCCCAGGGTAAGCAACTAAATCTGGAGGCTATTCAGACCAAGGCTGCCAGTCGGCAAAGCTTTGTGGGGGCCGACGAGGCGACGAAGGTCCGCCTCCTCCGTGAGTGGGTAGCCGATGACCAGCGGGCACCGCTAGCATCGGCAGCTGGTGCAACCGCGTTTGCCGACTTGCTCGACCAGGTAAGCCCGGACGGTCAATTTGCGATTGCTCAGGCGGTTGGCGGCCAGCTGGACCAGGTCATCCAGCCGATGTACGAGCTGGCAAAGGAGGAGCCGGCCGGGCCGGTGGCCAAGCTCTATCGGCACCTAGCCGAAATTGCAACACACGGAGGCCAACACTGA
>SRR1151252_01526 3-methyladenine DNA glycosylase
ATGCTGTCTGCATATCAACAATTTTTTACCGGCCGGCCCACGACGGAAATTGCCCGGGACCTCCTGGGCAGGTTCGTTCGTTACGATGGACCAGACGGCATGACCGGCGGCTACATCGTCGAGACCGAAGCCTACCTGGGCGAAAACGACTCGGCCTCCCACGCCTTCAATGGGCGGCGGACCGGCTACTCGGAATCCCTGTACGGTCAGCCCGGGGACATCTACCTCTACCAGATCCGCGGCCACTACTGCTTCGATATTGTCGTCCAAGACGAGGACGAGCCCCAGGGGATTCTCCTGCGCGCCATCGAGCCGGCAGTGGGGGTTGACCTGATGACGGCCCACCGGAAGATGACCGGGGTCAACGTCACGAACGGCCCCGGCAAGCTGGTCCAGGCGCTGGGAATTCATTCCCGCGACCTCGACGGCCAACCGATGGAGTCCAGTCCGCTCCGGGTCGAGCTCGACCGCGCTAAGATTCCCCGGGAAATAATCACCAGCGCACGCATCGGGGTGAACATGCGGGGCAAGGACGGTGCCAAGCCCCAGCGCTTCACCGTCGCCGGCAATCCCTACGTCTCGGGGATGCGTAAGCGGGAGATGGATCTCAATAAGCACGGTTGGAAGGACTGA
>SRR1151252_01527 hypothetical protein
ATGGAACTCAAAACGGAACGAATCTACACCAAACCCACTGATCTTGATGGCTACCGGATCCTGGTCGATCGGCTATGGCCGCGGGGGATGTCAAAGGTCAATGCCCACCTGGACGAATGGCTCAAGGAGGTCGGCCCCAGCAACGAGTTGCGGAAGTGGTTCGGCCACGACCCAGCCAAGTATGACGAATTTAAGACCCGTTATCTAGAGGAGCTCGCCGTCAACCCCGCCTACGACCAGCTCAAGCAACTGGTGGCTAAGCAACTAGCAACCAAAAACGTCATCCTCTTATATGGTGCTAAGGACGAGCAGCATAACCAGGCCGTGGTTCTAAAAGAGCAGTTGGACAAAGAACTGAGGTAA
>SRR1151252_01528 hypothetical protein
ATGAGTAAGAAAGGTAAGTATGAAGTCCTGAAGTTCACATGTATTCCGGTCGAAACAGACGCGGATGGTAAGTACCAACTGAAGCTTGACCCAGCCGGTAACGCCAAGCTGCACGTCTGGCGGATCGGTAAGCACACCAAGGGCAAGTACCAGGGGCCGGGACAGCTTCTGATGACGGAGAATAACCTGACGGCGGTGATTCTGGCGGCCGAACCGCTGGCCTTCAAGGACCGTCACAGTGAGACCCCGATGCAGCGTTTCCTGACTGCCAGGGTGGACGACGATGTCCTGCAGCAGGGCCTGGCCCAGTTAAATTAA
>SRR1151252_01529 carbohydrate kinase
ATGGAAAAAACACCAATTACGGCTGAACAGATGCGTCACTATGACTCCTACACCATCAACCAGATCGGCATCCCCTCACTGGTTCTGATGGAACGGGCCGCCCTGGCAGTCCGCGACGAGATCTTAAACGCCTTCCCGCTTTATCTCGACCATGTCGTCGTGGTCGCCGGCAGTGGCAATAACGGTGGCGACGGGCTCGACGTCGCCCGCCTCCTCCACATTGCCGGGGTCAAGGTAACAATCCTCAACGTCGGCAACCCGGACCACGCCTCAACGGAGCACCAGGTTCAGGAGAAGATCTGCCAGTACTACCAGATCCCCGAGAAAACCAACCTTAGTGCCCTCAAGCAGGCAAGCCTGATTGTCGACGCCATGTTTGGCATCGGGATCGACCGGCCCGTCACCGGCGCCTACGCTGATGCCATCGCCACCATCAACGAAAGTGACGCTCTGGTGGTCGCCGTTGACATGCCATCCGGGATTAACACCGACACCGGTGCAATCATGGGGACAGCGGTCAAGGCCGACGCCACGGTGACCTTCGCCTTCAACAAGGTTGGCCTGACCAAGGCCGACGGGGCCAAGTACGCCGGCCGGATCGTGATTGCCGACGACATGGGGACCTACGCCGTCGACGACTAG
>SRR1151252_01530 histidyl-tRNA synthetase
ATGGATTATCAAAAACCAAAGGGAACGGCCGACCTGCTGCCGGGTACGACCGGTCTCTGGGAAAAGGTTGAGGCAAGTGCCCGTGAGGTTTTCCGCGAGTTTGGTTACCGGGGGATCCGGACGCCGATGTTTGAGGACTACAACGTCTTCTCCCGTAACGTTGGGGACACGTCAGATATCGTAGAAAAGGAAATGTACGACTTCCACGACAAGGGTGACCGGCACATTGCCCTGCGTCCCGAGGGCACGGCTGGGGTTGTTCGGGCCTATGTCGAGAACAAGCTCTATGGTCCCGAATATCCAAAGCCGTACAAGGTTTACTACATGGGACCGATGTTTCGCTATGAGCGGCCACAATCCGGCCGCCAGCGTGAGTTCCACCAGATTGGGGTCGAGGCCTTAAATAATGAGTCACCGCAGATCGACGTGGAGGTCATTGCCATGGCGATGACCCTCTTCAAGCGTTTTGGGGTGCCGAACGTCAAACTGACGATCAACACCCTGGGGGATAAGCAGGTGCGTGAGGACTACCGTCAGGCCCTGATCGACTATCTGAAGCCCCACTACGACGAGCTGAGCAAGGACTCCCAGGACCGGCTCTACCGGAACCCACTGCGTGTCTTGGACAGCAAGGACGCCGGCGACCAGAAGATCGTTGCCAACGCCCCGTCGATCCTTGATTACCTCGATGACGAGTCCCAGGCCTACTTTGACCAGGTTCAAAGCCTCCTGAAGCAGCTGGGGATTGATTATGAGATCGACACCAACATGGTGCGGGGGTTGGACTACTATAACCACACCATCTTCGAGATCATGTCCGACTCGCCAGTCTTTGGTGGTGGTTACACCACGGTCTGTGCTGGTGGCCGCTACAACGGGTTGATCAAGCAGCTCGGTGGCCCTGAAGAAGGGGGTATTGGTTTCGGGATGGGGGTTGAGCGGCTGATGCTTCTCCTCCAACAGGAGAACCCTGAATTTGCCCCGCAGGACAGCCTGGACGTCTTCTTCGCCAGTGCCGATGACCAGGGGGATGCCCTGGCTTTTGATCTCCTGAACAAGATTCGTCAGCAGGGCATTGTAGCCGACAAGGACTACAGTGGTGTCAAGGTTGGTAAGCAGATCAAGGAGGCCTTCCGGCGTAACGCCAAGTACTTCGCTGTTTTTGGCGGCCGGGAAGTCGACGAGGGTAAGTTTGAGCTGAAGAATGCCGCCACTAAGGACAGCGTTGAGATCGCAGTGGATGACTTCGCTACGGATCCGGCCAAGTACCTGAAGTAA
>SRR1151252_01531 major facilitator superfamily transporter
ATGACGACGAAAAAGAATACTGTTAAGTTAAAATGGGTGGCCCTAGCAAGTTTGCTGAACAACACTGGGGCTGCCTTTTTATGGCCGCTGACCACGATGTACATGCACAATTATCTTCACCAGACATTGACGACGGCGGGGGTGGTCATGCTCTTCATGTCAATTGCCATGATGGCCGGTAACTATACCGGCGGTTGGCTATTTGACCACTGGAGTCAATATAAGACGGCCCTGGTGGGGGTCAGCCTGTCGACTTTAGCAATCTTCTTGCTGATCTTTATCCATGATTGGCCGTGGTTCGCCCTGCTGATGATGCTGAACAGCTTTGGGGATGGGATCAACGCGACGATCGTCAATTCCTACGGTTCCCTGATCACTGCACATACCTCCCGCTACGTTTTCAATTACACCTACATTGCATTCAACATCGGGGTGGTCATCGGCACCCTGCTGGTCGGTGTCTTACTGCCAATCAGTGTTGTCTTGGTCTTTGCGGTGGCCACGGCCTTCTACCTCCTGCTGACCCTCCTGGTGATCTTGACCTTCAACGTGACGGTGGTCATCCCCAAGAAGGCAACGCGGCGCGACCGGGAGCGGGTACGCTCCCCGCAGCACCGTCGGCTGATCACTCTGATCTGGTTGATCCTCCTCAACCTGGTGACGATCCACCTCAGCTATTCTCTCTGGGAAAGTGTGATGGCCGTTCATATGACCAACATGGGGATCCAATTCTATGCCTACAGTATGCTGTGGACATTGAATGGGGTGCTGATCATCATTGGCCAGCCCCTGGTCAACAAGCTGAGTCCCTATATTCGCCTGTCGAGTCAGATCATCATTGGGATCTTTATCTTCGCGTCGTCGTTTTTCTTGCTGATCTTTGCCAAGAGCCTGCTGGCCTTCACCCTCGACTTCGTAGTGTTAACCGTCGGGGAGATGACCAGTTTTGCGGGCCTACCCGCCTGGATTGCCCAGCTGACCGACGTCGACGAGGCTGGCCACTATCAGGGCCTGTTGAACATCACGATCTCGGTGGGGCGGGCGATCGGGCCCCTGTATGGTGGCTACGTCATCGAGGCTGGTAACTACCAGCTGCTTTTCATCTCAGTTTTCCTGATGATGCTTGTTACCCTGCTGATTGTCCTTGGCTACCTTACCCGGATTCAGCACCTTCAGGCCCGCTCCTGA
>SRR1151252_01532 hypothetical protein
ATGAGTTGGAATTGGCTTGGCTGGCTCCTCTGGATTTTGGCAATTGTTTTTTTCTGCTACGTCATCCACTACATCCGGGTGCAGCAGTTGATGCTGATTGCCAAGACCAAGCATGCCTTTGATAAGAAACTCTTTGCTCGTTACGTGGCCCTGCTAGTGGTGGCCCTAGCGTGGATTGGTACCATGTCTTACATGACCTTCTTCCGCCAGGTGGATCTGGCAAATAACCAGCAGAACCGGATTAGTACGAAATACTATCCGCTACAGATCAGTAATAAGAAGGACGACTACTACTATGTCCTGGCAACCCGGAGCAAGGGTGGCGATCACCCCGTGGTCTCTTATACCTACTGGTCAGGCAATAACAAGTACGTGACGACCTCCCGCTTCGGCTCCGTGGCATATGGTGACCGGGTCATCCCCTTGAGCATCAGCGCCCTCCCGTGGAACCGGGCTGAACTGAAGAAACAGGATACCCAGACTGGCCACGCCTTCGCGGCGGTTATGTCCGTCCACTATCGTAATACTCCCCTGAACGGGATCGGGTTGCGGGCCAACCGTGAATCGGCGGCCTACACACTATTGCGGGTACCGTCGGCTGAAATGGTCGTTGAGCGATAG
>SRR1151252_01533 hypothetical protein
ATGGACAATTTGAGTGAGTTAGCCCAAAAACTTATCAACTTTGAGCGTGAAAACGACTTAAACGATAATGAAGTTGCCTTTGGAAGCCATCTGTCAGTCGAACGGATTCACGATATCAAATCATCAAATTCAGTGGCGACTTCTGAAGAAACCGAATTGCTCCAACGGTTTATGCAAAGCAAATAA
>SRR1151252_01534 sucrose operon repressor
ATGGTTGCGAAGTTAAAGGATGTTGCCCAGCTTGCGGGGGTTTCGGTAACCACCGTGTCCCGGGTGATCAACAACTACGGGTCCCTGAGTGAAAAAACCATCAAGAAGGTTCATGCGGCGATGCGGGAGTTGAACTACCAGCCTAACGCCTTGGCGCGGGCAATGCAGGGGAAGCCGTCCAAGTTCATTGGCCTGATCTTTCCCAACCTGATTAACCCCTTCTTCGCGGAGTTGGTTAATGAGTTGGAACGACAGCTCTTCATCAAGGGCTACAAGACGATCATTGCCTCCTCGGCCGAAAACCCAGAGATCGAGCATGACTACCTGAATATGCTAATGGCCAACCAGGTCGACGGGATCATTTCTGGCTCCCATAACCTCGACATTAAGGAGTACCACCAGATCAAGGCGCCGATTGTCTCGTTTGACCGGTACCTGGCCGATAACATTCCAATCGTTTCGGCAGATAGCTACCAGGGGGGACAACTCGCCACTCAGTACCTGCTTGATCATCAGGTACGGCGGATTGCGGTGATGGTTGACGAGGACCAATCGGTTTCGCCAACCGTCAACCGGCTTCAGGGGGTTGTTGACTACCTCGGTCGTCACCACCGGAGTTTCGATCCGCTCGATGCCCACCAGGTTGACCTGGTAAACGTCTTCCCGGGTATCTATGACGGGGTGATTGCTTCCAACGATGTCCAGGCCTTAAGGATTGCCAATATTTACCACCAGGCGGGCCTTAAGCTTAACCAGGATTACTTTTTGACCGGTTATAATGGCTCGACCCTAATTCGCCAGACCAATCCCGAGCTGCCAACAGTGATCCAACCGATTACGGAGCTGAGTGCCAAATTGATTTCGACCCTGATGACTCGGATCACGAGCCCTCAGGCTACAGTGCTGTCCGCCGTAGTTCCGGTACAATTCTATGCACCTGGTGAATAA
>SRR1151252_01535 mannosyl-glycoprotein endo-beta-N-acetylglucosamidase
ATGAATCGTCAGGAATCTACTAATGCGTCCACACATTACAAGATGTACAAGAGCGGCCGGAAATGGATGTTTGCCGGCATCACGGCACTCACGATGCTTACCGCTACCGGTGCGGTTGCCCACGCCGATAATGGTCAACCAGCAAAGGCGGAAACGCAGATCACTAGCGCGACCCCAAATAGTAATTCTACGGCCGACAGTTCAGCTGCCACCAACTCAGCTAGTTCCAGCAGTGCGGTAATCAGTTCTGCTACGGCTAACAGTTCGACAGCCACCACTACCGCCGTCTTAAGCGCCAGTGCAGCTACTACCTCCGCCAGTGCGGTACCGGTCCAATCCGCCACGGCTTCCACCGTCCAAAGTGCAGCCCCTGCTAGCGCTAGTGCGGCAACTACCATGGCGATGGCTGCCACTACTGCTCCTCAACAAAATACCGGAGTAGACCTGGCATCGCTGCACTTCAGCAACAACGCTCACAGCCAGAACTTCATTCAGAGTGTCGCCCCTGGCGCCGTCGCCGGTTGGAACAAGTACCAGGTTTTGCCATCCGTTACCGTTGCCCAGGCCATCCTGGAGAGTGGTTGGGGTCGCTCTTACCTGTCCACCAGTGCCCACAACCTCTTTGGGATCAAGGGTTCCTACAACGGCCATTCCGTCAATATGCGGACGCGGGAAGTTTACGGTGGCCACAGTGTCTACATCAACGATAATTTCCGGGCCTACGCCAATAACTCCGAATCTGTTGAGGACCATGGTAACTTCTTATACAGCAACCGTCGTTACCACAATCTGCTTGGCGACACCAACTACGTATCAGTTGCCAACAAGCTCCGCCAGGATGGTTACGCCACCGATCCAAGCTATGCCCGCTCACTGATCAAGTTGGTTCAGACCTATAACCTGAACCAACTCGATTCGGTGGCCTTCTCTGGTCGGACAGTTACCAACCGCTACAAGAATGCTTCAACGTCCAATACCAACTTTGAAGCTAACGGTAGCACTAACTACTACACCGTTCATGGTGGTGATACCCTCTCCGGTATTGCCAATAAGCTCAACACCTCGGTTAACACCCTGGCCCACCTGAACGACATTCATAATGTCAACCGTATCTATGTCGGTCAACGCCTGCTGGTTCGTCAAAATTCATCAGCATCTGAACAACACCAGTCCCAGGCCACGACGTCAACGAAGCATACGGACTCAACCACCACGGCTCACCAGAATTCGAGTGTTAATTCCTACACCGTCCAGCGTGGTGACACCCTCTCCGGTATTGCCAACAAGTTCAACACCACCTACACTAGCCTGGCACAGATCAACCACCTGACTAATCCAAACCGGATCTACGTTGGGCAAAATCTCCGGTTGCGAGCTCAAGCACAGACGAATAACCACGCCGCATCATCGACGACCAAAACCACATCGTCACAAAACGCAGGCGCTAGTTCCTACACCGTCCAGCGTGGTGACACCCTTTCTGGTATCGCCAACAAGTTCAACACCACCTACACTAGCCTGGCACAGATCAACCACCTGACTAACCCAAACTGGATCTACGTTGGGCAACAGCTCCAGGTTCGTGCTCAGGCAAGCAGTCAACACACCGCGACACCAACAACCACGACCCATCACACGAGTTCAACTACTACTAATTCAACGTACACCGTCCAACGTGGTGATACCCTCTCCGGTATCGCTGCTCAGTTCAACACCAGCTATTCACAGCTGGCCCAGGTCAACCACTTGACCAACCCGAACCACATTTACGTCGGTCAACAGCTCCAGGTTCGTGCTGGTAGCCAAACAAGTTACCACACCACCGCAAGTCACCACGTTTCCACGAGTCACACCGGCTACGTTGTGCAAAATGGTGACTCACTGTCCAAGATTGCTGCACAGTATGGCCTGAACTGGCAAACCTTGGCAAGTAAGAACAACCTGCAGAGTCCATATGTGATCTACGTTGGTCAGCACCTGGCTCTCTAA
>SRR1151252_01536 ArsR family transcriptional regulator
GTGTCTGTGAACGAAAATCCTAATCTTGAGCATATCAGTCATTTTTTCAAGATCCTTGGTAACCCCAAGCGCCTACAACTCCTCTACCTCCTGATCCAGCACTCGATGAGTGTCTCCGAAATCAGCGAACGGCTGAATTGGGAACAATCAGGGGTCTCTCACCAGCTCCAATTACTCCGCAAGTATAACCTGGTCCAGCAACACCGACAGGGCAAGGTCGTGATCTACCGCCTTGACGACCCCCAGGTGGTGGTCTTGATTGCCGACGTCCTGAACCACGCCGAACAAATTGTTAAGAAGTAA
>SRR1151252_01537 hypothetical protein
GTGACGACAGTTTTTGTTCACGATAATGATAAGACGCAAACGGTTCATTGCTCTGACGGTACACAAGGGGTCATGCAGATCAGCGATGTAGACTCAGCACCAAAGTACGATTTTAAGTTTTACGGTCACGCTCATCCTGGTTTCTTCTTGAACGGAGACCAATACCACAGCGGCGAGAAGCTGAAGGTGGAGGAAGTTCTAGATACCGAAGAGTTCCAGCTCAAGTTCGTTTAA
>SRR1151252_01538 antimicrobial peptide ABC transporter ATP-binding and permease protein
ATGGCTTTCTTAGAACTGCATGACATCCATAAGTCCTACTACCTCGATAAGGAGGAGCTTCCGGTCCTCAAGGGGATTAGCCAGGACTTTAACCGTGGCGAGTTTGTATCGATCCTCGGCGAGTCTGGGGGTGGAAAATCGACCCTGATGAACATCATTGGGGGGCTGGACCGCAACTTCACGGGTCAGGTGAAGGTTAATGGCCAGCTGCTTGATCATCACGATCAGAAGCAGCTGGATAACTATCGGCGGTCCACGGTCGGTTACATCTACCAGTCCTACAACCTGATTTCCCATCTGACGGTCCTCGACAACGTTCTGATCGCCCTGGATATGACTACGCTGACTCGGGAGGAGCAGCATCAGCGGGCCCTCCAGCTGTTAGATAAGGTGGGGTTGGGTGATCAGGTCAACAAGCACCCTAACCACCTTTCTGGAGGCCAGAAACAGCGGGTGGCAATCGCCCGGGCCCTGGCCAGTGACCCGCAGATCATCATCGCTGACGAACCAACCGGCGCCCTGGACGCCCAGAATACCCAGGAGGTTTTGGCCCTTCTTGACGACATTGCCAAGGACGGCAAGCTGGTCATTGCGGTCACTCACTCTCAGGAGGTGGCTGATCATGGGACGCGGATTGTTCACCTGGCTGATGGGGTGATCGACGGGGACGAGCGATTACGGCCTGCTTACACCCTGCCGGCACATCCAACCCAGATTGCGGCCCGCCCGTTGCCGGCGACGGCGAGCTACCGGACGGCTTTCAAGCACCTGATGTATAATTTCTGGCGTAATTCTCTGATCATGCTGGGGACGGCGATCGGGATTTTTGCGGTGATCCTCTTTACCGGGCTGGGGAACGGAATTAACGGTTATATTCAGGACCAGATTAACTCGTTGGCCAACCCGCGAGCGGTAACCGTCCACAAGAACCCGACCGGGAAGAAGATGAATCAGGACCAGCTCCAGGCCTCGATGCAGAATATGGCGGCCGATCCCCAGTCGATGTTGATCAGTCAGAGAAATGTCGATCGTTTGCGTAAGCTCAAGGGAGTCTCGGTGGTTGAACCGGGAGTGACGGTTGCGGGCTTCCGCCTGGCCTACCAGAAGATGCAGCAGAGCGGCACTAACCTGGCAACCTGGAACCGTTCCGTTACCACCCGGGCAATCAAACACGGACACAAGCCGGGGGATAACGAGATCCTCCTGACTAAACAGCAGGCAATCCAGTTGAACAACCCGACTAAGTACCGTCAGCTGGTTGGCAAGAAGGTTCACCTAACCTTCAATTGGGTTGATCGCAATGGTAAGCCGGTACCAGTGACGGGTGATGTGAAGGTCAGCGGAATTGCTGACGGAGTGAGTGCCGTGACCGCCCTGAACTACACGACGATGTACCGCCTGATTAAGGATAGTGGTGGCACGACGGCGGCCAATTCCATCGCCGTGATCGTCGACGACCTTGACCAGGTACAGGCAGTGGCCAACCGGATCGATAACATGCGTGATGGCAATAACAAGCGGATCTTTGGTGCAATTACCGTTGGCTCGATCTTAAAGACCGTCAATACCTATGTCAGCCTAGCCTCAACCGTCCTGGCCGCCATTGCTGGTATTTCCCTGCTGGTCTCGGCCCTGATGATCATCGTAACGATGTACATGTCAGTATCAGAGCGGACTAAGGAGATCGGGATCCTGCGGGCATTAGGTGAGCGGAAAAAGGACATTCGCCGGCTCTTTACCTCCGAATTGATCCTGATCGGTCTCTTCTCTGCTGTCTTGGCAGTGATCTTGGCCCTAGCCGCGACAGCAATCCTGAATCACGCCCTGTATGGGATGATTAAATATGATATTGTTCAAATCACCGCGGGCAACATCGTATTTGCCTTCGTGGTGGCGATCGTGATTTCGTTTATCGCGGCGCTTCTGCCAGCACACCGGGCCGCCAACCTGAATCCGATCGACGCTTTGGCAGCCGATTAA
>SRR1151252_01539 peptide ABC transporter ATP-binding protein
ATGACCGCAATTAAGTTGACCAATATTGATAAGTACTTCGGTACGGGGTTGAGCCGGGTCGAGGTGCTTACCAACGTTAGCTTCACCGCCGACCTCGGCGAGCTCAGCCTAATTCTGGGGCCGTCTGGGTCGGGGAAAAGCACCCTTTTGACCATTATGGGCGGTTTACAGACGCCTGACCAGGGAGAGGTTCTCATTGACCAGCAAAACCTGACCAAACTGTCACCCAAGCAGCGTGACCAGCTCCGCCTCAATAAGATTGGCTTTGTCCTTCAATCCTATAACCTCCTGCCCTACCTGAATGTCCGTGACCAGTTTAAGCTGGTTGACCGGGTTAAGGGGAAGGGGAACCTTCCACAAGCTGAGTTAGACCACCTCCTAACCGAACTCGGGATTGACCGCTTGCTAAACCAGTATCCCGGCGAACTTTCAGGTGGGCAGAACCAACGAGTGGCGATTGCCCGGGCCCTCTACACCGACCCCCAGATTATCCTGGCAGACGAGCCCACTGCCGCCCTGGATAGTAACCGGGTGAAGGTCGTCGGCCAGCTCTTGAAGCAGATGGCCCAGGATCATCACAAGGCCGTCATCGTGGTGACTCACGACCTGCGTCTGCGGGAGTTTGCCGACCATACCTACCAGTTGATGGATGGTCACTTGACCAGGGAAGCTTGA
>SRR1151252_01540 antimicrobial peptide ABC transporter permease protein
ATGTTTCTTGCGTTGAAAGAGATCAAACACGCCAAGTTCCGCTATGCCCTAATCACGGTTATGATCATGATGATCAGCTACCTGGTCTTCATCCTGATGGGGATGATGCTGGGGTTGGCCAATGAGAATAAGGCGGCGATCAATAGCTGGGGGACTTCGACCGTCTTCTTAAATAAGAATGCCAACGGAAACTTGAGCGCGTCGATGCTGACCAAGGATCAACTGCCCAGCCGGTTAAACAAGCACGAGGCCTTGGTTGGTCAGGTGCCGGTGGTCGTCACTCGAGTTGGCAGCCAGCATAAATTGAAGGAGAACGCCCAGGTGATCGGCCTGGATCGCCAACAGTTCATTGCTAAGGAGAAGATTGCTCTAACGGCCGGTCACCAGGCGAAGGAAACTCACCAGGTGGTCGTGGATGAAGGGTTAAGGGCCAAGGGCTACCGGCTCGGTGACCGGATCCGACTGAACTCCAGCGAGCAGAAGTATCAGATTGTCGGCTTTACTAAGGATGCCAAACTTAACGTGGCCCCGGTGATCTACACCACCCTGACCAGCTGGCAGCAGCTGAAGGGGGTCAATAACCGGGTCGTCGCTAGCGGGGTGGTGACTGACCGGACTGAACCGGCTAGCCGCTTCGACCAGTTGAGTCGCTACACAGCCGCTACCTTTATTCAGAAGTTACCGGGTTACACTGCCCAAAACAACACCTTTACCTTCATGATCGCCTTCTTGATGGTAATCTCCCTGGTTATCATTGCCGTCTTCTTGTACATCCTGACAATGCAGAAGATGAATAATTACGCCGTCTTGCGGGCCCAGGGGATCCCGGCCAAACACCTGGTAGGCGCGACCCTGGCCCAGGCCGTGATCCTGATGTTGGCCGGAGTGATCGGTGGGATTATTTTCACCTGGATCACCCAGCTCGTCCTGCCAACGACGGTTCCGATCTTGATGAACTGGCCGATCATTGCTGGTATCAGCCTGGTCCTGATTATTTTGGGGATGCTGGGAGCCCTGCTACCGGTCCGGATGATTCTTAAGATCGACCCGGTTAAGGCGTTGAACAATTGA
>SRR1151252_01541 phosphoglycerol transferase
ATGAAACACGTTCGGGCCTGGTGGTCATTTGCGCTCCTCGTCTTTGCCTGGAGCACCAACACCATCATCTGGTCACCTCAACTGACTTACATCAAATATGCGCATAATAACCTTACCATGGTCGGCTACCAACTTCTTCATAGCGGCACTATTATTTTGTACCTGATCGCCCTGCTCACGGTTGGAGCCGTGCTGAGCCGCCAGCATCTTCACCTGGCACGAACCATTAAATTATGGCTCTACACCATTCTGGTAGCCACCGGAGCAGTTACAATCGACTGGCTGGTCTTCAACCAGTTTAACTACCACCGCCTCTACAATGCACTGCTGCCCATTAGTCGTAACGCGGCCCCACTCGCCACCGCGGTAATCATCGCCAGCGCCTTGTTGCCGTGGCTGCGAACCCGACTCAGCAACCACAATGCGCGGACCGGAATCGTCATCACCATGCTACCGCTAGCGGTGACGACAATCTTTAACCGGGACATGTTCGGTCTCCTCAAGGGAAACTCGGTCACCTTTGCCCTGCTGATTCTAGTAATTGGTAGCCTGGCTGATCAGTTAGTGGCCAACCGGCAAGCGGTTACTAAGTGGCTGGGGGTAGCCCTCGTCGTTAACATCATCCTGGTCGCAATCATGCCTAATGCTGCCTTTCAGACTCACGCCAGCATGCTCACAGCCGGGCGGTTCACCACGCCAACCTTCCTGCCGTCCGTGATTGTGGCCACCGCCTTTTTCACCCTATTGAAGGAGCCGCTGACCCGTTTCGCTACGACCCTCAACCAGCCAAGTTACTTCTTGACCGGGCTGGCGGTCCTGCTCAGTGACAACATCGTCATCAAACGAGCCGCTAGCCTAACCGAGTCGACCAACAGCCTGGCTGGCCAACTCCTGATCATCCTGGGGCTGACCATCCTTAACCTGGTGATCGCTGCCTGGCTTCCACTATTGATGGACCGGTTCCAGCGTCAGTGGCAACTCAGTCAGCGAATCGAACGCTGCTTTGCCACGGCTCCTGATCAGCCGGCTGACCAACAATTAGCATCGATTGTTCATCAACTGGGCGGCATGATCCGGCGGCAGTGGCCAACCCTGCTGGCCCTCTTAGTTGCCTACATCTTCGCCGACCTCTCTATTTATTACATGGGTAACCACACCCACTTCGTCAAGCAGTCGATGCTCTGGTTGACGACGCTTTTGATCTTTTTGACCTTCAAAGCCCTCCAAGCGCTGACTAACCGCTACTGGCTGTCACTACTGGTCACCGGAATGGGTAACGTGATCTGGATCGTCGCTAACATTCAGAAGATGGACCTGCGAAACGAACCGATCCTGCCGTCCGAGCTGGCGATGATCAACGACCTCGACAGTTTACTCAAGATGATTGACTACCACCTCCTGATCTACAGTGGGATCGCCATCGTGGTGGTCATCATCGCCATCATCGTCTTAGAACGCTGGCGACGAGCCCAACGCCTCACCTGGCCATGGCGGCTATTCTGGCTAGTTCTGGCCGTCGGTGCATTTAGCAGCTCAGCCCTTTGGAACCACCACGGCTCCCGGATGCAGACCCTGATGACCGGGTTGGATGACCAGCCCCACTTTATTCACCAGGCTGTGGGCGCCAAGCAGAATGGGCCGACCGTCCAGTTTCTTAACAACGTCGACATCACGGTCATGACCAGGCCTCATGGTTACTCCCGGGCTGCGATGGACCGGATCAGCCGCAAATACAGCCAGGCTGCCAAGCAGATTAACGCCACCCGAACTAACCAGTTGAAGGATCAGACCATTATCTTCAACCTGAGTGAGAGTTTTGCCAACCCAAACCGGGTCCCCGGTGTCTCTCTCAAGGCTAACCCGATTCCAAAGATCGACCACATCAAGAAGCAGACGACCTCCGGGATCATGATTAGCTCTGGCTACGGTGGTGGGACGGCCGACATGGAATACATGACCCTGACCGGTTTTGCCATGTGCAATTTTGCCCAGACCCTGTCGACCCCATACACCCAGCTGGTTCCCTACCTCAAGCACAACCCAACAATTGTCCAGAGCTTTAAGTACGCGGCGGCCATCCACCCCTACTCCAAGAAGTTCTACGACCGGGGCACCGACTACCCGAAATTTGGTTTCAAGAAGTTCTCCTACCTCGGCAGTAAGGAATACCCGATCAGACACCAAAAGAAGATCGACCGCAACACTTACATGTCCGACCAAACAGCCTACGCCAATACCCTGGACCAGCTGAAGGATCACCCTGGTGCTCAATTCATCAACCTGGTCACCATGCAGAATCACCTGCCGTACAACAACCTCTACAACGGGACCAACCGCTACCGCGCCACGGTCGGCAACGGTACCGATCCCGCCCAGGTAGCCAACTATGCGATGGGGATCCACCACACCGATGAGGCGGTTGCTCAGTTCATCAAGGAAATCGACAAGATCAACCGGCCGATCACCCTGGTCTTCTACGGTGACCACCTGCCGGGAATCTACCGTAACAGCATGAAGAAGGACGGCCTGAAGTTGCACGAGACCGACTACTTCATCTACTCCAACCCGGCTGCTCAGCGGCAGGGGGCCAAGAAACTGACCCGGTCGACCCATTATGTTGGCCCTAACGACTTCATTGCGATGACCGCCGAACAGACCAATTCACAAGTCACCCCCTACCAGGCACTGCTGACCCGGCTCTACCACCAGCTCCCGGCCTACGCACTGAGTACCCAGCAAAACGGAACTAACAGCTTCAACTCAGCACCCGAATATGTCAACCAACAGGGCAAGGTCGTCTCCTATAAGTCCTTCACTAAAAAGCAGAAGAAGCTGTGGCACGACTACCAACTCGTCCAGTACGACATCACCGCCGGCCACCACTACCTGCTCAAGACCAACATGATGAAATAG
