>SRR1919932_00001 hypothetical protein
GTGTTTAATGCTATTCACCTGAATAGCATTGGATATGTTTTTGAATTCGGCCCTAAGGAAGTGGTCAGCACGAGAAAGCATTCCGGCAGCTCCAAGAACTGGAACGCCGCCCACCGCTATGGCACAGAGACCAGCGGCAACCGCTGGACCAGCGGCGGCTTGACCCTGGCCACCCAGCTTTGGGAGCCGCGCAGCTTGAGCCTGGAGACCAATGACTGGCAGCAGGTCGGTCCGGTTATGGAAGGCTTGGCCGTAAATGGCGGCTGGGCTTACAGCAGCTGGTACCGGTCAGCCGCGGCCAGCGACCAGCTTAAGGGCAACATCGTGGCCTTCAACATGAAGAAGCTAAACAAGTACCAGGCACAGTATCTGTCACCGCGCAGCTACCTCTACAAGAAGCTGAGTTTTGGTAAGTTTAAGAGCTACTCCCAAAATGTCAAAGTGAGTCCTTACATGCGCCTGGGCCACGGCCAGTCACTGGGGGCAAGTTCAAAGTACATCTATGTCCTGGCCAACGAAAACAAGCTGCCAGGCGGGGCAAGCAACGGTTTTTACTCGGAAGAAATCCTGCAGCTGAAGAAGAGCGACTTGACCATCAACAAGGTCTGGAGCATCCGGGTAGACGTCGGCAGCTCTGGCCGCTACTTCTACAACGCCGCTTTTGCCGGCGACAATACCATGTACGGGGTCTTCCACAACGCGGCATTTGGCCGCTGTGAATTCTGGCGCCTTAACCTGGTCAACAACCGCTGGCAGGTCAGTCAGGTAACGGCGACCCAAAGCCACTTCGTCAAGCAGCAGGCCGGCAGTTCTCCGGTCCAGGGCTTCAGCGTAAGCGGCAGCAACATGTACCTGGCCTTTAACAACTTGATCTTCAAATTGCAGACTGATGGGACTTACCAGAAGACCTGGAAGCATGTCTCCAACCGGGAAATCGAAGGTCTGGCCAGTGACGGCAGCCAGCTATATGCTCAATTGGCCCAAAGAGGGGAAATTCTTTCCGGCCGCTGGTAA
>SRR1919932_00002 ABC transporter substrate-binding protein
ATGAAAAAGGTGCTCGCGGCCTTTGCCGCAATTTATCTTTTTTTGGCAGCCGCCCTGTTTATCAATATCAAGCCGGCGGCCCAAAAGAGCAAGGAAGTCAGAGTGGGGGTTTTGACCCTGATGCGCCACCCGGCCCTGGACGAAATCTACCGGGGCTACAAGGCCGGCCTGGCCAAGTCGGGCTACAAGGTCAAGATCGACTACCAAAATGCCAACAATGACCAGAGCAATCTGAAGACCATGGCGGAAAAACTAGTCAACAGCCAGGACCAGGTCCTCTTCGGGATCACCACCCCGTCTTCCCAGGCCCTGGCCAACGCGACCAAAAAGAAGCCGATTGTCTTAGGGGCAGTGACTGACCCTAAGGGGGCGGGCCTGGTGAAGAACAACAAGCGTCCCGGCGGCAACATCACCGGGGTCAGCGACCGGGCGCCGATCAAGCAGCAGCTCAAGTTGATCCAGCGCTTTTTGCCCAGGCTGAAGACCCTGGGGATCATCTACACCTCAAGCGACAGCTCAGCCGTGTCTGGCTACAAGCAGATCGTCAGCTACTGCAAGCAGATGGGGATCAACTACAAGGCCTACTCCATTTCCAACAGCAATGACTTAAACCAGGTCTCCCAGCAAATGCTGACCCAGGTCGACGCGGTGATCGTGCCGACTGACAACACGATTGCCGGGGCCATGCAGACCCTGGTCAAAAACGCCAACGCGGCTGAAAAGCCGGTCTTCCCGGCTGCTGGCACCATGGTTAAAGACGGGGGCCTGGCCACCTACAGCGTGGACCAGTACCAGCTGGGCTTGATCGGGGCCAAGATGACCGTCCAGATCTTGCAGGGCAAAAAGCCAGGCAACATGGCCATCCGCTATGTTGAACACGGCACCCCGTATCTTAACCTCAAGGAGGCTAAGAAGCTGGGCACCAAGGTTCCGGCCAGCTTCTTGAAAGAAGCCAAGTCTAAGGGAACCATCTACAAGTAG
>SRR1919932_00003 branched-chain amino acid ABC transporter permease protein
ATGAATTTGATCGTATCGGCAATTGGCCAGGGCTTCTTATGGGGGCTCCTAGGCCTGGGCCTCTTTCTCAGCTTCAGAATCATGAATACGACGGATATGACCGTGGAAGGGACCTTCCCTTTAGGCGCGGCCGTTTCCGTCAGCCTAATCGTGCAAGGGACCAACCCCTTTTTAGCCACTTTGGCCGCCTTTGTAGCGGGGGCTTTAGCCGGCCTGGTCACGGCCCTTTTGATCACCAAGGGTAAGATTCCCAGCCTTTTAGCCGGGATTTTGACCATGACCGGGATCTACTCTATCGACTTGATGGTTATGGGCAAGTCTAATGTCTCCCTTTTAGGCAAAAAGACCATCTACTCCCTGGCCTTTTTGCAAAAACTGCCCCAGTACTTTGACAGCGTCGTTGCCGGCACCATCTTGATGGTTCTGGTCACCTGCGACTTGATCTGGTTCTTGTCAACCGACTTTGGCCAGGCCTTTATTGCCACGGGTGACAACCCGCAGATGGCCAAATCTCAGGGGATCAGCCCCCAGCAGATGACGGTGGCGGGCCTCATGATTTCCAACGGCCTGGTTGGCCTCTGCGGAGCGGTGGTCGCCCAAAGCAACGGCTACGCAGATGTGAACATGGGGATGGGGACGATCGTTATTGCCCTGGCCTCCATCATCATCAGTGAGGTCGTCTTCAGAAACCTTGGCCTGGCCAGCCGGTTATTCGCGGTCAGCCTGGGCAGCATTATCTACCGCCTGCTCTTATTGGCAGTTCTCCAGGTGGGCCTGTCTTCAAACAACTTGAATTTGATTTCTTCACTAGTTCTGGCCGCCTGCATGATGCTACCGCAAGTTGAAGAAAAACTCCGCCTCAAGCAGACATTTATGAAAGGATTTAAGCATGACTAG
>SRR1919932_00004 ABC transporter ATP-binding protein
ATGACTAGTCAAAATTTACTGGAACTGACCGATTTGGAAGTGGTCGTAGGCCGCGGTACTAGCGAGGAAAACAAGATCCTGGGCAAGCTCAGCTTAAAGATCAAGCCAGGGGACTTCATCTGCCTTCTAGGCGGCAACGGGGCCGGCAAGAGCACCCTGCTCAATGTTTTGGCCGGGGCCATCCAGCCGACCAGCGGAAAAATTCTCCACGCCGGCAAAGACATCAGCAAGGAAAGCGAGGTCAAGCGCAGCAGCTACATCGCCCGGGTCTTCCAGGATCCCAAGCTGGGAACGGCGCCCCGGATGACGGTGGCTGAAAATCTGCTTTTGGCCGCAAAAAGAGGGCAGAAGCGGGGGCTGAAGCTGCGCCGGCTGAAGGAAAATATTCCGGCCTTCAAAGAAGCCCTGGAAAAGGTCAACCCCGACCTGGCCGGCAAGCTGGACCTGCCGGTCGACCAGCTCTCAGGCGGCCAGCGGCAGGCCTTGAGCTTCGTCATGGCTACCTATAATAAGCCGGAGCTTCTGCTTTTAGACGAGCATACCGCGGCGCTTGACCCCAGATCCAGCCGCAAGCTGATGGAGGCAACCGATGAACAGATCCGGGCCAAGAAGATCACCGCGGTGATGATCACCCACCATATGGAAGACGCCTTAAAGTATGGCAACCGCCTTTTGGTTTTAGACCATGGTCAAATCAGCCACGACTATCAAGGCCAGGCCAAGCAGGACTTGACCCTGCAGGACTTAGCCGCCTTGTTTGACTGA
>SRR1919932_00006 central glycolytic genes regulator
ATGGAGATTGAAGCGAAGTCTTGTTTCTCTTATATTTTTAAGCAACGTGGGACAGAAAACGACAACAGCGTGGTCGGGGAGCGCCCCACTAGAAGGATGGTTACTTTGAACACGGATTTATCCCTGCTCGAACTGCTTGTTCCCGATGCTTTAAAGATCTTTCGACAAAGATATCTCATCCTTGAACAGATTAGCTTGCATGCTCCAATCGGCCGCCGGACGGTGGCCAGGCAGCTAGGGCTGAGCGAGCGGAACATCCGGACCGAAACTGATTACCTGCGTGACCAGGGTCTGATCGAAATCAAGAATTTCGGGATGTTCTTGACTGAAAAAGGAGAGAGTGTTGTAAAAGATGCAGCACCAATTGTTGATCGACTTTTTAATGCCAGCCAAGCAGAAGTATGGTTGGCCCAGGCTTTAGGAATAGATCGGACAATTATCGTAGCTGGCGACGCGGACCTGCAGAGCCGGGTTTATGACCTGGCTGGCGAAGAGCTGAATTCAGCCTTGAATCTCCTCTTGCCCCTGGCAGACTGCATTGTCACCGTTATGGGCGGCAAGACAATAGCCAAAGTGGCCAAGAAGCTGAACCGCAGCTTGAGTGAGAACCGGAGCTTGATATTCGTCCCTGGCAGAGGGGCATTGGGCGGCCGGGTCAACACGGAAAGCAACGCGGTCGTTCAAGAAATGGCCCGGGCGACCGGCGGCAGCTATGAATCCCTCTTTTTACCGGAACATGTTTCCAAGGACGCTTACCGGTCTTTGGTCCGGGATCCGGAAATCAGCGGGGTGTTGCAGGATATCTCCCAAAGCGATGTCGTGATTCACGGCATTGGCTTGGCTAGTGAAATGGCCAGGAGGCGGGGCTACGATTCAGTTGCCCTGGCACGTCTGCGGGAGAACAAGGCCGTCACCGAATGCTTTGGATGTTTCTTCGATGAAGAAGGCCACGTTGTCGAACGCATCAGACAGGTTGGATTGCAGTTCGAGAACCTAACGAATGTCCCGCATATTCTGGCAATTGCCCTTGGCACGAGAAAGGCCAAGGCCATCAAGGCCTATATGCGCAACGCTCCTCATCAAACCTGGCTGATTACTGATGAGGCAGCCGCAAATCAGATTTTAAACGGGTCATCCCGCTTAAAATAA
>SRR1919932_00007 glyceraldehyde-3-phosphate dehydrogenase
ATGACAGTTAAGATTGGTATTAACGGTTTTGGCCGTATTGGTCGTTTGGCATTTCGTCGTATCATGGACTTGGGTGAAGAAACCAAGGACATCGAAGTTGTTGCTATCAACGACTTGACTACTCCAGCTATGTTGGCTCACCTGTTGAAGTATGACTCAACTCACGGCACTTTCGACCACGAAGTTTCAGCTACTGAAGACTCACTGGTTGTAGACGGCAAGAAGTACCGCGTATACGCTGAACCACAAGCTCAAAACATTCCGTGGGTTAAGAACGACGGCGTTGACTTCGTTCTTGAATGTACTGGTTTCTACACTAGCAAGGCTAAGTCACAAGCCCACCTTGACGCTGGTGCAAAGCGTGTCTTGATCTCAGCTCCAGCCGGCAACGACTTGAAGACTATCGTTTACTCAGTAAACCAAGACACTTTGACTGCTGACGACACTATCGTTTCAGCTGGCTCATGCACTACCAACTCACTTGCTCCAATGGCTAACGCTTTGAACAAGGAATTCGGTATCGAAGTTGGTACTATGACTACTATCCACGCTTACACTGCAACTCAAAAGGTTTTGGATGGTCCTGACAGAGGCAACAACTTCCGCAACGCCCGTGCCGCTGCTGAAAACATCATTCCTCACTCAACTGGTGCTGCTAAGGCCATCGGCCTGGTATTGCCAGAATTGAACGGCAAGCTTGATGGTCACGCACAACGTGTCCCAGTTAAGGACGGTTCAGAAACTGAACTTGTTACTATCTTGAACAAGAAGGTAACTGCTGAAGAAGTTAACGCAGCTATGAAGAAGTACGAAAGCCCATCATTTGCTTACAACGCAGACCAAATCGTTTCTACTGACGTATTGGGCATGACTGCTGGCTCAATCTTCGACCCAACTCAAACCCAAGTTATCACTGCAGGCGACAAGCAACTTGTTAAGACTGTTGCTTGGTACGACAACGAATACTCATTCACTTGCCAAATGGTTCGTACTTTGTTGCACTTTGCTACTCTTTAA
>SRR1919932_00008 phosphoglycerate kinase
ATGGCTAAATTGATTGTTTCTGACGTAGACGTTAAGGACAAGAAGGTTTTGGTTCGCGTTGACTTCAACGTGCCGATTAAGGACGGCGTTATCGGCGACGACAACCGTATCGTGGCTGCTTTGCCAACTATCAAGTACATCATCGAAAACGGCGGCAAGGCTATCTTGCTTTCCCACCTTGGCCGGATCAAGAGCGATGAAGACAAGAAGAGCTTGAGCCTGGCTCCAGTTGCCAAACGTTTGGGCGAATTGCTTGAAAAGCCTGTAACTTTCGTACCTTCAAACGAAGGCAAGGAAGTTGAAGACGCCATCAACAACATGAAGGACGGCGACGTAGTTGTTTTGGAAAACACCCGTTTCCAAGACATCGACAACGACTTCGGCAAGCGTGAATCAAAGAACGACCCTAAGCTGGGCGAATACTGGGCATCATTGGGTGACGTTTTCGTAAACGACGCCTTCGGTACTGCTCACAGAAGCCACGCTTCAAACGTTGGTATCGCTACGGCCATGAAGGCTGCCGGTAAACCAGCAGCTGCTGGTTTCCTGCTTGAAAAGGAAATCAAGTTCCTGGGCAACGCTGTTGCTAACCCAGTTCACCCATTCGTAACTATTCTTGGCGGGGCTAAGGTTTCTGACAAGATCGGCGTTATTACCAACTTGATTCCAAAGGCTGACCACATCATCATCGGTGGTGGTATGGCTTACACCTTCCTTAAGGCTCAAGGCCACAATATCGGCAAGTCCCTGGTTGAAGACGACAAGGTTGAATTTGCCAAGGAATTGCTGGAAAAGGCTGGCGACAAGCTGGTTCTGCCAATCGACCACGTAGCCGCAACTGAATTCAACAACGATGCTGCTTCAGAAGTTGTTGGCCAAGACATCCCAGACAACGAAATGGGCTTGGACATCGGTCCTAAGACTATTGAACTCTTCAAGAAGACTCTTGAAGGTGCCAAGACTGTTGTTTGGAACGGGCCAATGGGCGTCTTCGAAATGCCAAACTTCGCCAAGGGTACTTTGGAAGTTGGCCGTGCTTTGGCTGACTTGCCAGACGCTACTACTATTGTCGGCGGTGGTGACTCAACTGCTGCTGCTAAGCAATTGGGGATCGCTCCTAAGTTGACTCACATCTCAACTGGTGGTGGTGCATCTCTTGAATACCTTGAAGGTAAGGAATTGCCAGGTATCGCTTGCGTTTCAGACAAGTAG
>SRR1919932_00009 triosephosphate isomerase
ATGTCACGTACCCCAATTATTGCTGGTAACTGGAAGCTGAACATGAACCCAAAGGAAACTGTTGAGTTCGTAAACGCTGTTAAGGACCAATTGCCAGACCCATCAAAGGTTGAATCAGTGATTTGTGCACCAGCAGTTGACTTGGACGCCTTGCTGAAGGCTGCCGAAGGCTCAAACCTGCACGTCGGTGCAGAAAACTGCTACTGGGAAAACTCCGGTGCCTTCACTGGTGAAACTTCTCCAGCAGTTTTGAAGGAAATGGGCGTGCAATACGTCATCATCGGACACTCAGAACGCCGTGACTACTTCCACGAAACTGACGAAGACATCAACAAGAAGGCCAAGGCTATCTTTGCCAACGGCTTGACTCCAATCCTTTGCTGCGGTGAATCACTGGAAATCCGGGAAGCCGGCAAGGAAAAAGAATGGGTTGTCAGCCAAATCAAGGCTGACCTGGAAGGCTTGACTAGTGAACAAGTTTCCAAGCTGGTGATCGCTTACGAACCAATCTGGGCGATTGGCACTGGCAAGACTGCTTCAAGCGACCAAGCTGAAGAAATGTGCAAGACTATCCGGGAAACTGTTAAGGACTTGTACAACGAAGAAACTGCTGAAAACGTCCGCATCCAATACGGCGGTTCAGTAAAGCCAGCCAACATCAAGGAATTGATGGCTAAGCCAAACATCGACGGTGGCTTGGTTGGTGGTGCATCATTGGTACCAGACTCATACCTGGCTTTGGTAAACTACCAAGACTAA
>SRR1919932_00010 GNAT family acetyltransferase
ATGATCCGTAAGGCAAGAAAAAGCGACTTTGAAGCGGTTTACCCGATTTTAAACCAGATTTTTGACGAGATGGACATGGATACCATCAACCGCCTGCCGGAGAGCCAGTTCTACGACTTGATGCGGCTGGGTTTCATCTCGGAAAACTACCGTTATTCCTACAACCGGATCTGGGTTGAGACTGACGAAAATGACCGGGTCCGGGGGATGATCTGCATGTACCCGGACAAGGCCCAGGGAATTATTGACGTGGTGCTCAGAAAAGAAATGGCCAAGGTCGGCCTGCCAATGACCACCGATATCTTTACCGATAAGGAAGCCCAGAAGGGGGAATGGTATATCGATGCCTTAGCTGTCTCTCCGCGGGACTGGGGGAAGGGGATTGCCAGCCGCTTAATGGAACTGGCCCCGAAACTGGCCAAGAAGCACGGCTACAAGAAGGTCAGTTTAAACGTAGATCTAGAAAACCCTCGCGCACAGCAATTATACTTGCGCAAGGGTTTCAAAACAACTAATTCAATGACTATTGGCGACCGTGTTTACGACCATATGGTAAAAGAAGTTTGA
>SRR1919932_00011 hypothetical protein
ATGATTTACACCCTTTACCTAACCCAGGAAGGCCACACGGGCCAGATTCCAATCACCGATGAGGAGGGCAAGCCCTTTGGCTCCATCCGCGGCCGGCTGGACAATCCCAACCACACCCTTTACCTGCTGGACACCAGCGGTAATGAGATCGGCCGCCTGTTCAGCGATGGCACCGGCTTGATCGCATCTTACACCCTGGATGTGGTTCACCACTCCCTGGTCCACGTCAAGAAGGTCAACAGCCCCCAGACCAACTTGTTCTACATTACCCGGCTCAACTACTGGGTCAATGGCAGCATCAAGCAGGGCAGTTATTCCTTCCGGGACGGTTTTAAGAAGGTGGCTTCCGTTGACACCGTGGTATCCGACAAGGGGGTGACCTTGACCTGCCAGATCAGCCGGGAGGAAGATACCCCCTTTATTCTGCTGATCGCGGTCCTTTTCACCCAGTGGCACGTCACCCCGCTCAAGCTGCCGGACCTTTTTCCAAATCTCAACCGGCGGCAGACCAGCACGGCCAGCTTCTTCAAACTTCTTTTACCATATGGTCGTAAACACGGTCGCCAATAG
>SRR1919932_00012 haloacid dehalogenase
ATGATTAAACTGATCGCCTGTGACTTGGACGGGACCCTGCTGAACTCTTCTATGGAAATTTCTGACGCCAATGTTCAAGCCATTAAACGCGCCCAAGAAAACGGCATCGAATTCATGGTGGCCAGCGGCCGGGCACCCCATGAATCCCAGCCAATGCTTAAAGAATACGGGATCGACTGCGGATTTATTAACTTAAACGGGGGCCTGGTCTTTGACACGGCCGGCAACTTGATCGTCAAGAATCCCTTGAAGCTGGAAACTGCCAAGAAGATCTGCCGCCTGCTCAAGAAGGAAGGCTTTTACTTCGAACTGGTTACCAGCAACCACGTCTACTCAGAAGACTTGAGCCAGCGGATTACCAACGTGGCCCACTTAATGGTGGAACTGAACCCAATGCTGACCTTCAAGGAGGCTGTTTTGGTTTCAGCCAGCAAGCCGGCCATCGTCAGCATCAAGCAGGTACCAAGCTATGAGGACTTGATGGACGAACCTGGCACGGAAGTAATGAAGATCTTGGTCTTTGACTCCCGGGGCCAATATGCCTTCACCGACGTCATCAAGAAAATTGAAGAGATCGACAAGGTTTCCATCACTTCCAGCGCGGCCGACAATATCGAAATCAACGCCGCCGGCGCCCAAAAGGGCCGGTCCCTGCTGGACTACGCGGCGGCCAAGGGCATCAAGCGCGAAGAAATCGCAGCTATCGGCGACAACCTGAACGATGAAAGCATGATCCAGGCTGCCGGCACCGGCGTGGCCATGGGCAATGCCATTCCGCAAATCAAGACGATTGCCAGCTTCGTCACCAAGAGCAACAATGAAGACGGGGTAGCCTGGGCTATCGACAAGATCCTTGCCGACAATCAAAAAGAGCAGGACCAATGA
>SRR1919932_00013 uracil-DNA glycosylase
ATGAAACATTTTATTGGAAATGATTGGGACCAGGTGCTTACCCCGGTTTTTGAAAGTGATGAATATCACAAGTTGCATGATTTTTTGAAAAACGAATACCAGACCAGGCAGATCTACCCGGACATGTACCATATCTTTACGGCCTTCAAGCTGACCCCTTTTAAAGACACCAAGGTTGTCATTTTGGGCCAGGACCCCTACCACAATCCTGGCCAGGCTAACGGCATGAGTTTTTCTGTCATGCCGGGCACGCCCCTGCCACCATCCTTGCGCAATGTCTATAAGGAGCTCTATGACGATGTTGGGGCCCAGCCGGTCAACCACGGCTACCTTAAACGCTGGGCCGACCAGGGCGTTCTCTTGCTCAACGCCGTTTTGACCGTGCCATATGGCCAGGCTAACGGCCACCAGGGCAAGGGCTGGGAAATGGTGACAGACGCCGCTATTAAGGCCTTGAGCGAGCGGGGGCAGGTAGTCTTTATCCTGTGGGGCCGCTTTGCCCAAGATAAGATACCCTTGATCGACCAGGACAAGAATGTCATTATCAAGTCAGCCCACCCAAGTCCTTTTTCGGCCAACCGCGGCTTCTTTGGCTCCCGGCCCTTTTCAAGATGCAACGCGGCCTTAAAGGAATTTGGCCGGGCTCCGGTCGACTGGCAATTGCCGCCTGACCCGGAAGCATGA
>SRR1919932_00014 phosphotransacetylase
ATGGAAGTTTTTGAACAATTAAAGCAATTGATTAAGCAAAAAGACAAGCAGCGGATTGTTTTCCCGGAAGGGGAGGACCCGCGGATCCTGACGGCGGTCAGCCGCTTAAAGCAAGATGACCTGGTTGAACCGATCGTCCTGGGGCAAAAGGACCAGGTCCTGGCTTTGGCGGAAAAAGCCGGCTTGGACATGACCGGGATCGAAATCGTGGACTACCAAAACAGCCCGGACTTTGGCGAGATGGTGGAAAAGTTCCACGAACGGATGGCCGGGGGCAAGCACTTCCAGACCATGGAAGAAGCGGAAGCTGCCTTGCGCGACGCCAACTTCTACGGGACCATGCTGGTTTACACCGGCCAGGCCGACGGGATGGTGTCCGGGGCGGCTCACTCGACGGCCGACACGGTCCGGCCAGCCCTCTTCATTTTGAAGACCAAGCCGGGGATGCACCGGATTTCCGGTTCCTTCATCATGGAAAGAGGGGAAGAAAAGTATGTCTTTGCTGACTGCGCGATCTCCATCGACCCGACCAGCGACCAGCTGGTTGAATTCGCGGCCCAGTCAGCTGCTACGGCCAAGATGATCGGGATTGACCCCAAGGTGGCCTTCCTCAGCTTCTCAACCCACGGCTCAGCCAAGGGCCCGCAGGTAGACAAGGTGGCAGAAGCGGCCAAGCTGTTCAAGGAAAAGTACCCGGACATCCCGGCAGACGGCGATTTGCAGTTTGACGCGGCCTTCGTGCCAGCAGTTGCTGAACTTAAGGCACCTGGTTCAGCCGTTGGCGGCCGGGCTAATGTCTTTATCTTCCCGGAACTGCAGTCAGGCAACATTGCCTACAAGATTACCCAGCGCCTGGGCAACTTTACGGCCATTGGGCCGGTTTTGCAGGGGATTGCCAAGCCGGTCAACGACCTCTCCCGGGGCTGCAGTGCTGATGACGTCTACAAGATCGGGATTTTGACGGCGGCTCAAGCCGTTATGGAAGGGTAG
>SRR1919932_00015 tRNA threonylcarbamoyladenosine biosynthesis protein TsaE
ATGACAGAATTAGCAATCAATTCCGCTTCTGACATGCAGGCCTTTGGCGCCTCCTTGGCCCAAAGCGCCCAGCCCCATGACCTTTTGCTCTTAAAAGGGGACCTGGGGGCCGGCAAGACCACGCTGACCCAGGGCTTCGGCCGGGCTCTGGGGATTAAGCGGCCAGTCAAGAGCCCGACCTTTACCCTGGTCCGGGAATACCGGGAAGGGAAGCTGCCCCTTTTTCACATGGATTTTTACCGGCTGGAAGGCGATGACCTGGCTTCAATCGACTTAAATGACTACCTGGCTGAAGAAGGCGTGGTCATCATCGAATGGCCCCAGGTGATCCAGGCTGACCTGCCCAGTGACTTTTTAGAGCTGGTTTTGACCCGGGTGGACGATTCCTGGGATTCAACCAAGCGCTTGCTTGAGCTCATCCCGCATGGACAAAGAGCAGCTGCCTGGGCAGAAAACGCCTGCCGCCTCTACCAGGAAAAGCAGTAA
>SRR1919932_00016 DNA polymerase III subunit epsilon
ATGATGAATTTCGTCGCCATGGACTTTGAAACTGCCAACCAGCACCCGGCCAGCGCCTGCTCTTTGGCCTTGGTTTTAGTGCGGGAGAGCAAGATTATCGACCGCTTTTACACGGTCATCAACCCCCAGATGGCTTTTGACGCCCAGCAAGTCAAGGTCCACGACATTACGGCTGAAGACGTGGCGGGAGCCCCGACCATGGCCGAGGTCTGGCCCAAGATCCAGCCCCTTTTTCAGCCGGGGATGCTGGTGGCGGCCCACAATGCCCGCTTTGACTGCAATGTAATGAAGCAGTCCCTGGCCCGCTACGGGATTGCCGAGCCCCACTACCTGGTTTTAGACAGCCTCAAGGTCAGCCGGGAATTGGAGCCGGGCCTGGATAACTACCAGCTCAACACTGTCTCTGACCTTTTGGGCGTGGAGCTTTGGCACCACCACAATGCCTTAAGCGACAGCGAAGCCTGCGCCGGTATCCTCTTAAAAGAGGAGGAGAAGCGGGGCAGCGAGCTTTTGAAAAAGTTTGTCTACCAAGTCTAG
>SRR1919932_00017 UDP-N-acetylenolpyruvoylglucosamine reductase
TTGAAGCTGTATGACTTAAAAGCGCAAGGACTTGATTTGCAAGAAAACATTCCTTTGAGCCGCTATACTTTTACCCAAACCGGGGGACCGGCAGAATACCTGGCTTTCCCCAAGACTTTGGCAGAATTGAAAGAACTCTTGGCCGCGGTCAAGGAGGACCAGCTGCCAATTACGGTGATCGGCAACGCGTCCAACTTGATTATCCGCGACAAGGGGATCAAGGGCCTGGTGATCATTTTAACGGAAATGAAAGAGATCAAGGTTGAAGCTGACAAGGTCCACGCCCAAGCCGGGGCCAGAATCATCGATACTTCCTTCGCGGCTGGGGAAGCCGGCCTGTCCGGCCTGGAATTTGCCGCGGGCATCCCCGGCTCAGTCGGCGGGGCGGTCTTCATGAATGCCGGGGCTTACGGAGGTGAAACTAAAGACTGCCTGGAAAGCGCCACGGTCGTCACCAGAGACGGTGAGGTCAAGACCTACACGAACGCTGAGCTGCATTTTTCCTACCGGCATTCCCTTTTGCAGGAAAATGACGAGATCGTCATCGCGGCAACTTTTGCCTTAAAGGCCGGTGATAAGGCAACTATTTTGGACCAGATGAACTACTTGAACGCGCTCAGAAGCTACAAGCAGCCCCTGGAATACCCGTCCTGCGGTTCAGTCTTCAAGCGGCCGACCGGCCACTTTGTCGGCCCGATGCTCATCAAGGCCGGCCTGCAGGGCAAGCAGATCGGCGGGGCCCAGGTGTCAACCAAGCACGCAGGCTTTATTGTCAACAAGGGCGGGGCCACGGCAACCGACTACCTCAATTTGATCCACTATATCCAAAAGACGATCAAGGAAAAGGATGGTATTGCTTTGCAGACGGAAGTCCGCATAATTGGCGAAGAATAA
>SRR1919932_00018 spermidine/putrescine ABC transporter ATP-binding protein
ATGGAAATTATTAAGTTAGATCACATCACCAAGCAGTATGATGATGGCTTTGTAGCCTTGAAGGACATCAACCTTGAGCTTGAGTCCGGCAAATTCTACTCTTTGCTGGGGCCATCAGGCTCGGGTAAAACAACGATTTTGCGGATCATTGCCGGCTTTACGGAAGCGTCAGCTGGCAAGGTTTATTTTGACGGTCAGGACATCACCAATCTTGACGCCTCAAAACGGCATATCAATACGGTTTTTCAGAATTACGCTCTTTTTCCGCACTTGAATGTCTATGAAAATGTTGCTTTTGCCTTGAAGCTGCGCCGGCGGCCGGAAAGCGAAATCCGGGAAAAGGTCAAGGATGCCCTCCACACCGTCCGCCTGGACGGCTACGCCAACCGGGAAATTTCCGAACTCTCCGGGGGCCAGCAGCAGCGGGTGGCGATCGCCCGGGCGATCATCAATGAACCTAAGGTGCTGCTTTTGGATGAATGCCTGTCAGCTTTGGACAAGCGCCTGCGAAAAGAAATGCAGTTTGAACTCCGGGCCATTCAGAAGAAGCTGGGCATCACCTTTATTTTTGTCACCCACGATCAGGAAGAAGCCCTGGCCATGAGTGACGAAATTTTCGTCTTAAACGACGGGGAGATCCAGCAGAGCGGGTCACCGGTAGACATTTACGATGAGCCGGTCAACGACTTCGTTGCTCGCTTTATCGGGGACTCCAACATTTTATCCGGCCGGATGATCCGGGACTTTGCCGTGGAATTTGCCGGCAAGGACTTTGAATGTGCCGACGCCGGGATCACCCCGGGGGAAAAAGTCGAAGTCGTTTTGCGGCCAGAAGATTTGGATATTACGGCTCCAGCTGCTGGCAAGCTCATGGTAACGGTGCAGAGCCAGCTTTTCCTGGGCGACCACTTTGAAATCAAGGCCATCGGCCAGGACGGCTTTGAATGGCTGATTCATTCCACCAACGGGGTCCAGATCGGCCAGGAAGTCGGCATCTTCTTTGACCCGGAAGACATCCACGTCATGCGGCTGGGCGAAACCGAAGAAGAATTCGACGCCCGCCTGGAAACTTATGAAGGTGAGGACTAG
>SRR1919932_00019 spermidine/putrescine ABC transporter permease protein
ATGAAAAAGAACCGGCTTTTATTTTTTTTGCCTTACCTGCTGTGGATCGGCCTCTTCGTCATCGCCCCCCTGGTCTTGATTCTGGGCTATTCACTGACTGATGCCCACAGTCATCTGACCCTGCAAAACTTCGCCGCCTTTTTCTCTGGCGACACCTTTTTGCGGATGATGGCCAATTCCTTTTGGTATGCCCTCTTGATCACCTTTTTCTGCCTGCTGGTCTCTTATCCGGCAGCCCTGGCTTTGACCAGGCTGAAAAACCAGCAGTTCTGGCTGATGCTGATCATTTTGCCGACTTGGATCAACCTTTTGCTTAAGGCTTACGCCTTCATCGGGATTTTTTCCCGGAGCGGGATGGTCAACCAGTTCCTGGGCCTCTTCGGCATCGGCCCGGTTGGGATCATGTTTACCGACTTCGCCTTTATTTTCGTGGCGACTTATATCGAAATTCCCTTCATGGTCATGCCCATCTACAACTCGCTGAAGGAAATTGACCCCGCTCTTTTAAGTGCCAGCTCAGACCTGGGAGCCAGCTTCTGGCAGACCTTCCGCTACGTGATCTGGCCCTTGTCCTGGCCAGGCGTTGAATCGGGCATCCAGGCTATCTTCATCCCGTCTCTGTCTCTCTTCATGTTGACCCGCTTGATCGGGGGCAACCGGGTGATCACCCTGGGGACGGCGGTTGAAGAGTATTTCTTGACAACGATGAACTGGAATATGGGGGCAACGATCGGGGTTATCCTGATCGCCTTGATGTTGATTGTAATGTTGCTGACTTCACGCAAGCAGCACAAGAAGGAAATTGAATTATGA
>SRR1919932_00020 spermidine/putrescine ABC transporter permease protein
ATGAAAAAGACCATTTGGGGCAGGGTATACTTTGGCCTGGTGCTGCTGATCCTCTACCTGCCGATTTTCTACCTGATCTACTTTTCTTTCTCCAGCGGCTCCAGCATGGACCACTTCCGCCATTTTACCTGGGAGCACTACCAGACCTTGTTTGCTGACAAGCGCCTTTTGGCTATCTTGCTGGAGACGATCATGCTGGCTCTTTTGTCCAGCCTGGCGGCAACCGTCCTGGGGACTTTTGGGGCCATTGCCATCCAGCGCAGTAAGGAGGCCTACCGCAAGATCCTGCTCTCTTTTAACAATATCTTGATCGTGTCGCCCGACGTTATTATCGGGGCCAGCTTCTTGATTCTTTTTACCGCCCTGGGCTTCAACCTGGGCTTTGCCTCCGTCTTGCTCAGCCACATCGCCTTTTCAGTGCCGATCGTGGTCTTGATGGTCCTGCCTAAGCTGAAGGAAATGGACAACTCCCTGATCGATGCGGCCCGGGACCTGGGGGCTAACAACTACCAGGTCTTCAGCCAGGTCCTCCTGCCGGCCCTTACGCCGGGGATCCTGTCAGGCTTCTTCATGGCCCTGACTTACTCTTTGGACGACTTCGCGGTTACCTTCTTCGTGACCGGGAACGGCTTTACCACCTTGTCCGTTGAGATCTATTCCCGGGCCCGGCAGGGGATCGACCTGGAAGTGAATGCTTTAAGCACAATCATCTTCTTCTTTGTCCTCCTTTTGGTCGGGGTCTACTACTTCTTGACCAAGCGGCAGGGCAAGAAGGCTAATAAGCTGGGAGGGCTTCTGCGATGA
>SRR1919932_00021 spermidine/putrescine ABC transporter substrate-binding protein
ATGAAAAAAATCCTCTCCGCGGCCCTGGCCATCCTTTTGGTCAGCTTGGGCCTTTACCTGGGCGCCCAGCAGCTGGACAGCTCCAGCGGCGGCTCTGCCTCAAGTAAGAAAGACTTGATCATTTACAACTGGGGGGACTATATCGACCCGGATTTGATTACCAAGTTTGAAAAGCAGACGGGCTACCATGTCATCTATGAGACTTTTGACTCAAACGAAGCCATGTATACTAAGATCAAGCAGGGCGGGACAGCCTATGATTTAGCCGTGCCGTCGGATTACATGATCACCAAGCTGCGCCGGGACAATCTTTTGGACAAGATCGATACCAGCCGCTTGAGTAATTTCAAGTACATCGGCAAGGAATTTTTGCACAAGTCCTTTGATGAGAAAAACGAGTACTCAGTGCCTTACTTCTGGGGAACCCTGGGTATTGTCTACAATGACCGCTATGTCAAAAAGGGCGAGATCAAGAGCTGGAATGACCTCTGGAAGAAAAAGTACCAAGGGCAGATCCTGCTGGTTGACTCAGCCCGCGATATCATGGGCATGTCCCTGGTTTCCATGGGCTACTCCATGAACGACACCAACTCTGCCCACCTTAAGGTCGCCAAGGCCAAGCTAGACAAGATCGGCAAGAACGTCAAGGCAATCGTGGCTGACGAGCTGAAGATGTACATGGTGCAAAATGAGGCCTGGATCGGGGTTACCTATTCCGGGGAAGCCGCGACGATGATGGACCAGGACTCCCACATCCATTACGTGGTGCCGGCTCAAGGGTCCAACTTGTGGTTTGACAATATCGTTATCCCGAAGACTTGCAAGAACAAGGAAGCCGCTTATAAGTTCATCAACTTCATGCTAGAGCCCAAGAACGCGGCCCAAAACGCCGAATACATCGGCTACTCGACCCCGAATACCGCGGCGCAAAAGCTCCTGCCTAAGTCCGTCCGGGAAGACAAGCAGTTTTACCCGCCAATGTCGACGGTCAAGAATTTGGAAGTTTATCGGGATCTGCCAAGCAGCAAGGTGCAGGAATACAATGACCTCTTCCTGGAGTTCAAGATGTATGCCCGTAACTAG
>SRR1919932_00022 membrane protein
ATGCAGTTTGATTTTGCAAGTCTGTGGACCTGGCATACCTTGTCGGTGGTCCTGGACGTCTTGATCACCTGGTATTTCATCTACCACCTGACCCATTTGATCAAGGGGACCAAGGCTGTCCAGCTGGCCAACGGGATCATTTTGATCATGGTGGCCCGGGTCTTGGCCGGCTGGGCCCAGCTGACGACCGTTACTTTTATTTTGGACCAGATCGTTTCCTGGTCAGTCATCGGGATTATCGTCATCTTCCAGCCGGAAATCCGCCGGGGGCTGGAGCGCCTGGGCCGGGTCTCCCTGTTTTCTGATTCAGAAAACAGCAAGCGCGAGCAGCAGGAAAAGCTGGTCAAGGAGCTGGACAAGGCGATCCAATACATGTCCAAGCGCCGGATCGGGGCCTTGATTACTTTGGAACAAAAGACCGGTTTGGAAGAATACGTGGAAACCGGGATCAAGCTCGATGCCCTGGTTACCGGGGAATTGCTGATCAATATCTTCATCCCCAACACTCCTTTGCACGACGGGGCGGTCATCATCAAGAACAACCGGGTCCAGGTGGCTTCCGCCTACCTGCCCCTGTCTGACAATGCCATGATTCCCAAGAGCCTGGGGACCAGACACCGGGCAGCCGTCGGGATCTCTGAAGTAACCGACGCCATCACCGTGGTCGTTTCTGAAGAAACGGGCGGGGTGACTATCACCAGAAACGGCCAGTTCATGGTTGACCTCAGCCAGCAGGAATACCTCAAGTACTTGCGGGCTGAACTGGTCACTGAAGAAAAGAAGAAGCAGCCATGGCCAATCCGCCTGGCCCGGGGCATCTGGAACTGGGGGGATAAATAA
>SRR1919932_00023 hypothetical protein
ATGCACAAATTGATTGAGCAAAAATGGTTCTACAAGCTTTTTTCCCTGCTCTTAGCCATCGTCTTAGTTGCCTTCGTTGACAACACCCAGGTTAATACAAACAACCAAACCAAGGTGCAAGAAACGGCAAGCACTGAGCAGAGCTTGAAGATGGCCTTGCAAGTGTCAGTGGACACTGACAAGTACTATGTCACCGGCTACCCATCCAAGGTCAAGGTGACTCTAGAAGGACCGAATGCCCTGGTTACTTCCGCCGTTAACACCCAGAACTTCCGGGTCTACATTGACTTGAGCAAGCTGGGTGTTGGAAGCCACCAGGTGCTAATTAAGGTTAGCGGCTTGCCCAGCCAGGTTTCCTGCAAACTTTCGCAGAAAAGCGTGAAAGTCAACATCCAAAAGCGAAAGTCCCGCACCTTGCCGGTTCAAATAGGTTATAATAAGAATGCTGTTGCTCAAGGCTATGACATCGGCACGCCGACAGTCAGCCCGGAGACGGTTGAAGTCACCGGGGCCCAGAGCGAAGTAAAAGCGATCGACCACGTGCAGGCCCAGCTAGTCGTGCCAAACGGCAGCACCGAGACAGTGCGGCGGAACGTTCTTCTAGCCGCATACGATGCCAAGGGCCACCAGCTCAACGTGGTGATCAGTCCGGCAACGGCCCGGGTAACCCTGCCTTTGTCGGTCTCTAAGAAGACGGTTAAACTGAAGTTGAATGCCAGCCATGGCTCAAGCAAGAAAGTTTACTCCTTGACTGCCAAAGAGGAAAAAGTTACCCTCTATGGGCAAAAGGAAGCCCTGAAAAAGATCAGTTCCCTGACTTTGGATGTTGATCTGACTGATATCAAGTCTTCGGTCACCAAGTCCTTCCGCCTGCCAGTTCCAAGCGGGGTTGCCTGGATTTCACCAGGCAGCGTGGACGTCCAGATCGAAGTCAGCGATTCGAACAACTAG
>SRR1919932_00024 phosphoglucosamine mutase
ATGCTTAAATATTTTGGTACTGACGGTGTCCGCGGTGAAGCGAACAAGGTTTTGACCCCGGAAATGGCCTTTAAACTGGGCCGGATGGGCGGCTACGTGCTGACCAAGGAAAAGGAAGACGGCGGCCAGGCCCGGGTTCTGGTTTCAAGAGACACCCGGATTTCTGGTGAAATGCTGGAACACGCCTTGATTTCAGGCCTTTTGTCAGTCGGCATTGAAGTTTTGGAATGCGGGGTCATGACCACACCTGGCCTGTCCTACCTGGTCCAGGCCCAAGGGGCAGATGCCGGCGTGCAGATTTCTGCTTCCCACAACCCGGTTGAAGACAACGGGATCAAGTTCTTCGGCAGCGATGGCTTGAAGCTGTCTGACGCCAAGGAAGAAGAAATCGAAGAACTGATCGACACTAAGCAGGACATGCTGCCGCGACCATCAGCAGAGGGCCTGGGCACGGTAACCGACTTCCGCGATGGCAGCAACAAGTACATCCAATTCTTGGAAAACACTATTCCGGAAGACTTGAGCGGGATCAAAGTCGTAATCGACGGGGCCAACGGGGCAGCCAGCTCCTTCATCTCCCGTTTGTTTGCCGACCTGGATGTTGACTTTACCACTATTTCAACCCACCCAAACGGGCTCAACATTAACGACCACTGCGGGGCCACCCACACTGCCCGCCTGCAAGAAGAAGTTGTCAAGCAAGGTGCCCAACTGGGCCTGGCCTTTGACGGGGATGCCGACCGCTGCATCGCGGTTGACGAAAACGGCAATGAAGTCGACGGCGACCACATCATGTACGTGATTGGCTCTTACCTGGCTGACCATGGCCGCTTGAAGAAGGACACAATCGTGACGACCGTCATGAGCAATCTGGGCTTCACCAAGGCTCTTGAGCGCCGGGGTATCAAGAATGTCCGCACCCAAGTCGGTGACCGCTACGTATCTGAAGAAATGCGGGCCAACGGCTACAGCCTGGGCGGGGAACAATCCGGCCACGTGATCATCAGCGACTACCACAACACTGGTGACGGTATGCTGACCGGGATCCACCTGATGCTGGTCATGAAGAAGACTGGCAAGTCTTTAACTGAACTTTTGGCTGACTTCAAGGAATACCCGCAAGTTTTAGTCAACGTTCCAGTTAAGGACAAGAACAGCTGGAAGAACCACCAGGCAGTAGTTGACGCGATTGACTCCGTTGAAAAGGACATGGCTGGCGACGGCCGGGTCCTGGTCCGTCCTTCAGGTACCCAGGAGCTGCTCCGGGTTATGGCTGAAGGCCCGACCCAGGAAATCACCCAGGAATACGTTGACCGGATCGTCAAGGTCGTTACGACGGAAATGGGCGAATAA
>SRR1919932_00025 sugar phosphate phosphatase
ATGGCGATTAAAATGCTGGCCATCGACTTAGATGGCACCCTGCTAACTGACAGCAAGACGATTCTGCCCGGGACCTACAAGGCCCTGCAGGAAGCGAAAGCAGCCGGGATCAAGATTGTGCTGACTTCTGGCCGGCCCTTGTCGGGCATCAAGGGCTACGCGGAAGAATTAGGCTTAAGCGGCAGTGAAGAGTACGCGATCCTCTTCAACGGGGCGGTAGTGCAGAACTTAGACGGCCGGGTCCTGATCAGTCATGATCTGGACTTTGGCGACTTCAACACCCTCCTGCACATGCAGCGGCTCAGCGACGTCAACCTGGACTTTGAAACCCCGGACCGTTTTTACACTTTGGACAAGAAGATCTCCATCCGCCTGCAGATTGACGGGGCGGAAACCAAGAACCAGCTCTGGATTCAAGACAGAAGCGACTTCAAGAAGGACTTTACCTTTGCCAAGGCAGTCTACCAGTGCGATGACCCGGACCAGGTCGACCGCCTCTGGAACCGGCTGCCGGACTGGTTCTTCCAGTCCTACGCGGTTGTCCGCAGCTGGCCGGAAGTCGTTGAAGTCGGGTCACTGGCCGCTTCAAAGGGCTACGCGGTTAGCGAGCTGGCCTCAAGACTGGGCCTGTCGAACAGTGAAGTCATGATCTTCGGTGACCAGGGCAATGACCGGTCCATGTTTGAAATCCCTGACTTCAAGCGGGTGGCCATGGGTAATGCCATCGACGAGATCAAGGACCTGGCTGACTACGTCACTGACACCAACGAGCGTGACGGGATCGCCAAGGCCCTGCGGAAATTAGTTCTATAA
>SRR1919932_00026 serine hydrolase
ATGACTACGGCAGAAATTGAAGAAAAAATCACCGGAATTTTTGAGGAGGCAATCCGGCAAAAGACCGTAAATGGCGTCTCTTATGCTTTGGTTGACCAGGGTGGGGTCAGCCGGCACTATCTGGGCCAGGCTGAGCTGGGGCAATTCTATGACCTGGCCTCCTTGACCAAGGTGGTGGGGACGGCCAGCGGGATTTTTAAGGAAATGGCTGCAGGGAAAATCAGCTTGAAGGACCGGGTGGGAGACTTTTTCCCGGCGGCTTGTTCAGCTGTTACAGTAAAGGACCTGCTCCTGCACACCAGCGGCCTGCCGGCGGACTTGGATGATGTCTGGCAATACCAAAGCCCGGGGGAAGTCTGGGAGGCGGTTTTAGCCACTAAGCCCCTTTTTTTACCTGGCCAGGAGTCAATATATTCCGACCTCAACTTCATTATCTTGGGCAAAATTTTAGAGCAGGTCAGCGGGCAGGACTTGAGCAGCTTTTTGCGGGAGGAGATTTTTGCCCCTTTGGGGATGCGGGAGACTGGTTTCTTGCTTAAGGGCAAAAGGGACAACTTTGTCAAAACAGAAATAACTAAGGAGAGAGGGCAGGTCTGGGGGAACGTCCATGACGAAACCGCCTGGCAAATGGGCGGATTGGCCGGCCATGCCGGTCTCTTTTCCACTCTAGATGACCTGGCCCGCTTCAGCTCCTTTTACCTAACGACAGCTAGTCCGCTTGTGGCTGGCCTGTTTGACTATGACTGCTTTGAGCGGACCCTGGCCTGGATCCGCTGGCAAAAGGGCTGCCGCTTTCTCTGGCATAGCGGCTTTACCGGTCCGGGATTAGGCCTGGACCTTGAAAATGGGCGCGCCCTGGTCATTTTGGCCAGCTCCGTTTACCCCAAGCGGGGCAACAAGGCCTGGCTGCTGGCCCGCCGGCAGGCGGCCAAGACTTTTTTCGGCGGCGGCTACCGGGAAGAAAAATAA
>SRR1919932_00027 CopY/TcrY family copper transport repressor
ATGAACGAAGATTGCCGGATTTCAGACGCGGAATGGCAGGTTATGCGGGTCGTCTGGACCCTGGGCCAGGCCAATAGCAGCGAGATTATTGAGCAATTAGCGGCAAAATGTGCCTGGAGCCCGTCAACGGTCAAGACCCTGCTGCGGCGCTTGGAAAAGAAGGGCTTTTTACTGGTTGACCGGCAAGGTCACCGCTTCGTATACCGGGCGGCTAAAGCTGAAAGCGAAGCGATGCAGGAGAGCTTGACGGCCGAGTTTGCCGCAATGTGCGATATGCACAAGGGGGAGATGCTCCTCCGGCTGCTGGATGACCTGCCTTTAAGCAGAAGCGACCTTGAAGCGATTGCCAAAAAGGCGGCCGAAAAGGCGAAGACGGCTCCGGAAAAAGTTGGTTGCAATTGTTTAAGTACTTGTGAGCATATGGAAGGTGAACGGGAATGTTAG
>SRR1919932_00028 copper-binding protein
ATGTTAGTTAATGGATTAGTAATTTTGGCCGCGGCCGCTTTGATCGGCTTGATCATCTGGTGGTTTTTCGGCAATTTCCAAAAGAGCAGCCAGCAGGCGGATCTGGCCAATGGCCGCCAGGAAGGGCAGGTAGTCGTCAAGGGCGGCTATGAGCCGGAAGTGCTCTACTTAAAGCAGGGCGTGCCGGCAGAAGTAACTTTTAAGATGGAAGACAAGACGGCCTGCCTCAGCCATGTGGTCTTTTCTTCTTTAGGCGTTGACAAGGACCTAAGCAAGGAAAAGCTGGCCAAGGTCCAGATCCCGACCGACAAGGCCGGGGAGATCGACTATGCCTGCGGCATGGACATGTTTCATGGGAAGATTGTGGTTAGATAA
>SRR1919932_00029 cation-transporting ATPase
ATGAAATTGACTAATTGGCGCCGCTTTTGGCTGTCCCTGTTTTTGGCCCTGCCCATGCTGGCCCAGATGCTGTTGATGATCTGGGGAATCATGCTGCCAGGGATCAAGACCTATTCGCTGATTGCCACCAGCTTGATTATGCTAATTGGGGCAGGACCCTATATTCAAAGCGCCTGGGCAGCTTTGAAACGCCACCAGGCCAACATGAACAGCCTAATCGCCATCGGCACCAGCGTGACTTATATCTACAGTCTCTTTGCCTACTTCACTGGCCGGCCGGTCTACTTTGAAAGCGCGGCTTTTATCTTGATTTTTGTCTTGCTGGGGGATGCCCTGGAAGAAAAAATGCATGACCGGGCAGCAGCTTCTTTGAATAAGTTACTGGAACTCCAGGCCAGTGAAGCTGAGGTCAAGCGGGGAGAAGACTTTGTTAAGCTTCCCTTGGACCAGGTCAAGGCCGGCGACATAATCAAAGTGCGGCCGGGCGGCAAGGTGCCGGTTGACGGCCGGCTTGTATCCGGGCAAAGCAGCGTCAATGAAGCCATGGTGACTGGGGAGAGCATGCCAGTCGCGAAAAAGCCCGGTGACAAGGTGATCGGGGCAACCATCAACGGCAGCGGCAGCTTTTTGATGGCGGCTGAGCAGGTCGGGGAAGAGACCATGCTGGCCCAGATCGTCCAAGTGGTCAAGCAGGCCCAGAACTCCCGGGCCCCGATCCAAAAACTGACTGACAAGGTGGCTAACTACTTCGTGCCGGCGGTATTGATCGTCAGCATCCTGGCCTTTGCTATTTGGGATGTCTTCAGTCCCGTGGGCCCGGTTCAAGCCATGCTCTACGCAGTTTCCGTCATCGTGATCGCCTGCCCGTGTGCCTTGGGTTTAGCTACCCCGACAGCCTTGATGGTGGCCAGCGGCCGCAGCGCCCGGATGGGGGTCTTGATCAAGGACGGGGAAATCCTGGAAGCAGCTGCAAAAATCAAGACTATTGTTTTTGACAAGACCGGGACATTAACGGTCGGCCAGCCCCAGCTGGTGGACCAGGTGGGGGATAAAGCAAGTCTTAGCCTGGCGGCCAGTCTGGAAGCCAATTCTGAACATCCTTTGGCCCAGGCCATCGTGACCAGCGCTAAAGAAGGCGGCCAGCCTCTCTTGCCAGTCAGCGATTTTTTGGCTGAAGAAGGCAAGGGGGTAGAAGGCAAGGTAGCTGGTCACTTAGTCAAGGTGGGCCGGGCTGACTACGTCAGCGCCTCAGACGCTTGGCGCCAGCAGGCAGAAGGCTTGGCGGAAGCCGGCAAGACGGTGGTTTATGTCCAAAAAGATTCTTCCGTCATTGGCCTCTTGGCCCTGCAGGATGCTCCCCGCCCAGAAGCAAAGGCCGTCCTCAGTGAGCTTAAAAATCGCGGAATCAAGACGGTCATGTTAACTGGCGACAACCAGCAGCTGGCGGAAAAAATCGGCCGCCAGCTGGGCATTGACCAGGTCGAAGCGGGACTTTTGCCCGGGGAAAAAGCTGACCGCTTGGCCAAATTGCAAGAAGCAGGGCCGGTGGCCTTTGTCGGCGACGGCATCAACGACGCACCGGCCTTGTCACTAGCTGATGTCGGCATTGCCATGGGCAGCGGGACCGACGTGGCCAAGGAAGCCGGCGGCATCGTCTTGATGACTAGCGACTTGACCGGGGTTTTGCGGGCGCTTGACTTGTCCAAGCAGACCTTCACGCGGATCAAGCTGAACCTTTTCTGGGCCTTGATCTACAATTTGATCGGGATTCCGGTCGCGGCCGGCCTCTTCTCCTTTATCGGGGTCAGCCTCAGCCCGGAACTGGCCGCTTTGGCCATGGCCTTCAGCTCCGTCTCAGTCTTGCTGTCATCATTAATGTTGAACTGGACTAAGATCGCCGGGGCAGGCAAAAGCTGA
>SRR1919932_00030 chromosome condensation protein CrcB
ATGGATACAGTAAAAAATTATCTCAGCGTGGCTTTTTTCGCCTTTTGGGGCGGCCTGGCCCGCTATGGCTTAACGGAAGCATTTTCCTTTTACGGGACGGTGATTGCCAACCTTTTGGGCTGCTTTCTCCTGGCCTTTCTGACCTACTTTTTCCTGAGAACGTCCAATAATAGCCGGGCCTGGCTGACCATAGGCCTGGGGACGGGCTTCGTGGGAGCCTTTACGACTTTCTCCAGCTTCAACCTGGATGCCTTCAAGCTGCTGCTTGGCGGGCAAAATTTCGGAGCTTTGCTTTACTTTACCGGCACGATCGCGGCTGGCTTCCTCTTTGCCTGGGCAGGCAAGCAGGCGGCCAACTTCGCCGCGGGCAAACTTTTGGAAAGGGGGTAA
>SRR1919932_00031 camphor resistance protein CrcB
ATGATTTTTGCGGTTGGATTCGGCGCCAGCCTGGGGGCTGTAGCCCGCTATGCTTTGACCAGTTATGGCAAGAAGCACTGGATGCAGGGGACGGCCTATCCTCGGCCGACTCTTTTGATCAATCTGACAGGGGCCTTTTTCCTGGGCCTGGCCTTTGCCTTGCGGCTGCCGGCTAGCGTCTATGCCTTCTTGGGCACCGGCGTCTTGGGCGGCTACACGACTTTTTCCACTTTGAACACGGAAATGGTCTCTTTGGCTGATAACGGGCAAAAGCACGTCCTCAAGCGCTATTTGCTGGCCAGCTATTTGGGCGGGGCGGTCCTTTTAACTTGCGGATATTATCTTGGAAGTCTGCTATGA
>SRR1919932_00032 hypothetical protein
ATGAAAAAAAGCCAACTGATTCTGCGCAAGAGCCTGTGCAGCCTGGCAGCCATAATTTCCCTGGTCGCTCTTTTGAGTAGCCCTGTCACCTTTAAAATGTATGAGGTCAAGGACTATGCGTCCAGTTTGATCGACACTTTTGCCAACCAAAGCGATGTCAGCGCCATGTCGATCGCGGCCAAAGCCGCGGTAGAATCGGGCCTGAAGCAGGACCTGGTTGACCAATTGCCAGACAAGGTGGAGATTAGCGAGTCCCATCTCAGCCTCTACCGGCTGGTTTCCCGCTACCGGCAAAACAAGCGCCTGCAGTCCAGCGATTTAAAGCTGCCAGCCAAGAACAAGGTCCAGCTTTTTATGGATGACTTGATCCTCTATTTGGTCAACAGTGAACTGAAGGTGCATGAAGGGGAATTGCAGCAGATTACGCAAATCTACCAGCTCTCCTTGTGGATCATCTGCGTCCTTTACTTGCTGGGCGTGGCCCTGCTCCTCTTCAACCGTTACTGGTCCTGGCTGCCTTTTGTGCTGGGAGCGGCCAGTGCCTTTGGCTTCCAGGTCTTTATTACCCATACCTTGACGGAAATGGTCCAAAAAGAAGTTTACTCCAAGATGCTGTTCACCTATTCTTGGGGCAGCTGGGCCGGCTTTCTTCTGGCCCTAGCCCTGGCCGGCTACCTTTTTTATCTGGATGTTTGCCGTTATCGGGCGAAGAGAAAGGCTAATAAGAATAAAGAAGCGAATAATAATTAA
>SRR1919932_00033 signal transduction diguanylate cyclase
ATGAAAAAAAGAGCGAAGAAGGCTGAGCTGGATAAAATCGCGCAGAGCGAAGTACCAATAGCACTTTATCAATCAAAAAATAAGCAGATTAAAGCCATTGCCGTGTCTAAGGGCCTGTGTGAGCTCTATGGCTTGCCGGCGGCTGAGCTTAAACAGCTGCTGGGCCAGGACCTGGAAGCAGACCGGGTCACCCTAATGGAAATCCATGGAGATGTGGCCAGAAGCACTCATAGCTGGCAGCGGCCAGGAGTCGCTGAATTCTCAGCCAAGCAGCAGGCAATCAGTCTTGCAAAGGCAACAGTTAGCTTAAGCAAGCTGGATTTGTTTAATGAGGACAGTTTGTTTTTGACCGATCCTCAAGCAATCGCGGCATCTTTTCCGCAACTCGTGGCCTGCTATGGGGATAACTACCAGTTAAACAACAGTTTGCTGGCACCATTCTACGAAAGAGGAGAATTGAGAGGCCTGGTAGCTGTTGAAAACCTCAACCCGGCCTTGAACCTGGACTTCAATGACTTGATTGAACTGACGGCCGACTTCGTTGGAGCCAAGGTAACCGGCAAAAATTTGGAAGAGCAAAGAGACACTGATGTCTTGACCAAGCTGAATGACCGCCACCCTTACCTGGCCAAGCTGAACTTCTACCAGAAGTCCCAGACTTCAAGAACGGTGGGCGTGGCCTTCATGGACTTGAACGGCTTGAAAAAGGCCAATGATGAACTGGGTCATGATGCCGGGGATAAAATGCTGATTGCGGCCGGAAACTTGATCAGCCAGGCTTTTGGCCGCGACTATGTCTACCGGGTCGGCGGGGATGAGTTCGTGGTTTTGGATGACCAGAGCAGCCGGACGGAATTCGAAAGTCATTGTGCTGCTTTTGAGAAAGCTTTAACCCAGCCGGCCAGCCCATCGATCTCAATTGGGGCTGAATGGTGCCCGGACTCCCATTATTTGCGGGAAGTAGTTGAGAGAGCCGACCGGAAGATGCGGCGGCAGAAAAACGACTTTTACAAATCGCACAAGCGCTACCGTTGA
>SRR1919932_00034 hypothetical protein
TTGAAGGGCTTTTACCAGCCGGCTGGCAAGCTTACCGCCTGCAGCCTGGGCAATGACGGGGCCTTTCTGGCCAACTATGTCATAAAGAATGCCCTCCGGGTAGGGCTGGGCATCGTTTCTGTCGTCATGGGCTTGACCCTGCTGCTTTTTTCCATCTTCGAGCCTTTGACCAGCGCGCTCAAGCGCAGCCTGGGTTACTACTCAGTGGCCTCGATTTTATTTGCCGTCTTGCAGATGCAGGAAGAGATGCAGCTGACGGTGCTTTTTGGCCACTACCATGTCTGGCGCCTGTTTACCTACCCGGTCATGGTGCTCTTGCCATTTTTACTGATTATGACCATCAACGCGCAGCTGGACCAAGCTTTAAATGAGCGGAAATCCGAGCTCTACGCGGCTGCTAAGCAAGATTAA
>SRR1919932_00035 protein-tyrosine phosphatase
ATGCAAAAAATTTTGTTTTTATGCCATGGCAACATTTGCCGGTCGCCAATGGCCGAATTCATCATGAAGCAGCTCCTGGCTGAAGCCGGCAAGGCTGACCAGGTTGAAGTTGCTTCCGCAGCCGTGACCGGCGATGAAATCGTTGGTGGGGTTGGCAATCCAATGGACCCCCGTGCCCAGCGGGAACTGGCCAAAAACGGGGTGCCATTTAGCCAGCACCGGGCCCGGCTTTTGACCCGGGAAGACTATGACAAGTATGACTACTTGATCGCCATGGACAGTGAAAACTTCATGGCCATGAACCAGATCTGCGGGGGTGACCCGGAAAGAAAGCAGTACAAGCTGCTCCAATTTGCTGGTAGCTATGCTGACATTGATGATCCCTGGTATACAAATGACTTTGACCTGGCCTTCCAAGAGATCAGCCGGGGCTGCCGGGGCCTGTTAGACCAGCTTTAG
>SRR1919932_00036 NAD-dependent dehydratase
ATGAAAAAGTATGTCATTTTGCACCCGACCGGCCGGATCTCCCGCCTGGTCATCAAGCACTTGCTGGCTGACCCCCAGTTCAGCGATGTGGAGCTGGAGCTTTTGACCCAGCGGCCGGAACTTTTGGCCGACCTGGCAAAGGGCGACCGGATCAAGCTGACTGAAGGAGCGGCAACTGACCTGGACAAGATCCTGGCAGTTACCAAGGATGCTGACCTGGTCTTCTTGGGCAAGGTTGATGACAAGAAGTTCACGGTGATTAGCAAGAACCTGGTCAAGGCAAGCCAGGAAAACGGCTTTGACCGGGTTATCGAATTAAGCCTGGCCGGCCTTTACTATGAAATTCCTGGGGAATTCGGCACCTGGGTTGATGAATGGGTGGGTTCCGGCCGCTTTTTGCCAGCCAGAGAGGCTGCCCACCGCCTGGAAGAAGCTGACCTGGACTACACCTTGATCAGAATGCCTGCCTTGACCGACTGGCCAGATGTCAAGTACTCCTTGACTGGCCGCTATGACGAGTTCGTCGGCACCTCTGTTTCAAGAGCCAGCGTGGCTGGCCTGGTCTTAAAGATCATGGCTGATCCAAGCCAGTACTCCCGGGCCAGCGTTGGCATCTCCCAGCCGGAAACGGCGGGTTACGTCCGGCCAGTTTACTAA
>SRR1919932_00037 amino acid permease
ATGGACGAATTAGATAAAAAGGGAAATTATATTTCCTGGCAGACTTTAGCCATGATGGCCTTTGTCACGGTCATCGGGCTGGAAGACATCATGTACAACTTCCAAAACCAAGGGATGGCGGTCATCACCTCCTGGGTTTTGATGATGTTCCTTTACGTGGTTCCTTACGCTTTGATCGTTGGCCACTTAGGTTCAGTTTTCAACCATGAAGGTGGCGGACTCTCCTCTTGGGTCAGAGCCACTGACGGTGAATTTTTAGGCTACTTCACGGCCTGGACCTACTGGGCCGCTTCGATTCCTTACGTGGTCGACACGGCCAACTGCCTCTTGGTTGACGTTGGCTGGGGGTTGACTGGAACTGGCGAGTTTGAGGACCCGAAATTCCTCTCAACGGCCATGTTTACGGCCATTACCTTTGTCATTTTTATCCTTTTGACCCTGCTGGAACACAAATTCTCCAAATCAATGGAAGTCTTGTCCAACATCGGGGGCTGGGCCATGTTCATCATGACCATCCTCTTCGTGCTTCTGGCCTTTGCCGGCCTGGCCAAGTCCGGCGGCAAGACCGCGACGCCATTTACCTGGAAGACCATCATCCCCAAGTTTGACCTTAAATACTTCTCAACCGTGGGGATGCTGATCTATGCCGTCAACGGGTCTGAGTTGGTCGCCCCATACGTGACCCGGATGAAGGACCCCAAGCGGGAATTCCCTAAGGCCATGATCGCCCTGGCCCTCATGACCTGCTTTTTGACCATCTTCGGCTCAATTGCCCTGGGCATCTACATCGATGCCAACCACATGCCAAACGACTTGAAGATGAACGGTGAATACTACGTCTTCGGCGCCATGGGCAAGCAATTCGGCGTGGGCAAGCTCTTTGTCTACATCTACGCCTGGGCCTCCTTCTTCTACAATGTGGCCCTCTTGTCCGTCCTTTTGGACGCCATGACCAGAATGCTGATCTCCGACACCGGGGACAAGTACATGCCGAAGTTCCTCAAGAAGACCAACAAGGACGGCCTGCCGATCAACGGCTACATTCTGACTGTCTTTTTGAGCGGCTTCATCATGGTTCTGGGGATTTTCCTGCCAGACATGAACGACATCTTCAACTGGCTTTTGAACTTGAACGGGATCATCTCTCCGGCCGTTACCTGCTGGATTTTCTACTCCTTCATGAAGGTCCGAGGCAAAAACTCCTCCAAGTACCCGTCAGTTTACCGCTACATTAAAAACGACACCTTCGCCTGGTGGGTCGGCTTTGCCCTCCTGGCCGTCACGGCTGTCGCTACGGTCTTAGGCTTCATGCCGCAAGACGTCAAGGAAGGCAGCTGGGTTTGGTGGTATGAACTCTCCATCAACATCGTGGCCTGCCTGGTCTTGATCGGCCTGGGCGGGATCTTCCCAGGCATCCGCAGAAGAGAAGAAGAATACGGCCTGGCCTTTGACAAGCAGCAATGGACCTGGATGATTGCCCTGGTTTTGGGCTCAATCGTCTTCAATGTCTGGCTGGGCGGGACCACTATCAAGCTGCGGGCCCTCTACATTGTCATTGAATCAGTCATTGCCCTCTTGGCTGTCTGGCTGATTGGCCGCCGCCTGCCAAAAGGGGCAAAAGCCAGCAAGTAA
>SRR1919932_00038 peptide methionine sulfoxide reductase
ATGGAGAAAAAATTAGACAGCGCGATTTTCGCGGGCGGCTGCTTTTGGTGCATGGTGGCCCCTTTTGATACTTTGCCAGGTATTGAGAGCGTCACGGCGGGCTACACGGGCGGGCACGTGCCTAATCCGACTTATGAACAAGTTTGCAGCCATACGACTGGCCACACGGAGGCGGTCAAGATCGTCTTTGACCCGGACCTCATGTCTTATGAGGACTTGCTTGGCTACTACTGGCAGGTGACGGACCCGACTGACGCCAGCGGCCAGTTCCAGGACCGGGGGGACAACTACCGGCCGGTGATTTTTTACAATTCACCAGAGCAGAAGGCAGCAGCGGAAAAGTCCAAGCAGGAACTGGCGGAAAGCGGCCGCTTTGATGATCCGATCGTGACCAAGATCGAACCGGCAGCGCCTTTTTACGAGGCTGAAGACTACCACCAGCAGTTCTATTTAAAGCATCCAGACCGCTACGCGGCTGAAGAAGCCGGCGGCCGGGCCCAGTTTATCAAGAAGCACTGGGGCAAGTAG
>SRR1919932_00039 serine protease
ATGCGGGGCCTGTACACGGCCGGGGTGACGGACGTCCTCATGAAATATGGGATCAAGTTTGACGGGGCAGTTGGCGTTTCAGCCGGAGTGACCTTTGGCTGCAACTACAAGTCCCTGCAGCCCGGGAGGGTTTTACGCTATAACCTCCGCTATGGCAGCCGGCCCCAGTTTAAGAGCTGGCGGTCCTGGCTTAAAACCGGGGATCTCTACGGGGCGGACTTTTGCTACTATACTTTGCCGGAAGTACTGGATCCTTTTGACACGGCAGCCTTTGCCAGAAACCCCATGGACTTTTGGTGCGTGGCAACGGATGTGGAAACGGCCCAGCCGGCCTACCACAAATTGACCACCGGCAAGGGGCGGGACGTGGCCTGGATCCGGGCTTCGGCCTCGATTCCCGTTTTCGCCCGGCCGGTTAAAATCGGGGGCCACGCTTACTGGGACGGGGGCGTCAGCGACTCCATCCCGGTCCGTTTTCTTTTGGACAAGGACTATGACAAGGCAGTGGTCATTTTGACCCAGCCGGCTGGCTATCAAAAAGAGCCATCGCGTTTGCAGCCAGTCGTTGACCGGGTCTTGAAAAAGTACCCGGCTGTCGTGGCGCGCCTAAGGCAGCGGCATTTGGAATATAATGCCTGCCTGGCTTATATCGCCAAAGAGGAAGCAGCCGGCCACCTCTTTGTCTTCCGGCCCAGCCAGGGGATCGACGTCAGCGCCATGGAAAAGGATCCCAACCGCCTTAAGGCGGTCTACCAAGTCGGCGTGAGGGATGCCAAGCGGCAATTGGCGGCCTTGAAGGAATTTTTACAAGATTAA
>SRR1919932_00040 metal ABC transporter substrate-binding protein
ATGAAGAAAACACACAGACAGTTAATTATCTGGCCAATTTTGCTTTTGACCACTCTCTTTTTAGCCGGCTGCGCCAAGGATGAACAAAGTTCCAAGAGCCAGATCAAGATTGTAACTTCGACCAACATTTACGCCGACATCGCGCAAAATATCGTCGGCAAGTATGGTAAGGCTACCGCCTTGATCGCTAACGGCAACTCTGACCCCCATGACTATGAGCCGACGACTAATGCGGCCAAGACGGTGGCTGACGCCGACATCATCGTTGCCAACGGGATGGGCTATGACAGCTGGATGGGCAACCTGGCCGCCTCTAATGGCAAGAAGGCTGTCAAGGTCGGGGAAGACTTGATGCAGCTGGATTCCAGCGCCAACCCCCACATTTGGTACAACCTAAATATGCCAAAAAAGTACGTCGCCTACCTGGTCAAGAAGCTCAGCAAGCTTGACAAAAAGCACGCCAGCTACTACCAGGCCCAGGGCAAGAAGTATTTGCAGAAGATCGACAAGATCGAAAAAGTTGCTGACGGAATCAAGGGCAGCAAGGCCAAGCCGGTCTTCGTCAGCGAGCCGGTTTTTGACTACGCTTTAGAGCGGACCGGTTTCAAGATCGGCAATAAGAACTTTGAAGAAGCTACTGAAAAGGAAACCGACCCGAGCGCGGCCGTGATCGCCCAGATGAATGAAGCCATCAAGAAAAAGCAGATTGCCTTCTTCGTCAACAACACCCAGGCCAGCTCCGACACGGTCAAGTCCTTCGTCAAGAAGGCCAAGAAGCAGGGCATCCCGATCGTGGAAGTCCGTGAAACCATGCCAAACAAGGTCAGCTATGCTGACTGGATGCTGGCCAACTACCAGAAGCTGGCTAAGTTCGGCGACTAA
>SRR1919932_00041 membrane protein
ATGAATGATTTTAAGTTTAGCAAAAGAGAAAAGATTTACCTCCTCCTGGCCCTGGCTGTCTTGGTCATGCTCTTCATCTCAAGCTCGATGACCTACCATGAGCAGAAGATGAAGGCTGGTTTTATCCATACCTACCTAGGCTGGCTGGAAGATTTAATCCACCGGCTCAATATCTATTACGGCGGGGTCTGGCACAATGTCAAGACTGACGGGTCAGCTGGCTTCACCCAGTTCGTGGTCCGGAAACTGGCCCACTTTACCAGCTACTTCTTCTATGGCCTTTTTGCCTATTTGGGCTTAAGAAGAGTTTTCGTTATCAAATGGACCGGCCCCCTCTTTGTCTGGGCCAGTGCCTTTGCCTTCGCGGCCATGGATGAGTTCCACCAGTTCCTGACCGGGGACCGGACCCCCAGCGTGCATGACGTGATGCTGGATGCCAGCGGGGCCTTGCTGGCCATTGTTTTGGCGGTGATTTTTTATCAGGTTAAGCAGCGCAGGGAGCGAAAAAAGGCGGCCATTTAG
>SRR1919932_00042 transcriptional regulator
ATGTCAGGACATTCAAAATGGCACAATATTCAAGGCCGCAAGAATGCGCAAGACGCTAAGAGAGGGAAGGTTTTCCAAAAGCTCTCCCGTGAAATTTATATGGCTGCAAAGAGTGGTGGTCCTGACCCTTCAGGTAATCCAAGCTTGCGTTTGGTCATGGACAAGGCACGGGCTGCCAACATGCCAAAGGACAACGTCCAACGGGCCATCAAGAAGGCTGAAGGCAACTCAGACGAACACTACGATGAAGTAACTTACGAAGGTTACGCACCGGGTGGTGTTGCCATCCTGGTTGAAGCCTTGACTGACAACAAGAACCGGACTGCCTCATCCGTACGCGTGGCCTTCACCCGCAACGGCGGCAGCCTTGGTGCTACTGGGTCAGTTGCCTACATGTTCGACCGCAAGGGCTACATTGTAATCGACCGGTCAACTACTGACGCGGATGAAGACCAAATGCTGATGGACGTCATGGAAGCCGGCGGCGACGACCTGCAAACCAGCGACGACGCTTACGAAATCTACACTGACGCCAAGAGCTTCACTGCTGTCCGCGATGCTTTGGAAAAGGCCGGCTACCAGCTGGCAGTTTCTGAACTGACTATGGTGCCGCAAAACACCACTCCAGTTCCAGCAGACAAGAAGGAACAATTTGAAAAGCTGGTTGACGCTTTGGAAGACGACGATGACGTTTCCAACGTTTACACCGCTGCAGCTGACGAAGAAGAATAA
>SRR1919932_00043 competence protein ComGA
GTGGAAGTTGCAGACAAAGCCCGGCAAATGCTGGAAGAAGCAGTTAGGATCCGGGCCAGTGACATCTTTTTCCTGCCGAAAAAGGGCATCTATAAACTTCGTCTGCGGGCCGGGGATCTGGAGGAAAGGCCGTCCCTGACCCGGGAGGCGGGAAATGAACTGATCAACTGGTTTAAGTACCAAGCTGAAATGGATATTGCCGAACACCGCCGCCCCCAGGTCGGCAGCATGGCTGTCAATTTGGCGGGGCAGGACTACTGGCTCCGCCTCTCCAGCGTGGGTGATTACCGGGGGGAGGACTCATTGGTCATCCGGATCATCTATGCTTTGGGGGAGAGCCGGTACTTTTTCCCGGACCAGTTTGGGGACTTGGTGGACCTTTGCTGGCTGCGGGGGATGATCGTGACCAGCGGGCCGACGGGGTCGGGTAAGACCACGACCATGTATGAACTGGCCAGAAAGCTCAGCCAGACGAAAATGGTGATGACGATTGAAGACCCGGTGGAAGTGTATGAAGAGAGCTTTTTTCAGGCCCAGGTCAATGCCGGGGCCGGGATCAGCTATGCCAGCCTTTTAAAGGCGGCTCTTCGTCACCGGCCGGATGCCTTGATCATCGGTGAAATCCGTGATGAAGAGACGGCCCATTTAGCGGTTGACGCGGCATTAAGCGGCCACCTGGTTTTAGCCACAGTGCATGCCAAAAGTACCTACCAAACCATTTCCCGCCTGGAGAGCCTGGGGGTTAAAAATAACGAGCTGGTTAACTGCTTGACGGCGGTTTCCTATCAGCGCCTTCTGCCGGGCAAAAAGGGGCCAGCCTGCTTGCTGGACTTGGCCAGCCGGGAGGACTTACTGGCGGCTCTGGGTCAATCCGTCAGAGGTAATTTCGCGGCTTGGGAGGAAAACTTAAGCAGGCTGGTGGAGAAAGGAGAGATAAGCGCGGATGTGGCAAGGCAATATAAAGGCGGCTAA
>SRR1919932_00044 competence protein ComGB
ATGTGGCAAGGCAATATAAAGGCGGCTAAGTTGAAGCAGAGTGAGCAGGTGGAGCTCTTGGCCTTTTTGGCAAACTGTTTAAAAAACGGCTTTTCCTTGACCAAGAGCTTGCAGCTCTTGCCCCTGCTTTGGCCCAAGCGGAAAAAGCAGCTGGCCCGGCTGGATGAAAAAATGCGGCAGGGAGAAGAACTGGGTCAGCTTTTCGCGGGCCTGGGCTTTAACAAGACGACGGTGACCCAGCTGGACATGGCACTTAGCCAAGGGCGGCTGGATGAATCCCTGGACCAGCTGGCCCTTTTGGGGCGGATGAAGAATGAGCAAGTCAAGAAGCTGGAGGGGGAACTGGCCTACCCGGTCGTTTTGGCAGGGATGATGACCTTGATTTTAATCTTCATGCAGAACTTTTTGTCGGTAGAATTTGCTGGCAGTTCCGCCAAACAGGGGGACCTGCTCTTGCTGATTTTAGTTTTTTTACTGGTTTTGGTCATCATGTTAGTCGTTATCGCGGCAGCTTACATGAAGAAGCAGGACTACCAGTCTTTTAAAAAGCTCCTGACCTGGCCGGTTTTCGGGCCAGTGGTGGCCTTGTATGGCCAGTATTTGATCTCTTATGACCTGGGCATGCTTTTGGCCAGCGGCTTTTCCCTGCAGCAGATGTGTGACTTTGCCTGCCGGCAGGCGCCGGGGTCACTGCAAGAAGAAGTGGGCCGGCGGGCGCGAGACGCGATTCTGCGGGGTAAGAAAGTGGAAGAGGTCATCCAGAAGGAGCCATTTTTGAGCCAGGAGCTCTTGATGTTGCTGCAGGCGGGCAGTGAACGGGAGGAACTGAGCCGGCAGTGCCTGCTTTTGTCCCGGCTTTTGTTCAACCGCCTGCGCCAGAAGCTGTCCAAGCTAATCGTTAGCGTGCAGCCGGTCTGCTTTATCTTGATCGGCCTGTGCATTATTGGAATGTATTTAAAGCTGCTTTTGCCGATTTACGACAGTATGCAGCAGCTTTAG
>SRR1919932_00045 competence protein ComGC
ATGAAACATTTAAGACGGTTTTGGCCAAAGCGCCAGCGGGCTTTTACTTTAATTGAAATGGTGATCGTGGTCGCAATTATCGCGACTTTGGTTCTTTTGATCTCGCCAAATTTGCTAGCCCAAAAGGACCATGCCGATAAGCGGACTAACGATGCTTTTACCACGACCATTAAGACCCAGGTGGAGCTATATGAAGAAAATACGGGCAAGAAGCCGGCCTCTTTCCAGGAAATGGTGGATGCCCACTACTTGACGCAAAAGCAGGAGGAGCAGGCTGAGGATAAGAAGCTGGCGATCGGCGACTTCGCCAAGGGCGGAGAATGA
>SRR1919932_00046 hypothetical protein
ATGAGGCAGAAGGCCTTCAGCCTGCTGGAGACGGTGATAACCTTGGCTATCGCGGGGATGCTGCTGGGTATCGGTGAGATGAGCTTTCAAGGCTTTGAAGACAAGATCAATTTTGACCGCTTCTGCCGGCAGGCGGCGGGACTTTTTCAAGAGAAAATCAGAAGTGCCGCCATTACGGGAAAAAGAGTCGTGATCTACAACCAAAGCAGCCAGGGCAAGCTGGAAGTCATTCAAGACGGCCGGCATGAGAGCCTCAAGATTCCAGATGGAGTTACGGTTTATACCAACTTTAACAATACATCAGGCTGGACAATCAGCAGCGACGGAACCACCAGCCAGGCCTTCACGCTGAGAATCATAAAAAATGATCAGGGGAAAAAAGAGTATGAGAAAGCATATACCTTTTTGCTGTCGTGGGGGAAGATCAATAAAAAGTAA
>SRR1919932_00047 competence protein ComGF
GTGGCTTTGGCCATCGTCTGTATTGCGCTAACTGCCATGTTGACCTGCCTCAGCGGGCTAAAGAAACTAGAGCAAGAGTCAAGCCAGCGGGCCAACCAGGCCCTGGCCTACCGGATGCTGAAGGAGTGCCCGGTCAAGCGGGTCAAGGTCAGGGACCATGAGTATGTCTTGACCGGCAAAGGAGACCTGTATGATGAAACCCAGCAGAAGATTTGCCAGAAGTAA
>SRR1919932_00048 hypothetical protein
ATGATGAAACCCAGCAGAAGATTTGCCAGAAGTAAGGCTTTCAGCTTGCTGGAGACCATGGTCGCCCTCTTGGTGACGGTGATTTGCCTGTCTCTTTTGTCCTCTAGCCTTAAGCTTTTTACCCTCTTTGAAAAAGACCGGCACGATCCTAATGAACTGGTCTTCTCTTATGTCCAGTTCGCCAAGTTTTTGAAAAAGGACAGCCAGCGGACCTATATTGATCTGGAGAATTCCAATCCTTTGAAGATCATGTTTATCAAAGAAGAGAAAAAGGAAGACAAGGAGGGGGAAGAAAAGATAGACAAAGCTGGCTACGTTCTGGAAATGGACAATGGCGGAAATAATCTTCGGGTCAGAAGATCCGGACCAGACGGCGGCAACATGACCCTGCTGCCAATCTGGGGAGCAACGTTCGCGGCCAGGGATGGCTTGATGGAGGTCCATATCAATGAAAAGGGGAAAAGGTCAATTTTGTATTTTAAAGTCGACAAGGCACCGGAAAAAGAAAAGGAGGCTGAGAAAAAGACTGAAGATCAGAAAACAGACCAGGCTAAACCGGCAAAGGGGGAGCGTCCTGCTGACCAGCGTGCTACTGCTAGTCACGACAATTCTGCTGATTGA
>SRR1919932_00049 adenine-specific DNA methylase
ATGAATAGAATTGAAGAACTGTTTGGGCAGACTCTGGAAGCAGTCGAATGCCTGCAAGAAGCCTTGAACGTGTCCCTGGCTGATGCCTTGGTGGAAACTTTTGACAACCTGGAAAGCGGGAAAATCCGCGTGGAAATGGAAGCCCCGGACCAAAAGACGGTGGCTGAGCTTAAAGAACGCTACGCGGCTTTGGACTACAAGAACTGGTCCAAGGCCCAGAAAGAACAGGTCTATGGCCTCCTGGTCCTTAAGGCCGTCAACGATGACGGCCGGGATGCTAACCAGATGCCGACTCCGCCGCTTTTAGCCACGGTCTTGACCCTGTTTATGGACAAGCTCCTGCCTAAGAGAAAGCAAGTCCTGCTGGACCCGGCAGTGGGCAGCGGCAACCTGCTCTTTTCTGTTGACCAGCAGCTGGCTGCCCAGAATCATTCAGAAGACCGCTTTGACCTGGTTGGCCTGGATAATGATGAAGAAATGCTCAACTTGGCCGACGTGGCCGCCCACTTGGCGGGGTTAAAGGCCGACTTCTACTGCCAGGATGCCCTGACCGGCTGGCCTGTCAAGCCAGACGTAGTGGTCAGCGACCTGCCGATCGGCTTTTACGCTAACGACGACAATGCCAAGAACTTTGACCTCCGGACCAAGGAGGGGCACGCCTACGCGCACGTCCTCTTCGTTGAGCAGATCGTCAAGAACCTGGCTGAAGACGGCTTTGCCTTCCTTTTGGTCCCGCAGAACATGCTGACTGGTACGGTTGGGGCTGACTTTATGCCCTGGCTGGCAAGTAAGGTCTACCTGCAGGCGATCGTGCAATTGCCAAGCAGCTTATTCCAAAGCAAGATAAGTCAAAAAAGTATCCTTATCTTCCAAAACCACGGCCAAAGCAAGCCGCCGAAGGAAGTTTTGCTCACAAAGCTTGAAAATCTGAAGAAGGAAGAATCTTTGGTAGCCCTTAATATTAAACTGAACGAGTGGTATACTAAGAAAGATAATTAA
>SRR1919932_00050 acetate kinase
ATGGATAAGATTTTAGCAATCAACTCTGGTTCATCTTCATTTAAGTATAAGCTGTTCTCATTAGCTGATGAGAGTGTCTTAGCTTCCGGGCTGGGCGACCGTATAGGTATCGATGGTTCAACCTTTTCAATGAAGTTGGCTGATGGGACCAAGCATGAAGCCGAAGTTGACTTGCCAAACCAGGAAGTAGCCGTGCAAACCCTGCTTGACTGGCTGAAAGAATATGGCGTTATTGCAGACGTCAAGGAAATTGTCGGCGTTGGCCACCGGATCGTGAACGGCGGGGAATTGTTCCCAGACTCAGCAATCATCGACAAGGACAACATCCACAAGGTTTTTGACTTGACTAACTACGCTCCTCTGCACAACCCGGCAGAAGGCCACGGCATTCAAGCCTTCATGAACATCCTGCCGGACGTGCCGCAAGTCGGCGTCTTTGACACTTCCTTCCACCAGTCAATGGATGAAGTACACTACATCTACTCCTTGCCATACGAATATTACGAGAAGTACAAGGCCCGCAAGTACGGCGCCCACGGCACTTCTGTCCGCTACGTTTCCGGCAAGGCGGCTGAATTGCTGGGCAAGGACCTCAAGGACCTTAAGCTGGTTGTCTGCCACCTGGGTTCAGGCGCTTCAGTTACTGCGGTTAAGGATGGCAAGTGCTACGACACTTCCATGGGCTTCTCACCTTTGGCTGGGGTAACCATGGGGACCCGGTCAGGTGACGTTGACCCGTCAGTTCTGCAGTACATCATGAAGAAGGAAGGAATCACTGACTTCAATGAAATGATCGACATTTTGAACCACAAGTCAGGCCTTTTGGGCCTCTCCGGTATCTCCAGCGACATGCGGGACATCAGAAACAGTGATGACAAGCGCGCCAAGCTGGCTGATGCTGTATTCATCAACCGGGTAGTCCGCTACGTTGGCTCTTACATTGCTGAAATGGGCGGGGCAGACGCGGTTGTCTTCACTGCCGGGATCGGCGAACACGATGATGAAGTCCGTGAAGGGGTCATGAAGTCACTGTCCTTCATGGGCGTTGACTTTGACGACGCAGCTAACAAGGCTGCTAATGAAGGCTTCATCACCAAGGAAGATTCCAAGCTGGCTGGTTTGATTATTCCAACTGACGAAGAATTGATGATCGAACGTGACGTTGTCCGTTTGGCCAAGCTTAAGTAA
>SRR1919932_00052 hypothetical protein
ATGAAACTCAAAGAATTTTTGCTAGGAGCTTATAGCTGCCAAAAAGTCAATGACAAGGGCAGGACCAAGCTCAAGGTCGACCTTTCCCCAGGCCTGCTGCCAACAGCACTTTTTGCCTGGGCGGTTTACAAATTCTTGACTAGCGGCGATGATTAA
>SRR1919932_00053 two-component system response regulator
ATGAAGATCTTAATGGTAGAAGATGACAAGTCAGTTTCACAAATGATGGAATTGTTCTTCAAGAAGGAAGGCTGGGAACAAGTTTCCGCCTACGACGGTGAAGAAGCAGTCGAAATTTTCCAAACTCACCCGCGGGACTTTGACATCATCACTTTGGACTTGAACCTGCCAAAGAAGGACGGAATTCAAGTGGCCAAGGAAATCCGCCGGATTTCTGAGACTGTGCCGATTATTATGCTGACGGCCCGCGACAGCGAATCTGACCAGGTTCTCGGCCTGGGTGTCGGGGCTGATGACTACGTAACCAAGCCATTCAGCCCGATCGCCTTGATCGCCAGAATCAAGGCCCTGCACCGGCGGGTAATGCTGGAAGGGCAGCCAAGAAACCTGCCGAAGAACATCCCAAGCAACGACTTCGACTTGGAAACCAACCACATCCGGATCTCCAAGAGCCGGCGGGAAGTCTACTTTGACGAAAACCGGGTTGAAGGCTTGACGCCAAAGGAATTCGACCTGCTCTACACCATGGCCCAGAAGCCAAAGCAGGTCTTCTCCCGGGAACAGCTCCTGGAACTTGTCTGGGGCTATGAATACTTCGGTGAAGAAAGAACTGTTGACGCCCACATCAAGAAGCTGCGCCAGAAGCTGGAAAAGTCCGGCCCGCAGATTATTCAAACCGTCTGGGGCGTGGGCTACAAGTTTGACGATTCACAGGTTAACGCATGA
>SRR1919932_00054 two-component system sensor histidine kinase
ATGAAACTGATTTATCAGCATATTCTGAGTTTTTTGATAGTCATTTTAACCTCGGTCATGATCATTGGCTTTTCAACGATCAACTACCAGAAGGAACAGGCCTATCAAAGCAACTATACGCGCTTGGAAAGTTATGCCGAGAATCTTTCGACCCTGCAGCTGTATTCTAAAAAGACGCAGAGCAAGAATTCACCGCCGGTTTTTTCCGCGGATTTCCTGCAGAAGTTTTCCTTCGTCATGCGGGATGAAAATCTTAAACTGTTTTTGATGGACAAGAACTTTAAGACGACTTATCCCCTTGGCGGCTACGACATCTTGAAGAAGTCAGCCAAATCGATGCTGAAAAAGGGGCAGGTGGTCCGGATCAAGGACGACCACAGCAGCGAGCAACAGGACCTTGCCCCGAAAGTCCAGGGCCGGGTAAAGCGCGATGGCTTAAGAAAGCGGAGCAACCGCCTTTTTGCCGCTGAAAGCTATACCTGGGTCGTGGTTCCCCAGGTCCAAGGATCCGGGTCAAATAAGAAGGTCGTCGGGGCCATCATGATCGGTTCCCGGGTCAAGGATGTCCTGCAGACCGTGAGTCAGGCCAAGGCAAACCTGGCCAGAGCCCTGGTGATCACCTTCGCGGTCAGCTTGATCTTGAGCTTTATTCTGGCCTACTACCAAACTGGCCGGATCAAGAAGCTCTCCCTGGCTGCCCGCAAGGTTGCTGACGGTGACCTGGACGTCCAGGTTGACCACCGCCATGCCGATGAAATCGACGACCTGGCCGAAAACTTCAATGAAATGGTCCGGTCTCTGAAGGCCTCAAATGAAGAAGTCAAGGCCCAGGAAGAGCGGCGGGACCAGTTCATGCAAGATGTGGCCCACGAAATGCGGACGCCTCTGACGACGATTAATGGCCTTTTGGAAGGGATGAAGTATGATGCCATCCCAGAAGAATCAATTCCAGAGTCCATTGACCTCATGAGCCGGGAAACCAAGCGCTTGATCCGCCAGGTCAACGAAAACCTGGACTACGAAAAGATCAGAAGCGGGAAGATCCAGATGATGAAGTCCCAGTTCAATGCCCGGACGATCATGAACGACGTTCAGCAGCAGCTGACCCAGAACGCGGCTAAGAACGGGAACAAGATTATCCTTGACGCTCCGGAAGATTTGCCGGTTTATGCTGACCAGGACCGCTTCAAGCAGATGCTGGTCAACTTGACCCAGAACGCCATCCAGTTTACCAATAACGGGACGATTACGCTCAGGGGCCGGCGCTTCCAGCATGGGGCGACCTTCAGCGTCCAGGATACCGGGATCGGGATGACCCAGGAGCAGAGCAAGTATATCTTCGAACGCTTCTACAAGGCTGACCCGGCCCGGGCCCGCTACGGCGGTACCGGTGAATCCGGCCTGGGCTTGTCGATTGTCCTCTCTTTGGTCCGCCAGCACGGCGGGGAAATCAAGGTTATTTCCAAGCCGCATGAAGGCTCAACCTTCATGATCACCCTCTTTGACCAGGGGCATGAGAAGCACTATGACAAGAAGGACAAGAAAGAGTCCAAAGATAAAGAATAG
>SRR1919932_00055 alkaline phosphatase
TTGAAACACAGCAAATTTCTCGGCAAATTTCAAAGCCGGACTGGCTTTTTGACCCTCCTGGTCATCTGCTACTGGCTGAAATACCTCTTTGTCGCCTACTGCGACTTAAATCTAGGCCTGGCCAATCCCCTCCAGCACATCATCATGTGGTTCAGCCCCCTGGGCATGAGCATCATTTTGATCAGCCTGGGCTTTTACTTTTCCAAGCCTCTGGCCTCCTACATTGCCATGCTGGCCCTCGATTTCGCCAACACGGCGCTTTTATTTGCCAACGTCCTTTACTACCGGCAGTTCACCGACTTCATTACCGTCAAGACCATGGCCAACCTCAGCAAGGTTTCCCAGGGTCTAGGCAAGTCCAGCGCGGCCCTTTTAGCGCCTAGCGACATTTTTATCTGGCTGGACCTGATCGTCATCGTCATCCTGCTGGCGGTAAAAGTAATCAAGATCGACCAGCGGTCATACGGCTTTTCCAGGACTTTTGCCATTACGTCCTTCGGCTTCTTCGTTTTGGGCCTCAACATGATGGTGGCTGAATGCAACCGGCCCCGCCTGCTCAAGAACACTTTTGACCGGACTTACGTGGTCAAGTACCTGGGCATTGACACCTTCACGGTTTATGACGCTATTAAGAACGAATCCAGCTCGACCGTAACCAAGAATGCTTCGACCAGTGAATTGAACAAGATCATCAACTTTACCCAGCAGAATTACGCCCCGGCTAATTCCGAATACTTCGGGGCGGAAAAAGGGAAAAACGTGATCATCATCCACCTGGAGAGCTTCCAGCAGTTTTTGATCGGGATGAAGGTCAACGGCAAGGAGGTTACTCCCTTCCTTAATTCCCTCTACAAAAACAAGCACACCCTGTCTTACAGCAACTTCTATCACCAGGTTGGCCTGGGCAGAACCAGTGACGCGGAAAATATGCTGGAAACCAGCACCTACGGGATCTCTGACGGGTCACTCTTCACTTCATTAGGCTCCAGCAACACCTTCCAGGCTGCCCCGCAAATCTTGCGGGCAAACAGCAACTACACCTCTGCCGTCTTCCACGGCAATGTCGGCAGCTTCTGGAACCGGAATGACGTTTACAAGAATATGGGCTACAACTACTTCTTTGACAAGAACTACTTCAGTCAGGAAAGCGGGGACAGCTCCGGCTACGGGCTTAAGGACAAGCTCTTTTTTGCCGAAAGCGTCAAGTACCTGGAAAGAATGCAGCAGCCCTTCTATGCCAAGTTCATCACAGTCACCAACCACACGCCTTTTGAACTGGCCACGGCTGACCAGGATCCAAACTTCAAGACCAGCTCAACCAGTGACGTGACGATTAATAATTACTTTTTGACCGCCCACTACCTGGACCAGGCCTTGAAGGAATTTTTCACTTACTTGAAAAAATCCGGTCTCTATGAGAAGTCGATGATCGTCATTTACGGGGACCACTACGGCTTGAGCAATGAAGAGTACACCACCCTAGCGCCTTTGATCGGCAAGGACCCGAATGACTGGTCCAGCTACAACACCGCCCAGATGCAAAAGGTACCTTTCATGATCCACGCTTCCAATTTAAAGGGCGGGATCAAGTCAACCCTGGCTGGTGAAATCGACGTCCTGCCGACCATCCTCCACCTGCTGGGCATCTCCAGCAAGCAATATGTCCAGTTCGGCACGGACATGCTGTCAGCTAAGCACAAGCAAATTGTCGTCTTCAGAAATGGGACGGTAATCAGTCCAAAATACGTCTTGATCGGGGGCAAGACCAGCAAGGGCAATGTCTATGACGCCAGCGGCAAACTTTTGACCAAGCTAACCAAAAAGCAAAAAGCCGAAGTCAAGAAGCTGGCTGCTTATGGCAAAAACTCCCTGGCCTACTCAGACACCCTCAACAATAAGAACCTGCTCCGCTATTACACGCCAAAGGGCTTCAGCCCGGTCATCCCGAGCGATTACAACTACAGCACCAACTACCAGCAGATGATGGACCTAATTGAGCAGTTAGGCAAGCAGTCAACCGCCCTCATCAGCCAAAAGGGCGACACCAGCAAGCTTTACAAGACCGATGCCAGCCAGCTGGCAAAGCGGCAAAGCGAGATCACCCAGATCCCGGAAAGCGTCCTGTCCTCATCCAGCTCCATGAATGAGAGCATGACTTCAAGTTCATCCAGCTCTAATGCAAGTTCCAGCTCAAGTAAAGCCAGCAGCAAGAAAACTAAATAG
>SRR1919932_00056 glycopeptide antibiotics resistance protein
ATGTTGTTTTTAGCACCTTTATACAATTATTTAGCCAGCCAGTACGCCACCCGGATCAATCACTTTGCCTTGATCAAGTTAGCCTTGCAGGGCCTGGACAAGACAATTTTTTACTTCCTGCTCTTCGCCCTGGTCCGGGTCATCTGGCTTTTGGCTGTCCGTAAAAGACGCGGGCTCTGGTCAGAATTCGGTCTCTGGCTCTTCGCCTTTTACTTTCTCCTGGTGCTGATGCTAACGACCTTCAGGTCATCCTACTTCCCTTGGGAACTGAATTTCCATTGGACGCGGCCGCTCAGCAATATCAACCTGGTCTTCATGAAGAATACCTGGAAATTAGTCTATGCCCAGAGCAAGGTCGACTTTTACTATAACTCTATGGGCAATATCTTAGCCTTCATGCCCTTCGGGGTCCTGCTGCCCAATCTGCTGCAAGTCAAGCGTTGCTTTGGCCGGGTCTTTTTCCTGGGGGTCTTGTCATCAGTGACGATCGAGATCCTGCAGTTTTTGCTCATGACAGGTGTCAGCGACATTGACGACGTCTTCTTCAATGCCTGCGGGGTCCTGCTGGGCTATGGGCTCTACTTTTTGCTAGGTCAAATTTGTGTAAAAAATCCCAATAAAGACTAG
>SRR1919932_00057 glucose-6-phosphate isomerase
ATGAATAGTGTAGTAAGTTTTGACAGTAGTAAATTGACTCCTTTTGTTCACGAAAACGAACTGAAGGAAATGCAAGCAATGGTTAACGCCGCTGACAAGGAATTGCGCGAAGGCACTGGTGCCGGCAACGACTTCCGCGGCTGGCTGGACCTGCCAGTTGACTATGACAAGGACGAATTCGCCCGCATCAAGAAGGCAGCCAAGAAGATCCAAAGCGACTCTGACGTTTTGATCGGGATCGGGATCGGCGGCTCATACTTGGGTGCCCAAGCAGCCATTGAATTCTTGAACTCATCATTCTACATGGCTGAAAAGAGCGATTATCCTAAGGTTGTCTTCTGCGGTAACAGTCTGTCAGGCACTTACTTGTCAGACTTGATCAACTGGCTGGGCGACAAGGACTTCTCCTTGAACATCATCTCCAAGTCCGGTACCACCACTGAACCTTCAGTTGCCTTCCGGGTTTTGAAGGCCAAGTTGATTGAAAAGTACGGCAAGGAAGAAGCAGCCAAGCGTATTTACGCAACCACTGACCGCCAAAAGGGTGCCTTGAAGACCGAAGCTGACGCTGAAGGCTACGAAGAATTCGTAGTTCCAGATGACGTCGGCGGCCGTTTCAGCGTTTTGTCAGCTGTTGGCCTTTTGCCAATCGCTGCTGCCGGCTGCGACATCGACGCCTTGATGCAAGGTGCCGCTGACGCCCGGGCTGCTTACACTGACCCTGACGTAAGCAAGGACTCACCTTACCAATACGCTGCCTTGAGAAACATCCTTTACCGCAAGGGCTACACCACTGAACTTTTGGAAAACTACGAACCAAGCATCAGAATGTTTGGCGAATGGTGGAAGCAATTGATGGGTGAATCAGAAGGCAAGGACCAAAAGGGCATCTACCCGTCAAGTGCTAACTTCACCACTGACCTGCACTCACTTGGCCAATACATCCAAGAAGGCCGCCGGAACTTGATGGAAACTGTTGTCCGCGTTGCTAGCCCACGGGCTGACGTAGAAATTCCAAACGACGAAAGCAACCTTGACCAACTGAACTTCCTGGCCGGCAAGAACATGAACTATGTCAACGACCGGGCTTACGAAGGCGTTGTTTTGGCCCACACTGACGGCGGGGTTCCAGTTATGACTGTCAACATCGCTGACCAAAGCGAACACACTTTGGGCTACTTGATCTACTGGTTCGAACTGTCAGTTGCTATCTCCGGCTACTTGAACGGGATCAACCCATTCAACCAGCCAGGGGTTGAAGCTTACAAGCGCAACATGTTCGGCCTTTTGAACAAGCCGGGTTACGAAGACTTGCACGACGAACTGGCAAGCCGCCTGTAA
>SRR1919932_00058 oligopeptide ABC transporter substrate-binding protein
ATGTCATCAAGAAAAATTGCCTTGACCGGACTTGCTTTAGCTGCTTTAACGTTAACAGCCTGCAGCAAGCAGGAGAGCAGTCAAAAGGAGCAGGATTTGAACTGGTCAGTCGGCGGGGAAATCACCACGATGGACCCGTCCAAGGCCACGGACGTGGTCAGCTTCAGCCAGATGATCAATTCAATGGAAGGGCTCTACAGAAACAGCAAGGACGGGCAAAGTCCGGGCCTGGCCACTAGCGCCCAGGTTTCCAAGGACGGGCTGACTTATACTTTCAACTTGCGCAAGTCCAAGTGGAATGACGGCACGCCCGTAACTGCTCAAGACTTTGTCTACTCCTGGCGGCGGACCGTCAATCCCAAGACTGAGGCCGAGTACTCGTATCTTTTTTCCGGGATCAAGAACGCCGATGCCATCCAAAACGGCAAAAAGCCGGTTTCCAGCCTGGGGATCAAGGCCGAGGGCAAGTATAAGCTGGTCGTCACTTTAGAGAAGCGGATGGCCTATTTTAAGGACCTCATGGCCTTCCCAGTCTTTTTCCCGCAGTAG
>SRR1919932_00059 oligopeptide ABC transporter substrate-binding protein
TTGACCAAGCAGTTCAAGGGCAAGAAGAACTACTACAGCCTCTCCAACGGGGGGACCTACTACCTGGAACTTAACGAAAAGAACCCGAACCTGGCCAACAGCAACATCCGCAAGGCCATCTCCCTGGCCATCAACCAGGAGAACCTGATCCGGATTTTAGGCGGCAACAACCAGGTGGCCAATACTTACACAGCCAAGCAAGGCCAAGGAGTACTGGCAAAGGGCCTGAGTGAACTCGGCAAGTCCAGCTTGACCTTGAACCTGCTGACCAGTGACAGCGACAGCGACGGGGGTAAGAAGACCGGCGAGGCCCTGCAGAGCATGCTGGAAACCCAGCTGCCAGGGCTGAAATTGACGGTCACCAGTGTTCCCTTCAAGACCCGCCTGGCCCGGCGGGAAAACTGCGAGTTCCAGATCTGCGGGTCAGACTGGATCGCTGACTTCGCTGACCCGATTTCCTTCCTGGAACTTCTGACCAGCAAGAACAGCTCCAACTATGGCTCCTGGAAAAACAGCCAGTATGACAAGCTGATTGCTGCTTCCAAGAACACCAATAACCAGGAAAAGCGGCTCAAGGATATGAGTGAGGCGGAAAGCATCCTGCTTGACGATACCGGGGTCATCCCGCTTTACTATGAGGACGATGCCTGGCTGATCCGGTCAAATGCCAAGGGCTGGATCTGCAAGCGGAGCGAGTGGAACTTTAAGGAAGCCTATGTGACTAAGTAA
>SRR1919932_00062 serine hydrolase
TTGCTTAATTTTCCTAAAACCCAGCTGCTGATTGAAAGCATGGTTTCTGAAAGAATTGTTCCTGGAGTCAACTACGCCCTCTTAAAAGGTGACCAGGTCTTTGCCTCGACTTTGGGCTTTGCCAGCATTTATCCGGCTAAAAGCCAGCTGAGCCCTTTTGCCTACTATGACTTGGCCAGCTGCAGCAAGGTTTTGGCCACGACGGCTGCTTTCTTGCAGCTGAGGGAAGAGGGAAAGGTTGACTTTGCTGACCCCTTGCAAAAATACGTGCCGGAATTTAAGGACGGCCGGGTCCGCCTCAGCCACCTTTTGACCCACACATCTGGCATCCGGGGCTGGATCGAAAACCGGAATGCCTTGTCCGGCCCGGAATTAATGAGGGCGATCGTGGGCTTGCCAGTGACCAGCGAGTTTAACCGGGTGGTCCGCTATGCAGACACCAACTTCGTCCTTTTAGGCCTGGTTTTAGAGCGGATCACGGGCAAAGCAGTCCAGGACCTGGCCAGCGAGCGGATCTTCCAGCCAGCTGGCTTGACTGAAACGACTTTTGCTCCGCCAAAAGAGGAGTGCGTGCCAACGGAACTAGTTGACGGCCAGGTCATTCAAGGCTTCGTTCATGACCCCAAGGGCCAGCAATTAGGCCGGCGGTGCGGGTCAGCTGGCCTGTTTAGTACCGTCAGCGACCTGGTCAAAATGGGCCAGGGCTATATGGGGGTCAGTGACCTTTTGCCATTAAAGAAAGAAACAATCCAAGATCTCTACCAGGTCAAGACTCCGGCGGGTTTAAAAGCCCGGTCCTGGGGCTGGAACCTGGTCTTTGACCCTAAGGAAAACTATCCCATCATCTACCACACCGGTTTTACCGGCACTTTGGTCTTGTTTGACCAGGTCAAGCAGTCCGGCTTAATTCTTTTGACCAACCGGGTTCACCCTTCTCGGCACAATCAGATCTTTTTGACTATGCGCAGCCGGATCATCAACGCTTTTTTGCAGGAAAACCGCTAG
>SRR1919932_00063 hypothetical protein
ATGAAATTAAGCAATAAGCAAAAGGGCTGGCTGCTTTTAGCCGTCTACGGCCTGGTCATCATCATCCTGGGCCGTTTTAACAGCCGGATGTCGCCTTATTATGCCATCACTGCTATCACGGCATTTGCCGTGGCCCTAATCGAGGGTCTGCTTTTTGCCTTTAGCAAGAACGCGACATACAAGGCGGTTGCCTTTTTTGCCGGCTTGGTTGCCTTGATCAACGTAGTCGCCGTCTTAACTACGGCAATTTAA
>SRR1919932_00064 UDP-N-acetylmuramyl peptide synthase
ATGAGTTTTAAATCCAACATCGCAACTTTTGCCGGCAAGTCCTCTTACTGGTTCCTGCACAATGTCTTAAAGGGCGGGACCAGCTTTCCCGGCAAGCTAGCCATGAAGCTTGACCCAGATGTCCTTGAGCAGCTGGGCAAGGACTACGAGACCATTATCGTTACGGGGACCAACGGCAAGACCATGACCACGGCCCTCATCACCCAGACCTTGAAAGAAAAATACGGCGATATTTTGACCAACCCGTCCGGGTCCAACATGGCCCAGGGGATCGTAACTGCCTTTTTGGCCCATGGCCAGAAAAAAAGCAGCCGGAAACTAGCCGTTTTGGAAGTCGATGAAGCCAACGTCAAGGCCGTAACCCAGTTGGTCCACCCCAAGGCCTTTGTTCTGACCAACATTTTCAGAGACCAGATGGACCGCTACGGGGAGATCTACACGACCTATGAAAAGATCGTCGCCGGCATCAAGCTGGCGCCAGATGCAACCATCATCGCTAACGGGGACGCCAGCATCTTCTCTTCAGTCGACCTGCCGAATCCAAAAGTCTTTTTTGGCTTTGAAACTGACCAGGACAAACCGCAAAATGACCTCAAGGCTGACGTCAACACTGACGGGGTCCTCTGCCCTAAGTGCGAGCATATCCTGCACTACCACGCAATTTCCTATGCCAACCTGGGTGACTTCTTCTGCCCGAACTGCGGCTACAAGCGGCCGGATTTGACCTACAAGCTGGAAGAAATCAGCGAGCAGACCCCGAGCCGGATCAAGTTTACCATTGAAGGCAAGGAATTCGCCATCAACATCGGCGGCACCTACAATATCTACAATGCCCTGGCCGCCTTTGCCTGCGCCAGAGAATTCGGCGTTTCCGCCAATGAAATCGCGGCGGCTTTTGCTAAAAACAAGCGGATCTTCGGCCGCCAGGAACTGATTCACTACCAGGGCAAGCAGATCAACATCATCTTGGTCAAGAACCCGGTTGGCTTAAACGAGGTCCTCAGCCTCCTGGACACGGAAAAGGACCACTACAGCCTGGCTGCCCTCTTAAACGCCCACCACGCTGACGGCATCGACACCAGCTGGATCTGGGACGGGAACTTTGAAAGCCTGGACCGGGACAAGATCGACCAGGTCATCGTCGGCGGCGAACGGCACAAGGACATGGCCTTCCGCCTGGAAGTTGCCGGTTTTGACCCGGACAAGATGATCATTGAAAGCGACTTTGACCAGCTGTTGGCCGCTTTTGCAAAGGCGCCGACTGACAAGATCTACATTCTCTCAACCTACACGGCCATGCTGCACCTGCGGCAGGTCTTTGCCGACAAAGGCGTCTTGAAGAGAAGAATCAACTAG
>SRR1919932_00065 thymidine kinase
ATGGCACAGTTTTTTTTCGAATACGGAGCGATGGGCAGCGGCAAGACGATTGAAATCTTGAAGGTTGCCCACAACTACGAGATTCAAGGACGCAAGGTGGCTTTATTGACCAGCAGCGTTGACACCCGGTCCGGCCGCGGCGTGGTGGCTTCCCGGATCGGGCTCAGCCGCAGCGCCCAGCCGATTGAGCCGGACCTGGACCTCTTTGACTATATCACGGCTTTGAACCAGCAAGAGCAGGAGTCTGACGGCCACCCCTTAGCGGCGGTCTTGATCGATGAGGCCCAGTTCTTAAAAAAGGCCCAGGTCATCCAGTGTGCCCGGGTCGTGGACGACTTGCACATTCCGGTGATGGCCTTTGGCCTGAAGAATGATTTTCAGAACCATCTTTTTGAAGGCAGTGAGTATCTTTTGCTTTATGCTGATAAAATAGAAGAGATGAAGACAATTTGCCACTTTTGCGGGCACAAGGCAACCATGGCCCTGCGCTACAAGGACGGTTTGCCCGTCTATGAGGGCGAGCAGGTGCAGATTGGCGGCGACGAGGCTTACTACCCGGTCTGCCGCTTCCACTATTTCCACCCCGATCAGGCAAGAGACTAG
>SRR1919932_00066 peptide chain release factor 1
ATGGATAATGTAATGGCACAGCTGGAAAGCTTGGAAGTACGCTATGAAGAAATTCAGGAAATGATGGCCGACCCGGAAGTCATCGCTGATACCAAGCGCTACATGGAAATTACCAAGGAAGAAGCTGACATGCGGGAAGTCGTGCAGAAGTTCCGCAAGTTCAAGGCCGACAAGGAAGAAATTGCCGGCAACAAGGAAATCATCGCTGACGGTTCAGACCCTGAGCTGGTTGAAATGGCCAAGATGGAAAACTCTGAGCTGGAAGATGAAATCAGCCAGCTGGAAGATGAAATCAAGATCTTGATGCTGCCAAAGGACCCTAACGATGACAAGGACATCATCATGGAAATCCGGGGGGCAGCCGGCGGGGATGAAGCTTCCCTGTTCGCGGGCGACCTGCTGCGGATGTATGAAAAGTACGCGGAAAACCAGGGCTGGAACGTTTCTATCGTCGACAGCGAACAAACTGAAGTTGGCGGCTACAAGCGGGTGGCCATCATGATTACTGGTAACAAGGTCTACTCCAAGCTGAAATATGAAAACGGGGCCCACCGGGTGCAGCGGATCCCAGTAACTGAATCAGCCGGCCGGGTGCACACTTCAACTGCTACCGTTGCCGTCATGCCAGAATATGAACAGGTTGACATTGACCTTGATCCAAAGGAAATCCGGGTGGACGTCTACCGGTCATCCGGTGCGGGCGGTCAGCACATCAACAAGACTTCCAGTGCCGTCAGAATGACCCACTTGCCAACCGGTATCGTGGTTGCCATGCAGGACCAGCGGTCCCAGCAGCAAAACCGGGCCAAGGCTATGGAAATTTTGAAGTCCCGGGTTTACGACTACTACGAAAGCCAGAACCGGGACAAGTACGACGCCAAGCGGAAGAACGCGGTCGGCACCGGTGACCGGTCAGAAAGAATCAGAACCTACAACTACCCGCAAAACCGGGTGACTGACCACCGGATCGGCCTCACTTTGAACAAATTGGACCGGATCATGAACGGGGAACTGGACGAAGTCATCGATGCTTTGACGGTTTACTACCAAACCAAGCAATTAGAGGAGCTGGCAGAAAATGCATAA
>SRR1919932_00067 N5-glutamine S-adenosyl-L-methionine-dependent methyltransferase
ATGCATAAGAGTTTACGAGAAATGCGGATTGAGGCCAGTGAACTGGCTGAAAGCGCACGGAGCGAGGAAATCGACTTTCTTTTGGCTGAGCGGCTGGGCCTGACGCCAAGCCAGTTTCAGCTTAAGCAAGACATGGAATTGTCTGACGCTGAAGTCAAGCAGGCCAGAAAGGACATGAAGCACCTGGCTAAAGGGGACTCACCCCAGTATATCCTGGGCTATGCCTGGTTTTTAGGCTACCGCTTGCGGGTGGCCAAAGGCGTGCTTATTCCCCGCTTTGAAACTGAGGAACTGGTTGAATGGGCCCTAGCGCACTTACAAGACGGCGACACTGTCCTTGACCTGGGGACTGGGTCAGGCAATATTACGGTGGCCCTGGCCAAGGAAGCTGAAAGCAAGGGGATCAAGGACCTGCATTTTTACGCCAGTGACGTTAAGGACACCCCGCTCAGAATCAGTGAAGAGAACTTTTTGGACTACGGCCTGGACGTAACCACCCGCAAGGCCAATGTTTTGCTGGGCCTGGGCAAGTTTGACTTGATCATTTCCAACCCGCCTTATATCAAGCCTAGCGAGAAGAACGTGATGGACAAGGGCGTTCTGGCCAATGAGCCGGAAGAAGCCCTGTTTGGCGGCCAGGATGGACTGGCCTTTTACCGGAAGTTCGCTGAAGAAGTTAGAGACCACTTAAACTCGGGCGGCCGCTTCTTCATGGAATTCGGCTTTAGCGAGGAAGATGAGCTGAAGGCCCTGTTTGCCGAAAAATTGCCGGACTTTAAGGTGGAATTCCGCCGGGACATGGCCGGCAAGCCGCGGATGCTGTTTGGGGAGTGGAAGAAATAA
>SRR1919932_00068 translation factor Sua5
ATGGAAACCAAGATTTTTAAACGGGAACAATTGGATGAAGCAGTCAGCCTGCTTAGGGAAGGGGAATTAGTTGCCTTTCCGACTGAAACTGTCTATGGCCTGGGGGCTTTGGCCACCCGGGACGATTCAGTCAAAAAGGTCTACGCGGCCAAAGGCCGGCCTAGCGACAACCCCTTGATCGTGACCGTGGCTGACGAAGCCATGATGCGCCCTTACGCTAAGGAAGTGCCGGAGCGGGCGGAGAAGTTGATCAAGCACTTTTGGCCAGGTCCCTTGACCATCCTGCTTTTAGCTAAAGAAGGGGCCCTGCCGGAATCTGCAACCGGGGGCCTGCCAACGGTTGCCTTCCGCTGCCCGGATGACCAGCTAACTCATGACTTGATCGCCAAGCTTGGCTACCCGATCGTCGGGCCTTCCGCCAACACCTCGACTAAGCCGAGCCCAACCACGGCCCAGCACGTCTACCACGACTTAAAGGGCAAGATCGCTGGAATCGTTGATGGCGGCGAGACTGAAGTGGGCCTGGAATCAACCATCGTTGACCTGTCGGTTAACCCAGCAGTTGTTTTGCGGCCGGGCAAGATTACGCCAGAAGAGATCAGCCAGGTCTTGGGCGAAGAAGTTTTGATCAACCGGGGCCAGGTAAGTGACAAGGACGTGCCGAAGGCGCCAGGGATGAAATACCGCCACTACGCGCCAAGTGCCCAGGTTTACGTGGTCGACCAGGCGGAAACTTTTGCTAAGCTGGACCTGGATGTTTCCTGCGGGGTCATGGCAACTAGTGACCTTTTGGAAAACTTACCTGTACCTGAGGAAAATAAGTTCAATTTAGGCAAAAATCTGACGGAGGCTGACCACAACCTGTTTGCCGGCCTGCGCTATTTTGACGACCGGCCAGAAATTAAAAGTATTTATGTAGAGGGCTTTGACCAGGGTGAGGAAAGTCTGGCCTACATGAACCGTTTAAACAAGGCTGCCGGCGGTCATCATGTCTAA
>SRR1919932_00069 uracil phosphoribosyltransferase
ATGGGAAAGTTCACTGTGTTAAACCATCCATTGATTCAGCACAAGCTGACGATCATTCGCCGCAAGGAAACTGGATCAAATGAATTTCGGAGAATCGTTGGCGAAATCGCCGGTTTGATGACCTACGAAATCACCCGCGACCTGCCTTTGCAAGACGTTGAAATCGAAACGCCAATGGGCAAGACGGTGCAAAAGGAACTGGCCGGCAAGAAATTGACTATCGTGCCGATCCTGCGTGCTGGCATGGGCATGGTCAACGGGGTTTTGGAAATGATTCCGTCAGCCAAGGTCGGCGTCGTTGGCATGTACCGCGACGAAGAAACCTTGAAGCCGGTAGAATACTTCTTCAAGGTTCCTAAGGATGTTACTGAACGTGAATGCCTGGTCGTTGACCCGATGCTGGCTACTGGCGGTTCCGCCAACCTGGCCATCGAAGCTTTGAAGAAGCGGGGCGTGACCGACATTAAGCTGGCCGTCCTGGTTGCTGCGCCGGAAGGCGTCAAGGCGGTGCAAGATGAACACCCGGACGTTGACATTTACGCGGCTGCCCTTGACGACAAGCTGCTGCCAAACGGCTACATCTTCCCAGGTTTAGGGGATGCAGGTGACCGGATCTTTGGGACTAAATAA
>SRR1919932_00070 F0F1 ATP synthase subunit A
TTGGAGAAATCACTTGTCTTCAATATTAACGGTACCGGACTGAACGTCGACTTGGTCGGCATTATCGGTTCGACCTTGATGGCAATTGTGGTTTTTGCCATTTGTTACGCTCTTTCACGTAAAGTTGAAATGAAACCGAACAAGAAACAAAATGTCCTGGAATACCTGATCGATTTTACCGACGGGATTGTCAAGGATAACGTCGAAGACCCGGCTGCGCAAAAACATCTGTCTCTTTACGCCTTTGTTTTGTTCCTTTTCATCTTCTGCATGAATCAACTAGGGTTGTTCTTGGAAGTGAAAGTCGGTGACTATATGGTCATCAAATCACCAACTGCTGATCCAGTGACGACGATGTCGTTCGCGATGATGACCTTGCTTCTGTCATTTACCTTCGGGATTCAGAAATTTGGCACGAAGGGCTACCTGCAGAACTATGCACGTCCTGTCGGTTTTCTTTTGCCGATTAACATCATTGAAGAATTTACCAACTTCTTGACGTTATCGCTGCGTCTCTACGGTAATATCTTTGCGGGTGAAGTCCTGCTGACCCTGATCGGGAACCAGCTGGGGCCAAGCATGGGGATTGTAACCAGAATCCTGGCTGCGCCGCTCGCAATGATCTGGCAAGGTTTCTCTGTCTTCATTGGCTCTATCCAGGCGTATGTTTTTGTAACCCTTTCTATGGTTTATATTGGCAAGAAGGTTACACAAGAATAA
>SRR1919932_00071 F0F1 ATP synthase subunit C
ATGACTACAGGTTTAAAGGATTTAGCTGCTGCACTTGTTGCTGGTATTGCTGCTTTGGCTGCTTCATGGGGGAACGGTAAGGTTATCTCAAAGACGATCGAAAGCATCGCCCGCCAACCAGAAAGTGCTGGTAACTTGAGATCAACTATGTTTATCGGTGTTGGTTTGATCGAAGCCGTTCCAATCCTGGCTATCGTTATCGCTTTCTTGATTTTGTTCCTGTAA
>SRR1919932_00072 F0F1 ATP synthase subunit B
ATGGAATTTCAACCAGTATTCGCCGGCGCTGAAATCTCAATCATTGATACCCTTTGGTATTTAATAGTATTCAGTATCCTTTTGCTGGCCGTCAAGCATTATGCCTGGGGCCCGGTAAAGGACATGATGGAGAAGCGCCGTCAGAAAGTCATTGATGACTTGGATCAAGCTGCTAGCGACCGCAAGAAGGCTGAAACTTTGGCCAATGAACGGGAAGCAGCCTTGAAGAATTCAAGACAAGAAGCAACCCAGATCCTCTCTGTTGCCAAGAGTAATGCGCAAAAGACCGGCAAGCAAATCGTCAGCGAAGCCAAGGCTGAAGCTTCCGCTATCCGGGAAAAGGCCAAGGCTGATGCAGCGAAAGCTAAGACTGACGCCTTGAACGAAGCCCGCGAAGAAGTTGCTGATCTTTCTGTGACGATTGCGGAAAAGGTAATTGCTAAGAACTTATCTGCTGCTGATCAAAAAGATTTAGTTGATCAGTTCATTAAGGGGTTGAACGATTAA
>SRR1919932_00073 F0F1 ATP synthase subunit delta
ATGGCCTTAAGTAGAGAAGAAACGGCAAGACGCTACGGAACAGCGATCTTTGATTTTGCCAAAGACAGCGGCAAGACTGAGCTCATGTACAGCGAACTGACTGAATTGAAGAAGGCAGTTCAAGCAGAGCCCCGTTTTGTCCAGGTTCTGAGCAATCCTGTTTTGGACACCAAACAAAAGGAAAGTCTTTTGACGGCGGTTGAACAGGGCTTTTCTGCAGAGCTTCAAGAAGTTTTAAACTTCTTGCTTAGCTATGATCGTTTTGACAACTTGGTTGACATCATTGACTACTACATTCACCTGTACAATGCTGCCAACCACATCGGAACGGGTGTCGCTAAGACTGCATTGAAGCCAGATGAAGATCAGCTGCAGCGCCTTGCGGAGAGCTATGCCAAGAAATATGGCTTGCAGGCACTTCATCTTGAAAATGAAGTTGATCCAGAAATTATCGGCGGCGTGGTCCTTGAGGTTGAAGGCCGCGTGATCGATGGCTCAGTAAAGCATCGATTGGAGAAAATCCGCGCCATGTTAACAAAGTAA
>SRR1919932_00074 F0F1 ATP synthase subunit alpha
TTGAGCATTAAAGCGGAAGAAATCAGCTCTTTAATCAAGCAGCAACTTGAACACTACGACGATAAGCTGGACATCGAGGAAGTCGGTGTCGTAACTTACGTCGGCGATGGTATCGCCCGCGCTCACGGCTTGAACAATGTCTTGTCAAGTGAGCTTTTGCAGTTCGACAATGGTGCCTACGGTATCGCCCAAAACTTGGAAAGCAATGATGTCGGTATCATCATTCTGGGCAAGTTTGACGACATCCGTGAAGGCGACCGCGTGAAGCGAACTGGCCGGATTATGGAAGTTCCAGTTGGGGATGCTTTGATTGGCCGGGTTGTGAATCCACTTGGCCAGCCAGTTGACGGCTTAGGCGAAATCAAGACTGACAAGACTCGGCCAATCGAGTCAAAGGCGCCAGGCGTTATGCAGCGTCAGTCAGTTAACCAGCCTTTGCAAACTGGTATTAAGGCCATTGATGCGCTGGTGCCAATTGGCCGTGGTCAGCGTGAGCTGGTCATCGGTGACCGTAAGACTGGTAAGACCAGTTTAGCGATCGACACCATTTTGAACCAAAAAGGGCAGGACGTAATTTGTATTTACGTCTCAATTGGTCAAAAGGAATCAACTGTCAGAGCACAAGTTGAAACCTTGAAGAAGTTTGGGGCGATGGACTACACCATCGTGGTTGAAGCTGGTCCTTCAGAACCGGCACCAATGCTTTACATCGCGCCATATTCCGGGACCGCGATGGGGGAAGAATTCATGTACGCCGGCAAGGACGTCCTGGTTGTCTTTGACGACTTGTCCAAGCAGGCGGTTGCCTACCGTGAACTTTCCCTGCTGCTTCGCCGGCCACCTGGCCGTGAAGCCTACCCAGGTGACGTCTTCTATCTGCACTCACGTTTGTTGGAACGGAGTGCCAAGCTGAGCAAGGAACTGGGCGGCGGCTCATTGACTGCCCTGCCATTCATTCAGACTGAAGCCGGGGACATCTCCGCCTACATTCCAACCAACGTTATTTCCATCACTGACGGACAGATCTTCTTGCAAAGTGACCTGTTCTTCTCCGGTACGCGCCCAGCCATCGACGCCGGGGCTTCTGTTTCCCGTGTCGGCGGGGCCGCGCAGATCCCAGCCATGAAGAAGGTTGCTGGTACTTTGCGGACCGACCTGGCTTCATACCGGGAACTGGAAAGCTTTGCCCAGTTCGGCAGTGACCTGGACCAGGCAACGCAAGCCAAGCTGGCCCGCGGCCGGCGGACCGTCGAAGTATTGAAGCAGCCGCTGCACAAGCCGGTTGCCGTTGAAAAGCAGGTTGTCCTGCTTTACGCTTTGACCCATGGCTTTATGGACGCGGTGCCAGTCGATGATATTGCTCGCTTTGAACAAGAACTTTACACCGACTTTGACGCCAACCATGCTGATCTGTTAGCTGAAATCAAGTCAACTGGCAAATTGCCAGATGAAAACAAGCTTCAAGAAGCTCTTCAACAATTTGCATCCAGCTTTTCATCAAGTAACAAATAG
>SRR1919932_00075 F0F1 ATP synthase subunit gamma
ATGCCTGCATCTTTACTTGAATTGAAGAAGAGAATTGCTTCTGTCAAGCAAACGAGTAAGATTACTGAAGCCATGCACATGGTTTCAGCAGCTAAACTGAATCAGACTGAAAAAAGAGACAAGGGCTACCAGGAATACAACCTGCTGCTGCACCAAACCGTGTCCCGGCTGATGAGTGCCAGCGTGATCAACCACTTGAACAAGGCTAATTACCGCCTGACGCAAGACAACATTGACTCCATCGACTACGATGATGTCTTTGGGATGGGGATCATTTCTGACATGATCAAGCCCCGTGAGGAAGTTCACTCCGTGGGCTACCTGGTAGTTACTGGTGACCGTGGTCTGGTCGGCTCCTACAACAGCTCAGTCATCAAGCAGATGATGAGCCTGGTAGCTGACGACAAGCTGCAGGGCAGAGAGTCCAAGATCCTGTCAGTCGGCAGCGTTGGCTCCCAGTTCTTCAAGAAGAACAACCTGAACGTTGTCTACGAAAAAGACGGCGTTTCAGACGTGCCAACCTTCAAGGAAACCCTGCCAATCGTCTCAACGGCGATCAAGATGTACTTGAACGGCGTTTATGACGAACTGTATGTTTGCTACACCCACCACGTGAATTCTTTGTCCTCAGCCTTCCGGGCCGAAAAGATGCTGCCGATCGTCGACCTTGACATCGGAACCATGGAAGCCAAGGAAAGCAAGAAGATTGAATTCGAAGTTGCCCCTGACATTGACAGCGTTTTGGCAACGTTACTGCCGCAATTCGCGCGGGCGGAAATCTATGGCGCCATTTTGGACGCCAAGACCGCCGAACACGCAAGTTCAATGACGGCCATGAAGAATGCCACGGACAATGCCAAGGACCTTGTTTCTAGTCTTAGTTTGCAAATGAACCGTGCAAGACAAGCACAAATCACTACTGAATTGACTGAAATCGTCAGTGGTGCGAATGCACTTGAATAA
>SRR1919932_00076 F0F1 ATP synthase subunit beta
TTGAGTCAAGGTGAAATCGTTCAAGTAATCGGCCCTGTTGTCGACGTCAAGTTTCCAATTGGCAAAGACCTGCCAGACATCAACAATGCCTTGAAGGTCATCAAGTCAGACGACGACTCGATTATCCTTGAAGTTACTCTTGAACAAGGCGATGGCGTTTTGCGCTGCATCGCGATGGAATCTACCGATGGCCTTCGTCGTGGGATGAAGGTTGAAGATACTGGGAGCTCAATTTCCGTGCCAGTTGGTCCGGATACCTTGGGCCGGGTCTTCAACGTTTTAGGTCAACCGATTGATGGTGGTCCAGAATTTCCAGCTGACCACCCTCGCTCCGGGATCCACAAAGAAGCACCTAAGTATGATGAATTAACTACTAGCCGTGAAATCCTGGAAACCGGGATCAAAGTTATCGACTTGTTGGAACCATATCTTCGTGGTGGTAAGGTCGGTCTGTTCGGTGGTGCCGGGGTCGGCAAGACCACGATCATCCAGGAATTGATTCACAATATTGCCCAGGAACACAATGGTATTTCCGTCTTCACCGGTGTCGGGGAAAGAACCCGTGAAGGTAACGACCTTTACTTCGAAATGAAGGCATCTGGCGTTTTAGACAAGACCGCCATGGTCTTCGGGCAGATGAACGAGCCGCCTGGTGCCAGAATGCGGGTCGCTTTGACCGGTTTGACGATCGCTGAATACTTCAGAGACGTTGAAGGCCAGGACGTGCTGCTCTTCATCGACAACATCTTCCGGTTTACCCAGGCCGGTTCTGAAGTTTCCGCCTTGCTGGGCCGGATTCCTAGTGCCGTTGGTTACCAGCCAACTTTGGCAACGGAAATGGGTCAATTGCAAGAAAGAATCACTTCCACTAAGAAGGGGTCAATCACCTCTATCCAAGCCGTTTACGTTCCAGCCGACGACTACACTGACCCTGCGCCAGCGACTACTTTCGCCCACCTGGACGCGACGACCAACTTGGAACGTAGCCTGGTAGAACAAGGTATCTACCCGGCCGTTGACCCACTTGAATCAACTTCCAGTGCCCTGGACCCTGAAATTGTCGGCCAGGAACACTACGACGTTGCGACCCGAGTTCAGCACATCCTGCAACGTTACCGCGAACTGCAAGACATCATCTCCGTTTTGGGTATGGATGAATTGTCAGATGAAGAAAAGCTGATCGTTGCCCGGGCACGTAGGATTCAGTTCTTCCTGTCACAAAACTTCTTCGTTGCCGAAGTCTTTACCGGCGTTCCAGGCTCATACGTTCCAATCAAGGAAACGATCAAGGGCTTCAAGATGATCCTCGACGGCCATCTTGACGACTTGCCTGAAGATGCCTTCAGAGGCGTTGGCCCGATCGAAGACGTTTTGAAGAAGGCGCAAAAGATGGGGGTTACCCCAAGCGATCCGGAAGCAAAAGCCTTATTAGAAAAGTAG
>SRR1919932_00077 F0F1 ATP synthase subunit epsilon
ATGGCAGAAGCAGAGAAACTGTTTAAGATCAATATCGTTACGCCAAACGGGTTAATCTATTCTCACCGTGGCAGCTCCGTCTCAATGCGGGCGATTGACGGCGACCGGCAGATTTTGTACAACCACCTGCCGATTTTAACTCCGCTGACAATTGGTGAAGTCCGGGTTCAACGCGGCGCCGATGTCGACCACAAGGTTGATCACATCGCCGTCAGCGGGGGGATCATCGAATTCGCCAACAATGTGGCAACGATTATTGCTGACAACGCAGAACGCGCGCGCAACATTGACCTCAGTCGGGCTGAAGCTGCCAAGCAGCGGGCCGAGGCGCTCATCAAGGAAGCCAAGGAAAAGCACGACGAGCAGTTATTGGAGCGGGCTCAAATTGCTTTGCGGCGGGCTGTAAACCGGATTCACGTTTACGACGAGCTGCAGAAATAA
>SRR1919932_00078 membrane protein
ATGGTAGATTTTATTATGAGACAACTTGGAATTCACGCAATCATCAGCTTGGTGATCTACTTTGTTTGCATTGCCTTAGCCTTTCAGGCGATCAAAGCCGTCAGAATTGAGAAAATCATTCGGACCAGCCGGGTATTTGAAGCCCAGGTCTTCTTGATTTTTACGGCGATTGCCCTGGGCTATACGGTCGGCCAATTTTTGATCGCCTTGATAGATACTTCATTACAATTGTCTAACCTGTTTTAA
>SRR1919932_00079 rod shape-determining protein MreB
GTGTCAAAAGATATTGGTATTGATTTGGGGACCGCGAACGTTTTGATCAACGTTTCCGGCAAGGGCATTGTGATCGACGAGCCATCTGTTGTTGCCGTGGATACGAACACCAACAAGGTGGTCGCTGTCGGCACTGAAGCTTATGAAATGGTTGGCCGTACTCCTGGCAACATCCGCGTTATCCGGCCTTTGAAGGACGGGGTAATTGCTGATTTTGACATTACTGAAGCCATGCTGAGCTACTTTATTGAGAAGCTGAACGTCAAGGGCTTCATGAGCAAGCCGAACATTCTGGTCTGCGCCCCGACTGGCGTAACTTCAATTGAGCAAAAGGCCATCATCCAAGCCGCGGAAAAGTCAGGCGGCGGCAAGGTCTACCTGGACTATGAGCCAAAGGTAGCTGCCGTTGGTGCCGGCCTGGACATTTTCAAGCCGCAAGGTAACATGGTCATCGACATCGGCGGGGGGACGACTGACATCGCCATCCTGTCCATGGGCGAAATCGTGACTTCCAAGTCCCTGCGCTATGCCGGGGACCGGATGAACCAGGCCATCGTCAACTACATCAAGGCTAACCACCAGCTCTTGATCGGGATGCGGACGGCGGAAGCCATCAAGATTGAAATTGGTACCGCTACTGATCCAGACCCGGACGCAAGCATGAATGTCCGCGGCCGCGACACGATTGACGGCCTGCCAAAGCAGATCAAGGTAAACAGCTCTGAAGTAACTGAGGCCCTGCAAGAGGGCCTGCAAAGCATCATTGACACTACCAAGCAGGTTCTGCAGGAAACGCCGCCGGAATTGTCCGCTGACATCATCGACCGCGGGATTATGATCACCGGTGGTGGCGCCTTGCTGAAGAACATCGACAAGCTGATTGCCGACAGCCTGCAGGTTCCGGTTTTGATCGCTGAATCACCGCTTGAATCAGTTGCTTTGGGCACTGGCATCCTGCTGCAGCATATTGAAAAGCACGAACGTCACTAA
>SRR1919932_00080 hypothetical protein
ATGATTCTTCTAGTCCGCTTTTACCAGCGGGCAATCTCACCAATTTTGCCGGACAGCTGCCGTTTCTACCCGACCTGCTCCAGCTATATGATCACTGCTTTGGAAAAGCATGGTCCGCTTTTGGGACTGCTGATGGGCCTGGCAAGGATCCTGCGCTGCAATCCTTTTAACCGCGGCGGGGTGGATCCAGTACCGGACAAGTTTACCCTTTTGCGCAATCCCCACCCAGAAGAATATGAGGACGAAATTATTGCCAGAAAATTCCACAGTCACTAA
>SRR1919932_00081 hypothetical protein
ATGTCAAGAAATCAAGAAAACATCGGGATCGAGGTCAACGAACTGTCTGACCGCCGGGTACCGACTTGGGAAGTAGTCATTCCAAAGAAGCGCCAGATCGGCTTGATCGAGCAGGTTGACGGCAAGTTCCGGGTAACCAGCAGCAAGTCCAAGAACGTGATGTTTGCCAAGAGCCTTGATGCCGGCATCAACGATCTGCTGGCCTACTTCACCTTGCACGAAAAATAA
>SRR1919932_00082 rod shape-determining protein RodA
ATGGCAAAAGTTCAAGAAGAAAGCAAATGGTATGACCGCATCGCCTGGGGAGTTATCATTCCCGTGGTCTTGCTGTCATTCGTCAGTTTCTATTCAATTTACAACGCATCAGTCAATGACTCGACCTATGGGACGCCAACTAGAACAGTGGCCATGCAGATTGTCTGGTACACGGTTTCCTGGCTGATGGTGGCCTTCATCGTCCGCTTTGACGCCGAGCAGATCTTTAAGCTGGCCCCCTATCTGTATGGCTTGGGGATCCTCATGCTGGTCGCGGTCCTCTTCCTGTATGACCGGACAACGGCTGCCAGCAGCGGGGCCAAGAGCTGGTTCGTCGTCGGACCTGTCAGCTTCCAACCCTCAGAAGTCATGAAGCCGGCCTTTATATTGCAGCTGGCCCGGGTCGTCAGAGATCACAATGCGCGCTATGCCCACAACCTCAGAAATGACTGGCTCTTGATCGGCAAGGTCATGGCCTGGTTCCTGCCGGTGGCCATGTTGCTTATGCTGCAGCCTGACTTTGGGACCACCCTGGTCTTTGTCGCGATTACCGCGGGGATTCTCCTGGTTTCAGGGATTTCCTGGAAGATCATCATCCCGGTCTTTCTGCTCATGGTGGTCGTGGGTGTCGCTGTCATCCTCCTGGTCTTTACCAGTGAAGGGCAGACGATTCTGCGCCACTACTTCAAGACCTATCAGCTGGAAAGAATCAAGTCCTGGAGTGACCCGTCAGGGGACAACTCCAACAGCGCCTACCAGCTCTGGCAGAGCATGAAGGCGATCGGGTCCGGGCAGATTTTTGGCAATGGCTTTAACAATATCAAAGTCTACGTGCCAGTCCGGAACTCAGACATGATCTTCTCCGTGGTCGGCGAAAGCTTCGGCTTTGTCGGCGGGGTGGCCTTGATCGGAATTTACTTCGTCTTGATCGTGCAGATGGTCAAGATCACTTTCTCGACCAAGAACGCCTTCTATTCATATGTGTCCACAGGGATTATTATGATGATTTTGTTCCACGTCTTTGAAAATATCGGCATGAGCATTGATCTACTGCCCCTTACTGGGGTGCCCCTGCCATTTGTTTCACAGGGTGGGTCAGCCTTGATCGGGAATATGATCGGGATTGGCTTGATCCTCTCGATGAAGTGGCACAATAAGGACTACATGTTTAGCACGGCTGGCGACTTTTAA
>SRR1919932_00083 universal stress protein UspA
ATGACTAAACAATACCAATACAAACATATCCAAGTTGCCGTTGACGGTTCCAAGGAAGCTGACCTGGCTTTCAAGAAGGCCGTAACGGTTGCCAAGCACATGAACGCCAGCCTGGAAATTCTCCACGTTATCGATACGCGGTCCTTCCAGAACGTTTCCAGCTTTGACTCAGCCATGGTTGAGCAGGTTTCCAACGACGCCAAGAAGAAGATGGAAAAGTACTACCAGTCTGCCCAAGACAGCGGCGTCAAGGAAGTCCACTACTCCATCGAATTCGGCTCACCAAAGGTCATCATCAGCCGGGAATTCCCGAAGAAGCATGACATCGACCTGATCGTCGTCGGCGCGACCGGCTTGAACGCCGTTGAACGCCTGCTCATCGGCAGCGTGACTGAATACGTCACCAGAACTGCTGACTGCGACATCCTGGTCGTTCGGCACAACAAGGCTGGCTTGGACTAA
>SRR1919932_00084 hypothetical protein
ATGCTCTACATCCGTATTTTCATGATCATTTTTATCGCCTGCCTGCTGCTGACCGCCTGGTACCTCTGGCACCGGAGAAACGGCGCCTTCCTAGTCTTCGACGTCTCCAGCTCCCCGGAGCTCCATAGCTTGATGACCATCTGCTCGTGGACGCTACTGGCGATCAGCGTCTTGGGAATCGTCCTGCTCTTCTTTGACAACAAGTATCTCAACTTGATCACCCTCTTTTTAGGCTCAGCGGCGATTTTTATCTTCGCCCTCCTGCTTTCGCAAAACAATCAGTAA
>SRR1919932_00085 recombination factor protein RarA
ATGAAGCCCTTAGCCTACCGGATGCGGCCCCAGTCCATCGACCAGGTCGTCGGCCAGCAGCACCTGGTCGGCCCTAAGAAGATCATCCGCCGGATGGTTGAGGCCCGGCAGCTCTCGTCCATGATCCTGTACGGCCCGCCCGGCATTGGCAAGACCAGCATCGCCAGCGCGATTGCTGGCAGCAGCAAGTATGCCTTCCGCCAGCTCAACGCGGCGACTGACGGGCAAAAGGAACTCTCCCAGGTCGCCGCTGAAGGCAAGATGAGCGGGACAGTCGTTCTGCTGCTGGATGAAATTCACCGGCTCAACAAGGTCAAGCAGGACTTTCTTTTGCCGCTGCTTGAATCCGGCCAGGTGATTATGATCGGGGCAACCACGGAAAATCCCTACCTGGCCATCTCCCCGGCCATCCGGTCCCGCTGCCAGATTTTTGAACTGAAGCCGTTGACTGAGGAAGAGATCCTGACGGCTGTTGACCGGGCCCTAACCGATGAAGAAAGAGGTCTGGGCAAGTACCATGCCAAGCTGACGAAAGAAGCAGGAGAATTTTTGGCGCAAAAGGGCAACGGAGACCTGCGGGCCACTTTAAACAGCCTGGAGCTGGCAGTCCTGTCGACCAAGCAGGAACTGGAAGCTGAGGGCAAAGATGCCTTCTCCTTCACGGTCACCCTGGATGACATGGCGGATTCCTTGCAAATGAAGATCCAGAACTTTGACGCTGACGGGGACGGCCACTACGACCTCTTATCCGCCTTTCAAAAGTCCATCCGGGGCTCAGATACTGACGCGGGCCTGCACTACCTGGGCCGGCTGCTGGAATCAGGTGACCTGGTCTCAATCTGCCGCCGCCTCAGCGTGATTGCCTACGAAGACATCGGCCTGGCCAATCCCCCGGCCTGTGAGCGAGCTATTTTGGCCGTACAGGCGGCCCAGCAGCTGGGCCTGCCGGAAGCCCGGATCCCCCTGGCCAACGCTGTTATCGAGCTCTGCTTGTCTCCTAAGAGCAATTCTGCGATGACGGCCATTGACGCGGCTTTAGCCGACATCCGCCAAAGCAATGTCGGCCAGATTCCCGACCAGTTGAAAGACGCCCACTACAAGGGGGCCAGCAAGCTGGGCCACGGGACTGGCTACCTCTACCCCCACGACTATCCGGGCGACTGGGTGGCCCAGGCTTATCTGCCTGACCGCATGCAAGGCAAGCAGTATTTTGCCCCTAAGGGCGAGAGCAAATTTGAAGCGGCTTTTAAGAGCCAGTACCAGCGCCTGCATGACCTGCAGAAAGCAGGCCTTAACGGTAAATGA
>SRR1919932_00086 hypothetical protein
ATGACTGAAGATTTAGCCAAAAGAGTCGAAAACGCCGCGAATGGCATTACTCCGCAGACCAGGCCCGACGAGCGGCGGCGCTTTTTGGGTTCTTTAAGGGAGCGGGTTTTCGTGCGCATGACCATCAAGGACTGTGAAGACGCCAAGTTGACCAAACTCTTCATGGACCACTTTGCCGACTACAAGGGCTACACCATTTTGATCAACGCCAACACCCCCAACCCGACCTTTGTCGGCCAGATTGAAAGCCGGGCCAGCAAGGAGCAGGTTCCCTTCTGCCTGGTCAATGACGAAAGTGCCAGAAAAGGCGATGATGATTCTGCCATCCTGGTCGTTAGCAAGGAGGCCATCAACCGGATGCGGATCGAATTGACCCAGGTCTACGCCCCGCCCCTGCCGGCTGAGAAATTGCCTGCTCCAAAGAAAAAGGGCTTTTTGGCCAGATTCTTCGGGGGCAATAAATGA
>SRR1919932_00087 30S ribosomal protein S4
ATGTCAAGATACACTGGTCCAAGTTGGAAGCGGTCAAGAAGATTGGGTATTTCTTTGTCAGGCACTGGCAAGGAACTTGCTCGTCGTTCATACGTTCCAGGTCAACACGGTCCTAACCACCGCGGCCGTCTTTCAGAATACGGCATGCAATTGCACGAAAAGCAAAAGCTGCGCTGGATGTTCGGTTTGAGCGAACGCCAATTCCGTACTTTGTTTGCCCGCGCTGGTAAGATCCGTGAAGGCCAACACGGTACCAACTTCATGATCTTGCTTGAACGTCGTTTGGACAACGTTGTTTACCGTCTCGGCTTGGCTACTACCCGTGAACAAGCCCGTCAATTGGTAAACCACGGCCACATCACTGTTGATGGCAAGCGCGTTGACATTCCTTCATACGAAGTTAAGGTTGGTCAAACCATTAGCTTGAAGGAAAAGTCAAAGAACCTGCAACAAGTTAAGGACGCTTTGGAAGCTGTTGCTTCACGTCCATCATTTGTTTCATTTGACGAAGACAAGATGGAAGGTCAATTGGTTCGTTTCCCAGAACGTGACAAAATGGAACCAGAAATTGACGAAGCCCTGGTTGTTGAATACTACAACAAGTTGCTGTAG
>SRR1919932_00088 septation ring formation regulator EzrA
ATGTCATCAACACAATCTCTACTACTCATCACTTTAATTATCACGATCATCGTAGTGGTCATGGCTATGCTTTTGATCAACCGCCGGCAATTGCGCGATATTGAAGAGCTCGATAATGAGCTGGGCAATATGGAAGACCTGCACCTGGAGCGGGCGATTGGCAAGCTGGACCAAATGGAACTGGCTGGGGAAAGCCTGGCTACCCTCAATACCTGGAAGAAGAGCTACCAGAAGGCGGCTGAGCTTTTTCCGGAAATCCAGCACTTGATTGAAGACGGGGCGGACGAAAATGCCCGCTACCGCCTGGTCAAGTCCCACCAAAGCATTAAGCAGGCCAGAGAACTGGTTGACTCTGTTTCTGAAGATGTCAAGAATTCATCCGACGTCTTCACCCAGCTTTTGGAATCAAACCGGGAAAATAAGGCCCAATATGACGAATTGATGCAGAGCTACCGGGAAATCCGCAAGGAAATTCTGGCAGATTCCTTTGACTACAGCGTGGCCCTGGAAGAAATCGAAAACCGCCTGTCAGCCATGGAGGAAGATTTTGCCCAGGCCAAGAACCTGTCAGCCCAGGGCGACCATGTCGAGGCTAAGCGGGTCTTGTCAAAGATCCGGGCGGACCTCACGGCCTTAAAGACCAAGCTGCCAGAAGTTAAGGAGGATCAGCACGACCTGCAGACCGTTTTTGCTGACCAGCTGGATGAAATCGCGGCTGGCTATAAGGAAATGCGGGATGCCAAGTACGGCTTCGGCAGCCTGGACGTTCTGCTGGAAATCAGGCAAAGCAACGACCAGATCGACCGGTCCCTGGCGGCTTTGGCCCAGCTGGACTTAGAAGAGACCAGCAAGGGGATGAAGAAGGTTGAAAAGGAAATCAAGACCCTCTACAGAATCCTGGAGAAAGAATATAAGGCCCGGCCTTTTGTGGAAAAGAACCAGGACAAGCTGCAGCGGCTCTTGACCCACCAGCAGACCGTCAGCCAGCAGCTGATCAAGAAACTGCGTCATATCGACGAAAGCTATGAACTGACCCACGGGGAACTGGACGAAAGCCGGGAGCTTGAAAGAGAAGTCCACAAGATGGATTCTGACTACATCCGGGCCAGCCAGCGGATCGCTGACGGCCGGGCCGTCTACTCTGAAGTCCAGGACGACTGGATCAAGATCCTGGGCCGCCTGCAGGAGATCGGCAAGCGCCAGCAGGAATTGTCGGAAGCAGTTGACGGCCTCTATGAGGCGGAAGAAGTGGCTCAGCGGTCAATCAAGGAATTCAAGCAGCAGGTCTCTTTGGTTTACCGCCACCTCAGCCGGCAGAATCTGCCGGGGATTCCGGAAGGCTTTTTGCAAATGTACACCCTGGTCATTAATGAAATCAGCAAGACCAGCGGGGAGCTCAACCAGGTCCGGATCAACATGGAGAAGATCTCTGAAGAACTGGTGCAAATCTCAGATGACGTTGATCGCCTGCAAAGAGAAGCGGAAGACATTATCAGTTCAGCCAATCTTTTTGAACTGACCATGCAGTATTCCAACAAGTTCCTGGACAATGAAACTGTCGTCCGGGCCCGCAGAAATGCCATGAAGCTGTATGACCGGGACTACAACTACAAGGATGCCCTGGACACGATCGCCACGGCGGTGGAGCGGGCTGAGCCAGGCAGCTACCAGCGGATTGAAAATGCCTATTATCAAGAGCAAAAAGAACTTATTGATTGA
>SRR1919932_00089 cysteine desulfurase
GTGATTTATTTTGACAACAGTGCCACGACCAAGATGGCGCCTGAAGCATTAGAGACCTACAGCCAGGTGGTGACCAAGATCTGGGGCAACCCTTCCAGCCTGCACAAGCTGGGTGACCGGGCTCATGGCCTGCTGGAAGCTTCCCGCAAGCAGGTTGCAGACTTGCTGGGAGTAAATACCGACGAGATCTACTTTACTTCCGGCGGGACGGAATCCAACAACACGGCCATCAAGGGGACGGCCTGGGCCAAGCGGGAATTTGGCAAGCACATCATTACCTCATCCGTTGAGCATGCCTCAGTGGCTAATACTTTTACCGAACTGGAAAACCTGGGCTTCCGGGTTACCCGCCTGCCAGTTGACAAGGAAGGCCGGGTTAATCCGGAAGACTTGAAGGCGGCCCTGGACAAGGATACGACCTTGGTCTCCATCATGGGCGTCAATAACGAAATCGGGACTATCCAGCCGATCAAGGAAATTTCTGAAATCCTGGCAGACTACCCGAACATCCACTTCCATGTTGATAATGTCCAGGCTCTGGGCAAGGGGATCTGGGACCAGGTCTTCACCTCCCGGGTCGACATGATGAGCTTTTCTTCCCACAAGTTCCATGGCCCGCGCGGTATCGGCATTTTGTACAAAAAGCGCGGCCGGATGCTGATGCCTTTGTGTGAAGGCGGCGGCCAGGAGAAGGGCTTGAGAAGTGGGACGGAAAACCTGGCAGCCATCGCGGCCATGGCCAAGGCAGCCCGCTTGCTTTTGACGGACGAAAAGGAAAAGGCGGACAGAGAATACGCCATTAAGGAAAAGATCAGCAAGTACCTGGCAGGTAAGCCGGGCATCCATATCTTCTCTCCTTTGAAGGCGGACTTTGCCCCCCACATCCTCTGCTTTGCTTTAGAGGGGATCCGGGGCGAGACCCTGGTCCACACTTTGGAAGACCAGGACATCTACATTTCCACCACTTCTGCCTGCGCCTCAAAGAAGGCGGACGAAGCCAGCACTTTGGTGGCGATGAAGACGCCAGACGCGATCGCCACCAGTGCCGTCCGGCTCAGCTTTGACGAAAGCAATACTTTAGAAGAAGCAGACGAATTCATCGCGGCTTTTGACGAGATTTACCAGCACTTTGCCAAGATCAACCACTTAGGAGAATAA
>SRR1919932_00090 thiamine biosynthesis protein ThiI
TTGCAATACACAGAAATCATGATTCGCTACGGCGAACTGTCCACCAAGGGCAAGAACCGGAAGGACTTCATCAACCGTCTTGCCAGCAATGTCCAGAAGGTTTTGCACGACTTCCCGGATCTGAAGATCCAGACCCACCACGACCGGATGCACATCCTTTTGAACGGGACCCCTTTTGAGCCGGTCAATGACCGCTTAAAGGTCGTTTTCGGGATCCAGACCTATTCCCCAGTCATCAAGACTGAAAAGAGCCTGGAAGCCATTGAAAAAACTGCCCTGGAACTGATGCAGGCAACTTACAAGGCCGGCATGACCTTCAAGGTCAATACCAGAAGAAGCGACCACAAGTTTATCTACGACACTAACCAATTGAACCAAATGGTGGCTGACTACCTTTATAACCACATGGAAGGCCTGCAGGCGGAAATGAAGCACCCGGACATGGTCCTGCTTTTGGAAATCCGCCAGGACGGAGCCTACATCTCCAACCAGCTTCTGCATGGGGCAGGCGGGATGCCAGTTGGCACGGCCGGCAAGGCAGTGATGATGCTGTCCGGCGGGATCGACTCTCCGGTAGCTTCCTACCTGGCCATGAAGCGGGGCGTGAACATCGAAATGGTCCACTTCTTCTCACCGCCATACACTTCTGAAAAGGCCCTGGCCAAGGCCAAGGAACTGACCAGCATTCTGGCCAAGTACAGCGGCCGGATCAACTTCATCGAAGTACCTTTTGCTGAAATCCAGGAAACGATCAAGGAAAAGCTGCCTGAGGGCTACTTGATGACTGTTCAGCGCCGCTTCATGCTGCGTCTGGCCGATATTATCAGGGAAAAGCGGCACGCTTTGGCCATCTTCAACGGAGAATCAGTTGGCCAGGTGGCTTCCCAAACCTTGGAATCCATGGCAGCCATCAATGACGTGACGACCACTCCAGTATTGCGGCCGGTTGCCACCATGGACAAGACTGAAATCATCGCCAAGGCCGAAGAAATCGGGACCTTTGACCTGTCCATCCAGCCATTTGAAGACTGCTGCACCATCTTTGCCCCGCCGCGGCCAAAGACCAAGCCAAAGATCGACAAGGCCCGGGAATATGAAAGCCGCCTGGACGTTGACGGCTTGATTGAGCGGGCCTTAGCCGGGGTCAAGGTTACTCCGATCTACCCGGGCCAGAGCTTCCTTGACGACCTGGCTGAAGAAGACGCGGACCTGCTTTAA
>SRR1919932_00091 ribosomal small subunit pseudouridine synthase A
ATGCTGCGCCTGGACAAATTTTTGGCCAACATGAAGGTGGGCTCCAGGTCCCAGGTTCATGAGATCATTAAGGCCGGCCAGGTGACGGTCAACGGGAAGGTCTGCCGGTCAGCCAAGCAGAAGGTGAAAGAGGATGCGGAAGTTCTGGTTAATGGCCAGGCAGTTGTCTACCAGCAATACCACTACTTTTTGCTCAATAAGCCAGCTGGCGTCTTGTCGGCAACAGAAGACTCCCGGCAAAAGACCGTCCTGGACCTGCTAAAAGACCAGGACCGTTATCAAAAAATCGCTCCAGTGGGCCGCCTGGACAAGGACACGACCGGCCTCTTGCTTTTGACCAATGACGGCCAATTGGCCCACCAGCTCCTGGCTCCGGAGTACCATGTGCCTAAGACCTATTACGCGCTTTTGGCCGGAGTAGCCGACGAAGAAACGGCCAAGGCAATTGCGGCAGGCCTCACTTTAAAAGATGGAACGGAATTAAAGCCGGGCCAGCTGAAGATCTTGCGGCAAGACAAGGACCAGGAGCAGTCAGAAATCGAGATCACCATTACCGAAGGCAAATACCACCAGGTTAAGCGGATGTTTGCCTCCCAGGGGATGAAGGTCTTAAAGCTTAAGCGGCTGAGCATGGGACCTTTGACTTTGCCGGCTGATTTAGCTCCTGGCTCTTACCGGCCTTTGACAGAAGAAGAGCTGGCGGCCTTAAAGCAAGTTGCCCTTTAA
>SRR1919932_00092 valyl-tRNA synthetase
ATGACAGAATTAGCACCAAAATACAACCCGCAAGAGGTTGAAGCTGGCCGCTATCAAGAATGGCTGGACGAGGACTTGTTCAAGCCGTCCGGTGACAAGAAGGCCAAGCCTTACTCAATCGTTATCCCGCCGCCAAACGTTACTGGCAAGCTGCACCTGGGCCACGCCTGGGACACGGCAATTCAAGACACCTTGATCCGCTACAAGCGGATGCAGGGCTACGACACCCTTTACCTGCCAGGCATGGACCACGCCGGCATCGCCACCCAGGCCAAGGTTGAAGCACGCCTGCGTGAACAAGGGGTCAGCCGCTATGACCTGGGCCGGGAAAAGTTCATGGAAAAGGTCTGGGAATGGAAGGACGAATACGCCAACATCATCAAGAGCCAGTGGCAAAAGCTGGGTCTGTCCCTGGACTACAGCCGGGAACGCTTCACTCTTGACAAGGGCCTGTCCAAGGCTGTCCGCCGGGTTTTCGTTCAGCTCTATAATGAAGGCTTGATCTACCGGGGCGAATATATCATCAACTGGGACCCGAAGCTGCGGACGGCTTTGTCTGACATCGAAGTTGTCCACCAGGATGACCAAGGGGCCTTCTACCACATCAACTACCCGCTGGCTGACGGCTCTGGCAGCGTGGAAATTGCTACTACCCGGCCGGAAACCATGTTTGGTGACACGGCCGTGGCTGTTGCCCCAGGGGATGAACGCTACAAGGACCTGGTGGGCAAGAAGCTGATTCTGCCGCTGGTTGGCCGGGAAATCCCGATCATTGAAGACCAACACGTCGACCCGGAATTCGGGACCGGTTTGGTGAAGATCACTCCCGCCCACGACCCGAACGACTTTGAAGTCGGCAACCGGCATGACCTGCCGCGGATCAACGTGATGAACGATGACGGGACCATGAACGACAAGGCGGGCAAGTACGCCGGCATGGACCGCTTTGACTGCCGTAAGCAGCTGGTTGAAGACCTCAAGGCTGAAGGCTACTTGATCAAGGTTGAACCAATCGTTCACTCAGTTGGCCACTCTGAACGCTCCGGCGTGCAAGTTGAACCCCGCCTGTCCACCCAATGGTTCGTCAAGATGAAGCCACTGGCTGACAAGGTTTTGGAAAACCAAAAGGGTGAAGGCAGAGTTAACTTCGTGCCTGACCGCTTTGAAGGCACTTTGGAGCGGTGGATGGAAAACGTCCACGACTGGGTCATCTCCCGCCAGCTCTGGTGGGGCCACCGGATTCCTGCCTGGTACAACAAGCAGACCGGGGAAATGTACGTCGGTGAAGAAGCGCCAGCAGACATTGAAAACTGGGACCAGGACCAGGACGTTTTGGACACCTGGTTCTCCAGTGCCCTCTGGCCATTCTCAACTTTGGGCTGGCCGGATGAAGACTCAGCTGACTTCAAGCGCTACTTCCCAACCAACGCCCTGGTAACTGGCTACGACATCATCTTCTTCTGGGTTTCCCGGATGATCTTCCAAAGCTTGCACTTCACCGGCGAGCGGCCATTTGACAATGTCGTTTTGCACGGCTTGATCAGAGACGAGCAGGGGCGGAAGATGTCCAAGTCCCTGGGCAACGGGATCGACCCAATGGACATCATCGACAAGTACGGCGCTGACGCTTTGCGCTGGTTCCTGTTGAACGGGACCGCGCCTGGCCAGGACACCCGCTTCAGCTACACCAAGATGGACGCTGCCTGGAACTTTATCAACAAGCTCTGGAATGCCAGCCGTTTCGTCATCATGAACCTGCCGGAAGATGCCAAGCCAGCCCAAAAGCCGGATACCAGCAAGTTTGACCTGGCTGACGCCTGGATTTTTGACCGCTTGAACCACACCGTTAAGGAAACTAACCGCCTCTTTGACGAATTCCAATTCGGGGAAGCCGGCCGGGAAATGTACAACTTCATCTGGAACGACTTCTGTGACTGGTATATCGAAATCTCCAAGGTTGCCCTCTACGGCGACGACGCAGAACTGAAGGCCAGAAAGCAGGCCAACTTGACCTGGATTCTGGACCAGATTCTCCGCCTGATCCACCCAATCATGCCATTCGTGACGGAAAAGCTCTGGCTGTCCATGCCGCATGAAGGCAAGTCCATCATGACCGCTGCTTACCCGGAAGCCCACGCTGAATTCAACAATGCCAAGGCTAACGAAGACATGGCCTTCTTGATCGAAATCATCAAGGCTGTCCGGACCATCCGGATGGAAGTGAACGCTCCAATGTCCAGCGCCATCGACATCTTGATCCAGCTGGATGACGAAAAGAATGAAGCAATTCTGCGGGACAACATGGAATACGTGGAAAACTTCCTGCACCCGAAGAAGCTGGAAATCTCCGGCAAGATCAAGGCACCGAAGTTAGCCAAGACGGCTGTGATCGCCGGGGCCCAGATCTTCGTTCCACTGTCAGAACTGGTTGACCTGGACGAAGAAATCGCCAAGATGGGCAAGGAAGAAGCCCGCCTGGAAGCTGAAGTTGACCGGGCAAGCAAGAAGCTGGCCAACAAGGGCTTTGTTGACCACGCGCCAGCTGCCGTGGTTGAAAAGGAAAAGGGCAAGCTGGCCGAATATGAAAGCCAGCTGGCCGGCGTGCGCGACCGCATCAAGGAATTGAAAGAAAGTCGTTAA
>SRR1919932_00093 folylpolyglutamate synthase
GTGAAATTTAGGACAGTTAATGAACTTACCGCTTACCTCTATCATTTGCCGCGCTTGCACGAAAAGAGCGACCTGACCTATGTCAAAAGGGTGCTCAAGGCTCTGGGGGATCCCCAGGACAAGGTCAAGTGCTGCCACATTACTGGAACCAACGGCAAGGGCTCAACTGCATATTACCTGAGCAATCTGCTCCAAAAGGCCGGTCAGCAGACTGGCCTTTTTGTTTCGCCCTTTATCATCCGCTTTAACGAGCGGATCCAGCTGAACGGGCAGGCAATCGCGGATGAGGACCTGCTGGAAGTGGCAAATGAAGTTGAAGCCGCAGTCGGCCACTTGCGGGAAGAAGAGACAGATTTTGCCCTGGTGACCTTTGAATATGAAGTTGCCATGGCCTTCCTCTTTTTTGCCAAGCAAAAATGTGATTACGCGGTTATTGAAGTCGGCATCGGGGCCGAGCATGACAAGACCAATGTGATGACGCCAGTAGTCAGCTTGATTACCACTATCGGCCTTGACCATGAGCAGATCATCGGACCGACTTTGGCTGATATTGCCAAAGAAAAGAGCGGGATCATCAAGCCGGCTGTCCCGGTCATCCTCGGTGACATCCCAGCAAGCGTAAAGGGAATCGTTGAAGAAAAAATAACTGAATCAGCTAGTCCTTCTTACTGGCTGGGCCGGGACTTCCAGGTCAAGGAAGAAAAAGCAGGCTATGAGCTTGCAGTTGCCGGGCAAAATTACCAGTTGCCGGCCTGGCCCCTGCCAGAAGCTAAAGACGCGGCCATGGCCTTGGCGGCTTTTGCCCTTTTGCCGCTTGCTTTAAGTGAAAAGGCAGCTGAAGCTGCCTTAACCCAGACCACGGTTCCTGGCCGCTACCAACGCCTGGAAAAGGCGGGATGCAGCTTTTTATTGGACGGGGCCCACAATGTCCAGGCTGGAAGCGAACTTTTGCCATATGCCCGCCGCCTGGCCAAGGATAAAGGCGGCCGGCTTTTGGTCTTAGCTGGCATGATGAAGGACAAGGACTTGAGTGACTTTCTGACTCTGCTGAAAGATGAAAAAGTCACCTTGACCAGCCTGGCTTACCCGCGAGCAGCTAAAAAAGCTGACTTCCCGGCCTGGGTCCAGGAAAAATTTGTCTATGAGGGCGATTTGGGCCAGGCATTAAAGCAAGTGATGGCGGAAGCTGGAGACCGGGACTTGATCTTGGTTACGGGTTCATTTTACTTGGTCAGCGCGGTCTTGCAGCTTCTGCAGAGCGCCTGA
>SRR1919932_00094 beta-phosphoglucomutase
ATGCGTGTTGCAGGTTTAAAGATGGACAAGCAGGGGGTCATTTTTGACATGGACGGCCTCCTGGTCAACTCCGAAGAGCTCTACTGGCAGGCCAATATCCAGGCCGCCCGGGAATACAAGCTGGGCATCAGCGATGATGCTTACCTGGACCTGGTTGGAGCCAGCGTCAAGGCCATGGATGCCTTTTATGAAAAATATTTTCCAAACGATGAGGTCCGCCAGGCTTTTGTCAAGCGGACCGACGACCTGGTCTGGGAATGGACCGACCAGGGCAAGCTGAAGCTGAAGGCCGGGGTCAAGGAGGCTCTGGAGTACTTTAATGACCTGGGCTTAACCGTCGGGATCGCCAGCAACAACTATAAGAGCGTGGTTGACCACAATCTCTGGGTGACCGGCTGCCGGAACAGCTTTGACTTTATCGTTACCCATGACGAAGTTGCTGAGAAAAAGCTCCGGTCCAAGCCTTTCCCGGACCTCTATCTGGCTGCCCAAGAGCGCAGCGGCCTGGGTAAAGACCAGCTCTTGATCTTTGAAGACTCCAGCATGGGGGTCGAAGCGGCGGAAAATGCCGGGATTGACTGCGTCATGATTCCCGACATCAAGCCCGCTTCAGCCGAAGACCGGGCCAGAGCCCAGCTGATTTGCCCGGACTTTTTTGACTTTTTGAAAAAAATTTCTTAG
>SRR1919932_00095 DNA repair protein RadC
ATGACCGAAACTACGCAAAACTACTATTATGTTGAAAGTGACCGTGACCTGCTCAAGCTGCTCTTTGACCAGCTGCCCTGCCAGAGTCTGGAAGACCTGTTGCAGCTGCTGGATCAAAAGCACATTGCCAGCTTCAAGGACATCTTGGACTACGCGTCAGGACCGGACTGCCCCAATGACCTGGCCTTGACCATCGAGGTGGCCATGGACCGGTTGCGGCGGACTGACATGCGGCGCAGCTCTGACTGGGCCAGCAGCTCTAAGATTGGCAACTACCTGGCTAATAAACTGCTGGGGCAAAAGCAGGAGCAGTTCTGGGTCCTCTATTTTGACCAGCAGCAGAATCTCCTGGGGGAAAAAATGCTTTTCCAAGGCACCCTGGACCGGTCCTGGGTCCACCCCAGAGAAATCTTCCGCTGGGCGATGGTCTACGGCTGCGCCAGCATCATCGTGGCCCACAACCATCCCAGCGGGGCGCTGACCCCGTCAGACAATGACCTGGAATTGACCAAGGGCTTGAAAAAAGCCAGCAAGATCATGAAGATCACCTTTTTGGACCACTTCATCATCGGCGGGGGTGAATATTTGAGCCTGCGGGAGCGGGAATTGTTTTAA
>SRR1919932_00096 rod shape-determining protein MreB
GTGTTTGGATTAGGTTCAAAGAATATCGGTATTGACCTGGGTACCGCCAACACCCTGGTCTACGTTGAAGGCAAAGGCATCGTTTTGCGTGAACCTTCAGTTGTTGCCAAGAATACCAAGACTGGCGAAGTTATTGCAGTAGGTTCAGAAGCCAAGGAAATGATCGGCAGAACTCCAGGCTCAATCGTGGCTATCCGCCCGATGAAGGACGGGGTTATCGCTGACTATGACACGACCGCGGCCATGCTTAAGTACTTTATGGGCAAGACGGTCGGCAATTCCAAGCCTTCAGTCATGATCTGCGTGCCTTCAGGCGTTACTGAAGTTGAAAAGCGCGCTGTTATCGACGCTGCCCGGGTGGCAGGGGCCAGAGAAGCTTACGTGATTGAAGAACCATTCGCCGCAGCTATTGGTGCCGGTTTGCCGGTTATGGAACCAACTGGTTCCATGGTCGTTGACATCGGTGGTGGTACGACTGACGTAGCCACTATTTCCCTGGGCGGGATCGTTTCTTCAACTTCCATTCGCCAGGCTGGTGACAAGTTCAACCAAGCAATCACCAACTTTGTGCACGGCAAGTACAACCTGCTGATCGGTGAAAGAACCGCTGAAGACATCAAGATCCAAATCGGTTCAGCTTCTGTTGAAGCAGCCAAGGAAATCGAATCAATGACCATCCGCGGCCGGGACCTGGTGTCGGGCTTGCCGAAGTCATTGGAAATCAGTGCCGTTGACGTTGCAACTGCTATTCAAGACGTTGTTCAAGACATCATTGTTGCGATCAAGGAAACCTTGGAATTGACTTCTCCTGAAATTGCCGCAGACGTAATTGACCATGGTATCGTCCTGACCGGTGGTGGTGCCCTGCTCAAGAACTTGCCAGAAGTCATCTCTGACGCGACCAAGGTGCCTGTCTTCATCGCTCAAGATCCGCTTGACTGTGTAGCAATCGGTACCGGTGAATCTTTGAAGCACCTGGACGTAATGCGGAAGACTAGCAGATAA
>SRR1919932_00097 rod shape-determining protein MreC
ATGAAGAATTTTTTTCAAAACAGAAAAATGCTGGCGGCTTTCGGGACCGTGGCGGTTTTGGCAGCCCTGCTGGGCTCAACGGTGATGCTGAGAAACAACCTGAGCGCGCCGCTTTTGATCCAGCGCCTGGGCAATGACATCGTCTCCGTGGGCTCAAGAATCGTGAGCGTGCCGGTTTCCTGGTTTACTGATGGAATCGACAGCGTCAAGGACTTGCAGAACGCGGCTGATGAAAACAGTCACTTAAAAAATAAGGTGGCTGAGCTGGCCCAGGTCGAAGCCAGAAATGCTGCCCTGGAAAAGGAAAACAAGCAGCTGAAAGCTGCCGCTGGAATTAAAAAGACCTTGACCGGCTACACGACCACGACTGCTTCAGTAATTTCCCGCTCCAGCGACAGCTGGTCAGAAGTCTTGACCATTGACAAGGGCAAGAGCTCCGGCTTGAAGAAGGACATGGCGGTCATGTCCGGCGGCGGCGTGATTGGCCGGATCCTGGAAGTCGACGCGGCCACCAGCAAGGTAGAACTGATCACCACGACTGACAGCTCAGCCAACCGTTTTGCCGTGCAAGCCACGACAGACACGGGCAAGGTTTTGCACGGGATCATCAGCGTCCAGTCAAACGGCACTTTGACCTTTACCCAGGCCTCCAGCTCAAGCAAACTGAAGAAGGGAACCAAGGTCTACACCAGCGGCCTAGGCGGGACTTCACCGAAGGGGCTTTTGATCGGGACGGTGGCGGAAACCACCAAGGACAGCTTTGGCCTGTCTGACTTGATCAAGATCAAGCCGGCCGGCAATTTGAGCGACGCGTCCGTGGTAACGGTCGTCAAAAGGAGCGTGGCTGGCTAA
>SRR1919932_00098 rod shape-determining protein MreD
ATGCGGATTTTCAAGCAATGGGTTTTGGCCATCGCCCTTTACCTGGCTCTAGTTATGGAGGGGACCCTGTCCGTTTACCTGCAGCCGGCCTTGACTTACCAGCACGGCCGGGCGGGGCTCTTGCTCCTGCCAATCGCCGTTTTGATCATCGCCTATGAAGACGAAAGAAACGAGAAGGAAATCTGGCTGGCCCTGGCGGCCGGAGTAGTTGCCGACCTCTACTTCTGGGGGATCATCGGGATCTACACCTTTATCCTGCCGGCCCTGTCGGCTTTTGGCCGCTGGTATGCCCGGGTCTTTCCAGAACTCTTCGTTTTCCGCCTGCTGGGCAACATCGTGGCCATTACCGTCAGCTGCCTTTACACCTGGCTGGTTTTCCGTTTGATCGGCTGGACTGATTTGACCTTGAAGGCCATCGGCTTCAGCCTCTTATACACGGCCGGCTGGACGACCGGGATCAGCCTGGCAACTTACTGGCTTTGGGCCAAGCTGGCCAGATCTTATCCTTTCCTGGTTGACCTGGACAATTACCGGTATTAA
>SRR1919932_00099 hypothetical protein
ATGGCACGTAAAAAGAAAAAGTCAACATTTCAAAAGATTGAGAATTTCATGGTAGTCTTGATGGCTTTGATCACGCTCTTTGGCGTGGCAGCCTCTGTTCTTTACTACTTAACTGCCCAATAA
>SRR1919932_00100 hypothetical protein
ATGCTGATGATATTCTTATTGCCGGCCTTTGGCCTGGCTTGCGCCTACCTGGTCAACCTGATCTGGCCTAAAGCCGCCTTTAAAGGCTATGATGTCATGCCTTTCTTTTTGATCTACGCCTGCCAGCTGATGACCAACTTAAAGGGCGTGCCATCCTTTTTACCGGCCGGCTTTTTGCTTTACTTCATATTGATATTGCTGGCCGCTATCAGATGGGCCATGATCAACAAGAACATTTCCTTAGGGAAGATGTTCCGCCAGTTCTGGTCCTACCTGGATGCCTGCAGTTTCTTTTGGTATTGCGGATTGCTTTTGGTCGTTATGATCTGA
>SRR1919932_00101 cell division protein MraZ
ATGTTCATGGGCGAATACCAGCACAATTTGGACGCCAAAGGCCGTTTGATTATCCCGGCCAAGCTGCGTGAACAGATTGGGCCAGCCATGGTTTTGACCCGGGGCATGGAAGGCTGCATTTTTGGCTATCCTTTGACGGAATGGGCCAAGATCGAGGCCAAACTGGCCAAGCTTCCCTTGACGAAGAAGAACGCGCGGAGTTTTACCCGGATGTTTTATTCCGGCGCTATGGAAGGCGAATTCGACAAGCAGGGGAGAATCAATTTGTCCCCCACCTTGAAGAAGCACGCCGGCCTGGTCAAGGAATGCGTCATTGTCGGCGTCTCCAACCGGATTGAAATCTGGGCTAAGGAGCGCTGGGAAGAGTATTCTGACGAAGCCAACGAAAGTTATGATGAAATTGCGGAAGATTTGGACGATATCGAGTTATAA
>SRR1919932_00102 16S rRNA (cytosine(1402)-N(4))-methyltransferase
ATGGAATTTAAGCATACTAGCGTGTTATTGCACGAAACAATCGACAACCTGGCCCCGCAAAGCGGCGGCACATATGTGGATGCCACCTTCGGTGGGGGCGGGCATGCAAGATACCTGCTTAGTAAGCTGGACAAAGGAAATCTAATCGGTTTCGACCAGGACCAGTACGCGATTGACACCGCCCAGAGCAATTTTGCTGCCTTTTTAAAAGAAGACAGCCAGCCCCGCCTGCAGCTGGTCCACAACAACTTCAGCCACTTAAAAGAGGAGCTGGCCAAGCTGGGGATTAGCGGCATTGACGGCATCTACTACGACTTGGGTGTTTCATCTCCGCAATTGGACCAGGCTGAACGCGGTTTTTCCTACCGTTTTGACGCAAGGCTGGACATGCGGATGGACCAGAGCCAGGACTTTGATGCTTACCAGCTGGTCAACCAGTATGACCAAAAGCAGCTGGCTGACGTCCTTTACCGCTACGGCGATGAGAAGTTTTCCCGGCAGATCGCCAGAAAGATCGTTGAAAGAAGACGGGCCAAGCCGATTGAAACTACTTTTGAGTTAGTGGAGATCATTAAGGAAGCAATTCCGGCAGCAGCCCGCCGCAGCGGCGGGCACCCGGCCAAGAAGAGCTTCCAGGCCATCCGGGTGGAAGTCAACCACGAGCTGGACGTTTTGCGGGCATCTTTGGAAGAAGCCATCAGCCTGCTCAATCCCGGCGGCCGGATCTCCGTCATCACCTTCCAGTCTTTGGAAGACAAGATCGTCAAGCAGACCTTCAAGAAGTATTCAGAAGTTGAAATTCCCCGCGGGATGCCGGTTGTGCCCGAGGGGATCAAGCCAACTTTACGCCTGGTCAACCGCAAGCCGATTACGGCCAGCGAGGAAGAACTGGCGGAAAACAACCGATCACACAGTGCAAAGTTAAGAGTAGCAGAGAAGTTATAA
>SRR1919932_00103 cell division protein FtsL
ATGGCTGGAAACACAGTTAGAAAATACAATTACGAACCAGAAGAGGAAGCCCGGAAAAGTCCTCGTTTGGTGGTTGATCCGCAGAAGGTGCCATACTCAGCTTTTGAAAAGCTGCTGGCAGTCTTGGGCCTGCTTGGGGCAGTTGCCTTGATTACCTTGAACGTGTCGGCTAGTGTTTCGGCGACTTACGCCCAGCGGCAGCTGACCAACGTCAAGGAATCAATTACCAAGCAAAAGAACGCAACAGCTGACTTGCAGCAGGAAATCGGTGAGCTGTCATCAAATACCCGCCTGAACAAGATCGCCCAAAGTCAAGGACTGAAGTTGCGTGAAAATAACATTAGGACAATTCGCTAA
>SRR1919932_00104 penicillin-binding protein 2B
ATGAAGAAGACCACTAATTTAAGAAAAATAAAATCCAGAGCACACGGCTATCGCTTTACAGTTGGGAGAATTCTAGAGCTAGTCGTTGCTTTGGTTTTTCTTTTTTTTGCCGGCCGCATGCTTTATTTGTCGATTTCAAAAACGATTGATGGCCAGGACATCAGCAAGAGAACTGCCGCGATCTACCGCCGCAACACCGTATTGACCGCTAACCGGGGCACGATTTATGACAAGAACGGCTTGATCATTGCCCAGGATTCCCACACCTACACGGTCTACGCGATTTTGGACAAGACTTATGTTGACTCTAATAAGAAACCACTCTATGTTCAAGACAAGGAGAAAACGGCCGATAAGCTGGCCACGGTTTTGCCCCTTTCCAAGGCAAAAATCCTCAAGTATCTGAACCCGAAAAATAAAAACACCTTCCAGGTTCAGTTCGGGACAGCCGGGTCCGGTTTAACCTTGACTGAGAAAAAGAAGATCCAGGCCATGCACCTGACCGGGATTAAGTTCATGGAAACGCCGTCGCGCCTGTATCCAAACGGGGTTTTCGCTTCTAACGTGGTCGGCTATACGGTTTCTCAAACCAATTCCAAGACGCAGACGACGGAACTGGAAGGGGTGACCGGGCTTGAAGCCTACTTCAACAAGATCCTCAAGGGGACCAACGGCTATGAGACCAGCATGGTCGACTCTTCAGAAAACCAGCTGCCAAGCGGATCCCACTCCTATAAGGCGGCTAAAGACGGGGACAATCTATATTTGACGATTGACTCCCAGCTCCAAAGCGCCCTGGAAACCTATATGAGCAAGGTGCAGAAGAACTACAAGCCGAAAGCTATGACAGCGGTCATTGAGGACTTGAAGACAGGGAAGATCCTGGCAGCCTCCCAGCGGCCGACCTTCAACTCTCAGACCAAGGCTGGAATCAGCAAGGCCGGCAGCAACCTCCTGGTCCAGTCCATCTATGAGCCGGGTTCTGTTTTCAAGATCCTGTCTCTGGCCGCCGCGGTCAACAGCGGCAACTACAACCCTAAGTCCTACTACCGGTCAGGGTCAATTACCGTTTCCGGCTCCACTATCTATGACTGGCAGAAGTCCGGCTGGGGGACGATCCCGTTCTCCCAGGCCTTCCCGCGCTCCAGCAATGTCGGGATGGTCTACCTGGAAAAGAAGATCGGGGCCAAGCTCTGGCGCAAGTACCTCAATATGTTCCGCATCACCCACAAGACCGGGATTACCCTGCCAGGTGAAGTTTCCGGCAGCTTGTCCTTCTCAAGTCCGGTTGACCAGGCGGTAACTTCCTTTGGCCAAGGGGTCACGGTCAATGTCATGCAGATGATGCAGGTTTACAGTGCCCTGGCCAACAACGGGCAGATGGTTAAGCCGCAACTGGTGGAAAAAATCACCGATTCTTCGGGCAAGACAATCAAGAGCTACAAGGTCCAGAAGGTTGGCAAGAAGATTTTTACTGCCCAGACCAGAAAAGTGGTCATGCAGAACATGAAGAAGGTTTTGGACAAGGAAATCGGGACCGGCCACATCTACTACATGAAGGGCAAGGACTTCGGGATCAAGACCGGGACGGCTCAGATTGCCAAGTCAACCGGCGGCTACATGACCGGGGACCGGGACTATGTCTTCTCAGTCGTGGGGATTACCCCAACTAACAATCCCCGCTACTGCATCTATTTGACCATGAAGCAGCCAAGCAAGCTGGGCAGCGGGGCCGAAACCATCCTGGCCCAGATCTTTAAGCCGATGATGAGCCGGCTGGTTCTTTTGAACAAGGGGGACAAGTCAGCTTCGGCCGTGGTCAAGGTGCCGAAGTTTACCGGCATGACCTATGCCAAGGCGAAAAAGACCGCGACCTCAAATGGTCTTTCCCTGGTCCGCCTGGGGACTGGTTCCAAGGTCCTCAGCCAAAAGGCAGGGGCCGGTGAAACGGTATCCGTTGGCAGCACCGTCTTTGCCTTGACTAGCGGCAAGATCAGCCTGCCGGATTTGACCGGCTGGAGTGAAAGCCAGATTGAGGCCTACGCCTCCCTGGCCGGCATCAAGCTGCAGCTGTCAGGCAGCGGCAAGGTCAAGTCACAGAGCCTGGCCCAGGGGACGGTAGTTAAATCAGGGACGAAATTGAAAGTAGAGTTAAAGGAGTAA
>SRR1919932_00105 phospho-N-acetylmuramoyl-pentapeptide transferase
ATGCAAGCAAGTTTGATTGCTTTTATGATTTCACTGGTACTGAGCGCCTTGCTTTTGCCATGGCTGATCATCTGGATGAGAAGCCACGACGAAGGCCAGCAGATCCGGGATGAAGGGCCGAAATGGCATGAAAAGAAGTCGGGGACCCCGACCATGGGGGGCACGGTCTTCGTGCTTTCAGCCGCGGTCGCAACGGTTGCCATCTGTGCTTACAAGGGCCAGCTGTCTAAGACAGTCTGGATTTTGTTAGTTGCCCTTTTGGGCTACGGGATCATCGGCTTTTTGGATGACGGCTTGAAGCTCTTTTTCAAGCGGAACCTGGGCCTGAGAGCCTGGCAAAAAATGGCCCTGCAGCTGCTCGTCGCTGCTGCTGGTATCGTTTTGCTGGCGGCCAGTGACAACTTTGACTTCGCTCTTTACCTGCCTTTTGCCGGGGTGGTCAAGAACGTGGCCCTCTTTACCTTGTTTGAAGTCTTCTGGCTGGTTGGCTTTTCAAATGCCGTCAACCTGTCTGATGGTCTGGACGGCCTGGCAACCGGTCTGTCTTTTATCGCTTACGGCACTTACGCCTGGCTGGCCTTTAAGAGCCAGAACTTCGGCGTTCTGGTCTTCTGTATGGCGGTAATGGGGGGCCTGGCAGCCTTCTTCATGTTCAACCACAAGCCGGCCAAGATTTTCATGGGGGATGCCGGTTCCCTGGCCCTCGGGGGCGGTTTGGCGGCAGTCAGCATCTTCTTGGGCCGGCCATGGTCCTTGCTGTTGGTCGGGATTGTCTTTGTCTGCGAAACGGCCAGCGTTATCTTGCAGGTTGCCTCATTTAAGACGACTGGCAAGCGGATTTTTAAGATGACGCCAATCCACCACCACTTCGAAATGCTGGGCTGGTCTGAATGGAAGGTCGACCTGGTCTTCTGGCTGGTCGGTCTGGTTGGCAGCGGAATTTACTTGATGATTTGGGGATAA
>SRR1919932_00106 UDP-N-acetylmuramoylalanine--D-glutamate ligase
ATGAAAGAAATCGATAAATATGCTGGTAAAAACATTCTTGTTTTAGGTCTGGGCCGGAGCGGCTTCGCGGTCAGCAAGCTGCTCCTTAAGCTGGGCGCGCGTTTGACTTTAAATGACAAGGCCGACCTGGCTGCTGACCCGAAGGCTAAGCAGTTAGCTGACCTGGGCGTCAGAGTAATTGGCGGCAGCCACCCGGTTGACCTGTTTGACCAGGAAAAGTTTGACTACCTGGTTAAAAACCCCGGCATCCCTTACGAGAACCCGATGGTGGCTAAGGCCAGCGAAAAAGGGGTTCCGATCATCACTGAACCTGAAGTTGCTTTAAGCGCCAGTGAGTCGCCTTATGTCTGCGTCACTGGTTCAAACGGCAAGACCACCACGGTCATGCTGACCCAGCAGATCATGGATCACTACCTGCAAAAGCAGGGCCACCACGCTTACGCGGTCGGCAACATCGGCTGGCCGATTTCTGAAGTAGTTTTAAACCAGGCCGGCCCAGACGACCTGCTGGTCGTGGAAATGTCCAGCTTCCAGCTGATGGGGGTAACCGACATTGAGCCAAAGGTAGCCGCCATCGTTGACATCTATAACAATGTCCACCTGGACTACCACAAGACTTTTGATAACTATGTTGACGCCAAGCTGAACGTTGGCCGCTTCCAAAAGGCCAGCGACTACTTCCTGGCCAACTTTGACCAAAAGGATATCCTGACTAGAGAAGAAAAGGCAACTAAGGCCAAGATTCTGACCTTCAGTGAAAATGATCCAGCTGCAGACTTCTACATTGGCCAGGACTACTTGATGCATGGCGAAGAAAAGATGATGAAGATTGCCGACATCAAGCTGCCGGGGATCCACAATCTGCAAAACTCCCTGGTTGCCATCGGCATCAGCAGCCTGATGGGGGCGGGCAAGGACGACATCGCGGCCGTTTTGTCCACCTTCACCGGGGCTGAACACCGCCTGCAGTACGTGACCACCCTTGACGGGGTCAAGGTCTACAATGACTCCAAGTCAACCAACATTGAAGCAGCCACCGTGGCCATCCAGTCCTTCAAGCAGCCGGAAGTCCTTTTGGCCGGGGGCCTGGACCGGGGCTTTCTCTTTGACTCCCTGGTTGATCTGTTTAAAAAGCACGTCAAGGCCATCGTAACTTACGGGGAAACCCGTTACCTGCTGGCGGACGCGGCCAGAAAGGCCGGAATCAAGACCATCGTGGTTGTTGACAACCTGCATGAAGGGGTTAAGGCAGCATCCAAGCTGGCTGAAGCCGGCGACGTCCTGCTCTTTTCACCGGCCTGCGCTTCCTGGGACCAGTTCAAGACCTTTGAAGAACGCGGCGAATATTTTGTCAAGTATGTAAAAGAATTGGAAGAGAAATAA
>SRR1919932_00107 UDP-N-acetylglucosamine--N-acetylmuramyl- (pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase
ATGAGAGTTATTTTTTCTGGTGGCGGCACTGGGGGCCACATTTATCCCATCATGGCCTTGATTGAACGCCTGAAGGAAGAAGGCATTTGCCAAGACGATGAGATTTTGTTCGTCGGCACCAAGAAGGGGCTGGAATCCAAGATCGTGCCTGCCGCCGGGGTCAACTTTAAGACCATCGACATCCAAGGCTTTGACAGAAAGCACCTGTTGAACAATGTTAAGACCATCCAGCTCTTTTTAAAGGCGACTAAGCGGGCCAAGGAAATTTTGGCTGACTTTCAGCCGGACGTTGTCCTGGGCACTGGCGGCTACGTCAGCGGGGCGATTGTCTACGAAGCCAGCAAGATGAAGATTCCGACCATGATCCACGAGTCCAACTCCGTGGTCGGGGTGGCCAACAAGTTCTTAGGCCACTACGTGGACAAGATCTGCTATACTTTTGACGACGCGGCCAAGGAATTTCCGGAAAAAAAGAAGCTGGTCAAGACCGGCAACCCGCGTTCCCAGCAGGTTTTGAGCTTAAATGCCAAGCCAGTTGACCTGGCAGGCGATTTGGGCCTTAACCCCCAGATTCCGACTGTCCTGGTCTTCGGGGGTTCCCGGGGCGCCTTGGCCATCAACCGGGTCATGCTCAAGTCTTTGATGGAGCTGAAGAAGAAGCCTTACCAAGTGATCTGGGCAACCGGGACTTACTACTATGACGCGATTGAGAAAAAGCTGGCTGATGTTGACTACGGCGACTCCATCAAGGTCGTGCCGTATATCGCCAACATGCCGGGCCTTTTGCCGGAAATGACCTGCGTTGTTTCCCGGTCCGGGGCAACCAGCCTGGCTGAGTTCACGGCCTTGGGCGTGCCAGTCATCTTGATTCCCAGTCCTAACGTGACCCACAACCACCAGATGAAGAATGCCATGGACCTGGAAAAGGCCGGGGCGGCTTTGGTGATTGCGGAAGATGATCTGAACGAAAACACCTTCGTGTCCTCCATCGACCACCTGCTTTTGGACCATAGCTATGCCGAAAAAATGCGGCAGGCTTCCAAGGCCTTGGGCGTGCCCGATGCATCTGACCAGGTCATCAAGGTCATGAAGGAAATTGCCAAGAAGAACTGA
>SRR1919932_00108 cell division protein FtsQ
ATGGCTCGCAAACGGATAACCCGCAGAGACCCAGAAGAGGAGCTCTCTAAATTCTTACGCCACGAACCTGGCCGGGGGCAGGAAACACGCAAATTGTCGAGCCAGCTTACTTCGCTTAAGAAAGAACGCCGGCGGGGCCTGCTTACCCGGCTGGGTTCGATCATGGCCGTCTGCCTTTTGGCTATCGCTTTTTTAACCTACTACGTCTCGCCTTTAGCCGACGTATCAACGGTCAGGGTGCTCGGAGCTGATGACCTGGATGGCAAAAGCATGGTTGAAGTAGCCCAGATCAAGGCTTCTGACAAGGTCGTTGATGCCTTGCGGGGGCAAAAGAAGATCAGCAAGAAGCTGGCCGCTAAATACCCTGAAGTGGCTTCGGTCACTTTATCGGTCAAGGGGCTGAACACCTTGAACATGCAGGTGCATGAGCGGAAAGTGATCGGCTATATTAAAGACGGGTTCAGCTACCGGAAAATTCTCGCCAACGGGGAACTGGGCACCAAGAGCCTGGCCTGGAGCGAGGTCGACCATGACAAGCCGCTTTTTATCGGCTACAGCAAGCAGGTGGCCTTGAAGACCAACCTTAAAATTTTTAACTCTTTTCCTGAATATTTCAAAAAGCAGATCAAGATGCTGTCTGGCAATACCAGGCGCAAAACCCAGATGATTCTGGTCATGAAAGATGGCAATGTGATAATCGGCAACACTGAGACGATAAAATCCAAGGTTAAGTACTATAACTCGATTAAACAGGATTTGACAACCAACAGTGTCATTGACATGGAAGTCGGTGCCTTCACCCGCCCTTTGACTAGCGCGGAAAAAAATGCTTACGGCTTGTCTTAA
>SRR1919932_00109 cell division protein FtsA
ATGCTTACGGCTTGTCTTAATTTTGTATCTTTAAAGAATTATGATATTATCTATATATTAGAATTGGGGGAAGGAAACTTGGATAATTCAACTTTGTTAGTTGGTTTGGACATTGGGACCACGAGCATCAAAGTCGTTGTTGCCGACGCCGCTCATCAAGAGCTGCAGGTTTACGGGGCAGTTGCCGCTCCTACGCGGGGGATGCGGCATGGCAAGATCGTTGATATCGATCAAGTTGCTGAATCTGTCAAAAACGCTATCCAGCAGGTCAGCGAGAAGACCAATAGTAAGATCAACAGGGTAGTGACTGCCTTGCCAGTCAGCATGCTGCAGCTGGAAAGTACAACCGGCCTGGTCAATATTTCCGATTCCGGCAAGGAAGTCGCTAATGAAGACGTCCAGCGGGTCATGTACGCGGCTATCAAGGCTGCCAAGAAAAAGGACCGGCAGGCAGTGGCCTTCTTCCCCAGCCGCTTTTTGATCGACGGGGAAAAGGACGTTGACGACCCGCGGACCATGATTGCCCGCTCCCTTCTCGTCCAGGGGCTGGTAATGACGGCGCCGTCAGCGGAGATTCACAACATCAACACGGTCTTAAAGCACGCTGACATCCAGAACAACTTCTTTGTTCCGGCACCGATGGCTGTTTCCAGCGTAGCCCTGGATGAGGCAGAGAGAACCTTCGGGGCAATTCTGCTGGACATGGGCGGCGGCAGCACGACCGCCACGGTCATCCGCGATGGCCAGATCAAGTACGCTACCGTCGACTTGAAGGGGGCGGCCGACATTACCCACGACATTTCCGTGGTTTTGTCAACGACAATGAGCGATGCTGAAGCTTTGAAGCGGGATTATGGGTATGCCGACCCGGACCTGGCTTCAGAAAATGAAAAATTTGCGGTCAAGGCTGTAGGCAAGGACGAAAACAACCTGGTCAGCGAGAAGTATCTCAGTGAGATCATCAATGCCCGTCTGCAGCAGATCCTGCGCCGGGTGGGCCGGGGCCTTTACAACCATGATGCCCTGTCTTTGCCGGCCGGGGTTATTATTACCGGGGGCAGCGCTCTTTTGGCCGGGATTGACGACCTGGTAGCGGCTGACTATGACGTTAAGGCCAAGATCTACCAGTCAGCCCAGATTGGCCTGCGCAATCCGGTTTATTCAGTGGCCTACGGGATCGTCAACTATGCCAACAACCTGAACGATATCGGCTACCTGGCCAACACCGTGATTTATCAAGATTCAGCTCTTGCTTCAAACGAGCGGCCGGCCAGTGCCGGAAATAGTCAAAAAAATGCTAAAAGAGTGACGCGGAAAGCTGAAAATGACACTGAATTAGCTTATAATAAGACTAAGCTTGATGGGGAAGTAGACACTGAAACCCGGCATGAAGAAAAGACTAATAATAACGAAAATAAAAACAAGGGCTTAGCTGCATTTCTCAGAAAGTTCTTTGATTAA
>SRR1919932_00110 cell division protein FtsZ
ATGGCTTTGGATTTTACTTTTGATTCAGATGACAACAACAACGCAGTTATCAAAGTAATTGGCGTTGGCGGGGCAGGCGGCAATGCCGTCAACCGGATGATTGAAGACGGCGTTCAAGGCGTCTCTTTTATCGCGGCCAACACTGATGTACAGGCTTTGAACAGCAACAACGCTGAAGTTAAGATTCAGCTGGGGCCGAAACTGACTAGGGGCTTGGGGGCAGGTTCACATCCTGAAACCGGGCAAAAGGCCGCTGAAGAAAGCGAAGAAACGATTGAAGACGCACTTAAGGGTGCTGACATGATTTTCATCACTGCCGGCATGGGCGGTGGTACTGGTACCGGGGCAGCCCCGGTAATCGCCAAAATTGCCCGGGAAACCGGTGCTTTGACGGTTGGGGTGGTTACCCGTCCATTCAGCTTTGAAGGCCCTAAGCGGTCCAAGAACGCCGCTGAGGGGATTGCTAAGCTGAAGGAATACGTTGACACCCTGGTCATCGTTGCCAACAACCGGCTTTTGGAAATCGTTGACAAGAAGACACCGATGATGGAAGCCTTCAAGGAAGCCGACAACGTCCTCAAGCAGGGTGTCCAGGGCATTTCCGACTTGATCACTTCAACTGACTACGTGAACCTGGACTTTGCTGACGTCAAGACGGTCATGGAAAACCAGGGGGCAGCCTTGATGGGGATCGGCCGGGCCAGCGGCGAAAACCGGACGGTGGAAGCAACCAAGATGGCGATTTCCTCACCGCTTTTGGAAGTTTCCATCGACGGGGCCAAGCAGGTCCTCTTGAACATCACTGGCGGTCCGGACTTGACCCTGTTTGAAGCCCAGGATGCTTCAGAAATCGTTTCAACGGCTGCCGGCGAAGATGTCAACATCATCTTCGGTACGGCCATCAACCCTAACCTGGGCGATGAAGTCGTGGTTACGGTGATCGCTACCGGGATTGATGACGAAGCTGAAGCAGCTGCTTCCAAGCAATTGCCAGGCCGCGGCCACCAAGTGAGTGCGCCTAGAGAAAAGCCAGCTGCGCCTAAGATCTTGACTCCGGAAGAAGCCGCTCCAGCTGCTCCAGTCCAAGCAGCGCCAGTTCAAGCTGAAGCAGCTAAGCCGACCAGCCCGGTCAAGGAAGAGAAGCCAGCCATGATGGACCCGATCAGCGTTTGGGGCCTAAACGACGATGACTACCCAAGACGGCAAAACCCGGAAGAACAAAAGCGGCAGGCTGAAGAAAAGGAAGCGGCTTCGGATGCTGACCCAAGCAGCGCCATTTCCCAAATTGACATCAACACCGATTACGACGACGATGATGACGACGATATTCCGTTCTTCAAGCACCGCCGGGACCGGTAA
>SRR1919932_00111 cell division protein SepF
ATGAACAACAAATTTAAGGATTTTTTCGGCTTCGGCGACAACGATTCCTATGAGGAAAGAGACGCCTACGAGGAACATTACGACGAACAAGAAGAAATGCAAAACAGCAACCGGCCAACTAACAGCCGTGACAGCAATGTCGTGTCCATTAAGGCCGGCCAGGCTGGCAGCGGGCTAAGCAAGATCGTCCTTTACGAACCGCGGGTATATTCTGACGCTAAGGAAGTAGCCCAGAACCTGCTCAACCAAAAGGCGATCATCATCAACTTCAGCCGGATGGACGACGCTTCTGCCCGCCGGGTAGTCGACTTCATCACCGGGACGGTTTACGCCCTCAATGGTGAAATCCAGCGCGTCGGCGACAAGATCTTCTTGGCTACTCCGCCGAAGTTTGAAACTGACGGCAAGATCACTGAACTGCTTGATAAGAAAGATACTTTAGGTTAA
>SRR1919932_00112 cell division membrane protein
ATGCAAACATTTTTGGTTTTTTTGTACCGGCTGCTCTACTTTATCTGTGAAGCTTACAGCCTCTTGATCATTATTGATGCCTTTATGTCTTGGATTCCGGCCATCAGCGAATCAGCGGCCGGCCGCTGGATCGACCGGATCGTCAACCCCTTCGTCAACCTTTTCCGGCAGGGGCCGATCCTGCGCTTGATCTACGCGACTGGCATCGACATTTCACCAATGATTGCACTGTTTGTGATCTACTTTGTCCAAAGCGTTGCCTTGGGCTGGCTCTTTAGCATTTTAGGGAGGATCTTCCTGTGA
>SRR1919932_00113 S4-like RNA binding protein
ATGGACAAGCGCCAGGCCAGCAGCTTTTACCCACATTTTGCAATTGAAGAAAGACCAACAATTGACCAATTTGTTGGTCTTTTTAATCGCCTCTTGTTTACCGGCCAGGCCTTTTTAACGGACTTCCTGGACCCCCGGCAAAGGCAGATCATGGAGACGATCGCCGGCGGGGAAGCCATCGTGCAGGCTTTTGGCGGCTATGAAGAAGCGGAAAAGTGCCGGCTCTACATCAGCCTGGAATGGGAGAACCTGCGCCCAGATGACTACCAGGTTCAGCTTTTTGAAATTGAATACCCGCAAAAATTTGCCAGTCTCCGCCACAGCCAGATTCTGGGCAGCCTGGCCAATTCCGGGGTAAAAACAGATACTTTTGGCGACATCATCACGGACGGGCAAGGCCGGTGGCAGTTTTTCGCGGAAAAAGAACTGGCTGGCTTTTTTGCCAGTCAAATCGACCGGATGGGGCCAGTCAAGGTCCGCCTGGAAGAGAAGCCCTTAAAAGACCGCCTGGAAGCAGAAGACAATTCCGAGATTATTACCGCTGTAGCTTCCTCCATGCGCCTGGACGCGGTTTTAGCGGCTCTAAGCAATAAGTCCCGCAGCCAGGTTAAAGAGGCCCTGGAGGCCGGCGAGGTCCGCTTAAACTGGCATGAAGAAAAAGGTGAAAGCCTGCTGAAAGTTGGCGACATCTTGAGCCTGCGCCGCTTTGGCCGGGTCAAGCTCTTGTCTGTCCAGCCCAGCAAAAAAGGCCGCCTGCGGGTGGAAGGCCAGTTTTGGCCAGCAAAAAGGCAATAA
>SRR1919932_00114 isoleucyl-tRNA synthetase
ATGCGAGTTAAGGATACGCTGAACCTGGGCAAGACCAAGTTCCCAATGCGGGGCAACCTGCCCAAGCGGGAAGCAGAATGGGAAAAGAATTGGGAAGACCAGAAGTTTTATGAAAGACGCTTGAAGCTTAACGAAGGCCATGAAAGATTTGACCTTCACGACGGACCTCCATTTGCCAACGGCAACATTCACATGGGCCACGCCTTGAACAAGATCACCAAGGACATCATCGTCCGGAGCAAGAACATGGAAGGCTACTACGCTCCTTACGTTCCGGGCTGGGATACCCACGGCCTGCCAATTGAGCAGCAATTGACCAAGCAGGGCGTTGACCGCAAGACCATGGACCGGGCTGCTTACCGGGAATTGTGCCGGAAGTTTGCCATGGAGCAGGTTGAAAAGCAGCGGACCGACTTCAAGCGCCTGGGCGTTATGGGCGACTGGGACCACCCTTACATCACCCTTTTGCCGGAATTTGAAGCCGCAGAAATCCGGGTCTTCGGCAAGATGTACGAAAATGGCTACATCTACCAAGGCAAGAAGCCGGTTTACTGGTCCTGGTCCAGTGAATCAACTTTGGCGGAAGCCGAAGTCGAATACCACGACGTGGAATCACCATCAATTTACATTTCCTTCCCGGTCAAGGACGGCAAGGGCAAGCTGAGTGAAGAAAACACCTACTTCCTGATCTGGACGACCACTCCATGGACTATTCCTTCCAACCAAGGGATTGCCGTTAACCCGAAGTTTGACTACTCAGTTGTTGAAGTTGGCGACCGTCGCTACGTTGTCGGTACTGACCGCTTGAGCGCTGTAGCTGAAATCTTGGGCTGGGACAGCTACAAAACTGTTCAGCACCTTAAGGGGACGGACATGGAATACATGGTGGCCAAGCACCCTTACATCGAAGGCCGCGACAGCCTTTTGATGGAAGCTGTCTACGTTACTGACGATGATGGTACCGGCCTGGTCCACACCGCTTCCGGCTTTGGTGAAGACGACTACAACACTGCCATGCGCTACGGCTTTGACGTTTTGTCCCCAATGGACAACAAGGGCTGCTTCACTGAAGAAATCCCTGACCCGGACCTGGTGGGCAAGTTCTACACTGACACCAACGAAATCGTCAAGGACAAGCTGGCGGCTGCCGGCAACCTTTTGCACTACAGCACCTTTGTCCACTCCGCCGCTCACGACTGGCGGACCAAGAAGCCGGTAGTCTACCGGGCAACCACGCAATGGTTTGCCTCAATCTCCAAGTTCAGAGACCAGATCCTGGACCAGATTGAAAAGACCACCTTCTACCCGGCCTGGGGCAAGACCCGCCTTTACAACATGATCAAGGACCGGGGCGACTGGGTAATTTCCCGCCAACGTGCCTGGGGCGTGCCTTTGCCAATCTTCTACGCTGAAGACGGCACCGCCATCGTGACGCATGAAACCATCGAACACGTGGCTGACCTCTTTGCCAAGGAAGGCTCCAACGCCTGGTTCACCCACCCGGTTGAAGAACTTTTGCCAGAAGGCTTTACTTCAGAACACTCACCAAATGGCAAGTTCACCAAGGAAACTGACATCCTGGACGTTTGGTTTGACTCCGGGTCATCCTGGAGCGGGGTCCAGGCTCTGGGCAGAGACGTTCACTACCCGACTTCCATGTACGTGGAAGGCAGTGACCAATACCGGGGCTGGTTCAACTCCAGTTTGATCACCAGCGTGGCTACCAACGGGGTAGCTCCTTACAAGTCAGTCCTGTCTCAAGGCTTTACTTTGGACGGGCAAGGGCGGAAGATGTCCAAGTCATTGGGCAACACGATCGCTCCTAACGATGTCATCAAGCAAATGGGGGCCGAAATCATCCGCCTCTGGGTTGCTTCCGTTGACGCTTCCGGCGACGTCGGCGTGTCAATGGACATCCTGCGCCAGGTTTCAGAAGGCTACCGGAAGATCAGAAACACCTTCCGCTACATGCTGGCCAACACGGTTGACTTTGATCCGGAAAAGGACCGGGTAGCTTACAAGGACCTGCGCAAGATCGACCAGTACCTGGAAGTCAAGCTTAACGACTTAGTTGCCGAAAGCATTGTTAACTACGACAAGTATGACTTCGCTGACGTCTACAAGCTGGTCTTCAAGTTCATCACCAACGACCTGTCCGCCTTCTACCTGGACTTTGCCAAGGATGTCCTTTACATCGAAGGCAAGGACAGCCACGCCCGCCGGTCAATGCAGACGGTGATCTACGATGCCGCTGTCAAGCTGGCCAAGATCCTGGCACCAATTTTGCCGCACACCATGGGCGAAGTTTGGGGCTACTTGAAGGAAAAGGAAGAAGACGTCTACCTGTCCAACTTCCCTGAAATCGAAGACTACGCTGACGCTGACGACTTGAAGGAAAGCTGGGGCGAATTCATGAAGCTCCGCGACGATGTTTTGAAGGCTCTGGAAGAAGCCCGGGACCAAAAACTGATCGGGAAGTCCTTTGAAGCCAGCGTAACGGTTTACCCAGGCGAAGCAGCCAAGGCTGCCTTGGACAAGCTGGCTGGGGAAGACTTCCGGGAAATCTTGATCGTGTCCAACCTGGTCATGGGCCAAGGGGAAGTACCGGCTGAAGCCAAGCAATTTGACCAGTCCAGCGTACTTGTCCGCCGGGCCGAAGGCGAAGTCTGCCCACGCTGCCGGATGTACCGGACTGACCTGGGCGCTGACAGCCGTTTGCCGCAACTGTGCGGCCGCTGCGCATCTATCGTGGCCGGCGACCACCCGGAAATACTTGAAGAAGGCCTGGAAGACTAA
>SRR1919932_00115 cold-shock protein
ATGCGGACCGGACTTGTAAAACAATTTGCCGAAAAAGCAAGTTTCGGCTTTATCGAAGACGACCAAAATCACAAATTATATTTTGTCTTTTATACTGCCATCAAGGAGGAGGGCTATAAGAGGCTTGAAGTCGGCCAGCGGGTGAGATACCAGCTTGCCCAGGGTAAACACGGACTGCAGTGCATCAACGTTTACTTGGCCAAAGACTAA
>SRR1919932_00116 ADP-ribose pyrophosphatase
ATGGATTTAAAGGAAACTGAAATTTCAACGAAGGAGGCTTTCCACGGCGGCTTCATCAACCTGCATGTTGAAACCGTGATGCTGCCAAACGGGAAAACCGCCTCCAGAGAGCTGGTCGACCACCGGCCTGCTGCCGCGGCCATCTGCATCAACGATGAAAAGAAGATGCTCCTGGTTACGCAATGGCGGGAAGCGATCAAGCAACTGACTCTCGAAATTCCAGCTGGAATGATTGATGCTAGCGACGTGAGTCCCTTGGATGCAATGAAGCGGGAGTTAAATGAAGAAGGCGGCCTGAAAGCCGAATACTGGGAAAAGGTTGCCGAATTCTACACTTCACCGGGATTTTCCAATGAAAAGCTGCACCTTTTCTACTGTGACACGCTCAGCCCAGTGGCTAACAAACTGGACCTGGACGAGGATGAATTTTTGACGGCAGAATGGTACAGCCTTGAAGAGTTAAAGAACCTGTTGACAGAGGGCAAAATTGTCGACGCAAAGACCATTTATGCTATTTCCGTATGGGAAAACATGCTGCTGACCGGCTCAGAAGGTTAG
>SRR1919932_00117 hypothetical protein
ATGACAGAAAAACGTTCTGATTACCGCCGCCGCCAGGCAGAGCAAGCAGAAAAGGCAAATAGACAGGAAGCAGCTGATTCAGCTGCTTTTCCTGCTTTTAAGCAGGACCAGGACCAGAAGACCTTAAAGGCAGAAAGGCTGAAAAAAAGGCTGAATTTTGCTATCCTGGTCGTGTGCCTCTTGATCATCCTGGTTTGGGTGATTTTATTGAAATTTTAA
>SRR1919932_00118 5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase
ATGAAAATTGCAATCGTTGTTCCAATGGCTGAAGAAGCTGAATTTTATCATCAATACTTTTCCTCAGGTAAAAAAGAAATGTTCGGTTCAACGGAATTCGAACATTTTTCCGTTGCCGGCAACGATCTTTACCTGGGCTTGACCGGGATCGGCAAGGTCCAGGCGGCCATGAACCTGACCAGCCTCCTGGCCAAGGAAAAGATCGACCTGGTCATCATGACCGGGTCGGCAGGGTCCTTGCAAAAAGAAGTTCAGCGGATGGACCTGGTTTTACCAAGCGAATTCGCCTACCACGATGCCCACAACACTTCAGCGGGCAACTATGTCGAAGGACAGATCCCGCAGGAACCGGCCCGCTTTAAGCTGGACTGCGCGGAAAGAGACAAGTTCAAGGACTTTCTGGGCAAAAAGGGCGTGGCCTACAAGGAAGGCTTGGTCGTGACCGGGGATTCCTTCATCTCCTCCCAGGCACAAAAAGACGAAATTCTGGGCAATTTCCCAACCGCCCTGTGCGTGGAAATGGAGGGGGCAGCCTTTGCCCAAGTGGCCTACCACTTTAACGTTCCGCTGATCGCCTTGCGGGCCATCTCCGACAATGGGGATGAAGATGCTGACAACGACTTTGCAGCCTTTGTCAGAAAGGTCGGCGCCCAGGCGGCAGAACTGATCGTGGAATACTTAAGGGAGAATGATTTTTAA
>SRR1919932_00119 cysteine desulfurase
ATGAAGCAGGTATATCTTGACAACGCGGCAACCACGCCCATGTCACCGACCGTCATTGACGTGATCACGGATGAAATGGCCAATGACTTCGGCAATGCCTCCAGCACCCACACCCTGGGCCGGAAGGCCCGCAACAGCGTGGAAACGGCCCGGCACACCATCGCCCAGGCAATCAATGCCAAAGACCAGGAGATTATTTTTACCTCCGGCGGTTCTGAAAGCAACAATACGGTAATTTTTGGCGTGGCGGAAATGCAAAAAGCAGTTGGCCGGCACTTGATTACGACCAAGATCGAACATGAATCAGTTTTAAAGTCCATGCAGCGCCTGGAAGAGCTGGGCTATGAGGTGACCTACCTGGACGTGGACAGAGACGGACATATTTCCCTTGACCAGCTCCGTGAGGCCATCAGACCAGACACGATTCTGGTCTCAGTCATGGCTGTCAACAACGAAGTCGGCAGCATCAACCCCCTCAAGGATATCGGCCAAATCGTCAAAGACAGCCAGGCCTTCTTCCATGTTGACGCTGTCCAGGGCCTGGGCAACATTGACCTGGACGTGGAAGAAATGGGAATCGACTTTATGTCGACTTCAGCCCACAAGATCAACGGGCCGAAATTCCTGGGCTTCCTGTATGAAAGAGACGGGATCCGTCTGCCAAACCGGATTTACGGCGGCGACCAGGAACTGAAGCGGCGGGCTGGTACGGAAAACGTGCCGGGGATTGCCGGCTTTGGCCAGGCTGTAGCGGAAGTTCAAGCAGAAAGCAAGGCTGACCTGCAGGCCAAATACACTGATTTCCAGAAGATCATCTTGAGCCGGCTGGATGAGAGCGGGGTGGCCTATGAGGTCAACAGCCCCTTGACCGGTCTGGTTTCGCACCATGTCTTGAATCTCCGTTTAAACGGTTTGTCCACTTATGTCCTTTTGGCCAACCTGGACCTGGCTGGCTTCGCTGTTTCAGGCGGGTCGGCCTGCACGGCCGGCAGCCTGACCCCGTCCCACGTTTTGACGGCCATGTTTGGCCAGGATTCACCAAAGGTCAGCGAATCGATCAGGATTTCTTTTGGCCGCTACAACACGGTTGAAGAAGTGAAAGCTTTCGCGGCTGCCCTGGTGAAGGTGGCCCGCAAGCTGCAAGACCGGAAGCGGGAAGACTAA
>SRR1919932_00120 cysteine desulfurase
ATGGCTAATACTGTGATGATCAATGGCGACAAGCGGAAGTTTATGCTTAACCCAGACGTGAAGCTGTATGCGTTGATTGACGCCGGCTTCCAGAAGACCCCCCGGGGCAACTTTGTCTATGAGCACCCGCTTTACAACGAATCGCCTTACAACGCGACGACCAAGCTGAAGATGACCATCAAGAGCGACTTGACCAGCTTGACTATGGTCGTTACGGATCCAAGCGGCCTGAAGAAGGTAAACATTTTTAAAAACAAGCAGCTGGCTCCGACGGTTGAACTTTTGGACTACATCTTGAAGGACCTGGAGGAGCGGAAGATTTTAAGCGAAGTGAAGGACTGA
>SRR1919932_00121 tRNA (5-methylaminomethyl-2-thiouridylate)-methyltransferase
ATGGTTGACAATAGCAAGATCAGAGTCGTTGTCGGCATGAGCGGCGGGGTTGACTCCTCAGTTTCGGCCCTCTTGCTCAAGCAGCAGGGCTACGACGTCGTCGGCGTTTTTATGAAGAACTGGGACGACACCAATGATGATGGTGTCTGCACGGCAACTGAAGACTACGAAGACGTCAAAAAGGTAGCCGACAAGATCGGCATCCCTTACTATTCGATCAACTTCGAAAAAGAATACTGGGAGCGGGTCTTCCAGTACTTTTTGAAGGAATACAAGGCTGGGCGCACGCCTAACCCCGACATCATGTGCAACACCGAAATCAAGTTCAAGTCCTTCCTGGAATATGCCCTGGACCTGGACGCGGACTACCTGGCCATGGGCCACTATGCCAAGACTATGGTCGATGAAAACGGGGTAACCCACATGATGCGGCCAAAGGACGGCAACAAGGACCAGACTTACTTCCTAAGTCAATTGACCCAAGAGCAGATCAAGCGGGTCATGTTCCCCCTGCAAGACCTGACCAAGCCGGAAGTGCGGCGGATTGCCGAAGAAGCCGGCCTGGTCAACGCCAAGAAGAAGGACTCAACTGGCATCTGCTTCATTGGGGAAAGAAACTTCAAGCACTTCCTCAGCGAATTCCTGCCAGCCCAAGGCGGGGACATGGTAACCCCGGACGGGAAGGTTGTCGGTCAGCATGCCGGCCTCATGTACTATACGATCGGTCAGCGGCAGGGCCTGGGCCTCGGTTCAACCAAGGAGTCAACCGCTCCCTGGTTTGTCGTGGGCAAGGACCTGGAAAAGAACCAGCTGATCGTGGAGCAGGGCTATGACAGCCCCCGCCTTTACGCTGACCGCCTGCAGGCTTCCGGCATGACTTTCTTTACCGGCAACCCTGAGGAGGACACGGAATTCAAGGCAACCGCCAAGTTCCGCTACCGGCAGTGCGATGTTGGCGTTACGGTCAAGTACCACGCAGCCAGCAAGACTGCTGATGTCTACTTTGACGAGCCAGCCCGGGCAGTTACCCCGGGCCAGGCTTTGGTTTTATATAATGGCGAGGAATGCCTGGGCGGCGGAAACATTGACGCTGCCTTCAAGGATGACAAAAAGCTGCAATTAGTTTAA
>SRR1919932_00122 phosphoglycerate mutase
ATGGAAATATATTTTGTAAGACATGGCAAGACACAGTGGAACCTGGAGCAGCGTTTCCAGGGCGGGCAAGGCGATTCAAAATTATTGCCGGAAAGTTTGGCCGACATTGAGAAGCTGGGACGTTATTTACAAGGGAAGCATTTTAAGGCGGTTTACGCCAGTCCCCTGGACCGGGCGAGAATGACTGCCCAAGGGCTGATTGGCGCGGCCGGGATCCGCCTGCCCTTGCACATCGATGAACGTTTGCGGGAAATGAACCTGGGCAAGCTGGAAGGAATGAAGTACGCTGAGGCGGAAAAGCTCTATCCCCAGGAAATCGATAATTTTTGGCATCACCCGGACAAATACGACAATACTGTCGTAGAGGGGGAAAGCTATGAGCATGCCATGGCCAGGGGGCTGGATTTTGGCCGGGAAATGGCCAAAAAATACCCCAAAGACAGCGACAAGGTCCTGGTGGTCAGCCACGGGGCAGTTCTATCAGCCATCATGGGGGCGCTTTTAGGCTATGACCTGGCCAATCTCAGACAAAACGGGGTTATCTACAATACCAGCGTTTCAGTCTTGGCAAGCCAGGAAAAGGGCCCTGCCTTCAAGCTGGTCAAGTGGTCAGACGTTACTCCTTTAGAGCACAAGATGTCAGAAACGGATGGTTTGTAA
>SRR1919932_00123 hypothetical protein
ATGGATCAGAAGATCAATCAGCTTTATGAAGAAGGAAAAGTCGACCAGGCGATTCATGCCTTGATTGAGAAAATCGACCATAATCCCCGGGAAACTGCCAACTACCTGCAGCTGGCCACTTACCTCCTGGACCAGGGCAGCGCTGAGCAAGCCCGGGAGCTCTTGACCAAGGCCCGGGGGATCGCAGAAGATCCCCAGGCCTTGGTCTATGACCTGGCGGTTTGTGACTACGCCCTGGGCGATTTTGATCAGGCCCTGGCCCGCTTGGCCCAGATTCCGGATGATGACATGAACATGTACCAAAAGGCCCTGGTCTACCTCAAGCTGGGCCAGAGCCAGAAGGCCCTGGCTTATGCCCTGTCGATCAAAGAAAGTGACGACCGGGTAAAAGAGCTCATCGGGGACATCTGGCTGGCTTTAGGAGAGCTGGAAGCAGCCCGGGCCAGCTACCTGGAAATTGCTGAAGGGCAGAGAAGCAGCAAGCTGAACTTTTTGCTGGGCCTCACTTATTTCAGCCAGGACCGGGAGCAGGCGGAAGAATTTTTTGCCAAGTCCAAAAAGCAGGATCCCAAATATTACCAAAAAGCCAAAGACCAGTATGAGTCCCTGCTGAAGCTGCTGAGCCAGGGAAAGGCAGGGGCTGGGAAAGAATAA
>SRR1919932_00124 exodeoxyribonuclease V subunit alpha
ATGACCGAGTTTAGCGGTGAAGTAAAGAGCGTTATTTATGAAAACGCGCAAAATATGTACAAGATCTTGCTGGTCGCCGTAAGTCAGCCTCTGGCCGGCTATGACGATGATGAAATCAAGGTGACGGGGACCTTCGGGGACCTGGAGCTTGGCCAGGAATACAACTTTACCGGTGACTTGGTCACCCACCCCAAGTACGGCTTGCAGTTTCAAGCGACGGGCTGCCAGCCGGCCCTGCCGAAAGAGACTGGCGGGGTGGTCAAGTACCTGTCTTCTGAGAAGTTCCCTGGCATCGGGCCCAAGACGGCGGAAAAAATCGTTGACCAGCTGGGCAGCGGGGGCTTAAAGAGCTTGCAGGCTGATCCAGCCTTGATCGCCAAGCTGGATCTTTCCCAAAAGCAAAAAGACAGCCTCTTGTCCGGCCTGGCCCAGATGGATTCCTTTGACGACCTGGCTATGACTTTGGCCAGTTACGGGATTCCCCGCAAGGTGGCCGGCCGCCTTTACCAGAAGTACCATGACCAGACCTTGAAAAAGCTGCAGGCCGATCCCTACCTGCCTTTAGGCGAAGTGACCGGCTATTCCTTCAAGCAGGCCGACCACTTGGGAATTAGCTTTGGAATTGCCCTTGACAGTCTGGAGCGGGCTGATGGCAGTATCCTGGCGGTTTTGCTCCAGGCCTTGACCATGGAGGGGGAAACCTACCTGGAACTGGAAGAACTTTTGCCAGCCGCCAAGGAACTGACAAATATAAATTTTGACCGCCTGGCAGAAGCAGTTAACGACCTGCAGGACAAGAAGAAGGTCGTCGTGGGAAAAGGCCGGGCCAGCCTGCTGGCCCCATTTCAAGTGGAAAGCGAGATCGTGACCGACCTGGAAGACCTTTTAGCCAAGGGCAAGGAAGCGGACTACCGGGAAAAGGACTTGGACCAGGCCATCAAGCGGGCCGAAAGGAAGCTGGGGATCAGCTATGACCCTGAGCAAAAGCAGGCCATCAAAAACGCGGTAACCAGTCCGGTCTCCATCTTGACTGGGGGACCCGGGAGCGGGAAGACGACCATCATTGACGGGATCTTGCTGGTCTTAAAGGACCTGGTCGACATGGACGAAGAAGAAGCTGAAGAAGCGATTCTCCTGGCCGCGCCAACCGGCCGGGCAGCCAAGCGGATGGGGGAAGTCACCGGCTATCCGGCCAAGACCATCCACCGCCTCTTGGGTCTGGGGATCGACAACAGCGAGGAAATGGAGCTGAATGATTTGGAAGGGGAGATCTTGATCGTCGACGAAATGTCCATGGTCGACATCTACCTCTTTGAAAAGCTGCTCAGCGCCATCAGCAATGTTCACCACCTGGTCTTTGTCGGTGACAAGGACCAATTGCCATCCGTCGGGGCGGGGAAGGTTTTCGCTGACTTGATCGAGGCGGACTTCATTCCGACCTGCCAGTTGCAGGTGGTCCACCGGCAAAAGGATGATTCAACGATCATTCCCCTGGCCCACGCGGTCAACGAAGGAGCCAACCCGGCTGTTCTCTTGCAAAAGACGGCCAGCTACTCCTTTATTCCTTGCCGGCCCCATGCCGTGCCTAGCGCCGTCGAGCAGATCACCCAGGCAGCCTTAAAGAGTGGCTTTGCGGCTGACGACATCCAGGTTCTGGGGGCCATGTACCGGGGCGACGGGGGGATCAACAGTCTGAATGACACCCTCCAGCGGGTGATCAACCCGGAAAAGGGCAATGATAAAGCAGTTGAGGCCCATGGTGAGAACTTCCGCCTGCATGACAGGGTCCTGCAGCTGCAAAATGACCCAGAGCGGGGGATCTACAACGGCGAGATTGGAAAGGTCGTGGCCGTTGATCCGGAAATGATGGAAGACGAGGATGACGAAGTCAAGCTTTTGGTCAATTTTGACGGCAAAGAAGTGGCTTACACGCAGGCAGACTTGAATAACCTGACCCGGGCTTATGCCATCACCATCCACAAGTCCCAGGGGTCAGAATTTCCTTTGGTCATTCTCTGCTTAACTATGCAGAACTATATCATGCTCAAGCGCAATCTTTTGTATACGGCCATCACCCGGGCTTCCCAGAAGCTGGTCATGGTTGGAGAAGAGCAGGCTTTTGCCCAGGCCATGCGGGTCAAGGGCAATGAGCGGCGGACCAACCTGGTCTGGCTCTTGAAGGACCGCTTTAAGCCAGAAGAACAAAGTAAGCAAGAGAGTAGTGACTCTACAGAGAATACTCTGGATAAAGGAGAAAAAGCCGAAGACTACATCTTGACCGGGGCCCGGATCAGCCGGTCGGAGATTTCCCCCATGGTTGGTATGGAGGACCTGGTTCAGGGATGCAAGAAACTGGCGGAAATCGTCCGGACCAAGGGGCCAGGAGCCTAA
>SRR1919932_00125 dihydrolipoamide dehydrogenase
ATGACAGAAAAAGAAACAAAGAAGACAGTCAAAAACATCATCATCGGTTTTGGCAAGGGGGGCAAGACCCTGGCCAAGTTCCTGGGCCAGCAGGGCGAAGAAGTCCTCCTGGTGGAAAAGTCAGCCAAAATGTACGGGGGCACCTGCATCAACATCGCCTGCCTGCCGTCCAAGCGCCTGATTTTGGAAGGGGCAGCCGGTAGCGATTTTTCGGAAGCAGTCGCTGGCAAAAATGAGATGACGGCCCAGTTGCGGGAGAAAAACTACCAGATGTTGGCGCAAGAAGAGACGGTGACTGTCCTTGACGGACAGGCCCGCTTTATTGGCGAAAAAGAAATCGAAGTCACGGGGCCGGCTGGCAAGCAGATTTTTAAGAGCGACCGGATCTTCATCAACACCGGGGCTAGCCCGGTCTTGCCGCCTGTTCCTGGTTTAAAAGAGAGCAAGAAGCGGCTGGATTCCACCCAGGCCATGGACTTGACCAGCCTGCCAAAAGAGCTCTTGATCCTGGGGGCCGGCTACATCGGCCTGGAATTTGCAGGCATGTTTGCCAATTATGGCAGCCAGGTGACTGTTTTGGACCATAGCCCGGAATTTTTGCCAAGAGAAGATGACGATATTAAAGCCGCCGTCAAGGCTGACCTGGAAAGAGCCGGGGTTAAATTCATCTTAGGCGCAGATGTTGAAAAAGTCAGCGACGAAGCTGACCAGGTCGTAATTGACTACAAATTAGGCGAAGAAAAATTGACGGCTGCTGCTGACAAAGTCTTGGTCGCTGCCGGCCGGCGGGCCAACACGGCTGATCTTAATTTGCCAGCAGCCGGGATTGAAACTGACGACCGGGGCAATATCAAGGTTGATGATCGCTTAAGAACAAGTGCTGACCAGGTCTGGGCCCTGGGCGATGTCAAGGGCGGACCGCAATTTACCTATGTCTCCCTGGATGACTTCAGAATTGTCAAGGACCAGCTTTTTGGCGAAGACAAGCGAAGAGTCAGTGACCGGCAAATCCTGCCGACCAGCGTCTTCATCACCCCGCCTCTGTCAGCTGTTGGCCTTAATGAAAAAGCCGCCCAAAAGGCTGGGCTTGACTACCAGCTCTTCAAGCTGCCAGTTGCCGCCATTCCCAAGGCCAAAGTCGCCAAGGACAGCCGGGGCTTGTTCAAGGCCCTGGTTGACCCGGCAAGCGGGCAGATCCTGGGGGCCAGCCTGTATGGCCTGGAATCCCATGAACTGATCAACCAGATCGCCCTGGCCATGAAGGCCAAGCTGCCTTACAGCTTCCTGCGTGACCAGATCTACACCCACCCGACCATGAGCGAGGCCTTTAATGACCTCTTCAAGCAATAA
>SRR1919932_00126 ribonuclease J
GTGAAGATTAAGCAAAACGAAGTAGCCGTTTTCGCGATCGGGGGATTACACGAAATCGGCCGTAACATGTACTGTGTCCAGTACCAAGACGAAATCGTCATCATGGACTGCGGCATCAAGTTCCCGGAAGATGATCTGCTGGGGATCAACTATGTTATCTCCGACTACTCTTACCTGGTCAAGAACCGGGAGAAGATCAAGGCCCTGGTTGTCAGCCACGGCCACGAAGACCACATCGGCGGGATTCCCTTCCTGCTGGAAAAGATTCCGGAAATTCCAGTCTACGCCACGCCTTTTGCCCTGGCCTTGATCAAGAGCAAGTGTGAAGAACACGGGATCCTGGACCGGACCGAGCTGCATGAAGAGCACGAAGACACGGTTTTGACTTTTGACAAGCTGAAGGTGACCTTCTTCAGAACCACCCACTCAATCCCCGACACTTTGGGGATTGCCGTCCACACTCCGCTGGGCGCGGTCGTCTTTACTGGCGACTTTAAGTTCGACTTGACCCCGGTCATGAACCAGCCGGCCCCTAACTTCCAGAGAATGGCCCAGCTGGGCGAAGAAGGCGTTTTGGCCCTCTTGAGTGACTCAACCAACGCCGAAGTGCCGCAGTTTACCAAGTCTGAACGCTTCGTTGCCGGCTCTTTGCACAACATCATCACCGGCATTGAAGGGCGGATCATCTTTGCCACTTTCGCTTCCAACCTTTACCGGGTGTCAACCGCCATTCAAGCCGCGATCGACACCGGCCGCAAGGTGGCGATTTTTGGCCGGAGCATGGAGAACGGGATCCAAAACGGGATCGACCTGGGCTATCTGAATGTGCCGGAAGGCTTGATTGTCGATGCTGAAGCAATCAACTCCCTGCCGCCGGAAAAGGTCATGCTCCTCTGTACCGGTTCCCAGGGTGAACCCCTGGCTGCCCTCTCCCGGATTGCCAACGGCACCCACCGGCAGATCAAGTTGAAGCCGCATGACACTGTGATCTTCTCTTCCAACCCGATTCCAGGCAACACCCTGAGCGTTAACCAGCTGATCAACAAGCTGATGGAAGGCGGGGCCAAAGTGGTCCACGGCCGGGTCAACAATGTCCACACTTCCGGCCACGGCGGCCAGGAAGAACTGAAGCTGATGGTCGAACTGACCAAGCCGAAGTACATGATCCCGGTGCACGGTGAATACCGGATGCAGGTTGTCCACGCCCACCTGGCCCAGCAAGCAGGCGTGCCGGCAGAGAACACCTTCGTCTTGAAGAACGGTGAAGTGGTCTGCTTCAGCCCTGAAGGGGCCAGAATCGCCGGCGACATCCACGTCAAGGACGTCTTCGTCGACACTTCCGGTGCTGCTGATGTCGGCAACATCGTGGTCCGCGACCGGCAGATCCTGTCTGAAGAGGGGCTGGTAGTAGCCGTAGCCACGGTTGACTACAAGCACAAGCAGGTTTTGGCAGGCCCTGACATCCTCAGCCGGGGCTTTGTCTACATGCGTGAATCCCAGGACTTGATCAACGCGGCCCAGAAGCACGTCTACCATGTCTTGAAGACGGAAATGGCCAAGAGCGACAAGCCTAAGGACAGCGAAATCCGCAAGGCGATCATCGAGAACCTGCAGGACTTCCTATACTCCCGGACTGAAAGACGGCCAATGATTCTGCCAATGCTGGTCGAAAAGAAATAA
>SRR1919932_00127 hypothetical protein
ATGATCTACAAAGTTTTATATCAAAAGGACAAGATCGTTAACCCACGCAGAGAAACGACCCAGACTCTCTACATGGAAGCCGACAACGTTGTCCAAGCCAGAGCCCTCGTTGAACAAAACACCCCCTACAACATCGAGCTCATCCAAGAATTAACCGGCAACTCCTTGAAGTACGAACAAGAACACGCTGACTTCAAGCTGACTGCCTTTGGCCAAACTAACAGTGAAGATTAA
>SRR1919932_00128 peptide deformylase
TTGATCTTAATGAAAGATATTGTCCGCGACGGAGATCCCGTTTTGCGGCAAGTTGCGCAAAAATTGACTTTTCCCTTGTCAGACCACTACCGCAAGCTGGCCGATGACATGATGGAATACCTGGTAAACTCACAAGATCCAAAGATTGCCGCCAAGCACCAGCTCCGCGCCGGGGTCGGTCTGGCTGCCCCGCAGGTTGGTGAGGGCGTGTCTATGGCTGCCCTGCTTGTGCCAGACGACAAGGGTGAAATCATCTTTAAGGAAGTTTACGTTAACCCGGAAATCATCTCTGAATCTGTCCGCAAGACCTGCCTGGGCGAAGGCGAAGGTTGCCTGAGCGTTGACAAGGTCATCGACGGCTACGTTCCGCGGCCAAACAAGGTTACGGTTCACTACTGGACCGTTGACGGCGAGGAAAAGACCATCCGCCTCAAGGGCTACCCAGCCATCGTCTCCGGCCACGAAATCGACCACTTGAACGGCCACCTCTTCTACGACCGGATCAACAAGGAAAACCCATTTGCCCTGGATGAAGACACCATCGTCATCTACTAG
>SRR1919932_00129 GTP-binding protein TypA
TTGGCAGATCAAAAGAGAAGAGAAAACATCAGAAACATCGCGATCATCGCGCACGTCGACCACGGTAAGACTACCCTGGTTAACCAGCTGCTTAAGCAGTCAGACACTTTACCAGAACACATGAACCTGGAAGACCGGGCAATGGACTCCAACGCCATTGAACGTGAACGTGGGATCACGATTCTGTCAAAGAACACCGCGGTCAGCTACAAGGGCACGACCATCAACATCCTGGACACCCCAGGCCACGCCGACTTCGGTGGGGAAGTTGAACGGATCATGCACATGGTTGACGGTGTCCTGCTTCTGGTCGACGCTTACGAAGGCCCAATGCCGCAGACCCGCTTTGTTTTGCAAAAGGCCCTGGAAGCCGGCGTTAAGCCAGTTGTTGTCGTGAACAAGATCGACCGTCCTGGTTCCCGTCCAGCTGAAGTTCTGGATGAAGTTCTGGAACTCTTCATCGAACTTGGCGCCAACGACGAACAACTTGAATTCCCAGTTGTTTACGCTTCTGCCTTGAACGGTACTTCCAGCTACTCAGACGACCCGGCTGACCAGGAAGAAACCATGGACCCGGTTTTCGACACGGTCATCAAGGCCATTCCGGCTCCGCTTGACAACGAAGACGAACCTTTGCAGTTCCAAATCACCATGCTTGATTGGGACGACTACGTTGGCCGGATCGGCGTCGGCCGCGTTTACCGGGGCAAGATCAAGGTTGGCGACGAAGTTACTGTCATGAAGCTTGACGGCTCCAAGCAAAACTTCCGCGTGACCAAGCTTTTTGGTTACTTCGGTTTGAAGAGAAACGAAATCAAGGAAGCCAAGGCAGGCGACATTATCGCCATCAGTGGGATCAACGACATCTTCGTCGGTGAAACCATTGCTTCCAAGGAAAACCCAGAAGCCTTGCCAATTCTGCGGATTGACCCGCCGACTCTGCAAATGGACTTCGTGGCCAACGACTCACCATTTGCTGGCCGGGAAGGCAGCCAGGTTACTCCAGCCAAGCTGGAAGAACGGCTTTTGCGGCAAACCCGGACTGACGTTTCCCTGAAGGTTGAACCAACTGACCAATTAAACGCCTGGACTGTTTCAGGCCGTGGGGAACTGCACTTGTCCATCCTGGTTGAAGAAATGCGCCGGGAAGGCTTCGAACTGCAACTGTCCCGGCCAAAGGTTATCTACCGGGAAGTTGACGGGCAAATGTGCGAACCATATGAAGCTGTCCAAGTTGACGTGCCGGACGAATATGTCGGCTCAGTTATCGACGGCTTGTCCCAACGCAAGGGTGAAATGCAGAACATGGTTTCCAAGGGCAACGGCCAGACCCGGTTGGAATTCTCAGTTCCTTCCCGTGGCTTGATCGGCTACAACAACGAATTCATGTCCGCAACTGGTGGTTACGGGATCATGAACCACACTTTCAGCGAATACAAGCCAGTCGTTAAGAACTGGAACCCAGGCCGGCGCAACGGTGCTTTGGTTTCCATCAACCAGGGGCAGTCAACTACTTACTCCCTGCAGTCAGTTGAACAACGCGGCCAGCTCTTCATCGGTGCCGGCGTGCAAGTTTACGAAGGGATGATCGTTGGTGTATCTTCCCGTGACCGTGACATCGCTGTTAACGTAACCAAGGGCAAGAACCTAACCAACACCCGTGCTTCCGGTAAGGACCACGCTGCGGCCATCAGAACGCCAAAGACTTTGACTTTGGAAGAATCAATCGAATTCTTGAACGATGACGAATACTGTGAAGTAACTCCAGAAAGCCTGCGCCTGCGGAAGAAGATCTTGAACACTTCAGAACGGCAAAAGTTTGACAAGAAGAAGGCCAAGACCAACTAA
>SRR1919932_00130 cell division protein FtsW
GTGAAGAAAAATAAAGTTGCTGCCACGGCCGCCAAAATAAAAGAGACATTCCAATATTTCGACTACCGGATCTTCATCGTCTATTTGCTTTTAATGACGATCGGGGTGATCGCGGTCTATTCGGCCAGTTCAGAAATCCTGCTGATCCACGGCTTCAAGGCTACGGTTTACGGGCAAAAGCAGCTGCTCTACGCCTTTTTCGGGGTATTGATCTGCCTGGCCTGCTACAGCATCAACCTGGACTACTTAAGGCGGGGCAAGCTGCTCTTGTGGCTGCTGGTAATTGTGGCCGGCTTATTGGTCTATGTCCGCCTCTTTGGCCAGGCGGTCAACGGGGCCAAGGGCTGGATCAACCTGGGCCCAATCAACATCCAGCCCTTGGAATTAGCCAAGCTGGTCCTGACTTTGTATCTGGCCCGGATGCTGGCTAAGGCCGACGGGCGGTTAGTGCGCGGACATATCATCTCCCAGCTTTTGCCTACGGCAATCATCGCGGGTTTACTAATGATCCTGGTTTTGGTCGAACCTGACTTCGGGGGGACAGCCATCCTTTTTTGCCTGGTCCTGATCATGTATTCAGTTTCCGGGATCCCGACCGGCTACATCCTCTTGAGTATCATCGGCATCACCGTTCTGGTGGTCGGGGGCTTCAGCTTGATCGTGGCCTGGAACCCGAGCTTCTTGCAGGATGTTTACGTCTACAAGCGTTTTATTGCCTTCCTGCACCCATTTAAGACGGCTGCCAATGAAGGGGCCCAGCTGGTCAATTCATATTATGCTATCCATAACGGGGGCCTTTTTGGCTTAGGCCTGGGCAACAGTATCCAGAAGCGGGGCTATCTGCCGGAACCTTACACCGACTTTATTTTGTCGATCATTGCCGAAGAAGTTGGCTCTCTTGGCGCATTAGTAGTCTTGGGCCTGCTTTTCTACCTGATGATTTTGATCATGGAGCGGGGGGTCAAGGCCCAGTCCCAGTACTCCACCTTGATCTGCTTCGGGGTGACCGCGATTATCTTTTTCCAGACTTTATTTAACGTTGGCGCGGTCTTAGGCCTCATGCCGATCACCGGGGTGACCCTGCCTTTTATCTCTTACGGGGGTTCCTCACTCTGGGTCTTGTCGGCAGCGATCGGCCTGGTATTAAATGTTACCGCGGAAGAAAAAATCAGACAGGAGGTGCAAGCAGAGGATGAGTATTAA
>SRR1919932_00131 hypothetical protein
ATGAGTATTAACCAAGAATTAGCTGACCAAGAGATTGCCAGCCGGACCAGCTTGATCGTTTATTTGCGTAATGTCAACAACGATCAGTTCAAGCTGCGCAGGTTCGGGGATATTGTTTATTTTTCCAAAAAGCTGCACTATTTGATTCTCTACGTCAACCAGGCAGAGGCGGAAGAAACGGCAAGCAAGCTGCGGACCTTCAGCTTTGTTAAGGAGGTTGAATTTTCCCAAAATGATGCCCTGGACCTGGACAACCAGAAGATTGAGCAGCAGATCAGTGACATGGCCAAGGAGGCCGAAGAGAAGTTAAATCAGACAGATAAAGAGGACTGGATTAAGTGA
>SRR1919932_00132 rRNA methyltransferase
GTGAGAATTATTTCTGGAAAATACGCCAAACGGAACTTGTTTACCCTCAAGAGCCAGAAGACCCGGCCGACCAGCGACAAGGTCAAGGAATCCTTGTTCAATTCCCTGGGCCAGTTTTTTGCTGGAGGAGAGGTCCTGGACCTGTACGCGGGCAGCGGGGCTTTGGGGATTGAGGCAGTTTCCAGAGGCTGCGAGCATGCGGTGCTGAACGACGTCAGCCGGCCGGCCTGCCAGATCATCAGGAAAAACGTGGACTTGACCAAGGAGCCGGACCGCTTTGAGGTCTTCACCATGCCGGCGAAAGTGGCCTTGAAGGTCTTCGCTGACCAGAAAAGGAAGTTTGACCTGGTCTTTTTGGACCCGCCATATGCCAAGCAGCAGATGGTCAAGGACATGACGGCTCTGGCTTCCCTGGACCTGCTTAAGCCGGGGGCAAAAATTGTCGTGGAAACTGATGAGCAGACAGACTTGCCGCCGGTTGCCGGCTTTGACCTTTTGAAAGACCACCATATGGGCAAGACGATCGTAAGAATTTACCAAAGGGCAGAATAG
>SRR1919932_00133 phosphopantetheine adenylyltransferase
ATGACTACAGCGTTGTTTCCGGGGAGTTTTGACCCCATTACCAACGGGCATATGGATACAATTGAGCAGGCGGCGAAGGTCTTTGACCGCCTCTTGGTCGTAGTGATGACCAACAGCTCAAAAAAGGCGCTTTTTACGCCGGATGAGCGGGTGGACTTGATTAAGGACGCGGTAAAAGAGCATGGCCTGGCCAATGTCGAGGTCCTGGCCCGGCCGGGCCAGCTGACGGTGGACCTGGCCAAAGAATTAGGGGCCGGGGTTTTAGTCCGCGGGGTCCGCAACAGCAGCGATTTTCTCTATGAGCAGCAGATCGCCCAGTTGAACCGGGACCTGGCCCCGGACCTGCCGACTGTTTTGTTTATGGCTGAGGCGGCCAACAGTGCTTTGGCATCGAGCATGCTGAAGGAAATCGCCATGTTTGGCGGCGAGCTGGACCGCTTTTTGCCCAAAAAGGCTGCCAGAGCCTTGAAGGAGAAGTTGCAAAGTGAAAGTTAA
>SRR1919932_00134 hypothetical protein
GTGAAAGTTAAGAAAGACGGACAAAGCAAGAAGTGGCGCCGGGCCCTGGTCGGCTTGTTTGCGGTTATCCTGCTGGCCCTGGTCCTGCTCTTGCCAACCAAATACGTGATTGAGGCGCCCGGGGATGCCCTGCCGGTCGGCAATTATTTAAAGACGACAGGGGTTAAGGCTAAAAATAACCTCTACTTCGTGACCGTGAGTGAGCGGAGGGCGGTTTTGGGCGATTATTTATGGTCCTTTACCCAGCCTTATGAAGACCGCCTGACCATGGATGAAGTGACCGGGGGATCAAGCACGGAGCAATATGAACAGCTGCAGGAATGGTACATGCAGACCAGCCAGCAGACGGCCATCTATTACGCGGCCAAGAAGGCCGGGCTTAAACCCAAGCTGAAATACCAGGGCGTATATGTGATGGACCTGCAGTCCAGCTCCAGTTTTAAAAAGAAGCTCTTGATCGGGGACACGATCGTAGCGGCTAATGGGCACAAGTTCAAGTCTGTCCAGGGCTTTATGAGCTACCTGCAGAAGCAGAAGATCGGGCAGAAGGTGTCGATTACGGTTTTGCGGTCCGGGAAGAAGCAGACTTTTACCGGGAAAATCGTCAAGGTGAAAGGCACCGGCAAGCCGGGGATCGGGATCAGCATGGTGGAAAGGGTCAAGGTGGAAGTCAGCCCGAAGACGACGATTAGCACGGGCGACATTGGTGGCCCGTCAGCTGGTCTGATGTTCTCCCTGGCCTGCTACCAAAACTATACTGGCAAGGACTTGACCAAGGGCCACAAGGTAGCCGGGACGGGGACGATCGATGCAAACGGCAAGGTCGGCATTATCGGCGGCGTGGACAAGAAGGTCGTGGCCGCGGATAAAGAAGGGGCAGAAGTATTTTTCGCCCCAACTGACCAGACCGGGGTCAAGAAGTCCCAGACCAACTACGCGGTGGCCAAAAGAACGGCCAAGAAGCTGGGCACGAAGATGAAGATCGTGCCGGTGGCAACTTTTGATGATGCCTTGAAATACCTGCAAAAGCATTACAAGTAG
>SRR1919932_00135 competence protein ComEA
ATGAATCAGTCAAACGAAAGAACGGAAGGCAAGCAAAAGCTGCAGGACCTGCTTGCCTGGCTTATGGATAAGAAAATGTACATCGTAGTCGTCTTGCTGGCGGCCGGGGGCTTTTATTATGCCAACCGGCAGCCGGCTGCTGACAATTCTGCTCTTTTGTCCAGCAGCCAGAGCATGAGTGAAAACAGCGGGCAAAGCCTGCAAAGCTCCAGTGTCAGTTCAGTGGCTGCCAGCGCCAGCTCAGCGGCTTCTGCGGCAAACGCTGAAGTAGTCTGCGATATTTCAGGAGCAGTCAAGCACCAGGGGGTCTACCGGCTGAAAAACGGAGCCCGGCTGGAAGAATTGATTGAAAAGGCCGGGGGCTTGACCAAGGATGCCCAATTGCAGGCCATCAACCGCAGCCAGCTTTTAAAAGACCAAGACAAGATCTACATCCCCGGCAAGGGGGACAAGACGGAAGCGGCCCAGACCGCTAACTCTGCTGCAGCATCCGCTCCGGCTTCTTCTCCTTCTGCATCAGCCTCATCAGTCTCTTCTTCAACTTCCGGGGCAGCTTCTGGTGACTTGATCAATTTGAACACGGCTACAGCCAGCGATCTGCAGAAGCTGAACGGGATCGGGGAGAAGAAGGCCGAGCAGATCATTGCCTACCGGCAGGAAAAAGGGTCTTTTAAGAGTATTGACGAGTTGAAAGAGGTGTCGGGAATTGGCGACAAGACCTTCGCGGCAATTAAGGACCAGCTTACAATCTAG
>SRR1919932_00136 competence protein ComEC
TTGGCGACAAGACCTTCGCGGCAATTAAGGACCAGCTTACAATCTAGCCTGCAAGCCGGCTTTTACTTTCTTTTGGCCTTGGCCAGCGTCAGCTTGTGCGGGATCTTCCAGTCGCAAAAATGGGGGAAGCTTTTTGCCCTGGCCGCCTTGCTCTACCTGCTCTTTTTGCTCAAGGATAAATATGGCGGTTTGTTTAAACTCGCCCTGGCCTTCTTGCTCTTATTGACTTTGGTCCTGGCTAAGGACCAGGTTAAGCTGGGTGAGCCGGCAGGCGACATCCGCCTGTACCCCGACCAGGTGAAAATTACCGACGGCTGGCTGAGCGGGCGGGGGCAGACGGCCACGCAGAAAGTGCAAGTTTACGGGCCGGTAAGCCGGGAGGCACTAGCCTTGCTGGAAAACGGGCAAAGCATCGACTTAACTGAAGTTAGCGGCGCGGTCAGTGAAATAGAGCCAGCGACCAATCCCGGCCAGTTCGACTACCGCCGCTATTTGGCCAGCCAGCATGTCTACCGGCAGGTCAAGCTGGCTCATTATCAGGTCAAGCTGGCTCCGGCTAGTCTTCTTACCCGCCTGCATGACCTCCGCTGGAAAATTCAAGCTTATCTGAGGCGCCTGCCCCGCCTATTGGCCTTTTTTGCCAGTGAACTGCTGCTAGCGGAAAATCCGGCTGGGGACGACCAAGCCAACTTGAATACCTACCGGGACCTGGGGGTTATCCATATCTTGAGCATTTCGGGGATGCATGTGGGCATTTACGTCTTTGCTCTGGCGGTTTTCGGCAGCTACCTTCACATGACCAAGGAGGAAGTTTTTGCCGCTTCCTGCGCTCTATTGACCTTTGAGGTCTTCTTGAGCGCGGGCCAGCCAGGTTTTATCCGGGCGACTCTTAGCTATGTTTTTTCAGCCGGATTAGCCTTTAAGAGCCGGAGGATCGGCCGGGCTGACCTGTTGGGCTTGACTTATTGCTGCCAGCAGCTTTTTACTCCCCGCCTTTTGCTGGAAACCGGCGGGATCTTGACTTATGTATTAGCCCTGGGCCTGGTCTTGACGGCGAAATTGCCAGACTGCAAGCAGGCTTTTTGGCTGAACGGCATGCTGACGCCTTTTTTGCTCTACTTTTTCTACCAGGTCAATGTCTGCACGATTTTTTACAATATTTTAGTCGTGCCCTATTTCAACTATATTGTCATGCCCATGACCGGCCTGGCCTTGCTGGCTCCGCCGGGTCTAGCGGCTTTTTTTGAAAAAATCCTGGAGGCGGCGGAAGGGATGCTGGCTAATGTGGCGAAAACCGGCTTTGGCCGGCTGATCTATGGCCAGGTCAAGGCCTGGCAGCTGGCCCTGCTTTTTGCCTTAACCTTCCTGTATCTCATCACGCGGAAAAAGAAATACCGCCATATTCTGGCGGCGGTCTATCTCTTAATTTTTGTCAGCATCCACTTTCCCTTGGAAGGGCAGGTCTCTTTTATCGATGTGGGTCAGGGCGACAGCATTCTTTTAACGACGCCCATCCGCCGCCAGGTCTACTTGATCGATACCGGGGGCAAGCTGACTTTTGGTAAAAAGAAACAGAGCCAGCCCCAGATCGACCGGATTACCATTCCTTTGCTTAAAGCCCAGGGAATCAGCCAGATCGACGGGGTCTTCGTCAGCCACCAGGATGCTGACCATGTTGGTGACCTGGGCCCCCTGCTCGAGGAAATGCCGGTTAAGCGCCTCTATATGGGAGCAGGTCTTATTCAAAATCCGAGCTTTAGGGCCAGGATAGCCGGCCGGGTAGAGAAGACTAAGCTGGTTGAGCTGAAGGCAGGGATGGAGGTGAAAGAAGCGATCAACTTCCAGGTTCTTCACCCGGAAGTAGCGGGAAAAGGGGAAAACAAGGACTCCTTGTCGCTTACCTGCCGCCTGGCTGGGAAAAGCTGGGCTTTTACCGGGGACCTGGACCAGGCAGGTGAGGAGGCAATCATTAAGAAGTTTCCCGATTTGAAAATTGACTACTTCAAACTTGGCCACCACGGCAGCGATACTTCTTCTTCAACTGTCTTTTTGCGGGCAATCCAGCCAAAATTAGTCTTTATCTCCGCTGGCCGGAACAACCGCTACCACCACCCCAAGCCGGAAACCTTAGCCAAATTGCACCAGCTGGGGATTCCCTATCTCAATACCCAAACGGAAGGGATGATCAGCTGGCATTACGGCATCAGGGAATACTTCAGCAGTTTTCTGGAAGGGCGGCGGGTGTGTTATCATTATTAA
>SRR1919932_00137 DNA polymerase III subunit delta
TTGCCAAATTTGATATCCCTGTTTCCTAACAGCCAGGCGGGAAACCCGAATGTCCTGCTGCAGGGACCGGACGCTTTTTTAAATGACTATCTGGCCCATAACTATGTCCAGCAGGCAGCCTTTCAAGGCCTGGAGAAGGTGACGGTTGACTGTGAGAGCGACCCGCTGGACGACTTGATCGCGGCCTTGGCGGAAGCCAGTCTTTTCAGCCAGCAAAAATTAGTCTTAGTCAAGAACCCCATCTTTTTGACGGGAAAGTTCCCGGCCAAGTACAAGCAGCAAGGTGACCGGCTGCTGGAAATCTTCAGTCACCTGGACCAGATCGACGACGTGATCGTTTTAGTCGCCAGCTATGAGAAGCTGGACCGGCGCAAGAAACTGACCAAGCAGGTGGAAAAGAGCTTCAATACGGTCTCAACCGCGGTCAAAAGCTATGAAAGCGGCCGGGTTATGCAGGCCTTGGTCAAGGCTGAAGGCTACCGCTTTGCCGGCGGGGCCCTGGACTTGCTCATGGAGAGAAGCGACCAGGTCCTGGACGCGGCCCTGGGCAATTACAACAAGCTGAAGGCGATCAGCGACGGCCAGGAAATCAGCCGGGACCTGGTGGACCGGAATATCGATCTCAGCTTAGACCAGAACGTTTTTGCTATTCTAGAGGCTGCCTTAAGAGGGGACTACCAAGAGGCAATCGACCGCCTGGACGGGCAGCTGCGGGAGGGGACTTATCCCTTGCAGCTGGTCGCGGTCTTTTTCAGCCAGGTTGAATTTTTGCTCTGCGTGAAGGTGATGGGACAGAGAAGGCGGAGTGAAAGCGAGATTGCCAAGGAATTGTCCGCCCACCCTTACCGGGTCAAGACAGCCTTGAAGTCCAGGGCGAAGGTCGGCCAGCTGAAGAAAATGCTGGGCCAGCTGATCCAGCTGGACTACTGCTACAAGAGCGGGGTCTACCAGGGCAGCCGCTTTTTAAAGGCTTTTATCCTGACCTGCTAG
>SRR1919932_00138 30S ribosomal protein S20
ATGCCACAAATCAAATCTGCTATCAAGCGTGTTAAGACTCAAGCTGTTGCTAACGAACGCAATGCTGCTCAACTCAGCACTATGAGAACTGCCGTTAAGAAGTTTAAGGCTGCTCAAGCTGCTGGTGCGGACAACGCCTCCGAATTACACGTTGCTGCTATCCGTGAATTGGACAAGGCTGCTTCAAAGGGCTTGATCCACAAGAACAAGGCTAACCGTGACAAGAATCGTTTGGCTAAGCTTGCTAAGTAA
>SRR1919932_00139 30S ribosomal protein S15
ATGGCAGTTTCAAAAGAAAGAAAGAACGAAATCATCAAGGAATACGCAACCCACGAAGGCGACACTGGTTCCGTAGAAGTACAAGTTGCTGTTTTGACTGAAGACATCAACAACTTGACTCAACACATGCGTGAACACTCACACGACCACCACTCATACGTTGGTCTGTTGAAGAAGATCGGTCACCGTCGTAACTTGCTCCGCTACTTGCAAGAAAATGACTTGGAACGTTACCGCGCTTTGATCGCTCGTTTGGGTTTGCGTCGTTAA
>SRR1919932_00140 RNase J family beta-CASP ribonuclease
ATGTCAGACAAGTTAAAAATAATGGTTCTAAGCGGGGTCCGCGAGCAGGGCAAGAACATGTTTGCCGTTCAGGTGAATGATGAAATCTTTGTTTTGGACGCCGGCCTCAAGTACCCGGACAGTTCATTGTTCGGGATCGATGTGGTAATTCCGGACATGGAATTCTTCAAGCAATACGGCGATCAAGTGGCGGGGATCTTTTTGACTCACGGCCACGCTGACTCCATCGGGGCCCTGCCATACATTTTGCGGGACTGGGATATTCCGGTTTTTGGTTCAAAACTCACCATTGAACTGGCTAAGATCGACGTGGAACTGGCCAAGATCGACGTGCAAAGAGAAAACAAGCGGCGGAACAACCAGCTGTTCAACGTCATCGACGCCGATACGGAAATCGACTTCAAGAATGCCAGCGTGTCCTTCTTCCACACCACTCACTCAGTGCCAGACTCTTTGGGGATCGTCATCCATGCTCCCCAAGGGCAGATCGTCTACACCGGTGACTTTAAGTTTGACCCGTCAGCCCGGCCAGCTTACCGCACTGACATGACCCGGCTGGCTGAAATCGCGAAAAACGGCGTTTTGGCCCTTTTGCCGGACTCATCCAATGCTGAGGCTGTTTTACCGAATGCCAGCGAAAATGAAGTCGGCAATTACATCACCAATGTCTTCAGAAACGCCAAGGGCCGGATCATCGTGGCCGGCAAGGCTTCCAACCTAAACCGGGTCCAGCAGGTCTTTAACGCCGCTGCTGCTACCAGCCGCCGGGTCCTTTTGACCGGCCGGGACGTGGCTAAGATCGTCCACACGGCCATGAAGATGGGCTATCTGGAAGTGCCAGACGGGCTTTTGATGAAGGCCAAGGAACTCAAGGACGTGCCGGATGAAAAGACGGTCATCCTGGAAACCGGCCGGATGGGTGAACCGCTCCAGTCCCTGCAGAAGATGGCCAATAACCGCCACCGGACGATTACCATCCACGAAGGGGACCTGGTCTTTATTGCCACGACTCCGTCTCACGCCGTTGAAACCACGGTGGCTATCACCAGTGACATGGTTTACCGGGCAGGCGGCACGGTTATCGAACTTGGCCGCAACATGCACACTTCCGGCCACGCGACTGGCCGGGACCTGCAGACCTTGATTGACCTCTTGAAGCCGCGGATTCTGGTACCGGTCATCGGGGACTACCGGCTTTTAGAAGCAGTCAAGGACTTAGCCGTTGAAACTGGGATGGACCCGGACGATGTCTACATTACCCAAAACGGGGACTGCCTGGAATACGACACTAAGCGCGGCCAGTTCTTCCGCGGGGATGCCGTGCCGGGTGAAGACACGATGATCGATGGCTCCGGGGTCGGCGACGTGGGCAACATTGTTTTGCGCGACCGGGAAGTTTTGTCAGATGACGGGATCTTCATCGCGGTAGTGACGATTGACCGCAAGAAGAAGAAGATCGTGTCTGAACCGCAAGTCACCAGCCGGGGCTTTGTCTACATCAAGGCCAACCAAAAGCTGATGAATGACTCTATCCAGGTCATCAAGGACGCTATCCAGGCCAACTTTGAACACAAGAAGTTTGACTGGACTGAACTCAAGCAAGACATGCGCTCCAGCCTGGGGAAGTTCCTTTACAAGCAGACCAACCGCCGGCCGGTCGTTTTGCCAGTTGTCATGGAAGTCAACCAGAACCGGCACCGGGCAATGCAGAAGAAGGCCGAAGACGCGGCTGAAGGCAACAAGGAAAAGCCGGTTAAAAAGCCGGTTAAGAAGAACAACCGCAAGAAGCAGACCAGGCCGGCAAACAAGTCCGCTAAGGGCAAGAAGCCGGTAAACAAGAATAAGAAGGACAGCAAGGCAGATGACAAGCGTTAG
>SRR1919932_00141 hypothetical protein
ATGACAAGCGTTAGCCAAGAGAACCTGCGGAAATTGGCCATAGAGGCTGAAGCAGGAGGGGACTACCAGGCTGCCTGCGGGCACTTGGAGGAGGCCCTGAGGCTGGGCTTTGACGAGGACCTGGCCCTGGACTTGTCCCGTTTTTTGCGCTTAAACAAGGAAGAAGATCAGGCTTATGCCCTTATCAAGGCACTGCCTGATCTTTTTTCCCGGGATAAAGTGCTGGAGGAGTATGGACAAGTCCTGACGGCCAATAATTTTTTGATTGAGGCTCTCCAGGTCAAGCATTTGACTGAGGGAGAGGTCGACTTCCCGGTTTTGCCAGCAGACAAAAAGGAACAAGAGAAAATCCTGCTTGCTTTTAGAAAAAAGCAGGCAGTCAGCCAAAGCCAGTACGAGCAGCTCTTGAAGCTGGATTTGCCGACCTACCTGGCCTTTGCCAGAAGCCTTTTGCTGGATCCCCTGGCTAACTACGCCTTGCGCCTGGCGGTGTGCGAGGACCTGGTCAAGCTGGGGGTTAAAGAAGAGATGCAGGTTATGATCCTGGGGGACTTGAAGAGTTTTGTGCCCGCTGAAACGGATTTGCTCAAGCAGGATCCGGTTTACCGGGAATTTATCACTTCTCTGGCCAGCCGCTACCAAAACCGCCCAAGCGAACTGCCCTTGATCTTGGCTGAAGGAAATTTCGCTTTTGGCCAGCTTTATCCCTGCCAGGGAGATTACGTGACTAATCCCGATGCTTTTGCCCGGGACTTGACCGGCTTTTTACGGCAAAAGCGGGGCGGGGAGAGCCAGAATTTGCTGGAAAAAATCTATCAGAAAAATAGTGATTAA
>SRR1919932_00142 translation elongation factor Tu
ATGGCAGAAAAAGAACATTACGTTAGAACTAAGCCACACGTTAACATTGGTACTATTGGCCACGTTGACCACGGTAAGACTACTTTGACCGCAGCTATCACTACTGTGTTGGCTAAGAAGGGTTTGGCAAAAGCTGAAGATTACTCACAAATCGACGCAGCTCCAGAAGAAAAGGAACGTGGTATCACTATCAACACTGCCCACGTTGAATACGAAACTGAAAAGCGCCACTACGCCCACATGGACGCCCCAGGCCACGCCGACTACATCAAGAACATGATCACTGGTGCTGCTCAAATGGACGGTGCTATCTTGGTTGTTGCCGCAACTGACGGTCCTATGCCACAAACTCGTGAACACATCTTGTTGGCTCGTCAGGTTGGTGTTAACTACATCGTAGTCTTCTTGAACAAGTGCGACTTGGTTGACGACCCAGAATTGATCGACTTGGTTGAAATGGAAGTAAGAGACTTACTTTCAGAATACGGTTACCCAGGTGACGATGTTCCTGTAGTTCGTGGTTCAGCTTTGAAGGCTCTTGAAGGCGACGAAGAAGCTCAAAAGAAGATCGAAGAACTGATGGACGTTGTTGACGAATACATCCCAACTCCAGAACGTGAAACTGACAAGCCATTCTTGATGCCAGTTGAAGACGTCTTCACTATCACTGGTCGTGGTACTGTTGCTTCAGGCCGTATCGACCGTGGTACTGTTAAGGTTGGCGACAGCGTTGAAATCGTTGGTTTGGTAGAAAAGGTCTTGACTTCAGTTGTAACTGGTTTGGAAATGTTCCACAAGACTCTTGACTTGGGTGAAGCCGGCGACAACGTCGGTGTATTGCTCCGTGGTGTCGACCGTGACCAAATCGTTCGTGGTCAAGTTTTGGCAGCTCCAGGCTCAATCAAGACCCACAAAACTTTCAAGGGTCAAGTCTACATCTTGAGCAAGGACGAAGGTGGCCGTCACACTCCATTCTTCTCAGACTACCGTCCACAATTCTACTTCCACACCACTGACATCACTGGTGAAATTGAATTGCCAGAAGGTACTGAAATGGTTATGCCTGGTGACAACACTGAATTCTCAGTTACTTTGATTAAGCCAGCCGCTATCGAAGTTGGTACTAAGTTCACTATCCGTGAAGGTGGTAGAACTGTTGGTGCCGGCCAAGTTACTGAAATTGACGACTAA
>SRR1919932_00143 trigger factor
ATGTCTGCTAACTGGAAAACTACCGGTAAGACTACTGGTGAACTTTCTTTTGAAATTTCTCAAGATGAAATCAAGAAGAGCCTGGACAAGGCTTTTGACCGCGTAAAGAAGAGCTTGCGTGTACCTGGCTTCCGTAAGGGGCACGTTTCCCGTGTAATCTTCAACCAATACTACGGTGAAGAAGCTCTTTACGAAGACGCTTTGAACTTTGCTTTGCCAGAAGCTTACAGCGCTGCTGTCAAGGAAACTGGCATCAAGGCAGTTGGCCAACCTCAAATCGTTCCTGTATCAATGGGCAAGAACAAGGCCTGGGAAATGAAGGCAATCGTAACGGTTGAACCAGAAGTTGAACTTGGCCAATACACTGAAATTGAAGTGCCAAAGCAAAACACTCGCGTTTACCAAAAGGACATCGACGCTGAATTGACTAAGCGTCAAGAACAAAACGCTGAAATGGTTTTGAAGAACGACAAGGCTGAAAACGGCGACACTGTAACCATCGACTACGTTGGTACTGTTGACGGCGTTGAATTTGACGGCGGCTCAGCACAAAACTACTCCCTGGAACTGGGCTCAAACACCTTCATCCCTGGCTTTGAAGACCAACTGGTTGGTCACGGCGCCGGCGAAGAAGTTGACGTTGTCGTAACCTTCCCAGAAGACTACGGCGCAAAGGACCTGGCTGGCAAGGAAGCTCACTTCGCAACCAAGATCCACGAAGTTAAGGCAAAGCAATTGCCAGAACTTGACGACGAATTTGCCAAGGATGTTGACGACTCAGTTGAAACCCTTGACGAATTGAAGGAAAAGATCAAGGCTGAACTGAAGTCCGAAAAGGAAGAAGCAGCCAAGGCAGCTATCCAAGAAGCAGCGATCACTACTGCAGTCAAGAACGCTACTGTTGAAGAAATTCCTGACGTGATGATCCAAGAAGACGTTGACAACCAACTCAACCAATACTTGGGCGACATGCAACGTCAAGGGATTGACCCGCAAACTTACTTCAAGTTGACTAACACGACTGAAGACCAACTGCGCAGCCAATTGTCAGCAAACGCTGCTGAACGCGTTAAGACTAACCTTGTTTTGGAAGCAATCGCTGCCAAGGAAGGCTTCGAAGCAAGCAAGGAAGAAATCGACGCTGAAATCAAGGACCTGGCTGACAACTACAACATGAGCGAAAAGGCAGTTCGCAACGCTTTGAGCGACGAAATGCTGGCTCACGACATCAGCGTCCGCAAGGCAATGGACTTAATCACTGACAGCGCTAAGCAAGTAGCTAAGGCTAAGCTTGAAGAAGGCAGCGAAGACGAAGAAGACAAGTAA
>SRR1919932_00144 ATP-dependent Clp protease ATP-binding subunit ClpX
ATGGCTACTAAGTTTACAGATCCAGAAGAAGTGAAATGCTCATTCTGCGGCAAGTCTGCCAGCCAAGTAAAGAAAATGATTGCGGGTAACGGCGTATACATCTGCAACGAGGACATTGAACTCGCCAAGCGGATCATTGATGATGAGCTGCGTCTGGATTCACTGAAGGAAGCGCGCGAGCTTCCCAAGCCAATGCAAATTAAAGAAGAACTGGATCAGTACGTGATTGGCCAGGACCGGGCCAAGCGGGTTCTGTCCGTAGCGGTTTACAATCACTACAAGCGGATCAGTCAAATGGATGTTGATTCTTCAACCGAATTGCAGAAGTCAAATATTGCCTTGATCGGGCCAACTGGGTCCGGCAAGACCTACCTGGCTCAGACTTTGGCCAGGATTTTGAACGTGCCGTTCGCGGTCGCGGACGCAACTACTTTGACTGAAGCCGGTTATGTCGGTGAAGACGTCGAGAATATCCTGCTTAAGCTGCTCCAGAATGCTGATTACGACTTGGAGAGAGCCCAGCGGGGGATCATTTATATCGACGAAATTGACAAGATCTCCAAGAAGTCAGAAAATGTGTCGATTACCCGGGACGTGTCCGGTGAAGGGGTCCAGCAGGCTCTTTTGAAGATCCTGGAAGGGACCATTGCTTCTATTCCGCCGCAGGGCGGCCGCAAGCACCCGCAGCAGGAAATGATCCGGATGGACACCACCAACATCCTCTTCATTGTCGGCGGGGCTTTTGACGGTATCGAAGAAATCGTTAAGAACCGGCTGGGCAAGAAGACTATCGGTTTTGGGGCAGAACAAGAATCTGGCAAGGTTGACGATGACAACTGGAACCGTTTCTTGACGACCGGGGACTTGGTCAAGTTTGGCTTGATCCCTGAATTCATTGGCCGGATTCCGATTATCACTACCTTGGACCGGCTGGACAGTGCTGATTTGGTCCGGATCCTGACTGAACCAAAGAATGCCTTGATCAAGCAATACCAGAAGCTGCTTTCCCTTGACGGGGTTGACCTGGAATTTGAACCTGCCGCCGTCAAGCAGATTGCTGATCTGGCTATTGAACGGAAGATGGGGGCCAGAGGCCTTAGAACCATCATTGAAAATGCCATGATGGACATCATGTACAGGACGCCGAGCGAAAGCGACATCAGCAAGGTCATCATCACGCCGGAAACAATTACCGGGATGGGCGAGCCGAAGGTGGTCCACCGCGAACTGGAAGAGGTTGCCGATGATCATTAA
>SRR1919932_00145 GTP-binding protein
ATGATCATTAACCAATCAGAATTTTCCGTCAGCGCGGTTAAAGCCAGCCAGTACCCTGAAGGCGGCCTGGATGAAATCGCCCTGGCTGGCCGGTCAAACGTGGGCAAGTCCAGCTTCATCAACACCCTTTTGCAAAGAAAGAACCTGGCCCGGACCTCCTCGTCGCCGGGCAAGACCCAGACCTTGAACTTCTACCGGGTGGACAGCGACCAAGCTGACTTTTACCTGGTCGATGTGCCGGGCTACGGCTATGCCAAGGTCTCCAAGAAGCAGAGGGAAGAGTTCGGGGAAATGATCCAGGATTACTTGGAAACCCGGGCCTACCTCAAGGGCTTGATCCTGCTGATCGACGGCCGCCACGAACCAACCGCCGACGACATTGCCATGTATGACTATGCCCAGTATCTCAACCTGCCGATTTTACTAGTGGCCACGAAGATGGACAAGATCAAGAAGAATGCTTTTAACAAGACTGAAGCAGCCTTCAGAAAGCACTTGAACTTGAATAAGGATAATGTGACTTTCCTACCATTTTCATCAGTGACTAAGCTGAACGTTGACCAGGTCAAGGACTGGATCCAAGCCAGATTGGACGAAGAATAG
>SRR1919932_00146 hypothetical protein
TTGGACAACAGCAATTTGCTGACCTACCTGGAATGGCGCGGCGACATTCCCTTGGAAAAGTCTCCTTTCAACGAAATCGACGCTTTAGTCTTAGCAATTTTTTCTTATCTTAACCTGGAAAAGTACATCCCTTCCGGCAACAAAGAAGTGACAGTTGGCGAAATCGCCGAGAAATACTTCGCCTCTTCCTTCACCGGCCTGGACGCCAGCCAGTACCAGGAGCTCTTCCACTTGATGAGCGAAGCCGACCGCTTTAAGGATGCCCGCTTGTCCCACTTCAACACCGTTTTGACTGACCAGTGCCAGTTCAGCGCCTTGAAAATCGTCCTTGAAGACGGCACCCACTATGTGGCCTTTAGAGGGACCGACGACACCCTGGTTGGCTGGCGAGAAGACTTTGAGATTTCTTTTAAAGAAACCAAGGCCCAGATCTTAGGTGCCCGCTACCTCAAGGACCTCCTGGCCGGCGACTCAGCTGACTACATCCTGGGCGGCCACTCAAAGGGGGGCAACCTGGCTGAATACGCCGCCTTGAATCTCCCAGAAGACTACCGGGCCCGGATCAAGGCCGTCTACACCTTTGACAGCCCCGGCCTGGCCAGCGAAGCCGGAGTCGACTACAACGAGGACTTTTTGCGAAGGGTCCTCCGCCGCTACGTACCCGAGTTTTCGATTATCGGTCGCCTCTTTGAACCAAGAGAGGTCGACCCGGTCATCGTCTACTCAACCAATGTCAATATCGCCCAGCACGATACCTATTCCTGGCAGATCAAAGGCAGCCATTTCGTGACCCGCAAGCGGCCCAATCCTGAGTCCCGGGTCTACAACCAGCTGATCAACCAATGGATCGGGTCAGCCAGCCTGGAAGAGCGGGAAGCCCTGACCCAGGACCTCTTTGATGCCCTGGCGGCTAGCGGCTCGAGCAAGATCAACCAGCTGGCCAAGAACGGCTTCGGGGGCTTCGGGGCCATCCTTTTGTCGGTGACTAACTCCTCAAGGCGGACCAAATTCATTTTGGGCAATCTCTTTTCCTCGATCTGGCAGTTGATCAAGAACCAGCAGATCGGAGCGGCCTTGTTCAGCCGGGACACCATGGCCGGCTGGCTCCTGGTTCTGCTCGGCATCATCAGTCTGACAGCACCTAACTATGCCTTCAAGGCCTTCGGGGTGCTAGCTGCTGTCGGGGGGATCATTTTCAGCGTCAACCATATCCTCACGGTCTCAGTTTCGGCCTTTAAACCGCAGCAGAAACGCTTCTTCCTAATTACCTACCTGGTCTTGTTCGCGGTCTCTATAGCCCTTTTATCGAGCAACCAGCTCCTGGTCTTTTTGGCTCACTACTTCCTGGGGGCCTTCCTGCTCTTTTACGCCTATGGCCGCAGCCGCAAGATTATCTTAAGGCGGCAGACCGGGGTCTTCCGCATGATCATCACCGGGGCGGAAGCCGTTATTTCTTTTGCCCTAGGGATCATCGTGATCATCACCCCAGAATACTTCAACCACCAGTCGATCATCGAAATCGGGATCCTCTTGATCATCTACGGAGCCTTCAAGCTGGTGGCTGAGCTCTTCAACCACCGGCCGCAAATGCCGAAAAAGCACCGCTAA
>SRR1919932_00147 hypothetical protein
ATGGGTTTAACCTTTAAAAGACAAGACGACTTAGACAAGCTCTTCGACAAATTCGCCAGCGTTCCCGACCCGAAGAAAGCCGCTTCTGGCAAGGGCAAGGAAAAGGAAGACGACAAAGCTGCCGGCAAAGAGGCAAAGTAA
>SRR1919932_00148 nitroreductase
ATGACTGACGCGATTGATACAATTAAGAGCTGCCACAGCACGCGCTATTTTGACCAAGGCAAGGAGCCCAGCCGGGCAGACCTGGAAGAAGTAATCCGCTTGGCCGGCCTGGCTCCGTCTTGGGTAGATTCCCAGCCCTGGCGGGTTTATCTGGCTATGGGGGAAACAGCCAAAAAGATCCATGCCCGCCACCTGGCTTTGGCTGAAGCAGGGACGGCGGCATCCCCAGACTGGGAGACCTGGCACCGGGAGGACTGGGATCCTTATCCAAGAGAAAACATGGCCCGGCACAACCAGGCCAGCCAGGAATATCTGAACACGCCGGAATTGCTGGACCTTAGGACTAATATTTTGCAGAAAAATCTCTACTATGCCCCGGCGATTGCCTATTTAACTATTCCCAAGCAGTCCAATCTTTGGTCAGTCTATGACCTGGGAGCCTTTGCCCAGACTCTGGCGCTTGCCGCCAAGGCCAAGGGGATTGACAGCATGCCGGCCTATGAATTGGTCAAATACCCGGCCAGTGTCCGGGAAATTATGGGGATTCCAGAAGACCAGACCCTGGCCATGGGAATCGGCCTGGGCTATGGCAAAGATGAGTACGTCAACGGCTACCAGGCTCCCCGCCGGGATCTGCCTGACTTCTTGACAATTAAGGATTAG
>SRR1919932_00149 hypothetical protein
ATGTTTGCAATGCAAGAAAACCAAACTATGTGCGTTTGTTGTATGTCACTTATGTCATACGACTGTTTTGTGTTGCCTAAACTGGATTTAGCTCAGACCAAGTGA
>SRR1919932_00150 oligopeptide ABC transporter substrate-binding protein
ATGCAAAAGATCAAGAAATTCACCCTTGCCGCCGTCAGCGTCAGTGCCGCCTTCCTGCTGGCCGCTTGCGGCAGTCAGCAGAGCTCAAGCTCAGCAAGTAAGGACAAGCAGGTTTTAAAGCTCAGCGCGACTGCTCCGCTGGATACGATCGACATCAGTAAGGCAACCGGCTACGGGCAGACTGGGAACGTTTTTGAAAGCTTCTACCGTTTGGGCAAGAACGGGCAGCCCGCCGCCGGCTTAGCCAAGTCCGGCACTGTATCCAAGGACGGCAAGACCTGGACCTTCAAGCTGCGGTCTAACGCCAAGTGGTCCAACGGGGAAAAGATTACCGCCCAGGATTTTGTCTACTCCTGGCGGCGGACGATCAACCCCAAGACTGCTTCGCCTTACGCCTACCTTTTCTCCGGCATCAAGAACGCCGATAAAATTATTGCCGGCAAGAAGTCTCCGTCCAGCCTGGGCATCAAGGCTTTGAACCAGGAAACCGTGCAAGTTAAGCTCAACCGGCCGATTGCCTACTTCAAGGTTTTGATGGCTTACCCGCTCTTTGGGCCGCAAAACGAAGCCTTTATCAAGAAGACGGGCAAGAAGTACGCGACCAGCTCCAAGTACATGCTTTACTCCGGCCCATTTAAGATCACCGGCTGGAAGGGGACCAATGATACTTGGTCTTTTGTCAAAAACAACCAGTACTGGGACAAGCAGGCAGTCAAGTTGAGCAAGATCAGCTACCAGGTCGTTAAGACTACCAACACCGGCTACCAGCTCTACCAGCAGGGCAAGCTGGACCTCACCCCACTGTCCAGTGAACAGGTTAAGCAGCTGAAGAAGAACAAGGACTTCAAGACCTACCCATACTCCTACGTTGCCTTCTTGGCCTACAACTTCCAGGCCAAGGACGCGACGGTTAAGAAGGCTTTGAACAACAAGAACATCCGCCTGGCCCTGTCTCTGTCACTTGACCGGAAGATTCTGACCAGCAAGGTCTTCGGTGACGGGTCAAGCGTGCCAACTGGCTTCGTGGCTTCTGGTCTGGCCTATGACCCGGCTAACAAGGAAGACTTTGCCAAGGAGCAAAAGGTGGCTAATACCGTTGACTACAATGAAAAGCTGGCTGAAAAGTACTGGAAGACCGGGTTGAAGGAACTGGGCTTAAAGAACCTGAACCTGACCTTGCTGGCTTCAAACGAGAGCACCAACGCCGACGCTCTGACCCAGTACCTGCAGTCCCAATGGACTAAGGTTTTGTCCGGCATCAACGTGAAGGTTAACTCCATTCCAAGCAAGAACGCCTACACCAAGGCTTCAAGCGGGGACTTTGACATCTACGTTTCCGGCTGGGGCGGGGACTTCAGCGACCCGATGACCTTCATGCAGATCTTGCAGAAGGGGACTTCCTACAACTACGGCAAGTGGAACAATGCGGAATACAACCGCTTGATCAAGAAGGCTTTGACGACTGATGCCAACGACGTTAACAAGCGCTGGCAGGACCTGGTCAAGGCAGCCCAAGTGGCCAACGCCGACCAGGCAGTCAGCCCGATCTACCAGCAGACGACCGCCTACCTGCAAAACAGCAAGGTCAAGGGGATCATCCACAACAATGCTGGTACCCAGTGGAGCTACAAGTACGCCTACATTAAGTAG
>SRR1919932_00151 hypothetical protein
ATGAATGAAGATAATGGTTCCCGCTATATCCAGCCACATGACAGCCTGGAGGCCATGGAACTGATCCAAAAACTCTTTAACCAGTACCGGCGGGCTCCCTTGACTCCCGAACTTCTTGCCTACCACCAGAACCTAATCGAACGCCTGGAAGGCGACATCCACCAGGCGGCTGAAGCAGAAGGCCAGGCCAAAAGAGTCCAGGAACTGGACCGGATGATCAAGCTGATGAAGTACTGGACCGCCATCCGCCTCTCTGGCCGGCCCTTTAACGCCAAAATGCGCCACTTCCGCTTCCTGCCAGAGGGCGGCCAGGTCAAATTCAAGCGGCATCCCCACAAAATCAAGGCCAGCTCCAGCCACCGGGCCAGCCGGCATTAA
>SRR1919932_00152 4'-phosphopantetheinyl transferase
ATGATCAAAAATATCGGTGTGGACCAGATTGAGGTGGACCGGATCGCCAAGGTCGTTGACCGGGGGGACGGCTTTGCCCGAAAGGTTCTGACCGACCGGGAATTTGCCCAGTACCAGGACTTGACTCATAAGCGGAAGATTGAGTACCTGGGCGGCCGCTTCGCCATCAAGGAGGCCTTCTCCAAGGCCTGGGGAACCGGGATTGGCCAGGCAGTTTCCTTTGAAGACGTGGAAACCTTGAGGACCGAGTCCGGCGCGCCCGTAACGACGTCGCGGATTTTTACGGGGCGGATTTTTTCCAGCATCGCGCATGATGATCACGAGATCGTCGCCGTGGTCGTGCTTGAAGAGCCGGCCGGCTGGCGCCGCGCGATCGGCAAACTATCGCACCTGTTATCTGGGAGGAAAAATGATCACAGCAGTTAA
>SRR1919932_00153 alanine racemase
ATGATCACAGCAGTTAATCGACCAGCAGCCCTGCATATCAACCTGGCTGCTATCAAGGAAAACACCCGGCAGGCCAAGGCCCACTTGAAGCCGGGCCAGAAGCTCTTTTGCGTGGTTAAGGCTAATGCCTACGGGCATGGGGCAGCGCGCCTGGCGCCGGTGATGGAAGAAGCCGGAGCAGACGGCTTCTGCGTGGCCATGCTGGATGAAGGGCTGGAACTGCGCCGGGTTCAGATCGTCAAGCCAATCCTGGTCTTGGGCCTGCAACCGGCTGAAGAAGCCGCCCTGGCTGCCGCCAACGACATTTCTTTGCCGGTGTCCAGCCTGGACTGGCTCAAGAAAGCGGAAAAGGTCCTCCGCAAGGAAGGCCTGCAGCTGAAGATCCACCTGGCCATCGACTCCGGCATGGGCCGGATCGGCTTTAGCGAAGACGAAGACTTCAAGGCAGTCAACGAATATCTGCAAGGCAATGATGCCTTCTTCGTGGAAGGGATGTTCACCCACTTTGCTTCCGCTGACTCTGCTGATGCCAGCTACTTTGACTACCAGGTCAAGCGCTTCAAGCACATGGAAAGCCTGCTGACGGTCAAGCCAAAGTGGATCCACGTGGACAATACCGCGGCCAGCCTCTTTGGCAAGGACGTAGCCAGCGACATTGTCCGCTTCGGGATTGGCCTCTACGGGCTCAACCCCTCATCAGCCCCAGGCAGCCAGGACTTAGAGCCTGCTTTTGCCCTTAAGCCGGCCATGTCTTTTGTCAGTGAACTGACCTATGTCAAGCAGATCCACAAGGGCTACGGGGTCGGCTACGGGTCAACCCACATCGCAGAAGAAGACGAATGGATCGGGACCGTGCCGGTTGGCTACGCTGACGGCTGGATCCGGAAGTTCCAGGGCTTCAAGGTCAAGGTCGGGGACACTTACTGCCCGATCGTCGGCCGGGTCTGCATGGACCAGTTCATGGTTCTTTTGCCCAAGGAAGTGCCGGCTGGCACGCCAGTTGAACTGATCTCAGCTGATCCGGCAGCGCCAAACAGCCTGCGCCGAGCAGCTGACTGGCTGGATACCATCCACTATGAAGTGGCCTGCCAGTTTAACGACCGTCTGGACCGGATTTACGATAACGAATAA
>SRR1919932_00154 hypothetical protein
ATGTTAATCAAATCACTGGTCATCAAGAAAGACTACCTGACGACTGTCAACGAACATGCTACCCTGGAAGAAGCCTTGAAGGTACTGGAAAGCTCCGGCTACCGCTGCGTGCCGATCCTGGATGACAGCGGCAAGATCTTCCGCGGCAACATCTACAAGATGCACATTTACCGCCACAAGTCCCAAGGCGGGGACATGAGCCTGCCGGTAACCTACCTCTTGAAGAACGCCACCAAGACCATCAAGATCAACGCGCCATTCTTCCAAGTCTTCTTTACCATCAAGGACTTGCCTTACATTGCTGTTTTGGACACTGACAACACCTTCTACGGCATCTTGACCCACGCCCGCCTGCTGGACATGCTGTCCTCAGCCTGGAACGTCAAGACCGGGGCTTACGTCTTGACTGTCTTATCAACCAACGACAGCGGCAACTTGACCAAGATGACCAAGATCATCGCCAAGTTTGTCAACCTGGCCGGGGCCATGACTCTGGACGCGCCAGCCAGCGAATTTGACGGCAAGTACGTCCGCCGGACCCTCTTCACCCTGCCGCAAGGGACCACGGAAACTGAACTGAAGGCCATCTGCAAGAAGCTCAAGGCCAAGGGCTTCCCAGTCGTTGCCGTTGAAGACCTGGCTGCCGGCATGAACATCATGAGCGAAGAAAAGCCAGGCGTCTTCTTGAACGAAGAATAA
>SRR1919932_00155 peptidyl-tRNA hydrolase
ATGAAATTAATCGTTGCTTTGGGCAATCCTGGCCTTAAATATGAAAAAACCAAGCATAATACTGGCTTCATGGCCCTGGACCACTATTTAGATGAAAAGGGCCTGCGCCTGGACCGCGACAAGTTCACGGCCCTCTACGCCAAGGAGAAAGTGGCGGGCGAGGACGTGATCTTCATGGAGCCGCAGACCTATATGAACGAATCCGGCAGAGCCGTGGGCGCGGCGGCCAAGTTCTTCAAGATCGACCCCAGCGACATCCTGGTTATCCACGACGACATGGACATGCCAATCGCCAAGCTGCGGATCCGGGCCGGCGGCAAGTCGGGCGGCCACAACGGGATCAAGAGCATCATTGCCTGCCTGGGGACTGAGAAATTCAACCGCCTGAAGATTGGCATCCGGCACCCGGACAAGCAGAGCGTGGTTTCCTGGGTCCTGACTCCTTTTAATCCCGACCAGCAAAAGGAGCTGGAAGCCAGCTTTGCCAAGGTTGACCAGATCATTGACGACTTTATCGCTGGCAAAGACGCCCAGTACTTAATGAACCGTTACAATTAA
>SRR1919932_00156 transcription-repair coupling factor
ATGCAAGTAATTGATTTTTTGAAAAAAGATCAAGCAGTGACTGCTTTTATCGCTAAAACGTCCCGGATCAAGAACTCTCTGCTTACAGGAGTCGAACGGGGCGCTTTTGCTGTCCTCATCCAGGCTTATTTAGCCCAGGTGGGCCAGCCCCTGCTCTTGATCGAAGAGAATGAATACAAGGCTCAGGAGCGCTACAACGACTTGAGCCGGCTTTTGGCCGATGATGACCTGGGGCTTTTTGCCCTGGACGGTAACCTGGCCACGCAAACGGCGGTCAGTTCACCGGATGAACTCAGCAGCCGGATTCAGTGCTTGAACCTGCTCTTAAGCGGCCGGCCTGGTGTCGTGATCGCGACCCCGCAGGGCCTGCAGTATCCGTTAAGTGCCCCGGCCCTGTTTGAACAGGGACAGAAGCATTTTGCAGTTGGGGATGAAATTGCCCTGCCCGACCTGGCCCAGTGGCTGAACCAGGCTGGCTACCACCGGGAAAACCTGGTCGTTAAGCCGGGCGAGTTCGCTATGCGGGGGGACATCGTCGACCTTTATCCTTTGGACCGAGAAAGCCCCCTGCGCCTGGAATTTTTCGGCGACGAAATCGACACGATCAAGACTTTTGACCTGACCAGCCAGCGCAGCCTGGAGGAATTGCCGGAAGCGACCGTACCAGCGGCCAGTGACCACGTCTTTACGGCAGAAGACTTGGACCGGGCGGGCCGGGAACTGGCCGGCGACCTGCCAAAGGAAGCAGCCGCCGGCCTGGAAATCGCCCAAGAGGCCTTAGTTAACGGACAATTGCCGGATGACTACGACCGCTACCTGGACTACCTGTTACCTGAGTCTTTCAGTTTGCTGGACTACTTGCCGGCTAAAGGATTGCTTTTGTTTAACGACTGGCAGCTGATCGCCGAAAGCGTCAAGAATATGGGCGCTATCAACGATGACTACCTGGCCAGCCAGATCGCCAGCAAGATGATGACCAGCCGGCAGAAGCTGCGCCTGGATTTTGACGCGGTGCTAAAGGCAGATTGCCACCACCGCCTCTATGTCAGTCTGATTGCCCACTCCATGGGCCGGCTCCGTTTTGGCCAGCATTTGGCCTGGGACAGCCGGGAGCCGCAGCAGTTTTTCAGCCAGATGGAGCTTTTGAAAACTGAGCTGGACTCTTATGCCAAAAAGGGGCAGACGGTGGTCTTGCAGGTGTCCAGCCGCCGGCAGGCGGAGGAATTCAACCGGAGCTGCCATGACTATGACATCTACCTGCCTTTGGCAGAAGCAGACGGCTTAAAAGAAGGCCGGACCCAGCTGGTTATCGGCGGCTATGCCAGCGGCTTTGTCCTGCCGGACAGCGACCTGGTCTATCTGACGGAAAGGGAGCTTTTTAACCAAAACAAGCGGTCGAAGAAGCGGATCAAGACCCTGGAAAATGCCCAGCGCCTGCGCAGCTATACAGAGCTCAAGCCTGGCGACTATGTGGTCCACGTCAACCATGGTATCGGTCGCTTTGAAGGCATCCAGACCTTGGAAACCGACGGGAAAAAGCGGGACTACATCACCATCACCTACCAAAAGGGTGACCAGCTGTTTGTCCCGGCTGACCAATTGAGCCTGGTGCAAAAGTACGTGGCTTCAGAAGGCAAGCAGCCCCACGTCAACAAGCTAGGCGGCAGCGAGTGGGCCAAGACCAAGAAGCGGGTTGCGGCCAGAGTTGAGGCCATCGCTGACGACTTGATCGACCTGTATGCAAAAAGAGAGGCGGAGAAGGGCTTTGCCTTTTCCCCGGATGGATCAGACCAGGCGGCCTTTGAAGCTGCCTTTCCTTATGAGCCAACCCCTGACCAATTGCGGGCTACTGCGGAAATCAAGGCTGACATGGAAAAGGCCAAGCCGATGGACCGGCTTTTGGTCGGGGATGTTGGCTTCGGGAAAACCGAAGTAGCCATGCGGGCAGCCTTTAAGGCCATCTGTGACGGCAAGCAGGTCGCCTTCTTGGTGCCCACGACCATCCTGGCCCAGCAGCACTACCAGACCATCAAGGACCGCTTTAAGGGCTTCCCGGTGGAAATTGCCGGCTTCTCCCGTTTCCAGGGCCAGGCCGAAAGCAAGAAGATCGTGGCCGGCCTGAAAGACGGCAGTATTGACTTGGTAGTCGGCACCCACCGGATTTTGTCCAAGGATGTCCAGTTCAAGGACCTGGGCCTGCTCATTATCGATGAAGAGCAGCGCTTTGGGGTGGCCCACAAGGAAAAGCTCAAGCAGCTGAAGACCAATATTGATGTTTTGACCCTAACGGCCACTCCGATCCCGCGGACTCTGCACATGTCCATGATCGGGATCAGAGACCTGTCAGTCATGGAAACGCCGCCGCAAAACCGGTATCCAATCCAGACTTATGTCCTGGAACAGTTGCCAGGCACGGTCAAGGAGGCCTGCCAAAGGGAAATGCAGCGGGGCGGCCAGGTCTTTTACCTGCACAACCGGGTCGGGGACATCGAAGAAACGGTTGCCCGCTTGGAGCAGCTTTTGCCAGAGGCCCGGATCGCCTATGCCCATGGGCAGATGAGTGAAAACCAATTGGAAGACATCTTGAGCCGCTTTTTGGACCGGGAATTCGACATTTTGGTCACCACGACCATCATTGAAACCGGGATCGACATGCCTAATGTCAACACCATGATCATTGAAGATGCCGACCACTACGGCCTCAGCCAGCTCTACCAATTGCGGGGCCGGATCGGCAGGTCAGTCCGCCTGGCCTATGCCTACTTCCTCTACCAGCCAAACAAGGTTCTGACGGAAGTGGGGGAAAAGCGGCTGGACGCCATCCGGGACTTTACCGAGCTGGGGGCAGGCTTCAAGATCGCCATGCGGGACTTGTCCATCCGCGGGGCCGGCAACATGCTGGGGGCCCAGCAGCACGGCTTTATCGACAGCGTCGGCTACGACCTCTACTCCCAGATGCTGGCTGACGCCATCAAGGAGCGGCAGGGGAAGAAGCCGGTCAAAAAGAGCAATGCCGAGGTCGACCTGGGCCTGGAAGCTTATATTCCAGAAGACTACATCGCCGACCAGGAGCAGAAGATCGAATTTTACAAGAAGATCAAGGGGATCGGCAGCCTGCAGGACCGGGAAGACATCGAAGATGAGCTCCTGGACCGCTTTGGTGACTATCCGGCAGCTGTTGAGAACCTGCTCAACGTGGCCAGCCTGAAGGCCAGCTGCGACTTGGCCCAGATCTTGACTCTGGTCAAGGAAAAGGCCCAGATCCGGGTCATTTTCAGTGATTCCGGCAGCCGGGAAATGGAAGGGCCAAACATCTTCAAGGCCCTGGAACATGTTTCCTGGAAGGCCCGGATCGCACTTGGCGCCCAAAAGCGCCTGGTGGTTACCCTGCTTTTGCCAGACAAGCTGACCCGGCGGGCCATGTTCACGGAACTGGGCACTTTTACCAAGGACGCGGCGGAGATCATCCAGCGGTAA
>SRR1919932_00157 hypothetical protein
ATGAGAATCGACAAATTTTTGAAAATTTCCCGCCTGGTCAAGCGCAGAACGGTGGCCAAGGAAATGGCTGACCAGGGCCGGGTAAGCGTGAACGGCAAGACCGTCAAGTCCAGCTACAACGTGGTTGTCGGCGATGTAATCGCCGTCGCTTACGGAACCAGGGTAATTAAGGCCAGGGTCCTGGACTTGCGTGAAACGACCAAAAAGGCGGAAGCCGGGGACTTATACGAATTAGTCGACTAA
>SRR1919932_00158 septum formation initiation protein
ATGGGGAACAACAGAGGAAATCAGCAAAATGTAACGCCGCTGCGGCCGGACCAGGATGTTCGCCGCCTGAAGAAGCGGCAGATCAAATTCAGGGAAGTCCACCGGGTCCGGCGCAACCGGCTGCTGGCCTTGATCTTGCTGGTCTTTGCCGTCTTGGGCTTCCAGCTGGCCATGACCAAGGCCCGGACGGCCAAGATCCAGAAGCAGGTCAGCCAGAACCAGGCAACCTTGACCAAGATCAAGAAGAATAAGGAAAAGCTGACCAACGAGCGCGACGATATGAAGGACAGCGACTACGTGGCTAAGGTGATCCGCTACAAGTACAAGTACACTAAAGACGGTGAGCGGGTCTACAACATCAAGGAGAAGGGCGATAACTGA
>SRR1919932_00159 RNA-binding protein
ATGAATTACAAAGTTGGCCAGCGCCTTGACGGAGTAATCAACAACGTGACAGACCTGGGCATCTTCGTGACCCTGCCCAAGCATAAGAGCGGCCTTGTTCACCGCAATGACTTTGGCAGCGACTGGCCAAGAGAGCGGCAGCACTGGCAGGCAGGCGACCAGGCCAGAGTAGTGGTCCAGAACCTGCGCAAGGGCCGGCTGGACTTGTCCATCCGCCGGGTCAACGATCCGGATCTGATCGACCCGACCAACCAGTTCAGCCAGTTGCGGGCCGGCGACTTTGCCCGGGTCCTCAACCAGGTTGACCAGGAGGCGCGAGCAGAAATAGAGCAGCTGGAAGCTGCCTTGAAATAA
>SRR1919932_00160 tRNA(Ile)-lysidine synthetase
ATGGACATTGAAAAAAGACTATTGGCCTTTTTTGCCGAAGAAGGCCTGCCTTTGGAAGGAAATTTCCTGGTCGCGGCCAGCGGCGGTCCGGATTCCATGGCGCTTTTGGATTTAATGCGGCGCTTGCCAGGCGGCTTTCAGCTCTACGCGGCCCACTTAGACCACCAGCTGCGGGCTGACAGCCAAAAAGAGAGCCAGTTGCTGCGGGCCTACTGCCATAAGTACCAGCTTCCCCTGTATGAAAGCGTCTGGCCCAAGTCCCTTCATCCGGAAAGCGGCCTGGAAGCAGCGGCCAGGGACTACCGCTATAACTTCTTGTTTGAAGTGGCCCGGCAGGTCAAGGCAGACTACCTGCTGACAGCCCACCACGGGGACGACTTGCTGGAAAATATCCTGCTCAAGCTGGTCCGGTCAGGTATTCCCCGGGAAATGAACAGCCTCAAACCTGTCAGCCAGTGGGGGCAGGTCAAGCTGGTCCGGCCGCTTCTGGCGGTTGGCAAGGCGGACCTTTTGGCTTACGCGAAAAAGCAGGGGCTGGAATATGTCGAAGACGAGACCAACTTTACAGGCATCACGGCCCGCAACCGTCTGCGCCAGGAGGTCGTCCCGCTTTTGAAAAGGGAGAGTCCGGACCTCTTGGAAAATGCCTGGCGCTTCAGCCAGGAAATGACGGCGGAAGAAGACTACTTTGCCCAGGCAGCTGGCAAGTTGCCGGAGCCGGAGCCCTTCTTTGGCGGCTGGCGGATTCCTAAAGCGGCCGGGCAGGCGGAAAGCGAGCTGGTCAAGGCCTACCTGGAGAATTTTATCCAAAAAAAGTACAATAAAAGAGTCCAGCTGGACCGGATTCTGTTAGCCAACCGGCAAAGCCAGGAAAAAGGGGGGCTCCATCTCAGCTTTTACCAGGGCTACTACTGGCTTTATCCGGTCAAGCAGCCGGCTCCCAGCCCCCTGGAAGAAGTTGTGGCCGGCCAGCCCTTCTTTTTCAGAGGAAATTGTTATCTGTTAAGTGAGGAAAAGCGAGAGGAAAGTCCCCTGGCGGAAATATCATTTCCCGGGAAATTATCTGCCGGGAGCTTGCCAAACGGCCAGCGCCTGCTTTTAAAAGATGGCCGCCGGACTAAGAGCAAGAAGCTTTTTGCGGCGGCTGGAATTCCGCTGGCCTTGCGGGGCAATTGCCTCAGCCTTTTTGCTGGCCAAGAAGCAGTTTATGTTGCAGGCTGCTACCAGCAGGCAGTTAAAGAAGGAAAAAGGCCGCTGTATTTGTACCAAGTGAAAACATGCAAGAAAGGCAGATAA
>SRR1919932_00161 cell division protein FtsH
ATGAAAAACAATCGGAATCGACTATTTAGCAATGGTCTATTCTACATAGTCGTATTTTTGCTTCTCCTCTGGGGAATCAATTGGGCCCTTGGCGGCAGCAGCAATTCCGGTGCAACTGAAACCATCAGTTACTCGGAATTCGTGAAGAAGCTGCGCAATGGCGAAATTAGGGACTTTAACGTGCAGCCGTCCAACGGGGTCTACTCCGTAACCGGTAGCTACAAGTCAAGTCAAACCAAGTCATCCTCAAGCTCAGATATCTTTGGCGGAAACACTTCCTCCAAGGCGACTGGCTTCTCAACCACGATGCTGGGAAACGACTCTAGCGTCAAGAAGGTCCAGGACCTGGCCCAGTCTGAGAACGTCAAGATGAGCACCCAGGGTGAATCACAATCCAGCAACTGGATCTCAACGATCATCATGCTGGTGCCAACTGTCCTCTTCATCGTCTTGATGGTCATGATGATGAACCAAGGCGGCAGCCGCGGCCAGGGCGGCGGCATCATGAACTTCGGCCGCTCCAACGTCAAGCCGCAGGACCCGAAGAAGAACAAGGTCCGCTTTGACGACGTGGCCGGTGAAGAAGAAGAAAAGCAGGAACTGGTGGAAGTTGTCGAATTCTTGAAGAACCCGGCAAGATACACCAAGCTGGGGGCAAGAATCCCGTCCGGTGTCCTGCTTGAGGGGCCTCCGGGTACTGGTAAGACCTTGCTGGCCAAGGCCGTAGCCGGTGAAGCGGGCGTACCTTTCTTCTCCATCTCTGGTTCAGACTTCGTTGAAATGTTCGTCGGGGTCGGGGCCAGCCGTGTCCGTGACCTGTTCACCAACGCCAAGAAGAACGCGCCAAGCATCATCTTCATCGACGAAATCGACGCCATCGGCCGCCAGCGTGGCAATGGCCAGGGCGGCGGCAACGATGAACGTGAACAAACCTTGAACCAGCTGCTGGTTGAAATGGACGGATTCGAAGGTGACGAAGGCGTTATCGTCATGGCCGCGACCAACCGGTCTGACGTGCTTGACCCGGCCTTGACCCGGCCAGGCCGGTTTGACCGGAAGGTCCTGGTTGGTCGTCCGGACGTCAAGGGCCGGGAAGCCATCCTGCGCGTTCACGCCAAGAACAAGCCGCTGGCTGACGACGTCGACTTGAAGGAAGTTGCCCGTCAGACCCCTGGCTTTGTCGGGGCTGACCTGGAAAACGTCCTTAACGAAGCTGCCTTAGTCGCAGCCCGCCGGAACGGGACCAAGATCACCGCGGCCGACATCGATGAAGCTGAAGACCGGGTAATCGCTGGTCCAGCCAAGAAGGACCGGATGATTTCCAAGAAGGAACGCGAACGCGTGGCCTTCCACGAAGCCGGTCACTCAATCTGTGGTCTGGTCCTGAGCGACTCAAGAACTGTCCGCAAGGTGACCATCGTACCTCGTGGCCGGGCAGGCGGCTACAACATCATGCTGCCGAAGGACGACCAGTTCATCTTGACCAAGAAGCAGCTCTTTGAGCAAATCGTTGGTTTGATGGGTGGCCGGGCCGGTGAAGAAGTCGTGGTCGGCGACCAGTCAACTGGGGCTTCAAACGACTTTGAACAAGCCACGGCGATCGCCCACAGCATGGTGGTCAACTACGGGATGACCGATGAACTGGGCATGGTTGAACTGGAAAAGGAAGGCGAAGGCACTCCTTACGGCTTCAAGCCTTACAGTGAAGCAACCGCGGCCAAGATCGACGAAGCAGTCAAGAAGATCCTGGACGAAGCCCACGCCAAGGCGGTTGAAATTGTTGAAAACAACCGGGAAAAACACCGGATCATTGCTGAAGCCCTGCTGAAGTACGAAACTCTGGATGAAAAGCAAATCTACTCACTCTACAAGACTGGGAAGATGCCTGAAAAGTCCAGCGAAGAGTTCCCATCTGAAGCCAAGGCCTTGAGCTATGAAGAAGCCAAGGAAGCTGCTCAGAAGCGGGCAGAAGAGAAGGCGGAAGAAGATACTGCTGAAAAGCAAGCTCTGGCAACGCCAAGCGAAGACGCGGTCAAGCCGGAAACCGACGCCGCCAAGCTCGCTGAGCCAGATGCTTCAGCAAGTCAAGAAGACCCTGCTGATTCTCTGCCGACGCCAAGCGAAAGCGACCTGGCAAAGGATCCTGAAAAGGGCGACAATGACGCTCCTAGTCAGAAGACTGAACAAACAGACGATTCAGACAAGGATGAATAG
>SRR1919932_00162 heat-shock protein Hsp33
ATGAACGACTACTTAATCAAAGCAATCAATGCCAGCAAGGACCTGCGCCTTTTGACCATTAACGGCAAGGACCTGGTCGCTGAAGCGCAAAAGCGGCACGACACCTGGTCAGCTTCTTCAGCTGTATTGGGTCGGAGCCTTTTGGGCACGCTTCTCTTGGCCGGGGCAGAATTAAAGGGTGACCAGGAACTGACTTTGCGCCTCTTGGGCGATGGCCCGGTTGGGGCAGCCGTGGTTACGGCCAAGTCAGATTTGACTGTTAAGGGCTATGTCCAAAATAACCACGTGGCCTTGCCGGCCAGAGAAGACGGTCACATCGACGTTAAGAAGGCTGTCGGCAAGGGCTGGTTGCAGGTAACCAAGGACCTGGGCTTAAAGCAGCCTTACACCGGTGAAGTGCCGATCGTGTCCGGGGAAATCGCTGAAGACTTGACCTACTACCTGGCCAAGTCAGAACAGATCCCGTCAGCTGTTGGCCTGTCAGTTTTCGTCAACCCGAACGACACCATCGGGGCCGCGGGTGGCTTTTTGCTCCAGGCCCTGCCAGGGGCCAGCGAAGAACTGCTGCAGGAAACTGAAGACCGGATCAAGGCCCTGCCGCAGCTCTCATCCGCCTTTTTGGACGGGATGACGCCGGAAGACTTGGCCAAGAAGATCCTGGGCGATGACTGCAAGATCCTGGAAAAGGACGAGGTCTCCTACCACTGCGACTGCTCCAAGGAAAAGTACGCCGGCATGCTGGAGACTTTGAAAGGCAGCCAGCTCAAGGAAATGATCGACGAAGACCACGGAGCTGAACTGGTCTGCAACTTCTGCGGGAACAAGTACAATTTTACGGAAGCAGAACTGCAAGCCATTTTGGACAGAAAGCTAGAAAAATAA
>SRR1919932_00163 oligopeptide ABC transporter substrate-binding protein
ATGACCTTGAAGAAAATTACCGCTGCCGGTCTTTTGACCGCCTCAGCCCTCGTTTTAGCCGCCTGCGGCCAGCAAAAGAGTTCCCAGTCCCAAACCAAGCAAGTCCTTAATTGGACCGAAAGTGCCCAGATCTCAACCCAGGACCCGTCACTGACGACTGACTCCACTTCCTTCCAAGCTCTTTTGAACACCCAGGAAGGGCTCTACCGCCTGGACAAAAAGCAAAAGCCCCAGCTGGCCCTGGCCAAGAGCGCCAAGGTTACTGACGGGGGCAAGACATATACTTTTGTCTTGCGAGACGCCAAGTGGTCCAACGGCCAGGCGATCACGGCCAATGACTTTGTCTACTCCTACCGAAGAAGCTTGAACCCGAAGACCAAGTCTTCCATGGCCTTCTACTTCTACCAGATCGTAAACGCCGAAGCCATCAATGCCGGCAAGAAGCCTGTCAGCAGCCTGGGCGTCAAGGCCTTGAGCAAAAACAAGCTGCAGATCAAGCTGGTCCGGCCGGTTTCTTACTTTAAGCTCCTGCTGGCCTTCCCGCTTTTCTTCCCGGAAAACCAGCAGTTTATTGAAAAAGTCGGCAGCAAGTACGGGACGGCGGCCAAGTACACCATTTCCTCCGGTCCTTTCAAGCTGACCAAGTGGACCGGGTCCAACAAGCAATTTACCCTGGTTAAAAACCAAAACTACTGGGACAAGAAGAACGTGAAGCTGGACAAGGTCAACGAAACCATCAGCGAAACTTCTTCAACTGCCTACAACCTTTACCAGGCTGGCAAGCTGGATGAAACTTACCTGACCGGGGAACAAGTCAAGGCCAACAAGGGCAAGTCCACCTTCTACGACCGGCCGGCTTCCGCTATCCAGCGCCTGGAATTAAACCGCAAGAAGGTCAAGGCCTTTAACAACTTCAACATCCGCCGGGCCCTGTCCTTGGCTATCGACAGAGAGAGCCTGGCCAAGGTCTTGAGTGACGGGTCAGTGGCGGCCAAGGGCTTCGTTCCATCCGGCATGGGGAACAACCCGACGACCGGGGAAGCTTTTTACAAGGAAGCCTATGTCAAGGAAGCAGTCAGCTACAACCTGAAGGAAGCCAAGAAGTACCTGGCCAAGGGCTACAAGGAACTGGGCATCAAGTCCCTTAACCTCAACCTGACGGTCAGCGATACTGACTCCGCCAAGCAGGTGGGCGAATTCCTGCAAAGTAAGCTGGGCGAACTGCCAGGGGTGAAGATCACCGTGACGACCCTGCCATACACGACCTTGATCTCCCGGCAAAGCGCTGGTAACTACCAGCTGACCATCAAGAACTGGCAGGCTATCTTAGGTGACCCGATCAACTTTCTAGATGTTTTTGAAAAGGACTCCAGCTACAACACCGGCGGCTTTGCCAGCAGCAAGTACGACCAGCTGCTCAATGAAGCCGAAAACGTCTACGGCAACAAGCCGGTTCAGCGTTGGAAGCGGCTGGTGGCAGCTGAAAAGCTGTTGATGAATGAACAGGGGACTATCCCGCTGATCCAGACGGCCAAGCCGCAGCTGGTGCAAAGCCACGTCAAGAACGTGTCCTACAACCCGCTGGGCATCCCTTACGACTTCAAGCTTGTTTATATCAAGAAATAG
>SRR1919932_00164 peptidase T
ATGGCTTTTTCCGACTTTGATTTTTTAGAAAAAAACTTCATCCACTACGCCAAGGAAGACACCCAGTCCAAATACGCCAATAAAGACCAGGTTCCGACCACGCCTAATCAGGTCAAGATGATGAAGGAACTGGCTGACCAGGTCAAAGACTATGGCCTTGAGTCTTATTACAATGAAAAAACTGCCTTCGCGATCGGCCACCTGGCCGCTAATACGGCAGGCGTTGCCCCAATCGGCTTTTTCGCCCATGTGGACACGGTTGAATTTGACGACCGCTTCCCCATCCGCCCCCAAGTCCACCGGGACTACCAGGGGCAAAAGCTGGCCCTGGATGAAGCGAACGGCATTTTCCTGGACCCGGAAGAATTTCCTGACCTGCTGACCTTAAAGGGGCAGACCCTGATCACCAGCGACGGGAAAACGGTTCTGGGGACTGACGACAAGGCCGGGGTGGCTGGCCTACTGGCAGCTCTCAAGTATCTCCATGAGCACCCGGAAGTTGAACATGGCGACATCTATGTGGCTTTTGGCCCGGATGAAGAAATTGGCCTGGGCGGGCAGCGCTTTGACCCGGCTGATTTTCCGGGAGTGGAATTTGCCTATACCTTGGACAATGGCCGGCCAGGCGACTTTGAATACGAGACCTTCAATGCCTCAGCCGCTGATTTGACGATCAAGGGAACCGTGGTCCACCCGGGTGAAGCTTACGGGCTGCTGGTCAACGCCACGACGATCATGACGGAATTTTTGGCGGCCTTGCCCCAAGACCAGGTGCCGGAAAAGTCCCGGGGCCACGAGGGCTTTATTATGGTTACGGACGCCCAGAGCAGTGTCGATTCAGCCCATGTCGGCTTGATCATCCGCGACTTTGACTGGGATGAATTTTTGGCTAAAGAAGATTTGGTCAAAAAGCTCGTCGCTTCCTTAGGGGAGAAATACGGGCCAGACCGCTTCCAGCTGGACCTGCGCCGACAGTACGAGAATATCTACAACGGGGTCAAGGACCGGCCTTATGTGGTCAACCTGGCCTTAGACAGCTATGAAAAAGCAGGCCTGGCGCCAAATGTGCAGACCTTTAGAGGGGGAACCGACGGTAACTTCATCACCAAAAAGGGAATTCCGACCCCCAACCTCTTCAATGGCGGGGGCAACTACCACGGCCGCTACGAATACGTGACTGTCGAGCAGATGGACAAGCTGGCCGAGGTCTTGGTGACGATCGCGGCTGAGCATGCCCGCCAGAGCAAGGAGGGGCAAGACAAGCGGCCTCTGGAAAAATACTGGTAA
>SRR1919932_00165 tRNA-dihydrouridine synthase
ATGGACACTACTTGGAAGATACGTGAAATCGAAATCCCCAACCGGGTGATGGTAGCGCCGATGGCTGGCGTTTCCAACATGGCTTTTAGAAAAGTCTGCAAGGAATTCGGCGCCGGCATGGTTGTCTGCGAAATGATTTCCGACCACGGGATCATCTACGGCAACGAGAAAACCTTGAGTATGCTGGACGTCGACCCGGGCGAGCACCCGATGAGCATCCAGATCTTCGGGGGGACGGAAGACAGCCTTTTGCAGGCGGCCCAGTACATCGACCAGCACACCGATGCCGACATCATCGACATCAACATGGGCTGCCCGGTGCCGAAGGTAACCAAGACTGACGCGGGTTCCAAGTGGCTCTTGGACTCAAACAAGATCTACCAGATGGTCCACAAGGTTGTCCAGAACGTGGAAAAGCCGGTGTCCGTCAAGATGCGGATCGGCTGGGACCGCAAGCACATTTTTGCCGTGGAAAATGCCCTGGCCGCCCAGGAAGCCGGTGCTTCCATGCTGGCCATGCACGGCCGGACCAGAAAGCAGATGTACCAAGGCGAAGCTGACTGGGAAACCCTGCATGAAGTAGCCCAGGTCATGGACATTCCTTTCGTGGCCAACGGGGACATCACGACCCCACAGCTGGCCAAGAAGGCCCTGGACGAGATCGGCTGCACGGCTGTCATGGTTGGCCGGGCCGCCTTGGGCAATCCTTGGATCTTAAAGGAAATGACCCACTACCTGGCAACGGGCGAAGAACTGCCGAAGCAGTCCGTCCGGGAAAAGGTGGAAACCGCCAAGCACCAGCTCGACGGCCTGGTCCAGCTGCATGGGGAAAAGCGGGCCGTGCCGGAATTTCGCCAGCAGGCAGCATATTATTTGAAGGGAATTCCCCGTTCAGCCCGGACTCGTGCTAAAATAAATGAAGTCTGGACGCGTCAGGAGGTTTTTGACCTGCTTGACGAATTCGTCGAAATTTACGAAAAAAGGGCGCGGCAGAAGCAAGACCGCGTCGCTGATACCCAATCTATGTAA
>SRR1919932_00166 lysyl-tRNA synthetase
TTGGCAAAGAACGAAATTAACGACCAATTGCTTGTTCGTCGGCAAAAGCTTGAAGAACTTAAGGAGATGGGGATTGAACCCTTCGGCCGCAAATATGGCCGGGAAGCCCTGGCCCGCGACCTGGACGAAAAGTACTTGGGCCTTGACAAGGACGAACTGAACGCAAATATGCCGAAGACCAAGATCGCTGGCCGGATGCTGGCCAAGCGGGGCAAGGGCAAGGTCGGCTTTGCGGACCTCTATGACCGTAGCGGCAAGATCCAGATCTACGTCCGCAAGGACATGGTCGGTGAAGAAAACTACCAGATTTTCAAGAAGGCCGACCTTGGTGACTTCCTGGGCGTTGAAGGCGAAGTCTTCAAGACTGACTCAGGCGAATTGTCTGTCCGGGCCCAGCACGTGACCTTCCTGTCCAAGGCTTTGCGGCCACTGCCTGACAAGTACCACGGTCTTAAGGACGTTGAATCCATTTATCGCCAACGCTACCTGGACTTGATCACCAACCACGAAAGCTACCAGCGCTTCGTTAACCGGACCAAGATCATCCAGGCCATCCGTGACTACTTGAACGGGCAGGACTTCCTGGAAGTTGAAACGCCAGTTTTGCACAACATCCCAGGCGGGGCTGAAGCACGTCCGTTCATCACCCACCACAACGCTTTGGACATCAACCTCTACATGCGGATTGCTCTGGAATTGCCGCTGAAGCGTCTGATCGTCGGTGACATGGAACGGGTTTACGAAATCGGCCGGGTCTTCAGAAATGAAGGGATGGACCTCAAGCACAACCCTGAGTTTACTGAACTGGAAACCTACGCTGCTTACTACGACTTCCACGATGTCATGGATGAAGCTGAAGGCATCATCCGGGCAGCGGCCAAGGTTGTTTCGGAAGACGGCAAGATCAACTACCAGGGCACTGACCTGGACTTGGGCAAGCCATTCCGCCGGGTGCACATGGTTGACCTGATCAAGGAACTGACTGGCGTTGACTTCTGGCAGCCAATGACTCTGGAAGAAGCCCGGAAGGTTGCCGCTGAACACCATGTTGAAGTTGAACCTTACTGGCAAGTTGGCCACATCATCAACGCCTTCTTTGAAGAATTTGGTGAAAAGACCATCGTTGACCCAACCTTCGTTTACGGCCACCCAGTTGAAGTTTCACCGCTGGCCAAGAAGAACGCGGATGACCCGCGCTTCACTGACCGTTTCGAAATCTTCATCATGGGCAATGAATACGGCAACGCCTTCTCAGAACTGAACGACCCGCTTGACCAGCGGGAACGGTTCGAAGCCCAAATGGCTGAACGTGACGCCGGTAACGACGAAGCCGACATCATCGACGAAGACTACCTGCGGGCCATGGAATACGGTATGCCACCTACGGGTGGTCTGGGCATCGGGATCGACCGTCTGGTCATGCTTTTGACCAACGCGGCTTCAATCCGCGACGTCCTCCTCTTCCCAACCATGCGGCCGGATAAGATCGTCGACGACGAAAAGAACATTAACCTGGACAAGTAG
>SRR1919932_00167 hypothetical protein
TTGCGAGCTGCTATTAGAAAAGGTGAATTTTTGCCAATCTACAAATACTTATTGTCGATCTTAACCACTATCTCCGCCTTGGCCGGGGCCTTTTTGGCTGCCAGCAGCGGCTTGCCGGCTTATTTGGCCGGCCAGCCCTTAAAGGCGGGGATTTTTGCCGTCCTCTGCCTCTTAGAGGGGCTTAGCGCCTACCTTCTCTGGCGGCCGGGGAAGCGGGCATTAGCCGTTTTGAATGGCGGCCTGCTGGCGGCAGCTTTGCTTTTGTTTTGGCAGGGAGAAGGCCTGGCAGCTGGAAGTGCCCTGGCTTTATTGGCAATCAACTATTTGCTGAAAAGGGAAGAGACCTGGGCCTGGACTCTGGCTTTAGTCTTGAACCTGGTCTTTGCCGCTTTGACCATGCTGCCCCACCAGTTTATGTCTTTCCCGGCTGCCTAG
>SRR1919932_00168 hypothetical protein
GTGCAAAGAGAGCGGATCGCCTCTTTCCTGCTTTTTAACAAGTACAAGGAGAACCAGCGCGAGCTCCGGGTCCAGGCTAATTTTGACCACTTGAGCGGGGTGATGCTCCGGTCGACCTTCATGGACCTTTTACAAAAAGCAATCGAGCAGCCGGAGTGCACTGACCTCTTCATCGGCCTGGTTGACATAGACTACTTAAAGCAAATCAACGACAATTACGGCCAGCGGCTCAGCCAGCTGCGTTTTTCCTGCGGGGTCATCCACTACCTAAACAACTTGCCTAATGTCGATCAGCTCTACCAAAAGGCCGACCAATTGATGTACGAGGTGAAAAAGCAGGGCGGGGGCAATGTTTTGCTGGCCCGGTCCTGA
>SRR1919932_00169 hypothetical protein
ATGATTCCCTGGTTTTTGTTTGCCCTTTTTTCTAAAAAACGGATTGACATTTTCCCTAAGGCTAGTATACTTAAAACTAAATTAAGAACTGATGAAGAAGGGAGAACCAAGATGGAATTCGCAGCTAAGAATTGTCAAATGCAAGTCATGCCAATGAACATGCTGATGTCCAGCATGCCTTTTAGCGTAGAAGCGAATACCTGTGGTTCACCATCCTAA
>SRR1919932_00170 O-acetylhomoserine aminocarboxypropyltransferase
ATGAGTAAAGAAGCTATCAGCAACGAAGGTTTGTTATTTGAAACTTTGCAGGTCCACGCCGGCCAGCCAATCGACGAAACTGGCGCCCGGGCAGTGCCGATCTACCAGACCACGTCCTATGTCTTTGACGACGCTGACCAGGCAGCTGGCCGCTTTGCCTTGACCGACGCCGGCAACATCTACAGCCGTTTGACCAACCCAACCACGGCTGTTTTTGAAAGCCGGGTGGCTGCCCTGGAAGGCGGCACTGGCGGTGTATCTTTGGCAACTGGGGCGGCAGCGATCACCGCGGCTATCTTGAACGTAGCCGGGGCGGGCGACGAAATCGTAGCTGCTTCCACCATTTACGGCGGGACCTACGACCTGTTTGCCCAGACCTTGCCGCCATTGGGCATCAAGACCCACTTCGTTGACCCAAGCGACCCGGCCAATTTTGAAAAAGAAATCAACGACCATACCAAGGTGGTTTACGCTGAAACCATCGGCAACCCGAATGCCAACTTGATCGACATTGACGCGGTAGCAGCAGTGGCCCATAAGCACGGGGTTTTGGTCATTATCGACAACACCTTTGCTACCCCTTACCTCTACCGGCCATTTGAGCATGGGGCTGACGTGGTTGTCCACTCAGCGACCAAGTTCTTCGGCGGCCACGGGACGACTATGGGCGGGGTAGTCGTGGAAAGCGGCAAGTTTGACTATGAAAAGTCCGGCCGCTACCCGACTTTCACTAACCCTGACCCGTCCTACAAGGACGTGACTTGGGCCAAGCTGGGGACTGGGGCCTTCACGACCAAAATCCGGGCAACAGTTCTGCGCGACACCGGGGCCAGCCTCAGTCCTTTCAACGCCTTCCTTCTTTTGCAGGGCTTGGAAAGCTTGTCCTTGCGGGTTGAACGCCACGTCTACAACGCGCAAAGAGTAGCTGAATACCTTAGCAAGCATCCAAAGGTTGCCTGGGTCCGCTACTCGGGCCTGGCCGACAGCCCGGACCATGCCCTGGCTGAACGGGACTTCCCGAAGGGGGTCGGCTCAATCTTCACCTTTGGCCTGAAGGGCGGGGAAGAAGCCGGCAAGCAGCTGATTGACAACTTGAAGCTCTTCTCTCTTTTGGCCAATGTGGCTGACGCCAAGTCCTTGATCATCCAGCCAGCTTCAACCACCCATGCCCAGCTGAACGACGAAGAACTGGACAGCGTCGGGATTACTCCGGACTTGATCAGAATTTCCGTTGGGGTGGAAAATATCGACGACCTTTTGGCCGACCTGGACCAGGCCCTGGCCAAGCTGTAA
>SRR1919932_00171 DeoR family transcriptional regulator
ATGAAAAAGAAAAGACTCCTGGCGGCCTGCCTGGCCTTGGCCCTCCTGCCTCTCCTGTACTCCTGCTCCATGATCAGCGACTACACCCTGGACCTCAAGTCCAAGCTGGTCGGCATCCCCTTTACCGTCTCCACCTATGACTACGACGGGCAGAAGATCGACCAGATCAAGGGTAAGTCAGTCCACATTGAGACCTACAAGCCGATGAGCAAGAAAAATTCCAGCGGCGACGAGCAGTCCAAAGTCATCGACGTGGAATTCGGCGGCCAGCAGATGATTCATGTCGGCTCCAGCTTGATCGCCAACGAAGGCCTGCGCAATTACGAAGATACTTTTTCCAAAAAGGTCACCATTACCGACAAGCAGCGGTCCATTCCGGTTCTGTCAATAATGTACAACAATTTCAGAAACGACTGGCTCTCCAAGGGCAAGGTCATCATGATCCGGTCCCAAGCCGGCAAGCCGATCGCCGTTTATGCCGGTAACAAGGTCCGGGTCAGTACCACTGACATGCCATCAACCACCCAGATCAATGTCGACGGCCACCGGCTCTTTATCTACCGCTGCGACTACTCCATCTATGACATGGAGACTATCAAGAAGATGTAG
>SRR1919932_00175 GAF domain-containing protein
ATGGCAGCAGCAAGTCAGGCAGAGTACGAGTTATTGCTTGAGCAGGCCAAGGCCTTGACGGCCGGGGAGAGCGACTGGATCGCCAATACCGGCAATGTTTCGGCCCTTTTGAAGGCGGGGATGAAAAACGTTAATTTTGCTGGGGTCTACCGCTTTGAAAAGGGGGAATTGATCCTGGGACCCTTCCAGGGGATGCCGGCCTGCGTGCACATCCAGCTGGGTAAGGGGGTCTGCGGGAAAGCCGCCCTGGAAAAGAAGACGCAGATCGTGGCCAATGTCCATGACTTCCCAGGCCACATAGCCTGCGACAGTGCCTCCAATTCAGAAATCGTCGTGCCGGTTTTTAACCGGGATGGCAGCCTTTGGGGCGTGTACGACTTTGACTCGACTAATTTAGACAATTTTGATGATTTGGACCAGAAGTACTTAGAGCAGATCGCGGCAGTAGCTTTAGGCAACTAG
>SRR1919932_00176 ATP-dependent Clp protease ATP-binding protein
ATGCAAAATTCATACAGTAAGAGCAGCAGACAGGTCTTGGAAATTGCCCAGGAACAAGCCAAGGAGTTTCACCACCGCCTGGTCGGGACAGAGCACGTCCTTTTGGCCCTGGTAATCGAAGCTGACGGCAAAGCCGGCAAGATCCTGCGGACCATGAACGTGACGCCGACCGGAGTCAGGGAAGAAATCGAGCGCTACACGGACTACGGCTCAGCGGCCCCGACCAGCTACATGGAATTTTCTCCCCGCCTGACTTTGGCGCTGGATTATGCCAAGCGGAATTCTGAACTCCGGTCCAGCAAGGAAATCGAAACGACTGACATTCTCCAGGCTTTGGTCTCCAGTGAGCAGATCCTGTCAGCCATGATCCTGCGCAACCTGGACGTGGACCTGGAAAACTTGAAAGACGAACTGGACGACGCCAACCAGGTGACCGGGGAAAGCAGCCAGACCAGCCGGCCAGCCGCGGCAGGCAGCAGCCAGTCGCAGACGCCGATTTTGGACCGCTTCGGGATCGACTTGAACCGGCGGGCTAAAGAAGGCAACATTGACCCGGTGATCGGCCGCCAGCGGGAACTGGACCGGGTGATTCAGATCCTGTCCCGGCGGACCAAGAACAACCCCCTTTTGGTCGGTGAGCCTGGGGTCGGCAAGACCGCGGTCGCTGAAGCTTTGGCCAGCGCGATCGTTGCTAAAAAGGTTCCCCGGGACCTGGCTGACAAGCGGGTGGTTTCACTGGATGTCAACAGCATGGTGGCCGGTACCCGCTACCGGGGTGAATTTGAAGAGCGGATGGACCGCTTAATCAAGGAAGTTACTGCCAGCAAGAATGTCATTCTTTTTGTCGACGAAATCCACTCTTTGGTCAAGGCCGGGGACGCGGAAGGGGCGATGAGCGCCTCCAACACCTTGAAGCCGGCATTGGCCCGCGGGGACATTCAATTGATCGGGGCCACGACTTTTGAAGAATACCGCAAGCACATGGAAAAAGACTCTGCCTTTGTCCGCCGCTTCCAGCTGGTCCGCCTGGCTGAGCCAAATGAAGAGGAAACCCTGCAAATTTTGCATGGGATCAAGGACAAGTATGAAGACTACCACCGGGTAGCTTTGTCAGAAGAAGCCTTGCAGGCAGCAGTTGATTTGTCCAGCCACTACATTGCCGACCGCTACCAGCCGGACAAGGCCATCGACTTGATCGATGAAGCCAGCGCGGCGGTTAAATTGGCTAATGACACTGGCGAAGACAAGGACCTGGCTGAAATCGATTTGGAAATCAGCCGGACTCTCAAGCAGAAGAACGATGAAGCAGCCAAGCAGAACTTTGCCCAAGCGGCCAAGCTGCGCAACCAGGAAATCGCCTTGCGGCAAAAGCGGAATGAGATTGCCAAGAAGCTGGCCGGCAAGGATGAGAAGCGGTCAGTCGTTGGGGCTGAAGACGTGGCCAAGGTGGTCTCCATCTGGACCGGGGTTCCGGTAACCCAGCTTAAGACCAGCGAAAATAAGCGCCTGGCCCGCCTGGAGGGGATCCTGCATGAAAGAGTCATCGGCCAAGACGATGCCGTCAAGGCCGTGGCCAATGCCATCCGCCGGTCCAGAAGCGGCTTGAAGGACGAGAACCGGCCGATCGGTTCCTTCCTCTTCCTAGGCTCAACCGGGGTCGGCAAGACTGAACTGGCTAAGGCTGTGGCTGAGGCAGTTTTTGGCTCAGAAGACAACATCATCAGAGTCGACATGTCAGAGTACATGGACCGGGAATCTTCCTCCAAGCTGATCGGGTCAGCGCCTGGCTACGTTGGCTACGAAGAAGGGGGCCAGCTCTCCAACAAAGTCCGGGAACATCCTTACTCAGTGGTTCTTTTTGACGAAGTGGAAAAGGCAAACCCGGAAATTTTCAACGTCTTGCTACGGGTCCTGGATGAAGGCTTCATGACTGATTCTCTGGGCCGGAAGGTCGACTTCAGAAACACGATCATCATCATGACTTCCAACCTTGGTTCCAGAAGCCTGGAAGCTGGCAGCCACGTGGGCTTCTCAGCCAGCCAGGAAGACCAGGGCAAGCTGATCGCAGAAAAGGTAACCAGGGCCACCAAGGACTTCTTCCGGCCGGAATTTTTGAACCGGATCGACGAAAAGATCGTCTTCAAGCCGCTGGAAGCCAAGCAGCTGCGGGAAATCGTGACGCTTTTGACCCGGAAGCTGGTCAAGCGGCTGGCGGAAAAAGACATTACTTTGCGCCTTTCGCCAGCTGCCTTGGACCAATTGGCCAAGGACGGCTACAATCCGGAAATGGGGGCCCGGCCATTGCGGCGGACCATCCAGGATGAAGTTGAAGACGAATTGGCCCAGGACCTGGTCAGCGAAAAGCTGCAGGCCGGCGACACGGTCAAGATCGGTGCCCGGGGCGGCAAGCTGCGCTTTGAAATCGTCAAGGCCAAGACCGGTGAAAAGATCAAGGGATAA
>SRR1919932_00177 hypothetical protein
ATGTTTGGCAAGAAGAAAAAAGCTGAAGCTGCTAAGGCAGAACAAGAAGCAAGCAAGAAGACTGACGGGCGGATCCTGCTTTACAGCGACATCATCGACGCTCTTTACGACGAAATGCCAAGAGAAGAGCGGGAGGCCCTGCTTGAAGCTAAGCAGCAGCTGGAAGAGAAGGTTTACCTGGGCAAGGTGATGCGGGACTTGCGGATCGCTTTAGAGCCGGTCGCGATCAAATCCCAGCTCAGCCCGCAAGGCAAGCAGATTTTCTGGAATATCACGGCTGGCGGCTACCAGCTCACCGGGGTTGGTCTGGCCAGCCAGGCGGCCATGCTTTTTAGCGGCCGCTAG
>SRR1919932_00178 DNA-directed RNA polymerase subunit beta
ATGTTTTCCTTGCTAAACGGACACGTAGTAAATTACGGACAACACCGGACAAGACGCAGCTTCTCACGGATTAAGGAAATCCTGCCGCTGCCAAACTTGACCGACGTACAGACTGAATCATACAAGTGGTTCCTTGACGAAGGCGTTAAGGAAGTTTTCGACGACATTCTGCCAATCAGCGACGCTTCTGGCCGCCTGACTCTGGAATACGTCGACTACAAGCTGCAAGAACCTAAGTATACTGTCGATGAATCACGCAAGCACGACGCGACTTACTCCGCTCCAATGCACGTGACTCTGAAGCTGACCAACCACGAAACTGGCGAAATCAAGACCCAAGACGTCTTCTTCGGCGACTTGCCGCTGATGACCAAGTCCGGCTCCTTCATCGTTAACGGGGCGGAAAGAGTTATCGTTTCCCAGCTGGTTAGATCACCTGGTGTCTACTACAGTGGCGAATTCGACAAGAACGGCCGGCAAATCTTCGGCACGACTGTCATCCCTAACCGCGGGGCTTGGCTGGAATTCGAAACTGACGCCAAGAACATTTCCTACGTCCGGGTTGACCGGACCCGGAAGCTTCCTTTATCTGTCCTGGTGCGGGCCCTTGGCTTTGGCTCTGACAGCGAAATCAAGGAAATCTTCGGCGACAGCGACACTTTGGACCTGACTTTGGACAAGGATGTTCACAAGAACCCAGCAGACAGCCGGGTAGCAGAAGCCTTGAAGGACATCTACGACCGCCTGCGTCCAGGTGAACCAAAGACTACCGACTCATCCCGGAGCCTCCTGGTTTCCCGCTTCTTTGATCCACGCCGTTACGACCTGGCTGCTGTTGGCCGCTACAAGGTCAACAAGAAGCTGAGCTTGAAGAACCGGCTTTTGGGCTACACTTTGGCTGAAACCCTGGCTGACCCTGACACTGGAGAAGTTCTGGCTGCCAAGGGGACGGTTGTCAACAACGAAGTCATGGACGTTCTGAAGGACTACCTGGACCGCGACGACTTCAAGACTGTTACCTACACCCCATCTGATGAAGGTGCAATCCCAGAACCTGTAACTGTTCAGGAAATCAAGGTCTTCTCCCGTGAAATTCCTGACCGGGAAATCAAGCTGATCTCCAACGGCCACATTGCTGAAGACGTTAAGTGCATCACTCCAGCCGACATCATCGCTTCTGTCAACTACTTCCTGGAACTCCAAGAAGGCGTCGGCAACATCGACGACATCGACCACTTGGGTAACCGTCGCATCCGCCGGGTTGGCGAATTGCTGCAAAACCAGATGCGGATCGGTTTGGCCCGGATGGAACGGGTTGTCCGCGAACGTATGTCAATTCAAGACGCGGCTACGGTTACTCCGCAGCAATTGATCAACATCCGGCCAATCGTTGGTTCAATCAAGGAATTCTTCGGTTCATCCCAGCTTTCCCAATTCATGGACCAAAACAACCCGCTGGGTGAATTGACCCACAAGCGGCGTATGTCCGCCTTGGGGCCTGGTGGTCTGTCCCGTGACCGGGCCGGCTACGAAGTCCGGGACGTTCACTACACCCACTACGGCCGTCTGTGCCCAATCGAAACGCCAGAAGGCCCTAACATCGGTTTGATCAACTCCATGGCCACTTACGCCATCATCAACAAGTACGGCTTCCTGGAAACCCCATACCGGCGCGTTTCCTGGGCAACCCACAAGGTTACCGACAAGATCGACTACTTGACTGCCGATGAAGAAGACAACTACATCATCGCCGGGGCCAATACTCCTTTGAACGAAGACGGCTCCTTCGTTGATGACGTGATCCTTTGCCGGCACCGGGAAGACAACGTCGAAGTAAGTCCAGACCGGATCGACTACATAGACGTTATTCCAAAGCAGGTTGTTTCCGTAACTTCCGCATGTATTCCATTCCTGGAAAACGACGACTCCAACCGGGCCTTGATGGGGGCCAACCACCAACGTCAGGCTGTTCCTTTGATCAACCCGCACGGTCCGCTTGTGGCTACTGGTATGGAATACCGGGCAGGTCACGACTCCGGTGACGCCTTGCTGGCTGAAGCAGACGGTGAAGTTGAATACGTGGACGCAAACGAAATCCGCGTCCGCCGCGAAGACCAGACACTGGACACTTACACCCTTGAAAAGTACCGCCGGTCAAACGCGACTAAGAACTACAACCAGACGCCAAACGTCAAGCGCGGCGACAAGGTTGTTGACGGCCAGGTAATTGCCAACGGTCCGTCAATGGCTGACGGCGAACTTGCCCTGGGTCAAAACCCGGTTATCGCCTTCACCACTTGGAACATGTACAACTTCGAAGACGCCATCATGCTGAGCGAACGCCTGGTTAAGGAAGACGTCTACACTTCAATCCACATTGAAGACTACGACTCAGAAGCCCGTGACACCAAGCTGGGGCCGGAAGAAATCACCCGGGAAATCCCTAACGTTGGTGAAGACGCCTTGAAGGACCTGGACGAAAGCGGGATCATTCGGATCGGTGCCGAAGTTCACGACGGCGATATCCTGGTCGGCAAGGTTACCCCTAAGGGGATCACTGAACTGAGCGCTGAAGAAAGACTGCTGCACGCCATCTTTGGCGAAAAGGCCCGTGAAGTCCGTGATACTTCATTGAAGGTACCTCACGGCGGTGGCGGTGTGGTTCAAGACGTTCAAGTCTTCACCCGTGAAGCCGGCGACGAACTGGCACCAGGCGTTAACACCCTGGTCCGGGTTTACATCGTACAGAAGAGAAAGATCCAAGTCGGGGACAAGATGTCCGGTCGTCACGGTAACAAGGGTACGGTTGCCCTGGTTGCTCCAGTTGAAGACATGCCTTACCTGCCAGACGGTACTCCAGTCGACATCTGCTTGAACCCAATGGGTGTGCCATCACGTATGAACATCGGGCAGCTACTTGAAATCCACTTGGGCCGGGCAGCCCGGGCCTTGGGTATCCACGTGGCTACTCCGGTATTCGACGGGGCCAGCGAAGACGACGTTTGGGACTTTGTCCGCGAAGCCGGCGTTGACTCAGACGGTAAGACTGTCCTTTACGACGGCCGGACCGGTGAACCATTCCACAACCGGGTTTCAGTCGGGGTTATGTACTACCTGAAGCTGACTCACATGGTTGATGACAAGATCCACGCGCGGTCAATCGGGCCTTACTCACTTGTTACCCAACAGCCTTTGGGTGGTAAGGCGCAATTCGGTGGCCAGCGTTTCGGTGAAATGGAAGTCTGGGCTTTGGAAGCCTACGGTGCAGCCTACACCCTGCAAGAAATCCTGACCTACAAGTCTGACGACGTTGTCGGCCGTGTCAAGGCCTACGAAGCAATCGTCAAGGGCGAAAGAATTACTAAGCCAGGCGTGCCTGAATCATTCCGCGTTTTGGTCAAGGAACTGCAATCATTGGGTCTGGACCTGCGCGTTTTGGACAGCGACGAAAACGAAGTTGAACTGCGCGACATGGACGAAGACTCAAATGAACATGTAAACATCGATGCTTTATCTCGCCTTGCGGAAGCGCAAGAAAAGAAGAAGTTGGCCGAAGAAGAGGCCGAAATCGCCGCGGAAGCTGAAGCAGAAGGCAGCGCGGAAGAAGACGCAGCTGAAGCAGATGCTGATGCAAATGCTGATGCAAATGAAGCTGAAACTGCTGACGACGACAAGGCTTCAAAGTAA
>SRR1919932_00179 DNA-directed RNA polymerase subunit beta'