>SRR1151252_01542 restriction endonuclease
ATGATTGATTATACTACACTAAAACATAGCTCTGATGGTATGCCAACTTGGGATGCTTATTTAGGTATCCTCTTAAAGCTTGCCATGAATAAACAGTTGTGGACAGCTGATGCAATAAAAACAGCAGCTGTAGACGAATTAAACCTTCCTGACGAACTAAGGAATAGGGAGTATAACTCAAAATCTACTGGTAATGTTGCCAAAAATCGTGCTGGCTTTGCACTTAGTGATTTAAAAATTGCGGGTTATTTACGTTCACCAAGACGAGGCGAGTATGAGATAACCAAGCTTGGCAAAGATGCTTGGAAGAAATATGGTCTTAATTTGAGTAGGACCGTTGTTCATGATGAGCCGCTATATAAGCAACACCAGGCTAAATTAGCTAAAATTAAAAGTGATAACAGCGATACTTCAGAAACATTGGCCTCATTTAATGAAGATTTAATCCAAGATTGGTTTAATCAAAAAGTAGATGAATTGAAAGATCAATTACTTGCAAAATTGGCTCAGATGAATCCGTATGCCTTTGAAGAGCTTATGGTTGAATTACTAAATAAGATGGGATATAAGGGGCCAAATGGTCAATCAATTGTTACTCAAAAGTCCAATGATAACGGTATCGACGGTGTGATTTATCAAGATGCATTAGGCCTCCAAAAGGTTTATCTGCAAGTTAAGAGATATGCACCAAGCAATCCAGTTGGTAGGCCTGAGATTGCATCATTTAGCGGTGCGGTTAAGCTTAAGCACACTGATCGAGGTGTATTTATTACCACATCATCGTTTACTACTGGTGCAGAAGAAGCAGCGCAAAACTTAAACATTACGACTATTGATGGTGAAATGCTCACCAACCTAATGGTTCAGTATGGAGTAGGAGTTGAAGTAGAAAAAACTTATCACATCTACAGAATCAATAAAGATAATTTTGTAGATTAG
>SRR1151252_01543 hypothetical protein
ATGAAAAATCAAACTCGTAATGTTAGATTAGCAATCAAAAAGGGTAACGAAATCATTGCTGACTTCAAGCAGCACACTCATGGAAAGCTCAATCTTTGGGCCTCTATTACCGACCTTAGTGAAAAGTACAATATCAATGTAGAAGCTCATAGTAAGTTTAACCCTGGCGTTTATAATGCAATTGTTGCGCAGCTCCCCTTCTCTGATTTCACATATGATGAGTTTGTTGAGGTGTTAATGGCTTTCCAAAAAGAGTGGGATATTCCTGTGTTAACCCATGAGTTCCCTAAGAAGGAGCTCTTTAATCTGCGCCAGAAGTATGGTGCTAGAATAATCAGGGATGATATTGTCCGCAAAGAATAA
>SRR1151252_01544 adenosine deaminase
ATGTCTACAGAAATCACGAAGGAATTTACTCAGGGATTACCTAAAGCTGAACTTCATGTTCATATTGAAGGAACATTGGAACCAGAATTGAAACTCAAATTAGCCAAGCGCAACCATGTTGATATTGGTCAATCAACAATTGAAGAAGTTCGCCAATCATATCAATATGATGATTTGGCTTCCTTCTTAGCTGTTTACTATCCGGCAATGAATGTTTTACAAACTGAACAAGATTTCTACGACTTAGCAATGGACTACCTCCATCGAGCAGCAAAGAATAATGTTCGGCACGTTGAAATCTTCTTTGATCCACAGGCTCATACTTCACGAGGAATTGCATTCAAGACGGTCATTGATGGCTTATACAAGGCAACGGTCGATGCACGGGCGCTGAATATTGATGCACGCTTAATTATGTGCTTCTTACGTGACTTTTCTCGCGACTCCGCACGCGAAACGTTAGAGGAAGCCTTGAAGTATAAGGATAAGATTCTTGGGGTTGGACTAGATTCTGATGAACATAATAATCCACCAATGAAGTTCTTTAACCAATTCACCAAAGCCAGTGCAGAAGGCTTCCACTTAACAGCCCATGCTGATATTGACCAAAAGGACTCGATTGAACACATTCGTGAATTACTTGAAGTTATCGGTGTAGAACGGGTTGACCATGGAACTAATGTTGTTGAAGATCCGGACTTGGTTGACTTTGCAGCTAAGAACAAGATTGGCTTCACCTCGTGTCCACTTTCAAACTCGTTTGTTAGCCCTGAAATGAAGGGGAAGGAAGTTATTGAACTAATGAGTAAGGGTGTGAAAGTTTCCATTCACTCCGATGACCCAGCATACTTTGGTGGCTACATTGGTGATAACTATTACGCAATCACTACTAAGTTCAATTTGAGTCGTGACCAAGTAATCACGTTAGCGCGAAACTCTTTTGAAACTAGTTGGATTTCGGATGAACAAAAGGCTCTTTACCTCAAAGAACTTGATGACTATGTCGCTAATAATTAA
>SRR1151252_01545 xanthine/uracil/vitamin C permease
GTGAACAAAACACGAACATTATCTGGGAGGATTGATCGTGCCTTCCACATCACAGAGAGTGGTTCCTCAATCAAGCGGGAATCTTTAGCAGGTTTAACAACCTTCGTTTCAATGGCATATATCCTCTTTGTTAACCCATCTATTTTGGGTGATGCAGGAATGGATAAAGGGGCGGTCTTTACTGCCACTGCCCTATCTGCTATTTTAGGTTCATTATTAATGGGGATTCTTGCTAACTACCCGATCGCCATTGCTCCAGGTTTAGGTGATAACGCCTTCTTCACATATTCAGTGGTCATTGCCATGGGAATTCCTTGGGAGGATGCCATGGCCGGTGTTCTGGTAGCCGCTGTGCTCTTCACTATCTTGTCATTCCTTAAAGTTCGGGAAATTGTCATTGACGCAATTCCACAGGATTTGAAATATGCGATGGCTGCCGGAATTGGGATTTTTATTTCATTTGTTGGTTTACAAGGTGGGGGCTTAATCATTGCTAATAAGTCTTCATTAGTTGGCATTGGTTCCTTTACCGTGCCAACGGTTTGGTTAACGATCTTCGGAATTTTTGTTATCGCAATCTTGATGGCTAAAAAGGTGCCTGGTGCGATCTTTATTGGTTTAGTTGCGACAACTATTCTGGGTCTCTTGACTGGTTTGATTAAGGCTCCACACCACATCATTTCAATGGCCCCAAGTCTGAAACCAACATTCGGTGTCGGGCTAGAACACCTTTCCGTAATGACTGATCCTAAAATGTGGGCGGTTGTCCTGATCTTCTTAATTGTTGCCTTCTTTGATACTGCCGGTACCTTGATCGGTTTGGCGCAACAAGCTGGCATTATGAAGGGCAATAAGATGCCGCACATTGGTCGCGCTTTGATGGCAGACTCACTTTCAATGCTTGGTGGTGCTTTCATGGGGACTACCCCAACTTCTGCCTACGTCGAATCATCAGCCGGAATTGCAATCGGTGGTAAAACTGGTTTCACGGCTGTTGTAGTCGCCTTTTTCTTCCTCTTAAGTATGGTCTTCTCACCTCTGCTGACCGTCGTGACGACCCAAGTTACCGCTGCTGCTTTAATCGTTGTCGGTGTACTGATGGTCTCTGCTTTGCGTGATATTCACTGGGATCAATTTGAAATTGCTTTACCTTCTTTCCTTGTCGTCATTGGCATGCCTTTGACCTACAACATTTCTTATGGGATTGCCTTTGGCTTCTTAACTTACCCAATCTTGATGACTGCTGCTGGTCGGCGAAAAGAAGTCAACGGAATTATGTGGACAATGTTAGTTGTCTTTGTTGTTCTGCTCTATGTTTTGAATATCTTGCCTAAATAA
>SRR1151252_01546 adenine deaminase
ATGTCAGAAACTAAATTAAGTGAATACATTGATGCTGGTGCTGCTAAATTACCTGCTGACCTGGTCATTACTGGCGGGACATTAATTAATGTTAATACTGGTGAATATTACAAGGCAGATGTAGCCATTTATGACCAACGAATTGTGGCCGTTGAAAAAGATATCACCGATTATATCGGCCCCAACACTAGAAAGGTTGATGCTACCGGTAAGTATCTTGCCCCTGGGCTAATTGATTGTCACATTCACGTTGAATGTAGTAAGTTAAGTATGACCCGATTTGCTCAGGCAGTCTTACCTCATGGGACAACCAGCATCGTCACCGGTTTAGACGAATACATCTCCGTAATCGGCTTAGATGGTTTAAAAGAAATCTTCAATGAAATCGCTCAACTACCATTCAATGTCATCTGGGGACTACCTTATAAGACTCCTTACACCATTCCAAAATCAACTATCTCTTACGATGTCACCGCTAAGGATCATGCTCAAGTGCAAACGGATCCTCGTTGCTTCGGTGTTTGGGAAACGGTTCGTGAATCCGTGGAAACTAAGGATCCAGATACCATGAAAGTACTAGAATTAGCTCATCAAAATCATCAACCCATTTTCGGCTGCTCACCAATGGCACGTGGAAAAGCACTCAATCAATATCTAATGAGTGGTGTTTCCGTCGATCACGAAAGTTACTCTCATGAAGAATTCTTGGAAAAAGCACGGAAAGGTGTCCACACGGTGATTCGTGAATCTGCCGTGACTAAGTTTCTGAATGAAAATATTAAATCAATTACCGAGAATGTTGCTGGGGTTGCTCGGCATACTAGTTTCTGCTCCGACGATGTGAATGCTACCAGTATTCTTTCTGTTGGTCACATCGATCACATGGTTCGATTAGCAATTCAGGCTGGCGTTAGCCCAATGACCGCAATTCAAATGGCCACCATTAATGCTGCTGAAGCGTATCATATTGATGATCGGCTTGGATCAATTGCTCCTGGTAAACGAGCTGATATTTTACTGGTCGACCATCCTGGAACTTTCAATGTCGAAACTGTCATTAGTCAAGGCCAGTTAGTATTTGACGATGGTCAAGAACAATTTGCTTTTACGGTTCCTGCCCGCTCAAGCGAATTAACGGCAACTGTACATCGTGACCCATTATCAGCAAATGATTTCCAATATCATACTGATCACGCTGATGGTACTGCACTGGTGGAAACGATTAACAGCATTGGCCCCTTCGTTCGGAAACGTCGTGACGTCAAATTGCCTGTTGAAGATGGCATTATTAAGCCTGATGTTGACCAAGACGTGGCCCTAGTTTCTGTGGTTGAGCGGTACGGAATCAACGGTAATATTTCTCACGGTTTTATCTCTAGTTGGTCTTTCAAGAAAGGGGCGATTGCAACCACTGCTGCCCCTGACGACAATAACATGGTTGTCGCTGGTGTGAACTATGACGACATGGCACTAGCTGCGAATAGGTTAATCGAACAAGGTGGTGGCCAAATTGTCGTTGTTGATGGTCAAGTGGTTGCTAACCTACCATTGCCAATTGCTGGGATTTGTTCAGACTTACCTGTTGAAGAATTAGCTCAACAAGAAAAGGCCTTGCAAGAAGGAGCACGGGAGATTGGTTCTAAACTGCCAGACCCTATCTTCTACCTTTCCTTCCTCCCAATCACTGCAATTCCTGATTTAGCCATTACCGATGGCGGAAACGTGGATTACACGCAATTAAAATACTTCAATCCAGTGTTGGATTAG
>SRR1151252_01547 NADH-dependent flavin oxidoreductase
ATGGTCATCGTTGAGTACACCTCGGTCCGCAAGAATGGTGGTCCGTCCCGAAGCTGGGCCAAAGATCGTGAACAGTTAGCAATCTACGACGATCGTTTCAAACCAGGGATGATCAAGGTGGCCCAGGCCCTGAAGAAGGATGGCAACAAGGCCATTCTGCAACTGGTCCACTCCGGCCGGGAAGCCAACTACGCTCCACAGCTCGTGCGGACAGTCGAAGTGCCTAGCAAGATGGACTTTCCATGGATCGACTACCCGGTTCACGAATTGACGAACGCCGAGGTCAAGGACGTGGTCAACGACTTCGGTGCGGCAACCAAGCGAGCCTTCGACTGTGGCTTTGACGGGGTCGAGATCCACGGGGCTAACCACTACCTGATCCAGCAGTTCTTCTCCGCTTTCTCCAACCACCGGACCGATCACTGGGGCGGCAGCCTGGAGAAGCGGATGAACTTCCCATTGGCCGTGGTCAAGGAGGTACTGAGCGTCGTTAAGAAATACGCCCCGCAGGACTTCATTGTTGGCTACCGGATCAGTCCCGAGGAGATCCATCAGACAGTCGGCTACACCTGGCACGAATCCACCCAACTGATCAAGGCGATCACCGACCACTACGACCTGGACTACATCCACCTCTCCCTGCCGAAGTACGACGCTAAGCCACAGGACAACGACAAGACCTTTGCTGAGCTGTTCCAACCGGCCATCGGGGATGATGCCAAGGAGATCATCGTCGGCGATGTGATGTCCGAAAAAGATGCCACGGACGCTCTCAAGCTGACCGACCTGGTCGCAATGGCCCGGGCAACCCTGATCGATCCCCAGATTGGCCTCAAGATCAGTGAAGGCCGGGGCGACGAGATCATCCGCCAGATCTCACCGGAGCAGGTTAAGAAGTCCCACCTCACCCCTGGCCTGATCAATCTCTTCTCCGATCCGCAGATGGAACCACACTTCCCAGGCAGGGAATCCATCTACGCCCTACACCAGGCGGGTTCTTTGAACAAGGATGTCCTGAAGAACGGAACAAGCTCCTCCTTCAACCTCGACCACTTCAAGAAGTAA
>SRR1151252_01548 OsmC/Ohr family protein
TTGGCGGATAAAGTTTTATACCAAACGATAGTTGAAAACTCTGCGGGAATTGCAGGTCATGCCAAAGTTATTACTGGTGGGAATCTTGATGTTCTGACGAGTAATCCGGTTCACGATACACCAGGGACTAATCCGGAACAATTAATTGGCCTAGCGCTTGCGACTTGTTTGAATGCGACGATCGAGGCCGAAGAAAAGCGCCGCGGTCTTCCCCATAGGAGCTCCGTTCGCGTTGGCATCAAAATGGGGTTTGATGATCCCGGCTTCCAATTCTGGTTAGATGCTCAAGTGAGAATTCCCCAAGTCAGTCATGAGGAGGCCGCAGCCATTTTAGCAAAATGTGAAAGGCGCTGTCCGGTCGCTAAATTGCTCCAAAACAGCGCCAACGTTAAAGTCCACCTCGTTGATGAATTTAACTTTAACTAG
>SRR1151252_01549 lipoate-protein ligase A
ATGAAGTATCTCGTTACTGATAGTCGTGATATTCGGTATAATCTTGCCCTTGAGACTTACCTAATGGAACACGCCAACCTTGATGAGCCAATTCTGTACTTCTATATTAATTCGCCATGCATTATATTGGGCCGTTATCAAGACGCTTATGAAGAAATCAATCAGGATTACGTAAAGAAGCACAATATTATTATCACACGGCGAACGTCTGGTGGCGGTGCTGTTTATGACGATTTGGGTAATGTCAGCTTCAGCTTCATCACCAAGGATGACGGTGACTCGATCGGTAATTTTCGAAAGTTTACCGATCCGGTCATTGAAGCATTACATAAACTCGGGGCAACCGATGCGAAAATGGCTGGTCGAAACGATTTACAAATAAAGAGTAAAAAGTTCTCTGGAAATGCAATGAAGACTGAAAAGGGCCGAATGTTTTCGCATGGCACCCTAATGTATGATGTTGATCTTGATGTCATCGGGAAAGCCCTAAATGTCCCAGCGGATAAGATTGCATCCAAGGGAATTAAATCTGTCCATAGTCGGGTTACCAACTTGAAACCCTACTTCAAACCGGAATATCAAGATTTAACGATTGAGGAATTTCGGGATACGTTAGCCAAGACCATTCTCGGTGTTGACGATTTAAGTGATGCTAAAGAATACGCACTCGACGAGCAAACGAAGAAAGCGGTTGAACAACTTAACCAGTCAATCTTCAGCAATTGGGACTGGATTTACGGTAAGTCACCTAAGGCTGCTATTCAACACCGCCAGCACTTTGCCCAAGGGACAGTTGACTTCAGAATCACCCTTGAAAATGGGCGAATCAAGGATCTCAAAACTTATGGTGACTTTTTTGGGCAAAAGGCAATTGATGAATTTGAGCAGAAGTTAATTGGGGTTCGCTATGATGAAGAGGCAATTAAAGATGCCTTAAAAGACATTCAAATTAGCGATTTCTTTGGTAAGATCCCGGAAAATGATATTTTAGAACTGCTATTGCGGCAGGAGTGA
>SRR1151252_01550 adenine phosphoribosyltransferase
ATGAAAACAACGAAGACATACCAACTGACCATCGGCGACCAGCACCGGTCCCTACCCCTGATCCCGATCAACGCCGACACCGCCATTGCCTCGTTCGTCCTGCTCGGCGACGACGCGATGAGCTACACGGCCGCCAAGCTCCTGCTACCAAAGCTTCCGGTGAATTTCGACTACATCGTCACCGTCGAGAGCAAGGGAATCTCGCTGGCCCATGACCTGGCCCTGCTGAGCGGGCACCCGCGCTCCCTGATTATCCGGAAGTCGGTGAAGGGCTACATGAAGGATCCGTTGGTGACCACCGTAAACGCCATCACCACCACCCACGAGCAGGAGCTGGTTCTCGACGGCAATGACGTCCACCGGCTATGGGGGAAACGGGTGGTCCTGGTCGACGACGTCATCAGCACCGGCAGCTCCATCCACGCCGCCCAGCAGCTCCTCAACCAGGCCGGCTGCCGGGTGGTCGGCAAGCTCGCGATCCTCGCTGAGGGTGGTGCGGCGCAACGGACCGATATTCAGTTCTTAAAGCCGCTCCCCCTCTTTAACCTGGACGGGACGGTCAAGGAAGGCTGA
>SRR1151252_01551 permease
ATGCACTGGTTTGCTGACTTGATGGCCGCGATTGGCGTTGTCCTGAACGGGATTCCCCAGGGGATCATGGCGATGGGTCTCGGCTTTGCGGTCTTTCCAACCACCTTTTCGTTTCTGCTCGTCGCCGCAATCAACTTTGCCTTTCACTCCGTCGCCCCGGTCTCCTTCCAGGCCGAATCCCTGGCCCTGACCGGGAAGCTGGGCCGCAACACCCGCGAATTCACCTCGATCATCTTCGGCGGGTCGGTCATCATGGCAATCATCGGCTTCACCGGGGTCCTGACCCGGATCGTCCACGTCTTCGGCAACCAGGTTATCACCGCGATGATGGCCGGGGTTGGGATCATGCTGGCCAAGATCGCCCTGGACATGTCAAAGGTCCACGAGAAGAGCCTGACCGGCTGGCTGTCAATCCTGGTCGCGGTGGTCACCTACCTGATCTCCCGGGACCTGGTCTGGACCATCTGCCTGTCGGTAATCCTCTCCAGTCTCTACGCCGTCCTTGGTGAGCACTACCGGGCCGAACCACCGGCCAGCGTGACCGTCCGCAAGTTCATCTTTACCAAGCCGACCATCAACCTCCAGATCGTCCGGGGAGCGCTCAGCCTTGCCTGCCTCAACATCGGGGCCAACCTCTCCTACGGGCTGATCACGGGGCAGATGACCGGCATCAAGCCCAACCCGGTCAACCTGAACCTGCTTACCAGCTCCCAGGCCCTGGCTGACATGGGGACCAGCCTGCTCGGCGGGGCCCCGGTAGAGACGATCATCTCCGCCACCGCCAGTGCCCCGGAGCCGGTGATCGCCGGTTGCTTGATGATGCTGATCATGGCGGTCATCCTCCTCTTGGGCTGGCTGCAGAAGGTTGGTAAGTACGTGCCCAGCGCCTCGATTGCGGGCTTCCTGTTTGTCCTAGGAATGTTCGTGACCTTCCCGGAAAACGCCGCGACCGCCCTGGCCGGCAAGGAACAGCTTGTTGCCGCCACCACCATGCTAGTGACCGCTCTGGTCGACCCCTTCGTCGGCCTACTCGCCGGCGGGGTGCTCAAGGTCCTGTTGCCACTGCTGGCGTCACTTTAG
>SRR1151252_01552 D-lactate dehydrogenase
TTGAACAAGGATCACTTCGACCTCAAGCTGGTCAGTGCCTTTCTGACCAACGACAACGGTGACGAGGCCGAGGGCATGGATGCCGTCCTGGTCCGCGGTAACTGCGCGGTCAACGAGAAGAATCTCAACCTGTTCGCCAGCTACGGGATCAAGTACGTCTTCACCCGCTCGGTCGGCTTCAACCATATCGACCTGAAGACGGCCAAGCAGCTCGGCATCCAGATCGCCCGGGTTCCAAACTACTCACCATACGCCGTGGCGGAACTGGCCATGACGCTGGGGATGCAGATGTTCCGGCACGTCAACCTCGCCATCAACGATAGCCGGCAGGGTGACTTCACCGTCAAGCCGACCCTGTTCAGTCGCGAGGTCCACAGCTCGACGGTCGGGATCATCGGCGCCGGCAAGATCGGACTGACCGAGGCCAAGCTCTACCATGGCATGGGCGCCCACGTCCTCGCCTTTGACCCCCACCCATACGAGGCGGCCAAGCAGTACGTCGACTTCGTGGGGATGGACGAGCTGCTCGCCAAGAGTGACATCGTTTCGATCCACGTGCCATACTTCCCGGGCAAGAACGACAACATGATCAACGCGGACACCTTCAAGCAGATGAAGGACTCGGCGATCTTCGTCAACACGGCGCGGGGTGAGATTGTCGACACCCGGGCCGTCATCGACGCGATCAAGGACCAACAGATCGCCGGTTACGCCACCGACGTCGTCATCGACGAGAAGCAGATCATGAACAAGCAGTTCCCATCCCTTGACTACCTGCCAAATGCCGACGTCAAGGAAATGGCCAAGCTGTACCCACGGGTGGTCATCACGCCGCACATGGGCTCCTTCACCGAACCGGCCCTTGAGGACATGATCTCAATCAGCTTTGATAACTTCGCTGAGACGCTCAAGACCGGCACGAACCCAAACGTGATCGAATATAAGGGCTAA
>SRR1151252_01553 3,4-dihydroxy-2-butanone 4-phosphate synthase/GTP cyclohydrolase II
ATGGATTTTGCAACTGTTGAAGAAGGGCTCACACAATTACGTAACGGTGGTTTCATTATTTTGGCCGATAACGAGGACCGGGAAAATGAGGGTGACCTGGTCGCATTGGGCGAGGGGATCACGCCGGCGACCGTCCACACCATGCTGAAGGAAGCCAACGGACTCATGTGCGTTCCGCTGACTGAGAAACGGGCCCATCAGCTGGGCTTCAAGAAGATGGTTGAACACAGCACCGACCCTAACCAGACCCCATTCATGGTGACCGCTGACGGAACATACGAAGCCACCGGCGTAACGACCGGGGTGTCGGCCTTTGACCGGGCGGCGACGATTAATCAGATTGCTAAAAGTGATGCTAAGGCCAGTGACTTCAACCATCCTGGCCACATCCAGCCCCTCTACGCCCAACCACGGGGGCTGCGCGATCGGATTGGCCACACCGAGGCAGCCGTTGACCTGGCCTATCTGGCAGGGAAGGCGCCGGTTGCGGTCATCATCGAGGTCCTAAAAGACGATGGCCACATGGCTCGACGTGACGACCTGGCAAAGTTGGCGAAGCGGGTGAACGCCCCATTTATGACCATCCAAGAGATCATTGACTACCTGGACCGCCATCACCTGGCGACCGCCGCTGATGCCGGGGCAGTTGAGGCATAA
>SRR1151252_01554 cysteine synthase
TTGCTAGTTAATGATACCTACCAGCTCATCGGCCACACCCCCCTGCTTAAGGTGGGAATTGCCGCTCCCAACGACGTCAACATCTACGCCAAACTAGAGATGTTCAACCCTGGGGGCAGTATCAAAGATCGCCTGGGGATGGCCCTGATCGAGCGGGGGATTGCCCAGGGGCAGATCACTGCCCACACCACGGTGATCGAGCCGACCGCGGGTAACACGGGAATCGGTCTGGCAATTGCGGCGCTGAAGTACCAGTTGCCTGTTAAGCTGATTGTCCCGGAAAAATTCAGCTTCGAGAAGCAAACTCTGATGCGGTCCCTGGGCGCGACCGTCATCAATACCCCCAGCGAGCAGGGAATCACGGGGGCAATCGCCTATGCCAAGCGGTTGGCGGCTGAAACGGCAAACAGTTAA
>SRR1151252_01555 cysteine synthase
GTGGCGGGGGCCGGTAGTGGGGGAACCTTTGCGGGAACGGCCAAGGCCCTCCAGGCGGCCTACCCCCAGCTGAAAAACTACGTCGTTGAACCGGCGGGGTCGATCCTGAATGGCGGACCCAAGCACCCCCACCGGACCGAGGAAATTGGGGTGGAATTTGTGCCCCCCTTCTTCAAGGACGTGACGATCACCGGTGTCCAGACGATTGAAGACGACGCGGCCTTCTATGTGCGCTGGGCCGCCCGTCACCTGGCCCTCTTCATCGGCAGCTCTAGCTGGGCCGCCTTGGCCGCCAGTCTCCGGGTGGCGACGGACCTTCCCCAGGGCGCCAATCTGGTGACCATCTTTCCCGATTCCAGCGAACGCTATCTTAGTGAGCACATCTATGATTAA
>SRR1151252_01556 cystathionine beta-lyase
ATGACGAAGTTTAATACCCAATTGATTCATGGCGGTAACAGTGAGGATCCGACGACCGGGGCTGTCTCAACACCGATCTACCGGGCCTCGACCTTTCACCAGCGTGTCCTCGGTGGCCACCCCAAGTGGGAGTATTCCCGTACGGGCAACCCCACCCGGGCCGCCCTGGAGAAGCTGATGGCCCAGCTAGAGGAAGGGGTGGCCGGGTTCGCCTTTGCCTCCGGTTCAGCGGCCATTGCGACGGTCTTTTCAATGTATTCCCGTGGTGACCACTTCATCGTCGGCAAGGACGTCTATGGTGGGACCTTCCGGCTGATCAACCAGGTCTTAAAGCGATTTGGCATGGAGTTCATGGTCGTCGACACCCGCGATCTGGCGGCTATCGAGGCGGCCATCCAGGATAACACCGTAGCCATCTACTTTGAGACGCCGACCAACCCGCTCCTCCAGATTACCGACGTTCGGGCCGTGACCGTCCTGGCTCGCCGTCACCACCTTAAGACGATCGTTGATAACACCTTCGCGACTCCCTACAACCAGCGGCCGCTGACCCTGGGGGCGGATGTCGTCGTTCACTCCGCCACTAAGTACCTGGCTGGTCACAGTGACGTGGTGGCCGGGATTGCCGTCACCAACGACGCGGCGCTGGCGGATCGGTTGGCCTTCCTCCAGAACTCCCTGGGAGCTACCCTGGGTCCAGACGACAGCTGGCTGGTCCAACGGGGGATCAAGACCCTGGCGGCTCGAATGCGGATCCATGAGGAAAACGCCGCCGCGGTGGTGGCCTTCCTCCAATCTGATGCGCACGTTGCCAAGATCTACTACCCGGTCCTTCCGGACTTCCCAGGGCACGCGGTGGCCGCCAAGCAGACGCGCGGCTTTGGGGCGATGATTGCCTTTGAGCTCCGGGCTGGTCTGGATGTCAAGAAATTCGTCGAACACCTTCAATTGATTGACCTTGCCGAGAGCCTCGGGGGGATTGAGAGCCTGATCGAGGTGCCGGCTGTGATGACCCATGGCTCAATTCCACGGGCGGTGCGGTTGCGCGACGGGATCAGTGACGAATTGATTCGTCTGTCCGTGGGAATTGAGGATGCCGCGGATATCATCGCCGACCTGAAGCAGGCGTTGGGACGGTTGGATTAA
>SRR1151252_01557 hypothetical protein
ATGATTATCATCAGCGCCATCCTGCTGATCGTATTTCTCTACTTCCTCTGGCGACACTTCCGCCAGGACAACTATGGCTACGCGTTCGTGATGTACATCGGCGCGGTTGTCTTCTACGCCAACCTCTACCACAACCTGCCGGCGTCCGGCCAGTTCTGGCTGATGCTGGTCACTGTGCTGGCCCTGGTCGCCATCACCGGGAGCTTCATCTACCGGGCGGTGACCGCCACTCATGACGTCCGCCACCACTGGTACGCCGTTGCCCTAGGGGTCCTGGCGATTGTTCTGGCAATTATTTTCAAATTTGTTCTGTAA
>SRR1151252_01558 triosephosphate isomerase
ATGCGCAAACCATTTATTGCGGCTAACTGGAAGATGCACAAGACCGTGGCGGAGGCGGTGAAGTTCGTCGATGCGATCAAGGACAAGCTACCGGACCCGGACAAGATTGAGGTCGGGATCGCGCCCCAGGCCTTTTCCCTCTATAGTATGAAGCAGGCGGCGGGGGATTCCGGCCTCCAGATCATCGCCCAGAACGCCGCGGCCGAGTACTCCGGCCCCTACACCGGGGAGCTGAGCCTGCGCGGGCTCAAGGACCTCGGTGTCTCCTACGCCATGCTCGGCCACATCGAGCGGCGGCGGCTCTTCGGTGAGAACAACGCCGCCGTCAACCAGAAGGTCAAAGCGGCCCTCCAGATGGACGTCACGCCGATCATCTGTACCGACGAGACGATGGTTCAAAAGGAGGTCAACGGGGAGATCCACTACGTCTTCCAACAGCTGATGAGCGTCCTGCACGGGGTGTCGCTTGACCAGATCAAGCGAGTCGTCATCTCCTATGAACCGTCCTGGGCGGTTGGGGTTGGCCAGCACGCCAACGCCGCCCTGGCCGAGGAGGGCTGCCGGATGATCCGGCGGACGATTGCCGACAACTACACCTACGAGATCGCCGATAAGATTCGGATCCTCTACGGTGGCAGCGTTAACCCGGACAACATCAAGGAGATCATGGCCAAGCCGGACATCGACGGGGTCCTGATTGGCCGGGCCAGTCTTGACGTCGACAACTTTTTAAAGATGGTTAACTACGCCGAGAGCGAGGAACAGGCCCTCGCTAAGGCGACTAAGAAGCAGGTAAATGACAAACAGCATTAA
>SRR1151252_01559 major facilitator superfamily transporter
ATGACAAACAGCATTAAACCGCGCCTCCTGCTAGAGATTATCGCGGTCGGGATCCTGGCCTTCGCCGGGGTCCTGACGAAGACGGCAGCTAACGTGGCCTTCCCAGCCATGATGGCTGCCTTTCACATTAACCTGGGGACGGTCCAGTGGGTGACCAGTGCCTATATGCTGACGGCGACCCTGGTGATTCCTATGTCGGCCTACCTCCAGCGCAGCTTCACCAGCCGGGCCCTCTTCCTGTCCGCCAGTCTCTTCTTCACGGTGGGGACCGGGCTGATCGTCGGTGCGCCCAGCCTGGCCCTGGTTCTGGTCGGCCGGGTCCTCCAGGGGGTCGGCAACGGGATCGCCATTCCGTTGATGTTCAACATCATCCTGATGGCGGTACCACGATCCCAGCGGGGGATGATGATGGGGGTCGGAACCTTGATCACGGCAACGGCCGGCGCCATCGGACCAACCTATGGGGGCCTCCTGGTCGACCGCTGGGGGTGGCGGATGATCTTCATTGCCCTCCTGCCCTTGTTGCTGGGATCACTCGTCCTTGGCCTGGTCACCATCTACGGTGAGCGGCGCCCGGCCCGCCAACCCTTTGCCTTCCTGGACTATGGCTTGCTGGCTCTCGGACTTTTGCTGATCCTGCTGGCCCAGAACGGCCTTGGGGAGGCGGCACCGTTGGTTAGCCTGGCTGAGTACGGGCTGGGAATAATCTGCCTGTTCCTGTTTGCCTACCGGAGCACTCACACCGCGACCCCGGTCCTCAACCTGGCGATCTTCAAAATCGCAGCCTTCACCTGGCTGGCCCTGACCTATTTCACCACCTTCATGGTCTTTTTTAAGTATGTCTTTCGTCCTACCCAATGA
>SRR1151252_01560 major facilitator superfamily transporter
ATGGTCGCCGGACTGGCGGTTCTTCCCGGGGCCGCGGCGGCCGCCATCCTGTCACCGGGTAGTGGTCACCTGCTCGACCGCTTCGGTGCCCGGCGGCCGATTATCGGCGGGGCGGGGTTGATGTTAGTCGGCCTGACGATCTTTGCCATCCTGGGCAGTCGGCTCCGGCTCTGGCAGCTGGTTGCGACTTACCTGCTGGTGATGGTTGGCCTGGGCCTGTGTGCCAGCAACATCATGACCTGTTCGCTGGACGGCCTGGCTGCGGACCAGCAGGCGGCGGGCAACGCCGTCCTCAATACACTTCAGCAGTTCGCCGGGGCGTTTGGGACCTCGCTGAGCGCCCTGATCATTAATCGGGCCCAGCGCCAGACCAACTTGGCCGCCCCGATGGCGACGGCGTGCGGAATGCAGAAGATTTTTGTCCTGTTTAGTGGCATAATATTAGTTGAATTAATTATTTTGACGGTGGCCCTGCGCAAGCGGCGGTAG