TTGATCGACGTAAATAAGTTTGAAAGCATGCAGATTGGTTTGGCTTCACCAAACAAGATCAGAAGCTGGTCTTACGGAGAAGTTAAGAAGCCGGAAACCATCAACTACCGGACTTTGAAGCCAGAAAAAGACGGTCTGTTCGATGAACGGATCTTCGGGCCGACCAAGGATTACGCTTGTGCCTGTGGCAAGTACAAGGGCGTTCGCTACAAGGGGATCGTCTGTGACCGGTGCGGGGTTGAAGTAACGACCTCTCACGTGCGCCGGGAACGGATGGGCCACATCGAACTGGCTGCTCCTGTAACCCACATCTGGTACTTCAAGGGTATCCCATCAAGAATGGGTCTGGTTTTGGACGTGTCTCCAAAGCAATTGGAAGAAGTTATCTACTTCGCTGCCTACATTGTCATCGATCCAGGTGACACTGGCCTGGAAGCCAAGCAGCTCTTGACTGAAGCTGAATACCGGGAAGAAAAGGCCAAGTACGGCAACCGCTTCGTGGCTAAGATGGGTGCCGAAGCTATCCGCGACCTGCTTAAGCAGGTTGACCTGGACAAGGAAGTTACTGCCCTTAAGGCAGAACTGCAAACCTTGAAGGGGCAAAAGCGGACCCGGGCCATCCGCCGGCTGGACATCCTTGATGCCTTCAGAAACAGCGGCAACAAGCCTGAATGGATGGTTATGGAAACTGTTCCGGTTATTCCGCCGGACTTGCGGCCAATGGTTCAGCTGGAAGGTGGCCGTTTCGCCACTTCCGACTTGAACGACCTTTACCGCCGGGTTATCAACCGTAACAACCGGTTGAAGAAGCTGCTGGACATGCACGCTCCTGGCTTGATCGTGCAAAACGAAGAGCGGATGCTGCAAGAAGCAGTTGACGCCTTGATCGACAACGGCCGCCGGGGCCGCCCAGTTGTTGGGCCAGGCAACCGGCCACTGAAGTCTATCTCACACATGCTGAAGGGTAAGCAAGGGCGTTTCCGTCAAAACTTGCTTGGTAAGCGTGTTGACTACTCCGGCCGTTCAGTTATCGACGTTTCTCCAAAGCTGAAGCTTTACCAATGTGGTGTTCCGCGTCCAATGGCTCTGGAATTGTTCAAGCCATTCGTTATGCGGGAACTTGTCCGCCGGGGCATTGCTTCCAACATCAAGAACGCCAAGCGCAAGATCGACCGGGAAGACGACGACATCTGGGACGTATTGGAATACGTCATTAAGGAACGTCCAGTTCTTTTGAACCGGGCACCTACCCTGCACCGGCTGTCAATCCAGGCCTTTGAACCAGTTTTGGTCCCAGGCAAGGCCCTGCGTTTGCACCCGCTGGCTTGTGAAGCCTACAACGCCGACTTCGACGGTGACCAGATGGCCATCCACGTGCCGTTGTCAGACGAAGCTGTAGCTGAATCCCGCCTCTTGATGCTGGCTGCCCACCACATCTTGACTCCTAAGGACGGTACGCCAATCGTTACTCCGTCCCAGGACATCGTTTTGGGTAACTACTGGCTGACCCAGGCTGAAATCGGCCGGGAAGGCGAAGGCATGATCTTTGCTACTCCAGAAGAAGCAACCATCGCCTACAACAACGGTGATATTCACTACCACACCATCATCGGTGTGTCAGCCGCTTCGATGCCGAAGAAGGACTGGGGCGCGGGCCACGAAGACAGCATTTTCGTAACTACTTACGGCCGCTTGGTCTTCAACTCCCTCTTCCCAGACGACTACTTCTACATCAACGAACCAACCCAGGACAACTTAAAGCAGCCAATGGCTGACAAGTACTTCTTGGAAGATGGCCAGGACATCCAGGACAAGATCGCTGAAATTGGCCAGGACCTGGTGGCTACGCCATTCAAGAAGGGCTTCCTGGGTGACACTATTTCTGAAATCTACAAGCGCTACCGGGTACAAAGAACTTCTGAATACCTGGACGACTTGAAGGAAATGGGCTACTCAGCTTCAACTATTTCCGGTTTGACCATCGGTATGGCTGACGTTCCGGAAACCAAGACCAAGGATGCCTTGGTTGCTGAAGCCCGCAAGCAGGTTAAGCAAGTATCCAAGATGTTCCGCCGGGGCAAGCTGTCCGACAAGGAACGTCACGACAACGTCATCAAGATCTGGACTGACTGTAAGGATGCCGTTCAACAGGAAATTGCTGAATTCAAGGACCAAAAGAACCCAATCTCCGTCATGCAGCAGTCCGGTGCCCGTGGTAACATCTCCAACTTTACCCAGCTGGCTGGTATGCGTGGTTTGATGGCCACTCCAAGTGGTGAGTTGTTCGAAATCCCGGTTATCTCCAACTTCAAGGAAGGTCTGACCGTTCTGGAACTGTTCATGTCCACTCACGGCGCCCGGAAGGGGATGACTGACACGGCCTTGAAGACTGCCCAGTCTGGTTACCTGACCCGTCGTTTGGTCGACGTTGCCCAGGACGTTATCATTCGTGAAGACGACTGTGGCACTGACCGCGGCATTACTGCCAAGGCCATCGTTGACAAGGATGCCGGCTTGATTGAATCACTTTACGACCGTCTGGTCGGCCGCTTTACCAACCGGACTATCCGTGACCCGCAAACTGGTGAAGTCATCTGCCCTAAGGGTGTCCTGATGGACGAACAAATGGCGCAGAAGATTGTTGACGCTGGCGTGCAGGAAGTTCAAATCCGGTCAATCCTGACTTGCAACACTTCCCACGGTATCTGCCGGAAGTGCTACGGCCGGAACCTGGCCACTGCCGAAGAAGTTGAAATCGGTGAAGCAGTTGGTACGGTTGCCGCTCAGTCAATCGGTGAACCAGGTACCCAGCTGACCCTGCGTACTTTCCACACCGGTGGTGTTGCCGGCGCAGAAGACATCACTCAAGGTCTGCCTCGTGTGCAAGAATTGTTCGAAGCCCGCAACCCTAAGGGTCGCGCGGTTATCTCTGAAGTTGACGGTGTTGTTGACAAGATCGAAAGCAACGCGGCTGAACACTTGCAGGAAATCACCGTTAAGGGCAAGATCGACACCAGAGTCTACACCATTCCTTACACTGCTAAGCCAGCAGTTCAGGAAGGTGATGAAATCCACCGTGGTGACAAGCTGATCCCTGGTTCTATCGACCCTAAGGAATTGATCAAGGTAACTGACACCTTGACGACTGAAGAATACATCCTGGCTGAAGTCCAGAAGTCATACCGGACTCAAGGGGTTGACCTGGCCGACAAACACGCCGAAGTCTTGACCAGACAGATGCTGCAGAAGGTCCGGGTTCTTGACCCAGGTGAAACCGACATCTTGCCAGGTGAAGTCATGGACATCGCTGAATTCCGCGACAGAAACCGTGACGTCATCATCAGCGGCGGGATCCCGGCTACTGCCCAGGCTGACATTCTGGGTATCACCAAGGCTGCCTTGGAAACCAACAGTTTCCTGTCAGCTGCTTCCTTCCAAGAAACTACCCGGGTTCTTACCGACGCGTCAATCCGCGGAAAGAACGACCCGCTTCTTGGTTTGAAGGAAAACGTCATCATCGGGAAGATCATCCCAGCTGGTACTGGTATGCCAATTTACCGCGACCAAGTGCCAAAGGCCGATGTTCAACAACCAGACTCAGTTTACTCAATCGCTGACCTGGAAAAGAAGATGGAAGACGAAAACAAGGAAACTGAAAGCAAGTAA
>SRR1919932_00180 hypothetical protein
ATGCTCAGCGAAATGATTTCTTTACTCTGCGGTCTTTTGGCAGCTCTCATCGCCGACCGTTATCGTTATAATACCTTTCTTGAGTGTAAAAGCCGGCTGGCGGATGATATCCCTTACATCATCCTGGCCGGAAATTTGTTAGTTTATTTAATCTCCAATTCTAGGAGCAGTGCTATTTCTTTGCTCTTTATAATCAACTTCTTTTTAATGGTTGTCAGCGACCTGCATGAACAGTCTTTTGATACTTGCCTGCTCGTCGTACCGCTGGCCACCGGGCTGATGCATTTTTTCCAGGCACCAAACACGGAAGGCCTGGGGCAGGCTGCAATTTTTCTGGCAGTCCTGGTCTGGCTCGCTTTTACAGGGAAAATGGGCAGCGGGGACGTTTGGCATTTTTTACTCCTGTCTTTAAATTTTTCATGTCCCGTTGCTGTGAAGAGTTTCCTGCTGGCCTCCCTGCTGGCCATCGCCCACGCGCTTTGGCATAAGCGGCCGGGTAAAGAGCCCTTTGCCTTCCTGCCCTACTTATTCTGGGGCCTCAACCTCCAATTTTTCCTTTAG
>SRR1919932_00181 sugar phosphate phosphatase
ATGATCAAATTAATTGCTATCGACACTGACGGCACCCTGCTCAACTCCCAAGAAGAAATCCAGGCCAGCACAAAGGAAGCCATCTCTAAGGCACTTGACCGCGGCGTTAAAGTCGTCCTCTGTTCCGGCCGGCCAATCGCGGGCCTGGCCCCTTACATGAATGAACTTGGTATAAAGGGCGAGGACCAGTATGCCCTAACCTTAAACGGGGCAATCAGCCGCAAGGCCAGCGGGGAAATCATGACCAGCGACTTGATCGCTAATTCAGTTTACCGGCGGCTGACCGCCTACGCCCTCTCTTTAAAGCTCCCCTTCAACATCGTGGACTTTGAATCCCGGATCATTACGCCGAACCATGACATCGACCCGATGGTTTACCAGCAGGCTTACGAAAACCAGGCCGTCCTCTTTGTCAGAAGCGTTGAGGAATTTCCGGAGAAGGGCCAGGCCATTGCCAAGGCCTGCTTTGTCGGCAGCCAGGAGCTTTTGGACAGAGTAGAAGACCGGGTCAAGGAAGACTGGGGGCAGGACTTCAACGTTCTGCGGACTGACGCCCGCTTCCTTGAACTGCTCAATCCCAAGGTCAACAAGGGCCAGGGGCTCAAAGAACTGTGCGGCCGGCTGGAAATCGCGCCAGAAGAAGTCATGGCGATCGGCGACGAGAGAAACGACTTAGACATGTTTGCTTTTACCGGCACCAGCGTGGCCATGGGCAACGGCAATGACCTGGTTAAGCAAGCCGCTGACTATGTCACCAGTAGCAATGATGAAGACGGGATCGCCCAGGCTCTGGAGAAGTTTGTTTTTTAG
>SRR1919932_00182 30S ribosomal protein S12
ATGCCAACCATTAATCAATTGGTTAGAAAAGGCCGTCACTCAAAGACTACTAAGTCAAAGTCACCAGCCTTGAACTACAGCTACAACAGCATGAAGAAGGAACAAGTCTTCAACCCAGCACCACAAATGCGTGGGGTTGCGACTCGTGTCGGTACTATGACGCCAAAGAAGCCTAACTCAGCTTTGCGTAAGTACGCCCGTGTACGTCTTTCAAACTTGACTGAAGTTACTGCCTACATCCCAGGTGAAGGCCACAACTTGCAAGAACACTCAGTTGTACTGATCCGTGGGGGCCGTGTAAAGGACCTTCCTGGTGTACGTTACCACATCGTTCGTGGTGCCCTTGACACTGCTGGTGTTGACGGCAGAAAGCAAGCTCGTTCTAAGTACGGCGCTAAGAAGGGTTAA
>SRR1919932_00183 30S ribosomal protein S7
ATGCCAAGAAAAGGTCATGTTTCAAAGAGAGACGTTTTAGCAGACCCAGTTTACAACTCAAAGCTGGTTACTAAGCTGATCAACCACTTGATGAAGGATGGTAAGAGAGCTCAAGCTTCATCAATCTTGTACGATGCTTTTGACATCATCAAGGACAAGACTGGCAAGGAACCAATGGACGTCTTTGAAGAAGCCATGAACAACGTTAAGCCAGTTTTGGAAGTTAAGGCTCGCCGTATCGGTGGTTCTAACTACCAAGTTCCTGTAGAAGTTCGTCCAGAAAGACAAACTACTTTGGCATTGCGTTGGCTGGTTTCATACTCCCGCCTGCGTAACGAACACACTATGGATGAACGTCTGGCAAACGAATTGATCGATGCCTCAAACAACACTGGTTCAGCCGTTAAGAAGCGTGAAGACGTGCACCGTATGGCAGAAGCTAACCGTGCCTTCGCTCACTACCGTTTCTAA
>SRR1919932_00184 elongation factor G
ATGGCTAACAAACGTGAATTCTCATTAGAGAAGACTCGCAACATCGGTATCATGGCCCACATCGATGCCGGTAAGACTACTACTACTGAACGTATCCTTTACTACACTGGTAAGATCCACAAGATTGGTGAAACTCACGAAGGTGACTCCCAAATGGACTGGATGGAAGAAGAAAAGGAACGTGGGATCACGATCACTTCCGCAGCCACTACTGCGCAATGGAAGGACCACCGGATCAACATCATCGACACCCCAGGACACGTCGACTTCACTATCGAAGTTGAACGTTCCCTGCGTGTCCTTGACGGTGCCGTAACTGTTCTGGACGCACAATCAGGTGTTGAACCACAAACTGAAAACGTTTGGCGTCAAGCTGAAAACTACGGTGTTCCGCGGATCGTCTTCGTTAACAAGATGGACAAGATCGGTGCCAACTTCGACTTCTCAGTTAAGAGTCTGCACGAACGTTTGAACGCTAACGCTATCGCCGTTCAAATGCCTATCGGTGCTGAAGACCAATTCGAAGGCGTTATCGACTTGTTCGACATGGTTGCCGACGTCTACGACGAAGACAAGCTGGGCGCAAACTGGGAAACTATTCCAGTTCCAGACGAATACAAGGAAGAAGCCGAAAGCCGTCGTGAAGAAATGATCGAAGAGATCGCTGAAGTTGACGACGACATTATGGAAAAGTTCCTTGGCGGTGAAGAAATCTCCAACGAAGAACTTAAGGCTGCCTTGCGCCGGGCAACTTTGGAGTTGAAGGCCTTCCCAGTATTTGCTGGTTCAGCCTTCAAGAACAAGGGTGTGCAAATGATGCTTGACGGTGTTGTTGACTACCTGCCATCACCACTTGACGTTAAGCCTTACATCGCCCACGACAAGGAAGGCAACGAAGTTGAACTGCTGGCTGACGACAACAAGCCATTTGCAGCTTTGGCCTTCAAGATCGCCACTGACCCATTCGTTGGTCGTTTGACTTTCATCCGTGTCTACACTGGTTCATTGGAATCAGGTTCCTACGTTTTGAACGCTTCAAAGAACCAACGTGAACGTGTTGGTCGTTTGCTGCAAATGCACGCCAACTCACGTACTGAAATCCCAGAAGTCTTCTCAGGTGACATCGCTGGTGCCATCGGTTTGAAGAACACCACTACTGGTGACTCTTTGACTGACCCAGCTCACCCATTGATTCTGGAAAGCCTGGACATCCCAGCTCCAGTTATCCAAGTTTCAGTTGAACCTAAGTCAAAGGCTGACCGGGACAAGATGGATGTCGCTTTGCAAAAGCTGACTGAAGAAGACCCAACTTTCCGGGCTGAAACTAACCCAGAAACTGGTGAAACTTTGATCTCCGGGATGGGTGAACTTCACCTGGACATCATGGTTGAACGTATGAAGCGTGAATTCAACGTTGAAGCAACCATCGGTGAACCACAAGTTGCCTACCGTGAAACCTTCACTGTACCGACTCAAGCTCAAGGTAAGTTTGTTCGTCAGTCCGGTGGTAAGGGTCAATACGGTGACGTTTGGATCGAATTTACTCCAAACGAAGGCAAGGGCTACGAATTCGAAGACGCCATTGTCGGTGGTGTAGTTCCTCGTGAATACATCCCAGCAGTTGACGCTGGTTTGCAAGAAGCCATGAAGAACGGTGTTCTGGCTGGCTACCCATTGATCGACGTTAAGGCTAAGCTGTACGACGGTTCATACCACGAAGTCGACTCAAGCGAAGCTGCCTTCAAGGTTGCCGCATCATTGGCTTTGAAGAACGCTGCTTCAAAGGCTGGCGCTGTTATCCTTGAACCAATCATGAAGGTTCAAGTCATCGCTCCAGAAGAATACCTTGGTGACGTTATGGGCTCAATCACTGCTCGTCGTGGCCAAATGGAAGGTATGGAAGACCGAGCAGGTGCCAAGGTCATCAACGCGATGGTTCCATTGTCAGAAATGTTTGGTTACGCAACTACCCTGCGTTCATCCACTCAAGGCCGTGGTACCTTCACGATGGTTATGGACCACTACTCACCATGTCCTAAGTCAATCCAAGCTGAAATCATCAAGAAGCGCGGCGGCAACGCTTAA
>SRR1919932_00185 30S ribosomal protein S10
ATGGCAAATGAAAAGATTCGTATTAGATTAAAGTCTTACGAACATAGCATTCTCGATGAATCAGCTGCTAAGATTGTGGACACTGCGAAGAGAACTGGCGCTGAAATCTCAGGTCCAGTTCCGCTTCCATCTGAAAGAACTTTGTTCACTGTTCTGCGTTCACCACACAAGAACAAGGACTCACGTGAACAATTCGAAATGCGGACCCACAAGCGTCTGATCGACATCTTGAACCCAACCCCTAAGACGGTTGACTCATTGATGAAGCTCGATCTGCCAAGCGGCGTAGACATCGAAATTAAACTTTAA
>SRR1919932_00186 50S ribosomal protein L3
ATGACCAAAGGAATCTTAGGAAGAAAAGTTGGCATGACTCAAATCTTCACTAAAGATGGTGTTCTTGTACCAGTAACTGTTATTGAAGCAACTCCAAACGTTGTTATGCAAGTTAAGACTGTAGAAAACGACGGTTACGAAGCTGTACAATTGGGCTACCAAGACAAGCGTGAAGTTTTGAGCAACAAGCCAGAAAAAGGTCATGCTGATAAGGCAAAGACTTCACCTAAGCGCTTCATTCGTGAACTCCGCGGAGTAGAGCTTAGTGACTACGAAGTCGGCTCAGAAACTACTGTGGAGACGTTCAAGGAAGGTGACGTTGTCAACGTTACTGGTACTTCAAGAGGTCATGGCTACCAAGGTAACATCAAGCGCCACCACCAATCACGTGGTCCTGAAACTCACGGTTCCCGTTACCACAGAATTCCGGGTTCAATGGGTTCAATCATCAACCGCGTGCCAAAGGGCAAGAAGTTGCCAGGTCACATGGGTGTGAAGACTGTTACTATTGAAAACCTAGTAGTAGAAAAAGTTGTTGCAGACAAGAACGTCTTGATGATCAAGGGTAACGTGCCAGGTGCCAAGAACTCATTGATCATTGTTAAGTCATCTGCAAAGGCTAGCAAGTAG
>SRR1919932_00187 50S ribosomal protein L4
ATGGCTAATTTCAAACTTATGGATCAAAACGGCAACAACGCTGGTGAAGTAACTTTAAACGACAACGTGTTTAGCGTTGAACCAAACGAAGCTGTTGTCTTTGATGCAATCATCAGACAAAGAGCTGGCAAGCGTCAGGGTACCTCTAAGGTGAAGAACAGATCTGCCGTTCGCGGTGGTGGTAAGAAGCCTTGGAGACAAAAGGGTACTGGTCGTGCTCGTCAAGGTTCAATCCGTGCTCCACAATGGCGCGGCGGTGGTGTTGTCTTTGGGCCTACTCCACGTTCCTACGCTTACAGCATGCCAAGAAAGCAACGCCGTCTGGCTATCAAGTCTGTCTTGTCACAAAAGCTCCTTGACCAAAACTTGGTAGTTCTGGACAAGCTGACTCTGGACGCTCCTAAGACTAAGGACTTCATTGCAATCTTGAACGGCTTGAAGCTTGAAGGCAAGGTTCTGGTTGTTTCAGACGACAAGAACGTACAACTTTCAGCCAAGAACCTGCCAAAGGTTAAGGTTGTTCCAGTTAACGGCTTGAACGTTGAAGACGCCGTTAACTACGACAAGCTCGTTTTGACTCAAGACGACGTTAAGAAGATTGAGGAGGTATTGGCTTAA
>SRR1919932_00188 50S ribosomal protein L23
ATGGACGCACGCAACATTATCTTAAGACCTGTTATCACTGAAAAGTCAGCCGACTTGATGGACAGCAAGAAGTACACTTTCGACGTGGCCTTAACTGCTACCAAGCTTCAAGTTCGCGACGCTATTGAAGAAATCTTCGATGTTAAGGTTAAGAGCGTGAACATCATGAATGTTCGCGGCAAGGAAAAGCGCGTAGGCCGCTACACTGGCAAGACTGCTCGTCGCAGAAAGGCTATTGTTGCTTTAACTGAAGATTCAAACGACATCAAGATTTTCAAAGACGAAAACAACGAATAA
>SRR1919932_00189 50S ribosomal protein L2
TTGGCTATTAAAGTTTACAAGCCAACATCAAACGGTCGTCGTAATATGACTTCTTCTGACTTTGCAGAAATCACTAAGTCAAAGCCTGAAAAGACTTTGCTTGCTTCTAAGTCAAAGACTGCAGGTCGTAACTCATACGGTCACATTACTGTAAGACACCGTGGCGGCGGTCACAAGCAACAATACCGTATCATCGATTTCAAGCGTACTAAGGACAACGCTAAGGCTAAGGTTGTCGCAATCGAATACGATCCAAACCGTTCAGCAAACATCGCCTTGTTGCACTACACTGATGGTACTAAGGCTTACATCTTGGCTCCTAAGGGCTTGACTGTAGGTTCATGGGTAGAATCAGGCGCAGATGCCGACATCAAGGTTGGTAACGCATTGCCACTGAAGAACATCCCAACTGGTACTGAAGTTCACAACATCGAACTTAAGCCAGGCAAGGGTGGCCAAATCGCACGTAGTGCTGGTACTTCAGCTCAAGTTTTGGGTGTTGACGGCAAGTACACTCAAGTTCGTCTGCAATCCGGCGAAGTTCGTGAAATCCTTTCAGAATGCCGCGCTACTATCGGTGCTGTCGGCAACGAACAACACTCACTGATCAACATCGGTAAGGCTGGTCGTTCACGTTGGATGGGCAAGCGTCCACAATCCCGTGGTTCTGTAATGAACCCTAACGATCACCCACACGGTGGTGGTGAAGGTAAGGCACCTGTCGGCCGTCCACAGCCAATGACTCCATGGGGCAAGAAGTCACGTGGTGTTAAGACTAGAGACAGCAAGAAGGCTAGTGAAAAGTTAATCATCCGTCACCGCAAGGGTCGTAAGTAA
>SRR1919932_00190 30S ribosomal protein S19
ATGAGCCGTAGTATTAAAAAGGGTCCTTTTGCAGACGCCCACCTTTTGAAGAAGGTTGACGAGCAACAAGCCGCAGAAAAGAAGCAAGTTATCAAGACTTGGTCACGTCGTTCAACTATTTTCCCTTCTTTCGTAGGGTTGACTATCGCTGTTTACGACGGTAAAAAGCACGTTCCAGTTTTCGTAACTGAAGACATGGTTGGTCACAAGCTGGGCGAATTCGTACCTACTAGAACCTTCCGCGGCCACAAGGCTGACGACAAGGCATCCAAGTAA
>SRR1919932_00191 50S ribosomal protein L22
ATGGCAGAACAAATTAGTTCAGCTAGAGCTGAAGCAAGAACTGTTCGTATCGCCCCAAGAAAAGCTCGTCTCGTTGTAGACTTGATCCGGGGTAAGAGCGTTGCTGAAGCATTGGCAATTTTGAAGTTTACGCCAAAAGCTGCTTCCCCAATCGTTGAAAAGGTTTTGCGTTCAGCAGTTGCTAACGCGGAACACAACTACGATCTTGAAAGTGCAAACCTTTACGTATCAGAAGCATACGTTAACGAAGGTGCTACTTTGAAGAGATTCCGTCCACGTGCCAAGGGTTCTGCTTCTCCAATCATGAAGAGAACCAGCCACGTAGTTGTTGTTGTTTCAGAATTGAACGATTAA
>SRR1919932_00192 30S ribosomal protein S3
ATGGGTTCAAAGATTAACCCAATTGGTTTCCGTCTTGGTGTTAACCGCGACTGGGAAGCTAAATGGTACGCTGCTAGAGGCTACAAGGAAACTTTAAACGAAGACCTTCGGATCAGAAAGTTCCTCGATGAAAAGTTGAAGGATGCCTCCGTATCCACTGTTGAAATTGAACGTGCTGCTAACCGTGTAAACATCACTATCCACACTGCTCGTCCAGGTATGGTTATCGGTAAGGGCGGCGCTGAAGTTGAAGCCTTGAACAAGGAAATCAACGCTTTGACTAACAAGCAAGTTCACATTAACATTGTTGAAATCAAGAAGCCTGATCTCGACGCCAAGCTTGTTGCTGACAGCATCGCTCGTCAACTTGAAGCTCGTATCGCTTTCCGTCGTGCCAGCCGTCAAGCTGCGCAACGTTCAATGCGTACCGGCGCCAAGGGTATCAAGGTACAAACTGCAGGCCGCTTGAACGGTGCTGACATGGCTCGCCGTGAATGGCACACTGAAGGCAGTGTTCCACTTCATACTTTAAGAGCTGACATCGACTACGCATGGGTAAACGCATTTACTACCTACGGCGAAATCGGTGTTAAGGTTTGGATCAACCGTGGCGAAATTTTGCCAGGTCGCAAGAATCAACCTGCAAAGCGTTCAAAGGGAGGTAAGAAGTAA
>SRR1919932_00193 50S ribosomal protein L16
ATGCCTTTAGTACCAAAGCGTGTAAAACACCGTCGTGAATTCCGTGGTAAGATGCGTGGTGCTGCCAAGGGTGGCAAGACTGTAGCATTTGGTGAATACGGTCTTGAAGCACTTGAATCCCACTGGATTACTAACCGTCAAATCGAAGCTGCCCGTGTTGCGATGACTCGTTACATGAAGCGTGGTGGTAAGGTTTGGATCAGAATCTTCCCTCAAAAGTCCTACACTGCTAAGGGTGTTGGTGTACGTATGGGTTCCGGTAAGGGTGCACCAGCAGGTTGGGTAGCTGTAGTTAAGAGAGAAAAGATCATGTTCGAAATTGGTGGCGTTTCAGAAGAAACTGCTCGCGAAGCAATGCGCCTCGCAGCAAGCAAGCTTCCAATTAAGTGCAAGTTCGTGAAGAGAGAAGACCAGGAAGCAGGTGGCGCAACTAATGAAGACTAA
>SRR1919932_00194 50S ribosomal protein L29
ATGAAGACTAAGGAAATCAGATCATTATCAACTGATGAATTGTTGGCAAAGGAAAAGCAATACAAGGAAGAATTGTTCAACTTGCGTTTCCAACAAGCTACCGGTCAATTAGAAAACACCGCTCGCTTGAGCCAAGTCCGTAAGAACATCGCTCGGATCAAGACTATCTTGAGCGAAAAAGAATTAGAACAAAACTAG
>SRR1919932_00195 30S ribosomal protein S17
TTGAGCGAATCAATCGAAAGAAACCGCCGCCACGTTTACCAAGGCCGTGTCGTTTCCGACAAGATGGACAAGACTATCGTTGTTGTAGTTGATACTTACAAGAACCACCCAGTTTACAGCAAGCGTACTCGTTACTCAAAGAAGTACTACGCTATGGATGAAAATAACGAAGCCAAGGTAGGCGACATCGTTCGTATCATGGAAACCCGTCCATTATCACGTACTAAGCGTTTCCGTTTAGTTGACATTGTTAAGAAATCTGTTTAA
>SRR1919932_00196 50S ribosomal protein L14
GTGATTCAAACTGAAACTCGTTTGAAGGTAGCTGACAACTCCGGTGCACGTGAATTGCTTGTTATCCGCGTTATGGGCGGGTCAAAGCGCAAGACCGGTAACATCGGTGACATCGTTGTCGCAGCTGTTAAACAAGCAACGCCAGGTGGTGTTGTAAAGAAGGGTGACGTCGTTAAGGCTGTTATCGTAAGAACCAAGTCAGGCGCTCGTCGTGAAGACGGTTCATACATCAAGTTTGACGAAAACGCAGCAGTTATTATCAACGCTGACAAGAGCCCTCGTGGTACTCGTATTTTCGGGCCAGTTGCACGTGAACTCCGTGAAGGGGACTTCATGAAGATCGTGTCACTTGCCCCTGAAGTATTGTAA
>SRR1919932_00197 50S ribosomal protein L24
ATGTTCGTTAAAATTGGTGACAAGGTAAAAGTTATTGCCGGCTCAGAAAAAGGCAAGGAAGGCACTGTCCTTTCCGTAAACGTTAAGAAGAACCGCGTTGTTGTTAAGGGCGTCAACATGATCAAGAAGGCTACCAAGGCTTCAGCTGCTAACGCTAACGGCGGTGTGGTTGAAACTGAAGGTTCAATCCACGCTTCTAACGTTAAGGTTATTGCTAAAGCTGAAAGCAACAAAGATTAA
>SRR1919932_00198 50S ribosomal protein L5
ATGGCTAATAGTTTTGCAACTAAGTACAACGAAGAAATCGTTCCTGCATTGACTAAGAAGTTTAACTACACTTCAAGCATGCAAGTACCAAAGATCGACAAGATCGTTTTGAACATGGGTGTTGGTGACGCCGTTGCCAACGCAAAGAACCTGGACGAAGCTGTTGAAGAATTGACTCTGATCTCTGGCCAAAAGCCAATGATTACCAAGGCCAAGAAGTCAATCGCCAACTTCCGTTTGCGTGAAGGTATGTCTATCGGTGCTAAGGTTACCCTTAGAGGCGACAGAATGTACGACTTCTTGAGCAAGCTGATCAACGTATCTCTTCCACGTGTTCGTGACTTCCGTGGTGTTTCAACTCGTTCATTTGACGGCCGGGGCAACTACACTCTGGGTGTTAAGGAACAATTGATCTTCTCAGAAATCGACTTCGATAAGGTTAACCGCACTAGAGGGTTGGATATCGTTATCGTAACTACTGCTCAAACTGATGAAGAAGCTCGTGAACTTTTGACTCAATTTGGCATGCCATTTGCTAAGTAA
>SRR1919932_00199 30S ribosomal protein S8
ATGGTATTGACTGACCCAATCGCAGACTTTTTGACTAGAATCAGAAACGCCAACATGGCTAAGCACGATTCAGTAGAAATTCCTGCATCAAACATTAAGAAGTCACTTACAGAAATCTTGAAGCAAGAAGGTTTCATCCGTGACTACGAAGTAACTGAAGACAGTAAGCAAGGCGTAATCAAGATTACCTTGAAGTACGGTCCAAACGGTGAACGTGTTATCTCCGGTTTGAAGCGTATCTCCAAGCCAGGCTTGAGAAACTACGTTTCAGCTGACAACCTGCCAAAGGTTCTGAACGGCTTAGGTATCGCCATTGTTTCTACTTCAGCTGGTATCCTTACCGACAAGGAAGCTAGAGAAAAGAACGTCGGCGGCGAAGTTATCGCTTACGTTTGGTAA
>SRR1919932_00200 50S ribosomal protein L6
ATGAGCCGTATTGGTTTAAAGGTAATTAACGTCCCTGAAAGTGTCACTGTTACCAAGAATGGTAATGAAATTACTGTTAAGGGCCCAAAGGGTGAATTGACTAGAGAATTCGACCCACGCATCAAGTTCGAACAAGAAGACGGCGTAATCCGCTTCAGCCGTTCAAACGAAAATGACAAGGCTATCCACGGCACTATGAGAGCCAACCTGGCTAACATGATCGAAGGTGTCGTAACTGGCTACAAGAAGGAATTGAAGCTGATCGGTGTTGGTTACCGTGCAGTTGCCAAGAACAATGTCTTGACTCTGAACGTTGGCTACTCACACCCAGTTGAAATGAAGGCCCCAGAAGGCGTTACTGTGACTACCTCATCAGCAACTGACGTTACTATTGAAGGTATCTCAAAGCAAGTAGTCGGCCAATTTGCTGCGGAAATTCGCGCCGTGCGTTCACCTGAACCTTACAAGGGCAAGGGTATCCGTTACGCTGACGAAGTAGTTCGCCGCAAGGAAGGTAAGACTGGTAAGTAA
>SRR1919932_00201 50S ribosomal protein L18
GTGATTTCAAAACCAGATAAAAACAAGTTGCGCTTAAAGCGCCACAGACGTGTTCGCGGTAAGATTTCTGGTACTGCTGAGCGCCCACGCTTGAGTGTTTTCCGTTCAAACACTAACATCTACGCTCAATTGATTGATGACGTAGCGGGTGTCACGCTTGCAAGTGCCTCAACTTTAGATAAGTCCGTTTCAAAGGATGCTACCAAGGTAGAACAAGCTCAAGCAGTTGGCAAGGCCATTGCTGAAGCTGGTAAGGCCAAGGGCATCACTGAAGTTGTCTTTGACAGAGGTGGTTACATCTACCACGGTCGTGTAGAAGCTTTGGCTGACGCAGCTCGTGAAAACGGCTTAGAATTCTAG
>SRR1919932_00202 30S ribosomal protein S5
ATGGCAAACCGAAACGATTCAAAAAATCGTAGAAGCAAGGAAGACATCGAAGATCAATTGGTCGCCATCAACCGGATTACCAAGGTTGTTAAGGGTGGTCGCCGTCAAAGATTTGCTGCCTTAGTTGTCGTTGGTGACAAGAAGGGTCACGTTGGCTTTGGTACTGGTAAGGCAACTGAAGTTCCAGAAGCTATCCGCAAAGCAGTCGAAGCCGGCAAGAAGAACATGATCTCAGTTCCAACTGTTGGTACTACTATTCCTCACGAAGTACTTGGCCACTACGGCTCAGGTAACGTTCTGCTTAAGCCAGCTGAAGCCGGTTCAGGTATTGCAGCTGGTGGTGCCGTACGTATCGTTATGGACATGGCTGGTATCGGCGACGTTACTTCCAAGTCTTTGGGTTCAAACACTCCAATCAACGTTATCCGGGCCACTATCGATGGTCTGCAAAAGTTGAAGACTCGCGAAGACGTTCTGAAGCTTCGTGAATCAGCTAAGAGCTTGCAAGATTAG
>SRR1919932_00203 50S ribosomal protein L30
ATGACAGATTTAAAGATTACTTTAATTAGAAGTGTTGCCCACCGTCTGCCTGAACAAAGAAAAGTTGTTGAAGCTCTCGGCTTAGGCAAGATCAACAGTACTGTTGTCCAACCAGACAACGCTGCAACTCGTGGCGCGCTGATGAAAATCGCTCACTTAATTTCTGTTGAAGAAGTTAACAAATAA
>SRR1919932_00204 50S ribosomal protein L15
ATGAAACTTAATGAATTACACCCATCCGAAGGTTCACGCCACGCTAGAAAGCGTGTCGGCCGTGGTACTTCAAGTGGCTTCGGTAAGACTTCAGGTCGTGGTCAAAAGGGTCAACACGCACGTTCCGGCGGTAAAACCCGTTTAGGTTTTGAAGGTGGTCAAATGCCATTGTTCAGAACTATGCCTAAGCGTGGTTTCAAGAACATCAGCCGCAAGGAATACGCAATCGTTAACCTTGCAGATTTGAACAAGTTCGAAGAAGGCAGCGTAGTTGACTTCGAAGCTTTGAAGGCTAAGGGCTTGGTTAAGAAGCAATTGTCAGGTGTCAAGGTACTTGGCAACGGCGAATTGAACGTTAAGTTGACTGTAAAGGTTAACAAGGTTTCTGAAGCTGCTAAGAGCGCGATCGAAGCAGCTGGTGGCACTGTAGAGGTGATCTAA
>SRR1919932_00205 preprotein translocase subunit SecY
ATGTTTTCAACCTTGAAGAACGCCTTCAAGGATAAGGAAATTAGAAATAAGCTTTTCTATACTTTGTTTATCCTTGTAATTTACCGACTCGGTGCAAATATTACAGTTCCGGGGATAAATGCGAAGGCTCTGACGACAGTTGCTAATACGGGACTTGTTTCCGTGTTAGATACGGTTTCCGGTGGTGGCTTGGACAACTACTCCATCTTCTCATTGGGGGTATCACCATACATCACTGCGCAAATCGTTATCCAACTGTTGCAGATGGACATCGTACCAACGCTTGTCGAATGGGGCAAGCAAGGGGAAGTTGGCCGGCGCAAAACCAACCAGGTTACCCGGTATTTAACGCTGTTTGTTGCTTTTGTCCAGAGTGTGGGGATTACATTAGGTTTTAACGCCTTGTCTTCCTTCGGTCTGGTTAAGACTCAAACTTGGCAAACCTACTTCGAAATCGGTATGATCATGACAGCTGGTACCTTCCTGTTAACTTGGCTGGGTGATGAAATTACCGATAAGGGTTTAGGCAATGGGGTTTCAGTAATTATCTTTGCTGGGATCATTGCCCGTCTGCCAGGCGGACTTTACCAAGTCTTCCAAGATCAGGTGATCAACAACAGTGCAAGTGATCGCTGGCAAGGAGTTGCGTTCTTCGTTGCGCTTATTGTCGCAATTTTATTGGTAACGAAATTCGTTACCTGGGTTGAACAAGCTGATCGTCGTATTCCGATTCAATATACGAGAAGAGCGACGACCAGTGGATCAGAAAGTTTTCTACCATTAAAGGTTAACGTCTCCGGCGTTATTCCAGTTATCTTCGCCAGTTCGTTCATCGTTACGCCAGCCACGATTTTGATGGCTTTCCAAGGCAAGTACGGCGACACGACTTGGTATCAGGTCTTATCGAATATCTTTAGCTTGCAGACAACCCCTGGTGCAATTATCTACACCCTTTTGATCATTCTATTTACTTTCTTCTATGCCTTCGTTCAGGTAAATCCTGAGAAGCTGGCGGAAAACTTACAAAAGCAGGGTGCATATATTCCTAGCGTGTGGCCAGGTAAGGACACTGAGAAATATATAAGTTCAATGTTGCTGAAGCTTTCAACGGTCGGGTCCGTATATCTGGGTTTGGTTGCTTTGCTTCCACAGCTTGCAACCAACATCTGGGACCTGCCAAGTTCAATTGGCTTGGGTGGGACCAGCTTGTTGATCGTTATCGGGGTTGTTCTGGAATTGTCACGGCAAATCAACGGTTTGTTGATGAAGCGTGAATATGCCGGATTTATTAGATAG
>SRR1919932_00206 adenylate kinase
ATGATTAATTTGATTCTTCTTGGTCTGCCAGGCGCAGGCAAGGGTACTGCATCTGAACAAATCGTTGACAAGTATCACTTGGCTCACATTTCAACCGGTGATATGTTTAGAGAAGCTATGGCTAACAAGACTCCAGTAGGCTTGGAAGCCAAGTCTTACATCGACAAGGGCGATTTGGTTCCAGACGAAGTAACTGCTAAGTTGGTTGAAGAACGTCTCGGTCAAGACGACGTTAAGAATGGTTTCATTCTTGACGGTTTCCCGAGAACGACTAACCAGGCAGAATTGCTCGACGAAATCACTACCCGCTTGAACAAGCAGCTGACCAACGTCATCGCAATCGATGTCAAGGAAGAGACTTTAATCGATCGTTTATCTGCACGGTTCATGTGCAAGAATTGCGGCGCGACTTACAACAAGTTCTCAAAGAGACCTAAGGTCGAAGGGACTTGCGACCGCTGCGGCGGCCACGAGTTCTATCAACGTGAAGACGACAAGCCTGAAGTTGTCAAGAACCGGCTGGAAGTTAACGAAAAGATGAATACTCCATTGAAGGAGTACTATGACAAGAAGGGTTTGCTCGCTACTGTAAACGGCGAACAAGCACCTGAAAAAGTTTTTGCAGATATCGACGCTATCCTGAGCAAGGATTAG
>SRR1919932_00207 translation initiation factor IF-1
TTGGCAAAAGATGATGTCATTGAAGTAGAAGGTAAGGTAGTTGATACCTTACCTAATGCTATGTTTAAAGTCGAATTGGAAAACGGTGCCACTATTTTGGCTCACGTTTCCGGCAAGATCAGAATGCACTACATTCGGATCCTGCCTGGCGACCGGGTCACTGTGGAGCTGTCTCCATATGACTTGACTAAAGGTAGAATTACGTATCGGTTTATTAAATAA
>SRR1919932_00208 30S ribosomal protein S13
ATGGCACGTATCGCTGGTGTTGACTTACCAAGAGATAAAAGAGTCGTTATCGCTTTAACTTACATTTACGGTATCGGTGAACACACTGCACAAGAAATCTGTGCAGCAGCCGGTGTATCTGAAGACGTTCGTTCAAAGGACTTGACCCCAGAACAACAAGAAAAGCTTCGTGCAGAAGTCGACAAGTACCGTGTTGAAGGTGACTTGCGTCGTGAAGTAAGCATGAACATTAAGCGTCTTGTTGATATCGGTTCATACCGTGGTATCCGTCACCGTCGCGGTCTTCCAGTTCGTGGTCAAAACACCAAGAACAACGCACGTACTCGTAAGGGTGCTAAGAGAAGCCGTTAA
>SRR1919932_00209 30S ribosomal protein S11
ATGCCTGCAAAGAAAACTGCTCGTAAGCGTCGTGTGAAGAAGCACGTTGAAAGTGGCGTGGCTCACATTCACTCAACGTTTAACAACACTTTAGTTATGATTACTGACGTTCAAGGTAACGCCGTTGCCTGGTCTTCAGCTGGTGCTTTGGGGTTCAAGGGTAGCCGTAAGTCTACTCCATTTGCTGCGCAAATGGCTGCTGAAGCTGCTGCTAAGAGCGCAATTGACCAAGGTATGAAGCACATCGAAGTATCAGTTAAGGGCCCAGGTTCTGGTCGTGAATCAGCAATCCGTGCTCTGCAAGCTGCTGGTCTGGAAATCACTTCAATCCGTGACGTTACTCCAGTACCTCACAACGGTTCTAGACCACCAAAGCGTCGTCGTGTTTAA
>SRR1919932_00210 DNA-directed RNA polymerase subunit alpha
ATGATTGAATTTAAAAAACCAAATATTACCGTCGTGGATCAAGAAGACAGTTACGGGAAGTTTGTCGTTGAACCGCTGGAGCGTGGGTTTGGTACTACCTTAGGTAATTCACTGCGTCGGGTTTTGCTGACTTCTGTCCCAGGGACCGGTTTGGTGAAGGTGAAGATCGATGGTATCTTGCACGAATTCACTACTGTTCCCGGTGTTAAAGAAGACGTAACCAAGATCATCTTGAACCTGAAGAAGCTTGAACTCCGGGCCTACACTGAAGAAGTAAAGACGATCGAACTCGACGTTGAAGGTCCAGCTACGGTAACTGCTGAAGATTTGAAGGCTGATGCTGATGTTGAAGTCTTGAATCCTGACCAATACATTTGTACCATCGCTCAAGGTGGCCACCTGCACATGTGGATTGATGTCTGCAACGGCCGGGGCTACGTACCAGCCAGCGAAAACAAGTCTGCTGAAATGTCCATCGGCGACATTCCAGTTGACTCACTTTTCTCACCAATCGAAAAGGTCAACTACCAAGTTGAATCAACCCGGGTTGGTAAGAGAGAAGACTTTGACAAGCTTACCCTGGAAATTTGGACAAATGGTTCAATCGCTCCGAATGACGCCCTCAACTTTGCCGCCCGTGTTCTGGTCGAACACTTCAAGGCCTTCGAATCAGCTGACGCTGCTGCCGAAATCGGCGAAGTTATGGTAGAACAAGAGAACGACCAAAAGGAAAAGAAACTCGAAATGACTATCGAGGACCTGGACCTTTCAGTTCGTTCATACAACTGCTTGAAGCGGGCTGGCATCAACACCCTGCAAGACTTGACTGTTAAGTCAGAAGCGGAAATGATGCGGGTACGCAACCTGGGACGTAAATCATTGGAAGAAGTTAAGAATAAATTGGCAGACCTGGGTCTTTCACTTCGTCAAGAAGACTAG
>SRR1919932_00211 50S ribosomal protein L17
ATGTCATACCGTAAATTAGGTTGGGACAGTAGTCAAAGAAAAGCTATGCTCCGTGAAATGACTACCCAATTGATCATTAACGAACGCATCGTCACTACTGAAGCTCGCGCTAAGGAAGTACGTCGCACTGCTGAAAAGATGATCACTTTGGGCAAGCGCGGTGACTTGGCTGCAAGAAGAAAGGCTGCTGCTTTTGTACGTAACGAAATCGCTGATATCCACGAAGAAGGCGACGAAGTAGTTGTTAAGTCAGCACTTCAAAAGCTCTTCAGCGACGTAGCTCCTCGTTACAAGGACCGTAACGGTGGTTACACCCGGATCATGAAGCTGGCAGTTCCTCGTAAGGGTGACGCAGCTCCTATGGTAGTTTTGGAATTGGTTTAA
>SRR1919932_00212 energy-coupling factor transporter ATP-binding protein
ATGAGCGACAATATTATTTCTTTTGACCATGTGACTTTTACTTACCCGGACAGCCCGCGGCCAGCTGTGTCTGACCTCTCTTTTGCGATTGAGCGGGGAAGCTGGACGGCGCTGATCGGGCATAACGGCAGCGGCAAGTCAACGGTCTCTAAATTGATCAATGGCCTGCTGGCCCCAGATGATTTGGATAAGTCCTCTATTACAGTTGACGGGGTCAAGCTGGGGGCTGACACGGTTTGGGAAGTCAGAGAGAAGGTCGGCATTGTCTTCCAGAATCCTGACAACCAGTTTGTCGGGGCCACGGTCAGTGACGATGTTGCTTTTGGCTTGGAGAACCGGGCAGTGCCCCGGCCGGAAATGCTGAAAATCGTCGCTCAGGCGGTCGCTGACGTTGGTATGGCTGATTATGCTGACAGCGAGCCCAGCAACCTCTCAGGGGGGCAGAAACAGCGCGTAGCGATCGCCGGCATCCTGGCAGTCAAGCCCCAGGTCATCATCCTGGATGAATCGACCTCCATGCTGGACCCGGAAGGCAAGGAGCAGATCTTGGACCTGGTTCGGAAGATCAAGGAAGACAATAACTTGACGGTTATTTCCATCACCCACGACCTGGAAGAGGCCGCGGGGGCTGACCAGGTTTTGGTCTTAGACGACGGCCAGCTGCTAGACCAAGGTAAGCCGGAGGAAATTTTTTCCAAGGTGGAGATGCTGGAGCGGATCGGCCTGGATATTCCCTTTGTCTACCGGCTCAAGCAGCTCTTGAAGGAACGGGGGATTGTGCTCCCGGATGAAATTGATGATGAGGAAAAGTTGGTTCAGAGCTTATGGCAATTAAATTCGAAAATGTAA
>SRR1919932_00213 energy-coupling factor transporter ATP-binding protein
ATGGCAATTAAATTCGAAAATGTAAGTTATGTCTACAGCCCTGGCTCACCGCTGGAGGCGATCGGCCTGGACCAGCTGAATTTCAGCCTGGAAGAGGGGAAGTTCATCGCTCTGGTTGGCCATACGGGCAGCGGCAAGTCGACCCTAATGCAGCACTTTAACGCGCTGTTAAAGCCCACCAGTGGCAAGATCGAAATCGCGGGCTACACCATCACCCCGGAGACTGGCAACAAGGGCTTGAAGGACCTGCGCCGCAAGGTGAGCCTGGCCTTTCAGTTTCCAGAGGCCCAGCTCTTCGAAAACACGGTTCTAAAGGACGTTGAGTATGGGCCAAGGAACTTTGGCTTCAGTGAAGATGAGGCCCGTGAGGCGGCCTTAAAATGGCTTAAAAAGGTGGGTCTGAAAGATGACTTGATTGAGCATTCGCCATTCGACCTGTCCGGCGGGCAGATGCGGCGGGTGGCCCTGGCTGGGGTTTTGGCCTATGAGCCGGAGATCATCTGTTTAGATGAGCCGGCAGCTGGCCTGGACCCAATGGGGCGGCTGGAAATGATGCAGCTGTTTAAGGACTATCAGGCAGCTGGGCATACGGTGATTTTGGTAACCCACAACATGGATGACGTGGCAGATTACGCCGACGACGTACTGGTTTTGGAGCATGGCCGCTTGATCAAGCATGCCAGCCCTAAGGAAGTCTTCAAAGACAGTGAATGGCTGCAAAAACACCACCTGGCTGAACCCCGCAGCGCCCGTTTTGCCGCAAAACTTGAGGCGGCTGGCTTAAAGCTGCCGGGCCAGCCTTTAACCATGCCGGAGCTGGCGGACGCGATCAAGCAAAGCTTGAAGGGGGGAGAGCATGAGTAA
>SRR1919932_00214 energy-coupling factor transporter transmembrane protein
ATGAGTAAGATTATTATCGGCCGCTACCTGCCGGGGACGACCTTTGTCTACCGGGTAGACCCGCGGGCCAAGCTGCTGACGACTTTTTACTTTATCATCATGATCTTCCTGGCCAACAACTGGGTCAGCTATCTGGTGATCAGCATCTTCGGCCTGGCCTGCGTTTTCGCGACGGGACTAAAGGCCAGAGTTTTTTGGGACGGGGTCAAGCCAATGATTTGGCTGATTGTTTTCACCTCCCTTCTGCAGACCTTCTTCATGGCCGGTGGAAAAGTCTACTGGCACTGGTGGATATTTACCCTGTCCAGCGAGGGCTTGATCAATGGTTTGTACGTTTTCATCCGTTTTGCCATGATCATTCTGGTGTCAACAGTGATGACGGTGACGACCAAGCCCCTGGAAATCGCGGATGCCATGGAATGGATGCTGACGCCGCTCAAGCTCTTCAAGGTCAACGTGGGCATGATTAGTTTGGTGATTTCGATCGCCCTGCGCTTCGTGCCGACCTTGTTTGACCAGACGGTCAAGATCATGAATGCCCAGCGGTCCCGGGGTGCCGACTTTAACGACGGCGGCCTGGTCAAGCGGGCTAAGTCAGTTGTCCCGATGCTGGTGCCGCTTTTTATCGATTCTCTGGAAGTGGCCCTGGACTTGTCCACAGCCATGGAATCCCGGGGCTACAAGGGCAGTGAGGGCCGGACCCGCTACCGGATCCTGGAATGGAGTAAGGTGGACTTGATTCCAGCAGCCTACTGCCTGCTGTTGACAATTTTGATGATCACGACAAGGAAGCATTGA
>SRR1919932_00215 tRNA pseudouridine synthase A
ATGACGAGCAGATACAAATTGACATTGTCCTATGACGGCCATGACTTTCATGGCTTTCAGTCCCAGCCGGGGCAAAGAACGATTCAAGGGACGGTAGAGGAGATTCTCAAGCGGATGACTAAGGGCCAGGAGGTCCGGGTCTTCGGGTCAGGTCGGACTGATGCCGGAGTCCACTCAGTCGGGCAGGTAATCCACTTTGACTATCCAGGCAGGGAAATTCCGGCAGCCAACATGATCAAGGCCCTAAATTCCCAGCTGCCGATGGATATGGTTTTTACTGACTGTGAAATTGTGGATAAAGATTTCCACTCCCGTTTTTCCGTCAAGGGGAAGTGGTACCGCTACCGGGTCAGCCTGGACGGCTTCGTAAACCCCTTTAAGCGTTTTTACACAGGACACTACCCATATCCTGTAGATGTGGAAAAGATGCAAGAAGCCGCCAAGGACCTCCTGGGCCGGCATGATTTTACCAGTTTCGCGGCCAGCGGCGGGCAGATTGAGGATAAAGTCCGGGACATGTACTATGTCAACGTGGCCCTGGATGAAGAAAACAACGAAGTGATCATGGACTTTATCGCGACCGGCTTTTTGTACAACATGGTCCGGATCCTGGTGGCCACCTTGCTGGAGATCGGCAATGGCCGCCGGCCGGTGCACGACTTAAAGCGGGTGATCGCGGCCAAGAACCGGCTGGAGGTCCAGCAGACCGCCCAGTCCTGCGGCTTGTACCTCTACCATGTCTTTTACGAGGAGGTGCCAAGAAAATATCGGCTCGACCTTGATTTATAA
>SRR1919932_00216 50S ribosomal protein L13
TTGCGTACTACACCATTAGCAAAGACTAGTGAAATTGAACGTAAGTGGTACTTGATTGACGCTACTGATGTTTCATTGGGCCGTCTTTCAACTGCTGTTGCTACTATCCTTAGAGGTAAGAACAAGCCTCAATTTACCCCAAACGTTGACACTGGTGACAACGTCATCATCGTTAACGCTTCTAAGTTAAAGCTGACTGGTAAGAAGGCAACTGACAAGATCTACTACCACCACTCAGAATACCGTGGCGGCTTGAAGTCTGTATCAGCTGGCGAATTGCTTGCCAAGAACCCTGTTAAATTGGTTGAATTGTCAGTTAAGGGTATGCTTCCAAAGAACACTCTTGGCCACCAAGAATTCTTGAAGATGCACGTTTATGCTGGTGAAGAACACAAGCACGAAGCGCAAAAGCCTGAAAAGTTAGACATTAACAATTTGATCTAG
>SRR1919932_00217 30S ribosomal protein S9
ATGGCACAACAAGCTGCATATGCAGGTACTGGTCGTCGTAAGGACGCCGTAGCTCGCGTTCGTTTAGTACCAGGCGATGGTAAGATCACTGTTAACAACAAGGATGTTGCTGACTACATTCCATTGCCAATCTTGGTTAAGGACCTTAAGCAACCTTTGACTTTGACTGAAACTGAAGGCCAATACGACGTTATCATTAACGTTAACGGTGGTGGTTTCTCAGGTCAAGCCGGTGCGATCCGTCATGGTATCGCCCGTGCCCTTCTTGAAGTAGACCCAGACTTCCGTGGTCCACTGAAGAAGGCCGGCTTCTTGACTCGTGACCCAAGAATGAAGGAAAGAAAGAAGCCAGGTCTGAAGAAGGCCCGCAAGGCTTCACAATTCTCAAAGCGTTAA
>SRR1919932_00218 hypothetical protein
ATGAATTATGACAATGCCGTTGATCTTATTGACCACTTGATTGACCAGCAATCAGACAAGTATTTTGCTGATTTTGTTCCGTTTACTTTTCAAAATGAAGATTATGCAGAACTAGAGATGTATTTAAACGTACACTTTAAGCCGCGATTTGCAGAAAAAATAAAATTTATTGCCTTCGCGCTGATGTACCAGCACGAGTCATATGTCTACTTAGATGAAGCAGTGGCTAATGCCCTTTACCCCGATCTGAAAAACAATAACCTAGGAAACAGTGGCTTAGAGCGGCTGGGAGAAATCATCGATACTATGGTGATTGACAATTACGGCAGCTTAAATATCTTGCTTAAGCAGGAGAATGATTTTTCGCTTATGCGGATTGAAGATGGTTTTAGTACAATTTTCTTTAACCTTAAGGGGCAGTTGCGGGAAGAAGGAGAGAGTCTGGTTGAGCACCAAGGATTGTATTTCAAGGAAATTGACTGA
>SRR1919932_00219 oligopeptide ABC transporter substrate-binding protein
ATGAAAATTCCGAAAAACTTAGGTCAAGCAGCCTGCGTCTGCCTGGCGGCACTCGCGTTAACGGCATGTGGCTCTTCAAGGGCAAGTTCATCTGCCAAAAAAACTCTGAACTGGTCAGCTGGTGCTGAAATTCCGACCATGGACCTGTCAAAAGCGACCGACTCAGTTTCCTTTACCCAGATCTCCAACACCTTTGAAGGCCTGTACCGCCTGGGCAAGGACTCAAAGATTACTCCCGGCCTGGCAACCTCTGAAAAAGTTTCCAAAGACGGTAAAACTTACACCTTTACCTTGAGAAAGAACGACAAGTGGTCCAACGGGGATCCGGTGACGGCCCAGGACTTTGTCTACTCCTGGCGGCGGACAGTCAACCCGAAGACTGAATCAGAATACTCATACCTCTTCTCTGGCATCAAGAATGCTGACAAGATCGTAGCTGGCAAGAAGCCGGCAACGAGCCTGGGGATCAAAGCGGTTGGCAAGTACAAGCTGGTCGTGACCCTGGAACGGCGGATCCCTTACTTCAACAATCTGATGGGCTTCGCGGTCTTCTTCCCGCAAAATGAAAAAGCCGTTAAGAAGTATGGCTCCAAGTACGGGACAGCTTCCAAGTACCTGGTCTACAACGGCCCTTACATCCAAAAGGGCTGGACCGGGTCCAACCTGTCTTGGAAGATGGTCAAGAACAAGTACTACTGGGACAAGAGCAAGGTCAAGCTGAACCAGATCAACTGGAGCGTACAAAAATCAACCACGACCTCCTACAACCTCTACCAGGCTAAGAAGCTGGACGCTACTTCCCTTGATCCTTCACAAATCAAGCAGCTGAAGAGCGATAAGGCCTTCACCTTGCTGCCGCAAGGCGGGACCTACTACATGACATTCAGCCAGGGCAAGAGCGGCAACGAATACGTCAAGAACGCCAACATCCGCAAGGCCCTGTCACTGGCAATTGACCGCGGGGGCCTGGTTTCTACCATCGACGGCGGGGCCAGCCAGCCGGCCAACACCTTGACCTCCAAGGACTTGACCAAGGTCAACGGCAAAGATTACACTAGTTTGATCTCCAGCAGCGCAAAGAGCCTTTACCCGAAGGACGGCAACAAGAAGCTGGCCAAGCAGTACCTGGCTAAGGGCCTGGCTGAACTGGGCAAGAGCAAGATTAAGCTGACCTTGATCTCCAGTGACACGGACAGTGCCGAGAAGACGGCAGAATCAATCCAGTCCAACATTGAAGCAACCCTGCCGCAGGTTAAGGTGGAAGTTAACAGCGTGCCATTCAAGACCCTGCTGAACCGCCTGGCCAGCCACAATTTCCAGCTGGGCCTGATCGACTGGATCGCCGACTTCGCTGACCCAATCTCCTTCCTGGACCTGTTTACGACTGGCAACAGCCAAAACGACGGGCAATGGTCAAACAGCGAATACGACAAGCTGATTGCTGACTCCAAGACTACCATGTCTGCCAGCCAGCGCTGGAGCGACATGAGCAAGGCTGAAGACATCCTCTTAAACGATGCCGGCATTTGCCCGCTCTACTACTCAACCAGCGTCATGCTGGTCCGGACCAGTGTAAAGAACGCGGTCTACAACCGGGGCAACTGGGACTTCAAGGAAGCCTACGTCAAATAA
>SRR1919932_00220 NUDIX family hydrolase
ATGAAAAAAGGCGACAAATTGATTGACTGGGCCATGGAAATCCAAGCGATCGGGCAGACCGGCCTGGCCTACAGCAAGGATATTTTTGACACGGAGCGCTACAGCCGCCTGCGGGAAATAGCCGCGGAAATGCTGGCGGAAAAAAGCGCGGTCAGTTATGACAAGGTCAAAGAGCTCTTTTGTAATGAAATTGGCTACCAGACTCCGAAAATCGCGACCAGGGCGGCCATTTTCAAGGATGACCAGATTCTCCTGGTCCAGGAAAAAGAAGGGCATTGGTCCCTGCCCGGCGGCTGGTGTGACGTCGACCAGTCTCCAGCTGACAACTGCATTAAGGAGTGCCGGGAAGAGTCAGGCTTAACTGTCAAACCGGTCAAAATTATCGCTGTTCAAGACCACTTCAAGCACCATGGCTCCATTCACCCTTATGGGATTACCGACATCTATTATCTCTGCCAGTCTTTAGGTGGGGAATTCCAGGCCAACTCTGAAACGAGCCAGGCGGCCTGGTTTAAGGAAGATGACCTGCCGCCTTTGGCAGAAAACAAGAACTCAACTGAACAGGTGAAGATGTGCTTTGCCGCACACCGGGATGCCAACTGGCAAACTTTATTCGACTAA
>SRR1919932_00221 major facilitator superfamily transporter
ATGTCACGTTACAAAATTCAAGCCTTTCTCTTCGTTTTCGTAGCCTTCATGTTGGGCTGCAATGAATATATGATCGTCGGCGTTTTGCCGGATATTTCCCGGGAAATAAATGCCTCCCTCAGCAGCTTGGGCTACCTGGTTACCGTATTTGCCTTGGTTTATGCTGTCGCCACTCCCCTGGTCACTTCCCTGACCAAGTATTTCAAGCGCCACCAGCTCCTCTTCTTTTTGATGGGGATCTTCTTTATCGGCAATACCTGGACGGCCTTGTCACACAGCTATGTCAGCCTGCTTTTGTCCAGAATCCTGTCAGCCACGACAGCCGGGGCGATTATTTCCCTGATCCTGGTTATCGCCAACTTCGTGGCTCCCTTGGAAAAAAGAGCCTCGCTTCTCTCCTGGATTTTTGCCGGCTTCTCGATTGCTTCCATCATCGGCCTGCCAATCGGGACCTTGATCTCAACGACTTTTTCCTGGCATGCTAGTTTCTGGATGATCTCGCTTCTGACACTCGTAACCTTTATCCTTTTACTGGCCTTCGTGCCCCGGGACACTCCGCAGAGCCAGTCCAGCAAGGGCAATAAGCAGTTTGCCATCCTGGGCAACTGGCACATCCAGCTGACCCTCCTGGCCATCATCCTGGTCTGCGCGGCTCAGTATACCTACTATACCTACATCCGGACCTTGATCACCGACTACATGCATTTCCCGAAGAGCTGGCTGAATGTCCTGCTCTTGCTGCTAGGCTTGGCCTTTATTGCCGGCAACAAGACTGGGGGCTTTCTGGCCAACCATGGCGGGATCAAGCGCCTGCCTTTGGTCTTTGGCATCCAGACTGTTCTGCTCGTCCTCTTGGCTCCCCTTTTGCCTCTGTCCTGGCTAGCCTTCCTGTGCATCGTCGGCATCTGCTGCGTCAACAGCATGTACGGGTCTTCCACCCAGGTTTATTTCATGGACCTGGCCGCGGCTGAATATCCAGAGTCAATCGACTTCGCTTCCAGCTTCAACTCAATTTTTGCCAATGTCGGCATCTCCCTGGGCTCCTTTACGGCAGCGCAAGCGGCAGGCTTGACCGGGATCGCCAGCACCCCCTACTTTGGCGGGGTCTACAGTTTGCTCAGCTGCCTTCTGATGCTCCTGGTCTGCCGGCAATTAGCTGCTAAGAAGTAA
>SRR1919932_00222 phosphatidylethanolamine-binding protein
ATGCAGATTCAAGTTAAATTGGATAAGGGCTATTTGCCCGATGAATATGCCAAGTATGCCAGCGTTAAAGAAGCCGGCAATCCGGTAGTGTCTTTTCCTTTTACCTTGACGGACCTGCCGGAAGGGACCAAGTACCTGGCCTGGTCCTTGGTCGACTATGATTCCATTCCGGTCTGCGGCTTTGCCTGGATCCACTGGCTGGCCAGCGACGTGCCAGCAGTCAGCGAAATTCCAGCTGACTTCAGCCGGACGACGGATACGCCCCAGGGTTACAATAGTACTGTTTCCCGCTTTTTAACCGATCCAGAAGAAGTGCATACGGGCTATATCGGGCCGACTCCGCCGGACAAGGACCACGACTACCGCTTCCGGGTTTACACTTTAAGCGAGAAACTGGACCTGGAGCAGCCTTATTACTACAATGAATTCTTGCGTGCCTTAAAGGGCAAGGTTTTGGCTGAAAGCCAGGTCGACCTGCCGGCCCGGGTTTAA
>SRR1919932_00224 hypothetical protein
ATGGCTGGAAAAGAACAAGAAGCGGAGAAAATTCAAAAGCTGTTGGGCCAGCTGGAAGAAGAAATTTCCTTGAGCTACTTCCTTAAGCCCGGAACAATCACAGTCGGCCGTGACCTCCTGCAGGCCATGCAGGACCTGTTGGCTAATCCTGAAAATTGGGAAGAAAATTAA
>SRR1919932_00225 aspartate aminotransferase
ATGGTTGATTTAACTAAGCACTTTAAGCAGGGAGTAGCGGAAGTAAAGTCTTCAGCTATTCTGAATTTTGCCAAGTATACGAGCCAGTACCCGGACATCGTCAAGTTCACGGTTGGCGAGCCAGACTTCAATACCCCGGACCATATCAAGACGGCTGCCATCAAGGGGATCGTGGACAACCACTCCCACTACGCTCTTTCAAACGGGACGCCAGGACTCAGAAAAGCCGCGGCAGACTTCCTGGCCCGGCATTACGACATGCACTATGAGCTAAGCGAAATCATCGCTACCAACGGGGCAACGGAAGCCATCTACACGGTCATGTCTGCCATCATCAACCCAGGCGACGTGATGGTCCTGCCAACCCCGATCTTTCCTTTATATATTGCTGACGCGGCCCTGGAAAAAGCTGAAGTTGTCCAGATCGACACTTCCCAGACCAGCTTCAAATTAACGCCAGACCAGCTGCAAGCAGCCGTTGACGAATACGGCGACCGCCTCCGGATTCTGGTCATGAACTACCCGACCAACCCGACTGGAGTCATGTACAGCCAGGAAGAGCTGGATGCTTTGGCGGCAGTAATCAAGGACCGGCCAACTTTTGTCCTCTGCGACGAAATCTACAGTGAACTGAACTACGAGCAAGAGCACGCCTCAATGGCCAAGTCCCTCAGAAGCCAGGCCATCGTTTTAAACGGGGTCTCCAAGTCCTGGGCCATGACCGGCTACCGGATCGGGATCATGGCGGCTCCCCAGGAAATCACTGACCAGCTGGCCAAGGTCCACCAGTTCATCACCACGACTGAACCGACCCCAATGCAGGACGCGGCCGAGGAAGCTTTTAAAAACGGGGACAGGGATGCCCGGGAAATGAAGGCCGCCTTCAAAGAGCGCCGGGACTACCTCTACCAGGCTTTGACGGAAACCGGCTTTGAAGTGATCAAACCGCAGGGGGCCTTCTATATCTGGGCCAAGATTCCAGCCGGTCTTAACCAAAAAGAAACGGAATTCGTTTATGAGCTGGCTGACCAGGCCCATGTCGGTGTTTGTGCCGGTTCCTGGTTCGCCAAGGGCGGGCAGGGCTGGCTCCGCTTCTCCTACGCGACGGCACTGGACGAAATTAAAGAAGGCGTAAGCAGAATCAAGAAATTTGTCGAGGAAAATAAGAATGACGGAAAGTAA
>SRR1919932_00226 membrane protein
ATGACGGAAAGTAAAGAAACAAACGGCCTTAAGCAAGGCACGCTGAACATTTTAAACGGGATCGGACTCGGGGTCATTGCTGCCCTGGTGCCGGCCGCGATTTTAGGCCAGCTGATGAAGGCCCTCTTGGGTGTAGCTCCGGCTTTTGCCCAGACGGTCATCAACATCACTACTTTTACCCAGAGCCTGCTGGCGGCCATGGCCGGCTTCTGCGCGGCCTACCTCTTCCAGATGAACATGATCCAGATGTGTTCGGTCGCAGCCGCGGCCATGATCGGGTCTGGCGCGGTTACTTTTAAAAACGGCTTGATCATGGTCGCCGGGACTGGTGACGTTATCAACATCGGCTTGACGATCACCCTAGCCATCCTCTTGATCAAATTGATTGGCAACAAGCTTGGTTCCTACACGACCATTCTCTTGCCAATCATCGTCTTGGTCGTTGGCGGCGGGATCGGCCTCTTGATATTGCCATACGTTAAAACCGTGACCACTTTTATCGGCATGATCGTCATGGCCTTTACCAAGCTGCAGCCGCTCTTGATGGGTGTCTTGATCGGGATGTCCTTCGCGGCTATGATCGTGTCCCCGATTTCTTCAGTTGGGATCGCGGTGGCGATCGGCTTGACCGGGGTTGCCTCCGGGGCCGCCAACCTGGGCATCACTGGGGCGGCCTACACTTTGGGGATTATGAGCTACAGCGTCAACGGGATGGGGACCACCTTGGCCCACTTCATCGGGACGCCAAAGATCCAGATGGCCAATATGCTGGAGAAGCCGAAGCTTTTTGTCCCGGTCCTGCTTTCGTCTGCTTTGTCCGGTCTTCTGGCCGCCATCTTCAACCTGCAGGGGACGCCTAATTCCGCTGGCTTTGGCTTCAGCGGCCTGATCGGACCCCTGGCGGCTTACGCCAAGATGACGCCAGGCTGGGGGAGCATCATCCTGTTGACGGTTCTCTACGTCGTTTACCCAGTTGCCTTGGGCTTCTTCATGCGCTGGCTCTTCATCGACCGCTTGAGCTTTGCCCAGGCAGAGGACCTGCGCCTGGAAGTTTAA
>SRR1919932_00229 oligopeptide ABC transporter substrate-binding protein
ATGCATAAGAAAAATATTGCTTCAGTAACACTTTTGGCAACGGCCGCGCTTTTGACAGCTTGCGGGCAAAACAAGGGGGCTTCCAGCTCCAAGCAGGTGATGAAGACAGCCGTAACCGGGGAAATCAGTACCCTGGACTCCAGCAAGTACGGGGACACCATCAGCTCTGAAACCCTGCAGAACTCCATGGAAGGGCTCTACCGCTTTGACAAAAAGGGGCAGGCCCGGCTGGCCGGGGCGGTCAAGGTGACCAAGTCCAAGGACCAAAAGGTTTACACTTTTACCCTTAGGAAAAATGCCAAGTGGTCTAACGGAGACCCGGTAACGGCCCAGGACTACGTTATTGCCTGGCGGCGGACGGTTGACCCGAAGAACGATTCCCTGGACAGCGACAGCTACCAGGTGATTAAGAACGGGACGGACATCGTAGCCGGCAAGAAGAAGGTGTCTAGCCTGGGCATCAAGGCCTTGGGCAAGTACAAGCTGCAGGTCACCCTGGAAAATCCGATCCAGTATCTGCCGGACCTCTTGACCGGGGCCCAATTCTACCCGCAGGACACGAAGATCGTCAAAAAGTACGGGTCCAGCTACGGGACCAGCTCTAGCAAGCTGGTTTACAACGGTCCATTTACTGTCAGCCAATGGACCGGGTCCAATCTCAAGTGGACTTTGAAGAAGAACAAGACTTACTGGAATGCCAAGTCAGTCAGCTTGAGCGCGGTCAAGGTCCAGGTCATCAAGACTACCTCTACCGGCCTCAACCTCTATAAGGGCGGGCAGCTGGACTACGCGCCAGTTGATTCTGACTACGTCAAGCAGTATGAAAAGAATGCCGACTACCACACGAAGACCACGCCGACCAACGGCTACATGGTCTTTAACTTGAAGCGCAAGACTACAGGCAATGTCCACGTCCGCCGGGCAATAAGCCTGGGCGTGAACAAGCAGGAATTGGTGAAGACGGTCCTGCACTCAGGCAAGGCAGCTCAAGGTTTCGTAGCCAGCGACTTCATCTACGATGAAAACGGCAAGGACTACCGGACCAGTGCTGGCAAGCTGATGACCTACAATCTGAAGCAGGCCCAAAAGGAATGGGCTTTGGCTAAAAAGCAGCTGGGCAAGTCCAAGATCACCATCGAACTGTTAACCAGTGACATGGACGCTTCCAAGCGGGTAGGCGAATACCTGCAGAGCAACTTGATGGAGAACCTGCCAGGCTTGACCGTTAAGTTGCGGTCAATTCCGCTGAAGTCCCGTTTGGCGGACACGAGCAAGCACAACTTTGACATGGTTTACGGGACTTGGCAGCCAAGCTTCCAGGATCCGATCGACTACTTGACCATCGGTGGCCTCTTCAACCTGGAAAGTGACTACAAGAACAGCACTTTCTGGAAGGAAATCAACCAGGCAAAGAGCACTTACGCCACCCAGCCCGCCAAGCGGCAGGCCAGCTTGATCGCCGCCGAAAAGCAATTGATCCAAAAGGATGCTTTCGCGGCACCACTCTACCAAGCCGGGGTTTCCTACCTTCTTAAGTCCAAGGTGACCGGCTTCCGCCTGTCTCCTTACGGGACTGTTGCCTACTACTGGGACGTCAAGATTAAGTAA
>SRR1919932_00230 hypothetical protein
ATGAGCAAATACATCAAAGTTGGCAGCGGCGGCGGTGAAGTGACCTGGCACCGGGCCATGCTCGACATGGAGCCGGGGGACTATCTGCTGCTGGAGCCCGGCTATTACGTTTGGCCCCGGGGCCGGCTATTAGAAGACGTGACCATCAAGGGCCTGGGGGCCAGTCCGGAAGACACCCGGATCCGGAGCTTTTTCTCCATCGGTGAAAACAGCTCCCGGGTGGTTTTTGAAAACTTGACCCTGGAACCTTACGGGGACGTAAACACCCTGGATTTGCCGGAAGAGACCAACAGCTATCTGATCCTGCGCGGCTGTGTCTTGACCGGGACCGGCAGCAAGACGACCACGATTTCCGTCAACGGCCAGGACACGGTGGAGATGTACTCCTGCCGCCTGCTCAACGGGACCCTGTCCTTTTTTGAAAAAGCCAATTTCCGCCTGGAAATGGCGGACTGCCTGCTGGACTATGAATCAGAAAAATTCGGCACCATCTCTTTGGAAGGGACCGGGACGGCCATCATTAATAACTCTGAGATCCGGGGGACGGTCAATAGCTTTGACTCCAGCAACATCGAATTAAACATCAATAACTCCGCCATCGGCAACCTTAACTTAGGCGGCAAGAGCTGGGTTAATGTCTACGCCTGCCGTTTTCTTAACCGGGACTACAGCCTTTATGCCCGGGGCGAATGCTGGCTGAACATCCTGGAGAGTCAAATGCCCAGTCAATTGGCCATCGAAGACCACTGCCACTTGCTAATGCAGAACAGCCAGCTCTACAATTTCCAGGCCCGGGGGGAGAGCCAGAGCTTTTTGTCCAATGTGCAGATCGCGGCCGCGGCCAGCCTGGAAGGCAAAAGCTTTATGGACGGCAGCTTAGTGACTTTCTCCGGCAATGGTGACTACCCTTACTTCATCTTCCTGGTCGACCAGGCGGTATTGAAGGGGCGGAACCTGCAATTTGACCCGCAAAACTGGCCGGTTCTGGTCGACAATGATGCCCGCTTAGTGGCCAACGCCCTTTACTACCAGGGGGCGCCACTGGAAATCAAGTGCGAGCATCCAGAAAACGTCTCTTTGATGGGAATCAAGTGGACTGAACGGAACGAATAG
>SRR1919932_00231 hypothetical protein
ATGCGCTTAATCAAAGTAAGCCAGGACCCCCGGGACTTGTCCTGGGAGCAGGCTTTAGACCAGCTGGAAGACGATGACGTGCTCATGCTGGCTCCCGGCTTTTATGAAATTCCTTTTGGGCAAAAGCTGAAGAATATCGTGATCAAGGGGACGGGGACAGCAGCGGATATGACGGTCCTGGTTGGCACGGTCATCCTGGATGGCCGCTATTTGACCTTGGAAAATCTGGCCGTCAAGACTACCGCAATTGCTGGAGCCCTGGTCAAAGTCTATGAAGGAGAAAATGCTCCTTACTTGACCCTGCGCGGCTGCCGGCTGGAAGCAGCAGAAGGGGAGAGGGGCACGGCTCTCATGACCTTGGGGCCGGTCTGGCTGGAACTTTACTCCTGCCAGGTCAAAGGGGGAATCCGCCTGGTTGGCGATGAGGAGCAGCATGTCCAGATCTCTTCCAGTGAAATCGCGGCAACTCCAGCTGCTTTTACCGGCAATGGCTTTGGCCCATTAGCCATCAGCCAGTCCCAGATCAAGGGGGATTTTGTCCTGGAGGAAAGTTCGGCTTATGAAGGGCACTTTGACCAGACGGCTTTTGACCAGGTGACCAGTTTGAGCGAAGGAAATGACCTTTACTTCACTGAGTCTGACCTGTCTTTAACTCTGAAAAATGGCCAGGCCGACCTTTTGAACTGCGGCTTGCCGGGGACAACCCTTTTGGAAAAAGCTAATTCAGCCGTTTTCCAAAACTGCACTTTTAAGCAATTCAAGCAGGTCAGCGGAAGCAGCAACTTAACCAACTGCCACTTGGAGGCAGGGGAAATCATGGGCCAGGGCAAGGCTGTTTTTTGCCGGCCGCACTTTTCCTGCAGCGAAGGCACTTGGCTTAGTTTAAGGGATGCAAGCCAGGTCCGCCTGCAGAATGCCCTCTTAAACGTGGCTGGCAGCCACTTGCGCCTGGCTGACAAAGCCGGGATCTTAGGCAATGTTTTGGAGAGCGACCAGGACCAGCTGCTGGTCAAGCAGACTGGCCAGGGCAAGGTAAAATTGACGGGAATAAAATGTAAACTTGTCTAA
>SRR1919932_00232 GntR family transcriptional regulator
ATGCAAGAACCAATGTATATCAAAATTCACAATCAGCTGCGCCGGGACATTGAAAACCATGTCTACCAGGTGGGGGACCGGATTCCAGCTGAACGGCAGCTGGCGGAACAGTTCAAGGTGTCGCGGATGACCCTGCGCCAGGCCATCAAGACCCTAGAGGAAGAAGGGATTCTGGAAAGGCGGCTGGGCAGCGGAACCTACGTGGCCAGCCAGAAGGTCCAGGAGAAGATGTCCGGGATCATGTCCTTTACCGAAATCACCCGGGCCAACGGGCAGACCCCGTCCAGCAAGCTGGTTTCCTACAAGATCACCCAGCCGTCCCTGTCGGAAAAAGAACGCCTGGCCCTGGAGGGCAGCGACAAGGTCCTGCGCATGGAGCGGATCCGTTATGCCGACCAGGTGCCGATCTGCCACGAAATCGTGACGGTGCCGGAAGATTTGATCGCGCCTTTTGCCAAAGATGACGTGTCAAGCCACCTCTACCAGACCTTGGAGAAGCAGGGGGGCTACCAGATCGGGGATGCAACTGAGTACATCTCAGCCGCTGTCGCCAATGAACAGGAGGCCCGCCTGCTCAACTGCCGCCGCGGGGAAGCCTTGATCACCCGCCGGCAGGTTACCAAGCTGGCTGATGGCCGGCCCTTTGAATACACGCGGGCTTCATACGTGGGCGAGCGCTTCGAATTTACTTTCAGCAAATAG
>SRR1919932_00233 CDP-glycerol glycerophosphotransferase
ATGAAAAGCATACTATTCCGCCTATATCTGGCAGTCATGAAATTTTTGGCCCGCTGGCAAAAAGAAGACCCCAACACATACGTGATCTTGAATGGGGCCGGCCGGTCGGGGTCCAATGGCTACCTCTTTTATAAATACCTGCGCCGCGAGCACCCGGAAGTCACGGCCTACTTGATCGAGCCCTGGCCTTCTTCCCACCTGCCTTGGTCAGACTGGCAAAAAATCGGCCGGGCCAAGTACGTCTTGACCACCCACCAGCCCTTCAAGGTCCGGAAAAGCCAGGTCAACCTGGCCCTCTGGCACGGGATTCCCCTAAAGCGGATGGGGACCATGGCCAACAATACCCAGCGCCGGGACAACCAGAGAAACGAAAAGCTCTGGCACAAGACGGCCGACCTGGTCACCTCCAGTTCTGAACTCTATGAAAGCTTGATGAGCGCCTGCATGGGAATTGAAGGTCCCCGCTATGTCCAGCTGGGTTTCCCCAGAATTGATTCCTTGCTCAAGTCTCCTTATAAAAAGTCCCAGCTCCTGGCTGACTTTTTCTCCTGCCAGGACCCAGAAGCCCAAGTAGGGATCTATGTGCCAACCTTCCGCTATGAATTGGAAGAGCCGGAAGTGATGGAGCGGATTAAAGAAGGGAACTTTTTTGCCTTCAGCGACTTTGACCTGGCCGCTTTAGACCAGGCTCTGGCTGCTAGAAAGCAGTACCTCCTGGTCAAGCTCCATCCATGGGAAATGAAGCTCTTCAGCGACTTCCACTTGGAGGCCAAGCACGTGGCCTTTTTGAACAATTCCGACCCTTTGGCGAAAAAGCTGGACCTCTACGAAATCCTGGGAGCCACCGACTTCCTCATGACCGACTTCTCCTCGATCTACTTTGACTACCTCCACTTGGACAAGCCGCTGATTTTCATCACCAACTACCTGGCCCAGTATGAAAAGACCCGGGGCTTTTTGCTGGGGCCTTATGAAGAAATCGTCCCTGGTCCCTGCGTGGCCAGTCAGGCTGACCTGGTCAAGCAGCTGGGTGAAAAAGATGGGTATGGCCTTGAGCGGAAAAAGTGGCTGGAGCTGAGCGACCAGGCCGACCATGGCCAGGCCTGCCAGACAATTTTTGATTACTTAAGCGGGGTCTGA
>SRR1919932_00234 PST family polysaccharide transporter
TTGAAAAAAACTTTTCTGAACATCTTCTATAACGCGGTCTACCAGGTCTTCCTGGTCCTGGTGCCCTTGATCACGGTTCCTTACCTGTCCAGAGTCCTGGGCCCGACGACCTACGGGATCTATTCCAGCGTCAACAACACGGTCCAGTTTCTGATGATCTTCTGCGTCCTGTCTTTATCCAATATCGGGGTCAGAAGCATCTCTAAAGCCCGGGCCAAGAGCAAGAGCGGGGAACTGACCGAGGCCTTCTGGGGCCTGTGGTACTTCCAGTTTATCGGCGGCTTGGTAACCATCGCCTTGACTGTCTTGACCTGCCTGGTCCTCAAGGTCCGTTACTGGAACTACTTTCTGCTGATGCTGCCATACTTGATTGCCGCCCAGTTTGACATCTCCTGGTTCTTCCAGGGCCTGGCTGATTTTGGCCGGGTGGTTTTAAGAAATACCATCGTCAAGATCGTCAGCGTTGTCTTTATCTTGCTTTTGATCAAAAGCCCGGCTGACCTTTGGAAGTATTTCCTGATCATGTCCGTGTCCACCATGCTGGGTTCCTTTGTCTTCTGGTTCAGCATCGGCAAATATGTCGGCCGGCCAGTCAAGCATTTCTACTATTTCGCGGAAACCCGCCGGGCCATCATGACCTTGATGATTCCCCAGATCGCGACCCAGATTTACACTTCCTTGGACAAGCCCCTTTTGGGCCTCTTCCAAAATACGGCCCAGGTCTCTTACTATGACAACTCCCAGCGGATTTCTAACATGATCCTGGGGGTTATCACCAGTATTTCCCTGGTAATAATGCCGCAGATGGCGGTCCAGGGGAAGGAAACCCAGAAGAAGGTCTTGAAGAAGTCCCTGGAAGCCACGACCATGCTGGGAACCATGTTTGCCGTGGTGGTCATGGCCAATACCAAGGAATTCGTGCCCTTTTTCTTCGGGAAAAAATATATCCCGATGACCCCCTTGATGTTCTTCTTCACCTTGACCATCATCTTGATTCCCATGGGCGGGGTCTTCGCCAACCAGTTTGCCCTGGCCAACAAGCGGGACAAGGACTATGCCATTCCAGTTACGATCGGGGCGGTCCTAGAGCTGGTCTTCAGCTACTTTTTGGACCGGCCTTTCGGGGCAGCGGGGGCCATGGTGGCGATCATCTTGACCGAAGCCGTTGTTCTCTTTCTGCGCTGCTGGATCGTGCGGGACGGTTATGACTTCAAGGAAACTTTCAGCGACGTGCCCAAGTGCTTTTTGGCCATGGGGATCAGCCTGGCGGCAGGGATGCTGTGGCCTTGGCAGATTCCAAGTGCTTTTATCAACATGACGGTCAAGTCCCTGGTTATTATGGCCTTGTACCTGGCCATCCTCTGGCTCTTGAAGTTTGACTTGAACGAAGACTTGGTCACGATCGTCAAAAAGCGCTTGAAAAAATAG
>SRR1919932_00235 WecB/TagA/CpsF family glycosyl transferase
ATGGTAAAAATAAACATTTTGGGCGTTGGCTTCGACAAGTACAGCCTGGCGGAATTTGAAGCCCGCTTTTTGGACCGCTTGCGGAAAAAAGAATCCACCCTGGTGGTCACGGCCAACCCGGAAATTGTCATGGCCGCTAAGGAAGACCCGGAATACCGGGAAATCATCAACAATGTGGCTGACTACGTAACGGCTGATGGGATCGGCATCATCAAGGGGGCCAAGATGCTGGGGCTGAAGCTGCCGGAGAGAGTAACCGGCTACGATCTCTTCTGCTGGTACCTGCAAATCGCCAATGAAGACCACTTGCGGCTCTACCTGATTGGGGCCAAGCCAGCCGTGATCGCTGCCGTTAAGGAAAAAATCGCCAAGGACTACCCGGGCATCGACTTAGTCGGCGCTGAGGACGGCTACTCCAGAGACGCCCTGCCGGAAATTGCCAGCCGGATCGCCCAAAGCAGGCCCGACCTGGTCTTCGCGGCCCTGGGCTTTCCCAAGCAGGAGAAGCTCCTGGCCATCTTGCGCAAGCAAAAATTGCCAGCCAGCATGATGGGGGTGGGCGGCAGCTTTGATGTCTTCGCCGGCGCCGTCAAGCGGGCACCGAAGCTTTTCCAGGATGCCCACCTGGAATGGTTCTACCGGCTTTTGAAGGAACCAAGCCGGATTGGCCGGATGATGGTTTTGCCCAAATTCGTCGTGGAAGTTAAAAAGAGCAAGAAGCAGGACCAGCAATAA
>SRR1919932_00236 glycosyl transferase
ATGAAAGTACTGCACATCAACGCCGGCCTGGAAAGCGGGGGCGGGCTGACTCATATCGTGAACCTGCTCTCCCAGGCCAAAAAGGCGGGGCAGGACTTTGACCTCTTGACCTTCGCGGAAGGACCGGTTGCCCAGGCTGCCCGGGAAAAGGGGATCAAGACTATCGTTTTGGGCGGCTCCAGCCGCTACGACCTGGCCCTGCTCAAGCGGCTGAAAAAGACAATCAAGGATGGACGTTACGACCTGGTCCACAGCCATGGGGCCCGGGCCAACCTTTTTGTCAGCTTGATCAAGTCATCCTTGCCTTGTCCCTGGTTGATCACGGTCCACTCGGATCCCGCGATCGACTTTGAAGGGCGGGGAATCGCGGGGAAGATTTTTACCAAGCTGAACCTGCGGGCGATCAAGCAGGCCGATGGTGTCTTCGCCATCACTCCCCGTTTTGAAAAAATCCTGCTGAATTATGGAGTAAAGCCCAGCCGGATTCACGTTATCTACAACGGGATTAGCTTTAGGGACAATAGAAATATAGCAGGCAAGGAAGACCATGCCGGCTTCAACATCATCAATGTTGGCCGCTTGGAAAAGGTCAAGGGGCAAGATCTTTTGCTCAAGGCATTTAAAGCAGCCAATTTGCCGCAAGCTCACCTCTATATCGCCGGCAGCGGCAGCCAGGAAGCAGATTTGAAAAAATTACGGCAGGACTTGGCCTTAACAGACCAAGTAACTTTCACCGGCTTTTTGACCCAAGCAGAATTAAGGCAGCTCTACCAGAAGATGGATCTGGCCGTCTTGTCTTCTTACTCAGAAAGCTTCCCCCTGGTCTTGCTGGAAGCAGCCGACAACCGGCTCCCGCTTTTGGCAACTGACGTGGGCGGGGCTAGGGAGCTGATTCCACAAGGAAAAGGCTGGGTCGTGCCGGTCAACGAGGAAAAAGCCATGGCCGACCAGTTAAAAGCAATCGCCGCTTTGCCAAAAGAAGAATTAGCAGCAATTGCCCAAGCGGAAAAAGTCTATGCTAGCCAGCACTTTTCCCTGGACCGACAACTGTCTGACGTTCTGGCCGGCTACCAGGCCTGCCTGCAAGGAGAAAAAACATGA
>SRR1919932_00237 glycosyl transferase
ATGATTCCCAAAATTATCCACTATGTCTGGGTGGGCGGCAATCCCAAGTCCAAGACCATCCAGACCTGTCTGGCCTCTTGGCAAAAGCGCCTGCCGGACTACGAAATCATCGAATGGAATGAAGACAAGCTGGACCTGAATGCCAACAAATATGTCAAGCAGGCCTACCAGGCCAAGAAGTGGGCCTTCGTTTCCGACTATGTCCGGGCCAAGGCCCTCTATGAAATGGGCGGGATCTACCTGGACACCGATGTCATGGTCTTAAAAGATTTTGCCGGCTTGCTAAATGACCGGGCCTTTATTGGCTTTGAAAACAATGACTACTTGTCAGCGGCCATCATCGCGGCAGAGAAGGGGCATCCTTTTATGGCTGACATCCTGCACTACTATGCCGACCTGGATTTTGCCTTTGACCAAAAGGACCAGCTGGCCGGGGTCAACTCCCTGTCCGTCACGGAAATTCTCAAAGAAAAGTATGGCCTTAAGACTGGCAACCAAGAGCAAGTGTTAAAGGAGGGAATTCATGTTTATCCAGACGGGATCCTCTGCAACCCTTCCCCTCAGTCCCGGTCCATTCACCTTTTTACCGGGACCTGGCTGGAAGGGAAAAATTCCTGGAAGCACGACCTGGTCACCTTTTTGAAATTACATATCCGCAGTCAAAAAACTGCGAAAATTTACTACCAGCTCTTCAGACGCTAA
>SRR1919932_00238 NAD synthetase
ATGAGAGAGTTGCAAAAGAAAATTGTCGAATATGAGCACGTTTTGCCGGAAATCGATCCCCAGGAAGAAATCCGCAAGACAGTTGACTTCTTAAAGGATTACCTGAAGGCTAACCCCTTCTTGAAGTCATATGTTTTGGGGATTTCCGGGGGCCAGGACTCAACCTTGACCGGGAAGCTGACTCAAATGGCAATTTCCGAAATGCGGGAAGAAACTGGCGATGACAGCTACAAGTTCATCGCCGTCCGCCTGCCATACGGCGTCCAGGCCGATGCCGCTGATGCCGCTGACGCGGTAGCCTTCATCAAGCCGGACGTGGACTTGATCGAAAACATCAAGCCAGCCACTGACGCCATGGTGGCTACCTTGAAGGAAACGGGCGTGGAAGTGACCGACTTTAACAAGGGCAACATCAAGGCCCGGCAAAGAATGGTCATGCAGTATGCCATTGCCGGGGCCAACCAGGGCGCGGTTGTGGGGACTGACCACGCGGCCGAAAACGTCTCTGGTTTTTACACCAAGTATGGTGACGGCGCGGCTGACTTAACCCCGCTCTTTCGTTTGGACAAGCGGCAGGGCAAGCAGCTCCTGGCTGCTTTGGGCTGCCCGGAACACCTTTATTTGAAGGCCCCGACGGCCGACCTGGAAGAAGAAAAGCCATCCTTGCCAGATGAAGTTGCCTTGGGCGTGACCTACGAGGAAATCGATGACTACCTGGAAGGCCGGGAAGTCAGCGAGAAGGCAGCGGAAAGAATCGAAGAATTGTGGACCAAGAGCGAGCACAAACGCCACCTGCCGGTTACAATTTTTGATGATTATTACAAAAAATAG
>SRR1919932_00239 cation-transporting ATPase
GTGGCTAAGAAGTATTACAGCCAGGACATCCCGGGCACTTTAGCCGAGTTTGGCTCGGATGCCAACCACGGGATCAGTTCGGCTGAAGCAAAGAAGCGCCTGGACCAATACGGCCCGAACGCTTTGGCCGGCAAGAAGAAACGTTCAATGTTTGCCCGCTTCATGGACCAGTTCAAGGACTTGATGATCATCGTCCTGCTGGTTGCCGCTGTTTTGTCCGGGGTAGTTGCCCAGGAATGGACAGACGCGGGGATTATTTTAGTAGTTGTGCTTTTGAACGCGGTCCTGGGCGTGATCCAGGAAGCCCGATCAGAAGCAGCAATTGAAGCCTTGAAGGACATGTCCACGCCAAGCGCCAGGGTGCGCCGGGACGGAGCGGTAATTGAAGTTCCGTCAACGGATATCGTGCCAGGTGACGTGGTCTTGCTGGAAGCCGGTGACGTGGTCCCGGCCGACCTGCGTCTTTTGGTAGCAAAAAGCTTGAAGATTGAAGAAGCTGCCTTGACTGGGGAATCAGTTCCGGTGGAAAAGAGTAATGAAACCCTGCAGGGGGAGGACATTGCCCTAGGTGACCGGATCAACATGGCTTACTCCGGCACCAACGTGACCTACGGGCGCGGGGAAGGTGTGGTTGTCGCTACGGGGATGAACACGGAAGTCGGCAACATCGCCAAGATGCTGAACGAAGCTGATGAAACTGATACTCCTCTTAAGCAGAACTTGAACCAGCTGGGCAAGACCCTGACTTACATGATCCTGGCCATCTGTGTGGTCGTCTTTATTATCGGGGTTATCCGGAACCCGCAGCATGAACCTATGAATGCTTTGCTAATCGACATGTTCTTGACGGCGGTTTCCCTGGCGGTTGCCGCTATTCCGGAAGGTCTGCCGGCGATCGTGACGATCATTTTGGCCTTGGGTACCCAGACCATGGCTGACCACAAGGCCATCGTCAGAAAGCTGCCAGCCGTTGAAACCTTGGGGGCAACGGATATCATTGCTTCTGACAAGACTGGTACCTTGACCCAGAACCGGATGACGGTGGAAAAGGTCTACTACGACGGGATCCTGCATGATGCCAGCGATGACATCGACTTGACCAACCAGGCCTTGATTACCATGCTTTTGGCCAACGACACCAAGATTAAGGACGGCGGGGAGCTCTTGGGTGACCCGACTGAAACTGCCCTGGTGCAATTCGGTTTCCACAAGGATCTGCCAGTTAAAGACTTTTTGGCAGAACACCCACGGGTACAGGAAGTACCATTTGACTCTGACCGGAAGTTGATGAGTACGGTCAACAGGTATGACGGCCAGTTTATGGTTGCCGTCAAGGGCGCGCCGGACATGCTTTTGGAAAGAGTCAAGTATGTCAACATCAACGGCGAGCTGAGCGAAATCAGCGCTGAACAAAAGAAAGCCATTTTGGCAAGCAACAATGAAATGGCCAAGCAAGCCCTCCGGGTCTTGGCGATGGCTTACAAGGTTGTTGCTGAGCCATACGCTGACCCGACTACTGACAATGTTGAACAAGATCTGATCTTTGCCGGTTTGGTCGGCATGATCGACCCAGAGCGGCCGGAAGCCAAGGACGCGATCGCGGAAGCTCACCGGGCCGGGATCAGAACGATCATGATTACTGGTGACCACCAAGTTACGGCGCAGGCGATTGCCGAACGGCTGGGCCTGGTTGAAAAGGGCCGCGGCGATGCCGTGATTACCGGGGCGCAATTGGATAAGCTGAGCGACGACTACTTCACCAAGCATGTCGGTGACTACAGTGTTTATGCCCGGGTTTCACCAGAACACAAGGTTAGAATTGTGAAGGCATGGCAGGCAAATGGCAAGATCGTGGCCATGACTGGTGACGGGGTCAACGACGCGCCGAGTCTGAAGCAGGCCGACATCGGGGTCGGCATGGGGATTACCGGTACGGAAGTCTCCAAGGGCGCGGCCGACATGGTTCTGGCTGACGACAACTTCGCGACGATCGTGGAAGCGGTCAAGCAAGGGCGGAAGGTCTTTGCCAACATTCAGAAGGCGATTCTGTACTTGATGAGCTGCAACGTCGGCGAAGTATTGACGGTCTTCTTGATGACTTTGCTGGGCTGGGATGTTTTGAAGCCAGTGCAGCTTTTGTGGATCAACTTGGTAACTGATACCCTGCCGGCGATTGCCTTGGGTGTTGAACCGATTGAAAAGGGGATCATGAATAAGAAGCCGCGGGGGAAGAATTCTAACTTCTTCTCAGGTGGCGTGGCCAGCTCAATTGTCTACCAGGGGATCCTGGAAGGTGCTTTGGTCTTGACCGCTTATGGTTTGGGTCTGCACGTTTTGCCGCAGGGGACTAACCCGCATGAAGACGCGTTGACCATGGCCTTCTTGACTTTGGGTCTGATCCAGCTCTTCCATGCGATTAACTCTAAGTACCTGAAGCAGTCTATTTTCCAAAAGAGCACTTTTGCCAACAAGTGGTTCAATGGCGCGATTGTTCTGTCAGCCTTGATTATGGCGGCAGTTGAATTGCCATTCTTGACCAGAGTCTTCTCAGTTTCAGAATTGCACCTGGACCAATGGCTGACTGTTCTGGGGATGGGCGTTTTGATGATCGTGATCGTCGAAATCGTTAAGTTCTTTGAGAGAAAAGCTGATCAACGGAATAATTAA
>SRR1919932_00240 oligopeptide ABC transporter ATP-binding protein
TTGGATAATCAGCAAAACGTTTTACTAGACGTCGAAAAGCTTCATACCGGCTACCGCCTGCAGGGCGAGTTCTATGACGCGGCTGATGGCATCGGTTTTACTCTCAAGCGCAACGAAGTTTTGGCTATTGTCGGCGAAAGCGGCTGCGGCAAGAGTACGATTGCCTCCAGCATCGTTGGCCTGTATGACCGGAAAAACACCCGGGTCGAAGGAGAAATTAGGTACAAGAACCTGAACTTGGTCAATTTGAGTGAGGATTTGTTTAACCAAGTTCGCGGCAACAATATTGGCATGATTTTTCAAGACCCGATGGCCAGTTTGAACCCTTTGATGAAGGTTGGGGACCAGGTAGCGGAAGCCTTGCTTTACCATACGGATATGAACAAGCAGCAGCGCCGCGACCGGGTGATTGAACTCTTCAATCAAGTAGGGATGCCTAAGCCGGAAGCCATGTATGACATGTACCCGCATGAACTTTCCGGTGGTTTGCGGCAAAGAGTCGTCATCGCGATGGCGGTGGCCTGCAAGCCGGAAATTATCATTGCTGACGAACCAACGACTGCTTTGGACGTGACCATTCAAGCCCAGATCCTGGACCTGCTCAAGAAGATCCAGAAAGAATCGGACTCTGGCATCATTTTGATCACCCACGACTTGGGCGTTGTAGCGGAAACGGCTGATGAAGTAGCCGTGATGTATGCGGGGCAAATTGTAGAAAAAGCTGATGTGAAAACTTTGTTTACTCATCCTTTGCACCCGTACACCCGGTCACTGTTAAATTCCATTCCACAGTCAGATGATGTCAAGGATGACCTGCATGTAATCCAGGGAACTGTTCCTTCACTGAAAAACATGCCGCGGACCGGCGACCGCTTCGCGGCTAGAATTCCTTGGATTCCAGCTGAAGCGCATGAAGCAGACCCGCAGCTGCACGAAGTTGAGCCAAATCACTTTGTCCGCTGCACCTGCTGGAAGACTTTCCACTTTCAAGATGAAGGATAG
>SRR1919932_00241 oligopeptide ABC transporter ATP-binding protein
ATGGCAGAAGAAATTATCCAAGTTAAAGATCTGAAAGTCCACTACCCAATCCGGTCGGGCTTTTGGAACAGAATTACTGATTATGTCCGGGCAGTTGACGGGGTTTCTTTTTCAATCAAGGAAGGGGAAACTTATGGCTTGATTGGTGAATCAGGCTCCGGCAAGTCCACGACTGGCAAGGCAATCGTTGGCGTGGAGAAGGTGACCAGCGGGCAGATTCTCTACAAGGGTGAAGACATAACCAAGGAATCCGTCCGCCGGAAGATGAACTACAACAAGGACGTGCAGATGATCTTCCAGGACTCCATGTCCAGTCTTAACCCCCGCAAGCGGATTGAAGACATTATCGCAGAACCGATCCGGAACTTTGAAAACTTGACCACTGACCAGGAGCGTGACCGGGTCCAGGAACTGCTGAGCATCGTCGGGATGCCAAGTGACGCGATTTACAAGTTTCCCCATGAATTTTCCGGTGGTCAGCGGCAGAGAATTGGGATTGCCCGGGCAGTTGCCACTAATCCGAAATTAATCGTGGCCGATGAGCCAACGAGTGCTTTGGACTTGTCAGTTCAAGCCCAGGTTTTGAACTTCATGAAGCACATCCAACAGCAGTACAACATTGCCTTCTTGTTCATTTCCCATGACCTGGGCGTGGTCAAGCACATGTCAGAAAACCTGGCAATCATGCACCGGGGCCGGTTGGTGGAAGTGGGCAGCCAGGAAGAAATTTACAAGAATCCGGCGCACATTTATACCAAGCGCCTCTTGTCCGCGATTCCGAAGGTTGATGTTGAACACCGGGCGGAACACGCGGCCAGACGGCGGGAAATCGAACGGGAATTTTTGCAGGACCAGGCAAACTGGTATGATGCAGATGGCCGGGTCTACCCATTGACCGAGGTTGGCCCCAACCACCAGGTAGCCCTGCCTAAAGAGCAGATCAAGGGAGGAGAATAG
>SRR1919932_00242 oligopeptide ABC transporter permease protein
ATGTGGAAAACAGTCTTAAGACGGGTTTTGATCATGATCCCGCAATTGATCCTACTTAGCATTATTGTCTTCATGCTGGCCAAAATGATGCCAGGGGATCCCTTTACCGGTTTGATCAACCCTAACTCAAGTCCTAAGGAAATTGCCCGCTTAAAGCAGGCATATGGTTTGAATGACCCGGTACCGGTGCAATACGTACGCTGGATTAAGAACCTCTTGCATGGTGATTTGGGGCAAAGCTACATCCAGCACGTCCCAGTAGCATCTTTGATTGCCGACCGGGCCCAGAACACTTTCTGGCTTTCGCTTTTGTCAACCATCTTGCTTTACGGCATTGCTATCCCGATGGGGATCAGCGCCGGCAAGCATGAAGGTGAATGGCAGGACCGGGCAATCTCAGTTTTTAACTACGTGACATATGCTATCCCAGGCTTTGTCTTCTACCTGCTGGGCCTTTGGCTTTTCGGCTTTACTCTGGGCTGGTTTCCGATCAGCGGGACGGTTGCCGCCAATGCCAGTGGCTTCTGGGGAATTTTCTTTAGCCGCCTGCAGCACATGATTTTGCCGGCAATTCTCTATGCGATCATCGCCACGACTGGGACAGTGCAATACCTGCGGACCGGGATCATTGACAACAAGGTGGAAGACTATGTTAAGACTGCCCGTAGCAAGGGCGTGCCGGAAAAAGTCGTCTTCAACAAGCACATCTTGCGGAATTCTTTCCTCCCGATCGCTGCCTTTATGGGGAACACCATCACCGGTCTGCTTGGCGGGTCACTGATCATTGAAACGGTCTTCTCCTTCCCGGGGATGGGGAAGCTTTTCCTTGACTCAATCAGCCAGCGTGACTATACCACTTTGACGGCTTTGATTATGATTTTCGGGACCTTGACCCTGCTGGGCAACCTGCTGTCTGACATTATCATGAGTCTGGTTGACCCGAGAATTCGCGTGAAGTAG
>SRR1919932_00243 oligopeptide ABC transporter permease protein
ATGGCTTTATTTACTGTTGGTAAAAAGAAGCAGGATGACCGGGCCCAAATTCCACCATCCGCTTTAAAGATTACTTTTAGAGAAATTTTTAAAAGCAAGGCTGCGACTATAGCCTTTTGCACCATTGTCGTTATTTTGCTACTTACCTTTGGCGGTTCTTTATTCCTTGACAGCAGCAAGGTTACTGAAATGCACATTTTAGAATCCTACGCCGGCTGGGGACAAAACGGCCACTTGCTGGGAACTGATAACGGTGGCCGGGATATTTTGAATTTGTTGATCATGGGCGGGCGCAACTCGATTATGATTGGTCTCTTGGTCACTCTTTTCTGTGAACTGGTTGGCTTAATAGTCGGCCTTGTAGCCGGCTACTATGGCGGCACTACTGACTCCATCATCATGAGAATCGTCGACTTCGTGCAGATTTTGCCGCAAATGCCAATTTTGATCGTTTTGGTAACGGTTCTGCCAAACTATAATGCCATGACTTTGGTTCTGCTGATTTCGATGTTCGGCTGGACGGTTGAAGCCAGATACTACCGGTCATTCATTCTGTCACAAAGAGAAAGAGACTATGTTCTGGCGTCTAAGACTTCAGGCTCTTCAAATACCAAGATCATGTTCCGGGAAATTCTGCCAAATATTGCATCAATGATCATCATCGATGTCGTTTTGAGCGTTTCCGGCAACATCGGGATTGAAACTGCCCTGTCCTTCATCGGCTATGGTTTGCCAACCAAGATTCCATCTTTGGGGACCTTGATCGGTTTTGCCAATGACCCGGTTAACATCATTGACCGGCCGTGGCTCTGGCTGCCGGCAACTGTCCTGCTTTTGGTGATCTGCTTGAGCATCAACTATGTCGGCCAGGCCCTGCAAAAGGCTGGCGACGCCCGGCAAAGAGAAAACTAA
>SRR1919932_00244 oligopeptide ABC transporter substrate-binding protein
ATGAAGAGAAGAATGCTCGGAACATTTGGAGTACTTCTGGCCGGGGCAGCTTTGCTGGCCGGTTGCGGCAAGAGCAGCTCTAGCTCCAGCTCCAGCAACAGCGGGGCTAAGGATGCCAAGAAATTCCCGGAAGCTACGGCAACTGCAACTGCCAAGAAGGGCGGCAGCATCACTGTCGCAGAAGAAGTTGACACGCCAGTCAAGGGTGTTTTCTTGAACGAACTTTCCGACAGCGCACCCGACTCAGACTTTATGACTTATGGGAATGAAAGTCTGTTTGCAACCGATGATCAATACAAGATCAATAACAAGGGTGCCGCTACCTTCAAGATGGACCGGAAGGCCAAGACGGTCACTATCGAAGTTAAGAAGGGGGTCAAGTGGTCTGACGGCAAGCAGGTAACTGCCAAGGACGTTGAATACTCTTACGAAATCATCGCCAACAAGGCCAGCCAGTCATCCCGCTACACCAGCTCACTTGCCGACATCGTCGGCTTGGCAGAATACCACGATGGCAAGTCCAAGAAGATCTCTGGGATCGAAATGCCTGATGGTGAAAACGGGCGCAAGGTAGTTCTGCACTTTAAGGAAATGAAGCCAGGCATGACCCAGTCAGGTAACGGCTTCTTCTGGGAATCTGCAGCACCATACCACTACTTGAAGGATGTCCCATTCAGCAAGCTGCAATCCAGTGACAAGGTCCGGAAGAATCCACTCTTCTTTGGTCCTTACAAGCTCTCCAAGCTGGTCCGGGGCCAATCAGCTACTTGGGTAAGAAACCCTTACTACTACCGTGGCAAGGCCAAGCTGGACAAGATCACTATCTCTGTGATCTCACCAAATTCAGCTTCCCAGTCAATCAAGTCCAAGAAGTTTGACATGATTGACGTTGTTAACTCCCAATGGAAGGAAGTTAAGGGGACTAAGGGCTATAACTTCGTTGCCCAAATTCCATTGTCATACTCATACATGGGCTTCAAGGTCGGCAAGTGGGACAAGAAGACCAGCTCAGTCAAGATGAACAAGAACTCTAAGATGAGCAACCGCTATCTCCGTCAAGCCATGGGTTATGCCATGAACGTTGATGAAGTAACCCAGCACTACACCCAAGGCTTGTCTTTCAGAGTTAAGACTCTAGTGCCAGAATCCTTCGGTGACTTTCATGACAAGAGCGTGAAGGGCTTCCCACTGAACATCAAGAAGGCCAACGCTTTGTTGGACAAGGCCGGCTACAAGAAGAAGAAGGGTGAAACCTACCGCCGGGATCCAAATGGCAAGAAGTTAACCATCCACCTGGCAGCCATGAGTGGGTCTCCAAACCAGGAAGCAATCGTGCAAAACTACATCCAGCAATGGAAGAAGATCGGCCTGCACGTAACTTTGACCACTGGCCGTTTGATCGAATTCAACTCCTTCTATGACAAGGTACAAAACGATGACCCATCAGTAGACGTCTTCATGGCCGCATGGTCCCTGGCCAGTGAACCTACCCAAGATGACCTCTATGGTCCTAAGGCTCCTTACAACTTTACCCGTTTTGCAACTAGTGAAAACACTAAGCTGCTGAAGGAAATGGGCAGTGACAAGGCCTTTAACCACAGCTACCGGGTACAAAAGTTCCACGAATGGCAACAATACATGCAAAAGGAAGCCTTTGTAATTCCTTTGACTAACGCATACAAGATCACTGCGGTTAACAGCAAGCTGGTCAACTACTCAACTAAGCCATCAAAGACAGCTACCCTGTGGTACGAAACTGGCTTTAAGAAGTAA
>SRR1919932_00245 oligopeptide ABC transporter substrate-binding protein
ATGAAAAGACTAACGAAAATAACGCTTTGCCTGCTAGTGGCCCTAAGTCTGGCGGCCTGCGGGCAAAAGACGGAGAAAAGCAAGCGAAATGGCAACAGCGGGGCAGAAGATGCCATGCAGTTCCCAGTGGCTACCAGTTTTGCCAAGACGAAAAAGGGCGGCAGCATCAAGGTAGCCTTAGAAACTGATACTCCTTTCACGGGGATTTTTTCTGATGAACTGGCTGATTCAACAACTGATGCCACTTTGGCCCAGTTTGGCTCTGAATCTTTATTTGACACGGACAACAGCTACAATATCACAGACAGCGGGGCGGCAAGCTTCAGCCTGGACCGGCAGGCCAAGCAGATCACCATTAATATAAAAAAAGGGGTCAAGTGGTCTGACGGCAAGCAGGTCGTGGCTAAAGACGTGGAATATGCCTATGAAGTAATTGCCAACAAGGCTACAAAAAGTTCTCACTATACTTCTTCCCTGCAGGATGTGGTGGGCTTGAAGGAATACCATGACGGGAGAGACAAGACGATCAGCGGGATCGAAATGCCGGATGGGGAAAATGGCCGCAAGGTCGTGATTCACTTTAAAGAAATGCACCCGGGGATGCTGAAGTCCGGTAACGGCTACTTCTGGGAATCTGCCCTGCCATATCACTACCTTAAGAATGTGCCTTTCAGCAAGCTGAGAACCTGCATCGAAATCCGCAAAAAGCCTGTTTACTTTGGACCTTACAAGGTCCAGAGCATTGAAGCGGGCCAGAAGGTGGTTTGGACCCGCAATGAATACTACTGGCGGGGGACGCCGAGCTTGAGCAAGATCACCATCTCCATTATTTCGCCAAAGTCGGTCTCCACGGCCATTAAAAAAAGAACTTACGACATCATCGAAGTTGTTAACTCCCAGTGGCAGCAGATCAGGACTACCAAAAACTACAGGTTCGTGGCCACGATTCCTTTGAGCTACAACTATCTGGGCTTCAAGCTGGGGAAGTGGGACGAGAAGACCAACTCAGTCAAGATGAATAAGAATTCCAAGATGGCCAATAAGTCTCTGAGACAGGCTATTGGCTACGCGATGAACGTCACCCAGATCCAGCGCAAGTATACGTCTGGCTTGACCTTCCGCATCAAGAGCTTGATCCCGTCGCAATTTGGCGACTACTACGATGACAAGAGCAAGGGTTATCCTTATAACCCAGCTAAGGCGAAAAAGCTTTTGGACAAGGCAGGCTACAAGCTCCGGTCGGGGGAAAAATACCGGCGTGACCCGCAGGGGCATAAGCTGGTGATCCACCTGGCTGCCATGACCGGTGACGCCAGCCAAAGCAAGATCATCAACAACTACATTAAGAAGTGGAAAGAAATTGGCTTAAACGTCAAACTGACCACTGGCCACCTGCTGGAATTCAATACTTTTTACAACCTGCTCTTCCAAGATGACAGCCAGGTCGACATGTTCATCGCCGGCTGGACTTTAAACAATGAGCCTTCCCAAAATGGCATCTACGGGGCGGGGACCCAGTACAACCTGGAGCGTTTTGCTACCAAGACCAATACCCAGCTTTTGGAAGCGATGGACTCAGATGCCGCCTTTAACATCAACTACCGGATCAAGGTCTTCAAAAAGTGGCAAAGGTACATGCAAGAGCAAGCCTTTGTAATTCCTTTGACCAGTTCCTACAAGATTACAGCCATCAACAAGCAGCTGGTCAACCTCTCTTATGAACCGGCAGAAATGAACAACAGCCATCCATTATGGTATAAAGTCGGCTATAAAAAATAA
>SRR1919932_00246 ribonuclease III
ATGGTCTCAACTAAATTTATTAAAATGCTGGATGAAAAATACGGGATCCGCTTCAAGGATGTCCGCTTGCTGGAGGAAGCCTTTACCCATTCCTCCTATGTCAATGAAAATCCCGGCAAAACTTTGGGGAATTATGAAAAGTTGGAATTTCTGGGAGACGCGGTATTGGAATTCACAGTCTCTGACTACCTTTACCGCCACTTCCAGCACTTAAATGAAGGGGAACTGACAAGATTGAGATCAAATATCGTCCGCACTGAAGGCTTCTCAAAAGTGGCCCTGGACTGCGGCTTTAAAGAAGAAATCAACCTGGGAGTTGGCGAGGAAAAAGCTGGCGGCCGCAAGCGCAAGGCCCTTTTGGAAGACGTCTTCGAAGCCTTCAACGGTGCCTTGTTCTTAGACCAGGGGATTGAAGCTGTCGAAAAGTTCCTTAGACAGACCGTTTATCCTTTAATCGCGGCTGGCTACTTTACCCCGTCTCGGGACTTTAAGACGGACCTGCAGGAACTTTTGCAGCAAAACGGCAGCGTGACCATCGAATACCGGGTGTTGAATGAGAGCCAGCAGCCGCCCCACTTTGAAGTTGAAGTCCTGGTCGACGGAAAGAAGCTAGCTAGCGGGGAAGGACGTAACAAGAAGAAGGCTGAGCAGGACGCGGCCAGCCACGACTTGGAGCACTTGAATGGAGGAAAATAG
>SRR1919932_00247 chromosome segregation protein SMC
GTGCCTTTAACTAGTTTGATTTTGGAAGGCTTCAAGTCTTTTGCAGACAAGACGGTGATTGACTTTACTAAGGGGATTACCGGCATTGTCGGCCCTAACGGGTCAGGCAAGAGCAACATTACTGAAGCCATTCGCTGGGTCATGGGGGAAGGCAGTGCTAAATCCCTGCGTGGCCGCAACATGAAAGACGTGATTTTTGCCGGGAGCCAGTTCCGCAAGCCCTTAAACCGGGCAGAAGTGACCATGGTTTTCGATAACCGGGACCGGGAACTGGATTTTTCAGCTGACCAAGTCTCAATTACCAGGCGGATCTTAAAGTCCGGCGACAATGAATACTTGATCAACCAGCAGCCGGTCCGTCTGCGGGATGTCCGGGCGCTCTTTCTGGATTCCGGCATTTCCCAAAACAGCCTGGCTATTATTTCCCAGGGGCGGGTGGACCAGATCCTCAATTCCCAGGCCCGGGAAAGACGGGGAATTTTCGAAGAAGCAGCCGGGGTGCTCCACTTTAAGCAGCAAAAGCAGCAGGCTCAAGGGCAGCTGGAGACGACCAATGACAACCTGATCCGGATCAACGACCTGGTCAACGAGCTGGAGAAGCGGCTGGAGCCCCTGCATGAACAGAGCTCCTTGGCCCAGGAATACCAATTCCAAAAAGCCGCCCTTGATGAGGACTTAAAGACCCTGCTGGCTTTTGAAATCGCCGACTTGGACCAGGAAGAAAGGGAAGTTTCCCAGAAATTGGCCAAGAGCCAGGAACTTCTAAGCCGGCTGGACGCGGAAGTCAAGCAGTCCCAGGCCAAGCTGGCAGCCAAGCGGCAGGAATTCCAGCTGGAAAGCCAAAAGCGGGACCAGGTGCAAGCGGAAGTCCTTAAATTGACCAACCGGCTCTCAGAAATCAACACTTCCTTGCAGGTTTCCCAGCAGTCCCGGCAGTTTGACCAGGCAACCAGGCTGGAATACCAAAGACAGCTGGCTGATTTAAAGGAAAATCTGGCGGCTACGGATGCGGAAATCAGCAAATTGGCTGACCAGGAAGCTGAATATGTCGGGCAATTGGATCAGCTGAAAGGCAAAAGACAAAAGCTGGTCGACCAGCTGAAAGAAGACCCGGCCAGCCTCAAGTTGAAAGTAGAAGACCTGCGCTCGCAATATATTCAGACCTTGCAGGACCAAACCAGTGCCAACAACCAGCTTGTTTACCTGGAAGGGGAAATCAAGCGGGCCAAAGAGAGCAAGGACCAGCGCTATGAAGATGCCTCCAGCCAATTGGCCAAGAGCCAGGAAGAACTGGAAGGCTTGCGGTTGAAAGGGCAAAAGCTGCGGGCAGAAATTGACCAGCTGCAGGCGGAATTAAAGGAAGCCAGCGACCAATTAGGGAAATTAGCTGCCGAACAGCAGGTTGCCCAAAAGCAGCTGCAGGCAGATTTGACCAACCTCCAGCGGCTGACTGCCCGCCGGGATGCCCTGGTCAATATCCAGAAGCGGCATGATGGCTACTATGCGGGGGTCAAACAGGTTTTAAACCAGCCAGACCGCTTCCCGGGCATTATCGGGGCAGTTGGGGAGCTTTTAACTTTCCCGGCTGACCTGGAAGCAGCCATGACGACTGCCCTTGGCGGCAGCGTTCAAAGTCTGGTAGCTAAAGACCGGATGGCGGCTAAAGATGCCATCCAGCAGTTGAAGGTCAGAAGACTGGGACGGGCAACTTTTTTGCCCCTGGATGCATTAAGATACCGGGCAATTCCCGCTTCAACCCGGCAGGCTCTGGAACGCTTTGCCGGCTTTCAAGGCCTGGCCAGCGAATTGGTTGAGGCTAAGGGCGATACTGACATTTCAGAAGCTATCCAGTACCTGCTGGGCAGCATCATTATCGTTGACAATATGGACACGGCCCTGGCTGTCTCCAGGCAGATCGGGCACTACCGGGTCGTTACCCTGGACGGGGATGTCATCAGTCCCGGCGGGGCCATGACTGGCGGGGCCCGCAACCAGCGGAATAATTCCCCTTTGCAGACAACGGCTGAAATCAACAAGACGACGGCCATGCTGGAGGAATTAGAAGGACAGTTCCATATCAAAGAAAAAAAGCTGGCAGCCTTAGACAAGCAAGTTAAAGACAAGCAGGAGACCCGGGAGCAAATCAGTCGGGACCTGCAGAGCCTGCAGCAGGACTTGAGCGCGGCAGTCTTGACCTTCCAAAGCCAGGAAAAAGAAGTCAAGCGCCTGGAAAGCGCCGTTCAGCTCTACCAGGCCCAGCAGGCTGAACAAGCTGCCTACCTGGCTGATTTGACTGACAAAGAAAAGGCCCAAAAGACTAAGAAGGAAGAGCTGGCCGCTTTGGCCGACCAGCAAAAACGCGACCTGGCCAGCCTGCAAGAGACCATTCAGAACTACACTGATTTAAACCAGGGCGTGCAAGAAAAATTGGCTGAGCTTGACCCGCAATTGGCGGTTTTAGCCAACAAGCAGGAAAACCTGCAAGCCAGAAAGGCTGAGCTCGGCCGGCAAAAGGCGGCTAGCCAGAAGCAGATCGGGCAGCTGGAAGAAAAACTGGCTGCTTTGGACAATTCCAGTCAATTGTCAGCCAGCAAGAAAGAGGAGCTGGGCATGGAGAAAGACCGGCTCCTGGCTGAGCAAAAAGACAAGCAGGCTGACCTGGATGCAGCCAGCCAGCTTTTGGGCCAGCTAAACGGGCAAATCAACCAGCTGGAAGCCGTGGCGACCAGAAACTATGACTTGCGAAAAGACGCGGCTAGTGAACAAGAAGAGTTCTCAGTCAAGCTGGCCACGGTTAAAGGCCAGCTCAAGCAGCACCTGGACAGTTTAAGGGAAGACTACTCTTTGACTTATGAAGCCGCGCTTTCCCAGGCCAAGCTGGAAAATACGGAAGAAAACCAGCAGAACCTGCGCCGCAGCGTCAAGCTGCACCGGATGTCTTTGGAAGACATCGGCCCGGTCAACTTGGGCGCGATTGACGAATATAAGGAAGTCAAGGACCGCTATGACTTCTTGAACGGGCAGCAGAACGACCTGCTGGAAGCAAGAAGCAACCTGCAGCAGTCGATGGATGAATTGGACCAGGAAGTCAAGGGCCGCTTCGGTCAGACCTTCCAGCAGATTTCGGCCTCTTTCAGCCGCCTTTTCCCGGTGGTCTTTGGCGGGGGCAATGCCCGCTTGACCTTGACGGATCCGGACGATTTGCTGGAGAGCGGGGTGGAAATCATCGCCCAGCCACCTGGCAAGAAACTGCAGCGCTTGAGCCTTCTGTCCGGCGGAGAGCGGTCGCTGACGGCGATCACCTTGCTTTTTGCCATGCTGGAAGTCAACCCAGTGCCATTCTGCGTGCTGGATGAAGTGGAAGCGGCCCTGGACGATGCCAATGTCGTCCGCTTTGCCCGTTTCCTGCGCCAATATGACAGCCAGACCCAGTTTATCGTGATTACGCACCGGCGGGGGACCATGGAACAAGCCGACCAGCTCTACGGGGTGGTCATGCAGGAATCCGGGGTATCCCAGATTTTGTCGGTCTCCTTGAAAGATTTAAAAGATGAGGTATAA
>SRR1919932_00248 cell division protein FtsY
GTGGGATTATTTGATCGAATCAAAAAGAGCCTGTTCGGCCAAAAAGACGAAGAAAAGCCAGAAGAAGTCAAGGCTGACCAGGAAGAAGCCGCAGAAGAAAATGCTGAAACAGAAAATGAGGCAGTTGCAGAGACTACTGAAACTTCTGAAGAAGCGGTAGCAGAAAAGGCTGAAGAGCAAGAAGAAACCGCTGATGAAGAATCTACTGAAGCTACAGAAGATGTAGAAGAAACAGAAACTACTGAAACTGCAGAAGAAAAGACTGAAGCTGAAGAAGAGACCACTGAACCAGCAGAAGAAAGTACAGAAGAAAAGACAACCGAGCTCTATGAAAAGGGGCTGGAGAAGTCCAACAAGGGCTTTGGTGCCCGCCTCAATGCCTTTTTGGCCAAATTCAGAACGGTTGACGAAGACTTCTTTGACGACTTGGAAGAATTGCTGATTGAATCTGACGTTGGCTATGAGACCAGTGAAGAACTGACTGACCAGCTCAGAGAAGAAGCCAAGCTGCAAAAGGCCAAGAGCCGGGATGACTTAAAGCGGGTCATTGTTCAAAAGCTGGTGGAAGTCTATGACGAAAATGCCAACAGCGAAAACGAAAAGCTGGCCTACGATCCAAACGCCAAGCCAAATGTCTACCTCTTCGTCGGCGTCAACGGGGCCGGCAAGACCACTACGGTCGGCAAATTGGCCAAGCGTTTCCACGACCAGGGCAAGAAGGTCCTGTTAGTCGCTGCCGACACTTTCAGAGCCGGCGCGGTTGAGCAGCTGGTTGAATGGGGCAAGCGGACCGGTGTTCCAGTCGTAACTGGTCCAGACAAGGCTGACCCGGCTGCCGTGGTCTACGACGGCTTAGAGCGGGCGATCGCGGAAGAAGCAGACTATCTCTTGGTTGACACGGCCGGCCGTTTGCAAAACAAGGTCAATTTGATGAACGAGTTGGAAAAAATCCAGCGGACCATCAAGAAGCGCCTGCCAGAGCAGCCGGCTGAAACCCTCCTGGTTCTGGACGGGTCAACTGGCCAAAACGCCCTCTTGCAGGCCAAAGACTTTGACAAGACGACCAAGCTGTCTGGTTTAGTCTTAACCAAGCTGGACGGGTCCTCCAAGGGTGGGGTGGTTCTGTCCATCCGCCACGAAATGAAGCTGCCAGTCAAATTGGTTGGCCTGGGCGAAAAGGCAGAAGACCTGGCCGACTTTGACGCGGCCAACTATGCCGTCGGCCTCTTCCACGACCTGCTGTAG
>SRR1919932_00249 dipeptidase
ATGAAAGATGATGCATGTACTTCGATTTTAGTCGGCAAAAAAGCGGCCATGGACGGCAATAACCTGATTGCCCGCAATGACGACACCTTTTCTCCCTTAAACCAGCAAAAGTTTGTCGTTAACCCGGCAGTTCACGGGGAAAAGGGGCGCAAGATCAAGTCCTGGCTGAACAAGTTCGAAATGGACTTGCCGGAAGACGCCTACCGCTACCCGGCTGTGCCTAATGTCGACTACAAGAAGTACGGCTACTATGAAGAAAGCGGCATTAACGAAAAGAACGTGGCCATGTCGGCTACTGAGTCAACTTACGGCAATGAACGCACTCTGGCCTTTGACCCCTTAGTGGTTGACGGTTTAGACGAGGATTGCATGGTCAATGTCGTCTTGCCTTATATTGACTCTGCCAGAGGCGGGGTTAAGCGCCTGGGCGCCTTGATCGCCAAGTACGGGTCAGCTGCCGGGAACTCAGTTCTTTTTTCTGACAAGGATGAAATCTGGTACATGGAAATCGTGACCGGCCACCACTGGGTCGCTCAAAGAATCCCCGACGATGCTTATGCCATCGCCGCCAACCGGGTCTCCATCCAGGAAGTTGACTTTACTAGTGATGACTTCATGTGGAGTGCAGGGATCCAGGACTTTGTTGCCAAAAACAAGCTCAACCCTGACCTGGAAGGCTGGAACTTCCGCCATATCTTCGGCACCTTCACTGAACAGGACCGCCACTACAACACTTCCCGTGTCTGGTATGGGCAAAAGATCTTGAACCCAAGCATCGACCAGGACCCGGAAGACCCTGACCTGCCATTCATCCGCCGGGCAGAAAAGAAGATCAGCAAGGAAGACATCGAATACATTCTGGGCTCTCACTACCAGGCCACGGTCTACGACCCATTTGCCGTCAAGGGCAGCGATGAAGAACACCACCGCTACCGGCCAATCGGCCTTAACCGGACGCAAAACGCCCATATTCTGGAAGTCAGAAATGACCAAGCAGCTGGCGTTGCCGGGATCATGTGGCTCTGCATCGGGGGACCGACTTTCACTCCGTTCGTGCCTTTCTTTACCAATATGAACGACACTGACCCTTCTTATAACGATACTTCCCTGGAATACCGGCAGTCTGACGCTTGGTGGTTCTACAAGTCTTTAGCGGCTCTGGTGGAAAGCCACTACTCCCACTTCGTCCAAATGGACGCGACCTATTTGACTGAGCTGAACCGCTACTTCCGCGCCCGGGTGGCCGAAGTAACCGACCAGGCCCAAGGCCTCACTGGCGAAGAACTGACCACCTTTTTGACCAAGGCTAACCAGGAAACGGTGGCCCACTGCCGCCAGGAAAGCGAAAAGCTTTGGGGCCAGCTCTTTAAGGAAGCCATCAAGCTGTCCAAGCTGACTTTTAATATGGATAAAAATCTCTAA
>SRR1919932_00250 DNA-binding protein
ATGGATGAATTGAGCAAAAACGAAGCTTTGGGTGACCTGTACGCCATGTACAGCGCCTTGCTCACCCAGGGCCAGCAGGATTATTTTGAAGATTATTACTACAACGACCTGTCTTTAGGCGAAATTGCCGACAACCGGCATGTTTCAAGACAAGCGGTCTATGACAATTTGCGGCGCAGCGCCAAGTCTTTGGAAAAATACGAAGACAAGCTGCAGCTGCTGGCCAGTTACGGCCAATTGGAAGAAGGCATCAGCCAGGCCTTAGCCAGCCTGGCCGCCGGTGACCAGGAAACGGCCAAATTGCAGCTGGAAGACTTGCTGCAGATAATTAGAGGAGAATAA
>SRR1919932_00251 signal recognition particle protein
ATGGCATTTGAAAATTTAAGCGAACGCTTGCAGAAGGCCCTACGCAACTTGACCGGGAAGGGGAAGATCTCTGAAGAAGACATCAACACCGCCTCCCGGGAAATCCGCCTGGCCCTGCTTGAAGCCGACGTCAATTTCAAGGTGGTCAAGGACTTTATCAAGACCATCAAAAAGCGGGCCCTGGGTCAGGAAGTGCAGGAATCACTGACTCCAGGCCAGCAGGTCATCAAGATCGTCAATGAAGAACTGACCAAGATGATGGGGGAAGAAGCGGTCGGCTTAACCAAGTCCCCGCATATCCCAACTGTTATCATGATGGTCGGTCTGCAAGGTACTGGTAAGACCACCACGGTCGGCAAATTAGCCTACCGCTTGATGAAGGAAGAAAAAGCCCGGCCGTTTTTGATTGCCGGCGACATCTACCGGCCAGCGGCCATTGACCAGCTCAAACAAATCGGGGCGGACTTAAAGGTCCCGGTTTACAGCGACCCGGAAGAAAAGAGCGTGGCCAAGATTGTAGAAGACGGTCTGGCAGAAGCAGCCGTCCACAGAAACGACTACGTGATCATCGACACGGCCGGCCGGCTGGAAATTGACGAACCTTTGATGAAGGAACTGGAAGAAGTCAAGGAGGTCAGCCAGCCGGACAACATCCTCTTGGTAGTTGACGCCATGACTGGGCAAGCCGCTGCTGACGTGGCCAAGACCTTCAATGAACGCCTGGACGTGACTGGGGTCATCTTGACCAAGCTAGACGGTGACACTCGGGGCGGGGCCGCCTTGTCTATCAGAGCCATCACCGGCAAGCCAATCCTCTTCACTGGGCAAGGGGAAAAGCTGACCGACCTGGAAGTCTTCCACCCGGACCGGATGGCTTCCAGAATCCTGGGCATGGGGGACATGCTGACCTTGATCGAAAAGGCCCAGCAGGACTACGATGCCAAGCAGGCGGAAAAAGTTGCCCAGAAGATGCGGGAAAACACTTTTGACTTCAACGACTTTATCGACCAGCTGGAACAGGTGCAAAAGATGGGGCCGCTGGATGAAATCATGAAGATGATTCCCGGTATGGCCAATAACCCGCAATTGAAGAACTTCTCAATCGATGAGAAGCAGATCGCCCACACCAAGGCCATCGTCTACTCCATGACGCCAGCCGAAAGAGAAGACGAAAGCCTACTTAACCCGAGCCGGCGCCGGCGGATCGCGGCCGGGTCAGGCGTGCCGATTGTGGAAGTCAACCGGATGATCAAGGAGTTCAAGACGGCCAAGGACATGATGTCCAAGGTGACCAAGGGGAACTTCAAGGACTTGGAGAAATTGCCTGGCATGAACAGCCCGATGGCCAAGATGGCCATGCGGCGGATGGGGAAGAGCTTCAAGAAGAAGAAGGCCAAGAAAATAAAGAAGGTCAAGCGCTTCCACTCATAA
>SRR1919932_00252 30S ribosomal protein S16
ATGTCAGTTAAGATTCGTATGCGCCGTATGGGCGCCAAGAGAAAGCCATTTTACCGGATTGTTGTAGCAGATTCACGTGCACCTCGTGACGGCCGCTTCATCGAAGAAGTTGGTTACTACAACCCAGTTTCACAACCAAAGGAATTGAAGCTTGATGAAGACAAGATCTTTGAATGGTTGAAGAAGGGTGCACAACCTTCAGACACTGTTCGTTCACTTCTTTCAGGCGCTGGCTTGATGGCTAAGTTGCACGACGAAAAGTACAACAAATAA
>SRR1919932_00253 16S rRNA processing protein RimM
ATGAATTACTACAATGTTGGCAAAATCATTGCGACCCATGGCTTAAAGGGTGAAGTCAAGGTTGCTTTGACCACCGACTTTCCAGAAGACCGCTTCAGAGCTGGTTCCCGCCTTTACCTGGGCGACGATAGCCGGGAAGTGACGGTAGCTGCTGGCCGGCCCTTTAAGCAGTTCTGGCTGGTAACTTTTGCAGAAATTACTGATATTGACCAGGCGGAAAAGCTGAAGGGGACGGAAATCTTGATCAGCGAAGAAGACCAGGGGGAACTGCCTGACGGGGTCTACTACTACAGGGAGCTCTTGGGCTGCAAGGTCCTGGACGATGAAAGTGGGGAAGAAATCGGCGAATTGACTGATATCGAAGCGCCAGGCGCCAATGACATCTGGGAAGTAACTGACGAAAACGGCAAGAGCTTCTGGCTCCCATACATCCCGCAGGTCGTTAAGAGCGTGGATATTGATAAAAAAGAAGTCCGGGTTGAATTAATGGAGGGCTTGAGATAG
>SRR1919932_00254 tRNA (guanine-N1)-methyltransferase
GTGAACATCAACGTATTGACCCTGTTTCCTGAAATGTTTACCCCCTTGCAGGTTTCCCTGCTGGGCCGGGGCCAGGAAGATGGCAAGTGGAAGCTGAACCTGGTCAACTTCCGTGATTTTTCTGACCGGCCGCACAAGTCAGTCGACGATACTCCTTATGGCGGAGGCGCCGGGATGGTTCTGCAGGTCAAGCCGATCAAGGACGCCCTTGATTCCCTTGAAAACAAGGGCAAGGTCATCATTACGGCTCCCCAGGGGAAGACTTTCAATGAACAGATGGCCCAGGAATGGGCCAAGGAAGAAAACCTGACCTTCATTTGCGGCCACTTTGAAGGCTTTGACCAGCGGGTTTACGATCTGGCTGACGAAATGGTCTCAATCGGTGACTACGTTTTGACTGGTGGGGAACTGCCAACCATGAGCATGATCGATGCCACTGTCCGCCTTCTGCCAGGGATTCTGGGCAATGCCCTGTCTCCAGTTGAAGAATCCTTCTCAGACGGCCTTTTGGAATATCCGCAATACACCCGGCCAGCTGATTTTGAGGGGCAAAAGGTGCCGGAAGTCCTCCTTTCAGGCAATCATGGCAAGATCGATGAATGGCGGCACTACCAGGCTTTAAAGGCCACCAAGCTGCACCGGCCGGACCTGCTGGAGAAGCGGGACTTGACCCCGGAAGAGGTCAGAATGCTGCGGCAGATCAGAGAAGACGAGCAGGCCGAAGAAGACTAG
>SRR1919932_00255 SNF2 family DNA/RNA helicase
ATGACCCTGCAATGGAGAAAGCTTTTTTCCAACCGGATCCTGGACCGGGGAAGGGATTACTGGAAAAAGGACTGGGTCTACGCGCCCAGCTACAGTGAATTGCCGGCCGGCATCCACTGCCGGGTTGGCAAGCCCGGGCAAAGCTATGACGTAACGATTGACTTCTCTGATGACTGGAGCGAGATCAAGTGGATGGACTGTGACTGCCCTTACGCGGCTGAAGGCTACAACTGCAAGCACGAGGCAGCCTGCTTGTACGCCACGGAGCTTTTTATTGAAGGGATGCAGGCCATTCAAGAACCCTTGACCAGCGAATTGCCTGCAAGCGACCGCAAAAAGCGGCAGGAAGAGATTATTGAAAAGGTCTACGGCCTTGGCAGAAAATATGTCAACTATATTTTTGATCCTGGCAAGATTCTTGCATCGGTTGACTTTGACCCGGTCCTTTGGGAGCGGATCTGGGATAATCCGGCCCTGGCCCATTTGGTAGCCGTTAACCTGGATGACAGCCAGGCTAATGATAAGCAGCCCCTGTTAACGGCTACCGGCTTCAGCCATTTCGCCAACCGCGGGAACGGGAACAAGGTCAACGTTAAAGTTGGCCTTAAGCAAGTAAGCGAGCTGAAGTGCAATATTGCGGAATGCAAGCAAGACGAAATTACCGGCCCTTGCCGGCATGAAATTGCCCTCCTGCAGAAGCTGGTCTTGATGATCATGCGGGAAAACCCGGGTGAAGTAACTGACTACCAGGCAGACCGTGCCCTGGCCAGGGCAGAGATGCTGGAAGAATTCGACCAGGATGCCTTAGAGGACGTGAAGCTTTTGGCCCAGCTGGAGAAAGAGCCGGGCGGTTCTTTTTTAGTCAAGTTTAAAGTCGGCCAAAAGCGCCTTTACGTGGTGAAAAACATCCAGAATTTTGTCGACGATGTCTTAAGCTGGCGGCCAATATCCCTGGGCAAGAAAGAAGTCTTGGTATCACCAGATTCTTTTGACCCGGCCAGCCAGCGCCTGTTCAGCTTCTTGGCTACGATCGCGGCAGATGGGGCAGACATTTACGGAGAGTCAAAAAGAAGCATTGAGATTGCTTCCGGCCGGATTGACGGTTTTTTCGCGGCGGTTGAAGGCAGCGAAGTCGAAAACTTGGACAATAAGCAGGTCGTCCCTGCTAAGCGGGGCGAACTGGAAAAAGCTGAGCTTGAGATCGATGTATACGGGGGCCGGGGGATCAGCATTACCGGGATTTGCCCGCCGGTTCTCCGGGGGATCCGGGCCAGCTACCAGCTGACAGATGAAGCATTTGTTGCTGGCAAGCTCGGCAATATGCTGTACGCCCTTTTTGGCAACAAAGAAAACATTGACGTGTCCTTTGACATAAACCAGCTGAGCCAATTCAAGGCTACTGTCCTGCCTCTTTTGAAAAAATACAGCAACTTGACCATTAGCCCGGCTGCCCAGCAGCTTTTAGAAGAAGCAGGAGGCTTGGAAAAGAGCCAGCTGCGCCTGGATGTTGAGGGCGATGAAGTAGTTGGCCAGGCCCGGGTCTTTTATCAGGGCAAGGCGGTCCGCTTGGGCGCAAGCGGGGAGCGGGCAATTAAGCGGGACTGGTACAAGGAAGAGAAGCTGGCTGACCTGCTGGAGAAATTTTTTGACCTGGAAGACGGCGACTGCCGCTTGGATAAAGGGGATGACGAAGCGGTATACCAGCTTTTGGAAGGGATGCCGAAATTGCTCGCCGCCTTTGATGAAGTTGAAGTTACTCCAGCCTTTAAAAAGCTCAAGCTTAAAGACGGGCTGAATCTGACTTTTGGCCTTTCCTTAAGTGACGGGCTTTTGCGCCTGGATCTGAAAAGCGAGCTTACGCCAGAAGAATTAGCGGAGGTCTTCAGCCAGTACAAGGACCGGAAGAAGTATATCCGCTTGAAGAACGGCAGCTTCCTTAATCCAGCCAGCCAGGACTTGGAAAAGCTGGCCCTTTTAGCTAAAAACTTAGATTTAACCGCTAAGGATTTTGGCAAAGAACAGCTGGAAATGCCGGCCTACCGGGCCCTTTACGTTGACCAGCTCTTAAAAGAGCAGGAGATGGGAGAAATTGAAAGAGACGACCACTTCCAGCAATTGCTTGCTGACTTTGACCAAAAAGAAGCGCCGCTAAAACTGCCAACCGGCCTAGAGAAGATCCTCCGGCCTTATCAAAAGACCGGGACTGCCTGGATGAACCGGCTGGCCCAGCATGGCTTTGGCGGGATTCTGGCGGATGAAATGGGTCTGGGCAAGACCTTGCAAGTGATCAGCCTCCTGGCCAGTCAAAAGGACCAGCCGAGCTTGATCGTGGCTCCGGCCTCTCTCGTTCTTAACTGGGAAGCTGAGTTTAAAAAGTTTGCCCCGGAAATGAAGACGCTGGTTTTGTCTGGCTCTAAGAAAGAACGAAGCGGGCAATTGGCAGACTTGACTGATATTGACGTTGTAATCACGTCTTATGACCTGCTTAAGCGCGATATTACCAACTATGAGCCGCATACTTTTGCCTATGAAGTAATCGATGAGGCGCAGATGATCAAAAATCCGCGGACAGCCGCGGCTAAGGCGGTTTCCGTGGTTAAAGCCAAACACCGCTTTGCCTTGACCGGGACGCCGATTGAAAACCGCTTAAGTGAGCTCTGGAGTATTTTTAACTTCGTCATGCCGGGCTTTTTAAAGAGTTACCGGGAATTTAAGAAGGATTTTGAAAGTCCGATCGTTAAGGAAGACGACCAGGACTGCTTGAACCGGCTCAGTCAGATGGTCGGTCCTTTTATCCTCCGCCGCTTGAAAAAAGACGTCCTCAAGGACCTGCCGGACAAGCTGGAGGAAGTCCGCTATGTCGGCATGGGCAAGGAGCAGAGAAAGCTCTATGACGCTGAAATTGCCCGCTTGAAAAATAAGGTTATGGCTGAGGACGATGAAGGTATCAAGCGCGAGCAGATAGAGATTCTGGCGGCATTGACCAGGATCAGGGAAATCTGCTGCGACCCGGGCCTGCTTTATGAAGACTACAAGGGCGAATCTGAAAAGCGCCTGGCCTGCGTGGATTTGATCAAGAGCGCGATTGACGGGGGCCACAAGGTCCTGCTTTTCTCCCAGTTTACCAGCATGCTGGACCTGCTGGAAGAAAGCCTGAAGGCAGAGGAAATCGGCTTTTTACGGATCGATGGCCAGACTCCTAAAGCCAGACGGCTGACTTTAGTCAACGTCTTCAACCATAAAGACAGTCCGGCTAAGGTCTTCTTGATTTCCCTTAAGGCCGGAGGGACGGGCCTTAACTTGACCGGGGCGGATACCGTCATTCACTATGACCCATGGTGGAACGTGGCGGCCCAGAACCAGGCAACTGACCGGGCCCACCGGATCGGCCAGGAAAAGAAGGTAACGGTCTACAAGCTGATTGCCAAGGATACGGTTGAGGAAGCTATTTTGGACTTGCAGGAAGCCAAGAGACAGCTGGCGCAAGGCATCTTGACGGCAGAGTCTGTTTCTAGCGCCAGCCTGCAAAAGGAAGACTTGCTCAAGATTTTGGACTAA
>SRR1919932_00256 50S ribosomal protein L19
ATGGATCCATTAATTCAAGAATTGACTAAAGAACAACTTCGTGACGACATGCCTGAATTCCGTGCCGGGGACACTGTTCGTGTTCACGTACGTGTTGTTGAAGGTACTCACGAACGTATCCAGATCTTCGAAGGTGTCGTAATCAAGAAGAAGGGCACTGGCATCGGTGCTACTTACACTGTTCGTAAGATCGCTTCCGGCGTTGGCGTTGAACGGACTTTCCCAGTTAACACTCCACGTGTTGCCAAGGTTGAAGTTACCCGTCACGGCCGCGTACGTCGTGCTAAGCTTTACTACCTGCGGACTCGTAGCGGTAAGGCTGCTCGTATCGCAGAACGTCGTCGTTAA
>SRR1919932_00257 5'-nucleotidase
ATGGCTAGATCCATCAAGAAAGAACTTGCGGCTCTGCTTTTGGCCGCGGCCGTTTTAGCACCGGGCCAGGCTAGCGCCAGCAAATTAGAAGTTGCCAGCAAGGCTGATACTGCCAGCAAGCCGGCCCAAAGCAAGGACTGGAAGAATCCCAAGAAGTACAGCAAGGATATTCCGGTGCAGTTTTTGAGCATTAACGATTTGCACGGCAACCTGTCGACGACTGGTACGGCGACCTTGGGGCAAAAGAGCTACAGCAATGCCGGTACGGTAGCCCGGCTGGCCGCTTACTTGAACCAGGCCCAAAAGGATTTTAAGAAGAAAAACAAGCAAGGCACGACCTTCAGAGTCGAGTCAGGGGACATGGTGGGGGCATCCCCGGCCAATTCTTCTCTTTTGCAAGATGAACCAACCATGCACGCCTTAAAGGCCATGAAGTTTACCATCGGCACTTTGGGCAACCATGAATTTGACGATGGCTTGGGTGAATTCAACCGGATTCTTTTAGGCAAAAAGCCAACTAAGAAGTACAATTCCGCTGAAATGGTCTACCCCCACCAAAAGTCAGGCATCAAGCTAATCGTAGCCAACGTTGTCAGAAAGTCCACCGGCAAGGTACCATATGGCTGGAAGTCTTATACCATCAAGACCGTAAAAGCGGGCAAGAAGAAGGCCAAGGTCGGCTTTATCGGCATTTTGACCACGGAAATGCCAACTTTGACGACTAAGAAAAACTACTCTGCCTTCAAGTACCTGGATGAAGCCAAGACCGTTGCCAAGTATGAAAAGGTTCTGCGCAAGAAGGGCGTTAAGGCTATCGTTGTTTTGGCTCACAAGGGGGTTGAAACGGCGGCGGACAGTAAGGGCAAGCTGACCACCAGCGGTGACAGCGTGAAGATCTTAAAGAAGCTGAACAAGATCGATCCGAAAAACACCGTTGACTTGATGATCGCCGGCCACTCTCACCAGTATGCCAACGCCAAGGTCGGCAAGACCCGGCTGGTTCAAGCTTTGAAGTATGGCCAGGCCTACACTGACTCAATCGGCTACATCAGTCCAAAGACCAAGGATTTCGTCAAGGGCAGCCTGGTTTCTCATGTCTACCCAGTCCTGTCAGCTGCTGATGACCCGAAGACCAAGGATAACAAGACAGTTGCCAAGATTGTGGCTGACGCTGACAAGCGGGTTTCAGCCATCACCAAGCAAAAGATTGCTACGGCCCAAAAGGCGGAAACAATCACTGGCCGGGAAAACAACAATACTTCCAATGAAAACGCGGTTGGCGACTTGGTCGTTGACGCGCAATTGTCAGAAGCCAACCGGCAGGGCTTCAAGGCTGACTTTGCCATGACTAACGGGGGCGGGGTCCGGTCCGGCCTGGCTGTGGGCAGTGATAAATCAATTACTTATGGGGCGGCTATGGCCGTTCAGCCTTTTGGCAACAGCCTGCAGGTTCTGACCATGACCGGGAAGCAGATTTTAGCTGCCCTTAACCAGCAATATCAGCTGGATGGCCACTACTACCTCCTGGTCAGCGGTCTGCACTATGTCTACACCAAGGACGCGGCCGGCAAGGTCAAGATCGTCAAGGTTTATGTCGGTGAAGGCGAGAAGACTGAACTCTCCTTGACCAAGACTTACCGGGTTGTCGCCAACGAATTTATCGCTGGCGGCGGTGACCACTTTACTCAGTTCACTGCTGGCAAAAAGGTGGGCATCTTGACCGGGACTGACACGGAAACCTTCATCAGCTACCTTAAGCAGCAGACGGCCAGCGGCAAGCAGATTGCCAGCCCGGCTTTGAACCGGAAGGTGGAAATTTCCGCTGCCCAGGCAGCGGCCCTGGAAAAATAG
>SRR1919932_00258 hypothetical protein
ATGCATTTGGCGGAAGTAGCCGACTACATTCAAAGCAAATATGGTATTGAGGCTAGCTATGTCGACCTGGCCGGGCAAACCCTGGCCGCCGTCACGGTCCCGGGAGCAAATGAAAGTTTCGCCTTGCTCCTTAAGAAGGACGGCCGCGAAACTGTTGAACTGAAAGCCGGGTCCTTGGCTAAGTTTTTGGCTGCCCAGTCGGCTTTTGGACCAGCCGTCTTCATGCAGGACCCGGCCTGGATCAGGGTTGATTTAGATAATCCTGCCTTAAACGACCGCTTTTTTTACAAGACCCTGGATTCTGCCTATCAGAGCTCCCGGCCCTTGGAAGCAGCAAAAAATACGGCAGAAGATAGGCAAGAGCATGAAATCTACCTGCTGGATGATGAGGGAGAAGACTTCCAAGAAGAAGTAATTCCTAAGCGGCCAGCCTTTTTCAAAGACAGCGACTTTGACCGCCTGCTGGTTGAAAAAGGCCAGCCCGTGATCCCGGAAGGGATCAAGCAGATGCAGGAGAGCTACGACTATTTGGCCGTACCCCGGCGGGAGAGCAATTTTTACCGGCAGGGGATGCTGATGGCTAATTATGAAGATGACTTTGCCCAAATGGTCCCAATTAACAAGCAGCGACCAGTCTACCATGATCTGACCGTCGACCAGTTGCGGTCCTATTTTTCCTGGCGGACTAAGTTCCGGCAGGGCAAGTACAAGCCAGCTCCGGCTGCCTATGTCTATTTGCTGGCCAGTGAATTAGTCTGCCAGATCGGGGTTAAGGATAAAGCCGATGGCCTCCGTCAGCTCCGCCTTCTTTTTGCCAAGTGCGTGGAGCAAAAGGATATTTCCACTAGCTGGCAGGAAAAGCACATCCTGCAGAACTACCTGGTTTATTACGGTTTTGCTCTTGAGGAAATCCGGCCGGATTTTGAAGATGAGCTGATGCGGGGGGAAGTTTATCATAATCTTCTGTCTGGTGAAGCGAGCGGACAGGAACTCTACCAGGCCATCTGCTGCTTGTCTTCTTATTTGCCCAAGAACAATCCCTTGCTGAAAAAGGAGCCGGAGAAGTTTTATGAGCTTCTGGCCCAGGTCTGGCAGGAAGTCCGCCTGAATCCTTACCAGCTGCTTAAGCTTTTGGTCGGGGAAAAAACGACCTTGCCGGTAGAAATGTTTGCTGATACGGTTTTCTTCAGCCTTGATCCGGTCAAAGACGCTGAGCTCATTTTAGGGCCAGGCCTTGTCTACCGCTGCCAGGGCGGGCAGTGGAGTAATGAAGTCTACTGGCCTTCCGGCCGGCAGAGGCAGCTTTTGGCCAATTTCATGCATGAATTTGACCGCTTGAGCCGGCAGGCCTTTAAGCAGGGGCGGGCCTTAAAAGAAAAAGACCTGCCTCCCGCTTTTAAGCAGGCAATCGTGCAAGGAATTGCTGACTATCAGGAAATTCTGATAGAAAGGGCCCGGCCAAAGGTTAAGATCAACCTAGCCAGCCTGGACCAGATCCGGTCCGACGCGGCTGAAACCAAGGAAAGCCTGCTGACTGAAGAAGAGCGGCAGCTGGAGGCCGAAGAAGCTGAGAGAATCACTAGCGAGAGTAATAAGCAAGTATCTGAGTCTTCTGCTGCAGAAGAAAAGATGACAAAGGACATTGATGAAGCGGCGGCTAGCGGCCTGGGCTTAGACGAGAATGAAGAGCAGCTGCTTTTGGCTCTTTTTTCCGGCCAGCCCTACCAGGACTTTTTACGCCAGCGGCACCTGCTCTTAAGCGTGGTCGTGGACCAGATTAATGAGAAAATTTTTGACGAAATCGGCGATGCCGTAATCGATTGCGATGGCCAGAAGGCAGACATCGTGGAAGATTACCGGAGCGACCTCGCTGACTTATTAGGAATTGAGGAGAAATAG
>SRR1919932_00259 biotin carboxylase
GTGGAGCAAAAGAAACGGATTCCCAAGCGGATTGCCCAAACGGTTATCAGTTCACTTAAAGGCGGGGTTGTGCCCCGGATCGGCCTGCCATATATCACGGTGGGCCGGAAGGCGGAAATCGAGGCCCTTTTACACGACGTTGACTTAGTCAAAGAAGGCGGGGCCTCCTTCCGCTTTGTTGTGGGCCGGTACGGGTCAGGCAAGAGTTTTTTGTTGCAGACCATCCGCAACTACGTGATGGACAGAAATTTTATCGTCTTAGATGCCGACCTGTCCCCGGAACGCCGCCTGCAGGGCAGCAAGGGGCAGGGCCTGGCCACCTACCGGGAACTGATCCAGAACCTGGCCACCAAGACCCGGCCGGAAGGCGGAGCCTTAACTTTAGTCCTGGACCGCTGGATCAACAATGTCCAGACGGCAGTAGCCAGTGAAATTCCTTTTGATGACCCCGGCTTTCAGACAGCCGTTGACCAAAAGATCGTCAGCCAGATTTCCTCTTTGAGCGAAATGGTGCACGGCTATGACTTTGCCCAGCTGTTAGAGCGCTATTACCATGCCTACCTGGCCGGCGACGAGGATACCAAGGGTAAGGTGGTTAAGTGGTTTAGAGGGGAATACCGGCTGAAAACAGAAGCTAAGCAGGATCTGGGCGTCAACACCATTATTTCTGATGAAGACTGGTACGAGTACTTGAAGCTTTTTGCCGTCTTTTTCCGCCAGGCTGGCTACAGCGGCATGTTTATCATGGTCGATGAATTAGTCAACCTCTACAAGATTCCTAACGCCATCTCCCGCCAGTACAACTATGAAAAGCTGCTCAGCATGTACAATGACGCCATGCAGGGCAAGGCCAAGTACCTGGGCATTATTATGGGGGCCACGCCCCAGGCAGTCGAAGACCGGCGGCGGGGCGTTTACTCTTACGAAGCCCTCAGGTCCCGCCTGGCCGAAGGCAAGTTTGCCAAGGAAGGGCAGCGGGACCTGTATGCTCCCGTGATCCGCCTGGAACCCTTGACGGCAGAAGAAATGCTGGTTTTAACGGAGAAACTGGCCGACATGCATGCCAGCCTTTATGGCTATGAGCGGACGATCAGCGAAAAGGACTTGGCTGACTTTATCAAGATTGAATATGCCAGAGTTGGCACGAGCAGCATGATCACCCCAAGAGAAATCATCCGGGACTTTATCGAGCTGCTGGACATTGTCTTGCAAAATCCTGGCCAGACCGTGCAGAGTCTTTTGACAGACGGGGACTTTGCCTACACTAAGTCAGACGCCGTGTCTGATGAAAAGACCAGCGACTTTGCGGAATTTACGATTTAA
>SRR1919932_00260 ATP-dependent helicase
ATGGATACTTTTTCCCGCTATGCTCCCTTCATCCAGGACTATATCTATTCCCGGGGCTGGGAGACCCTGCGGCCTTTGCAGGCAGCAGCGGCCCAGGTAATTTTTGCTACTGACGACAATTTGCTTTTGTCGGCTTCGACTGCTTCTGGGAAAACCGAAGCAGCCTTTTTTCCCATCTTGACAGATTTGGCGGAAAATCCGGCTGACTCTATTGCCTGCCTCTATATTGCCCCTTTAAAGGCCTTGATCAATGACCAGTATGACCGGCTTAAAGACATCTGTGAAGGCAGTGATGTCCCGGTTTGGCGCTATCATGGGGATGTTTCGGCTGCTCAAAAGCGGAAAATGTTCAAAAGGCCCCAGGGGGTCCTGCAGATAACGCCGGAATCCTTAGAGAGCCTGATGATCAACAAGCACGCGGATATTCCCCGCTTATTTGGCGATCTGCGCTATGTTGTCATCGACGAGTTGCACTCCTTTTTAAGAAGCGGCCGGGGCGGGCAGACCTTCTGCCTATTAGAGCGCTTAAATCGGCTAGCTGGTGTTAAACCCCGCCGGATCGGCCTGTCAGCTACGATCGGGGACCCGAAAGCGGCTGGGCAGTTTTTAGGGGCCGGATCGGGCCGTCAGACCAGGATTCCTAAGGTGAAAAGCCAGCCCCAGCGCTGGCGCTTGTCAATGGAGCATTTCTATAAAAGCGGTGACCAGGCTGGCGACCATTCTGCCTTGCCGGCCCAGGCCGTTTTAGATCAAGCCAGCGACCAGGCACCAGAATTAGCTGACCCGGGCCTGGCCTATATTTTCGACCATACCAGGGGCAAAAAGTGCCTGGTCTTTACTAACAGCCGGGAAGAATGTGAAGCTGTCTGCCAGGTTCTAAGGCAATATTGCGAATATAAGCATGAACCAGACCGCTTCATGATCCACCACGGCAACCTGTCCGCGGCCCTGAGGCAGGGGGCAGAGGCTATCATGAAAGACGAAGATGCCAATATTACGACCTGCGCGACGGCTACTTTAGAACTGGGTATTGACGTCGGCCAGCTGGAGCGGGCCTTTCAAATTGAAGCGCCCTTTACCGTTTCCGGCTTTTTGCAGCGGATGGGGCGGACTGGACGGAGGGGCAATCCAGCAGAGATGTGGTTTGTCATGCGCGAAGAGCAGGCTGAAAGCCGGGCCATGCTGCCAGTTTTGCTTCCTTGGTCGCTTCTGCAGGGGATTGCCTTAGTTGAGCTGTATTTACAAGAGCGCTGGGTTGAACCGCCAAGAGACCACCAATTGCCATACAGCCTCCTTTACCACCAGACCATGTCTACTTTGATGGCCGGCGGGGAGATGAGCCCGGCAGAACTTGCTTCCCGGGTTTTGACCCTGTCCTACTTCCGCTGGGTCAGCCAGGATGACTATAGAGTTTTGCTCCGCCACTTGATCAAGACCGACCAGATCCAGCTGACGGAAAATGGCGGCTTGATCGTCGGCCTAGCCGGCGAGCGGGTGACCAACAATTTCAAGTTTTACGCCGTTTTCCAGGAAAACGAGGAATACAGCGTCCACGCTGAGTCAGAAGAACTGGGGACGATCGTTAAGCCCCCGCCCTTGGGTGAAAAAATCGCCATCGCCGGCCATGTCTGGGTGGTTGAAGAAATCGACCGCCGCCGCCGGCAGGTCTACGTCCACCAGGTTAAAGGCCGGATCCCAGCATATTTTGGGGATGTAGCCGGCGACATCCATCCCAAAGTTCTCCAGCAAATGAGGAAGATTCTGGCAGAAGAGAGGCAGTATCCTTACTTGATGAAAAACGCAGCTGCCCGCTTGAGCGAAACGAGAGCAATGGCGGAAGTCGCTGGCCTGCCAGATAAGCAGCTGATTAACCTGGGGGCTAAGACCTACTGCCTTTTCCCTTGGACGGGTTCTTATGCTTTTCTGGCGCTAGAGCGCTTCTTGCGCTTGAAATGTGCCAGCCGTTTAGGGCTTAAGAATTTTGACTCAGTCCGGCCATACTACATCCAGTTCAGCATGGATGTCAGTGAAGGAGACTTTTACCAGATTCTGGCTGAAGAAGCCGCTAAAGACTTTGAGCCTTTGGACTTGCTCTATCCAAAGGAAGTGCCGGTTTTTGACAAGTATGATGAATATCTGCCAGACGACCTGGTCAGAAAAGAATTTGCCTATAGTGTCCTGGATTTGACTGAAATGCGGCGGGCAATCGGAGAGATTACGAGACAAAAGGCTTAA
>SRR1919932_00261 hypothetical protein
ATGTCAGTAAGCAAGCGTCCGATTTCCAGTTTTCAAGAATTAGAAACAGCCGCTGATGACAGCGATGAGATACATTTTAAGTTAAATGGCCAGCAGTGGCTGTTAGTTGATGACGGCAATCCTTTGACCCCGGCCAGCAAGACCTTGATCAACTGTGATTTGCCTGAAGAGCAGCAGTTTTTTGCCAATACGGAGGAATTTCTGACCTGCCAGATAGGCGGTCAGTCCCTGGCTGACTGCTGGCCCCAGATGAGCGAGGTAGCTGTCTGGAGCGTGCAGTTTGACAGCCTGGAGGAATTTGTCCAGGCGATTAAAGACGGTTGCGACATTAAGTTTTCTTTAGCCGGCCGCCAGTACAGCCTGGGCCAGTCCAGTGAACGAAAGGTCTACCGGCAGCTCACCTGGGGTTTGGAGAAGGGCGGGCAGATGAAGGTGGAAAAATTTGCTGACTTGAAGCAGCTTTTGGCCTTTGAAATTGCCGGGCAAAGCCTGGGCAAGCAGTGGTCAGCCATGAAAAATGTCGACTACGGCTGA
>SRR1919932_00262 glutamine ABC transporter substrate-binding protein
ATGAAAAACATGAAAAGACAGCCGCAAACAATCAAGAGAATCATCCAGGCATTGGCCTGCGGTCTGCTGCTTTTGCTAGCGACCAGCCTAACTGCCTGTTCCAGCAAGCAGGAGAGCAGCTATGCCCGGGCCAAGCAGTCTAAGCAGATAACCTGGGGGGTCCGGCCAGACACCAAGCTGTTCGGCTTGACCAACATCAAGACCGGCAAGATCGAAGGTTTTGAAATTGATCTGGCTACGGCCATCACCAAGCAGATCCTTGGCCCTAAAAGCAAGGCTGTCTTCCGGCCGATCACGGAAAAGACCCGGATCACCCTTTTGCACAACGGCTCCCTGGACGCCGTCATTTCAACCATGACCATCACCAAGGAGCGGATGAAGGTGATCGACTTCTCTGACGTTTACTTTAACGCCAACGAATCCATGATCGTTAAGAAGTCCAGCAAGATCAGAAGCATTGCTGACATGAATAAAAAGGGAGTCGTGGTTATTGCCATCAAGGGGACCGACGTGGCCAACCAGGTGGCTAAGCTGGCTTCAAAGGCCAGCGTCAAGCAGTTTGACGACTACGGGTCAGCCTTCAACGCCTTAAAGGCCGGGCAAGGGGATGTCATGATCGACGACAACGGGATTTTGGCTGGTTTGATCGCTGATACCCCGGAATTCACCTTGACCAAGGCCTCTTTAGCTGAGGAGCCATACGGCATCGGGGTTGAAAAGGGCCAGACCGAAATGCGCCAGGCGATCAATCAGGCCTTAAAGCAGCTGCGAGCCAACGGAGAATATGACCAGCTGGTCAAGAAGTGGTTCGGCAAGGTCTCCGGCTTTGACGTCAAACATGCAGAAAGCCAGAAGGTTAAGATTCAATAA
>SRR1919932_00263 glucose uptake protein
ATGAATATCATCATTGCCTTACTGCCAGCCATCGGCTGGGGGGTTATGCCTTGGATCGTTAACAAGGTGCCAAACAGCAAGCCGGCCAACCAGATCTTCGGCGTCGGCATGGGGGCGACTATTGTCGGCATCATCGTGACTTTAATCCAGCATCCGGCCATTTCCATGCCAGTTTTCTTCCTGTCCCTTCTGTCCGGTGCTTTATGGACGATCGGTCAAATCGGCCAGTTCATCTCCTTCACCCGGATCGGGGTCAGCAAGACCATGCCGATCTCAACTGGCCTGCAGCTGGTCGGCAATACCATCATCGGGGCTTTGATCTTTGGTGAATGGAAGACCAGCAACGACTTTATCTTCGGGATCATTGCCCTGGTCATCATCATGGTCGGCGTCATCTTGACCGCCTACACTGAAAAGGGCGACGGCTTCACTCAGAAGACCACCAACAAGGACATCCTCTTCCTGGTCTTGACCACGATCGGCTACCTGGCCTACTCTGCCTTCCCGAAGACGATTACGGCAGACGCTGAATCCATGTTCCTGCCGCAAACCCTGGGGATCCTGCTGGGGTCTGTGATCTACCTGACCTTCAGCGGCAACAAGGCTGCCTTCAAGGAAAAGACCAGCTACCTTGACCTCTTTGCCGGCATCAGCTTCGGGATTGCAGCTTACGCCTACATCATCTCCGCTCAACTCAACGGGGTGACCAACGCCTTCATCTACGGCCAGCTGAGCGTAATCATCTCCACCATCGGCGGGATGACTCTGCTGGGCGAACGCAAGCAAGGCAAGGAACTGGTTGCAACGCTTGCCGGCCTCTGCCTGATCGTTGTCGGCGCTATCCTTTAA
>SRR1919932_00264 LexA repressor
ATGGCAACTCACGACTCAAAACAATTAGAAATTCTGCAATACATCTACGATACCGTTGAAAACCGCGGCTTCCCGCCGACGGTCCGGGAAATCTGCGCGGCAGTTGGCCTGTCTTCAACCTCCACTGTCCATGGCCATTTGACCAGACTGGAGCGCAAGGGCTACCTCATCAAGGACGCCACCAAGCCCCGGGCTTTGGAAATCACCCACGCCGGCCTTGACGCCTTGGGCATCAAGCCTAAAGACATTCCGGTCATCGGGGTTGTTACCGCCGGCCAGCCGATCCTGGCTGTCCAGGACGTGGAAGACTACTTCCCGCTTCCACCGAACCTGGCCAGTGATGCCGGTGAGCTCTTCATGCTCCGGGTACACGGCACCTCAATGATCAATGCCGGTATCTTGAACGGGGACTATGTCATCGTCCGCAAGCAGACCACGGCCCAGAACGGGGAAATCGTGGTCGCCATGACTGATGACGGGGAAGCAACAGTCAAGCGCTTCTTTAAAGAAGACTTCCACTACCGCCTGCAACCGGAAAATGATGCCATGGATCCAATTATCTTGAACCATGTGCAAATTTTGGGCAAGGTCGTCGGTCTTTACAGAACAAATATTGATTAA
>SRR1919932_00265 hypothetical protein
ATGACAGAAGCAGATCAAGTCAGAAAAAGAATCAATGAATTATACAAGAAGAAGCAGGAAAGCGGCTTGACGGAGGCTGAAGAGGCTGAACGCAAAGAACTGCACAAGCAGTTTATCGCCAACTTCCGGGCAGGTTTCAAGCAGCAGCTGGACAGCCTGGTAATTGTTGACGATCAAGGCAAGGACGTTACGCCGGAGAAAGCCAAGCAAATTCAGAAGAAAAAGGTTCTCAGATAA
>SRR1919932_00266 hypothetical protein
ATGAATTTAGGTTTGGCGATTTTCTTGATTATTTTGGCAGCTCTTCTGGGTGCGGTTGCTGGTTTTTACGGTGCCCGGACTTACATGAAAAACTACTTTAAGAAGAATCCCCCGATTACCCGGGAAATGGTTGAAACCATGATGTCACAAATGGGCCAGAAGCCTTCAGCCAAGAAGGTCAACCAAGTGATGAACATGATCAAGCACCAGGCAGCCAAGAACTAG
>SRR1919932_00267 multidrug ABC transporter ATP-binding and permease protein
ATGGATACTTTCAGCAAGCTGGGCTGGTTCTTTAAAGCCCACCGCAAGCGCTACGCCTTAGGGATCACGGCCTTAGTCCTGACTTCGGCAGCCAACCTGGTCCCGCCGCGGATCCTGGGCATGATGGCTGACCAGCTGGATACGGGGAGAATCAGCTGGCAGCAATTTTTTAGCTATGTTCTGGCAATTTTGCTGGCGGCTTTGGCCCTTTATGTCTGCCGCTATTTCTGGCGCAAGCAGATTTACGGCGGAGCGGCGATTTTGGAAAAAGAACTCCGCGGCCGGCTCTTCTGGCATTTTATGCAGATGGACCGGACCTTCTTTCAGCGCTACCGTACCGGGGACTTGATGGCCCGGGCAACCAATGACGTCCAGGCCGTGCAGAACGTAGCAGGTGACGGGATCTTGACTTTGATCGACGCGATTTTTACCGGGGGGACCACCTTGCTGGCCATGATGATCCTGGTAGACTGGCGCTTGACCCTGGCGGCCATGCTGCCGCTGCCCCTTTTGGCCTTCTGTGCCCGCTACCTGGGTGATCGCCTGCATGACGCCTATATGGATTCGCAGGCGGCCTTTTCCCGCTTGAACAACAAGACTCAGGAATCCTTGTCTGGGATTAAGGTCTTGAAGACTTTTGGCCAGGGAAAGGAGGATGCGGCAGCTTTTAACAAGATGACCTATGAAACGGTAGATATCAATAAAAAGGTCTTCCGGATCGACTCACTCTACGACCCAATGATTACCATGATCATCGGGATTACCTACATCATTACCATCATCTACGGTGGCCGGCTGGTTCTCAGCAAAGCGATCAGCCTGGGCCAGCTGATTTCCTTTGTGTCCTACATTGGGGCCATGGTCTGGCCAATGTTTGCCATTGGCTACCTGTTTAATGTTCTTGAGCGGGGGAGTGCCAGCTACGACCGGATTATGAGCCTGCTCAATGAAAAATCTTTGATCGTGGACTCAGATTCAATGGACAAGGAGCAGAAGTTGACTGGGGATTTGCGCTATCACGTGACCAGTTTTGCCTACCCGGATGAACCAGACAAGGCTGCCTTGGGGCCAGTGGACTTTGACTTGAAAAACGGGCAGACTATCGGCCTGGTTGGCCGGGTTGGCTCAGGCAAGACGACCATTATCCAGCTTTTGATGCGGGAGTTTGATAACTACAAGGGCCGGATCACTTTTGCCGGCCACGACATCCGGCAGATTCCCCTGGACGTCTACTTAAAAGAAATATCTTACGTTCCCCAAAACAACTTCCTTTTCTCCATGTCGGTCAGAGACAATATTGCCTTTGCCAAGCCGGATGCCAGCCAGGAAGAGGTCGAAGTGGCGGCTAAAAAGAGCGCCCTTCACGACGATATCCTGGCCTTTCCAAATGGCTATGAGACCATGATCGGGGAAAACGGGATTTCCCTGTCGGGCGGGCAAAAGCAGCGGATGTCGATTGCTAGAGCCCTGCTTCATGACAGTGAAATCTTGATTTTGGACGATGCTTTGTCAGCTGTTGACGCCAAAACTGAAAAGGCGATCTTGACTAAGCTTCGGCAAGAACGGGAAAAGAAAATTACCGTCATCGCTGCCCACCGCTTAAGCAGCGTAATGGATGCTGACTTGATCCTGGTCATGCAAGACGGGCAGGTGGCAGAAAGAGGGACGCATGAAGAATTGCTGGCCAAAGGGGGCTGGTATGCCCGGATGTGGCAGCGGCAGGAATTAGCCCAGAAGGTAGGTGAAGATGACGATGAATAA
>SRR1919932_00268 multidrug ABC transporter ATP-binding and permease protein