>SRR1151252_01561 GNAT family acetyltransferase
ATGAAGATGAAGAAAGCAACGATGGATGATCTGGACACTATCCTGGCAATTTTGCGCAACGGCCGTGACCAACTGGCCGAGCGTGGGGTCGACCAGTGGCAGGGGGACTACCCGAACGTCCAGCACATCAAGGAGGATATCGAACACGGCTATGCCTACCTGGCCCAGTCCAACGACGACCTGACCGTTGGTACCCTGGCGATTGTCGACGCGCCGGACCACTTCTACGACGACCTGGACGGGCAGTGGCTGATGGAGACAGAGGACTACGTGGTGATTCATCGGGTCGCCATCCATTCCGACCACGCCGGCAAGGGCTATGCTTCCAAGCTCTTCGTCCACATGCTGGACTACCTGGAGGAACATCGGCCGGCGATCAAGTCGATCCGGATCAGCACCAACGAGCATAACCAGGCGATGCAGCACGTGATCGCCAAGAACGGCTTCACCAAGGTCGGGACCCTGCACGGTGCCTTCCGCCCTCAGGAACTGTCTTATGTCTACGAGCTGCTGGTGCCTAGCGCTAACCCGCACCCGCAGGTCTAG
>SRR1151252_01562 hypothetical protein
ATGAAGACACGTAAACAATTGAAAGCTGAGGCCCGCGAATTGCTAGCGGGCAACTGGCTGACCGCGATTAAACTGAACATCGTGCCGGTGGTCTGCCAGGTGATCACCTGGCTTGTTATCACGGGGATGGTCGCCGGGTTGACCTACTACTTCACCCGGGTCAGTCCGGTCGTGCCCAGGGACTTCTCAACTGATGCGGGCAGCAATAACGGGACCAATTCGGGTCAGTCCTTCATCGGCGACCTGATCACTACCTATTTCTTGCTCAGTGTCGACTTCGCCCTGATCGACTGGGTCCGGACCAAGGTGCCGACGCAGACGCCGTTCAAGGACGCATTTCAGACGATCTCCGGCAAGTACATCCTGCCGGTCTTCGTTCTTTACGTTATTCAGCGAGTCCTGGTCTTCCTCTGGTCGCTGTTGCTGGTCATTCCGGGGATCATCAAGGCCTTTGCCTACTCGCAGACCTTCTACATCTACAAGGACGTCAAGGAGCAGGGCGGTGACACCGATCGCAGCTACTTTGACTACGTGACGATGAGTCGGCAGCTGATGGACGGCCATAAGTGGTAG
>SRR1151252_01563 NADPH-dependent FMN reductase
TTGAAGATTGCTGCAATTGCCGGATCGAACGCCAATCATTCTTACAACCGCATGTTGTTGGAATTCATTGCCAAGCAGTACCAGGATACTGACGAGGTCGATGTGATTGACATCCGAAACATTCCAATGTTTAACGAAAACTACAAGGGGAAAGCACCCCAGGTCATCGCGGACCTCGACCAGCGGATCAAGGCCGCGGACGCCGTGATCATCGCCAGTCCCGAATACAACCACTCCATTACCTCGGCGCTGAAGAGCGTCGTGGAATGGCTCTCCTATGAGGTCCACCCGCTGGAGAACAAGCCGGTCATGATCGTCGGGGCTTCTACCCACGAACAGGGTTCATCCCGTTCCCAGGTTCAACTTCGAGACATCCTGATCTCACCCGGGGTCAACGCCCAGGTCTATCAGGGGGGCGAGTTCTTTATGAGTAACGTTGCCAACATCATTGACGAGGACGGCAACATCACCGATGAGATGTCGATCAAGTTTCTCGATAAGTGCATCGACGACTTTAAGATCTACGCCCGGTCCATCAACCGGATGGTCGCCGAAGCCACCGCGGAAGCTAAGAAGAAGGAGGCGGCAAAGGACTAA
>SRR1151252_01564 NADPH-dependent FMN reductase
ATGAAGAAGATTCTTGCACTGGTTGGGACCAACGCCAACTTTTCATATAATCGTCTGTTGCTTAAGTTTATGAAGAAGCACTTCAAGCAGATGGCAGACATTGAGATCTACGAGATCAGCAAGCTGCCGGCTTTTAGTGTTGACGTCCCACTTTCGGAACAAGCCGAGGTCTGGAAGCTCAAGCAGAAGGTCAAGGCCGCCGATGGGGTCGTCTTCTCCACGCCGGAATACGACCATGGGATTCCGGCCGCCCTCAAGAGTGCCGTGGAGTGGCTCTCCTACCACACAACCGTCCTGAAGCACAAGCCGGTCATGGTTGTCGGGGTTTCCTACGGTCGGCAGGCCTCGGCCCGTTCCCAGGTCCAGATGCGTCAGATCCTGATTTCACCGGATTGTGACGCCAACCTGATCCCGGGTAATGAAGTCCTGATCGGTGGGGCTACCCACGTCTTCTCTAAGGATGGGCGCCTGATCAACGACGAGATGCGCGACAACCTGGAGGAGTGCTTTACCCACTTTATTGAATATATTCAAATCTTTGAAAACGTGGACGAGGAGGAAGTCAAAATGCCAATCAAGCAGCCACGGATCAGCGAGGCTTACATCAAGTTCCCGACTGGTCGTTTATCGCTGAAGGAAGTTCAACAGATCTTCAGCACCATCCCATTTGAAATCGATCTGATCGATAGTACCGACCATTTTGCCTGGTACTCAGACAAGCCAAACCGGGAACACGTTCGTGACGTGGCCTCCCTTGGCGAACCGGTAACGGAGTGCCACCCACCGAAGGCCGTTCCCGCTGTTATGGCGATCATCAACAGCTTCCGTGACGGCAAGCGCGACGTGGTTACGCGGCCACTCTGGATGAACGGTCACCGTTCATTGATCCAATACTACGCCCTGCGTGACGTCGATGGTCACTACCTCGGTACGATCGAATTCACCGGGAGCGTTGAGTACATCCTGGGTCTCTTCGAAAAGGGTGCCTGGGACAAGGGTGCCGACGCTTCCACGGGTGCATCCAAGCACGAGGACAATGCACCGGCAGAAGAAGACGACACGACGGCTGATGCCTCGACTGGGGCTTCTGAGTCCAGTGACGATACCAGCGCGGACACGGTAGCACCCGCTCCGGCAGCCAGCGAACCAGCCGGAATTGAGGAAACTGACGCCGACACCGGTGCCTCCGAATCCGGCAGTGTTGACGCTGACGATGATGCCGCCGATGCCACGACTGGTGCCTCCGAAGAAGAGTAG
>SRR1151252_01565 thiamine biosynthesis lipoprotein
ATGACAGCACTAATTGACCAGCGACATACCCTGACCCACCACGCCTTGGGGACACGGATCGTGTTGACCGTCTACGGGAATGCGGCCGCTACCGTCCTCCAGCCCACGATGGACCTGATTGATGGCTACGAGGACCGGTTAACGGTCAACCGTGACCAGTCGGAGATCATGGATGTCAACCACGCTGCCGGGGTCAAGCCGGTGGCGGTGTCGTCAACCTCCTATGACCTGGTCAAGCTGGCGGTTAAGTATAGCCGGGCCGACTTCGGATTTAACGCCCTGATTGGCCCCTTGGTCAAGCTCTGGAAGATCGGTTTCAAGGGGGCCAACGTCCCGAACGATGACGATATTCAGGAGCGGTTGAAATTGATCGACCCCTGGCAGGTTGAGCTGGACGACGACGCTCGGACAGTCTACCTCAAGCAGGCCGGGATGGAACTGGATCTCGGCGGGATCGCCAAGGGCTACATCGCCGACCGGATCAAAGACTTCTGGGTCCAGCGGGGCGTGGACGCCGGGATCATCAACCTCGGCGGTAATCTCCTCTTTGTCGGTCAGTCGCCACGCCGCAGTGACGGTCAGTGGGTAATCGGGGTTCAGGACCCCCAACTCCACCGGGGAGAGAACATGGAGGTTGTTCGTCAGCCGGCCTGCTCGGCGGTCACCTCGGGGATCTATGAGCGGTTCCTGATCAAGAACGGCCGCCGCTACCACCACCTGATCGACTCGCGGACCGGCTACCCGCTCGATACCGACCTGAGCAGCGTGACCGTCTTCACCGACCAGTCGGTGATGGGGGAGATCGAGGCCAAGCGTCTCTTCTTCAATGGTCAGCCGATCCCCGGCTGGCTTGATCGCCCGGGTAACCGCGGTGCCGTCTTCATTCATAATGACGACTCAGTGGAAAATATTGGTATATGA
>SRR1151252_01566 nitroreductase
ATGATTCACAATTCTACCATTGATCACCAACTCAGCCACCGGTCCATCCGAGCCTTCAAGCCCCAAGGCCTCAGCGATGAACAGCTAACCACCCTGTACGAAGCCGCCCGCCACACCTCGACCAGCATGTTCATGCAGCAGTTCAGCATCCTGCACGTCACTGACCCGGACAAGCGAGCCGCAGTCCGGCGCCTGGGTAAGCAACCCTACATCGGCGCAAACGGTGACCTGTTGATCTTCCTGGTCGACCTCTACCGTAACCAGAAAATCCGCCAGGCTGCGGGCAAGGACGACGGTCGTCTGCACACCACTGACATCTTCCAGCAGGCCGTCGAGGACACGGTCCTGGCTGTCCAGAATACCCTGGTTGCTGCCGAGAGCATGGGGCTGGGCGGCGTGATCCTCGGCTCAATCAAGAACGACCCGGTCGAGCTTATTAAAGTCCTCAACCTGCCAAAGATGACCTTCCCCCTGCTGGGCCTCCAGGTCGGCATCCCCGACCAGTCCCCGCAACTCAAGCCCCGCCTGCCACTGGATACCCTGGTGATGGAAAATGACTACCACCGCGACTTTATGGCCAGCGACCTGAAAGCCTACGACCAGGTCGTCACCCAGTACTATGACCTCCGGGACGCCAACCGGCGGATCGATTCCTTCACCAAGCAGATTGCCGGTACCAAGCTTGATCACCATGAAACCACCCGTGACAGGCTCGCCGCCGCCATCCAGCAACAGGGTCTAGCCCTGGACTGGGAGTAA
>SRR1151252_01567 seryl-tRNA synthetase
ATGTTAGACATCAAGAAGATTCGCAAGGACCCAGAATTCTTCAAGCAAAAATTGGCAACCCGGGGTGTCAAGGCCGAGGAAATCGACGAGGTATTGGCCCTCGACCAAAAGCGACGGGACCTCTTACAACAGACCGAAACCATGAAGGCACAACGTAACGCCGCTTCTAAGAAGATCGGTGAGGCCAAGCGCAACGACGAATCCGCTGATGAGGCCATCAAGGAAACCCGGGAGCTCGGTGACAAGATCAAGGAACTCGACCAAGAGGTGGCGGCCAACGACGAAGAGCTTCACGACAAGATGGCCCACCTGCCGAATATTCCACATGACGGGGTGCCGGTCAGCCTGACCGAAGAAGGATCCGTTGAACTCCGCAAGGTTGGCAAGATTCGCGACTTCGCCTTTGAACCAAAGCACCACTGGGACGTTGGTGAAAGCCTGGGAATTTTGGACTTCGACCGTGCTCGCAAGGTTTCCGGTGCCCGCTTCGTCTACTACCTGGGCCTGGGTGCACAATTGGAACGGGCCGTCTACAACTTCATGTTGGATGAGCACATGAAGGATGGTTACACTGAGGTGCTGCCGCCCTACATCGTCAACGCTGCTTCCATGTACGGGACTGGTCAGTTCCCTAAATTCAAGGAAGGGGTCTACCAGGTTAATGGCGAAGACATGACCCTGATTCCAACCGCCGAAGTGCCGTTGACCAACTACTACCGTGGCGACGTTATCCCGGCCGAAGAGCTGCCGGTTTACGTCACCGCCCTGACCCCATGCTTCCGTTCCGAAGCCGGGGCCGCTGGTCGGGACACCCGGGGCCTGATCCGGATGCACCAGTTCAATAAGGTCGAGATGGTCAAGTACACCAAGCCAGAGGACTCATGGGACGAACTCGAGAAGATGACCGCCAACGCCGAGAATATCCTGAAGAAGCTGGACATTCCATACCACGTCATCACCCTGACGACCAGTGACATGAGCTTCACTGCCTCCGAGACCCACGATATTGAGCTCTGGATGCCGGCTCAACACAAGTACCGTGAAGTTTCATCATGCTCCAACTGCCTGGACTTCCAGGCCCGCCGGATGCACACCCAGTACCGGGACGAGAATGGCAAGCTGCAATACGTTCACACCCTGAACGGTTCTGGCCTGGCTGTTGGTCGGACGGTCGCCGCCATTCTGGAAAACTACCAGAACGAAGACGGTTCCGTCACGATCCCAGAAGTGCTGGTACCATACATGCACGGGATTACCAAGATTACCAAGGAAAACGCGGTACCATTCCGCAATAAGTAA
>SRR1151252_01568 glutamine ABC transporter substrate-binding and permease protein
ATGCGGAGAATAAGTTGGAAAAAGATATTTGCCAGCTGGCTTGCAGTGCTTGCCATTGCGGTTGGGTGGCTGCTAGTTGAACCACAGTCCGTCTCCGCTGATGAGCCGACTTACACGATCGCCACGAACAACACCTTCGAGCCCTTCGAAATTCAGGATAGCAAGGGTGGCTATTCCGGCAAGAACCCCGGAATTGAAATTGAAATGCTCCGCGAGATTGCCAAGCATGAACATTTCAAGTACAAGCTCAAACCGATGAGCTTCAACGGTGACCTTCAAGCACTAGAAGGCGGTCAGGTCGATGCCGTGATGGCCGGGATGAGTGTCACCGACGAGCGGAAGCAAAAGTTTGACTTCTCCGTGCCGTACTACACGGACGGGGTTGAGATGGCGGTTGCCAAGGACAGCAATATCAAGTCCTTAAAGCAGCTGAAGGGCAAGACGGTCTCCGCCAAGTCTGGGACCAGTGCCGCCCTCTTCTTAAAGAAGAACCAGAAGAAGTACGGCTACAAGATCAAGTACTTTGATTCCTCCAACACGATGTGGAACGACGTCAAGATCGGTAACAGCGTCGCCACCTTCGATGATGGTCCGGTTCTTGAATACGGGATCAAGACCGGGGTGCAACTGAAGGTTGTCACCAAGAAGCCAATCGACGCCCAGCCGGTTGCCATTGCTTTCCAGAAGGGTAAGAACCTGGCGATGCAGAAGAAGATCAACGCCGGAATCACCTGGATGAAGAAGACCGGCCGGCTGCAGAAGATCATCGACAAGTACACCAAGGGCAACAAGACCGCCAAGAGTGCCACCGCCGACCGGACGATCCTCGGCCTGCTGAAGGCCAACCGGGAAGCCCTGCTGCGGGGCCTCTGGATGACCGTTGAACTGACGGTTGTCGGGATCATCTGCGCCATGATTTTCGGGCTGATCCTCGGGGTCCTCGGGATCATGCAGAACAAGGTTGCCAGGGCGATCTCCAGCGTGATCATCTACATCTTCCGGGGTCTGCCAATGATCGTTCTGGCCTTCTTCATCTATATGGGGGTGCCAAACGTTATCGGCCACAAAGTCCCATTGTTCATCGCCGGGGTGATCACCCTGATGCTGGATGAGGGGGCCTACATCGGGGCCATCGTCAAGGGGGGCTTCGAGGCCGTCGATCCCGGTCAGTGGGAAGCGGCCCGTAGTCTGGGGCTGCCATACCACAAGGCCTTAATCAAGGTCATCGCACCACAAGGGCTGAAGATCATGGTTCCATCGCTGGTCAACCAATTCATCATGACCTTGAAGGACACCTCGATCCTGTCCGCAATTGGGGTCATGGAACTGACCGAAACCGGGACCGTCATCATTTCGCAGAACATGGAAGGGTTTAAGATGTGGCTGATCATCGGGACCATCTACATCATCATCATTACCCTGCTGACTTGGTTATCAAACTATATTCAAAAGAGGATGGCTTAA
>SRR1151252_01569 glutamine ABC transporter ATP-binding protein
ATGGACAAAAGATACAAAGTACAAGTTAAAGACCTCCACAAGAGTTACGGGAACAACGAAGTCCTCCAGGGGATCAACCTGAACGTGGCCCCCAATGAAGTGGTCTGCATGATTGGGCCGTCCGGTTCTGGGAAGAGTACCTTCCTGCGTTGCCTTAACCGTTTGGAGGTGCCGAACAGCGGCCACGTCTACGTCGACGGTTACGACATTGCTGACCCGAAAGTCAACATCAACAAGGTCCGGGAAAACATCGGGATGGTGTTCCAACACTTCAACCTCTTTCCGAACATGTCCGTCCTGGAAAACATCACCCTGGCCCCGACCCAACTGGGCAAGGCCAGCAAGGAAGAGGCCAAACGGGACGCCATGCACTATCTCGAACTGGTTGGCCTGAAGAGCAAGGCTGACGTCCCCCCCAGACCCTCTCCGGTGGACAGAAGCAACGGGTAG
>SRR1151252_01570 glutamine ABC transporter ATP-binding protein
ATGGTCGGCGACGTGCTGGCGGTCATGAAACGGCTGGCCAAGGAGGGGATGACGATGATCGTGGTCACCCACGAGATGGGCTTTGCCAAGCAGATGGCCGACCGGGTCGTCTTCTTCCACGATGGTAACATTCGTGAACAGGGGACGCCGGAGAAAATTTTCGACCATCCACAGCATCCCGACACCAAGAACTTCCTGGACAAGGTCCTGAACGTCTAG
>SRR1151252_01571 amino acid permease
ATGGACAAACAACAGCAACAGAAACTGAAGCGCTCACTAAAGAGTCGCCACGTCACCATGATTGCCATCGGTGGGGCGATTGGGACCGGATTGTTCCTCGGTTCCGGGTCTGCGATTCACAAGGCCGGCCCATCGATTATCCTCTCCTACTTAATAGTAGGAATCTTCTGCTTCTTCATGATGCGGGCGCTCGGTGAGCTGATCCTGGCCGACACGAGCAAGCACTCCTTCATCGACTCGGTCAAGGAGTACCTGGGTGATCGGATGGAGTTCGTGGCTGGGTGGATGTACTGGGCCTGCTGGCTGACGTTGGCGATGGCCGACCTGACCGCCACCGGGATCTACCTGCGCTACTGGTTCCCGAGCCTACCGCAATGGGTGGGACCGCTGGTGATCGTGGTCCTCTTGATGCTGGTCAATATGGTCAACGTCGGCCTGTTTGGTGAGCTGGAGAGCTGGTTTTCGATGATCAAGGTCCTCGCCATTCTCGCCCTGATCGCGGTCGGCGTGATCATGCTCCTCTTCCACAGTTCCGTGGAGGGGCGGCCGGTGACTTTGACCAATCTGGTTAGCCACGGGGGCTTCTTCCCCACCGGGCCGATGGGCTTTTTGATGTCCTTCCAGATGGTTGTTTTCGCCTTCGTCGGCATCGAGATGGTCGGACTGACCGCAGGGGAGACCAAGAACCCCAACCAGGACATTCCCAAGGCCATCAACACTCTGCCAGTCCGGATCGGCCTCTTCTATATCGGGTCGATGATTGCCATGATGGCGATCTACCCTTGGTTCCAGATCAAGACCAGCTCCAGCCCCTTCGTCCAGGTCTTTGCGGCCATCGGAGTTCCCGGGGCGGCAGCCATTTTAAATTTCGTGGTCTTGACCGCGGCGATGTCGGCCACCAACAGTGCCATTTTCAGTACCAGCCGGTCCCTCTACTCCCTTGCCTGGGGTGGCAATGCCCCGCGGCGCTTCGGTGAGTTGAGTGCCAAGGCGGTGCCGAACAAGGCTCTGATCTTCTCATCGCTGATCCTTTTTATCACGGTGATCCTAAACTACATCATGCCAGCGGGAGTCTTTGACATGATTGCCAGCATCTCGACGATTACCTTCATCTTCACCTGGCTGATCATCCTCTGGGCCCACATCAAGTACCGCCAACAGCACCCGGCCGGGGTGACCTTCTTCAAGATGCCCGGCTTTCCGTTGACCAGCTGGCTGACGATTGTCTTCTTCGTCGCCGTGCTGGTGATCCTGCTCTTCATCGACAGCACCCGCCTGCCACTGATTATCACGGTGATTATCTTTGCCCTGCTGGCGGTGAGCTATAGTTTTTTACCAAAAAATAAAGATTAA
>SRR1151252_01572 aldo/keto reductase
ATGAATAAATCAAATTTAGTTAAAATCGGTCACTCAGACGTTTATGCAACCCCACTTGGTCTCGGTACTAACGCTGTGGGTGGCTACAACCTCTTCCCAAACCTCAAGGATGAGGATGGTAAAGCCCTCGTCCGGGCCGCACTGGACAACGGAATCAACCTGCTTGATACGGCCTATGTCTATGGGCTGGGTCATTCCGAAGAACTGGTCGGCCAGGTCGTAAAGGAATACGACCGCGACCAGATCGTCTTGGCTACCAAGGGCGCCCAGGATTTTGCGACCGGTGAACAAGTCATCGATAACAGTCCCAAGTTTTTGACGAACCAAGTCAACCAGAGCCTGGAACGGCTGGGCGTTGATTACATCGATATCTTCTATATTCACTTTCCGGACCACGATACCCCCAAGGCCGAAGCGGTCGGCGCCCTCCAGAGGCTGAAGGAGGCCGGCAAGATTCGGGCAATCGGGGTCTCCAACTTCAGTCTGGATCAGGTAAAAGAGGCCAATGCGGACGGTTACGTCGACGTGGTCGAGGACGAATTCAGCCTCCTCCACCAGGACCACCTGACCGAGGGCATGCTCGACTACCTGCATGACCACCAGATCAGGTTCGTGCCGTACTTCCCACTGGCTTCCGGCTTGTTGACGGGGAAGTATGACCACCAGATCGACTTCCCAGCCGACGACATTCGTAGTCAGATCGCCGACTTCACCGAGCCACGCTTCAGTAAGGTTCTCCAGGCCGTTGATGTTATTCGGCCAATTGCTAAGGTCCACCAGACGACCGTTGCTCAGGTTGTCCTGGCATGGTACATGCAAAATCCACTGATCTCCGTGGTCATCCCGGGGGCTAAGCGTGCTGACCAGGTCAAGGCCAACGCCGGGGCTTTGGACATCACTCTGACCGACACGGAATACCGGACGATCGAGCAGGCCTTCGACGGTTTCAAGAACACGACAAGTGGAAAGTCCCTGGCCGATCCCGACTAG
>SRR1151252_01573 nucleoside transport protein
ATGTATCTCGCAATCAACATTCTTGGACTGATTGTCTTCCTCGCTATTGGTTGGCTGTTCTCTAAGAACCGTAAAGCCATTAACTGGAAGACGGTTGGGATCATGATTGTCATTAACCTTATCCTGGCATGGTTCCTGACTGGTTCTGCCGCAGGTCGTGCCGGTGTTAAGGCTGCCGCCGACGGTTTCGTGTGGATCGTTGACGTATCCGCAAAGGGTACCGTCTTCGCATTGGGTGACTGGTATAATGTTAAGAATCTGAACTTCATTTGTTCTGCATTGATGCCAATCCTGATGATTGTTCCACTGTTCGATATCTTGACCTACATCGGTTTCCTGCCATGGATCATTAAGTGGATCGGACGTGGACTTTCATACATCACTGGTCAACCGAAGTTCGAATCTTTCTTCGCTGTTGAAATGATGTTTTTAGGTAACACTGAAGTTCTGGCCGTTTCTGGGATGCAAATTCGGAAGATGAGCAAGGAACGTAACCTGACCTTGGCCATGATGTCAATGTCTTGTGTTACTGCTTCAATCCTTGGTTCATACATCCTGATGATGCCTGGTCAATACATCTTGACCGCCGTTCCAATCAACATCATGAACGCTTTGATTGCGACGAGTATGTTGAACCCTGTTCAGGTTACTCCTGAAGAAGATACGATTGAAAAGGTTGGTAACATTGATAATGGTAAGAAGGAACCATTCTTCAGCTTCTTGGGTGACTCCATCCTGGGCGCTGGTAAGCTGATCCTGATCATTATTGCTAACGTTGTTGCCTTCGTTGCCCTGGCTGCCCTGATCGACAAGATCTTGGGTCTCTTCTGGAAACCACTGTCACTGGAAAGTATCCTTGGTGTCTGCATGTTCCCATTCTCCTGGCTGCTCGGTCTGCCAGTTCACCAAGCATGGGACTTGGCACAAAACATGGGTATGAAGTTAGTTACTAACGAATTCGTTGTTATGGGTAAAGTTACCGGTGCGATTGACCACTACCCAGCTCACTTGAAGGCCGTTTTGACTGTCTTCGTTACCTCCTTCGCCAACTTCGGTACCTTAGGTATGATTATCGGTGCCTTCAAGGGCTTGGCTAATAAGGAAGATAACGATTACATCGCTCACAACATTGGTTACCTGTTACTCTCTGGTATCCTGGTATCACTGTTGTCCGCTGCCTTCGTTGGTCTGTTCGTTTGGTAA
>SRR1151252_01574 nucleoside hydrolase
ATGACTACTAAGATTATTATGGATACTGATCCAGGTATTGATGACGCTGCTGCCCTGACGATGGCGATCAACGACCCATCGATCGACCTAAAGCTGGTCACGGCGGTTGCCGGAAACGTGACGGTCGATAAGACCACGGCTAATGCCCTCAAGATCATCCATTTCTTTGGTAAGGATATTCCAGTGGCTGCCGGTGCTGAACAACCATTGATCAAGCCGTTCGAGGATGCTGCCCGGATTCACGGTGAATCAGGGATGCCGGGTTACGACTTCGGTAACGACTACGGCGAGCCAATCAAGAAGACGGCGGTTGAGGCCTTACATGATGCCATCATGGCTGAAGACGAGGTCATCCTGGTCCCAACCGGCTCTTACACTAACATTGCCCTCCTATTCAGTGAATACCCAGAGGTTAAGAGTCACATCAAGAAGATCGTGGCCATGGGTGGCTCAATGTCCGGTGGTAACATGACCAGTGTCGCTGAGTTCAACGTCTTCACCGACCCCGATGCTGCCCGGATCATGTACAATGCCGGTATCCCGATCGTTACGGTTGGCTTGGACGTTACCCTGAAGGCCCTGCTGACCAAGGACACGATCGAGAAGCTGGGTCAGATGAACAAGACCGGTGAGATGCTCCACGCCCTGATCACCCACTATAACGACGGGACTGATGAGGGACGTCCAATGCACGATGTCAACACCATCTTCTACCTCCTTCACCCAGAGGCATTTACCACCAAGAAGATGTGGGTCGATGTTCAAACCGATGGACCAGCTATTGGGGCCACGGTCGGTGACATCCGTGGTGCCTACCACGATGGTAAGACCAACGCTGAGGTTTGCCTGGACATCGATGCTGAATACTTCAACAAGTGGTTCCTGGATGAAGTCAGCAAGATGAAGTAA
>SRR1151252_01575 3-hydroxybutyryl-CoA dehydrogenase
ATGGCATTTCAAAACATTACGATTGCCGGGACGGGTGTCCTAGGCAGTCAGATCGCCTACCAAGCAGCGCTAAACGGCTTCAATGTCACGGCCTATGACCTCGACGTTAATGCCGCAAAGAAGCGGGTACTGACATTGAAGGACAGTTATAAGCAGGACCTGGACCTGACCGATGAAGACTTCCAGGCCGGATTGAATAACCTGACCTTCACAACCGACCTGGCGGCAGCGGTTAAGGACGCCGATTACGTTATTGAAGCCCTACCGGAGAAGCTAGACCTTAAGGAAGAATTCTACAAGCAGCTCTCAAAGCTAGCCCCAGACAAGACGATCTTCGCCAGCAATTCATCGACCATGGTACCAAGCCAGTTAGTCAAGTTTGCTGACCGGCCAACGAAGTACTTGCATATGCACTTTGCCAATAAGATCTGGAAGTGCAACGTTGCCGAGATTATGGGAACCGACCAGACTGACCCGGCTGTCTACCAAGAGGTCGTCGATTTTGCTAAGGCCATCAAGATGGTTCCAATCGAGATTCACAAGGAACAGCCGGGCTATGTCCTAAATGCCCTGCTGATCCCGTTTGTGGTCAGTGCCATGAGTTTGTGGGTCAAGGGCGTGGCTGACCCGGAGACCGTCGACAAGGACTGGATGATCTCGACCGGTGCCCCGGTTGGCCCGTTCATGATGCTTGATGATGTGGGACTACGGACGACTTGGAACATTGTCAGCGGGCTCTACGCGACCCAGCACAAGGAATTGTTCAAACAGATTGCCGACAAGCTGAAGGAAAAGATTGATGCTGGTCAGGAGGGGCTCGAATCCGGCGAAGGGTTCTATAAGTACCCGCATCCGGCCTTTGAAGATCCAGACTTTCTCAAGAAATAG
>SRR1151252_01576 3-hydroxybutyryl-CoA dehydrogenase
ATGGCATTTAAGAATATCACAGTCGCCGGTGCCGGTGTCCTAGGCAGCCAAATTGCCTACCAGACGGCACTGAGCGGGTTTAAGGTAACGGTTTACAACCACCACGTTGACACGGCTCAACGGCGGCTGGCGGCTCTGAAGGAGGACTACCAGCGTGACTTGGGCCTGAGCGATGAGAAATTTCAGGCTGGAATGGACAACATCGTCAACATCACAACCGACCTGAAGGAGGCCGTCCAGGATGCCGACTACGTTATTGAGGCCCTGCCGGAGTCACTGGAACTCAAAGAGAAGTTCTACACGGAGTTGTCAGAGGTCGCTCCAGAGAAGACAATCTTTGCCAGCAACTCGTCCTCGTTTGTACCGAGCCAGCTGGTCAAGTACGTTGACCGGCCGGCAAAGTACCTGCACATGCATTTTGCCAACAAGATCTGGCGCTTCAATGTCGCCGAGATCATGGGAACTGACCAGACCGACCCGGCCGTCTACCAGGAAGTTGTTGACTTTGCACGGCAGATCAAGATGGTCCCAATTGAGGTTCACAAGGAGCAGCACGGTTACGTTCTCAACGCCGTCTTGATGCCGCTGATCGGGTCAGCTATGCAGCTCTGGGCTAAGGGCGTTTCTGACCCGCACACCATTGACAAGGACTGGATGATTTCAACTAACTCACCGATGGGTCCGTTCATGATTCTGGACATGGTTGGCCTGCGGACCCCATTACAGATGGAAAATAATCTGTATGCGGCTACCCATGAGGAGATTCATAAGCAGATTGCCGACAAGCTCAAGGCAATGGTTGACGCCGGACACGTCGGTCAAGAATCGGGCCAGGGATTCTACCACTATCCGCACCCGGAATTTGAGGATCCATCATTTCTCCGGGCATAA
>SRR1151252_01577 16S rRNA methyltransferase GidB
ATGAATCCAGAACAATTTCAACAGGCCCTGGCGGATCACGGGATTACGCTGACTGCCGGGCAATTAGAACAATTTGCGACCTACTACCGGATGTTGGTCGAAAGCAACAAGCACGTCAACCTGACCCGGATCACGGACGAGGATGAGGTCTACTTGAAGCACTTCTACGACTCAATCACCGGGGCCCTAGCCGAACCACGCCTGCAGACGGTCGCACTGACCCTTTGCGATATTGGTGCTGGTGCTGGCTTTCCGTCGCTGCCACTAAAGATCGCCTTCCCCCAGCTTAAGGTGACGATCGTCGATTCACTTAATAAGCGAATCGCCTTCCTGGAGGAATTAGTTACTAAACTGGGATTAACCGACGTAACTCTGATTCATGATCGGGCCGAGACGTTCAGTGCCAAGAAGAGTGCCCATCGTGAACAGTTCGACGTCGTGACGGCCCGGGCGGTGGCTCGCCTGGCTGTCTTGAGTGAGCTGTGCCTGCCCGCCGTTAAAGTTGGTGGTGAGTTCATCGCCTATAAGGCCCTGGCCGCGCCGGAAGAGTTGCAGGACGCCGGTAAGGCGATTGCCAAGCTCGGTGGCCAGGTCCAACAAACCGTGCAGTTGACCCTGCCGGAGACGGATGATGAGCGCAACATCATCCTGATCGACAAGAAGGCAGCGACGCCACAGAAGTACCCGCGGCGTCCTGGCCTGCCGAATAAGAAACCAATTCAATAG
>SRR1151252_01578 chromosome partitioning protein ParB