ATGACGATGAATAATGAGGACTTCCAGTCAGTCTGGCAGCAGCCGATTTCGACCAAAGAGCAGTGGCAGATTTTAAAGCGGCTCTGGACCTTTGTCTGGCTTTACAAGGGGGAATTACTGACTGCCGTCGTAGGGATGGTGGCAGTTTCCGTGATCAATATGCTCTTGCCGACCTGGCTGCGGTATTACATGGACCACTATTTGAAGACGGGCAAGGTTGACTTCAGCACGTTTTATTATGTTGCCTTGATCTACGGCATTGGCGTGGTATTTAAGGCGGTCTGCCAATTTACCTATGAATACCTTTATGCCCTGGCCGGGGAAAAGGCATTGGAAAAGGTCCGCCGGGTCCTTTATGCAAAAATTCACACCCTGGGGATGCGGTATTTTGACCAGACTCCAGCCGGGTCGATTTTGTCCCGGGTAACCAACGACACGATGACCCTGGGCAACTTTATGCAGGTTTTCTCTGCCTTTCTGTTAGGGATCGTCTCCATGGTAACCGCCTTGATTGCTATGTATATGGCTGACCCGGTGGCCGGGGGGATCGTGACGGCCTTTATTCCACTTATCGTTGGGGCAATCTGGCTTTATAACCGGGTCAGCTCCAAAATCTACCACGAATACCGGGCCCGCAACTCTTTGATCAACACCAAGCTGGAAGAAAGCATTGCCGGAATTTCCGTGATCCAGCAGTTCCGCCAGGAAAAGCGGATAGACGATGATTTTGAAAAAATCAACCGCCAGCAGATGCAGACCCGCTTCAAGCTGATCAGAACCAACGGCCTGCTCTTGTCGCCGTTTACGACCCTGCTCTATTCGTTGGCCTTAACCTGCGTTTTGGTCTGGTTCGGTTACCCCCTCCGGGCAACTTTTGTCCCGGCCGGGATGATCTATGCTTTTGCAAACTATGTGCAGAACTTTTTTAACCCCTTGTCGGACATGATGAACTCGCTGACCTTCTTTACCGACGGGATCGTGGCTGGCAAGCGGATCTTCAAGATTTTGGACCAGGAAGAATACGAGCCTGAGCAAAAAGAGCTGGCCAACGCCAAGATTAAGGAAGGGAAAATTGAGTTTAAGCATGTGTCATTCTCATATGACGGCAAGCATGACGTTCTCCGCGATGTTTCCTTCACCCTTAATCCAGGCGAGACCCTGGGGATCGTTGGCCACACGGGTTCAGGCAAGAGTTCAATCATCAACGTAATGATGCGCTTTTACGAATTTCACTCGGGCCAGATCCTTTTGGACGGGATCGACATCCGGGACTTTTCCAAGGCAGAATTATGGCAAAAAATGGGCCTGGTTCTCCAGGAACCCTTCATGTTCTATGGGGACGTGGCTTCCAACATCCGCTTGTACAATGACAAGATCACTGATGAGCAGATTGAAGAAGCCGCCAAAACTGTCCAGGCTGACCGCTTTATCGAAAAATTACCTGGGAAATACCATGCCAAGGTCATTGAAGGCGGATCGGAATTCTCCAGCGGGGAAAGACAGCTGATTTCCTTTGCCCGGACCCTGGTAACCAATCCTAAGATTTTGATTTTGGACGAAGCAACGGCCAACGTGGACACGGAAACAGAAAGTTTGATTCAAGCAGGACTCAAAAAGCTCCGCCAGGGCCGCACGACCCTGGCTATTGCCCACCGCCTGTCAACGATTGCTGATGCTGACCAGATCATTGTTTTAGACAAGGGGAGAATCGTCGAACACGGCAAGCACGAGGACTTGCTGGCCCAAAAGGGCTACTACTATGACCTTTACACCCTCCAGCAAAACCGGGAAAACTAA
>SRR1919932_00269 ACT domain-containing protein
ATGGCCGACTATTTTTACGTTCATAAAAAGATCCTGCCCGACTATCTGGAGAAGGTCCTAGAGGCAAGGGAAATGCTGGACAGCCGGGAAGCAGCCACCGTCACCGAGGCGACTGAGCGGGTCGGCATCTCCCGCAACACTTATTACCGCTATAAAGACTATGTTTTTAGAGCCAAGGACCCTGCAAGGGGCCAGCAGGCGGTCTTGTCTCTGCTTTTAGCTGACCTACCTGGGGCCCTGTCAGCCGTTTTGACCTGCGTGACCGACCACCGGGCCTCGGTTTTGACTATTTCCCAGGCCATCCCTTTGGCCAGCCATGCCAGCGTCTTGATGTCCCTGGACCTGGCCGGCCTTGAAGGAGACATCAACACCCTTTTGGCTGATTTGAAAAATCTCCCCTTTGTTAAAAATCTCCAGCTTGCCGGATTAGAATAA
>SRR1919932_00270 homoserine dehydrogenase
ATGCAAATTGCAATCTTAGGCCGCGGCGTGGTTGGCGGCGGCATTGTAAAGCTGGTTGAAGAGGCTGAAACTCCGCTTTTGCAGAAGATTAAAATTAAAAAAATCCTGGTCCACAGAGATGAACAGATCCTGGATGACCAGCATACGACTGACTTTGTGGAAATCGTGAACGATCCGGAAATTTCAGTGGTTTGCGAGTGCATCGGGGGGGTAGAACCGGCACACAGCTATGTTAAGCGGGCCTTGGAAGCCGGCAAGCACGTGGTGACGGCTAATAAGAAGATGCTGGCGGTCTATGCCGGCGAGCTCTTTGACTTAGCCAGGCAAAAGAGCCTGGTATTGGCCTATGAGGCCAGCGTTGGCGGCGGCATCCCCTGGATTGACAACATCAAGCACATTCAGCGCCTGGAGCCGGTCACGGCCTTCCAGGGGATTTTTAACGGGACCAGCAACTATATCCTTTCCCAGATGGCAGAAAAGGACCTGGACTTTGCTGCTTGCTTAAAAGAAGCCCAGGAGCTGGGCTACGCGGAAAAGGATCCCAGCGATGACATCGACGGCGGGGACGTCTGCTACAAGGTCTGCTTGTCAGCCTTGACTGCGTTTGGCAAAATTGCTGATCCAAGCCAGGTTGACCAGTGGGGGATACGGCATTTGACCAAGGAAGACTTTGCCTGGGCCAAGGCAAATGGCCGGACCATCAAGTTGCTGGGCCGGGGCCGGCAGACAGGTGAGAAGCTGTCCTTGCAGGTTTTGCCAGTCATGCTGAAAAAGACCAGCTTTTTAGCCGGAGTGGGCCTTAACTTCAATGCCCTGGAAACTGATTCCGCCTCCCTGGGTCCGGCAACATTCGTGGGCCAGGGGGCAGGGTCTTTGCCAACCGCCCACGCGGCTGTCCAAGACCTCTTGGATCTGGCTGAAGGGAAAAAGGAAAGCGTGCAAAGTGCTGAACCGGGTCAGCTGACTGATGAAGAAGAGCAGACTTTCTACCTGCGGACTAACCGGGCTGATTTTTTCCAGGATGTAGTAGCAGAAAGAATCAGCGAAAAGGCATTTTTGACCAAAAAGCTGACTTTGGCAGAAATTTCAAGCCTGGTCAAGGAAAGCGGGGACCCGTCGTCCTTTTTGGCGGGAGTGGCAGATGAGTAA
>SRR1919932_00271 aspartate kinase
ATGAGTAAAGCAGTCAAATTCGGCGGCTCTTCAGTCGCCAACAGCGAACAGTTTAAGAAGGTCAAGCAAATCATTTTGGCTGATCCGGACCGCAAGTACGTGGTGACCAGCGCCTGCGGCAAGAGCGGGCAGGAGGACCATAAGGTCACCGACCTCCTCTACCTCTGCGCGGCTCACATTACCTATGACGTCAGCTATGAGTCGATTTTCCAGTCTATCGTGGACAAGTACATGGAAATCAAGCGCAGCCTGTGCCTTAAAATCGACTTGGCTGGAGAATTCGCCAAGATCCGGCAGAACATGGCCCGGAACTTGAACCTGGACTACCTGGTTTCCCGGGGCGAATACTTGACCGGCCTTTGCCTGGCTGAATACCTGGACGCAGACTTTGTTGACGCCAGCTGGGTGATCCGTTTCCATTATGACGGCTCAATTGACCTGGATAAAAGCCAGGAACTGTTAAAAGCCCAGGTTGACCCGGGCCGGCGGGTGTTGATCCCCGGCTTTTACGGTTCTTTGCCAAATGGGGTGATTAAGGTCATGAGCCGGGGCGGGTCAGACATTACCGGGTCAATCGTGGCCAATGCCTTCGACGTTGACTTCTATGAAAATTGGACTGACGTTTCGGGCTTTTACGTGGCCGATCCGCGCATTATCAAAGATCCTGTCCAGATTCCCCGGATTACCTACTCAGAATTGCGGCAGATGAGCTATATGGGAGCCAATGTCCTGCATGACGACGCGGTTTTTCCCGTCCGGCAGAAAAACATCCCGATCAATGTCTGCAACACCAATCATCCGGAAAATCCTGGCACCATGATCATGAATGATTGCAGTGAACTTGACGCGCAAGAGCCGCCTCATGTCATCACCGGGATTACAGGCAAGCAGGACTTTACGGTCATCACCATGGTTAAGTCGCATGTTTCAGCTGAGGCAGGCTTCTTACGCAAGGTCTTAGCCGTTTTTGAAAAATTTCAGATCTCGATTGAAAGCGTTCCGGTCACGGTCGATACCTTTTCTATTGTGGTCCAGACCAAGAAAATCGAGCGCTATCTCTATGAGATCGTGGCGGAATTAAAGCAGGACCTGCACCTGGACGATATCCAGGTCGAAAGCCAGCAGGCCATGCTGGCCGTGGTTGGCCGGGCCATGCGGCAAATGCCGGGGATGTCGGGCAAAATTTTGTCAACACTGGGTGACCAGCAGATCAATATCCGCACCATCAACCAGGCCTGCGATGAACAAAGCATCGTCATTGGGGTCAACAACCAGGACCTGGTGCCGGCAATCAAGGCGATTTATCAGCAGTTTATTAGTGAAGAAAGAGTGGAACGATAA
>SRR1919932_00272 aspartate-semialdehyde dehydrogenase
ATGAAAATTGGTATTTTAGGAGCTACAGGGGCCGTTGGCCGGCAGATGTTGGAATGTATTGAAGAAAGACAATTGCCGGTTGAAGAACTGCGCGTTTTTGCTTCCGAGCGCTCCAAGGGTAAAAAGCTGCCCTTTGCTGGCCAGGAATTGACCCTGGAAGTGGTTAGCCAGGAAAGACTGAATGGCCTGGACTACGTTTTGGGGGCAGTTTCTAACAGCCTGTCTAAGGAATACCGGCCCCTGGTCGAAAAAAGCGGGGCAGTCTACATTGACAACAGCTCAGCCTTCCGGCAAGAAGATGGCGTGCCTTTGGTAGTTCCTGAAATTAATGGCCAAGATGCTTTAGACCACCACGGCGTGATTGCCAATCCCAACTGCTCAACTGCCATTACCTTGATGGCTCTGGCTCCAATTGCCAAGTTGTCTCCGATCAAGGCTATCAACGCTTGCACCTACCAGGCCGTTTCCGGTGCCGGCATGGGCGGGATCAGCGAACTGAAGGATGAAGTGACGGCTTTGACCAAGGGCGAGAGCGTGGAAGCCAAGGTCTTCCCGGCCCAGATCGCCTTTAACGTCATCGCTGACATTGGCAGTCCTTTGGAAAACGGCTATACGACTGAAGAAATGAAGATGCAGAATGAAGGCAGAAAGATCTTGCACTTGCCAGACTTGTTGGTGACCTGCACCTGCGTCCGGGTCCCGGTCTACCGGTCCCACTCAATTGCGGTGACGGTTGTCACTGAAGAACCGGTCTCAGTTGAAGCTGCTGAAAATGCCATCGCGGCTTTTGACGGCGACATCCTGGTTACTGATCACACTCCAACTCCCCTGGAAAACTCCGACAAGGATATCGTGCAAGTCGGCCGCCTGCGCCGGGACTTGACCAACCCTAACGGCCTTACTCTCTGGTGCACCGGCGACCAGATCAGAAAGGGGGCGGCAACCAACGCCGTCCAGATTATGGAATACCTGGAAAATAACAAGTAA
>SRR1919932_00273 1-acyl-sn-glycerol-3-phosphate acyltransferase
ATGCTTTATCGTATTTTCAGACCGATCGCCCGCTTCATCGTCTGGGTCTTAAACGGCCACCTGCATGTCCACCACAAGGAAAGACTGCCCGAAGGCACCTACATTTTGGTTGCCCCCCACCGGAACTGGTGGGAGCCGATTCTTTTCGCCCTGGCAGCCAGCCCTACGGAATTCATGTTCATGACCAAGCAGGAGCTGTTTAAAAATCCGGTCCTCCGCTGGATCTTAAACAATGTCCACGCCTTCCCGGTCAACCGGGAGCATCCAGGTCCTTCCGTTATCAAGATCCCGGTCAAGGGCTTAAAGTCAGAAGGCCTGTCTTTGATCATGTTCCCATCCGGCACCCGGCACTCAGCCTCCCTTAAGTCCGGCGCCCTGGTTATCGCCAGAATGTCCGGCCGGCCCCTGCTTCCGGCTGTCTACCAGGGCCCGCTTACTTTTAAAGGGGTCTTGCAAAGAAAAGGCATGGAAATCAACTTTGGCAACCCGATCGTCATTGACCGCAAGACCAAATTGACCCCGGAAACCGAAGCTGCCTACAACCAGCAGCTGGAAGACGCCTGGAAGCAGATCGACCAGGAACTGGATCCGGATTTCCACTATGAAGCTAAATAA
>SRR1919932_00274 O-methyltransferase
ATGATTGAACTAAAGGAAAATGAACGTATCGATTACATGCTGGGCGAGCAGCTGAAAATCATCCAGGACGGGCAGTCTTTTGCCTTTTCCCTGGATACCCTGCTTCTGGCTTACTGGGCCAAAGAAGCCATCAAAAACCGGTCCAAGGTGGTTGAACTCTGCAGCGGCAACGCGGCAGCCAGCCTCTACATGGCTGCTTTTAACAAGGCTCATTACGACGATGTTGAACTGCAAGAAGACATCGTTTCCAAGGCCCGGCGGTCGGTTGAATTAAACGACATGCAGGACCGGATCACGGTCCACCAGGGCAATGTCAAAGACGCGGGCAGCTTTTTGCGAAAAGACAGCTATGACGTCGTTGTGGTCAATCCGCCATATTTCAAGGCCCCGGCCGGCCACAAGCTGAACCCGGACCGGTCTAAAGCCATCGCCCGCCATGAACTGGAGATCAACCTGGAAGAAATCGTCGCCGTTTCCGCCGGCCTCTTGAAAATGAAGGGGAAGATGTTCATGGTCCACCGGCCAGAGCGGCTGGGTGAGATCATCAATTACGGCTTTAAGCATGACCTGGCCGTTAAGACTGTCCAGCCCTTTGTCTCCAGAAGAGGGCAAGACGCCAATTTAGTCATCGTTGAAGCGGTCAGAAGCGGGAAAGGCGACGGGCTGGTTCTGCGCGACGCCATCGAAGTCCATGAGGCAGACGGCAGCAATACCCCGGCCATCAAGGAAATTTTAGAGGCCAAATTGCCAGAGGAAAAGCATTACTTTTATGTCCTTTTATGCAGCGACGGCAGCTTTTACGGCGGCTACACCAATGATTTAAAGAAAAGGCTGGGGGCTCATAATTCTGGTAAAGGGGCCAAGTACACCAAGAGCCGGCGGCCGGTTGAAATGATCTATCTTGAAGAATATGCCGACAAGCGGACGGCCATGCAGCGGGAATATTGGTTCAAGCATCATGACCGGGCCTGGAAGGAAAAATTTTTGCACGAGCAAGGGGTTAAATTTTAG
>SRR1919932_00275 30S ribosomal protein S2
ATGTCAGTTGTATCTATGAAGCAATTGCTTGAAGCTGGTGTACACTTTGGTCACCAAACTAGAAGATGGGACCCGAAGATGAAGCCATACATCTTCACTCAAAGAAACGGGATCTACATCATCGACCTGCAAAAGACCATCAAGATGCTTGACGACGCCTACAACTACGTTAAGGCTGTTGCTCAAGACGACGGTGTTTTCCTGTTCGTTGGTACCAAGAAGCAAGCTCAAGAAGCAATCGCTGAAGAAGCTACCCGTGCAGGTCAATACTACGTCAACCAACGCTGGTTGGGCGGTACTTTGACCAACTGGACTACTATCCAAAGCCGGGTTAAGCGTCTGAAGGACTTGAAGAAGATGGCTGAAGACGGTACCTTCGACGTACTGCCAAAGAAGGAAGTTTCTTTGCTGACCAAGGAAATGGACAAGCTGCAAAAGTTCCTGGGCGGTATCGAAGACATGCCTCGGATTCCTGACGTAATGTTCGTCGTTGACCCTAAGAAGGAAAAGATCGCCGTTCACGAAGCTAACAAGCTTGGTATCCCAGTTGTAGCCATGGTTGACACCAACACTGACCCAACCCCGATCGACGTAATCATCCCTTCAAACGATGACGCTATCCGTGCTATCCGCTTGATCGCCGGTACTATGGCTGACGCCGTAATCGAAGGCAAGCAAGGTGCAGATAACGCCGACGTTGAAAAGGAATTGTCTGAAAGTGCTGAAGAAAACTCTGCTGAAGAAGTAGACGACGCTGAATAA
>SRR1919932_00276 translation elongation factor Ts
ATGGCAAACATTACTGCTAAGCAAGTCAAGGAATTGCGTGAAACCACTGGTGCCGGCGTCATGGACGCCAAGAAGGCTCTGGTTGAAGCCGAAGGCGACATGCAAAGAGCTATCGAAATCATCCACGAAAAGGGTGAAGCAAAGGCTGCCAAGAAAGCTAACCGGATCGCTGCTGAAGGTTTGACTGGCGTTTACGTAGACGGCAACGTTGCTGCTATCGTTGAAGTCAACGCTGAAACTGACTTCGTTGCGCAAAACGAACAGTTCAAAACTTTGGTCAACGAAACTGCCGAAACTATTGCCAAGGGCAAGCCAGCTAACAACGAAGAAGCTTTGGCATTGACCATGCCTTCAGGCGAAAGCCTTGAAGAAGCATACGTAAATGCTACTGCGACTATCGGTGAAAAGATTTCCTTCCGCCGCTTCGCTGTTCTTGAAAAGACTGATGACCAACACTTTGGCGCTTACCAACACAATGGCGGCCACATCGGCGTTTTGACTGTTGTTGAAGGCGGCGACGAAGCCTTGGCTAAGCACATTGCAATGCACATTGCCGCAATGAGCCCAAAGGTTCTGTCCTACAAGGAACTTGACCCAGCTTTCGTCCTCGAAGAACTGGCTCAACTTAACCACAAGATTGACCAAGACAACGAATCACGTGCCATGGTCAACAAACCAGCTTTGCCACACCTTAAGTATGGTTCAAAGGCGCAATTGACTGACGAAGTCATTGCTCAAGCTGAAGAAGACATCAAGGCAGAACTGAAGGCTGAAGGCAAGCCAGAAAAGATCTGGGACAAGATCATCCCAGGCAAGATGGCCCGCTTCATGCTGGACAACACTAAGGTTGACCAAGAAAACACCTTGCTCGCTCAACTTTACGTTATGGACGACAGCAAGACTGTTGAACAATACCTTGAATCAGTCAACGCTTCCGTAGTAAGCTTTGTTCGTTTCGAAGTCGGCGAAGGCATCGAAAAGAAGCAAGAAGACTTTGCTGCTGAAGTTGCTGCACAAATGAAGAACTAA
>SRR1919932_00277 uridylate kinase
ATGAGTCAAGTTAAATATAATCGTATCATTTTGAAAATTTCCGGCGAAGCTTTGGCCGGGGAAAAGGGAACTGGCATTGACCCAACTGTGATCAAGAAATTGGCGCACGAAATCAAGCTGGTTCATGACATGGGCGTGCAAGTCGGCGTCGTCTGTGGCGGCGGCAATATGTGGCGCGGTGAAACCGGGGCCAAGCTGGGCATGGAAAGAGCTCAAGCTGACTACATGGGCATGCTGGCCACGATCATGAATGGCCTGGCCCTGCAAGATGGCCTGGAAACTGCTGGCGTGCAGACCAGACTGCAAACCTCAATCTCCATGCGGCAGGTAGCTGAACCTTATATCCGCCGGGTCGCAATCAGCCACATGGAAAAGAACCGGGTCGTTATTTTCGGCGGCGGCACTGGCAACCCATACTTCTCAACTGACACCACGGCTGCTTTGCGGGCAGCGGAAATTAACGCTGACGTGATCTTGATGGCCAAGAACGGGGTTGACGGGGTTTACACTGCTGACCCGAACCTGGACCCAAGTGCCAAGAAGTTTGCTGAACTGACCCAGCTGGACATGATCGCCAAGGGCCTGCAAGTTATGGACAGAACTGCCAGCTCCTTGTCCATGGACACTCATATTCCATTGATCGTCTTCAACGTCAACACTCCAGGCAACATCAAGCGGGTAGTTGAAGGCGAAAACATCGGGACGATTATCAGAGGTGACAAGTAA
>SRR1919932_00278 ribosome recycling factor
ATGAACAACGAAACGATTGCTAAAGCCAAGAGCAACATGAACAAGTCCATCGAAGTCTACCAGAGCAATCTGGCAACTGTCCGGGCCGGGGTAGCCAACGCCTCCCTTTTGGACCGGGTGATGGTTGAATACTACGGGGTACCAACTCCGCTGGTGCAACTGGCCGGGATCACCATTCCAGAACCACGGGTTTTGATGATCACTCCATATGACAAGACTTCTTTGAACGATATTGAACACGCAATTTTGGCCTCAGACCTGGGCCTTACGCCAGCTAACGACGGTAACGTCATCCGCCTGGTTATCCCGCAACTGACCGGGGAACGGCGGCAGGAAATTGCCAAGGAAGTCGGCAAGCTGGCTGAAGAAGCCAAGATTGCTGTCCGCAATGTCCGCCAGGAAGCCATGAAGGCTTTGAAGAAGCAGGAAAAAGACGGCAAAATCACTGAAGACGAAGAACGGCGCCTGGAAAAGGAAGTCCAGAAGGTTACTGACGAATCAACCAAGAAGATTGACCAGATGGCTGACAATAAGCGCAAGGAAATCACTCAGGGTTAA
>SRR1919932_00279 UDP pyrophosphate synthase
ATGGATAAGAATAAGCAGCTGAATCATTTGGCGATCATCATGGACGGCAATGGCCGCTGGGCAAAGAAGCGGAAAATGCCGCGCTTCATGGGCCACAAGGCCGGGATGGACAACGTTGAAAAGATTGCGCTCGCGGCAGATGAGTTGGGAATTAAAGTCCTGACTCTTTATGCTTTTTCGACGGAAAACTGGGCCCGGCCCAAGGATGAGGTCAATTATTTGATGAACCTGCCGGTCAAGTTCTTTGACAAGTTCATGCCCCGCCTGCAGGCCCACAATGTTAAGGTCAACATCATGGGCTATCTGGATGCCCTGCCGGAATCAACCAGGGAAGTGGTTGAGCGGGCCATGGCGGAAACCGCGGCCAATACCGGTCTGGTTTTGAACTTTGCCTTTAATTACGGGTCAAGAAAAGAAATCGTTTCAGCCGTGCAGGCTCTGGCAAAAGAGGCCGCCAGCGGGGAAATCACGCCGGAAGAAATTACTGAAGACATGGTCTCCGCCAAGCTGATGACCGCCAAGTTTGCCCCTTATTCTGATCCAGACCTCTTGATCAGAACATCTGGCGAGCAGAGAATCAGCAACTTCCTGCTCTGGCAGATTGCTTACTCAGAGCTTGCCTTTACGGACAAGGCCTGGCCGGACTTCGACGAAAACGACTTGGCCGAAATGGTTAAGATCTACCAGCACCGGGACCGGCGCTTTGGTAAATTAGATGAAACAGATAGTTAG
>SRR1919932_00280 phosphatidate cytidylyltransferase
ATGAAACAAAGAGTAATTACAGCAGTTGTTGCTTTATTGATTTTTATCCCGGTCCTGGTTGCCGGTGGCATGTGGATTGACTGGCTAGCTGCCTTTTTGGCTGCCGTCGGCATCAGTGAAGTCTTCTTGATGAAGAAGCAGATCCTGGTCTCAGTTGACTTTACCCTGGCTGCCCTGGCCACCTTGACCTGGACCGTGCCCAACTCCTTCTTTGGCTTTTTGCCAAAAAACTGGAGCAAGTGGGGCGTCTTCTATGCCTTGGTAATGATGCTTTTGACCTGGACGGTTCTGTCTAAGAACAAGACGACTTTTGACGATATCGGCGTTTACGTCCTGTCAAGTTTGTACATCGGGACTGGTTTCCACTACCTGGCTGCGATCAGAAACAGCGATCCAGTCCACGGTTTGTGGCGCTTGCTCTTTGCCTTCGTGATTGTCTGGACGACTGACACGGCTGCCTATATGGTTGGCCGCAAGTTCGGCAAGCACAAGCTTTGGCCAGTAATCAGCCCGAACAAGACTTGGGAAGGGTCAATCGGGGCCGTGATCATCGCGGTTATCGTGACGGCAATTTATGTCAACCTGGCTCCAGTCGGCGGCGACAAGACCAGCTTGATCAATGCTTCCTTCTTCCTGTCAATCGCCGGCCAGATGGGCGACCTGGTTGAATCAGCCTACAAGCGCTTCTACGGGGTTAAGGACTCCGGCAAGATCCTGCCGGGCCACGGCGGGATCCTGGACCGGTTTGACAGCACGCTTTTCGTTTTGCCAATTGTTGCCTTGATCTTTGGAATTTAG
>SRR1919932_00281 metalloprotease RseP
GTGAAAAGTATTCTAGCCTTCATTATAGTTTTTGGCCTGGTGGTCTTTGTCCACGAATTCGGGCACTTTTTCGTGGCGAAAAAGGCCGGTATTTTGGTGCGCGAGTTTTCAATCGGCATGGGGCCAAAATTGGTTCAGTGGCGGCCTGGTCAAACGACTTATACCATCCGCTGGCTGCCGCTGGGCGGCTATGTCCGCCTGGCTGGTCCTGACGAGCAGAGTGAGATCGACCCGGGGACGGCAGTTGTCTTGGAACTGAATGAGGCTGGAATTGTTACGCGAATCGATGCTTCAGAATCAGACCTGCCGATCGAAGGCCGTCCCTTGCGGGTGACTAAGGCCGATCTGGTTGATGATTTGACCATTGCAGGGTATGAAAATGCCGATGAGAGCCAGCTGGTGACCTACAAGGTCGACCATGACGCGACCATGATCGACGACACAGGCACCGAGCTGCAGATTGCCCCCCGGGACGTGCAGCTGCCGGCAGCCAAACCATGGAAGAAACTGGCAACCTCTTTTGCCGGACCGTTTATGAATGTTGTTTTGGGCTTTGTGGCCTTGATGATCTACAGCTTTGCTTCAGTTGGCCCGGCAACAACGACCGTGGGCCAGGTAGCGGCAAACTCCCCGGCCCAGCACGTTCTGCAAAAAGGCGACCAGATCGTGGCCATCAACGGCCGGAAGATCAGTACTTTTGACCAGGTCAGCCAGGCGATTGACTCTTCTAAGGGTAAGACCCTGACGGTCAAGGTCAAGCGGCAGGGAAGCGAAAAGTCAGTCCAGCTGACGCCAAAGTACTCAAAGAAGACCAAGTCATACCTGGTTGGCATCGTGGCTAAGGCCGACAACTCATTTTCCGCCAAGCTGAAGCGGGGCTGGGACTTGAGCTGGCAGGTAACAGGAATGATCTTCCAGGCCCTGGGCAACTTGTTCAAGCACTTCAGCTTAAACAAATTGTCTGGCCCAGTCGGGATCTACTCGGAGACTTCAAAGGCAACTTCCATGGGTCTGATCTACATGCTGGCCTTTGTTGGCATGCTGTCCATCAACCTGGGGATCGTCAACTTGATTCCAATTCCAGGTCTGGACGGGGGCAAGCTTTTGCTGGAACTCATCGAGCTCCTGCGAGGCAAGCCGATTCCAGAGGAGCATGAGACAGTCGTTGACTTGATCGGGGTGGTCTTCTTGCTGATTTTGATTATCGCCGTAACTGGCAACGACATCTACCGCTACTTTATCAAGTAG
>SRR1919932_00282 prolyl-tRNA synthetase
ATGCGTCAATCAATCTTTTTCATGCCGACGCTGAAGGAAACTCCAGCCGACGCGGTTGCAAAGAGCCACCAAGTAATGCTGCGGGGCGGCTACATCCGGCAGGTTACGGCTGGTGTCTACTCATACCTGCCGCTGGGTTACAAGGTCTTGCGCAAGACTGAAAAGATCATTGAAGAAGAAATGGCTAATGCCGGCGTCGTTGAAATGATCATGCCGCACATGCTGCCAGCTTCAATGTGGGAAGAATCAGGCCGTCTGCCAAAGTATGGTCCGGAAATGTTCCGTCTGAAGGACCGGCATGGCCGGGAAATGCTGCTGGGGCCAACCCACGAAGAAACCTTCACTGACGTGGTGGCTAAGAGCCTCAAGTCTTACAAGCAAATGCCCCTGCACCTTTACCAGATTCAAACCAAGTTCCGGGATGAAAACCGGCCACGTTTCGGTCTTCTCCGGGGCAGAGAATTCGTAATGCTGGACGGTTACAGCTTCGCCGCCAGCCAAGAACAGCTGGACAAGCAGTTTGATGATGAAAAGGCAGCCTACCTCAAGATCTTCAAGCGCACAGGCGTTGAAGTCCGGCCAGTTATCGCTGACTCCGGGACTATGGGGGGCAAGAACTCTATTGAGTTCCAGGCACCTGCCGCTGTCGGTGAAGACACTATTGCCACCAACGCTTCCGGTACCTACGCCGCTAACTTGGAAATGGCCGTCAGCGTTGATACCTTCAAGCAAGAGCCTGAAGAACTGAAGGCAATGGAAAAGGTTGCTACTCCAGGCTGCGACTCCATTGACAAGCTGGCAGAATTCCTGCAAGTGCCAGCCACCAGAATTGTCAAGAGCGTCCTCTACATCGTTGACGAAAAGAAGAAGGTTCTGGTTTTGATCCGGGCTGACAAGGAAGTCAACGAAGTCAAGCTGACTCACCTCTTGGACTGCGACAGCCTGCGGGTTGCTGAAACTAGCGACCTGGAAGAACTGACCGGGGCCGGAAAGGGCGGCGTTGGCCCGGTAAATGCTGACTGGGCTGACGAAATCGTGGCTGACGAAACTGTCAAGGGCCTCTATAACGTGGTCGTTGGTGCTGGCGAAAGCGATGCTCAATTCATCAACGCTAACTTGGACCGGGACTTCAAGGCTGACCGCTTTGCTGACCTCCGGGTTGCCAACGAAGGCGAACCTGACCCGGTTGACCATGAACCGCTCAAGTTTACTACCTCAATTGAAGTTGGTCATATCTTCAAGCTGGGGACCTACTACACGGAAACCATGGGGGCCAAGTTCCTGGACCAGAACGGCAAGTCCCAGCCAGTCATCATGGGCTCATACGGGATTGGGGTTACCCGCCTGCTTTCAGCCGTCGTCGAACAGCACGCGACTGAAAATGGGGTTGCCTGGCCAAAGGAAATCACGCCATTCGGGATTCACATCATCCAGATGAAGATGAAGGATGAAATCCAAAGCAAGCTGGCCGAAGACCTGGAAGCCAAGTTTGCCAAGTATGACGTCCTTTATGACGACCGTAACGAACGGCCAGGCGTCAAGTTCAACGATGCTGACCTGGTTGGCGCGCCAATCAGAATTACTGTTGGCCGCGACGCGGCTGACGGGATCGTTGAAGTCAAGCGTCCAGGCGACGACCAGGCACAAAAGCTGGCCGTTACCGACCTGGAAGACTTTATTGCCAGCGAATTAGATTAG
>SRR1919932_00283 DNA polymerase III alpha subunit
GTGACTGATAAAAACCAACTTTTTCTCAAATTGTTAAAACAAGTCGGCTTTTCGGCAGGGGCAGCTGACGAAGCGGTTTTACAGGCAGGGGAGATAAAAAACGTGGATGTCTACAGAAAAGAACGTAGATGGGATATCCACGTTTTTTTTACTACTCCACTGCGTTTTGAAAGCTACAATGCCTTGAACCAGGCAATCAAGCATGAATTTAATGACTTTGTTGATACTCGGCTCATAGTTGAAACGGCTGATGGCCAGCAGCAATACCTGCCAGACTACTGGCAGTACGCGGTTGAAAATTCAGAAGTCTTGTCCGCCAATCCGGCAGCCCAGAACTTCCTGGTCGGGCAGGCGCCCCATGAAGATAGTGGCCGCTGGGTTATTCCAATCAATGGCCAGCTTTTTGACAAGATGCTGGAGCAGCGGCTCTTGGACAGCTTCTCTTTAGAGCTGCGCAATTACGGTTTCTTTAACGTCAAGCTTTTGATGGAAGTTACTGACCAGGGCGGGCAAAGTGACTTTGAAAGCCTGGCCCAGCTGGTGGAAGCTCATGAGAAGAACATGCAGAAAGCCTTCCAGCAGGCCCCGGCCAAGCCAAAGCCAGCTCCCCGGCCCAGCTACCAGGGCCGGCGGGGGAAGAAGACCAGTTTTGGCCCAGGCGCCATCAGCGATAAGGCAGAGATTACCCAGCTAAAAGACTTGTCAGAAGACCAGCGCAGCGCGGTTGTCGAAGGCCATGTCTTCAAGGCGGAAATGCAGGAACTGCGGTCGGGCTCCTTTATTTTTAACGGGGAAATGACTGACTATACCGGTTCTATTTCTTTTAAGAAGTTCGTCCGTGATTCTGACAAAGAAGAAATCGAATATTTGAAAGGCATTAAGCCTGGTGTCTGGATCCGCATGCAGGGCAGCCTTAAGGATGACCAGTATGCCCATGACTTGATCTTCAACATCTACAGCATGGAATTAACCGAGCACGTGGGCCGGCAAGAAGCCTACCAAGGTGAAGAAAAGCATGTGGAATTGCACGTCCACACCAACATGAGTCAGCTGGACGCGACTAGCGATGTAGCAGACATCATCAAGACAGCCAAGAAGTTCGGTCAACCGGCCGTCGCCATCACTGACCATGCTGGCCTGCAGGCCCTGCCGAATGCTTTTGAAGCGGGCAAAAAGACCGGGATGAAGGTCATCATGGGCCTGGAGGCCAACATGGTTGAAGACCACGGCCTGCTGGTTTTAAACCCCGCCAGCATGAAGTATGAAGACCAGGAATTCGTCATTTTCGACGTTGAAACGACCGGTCTGTCTTCTGTTTACGATACGATTATCGAAATCGGGGCGGTCAAGATGAAAAACGGTGAAGTTATCGACCGCTTTGACAAGTTTATCAACCCTCACCATCCATTGTCTGAAACTACGATTAACTTGACTTCAATTACGGACGAGATGATCCAGGCGGCTGACGACGAAGCTGTCGTAATTAAGGAGTTCATGGACTTTTACGGCAATGACCCGCTCTGCGGGCACAATGTCCAGTTTGACGTGGGCTTTGTTGATGCGGCCTTGAAGCGCTGCGGTTATCCAGAAATCAGCCAGCCGGTCGTCGACACTTTGGAAGTTTCCCGTCTCCTGCACCCGGAACAGTCCCGTCACACTCTGGATTCGCTTTGCCGCAAGTACAATGTGGCCCTGGAGCACCACCACCGGGCCAACCAGGACGCTGAAGCAACCGGCTACCTGATGTTCAAGCTTTTGGATGCCTTTAACGACAAGTACCAGGAAGATGACCTGGGCAAGATGAACGACTACAGCAACGGGGAAGGCTACAAGCGGGCCCGGCCGACCCATATTACGGTCTTAGCCCAGAACCAAAAGCCAGGCCTGCGGAATTTGTATGAACTGGTCTCTCTGGCCGGGATCAAATACAACTTCAAGGGGCTGAGAACCCCTAAGTCAGAACTCCGCCGCCTGCACGCCGGCCTTTTGTACGGGTCTGCCTGCAGCCAGGGGGAAGTCTTTATTGCCATGATGCAGAAGGGCTATAAAGAAGCCAAAAAGAAGGCGGAATTCTACGACTTTTTGGAAATCCAGCCGCCGTCAAACTACTCCAGCTTAATTGCCGATGGCTTGATTGCTGATGAAGCCCAGCTGGAAGAAATTCTGACCAATATTTACAAGCTGGGCAAGGAACTGAACAAGCCGGTCGTGGCAACTAGCGATGCCCACTACATCGACAAGCATGAAGCCATCTACCGGGACGTATTGCTGGCTGCCCAAAGGGGTAACCCAAACCGCAACAAGCAGCACCCTGACCTGCACTTCTATACCACCCAGGAGATGCTGGATGAATTCAGCTTCATGGGCGAAGACATTGCTAAAGAAGTGGTCATTAGCAACCCGAACAAGATCAATGCCATGATCGATGAGGGAGTGCAGCCGGTTCAAGACGAAAGCTTCCCGCCAAAGATCCCGCATACGGCTGAACGGGTACGCAATCTGACCTATGACAAGGCCCACGAACTTTATGGTGATCCTTTGCCGGACAATATCCAGGCCCGTCTGGACCGGGAGCTGGATGCCATTATCGGTAACGGCTACGGGGTCGTTTACCTGATTTCCCAGATGCTGGTGGCCAAATCAGTTAAGGACGGCTACTTGGTTGGCTCCCGGGGTTCCGTCGGTTCCAGCCTGGTTGCCACCATGATGGGGATCACTGAAATCAACCCTATGCCGCCTCACTACCGCTGCCCGAAGTGCAAGCAGTCAGAATTTTTTGAAAACGGCGAATACGCCTCCGGTTTTGACCTGCCGGATAAAAAGTGTCCTGACTGCCAGGTCATGATGGTTAAAGACGGGCAGAACATCCCATTTGAAACCTTCCTGGGCTTCCATGGCGACAAGGTGCCCGACATCGACTTGAACTTTTCTGGTGACTACCAGCCAGTTGCCCACAATTTCATCAGAGTTATGTTTGGGCCAAACCACTCCTTTAAGGCCGGCACCGTAGGTACCCTGGCTGATAAAAAGGCGATTGGCTATGCCAAGCACTATCAAGACGAGCACCCGGAAATCAAGATGAACAACGCGGAAGTTGACCGCCTGGCCATCGGGGTTACCGGGGTCAAGGCCACGACCGGCCAGCACCCGGCCGGGATCGTCGTTTTGCCGGATGACAAGGACATCTATGAACTGACTCCCCTGCAGTATCCCTCAGACGATATCTCCAAGGAATGGAAGACGACCCACTTTGACTTCCACCAGATCCACGACAACCTCTTGAAGTTCGACATCCTGGGTCACCAGGACCCGACCATGATCAGAATGCTGCAAGACTTGTCCGGGATTGATCCTTTGACGATTCCAACTGATGACCCTAAGGTCATGTCCCTTTTCTCCAGCCCGGAAGCCCTGGGCGTTACTCCAGAGCAGATCAATTCCAAGACCGGGACCCTGGGCCTGCCGGAATTCGGGACCCCCTTTGTCCGGGGGATGCTGGAAGAGACCAAACCGTCGACTTTTGCCGAGCTTCTGCAGATTTCCGGCCTGTCCCACGGGACGGACGTCTGGCTGGGCAATGCCGAGGAACTGATCAACAACGGCACTTGCAAGTTAAAGAGCGTGATCGGCTGCCGGGACAACATCATGACTGACTTGATCCACTGGGGAGTTAAGGAAGAAGTCGCCTTTTCAACTATGGAAACTGTCCGGAAGGGGAAGGGGATTTCTGATGAGAACATGGCCGTCTTAAAGGAAAACAAGAACATTCCTGACTGGTATATTCCGTCTTGCTTGAAGATCAAGTACATGTTCCCGAAGGCCCACGCGGCCGCCTACATCTTGATGGCTCTCAGGGTGGCCTGGTTCAAGGTCTACTATCCAGAGATCTACTATGCCGCTTACTTCTCAGTCAGAGCCGACAAGGTCGACCTGGAAGCCATGAGCCGGGGCAAGAACACGGTTGTGGCCTTGATCAACCGGAACAAGGAAAAAGGGACGGCAGCGACCAAGCTGGAAAAGGACCTGCAGACCTACATGGAACTGGTCAACGAAGCCATTGAGCGGGGGATCAACTTCAAGATGGTCGACATCAACGAGTCTGAAGCTACGACTTACAAGATCGTGGACAAGCACACCATTCTGGCGCCGTTTAATGCCGTTGATGGCTTAGGTGACTCCGCGGCCAAGCAGATCGTGGCTGCCCGCAGTGAAGCGCCATTTTTGTCAAAAGAAGACCTGCAGGTCCGGGGCAAGGTTTCCCAGAAGATCATGGACTTCTTTGAAAACAACAATGTCTTAGAGGGGATGCCTGACCAGAACCAACTTTCCCTCTTCTAA
>SRR1919932_00284 ribosome maturation protein RimP
TTGCCCAAAAACTTAACACCTATCCAAGAAGCAATCGAACCGGTCATTATCGGTCATGACTGTGAACTTGTTGATTTGGAATACGTCAAGGAAAAGAGTCAAGACTATCTGCGAATCTACGTGGACAAGCAGCCAAACGGAATTGACATCGAAACGATTGCGGAGCTGAGTGAGTTGGTTGGAGAGAAATTGGACTCAATGCAGCCAGATCCGCTGCCAGACCCGTATATTTTGGAACTATCCTCACCGGGCCTGGAAAGACCGATCAAGAAGGAGCAGGACTGGGAGAAGGCCAAGGGCCAGTACATCCATGTCGGCCTCTACCAGAAATTGGAAGGCGAGAAGGTCTTTGAAGGTCATTTGCTTGACCTGGACGACCAGGAGATTAAACTGGAAATTAAGATCAAGACCCGGCGCAAGCAGCTGACTATTCCGCGCAAGCAGATCGCCAGCGCCCGTTTTGCAATCGAATTTTAG
>SRR1919932_00285 transcription termination factor NusA
ATGTCAAAAGAAATGCTGGAAGCCTTTGACGTCTTGGAAAAGACCAAGGGTATCAAACAAGACGTTATCGTTGAAGCCATGAAGGCTGCTTTGGCCGCTGCCTACAAGAAGAACTACGGCCTAGCGGAAAATGTCGAAATCGACTTTAATGAAAAGAAGGGCGATTTTAAGGTCATGGCTTTGAAGACGGTGGTTGACGAAGTGCAAGACGACCGGGTGGAAGTCAGCTTAAAGGATGCCCTGGCCATCAACCGGGCATACGAAGTCGGCGACACGATCAAGTTCGAAGTTACCCCAAAGGACTTCGGTCGGACCGCGGCAGCTACGGCTAAGCAGGTCGTAATGCAGCGCCTGCGGGAAGCGGAAAATGCCCACATCGTCAACGAATACTCCCAATACGAAGATGAACTGGTCACCGGGACAGTAGAAAGAACTGACAACCGTTTCGTTTACGTCAACATCGGCAATGTTGAGGCAGTTATGGACATCAAGCGTGACACTATTCCAGGTGAACACTACAACCCGCAAGACAGGGTCCGCGTCCTGGTCACCAAGGTCGGTGCTGACGGCAAGGGAGCCCAAATCCGGGTTTCCCGGACCGCTCCGGATGTCGTTAAGCGGCTTTTTGAACAAGAAGTGCCGGAAATCTTTGACGGGACCGTTGAAATCATCTCCATCGCCCGGGAAGCCGGCGAAAGAACCAAGATTGCCGTTAAGTCCAACGACCCGAACATCGACCCGGTTGGTACCTGTGTTGGCCCACGCGGCAGCCGGGTGCAGAACGTGGTCAACGAACTGGGCGGGGAAAATATCGACATCGTGCAGTACGAAGAAGACCCATCTGACTACATCGCCAATGCCTTGAACCCGGCTGAAGTCATCGCTGTCCAGTTTGAAGACGAAGACGATGAAAGGAAAGCCTTCGTGATCGTGCCGGACTACCAGCTTTCCCTGGCTATCGGCAAGAAAGGGCAAAACGTCCGCCTGGCCGCCCGCTTGACTGGCTACAAGATCGACATCCGGCCAGAATCCGAAGTCGAATTTGTTGACGAAAGCGAAGTAGAAGATGAAACTGAAGTAGCAGAAGATCAAGATCTCCAGCAAACAGAAGCTGAAGAAGCAGATGACCAAGCAGAAGCTGAAGCGACTGAAGCTGATGAAAATACAGAAGCTGAAGATGCAGAAGACCTGGATCTTGATGATGAAGAATAG
>SRR1919932_00286 hypothetical protein
ATGCGGAAGGACTTGTTGACCGATACGATGCAGCCGAAGAAGGATTTGGTCAGAATCGTCGTTGACAAGGAAAAGAATGTTTCTGTTGATCCAAGCGGCAAGAAGCCGGGCCGCGGCGCTTATGTTTCCTTAGAACCGGAGAAGATCGCCGCCGCCCGAAAGTCAAAGGTGCTGGAACGCAGTTTGGGCGTGAAGGTAGCCGATGAATTTTACGACGAGCTCTTCGCTTACGTGGACCACCAGAAGGCAAGAAAAGAATTATTTGGTGATCAAAAATAA
>SRR1919932_00287 50S ribosomal protein L7ae
TTGGCCACCCGGGCGGGGAAGACCGTTTCGGGCACGGACATCGTTTTGGCCAAATTGAAGAAGGGCAAGCTTAAGTGCATTATCATCGCGAATAATTTATCAGAAAACAGCCGCGGCGAGATTGAAGCTGCTTTAAAGGCCCACCCAACGCCATTGGTCGACGTCTTTACGGAAGCTGAACTCAGTCAGGCTGTAGGTAAGAAACGCAAAGTTTTGGCATTAACAGATCGTGGTTTTGCGAAAACCTTGCTGGATAAGATTAAAGAAGGAGTGTGA
>SRR1919932_00288 translation initiation factor IF-2
ATGACCAAGAAACAAGAAAACGAAACTTCAAAGGAATTGGGCATGGATAACAAGAAAACCAGCGGCAAGTCTGGTAAATTAAAGATTTCAGTCAGTGCTATTCGCAAGGGCGAAAAGAAGACTGAGGGCAAGAGATCAAACACCCGCCGCCGGGCTAACAACCACTCTAACGACCACAGCAAGCGCCGCCGGCCAGCTGCCCAGGATTTGCTGAAGGACCTCAAGCAAAAGCAGCGGGCTGACGAAGTCCATCTGGACCAGGAAAGCAAGGCTGCTAAGCAGGAATACAAGAAGTCCTTGAACAAGGCTGCGGCCAGCGAAAGCAAGCCGGTTGTCAAGAAGGTCGAAAGTGCTGAAAAGCCAGCTGAAACCGCAGCTGAAGCACCAAAGGTCCGTGGGCCAAAGATCTTGAAGCCATCCCCAGCCCGCTTGAAGCAAAACCAGGCAAACAGTGAAAAGCCTGCTGCCAAGCCTTCATCTTCTCGCCGGCCAAGTTCCCGGCCAAGCCTCACTGAAGCGCCAATGCCGGAAAACAAGGAAGGCCGCCGCAGAACCAGCGGCAAGCCAGGCCGCAAGGGGCAAAACTCTTACGCTAACCAAGGCAGAGGGGCAAATAGCGACCGCAGTCAACAGCGCAAGCGCAAGAACAAGAAGCACCAAATTGCTCCGCAAGTTAAGAAGCAGGTTACCCAAAGAAAGGACCGTCCACTTCCAGAAAGCTTTGAATACGAAGTTGGCATGAACGCCCAAGACCTGGGCAAGATCCTCCACCGGGAGCCAGCTGAAATCGTGAAGAAGCTCTTCATGCTGGGGATCATGATCAACCAGAACCAGTCTTTGGACAAGGGCACCATTGAACTGCTGGCTGCTGACTACGGCATCGAAGCTGTTGAAAAGGTCCATGAAGACATTTCCGACATCGACAATATTTTTGCCCAGGAAATGGAAGAGTCCAAGAACTCTGAAAACCAGGTTGTCCGTCCGCCAGTCGTAACTATCATGGGTCACGTCGACCACGGTAAGACTACCTTGCTGGACCGTCTGCGTCACACCCGGGTTTCTGAACACGAAGCCGGTGGGATCACCCAGAACATCGGGGCCTACCAGGTCCGGATCGACGACCGTTTGATCACCTTCCTGGACACTCCAGGCCACGCGGCCTTCTCAAGCATGCGGGCCCGCGGGGCGGAAATCACCGACATCGTCGTTTTGGTCGTTGCCGCTGACGACGGGGTTATGCCGCAGACTATCGAAGCCATCGACCACGCCAAGAGTGCGGGCGTTCCAATCATTGTGGCCATCAACAAGATGGACCGGCCAGGCGCCAACCCTGCCCACGTTACTGAACAATTGATGCAGTATGAACTGATTCCGGAAAACTACGGCGGCTCAACTATCTTCGTCAACATCTCAGCCAAGACCGGGATGGGGATTGATGAACTTTTGGAAAACATCATCCTTGAAGCCGATATGCTGGAACTGAAGGCTGACCCGAAGCAAAAGGCGATCGGTACGGTTGTTGAAGCCCGTCTGTCCCGGGGCAAGGGGCCAGTTGCCGACGTTTTGATCCAGCAGGGTACCCTGCGGGTCGGTGACCCAATCGTTGTTGGTGACACCTTCGGCCGGGTCCGGACGATGACCAACGACAAGGGCCACCAGGTCAAGAAGGCTACGCCATCAATGCCCGTTGAAATTACTGGTTTAAACGACGTGCCGGAATCTGCCGACAAGCTGGTTGTCTTTGCCGATGAAAAGACTGCCCGCGCGGTTGGTGAAGCCCGGGCACAGCAATCCCTGCAAAAGCAGCGGGAAAACGTACAGCACGTTACTCTGGACAACCTCTTTGACACGATGAAGCGGGAAAGCATGAAGTCCGTTGACATCGTTTTGAAGGCTGACGTGCAAGGGTCTGCCGAAGCCTTGGCTCAATCCTTCCAAAAGATTGACGTTGAAGGCGTTCGCGTTAACATTATCCACTCCGGTGTCGGGGCCATCAATGAAAGTGACGTTACCCTGGCCAGCGCTTCAAACGCCTTGATCATCGGTTTCAACGTCCGGCCAACAGCTACGGCCAAGAGCCAGGCTGCCCAAGAAGGCGTCGATATCCGCCTTTACAGTATCATCTACAAGGCGATCGATGACGTTAAGGCCGCTATGCAAGGGATGCTGGAACCAACTTACGAAGAAAAGGTTATCGGTAACCTTACTGTCCGCGAAACTTGGAAGGTCTCCAAGATCGGGACCATCGCCGGTGCCTTTGTTGACAACGGTTACGTGACCAGAGAATCAGGCATCCGGGTCATCAGAGACGGCGTGGTCAAGTACGACGGCAAGGTTGCCTCACTGCGCCGGTTCAAGGACGACGTCAAGGAAGTCAAGGCAGGCTTTGACTGTGGTTTGACCATTGAAAACTTCAACGACATCAAGGAAGGCGACGAACTGGAAGCCTACGAAATGCAGGAAGTTAAGCCAGGTTAA
>SRR1919932_00289 ribosome-binding factor A
ATGAAGCACAGAAAAGGACGGGTTGAAGGCGAAATCTTGCGGGAACTGACTAAGATCATCCGCAAGAACATCCGCGATCCCCGGGTCAGCAACGTGACTTTTACCGCCGTGGAGTGCAGCAATGATTTTTCATACGCGACTGTCTACTACAGTCTGCTGACTGAAGATGAACAGGCGCAAAAGGAAGCGGAAGCCGGCTTGGAAAAGGCTAAGGGAACCATGCGGCACTTGCTCGGCCAGAGCTTGACCATGTACAAGGTTCCGGAACTGATTTTCAAGCGGGACCAGTCCGTGATCTACGGCAGCAAGATCGACCGTTTGCTTGCTGACTTGAAGAAGCAGGAACAAGATCGCCAAAACTAG
>SRR1919932_00290 tRNA pseudouridine synthase B
ATGTTCAATGGAATTATCGTAATCGACAAGGCAGCAGGGATGACTAGCGGGGATGTGGTTTATAAGCTGCGCCGGCTCTTAAAGCAAAAAAAGATCGGCCATGCCGGAACCCTGGACCCGGAAGTCACCGGAGTTTTGCCAATTGCTTTGGGTCAGGCAACCAAACTGATCGAGCTGATGCATGAGCGGCCAAAGGCTTATGTTGGTGAAGGGATGCTGGGCCTGGCCACGGACTCTTATGACCTGGAGGGGAAGATTTTGGCGGAAAGAGCCTTGTCTCAGCCAGTCAGTGACCAGGCCATCAAAGCAGCAATGGAAAAATTGACCGGGGAAATCGTCCAGCAGCCGCCGATTTATTCTGCCGTCAGGGTAAATGGCAAGCGGCTCTACGAATACGCCAGAGAAGGGATCCCAGTTGAGCGGCCCAAGCGGACTGTCCAGGTTTTCCGCTACGACTTGACGGCGCCAAGTCAGTTCGACCCAGAGAAGGGCCGGCAGACTTTTACTTATGAAGTTGAATGCTCTAAGGGGACCTATGTCCGCAGCCTGGTTAACGACTTAGGCGAAGAACTGGGCCTGCCGGCAGTGATGACCAAACTGCGGCGGACGGCCAGTTCCGGTTACGAGCTCCAAGACGCGGTTACTTTGGAAGAACTGGCGGATAATTTGGATCACGCTGAAGATTATATTCAGCCAATCGGCAGCTTTTTCGCTGACTACCAGCAAGTTGATTTAGATGCTGCCTTATGGCAGCAGGTTAAAAACGGGGCCTGGATCAAACTCCCTCTTGATGCAGACAAGGTCGCTTTGCGGTATAATAAAATAGTTAAAGCGATTTACCGGGCCAAGGTACAAGGTCTCTACTGCCCGGACTTAATGCTTTTAAGTAATGAGTAA
>SRR1919932_00291 serine acetyltransferase
ATGTTTCAGACAGCAAGGTCCATTCTCAAGCGTGATCCGGCAGCCCACAGTCTTTTAGAAGTTCTCTTAACCTACCCGGGGATTCGGGCCCTGTTTTGGTACCGAATCGCTCACTTTATGGCTTTTCATCGACTTTATACAATTGCCGGGTTCCTAAGTCAACATGCCGCCAAAGTAACCGGGATTTCAATTTCGCCGGAAGCCCAAATCGGTAAGCGCGTTTTTATCGATCACGGGATTGGCGTTGTGATCGGTGCCACTGCCGTGATTGAAGATGACGTCACTATCCTGCATGGCGTGACGCTGGGTGCCAGGAGGGCCGTTGAAGGTCGGCGACATCCCTATGTAAAAAAGGGTGCATTCATTGGTGCCAACGCCCAATTGCTTGTCACCATTACGATCGGCGCCTTTAGTAAAGTTGGCGCAGGGGCAATTGTCCTGAATAACGTGGCCGATAAAACCACAGTGGTCGGCAACCCTGCCCGAACCGTTAACAAGTTACCCGCTAAAGTCATTAACGTGACCTTCACGACAAACACGTCAACCACTAAAAATTAA
>SRR1919932_00292 cystathionine beta-lyase
ATGGAATTTGATACAAAATTAATTCATGGTGGTATTAGCGAAGATAAAGCAACCGGAGCAGTTTCGGTGCCGATTTATATGGCATCAACTTTTCATCAGCAAAAAATCGGTGAAAATCAATATGAGTATTCTCGTTCTGGAAACCCAACTCGAGAAGCAGTTGAAAAACTAATTGCCGAGTTGGAAGGCGGCACAGCCGGGTTTGCATTTGCTTCCGGTTCAGCTGCAATCGACACAGTCTTCTCAATGTTCTCCGCCGGCGACCATTTCATCATTGGCAATGATGTCTACGGTGGTACCTTCCGATTGATTGACGCCGTTTTAAAACGCTTTGGCATGACCTTTACCGTGGTTGACACCCGCGACCTGGCCGCTGTTGAAGAAGCGATTACGCCAAATACCAAAGCAATTTACTTGGAAACGCCAACCAACCCGCTTTTACGAGTAACCGATATTGCAGCGGTTGCCAAGATTGCTAAATCGCACCAAATTTTAAGCATTATCGACAACACTTTCTCCTCGCCTTACATTCAGCGACCGCTGGAACAGGGAGTGGATATTGTTCTTCACAGTGCTTCCAAGTATCTTGGTGGTCACAGCGACGTCATTGCCGGGCTGGTCGTCACTAAAGATGATCAATTGGCCGAAAAAATTGGTTACCTTCAAAATGCCATTGGTGGTATTTTGGCCCCTCAGGAAAGTTGGCTATTGCAACGTGGGATTAAAACGTTGTCTCTTCGAATGCGTGCTCATTTGGCCAATGCCGAAGCCGTCTTCAATTATCTATCAAACCAGCCACTTGTCAGCAAAATTTACTACCCTGGCGATCCGAACAACCCTGATTACGAAGTCGCCAAAAAACAAATGCATGGCTTTGGCGCAATGATTTCCTTTGAATTACAGGACGGACTGGATCCAAAACAATTTGTTGAACAACTGCACGTTATCACATTGGCCGAGAGTTTGGGGGCACTGGAAAGCTTGATCGAAATTCCGGCCTTGATGACCCACGGCTCAATTCCACGTGACATTCGGTTGAAAAACGGCATCAAAGACGAGTTAATTCGCCTTTCAGTCGGCGTTGAAGACCAAAAGGATTTGTTAGCCGATTTGGAACGCGGCTTCAATGAGCTTAAGAGGAGCGAGAAAAATGTTTCAGACAGCAAGGTCCATTCTCAAGCGTGA
>SRR1919932_00293 cysteine synthase
ATGCTTATTCATTCCATTTCAGAACTGATCGGTCATACGCCACTGATTGATCTGCAAATCAACATTCCAAATCACAGTCACATTTACGCCAAACTGGAGATGTTTAATCCAGGAGGCAGCATCAAAGACCGCCTGGGCCAATACATGATTCAAGATGCGATTAATCGTGGTCAGATAACTGAAGGTGTAACAACAATTATCGAACCTACTGCCGGCAATACCGGAATTGGGGTTGCCCTTGCCGCTCGGCAACACCATTTGCCAACCATTCTGGTCGTACCGGAAAAGTTCAGTTTTGAAAAACAACAATTGATGAAAGCCTTAGGGGCAAAATTAATCAACACCCCCAGTGATCAGGGCATCAAGGGCGCCATTGAAAAAGCAGAAGCGCTTCACGATCAAACTCCTAACAGTTTCGTTCCAATGCAATTCAAAAATCCGGCCAACCCTGATACTTATTATCACACTCTGGCACCAGAGTTGCTTGACGACCTCAATGACCCAATTGACGCCTTTGTTGCCGGTGCGGGCAGTGGTGGGACATTTGCAGGCGTCGCTCGTTACTTAAAGGAGCAGAATCCGGCGACTCAAACCATCGTTGTGGAACCTGAAGGCTCAATTCTAAATGGTGGGCCTGCCCATCCCCATCGGACTGAAGGCATCGGTGTTGAATTTGTCCCACCATTTTTTAAAGATGTTCAAATCGACAAAACGTTAACAATTGCCGATGCCGACGCCTTTCATCAAGTTAAGGAGCTTGCCAAGAAGCAGGGATTATTCATTGGCAGTTCAAGCGGGGCTGCTTTGGCTGCCAGCTTAAAGGTTGCCAAGGCACTTCCCGAGAATAGTACCATTGTCACAATTTTTCCAGATAGCAGTGAACGTTACATGAGTGAAAATATTTATAATTAA
>SRR1919932_00294 acetyl esterase
ATGTATCAAAAGGGCAATCACGGAATGTCCTTGGCAGACAAGCGGACTGATGGCCGGCCAGATCATTCTCTTAGCGACCCTCAAGCTGCTTCCTGGAAAAAACTCTACCTGGGCTGGCTCAGTGAGAATAACTTGTACCACCTGTTGTAA
>SRR1919932_00295 hypothetical protein
ATGTTCTACAAAAGCCACTTCGGCACCATTTTGACTTCTGTATTGTCCATGTTCATGGGCTTGGTGATGGCAATCTTCATCATCTTCTTGAACCACCTGCCTTTCAACTGGGTTAACCTGTTTGAATTGACCGCGGAAATCAACCTGATCGTCTTTTTCTTCAGTTTGTTCATCCCTTACAATGCCTGGGGTGATTGGTTTGCCGGCCTCTTCCACTTGCAGGAAGGCACGGTAGCTTTCAAGCTGGTCCAAGGGATCATCCCTTCCGCCGTTTTGAACACGCTCAACACCTTTATCTGTACCGGCGCAAGCATCTTCTACAACGAATCCATCCCTAAGGCAGCGCGGATGACCGCCTACCTTAACGGCTGCAAGGAAGCCTGGATCCCATGCTTTATCGTATCCTACATTGCTTCTTTCGTGGCTGTCTGGCTGGGCAAGAAGGTTGCTGAAAAATACGTCAAGTAA
>SRR1919932_00296 phospho-beta-glycosidase
TTGGTAGCCGCGGTTTCTGCTAAAGTATTCGATCTCGTACCCACCATCTTCATAGATTGGGAAGACCCGCAGCCCCGCAAGCCGCAACGCGGGGCCTACTACTTCGCGGCCAAGTGCAACGTCCCGGTGATTTCGACTTTTGTGGAAATCCAGGACCTGCCAAAACTGGAAAAGCAGAACGAGCACTTCTACCAGACCCGCTACACTGTACATGTTCTGGACGTCCTCTACCCGGACCCGACCAAGACGGCCAGCGAGAACGCCAGCCGCTTGATGGAAGAAGACTACAAGCTGAAGGTCCAGGCTTATGAGAGAGTCTACAAGAAGAAACTGGACTACGACTTCACCAGCTGGGACATTGCCGGCTGGCGGGGAGAATAA
>SRR1919932_00297 hypothetical protein
ATGAAAGGCGTCATCGATGCCGTGAAGCTTAGTCCATATGAGCCAGGTATTTATGGTACTAGAAATGTCTGCTTGCATGGTGAAGAAGTTGGGATGAAGTACAGCTTCGTGGCGGATATGTCCTATGGCTGGAGTGGTAATCTCGGTTTCAGAATGCCAACAAATTGGGCTTTTGACCAGTTCACCGAATATCCAATCGGCAGCACGGATATTGACCAAGTAGCAGCTTCTGGCAAAGATGCCGGTGTCAATAAGTTTTCTCCCCAGTTATACGGTACTATTTCTTATAGGGAAGTAGCAGCTGATGTACTAAAGGGCTTTGGTAAGTCGGTATCTGCTGAGTTCAACAAGAAGATTGAATTAGTGGATATCCCTTCTTTAAAGATTTCAGTAGAATTGGTTAATTCGCTGTCAGTAGCTGATGAATCTCCTGCAATTACTATTTCAAACGGTAAGTTAGATTCAATCAGTTTTGCCAATTGGCTTCAAACTTCAGGACATATTAAAGGAAATGGTGTTGATGCGGTTGTAAACGAAGCAAATAAGGTGATCTCAAGCGCAAGCATTACCAATGGTAACGTGGCGATAGAAGCTTCGATTAACAACTCTGGTGAAAGCAAGCTTAAATTTATCTACCATATTTTAGAAGCTAAGGATAAGCAATTGGATAATGAACTGTCTGTAGTTATCACTGTCACTTCAAAGCCAACAGATCTATTTACTGGCACGAAAATTCCAAACGTTGATGTTCCGAAGCTCGTATCCCAAAGTCAAACTGATCAGAAATCATGGGAGACCTTAATTGGCTTTTCAACGGTTGTTGCAATAGCTGGAGTATCTATTTTTATTAGTGGAGGGACTCTTTCAGTCTTATTAGATCTTATTCCACAATTGTTTACCGGGTTGTTAGTAGGTTAG
>SRR1919932_00298 hypothetical protein
ATGGATACTACTAATAGCATAACCTTTACTAGCAAGCTAACATTCTGGGATAAGTTTAAATGCTTTTATTTGCTACACCTTTGCAGTCTTATTTTTTTAATACGATTTCAAAAGAAGTGGCAAAAGATTCTTATTTATCTGTGGTATACCAGTGTTTGTGGCTTTTCACTTGCGATTCTTGTTGTTTCCTATCCTTTTGTCACCATTAAAATGTTTATTGATGTCTTTTTAACGCTATCTTGTTTTTCGTGGGTACCAGCTATCACTGCATTCCTAATTTCACTAAAGTGCCCATCTATTATAAATCTTAAGCTTTCACCCGATAATAATTTAGGAAGAGCGCCTATAGTAAAAATAGGTGATTCAAATTCACAGATAGTATACTTAAAAAGTTCTTTACTACTTGATACTAAGAATTTCTATTTGATAATGTGCCCAAATTATTTGCCAAAGCATAAAAGCAGAGTATTCTATAGCTTCATTTCCAAAAGCCAAAACACTACAGCGCTATCTAAAGTCAACTTTATAGCTTCCGTAAAACCACATTTTAAAAAATTCATCAAGTTGCATATTTGA
>SRR1919932_00299 phospho-beta-glycosidase
ATGATTATTGGTGACCACCGCCTGGACGTCATCCACAATATCGAGCTAGCTGCAAACAACCGCAACTTTACGACGAAAACCGAAATCGGCGACCCGCAAATGTCCATGGAAGAGCGGGTTAAGCTGGTTGAGGACTTCTGGGCCAAGCAGGATAAGTTCAAAACTAAGGCAGAAGGCCTAGCCGGCAACCTGATCTTGCAGACTTTGACGCAGAAATTTTTTGGCAAGATTCAGGTAACAGGCTTAGACAAACTGCAACACCTGGCTAAGGGCGGGGCCATCGTAACCGCCAACCACTTCAACCAGGTCGATGCCTTAGCCGTCAACCGCCTAGCCCAAAAGGCCCACCACCGGATGGAGATCGTGATTGAAGACACCAACTTGAAGCTGCCGGGCTTCTTCAGCTTCATCATGAACAATATGGGGTCCATTCCCCTAGTGCAAAGTCCCAACTACATTGGGCGAGAATTCATCCATCACCTCAGCCACGCCTTCAACAAGGGCCACTGGGTCTTGATTTACCCAGAGCAAGAGATGTGGTGGAACTATCGCAAGCCAAGAAAGCCGCAGCGCGGGGCCTACTATTTCGCGGCTAAGTGCAACGTGCCGATTATTTCAACTTTTGTGGAGATTCAAGACCTGCCAGACGTTGAAAAAGATAACGAGCACTTTTACCAAACACGCTATACCCTGCACATTTTGGAGGTGCTGTATCCGGACCCAACCAAGTCGGTGAACTTTAACGCGACGGACTTGATGGAAAAGGACTATGCCTTGAAGGTACAGGCTTTTGAAGACTGCTACCATAAGAAACTGGACTACGACTTCACTCCATGGGATATCGCCGGCTGGCGCGGTGAAGATGATTAA
>SRR1919932_00300 lipopolysaccharide biosynthesis glycosyltransferase
ATGAACTTTCTTTTTTGTGGTGACCACAACGCTGAAAGAGGCGTGCTGATTGCCGTCTTATCCCTGCTCAAAGCCGAACGCGGCGAAGAGGTTCACGTCTACATCCTGACCATGAGGGCCAAGAGCAAATCCAGGTCCTTCAAGCCCTTCAGCCAGCACGCGGCCGACTTCATCCGCTCGCTCATCGTGGCTGACAACCCCAACAGCAGCCTGGAGCTGATCGACTGCACCGAAAACTTCATCAAGGAACCGCCGACGGCCAACATGGGCACCCGCTTCACCCCCTACGCCATGCTCCGGCTTTTTGCCGACGAACTGCCGCAAATTCCCGACCGCATCCTCTACCTGGACGATGACGTGATCATCCGCCGGCCGATTGACCAGTTTTACACCCAGGACTTGACCGGGACGGAACTGGTCGGGGTCCTGGACTACTTTGGCCGCTTCTTCTTCCACAATCAAAAGAAGATTTTTGACTACTTGAATTCCGGGGTCCTCCTTTTGAACATGCCGGAAATCAAGCGGACTGGCCTCTTTAAACGGGTCCGCCACTTGATGCAGGTTAAGAAGATGTTCCTGCCTGACCAGACGGCCATCAATAAATTAGCCAAAGAAAAGCGGATTGCCCCGCGTAAGTACAATGAGCAATACGCCCTCCAGGACGATACAGTCATCCAGCACTTCACCACCAGCTTCCGCTTCTTCCCTTATTTCCGCACCCAGACGGTCAAGCCTTGGGACGTGAAACGGGTCCACAGCGTCTTGCACCTGCATGAGTACGATGACTTGTTAAACGAATACCTCAAGTTAAAAGATCAACTATAG
>SRR1919932_00301 1-acyl-sn-glycerol-3-phosphate acyltransferase
ATGAGTAAAAAGACTTACTACTACCACAGCGAAAGCGAGGACCTGGTCAGTTCCGCCCAGCAGGACTTCCAGCTCCCAGATGACTACCAGGTCTTCCGGAAAGGGGCGGCTTGGCAATTCTGGAACGGCCTGGTCCGCAGCCTGGCCTGCGCCTTTGCCTGGCTCTACTCCCGCCTCTTCTTACTAGTTAAAGTCAAAGGCAAGGAAAAGCTGCGCCCTTTTAAAAAGCAGGGCTATTTTGTCTATGGCAACCACACCCAGATGCTGGGTGACCCCTTCACCCCCATGACCATCGTCAACCCCTACCACTACTATGCCCTGGCCGCCCAGGCCAATTGGGGGATTCCTTTTTTAGGCAAGTACGTGATTCCGGCAGCTGGCCTGCCGGTTGGGAAAAACATCAAGCAGTCCATCCGCCTGCTCAAGGACGTTAAATACGCCTATGAAGAAAAGCAGGCGGCCATCGTCATCTACCCGGAAGCCCATCTTTGGCCCTACTACACCAAGATCCGCCCTTTCCCGGCGACCAGCTTCAACTTCCCGGTCAGCCTGAAGGCCCCGGCTTTTGCCATGACGACCACCTACCAGCCCTGCCGCTGGCGCAAGCGGCCGAAAATCACGGTCTACATCGATGGCCCCTTTTACCCGGACGAGAAGCTGGGCAAGAAGGCGGCTCAGGAAAAGCTGCACGGTGAAATCGCCAAAAGCATGCAGGAGCGGGCAAAATTGAGCACTTGCGAGTATTGCTCGTATGTTAAAATTGACAGTAAGAACTAG
>SRR1919932_00303 two-component system response regulator
ATGCCTAAAAAAATTCTCGTCGTTGACGACGAAAAGCCGATTTCCGATATCATCAAGTTCAACTTGACCAAAGAGGGTTTTGATGTAGAGACCGCTTATGACGGCGAGGAAGCTGTCGAGAAGGTTGAAGAATACAACCCTGACTTAATGATTTTAGACTTAATGCTTCCGAAGAAAGACGGGCTGGAAGTAGCCCGGGAGGTCCGCCAGACCCATGACATGCCGATCATCATGGTTACTGCCAAGGGCGGTGAGATCGACAAGGTCCTCGGCCTGGAAATGGGGGCGGACGACTACGTAACCAAGCCCTTCTCCAACCGTGAGCTGGTGGCCCGGGTCAAGGCCAATTTGCGCAGCCGGGACATCGTCAAGAAGGCAGTGGAAGTTAACCAGCAGAAGGAAAAAGAACAGGAAAGCAATGACATCCAGATCGGCAACCTGCTGATCAAGCCGGATGCCTACCTGGTTGAAAAGAACGGGGAAAAGATCGAACTGACCCACCGGGAATTCGAGCTGCTCTACTACATGGCCCAGCACATGGACCAGGTTATGACCAGAGAGCACCTCTTGCAGACGGTCTGGGGATACGACTACTTTGGTGACGTCCGGACGGTTGACGTTACGGTTCACCGCTTGCGGGAAAAGATCGAGGACAATCCGGTCCGGCCGAAGATTTTGGTTACCCGGCGGGGAGTCGGCTACTTTATCAAGCAGCAAACAGAAGAATAA
>SRR1919932_00304 two-component system sensor histidine kinase
ATGAAGAAAGATAAAAAAGCACGCAAAGAGAAAGTGAAGAAAGAGAAGACCAACCTGCTTAAGCGCGCGGTCAGCTCGATCCAGACCAAGATCGCTCTTATCTTCATGCTCCTTTTGCTGGCCACGATTGAAATCATCGGGGCCTACTTTACCCGGCAGATGGAACAGACCAGCATCAACAACTTTCAAACCACGATTCAGCTGCAGTCGATCGTGACCGACCAGCTGACTGCCCAGCTGGTCAAGAACGGCAAGAGTGCTGACCGGAAGATGAACCAGATTATCACTGACTACAGCAATGATGCGATTTCTGAAATCCAGGTCGTGGACAGCAAGAACGTGATCCGGGCCGTGTCCAACTTAAACGACAAGAACCGGGTGGGGCAATTGTCTAACAACGGCGATATCCGGGAAGTGATCAACTCCGGCCAGCAGAAGACCCAGGTTGCCAGTGACCAGAAGGGCAGCTTCATGGTTCAGATCGTGCCTCTGACCAGCGGAACCAACATCGTCGGGGCGGTTTACGTCCGGGCCAGCATGGCTGACGTCTTCAATAACTTGCGAAATATTTCGATGATGTTCTTGACGGCCTCACTTTTGGCCGTAGTCGTGGCGGCGATTGCCTCCATGTTTATTTCCCGGGCAATAACCCGGCCGATTGAAGAGCTCCGCCAGCAGGCCATCCAGGTGGCTGACGGGGACTACTCAACCCAGGTTAAGATCTACTCTAATGACGAACTGGGCCAGCTGGGGGCGGCCTTTAACACCCTCTCAGTCAAGATCGAGCGGTCCAATGAGCAGTCAGAATCTGAGCGCCGCCGGCTGGACAGCGTCCTGTCCCACATGACTGACGGGGTGATCGCGACCGACCGGCACGGGAATGTGTCGATCATGAACCAGATGGCCCAGGACTTCCTGGACGTCAAGGCCGAAGATGCGATCAAGAAGCCGATTTCTCAAGTTTTAGGCCTGGGGGAGGACTACACTTCCCAGGACTTGATCTCCAACCAAAGCGACATGCAGGTCACGGTCAATGCCGGCACGGATGATGAAATAATCCTGCACGCCAGCTTTACCTTGATCAAGCGGGTCACGGGCTTTGTTTCCGGGGCCGTCTGTGTTTTGCACGACGTGACTGAACAGATCAAGAACGAAGACGAGCAGCGGCAGTTCGTTTCCAATGTTTCCCATGAATTGCGGACTCCTTTGACCAGTGTCCGGGCTTATATTGAAGCCTTGAATGAAGGGGCCTGGAAGGATCCGGAGATTGCCCCCCAGTTTTTGGATGTGACGCAAAAGGAAACTGAGCGGATGATCCGGATGGTCAACGACCTCCTGGTTCTGTCCAGAATAGACCGGGGAGCCACCAAGCTGGAACCGGAATGGGTTAACTTTACTGACTTTGTCTCCCACCTGCTCAACCGCTTCGACATGATTGTCGAACATGACCAGGGCGAGGCCCAGAGCGATACCAAGGAATACGTGATCAAGCGGGACCTGGGCAACCAGGCCCTTTGGGTGGAAATCGACACTGACCAGATGATGCGGGTGATCGACAACATCATGAACAACGCTATCAAGTACTCCCCTGACGGGGGGACCATCACGGTCCGCTTGACCCAGAACCAGAACCAGATCCTGCTCAGCATCAGCGACCAGGGCCTGGGGATTCCAAAGAAGGACCTGGGTAAGATCTTTGACCGCTTCTACCGGGCAGACAAGGCCCGGTCCCGGGCCCAAGGCGGGACCGGTTTGGGCCTGGCCATCGCCAAGGAAATCGTGACGGCCCATGGCGGCCGGATCTGGGCGGACAGCCGGGAAGGGCATGGGTCAACCTTCTATATTGCCCTACCTTACGAACCAATGGATGAGGAGGATGAATGGGATGAAGTTTAA
>SRR1919932_00305 hypothetical protein
ATGAAGTTTAAATTCAAGTTCAAATTCAATGATTTTCTCCTCCACCTGGCGACCTTGACCGTGATTTTGATCTCGATCGGCCTCTGGGTCACGGTGATGACCAGTGACCAGCGCTTCAGCCGGATCAGCAATGAATCATCCTCCCAGAGCTCGGCTTCTTTGTCGACCCACTACCGGAATGTCCAGTCTTTTTACGCCCCGGGCCAGACCTATGTCTTTCAAAACGGGGTCCGCTACCAGGTCCATGACGCCAAGCGGAACCTGCCTTTGAAGTTTGTCCAGTACCTGGAAAAGGTCAAGCTGGGGACGATCGAGAAAATGTCAACCACGGCCAGTGATTATGAGAGACTGCTGGCTGACCAGAACTATATTATGTTTGCCTACCCGGACCAGATCAATTTCACGGTCCTTTTAGGCAAAAAACAAGCTAATTCCAGCCTGCAGTTCAACCGGGTCTTTGTCCCGGTCAAGAGCAAGACCCGCTACCTCTATTTCGGCAACGACAAGGGCAGCCGGGTCTACCGGGTAAAGATCAAGTCCGGCTCCTTCCGGCAGCTGGCCAAGTACGTCAAGAGCGCCCAAGACCGGCAGGAGGTCAGCTTCCTGCACTTAAAGAAGCTCTACGTGCCTTTTTATGCCAAGGAAATCAAGGCCAAGGAATACAGCTACCTGATCAGCTACCAGTCCAGCAGCTACTATGCTTCCCGGCTCTTGGGCAGCAGCTACCGGAAGTCAGTGGCTAAGAACGGCCGCACTGTCTACACGGCTGGTTATTCCAAGCGCCTGCAGATTCCTAAGGAAGGCAAGAGCAATGACCACCAGTATCTGTACCAGAACTACTTGACCAGCCAGGAGCGGACGGCCACCCAGGAGATGCTGGAAAGTGCCGCCTATGTCAAGCAGCTGGGCCTGGCTGAACAGGACCTGCGCTTTTTTGAAAGCAGCGGCAAGACGGTGTCCTACATCAACTATATTGAAGGCTATCCGATTTTTGCCAACGACGCTTTGGCTCAGACCCAGGTAACCATGGGGACGGAGTCGGTCAGCGTGGCTTTCAGCAGCATGAACCTGCAGATCCCGATCCCGTATGACGGCCATGTCAAGACCTTGCCGAAAACCGCGACCCTGCTGAAGGAGCTGAATAGCATCGGCATCAAGGAAAGCGAAATTGAAAAAATCACCATAGGCTACCATATCCAGGCCGACAAGAAGCGCAGCGACTTGATTACCCTGATGCCGACCTACTTCATCAAGGTTGGCGGCAGCTGGAACAGCCTGGCCGGCTGGAAGAAGATTAAGGCGGAAAACACGGATCAGTTAATGGAGGGGTCAAGTCCCAGCTCCAGCAGCTACTTATCTTCCAGCTCTTCCAGCAATGAGTCGAGCAGTGAAGCCAACTCAAGCGCAAGTTCCAGCGTCAGCCAGGCACCGGCCAGCAGCCAGGAAGCATATTCCAGCAGCCGCAGCCAGCCGGCGGCTGAATCAAGCTCCAGCTCCAGCAGCTCCAGTTCAAGTTCCGCCGTATCAGCAAGCTCTGCCAGCTCAAAGGAAGGAGAAAAGTAA
>SRR1919932_00306 hypothetical protein
ATGGATCATCGCAAAATTGAATGGCTTTTTCTGATCCTCTTCTGCTTAGTCGACATCTATCTCTTGATTGAGCTTTGGCGGGCCCCGGTTACCTTGACCTCATCGACCAATTCGGTGACGACCTCAACCAGCTTGAAGGCTGAAATGAAGTCAGACAATATTACGGTTCCTTCCCTGTCCAGAAAGGGGGACTCGGGCTACTACCTGGCCACTAGAAGTAAGAGCGACTTGAAGGAAGCCGCCAAGAAGCTCAGCAGCGACGTCTCCACCAGCTACGCTGAAGGGGACAAGACCCTGTACGCGACCATGAAGACCGCGATTCCGCTGGAGCGGATGACGGTGGGCGAGTTCAAGAATGACAGCAATTACGTCCCGCATGGCAAGCAGTATGTCTATGCCAAGAACCTCTCCAGCAACAGCAGCTACGTTTACGTGCAGAAGTCCCAGTACGGCCTGGTTTACAGCAACCTAGCCCAGCTGGTGGTCAATGTCAAGAACAAGAAGATCACGGGCTACTACCAGACCTACTTGACTGACTTGTCCAGCGTCCGCGAGCTGCAGGCAACTATCAGCCCCTTGCGGGCGGTCACCAACCTCTACACCACCCGGGAACTGGCCGACAACTCCCGGGTAATGCAGGTCAAGCTGGGCTACACCAAATTGACCGAGGTCCGGGACAGCGTGATTTTCGTCCCGACCTGGCTGGTCTGGATCGAAAACAAGAGCAGCAAGAGCAGCAGCTTGAAGCGGGTCAACGCCTTCAGCGGCCAGCTTTTGCAAAACAGTACATTGGACGATTAA
>SRR1919932_00307 metal-dependent hydrolase
TTGCAATTCGCGGTATTATCGAGCGGATCAGCGGGCAACTGCAGCCTGCTGATGACTGACCAGCACAAGATTTTGATGGACGCCGGCCTTTCAGGCAAGAAGACCAAGGAGCTTTTAGCCAAGGTAGGCGTGGCGATCGAGGACCTGGACATTGTCTTTTTAAGCCATGACCACGGCGACCACAGCGGGGGGATGGGGGTCCTTATGCGCCGCTATCCCCAGCTGAATGCCTTCAGCAACACGGGCACCTGGAAGTACTTGGAGGAGACCGGGAAGATCGGCTGCCTGCCGAAAGACCAGATCAATGTGATTGAGCCGGGCCAGACCAAGTGCTATGGGGACTTGGAAGTGACGGCTTTTGCCACTAGCCATGACGCGGCCCAGCCCCAGTACTACGTTTTTTCCAGCGGGGGCAAGCGCCTGGCCTGCTTGACGGACACGGGCTACGTGTCTGAAGAAGTCGAATATGAGATTCAAGACGCGGATGCTTATTTGCTCGAGTTCAACTATGACGACCTGATGCTGAGAAGCGGCCCCTATCCCTGGAGCCTGCAGCAGCGGGTCCGGTCAGACCACGGCCACCTGTCAAACGAGCAGGCGGCTGAGACTCTGGCCAGGGTTATCAGTTCTAAAACCAAGCATGTTTTCATGGCCCACCGCAGCCAGCAGAACAATTTAAACTATTTGGCCCGGGACGTGGCGGAAGAGGTTTTGGCGGCCAGAGACGCTGACGTGGCCAGTGACCTGGAATTGCACGATACCGAGCCGATGACGCCGAGTTATTTAATTAATTTATAA
>SRR1919932_00308 serine protease
ATGTCTGAAGAACAAGATAAGCAAAGAAACACGCGCAAGAAGGAAAATAACCGTTTGCTAACTAAAGCGGCCATCATTGGGGTCGTTGCCGGTCTTTTGGGCGGGGGGATTGCCTACGGCGGCTTGTCAGCAGCCAATTTGAACAGCAATGCTTCATCATCCACGGCCAGCTCAAGCAGTAGCAACACTGGTGAAACCGGGTCAGTGACGACTTCATACAGCGGCACGACTAAGGTCAACAAGTCCAGGACTACCAGCGGGACGATGACTTCCGCCTACAAGAAGGTGAAGAACTCGGTTATTTCAGTTTTGAACTACAAGTACATTTCCAGTTCATCATCAAGCTCTGACATCTACAGTATATTTGGTTACGGTGACTCGGACAGTTCAGACTCATCCAACTCCAAGAAGTCTTTGACTTTGTACTCTGAGGGTTCCGGGGTCATCTACACGACGGCAAACGGTAAGGGCTACATCGTCACTAACAACCACGTTATTTCTGGGGCAGCCAAGGTGAAGGTCATGCTGGATTCCGGGAAGACGATTGCCGCTAAGGTTGTCGGCAAGGACTCAACCAGTGACCTGGCAGTTTTGTCAATCGACTCCAAGTACGTGACTCAGACTGCTTCATTTGGTGACTCCAGCAGCCTGCAGTCCGCGCAGACGGTGATTGCCATCGGTTCACCAGAAGGGTATGAATACGCGTCTACGGTAACGCAAGGGATCATTTCCTCACCAAGCCGGACGATCACTTACAACTCCAACCAGATGACGGTCATCCAGACTGACGCGGCCATCAACTCCGGTAACTCCGGCGGGCCCCTGGTCAACTCTGACGGTCAGGTTATCGGGATCAACTCCATGAAGCTGTCCAGCTCCAGCAGTGGCGACTCCGTCGAAGGGATTGGCTTCGCGATCCCGTCAAACGAAGTTGTGACGATCGTCAACCAATTGGTCAAGAATGGGAAGATCACCCGGCCGCAACTGGGCATCAAGGTAGCAGCAATTGATGAACTGAACAGCTACTACAAGAAGCAGCTAGGCATTTCAACTAGTCTGAAGAAGGGCCTGTACGTGGCCGGCGTAACTTCAGGCAGCGCGGCAGCCAGTGCCGGGATCAAGAAGGGCGACGTGATTACGGCGGCTGACGGTAAGACGGTCAACGACGTAGCCACCCTGCACAGCATCCTGTACAGCCACAGTGTTGGTGATAAGGTCAAGATTACGGTCAACCGGAATGGCAAGACGATGACCTTCACGGTAACCCTGCAGGCAAGCAACTAA
>SRR1919932_00309 rRNA methyltransferase
ATGAATATCAAAATTGTTTGCGTTGGAAAATTAAAAGAGAAGTATTTTAAGGACGGGATCGCGGAGTACCAGAAGCGGCTGAGCCGCTTTGCCAAGGTGGAGATCGTGCAGGTGCCGGATGAGAAGGCGCCGGAAAGCCTCAGCCCGGCCCAGATGGAAGAGGTCAAGAAGCGGGAAGGCGAGCGGATCTTGAGCAAGATCAAGGACAAGGAATATGTTTACGTTCTGGCCATTAAGGGCAAAGAGCGGGCTAGTGAAGAGTTCGCCAAGGAACTGAAGGACCTGGGGACCTACGGGCATTCCGACATTACTTTCGTGATCGGGGGAAGCCTGGGGACCAGTGACGCGGTCAACAAGCGGGCCAACGACCTCTTCAGTTTCGGCAAGCTGACCATGCCCCACCAATTGATGCGGCTGGTTTTGATTGAGCAGATCTACCGGGCCTTTATGATTAACTCCGGCAGTCCTTACCACAAGTAG
>SRR1919932_00310 XRE family transcriptional regulator
ATGGAGATCTGTGATTTACTCAAGCAGACGAGAATAGATTTGGGTCTGACCCAGCAGGGAATGGCGGGAGAAGTCATGTCAGTGGCCCAGTACTCCCGGATTGAGAGCGGGGAGCAGCGGATCAAGGCTGAGGATCTGCTGGAGCTTTTGGAAAGCCATAATTACGATCTAGGCTACTTTTTCACCAAAATGATTTACAGCCGGCGAGAGGAAAAAGAGGCTGACTGGATCAATATTGAGTTCCGGGTGAAGAACGCCTTTTATGATTGGAACTGGAAAAAGATGAGCTTTTTGAAAGAGCAGGCGGCCAATCTGACGGGGAAGACAGCCCTGCGGGTTGGCGGGGACCTGGTGGCTTATCTGCTGGATCCAGAGCTTAAGGATCATGAACAGCTGAAAAACGAGGTATCGGATTATTTCTTTAGTCTGGACAATTGGATGGATGATACGGAAGCGATTGTTGTATTTGCCGTGGCGATTCAGTTGATGAAGTTTGATATTGCTTATTTTTGGCTGAGTGAATTGCTTGACAAGTACCAACAGATCGATAATTTTTCCAGAGACCAGCAGGAAGCTGTGGGCAAGGCTTGTGTCAGCTTCTGCCAGCGCTGCAGGAAAGAAGGCGTTGCAGAGGCAGCAAAAGAGGCAATTGAAGTTTTAGGTCAGCTGTCGCCCTGTCCGGAGTTCGTGGCCTACCGCTTGCTTGGCAAGTATTACGCGGGGCTTTTTTCCGGAGAAGATGAGGAGGCGGAAAGGATCAAGGGAATACTTAGAGAGTCTGGATTGGAAAGATTTGTCGATCATTTTCTCTTGTGA
>SRR1919932_00311 hypothetical protein
ATGAAGAGATATAACATGGCTATTAATTTAGCTTTTATGCTATTGTTGATGCTAACGCCTTCTGTGGTGTATGCATCTAGCAATTCGAACATAAGTGAATTTGAAGAGTGTTACCGTGAAGGTGAGTCTAAAGGGATTATTAAAGACGGAAATATTTCTAAGGATACTTTTGTTGAGATGTGTAAAGAATCAGTTTTTCCAGCTTATTTAGAAGCGGTAAAAACTGATCCAACGTTGACGTTTGAACAATTTGTTGCTGATGATAATTATGAAGTACCATTTCAAAAGAAAAACGATCATCCCGAAGTGGTAACCGCAGAGGGTTCTGGGCGCACAGCAGTTGGCCCGTTTGTTAACTTTATTTCAGCTAGCAAAAGTTACAAGATGAAGGCGGGAGATATTCTAATTTGCTATGGGACAGGATCTAGCGGAAGATTGGTTGGACATGCGGCTATGGCAACATCGGCTAACTATATTATTGAGATGCCGGGTAATTATAGAAAGATCAAGGGTAATTCATGGCGTTCTCACAATGCAAGAGTTGTTTCAAAAGCCAGTTTCTTTAAGAGTCACACTAAAGGAAAAGACTATGTAGCTGTTTATAGAAACAATCATCCGATTTATTCCGATCGAGCATCAACGTATGCATACAGATACATGTATAAAAAAGATAATCCATATTATAAGATTACATCGAATATATTTGAAAAGAGCCCGAGCTATTGTTCTAAGTACGTAGTACTGGCGTACTACTGGGGTGCGACTAAAAAGAGCTGGGGTGGTGGTCATAGAGTAGGTATTATTCCACCCCATCAATTGCCAAGTTACTTTTCTGATAGTTTTGTTCCAAGCTACAAATATAAAGTCACAAGTTATTGA
>SRR1919932_00312 hypothetical protein
ATGACTAAAACAGAGCGTTACATGTGGCTGGCCAATGACCTGCTTTTGACGGCAGCAGCAGTGTCGCTGATCATTAATTTAGTTGGCCAGACGGCTTCCGGTTATGCCTTTAGCGGCAGTCATGGGCAGGCAACAGAACTGCTTTATGATGCCTTTATTTTGCTCGTTGCCGCGGCTGCTTTGGGAGTCTGGCTGAGCAAGTGGCTGGCTCCTGCAGCAGCTTGGGTAATTGGCGCCTGCCTTTTGCTGGGCCTTGTAATTGACCGGGCGGTAGGCCTGTATTTCGGCTTGACCTGGTACTGGACTTTGGCTGTTGTCGCTTTGGCGGTCAGTCTGGTTCTGGCCAGCTACCGCTGGCGGGGGAAGGCAGTCTTTAACTATTGGCTGGCCGGCATCCTCTTGGCCGTCAGCCTGGTCAGCTGCGTGATGGCCTGGGTTGGGTGA
>SRR1919932_00313 hypothetical protein
ATGAAATTCTTAAAGATTTTAGTCAAAGTGGTTGATGTAATCTTACTATGCTTTTTGACTGTGGTAGTTTGCTCAAATCTAAAGGACTACATCAATGCCCTAAGAACGATCAAAGGGACTGATTTAAAGGTAACAGTTTTTGGCCATGTGGTTTTAATTTTGGTCTTACTGACAGAATTAGCCTTAGCTGTATTTAGCCAAAAAATTCCCCGTAAGCTGTTCTTGATTATTGGCCTAGTTTGCCTTGCCTTGACATTTATAGGACTGATTACGCCAATCGCTTTTGGTCCGGGCAATTTGCCACTTAACCTCTTGGCCTTAGTGTTATTGGCTGTTAGCCGCTTTTTGCAAGAAAACATAGCTCAGAAGAGAACGTTGTAA
>SRR1919932_00314 hypothetical protein
ATGATGAAAAACTTTGCAACTAAGCCAGCCGTTAAAACCGTCTTCTTGCTGGCTGGCATCTGCTTGGCCTTGTTCATGGCGGTTCAGTGGATCTTTGCCTTGGGCAACCCGGGGCCAGTATCTTGGGCGATTGCCGGCATGATCGCGATTACCCTGCTGACCCTATTTCTGGGAATCGCCCCTTTGACTAAGCTCAGCCCGGTAGTTGGCTACGCGGTCGCTGCGGCTTTGGTGGTTGTCGTCTTGATCTTTGTCTTCAATATCCATGGGTACATCTCAATTGGCATTTTATACCTAATTTACGCGGCCCTGGCTTGTGGCCTTTTATGGGCGAAAAAATAA
>SRR1919932_00315 pyridoxamine 5'-phosphate oxidase
ATGAAGAAATTAGACGCTACTACTTTGACTGCTGACCAACAAAAGTTCTTTAACGACGCTTTGGCCTTCGTTGCTTCCGTTGACAAGGACGGCAACCCACAAGTTGGTCCTAAGGAATCATTGACTGCTTTGGACGACAAGCACCTGGTCTGGAGTGAAGTTACCTTCTCCCACTTGTGGGAAAACATCAAGAACGGCAGCAAGGTTGCTGTTGTAGTTGCTGACGTGCCAAGCCACACTAACGTACGCGTGCTCGGCAGCGTGACTATCCACGAAGGCGACGACTTCGCTAAGGAATACGCTGCTAAGGTTGGCAAGAAAACTGATACTGCCGTAGTAGTTGAAGTTGAAGAAATCTTCGCTTAA
>SRR1919932_00316 energy-coupling factor transporter transmembrane protein
ATGACTAAAAGCAAAATGAATCCCAGCTTGAAATTCCTGCTGACCTTGATTATTTCACTGGAGTTATCTTTTAAGGTCAGCCTTTTCAGCAATGTCATCGTTATTGTTTTATCCTTAGCCTACCTCTTATACCGGCGGATCAAGCCTAAGGCCCTGGGCGGGATGCTTTTGGCAACGGGCTTAGCGGCAATTACCGTCTTTTCTTCAGGCTACATCTTCAGTGACCACCGCGACCTCTGGTATGCTTTGGACATCTCCAGCCGGGCCTTCGTATATACCTTCACCACGGCCTGCCTGACCATTTCAACCACGGCAGAAGAGATGGCCCGGTCGCTGGAGCAGAACCTGCACTTGCCGAGCAAGTTTGCTTATGGAACTTTAGCGGCTTTGAACATCATTCCCCGCATGCAAGCCGCGGTCAAGCAGATCCGGGTGGCAGGGATGATGCGGGGAGTCTACCTCTCCTTTTGGTCCCCGGTCCTCTACTTTAACGCGATTTTGGTAGCTTTAAACAGTGCCGACAACCTGGCCCAGGGGATGGAGTCCCACGGCTACCGGGAAGGCGCTCCGCGGTCCGTGATCGTTGAGGTGCCGCTAACTAACAAAGATTGGCTGCTCTTTATTATTGCGGTTCTTCTTTTGAATCTGGGCGCTTTTTTACTCCCGTAG
>SRR1919932_00317 energy-coupling factor transporter ATP-binding protein
TTGCAAGCAGAACTGACAATTGACCACTTAACTTTTTCCTACGGGGACCGGGAGGTCATCCGCGACCTGTCCTTAACCCTGCCGGCGGGGACTTTTTCCCTCTTGATCGGGCCGACCGGCTGCGGCAAGTCGACCCTGTTGAAGATCATGGCCGGCCTCTACCCGAAATACGGGGGCCAGCTGACCAGCGGGCAGGTTTCTTTGGGCGGGCGAAGTCAGGCCATGATGTTCCAGGAAGCCGGCGAGCAGTTTACCATGGCCACGCCTAGAGAAGAGATTATTTTTGCCATGGAAAACCTGGGCAAAAGCAAGACAGAATTTGCGGACCGGCTGAAGCTGGCCAGCGAATTCGCGGAAATCGACTCTCTTTTAGACCAGAAAATCGTAACCATGTCCGGCGGGGAAAAGCAGCGGGTAGCCTTGGCCGTCCTGGTCGCCATGGACGTGGATCTTTTCTTATTAGATGAGCCTTTTGCCAGCGTGGATCCGGCGGCCCGCCGCTTCTTGATTGGCCGCTTGGCCAAGCTGAAAGAGCAGGGCAAGACCATCATCATCACCGACCACCTTTTTGACGACTACCAGGGCAAGGTGGACGGGGTCTACCGCTTCAAAGGCGAGCAAGTGGACTTATTGACTAAGGATGAACAAGCGCTTCTCCTGGCTACTGAGCCAATCGACCTGCACTTCCCCCTGCCGGAGAACGAGCCAGCGGCTTTTGTCATGAAAAATTTCGCCATCAAGCAAGGCCGGCCTTTGCTTGAGCAAAAGGAATTAGCCATCCCCAAGGGGAAGGTGACCTTGATCACGGGGCCAAACGGCAGCGGGAAGAGCTCTCTGTTTAAGGCCATGACCAAGTTGCTGGACTACCAGGGCTCTTTGACCTGGGAGGGTAAGGAAGTGGCCAAGCTCAAGGAGCGGACCTACTTCCAGCATGTGGCCCAGATTTTTCAAAATGCGGCTGACCAGTTCATGGCCATCACCGTCAAAGAGGAGCTGGCTTTGAGCCAAAAGCACGCTTCCCCCTACTTCACTCCGGAAGTCTTAGACCAGGCCCTGGCTGACCTGGATTTGGCCGATCACATGGACCAGGTGGTCTACTCCTTGTCGGGCGGGCAGAAAAAGAAGCTGCAGATCCTCTTGATGCTTTTGTCGGGCCAGGAAGTGCTCTTGATCGATGAGCCTTTGAGCGGCCTGGACCAGAAGTCGATTGAGCAGGTCGTGCAGCTTTTGCAAAAGTGCCAGGAAAAGAGCGGGCAGACGATCCTGCTGATCAGCCACCAGTTCTACGGAATCAGCACTTGGTGCGACTACCACCTGCGTCTGGCCGGCAGAGAGCTGGCTTTTGTCCAGGATTAG
>SRR1919932_00318 major facilitator superfamily transporter
ATGTCAGATCAACGAAGACGAGTAATTACCGTGGCCTTGATGTTGTCAAACGTCATGTCCGGCCTGGACAACACGATTATCAACACCGCCTTGCCGCGGATCATTGCCGATTTGCACGGGATTGAGTATACCGGCTGGCTGGTGGCCATCTTCTTATTGGGGACGGCTGTTTCCACGCCGCTTTGGAGTAAATTAGGCGAGCGGCGGGGGAACAAGCTGGCCTACCAGCTCGCGGCTGCCTGCTTTTTGCTGGGGGCGCTGCTCCAGGGCTGCGCCCAGCAGATGTCCTTTCTCTTGACCTTCCGCCTGTTGGCCGGGATCGGCAACGGGGGGATGGTGTCGCTTCCTTATATCATCTACTCTGACCTTTATCCAAACGCCCACAAGCGCCTAAAGGTGCTGGGGATGGTCTCTGCCTTCTTCACCACGGCCACCATATTAGGACCGCTCTTTGGGGGCTGGATCGTTGATGCCCTGTCCTGGCGCTGGGTCTTTTATATCAACATCCCGGTGGCCTTGATTTCCATCGTTTTGATCCAGATCTTTTTCCTGGATGAGAAAAAAGACCGGCCAGCTCACAGGGTCGACTTAGGCGGGGCCATCTGCCTATCCTTTGGGGTGGTGGCCCTCTTATTGGGGACCCAGCTGGTGGGTTCAGCCAGTCTGGCCACGGCGCTTTTGATCTTCGCGGCGGCCTTGATTTTCATCGGACTTTTGGTCATTATTGAGCGCCGGGCAGAGGACCCGATTATTCCAGGCCGCTTGTTCAAAAATATCCCCTTGGTGGTCGACTTTACTTTGTTCGTTTTGATCTGGGCCGCCATGTCGGCTTACAGCGTCTACGCGCCGATGTGGGCTGAAGGCTTGATGGCCACGACTGCCCTGGTCGGGGGGATGACCCAGATTCCCGGAGCCCTTACCGACATGCTGGGCTCCTTGTCCGTGGAAAAAATGCGCCGGCGCTGGTCAGCCTACCAGGTTATGCTGGCCACCTGCTGGCTTTTGGCGGCAGGCTACCTGGCTATGGCCGTGGCTCCGCGCTATTTCCCTTACTGGGGGATCTTGCTGGCCGGGATGCTGCAGGGCTGGGGCCACGGGGTCATGTTCAACCAGCTTCAGGTTAAGGTGCAAGAAGACGCGGAAAGCCAGGACGTGCCGGTTGCTACTTCCTTCTCCTACCTGATCCGGATGCTGGCCATGGCGATTTCTTCCAGCGTCTTCGGGGTCATCTTGAATGAGCACTTGGCTAAAGGGGTCAAGGCTAGCGGAGGCAAGATCACTTTGTCCATGCTCAACCACTTATCAGACGCCAAGACCCGGGCCAGCCTGCCCAAGCAGGATTTGGTCCAGATGGAGAATATCCTCTACGGGGCTATTCACGCGATTTTCTGGGCGGCCTTTATCCTGGTCTTCCTGTCTCTGCTTTTGGCCATCTGGGCCCGCTGGCGGGAGAAAAATTGGCCGGCAAGCGGTAAAATCTGGTAA
>SRR1919932_00319 AraC family transcriptional regulator
ATGACTGAAATTGCCAAGCTGCAGAAAAAATTGCAGGAAGCTGGGGATGCCACCCTGCCGCTGAGCAAGGGGAAGGGGCAGACCGCGGCCTGTACGTTTGTTTTACTAGGCGACAAGGCTGAAGGCTGGAAGAATGACTCTTTGACTGCCTTGCTGCTTTTAGCGGGGACGGGGCACTTCCGGGCTGGCCAGCAAAAGTGGCAGGTTAAGCCCGGTGACTGGTTCCTGATGGCAGCTGGCCAGGACTGCAAGGCCAGTCTGAAAGAGGGGCTCCTAGTCCAGCTTGTCTTGCCAGAAGCTTTTTCAGTGAAAGACTTGAAAAAGGATCTCATGCTGGGAGAAGCTGAAGAAGTAGGGACTCACGGCCGGGTGGCGGTTGACGGGCCAGCTGGGGCGGCTTTCCTGGCGGCCTTGAATGAGTACCAGACTAGCGATTCTGTATCTTCAGTCTTGCTCAAAAGCCAGCTGCTAACTGCCCTGGCTCTGGCCTTGCGGGCACTAAATGAAGTGGGCAGCTTGAGTGAGCGGGAGATCCGCCGCTATATTAGTGAAAACTATGTCTCGACCAGCGTGAAGGATGCCGCGGCTTACTACCAGCTCAGTCCCAACTATTTTTCCGACCTGGTCAAAAAGAAGACCGGGCAGAGCTTTATTGAGCTGGTTGACGAGCAGAAGATGGAGGCAGCCGTCCGCCTTTTGGCCCGGCCAGACCTGTCGATCAAGCAGATCATCGGCCTGGTTGGCTACCGGGGCAAGTCCTTCTTTTATGAAAAATTTGGAAAGTACTACGGGATGTCGCCGGCGGCCAAGCGTAAGGAGCTTTTCCGCCAGCAGGGCATCAATTTATAG
>SRR1919932_00320 XRE family transcriptional regulator
ATGGGTGAACTTTTAAAAAATGCGCGGCTTAGTTTAGGCTTGTCGCAAAAAGAAATGGCTGCGGAAGTGATGTCTGTTACGCAGTATTCTAGAATCGAAAATGATCAACAAAGAATTAGGTTTGATGATCTAGTAAAAATACTCCATGCTCATCAAATTGATATAGTATCTTTTATTAATCAATTTTTACTGAGGCGGAAATTAACAGATTGCAATCATGACTATTATTTGCAAAAAATTGAATCCATGTATTGGGAGCGTGATCTTTCGTCAATTGATGAATTACTTGATAAGTTAAAGCAGTTTGGGCAGCATAGGCTCTTAAATCTTTTGACTAAGTTGTTGATTGTGAATGTAAAAGATGGTTTAGATTGTCCAATGGCACAACAGTGTCGTCAGGAATTATGCCAACGCTTGCTAGCAGTTGATAAGTGGACAGATAATAACAACTTGTTGATCTTATTTGCATATGGAGTCTTCATTTTAGACTCTAAGCACTTAGATTATTTTGCTAAACAATTATTTGAGCGATATCAAAGAATCGATGGTATGCCGATTAAGAAAGTAGAAATTTTAGCAATTATCGCTGTTAATTATTTGGCAAATGACCTTCATAAGGGAAGGGGCAGCCATTCGGGTGAAGCTGTTGATTTTCTATACTCATTACCAGCTCATCCGCACTTTTTACTCTATAAACTGCTAGCCAAGTATTATAAAGCGGTAGCTTTAGAGAATGTAGAACAACAAAAGAAGATTTCTAGGATGTTAGCGGAATTTGGTTATAGGGATTTAATAGTTGCGTTTAGTACCGCACCATAA
>SRR1919932_00321 hypothetical protein
ATGGATAAGCTAAAAAAGAAAATGCCGAAAAATAAGTATGCAAGAGCTGCTATCTCATTGACAATCTTTTTTGCCTGCATTCTGCCAATCCAATACTTATTTGAGAAATTGTCATTTAGTACATTTTGGTCAAACTTTCTTGGCTTAACTATTGGTGTGTACCTCTTTCGGAAAATCATCGTTGCTTTGGGAATTCAACGACACAATTTTTAA
>SRR1919932_00322 hypothetical protein
ATGAGTAATCTTAAAAAAACAAATATTTTCAAATTGTTAGTAGTTGCAGCCATTGCATTATCCTTTAACATGTTATATTACCTAAATAAGGGGAACCTTAGTAGACTGGTTGTAAACGCAGAAGAAGGAGCTATTACCGAGGAATTCGATAGATCGTATGAAAAAGTTAATGATATTGATTCTAACGATTTATCTGCTGATGAAGTAGAAGAACTGAAAACATATGTTAAACTAGCACCTAAGGTTATTGTTGCGGATGCTAACGAGGATTTGCCAGATGGCGAAATTCCAGGTGGCGATACTTTAGACTTATCTGAGGAAGTTGATGCAAGCGTAGGCAGTACAATTGGCAAGAAATTAATTAAGAAATTTGGCAAAAAATTTGTAACCAAGAAATTGCCTCGAATAATCTATGGCAAATTGCCAAAAGCTGTCATCAAAAAAATCACATTAAAGAAGTTCGAAAAAGCTTGGAATGATCTTTTCTTAGGTAGTGTAGCAGGAATAGTCAGCGAACAGGCATATAATTATATGGTGAAGAATCATGTGCCGAAGTGGGCAGCAAAATCAGCAGCCGCTGTGTTATATGGTGTAATTTGGTATTATCTAAATTAA
>SRR1919932_00323 heat-shock protein HtpX
ATGCTATACCAACAAATTGCCCAAAACAAGCGGAAGACGGTCGGAGTCCTGGTCGTTTTCGTTTTGATCTTTGCCCTGGTGGGCGCGGGCCTGGGCCAGCTGATGTGGGGCAAGCCCCTGCCGGGCGTATTGACCGCCGGCGTCATTGCCTTGATTTACTCTTTCCTGGTCTTCCAGGATCCGGTCAATGTCGTCATGAGCATGAACCATGCCCAGCATTTAAATAAAGAGGACAATCCCCAGCTTTTTCATATCGTGGAAGACATGGCCTTAGTGGCCAATATTCCCATGCCCGAAGTCTACTTGATTCCGGACAAGAGCCCCAACGCTTTCGCGACCGGCCTGTCGCCGGACAAGTCAGCCATTGCTGTTACCCAGGGCCTGCTGGACATGATGAACAGAGAAGAGCTGGAAGGGGTCCTGGGCCACGAGATTTCCCATATCCGCAACTATGACATCCGCCTGTCCATGGTGGCCCTGGTTTTAGTCAGCGCCATCAGCTTTATCGCCGACTTCGCCCAGCGCTGTGTCTGGTTCGGCTTTGGACTTGGCCGGGACGATGATGACGACCGAGAAGGCGGAACGATTGGGATGATCATCGGCGTGATCGGGGTTATTTTCGTTCTGATCCTGGGGCCTTTGGCAGCCAGCCTGGCCCAGATGGCCCTGTCCAGAAACCGGGAATACCTGGCCGACGCCAGTTCAGTTGAGCTGACCCGGAACCCGCACGGCTTGATCAGCGCCTTGACCAAGATTGAGAACAGCCCGCCCATGCAGGCGGCCAGCAGCGCCAGCGCGTCCTTGTATATTGAGGACCCGATCAGACGGCACAGCTTAAGCCACTTGTTTGACACCCACCCAGCTACGGCTGACCGGATCAAGCGCTTGGAAAAAATGTAA
>SRR1919932_00324 LemA family protein
ATGGCAGTCTGGATTATTGCTATTTTAGTCGTATTAATCGTTATTTTTTACATTTCAGCCTACAACGGCCTGCAAAAGGCCAAGGTTAACACTGAAGAGGCCTGGAGTCAGATCAGCGTTCAGCTCAAGCGGCGGAACGACTTGATCCCTAACCTGGTGGAAACCGTCAAGGGCTATGCCAAGCACGAAAAGGAAACCTTGAGCAAGGTGGTTGAACTCAGAAACCAGCTGACCCAGTTGCCAGCTGACGACCACGAAGGGGCCATGCGGCTGTCCAACCAAATCACTGACAGCTTGAAGACCATCTTCGCCCTGTCTGAAAGCTACCCAGACCTGAAGGCCAACACTAACTTCGCCAACCTGCAGGAAGAACTGACCAACACGGAAAACAAGATTGCCTACTCACGGCAGCTCTTCAACTCCAGCGCGGCTGTCTACAACAAGATGCTCCTGGTCTTCCCATCCAACATCGTGGCTAACATCCACCACTTCACTAAGGTTGACTACCTGGAAATCCCTGAAGAAGAAACCAAGGTACCAAAGGTATCCTTTTAA
>SRR1919932_00325 cation transporter
ATGGAAGCCGCCAAAAGCAAAAGTTCAAATAATTTTTTGATCACCTTTTTGACCACCTTAAAGAAAATTTTTAGCGACCGAATTCTGCAGATCACCATCGTGATCACCATCATTAGTCTTTTCTTTGCCCGGCCGCTCAGCGCCGACATGAACTGGCACACGATCGAGTCTGTCACGACCATGCTGGTCTTGATCCAGGTCTACAGCTACCTGCACGTTCTGGACATCATTGCCTATAAACTGGCGGCGATCGCTGACTCCACCCGGAAGCTGATCCTCCTCTTTACTCTCTTGTCCGTCTTCTCGGGCATGTTCCTGGGTAACGACATTACCTGCTTGACCATGATCCCCCTGTACTTGAACATCGCCAAGAAGTACAAGCTGCCGGAAATCCTGCCGGCCACTTTGATCGGGATGGGGGCCAACATCGGGGCGGCCTTCACCCCATGGGGCAACCCCCACAACATCTTCGTGGTCTCCAACTACCACTTAGTGCCCGCTATCTTCTTTAAGTGGACCCTGCCTTACCTGATCGTGGCCATGGTCGTCTTTCTCTGCATCTTCTTCTTTATCCCGAAGAAGAACATCCCGACCCAGGAAGTCGTTGAAATCAACGTCAGCTGGCCAATGACGATGATCACCACGGTCATCTTCTGCTTCTTTTTCGTTGGCGTCTTCAAGTTCGTTCCAATCTGGATGCCGATGCTGGCCTCCATCATCTGGGCCTTGATCGTCAACTGGAAGATCCTGCTCCACATTGACTACTCCCTTTTGCTGACCTTCACCCTCTTCTTCTTCTTCATCAGCGACATCCAGCAGATTCCTTTTGTCGTGACCCTGATCCACGGCCTGGTCGGCACTGAAATGAGCACTTACTGGACATCCATCCTGTCCAGCCAGGTCATGAGCAACGTGCCATCAACCATCCTGGTCGGCAAGTTCTCCAAGTACGCTGAAGCCTTGACCCTTGGTTCCAACATCGGCGGCTTCGGGTCACCAATCGGGTCCATGGCCAACATGCTGGTCATGCGGACCTTCTACGCCCACGCTTCCAAGGATGCCAAGAAGAAGTTCTTCCCGAAGTGGCTGGGCTACCAGATCGCCGGCTTGATCATCCTGTCCCTTATCGGCTGGGTCATCGTCAAGCTGAACCTGTAG
>SRR1919932_00326 hypothetical protein
ATGTCAAGAAATATCCACAAGGGTATCAACCCACACCGTCGTCCACGTAACGCTTCTAACGCTAAGGAACGCGTTGCTCACGCCGCTGCTATAATCAGCTTCCTGAACCAAGCAGCTAAGGACGAAAACAAGTAA
>SRR1919932_00327 restriction endonuclease
ATGAAGTTTCAGTGCAGCAGCTGCGGTTTAAGACTGGAATCCCTGCATTTCAAGCTGCCCGGTCTGGTCAATGACCGCCTGGCCAGCCTGTGTGACATCTGCCGGCAGCGGGGGCTGGATCCGGCAGCTTACCCCAATCCCGTGGTCAAGCTGTTCGCGGCCAACCTCCTTTATGCCTTTGCGGGCAAGGACGGGGAAGCAAGCGGGGACTTTTCCCTGCCGGACTTAAAAATCCGCCGGTCCTACGAGGCCCTCATGCAGGACTATGATGGAAATGTCCTGGCCAGGCAGCAGCTGCCCAGAGCAGACTTCAACCAGGCCGTGATCAAGGCTGAGGATGATCCCAGCTTCTTTTTGCCAGGAAAACTCCCTTTCGCGGAAAAACTCCAGGCCTTAGGCCTCAGCGTTGACTTTCAGTTAAACGAGGTTGACTATATCGACCGGGAGCGGATCCGGGCCAAGTACAAGTACCGCTGCCAGTACTGCGGCCGGCGGGGGCGGAGCGTGGACCACAAGGACCCGGTCTCCGTCTCGCACGATAACAGCCTGGACAATCTGATTTTGTCCTGCAGCGAGTGTAACCGGATCAAGTCTAATATGCCTTATGACCTTTTCGTCAAGCTCAACGAGGAATTGCAGCCTTTAAACAAAAAGCTGGTCAAGTACGAGAACGCCCTGGGCCCCTTAGAAAAAGAATTCCAAGACCGGCGGAACATGCTGGCCGCCAAGGTTCATTTAAAGGGCGTGGTGAATGACCCGGAACTGGCCGCCATCCGCAAGGAAAACAAGCGCCTGCGGGATGCCATCGACAGTTTAGAGAGTGACTATGATGCGGCCCGCCGCTTGCGCGAGGACCACTTCAAGTTGGGCTGGAAGCTCTACCTGGCCCAGCAGGACAAGGAAATCATCTAG
>SRR1919932_00328 cell wall-associated hydrolase
ATGAAGAAAAAGAACCTGTTGATGACTGCTTTGGCAACTCTGAGTGCATCTGGCGCCCTTTTAACTACTGGGGCCAGCGCTTTGGCTGACAGCTACACTGTTGTTAAGAACGATACCCTGTGGGGCCTGTCAAAGAAGTACGGCGTTTCAGTAAGTGACTTGAAGAAGGCTAACGGCGTTTCCGGCCACTTGATCTACGTGGGCCAGAAGCTGCAAATCCCAACTAAGTCAAACAAGGCAACCAAGACTGCTAAGACTAGCACTTCAACCAGTACCGTTGACACTACTTCAACGACCCACACGGTCGTAAAGGGTGACACTTTGTGGAGTTTGGCTAAGAAGTACGGCGTTTCAGTAAGTACTTTGATGAAGGCCAACAACTTGTCAAGCAGCACCATCTTGATCGGCCAAAGTTTAAACTTGCGGGCTGGCATGACTGCTTACGGGGTAAACGGCGTAACTACTGGCTCAAGCTCAACTGCAGCAAGCACTAACACTGCTTCATCAACCAGCACGACTGCTTCCAGCCAAGCGCCAAAGGCCAAGAAGAGCACTACTACTAACACTAGCAGCAATTCCAACACCAGCACTAGTGCCAACACTCAAAGCCAGTCAACTGCATCTAACAGCAGTGCGTCCACTACGACCAACACTAATACTGCAGCATCAAATGCTAACACTACTTCAAGCACTAACACTGCAGCAAGCAGCAGTCAAGCAGTCAGCCAGGCACCAACTGCTTCAACCTCAACTGCAACTACAACTGCCTCAGCCAGTGGCAGCGCGATTACTTCATACGCGTTGACCTTCCTGGGCGTGCCTTACGTTTGGGGCGGGACCACGCCAAGCGGCTTTGACTGCTCCGGCTTGGTACAATACGTTTACAGCCACTTCGGCATCAACCTGGGCCGGACTACTTACACCCAGCAATACGCCGGCACTAAGATCAGCGTGGCCAGCGCCCAAGCTGGTGACCTCTACTTCTGGGGTTCATACGGCTCAGCCTACCACGTAGCCATCGCCTTGGGCGGCGGCCAATACGTCATGGCTCCAGCCCCAGGCCAAAACGTGATGACTGGCAGCGTGTCATCATACACGCCAAGCTTTGCCGTTCGCGTTTTAGGCTAA
>SRR1919932_00329 hypothetical protein
TTGCGCTTGATTGTAGACAATTCTCCCAAGTGGCGCTTGTCCGGACCAGCCAATGGCTTTTTGGGCTTCATGGACCGGGTGGCCAAAAGTGTTTCCTGGCCGCTCTTCCTGGCCTACCTGCTTTTGCTAGTGATGATCGTGGTCGCCACTCTTAGGACTTACTTCTTTGAATTCAAGCAAGACAAGGTAAAACAAGCTTGGCAGAAGGTTGTCTGGTTTTTGCAGCTGATCATTAATGAGTTAGCTTGCCTGGGCTTGGCCTCGTCACTGACTATGCAGGTTTACGATAGTCAGCAAACATGGACAATTATTTTTGACCTGTTCATGCTGTTTATCGTAGTTATTTTTGCTTTTGCCTTGACGGAAAAATTTACTAATCGCGGGGGAAAAAACTAA
>SRR1919932_00330 amino acid ABC transporter ATP-binding protein
ATGGCTGATTACAAGGATAATGAAATTATTTTAAACGTTCAGCACCTGCAAAAGGCTTACGGTGAACACCAAGTTTTGAAGGATATTTCCTTTGAAGTCCACAAGGGCAAGGTTATGACGGTCATCGGTCCTTCCGGTGGTGGTAAGTCAACCATGCTCCGCTGCATCAACTTGCTGGAAGATACAACTGGCGGGGAAATTCTTTTCCATGACCAGAACATCCTGGATGAAAAATACAACATCCCCCGCTACCGGTCCAAGGTCGGCATGGTTTTCCAGCAGTTTGAGCTTTTTGAAAACAAGAACGTCTTGCAAAACTGCATGATCGGCCAGGAACTGGTTCTGAAGCGGTCAAAGGCAGAAGCCAAGAAGATTGCCCTGGAGAACCTGAAGACCGTTGGGATGGATCCCTACGTCGACGCTAAGCCCCGTCAATTGTCCGGTGGGCAGAAGCAGAGAGTAGCGATTGCCAGAGCCATCTCCATGAACCCGGAAATCCTCCTCTTTGACGAACCGACCAGTGCCCTTGACCCAGAAATGGTCGGGGAAGTTTTGGAAACCATGAAGAAGCTGGCCAAGACTGGTTTGACCATGATCGTGGTTACCCACGAAATGGCCTTCGCCAAGGAAGTTTCCGACCAGGTCCTCTTCATGAGCGACGGTTACGTGGCTGAGCAAGGCAGCCCGGATGAAATCTTCAACCATCCGCAAAGCGAAAAGACCCAAAAGTTCTTAGCCAACTTCCGTGGCCCGCAAATTTAA
>SRR1919932_00331 amino acid ABC transporter substrate-binding and permease protein
ATGAAGAAGCACAGCAGCTGGATTAGCGCCTTAATGGCGGCGGTCATGACGCTTGTCTTAGCTGTCAGTTGGAGCCAGCTGGCGCAAGCCAGCGGCACCTTGAAGATTGGTATGGAAGCCAACTACGCTCCATACAACTGGACCCAGACCACGTCCGCCAATGGCGCGGTCAAGATCGACGGGACCAGCTCTTACGCCAATGGTTACGACGTCAAGATCGCCAAGATCATCGCTAAGAAGCTGGGCAAGAAGGTTATCGTGGAAAAGACCCAATGGGACGGGCTTTTGCCAGCCCTGACCAGTGGCAAGATCGACTTGATCATTGCCGGGATGAGCCCGACGGCGGAAAGACGGAAGGCCATCAACTTTACCAGCCCATACCGGACCACCAACTTCGTGGTTATCGTCAACAAGCAGAGCAAGTACGCCAAGGCCAAGTACCTAACTAACTTCAAGGGGGCCAAGCTGACTGCCCAGCAAGGGACCCTGCACTACGACCTGATCAAGCAGCTGCCAGGGGCCAAGCGGGAACCAGCCTCCAAGGACTTTGCCGCCATGCGGGAATCCCTGGAAGCCGGCACGATCGACGGCTACGTGGCTGAAGACACGGAACTGACTTCCTTCCAGATGATGGACTCCAACATTACCGGGGTCAACCTGTCTAAGATGAAGGGCTTCAAGGTCTCCTCTTCTGACGCGGAAGTTTCCATCGGGGTTAAGAAAGGCAACGACCAGCTGCTCAGCCAGGTTAACAAGGTTTTGGCCGGCATTTCCACTTCAGAAAGAAACAAGCTGATGAAGGAAGCCGTGCAGCAGCAGCCGCAGACCAGCACCAAGAAGGAAAACTGGCTGGTTTCCATGCTGAAGAACTACGGGCAGATGATCCTGGAAGGGATCGGGATGACTCTCTTGATCTCCCTGGTCGGCACCATCGCCGGTTTCTTCATCGGTTTGCTGGTCGGCATCGTCCGGACTATTCCAGAACCAAAGAACAAGTTCAAAAAGGGCCTGTTAGCCTTCTGCAAGTGGCTCTTATCCGTCTACGTTGAAGTCTTCCGTGGCACGCCAATGATGGTACAAGCCGCGGTTATCTACTACGGGATCGCCCAGTTCTGGCACATCAACCTGAACAGAATGGTTGCCGCTTTGATCATCGTCTCCATCAACACCGGGGCCTACCTGGCCGAAGTTATCCGCGGGGGGATCATCTCCACGCCGAAGGGGCAGTTTGAAGCCGCCAGTGCTTTGGGGATGACCCACAACCAGAGAATGTGGCACATCATCCTGCCACAGGCTATCCGGAACTGCCTGCCGTCAATCACCAACGAATTTATCGTCAACATCAAAGACACTTCCGTATTGAGCATCATCTCAGTATCAGAACTGTTCTTCGTTGGTTCAACGATTGCCAGCCAGAGCTTCCAGTTCTTCCAAACCTACCTGGTCATCTCGGTCATCTACCTCTTCTTGACCTTTACGATCACCCGGATCTTCAACTTGATTGAAAAGCACATCGAAGGTCCTGAAAACTACAACATGATGGCCAACCAAGTTCAAGTCGGCAAGCAGGAAGGAGACAAGTAA
>SRR1919932_00332 3-methyladenine DNA glycosylase
ATGGACTACAGGAATTTTTTCACCGGCCGGCCCACCAGCGAGATATGCCGGGATTTGATCGGCCGCCCCTTTTATTATCAAGCCGGCGGGAAAAAAATTGGCGGCTATATCGTTGAGGCCGAAGCCTACCTGGGCATATACGACCGGGCCGCCCACTCCTACGGGGGCAGAAGAAGCCAGGCTAACGAGGGCCTGTGGCGGGCCGGCGGGACCATCTACATCTACTCCCAGCGGCAGTACGTCTTTTTTGACATCGCCTGCCAGGAAGAAGGCAACCCCCAAGGGGTCTTAATTCGGGCCATTGAGCCGGTCTGGGGCCTAGACCAAATGCTTAAAAACCGGGGCGGCAAAGACGGGGTCCTTTTGACCAATGGACCGGCCAAATTAATGCAGGCCATGGGGATCAAGTCAAGAAACTGGGACCTGGCCCCTTTGGCGGACTCCCCTTTCGTTATTGACTTGACTGAGAAAAAGCCGGCTAAAGAAATCATTGCTTCGCCCAGAATCGGGATCGTCCAGGCTGACCCGGCCTGGGCCCAGGCGCCTCTGCGCTATTATGTGGCCGGCAACCCCTACGTCTCTGGCATGAAGAAACGGGACTGGGCGGATGATCACGGCTGGATGTAA
>SRR1919932_00333 hypothetical protein
ATGTCAACGATCAAAACTGTCCGTATCTACGCCAAAGACCAGCCCGCCGGCTACCGGATCTTAGTCGACCGGCTCTGGCCCCGGGGAATCAAAAAAGAAGCCGCCAATTTAGACGAGTGGAAGAAAGAGCTGGCTCCCAGCCGGGACTTGCGGACCTGGTTTAAGCATGACCCGGCCCGGTACCCGGACTTCCGCCAAGATTACCTGGAAGAATTGGCAGACAATCCGGAATGGCCGCCTTTCGTGGAGCATTTGCAAGAGCTTTTGCAAAAAGGGGACGTCCTCTTTTTGTACGGGGCTAAAGATGAAGAACACAACCAGGCCGTAGTTTTAAAGGAGGCAGCTGAGGAAGCTCTGGCTAAACTTGCTTAA
>SRR1919932_00334 NAD-dependent deacetylase
ATGGACCAAGCAAAACTTGCGGAATTTAAAGCAGACTTAAAAAAGGCCAAGCACCCTGTCTTTTTGACCGGGGCAGGCGTGTCAACCCACTCCGGCATCCCCGACTACCGGTCTAAGACTGGCATCTACAACGGGGTCAGCGAGCCCCCGGAAGTCATCTTGAGCGAGGAGACCCTTTATGACCGGCCTCAGCTTTTTTATGACTTCGTCATGCAAAACATGTACTTCCCGGACGCCAAGCCAAATATGATCCACGAAAAGATCGCGACCATCTGCAATGAAAAAGGGGCCCTCATCACCCAGAACATCGACACCCTGGACCGGCAGGCCGGCAACCAGCACGTGACCGAATTTCACGGCAACCTCTACGACATCTACTGCTCCAAGTGCAAGCAAAAGGTCAGCTATGAGGACTACGCCAAGGGCTACAAGCACGAGTGCGGCGGGATCATCCGGCCCGGCATCGTCCTTTACGGGGAAGGCATCAACCCGGCCAATGTCAACCAGTCCATCCTGGAAATGCGGCAAAGCGACCTGGTCGTGATCGTCGGCACCAGCTTCGTTGTCTACCCCTTCGCCGGTCTCTTAGGCTACGCGGCAAAAGACGCCAAAATCTGGGCCGTCAACTTGACTGAGATCCCGGCACAAGGGATCAAGCAGCTGACCGGTGACGCCTTGGAGGTCTTTAAGCAAGTTTAG
>SRR1919932_00335 hypothetical protein
ATGGACACGTTATTTTACTTGGTCGCCGACACCGTGCTGGCGGCCTATGCCGGCTACAGCTGGTACAGCCAGGCCACGGTGATCCTGCGGGCCCGCTGGCGGATGACGGCGGTGGTCATGCCAATCCTATTGGTCTGGCTGGGGGCCAGCTGGGGCTACCTGGACCTGGGAACTCCCGGCTTCATCGTCTTCCTAGCCCTCTTCATTTTGACGGGGATCCTGGAAGCCACGTCGGGCTTTGCTGACAAGCGGGTGGTTTTGAGCGGCTACTTCCGCCGGACTTTGAAATACAGCGAAATCAGCCAGGTGATCCTGACCGCGGCGCCGCCGGAAGTGGGCGACCTGTCGATCGCGGCCCTGGAAACCAGCCGCCACCAAATCTACTACCTCCGCTTCAACAAGCAGGCCAGCGATGTGGTCTCTTTCTTGATGCAGCGCCTGGAACGCGGGGTAAATATTGACGTAAGAAAAATGGGTTAG
>SRR1919932_00336 cardiolipin synthase
GTGACTGCCATCTCTTGGATCGATATTTGGCACATCATCTTCTTCGCCAACGCCATCCTGGCCCTCTGGACCGTCTTCCACAGAAAGCGGTCCGTGGCCACCTCCTGGGCTTGGCTGATCGTCTTGATCATCCTGCCCGTAGTCGGCTTCATCATCTACGGCTTCGTCGGCCGGGGGATTTCCCAGGAAAACCTTTTTGCCATCAACCGGCAAAAGCACATCGGCCTCTCCAACGTGCAAAAAATGATCACCGAGGCCCCGGCAAAAATTGACCAAAACGACACCTCCCCCAGCGCCCACATCTTGATCAAGTACCTGGACAAGGACCAAGAGTCGCCCATTACCAAAAACAACAAGATCAAGCTTTACACCGACGGGCATGACAAGTTCCGGGACCTTTTCGCCGATATCCGCCAGGCCAAGTCCAGCATCAACGTCGAATACTACACTATCTATAACGACGCCATCGGCAACGAATTCCTCAAGCTTTTGATCCAAAAAGCCAAGGAGGGGGTCCAGGTCCGGGTCCTCTACGATGCCTGGGGGTCATTCGGAGCCTCCAAGAGCTGGTTCAACCAGCTGACTGAAGCCGGCGGCGACGTTTTGCCCTTCATCACCTCAAGAAACATGATTTCCCGGAACCGGATCAACTACCACCTCCACCGGAAGATCGTGGTCATCGACGGGGTTACCTCCTGGACCGGAGGCTTCAATGTCGGCGACCAGTACCTGGGCAGGAAGAAAAAATTCGGCTACTGGCGGGACACCCACCTCCGCCTGGTCGGGTCAGCCTCCCTGCTTTTGCAGGAAAGATTCGTGATGGACTGGAACGCTTCCGCCGTCAAGGAAGAAGAACTGATCAGCTTTGACGAAAAGCTCTTTCCTGACCTGGATGAAAACGACATCTCCAAGGGCGACATGGCCGTACAGGTTGTTTCTGACGGCCCCGACAACGACGAGCCTTACATGCGAAACGGCCTAGTCCGCTTGATGATGCTAGCCAGAAAGCGGGTCTGGATCCAGACTCCTTACTTGATTCCAGATGAGGCCATGATTGCCGCCTGGCAGATCCTGGCCAGCTCGGGAGTTGACCTGCGGATCATGATCCCCTGCATGCCGGACCACCCCTTCATCTACCGGGCAACCCAGTGGTACGCCAACCAGCTGGTCAAGATCGGGGTCAAGGTCTACACCTACAACAACGGCTTCATGCACGCCAAGACCATTATCGTCGACGACAAGTACGCGACTGTCGGCAGCGTCAACCAGGACTACCGGTCTTATGACTTGAACTTTGAAGATAATGTCTTCGTCTACGACCGGGCCTTTAACAAGGAGATGTCCGACCAGTTTGAAAAGGACATGGAGCAGTCGACCCTCCTCACGCCGGAGATGATCAAGAAGCAGTCCCACTGGCTGCGGTTCCTGCAGAACTTCTCCCGCCTCCTGTCCCCGATTTTGTAA
>SRR1919932_00337 alpha/beta hydrolase
GTGCTCTTTTTTAATTCTAAAAAGTATGCTGAAGAAACTGAAAAAAAGCGCGGCAAAAATCCCGATCCCCGGGACCACTCCCTGGCCATGATGTTCTTCTTGGGCATCCTGGCAACCTTTCCGCCTTTCCGGATCTTTCTGAAGCTGCGGGGCAAGCGGGTCAGCGACCTGGCTGAAAACCAGGCCAGCGGCTCTGACCAGGTTCCGATCATCTACGTCCATGGCTTCCGCGGCGGGGACTACACCACCAGGGTGATGGTTGAAGACGCCCTCAAGCAAAAAGGGGACACCCGCTTTTTGAAAGTCGAGGCTGACTTAACCGGCCGGATCAAGCTGACCGGATGCTATACCGGCGACAAGCAGCCCATCATCCAGCTGGCCTTCAAGGACCGGATTGCCGGCTACCAGGCCATCAACTACTATCTCAGCTTCATCCTGCCTTTTCTGAGCAAAAAATACGTCTTTACGCGCTACAGCGCCGTGGCCCACTCCCTGGGCTCGCCCTGCGTGGTCGCTACAGAAATGCGCTATGCCAAGCGGAAAAACTTCCCCCACCTGGCCAGCTGCGCTTTGATCGCCGGCCCCTTCAACGGAGTCATGTACCTGGGCGACATCCCCAATGTCAACCGCCTGACGGAAAGTGGCCGGCCCAGCATGATGACCCCGCACTATTCCTACATGCTCCGCCACCGGCGGGACTTCAGCCCCAGCATCCGGGTTTTGAACATCTACGGCAACGTCCTGGACACGACCAATTCCGACCGCTTTATCTCCGTGGTTTCCGCCAAAAGCATCCGCTATATCCTGGCCCCGGACGCGGTCTACTACCAGGAAGTCGAGGTCCGCGGCGACAACGCCGAGCACTCGCAGATGCATGACGAGCCCTTCGTCATCGGCATCCTGAACAGTTTTTTAGGCTTAGATAAAATCAAGAAAGGACTTTAA
>SRR1919932_00338 ribonuclease HI
ATGAAAGTTTATGTTGTTAAAAAAGGCTACCGGCCAGGAATCTACCACAGCTGGCCTGAGGCCGAAGAGCAGGTCAAGGGCTTTCCCGGGGCAGAATACAAGTCCTTCAGCAATATAATGGAGGCCCTGGACTATCAGCAGATGGACCCGGAAGATGCCCTCAAGGCCTTGCAGGGGGCAGAGGACAAGCTGCAGGCCGCGATCGCCAAGGTCAGACAGGGCGGAAGCAAGAAAAAGCAGGCTGAAAACAAAAAAGAATTTGCGGCAAGTTCGAAGTATGCCGCCCACATTTTTACCGACGGGGGCTGCCGGAACAATGGGACCCACAAGGGCGGGCATGTGCAGGCAGACGACAAGGCAGCCTGGGCTTATTTGATTGAATACGGCGGCCAGAAGCTGTCCGCCAGCGGCGGCCGTTTTGGGGCCACCAACAACGAAATGGAAATGACCGCTTTTTTGGAAAGCCTGAAGAAGCTGGAAGAACTGGGCTTAAATGACCAGCCCCTCTTGTTCTCTTTAGACTCCCAGTATGTCATCAAGGCCGTCAGCGACAATGACCAGGGTCCGGCCTGGATCAAGGGCTGGCAGAGACGGGGCTGGAAGAAGGCGGACGGGTCACCCGTTGCCAACCGCGAGCTCTGGCAGGAGATTGCCAAGGAAATGGCCAAGTTTGCCAAGCCGGAATTTGAATGGGTCAAGGGGCACGCCAATAGTGCCGGCAACAATTTTGTCGACGGCCTGCTCAACAAGTATATGGACCAGATGTAA
>SRR1919932_00339 hypothetical protein
ATGAACACGAAAATCAAGAAAATCATTACGGCCTGCGCCCTCTTCCTGGGCCTGGGCTTGACGGCTGGCAGGGTCTCTGCCGCCAAAGACACCACCCCAGTTATTACCCTGGGGACGTCATTAACTGCCAGCCAGAAGCAAGGCACCCTAGACGTTTTAAAGGGGGCCCTCAGCGACTCCAGCAGTTACAACACCTTGACAGTAACGGGCAGCGACCTGGTTACCTACCTGAACCCGTCCGGCAGCTCCTTTACCTCTTCTTCCGGGGTCTGGTCCAGTGCTGCCATTGAAAAAACCAGCTCCGGCAGCGGGATCAATGTCCGCATCCTCAACTACAACGGGCAAAACAACATCACTACCATCACCGCCAACCAGTACCGAAACGCGGCGGTAACGGCCGGGATCACTGACGCCAACATCTACGTCACTTCCGCGATCCCGATCGATGGTTCCGGCGCTCTGGCCGGGATCTACAAGGCCTACGCCAAGAGCGGGGAGAAGCTGAACCAGAAGCAGATCACCGCGGCCCAAGACGAATTGAATACCTTAAGCGGGATCACCAAGGAAAACAAGGGCAAGGACGGCTACTCTGACGCCCAGCTCAACAATGCCGTGGCCGGGGCCAAGAAGGAAATGGCCCAAAAAGGCTCAAACATCACCAAGAACCAGATCATCACGATCGTCAACAACCAGATCGAAAACAACAATCTGACCAACGTGATCACCAACGAACAGAAGCAGCAGATCGTCAACATCCTGGTTGAGATCCGGGACTCCGGCGCCCTCAACTCCTCTTCTTTCAAGCAGCAGGCCAGCCAGGCCATGAGCGCCATCCAGAAGAGCGCCAAGGGGATCTTTGCCAAGCTGAACACCAGCGAAAACCGCAACGCCCTGCAGAAGCTCTGGGACGCCATCGTCAACTTCTTTACCAGCCTCTTCTCCAGTTTTAGCAAGTAA
>SRR1919932_00340 glycosyl transferase
TTGCGAGCGAATGCCGACTTGAAGCTGACGGTCATCATGACTGTTTACAACCAAGAGAAATACCTGGCCAGAGCCTTGGACTATTTGCTTGAGCAGAAGAACCAGCAGTTCAAGCTGCTGGTCATTGACGACGGCTCGACTGACTCAACCGCGGAAATCGCGGCCAGCTACCAGGACCGCTTCCAAGCCTTCGACCTGGTCAGCAAGGCCAATGAAGGGGTGGCCGCTGCCCGGAACTTAGGCCTGGACATGGTTGATACTCCGTATTTTATTTTTCACGATGGAGACGACTGGGTTGAGCCAGACTACACGGACTACTTTATCAAGGCTTTTGACCGTCACCCGGACGATGACATGGTAACCTGCGGCTATTATGTCGACCAGGCAGGGAAGCCGTCCGTGCCGATTACTAAACCGGTTGAGGGGGAATTGACCCGGCTTGAGGCCGTGTTAAAGGTCTTGGGCAGTGCCCATTCGCCGGTTAAGGGCTATACCTGGAACAAGTGCTACAAGACCCAGCTGGTCCGCTGCCTGCACCTGCGTTTTAACGAGGACCTGGACTTGATGGAAGACCAGGTTTTCAATATTGACTATCTGATGCAGACGGAAGGCTGCTACTACAGCTCCGTGCCGCTCTACCACTACTGGCAAAGAACCGACAGCGCGGTGCACACGGTCAGCTGGGACCACTTCTGGAGCATCGTGGGGGCCAATATTTCGATTTACAAGAGCATTTTTTCTCACTTGTGGCAGAAAGTCCTCAGCAAGCGGCCGCAAACCCAGGAATATTATGTAAGGGAAAGGATCAAAGATGATCATCAAAGTTAA
>SRR1919932_00341 alpha/beta hydrolase
ATGATCATCAAAGTTAATGGAGTCGATCTTTACTACCAAAAGCTCGGTCAGGGCCAGCCCCTGATCCTGCTGCACGGCCACCACTTGGACGGTGGAATGTACAGCAAGGTGATCGCGCCTTTGTCACTGTATTACACGGTCTATACCCTGGACATGCGGGGGCACGGCTTAAGCGGCGGCGACGGGGCTGAGCACTACCAGACTGAAGTGGAAGACCTGGCTGTCTTCATCAAGGAGCTGGGACTGGAGCAGCCTTACGTCTTTGGCTATGACTCCGGCGGTCTGGTGACCCTGATGCTGGCCAGCCAGCAGCCCGATATCCTGGGCAAGGCGGTCGTGGCCGGGGTCTTCATCGACGGCCGGGGGATCCACAAGTACCACTACTTGACTGAAGGGGTCCGGCGCTTTCTCCGCTTTGACCGCGACAGCCGGGTGGAACTTACCGAATCCTACATGGAGCCGGAAAGCCTGGAGCAGATCCAGATTCCCGTTCTCTGCGTGGTCGGGGAAAATGACTGGGTCAAAGTCGAACATGTCCGCTGGTACAGCAGTTTGATTCCAAATGGCCGCCTGGCCTTGATGCCGCGGCAGACCCACGATTCCTACGTGGTAGACAGCTTGAAGATTTTAGACTTGATCAAAGATTTTTGCAAGGAATAA
>SRR1919932_00342 ribose-phosphate pyrophosphokinase
ATGATGACATCAATTACAAAAGAAGAAATTCATAAGTTGCTCAACCCGATGAAGGTGATCGGGCTCGGCGGCAATCCGCAATTGAACGAAAAGGTAGCCAGCACGCTGGGCGTTCCTTTGATCGAAACGACGGTTCACCACTTCAGCGACGGTGAAATCCAGGTCAACATCGCGGAAAGCGTCCGGGGCTGTGACGTCTTCGTCATCCAGTCAATTCAAGATCCGGTCAATGAAAACTTCATGGAACTGGAAATTGTCCTGGATGCCCTCCACCGGGCTTCAGCCCACACGGTTAACTGCGTGATCCCGTACCTGGCCTACTCTCGTTCCGACACCAAGACCCGGTCTCGGGAACCAATCACGGCCAAGCTGATTGCCAACCTGCTCCAGCTGACTGGGATCGACCGGGTATTGACCATCGACTTGCACGCTTCCCAAATCCAGGGCTTCTACAACGTGCCGGTTGACCACCTGCACGCGATGCCGCTTTTGGCCCAATACTTCCTGGACAACGGGATCGCGGTTAAGGATGACGACGACGTGGTCGTTGTTTCACCAGACCACAGCGGGACCAAGTTGGCCCGGGTCTTCGGCCAGTACTTCAACGCGCCGATCGCCATTGTTGACCAGCGCGGGGCCCGCTACGATGACAGCGTCCACGGCATGATCGGTGACGTTAAGGGCAAGAAGTGCATCATCGTTGACGACTTGATCGACACTGGCACCCGCCTGGCTTCATCGACCCGGTCAGTCTTCGCTGCCGGCGCGACCAAGGTTTACGCGGCTGCTACTCACGCCTTGCTTTCACAAGACGCGATCAAGATCTTGAATGGCTTGCCGCTGGAACAAATTGTGGTTACGGATACCATCAAGCATGAAAAGTATCCTGACCGGATGGTCCGGATCTCAGTTGACCGCTTGTTGGCCAAGGGGATTGACCATATTTACAACGATCGCTCAATTCACGATATTTTTGATGAACAAAACCGCTTCACCAAAGACTAA
>SRR1919932_00343 TetR family transcriptional regulator
ATGGCAAGAAGAAAGAACATGCAGAGACGGCGGGAGATCTTGGACAACACCTTCCGTTTGATCAGAGCCAATGGCTTTGACCATGTTTCCTTGCAGATGATCGCGGAGAATTCAGGAATTTCCAAGTCTCTGCTGCAGTCTTACTACCCCCACAAGGCAAGACTGATGACTGACATTGTCAGAAACCTGTTCAATACTATGTGGGACCAGGTAGAAATAAACTATCACGCGCCAAAGAAGAACCCCTTCACCCGGGTGGACGCTTTAATCTACACGATCGCGACTTTGGGGATGACGGACAAGGGCCTGGACCGGGTAATTACGGAGGCCTTTACTGACCAGACTTCTTTGGACAACTGGAGCCGGATGCTGGACGAATGGATGAAGTCCCACAATGCTTTTTCCGAATACAGCAACTACCAGGAAATCCGGACCGGGATTGCCTTTATCATTACGGGGGTTGGCCGTTTGTATCGTGACCGGGAAAAGCACGGTCTTAACGCCGAACAAATGGCGGACTACTCAACCAGTTCCCTGATGTACGGCTTTTTGCACGCGGATCCTGCGGAAATCGACGCCGTATTGGAAGAAGGTCACGGGATCATTGACGACAGCAACATCGGTGAGGTCCACCACGCGATCGACACCATGTTTGACGAAGGCAAGGTAATTTACAGTTAG
>SRR1919932_00344 hypothetical protein
ATGGCAGAAAGTTCCGGAACGCACAGACGAAGGAACAACTATGAAATCGTGGACAACGCGTTAGAATACAAGCGTCCCTTGGCCTTTATAGCTTTCTTATTGCTCAGTTTGCTGCTGGCCACGGGAACTTTCCTGAATCCTGCTTTTATGAAGGAGACCATCAAGACCGACAGCAACACGGTCGTGATCAGCCAGCAGGTCAACAGCCACTTCAACCGCCTGGCCACAATCGTCAACGGGTCCAGCGATGAAAAGAACTTGATCTCTGATGACCAGGCCAGGGAAGTTGCCGACTTGATCATCGACTACAAGTATGGCTGGCACTTTATCCATACCAGCAATCTGGACCTGGCTAAAGACATCAGGGCCGTGATCTTGAAGAAGGAGCAGACGGATACCGACCAGGTGACCGCTATCCGCAAGAAGCTGAAGAAGCAGAGCGATTCTTCAGTCTACATCGTCAGCAATGCCTTTGACCTGGCCACGGTCATGTTAGAGGCCAACTTGATCACGATCATCCGGATCGTCAACCTACTGGTGATCCTGCTCTGTCTGGTGGCCGTAGTCTCGATTTTGCGGGAGGCTTTTGCCAGTCACACCAAGCGGGCAGTGGTTCACGACATGACAGCCGGGCTGATGTGGACCGCCTTTTGGTTCATCCTGGTTTACGGGCTTTTGGCCATGGTGCCGATCTTTATGGACACTTCGGTGATTACCGTGGCGGACCTGGGCTACTGGCTGGAAATCGCCAGCGGGGTCTTCCTGGACTTCGTGATCGCCGGCGTTATTTTATACGTGGTCAGTGCCATTCCATGGCAGGCGACTTCAAGATAG
>SRR1919932_00345 ArcR family transcriptional regulator
ATGCACCAACACGACGAGTTAAATTGTATCAGCCACGTGCCGATTTTTAAGAACCTCCCCCTGGACCTGCGCCAGGACTTGGTTCACATTTCGACCCACCAGCAGTTTTTTAAAAAAGGGAGCTTGATCCACGCCCCGGGCGACGGCCGCCTGTCAGTCATGTCCCTGGACTCAGGCCGGGCCAAGGTCTACAGCCTCAGCCCCGACGGCCATGAGCAGGTCCTCAGCTTGATGCAGGAGGGCGACATCAACGGGGAGGAAAACCTCTTTGACACGGAAAACGATGACCTCTTCATCGAAGCCCTGGAAGACAGCACGGCCTGCTCCATCAACTATTCCGACTTCCAGGACCTTCTGCTCAAGTCCCCGGAGCTTTCCCTGCACCTCTTAAATGAATTCGGCCAGCGCCTGGTCAGCGCGCAAAAGAACGCCATGCGCCGCAACAGCCTGGAAGCTGGCCCCCGCCTCTACGCCAGCTTGAAAGACTACGCTGACGAAGCCGGCTCCGCCACCTTCACCCTTCCCTTGAAGAAGAAGGACCTGGCCAGCCTGCTGGGCATCACCCCTGAAACTCTCAGCCGGGAGTTCTCCAAATTAAAAAAGGATGGCTACATCGCCGCCAAAGGCAAGCAGATCACCATCCTTAAATAG
>SRR1919932_00346 serine protease
ATGCGTCATAAGCCAGCACTGCTTTTACTGCCGGTAATCCTTCTGGCAGTAGGGTCCACGGCTGTCCAGGCGGCAGAATTCACGCCGCAGGAACAGGCAGAGGTGCTCCGTTTTCAAAGAGAATACCAGGCCTTGAGCAAGACCGTCTACACCCAGCAGAATATCTATGCCAGCAAGCCTTCCTTGAAGAAGAAGTTCAAGGCGGGCAGCTTAAAGTCTAGCTACATCAACGAGCAAGTCGCCTACATCAACTACTACCGTGACCTCTTCGGCTTAACTGCCGTCAAGACAACAAGCCATGGCAACAAGAATGCCCAGACGACGGCCGCCGTCATGGCCGCCATTAATGCCAACCCGTTCGTCAACCAGCACGGGCTGCCAAATGAGAAGCGGCCAAGCTACATTTCCAAGAAGAACTGGCTTTTGGCCCAGGACGTTTCCAACTCGGCCAACCTCAACTTCAATGCCAGCCCGCAGACGGCTGGGGACGTCGTGACCGACCTCTTGACCGACCGCTATAATCTGTCGGGTTCTGACACCGGCCACCGGGCCTGGCTGCTTTCCACCCGCTTAAGCAAGATTTCAGTCGGGGCAGCTTACGGGACCAACGGCTACCGCTACTCAGTCAACCAGGTCTTGAATGTGGGCGACAGCGCAAGAACTGCCAGCCGGGAAATGGTAGCCTATCCAAATGCCGGGGTCTTCCCCCTGGAGCTTTTAAATGGACAAAACATCGCCTGGTCTTTATACTTTTCAAACAAGGTCGTGACCTCAACCCCGAAGATCACCGTTACTGACGATGACACCGGCAAGACGGTCACCGCCAGCCAAGTGGCCAACTACAGCGAGTACGGCTTTGGCAACTTCCAGACCGTGATCACCTACTACCCAAGCAAGCTGCAGCTGACGGCCGGCCACAAGTACACGGTCAGAGCCGGTAACCTGGCCACTTACAGCTTCAAGCTCTTCAAGCAGAGCAGCAGCCAGACTTATTCAAGCAAGGTCTCCTCTTCCAGCACCCAGAGCAAGAACAAGGTCAGCCAGAAGGACCTGCAAAACAAGGGCCTGGCCAAGTACCTCTACAAGGTCGGCAAGAACATCTCCACCGTCAAGAGTAAGAAGATCACCAATGCCAAGGCAGTCAAGAAGACCAGCAAGACAAAGAAAACTAGTAAGAAGACTAGTAAGAAATCTAGCAAGAAGTCTAGTAAAAAGTCCGCGAAAAAGTCTAGTAAGAAGTCTAGAAAAAAATCTAGTAAGAAAGCTAAGGCTAAATCTAAAAAGACCAGTAAGAAAGCTGCCAAAAAGTCTAATAAGAAATCTAGCAAGAAGAAGTAA
>SRR1919932_00347 D-alanine-D-alanine ligase
ATGACGAAAAAAACACAAGTTGGTTTGATTTTTGGTGGGAACTCCTCCGAATACGAAGTCTCAATCACTTCAGCCGGCAACATCTACAAGGCAATCGACAAGGACAAGTTTGACGTGCACCCGATCTGGATCACGAACTCCGGCTACGTGGCCAGTGAAGCTGATTCATACATGGTTCTGGAAGAGCCGGGCTACATGGTGGAAAAAAATGACAAGACGGCCAACCTTTCCAACTTGATCGAGCTGGCTTCCCGGCCGGAACTGGACGTGCTCTTCCCAATCGTCCACGGCAACCTGGGTGAAGACGGGGTCCTGCAGGGCCTCTTCCGCTTGATCGACAAGCCTTTCGTCGGGGTTGACGTTTTAGCGGCAGCCGTAACCATGGACAAGGAATTCACCAAGATCCTGGCCCAAAGAGCCGGCGTGCCGGTAGCCAAGTGGGTATCTATCAAGCGCTACGAATATGAGGACGCCAAGAACCAAAAGCTCAGCTACGACTGGGTCAGTGGCCAGCTGGGCACCAGCAACCTCTTCGTCAAGCCGTCCAACCAGGGTTCTTCCGTCGGCATCACTCACGTAACTGACGACAGCAACTACGCTGAAGCTTTGGCCGAAGCCTTCAAGTACGATGACAAGGTTTTGGTTGAAGAAGGGATCGTAGGCACTGAAGTTGAAACCGCCGTTTTGGGTAACGACCACCCGGTAGTTTCCGGGGTCGGCCGGATCATCAACGCCGACAATACTTGGTACAGCTACGAAAACAAGTACAGCACAGAATCAACCACGACCTTGCAGATTCCAGCCCAGATTCCGGCAGAAACCGCGGAAAAGGTCCAGGAAAACGCCTTGAAGATCTACCAGGTCACTGAGTGCAGCGGCATGGCCCGGGTTGACTCCATGCTTAGAGAAAGCGACGGGGAAGTCATCTTCAACGAATTGAACGCCCTGCCAGGCTTTACCAACATCAGCATGTACCCGAAGCTGTTTGAAGAAGCCGGGATTTCTTACCCAGACTTGATCACCCGCTTGATCAGGCTGGCTGAAGAGCGCTACGCCCACAAGAAGACTCTCCTGCACAAGCACGACTAA
>SRR1919932_00348 transcriptional regulator
ATGAGTGAGAAAAGTGAGCAGATGAAGACCAGTGAAGCCGCCCAGGCCCTTGGGGTCAGCGAGAACACCCTGCGCAAGTATTCGCAGGCGGTGGAGAAGGCTGCTTCACCAGCTTACTTTCCCCGGGTCAAGAATACCCGCCGCTACCGGCCGGAAGACTTGACAGTTTTGAAGCAAATGCAGGACCTGGTCAAGGCAGGGCAGAAGGTCGACCAGGCGGCCCAGGAACTTTTTGCTGGTGAAAAGGAAGAAGCACCGGTCAAGACAGCCAGGGAAGACCAGCTGGAAGCTGCCCTGGCCGCCAAGGACCAGGAAATTGCTGAACTGAAAGAGCAGCTGGCCCAGCTGACAGCGGCTAAGGCAGCGGAAAAGCCGGAAGCTGCCCTTGAGCCAGCGGCTGATGTCCTGGACCTGCCGGATTTTGATGACGGCTTTTTAGAAGATGAGCCGGTCACTCCGGAGCAGAAAAGGGCCCAGGTCGTGGCTGACATGGCCAAGAGCGACCAGGAAGTTCACGAGGAATTGCTCAGCCGGGCCCAGGAGAACGCGGCCAAGGGGGCGCCAACCTACCGGACCCTGGCTGACATGCAGCTGGCGCCCAAGAAGACTCCCTGGTGGAAGAAGATTTTCAAATAA
>SRR1919932_00349 membrane protein
ATGGAAACGAAAAAGCAGCGCATCCTGGCTGCCCTGGTCCTGCTGGCCCTGGGTCTGGGCCTGGCCGCGCTGACCTATTTTAAGACGACCGGCTACAAGAACCCGGTGGCGGTGATCACGGACACGAAGATCGAAGACCGCCTGCTGAAAAAAGAAACTGATATTTACGGCAATAAGGATGAAGAACGCCGGCAGTACCTGCACGTTCAAGTCTTGACCGGCAAGTACAAAGGGCAGACCTTTGAAACGGTCAACACCTACTACCCTTCCCAGCTGGTCACCCAGAAGTACCGGGCAGGCGAGCGGGTCTTCGTGACAGTGACTGACGGCAGCCTGGCCCTAGTTTCACCAAAAAGAGACTGGATCCTGGTCATGACCTTGGCTATTACCCTGGCCTTGATGGTGGCGGTAGTCGGCCGGCGGAGCTGGCACTTGATCGTTTCCATGGCTATCAGCTGGATCCTGTTTTACTGCTTGATCTTGTGGGACGTGGCGGTCAACGGGGCCGGGATCATCTGGATGTTCTCCCTGGCTGACATCGTCTTCTCCTTCTTCAGCCTGGCTATCGTGCAGGGGGTAAACAAAAAGATGCTGGTCACCTGGCTGGCAACCCTGCTCGGGGTCTTTGTCTCTTTTGCCCTCTGCTATGCCGTTATCAAACTGACCGGGGAGACCTACCTCAACTATGAAATGGGCGACTATGCCACCCAGGACACGCGGGGGATCTTCATGGCCCAGGCCCTGCTGGGGGTACTTGGGGCAGTTATGGACGAGGCGACGGACATCGTTTCCAGCTTGTATGAACTGATCCAGCACAAGCCCGAGATCACCGTTAAGGAGCTTTTGGCCAGCGGACGAACGATGGGGCAGGAGATCATGGGGCCTTTGATCAATGTTTTGGTCTTGATCTTCATTTCTGAAGCCCTGCCGGAAACAATCCTGTACTTCCGGGACAATAACACTATCGCGACGACTTTTAACTTCACCATGTCCTTAGGGGCGACGCAGAGCGCGGTTTCAGCAATCGGGATCGTTTTGACCATCGTTTTTGCCAGCCTCTGCAGCCTCCTCTTTTTAAAAAAGCCGCAGAAAGGGGGTAAGCAAGAATGA
>SRR1919932_00350 membrane protein
ATGAGCAGCCTTGGCGCTTTAATCATCGTTTTGGCCATCTTGATGACCATCATCGGCGGGGAAACCGGGATCCGCAGCTTCTTCAGCGTCTTGATCAACAGCCTCTTGCTGGTCCTGGTGGCCATGCTTATCTCCTGGGGCTTGAGCATTCCCATCATCACCTCGATTTTCGTGCCCCTCAAGCTGGCCACGATTATCTTCCTGGGCACCCATGACTATACCGTGGCTAAAAATTCCTTCTATGCCTCTTTGATCGTCTTATCCCTCGTCAGCGTCTTGATCTTAGGCATCCAATACCTGGCCCAAGCCGCCGGTTTGGGGCCGGAAGCCGGGGAAATCCTCCTGGGTCACTCCCAGATGCCGGGGATCAGCTACGGGCAGATCGCCGTTACCGTGGCCATTTTCTCCGCCCTTGGGGCGGTGGCGGAAGCCGCAGTGTCGATGAGTTCGGGGATTTTGGAACTGAAGAAGGCCAAGCCGGATATTACGGAAGAGCAGCTGATGAAGAGCGGGGCAGCCATCGGCTACGACGTTTTGGGCACGGCCATGAACACCATCATTTACGGGATGTTTGGCAGCTTTTTGTCCCTCTTTTTATGGTATTACCGGCTCCACTATTCCTTTAGTGAGGTAATTAATGATAAACTTTTTGTAAACGAAGCACTGATCATCATGTATTCTCTGCTCGGTGTGCTGCTGACGGTTCCTTTGGCGACCTTTTTGCTGGCCAAGGGGATGAGCCGGCAAAGTGAGGCAAAAAATGGAAACGAAAAAACTAGAGATCAAGAACTTTAA
>SRR1919932_00351 acetyl esterase
ATGGAAACGAAAAAACTAGAGATCAAGAACTTTAACGGCCGGACCTACCAGCTGCAGACCTACACGGTTAAAAGCGGCCACGCTCCCTTAAACAAGCTCCGCCCCCTGGCCATCGTCGTGCCGGGCGGCTCCTTCACCCACCTCTCCGTCAAGGAAGGTGAGCCGGTGGCCCTGGCCTATGTCAGCCGGGGCTTCAACGCCTGCGTGGTCAGCTACAATCTTTTGCAAGATGAAGGGATGATCTATCCTGATGCCGGCCTGGACGTTCTCAGCACGGTCAACTACTACCGCGAACGCGCTGCTGAATACCAGATTGACCCAAACAAGATCATGACCATTGGCTTTTCCGCCGGCGGCCATATTGTCAGCGCGGCCAACTACCTGGCTGATGAAGCTGAATACCAGGAAAGCTATGGCTATGAGGGGGACCAGGTCCGGCCAAATGCCACGATTCTGGGTTATCCTTTGACTGACGTCCACAAGGTGGCCTTTGAAATCGGCGGCCGGGCTGACGTGGCCCTGCCGCCTGACCCCAAGCTGGTCGACACGGCCCTGGGGGTAAGTCCGAAGACGCCGCCAACCTTCATCTTCCAGTCCTGGAACGACCCAATCTGCCTGCCGACCAATGCCATGGCCTATGAGGAAGCCTTGTTCAAAAACAAGGTCAAGTGCGAGGCCCACATGTTTGACATCGGCTACCACGGTTACTCTTTGGCCACTCCGGAACTGTCCACGGAAGACATTTTCTGGCAGGGCAACCCGCACACGGCCCGCTGGTTCAATTTGAGCCTGGAGTGGCTGGACCACCTTTTCTCCGGGATCAACTACGATGAAAACAAGGACAAGCTAACCCAGCTTTACCAATAG
>SRR1919932_00352 acyl carrier protein
ATGACTGAAGCAGAAATTTTTGACAAGATTGCCACTTTGATCGCTGACAACTTCCAGCTGGACAAGGACAAAATCACTATGGACACTAACTTTACCAAGGATCTGGACGCTGACTCCATCGACTTGGTAGAATTCATCATGCAGCTGGAAGACGAATTCGGCGCTGAAATTCCTGATGAAGACGCTGCTAAGATTATCACAGTCGCTGACGCGGTAGCTTACATCAAGAGCCACCAAGGCTAA
>SRR1919932_00353 phosphate acyltransferase
ATGAGAAAAATCGCGATTGACGCCATGGGCGGGGAAAACGCTCCTGAGGCGATTGTAGAAGCAGTTTTAAAGGCCAAGCCTGAACTGCCGGAAGACAAGTTTATCTTCTTCGGCGATGAAGGCAAGCTGAAAGAGCTGCTGCCAGCAGGCGATGACCAGATCGAAATCGTGGCCACCACGGAAGTTATTCTTGATGAAGATGAGCCAGTCAAGGCCATGCGGACCAAGAAGGATTCTTCCATGGTCGTGGCAGCTAACTGGGTCAGGGAAGGCAAGGCAGACGCTTTGCTGTCACTAGGCAATACCGGGGCCCTGTTAACCTGCGGGATCTTCATTGTCGGCCGGATCAAGGGCGTGGCCCGGCCAGGCCTCATGCCGACCATGCCAGTTGAATCTTCAGATGACGGCTTCAACATCATTGACGTTGGCGCTAATGCTACTAGCAAGCCGGAATACCTGCTGCAATGGGCGGAAATGGCCTCCTACTATGCGGAAAAGGTCCGTGGCGTTTCCAAGCCAAGAGTAGCTCTTTTAAACAATGGGGCTGAATTTGACAAGGGCGACGACCTGCACAAGGAAGTCTACCAGCTCTTGCAGGACAGCTCCCTGAACTTCACCGGCAACATTGAAGGGCACGAACTCTTGCAAGGGAAGGCCGACGTTGTGGTCACAGACGGTTTTACCGGCAACGCGGTCTTAAAGAGCATCGAAGGAACGGCCAGCGTCATCATCCACATGCTGAAAGACGGCCTTTTGAACAATGGTGTTAAGGCCAAGCTGGGGGCCCTGCTGGCTAAAGACGCCTTGAAGTCTGTAGCCAGCCGCTTTGACACGGCCAAGTATGGCGGGGCGGTTTTGCTCGGTTTAAACTCACCAGTCGTCAAGCAGCATGGCCGGTCAGACGCCCGGGCCGTCTACTACGCGGTTAAGCAGATCGACAAGATTTTGACTGAAGACTTAACAAATACCTTTAAGCAAGAATTCAGTAAGTAA
>SRR1919932_00354 ATP-dependent DNA helicase RecG
ATGACTTTAAACGAAGCTATTTTCAGACCGGTGACGGCCTTGAAGGGCGTGGGGGCCAAGACGGCAGAAGCTTTGCAGTCGCTGGGCATTTATAGCATCTACGACTTGCTCTTCTACTTCCCTTACCGCTATGACGAACTGGAGAACCTGCCGCTGGACCAGCTGGAGGACGGACAGAAGGTCATGCTGAAGGGGATCGTGGCCACCAACCCCTACCAGAATTACTTTGGCTACCACAAGAGCCGGGTCAGCTTCAAACTACGAATTGATCATGATATTATCATGGTCAATTTTTTTAACCAGCCATGGCTGACCAAGCAGCTGAGCGTGGGCCAGGAAATCGCCGTCTATGGCAAATATGACCTGAGAAAGCAGTGCCTGTCAGCTTATAAGCTCTTAGCCAATAAAAACAGTGATGACGGGATGGCGCCGATTTATTCGGTCAACCGGCAGATCAAGCAAAAGAAGCTGCAGACCATGATCGACCTAGCGATTGCCGAAAGCATGGATGAGATGGGCAATGCTGTGCCAGAGGACTTGCGCAAGCACTACCGGCTCATGGCTGACCAGGACCTGGTCATCGCCATGCACCACCCTAAAGACCTGACTGAGGCTAAGGAGGCCCGCCGAAGCGCTGTTTTTCGGGAATTCTTCCTCTTTCAAATGCAGCTGGCCTTGATGTCCAGCCAAAATAAGAGCCACAGTGGTTATGCCAAGCATTACGACCTGGAAGAAATCGGCAAGCTGACCAAGTCTCTGCCTTTTGCCCTGTCTCCTGACCAGAAAAAGGTGATTAATGAGATTTTTGCCGATATGTTTGTTGACCAGCAGATGCAGCGCCTTCTTCAGGGGGACGTTGGGTCCGGGAAAACCGTAGTGGCCGTGTTTGCCATTTACGGGGCAGTGACAGCTGGCTACCAGGCCGCCTTGATGGTGCCAACTGAAATTCTGGCCAACCAGCACTATCACAAAATTTCCGCCATGCTGGAAGATTTCGGCGTCCGGGTGGCCCTCTTAACGGGATCAACTAAAACCATGGAGCGGCGGGAAATCTACAAGGAGCTGGCTGATGGCAGCATTAATGTGGTGATCGGCACCCATGCCTTGATCCAAGAGCAAGTGGCCTTTAAAAAGCTGGGCCTGGTTATTATCGACGAGCAGCACCGTTTTGGCGTTGTCCAGCGCCTGGCCTTGATCAACAAGGGGGACCGGCCGGATATCCTGGCCATGACGGCGACCCCGATTCCCCGTTCATTGGCCTTGACTGTTTATGGCGACACCGCCTTGTCAGAAATCAGACACCTGCCAGCCGGCCGTAAGCCGATTAAATCCTACTGGAAGACCAGCAGCCAGCTAGATGAGGTGTATTCATTGATGCGCCAGCAACTGGCGGAAGGCTTCCAGATTTATGCGGTTACGCCCTTGATCAGTGGGTCGGAAACGATTGACCTGGAAAATGCTGAAGCCCTGCACGACAGGCTGGCCGGCGAATTTCCAGACCAGGAAGTTGTCCTTTTGCATGGGAAAATGGCGGCAGCTGACAAAGAGCAGATCATGGACCGCTTTGCGGCAGGGGAGGTCGATATTCTGGTTACTACCAGCGTGATTGAAGTTGGCGTTGACGTGGCCAATGCCAACTTGATGGTCATCTTTGACGCTGACCGCTTTGGCTTAAGCCAGCTCCACCAGCTGCGTGGCCGGATCGGCCGGGGGCAGACGCAAAGTTACTGCGTCTTTTTAGCTGACCCGAAGACAGAAGCCGGCAAGCAGCGAATGAAGATCGTGGCTGAAACTAACGACGGCTTTAAGCTCGCCGAAGAAGACCTCAAGATGCGGGGCGAGGGTGACCTCTTTGGCAAGGCTCAGTCAGGCCTGCCGGAATTCAGGACGGGCAGCGTTGTCAGCGACTACCAGGTCATGGTGGTAGCCAGGGATGAGGCCAAGCGGATCGTCCAGGCTGATCCGGACCTGAAAGCAGAAAAGTTGGCAGACCTGCAAGCTGTGATAAAATATAAGAAAATCGTACAAGCGAGAGCTTAG
>SRR1919932_00355 DAK2 domain fusion protein YloV
TTGGTTTTAAGTGAAATTAGCAGTAAAGAATTTAGAGACATGGTGCGGATTGCCTCTCACCGGATGAGCAAGAACGTGCAATTCGTCAATGATCTAAATGTTTTCCCAGTTCCTGACGGCGACACTGGCACGAATATGAATCTCACGATGGAAAGCGGGGCTAAGGCCGTTTCCGAAAACACAAGCAGCAGTGTCGGCGACTTGACCGAAAGCCTGGCTAAGGGGATGCTGATGGGCGCGCGCGGCAACAGTGGGGTTATCACCTCCCAGCTCTTCCGCGGCTTCTACAAGGCAACTCAAGGCAAGACCACTTTGAACGCCCAGGAATTGGCAAATGCCTTTAGCAATGGTGTGGCTACTGCCTACAAGGCTGTGATGAAGCCGGTTGAGGGGACCATCTTGACTGTGGCCCGGGTCGGCGCTCAAGCAGGTGCTAACAAGGCAAATGAAACCGATGATGTAGAAGAAGTAATGCAGGCGATCGTTGAAGGCGCCAAGGAAGCTTTGAAGAGCACTCCTGACCTGCTGCCAGTTCTTAAGCAAGTCGGCGTGGTTGACTCCGGCGGCCAAGGTCTGGTCTTTATCTATGAAGGCTTCCTGGAAGGCCTTTTGGGTGAAAACTTCGATGACAAGTACGTGCCAGATGCTGACGACATGAACTCCTTGATCAACGCTACCCACCACCAGGCAGTGCAAGGGCAACTGGCAACTTCCGACATTGCCAACGGCTACTGTACTGAAATCATGGTTGACCTCAAGGCTGACGTGCCAAACAAGAAGCCATTCGACCTGGAAGAATTCAGAAGCTACCTGTCAGAACTGGGTGACTCCCTCTTAGCAGTTTCTGACGGAGAAATCGCCAAGGTTCACGTTCACACTGAATACCCAGGCAAGGTCTTCCTTTACGGGTCACAATTCGGCCAATTGGGCAAGATCAAGATCGACAACATGCGGATTCAGCACGAAACGATCGTTGACAACGGGCAAGAACAACAAGAAAGCGTTGACTTTGCAGTGATCGCAGTGGCTTCCGGCAACGGTGTCCGCAAGCTCTTTGAAAGCGAAGGGGTCAACCGGATCATCTCCGGCGGGCAAACCATGAACCCTTCAACTCAAGACATCATAGACGCCATCACCAAGTCTGGCGCCAAGCAGGCGATCATCCTGCCAAACAACGGCAACATCATCATGTCCGCCAAGCAGGCTGCTGAAGTTGCTGAAATCCCAGTCGGCATCGTGCCTTCCAAGACTATCCAGCAAGGTTTAACTGCTATGCTGGCCTTCAACCCGGAAGCCAGTGTTGACGCGAACGTTGAAGCCATGACTGATGAACTTGGCTCTGTCAAGTCCGGTGAAGTAACCCGGGCAACCCGTGACACTGAAATCAACGGCGTTGAAATCCACAAGGGCAACTTCATTGGTATCGTTGATGGCACTATTGTGGTTGACGATGTTGACCCAATTGTCGCAACTGTCGCTATGACAGAAAAGATGCTGGATGAAGACTCTGAAATCGTGACCGTGATGTACGGCAGCGATGCTACTGAAGAAGAAGCCCAGGCAGTTGTTGACCGCCTGGAAGCAGCTCACGAAGATGATGACTGCGAATTCGAAATTCACGACGGTGGCCAGCCAGTTTACAACTTCTTGATTTCTGTAGAATAA