ATGGCATTTTCACTATTTAACTTTGGCAAGAGTGACTCAGATAATAAGAATAAGGTTGCAAACATCAAGCTGGACCAGATCGTACCGAACCGCTACCAGCCACGGAAGGTCTTCAACCAGGATGAAATTCGGGAATTGGCCCAGACAATTGATGAACACGGGCTCCTCCAGCCAATCGTGCTCCGGGAATATGAACCGGCTAAGTACGAGATTATCGCGGGGGAGCGGCGGTACCGGGCCATGAAGATGCTCGGTTGGGAGACAACTCCGGCGATCCTGAAGAAGATGACGGATGAGGAGTCGGCCTCACTGGCCCTGATTGAGAACCTTCAGCGGGCACAACTGAGTTCCGTGGAAGAGGCTCAGGCCTACCGGCAACTGATGGACCTCAACCACCTGACCCAGGCGGCCCTCGCCAAGGGGATGGGGAAGAGCCAGTCCTTTGTTGCCAATAAGCTCCGCCTGCTTAAGCTAATCACGCCAGTCCAAACCGCCATCCTGGACCACCGAATCTCGGAACGGCATGGCCGGGCCCTGCTCGACCTCGACGAGAGCCAGCAACGGACCATGCTGATGCGGATCGTCAACGAACGCCTGACGGTTCGTCAGACCGAGGATGAGGTTGCCAAGGTCCTTGGCCGACCGTTGCCGTCTGAGGTCGCTAAGCAGAGAAAGCAAACTAAGGAACAGGCTACCGCAGCAGAAATTCCGGCGGATCAGCCAGTAAAGCAGACCGCTAAGAAGGCTAAGCCAGCTAAACGTAAACGGGGGAAGAAGGCCACAGCATCGGCCAAGGCAACGGATGGTCGCCTGGCACTGAACACGATTAAGAAGTCAATTAAGATGGCCACGGAGAACGGCTTCACGGTTACGACCCACGAGAAGGACACGGGGAGCAGCTACCAGCTGACCATTGAGATCCCAAAGAAGCAGTAA
>SRR1151252_01579 chromosome partitioning protein ParA
ATGGGCACGGTAATTGCGTTAGCAAACCAAAAGGGTGGCGTCGGTAAGACCACGACCAGCGTGAACCTCGGGGCCTGCCTCGCTGACCTGGGTAGGCGGGTGCTGCTGATTGACCTTGATCCTCAGGGTAACGCCACTAGCGGTTTGGGGATTGAGAAACGGCAGATCGAACAGAGTATCTACGATGTGCTGATCGATGAGGAGACGATGCTGAAGGACGTCATAAAACCGTCTAGTCACCCGGGACTCGACATCGCCCCGACGACGATTGCCCTGTCCGGGGCGGAGGTTGAGCTGACCAACCTGATGGCTCGAGAGACCCGGCTGAAGGATTCCTTCGGTACTGTCAAGGACGACTACGACTTTATCCTGATCGACTGCCCGCCATCGTTGGGCCTGCTGACGATTAACGCCTTCACAGCCGCCGACTCGGTCCTGATTCCCGTGCAGAGTGAGTACTACGCACTAGAGGGGTTGAGCCAGCTACAGAATACAATCAACCTGGTCAAGCGCCACTTCAACCCGCGGATGAAGATCGAAGGGGTCCTGCTGACGATGTACGACAAGCGGACCAACCTTGGTCAGCAGGTTAACGCCGAGGTCCGCAAGGCCTTTGGTGACCACGTCTACACGACGGTGATTCCCCGCAACGTCCGCCTGTCGGAGGCGCCGAGCCATGGCCTGGCGATTGTCGACTATGACAAGCGATCGACGGGCGCGCACGTGTATGAACAACTAGCAAAGGAAGTGTTGGCAAAACATGGTAAAGCGTAA
>SRR1151252_01580 chromosome partitioning protein ParB
ATGGTAAAGCGTAAAACAGGTGCCCTGGGCCGCGGAATCGAAGCCCTCTTTGAGGAAAACACCATTGCGGATCCAGAAGCAACGGAACAGGTTCAAGACATCAAGCTGACGGCGATCCGGGCCAACCCTTATCAACCGCGGCGAGCCTTTGACCAGGCGGCCTTGAAGGAGCTGGCAGCCTCAATTGAGAAGTCTGGGGTCTTTCAGCCAATCATCCTTCGCCAGCCTGACCCGGCGGTGGAACGATACGAGCTGGTTGCCGGTGAACGGCGCTTTCGGGCGTCCAAACTCGCCAAGCAGAAGACAATTCCGGCAATTGTCCGGGCAATGAGCGACGAGCAGATGATGGAGATTGCCGTCTTGGAAAACCTCCAGCGTGAGGACCTGACACCACTCGAAGAGGCCCAGGCCTACCAGACCCTGATGGAGAAGCTGTCGCTGACCCAGGCCCAGGTTGCGGCCAAGCTGGGTAAGAGCCGGCCGTACATTGCCAACTACCTCCGTCTGTTAGGCTTGCCGACCCCGATCAAGGAGGCCTTAAATGTCGGTCAGCTTTCCATGGGCCAGGCGCGGACCATTCTGGGATTGAAGAACAAGCGTCAGTTGACCCAGCTAGCCAAACGGGCGGTCAAGCAAAACCTGACCGTTCGTCAGCTTGAGAAGATTGTTGCTCAGATGAACGGTACGGCCAAGGAAAAGGACCAGCATAAGCGGCAGCGCAAGCCAGTCTACATTCGTGAGGCCGAAGACCAGCTCCAGAGCAAGTTCGGCGCCAAGGTGGCGGTCTCCCAGAGCCGGAAGCGGGGGAGTGGAAAGATCGAGATTCCGTACACCTCTAATGACGACTTGACGCGAATTTTGGAACTGCTTGATATTTCACTCGATTAG
>SRR1151252_01581 hypothetical protein
ATGGCAAACTACGATAAGGGCGACGTGGTCATGATGAAGAAGGCCCACCCGTGTGGCACTAACCGTTGGGAGATTACCCGGGTCGGAGCCGACATCAAGATCCAGTGTCAGGGCTGCGGCCACGTGGTGATGATGACCCGGCAGAAGTTCGACAAGGGGCTCAAGAAGGTCATCGAAAAGGCCAACCCGGCAGAATAA
>SRR1151252_01582 GTP-binding protein YchF
ATGTCATTAACTGCAGGAATTGTCGGCTTGCCTAACGTCGGTAAGTCAACGCTGTTTAACGCAATTACCAAGGCGGGGGCCGAGATGGCCAACTACCCATTCGCCACGATTGACCCGAACGTGGGAATGGTCGAGGTTCCAGACAAGCGCCTGGACCGGATCCAAGAATTGATTCCGGCCAAGAAGATCGTGCCGACGACCTTTGAATTCACCGATATTGCCGGGATTGTCAAGGGGGCCAGCAAGGGTGAAGGACTTGGTAACAAGTTCCTGGAAAATATCCGGCAGACCGACGCAATTGTCCACGTTGTTCGGGCATTCGATGATGACGACATCACCACGGTTTCCGGGAAGGTCGACCCGATTGAAGACATCGATACGATCAACCTGGAGTTGGTGATGGCCGACCTCGACGCCGTCAACAAGCGCCTGAGTAAGGTCCAACGGGCTGCCAAGGGTCGTGACAAGGACGCCTTGGCTGAACTGGCCGTTTTGAACAAGATCAAGCCAGTTCTGGAAGACGGCAAGAGCGTGCGGTCCATCGACTTCTCCGATGACGAGAAGAAGATCGTCAAGGGGCTCTTCCTGCTGACCAGCAAGCCGGTCCTCTACGTTGCCAACATTGCTGAGGACGACATGGCCGACCCAGACAACAGCAAGTACATGGCTGCCATCAAGGAACACGTCAAGGATGACGGTGAGGTGATCGGGGTTGCCGCCGCGGCCGAGGAACAGATCGCTGAGATGGACGACGCTGACAAGGCCGACTTCCTGGAGATGGAAGGGGTCAAGGAACCAGGGCTGAACCGGCTGATCCGTGCTGCTTACAAGCTGCTGGGACTGGAAACTTTCTTCACCGCTGGCGGTCCTGAAACCCGTGCCTGGACTTTCAAGAAGGGCACCAAGGCACCACAGGCCGCGGGAATCATTCACTCTGACTTCGAACGGGGCTTCATCCGGGCCGAAGTCATGAGTTTTGACGATCTTGACCAACTTGGTTCCGCTGCGGCAGTCAAGGAAGCCGGGAAGCTGCGGCTCGAAGGTAAGGACTACGTAATGCAAGACGGCGACATCGTTGAGTTCCGTTTCAACGTCTAA
>SRR1151252_01583 membrane protein
GTGAGCGAAGAACAAGCACACAACCAGGCACGTAACGCGGCAGCTGGACAGCGGCAGAAGGAACATGTCAAGGCCCAGCGCCAGGCTGCGGGGAGCGCGTTTGGTCAGTATCATTTGACCCGTAAGAACGAAGAGTTTATGTACCAGCTCAACAAGCAGTTGGACCGGCAGGGTGTTGCTGGCGACAAAAAGCCGGCAATGCTGGAGGAGACGGCTCAGCAGTTGGCGGCCGGTCAGAAGAAGAGGAAGACGGCTAAGGCCCTCTTCGGCACCCCGACCGAATACGCCAAGGAGCTGAAGAACCCGAAGAAGGCACCGGAGCACATGACCAAGAAGTCGATCTGGATGCTGGCAATCGATAATGCCCTGATCTTCTTGAGCATCTTCACCTTCATGTTTGGCCTAATGTCCTGGCTGTCACCACTGGCGATGCGTAGTAGCCAGGCCGGGAGCAGTGGTATCACGGCCATCCTGTTGGTTGCTATTCTCGGTGGGGTCCTGTTTGGTTACGTGGCCACGCAGCTTCAGCCGACGAAGAACAAGGACGGCAAGTGGGTCCAAACCAAGCCGATGTGGTTCCGGGTCCTGACGGTGGTCTTTGGGCTGGTGGCCTGGCTGGCGGTCTACATGTTGGCTTCCCTGTTGCCAAACGTGGTCAACCCACGGCTCAACCAGTGGGCCTACCTGGCAATTGCCGTGGTTACCTTTATCGGCGACATCTACTACCGGCGGAAGTATCACATCAGTGGTGGCTTCTACGGCAACCGGCGGCGCTAA
>SRR1151252_01584 transposase
ATGAGTAAGAGTTTAGTAGAAGAGAATCGAGAGCTTAAGCAGCAGATCAAAGCTTTGAAGGATCAGGTTAATAAGTTGACAGCGATTATTAAGCTTCAGCAAAACCAAATGTTTGGGAAAAAAACTGAAGTAATTGAGTCCGTAGTTGATGGTCAGCAATCACTGTTTAGTGATGATGAACTAGCTCAGCTGCAAGATTCTAATGTTTCAATCACGGAAGTGATTGAAAAGCAGACAAAACAAGTGGTGCGTCACCGGAAAGCCAAGTCTTCTGGTCAGCGGACCGCTTTTTTGGATGGTTTACCTCAAGTGGATAAGACGATTCATATAACTGTAGAGGGCGGGACTAAAATGTAG
>SRR1151252_01585 hypothetical protein
ATGGAAGAGAAGCATGATATTGTGGCACCCGTTTTCAAAGCCAAAGGTAAGCCAGTTAGTAAGGCCAAAATTTCACCGCGACCAGTCGTTGAAATGAAGGCTGGAAATATCCAATTAACAATTTTCAAAGGCATCAATCCCAGCCTTGCGGCCGAGGTTGTGAAGGCTGTGGTGCATTATGCTCATTAA
>SRR1151252_01586 PST family polysaccharide transporter
ATGAAGGTTATTAAAAACTATTTGTATAATGCAGGATATCAAATACTATTAATGTTGGCTCCTGTAATTACAACTCCATATGTATCACGTATCTTAGGTGCCAATAATAATGGGATAAACACTTATACTAATGGATGGGTGACATTTTTCTATTTAGCAGGGCAGTTAGGTATTTCATTATATGGGAATCGAGAAATTGCTTATCAGCGAAGTGATAAATACAAACGTTCAAAAATTTTTTGGGAAATCATTTCATTACAGCTGTTAACTAGTTCTATAGCTTTTACTGCCTACATCATTGTAGTAATGATGTTCAGTAGTGCTTTTAAAGTATACTTCTTACTGCAAGCACTTTGGATTATTGCTTACGGAATAGATGTATCATGGTACTTTATGGGCATGGAAGATTTTAAGAAGACTGTTTCTCGGAACACAATAGTAAAGCTAATTACTATTGCTTTAATCTTCGTGTTGGTACGTAATAAAAATGATTTAGCTAAATATATTTTCTTACTTGGCTTTGCTCAGCTAGCCGGAAGCTTGACGTTATGGCCGTATTTACGAAAGTCCATTCAGTGGGTGAAAATTAGTAGTTGGCGACCATTTAAGCACTTTTATCCAGCACTACTATTATTCATTCCAACCATTACGACGCAAATCTATTTGGTTGTTAATAGGATAATGCTTGGAAGAATGGCACCTCAGGCGGCTGTTTCTCAATTTAATTTTGGGGATAATATCGTTAAATTAGTTTTGGCTATTGTAACTGCAACGGGGACCGTAATGCTCCCTCATATAGCTAATAAGTTTGCCTCTGGTGATATTAAGGGTGTTCATGCTAGCCTATATCGATCATTTGACTTTGTAACCGCAATTGCAACGCCATTAATGTTTGGATTAATGGCGATTGCTTATAAGTTTGCTCCTTGGTTCTTAGGTAGTGAGTATGGACCAACTGGTGGGGTGATCTTTTTTGAGGCGCCAGCTATTTTAATGATAGCGTGGAGTAATGTGACTGGAACGCAATACTTGATGCCAATTCACCGTGAACATGAATTTACTATTTCAGTTACAATTGGTGCGGTTGTTAATGTTATTGCTAACCTATTTCTTATCTCATTGTATGGGGCAAATGGGGCCGCAATTGCGACCGTGATTTCTGAATTTTCAGTAACTACTGTTCAATTATTTTATATTCGGGGCACAATTCGTCGGCGAAAATTATTTGCTCCAATCTGGCGTTACTTATTAAGCGGACTATTTATGTATCTTGTTGTTTCAAGAATTAACGAGATCATGAATATGACAATTATTAACCTTATCCTCCAGGTTGCACTAGGAGCGCTTGTCTATGTCGTTTGTCTGCTCATAATGAGGGCACCAATAGTTACGCAGGCAAAAGAACTATTAAAGAAAAAGTAG
>SRR1151252_01587 glycosyltransferase group 1
ATGCATCTTACATTCATAGCAAATAAGATTACTGGTCGTGGTGGAACAGAGACCGTTCTTGTTAAGGTACTAAATAATTTGGCACAGGATAGTAACAATGAAGTTAGCCTTGTCTTATCAAACCTTACCCCTAACAGGGAATGGTTACGTCAATTAGATCGCTCGATTAAAATAACTTACCCTCATAACAGTTCGAGAGTATCTCGTTTGTTTTATTTCACGCGGATTTTTCTTAATGGGCCTAGAAATGAAACATACATAATTTTAAGTCCTAATATTATTAAGCTCTATGCTAAATTGAGGAAAATCACTCATAAGAAATGTAAGATTGTTTCTTGGTTTCATTTCTCCATTGCTAATCAAAAGGTATACGATCCTGAAAATATGGTTTATGCCGATTATCATTTGGCAATTAGCTCAGCGATTAAGAATCAAATGGTTGATTTAGGAATTGCTCCGCAAAAAATTTTCTTAGTCCTTAATCCTGCCGAGCACCATCAGATCTTTGAAAGTACAAAGAACGATGGGATTAAACACTTGTTATATGTGGGTAGAATTCAAAACAATGGTCAGAAGAATCTTAAAGAGTTATTCAATGCAGTTAGCCTTGTTGACTTTCCAATGATTTTGGACGTTTATGGAAGCGGAAAAGACGAACAGGAATGCCAACAACTGTGCTATAAGCTTGGTATCGATAAGAAGGTTGTCTGGCATGGCTGGGCTGAAAATGTTTGGAACGAGTTAGTGTACCGGCCGTTTGCCACTATTCTGACATCCAAGTTTGAGGGTCTACCAATGGTTTTCCTTGAATCCATTTCAAGGGGTATTCCATGTTTAGCTGCCAACTTTGACGGATATGATGATGTGATTATTGACGGTGTGAATGGTATGCACTATCAGCTTGGTAATATTCAAGAGTGTGCCCAGAAAATTCATGAGATTGCTGAGACTGGCTATGATGCCAAAAGGGTTCAAGAAAGTATCGCCAAGTTTTATGAAGAGAAATATTTCAGCCATTTGAAAGAAGTACTGCAAAAAATAACAAGTTATTAG
>SRR1151252_01588 beta-1,6-galactofuranosyltransferase
ATGAAGAAGGTAATTTTAACTGTTAAGGAAACAACAACAGGTAATAACGCTGGGCCTAAGGCAAAATTAGACATTGAAAAATTCCTTGTCAAAGATGGCTTTATCAAATGGAATTTTGAAATTGACCAACACTCTTTACTGCAGAAGGCTAAGACTGCTTACTTGAATGTGCCATTCTTTCTTAAGAAGCATCCGGATGTTGATGAGATCTTCCTACAATATCCGACATACTCTCGAATTGTTACTAGGCAGTTAGTAAAGAGAATTAGCCAGATGGATACTAAGCTGTTTTTGATTATTCATGATGTAGAGTCTCTGCGACTACATCTTAATAAAAAGGACTATATAAAAGAGGAACTTAATACCTTCAATAAGGCCGATGGCTTAATCGTTCATAATGATCAGATGAAGAAATGGCTTATCAATAATGGGATTTCTGTTCCAATAATAACTTTAGGGATTTTTGACTACGCTAGTGATGTTAAATTATCCGACCGAAATAGCAGCCGATACCCTTCTGTCTGTTTTGCTGGTAATCTTAATAAGGCGAAGTTCCTGGGAAATTTGTCTTTTAAAAAAGTTCAGTTAGATGTTTTTGGCCCTAATCCATTAGATGAATATGGGACTAACGTTTCCTATAAGGGACAGTATTCACCTGATGAACTGCCAAAGTATTTAGATGAAAACTTTGGATTAGTATGGGATGGCTCAACGCCACACACGTGTGATGGCTTGTTTGGAAATTACATGCGTTTTAATGATCCGCATAAAGCATCTTTATACCTAAGCAGTGGTATCCCTGTGATTATTTGGAAAGAAGCTGCTTTAGCCGCGTTCATTGAGAAAAATAATATTGGCCTTTCAGTATCTGACCTTAATGATATGGATGAAGTTTTATCGGAGTTATCTCCGGAAAAGTATCAACAAATGGTAATGAATGCCCAATTAATCGCTAAAAAATCAAGAAATGGTTTTTACATTCATCAGGCAGTTCAAAAGCTAGAAGCAAAGGTGGCAAATGAGGGGAAATAA
>SRR1151252_01589 acyltransferase
ATGTCAGTAAATAAAAGATTACACTACATTGATGTTTTAAATTGCATTGCAATCTATTTTGTTTTAGTCTTGCACACCTCTCAACTGGCTTTTCTTGGTAGTCCTAAGGATTCAAACTATGTTACAACCCTAATACTACAAACATTGTGTGGACCGGCTGTATATATTTTCTTTATGAATTCAGGGGCAACGCTTCTAAACTATCGTCGAAAGTATTCTACTAAGACCTTCATGTTGAAAAGAATTAAGCGGGTGGGAATACCTTTCCTGATATGGTCGATTATTTACTATATTTACGATATTAGCCATCGTGCTTATCCAGGACCAATTCAGCATCCACACCCTAGCTTAACTAATTTTATTAATGCCTTTGCCAATAACAATATAAATAATTTGTTTTGGTTTTTCTATTCGATTATTGCGCTCTACTTAGTAACGCCAATTATATCGGTGCTTATTGATCATCATCAAAAGACGCTATTTGGAATTGTAGTAGCATCATTTATGCTTACGGATGTATTAAACTATGTAAGTAAATTAACAGGGTTAAAGTTGATGACGTCATTTATGACGCAGCCGTTGATTACCTCTAACTTTGTCGGGTACTTTGTTATGGGGTATTTAATTAAAGAGAGATTCTTTAGTGAAAAAGAAGAGAATTATTTGATAATTATTGGGCTATTTGCTTTAGCTATATCGTTAATTAATGACTTAACACTACACAGGTTTGTGTTTATAAACAATATTGGCCCATATCTTTATTCAGTTTCTCTTTATATTCTGATTAAGCGAATAACTGAATGGTTACACACGGAAAAGTCATATGATTTTAAAATCTTTAAGATCCTATCAGGGGCGAGTCTAGGTATCTACATTATTCATCCTATTCTGTATGAAATGCTTGATAAGTATTTATTTCACGCAACTCCATATAATTGGGGAAGGTTCCTAAGATTGATGAATAACCCATATCAAATATTCCTAGTGCCAGTTATCGCGTACGTTATTCTTTCTATAGTTGTTGTTTTAATAAAGAAGAATCGGTATATTCGAATTTTGATACCGTAA
>SRR1151252_01590 muramidase
ATGGATTTGCGAAAGCATTATAAGCTATATAAAAGTGGTAAGCAATGGTGTGTAATGGCACTGGCAACACTCGCAAGCATTATTGGTGTTGCAACTGCCGTTAGTGCAGATACAACAGTTACTAATCCTGGTGAAATTAATGGCTCTACGCAAATTAATGTAATTAATAATGTAGACTCAAGTAGCACTTTGAATGGTGATCAGGCAGAGCAAGCGCAAACTGCTCAAAGCAATGAAGTAGTTTTGAATAGCGCACAAGATAGTACAGCCGCACAGAGTGCAGAACCAGCTAGTGCTTCTGCTGTATCAGAGGAAAAAACAACCGCTGCACAAGGTAGTGTAACTGCTGCAACTGCTGTCCAAAATAGTAATAGTACAGAGATATCAAGTGATGTAGCAAATACAACGACTCAGGTAAAGGTTGCTGCTGCAAGTAGTCAAAAGAATGGTTGGGTAAACGAGAATAACCACTGGGCCTACTATCAAAACGGTCAAGTTCAGTCAGGGCGAAGCTATTCCTATTTACCGACTATTACTGCTAATGGTACTGGTGCTGGGCATGATTGGTACTTGGTTGACAATGGAGTTGTCCAGTCTGGTGTTCAAAAGTGGGCTGGTACCTACTATGATTTTGATCCAACTACTTACCTGCGCGTAGACAATAGCTACGTTAAGTCTCAATGGGGCGATTGGTATATGTTTGGTCAAGACGGCCGGATTGCTACCAAAGTCTACAAGTGGATGGGTACCTATTACTACTTCGACCCAAGTACTTATCTACGCGTAGATAACGATTACCGTCAGTCTCAATGGGGTGACTGGTACTTATTTGGTAATGATGGTCGAATTCAAACCGGTGTTCAAAAGTGGGCTGGTACTTACTACTACTTTGATCCAGTAACTTACCTGCGGGTAGATAATGATTACCGGCATTCCCAATGGGGAGACTGGTATCTCTTTGGTAATGATGGTCGGATTTTGTCGGGCTTACAGAAGTGGGCTGGCAGTTACTACTACTTCGATCCTTCTACTTACCTAAAGGTGACTAACAAGAACTTTACGTTCGCCGGAATGGCATTACATGCTGATGCATCCGGAATTATCACCGGTCAAAACCGTAACTCTTCATTTATGTTGAGTATCTACCAAGCCGCTCTTGACGGTTGGCATCAATATGGTGTATTGCCTTCTGTTACGGCTGCACAGGCCATCCTGGAAAGTGCCTGGGGTGAATCTGCACTGGCCACCGAAGGCCATAACCTGTTTGGTATTAAGGGAAGCTACAATGGTCAGTCGATCGTAATGCGGACTGCCGAATATGGTGCCGGTGGTTACTACTACATCAATGATGCTTTTCGGCGATACCCAAGTAACTACGAGAGTGTTGTTGACCATGGTCGTTTCTTAGCTTCGAACAGCCGTTATCACAATCTTCTGTGGCAAAAGAACTACGCAGTTGTGACTAATGACCTGCATGCAGATGGCTATGCAACTGCCCCAACTTATGCTTCAAACTTAAACAACGTTATTCGGACGTATGGCTTGGACGCTTGGGATCGTCAAGTATTCTAA
>SRR1151252_01591 N-acetylmuramoyl-L-alanine amidase, family 2
ATGACACAAAAGAAACACTTTAAGTTATATAAGAGTGGTAAGAAATGGTGCATAATGGCAATTACAGTTGTTGCAATGGCTTTCGGAATGGCAAGTGCGCAAAGCGCTAATGCTGATGAGGTGTCTAGTGCTGAGCCGACAACGGTTCAGACGGTCAGTGCTAACCAGAATGTTAACTCAACGACGACTGCTACTTCAGACCAATCAGCTACTCCTGATGGGGCTAACAAACAAAATTTGACTAATCACAGCTCAACCCCAAACGAACAAACGGTGGTTAAGAGTGCGGCCGCTAATCAACAAAGTAACGTTACAACTGACAACCAACAGCCGGTTGCTAATGCTGTAGTAAACGATGTTGATACTCACACCGTTAGCAAACACTCTGCGGCTACTGAGCAACAGAACGGTTGGGTAAAAAATAATAATGGTGGATGGACTTACTATACAAATGGTCAGGCTCAATCCGGGCGGAGTTATTCTTATCTACCAACTATCCCAACCAGCGGAAATAGTACTGGTCATAACTGGTACTTAGTTGATAATGGTGTTGTTCAATCCGGTGTTCAAAAGTGGGCTGGTACCTACTATGATTTTGATCCGACCACTTACCTGCGCGTAGACAACAACTATGTTCAATCTCAGTGGGGCGACTGGTATATGTTTGGTCCGGATGGTCAGATTGCCACGAAGGTATATAAGTGGATGGGTACCTATTACTACTTCGATCCAAGTACTTATCTGCGGGTAGATAATGATTACCGGCAGTCCCAATGGGGAGATTGGTACATGTTTGGCCCAGATGGTAGGATCACAACTGGCGTTTATAAATGGGCAGGCACTTATTACTACTTTGATCCAAGCACGTACCTTAGAGTTAATCATGACTACCGCCAGTCCCAGTGGGGTGACTGGTATATGTTCGGCGAAGACGGTCGAATTGTTACAGGATTATATGGTTGGAAGGGTAGCCTCTACTACTTCAATCCAGGTACTTACCTTAAGGCAACTAACCAGACCGTCTACGCTAATGGTAAGTCCTACTGGGCAAACGCCAGTGGTATTATTAGTGGCTTTAACAGCATCAATAACTACATCTTAAATAACCGTTTAGGTCACGCAAATATCTACTTCTATGACAATGGTCAAGCGATCCCGCTTAATTTAACTTCAGCGTACAGTGGCACTGGTAATGGCCGGCCAAACATGGTGGTTGTCCATGAGACGGCTAACCCGAATGATAGTATTTGGGGAGAAATTAATTTTGAAAAGGACCATTACGATGATGCCTTTGTTCATGCATTTGTTGATGGCAATAACATCATTCAGATCTCCAACACTGATCATGAGGCCTGGGGTGCTGCTTATCCGGCAAATGGTCGGGCGGTTCAATTTGAGCAGGTTGAGGTTCATAATGGCTACCAGTTTGCCCGTGAGCTTTCCAATGCGGCTTACTACACCGCCTACATTATGCATAAATATGGTATGGATCCTTCGTTAGCTCAATCCAATGGTACTGGAACGTTATGGTCACATCACAATGTTTCTCAATACTTGGGTGGAACTGACCACACTGATCCTGATGGTTACTGGTGGACTAATGCTCATAATTTCTTCGGTACTAACTACACGATGAGTGATTTCTACGAGTTAGTTAGTCTCTATGCTGGTGAAATGTAA
>SRR1151252_01592 NLP/P60 protein
GTGGCGATTGCAATGCTGAGTGCGATGGCAATCGGGACGACGACTAACGCTGATGTGGCTAATAAAGACGATGCCAGTGTTGTTATGACGACTCAGTCGGGCAATAATAGCAATCGACATAGTGAAATTGCCGATAATTCTGCTGCAGCAGTCTCAAATACCAGCACCGAACAGAGGCAGACTATTGCCGCTACGCCATCCACACAGATTAATGAGAATAATCAATGGACTTATTACACCAATGGTAAGGTCCAGGCAGGTCGTAACTACGTCAACCTGCCAACCATTAATGGTCAAGGGAATAGTTAG
>SRR1151252_01593 integrase
ATGGGCACCACTATTTTATCATTCCAGAACCGCGTTGTCATTGAAACGCTTCATAATGAAGGACGTTCCTTGCGATACATCGCTAACTACTTAGGCTTTAGTAAGACCACGATTTTTAACGAACTTCACCGACTAAATGGTGAGTATCAGGCTGAGCTAGCGCAATCTGACTTCGAACGAAAGGTTGGTCAACAGGGGCGGAAGTCTTCGCTCACTAAAAACCTTAAACACTTGATCGAGGAAAAGCTTCAAGTCCAGAAGTGGTCCCCTGAACAAGTTGCCCATGTGGTTGGGATCGCCTACAAGACGGTCTATAACTGGATTGATCAAGGATGGCTTGATGTACAGTTGCCCGATTTGCCTGATCATGGAATTCGTCGTCATCGTGCTAAAGAAAAGCGGGGTACGTTCAGTCACGGCCGCTCCATTGAGAAGCGTCCTCATAAAGTCGAAACTCGCCAGGAATTCGGCCACTTTGAAGCTGATACCGTACTCTCTGGTAAACGCAAAGGTCAAGCTGTGGCGACTTTTGTGGAGCGTAAAAGTCGCCTGACAATTGTTAAACGGCTCCATGGTCGCGACAGTCAGTCCATGACTCAAGCCGTACTTGAACTAGCTAGTCAACTTCAAGACAAGCTCAAGACGCTTACCGTGGATCATGGGAAAGAGTTCGCTAATTATCAGGCAATTGAACAGCTAACGGGTACTCAGGTTTACTTTGCCCATGCCTATTCACCGCATGAACGCGGTAGTAATGAGAACCGTAACCGAGTTTTGCGACGGTTTATTCCTAAGGGCCAAGCCATTGAAGAGCTGAGCGATCGCTAG
>SRR1151252_01594 glycosyl transferase
ATGCTTTTAACAGTGATAATTCCAGCGTTTAATTGTGAAAAAACGATAGCTCGCTCTATAAAAAGTACCGGAGTATATTCTAATAATGAGATCGAAGTAATCGCTATAAATAATGGATCAACAGATAGTACCGAAAAAATCATCAAAAAGATAATTAAAAAAAATAAGAATGTTAAATATGCGGAATCAATCAGTGGCGTTTCAAACGCCCGGAATAAGGGAATCGAGTTGTCTACTGGTAAGTGGATTACCTTCCTAGATGCCGATGATTATATTACAGATACTCGAAAATTCGATTTGAAAAAGTATTCTTCACCTTCATTTGCCAGCACTGACCTTATATTCTTCAATTACTTTGTGGGTCACTCAAAGGTTAATCTCTATTCAATGACGGAAACCAAAAACGATGTCAAGCAGTTATTAACCACAGTATTAGAAAATCCCACTAAATATTTAACGGTTTGGGGAAAGCTCTATCGTACCAATACAATAAAAAAAAACGGTATCCATTTTGATACCTCATTGTCATATTCTGAAGACTCTGAATTTTTAATTCGTTATTTACTCTCCTGTAGGCACGTGGTATTTGAAGACTCTTTCCTATATAACTATTGCTTATCAGAAGATTCAACTGTTAGGAAATATAATCCAAGTATGATTAATGAATATCAAAAAGCTATTCAGAAAATAAGAAAAGACACTTTCCCATACCCTTACTTAAAAAGAAGTTATTTAATTTTCGTACTAATGCAGTTTAATCTAATGATGGTTCATAATGTTTTTATTGAGCCAAGTAACCAACTACAACAATTAAAGGCCATGTGTAAAAAGGAATATATGGCAGAAGCCTTAACGGCAATTAACCTTGGTGACATCTTTACACCACGCTTAACACCACTTGTTCTCTGCAAATACCACTTTTATTTTCCAGCATCCCTCATCTATAAATTTAGGGTCTTTCAAAATACAAAGGAACAGTAA
>SRR1151252_01595 NLP/P60 protein
ATGGAAACCAAGAAACATTTCAAGTTATTTAAAGCAGGTAAGAAATGGTGTGTTATGGCAGTCGCTGTTGTTGCAACGATGATTGGCATGACCACTGTTGCCAATGCCGATGTGACTAGTGATGCGTCAACTACTGTTCAGACGGCTCAAGTTGTTAACACCAGTGCTACTACTAGCCAAGCCAGTGCTAGTGCTGATACCGACGTTCAATCTGCAGTAGCCACTGTTTCCAGTGCAGACGTTCAAAGCCAAACTGCTGCTACTAGTGCTGCCACAAGTACGGAAGTTGCATCTGCCCAGCCGGCTGAAGTTGCTTCTGCTCAGCCAGTTGCTGAAGCTTCGACTTCTACTGTCAGTGCCCATGCAGCTACGCCAGCTAGCCAAAAGAACGGTTGGGTAAACGAAAACAACCAATGGACTTACTACAACAATGGTAACATTCAATCAGGGCGCAGCTATTCTTACCTGCCAACCATTAATGGCCAGGGTCACAGCTGGTACCTAGTTGATAACGGTATTGTTCAATCCGGTGTTCAAAAGTGGGCTGGTACGTACTACGATTTCGACAGTAAGACTTACCAACGTGTGGATAATAACTATGTAGAGTCTCAATGGGGTGACTGGTACCTGTTTGGTAACGATGGTCGAATTCAATCCGGTGTTCAAAAGTGGGCTGGTACGTACTACGATTTCGACAGTAAGACTTACCAACGTGTGGATAATAACTATGTAGAGTCTCAATGGGGTGACTGGTACCTGTTTGGTAACGATGGTCGAATTCAAACCGGCGTTCAAAAGTGGGCTGGTACGTATTATTACTTTGACCCAAGCACATACCTGCGTGTCGACAATGACTACCGTCAATCCCAATGGGGTGACTGGTACCTGTTTGGTAACGATGGTCGGATCCTTTCCGGTTTACAACAATGGAAGGGTCAAACCTACTACTTTGATCCATCAACCTACCTGAAGGTTACTAATTCTGATGTCACCGTTAATGGTGTTAAGTACCACTTAGATAACAACGGTGTGGCTAAGGTAGTTAACAATGTTGATGCCAAGGTTAACCGGGCATTATCTCAGCGTGGTGTTGCTTACGTTTGGGGTGGTAACACGCCGGCCGGATTTGACTGCTCAGGTCTTGTTCAATGGGCATATGGCTTAGGTGCTAACTACCGGACTACTTACCAACAAACTACGTTAGGTGCTCACCACTACGATGTTTACAATGCGCCAAAGGGTGCTCTCCTGTTCTTCGGTGGCGATTCTGCTCCTTACCACGTTGCAATTTCTCTTGGTAATGGGACGTATGTTCACGCTCCAGAACCGGGTGATGTTGTTAAGATTGGTTACTCTAAGTACTTCAAGCCAAGTTACTTCATTAATATGTAG
>SRR1151252_01596 hypothetical protein
ATGAAATTAAGTGCTAAATTGTTCTCAACTGTTGCTGCCTGTGGAATGGTATTGAGCCTGGCTGCTTGTGGCAATACTTCAAAGACTAGCTCTGCCAAGTCAGAGGCTGTTCAAAGTAGTAGAGTTACGAAGAAGCATAACAGCAACAAGGAAAATGCAAATAAAGGTTCGCAAAAGACAAGTGCATCCAATAACTCTTCTTCAAAAACTAGTAGCAGTTCCAATGTGACGAGTGGTTCAACTAGTTCTGATAGGTATTCAGTAACAGCGACATCCGAAAGTGCTAATGGGTCTTCAAAATCGGCTAGTGTTGTTAAGAAACAAAGTGCTTCTCAACAGGCAACAATGAATGCTACCGATGCTAAGAATATTGTAAAGGAACACATTGGTAATCAGTTGAATAACCGCGGGGTCGCTGGTCAATCTACTAGTGACTTACCATCGATTGATTCTATCGATGGTTACACAGCCACACAGAATGGTACTAATAACTGGACAGTTAGTGGTAATGGCCATACGTATAATGTCACCGCTAGTTCAGTTACGGGTAACTAA
>SRR1151252_01597 hypothetical protein
ATGAGTAAGAGTAGAAATGATTACTGGCTAGTAGTATTAGCAATAGCTCTGCTGGGAATAAATATCAACTATCCAACTGATTCCCAAATACTTAGGATAAATAGCAATCCTTGCTATTCACTCCTTTTTACATTATGGGTATTAATCTTATTTCAAGGATTAAGAAAGGGAAAAATTAGGCTAGTTTTAAAATATGATTGGTTTGTAGGCTTAATTTTTTCGTTATTGTATTGTATAACTTTTGCAGTTAATAATAATCTTGGCAAAACTTATTTTAACGGTGGATTGAACATAGTCTTTACTACTTTTTCGATACTTAGTTGGATGATAGTTTATACGTTAACCTTTAGTTATGTCAGATGTCATTTTGGTATTGTAAGTTTAAGTACATCGATTACTCCCAAAATGGTTTATATTTGGTTGCTATTAGCAGTAATATGGGGAATCTCTATAATTGGTTTATTACCTGGTCAGATTTCATGGGATGGAATGCGGCAATTTTGTGAATTTGACGGTACTCATATTGCTAAGCTAGACTTTACCTATGTTCCAACGAATCATCATCCTTGGATTACTACTATTATTTTTGGAACATTATTTAACATTGGGAAATCCATGCTAGGTGTAAATTTTGGCGTATTTATTATAATAATAGTACAATTTATTATTAGTAGTATTATATATACTTTTGTTATTAAATACGTTTGGCAAAGGATTGGTAAGTTTGGTGGATTATTTACGTTTATTTTATTTGCCTCTCCTTACTTTAGTTCATACATTGTAACAATCGATAAAAGTACGCTTTATTATGCTTTTACAGCATGGTTCTATTTAATGTTTGCTAAACTTTTTGAAAGTATTAATAGGGAAACTAAGCCTTGGAATTATATTGGCTATTGCGTTTCTGCACTACTATTTAGTTTGTTTAGAAATGATGCTTTTTTAATTGTGATTGTTGCTACTACTATCCTACTTTGCTTGTTCATTAAGAATAAGGTAAGACTGGTATGGATAGCTAGTGTTTTTATTTTTCTATTAGGAATTCATTTTGGCTGGAATGCATATTTAAATCAAAAACAAGTAATAAAAAGTTCACCATCTGAAGCTTTAACTATTCCAACAAGGCAGCTTAGTAATATTTATTTAACTGATAAGGACTATTTAAATAAAGCTGATTTGGAAAAAATAAATAAAATAACTCCGTTATCACAGATAAAGTCAAAATATAATGTTAATAATGGGGATGGATTAAAGTCATTATATCCGTCTGATACTTTTTTAAATACCGATTATCTTATTGAAGATGTTGTCCAACATAAACTAAGCATGGCAACTACTAAAAAAGAGGAAAAAGAAATAGTCGAGTATTTAAAAGTCTGGGCCAAAGTTGGAGTTAAAGATCCAGTTTCATATATTCAAGTATATTTGACAGCAAATTCAGGTTATTTAAATCCATTTATAAATTATAACGCTTCTCTATTCTTAGATTATTATCCGAAAGTAGGATATTTTATGCAACCTTCTTGGTATAAGCGGTATCACGCTTTGTTTAGTAATGAAACTAGGCAAAATATATATACCATACTTAGCATATTTGTTATGTTCCCACCATTGGCCATTATCTGTAATCCAGCTACTCTTGCTTGGGTATCATTAGTCTTGTTCTTTATCTTGATAAAGAAAAGATTAAAAAAAGAACTATTGTTTATATTGCCATTACTGATTATGTGCATACTTTTTACAATTACATCGGTAAATGGGTATACGAGATATACACTTGGTGCGCTTGCAGCTTTACCAATTGTAATTTCATATTTATGGGTAAAATTAACATCTCTTAAGAAAGTAAAGGAGAAATAA
>SRR1151252_01598 glycosyl transferase
ATGTCTGATAAGATTGCGGTGTTGATTCCTTGCTACAATGAGGGAAGAACAATAGAGAAAGTTGTCTTAGATTGTAAAAAGGCAATTTCGCAAATTCCAAATTCTAACGTGTATGTTTACGATAATAATTCAACCGATGAGACGGCCAAACTAGCCGAGAAGGCTGGAGCAATTGTCCGTCATGAATATATGCAAGGGAAAGGGAATGTCATTCGCCGAATGTTTCGCGAAATTGATGCAGAGTGTTACATTATGATTGATGGGGATGACACCTATCCTGCTGAGGAAATTCCCCAAATGGCTAGTTATGTTCTAAACCAGAAGTACGATATGGTTGTAGGCGACCGATTGAGTTCGAGTTATTTTGAGGAGAATAAGCGGCCATTCCATGGCATCGGAAATAAGTTAGTGCGAGGTAGTATTAACTTCTTCTTTAAGAACGACATTCGTGATATCATGACCGGTTACCGTGCTTTTAGTGCAGAATTTGTGAAGACTTACCCAGTCCTTTCATATGGTTTTGAAATTGAAACTGAAATGAGTATTTTTGCAATTGTTAATAATATGGCGATGATTAATCACGTGATAGAATATCGTGATCGACCAGCTGGTAGTGAATCTAAGCTTAATACTTTTTCCGACGGCTTTAAGGTTCTACGCTTAATATTTACTTTGTATCGTAATTATAAGCCACTTAAGTTCTATGGTTTTCTTTCTTTATTGCTATTTATTATTGCGGCAATTGTTTTTATCCCACATGTCTGGCTCCCTTACCATTCAACTGGGATGGTTGCTAATATGCCGACTCTTATTGTTTGTGGATTCTGCGTTATCGCTGGAATTATCTCATTCTATAGTGGGCTAATCTTGGATTCTATTCAACGTCAAGATAGACGAGAATTTGAATTTAGATTACAGGAGGTTCACCATTTTTTGAAGCAAGAAAATAAAGAATAA
>SRR1151252_01599 integrase
ATGACCTACAAACATCTTACCACACGTGAATTAACTCTCATAGCTGAATTTTATCGTCAAGACACTCGAGCTTATCGAGTTGCTAAATCACTAAAGCGTAGTGCTGAAACAATTTATCGAGTTTATCGTTACTTGGATACGGGCAAGACAATTACGCAGTATTTAAAACAGTACCAACGGAATAAGCGCCGTTGTGGTCGTAAACCAATGACGTTACCTGATGATGAAGTAAGTTACATTACCAAGCAAGTTAGTCAAGGTTGGACGCCAGATACCATTATTGGTCGGTTAGAGAAGAAAATCAGTTGTAGTATGCGGACGCTTTATCGCATGTTTGCTCGTGGTCAATATGGCTTTGATGTTAAGCAGTTACCAATGAAAGGTAACCGTCACCCAAATGGCTACGTTGAACGGCGTGGGAAAGCTGGCCATCTTGGTCGCAGTATTTACCAACGTTATCGCGATTTTCCACATTACCAACATGAATTTGGTCATTTAGAAGCTGATACGGTTCAAGGGAAAGCTCACCATGGTGCTGTGATGACCCTAGTAGAACGGATTTCAAAAGTTGAGATTGTTTTGAATGTCCATCACAAAACGGCCGAGAGTGTGAACTATTATTTGGACCAATGGCTATCAAAACAGTCTCGTCATCTTTTTAAGTCCATCACCTTTGACAACGGTAAGGAATTCGCGGGCTGGCGTGAGATTGCCAATAAGCACGATATCCAGACATATTTTGCGGAAGTCGGTGCGCCTAATCAGCGAGGGTTAAACGAAAACACCAACGGTATTCTTCGGCGTGATGGCCTGAGTAAAAAGAAAGACTTCCGTAATCTCCCGGATGAATTAGTTACTCAGCTAATGTCATACCGGAACAATATTCCACGGAAGTCACTGCACTACCGCACACCCATTGAGGTATTCATGGAGAATATCACAGATGCACAGTTAGTTTCTTTCTAA
>SRR1151252_01600 peptide chain release factor 3
ATGAAATCAACTAAAGAACTCGCTGAAGCCGTAAATAAGCGACGAACCTTTGCCATCATCTCCCACCCTGACGCCGGAAAGACCACGATCACCGAGCAGCTTCTCCTCTTCGGGGGTGTTGTTCGTGAAGCCGGAACGGTCAAGGCCCGGAAGACCGGAAATTTTGCCAAGTCTGACTGGATGGAGATCGAAAAGAAACGGGGAATCTCCGTTACCTCCTCTGTCATGCAGTTTGACTTTCAGGGTAAGCGGATCAACATCCTGGATACTCCGGGGCACGAGGACTTCTCTGAAGATACCTACCGGACTCTGATGGCGGTCGACTCCGCGGTCATGGTGATCGACTCCGCCAAGGGAATCGAACCCCAGACTAAAAAGCTCTTCCAGATTTGTAAGATGCGGGGGATTCCGATCTTTACCTTTATGAATAAGTTCGACCGTGATGCCCGAGAACCATTAGACCTACTAAATGAGGTTGAGGATGTGCTGGGCATTGAAACCTACCCGATGAACTGGCCGATCGGGTCCGGGCACCAATTCAAGGGGATTTACGACCGCTTTAACCACCGCGTCGCCTTAACTCACCCAGCCGATCCTGATCATCCATACCTGTCGCTGGACGATAACAGCAATGTTAAGGGGGACAATCCACTGGCCGGTTCTGGTGAATGGCAGGATGCTCTCGACGGAATGGAACTAATCGAGGTTGCCGGCAACGAACTTGACCGAGATAAGATTGCCCGTGGGGACCAGACACCAGTTTTCTTCGGGTCGGCCCTGACTAATTTTGGGGTCCAGACCTTCCTGGAAAATTACCTGCAATTTGCCCCAGCCCCGGGCGAACACAAGACTGAAGGTGGTGAGGTCGTCAAGCCACTCGATAAGGAGTTCTCCGGCTTTGTCTTCAAGATTCAGGCCAACATGAACCCGCGGCACCGAGACCGGATTGCCTTTGTCCGGATCTGTTCCGGCAAATTTGACCGGGGAATGGATGTCACCCTGGCTCGGACCCAGAAGCCGCTCCGCTTATCCAACGTGACCGAGTTCATGGCCGATACCCGGGAGAACGTTGAGACGGCGGTGGCTGGGGATATCATCGGCCTATATGATACTGGGAACTTCCAGATTGGTGACTCGATCTACACAGGTAAGAAGAATATCCAGTTTGAGAAACTACCACAGTTTACCCCGGAGCTCTTCGTCCGGGTCTCTGCCAAGAATGTCATGAAGCAGAAATCCTTCCATAAGGGGATTAACCAGCTGGTTCAGGAAGGGGCCGTTCAACTCTACAAGAGCTACACTTCCAACGATTACATTCTAGGGGCCGTTGGTCAGCTGCAGTTTGAGGTTTTTAAATTCCGGATGAAGAACGAATACAACTCAGACGTTATCATGGAGCCAATGGGCCACAAGACCGCTCGGTGGATCGATCCAGATCAGCTGGATGAGAAGATGTCCTCGTCACGAAACATCCTGGTTAAGGATATCCATGGCCAACCACTCTTCCTGTTTGAGAATCAGTTTGCCGAGAATTGGTTTAAGCAGAAGTACCCGGATGTTAAGCTGACGGCGAAATTATAA
>SRR1151252_01601 transcriptional regulator
ATGGATAATAATAATCATCGCGAATCGCGTGAAGATTACCGAAAACGAATGGAAGAGCGAATTCGCCAGCAGGTTAATGAAAATCGTCAGCGCGAACAAGCAGAGCAGGCTAGTGAAATGCCAAACGACTGCCAAGAATCCAGCAACAATTTTAAACCACCAGTGAAGCATCACTACCATATGCCAAACTGGATGCGGACCCTGATATGGTTCTTAATTATCCTGGTAGCCTTGGGCGGCTTCTATGAGTATCACAAGATCCACTCTGCTGCTACGGGAATGTTTGCCAATGGTAACGGTAAGATCAGTAAGAAACTGCAACGTGGGGATCCGGTCTCTGTCCTCACAATGGGAACCGACGTCGGTGCTCTTAACCGGGGTAATAAGGGTGGTAACACTGACTCGATGGAGCTCTTTACCATCAACCCTAAGTCTAAGACGATCACGATGACCAGTATTCCACGTGATATCTTGGTCCGGGCCAGCACCAAGGACGGTCCTGATTATGTCAAGTTGAACGCTGTCTACGCAATTGGTGGTGCTAAGCAATCAGAGAGACAGGTTGAAGAACTGCTAGGGGTCCCAATTGACTACTATGCCGTTATCAACATGGGGGTCCTTGAAAAAGTAGTTAACTCCGTCGGTGGGGTTGACGTTGATAACCCGTTTGCCTTTGATTACGAGGGTCACCACTTTAAGAAGGGAAAACAACACTTAAACGGGACTAATGCCCTCAAGTATTCTCGGATGCGGTATGACGATCCTAATAATGACTATGGTCGGCAAAAGCGGCAACAGCAGATCCTACGTAACGTTATTCAGAAGTTCAAGACCTCAGGCTCGATTGGTGCTGCTAATAAGATCCTTGATGCCGTTGGTGATGGGGTTAAGACCAATATTCCAATTGATAATATTGCGGCCCTCTACGGCAACTATCACGGAGCAATGGATAACGTCAAGACCTACCACTTTCAAGGTCAAAACGCGACGATTGATGGAGTCTCCTTCCAGATCGCTAGTCCTAAAGAAATTAACCGGATTTCCAAGCTGGTTCGAAAGCAGCTGGGACTAAAGTCAAAGACGATCGTTAATCATGAGACTAGGATGTATAAGTCTCAGCCAAACTTTGATGGTTACAATAATACTGACTTTATTTTGCCTGGTGGTGCTTCTTATAATGATCCCGGTAGTGGTAATGATAGCGATGAGGTCACCAGCAGTCATTATCGCAGTTCTAAAACGACCAGTTATGAGGAGAGTAGTGCTTCTCAACGGCAGCGTTTGAGTTATCATTCATATCGTACACCATCATATTCAGCCACTAATCAGTATGGCTATTAA
>SRR1151252_01602 hypothetical protein
ATGAAAAAGATCTTAAAGAATACTGTTGTGGGGATTGCAGCATTAACAACCTCCGTATTTCTTACCGCCTGTGGACAGCAAGCAGCTAGCAGTCAATCAAGTCGTAGTTCGTCTAGCACGCCATCCACAGAGAGTGAATCATCGCGTGCATATCATTCAGCCGAGCATTTAATTCGGCAGGGTAACTATAAAGCAGCCTCAACGAAACTCAATAGTGTTAATCATCGTTCTCAACAAGTCAATAATTTAAATACTGACTTACATAATTATATGAATGCTAAGAAGTCTTACAACAATGGGGACTATGAAGGGGCCAATAATAATCTGGTACCATTAAAGTCTAAGAGTTCAGCCATGCGCGGGGCATACTCTGATCTGCAAAGTAAGATTTCTAACGCTAAGAAGATAAGTTCAAGCAGCAGTGCTGTTGTAAGTAGTTCCACAACGAGCAGCTCTAGTAGTAGTATGGCTACTAGTCAAAGCACTACTGCCAGCCAGACAAGTACTAGCGTGATTAATAATTTTGCCAACAAAATGGGTTTCAGCAGTAGGGGCTATGAAATTACCCCAACTGCCAAGAACGGTAATAGTTACCGTCTTGAGGTTCGGCAGAGTAACCAAGATAACACCGTTGCCAATATGGTTGGGATTTACCAGTATAACTCTCAAACCGGCACGGCCACTAAGGTTCAATAA
>SRR1151252_01603 membrane protein
ATGTCTAGTCGAAAATTCTATCACTGGCTCTTTTGGCCGTTGGTGCTTCTTGTCATTGCCACATTGATCTTCGTTTGTACTAAGATCGAGTTTATTTTCAAACCCTTTTTAACCTTCATCTCGGTGGTCTTTGTGCCGCTGATCCTGTCGGGCTTCCTCTATTATATGCTGAACCCAATCCTTAAGTTGATCCTGAAGATCCGGATCGGCCGCTTTCACCTCAATAAGGGAATAGCCAGCTTACTCTTGGTTGCTCTGTTGATTCTGATCATTGTCAGCGGGCTGGCTGCCCTAATCCCGCCGGTGGTCAAGGAAATCACCAGCCTGGTAACTCACCTGCCACAGACCGCTAGCGGGATCCAGCGCTTGTTGAACAATACTATCCAGCAATCACCACTCAAAAACGTTGACCTGAATTCCTACTATCGGCAGTTTGACCACCAGTTGGCCAAGTACGCTCAACTGATTCTGAAGGGGTTATCCTCGCGGGTCGGGGACATCGTCGGGATGGTCACCAACATCACAATCGTTACTATCACCGTACCGGTCATGCTCTTCTATATGCTTAAAGACGGTTCCAAGCTCGGCCCTAGTGTGCAGAAATGGCTGTCGCCACACCATGCCAAGGAGGTTGGTCAGCTGCTAACTAAGATGAATGATACCCTGTCTTCTTATATTTCTGGGCAGGTGATTGAGTGTCTCTTCGTTGGGGTCTTCACCTCGGTTGGCTACCTGATTATTCACCAGCCACTAGCCCTAATCCTGGGGATTGTGGCCGGTCTATGCAATATTATTCCCTACATTGGGCCCTATATTGGGATCGCCCCGGCCCTATTCGTCTCGCTGACGATGGCACCAAAGAAGCTGATTCCGGTGATTATCGTTGTCTTGATCGTTCAGCAAATTGATGGTAATATCGTTTATCCGAACATTATTGGCCGCAGCCTCAAGATTCATCCGCTGACGATCATTTTACTTTTGTTGGCAGCGGGGCACATTGCGGGAATTGCGGGGATGATCCTCTGCATCCCGGCCTATGCGGTGGTTAAGACCGTCTGTGAGTACTTCTTTGATATTTATCGGATTGAGCACCCGGTGGAGGAAAAACAAACAGATAGATAA
>SRR1151252_01604 hypothetical protein
ATGTTTGAACAGTTTAAAACCGGTAACCCAATTTGGGTTTATTACGTTGACATCGACTCGGGCGCCAACCTAATCGTCCCCCAGCTGTTGCGGGGCCGGATCGGCGAGGAGTTCCAGGTTAATAAGAAGAAGTTCCCCAACTACAACTTTGTCAAGGCCGATGGTGACCTCAGTGGCAGCTTCGACATGACCCAGCGCAACGTCAAGCTCTTCTACCGGAAGCAATCCTGGGGTGAGGTCCAGGACATCGACATGTACCTGGCCCTAGACGCGCCGACCGTGATTTACGACACGGTCGAGGGGATGCCGGTCGGCCAGCCCCTGCCGCAGGACATCACCATCAAGGCCTTCCAGCGGGTCGCCACTAAGGATGGGCAGTTCTGGTATGAGATCGGGGCCGATCAGTGGATCAAGTACGAGCAGATGCACGTCGTCGATAACCCCTTCGGCAGTAAGGAGAAGATCCCCTCACGGTTGGCCAACCAGCTGACCGTCCTGAAGCTTAACCACGTCAAAGCTACCATTGACTACATTCCTGGCAAGGCGGTTGGGGTCTACGATGCCCCATACGGCAACCAGGTCGATAAGGTCGCCGACGGTCAAGCGGTTACTCTGGTCGGTAAGCTGAGTGATAACGACCAGCTGACCTGGTACGAGATCGGGCCAAAGCAGTACGTCTCGGGAAACTACGTGAAGATTGATGAAGAGGAATAA
>SRR1151252_01605 membrane protein
ATGACACGGCACCAACGAATCCGGCGCAACACGACCCGGGCGATCTTCATGGCGATCATCATCCTCCAGGACCTGGTGCCATTCTTCGGCAACATCCCCCTAGGCCCGCTGAGCATCACCACCCTCCACGTCACCGTCATCCTGGCGGCAATTATTCTCGGACCGGGGGAGGGAGCAATCATCGGTAGCACCTGGGGTGTCTTGACCTGGGTGCGGGCCTTCGTGGCACCGACCAGCCCGCTGGCGCCCCTGGTCTTCACCAACCCGCTGGTGGCGATCCTGCCTCGAGTAATGATCGGCGTGGTGGCCGGTTACCTCTTCCGCCTCGTCCTCCGTTACAGCCATTCGGAGCGGCTGGCGGCGATCCTGGCGGCGGCTGTCGGAACGCTGACCAATACCGGCCTCGTCCTGGGGTTGATCTACCTCTTCTACCGGACCCCGGCTGTGGCCCAGGCCTATGGGGTCGACGTCAGTCACCTCCTGCCGGCCCTCCTGGCGATTATGGCGACCAATGGCCTGGCAGAGCTGGTCCTGGCCGTCATCGTGGTGCCCCTAGTGGCCATCCCCGTCCTGGAGGTCCGCCGCCGGTTGATATAA
>SRR1151252_01606 ATP-dependent Clp protease ATP-binding protein
ATGCTCTGTCAAAATTGTCATCAAAATCCCGCGACGATTCACCTACAGATGAACTTCAACGGTCAGCGGGTTCAAATTGACCTCTGCCAAAATTGCTATCAAAAACTACAAAACCTGCAAACCAATATGATGAACGGGGGGAACGGAATGAATAACTTCAATTTTGGAAGCCTCGAAGACTTCATGAACGCGATGAACAACATGCAAAGTCAGGCCGCTGGTGCCAATGGTCAGGCGGCCGGGGCCCAGGGTCAACGCCAGGCTGGTCGCCGTGGCGGCAAGGGAATCCTCGGCCAGTACGGGATCAACCTCACCGACATGGCCCGTCAGGGTAAGATCGACCCGGTAATCGGCCGGGACAACGAGATCAAGCGGGTCATCGAAATCCTCAACCGGCGGACCAAGAACAACCCGGTCCTGATCGGGGAAGCCGGGGTTGGTAAGACCGCGGTTGTCGAGGGTCTCGCCCAGTCAATTGTCTCCGGTGAGGTACCGGAGAAGCTGGCCAACAAGGAGATCATCCGGCTCGACGTCGTCTCCCTGGTCCAGGGTACCGGGATCCGTGGCCAGTTCGAGAAGCGGATGCAACAGCTGATGCAGGAAGTCCAGAAGAACAAGAACATCATCCTCTTCATTGACGAAATCCACGAAATCATGGGTGCCGGTAATGCCGAGGGTGGCATGGACGCCGGCAACGTCTTAAAGCCTGCTCTTGCCCGGGGCGACTTCCAACTCATCGGGGCCACGACCCTCAACGAGTACCGGAAGATCGAAAAGGATGCTGCCCTCGCCCGGCGGTTTCAACCAGTTGAGGTTGACGAACCATCCGTTGCCGAAACGATTAAGATCCTGAACGGGATCAAGGGTCGTTATCAAGATTACCACCACGTCAAGTACACCGATGACGCGATCGTTGCCGCTGCCAAGCTGTCCGACCGTTACATCCAAGACCGGTTCCTGCCGGACAAGGCCATTGACCTGCTCGATGAAGCTGGTTCACGTAAGAACCTAACCCTGAAGACGGCGGATCCTAACGCGATTGAAAACGAGATCCACACCGCTGAGGCTCATAAGCAACAAGCCGTTGACAACCAGGATTACGAAAAGGCGGCCTTCTACCGTGACCAGGTCACCAGGCTAGAGAAGGCCAAGAAGGCGGCCGAGGGGAACCACACTGAGGACTCCGCAACCGTTACCGTGGCCGACATGCAGAAGATTGTCGAGGAGAAGACCAACATCCCCGTCGGCGACCTGCAGAAACAGGAAGAAAACCAGCTTCGCGACCTCGATAAAAAGCTAGAGGAACACGTCATTGGCCAAAACGAGGCGGTTGACAAGATCGCCCGGGCCATTCGGCGGAACCGGATCGGACTGAACAAGTCTGGGCGGCCAATCGGTTCCTTCCTCTTCGTCGGCCCAACCGGGGTCGGTAAGACCGAGACCGCTAAGCAGCTGGCCAAGCAGCTCTTCGGTTCCAAGGATGCCATGATCCGGTTCGACATGTCCGAATACATGGATAAGGCCTCGACCTCCAAGCTGATCGGGGCGGCCCCAGGTTACGTCGGCTACGAGGAGGCCGGTCAGCTGACTGAACAAGTCCGCCGGCACCCGTACAGCCTGATCCTGCTCGATGAGGTTGAAAAGGCTCACCCGGACGTCATGCACATGTTCCTGCAGATCCTCGATGATGGCCGCCTGACCGACTCCCAAGGCCGGACCGTTTCCTTCAAGGACACTATCATCATCATGACCTCCAACGCCGGGACCGGGGATGCCGTGGCCAGCGTCGGCTTTGGTGCCGAGGCTACCGGCAATACCCACTCGATCATCGACCAGCTGACCAATTACTTCAAGCCGGAATTTTTGAACCGGTTCGATGACATTGTTCAGTTCAACGCTTTGACTAAGGATGACCTGATGAAGATCGTCAACCTGATGATTACCGACGTCAACACGATGCTGGCCGATCGGGGCCTCCACATTGACGTGCCGGAAGACGTTGCGGCTAAGCTCGTTGACCTGGGCTTCAATCCAAAGATGGGAGCTCGGCCACTACGGCGAGTCATCCAGGAGCAGATTGAGGATCGGATTGCCGATTACGTCCTTGACCACAACGACGTCAAGCAACTGGCCGCTAAGCTCGATGACAATGGCAACATCACCGTCACCGCTGCAGCCATGCCGGCCACGACCAATGCCAGTGACGATCACGCCGAATAG
>SRR1151252_01607 hypothetical protein
ATGGAGAACTATGAACAGCAACTCGACGACCTGCGTGCCGGTAAGATCGACCACTTCGAGATCACACCGGAGAACTTCCAGGCCTTCCAACGGGTCTACCACGCCTACCCGTACCGGACCCAGATTGAGGGGAAGGCCAACATTGGCGGTAATATTACCTATCACCTGCGCCAGCGCTGA
>SRR1151252_01608 phosphocarrier protein HPr
ATGGAAAAACGTGACTTTACGATTACTGCTGAGACTGGTATTCACGCACGTCCAGCAACGATTTTGGTACAAACTGCATCCAAGTACAGCTCAGATGTAACCCTGTCCTATGAGGGCAAGAGCGTCAACCTGAAGTCCATCATGGGGGTTATGTCCCTCGGTGTTGGTCAAAACGCCGACGTTACCATCACGGCTAACGGTGACGACGAGAAGGAAGTCTTGGACGCCGTTGCCGAAACAATGAAGAAGGAAGGATTGACTGACTAA
>SRR1151252_01609 phosphoenolpyruvate-protein phosphotransferase
ATGTCTTTGCTACTGGACGGGTTGGCAGCGAGTAGTGGCATTGCCATTGCACCTGCCTACCTGTTAGTAGGGCCAGATCTATCCATTAAGAAACAGCATACTGCTGACAAGAATCATGAAGTCGCCCGGCTTCGTGATTCTTTTACGTTAACCACCAAAGAATTGCGAGCTATCCGTCAGCGGGCCCACCAGGACCTGGGGCAGCAGGCGGCCGCGGTGGTGGATGCGCAGCTGACGATGGTGGATGATCCCGTCCTCGTAAAGAAGATCGAAAACTTAATCAACGAACAGGCCGCAACGGCGGAGTGGGCGGTCAAGCTGATCACCGACCACTACTTGGAGCTCTTCGAACGGATGAATGGTAACGACTACTTGAACTCACGCGCCTTAGCCATCCGGGACCTCTACAAGCGGGTAATTAGCCACCTGCTGGGGACCAAGTTGCCAGATCCAGCAGCCTTGGACCATCGGGCGATCCTAGTCGCTACCAACATCACGCCGACCGATACCGCCCAATTTGACCGGCGCTACGTCGCGGGGCTGATAACGGACTACGGGGGACGGACTTCGCATTTCTCCATCATGTCTAAAACCTTGGATCTGCCAGTGGTGGTTGGCACCCATACGGCTACCAAGAAGATCAACGATGGGGATCTGCTGGTCGTCGATGGGATTCATGGCAAGGTGATCGTCAACCCGACTGAAGCGCAGCTGGAGCACTACCGGCTGCTGGCCGGCGAATTTGCTCGTGAGCAGCAGGTATGGGGCGCATTGCGTGACCAACACACCATCAGTCGTGATGGGCGCCGGTATGAGGTGGGGGCCAACGTTGGCAGCCTGCGTGATATTGACACTGCCCGGGACCACGGTGCCGAGGGGATCGGCCTTTTGCGGACCGAGTTTCTGTACATGGATCAGACCGAGCTGCCAAGTGAGGATGACCAGTTCAAGGCCTATCGCCAATTCGTCAGTGGGATGGACCAGCAGCGGGTCGTGGCCCGGACCTTGGACATCGGCGGCGACAAGCGCCTGGGGATGCTCAAATTACCCCGGGAGGACAATCCCTACCTGGGTTTCCGGGCGATCCGAATCGGGCTGGCCGAGCCGACGGTGTTGCGTCCCCAGTTGCGGGCCCTGCTCCGGGCGTCGGTCTACGGGCGGTTGGCAATCATGTTTCCGATGATCGCCACCCCCGAGGAATTCACCCGGGCCCGGGAAATCCTGGACGAGGAGGAACGTAAGCTCAGCCGGGCCGGCATTGCGGTGGCTGGTAATATTGAGGTCGGGATGATGCTGGAGGTACCATCGGCGGCGGTGATGGCCGACGTCTTCGCCCCCGATGTTGACTTCTTCAGCATCGGCAGCAACGACCTGATCCAGTACCTCTTCGCTGCCGACCGGGGGAACTCCCGGGTAGCCTACCTCTACCAGGAGCTCCATCCGGCGGTCCTTCGCCTGGTCAAGCGGGTGATCGACGCCGCCCACGCCGAGGGCAAGTGGGTTGGGATGTGTGGCGAGATGGCCGGTAATCCCCTAGCAACCCCACTTTTGACTGCGATGGGGCTGGACGAGTTTTCAATGAACAGTAGTCAGATCCTACCGATTCGCTCCCTGATCAGCCACCTTAATGTCCGCCAGCTTCAACCGCTGGTCCACCGGGCCCTGGCCGCCCGCAGCGCCCGCGAGGTGGAGATGCTAGTGCGGGAATACGTACCAATATTAAGGAAAAATTAA
>SRR1151252_01610 glycosyltransferase