>SRR1919932_00356 hypothetical protein
ATGGCTGTTAAAATCAAGACAAAGTATGGTTTGATTGATATTTCAAACGGTGTAATTGCAACTGTTGTTGGTGGTGCAGCTACGTCTAACTATGGCGTTGTCGGTATGGCATCCAAGAATGCCATCAGAGACGGAGTCGACAGCATTTTGAGCCGGGCAAACTACAAGCGCGGCGTCGTTGTTAAGTCTGACGAAAATCAAGTAACTGTTGATGTCTATATTATTGTTGGCTACGGCTTGAAAATTTCTGAAGTAAGTCGTAATGTACAAGACAGTGTCAAATATAACTTAAGAAGCCAGCTGGGGATCGACACCAAGGCGGTCAACGTCGTTGTTCAAGGTGTAAAGGTTCTCGACGACTAG
>SRR1919932_00357 50S ribosomal protein L28
ATGGCAAAAGATTTCGTAACCGGTAAGAAGACCACTTTTGGTAACACGCGTTCACACGCTTTGAACTCATCAAGTCGTTCTTGGAAGCCAAACCTTCAAAAAGTTCGCATTCTTGTAAACGGCAAGCCTAAGCGCGTTTGGGTTTCAACCAAGACTTTGAAGTCTGGTAAAGTTACCCGTGTCTAG
>SRR1919932_00358 multidrug ABC transporter ATP-binding and permease protein
ATGACGTTAAAATATGCCAGCAAGTGGAAGTTGCTGGTCTTTGCGGTCTTCGCCGCCGCAAAGGCACTGCAGGCGGTTTTTATCGCTTATGTCTTCCAGGAATTCATTAATTTTGCCGGAAATCCTAAGGGGAGTTTATTACAATTAACTATTAAAGCAGTTGTGGGTATTGTCCTTTTTGCCTGCCTGGCCTTAATCTACCAAATTATGCAGGCGAATATAATTAAGGACGTCAACCTGAAGATCAAGGAGCAGGCAACAAAATATTTGTTGTATTCAGATAATTCTGATCCCAAATTTGACCTGTCCTTTATGACTAATGACCTCAAGCAAGTGGAAAGTCACCGGGTGGAAGCTGAACTGGACATTATTTTCAATGGCCTGCAGTTCATCGCGGCATTTGCGGCAGCCATGCTGTCTTCCTGGGCTTTATCCTTGATTTTCCTGGTCGCCTCCCTGGCTCCCGGCCTTTTGCAGAATGTTTTCGGGCCAAAAATTGAATCTGCTTCTTCTGCCTGGGAAGGGGAGAACAGCAAATATACTGAGGCAATGACGGACACCATCAATTTTTCCGCTTTTGCCAGACTCTATGACGCTGAAGACAGTATTTACAGCAGAATGCTCCACTACAGCCAGAGAATGGAAACGGCCCTGGCCAAGATGAAAAAGGCGGAAATGGTGACGACAGAAGTCATCACTTCCTTTGCCTACGTCTGCAGCATGATCATTCCTTTCAGCCTGGGGATCTACTTTGTGACTCAAGGGCAGATCACTTTGGGGACCTTCATGATGATCTCCCAGCTGGCCAACAACTTTATCAATCCGATTGTCGGTATCTTTTCTTCGGTCAATGACATTAAAACCAGCAATCCGATCTGGGAAAAGTTTACTGCCGTGGCAGATTTTACAGCAAAAGAAAGTGCTGCGGACCGGGATGAATTTAAGGAACTCTCTTTAGACGATGCAAGTGTGCAAAGAGGGGACCGGAAGCTTTTAAACAATCTCGATTTGACTGTTAAAAATGGTGAAAAAGTCTTGCTGGAAGCACCGTCTGGCTGGGGCAAGACAACCTTGCTTAACGTCTTGGTTGGCCGGATCAAGCTGGCAGATGGACATTACGAGATCAACGGTGAAGACGCCAATGGTGACTGGAGCAAGGACCACGAGTACTTCTCCTTTGTCCAGCAGAAGCCTTATATTCTTGATGATACGATCGAATATAATATCTCTTTAGGCAGGGAAGTCAGCCGGGAAGACCTGCTGGCAGTTTGTCAAAAAGCCGGTTTAACCAGCTTGATTGAGGAAAAAGGTCTAGACTACCAAGTCGGAAAAGAAGGCAAAAACTTGTCCGGCGGTCAGGGGCAGCGGCTGGAAATCGCCAGAGCTCTGCTGGCCAAGCGGCCGGTGTTATTGGCCGATGAAGCGACCTCAGCCCTGGATCCCCGCTTGTCCAAGCAAATTCACCAGACAATTCTACAGAATTTCCCTAGCACCGTAATCGAAGTAGCTCACAAGATTTCAGATGAAGAAATAGCTATGTTTGACCGGGTGGTCAATTTAGCCGAGAAGTAA
>SRR1919932_00359 hypothetical protein
TTGACTAAGGCGCAAGAAGCAACTTCTGCCGCTCAAAAGGCGGCTGATGAAAAGGCTGACGCGCTCAAGGCAGCTGACGCTAAGCTTGCTCAAGCCAAACAAGAACTCGCAAGCGCCGAAAGCAACCTGTCTGCTAAGCAAGCAGCTTTGACTACGGCAAATGAAACTCTTGCTGCGGCTAAGCAGGAAAAGACTGCTGATGCCCAAAAAGCTGCAGAAGAAGCTTCTGCCGCAGACAAGGCAGCACAAAGCAAACTGGCCAGCGTAAACAAGGAAGCTGCGGAAAAGGCTGCTATTTTGGCTGAAGCAGAAAAGACTGCTACCAGTGAAAAGGCTAAGTTGGCAGAACTTGATGCTGCCGCAGAAGAAGCTGCTCAAGCTGAGGTGCAAGCCAACTTGGCAAGCAAGCAGGCTGATTCAGCTGTCGCGGCTAAGGCCAAGGAAGCAGCGGATTTGGCACTTACTGAAGCTAAGAAGCACCTGGCTATTTTGGAAGCTTTGGAAGAAGCAAACGAGCCGAGCGAAACTCCAACCACTCCAAGCGAAGACGAACTAGCTGAAACTCCAGCAGAAGACGAACCAAGTGAAAGTCCGGCTGACTCCGGGGAAACCGAAACTATCGTAATTCCGGCAGGCAAGACTGAAACCAAGGCAACTGGCAAAAAGCAAGCGCAACTTTGCCGCAAACCGGCGAAAGCCAGGATAAGTCTGCCTTTTTGGCAGGGATTGTGGCACTGCTGGCCAGTGCAAGTTTCTTCGTCTTTGGCCGGCGTAAGAAGAACGAAAAGTAATTGTATAAACAATAAAAGTATTGGAAAAGCGACTCTATTTCAGAGCCGCTTTTTGTATACAGCTTTTTTAAAAAATTAG
>SRR1919932_00360 hypothetical protein
ATGGCAGACTCAGCCAGAAGGCGCAAGAAGCCAAGACGGCTAATGATGAAGCTCAAGCAGCTTTGGCTGACCAAGAAGGCAGTTGACCAGGTAAACGGCCAGGTTAAGGAACTGACTGACGCGGATAATGAGGCTAAGGCTGCCAGCGACACCGCAAATAAAGACTTAGCTGCAAAGAAGGCAGCCGAAAGCGAAGCTGAGCAGGAATACCAGGCTTTACCTAAGGTAGTGGCCAATGACGCCTTGAAAAGGAAAAATTGA
>SRR1919932_00361 thiamine pyrophosphokinase
ATGGACGCGGCAGTGTTGCTTGGCGGGCCAAAGGAAGAATGGCCGGCTGATTTGAAGGAGCAGCTGAAGCAGGCGCAAGCCAAGGGTGACCTTTTGATTGGGGTCGACCGGGGAGCGCTGCTTTTACTGGAATTAGGCTTTAAGCCGGATTTGGCAATCGGAGATTTTGACTCGCTGAAGGCTGATGAACTGGCCTGGGTAGAAGGTATGGTCGCGGATATCCGCTATTCGGTGCCCAAGAAGGACTGGACTGATTCAGAATTGATGCTGGGGATTGCTTTTGGCGATTATAAGATTGACCAGCTAAAGGTTTACGGGGCTACTGGCGGCCGGCTTGACCACGCGGCGATCAATGCTTTTGGCATTTTGAACCCGGACCTGCGTAAGTATGCCAACCAGCTGACCTTGATTGACAAGCAGAATCTGATTTTTTACCGGCAAGCTGGCAGCTACGAGATGAAGAAGCAGGACTATAGCTACTTTGGGGTGACCTGCCTTCTGCCAGTAGAAGATTTGACGATTGAGGGGGCCTTGTATGACCTGGCTCCTTATAGCGGTGACTATCTGCGGTCCTTTACCTCTAATGAGTTTTTGCCGGATAAGGATAGCTGCCGGTTATCCTTGAAGAAAGGCTTAGTAGCGGTTGTTTATTCTAAAGATTTAGACCGCTACCAAATGGCTTGA
>SRR1919932_00362 ribosome biogenesis GTPase RsgA
ATGGCAGAAATAGTACAAGGAACGGTAGTTTCTTTAATTGCCGGCTACTACGACGTGCAAACGCCGGCAGGAGTCGTGCGGACCAGGGCCCGGGGCGTTTTCCGCAAGAACCGGGAGAAGCCCCAGGTCGGTGACAGCGTGCAGGTCAAGCTGGATGAACAGGGCTTGGCTTATTTGGTGAAGATTCTGCCCCGGAAGAACCGGATCGGCCGGCCGGCGGTGGCTAATGTCGATCACGTGCTTTTGGTCATTTCGGCAGTTGAACCAGATTTCTCCACCGCTCTCCTGGACCGCTTCCTGGTCTTTTTTGCCTGGCAGGGAGTAGAGGTAACGATCTACCTGTCAAAGAGCGACCTGCTGGAAAAGGAAAAATTGGCAGAAATTGAAAGCCAGCTGGCTTACTACCAAAAGATCGGCTACCGGGTTTACCTGGACAGGGAAAGCCTAGCAGCAGAACTTCCCAAGCAGATCGGGGAAAGCGAGATCTGGACTCTGGCTGGCCAGTCAGGGGCGGGGAAGTCAACTTTGCTGAACTTTATCAAGGAAGACGCGGGCCAGGCGACGGGCGCGATCTCAACCAGCTTGAACCGGGGAAAACATACAACCCGGACGGTTACCCTTTTCAAATTAGGGGAAGGCTTTTTAGCAGACACGCCAGGCTTTTCGGCAATTGATCTGACGCCGATCAAACTGAATGAACTGTGTACGTATTTTAAGGAATTTAAGGCCTTGAGTACGGGCTGCAAGTTCCGGGGCTGCCAGCACCTGCATGAACCGAAGTGCGCGGTCAAGGACCAGCTGGCTCTAGGTGAAATCGCTGCTTTCCGCTATGATGACTATCTGGCCATGCGGACGGAAATCGAGGAAGGCCGGATGCCGGAATATTTGAAGTGA
>SRR1919932_00363 serine/threonine protein kinase
GTGATCAATAAAGGTTATTTGCTTGGAGACCGTTACCGGATCGTCGACACCCTGGGTGAAGGCGGAATGGCCAACGTCTACCTGGCTGATGACATAATTTTGAAGAGACAGGTCGCCGTTAAAATTATTCGCCTTGATTTGCAGAAGGACTCCCAGGTTCTGGCCCGCTTTCAAAGAGAGGCCCTGGCCACTAGTGAACTGAGCCACCCTAATATTGTCTCTGTTTTTGACGTGGGGACCGACCATGGCCTGCCATATATGGTCATGGAATACGTGAAGGGACCTGACTTAAAGGACTATATCCGGGAAAACAGCCCGATTCCCCTCCCGCAGGTCATCAAGATCATGGACCAGATTTTGTCAGCGATGGAACTGGCCCACAAGCACAATGTGATTCACCGCGATTTGAAGCCGCAGAATATTTTGATGGATGAAAAAGGCAACATCAAAATTGCTGACTTCGGTATCGCGGTCGCCTTGAACCAAAGCGCGATCACCCAGACCAACTCGGTCCTGGGTTCGGTGCACTATATGTCTCCTGAGCAGACCCGGGGCGGGATGGTCACCAAGCAGTCTGACATCTATTCTTTGGGGATCATCCTGTATGAGGCCTTGACTGGCCATGTGCCTTTTAATGGGGAAACGCCGGTGGCAATTGCCCTCAAGCATGCTGAAGACGATATTCCGTCCCTTAGAAAGCAAAACAAGGCCATTCCCCAGGCCCTGGAAAACGTTGTTTTAAAAGCGACGGCCAAGGATCCGCGGGACCGGTATGCTTCCGTGGCTGAAATGAAGGCAGACCTGGACTCCAGTCTGGATCCGAGCCGGGCAGGCGAAGCAATTTACCGGCCAAGCCACGGCAATAATGATGAAACTAAGATCCTGCCAGCCTTGAACGGCAAGGTCATGCAGGCTGAGAAGGCCAAGGAAGGCAAGGCTGAAGAGCCAAAGAAGCGGTCTTTCTGGGCTAGTATCAAGAAATATAAGTGGTGGTGGATTGGGTCATTATTCCCGGTTTTTGCCATCCTGCTCTTCATGTTTTTGGCAGTTGGCCATAACAATGTCCGGGTGCCGGACGTCGTGAACATGACGGAGAAGGCAGCCAAGACTTCTTTGAAGAGCTCGGGCCTGGCAGTAGGCGCTGTTAAGCGGACTTACTCCAGCGATGTTAAAAAAGGCAAGGTGATTTCGACCACGCCGAAGGCCAACAGTCCCGTTGACAAGGGGGAAAAGGTCAACCTGCTGGTGTCTAAGGGACCAAACTTGACCAAGGTGCCCGATGTTGAGGGCCTTTATTTGTCGATCGCCAAAAAGAAGCTGAACAAGTTGGGCTTCAAGGTCAAGAGCCGGAAGGCGCCATCAAATGAGTACCTGCCAGGCTTGATCATTTCCCAAAGCGTCAAGGCCGGCCGCAAGGTAGATGCCTCTAAGACAACGATCACTTTGGTGGTGGCCGTGGCTTTAGAAGACCAGCCTAAGCCTTCAAGCTCCTCCAGCAGCAAGAAGGCAACTTTTAAACTGGCCGATCTGACGGGCAAGAGCCTGGAAGACGCCCAGTCTTACGCCAAGAGCAAGAAGCTCAGCGTCAAGGTTGAGAAGGACTACTCGGACAGCGTGGACAGCGGTGACGTGATTTCCACTGATCCTGCCGCTGGCAGCGAGGTCTCTGAGGGTGATACTTTGACGATTACGGTCTCCAAGGGGGCTGAGAAGAAAGAGGTCAAGAAGACCTTCACGGTTGACTACCAGGCTGCAGAGAGCTCATCAAGCTTAAGTGAGTCAAGCTCCAGCTCTTCCCCCAGCCAGGGCAACCATGTCCGGATTTATATCCAGGATGACGACCACAGTCTCGGCAATATTTACCGGGACCTTTACATCACCAAGGACACGGACTTTACGATCACTTTTTCTGTTACTAAGGGTGACGGTAAGATCAAGATTGTCCGTGATGACCAAACTGTAGTTGATGAGACGATTTCAGCAGATGACAGTGAAAGCGGGAATTAA
>SRR1919932_00364 serine/threonine protein phosphatase
GTGATTAAAACGGCATTTGCTTCAAGTATTGGTAGAGTTAGAGAGAGCAATCAAGACTTCGTGCAGATTTTTCAGAATCGCGTTGGGGTAACCATGGCCATCGTCTGCGATGGGATGGGGGGCCACCAGGGCGGCGACGTTGCTTCCACGATGGCAGTCAGCCACCTGGGCCACAATTTCGCTAACACCGACCTGCACGACAAGAATCTGGCCAGAAAATGGCTGGACGTCCAGCTGCGCTCAGAAAACGAAACGATTCTGAAGGCCGCAGACCGCTTCCCGGACTTGAACGGGATGGGCACGACGATTGTCCTGGCCATGTTCTTTGACCAGGAAGTCTTGATTGCCCACCTGGGTGACTCCCGGGCCTACAGCTACTCTGAAGGGAATTTCCGCCAGATCACTGAAGACCACTCTTTAGTCAATGAACTGGTCAAGATGGGGCAGATCACCAAAGAACAGGCGAAGACCCACCCGCAGAAAAATATCATTACGCAAGCCTTAGGCGTTTCAAGCACTATTGATCCGGAATATAATGAACTTGAAATGAAGACTGATGACGTGCTCCTTCTCTGCACTGACGGCTTGACCAATTCCCTATCGGATCCTTTGATTCAACAGGTTTTGGCGACCAAGGGCCTGAACCTGCAGGAGAGGTGCAACAAGTTGGTCAATGAAGCCAATCGTCTGGGCGGCGGCGACAATATTACCGTCTGCCTGGCCGTAAATGAGGAGGATGGCGCGAGTGATCAATAA
>SRR1919932_00365 16S rRNA methyltransferase
ATGAAGACTAACGCCCGCACCGTGGCCCTAGACACCTTGATGAAGGTGATTAACCAGGGCTCATATTCAAATATCAGCTTAAACCACGCGTTAAAGGCGGCTAAGCTGCCGGGTGAAGAGAGCCGGCTGGCCACCAACCTGGTCTATGGGACCATCCAATACCAGCTTTACCTGGAATACCAGCTCAAGGACCTGGTCAAGGCCCGGCTGAGAGAGCCATATATCAAGCCCCTTTTATTGATGTCGGCCTACCAGATCTTCTTTTTAGACAAGGTACCAAACCGGGCAGTCTTAGACGAGGCCAACAAGCTGGCTAAGGCCTATGGCCGGCCAAAATCTAGCGGCTACCGCCTGGTTAACGGGATTTTGCGCTCGCTTTTACGGCGAGGAGAGGTCCTGCCGGAAAAAGACGCGCCAGACTATCTCAGCGTCAAGTGCAGCATGCCCCTTTGGCTGAGCGACTATTTCGTAGCCAACTGGGGCAAGAGCAGGGCAGAAAAAATCATGGCCAGCTTCAACAGCAAGGCGAAAAACGAAATCCGGATTTCGGCTTTGGCTGATGAAAAGCGGGTCGTCCGGGACCTGGACCGGACCCATTTTGCCCCTCAGGAGTCGCCTTTGGCCAGCCGCAGCTATGCCTTAAGCCGGGGCGGGATCGTGATGACCGACTTTTTCAAAGATGGTGAAGTGACGGTGCAAGACGAAGCAGCCAGCCTGGTGGCAGAAGCCTTTGACTTTAAGGGAAATGAGCAGGCCCTTGATGCCTGCAGCGCCCCAGGCGGCAAGACCATTCAAATAGCTGAGCAATTGCCTGACGGGCAAGTGACTGCTCTGGATATCCATGAAAAGAAATTGCGTCTGGTCAAGGAAAATGCCGCCAGAATGCGGGTTGCTGACCGGGTCAAGGTCAAAGCTTTGGACGCGCGGAAGGCAAGGGAGTATTTTTCCGGGCAAGAATTTGATAAGATATTGATAGACGCACCATGTTCCGGTCTGGGACTGCTGCGCCGCAAGCCGGAAATCCGCTACACGAAAACAGCGGAAGACATCAGCCATTTGGCTGAAATCCAACTGGACATTTTGAACGAAGTATCCGGCTTGCTGAAAAAGGGCGGGGAGTTAGTCTACTCCACCTGCTCAATCTCTGTAGAAGAAAACGAAGAAAACGTGCGGAAATTTTTAGCCGCGCATCCAGATTTTGCATTGAAACCATTTGAAACGGCCAAGATCTCCGCGCCCAAGGGGATGCTGAAGATCTTGCCCGACAGCTACAACAGTGATGGATTTTTCATTGCCAAGTTTACGACAAGAGGTTAG
>SRR1919932_00366 methionyl-tRNA formyltransferase
GTGAATTCAGTAATCTTTTTAGGAACGCCGCAATTCGGCGCTATAGTTTTGGAAGGCCTGATCAAGGCCGGTTATCATATTTTGGCCGTGGTCACCCAGCCGGACAAGAAGGTTGGCCGCAAGCAAAAGGTCGTTTACTCCCCGGTCAAGGAAGTGGCTTTGGCCAACGACTTGCCTTTATACCAGCCAGTCCGCCTGTCCAAGTCAGCTGAACTTGACGAATTGCTGCAGCTTGACGCTGATTTCATCATCACCGCGGCCTTTGGCCAGTTTTTGCCGACCAAATTCCTGAAGTCCGCTAAGATCGCGGCTGTTAACGTGCACGGATCCCTTTTGCCGAAATACCGGGGCGGGGCACCGATCCAGTATGCGGTCAGAAACGGGGATGCGGAAACCGGGGTCACCATCATGGAAATGGTCAAGGAAATGGACGCCGGCGACATGTATGCCCAGGCCAGCCTGCCGATCAGACCAGATGAGACCAGCGGGGAAGTCTTCGAAGAACTGGCTCCGCTTGGCCGGGACCTGCTTTTGGAAACTCTGCCAAAGATTGCCAGTGGCGAAATTGTCAAAAAGCCGCAGGATCCAAGCCAGGTAGTCTTTTCCCCAACCATCAGCAAGGCTGAAGAAAGAATTTCCTTGAAATTGACGGCCAAGGAGGCCAAGGACTTGATCCGGGCCCTCAATCCGGACCCAGGCGCCTACCTGGTCATCAAGGGCCAGCGCTTAAAGGTTTGGAAGGCAGAAGTGGCTGACGACAACACCAGTCTGCCAGCTGGCCACCTTTTGACCAACCAGGACCGCTTTGCTATCAGCTTTGCCGGCAACACGGTCTTGAACCTGCTTGAAGTCCAGCCAAATGGCAAGAAGGCCATGGCCATCAAGGACTTTTTGAATGGGCAGGGGAAGAAGTTTGCAGCAGGAGAAAAGATCGTAGATGAAGACTAA
>SRR1919932_00367 primosomal protein N'
TTGATCGCAGAAGTTATTGTCGATGTGGCCGCCCACCAGACTGACCGCGTTTTTGAATACCATATCCCTGATGACCTGGAAGTTGAAATTGGCAGCCGGGTAGTGGTGCCTTTTGGCCGCCGCAAGGTCCAGGGCTTTGTCGTCGCCGTGAAAAAAAGCAGCGACTTTACCGGCCAGTTAAAGGACCTGCTCTTAGTGGTCGATGAAATGCCGCCTTTGACTCCCGAGCTGGTCGCCCTGTCCAGCGACCTGGCCCGGCAGATTTTTGCCTACCGGATCAGTATCCTCAAGACCATGCTACCGGGGGTAATGCGGGCCAATTACCGGAAAATCCTCCTGCCAAACAGCCCGCGGGCAGAGCAAATGCCTCTTTTTGCGGGAGACCCGGTGGATTTGGCCAACTTAGAAGAGCCGCGTCTGATCAAGCTGGTCAAGCAGCTCCTGAATAAGGGGGAGGCCAGGATAGAATACCTGGTTGAAAATAAGGCGAAAAAGAAGCTGGTTTCAGTCTACTATCCGCTTCTGTCGGCCGCTGACTACCAGGAGATTTTTTTAGAAACTAGAAAAACGGCCAGCCAGCAAAGAAAATTGCTGGCTGATTTGGCCGGGGACTTTGCGGCTTATCCTAAAAGCCGGGAAGAATTGACCGGTCTGGGCATCAGTTCAGCAACTTTAAAAACGGCGGTCAGCAAGAAATGGCTGCAGGAAAAAGACCAGGAAAAATACCGTCGGCCAACCAAGCCGGTTGCTCCCAGCCGGCCTTTAGACCTAAATGACGAGCAGGCCGCGGCCTTGAGCCGGGTCAGTCAGGACATCAAGGGCCGGGTCAGCCAGACCTTTCTTTTAGAAGGAGTGACAGGGTCCGGGAAAACCGAAGTCTACCTGCAGGCGATCAGCCAGGCCCTGGCCTTGGGCAGGACAGCCTTGATGCTGGTGCCGGAAATTTCCCTAACCCCCCAGATGGTCAAGCAGGTCCAGGCCCGCTTTGGCCAGCAGGTGGCGGTTTTACACTCGGCCTTGTCGGAAGGTGAGCGCTATGACGAATGGCGCAGGATCCGCCGGGGGCAGGCCCAGGTGGTCGTAGGCGCTAGAAGCGCGGTTTTTGCCCCCTTGGACAATTTAGGCCTCATCATTATCGATGAAGAGCATGAAGGCTCCTACAAGCAGGACAACAATCCCCGCTACCATGCCCGGGACGTGGCAATTTGGCGGTCCCGCTACCACCACTGTCCCTTGATTTTGGGTAGCGCGACGCCGTCTTTGGCCAGCCGGGCCCGGGCCCAAAAGGGGGTCTACCAGCTTTTGCGCTTAAAAAAGCGGGCCAAGAGCCAGCCTTTACCGCGAGTCGACCTGCTTGACTTAAAGCACGTGCAGTTTGCCGGCAGCCAGTTTGACATCTCCTGTCCATTGGCTGAGGCGATTCAAAAGCGGCTGGAGAAAAAAGAGCAGGTAATCCTGCTTTTAAACCGGCGGGGCTTTGCCAACTTCATGCTCTGCCGCAATTGCGGCTTTGTTTTAAAGTGCCCTAACTGTGACTTGTCCTTGACCATGCATAAGGACACTTGGACTATGCAGTGCCACTATTGCGGCTACCAAGAAGCTGTTCCGGAGATTTGTCCCAACTGCCGGGACCGGCAGATCCGCTTTTTGGGGACGGGGACGCAGAAGGTGCAAGAAGAGCTGGCTGAGCTTTTTCCGCAAGCTAAAATCCTCCGCATGGACGTGGACACGACCCGGAGGAAGGGCAGCTATGACAAGATTTTGACCAGTTTTGGCCAAGGAGAAGCCGACATCTTGCTGGGCACGCAGATGATCGCCAAGGGCCTGGACTTCCCTAATGTAACTTTGGTTGGGGTAATCAATGCCGACACTGGTTTATGGCTGCCCGACTACAACGCTTCTGAGCGGACTTTTGAGCTGCTCACGCAAGTAGCTGGCCGGGCAGGGCGGGCCGACAAGGAAGGGCAGGTCATGATCCAGACTTATAATCCGGACCACTACGCTATCCACCTGGCGCAAAAGCAGGACTATGAGCTTTTTTACGCTAAAGAAATGCGGGTCCGCCATGCCAGCGACTACCCGCCTTACTTTTACACGGTCCTGGTCTCCGTTTCAGCCAAAAATGAGCAAAACGCGGCCCGGGAGGCTTTTAAAATCAAACGGCAATTGCAGAGGGAATTGCGGGCGCCGACTATTATCTTAGGGCCGGCTCCGGCAACGATCAGCCGCTTAAAGAGCCAGTATTATTACCAAATACTGGTAAAATATAAAAGAGAAAAACACTTAAATGAGCTCCTGCACCAGATCCAGGACCAGGCCCAGGAAGTGAAAAAGTACGGCTTGACTGTTGAGATCGATTCAGAGCCAGAGAGAATTATGTAA
>SRR1919932_00368 DNA-directed RNA polymerase subunit omega
ATGAGAATTACCTATCCATCAATTGACAAGCTGCTAGATGAAGTTGATTCAAGATACTCACTGTCAGTTTTGGCTGCCAAGCGGGCTGGTGAACTGGAAGCCGGCAAGCCGGGCGCTTTGGACAACTACCACAACTTGAAGCCGGTCGGCCAGGCATTGGAAGAAATTGCTGCCGGCAAGATAACGATTGACGCTGACCCTCACGGTGAAGCCAACGAATAA
>SRR1919932_00369 guanylate kinase
ATGGCAGATAAAGGATTACTGTTGGTTTTGTCCGGCCCGTCCGGGGTGGGCAAGGGAACCGTCAAAAGCGCAATTGTTGAACACAAGGTCTTCCCCTTCGAATACTCAGTCTCAATGACTACCCGCAAGCCCCGTGAAGGCGAAGTGAACGGGAAAGACTACTACTTCGTGACCAGGGAAGAATTCAAGCAGGCGATTGCTGACAATCAGCTGCTGGAATACAACGAATACGTCGGCAACCTTTATGGGACCCCTTTGGGCCCGGTCAAGGAAATGCTGGCTGCCGGCAAGGACGTCTTGCTGGAAATCGATGTCAACGGGGCCAGAACGGTTCGCCAACAAATGCCAGATGGCGTCTTTATTTTCTTGACGCCGCCTGACCTGCACACTTTAAGAGACCGGCTGGAACACCGGGGCACGGAATCCGAAGACGTGATCCGGGGCAGAATTACCCAAGCGCGCAAGGAAATTCTGGTGATGCAGGACTATGATTACGCGGTAGTCAACGACACTGTCGCCAACGCCGTCAACCACATTAAAGCAATCGTTGACGCTGAACACGTCAGCGTCAAGCGCGTGATCGACGATTATCGGAAAATGGTTAAGGAGGACTAA
>SRR1919932_00370 hypothetical protein
ATGTCCAAATTTCAAAACTTTGCCAGCCGAGCCGCTCAGCCCCTTAAGAAGGCCTTTCGCTATCTCTTTGCTTATGACGAAGACCGGCTCACCCTCCGCGGCGACAGCCTGGCAGTTAACTTAGCTAAATTGCAGCTGGCCTTCTTGAAGAGGCAGTATCTCCTGGTCACCTTAAATGACGGCAGCTGGCGGGTTGGCAAGATCACCAAGCGGATTTCACCCAGCCGCTTCGTTTTCCGCGATGCCGACAACAAGATTTTTTACTTGCTTGACATTAATGACATTTTAACAGTTGAGCTGCCTTAA
>SRR1919932_00371 oligopeptide ABC transporter substrate-binding protein
TTGTTTGACGGCATCAAGAATGCCACGGCTATTACTGCCGGCAAGAAGCCTTTATCCAGCCTGGGCGTGAAAGCAGAAGGCGACTACAAGCTGGTCGTGACTTTGGACCGGCGGATTCCTTACTTCAAGAACTTGATGGCTTTCGCCCTCTTCTTCCCGCAGGCAGAAAAGGCGGTCAAGAAGTACGGGTCCAACTACGGGACGGCTTCAAAGTACATGCTTTATAACTGGCCGTATATGCAAAAGGGCTGGACGGGGTCCAACCTGTCTTGGAAGATGGTCAAGAATAAGTACTATCTCAACTGCTTACTTGATCAGACCGGAAATCAATAA
>SRR1919932_00372 oligopeptide ABC transporter substrate-binding protein
ATGAGACCGATTAAGAATAAAGCGCCGCTGGCTCTGGCGGCCTTGTCAATGATTATGCTGACGGCTTGCGGCAAATCCAATAGCCAGGCCAGCAAGAAGCAGGAATTTTTCTGGTCGACTTCAGCTGAAATTTCGACCATTGACATATCCAAGGCCAGTGATACTGTCAGCTTTGACCAATTGCGGAACACAATGGAAGCCTTGTACCGGACCGGGAAAAATGGCAAGTTGATGCCGGCCCTGGCCACCAGCAGCACGGTTTCCAAGGACGGCAAGACCTATACCTTTACTTTGCGCAAGTCCAAGTGGAGTGATGGCAGTCCGGTCACGGCCAAGGACTTTGTCTATTCCTGGTGA
>SRR1919932_00373 DNA repair protein RecN
ATGCTTGTCGAATTGGATATCCAGAATTTCGCTATCATTAAGAGTCTGAAAATCAAGTTTCAGCCGCAAATGACAGTCCTGATCGGGGAAACCGGGGCCGGCAAGTCCATCTTGATCGATGCTTTGTCACTTTTGCTGGGCCACCGGGCCCAAAAAGAAATGGTCCGGTCTGGCCAGAGCAAGGCAGTGGTGACGGGCCTTTTTACCCTGCAAGATGAGGAAATGCGGGAAGTTGAACAAATCGCGGCTGACTACGGCCTGCCGATGGACGGTGATGACCTGATCATCAGCCGGGAGATTTCCAGCAAGGGCCGGAACGTCATCCGGATCAACGGGCAACTGACCACCATCACCGCTTTGGCAAAAATTGGTGAGTACCTGGTCGACATCCATGGCCAAAACGACCAGCAGATGCTGATGGACCAAAGCCGGCAGATTGACCTGGTCGATGAATACGCAGGCAAGGACTTCAAGCCCCTTTTAGGCAAGTACCAGGCTGAATACCGGACCTGGCAAAGCCTTAACCAGCGCCTGGAGCACCTGCGCCGGGACAGCCGGGAACTGGCCCAGCGCCAGGACATCCTCCAGTTCCAGGTCGAAGAGTTGACTCAAGCGGATTTGACGGATGAGCAGGAAGACCAGAACTTGGAAGACGAGTTCAACAAGCTGAACAATTACCAGAAGATTGCTGAATCCGCCAACTTCATGATCCAGCTTTTTGACGATGACGAGCATGGCTTAACCAGCCTGCTGGGGGATGCCCAAGGAGCGGCAGAAGATTTGGCCGACCTGGACAAGGACTTCAAGAATGTGGCCCAGTCCATTACTGACGGGGTATATTCGCTGAGCGATGCCCGCTCAGAACTGGGCGACATCATGGACAGCTTGGAATTTGATGAAGAACGCTACCAGTACGTGCAAAACCGCCTGGACCTCTTGAATAACTTGAAGAAGAAGTATGGACCAAGCCTGGCAGACGTTTTTGACTTCTATGCAAAAGTCTCCAAGGAGCTCAGCCAGTTTGAAACTGGTGGCCTTGACGAAGAAGAACTGGTCAAGCAGATAGCTGCTGTTGAAGAAAAAATGTCAGTCATGGCGGCTGACCTCCACCAGGCCAGAGAATCTACCGCCTTGAAGCTGGAAGAAGCGATCAAGCGTGAACTGGCTGACCTGTACATGGACAAAGCCCGTTTCTCCATCCGCTTCGCCAAGACTGATAATTTCACGGTCAAGGGGACTGATGACCTGGCCTTCTACATCGCACCAAACCCAGGCGAAGAGCTGATGCCGCTGGTCAAGATCGTTTCCGGCGGGGAACAGTCCCGGCTGATCCTGGCCCTAAAGGCTATCTTCTCCCGGGTTGAGCCGGTTGGCACCATGGTCTTTGATGAAATTGACACCGGGGTTTCCGGCCGGGTGGCAGCGGCCATCGGCAAGAAGATGCACGCGATTGCCGGCCAAAAGCAGGTTATCGCCATCACCCACTCCCCGCAGGTAGCGGCCAGCGCCGACCACCGCTTTGCCATCGCCAAGCAGGTTGCAGCCGGTGAGACCTTTACCCAGGTCAAGGAACTTGATGAAGACAGCAGCATCAAGATGATCGCCCAGATGATGGCCGGAGCTAATGTCAGCGAAGCTGCTGAGCAAAACGCGGCCGACCTGATTGCCAGTCAGCAGAAACAAGATTAG
>SRR1919932_00374 cell division protein FtsJ
ATGGCAAGTAAAGAACGCGCGGACGTATTATTGGCCGCCAAGGGAATTTTTAACTCCAGGACTCAGGCCCAAAGAGCCATCATGGCGGGTCTTGTAACTGACCACAACCACCAGCGGATCGATAAGGCCGGGGAGAAGTTTCCCGTTGACGAGGAATTTTTCATTAAAAAGGATAAGCTCAAGTATGTTTCCCGGGGCGGTTTCAAATTGGAAAAGGCGGTCAAGGTCTGGAACATTGACTTAAAAGACAAGGTCTGCCTGGATATCGGGGCTTCAACTGGTGGCTTTACCGACGTGGCCCTGCAAAATGGGGCCAAGCTGGTCTATGCCTTGGACGTGGGCTATAACCAACTGGCCTGGCAGCTGCGGGATGACCCCCGGGTGGTGGTGATGGAGCGGCAGAACTTCCGCTACTCGGTTCCCGCCGACTTTACCGAAGGCCTGCCGGACTTCGCCATGACCGACGTGTCGTTTATCTCCCTGGACTTGATCATGCCGCCGATGTATGAAATCTTAAAAGACCAGGGGGATGCCGTCTGCTTGATCAAGCCTCAGTTTGAGGCCGGTCCGGAAAATGTCGGCAAGCACGGGATCGTCCGGGACCACGCGGTTCACCAGGCAGTGATCGAGCACACTATGGCCAAGGCCCTGGAAATTGGCTTTTCCATTTTGGGCGTTGACTATTCACCAATCAAGGGCGGCAAGGGGAATATTGAATTTTTGCTTCACTTGAAGAAGGACCAGGCAAATCCAGGGCAGAATCTCTGGTCCGGCTCAGTCAGCGAGCTGGTTGACCGGGCTGCCCAGGGTCTGTAG
>SRR1919932_00375 geranyltranstransferase
ATGACAATTTTTAAAGAATTTCAAGCTAAGTACACGCCAATCATCAATGATTTTTTAGAAGGACAATTGGCAAAAGAAAGCGATGACCCCCGTTTTGCTGAAATCATGGCTTATTCAGTTATGGCTGGGGGCAAGCGCCTGCGGCCTTTGCTCTTTTTGGCAACTTTAGACGCCTTGGGCGTTGAGATCACCGAAAAAGAAGTCCAGGCCGCCTGCGGGATTGAACTGATCCATACCTATTCTTTGATCCACGATGACCTGCCGGCCATGGACAATGACGATTACCGGCGGGGGGAATTGACCAGCCACAAGAAATGGGGCGAAGCTGAAGCTATTTTGGCCGGGGATGCTCTCCAGCCTTTAGGTATCCAGTGGATCGCCCAGGCTGAACATAACTGGAAGCTGGTCGAGATCATTACTGAAGCTGTGGGTCCAAAGGGGATGGTGGCTGGCCAATATCTGGACATCGACACCACCAACAATGAAGACAGCAGTGAAGAAGTGATTGACCACATGGAATGGCTGAAGACCGGCTGCTTGATTTTGGCCAGCGTTCAGATGGCCACGGCATTAGCTGCTTGCCCTGACCAGCAGGCCCAAAAGTACCTGGCCTTCGCCAAGCACTTTGGTCGCTCTTACCAGCTCTATGACGACCTTGTAGACATCGTTGAAAGCCAGGAAGAAGCGGGCAAGGCGACCCATAAGGACCAGGAAGTGGGCAAGAACAACAGCTTGACCATGCTGGGGGCAGAGGCAACCAGAAATGAACTCAAGCAGCTGATTGAAAAGGGCAAGGCTGACCTGGCCGGGGAAAAGGCAGAAGTTTTGCTGGGCTTTTTGGATTTGTATCAGAAGGTACTGTAA
>SRR1919932_00376 exodeoxyribonuclease VII small subunit
ATGACTGAGAAGAACAATTTTGAAAGCCAGCTCAAGGAGCTGCAGGAAATCGTTGGCCAGCTGGAAAATGGCCAGTTGTCACTGGAAGAATCATTGGCCCAGTTCCAGACCGGAGTCAAGCTGAGCCGGGAATTGAAGCAGGAATTGACCAAGGCCGAAAACACCGTGGCCAAGTTGATCGAGTCTGATGGCAGCGAGAAGGAACTTGATCCAACCGATGCTTCAGCACCAAAGGAATAA
>SRR1919932_00377 exodeoxyribonuclease VII large subunit
ATGGACTCGACTAATGGGACGGACGAAAAGTACTTGACTGTCAGTGAATTAAATTGGTATGTTAAGCAGAAATTTGACCGGGATCCCTACCTGCGGCAAATTTTTCTCCAAGGGGAATTGTCGAATTTCCGCTTCCGGAGAGGTGGTCACCAGTACTTTTCTTTAAAAGACGACAAGTCTAAAATCAATGTGGTGATGTTCCGCGGAGACTTTGACAAGGTTAAGTTCGAGCCGGAAGAAGGGATGAAGGTCTACGTGACCGGCCGCTTGTCAACTTATGAAGCCCAGGGCAGCTACCAGTTTTATGCCAAAAGCATGGAACCGGCCGGCCTTGGTGCCTTGTATGAACGCTTTAGGCAGCTGCAGGAGAAGCTGGCTAAAGAAGGCCTCTTTGCCCAAGAGCATAAGCGCCCTCTGCCCCTTTTTCCAGATAAGATCGCTGTTGTGACTTCAGCCTCCGGGGCGGTCATCCACGACATCATGGTAACGGCTAACCGCCGCTTCCCGCACGCTGAAATTGACCTTTTCCCAGCCCAGGTGCAAGGGGAAAGCGCAGCTGGCAGCTTGGTTTCTGCTATGCAGCAGATCCAAGCCCGGGCAGATGAATATGACGTGCTCATTATCGGCCGGGGGGGCGGATCTTTAGAAGACCTGTGGCCTTTTAACGAAGAAGAAGTGGTCCGCCAGGTTTATGCCATGAAGATGCCGGTGATTTCATCAGTTGGTCACGAAACAGATACCACCCTCTGTGACCTGGCAGCTGACTGCCGGGCGGCTACGCCAACGGCAGCCGCTGAAATGGCGACGCCGGCCCTGACCCTGGTCCTGGCTGAAATTGGCCAGCTGCAGACCCGGCTTTTGACCGACATCCGGGCCGTGATCCAGGTCCGGGCCCAGGCCCTGGCCCAGCTGGAGAATTCTTTTATCATGAAAGAGCCCCAGCGCCTCTATGAGCAGAAGATGCAGCAGGTCGACCAATTGTCCCAGCAGCTGAGCCGGATGATGGAAGTAATTGTCAAAGACCAGGGGCAAAAGCTCAGCCTTTTGACCCAGCGCCTCCAGCACCAGGCCCCAGACCGGAGAATCAAGCAGCTTAAGCAGGAAAACAGCTACCTGGCCAAGAGCCTGGAAATGGGGATCAAGCGGATTCTGGAACAAAAGCAGGCTGCCTGCCGGCAGGCCGTCCAGCAGCTGGACGACTACAGTCCTTTAAAGACCCTGGCCCGGGGCTACAGCTACACGACTGACGCGAGCGGCAACGTGGTCAAGTCAGTTCAGCAATTGGCTCCAGGCGACCAGGTTCGCCTGCACTTAAAGGATGGCCAGGCCATCGGCCGGATTGAAGAGATTAAGGAAGAAAAGAATGACTGA
>SRR1919932_00378 bifunctional 5,10-methylene-tetrahydrofolate dehydrogenase/5,10-methylene-tetrahydrofolate cyclohydrolase
TTGGGAGAAATTTTAGACGGGAAGAAGCTGGCCCGGGAATTAGGGGAAAAGTTAGGCAGTGAAGTGGCTTCCTTAAAAGAGCATGGGGTCAGTCCCAAGCTCTGCGTCATCAATATTGGCGATGATCCGGCCAGCAAGGTCTATGTCGCCTCCAAGAAGCGGAAGGCTGAGAAGCTGGGCATCAAGCAGGTAGTTTATCAATTGCCGGCTGATGAAAGCGAAGAGGATGTCTTAAAGTTGATCGACAGCTTGAACGCGGACCCGGAAGTTTCCAGCCTGATGGTCCAGTTACCGGTTCCCCCGCAGATTAATGCTGACCGGGTCATTGAAAGGATCGATCCGGAGAAGGACGTTGACTGCCTGACTCCGGCCAATATCGGCCGCCTCTGGCAGGGCAAGCACTTTGTCGAACCAGCTACGGCTGCCGGCATCATTGCCCTTTTGGACCACTACCAAATTGACTTGACTGGCAAGAACGCCGTGATTGTCGGCCGGTCAAACATTGTCGGCAAGCCCCTGGCTGCCTTGATGCTGGAAAGAAACGCTTCTGTCTCAATCCTGCACTCCCGCAGCCGGAACTTGGCTGACTTGACCAAGCAGGCCGACATCCTGGTCTGCGCGGTCGGCAAGGCGGAAATGATCAAGGCGGACATGGTTAAAAAAGGGGCGGTCGTGATTGATGTAGGCATCAACCGGGTGGACGGCTACCTGGTCGGTGACGTTGATTTTGCCCCCGTTAAAGAAAAGGCCAGCTGGATCACGCCTGTGCCTGGCGGGGTTGGCCCTTTGACGGTAGAGTTTTTAATGGAAGAAGTCATCAAATTGACGAGGAGACAGCATGGACTCGACTAA
>SRR1919932_00379 transcription antitermination factor NusB
ATGAATCAACACGATAGTCGAAGAATTGCACTGCAAGCCATTTATCTGTACAACCAGGATCCCAGCGTGACGGCCAGTGAATTGGAAAACAATGTCAAGTCCGCTTTGGACTTGGATACTTTGCCGGCCTACAGCCAGGAACTGGTCAGCGGCGTGATCGACAAGCAGGCTGAACTGCGTGACAAGCTTTCCGCCAACTTGAAGCAAGGCTGGCGCTTGGAGCGGCTGAGCAAGACCAGCTTGGCGATTTTGGAAGTAGCCCTGTATGAAATGCTGTACAGCCCGGTTATTGAAGACCGGTCAGCCATCAACGAGGCTTTGAACTTGTGTGACGAGTTTGATGATCCGAAGTCAAAGGCCTTCATCAATGGCATATTGGCAAACTTTGTGCAAGAATAA
>SRR1919932_00380 alkaline shock protein
ATGGCTGATAATTCAACAATCGTTTTAAGCGGCAATGATGAGGGCGATCAAATCAAGATCGACCTGCAGGTACTCGAAGTCATTCTGGGCATTTCAGCTCAGAAGGTCGACGGTGTTGCCGGGATGCGCGGTGGCTTGAAGTCAGGCTTGAGCCGTGTCTTTGGCCGCGAGGATCGGGGCAAGGGAGTTGCCGTCTCAGTTGATGAAGACGGCGAACTGACGGCTGACGTTTACGTATATCTCAAGTACGGCGTCAACGTGCCAGCTGTTGCGGGCAAGATTCAAGAAGCTCTGAAGCAGCAGCTGACTCAGATGACGGATATGAATTTGAAGTCCATTGATGTTCATGTCGTTGGTCTCGTCTTCCCTGAAGATGAAAAGAACTTTGAAGATGCTGATCAACCATTATTCCCCGATCAAGAAGAAGATAAGTAA
>SRR1919932_00381 translation elongation factor P
ATGACAATGATTTCTGTTAACGAATTCAAGAACGGCCTCACGATCGAATACAGCAACGACCTGTGGCGTATCGTTGAATTCCAGCACGTTAAGCCAGGTAAGGGCAGTGCCTTCGTTCGTTCAAAGCTGAAGAGCTTGCGGACTGGCGCCGTTCAAGAATACACTTTCCGTTCAACTGCCAAGGTTGAAACGGCTGACATTCAAACCCGGCAAATGCAATACCTTTACAACGACGGTTCGAGCTATGTCTTCATGGACACGGCAACTTACGAGCAATTGGAAGTGCCGAACGCTCAGATCGACCAGGAAGCCAAGTACTTGAAGGAAAACATGATTGTGAACATTATTTCCCACAATGGTGAAACCTTGGGTCTGGACCTGCCAAACACGGTTGACCTGGAAGTCGTTGAAACCGAACCAGGCATCCGCGGCGATACCTCATCAGGTGGTGGTAAGCCAGCTACGATGGAAACCGGTTTGGTTGTCACTGTGCCATTCTTTATCAATGTTGGTGACGTGCTGACGATCAATACTAGTGACGGTTCATACGTATCACGTTCTAAGTAG
>SRR1919932_00382 Xaa-Pro aminopeptidase
ATGAGCAAGAACAATGAATTGTTAAGTCTGTTGACCAGACGGATCAAGGAAACTGCTGACTTGATCAAGGACAAGGACGCGGATGCCCTCTTGGTTTTCAACCGGGCAAACTACCGCTATCTGACTAATTTTACCGGTGAAGAAGCCCAGCTGATCATTACCAAAAACGGCGACCGGGTGCTTCTGTCAGACTCCCGCTTTGCCCCGCAAATTGAAGCCCAGGCAGTGGGTAAACTGAAGGTAGTCATGAAGCATGGCCACGAAGCGGCCGAAATCGCGGCAGAAGTCAAGAAGCTGGGGGTCAAGAAACTCTTAGTCGAAGCAGAATTTGTTTCTGCTTATGAATATGACGCGATCAAATCCCAGCTGCCAGATGTTGACCTGGTGATGGCTGCTGAAATCGTTGAACGGGTCCGCAATGTCAAGGATGACCTGGAACTGGCCACTCTTAAAAAGGCTGTTGAAATCTCAGAAAGAGCCTTTGAAGAAGTTCTGCCAATGCTTAAGCCAGGTGCCAAGGAAAGAGACGTGGGCGCCAAGCTCGACTACCTCTTCAAGCTCTACGGCGGCGACGGCCCGGGCTATGACTCAATTATCGCTTCTGGTCCCCGTTCTTCCTGGGCCCACGGGGTGGCCAGCGACCGCTTGATGCAAGAGCACGAACTGGTCGTAATTGACGCGGCCGCTTCATATAACGGCTACACCGCCGACATTACCAGAACCTACGCTTTGGGCAGCGTGGAAGACGAACTGGAAAAGATCTACAAGATCGTTCTGGAAGCACAAAAGCGGGGGATTGCCGCCGCTGTTGCCGGGGCAACTGGCAAGGACGTTGACCAGGCAGCCCGGGGCTACATCAATGACGCCGGCTACGGGCAATACTTCGGCCATGGGATTGGCCACGGGATCGGCCTGGAAATCCATGAAATGTGTCAGCCGGAATTTTTGTTCAGCCAGACGACCCTGGAAAACGGGATCGTGCACACGGTTGAACCAGGCATCTACCTGCCGCAAGGCGGGGTCCGGATCGAAGATGATATTCTGGTTAATGGCGACACTCCGGAAGTTTTGTCCACTTTGCCAAAGGACGAACTCATTCACCTGTAA
>SRR1919932_00383 50S ribosomal protein L27
ATGATGATGAACATTCTTTCAAACGCAAAGTTACTCGCCCACCACAAGGGTGGTGGTTCAACTACCAACGGTCGTAACTCAGCTGGTCGTCGTTTGGGCGCAAAGCGTGCCGACGGTCAAGAAGTACACGCTGGCTCAATCATCTACCGTCAACGTGGTACTAAGATCCACCCAGGCAAGAACGTTGGCCGCGGTGGCGACGACACTTTGTTCGCACTGACTAACGGTGTTGTTAAGTTCGAACGTCTTGGCAAGTACAAGAAGCAAGTTTCTGTTTTGCCAGTAGAAGACGCTGAATAA
>SRR1919932_00384 50S ribosomal protein L21
ATGTACGCAGTTATTAAGACCGGTGGCAAGCAATACAAGGTTGCCGAAGGCGAAAGTATCTTCGTTGAAAAGCTTGACGTACAAGCTGGCGAAGAAGTTGTTTTTGACCAAGTTATCCTGGTAGCTAATGGTGACGACGTTAAGGTTGGTACTCCATTAGTTGAAGGTGCTAAGGTAGTTGCTAGTGTTGACAAGCAAGGCAAGGAAAAGAAGGTTGTAACTTTCAAGTACAAGCCAAAGAAGCACTCACATTCTAAGTACGGTCACCGTCAACCTTACACCAAGGTTACTGTTAAGAGCATCGAAGCTTAG
>SRR1919932_00385 arsenate reductase
ATGCCAAAATTCTATGGATACAAGCGCTGCTCCACTTCCCGGAAGGCCCAGAAGTGGTTTGACGACAAAGGCATCAGCTATGACTTCCAGGACCTGGTGGAGACTCCGCCGGAAAAAGACCTGCTCTTGTCCTGGCTGACCAAGTACCAGGACCGCGGCCTGCGCTACTTTTTCAACACCAGCGGCCAGCACTACCGGCAAATGGGCCTGAAAGACAAGTTGCCAAATATGACTATAGAGGAAGCCGCTGATCTCTTGTCTAAAGATGGCAAGCTGATCAAGCGCCCCCTGGTCGTTGATGACCAGCACTTAACCTGCGGCTTTAAAGAAGAGGTCTACGAGCAGACCTGGAAATAA
>SRR1919932_00386 cystathionine gamma-synthase
GTGGTCATTCACTCAGCCACCAAGTACCTGGGCGGGCACAACGACATTTTAGGCGGGGTCGTGGTGGTCAAGGATCCGGTTTTGGCCGATTTTTACTTCCAGTACACCATTACGGTTGGCGACACTATGTTCGCCTTTGACAGCTGGCTTTTGAACAGAAGCTTGAAGACTCTTCCTTTAAGAATGCAGCAGCACACGGCCAGCGCGAAAAAGATCGTTTCTTTCCTGGAGCAGGCGCCGCACGTGGAAAAAGTCCTCTACCCGGGCAAGGCGGGGATGATCTCCTTTTATTTGGACAGCGACGAAGAAGTCGACCGGGTTCTCAAGAGCGTCAAGCTGATTACTTTCGCGGAAAGCTTGGGCGGGCCAGAAAGCCTCTTGACCATTCCTTACTACCAGACCCATGACGATGTTGCAGAAGACCAGCGTCTCAGGCTGGGAATTACGCCGCGGCTTTTGCGGCTCTCAGTGGGCCTGGAAAACGCGGACGACTTGATTGCCGACCTGGCCCAGGCCTTGGGGGAATAA
>SRR1919932_00387 ABC-type branched-chain amino acid transport system, ATPase component
ATGGAAGCCATGTTCAAACGCTTCCCGATCTTGAAGGAACGGCAAAAACAAGACGCCGCAACTCTTTCCGGCGGGGAACAGCAGATGCTGGCCATGGCCCGGGCCTTGATGGCGCGGCCGAAGCTGCTCTTGCTGGATGAACCATCCATGGGTTTGGCGCCAATCTACATCCAGGAAATTTTTGACATTATTAAAAGCATTAACAAGGAAGGCATGACTGTCCTCTTGATTGAACAAAACGCCTGGCAGGCCCTCAGCATTGCCAACCAGGGCTACGTTTTGGCCTCAGGCGAAGTTAAGATGACCGGCAGCGGGCAGGACCTGCTCAACGACCCGGCCGTGCAAAAGGCCTACCTTGGTGGTTAA
>SRR1919932_00388 phosphoribosylamine-glycine ligase
ATGAAAGACAAGCTGAAAATTTTAGTAGTTGGTTCTGGCGGCCGGGAATTCGCCGTCGCCCGCGCTTTGAAGAAGAGCCCGCACGTTGCAGAAGTCTTCTGCGCGCCGGGCAACTCCGGCATGGCCGCGATCGGCGTTAAAGCTACCGGTATTGCAGAAGACGACTTCAAGGCCTTGAAGGACTTTGCTATTAAGGAAGACATTGCCTGGACCTTTGTGGGTCCGGAAGATGCCTTGGTAGCCGGGATTGTTGACTACTTCCATGCTTTTGACTTGAAGATCTTCGGGCCTAATGCCAGAGCAGCCCAATTGGAAGGGTCAAAAGACTATGCTCTGCAGTTCATGGAAAAGTACCAGGTGCCGCACCCGCGTTATGAAACCTTCCAGAGTGCAGAAACTGCCATTAGTGCCTTGCCAGACTTTGGCTTGCCAGTCGTTTTGAAAGAAGACGGCCTGGCCGGCGGGAAAGGCGTGATCATCGCTGAAGACCAGGAAACGGCGGAAAGTACTTTGACCGAAATGTTTGCCAAGGGGCAAAAGCAGGTAGTTCTTGAAGAATTTCTGACTGGCCCGGAATACTCCGTCTTTGCCGTTATGCAGGGGGGCAATTACCGCCTCCTGCCTCTGGCTCAGGACCACAAGCGGGCCTATGACGGCGACAAGGGGCCGAACACCGGCGGGATGGGGTCATACAGCCCGGTTCCGCAATTGAGCCAGGCTGAATACCAGGAAATCGTTGACCAGTTGGTTGAACCGACGGCCAAGGGTCTGCTGGCTGGCGGCTATGACTACCACGGCGTTTTGTACCTGGGCCTCATGATGACTAAGCAGGGGCCGAAAATGATCGAATACAATGTTCGCCTGGGTGACCCGGAAACGGAAGTTGTTTTGCCGCGCTTGAAGAGCGACTTTGCGGAACTGGTTGCTGCCTGCGTAAATGATGAGGAAATGCCAGCCGTTGAAGAAAAGGATGAGGCAGTCCTTGGCGTCATTTTGGCCGCTGAAGGCTATCCGAAGAAGCCACTTAAGGGGCAAAAACTGGGCCAATTGCCAGCTGAAGATGGCATTTTCATTGACTGTGCCAACGTAACCGGCCCGGCTGCTGATTTGGCCGGCAGCGGCGGCCGGATCTTGATGGTCCGGGCTGAGGCAGCTGACTTAAAAGAAGCCCAAGAACACGTTTATGCCTACCTGGCCAAGCTGGATATCCCGCAGACATTCTACCGGCGTGATATCGGCTACCGGGCAACCGGCAAGCGCTTTTAA
>SRR1919932_00389 bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase
ATGAAGTGTGCACTTGTAAGTGTTTCAGACAAGACCAACTTGGTTCCTTTCGTCAAGGGCCTGGTGGCCAATGATTACGAAATCGTGTCAACTGGCGGTACCAAGCGCGTTTTGGATGAAGCCGGCATCCCAACTATTTCAGTTGAAGATGTGACTGGCTTTCCGGAAATTCTTGACGGCCGGGTCAAGACCTTGAACCCCTACATCCATGGCGGCCTCCTGGCCCGGCGGGAATTGCCGGAACACGTGGCAACTTTGAAGGAACACAAGATTACGCCAATCGACTTGGTTTGCGTTAACCTCTACCCATTCAAGCAGACCATTGAAAAGCCTGACGTGACCCTGGCTGAAGCTATCGAAAACATTGACATCGGTGGCCCAAGCATGGTGCGGTCAGCTTCCAAGAACTACCGCGATGTAACGATCGTGGTTGACCAGGCTGACTACGACCAGGTTTTGGCTGAAATTGAAAAAGACGGCTCTACCAGCCTGGAGACCAGGGCCCGCTTAGCGGCTAAGGCCTTCCGCCTGACTGCTTCATATGATGCCTTGATTTCCCAATACCTGACTGAAAAGGCCGGCGAAACTGCTCCGGAAAAGCTGACTTTAACTTACGACTTAAAGGAAGCCATGCGCTACGGGGAAAACAGCCACCAAAAGGCCTGGCTCTATGAAGATGCCCTGCCAAAGGCCTTCTCAGTTTTGCAGGCTGAACAATTAAACGGCAAGCAGCTGTCTTACAACAATATCAAGGATGCTGACGAAGCCTTGAGATGCGTCCGCGAATTCAGCAAGCCAACTGCCGTGGCCATGAAGCATATGAACCCATGCGGGATCGGCCAGGGGAATACTTTAGAAGAAGCCTGGGACCGGGCTTACGCTGCTGACCCTGTATCAATTTTTGGCGGGGTAATTGCCTTGAACCGTAAGGTTGACCTGGCAACTGCTGAAAAGATGCACAAGATCTTCCTGGAAATCATCATCGCACCAGACTACGATGATGATGCTTTGGCAGCCTTGAAGGCCAAGAAGAAGAACCTCCGGATCCTTAAGCTGGACTTCAGCAAGAAGGACGAAGCAACCAGCAAGGAAACTGTATCCGTCATGGGCGGTTTGCTGGTGCAAGACCAGGATGTTCTGGACGAAGACTTCGCTGACTGGGAATGCGTAACTGAAGCCAAGCCAACGCAAGAGCAGCTGGAAAGTCTCCTCTTTGCCTGGAAGGCAGTCAAGCACACCAAGTCCAACGCGATCGTTGTCGCTAACAATGAACGCACCCTGGGTGTTGGGGCCGGCCAGCCAAACCGGATCGACTCTGAAAAGATTGCCATCGACCACGCGGCAGAAGCCCTGGACGACCGGGCAGTCATCGCCAGCGATGCCTTCTTCCCGTTCAGCGACTGCGTTGAATACGCCGGTAAGCACGGCATCAAGGCCATCGTACAGCCAGGCGGGTCTGTTCGTGACCAAGAATCCATCGACATGGCCAACAAGTACGGCATTGCCATGGTCTTCACTGGCGTCCGTCACTTTAGACACTAA
>SRR1919932_00390 phosphoribosylglycinamide formyltransferase
ATGAAAGTAGCAATTTTTGCATCCGGCAACGGAACTAACTATGAAGTTCTGGCCGAACATTTTCAAAAGGGCGACCTACCCGGCGACCTTGCCCTGCTCTTTTGTGACCACCCGGACGCTCCGGTGATCAAGCGGGCAGAAAAATTCCACACACCGGTAGTGACTTTTACGGTCAAGTCCTGCGGCGGCAAGCAAAAGTACGAAGAAAAGATCCTTCAAGTCTTAAAGGACTACCAAATCGACTTTATTGCCCTGGCTGGCTACATGCGGGTGATCGGGCCAACGATTTTGAGCGAATATGAAGGCAGAATCGTCAACCTTCACCCGGCTTATTTGCCGGCTTACCCAGGCCTGCACTCAATTGAACGGGCCTTTGCCGACCACCCGGCTGAAACCGGGGTAACGGTTCACTATATCGACTCTGGCCTGGACTCTGGTCCGGCCATTGCCCAAAAGCACGTGCCGATCTATGACGACGACACGGTTGATACTCTGGAAGCAAGAATTCACGAATGTGAACACCACCTGTATCCGGAAGCCTTGAGAACAGCTTTGCTGAAATTTGATGAGGAGAACAAATAA
>SRR1919932_00391 phosphoribosylformylglycinamidine cyclo-ligase
ATGATCGTGAATCGCTATAAGGATGCAGGCGTTGACGTTAATGCTGGCTATGAACTGGTGCGCCGGATCAAGGGGGCGGTAGCCTCAACCAAGCGGCCAGGCTACGTGGGCAATATTGGCGGCTTTGGCGGTCTGTTTGACCTTGATTCCCTGGGCTATGACCACCCGGTCCTGGTTTCCGGGACTGACGGGGTCGGCACCAAGCTGATGATCGCCCAAAAGATGGACAAGAATGACACCGTTGGGATCGATGTAGTGGCCATGTGCGTTAACGACGTCCTGGCTCAAGGGGCTGAACCGCTCTTTTTCCTGGACTACATTGCCTGCGGGCACAACGATCCAGCCCTCCTGGCTTCAGTTGTCCAAGGCGTGGCTGAAGGCTGCAAGCAGGCTGGGGCCAGCTTGATCGGCGGGGAAACCGCAGAAATGCCTGACATGTACGCCCCAGACGAATACGATCTGGCCGGCTTTACAGTTGGGGTAGCGGAAAAAGACCGCCTTTTGTCAGTTGACACTCCGCAAGCTGGTGACGTTCTCTTGGGCCTGGCTTCAAGTGGGGTCCACTCCAATGGCTTTTCATTGGTCCGCAAGATCCTCTTTAAGGACCATGATGTCAAGCTGACTGACAAGCCAGCTGAACTGAAGGGCAAGAGCGTGGGTGAAAGCCTGCTGGCTCCAACCAGAATCTACATCAAGTCTGTCCTGCCCTTGATCAAGCAAGGGCTGGTTCACGGCGTGGCCCACATTACCGGGGGCGGCCTCATCGAAAACGTGCCGCGGATGTTCAATGACGGCTTGCGGGCAGAAATTGCCGCTGGCAGCTGGGAAGTCCCGGACATCTTCAACTACCTCAAGCAAGTCGGCAATTTGTCAGATGATGACTGCTGGCAGACCTTCAACATGGGTTTGGGGATGATCCTGGCAGTACCGGCTGACAAGAAAGAAGAAGCCAAGCAGCTGCTTTTGGCAAGTGGCGAAAAGGTCTTTGAAGTTGGCCACTTGAGTGAGAGAACTGACGGCGAGAAGATCATTATTAAATAG
>SRR1919932_00392 amidophosphoribosyltransferase
ATGCCTTATGAAATCAAAGGATTAAATGAAGAATGCGGCGTTTTCGGGATCTACAATGTCCCTGACGCGGCCAACGTGACCTACTTTGGTCTCCATGCCCTCCAGCACCGGGGCCAGCAGGGGGCCGGGATCGTGGCTAGCGATGGCCAGAAGCTCCGCCAGTTCCGTGACCGGGGTCTCTTGTCAGAAGTCTTCTCCAACCCGGCTGACCTGGACTTTTTAAAAGGGAACATGGCTATCGGCCACGTCCGCTACGGTACTGCCGGTTCAGACTCCCTGGCCAATGTCCAGCCCTTCCTCTTCCACTTCCAGGACGGGGAAATCGCCCTTTGCCACAACGGGAACTTGACCAATGCCAAGACGCTGAAAAAGCGCCTGGAAGATTCCGGGTCAGTCTTTCAGTCAAGCTCTGACACGGAAGTCTTGATCCACTTGATCCGCCGCAAGGTCCGTATGCCTTTTATCGAAGCCTTGAAGGCCAGCTTGAACGAAGTCAAAGGGGGCTTTGCCGTCCTCTTGATGACCAATGACACCCTCTATGCCGCCCTTGACTCTAACGGCTTCCGGCCCCTGGTTTTAGGGCAAATGGACAACGGCAGCTATGTCGTAGCCAGCGAATCCTGCGCCCTTGACGCGGTACACGCCAAGCTGGTCCGGGATGTGCAGCCAGGTGAACTCATCACCATCAACAAAGACGGGATCAATATTGACCACTACACGACTGAAACCCAGCTGGCCGTCTGCTCAATGGAATACATCTACTTTGCCCGGCCAGACTCCATTATCCACGGGGTTAACATCCACACCGCCAGAAAGCGGATGGGGATACTGCTGGCTAAGGAACAGCCAGCTCCAGAAGAAGCGGACATGGTTATTGGGGTGCCAAACTCTTCACTTTCAGCCGCGACTGGTTATGCTGAAGCAGCTGGCCTGCCTTATGAAATGGGCTTGATCAAGAACCAATATATTGCCCGGACCTTCATCCAGCCGACCCAGGCTCTGCGTGAGCAGGGGGTTAAAATGAAGCTTGCTCCTGTCCGCGGGGTGGTCAGCGGCAAAAATATCGTGGTCGTTGACGATTCAATCGTCCGCGGGACGACTTCCCGGCATATCGTGCAGATGCTGAAAGAAGCCGGGGCCAAGTCCGTCCACATGCGGATTGCTTCTCCGCCTTTCAAATACCCGCACTTCTACGGGATTGATATTTCTGAAAGAAAAGACTTGATGGCGGCCAAGTACAGCGTCAGCGACATGTGCAAGCTGATCGGGGCCGACAGCCTGGGCTTTTTGAGCATTCCAAGCCTGATCAAGGCAGTCGACATGCCAGATACCGGTGACGCGCCAAACGGGGGCCTTACGGTTGCTTACTTTGACGGCAAGTACCCGACTCCTTTGTACGACTACGAAGAACAAATCAAGGAACCGCTGAATGTGGAACCGGTTGAAGAAATTTTAAAGAAGCAAAACAGAGGTGAATGA
>SRR1919932_00393 phosphoribosylformylglycinamidine synthase II
ATGATGCAGGAAATGACTCCAGAAGAAATCAAAGAAAAGAAGCCTTATCTCGATTGGAGCTTGTCTGAAGAAGAATACGACTACATCTGTGACAAGCTTTTGCACCGCCTGCCAAACTACACTGAAACCGGCCTTTTCTCAGCCATGTGGAGCGAACACTGCTCATACAAGAAGTCTAAGCCGGTTCTCCGTCTTTTCCCAACCAAGGGTCCCCGCATTTTGCAAGGGCCTGGTGAAGGGGCAGGGGTTGTTGACATCGGTGACGGCCAAGCTGTCGTTTTCAAGGCTGAAAGCCACAACCACCCAACTGCTGTTGAACCTTACCAAGGGGCAGCTACTGGTGTCGGCGGGATCCTGCGTGACGTCTTCAGCATGGGGGCCCGGCCAGTTGCTACTTTGGACTCTCTGCACTTTGGTGAATTAGATGACGCCCACACCCGCTGGCTTTTAAACGAAACTGTCGCCGGCATCGGTGGCTACGGCAACTGCATGGGGATCCCAACTGTTGGCGGCGAACTCACTTTTGACGACATCTACAAGGGCAACCCAGTCATGAACGCCATGAGCGTCGGCCTTTTGGACGTTAAGGACATGCAAAAGGGCCTGGCCCAAGGTGAAGGCAATGCCGTAATGTACGTCGGGGCCAAGACTGGCCGTGACGGGATCCACGGGGCAACCTTTGCTTCTCACTCCTTTGACTCAGAACACGAAAGCCAACGCTCAGCTGTCCAAGTTGGTGACCCCTTCATGGAAAAGCTGCTGCTTGAAGCCTGCCTGGAATTGACCCAAAAGCACGCTGACTGGCTGGTCGGCATCCAGGACATGGGGGCAGCCGGGATCGTTTCCTCAAGTTCAGAAATGGCTTCAGAAGGCAAGTCCGGCATGGAACTGAACCTGGACCTGGTACCGCAAAGAGAAAGCGGGATGTCAGCCTACGAAATCATGCTGAGTGAATCCCAGGAAAGAATGCTGCTTTGCGTTAAGAAGGGCCACGAAGAAGACGTCAAGAAGATTTTTGACTTCTACGACCTTGACGCCGTTGTTATCGGCCGGATTACCAGCGGTCACAACTACGTTTTGCGCCACCATGGCGAAGTTGTCTGCGATATCCCGGTAACCAGTCTGACTGAAGACGTCTTGGAAGAACCAAGCGAAGAAAAGCAGCCGCAGCACATGATCGATGACGCGGCTAAGCCGGCCTGGGAACCTGAGATTACGGATTTGGCAAAGACCTACAAGCAGATGCTGGCCCAGCCAACCATCGCTTCTAAGGGAATGTTCACCCAGACCTACGACTCCATGGTCAGAACCAGCACGGTTGTCGGGCCTGGTGAAGACAGCGGTGTTTTGAGGGTTCGCGGCACCCACAAGGGGATTGCCATGACCACTGACGGCAACGGCCGTTTCATCTACCTGGACCCGGAAATCGGGGGCAAGCGGGCCGTTGTTGAAGCAGCTGGCAACATCATCGCCAGCGGGGCAGAACCTCTGGCCATCACTGACTGCTTGAACTTCGGTAACCCGAATGAACCAGAAGTCTTCTGGGAACTCCACCACTCAGTCATGGGGATTGCCAAGGCCTGCGAAGTCTTAGAAACTCCAGTTGTTTCCGGTAACGTTTCCCTTTACAACGAAACTGACGGCAAGTCCATCTACCCAACCCCAATGGTCGGCATGGTTGGTCTGGTCAAGAACCTGGACCACCTGGTCAGAGACAGCTTCCAAGAAGAAGGCGACGACCTTTACTTGGTCGGCCAAACCGGGGCGGACTACGCCGGCTCAGAACTGCAAAAGATGCTGACCGGGGAAATCTCCGGGTCCTTGAACGATTTGGACTTAGACCACATTAAGGACTACCAGAAGCGCCTCTTGGCCCAAATGGAAGCCGGCCACGTGGCCAGCGCCCACGACTTAAGCGAAGGCGGCCTGGCTGTCAGTCTGGCTGAAAGCAGCTTTGGCCACGGGATCGGGGCAGAAGTTGCCTGCGACTTGACCAGTGCCGAACTCTTCAGCGAAACTCCAGGCCGCTTCCTGGTCAGCGTGCCAAGCGAATACTCAGCTGAATTTGCTGCAGCTTTGGCAGCTGACGCGGTCAAGATCGGTCAAACGGCTGGCGATAGCCTGAAGCTGACCTTGAAGGACCAAGCAGCCGACTTGCCGGTAGCGGAATTGAAGCAAATTTGGGAGGAAGCCCTGCCATGCCTTATGAAATCAAAGGATTAA
>SRR1919932_00394 phosphoribosylformylglycinamidine synthase I
ATGAAGTTTGCGGTAATCCAATTCCCGGGCTCCAACTGCGACATCGACCTCTACGAAGCCTTGCACACGGTTTGTGGAGCTGACGTGGCCTACGTTCCTTCCAAGGAAAGCAGCCTGGACGGCTTTGACGCTGTCATGCTGCCAGGTGGCTTCTCATACGGGGACTACCTGAGAGCCGGCGCTATTGCCCGCTTTACCAATATCATGCCCGCTATTGTCGAAATGGCCAAGGCCGGCAAGCCGGTCTTCGGGACCTGCAACGGCTTCCAGATCTTGACCGAAGCTGGCCTTTTGCCAGGCGCTTTGAAGAGAAATGACTCTTTGAAGTTTGTCTGCAAGATGGTTGAATTGGAAGTAGCCAACAACGACACCATCTTTACTTCTGAATACCAAAAGGGTGAGAAGATCAACCTGCCGATCGCGCACGCTGACGGCTCCTTCTACGCCGACCCGGAAACCTTGCAGAAGATCGAAGACAATGGCCAGGTCGTTTTCCGCTATTCAAAGGAAAACCCGAACGGCTCTTTGAACAATATTGCCGGGATCACCAACGAAAGAGGCAATGTCTTAGGGATGATGCCTCACCCGGAACGGGCAGTCGAAGCCCTCTTGGGCAACACCGACGGTTTGCGCCTGTTTAAGTCAATTTTGGACCACGCGGAGGTAAAAGCGTAA
>SRR1919932_00395 phosphoribosylformylglycinamidine synthase
ATGACTACTGTACGGATTTACGTTACTTACAAGCAATCAGTTTTCGACCCGCAAGGTGAAGCCATCACCAACTCAATTCACTCTTTGGGCCACGATGAAGTCAAGGGCGTCAAGGTCGGCAAGTTCTTCGATGTAACTATTGAAGAAGGAGACAAGCCTGTAGCAGAAACTGTCAAGGAAATTTCTGAAGAGCTGCTGGTCAACTTCAACATGGAAACCTACAGCTACAAGATCTTGGAGGAAAAATAA
>SRR1919932_00396 phosphoribosylaminoimidazole-succinocarboxamide synthase
ATGGCAGAATTGCTTTATCAGGGTAAGACTAAGGAAATGTGGACCACTGACGATCCAGAAGTGCTCCGCGCTGTTTACAAGGACGATGCTACCGCTTTGGACGGCTTGAAGCACGATGTCTTCCAAAACAAGGGTGAACTTGACGCGGAAATTTCTAGCCTGGTTTTCGAATATTTGATGAAGCATGGGGTGAAGACGCACTTTATCAAGCGCTTGTCTAAAAACGAACAATTGGTCAAGAAGGTCAAGATGATCGACCTGGAAGTTGTTACTCGGAATATCGCGGCTGGATCATTCTGCAAGCGTTATGGCTTGAAAGAAGAAGGCGAGAAGCTGGACACTCCAGTTGAAGAACTATTCATGAAGAGCGACGCCCTGCACGACCCGCTGATGAATGAATCAGACGCCATTGCCTTCCACTTGCTGACTCATGAAGAACATGAACAGATCTGGGAAATCTCCCGCCAGGTCAACCAGCTTTTGACCAAGCTCTTTGCCGACGCCGGCATGCTGCTGGTTGATTTCAAGGTTGAATTCGGGACCCTGCCAAACGGTGAAGTCGTCCTGGCTGACGAATTCTCACCAGACAACTGCCGCCTGTGGGATATGGAAACCAAGGACCACATGGATAAGGACGTTTACCGCCGGCAAATCGGCAACCTAATCGATGTTTACGAAAGAGTTTTGGCCCGTTTGAAGGATGCTTTGGCCAAGGAGGATTAA
>SRR1919932_00397 adenylosuccinate lyase
ATGATTGAACGCTATACCCGACCAGAAATGGGTGCCATTTGGACTGATGAAAAGAAGTATGAATGCTGGTTGGCAGTAGAAATCGCTGCTGATGAAGCCTGGTCCAAGCTTGGCCACATTCCGGCAGAAGACGTGGAAAAGATTAAGCAGAACGCCAAGTTCAGCGTTGACCGCATCAACGAAATTGAAGCCGTGACTCACCACGACGTTATTGCCTTCACCCGGACCATTTCTGAATCATTGGGGCCGGAAAAGAAGTGGGTGCACTACGGCTTGACCAGTACTGACGTGGTTGACACTGCCCAGGGCTACCAATTGAAGCAGGCTAACGACATCCTTCGCAAGGACATCCAGGACTTCATCGACATCCTGGCCAAGCGGGCCCTTGAATTCAAGGATACGGTCTGCATGGGCCGCACCCACGGCATTCACGCTGAACCAACTACTTTCGGCTTGAAGTTCGCCCGCTGGTACTCAGAAATGAAGCGGAACCAGGAACGCTTTGAACATGCTGCCCGCGGAGTGGAAGCCGGCAAGATTTCCGGTGCCGTCGGGACTTTCGCTGAAGTTGACCCAGAAGTAGAAGCATATGTCTGCAAGAAGCTGGGTCTGCACGCCCAGGAAATTTCAACCCAAGTCCTGCCACGTGACCTGCACGCTGAATACATTGCTGCCATCGCCCTGGTTGCAACTTCTTTGGAAAACATCGCTACGGAAATCCGTTCTTTGCAAAGAACGGAAATCCACGAAGTTGAAGAACACTTCGCCAAAGGGCAAAAGGGTTCTTCCGCTATGCCGCACAAGCGCAACCCGATCGGTTCAGAAAACATCTGCGGGATGGCCAGAGTTCTCCGCGGCAATGTCGTAACTGCCTACGAAGATGTAACCCTGTGGCACGAAAGAGACATCTCCCACTCAGGTGCTGAACGGGTAATCCTGCCAGACAGCACCATCGGTCTTGACTACATGCTCAACCGGATGGGCAAGATCCTGGCCAACCTGGACGTCTTCCCGGAAACCATGAAGAAGAACATGGACAAGACTTTGGGCTTGATCTACTCCGGCCGCGTTCTGCTCAAGCTGGTTGAAAGCGGCATGAGCCGGGAAGCTGCCTACGACTTGATCCAGCCATACACGGCCAAGTGCTGGGCTGAACAAGTTCCATTCCGGCCTCTCCTTGAAGCAGACCCAACCATTCAAAAGCAACTGACTAAGGCTGATCTTGACGATGCCTTCGACTACCACTGGCACCTGCGCCACGTTGACGACATCTACAAGCGCCTAGGTTTGGAATAA
>SRR1919932_00398 phosphoribosylaminoimidazole carboxylase ATPase subunit
TTGTCTATTAAAATCAAGCCCGGCCAAACGATCGGCATCATTGGCGGGGGGCAATTAGGGCAAATGCTGGCTTTTGATGCCAAGGCCAGCGGAATGAAGGTCATCATCCTGGACCCAACTCCGGCTTGCCCGGCCGGCCAAGCCGCAGATGACCAGATCGTGGCTGAATACAGTGATATCGACGCCATCCATGAACTGGCCTCTAGAAGCGATGTCTTGACCTACGAATTTGAAAACGTGGACCTGGATGCCCTGGAGAGCGTCAAGGACCAGGTCTTTATTCCGCAAGGGACCAAGCTTCTATACACGACCAACAACCGGATCCGGGAAAAGACTTTTATCCAAAGTGCCGGCTGTGAAGTGGCCAAGTTCAGAGCGGTCAAGAACCGGGCTGACCTGGAAGAAGCCGTCAGTGACTTGGGCCTGCCAGCCGTTTTGAAGACCTGTGAAGGCGGCTATGACGGCAAGGGCCAGGTTGTTTTAAAAGCAGCTGCCGACTTGGACAAGACTGCTGATGTCTTGGCTTGCGGTGACTGCATTTTGGAAAAATTTGTCGACTTCCGTATGGAAGCCTCCGTCATGATTGGCCGCAACTCTGATGGCCAAGTCACGGTCTTCCCGGTCAGCGAAAACATCAACCAGGGCGAAATCCTGCATGAAAGTATCGTCCCGGCCCGGATTTCCCCGGACTTGGCCCAAATGGCCCAGGAGGCTGCCGTTAAGATCGCTGAAGCCATTGACCTAAAGGGGATCTTAGGCGTAGAAATGTTCGTTACTAAAGATGACAAAATTGTCATCAACGAACTTGCTCCCCGGCCCCACAATTCCGGCCACTACTCAATTGAAGCCTGCAACTTCTCCCAGTTTGCCGTCCACAACCGGGCTATCTGCAACTGGCCTTTGCCAAAGATCAAGCTGCTCAGCCCGGTCGTCATGGTCAATGTATTAGGCCAGCACGTGGCCGGCACGGAAAAGCTGATCGCCGAAAAGCCGCAGTGGTCCTTCCATGACTATGGCAAGGGCGAGGTCCGTAGAGACCGGAAGATGGGGCACGTGACGATCCTGACTGATGATGTCGACAAGACTTTGGCCGAGATTGCCGCGACAAAAGTTTGGGATGTATAA
>SRR1919932_00399 phosphoribosylaminoimidazole carboxylase catalytic subunit
GTGACTAGTAGAATCAGTGTTGTAATGGGCTCCAAGTCAGACTGGGGCTATATGCAGGAAGCTTGCAAGCTGCTCGACAATTTCGGGGTTGACTACGACAAGCAGGTTATTTCAGCGCACAGAATGCCGGAGGAAATGTTCGCTTTTGCCCAAAAAGCAGCGAAAAACGGTACTAAGGTGATCATTGCCGGCGCTGGTGGGGCAGCCCACCTGCCAGGCATGATCGCTGCCAACACTCCCTTGCCGGTAATTGGCTGCCCAGCCAAGACCAGCGCTTTAGGCGGGATGGACTCCCTTCTTTCCATCGTGCAAATGCCAGCCGGCATCCCTGTAGCGACGACTGCCATCGGCCCGGCCGGCGCCAAGAACGCGGCTCTTTTAGCCATGCAGATCTTAGGCATCGAAGATAAAGAACTCCAGCAAAAGATCGTGGACTACCGCAAGGAAATGCACGACCAAGCCAAAGAAAGCAGTGCAGACCTTGTCTATTAA
>SRR1919932_00400 transcriptional regulator
TTGTTTGAAGCGCTAATCGACCGCTTTGAATTTGGCCGGGACTATTCTGAAAAGGAAGTCAATGAAGTTTTGGCGGCAGTCTATGACGACTACGCGATTTTGCGCCGCTACTTGGTTGACACTGGCCGCTTGGGGCGGGACCCTTATGGCCAGCATTACTGGCGGGCAGAAAAGAAAGATTGA
>SRR1919932_00401 hypothetical protein
ATGAGACGTTTTGCCCTGGGCATGATGACCAGTGCGGCACTGATGGCCGGCCTGGCCAGTCAGGTGCAAGCAAGCAGCAAAGACTATAGTAAGAGCACGAAGACCGATCTTGTGACCAAGATCATGGGTAACAAGAGCTACCAGGTCTATTCTTCGCTCAGGCTGGAAGAGGTAACTAAGAAGGTCAAGACAAAGACCAAGGAAAAGAAGAAGTACACGGTCAAGAAGAAGGTCGCCGTCAAGAAGAAGAGTAAGAAGGGCAAGACCAAGTACAAGACGGTTAAGCAGGTCAAGTACAAGTGGGTGACTAAGACGGCCTACAAGAACGTGAAGAAGAAGTGGAAGTTCGGCAAGAAATTGACGGTCTCGGCTGACTTCAGATACGCCCACGTCCAGTCCAAGTCATACAAGGTTAAAGATGGCAAGCGCTACTACTACATCTACGTTAACGGCCGGCCAGTCGGCTACGTGAATGAGAAGGCTTTTGTCCTCTCGAAAGCTAATGTGGTTTCCCAGGTCAGCCTGGTCAACAACCAGTATGATTCAGTTGGCTTTAATGCCGAAGACGCGATTAACTACGTGACTGACCAGCACGGCAGTCTGGTTGACAATGATTCAGTTGAGATCAGCTGCAAGTCTGCTAAATTGAATATTTCTGATACTGGCTATGTATCCAGCCGCAAGGCCGGGACGGCGGTTTTGACCTTCAAGTACGGCAAGGCCAAGGCGACCAGCAAGCTGACGGTACGCGGGGATGCCAAAGAAGGGATCAGCTCGGCTGGTGTAACGCCGGTGAAAACTGATTTGCCAAAGATTGAGACCTGGTCGGCCAGAGACAGGGCCAGCTCCCACAAGCACTGGGCGACCAAGTCGGCCAGAGACAGGGCCAGCTCCCACAAGTACTGGGCGACCAACATGTCTGGCAACGCTAAAGGCGCGGATATTGAAACCATCTTCTATCATCCGGCAGTTTTGAGCGCGCCAGGTTCAAGCAACCTGGAGGCCAAGGTGTCAAGCGCCGTTCAAGGGATTGATTTTTATGACAATGACCTGGTGACCAGCAACCTTGACTTAGGCCAGGCAGACAACTGGGAAGCCCGGGGGCATATGGTCTACTATAATATGCGGAAGGTCAAGGAGTATAACTGGCAGCTGATTCCAAGCAAGATGCTGAGCTTCAACACCTGGCTAAGCTATATCAAGAACATCAAGGTCAGCCCATACATGAAGCTGGGCCATGGCCAGTCAGTCGGCAGCACCAAGAAGTATGTTTACGTTTTGGCCAACTGGAACCGGTCCAACAACTGGTCCAACTCCCAGGAACTGATCCGGGTCAAGAAATCCACCATGGAAATTGACAAGATCTGGACCTTCAAGGTTTGGAACGGGTCAGCCAAGTATCCGCGGATTTTCCTCAACGCGGACGTAATTGACGACAACACCTTGCTTGCCCTCTTCCACAATGCTTCTAAGCACCGCTATGAATACTGGAAGATCAGCAGAAACGGTGACAGCTTCAAGGCCAAGGAAGTTGGGGCAACTGGCAGCGACCTCATCAGCAATTCCGCTGAAGTCCAGGGCTTTGTCTGGAACAGTGCCTATGACGTTTACTATATTGCCTTTAACGATTACCTCTTTAAGATCGGGGCAGGCTTAGATGGCAAAACAGATGCCGGCAAGCTTTTGAACCGCTACAAGTTTCACACTAGACCCCGGGAATTTGAAGGTTTGAGCAGCTACAAGGCCGAACTCTACGTCAACTTGAATCATCCAACGGAAACTTTGAAAGTGAATCATATTACAAAGTAG
>SRR1919932_00402 DNA topoisomerase III
ATGACGACGGTAATTTTAGCAGAGAAGCCCAGCCAGGCCCGGGCATACGCGGCCGCTTTTACCCAGAGCCAGAAGGGGGAGGGGCAGATTAAGGTGGCGGACCCGATCTTGCCGGCAGACACGGTGATCACTTATGGTTTTGGCCATTTAGTGGAAATGGCCCTGCCGGAAGCCTATGACGCCAGCTACAAGCGCTGGTCTTTAAAGAAGCTGCCGATTTTTCCCGACCAGTACAAGTACCTGGTTCCCCGGGACAAGAAGAAGCAGTTCAATATTGTCGCTAATTTGCTCAAGCGGGCAGATACGATCGTGATTGCCACGGACAGTGACCGGGAAGGGGAAAACATCGCCTGGTCCATCATGCGGCAGGCGGGGATCGATTTGAAACAGAAGCGCCTTTTCCGCCTCTGGATCAATTCACTGGAAAAAGCCGCGATCAGGGAAGGCTTCCAGAACTTGCGGCCGGGTAAGGACTACTACTACCGCTATAAGGAAGCCCAGACCCGGCAGATCAGTGACTGGCTGGTCGGGATGAACGGCAGTCCCTTATTTACCTTGCTGTTAAGAAAGCAGGGGGTCAAGGGGACCTATTCAATCGGTCGGGTGCAGACGCCAACTTTGTACATGGTCTATAAGCGTGATCAGGAGATTGCTAATTTTAAGCCGGAGAAGTACTGGCTGCTCATGGCCGATTTTTGGCAGGGAAGAAAGAAATTTACCGGCCGCTTGCTGCCGGAAACGAAATTCAAGAGTCCGGCAGAACTGGAGCAGTTTTTACTGGCTAAAGGCGGGAGTCTGGGCAAGCAGACTGGCCGGGTGGCCAAGGTGGACAAGGAGCAAAAGAGCCTGGCCAGCCCCCGCCTCTTCTCCTTGTCCAGCCTGCAGACGGAAGCCAACCGCCGCTACCATGCTTCAGCCAGCCAGGTTTTACAGGCTGTGCAGAATTTGTATGAAAATAAGTTTTTAAGCTATCCGCGGACAGACTGCAATTATATTACGGACAATGAGTATGCCTACCTGGCCCAGAACCTGGACCGCTACCAGGGGCTGTTGCCAAATTCTGCAGAAGTCAAAGAGCAAATGAAGCCCTTAAAGGCGGAGAAGCGCTATGTCGACTCCGGCAAGGTCCAGGAGCACCACGCCATCATCATGACCAAGACCGTGCCCAGCCAGGCACAAATGGGCAAAATGCCCAAGCTGGAAGGGCAGGTCTATGACCTGGTCTTGCGGCGAACTTTGGAGATGTTTTTAAAGGCCTATGTCTATGAGAAGACCACGGCTTTGATTAATGTCGGCCAATTGACTTTTAAAGCCAGCGGCAATGTCAGCGTAAACCTGGGCTGGAAGATTCTGGAAGGGCCGGTTAAAGATGCCCAGCTGCCGCCCCTGGAAGTCGGCCAGGAACTGACGGCGAAATTGAAAGAGCAAGAAGAAGAGACCAAGCCTCCGGCCAAGTTTACGGAAGGGAGCTTGATCACGGCCATGAAGACGGCCGGCAAGACCCTGGACGATGAAGACGCCCAGGCTATTTTAAAGGACGTTGAAGGGATCGGGACGGAAGCTACCCGGGCCAGCACCATCGAAATCTTGAAGAAGCGGGGCTACATGCAAAGCCGGCAAAACAAATTGTCGGTTACCCCGGAAGGGACCATCCTCTGCAAGGCGGCGGAAGCTGAGCCACTCTTAGTCAGCGCGCAGATGACGGCCCAGTGGGAAAAGGCCTTAAAGCAAGTCGGGGCCAAAGAGCGGAGCCAGGATAACTTTTTAGGGCAGATCAAGAAATTCATTTCAAAGATGATTACAGAAGTGCCAGGCAAGATCCAGGTTGATCAGGGCTTGCAGGAAGAAGCCCAGACCCGGCAAGCCAAAACCGCGGCAATCGGCCCCTGCCCGGTCTGCAAGCAAGGGGAAATTACTGACAAGGGCAAGTTTTACGGCTGCAGTAATTACCGGGGCGGCTGCCATTTCACCTTGCCCAAGAAGTTTGCCGGCAAGAATATGGGCAAGCGGATTGTGAAGACCTTGATCAGCAAGGGCAAGACTGACAAGCTGGACGGTTTTGTCTCTAAAAAGAGCGGGCAGCGGTATTCAGCCAAGCTGCAGCTGGAAGGGGACAAGCTCTCTTTGGTTTTTGACTGA
>SRR1919932_00404 protease
ATGGATGGCGGGGTTATCACCAAGTGCATTTGCTGGTTCTTTGGCTCGATTGCCTTAGCAGTTGGCGCTGGACTATTCATCGTGGCTTTGCCAATCGCCAAATTGCTCAACTTGTCTATGTCCCGGCAGCGGGAATACCTGGCGGACATTGGTTCAGTCGACCTGACCAGAAATCCGCAGTGCATTGTCGGTGCATTGAAAAAGCTGGAAGCTATTGAGCAGCAATATCAGCAGCAAAAGGAGAACCCCATGGTTTTAGCTTTAGCTTTTAACAACTTCCAAGTCAAGCACTGGTGGACCAACTTGATCTCTGACCACCCGACTTTAGACCAGCGGATCGACCGCTTGGAACATACGGCAGATTTGCCTAAATAA
>SRR1919932_00405 putative nucleoside-diphosphate-sugar epimerase
TTGGTCCCATACCTGCCGGAGTTGATTGCAAGAGGCAATGTGATCTACCCGGTTGGCGATCAGGCGATGAGTTTTATCTCAAGAAAAGACAGTGCGGAAGCTATTGCCAATGTCGCTGTCCGGCCTTACCTCAGAGACAAGGGGCAGATTTACCTTTTGACCCAGGAAAAGAACTATAACATGGTTGAATTAAGCCGGATCATGACTGAAGTTACCGGAGAAAAGATCGGCTACCAGCCGGTCAGCCTAGAAGAATTCGCGAATATCTACCGGTCTGAAGGCGACGGGGATGAACTGGCCTCCATGTACAAGGCGGCAACCATGGGCTTGATGGACGGAGTTACTGATGACTTCACCCGGATCACGGGCCATACCCCACAGAATATGAAGGACTTTTTGGCAGAAAACTACAAGAAGTAA
>SRR1919932_00406 Rrf2 family transcriptional regulator
ATGAAAGTATCAACCCGCTTTAGTGACAGCATCCACCTTTTGACCTTTCTCGTGATCTACAAAGGAAAGACCACTCTGTCCAGCAACATCATCGCCAGTTCTTTAAATACTTCGCCAGTTATGGTGAGACGGTTAATGTCGAATTTAAGGGATGCCGGCTTTATCAAGACGACCCATGGGTCACCGGATCCAGAGCTATTAAGGGAGCCAAAAGACATCAGCCTGCTGGAAATCTATCTGGCAACTGAAGGTAAAAGTCCCCTTTTTGCAATCGACCACGAAACAAATCCGGACTGCATTGTCGGCGGCAACATCCAGCCAACCTTGACCGACTACTTTTCCCACGCGGAGATCGCGGCGGAGGCGGTTTTAGGTAAGATCAGCCTGCAGGACGTGATTGACACGATTTTGGTTAAAGAAGCCGCGAAAAAGCAGGCAGAAAATAGTAAAGAAGAATAA
>SRR1919932_00407 glycine betaine/carnitine/choline ABC transporter ATP-binding protein
ATGATCGAATACCGCGATGTCGGGATGACCTATGGAGACAATGTCATCTTGAAGCAGATAAATCTTACAATCAATGACGGGGAGCTTTTTGTCTTAGTCGGCCCCAGCGGGAGCGGGAAGACGACTTTGCTCAGAATGATCAACCGTTTAACAGAACCGACTCATGGCGATGTCTACTTAGACGGCAAAAGAGTCAAAGACCACGACCTGCGCCAGCTCCGCCTGCATATGGGCTATGTCCTGCAGACTAGCAGCCTTTTTCCTAACTTAACGGTTGGCGACAATATCACTATCCAGCTGGAAGAAGCCGGAGTCAAAAAGGTTGAACGAAAGAAGCGGGCCTTAGCATTACTGGCCCAGGTTGGCCTGGAAGGGGACAAGTATATCTCCCGGCTGCCCAAAGAACTTTCAGGCGGCCAGCAGCAGCGGGTCGCTATCGCCCGGGCCATGGCCAGCCAACCCAAATTGATCTTGATGGACGAATCCTTCAGTGCCTTAGACCCGGTCCTGCGCCGCCAGCAGCAAGAGCTCCTACTTGACCTGCACCGGCAAAGCAAGACCACGGTTGTCTTCGTGACCCACGACATGCAGGAAGCCTTGCGTTTAGGGGACCGGATCGGGGTTATCCAGGATGGCTGCCTGCTGCAAGTCGGCAACCCGGAAGAAATCGTGCAAAAGCCCGCCAACTCCTTTGTGGCTGACTTCTTCAAGAGCGCCCGGCCACGGCTGGGCACTATGCTTGAGCTTTTGGCTAGTCCATACGTAAATAGAATTACAGAAGAGAATCTGCCGGAAGTTGAGAAAGTCGAAGAAGTCACGGGATTAGCTGAAAAAGCTGGCTTTTTGCAATTTGCCTACCAGGGAGCAGGTTACCAAATCAAGTCCAGCGACCTGTTGCACTACTTTGGAAAATGGGGGGACTAA
>SRR1919932_00408 glycine betaine/carnitine/choline ABC transporter substrate-binding and permease protein
ATGAGTGAATTGATCAATACTATATCGTCCCACCAAGGGCAGATCTGGCAGGCTTTAGGTGAGCACTTGCTCTTATCCATGGAAGCCCTCTTGCTTTCTTGCTTGATCGCCATTCCTTTAGGGATGCTCCTGGCCCACAGCAAAAGAGCCGGGGAAGTGGTCTTCCAGATCACCAGTATCATCCAGACCATCCCCAGTCTGGCCCTGCTCGGTCTCTTGATTCCTTTTGTCGGAATCGGGACGACTCCGGCCTTGATCGCCTTGACTGCGTACGGGATCATGCCAATCTACCAGAATACCTACTCGGCTTTAAGAAATATCGATCCCAACTTGGAAGAAGCGGCCGATGCCTTTGGCTTAAGCCGCTGGAAAAAATTATCCCGCCTGGAATTCCCCATTGCCCTGCCCATAATCCTTTCCGGCGTCAGCATTTCCTTAGTCATGATTATTGGGACAGCCACGCTAGCTGCCATGATTGGGGCCGGTGGGCTTGGGACCTACATCATGATCGGGATCCAGCAAAACAACAACACCTATATCTTGATCGGGGCTGGTCTGTCAGCTGTCTTGACTTTGGCCATGTCTGGCCTGCTCAAGTTCATGGCCTCATCAAAAAAGCACTTCCGTGTCACAGCCGCCGTCCTGGCAATTTTTGCCATTGGCTTAGGAGTTAGCCAGGCTCCGAAATATTTTACCCCGAAGCAAGAGGAAGTCGTCATCGCTGGCAAGCTGGGGAGTGAACCAGACATTTTGATCAACATGTACAAGGACTTGATTGAAAGGGACAATCCTCATGTCAAGGTGACCCTTAAGAACAACTTTGGCGGGACCAGCTTCCTGTTCAATGCCTTAAAGACGGGCAAAATCGACATCTATCCGGAATTTACCGGGACGGTTCTGCAAGGCCTGGCTAAAAAGAAGGTGGCCACTCCGCATGACCCGGCTAAAACTTACCAGCTGGCTAAAAAGCTGATGGCTGAGGAGGACCAGCTGACTTACCTGCCGCCAATGAACTATCAGAACGGCTACGACTTGGCGGTTACGAAGGCTTTTGCCAAGAAACATAATATTAAGAGCTTAAGCGACTTGGCGAAAGTGGACGCTTCCTTAACCGCTGCTTTTGACCCGAACTTTGCCAACCAGCAGGATGGCTACCTGGGATTAAAGAAGGAATATGGCCTGAACTTCAAGGTTAAAACTATGGAACCTGCTCTGCGCTATAAGGCAATTGCCAGCGGCAAGGTCGCAGTCGTTGACGGCTATACGACCGATCCCCAGATCAAGCAGTATGACTTAGTCGCCTTAAAGGATGACAAGAGCTTTTTCCCGCCATACCAAGGGGCGCCTTTGCTGAAAAATTCTTTTGCCCAAAAGCATCCCGGCGTCGTCAAAAGCCTGAACAAGCTTGCTGGCAAGATTACTGAAGCTGAAATGCAGGAAATGAACTACAAGGTGACCGTCAAGCACGAGAGCGCCAGCAAGGTGGCCCGCCAGTACCTGAAGCAGCATGGTCTGCTCTAA
>SRR1919932_00409 lactaldehyde dehydrogenase / glycolaldehyde dehydrogenase
TTGACAGAACACTATTTAAACTATGTCAATGGCGAATGGCGGGACTCCGCTGACGCGATTGAAATTTTCGAACCAGCAACTGGCAAGTCCCTGGGTACTGTACCTGCCATGTCCCACGAAGACGTGGACTACGTAATGGACAGAGCCAAAAAGGCCCTTCCAGCCTGGCGGGCCCTCTCATACGTTGAACGGGCCGCATACTTGCAAAAGGCTGCGGACATCCTTTACCGGGATGCTGAAAAGATCGGTTCTACCTTGTCCAAGGAAATCGCCAAGGGCCTCAAGTCCTCTATCGGTGAAGTAACCCGGACGGCGGAAATCGTTGAATATACGGCCAAGGTCGGCGTAACTTTGGACGGGGAAGTTATGGAAGGCGGCAACTTTGAAGCGGCAAGCAAGAACAAGCTGGCTGTTGTCCGCCGGGAACCAGTCGGCCTGGTTTTGGCAATTTCACCCTTCAACTACCCGGTTAACCTGGCCGGCTCAAAGATCGCGCCTGCTTTGATGGGCGGGAACGTGGTGGCCTTCAAGCCGCCGACACAAGGGGCAATCTCCGGTCTGCTTTTGGCCAAAGCCTTCGCCGAAGCTGGCCTGCCAGCCGGCGTCTTTAACACCATTACCGGCCGGGGCCGGGTTATCGGCGACTACATCGTTGAACACCCGGCAGTCAACTTCATCAACTTCACCGGTTCCAGTGCTGTCGGCAAGAACATCGGCAAACTGGCCGGGATGCGACCAATTATGCTGGAACTTGGCGGCAAGGACGCGGCCATCGTCTTGGAAGACGCTGACTTGGACTTGACGGCCAAGAACATCGTTGCCGGCGCCTTTGGCTACTCCGGCCAGCGTTGTACCGCCGTTAAGCGGGTTCTGGTCATGGACAGCGTGGCTGACGAATTGGTTGAAAAGGTGACTGCTTTGGTCAAGGATTTGACGGTCGGGATGCCAGAAGAGGATGCCGACATCACTCCTTTGATCGACACTAAGTCTGCCGACTACGTACAAGGCTTAATTGAAGAAGCCGCAGAAAAGGGCGCTAAGCCTTTGTTTGACTTCAAGCGCGAAGGCAACCTGATCTACCCAATGGTCATGGACCAAGTGACGACTGACATGCGCCTGGCCTGGGAAGAACCATTTGGGCCAGTATTGCCATTCATCCGCGTCAAGTCAGCTGACGAAGCTGTCAAGATTGCCAATGAATCAGAATACGGCCTGCAAAGCTCCGTCTTCTCACGGAACTTTGAAAAAGCCTTTGCCATTGCAGGAAAATTGGAAGTGGGCACAGTCCACATCAACAACAAGACCCAAAGAGGTCCGGACAACTTCCCATTCCTGGGCGTAAAGAGCTCAGGGGCAGGCGTACAGGGGGTCAAGTACTCCATTCAAGCCATGACCCGGGTCAAGTCCGTTGTCTTCAACATTGAAGGCTAA
>SRR1919932_00410 homoserine O-succinyltransferase
ATGCCAATTACTTTAGATAAACAGTTAGCCGCCATTGATGTGTTAAGGCAGGAGAATATTTTTGTCATGGACTCGCAAAGAGCCCGGACCCAGAACATCCGGCCTTTAAAGATTCTGGTGGTTAACCTGATGCCTAAGAAGGCCAACACGGAAGTGCAATTGCTTCGCCACCTGGCCAACACGCCCTTGCAGCTGGAAGTGGAATTCCTCTACATGGCCAGTCATAAGTCTAAAAATACTTCCAACGAATACCTGGAAAACTACTACCGGACCTTTGCCGACATCAAGGACAAGCGCTATGATGGGATGATTATTACTGGCGCCCCGGTTGAACAGCTGCCTTTCAAGGAGGTCGACTACTGGAGCGAGCTCTGCCAGCTGATGGAATGGTCCAAGACCCATGTCTACTCCAGCCTCCACCTTTGCTGGGGAGCGCAAGCCGGGCTTTACTATCACTTTGGGATCGACAAGCAGACTCTGGAAAAGAAGCTGTCCGGCATTTATGAGCAGGAAGTAGTGGGGACCAGCCCCCTTCTTCGCGGCTTTGACGACTCCTACCGCTGTCCGCACTCCCGCTATACCACGATTTACCCAGACCAATTAAAGAAGTGCAGTCTGCAGATTTTGGCGGAGGGGCCGGAAGTCGGGGTTGCAATCGCGGCTAGTGACGACTTGCGGCAGATCTACAGCTTTGGCCATTTGGAATACTCCAGAGACACCTTGTCTGAGGAATACCATAGAGACCTTAATGCCGGTATCAATCCGCTTTTGCCGGTTAACTACTTCCCGGATGACGATCCGGAGAAAAAGCCCCGCTTGACCTGGAGTCTGGCCGCCTCAACCTTCTTCAGCAACTGGATCAACTACGCCGTTTACCAGGAAACGCCATACGACCTGGCAGAACTGGACTAA
>SRR1919932_00411 putative membrane protein
ATGTTTTTCTTCTTCCTAGAACCAGTTTTAATCTACAACTGGCTCCTTATCCTGGCCGCGGTTATCCCCGCCATCTTCCTAATGATCAAGGTTTACCAATCTGACCGGCTGGAGCCGGAAAGCCCCTACCTTTTGTGGAAAATGGTGACCGGGGGGATCTGGTCAGCGGTGGTTGCCGGCATCCTTGAATGGATCGCCAATGGCGTTTTAACTTCTTATGTCTCGCAAAAAGATCCAATCTACAACGTCATCATGTACTTCGTGATCGTTGCCTACGCTGAAGAAGGAGCCAAGTACTTCTTCTTAAAGCGCCGGTCCTGGTTCAGCCGGGAATTTAACTGCCAGTATGACGGGGTTGTCTACGCTGTCTTCGTGGCCCTGGGCTTTGCCCTCTGGGAAAATATCTCCTACGTCATGATCTACGGCTTCTCTACCGCCTTAGTCCGGGCTGTAACGGCCGTTCCCGGCCACGCCTGCTTCGGCGTCTTCATGGGGATCTTCTATGGCTTGTCCCGCGGCTACGCCTACCTGGGCAAAAACATCCGGTCCAAGTTCTTCCGCGTTTTGGCTATCGTCGTGCCAGCCGCCCTGCACGGCAGCTACGACTACGTGGCTTCCCTTAATTCCGCTGAAGGGCAGTGGATCTTCCTGGCCTTCATCTCCGTCCTTTTCTTCATCTCCTTCCATCTGGTGAACAAGATGTCCAAAAACGACAAGTACTTCCAAATCGACCGGTGGAATTACCTCTTCTAG
>SRR1919932_00412 pyrrolidone-carboxylate peptidase
ATGACCAAAATATTAGTGACAGGTTTTAACCCCTTCAACCATGAAAAAATCAATCCAGCCATTGAAGCAGTGAAATTGCTGCCAGACGAAATCGCTGGCTGTGAGATTATCAAGCTGCAGCTGCCGACCAGCTACCAGAAAAGTGAGAAAAAGCTGCAAGCAGCTGTTGAAAGAGAAGAGCCAGGCTTTGTCTTAAGCGTGGGCCAGGCCGGTGGCCGGGCCTGTTTGACTCCAGAACTAGTCGCCATCAACTATGATGATTGCCCGGTCGCGGACAATGACGGGGAAAAGCGGGAAGGACAGGCGATTAATCCGGAGGGCCCAGCGGCTTACTTTACCCAGCTGCCGGTTAAGGAAATGGTCAAAGCTGTTAAAGCGGCGGGCATCCCGGCTGAAGTGTCGACCACGGCCGGCTGCTTTGTCTGCAACCATGTCATGTATTACGCGCAGAGCTTGAGAAAAGAATATCCGGGGATGCAGGCTGGCTTCATTCATATACCTTTTTTGCCAGAGCAGGTGGTCAAGCGGCCAAATCAGCCATCAATGGCTTTGGAAACAATCGTGACTGGCTTAACCGCGGCAATTGCTGCATTTTTGCCGGACGGGTACTAG
>SRR1919932_00413 hypothetical protein
ATGAGAAGCACGGAAGAAACCATGTTGATGGACACCATGATTGCCAATGGCGTCAGCAACAAGATGACCGAGCAGGCAACTGGTCTTGCGGCTCCAAAGCCGGTGCAAAAGGAAAATGCAGCTAAGCTGGAGACGCGTGACATGCTGCTGGCCAACGGGGTCGACGAAGAAATGGCCGACCTGGCGGCAGATCTGTAA
>SRR1919932_00414 SAM-dependent methyltransferase
ATGACACAATTTATTGAAAAAATTTCAGCCTTAGCCAAGGAATTTGCTGATCCGGAACTGGGCCGGCAAGTGCAAGAGATCAAAATGATCGATGAGTGCGTATCTAGCCAGCGGATGCTGCTGTTCGCGCCAGACCGCTTAGGCATCAGTGATGACCGTTTTGCCGAGCTGACCTGGGAGCCGCCTGACAGCCAGATCAAGGACCTGCGGGTTTTAAACAACCTGCTGAACAATGTCCGCCAGTACCTGTCTCTGGAATATGGGATCTGGTCACTGCCAAACATGGAGACGGCCCAGCTTTTTAAGAACGAATTAGGGATTGAGACAGCCCTGGAAGTTATGGCTGGCAACGCCTACTGGTCTAAGGCCTTGAGCGAGGCCGGGATTCAAGTCTGGGCCACGGATTCTTTAGAATGGTCCAGGAGCTCAAAGACCGGGAAGAAGCCTTTTTACCCAGTTGAAAACCTGCCAGCTGACCAGGCAGTCATGAAGTACGCGACCTGCGACATGATTCTCTGCTCCTGGGCGCCGAATTTCGGCCAGGCGGATTTGGAACTGATCGCTGCCAAGCAGCACTACGCTCCAGCTGCCCGCCTCTTTTTCATCGGGGAAAAAGGGGTGACCAATTCCCCGGAATTCTGGACCAGAAAGCATTTCGCCAAATCAAGCGAACTGAGAAAGATTAACCGCAGCTTTAAGTCCTACGACTTTATCAAGGAAAAGTTTATTGAGGTGAGCTGA
>SRR1919932_00415 hypothetical protein
ATGAAAAGGTACAAACTGTTTGTTATTTTGTCCACCTTTTCCCTCTTCATCATGATTGGCATCGTCTACTCCAACATGCAGTCCCAGCTGGCTGACCAAATTCTGCAGGCGCAGGGGATGAGCATGGAGGCCCGAATCGTCAAGCCGAAGAAGACCATGACAATTGCCTCCTTCCTTAAGTGGATCAAGAAAGAATTCCCTAAGGAAAGCATCCAGATGCAGTTCAAGAGCAAGGAGGACAAGAACCAGGTCTTGATCTGGTCACAAAACAGGGACCTCAACTACTTCCCTGTTTCCAGTGGCCGCTTTTTCAGTGAAGATGACTTTAAAGGGCAGGTCACCATCGCGGCGGTCTCCCCATCTTCAGCGGCTGCCCAGATCAAGACCCAGGGCAATACTTACTTGATCGCCAACGGCCAGTACTATTCAGTTGTCGGCAGCCTTAAAGCTGTGCCATACCAGTCCAGCAAGGCCTACTACTTGACGACGGGGGTTAAGCAGGAAACCGGGCAAAGCCGGATAAACCACTTTACCTTGTACGTGGACGCCAGCAGCCAGACGATCGGCAAGATCGCCAGCCACTTAAAGAGTGAGACCTATTGGCCGGACTTCGTCAAGCGGGGCCGGCAAAGAAGATTGACGCTTCTCATGCCAGAAGCCCTCTTGATCCTCTTTTTGCTGGGCGTGGGGGTCCTTTTGATGGGTCTTATTGCCTGGCTGACTTGGAAAGAAACTGATTTGAGCCATGTTAAGGGAGACCTGTTGCCCAACCTCCTCTTGAACCGGAGCGGGCGTTTTATCGTCTTTATGGTCCTGGAAGCTTTTACCTCCTACTTCCTCTTGGTGTGGAAGGCCTACTACAGCAACCAGAGCATTTTAGGCCTGCTTTTGCTCGGGACAGTCGTGGTTGAACTGGCAGTATATGTTGGAATGATGGTTTATATGTACAGAAAGGGGAAACAGGCGGATGATTGA
>SRR1919932_00416 23S rRNA methyltransferase
ATGATTGAGATCCCAGACCAGTTTAAGGAGAAATTTACGGGTCTGCTTGGCCAGGAAGAAGCCGGCAAGCTGCTTGAGTCATTGGCTGAGCCAAGCAAGAAGGCCTACCGGATCAACAGTTTGAAAAAGGGAGCAGTGGCATACCCGCAAGAAGAGGTGGTGCCCGGCATCCCTAACGCTTATTACGGTGAAGTCTCCGGCAAGGACCCGGAATGGACAGCTGGCATGGTTTACTCGCAAGACCCGGCAGCCATGTTCCCGGCCCAGGCAATTCCAGTTAAGCCAGGTGACAAGGTTTTGGACTTATGCGCGGCTCCCGGCGGGAAAAGCACGGCTTTAGCCCAGAAGCTGCAAGGTGAGGGCTTATTGGTAGCCAATGAAATTTCGCCGTCCCGGGCCAAAATTTTGCGGGAAAACCTGGAGCGGTGGGGCGTAGCAAACGCTGTCGTTACGAACTGCGACTCTTTTGCCTTGAGCGCCCGTTTCCCGGGATTTTTTGACGCGATCTTAGTGGACGCGCCATGTAGCGGGGAAGGGATGTTCAGAAAGAGCGAGGACGCCATCAAGTACTGGAGCCAGGAGAATGTTGATCTCTGCGCAGACCGGCAAAGGGAAATTTTGACTGAAGCGGTTAAGATGCTGAAGCCGGGAGGGTATTTGCTCTATTCGACCTGCACCTTTTCACCAGAAGAAGACGAGGAGATCGTCAGCTGGCTGCTGGACGAATATGGCTTTAAGCTTTTGCCAATTGCGGCAGAGAAAGCCGCGCCTGGCCGGCCGGAATGGGGCAACGGGGATGCTAGTTTAGCAAACTGTGCCCGTTTTTGGCCACAAGACGGTGTTGGTGAAGGGCAGTTTGTCGCCAGTCTGCAAAAGGCAGCTGGCGAAGAAAACTTTGCAGCTGAAGCAGGAGAAGCTTTTTATCCGGTCAGAAAAATCAGAAAAAACGAGGACAAGAAGAAAAAGGGCAAAGGCAAGAATAAAGGGAATAGAAGCAGCCTGGAGCGGCCAAGCAAGGAAGAGTACGGCTATATCAGTGAAGCTATAGCCGGCTTTAACTGGCCGGAAAGTCTGGCTTCCTGGCCAAGCCAGATGCTGAAGAGCCAGGATCATGTCTTTGTCCCGACCCTTGAACCTGAACAATTGAAAGGGATCAAGGTCCTTAACAACGGTCTGGAACTGGGAATTTTGAAGAAGAAGCGCTTTGAGCCAAGCCACCAGCTGGCGGAAGTTTTAGGTCAAGTTGACCAGGAAAGAGTGGTTGACCTAACTGAAGACGAGTATGACCACTACCTGCATGGGGAAAGCCTACAAGTAAATAGCAGCTTGAAAGGCTTCGTCTTGGTTTCCTGCCGGGGGATGATTTTCAGCTTTGGGAAACTCTCTGGCAAGGGACAGCTGAAGAATTACTATCCTAAGGGTTTGCGGCAATAG
>SRR1919932_00417 microcin C7 resistance MccF related protein
ATGAAGGCAGCCCTGGTTGGGTGTTCAAATCCCTTAAAAGCAGCATATCGGCCAGTTGTTGACCAGCTGGTAAAGATCTTGGAAGACCGGGGACTGGAAGTCGTGGTCAGTCAATTTTTGACCGATGATACATTAATCGGCCGGGGAGAAAAGCGGGCAAGGGAACTGGAAAGTTTCTTCCTGGATCCAGAGATGGCGCATATTTTTGACATTTCTGGCGGGGACTTGGCCAATACGGTTTTAGGGCACTTGGATCTGGATCAGATCAAGGACAGCCAGGCGGTCTTTTACGGCTACAGCGATTTGACCACGATCTTGACGGCCCTGGCCAAAAACGGCAACCAGGCGGTCAACTTCCAGCTGCGCAACTGCCTGGTCAACAAGGATTTGCTGAAGAGCGGCTATTTTGACCGCCTGCTGGCAGGTAAAGAAGCAGCAAAAGAGCTTGATGAGCTAGAAGTGACTTTTGTCCGGGGAAGTAAAATGGTAGGGCCAGTTTACGGGGGCAACCTCCGCTGCCTGCTGAAACTGGCGGGGACGCCCTATTGGCCCGATTTTACTGGCAGCATCTTGCTGCTGGAGGCCTACCGGGGTCAGCCGGAGCTGGTAGCTAGTTTACTTGAGCAATGCTGGGAGACCGGGATTTTTAACCAGATCAGCGGCGTTTTACTGGGGACATTCAGTGAGCTGGACAAGTTAAAGGAAAGCCAGTTGCCAGCAGAAATTCTCCTGGACCTGCTGCCAGCACATGTCCCAATCGCCAAGACTGAATTTATTGGCCACCGGCTGGATGCTAAGGCAATAAGGCTGGGGCAAGAGTGCGTTTTCAAGGAAGTTGGCGTATAA
>SRR1919932_00418 hypothetical protein
ATGGAATACGAATACAGACTGGTTGACCGGGATCTGGCGGTTGACGGAGTAAAAAGGCTCTTGCCAGATGTAGTTTGGAAGATTGCCAATACGGAACTGGTTGAAAGTATTGGACTGCCAGAGGTTAGATGA
>SRR1919932_00419 hypothetical protein
ATGCAGTTCATGCTGTCCAACCTTGACCGGCCAGTTGACTTGGACCTGGTGAAGGAATACAACCGGATTGTATGTGAGAGCTTGTGTGATAAGCCGGGTGAGATCAGAAGCTACCCGGTGAGGATTACGGGAACGGATTATAAGCCGGGGATGCCAGCTATTGGAAAAATTGAGGAAGTGTTGCAACTGGCAAAAGAGATTGACCACCCAATAAAGCAAGGCTTCTATTTGTTTGGCCATATTGCCAGAGAGCGGTGA
>SRR1919932_00420 hypothetical protein
GTGGCCAACCACGTTTTTGTCCAAAATAACGCGGCAATGCGGGCAGTCCCGGTTGAAGAGCGGGAAAACTTTTGGCACAAGCTGGTGAAGTTCTATGAGACTGGCCAGCAAGATGACTTGAACGACTTCTTGTACAAGACCTCGATTGGAATTATGCAGGGCGGCTTGACTATGGAAAAGACCCGGGAGATCGAGGAAAGAAACAGGAAATGGTTGGGGCTGGAGTAA
>SRR1919932_00421 restriction endonuclease
ATGAAAAGTAATTTCGAATTTTTAAAAAATGAGGATGATCTCCAAAAGTATTATGCCAATGCAGTAAATGCTGAAAGGCTGTATGCAGATGGATACTATTCTGAAGAAGTGATCAACGTTAGAAAGATAGCGGAAGAGCTTACTAAAGACATCATGGATTTGGAATACTTGCAGGTTGACGAGCGCGCGACTTTTAACGATAATTTGACTCGCTTGCGGAAGGGTGCCTATGTGACTGACCGGGCTATTAGCGTCTTTTACGAAGTTAAGCGCAGTGGGAATGTTCAAGCACATGCTTTGGAAGAAACGGCCACTAAAGAAAGTGGCTTAAAAGAGCTGAAAAACATTCGCTACCTGCTCGCTGATTTTGCCCACAAATATTACGACATCCATGTCAATACCAGTTCAGATGAGTTTATTGAACCGGAAAGAGAAACTAATTACTCTTCTTCTGAGAGAAGACTGGTTTACATTCAAACTGCTGATAATTCAAGTGGAAATTGGCCAGCCTATATTGGGGCACGAAAAGTTGGCAAGGCATCTATTGAAGAAGACTTTAACAACGACTTAAGACCTAATAGTGATTATCTGCGTATTCGTGCTGATAAGCGAGTTAAGCAGTACATGGGAACAGGTGGTGTACCATACGTCATTGAATGGGCTGAATTGGGCTACTCACCAGTAACCAAGAGATGGTTTGGAGATGAGGCAGTTCATGATGTCTTAAAGCGTTCTGGGATCAAGCATGCTGAAGGGTTGGAAGGCAACGAGTGGTACAAGGTCGATCTTGAAACTGCCAAAAAGGCGATTCAAGCGGTCAAAGATGGCAAGAGTGCCATTGAGCTGGATAGTCAAGCTCCTAAGCAGCAAAAGCCAATTGAGGTTAAGATCACTCTGAGACCAGAGCAGAGGGATGCAATCGACAAGACCAAGGCCGCATACAAGCACTACAACCGTATGCTTTGGAACGCAAAGATGCGCTTTGGTAAGACCATCACTGCTTTGAGCTTGGTTAAAGAGTCTAAGTACAAGAAGGTCCTTATTATGACTCACCGGCCGGTGGTCAACGAGGGCTGGTTTGAAGACTTTAACAAGATTGGCATGACCAAGGCTGGCTATCTCTACGGCTCTAGAAACCGGGGCCACAGATCAGTTGAGGAACTGGAAAACTTAGGCCAGCCATACGTTTACTTTGCTTCCATTCAAGACCTGCGGGGGTCAACAGAAATCGGTGGCAAGGTTAGCGATAAGAACCACGATGTCTTCTCAGTTGCCTGGGACTTGGTTATTGTTGATGAAGCCCACGAAGGGACGCAGACTGACCTGGCACAAAACGTCCTTGATGCTGTATTAAGAAACAAGCGGACTACCAAGCTTTTGGAATTGTCCGGTACTCCGTTTAACCTGTTGTCTGACTATGACGAAGAGCAGATTTTCACTTGGGACTACACCATGGAGCAGGAAGCTAAGCTTGCCTGGTCAGAAGAACACCCGAATGAAGTCAACCCATACGAGAGTCTGCCAAAGGTTTCCATGTACACCTTTGAGATGAGTGACCACTTTAAGGACATCAACTTTACCGGGGATGGTTTAGGGAGATATTCATTTAACTTCAAGGAGTTCTTCCGGACTGATGAGAATGGCAAGTTTGTGCATGAGAAGAATGTCCGCCAGTTCTTAAAGAACATTACTTCACCTGGTCCAACAAATTATCCATTTGCCAACCGGACTTTCCGGAACAACTTGCGACACACTTTATGGATTTTGCCAGGGATTAAAGAATGTAACGCCTTGGAAGACTTGCTTAATGAACCAGGTACAGTCTTCCACGAAGAAGGCTATAAAGTAGTTAACGTGGTTCGCGGAGACAAGACAGCGGATGAAGAAGCCAGTCAAAGCGATGTAGAACGCGTTAACCGGGCGATGGATCCAGATCCAGCAACAACTAAGACGATTACCTTAACAGTACGGAAGATGACCACTGGGGTAACGATTAAGCCTTGGACTGGCGTTTTATTCTTGTCAAACACCAACAGTGCCATGCAATATCTGCAGGCTGCCTTTAGAGCACAGACGCCATATGCGTCTGTGACTTTCGGTCAGAAGACCAACTGCTACATTTTCGACTTTGCGCCAGACCGGGCTTTGACAGTTATGGCCGAAGCAAGTAGCTTGTCGACGGGGGCTGGTAAGCTGAACAGCGGTGAACAGGAAGAGCGGATGACCAAGTTGCTTAACTTCTTGCCGATTATCGGTGAGAAGGGCAATAAGATGCATGTTTACAACGTAAACACGCTGCTCACCAAGCTCAAGAAGGCTTACGCGGAAAGAGCGGTTCGCTCTGGTTTTGATGATAATTCTATCTACTCGGACAAGCTCTTGAATATTGAGAGTCAAGACATTCTTGATAAGTTCAACAAGCTGAAGGCAATTGTTGGGACAACCAAGAAAGAAAAGCAAGAGACAAAGATTGACATCAACAATCAAGGCTTGACCGATAAAGAGGCAGAGACTGCAAGAAAGGCAAGGAAGAAAAAGCCGAAAGAACGCACTAAGGAAGAGCAAGAAGCGATTGATAAGGTCAATGCTCTTAAGCGACAGCGCCGGACTTTGATCTCAATTTTGCGCGGTATTTCGATTAGAATACCGATGATGATCTACGGGATGGACATTGACTTTGATGAAGACGTGTCAATTCAGCAATTTATGAACCGGGTTGATGACGTGTCCTGGCAGGAATTTATGCCTGCTGGCGTTACCAAGGAAATGTTTAAGCAGTTCATACCGTATTACGACTCGGAGATCTTTATCGAAGCTGGTAAGATCATCAGAAGACATGTCAAGGAGCTGGATAAGGCTGATCCACTTGACCGGGTGGAAAAGATCGCTGATATTTTCGGGACTTTTAGAAATCCTGACAAGGAAACCGTGCTTACGCCATGGCGCGTGGTTAACATGCATTTGGGCAAGACGATTGGCGGACTTGTTTATTATAACGACGATTATGAGACCCAGTATGTTGATGGTAAATCTGCGATGCATTGGGTATCATCTGAAGATACAGAGCGGGTTTATCATGAGAATACCCGTATTTTAGAGATCAACGCCAAGACTGGGCTTTATCCGTTGTTTGCGGCTGCATCCCTGTACTGGAAGGAATTCCAGAAGATGAATGATCAGACGGCTGGTAAGTTTAGTTTGATCGATGAACAGTTCATTTGGCAGAAGATTCTGCGGGAAAACATCTTTGTTGTGGCTAAGACACCGATGGCAAAGGAAATTGCGACCCGGACTCTGAGAGGATACAATTCAGATTGGGATGTTAACGCGGAATACGTCGAAAATATCATCAAAGACGCTAAAACCGACGTTGATGCGGAAGCTAAGAAGATTGAGAGGCTATTTGGAAATATGAAATTCGACGTCGTAATTGGTAATCCACCGTATCAAGATTCTGCAACAGGTGATAATGACAACTATGCTGCACCGATTTATAGCGACTTTATGGATCTCTCATATAAACTATCTGATTTAGTAACGCTGATCACCCCAGCCAGATTCTTGTTTAATGCAGGTGGTACGTCTAAACAATGGAATAAGAAGATTCTGAATGATCCTCATTTCAAGGTTGTTTTGTATGAAGCAAACAGCAGCAACATCTTCCCGCACACTGATATAAAAGGTGGTGTTGCTGTCTCTTTGAGAGATGAGCATCAGAAATTTGAGCCTATTGAAATTTTTACTGCTTTTCCAGAACTAAATAGCATTCTTAAAAGGGTTCTTCCCAAAACAAATGGATCTCTATCAGAAATAATATCAGGACGTGGTGTATATAAGTTGTCCGATAAAGCTTTGTCCGATCATCCGGAAATAGAACAGTTACAATCGAAGGGTCACAAAAAGGATGTTGGGTCAGGTGCCTTCAGAGTTCTAAAGGATGTAGTTTTCTTTAAAGAGAAACCCAGCGATGGACACGATGATTATGTTAGATTTTTAGGTCTATCTAATAGAACGCGCGAATATTGGTGGGGTAGACAGATATACCAAGATGTTCCAGATAGTTTCTATCACTTTAAAGTATTTATTCCACAAGCAAATGGAAGTGGAACTTTTGGTGAAGTTCGTTCAACACCGTTGATTGGAAAACCGTTGATTGGAAAACCGTTGATTGGTGCTACTGAAACTTTTCTTTCAATTGGAAACTTCCTTTCTGAAGATGAAGCAACCGCATGTCTAAATTACATTAAAAGTAAGTTTGCACGTGCGATGTTAGGAATTTTGAAAACAACCCAAGCGAATACAAGGTCAAAATGGGAATACGTCCCACTTCAAGACTTTACCCCTAACTCTGATATTGACTGGACAAAGTCAATCCCAGAAATTGATCAACAACTTTATAAGAAATATAATCTCTCTGAGAAAGAAATCAACTTCATTGAAACGAAAGTGCAGGCAATGGATTAA
>SRR1919932_00422 methylase
ATGACTGATGAACGATTGATCAAATCGGCAGATCGGGTCAAGGATGTCGGTGAAGTCTTCACACCAAAACGCATAGTTGATCTGATGCTGGATCAACCGGAAATTAGTGCTAAAGTAAATGACTTGACTGCTACTTTTTTAGAACCATCAGCTGGTGAGGGAGCTTTTTTAACAGAACTACTTACACGTAAGATGCAAGTAGCTCTTGAAGGCAGTAATTCAGTTGATAATTATGAAGACAGAATTTTGCTGGGACTTTCATCTCTTTACGGTATTGAACTGATGGAAGATAATTACCGCATGTTGCGGCACAACTTGTACCAAACCTTTGCGGTGAACTATCTTAGAGGACTCAAAGCAAAGGGGCAACCAGAACATGGCAAACCTAAGGTTTTGAAAAGTGCTAAAACCATAATTTTCGCCAACATGGTTCAAGGCAACACTCTGACTTATAAGAACGTTCAAGATCAGCCTATCGTGTTCAGTGAATGGGCTTCATATAAGCAAGAAGGACGGATTTGGGTTAAGCGCACAACTCAGACTTTTGAGTCGATTGTTGAAGGCGAGCAGACTGATAATGGTTTAGTCGTTCCAGAAGATTCACAGCTCGACTTATTTACTGATTTCGATCCAGATACCCATGAGGTAAAATCGAAGGATTCTTATCTCCAATATAAGCCTGTTCAAATTGTTGACGTCTACAAAGAAGAGTTAGTTGATACAAACAAAGAATAA
>SRR1919932_00423 phosphinothricin N-acetyltransferase
TTGACTGAATTAGAGTTAAGAAGGGCTAACGTCGGGGATGCGGAAAGATTGCTTGAAATCTACGCTCCTTATGTGGAGAAGACAGCAATCACTTTTGAGGATGAAGTTCCACCTATTGGCGAATTTCAAAACCGGATTTTAAAAACTCTGCGGATCTATCCCTATCTAGTCGCGCTTAAAGATGGCAAAATCGTTGTCTATGCCTATGCTAGTGCATTTAAGGAGCGGGCAGCTTATGACCATAGCGTGGAGTTGTCGATCTATGTTGATGCTAATGTCCGTCACCAGCATGTAGGCAGATTTCTATATGACGCGATAGAAGACTGCTTAAAGAAGCAGGGATTTCTCAACTTGAACGCCTGCATCGCTGCTCCTATTGGTGAAGATCCGTATCTGGATGACAACAGCATTCGCTTCCATGAGCACTTAGGCTACAAATTTGTCGGCCGTTTCCACCAGTGCGGCTATAAATTCGGCCGCTGGTATGACATGGTTTGGATGGAAAAGATGCTTGGTGAGCATACCGTGCCTGCACCAGCGATCATTCCTTTTCCGGAGATAAAAAATGATTAA
>SRR1919932_00424 hypothetical protein
ATGATTAACGACATCAATACCCTGGCTGACTACTTAGGGCCCCGCGACTTGCCGGCTTTGACCCCGGCAGCCTTAGAAGGAAAATACGGCATCCCCCAAGCCGACGCTTTCGTTTTATTTGGCGGCAGTATTTTGCCCGGCGGGGATGTCTTTGCCGCGGCTAAAAAGGCTGAGATTGCCAAAAAATACATCATCGTCGGTGGGCATGGCCACACGACTGATGGCTTGCGGGCCCAGGCAAAAGCCGTCTTTCCGGATCTGGAAGTTGATTCTTTGTCAGAAGCGGAGATTTTTGCCGCCTATTTGCAAAGAAAGTACCAGATTACTGCCGATTTACTTGAATGCCAGTCGACCAATTCTGGCAACAACATCACTTACTTGTTAGACCTGCTTAACCGTCATAATATTGACCTGTCATCGGTCATCCTCTGCCAGGACACGACCATGCAGCTGCGCTTAAGTGCTGTGTTACGCAAGTACCGGCCAGAGCTGACCATCATTAATTACGCGGCTTACCAGGTTCATGTCTTGGAAAAAGACGGACAGCCGGCATATGATAAGAAGATCCCTGGCATGTGGCCAATGGACCGTTATATCAGCCTGCTCATGGGTGAGATCCCGCGCTTAAGAGACAACAAAGATGGTTATGGGCCGCTTGGGAAGGACTATATAGCGCATGTGGACCTGCCAGCTTCTGTTGAAGGGGCTTTTTCCCGCCTGCTTAAGGAATATGGCGGCTCTGTCCGCCAGGCTAACCCGGCATATAAGAGCTAG
>SRR1919932_00425 hypothetical protein
ATGGACGTAGAAGAAGAGATTTTTGCTAAAAGACAGTGCAGGTTTAATAAACTGGCCGCCTATGGCTTCAAGAAGAATGGTGATGACTATTATCTTGAAGTTCCCTTGAAAAGTGCTAATTTCCTCGCAAATATTAGAATTTCTTCAGCTGGTAAGGTCAGCGGTAACGTCTATGATCTTGATACCGGGGAGGAATATCTTTTACTCCGCGTTGGAAGTAACACGGGCAGCTTCAGCGCTGTAGTCAAGGCGGAATACAGGACGATTTTGCAGGATATTGCCGGTAAATGCTTCGTCAAAGCCCAGGCAGACCGGATCAAGGATGAAATTAAGGCCCGCTACGGTGATGAGCCGGATTTTCCTTTTAAGAAATTCCCGGACTACGCTGTCTTCCGTAATCCCCAGAACCGGAAATGGTATGGCTTGCTGATGGCTGTGCCTCTAGGCAAGCTGACAGGCAATGAGAAAGACCAGCAGGAAGCCGCGGTACTTAATTTGAAGCTGGCTGAGGAAAAATTGCCTGCTTTGCTGAAAAAGGCGGATTTTTTCCCGGCTTATCACATGAATAAGCAAAACTGGCTGTCAGTTCTGCTCAATAATGATCTGCCAGATGAAGAAGTTCTGGCCATGCTGGACGAAAGCCGGGCTTTTACTGAGAGAAAGAAGTAG
>SRR1919932_00426 DNA polymerase III subunit epsilon
ATGGATCCTAAACTGCATGACTACACGGTTTTTGACTTGGAAACAACTGGGAAAAAGATCATCCAAATTGGGGCATTAAAGGTCAGAGACGACCAAACCGTAGCGAAGTTCTCAACTTATGTTAACCCCTTGGAGAAAATTAATGATTACGTCTCTCATCTGACCGGCATCAGCAATTACCAAACTGATGCCGCTCCCTTGATTGATGAAGTTATGCCAGACTTCTTGGACTTTGTCGGCGACGATACCTTGGTTGGCCACAATATACTTAGTTTTGACTGCAATGTTTTGGCCGATAACGGCTATCCGGTGGCTAATCCGAAACTGGATACCTTGCTTTTGGCCAATAGTTACAAAAAGAGGGGTCTTTTTGCAGCTCCTATCCCTAACGTCAGACTGTCGACTCTGAAGGATTATTATGGGATCAATATCAACTCCCACATTGCCATTAGCGACTGTATTACCAACAATATCGTTTACCAGAAGCTCCGCGACGGCGATTTAGCTAAAGCCACGGAAATAATTGATTTTACCCCCAAGCAGGTTGACTCCCGCCTGGCTGGCCAGCGTTTTGTGATTACCGGCCAGTTCCGCCAGGCAACCAGATATGATCTGACCAGTTTGATTCAAAGCCACGGCGGCAAGGTGACCGGCTCGGTGTCCGGCGTGACTGACTACTTGCTGAAGGGCGAGCTGGATCATGTCACCGGCAAGTGTAAAAAAGCTGCTGAAAAAGCGACAGCAGTAATCGGCTATGAGGACTTAATGTCGCTTTTACGGAAATAA
>SRR1919932_00427 transcriptional regulator
ATGAAGGTTAAAGTTGAGCTGAATAAAGACCAGGACTTGCCCCTGGCAGTGATCTATACTGATAAAATGACTGAAGAGGTTGAGCGGGCAGTTGCTTTCCTGGAAAGCAACGCCAGCTCTGGCCCGTTAATCGCCCAGCAGGAAGACCGTCTGGTCATCATCAAGCCTAGTGACGTCATCCTTGTCCGGATCGAAGGCGGCGATACGGTCATCTACACCGGAAAAGGCAAGTATTTTTCCAGAAAGCGCCTGTATGAGGTCTACCAGCAGCTGGGCCAGGACTTCATGCAGATTTCCAAGCAAGCTGTCGTCAACTTGACCTGCCTGGAAAGCGTTGAAGCATCTTTTAACGGGACCATGTTTCTGCGCTTAGAGCATGGCCTGTCTGATTACATTTCCCGCAAATACCTGACCGCTTTTAAGCAGTATTTGGGGCTTTAG
>SRR1919932_00428 hypothetical protein
ATGTCTGCCAAGAAAAATATCCTGGTCAGTTCCCTAATCGGAATTGGCATCGCCGCCGTCTCGTCCTGCCTGGTCAGCTTGTTGCTTTTAGCAAAAGGAGCCGGCAGCTTGACCATGACGGTTGCTGAATATACTCAGATGCTGGCCGGCATCATCTTGGTCGGCCTCGGTTTTGGCCTGCCCAGCATCGTTTATCAAAATGACAAGCTGGCACCAGCCTACCAGGTCTTAATCCACATGGGAACCGGCTGTCTGGTCATGACCCTGGTCAGCTTTTGGACTGGCTGGATCCCGGTTAAAGCCGGCTTTTGGCCGGCCTTCTTGACTATTGCCGGTGAAATCGCCGTTGCCTTTATCGTCTGGCTGATTTTTTACCAGCAGGAAAAGAAGCTGGCCCGGAAGATGAACAACCGGATCAAGCAACTGAAAAAGTAA
>SRR1919932_00429 glutathione reductase
ATGAAAAAATACGACTACATTATCATCGGCAGCGGCCCGGCGGCTAACCACCTGCTCTTCAAATTAGCAAGAACTGACCGGACTGCCCTGGTCATTGAAAACAACTTGTGGGGCGGAACCTGCCCGAATACCGGCTGCCAGCCAAAGATTTTTCTTGAAGGCGCCGTCCGTCCGGTCTTGAACACATATTATCTGACCGGCAAGGGAGTAAAAGCAGCCGCCCAGCTGGACTGGAAGACTTTGATCAAGCGCAAGAAGGAGATCTGGGCAGAATTTCGCGCAGAAGAGCGGTCCAGCATCGAAAATGACCAGGTGGATACTGTCTTTGGCAGCGGGGTGATCACTGGTCCGCATACAGTTGCGGCAGCTGGAGAGGAATATGAAGGCATAAATATCATCATCGCGACAGGTCTTCTGCCGCACCACTTGGAAGTGCCGGGCAGTGAGTATGCCATTAGCAATGATGAGTTTTTTGACTTGGATGAATTGCCGAAAAAAGCGGTCGTCATTGGGGGCGGCTATGTTGCACTAGAACTGGCTACAATCTTGCAGGCTGCTGGGAGTGAAGTCACGGTCTTGCAGCACTCTGAGAAGTTGCTGAGGCCTTTTGACCAGGAATATGTCGAGAAATTGACGGAAATAATGGAAGAGCGCGGCATTGTGATTCATCTGAACACTCCAGTTAAGGCAATCGCCAAAAATTCTGCTGCTTATGAAGTAACTGCGGAAAATGGGCAAAAGTTTGAAACTGATCTGGTAATCGACGCCTCTGGCCGGCGGCCTAATGTAAACGGCCTGGGCTTGGAAAAATTAGGGATCAAGTTTGATCCGGTCAAGGGCGTGGCGGTTAATGAGCACTTGCAGACTAATGTCCCGAGTATTTTTGCCGCCGGGGATGTCGCTGACAACGGCCAGCTGAATCTGACGCCGGTTGCCTGGGTTGATTCTTACCACATTTATGATTTTGTCGAAAATGGACTTAAAGAAGGCGTTAAGTACCCGGCTGTGGCTACCAGCACTTTTACCTATCCGCAAATCGCCCAGGTAGGCAAGCGGGAAAGTGAAATGTCAGCTGGCGACACGGTTAGAAGAATGAAGCTGGGCTCGACTTTTGCCTCCATGGGCGAAGGTGACGAGGAAGCGGAATTAAAGGTCATCTTCAATCAGGTCGGTGAAGTGGTTGGTGCTTCAGAAATCAGCATCAATGCCGGGGAGGACATCAATCTCTTCGCCCCGCTGATCGGGAGGAAGGACCCGGCAGAATTTGCCATGAATAATTTGGGCTTCGCCTTCCCGACTTTAGCCAACAAATTGGACGTTCTCTTCCGCTAG
>SRR1919932_00430 hypothetical protein
ATGTCCTATGGCGAACTTACAGAAGTATTGCGGAAGGTGCCAACCATTGGCGTCTATTCAGACTATAGTAAGCCATTAAGAGAATACAAGGCTAAGCAGGGACAGCTGAACAAGAGGACCATTATGCTCTGGATGGGAGATGCCAGAAACAACTACTTGCCAAGCGAGGAAAAGATCTTCAAGGATTTGTGCCGACGGGTGAAGAAATGCTACTGGCTTAATCCTGAAGCTAAAAGCAAATGGAATACCGGAGACTCAGTCATCGGCAGATATACCCCATATGTCAGTGAACTGGCTGAGGTTACCAATACGGCCTCTTTGATCAAATATTTGTGCGAATTACAGAATTGA
>SRR1919932_00431 hypothetical protein
ATGAAAGAAGAAAGCAAAGTCTTAACAGAAAAAGAAACTGACCAGCTGATCAGCGACTTCTTTGAGAATTATGAGAGTTACTTTGACCGGCCATATTACATGGATGTGCTGGCCCAGCCCCTGGCTAAGCAGTATCTCCGGCCGAGCAGCTTAAAGGTTTGCCTGGCTTACCAATTGCTGACTAAGGAGTGGCTGAAAGCCAAGCTTGAGGAAGAGTCTTTCCATGATAACGGAGAGAAGGAGCGGATCTACCTGGAGCCTGGCAAGCTGAAGAATCATTTGCCTAAAGAAGATTGGGATCTGGCCAGCGACTACCTGTTTCCAGGAGACAAGCAGGCTTACCTGGAACTGACAGCTGATAAAAAGAAACTTCTCTTACCAAGCAACAAGCGCCAGCAGCTTCAGCACTTTAAGACAAGTTTGGCTAATTGCCGGTCCTGGCAAAAGCTGCTTTACCATATCAAGGAAAATCATGCTGACCTGTCGGTCAATTGGCATTTCAAGAACCAGTCCAAACTGGAAGTGACTTTGACGGGGAGAAAGGATCACGAGCATGCTTTTGCCTTAAAAGAGCAAGAGGCGATGGACGAAGAGTATGACAAGTTTTTGGCAAATTCAAAGAAGAAAGAGGCGAATTACAAGAAAAAGATCAAAGAAAAGGTTGCTGCTTCCAGCCTGCGGGGGGACCTGTTAGCCCGGGCAATTGCCCAGCTTGCTTTGAGAAATGAGACGCGGATTACGCCAAATAACTGTCTGAAGATTCTGCGGGGATTGTCTTATCCGGGTTATGACGCCATCAACCACAGCGACTATGACAGACATTTTCGCTTTCTGCCAAACCAGGAGATTCTGCAGGTAATTGAGGCGATGCAAAAAGACGGACTGATCGCGGCTGAGGAACGCTTTTATTCTGACTATCATGTCTATTACCATGAATTGGTGCCAACTGATTTGACTGAGGAATTTCTGAATGCGGAAGCAGCTGAAGGGTCAGATCTTGCCTTGCTGAAGGAACTTAATGAGTCTGCAGATAAGACTGATCTTTCTGCTTTTAACGTTGTTAAATTAAGCCAAGAACTTCTGCAGCATCCCGCCCTGGTTTGCGTTGACCAGGGCTATCAAGCCTTTATCGACCAGCATGACTTGGCAAGAGAATACCTGAAAACCCGCCTGCAGCTGACGACCAACAAGTTTACCAAGAAGTATCTCCGCCTGCTTTTAGAGGGGGATGCAGAAAAAAGCATCCCTGGCCAAGCGGTGAATGCTTGA
>SRR1919932_00432 diaminopimelate epimerase
ATGACTAAATTATTGAAAGTCCACGGCTCACAGAATTCCTTCTTCATTCTGGACCAAACTGAACTGGAAAATCCGCTGACTGATAATGAACTGCGGCAATTGACCCAGACACTTACTGATCACAAGACTGGCCTGCTTGGCGGAGCTGACGGCATCCTGTCAGTTGAGGAATCAAGCCACCCAGGCGTTTTAGGCAAGATGCGGGTTATCAACGCTGACGGCAGTGAAGCCTCAATGTGCGGCAATGGTCTTAGAACAGTTGCCCGCTACTTGCACGAAAAGACCGGAGAAAGCCAGTTTAAGGTGGAAACCATGTACGCTGACCTGGCCGTCCGGCAAGCTGATGACTTTGCAGAAGGAGTGCCGGCTTTCGGGGTAGAAATCTCCCCTATCCGCTTCAATAAAGAATCTTTGCCTTTTGACAATTTGGGACATAACCGCCTGCTGGACACTCTGGTACCAGAACTGGTCCCAGGCTGGCGTTTTAGTGCTCTGGCCGTGCCTAATCCCCACCTCATCGCCTTTATCAAAGAAGAAGACCTGGAAAGTCCGGTCTTAGGAGAGCTTGGTGCCTACTTGAATGGCGAAAATCCATACTTCTCAGACGGGGTCAACATCAACTACACCGTTATCCGCGGCGATAGCCAGCTTTTTGTCAGAACCTACGAACGGGGCGTTGGCTTTACTAACGCCTGCGGGACAGGGATGTCAGCCAGCTCATTGGCCTTTGCCTTGACTCACCCGGACCTGGGCCACTTTGAAAAAGAGATCTCTGTCTACAATCCTGGCGGTATGGTCAAGACCGTCTTGCACCAAAAGGATCACGGCTACTGGATCGAACTGATCGGCAACGCGACTGAAACCCATACTACTGAAATTCCAGAAGACCAGCTGCACAGCGGCCAGGTTAAGCTGGAGGCGGTGAAGACCAAAGAAACTGGTGAACAAGCTGCATACCTGGCTTTCGTTAACCAGCTGATCAAGTAG
>SRR1919932_00433 aspartate kinase
ATGAAAGTTGTTAAGTTTGGTGGCAGTTCCCTGGCTAGCGGCCCTGCTGTAGAAAATGCTTTGAAGATTATTACCGCTGAAGCTGAAAGACAAGTTGTCGTTACGTCTGCCCCAGGCAAACGCTTTGACGATGACATCAAGGTCACTGACCTTTTGATCAAGTACGCCCATGAAATCAACCATGGCAGAAACGGGCTTGAAGTTGCTGACCGGATCTTCCAGCGCTACGTTGAAATCGGCGAGTACTTTAACTTGCCGCTCGAAGAAATCTTGCCCTTGAAAGAAATCCTGCTGAATTTGCCAAAGGAGCACTATCCAAACAAGAACTATCTGCAGGCGACCTTTAAGGCCCACGGCGAGCGGCTTAACGCCAAGCTGATTGCGAAGATTCTGCAAAGCCAAGGGGTAAAGGCCCGCTATGTTGATCCTAAAGATGCCGGGATCATCGTTACCGGTAGTCCAAACAATGCCTCTGTCAACCCGGAAAGCTACCAGCTCCTAGAAAACTTTGCCTATGACGCTGACGAAAAGCTGATTTTCCCAGGCTTTTACGGCTATACTCTGGCTGGCCATATTGCTACCTTCTCAAGAGGTGGTTCAGACATTACCGGGGCGATTTTGGCCAGAGGTTTCCACGCTGACTTATATGAAAACTTTACTGATGTCGATGCTATTTTCTCCGCTAACCCGAAGGTTGTTGACCAGCCACAGCCGATCCACACGATGACCTACCGGGAAATGCGGGAATTGTCTTATGCTGGTTTCTCTGTCTTCCACGATGAAGCCTTGATCCCAGCCATTCAAGGGCAGATTCCAATCAATGTGAAGAATACCCAGCACCCGGAAAAGCGCGGGACCATGATCGTACCGGAAAAAGGCTTCAAGCCTGAAACCGTCATTACCGGGATCGCCAGCGGCAAGCACTTTGGTGCCCTCTACCTGCACAAGTACCTGCTCAACAAGGAAGTTGGCTTTACCCTCCGCATCCTGCAAATCTTAAACAAGTACAAACTGTCCTATGAACACATGCCAACCGGGATTGACGACTTGACTTTGATCTTTGACCGGGACACGTTAAACGATGAATTGATCGACCAGATCTGCAATGAAATTCAAAATGAAGTCAGTCCTGACCACTTGGAATGGATCAGCGATTACGCGATTATCATGCTGGTCGGTGAAGGGATGAGGGACCGGATCGGGGTCATCCGGGATATTGCCACCCCTGTAGCCAGAGAGGGTATTTCTCTCCGGATGGTCAACCAAGGGGCTTCCGAAATTTCTATCATGCTGGGCACGGCAGCTAAAGATGCCGACCGGGCGGTAGCCGCGATTTACGACTACTTTTTCAAGCAAGAAGCACAAGGAGAATAA
>SRR1919932_00434 2,3,4,5-tetrahydropyridine-2,6-carboxylate N-succinyltransferase
ATGGCAGAATTAGACGCGCAAAGCATTATCAACTACATTGGTTCAGCACCAAAGAAGACCCCGGTTAAGGTTTACTTGCGAGGCGCCGGCCTTGATCAAGTCACTTTCCCAGATGGCACGGATCCTTTTGTCAGCGGTCAAGCCGGCGTAGTCTTCGGCGACTGGCAAGATCTCAAGCCGTTTTTAGCAGAACACGAAGCTGACTTTGAATCTGTCCGCGTGGAAAACACGGCCCGCAATTCAGCTGTTCCTTTGCTGGACCTTAAGGAAATCAATGCCCGGATCGAACCAGGCGCTATTATCCGTGACCAGGTCTTGATCGGTGATAACGCGGTTATCATGATGGGGGCGGTAATTAACATTGGCGCGGAAATCGGTGCCGGCTCAATGATCGACATGGGCGCGATCTTAGGCGGCCGGGCGATCGTCGGCAAGAACTGCCACATCGGTGCCGGTACGGTCTTAGCCGGGGTGGTTGAACCAGCTTCTGCCTTGCCGGTCCGCGTTGACGATGACGTTCTGATCGGTGCCAACGCGGTTGTCCTGGAAGGCGTCCACGTCGGTCAAGGTGCAGTTGTAGCAGCGGGTGCGGTTGTGACCAAGGATGTGGCTCCGCACACGGTGGTTGCCGGCGTTCCAGCCAAGGTAATCAAGGAAGTCGACGCCAAGACAGAAAGCAAGACCGGCCTGGAAGAAGACCTGCGTAAGCTGTAA
>SRR1919932_00435 acetyldiaminopimelate deacetylase
ATGGCAGTATTGACCGAAGCCGAGTTGCTTCAAATCCGGCGCCAACTCCACCAGATCCCGGAATTGGCTTTAAAAGAATATCAAACCCATGCTTATCTCTTGGATGTGATCAAGCAGATGAAGCAAGACTACCTGGAAATCAGGGAGCCAGCAGAATTGCCAACCGCGCTCCTGGTTCTGGTCAAGGGGTCAAAGGCTAAACGGACCATCGGCTACCGGGCGGATATTGATGCTTTGCCGGTAACTGAAGCAACCGGCCTGCCATATGCTTCCAAGCACCAAGGCGTGATGCATGCCTGCGGGCACGACATCCATATGACTGTTGCTTTGGGTGTTCTCAGCTACTTTAGCGAGCACCAGCCAACTGACAACCTCCTGTTCTTCTTCCAGCCGGCTGAAGAAAGCGAGAGCGGCGGCATGAAGGCCTACCAGCTGGGACTTTTCACCGGTAAGTGGCATGTTGATGAATTCTACGGCCTGCATGATAACCCAAGTCTGCCGGCTGGGGCGATTGGCTGCCGGAACGGCACCTTGTTTGCCGGAACGACTGAAGTCAACATTGATATTCAAGGCAAGGGCGGGCACGCTGCCTTCCCGCAATTGTCAAATGACGCGGTTGTCGCGGCAGCAGCCTTGATTATGCAGGTCCAGACCATCATTTCCAGAAATATTGATCCGGTTCAAAGCGGGGTTATCACCTTGGGCAAGTTGACTGCCGGCAAGATCAGAAACGTAATCGCTGATTCAGCCAGAATTGAAGGCACGATCCGGGGACTTACCCAAAGCATGATCGAATTGATCGACAAAAGGCTGGCCGAAGTCTGCCAGGGAATTGAGCTGAGCTTCGGCGTCAAAGTCAAGCTGGAACTCAACCAAGGCGGCTACTGGCCAGTTGAAAATAACCCGGAATTAACTGAAAACTTCATTAAATACATGAAGCAGGCTGACGGGGTTGAATATGTCGAAACGGCCCCGGCGATGACCGGAGAAGACTTCGGCTACCTCCTGGCTCAGATCCCGGGAACCATGTTCTGGCTGGGTATTGAGGACGATTCACCCCTGCACTCAGCAACATTAATCCCCCAGGAAAGTTCAATCAGCCGCGGCATTGCGGCAATTACCGGCTTTTTGGAATACCGGATGACAGAAGGCTAA
>SRR1919932_00436 N-acetylneuraminate lyase
ATGAACCAAAACTTACAAAACGCGGACTTACTGACAGCAATCATTACGCCTTTTACGGAAGACGGACAGATCGACTTTGCCAGCTTGACTGAATTAACCAACAACTTGATTGACCAGGGCTGCAACGGCTTTGTGATTGGCGGGACAACTGGTGAGACGCCAACTTTGACCCATGACGAAAAGATCGCCTTGTACACCCGCTTTGGTCAGATTGTAAATGGGCGTGTACCGGTTATTGCCGGCACGGGCAGTAACAACACAGCAGAAACCATTGCTTTTACTGAAGAAGTTGCCCAGATTCCGGGCATCGACTATGCTTTGGTTGTCGTTCCGCCATACAACAAGCCAAACCAGCGGTCAATGATCGCTCACTTTACGGCAGTTGCTGACCAGGTTCACATTCCAGTAGTCATCTACAACATTCCGGGCCGGACTGGGGTTAAAATGGAAGTGTCAACTATTTTACAGCTGGCCCAGCACCCCAATATTGCCGGTATCAAGCAGTGCGCCAGCCTGGAAGAAATCGAAGAGATCGTATCCGGCCGGCCAGTAGACTTTGCCGTCTTTACCGGCGAAGATGCCCAGGCGCTGACGGCCAGAATTTTGGGCGCTGACGGGGTCATCTCAGTTGCCAGTCACCTGTACACCCCAAGAATGCGGGAAATGTACGATGAACTTTACGCGGGCAACTTTGCCTTGGCCGGCAGCCTGCAGCGCTGGCTGACCCCGCGGATGAAAGCCCTGTTCATGTTCCCGTCACCATCACCAGTTAAGGCGGCTTTAGCTGCCATGGGTTACCAAGTAGGCGGCTTACGGTTGCCGCTTGTAGCTTTGAACGATGAAGAAAAGGAAGAACTCGCCACTGCTTTGAAGCTGCCGAAGGATGCATTAGCTAGTCAGCTGACGCGTGATATGTTAGAAGGAGATTAA
>SRR1919932_00437 4-hydroxy-tetrahydrodipicolinate reductase
ATGCCAAGAATTTTATTGGCCGGTTTTGCCGGCTCAATGGGCCAGCAAGTCGTTAAATTAGTAGCAAGCCTGCCAGACTTTGAAATAACGGCCGGCCTGGCCCACCGTTTAAAGAGCAGCGATCCAGCAGACTATGGCCTGCCAGCAAGCGCTAAGTTGTACACCAGCCTGGATGAAATTCCAGCCGACGCAGCAGATATCTGGGTTGACTTTACTGTACCAGCCTCTGTCTACCAAAACGTCCGCTATGCCTTGGAAAACGGCTACCGGCCAATCGTAGGGACGACTGGCTTGACTGACCAGCAGGAAGCTGAGTTGAAGCAATTGGCCAAGGAGAAGGGAATTGGCGGCTTGATTGCTCCTAACTTTGGCATGTCAGCTGTTTTATTGATGAAGTTTGCCCAAGAAGCAGCTAAGTACTTCCCAGACGTGGAAATCATCGAAATGCACCACGAAGACAAGAAGGATGCTCCATCAGGCACGGCCTTGGCCACAGCCAAGCTGATCGCTGAAGTCCGCGAGCCTCACCGAACTGCAGCAGACACGATAGAAAGCCTGCCAGGGGCAAGAGGCGGCGATTACCAAGGCATCAAGCTGCACGCGGTTCGCTTGCCAGGCTACGTCGCTCATGAACAGGTGCTTTTTGGCGGCAAGGGGGAAGCCTTGACCATCCGGCAGGACTCCTTTGACCGGTCATCCTTCATGAGCGGGGTCAAGGTTGCCTTGGAAAAGGCAGCTGACTTAGACCAGCTCTATGTCGGCCTGGAAAACGTTTTGTAG
>SRR1919932_00438 aspartate aminotransferase
ATGCCAGAAACAGATCCTAACTTGCGGGATTTAGGCAACAGAAATCTTGCTAAAATCGCGCCTTCAGCCATCCGGGCTTTTGACGAAGAAATCTCCCAGATTCCGGGAATCATCAAGCTCACCTTGGGGGAACCAGACTTCGCGGTGCCAGATCATGTTAAAAGGGCCGCTATTCGGGGAATTGAAGCAGACGACTCCCACTACGGGCCATCAAAAGGGAAGCTGGCCCTGCGTGAAGCTATCAGCAAGTATCTTGCGGCAAGCAGACAGGTTGACTATGACCCGGAAACTGAAGTTATTGTCACTGACGGGGCAACTGAAGCAATTACGGCAACTTTACTGGGACTTTTAAATCCAGGTGATAAGGTTTTAGTGCCAACACCAGTCTTTTCCCTTTATTTCACCAACATTGAAATGGCAGGCGGGGAAGTGGTGATGATCGACACCTCAGATACTGGCTTTAACTTAACGCCAGAGCGGCTGGAAGCGGAGATTGAGGCGGCCGGCGACCAGGTTAAGGCAATCATGCTCAACTATCCATGCAACCCAACAGGGCGGACTTATTCCAAAGCTGAGTTAACTGCTTTAGCGGAAGTGATCAAGAAGCACCATTTGCTGGCAATCTGTGATGAAATCTACAGCGAACTGACTTACGACCAAGAACATTTCTCTTTGGCTACTTTACTGCCAGGACAGGTAATCTTGATCAGCGGCTTATCTAAGTCACATGCCATGACCGGCTACCGGCTTGGATATATCGCGGCTCCGGCAAGTTTACTGCCAAATGTGGCCAAGGCCCACAGCTTCATGGTGACCTGCGTGGACAATATCGCCCAAGACGAGGCAATTGAGGCTTTGACCAAGGGGCTTGACGATCCAAAAGAATTTAAGGCAGCCTACCAGCGCCGGCGGGACTTCATGGTTGATAATCTGACCAAGCTGGGCTTTGAAATGGCCGTGCCGCAAGGGGCATTTTACATTTTTGCCAAGATTCCGAAGAAGTTCGGCAGTGATGACTTTGCTTTCGCCAAAGATGTGGCTAAGAAAGCCAGAGTTGGTCTGATTCCAGGTAGCGTGTTTGGTAAAGGATCTGCTGGCTATGTCCGCTTTTCTTACGCGGCAGCCGATGACAAGCTGGCAGAAGTAGTCAAGCGGCTTGGTGAATACGTTGCTCAGCTCTAA
>SRR1919932_00439 peptidyl-prolyl cis-trans isomerase
ATGTCTGAATACCCACAACTTAACCTTGACCAAGCCAAGGGCCCAAAGGCAACTATCAAGACCAACCACGGCGACATCGTCATTCAGCTTTTCCCAGAAGAAGCACCAATGACTGTTGAAAACTTCGTCCGCCTGGCACAAAAGGGCTACTACGACGGCGTAACTTTCCACCGGGTGATCAGCGACTTCATGATCCAAGGCGGGGACCCGGAAGGTACTGGTGCCGGCGGTCAAAGTATCTGGGGCCACAACTTTGAAGACGAATTCTCAAACGAACTCTTCAACCTGCGCGGGGCTTTGTCAATGGCTAATGCTGGTCCAAACACCAACGGTTCACAATTCTTCATCGTGCAAAACAAGAATATGCCAAAGCGCTTCATTCAACAATTGCGCGATGCCCAATACCCAGAAGAAGTTGTCAAGGCTTACAAGCAAGGTGGTACGCCATGGCTTGACCACAGACACACTGTTTTTGGCCATGTAACTGAAGGCATGGATGTCGTTGACGAAATTGCCAAGGTAGCCAAGGACGGCAACGACAAGCCACTTGAAGACGTGGTAATCACGACTGTTGAAATTGCTGACTAA
>SRR1919932_00440 hypothetical protein
GTGAAGTTAAAACGGGTTTGGCTCGTTAAGTTAATATTTGTACTGGCTTTTGCCATTATTTTGGCGCCAAAGGCAAAGACTACGGCAGCTTCAGATGCTGACAAACCGTTTTACAAGAATGCCATGGTCAACACTTACGTGTATGACGAAAAAGGCAAACGGACCAAGGACAAGAAGATCCTGGCCGGTAAAGCCGTTGGCTGCTACAGCATGATTAATTATGTTGGTGACAAGCCATATATCATGATCGGCCAAAACAAGTACGTGGCATATATGAACGTGGTTGGCTTGGATTGCCGGTTGAACCATAACAGCTACATTTATTCCAGCAGTGGCAAGCGGATGAAGAGTTCCGGTGTCTTGCTGAAGAATGGCCCGGTAACTGTCTATGGCGGCAAGAAAAAGATCAATGGCAGCAAGTACTGGGCAATCGGCGTTGGCTTGTACGTTAAGGCAAGCAACGTTGAAACGCCTAAGGGCGAAGTCACTAGTGATCCAAACACGCAGAACCAAACAACTGAACCGCAAACATCTTAA
>SRR1919932_00441 ribosomal-protein-serine acetyltransferase
ATGTTTAGCTACAAGATCAACGATGAATTAGAGTTAGCCGTGCCAAGATTGACTGACGGTGAAGCTCTGTATGACTTAATTGACAGAAACCGGGACAATTTATCCTACTACTTGCCTTGGGTTGACCACGTTCATGACGTGCAAGCTGAGACTGACGCTATTAGGCGTGGTTTAGTCAGGTTTGCTGAAGGCAAAGCCTTAGACCTGCACATTTGGTATCATGGCCGTTTAGCTGGTAAAGTCAGCTTGAATTCAATTGATGCTGTGTATTCTGAGGCAGATATCGGCTACTTTTTAGGCAAAGAATTCCGCGGACGCGGAATCATGACGCTGGCTACCCGGGCTATCATCGATATCGCCTTTGAGGAATATGGCCTACACAGAATTATGCTGCAGTGCGCTGTAGACAATCTGCCAAGCAATAATGTGGCTAAACGGCTAGGGATGCGGTTTGAAGGCTGCCATAAGGGCCGGTTGATCCTTAGAGACGGCTATCATGATAGTAATGAGTACGCGGTGCTTGCTGAAGAATGGCCTAATGTGCAGGAAAAGTACTAA
>SRR1919932_00442 hypothetical protein
ATGGAGGGGAGAGATTACGAGATCTACTTTAGTGAGTACAAGGACCATGTAAAAGAAATCGTTAAAAATTACCCTGAAAAAACACGATTCTATTCAGTTGGCGGAAACGGCTTTTTCAACCAAGTCATCCAAAATCTCGTGCACACAAACCATGGAGTTGTTTGCCTGCCATTTGGGACAGGCAATGACTTTTCCCGCGCGATTCACCGTCAGATGAGTCCTGAAGCCATCCTCAAAGCGACTTTAGACCAGCCAGCGATTCCAATTGACACAATTTTAGTCAATGATGAACGCTACTGCGTCAACGTTGGCTGCTTTGCTTTGGACTTGACGCCTTGA
>SRR1919932_00443 hypothetical protein
ATGGAAGTCGCTGAAGCACTGACAAAGTTAAAATTTCTGGTCAGTCATGATAGATTTAAATTGGTTGCAAGACAAGATACAATGAAAGTACCTGTTTCTCGCATGTTAGCAAAGACAATTATTGAGCAATTATCGTCAGAAGACTTTGTAAAACACGAGCGAAATCGCAATAATTATACTCAATTTATCTGGGTGTTTAAAACTGAGTATGATCAAACGTACTATATTAAGTTTGTTTTTGCCGAAAATGGTCATCTTGTAGTCTTTATCAGTTTTCACCTTGATTCGAATTAA
>SRR1919932_00444 hypothetical protein
ATGTCATACGTAAAAGATTTTACGACAGTCTACACTATCGGAAACCGAAACTACGAAATCACAGCGCCAGCTCGCTTTGATGATGAAACAAATCAGCCAATTTACGATGCTGAACTTGATGAACGTGCATCTGAAATGGCTAGACAAGCGTATCGCGACGACATGGGTCTCCTCTCGCCAACAGAACTCAAAAAATATCGGGCTAAAGTTGGTCTTTCTCAACGCAATTTGGCAGAATTGACAGGACTTAGTCCAAATACTATTGCTCTGTACGAAGCTGGTGCATTTCCTACACCGGCAAACAATAAAATGTTAAAGTACTTGATCAATGACGATGAATTGTTGCGTCAATACATAATGGATGACACTAATAATTACTCAAATGATCTTGTTGCTAAGGTCAAAGCTTATCTTCAGCAAAAAGATATTGTTGTTATTGACCAAAGCTTCCAGCCAAAGTTCACTGCTGTACAATTGGCAAATTGGCTAAGAGTTGAAAATTATTTTGGCCGAGAATTAGATGAAAACGTTGAACCATTGACACAAATGAAGCTAATCAAGCTACTGTATTTCGCATATGGGCGCTATCTGGTGAAAACACACACCAAATTATTTACGTCTTCAATAGTGCACTTACAGTACGGTCCAGTAATTACAGAAGTACATAGCAAATTCAAGGGACTTACGGTATTAGATACTGGAAAGCCTAGTAAAGAAGCATTTGATGATTACAACTTGGTTTCTAAAGATAGCGATATCTCTCACCTGTTGAGATTAGTTAATGAAGACTACATTAATTACAGTGCATCTGGATTAAGCCAAAAGACGAATCAACCAGGATCCCCATGGTCTTTAACTGATGACGGCAGGATTATCAAGGATCAATTGATTTTTGATACATTCAGTAATGGCTTAGAAGAATAA
>SRR1919932_00445 fumarate reductase flavoprotein subunit
ATGAACTTTGATATCGTAGTAGTAGGAGCTGGTGCTTCTGGCATCAGTGCAGCATTAACTGCATCAGAATGCGGAGCAAAAGTAGCCCTATTGGAAAAAGGCGACAAATTTGGCGGTGCAGGGATGTTTGGTGCCCAAGGACTATTTGCGGTTGAAAGCAGGGCTCAAAAAGAGGCTGGAGTGAAGTACAGCATAAAAGATGCCTATGAGGAAATCATCAATTATACTCACCATTCATCTAATGCGTTAATGGTTAAGGCCATTCTTGAAGAATCAGCAGCTACAATCGATTGGATGGCTGAATCAGGTTTGGAGACTGAATTAGTGACCAACACTCAAGAAGTCCACCAGGAGCATCCCAGAACCTATCACCAATTTATCGATAAATTTAACGGATTTAAGCGAGTAATGAACAAATTTCTAGAAAGCGGCGGAGTCCTTATGACCGAAATTTCGGCCGAAGAAATTGTTCAAGAACAGGGTAAAGTAACCGCCGTTAAAGCAAACAGAAAAGGCGAAGAAATCACCTTGGAAACTAAAGCTGTAATCTTGGCTGATGGGGGATTTGTTGGCAATAAGGACGAAATCAAGCGTACTTTAGCAATTGATCCAGATGACCTGTACTCAATGGGTGAACGGAAAGCTACCGGTGATGGCCTGCAGATGCTCAAAGAAGCTGGCGGCGTTAGCGATTACAAGAGGATTTTTGAAAACCATGCGGCAACTGTCTACTCAAAGACGGATCCAAAGTGGCACAACGCAAGTCTTTTTGACTTGACCAACATCCCACTCTTATGGGTTAACCGGGAAGGCAAGCGATTTACTAATGAAGACGTAGTATATGATTTCGCATTATGGGGTGATTCAGTTTACCAGATCGGTGGGTACTACTACTTCCTCTTTGACCAAGCAACTGTCGATTATCTCCGTCAGCAAGCTTTGGACTGGACAAGTTCATTTGAAAGAACCTTCCGCCTGCTAGATAAAAAGCCAATGACTTATCAAGTTGGTCCATATCCGCAACTAGACCAAGATTTAAATGAGGGTATCAGCCAAGGTGCTGTCTTCAGGGCAGATAGCATTCAAAAATTAGCAGAGAAGATTGCGGTTGATCCAGCAAATCTTACTGCAACAGTTAACCGATACAATGAACTGGTGGTAGAAGGTAAAGACATGGATCTTTACAAAGATGACCGCTTCATGACTTTGTCGGTCAAAGAGGGACCTTTCTATGCAGTTCGTGCTAATTCAACTACCCTGGGGACTGTCGGTGGTGCATTAGTCAATGAGCATTTTGAGGCTCTAAATGTGAAGAGACAAGTAATTGATGGTATTTATGCTGTCGGAAATGACGCATCAGGCCTTTATGACTCATCTTATCCAACAATTGAAGGCTTAAGCAACGCTTTTGCATGGAATTCAGGTCGAATTGCTGGCAGGTATGCTAGTGCTTATGCAGCAATGAATTAA
>SRR1919932_00446 LysR substrate binding domain protein
ATGTACAATTCTGAACTTGATACATTTCTAGCAGTTGCAGAAGCTGGAAGTTTTAGTAAAGCAGCAAAAAAATTATATATATCTACACCAGCTGTCGTTCAGCAAATGAATCTTTTGGAAAAACGGTTAAATGTCCAGCTTTTTGTTAGGAATACCCATGGTGTAACACTTACTCCAGCAGGAATTAAATTTATTCAATGGAGCAGACAGATAATTTTTGATTGCCAACAGGCGGAGAAGGAATTAGGAAAATATCAGCAAAAAATTGTTTTCGCATCCGGGTATTTAAATGGACAAACCTTAAGTAGTCGCCTAATTCCACAATTTCAGAAGAACCATCCTAAAGCACAAATATCTTTCAGAGAGATAAATGATTATCAGCAAATACCTGCTGAAGTAGACATTTTAGAAATGGCTTATGCAAAAGAGCCACTGAGTGAACACGAATTCTCTTTCATATCCATTGTTCCTTCGCCTCTTCGAGTAGCTTTGCCAGCAAGTCATCCCTTAGCCAAGAAAAAGCAACTATCTTTACAAGACTTGGCATCACAGGATTTGGAAATCGTAGCTCCATCTATTGCAGGTTCTGAGGATGCGATGTTAAGCAAACTTCTAAATGTTCGCCCGGCAGTTAAACTGCACTATTATAGCGTGTTTAACAAAGCAGTGGTTAATCAAGCACAGCTGACAAAGCATCTGTTACTAATTCCAGAGGCCTATTCAGAATTGTGCCATCCATATATTGTTAAACCGGTCTCTTGGTCCTTTGCAACTAGCTATGGCTTCTACTGTCGTAAACCAGTCCCCAAATTAGTACAGGAATTTATTGATCTCGCCCAAAAAAGTTAG
>SRR1919932_00447 hypothetical protein
ATGCGCAAAGCAGTACCGATGCTGGACAATAATGACCAGCATCCCGAAATGCTGGAGATCAACAAGACCGACTCCGAACGCCGGGAACTGCTCCGGCCATTTGAAATCACCCCTACTGACGGCTTTGTTTACGACTTGCGGCAAACCCCGATTTTCCCAAAAGCCTTCACCTTCTAA
>SRR1919932_00448 antimicrobial peptide ABC transporter permease protein
ATGATTTTTAAATTGTCAATGACCGGGCTGAAAAGCCGGCTAAAAGACTACCTGGTCCTGTTTTCCGGCCTTAGCGCCGCTAGCATGATCTTCTACATGTTCTTGACTCTGGCCGCTAACCCGTCTTTCTTAAAGTCCAGTGTAGCGGGACGGCTGACCATGGGAGCAACTAAGTTTGTTTTTTCCTTCGGGATCGTCCTCTTGGCCATTTTAACCCTGGTCTACCTGGCATACGCCAACAGCTTCCTCTTGAGCATGAGAAAGCGGGACTACGGCATGTACATGATGCTGGGGGCAAAAAGCGGCAAGATCGGCCAGCTGATCTTCGCTGAAACCCTGGTAACTGGCCTTCTGGCAACCGGGATTGGGATTATCTTGGGCGTGGGTCTGACTGAACTGGTCTCATCCTTGATGGTCAAGCAGCTGGGGCTGACTCTGGCTCACTTTAACCCGCTTTACCTGCCAGCGGTTCTCTGGACCTTACTCTTCTTTGTCGCCCTGTTCTTCCTGGCTGCTTCTTGGAACGCGGTCAAGCTGACCAAGACTACTCTGATCAATCTCTTAAAAGAAGATCAGAAGCCAAGCAAGCTGAAGAGCCGGCCGGTCTTACGGACTATCCAGGCTATCGCGGGTATACTGCTTTTGGCTACGGGCTACTGGGCAATGTGGCATGTGGCTACTTTGCAGCTTAAGGCAATTCCGATCGCTTTAGTAACCATCGTTTTGGGTAGCTTTTTAATCTTTGACGCCTTTTTCGTAGCTGTCATCGACTTTTTGCGGAAGAGACACAGCTTCCTCTACAAAGGGATGCGGCCTTACACTCTGGGCCAGTTAAAGTTCCGCCTGCATGGCTATACCAGAATCCTGTCAGCCATCTCAATTATGCTGGCCCTGGCCCTTGGCGCTATTACGGTCGGCATTAACTTCAACAACTTGAAGAATGCCATGACTGACGTTATGTACTATGATATTGTCTTAGTTGGCAAGCAGAAGAAGCTGGCTGACAAGGTTAAAAAAATCGGTACAGAGGAGAAAGTTACTTACAGCTACAAGGCTGATGAGAAAAATGGCATCCTCTATGTCAAGAAAAGTGAAATTGACCAGACGCCGCTCAAGATCCAAATGTATAACGCGGCATCTTCAGACAAGAAGAAGGCGATTGACAAGGAGGGGCGGATTTACCACACGGTTAAGGTTACTTCCAAGACCTTAACTGGTAAGCAGACTTCAGCTACGGTCAGAAATTCTGCTCAAGCCGCCAGCCTCTTCCCAGAAGATTCCAGCAAGGGCTTTGTGGCCTTGTCAGATGCAGCTTTTGCCAAAAAGAAGCTGACGACTAAGGTCATCACTTTTTACAAGGTTACGGATTTTGCCAAGAACAACAAGAAATTGCTGAAGCTTACTGAGCAAGAAATGAAGCTGTTCAGCAAGGGGTCAATGGCATACGGCTACCTGGAATTCACCAAGCCGTTTCTTTACCAGCAAATCGCGGCAATGTGCTCAGGCTTTGAATTTATGGGCCTTTTCCTTGGTTTGTCCTTCTTAATGATGCTGGCTTCAACTCTGATGTTTAAGATCCTGTCGGCCGCAGCCAGTGACAAATTGCGGTACAAGATGCTCTACAAGCTTGGGGCTAGAAACAGCGTCTTGAAGGCAGCGATTAGAAAAGAAATTGCCATCTTGTTTGTGGCACCGGCGATACTTGGCAGCCTGGACGTACTCTTTGGCTTGAAGATCTTTACGATTCTTCTGCCAGACCCCTACTACAAGATTTGGATTCCATTCTTAGCATTCTTCCTCTTGTACCTGGTTTACTACCTGGTAACCATTAAGCTTTACCAGGGGATTGTTTTAGAAGAGACTAAGCAAGAAGACTAA
>SRR1919932_00449 antimicrobial peptide ABC transporter ATP-binding protein
ATGGAAAAAGTGATGACTGTCAACAACGTTACGAAGACTTACGGTAAAAAAGGAGAGAAGCAGTTCCAGGCCTTAAGGGGCGTCTCGCTCAGCGTAGCCAAGGGCGAATTTGTCGCCATTATGGGGACTTCCGGTTCTGGTAAGACCACTCTTTTGAACATCATGTCGACCTTGGACAAGCCAAGCAGCGGCGAGGTTACGATTAACGGCAAAAACATCGCCAAGCTGAAGAAGAACCAGATGGCCGACTTCCGAGCTAAAGAAATCGGCTTTATCTTCCAGGACTTCAACCTCTTGGACAACCTGACCGCTAGGGAAAACATTGCCCTGCCACTTTCTTTGCAAGGGGTAAAAAGCTCAGAAATCGATTCTAAGGTCGATAAGATCGCCGCTAAGCTCAACATCAGCGAAGTCTTGGAAAAGTACCCAGCAGCCATTTCCGGCGGGCAGAAGCAAAGAGTTGCTGCTGCCAGAGCCTTGGTTCATGAACCGGCAATCTTGATGGCCGATGAACCAACCGGGGCCTTGGATTCTAAGTCTTCCAGGGCCTTGCTGGACACGATGGAGCTGCTTAATGAGAAAGACCAGGTTTCAATCTTGATGGTCACTCACGATCCGTTTTCTGCATCATTTGCTGACCGGATTCTCTTTATCAGGGACGGCTTGATTGATGAAGATATCAAGCGCGGGGACTTGAAGCGGCAGGACTTTTACAAGAAGCTGATCAGCGAGCTCAGCGAAAATACCGACTAG
>SRR1919932_00450 arsenate reductase
ATGACCAAAGCAAAAGTAGCCTTTATCTGCACCCATAATTCCTGCCGGAGTCAAATCGCCGAAGCCTTGGGTAAAAAGCTGGCCGGGGATGTCTTTGAATCCTATTCAGCCGGCACGGATCTAAAAGATCAGGTTAACCCCGACGCGGTTCGGCTGATCAAAGAGCATTATGGCATCGATATGCTGGCCAACGGGCAAAAACCAAAGACCCTCGCTGACCTGCCGGCGGTTGATTACGTGATCACCATGGGCTGCGGAGTCCGCTGTCCTTATTTGCCTGCAAAAAAGCGGGTAGATTGGGGATTAGAAGATCCAACTGGACAAGATGATGAGACCTTTATGCAGGTGATTAAAGAAATCGAAGATAAGGTACTAAAGCTGAAGCAGGAGCTGAGTTAA
>SRR1919932_00451 hypothetical protein
ATGATCACAGAAACAGAGATCCCCGAGGAATTAGGCATTGAGATAAATGATCCAGATGTTCATTCTTTCAAAGCCACTTTTGACTTCTATAATACCGCAATAGGCCTGGCGCTTAATGTCAAAACGAGAGAAGCAGCAACAAAATTCTGGCTGACTCCACAAGATGATAGGAATGACGTGCCAACGAACAGCTGGTTTGAATTTTTTGCCATGATTTTGATGGAAGCCTTAGATGAAGGCATGGATAGCATCCCAACTTTCTCTTTCGTCAATGATTCCAGTGACCTTACCATCAGCGGCCTGGGCCTGCTTGAGAAGAAATAA
>SRR1919932_00452 ATP-dependent Clp protease proteolytic subunit
ATGTTAGTACCTACAGTTATTGAACAAACGGCCCGCGGCGAACGCGCTTATGACATTTACTCCCGCTTGCTGAAGGACCGGATCATCATGCTGAGCGGTGAAGTTAACGACCAAATGGCCAACTCCATCATTGCCCAGCTGCTTTTCCTTGACGCGCAAGACAATACTAAAGACATTTACATGTACATCAACTCACCAGGCGGTGTGATCACTTCCGGCATGGCTATCGTGGACACCATGAACTTCATCAAGTCACCAGTTTCCACCATTGCCACCGGTATGGCAGCTTCCATGGCCTCAATCATTTTGGCTGAAGGCGAAAAGGGCAAGCGTTTTGCCCTGCCGCACGCTACTGTCCTCATCCACCAGCCTTTGGGCGGGGCGCAAGGGCAAGCCACGGAAATCCAAATTGCCGCTGAAGAAATCTTGAAGACCAGAAAGATGATCAATGAAATCTTGGCCAAGGACTCCGGCCAGGACATCGAAACCATCAAGCGCGACACTGAACGCGACCACTACATGACCGCTCAGGAAGCCAAGGACTACGGCTTGATTGACGACATCATGGTCAACCAAAACAAGTAA
>SRR1919932_00453 sporulation regulator WhiA
ATGGCGAGTTATGCCAGTGAGGTAAAAAAAGAACTGACTTCAATCGAGGTCCATCCCGAGCATGCCAAGGCGGAACTGGCGGCCTTTTTGCGGATGAATGCGGTTTTGAGCCGGCATGGCGGGCAGATGAGCCTGGACATCGTGACGGAAAACCCGGCCATTGCCCGGCGGATTTTTTCCCTGATCAAGACGGCCTACGGCTTTGAGCCCCAGCTGATCGTGACCCGGAAGATGAAGCTGAAGAAGAACCACCAGTATCTGGTCAGAGTGGCCCAGATGGTCAGCGAGATTATGGCGGATTTAGAGATCTATTCCCCGAAAAAAGGCTTCATCACCGGGGTGCCGGACAAGATCAAGTATTCAGAGCAGCGGTCAATGTCCTACCTGCGGGGGGCCTTTTTGGCCAGCGGCAGCGTCAACAATCCGGAAACCAGCCGCTACCACCTGGAAATCTATTGCACCTATGCCAACCACAGCCAGGATCTGCAGAAGATCATGAACAAGTACTTTGACCTCAATGCCAAGGTGACGGCCCGCAGAAGCGGCAGCATCGTCTACTTGAAAGAAGCGGAAAAAATCGGCGACTTCCTTCATGTGGTCGGGGCGGTCAATGCCATGCTGGCCTTTGAGGACCTGCGGATCATGCGGGACATGCGCAATTCCGTCAACCGCCTGGTCAACTGCGACACGGCCAACCTCCGCAAGACGGCCGGCGCGGCAGCCAAGCAGGTGGAAGACATTGAATTGATTGACCAAAAGCAGGGCCTGGAGTCTTTGCCGGAAAAGCTGGCCAGCCTGGCCCGCTTCCGCCTGCAGCACCCGGAACTTTCCCTCAAGGAACTGGCTGAGCAGGTTCCCGACGGGCCGATTTCCAAGTCCGGGGTTAACCACCGCTTGAAGAAATTGCATGAGATCGCGGAAAACCTCCGCTAA
>SRR1919932_00454 hypothetical protein
ATGTCTTTTGGCGAAAACAAGATCATCCGCATCATCAAGCGCCGCCGGCCCCGGGTGGTCGTCATCGGCGGGGGGACCGGCCTGCCAGTCATTTTGCAGGCCTTGAAAAAGCAGGACGCGGAGATCACGGCGATCGTGACCGTCTCTGACGACGGCGGGTCATCCGGGATCATCCGCAACTACATCAACGTCGTTCCCCCGGGCGACATCCGCAATGTCCTGGTTTCCTTGAGCGACCTCTCGCAAGAAAAAAAGCAGATCTTCCAGTACCGCTTTGAATCAAAGGACTCCTTTTTCTCCGGCCACGCCATCGGCAACTTGATCATCGCGGCCTTAAGCGAGATGCAGGGGAATATTTTTGACGCTGTCCAGAACTTATCAGCCATGATGGAGGTTGATGGTCACATTTATCCTTCTGCTAACGAACCTTTGACCTTGAACGCGGAATTCATGGACGGCAGCCAGAGCAGCGGGGAAGTGGAAATTACCAGCCAGCACAAGCAGATCAAGCGGGTCTGGGTAACAGCTGATGACGGTGAGCCGGCAGCTCCCAGTCCGGTGATCGAGGCCATTATGCAGGCCGATGCTATTGTCCTGGGGCCAGGGTCCTTGTTTACCTCGATTCTGCCGAACCTGATGATCCCGAATGTTGGCCAGGCAGTCCGGGAGACTAAGGCTGAAGTGGTTTACGTCTGCAACATCATGACCCAGGCCGGGGAAACGGTGGGCTTAAGCGATGCCGACCACGTCCGGGTCATCAACCAGCACCTGGGCGGCAATTATATCGACACTGCCCTGGTCAATGGGGCCCGGATCGACATGACCAAGTTCCATCCGGAAGACTATGATGAGTATTTAAAGCCGGTCGCCAACGACTTTGCCGGCCTGCAGGAACAGAACTGCCGGGTGATTACGGATGACTTTATCGACCAGCGAAGCGGCCTGGTCTTCCATGACGGCGACAAGGTGGCCAGGGAAATCATTGACCTGGCCCTGCAGGAAATGTTTAAGAGAAAGTAG
>SRR1919932_00455 ATPase P
ATGCATGAAAAACACAAGAAACAGCTGTTGATTTTGACGGGGATGAGCGGGGCCGGCAAGACGGTCGCCGCCCACTCATTAGAAGATGTCGGCTACTTCGTGGTTGACAACCTGCCCCCGGAATTGCTGGGCAATTTCTGGGACTTGATGAACACCTCGGAAGACTTTGAAAAAGTTGCCGTGGTGATCGACCTCAGGGTCAAGTCCTTCTACAAGGACCTAATCGACGAAATCAACTCCCTGGAAGACAGCGGCCAGACCCAGGCCACGATTGTCTTTTTGGAAGCTTCTGACGACACCTTGGTGGCCCGCTACAAGGAAACCCGCCGCCTGCCGCCTTTAGCGGAAAACGGCCGCCTTTTAGACGGGATCCGGGATGAACGCCGCATTTTGACTCCGGTCAGAAACCGGTCCAACTACATTTTGGATACCTCCAAGATGACGACGAAGGAACTGAAGCAGAAGCTGCAGAGCAAATTCGGGGAACTCCACAAGCCAAAATTCGGGATTGAGGTTATGTCCTTCGGCTTCAAATATGGAATGCCAATTGACGCTGACATCGTCATGGATGTCCGCTTTTTGCCTAATCCCTTCTACATTCCGGAACTGCGTCCCTTCACGGGGCTGGACAAGCGGGTCTTCAACTATGTCATGGACAAGGATGAAACCAAGGTCTTTTATGGCAAGCTGCTGGACCTCTTGTTGACAGCAATTCCCGGCTACATTGACGAAGGCAAGGAAAAACTGACGATCGCCATCGGCTGCACGGGCGGTCAGCACCGCAGCGTTTCGATCGCCCAGCAGCTGGCGCGCGACTTGTCTGAAAAATATCCGGTTGACATTACCCACCGGGAAATCAGCCGTTATCTCAGAAAGTAG
>SRR1919932_00456 D-aminopeptidase
ATGGGCTTAAAAGGAGAACTGTTTTTGCCCCGGGCTTATCAAACCGGAGAGAAAAACGACATAACCGATGTTCCGGGGATCAAGGTGGGCCAGGTGACCCTGCGAAAGGGCGGGGTTAATACCGGCGTCACGGCAATCTTGCCCGGGAGTGATATTTTTAAGCAAAAAATGCTGGCCAGCGGCCAGGTCATCAATGGCTTCGGCAAAACTACCGGCCTGGTTCAGATCAATGAGCTGGGTACTTTGGAGACTCCGATTCTCATGACCAACACCCTGGCCGTGGGGACCTGCTGGACGGCCTTGACCCGCTACATGCTGGACCGGAACCCGGATATCGGCCTCACAACCGGGACGGTTAACCCGGTCGTAATGGAGTGTAACGACGGTGATTTGAATGATATTAGGTCCCTGCCGGTTAAAGAGAGCGATGCTCTGACGGCTTTAGCTTTAGCTGAGGGTAATCCGCCCCTGCTGGAAGGTAATGTCGGTGCCGGAACCGGTATGCGCTGTTTAGGCTTTAAGGGCGGCATCGGGTCAGCTTCACGGCTTTTGGAACTGGGCGGGAAAAAATATCACGTAGCCAGCCTGGTCTGCGCCAATTTCGGGGCTTTTGGCAAGTTGCGGGCTGGCAGCCGCCTTTTGGGCCAGGAACTAAAAGATGCCGTTTTGGCCCGGGCGAAAGCAGAAAATAACCAGCTTTATGCCCGCTATCAAAAAGACCAGGGGTCAATCGTGATGGTGATCGCCACCGACCTGCCTCTCTCCAGCCGGCAACTAGGCCGCCTGGCCCGCCGGAGCGCGGTTGGCTTAGCCAGAACCGGGTCGTATATCGGCGATGGTTCTGGCGACATTGCCCTGGCTTTTTCCACGGCGCAAAGGGTCAGCCATTTCGCTAAAGAAGCGGAAAGCTTTAGCTTTTTGCCGGACAGCCATCTGGACCCGGTCTTTGAAGCCGGGGCGGAGACAATCGAAGAAGCGGTCTTGAGTGCCTTGGTCCACGCTGAGACCTTGACTGGTTTTCAAGGGAGAAGGGTCTACGGCTTAGGGGATTTTTTATAA
>SRR1919932_00457 D-aminopeptidase DppA
ATGGAGAAAAAGATTTATATTTCCTGCGACATGGAGGGCTGCGCCGGCGTTACCAGCTGGGAGCAAACCCATTATGGCCACAAGGGCTATGACCTGGCTTTAAAAGAGATGACCCGAGAAACCGTGGCCGCGGTCAAGGCCTGCCAGCAGGCCGGCTACCAGGTGACCGTCAAAGACGGGCATGAGGACGGGATCAACCTGGATCCGGCCCTGTTGCCGGCGGGCACGGAACTGATCCAGGGCTGGGACTCTTCACCAGAAGAAATGATGGCGGGAATTTCAACCGACTATGCCGGGGCAATCCATATCGGCAGCCACTCTCCGGCCGGCTCCAGCGAAACGCCCTTGGACCATACAGTGGAACATGGCTGGTATTCCTGGGTCAAGCTGAACGGGGAATTGGCCTCGGAATTTACCTTCAACAGCCTCTGCGCGGCCCAGTACGGGGTACCCTCACTTTTCCTGGCCGGGGATGCCGGAATTTGCCGGCGGGCTGAGGACTTTTGCCCGGGCATCGTGACCTGTGCCACTAAAAAAGGGGTGGGCAGCGCGACTGTCAATAAGAGCCCCCAGGAAGTCGCAGCGGGCATCGCGACCGGGATCAAGGAAGCCTTGGCGGGGCCCGGTGGTCTGCCGCTTTTAGCTGACGAATACCTGCTGGAATTCTGCTTTTCTTCAGCAGGCCGGGCCAGAGCCGCTTCTTTTTACCCGGGAGCTGAGCGAGCAGGCGAGCGGATCGTTTCCTACCGGGCCAAGAGCATTATGGAACTCTTGACGGCGAAAATGTTCATGACGGAAATCTGA
>SRR1919932_00458 membrane protein
ATGTTTGATTCTGTCTACAACGAAAAACGCGGCTTTGACTGGGGCGTCTTCATCGCTGGGGTCATCTCCGTCGTTTTAAGCATTTTTCTCTTTGCCAACCCTGGCAAGGGCTTGCGGGGCCTGGTCATCGTTCTGGCCGTCTTGTTGATCATGCAGGGGAGCGCTTGGATTTCCATGTATGCCGGCTTTCACGGTATCTTTGGCCCGTCTTGGACGACCCTTTTATCGGGGATCTTTGACATTTTGATCGGGATCTTCTTCCTGTGGGATAACAAGGTCGGGGCATACACGATCGCGATCTTGGTGGCTATCTGGTTCATCGTCGACTCGGTGATCGGGATCGTCTTTGCCTGGCACCTGCGTTTCTTTGAGACCGGCTGGTATTTCTTCTTCAACCTGCTCTTGAACATCCTGGGCCTGGTCGTCGGGGTTATGCTTCTGCTCAGACCGATTATCGCGGTGATGAGCACGGTCTACTTGATCGCGATCTACCTGATGATCTTCGGGATAAATGAGATTGCTTTGGCCTTTATGCACCGTTAA
>SRR1919932_00459 excinuclease ABC subunit A
ATGGCAGATAGAAAGATTGTCATCCGCGGTGCCCGTGAGCACAATTTAAAAGACATCGACGTAACCATTCCTAAAGACCAGCTGGTCGTTATTACTGGCTTATCGGGTTCTGGCAAGAGCTCACTGGCTTTTGACACCCTGTACGCTGAAGGCCGGCGCCGCTACGTCGAATCTCTGTCCAGCTATGCCCGCCAGTTTTTAGGGCAAATGGACAAGGCCGACGTCGACTCAATCGACGGCCTTAACCCGGCCATTTCCATCGACCAGAAGACGACCTCCCACAATCCCCGCTCAACGGTCGGCACGGTTACTGAAATCAACGACTACCTCCGCCTGCTCTGGGCCAGGGTCGGCCACCCTTACTGCCCAAACGACGGCACCTTGATCCAGCGGCAGTCGGTTGACCAGATGGTGACCCGGATCCTGGATTTGCCGGAAAGAAGCAAGATCCAGCTTTTGTCCCCGGTCATCCGGGGCAAGCGGGGCGAGCACAAGGAGGTTTTCGCCCGAATCCGCCGGGCCGGCTATGTCCGGGTGATCGTTGACGGCGAGCTGCACGACGCCAGTGAGGAATTTGCTTTAGAGAAAAACAAGCGCCATGATATCGAAATCGTGGTTGACCGCCTGGTCATCAAAGACGGGATCCGGTCCCGCCTCTTTGACTCGGCTGAAGCAGCCCTGCGCCTGTCTGAGGGCTACATGGACGTTGACGTGATCGGGGGCGAGAAGCTCAGTTTTTCTGAATACTACGCCTGTCCTCTTTGCGGCTTTACAGTCGGGGAAATGGAGCCCCGACTTTTCTCCTTCAACGCGCCTTTCGGGGCCTGCCCGGCCTGCGATGGCCTGGGGATGAAGCTGGCGGTTGACCCGGACTTAGTGGTCCCGGACAAGGACAAGAGCTTGGCTGAAGGGGCCCTGGCTCCTTGGGCAGGGTCAAAGTACTACATGGGGATGCTGGAGCAGGCCTGCGCGGCTTTGAAGATCCCGATGGACAAGCCTTTTAAAAAGCTGACCAAGCGGCAAAGAGACATTATCTTAAATGGGTCAGACAAGGAAATCCACTTCCACCTGGAAGGGGACTTCGGGGTCAACGACACCAAGCAGCCCTTTGAAGGGGTGATCAACAATGTCGACCGCCGCTACGCCAAGCCAATGTCCAAGTTCATGCAGGAAGTCATGGGCAAGTACATAACTGAATTGCCTTGTGAGGTCTGCGGCGGCAAGCGGCTTAATGAGAAGGCCCTGGCCGTTAAGGTCAATGGCAAGAACCTGGCTGAAGCCAGTGACTTGTCAATCAAGGACGGCCTGGCCTTTTTCAAGGCAGTTGACTTAAGTGAGCAGGAAGCTGCTATCGCCAAGCCGATCCTAAAAGAAGTCTGCGACCGCTTGAATTTCCTGGTTAGCGTCGGCCTGGACTACCTGACCCTGTCCAGATCAGCCGGGACTTTATCCGGCGGGGAAGCCCAGCGGATCCGCCTGGCCACCCAGATCGGGTCCAACCTGTCCGGGGTTATGTATGTCTTGGATGAACCGTCTATCGGCCTGCACCAGCGGGACAACGACCGCTTGATCGCTTCTTTGAAGCGGATGCGGGACCTGGGCAACTCCTTGATTGTCGTTGAACACGACGATGAAACTATGCGGGCTGCTGACTACTTGATTGACATGGGGCCAGGGGCCGGCAGCCAGGGCGGGGAGGTTACGGCGGCCGGAACGCCGGAAGAAGTCATGGCCAATCCGAAGTCTTTGACTGGCCAGTACCTGCGGGGAGAAAAGTTCATCCCGGTACCATTGAAGCGGCGCAAGGGCAGCGGCAAGAAGCTGAAGCTGACCGGGGCGGCGGAAAACAACCTGAAGAATATCAGCGTCGAATTCCCTTTGAGTGAATTCGTGGTCGTGACCGGGGTTTCCGGGTCCGGCAAGTCCACCCTGGTCAACCAGATTTTAAAGCGGGTCCTGGCCCAGAAGCTCAACCACAATTCCGCCAAGCCGGGCAAGTATGACAAGCTGACCGGCTGGAAGAATATTGAAAAAGTGATCGACATCGACCAAAGCCCGATCGGCCGGACCCCGCGGAGCAACCCGGCGACCTACACCAGCGTCTTTGACGATATCCGGACCCTTTTTGCCCAGACCAATGAAGCCAAGATGCGGGGCTACACCAAGGCCCGCTTCTCCTTCAACGTCAAGGGCGGGCGCTGCGAAACCTGCCACGGGGATGGGATCCTCAAGATCGAAATGAACTTCCTGCCGGACGTCTACGTTCCTTGTGAAGTCTGCCATGGCCAGCGCTATAATTCTGAAACTTTGGAAGTGACTTACCGGGAAAAGAATATCGCCCAGGTCCTGGACATGACGATCAGTGAAGCTTGTGACTTCTTCGTTAATATTCCCAAGATCCACCGCAAGCTGCAGACCATCGTCGACGTTGGTCTGGGCTATGTCAAACTGGGCCAGCCAGCCACCACTTTGTCCGGCGGGGAAGCCCAGCGGATGAAACTGGCCAGCGAACTGCAGAAGTTATCGACTGGGAAAAACTTCTACATCCTGGATGAACCAACTACTGGCCTGCACACCGACGACATCAAGCGCCTTTTGGAAGTCCTCCAGCGCCTGGTGGACCAGGGCAACACGGTTTTGGTGATCGAACACAACTTGGACGTGATCAAGACGGCTGACTGGCTGATCGACCTGGGCCCTAACGGGGGCGAGCGGGGCGGCCAGGTGGTCTGCACGGGGACGCCGGAAGAGGTGGCAGACTGCCCAGAGTCCTGGACTGGCAAGTATCTCAAGCCAGTTTTGGGCCGGGACAAAGCTTTGACTGAAAGCAGTCTTGCAAATAAAGAAAAAGAATCTTAA
>SRR1919932_00460 excinuclease ABC subunit B
GTGATTAAGCGGCAAGACAATAACAAATTTGAACTCGTCTCACCATATAAGCCGGCCGGTGACCAGCAGCAGGCCATCGACCAGCTGACGGCCGGTTTTCAAGCCGGCGATAAAGAGCAGATCCTCAAGGGGGCAACGGGGACGGGGAAGACCTATACCATGGCCAATGTAATTGCCAAAATGAACAAGCCGACCCTGGTCATTACCCACAACAAGACCCTGGTTGGCCAGCTCTACAATGAATTTAAGGAATTTTTCCCGAACAACGCCGTGGAATACTTCGTTTCCTACTATGACTACTACCAGCCGGAAGCCTATGTGCCCCAGTCAGACACTTACATTGAAAAAGACGCCTCGATCAACGACGAAATCGACCAGCTGCGGCACGCCGCCACCAGCGCCTTGATGTCCAGAAATGACGTCATCGTGGTGGCTTCCGTTTCCTGTATATACGGCTTGGGTGACCCAAGAGAATACGCGGCCAGCGTGTTAAACGTCTATACTGGCCAGGAATACGAAAGAAACACCCTGCTCAGAGACTTGGTCAACATCCAGTACGACAGAAACGACATCGACTTCCAGCGGGGCCGCTTCCGGGTCCGGGGCGACGTTGTGGAAGTTTTCCCGGCCGGCTATTCCGACCGGGCCTACCGGATTGAATTTTTTGGCGACGAAATCGACCGGATTGTTGAAGTTGACCCCTTGACCGGGGAAGTGCACGGGGTCAGAGACAGCATCTCCCTTTTCCCGGCAACCCACTTCATGACCAACGATGATCAACTGGCCGGGGCTATCGACCGGATCAAGGCTGAGATGGACGACCAGGTCAAGAAGTTTGAAAAAGAAGGCAAGCTGCTGGAGGCAGAAAGAATCAAGCAGCGGACCACCTACGACTTGGAAATGCTGAGAGAAGTCGGCTACACCAACGGGATTGAAAACTACTCCCGGCAGATGGAAAACCGCAAAGCCGGTGAGCCGCCATACACCCTTTTGGACTTCTTCCCCAAGGATTCCCTAATTTTAATCGACGAATCCCACGCCACCATGCCGGAAATCCGGGCCATGTACAACGGGGACAGAAACAGAAAGCAGACCTTGATTGACTATGGCTTCCGCCTGCCATCAGCCTTGGACAACCGGCCCCTAAAGCTGGAAGAATTTGAGCAGCATGTCAACCAGATCATGTATGTGTCAGCCACCCCGGGTGACTATGAATTAAACCAGACTAGCCGGATCGTGGAACAGGTCATCCGGCCGACCGGCCTTTTGGACCCGAAGATCGAGGTCCGGCCAATTGAAGGGCAGATCGATGACCTGGTTGCTGAAATCAACCTGCGGATTGAAAGAAAGGAACGGGTTTTTGTCACTACTTTGACCAAAAAAATGGCTGAAGACTTGACCGACTACTTGAAAGACCTGGGCATCAAGGTCCGCTACCTGCACTCGGACATTAAAACCCTGGAAAGAATGCAGATCATCCGCGACCTCCGCTTGGGCAAGTTTGATGTTTTGATCGGGATCAACCTGCTTAGGGAAGGGATCGACGTACCGGAAGTTTCCCTGGTGGCCATTCTGGACGCGGACAAGGAAGGCTTCCTGCGGGCCTACCGGCCGCTGATCCAGACCATGGGCCGGGCGGCCCGGAACGCCAACGGTGAAGTTATCATGTATGCTGACCGGATCACCGATTCCATGAAGCTGGCGATTGATGAAACGAACCGCCGCCGGGCCATCCAGATGAAGTACAATGAAGAGCATGGGATCGTGCCAAAGACCATCATCAAGCCGGTCCGGGACATGATCTCCGTGGTCAAGGCCGACAAGGAAGCCGAAAAGTCAGACTCCTTCGCCGACCTCAACTTCGACGAGCTGACGGCCAAGCAGAAGAAGCAGATGATCGCCAACTTGAAAGAGCAGATGCAAGACGCGGCCAAGCGCTTGGACTTTGAAAGCGCGGCTAACCTCCGCGACGCGATTATCGAATTGGAAGGCTCTGTAAGAAAACCGATTAAGAAGAAAGGCAAGGACTTCAATGGCAGATAG
>SRR1919932_00461 thioredoxin reductase
ATGACCAAAGAAGTTGACGTAGTAATCATTGGTGCCGGTCCAGCCGGCATGACGGCAGCAGTTTACGCGGCCCGGGCCAACCTGAAGACGGTCCTCTTAGACCGGGGGATTTACGGGGGGCAGATGAACAACACTGCCGACATCGACAATTACCCGGGCTTTGTGGAAGTTCAGGGGCCGGAACTGGGCGAAAAGATGTATCAGACCGTGCAAAACGCCGGGGCCAGCTATGAATATGGCGACGTCCAGGCCGTCAAGCTGGAAGGCGACTACAAGCGGGTGATTACGGACAGCGAGGAATACCTGGCTCCAGCCGTGATCATCGCGACTGGATCAGAGCACAAGCACTTGAACGTGCCGGGAGAGGAAACTTATTCCGGCCATGGTGTTTCTTACTGCGCCGTCTGCGATGCAGCTTTCTTCAGAGATGAAGACGTGACGGTGATCGGCGGGGGCGACTCGGCCATCCAGGAAGGGCTCTACCTGGCTCAGTCAGCCAAGTCAGTCACGGTCGTTCACAGAAGAGACCAGCTGCGGGCCAAGCCTGAACTGCAGGAGAAGGCCTTCAAGCACCCGAAGATCAAGTTTGTCTGGAACGCCCTGACTGAAGAAATCGTCGGCGAAGACGGCAAGGTCAGCGGGATCCGTTACAAGGACAAGGTCAGCGGGGAAGAAAAGGAATTTGCCACCAAGGGCGTCTTCATTTACGTTGGCGTTTTGCCAGTGACTAAGGCCCTGGATGGCCTGGACATCCTGGACGAAAACGGCTGGATTCCTACTGACGAATTGATGCGGACCCGGCAGGAAGGGATCTTCGCGGCCGGCGACGTGCGGCCAAAGGATTTGCGCCAGGTAACGACCGCCGTGGGCGAAGGCAGCGTGGCCGGGCAGGAAGCTTACAACTACCTGCAAGCCAAGGGCTTTTTGAAATAG
>SRR1919932_00462 glycerol-3-phosphate dehydrogenase
ATGACAAAAATTTCCGTTTTAGGCGCCGGTTCCTGGGGGTCAGTCCTGGCCTCCATGCTGGCTGACAACGGCCACGAGGTGGCCCTTTACGCCCACCGGCAAGTTATTGCTGATGAGATCAACCAAGATCACACTAACCTGCACTACATGAAGGACTGGACCTTGAACCCCAGCGTTTGGGCCAGCACCGACATGGGGCAGGTTCTGAAAGACTGTGACGTTATCCTGTTTGCCGTGCCGACCAGCGCGATCCGGTCAGTGGCTAAAGCGGTCCGGCAGGTCTTGGACGAAAATGGCCGCCAGCCTTACCTGGTTTCGGCCACCAAGGGGATTGAACCGGGGACTAAAAAGCTGGTTTTGCAGATTTTTAAAGACGAAATCTACCCAGACGGATTTGACAAGATGATCGTCCTGTCCGGTCCCAGCCACGCGGAAAATACCGCCCAAAAGGACCTGACGGCCATTACCCTGGCTTCAACTAGTCTGGACAACGCGGCCAAGATGCAGAAGATTTTTTCAAATGACTATGTCCGCTTCTACACCAGCAACGACCCAATCGGGGTCCAGGTCGGCGGGGCTGTTAAAAACGTCATCGCCATCGCGGCTGGGATCCTGGCGGGCCTGGGCTACGGGGACAATGCCAAGGCAGCCTTGATGACCCGGGGCCTGACGGAAATCACCCGCCTGGGCGTGGCCTTTGGCGGCCAGCCTTGGACCTTCAGTGGCCTGTCCGGGATCGGCGACTTGATCGTTACTTGTACCTCAGTCAACTCCCGGAACTGGCGCTGCGGCTACCAGCTGGGCCAGGGCAAGCCCCTGGACGAAGTCTTGGCCAACATGGGCCAGGTTGTTGAAGGGGCCACGACCGTCAAGGCCGTGTACGAAATCTGCGACAAGTATTCTTTGGACATGCCGATTTCAGCTTCCATCTACAAGGTCCTCTATGAGGGGGCCAAGATCGACGATGAGATCAAGCTGATGATGAGCCGGCAGATGGGACCGGAAATCAGAATTTAA
>SRR1919932_00463 diacylglyceryl transferase
ATGACTTTAGCACTGAATCCAATCGCCTTCAGTATCGGGGACATTCACGTCCGCTGGTACGGAATCATCATCGCCTGCGGGATCCTGCTGGCTACCTTCATGTCGATCAGAGAAGGGCAAAGACGGCAGATCATGAGCGATGACTTCATCGACTTGCTCTTGTGGGGCGTGCCGATCGGCTTTATCGGGGCCCGGATCTACTATGTCATTTTTGAATGGGGCTACTTCTCCCAGCACCCGGATGAAATTATCGCCATCTGGAACGGGGGGATTGCCATTTACGGGGGCTTGATCGCCGGGGCGATCGTCCTTTTGGTCTTCTGCTACCGGCGCTTCTTGTCGCCATTTCTAGTCCTGGACATCGTGGCGCCGGGCGTGATGGCGGCCCAGGTCCTGGGCCGGTGGGGCAATTTTATGAACCAGGAGGCCCACGGGGCCAAGTGCAGCCTGCAGTATCTGCAAAACCTCCACTTGCCCCAGTTCATCATCGACCAGATGTACATTAATGGCAGCTACTACAAGCCGACTTTTTTGTATGAATCTTTCTTTAACCTGATCGGTCTGATCATCATCCTCTCCCTGCGCCACAAGAAGCATCTTTTTAAGCAGGGGGAAGTCTTCATGCTTTACCTGGCCTGGTACTCCGTAGTCCGCTTTTTCGTGGAAGGGATGCGGACGGACAGCCTCTATATCTTTGGTGTCATCCGGGTTTCCCAGGCCCTCAGCCTCCTGCTTTTAATCGCTGTGGTTATTTTATTTGTCTACCGGCGTGTCAAAGTCAAGCCAAAGTGGTATCTTGAAGGAAGCGGTTTAAAATATCCATACGAGAGGTAG
>SRR1919932_00464 HPr kinase/phosphorylase
ATGACGAACACGGTAAAACTAACTGAGCTCATTAATGACAATTCCAACCTGCGGGTTCTGCAGGGACAGGAATGCGTGGCTGGCAAGAAGATTACGGTTTCCGACGTTTACCGGCCGGGACTGGAATTGAGCGGCTACTTTGACTTTTACCCGGCTGACCGGGTCCAGCTTCTGGGCAGAACGGAAATTTCCTACGCTGCCCGGCTGGACCACGACCTGCGCCGGAAAGTTTTTGAAAAAATCTGCCAGAAAGAAACTCCCTGCGTGCTGGTTTCCCGCAACCTGCCGGTGCCGGTTGAACTGAAGGAAGCGGCAGAAGCAGCCGGGACCCCGATCTTGATTTCCAATGACGCCACGACCTACTTGATGAGCATGATCACCCAGTACCTGGCCGTCAAGCTGGCGGAAAGAAGCAGCGTTCACGGGGTCCTGGTCGAAGTTTTCGGGATGGGGGTCCTCTTGACCGGGGAATCCGGGGTCGGCAAGTCCGAAACCGCCCTGGCCCTGGTGCAGCACGGTCACCGCTTGATCGCTGACGACCGGGTGGATGTCTACCAAAGAGACCACGAGACTGTGGTCGGGGAAGCTCCCCGTATTTTGAAGCACTTGATGGAAATCCGGGGGATCGGGATCATTGACGTCCTCAAGCTCTTCGGGATTGGGGCCATCAAGGATGAAACCGAGATCTCCCTGGTCATCAACTTGACCAACTGGAACTCCAAGGCCAACTATGACCGCCTGGGCTTCCAGGAAAACACCCGGATCATCTGCGGGATCGCGGTTCCCCAGGTCACTATTCCGGTCAAGGTCGGCCGGAACATGGAAAACATCGTGGAAGTGGCCGTCATGAACTTCAGAGCCAAGGCCATGGGCTTTGACGCGGCCAAGACTTTTGATGAAAACTTGACCAGCCTGATCGCGGAAAACAGTGAGGAAGAAAAAGGGGGTAAAGCAGACTAA
>SRR1919932_00465 hypothetical protein
ATGTCATTTACCACGATAATACTGCTGGTTTTGGCGGCGGTAGTCGCCCTGGCCCTGCTCTCGGTTTTCTTCAAGGCCTTGATTGCCTTGCTGCCGGTGGGCCTGGTCGTAATTTTGCTATTATGGCTCTACTACCGCTTTTACTGGCGGAAGAAATACAAGCTGCCCAGCCGGCCGGAGCCCGACAGGTTCAAGCCAGGCCAGGCAGATCCGGAGCGGCCGCGGAAACAGGCGCAAGATGTGACAGTGCGAGATGTTGATGATAGTGAGGTACATGATGACGAACACGGTAAAACTAACTGA
>SRR1919932_00466 peptide chain release factor 2
ATGGCGGAACCGGGCTTTTGGGACAATCAGGAAAAGGCCCAGAAATTGATCAGTGAGACCAACCTGCTCAAGGAAAAGCGGGACTCCTTCCTGGCTCTGGAAAAAGACCTGACCGATGAAGAAACGGCCCTGGAATTGCTGCGCCTGGAAGCAGACGCGGACCTGCAAAAGGACACCGAAGACCAGCTGGCCAAGCTGCAGGAAGAGTTCCACCAGTATGAATTGAACCTGCTCTTGTCGGGCGAGTACGATGACCATAACGCCTTGATGGAAATCCACCCGGGGGCCGGCGGCACTGAAGCCATGGACTGGGGGAACATGCTGCTCCGGATGTACCAGCGCTATTGCGACTCCCGTGGCCTTAAGTTTGAAGTCAACAACTTTGAACCAGGTGATGAAGCCGGCTTAAAGAGCGTCAGCGTCCGGATTTCCGGCAAGAATGCCTACGGGCTGCTGAAGTCTGAACACGGCGTTCACCGCCTGGTCCGGATTTCGCCTTTTGACTCAGCCAAAAGACGGCACACTTCTTTTGCCTCGGTTGAAGTTATCCCCGAAGTCGATGACTCCATTGAAATCGACATTGACCCTAAGGACCTCAGAATTGACGTCTACCGGTCATCCGGGGCGGGCGGCCAGCACATTAACAAGACTTCCAGTGCCGTCCGGATTACCCACATCCCAACCGGGATCGTGACGACTTCCCAGGCCCAGCGGTCCCAGTTCCAGAACCGGGACACGGCCATGAATGAAATGCGGGCCAAGCTTTTCCACCTGGAAGAAGAGAAGAAGCGCAAGGAAAAGGCGGCCTTGAAGGGTGAGCAATTGGACATTGCCTGGGGCTCGCAGATCCGGTCTTACGTCTTCCACCCATACAGCATGGTCAAAGACCACCGGACCGGCTATGAAACCGCCGATGTGGGCGGGGTGATGGACGGGAAGCTGGATCCCTTCATCTACGCCTACCTGCAGTGGCGTTTGAGCCAGGAAAATCCAGAATAA
>SRR1919932_00467 preprotein translocase subunit SecA
ATGGCAAACATTTTAAAGAAGTTATACAACGCTGATAAAAGAGAACTTAAGCGTTTTGAAAAAATTGCTGACCAAGTAGAGTCATACGCTGACCAAATGGCCGCTCTCTCTGACGAAGAATTGCAGGCCAAGACGCCGGAATTCCGGAGCCGGATTGAAAAGGGCGAAAGCTTAGACGACCTGCTGCCGGAAGCCTTTGCCGTATCCCGGGAAGCTTCCAAGCGGGTTCTGGGCCTGTACCCATTCCGCGTGCAGATCCTCGGCGGGATTGCCCTGCACCGGGGCAACATTGCCGAAATGATGACCGGGGAAGGTAAGACCTTGACGGCCACCATGCCGGTTTACCTCAACGCTTTGTCTGGCAAGGGCGTGCACGTTGTTACTGTCAACGAATACCTGTCCAGCCGTGACGAAACTGAAATGGGCCAGCTTTACCGCTGGCTGGGCCTGACGGTCGGCTTGAACCTTAGCACCATGTCCCCGGAAGAAAAGCGGGAAGCTTACGCCTGCGACGTAACTTACTCAACTAACTCTGAACTGGGCTTTGACTACCTCCGGGACAACATGGTTGTCTACAAGGAACAAATGGTGCAGCGGCCGCTTAACTACGCCATCATCGACGAAGTTGACTCCATCTTGATCGACGAAGCGCGGACGCCTTTGATCATTTCCGGTGAAGCTGAACAAGCCAACGCTGACTACGTCCGGGCTGACCGCTTTGTCAAGAAGCTGGTGGAAGACAAGAGCGACAATGACGCCGATGACGATGAAGACCACGGCGACTACAAGATCGACTGGCCAACCAAGACTATTTCCCTGACCAGAACCGGGATCCAGAAGGCCTGCGACCACTTTGGCCTCAAGAACCTTTACGACGTTGAAAACCAGAAGCTGGTCCACCACATCGACCAGGCTCTGCGGGCCAACTACATCATGCTCAAGGACATCGACTACGTTGTCCAAGACGGTGAAGTCTTGATCGTTGACTCCTTTACCGGCCGTGTTATGGAAGGCCGCCGCTACTCAGACGGCCTGCACCAGGCTATCGAAGCCAAGGAAGGGGTCAAGATCCAGGAAGAATCCCAGACCCAGGCCACAATTACTTACCAGAACTACTTCAGAATGTACCAGAAGCTGTCCGGGATGACCGGTACGGCCAAGACTGAAGAAGAAGAATTCCGTGAAATCTACAACATGGAAGTCATCACCATCCCGACCAACCGGCCAGTTATCAGACAGGACATGCCAGACCTGCTCTACCCGACCCTGGACTCCAAGTTCAAGGCCGTGGTTGACGAAATCAAGGAGCGGCACGCCAAGGGCCAGCCAATCCTGGTCGGCACGGTGGCCATTGAATCTTCTGAACGCTTGAGCCACATGCTGGACAAGGAACACATCCCGCATGCTGTCTTGAACGCCAAGAACCACGCCAAGGAAGCAGCCATCATCATGAATGCTGGCCAAAGAGGGGCAGTTACGATTGCCACCAACATGGCCGGGCGTGGGACTGACATCAAGCTGGGGCCTGGCGTCAAGGAACTGGGCGGTTTGGCCGTAATCGGGACTGAAAGACACGAATCCCGCCGTATCGACAACCAGCTGCGGGGCCGGTCCGGCCGGCAGGGTGACCCGGGTTACACCCGCTTCTACCTGTCCTTGGAAGACGACTTGCTGAAGCGCTTCGGGGGCGACCGGGTCAAGGACTTCCTTGACCGCCTGTCCGACAATGACGACGACAAGGTCATCGAAAGCCGCTTGATCACCCACCAGGTTGAATCAGCCCAAAAGCGGGTTGAAGGGAACAACTACGACACCCGGAAGCAGACCCTGCAATACGACGACGTTATGCGGATCCAGCGTGAAATCATCTACAAGGAACGGATGCAGGTTATCGATGAGCAGCAGTCCTTGAAGAGTGTCTTGATGCCGATGATTCACCGGACTATCGACCACCAAGTGGACATGTTCACCCAAGGCGACCGGTCGACTTGGCGCCTGGACTCCTTGCGCGACTTTATCGTTTCCAGCCTGGCCAGTGAAGAATACGTTGATTCAGAAATCGACTTCAAGACCTTCACGCCAGATGCCCTTAAGCAGCAGCTTTACCAGCTGGTTGAAGACAACTACCAGGAAAAGGAAGCTGCCCTGGCTGATCCGGAACAAATGCTGGAATTTGAAAAGGTGGTTATCCTCCGCGTGGTTGACGAACACTGGACCAACCACATTGACGCCATGGACCAATTGCGGCAGTCAATCGGCCTGCGGGGCTACGGCCAGCTGAACCCGCTGGTTGAATACCAGGACTCCGGCTACAACATGTTTGAAGAAATGATCAGCGACATCGAGTTTGACGTGACTCGCCTCTTCATGAAGGCTCAGATCAGAAACAACTTGAGTCGGTAA
>SRR1919932_00468 ribosomal subunit interface protein
ATGTTAAAGTACAATGTTCGTGGCGAAAATATTGAAGTCACTGAAGCTTTGAGAGATTATGTTGAAAAGCGCTTGACCAAGTTGGAAAAGTACTTTGATCTGAGCCAGGACGTAATCGCTCATGTAAATCTGAAGGTATACCGTGACCACTCAGCTAAGGTTGAAGTAACCATTCCGCTTCCATACCTGGTTTTGAGAGCTGAAGAAACTACGGATGACATGTACCGCAGCATTGACTTTGTTTCCGAAAAGCTTGAACGCCAAATCAGAAAGTACAAGACCCGCGTCAACCGCAAGAGCCGTGAAAAGGGCGTTGAAGAATTCTTTATCCCTGAAGAAGCTCCGGTTGAAGAGGAGAAGGAAGAAAAGGCTCCAATGTTCAAGATTGTCCGCAACAAGCGGGTTAACTTGAAGCCAATGGACCCAGAAGAAGCCATCTTGCAAATGGACATGCTGGAACACGACTTCTTCGTCTTCCAAGACGCTGAAACCAACGGCACCAGCGTGGTTTACCGCCGCAACGACGGCAGCTACGGCTTGATTGAAACTAACGAATAG
>SRR1919932_00469 competence protein ComFC
ATGAGTCTTTGCCTTTTTTGCGACCAGCCTTTTACCGGAGATTTGGACATGAGGCGCCTGCTTTTGCCGGGCAAAAGCAAGACTTCCTGCCTGTGTCCATCCTGCCGCCAGCAGTTTGCGCAGATCGGCCCCGCCTTTTGCCCCCAGTGCGGCCGCCAGCAGGATAGCGGGGAAATCTGCCAGGACTGCCAGAAGTGGCGGCGGATCTACCAGGGGAATTTTTTGCACAACCAGGCCGTCTACTGCTACAACCAGGCCTTTCATGACCTGATGGTCCGCTACAAGCGCTACGGGGACTACCTGCTCTGCCAAGTTTTGCAGGAATTGGCCGCCCCTGCTGTCCAAAAATTAGCGGCCGACTACTACGTCCCGGTCCCGACTTCACCTGAGCACCGGGAAAAGCGGGGCTATGACACGGTCTGGGAAATTTTTACCCCCCTTTTGCCCTTAACGCCACTTTTAGCCAAGAAGGCTAGAGCTGGGGCCCAGGGGGAAAAGGACAAAAAAGCCAGGATGCAGGCCAAGCAAAATTTCTTTTTAAATCCTGAATTTAGGGGTACAATAACAGGCAAGATCATCCTTTTGGATGACATTTACACCACAGGCCGAACACTTTACCATGCGCGCGACGCGATTGAAACGGCTTTTCCTAAATGCCAGGTCGAAAGTTTTTCAATTAGTCGCTAA
>SRR1919932_00470 competence protein ComFA
ATGACAGAAGAAAAAGAATCTCTGGCCGGCCGCCAATGGCTGGTTGACAAAGTGGATAATAGCATAAAAGAGGGGCAGACGGCAATTCCCGCCATCGAAAATGGCATCTGCCAGCGCTGCGGCAGCTCATGCTGGGCCCGCCTGCCGTCGGGCTTTTTGTATTGCCGTGCTTGCGTGGGCCTGGGCCGGCTGGATGAGGGCAAGCTTTTGGTCCGCCAGGCGGCTGGCAGTCATTACCCGGCCAGGGCGGGGATGACCTGGACAGGGCAGCTGCAAGAGCGGCAGGAGGGTGTGAGCCGCTTTTTATTGGAGAAATTTGCCGCTAAAGAGGACTGCCTGGTTGAGGCCGTGACCGGGGCGGGGAAGACGGAGATGATTTTTCCCTTATTGGCTGAGGCTTTCAGCCGCGGCTGCCGGGTAGCCATTGCCACGCCCAGAATCGACGTGGTCAATGAGCTTTACCCCCGCCTAGTAGCAGCCTTCGGGGAGGTGGAGATCGGCAAGTACCATGGCCGGGAGGAAAAGGAAGCGGCCAATGAGCAGCTGGTCATCTGTACGACCCACCAGCTGCTGAAGTACTACCAGGCCTTTGACCTTTTGATCATCGATGAGATCGACTCCTTCCCATATGCCGGCAATCCCCAGTTGCATTTTGCCGCGGGCAATGCTGTTAAAAAAACGGGTAGCCGGGTCTTTTTGACGGCCACCCCGCCTGAGGACCTGCTAAAAGCGGCCAGTCAGGGGAAACTGGCCATCGTCAGGCTCAACCGCCGCTTTCACGGCTATCCCTTGCCTGTGCCCCGGCTGGACCTGTACGTCAAGCCTTTTTTGACCAAGGGCCGCCTGCATCCGAAATTAGCCCGGCGGATCAAAATGGCGGCCAAAAGCGGCCACCCCCTCCTGGTCTTTTTGCCCAGAATTGCCCAGATGCCCCAGTATTTTGCCGCTGTCAAAAGGCTCCTGCCCGACTTGCGCCTGTCAACCGTCTATGCCCAGGACCCGGACCGGCTGGAGAAGGTGGAAAAATTCCGCAAAGGCGACCTGGACCTGCTTTTGACGACCACAATCTTGGAGCGGGGGGTGACCTTTAAGCATGTTTGGGTGATCATCGTGGCCGCTGATGATGAGATTTATTCCGCTGCCAGCCTGGTCCAGATTGCCGGCCGGGTGGGCAGAGACAAGCAGGATCCGGACGGGCTGGTGCTTTTTTGCTACCGGCGCTACAGCCGGCAGATCAGAAGCGCGGTCAAGCAGATCAAGGAGATGAACTGGGGATGA
>SRR1919932_00471 YigZ family protein
TTGTCAAAAGAAGCAGATTTTTTAACAATCAAAGAAAACGGCCAGCATGAGCTGGTCATCAAGAAGAGCCGCTTCATCGCGACTCTTGCCCGGGTCCAGGATGAGGAAGAGGCCCGGGACTTTATTGCCGCGACCAGCAAAAAGTACCATGACGCCACCCACAACACCTATGCCTACACCTTGGGCATTAATGACGACCGGGTCAAAAGCAGCGACAACGGCGAACCAGCCGGTACGGCCGGGGTGCCGGAATTAAAGACCCTGCAATTAATGGGCCTGAAGAATGTCGCCGTCGTCGTGACCCGGTATTTCGGCGGAATCAAATTAGGGGCCGGCGGCCTCATCCGGGCATACTCTTCCAGCGTCAGCGAGGCAGCTGAAGCCATTGGCATCGTCAAGCGGGTTAAGCAGCAGGAATTGATTTTTACCATCCCCTACAACCGCTATGACAAGGTCGACCACTTCCTTAAGGAAAAAGAGGTCTTCGTTGCCGGCACTGAATATGGCGTAAACATCACCATTTCCATCTACCTGGACCAGATTGACCCCTTTATCAGCGATCTAACCGAGCTCTTAAACGGGGAACCCGATCTGATCAAGGGGGACCAGCGCTGTAACGAAATTCCCGTTAAAAGCGGAGAAAAAAGATTCTAA
>SRR1919932_00472 UDP-phosphate N-acetyl-glucosaminyl transferase
ATGTTTAAGATTATCGTTGACCTTTTTTTACTGGTGATCATCCAAGTAGCGATCACGCCTTTCATCCGGCGCCTGGCCTTTGTCCTGGGGGCGGTGGACAATCCTAACGCCCGCCGGGTCAACAAGAAACCCATGCCGACTATCGGGGGGCTGGGGATTTTCGTGACTTACAATATCGGGACCTTCATCTTGCTCAGAGAGCAGTTTCCGACCCACGAGCTCTTTGCCCTTTTGCTGGCGTCCAGCGTGATCGTCTTGACCGGGATGATCGATGATATTTTAGAACTCAAGCCCGGGCAAAAAATGGGCGGGATCTTCATCGCGGCTATGATTATCTACTTTTTGGCCGAAATCCGGATGACCGAGCTGAATATTCCTTTTACCGGCCAGACCATCAATTTGCCCTGGTATCTCAGCCTGCCGATTACCATCTTCTGGATCCTGGCCTTGACCAACGCGGTCAACTTGATTGACGGCTTAGACGGCCTGGCGGCCGGTGTGTCCTGCATCTCGCTTTTGACCATGGGGATCGTCGGCTACTTCTTCTTGCGTAACCAGGGCCTGTACGTGCCGATCGCCTGCTTTATGCTGGCGGCCTGCCTCCTGGGCTTTTTGCCTTACAACTTCAACCCGGCCAAGATCTTTTTAGGGGACACCGGGGCCCTCTACCTGGGCTTCATGATCTCGGTTTTAGCCTTAAAGGGCTTGAAGAACGTGACCTTTATTTCTTTGCTGGTACCGGTGATCATCTTGGGCGTGCCGATCTCTGATACGGTCTATGCCATGATCCGCCGCAAGCTGAACAAGAAGCCGATTTCCCAGGCGGACAAGCACCACCTCCACCACCAGCTGATGAACTTGGGCCTAACCCAAAGGCAGACGGTACTGGTGATTTACGCCCTGTCCTTGATCTTCTCCTTCGTGTCCATGCTCTTCCTCTTGTCGCCGATCTGGGCCATGGCCCTCTTGCTGGTCGGCCTCTTGATCGCCGTTGAGCTCTTCGTGGAATCGATCGGCCTTTTAGGGGAAAAATACAAGCCCCTCAGCCACTTGATTAACCGCCTGGTTTTACATAGCACCCACACTAAGGAGCCGGACGTTGAAGTCTGGCTCCAGGGCGAGGCCAAGCCCCGGAAGTGGCAAGAGCGGTCCAAGGGGGGGCACAAGCCTGCTGAGAAAAATAGCGGTAAAAAACAATAA
>SRR1919932_00473 ribonuclease
ATGATGAATAATACTATATTTCTTCTCGCAACAGTCGCTGTAATTTTTCTTATTTCACTTGTCGTGGGATGCCTGATTGGTTATGCCATCCGGAAGAATGCCTGGGAAACCAAGGCGGAAAACGCCCGGCAGAGCGCGGAGGCAATTTTGGCCAAGGCGAAAGCCGAAGTCGAAGTAGCCAAGGCCGAGGTCCAGGCGCAGAAGCAGGCCGCTGAAGCCGTTAAGCGGGATGCTGAGACGGAGAAGAAGGCCAAGATCCTGGAAGCCCAGGAAGAAATCAGGGATTACCGGCAGAAGGTTGAAGACGAGCTGAACAGGCGCCGCGATGAAGCGGCCCGCAAGGAAAACCGTCTTCAGCAGAAAGAAGATACCCTGGATCACCGCAGCAGCCTGCTCGATGACCGGGAGAAACAACTCACACAAAGGAAAGACCAAATCAAACAGCAGGAAGAAAAAGCCGCTGGTTTGCTGGAAGAAGCGCACGGGCTGGTCGAGAAGCAGAAAGACAAGCTGCTGGAAATCTCCCGCTTAGACGAAGAAGAGGCCAAGAAGATTGTCCTGGCCCAGGTCTCCGACCACCTGACCAAGGAGAAGGCGGAGCTGATTCGGGCTAACGAGGAAGAAATCAGTGCCAGAGCCGACCGCTTTGCCCGCCAAATCATCGTGGATGCCATCCAGAGCAGCGCGGCGGATACGGTCGTGGAAACGACCGTGTCAGTCGTGGACCTGCCAAACGATGACATGAAGGGGCGGATCATCGGCCGCGAAGGCCGGAACATCCGCTCTTTTGAAGCCATGACTGGGGTGGACTTGATCATTGACGATACGCCAAAGACGGTCACCTTGAGCGGTTTTGACTCCATCAGACGGGAAGTTGCCAAGCGGGCCCTGCAGAAACTGATCAAGGACGGGCGGATTCATCCGGCCCGGATCGAAGAGATGGTTGACAAGGCGCGCAAGGAAGTCAACGACGATATTTACGAGGCTGGTGAAAGTGCCTTGATGGAACTGGGCATCCACCGGATGAACCCGGAACTGGTCAAGATCCTGGGCCGGCTGAAGTACCGAACTTCCTATGGCCAGAACGTGCTGGCGCACTCGATTGAAGTCGGGAAGCTGGCCGGGACTATGGCAGCTGAACTTGGTTTGGATGAAAAATTAGCGGTTCGCGCGGGATTATTACACGATATTGGCAAGGCAATCGACCATGATATCGAAGGCTCCCACGTAGAAATCGGTGTTGAATTGACCCGGAAATACCATGAACCGGACCTGGTGGTCAACGCGATCGCTGCCCACCACGGTGATGTGCCGAAGCTCTCCTTCATCGCTGACCTGGTCGTGGCGGCGGACACTATTTCCTCCGCCCGGCCTGGGGCAAGAAGCGAAAGCTTGGAGAACTACATCCGCCGTTTGACGGAACTGGAAGACATTGCTGGCAGCTATGACGGCGTCAAGCAGGCATATGCCATCCAGGCCGGCCGGGAAGTCCGCGTAATGGTTGAGCCAGGCAAGATCTCAGATGATGAGACCACGGTTTTGGCCCACGAAATCCGGGACAGGGTCGAGAAAGAACTCGATTACCCGGGCAATATCAAGATCACCGTAATACGGGAGAAACGTGCCGTGGCAGTTGCCAAATAA
>SRR1919932_00474 recombinase RecA
TTGGCTAAAGATGAAAAACAAGCGGCTCTTGAAGCGGCTTTAAAGAAAATTGAAAAGAACTTCGGTAAAGGCGCGGTCATGCGGATGGGCGAGAAGGTCGACACCCAGATCTCGACTGTTCCGTCAGGCTCACTGGCCCTGGACGCGGCCTTGGGCGTGGGCGGCTACCCGCGGGGCCGGATCGTGGAAATCTACGGGCCGGAATCTTCCGGTAAGACGACCGTTGCCCTGCACGCCGTAGCTGAAGTGCAGAAGCGGGGCGGCACGGCGGCCTACATCGACGCGGAAAACGCCATGGACCCGGCTTACGCTGAAGCCTTGGGCGTGGACATCGACCAATTGATCCTGTCTCAGCCAAACACTGGGGAAGAAGGGCTGCAAATCGCGGACACCTTGATCTCCAGCGGGGCCATCGACATCGTCGTGGTCGACTCCGTTGCCGCCCTGGTGCCGCGGGCCGAAATCGAAGGTGAAATGGGTGACTCCCACGTCGGTCTCCAGGCCCGCCTGATGAGCCAGGCCTTGCGCAAGCTCTCCGGGACGATTGCCAAGACCAAGACCATTGCCATCTTCATCAACCAGATCCGGGAAAAGGTCGGCGTCATGTTTGGTAATCCCGAAACCACCCCAGGTGGTCGGGCGCTGAAGTTCTACTCAACCATCCGGCTGGAAGTCCGCCGGGCGGAACAGATCAAGCAGTCCACCAACGTTATCGGTAATCGGGTCAAGATCAAAGTGGTCAAGAACAAGGTTGCTCCGCCATTTAAGGTAGCTGAAGTCGACATCATGTACGGGCAGGGGATCTCCCAGTCCGGCGAACTGCTGGACATGGCTGCTGACCAGGACATCGTCGACAAGGCCGGGGCCTGGTACTCCTACCACGGTGAAAAGATCGGCCAGGGCCGGGAAAACGCCAAGAAGTACCTGGAGGAACACCCGGACGTTTCCGAGGACATCCGGACCCAGGTCCGCAAGGCTTACGGAATCGATGCTGAATCTCTGGAAGAAAAGGAAAATCCAGAGAAGGTCAAGGAGCAGCGGGCTAAGAAGGCAGCTCCTGGCGAAGAGAAGCCAGCAGAGCCGGCAAGTCCGGAAAAGACTGATAAATAG
>SRR1919932_00475 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase
ATGAATTTACCAAATAAACTGACTGTTTTCCGAATCTTTTTGATTCCTATCTTCATGATCCTGCTGATTGCCCAATGGCCAGCCGGCTCATTCACCCTGGCAGGGACTGAAATTCTGTGGAGCCGGGTGGTGGCCATGATCGTCTTTGCCGTTGCTTCCGCAACCGACTGGTTTGACGGCCACATCGCTCGCTCCCGGGGACTGGTAACCAACTTTGGTAAGTTTGCTGACCCGCTGGCGGACAAGATGCTGACCATGACGGCCTTCATCTTCATGGTTGCATTGAATCTGGCTCCAGCCTGGGTTGTAGCCATCATCGTCTGCCGGGAACTGGCTGTGACCGGCCTGCGCCTGATCGTGGTCGAAAACAACGGCAAGGTCATGGCGGCTGCCATGCCTGGCAAGATCAAGACCACCTGCCAGATGCTGTCAATCATCTTCCTGCTCTTTGGCGACATCTTCCACCTGGGCACCATCCTGCTCTACCTGGCTCTGATCTTCACGATCTACTCCGGCTACGACTACTTCCATTCTTCATGGGATGTCTTCAAGGGTTCAATGTAA
>SRR1919932_00476 transcriptional regulator
ATGTCAGGCATTGGAGAACAACTACGTAAGGCAAGAGAGGCCAAGGGCCTTTCAATTTCCGATATTGAGAAGGCTACGAAGATCCAGAGCCGCTACCTGGAAGCAATCGAAAACAACGATTTCAACAAGCTGCCAGGCGACTTTTACGTCCGGGCTTTCATCCGCCAGTACGCGCAAATCGTCGGCTTGGACGGCAAGGAATTGCTGAGCCAGTACCAAGGCGAAGTTGCAAATGAAGTCACGAGCGAAGTCAGCCAGCCGGCAGCAAGCAGTCCGGCTCAAGAAGTTCATGAGGAAGCTCATGAAGAAGAAGAAGCTCCAGTAGAGCCGGCAGAAAATAAGCCGGCCAGAATCAGTGCCAGCCGGCCAGCCAAGCGGGAAGTTGCCGAGAAAGCTCCTAAGGACGCCAAGTGGCGCAAGCTTGTGCCCCGCCTGGCCCTGGGCTGCGGGATCGCCCTTTTGCTTTTGATCGGGGGGATGGTCTTTGCCAACATGAAGAAGACCGGGTCAAGCAGCCAGAAGGAAAATGCTGGCTCCAGCGTCACGATTACTTCCAAGAAGTCTTCCAGCAAGAAGAGCTCATCAGCTTCTTCTTCATCCAAGAAAAAGAAGACCAGCTCAATCAAGGTTGCTTCACTTGGCGGCTCAAGCTACCGGGTAACTGGCATCAAGTCCAGCACGCCATTGGTAGTCCGGTCAAGCAAGCAAAGCATCTACTACTACGTTTCCGTTGACAACGTGATCACCAACCAGGGGACCCTGCAAAGCGGTGAAAAGCACACGGAAACTGTCAAGAAGGGGCAAACTTTGATCGTTTACCTGGGGACTGATACTGGCGTGACTGTAACTGTTGGCGGCAAGAAGATTCCGTTCACTCCAATCAACGGCACGACCCGTTTGACTATCTACCTGGGTGACAGCTCTGCTTCAGCAAGCAGCTCCGCGGCAAGCCGCACGACTAGCACCAACACTAACACCAATACCAGCACGAGCTACAGCAGCCGGGCAAGTTCCAGCGTGCAAAGCTCAGCTTCCAGCCGGCCAGCAGCTTCCAGCTCCAGCGTTCGATCAAGCTCACAAGCTTCATCCAGCGCTGCCCCAAGCAGCCAGGCATCATCTGCTCCATCATCATCTGCCGCTTCCAGCAGCAAGCAATAA
>SRR1919932_00477 3-oxoacyl-ACP reductase
ATGAAGCGAACACTGATTTTCGGGGCAACCGGCGGTATTGGCCAGGCCATTGCGGCCCGCCTGGCTGAGTCTGGCTGGTCCATGTACCTGCACTGCAACCGCAACTGGGAAGAGGCCAGCGATTTGGCCAGGACTCTGGCGGAAAAGCATCCCTTGCAGGATTTCATGCCGATCAAGCTGAACTTTTTAGCAGGCGACGACCAGCTCAAGAATTTTGCCAGCAGTCTTTTGCCCGTCAACGCGGTCGTTTTTGCCCAAGGGATCACCAACTATGACTTCCTGGGCAGCCAGAGTTCCCAGGTCATTGACCAGATCATCAAGGTCAATTTGGAGAACCCGATCAAGCTGACCAAGCTTTTGGAAAGCCAGCTTTTAAAGCAAGAGCACAGCCGGATCGTCTACCTGGGCTCAGTTTACGGGGGCCAGGGCAGCGCCATGGAAGCAGTCTACAGCGCGACTAAAGGCGGGATCAGCCGCTTTGCCCAGGCCTATGCCCGGGAAGTTGCCGCCAGCCGCTTCACGGTTAATGTCGTTGCCCCAGGGGCGGTCAACACGGCCATGAATGCCATGTTTTCCCCGGAAACCTTAAAAGAGCTGGCAGAAGAAATTCCGGCCGGCCACCTGGCCAAGCCCAAGGAAATTGCCTACTGGGTTGACTGTCTGCTTAACCCTGAGAGCGACTACCTGACCGGGCAAACGATTTATGTCAGTGGCGGCTGGCTGGAATAG
>SRR1919932_00478 peptidase M16
ATGATCAAACCAGAAATTATCAGAAAAGATTTCCCTTCCGGCTTCAAGGCCCAGGTGATCCGGCGCAAGGGTTTTAACCAGCGCTTTTTCGGCATTATCGTCGATTTCGGCAGCGCTGATCCCCAGCCCGTGCCCGGCCTGGCCCACTTTTTGGAGCACAAGCTTTTTGCCGCGGAAGAAGGCGACTTGTCCCTGGAATTTGAAAAAATTGGGGCCAGCGTCAATGCCTTTACCTCTTTCAATGAAACCATGTATTATGCCAGCGGGGTCAAGAACGTCGGCCCCATGATCGACCTGCTCTTCAAGCTGGTTGGCCAGCCCTACTTCACCGATGAGAATGTGGCCAAGGAAATCCCCATCATCCAGCAGGAATTAGCCATGTACCAGGATGAGCCCGACTGGATCCTGGGCGACCGGCTCCTGCGGGGCATCTATGGGGACTGCAACTTGGCCATCGACGTGGCCGGGACCAGGGAATCGATTGCCAGCGTGACTAAGGAAAAGCTCCAGGCGGCTTATGATGAAAACTACGTGGCAGCCCGCATGTCCTTTGTTGCCTGCGGGGACTTTACCGACAACCAGGTCAAGACCATTCTTAGACAGGCCAGGAAATTGTCAGACCAATACCTGCGCCCGGGCAAGCCGCAAAAAGAAGCGGACTTGGTGCCCTTTTTGCCAAGCGGGCAGGACTGGAACCTGATCGGCGGGGAAGTGCCCCTGTTTACGGCGGCTATCCCTTTGCCAAACTTTAAGAAAGTTTTAGCAAGTCGGGATATGAGTCAAATTTTGCTGGAAATCATGCTAGAATCAAAGCTAGGTGCCGCCAGCCACTGGTTCGCCAGTGCCAGACAAGCTGGCCTGGTCAGCCAGCCCCTCCAGATCAGCGTGACTTATACCCGGCAGGGGGCCTACGCGGTCTTGCTGGGGATGAGCCCGGAAGCAGAAGAGCTGCTGGACCAGATCAAGGCTGAACTGGCGCCAGACAAGCTTTTTCCCAAAAAGCAGGAAATGGAAATGCGCAAGCTCTTCGAGATTCACAAAAGAAGCTGGCTGGCCCAAACCGTGCGCAGCCTGGATAATTTGTCGGGTTTTGCCGTGGAAATGGCTGAAGAAAGCCTGGATGAGGAAGACTTGTTTGCCAATGTTGAGCAGATGCAGGCCATGAATTTTGCCGACTACCGGGCCTACTGCCAGGAGCTTTGCGAGGGCGCCAGCATCAACACGGCCCGTCTGCTTGAGGAGGATGACCAATGA
>SRR1919932_00479 peptidase M16
ATGAACGAAGAAAATATCAGCATTCAAAGCAATCAAAAATTTACCAGCGGCAACCTGGGCCTGTTCGTCCGCCTGCCGCTGACCAAGCACAACATGGCTATGGCCAGCCTGCTCTGCCGCATGCAGATGAACGAAAGCGAACTCTTTCTGGATCCCGGCCTCCAGCAGGTCGAATTGCAGCAGCGCTACTCCTTCCAGTTTGAAGCAGTCGTGCAGCTTTTTGGCAAGGAAATGGTCATTTCCTACCTGGCCAATTTCGTTGAGCCCCAGGAAATCCTGGACCCGGACTACAACTACCGGCAGATAGCAGAAACTTTTGCCGGCCTGGCCACCCGGCCCTTGATTACGCCCAGCTCTGTCCAGCTGGCCCAAAGACAGCTGAAAGAAGAATACCAGGAGCTCATGGCTGAGCCGAGCAACGCGGCTTTAAGCGCCTTTTTAAACAACTGGTACGCGGACCAGCCCGATTACGCGGCCAGCTTCATCGGCTCGATTGAAGATATTACGAAAGCGACCAGCCAAGAAGTCCGCCGCTTTGCCGATGCCATCAAGACCCAGGCCAGCTGCGTATTTGGCCATGTCTATGATGCCCGCCAGGTTAAGCGCCTTTTGCAAAAGAAGCTGCAAGAAGAAGGCTGGCCGGGTCTAGCCTTGGACTTTGGCAGCCGGGACTTATTGATTTCGGCCCCGGACTTGCGGATTGAGAAAACAGACGAGCAGGGCAAGCAGCAGGCCCAGCTTTTCCTGGGCTATGCCTACAAGGGCCAGCCCAGCCTGCAGGATTTGGCCACGGGGACGGTCTTGCGCCAATACTTGACCGGAGACCAGTCCTCCCGGCTCTTCAGCAAGGTCAGGGAGGAAAACGGGGCGGCTTACACGGTGGAAAGCAACTGGTATGCTGACAATGCCCTCTTCTTGGTCAACGCCGGCCTGGATCCGGACAAGTTGGACTTAGCCCGGCAGATCATCGGCAAGGAGATGCAGATGGTGGCTGACGGCCGGATCGATCCGGGCCTGCTCAAGCAGAGCCGGCAGGCGCTGGCCAACCGCCACTTGCTCAACCAGGACCATGCCAGCTGGCTTTTAGCCAAAGACCTCCGCTACAAGCTCCATGCCGACTACGAGGACTTTGATATGATGGCCGCGGTCAGCCGGGTGACCAGCGGCCGGCTGGCTGACTTTGCCCAAAAGCTGTATCTGAATGAAAGCTATGTATTAAAATGA
>SRR1919932_00480 cell division protein FtsK
ATGCCTCGAAAGAAAAGGCAGGCTAATCGTAAAAACAGAAATAAAAAGAAAAGAGAAGAATCTTTGAGCTGGGTGGTTACCGGGATCGTCTTGATCCTGGTAGCCATTTTGGTGTTATTACGCTTTGGCTGGCTGGGTAAGGAACTGGCCAATCTTTTGCGGCTCTTGATTGGGGACAGCTATCTTTTAGGCGGGGCCTTCCTGGCCATTTTGGGCCTGGTCATGCTGATTTACGGGCAGCCGCCCCGCTTTGGCTTTAAGCGGACAAGCGGCTTGATTTTGGCTTACCTGGGCCTTTTGTACATTTTGGCCAGCCGCTTTTTCAATGTCAGAAGCGTCCACAGCGAATTTTTGCCCGCCTTCAAGAACGTGATCTTTGAAGAACTGGCCCGGGCCAATGTCACCGTCAGCGTCGGCGGGGGCTGGATCGGGAGCTTCCTGTACGGGATCTTCTACCAGCTTTTAGGCCAGATTGGCGGCCTGTGCCTAGCTGTTTTGAACATAATCAGCGGGATCTTGATGTTCTTTGACGTCAAATTCCGCTCCCTGGTCGCTGCTTTTCAAAAAATTAGCCGCTCCTTTATCCAGCAAAGCAAGGATGGAGCCGGCCAGCTAAAGGGAAAGTACTCTGAATACAGGGAGCAGCAAAGAAAAGATCCCAACAACCGGGGGAAGCTGACCGACCCTTGGCGGGATAGCGAAGAAGCCAAGCCGGAGAAAAAAACAAGGCAAGAGAAGGCAGAGAAGCAGGCAGCCAAGCCTTCCCTGCCGGAAATCCAGGTGGCAGAGCAGCACCCTGACCCGCCGGTCACTCATTCACTGGAACTGGATGACCTGCCCAAGCCCCGCAGCCAGGCTGAAGATGACCAGAAGATGATTTTGGCCGACCAGCAGGTTGACCATGGTCTGGACAAGAGCACGGTCAGCTATGATGACAACTACCAGTTCCCGCCCCTGTCTCTGTTAAAGGCCGTCCAGGCCAGTGACCAGTCCAGCGACAAGGATAAAACCAGGCAGAACACGGCTATTTTGGAGGAAACCTTCAAGAGCTTCGGGGTGGAAGTCAATGTTAAAAAGGCTATCTTAGGCCCGACCATCACCCGCTACGAAGTCCAGCCAGCCGTCGGGGTCAAGGTCTCCCGGATTGTCAACCTGGCCGATGACTTAGCCCTGGCCCTGGCGGCCAAGGACATCAGAATTGAAGCCCCGATTCCGGGCAAGCCTTATATCGGGATTGAAGTGCCTAACCAGAAGGCCCAGTCCGTGGCTTTTAAAGATGCCATGGAGCACCAGGACCAAAAGGCCAAGGACCATCCTTTGATGGTGCCTTTGGGCAAGGACGTGACCGGGCAGATCATCAGCGCTGACTTGACCAAGATGCCCCACCTGCTGGTTGCCGGGTCAACCGGGTCCGGTAAGTCCGTGGCCATCAACACGATCTTGTCCAGCATCTTGATGAAGGCCCGGCCGGATGAAGTCAAGCTGGTTTTGATCGACCCGAAGATGGTCGAATTGTCAGTCTACAGCGGGGTTCCGCACTTGATGATCCCCGTTGTCACTGACTCCCGCCTGGCTTCCAAGGCCCTGAAAAAAGTCGTCGACGAAATGGAGCGGCGCTACAAGCTTTTTGCTGCCGGCAGCGTCCGCAATATGGGTGAATACAACCGCAAGGTGGCTGAGAACAATAAGGATACCAGCCGGCCGGTAATGGAGCCTTTGCCTTATATTCTGGTCGTTGTTGACGAATTGAGCGACTTGATGATGGTCGGCGGCCACGACGTGGAAAACTCCATCGTCCGCCTGGGCCAGATGGCCCGGGCCGCCGGCATCCACATGATCCTGGCTACCCAAAGGCCGAGCGTGGACGTCATCACCGGTTTGATCAAGGCCAATGTGCCGTCAAGAATTTCCTTTGCCGTTTCCAGCGGGGTCGACTCCCGGACTATTTTGGACCAGGTCGGCGCTGAAAAGCTGCTGGGCAGGGGGGACATGCTCTACCTGCCGATCGGGGCCTCCAAGCCTGACCGGATTCAAGGGGCCTACATCGATGTCGATGAGGTCGAAGCCGTCGTTGACTGGGTCAAGGGCCAGCAAAGCGCGGAATACGACGAGGAAATGATTCCCCAGGCCGGGGATGATGACGAAAGCAGCGATGACGACGTTGACGACGAGTACTACCAGCAGGCAGTGGACCTGGTCCGCCGCCAGCAGTCAGCCAGCACCTCCATGCTGCAGCGGCGGTTCAGAATCGGCTACAACCGGGCTGCCCGCCTGATTGACGAGCTGGAGGAGCACGGGGTAGTCGGCCCGCCGGAAGGCTCCAAGCCGCGAAAGGTGCTTTTGCCGCCTGAAGGACAAGAAGAATAA
>SRR1919932_00481 transposase
ATGGAATTTAACAAGCAGACCCCAATCATCGTTCGTGCCTTTCACTATGACCTGCTCGATGAGCCAGAAGAAAAGAACGAAGTCAACGTAGCCATCCGCCAGGTTGTCGCTACGGGCGAAGACGGCGTTGAAGATGCCGGCGAGGCAGGCGGCTACTACGAAGTAGCCGTTGTCTACGACGTTACGCCAGACGAAGACAACATCATCGAAATCAGCGGGGCCAACACCCAAGTCGTTCAGCTTCTGGGCTACCACGGCGACGGCCAGGACCTGGACCAGGAAACCTACCGTTTGCTCAGCCGGCCGCTGGTTGAATACATCGAAACCTTGACTTATGAAGTTAGCCAGGTTGCCTTGGATGAACCGATCAACTTGGACTTTGAACCTAATTTCTAA
>SRR1919932_00482 RNA methyltransferase
ATGACTAACCATATTGTTTTGTTTGAGCCGGAAATTCCCGACAACACGGGCAACATTGCCAGAACCTGCGCAGGAACCAACACGGTGCTGGCCTTGATCGAGCCCTTGGGCTTCCGCCTGGACGACAAGCATCTCAAGCGGGCCGCTTTAGACTACGGCGGTGAAGTTGAAATCCGCCGCCATGACGACCTGCGGGCCTTTCTGGCTACTTTGCCGGACAATGCCGAGATGTACTTGATCTCCAAGTTCTCCAGCAAGGCTTATACTGACGTCGACTACACGGACGAAAGCAAGGACTACTACTTTGTTTTTGGCCGGGAAACGACCGGTTTGCCGGAAACCTTCATGCGACAATACGCGGACCGCAATCTCCGCATTCCCATGTCCGACAAGATCCGGGCCTTCAACCTGTCCAATTCGGCAGCTATTGTAATTTTTGAAGCCCTGCGTCAGCAAGGCTTTCCCCACATGGAAAAGTCCCATCACTATGAAAACGACAAGCTCAAGGACGACTACAACCGTCCTGGCCGCTACCAGCGGAACCTGCCCAAGCATTAG
>SRR1919932_00483 membrane protein
ATGAAGAAAAGAGACACGAGCCTCTTTACGGACTGGGTGCTTAACAACCGCTTCAGCGTCGGCTTGATCAATGTGCTCTTGGCCCTGGTGATCGTGCTGGTCTTTAACAAGATTTCCTTTATCTTGAATCCGGTCAACACCTTCATCAGCGCCATCCTGCCGCCCCTTTTGGTGGCCATGGTCCAGTACTATCTGATGGAGCCGGTGGTTGATAAGCTGGAAGAGAAGTTCAAGGTGCCGCGGACGGTCACCATCATGGTGATTTTTGCCATAGTCACGGTCTTCTTGATCTGGGCCATCAATTCCCTGATTCCGGTCGTCCAGAGCCAGATTGACTCCTTAGTCAAGAACTGGCCCACGATCTGGAAGAATTCGACCAACGCGGTTGATGAGCTCCTGCACAGTCCGAAATTCAGCGGCCTGCGCGATTCTCTGCAAAAGCAGATGACTTCTTTGCAGAAGAATTTCAGCAAGAGCATGGGGTCAACCGTCTCCAGCGCCCTGGGGAATTTAACCAGCGCGGTCACCGTGGCGACAGCCGTCTTCACGACCCTGGCCACAGCTCCGTTTTTGCTCTTCTTTATGTTGAAAGACGGACACAAACTGCGGCCTTTTCTGGTCAAGTTCGCTCCCCAGCGCTGGGAGCAGGCGACCAGCAAGCTGCTGCATGAAGTCAACCAGGCTGTGTCTTCTTACGTGATCGGCCAGGTTTCCGTGGCTATCTGCGTGGGGATCATGTTCTTCATTGGCTATACGATTATCGGCGAGCCTTATGGGGCAGCCCTGGCGATCTGTGCTGGCTTTTTGAACCTGATCCCTTACTTTGGGACCTTCATCGGTTTGATTCCGGCCTTAATCATCGCTTTAGTGACTAATTTGCCGATGGTGGCCAAGGTTTTAGTGGTTTTCTTTATTGAGCAGATCATTGAAACCCGGGTCATCAGCCCGCTGGTTGTCGGCAACCGCTTGAAGATGCACCCGGTGACGACGATTATCGTCATGCTGGGGGCCGGCTCAGTCTGGGGCCTGTGGGGCGTGATCGGCGGGATTCCGATCTACGCGGTGATGAAAATCCTTTTGACCCATGTCTACCGGTACTACCGGAAGGTTTCCCACCTTTATGACGACAGTTTCCAGGATGAAGCAGACCAGGCTGGACAAGAAGAAAAGGAAAGGAAATAA
>SRR1919932_00484 glucitol/sorbitol-specific PTS system IIA component
ATGAAATGGATATCTACAATTAAAGCAATCGGACCAAACGCGATCAGTGAAAAGGACCGCGTCGTAATTTTGTTTGGCCAGACGGCCAAAGATGAACTGCAGGACGTTTCCGTCATCCAGGCCTTTGATGATGAACAGGCTGCCCAGGCAGTCGTTCTTAAGAAGGGCGATACGGTGACCATTGATGGGACGACCTTTTTGATCAACTATGTTGGCCCTATGGCGGTCAGCAACTTGCGGGCCTTGCAGCACGCCAGCCTCTTTTTCACTGACAAAGTGCCAAAGAAGCCGATGCCCAACGCCCTCTACCTGGACTTGCCAGAAGACCAGGAAATGCCGAAGTTCAGAGTCGACGACGAAATCGTTTACGAACACCTGTAG
>SRR1919932_00485 6-phosphogluconolactonase
TTGCATATTTTAATTGGCGGCTACACCAAGCACGAGTCAGCCGGCATCTACCAGTTTGACTTTATCGGCTCCGGTGACCAGGCCCATCTGGAACAAAGAAGAAACGTCGTTGAAGTCGGCGGGCCAACCTATTTCCAAAAAGACGGTCAGTTCATTTTTACCATTAAGAATGAAAACGGCCAGGGGGGCATCGCGGCCTTTGCAAACGGCAAGCTGGTCAGCCAGCTGCTGCACGAGGGGTCTTCTCCGGCCTACATCGGCATCAACAAGGAAAAGAAGCTGCTCTACACGGCCAACTACCACACTGGGGTCCTGGCCGTCATCAGCTATGATGACCAGGGGCAGCTGACCCTGCTTGACCAGGTCAAGCACGAAAACAAGGCTTTAGGGCCGCGGCCTGAACAAGCCGGCGCTCACCCGCACTACTTTGATGGAACTCCGGGCGGGCACCTGGTTTCCTGCGACCTGGGCCAAGACAGAGTCGACTTCTACGGCTTTGACGGGCAAAAGCTGACCCACCTGGCCAGCTACCAAAACGAAGACGGCTTTGGCAGCCGCCACCTGGCCTTCTCACCGGACGGCAAGTACTTCTACGTGGCCGGTGAACTTTCCAGCCAGGTCAACGTGGTCAAGTTTGACGAAGAAAACTGGATGTTCCGGTCCCTGGCCACCTACTCAACCATTCCGGAAAGCTGGGACCAGTACAACGGGGCAGCGGCCATCCGCCTGTCAAGTGACGGCAAGTTCCTTTACGTGTCCAACCGCGGCCACGATTCAATCGCTGTCTTTGCCGTTTTGCCGGACCAGGCCCTGAAGCTGGTCCAGCGGGTGTCAACTTTTGGCGAATTCCCGCGGGACTTCAACTGGGACGCGGAGGAAAAGTACGTCATTGCCGCCAACCAAAACAGCAATAACGCTACCCTCTACCAGCGGCAAAGCGACGGGACCTTGACCCCGCTGGAAAAGGACATCGCGGTTCCAGAAGGCACCAGAGTTTTATTCACTGATTAA
>SRR1919932_00486 UDP pyrophosphate phosphatase
ATGCTAGACATTTTCAAAGCCATCATTCTCGGCATCATCGAAGGGGTTACGGAATTTCTGCCGATCTCCTCAACTGGCCACCTCTACCTGGCCGACTACATCATCAAGTTAGACCAGCCAACCAGCTTCATCAACATGTTCATGGTTGTCATCCAGCTGGGGGCCATCTTGAGCGTCATCGTGATCTACTTTAACAAGCTGAATCCTTTTGCCCCGTCAAAGAGCAAGCGGGAAAAAGGGCAGACCTGGCAGATCTGGTTCAAGGTCATCGCGGCTGTCCTGCCGTCAATCATCATCGGCCTGCCACTGAATGACTGGCTGGAAGAAAACATGACCTCCTGGCAGGTAATTTCCGCCACCTTGATCATCTACGGTATCCTCTTCATCGTCTTGGAAAACTACTACGCCAAGCGGCAGCCGAGCTTGACTGATTTAAACAAGATGAGCTATAAGACCGCCCTCTTGATCGGCTGCTTCCAGGTTTTGTCCATGATCCCGGGGACTTCCCGGTCTGGGGCAACTATTCTGGGGGCCATGCTGATCGGGTCAAGCCGCTACGTGGCAACTGAGTTCTCCTTCTTCCTGGCTATCCCGACCATGTTCGGGGCATCGCTTTTGAAGCTGGTAAAGTTCTTCAAGGCCGGCCACGTCTTTTTCGGCAACCAGCTGGCTATCCTCTTGGTTGGCATGGTCGTTTCCTTCATCGTGGCCTACCTGTCAATCAAGTTCCTGCTGAAGTACGTGCAGACCCACGACTTCAAGCCATTCGGCTGGTACCGGATTGTTTTGGGGATCATCGTCATCATCTGCGGTCTGGTATTTGCGTAA
>SRR1919932_00487 hypothetical protein
ATGTTAAGTTTGCTTTGCTTACTTTTTATTTTATGGCTCTGTTGGAAGATGGGCGTGGCCCTCTGGCGGGTTCTGATCTTTTTGATCGGGGTCGGCCTGGCCTTTGCCTTGCTCAGCTCAGTAGTTTTGCCGCTACTAGCCATCTGCGCCCTCGGGGGCCTGGCTTGGGCAGTAATCTCAAACGCGTAA
>SRR1919932_00488 ribosomal large subunit pseudouridine synthase D
GTGCAAGTATACAAAATGATTGTTGCGAAAAATGACCCAGGCCAGCTGAGTCATTTTTTGCTGAAAAAAGGTTTTTCCCGGCGGGCAGTCAACAACTGCAAGAACCACGGCGGGATGATGTCGGTCAACCACCACCGCCGGAATGGCAGCTACCGGCTAAAAGAAGGGGACGTGGTCCACTTTTTGATGGGCCAAGAGCCGGTCAACCCCTGGCTCAAGGTCTCCCGCCGGCCCCTGGACATTGTTGAAGAAACGGCTGACTATTTGGTGATCAACAAGCCGGCCGGCCTTTTGTCGATTCCTTCCGGCTTTCATGCGGAAGACGCGGTAATCAACCGGGTGCTGGCTTACTTTGAAAAGCAGGGGGTCAACCCGGCTTACGTCAAGCCCCACATCGTGACCCGGCTGGACCAGGACACTTCCGGCCTGGTTCTCTTGGGCAAGAACGCCATCGCCCATGACCGCTTCAGCAAGCTGGGCAAGGATGATTTTATCAAAAAGTACCACGCTATCGTGCATGGCAACTTCGCCGAAGGAGATTTAAGCGGCCTGATCGACAAGCCCCTGGCCCGGGTGGGGGACACAGTCAAGCGGGAGGTCAATCCAAAGGGGCAAAGGGCCTTGACTGAATACCGGGTCCTTGACCAGGTCCCGGGGGCCAGTTTAATTGAACTCCGCCTGTTGACCGGTCGGACCCACCAGATCCGGATCCACATGGCTTCTATCGGCCATGTCCTTTACGGAGACGACCTATACGGGGCCAGGGATGCTTTTGCCCGCCAGGCCTTGAACTGCTTCTACCTGGCCTTCCCCAACCCCTTCGGCGGGGAAGAGCGGGAGATTGAGATTCCCGACCCAGGCGACATGCAGGGCTTGTGGCGGCAGCTGAAGCAAGAAGCAGGGAAATAA
>SRR1919932_00489 ATP-NAD kinase
ATGAAAGTAGCTATCGTTCACAATGACCGCGTGACCACCCAGGTGGCGGTCCGGCACCTGCAGGTGCTGCTCGCGGAAAAAGGCATTTTGCAGGACCAGCAGCATCCCGACCTGGTAATTTCTGTCGGCGGTGACGGGACCTTGATCTCTGCCTTTCACAAGTATAAGCAGCAGCTGGACAAGGTCTGCTTTGCCGGTATCCACACCGGCCACCTGGGCTTTTACACCGACTGGCGGAACTACGACATGGAGAAGCTGGTTGACGCCCTGGCCAGCCATCCCGTTGAAGAAAACGAGGTGGGCTACCCGCTTTTGGACATGAAGGTAACCACCAGCTGCGGGGAGAAGCGCTTTTTGGCCTTAAATGAAGCCTCAATCAAGCGGATTTCCAAGACCATGGAAGCTGAGGTCTGGCTCGGGGGCGAGCGCTTTGAGAATTTCCGGGGCGACGGGCTCTGCGTGTCAACCCCGACCGGGTCAACGGCCTACAGCAAGTCCCTGGGCGGAGCGGTAATCCACCCCCGCCTCAAGACCCTGCAGCTGACTGAAATTGCCTCGATCAACAACCTGGTCTTCCGGACGGTGGGCTCGCCCATCGTTATTGCCCCGGATGAGTGGATCACCATCGTGCCGAAGATTTCCGACCGGGCGGTCGTGATCGTCGACGGGGAAAGGATCAGCTTGACCGACGTGCAGAAAGTAGATTATAAAATTGCGGCGGAAGAGATTCGCTTTTACCAGTATGGCCACCACCATTTTTGGGAGCGGGTCAACGACGCCTTCATTGGTGACAGATAG
>SRR1919932_00490 GTP pyrophosphokinase
ATGTCTGTGATTACTGATTGGGATACTTTTTTATGGCCATACAATGAAGCCGTAAATGAACTAAAAGTTAAATTCAGAGCTCTTCGGCAGAGTTTCTTGACCAAGGGAGAGCATTCGCCAATAGAATTCGTGGTTGGCCGGGTGAAAACGGTCGACTCCATTAAAGAGAAAATGCAGCGGCGGGTCATCAGCCCGGACGTGATCGAAACCGACATGCAGGACATTGCCGGTATCCGGATCATGTGCCAGTTTGTCGATGACATCTACCGGGTCGTTGACCTGCTCCATGCCCGCGATGACCTGGAAGTCGTCGAAGAGCGCGACTATATCCAAAATGCCAAGCCGTCCGGCTACCGGTCCTACCACATGGTGGTGGCCTACACGGTTTATCTGCCCGAGGGGGCCAAGCGCCTTTTGGCGGAAATCCAGATCCGGACTCTGGCCATGAACTTCTGGGCCACGGTTGAGCATACCTTGAACTACAAGTACCAGGGGGCCTACCCGGAAGATATTTCTGAGCGGCTCAAGCGGACGGCGGAAGCTGCCTACCAGCTGGATGAAGAGATGTCCTCGATCAGAAATGAGGTCAAGGAAGCGCAGAAGATCTTCACCAAGAACAAGGGCAAGGAAAAGTCATGA
>SRR1919932_00491 adenylate cyclase
ATGAGCAAAAACCGCGAAATTGAAGCCAAAGTCGCCCTGGACCAGGCCAGCTATGAGGCTATCGTCGCTGCCTACCCGGTCAAGAGCGACTTCAAACAGAGCAACCACTATTTTGACACCCCGGACAAGCAGCTAAAAGAAGACCACAGTGCCCTCAGAATCCGCTGCTTCCAAGACCGGGCTGAGGAAACCATCAAGGTTCCGGTCAAGAAGCTGCAGGAGACCTACCATGAAAGCCTGGAAATCAATGATGATTTAACCCTGCCTGAAGCCGAGGACCTTTTAAAAAAGGGCCGGCCAAGTCTGACTGGCAATGTTGGCCAGTACCTTTTAGAGCATTACCCAGACAAAGCCAGCCAGCTGACCCTTTTTTCCTGGAGCAAGACCCGGCGGATCCTTTTAGACGGGCCAAAGGGCTGCGAGCTGACTTTAGACCAGACCAGCTACCCGGACGGCTACCAGGACTGGGAAATGGAAATTGAAAATGACTCCCCGGCTGCTATCAAGGAAGCCCTGGCAGAAATTAAGACCCGCTTTGCCCTGCCGGTCAAGTCAGCCAACAACCAGAGCAAGATTGCCCGGGCCAGCCAGCATGCCAAGTAA
>SRR1919932_00492 dithiol-disulfide isomerase
ATGTTCGAACTTTTTCTGTTTATCAATCCGTTAGGTTTATCCTGCTACCAGCTTGAAAAACGCATCCGGCTATTGGCGGAAGAACTGCAACTTGAAATTTCCGTCAATTACATTCCCCTGGTAACCATGGAAGCCATGAAAGCCGACATGGTCAAGCGGAACTGGAACTTCAACACTTCCATCAATTTAGCCAATTATCACAATGCCTCAGTCAGCGCCCAGAGCTTTTACTATGCCGTGCAAATCGCTTATGGCAAGAAGAAGGCCAGGAGCTTTTTGTTCAAGTTGCAGGAAAGTTTGAGTGACGGCCAGCGGTCTTATTCCCCGGCCTTGGCTGAAGAATTGATGGAAAGCCTCAATATCAAGCCAAAGAAAATTTCATCTACTTTGAAAGATGCCTGCCTTAAAGACGTCATTGCCCAGGACCAGCAGCTGGCCAGGAAATTCCAAATCACGGCCCTGCCTTCAACCGTGATTTTTGACGACCAGATCGATGACAGCGGTCTCTTGCTTGATGGTGAATTAAGCGACGACGACCTCCTGCAAATTTTCCAAAACAGCGCGGACAGCTGCCTTGAACCCTTGATGCAGCTAACGGAGAATGCTCCACTTTATTATCCGGTCAGCCACCTTCATCTCTTATAG
>SRR1919932_00493 competence protein CoiA
TTGTACGCAGCTTTGTTAAATAAAGAACTGGTCCTGGCCGTCAGTGAGGCCGGCAAGGTCCGGGAGAACCCGGCCTATCTCAACCAGGAAGTCTACCGCTGCCCGCGCTGCCGGAAACCGGTCATCCTGGTTTTATCGCAGAAGGCAGAGCCTTTTTTCAAGCACTACCAGGCTTACCGGGGGCTAGGAGAACAAGAGGAGCACCGGCAGGGAAAAATGCTCCTCAAAGCCGCTTTGACCGCGGCGGGGCTAAATGCGAAAGCTGAAGTGCCGCTGGCTGACGGTGCCTTGCGGGCTGACATTTTGGCCACACCGCTCTTGGCCTTTGAAGTTCAGTGCGCGCCCTTAAGCAAGGGGGAGTTTGCCCACCGGCATGCCCTTTACCAGGCGATTGGGATTGAGGATGTCTGGTTGGTCGGCCGCCGGCATTTTTTAGGGGAAAAGCTAAAGCAGACCCAGCTGATCTTTTTCCGGGAAAACCGGTGCTGGGGAAGCTATTATCTAGAAATCCACCAAGAGGCAGGCTTGATTAGATTGAAGTACCAAATAAGGCAGGCCCCTGTCAGCCAGACCTTGCTGTACCGGCAGGTGGACTTCGCCTTGGACGCGGAAGGAATTGCCGCTTTATGGCACTTTAGTCCCCTTTTGCCCCCGCCTTTGGCCGATGACTGGGTCAAGGAGCGGGACTATCTGGACCAGCAGCTGAAGGAAAAGAGCAAGCTGGGTCAGAAGCTGGGGGAATTGATGTACCTGGCCGGCTACACTGTCTTTACTTTGCCCAAGGAAGCTTTTTCCACTTGGCGCAGGCCGGGGGAGAAAAGCTGGCTCTTGAAATTTTTGCAGCAAAAAAACAGCCCCTAA
>SRR1919932_00494 CRISPR-associated protein Cas5
ATGGAAGAGAACACGACATTCAACTTTAAAGTGTATGGTGATTATGCGCTGTTTACTGATCCTATCATGAAGATTGGCGGGGAAAAGTTTACATACCCGGTTCCAACATACCAGGCCTTGAAGGGTATAACTGAGAGTATTTATTGGAAGCCGACTATTCAAATTTATATTGATAAAGTCAGAGTAATGAACCCGATCATTACAGAGGCAAAAGACATCAGAGTGCCAAAGTATAATGACATGACAAAAACGGACCTTTCTAGGTATACCTACTTGAAAGACGTTGAATATCAAGTTCAAGCTCATTTTGAATTTAATCAGAACAGACCAGATTTAGCCGGTGACAGAAATGCAAAGAAACACTATGCAATAATGAAACGGTGCATAGAAAAAGGTGGCAGACGCGATATCTTCTTAGGAACCCGTGAATGCCAGGGTTACGTTGAGCCGTGCAAATTTGGAGAAGGCGAGAGCTTCTACGACAATTCTGATGACCGACTTTTTGGTACCATGGTACATGGTATTGATTACCCTGATGAAACAGGGAGAGATGAATTAGGTGTCAGACTTTGGAATGTTGTGATGAAACAAGGGGTTATTGAGTTTCCAAGACCCGATGATGAGACTTTGGTCCGCAGGAGTCTTCATAAGCTGAAAGCAAAACAATTTAGTTTGAGTAATATCGAGAGTGTGGACGCGCTTTATGCGGAGCTGCTAAAGGAGGGTGACTTATGA
>SRR1919932_00495 CRISPR-associated protein Csd1
ATGAGTTGGCTTTCTGAGTTTGTAGATGTCTATGATAAGAATGAAAAGAACTTAGGTATAACAAGCTATCGGATTTACCACCCCAAGTCTGGCGAAGAATCTAAAAAAGCATATCAGATGTTGCCAGTCTCTCATATTTTCCTGAACTGCACTCTTCAGATTGACTTAAATGCTGACGGTACTTTTGCTGGTGCATTCGTAGTGGATGATCCGAAAACAATAGTGCCAGCAACGATAGAGTCTTCGATTAGATCAGGTAGTGGTTCATATTTAGTTCCTCTTCCTGTCGATGATAAACTTCAGTATTTAGCAAGAGATTACAGTAAGTGGAGTGGCGATGAAAAGTATATTGAGTCGCACAAAAAGTACCTGGAACAATTTCGTGCATACCTTATTTTCTTAAAAGAATATCCGGATCAATATGTGTACCGAACTCTACAAGCTGTCTACCGTTATGTTACTGAAAATGACATAATCAATGATTTATGGACTGGAAAGATCTTTGGTGAGAATGTTGCCAAAGAAAAGGTAGCGGGAAATAACCTTTTTAAGAGTACGGTTCGCTTTAATATTAGAAATCCAGAAAACGTTAAAAGATTTGAAAATAGGCGCTTTTTTGACGCTTGGACACAGTACTATCATCAAGTATTACAAACGGATACGGTTAGTGGTGGAACTGATGAAGGAATTGATTATATTACTGGGGAAGAAAATGTCATTCTGACGAGCAAACACCCAAAAGGTATTTTAGATAATGCTGCCAATGCAAAATTAATTTCTGCGAATGATACCACTAACTTCACATTTAAGGGCCGTTTCTTAACTGCAGATGAAGCTGTCACGATTGGGTATGACTCATCTCAAAAAGCACATGCGGCAATGAAATGGCTTTTGACAAAGCAAGGTTTTAAAATTGGTGACAGATACTATCTTGCTTGGGAAGTAAATGGAGAAAATACGGCAGATTTATCAATTGTTTCTCAGAATCCATTACTTGCCTTAGCACAGAAGAAATTTGCAGAAACGACTGAAATTGATACTAATACTAATATCGCCGAGAATTTTCGCAAAGTATTAATTGATGGTGCAAATAAAGATGATTATAGCTTGCAGGGATCAGTGCATTTGATCGAACTTGAAAGTCCAGTAAATGGCCGCTTCGGAGTTGTTTATTATCAAGCAATGAGTTTGCAACAATATATTAACAAATTTGCATCTTGGTATGGAAAGATTACAATTGATGATCGGCAATCATTCTTTAACCTTAAGCAGGTCTGTTATGACATTTACGGCGATAGGGTAGATGATAAAAGAATGGCGGCAACTGTTTCCCAATTGTCACACATGATTCTTGGTAGTCAAATTGTACCGTGGAGTCTGTTATCTGCGATTTATAACCGTGCAATTAGACCTGCATCATTTAATGATGATAAGGGTTGGCGTAGAGTGATGAGGACGGCTTCAAAGCTCTTCAAGGCATACTATGATGAGGGAGAAATAAAGACGATGCTTAATGATAGTTATCACGATCGGAGTTACAGCTTCGGACGCTTGTTGGCAATTGCCGATGTAATTGAGGAAGGTGTTCTTCAAGGATCAGAAAATAACGAAGGGCGTGTCACAAATGCGAAGCGCTACATGTCTTCTTTCGCACAGCGCCCATTGGACACTTGGAAGATTATTTATACGAATCTGCAGCCGTACCTTCGAAAGAACAAGTACAGTTTCAAGGCTTCGAAGCTGATTGATGAAATCTTTGCAAGCTTAGATGCAGAAGATAAGCATTTGAATGATCCATTGAACGGAAAGTTCTTGATTGGTTACAGTCAACAAAGAAATGACTGGTACCAGAAGAAGAAGACGTCAAATGAGTAA
>SRR1919932_00496 CRISPR-associated protein
ATGGCTAATGTGTTGAATCATAGAATTGATTTTAAGGTTGTCTTCTCAGTTGCTGGGGCTAATCCAAACGGTGATCCGCTGAATGGTAATCGCCCTCGTCAGACTAGTGACGGTTATGGAGAAGTTTCTGATGTTGCAATTAAGCGTAAGCTCCGGAATCGCCTGCAAGAAATGGGAGAAAAGATCTTTGTGCAATCACAAGACCGTGCAGACGATGGTCTTAAGAGCCTTAAGGCCAGAGCAGATTCTGTAAAGGAATTAAAGGGACAAAAAGATGAGTCCAAATACCAAGAAGTTGCCTGCCAGACTTGGTTTGACGTGCGTGCATTTGGTCAAGTATTTGCGTTTGATAAGGGTTCTTCAGTTGGTGTACGAGGTCCGGTTTCTATTCAAACAGCACGTTCAATTACGCCGATTATGATTAATGACATGCAGATTACCAAGTCTGTGAACTCAAAGGACGCTGCCGGTAGAAGTTCTGATACTATGGGGATGAAGTATAGTATTGACTACGCGGTTTACCAATTTAATGGCAGTATTAATGTTCAGCTTGCTGAAAAGACTGGTTTTACAGAAGAAGATGCCAATGCGATCCATGAAGCATTGAAGACTTTGTTCTACAATGATGAATCTTCTGCCCGCCCAGCTGGGAGTATGGAAGTTTTGAGAGTATATTGGTGGGAACACAAGAACAAGTTGGGTGATGAATCTCCAGCAAAAATCTTTAGAACCGTTGAAATCAAGCCAAATGAAGGTGTGGATGTGGTAAAGTCTACGGAAGATATTGACTGGGGCAGTGCGGATAGTGCTGCTAAAACCATTCAATGTGATAAGTTAGATATTTTCGAAGACTAA
>SRR1919932_00497 CRISPR-associated protein Cas4
ATGGCCTACTATGAAGATGATTTCTTAATGATTTCCGGAATTCAGCATTTTGTGTTTTGCAGAAGGCAGTGGGCACTCGGACATATTGAGGATCAATGGGAGGACAATTACCTTACACTAAAGGGAGATCAGTTGCATGAAAAGGCAGATGATCCTTTTTTAAAAGAATCAAGAGGGTCAAAATTTATCGTACGAGCCATGCCAATTCATTCAGTTGAATATGGACTTACAGGTATATGTGATATCGTTGAATTTACTAAAGATGATGTGAATGGAGTACCTGTTCGAGGAAAGAAGGAGAAATATCTTCCGATTCCCGTTGAATATAAGCACGGTCAAAAGAAATCAGACCATTCTGATGAGTTGCAGCTTTTAGCAGAAGCTGTATGCTTAGAAGAAATGCTCTTTTGTCATTTGGAGTACGGCTATTTGTATTATGGTAAGACCAAGCACCGTACAAAAGTAGAGTTTACTCCTGAATTACGGGCTATGTTGGTAAGAACCGTGAATGAAATGCATCAGTATTGGGATAGGAAGTATACGCCTAAGGTTAAACCAACAGAAAAGTGTAAGTCTTGCTCTCTTAGAAATATTTGTCTTCCGAGTTTATTGAAAACTGAAACAGTTGATGAGTATTTACGGAGGAGATTGGACGATTGA
>SRR1919932_00498 CRISPR-associated protein Cas1
TTGAGACAATTATTGAATACTCTGTATGTCAATACTCCAGAAGCCTATTTAGCAGCTGATGGGAACAATGTAAAAGTTCTTATTGATCAAAAGTGCGTTGGTGAAGTCCCATTGCAAAATTTTGAGTCAATAGTTACTTTCGGGTATTCCGGAGTTAGTCCTGGGTTGATGCAGAAGTGTCTGGATCAAGGGATTTCTATCTCTTTTATATCAAAGAGTGGCTATTTGAAAGGGAGAGTTGTAGGAAAACCTACGGGCAATGTGTATCTACGAAGAATTCAATATCGTCTGGCAGATACGCAGGCAGCATCTCTAGAAATTTCGAAAAACTTTATAATTGGTAAAGTTTATAACCAAAGATGGATTGTTGAACGATATATACGTGACCACTCGTTTCAAATAGATGCTGATATGTTTAAGAAAGTTTCTGAATCTTTAAAGAACGGTATTGAAGAGATTCGAAATGCTGAGAACATGGATGTATTGCGTGGGGTAGAAGGAAATTTAGCGACCGATTATTTTTCTATTTTTGATCAGATGATAATTAACCAAAAGGAAGATTTTTTCTATCATGGTAGAAATAGAAGGCCCCCTCTAGATAGAGTGAATGCATTACTTTCATTGACCTACACGCTATTAGGCAATGAATGTGCATCTGGACTGATAGCAAATGGTTTGGATCCGTATGTAGGGTTTATGCACGTGGATAGGCCGGGAAGAGAATCACTCGCTTTGGACCTAATGGAAGAGCTTAGGGGGGTTATGGCCGATCGCTTTGTTTTAAAATTGATCAACAAGAAAATGCTCCATGCTGATGATTTCGTAGAGAAAGAAAGTGGAGCAATTTTACTAAAAGATGGCGCACGTAAGCGAGTCTTGGCAGAGTGGCAGAATAATAAAGTGACAACAATTGAGCACCCGTTTCTCAAAGAAAAAATAGAGTGGGGACTCATTCCATTTGTACAAGCGCAGTTGCTTGCAAGATATTTACGAGGCGACTTGGACGGATACCCTCCGTTTTTATGGAAGTAA
>SRR1919932_00499 acetyl-CoA acetyltransferase
ATGCAAGATATTTATATTGTTGCGGCCAAGCGAACTCCATTTGGCCGTTACCACAAGCAATTGGCTGACTTTTCCGCTATCGACCTGGGCCAAATCGCCCTGCGTGGCGCGTTAAAAGAAGCCGGCCTTGACGCCGAAGCCCTGGATGCTCTCTTCATGGGCAATGTCCTGTCTGCCGGCTTAGGCCAAAACATGGCCCGGCAAATTGCTTTAAACGCCGGGATGCGGCGGGACTCAGTCGCCGTGTCCATCAACGAAGTCTGCGGCTCCAGCCTCAAGGCTGCCCGCCTGGCTGAAGCCCAAATGTTAATCGGTGACCTGGGCCTGGTTGCTGTCGGCGGCAGCGAAAGCATGACCAACGCCCCAAAGGAAATCATGTTCAGCGATGGACTCGTTGACTCCTTCTCCGGCGAATCCATGGGCATTACTGCCGAAAACGTGGCTAAGCGCAACCACATCAGCCGCCAAGACGCTGACGCCTTCAGCTTGTCTTCCCACCAAAAAGCTGTCAAGGCACAAGCTGAAGGACTTTTTGCCGATGAAATCATTCAAATTGAAGATCTCAAGCAAGATGAAAACGTCCGCCCGGATACCAGCCTGGAAGCCCTGGCCGGTCTTAAAACTTCCTTTCTTGAAGACGGGACCGTCACTGCCGGTAACGCCTCCCCAATCTCTGACGGGGCCAGCATGATCATCCTGGCTACCGCGGAAAAAGTCGCTGAATACCAGCTGACGCCTTTAGCCAAGCTGGGTGCTTACGCCGAAGTAGGCTATGACCCGGAATTCATGGGCTATGGTCCATACTATGCTATCCGTAAGCTGCTTAATGAAACTGGCCGGCAGGTAGCCGACTACGACTTCTTTGAAATCAATGAAGCCTTTGCCGCAACTACTTTGGCTGTTGCCCGCGACCTGGAAATTCCTTTAGCCAAGGTCAACAAGCAGGGCGGAGCGATCGCTTTAGGCCACCCGCTCGGTGCTTCCGGCACCCGCCTTCTGGCTACCGCTGCCCGCCAGCTGCAAAGAGGCGGCCAGCGCGCTATCGCCAGCCTTTGCATCGGAGGCGGCCTGGCCATCGCTTTTGAAATTGAGAAGGCATAA
>SRR1919932_00500 3-hydroxy-3-methylglutaryl-CoA reductase
ATGAAATTCTATCAGTTGCCGCCCGAAGAGAGGCGGCAGTTTTTGCAAGAAGATGGGGTCGCCCTGGAAGATATCCCTGCAGCTGATTTAGCCCGTCTGGATGAGATGAGCGAAAACGTGGTTGGTGAGGTCAAGTTCCCCTTGAGCTGTTTGACCAGCGCCATGGTCAATGGCAAAAATTGGCGGATCCCCATGACGACTGAAGAAGCTTCCGTCGTCGCCGCCGCCAACCACGGCATGTCCGTCTTCGCTAAAGCCGGCGGCGTAAAAGCGACCAGCCAGCGCGACGGCATCTACGGGCAAATCGTCTTAGAAGTCACGGAAGCTTTTTCCCTGGCTGGCTTTAAAAAGGAATTCCCGGCCTATATTAAGGAAGTCAACAAGGAATTTGCCAGCTTGATCCGGCACGGGGGCGGCTTAAAAGACCTGACCGCCCGCCAGGAAGCTGACCTGGTCTACCTCCTGGCCCTGGTTGACCCGGCTGAAGCCATGGGGGCCAACAAGACCAATGCTATCCTGGAATTCCTGGCCCAGAAGATGCTGGACTTTCCTGGTGTTGAAGCTAAGCTCTTCGCCATCCTGTCCAACTATCCCAGCCAGCTGACTACAGCTAAGGTGGCAATTCCTGTTAGCCTCCTCAGTAAAAAAGGAGACCTAGCAGAAGGCAGGGAGGTGGCCAAAAAGATGGCCCTGCTGGCTAAAATCGGGAGTAGCGACCCTTACCGGGCTGTAACCAATAACAAGGGGATCATGAATGGGGTAGACGCTGTTATGCTGGCGACCGGCAATGACTACCGGGCAGTTGAAGCAGCCTGCCATGCCTACGCCGCCAAAAGCGGCCAGTATCGCAGCCTCAGCTCCTGGAAACTGGAGGGGGAAAAGCTCCTTGGCCAAGTCACCCTGCCCCTGGCCTTAGGGGTGGTCGGCGGCTCCATTTCATCGCGGCCTGATATTAGACAAAGCTATGCCATTTTAGGTAAAATAAAAGCAGCTGAATTGGCAGAACTGACCGCCAGCGTCGCCCTGGCCAACAACTTCGCGGCCCTGAACGCCATCTCCACCAAGGGGATCCAGGCTGGCCACATGCGTCTGCAGAGCCGCAACGTGGTTCAGACCCTGCCAGCAGCAGCGGAAGAAAAAGAAGCTGTTTATCAAATGATGATTAGCCAGGGAAAGTATGGCGAAACAGCAGCTAAGAATTTTTTGAAAGAATTGCGAGGACAATAA
>SRR1919932_00501 hydroxymethylglutaryl-CoA synthase
ATGGACATCGGTATTGATCAGATAGGTTTTTATACTCCTAATAAGTTTGTGGACATGGTTGACCTGGCCAACGCCAGAAACCAGGATCCCAACAAATTTTTGATCGGTATTGGCCAGGATCGGATGGCGGTCGCTGACAAGACCCAGGACGCTGTTTCCATGGGGATCAACGCGACGGCTGAATATCTTGACCAGGTTGATCTGGAGCAATTAGGCTTATTGATCTTTGCGACCGAAAGCGGGATTGACCAGTCAAAGTCAGCCTCCCTTTTTGTCAAGGAAGCACTTAACCTGCCAGCCCGGATCAGAACTTTTGAAATCAAGGAAGCCTGCTTTGCCTTGACTGCCAGCCTGCAGGTTGCCCGCGACTACGTCCGGGCCCACCCGCACCACTCGGCCATGATCATCGGCAGCGACATCGCCCGCTATGGTCTGGCCACTGCCGGCGAAGTTACTCAAGGCGCCGGGGCCATCAGCATGCTGATCAAGGAGAATCCGGCAATTATCGCCCTGGAAGACGGGCACACTTCCCACTCTGAAAACATCAATGACTTCTGGCGGCCGAACAACTTGGCCACTGCCGTTGTTGACGGCCACTACAGCCGGGATGTCTACCTGGACTTCTTCAAGAGCACTTTCAAGCCTTTCCTTGCAGAAAAGCAGCTGCAAGTTTCTGACTTTGTCGGTATCTGCTACCACCTGCCTTACACCAAGATGGGTTACAAGGCCCACAAGATTGCCATTGAAGGCCAGGATGACGAAACTGTCAAGCGCCTCAGTGACAACTTCCAGCTCTCAGCCAAGTACAGCCGGCAGGTCGGCAACATCTACACGGCCAGCCTCTACATGTCTGTCTTGAGCCTGCTGGAAAACGGCGACCTTGAGGCCGGTGACCGGATCGGCTTCTTCTCCTACGGGTCTGGCGCCATGGCTGAATTCTTCAGCGGCAAGGTGGTTGCCGGCTACCAAAAGCGCCTGCGCCCAGCCTTGCACGCCCGCATGCTCAAGGAAAGAATCCGCCTTGGCGTTGGCCAATACGAAGACATCTTCACCGAAGGCTTGGAAGCCTTGCCGGAAAATGTCGAATTTACCAGCGACGCCAACCACGGCACCTGGTATTTGGCCGGCCAGGAAGGCTATGTCCGCCAATACAAGCAAAAGTAA
>SRR1919932_00502 membrane protein
ATGAAAACCGAAAGTACTGAGCAAGAGTACCACCACCACCTCTCTCACCACCACCATATGCGGGTGCAGTGGGAAGAGTTCTTCCAAAGCGATGACGAGACCAAGATCAAGGAAGCAACCTTGATTGAAAAAGGGTCGATCATCTCCCGGGTCGGCATGATGATGCTGAGCTGCGGGACTGGGGCCTGGCGGGTCCGCGACGCCATGGACACCCTGGCCAGAACCCTGGACTTAACCTGCAGCACTGACATCGGTCTGATCTCCATCGTCTGCACCTACTTCGATGTCGACAACCAGTCATATTCTCAAAGCCTGGCCCTGCCAACCACCGGGGTCAACATGGCCAAGCTGAACGAATTGGAAAAGTTTGTCCGCCAGTTCGAAGCAGCCGGCGGTGACTTTGAAATCAAGACAATCCGCCGCCGCTTAGGGGAAATCGAACACATGAAAGGCCGCTATCCGCTTTGGGGATCCAGCCTGGCCGCGGCTTTGGCCTGCGGCGGCTTCATTTTCCTCCTGGGCGGGGGGATTCCTGAAATCATCTGCTCCTTTATCGGGGCGGGACTGGGCCAGTTTGCCCGGGGCAGCTTAGCCAAAAGACGGATCACGATTGCCGCTACGACTGCCGTGGGGGTGGCAGCGGCTTGCTTGTCCTACTACCTGGCTTTCATGCTGGGCCACTTGTTCTTTAACGTCGACATGATCCATATGCGCGGCTACATTGGGGCCATGCTCTTCGTTATTCCAGGTTTTCCCTTTATTACTTCCGGTCTGGACATCGCCAAGCTGGACATGCGGTCTGGCCTGGAGCGGATGGCTTACGCCATCTTCATTATCTTGATCGCGACTGGCACTGGCTGGGTGATGGCTACGGCTCTGCAGATCAAGCCTGGCGACTTGCCGGCCTTGCACCTGTCTAAGGCAATTTTGACGGCTTGTCGCCTGGTAGCCAGCTTCTGCGGGGTCTTCGGCTTCTCTTTGATGTTCAACTCCCACCGGCGGATGGCCGCCGCGGCCGGGCTGGTGGGGGCGATTGCCAATACCATGCGCTTGTCCCTGGTTGACTTTGCGCATTTCCCGGCTCCCTTGGCTGCCTTTTTAGCCGCCCTGCTGGCTGGCCTTTTGGCCGGCTATGTCCGGGAAAAGGTTGGCTACCCGCGGATCGCCTTGACCGTGCCTTCCATCGTCATCATGGTGCCCGGCCTCTACATGTACCGGGGGATCTTCCTCTTGGTTTTGACCAATGTCGGGGCCGGGGCCACCTGGATGACTGAAGCTTTGATGCTGGTCATGTCCCTGCCTGCCGGCCTCTTGGCCGCCAGAATCTTGACCGACAAGAAGTGGCGCCGGGTCGATTAA
>SRR1919932_00503 prolyl-tRNA synthetase
ATGTCAAAAAAGAAAAAGAATAAAGATAAATTAGACAAGACCCTGGTGGAAAAGATTCTCGACCAGCATAAAATTGCCTATGAGCAGCATATCAGCGAAATTTCCAAAGACCACGGGGTAGCCCAGGTTGGGACCGGCAAGCCGATTTTAGACGGCCACCCGGTTTACAAAACCCTGGCGGTCAATGGCAACAAGACCGGCCCGATTGTCGGCGTGGTGCCTTTGAGCGGCCACTTGGACCTCAAGAAGATTGCCAAGGCTTCCGGCAACAAGAAGTGTGAAATGATTCCCCTCAAGCAGCTGGAAAAGACCACTGGCTACGTGCACGGGGCCAACACGCCGATTGGCATCTACCACAGCAAGAAGTTCCCGATCTTTTTGGATGAGAGTGTCTTAAATGAAGACGGGATCTGGGTGTCCAGCGGCGAAGTGGGCCGCAGCGTCATGGTCAACCCACTTGATCTGCAGAAACTGGTCAAGGCCACGGTGGCTGACCTGCAGGAATAA
>SRR1919932_00504 ribosomal protein L11 methyltransferase
ATGAAATTACTTGAGATCAAGATTGAAAGCAGCTACGACGTTGAAGACGCCCTGGCATATTTTGCCACGGAAGACTTAAAGGCCCTGGGGACCGAAGCCCGGCGCAGAAGCGACTTTGAACAAGCCGGCTGGCTGCACGACTCAACGGTTGTTGACATGGATGACATCCCAAACCTGCCCGATGAGCTGGAATTCATTGCCTACTTTGATGAAGAAACCGACCCTGAAGAAACGGTGAAGTGCTTCAAGGACAAGCTGGCTGAGCTGGCGGGCTATGGCTTAAAGACCGCTCCTGCTGAAATCTCCGTTGACTATGTTGCTGACCAGGACTGGAACACTGTCTGGCAAAAGTACTACCACGTCATCAACTTGTCCCGCCACCTGGCCATTGTGCCGGAATGGGAAGACTACCAGCCGCCCTTTAAGGACCAGGAAATCATCCGCCTGGACCCAGGCCTGGCCTTTGGGACGGGCAACCACCAGACCACCCAGCTGGCCATGCTGGGCATTGAACGGGCCATGGTCAAGCCGCTTACTGTCGCTGACGTGGGGACGGGGTCCGGCATTTTGGCCATTGCTGCCCATAAGCTGGGGGCCAAGAGCGTTTTGGCCACGGACATTTCTGATGAATCAATGACGGCAGCTGAAGAAAACGCGGCCTTAAACGGCATCCACGACATCGCCTTGCAAAAGACCAGTTTGCTGGCTGACGTTGACGGCAAGTTTGACTTGATCGTGGCCAACATCCTGGCTGAAATCCTTTTGGACCTGATTCCGCAGCTGGACAGCCACTTAAACGAAGACGGCCAGGTCATCTTCTCCGGGATCGACTACCTGCAGCTGCCAAAAATTGAACAGGCCCTGGCAGAGAATTGCTTCCAAATCGACCTTAAGATGCGGGCTGGCCGCTGGATCGGCCTGGCAATTTCCCGCAAGCATGACTAA
>SRR1919932_00505 GTP pyrophosphokinase
ATGTCAAAGTATACTGAAATGACTCACGAGCAGGTCATGGCCGCCTGCAAGAAATACATGACGGCCGACCAATTGGCCTTTGTCGAAAGTGCCTATCAATTCGCGGCCCGGGCCCATGAGGGACAAACCAGAGCCTCTGGCCAGCCTTACATCGTCCACCCGACCCAGGTAGCAGGGACCCTGGCCAATTTAGGTCTGGACCCGGACACGGTGGCTGCCGGCTTTTTGCATGACACGGTTGAAGACACCTCGGTCACCAACGACGACATTAAGGAAAAGTTCGGCGCCGACGTGGCCTTCATCGTTGACGGGGTCACCAAGCTGAACAAGTACGAATACAAGTCCCACAAGGAATTCCTGGCGGAAAACCACCGCAAGATGCTGATCGCCATGGCGAAAGACCTCCGGGTCATCCTGGTCAAGCTGGCTGACCGCCTGCACAACATGCATACCCTGGAGCATTTGCGCCCGGACAAGCAGCGCCGCATTGCCGCTGAAACCCTGGACATCTATGCACCATTGGCTGACCGGCTGGGGATCGGGACCATCAAGTGGGAACTGGAAGACATGTCCTTCCACTACATGAACCCGGAAGCGTACTACAAGATTGTCTCCATGATGGACGCCAAGCGCAGTGAACGGGAAGGCTACATCAAGGACGCCATCGACTACTTGCGGGGGACCCTGGATTCTTTAGGGATCAAGTACGACATCAGCGGCCGGCCAAAGCACATCTATTCCATCTATAAGAAGATGGTCAACAAGCACAAGGACTTCAACGAAATCTATGACTTGCTGGCTGTCCGGGTGATCGTGCCAACGGTCAAGGACTGCTACGCCGTTTTAGGGGCGGTTCACACCAAGTGGAAGCCGATGCCTGGCCGCTTTAAGGACTACATTGCCATGCCTAAGGCCAACGGCTACCAGTCCCTGCACACGACCATCATCGGCCCTGGCGGCAAGCCTTTGGAAATCCAGATCAGAACTGAAGAAATGCACAAGGTTGCTGAGTACGGTGTGGCAGCCCACTGGGCCTACAAGCGGGGCAACTTCCAAGGCGTTGATGAAAAAGACGGCGGGGCCCTGGATATCGGCCGGGAAATCCTGGAGTTGCAGAAGGATTCCAGCGACGCTGACGAGTTCATGGAAGCCGTTCATTCGGATATTTTTGCCGACAAGGTCTATGTCTTTACGCCAAAAGGGGAAGTCTACGAACTGCCTAAAGGATCAGTCACCTTGGACTTTGCCTACGCCATCCACACCCAAGTCGGTGACCACGCCATCGGGGCCAAGGTCAACGACAAGCTGGTTCCTTTGGACTACAAGATGAAGAACGGGGACGTGGTCGACATCTTGACCCAAGGCAATGCCCGGCCGTCAAGAGACTGGGCGAAAATGGTCAAGACCTCCCGGGCCAAGAACAAGATCCGCCGCTACTTCAGAGATGTTGACCGGGAAGAAAGCTTGGCCCGGGGCAAGAGTGAGCTGGTTGACCTGCTCAAGGAAAATGGCTTAAGCGCCAAGGACTTTTTGGACAAGAGCCACATCGACGAAGTCCTGGACCACTTCAGCTTCAAGACCGACGAAGACATGTACGCTGCTATCGGCTTTGGCAACATGTCTGCCGTATCCATCTACAACCGTTTGACGGCCGACCTGCGCCGGCAGCAGGAAGAAGAAAAGCAGAAGCAGTTTGAAGCCCAGATCATGTCCGCCGGCCAGCAGGCAGCAGCTTCCAGCGTGGTTAAAAAGCCCGCTCCGCAAAAAGACGATGCCAAGTCCAAAACCAAGGGCAAAAAGCCGGACAGCTTGGTCAGAGTCCAGGGGCTGGAAGATTTGGACATGCACTTTGCCAAGTGCTGCAACCCGGTCCCAGGCGACCCGATCGTCGGCTACGTGACCAAGGGCCGGGGGGTCACTGTCCACCGGGCTGACTGCCGGAACGTGGTCAGCGCGGACCCGGCTGTCCAAGGGCGGATGATCGATGTTGAATGGAATAACATTGACGAAGGCAAGCAGGCCAGCTTCAACGCCAACTTCGAGCTCTTTGGCTACAACCGGCAGAAGCTGCTGGGCGATGTCATCAACCGCTTGAATGCCTTGACCAAGAACATTACCAATGTTTCAGCCAGCGTCAACGAAGAAAACATTGCCCACTTCTACATCACGGTCGAAGTCAGGAATGCCGCCCAGCTGAATGACATCATGGCCAAGCTGCGGGATATTCCAGACGTTTATGACACCAAGCGAACGGACAACTAA
>SRR1919932_00506 tyrosyl-tRNA deacylase
ATGCGCGTAGTAATTCAAAGGGTCAACCATGCCGCCGTCAGAATCGACGGCGAAACCGTCGGCCAGATCCAAAAGGGCCTGCTCTTATTAGTCGGCCTGGCTGAAGGCGATGGGGAAGAACAGGTGGTTAAGGCCGCTGACAAGATCGCCAAGATGCGGATCTTTGAAGATGAAGCAGGCAAGACCAACCTGGGTATCAAGGATGTCGGCGGCCAGATCCTGTCCGTCAGCCAGTTTACCCTCCTGGCTGATACCAAGAAGGGAAACCGGCCAAGTTTTGTCCACGCCATGCGGCCGCCTAAGTCCAGCCAGCTCTGGGAAGAATTTAACCAGGAGCTGGTTAAGCGGGGCCTGACCGTGGAAACTGGTGAATTCGGGGCAGACATGAAGGTCGAACTGGAAAACGATGGCCCTTTTACCATTGTTTTAGACCTGTAA
>SRR1919932_00507 histidyl-tRNA synthetase
ATGAGAGTTCAAAGACCAAAAGGTACAGTCGACATTCTCCCGGAAACGTCCGGCCAGTGGGAAAAGGTGGAACAAACCGCCCGTGACCTCTTCAAGCGGGCCAACTACCATGAAATCAGAACGCCAAGTTTTGAAAATTACGAACTCTTTTCCCGGTCATCTGGTGAAACCAGTGACGTGGTTGAAAAGGAAATGTACGATTTTGAAGACAAGGGCGGCCGCCACATCGCCCTCCGGCCAGAAGGCACGGCTGGGGTGGTGCGGGCCTATGTGGAAAACAAGATCTATGGGCCGGACTATGTCAAGCCCTTCAATGTCTACTACATTGCCGCAATGTACCGGTATGAACGCCCGCAAGCCGGCCGGCAAAGAGAATTCCACCAGATCGGGGTGGAAAGCTTTGGTTCAAACGGCTACCTGTCTGATGTTGAAACTATCCTGCTGGGCCACGACCTCCTGGCGGAACTGGGGGTCAAGAACTACGAACTGCACATCAACACTTTGGGTGACAGCGAAGTCCGCCAGGCCTACCACGATGCCCTGGTAGACTACTTTACTCCGGTTAAGGACCAGCTCTCAGAAGATTCTCAAAGACGGCTGGGCAAGAACCCCCTCCGGATCCTGGACTCCAAGGCCGAAGAAGACCAGCAGTTTTTGCCGGAAGCCCCAAAAATCAGGGACTACCTGGACGAGGAATCAAAGGAAAACTTCAACAAGATCCTGGCCAGCCTGGACAAGTTGGGCGTTAAGTACGTCATCGACGACGACCTGGTCCGGGGCCTGGACTACTACACCGGCGTGATCTTTGAATTCATGGTTGACGACCCGACTCTTTGGGCCAGCCCGTCAACTGTCCTGGGCGGTGGCCGCTACAACCACCTGGTTGAAGAATTCTCCGGCCCGGAAACCCCGGCCGTCGGCTTCGGGATCGGGGAAGAAAGACTGATGCTGGTTCTCTCCAAGCAGAATCCGGAAATGTTTGAAGATCAAGGGATCGACTTCTTCATCACCAATATCGGTGAAGGCACGGACATTAAGGCCGTGGAAGTTGCCCGCCAGCTCCGCTCTCTTGGCTTCAGCGCCCAATACGACGTTGACCAGAAGAAGCTCAAGGCCCAGTTCAGAAAGGCTGACCGGGTCGGGGCCCGCTATGTCGTGACCCTGGGGGCCAAGGAACTGGCTGAAGGGAAATTAACCGTCAAGCGCTTGAGCGATGGGCAGCAGTTCAGCCTGGAATTTACTGACTTGGAAGACAAGGCCAACCTGCTTTCCAAGATCGAAAAATAG
>SRR1919932_00508 aspartyl-tRNA synthetase
ATGATGCAAATGGAAAAAAGAACTGATTATTGTGGCAACATTACCAGCCAGTACCTGGACCAAGACGTCCTTCTTTACGGCTGGGTGCAAAGAGTCCGGAACCTGGGCCAGCTGATCTTTATCGACCTGCGCGACCGGGAAGGGATCGTGCAAGTCGTGGTCAACCATGACTCCGGTCAGGAACTGATGGATGTCGCTTCTTCTCTGGGCCAGGAATACGTGGTCGAAGTCAAGGGGCACGTTAACGAACGTTCCAGCAAGAACCCGGACATGAAGACCGGGGACGTGGAAGTCATTGCCAGCGAAATCACTGTTTTGAACAAGGCTAAGACTCCGCCATTTGAAATCAAGGATGACCTGGTTGCCAGCGAACAGACCCGGCTGAAGTACCGCTACCTGGACTTGCGCCGGCCAACCCTGCAAAACGCCTTGATCATGCGGGCCCAGATCATGACCGCTACCAATGCCTACCTGTCAGGGGAAGGTTTCATTAACATTGAAACCCCGGACCTGGGCAAGTCAACGCCGGAAGGTGCCCGGGACTACCTGGTTCCTTCCCGGGTTTACCCAGGCTCCTTCTACGCCTTGCCGCAGTCACCGCAAATCTTCAAACAGCTCTTGATGGGGGCCGGCTTTGACAAGTACTACCAGATCGCCCGCTGCTTCAGAGACGAAGACTTGCGTGGGGACCGGCAGCCGGAATTCACCCAGATCGACCTGGAAACTTCCTTCATGGATGAAGAAGGCGTCCAGGAAGTAACTGAAGGCCTCCTGGCTAAGGTTATGAAGGATGTTAAGGGGATCGACCTACAGCTGCCGCTGCCGCGGATTACTTGGCAGGAATCCATGGACAAGTACGGCTGCGATAAGCCGGACACCCGTTACGAAATGCTGATCCACGACTTGGGCAATGTTTTTGCCAAGTCTGGCTTCAAGGTCTTTGCTTCTGCCCTGGAAAATGGCGGCTTTGTTCGCGGGATCGCGGTTAAAGGCGGGGCTAAGTTCTACTCCCGCAAGAAGATCGAAGCCATGCAGGACTACATCAAGCGTTACCAGGCCAAGGGCCTGGCCTGGGTTAAGTATGAAGACGGCGACTTCTCCGGTCCTGTTTCCCGCTTCTTGAGCGAGGAAGAAAAGGCCGGCCTGGTTCAGGAATTCAGCCTGGAAGGCGGGGAACTCCTCCTCTTCATCGCTGACCAATGGAAGGTCTGCTGTGACTCCCTGGACTACCTGCGCCGGCAAACTGCCAGGGAAACTGGCATCATTCCAAAGGACACTTACAAGTACCTCTGGGTTGTTGACTGGCCGCTCTTTGAATACGACGAAGGCGACGAGCGCTGGATTGCTGCCCACCACCCATTCACCATGCCAGATGACAAGGGGATTGAACTCCTGGAAACTGATCCGCACAAGGCTCACGCCCGCAGCTACGACATCGTTTTGAACGGCTACGAACTGGGCGGCGGCTCCATCCGGATCCACAAGCGGGACATCCAGGAAAAGATGTTCAAGGCCCTGGGCTTCACCAAAGAACGGGCCTACGAACAATTCGGCTTCTTGATGGACGCTCTGGACATGGGCTTCCCGCCGCATGCCGGCCTGGCTATCGGCTTGGACCGCTTTGCCATGCTTTTGGCTGGCAAGGACAACATTCGTGACGTCATTGCCTTCCCGAAGAACGCTAGCGCCAGCGAACCAATGATGCACGCCCCGGCTCCAGTTGCTGACCAGCAATTGACCGACCTGGGCATCGAAGTAGCTGAAGCAGCCAAGGAAGGCGTTGAAAAGTACGAAGCTTCTCTGGAAGCTGAAGCAGCTGAAGACGTTAAGTCCCACGAAGAATAA
>SRR1919932_00509 hypothetical protein
ATGCGCAAACCAATGCTGGCCGGCATCCTTGCCGCTGAACTCGCTTTAGTCGGGGCAGCTGTCTTTTATCACCAAAGCCAGGCTGACAAGAGCAGTCAGTCCGCTGGCAGCAGCAAGACCTACAAGGTACAGCAAGGCGGAAAAGGCCAAGGCCGACAAGGAAGACGAAAAGTCTGA
>SRR1919932_00510 hypothetical protein
ATGAAACGGAAGTATCTTTGGGTCCTGGCTTTATTTTTGGCCAGCTTTTCGGCTGCTTTTTTACCGGAAAAAGTTTTTGCCGATTATGACCTGACCAAGATGGATGTCACGGCAATTGTTAATTCTGACGGGTCCTTGTCAATGATCCGGAAGATCGTCTATGACTTTGACGATTCAGCTAACGGGGTTTATTACACCCAGAACTTAGCCAGCGGACAGAAGGTCAGCGGGCAGAGCGTCGAGGTCAAGGACCTGGCCAGCGGAAAGACGGTCAAGCCGGCCTTGAACAACCAGGCGGACAGCGGCAATGTCTACCACTTCAATAAAGACGGCAATTCCTATAAGTTCAAGGTTTACCACCATGTTGACGATGGAAAGGTCCAGGTGGTTTACCGCTACAAGATTTCTGGAGCAGTTGACAGCTACGAGGACGCTTCTGAACTGAACTTCAAGATTGTCGGGGACGGCTGGGATAAAGAGATTTCCAATGTCACGGCGACTGTCCGCTTCCAGGACAAAAAGCTGTCCTTCTTGAAAGGCTGGGCCCATGTCAATGCTAACGGCCATTTGACCGTTGACAAGGAAAAGGGCCTGGTTAAAGCGGAAGTAGCCACTTTGCCGGAGGCGACTTTTCTGGAGCTACACCTGCTTTTTCCAAACAGTTTAGTCAGCCAGAATAAAAAGCACCATTCCGGAGAAATCGCGGCTAAAGTCGTGGACCAGGAAAAAGCGCTGGCTAAGGAAACTGCCGCAAAAAAGGCCCGCCACAACGTTTATGAATTGATCGGCCTGGCTCTTTTTGCTTTATCACCGCTCCTTTATCTGCCGGTCTTTATCAAGAGCAGAAAGTCGGGCAGCCCGGTCAAGGCCAAGAAAGAAATTGGCCACAATTTTGAAATTCCCGCCTTCAGCCCGACCACGGCCCAGATCCTGGTGACCAAGAAAGACCCGGATGGCAAGGCTTTGGCCGGAGAAATCGCCCTCCGGGCCGGCCGGGGTGAAATTACCATTAAGGCAGGCAAGAAGGGAAAGAACTTCACTTATGCCAAGACCAGCAAGTACAAGGGCGACCTGCCGCTTTTAAATAGGCTTTTCAAAAAGGTCGGCAACGGGCAAAGTTTCAGCAACAAGGACTTAAAGCAATATAGCGGCAGCCAGGAGATTACTTCCAGTTACAAGAACTGGCAGGAGGCCAGCCAAAAGTCCCTAATCAAGGAGGGCTACATTGACCAGAAATTGCAGGACCGGGAGGAGCTATTATCCCTCTATACTCTGGGCTTGATGTTTGTCTCAGTGGCAGCCATCGTCGTCTGTTTCTTCCTTTATGACAAATACACCTTCTGGCTCCTGCCCGCCATCCTCTGGGTGCTGGCTACCTTTGGTCTAGCCCGCCTGCGCCTGCACCACTTCTCCGACTTGACGAAAAAGGGGGCAAGGGCAACTGAACAGGCTTTAGGCTTTGAAGCCATGCTGGATGACATTGGCCAGTTCAAGCTGCGCGACATCGGGGAACTGACCCTGTGGGAGCAGGTCATGCCTTATGCCATTGCTTTTGGCCTGGCCAAGAAGGTCCTTAAGCAGCTGAAGCTGGAATTCCCGGAAGAGATCGCGGCCGACCCTTACTGGACCTACTACTATGCCGGTGCCAGCTACGGGGCCTTTGCCTCCAGCTTTGATGAGGCGATTTCGTCTTCAGCTGGCTCAGGCGGCAACTTCTCGGCCTCCAGCGCCTCCAGCGGCGGTTTTGGGGGCGGCAGCGGCGGCGGTGCCTTCTGA
>SRR1919932_00511 membrane protein
ATGGAAGCCAGGTTATGGAACAGATTTAAAAACAACATTCACTTGCGGCGGACAACGGTCCTGGTCATGATCATTCTGGCCCTGTACTATGTGCGGGCGATGATGAACACGATCCTGCTCTCCTTTATCTTTACCTACTTGATCGTTCACCTGGTCAGGTTCGTCCAGGGGAAATTCAAGCATGTTTCTGACAAATTGATTGTCGCTTTGACCTATCTCTTGATTGTCGTCCTGCTTTACTTTGCCCTACGCTACTATGTCCCGGTTTTGGTCAAGCAGGTGACCAAGATGACCAAGTCGGTGATCAACTATTACCAGACCAATGACGTGGGCTGGCTGATGACCCAGCTGCACAAGTATGTCTCTGAAAAAACGATTTCCAGCCAGGTCAAGAGCAGCTTAACGGCGCTGACGGCGGCCTTGAAGGGCTTCGGGTCAGTCACCATGTCCTTTGTCATGGCCCTGGTCTTGAGCTTCTTTTACACGATTGAGTTAAAAGAAATGCAGACCTTCAGCCAGTCTTTTTTGAAGTCCGACCTCTTTGGCTGGCTTTTTGAAGACATTGCCTACTTTGGCCGTAAGTTCACCAATACCTTCGGGGTAGTGCTGGAAGCCCAGTTCTTAATTGCCGTCTGCAACACGGCTTTGACTATTGTCTGCCTGGCCATCATGAAGATGCCGCAGATTTTTGCCCTAGGCCTCATGGTCTTTATCTGCAGCCTGGTCCCGGTGGCTGGGGTGATCATTTCCCTGATCCCTCTGTCTCTGGTGGCTTATACGGTCGGCGGGATCCAAGACGTGATCTACATTTTGATCATGATCGCTGTCCTGCACACCCTGGAAACCTATATCTTGAATCCGAAATTCATGTCCAGCAAGACGGAATTGCCGATCTTCTACACCTTCGTTGTCCTGCTCTTTGGCGAGCACTTCTTCGGCACCTGGGGCTTGATCGTCAGTGTCCCGATCTTTACTTTCTTTTTGGATATCCTGGGGGTCAAAAACATCAACAGCAAGCAGGAGAAGCTGCAGGAGGCCAGGAAGCGGATAGAGCACAAACGGCTGGAAAAATAG
>SRR1919932_00512 3-oxoacyl-ACP synthase 3
TTGACTTACGCCAGAATTGCAAAAAGCAGCCGTTACCTGCCCGAATTCGCGGTCAGTAATGACGACTTGAGCCAGATCATGGAGACCAGTGACGAGTGGATTAAGACCCGGACCGGGATTTCCAGCCGGCGGATCAGTCAACAGGAAAACACCTCGGACCTGGCCATCCAGGTGGCCAAGCAGCTCCTGGCTGGCGAGGATCCGGCAGGGGTTGACCTGATCATTGTCGCGACCATGTCGCCAGACGCCTACACCCCGGCCACGGCGGCCCTGGTTCAAGCAGCGGTTGGGGCGGAAAACGCGGCCTGCTTTGACCTGTCAGCTGCCTGTTCCGGTTTCGTCTATGCTTTAGACGTGGCGGAAAAAATGCTGCGGCGGCCGGGCGGGATGGCCCTGGTAATCGGGGCAGAAACCCTGTCCAAGCTGGTTGACTGGCAGGATAGAACGACGGCTGTCCTCTTCGGGGATGGCGCCGGAGGGGTCTTGGTCAAAAATGACGCGCTTGAGCCGCATTTCTTGGCCAGCCAGCTGAAAAGCTACGGCCACTTGGCTAAATTCCTGTCAGCTGGCCAGACCAGCCCGCAGCCCTTTCCCGGCCCGGTAACGGGCCTGGCCCCCTTCAAGATGAACGGGCGGGAGGTTTACAAGTTTGCCACCCACAAGGTGCCCGAAGTAATCACCGCCTGTTTAGAAGAAGCAGGCGTGGGTTTAGCGGAAGTCGACCTTTTCCTTTTGCATCAGGCCAACTACCGGATCATCAAGCAGGTAGCCAGGAGGCTGGATTTGCCAGAGGAAAAGTTCCCCTGCAATATTGCCGAATACGGCAATACCTCAGCCGCCAGTGAAGCCATTCTCTTGGCCGGGCTGGCAGAAGAGGGGAAGGCGCAGGCGGGCGACCTGGTCGTGTTGGCCGGCTTTGGCGGGGGCTTAACCGCGGCTGCCCAGCTGGTCAGACTATAA
>SRR1919932_00513 acyl carrier protein
ATGTCAGAAGCAGAAATTTTCGCAACTGTAAAGAAGATCGCCGTTGAAGAACTGGACGTTGAAGAAGATCAAGTGACCATGGAAGCCAACATCAAGGATGACTTGGAAGCGGACAGCCTGGACTTGTTTGAAATCGTCAACGAACTGGAAGACGAATATGACATCGAACTGGACGCTGATGAAAACACCAAGACGGTTGCCGACGTGGTAGCTTTGGTGCAAAAGCAGCTAGCTGAAAAGGACTAA
>SRR1919932_00514 ACP S-malonyltransferase
ATGAAATTCGGAATTCTCTTTGCCGGCCAAGGGGCCCAGCAGGCCGGGATGGGCCTGGATTTTCTAAGTGACCCCTTGTTTAAGGAAACAATTGACCAGGCCAGCCAGGCATGCGGCTTAGACTTGCCGGAAATCTGGAAAAACGACCGCGGCCAGCTGGATGAAACCAGGTATGTGCAGCCGGCTTTGGTGGCCTTTGAATACGGGATCTGGCAAATGCTGGTCCGGGACACTGACCTGCCAGTATGTGGTCTGGCCGGCCTCTCCTTAGGCGAATACGGGGCCCTTTTAGCCAGCGGCTGTTTAACCTGGCCAGCCGGCCTGGCCCTGGTCGTCGACCGGGGTGAATACATGCAGCTTGATTCAGAAAAGACGGCCAGCGGGATGCTGGCCCTGACCAAGCCGGATCTTCCGGGCCTGGAAAACTTTTTGCGAGCAAAGCAGGCAGCTGGCCAAGCAGTCTACCTGGCCAACTACAATTCACCTAAGCAGGTTGTTCTTGCCGGAGAAAAGCAGCTTTTGCCAGAACTGGGCCAAGAAATTGCTGACCGCAAGCTGGCCAAAAGAGCAATTCCCTTGGATGTTGCCGGAGCTTTCCACACTCCCCTTTACCAGGCAGCCAGCCGGAAAATGGGCCAGCGGCTGAAGAATGAAACTTTTGACGCTGGAACTTACCCAGTCATCAGCAATAGCACTTGCCAGCCTTTTGCCAAAGAAGATCTGGCCAAAATCCTGGAAGTTCAGCTGATGGTGCCAACTCACTTTGACGCTTGCGTCAAAGGCCTGCTGGACTTAGGCATGACGGCCAGCCTGGAAATCGGCCCAGGCCACGCCCTGTCAGCTTTTGCCAAGCAGGCGGACAAGAACCTAAAGACCTGGCAGGTCGGGAGTCTGACTGAATACCAGCAGTTTGTAGAGGAGGAGCAGAATGGATTTACAAAATAA
>SRR1919932_00515 3-oxoacyl-ACP reductase
ATGGATTTACAAAATAAGCGGGTCCTGGTGACCGGGTCAACGCAAGGAATCGGGGCAGCAACTGCCTTGGCTTTTGCGCAAAAGGGCTGCCGGGTGCTCTTAAATGGCCGGCGGCCGGAATTGCCGGAGGAAATCGCTGACCAGCTGGAAGAAATTGGGGCAGACTACCAGTATTTTTCCGCTGACGTCAGCGACGAAGGCGCGGTCAAGCAGCTTTTTAAAGAAATTGGCGAGATTGACATCCTGGTCAACAATGCCGGCATTACCAAAGACCAGATTATGATCGGGATGAAGCTGGCTGACTTTGACCAGGTGATCAAGGTCAACTTGCGGTCAAGCTTTATGCTGACCCAGAAGGCCTTGAAGAAAATGCTGAAAAAGCGGTCCGGAGCCATCATCAATATGGCCAGCATCGTCGGCCAGCACGGCAACGCCGGCCAGGCAAACTACGCGGCTTCAAAGGCTGGCGTAATCGCCTTGACCCAGACCGCGGCTAAGGAAGCTGCCGGACGCGGCGTTCGCGTGAACGCGATCGCGCCGGGGATGATTGCCAGCCAAATGACTGCTGTCCTGCCAGATGAGGTCAAAGAGCAGGCACTTAGCCAAATTCCTTTGGCCCGCTTTGGCAAGGCAGAAGAAGTTGCCCAGGCGGCAGTCTTTTTGGCGGAAAACGACTATGTTACCGGCCAGACCCTGGTTGTTGACGGGGGAATGACCATTTAA
>SRR1919932_00516 3-oxoacyl-ACP synthase 2
ATGCGAGTAGTAGTTACAGGTATGGGGGCAGTCAGCCCGAACGGCAATGGCTGCCAAGCTTTTGTTGAAAATACTTTAAATGGCGTGGTCGGCATCAAGCCGATCAAGAAGTTTGATGCCAGTGAGACCGGCATCAGCGTGGCCGGGGAAATCGATGATTTTGACGTCAGTCAGGTTGTCGGCAAGAAAAACGGCAAGCGGATGGATCTGTATTCCCAATACGCCATCCAGGCCTGCCAGGAAGCCTACGAGATGGCTGGCTTGACTCCGGAAACAGTGAAGGCGGAAGAGCTGGGCGTGATTTTCGGCTCCGGGATCGGGGGCCTGACCACGATTGAAGAGCAGGTCATCAAGATGCATGACAAGGGGCCAAAGCGGATGTCACCTTTCTTTATCCCGATGGCCATTGCCAACATGGCGGCGGGCAATATTTCCATCCGCTTTAATGCTAAAAATATTTCTACCTCCATTGTTACCGCCTGCGCCAGCGGGACCAACTCCATCGGGGAAGCCTACCGGCAGATCAAGGAAGGCCGGGCTGAGGTCATGATTACCGGGGCCAGCGAAGCCAGCGTCAATGAAACGGCTATTTCCGGTTTCGCGGCCTTGACCGCCCTGTCAACCAGCACTGACCCCCTCAAGGCGTCTTTGCCCTTTGACCAAAACCGGCACGGCTTCGTCTTAGGCGAAGGGGCTGGGGCCTTGATCCTGGAAAGCTTGGACCATGCCCAAAAGCGGGGGGCTAAGATTCTGGCTGAAGTAGTCGGCTACGGGGCAACCAGCGATGCCTACCATATCACCAGTCCTGATCCTAAAGGTGAAGGAGCAGCCAGAGCCATGCGGCTGGCGGTTGAAGAAGCTGGCATCAAGCCGGACCAAGTCGGCTATATCAATGCCCATGGGACGGCGACTAAGGCCAATGACAGCGGGGAAGCCAAGGCAATTAAGGAAGTCTTTGGCGACCAGGTCCTGGTTTCCTCAACCAAGGGGATGACCGGCCACCTCTTAGGGGCCGCCGGAGCGGTTGAAGCCGTCATTACCTGCGCCAGCCTGGAAAAAGGCATCTTGCCGGCCAATGTCGGCTGCTTTGCCCAGGATCCGGAATGCCCGGTCAAATTGGTAAAGGCTGGTAACCAGGAACAAGCCATTGACTATGCTTTGAGTAATTCCTTCGGCTTTGGCGGCCACAATGCCGTGTTAGCTTTTAGAAAGTGGGCCTGA
>SRR1919932_00517 acetyl-CoA carboxylase, biotin carboxyl carrier protein
GTGGGCCTGATTTTGGAAATAACAGATGTTGAAAGACTGCTGGACAAGTTTGAAAAGTCCAGCATCCGGGAAATGAAGCTGAATTTGGACGGTTCAGAGCTTTTTTTGAGCAAGAACGAATACACGCAAAAGACAGAGGCAGAAGCAGGCCCGGTTTTGCCAGCCCAAAAAGCTGAAAGTCCGATTTTGCCAAAAGAAGCAGCTGAAGCCGCGCCGGTTGTTCAAGCAGAAAAAGCTGCATCCGGTCATGCCATCAAGTCGCCCCTGGTTGGGACGATCTACCTGCAGCCGGCCGCGGACAAGCCAGCTTTTGTGAAGGCCGGCGACCAGGTCAAGGCCGGGCAGACCGTCTGCATCGTGGAAGCCATGAAGATGATGACGGAGATCAAGAGTGATGTTTCCGGCACCGTCAAGGAGGTCTGCGTGGAAAACGAAGACCTGGTTGAATGTGAGCAAACGCTCTTTTTGATTGAGGAGGCCTAG
>SRR1919932_00518 3-hydroxyacyl-ACP dehydratase
ATGACTGTATTGGATTCCAGCCAAATACAAGAAATTATCCCCCACCGCTATCCCATGCTTTTGATTGACAAGGTCATCGACCTGGTTCCCGGCGAAAGCGCCGTGGCCATCCGCAACGTGACCAATAATGAGGCGGTTTTCCAGGGACATTTCCCGGGAAATCCTGTCTTGCCCGGGGTCTTGCTCGTGGAATCCCTGGCCCAAACCGGGGCCGTGGCCCTGTTAAGCGCCGACCGCTTCAAGGGGCAGATGGCCTATTTTGGCGGTATCAAAAACGCTAAGTTCCGCCAGATGGTCAAGCCCGGCGACCAGGTCAAGTTGGAAGTGACTTTGGAAAAGGTCAAGGGCCATATCGGCCTGGGGCAGGGAATTGCCTGGGTCGACGGGAAGAAGGCCTGCACGGCAGAATTGACCTTCATGATTTCAGGTGAGAAAAATGTTTGA
>SRR1919932_00519 acetyl-CoA carboxylase, biotin carboxylase subunit
ATGTTTGACAAAGTTTTAGTTGCCAACCGGGGCGAAGCCGCGGTCCGGATCATCCGGACCCTTAAGGAAATGGGCATTAAGTCCGTCGCTATCTACTCAGTAGCTGACCGGGACAGCCTGCATGTCCAGCTGGCCGATGAAGCGGTCTGCGTGGGCGCTAGCCGCCCCAGAGACTCCTACTTGAACATTAAAAATATCATCTCAGCGGCCACCGGGACCGGGGCCCAGGCCATCCACCCGGGCTATGGCTTTTTGTCAGAAAGCGCGGAATTTGCCAGCCTTTGCGCGGCCTGCGGTTTGACCTTTATCGGGCCAAAGGCGGAAACCATCGACCAGATGGGCAATAAGGAACACGCCCGCCAGCTGATGATCAAGCACAAGGTGCCAGTTACCCCGGGCAGCCGGGACTTTATCAAGTCACCGGAAGAAGCTAAAAAGGTTGCTGCTGAAGTCGGCTACCCGGTCTTATTGAAGGCCGCGGCCGGCGGGGGCGGCAAGGGGATCCGGCAGGTTAAAGAGCCTGGTGAAATGGCTGACGCTTTCAGCCTGGCCCAAAATGAAGCCCGGCTGGATTTTGGCAATGACCAGATGTATCTGGAAAAGGTCTTGACCAATGTCAAGCACATTGAAGTCCAGGTCATCCGGGACAGCTTTGGCAACTGCGTCTACTTCCCGGAAAGAGACTGCAGCCTGCAGCGGCGCAAGCAAAAGGTGATCGAGGAGAGCCCTTGTGAACTGATCAGCGAAAGCGAGCGGGAAAAACTGGGCCAGATTGCTGTCCGGGCCGCCGAAGCAGCTGATTATCTGAATACGGGGACGATTGAATTTTTGATGGATCAGGACCATAATTTCTACTTTATGGAAATGAACACCCGCCTGCAGGTAGAACACACGGTAACGGAAATGGTTACCGGCGTTGACCTGGTTAAGGCCCAGATCCTGGTCGCGGCCGGGGAAAAGCTGCCTTTTAAGCAGGCAGACTTAGGCTTTAAAGGCAATGCTATCGAATGCCGGATTAACGCTGAAGATTCCAGCCGGGACTTCATGCCGTCAACCGGCCAGGTCGACTACCTCTTTTTGCCAGTCGGCAACCCGGGCATGCGGATTGATTCCGCCCTTTACCAGGGCATGGTGGTTTCGCCATTTTACGATTCCATGCTGGCTAAAATCATCGCCTTGGGCAGCAGCCGGCAAGAAGCAGTTGCCCGGATGCAGCGGCTTTTAAAGGAGCTGGTGATCCGGGGGGTCAAGACCAACCAGGACTTTCACCTGGCCATTTTGGCTGATTCGGAATTTAAGCAGGGGACTTTCACCAATACTTATTTAGAGAGGGAATTTTTGCCCCGCTGGAAGGAGCAGGTAGATAAGCATGAGGCTGTTTAA
>SRR1919932_00520 acetyl-CoA carboxylase, carboxyl transferase subunit beta
ATGAGGCTGTTTAAAAAAAGAAACACGATCTCTGAGCGGCATGTTAAGGCTAATAAAAGGGCGGAAGACCTGGTGCCGAGCGGTTTGATGCAGCGGTGCCCGAATTGCGGGCTGGAATTTTTCGCCAGCCGCCTGGACAAGTACAAGACCTGCCCGGACTGCGATTACGGCTTCCGCTTGACCGCCAGGGAACGCCTGGCCTGGCTCTGCGAGGAAAGCGAGGAGTGGTTTAAGGATATTCAGCCCAGTGACCCCCTCCATTTTCCCAATTATGAGGCGAAAGTTGCCGCTGGAAAGAAAAAGACTGGCTTAAATGAATCGGTTTGGACCGGCCTGGCCAAAATTGGCGGGCAGGAGACAGCCCTGGCCATCATGGATCCCTTTTTTATCATGGGTTCTTTAGGCCAGATGACCGGGGAAAAGCTGACCCGGCTCATTGAGGCAGCTACTGAAAAACGGCTGCCGGTCGTGGTCTTTACAGCCAGCGGCGGGGCCCGGATGCAGGAAGGGATCTACTCTTTGATGCAGATGGCTAAAGTGGTCAACGCGGTTAACCGGCATAAGGCAGCCGGTCTCTTATACCTGGTTGTTTTGACCGACCCGACTACCGGCGGGGTGACGGCCAGCTTTGCCAGTGAAGGTGACATTACTCTGGCTGAAGCTCACGCCATGGTGGCCTTTGCCGGCCGCCGGGTGATTGAGCAGACCATCCATGAGCAGCTGCCAAAAGATGCCCAGCGGGCAGAAACGGTCTTAAAGCACGGCTTTATCGACCGGATCGTTTTGCGGCAGGAGGAAAAAGAGACCCTGGCCTGGCTGTTAAAGTACGGAGGGATGCAGGATGACTGA
>SRR1919932_00521 acetyl-CoA carboxylase, carboxyl transferase subunit alpha
ATGACTGATGCTATGGAAACGGTCCGGGCCGCCCGGGCCAGTGATAAATTGTCGGCTCACTATCTGCGGGCGCACTTGTTCAGCGACTTTGTGGAGCTGCATGGGGACCGGCAGGGGGCAGATGACCCGGCCATCGTTGGGGGGATCGGCCTGTTTGCCGGTCAGCCAGTGACCGTGATCACCACCAGCCGGGGACATAAGCTGGAAGAGCGCCTGGCCAAGCACTTTGGCCAGCCGGAACCAGCCGGCTACCGGAAGGCGGCCCGCTTGGTCAAAGACGCGGCCCGCTTTAAGCGGCCGGTTCTCCTTTTTATCGATACGGCCGGGGCCTTTCCCGGTAAAGAGGCCGAATATGCCGGCCAGGGGCAGGCGATTGCCCAGTGCTTGACGGATATTGGCCAGGCCCAAACGCCAATTATCAGCGTGATTTTCGGTGAAGGCGGCTCTGGCGGGGCCCTGGCTTTGGCTTGCGGGGATGAGCTTTGGATGATGGAAAATTCCATGTATTCAGTCCTGTCTCCGGAAGGTTTTGCCTCCATCCTGTGGAAGGACGCCAGCCGGGCGGCTGAAGCAGCAGAGCTTTTGGGCTTGACGCCGGAATCCCTGCTCAAGGGGCAGGTGATCGAAGGAGTGATCAAGCAAGAAGGCAGCAAGTCTGCTCAGTGCCGGGAAATTTCCCGGGTCTTGGAAGAAGAATTAGCAAAATTGCAAAAGCTGCCGGTCAGCAGTCTGCTTAACCGGCGCTATGAACGTTTCAGAAAGTTTTAG
>SRR1919932_00522 enoyl-ACP reductase 1
ATGGGCGTGGCCAACAAGCGGTCCATTGCCTGGGGCTGCGCTGAGCAGATCAAGGCCCAGGGCGGGGAAGTGGTCTACAGTTACCAAAATGACCGCCTGGAAAAGAGACTGCTCAAGCTGGGCCTGGCGGAAGAAGAGATGGTTGAATGTGATGTGGCCAGCGATGAGAGCATTGACGCGGCTTTTGACCAAGTGAAGGAAAAGTTCGGCCAGATCGACGGCCTGGTTCACGCGGTAGCTTTTGCCCCGAAAAATGAACTGGAAGGGTCCATCCTCAATTCCAGCCGGGAAGGCTACTTGACTGCCCAAAATATTTCCAGCTACTCCTTGATCGCCGTGGCTAAGGCTGCCCAGGAAAAGGAACTTTTGACCCCTAAGGCCTCAATCGTTACCTTGACCTTCATCGGGTCGGAAAGAGCCATCAGCAATTACAACACGATGGGGATTGCCAAGGCGGCTTTGGAAAGTTCTGTCCGCTACCTGGCCCGGGATCTGGGCAAGACTGGCAGCCGGGTCAACGCGATTTCTGCCGGGGCCATGAAGACTTTGGCCGTGACGGGGATTGGCGGACACAAGGATCTCTTGGAGCAGTCCCGGTCCTTGACGGTTGATGGGGTCAATGTCAGCCTGGAAGAAGTGGGTAACTGCTGCGCCTTCCTGCTCAGTGACCTGTCAACCGGCCTGACCGGCGACATCATCTACGTTGACAAGGGCGTTCACCTCTCCTAG
>SRR1919932_00523 biotin-[acetyl-CoA-carboxylase] ligase
ATGGAGATTTACTGCTACCTGGTCCTGCCTTCAACGCAAGATCTGGCTAAAAAGCTGCTGGAAAAGAGAAAGCCGCCTTTTGCCGTTAGTGCTTTAGAGCAGACGCAGGGCTACGGCAAGCAGGGGCGGGCCTTTTATTCACCGAAAAATGGCCTTTACCTGTCAGTTTGCCTGGAAAAGCAAGAGAATCCCTTGCTGACCTTGGCGGTTGGGACAGCGGTAGCTGACTTCCTGCGGGCCAGGTACGGCTTAGAGATTGGCCTCAAGTGGGCCAATGATCTTTTTTATCAAGGGAAAAAAGTTGCCGGCATCTTGACTGAGCAGGTGGCAGGCGGGATAGTAGTTGGCCTGGGCCTCAACTTAGGCGCGGAACTTCCGGCCAGCCTGCCCCAAGCGACCCGCTTGCTGGAAGCGGGGGATTTTGATCCGCTTTTGGCAGATGATTTGGCCTGTGTGATCTGCCGGGCTGCCAGCTGGCAGGATTGCCTGCCCCGCTACCGGGAATTGAGCATCTTGACTGGCAGGAGGGTTACTTTGAAAATTGCTGGGCGGAACATCTCCGGCACTTGCGCCGGCTTTGATGACCAGGGCCGGCTTTTGTTGGAAAAAGGCGGGAAGATCAGTGCCTGGTCCAGCGGGGAAGTAATTAAGACAAGTTTTTTGTAA
>SRR1919932_00525 hypothetical protein
ATGAAAAAGAAAGTTCTCTTGATTGCTTTTGCGGCCCTGGCTCTGACTGCCTGCTCCAGCAAAAAGGCCACGACTGACAGCGAAAGCGACAAGAAGGCCGCGAGCTCAATTTCCAGCTCCAATGTCGTCAAGCAGACCAGCAACAAGATCAATCTCACTAATTACAAGAAGATCAAGGTCGTTGAAAAGACCGGATCTACTCCCAGCCAGGTAACTGATCTCCTGGGCCGGGAAGCTGACGCTAAGAGCAAGGCCAAAACCAGCAAGCTCAAAGCCACCATCTACACTTGGGAAGGGGTCCAAAACGGCAGTGCCGGCGCCAACCTGGCCGTTGAATTCGCCAACGGGGTGGCTATTGCCAAGCAGATTTCCGGCCTGGTCGTCAACCGGTCCAAGCAAATTACACCCAAAGACTACAAGTCCCTCAAAAAGGGGATGACCCAAGAGGAAGTCGAAGCCATTGTCGGCAAGCCCAACGGCTACTCAGAATCTGACTATTCCAATTCTGACGTGGCCCTCTGGCTCTACACCAGCGGCCTGAAGAGCGACGGCCAGGCCAACTTCTACGTTACCTTCCAGAAGAACAAGCTGGTCGCCAAAAAAGCCCAGAACTTTAACTAA
>SRR1919932_00526 hypothetical protein
GTGGCTTTAATCTTCGCTGGTTTAACCGACAGCCAGGAAAGCAATGAAAAGATCCTGGGCTACCTCAAAAAAGCTGGCCTTTCTGCATCTTTCGCCCTGCCAGCCGCCCGGGCCCGGGAAAACGACGTGCTGATCAAAGACCTGGTGAAAAGCCGCCAGCAGCTGATCGGAAGCGGCATCTTGGTAACAGAAGGGAGCCGGCTTGACGGCAATTGCCCCTAA
>SRR1919932_00527 formate/nitrite transporter
ATGTATAAGGAATCATTTGCCGCGGCTGCTAGCGCGGCGCAAAAGAAATTTAACCTGCTGAAGACTAATCCAGCCGGCTATGTCGTGCTTTCTATTTTGGCAGGGATGTACATCGGTTTCGGGATCTTGCTGGCCTTCACGGTTGGGGGACAATTAGGAACTAACCCGGCTGCCAACTTGATCAAGGGGCTGATCTTCGGGGTTGCCTTGAGCCTGGTGGTCATTCCCGGAGCTGAACTTTTTACTGGCAACAACTTCGTGATGAGTGCGGGCCTTTTGGAAAAGAAGGTCAAGCTGGGCCAAGCGGGTCTTCTCTGGCTGATTTGCTGGCTGGGCAACTTGCTGGGGGCTGGAATCTTGGCTTGGATGTTTGTCAAGTCCGGCCTGGATCTGCCGGTTACGGCAACTGTCTTCACCAAGGCGGCAGCTGCTAAGATCGCCGCGCCAGCTGGCCAGCTTTTCTTGCGGGGCATTCTCTGTAACATCTTGGTCTGCCTGGCTGTTTGGTCAGGCTTCCAGACCAAGAGCGACTCAGCTAAGCTGATCATGATCTTCTGGTGCCTTTTGGCCTTCTTCTCAACTGGCTTTGAGCACAGCGTGGCCAACATGACGACCTTCATCGTTGCCTTGCTGAATCCAGTGCAAGGGGCAGGCGCCGTTTCAGCCGGCGGCATGTTCTACAACCTGCTCTGGGTAACCCTGGGCAACATGGCCGGCGGTATTGTCTTTGTAGCCTTGCCATACTGGCTGGCTGCCAAGGACAAGCAATAA
>SRR1919932_00528 bifunctional acetaldehyde-CoA/alcohol dehydrogenase