TTGAATATCGGTCTCTTTACAGATACATATTTTCCACAAGTCAGTGGGGTCGCAACCTCCATTAAAACCCTTCGTGACGAACTGATTGCCCAGGGGCACCACGTCTATATCTTCACGACTACCGATCCACAGGCCAAGCATGATGATGTGGCGGCCGGGATCTATCGTTTTCCCAGCATCCCCTTTGTTTCGTTTAAAGAACGGCGGATCGCGGTTCGGGGCGGCTTTCGGGCGGTCAAGTTGGCCAAGCAATTTCAGCTCGATATCGTCCATAACCAGACCGAGTTTGCCCTGGGGATGATCGGTAAGCTGGTGGCCCACGAGCTGAAGATTCCCTGCCTGCATACCTACCATACGATGTACCAGGACTATCTCCACTACATTGCGAACGGCCACATCGTCAAGCCGCGCAACGTCGCCACCTTCGTCCATCTCTACATGAAGAGCATCGACGGGTTAATCGCACCGAGTGACCGGGTCCTCGACACCATGCACAGCTACCACGTGACGGCACCGATCCGGGTGATTCCAACCGGGATTAACCTCCGTGTATACCAGCAGCGGGACTCGCCGGCCCAGCTACACGCCCTGCGACAACGCTATGGTTACGCTGATGATACCCCGGTCCTGCTTTCCCTGAGCCGGCTGGCCTACGAGAAAAATATCAACGCCCTGATTGCGGCGATGCCCGATATTCTCGCCCAGCGACCGACTGCCCAGTTGCTAATTGTGGGGGCGGGACCGGCCCGGCAGAGTTTAGAGCGGCAGGTCCGCCAGCTGGGCCTGACTGAACACGTCCAGTTTGCCGGTGAGATCGACAATAGTGAGGTTTACCATTACTATCAGATGGCCGATGTTTTCGTGTCGGCTTCTGATTCGGAATCCCAGGGCTTGACCTACGATGAGGCCCTGGCGTCCGACCTACCGATTGTGGTGATGCGGAGTAAGTACACCGACGAGCTGATTGATGATCCCGCCATCGGGGTCAGTTTTCAGCAGCAGAGTGGTTTAGTCCGTGGAGTGCTGCATTACCTGGATCACCCGGACACGGAGAAATCTCATGACCGGCGCCAGGCCAAGCTGCATTCGATCTCTGCGGAAGTCTTTGCCCAGCAGGTAGTCCGTTTCTACACCGATTGCCAGGCGGAACTGGCGGCTCGGCAGGCGGCTAAGACCAGGCACCGTTTGTTTCACTGA
>SRR1151252_01611 glycosyl transferase
ATGCTTAAGGTTACAATGTTTTCATCAGCAGATAAGGTTGCTGGTCAGGGGGTCGGCAGCGCGTACTTAGAGTTAGTCCACCTGTTGGAGAGCAATTTTCGGGATGAATTCGATATTGCGATCAATGAGTATCAACCGTCGACAATCAGCCATTACCACACAATCGATCCACGTTTCTACCTGTCGACCTTCTCTGCTAAGCGGGGGCGCAAGATCGGCTACGTACACTTTTTACCAGAGACTCTGGAGGGCAGCTTAAAGATTCCGCAGCCGTTTCGGGGGCTCTTTTATCGTTATATCATTGCCTTCTACAAGCGGATGGACCATCTGGTGGTGGTCAACCCGGCTTTTATTGATAAATTGGTGGCCTACGGAATTCCCCGGCAGGAAATCAGCTACATTCCGAATTTTGTCGACAGTGACCGCTTTCACCCGGTGACCCCGGAGGAGAAGTGTGCCCTGCGCGACAAGTACCACCTTCCCCAGGATCGTTTTGTTGTCTTCGGCAGCGGTCAGGTTCAGGAACGCAAGGGGGTACCGGACTTCATTCAGTTGGCCCGGCAGAACGAGGATGTTCAGTTCGTCTGGGCCGGGGGCTTTTCCTTTGGCCGGCTGACGGATGGCTACCAGGAACTCAAGCGGGTGGTGGACAACCCACCGGCCAACCTGCGCTTCACTGGGATTGTCTCCCGCGACGAAATCGCCGAATTGAACGGGGCGGCGGACCTTTTTCTGCTGCCGTCATATAACGAGCTCTTCCCAATGTCGGTCTTGGAGGCCTTTAGCTGTGGGACGGCAGTATTACTAAGAGACCTTGACCTTTACCACTCGATCATCGAAGGGGACTACGAGCCTGCGGAAGATCTTGATGAGATGCAGATGAAGCTGACTCTGCTACGCAACGATCCGGCCCGGTTGGCCCATTGGCAACATCAGGCCCACTTGGCCGCTCAGCGCTATTCCAAGGAGCACCTGGCTAAGGTCTGGCACGATTTCTATTGTCAGCAGGCACGGGAGGAGCAGGCACGTGAATAG
>SRR1151252_01612 membrane protein
GTGAATAGACGAAATTGGTTAGTTCTCATCCTGATGTTACTGATTGGGGTAGGAATCATTGGTTATTCCCTTAGGACAGTTAATTTGAGCCTACTGATAAGGGAGTTTAATACCCTAAACTGGGGCTGGATGCTGGTGGCCTTTCTCTGTATTTGCCTCTACCTGACCCTAGAGGGGGTTGTGGTGAAGGTCTTCATGCGGGATCGGCACCGGGACTTCACCTGGAAGGATTCCCTGCGCTTGCCCCCAATTGAGCAGCTCTTTAACGGAATTACACCGTTTTCGGCGGGGGGACAGCCTGCTCAGCTGGTGGCGATGCTCCAGTCTGGTGTTGACGGTGGTCAGGCTAGCTCGGTTTTGCTGATGAAGTTTGTCGTCTTTCAGGGGATGATCGTCATCAACTTCATCATTAGCCTCCTGATCGGTTTTCATTATATTGAGGAGAAGCTGCATGCCTTGGCGATCCTGGTTCTGTTGGGCTTTTTGATCCACCTGGCCGTAATAGTCGGTCTGCTGATGGTAATGTACTGGTATCAATTTACCAAGCGGGCACTGAATATCCTGATTCGTCCAGTGGCGATTTTTATCAAGCCAGCGCGCTATGAGAAGATGCGACTACGCTTGAACGAAATGGTCGACTCATTCTACCAAGAGAGCCTGAAGATGAAGAATGAGTACAAGATGATGGGGAAGGTCTGCGTCGTGACCCTCCTCCAGCTCTTCTTCTATTACGTGATTCCGTACTTCATCCTCTTGGCATTGGGTGTGCATCACGTTAATTTCATCATGGTGGTTAGCCTGCATGTCCTGATCTTTATGATTATTTCACTCTTCCCGATTCCGGGTGGGGCCGGGGGTGCTGAGTATAGTTTTTCAGTCCTGTTTGCTAGCTTCGTCCATTCCAACACTAAGCTGGTTCTGGCGATGATTCTCTGGCGCTTGATTACCTACTATTTCGGAATGATCGCGGGAATGGTTGCTCTGATGATCAAACCAGACCGGGTGAAGACAGAATAA
>SRR1151252_01613 hypothetical protein
ATGGCGACTTCACAGTTAGTACAGATAATTCGGCGATTGGACGCAATGCGCAACGACCAGACCGGGAATCGGCAGCGGCGAACCTTTGAGCAGTTCGGGATCCCGGTGTGTGAGGTGACCTATATTCGTGACCGGGATGAATTCGTTTATGTACGTTTTCGGCCGCACGAACGCTTCCGCTTTGATGACCTCGACCTGGTAGCGATTGAGGTCTTTAATTGTCTGTATGACTTTCGCAATACTTTCTGA
>SRR1151252_01614 hypothetical protein
ATGTTAACAAAGCAATCATTCATTGTCAACAACCATTTTGAAGAAATAAATCAGTTGCAAATTAACAGCAACTGCTTCTCCGTAACAGCAAGTAATAATATACCAACCCCGCAAGCATTCGTCAATACCCTTTCTTAA
>SRR1151252_01615 transposase
ATGTGTGATGGATATGGTGGTTACAGTAACCGTTTATATCCCAATGGCCACTTTGGCTCTTGTCTGGTTCACATTCGTCGGGAATTCATTCGAATCACCAAATTATTGAGTAAAGAACAGTTAAAGCATTTCAAAGCCTTACGTGCGGTGAGAATCCTAGGAACCGTTTTCCATAAGGAAAACGGCCTAGTATATCAAACAGCGGAGGAAAAGCGGCAGCAAAGAATTACTCATGTGAAACCGTTGCTTGACAAGTTTTACCAGTACTTGGAAAGTATCACTTCACCACAGGGCCACCTGTGTGCAGCCATCAAGAATGCATTAAAGCTTCGCGCAAGAGTATATCGGATTTTTGAAAATGGACAAATCCCCCTAAGCAATAACTCGCTAGAAGGAGAGATCCGTTTTACAACCTTGGTTCGTAAGAACTGCTTGTTTGCGAAAAGCTTTCGTGGAGCTGAAGCTAATGCGATTTATTACACGTTAGTGGCAACAGCAAAAATTAATAAACTAAATGTATATAAGTATTTCAAATACCTGTTTGATCGACTACCCAATCAGAAAAGGAGCGACATTGAGGCTTTTTTACCATGGGCAGAAGAAGTGCAACAAGTATGTCGTAACTAA
>SRR1151252_01616 heteropolysaccharide repeat-containing protein
ATGGAGCATAAACAGAATAATGACTTCTTTAAAAATACTATTAGGGTTATTATAAGTAATTTTGCTCTTTTATTGAGTAGTATATTAGTGGGCCTTATCCTTCCCAAAATATTAGGAGTAGAACAATATGGATATTATAAATTATTTATGTTGTATAGTGTCTATGGTGCACTACTTCATTTTGGGTTTGTTGATGGTATATTATTACATTTTGGTGGAGAAAATTATTGTGAAATTGATAAAAGAAAGCTTAGATGTATAACACGTTTCTTTATATCTTTGGAGCTAATTGTAAGTTCAATCTTAGTTATTTGCAGTTTGTTCATCCCTAATGATATATATAGATTTATATTTATTGCTGTGGGAGTCTATTCTTTTATTTTAAATACCTTTACTTATTTTCAATATTTTACTCAAGCTATAATGGATTTTGGCTTCTTGTCCAGAGTAAATATGCTTCAAGCAATCTCCACTTCAGTCATAATTATAGTGTTATTATTCTTAATTAAGATTAAAGCAATAAATTATGTAATTTATAGGCAGTATACTTATTGCTTTATAATTACGTATTTGATTATTTTATTTACTTATATGTTTAGATATCATGATTTAGTATTTGGTGAAGCTTTATCCTTAGGAAAAATGAAAAAGACGATTCTAATGCTATTTAAAATTGGCTTTCCGGTTACTATTTCTTACCAAATAAGTAATCTAATTTTAAATTTGGATAATCAATATATTTCTATATTTTTTAATAATAAAATATTCGGCGAGTATTCTTTTGCTTATAGTTTAATATCACTAACGACAACAGTTCTAACAGCTGTATCAACTGTAATATTTCCCTATCTAAATAAGCAGGAGATATCAAATGCTATAAAAAATTATGGATTAAACATTAGCTATATTCTTGGATTAATGTATTTTTTAATTGCTATATATTTCCCTGTACAAGTTTTTGTAAGAATTGTTTTACCTGAATATATAGGTTCACTTGCTTTTTTTAGAATATTGTTACCTGGGGTAGGAATAACTAGTTGTATTTCTTTAGTTATTTTTAATTACTTTAAGATAACCAATAATTCTATGAAATATTTAGCTTTAGGGATTGGTGTTTTAATATTAGCTATAGTTCTTAATTATCTTGCTTATTTTATTTTTAAGGATCCATATGCTATTGCAATATCATCTCTTGTAGTCCTATTTATATGGTATTTATTAAGTAATAGTTATTTGTATAAAAGGTATACTATAGAGAGAAATAAAAACACGTTTTATATGTTATTAATGACTTTGGTATTTGAATTTGTTACTTTAATCAAGAATCCAATTATATCTTTGATACTGTACTTGATTGTATATTTTGGAATAACAGAGTTGCTTGAACATAAAGTAGTTGAATATATAAAAAGCCTTATCGTAATACACGTTCGGGAAAAGTAA
>SRR1151252_01617 transposase
ATGAAATATTATTCAGATGAATTTAAAAACAATATCGTTAAGCTTTATCAAAATGAAAATCGTTCAAAGAAATCCTTAGCCAGTGAATATGGGGCTCATCCAACAATCATCAGTCATTGGATCAAGCGGGCCAAATTAGTTGAACTACCTGACGATGGCGTAACGAGTGTTGAAGCCTTCAAGCAACTACAGAAAGAAAACCAGCAGTTAAAGGAAGAAAATGAAATTTTAAAAGCAGCGGCGGTGTTACTGGGAAGGCATTAG
>SRR1151252_01618 glycosyl transferase
ATGCTACTCAGTGTAATCATTCCGACCTTTAATTGTACCGAAAGAATAGAAAAAATAGTTGAAAGTATTGCTTCTATAGCAATGTGTAAAAAGGAGATCATTATTATAGATGATGGTTCAGTGGATGCTTCTAAAAACTTTCTTAAAACAGTCGAGAAGAAAAACAAGCAGGTTAAAATCATCTTCAATAATCATAATGGGGTTGGGGCATCAAGAAATATGGGGATACTAGCTGCTCAGGGAGATTATATCACATTTATAGATGACGATGACCGAATTTATCCAGAGGCATATTCTAAAATGATAGAACAGGCGAAACTAAGACCAAGTTTAGACGTTATTTCTACATCAATTAATGTTTCTGATGATCATGATATGGTTATTTATAGTGGGAAAAACATGTTAAAAAATATGATCTTAAGCGTGCTCCAAGTTAATACAAAGAGTCTTAAGACAAGTGAATATCCCTCTGGTCCTTACGCCAAATTATTTAAAAGAAAAATTTTAATTGAAAATAAGATATTATTTCCTACAGATATATTTAACGGTGAGGACTTAATCTTCAACTGTCATGTTTTGCTACATAGTAAAAAAGTTCAATTATTAAAAAATAAGGTATATGAATATATTCAAAATAGAGATTCACTTATGCATCATTATTTCCCCAATATGAAATTGAATAATGCGTTATTTGAAAACTATATACTTGAAGTTGTAAATTTATTAGATGGTTTAGATTATAAAGAAAGAAGGTTAATTGGTGAGTATTGGAATGTTCGATTGGCAATGACTAATATATTGAGACAAGATAGTGTTAAAAATAATTATAAAAATGATTTTCTAAGTGATATTCGGACTATTAAAAAAGATTTGATGGATCCCAAATTGTGGAAGATACTTAATTATAATTTTACGAAGGATCAAATAATATTTATTAAAATAATTATTACTTTTCCTAATAATATAATTATACCAAGTGTTAAAATTTTGAAATGTTTGAAACATTTTAAAATTAGTTTGTCTAGTTCTTCAGTACAAGTTTAA
>SRR1151252_01619 putative oligosaccharide repeat unit polymerase Wzy
ATGATATTAGTACTGATTGCGCTGTATATCTTTCTACCAATCCCTGCCAGCGTTGCAATTTTAGCATTATCTTTTCTCATGCGAGGGAGAAAGACGTATTGGTTATTATTATGGGCGGTGCTGACATTTAGTTTATTAGTGTTGGTCTATATTCCCTCAGTGGAGGATGATGCATATAGATATTTTCAAATACTTGGCCAACTGCGTTCAATTTCAAATTGGCAGGATTTTTCAATGCTTTCACAAAATATTGAATTAATTGGATATCAATCATCAAGTATCGGTTTCATAGCCTTAGAAATGCTGATTTCAAAAACAGCATACTTTAATTTACTACCTTATATTAATACGGTGATTTGTCTATTTTCATTATTTTTTCCCTTTGTTGACTTAAAAGAACGATGTAAAATAAGTGGACCTACAGCTCTATTTTTGAGTTTGCCCTTGCCGCTTTTATATAATTTTTTAAATACAGCAAGCACTATGCGATGGTCTTTAGCATGTTCTTTATTTGGACTTATCGTATATGAATATTTTGAAAAAGTTCAAAATCGAAAATATGTATGGATGTTTTTAATTCCAATGATTTTTCACCCTGGTATTATTTTAGCTTCTATTTTAGCTATTTACGTAGCATGTATTAAAAAAATTTCAATTTTCAAAATACTATTTCCAATGTTGCTACTTGCTATTTATCTCAGGTTAGTTACTGATTCTAACTCGTCGTTGGGGAGTGGCAATCCAATCTTTCAAATTATGAATATGACAAACACCTATTCAAGAGATTTTATGCAGCATTCTGCTAATGGGCTTTTATTTATATTCTTAGAAAGATTGCTGACAATTTTAGTGTTAATTATGGCATTAATTGTATTCAGCCAATTATCTAGGGAATATAGATTATCACAATTTGGAAGAATGCTCTTGTTTATGTCACTTGTACAATTTGCATTGATATTTACGTCAATGATTTTTGACAGATACATATTAGTGACTACTTTCTTAGCATTAATTTATGTGGCTAGATATATATCCAAAATTAGGTTAAACATAAGATATTTGATTTTCTCAATGTGTATTGTGACTATATGTATTGGCATTGTTATTTGTTATGCTAATGTTAAAAGGATGGTGTTTATATCTCCATTTTTCCAGTTGTGCATATCTAATCTGTTTCATTTCTTTACTAATATTCCAGTCTATTAA
>SRR1151252_01620 glycosyl transferase family 1
ATGAATAATAGAATAAAGATTGTGTATTTAATACGTTCTCTTAAGCGTTGTGGACCGGTGAATGTTTTATTTCACATTGTAGAAAACTTAAATAGGAGCATTTTTGATCCAATCATTGTTACTTTTAAACCAGAAGGACTTGATTCCATAATTTGCGATTTTCAAGATATTGACATTAAAGTTTATAGTGAAAGAAGTATGATCGATGGGATTAAAAAGATTAGAATGATTTTAAATGATGATCCCCAAAAATTAATTATTCATTCTCATGGCATACTTCCAGATATGGTTAATGTTCTTTTTAAACGTAAAAATGTGGTGAATATTTCGACAATTCATAATAATCCCTTTGAAGATTATCCGATGACATTTGGAAAATGCAAGGGGAATCTTTTAGCTAGACTTCATTGCTTTTTATTTAGAAAACTAATAGATATTTCTTGCTCAGAATCAGTGAGTATGGATTTAAAGGAAAGAACAAACCTTACTCCATTATCCATAAGAAATGGTGTTTCTTTTAACCATGCTATAACGATTAATGGTGGCTTGAAAGGGGAAAAAATTAATATCGTTTATGTTGGATCGGTATCTAAACGTAAAAATGTTGATTTTTTAATTAGATCTGTTTTGCAAATTGTTAATTATAAAGTAACTTTAAAAGTGGTAGGTGACGGTCCAGAATTTAAAGCTTTAAAGGAAAAATATAGAAAATATCCCAATATAGTATTTACTGGATTTAAAAAAAATACCGTTCCCTTTTTTCAGAAAGCAGATATCGTAGCCTCTGCGTCCCGTTCAGAAGGCTTACCCATGGCAACTCTTGAGGCATTGTCTTTTGGCAAACCACTATTACTTTCGGATATTAGAAGCCATAAAGAAATTATTCACCAAGGATCATTTGGTGAACTATTTAAAAATAATGATACTGATAACTTTGTGAATTCCTTTGGGAATGTAATTAAGTTAGTTAATAAAGAAAAAAAAATATATAGAGAAGCTAAAATAATATTTAGTGATGAAGTGATGTCAAAAAAATATCAAGAATTATATGTTAAAGCCATAAAAGGGAATTTGAAATAA
>SRR1151252_01621 hypothetical protein
ATGTACAGTTACCCGATTTGCCTGATCATGGAATGCGTCGTCATCGTGCTAAAGAAAAGCGTGGTACGTTCAGTCACGGCCGCTCCATTGAGGAGCGGCCTCATAAAGTCGAAACTCGCCAAGAATTCGGCCACTTTGAAGCTGATACCGTACTTCCTGGCAAACGTAAAGGTCAAGCTGTGGCTACTTTTGTGGAGCGTAAGAGTCGCCTGA
>SRR1151252_01622 glycosyl transferase
ATGGTAAAAAAAGGAACAGAGACATACCCCGATTTTTCGGTTCTAATGTCAGTATATAAAAGGGAAAATCCAAAATTCCTTGATCAATCATTATGCAGTATCGAAGGCCAGACAGTTTTGCCGACAGAAATTATTTTGGTAGAGGATGGACCGATTCCCACAATATTACAAGAAGTTATTAACAAACATCGATCAAATTTTGTTAATGACTTTAAAGTAATAAAATCAATCCGCAATCAGGGTTTAGGAGCATCACTTCGTCTTGGCACTAAGTTTGTTTCTACTGATTGGATTGCCCGGATGGATAGTGACGATATTAGTGTTCATAATCGTTTTGAACTTCAACTAAAAGAAGTCGTAAGGGAACCAAACCTAGCGGTAATTGGCGGTCAGATCCAAGAATTTGCTGGTGAATCATCAAATATTGTTGGTTATCGAAAAGTACCAACCACTGAATCTCTTTTACGGCAATTCATTAAGTGGCGGAGCCCATTTAATCATCCTTCTGTTATGCTGAATAAGGACGCTTTGCAAAAGGTAGGAGGGTATATGCCTTATGGTAATCTTGAAGACTATTATTTGTGGGCACGCATTATTGTTTATAAGTTTCATGTAAAAAATATAGATCGAGTATTGGTAAAAATGCGAGTAGATGAGGGAATGTATCAACGTAGAGGTAAGTTTTCTAATATTAAATATTTCTATCGCTTACGTAAATTCCTGTATAAACATAAAGTATTAACCTGGCGAGAAAGATTTCTAGGTGATTGGCTTATGACCGCAAATATTTTAATACCAGGATGGTTAAGAAAAATTATTTATCGTAAGATACTTCATCGATATAGTAACTAA
>SRR1151252_01623 sugar transferase
TTGCAAGCTTCGGTAGAAAAGACAGCCAGTCCAGAGAACGGTTACACATTCTTGAAACATATTGGGAAACCAGTTCCTAAGTCGAAGTTGGTTGGTAAGAGAATCTGTGATGTTGTCTTTGGAGTGATTTTTGGGATTATTAGTTTACCAATTATTTTCATTTTTGCAATTTTGATTAAGCTGAACTCAAAAGGGCCAGTATTCTTCAAGCAGAAACGTGTTGGCTATATGGGAAAGCCAATTACGATCGTTAAGCTACGGTCAATGCGAAATGATGCTGAGAAGAAAACTGGAGCCGTTTGGGCTAAGAAAAATGACCCACGGGTTACCTCAGTTGGTCGCTTTATGCGTAAGACACGAGTTGATGAATTGCCACAGTTTTGGAGCATTATCAAAGGAGATATGAGCTTAGTTGGTCCGCGGCCGGAGCGATTTGTTCTTACTCAGAAATTTTATGAAGAATGGCCGGATTTTCCGCGCCGCTTACGAATTATTCCCGGATTAACTGGTTATGCTCAGATTCACGGGGGATATGATTTAAAACCAGATGAAAAATGTAAGCTCGATAATTATTACATTAGTCACTACTCCTTAACATTTGATTTTAAGATTGCAATTGAAACGTTTAAGATTCTTATTACTGGTAACGGAGCACGGTGA
>SRR1151252_01624 UDP-glucose 4-epimerase
ATGTTTAAAGTATTAATTACAGGCGGAGCTGGCTTTATTGGGTCTTTCTTGGCTCATAAACTAGTTGCAAATGGCAATAAAGTAATAGTGGTTGATGACCTTTCAATGGGGCGCTTGGAGAACCTTGCCGATATTAATGACAAAATCGTCTTTTACAAGCACACCGTTTGCGATGAACAATTTATGCATGATCTCTTGTTAAAGGGCGATTTTGACTATATCTATTACTTGGCGGCGGTATCGAGTGTTGCCGATTCTGTTGTTCGGCCATGGTACACCCACCTGGTAAACCAGGAATCGGTAGTCAATACGTTGGAGTTTATTCGCGCCAATCATTTACCGATTAAGAAGTTCCTGTTTACGTCCTCAGCGGCGGTTTATGGAAACGCGGCAGACTTTCCCAAGACTGAGGATTCGCATGTGGATCCCCTCACCCCGTACGCAATTGATAAGTACGCTTCTGAACGTTATACGGTTGATTTTGGACGGCTATATGGTATTCCAACCGTTGCCGTTCGCTTCTTCAACGTTTACGGACCACGCCAGAATCCCAATTCCGAGTATTCGGGAGTTCTGTCAATCGTGACTAAGTGTCTTAAGGAGGATAAGCCATTTACCCTTTACGGTGATGGTGCCCAGACTCGGGACTTTGTTTATGTCGAGGATGTCGTTGATGCACTGATCAAGATTTCAACCGAGACGGATGAACCAGCCGTATATAACATTGCCAATGGTGACGAAACGCCATTGATTGATGTCATTCATACATATGAGGATATTGCGAGAAAAAAGTTAAACATTATTCAGAAAGAAGCTCGTCAGGGTGACATTAGTAAGTCACGTGCAGATGTTTCTAAGCTTAAGAAAATTGGCTTTGAACCGCAGTGGTCGCTTCACGATGGCCTAAGCAATTATTGGAAGTATTATTCAGAAAACTAG
>SRR1151252_01625 exopolysaccharide biosynthesis protein
ATGGTAATGGTTGACCTCCACTGTCACCTTTTGCCGGGGATTGACGATGGTTCTAAAAGTATGGATATCTCACTGCGGCTAGCCCGGGAGGCAACGGAAAACGGGGTTACTCATGCCCTCTTGACACCCCACCATATGAACGGTCGCTACGTGAACCATAAGCAGGATGTGATTCGGCGAACGCAGGAGTTCCAGGAACAGCTTAAGGCTCATAATATTCCACTGACAGTTTTTCCAGGTCAGGAAGTACGGATCAATGGACAGTTACTAGATGCCTTGGATAAAGATGATATCCTCTTTGCGGATACGGCTGGTAAGTATATGATGCTGGAATTTCCCGACGATGACGTACCAAGCTATACCAGTCGGATGATTTTTGATATTCAACAACGGGGAATTACGCCAGTGATCGTGCATCCAGAGCGGAATACCAAGATCATGGCTGAACCTGATCAGATTTATCAATTACTTGAAAAAGGATGCTTGTCTCAGATTACGGCTAGTTCTTATGTTGGAACCTTTGGAAAAAAGGTGGAGAATTTTAGTCGTCAGCTCATTGAGGCCGGACAGGGCTATATATTTGCTTCGGATGCTCATGATCTGCCAGGACGTAAATATGAAATGTGTCAGGCTTTTGAAAAGTTACGACATGAATTTGGTCAAGAGCTGGCAGATCAGTATCAGCTGAATGCACGGGCAATTATTAATGGGGAGAATGTTCCTCTAAATGATTTGCAACCGATAAAGAAAAGGGAAAAACATTTTTGGTTATTTTAG
>SRR1151252_01626 exopolysaccharide biosynthesis protein
ATGTCACTATTTCATCGTGGAAACAAGAATCAAGCAAACGCGAAAATCAATAATGGTGCCCAGCTAATTACAGCTGTCCACCTGAAGAGTCCAATCTCCGAACAGTTCCGGACCCTGCGGACGAACATCAACTTCATGGCGATTGATAACCCAATCAAGACGCTGGCGCTGACCTCAGCTAATGTCTCCGAGGGTAAGTCAACAGTTACCGATAACCTAGCCGTGGTTTGGGCACAAAACGGTCAGAAGGTGTTGTTGGTTGATGCCGATTTACGACGTTCGACATTGCATCGGACCTTTGACCTTGATAACCGTGAAGGGTTAACCACCATTTTAACCAGTCATGCCCGGACAATCGACTTGAATAAGATCATTCAACCGAGTGGGATCGAAAACCTATCTGTCTTGCCGAGTGGTCCAACTCCGCCTAACCCAGCTGAATTGTTAAGTTCACAACGGATGAAGGATTTTCTAAAAGCCGCAAAAGAACGGTATGACATGGTAATTGTTGATGTACCACCAATGTTGGAAGTTACCGATACTCAGGTTATCTCACATTACCTGGATGCGGTGGTGCTTGTGGTTAAGCAGGGGCAAACCCAGAAGCTTGGTGCCAAGCGGGCGGTTGAACTCCTGAAACTGGCCCATGCCAACCTGCTTGGTTATGTAATGAATGACGTGCCGAGTGATGGCTCTGCTGATTATGGTTACGGCTACGGTTATGGCTACGGTTATGGCGATGATGGAGACGATAAGTAA
>SRR1151252_01627 exopolysaccharide biosynthesis protein
TTGAATAATTCGTCAGAAACATTAAACAACACAATTGATTTGAGCCGCCTGATGGCGATCCTGCGTAAGCACTTCAAGATGTTGATCGTCTGGACATTACTCGCTGGGGTGTTGGGCTTTGTGGTTGCTCAGTTTGTAGTGGTGCCAAAGTATACGGCGACAACTGAGATCTTGGTTAACCAGAAGCGCAGCAATGATAATAACGGGCAAGCCTACAACAATCAGCAGGCTGATATTCAGATGATTAACACTTACAAGGACCTGATCACGAACCAAGTGGTCTTGAACAAGGTTAGTCACCAGCTTAACAGTGCGAAGGTAGTACGCGAATACGGCCGTTCTTACAATATGCCGGTTAGTGAATTAAAGGATGCTATTAGCATCAATACGCAGCAAAATTCTCAGGTTTTCTCTGTTGCCGTTAAGACGGACGATCCAAACCTGTCGGCAGCGACTGCAAATACGATTGCCCAGGTCTTCAAGAAACAGATTAAGAAGATCATGTCAGTTAACAACGTGACGATCGTTTCCCGAGCGGCAGCACCGGACAGCCCGTCATTCCCTAACGTTAAGTTATTTACTCTGGCTGGAGCAGTGCTTGGTCTATTGCTGAGCGCTATCTACCTGATTATCAAGGAATTGATGGACACGACCATCAAGGATGATGATTTCATGACGAAGGAACTTGGCTTGACCAACCTTGGTCACATCAAACACTTCCATTTGAGTCATGCCTTTAAGGCAAATCAGGTACGGCGTGAAGATAACACGCAAGCTGAACGACGGGTCTAA
>SRR1151252_01628 LytR family transcriptional regulator
ATGTCTGATGAAAATAATCAATATCCAAGTGATGAACGTCGAGAGACAATGGACGCTGAAGCCCAGCAGCATCACCGTCACCACCATCATCGGCACCACCGCCGTCACCGCGGTTGGAAGATCTTCTGGTGGATCGTTGGCGTCTTAGTCCTGGTGGCCCTCTTCTTTGCGGGGGTCGCATGGCACAACCTCAAGACGACCACGAATGACATGTATAACAGCGCCGGGATTAATAAGTCCCGGAACGCTGCCAAGGTCCTAGACGAGAAGCGGCCAGTATCGATCCTCCTGCTGGGGACCGATACCGGGGCCCTCGGTAGGGATTACAAGGGCCGGACGGATACGATGATGATCATGACTCTGAACCCGCAGAAGAAGACAACGACAATCGTCAGTCTGCCGCGGGATATGAAGGTTACCCTGCCAGACTATCCAGAGGATTCACCAGCCAAGATCAATGCGGCCTATGCCTTTGGCGGAGTCAAGGAGAGCGTCAAGACTGTTCAGGAACACTTTGATGTGCCGATTGATTACTATGTCTTGGTTAACATGGGTGGTATGGAAAAGGCCATCAACCAAGTCGGCGGGGTCGATGTGAAATCACCACTGACCTTTGATTATGAGGGGGCCCACTTCCAGAAAGGAAAGACCTACCACCTGAACGGTTCCAATGCATTGAAGTTCAGTCGGATGCGTTATGATGACCCTCAGGGTGACTATGGTCGTCAGCAGCGGCAGCGGATCGTGATTATGGCCCTGCTGAAGAAGTCCGTTTCATACAAGACCGTATTGAACCGGTCCTTCCTTAAGTCCGTCTCCAACAGTTCACAGACGGATCTGACCTTCAACGATATGCTGAAGCTGGCTCAGAACTATCGCGGGACGAACGCTAAGATCGTTCAAGATCACGCTCAAGGCCGCGGCCAAAATGAAGACGGTCAGGCATTTGAGGTTGTCCCAACGAGTGAACAACAACGGATTACGAACCTATTAAAGAATAGTCTTAAGAATTAA
>SRR1151252_01629 phosphoenolpyruvate carboxykinase
ATGAAAGGATTGATGGTACAGATGACGGAAAACAGTCAAAAGATTCAAAGCAAGGCCCTCTATGTCAATCTCGACCGGGGTGTTGCAACGCTTAACCTTAGTGAAGCTTACTATAACGATATCTACTCCCTGACCAACAGCGATGAGCTGCTCGATGTCGTTAAGCTTTACCTGGGTTCACGCAATCCAGACTACGACGATGACGCCTTCGACAACGCCACGCCGGAAGAATACGTCGAAGTTCTCAAGAAGATTTTGATCAATGACGGCAGTGCCTACGATAACTACGATCCAGAGGAAATTCTGGGTAGTATCGAAGACCTCTACTCATTCTACCGTTCTCTTTTGCGGGTCTCCGTTGTGAACTACAACAACAGCAAGATCGCTGGTAACGAATTCAAGGCGATTGACACCCAACTAAATGAGCTCGTCCGGAAGCTCTACCGGGTAATCGAAGAAAAGCTGCAGGGCTTCACCAACCGGACCTACCGGCAGGTCAATGCGGCCACGAACGCCTCCATGCTGGTTCAACCACATGACTGGCCAATCCCCGAAGGATACGAGGAACTCCGCGACATCGACTTCATCAACACGGTGATGCTACGGCCACCAATGCTGATGCACACCAAGAGTAACAAGCGTGAAGGGGTCTTCTCCGCAGTCGAGGAAAACCCAATCAAGCGTTTCCACGGTCAACGCGGTCAGTGGTACTGCTACCCGGCCAAGATCGGTGAGAGTCTGGCCTACATCTACTTCAACGTTGATTACCTGGTCAATGGGATTGCCCTCTCCAACCTGTTTGAATTGGCATCCCCAGAAGAGGTCGAGGGGCAAAAGCCTGATATGATCCTTCTCTTCGGTCTGGAGAAGACGGAAGGCATGGTTTCACACTACTACCTCGACAAGAAGAACCAGATCTGGGTCGGTGAGGTTCCATACACCGACAAGACGACCTACTTTGGCTACATGAAGAAGATGTGCCTAACCCTGCATAACCTGCACCAGATCAACAACGGTCGTCTGCCGATCCACGGCTCCATGCTGAAGATCCGCTTCACCAACGGCAAGGAAAAGAACGTTGTCTTCTTCGGTGATTCCGGTGCCGGGAAGTCCGAATCCATCGAGGCCCTCCAGGAAATTGCCGACGACAAGATTGTCGACATGGAGACCATCTTCGACGACATGGGCAGCTTTACCATTGGTGACGATGGCAAGCTCTACGCCCAGGGGACCGAAACCGGGGCCTTTGTCCGTCTCGACGACCTGTCCAGTGCCGTCGCCTTCAACAACATGGACCGTGGTGTCTACCTCAACCCTGAGCGGAAAAACGCCCGGGTCATCATTCCGGCTGACACCTACGAACACGTCATCGAACACCATCCGGTTGATATGTGGCTCTACGCCAACAACTACAGTGACGAGGTTGGTATCCACCGCTTCGACACCGAGGACGAGGCCAAGAAGGTCTTCGTTGCTGGTAAGCGAAAGGCCCTGGGGACGACCGATGAAGTCGGCATGAGTTCCACCTTCTTCGCCAACCCATTCGGCCCGGTTCAGGAACCAGAGAAGACCAAGCCGATCATTGACAAGGTCTTCAACAACCTCTTCAAGAACGACGTCTACGTCGGTGAAATCTTCACCCATCTGGGCAACGATAAGTCCAAGGACGCCTTGAAGGAATCTGCCCAAGAACTGCTGGATGTTTTGATGAACAACTAA
>SRR1151252_01630 peptide methionine sulfoxide reductase
ATGAGTTTAGACACGGCGATCTTTGCGGGTGGCTGCTTCTGGTGTATGGTCGAGCCCTTCGATACCTATCCGGGCATTGAGAAGGTGGAGTCGGGCTACACCGGCGGGCACGTGGTCAATCCAACCTATGAGCAAGTCTGCTCCGGAACAACCGGGCATACGGAGGCGGTACGGATCACCTTCGATCCGGATGTAGTTTCCTACGCGGACCTGGTTGAGATCTACTGGCGCCAGACCGACCCGACGGATGCAATGGGCCAGTTCCAGGATCGTGGCGACAACTACCGGCCGGTGATCTTCGTCAAGGATTCAAAGCAACGGCGGATCGCCGAACATGCCAAGCAGCAGCTGGCGGCCAGCGGGCGGTTCGACCGGCCAATCGTCACCCGGATCGAGGATGCCCAGCCCTTCTACCTGGCCGAGGATTACCACCAGGCCTTCTATAGGAAGGATCCGGCCCGGCTGGCGCTGGAAGAGGCGGGCGGCCGGACGCAATTTAAACGTGACCACTGGCAACAATAA
>SRR1151252_01631 hypothetical protein
ATGCACCTAACCAAGCTCCAGCGAGCCATCATCAAACTGACGGTGGTGGTGATCCTCGCCATCGTCCTCATCAGGGTCTACCAGCCGGAACTGGCACTGATGACGCATCCCAGTCCGGCCCACCAGCACGGGCTGGGGGACACTCTCCTGCTGATCGCTACCATTGCGATCCTCTGCAGCATCCCCTTCGCACCGAACGCGGTCGTTTGCATCTTCACCGGGGTCTGCTTTGGCCCCTTCATCGGCTTTTTGATCAACTGGTGCGGTAACATCATCGGCAACGGCTTTGTCGCCATCATGATCAGACGTAGCGGGATCTCCGAACAGGTTCGTCATAAACGAGCCTTCGATTACCTTACCCGACAGCGTTTTCCAGTGGTCGGACTGATCATCGGTTTCATCATCCTGGTGGTTCCCAACCTGCTGGTCAACTACGCGGCCAACGGGATGCGGGTCACCACGGGCAAATACCTCCTGGCGGCCAGCCTAGGGACCCTGCCGATTGCCTTTATCTACGCCCTGGGTGGTAACGCCATCTTCACGATGAACTTCAAGAAGGTCGTCGTCATCGCCCTCTTCGTCTTCCTCTGCATGTTCTACTGGGGGCTAAAGCGCCTGCAAGAAAACCTGTCCACCTAA
>SRR1151252_01632 peptidoglycan-binding protein LysM
ATGAATTTATCTAAACACATTGCTAAAATTACTGCTGCTGTTGCTGGTGCCGTTGCCCTGGGAACCATCGCAACTGCAACCACGGCGAACGCCGACTCAATTTACACGGTGCAAAGTGGTGATACTTTATCAGGAATCTCCTACAAGCTTGGCCACGACCTGAGCTTCGTTGACACCCTGGCTGCTAACAACCAGATCGCCAACAAGAACCTGATCTACGTTGGCCAAAAGCTGGTTGTCAAGGACGATGGCGAAGTTGCTCCGGCTACCCAACACCAGGTTGCAACCCTGCCAAGCGCAACGCCAGCACCTGCCTCAACTGCTAGCCAAAGTACTACTAGCCAAGCTGCTAGTCAGGCAACCAGTGCTGCTAGTCAGTCAACGGCCCCAGCTAGCCAAAACAGTCAGGCTAGCCAGGCCCCAGCTGTTGCTCCACAACAACAGTCTGCTCCACAACAGCCGGCCGCTCCACAGGTAACGACTTCTACCCAAGCCCGGACGGCTGCTGCCACTAACACCAGCTCCAGCTACAATTCTGGGGTATCCGGTAACGACGCTGCTGCTAAGGCATGGATCGCTGCCCGTGAATCTGGTGGTAACTACGGTGCCCAGAATGGTCAATACGTTGGTAAGTACCAACTTTCCGCTTCCTACCTGAATGGTGACTACTCCGCTACTAACCAGGAACGGGTTGCTGACCAATACGTAACCAGTCGCTACGGTTCCTGGTCCGGTGCTCAGTCATTCTGGCAATCACATGGTTGGTACTAA
>SRR1151252_01633 hypothetical protein
ATGACAGTGTTAAACAGTGCTATTTGGCAGGATGAACCTGGCTGGCTGGAGAAGAAACGCCAGTTGGCAACCATGCTGGCGGGCCGTTTTCCCCACCAGGACGGGCAGGAGCAGTGGCTAACAGTCTGGCGGGATCAGCCGAAAACCGCGGGGATGGCGATTGGCCTAATCAGCCACGACAGCGATTACGTGGCTCGACCACTCAGTCAGGCGGTCAACGAATACTCCGAGATGCTTCAGGAGAACCTGATGGAGAAGGCAATCCCCTGGCAGGACGGCCAGCTGAATGCCGCCCACCTGGCCCGGATCGACGGTGGGCAGTTTATCTACGTACCCGACGGGGTGAAGCTGGATGAGTCGATCAAACTAGCCCCAAACCTATCTGGGACGAATCCGCACCACGTGATCATCGTGGGTGCGCACAGTACAGTCTCAATCGAAGAAACCGCCCGGCTGACTAACCCGGGGGCGGTCTATGTCGGCACCGAGCTGCTGGTTGGGACCGGGGCCCGGGTGACCTACCGGCAGTTCAACCAGTTTACCGGACAGCGGGCCCGTCAGGCGGTTCATTGCTACCAGGCCCAGGGATCACGGGTCGAGCTGGCGTACGGCCAGGACAGTGCCACGGACGTTACCACCAGCCTCTACAGCTTCCTGGACGGTCAACAAACTCACTGGACGGCGGACGCAGTGCTGCGGGTGTGGACGGGGATGCACCAGGAATGCCGACCGGTCCTCGATGGTTACGGACAGGGGACCACTGGCCGTCTTCGGGTCTGGGGCCAGGCCGCGGATACGGCTGGCCTCCAGTTGGCCCACCTGACGACCGGATCTGGGGAGCCGCTGGACATGGCTGAACAGCGGAATCTGGTGACACCAGACCGTGGCCTTGGCACCCTTTTACCGGCCAATAGTTGGCTAAAAAATAAGTTCGCCGACGCCTAA
>SRR1151252_01634 anaerobic ribonucleoside-triphosphate reductase activating protein
ATGCCAAGAGAACACGCGATTCGTTTACCAAAGAATCCCCAACCGAAGGAATGGCTGGCCAAGGACCACTCCCTGCAGTACATTGCTGACTACAAACCCTTTAACTTCGTTGACGGCGAGGGGGTCCGCTGCAGCATCTACGTCAGTGGCTGCCTCTTCAACTGCCCGGGCTGTTATAACAAGGCAGCACAGAACTTCCATTACGGCCAGCCCTATACCCAGGAGCTGGAGGACCAGATCATGGAGGACCTCTCCCAGAGCTACGTCCAGGGGTTGACTCTCCTCGGTGGGGAACCCTTCTTAAACACCCAGGTCTGCCTGAAATTGGTCCACCGTCTGCGTAAGGAGTTCGGCCACACTAAGGATATCTGGAGCTGGTCGGGCTACACCTGGGAAGAATTGCAGAAGGAGTCGGCCGATAAGTTAGAGCTCCTCCACAACCTGGATATCCTGGTTGACGGGCGCTTCCTGCTGGCCAAGAAGGACCTGACCCTCCAGTTTAGGGGGAGTTCCAACCAGCGGATTATCGACGTTCCCAAGTCACTTGCCGCGGGTAAGGTTGTTATCTGGGATAAGCTTGTTCATTAA
>SRR1151252_01635 ribonucleoside-triphosphate reductase
ATGAAGGTGCAAATAATTAATGAGAAAGATCTAAATAACCTGACCAATCTAAAGGTTGTTAAACGTGACGGAACCGTTACCGATTTTTACGCTTACAAGATTGAACTAGTATTAAGTGCTCTACATGCCGACGATGCTACCCGGCAGATGGTGGATTTGACCCTGGTTGACGCCCTGGCTAACGAATCAACCGTTGAAGCATCTCGGATTGCCGAGCTATTTGTGGCGGGGCTCAAGAAGGCTAATCATCCAGAACTAGCCAAGGTTTATCGGGACTACCGGCAACGTGATGAGGAATCCTTTGCGGAGGCAACTAACCCGCAGCATAAGTTGGAACAGCTCTTTGACCGTAACTCGCGGGTGGTCCATGAGAACGCCAACAAGGACAGCCGGGTCTTCAATACCCAACGGGACCTCGAGGCTGGCGTGGTCAGTCGGGCCCTGGGGCTACGGATGCTGCCCGGAATCGTCGCCAAGGCCCACCTGCGCGGGGATATTCACTGGCACGACCTGGACTATTCACCGGTCACGCCCGAGACCAACTGCTGCCTGATTGACTTCGATGAGATGTTCAAGCACGGCTTCAAGATTGGTAACGCCTGGGTTTCCTCGCCGCGGTCGATTCAAACGGCTACGGCTCAGATGTCCCAGATTATTGCCAACGTGGCCTCCCTCCAGTACGGTGGTTGTTCAGCCAACCGGATCGATCAATTGCTGGAACCATATGCTAAATTGAACTATGAGAAGCACATGAAGGATGCCGAGAAGTGGATTGCTCCTGACAAGCGTGACGAGTTTGCTCGGGCCAAGACCAAAAAGGACATCTATGATGCCATGCAGGCCCTAGAGTATGAGATCAACACCCTCTACTCTAGCCAGGGACAGACGCCGTTCACGACCATCAACTTCGGCCTGGGGACCAGCTGGATTGCCCGAGAGATCCAAAAGGCGATCCTCCAGATCCGGATCAAGGGACTGGGGAAGGAACACCGGACGGCTATTTTCCCAAAGCTGATCTTTACCCTCAAGCGGGGACTCAACCTTAACCCTAATGACCCCAACTATGACATCAAGCAGCTGGCCCTGGAGTGCTCCACCAAGCGGATGTACCCGGACCTGTTGATGTATGACAAGATCAAGGAGATCACCGGGAGCTTCAAGACCCCGATGGGCTGTCGTTCCTTCCTGCAGGGTTGGACGGATCCTGAGACCGGCAAGGAGGTTAACTCCGGTCGGATGAACCTCGGGGTGGTCACCGTCAACCTGCCGCGGATCGCCCTCGAGGCCCATGGTGACAAGCAGCTCTTCTGGGAGATCTTCAAGGAGAAGATGCATATTTGCAAGATCGCCCTGGACTACCGGATTAAGCGGACAAAGGAGGCCAAGCCGGAAAACGCCCCATTGCTTTACATGTACGGAGCATTTGGCAAGCGATTGAAGAAGACCGACAGTGTTGACGAGGTCTTCAAGAACAGCCGGGCCACGGTTTCCCTGGGCTACATCGGCCTTTATGAGGTTTGCACGACCTTTTACGGCCCAAACTGGGAGCACAACAAGGAGGCTCATGATTTCGCGGTTTCAATCACTAAGGCCATGCACGACCTCTGTGCCAAGTGGGAGGACGAAGAAGGTTACCACTTCAGTCTCTACTCCACGCCAGCGGAATCTTTGACTGATACCTTCTGTCAGGACGACATCAAGAAGTTTGGCCGGGTGGAAAACGTCACGGACAAGGAGTACTACACGAATAGTTTCCACTATGACGTCCGTAAGCACCCAACCCCGTTTGAAAAGCTGACCTTTGAGAAGGACTTCCCTTACCAGGCGGCTGGGGGCTTCATCCACTACTGCGAATACCCGAACCTGCGGCAAAACCCGAAGGCCCTGGAAGCCGTTTGGGACTGGGCCTACGACCACGTGGGCTACCTGGGAACTAACACCGCCATTGATCAATGCTTCAAATGCGGCTTCAAGGGAGAATTCGAGGCCACTGCCCGCGGTTTCAAGTGTCCACAGTGCGGCAACCACGACCCGGCCACCTGTGACGTGGTCAAGCGGACCTGTGGCTACCTCGGTAACCCTCAACAGCGGCCAATGGTTCATGGTCGCCATGAGGAGATCATTCACCGGGTCAAGCACATGGATCCAGGGATGATCGCCAACGCCGCTCAGTTTGAGAAGAACCGGCAGCTGGATGCCAAGGCACACGCCAACATCACCGGCGACCAGATTTAA
>SRR1151252_01646 dextransucrase
TTGAAGGCTAAGATTGCAAAATTGGCAGTGTTAGCAGCTGTCTCAACAGCGGCTGGATTGATGTTGAATGGTGTGAATGCCAAGGCGGACACTACCGTTACCAATCAATTTACTATTCAACAGACTAACAATCTAAGTAATCCAAATAGCTATACGCAAAATAATGTTCAACTATATTCTAATGGTCTAGCTCAAACACAGACTCAGACGGCGAATGCAGCGGCTTCAAGTGTGCAAAATATTAATATTCCCAGTGGCTATACGCTCGATGCCGTTCGAAATGTTCATAACCAAGCGCAGGCTAATGAGTTAGAAAAGACTTCTATCAATGGGGTATACAACAATAACTATCAACAAGATTCTGGCGCGGTACAGGAAGCGGTTGATATTAATAATCTTACTCCTCAACAAACCGTTCAGATGAACCAGTATGCATTAAATCTTGTTAACCAAGTTCGATATGAGTTTAATGAGCAACCGTTTATTCAGAATCAAAATTCAATCGATACCGTTAAGAAGATGGCGTTGGAGTATCAAGCTAAGAATGAAAGTTTGCTGAATGGACATTGGCACGATGAGAGCATTTTACAGGGGCATGCCGAAAACATTTCTGCCTTTCAGATTTACATTAATAATGTTTCCGGATTGCGGGCACGACCATTCGATGAGGCCCAAGGACGCGATTTTATTAACGCCAATAATGTCCCGTTGTTTAGTGTCAGTAATATGGACGACCTGCAGGCAATGATCTATTATGGGGTCACCCTGATGCTCTTCAAGGATGCCGATGACACCTTTGGCCATGCCCAAAACTTCTTGACAAATTACCAAGCTAATTTATTATCGGTTTATCCATCTTTAACAGAAGGAACTGGGACCGGTAAATATGCTGATGGGACCACCTTTACCTATAAGTTGCAGAATGTTGATATGCACTTTATCTGGGCTGGAACTGATCAAGCCAGTGCTAATCAACCAAGTGACGCGAATGTAACGGGCTGGCGGCTTTCCCAAGATCATAATCACTATGTTTACTATGAAAATAATCAACCATTATCAGGCCGTCAGTATGTTGAATTACCAACAATCAATGGTGTTGGGACGAGCTGGTACTTGATCGACAATGGTGTTGTCCAATCGGGTATTCAGGCGTGGGCTGGTTCATACTATTACTTCGATCCAGCAAATTATCTCCGGGATAATAATGTCTGGGCCATTGCTTGGGGGAATAAATACTACTTCGGTAATGACGGCCAGGCCGTCACTGGGGTCCAAAATATTAATGGCACCTACTATTACTTCACCCCTGGTACTTACTATTTAGCAAGCAAGAAAGACTATGTCCAATCACAGTGGGGTGACTGGTACCTTGTCGGTGATAATGGGCAGCTTCTTTCAGGTGTTCAGCAGTGGGCTGGCTCATACTACTATTTTGATCCATCGACTTATCTCAAGGTTACAAACGCCTATCGCCAATCACAATGGGGTGACTGGTACCTGTTTGGCAGTGATGGTCGGATCTTGACTGGCGTTCAGCAGTGGGCCGGTAGTTATTACTACTTTGATCCAGTGACCTACCTGCGGGTCGACAATCAATACGTTCAATCGCAATGGGGTAGTTGGTACCTGTTTGGCCCGGACGGTCGGATCGTTACTGGCCTGTACAAATGGATGGGGAGTCTGTATTACTTTGATCCGGTAACGTATCTTAAGGTTACTAATCAATACGTTTACCTGAACGGTGTTCGTTACTGGGCAAACGCAAGTGGCCAGTTAAGCCTGGCCCAATAA
>SRR1151252_01647 hypothetical protein
TTGAATGACCAGGGGGTCGCCCCGGTGAAGTTTGTGGTTTCCCCAGATACAGAGGTTCAGATTAAGGGTGAGCGGACTGGTACCGTGTACAAGACCTTTAGGACTAAGAAGGAAAGCGGCCCGGTAACAATTCATTATCAATTTGAGTATGTGGCAAAATATGAAGTAATTGCCACTAAGAAGGGGAAGCGAATTGTTAAGCACCTGACGGTTAAGCGCTGA
>SRR1151252_01648 dextransucrase
ATGGAGATAAAAAAACACTTTAAGCTTTACAAGAGTGGAAAACAATGGTTGGTTGCTGTTGTTGCTACTGTTATCGTTACCGCTGGATTGATGATGACTCAACAGGTTGCTAATGCTGATACGGTGGGTGCAGCATCAGAAACAACTACGGCGATAACCGCCAAGACTGGGGAGCAAAGGGATTTAAGTAATGGCCAAGCAACCCCGCAACTGGTAACAACGGGAAAACAAGATACAGCTGATCAACAATCTACCGGTGTGGTTGGTAATAGCAACCAAGCAACGGTAGCTAACAATGTTAAAGTGTCAGCTACCGATCGTCCTGCTAAGGTGACTAAAAATAGTGATAATACTAGTGTGGTCAAGAATAACAATGTGCCAAAGGACGATTCTAAAACCGTTACTGAACCGGCCACGGTTCAAACTGGTTGGAATAAGGACCAGGATGGTCAGATGACCTATTATCAAAATGGCCAAAAACTGACCGGACGGCAATATATGGAGCTACCAGCCATTCCGGGAACAAACGTGAGTGGTGCGAAGAATTGGTACCTAGTAGATAATGGAACTGCTCAATCCGGTGTTCAGAGTTGGATGGGTACTTACTATTATTTTGATCCAACGACTTACTTGCGGGTTAATAATGAATATCGTCAATCGCAATGGGGAGATTGGTACCTCTTTGGTAATGATGGACGGATTCAAACCGGGGTTCAACAGTGGGCTGGCACCTACTATTACTTTGATCCGGTAACTTATTTACGGGTTAATAATGATTATGTTCAATCGCAATGGGGCCTGTGGTACATGTTTGGTCATGACGGCCGGATAGTAACCAAAGTCTATCCATGGGCTGGATCCTATTACTACTTTGATCCAACGACTTACCTGCGGGTTGACAATGACTACCGTCAATCGCAATGGGGCAGTTGGTACCTCTTTGGTAATGATGGTCGTGTGCAGAGTGGTGTTCAAAAGTGGGCTGGGTCTTACTACTATTTCAACCCAACAACTTACCTGCGGGTTGATGATGATTATGTGACATCCCAATGGGGCCTGAAGTATATGTTCGGCAAGAATGGTCGGATTGTGACGGGGCTGTATAAGTGGGACAAGAATAATCAACTCTATTACTTTGATCCGGCAACCTACCTGGCAGTCAAGAATACCTACATGCAAGCCAATGACGGTAACTGGTATCTCTTCACCGCGGATGGTACAGCAGCCAGTGGTGTCACCAAGTGGGCTGGTACTTACTATTACTTTGATCCGGTTACTCATCTCCGAGTTGACAACAACTATGTTCAATCCCAGTGGGGCGATTGGTACATGTTTGGTCCGGATGGTCGGATTGTAACTGGCCTGAAGGAATGGTACGGAAGCACCTACTACTTTGACCCAACAACGTACTTGAAGGTTACTAATAAGTGGGTAAACGGTCAGTACTTTGGTGCGGATGGAGCCCGTTATCAAAATAAGCTGCTTGTGCAGGGCAGCAAGGCCTACTATCTTGATGCCAATGGTAACCCGGTTCGGAATCAAACGATGACGATTGATGGGACTACCTACCACTTCGATGCTAATGGTGAGGCTAGTGCGCCCGTAATTGTCCCAGATGAGAAGATCAGTACAGACAATGCCTTTATTCAAAAGCAGCGGTCACAAATTGCAGCTTCAATTGCCGATGCCTTAAGTTCAAGGGGGAATATTGACGCTGATTGGAATAATCAAAACGATAACTTTGCGGCCTTTGCAATGCATGATACCGCTCAACTGGTATCAGTTGCCCAGAAGAATGTGCTGGATAAGCAGGCCGGTCAGAAGGTTATTGGCGACCAAGGACTCGATGCCGATGCCAACCTCATTGAAGAAAATCTAGCGAAGAATGCGTTGCTAACCGGAAAGGTTCAGAACATCTTCACGATGAACTATAAGCTAAATGACTTTAGTAACAATGCCGACTATGTTCGGAAGGTCACTGACGATTACGTAAATCAGTTGAAGTTAAAGAACATTGATGGCGATATCTTAGGAATCGGTTCCAATTATGATAGTGTAACACAACAGTTTGTCGTTACGGCAATTCTGTTTAAAAAGGGACCAGCTAAGCCAGTACCTGCTCAAGCACCTTCAATGGTTTCATCAGCGACGGTTACTAATGTCTATAATGATAATACTGAGGTTAATAATCCGTTAACGGTTGGTGCAACTGTTGATAATGCAGAACTAAACGGTGCGCTTGCCGGGATTAACAATACTATCTTGACCGGTGGTCCTAAGGGTGAAGTGATTCCGCAAAATATCCTTCATCTCTACTATGATGCCTTGAAGGGTGCTCAAGAAAAGACTGGTCTCGTAGGTCAAAAGATCTATTCTAATAAGAACGGTGATTATCATTATGTCTACTGGTTGGAAACTAACCAGGGCACGGTTAAGAAAGATTCATGGACGGTTTTCATGAATAATAACAAGGGTGTAAAGTATGGTGATCCAATTAAGGTAGATGTATCAGCAACTCTGACCTGGGGGAAGCCAGCTGCTAAGCCGGTTTCAGGTATTCCAACTTCCCAGATGACACCTGAACAGATTAACACTGCCTACGCTACCGGGTCTGATACTGGTGCTAACCTTGAGCCGGTTAAGATAGAGAAGATCAATAACTTCAATAATTCTCTTGCTAAAGGGGTTGATGTTGGTTCGCTAATTGCACTGGAAAATGCCGGTGTGTCCTTCTACAACTTCAAAGGTCAAAAGGATGACTTATTCAATGTCTTGCAGCAAGCTGGAGTTAATTACATTCGTCTACGGGTTTGGAATGATCCATACAATGCTAAGATGCAGACCTATGGCGGTGGTGCTAATGATGAGGCAACCTTAATTCAACTTGCTAAACGGGCACAGGCTCATGGAATGGCAATTCTGATGGATTTCCATTACTCTGACTTCTGGGCTGATCCGGCTACTCAGTTAGTACCAAAGGCATGGAACAGTGAAGATCCCGCAACCATGCAAAAGTCGGTCTACAATTATACTAAAAAGGTTCTACAAGATCTGAAAGCAGCCGGTGCCGATGTTCAGATGGTTCAAGTCGGCAATGAAATTACGCAAGGAATTCTGACATCACAAACGCGTCCTGACTTCTGGACGAATGAGAGTACTGCTAAGGATGGTTGCGCATACCTGTCAGCTGGTGTGAAGGCAACTCGAGAAACGCTTCCCGCTGCCAAGGTATTACTTCACCTTGAAGAAATGAATCAAGATAAATATCGGAATATTTTGACGAGTTGGAAGAATCATGGGGTTGACTTTGATATCTTTGCAACCTCAGCTTATCAGTTCTGGTTGTGGAGTAATGACCAATACTCAGTAATGGATACAATCAATGGTTGCATTGATATGGTTAAAAACGAGTTTGGCAAGCAAACAATTATCTCTGAAACCAGTTGGCCTTTCACTACTGAGAATTCTGATGGCACTAATAATTCTACCAATGTGGCTGGTAATGCGAAGTTACCAATTAGTCCACAAGGGCAAACTGAAGCGATGCGGCGCCTTTATTCCAGTGCGATGAGTAATGGCAATATCCTTGGTACCTTCTGGTGGGAACCAGCTTGGATTCCTGCTAAGGCTGGTTGGAACTATTATCAATACAACATTGATGCAAGCAGTGTCTATGGTTGTGGTTGGGCGACTGAAGCTGCCCGCGGCTACTACCCAGATAGTAAGTTATACTATGATGGTAAACCAACCTGGGGCGGTAGTTCATGGGATAATCAAGCATTATTCGATGATCAAGGACACCCATTACAATCTTTAAAGATGTATCAGGGGTTCCTAAATGGTTATACTTCACCAAACTATTCTGTACCTGGTGAAGGCAAGGATGTTACTTCTGATATTCAACTAAAAGTAATGAAAGTTTGGAATGAAGCTGGCAATGTTACCAACCCGTTGCAGGCTGATACAATCGTTTCAGCTACGGATGTTAACGGTTTATTGAATGCAACTATTACGAAGCTGTTAACTGGCAAGAAAGAAACTAGTTTTTCTACAGAAACGTTGAACCAGTTAGCTGATTCATTAGCACAAAACGGCCTGCAAGGGACCAAAGAGTATACTGATACCCAGGGGAACAAATACCACTACGTTTTCTGGCTTGATGGCCAAACGGCAGCCGATAAGCAATGGCAGGTTAATAATGCTAATAAGGGTGTTAAGTATGGTCAGATTATCAATCTGCCTGTTACTGCGACATTAACGCTCGATAAATAA
>SRR1151252_01649 methylase
ATGGCTAAAAACAGTACACAGACCTTCTATGGTACAAACCGTAGTAGAAGGAACCAAACTCATAAAACTCGTCGTCAAATTGTTAAAGAATTTGTCGATGAATGGGTAGGAAAAAGTAAGAACGGTATCATTAAGGAAGATGCTAATCGTCAGCCGTTTATTGATGATTTGCTAAGGCGAGTCTGCGGTATTGAACAGCCAACTCAATATATTCAGTATGAAAAAGATGTTCAAGTTAAATCGGAAGTAAGCGGGGAAATAGGTACTAAACAAATAGATGGATATATCCCCTCAACTAAAGTTATTTGGGAAATGAAGGGGAGCGATAAAGATCTTGATAAGCCTATCCCTCAGTCTGACGGTACGAAAATGACACCGTATGAACAAGCAAAGCGATATAATGACTTTTTACCAGCAAATGAACAGGCTCTTTGGATAGTTACATCTAATTTCATTGAGACTCGCATTTATGACTTGAATAAACCTCTAGCCGATCCAACGATCATCATGCTTAAAGATCTAACCACTAATTATAAAGCGTTGGATTTCATGGTTGATGCCAACCAACAGCAAATCATTGATGAAAAGCAGTTATCCGTTGATGCGGGTACTTTAGTGGGTAAAATTTACGATGAATTAGCTAAAGCATATTCACTTCATGCAGATGTTAACGATGCAAAGATTCAGCGTAGTCTTAACATGTTAGTTGTTCGTCTAGTTTTCCTGTTGTATGCCGATGACACTGGAATTCTAGGTGAAGAAAACATGTTCCAGAATTTCTTAGAGCGTCGCAAACCACGTGACATCAGGGCCGGACTAATTAAACTATTTCGGATACTCGATGAAGACCCGGATAAAGGTGAACGTGATGACTTTCTTGAAGATGAATACCGGCAATTTAAGTACGTTAATGGGGGAATGTTTAGTGATGAAGATGTTGTTATTCCTCAATTCACGCAGGAACTAAAAGATCTCATTCTAAATGACGCTAGTAAAGGATTTAACTGGTCTAACATTAGTCCAACCATTTTTGGAGCTGTTTTTGAAAGCACCTTAAACAAAGTTGAGCGTAAGAAGTTTGGGATGATCTATACTTCAATTGAAAACATTCATAAGGCTATCGATCCACTTTATTTAAATGACTTAAGACTTGAGTTCAGTAAAATTCAAAATATGCCCAATGCCCGTCAACGTGTACAAGCGGCTAGGGAGTTTCAGGATAAGATTGCTAAAATGAAGTTCTTAGACCCGGCATGTGGTTCTGGTAACTTTTTGACTGAAACCTACTTGTCACTACGCAAGATGGAGAATGAATGTCTTAAAATCATTGTTGGTAGTCATATGGTATTAAATACGGATAACGATATTCGCGTGAAAATTAAAATTCAAAACTTTTACGGTATCGAAATCAATGATTTTGCTGTATCTGTTGCACGAACAGCTATGTGGATCGCCGAAAGTCAGATGTGGGATGAAAGCCAAAACATTATTTACTCCAAAGACGACTTTTTGCCGCTAGACAGTAACGATTCAATCTATGAAGGTAATGCTTTAAAGATGAATTGGGCAGATGTCGTAAAACCATATGAATTGGATTACATTATTGGTAACCCACCGTTTAAAGGTAAAAAGGACATGACCAAAGAGCAAAAGGCTGAATTACGCGCATTGTCTGATGTAAAGGGTATTGGGAGAACCGATTATGTTGCCGGCTGGTTCATAAAAGCGGCTGAGTACATTCAAAACACAACCGTTGACGGCGTCCTGGTTGCTACTAATTCTCTCACACAGGGTGAAAATGCAATTAACCTATGGAATGCACTAGAGAAATATTCTATTTACATTAATTTCGCATATCGATCATTTGTTTGGCAAAATGAAGCTAAGAAAAATGTTCAGGTTCACTGTACAATTCTTGGGTTTGCAACACGTCCTCGAAAGATCCGTTATATTTTTGATGGGGCTGAAATCAACCGAGTTAAAACTATTAGTGCCAATCTATTAGATACACCGTATCGACTTCATAGCGAAGCACCTAAAGCAATTTGTGATGTTCCTAAACTGAATTATGGTAATGTTGCTGGATACAAGGCACTTTACTTTAAAGAAGACAAAAAGGATGCCTATTTGAAAGCAGAACCATCGCTAAAGAAATTTATACGTCCATTTGGCGGAGCGCGAGATTTGCTTAACGATAAACCAAGATATTGTTTTTGGTTGGTAGATGCAACGCCAAAAGAAATAAGAAATAGCAAAATTCTAACCAACGTAACAGAACAAGTGTATAAAGCCAGAATAAACTCCAGTGCTAGTGCAACAAGAAGAAAGGCAGAAGTTCCACAACTCTTTTTCTCAATTGCACAAAAGGATAACGATGTTATCGCCATTCCTAAAGTAACAACGGGGAAACGGCCTTATATGCCAATTCTTATGGTTGGACCGGAATTTATCGTTAGTGGAAGTGCAATGATGATTGATAGTTCATCCAGATATATTTTCTCAATACTAAGTTCATCGGTTCACACCGCTTGGATGCGTGCCATCGGTGGAAGAATGAAGGACGACTATCAATACTCAATTAAAGTTGTCTACAACACGCTCCCTTGGCCAACTGTCAATGAATCGCAAAAGAAAGAATTGGCAGAACTTGGACAAAAGATACTGGATGCTCGAGCAAAAGAAAGCGACTCTACTTTAGCAGAGCTATACACGACTGAGAACTTCCAAGTCGATAGAGAGCTTCGTAAAGCACACGAGGATAATGATAGAGCTGTCTTAAAAGCATATGGCCTAAAGTCATCAGCCACTGAGCAAGAGATTGTCAGCCATCTATTTGAGATGTACGAGAAGCTCACCAATAAGGAGAGTAATTGA
>SRR1151252_01650 hypothetical protein