ATGGTTGATGTAAAGAAAACACAGACCACTGTTACTGCTGCCAAGGAATTGTCAGCTGATGAAAAGATGGAAGAAGCCAAGCGCTATACAGGTGAATTAGTTAACAAAGCCTTGGTCGCTGAAGAAGCCTACGCGACCTACAGCCAGGAACAAGTTGACAAGATTGTCGCTGCCATGGCTTTGGCCGGCAGTGAGGCCTCCCTCGCGCTTGCTCATGAGGCAGTAGACGAAACTGGCCGCGGCGTGGTAGAAGACAAGGATACCAAGAACCGCTTCGCTACCGAAAATGTCTACAACTCAATTAAGCACGAAAAGACTGTTGGCATTATCGAAAGAAACCAGGTTGAAGGCTATATCAAAGTTGCTGCTCCTCTTGGCGTTTTAGCCGGGATCGTGCCAACCACCAACCCGACCTCAACGACCATGTTCAAGATCCTGGTAGCTTTGAAGACCAGAAACGCCATCATCTTCTCCTTCCACCCGAAGGCCCAGAAGTGTTCAATCCATGCTGCCCAGATCTTGTATGACGCTGCTTTAAAGGCCGGTGCCCCAAAGAACATCATTCAATGGATCGACAAGGCCAGCCTGGAAAACACCACCGCCTTGATCCGCAACCCAAAGATCGCTTCTATTTTGGCAACTGGTGGTCCCGGCATGGTGCACGCCGCGCTGCAGTCTGGCAACCCGTCAATGGGGGTCGGGGCCGGCAACGGTGCTGTTTATATCGATCACACCGCCTTTTTGGACCGGGCTGTTGAAGACATCCTATTGTCCAAGCGCTTTGACAATAGCATGGTTTGCGCGACTGAAAATTCAGCCGTAGTTGAAGCACCGATCTACGACAAGTGGCTGCAAATGATGCAGGACAAGGGTGCCTACCTGGTTCCAAAGAAAGACTACCAAAAGCTGGCCGACTTCGTCTTCAATGACAAGCATGGGGTCAATGGGCCAGTAGCCGGGATGAGCGCCCGCTGGATTTGTGAACACGCCGGCGTTACCCTGCCTGAAGGCAAGGATGTCCTCCTCTTTGAACTGGATCCAAAGAATATTGGCGAAAAGCTGTCATCCGAAAAACTCTCCCCGCTTCTGTCAGTTTACAAGGCCAAGGACCGGGAAGACGGGATCAGAATCGTCAAAGCCCTGCTTGACTACCAAGGTGCTGGCCACAATGCCGCCATCCAAATCGGCTCCCAAAACGATCCGTTCATCGATGAATACGGCAAGGCTGTCCAAGCTTCCAGAGTCCTGGTTAACCAGCCGGACGCTTTGGGCGGGATCGGCGATATCTACAGTGATGGCCTACGGCCAAGCTTGACTTTGGGGACTGGTTCATGGGGGAAGAACTCCCTGTCTCACAACCTGTCGACCAGCGACCTCTTGAACATCAAGACCATTGCCAAGCGGCGGAACCGGCCGCAATGGATCCGCCTGCCGGAGAAGATTTTTTACGAAAAAGACTCCATTACCTATCTTTCAGATGAAAATGAGCAGGAAATCAGCCGGGCCTTTATCGTCGCTGACCCGGGCATGGTCAAGTTCCACTTCGTTGACAAGGTCTATGAACAGCTGGCTTTAAGAGACAAGCAGGTCGACACGGCCATCTACAGTGAAGTCTTGCCTGACCCACCGCTGAGCCAGGCGATCAAGATTGCCAAGCAGATGAAGAAGTTTGCACCAGATACCATTATCGCCATCGGCGGCGGCAGCGCCCTGGACGTCTCCAAGATCGCCCGCTACATCTACGAATACAGCCTGGACCAGGAAGATGGCTGGCTGGACAACTACGACAATGTGAGCGAGCTCTTCAAGGAACTGCAGCAGAAGTTTGTCGATATCAGAAAGCGGATCGTCAAATTCAAGCATGAGACCCGGACCAGTCTGGTCTGCATCCCTACCACGTCAGGGACTGGGTCAGAAGTCACCCCTTACGCCGTCATCACCGATGACAAGCAGCATGTCAAGTACCCGTTGACTGACTACGAACTGACTCCGCAAGTCGCAATCGTTGACCCGGCCTTCGTCATGACCGTGCCAAAGCATACCGTGGCCTTCTCCGGCTTCGACTGCCTCTCCCACTCTTTGGAAAGCTACGTCTCTGTTGCAGCCAGTGACTTCACCCGGCCATGGTCACTCAAGGCCATCCAGCTGATCATGAACAACCTGGAAGCTTCTTACAAGTACGACCCGCAGCACCCGACTTATGAAGGAGAAAAAGCCCGGGAAAACATGCACTACGCGGCAACCTTGGCCGGGATGGCTTTTGCCAACGCCTTCTTGGGCCTCAACCACTCCATTGCCCACAAGCTGGGCGGGGCCTTCGGCTTCCCGCACGGCCTTTGCATTTCAATTGCCATGCTGCCGGTCATCAAGTTCAACGGTGCCAGTGGCAATGTCAAGCGGACGCCTTATCCAAGATATGAAGTTTACCGGGCCCAAAAAGACTATGCTGATATCGCCCGCAGCTTATGCCTGCCAGGCAAGAGTGACGCGGAACTGGTTGATTCTCTTTGCAAGCGGATCCGGGAACTGATGAAGGCCTGCGATATTGAACCCTCCCTTTCAGCCAACGGGGTCAGCAAGGAAGCCTTTGACGCCGCCTTGCCAGCCATGATCGACCGGGTTTACGATGACCAGTGCACGGTGCAGAACCCGCGCCAGCCAAGCATGGCTGAAATCAAGCAGCTCTTGCTCAGCATGTATTAA
>SRR1919932_00529 integrase/recombinase family protein
ATGATAGTTTGGACTTCAAAAGTCCTTAAATATGCTTTCAAGGTCGGCCTAATAGATAGCAATCCTTTTGATCGTGTTATCGTGCCAAAAAAGCCAGCCAAAAGGAAGAAAGACAACTTCTATACTAAAGATGAGCTGGAAACACTCTTGAACGGTGCCAGGGATGCTGGAATGATGAAATATACTTTATTCCGCCTGCTGGCCTTCTCCGGAATGCGGATCGGGGAACTGATCGCTTTGGAATGGTCGGATGTTGATTTTGCAAGCCAATCAGTTTCCATAAATAAAACGTTAACGCTGGACAAGTACGGACAAGCGACGGTAGGGAGCCCAAAAACGACGAATAGCAATAGAGCGGTCTTGCTGGATGATGTAACGATGACCATTCTTAGACAATGGCGGGCTGAACATGCAAGGCGAATCATCTATTTTGGCAAGCCCCGCAATAACCTTGTTTTTGCTAGCGAACACGGGGGGCACCTAAGCAATGGCACAATTAAAGGCTGGAACAAAAAAATCGCTGAAAACAAGGGACTAAGGGCAATTAGTTTGCATGGGTTCAGACATACACACGCAAGTTTATGTTTTGAAGCTGGTTTGACTATGCAAGATGTTAAAGAACGATTAGGACATTCAAGCATTTCAACCACTATGGAGATTTACACTCATGTAACCAATGATAGAAAGGAAGAAAGTGTTCAACAACTAGCCAAATTCATGCGGGCTTAG
>SRR1919932_00530 riboflavin biosynthesis protein RibF
TTGAAAGTGATAAATCTAAGCTATCCGTTCAAGAAAGAGCTGACGGCTGGCAAGGTTGTTCTGGCCCTGGGCTTTTTTGATGGAGTTCATATCGGCCACCAGAAGTTGATCAAGGAAGCCAGGATAATTGCAGTTGAGAAGGATCTACCATTGATGGTGCTGACCTTTGACCGCCACCCCAAGGAGGTCTATGCCGGAGTTAAGGACTTTGAATACTTGAACACACCGGAGGAAAAGGCCTACGAAATGTCCAAGATCGGGGTCGACTACCTGGTGATTCTCAAGTTTACGCCGGGGTTCAGCCACCTGGCTCCCCAGGCCTTCGTTGATGAGATCATCATGGGCCTGAAAGCAGACACGGTGGTAGCCGGCTTTGACTACAGCTACGGCCCAAAGGACGTGGCCAATATGGAAAATCTGCCGGCCTTTGCCAAGGGCCGCTTTGACATCAAGGTGGTTCCAAAGCAGATCTTTGCCGGGAAAAAAATCGGTTCAACTGAAATCCGCCAGGCTGTTAAAAGCGGCAATCTCCGCTTGGCCACGGAACTTCTGGGCCACCCGTATTTGACCAGTGGCAAGGTCGTCCACGGCTTCAGAAACGGCCACAAGCTGGGCTTCCCAACCGCGAATTTGGAGCTGGCCTGGCCAAAAGTTTTGCCGAAAATCGGAGTCTACGCGACCATGACCCAAGTAGGGGACAGCTGGCACCAGTCAATGACCAGTGTCGGCTACAATGTCACTTTCAATGATGAGAAGAAGATTTACATCGAATCTAACATCTTTGATTTTGACCAGGACATTTACGGCCAGCAAATCACCATCGCCTGGTACAAATACTTGCGCGGGGAAGAAAAGTTTGCCGATATGGCGGCTTTAAGCGAGCAGCTGAAGCTGGACCAAGTCGCTAGTGAAAACTATTTTAGTTCACTGATTGAGCAGTAA
>SRR1919932_00531 heat-inducible transcription repressor HrcA
ATGTTGACCGAACGTCAAGAACTTATTCTAAAGACAATTATTCAAGACTTTACCAAGACGCATGAGCCGGTTGGCTCAAAGACAGTCATGAATCAATTGGCGATTAAAGTGTCCAGCGCGACAATCCGCAACGAGATGGCGGTTCTGGAAGAGCATGGCTTGATTGAAAAGACCCACTCCTCCAGTGGCCGGGTGCCATCGACTGAGGGCTATCGCTATTACCTGGACAATTTGGTGCAGCCGCTGCAGCTGCCGGAAGAAATGTACAATCAAATTGGCTACCAGTTTGACCAGCCGTTCAACCAAGTGGACGAAATCGTCAAGGAAGCCGCCAGGATCCTGTCAGACTTGACTGACTACACGGCCTTTGCAGAAGGGCCGGAAGCCAAGAATGTCAGCATCACTGGCTTCAGAATCGTGCCCCTGGCTCCCCGGCAGGTCATGGCTATTCTGGTAACCAGCGATGGCAGCGTCAAGAACCAGCTCTACACCTTGCCGCGGCACATCTCAGGGGATGAAATTGAACAGGCGGTCCGCTTGATCAATGACCAGCTGGTTGGCAAGAATTTAAGCGAAATCAACAAGCAGACCTTTGAGCAGCTGTCCAGCAGCCAGATCGTGGGCAAGAATGCCCCGGAATTTCTGGAATTGCTGGAAGCCGTCATTAAGGACGCGGCAAGCGAGCAGATGTATGTTGACGGTCAGCTGAACCTGCTCAACAATACTGAAAACAGCGATTTAAAAGCCATCAAGTCGCTATATGAACTGATCAATTCCAGCTCTCTGGCTGGAGAACTGATCGATCTCAGCGACAGTCCCAGCCATTACCCTGTCCATGTCCGCTTAGGAGCGGAACTAGAGAACGACCTGCTGAAGGATTTCAGCCTGGTAACGGCTGAATATAGCGTTGGCCACTACGGGCGGGGGACGATCGCCCTGCTGGGGCCGAGAAACATGCCTTACTCGGAAATGATCGGATTGATGGAATACTTCCGCCAGGAACTGGCCCGCAAGTTGTTAGATTACTATGGCAGATTTAAATAA
>SRR1919932_00532 heat shock protein GrpE
GTGAGCAAAGAAGAATTTCCAAGTGAGAAAGATTTGCCGCAAGAAGACCAGGAAAAGCAAGCCAAGTCAGCTGAAGCTGACAAGGCCGGCGTAAAAGAAGACAAAAAGGCAAAAGACAACAAAGAAGAAGCAGCCAAGCCAGCTGATGCAGAACTGGACCAGCTCAAGGCTGAAGTTGCCGCTTTGACCCAGAAGAACAAGGACCTGGAAGACAAGTACTTGCGCAGCGAAGCTGAGATTCAAAACGCCCAGCGCCGCTACAGCAAGGAAAGAGCCAACCTGGTCAAGTACGAGTCCCAGCGTCTGGGCAAGGATATCCTGGCCAGCGTGGACAACTTGGAAAGGGCTCTGCAGGTCAAGGCCGACGACGAGGCTTCCAGTCAGCTGAAGAAGGGGATCGAAATGACCCTGGAAGGCCTGGTCAGAGCCTTGAAGGACAACGGCATTGAAGAAATTAAGGCTGACGGCGAAAAGTTTGATCCGACATTGCACCAGGCGGTCCAAAGCGTACCGGCTGAAAATGATGATCAAAAAGGCCATGTCGTACAGGTCCTGCAAAAGGGTTACGTCTACAAGGACCGGACCCTGCGGCCAGCCATGGTTGTCGTTGCCCAGTAA
>SRR1919932_00533 molecular chaperone DnaK
ATGTCTAAAGTTATTGGGATTGACTTAGGTACCACCAACTCAGCAGTTGCGGTTTTGGAAGGCAAGGAACCAAAGATTATTACCAACCCGGAAGGCGCTAGAACTACCCCTTCAGTAGTTGCCTTCAAAGACGGCGAAATTCAAGTCGGTGAAGTTGCCAAGCGGCAAGCCATCACCAACCCGAACACCATTGTTTCCATCAAGCGGCACATGGGCGAAAGTGACTACAAGGTTAAGGTTGGCGACAAGGCTTACACCCCGCAGGAAATTTCAGCCATGATCCTGCAATACATCAAGAAGTTCTCAGAAGACTACCTTGGTGAACCAGTTACTGACGCGGTTATCACTGTTCCAGCCTACTTCAACGACGCGCAACGGCAAGCAACCAAGGACGCCGGCAAGATCGCGGGCTTGAACGTGCAACGGATCATCAACGAACCAACTGCTTCAGCCCTGGCCTACGGCTTGGACAAGGATGAAGACGACGAAACTGTTCTGGTTTACGACCTTGGTGGTGGTACTTTCGACGTTTCCGTCCTGCAATTAGGTGACGGCGTCTTCCAAGTTCTGTCAACCAACGGTGACACTCACCTGGGTGGGGACGACTTTGACAACAAGATCATCGACTGGCTGGTTGATGGCTTCAAGCAAGAAAACGGCGTTGACTTGTCCAAGGACAAGATGGCAATGCAACGTTTGAAGGATGCGGCTGAAAAGGCCAAGAAGGACTTGTCAGGCGTATCTTCAACCCACATCTCCCTTCCATTCATCTCTGCTGGTGAAGCAGGTCCTCTGCACTTGGAAGCAGACCTTACCCGGGCTAAGTTCAACGAACTGACTGACGACTTAGTGCAAAGAACCAAGATCCCATTTGACAACGCCCTGCGTGACGCTGGCCTGTCAGTTGGCGACATCGACAAGGTTATCTTGAACGGTGGTTCAACCCGGATTCCAGCAGTTCAAGAAGCTGTAAAGCAATGGGCCGGCAAGGAACCAGACCACTCAATCAACCCAGACGAAGCCGTTGCTTTGGGTGCCGCAATCCAAGGCGGGGTTATCTCCGGTGACGTTAAGGACATCGTTTTGCTTGACGTTACTCCGCTTTCCCTGGGTATCGAAACCATGGGCGGGGTCTTCACCAAGCTGATCGACAGAAACACCACCATCCCAACTTCCAAGAGCCAAATCTTCTCAACTGCCGCTGACAACCAACCAGCTGTTGACATCCACGTTTTGCAAGGTGAACGGCCAATGGCAGCTGACAACAAGACTTTGGGCCGCTTCGAACTGACTGACATTCCAGCTGCTCCACGTGGCGTGCCACAAATCCAAGTTACCTTCGACATCGACAAGAACGGTATCGTTAACGTTTCAGCCAAGGACATGGGGACTGGCAAGGAACAAAAGATCACCATCCAATCAGCTTCCGGCCTGTCAGACGAAGAAATCGAAAGAATGAAGAAGGAAGCTGAAGAACACGCTGACGAAGACGCCAAGAAGAAGGAAGAAGTTGACCTCAGAAACGAAGTTGACGGCTTGATCTTCCAAACCGAAAAGACTTTGAAGGAAGTTGACGGCAAGCTCGCAGACAGCGACGTTCAACCAGTTAAGGATGCCCTGGAAGACTTGAAGAAGGCCCAAAAGGACAACAACCTGGACGAAATGAAGGAAAAGAAGGACGCTTTGAGCAAGGTTGCCCAAGACCTGGCTGTCAAGCTCTACCAGCAAAACGCCCAAAACCAGCAAGGTCAAGGCGGTCAAGCAGGCCCAACTGACGATGGTTCAAATGGCGCAAACGGCGACACGGTTGACGGCGACTTCACCAAAGTAGACCCAGACAAGTAA
>SRR1919932_00534 molecular chaperone DnaJ
ATGGCAGCAAACCGTGACTATTATGACGTCTTAGGCGTGAGCCGGGATGCCAGTGACGCAGAAATCAGCAAGGCCTACCGGAAGTTGGCCAAGAAGTATCACCCGGACTTAAACCACGAAGCAGGGGCAGAAGAAAAGTACAAGGAAGTCAACGAAGCTTACGAAGTGCTTCATGACCCGCAAAAGCGGCAGCAGTATGACCAATTTGGCCAGGCTGGCATGAACGGCCAGGGCGGCTTTGGCGGCCAGTATGGGGGCCAGGGCTTTGGCGGAGCTGATTTTGGTGACTTTGGTGACATCTTTAACAGCTTCTTTGGCGGCGGCGCCCGCCAGCAGGTAGACCCGACCGCTCCGCAGCGGGGGGCTGACCTGGACTACACCATGACGATCGACTTTATGGATGCCATCAAGGGCAAGACCAGTGAAATCAGCTACAGCCGGTCAACCACCTGTGAAGTCTGCAAGGGTTCCGGGGCTGAAAAGGGCACCCACCCGATCACCTGCGACAAGTGCGGGGGCAGCGGCATGATGACCATTACGCAAAGAAGCGTTTTGGGCATGATCCAGCGGCAGACGACCTGTGACAAGTGCGCGGGCAGCGGGGTCATCATCCAGCATCCATGCCAGAATTGCCACGGCAAGGGGGTCAAGACCCAGAAGCAGACCCTGCAGGTTAAGGTGCCAGCCGGCATCGACAACGGCCAGCAGATCCGCCTGGCCGGCCAAGGCGAAGCCGGCAAGAACGGTGGCCCATACGGGGACCTGTACATCGTCTTCCGGGTGCGGCCAAGCAAGGACTTCACCAGACGTGGCCAGACCATCTACACGACCGTGCCGATTTCCTTTGCCCAGGCAACCTTGGGTGACGAGATCAACGTCAAGACAGTTTACGGCGACACGAAACTGAAGATTCCGGCCGGCACCCAGCCAAACCAGAAGTTTACTTTAAAGGAAAAGGGTGTTCCGAGCCTGCGCGGCGGCAGCACTGGTGACCAGGTAACCACGGTTGAGATCGTGATTCCGAAGTCCATCAACGAGGCCCAGCGCAAGGCCCTGCTGGAATTCGTCAAGGCCAGCGGTGGCTCCATTGCCCCGCAGGAAAAAGGCTTCTTTGAACGCTTGAAGGAGAAGCTGAGCTAA
>SRR1919932_00535 translation elongation factor LepA
ATGGACTTAGAAAAATTAAAAGACTACCAAAAGCACATCCGCAATTTTTCAATCGTGGCCCACGTTGACCACGGCAAATCAACGATTGCCGACCGGATTCTGGAACTGACGGACACGGTTTCCAAGCGGCAGCTGAAAAATCAAATGCTGGATGACATGCCCCTTGAACGGCAGCGGGGGATCACCATCAAGATGAACTCGGTGCAGGTCAAGTACCACGCCAATGACGGGGAAGACTACATTTTCCACTTGATCGACACCCCCGGCCACGTCGACTTCTCCTATGAAGTTTCCCGGTCCCTGGCTGCCTGTGAAGGGGCTGTCCTGGTCGTTGACGCCTCCCAGGGTGTCCAGGCCCAGACCCTGTCCAACACTTACCTGGCTTTGGAAAACGACCTGGAAATCCTGCCTGTTTTAAACAAGATCGACCTGCCAAGCGCCGACCCGGACATGGCTAAGAGCGAAATCGGCGACATGCTGGGCTTAGACGCCAGCGACGCCGTGGAAGTTTCCGGCAAGACCGGGGCAGGGATTCCGGAACTTTTGGAAAGAATCGTGACCGACATCCCAGCGCCGACCGGGGACTTGACCAAGCCCCTCAAGGCCTTGATCTTTGACTCCAAGTATGATGACTACCGGGGGGTGGTCATGTCAGTCAGAATTGAAGAAGGCATGGTTAAGCCAGGCGACGAAATCATGATCATGAACACCGGCAAAAAGTATGAAGTAACCGAAGTCGGCGTTTCCAGCCCCCACCCGGTTAAAGAAGATATCTTGATTGCCGGGGACGTTGGCTATATTACTGCCAACATCAAGTCTGTCCGGGAAACCCGGGTCGGGGATACCATCACCAGCGCTGAAAACCCGACGGCAGAAGCTTTGCCAGGCTACCGGCAGATTCCGCCAATGGTCTACTCTGGTATGTATCCAACCGACAACCGGGACTATGACGACTTGAAGGAAGCCCTACAGAAATTACAGCTTAACGATGCGTCTCTGGAATTTGAGCCGGAAACTTCCCAGGCCCTGGGCTTTGGTTTCCGCTGCGGATTTTTGGGCCTTTTGCACATGGACGTCGTGCAAGAGCGCTTGGAGCAGGAATTTGACGTGGACCTCATCATGACCGCGCCGTCAGTTGACTACCACGCCATCATGCCGACTGGGGAGGTCAAGCTGATCGACAACCCGGCTGACCTGCCGGATGCCGGTGAATACAAGGAATTGCAAGAGCCTTACGTCAAGGCGGAAATCATGGCGCCAAACGACTTCGTCGGTGCTGTAATGCAGCTGTGTGAAGGCAAGCGGGGCGAGTTCCAGACCATGGACTACCTGGACAAGTACCGGGTCAACGTGATCTACGAAATGCCCCTGGCAGAAATCATTTACGATTTCTTTGACCAGCTCAAGTCTTCAACCAAGGGCTATGCTTCTTTGGACTATGAAATCATCGGCTATAAGGCCACCAACCTGGTCAAGATCGACATTCTCTTGAACAAGGAACCGATCGATGCCTTGAGCTTCATCGCCCACCGCGAAGAAGCCCGGGACCGGGCTGTCCAAATGTGCAGCCTGTTGAAGAAGCTGATCCCGCGGCAAAACTTCCAAGTCGACATCCAAGGAGCAATCGGGTCCAAGATCATTTCCCGGGCTACGATCAAGCCTTACCGAAAAGACGTTACCTGGAAGATCCACACCGGTGACCCGGACCGGCGGTCCAAGCTTCTGGAGAAGCAGAAGCGGGGCAAGAAGCGGATGAAGTCAGTTGGCCGGGTGGAAGTCCCGCAGGACGCCTTTATGGCAGTATTACGGATGAATGACGATGACATCAAAGGCAAGTAA
>SRR1919932_00536 sortase
ATGACATCAAAGGCAAGTAAAAATACAAAAGGCCACCCAGTCCGCCGGATTATTCTGCGCCTAGTTGCCGTAATCCTCTTTTTGCTGGGCCTGGCTTTGGTCTTTAACCAGCAGATCAGCGCGTTTTTGGTCAAGCAGAACCAGAACGCGGCTTTAAAGGGCCTGACCCGGGACCAGGTCGTGCAGAACCAGAAAAAGAAGGGGATGTATGACTTCAAGAAGGTCAAGTCAATTGACTTTGCCCAGACCACCCGCAGCCGGGTCAAGAACACAGCTGGCGCAATTGGGGCAATTTCCATCCCCAGCGTCAAGCTCTACCTGCCAGTTATGCAGGGCCTCTCAGACGCGGCTCTGTCAACAGGGGGCGGCACCATGCGGGCTGACCAGAAGATGGGCAAGGGGAACTACCCTTTGGCCGGCCACTACATGACCGACCAGTGGGCCCTTTTTTCACCCCTTGAAAGGGTCAAGCTGGGCAGCATGGTCTATTTGACTGATTTAAAGAAGGTCTATGCGTCTATGCATACAAGATCTACTACAAGAAGGTGGTTGACCCTAGCGCCGTTTGGCTGGTTGCCAACACCAAGAAGGAGATCGTGA
>SRR1919932_00537 single-stranded-DNA-specific exonuclease RecJ
ATGAAATGGCAAGAAAGAACAGCTGCTCCTTTGGCCAGTGACCTGGTTGAGGAATTTCAACTTAGCCCATTAACGGCTAAGTTGTTTTCTTTGCGGGGAATTGACAACGAGGAAAAAATCGACTATTGGCTCCACGCCAGTGAAAATGACCTGGCTGATCCCTTTTTGATGCATGACATGGACAAGGCAGTCGGCCGGATCAACCAGGCCCTGGACGAGGGCGAAAAGATCACTATTTACGGGGACTATGACGCTGACGGGATCACCGCCACGGCCATCATGACGGAAATACTGACCATCATGGGGGCTGATGTTCATTACTTCATTCCTGACCGCTTCAAGGACGGCTATGGGCCAAGTTTAGACCGCTACAAGGATATTGTGGCAGACGGGACGAAATTGATCATCACCGTTGACAATGGGGTAACCGGGATTGAAGAAGTGGCATATGCGCAGTCTCACGGCGTGGACGTGATCGTTACCGACCACCACACCTTCAAGGAGGAAAAGCCCGACGCTTATGCCCTGGTGCACTGCAACTACCCAGGCCAGGCTTATCCTTTTGACGACTATTGCGGGGCCGGGGTAGCTTATACTATTGCCCGGGCAGTCTTAGAAGACACGGCCAGCGAATTTTTGGAACTGGCCATGATCGGGACCATTGGGGACATGGTCAAAGTTTCCGGTGAAGGGCACGTTATCGTTAAGCGGGGCTTGGAGATGCTGAATGAAAGCTCCCGGCCGGGCCTGGAGGCTCTTATCCGCAATGCCGGCCTTACCCCGGGGATGATTGATGAAGAAGACGTCGGCTTTAGCATCGCTCCCCGTTTAAACGCCTGCGGCCGCCTGGCTGATGCCAGCCTGGCCGTAAGGCTGCTTTTGGCGGAAAGCCCGGGCGAGGCCCAGGAATTAGCCGATCAGATTGAAAAGCTGAACAATGAGCGAAAAGACCTGACCCAAGCGACCATGCAGGCGGCTGAGGCTCAAATTAAGAGCCGGGGCTACCAGAAAGAAGCGACATTGACCCTGTATGACCCGGCCTGGCATGAAGGGGTCATGGGCTTAGTCGCCAACAAGATCGTGGAAAAATACCACAAGCCAACCTTGATGCTGACGAAAAACGAGGCCGGCCTGGTCAAGGGGTCTGGCCGGTCCAGCCAGGGCTTCAACTTGTTCAATGCCTTGAAGCCTTTTGAAGGCAAGTCCATCACCCAGTTTGGCGGCCACGACTTTGCCTGCGGCCTGTCGACGACTGAGGAAAATCTGAACCAGCTCAGGCGCGACTTTAACCAAAGCTATAAGGCGGGGGAGAAGGCTCCGGAAAAGGTCCAGGAATATGATGGCACGATCAGTCCATTAGATGTTGATTTGACCAGCGTTTATGACCTGGCCCAGGCCGGGCCTTTTGGCACGGACAACCCCCAGCCGGTCTTTTTGCTTGACAAGCCGCAGATCTCTAACTTCCGCCCTATGCGGAAGGGCTGCAGCTTCATGGTGGGCCCGGTCAGGGCGGTGGACTTTGACCACGGCTTAAACCAAACTGTCCTGCCTTATTTGCAGCAGATGTTGGTTAAGCTTGCTTCTAACACTTTTAAAGGCAAAACCAATGTCCAGTTCCGGATTGTTGACCTGCATTACGGCCAGTCCTTGTACGCGCCATCCGCCCGGATTGTGGACTTTCGCGGGCAGGAGAATTTGCTGGGTTTTGCGGACAAGTATTTCTTATTTGATGAGAAAAATCTCAGCCAGGCCATGAATCATTTTGGCATAACTAAAGAGCAGATTTCTCTGGCCAAGGACAATGAAGACCTCAGCCAGCAGGTCGTGTCAGTTCTTGACGTGCCGGCCAATGAGGCCCAGCTGAACTTTGTCCTGGCCAAGCCTTACCGCCAGCTCTACCTGCGCTTTCAGTTGGACCAGCTGCCAGGGGAGACCCTGCCCAGCCGGGGCAACTTCGGCCTGGTCTGGCAGTACTTTTTAGCCCACCCGGGACTAAAACCGAATGATTACATGCAGGCTGCCGGCCAGCTGGGGATGGATCCGGACAGCATCATGTTTATTTTGAGGGTGTTTTTTACCCTTGATTTTGTTAAAATGGAAGAGGACAGATTGCTCCCTAAGCCGAGTCCGACAAAGAAGTCTTTGGACGATTCAGCCTATTACCGGTCAGTGAAAGCAGAATATGCCTTCGTTAACAAATTACGAACAATCTCTTCGAATGAATTAATTCGCTATGCCAGTGGTCTAGCAAATGGAGGATTACAAAATGTCAATTGA
>SRR1919932_00538 adenine phosphoribosyltransferase
ATGTCAATTGATTTTAAGAAGTACATTGCCAGCGTCAAGGACTTCCCGAATGAAGGAATCATCTTCCGGGACATTACCCCGATCCTGCAAGACGGTGAAGCCTTCGCGGCAGCTACTCACGAAATTGCTGAATACGCCAAGAGCCGGCAAGCTGACGTGATCGTCGGGCCGGAAGCCCGGGGCTTCCTGGTCGGGACTCCGGTAGCAATCGAACTGGGTATCGGCTTCGTGCCAGCCCGTAAGCCCCACAAGCTGCCACGGGAAGTAGAAGCTGCGGCTTACGACCTGGAATACGGGTCAAACGTCCTGGAAATGCACAAGGACGCGATCAAGCCTGGCCAAAGAGTAGTCATCTGCGACGACTTGATGGCTACGGCCGGCACCCTGCACGCCACTAAGGAATTGATTGAACGCCTGGGCGGGAAGGTTGTCGGGGCAGCCTTTTACATTGAACTGACCGACCTTAAGGGCAGAGAAAAGTTCCCGGACGTGGACATCTTCTCCCTGGTTAAATACAACGGCGCTTAA
>SRR1919932_00539 ArsR family transcriptional regulator
ATGACACACGAAGAACTGATCGACCAGGCGGCCCGCCTTTTCAAGGTCTTGGGTAACAGCCTGCGGATCCATATTCTCTTTTACCTGAGAAAACACGGCGAAAGCCCGGTTTCGGCAATCGTCGGCCACCTGGGTGTCTCTCAGCCGGTAATTTCCAAGCAGCTCGGTATTTTGAAAAAATACGATTTCGTGCAGAAACGCAAAGCAGGCACTTTTGTCTACTATTCAATCAACGACCAGGACATCGTGCAGATCATCGACGCGATGACCGAGCACCTGGACCACCTGGACCACCTGGACCGGCTGCAATAG
>SRR1919932_00540 cation transporter
ATGAAAGACCAAGCATCAAAAAGGTATTTGTGGGTGACTGTCTTCAATGTCATCATTACTGCCGCGGAAATTGCCGGCGGGATTATCTCCGGTTCCCTGGCCCTCTTGTCAGATGCTTTGCATAACTTGAGTGACGTTGTTTCCATCGTGGTTGCCTTTGCGGCTAATTTGATCGCCAAAAGAAGCAAGGACCAGCACAAGACCTTTGGCTACAAGCGGGCCGAAACCCTGGCTGCCTACACCAACGGCCTCTTCTTGCTGGCCATCAGCATCTATCTCTTTATTTCAGCCATTAAGCGTTTCAGCAAGCCTGAACCGATTGAAGGGGGCGTCATGTTCATCGTCTCCTTGATCGGCCTGGCCGGCAACTTGATCTCCATGCTGATCCTGGGCAAGGGGAGCAAGGAGAATTTGAATGCCCGGGCCCTCTTTTTGAATATGATGTCGGACACCTTGTCCAGCGTGGCTGTCGTGGTGGGGTCACTCTTGATTTACTACCAAAACTGGACCCTGGTGGACCCGGTCTTAACTATGGCCGCGGCAATTTTCCTCTTGAAAGAGGCTTTTGAAGTCACCAGGGACTCAGCTAACGTCTTGATGGAAGCTAACCCCGACCTAGACCTGGAAGCCATTGAAGAGGCTGGTTTGGCCTTTAAGGAGGTAAGACAGCTCCACCACCTGCATGTCTGGCGCTACAGTGATGACACCATCATGCTGGACGCCCACATTGTGGTTGACTCCGGTTTAACCGCCAAGCGGATTGAAGAGCTTGATGAAGAGATTGCTGCTTGTCTGAAGGAAAAGTTTGCCATCAACCACGTTACCCTGCAGGCAGAATGCAGCCGGGGCCTGGACGAGGACCTTTTGTCAACCAACAAGGAAAATTAA
>SRR1919932_00541 branched-chain amino acid aminotransferase
ATGGCAAAAAAAGATCTCGATTGGGCAAATATCGGCTTTGGCTATCATCAAACCGACAAGCGCTACGTGGACTATTTCCACGGCGGTGCCTGGGAAGGCGGCAAGCTGACCGACGACCCTAATGTCGTATTGAATGAATGTGCTGAAACCCTGCAATACGCCCAGCAAGTTTTTGAAGGGATGAAGGCCTACACCTGGAAGGACGGCTCTGTTGTTGTCTTTAGGCCAGACCAGAACGCGGAACGGATGTACAACTCCGCTAAGCGGATCGAAATGCAGCCTTATCCAAAGGACAAGTTCGTTGAAGCAATCGACCAAGTAGTCAAGGGCAATGTTGACTGGGTACCGCCATACGGTTCAGGCGCGACTCTTTACCTGCGTCCATACGAAATCGGCACTACACCAATCATCGGCGTTGCTCCGGCAACTGACTACATGTTCAGAATCTTTGCAACTCCAGTTGGCCCATACTACAAGGGCGGGGCTACTCCAGTTGCCGTTCAGGTTGCCCAATATGACCGGGCTGCACCTCGCGGGACTGGCAACGTTAAGGCCGCTTTGAACTATGCCATGAGTTTGAAGGCGACTGTCGCTGCCCACCAGGCAGGTTTTGCTGAAAATATGTACCTGGACCCAGCTACCCAAACTTACATTGAAGAAACGGGTGGCTCAAACATTATCTTCATCGACCAAAACAACCACTTGGTCGTTCCTAAGTCAAATTCAATTTTGCCATCAATCACTAGACGCTCCATTGTATACTTGGCTGAACACTACCTCAACTTGACGGTTGAAGAAAGACAAGTCCGCTTCGACGAAGTTCCATCCTTCAAGGAATGTGCTTTGGTCGGCACGGCTGCCGTATTGTCACCAGTTGGCCGCATCGTCAATGGCGACCAGGTCATCGACCTGCCATCAGGCATGGACAAGCCAGGCAAGTTCATGGAAGAACTTTACAACACTTTGACTGGCATCCAAAACGGGGAAGTCGAAGCCCCAGAAGGCTGGATCCACCACGTGATGTAA
>SRR1919932_00542 membrane protein
ATGAACAAATTTTGGAACCACATTGATCAGAAGTATTTTAAGATTGCCCTCTACTGTCTGGGCACGGTCTTTGCCGGTCTCTTCATCCTGCTTTTAGCCTATGAGTCAACTGGCTTCTGGGTCCGGGTAGGCAAGATTCTGGCAGCAATTGCCCAGCCTTTGACTTACGGCTTAGTTTTAACCTATCTCTTGCTGCCTTTGACCAACTTCTTTGACCGGAAGTTTTCCAAGGGCAGCAGCCGGGGGGCAGTGGCGACGGCCAGCCGGTCAGCCGCAGTGGCCTTGACCCTGCTCTTGCTCTTGCTGGTTATTTTACTGGCCGCGACAGCGGTTTTCGTGACCTTCTCCAAGCAGCTGAGCCATTTCAGCCTGGGCAGCTTAGAAAGCCTCTATGACCAACTGAAAGCCCAGTACAGCAGCTTTATCAACGAAATCTTAGCCTACCTGCAAAAGCAGGGCTGGTCGACCAGCGGCCTGGTCTCTTATATGCAAAAGGGGGTCGGCCGGGTAACTGGCTTTTTGAGCGACTTCTTCTTCGGGGTGATTTTTGCCATCTACTTCCTCTACGATGGCCAGCGGATCGCGGCATACTGGAAGAGAAACCTGGGCACCCTCTTAAACAAAAAGGTGATCAAGGGAATCAAGCTCTTCTTAGCAGACGCCGACCGGGCCTTCTCCGGCTACATCAGAGGGCAAATTATCGATGCTTTTATCGTTGGCCTTTTAGTTAGCCTGGCCATGCTGATTGCCAAGGTCCCATATGGCCTTTTGATCGGCTTGGTAACCGGGCTGGGTAACCTAATCCCATACTTTGGTCCGATTTTAGGCTATGGGATGGTTATCTTAGCCTGCACCCTCAGCCAGAATATGACAGCTTTGATCGTGGGGATGATTATTCTCCTCTTGATCCAGGCGATTGATGGCAATATTCTTAATCCTAAGCTTTTGTCTTCAGCCATTCACATCCACCCCCTGTACGTTATCGCCTGCGTGATTGCCGGCGGGGCCATGGGCGGCTTTGTGGGGATGCTGATTGCCGTCCCGATAGGGGCCTTGCTGAAAACGGAATTCGAGCGCTTGATTGCCTACCGGCAAAAGCAGCTGGAAAAGAGCAAAGAGGCAAGTGAAGAGTAA
>SRR1919932_00543 cation-transporting ATPase
ATGAAAGTAAAAGGCTTGACGCAGGCTGAAGCTGACCTGCGCTTAAAAAAAGACGGACTCAACCAGGTGCCGGAGCCGGAATTCAGCTTCTGGAAGGAATTTGCCGGCAAGCTTTGGAATCTCAGTGCCTGGATTCTGGAGGCGGCACTCCTCCTGGAATGTGCCCTAGGCAAGTGGATCCAGTCCCTCTTCGTTTTGCTTATGCTGCTCTTTGCCGCCTACAACGGGGCCACGCAGAAGAAGAAGTCCCGCAAGGTCCTGAGTTCAATTTCCCAGCAGCTGACCCCGGTTGTCGCTGTTTTAAGAGATGACCGCTGGCAAAAAATTGACTCCAAATACCTGGTAGTCGGCGATATCGTCAACCTGCAAAAAGGGGATATTTTGGCCGCCGACATTGACCTTTTGGACGGGAACTTGACCTTAGATGAATCCTCAATCACCGGGGAAGCCAAAAATGTCCATAAAAAAGCCGGAGCAACAGCTTTTGCGGGCACGACCGTCATGGACGGCGAGGCTCTAGGCAGAGTCAGCGCGACCGGGACCAATTCAAGAAGCGGGCAGACCATCAACTTGATCAACAGGTCCGCGGCACCTGGCCACCTGCAGCAGCTTTTGACCAAGATCATCTACTACCTCTGCCTCTTAGACGGGGTTTTGACCGTCATCCTCTTGATCGCGGCCGTAATCCGGGGTGAAAATATCTTGGAAATGCTGCCCTTCCTGGCCATGATGTTTATCGCTTCTATTCCAGTAGCTATGCCGTCAACTTTTGCCCTCTCCAATTCCTTTGAGGCCACCCGCCTGTCTAAAGAAGGAGTTTTGACCAGTGACTTAACCGGGATTCAAGACGCGGCCAACCTGAACCTGCTCTTACTGGACAAGACCGGGACCATTACTGAAAACAAGACGGCTGTCGCCTCTTTTGCTAATTTTTCAAAGCTCTCAGATGAAGAAGTCCTAGCCTTGACCAGCCTGGCCATCGACCAGCGCAACCAAAGCGTGATCGACCTGGCCTTAATGGACTTTCTGCAAGAGAAAAAGATACCAGTTAAAGAAGCAGAAGCCTTTACCCCCTTCACTTCCAGCCAGGGCTATTCTGAAGGCCGAGGAGAAGGCCACGACGTTAAGCTGGGTTCAGTCAAGCAGTTCAGTAAGATTGATCCGGCTATTTCTGAACAAATGGCAGCTGTCGACCTCAGTCTGGGCCGGTCAGTCGGGATTTTGCTCGACGACCGTTTGGCGGGTATTTTTATCACTAAAGACAAGGTCAGAGCTGATTCAAAAGCCGCCCTGGCCGAACTGGTCAAGCGGGGAATCAAGCCAGTCATGCTGACCGGGGACAACCAGAAAACCGCGGCCAGCGTGGCTGAAGAAGTCGGCTTGACTGGCAAGGTCATCTCGATCAGCGACTTTAAAGAGGGGGTAAAGGCGGAAGACCTGGCCGGGATCGCCGACGTTTTGCCGGAAGACAAGCTGGATATGGTCAAGTACTTCCAAAAGGCTGGCTATATCGTCGGCATGACCGGGGACGGGGTTAACGACTCCCCTGCCCTCAAGCAGGCCGAAGTCGGCATAGCTGTATCAAATGCCGCTGACGTGGCAAAAAAGAGCAGCAAGATGGTTCTTTTGGATGAGGGCCTTAGCCCTATCGTCAAGATCTTGGATGCCGGCCACCGGGTTTACCAGCGGATGAGGACCTGGTCTTTGACCAAACTAGCCAGAACGGCTGAACTGACCATGCTCTTGACCTTCTCTTATCTTATTTTCGGCTACCTGCCGATGGCCTTAAATGCCATGGTCATCTACACGATCATGAACAACATGGTCACCATGATGATCGGAACCGACAAGACTCACATCACTTACAAGCCGGAGAACTGGGACATGGGCAAGCTGGCTAAAATTGCCTTCTCCTTGGCCGGAGCCTGGACAATCATCGGTTTTGCCTTCGTCTCTGCCTTAACAAAGGCCGGAGTAAATCATGATCAAGTTGGGACCATGGTCTACGTCTTCTTAGTTATGAGCGCCATGATGATCGTCTTGATCACCCGGACCAAGCGCTTCTTCTGGCAGTCTGCCCCATCTAAGCCGGTAGCCAGTGTCCAGATCGCCGATATCCTTTTGACCTGCCTTTTAGCACTTTTGGGCATCGCCATGCCGGCCATCGGGATTAAGGAGCTCTTGACCCCTTTGGCCGTAGCCTTCCTGGCCGCCATTTTGATCGACCTGGTCTACCAGCCGGTCATGAAGAACAAGTAA
>SRR1919932_00544 LysR family transcriptional regulator
ATGAATTTCAAGCAGCTCAATTACTTTCTGGTCGTAGCCGAGGAAGGGCAGATTACTTCAGCCGCCAAGCGGCTCTTTGTCGGACAGCCAGCCCTCAGCTACCAATTAAAGCAATTAGAAGAGGAGCTAGGGGCTAAGCTCTTTATCCGTCAGCCTTATGGAATTGAACTGACCGAGGCTGGAAAAAAGCTGCGGGATTATGCTGGTCAGATTTTGACCTTAGCCAAAAACGTCCAAACCGAAATTACGGAGCTGGACCGGGGCGGGCGGGGAAGGGTTAAATTAGGTTCCGTCTCTTCTTCAATCGGCGAGCTTCCTTCCGCCAAATTGACGGCTTTTGCCCGCCAGCATCCCGGCGTCTCCTTTGACATCTACGAAGACAACACTTTCGGCATCCTGGACAAGCTGCAGGGCAACCTGCTGGACCTGGCCATCGTCCGCACCCCCTACAACCGGGTCAACTTGAACTTTGTCGACATCAGCGATGAGCCGATGACCGCAGTTACCTGCCAGGACTTTTTCCCTGGCAAGGAAAAAGTAGGGCTGCAGGCCCTGGCCGGCCAGCCCCTGGTCATCTACCGGCGCTTTGAGGACATGTTCAAGGAAGCCTTCGCGGAAAAAGGTCTCACCCCAAATTTTGTGGTTAAGTGCGATGATTCCAGAACCGCTATCCGCTGGAGCGACTCTGGCCTGGGGATTGCCCTGGTGCCGGAATCAATCGCCAAAACTTATGCCAAAGGCCACATCTACCCAATCGACTCGGCTAAGTGGCGGACCCGCCTGCAGCTGGTCTGGCGCAAAGACCGGGTGGTTACCCCCTTAATGCGGCAAATTATTGCCCTATATGCAAAATAA
>SRR1919932_00545 amino acid ABC transporter substrate-binding and permease protein
ATGAAGAAACTTATTAAAATTATGACCGCCCTCCTCCTCTTGGCCGGGCTCTTTACCGCGGCAATTCCAGCAGTTGATGCCGCCAGCAGCAAGAAAATGGCCAGCAGCACGGTCATGAAGAAGATCAAGAAGTCCGGCAAATTAGTTGTCGGCATGTCCGCTGACTACCCGCCATTGGAATTTACCAAGAACGTCAACGGCAGAAACAAGTATGTCGGCGTCGATGTTGAACTGGCCAAGCAGATCGCCAAGGACCTGGGAGTCAAGCTGGAAATCAAGAACATGGACTTTGACTCCCTCCTGGTTGCCCTGGAAACTGGCAAGATCGACGTGATCATTTCCGGGATGACCCCAACGGCCGAACGGAAAAAGAGCATTGACTTCTCCAAGATCTACTACGCTGAAAAGTCCGACTACTTTGTCATCAGCAAGACCAACAAGGCCAAGTATACCAGCACCGCCTCCTTTAAAGGCAAGACGGTTGGTGCCCAAACCGGTTCGCTTCAGTACACTTCCTTGAAGAAAAACGCTGCTAAGAGCGGGATCAAGGTCAAGGGGCTGGCAAAGATCAGCAACCTGCTCATGGCGCTTAAGTCCAGTAAGGTTGACGCTGTTTTATTAGGTGAACTGAACGCAAAGACTTACGTCACTAACGACACTTCCCTGTCTTTGGTCAAGTCCAGCCTCAGCCAGGCTCAGATGGGCAACGCTGTTGGGGTGGCCAAGGGGCAAGGCGACCTGGTCAAGGCCATCAACAAGACCATCAACAATTGCCAAAAGCAGGACCTGTTTAACAAGAAGTACATCCCGGCCGCTGCCAAGGCCATGAAGCAGGCCTCAAGCAAGACCAACAACTCCATGAGCAAGTACGCCAGCTACTTCGCGACTGGCCTGGGCTACACCATGATTATTACGATTTGCTCCATCACGATTGGTTTAGTCCTGGGTGTCATCTTCGCCTTGATGCGTCTGTCTAAGAACAAGCTTTTGCACGCCATTGCCGTTTGCTACATTGAGTTCCTCCGGGGCACTCCGCAGATGGTTCAGATTATGTTTGTCTACTTCGGGGTCGGGATGCTGATCAAAAATATGCCGGCCCTGGCCGCCGGGATCATCGCCATCGGTCTTAACTCCGGGGCTTACGTGGCTGAAGACATCCGGTCCGGGATCAATTCCGTGGCCAAGGGGCAAACGGAAGCTGCCCGGTCCCTGGGCCTCAGCCAGGCCAAGACCTACCGCTACGTAGTATTCCCGCAAGCCTTGAAGAATATCTGGCCAGCCCTGGGCAATGAATTCATTACCTTGACCAAGGACAGCTCCCTGGTCTCCGTCATCGGGGTCGGGGAATTGATGTACGAGACCGGCCTGGTCCAAACCGCGACCTACCGCGGGGTCATGCCGCTTTTTATCACCATGTGCATCTACTTCGTGGTCACCTTTATTTTGACCCGTCTGCTCAACTACTTTGAACGGCGGATGAACCTGACTTCAAGCCGGGCATAA
>SRR1919932_00546 amino acid ABC transporter ATP-binding protein
ATGAACAAGATCATCGAAGTTAAGCATCTGAAGAAGAATTACGGCGACAAGGAAGTTCTCAAGGACATCAATGCCGTCATCGAAAAAGGAAAAGTCATCACGGTTATTGGTCCATCCGGTTCAGGCAAGAGTACTTTTTTGCGCTGTCTGAACCTGCTGGAAAAGCCAACCAGCGGCCAGGTCATTTTTGAAGGAACGGAACTGACCGACCTTAAAGAAGAAGAGCTGGACCAACTCCGGCAGAAGATGGGCATGGTCTTCCAAAGCTTCAACCTCTTCCCTAACATGTCCGTCATTGAAAACGTCAAGCTGGCGCCGATGAAGGTCAAAGGGATGAGCGACCAGGAGGCCGGCGACCTGGCCCATGAACTTTTAGCAAAAGTTGGCCTGGATGACTTTGCTGACCACTCCCCGGCCAGCCTGTCCGGCGGCCAGCAGCAGCGGGTTGCTATCTCCCGGGCTTTAGCCATGCAGCCGGACATGATGCTTTTTGACGAACCGACCAGTGCCTTAGACCCGGAAATGGTCGGGGAAGTCTTAAAGACCATGCAGGATTTAGCCCAAACTGGGATGACCATGGTTGTGGTCACCCACGAAATGGGCTTCGCGCGAAAAGTCGCTGATGAGGTCTGGTTCATGGCTGACGGTTATCTTTTGGAACAGGGCAGCCCAGACCAGGTCTTTGACCACCCGCAAAGTGACCGGGCCAAGGACTTTTTGGCAAAAATTTTGGAAGCCTAG
>SRR1919932_00547 hypothetical protein
TTGCAAAAAAGAACAGATAAAGGGTCTGGCAGAAGGACCGGATTTCTCCAAAAGCTGGCTGCCCTCTTGATCGCCGTGGTCTTTCTGGCTGGCGGGATCATGATCGGCCAGCATCTGCCCAAGAAAAGCCGGGAGCAGGTAACGGTGGCCACGGTTTCCGCTAAATTGAAGGCTATTGGGGAGCTGGCGACTGAGCAGTACACCTATACTGGCATTTACAAACTATCTAACGGGCAGATTCCTTTTATCACCAAGAAGGGCTTCACTATGGTCTATACGGCCAACTTTAAAGCCGGGGTCAAGGTCAAGGACATCAAGGTCCAAGTCAATCAAGACCAGGTGACCGTGACTTTGCCGCAAAGCCAGCTGCTGGACAAGAAGATCGACCCGTCCTCAATCAAGTTCTATGACCAGAGCTATGCTCTTTTTAACTGGAACCAAAAAGAAGACATTACCAAGGCTGAGCAGGCGGCCTTAAAGAAGGCAACAGGCGTGGCCAAAAAGTCCGGCCTCTTGGCCCGGTCGCAAAAAAATGCCAAGAAACTGATCAGGCAGCTGCTCCAGGGGACCCTGGATGGCCGCAAGCTGGTCATCAAGACGGAAGAATAA
>SRR1919932_00548 enolase
ATGACCAAGGTTGTTATTGAAAACGTTCATGCTAGAGAAATCTTTGACTCACGTGGTAACCCAACTGTTGAAGTTGAAGTTACTTTGTCAAACGGTGTAGTTGGCCGCGCTGAAGTTCCATCTGGTGCTTCAACTGGTGAAAACGAAGCTGTTGAATTGCGTGACGGTGGCTCACGTTTGGGCGGCAAGGGTGTTATGAAGGCTGTTAACAATGTTAACACTGCCATCAACAACGAACTGCAAGGCGCAGACCCATTCAACCAACCAGCTATCGACAAGGCTATGATCGAACTTGACGGTACTCCAAACAAGGGTAAGTTGGGCGCTAACGCTATCTTGGGTACTTCAATGGCTACTGCTGTAGCAGCTGCTAAGGCTACCCACCAACCTCTTTACCGTTACCTTGGCGGTACTGACTTGTCAATGCCTCAAACTTTCCACAACGTTATCAACGGTGGTGAACACGCTGACAACGGCATCGACATCCAAGAATTCATGATCACTCCAGTTAAGAAGACTTCATTCCGTGACGGCTTCGAAAAGATCGTTAACACTTACCACACCTTGAAGAAGGTTTTGGAAGAAAAGGGTTACGAAACTGGCTTGGGTGACGAAGGTGGTTTCGCTCCTAACATGAAGGACTCAGAAGAAGCTTTGAAGGCTTTGCACGAAGCTATTGAACGTGCTGGTTACGTTCCTGGCGAAGACATTGCCATCGCTTGTGACTGTGCCGCTTCATACTACTACAACAAGGAAGACGGCAAGTACCACCTGGAAGGCAAGGTTCTTGACGGTGACCAATTGGCAGAATACTACGACAAGTTGCTCGCAGAATTCCCAGAATTGATCTCAATGGAAGACCCATACGACGAAAACGACACTGAAGGTATGGTTAAGTTCACTCAAAGCCACAAGGACCGTCTGCAAATCGTTCTTGACGACTTTATCTGCACCAACCCACGTTTGCTGGAAAAGGCCATCAAGGAAGGCGCAGGTAACGCTTCATTGATCAAGCTGAACCAAATCGGTACTGTAACTGAAACTTTGGAAACCATCCGGATTTCACGTAAGCACGGCTACAACACCATGATTTCTCACCGTTCAGGTGAAACTGGTGACACCTTCATCGCTGACTTCGCTGTTGCTACTAACGGCGGCCAACTGAAGACTGGTGCCCCAGCTCGTTCAGAACGTGTTGAAAAGTACAACCAATTGTTGAGAATCGAAGAACAACTCGGTGACGGCGAACGTCTCGACTTCTTCCCAGCTCAAGACTAA
>SRR1919932_00549 DegV family protein
ATGGAAAACGTGAGACTGATAGTTGATTCAAGCGCCAATACTTTGACCGACCCAAGCCGCGGCCTTGAGGTCGTGCCCTTGACTTTGACCATCGGCCAGGAAAATTGGCTGGATGACGAGCAGCTGGACATGGGCGCATTTTTGAACAAGATGGAGGCCAGCCAGGAGGCAGGCAAGACTGCCGCGCCAAGCATCCAGCGCTGGCTGGATAGTTTGGAGGGCTGCGAGAAGGCAGTGATCGTGACGATTACCAGCGGCTTGTCGGGGACCTACTCTTCCGCCTTGCAGGCCAGAGACATCTACTTAGAGACTCACCCGCATGCCCAGATCGTGGTCGTTGACTCCCGGTCAGCCGGTCCGGAACTGGAAGTAATCCTGGAAGGGATCGAAAGCATTCTTAAAGATGACAAGCTCCGCTTTGCTGACTTGGAAGCCAGAATTGCCGAGTACCGGACCAAGACTCACTTGCTTTTCGTCCTCCAGTCCCTGCGAAACCTGTCCTTAAACGGCCGGGTGTCGCCAGCCGTGGCCAAAATTGCGGGGATGCTGAAGATAAATTTAATCGGGACGGCCAGCGTTGACGGTGACTTGCAGCCTTTGACCAAGGCCAGAGGAATGAAGAAGGCCCTGCGGGAACTGGTCAAGCAGATGAAGGAAGAGAAGTACCAGGGCGGCCGGGTCGTGATTGACCACTGCGAAAATGAAGCTGATGCTGAAAAGCTGAAGGAACTGCTGCTAGCAGAATATCCGGATGCTGAGATTACCATCCGGCCAATGCAGGGCCTGTGCTCTTTCTACGCGGAAAGAGGGGGGCTCATGGTCGGCTTTCACAATTAA
>SRR1919932_00550 membrane-associated phospholipid phosphatase
TTGCAAGTCGACCTTATCTCACTGACAATCTCAGGGCTGGTCCTGCTGGTCTTGATCCTCAACATTCTCTATTCCCCGGCCTTCAACCGCCTGGACCGGAAGCTGCACAAGAAACTGGTGCGGACGCAGAAGAATATTTTTTGGAAGATCATCGCCTTCATCAACGAGCCCAAGCTGGTCATTGTCTGGGACGTCTTGATTGCCGGCCTGCTCTTAAACGAAGACAATTACCGGCTCGGCCTTTGGGTCCTGGCTACCTTAGGCGTGACCGATGCAGCCGGTTTTATCGTCAAGCACCTGGTCAAGCGGAGCCGCCCTCATGCCCACCTATCTGAAGAAGAAGGCTACAGCTTCCCCAGCGGCCATGTCTTAGGGGCAACGACCATGTGCCTGATCCTTTACGCCCTGCTCAGACGGGAATTTGATCAGTTATTTGCCGTAATTCTTTTGATCTACTGGCTCTTTGTGGTTATCTCCCGCCTTAACCTCCGGGCCCACTACCCGTCAGACGTCCTGGGAGCCGTGGCCTTGTCGGTCTTCTGTTTTACAGTCGTGCAGACAATCTATGCTGCCCTCTTTTTGAAGTAG
>SRR1919932_00551 hypothetical protein
ATGAGAACGAGAAAGAAAATTTGCGATATGAATGTGGCGGTGGTTGACCGGCAGAATCTGCCTGCCTTACTGGCTAGCGGGAAAATAGCTGCCCAGGCCGACGAGGACTACCAGATAAACCAGAAGACGGTCGCGGCCTACGACTTCCAGATGGACCTGCTTTTGGGCAAGTACCGGACGATCATTTATGACGCCGATGCCGGTTGGGTCTTGCTTAAAAAGAAGACATGCCGCCGGCTGGTCCATGAACTGAGAAAGAAGGAGCCGGCCCACGAACTGACTATTAAAAAGCAGCTCTGCCGGCAGATCGGAATGTCGGACCAGTATGTGCAGTCCTTTGGCTCACATGCCTATTTCTCTTTTTTCATCATGCGCCACAAGCCACTTGACCTGGTGGGCCTGCACCAGATGAAGCTGTTTGAGTGCCTTGACAATCACGGTCTTTTTCTGACTTTAGACCGGCAGTATTGCTTCAGTTTGGAGATGCCCAGACAATCTGGCCGGGGCCAGCAGATCCTGCAAGACTGCATTACCCACAACGCTGCCTTTTTGCACCTGGCAAGCGCCCGGGCAGCCAGCTGGGGCTGCCAGTTAAAGCCGGTCAGCCGCAAGTCTCTCTTAAACGACCCGGCTTATATTAGGGAAAGCCGGCTGGCAGAAATCAAGGCCATGGATCCCCGGCAGATTTTGGAAGAAGCAGAGGACAACTACTTAAACTATTGCTCAGAGGAATTTTTGAAGGAATTCCGGGCCTGGAACTGGGGCAAGCAGGACATGCGGCAGCTGATCAACTACTGCAACAAGTCCTTTAATGAAATCAAATAA
>SRR1919932_00552 LysR family transcriptional regulator
GTGAGAATCGAACACCTAGAGATCTTTGTAAACGCCGCGCAGACGCAGAGCTTTACCAAGACTGCACAAAATATGAACATGTCCCAGCCAGCGGTTTCCCTGGCCATATCCTCAATCGAGAAGCAACTGGGCTACCAGCTGTTCAGCCGCTCCCGCCGCAAGATGCTGCTGACCCCGGCCGGCCGGTCTTTGTACAACAGCATCAAGAGCGAATTGAACGACTACCGGAACGCCGTTTCCAAGGCCAAGCGGATCGCCATGTCAGAAGGACAAATCACCTTGAAGGTCGGCTTAATCGGAATTCTAGCCGAACAGCTGATGCTTCCTGGCTTGATCCGCCAGTTCCGCAGGAGCCGCGACACCGTCAACATCGAATTCTTCGTTGAAAGCAGCCCGGTTCTCTTTGAGAAGCTGGCCTCCCACGAGCTTGACCTGGTCTTGTCAACTCCGGAAGCCATGCCGAAATTCCCGGACTTCACCGCCTACACGATCGGCAAGTTGAAGTGGTGCACCCTGGTGCCAAATGACCACCCTCTGGCTGAAAAGGACCTGCTTTCAGAAAAGGACCTGGACGGCAAGGACCTGGTCTTCCTGGACCTTTCTTGTTCATCACCGCTGATTACCTTGATGCAGGACCGGATTGAAAAGAACTGCAAGCAAAGCCGGATCTTCTTTGCCAACAATGTCGTGGCGCAAACTATGATGGTTTACACCCAGCAGGGCCTGGCTATCCAGCCGTACACCGGCCCGCTTGATGACGACAATTGCGAAGTCAACGGCCTAAAGCGGGTTCCCCTGGACGTCAAGGTCAGCTCAGACCTGACCCTCTTCACTTGCAAGGACGTCCTTAACGAACACGTCCTGGACTTGATGAACTGGCTCAAGGCACAAAAGCTGGGCTAA
>SRR1919932_00553 multidrug ABC transporter ATP-binding and permease protein
ATGAAATACGTCTTTAGCTACCTCAAAGACTATAAAAAAGAAAGCGTTCTGGCCCCGCTTTTCAAGCTGCTAGAAGCCCTGTTTGACCTGTTCGTTCCCCTGGTCGTGGCCAGGATTATCGATTACGGGATCAAAGAAAGAAACCAGGCCTATGTTTTCCAGCAGGTTGGCCTCTTGGCCCTTTTGGCCCTTTTAGGGATCACGGCCAGCATTACTGCCCAGTGGTTTGCCGCCAAGGCCAGCGTGGGCCTGGCCAGCCAGCTGCGGCAGGCGGCTTTTGACAAGGTGGAAAAGTTCAGTTTTGCCAATCTGGATCAGCTGCCGCCCAGCACCTTGATCACCCGCTTGACCAGTGATATCAACCAGGTGCAGACCGGCTTCAACATGGCTTTGCGCCTCTTATTAAGAAGTCCTTTTATCGTCTTTGGGTCAATGATCGCGGCCTTTACGGTCAATGTTAAAGCGGCCTTGATCTTTGCCGTAGTGATTCCGCTTTTGGCCCTGGTCGTTTTTGGCATCATGCTGGTCAGCATCCCCCTTTACCGGAAGGTGCAGAAGCGGCTGGATGAAATTACCCGCCTGAGCAATGAAAACCTGGCCGGGGTCCGGGTCATCCGGGCCTTCAGAAAAGAAAGAGCCGCCGTGGCCAAATTTGATAAAAAAGTTTCCGCCATGACCAAGCTGAACGAGTTCGTCGGCCGCCTGTCAGCCGCCATGAACCCGGTGACTTATGTCATGATCAACATCGCGGCCATTGTCTTGATTCAAGTTGGCGCCGTCCAGGTAAATACCGGAGCAATGGCTCAAGGACAAGTGGTGGCTCTTTACAACTACCTGGCCCAAATGATCGTGGAACTGATTAAGCTGGCCAGCCTGATTATCACCATCAACCGGGCCTGGGCCTGCGGAGACCGGGTTGGCCAGGTTCTGGCCACGGAAAATGACTTGACTTATCCTGAAGCAGGTCCAAAGGTCACAAACAGCCAGGTTGACTTTAAAAATGTTTCCTTTACCTATCCGGCAGCCTCCGCGCCGGCCGTTTCAAACTTGACCTTTACGATTAAGCCGGCCGCGACCGTCGGCATTATCGGGGGGACGGGCAGCGGCAAGAGCACCCTCTTGAATCTGTTGACCCGCTTTTATGACTGCGGGGAAGGGGAGATCAAACTGGGCGGCGTTTCCATAAAGGAACTGACCCAAGAGGAACTATTGGACCAGTATGCCCTGGTGCCGCAAAAGGCCCAGCTTTTTGCCGGCAGCATCCGGGACAACCTGTTGATGGGCAGGCTGGAGGCCAGTGATAAAGAACTCTGGCAGGCCCTCAGCCTGGCCCAGGCGAAAGACGTAGTCTTGGCTAAGCCCGGCCAGCTGGACTTTCAGCTCGAGCAGGAAGGCAGAAACCTTTCCGGCGGGCAAAAGCAGCGTTTGACCATCGCCCGGGCCCTGGTCAAGCAGGCTCCGCTTTTGATTTTAGATGACAGCGACAGCGCCCTGGACCTGGCAACGGGGGCGCGTCTGCGGCAGGCTCTGGCCAGCTTGAAGGACATAACTAAGATTCTGGTTTCCCAGCGGGCTTCCAGCATCATGCAGGCTGACCAGATTCTGGTCTTAGACGATGGCAAACTGGTGGCTAGCGGCAAGCACGAAGAGCTTTTGGCCAACTGCCAGGTCTACCAGGAAATCTATTATTCCCAGTTCCCGAAGGAAAAAGAAGCAAAAGAATATAAGGAGGGGAGCCGATGA
>SRR1919932_00554 multidrug ABC transporter ATP-binding and permease protein
ATGAAAAAGCAAGACAAGAAAATGGCCAGCTGGCAGGCGATGAAGCAGCTTTTGCCAATTATCGGCCGCTACCGCCTTCTTTTATTCATCAGCATAATTCTGGCGGCAGTCTCCGTTATCTCCCAGCTTTATGTGCCGATCATCTTTGGCCGGGCCATTGACCAGATTGTCGGCCCTGGCAAAGTTAACTTTCCAGCTATTGGCCAGGACCTGGTCCAGATTTTAATCTTGGTGATTGTCTCAGCCGCCGCCACCTGGCTGATGGGCCTGATCAACAATAAACTGACCTACCGGACCGTCCAGGATATCCGGGAAAAGGCCATCCGGCAGCTGCAGCTTTTGCCCTTGTCATATCTGGACCAGCACCCAAGCGGGGACATTGTTTCCAGAATCATTGCCGACACCGACCAGCTCTCTGACGGCCTGCTCCTAGGCTTTTCCCAGCTTTTCTCCGGCTTGATCACTATTGTGGCTACCCTAGCCTTCATGCTCAGCCAGTCGGTGGAAATTACCCTCCTGGTTTTGGTCTTGACTCCTTTGAGTTTCATCGTGGCCCGCTTTATTGCCAGCCGGTCCTACCAGATGTTCAGAAAGCAGAGCCAGACTCGGGGCGAGCAGACCAGCTTGATTGAGGAAATGGTGAGCGGGGTCAAGGTGGTTAAGGCTTTTGGTTATGAAAAAACCGCCTCAAGCCGCTTCGCTGAAATAAACCACCGCCTGCAAGAATACAGCCAGCAGGCGACCTTTTATTCCAGCCTGACCAACCCGGCCACCCGCTTTATCAATTCCCTGATTTATGCCCTGGTCGCCTTGGCGGGTGCTTTTGCCATCATGGGCGGGCGTCTTACGGTTGGGGGGCTCAGCATTTTGCTGAATTACTCTAACCAGTACATGAAGCCGTTTAACGACATCAGCTCGGTGATTACTGAGCTGCAAAACGCGGCTGCCTGCGCCGGCCGGGTCTTTGAACTGATCAATGAAGAGCCGGAAGCTGATCCGGTTGACTTGAACAAGGCTGATGGCAATTTGCCTGAAGTCAAGACCGGTTCAGTCGTCTTTGACCATGTCAACTTCTCCTACCAGGCGGACAAGCCTCTGATCAAGGACTTCAACTTGACTGCCAAGCCGGGGATGCGGGTTGCCCTGGTCGGGCCGACCGGCTGCGGGAAGACGACCACCATCAACCTGCTCATGCGCTTTTATGACGTGGATTCCGGCGGAATCTACTTAGGCGGTAGAAATATCAAGGACATGTCCCGCCATGCCTTAAGAAAAAATTTCGGCATGGTCTTGCAGGACACTTGGCTGGAAGAGGGGACAGTCCGGGATAACCTGGCTTACGGCAAGGAAGATGCTACTGACGAGGAAATCATCGCAGCGGCTAAAGCTGCCCACAGCTGGGGCTTTATCCGCCGCCTGCCCCAGGGCCTGGACACGCCCCTTTCCGCTGACAGCTTAAGCGCCGGGCAAAAGCAGCTGCTCTGTATCACCAGGGTCATGCTGCTGGACCCGCCAATGCTGATTTTGGATGAAGCAACCAGCTCTATCGACACCCGGACAGAAATGCTGATTCAAGCTGCTTTTGACAAGTTGATGCAGGGCCGGACCAGCTTTGTCGTGGCCCACCGTTTGTCCACGGTCGTTAATGCTGACTTGATCCTGGTGATGAAGGATGGGCAGATTATTGAACGCGGCAAGCACGCTGACCTTTTGGCCCGGGGCGGCTTTTACAGCCAGCTTTACCGCAGCCAGTTCGCGAAATTGCCATCATAA
>SRR1919932_00555 hypothetical protein
ATGATTGAAAAAGATGATCTGACAAATTTCTTGCGAAAGTCTTTTACTTATATCCGGGAGCCCTTCCTGGTTCTGGAAGTCAAGGATAATAAAACGGCCATCGTCTATGCCAATAAGAAGCTGCTGGATTTGTTTGCCTGCAAAAATATGGCTGAACTGACTGATTTTGCCTGGGAAAAGCTCTTCCCGCTGACTACAGGTCTAAGCGGTGATCATGCCGAATTTGAACACATGACAGTTGCAGATGCCAAGGGGCAAGAGCACCTGCTTAATGCTGAGGTTCGCAAGGCTGAAGTTGCTGGCTGGAAATCAGCAATCTGTTGGCTAAAGAAGAGTGCCAGGCTGAAAGTGACAAATTGGTTCAGCAATTATCAGCTATTAAGGAAATTGATGGCTTTAGCTGCCAGCTAA
>SRR1919932_00556 hypothetical protein
ATGCCGATCGCTGGTCTCGCCCAAGGCAGCGAAGTAGCCAGCGGCCAGGAGGCGATCAACCTGGCCACCCGCCGCAGCAAGAGTCGTGCAGGTAAAATAGGTACTTTTAAGGCCTTTGATGAATATCTGGACTTGCCATTGCCGATGGTGGTCAATAAGCCCCTGCTCAATGCTCATGGCGATAAGGTGATCGATACGATAAATGTCTTTGCCAATGAACGATACTGCGAGTTAGCCGGTGTCAACAAGGGGCAGCTTTTTGGCGAACGATACAAGGATTATTTCATTAGCGATGAGGGCTGGATGACGACCAGCCTGCAAGCCTTGAAGGGGCATGCTATCACTGGTCAGTGCTACCACCGGGGCCTGCGCAGCTGGGTCAATTACTATACCAAGGCCTCGACCATGCCAAACTGCGTGGTGACGGTCTTTGCCCTGGATGAAGGCGGTGAGTCGGAATTCAAGCGGATCGCAGCAACTGACGCGGAATTTTCGAGGTCAACCAGCAGCTCCTAA
>SRR1919932_00557 hypothetical protein
ATGACCGGAGATACTTCAGCTCGAGAGGCTGACTTTGCTGAACAAGGGGATTTCTGCGCCAAGAATGATATTGACCGCATCCTGCTGGTTCCGGTTAAGAATGACTTTGGTGAGATCCAAGCCTATTTGCTTCTGACTAATGTCTATGACAAGGGCGAAATTAATCCGGTCAGCCTCCTGCAGCACCTGGCGCCTGTCTTTAGCAAGAAGCTGCGGGACGCGGCTCTCAGGATTAAGCAAGATTAA
>SRR1919932_00558 YitT family membrane protein
ATGAACAAGCCAAAATTCAAATGGACCACTAGTGACACGATCGATATCCTGATGATTGCCCTGGGCTCGGCCATCTACGCCTTCAGCGTGGACATGGTGTCGATTCCCAACAAGCTGGCCGACGGGGGATTGTCGGGTTTCACCCTGATCATCCGCCACTTCTGGGGGGTCAACCCCGGTCTCAGCACCTTCATCATCAACATTCCCTTGATCTTTCTAGGCTTTAAATATGTGGGCAAGCGGGCCATGATTTATACCGTCTGGGGAACCCTTTGCCTGTCCTTCTTCTTAAGCATGTGGACCCTGCAGTCTATTATAGACCAAGTTCCCCTCCATCACGACCCCTTCCTGGCTACTGTCACGGCCGGCTGCTTGTCGGGGCTGGGACTGGGACTGGTCTTCCGCTTTAACGGGACCACCGGGGGCAGCGATATTGCCGCCCGGGTCTTGCAGGAAAAATACGGGATCACGCCCAGCAAGGGCCTTCTGGCCCTGGACTTCTTAGCCCTGGCCTGCTCCCTGTCTTACCTGGACTTCTTCCATGTCGGCTACACCATGGTCTCCTGCTTCATTTTATCCAAGGTCATGGCCCTGGTTACTGAAGGCGGGACCCAGGCCAAGGGGGCCTTTATCATTTCCCAGAACTACCGGAATATCGCCAAGCTGATTGACCTGCGCTTAGAGCGGGGCTTCACCTACATTAACGCTGAAGGCGGCTATTCCAACGAACCCCGTCACATGATCTACCTGGTCCTGTCGCCAAGGGAAATCCCGGAATTAAAGAAAATCGTCAAGCAAGAAGACCCGCAGGCCTTCATCATCTTCTTTGACGTCAACGAAGCTTTGGGCGAAGGCTTCAGCTACAAGACTAAGTCGCCAAGCTTATTTATCAGAAAGTAA
>SRR1919932_00559 tRNA CCA-pyrophosphorylase
ATGACTAATATTCGTATAACGGAAGTTTTTACCCAGGCCATGCCGGTCCTGGAAAAGTTGGAAGAAGCAGGCTTTGAAGCTTACTTCGTCGGCGGCTGCGTCCGCGACCTGCTCTTAGAGCGGCCGATTCATGACGTGGATATCGCGACCAGTGCCTACCCGGAAGAAGTCAAGGAGACTTTTGCCAAAAGTATCGACACTGGCATCCAGCACGGGACAGTGACCGTCCTTTATGGGGGATCCAGCTACGAAATCACGACTTTCAGAACGGAATCCGGCTACCAGGACTTCCGCCGGCCAGACAAGGTCACCTTCGTGCAGAACCTGGACGAGGACTTAAAGCGGCGGGACTTTACTATCAATGCCCTGGCCATGAACCGGCAAGGGGAGATCATTGACCTTTTTGACGGTTTAGGCGACTTGAAGCGGCGGGTGATCAAAGCTGTTGGCGTGGCTGAAGACCGCTTTCATGAGGATGCCTTGCGGATGATGCGGGCAGTCCGCTTCATGAGCCAGCTCTCTTTCAGCCTGGAAGAAAAGACCAGGCAGGCTATTATCGACAACCACGAGCTTTTAAGCAAGATTTCCGTGGAAAGAATCAGGGAAGAATTTGTCAAGCTGGCCCTGGGCAAGAACAGCCGGCAGGCTTTTAAGGACTTTTTGGCCACCGGCTTAAGCGAGGAATGCCCGGGTCTGGCCGGGAAAAAGGACCAGCTCTCTGTCTTCACTGACCTTAAGGCTGGTCCGGATGACGAAGCAGTCTTTTGGAGCTTGATCGCCGTTTTAATCAACCTGCCGGCTGACAAGATTTCGCCTTTCATGCGGGCCTGGAAGAACTCCAATGCAATGAACCAGCAAGTCAGACAGATCGTGGCCGCCTTTGACCTCTTGAGCCGGGGGGAAGAGAGCGATTTTGACCTCTTTGAAATCGGCCAGGAGAACCTGGAGGCGGCTTTAAAGCTAGCGGGGCTTTTGGGCCAGCCTCTATCCAGCCAGATCCTGTTAGACCGCTATAACCGTCTGCCAATCAAGGCGGCAGGGGAGCTGGCCATTGACGGCCAGTGGCTGATTAAGCAGGGGATTAAGCCTTCACCGGAACTGGGCCAGCTTTTGCGCAAAGCCCTTGAGGGCGTGGTCAGCGGCCAGGTAGAGAATAGCCAGGCGGCAATCGCGGAATTTTTGGCAATCTAA
>SRR1919932_00560 hemolysin III
ATGGCTTTCAATCCTTGGCAGCCGGTCAAAGACCGGCCCAAATCTTACTATATCATTGACAATGTTCTCTCATCCGTCGTGCACGGGATCGGCTTCGGCCTCTCAATCGCCGGCCTGGTTATTTTGGTGGTCCGGGCCGCCCACAGCCACAGCGCCCTCAGAGTGACAACTTTTGCCATCTACGGGGCTTGCATGATCCTGCTTTACCTCTTCTCGACCCTCTACCACAGCCTGGTCTTTACCAAGGCGAACAAGGTCTTCCAGATCTTCGACCACTCTTCAATCTTTATCGCGATTGCCGGCTCTTATACCCCTTATACCCTGGTCACGATCGGCGGGGCTAAAGGCTGGGTCATGTTCGGCATCATCTGGGCCCTGACGGTCTTTGGGATCCTCTATTATATCTTCAACCAGGGCAAACACGTTATCGGCGACACCATCCTTTATATCGCCATGGGCTGGATGGTGATCCTGGCCGGCAGCCAGCTTTATTTCAGCCTGGGGCCGACCGGCTTCTGGCTTTTAGTCTCAGGCGGGATTGCCTACACCTTCGGCTGCCTCTTCTTCTCTATGCGGGGCCTGCCATATAGCCACGTCATCTGGCACTTCTTCGTTTTGCTGGGCTCCATCTTGATTTTCTTTTCAGTTTTATTTTATGTATAA
>SRR1919932_00561 DegV family protein
TTGTCTAAGATCAAGATCATGACGGATTCCTCAGTACAGCTGAGTCCGAAAGAAATTGAAAAATACGGTATTACGGTGGTGCCCCTGTCGCTGACAATCGACGGACATACCTACACGGATGGCGTTGACATTACCCGGGCCAACTTTATCCAAAAGATGGATGAGGCAGAGAAGCTGCCCAAGACCAGCCAGCCCCCGGTCGGCCTGTTCGTGGAGAGAATGGAGGAACTGACGGCTGACGGCAGTGAAGTCCTGGGGATTTTCATGGCCAAGACCCTGTCGGGGACGGTTGATTCCGCCCGCCAGGCCGCTGAAATGGTAGCCGGCAAGATCACGGTCATCGACTGCGGCTATACTGACCGCTCTCAAGGCTACTACTGCATTGAGGCGGCCAAGGACGCGGAAGCGGGCAAGGAAATGGATGAAATCCTGGCTCACCTGGACCAGATCGGCAAGAATATGTACCTGGAAATGATGGTGCCCAACCTGCAGAACATTTTAGCCGGCGGCCGTTTGGGCAAGTGGGCCGGCCGGGTGGTTTCAGCTTTGAACTTCCACGTCGGCCTAACCATGAAAGAGGGCAGCTTGAATGTCCCTTACCGGGGCCGGGGGAAGAAATTCATCAAGAAGTTTGACGACATGCTTGTCGACCAGTTGAAAGAACTGGGCGACAAGGTCAAGTATGTCGGCATCTCCTATGTCGACACCAGAGACAAGATGGAAGAGCTCGCCCAGCGCTTCAAGGAGGTCAACCCGGACCTGGAGATCCTGGTCCAGGAAACCAGCCCGATCATCATCACCCACGCCGGCCATGGGGCCTACGCGGTCATGTTTTATACGGAGTAA
>SRR1919932_00562 hypothetical protein
ATGGTCTACCGACAAAGTTTTTACCAGTTTTTGATGACTTTGCGCGATCCGGATTCAAATGGCGACCTGGCCCAGTTTGCCAACAACGCCCAGTTTGATTCTACCTTTCCCAGACAGGAACAGGACCGGACCAGGCTGTCAGAATATCTGGAGGAAAATGCCGCTTACCTACCCAGCATGACGATTTTTGACGATGCTTACCAGGCTTATGAAGAGAAAATGCAGTACTAG
>SRR1919932_00563 ribosome biogenesis GTPase A
ATGACTAAAATTCAATGGTATCCAGGCCACATGAACAAGGCTAGGAATCAGCTGGAAGAAAAATTAAACTTAATTGACGTTGTTATTGAAGTTTTGGACGCCCGGATTCCCAGCGCTTCCAGAAACCCGATGATCAGTGAACTGGTCGGCGACAAGCCCCACCTGATCGTTTTAAACAAGACCGACCTGGCTGACCCGGTGATGACCAAGCTCTGGCAAAAGAAATTGCAGGGCCCGCGCACCTTGGTCATGGCTATGGATGCCCAGCACAACACTAATATGCAGGCCTTGATCACCTTGATCAAGAAGGCAGCCAGCGAAAAGGTCAAGAAGCTGGAAGAGAGAGGGGCCTCCAACCCGATCATCCGCATCTGCCTAGTTGGCGTGCCTAACTGCGGCAAGTCCACTATCATCAACCGCCTGGTTGGCCGCAATGTCACCATGACCGGGGACCGGCCGGGGGTAACCAAGGGCCAGGCCTGGCTGAAGACCCCATATGGCATCCAGATCCTGGACACGCCGGGGATTCTCTGGCCAAAGTTTGAAGACCAGGACGTAGGCTACAAGCTGGCTGCTTTTGGGGCCATCAAGGACACAATTTTCCACGCTGACGACGTTGCCCTTTTTGTCATCCGGCAGCTGCGGCAGTACTACCCGGCTTATCTGGCCAAGTTCGCCAACTGCACTAAGGACAAGCTGGAAAATATCGGCGACACTGACCTGCTTTTGGCCATGACTCAAAACAACGGGATGCGGGACGACTATGACCGTTTCTCCCTCTTCATGCTGCAGCGGTTAAGAAAGGGCAAGCTGGGCAGGATCAGCCTGGACCGGCCAAGCGCGAATAATGAAAATTAA
>SRR1919932_00564 ribonuclease HII
ATGAAAATTAATGAAATTAAAGACCTGCTGCAAGCGGATTCTATCGACCCAGCTATTCTGGCGGAATTAGCCAAAGACGACCGCAAGGGGGTCCAGAAGCTGCTGGTCAGCTACCAGCGCCGGCAGGAAAAGCTGGCTAAGCAAAAGGAAGAATTCTTGGGCCGCTTCAGTTACGAGAAGGATTTTTGGGCTAAAGGGCAGCTCGTAGCCGGAGTCGATGAAGTCGGCCGGGGTCCTTTGGCTGGCCCGGTTGTAGCGGCTGCCGTCATTTTGCCGGAAGATTTTTCCTTACTGGAAGTCAACGACTCAAAGAAACTGAGTCCGCAAAAGCGCCTGGCCCTGTATCCCAAGATCCTGCAAGAGGCTGTTGCTGTCGGCGTCGGGGTCATGGACAACAAAGTGATTGACCAGATCAATATTTACGAGGCTGACCGCCTGGCCATGAAGCAGGCCGTGGAAGCTTTGAGCACCAGGCCAGATGCTTTGCTGGTCGATGCCATGAACGTGCCGGTGGACTTGCCCCAGCTAGAATTGATCAAGGGGGATGCTAAGTCTAACTCGATTGCCGCGGCCTCGATTGTGGCCAAGGTTTTCAGAGACTCTTTGATGGACGATTACGCCCGTCTTTATCCAGACTATGCCTTTGACCATAATGCCGGCTATGGAACCAAGGACCACCTGGAAGCATTAAGAAAATACGGCCCAACGCCGATTCACCGCCTGACCTTCAGTCCGGTGAGCGAGATGGTTGGACTTAAAAAGGCTGACTAG
>SRR1919932_00565 DNA processing protein
ATGAATAAAACCGAATTCTTACTGCGCCTGAAGCTGCAGAAGGGCCTCAGCTATCTCAAAATATTGCAGGTCATGCAGCAGATGCCCCCGGATGAGGACGTAGACCATGAATGGCTGAACTGCCTGGAACTGCCTGATGAAATCCTCTACCGGGTGGAGCGGGCCTTTTTAAGTGACCGCTACGAAAGTGCCATTGAAAACTTGCAAAGGAATTTCAAAATAATTAGTTTCTTTGACGATGCTTATCCAGTACGGTTAAGAGAAATTTATCGGCCGCCGATTTTGCTTTTTGCCAAGGGGGACTTGTCCCTTTTGGAAAAAGAGGTGACGGTGATCGTGGGGTCAAGAACGCCAAGTCAATATTCCGGCAAGGTGATTGAGAACCTCATGCCGGTTTTGCTAAAGAAAAAACAGGTGATCGCCAGTGGCCTGGCTAAGGGCGTTGATGCCCTGGCCCACCAGAATGCCTTGAATTTTGGCGGCAAGACCATCGCGGTTGTGGCTAATGGCCTGAACTATTTTTACCCCCGGGAAAATACGCTCTTGCAGCAGCAAATTGCCGCCCGGGGTCTCCTACTTAGCGAATACCTGCCCGACACGCCGCCAAGGCCCTTCCGCTTTCCAGAGCGCAACCGGATTTTGGCCGGGATTTGCAAGAACGTGATCGTGACTGAAGCCAAAGCCCATTCCGGTTCGTTGATTACGGCCAATTTGGCCCTGCAGGAAAACCGAAACGTATTTGCCGTCCCGGGTGCAATCACCAGCCCCTTGTCGGCCGGCACCAACCAGCTGATTTCAGCCGGGGCAACCCCGGTTATCGACAAGGAAATTGACCTGTGA
>SRR1919932_00566 L-lactate dehydrogenase
ATGAGTAGAAAAGTCCTGCTGGTTGGCGACGGTGCTGTCGGTTCCAACTTTGCCAACGATTTATTGCAAACAACGCGGGTGGATGAACTGGTCATCTGCGACTTGAATAAAGACCGGGCCGCGGGCGACTGCCTGGACCTGGAAGACCTGACCTACTTTACGGGCCAGACCAAGCTGAGAGCTGGTGACTACAGCGACGCGGCTGACGCCGACGTGGTAGTTATCACGGCCGGCGTGCCCCGCAAGCCAGGTGAAAGCCGGCTTGACTTGATCAAGAAGAATGAAGCCATCTTGCGGAGCATCATTGATCCAGTCGTAGCTTCCGGCTTCAGCGGCATCTTCGTCGTTTCCGCCAACCCGGTTGACATCTTGACCACTTTGACCCAGAAGCTGTCCGGCTTCCCAAAGAAGCGGGTCATCGGGACCGGGACTTCCCTGGACTCAGCTCGTTTGCGGGTAGAACTGGCCAAGCGGCTGCAAGTGCCAATTGAATCAGTCAACGCCTGGGTTCTGGGTGAACATGGCGACAGCAGCTTTGAGAACTTCTCAAGTGCCGTGGTCAACGGCAAGCCCTTGCTTGACTATCCGGGCATGACAGAAGCAGCCTTGGATGAGATTGAAGCCCACGTCCGGGAAAAGGGCGGCGAGATTATCGGCAAAAAGGGCGCGACCTACTATGGCGTGGCCATGATGCTGGCCAAGATCGTGGCGGCTATTTTGGAAAACAACGACCTGGCCCTGCCTCTTTCCGCGCCGTTGCACGGGGAATACGGGATCAAGGATGAGATCTACCTGGGCACCCTGGCCATCATCAACGGACAAGGGATCAGCCACGTACTGGAATTGCCGTTAAATGACAGCGAATTGGCCAAGATGCAGGCCTCAGCCGCGACGATGAAGGCAACCCTGGACTCTTTAGGATAA
>SRR1919932_00567 glucokinase
TTGAAGAAATATGCATTTGGTGTTGACATCGGTGGTACCACTGTAAAGATTGGTTTGTTTGAAACCAACGGTGAATTGTCCCAAAAGTGGGAAATCCCAACCAGAAAAGAAGGCAACGGGGCTAAGATCCTGCCTGACATCGCAGCTTCTCTGAACGACAAGCTGAAGGAACTGGACATTCCCAAGGAAGAAGTAGTCGGGATCGGCATCGACGTGCCAGGTCCAATCCTGGACGACGAAATCGTTAACCGCTGCGTCAACCTGGGTTGGGGCGTCTTCAACGTGGCTGAAAAGGTCCGCAAGCTGACTGGCCTGGACGAAGTCAAGGTAGCCAACGACGCCAACGCTGCTGCTTTGGGTGAAATGTGGCAAGGTGGTGGTGAAAGCCACCAAAACGTTGTCATGGTTACCCTGGGTACCGGTGTCGGCGGCGGGATCATCTCTGAAGGCAAGATCGTCGCTGGTGCCTTTGGGGCTGCCGGGGAAATCGGCCACATGCTGGTCAACAAGGATGAAACCCAGCTCTGCGGCTGTGGTAAGAAGGGCCACCTGGAACAATACGCTTCCGCTACTGGCATTGCCCGCAAGGCCAAGGAACTTCTGGCTGAAAGCGGCGAAGAATCAAGCCTGCGCGGGGTAGACCAGCTTGACGCCAAGGCAGTCTTTGACGCGGCTAAGGAAGGCGACAAGCTGGCTTTGGAAATTGTGGACTTTGTCGGCGAAACTTTGGGCACTGCCCTGGCTTCCATCTCCTGCGTCTTTGACCCAGAAGTCTACGTTATCGGCGGCGGGGTCTCCAAGGCTGGCCAAATCTTGCTCGACACTGTGCAAAAGCACTTCGTTGACGCGGCCTTCCACGCTTCTGAAGGTACTGAATTCGCCTTGGCCCAACTGGGCAACGATGCCGGTATGTACGGTGCCGTTAAGACGGTTCTGTAA
>SRR1919932_00568 5-methyltetrahydropteroyltriglutamate-- homocysteine methyltransferase
ATGTCATTTCCACGTTACGATATTGTCGGCAGTTTCTTGCGTCCAGCAGCATTAAAGGAAGCCCGGGAAAAATTTGCCCGCGGAGAAATCAGTCAGGCCGAGCTTACGGCCGTAGAAGATCAGGAAATCAAGAACCTGGTGCAAAAAGAAGTCGCTGCCGGCTTAAAGGTAGTTTCTGATGGGGAATTCCGCCGCAGCTATTGGCACTTGGATACTTTCTGGGGCTTTGGCGGGGTAGAACATGTACGGGCTGAGCATGGCTACTTCTTCCATGATGAAGAAACCCGTCCAGACGCGGCCAAGTTGGTTGGCAAATTGACTTATGAATCCGGCCACCCGGACGTGGCAGCTTTCGACTTCCTCAAGCCTTTGGCGGATGCAGCTGGCGTTGAAGCCCGGCAGAGTATCCCAGCCCCAGCTCAGCTCTACTGTGAACTGATTTGCCGCAACGATGAATTGATCGCGGCTACTGATGCCGTTTACCCTGACCGGGCAGAACTGGCCAAGGACGTTTCCAAGGTCTACCGGGAATTGATCTTGGACTTGTACAAGCACGGTGCCCGCGACATCAAGCTGGACGACTGTACTTGGGGCGTCTTGGTCAACGACAGCTTCTGGCATGCTTTTGACGAAGGCCACCTTAAGCGCGAAGAAATCCTGCAGCTTTACAAGGAAATCAATGAAAATGCTTTGGTTGATCTGCCAGAAGACTTGCGGATCACGACCCACATCTGCCGGGGCAACTACGACTCAACTTGGGCTTCAGAAGGCGGCTACGGCTCAGCTGCTCCTTACGTCTTCAAGGAAAAAGGGGTGGAGGCCTTCTACCTGGAATTTGACGACGACCGGTCAGGCGACTTCGCTCCTTTAGCTGAAGTGCCAGCCGACAAGGTAGTTGTTTTGGGCCTGGTAACCAGCAAGAAGCCGGAATTGGAAGACCCGGAAGCTTTGAAGGCCCGGATCAAGGAAGCCGGCCAGTACCACCCATTGGCTACTACGGCTCTCAGCACCCAGTGCGGCTTTGCCTCAACTGAAGAAGGCAACCACTTGACTGATGAAGAACAATGGGCCAAGATCAAGCTGGTCATCGACACGGCTAGGGAAGTTTGGCCAGACGCTGAATAA
>SRR1919932_00569 LysR family transcriptional regulator
ATGCGCATCCAGCAACTGCTCTATCTGCAAAAAGTCGTCGCCCTCGGCAACATGACCGAGGCAGCCAAAGAACTTTTCATCGCCCAGCCCACCCTGTCCAGCGCCATCAAGCAGCTGGAAAAAGAAATGGGGATCACCATCCTGATCCGGGGCAAAAAAGGGGTTAGCTTAACCGAAGATGGCCGGGAGTTCATGCAATACGCCCAGCAGATCCTGGACCAGGTCCAGTTGCTTGAGCGCCGCTATGGCGACCAGTCCAGCGCGCCGAAGATTTTTTCCGTGGCAGCCCAGCACTATGCTTTCGCCGTTGACGCCTTCGTCCAGCTGTTAAAAGAAATCGGCCAGAGCGACTACCAAGCCAGCCTCAAAGAGATGCGGACCTATGAAGTCATCGAAGACGTGGCCAACCTCCACAGCGAGATCGGCATTGTCTACCTCAGCCGCTACAACCGCCAGGTCATGGAAAACAGCTTCCAGGAAAAGGAACTCAGCTTTATGCCCCTCTTTAAGGCCCACCCCCACGTCTTTTTATACAGAAACCATCCCCTAGCCGGCAAAAAATCTATCTCCTTAGCAGACCTCTTGCCCTACCCCAAGCTCAGCTACGACCAGGGCCAGCACAATTCCTTCTATTACTGGGAAGAAACCCTAGCTGACCAGCATTCCCCAAAATCCATTATTGTCAGTGACCGGGCTACCCTGTTTAACCTGGCAATCGGCTTAAACGGCTATACCATCTCTTCAGGGATCATCAACGCTGACTTAAACGGGGACGACATCATCGCCCGGCCTTTGATCAGCGACGAATACATTGAAATCGGCTACCTGACCAACCGCCTGCACCAGCTTTCTTCCATTGGGCAAAAGTACCTGGGCTACTTAAGGGAAAGCATTGAAAAGAATGCCAAGCGCTAA
>SRR1919932_00570 hypothetical protein
ATGGGTTGGATACTTTTATTATTGGTCATCATCATCTGCGTCGGTACTTACATCAACTCCCGCAATGAAAAGAAGAAGCAATCCCAGCTGTGGGCACAGCGTCAAAAGGACAGCTATGTTCCGCCAATGCCGATCACCATTCTGGAGACCGTTGATGGCGCAAGCAAGCTGGTTGTCAAGAACGACTCAAGCGTCTACTTTACCCAATATGAAAAGGGCAAGGCTCCTTGGCCAGGTGGCGTTGAAAACTTCAGCGTATACTACGACAAGGATACTAAGCACTTGTTGATCTTGTCATTGGTACAAGAAAACGACAACATCGACTTTGGTGAAGTTGACCCTGAAGCAACCGAAAAGTTCCTGGCTGTCTTCCAAAGCGTTGGCGGTCACCTGGCTCAGCACTACGAATTGCTGACCTTGAACGAGGTTGACTCCAGCGACCTCAACCTGGCAGTCAAGTCCTTCCCGGCCAAGGTTTACTTCTACACTGAAAAGTCAGTAACTGACGGCAAGAAGCGCCTGTACTTCTCACCAGACCCGACTTCAACTGCCTACAAGCTTTTGGGCGTGGCAGTCAGCGATGGCAGCAATGGTGAAAAGAGCATCGAACTTAGCCTGGAAACCTTCAAGGGCGTTAAGTGTTCAATCTACACCACCCTGTCAGAAGCCGGCGTGAAGGACCTGCAGGAAAACTTCGCTTAA
>SRR1919932_00571 DNA mismatch repair protein MutS
ATGACTGAATTTTTTGAAAACAACCAATTGCAATTTGCACAAGTCCTTACCCAAGTAGCGTCTTACGCCAAGTCCCCCGAAGCCAGAAACTTGCTTCTGCAGGCCCAGCCATTGACCAAACCGGCAGCTGTTACCCACTTGCTCGATGAAACAGAGGAAGGTACGCGGCTCTTAGAGCGGAGCTTGCAGCTGCCGTTTGTTTCTTCAGATTCCCTTTTGCCATTGATCAATCGCGCTCAGAAGGGGCTCCTTCTATCAGCAGATGATTTGGAAAAAGTTGCTGATTATCTCCGGGTCTGTGAATTGCTGCAACGCTTTTTGTACAGAGAAAAAGATCTGGTTCCAATCCTTAATTCCTATGGTGAAGAACTCCAGCTTTTTCCAAAACTGGTTGAACAGATTTATCAGTCAATAGAACATGGTCAAGTTGCCGACAGCGCTGACCGCGACTTAAGGCGGCTGCGGCGGCAAGAACAGGAACTAAGCCAGGAAATAAAAGATACGGCTGGTAAGCTGCTGCAAAGCAAGAATGTCAGCCAAAGCTTGCAAGAACAGCGACTGGTAGAAAAAGATGGTCACTTGACTCTGCCCGTCAAAAGCAGCTTTAAAAAGGCAATCGCTGGACGAATCATCGCTTATTCAGCCAATGGACAGACGGCCTTCATTCTTCCGCGCAAGCTGGACCAGCTGAGCAGCGAAAAGATTGCTGTCAAGGGACAAATTGAAGCTATTGAAGCGATGATCCTCGGGCAGCTGACCGCTACCGTCTATGAAGAAAGCCACGGCCTATTACGTAACATTGATGTCGTCGCGGCAATTGATCAAATTATGGCCCGGGCGCGATATAGCCGGGAGCTGAATGGCAAGCGGGCCAGATTAAATCAGACAAATCAGCTACTTTTACGGGGGATGCGGCATCCCCTGCTTAAAAATCCCGTTCCACTTGACCTGGAAATCAAGCCACCAGTTCGCGGCTTGATCATTACTGGACCAAATGCCGGTGGCAAAACCGCCACTTTAAAAAACTGCGGCCTGGCTATCATGATGACAGAGATTGGGCTTTTTCTGCCCAGCCGGGAAATCTGTGATATCCCTGTCAGCCAGCAGATTTTCAGCCAAATTGGTGACCAACAGGACCTAGATAACTCCCTGTCGACCTTCTCAGCAGAAATGACCAACATTGCCAAAATTGTCACTCACGCTCAAAGCCGCAGTCTAGTTTTGCTCGATGAACTGGGTAGTGGCACTGACCCCGATGAAGGAGCTGCTATTGCTATTTCCGTCTTGCAAGCCCTGCAACTTAAGGGGTGCTTAGTTTTAGCCACGACCCACTACAGCAGAATTAAAGATTATGCTGTTAAGCATCCAAATTACCGGACCGCGTCAATGGACTTCAATGCCGACACCCTCACCCCAACCTACCGTCTTCTCTTAGACCAAGTCGGTCAGAGCCGGGCTTTTTGGATTGCTCAAAAAGTAGGGATGCCAAAAGAAATTATCGACCAGGCGCAAAAAGTTTTAGCCGGTCAATTGCCACTCAGCAGCAGTACAGTCGTTTTGAAAGAAAAAGCTACTAGCAAAATAGTCAAAACACATTTTTGCAAAGGAGACGTGGTCTACGCGGGCAATCTGGAAAGAGAGGGTATTTTCTACGCCTTAGAAGCAAACCAAACCTTGGCAAAAATTTTCGTCAACAAACAATTTTCTGTCGTTCCCGTTAAACGGTTAAAATTACGGCGAAAAGCTGCCGACCTTTATCCAGAGGGCTATAACCTGGACCTGCTCTTTATAAGCGACTGGCAAGAATATAAATTTAACAAGGACTTGAACCGCGGGAGCAAAAAAGCTTATAAGAAATTAGTAAAGTATGAGCAAGAAGTGAAAAGTAATAGCAGTAAAAATAGTTAA
>SRR1919932_00572 hypothetical protein
ATGGATTTGGAGAAAATGATTGAAGATTTAGACAACAACACGATTTCTTATTTTTCAGATATCGTGCTTTCATGGAATCACAATGTAATTACTAAGGGAAGAGCATGA
>SRR1919932_00573 hypothetical protein
ATGAAATTTGAATCATTTTTAAGTTCTTTCAAGTCAGGAGATTCTTCATGGCAAGAATCTCCTGTTTTGTTTGAAAGAATACAATACGCAAAAGAAACAGTTTTACAAAACAAACCCGCTCACAGCAGAAGTCTAAAAGCACCTGAGTTCTTAACAGACTTCGGACTGCGCAAATCGACATCACAATTCTACTTTATTGAACAAGTCAGTAAAAAGCTTGGGATAACTTTACCAACCGAAGAAGAGATCGTAGCCCAGCTCATGACAATTGACATCTCCGACCTGGCAACTTGGATTGACTCTATCGTAATGATCCTCGGCTACTATTCGTCTTGTCACTCCGTGGTCACAATCCGGCAAGATGAATTATGTCAGATAGATTCCCCAGCCGATTTGGTAAAACTCGCTACGCTTTGCGGTATTGAGAGAGATGCAAGCTTAGCAGAAATAATTTTTAACTTAGCTTTAGATAAAGCAGAGGACCCTGAAATTCAAAGACTGATACTTCATCGCTTGTGCGTCTTAAAACTAAAACGAACTAATAATACTGAGGATTTTTATAAGACGATGTCAGTCTTGACCTCTAAAATGATTCTTCAAGATCAAACCGAGGAATCTTTAGTTCTTATTGACAACTTACTTGCGCTAGCTCTAATTTCTACCACCGATAATCACTATCAGCATCTGCAAGACGCCCGTCTCCTGCTGCTTAGTGCCAGTACAATTCTAAACAGCTGTATTACAACAAGCGATGCTGCCAACACTACATTGATTTCTGAGCTTGTTCGTTACTATAGTCAAATTTCAATTAATCAAGTTCAATTGGAACTGGAGTTGCAAAACTATGATCTTGCCAAAAAACTCATAAAAAACAGCATCAAACTGACTTCCGCGTATAACAGTGAGTATTTAGCTGAAGAACTTGCTACAGCTGCTTATATCGACTACAAGATCGAAGATTTCTCACTTGCCATATCTGGAAGCATTGATGCTCTATCAGAATACCGCCAGTTGGGCGATGTTCTAGGTATAAAAAGAATGAAACAAATCTTAGCAGCCTCTCTAGCAAAACTAGGTCTAAAAAAAGAGGCCGAAACCGTTATGCAACTCATATCGCAAGATCCTTTAGGAGAAAAAGACTACACGATTTTTGCCCATGACTTTACGTAA
>SRR1919932_00574 ABC transporter ATP binding and permease protein
ATGACTTTACGTAAACTAATCAACAGCAACCGGGGCCGCTTCGCCATTATCTTTGCCCTGCTGGTCATGACCCAGGTCATCGACGTTGCTTCAACTTACCTGTTCTCGCCAATGGTCAACCAAGTTTCCGCCGGCCGTTTTAACATTTTTTGCAGCCTGCTTCTGATTCAGTTTGCCCTGGCCTTAGTCCTAAACTTTGCTTTCAACGGGGCCAACTACCTCTTCAGCAAGCAGACCCAGCAGTATCTGCACGGCGTCAGAGACAGACTGGCTGACCACTATTACCAACAGCCTGCCGGCCTCTCCGAGATGACCAACCATTTTAGCCAAGACCTTGACACTTTGACTTACGATTACGCTACTGTTCTCTTTTACTTGATCTGTGACGTTATCAACGCGCTTATGGTTGCCGCCAGCCTCTTGTCTTTTCACTGGCTCCTGCTCCTGGCCAGCCTCTTAACTACCGTGACTTCCTTCGCGATTGCCCGCTTACTGGAAAAATACAGCAACCAGGCCACCGATCAATTGTCTGCCGCTAGTCAGCACTTTTTAGCGACTATCGCCCAATGGACTGCCGGCCTGGCAGAACTTCGCCGTTACTTTGCCAAAGGCCCTTATCAAAAAGCCCTGCTTAAGTCCGGCCAAGAGCTGGCCGACCGGCAAGTCAGCCGCCGCAAGATCAACAGCCAGATCCATTGCCTGCAAAGCCTTAGCAACGCCTTAGGCACAGTCAGCATCCCCCTCATCGCCGGCTTCCTCTTCTTTAAAGGACAAATGTCCTTAGGTGGCGTTATCACGTCTGGTTATTTCGCCAGCAGTATTTTTTCCGTCCTGGAAAACATCGCCGGCAGCTATTCTTATCTAAATTCGACCAAAAGCCTGCGCCAGCAGCTTAGCCGCCTGCAGGAAAGCAAGAAAAATGACAATCTGCAGCCGGTCAACCGGATGGCCCAAATCGAGATCAAACAAGTCTCCCTGACCCACGGCAAGCAGCTTTTGTCCTACCCCGATTTGACCATCCATGCTGGTGAAAAAATCCTTATCACTGGCGACAGCGGCAGCGGTAAAAGCACCCTTTTAAAACTGCTTTTAGGCAATTTACAAGCTGAAAAAGGCCAGATCATCTTTAAAGACGCTGCTGGCCAGGCCTTCCAGCCGGATTCTTACTCAATCGGCTACCTGGCTCAGGACCTGGTCCTGTTCCCCGCGACTTTAGCGGAAAACGTGACCATGCATAGCCCTGGCCTAAGTGCTAATCCAAAAGATTACCTGGAAACAGTCGGCCTCCAGCTTGATCCCCAGCGCCAGATTACTCCAGACGATTTGACTCTGTCCAGCGGTCAAAAGCAAAAACTGGCTCTTGCCCGGACTTTAAGCCATGGCTTTCCCCTGCTTTTGCTGGATGAGTCACTGAGCGCGGTTGACCGGGCCGGCCAGGATCAGATCTTGCGGACCCTTTGCCAATTGCCAGCAACCGTCATTTTCGTTGCCCACAATTTAAGCCCTGAACAAAAAGCCCGCTTTGACCGGGAAATCAGCTTAGCTAAGAGGGAGCATGTATGA
>SRR1919932_00575 multidrug ABC transporter ATP-binding and permease protein
ATGACTTTTAAAGAATTTTACCTCCGCAAGCCAGTCAAAAGCAGCCTGCTCTTCCTGGCCGCGGCTTTAAGTTCCTTGCTGCTGGTCGGGTCTTCTTACGCCTTAACTTTGGAATTCAATGCTTTAAGAAACCGGCAGCCCGTGCTTTTTGCCCAAATGCTGGCCTTGCAGCTGGCCTGCCTGGTCTTCAGTGCCCTGCTCACCTACTATGGCAACCTGTCCCTGGAACAGCTGATCCAAAGCTACCTGCAGCAGATCCGGCAAGAGCTTGCCCTGCATATATTCAATGATGGCCAAGCACACGATCCAGCCCAGGCGCAAAACCAGCTGCTTAAGGAAGGGGACTTGCTGACTGTCAGCTACCTGCGCAATATTTACAGCAGCTTTAAGGCCGGCATGACCGTCCTGGCTTCTGGCGGTGCCCTGCTCAGTTTTCACTGGAGTCTCTTCATCGCCTGCCTCATCTTTGCCTTGATGCAGATCTACCTTCCCCGCCTGCTTGACCGCCAGCTCAACCACGCCAATCACAGACTGGCCGCGCAGAACCAGGCCTATCTCAAGGTTCTTGGCGACTGGCTGCTCGGCCTTGGCGACTTGCACCGCTGCCTGTCCTTAGCCTGGTTTAAGGAAAAAGCCGGCCTGGCCGCCAAGGAACTGGAAGATGCCCATGTGCACAAAAGCGCCGTCTCCTCCCATTTGGATTACCTCAATCAGCTGGTATATTCTCTTGGCAGCAGCCTGATCCTGCTCTTGACCGCCTTTCTGGTCATCCGACACTGGACGGCTTTTGGCCTGCTCAGCAGCATTGCTTCTTTTAACAGTGACTTTTTTGGCAATCTGCAGAACGCGGCTGACTACTTAGGCGAAATTTCCGGCAGCCGCCAGCTGCGGCAAGACCTGCTTAAGCAAAGAGAAGCTGTCCCGGAGAAAAAAGAGACCGGCCAAGCTCCAGCTGCTTTTGCCAGCAGTCCTTTAACCATTGACTTTAACGGTCTCACCCTGGCTTACCCGGCCATCAAGCTGCAGCCTGGAGAAAAAGTTCTGCTGACCGGTGCCAGCGGCCGGGGGAAAAGTACTTTTTTCAAGCTGCTCTTGGGTGAAGTCAAGGCAGCCAGTGGAGAAATTCACTATCTGGACCAGAAGGGCAAGGTCATTCAGCCCAACTTGAGCCAAATCGGCTATCTCCCCCAGGATCCCCAGCTTTTCCCTGGCAGCGTTGCTGAAAACATGACTATGTTCAATCCGGCTTTAAGCGATCAAGACTTGCTCCGCCAAACAGCAGACCAGGTAAACTTAAGTGAAGACCTGCGCCTGTGGCCGGCCGGGCTTGATACAATAGTTGCCGTAGAAAACAGCAATGTTTCTGGCGGTCAGCGGCAAAAAATTGTTCTGGCCCGCAGCTATCTTTACCACAGCCAGCTGCTTTTGATCGATGAAGGCACCAGCGCTATTGACCAGGCCGCCACGCGGGAGGTTATTACCCGCTTGCTCAAGACGGATAAAACGATCATGTTCGTCGCCCACAATCTGACCGCGGAAAGCCGCCGGCTTTTTGACCGCGAAATTCAACTTGATTAA
>SRR1919932_00576 acyl-CoA dehydrogenase
ATGACTAATGAAACCAAACTTTTGCAAGCCGTTCAGCAATTGGCAGACAAGGATGTAGCGCCTTTTGACCTGCAGATCGACCGCCAGGCCAAGCTGCCAAACGGCATTTTCCAGAAGATCGTTGACCTGGGCCTTTTGCGGGCAAAAATCCCTAAGGAATATGGCGGACTGGACGTTTCCGCTCAAACCGCCGGCAAGATCGTCAACATCCTGGCCAAGGCCAACGCCAGTGTCGGCGTAATGCTGGAAGGCCACTACAAGAGCTGTGACCAGCTGGCTAAGTACGGCACTGACGTCGCTAAGAAGCGCTACTTTGCCTGGGGTGCCCAAGCCATCCTCGGCTTCTCCAACACTGAACCGGAAGGCGGCTCAGACCCAAGCAAGCACCAGTCCTACGCTGTTGAAAAGGACGGCCGCTGGATCATCAACGGCGACAAGGTTATGATTACCAACGGGACCCTGGCTCAAGTTTACTCAGTCAACGTGAAGACTGGTCCTAACGAATACTCCGTCTTTATCGTGGACAAGGGGATGCCAGGCTTCTCCTTTGGCTATGTTGAAAAGTTCATCGGCCTGCGGGGAATTCCTTGCGGTGAAGTTGTCATGAACCAGATCGAAGTTGGTCCGGAAAACATGCTGGGCAAGCGGGGGCAAGGCTTGGAAATTGCCAACAACGCCCACGATGATGCCCGCTACTTGATGGGGGCCGTTTTGACCGGGATCCAGGAACATGCCCTTGATATTGCCAAAAACTACGCGGCTAAGCGCAAGTCAGGTAATACCCTGCTCAAGGACATGCAAGTTACCCAATACAAGATCAGCAAGATTGCGACCAACAAGGAACTGACCCGTTTGGTTTACGAGGAAGCTGCCCGCCGCAAGGATGCCGGCCTGCCATACATGGAACAATCAGCTATGGCTAAGTGCTTCGGCAGCAAGGCAGCGGTTGAATCCTGTGACTTGACCCTGCAGATCATGGGCGGCTACGGCTACAGCGCTGAATTTTCTCCAGAACACCTGGTAAGAGACGCCAGAGCCATGGAAATCGCTGAAGGCACGATCGAAAAGATGTACACGGAAATCAGCAACGCTGAAATGGCTAATGTACCAAGCCAGGAAGTGGCAAGAAAACAAGCTGACTTGACCGACCTTGACCAGATCCTGCCGCTTCTGGAAGCAGCCAAGACTCCAGCCGGCGCGGTTGACGCGGTAAGCAGCCCATCACAAGCAGCCGGCCTGCCAAAGGCCAAGATCGTTCTGGCTCTGGGCCGTGGTGCCAACCAGCCGGAAACTATCGCTCTGGCCAAGCAAGTAGCTGAAAAGCTGGGTGCTGAAATCGGGGTTACCAGACCAATGGTCGGCTCAGACTTCAACCGTGGCCAGCAGCTCGGCGTCAACGGCCATAAGATCAAGCCGCAAGTTTTGATCAACCTGGGGATTGCCGGCGCGCCGCAATACACCTTTACTGTTGACCATGCTGAAAACATCATCTCCGTCAACACCAACCCGAACGCTATCGTCTTCGAAGGTTCAGACTACCACTACGTCGGCAGCACTTACGACTTCTTGAAGGAACTGCTCAACCGTTTGGGCTAA
>SRR1919932_00577 hypothetical protein
ATGATTTTAACTGAGGTAGCTTACAACATCTGGCCAGTCTTGCTTGCCCAACTGGTCGGCATCATCATCTTCTTCGTGATCGCCTACTACTTTGCCAAGTTCCTGGTAATCAAACTGACCCCCTTAGTCCTCAAGATCAAGCGCGAGGAAGAAGACAAGCGGGACCGCGGCCAGGACGATTAG
>SRR1919932_00578 acyl-CoA dehydrogenase
ATGGTTCTAAACAGTTTGTTAATCAGCATCTTCACGTCTGGGCTACTGTTGGGCTTTATTTTGGCTGTACCTTTCGCGCCAAAGTTGCAAGAAATTAGAGATTTCTTCCGTTACCGGATTGGCTATTGGAACATACTGATTCCTATCGGAATTATCATAGTTACCAACGCGGCGGCCTATAGCATGTTGAACATCGCCGGCCTGGCCCTTCTAGGCCCCTTTGACTTGATCTTCATTGGCGCGACGATTGCCGACTATCTGCGGGATCGGAAATTTAATTCCGGCAAGCAAAAGCAGGACGATTAG
>SRR1919932_00579 S-ribosylhomocysteinase
ATGGCTAAAGTAGAAAGTTTTGAATTGGACCACACTAAAGTTAAGGCACCTTACGTCCGCCTGATCACCGTTGAAGAAGGCCCTAAGGGCGACAAGATCTCCAACTTCGACCTCCGCCTGGTGCAGCCTAACGAAAACGCCATCCCAACTGGCGGCCTGCACACCATTGAACACCTCCTGGCCAGCCTCCTGCGCGACCGCTTAGACGGCGTCATCGACTGCTCCCCATTCGGCTGCCGGACTGGTTTCCACTTGATTACCTGGGGTGAGCACAGCACCACTGAAGTAGCCAAGGCCCTGCGCGACTCCCTCAAGGCCATCAGAGACGACATCACTTGGGAAGACGTGCCTGGTACCACCATCGAAAGCTGCGGCAACTACCGCGACCACTCCCTCTTCAGCGCCCAGGAATGGTGCAACGACATCTTGAAGAAGGGCATCAGCGACGACCCATTTGACCGCCACGTGGTTGAAGACTAG
>SRR1919932_00580 methionine ABC transporter substrate-binding protein
GTGAAGGCTTTTACCGACGGGCCAAGCCTCCTGCGGGCAACCTCCGATGGCAGCATCAACGTCAGTGCCTTCGCTTCCTGGGCCTACCTGGAAGCCTACAACAAGTCCAAGAGCAACACCGGCCAGCAAGTAGCCCTGGCCACGACCTACCTGGAACCAATGGGGATCTACTCATCCAAGTACAAGAAGCTCTCCGACCTGCCTAAAGGCGCGACCATCGCCCTGGCCAACAATGCCGCCAACGAAGCCAGAGGGCTCCTGCTTTTGCAAAGCGCCGGCCTGATCAAGCTGAAGAAGAACTTTGACTCAGCCAGCGGCAACACCAACGACATTGTTTCCAACACGAAGAAGTTCAAGTTCAAGCTGATCGATGACACCACTGGCCCGCGGATCATCAAGTCCGTCGACGCCGTCCTCATCGGCAACACCATCGCCCTGGCCGGCAACTTGAACGTGCTCAAGGACTCTCTTTACCACGAAAAGATCGACCAGAGCACCAAGAACAACATCAATGTCCTGGCCACTGCCAAGAAGAACAAGAACAATGCCGCTTACAAGAAGCTGGGCAAGCTCTACCATAACAAGCAGATCCAGAAGTGGATCGCCAAGAAATACTCCGGCACCAAGGTCGAAGTCAACAAGCCGGTCTCCTACCTGACCGATTAA
>SRR1919932_00581 peptide deformylase
ATGACAGTGCAAAAAATCATCCACGATCCTCTCAGTTTAAGCCAGCCGGCAGCTAAAGCGGCGGCCAGTGACCGGCAAGCGGCCCAGGACCTACTGGACACCCTGCTGGCCCACCGGGAAAGCATTGACGGCCTGCCGCCCGCCGCTGGCCTGGCCGCCAACATGATTGGGTTAAACAAGGCGATTATCGCGGTCAACGCCGGCTTTTTACCTATAGTTATGCTCAACCCCAAGATCGTTAAAAGATCCGGTCACTACCTGGCAGAAGAAGGCTGCCTGTCTTTGCCTGGAGAGCGGCCGGCTGACCGCTATGAAGAAATCACGGTCAAGTACCAGGACATGGATTTAAAAGAGCATGAGCAGGCCTTTACGGGCTTTGTGGCGGAAACTATCCAGCATGAGGTCGATCACTGCAAGGGCAAATTAATTTAA
>SRR1919932_00582 FAD/FMN-containing dehydrogenase
ATGGGATTGAATTTTTCAGCCTACAACACAGACGAAATAATTGATTTTTTGCAGGAACAAGTAAAAGATGGGATCGTCAAAACTGATAAAGACAGCTTACAAACCGCATCCTATAGCCAAAACCTGCCTGGCCAGCACGGCCTGGCTCTAGCCCTGGTCGAAGCAGGCTCAATCGCTGACGTCCAGGGAGTCATGCGGGCTGCCCGCCGCTTCCACCTGCCAGTTGTTTCCCAGAACCGCTTCACCAGCACCGTTGTTGGCGCTGATGCTGTTGACCACGCCATCATTCTTTCAACCGCCAAGATGAACAAGATTCTGGAATTGAACGCTGAGGATGCCTATGCCGTCGTTCAGCCAGGCGTCATCAACAATGACCTTGACCAAGCCGCGAGAAAGCAAGGGCTCTTCTACGCTCCAGATCCAGCTTCAAAGAAAATGTCAGGCATCGGCGGCAACGTCGCGACCAACGCCGGCGGCTTGAGTGGCGTTCGCTACGGATCAACCCGCGACAACGTCCTGGGCTTGAAGGTCGTCCTAGCTGATGGTCGCCTCCTTGACCTGGGCGGCAAAACCAGCAAGCAAGCCTTTGGCTACAACTTAACTCAATTGTTTGTCGGCTCAGAAGGGACGCTGGGTACGATCGTGGAAATTACGGTCAAGTTGCTGCCGCTGCCTTTGGGCGAATCCTTGATGGGCTTGGCCTACTTCAAGGATATGCACACTTTGGCTGAAGCCACCAAAGATCTGCGGATGTCAGGGATCTACCCTGCCATGTTAGAAGCCATGGATTCCCACACCCTGCAGGCAGTCAGCGAATTCCGTGATAACAAGGAGATGGCCGGCCGCGGCGCAGCTTTAATTTTCCGCGTCGACTCCATTTCTGATGAAGGCAAACAGATCGTCAAGAACATTATGGACAAGTATCATGTGACCGACGTCCAGCTGGCTACTGACCCAGCTGAGCAAGACAAGATTATCAGCGTCCGCCAGGACATGTTACCAGCCATCTTCACTGGTCGCAGCGCAGTTATGGAAGACATGGCCGTGCCAACTTCACGTATGGCTGAGTTGGTTGACACGATCCAGGCTTTGAGCGACAAGTACCCGGAACTGGAAATCTTCACCGCCGGACATGCTGGCGACGGCAACCTGCACCCAACCGTTACCTGGTCCAAGGATGCCAAGGAAATGCCTGAAAGTGTCAATATCGTCTTGCACGAAATGTTTACCAAGGCCTTGGAACTGGGTGGAACCATCTCTGGCGAACATGCCGTAGGGATGTTGAAGAACCAGTGGAACAATGTTGAATTGGGTGAAGACGTTGACTGGATCCAACACCAGATCAAGAGCTTGTTTGACCCAATGAACCTGCTTAATCCAAAGCGCAAGATCGATTAA
>SRR1919932_00583 D-lactate dehydrogenase
ATGACTAAAATTTTTGCTTACGCAATTCGTGAAGATGAAAAGCCATTCTTGAAGGAATGGGAAGACGCTCACAAGGACGTCGAAGTTGAATACACTGACAAGCTTTTGACCCCAGAAACTGCTGCTTTGGCAAAGGGTGCTGACGGTGTTGTTGTTTACCAACAACTTGACTACACCGCTGAAACTCTGCAAGCTTTGGCAGACAACGGCATCACTAAGATGAGCCTGCGTAACGTTGGTGTTGACAACATCGACATGGCTAAGGCTAAGGAACTTGGCTTCCAAATCACCAACGTTCCAGTTTACTCACCAAACGCCATCGCAGAACATGCTGCTATCCAAGCTGCCCGCATCCTGCGTCAAGACAAGGCTATGGACGAAAAGGTTGCCCGTCACGACTTGCGTTGGGCACCAACTATCGGCCGTGAAGTTCGCGACCAAGTTGTTGGTGTTGTAGGTACTGGCCACATCGGTCAAGTCTTCATGCAAATCATGGAAGGCTTCGGCGCTAAGGTTATCGCTTACGACATCTTCCGCAACCCAGAATTGGAAAAGAAGGGCTACTACGTAGACTCACTTGACGACCTGTACAAGCAAGCTGACGTTATTTCCCTGCACGTTCCTGACGTTCCAGCTAACGTTCACATGATCAACGACAAGTCAATCGCTAAAATGAAGCAAGACGTAGTTATCGTTAACGTATCACGTGGTCCATTGGTTGACACTGACGCGGTTATCCGTGGTTTGGACTCAGGCAAGATCTTCGGTTACGCAATGGACGTTTACGAAGGTGAAGTTGGCGTCTTCAACGAAGACTGGGAAGGCAAGGAATTCCCAGACGCACGTTTAGCTGACTTGATCGCTCGTCCAAACGTTCTGGTAACTCCACACACTGCTTTCTACACTACTCACGCTGTTCGCAACATGGTAGTTAAGGCCTTCGACAACAACCTTGAATTGGTTGAAGGCAAGGAAGCTGAAACTCCAGTTAAGGTTGGCTAA
>SRR1919932_00584 cobalamin adenosyltransferase CobO
ATGCTTAAAGTCTACACTAAAGTCGGTGACCAGGGGAAAACCAAGCAGGTGACCGGCAAGATGGTCGCCAAATACGACCCGCAGATCCAGACACTGGGAGCTCTCGATGAGCTGCAGTCCTGGCTGGGGGTTACGGTGGCCAACCTTTCTCCAGCCTGCCAGGGCCTGGAAGAAAAGCTGATCAAGCTGGAGCGGGAAATGTATGAATTGCAGGCTGACCTGGTGGTCAAGCGGCATCATACGATTACCTTGGCTGAAGTGACTTACATGGAAGAGCAAATCGATGCCTGGACGGAAGAATTGCCGGAAATGAAGGAATTCATCCTGCCAGGCGGGTCAAAGACCAGCGCCAACCTCCAGTATGCCCGGGCACTGGCCCGGACCAGCGAGCGGGTCTGCGTGCTGTACGCGGACGAAAGCGGGGAGGTCAAGAGCGACAGCCTCAAGTACCTGAACCGCCTGTCAGACTATCTGTTCGTCATGGCCCGCTACGCCAACCTTTTGGAGGGCGTGGCTGATGTCAAGAGCAAGCCCGCCCGGCCGCGGCGGCGTCCAAAAAAATAA
>SRR1919932_00585 membrane protein
ATGCAGACCAAGGAACGCAACCAGCTGCAAAGGCTGACCCTGCTGGCCTTGCTGACTGCAATGTGCGTGGTTTTGCGGATCTTTAAAATCATCGATATCCCCAATGTCCAGCCGGTGACCGACATCATTATGTTGACGACGCTGGAACTGGGGGCAGGGACGGGGATTCTCCTGGCCATTTTGGTCATGGTGATCTCCAATATCTTCCTGGGGTTTGGCATTTGGACCTTGCCGCAGATCTTTGCCTACGCGGCCTGCGCTTTGACCGTGGCGTTATTTGCCAGGCTTTTGCCGCTGAAAAGCCGGAAATTCTTCTGGCTGCAGGAGCTCTTGGCCGGCTTTCTGGGCCTGGAATACGGCTTCTTCGTCAGCCTGGGCATGGCTGGCTGGGGCGGCTGGGCAGCCTTCATTGCCTACTGGGTCAGTGGCCTGACCTTTGACTTGTATCATGCTGCCGGCAACCTGGCCTTTTATCCTATCCTTTATCTGCCATTAGTTTTGGGCCTGGACCGGTTTAAAAAGAAAGTAGGGTGGAAGCAAAATGCTTAA
>SRR1919932_00586 hypothetical protein
ATGAAAAAGAAGATTTTAGCAGTCGTAGTTGCCTTGGCAGCCTTCGTGGGCCTTTTTGCCAGCCAGCCAGTCCAAAAGCAAAGTATTCAAGCAGCCAAAACCACTAAAACGGCTAAGAAGACTACTAAGAAGGCCAAGGCTAAGCAAATCAGCGTGACCTACACTTTGAAGGACACGACCAAGGCCAAGAATAAGCAAACCCTGGCTAAGAAGACTTTCAAGGTCAAGAAGGGGACGACTGTCTTCACTGTTTTGAAGAAGGCCTGGAAAGTCAACTATACTAAGTCTTCAAATGGTGTCTTCATTACCAAGATCAAAGGCCTGGGCAATGAAAAGAAGAAGCTCTACTGGACTTACACCGTTGACGGCAAGATGGTCAAGGTGGCAGCTGACAAGCAAAAGCTGACTAAGAACAAGTCCAAGGTTGTCTTCACTTTGAAGAAATACTAA
>SRR1919932_00587 ribonucleoside-triphosphate reductase
ATGAGTGAAGAAATATCTCTCTCGGTGGAATTTATCGACCGGGTGAAAGCGAGTGTAAAACCTCACTGGGGCAAGCTGGGCTGGGTCACCTACAAGCGGACCTACGCCCGCTGGCTGCCGGAAAAGGGACGGAGTGAAAACTGGGATGAAACCGTCAAGCGGGTGGTTGAAGGCAACATCAACCTGGATCCCCGCCTTCAAGACTCCCCAAGTCTGGAACTGAAGCAGAGCTTGACTGAAGAAGCAGAGCGGCTCTACAAGCTGATCTACGGCCTGGGCGCGACGCCATCTGGCCGGAACTTGTGGATTTCCGGGACTGACTACCAGAGACGGACCGGGGATTCCTTGAACAATTGCTGGTTTGTGGCCATCCGTCCGCAAAAGTATGGGGACAGCAAGATCGTGCCCAGCTACCTTGGCAAGCAGGAAAAGGCCGTTTCCATGCCTTTCTCCTTCCTCTTTGACGAACTGATGAAGGGGGGCGGGGTTGGCTTCTCAGTTACCAGATCCAACATCAGCCAGATTCCCCGGGTCGACTTTGCTATCGACCTGCAGCTGGTGGTCGATGAGACCAGTGAATCCTACGACGCTTCCGTCAAGGTCGGGGCCGTCGGCAAGAATGAATTAGTTCAAGATGCTGACAGCATCTACTACCGCCTGCCGGATACCCGGGAGGGCTGGGTTTTGGCCAATGCCCTCTTGATTGACCTCCACTTTGCCCAGACCAACCCAGACCGTAAGCAAAAGCTGATCCTGGACTTGTCCGACATCCGTCCTTACGGGGCAGAAATCCATGGCTTCGGCGGCACGGCTTCCGGCCCAATGCCCTTGATTTCCATGCTGCTGGACGTTAACGAAGTCTTGAATAATAAGGCTGGTGGCCGCCTTACGGCTGTCGATGTTGCCGACATCTGCAACTTGATCGGCAAGGCAGTCGTGGCCGGCAATGTCCGCCGTTCAGCGGAACTGGCCCTGGGCTCAAATGATGACCAGGACTTCATTTCCATGAAGCAGGACCAAGAGAAGCTGATGCACCACCGCTGGGCATCCAACAACAGCGTGGCGGTTGATTCAGCCTTCAGCGGCTACCAGCCGATCGCTGCCGGGATCCGGGAAAACGGGGAGCCAGGGATCGTGAACCTGGACCTGTCCAAGAACTATGGCCGGATTGTTGATGGCTACCAGGCTGGAATTGACGGGGACGTGGAAGGGACCAACCCTTGCGGGGAGATCTCCCTGGCCAACGGGGAACCTTGCAACCTCTTTGAAGTCTTCCCGCTGATCGCGGAAGAACAGGGCTGGGATTTGCAGGAAGTTTTTGCCTTAGCGGCCCGCTACACCAAGCGGGTAACCTTCAGTCCTTATGACTGGGAAATTTCCCGGGAAATAATTCAAAAGAACCGCCGGATCGGGATCTCCATGTCCGGGATCCAGGACTGGCTTTTGACCAGACTGGGCAATCGGGTGGTTACCGGCTTCAAGGATGACTTTGACCCGGAAACCCATGAAGCTATCAAGGTGCCAGTCTACGACAAGCGGGCCATTAAGATGGTTGACCAGCTTTACAAGGCCGTGGTTAAGGCTGACCAGGCCTACAGTAAGACTTTGGGCTGCAATGAATCAATCAAGCACACCACGGTCAAGCCATCAGGCACGGTGGCCAAGTTGGCCGGTGCCAGTGAAGGCATGCACTTCCACTACGGGGCTTACTTGATCCAGCGGATCCGTTTCCAGGATTCTGACCCGCTTTTGCCAGCCTTGAAGGCCTGCGGCTACCGGACGGAAGCCGACATCTACACGGAAAACACGACCTGCGTGGAATTCCCGATCAAGGCGGTAGGGGCGGACAACCCTAACTTTGCCTCAGCTGGCACGGTTTCAATCGCGGAACAGTTTGCCACCCAGGCCTTCTTGCAGACTTATTGGTCGGACAACGCGGTTTCCTGCACGATTACTTTCCAGGATTCCGAAGGTGACCAGGTTGAATCCTTGCTCCGCCAGTACCGATTTATCACCAAGTCAACCTCGCTTCTGCCATACTTTGGCGGTTCCCTGCAGCAAGCGCCAAAGGAACCGATCGATAAGGAGACTTACGAAAAGCGCAGCCAGGAAATTACCGGCAACGTGGAAGAAGTCTTCAGCCAGCTGAACAGCGACGTCAAGGACCTGGAACTGGTCGACCAGACCGACTGTGAAGGCGGCGCCTGCCCAATTAAGTAA
>SRR1919932_00588 2,5-diketo-D-gluconic acid reductase
ATGACTTTGCACGGTTTGGAAGATACTTACGAATTAGCCAATGGGGTCAAGATCCCGGTAATCGGTTTCGGGACCTGGCAGACGCCAGACGGCGACGTAGCCCAAGAAGCAGCTGAGACAGCCTTGAATGCCGGCTACCGGCACATCGACACGGCCGCAGCTTATGGCAATGAAGCCAGCGTGGGCCGGGCCATCAAGCGCAGCGGTGTCAAGCGGAGCGACTTGTTCGTGACCAGCAAGCTTTGGAACGGGTCCCACAGCTATGAAGGGGCCAAGACGGCTATTGACGACAGCCTGCTCAAGCTGGACACGGACTACCTGGACCTGTACTTGATTCACTGGCCAAATCCAGTTGCCATCCGGGACCACTGGGCAGAAGGCAACGCGGAAGCCTGGCGGGCCATGGAAGAAGCCGTTCAAGCTGGCAAGATCCGGGCAATCGGGGTCTCCAACTTCCGCCGCCACCACCTGGAAGCCCTCTTAAAAACGGCAGAAATCAAGCCTGTGGTCAACCAGATCTGCCTTAACCCAAATGACTTGCAAGCGGAAGTAACGGCCGCTAACAAGGAATACGGCCTTTTGAGCGAGGCTTACAGTCCTTTGGGCACGGGCGGTCTTTTGGGCAATGAGACCATCAAGGCAGTTGGGGCCAAGTACGGCAAGTCCAGCGCCCAGGTTTTGATCCGCTGGTCCCTGCAGCATAACTTTTTACCACTACCGAAGTCAGTTCACCCGGACTACATCAAGGCCAACGCTGAGGTCTTTGACTTTGCGCTTACTGCAGATGACATGGCCAAGCTGGATGGCCTGCAAGGGATCGGCCAGCCAGTCCTGGATCCGGACCAAGCCGAATTTTAA
>SRR1919932_00589 L-2-hydroxyisocaproate dehydrogenase
ATGAGAAAAGTAGCAGTGATCGGCATGGGCCACGTTGGGGCCACGGCGGCCTTTATTCTTTTTACCCACGGGGTAGCGGACGAATTGGTCTTGTTGGACAAGAATGAGACCAAGTGCCGGGCTGAATGGGGCGACTTGCGCGACACCCTGGGCAGAAACGACTTCTACGTCAATGTCAAGTGGGGCGACTGGAAAGAGCTGGCGGACGCTGACTTGATCATCACCGCTTTTGGTGACGTGGCGGCCTCAATCACGACAGGTGACCGGTTCGCGGAATTCCCGATCAACACCAAGAATGCGGTTGAAGTTGGCCAGAAGATCAAGGACAGCGGCTTCAAGGGCGTCATCATCAACATCTCCAACCCTTGTGACGTGGTAACCTCCATCTTGCAAAAGGTGACAGGCCTGCCAAAGAGCCAGGTCTTCGGGACCGGGACCTTCCTGGACACTTCCAGAATGCAGCGGGTTGTCGGGGAAAAGCTGGGCCAGGACCCGAGAAACGTGTCCGGCTTCAACCTGGGCGAGCACGGGTCCAGCCAGTTCACGGCCTGGTCAACTGTTTGGGTCAACAACCGGCCAGCCAAGGACCTCTTCAATGAAGCAGAGAAAGAAGAAATGGACCGCTTGAGCAAGGACAATGCCTTCATGGTCGGCAAGGGCAAGGGCTACACCTGCTACGCTGTCGCTACCTGCGCGGTCCGTTTGGCCAGAGCCGTCTTCTCTGACGCCAAGTTCTACGGCCCGACCAGCTGCTACGTTGAATCTCTGGGGACCTACATCGGCTACCCGTCAATCGTTGGCAAGCATGGGGTAGAAGAAGTGCCAGTTCTGGACTTGCCAGCTGACGAACAAGCCAAGCTGGAAGCTTCCGCTAAGAAGCTGAAGGACAGCCTGGCCAGCTTGGAATAA
>SRR1919932_00590 hypothetical protein
ATGAAGAGATTAGAAAAAGGGGTCATCAGCTTGATCCTGGTCATTTTTGCCGGCACGGTGATTATGGCCGTCTCGAGCGGTGGCCAGAAAGCAGAAAGCAGTTCAGACGCCTTCGATACTTCAGAGTACCGGAAGGCAGTCAAGTCAACCGACAACCACCACTTCAAGAACATGAAGGTGGAATTGTCCGGCAAGAAGAGCAAGATTACTGGCATCCTGCCCAAGACGCCGACTTCTGTCAGCCTGCTCAAGCAGTGGGAGAGCAAGAAGGTTGACCTGGATTTTACGGCCAGCAAGAAGGACAGCGTGCTGATCAGCAAGCAGACAGTTAAGCTGCCGACCCCTAAGGGGCAGGAATTGACTCATGCCACGGTTGGTGAAATCGGCTATGACCCGGACAGCGACAAGGTCTTGATTTTTGCCAGTGACAAGAACTACAGCCGGGGGTTCTATCCTTTAGGTAATTTGAAGCGGAACGAACCGAGCCCGGCTAGTTTAAGTGCCGACCAGGATCCGCTGGAATTCAGTTTTAAAGATTAA
>SRR1919932_00591 exodeoxyribonuclease III
ATGCGACTGATTTCTTGGAACATTGACTCATTGAACGCGGCCTTGACGGGGACTTCCCCGCGGGCGGAAATGACCCGGGGGGTCTTGAAAAACTTGCATGACCTGGATCCAGATGTCCTGGCCCTGCAGGAAACCAAGCTGCCGGCCAGCGGGCCAAGCAAAAAGCATCAGGCGGCTCTGGCTGACCTTTTTCCGGAATACGATTTCGTTTGGCGGTCCAGCATGGAGCCAGCCCGGAAGGGTTACGCGGGCACGATGTTTTTGTATAAGAAGGGCCTGGATCCAGTAGTGACCCGGCCGGAAATCGGGGCCCCGGAGCCGATGGACTTTGAAGGGCGGATTTTGACTCTGGAATTCCCGGACTTTTACGTGACCCAGGTCTACACGCCAAATGCCGGCAACGGTCTGGTCCGCTTGGGTGACCGGCAGGAATGGGACAAGTGCTACCGGGCCTACCTGGAAGAATTGGACAAGAAGAAGCCAGTCCTGGCCAGCGGGGACTTCAACGCCGCCTACCAGGAAATCGACTTGAAGCACCCGGAAAACAACCACCATTCCGCCGGCTTTACGGATGAAGAAAGAGCGGGCTTTGGCCAGCTTTTGGCGGCGGGCTTCACGGATACCTTCCGCCAGATCCACGGCCAGGTGGAGGGCGTCTACTCCTGGTGGGCCCAGCGGGTGCGGACGGCCAAGGCCAATAATTCCGGCTGGAGAATCGACTACTGGCTGGTTTCCAACCGCCTGGCTGACCAGGTGGAGAAGTCGGAAATGATCGAGACTGGAGAAAGAGCGGATCATTGTCCAATTTTATTGGAAATTAAGCTGTGA
>SRR1919932_00592 hypothetical protein
ATGGAAAATTACTTTTTTGATTTCGACGGCACGATCTGCGAATCGCGCCACATCTGCGCGACCTGTGCCTGCACTTGGGGCGCCTTTGACCCGGCCAGCCTGAAGAAGGAAAAGGCTGACTACACGGTCGACTATCCCCTGGAAATTTTGGCGATCTAG
>SRR1919932_00593 HAD family hydrolase
ATGCGCTATCAGCAAATTATCCTGGACGTTGACGACACCTTGCTCGACACTGAAGCAACGGTCCACGACTCCCTGGTTCAGCTCTTCAAATCCCATGGCTGGGAGATCAGTGACGAATTTGAAAAAGAATTCCACGCCTACAACCAGGGGCTCTGGCGGCGGCTAGAAAAGGGTGAGCTGACCTTGAACCAGCTCTACGCGATCATGTTCCCGGACATTATCAAAAAATACTGCGGGGTCGAAGTCGACGGGATGGAGACGGCTGACGAATTCCACAGCTACTTCCACACCGGCCACAAGCTCCTGCCCGGGGTCAAGGACACCCTCCGCTATGCTAAAAGACTGGGCTACAGCCTGGCGGTTTTGAGCAACGGGGAGCAATTTGGCCAGGAGCACCGGCTGGAATTAGCCGGGATAAGACACTACTTTGACCTGGTTGTGACCAGCCAGGAAGCCGGGGTGCAGAAGCCAAACGCGGAAATTTTTGACTACTTTTTCGCCAGAAACGGCTACGGCCCCAACCAAACCGTCTTCTTCGGCGATGGCCTGTCCTCTGACATCATGGGAGCGGAAAACTACGGCTTTGCCAGCATCTGGTTCAACCACCGCCACCGGCAGAAGACCCTGCCAGTCCACCCCCTCTTTGAGGTGGACAACTATGCCCAGTTCCAGCGGATCTTGAAAAAAGACTTCGCCCCGACCGCTCTGCGTTAG
>SRR1919932_00594 biotin biosynthesis protein BioY
ATGTCCAGAAAAAATACTTTTCAGCTCTGTCTTTTGGCCTTATCCACGGCCTTGATCATTGTCGGCAGCCAGTTGGCGGTCCCCTTGCCGGGCGGGGTCCCTTTTACCCTGCAGACCCTGGTAATCCCCCTAATCGCGGCTGCCTTTGGCTGGCAGCTGGGAACCGGCGCCGTCGCCCTCTACCTGCTCTTAGGGGCCGCCGGTCTCCCCGTCTTCAGCGGCGCCAGTGGCGGCATCGCCGTCCTTTTCGGGCCTAACGGAGGCTTTCTCTGGGCTTTCTTGCCCCTGGCCCTGATCACGGGCCTGGCTAAAGGAAAGCGGCTGTATTTGACACTGACGGCCGGGATTGCCCTCTTTTTGCAGCTGCTAATGGGTGCGGCCTGGCTAGCCTGGATCAGTCATTTGCCTTTTACAGCCGCGGCTAACGCTGCTATCTGGCCTTTTTTGCCAACAAGCTTAGCCAAACTGGCCCTGGTCATTGCCCTAGCCCCGCGCCTGCGAGAGATTTTTACCACTTACGCCGGCAAGGTCAGCCGCGGCTACCAAAAATAA
>SRR1919932_00595 hypothetical protein
ATGATTAGTAAAGAAAACAAGTTGTTGATCCGGCGCTATCTTTACGCCATGATCAACATGTACGGTATTATTCCGCTGAGACACGCGTACCATATTTTCAGCCACCAGAACCCATTGCTCAACATTGACGAGGACGACTTCTGGGAATTCACCATGTTGGACCAGAGCGACCAGGACTACAATGTGGCCGGTGAAAGGGAACTGCTGGTGGAAGAGCGGTGCGAAGATGAGGATGAGGAATTCTACCTTTACGGCGACTGGGTCTTGATGGACCTGCCGCAAGATTTCAAGCGGATCAAAAAGCTCCAGCACAACCGCCTCTATTACGTGCCGGAGAAGGATGAATTTTTGCGCCGGGAAAACGAATGGTATTATGAACGGACCACGGCGACGGAAGAGTACCGCCAGTATCTGAAAGACAGCAATCCAGGCCTCAGCGACGACCGGCTGGAAGAAGCCTTCTTTGAGGCGCTGACCCAGCTGCACTCGGTCAGCTACGGCAAGACGGTGGAAGAGACCATAAACGCCGTGCCCCGTTCCCTGCGCCTGATCGGCTTCACTGTAACGGACGAGCAGGAAGATGAACTGCGGGACTTGCTCAGACGGATGCTGGACGGAACCCGGCAGGAGGCTTTGCGGGGAAAAATGTACAAGTACCACAAGCTGCCGACCACTTTGGAAATCATCGAGACGGAAGGCTTGACTCCGGAAAACATCTCCCGGATCCACAGCGGGAAGATCGACGCCATGGAACTGGTGCCCCAGATCGAGCTCAAGCAGCCCGACCTGGCCCAGCAATTGCTTACGATTTACCAGCAGTAA
>SRR1919932_00596 phosphoglycerate mutase
ATGAAGAAGATCTATGTGGTTCGCCATGGCCGGACCTATTTGAACAAGTACCAGCGCCTGCAGGGCTGGTCTGACGCTCCTTTGACTGAAGAAGGGATCGAGGGTGCCCACCGGATGGGGAAGGCCTTGAAGGACCAGCATTTTGACTTGGTGGCCTCCAGCGACTTGAAGCGGGCGGCTGACACCCGGAAGATCATCGTTTCGGAAAATGACAACTGGGAGTCAACCGAGATGACCCAGACCGCTGACTTGCGGGAGCTATTTTTTGGCTACTACGAGGCCTTCCATGATACGGAAGGAGTAGCGGCAGCCTTCAAGTCCACCAAGTACCCCCGCCTGGTCGACGCGGTCAAGGACGGCTACACTTGGCAGGAAATCGGGGACTTATTCCACGCGGCTGACCCGGAGGGGGATGCTGAAAGCGGGAGCGAGTTTGAAAGCCGCCTGAAGCGGGGGATCGACTACCTGGTCAACCATGATGAGTCAGAGCGGATCCTTTTGGTTGGCCATGCCTGCGTCATCCATTGCCTGGCCTGCATCTACGGTGGCAAGCACCTCAGAACCGACTTGCCTAAGCACAACGAGATGACGGTCTTGAATGTCGATGATAACGGCCAGGTCAGCCTGGAAGAATTTGGCCGGCCGATGTACTGA
>SRR1919932_00597 esterase
TTGTCGATGGCAGACTTGATGCTTTCCTGGCATAGAAAGGTAAAAATGCGAATTTTATTACTTGGTGACAGCATCTTTGCCCGCAAGGAAGGGCTGGATCAGCCTAGAATCAACTGGACCTTGAAAGAGAAAAAGCCTGACCTGGAAATCGACAATACGGCGGTGTCTGGCATCAATTCCGGCGCCCTTTTAGCCCTGTTAGGAGACCTGGCCTTAAAGCGGCCCCGGGCTGACCAGCTTTTCTTAATGGTCGGAGTCAATGACGCGGCCAGCCATAAGCAAGTGCCACTAGACCAGTACCGGAAGAACCTCCAGGCTATTGTCTCCGCCCTGGTCTGCTTTTATCCGGGGACCAAAACCGTCCTGGTCTCCGGGCCGGCGGTGGATGAAGCTAAGCAGCGGGGGCGGACCAACGCAAAACTGGCAAAGTATACTAAAGTAATGGAGGAAGTCGCGGCTGAATACCAGGTTGCCTATGCCGACTTTTTCACGGCCATGCTGAAGGAGGGAAACCTGAAAGCCCTGTGCCGGGGAGAACTTGACGACGGCCTTCATTTTGGCCCGCGCGGTTATCAATTGCTGGCAGCGGAAATGATGAAGCAGCTGCCCAAGGAAGGGTAA
>SRR1919932_00598 DegV family protein
ATGACAGCGGGCAACTTGGGGAGCTGCCAGTTGGAAGTAGCGGCCTTGAGCCTGATTCAAGGGGATAAGACCTGGCTGGACGACGCCAGCTTTGACCAGGCGGAATTCAATCAAAGAGCCAAGGACGGGATCGCGGCGTCTTCATCCTGCCCCAGTATTTCAGCCTGGCTGGACGCTTACGCCGGGGGCAGCGAGATCTATGTCGTGACCATCTCATCGGTCTTGTCCGGCAGCTACAATTCAGCCGTGCAGGCGGCAAAGATTTACCAGGAAGAATACCCGGATGCCTTGATTCACGTTTTTGACAGTAAAAGCGCGGGTCCGGCCCAGTTTTTGGCGGCGGAGAAGATCGCGGAACTGAAGGAAAAGGGGATGCAGTTCCCGGACCTGGTGGAAGCAGTGAGCGACTACCTGGAAAACCATGTCCGCATCTTTTTTGCCTTAAAGTCGATGACCAATCTGGCCAACAATGGCCGGGTCAGCCCGGCGGTGGCCAAGATCGCCGGACTTTTGAAAATCTGGGTCTATGGCTGGGCAGAGGAAGGCGAAATCAAGCCCCTGGGCAAGGCCAGAGGGGAGAAGAAGACCTTGGCAGCCCTGCTGAGAACTTTGGAAGAGAAGGGCTACAGGGGCGGCCGGGTCAAGATCGACCACGCTGACAACTTCGACAGCGCGGCTGAGCTCCACGACTTGATCAGGAAAAAGCGTCCAGAGGCCAGGGTTGACCTGGGCACCTGCCGCGCCCTATGCAGCTTCTACGCTGAAGCGGGCGGGCTGATGATTGGAGTAGAAATTTAG
>SRR1919932_00599 hypothetical protein
ATGGAAAAAATTGCCCGTTCCCTGGCCGGCCTGCACCTGCCCCGTTACCAGGAACTGCCCCAGATGGGCCTGTACCTGGAGCAGACCGCGACTTATATCAATGAGGCCCTGGCCCCCTTGGAAAACGTCCACCTGACCAGTTCCATGGTCAGCAACTATGTCAAGCATGACCTGATCGCCTCACCTAAAAAGAAGCTCTACAGCCGCCAGCAGATCGCTGAGCTGGCCTTTATCGCCGTGTCCAAAAACGTCCTCTCCCTGGCTGACCTGTGCGAGGCCCTGAAGCTGCAACGGTCCAGCTACGACACTGAGACGGCCTACAACTACATGGTTGATGAACTGGAAAACGTTCTGGCCTACGTCTTCGGCTTTAAAGGCGAGCTGACCGACGTCGGCCACGAGCATGGCGAATACAAAACCATGCTCCGCAACGTCATCATGACCGTCAGCTACAAGGTCTACCTGGACAAGTACTTTGCCCAGTTTACCGGCCAAGAAGAAGAGTAA
>SRR1919932_00600 glutathione reductase
TTGAAGAATCCATATGATTTTGATGTCTTGTACTTAGGTAGTGGGCATGGCGCGTTTGACGGGGCCGGCCCATTGGCAGCTTCGGGAAAAAAAGTTGCGGTGGTTGAAGGTGACATGATCGGCGGCACCTGCCCGAATTATGGGTGTAACGCGAAAATCACGCTTGATACGCCGGTGGTTTTGCAGCGGTTGGCAGAACGGATGCAGGGTGTTGTGTCTGGCAATATCAAGATCAACTGGTCGGCATTAGTGGCCCATAAACAAGCCGTGATTAAGCCGTTACCGAATGCTATCGGTACGGGATTAACCCAAAACGGCGTGACGATCATCCATGGCTATGGAAAATTTCAGGACGCTCACACGGTTGTTGTGGGTGAAAAGACTTATACCGCTGACAAAATTGTCATTGCGACCGGCCAGCGCCCGCATCGCATCGATGTTCCAGGGACCGATTTAGCCCATGACAGTCGGGCCTTCATGGACTTGGACGTCTTGCCGAAGCGAATCGGTATTTTGGGATCTGGCTATATCAGTATGGAATTTGCGACGATTGCCAATGCGGCAGGCGCCGATGTCCATGTGTTGATGCATCATGATCGTGCTTTGCGGGAATTCCACCAGCCGTTTGTCGAAGATGTGATGGCCGACATGACGAAACGGGGCATTCAATTCACGCCGAACGCGGCGGTGACGGCGCTTGAGAAGACCACTGATGGCATTGTGATTCATTATGGTGACAAGGAACAGTTAGTTGTCGATTGGGTGCTGGACGCAACCGGCCGAATCCCGAATGTTGAGCAACTGGGATTAGAAAACATCGGTGTCAAGTTTAACCAGCACGGGATTCTTGTGGACGACTATCTGCGAACCAATGTGGCCAATATTTATGCATCGGGCGATGTTTTAGACAAGCTACAACCCAAATTGACGCCAACAGCCACGTTTGAGTCCTATTACCTTTACAAGTTACTGAGCGGCCAAACAACTGCGCCGATTGATTATCCAGCGATTCCGTCAACGGTTTACACCTCGCCAAGAATTGCCAAAGTAGGTGTGGCACCGGAAGCGGTCAAGGATGATACTAACAAAGTCGTGCACAACCACATTCCGGATGACTGGTATCATCAAACCGATCAGGAAACGGTGGGTGATAGCCTTTTGGTGTTCGATCAGGAACATCATCTTGTCGGCGCCACGGAGTACAGTGCTCAGGCCGAAGATGCGATCAACACGTTATTGCCGGCGATTGTCTACCATCTGAGTCGCGATCAGATGTGGCAAATGGCGCACATTTTCCCGGCTGAGGGTGCAGCGGCATGGCATAAGATTCGGTAA
>SRR1919932_00601 hypothetical protein
ATGGCTAACAAGATTAAGGTAGATGCTCAGGACGTAATGCAAAAGACCGCACAGGCGGCCGAAATGGCCGAGGAAAAGCCACAGGCGGTTAAGGTGGTAAGACCCCGGGCAAAAAGGAAAAAGCCCGCTGAGGTCAAAAGCGAGCATATAAACATGGTAATCAGTAAGGAAACACGTGCTAAGCTTGAGGCGTACAAAGCGATCACGGGCAAGACCACAACCGAACTCTTTCAAGAATATTTAGACAAGCTGTGGGTAACAGATCGGGACGTTACGGATAGCGAGCTCTTTCGTGACCTGTATATTAACAACATGAAGAAATACGGTTTATAG
>SRR1919932_00602 ATPase, para family protein
ATGGCAAAAATAGTAACTGTAACCACTCAAAAAGGCGGGGCGGGTAAAACTACCCTTGCCCTGTTACTAGCGACAGGCGAGGCTCTAAGAGGCGAGAGGGTGCTACTAGTGGATCTTGACCAGCAAGGGGATGCATCTTATAGTTTGGTCAGCGATTACGATCCCAGCAAAACGAGCTATGAGTTATTGACCAGCGAGAGCGTGCAAGTCCCGGCTGTGGCTACACCCGTTAGTGGATACTTGAATCTTGATCTAGTCCCGGCATCCCTCACTTTAGAGCGTGTCGAGGTAGAGCTAGCGGGCGTGCTAGATGCTCAGTTTATCTTGTCTGACAAGCTAGAGGCGGTCAAAGATGATTATGATTTGATAGTCATTGACACCCCGCCAAGCTTAAACGTCATTGTCAGCAATGCATTGACGGCGGCGGATAAGCTCATCATCCCCGTGCAGGCGGACATTTACAGCTTTAAAGGCATGGCAACCCTTGCCCAGCGTGTCAAGGCAATACAGCGGCGCTCTAATCCCCGCCTTTCAATCTGTGGCATTGTGCTAAACAGATATAACCCCCGCACTAACCTAAGCAAGGCGATCACAGAGGCTTTAAATGAGGTAGCAGAGCAATTTTATACTAAGGTTTATCGATCTACCCTAAGGGATGCAACGGCCGTGAGAGAGGCGCAAAACGCCAAACAGAGCCTGTTTGAGTATGCTGCCAAAGGGGCAAAGGTAACCGAGGATGCAAAAGCACTATTAAACGAGATTGAAGAGGATTTAAAGAATGGCTAA
>SRR1919932_00603 putative integrase
ATGGTAGCGATCAAGCAATGGTTTAAATGGCTTGAGAGCATCGGCAAATATCCCAACATTGCCCAGTACGTCAAGTCGGGCAAGGTCAACCGTAAGAGCCCTAAAAGCTATTTTGAGGCGGCTCAGGTCAAAGAGATACTAGACCAGATCGACCAGACCACACAGGCCGGGAAGCGGGATTATGCGCTGTTAGTTTTGCTCTTTACCTGTGGCTTACGGACGATTGAGGCATCCCGGGCTAAGGTCAAGGATATAACCATTTTAGGGGCATCCCGGGTGCTTTTAGTGCAAGGCAAGGGGAAGGCCGATGCGAGCGACTATGTACCGTTGCCGGATCACGTTTACACTGTCTTGACCGACTATTTAACCACCCGTGGCATCGATGCAAAGGATATCCCAGCATGCACAGAGCCGCTTTTTACAAGCACTAGCAACCGTTCAAAGGGTCAGACCCTCAGTACCCGATCCATTAGCAAGATCTGTAAGACTAGATTTATCAAAGCCGGGTTTAATGACCCAAAATGGACGGCACACAGCACGAGACACACAGCCGGGATCTTGTCCTTAGAGCTGGGGCACAGCCAAAGAGATACCCAACTAATGCTCAGACATGCGAGCGGCGACACGACAAACATTTACTTGCACCAGATTGGCAAGCTGGGCAACTCAGCAACGGCCGATATTAGCAAGGCAATATTTGATTAG
>SRR1919932_00604 hypothetical protein
ATGACCAATGACATCACGTTTGCCCAAACCTTAGACGGGGCAACCCTTGATAGCTTTTTACTGTATCTTGAAGACATGCCGAACACGGCTAAGACCTATAAAAGCTGTATCAAGCGCTTTAAGCTGTGGCTTAAAGACCAACCGGACGCCCAGCAACCGACAACGAACACTGTTAGACGCTATAAAGAGGATCTGACCATAAACCTAATACAGTGCACCTTTACATGGTAG
>SRR1919932_00605 DNA-binding ferritin-like protein
ATGAAATATACGAAAACTAAAGCAGTATTAAATCAACTCGTTGCCGATTTGAGCCAGATGTCAATGATTATCCATCAGACGCATTGGTACATGCGTGGACCCAACTTTTTGAAGTTGCACCCCTTGATGGATAAGTTCATGGAAGAAATTGATAGCCAACTCGATGTCATTTCTGAACGGCTGATTGCGCTTGATGGCAATCCTTACTCGACCTTAAAAGAAATGGCCGAAAACACTAAGATTCAAGACTGGCCTGGTGAATGGGACAAAACAACCCCAGAACGCCTCGCACACTTAGTTGATGGCTATCGTTACTTGGAAGACCTTTACCAATACGGCATTGAAGTATCCGATGTTGAAAAAGACTTCAGTACCCAAGATATTTTCATTGGTCTCAAAACCGCAATTGAGAAGAAAATCTGGATGATTCAGGCAGAGCTTGGGTCGGCGCCGGAAATTGATGAATAA
>SRR1919932_00606 hypothetical protein
GTGGCTGAAAAGGGGATCGAAATTGAGAACTGGCAGCAGAGCAAGTTCTACCAGTGTGTTGGCCTGGTGGACTTGGCCAGCGACAAGCCGACCTGCCTAGACAATGGCAGCCATTTCCGCTTGCTTTATGTCAACGAAGAATTTCAGAAAGAAGTCAAGCGGGCACCGGCAGTCTTTAAGCAGATCGTTAATGAATGGAACAAGCCGGAATCAGAAATTGCCAAGCGGCTGCAGGCCTTTGCTAAAAAGGTTGACCAGGGTGAGGCAAGCTACTTTGACCTTAAGCAAACCGAGCAATATCTCCGCCTTAGTGCCCAGCAAATTGCCAGATGCTCTTGA
>SRR1919932_00607 hypothetical protein
ATGTTGCCGGCGGCCATTCACAACTTCCGCCAGGCCGGTTATGAAGTCTGGATGGACGACTTTGGTAGCGGCTATTCTTCCTTAAACTATCTCAAGAATTTTGAATTCGATGAGATCAAGCTGGATATGATCTTCATGAAGGACTTTGACGAAGCTTCAAAGAAGATCTTAACCGCCTGCGTGAAGATGGCCAAGGACCTGGGAATCCATACTTTGGCTGAGGGGGTTGAAACTAAGCAGAAGTTGGACTTCTTGCAGTCGATTGGCTGCGAGCGAATCCAGAGCTTTTACTACAGCAAGCCCTTGCCAACCGGTTAG
>SRR1919932_00608 hypothetical protein
ATGCAGGAAAAGGAAGAATTAAAGCAGTACTTGATCGACCACCTGGATGAAGCTATTGAAAAGCACTACCTGCAGGTTTACTACCAACCAGTCATCCGGACCTTGACCGGCCGCCTCTGCGGGGCGGAAGCCTTGATCCGCTGGATTGATCCGGTCAAGGGATTCTTGTCACCGGACGACTTTATTCCCCTCTTTGAAGAGATGAACTTGTCCTACAAGGTTGACCGTTATGTCATCCAAGAAGTTACCCAGGGCCTGCGCGGGCGTATCGACAAGGGAGAAAAGCTCGTGCCAGTTTCCATCAACTTGTCCCGGGCAGACTTCCAGATGATGGATCCTTTGACCGAATTAAACCAGGCCATGCGGAAAAATGGCTTGCGCTGGTCCCTAGTCCGCGTGGAAATCACCGAAAGTGCCTTATCTAAGGATGTTGCCGGCGGCCATTCACAACTTCCGCCAGGCCGGTTATGA
>SRR1919932_00609 lipopolysaccharide biosynthesis glycosyltransferase
ATGACAGTTCCAGTATTTTATTCAATCACTGACGACTTCACCCCATACGCGGCTGTCTCACTGCACTCTTTAGTCAAGCATGCTGACCCAAAGCGTGACTACACGGTAACCTTTTTGCACCAGGGCTTAAGCCGGGACCATGAAAAGGCCCTGGCCGCTTATAACAGAGACAATGTCCACATTAAGTTCTACGAGATGTCCGACGAACTCCTCAAGCCAATCCAGGACCGGAAGGAGAACTACTTTCGGGGCGACTTCGCCATGTCCATTTTCTACCGCCTCTTTATCCCGGACCTCTTCCCGGAATACGACAAGGTAGTCTACATCGACAGTGACACGGTCTTAAATGACGACATCGCCAAGCTTTATGACCATGACTTAGGCAATAATCTCCTGGGTGCCTGCACCGACACTTCCATCCAGTTCGTGGAAAAGATTCTCCGCTATATCAAGGAAGTCTTGGCTCTGGATCCGAAGGAATACATCAATTCAGGGATGCTGGTCATGAACGCCAAGGCCTTCAGAGAGGAAAACTTCGTTGACAAGTTCTTCAGCCTCTTGGGCCGCTACCACTTTGACTGCATCGCCCCGGACCAGGACTACCTAAATGAAATCTGCTCCGGCCGGATCAAGTACCTGGACGGCCGCTGGGACGCCATGCCAAACGAAAATACCGCGGCCTTGGAAAATCCTGGCCTTATCCACTACAATCTCTTCTCTAAGCCTTGGCGCTTTAGCGGGATCCAGTATGAAGACTACTTCTGGACTAACGCCGAAGAAACCATCTTTGCGGATGAACTGAAGGCAGAACTGGCCAAGACGACCGATGAAGAAAGGGACACCGAATACCACAAGCTGGACCGCGAGCTAGACATGACCCTGCAGGATCCCCACAACTGGGCCCGGGTTAAGGAAAATGAGCAGGTAACTTTATAA
>SRR1919932_00610 DNA repair protein RadA
ATGGCCAGAGCTAGAACCCAGTACAAGTGCCGGTCTTGCGGCTACATCTCCGCTTCTTACCTGGGCCGGTGCCCGAACTGCGGGGCCTGGAACCAGTTTGAAAAAGAAAGCCAGGAGGTCCGTCAGACTTCTACTAAAGCTACTCCCAGCCGCTTGATGGCCAACGTGGGTGCTAAAGAAGCCGTTAAAATGTCTACCGTCAAGGCGGAAAAAGAAGAGCGGGTTTTAACCAAGTCCTCTGAACTTAACCGGGTCTTAGGCGGCGGGATCGTACCAGGCTCTTTGGTCTTGATCGGCGGGGACCCCGGCATCGGCAAGTCCACTTTGATGCTGCAGATCATGAGCGAGCTGGCCGAAAAATACAAGGTCCTCTACGTCTCCGGGGAAGAATCTGCCAGCCAGATCAAGCTGCGGGCTGACCGCTTAGGCCTGGGCCAAAGTCCCATGCTTTTATACCCGGAAAGCAACATGGAACACATCCGCGACCAGATCGATGACGTTAAGCCAGATTTTGTCGTGATCGACTCCATCCAGACCATGAACGAACCCAGCCTGGACTCCATGGTGGGCTCAGCTTCCCAGGTCCGGGAAGTTACCGCGGAACTGATGAAGATCGCCAAGCTGGACCAAGTCACTGTCTTTGTCATTGGCCACGTGACCAAGGAAGGGTCCATCGCCGGGCCGAAAATCCTGGAGCACATGGTTGACACCGTCCTTTACTTTGAAGGTGACGAGCACCATGCCTACCGGATCCTGCACTCAGTCAAGAACCGTTTTGGGGCGGCCAACGAAATCGGCATGTTTGAAATGAAGACCGAAGGCCTGGCAGAAGTGACCAATCCTTCCGCGGTCTTCTTAGATGAACGCCTGCCCGACTCAACTGGGTCAGCCGTGGTCGTTTCTTTAGAAGGTACCCGGCCGATCTTGGGCGAAATCCAGGCCCTGGTCACCCCAACCGCCTTCGGCTATGCCAAGCGGACTACTTCGGGCCTGGACTACAACCGGGTCTCCCTGCTTTTAGCCGTTTTGGAAAAAAGGGGGAACCTAATGCTGCAGAACCAGGACGCCTATTTATCAGCGACCGGCGGCATCCGCTTAAACGAACCGGCCATTGACCTGGCCATCGCCATGGCCATTGCCTCCAGTTACTATGACAAGGAAATCTCTGCGACTGACTGCTTTGTCGGGGAAATCGGCCTGACCGGGGAAGTCCGCCGGGTCAACCAGATACAGGCCCGAGTCAAGGAAGCCGGCAAGGTTGGCTTCAAGCGGATTTTTATCCCGAAATACAATATGAGCCCGGCCTTGCAGGATTTGGGGATTGAGGTAATCCCGGTCTCCAGCGTCCGCCAGGCCCTCCACTACCTTTTCTCATAG
>SRR1919932_00611 deoxyuridine 5'-triphosphate nucleotidohydrolase
ATGAACAGAGTAAGAGGATTTGAAGTAGTTAAGAAGTATGAAGGACAAGGCTTGACCCTGCCCCGCAGGCAGACTTTGGCCAGCGCCGGCTACGACATCGAAGCTGCCCGCGACATCACCATCCCCAGCATCTGGACCCTGAACTTCGTCAGGATCTTCCGCTTGATCAGAAACGGCCATGACTTGATCGAAAGCGACTTTTTGCAGGCTGAAGAAGTCTTAAAGCCGATCTTAGTCCCAACTGGCATCAAGGCCTACATGCCAGAAGACGAGGCCCTGATCCTGGCCAACCGGTCCTCCAACACATTCAAGCGCAACCTGTCCTTGCCAAACGGGATCGGCGTCATCGACAGCGACTACTACAACAACCCCAACAATGAAGGGGAGATCTTCGTCCAAGTCTTGAACTACGGCGTCCGTCCCCTCAAGATCAAAAAGGGTGAGCGGATCGCCCAGGGTATCTTCATTAAGTACCTCAAAACTGATGACGACCAGCCAATCGAAAGCCAGCGCTTAAGCGGCTTTGGCTCAACCGGCAAGAAGGGCGGCAAGTAA
>SRR1919932_00612 hypothetical protein
ATGCCAGAAGAAAGAGAAAAAGTCATTGAAATCAAGGCTGACGGCCAGTTGGTTGCCAAAAGTCCCCTCCTCTTGATCGAGAGAAAGAGCGGGCCGGTTTGGGCCATGAACCAGCTTTTTATTGCGCCGGGGGCACCAGAAGGAACTTTGGACCAAGTGATGAAGCAAGTAGAAAAGCTTTGCCAGGAGACGGGCTTAAAAGTTTGGCCTTTAGACCCGCAAGTGATCGCTTATTGTCAAAAGCACGGGGAATTGACGAACATTTGGGCCGGGAAACCAACAAATTAA
>SRR1919932_00613 aminopeptidase C
ATGTCAAAAGAAATCAGCTTTGACACGATCGAAGACTTCACCAGCAACTTGAGCAAGCACCCAGCTTACGGGGTAGCTGCCAACGCTGCCCAAACCAACGGGATTTTCAAGGCCAGCCAAAGCACCCAAAGCAAGGTTGACCTGGACCCAACCTTCTCAGTGGAAATCGACACTGGTTCAGTTACCAACCAAAAGCAGTCAGGCCGCTGCTGGATGTTCAGTGCTTTGAACACCATGCGTCACTCAATCCAAAAGGAATTCAAGCTGAAGGGCTTTGAATTGTCACAGAGCTACACCTTCTTCTGGGACAAGTTTGAAAAGTCAAACTTCTTCTTTGAAAACGTGATCGGCTCAGCTGACAAGCCACTGGGCGACCGGAAGGTCTCCTTCCTCTTTGCCACTCCGCAATCAGACGGCGGGCAATGGGACATGCTCTGCGGCTTGATTGAAAAGTACGGGATCGTGCCGAAGAAGGTTTACCCGGAAACTGCTAACTCAGAAAACTCCCGTGCTTTGAATGACACTTTGAACACCATGCTCCGCAAGGGCGGTTTGGAACTGCGGGCTTTGGTCAACGAAGGCAAGAGCGCAGAAGAAGTAGAGGCGCACAAGGCTGAACTTTTGGACGCTATCTTCCGCATGCTGGCCACTTCACTTGGCCTGCCGCCAAAGAGCTTCAACTTTGAATACACTGACGATGACGGCAACTACCACATCGACAAGGACATCACCCCGCAAGACTTCTTCAAAAAGTACGTTGGCTGGGACCTGGAAAACTACATCTCAGTTATCAACGGGCCTACTGCTGACAAACCATACAACAAGGTCTTCTCAGTAGAATACCTGGGCAACGTGGTTGGCGGCCGGCAAGTCCGCCACCTCAACCTGGAACTGTCCAAGTTCAAGGAACTGATCATCAACCAATTGAAGCAAGGCGAAGTTGTTTGGTTTGGTTCAGACGTTTCCAAGGGCGGTGACCGGGAAGCCGGGCTTTTGGACACTAAGATCTACCAAAGAGACCAGCTTTTTGACTACGACTTCTCAATGAGCAAGGCTGACCGCCTGGACTCAGGCGAAAGCATGATGAACCACGCCATGGTTATCACTGCCGTTGACCTGGTTGACGACAAGCCAACTAAGTGGAAGATCGAAAACTCATGGGGTGACAAGCCAGGCTTCAAGGGCTACTTCGTCATGAGCGACGAATGGTTCGACCAATTCGTTTACCAGGCTGTTTTGAACAAGGCCTTCCTGCCAGAAGACGTTAAGAAGGCTTACGACGAAGGCAAGGAAAACCCAATCGAACTTCTGCCATGGGACCCAATGGGCGCTTTGGCTTTCGACTTCTAA
>SRR1919932_00614 fumarate reductase
ATGAAGGCTGGAAAATACACGGTTGACGCTCAAGGGCACAATGGCAAGTTTATGCTGACAGTGACGGTTGACGGGGACCGGATCGAAGACGTCAAGGTTGCTGAAGGGGAAACGGCTGGCATCTCAGACGCGGCTTTAAAGCGGATCCCAGAAGCAATTGTTAAGGGACAAACTTTAAATGTTGACGTCGTCTCCGGGGCTTCCCTGACTAGCCGGGGGATCCTGGACGGGGTCGGCCAGGCGATTGAAATGGCTGGCGGAGATGCTGAAGAATTCAAGCAGCGGCCAAAGTACCAAGAAGCAGAAAGCGAAAGCGGGGAAGTCACGGTTGACGTGGCGGTTGTTGGTGCCGGCGGGGCCGGATTTACCGCTGCTGTCCGCTCTTTGCAAAATGGCCTAAAGGTCGCCCTGCTTGAAAAGGCGCCAACTGTTGGCGGCAACACTATGCGGTCAGGCGGCTTTTTGAACGCGGCTGACCCGGAATGGCAAAACAAGTTTCCAGCCTTGCCAGGGGAAAACGTCACCCTGGAGCAAATGATGGAAGTCAAGGAAGACGAAATCGCGCCGGAATACCGGGAAGACTTCAAGGAAATGCAAAAGCAGATCAAGGACTACCTGGGCAGCGGGAAAGACTATCTCTTTGACTCCGTTCTCTTCCACCGCCTGCAAACTTACCTGGGCGGCAAGCGGGTTGACCTGAAGGGCAATGAAATCTACAGCGACTACTCTTTGGCCAAGACTTTGACTGACCATGCCCTGGAATCTGTTAAGTGGCTGGCTTCGGTTGGCGTTGACTTCAATATGTCAGCCGTAACCATGCCGGTTGGTGCCCTTTGGCGCCGGGCCCACAAGCCGGTAGAAAGCGATGGCTTTGGCTATATTAAGGCTTTGAAGAAGTACTATGATGAACATGGCGGCCAGACTTTTACCGATGCAAAAGTAACGGATCTTTTGCTTGAAGATGGCCGGGTAGTGGGCGTGAAGACTGAGAAGCTGACTGTACATGCCAAGGCTGTAATTTTGACGGCGGGCGGCTACAGCGCCAACACCAAGATGTTGCAAAAGTACAACACTTACTGGGATGATATTCCAGACAACATGAAGACGACCAACGCCCCATACATTACTGGTGACGGGATCAACTTGGGCCTTCAAGCAGGGGCTACCTTAGTCGGCATGGGCTTTACCCAGATGATGCCAGTTGCTGATCCGAAGACCGGTGAATACAATACTGGCCTGCAAGTTCCGCCAGCTGACTTTGTCATGGTCAACCAAAAGGGTGATCGTTTCGTCAACGAATATGCCGGCCGGGACACCTTGGCCAAGGCAGCGATCGCTAATGGCGGCCTCTTCTACTTGATTGCTGATGAAACGATCAAGAATTCTGCCTACAACACTGACGAAAACAAGATCAAGCAGGAAATCGCCAGCGGCCAGCTCTACAAGGCTGACACTCTGGAAGAGTTGGCAGAGCAGATCAAGGTTGACCCAGACCACTTACTGGCAAGCATCAAGAAGTACAACCAATACGTTGACCAGGGGGATGACCCGGAATTCCACAAGAGCGTCTTTGACCACCGGGTTGAAAATGGCCCATTTTACGCTACTCCGCGCCAGCCAGCCATGCACCACACTATGGGTGGCTTGAAGATTGACGCGGCTGCCCATATCTTAAATGAAGCAGGGGAAAAGATCGCGGGCCTTTACTGTGCTGGTGAAAATGCCGGTGGGGTTCACGCGGGCAACCGCCTGGGCGGCAACGCCTTAGCTGACGTCTTTACTTTTGGCCGGATCGCGGCAGACAGTGCCAAGAGTGAACTTGCGGTTGACACGGTCAGCGGGGCTTCTCACTAA
>SRR1919932_00615 2', 3'-cyclic nucleotide 2'-phosphodiesterase