GTGCCCCAAAATATTGTTGAGGATTTTGAAAAAACGGTTGAAGAAGCTAATAAGTTACTGGAAAGTCACGATGACAAACAGAAGGCCAAGGGAATGTTACTTGTTATGAATTTTCCAGATACCTTACCAAAGCAGTACAAATCATTTGTCAATGACTACATAATTAGTTCTATGTTTAACGGCGTGTCTTTCTTAAACGATCCGCGCTTTAACACTCTTCATTCTTATGATTTTTACGGTTGGAAAATTGCCGAAACAAATCAAGTATTTCTTATTGATTTAGTTAGTGTAGGGAGAAAGCCTGAAATGTTTACTCTCGAAAGTACCTATATGAACTACTATAAGTATATTGTCAACAGTTATAGTATTGAGTCATTCTTGATAGAGTCAAACGTTCCAGGTGAAAAAGCACAAAAGGAACTTGAAGCCATTTGTCATGTAGCAGAAGGATGTGGCAATCTTTTGTTAAACAGAGGCCATGCCTTTGAGTGTGATTATTATTTTGACATAAAGACCCATAATACTGTTCGAAGGGAACAAACATATAAATATTTGAATGTACCTATACATCTTGTATCACAATTTGATTATTTATATTGTGGACTGATAAAACCAGCATTTCGCTGGGATAGTGTTAATTTAGATAGACTCAGAAGTTGTGGACTAGGTAGCCAATTTAACTATGTATATGGTCTTTTCTTAAAGAAGCAATATAAGCGGAGTTCTACTAATCAAAAGAAGTATGATCTCATTTTTGACAGGTATAAGAAATTTATACTTGCACAAATCAAAGAAAAAGTGGGCGGACGTATTTATAAGTCCGTTGGGAAACGCTCTAATTATGTATTGGTCTTCACTGATATAACTGAAGACCAATTTAAAGCATATAAGGCAGATTGCAAGAAATAA
>SRR1151252_01651 GNAT family acetyltransferase
GTGGCCGGTGGGCTTCTGACGACGGGTGAGGAATACCCGCAGGTTGACTGGCCTCACCAGTTTGCCGATGATGAGGTGGGCATTCTTCACCTATTTGGCGTCCATCCCAAGTACCGGCGGACGGGGATCTCTTCGGAGTTGCTCCAGGAAATCATCAAGCAGGCTGGCAAGGAGGGGAAGCAGGCGGTCCACCTTGATGTGCTGGCTGGGAATGTTCCGTCCGAGAAGTTATACGTGAAGAATGGCTTCACGGTGGTGCAGGCATTGACACTACACTACGATGACATTGGCGACCAGGATGCTAAGGTCTTGGAGTACTGTATTTAA
>SRR1151252_01652 GNAT family acetyltransferase
GTGGTATTGGATGAAATTAGGGTGGCCCAGTCCAGCGATCTGGGCGGGGTAGCAGAGTTGTATAAGGCGATTTGTGACCACCAGCCGCTCGATGAGTATGGGGCCGACTGGACTTGGGGCGAGTACCCGAGTGTTGACGGCCTACGCCAGATGATTGAGGCGGATACCCTGATGATTGCAAGGATCGGCAGGTGGTGGCCGGTGGGCTTCTGA
>SRR1151252_01654 phosphinothricin N-acetyltransferase
ATGAGTGAAGTAATGCTGCGGGTGGCACGCCCGAGTGATGCTGCCGCCATCCAACGGATCTATGGTTACTACGTGGATAACACGGCGATCACCTGTGAGGTCGTCACACCGTCGATTGCGGAACTAACGGGACGAATCACCAAGACCCTAGAGAAGTTCCCGTACCTGGTGGCAACCCTGGATGAGCGGGTGGTGGGGTTTGCCTACGTTAGTCCGGCTAACCCCCGTGCTGCATATCAGTGGACGGTGGAGACGTCGATCTATGTGGATCGCAATTGCCGGGGGAAGCACGTCGGAACACGGCTGTATGACATGCTTGAGGAGCTTTGCCGGCGGATGAAGGTGGTTAATATGACCGCTCACATTGTCTACCCCCACGACGACCAGCCGGACCAGTACCTGACCCTGGCTAGCCCTAAGTTCCACGCGGCCTATGGCTACCGTCTCGCCGGCCGTTTTGATCGAAACGTCTACAAGTTTGACAAGTGGTATGACATGATCTGGATGGAGAAGGCCATTGCCGAGCACGGCCATGACCCGGTTCCAATCGTCAACTTTAACGCGATTAAGGAACGGTTCTTCGGTGAATAA
>SRR1151252_01655 esterase
ATGACCAATGCCTACCTCATTCATGGCACTTCCACCAGAGACGACGACTGGTTTCCATGGCTGGAAGGCGCCGCCGCACCGGAGATTAAACTCGACCGGATCTTCTTACCGAATCCCTTCAGCCCGCAGGCCAATGAATGGGATGATGCAATCGACCGGCAGGTACCCGCTGAGAATGGCCTGATCCTGGTCGCCCACAGTCTCGGCTGCGTGACCGCCCTCCGTTTTGTCGCCCGGCACCACCTTCATGACATTCGCTTTCTCCTGGTCGGCGCCTTTGACCGGGGCTTGCCGGCCTACCCCGAGCTAGACACCTTTATGACCCCGGCTCCTGACTATGGTGAAATCACGCCTAAGGCCAGTCGGGCAACCGTCATCACAGCCAAAAATGACCCGATTGCGCCCTACCATGACAGTATCGACGTGGCCCACCACCTTGGCGCCAAGCTGATTGTCCAGGACACCGGCGGCCACTTTCTGACCAGCGACGGATTCCGTGAGTTCCCCCTCGCCCTTAAGGAGCTTCAACGCCTAGCCGACTAA
>SRR1151252_01656 major facilitator superfamily transporter
ATGAGTAAAGAAACGCGGGGACGGCAGGTTCGCCACCCGAAGCTTGCTATGGTCAGCATGCTGCTGGGGGCGTTCGTCGGGATGCTCAGTGAAACCTCACTGAACATTGCCCTGCCTAAGTTGATCCTGGCATTTCATGTTAATACGGCAACTATTCAGTGGCTGGTGACTGGCTACATGCTGGTCATTGGGATCGTCCTGCCGTTGTCGAGTTTGATTTCAAAGTGGTTCACGACCCGGCAAATCATTATCTTCGCCTTAGTTGACTTTATCGTCGGGGCGGTAATTTCTGCCCTGGCGGGGAACTTCCCGGTTCTCTTGATCGGGCGGATGATTCAGGGGATTGGGACCGGGTTGATCCTGCCCCTGATGTTCGCAGTGGTCATGCGGATCTTCCCACCACAGAAGATCGGTGCCGTGATGGGAGGTTGTGCGCTGGTCATCATGTTTGCGCCGGCGATTGGGCCAACTTTGACTGGTCTGGTTCTGGCTAAGTTATCGTGGAACTGGATTTTCTGGCTCTTTGTTCCATTTCTGGCGGTGGCCCTGATTTTTGCGATCACCTCGCTGGAAAATGTCGGTGACATTACCCGGCCACACGTCGACGTTTTGTCAATCCTCGAATCAGCGGTCGGCTGCTCGGGTTTGGTCATTGGGGCTAGCCTGTCCAGTCGTGACGGATGGCTGTCCGCGCCGGTCCTGTGCGCCCTGATCATTGGGATTGTTGTCCTTGCCTTCTATATCCATCGCCAGGTGCACTTGGAGACGCCAATTCTCAACCTGCGGGTATTTAAGACCCCGGCCTTTGCGATCGGGTCTACCCTGGTGATGTTGGACTTTGGAATTATCCTGGCTGCCATGTACCTCCTGCCAATGTACATTCAAAACGGCCTGTTACTGCCTGTAGCCCTGACCGGGATTATCATGCTGCCAGGTGGGGTGGTCAACGCCCTAACCTCAGCTGTGGCCGGCCGGATGTACGATAGTGTTGGTGCCAAGAAGCCGGCGATGATCGGTTTTATCATCGCCTTGATCGGTGCCGGTATGCTGGCACTGACCAGTGACCATTCTTCAATTGCCTATGTGATTACTGCCCACGTCATCCTGATGATTGGGTGTCCGCTGGCGATGTCGCCATCTCAGACTAGTGCCCTGAACTCACTGTCCGGGATGGAGTCGGCCGATGGTAGTACCATTTTGAACACGATGCAACAGATCGTTGGTGCTCTGGCAACGGCCCTGGCCACCAGCTTCCTTGAATTGGGGCGGGGTGCCGCCACGGGAAGCTCGGCCGTGCGTTTTACCAATGGTGTTCACTGGGGGATCTACTTTACCCTGGTCTTGATCATCATCGGGACCGTCCTGACCTTCAAGATGACTGACAAGCCACACAGCAATGATTTGAAGTAA
>SRR1151252_01657 MarR family transcriptional regulator
ATGTACCAACGTAAAACACCAAAAGAGTATTTTTGCACCGTTGATTATGCCCTATCCATTTTTGGCGGTAAATGGAAGCCACGTCTGCTGTGTATCCTTGGTAATAGTGGTCCATTACGCTACCGAGAACTCAAGGATGAGATGGAAAACATCTCCGATACAGCATTGGCGGATAGTCTCCACGAGTTGCAGGCCGCCGGAATCGTCCAGCGTCACCAATACAATGAGATGCCTATCCGTGTTGAATATTCACTAACAACCAAGGGACGCACTCTTCTTCCCGTTCTCGAAACGATCTCGCAATGGGCAATTAATCACAGTGATGTTTCAATTTATCAGGGAAGACATTTTGACCACGTTCATCGGTCCAGTTTTAAAGCCTAA
>SRR1151252_01658 alcohol dehydrogenase
ATGCCATCACCACCGACCGTTAAGCCGGGTGACTTTGTCATTGCCCCGTTCACCCACGGATGTGGCCACTGTGCCGCCTGCCTGGCCGGCTTTGACGGTTCATGCCAGAGTCACGATAATAACTTCAGTAACGGGGTTCAGGCTGAATACATCCGTTTCAGCCATGGTCAATGGGCGCTGGTTAAGATTCCTGGCAAGCCAAGCGACTACAGTGAGGGAATGTTCAAGTCACTGTTGACCCTGGCCGACGTCATGGCCACTGGTTACCATGCTGCTCGGGTGGCCAATCATAACCACCCGTAA
>SRR1151252_01659 alcohol dehydrogenase
ATGAAATCTGCTGTGTTTGCTAAAGCGGGCCAGATGAAGCTGATCGACATCGATAAGCCAACCATCCAGGCCCCCGACGACGTCATCATCAGGGTTGTCCGGACCTGCGTTTGCGGTTCCGACCTTTGGTACTACAAGGGGATCAACCCGGTTGAGGCCAACGCCGAAAACTCCGGTCACGAGGCGATCGGGATCGTCGAGGAGGTCGGTGATGCCATCACCACCGACCGTTAA
>SRR1151252_01660 two-component system response regulator
ATGAACATCCTGATGATCGAGGATAACCATTCTGTCTGCGAGATGATGGCAATGTTCTTCAAAAAGAACCAGTGGGAATATGAATTTGCCTACGATGGTGTGGCCGGGGAGCAGCAGTTTGCTGACCAGCCGGACAAATGGGACATCATCCTCTTGGATCTAAACCTGCCAAAGAAGGATGGAATGCAGGTGGCGGCAGATATTCGGCGGATTTCACCGACTGTACCGCTGATTATGCTGACGGCCCGCGATACCGAGAGCGACCAGGTCCTGGGGCTGGAAATTGGGGCCGATGATTACGTGACCAAGCCGTTTAGTCCGATCACCCTGGTGGCCCGTATCAAGGCCCTGCACAGGCGGAGCCAACTTGGGCAACAGCACCAGCAAGGACATAAGGATGCTAATGGCTTTGATATTCGGACCGACCACTTCAAGATGAACACCAATACTCGGGAGGTCTACCTTTATGACCAGCCGGTTAGCGACTTGACGCCCAAGGAGTTCGACCTTCTGAAGACGCTGGCAGCCAAGCCTCGTCAGGTGTTCACCCGGTCTCAGCTCCTCCAGCTGGTCTGGGATTATGAGTACTACGGGGATGAGCGGACGGTTGACGCTCACATCAAGAAGCTGCGGCAGAAGCTCGAAGACATCGGTCCCCAAGTGATTAAGACCGTCTGGGGTGTTGGCTATAAGTTTGACGACGAGGGAGAATAA
>SRR1151252_01661 two-component system sensor histidine kinase
ATGAAGCTAATGTATCGGCTGATGCTGACCTTCTTTACAATTATTATTATCCTATTGGTGATCTTGAGCATATCCTTCATGCAGGTCACTAACAACACCCTCTACCACAACACATGGAACCAGCTGAAGAGCTACTCGGATAGCCTGGTTCAAGACTCGATTCGCTATGACCCGACCAACCGGAGCTTTGAGGGCTTTGCGACCGATTCCCTGCAGACCAACGCCAACTTGCTGATTCGTCAACACGTTCACTTTGCAATGTACGACACAACGCACAAGCAGATCTATGCTAGTAACGGCTTCACGCCGACCATCAGCAATGAGCAATGGCGCAAGCTGAAGGACGGTCAGGTTCTCTGTACCAAGGTTACCATGGCCAAGGTTGACCACCAGGTAGCCAATACGACGACCCCACAGATGACCGAGGTCCTCAAGCCGTATTTTTACAAGGGAAAACTGGTCGCGGTGGTGTCGATCGCTACCCTGATTTCAACCATTAAGGAAAATATGCACCAGATCGTCCTTAACCTACTAGTTGCCTTTGTGATTGCGGCCCTGCTGACCCTGGCCGTGAGCTACTTTCTTGCCCGGTCGATTACCCAACGGATTCAACGCCTCCAGAAGGCTACCCACGAGGTCGCCCAGGGTAATTACAACGTTCAGGTAGCTACGGCCGGTAAAGACGAGGTGACTGATCTGGCTCAGAGTTTCAACACAATGACGCAGTCACTGGCGGCATCACAACGGGAGATCCAACGTCAGGAGGAGCGTCGCAGACAGTTCATGGCGGACGCAGCTCATGAGATGCGGACCCCACTGACGACCATCAACGGAATCCTGGAGGGACTCGAATATGACGTTATTCCCGAAGAAGATAAGCAACACAGTATTCACTTGATGCAAAACGAGACCCGGCGGCTGATCCGCCTGGTCAAAGACAACCTAGACTATGAGAAGATCCGGACGAATCAGATTTCGATGGAACGCAAAGTCTTCGATGCGGCAGCCGTCCTATCTAACCTGTGCGAGCAGCTCAACAAGAAGGCCCAAGCCCAGGGGGATAGGATTGCGCTGGATGTCACGCCGGCATTGCGGGTTTACGCTGACTATGATCGTTTTGTTCAGATCATGTTTAATATCACCCAGAATGCCATCCAGTTTACCGAAAACGGCCTGATCACAATTCAGGGACGAGCAGTTGCCGATGGTAGTCAGTTTAAGGTTAGTGATAACGGAATTGGGATGACTAAGGATCAGTTAGCTAATATCTGGGAACGCTACTACAAGGCCGACCGCTCGCGGATGAACACCAAGTATGGTGAGTCTGGCTTAGGGTTGGCAATCGTCCACCAGTTGGTTCTCCTTCACGGCGGGAGGGTGACCGTCGAGAGTAAGTACGGTGAGGGAACCACCTTTACCATTTTCTTTCCCGACCGGGAGCATGCGCCACACACGGCCGGAAAAACGGATACTAACTAA
>SRR1151252_01662 glucose uptake protein
ATGAGTTATTTGATTGCATTAATCCCAGCCCTTGGTTGGGGATTCATGCCCCTGATCACTGGAAAGATTGGTGGATCGGCTGTTAACCAAATGTTTGGGATCGGTGCCGGTGCTACCATCATCGGCCTGATTGCCTTCGTGATCGGCCATCCAGCCGTTAGCACCACGGCCTTCTGGTTCTCCGTCGTCTGTGGTGCCCTCTGGACGATTGGACAGATCGGTCAGTTCATTTCATTCAAGCGGATTGGGGTTTCTAAGACCACGCCGATCTCAACCGTTCTCCAGCTAGTTGGTAATTCCATTATCGGAGCGATTATCTTTGGCGAATGGCGTGGCGCCAAGGCTCTGACGATTGGTTTCGTTGCCCTGGCAGTTGTCGTTGTTGGGGCCCTGTTGACTTCCGTGACAGAAGGGACGTCCAGCAAGAAGGTCACGACTGGTGACTTCCTCTTTCTGCTCTGCACGACGATTGGTTACTGGATCTACTCTGCCTTTCCTAAAATCCCGGTTGTTGCTGACCAGAGTGCCTTGGGGATCTTCCTCCCTGAGATGTTGGGGATCCTGTTAGGCTCTGTCATCTACACGGTAGCCTCGGGTAATATTAGTGCATTCAAGCAACGTGAACAGTACTTAAACATCCTTGGTGGCTTGTCCTGGGGGATTGCCGCTCTGGCCTACATCTTTGCCGGTAAGGCTCTGGGGATCACCACGGCTTTCGTATTTAGCCAGATGAACGTTATCATCGCCACGATTGGTGGGGTATTTATCCTGCATGAACAGAAGACCTCCCGAGAGATGAGCTTTACCATCCTGGGGATCGTTCTGATCGTCATCGGGAGCATTGCCACGACCTTCGCATAG
>SRR1151252_01663 nicotinamide mononucleotide transporter
ATGACAAATACAGAACACGGCTGGCTATTTAACCAGCTATTTACAAAGTGGAAGAAATTCGAGGTAATTTATGTAACAATCCTGTTAGTGCTACAAATTGGGGTTTACCTGATTGCTCCTGACAGCTGGGTCGGGATGTTGTCTGGTGTCTTCGGAACGTTAGCCTTAGTTTACGGGATGAAGGGACGGAAGATTACGTTTATCTTCGGCTTCATTCAGTGTGTTGCCATGACTTATGTTGCCTGGCAAAGTCATACTTGGGGAACATTCGTAATGGACATTATTTATGTGATTTCACAACCGATTGGCTGGTTTATGTGGGGAAATGATGACGCCACGAAGCGTTTTAGCCCGAAAGTACGGAAGTATGTTTTCGCTGGCGTCGTCGTTGCATACTTTGTTGGTTGGTATGTAATTGGCCTCTTTAATGGTCAGTTACCGTACTTCGATTCATTTAACCTCGTTGTTAGCTTTATTGCCCAGTTGCTTTACGTTTTGAAGTACCAGGAAAACTGGTCACTGTGGATCTGGGTAAATACTGCTAATATCATTTATTGGATTATTTTGGCAATTCGGTACAAGATGGGTGTCCACATTGGAACTTTTGGTGGCGACCTATCGCAAATTGCCTTACAAGCAGCCTTGCTGTTCAACTCCTTATACGCAACCAAGGTGTGGGCAAGTGGTGAAGCCGATAATGAAGGTGGAACTACTAAGTAA
>SRR1151252_01664 isochorismatase
ATGACTAAAGCATTATTAATTATTGATTATACAAACGATTTTGTCGCTGACAATGGTGCGCTTACTTGTGGCAAGCCAGCGCAGGAATTAGAAGATTGTTTGGTTCAGCTGGCCAACCGTTTTTACCAAAATGGCGACTACGTAATTTTCCCGACTGATGCCCATTGTGGGGACCGGTTTAGTCCAGAAGCTAAACTCTTCCCGCCACATAACGTGGTCGGTACGCCTGGTCAACAGCTATACGGCAAGGTTAATGACTGGTTTGAACAACATCAGGCCAGTGACCGGGTTTACCAGTTTAATAAGAACCGCTATTCATCATTTCAAAATACTAATCTTGATAACTACCTGCGGGAACGAAAAATTGATAACTTGTGGATTGCAGGTGTTTGCACCGATATCTGTGTCCTGCACACCGCAATTGCCGCCTATAATTTGAACTACCAGATTACGATTCCGGTTAAGGGGGTCGCCACCTTTACCAAGCATGGTCAGGAGTGGGCGCTTGACCATTTTAAGAATTCACTGGGTGCGACGCTGGTTTAA
>SRR1151252_01665 nicotinate phosphoribosyltransferase
ATGAAGCATGAATTATTAACCGACCTGTATGAGTTTTCAATGGCCAACGGTTATTATCAAACGCTTCCCCACGATAAGCAGGCGCGCTTCGACGTCTTTTACCGTAAGGCGCCCGATGATGGCAGTTTTGTGATTAGTGCTGGATTGATGCAAGTAATTGATGAAGTTAAGAACTGGCACTTTTCAACTGATGACATTGCTTATCTGCGGTCCCTTAACCACTTTAGTGACGACTTTCTCTTTTACCTGACGGCAGCTCACAACCGCTGCTCAATTAAGGCAATCCCAGAAGGCACGCCAGTCTTCCCACAGGAACCAATCCTTAGTATTAGTGGCCCACTAATTGATGTCCAACTTCTCGAAACCCTGATCTTAAACATCATTAACCACCAATCATTGATTGCAACGAAGGCATGGCAGATCACCAGCGTTACTGGCGGACGTCCAGTAATGGAATTTGGTGCACGACGGGCGCAGGGGCCTGATGCCGCAATATATGGTGCGCGGGCTGCCATTATTGGTGGGTGCAGTAGTACCTCCAATGTGCTAGCTGCCAAGCTGTTTAACCTTCCGGCGGCGGGGACGATGGCCCACGCCTGGATTGAAAGCTTTCCTGATGAATTAACGGCCTTTCGTGCCTGGGCCAAAATTTACCCTGACAATGCTGCCCTGTTAGTTGATACCTACGATGTGGTTAACTCTGGGGTACCGAACGCAATTAAAGTCTTTAAGGAATTGCGGGCAGCTGGCCACGAACCGGTTGGTATCCGCATCGATTCTGGTGATATTGCCCAGTTGGCAATCAAGGCCCGGAAGATGATGGACGAGGCTGGTTTTACCAACGCTAAGATTACTGCTTCAAACGCCCTTGATGCCCACATTATTAAGTCATTGCTTGATGAGGGGGCACCACTGGATAACTTTGGGATCGGTGAGCGACTAATTACCAGTTCATCCAGTCCAGTATTAAGCGGTGTTTATAAAATGACGGCACTAGAAAATGATGGCAAATGGGTGCCAAAGATCAAGATTACTAATAGTCGCGAAAAGAATACGCTCCCTGGGAATAAGCAGGTTTACCGGCTCTACGATAAGCATGATCCCCAACACGCTGTTGCCGATGTAATTGCCCTGGCTGACGAGCAGATTGGAACCGAAATTGCGGCAATCAATGCTGACGTTCACGTCACCCGGAATAAAGTGATTCTAACCGACTTCATTGCTAAGCCACTGCTTAAGCAAGTTTTGACACTGGAAAAAGCGGCGCCAATTGAAACCAACACTTTTGCCATTCAGCATTTTGCGCAGACCGAATTAGCACAGCTGCCGGCGGCTACTAAGCGGTTGCTTAATCCGGACCGCTTCCCGGTTTATTTAACCAAGCGGTTAGCTGACTTGCAACAAAAGCTGGTTGATGAGGCACAAAAATAA
>SRR1151252_01666 NUDIX family hydrolase
ATGGCTGACAAAGTTGTTGCGCGTCCGCTAATTACGATTGCAAATATTATTTGGAGTTTTAATCCCCTGACCCATTTACCACAAGTCCTGCTGGTCAAACGGGCTTATCCGCCATTTGAGGGCCACTGGGCTTTACCAGAAACCCTATTGCGGCGGGATGAAAGTGCTGACGCTGCCTGTATCCGCCTGATTAAGGATAAAATTGGTGTTCGTCTATCAAACAGTGCTACCGAACAGTTGGCAACCTTCACCGATCCCGACCGGGTAAGCGGTGAGCGGGCCTCGGCGATTGCCTACATGACTTTCTTACCGACAATGCCGCAACTGAGGGCCGGGTACGGAGCAACCGAAGTCGGGTGGTTTAGTCTTAACTTTGACCACGGGAAGTTTATCTTGCAAAATGGTGACTTAGTTTTGAGTTTGGCTGCAGGGTCGGCGCTAGCATTTGACCACCACCAAATTATTAATACGGCCATTGTACGAATTAAAAATAAACTGGACTACCAGCCAACCATTTTACAGATCTTAGGACCGACTTTTACCCTTCGGCAAGCCCGCGAAGTTTATGCTACTTTCCGCCAAACAACGGTCGATCAAATTGATAATTCTAATTTTAAAAAGACCCACCAAAAACTGTTTAAGGAAGTTGGTACCGCCGCAACAAAGCGGTCAGGCCGGCCACCAAAGTTATTTAAACTGGTACTACCTTACGTCTAA
>SRR1151252_01667 3-oxoacyl-ACP reductase
ATGGAAACAGTAGTAATCACCGGAGCAACCTCCGGAATTGGCCTCAGCACGACCCGCCTCTTCCTGAATAAGGGGTGGAGCGTGATGATGGCCTCCAACCAGCAGGAGCAGGGCGAAAAGCTCTGTCAGGAATTTGCCGACCAGTTTGGCACCGACCGGGTCGCTTTCACCTACACCGACGTCAGCGATGCAGCCAGCGTGGCGGCCCTGTGCGACGCCACCTTCGATAAATTCACAACGGTAACCTCCCTGGTCAACGATGCCGGGATCGTTGTCTCAGGAAGGCTGCACGAGGTCACCGAGCAGAACTGGAACCGGGTTTTTGCGGTCAACGTGACCGGGACCTACCTGGTCAGCAAGGCCTTCCTACCGGCGATGATCGCCCAGCATCGGGGCACGATTGTCAACATCTCCTCGATCTCAGGGTTGGCGGGGGACTTCAACATGGTCGCCTATAACGCCACCAAGGGCGCGATCGTTAACATGACCCGGGCGATGGCGATGGACTACGGCCCGGACGGCATTCGGGTCAACAGTGTGGCGCCCGGGCCAACCGAGACACCGCTGTTCCCGGCCGACCAGATTGACCGTTTCAGCAAGCACAGTCCACTGGGGCGGATCGTCCAGCCCGAAGAAATCGCTCAGGCGGTCTACTTCGCGGCGACCCCGGCCTCCAGCGCGATGACTGGGGAGAATATCCCGATCACGGCCGGCTTCGAGATTGGCACCGGCCAGCCGGCCAAGTAA
>SRR1151252_01668 putative acetyltransferase
ATGGCAACCTATATTCGCCGGGCGACCAAGGAAGACCTGCCCGCCATCATGGCGATCATCGCCCAGGCCAAGGAATTTCTGAAGGACAACGACAACCCGCAGTGGCAGGACGGCCACCCAACGACGGCCATGATCACCGCCGACATCGACCACGGATACAGCTGGGTCCTGATCGACGGTGACCGGGTGGTGGGGACTGCCGACCTCCAGCTAGCACCAGAAGCCAACTACGAGGCGATCCAGGACGGCGCCTGGGCCCAAGTCGACGAGCCCTATGCCATCATCCACCGGGTGGCCATCGGGGCCGCAGCCAGTGGCCACCACCTCGGCGAGCTGATGTTCTCCAACCTGATCACCGTCGGCCGCCTGCAGGGGATCCGGAACTTTCGCTACGACACCCACCGCAAGAACATCCCGATGCAAAAACTGGGCAAGACCCTGGGCTTTGTCGAGCGGGGGACCGTCTACATTCAAGACGAGACCGACGCCGAGCACCTGGGCTTTGAGCTCAACATTCAATAA
>SRR1151252_01669 hypothetical protein
ATGACAATTCGTAGGAAAATCGTCCGCACGGTAGTGGTATTCATCGCTCAGACCGTGGTTACCAAGCTGGTTTACCGGTTTATGAAGGAACCGACCACTCGTCGGCGCCGGATGCGCTGA
>SRR1151252_01670 hypothetical protein
ATGGCTAAGTACACGGTTGAATTAAGTGAAGAAGACCTGCAAATGATCAAGGACTGTCACTCCAAGAACCCTTCCATCATGAAGGCCATGGAGGAAGCCAAGAAGGTTGAAGACTAA
>SRR1151252_01671 hypothetical protein
ATGACGCTTTTTTTCAATACGTGTCGTTATTCGGTGCTTACGCCCTTTCCTGCTTACGATGATGGTGGACCGACGCAGGGCCTGATTCTGGCAAACTACACGGATGAATGTACAGACCTGGTGCCGTTGAAACGGTACTTTCCGAACTATCACGACCTGAGTATGGCTCAGCTACGGACATACTTTACCTGGCGGACCAAGCTCCGGCGGGGGGAGTTCATCAAGGTCAGCGGTTCCTATGCTTACCTGTACATCTATGAGTTGCTTAACAATATCGGAGTGATTCTCCGATAG
>SRR1151252_01672 hypothetical protein
GTGCTCTATTACCACCCGGACCACGAGTTAGTAAACCAGGCCTTTACTAACAAACTAGCGGCGGATCACGATTATCATGTCTTCCTCCACCCAACGGATTACAGCGTAGATGACCTGGTTGCGGTATTCCAGCGGCACGCGACCAGTCGGCTCTACCAGAAGTCAGCGACGCACTTTGCGGCCTTGCTGAAGGTAATTTGGCAGGCAGTGGTGATGCGGGAGCTAAATACTTTAACTACTATGCCGCTAGTCAGCAGATGA
>SRR1151252_01673 ATP-dependent helicase
ATGCCGGATCCGAGGAACTGGGGACGATTGTCAAGCCGTCACCGGTCGGGGAATAAGATTGCGATCGCTGGCCGGGGCTGGGTGGTCGAGGGCATCACCCGTCAACGTCACCAGGGTTACTGCTACGGTGTCTTCGGCCGAATTCCTGTCTACTTCGGTGATGTGGCCGGGGACATCCATCCCAAGATCCTGGCCCGGATGTGCGCCGGCCGGCATGGGGAACAGAAGAAGTAA
>SRR1151252_01675 LacI family transcriptional regulator
ATGGCCAAAAAGCCAGTCAAACTAGATGACGTCGCACGTGAGGCCGGAGTCTCCAAGACGACGGTATCCCGCGTTCTCAACCAGCGCGGTTACCTTAGCGAAGAGACAATTGCCAAGGTCCAACGGGCGATGGAAAAGCTTAACTATCGACCCAACGCCATCGCGCGCCAACTCTATAAGCAGGAGACCAAGCTGGTCGGGCTGATCTTTCCAACGATTGATGATCCCTTCTTCGGCCAGCTGGAGGCCGCCCTGGAGAATGAGCTATACCGGCGTGGGTACAAGGTCCTGATGGGCAATAGCCAGAATAATCCGGCAAAGGAACGCAGTTTTTTGCGTCAGCTCCTCAATCGCCAGGTCGATGGCTTGATCGTGGGGGCCCACAACCAGGCCATTGGTGAGTACCAGCGAACTAACCTGCCAATCGTCTCGATTGAGCAAATCGTTAGTCGGAATGTGCCGGTGGTGGCCTCCGATAATTATAATGGGGGTCGCCTTGCCACGCAGCGGCTATTGGATGATGGCTGTCAACACATCATCCACACCAATTACCCCGAGGATATTCCGACGCCTAACCACGAGCGGCGCCTAGCTTACGAGGAACTGCTCCGTCAGCACGGGCAGACGCCCATTACCTACCACATCAGCTTTGATGATCCGGTTGAGAAAAAGCGGGCGATCATTCGTCAGATCTTTGAGGACCATCCCGAGGTCGACGGAATCTTCGCAGATAACGATACCAACGCCGGGTTGATCATAAATATCGCTGGCGAGTTCAAGCGTCTGATCCCTGAGGACCTCCGGGTGGTCGGTTACGATGGGGCCAACGCCACGCGGATCCTGCTGCCGCAGTTGACCACGATCCAGCAGCCGATCAACCAGATGGCCGAGACGGCGGTGGCGATGCTCCAAGCCCGGATTAACGGTGAACAGATGGCCTCAAAGATGCTGCCGGTAAAAATCATTGATGGTGGAACAGCCTAG
>SRR1151252_01678 transposase
ATGTGTGATGGCTATGTCGGTTACAGTGATTGTTTATATCCCAATGCCCGATTTGGCTCGTGCTTAGTTCATATTCGTCGGGAGTTTATTCGAATCACTAAATTACTGAGTAAGAAGCAATTAAAGTATTCGAAAGCTCTCCATGCGGTAAAACGACTCGGGGCCGTTTTCCATAAGGAAAACGGATTAGTATATCAAACTGAAGAGGAAAAGCGGCAGCAAAGAATTACTCATGTGAAGCCGTTGCTTGATAGGTTTTACCAGTACTTGGGAAGTATCACTTCACCACAAGGCCGGCTGTGTGCAGCCATCAAGAATGCCTTAAAGCTTCGGACAAGAGTATATCGGATTTTTGAAAATGGACAAATCCCCCTAAGCAATAACTCGCTAGAAGGAGAGATCCGTTTTACAACCTTGGTTCGTAAGAACTGCTTGTTTGCAAAAAGCGTTCGTGGAGCTGAAGCTAATGCGATTTATTACACGTTAGTGGCAACAGCAAAAATTAATAAACTAAATGTATATAAGTATTTCAAATACCTGTTTGATCGACTACCCAATCAGAAAAGGAGCGACATTGAGGCTTTTTTACCATGGGTAGAAAGAAGAAGTGCAACAAGTATGTCGTAA
>SRR1151252_01679 hypothetical protein
ATGGAAGAAAAACATGAAATCATTGCACCCAATTTTATTTCAAAGCCATCTTCGATGTCGTCACCAACCCATGCGCCATATAAGCATATTGCGGCGAAGGTAGAGCTTAAAGGGATTCGTTTAACCATCTTCAAAGGTGTTAATCCAAAGCTCGCCAGCGAGTTAGTAAAGGTATTAGTTGAAAATGCTCATTAA