ATGCGCAAATTATTTCTTTTGAGAGGCGCGCCCGGCTCTGGCAAGTCTTCATTTATCGCCCGGCACCACTTATTGCCGTACGCGATCAGCGGGGATGCGATCCGCCTGCTTTTGGCGAACCTGACCGTTTACTATGACCAGAAGACTGACGTTCTGCACCAGGTTATTCCGCGGCATGTCACGGAACAGACCAAGCGGATGAAGGACAACTTGGTTGAGCACAAGATGTCCTATGGGGAAACCGTCATCGTGGACGGGACCCACATTGTCGCCAGCGAGATCGATCACTACAAGAAGTGGTGCGAGAAGTACCATTACGAGTGCTATGTGGTTGATTTGATGCAGAACCAGACCCTGGAAGGTTTGTTGAAGAGAAACCAGATCCGGACGCAATACGACTGGGTGAAGCCGGAAGTCATCACGATGATGTACAATTCTTACAAGGCGCACCCGGAGCTGCCCAAGTGGGTTAAGGGGATCAAGCCCAACCAGATGGAGCAGGCCCTGCAGCAGAGAGAGAACAATCTGGACCATTATTCACATGTGATTGCCATACCTGATGAGGTGGCGGAAGAAGATTTTCCACATGTGCACATTTCCAACTTCTACTTCTCTTTCAACGACAAGTTCAGTGAAAAGTACGGGACTTACCGGAATGTGGTGACGATCGGCAAGACCAAGGAAGAGGTGGTCGACGAGTTTCGTCTGCCATTCTTTGCCTTTAAGTTCCACCACAAGCACTTTTTGATTTCGGCTTACCCGATCAGAAACGAGATGCTGGACCCGGTCAAGAAGGTCAAGGGGACCTGGTCTTACACGACCGGCCTTTACAACGTGGCTGACTTTATCAGAGAATTTCCGAAAAACGATAAATCACACGTTCACCAGTTTAATTTGAGCAATCTGGACCGGACCAGACTTTTGCACATTTGGTAA
>SRR1919932_00616 3-hydroxyacyl-ACP dehydratase
ATGCCAGTAATGACAGCCCAAGAAGTGATGAATTTGATTCCCAACCGCTACCCGATCTGCTATATCGACCGGGTGGAGGAACTGGAAGCCGACAAAAGGATCAAGGCCGTGAAGAACGTGACGATCAACGAGCCCTTTTTCCAGGGGCATTTCCCGGGAAATCCGGTGATGCCCGGGGTCTTGATCATTGAAACTTTGGCCCAGGCGGCCTCGATTTTGATCTTGAAGTCACCGGCCTTTTACAAGAAGACTGCTTATCTTGGGGCGATCCACCAGGCCAAGTTCAGAAGGATGGTCCGGCCGGGGGATGTTTTGGAAATGGAAGTGAAGATGCTCAAGGTCCGGGCTAAGACGGGGAGCGTGGCGGCAGTGGCTAAAGTGAACGGGGACCTGGTCTGCCAGACGGAACTGGTCTTTATCGTGGGTGACCGGGACGGCAAGGACATGCAGGCGAAAAATTAG
>SRR1919932_00617 2,3-bisphosphoglycerate-dependent phosphoglycerate mutase
ATGGCAAAGTTGGCACTGCTGAGGCATGGGGAAAGCCAGGCCAATGCGGCAAACGTATATACAGGCTGGAATGACGTCCCCTTAACGGATAAGGGCCGGCGGCAGGCCTGGGCAGCAGGGGAGAAATTAAAAGAAGTCGGGGACTTTCACCCGACTATGATTCACACCTCCCTTTTGTCGAGGGCAATTGAGACGGCGAACATCGCGGCCGAAGCCGCGGGCTTTTTATACCTGCCGGTTGCAAAGACCTGGCGGCTGAATGAACGCCACTACGGGGCCCTGCGGGGCCTGGACAAGGACGTGTCCAGGAAGATTTTCGGTAAAGAGCAGGTTTTAGAGTGGCGGCGGGGCTTTGACGCGGTTCCGCCAGCGCAAGGGTCACCAACTATCGACCGCCGCTATTGGGGAGTGGACCCTCAGCTTTTGCCAAGAGCGGAGAGCCTGCACCAGAGCCAGCTCCGCCTGTTGCCTTACTATGAAGACGAGGTGGCCAGCCGCTTAGTGGCTGGGGAAGACCAGCTGATCGTGGCCCATGGCTCCAGCCTGCGTGCGCTGATCAAATATTTAGAAGACATCAACAATGTGGATATCCTCAAGCTGGAGGTGCCTAACGCCCAGGCCATTGTCTATGACTTTGACCAGGAGCTGAACATTGTGGATAAGATGATCACCAACTGA
>SRR1919932_00618 hypothetical protein
ATGAACGTTCATTCCTGGTGGGTTCCTTATGCCATCTCGCTTTTCGGCATTTGGGATTTAATTACCGGCATCACGCGCCTGCGCCGGCAGAAGCAGGGCGTCAAGCAGAAGGGGCTGGGGGGCAAGGCTTTTGTCCTCTTAGGCATCCTCTTCATCATTACTGGAATCTGGGCTTTTTGGCTCTAG
>SRR1919932_00619 hypothetical protein
ATGAAGTGGGATACGCACACTTTTACGCTCGTTTTGCTGGTGATCGTGGGCCTGTGGGAATTTGCCCGGGGCTATAACATCCAGCGGATGGGGAAGAAGGACAGCCTGCCAGCCAAGTCCTACTACCTGACCGGGGCCGGCATCCTGGCCGTGGCCATTTATTACGCGGTAAAGTTGTGGGGCTAA
>SRR1919932_00620 phosphoglycerate mutase
ATGAAAACTGAAGTTTATCTGGTCAGACATGGGGAAACGCTTTTTAACCGCCTGAACAAGGTACAGGGTTGGTGCGATACCCCCTTGACCATCAAAGGAATTGACGATTTAAAGAAGACGGCTGACGCCCTCTCTCAAATTCATTTTGACAACATGTACTCGTCAGACTTGAAGCGGGCGATTGACACCGTCCACTTGATGAAGGACGTCAACCAGGTGTCTAACATTGGCAAGATCAAAAAGCTGCCGGAATTCAGAGAAGTTTTTTACGGTTCTTTTGAAGGCGGCAGCATCGATGATATCTGGCTCGGTGTTTCTAAAGCCGCGGGTATTCCAGCAACCACTGACGTAAAGAAGATTATCGATACCATCGGCATCTACAAGTTCCGGGAAGTCACTAAAAAGGCTGACCCCCTCCATTTGGCCGAAAGCACGGAAGAACTGGAAACCAGAATGTGTCGGGCCATCAAGGTCTTGAGAAAAGAGACCAGCGGCGAAGGCCGGGTCTTGCTGGTTTCCCACGGGGACTTTATCAAGACCCTGGGGATCAAGTACTGGAAGGAAAGCGACGGCCTGCATGACATCACCTTCCCGGACAACGGCAGCGTCAGCCGGGGGATTTTGGACGAAGAAGGCAATTTTGAAATTGTCGACTACAACTGCAAGGCTGAAGATTTATGA
>SRR1919932_00621 sulfite exporter TauE/SafE family protein
ATGCAGTTCATTTACCTCATTATCTTAGGCGTCCTGGCCGGTATCGTGGCGGCGGTGGCCAGCATGGCGTCGCTTGTCTCTTACCCGGGCCTGCTCCTCTTCGGCCTCAGCCCGGTCAGCGCCAATATGACCAATACGGCGGCCCTGGTGACGACCGGCTTTGGCTCCTTGTCCTCCTGCTTAAAGGAGATGCGGGGGCACTGGGGGGAGCTTTGGCGCTATGCCTTCTTCCAATTGACCGGGGCCTTAATTGGGGGCTGGCTTTTAGTCCAGTTCCCGGGAAAAATCTTTCAAAAATTAGTGCCCTTTTTTGTCCTTTTTTCAGCTGGCCTGCTCCTCTACAGCGGCCGGCAAAAGCATCCAAAGCAGGCGACCAAGCTGGGAAGAATCGGGGCTTATTTTGGCTTGTTCGTGGCCGGGATCTATGCCGGCTACTTTGGGGCGGCGTCGGGCGTTTTGACCTTGATCTTTTTGACGGCTTTAAGTGACTCTTCTTTTGTCGTCATCAACGCCATTAAGAGTGTGATCGGTTCTTTAGCCAACCTGGTGGCTCTGGCGCTATTTGCCTTTAAGGGCGGGGTCAACTGGCCAGTAGCTTTTCCTTTGGCGATTGGCCTCTTTATTGGTGGCTATTTCGGGCAAAAAATGATTAAATATCTAAAGCCTGCCTGGGTCAGATGGATCACGGCTTGCTTCTCGGTCCTTTTGGCCATTTACCTGGGCTGGCGGGCCTGGGGTTAA
>SRR1919932_00622 4-methyl-5(B-hydroxyethyl)-thiazole monophosphate biosynthesis protein
ATGCCAACTGCAGCAATTGTTTTTTCAGATGGATGTGAAGAAATCGAAGGCTTAAGCCAGGTCGACGTCCTGCGCCGGCTGGGCATCCCTTGCGATATGGTGGCTCTGGACAACTTGACCATCACTGGCGGACACGACATCCGCTTTACCTGCGACAAGTTAGTGGACGAATCACTACTTGACTACGACTTGGTCGCCTTCCCGGGCGGGGCCCCGAACGCCAAGCACCTAAGAGCAAGCGAGAAGCTGGCCGGGCTGATGAAGCAGCGCTTCGCGGCCGGCAAGTGGAACGCCGCCATGTGCGCCTCCCCGATCGCCTTGTCTAAGTACGGCTTCTTAAAAGAAGCCAAGTGGACCAGCCACCCGGACTTTAAAGAACAAGTTGCCAGTGAAAACCCGGCCAGCACCTACGTCGACACCCCAGCTGTCATTGACGAGGACCACAAGCTGGTCACCAGCCGGGGGCCGGCCACTTCCTGGGCTTTTGCCTATGCCCTGGCCCAAGTTTTAGGCGTGGACACCAGCCAGCTGGAAGACGCCATGCAATACAGCTACTTAAGAGACCACATCAACGAGGCTTAA
>SRR1919932_00623 GNAT family acetyltransferase
ATGACTGAAGAAACCTTAGTCAGAAAGGCAGAAAGCCGGGACCTAGAGGACATTGTCGCCATCATCAAAGACGCCAAGGCCCTTTTGAAGGCGCAAAACTCCAGCCAGTGGCAAGAAGGCTACCCTGACCGGGCCAGCATTGAAGAAGACCTGGACAACCGCCAGGGCTGGGTTTTACTTAAAGATGGGCAAGTCGCCGCATATATGGCCGCGACCGACTTTGACCCCAACTATGAAGTCCCGATTTGGGCGGGAAGTTCTCCCTACTGGGCTCTGCACCGCTTCGCCATTAAGAAGGATTTCCGCGGACAGGGGCTCAGCCAGCTTTTGCTGAAAAAAGTAATTGCTTTTGGCCAAGAAAATGGAATTAAGAGCTTCCGCCTGGATACGGGCAAGCAGAACCAGGCCGTCCAGCACCTGGCTGACAAATTGGGCTTTGTCTACCGGGGCATCATTACGGTGACCAGCGACTCGGTCGATCCGGAGCGGCGGGCCTATGAACTGCTTTTTGACAAGTAG
>SRR1919932_00624 L-alanine-DL-glutamate epimerase
ATGGCTGAACAATTGGCAATTGCAGACCTGCAGGTCGACATTAAGCAGATTCCCTTAAAGCAGCCCTTCGTCACGGCCCTGCACCGGGTTGACGCCGTCAACGCCGTCCGGGTGACGGTCCGACTGGCTAACGGAGTAACGGGTGTCGGTACCTGCACCCCTAATGAAAAAGTGACCGGGGACAGCTTGTCCAGCGCCCGGGCCGTTATTGAAGAAACGATCAAGCCTCTCGTCTTGGGCAAGAACCTGACCGACTGGAAGGAACTTTTAAACACGGTCAAGACTTCCATCGTCCACAATGCCCCGGCCAAGGCCGCGGTCGAAATCGCCCTCTACAATACCCGGGCCAACCTTTTTGGCCTCACCCTCTCCCAACTCTTAGGCGGCAAGGGCGGCAGCGTGGAGACCGACTACACCATCAGCATCGGCAAGGCTGAGCAAATGATCGCTAATGCCCAGAAGATGGTCGATCAGGGCTTCAAGACCCTTAAACTGAAATTGGGGGCTAGCCATTTAAAGCGGGACATCAAGCTGGTCGAAGACCTGGCCTACGCGGCTGGTCCTATGGTTCACCTGCGCTTAGACATGAACCAGGCCTGGGATGTCCGGCAGACCATGCAGGCGGCAGAATACTGGCACAAGCAGGGCCTTTTGATCGACTTTATCGAGCAGCCGGTCCCGGCCTGGGACCTGGATTCCATGGCTTACTTGACCCGCCACTCCCCTTACCCGATCATGGCGGATGAATCCGTGGAAAGCTACGAGGATGCCCAAAGAGTTTTGGCCAAAAATGCCTGCGACTACATCAACATAAAGCTGATGAAGACGGGCGGCTTGTCTGAAGCCCAGAAAATCAACGACTTAGCCGAAAGCCGGGGGGTACCAACCATGGTCGGCAGCATGATTGAGTCAATTGAGTCTTTGGCGGCAGCCTGCGCCTTCTACCGGGCCAACCCGAATACGATTTTTGCCGACCTGGACGCCATCTTCATGGTTGACCAGGACCCGGATTTGAATAGTTACGCCGAATGCTTCGGCGATAATATCGTGGTGAGATAA
>SRR1919932_00625 beta-lactamase class A
ATGCTGGATTTTAAGAAGATTGCTGACATCCTGGCCCCCCTGCCGGGGAAAACCGCCCTTTTGATCAAAGACAAGACCGGCGTCCTCTACGCCAGCCCCTTAGCCGGGGAAGAATTCAAGTCAGCCAGCCTGATCAAGCTGGCCGTGGCCTGCTACTACCAGGCCCACCCGCAGGACTTAAGCCAGATGGTCCATGTCCCGGAAGACAAGATCGTTGAGGGCGGGATGCTTTGCCACCTGGACCAAAGGGACTGGATGCTGCGGGACATTCTGGACTTGATGCTGTCGGACTCGGACAACACGGCCACCAACTTTTTGATCGATTTTATCGGCTTTGCCAAGATGGCCGCCTGGTTTGAAGCAGAATTTGCCCATCTTCACCTGGGCCGGTACTTGATGGAAGTGACTGACCGGGAAAACTACCTTTCCGCTGAAACTGCCCTGAAGCTCTTAGAGCGGCTCTTAGCTGACCCGTCTCCTTTTGGCCAGGTCTGCCAGAAGGCCCTCTTTTACCAGGAGTCCGTTAACAAGCTCCTCCAGGACCTGCCCGAGGGCTGCTCTTACAGCAAGACCGGGGAACTGGAAGACACGGAGCATGACGCGGCCCGGATTTTTGCCGGAGACAGTTACTATGACATCTGCTTCATGAGCCATTACACGGGCCTGGAAGAGCGCGAGCAGATCCTTTTGGCCCAGAACGCGGTCGGGAAACTGGCCTACCAGGACTTGACCGGGAAATAA
>SRR1919932_00626 hypothetical protein
ATGGACATTACCAATTTTTTCACGGTTGAGACTTCTGAGCTCTCCAAATCTGACCGGAAAATCATGAAGAGAATGACCTCCGACTTGACCAATGTTGAGTCGCTGACCATCAACCACCTGGCTGAAGAAGCGGGAACTTCCCTGGCTTCCGTTCAGCGCTTTTGCCAGAAGATGGGCTATTCCGGCTTTAAAGAATTCAAGTTCCAGCTGCTGACCTACATCAAGAAGCAAGAGAGCCAGGAGGCGGCGGTTTCAAGCAGCGAATACCTGGATGACTACCATGACGCTATCAACCGGGTCTGGACAGCAAATGAAAAGGACGCGGAAGAATTGGCGGAAGTCCTGGCGACCAGCTCGACCAACTTTATTTTCGGGATCTACTATTCTGAACTGCCGGCCAGGCTGCTCAGCATGGGGATGCGGGATCTGGGCAAGTCGACCTACTTTGGGGACAACCTGGCAGCTGGCGAGCACCTCTTCCCGCTAAGCGATGAGAACTCCACAGCGGTCTTTTATTCAGTTTCAGGGATCTCCAAACTTTTTGGCTCATCGCCCTTGCCCAAGTCGATTTCCCACTTCAAGCACAGCTACCTGGTCACCATGAACCCGGACACGCCTTTGAAGAAGTACTTTAAGAAGGTCATCGTCTTGCCGGGCAAGAACCTGGCCCAGGGCTTGCCGGTCGACCCCCAGTCGATCCCAGTGGTCTTTACTGAAAGAGTGATTGATATCGCGGCAACTAAATACCGCCGCTAA
>SRR1919932_00627 dipeptidase PepV
ATGGACTTAAACTTTAAAGAACTGGCGGAAGCCAAGAAAGACGCAATCTTAAAGGACTTGAGCGAATTGATCGCCATTGACTCTTCCGAAGACCTGGAAAACGCCACTGAAGAATACCCAGTTGGCAAGGGCCCGGTCGACGCCATGACCAAGTTCCTCAGCTTTGCCAAGCGGGACGGCTTTGACACGGAAAACTTCGCCAACTACGCCGGCCGGGTCAACTTCGGTGAAGGTGACAAGCGCCTGGGCATCATCGGCCACATGGACGTAGTGCCAGCTGGTGAAGGCTGGACCCGGGATCCCTTCAAGATGGAAATCGACGAAGAAGGCCGGATCTACGGCCGGGGCAGCGCCGACGACAAGGGGCCAAGCTTAGCTGCCTACTACGGGATGCTTTTGCTCAAGGAAGCTGGCTTTAAGCCAAAGAAGAAGATCGACTTCGTCTTAGGGACCAACGAAGAAACCAACTGGGTCGGGATCGACTACTACTTGAAGCACGAACCGACCCCAGACATCGTCTTCTCACCAGACGCTGAATACCCGATCATCAATGGTGAACAAGGGATCTTCACCCTGGAATTCAGCTTCAAGAACGATGATACTAAGGGCGACTATGTTTTAGACAAGTTCAAGGCCGGGATTGCCACTAACGTGACTCCGCAGGTTACCCGGGCTACTATTTCCGGACCTGACCTGGAAGCTGTTAAATTGGCTTACGAAAGCTTTTTGGCAGACAAGGAATTGGACGGATCATTTGAAATTAATGACGAAAGCGCCGATATCGTCTTGATCGGCCAAGGGGCCCACGCTTCAGCTCCGCAAGTCGGCAAGAACTCAGCAACCTTCCTGGCCCTCTTCCTGGACCAATACGCTTTTGCCGGCCGGGACAAGAACTTCCTCCACTTCCTGGCTGAAGTAGAACACGAAGACTTCTATGGCAAGAAGCTGGGCATCTTCCACCACGATGATCTGATGGGCGATCTGGCCAGCAGCCCGTCCATGTTCGACTACGAACACGCCGGCAAGGCCAGCCTCTTGAACAATGTCCGCTACCCGCAAGGGACTGACCCGGACACCATGATCAGGCAGGTTATGGACAAGTTCAGCGGCATCCTGGATGTCACTTACAACGGCTTTGAAGAACCGCACTACGTGCCAGGCAGCGACCCAATGGTGCAGACTTTGCTCAAGGTTTACGAAAAGCAGACCGGCAAGCCGGGCCACGAAGTCGTAATCGGCGGCGGGACTTACGGCCGCCTCTTTGAACGCGGGGTTGCCTTCGGGGCCCAGCCGGAAAACGGCCCAATGGTTATGCACGCCGCCAACGAATTCATGATGCTGGACGACTTGATCCTGTCCATCGCTATCTACGCTGAAGCCATCTACGAATTGACCAAGGACGAAGAGCTGTAA
>SRR1919932_00628 amino acid permease
ATGGAAGACCGCAGCATTGAAAACACGGACGGGACTATCCGCTCCTTGTCCAACCGGCACGTGCAGATGATTGCCATTGGCGGCACGATCGGTACTGGCCTCTTCTTGGGGGCCGGGACCACGATTTCTGCCACTGGTCCCTCAGTTGTTTTTATCTACGCCATCATGGGCCTCTTTTTCTTCTTCCTCTTGCGGGCCTTAGGAGAGATGTTCTATTTTGACTCCAACAGCCACACCTTCGTCTCCTTCATCACCAGATACCTGGGTGAGGCGGCTGGCCGCTTTGCCGGCTGGACCTACTGGATCGGCATCCTCTTTGCCTGCATGGCGGAGCTGACGGCCGTTTCAACCTATGTCCAGTACTGGCTGCCCGGCCTGCCCGCCTGGCTGATTGAAGTTAGCGTCCTAGGCCTCTTGACCCTGCTCAACTTGACGGCGGCCAAGCTTTTTGGCGAAACTGAATTCTGGTTTGCCATGATCAAGATCATCGCCATCATCTCCTTGGTCGTAACCGGGATCATCATGGTTGCCGCGAATGCTAAAACTCCGGTTGGCCACGCCAGCCTCAGCAACTTCACCGGCAGCTTCTCCCTTTTGCCCAAAGGCAAGTACGCCTTCTTCACCGCTTTTCCGATGGTCTTCTTCTCCTTTGCCGGGATTGAATTCGTGACGATTACCATTGGCGAGGCCAAGAACCCGAAGAAGGTCATCAAGAAGGCCGTCAACGAAACCCTGCTCCGGGTCCTTCTTTTCTACATCGCTACTTTAGCCGTAATCATGTGCGTCATCCCTTGGGGAAAAATTACCAGCGGGACAAGTCCTTTCGTCCAGGTCTTCAAGATCGCCGGCTTTAATGCTGTTGCTTCAGTCTTCAACTTCGTCGTATTGACCGCTGCGGCTTCTTCTCTTAACTCCGGGATCTTTTCAGCTGGCCGCCACTTCTTCCAGTTGGCTGAAGAAGCGCCTAAGGATTCCTTTTTGAAAAAGCACTTCGCCAAGATTTCCGCAAATGGCGTGCCAGCCGCGGGGATCGTGATCTCCGTTGCCTTAATGCTGATCGCGCCAATCATGAGCTTCTCCAGCACGGCTATTGAAGTTTTTGGCACGGTGGCCGGGGCAACGAGTGACATGTACATCCTGGTTTATGTTCTGGCCCTCTTGGCCCACCGCAAGTACCGGGAATCCAGCGATTTCATAGCTGCCGGCTTCAAGATGCCTTTTTACAAGCTCTCCAGTCCTTTGACCATCGCCTTCTTCCTGGTCATCTTCTTCAGCCTCTTCTTTATTCCGGCTGATGTCTTCGGGGCAAGTCTGGCCGCCAGCTGGGCCCTCCTCTTTGGGGGCTGGTGCTGGCTCAGCGAAAAGCATTGA
>SRR1919932_00629 hypothetical protein
ATGACTAAGCTGGAAGCCTTCCGCCAGGCCAACCCGGATTTGACCATCCTGGAAATCTCCGACCCGGCCTTTGCCCAGTATGGGGTCAAGTATGACTATCCCCTGGAAGAAATTGAACAGGTAATGGCCCGGGTTGAAATGCCCGCTAAGGGATCAAGCTACCTGCAGAAGATTCCGGCCTTGGAAAAGACGGAAACGATCCAGCGGATCGGCCGGGATGTTTTCGCGGGGATGCCAGTTGACGCCGGGGCCACGATCGGCCACACGGATGACTTTTCCGCTTTTGAATACCACCAGTGCTCAGAATTGAACATCATGCTTGATGATGTTCTGATGGTTTTAGGCAAGCGGCAGATTCTGGATCAAAGGGGCCAAATTGACCCGCAAAAAGACGGCCAGCTCTTCTATGTACCAAAGGGCTCGGTTGTTGAACTTTACAATACGACTCTCCATTACGCGCCGATCCAGATTACTAACGCAGGCTATAAAGTGATCGTCGTTGTCCTGCAGGGAACCAACCTGCCATTGCCAGATGGCTTTAAGAGTGACAATCCGCGGGTTGTCAAGCAGGGGAAGTTCCAAGTGGTTCACCCGTCCCGGACGGACAAGATCGCCCAAGGCTACCAAGTTGCCTTGACTGGGGACTTGCTCACTACCCGGCCGCTTGATTAA
>SRR1919932_00630 galactose-6-phosphate isomerase subunit LacB
ATGTTAGATAATGATCGTCCACAACCAGAATACGTTGATCCAAAAATTGACAAGCACACGGTTATCGCTTTAGGTAATGACCACATTGTTACTGCAACCAAGATGCTCATTTCCGACCACTTGAAGGACGAAGGCTACCAAGTCCTGGACATGGGGACTTACGACAACTACCGGACCCACTACCCAATGTACGGCAAGCGGGTGGCTGAAGCTGTTGCTGACGGCCGGGCAGACCTGGGGATCGTCCTTTGCGGGACTGGGATCGGCATCTCAACTGCCGCTGACAAGAATGAAGGGATCCGGGCAGCCATGGTCGGTGACGTTACCCAGGCCATTTACGCCAGAGAAGAACTGAACGCTAATGTTTTGGGCTTTGGCGGCATCGTTTTGGGCCGGGATTTCATTTTTGACATCGTTGACGGCTACTTGAATGCTGAATACAAGCCAAGTGAAGAAAACAAGAAGCTGATCGACAAGATCGACCACATTGCCAAGCCAAACCCAGATCAAAAGGACAATGAACACTTCTTTGACGAAGAAAACAAGAAGTGGGCACAAGGTGTCTACCATGACTAA
>SRR1919932_00631 galactose-6-phosphate isomerase subunit LacA
ATGAAAGTTGTTATCGGTAGCGACAAAGACGGATTTAACTTGAAGGAATCAGTCAAGGACTACCTTCAAAAGCATGATTATGAAGTCCTGGATGTTACTCCAGAACCAGCGGAAGACTTTGTGGAATCAAGCCTGAAGGTGACCCACGAAGTTTTGGACAACGGCATCAAGAAGGCCGTCATGTTTGACCGCTACGGCGTAGGCTCAGCCATGGCCTCAAACAAGGTCAAGGGGATGGTCACCGCCAACGTTAACGAAGAACGGACCGCGCACATGACCGCGATGCACAACGGTGCCAAGGCTATTGCTTTGGGCAGCGGGGTAGTGGGGCCAGACCTGGCCAACACGATCGTGCAAAGATACTTGGATACTGAATACGCCGCAGGGCGTCACCAAGTTCGTTTGGACATGCTTGAAAAGATGATTTAG
>SRR1919932_00632 DeoR family transcriptional regulator
ATGTTAAAGAGAGAACGTCTTGATCAAATAATGATCGCGGTTACCAAGCAAGGTTATGTTTCAGTTGCTGATCTGGCAAAGGCATTGAATGTCTCAGAAATGACCATCCGGCGGGATCTGGATGAATTGTCCAAGTCCGGCAAGGTCATCCGCCTGCACGGCGGGGTCCAGGCTATTTCATCCCAGAACCAGATCGAGCAGAATTTCCAGGAGAAAAGAGAAATCCACATCCAGGAGAAGCAGGAAATTGCCAAAGTGGCGGCAAGTCTGGTTAATGACAATGAAACCATCTATGTCGGCCCGGGAACCACGCTGGAATTTATGGTCGCTTGCTTAAATCAGGAGAATCTGCGAATCGTGACCAATTCACTGCCGATTTTTGAAATGGCACGCAGCAATCCGCGCAATTACAAACTGGTTTTGGTCGGCGGCTCCTATCGCCGGGTCAGCGGCAGCTTCTATGGTGCGCTTCCCAACAATGAGCTGGATTCGATGAATTACGACAAGGCCTTTGTTGGTGTCAATGGGATTAGTGATGCTGCCCTTTTGACAGCGGATATTGAAGAAGGACAAACGCAGAGCATTGGCCTTAACAATTCGCAAAAGCGGATCTTGGTGGCTGACATGTACAAGTTCAATCACCGGGACTTTTACCAGTTCTACAGCCTGTACGATATCGACGAACTGGTTACCAATGAACAGATTTCTCCTGACGTGTTGGAATATTATCGTCAATATACATCGATACGAACGCGCATCGAGGAATAA
>SRR1919932_00633 aldose 1-epimerase
ATGGCTAAGGAATACGCAATCGCTAATGAGCAACTGAAAGTAAAGATTTCTTCTTTAGGCGCTGAACTGCAGAGCATTAAGAGCAAGCAGGACGGCTATGAATACGTCTGGCAGGCTGATAGCCGCTACTGGGGCCGGCACGCCCCGCTGCTGTTTCCTTTTATCGGCCGGTCAAATGATAATTCCTACCTGCTGGACGGCCAAAAATACGCGATGAAGCAGCATGGCTTTTTGCGCGACTATGAATTCAAGCTGGTCAGCCTGGAGAGTGACCAGATCGTCCTGCTCTTTGAATCAAGTCCGGAAACCAAGCAGGTCTATCCTTACGACTTTGCCTTCAAGGTCAAGTACCAGCTGCGGGGGAAGGACTTGCTGGTCCGCTACCGGATCGACAACTTCAACGACAAGAAGATGTACTATTCCCTGGGCTTTCACCCGGCCTTCAACCTGGAAGGGGACTTGGCCGACTACCGCCTGGAATTTGACCCAAAGCAAACCGAACTGACTTCTTTACTGATTGATCCAGCTCCTTTCAGAAGCGGTAAGGAAGAAAAAGTTACCCTTAAAGATGGCAGCCTGCCTTTGAGCTGGCCGCTGCTGGACAAGGGCTTGAAGATCTACAAGGCAGACGCTGCCAGCCACGTTAAGCTGGCCAGCGGCCACCAGCACGCGGTAACTTTGGACATCAGTGACTTCCCTTACCTGGCCGTCTGGAGCCCGGAAGAGAAGCAGGCGCCTTTCGTCTGCGTTGAGCCTTTCCGCGGCCTGCCTGACCGCTACGGCCGGCCGGTTGAACTGAGCGAAAAGGATGGGGAGCAGTGGCTCTTCCCAGAGATGTACAACCAGATCACGACCACATTGACTTTTGATTAA
>SRR1919932_00634 tagatose-6-phosphate kinase
ATGATACTAACCATCACAATGAATCCGTCAATCGACATTTCATACCCTCTGGACCACCTACAGATCGATGACGTCAACCGGGTCAGCCAGGTCAGCAAGGTAGCCGGCGGGAAGGGGCTCAACGTCTCCAAGGTGATCAATCTGTTAAACCATGAAGTCCTGGCCACGGGGATTACCGGCGGCTACTTCGGCCAGTATATCGAAGACCAGCTCAAGAAGCTGGAATTGCCTTACAAGTTCTGGCACATCAACCAGGAAACCCGGAGCTGCATCGCAATTTTGCACGACGGGGGCAAGCAGACCGAAATTCTGGAAGCCGGCCCGACCTTAACGGAAGCTGATGGGGACCAGTTCCTGGACCACTTTAAGCAGCTCTTAAAGACAAGCAGCCTGGTTACCATTTCCGGTTCCTTGCCGGCTGGTCTTTCAGCTGACTACTACGCCAAGCTGATTGAGCTGACCCACCAGGCAGGCAAGAAAGTCCTCTTGGACAGCTCAGGCAAGAGCCTGGAAGCCGGTCTGGCAGCTGGCCCGGACCTGATCAAGCCAAACGAAACTGAATTGCAGCAGCTCTTAGGGCAAAAGATTGACCTGGATGATCTGGATGTTCTTAAGGCGGCCTTGAGCCGGCCAGAATTGGCCAATATTGAATGGGTGGTCGTTTCCCTTGGAGCCCGGGGCGCCTTTGCCAAGCACGGCCAGGACTTCTATGAGGCCAGAATTCCGAAGATCAAGGTGGTCAGCCCAGTTGGCTCTGGCGACTCAACCTTGGCCGGGATGGCGGTAGCCATTGACCGGGGGGAAAAGGCAGAAGACGTCCTGCGCTGGGGGATGACGACGGGGATGCTGAACACCATGCAGGCCAAGACTGGCTGGATCGACCCAAGTCAATTTGACGAATACTACAAGCAGGTTACGGTCACTAAATATTAG
>SRR1919932_00635 tagatose-bisphosphate aldolase
ATGATTAAAATTACTACAGATGTAGCACAGCACTTGGAAAAACTGTCAACTGCTGACGGTGTCATTTCCGCCTTGGCCATTGACCAAAGAGGATCTTTGAAGAGAATGCTGGCGGAAGCTGCCAACAAGCCAGCCGATGAAGAAACCATCGTTGAATACAAGAAGGCAGTTTCTGAAGAACTGACCAAGTATGCTTCTGGTATCTTGACCGACCCTGAATACGGTTTGCCAGCTACCAAGGTCCGGGACAAGAACTGCGGCCTCCTGCTTTCATATGAAAAGACTGGCTACGACACCAGTGAACCAGGCAGAATGTGCGACTTGATCGAAAACCAATCTGGTTTGCGGATCAAGGAAGAAGGCGCTGACGCCATCAAGTTCCTGCTCTACTATGACCCAGACGAAGGCGAAGCCATCAATGACAAGAAGCACGCCTTTGTCGAACGGGTTGGTGCTGAAGCCAAGGCTGTTGGCCTGCCATTCTTCCTGGAATTGTTGACTTATGACGCTAACATTGCCGACAACCAAAGTCCGGAATTTGCCAGGGTAAAGGCCCACAAGGTAATAGAAGCTGAAAAGGAATTCTCCAAGCCGCGCTATGGCGTAACTGTCTTAAAGGTAGAAATTCCTTTCAACATCAAGTATGTTGAAGGCTTCAACGGTGATAACGAAGTCGTTTACAGCCGGGAAGAAGCTAAGAAATTGTTCAAGGAACAATCTGACGCTACTGACCTCCCATACATCTTCCTGTCTGCCGGAGTAACTTCAGAAGAATTCATCGCTGAAATCAAGCTGGCTGAAGAAGCTGGCGCCAAGTTCAACGGCGTGCTTTGCGGCCGGGCTACTTGGAAGCCATCCATCAAGATCTTCGCGGCTGAAGGCGAAGAAGCCGGCCGTGAATGGATGCGGACTCAAGGCAAGGAAAACATTGAAAAGCTGAACAAGGCTTTGACTGGCGCCAAGTCATGGCGCGACAAGCTGGAAGTTGAATAA
>SRR1919932_00636 hypothetical protein
ATGAAAAAGTCTGACTCACCAGTATCAGCTGCTGAAAAAGCCCGGCGCGACCGGGTCTTCATGTGGACCGTCTTCGTGATCATCATCAATGCCGTCAGCCTCGTGACCAAGCTGTGGGTCTTTCAAGCGGCGGCTATGATCGGCACGACCTACGCTCTTTACAAGATCGTGGTCTGGGACAACAAGAAGAACCGCTACAGCCGGAAATACTACAACTGGGCTGGACATGCTTTAGACAAAAAAGATTCAAGCAAGTAG
>SRR1919932_00637 galactitol-specific PTS system IIC component
ATGAATGCGATTATTTCCTTCGCGAACGCGGTTTTCAAACCGTTGATCGACATGGGCGCGCCAACCATCATGCTGGTGGTTTTGACGGTAATCGCCCTGTGTTTCAGAGTCAAATTCAGCAAGGCGCTTGAAGGTGGTATGAAGCTGGCCATCGCCTTGACGGCCATCAGCAACGTCATGTCAATGCTGACGACAGCCTTCCAAGTACCAATGAAGCAATTCGTTGAACACACCGGGATCCACATGGACATCCTGGACATGGGCTGGGCACCTCTGGCTACCATCACCTGGGGTTCACCTTACACCCTGTACTACTTGTTGGTTTTGATCATCTTGAACGTGGTCATGCTGATCTGGAACAAGACCAATACCCTGGACGTCGACATCTTCGACGTTTGGCACTCAGCCTTTGTCGGCCTCTTCAGCATGTACTGCGGGGCTCCGCTTTGGCTGTCAACCATCCTGGTTCTCTTCATTGGGACTTTGAAGATCATCAACTCTGACTTGATGAAGCCAACCTTCAATGACTTGCTGGACGCTCCTGACTCCAACCCAATGACTACGACCCACATGAACTACATGATGAACCCAATCATTATGGTCTTCGACAAGCTCTTTGACAAGATCTTCCCATGGCTGGACAAGTTTGACTTCGACTCAGCCAAGTTGAACGAAAAGATTGGTTTCTGGGGCAGCCGCTTCGCTATCGGTATTTACCTTGGGGTCTTTGTTTCCTTGCTGGCCGGCACCGACTTCACTACTGAAGAAGGCTGGAAGAACATGTTCACCCTGTCATTCACTGCCGGTACCTCCATTGAATTGTTCTCAGTCATCGGTTCCTGGTTCATTGCATCTGTTGAACCACTTTCCCAAGGTATCTCTACTTTCGCTACCAAGAAATTCGAAGGCCGGACCTTCAACATTGGTTTGGACTGGCCATTCATCGCCGGCAGGTCAGAAATCTGGGCTGCATGTAACGTTTTGGCCCCAATCATGATGCTTGAAGCCATGGTTCTGCCAGGCAACAGACTGATGCCATTAGGTGGGATCATCGGTATGGGTATCGCGCCTGCCTTGCTGGTAGTTACCCGGGGTAAGATCATCCGCATGATCATCATCGGTGCTTTGGAACTGCCTGTCTTCCTGTGGGCTGGTACCTTGGTCGCACCATTCGTCACTAACGTCGCCCACCAAGTTGGTGCCGCAATTCCTGCCCACACCTTGGTTTCCGACACGACTATGGAAGGGCCTGTTGAAAAGTTCCTGGGCTACCTGGTTGGTAACGCTTGGAGCAAGCAGGGGATGTTCATCGTCTACGCTCTCCTGGCTCTGGCTGCCTACCTGCTGCTCTTTATGTGGTACGCAAAGCAGATGAAGAAGCGCAACGCTGAATACGCTGCTGCTAAGGCAAAGAAGGACTAG
>SRR1919932_00638 PTS system IIB component
ATGGCTAGACAAATCAAGCTTTTGGCAGCATGCGGTGCCGGGGTTAACTCATCCCACCAAATCAAGGACGCGGTTGAAGCGGAAATGAAGGCACGCGGCCATAACGTAAAGTGTGACGCGGTAATGATCAAGGACGTCAACGAAGACTTGCTGAACGACTACGATGCATATTTGACGATCGCCAAGACCGACCTGGCCTTCACCCCAAAGATCCCAGTCGTTGAAGCTGGTCCAATCCTTTACCGGATTCCAGCCATGGCTCAGCCAGTCTACGACGAAGTGGAAAAGATCTGCAAGAAGATTGAAGCAGAATAA
>SRR1919932_00639 PTS sugar transporter IIA component
ATGTTGACAGCGACGAAGAATGACTTGTTCGCCAGTGACGCGGTGTTCATCAGCGAAGAGACCGATAAGGAAGCCGTGATTCGTGAGGTTTATCAAAAGCTACTCGATCGGGGCTATGTAAAAGGAGACTTCATTGCGCATGTCTTGGAGCGCGAAAAGCAATACCCAACCGGGATTGATACTTCGCCGATTTCCAAGGACCTGCCCAATGTTGCTATTCCACACACGGAAGGCGAGTTCGTGAACACGCGGATGATCGTGCCAATCGAACTGGTCCACCCGGTTAAGTTTCACAACATGATCGAACCGGACAAGGAATTAGACGTAAAGTTCCTGTTCATGATCTTGAACAATGACCCGGAAGGCCAGGCCAATATCCTGGCCCAAATCATGGACTTTTTGAACTCAACGCCGGTTGAGCAACTGAAGCAACTCTTCAGTTCCAAATCTACAAGTGAGATTTACGAATTTTTAACTGAACATTTTTAG
>SRR1919932_00640 membrane protein
ATGGACGCACGCGCGAAAAATCAACTTTCGGCTAATCCGCGGCAGGACCGCTTGCGCAGACGGGCAGAAGAAACAAACAAATATGAACAGTTAAAAAGATTGCCAGCTGACCAGCTGACAGGCAAGCTGACCAAGAAGAACCAAAACTACCTGGCCAGCCTCAAACAGGCGCTAAAGAGTGAAGGTGGGCTTGATCAAACAGAGGCGGAAGATTTAACTGCTCCCCTTTTGGCCAAGATCATCATTGCCCAGGAAGAAGGACAGACCGCCCGCCGGCTCTTTGGCCTGGCTCCGACAGACCTGGCCCGGCAATTGCTGCAGCCGAAAGTAGAGAAAAAGGCAGAAAGCAAGTGGCCTTACTTCTCGGTCGTCTGCCTGGCCTTTCTAGCCATGTTCAGCATCCTGGCCGGCGTCTATGAGTCAATCGCAAGAGGCCAGCTGGACCCACGCAGACAGATCGGCTGGCTGACAGTTTTAGCCCTTGCCCTCTTCATGGGCTGGGTCGTCGCCCTTTATAAAGACCTGGTTAAAGCCGGAATCAAGCGCAGTCACCTGCAGCTCTGGTCAATCATGAGTCTGATCATGACCGGCGCGCTTATCTGGCTCTTGCGCTTGCCGGTTATACGAAACGTCAACCCTGCCCTGCCAGCTCCGGTATGCTTCATTATTGCTGCTGGGGCAATCGTCATCTTGGTCTTTTTGATGCGGCATTTCAAGATCAGCCATATCTTTTTTGAAGAAAGAAGAAAGCAAGCTAAGCAGTAA
>SRR1919932_00641 6-phospho-beta-galactosidase
ATGACTGTTTACAAGCTACCAGAAGACTTTTATTTTGGCGGCGCCACGGCTGCCTACCAGGTAGAAGGGGCCACCAAGGAAGATGGCAAAGGGGAAGTGATCTGGGACAAGTACCTGCGTGAGCAGGGAACGATCAACCCGGATCCGGCTGCTGACTTTTACCACAGATATCCGGTTGACCTTGACCTGTGCAAAAAGTTCCACATTAATGCCATCCGCGTGTCCATTGACTGGGCCCGGATTTTTCCGGAGGGAACCGGCCGGCTGGAAGAGCGCGGGGTCAAGTACTACCATGCCCTGTTTAAAAAGTGCCGTGAAAACGGGGTAGAACCTTTTGTGACTCTGCACCACTTTGATACGCCGCAAGCTCTGGAAGACAAGGGCGGCTGGTTGTCTAGCGAGATGCTGGATGCCTTCCTTGCCTATGCCAAGTACTGCTTTAAGGAATTTCCAGAAGTGAAGTACTGGATCACCATCAATGAACCGACTTCCATGGCTGGTCAGCAGTATGTTTCCGGGACTTTCCCGCCAGCCCGGGTTAATGAGTTTGCCAAGTGCTTCCAGGCAGAATACAATCAAAACTTGGTTCACGCCAGAATCGTGAACGCCTATAAAGCCGGCGGATATCCTGGCAAAATCGGGATCGTGCATGCCCTGCAGACTGTTTACCCGGCCAGCAGCAGCGCCGGCGACCAGCATGCCGCTGAACTCAAGGATGCCTTTGAAAACCGCTTCTACCTTGACGGGACTTTAGCAGGCAAGTACTCAAAGAAGACTTTGGACCTGGTCCGGGAAATCATTGAGGCCAATGGCCAGGAAATGATTGAGATCAAGGCCGAAGATGAGGAAATTCTGGCCCAGGCTGCCCAAAAGCTGGACTTTGTCGGCGTAAACTACTACTTCAGCAAGTTCATGAAGGAGTATCATGGGGAAAACATCATACACCACAACGGCAGCGGTGAAAAAGGGACTGACGTCAATAAGATGAACGGAGTGGGCGAAGAAGTCCACCCGGAAGGGATGCCGGCCACCGACTGGGACTGGATCATTTATCCAAAAGGGATGTATGACCAGCTCAAGCGGGTGCATGACGACTATCCTGGCGTTAAGGAAATCTACATCACTGAAAACGGGATGGGCTACAAGGACAAGTTCCTGGGGCCGGACAAGGCCATCGATGACGCGCCGCGTATCAAGTACCTGCAGGCGCATATATTGGAAGTGGCCAAGGCAATCAGTGACGGCATCCCCGTTAAAGGTTATTTCGTCTGGTCTCTGCAAGACCAATTCTCTTGGACCAATGGCTATTCCAAGCGCTACGGCCTCTTCTACGTCGACTTTGCCAGCCAGGCCCGGTATCCAAAGCAAAGTGCCTACTGGTACCGCGGCTTGGCGGACAGCAAGCAGATTTCCACCGATGAAGAGGTAAAGGGCTGGACTTATTAG
>SRR1919932_00642 lactose-specific PTS system IIBC component
ATGCACGCTTTAGAAGCAAGAATGAACAAAATGAAGCCTGCTTTTGAGAAGTTTGCTGCCAACAAGTATGTGTCAGCGATTCGTGATGGCTTTATCGCGGCCATGCCAATCATTTTGTTCTCAAGTATTTTTAGTTTGATCGCTTATGTTCCAAATGCCTGGGGCTTTTACTGGCCAACGGCCGTAGCTAATGCCCTGGTTGTCCCATACAACTACTCCATGGGTCTCTTGTCTTTGTTTGTGACCGCGACCTGTGCCAAGAATTTGACGGACAGCTTGAACGTTAAGCTCCCAAAGACCACGCAGATCAACTCAATGTCTGTCATCATGGCAGCGGAAATCTGCTTCATCATCATTGCCATCGTGGTCAACCCTAAGACCGGGATCGACCTGTCCTACATGGGTACCCAGGGCCTGGTTGCCTCATACCTGGTTGGCTGCATCGTTCCAAACATCTACAAGTTCTGCATTACCCACAATGTCCGGATCACCATGCCGGACCAAGTCCCGCAAAACATTGCCCAGACTTTCACGGACATCTTCCCAATGCTGTTCTCAGTTATTATCTTCTGGGTCTTGAACCTGGTCTTGCAGACGGCCTTCCATGCCAACCTGTCCCAATGCATTGTTAACCTCATGTCACCGCTCTTCCACGCCAGTGACTCCTACCTTGGCCTGTCTTTAATCGCCGGCGCCATGGCCTTCTTCTGGTTTGTCGGCATTCAGGGGCCATCAATCGTTATGCCGGCCGTTTCTGCCATTGAAACTACTAACGTTGGCCTGAACACTTCCCTGGTGCATGCAGGGATGCACGCCTCACACGTTTTGGCCGTCAACACCCAGGACTATGTCATGAACATGGGTGGTACCGGGTCAACCCTCGTTTTGGCCTATATATTCCTCTTGATGTCCAAGTCTGCCCAGAACAAGGCAGTTGGCAAGGCATCAGTAATTCCGGTTACTTTCGGAGTTAATGAACCAATTCTGTTTGGTGCGCCGGTCATCATGAACCCGATCTTCTTCCTGCCATTTGTTGTAACGCCAATGGTCAACGTTATGATGTTCAAGTTCTTCGTTGACGTTTTGAAGATGAACTCCTTCATCGCCACCCTGCCATGGACTGTTCCAGCCCCAATCGGGATCGTTGTCGGTACTGGCTTTGCACCTTTGTCCTTTGTCTACGTTTTGCTCGCCCTCGCGGTCGACGTCTTGATTTGGTACCCATTCTTCCAGGTATACGACAATGACATCCTGGCCCAGGAAGAAGCTGCTGAAAAGGCAGAAAAGGCTGAAGCCGCCAAGGCAGAAAAAGAAGCCGCACCAGTTGCCGCAAGTTCAGTCAAGGAAGCTCCAAAGGCCGCTGCCAAGGACGTTTTGACTGAAGACACCAATGTCATGGTTATTTGTGCCGGTGGTGGTACCTCAGGTATTTTGGCCAAGGCCTTAAACAAGCTGGCCAAGGAAAAAGACCTGCCGTTGCACGCTGTGGCCAGAGCATACGGCCAGCACATGGACGTGATCGACGACATGGACTTAATTGTCCTTGCTCCGCAAATGGACTCCATGCGAGATAACCTGCAGGAAGTTGCCGACAAGGTTGGTGCTAAATTAGTGACGACTACTGGCCGGCAATATATCGAATTGACGCAAAAGAAGGACTTGGCCTTGAACTTCGTGGTCAACTCCCTTAAGGATTAG
>SRR1919932_00643 transcriptional antiterminator
ATGCGGCTTTTTTTGCCCAAATGGGCGGAAGAGCTGTTTTCAATGCTAGGCAACTGGAATGGAGATCTGCTGAGAAAGTTTAAGGAGGAAATGCTCTTGAAGATCGTACAGGTTTTGAACAATAATGTTGCGGTTGTTAATGGCCATGACGGAAAACCGGCAATTGTAATGGGCAATGGTTTAGCGTTTGGCAAGAAAAAAGGGGATGTGGTCGAAAAGGAGAAAGTAGTATCCACTTTTATGCTGCGGGACAAGCATACTGTCGATGATTTGACGACTTTGCTTGAGGACGTGCCGGCAGACTTTGTCGCGGTCAGCTATTCGCTGATCGAGCAGAGCCAGAAAAAATATAATTTTGCGGTGGAAAGCTACCTGTACGTAACCCTAACCCTCCACCTTTATTCAGCCTATCAGCGGCTTGAAGAGGGTAGATACAGGGCTAACTACAGCTTGCCGGATCTTTCTGACAAGTATCCTGAAGCCTATAAGATTGCTGACGACTTTTTAACTGGCTTTAGGGAACGCTTGCGGGTTGATTTTCCTTTAAGTGAACGCAACAGTATTGCCCTGCATGTCATTAATGCCCACGGCGACCGGGTTTCCCAAGCCGCGCCGATTGACAGTCTGGACGACCAGTTAGTGAATATCATCAATGACATCCTCAGAAAAAACGGCATTGTCCGGAACAATGACAATTTGGATGATTACGGTCGCCTTCTGACCCATGTCAAGTATTTCGCCCGCCGTTTGCGCAAGGACCGGCAAGAGCAGGAAGTCCAGATTTCTGCCAGCAGTCTGGCCAGCATCGGCAATGACTTTCCAGAAGCTGAGCAGATTGTCAATAAAATTGCCGGCCGCATAGACTACGAGCTGGGGGTCAAAATTCCCAAATTAGAACGGCTCTACCTGGTAATCCACATTGCCAGGCTCCTTGACAGAAAAAAGCAAAAGTAA
>SRR1919932_00644 lactose-specific PTS system IIA component
ATGTCTGAAGAAACTATCAGCAAAGAAGAAATTTCAATGACCGGCTTTGCGATCGTTGCTTATGCCGGCGACGCGCGGACGGCCCTGCTCAAGGCCATGGATGAAGCCAGCCAGGGCCATATTTCCAAGGCCAAAGACCTGGTCAAAGATGCAGAAGCTTCAATCAACGATGCCCACAATGAACAGACCAAGCTGCTGAGCAAAGAAGCCGGCGGGATGGATCTGGACGTTACTTTTATCATGGTTCATGGCCAGGACACCTTGATGACGACCATGCTTTTGAAGGATCAGATGAAGACCATCATCGACTTGTATGACCGGGTCAACCAGCTGGAAGGCAAGATCACCGACTAG
>SRR1919932_00645 aldose 1-epimerase
ATGAGACTAACATTTAAGAAATACGGCCGGCTCCAAGGGAGAGACCTTTGTGAGTTTGCCTTGGAAAATGATCATGGCATGTCCGTCAAGCTCCTGAACTATGGGGCAACTTTGGAAGACGTGACCGTTCCGGTAGATGGGGCAAAGCGCCATATCATCCTCTCTTTAAAGCAGGCCGAGGACTACAGCAAAGAGCGCAATTTCTTAGGCGGGACGGTTGGCCGGATTGCCGGCCGGGTCTGGCGCGGGCAGTGGAAGAACGGTGACCATATCCTCCAATTGCCAATCAACGATGGCAAAAATCACATTCCCGGCGGCTTTGGGACCGACCAGCAGGTTTGGTCCTTCAGAACAGAGCGGGGGGAAGACTTTGTCTCCGTTCACTTCAGTTTGCTTGATCCAGATGGTCATAATGGCTTTCCCGGCAACCTGCAGCTGGAGGCAACTTACACTTTGAATAATTCTGGTGAACTTTTGTATGATTTGACGGCCTACTCAGACAAGTTGACAATTTTTAACCCGACCAACCATACTTACTTCTGCCTGGACAACCTGGGGACCAAGATCGATCAGACCAAGCTTTTCCTTGACGCGGACTACTATCTGCCAGTAAAGGAAGACGGCCTGCCGGTTGGCGGAATGGAGGCAGTCGAAGGCACGGCTTTTGACTTCAGAATGGGCAAGAGCATGGAGGACGCCTTAAAGAGCGGGGATGCACAGATTGCCTTGCGTAAGGGGCTTGACCACCCCTTTATCTTGAATGGGCAAAAGACTGCTGCTAAAGTTGTGGCTAGCGATGGCAAGGTTTCCATGAAGATGGGCACGAACGCGCCAGCAATCGTCATTTATACAGTCAACAGCTTTGGCAAGGGGGAAAAGCAGGTCAAGGACCTGCCGCAATATGGCGGCTTGACCTTGGAGGCGCAGAACGCGCCTGCTTCGGGCAATGACTTGCGGGAAAATCCCCTTGAGCCAGGCAAGAGCTGGCAGCGGCAGGTGAGCTGGAAATTTTAA
>SRR1919932_00646 galactokinase
ATGAACACTGAATTTTTAAAAAATAATTTTGAACAGATTTTTAAGCAAAAAGCAGCCGACCTCTTCTTCTCACCAGGCCGGATCAACATCATCGGTGAACACACCGACTACAACGGTGGCCACGTCTTTCCTTGTGCCATCAGCTTAGGGACCTATGCCGCTTACGGTCCCCGGGCAGATAAGAAAATTGCCGTCTGCTCCGGTAACATGGATGACGACCTGGTTATTTTCGAAATTGGCGACCGCGAGTTAGAAAATGACCCTGACCACAAGTGGATCAACTACTTCAAAGGCATGACCGCCTACGTACAAGAAGAGACAAGTGAAATTGACCATGGCTTCAACCTCTATGTTTGGGGCAACCTGCCCTATGGGGCCGGCCTGTCATCATCAGCCTCAATTGAAATGCTGGTTGGCCACGTTTTAACTGAAGAATACGGACTGGAAATCGATCCAGTCAAGCTGGTTCAGCTCGGCCAGAAGACCGAAAACGAATTTATCGGTCTCTCTTCCGGGATCATGGACCAGTTTGCCGTCAACATGTCCAAGAAAGACCAGGCTATCTTCCTTGACTGCGCTAGTTTGAAGTATGACTACCTGCCGCTGGATCTGGGTGACAGTGAAATCATCATCATGTCCACCAACAAGAAGCACAGCTTGGCCGATTCATCTTACAATGACCGCGTCCGTGAGTGCCAGGAGGCAACCAGAAGGCTGCAGGAAAAGCTCAGCATTGACCACTTGGGCGATATTGACGAGGAGACTTTTGACGACTACTCCTACTTGATCAATGACGAAACCCTGCTTAAGCGCGCCCGCCATGCCGTTTTTGAAAACCAAAGAACCATCAAGGCTACCAAGGCCATGCAAGACAAGGACTTAGACCGGCTGGGCCGCTTGATCAACGCCTCCCACGTTTCCCTGCACTTTGACTACGAGGTTACTGGCAAAGAACTGGACACCCTGGCGGAAAGTGCCTGGCAGCAAGAAGGCTGCCTTTGCGCCAGAATGATTGGCGGGGGCTTTGGCGGCAGCGCGATTGCTATCGTCAAAGAAGACCATGCCGAAGCATTCAAGGAAAAGGTCGGCAAGATCTACCAAGACACCATTGGTTATGCCGCCAGCTTCTACGAAGCCAAGATCGTTGACGGAACCCACAAGCTGTAA
>SRR1919932_00647 galactose-1-phosphate uridylyltransferase
ATGCTGATTGAGAACTTCGTGCAAAAAATTATCGCTAATACTGATTACCAGGAAATGGACCGGGTCTACCTCTTCAACCGCCTGCAGGCCCTAGTCGGCGACGGAGACGTTGAGGAGCAGGCTTCCGGCGAAGACAGCTTGCTGCAACTGGTTGACCTGGCCGTTAAAAGAGGCAAGATTCCAGATGACGTGACCAGCCGGGAGATCCTGGCCGACCAGCTGGCCGATTTTTTAACCCCGGCCCCAAGCAAGGTCAACGGGCTTTTCTGGAACAAGTATGACCAAAGCCCAAAGGCAGCCACTGACTGGTTCTATGACCTCTCTACCCACAACAACTATGTCAAAAAGGCCGCGATTGCCAAGAACATCGTCTTCTCCGGCAAGAGCTCCTACGGCCACCCCTTGGAAATCACTATCAATCTCTCCAAGCCGGAAAAGGATCCCAAGGCTATTGCCGCCGCGGCCAAAAAGAAAGATACGGACTACCCGAAATGCGACCTCTGCCTGGAAAATGAAGGCTACCTGGGCGACTACGGGAAGAATGCCAGAAGCAATCTGCGGATCATCCGCATGAATATCGGCGGGGAAAAATGGGGGATGCAGTACTCCCCTTATGCCTACTTCAACGAGCACTGCATCTTTTTGGACCAAATCCATGAGCCAATGGTCATCAACCAGCAGACCCTGATCAACCTGCTGGAAATCGTTAAGACCTTCCCCCACTACATGGTCGGGTCAAATGCTGACCTGCCAATCGTCGGCGGCTCCCTTCTGTCCCATGAGCACTATCAGGGTGGCGGCCACCGCTTCCCGATGATGAACGCCCCGGTCAAAGAGAAGCTCACTTTTGCCGGCTACCCGCAGGTAAAAGGCGGCATCGTTGACTGGCCAATGAGCGACATCCGCTTGATCAGCCAGGATACTGAAGCCTTGATTGAACTGGGGACTAAGATTATCAAATCCTGGCAAAAGTACAGCGATCCCGGCCTGGGGATTGTGGCCGAAGACAAAACTGCCCGCCACCATACAGTTACGCCAATTGCCCATAAGGACGGGGATGAATACGTGCTAGAGCTGGTTCTGCGTGATAACAGCACTAGCAGCGACTACCCGCTGGGCATCTTCCACCCCCACCAGGATAAGTGGCACATCAAGAAGGAAAACATCGGCCTGATCGAAGTCATGGGCCGGGCCATCCTGCCTGGACGCCTAAAGGGCGAGCTGGGCGAGGTCAAGAAATACCTGCTTGGCCAGGACAACCAAATCGCTAAGATCCACCTGCCATGGGCTAAAAAATTGCAGGAAAAGCAGCCAGACATTAATGAAGAAAACGTTGACCAGCTCCTGCAGCAAGCCCTCCTGGACATTTTTGACCAGGTCCTGGCTGATGCCGGGGTCTACAAGAACGACGCAAAAGGTGAAGCTGGCTGGCAGAAGTTCCTCCAGCAGCTGGGCGCTAAAAATTAA
>SRR1919932_00648 adapter protein MecA
ATGCGCGTTGAAAAGGTGAATGAGAACACGCTCCGCGTAAGCATGACCCGGGAGGATCTGAACCAGCGGGGCTTGAAGATCTTGGATTTACTCGGCAACCGGGAAAGAGTCCAGGAATTTTTCCTGTCAGTTCTCCGCGAAGTGGACGAGGACAATGACTTTGCCAGCGATGCGCCGGTGACTTTCCAGGTCATGCCCAACGATGGCGGGATCGATCTCCTGATTACCAAGATGAACGCAGGCAGCGACCTGCCGGAAGAAATGCGGCGCTTCTTTGATCCTGAAGCCAATGGGGTCGGAGACGATATGGCGGAAGCGGTTGAGGAAGATGACTGGGCCTTTTCCGACTTGAACCCGGCTGATGACGCTAACACTGAGATGGACCCGGTGATCATGCAGGACCTGGGCAACACCGATGATGAAGACTACGAGGACTACTGGAGTTACCAGGAGACCCATGTTTTAGTCTTTGACGATATCGATGACCTCCTGGCTTTGGCTGACAGCCTCAAGGTCAGTGACCTGGCGTCCAGCGTCTACTACTACAAGCAGCAGTTTTATCTCAAGCTGGCTTTTATGGACGAGAATTACGCGGAAATCAAGCCAGCTGATGCCTGGGCGATCGCCAATGAATTTGGCCGCCAGGTGTCCGCTGACGAATTCCAGCAGGCCCAAGCCCACGGCCAGTGCCTCTTCCAGCAGGATGCGCTGGGGGCTTTGCGCCGGCAGTTTGCCAGCAAGTGGGCTTAA
>SRR1919932_00649 arsenate reductase
ATGGTAGATTTATATGTTTCTCCAAGCTGCACCTCATGCCGCAAGGCAAAGCAATGGCTTGAACAGCACAATATTCCCTACAAGGAAAGAAACATTATTTCAGATCCTTTGAACCGGGAAGAAATCATTCATGTTCTGAGAATGACTGAAGAAGGCACGGAAGAAATCGTGTCAACACGGTCGAAGGCTTTCCAAGAGCTGAATATCGACCTGGACGACATTTCAATGAATGAACTGATCGATTTGATTGAAAAGAACCCAAGCCTGCTGAGACGGCCAATTATTTTGGATGACCGCCGGATGCAGGTTGGCTACAATGAAGATGAAATCCGCCGCTTCCTGCCGCGCAGCGTGCGCCGGCTGGAAATAGCCCGGGCTAAGCGCCTGGCAGACCAGGATTTTTAA
>SRR1919932_00650 phosphoenolpyruvate-protein phosphotransferase
ATGACTGAAACTTTGAGGGGTATCGCAGCCAGTGACGGCGTTGCTGTTGCTCCAGCCTACCTCCTGGTCGAACCGGACCTTTCTTTTGAAAAGAAGTCCGTTGCTGACGTGGAAGCTGAAGTAGCCCGCTTTGATAAGGCAGTTGCCGAATCACAAGCTGAATTGGAAAGCATCCGCAAGATTGCCGCAGAAAGCTTGGGTGAAGAAGAAGCGCAAGTCTTTGACGCCCACTTGATGTTCCTGTCAGACCCTGAATTCACTGGCCAGATCAGCGCCAAGATCAAGAGCGACGCTGTCAACAGTGAAGCAGCTTTGGATGAAGTTGCCCAAAACTTCATCACTATCTTCCAAAGCATGACTGACAATGCCTACATGCAAGAACGTGCAGCTGACGTCCGCGACGTTTCAAAGCGGATCATGGCGCACTTGCTGGGCAAGGAACTGCCTAACTTGGCAAGCATCGACCACGAAGTAGTTCTAGTGGCTGAAGACTTGACGCCAAGTGACACGGCACAATTGAACAAGAAGTACGTTAAGGGCTTCGTAACTGACCTGGGCGGCCGGACTGCCCACTCAGCCATCATGGCCCGGTCTTTGGAAATCCCAGCTGTTGTCGGGACTGAAAAGATCACCACTTCTGTAGAAAACGGCCAAATGCTGATCGCTGACGGTTTGGATGGGGTGGCTATCGTTGAACCAAGCGAAGAACAAGTGGCTGACTACCGCAAGAAGGGCGACGACTTCGCTAAGCAAAAGGCTGAATGGCGGAAGTTGAAGGACGAACCATCAGTAACTGCTGACGGCAAGCACTTCACGATCGCTGCCAACATCGGTACTCCAGACGACCTGGCTGGCGTTTTGGAAAACGGTGCTGAAGCAGTCGGCTTGTTCAGAACTGAATTCTTGTACATGAACTCAAACGACTTCCCAACTGAAGAAGACCAGTTTGAAGCCTACAAGAAGGTTCTGGAAGGCATGAACGGCAAGCAGGTTATCATCAGAACCATGGACATCGGTGGCGACAAGCACCTGTCCTACTGGGACCTGCCAGAAGAAATGAACCCATTCCTGGGTATCCGGGCCGTTCGTCTGTCCTTGAAAAACAAGGAAATCTTCCGCACCCAGCTGCGGGCCTTGCTGAGAGCATCAGCTTACGGCAAGCTGGGGATCATGTTCCCAATGATCGGTACTTTGGACGAACTTCACCAAGCCAAGGCTGTTTTGGCTGAAGAAAAGGACAAGCTGGTCAAGGAAGGCGTCAAGGTTGGCGACGACCTGCAAGTCGGCATGATGATCGAAGTTCCGGCAGCTGCCGTTCTGGCAGACCAATTTGCCAAGGAGGTCGACTTCTTCTCAATCGGGACCAACGACTTGATCCAATACACTATGGCTGCTGACCGGGGCAACGAAAACGTTTCTTACCTCTACCAGCCATACAACCCGTCAGTTCTCCGCCTCATCAAGCACACGATCGACTCAGCTCACGAAGCTGGTATCTGGTGCGGGATGTGTGGTGAAGCAGCTGGTGACTCAATCATGTTCCCAATCCTGCTTTCCATGGGCTTGGACGAATACTCAATGAGCGCAACTTCAATTCTGCGGATCAGAAACGAAATGAAGAAGCTCTCAACTGAAGAACTCGCTAGCCTGGCTGACAAGGCAACCAAGGAATCATTGACCAACGAAGACAACATCGAACTGGTTAAGAACTTGATGGCTGACAAGTAA
>SRR1919932_00651 phosphocarrier protein HPr
ATGGAAAAGAAAGAATTTCACATTATCGCTGAAACTGGTATTCACGCTCGTCCAGCTACCTTGTTGGTACAAGCTGCTTCAAAGTTTGGTTCAGACATCAACCTTGAATACAACGGTAAGTCAGTTAACCTTAAGTCAATCATGGGCGTAATGTCATTGGGTGTTGGCCAAGGTGCAGACGTAACTATCAGCGCTGAAGGCGATGACGAAAAGGAAGCTATCGCAGCTATTGCTGAAACTATGTCAAAAGAAGGTTTGGCTGAATAA
>SRR1919932_00652 hypothetical protein
ATGGACTATACTGATATTTTGGAGAAATTGGTATCAGGCGACTTGCTGGAGTACCAGATCGACCCGCAGAATGACCCGGAAGATGCGTTTGCTTTCCAGCAGAGCCTGCGCAATTACGGAAAAAACAAGAAAATCACCGGCCGGGCCGGCCGCGGCGGGGTTATTACCTATACTTCGATAGAGAATAAGCCCAAATATTAA
>SRR1919932_00653 ATP-dependent Clp protease ATP-binding protein
ATGAATAATAACAACTTTTTCGGCGACTTTGACGACCTCTTCAATGCTTTGAACGGGCAGTCAAATGGCGCAAACCGTTACAACAACCAAAATCCATTCGGCCCGACCCCGGGCCGGGGCGGCAATGGCGGCGGCCAGTCCCTTCTTGACCAGTTCGGGACCGACTTAACAGCTCTGGCCAAGAAGGGCAAGATCGACCCAGTTATCGGCCGGGACCGGGAAATCGCCCGGGTAATTGAAATCCTCAACCGGCGGACCAAGAACAACCCAGTCCTGATCGGGGAAGCCGGGGTCGGCAAGACCGCGGTCGTTGAAGGCCTGGCCCAGGACATCGTGGACGGGTCAGTTCCAGCCAAGTTACAAAACAAGCGGATCATCTCCCTCAACATGGTTTCCATGGTCCAAGGGACCGGGATCCGGGGCCAGTTTGAGCAAAGAATGCAGCAGCTGATCAAGGAACTGCAGAGCCAGCCGGACATCATCCTCTTTATCGACGAAATCCATGAAATCGTCGGCGCCGGCAATTCTGAAGGCGGCATGGACGCCGGCAACATCATCAAGCCGGCTCTGGCCAGAGGTGAGCTGCAGTTAGTCGGGGCTACGACTATCAAGGAATTCCGGGAAATCGAAAAGGACTCCGCCCTGGCCCGGCGCTTCCAGCCAGTTGAAGTCAAGGAACCAAGCATCGACGAGACAATCAAGATCCTCAAGGGGATCCAGAAGCGCTACGAGGACTACCACCACGTCAAATACACTGACGACGCCATCGAAGCCGCCGTCAAGCTGTCTGCCCGCTACATCCAGGACCGCTTCCTGCCAGACAAGGCCATCGACCTTCTGGACGAAGCCGGGTCAAGAATGAACCTGACCATCCCTTACATCGATAAGGAAAAGATCCAGGAAAGAATCGACGCGGCTGAGAAGCTCAAGCAGGATGCCTTGAAGAACGAAGACTACGAAAAGGCTGCCTACTACCGCGACCAGATCGAAAAATACGAGAAGCTGAAGGACCAAAACGTCGACCCGGACAAGACCCCAACCATTACGGCCAAGGTCATGGACAAGATCGTGGAAGAAAAGACCAACATCCCGGTCGGCGACATCCAGGCACAAGAAGAAAACCAGCTGATCAACCTAGCCAGCGACCTCAAGGCTAAGGTTATCGGCCAGGACGAGGCCGTTGACAAGGTGGCCCGGGCCATCAGAAGAAACCGGATCGGCTTCAACAAGTCCGGCCGGCCAATCGGCTCCTTCCTCTTTGTTGGCCCGACCGGGGTCGGCAAGACCGAGCTGGCCAAGCAGCTGGCCTTGAAGATGTTCGGCAGCGAAGACGCCATGATCCGCTTCGACATGTCCGAATTCATGGAGCAATACTCCGTCTCCAAATTGATTGGGTCTGCCCCGGGTTATGTCGGCTATGAAGAAGCCGGCCAATTGACCGAACGGGTCCGCCACAACCCATACAGCTTGATCCTTTTGGACGAAGTTGAAAAGGCCCACCCGGATGTTTTGAACCTCTTCTTGCAGATTCTTGACGACGGCCGCTTGACCGACTCACAAGGGCGGACTGTTTCCTTCAAGGACACGATCATCATCATGACCTCAAACGCCGGCCAGGGAATCAAGACGGCCAGCGTAGGCTTCGCGGCAGAAAACAACAAGAATGAAGCTGAAGAAACCCGCAAGGTGATGAGCCAGTACTTCAAGCCGGAATTCCTGAACCGTTTTGACGACATCATCCAGTTCCACCCATTGAGCAAGGGCAACCTCCTGCAGATCGTCAACCTCCTTTTGGACAAGACCAATGCCATGGTCAGCGACCAGGGCCTGCACATCAAGGTTACCGACGCGGCCAAGGACAAGCTGGTTGAGGAAGGCTACGATCCGGAAATGGGCGCTCGTCCGCTTCGCCGGGTCATCCAGGAAGAAATTGAAGACAAGGTGGCCGACTACAAGCTGGACCACACTGAAGCCAAGCAATTAGTGGCGGACTTAAAGGACGGGGAAATCACGATTTTCGAAGAAGTTCCCGCCCTGCCAGTCACTGAAGCAAGCAAAGAAAAATAA
>SRR1919932_00654 hypothetical protein
ATGCACTTAATTGATGTTACTAATAGCTATGCCGAATTAGTTCACAGTCAGCTAAATACTACGAGCGTGAACTACGTGAAAGTTTACTCCCTAGGCAACACTACCGTAGTTTATACCGAAAGCCCAATCGCCATCGGGATCGTTCTGGAAAACCACCACCGCAAGATCCGCGAGGAAGAACTCGAATTTGTAATCAAGCGGCTGATTCCCGACCAGACTAGCTATCAGCTTACGGTTGACAAGCACCGCCGAGTCGTCGAAATCCACGTTGACAAGTAA
>SRR1919932_00655 multicopper oxidase
ATGACAGTTTATCCGGATTACTTTTATTCTGAAAAAGACTTTGATAAGAGCCACATGGGCTACAAGCCGCTGACCATTCCAGCTGGCGTTGAGGCCCAGCCTTTGGCCGTTCCCCCGCTTTTAGCGCCGGACAAGGTTGACGGCAATGACATCTACTACACCATCGAGGCCCAGGAAGGCGAAAGCCAGATCCTGCCAGGCAAGAAGACCAAGACCTGGGGCTACAACGCTCCCCTTTTGGGCCAGACCCTGGTAGTCAAGACCGGGCAAAGAGTCCACGTGCGTTTGAAGAACAGCCTGCCTGTCCTCACTTCATTCCATTGGCACGGCATGGAAGTTCCGGGACCAATTACTGACGGCGGCTGCCACGCCCCAGTATACCCTGGCGAAGAAAAAGACATCGAATTTACGGTCAAGCAGCCAGCCGCTCTGACCTGGCTGCACGCCCACCCATGTCCGTCAACGGCCATGCAGGTCTGGATGGGCCTGGCCATGGGGGTTGTGGTTACTGACGACAACGAAGCCCGCCTGCCGATTCCAAAGAACTACGGGGTTGACGAATTCCCGATCATCCTGCAAGACCGGACCTTCCACGACAACCAGCTCGACTACCGGGCTGACTACGACCCGATGGGGGTCTTTGGTGAAGTGCCTTTGATCAACGGCGTGGTCCGTCCTTACGTTGACGTGACGACCCAAAAGGTCCGTCTCCTCGTCTTGGGCGGGTCTGACCGCCGGGAATGGCGCCTGCACTTTGAAAACGACTTGACCATGACGCAAATCGGCGGGGACGACTCCTTCCTCAGACACCCGATTGACGTTAAGAAGCTTTTGATCGGGCCAGGGGAAAGACAACAAGTCATCGTTGACTTTGCCGGCTACAAGGAAGGCGACGTTGTCAGCCTCTACACTGACGACTTCAAGCTGGTTGAATTCCGCATCCACGCCTTTGAAAAAGACGACCGTGAACTGCCATTCAACATCTTCACTCCGGACGACCCGGCTGTGAACAGCGAAGCGCCAGTCCGCCACGTAACCATGGACGACCACGACAAGATCAACGGTCTCCGTTTCTCCATGGAAAGAATCGACATGAAGCAGACCTTGAACTCAGTTGAATACTGGGACGTAACCAATACCAACAACTCTGCTTCAGGGATGCTGCATCCCTTCCACATCCACGGGGCCCACTTCCTGGTTGTTTCCCGCAACGGGCAAAAGCCTAACCCGAACGAAATCAATGTCTACAAGGACACTATTGAAGTCGGCCCAGGCGAAACTGTCCGCCTGAAGGTCTACTTCCAAAACGCCGGGGTCTTCATGTACCACTGCCACATCATCGAGCACGAAGATGCCGGCATGATGGCCCAGATCCAAATCGTTGACCCGAAGGATCCGGACAAGACCTACAAGCTGATGGACATGGAAACCATCACCAACGCCTTTGCAGAAGAAATGGGCGTTGAACCAGGCGAAGTCTTCATGCCAGGGATGGACGTTGAAGACATGGACATGGGTGCCTGCTTCCACGCGGCTGAAGCTTCGACCAGCCGCCGCTTGGTCGAAGCCGTTACTGCCGCTTCAAGAGCAGGTCATGAAGGCCACCACGACGCGACCAGCGGGGCCAGCCACCACTAA
>SRR1919932_00656 hypothetical protein
ATGATGAACAACAACCTTTACTTGAAGATTTTATGGGTCTTACTGTACGGCATCGTCGCCTTCTACACCTTTACCGACAAGACGATGATGGCCATGTACTGGATGGCCGGGGTAATGTTTGCCCAAGCGGTCCTTGACCTCGTTTACTACTTTTTGCCAAAGAGCAAAACAGAAATGACTGAATGCTAG
>SRR1919932_00657 peptide chain release factor 3
ATGAACAAAGAACTTTTAGACAAAGTAAACAAGCGGCGGACTTTCGCAATCATTTCCCACCCCGACGCCGGTAAGACGACGATTACGGAACAAATGCTGCTCTTGGGTGGGGTGATCCGCAGCGCCGGGACCGTTAAGGCCCGCAAGACCGGGAACTACGCCACCAGTGACTGGATGGAAATCGAAAAGAAGCGTGGGATTTCCGTTACCTCATCCGTTATGCAGTTTGAATACCAGGGCAAGCGGATCAACATCCTGGACACCCCAGGCCACCAGGACTTCTCAGAAGACACCTACCGGACTTTGATGGCGGTTGACGCCGCGGTCATGGTTATCGACTCCGCCCGCGGGATCGAGCCGCAGACCAAGAAGCTCTTCAAGGTCGTGCGGCAAAGGGGAATCCCGGTCTTTACCTTCATGAACAAGCTGGACCGGGACGGCCGGGAACCCCTGGACCTGGTCGCTGAACTGGAAGAAGTCCTGGGCATTGAAGGTGTGGCCATGAACTGGCCGATCGGGATGGGGCAGAGCCTGCTGGGCCTTTACGACCTGGCCAACCAGCGGGTTGAACTCTACCACCCGGAAGAAGGGCAGGACCGCTTTATCGCTTTAGCAGACGGAAAGGCGCCAGCCGGCAGTTCTTTGGCCGATGACCCGCAGTTTGAAGAAACCTTGGGTGAAATCGAGCTTTTGGAAGGGGCCGGGGCCAGCTTTGACCGGGCAAAGGTTTTGGCCGGCCAGCAGACTCCAGTCTTCTTCGGGTCAGCCTTGACCAACTTCGGGGTAGAAACTTTCCTGGAACAATTCGTTGACCTGGCACCAGCGCCAGGCGAGCACAAAGTCAACGGGGATGAAGAACTGAAGCCAGATGATGACGAATTCTCCGGCTTCATCTTCAAGATCCAGGCCAACATGAACCCCCAGCACAGAGACCGGATTGCTTTTGTCCGGGTCTGCAGCGGGGAATTCAGCAAGGGCCTGGACGTAACCCTGGCCAGAACCGGCAAGCAGGTCCGCTTGAACAATGCCGTTGAATTTGAATCCAGTGCCCGGGTCCAGGTTTCTGAAGCCGTGGCCGGGGACATTGTCGGCCTCTACGACACTGGCAACTTCCAGATCGGGGACTCTATCTACGCTGGCAAGCGCAAGCTGGAATTCCCGCCGCTGCCGGAATTTACCCCGGAACTCTTCATGCGGGTTTCACCAAAGAACGTCATGAAGCAGAAGTCCTTCCACAAGGGGATGAACCAGCTGGTTCAAGAAGGGGCTGTCCAGCTCTACCGCAACTACCAGACCGACGACTACATTTTGGGGGCGGTTGGCCAGCTGCAGTTTGAAGTCTTCCAGTACCGGATGAAGAACGAATACAACTCTGAAGTTGAAATGACTTCCATCGGCCACCGGGTAGCCCGTTGGATCAACCCGGACCAGCTGGACCCGAAGATGTCTTCTAGCCGGAACCTCCTGGTCAAGGACCGCTTTGGCAATCCTCTCTTCCTCTTTGAGAACGCCTTTGCTGAACGCTGGTTCCACGACAAGTACCCGGATGTGGAACTGACGGAAAAGCTGTAA
>SRR1919932_00658 hemolysin-like protein
ATGACAAGCGACCCTGCGACCGGCAGCCTGTTTGGCAAACTGAGAAGCCGTTTTTCTAGCAATGAAGAAAGCGGCAAGGACCAGCTGCAGGCAGAAATTGACCAGCTGCATGCCGGCAATGTTTTGACTGATATTGAATATTCGATGATTGAGGGCAGTATGGCTTTCCATGACAAGGTAGCCCGGGAAGTCATGGTGCCGCGGACTGACGCCTTCATGATCGACATTGAGGACGACCTGGAGGAAAACCTGGATGACATCCTCCGCCAGCCTTATTCAAGAATTCCCGTCTATCGCCAGGACAAGGACCAGATCGTGGGTGTCATCCACATCCGTACCATTCTTAGAGAGGCCCGCCAGCACGGCTTTGACCAGCTGACTTATGACCGCTTGATTTCCCCGCCCCTTTTTGCCCCGGAAACGATCGAGCTGGACGACTTGCTGGTGCAGATGCAGACCAGCCAGCAGCAATTGGCCATCCTAACTGATGAATATGGCGGGGTGACCGGCCTGGCCAGCATCGAGGACTTGCTGGAAGAAATCGTTGGCGACATTGACGACGAGGTCGACAAGGCAGAAGTTTTGGTCCGGCAGCTGAATGACCGGCAATTTGACATTTACGGCAAGATGCCTTTGACCGACTTCAACGACCGCTTTGGCACCGACCTGGAAATGGAAGACGTTGACACCCTGGCCGGCTATATGATCACCAAACTTGGCGTGATCCCGGGCAGAGGCGAGCAGCTGGAAGTGCCCCTGGACAACGGCATGGTTTTGACGACCAGAAGAATGCGGGGGTCGCGGCTCTTAACTGTCTTGTTGACCCTGCCAGAAGAAAATTACGAGGAAGAAACTGAAGAATAA
>SRR1919932_00659 hypothetical protein
ATGAAAATGCGCCGCATTATGTTAGTTTTCGTCTTCCTGCTCTTGATCCCCTACATCTGCAGCCTGGCCATCATCGGGATCGGCTTTAACGCCCTGGTCCTGCACTCGACTGACCCCTTCCGCACGGCTGTAGGGGCCTTTGTCGGGGCCATCATCATGCTGGCCGTCAAGGCCACGATCCAGCGGCCCTTGAATTTGCTGGCCGGAGACATCTATGACAGCTTCCTGCAGCAGATTCTCCGCTTCTTCAGCATCCGCCGCCGGCCGCTCTTGCAGGTAGCCAACTTTATCCTGGACTTTGTCCTCTGCACCCTGGCCACGATCGTGATCCGCCTGCTTTTGCCCCTGGAATGGATCGTCGGCACCTCCATGGGCTTCGTCATCTTGGTCATGTTCATTTCAACTTGCCTGGGGGCCTATATCGAATACGACAACTTGTCCATTGACGCTGAAATCAAGCAATCCTAA
>SRR1919932_00660 hypothetical protein
ATGCAGACAGAAATCAACGAACTTACTTTTATCGGCAAGGCCTTTCCTGACCGGATGATGGATGCAAACGGGACCTTCGCGGCCGCCAACCAGGAACTGGAAGCTGACCCGGCCTTTCAAGCCTTTGTCAAAGAGGCCGGCCTTGCCGGGCAGCGGGCGTCCTTGATCGTTTTTGGCCCGGAAAACTTCATGTACTGGTACGGGGTGATCGCGCCTAAGGATAGCGAAGTTAGCGGCCTGCTCAAGTTTTCCCTGCCAAGCGCCCGGGTTTTCCAAAAAGAAGAGACGGCCAACGCGGCCTATTTCGACCTGCCCCTGAACTTTGAACTGCCCCGCTTTTTGGATGAAGCGGGCGACTTAGGCAGCGACTTCCAGGCTCAGCTGGAGGAGAATCCTAACCCTTATATCCTCCGCCAGCTGGATTTAGGCAGTAAAAAACTGACCAAGAGCCTTTACCTCCCGGTCAGTCAGAATTAG
>SRR1919932_00661 regulatory protein RecX
ATGGCCATTATCACGAAAGTTAGTGCACAAAAGCGGCAGGGGCGCTACAATATTTTTTTGGACCAGGAATACGCCTTTTCCGTCAGCGAGAAGACCCTGGCGGAATTTGTCCTGCTCAAGGGCCAGGAGCTTAGCCCCCAGAAGATCAATGAAATCCTGGACTATGAAGCCAGCGCCAAGGCCAGCGACCTGGCGGCCAGATACCTGTCCTACCAGCCCCGGACGGTCAAGGAAGTGACTGACTACCTCAGCCAGCATGAAATTTCCCGGTCAGCGGCCAAGCGGGCCGTTAACGAGCTGACCCAGCTGGGCTACCTGGAAGACGCGGCTTATGCCCGCCTTTTTGTCAAAAATAACCTCCAGGTCGGCAAGAATGGACCAGGGGCTGTCCGCCGGGACTTAAAGAAAAAGGGCGTTGACGATGACTTAATCGAAGCTGCCCTGGCAGACGTGACTGATGAGGAATGGGCCGGGGTTGGCAAGCGCCTGGTCAAGTCACTTTTGGGCCAGCAGGGGAAGATTGCCAAGCGGGAAGTCGACCGCAAGATGCAGACTAAACTGCTCAGCCACGGCTTCTCCGGCTCCCTGGCCCAGGCCGTGACCCAGGATTTAGTCCCGGAAGCAGATGAGGACCAGGAAAGAGCGGCTCTGGCCAAGCAGGGCCTTAAGGCCTACAAGCGCTTCAAGCGCTATGAGCCAGGCGTAAGGGAGCAGAAGATGCGGCAGTATCTGTACAGCCACGGCTTTTCCGGGGATGAAATCAGCGCCTTTTTGGCCGGGGAAATCATTCCTTTAGAAGAACTGGAAGAATATTAG
>SRR1919932_00662 TrmA family RNA methyltransferase
ATGCAGAAAAAACATTTTTCAAAAAACGCTTCTAAAGAGCGGCACGTCATCATCACCATCAAGCGGCTGGGGATCAACGGTGAAGGGATCGGCTACTACAAGCGCAAGATCATCTTCATCCCCGGCGCCCTGCCAGACGAAGTCGTGGTGGCCAAGATCGTCAAGGACCACCCCCAATACCTGGAAGGTGAATTAGTCCGGATCAAGGAAGCCAGCCAGGACCGGGTTCCCTTCCCATCCGGCGTTGACCCGAGAATCGGGGGCCTGGAACTGGCCCAACTGTCTTACGCGGGTCAGCTCAAGTTCAAGAAGGACAATCTGGTCTCTGCCCTTGAAAAGTACCACCCGCGCGGCTACAAGAACTACAAGATCAAGAACACCATCCCGGCCCCAGACCAGTGGCACTACCGGGCCAAGGCCCAGTACCAGATCGAACGGGAAAACCACCATGTTTCCCTGGGTCTGTACGCGCCTAACTCCCACCAATTGATCGACCTGCCGGAAATGCCGACCCAAAACGAGGACACCCAGGCAACTGAACGGGCCATCCGGGATCTGATTATCAAGCTCCGCGTCCCGATCGCCAACCGCCGGCGGAACTTGCCAGGCGTTAAGACTATTGTGGTCCGGCAGGCGGAAGCCAGCCAGGAGATGCAAGTTACCTTGATCACTGTTGGCCACAAGTTGGACAATCTGCTGCAGCTGGCTGACAAGATCATGCGCCTGCCAAAGGTCGTTTCCGTCTACCAAAACGAAACCGACTGGCAGAACCCGCAAGTCTGGGGGAACAAGACCAGCAAGCTCCGGGGCAAGAACCAGATCACGGAAGAGATCATGGGCAAGAAGTTTGACTTGAGTCCCCGGTCCTTCTTCCAGCTGAACCCGGTCCAGACGGCTACCCTGTATTCTGAAGCCTTGAAGCTGCTCAGCTTAACGCCGGACATGACCTTGATCGATGCTTACTCCGGGGTCGGCACCCTGGGGATCCTGGCGGCTGACCAGGTCAAGCAGGTGGTCGGGATCGAAAGCATCCCTGAAGCTGTTTTGGACGCCCAGCACAATGTTGAGATCAACCATGTCAGAAACGCAGAATACCTGCAGGGTAGCGTGGAAAAGCTCCTTCCCCGCTTGAAGGAAGACGGCCTGCCAATCGATGCCTTGATCGTCGACCCGCCGCGGACCGGCCTGGCCAAGTCCTTGATCAAGACCCTGCTCAGAGTCAAGCCGGCCAGCTTCGTCTACATTTCCTGCAACCCGTCCACCCTGGCCCAGGACCTGGTCCTTTTGGGCGAGGCTTACGACGTCCGGGTCATCGAAAACGTCGACATGCTGCCGCAGACCCCGCGCTGCGAGTGCATCGCCAAGCTGACCCTTCGCAAGTAG
>SRR1919932_00663 alpha/beta hydrolase
GTGAAAAAGAAGAATAAAAAGAGAAGCAATTACCGCCTGGTCAAAATTTTAGGGGGCCTCTTAGCCGTCTTAGCCCTGGCCTTGGCCGGGGCCGGCTACTACTTTTTCAACATGGCCGTGGTGCCGGGCAAGAAAAGCTTCGTGACCAACGGGACGGTGCAGTTGACCAAGTCCACCCCCCAGTACAAGCAGAAGCTCTGGTACAAGCAGGTGACAAAGCAGCACTGGCAGCTGCGGTCGGCTAAGAACAATTATCTCCTGCGGGCCAATTATATTCCAGCTAAAAACTCGGCTAAAACCGTGATTATCTTGCACGGCTACATGTCCAACAAGGAAAATATGGGGGCCTATGCCCAGCTTTTCCACTCCCTGGGCTACAACACCCTTTTGCCAGACGCGGAAGCTCATGGGCAAAGCCAGGGCAAGTATGTCGGTTACGGCTGGCTGGAGAAAAATGATGTCAAGAAGTGGGCCGAGCAGGTGATCAAGAAAAATGGCCAAAAGAGCAAGATCGTGATTTTCGGGGTCTCCATGGGCGGGGCCACGACCATGATGACCTCCGGCTTAAACTTGCCTAAGCAGGTCAAATGCTTTATCGAAGACTGCGGCTACACCAGTGCTAAAAATGAAATCGAGCACGAAGCCCAAGCCCTTTACAATATGCCGGCCTTTCCCCGTTTTCCCCTGGTGGAAATCTTGAGCGGGATTACCAAGTTAAAAGCCGGCTACTTTTTGGCCCAGGCCTCAAGCCTTGCCCAGCTGAAGAAGAATACCCGGCCCATGCTCTTTATCCATGGCAGCAAGGATACCTTTGTCCCAACTAAGATGGTTTATAAAAATTACCGGGCCAGCCGGGGGCCAAAGCAGCTCTTGATCGTCAAAGGGGCCCAGCATGCCAAGTCCTATGAGCACAATCCGGCTTTATATGCACGCGCGGTCAAGCAATTTTTAGCAAAATACGCAAAATAA
>SRR1919932_00664 hypothetical protein
ATGCTGCTTGAAGATTTTTTACAGCTCCTGGCTGACCTGGGCGGGCAAAATGTCCTCTACCTGCAGGTACAAGACCAGACCCTCCCCCTCAGTAAGTTTGTCTTGGCCCGGGAAGACTGCCAGCTATTGTGCGGCGGGCAGGCAATGACCCTGGCTAAATTCCGCCAGCTGACCGGCAAGGGGAGCAAGTCCATCCCCCTCAGCTTCTGCTGGCAGGAAAAAGAAATTCCCGTCTACGGGGTCCAGATCCTGCCAGCTGAGGGCAAGATCATCTGCAAGTAA
>SRR1919932_00665 UTP--glucose-1-phosphate uridylyltransferase
ATGAAAGTCAGAAAAGCGATCATCCCAGCTGCCGGTTTGGGAACCAGATTTTTGCCAGCAACCAAGGCCATGCCTAAGGAAATGCTGCCAATCGTTGACAAGCCAACTATTCAATTTATCGTTGAAGAAGCCATGGATTCAGGGATTGAAGACATTCTGATCGTTACTGGCAAAAGCAAGCGGTCAATCGAAGACCACTTCGACTCAAACACGGAACTAGAAGACAACTTGACTGAAAAGCACAAGGACGGGCTTTTGAAGCTGGTCCGGGAAACCACCATGTCTAACACGAAGGTTAACCTTTACTTCACCCGGCAGCCGCATCCAAATGGCTTGGGGGATGCCGTCAACCGGGCTCGCAGCTTTATCGCCGGTGAACCTTTCGTGGTTATGCTAGGCGACGACTTGATGAGAGACAAGACGCCATTGACCAAGCAATTGATCGACTGCTACGATGAAACTCACGCTTCAACCATCGCGGTTATGAAGGTACCGCATGAAGAAGTCAACAAGTACGGTGTCATCGACCCAATCGGCGAAACTGCTCCGGACATGTACAACGTTAAGGCCTTTGTGGAAAAGCCAGACGTTGACAAGGCCCCAAGTGACCTAGCCATCATCGGCCGCTACCTGCTGACTCCGGAAATTTTTGACATGTTGGACAAGCAAAAGGCCGGTGCCGGCGGTGAAATCCAATTGACTGACGCCATCGACGCCTTGAACAAGACCCAACGGGTCTTCGCCCACGAATTCAAGGGCCAGCGTTTTGACGTTGGCAACAAGGAAGGCTACATGGAAACTTCCATCCAATACGGTCTCCGTCACCCGGAAACTAAGGATGCTTTGCGCAAGTACATCATTGACTTGGGCAAGAAGCTGGAAAGCGAAGGCAAGAAGAAGCCAGCCGGCAAGTGA
>SRR1919932_00666 ribonuclease BN
ATGGCGGAAAAAGTTGAGCCAGGACAAAAGGGGGTCCGGCGCTTTCTTACAACTCTTTCCTCGGTCGTTTCCCAGGGGGAGATTTTTCAAAGTTCCATCGTGATTGCCTACTACATCCTGTTTTCAATTTTTCCCATCGTTATCATTGTCGGTAACGCCCTGCCCTGGTTTCACCTGGCCACGGGACCGATTGCTGATTATTTGGAAATGATCTTTCCAAGTGACGTGGCCCGCTATATCATCCCGATCGTCGATACCCTGCTCAAGTCGAATTCGACCAGCTACATCTCCTTCGGTGCGATCATGGCCCTGTGGTCCATGTCCTGTATGGTGAACGCGGTCAGAATCGGGATGAACCGCCTCTATGGCGTCCACAATAAGGAACTGAAGCTGGGCTTCTGGCACTTTATCTGGAACCGGACCTTGACCGTGATCTTCAGTGCATTGATGGTCACTATGTTCATTCTTTTAGCCTTGGTCGTGGTCTTTGGCCAGGAGGTCCTGCATTTCCTGGCTCCTTACTTTAACCTGCCCCTGGCCTGGATTGACAAGCTCTCCAGCTACCGCTGGCTGGTTTTGCTGGTCTTGATGTTGATCGGGGTCTACTATTTAAACGCTGTAGCGCCCAATGTTCACTTCAAGAAGGCTCTTTTGCCCGGGAGCATCGTGACGGTGGCCGGCTGGGAAGCCCTGTCTTATCTCTTTTCCTTCTACTTGAAAAATTTTCCGGTTAAGTGGGAAAATTATGGTATAGTTGGAACTTTTATCATTTTTATGCTCTGGCTCAATCTCCTGGCCATCCTGTTACTTTTTGGTACGGCGGTCAATGTCAGTTTGGACCAGCTGCGCTATGGGCCAGCGACCTATTCTAACGGACCTTTGGCCGAGTTTATCGCCAAGCGGCGGAAAAAATAA
>SRR1919932_00667 methionine aminopeptidase
TTGATTACTATTAAATCTGTTCGTGAATTGAAGGGCATGCAGGCTTCCGGCCACTTGCTGGCGACCATGTTTGAGGCCCTGCGTGACGTGATCAAGCCAGGCATCTCCACCTGGGACATTGAAGAATTCTGCCAGGAATTCGTTTCCAGCCGGGGCGGCCGCTTGTCAGAACAAGGTTTTGAAGGCTATAAGTACGGCACCTGCATCTCTGTTAACGACGAAATTGCCCACAACATTCCCCGCAAAAATGTCTTTTTAAAGGAAGGCGACTTGGTCAAGGTTGACGTAACCTGCAACTTGAACGGCTATGAATCCGACTCTTGCACCACTTACGGGGTCGGCCAAATCTCAGAAGAAGACCAGCACTTGATGGACGTGACCAAGAAGGCCATGTACATGGGGATCGACCAAGCCGTAGTTGGCAACCGGATCGGGGACATCGGGGCTGTCATCCAGCACTATGTGGAGGATGAAGAAGGCTACGGCGACGTCCGGGAACTGATCGGCCACGGCATCCAGCCATCCATCCACGAAGACCCGGAAGTTCCTCACTGGGGCAAGGCCGGCCACGGCCTGCGCCTGCGGGAAGGGATGACCATCACCGTTGAACCAATGGTGGAAGCCGGCGGGGACTGGCGGATTTTGCAAAAGACGGTTGACGACCCGAATGACGACTGGGTCTTCTACGCAACCCCGGACGGGTCCAAGTCAGCCCAGTTCGAGCATACTTTTGCCATCACCAAGGACGGCCCGAAGATCTTGACTTTGCAAAAGCCATACGACGGCCTGGAAAAGTACATTCCGCACTTTGACGAAATGGAAGACTAG
>SRR1919932_00668 flavodoxin
ATGAGAGCAAAGATTGTTTTTGCCAGCATGACCGGCAACGACGAGGACATGGCCGAAATCCTGGAGGAAGGCCTGCTGGACCAAGGCCTGGAAGTAGATTCTTCTGACGTCAGCTTCACTGACGCCAGCGATTATTTAGACAGCGACCTGTGCGTCTTTATCACCTACACTTACGGGGAAGGCGCCATGACTGACGAAATTGCCGACTTTTACGACCAGCTCAAGGAGCTGGACTTGACCGGCAAGTCTTTTGCCGTCATGGGTTCTGGCGACAAGACCTACAAGGAACACTACTGCGAGAACGTTTTTGACTTTGAGAAGGCCTTCCTGGCCTGCGGGGCCAAGGAACTGATTCCCCCGCTCACGGTTGAAAACGCCCCTGACGATGACGATATCGCGCGCATCGATCAAGCTGCTGAGGAGTTGGCGGATAAATTAAATGGATAA
>SRR1919932_00669 cell wall teichoic acid glycosylation protein
ATGGATAAAGATTTTAACCGGCGGCGGGCTTTAGGCGAGCAGATCTTCAAGCGCCACCGCAATTTATGGGTCTACATGTTCTTTGGCTTTATCGCGGCCTTGATCAACACGGTTGTCTTCATGTTCATGCATGACTTTTTGCACACCGTCTTGGTCATCGACAACACGATTGCCTTTATCGTGTCCAACCTGGTCTCCTTCTGGTTCAACCACAAGGCGGTCTTCACCAAGAACGTGGACCATGAACACAAATTGTGGCAGAAGCTGCTGTCCTTTTTTGCCTACCGGATCATCAGCCTGCTGCCGGACACCTTGATCATGTGGCTGGGGATGACTGTCCTGGGCTGGCCAGCCTTGATCGTCAAGGTCATCGACCAGATCCTGGTCGGCATCTTCAACTACCTGACCACCAAATCAGTCTTCGAGAAGCAGGAAAAGAGCCTGAAGAAGCGGCTGGAGAAGAAAATAAAAAAGCAGTGA
>SRR1919932_00670 UDP-N-acetylglucosamine 2-epimerase
ATGCAGAAAATTAAAGTAATGACCGTTTTCGGTACCAGGCCAGAAGCCATCAAGATGGCCCCCCTGGTGCTCAAGCTGATCAGTGACGACCGCTTCCAGGCAGTTACTGTGGTTACCGCCCAGCACCGGGAAATGCTGGACCAGGTCCTGGAGATTTTCAAAATCCAGCCGGACTACGACTTAAACATAATGCAGCCCCAGCAGACCCTGGCTGACATCACCACCCGGGTTTTGACTGCTTTAAGCCAGATCATCCAGGAAGAAAAGCCGGATATCGTCCTGGTCCACGGGGACACGACGACTTCCTTTGCCGCCAGCCTGGCTGCCTTTTACCAGCAGACTCCCCTGGGCCACGTTGAAGCGGGCCTCAGAACCTGGAATAAGTATTCTCCTTTCCCGGAAGAGATGAACCGGCAACTGACCGATGTCTTGTCCGACCTCTACTTTGCCCCGACCTCTGTCAGCCGGGCCAACCTTTTAAAAGAAGGGCACCCGGAAGAAAATATTTTTGTCACGGGCAACACGGCCATCGATGCCCTGGCCCAAACCGTCCAGGCCGACTACCAGCATGAAGTCTTAGACAAGATCGGCCAGGGCAAGCGGATTATCCTGGTCACCATGCACCGGCGGGAAAACCAGGGCGAGCCGATGCGGCGGGTCTTCAAGGTAATGAAGGACGTGGTCGACCAAACTGACGACGTTGAAATTGTCTACCCGGTTCACCTCTCGCCAAGAGTCCAAGAAGCAGCCAAGGAAGTTTTAGGCGGCGACCCCCGGATTCACTTGATCAAGCCTTTAGACGTGGTCGATTTCCACAACCTGGCCAAGCGCAGCTACTTTATCATGACCGACTCTGGCGGCGTCCAGGAAGAAGCCCCGTCTTTGGGCAAGCCGGTTTTGGTCTTGCGGGACACGACCGAGCGGCCGGAAGGGGTCAAGGCCGGAACCTTGAAACTGGTTGGCACTGAAGAAGACGCGGTTAAGGCAGCCATGCTGGAGCTGCTGACTGACCCAGCTGCTTACCAGCAGATGGCTGAAGCTAAGAACCCATACGGGGACGGGCAGGCCAGCGACCGGATTTTAGATGATATTGCCTGGTGTTTTGCCGGCAAAAAAGGCCTCAAGCCAGCCGACTTTTCTTGA
>SRR1919932_00671 hypothetical protein
ATGACAGTCAATATTTTTCCCCTCCTGGGTGACAGCCTCTTGATCGTCCTGGCCGGCTTCGGCCTGGTCTACTCCTTTGACGGGTCCTTGGGGCAAAAGACGCGGCGGATTTTAAGAATTGCCAGCCTCCTTTTGCTCCTGGCCATCATCCCCTTGACCATTTGGATCCTGCAGCATCCCCTGCTTATCAATTGA
>SRR1919932_00672 amino acid permease
ATGATTGAAGAAACCCCAAAAAAACACTACATGGCCTGGATGACCTTGGCGATGCTCGACTTCGTCACCATCATCCGCTTTGAAGATGTTTTCTACCCATACCAAAACCAAGGTCTGTCCGTAATCTTTTCATGGATTTTCCTTTTGATTTGCTACCAATTGCCATATACCTTGATCGCCACCCAATTGGGCCTGGCCTACAAGGATACTGAAGAAGGGGGCCTGGCCTCCTGGATCCGGCGGGGGACGGGCAGCGACGTATTAGGCTACGCTACCAGCTGGATGTACTGGGCCCAAACCGTGCCCTACCTGGTGGACGTGTCCAACTCCATCATCGTTTCCATTTCCTGGATGATCCTGGGCAACAACACTTTAGGCAAGCACATGTCACCTTTTATGTTCGGCCTTTTGACCTTTGTCATCATCTTGATCTTTATCTTGTGCGAAAGTGCATATAAAAACTCCCTGGACCTTCTGTCCTTGATCGGGGGGATTGCCATGTTCGCCATGTCCGTGATCTTCGTGATCCTGATCATCTGGGCTCTCATGCACGGCGGCCACATCGCCACCAAGATGGAATGGTCCAGCTTTAAGCCGAACTTCAGCGTCCACTATTTCTCCACGACTGGCCTTTTGATCTTTGCCATGTCCGGGGCGGAACTGGCCGCGCCTTACGTTACCCGGCTGAAGAACCCCCGCAAGGAATTCCCGAAGTCAATGTGGATGCTTTTTGCCATGACGGTCTTCATGACCTTGACCGAAACTCTTGGTCTGGCCGTCCTCTTTGACGCTAAACACATCCCGCACGACTTTAAGATGAACGGGGCCTTCTATGCCTTCCAGCTTCTGGGTGAAGAAGCCGGCATGGGCAAGAGCCTCATGTACATGTACGCCATCGTCTGCCTCTTGAACTTCATGGCCGACCTGGCCGCCTTGATCGACGCCGCCAGCCGGGTCTTTGCCTCTGACACTTCTGAAAAGTACATGCCAAGCTGGCTCAGAAAGAAGAACAAGGATGGGCTGCCTGTTAACAGTTACGTGCTGACTTGCAGCATCACTCTCTTCCTTTTGCTTTTGTCAGGGACTTTGCCGGAAATCAACGATATCTTTAACTGGCTCTTGAACCTGAACGGGATCGTATCCCCGTACAAGACTTCCGTAGTCTTCCTGGCCTTCTTAGCCTTCCGCTACCGGCACAAGACTTTTGCCAAGGACGACTTCGTCTTCATCAGAAACAACAAGGGGGCCCTGGCGGTCGGCTGGTGGTGCTTCATCTTCACCTTCATCTGCGCGACGATGGGCTTCCTGCCGCAAGACGTTACTTTTGAAAGTCCGCAATGGACCAAGCAGCTCTGGATGAACATCATCACCGTTATCGTCCTCTTCGGGACTGGCTCCCTCTTGCCATGGCTCAGAAAGCTGGAATTAAAGCACCAAGCCAAGGCGAACAGCTAA
>SRR1919932_00673 putative membrane protein
ATGAAAAAGTTTTTGCGAATAACCGCGACACTTTTGTCCGCTGCAGCTATTCTCGACTCTTTGTATTGGCTCTTTGTTGGCCATTCCTACTTTAGAGTTGCCTTTCTTAAGCTGACCGGCGGTAATGGCATCCCCGGCTGGCTTCAAATCGCGGTCATCGCCGGTATCCTCTTGTTTCTCTCTCAATATGACTGGTTCTTTGATCATTTTCTCCGCGATGAACGTGACCGCAAGTACAAGTAG
>SRR1919932_00674 ornithine decarboxylase
ATGCGTTATCTAGCAATCGCTGCTAAAAAAGAGCTTCTACCCTATCTGCCAATCGACTGGCCCAGAACTGAACTGACCGAGCTGGTCAACCCCGCAAGCCTGGCTGCCGTAGTCATCGATGAAAAAGACAGCCGGTCCCGGGGCATCTACCAGACCATGAAGGAAAAGCTGGGTCTGGACTTGCCCTTGATCGAATTTACTCCTGAGACCTCTCCAGCTGAAATCAGCCGCTTGGCCCAGACCTACGAAGAAGCCAACGTTCCCCGCTTCATCCGGGAGCTGACGGCTTTTTCTGACCAAGACGACCTGGTCTTCGATACTCCTGGCCACCACAACGGCCGCTTCTACGACCGCCACCCAGCTGGAGCAGTCTTGCGCAACTTCTTCGGTGACAACTACTTCAGAGCCGATACTTCTGACTGCGTCTCAGAACTCGGCGATATGATGAACCACACTGGCGGGCCCTTAGAAGCCCAGCAAGAAGCAGCTAAAGCCTTCAACGCCGACAAGGTCTACTTCTGCACCAACGGCACAACCAGCGCCAACACTATCTGCACCACCGCCCTTTTAGATGAAGGCGACCTGGTCCTTTTTGACCGCAACAACCACAAGTCCATCTACAACAGCGCCCTGGTCATGACCGGGGCCAAGCCGGTCTACCTGCCAACTGACCGGAACGCTGACGGCTTGATCGGGCCTTTGACCGCCGCCAGTCTTGATGAAGGCTTGATCCGCCGGGAAATCGCCAAGGTCGCCCCTGGCCGCGCCAAGGCTGACCGGCCTTTCCGCCTGGCGGTTCTGCAGCTGGAAACCTACGACGGCATCTTCTATGACGCCAAGCTTATCTTGAAAAAGCTCGGCCGCCTCTGTGACTACATCCTCTTTGACTGCGCCTGGGGCGGCTATGAACAATTTGTCGACGTCCTCAGAGACTTCTCTCCTTTCCAGCAGACCTACGGCCCCGATGACCCAGGCATCCTGGTCACCCAGTCCGTCCACAAGCAGCAAGCCGGCGTGGGCCAGGCCTCCCAGATTTTAAAAAAAGACAGCCACATCAAGGGACAAAAGCGCTACGTCGACCACAAGCACTTTAACCATGCCTACATGAAGTACGTTACGACCAGCTACTCCTACCCGGTCTACGCTTCTCTTGTCGCTAACAGCGCCATGGCTGCTTCACCGGCCGTTAACAGCTGGTGGAACGATACGGTTAAATTAGGCATCGACTTCCGCAAGCGCCTTTTAAAGGAAAGCAAGCTCTTTAAGCCCCTCGTTCCCCCAACTGTCCACGGGCAAAAGTGGGAGAACCTGCCAACTGATGTCTTGGCCCAGGACCCGGAAGCCTGGAAACTGTCCCCAGATGATGACTGGCACGGCTTCAAATTGCTTGCTCCGGGTGAAGTTGCCCTAAGCCCGGTAAAAGTCACCTTGATGACGCCCGGCATTGACCTGGCAAAAGCTGCCTTCACCGAAGAAGGCATCCCTGGCGCCATCGTTTCCCTCTACCTGCATGAAAAGCACATCATCCCGGAAAAGTCCGACAGCTACTCCACCCTCTACCTGCTCACGCCAGGCGAGGGGCAAGTCGATATGAACGGCCTTTTCTCGGCCTTAATGGCCTTTGAAGAAGCCTACTTGACTAAGGCGCCCCTGTCTGCCATCATGCCGGAATTAGTAGCCCAGTACCCTGACCGCTACGAGGGTTATACCCTCTACCAGCTCTGCCAGGAGCTCCACCACTACTACCAAGAGCATGAGATCTTTAAGCTCCAGCAAGCTCTTTTCCTAAAGGACAGTTTCCAAAATTACGAGCTGACGCCAAAAGAAGCTGACCGCGAATTCGTCCACGGCAACAGCGAACTGGTCAAACTGGCCGACGCCAAGGGCCGGATGGCCTTGGAAGGCGCCCTCCCTTACCCGCCTGGTGTCTTCATCGTGGCACCTGGTGAACGCTGGCAGGACCTGGACGTTGCCTATTTCCAAGTCTTGCTCGGCGCTGCCCGAAAGTTCCCGGGACTTGATCCGGAAATCCAAGGGGTCTACCAAGAGGACGGCGAAGTCTGGGCTGAAGTCCTTAAAGAATCTTAA
>SRR1919932_00675 aluminum resistance protein
ATGAACAATTTACCAGAAGAATTAGCAAAAATTGTTAAGGAAGTCGACGAGCAGATCGCCGGCCGCCTGCATGAAATCGACGAACAGGTTATTTACAACCAGGCCAAGGTCCTGGAAGCCTTCGTGGACAACGCGGTCGCTGAATCTGACTTGAAGGGGACCAACGGCTACGGGGACGACGATGAAGGCCGGGACAAGCTGGAGCGGGTCTACGCCCAGGTCTTCCACACTGAAGACGCCCTGGTGCGGCCGCAATTCGTTTCCGGGACCCACACCCTGGCAACCGCCCTTGACGGCAACCTGGTGCCAGGCGACACTTTGACTTACCTGACGGGGATGCCTTACGACACCCTGCAGCACGCTATCGGCCTTACCCCAGACAAGGCCGGCACCTTGATTGAAAAGGGGGTCAAGTTCTCCTATGTGCCGCTAAAAGAAGACGGCAGCGTCGACTTTGAAGAGGGGGAAAAGATCTTAAAGCGGGACCAGCCGAAGATCGTGGCTATTCAGCGGTCCCGGGGTTACGACACCCGGGAAAGCTTCCCGGTTGCTAAGGTCAAGGAAATGATCGACTTTATCAAGGAAGTCAGTCCCCAGTCCTTGATCTTCGTTGACAACTGCTACGGGGAGTTTTCGGAAAAGCATGAGCCGACTGAATATGGGGCCGACTTCATGGCCGGTTCTTTGATCAAGAATGCCGGGGGCGGGATTGCCCAGACTGGTGGCTACATCGTCGGCAGAAAAGACTTGATCCACCGGGCAGCCAGCCGGCTTTTTGCCCCGGGGATCAGCGACTCAGAAGGGCCAACCTTAAACAGCCTGCATGAGTTCTACGAAGGCTTCTTCCTGGCGCCAAACGTGACCGGGGAAGCCATCAAGGGGATGATCTACTCAGCCGCCTTGATGGAAAAGCTGGGCTTCGACGTGTCTCCTAAGTGGGATGCCCCGCGGACTGACCTGATCGAACTGATCACCTTCAACGACAAGGAAAAGATGATCAAGTTCTGCCAGGAAGTGCAGAAGAACTCACCGGTTGACTCCTTTGTTACCCCAATTCCAAGCCACATGCGGGGCTACGAAGATGAAGTCATTATGGCCGGGGGGACCTTTGTCTCCGGGTCAACGGTTGAATTCTCAGCTGACGGCCCGATCCGTCCGCCTTACGCTGTCTACATGCAGGGCGGTTTGACCTACGCCCATGACAAGATCGCCGTGACCAACGCGGTCAAGTCAGTTCTCTTTGGCGACTAA
>SRR1919932_00676 uracil transporter
TTGAAAGAAGACAAGACATTCCGGAACCCTGAAGCGGTTTTGGACGTCCAGGACAAGCCGAAGTTCGGTCCCTGGCTGCTGCTCTCAATCCAGCACCTCTTCACCATGTTCGGTTCGACCGTCCTGGTTCCGCTTTTAATCGGCTTAAACCCAAGCATCGCCCTCTTCTGTTCAGGGGTGGGGACCTTGGTCTACATCCTCTGCACCCAGGCGAAGATCCCAGCCTACCTGGGCTCATCTTTTGCCTTTATCGCTACTATGCAGGCCTTGATGAAAAATTACGGCTACCCGGCCGTAGGGCAGGGGGCCATCGCGGCTGGTCTGGTCTACGTCATCGTGGCCCTCTTGATCGCCCGCTTCGGTTCCCGCTGGCTGGACAAGATCCTGCCGCCAATCGTGGTTGGCCCGATCATCATCGTTATCGGCCTGTCACTAGCGACGACCGCGGCTAACGACGCCATGTTCAACGCCAGCGGCAAGTACAGCCTGACTTACTTCGGGGTAGCGATTTTTACCCTGGTTATTACCATTATCTTCAACATGTTTTTGAAGGGCTTCCCGAGCATGATACCGGTTTTGCTGGGGATCATCTGCGGCTACCTCATGGCCCTCTTCTGCGGGATCGTTGACCTGTCCGGCGTTGAAAGCGCCAAGTGGTTCTCTTTGCCCGCCTTTGATGTTTTAGGCGTCAGTTACAAGTTCAAGTGGTACCCGGCCGCCATCATCACTATGGCGCCAATTGCTTTTGTTACTATGACTGAGCACATGGGCCACATCATGGTCTTAAACAAATTGACCAAGCGGAACTTCTTTGAAGACCCGGGCCTGCACCGGACCCTGCTGGGCGACGGTCTTTCCAGCATCATTGCCGGCTTTTTAGGCGGCCCGCCAACCACCTCCTACGGGGAAAACATCGGCGTTTTGGCCATGACCAAGGTTCACAGCGTCTTCGTTTTGGGCGGGGCAGCCTTTTTCGCCATCGTCTTCTCCTTCGTCGGTAAGGTGTCAGCGGTGATCGAATCCATCCCAACCCCGGTTATCGGGGGGATCTCCTTCCTGCTCTTCGGGATGATCGCGGCCAACGGCCTGCGGATCCTGGTTGACAACAAGGTCGACTTTGAAAAGAAGCGAAACCTGGTCATCGCTTCCGTCATCCTTGTTATCGGGATCGGGGGCACCTACCTCAAGATCGGCTCATTCCAGCTGACCAGCATCGGTTTGGCTACGGTCTTCGGGATTCTCTTGAACCTGATCTTGCCGGAAAAGGCAGCCAGCGAACAATAG
>SRR1919932_00677 membrane protein
ATGCAGGGGACCCCGGCTTCCGGTGGTTTCGGCTTGATCGGGGCGGTTTCTCCTTTAGCAGCCTACAATGCCGGCTTCCACAACGTGCTGGTGCTGGTCATCGTCTGGGTAGTCGTGCCATTCGCGGTTGGCTACCTGATGAAGAAGATCTTCGTTGACTGGACCAAGATCTGCAAGCCGGAATACTTCATCAGTCCGGCCCATTAA
>SRR1919932_00679 cellobiose-specific PTS system IIC component
GTGAATAGCGTGATTGACTGGCTGGAGCGGCACCTGCTGCCCTTGGCCAATAATCTGGCCTCGGTCCGCTGGCTGGTGGCCCTCAGGGATGCTTTTATTTCCACCCTGCCGATCAGTTTGACCGGGTCGGTGGCGGTTTTAATCAAGAGCCTCATCATTGCCGCCAACCGCAACTGGGGCTGGCATGTTTTTTACCAGCTCATGCAGCCATCGATCTCCATCTGCAACTTCGTCTGGCGGGGGAGCGTGGCCATGTTTGCCCTCTTCTTCGTCCTCAGCTGGGGCTACCAATTGGCCAAGGCCTGTGAGGTGGACCCCTTGGCCGGGGCGATGACGGCTCTTTGTTCTTTCATGATGAGCATCGCCAACTATTCCTACCTCATGCAGGGGAATAAGCGGATTAAGCTGGACCAGGCTTTTAACATCAAGCAGCTGTCAACGACAGGGATGTTTACGGCCATTCTTTTTGGCGGCCTGGGCGTGGCCCTGTACATCCTGGGGGTCAAGGCCCGGCTGGGCCTGCATATCCATACGGCCATGCCCCCGGCCCAGATCGCGGCCTTTGAAGCAGCGATCCCGGTCATGCTGGCCCTCTTTATCGTGGGCGGTCTGAACTATCTCTTCCAGACCATTACCGGCCAGTATTTTGGCGACTGGTTCTTAGAGATCATCCAGCTGCCACTTTTGAAACTGGGCCAGGGCTTTATCATGGTGATTGCTATTACGGCTTTGACCCAGCTCTTCTGGTTCTTCGGGATCAATGGGGCCAGTGCCTTAGCTCCGGTTGTCGGGTCGATCTGGGCTACGGCCCAAAACGCCAACCTTTTGGCGGCGGCTAACGGTCACAAGATCCCGTATTTGTGGACCAATACTTCTTTTGTGGTCTTTGGCGTCAATGGGGTCTGCCTGCCTTTAGTCATCGCGATTTTGCTGACCTCCAAGCGGGGGGACCAGCGGACTTTGGCCAAGGTGGCCCTGGCTCCGGCTGTCTTCAACGTCAATGAGCCCATGCTCTACGGGCTGCCGATCATCTTGAACCCGGTCTGCTTTTTGCCTTTTACCCTGGCTCCTTTAGCCAATGTTTCCTTGGCTTATCTGGCGACCAAGCTGGGCTGGATCAACCGGGTCCAGGCTTCGGTGCCTAATATCATGCCCCCGGTCATCGGCCCTTATCTGGCCACTAACTATGACTGGCGGGCCCTGGTCTTGTCCCCGGTCAACCTGGTCATCGCGGTCTTGATTTGGTTGCCCTTTGTCAAGGCGGCTGACCAGATTGGGCAGACGGATGAACCCCGCCGCTTTTTCATGCCGCAATACTAA
>SRR1919932_00680 DEAD/DEAH box helicase
ATGATTTACACAGAACAAATTCAAGCAGTTTTGCAAAAGGAAGGCAAGAGCCAGCCAACCTTGATCCAGAAAGAGACTTATGAGGCCATTAAGAATGGGGCCAGCCTGGTCGCTTTGGCCAAGACAGGGACAGGCAAGACCCTGGCCTATGCCCTGCCGGCTTTAGAGCGGGTCATCCCGGGAGAGAAAAATTCCCTAGTGATTTTGGCCCCAACGACTGAACTGGCCGTCCAGATCAGAAATGCCATCCTGCCTTTTGCCAAGGCCCTGGGTCTGAAGACTTTAGCCTTGGTTGGGGCCGGCAACCGGCAAAGACAGGACGAACGGCTGAAGAAGGACAATTGTGAGGTCCTGGTCTGCACTCCGGGCCGCTTCTTTGACTTCTTCTCCTCGGGCCGGATTAAACTGGTCCAGATCAAGACCCTGGTGATCGATGAAGCTGACGACATTTTGGAATTCGCCAAGCTGGAGCTTTTGAGTTCTTTAGGGCAGAACCTGCCTTCTTCCAGCCAGATCCTCCTCTTTGGGGCCACTGAATCCCAGATTACCCAAGAGGCGGAAGAAATTTTTGCCCGCCACTTCCTTTTAGTCGACGTCCGCCCCGACCAGGGCAGCCAGACTGAACACGTCTTTTTGCAGGTGGACAATGAGCACAAGCTGGAATACCTGCAGCGTTTGTGCAAGCTGGACGGCTTCCGGGGCCTGCTCTTCTTTGACTCAAATGAGGGAATGCTGCGCTTTGCCAGAATTTTTGCCCACAGCAAGACCCGCTTTGAAGTTTTGGCCAATAATTTCTCAAAAGACAAGCGCCAGCAGGCCATCCGGGACCTGGCCAAGGGGAAGGTCAAGCTGCTCTTGGCCACTGACCTGGCGGCCCGGGGCTTGGACATTCCAAAACTAACCTATGTGGTTAACTACGAAATCCCGACTGATGCCAACACCTACATGCACCGGGCAGGCCGAACCGGCCGGATGCAGCAGGAAGGCAAGGTGGTGTCTCTGGGTAACGACCACGACCTGCGCAAGCTGAAGAAGCTTTTGGAAGGGGAAGTGACCGTCGACCGGGTCTACTTTGCCGGCTACCACTTGAGTAAAGAAAAGCCGGTCAAGAAGGAAAAGGCTGAAGACAAAGACAAGCCAGCTATAATTGAGCAGCCAGTTAAGAAGAAAAAGAAGTCCAAGAAGAAAAACAAGAACAAGGGTTATCACCCGCATTATCTGAAGGGGAAGAAGCAAAGTGAATAG
>SRR1919932_00681 1,4-beta-N-acetylmuramidase
ATGGGGCAAAAAAAGCATTTCCAGCATCCGGCGACACTGCCGGCCCTTTTGATTCTGCTGGCCGCGATTATCAGCCTTTTGGCATATGGCCTGTACAATTATGCCAGCCAGACGACCCTGCCAAAAGGAGCCAGCCAAAGCGCGGTCGGCCTGAAGGTCAGCCAGGCAGATTTTGACCTCAGCCGCCTGGAAAAGGGCGGCTTGTCTTTCGTTTATCTGCCGGTTGACCAGAATTTTGCCGCCAGGCGCGAGCAGGTGGCCAAGACCAAATTGGCCTATGGCAGCATCATTGAGGTGCAAGGGGAGAAAAATGCGGCAAAGCAATTATCCCGGGCGAAGCGCCTGGCGGCTGGGCATTGGGGGGCCTTGCCCATCCTGCTGGACAGCGGGCAAGATGACCCCAGCGCCGCCAATTTAACGGCGATGAGCAAGCTGGCCTATTCCCTGGTCAAGAGTCATGAGATTATGGTCAACGCCCCGGTCAAGTACAAGAAGCTTTTTCCGGCGGGATGCAAGTTCCTGGCTACCTCGGCGTCAGCGCCAAGTAAGCTGGACTACTGCTTCTGGCGCTATACGGAAAAGGGCCACGTGGCCGGAGTCAGCGGGATCGGCTGCAAGAATGTCATGTATGCCTATATCGGGACCAGCCAGCAATATAAAGAAAAGTATGGACAATTAGCACAATGA
>SRR1919932_00682 amino acid permease
GTGAAAAAACAGATTTCTTTTGGCCAGGCGCTGTCAACCGTTATCGGCTCAGTCATCGGGGCCGGGGTCTTCTTTAAGATCGGCAGCATCTCCCAAAGCACCGGGTCGGCCTCAGCCACCATCTTAGTCTGGCTTTTAGCCGGAGTCATCTCGATCTGCTCGGGCTTGACCGTGTCAGAAATTGCGGCCGCCTTGAATGTCAACGGAGCCATTGAATACCTGGACTACAGCTATGGCAATATCTGGGGCTTTCTCTTCGGCTGGGCGGAAATGACTGTCTACTTCCCCGCCCAGATCGCGGCTTTAGCTTCAATTTTCGGCCAGCAGTTCGTGGTCCTGGCGGGCCTGCCGGCCTCCGGCAGCAAGTGGATCGCTGCCGGCGTGGTTCTTTTGCTCTTTTTGATCAATATGCTGGGGACCAAGGCTTCAGCCTGGATGCAGTCGGTGATCACGGTCATCAAGCTCATCCCCCTCTTTTTGATCATCGTCTTTGCAATCATCCGCCCGCAAGTCTCCGTCAGTCTCTGGCCAGTTACGGTGGATAGCAGTGGCGGCTGGCTGGCCGGGATCAGCCAGGGGCTCTTGTCTGCCCTCTTTGCCTTTGAAGGCTGGATCGTGGTGACCAACCTAGCTAAGGAAATGAAGAATCCGAAAAAGGACCTGGCCCGGGCCATCATCCTTGGCCTCTCCTTGGTCACGGTCGTTTACGTCCTGGTCAATTACGCCTTTATGGCGGTTTTGCCTTTTGACAAGATCATCGGCAACGACAATACCGCCTACTACGCTTCTCTTAAGCTCTTTGGCCAGGCCGGGGGAAAAATCGTCACGGTCGGCATTCTCCTGTCGGTTTACGGAGCCTGCAACGGCTTTATGCTGACGGGGATGCGGACGCCATATATCCTGGCCCAGGCCAACCGCCTGCCCGGCTCTGAGAAATTGGCCAAGACTTCTGTCAGAAGCGGAGTCCCGGTCTTCTCCGCCCTTTTGATCAATGCCATCGCTTTGATCATGATCTCCCTGGGTAACTTTGAAATCTTGACCGACATGCTGGTTTTCGTCATGTGGACCTTCACCACCCTCCTGTCAGTGGCCGTCATTTTGCTGAGAAAAAGAGAGCCGGACCTGGCCCGGCCTTTCATGACGCCGGCTTACCCGGTCATTCCCTTGATTTCCATCATCGGGGGTCTCTTCATCATCGTGATGACCGTCATCAACCAGTTCGCCCTCTCCATGATTGGCCTGGGCATCACCCTCCTGGGCCTGCCGGTCTACTACTGGAAAAAGCTTCATTAG
>SRR1919932_00683 hypoxanthine phosphoribosyltransferase
ATGAAAAGTATTCATGACGCAGTTGATAACAAGTTGTACAGCGAAGAAGACATCGCGGAAATGACCAAGCGGCTTGGCCAGCAATTGACCAAGGACTACGCTGGCAAGCGGGTTCTGGTTGTTGGTGCCTTGAAGGGGGCTATCTTCTTTCTGACTGACCTCCTGCGGGAAATGGACCTGGCTTGCGACATTGACTTCATCGACGTTTCCAGCTACGGCAACGGGACTGAATCCAGCGGCAAGATCACGGTAACCCATGACCTGGAAGCTGACGTGACTGGCCGGGACGTTTTGATCGTCGAAGACATCGTGGACACTGGTTTGACTTTGAAGTTTATGAAGGACGAACTGCTCAGCCGCGGCGCCAACTCAGTCAAGTGCTGCGTCTTGCTGAACAAGACGGCCCGCCGGACGACTGAAGTAGATGTTGAATACTACGGCACCCACGTGGGCAACGAATTCGTCATCGGCTACGGGATGGACTTTGCGGGTCTTTACCGGAACCTGCCTTACATCGGCGTCATCAAGCCAGAAGTCGTTGAAGAATTCAGCAGCAAGCACGAACACGACTAA
>SRR1919932_00684 hemolysin-like protein
GTGACGACAACACAAATCTGTATTAATTTACTAGCAATCGGTGTGATCTTTGTTTTTGCCTCCTTCTTTGTCGCGGCGGAGTTTGCCTTGGTGCAAGTCCGGCCCAGCCAGCTGGAGGACATGATTGCCAACGGGCAGGGGAACGTGAAGAAACTTAAGCGGGCCCTGCACATGTCGCAAAATTTAAATGAGTACCTGTCAACCACCCAGGTTGGGACTACCTTGGTCGGGGTTATCCTGGGCTGGTTCGGGGCGGACACCATCGCCAGCATTTTTGAAAGGCTGCTGGCCCTGACCCCCATATCCAAAAATCTGGTCAACTCAGTCGGAGCCTTGATCGGGGTCATTGCCTTGACCTACTTGGAAGTGGTTTTGACGGAAGTCGTGCCGAAAAATATCGCCATCGATGCTCCGGTTAAGATGCTGATGTGGATCGTCAATCCCCTCCAGCTCTTCCACACCTTGGTTTATCCCTTTGTCTGGCTTTTGAACGTCAGCTCCTCTGGCATCTTAAAGATGCTGGGCTTTAACCCGGTCGATGAAGAAAACCAGGTCTACTCCCAGTCAGAAATCATCCGCTTGAGCAAGAACGCGGTGCATGGCGGTGCTCTGGACAAGGAAGACTTGACCTATATGGAAAGAGCCTTCCAGCTGAACGACAAGACGGCTAAGGACATCATGACTGACCGGACCCGGCTGACAGTTTTAGATGCCAGCGAAAACATCAAGACTGCCCTAGACAAGTATCTGGAAGACGGCTACAGCCGCTTCCCGGTAGTGCGAGAAAATGACAAAGATGATGTGGTCGGCTATGTCTACGCTTATGACATTGTTCAGCAGAGCCGGATTGACGACCGGGTACCAGTAACCAGGATCAACCGGACCATCATTACCGTGCCGGAATCTATGCCCATCCAGGACATCCTCCGCTTGATGATCAGCAAGCACACTCCAATCGTGCTGGTTGTCGACGAATACGGCGGCACCAGCGGGATCGTGACTGACAAGGATATTTACGAAGAGCTCTTCGGGTCAGTTAAGGATGAAATCGACGACGTTTCTGATGACTACATTATCAAGGACGCCGAAGGCAATATCCGGGTCTCCGGCAAGACCACCCTTTATGACTTTGAGCGCTACTTCCACCAGAACCTCAAGAGCTTCCAGAACAGTGACATCATCACTATCGGCGGCTATATGATGGAACGGTATCCCGACTTGAAGAAGGGAGAGTCAATAGAACTGGAAGGCTTCCGCTTCACCCTGGACGATATCCAGCAAGGTTTCATGCGCTGGTTCATCGTTGAAGGGACAAAGACAAACGATCAAGCCAAAAAAGAAGAATAA
>SRR1919932_00685 sortase family protein, LPXTG-site transpeptidase
ATGAAAAAGGGGGACGTCTTCTACGTCCACAATCTGGGTCAGACCCTGGCCTACAAGGTGGACCAGATTAAGGTCATCAAGCCGACCCAGGTCGACCAGCTCAAGATTGTCAAGGGCAAGGACCTCTGCACCTTGATGACCTGCACTCCTTACATGATCAACACTCACCGTTTGCTGGTTACCGGTCACCGGATTCCTTACAATCAAAAGGCCGAAGCCAAGGCTAAGGAGAGAATCCGGAACCGCCTCTTCTGGAACATCATCGCCATCCTTTTACCGGTCTTGGCGATCATCATCTTCATCTGGCACAAGAAGCGGAAGAAGAAGAAGCAGGCTAAGGCAGACAAGGAAAAAGAACAAGAATAA
>SRR1919932_00686 adenosine deaminase
ATGAAAAAACTGATTGACCTCCACCTGCACTTAGATGGCTCCGTCCCTTACCAAACCGTCCGTGAACTGCTGGCTAAAGAGGGGAGAAGCCTGCCAGAAACTGACTTGCGAAAAAGACTTTCAGTCAGCCCAGACTGCCGGAACCTGGACGAATACCTGGACAAGTTCGACTTCCCCTTGTCCTTGATGCAGACAGCAGACAACCTCCGCTTGATTGTCAGAGAGCTCTTATCAGAGCTAAAGAGACAAGGCTTGGTTTACGCGGAAATCCGCTTTGCCCCCCAGCGGCATACGGAAACTTTGACCCAGGCAGAAGTTGTCCAGGCAGTTCTAGATGGCAGGGACGATTTTTACGCCTGGCAAAAAGGGCAGGAAGGAGACGACCTGCACGCCAACTTCCTCCTTTGCTTGATGCGGCTAGTTGGCCAGGATGAAGCCAACTGGGAAACTGTAAGAGTAGCTAAAGAATTTAAAGATCAAGGAGTAGCTGGCCTGGACCTGGCGGGCCCGGAAAACAAAGAAGTGGCAAACCGCAAGTACGAGCCCTTTTTCCAGCAGGCAAAAGAATGGGGGATTCCATACACCATCCATGCCGGCGAAGCCATGGGGCCAGAGTCGATGAGAGAGGCCCTTGCCATAGGGACCAAGCGGATCGGCCACGGCATCCGCTGCCAGGAAGACCCAAGCCTGGTTAAAGAATTGGCTGAAGATGGGATTACTCTTGAATGCTGTGCCAGCTCAAACCTGAACACCAAGGTTTTTGATCAGATCGCCGAATACCCCCTCCGCTCCATGCTGGGGCAAAAACTGCGGGTAACCTTGAACACCGACAACATGACCGTTTCAGCGACCAACCTGCTCCGCGAATACCAACTCATGGAAGAGCAGGGTTTGACTAAATCTGAAGAAAAGCAGCTCTACTTAAACTCGGTTAGAGCCGCTTTTGCCAGCCAGGAGGAAAAGGACCGGCTTTTGGCCTTGCTGGAAAAATAA
>SRR1919932_00687 hypothetical protein
ATGGAAGACATTTTCTTTACGGTAACGGGCTGCAACCACTACTTTGGGACGGAAGCTTTCAAGCCGAGAATGAAGGTAACCTTGTACAAGGAACCTGACAACAAGTATGACAAGGAAGCCATTAGGGTGGAAGCCCGGGCTTTAGGCAAGATCGGCTACGTGGCCAACAGCCCGTATACTGTCTTGGGCGAAAGCCGCAGCGCCGGCCGCCTGTACGACTTGATCGACGACGGGGCGACAGGCCGGGTGCTCTACGTCCTGCCGCAAGGGCTGGTCTGCGAGCTGGAAGAGACTGGTTTTGAAAAAGTTAAAAAGATTTATAAAAAACACAGGCATTATTAA
>SRR1919932_00688 DegV family protein
ATGAAAATTGCTGTTTTAACCGACAGTTCTGCTTACCTGAGCAAGGAGCAACAAGAGAAGTATCATATCGACGTGGTGCCGATTCCCTTGATTTGGGACGGGAAGACCTACTACGACCTGGTCGACATCAGCTATGAAGAATTTTATGAAAAAATCTCTACTAGCCAGACCCTGCCGACCACTTCCCAGCCATCTTTGGGTCAGATCATGGAATTCGTCGACCACTACGTGGAAGAAGGCTACACCGACGTAATCATCCTGCCTTTGTCCAGCGGGATCTCCAGCTCCTACAACAACCTGGTCAACTACGCGGCTGAAGAAGACCGGATCAAGATTCATCCTTTTGACTGCCGTACTACCTGTGCCGGCCTGGCTGACTGCGCCATTTTGGCTGCCCGCCTGGTTAATGCCGGAGCCAGCGTCGACCTCATCATGAAGGACCTGGAAGACCTGCGCAAGACGATCGGCGTCCGTTTCTTGGTCGACAACCTGGGCCACCTCAAGCGGACCGGCCGCCTGTCAAACGCGGCCAGCTTTATCGGCACCTTACTCCACATTACGCCAATCCTAGCCATGGACGTGCAAAAGACTGGCCACATCTCCGCCATTGCCAAGGGACGCCAATATAAGCGGGCCTACAAGCATGTCCAAAACGACTTCCGTGAATTGACGGAAAACAAGGACTACCCAATCCAGGCCACGATTTTTGACGCGGCTAACCCCGATCGGGGCGACGAATGGATTAAAGATTACCAGGCTGCTTTCCCAAAGGACAAGTTTGACCGGTCCATCATTGGCCCCGTTGTTGGCGTTCACTGCGGGAAAAATACCATCGCCATCATTTGGTGCCGGGACATCGACAGCTACTTTGACCAAGACGGCCAGCCTCTGCCAGATGTCGAATCTGCGGAAGTCGGCGAAAAGTTTTAA
>SRR1919932_00689 5-methyltetrahydropteroyltriglutamate-- homocysteine methyltransferase
TTGGGCGGCAAGGTAGCCTACAACCCGCACCATCCATTCTTTGACCACTTCCTTTTCACCCAAAAGGCGGCCGGGGACGCGGTAGCCAAGCAGACTATTCCTTCACCAACCATGCTCTTCAGAGATAACCGGTCTGACAACTGGCCAGAATTCTACGCTAGCTGGGAAGACTACCTGGCTGACTTAGGCAAAGCCTACAACGAAACCATCAAGCACTTTTACGATCTCGGCTGCCGCTACCTGCAAATCGACGACACCACCTGGGCCTTTTTGATCAGCAAGCTCAATGAAAGCCAGGACAATCCAAAAGAACATGCCAAGTACGTCCACTTGGCTGAAAGCGCGGTAACGGTTATCAACGCTGCTTTGGAAGGCCTGCCGGAAGACTTGACGGTAACGACCCACATCTGCCGGGGCAACTTCAAGTCCACCTTCCTCTTCTCCGGCGGCTATGAACCGGTTGTGCCTTACCTGGCCCAGCTGAACTACGATGGCTTTTTCCAGGAATACGACTCAGACAGATCCGGTGACCTGGCGCCAATCAATCAGATCTGGAACGGCCGGGAAAATGTCAAGCTCGTCTTGGGCCTGGTAACTTCCAAGTTTGGCCAATTGGAAGACAAGGACGCGGTCATCGCCCGCTTAAAGGAAGCCAGCGGCTATGTGCCTTTGGCAAACCTCTGCCTCAGTCCGCAATGCGGCTTTGCGTCAACTGAAGAAGGCAACACCTTGACTGAAGAAGAGGAATGGAACAAGCTGAAGTTCATCAAGGAAGTCGCTGACGAAGTTTGGGGCGAATAA
>SRR1919932_00690 5-methyltetrahydropteroyltriglutamate-- homocysteine methyltransferase
ATGAAGAGGTTGAAAAGCCTGGCTTTTGTTTACGCCAGCATATTTAGTTTACTGATTGGTTTAGGAGCAGGGATTTTTTTGACAATTTCCAGTGAATTAATTTCCCTTTTCTGGTCAAAGCGGACCTTGACCCATCCAGGTCTTCTGCTGCTCCAGTGCCTCTTGTGGATCAGCGACCTGGTTGAAAAGGAAAAGGCAGTGGGCCTTAAAGCCGTAACTGATGGTGAATTCCGCCGCAGCTGGTGGCACCTGGACTTCTTGTGGGGCCTTAAAGGGGGAATCAAGTACGACTACCAATAA
>SRR1919932_00691 myosin-cross-reactive antigen
ATGTATTATTCAAACGGTAATTACGAAGCATTTACTGACGCTAGAAAGCCAAAAGACGCTGACAAGAAGAGCGCTTATGTCATCGGGGGCGGCCTGGCCGGCTTAGCTGCCTGCGTCTTCATGATCCGCGACGGCCACATGGATGGCAAGAAGATTCACTTGCTGGAAGAAGAAGCCCTGGCCGGGGGTTCTCTGGACGGGACCAAGCGGCCGGAATACGGCTATATCATCCGGGGCGGCCGGGAAATGGAAAACCACTTTGAATGCCTTTGGGACATGTACCGGTCAATTCCATCTTTGGAAATTCCTGGCGCTTCCTACCTGGACGAGTATGCCTGGCTGGACAAGGATGACCCTAACTCATCCAACTGCCGCCTGATCCACCACCGGGGCGACCGGGTGCCAACTGACGGCCAGTATGGCCTGGGCAAGTGCGCCGGGGAAATCGTCAAGCTGATCATGACACCGGAAGACAAGCTGGAAGGGATCTCAATTGAAGATTTCTTCTCTGATGAATTCTTTGAAACCAACTTCTGGGCTTACTGGGCAACCATGTTTGCCTTTGAAAAGTGGCACTCAGTCATTGAAATGCGCCGCTACGCGATGCGTTTTATCCACCACATCGACGGCTTGCCGGACCTGTCAGCCTTGAAGTTCAACAAGTACAACCAGTATGAATCAATGACCAAGCCCCTTTTGGCCTACCTGGAAAGCCACGATGTTGACATCTGCTACAACACCCAGGTTGAAAATGTCGTAGTTGATACCAGCAACGGCGAAAAGGTTGCCAAGAAGCTGATCCTCACCAGAGACGGGGAACACCAGGAAATCGACCTGACCCCGGACGACCTGGTATACGTGACCAACGGGTCAATCGTTGAAAGCTCAACTTACGGCACCCACCACACTCCAGCGCCAATCACCCACAAGCTGGGCGGGTCTTGGCACTTGTGGCAGAACCTGGCTGAACAAGACGAAGCCTTTGGCCACCCGGAAGTCTTCTGCGAAAACATCCCGGAAAGAGCCTGGTTCGTTTCCGCGACCATGACCATGAAGGATGCTACTCTGGAACCATACTTTGAACGCTTGACCAAGCGGGACATCCACCAGCATCGGGTCAACACGGGCGGGATCATCACCGTAACTGACTCCAACTGGATGCTCTCCTTCACCATCCACCGTCAGCCACACTTCAAGGACCAAAAGGAAAACGAAACCGTTGTCTGGATCTATGCCCTTTACTCAGACACGCCAGGCAACTACATCAAGAAGCGGGTCGTTGACTGCACGGGTGAAGAAATCACGGAAGAACTCCTCTACCACCTGGGCGTGCCAGACGATTTGATCAAGAAGTATGCCGGCGATGACTATGTCAACACTGTTCCGGTTTACATGCCTTACATCACTGCTTACTTCCAAATGCGGAAGAAGGGCGACCGGCCGGCAGTCGTGCCAGCTGGTTCAGTCAACCTGGCCTTTATCGGCAACTTCGCTGAATCTCCGACCAGAGACACTGTCTTCACCACTGAATACTCAGTCCGGACCGCTATGGAAGCTGTCTACACCCTGCTGAACGTTGACCGCGGGGTACCGGAAGTCTTTGACTCAGTCTACGACATCCGGGAGCTTTTGAAGGCAACCTACTACTTAAACGACAAGAAGCCAATCGACCAGATGGACCTGCCGCTGCCAAAGATCGTGGTCAAGGGGGCCATGAAGAAGGTCCAGGGCACTTGGCTGGAAGAATTGCTCAAAGAAGCAAAATTGCTTGAGTAA
>SRR1919932_00692 amino acid permease
ATGGATTCTTTAGATGAAACCGGCAAGCGGAAATATATTTCCTGGCCGGTGATCGCTCTGATGGACTTCGTGACCGTGATTGGTTTCGATGACATCATCTACAATTTTCAAAACCAGGGTCTGGCTGTGGTCAGCGACTGGGTTTTGCTCTTGGTCTTGTTCGTCATTCCTTATGAAATGATGGTCGGTCACCTGGGCAGCGTTTTTGCCAAAGAAGGGGGCGGTTTGTCCTCCTGGATCCGGCATACCTCTGGCGACAAGATGGGCTACATTACTGCCTGGTGCTACTGGGTGGTTTCTCTGCCTTACCTGGTTGACGTGGCCAACTCAACCGTCATTTCCTTTGCCTGGCTCTTTAAGGGGCGGGCACTGGATGATAATGAAATGTCCAACTGGGTCTTTGCCTTGTTCACGGCTTTGATCTTCGTGGCCTTCATTTTCTTCCAGCACAAATTTGCCAACTCCTTGCAATGGCTGTCCATTATCGGGGGCGGAGCCATGTTTGTAATGACCATTCTTTTTGTCATTATGACCTTTGCCTACCTGGGCGAGGGGCGGTCGGTAGCGACCCAGCCCTTCCACTTCAAGAACTTCCTGCCGACTTTTGACATGAAGTTCATGATGTCCCTGGGGCTCTTGATTTTTGCCATGAACGGCAGTGAATTCGTCGCCCCTTATGTCAATGAAATGAAAAATGGTCCCCGGGACTTCCCGAAGGCTATGTACATGCTGGCCGCGATGACGGGCTTCTTGACTATCTTTGGTTCCTTCAGTTTAGGTGTCTTCTTTAATGCCCACAAGCTGCCGGATGACCTCAAGATGAACGGGTCCTACTACGCCTTCCAGGCCATGGGGGACAAGTTTGGGATGGGCAACTTCTTCTTGTATGCCTTCATCATCACTCAAGCCCTCTACATGCTGGCCCAGCTGGCGGTATTGGTTGACGGCGGGGCCCGGATCTTCCTGTCTGACACGGCCAAGCAGTACCTGCCAAAGCAATTGACCAAGGTGGACAAGAACGGCCTGCCAATCAACGGCTACTGGCTGACCACCTTCATTTGCTCAGTTTTGCTCTTCTTGAGCTCAACTTTGCCAACGGTCAACGACATCTTCAACCAGCTTTTGAACTTGAACGGGATCGTATCACCTTACGTGACCGGCCTGCTTTTCTGGGCCTTCATCAAGGTGCGGATGCATGAAGAAGATTACCCGTCAGCTTACGTCTACATTAAGAACCGGAAGTTTGCCATCTTTGTCGGCTGGTGGTGCTTGATCGTGACCCTGACCGGGGCTACCTTCGGGATTGTCCCAATCGATGCTGAATTCGGGACGGCCAAGTGGACCCACATGCTGATTCTTAACATCGTTGAACCTCTCTTCATGATTGCTCTCGGTGTAATTTTGCCGCTCATTGCCAAGTGGCAGAGAAAGCGCGACGGTGAAGAAGGGTAA
>SRR1919932_00693 hypothetical protein
ATGGAAATCGAGAAATTGAAGGCAGACTACATCAATTGGCTGGCGGGACAGACAGTTTTTAAGCCTTGGTCAGACACGGTTTTCCAGGTGGAAAACGAACTGGTTGATGCATACGGCCGCAAGCCTTTTGTCCTGGTCGAAAAGAGCGGGGATAAATATACGGTAACTGATGACGGCTACCTCATGTACAAGTACAATCCTACGGAAGAAAACGAGGATTTAAACGAGTACGCGGCCGGGATGGTCATGGATGCTGGTTTTGACTTTGATGAAGACAATGCCGTGATTTCGCAGACGGTCAGTGAAGAAAGTTTGCCCGGCGCCATCAACGCTTTGATGCAGCTGGAAATCATGATTTCTTTTATTGCTTAA
>SRR1919932_00694 major facilitator superfamily transporter
GTGAGCAGCAAGAGTGCAAGTGTTTCCCCGGCTAAAGCGGGGCGGATGGAGAAGGAAAAGGGCAAGTCGATTTATTCCAAAGACGTCATCTTGGTCATGACCGCCTCCTTCCTGTTTTTGTTCGGGACCATGTTCAACAACCCATTGATCAACGGCTATGCTGAAAGCCTGGGGGCTAGCAGCATTTTAGCCGGGGTGATCGTGGGGATTATGAGCTTCGCGGCCATGTTTCTCCGGCCAATCGCCGGCAACTTGACTGACAAGTTCTCCAAGTACCAGCTGTCTTTTATCGGCGGGGTGCTGATCCTTATCGGGATCGTGGGCTATATTGTTTCGCCTAACGGGGAGCTCTTGCTCTTGTTTAGAATCATCAACGGGACTGGTTTTGTCCTTTGCACGGTCTGCATGACCACCTGGATCGCCTTCCTGGTTCCCCGCCAGCACGTCGGGTCGGCCATGGGTTTGTACGGGCTGATGAATGCTTTGGCCATGTCCATTGCCCCGGCTATTTCCATCAACCTTTATAAGGTGATTGGCTACCGGAAAACCATGATGCTGCCAGCCGCGGCAACTTTGATCATGATCATCATTATCCAGTTCGTCGGCAACCGGGCTGTTCCTAGTCCTCGGCAAAAAGAAAAGAAGCAGTTCAAGATGATCTCCGTCAACGCTTTGCCAGTAGCACTTTTGACGACCTGTTTCGGGATTCCATACTTCGTCACCCAGGCCGACATCGTGACTTACGTGGCCAAGATGCACATGCCAGTGGCGGTAGGGAGCTACTTCTTCATCTACGCCATCGTCTTGCTCTTGATCCGGACCTTCCTCAAGAACTACTTTGACACGGTCCGCTTCGGGGTCTGGTTCTGGCTGAGCCTGGTGGCTACGGCCATTTACCTGGTCCTTTTGGCTTACATGAGCAGCAACTGGATGATGGCCCTGGGGGCGGCCGGGATGGCGGTCGGCTATGGCTTGATCTACTCCGTCCTGCAGTCAACGGCCCTGCTTTTGTCACCGGCCAATGAACAGGGCCTGGGCAGCTCCACCTTTTACCTGGGTCTGGACATCGCCATGGCCTTTGGGCCGATGCTGGCCGGGGTTGTGGCCAAGGTCTTGCCGGGCCGCTGGTTCTACCTGGTTCAGCTGATCGTGGTACCTTTGGCCTTGATTGTTTACCTGATTTGGCGCAAGCGCCTGAACGGGGCAATTGATAATCACTAA
>SRR1919932_00695 glutamine synthetase
ATGAGCAAGGTAATTACTGAAGAAGAAATCCGCAAAGATGTAGAAGAGAAGAATGTTCGCTTTTTGCGTTTGGCCTTCACTGACATTAACGGTACGCTGAAGAACTTGGAAGTTCCTGTCAGCCAATTGGACGACGTCTTGGGCAACCAAACCCGTTTTGACGGTTCATCAATCGACGGCTTCGTTCGTCTGGAAGAAAGCGACATGGTTCTGTACCCAGACCTGGCAACTTGGTTAGTTCTGCCATGGACGACTGTTGAAGAAGGCACGATAGGCCGCTTGGTCTGCTCAGTTCACAACGTAGACGGCACTCCATTTGAAGGTGACCCACGCAACAACTTGAAGAAGGTTATTGCGGAAATGGAAGAAATGGGCTTCTCCGACTTTGAAATCGGCTTTGAAGCTGAATTCTTCCTCTTCAAGGAAGGCAAGAACGGGGAAGAAACCACCAAGGTTTCCGACCACAGCTCATACTTCGACATGGCTTCTGAAGACGAAGGCGCCAAGTGCCGCCGGGAAATCGTGGAAACTTTGGAAAAGCTGGGCTTCCGCGTAGAAGCTGCCCACCACGAAGTCGGCGATGGCCAGCAGGAGATCGACTTCCGCTTCGACAACGCCTTGGCAACTGCTGACAAGTTGCAAACCTTCAAGATGGTTGTCAAGACTATCGCCCGCAAGTACCACCTGCACGCAAGCTTCATGGCTAAGCCAGTTGAAGGTTTGGCCGGCAACGGGATGCACACCAACATGTCCCTCCTCAAGGACGGCAAGAACGCCTTCTACGACAAGGATGGCCAATACCACCTGTCAACTACTGCCTTGACCTTCTTGAACGGGATTTTGGAACACGCCCGCGCTATTACCTGCGTGGCTAACCCAACGGTCAACTCCTACAAGCGGCTGATCCCAGGCTTTGAAGCCCCAGTTTACATCTCATGGGCTAGCCGGAACCGGTCACCAATGGTCCGGATTCCTAACGCCAACGAAGTCGGCACTCGTTTGGAAATGCGGTCAACTGACCCAACTGCTAACCCATACCTGCTTTTGTCAGCCTGCTTGAAGGCTGGTTTGACCGGGATCAAGGAAGGCAAGCTGCCAATGGCACCTGTAACTTCCAACCTGTTTGAAATGACTGATGACGAACGCAAGGAACTGGGCATCAAGCCATTGCCATCAACCCTGCACAATGCTATCAAGGCCTTCAAGGAAGACGAAGTCGTAAAGTCTGCCTTCAGCGAACACATCGTTGACAGCTTCCTGGAATTGAAGGAAACTGAATGGGCTCTGTATACCCAGTCAGTTTCAGAATGGGAAGTAAAGCGCTACTTCAACTACTAA
>SRR1919932_00696 aluminum resistance protein
ATGAGAAAATTACCAGAAGAATTAAAGGCAATCCTGGCTGAAGTTGACCAGGAAATTGCCCCCCGCCTGCGGGAAATTGACGACCAGGTGGTCTATAACCAGGGAAAGGTCCTCAAGGCCTTTGTCGACCACCAGGTGGCGGAAGCTGACCTCAAGGGGACCAACGGCTACGGGGACGATGACATCGGCCGAGAAAAGCTGGAAGCCATCTATGCCCAGGTTTTCCAGACTGAAGACGCCCTGGTCCGGCCCCAGTTCGTCTCCGGTACCCACACCCTGGCCGTGGCGTTAGACGGCAACCTTTTGCCAGGTGAAACTTTGACCTATCTGACCGGGATGCCTTATGACACCATGCAGCAGGTGATCGGCCTGGGCCCGAAGAAGCGGGGGACATTGATCCAGAAGGGGATCAACTTCTCCTACGTGCCTTTAAACGAAGAAGGCGGGGTTGACTACGAAGAAGCGGAAAAGGTCCTCAAGCGCGACCAGCCCCATATCGTGGTCATCCAGCGGTCTAGGGGCTATGACACCCGGCAGAGCTACACGGTTGACCAGATCAAGGAAATGACTGCTTTTGTTAAAAAGGTCAGCCCAGAAAGCTTGGTCTTCGCCGACAACTGCTATGGGGAATTTTCTGAAAAGCATGAGCCGACTGAATACGGGGTCGACTTTATGGCTGGCTCCTTGATCAAGAACGCCGGCGGCGGGATCGCCCAGACTGGCGGCTACATCGTCGGCAAAGAGGAACTGGTCGAAACCGCGGCTATCCGCTTGACGGCTCCGGGGATCGGCAAGGAAGAAGGGGCCACCTTGACCAACATGCACGAGTTTTATGAAGGCTTCTTCCTGGCTCCGCACACAACCGGTGAAGCCATCAAGGGGATGATCTTCTCAGCAGCTCTTTTGGAAAAAATGGGCTGTGAAGTCACGCCAAAATGGCATGAACCGCGAACCGACCTCATTCAGACGATCATCTTCAATGATCCGGAAAAGATGATCAATTTTACTAAAGAAGTGCAGAAAAATTCGCCAATTGACTCCTTCGTTGAGCCAATTCCAAGCGATATGCCAGGTTACGAAGATAAGGTTATCATGGCCGCCGGCAATTTCGTCTCTGGTTCAACCATGGAATTCTCAGCAGATGGCCCGATCCGGCCGCCTTACGCCCTCTACATGCAAGGTGGTCTAACTTATGCTCACGATAGAATAGCAGTTACAAATGCCGTAAATCATTTGTTTTTTAAGGAAAATGGCTAA
>SRR1919932_00697 tRNA delta(2)-isopentenylpyrophosphate transferase
ATGCAGAAAGTAGTGGCCATAGTCGGGCCGACCGCCGTGGGCAAGACCAGCCTGGCTATCGAGATCGCCAAGAAACTGGACGGGGAGATCGTCTCCGGGGACTCCATGCAGATCTACAAAGAAGTAGCCATTGGCACGGCCAAGGCCAGCCGGGAAGAGCAGGCAGAAGTCAAGCACTACCTGGTGGATGCCCACTCGGTCTTTGAGGATTTTTCCGTAAAAAATTTCGTTGATGAGGCCCGGTCCGCCATCGGAGAGATCGCGGGCAGGGGCAAGCTGGCGATTATCGCAGGCGGGACTGGCTTTTACGTCAATGCCCTTTTAAATGACATGCAGCTGGGGGACAAGGAAGAAGAAGCAGCCAGCGTGGATCCGGAATGGGAAGACTTTTTAGCAGCTAACGGCCCCCAGGCCTTGTGGGAGGAATTAAACAAGAAAGACCCGGAAGCTGCTAAGAAGATCCCGGTGGCCAACAGCCGAAGAAGCCTTAGGGCCCTCAGCGTGATCAGCCGGACGGGCGGGCTCTTTTCCAAGCAGCAGGCAGAAATTAAGCCCCGCTATGACTACTTGATCATCGGCTTAAACAGTGACCGGGAGGCCATCTACCAGCGGATCAACCAGAGAGTGGACTTGATGATGGAGGCCGGGCTGTTAGAAGAGGCCCGCTTTGTCTACGAGCACCGGGCAGGCGAGCACCAGGTCCTGCAGGCTATCGGCTATAAGGAATTTTTTCCTTATTTTGCAGGAGAGGCCAGCTTGGAAGCCTGCGTGACGGCCCTTAAGACGGCCTCAAGGCGGTATGCCAAGCGGCAGCTGACTTACTTTAGGAATAAATTGCCGGTTGAGTGGTATGATCCCTTGACGGATCCCAACTGCGCTAACCGGATTGCTGTCAGAATAGAAGAATGGATGAATGAAGAAAAATGA
>SRR1919932_00698 rhodanese-like domain protein
ATGACCAATTTTTTAATCGTTCTTGACGTCATCTTGGGCGTCATCCTGCTGGGCTTTCTGGGCTTCTGGGCCTACAACCGGATCCAGGCCAAGCGCCTGGGCGGGGAGCTGACCAACGAAGAATTCAAGGCCGGGATGCGGAAGGCGCAGATCATCGACGTCCGCGAAGCCAATGAGTTCAAGCATGAACATATTGATGGGGCAAGAAACATCCCATATACCATGTTCAAGTACCAATACACCGAACTGCGGCCAGACCTGCCGGTCTACCTCTACTCGGACTCTTTGACCATGACCATGCGCTGCGCCAGCATCCTGCGCAAGCACAATTTTGCCAAGGTTTTTTACCTCAAGGACGGCTTCTCCCAATGGGACGGCCGCAAGAAGGCAGCCAAGAACTAA
>SRR1919932_00699 hypothetical protein
ATGACTGTTTTGAAAAATCTTTACGATGTCCAGCAGCTTTTGAAAAAATACGGCATTCTGGTCCACTTGGGCAAGCGGAAGTGGGACATCGAATTAATGGCGATTGAATTAGACAATTTGTATAAGGCAGGCCTCTTAGAGAAAAAAATCTATTTAAACGCGAAACTGGTCTTAAAGCATGAGCACGAATACGAAGAACGGCTTGAGCGGGAAAAAAGGCTGGACTAG
>SRR1919932_00700 membrane-associated serine protease
ATGAATAATCTGCGGCGTAATTATATGACAACCGCGCTGGTTGTGGTCCTCTTTGCCGTTTTCCTGGTGGAAACCTTTATGGGCGGCTCTGAGAGCACTTCTGTTTTGCTGAAAATGGGGGCTATGTTCAACCCGGCCGTGGTTATGGAGGGACAGTGGTGGCGCCTGTTTACCGCCCAGTTCCTCCATATCGGGATCATGCACATCGCTTCCAACGCGATTATGATCTACTATATCGGCCAGTACGCTGAGCCGGTTTTCGGCCACTGGCGCTTTTTGCTGATCTACCTGCTGTCAGGGGTGGGCGGCAGTCTTTTAACCTTGGCCTTTGGCAATGACCAGGCCATCAGTGCCGGGGCCTCAACTGCCCTCTTTGGCCTCTTTGGGGCCATGACCTGCGCCGGCTTTAAGGATAAAGACAATACCCTTTTGTCCTTCCTGGGCCGGCAGGCTTTGGCCTTAGCGGTCATCAACCTGGTCCTGGACGTCTTCATGCCTGACGTGGATATCCTGGGCCACTTGGGCGGTTTGATCACCGGGGCCTTGCTGGCGGTAATCCTGGGTGACGCGACCTATAAAGGCTACGGCAAGGGCGGCCGGCTATTGGCCGCGGCTGGCTTGATTGTCTATGTGGTTTTGATTTTGCGTTTAGGAATGGCAGTGACGGTATAA
>SRR1919932_00701 5-formyltetrahydrofolate cyclo-ligase
ATGGACAAGAAGACTTTCCGCTCCTGGCAAAGGCAGCGGCTGGCGGATTTCGCCAAGACTCCGGCTAAAAAAAGGCAAGACCAGGAATTGACTTCCCTGGCCCTGCAGCATCCCCTGGTCCAGGAGGCGAAAAAAATTGGCCTAACCCTGCCCATGCCGCTGGAAGTGGACATAAATGGCTTGATTAAAGAGCTGCGGGGAGAGGGTAAGGAGCTCTATCTGGCTAAGTGCCATCCTGGCTGGCAGCTGGACTTTTTAAAATGGGACGAAGGCGCTCCCTTAATACAGACCAAGTTCGGGGTCTGGGAGCTGGTGGAAGAAAAAGAAGCTGATAACGCCTTGGACCTGCTTTTTGTTCCCGGCCTGGCCTTCAGTCCGGCGGGCAAGAGCCGGATTGGTTTTGGCGGGGGCTACTACGACCGCTTTTTGGCCCAAAATTCCGTCCAGACCCTGGCCCTGGTCAACTCAGCCATGTACTTTAAGACTCCGGTCTGGCCAATGGAAGACCATGACCAGGCCATGGATGATTTGATTATTGTAAAGGAGGCCGGTGATGAATAA
>SRR1919932_00702 50S ribosomal protein L33
ATGGCAGACAACATCATTTTAGAATGCACCGAATGTGGCGACAGAAGTTACTTATCTAAGAAGAACAAGCGTAAGCATCCGGAACGTTTGACCTTGAAGAAGTATTGCCCAGTTGAAAGACAGGTAACTCTTCACCGCGAGACTAAGTAA
>SRR1919932_00703 penicillin-binding protein 2B
ATGAGTTATTTTAGAAAGAATAGCGGAACTGGCAACAGTAGTCAAACCGCAAACACCCCTCTCAGAATGAAGATTCTGGTCGGGGTCATCGTAATTTTGTTCGCGGCCTTAATTGGCCAATTAGCATACTTGCAGCTCTTCTACGGTTCGCGCTTTTCCGCGGAGGTTAACGCCACCGACGAAAACACCATGACCAAGTCTGTCCCCCGGGGAGTCATGTACGACTCCCAGGGCCGGGTCCTGGTCGGCAACAAGGCTGAGAACGCGATTACTTACATGCGCAGCCTGTCAACGACTTCCAAAGAGATGTACAAGGTTGCTAATACCCTTAGTAATTATATAAAAATTACCGACGAAAAGCCGACAAAAAGACAAATTGCCGATTATTACCTGGCTGACAGCAGCCGGGCCAAGAAAGTCCTGGCTGCCTTGCCCAAGTCCCAGAAGAAGTCCAGCCTGTCGACTTCAGAAATCAACGACAATGAAGTGGCCTACGTCGAAAACACCCTTAAGCCGTCTTTAACCAGCCAGGAAAAGACGGCCGCCCTCTTGTATAACATGATGTCAGGGGCCACAACCTTGTCGACGATCAACTTAAAGAGTAGCGGCCTCAGCAACAAGGAAATCGCCCAGGTCGGCGAGCACCTGTCTTCCATGCCGGGGGTCGGGATCGGGACTGACTGGAACCGCTACTACCCGAACGGGTCTTCAATCAAGAGTATCATCGGGTCAGTTTCCACGACCAAGACTGGTTTGCCGAGGGACAACCTGCAATACTACCTGGTCAATGGCTATTCCAGAAACGACCGGGTCGGGATTTCCTACCTGGAAAAGGAATACGAGCCCCTCTTGAAGGGGACCAAAGCCAGCTACAAGGTCACCAGCAACTCCAGCAACGAAATCACCAAGACCAAGCAGGTTTACAAGGGCCAGTCTGGGGCCAGCCTGAAATTGACGATTGACGCCAAGTACCAAGTAGCCGTAACCGAGGCCCTCAAGCAGCAGTTTAACTCTGCCTTGAGGGCCGGGGCGGCCAGCCTGTCCAGCGGGGCTTACGCGATCGCCATGAACCCGAATACCGGGGCGATCCTGGCTATGTCCGGGATCAGCCATGACCCATCAACGGGCAAGATCACGGACAACGCCCTGGGCAACATCAACCAGTCCTTCGTTATGGGGTCTGTTGTCAAGGGGGCCCAGGTGGCCGGGGGCTTGATCAATAAGGTCATCACCCCAACCAACAACACTCTGCCGGATACGGCCATCTACCTGCCTGGTACTCCGGTCAAGAAGTCTGTTTACCCGACCGGGACTTTCAGCTCCTTGACGGCGGCCAGCGCCTTGGAAGTATCTTCCAACATCTACATGATGCAGTTGACCCTGCGCTGGGTGAAGGCCAGCTATGTGGCCAAGCAGTACATTCACATGCCGGAGACGGCCTTTGAGACCTTGAGAAACAACTTTGCCATGTTTGGTTTGGGGCAAAAGACCGGGATCGACCTGCCAGGTGAAAGCTCCGGTATCCAAGGGGCATCAACTGACTCCAACGGGATCATCCTGTCCGGGTCAGTCCTCGACGAATCCTACGGGAACTATGATGCTTATACCCCAATCCAACTGGCTCAGTACATTTCAACGATTGCCAACGGGGGCTACCGGATGCAGCCATACGTTGTCCAGTCTATCGGCAGAACCAGCAGCGACGGCAAGCACTTCTATACTTACTATAACAAGAAGCCGACTGTCCAGTTCAAGATCCCTTGGACAGCGGATGAGCTGGCTGTCATCAAGCAAGGGCTCTACCAGGTCGTCCACGGGTCCAACGCCTGGGGGACAGCGCATGCCTTGAAGAATGTCAAGCCGTCGATCTCCGCTAAGACCGGTACGGCCCAGACATTCTACTACAACACTAAGACCAAGAAGTCGACTGATAAGGAACTGATTAACGAAACCATGGTCGGCTGGGCTTCGTCCAACCACCCGCAGATTGCCTTCGCGGTTGTTTTTGTCGGCATCGATCCGAACAAGGAAGGCAACTACAACAAGGACATGGCCAAGTCGATGGTGACGACTTACTACAAGATGTACAAGGGAAAGTTTTCAAGCACAAATTAA
>SRR1919932_00704 bacterial membrane protein YfhO
ATGTACATGTCCAAAATAAAACGTTTTTTTCAAAAATTCGGCCTTAAGCAGCTTTATGCCTGCCTGGCCTTCGCCCTGCCGGCCTTGATTTTCGCCGGTTACTTCCTCAGCAAGAAGGGCAATATTCTGACCGTCGACCTGGGCCAGCAGTACGTTGACTTTCTGGCCTACTACCAGCAAAATCTCTTTAAGGACCCAAGCAAGTTGATTTACAGTTTTGCCAGCGGCCTGGGCGGCTCCATGCTGGGGACGGACAGCTACTACCTGCTCAGTCCCTTTAACCTGCTCTTGCTCTTTTTCCCGCAGAAGTTCCTGCCCCAGGGGATCCTTTTGGTCATCTCCTGCAAGATCGGAGCTATCGGCCTGTCCGCCTACCTGGTCTGGGGAAAGAAGTACCAGCTGGCTAAGGAATACGTTCTGGCCGCCAGCTTGGCCTTTGCCCTCTGCGGCTTTGTGGTTGCCAACAATTTGAACTTGATGTGGCTGGACAGCCTGGTCCTTTTACCCTGGCTGCAGGAAGCTATTGACCGCCTTTTATCCGGGGAGAAAAATCACCTGGTCCTAATTACCTTCCTGCTCTGGCTGACCAACTTCTATACCGGCTACATGACCCTGCTCTTTGGCCTGCTCTATCTGCTAGTGGGCCTGGCCACGAACAGGGAGCCAAAGAAGCGTTTTTGGGCCTACTTCAAGGGCAGCTTCTTTGGCAGCTGCCTGGCCGGGGTCAGCCTCTGGCCGACTTTTCTGGAACTTTTAGCCGGGAAAACTGATGCCGACATCAGCTGGAAGCTGAACTTCCAGTTTCCGCCCTACCAGCTAATCGCTAAATTTATCGACGGGGCCTACAGCTTCCATGAAATGTCGGACGGCCTGCCCAACATCTTCATCAGCTCCTGCTTTGCCCTCTTGGCCCTGCTCTTTATCTTTAATTCCCAGTTCAGTAAGCGGGAAAAACTGGCCCGGGGTCTGCTTTTGGCCTTCCTGGTCTTGTCTTTGTCCTTTACCCCCCTGGTTTTGATCTGGCACTTGGGCCAGTTCCCGGTCTGGTACCCGGCCCGGTTCAGCTTCCTGGTCTCCTTCTATGCCTTGAACCTGGCCCTAGAAAACATGGACAGGGAACCCGGCTTCAATCTCCAGCAGAAGATCCTGGCCGCCCTTTTGGGGGCCAGCGTCTCCATTTACCTGGCCATCAACCCGGACAAGCTGGAATTTATCCGGCAAGACGGACAAGTCGCGACCGGCCTCTTCCTTTTGGCCAGCCTGCTCTTCATTCTCTTTATTTACGGCCAGCACTATTTAGCCGGCCACTACGCCCTGCTTTTGGTCGTTTCGGAAGTCACGGTCAACTTGATTTTTTCCTTAAACGCGATTTCCTACCAGGAAAACAAGAACTATGCCAAGTTTGAAGCCAACGTCAACCAGGCGACCAGCTACCTGGCCAAGACCGACTCCAGCCTCTACCGGACGGAGAAGAGCTTCAGCCGGTCAGACGATGACCCCTTCACTGGCAACTATTACGGAATCACGACCTTTAACTCCATCAGCAACTCCAGCACTTCCAACCTGCTCAGCCGCTTAGGCTACGTCCACAACAGCAACTCTTACACCAACCAGGGCGGGACGCTTTTGACTGACGCCTTCCTGGGAGTCAAGTACTACCTGGAGCCGAATTATTCTTATGACGGCGTTTCAGCCGCCCAGCGGATGCCTTATGACAACTTGAACCACCGGGCTGATTTGAACAGCTATTATCCAATAAAGCAGTTCAAGCAGATCAGCATTTTAAAAAACAAGCAGGCCCTGCCTTTGATTTTTGCCAGCCAGAGCGGGCAGAAAAAGGTCAAGTTCCTGGATAATGACCCGGTTCACAACCAGCAAAAGCTCTGGGAAAGCCTGGGCTTGTCCGGCCAGCTTTTCAAGAAGGTCAAAAGCGAGATCAAGCTGACCAACTTGAAAGTGAACCAGTCCAATCCCCTGGTCTTTAAAAAAGCCAACTCTGCCAAGCCGGCTTCCGTCACCTTCAGCTTGACGCCAAAGAGCAATGGCTCCTATTACCTGCAGCTCCCGGACGGCTTTGACTTCAAGACCGCCAGCTTAAGCGTCAACGAGATCTTCTACAACTACGAGAGCCGGGACGGGCAGATCCGCCTGGTCAACATCGCCAGCCAAAATAAAAAGTCCAAGATCAAGGTCACTTTTAACTTGACCAATTCGACCCTGGACTTAACTGGCCTTATCTTCTGGCACTTTAACAATTCCGCCTTCAAGGCCGGGATCAAGCAGCTGAAAGCGCCGGAACTTAAGTTAAAGCAGACTGGCTTGCAAATTTCCAGCCAGACTTTTAAGAGCCAAAAGAAGCTCTGGATAACGACTATTCCGTATTCCAAGAACTGGCTGGTCTATGACAACGGCAAACGGGTCAAGACCAGCAAATACGCTGCCAGCCTCCTGGCCTTCAACTTAAAGGGGGGCAAGCACCAGCTGACCCTGGTCTATTTGCCGGTCAGCCTGATTGCCGGCAGCTTGATCAGCTTGGTAACTTTGGCTGTCTACCTGCTTTTGAAAAAGAAACAGAGAATTTAA
>SRR1919932_00705 transcription elongation factor GreA
ATGCCTGAAAAAACCTATGAAATGACTGCCGAAGGCAAGAAGCAGCTGGAAGAAGAACTGCAGACCCTGAAGTTTGTCAAGCGGCCGCAAATCGTTGAACGTTTGAAGATTGCCCGTTCATACGGGGACTTGTCTGAAAACTCAGAATACGACGCAGCTAAAGATGAGCAAATGCGGCTGGAAGAAAGAATCGATGCTGTCAGCGAACAATTGAAGTATGCTGTCATTGTCGACACTGCTGCCGTTGACCCCGACGAAGTAAGTATCGGCAAGACCGTTACGGTTACTGAAGTCGGCGAAGACGAACCGGAAACTTACGAAATCGTGGGGAGCAGCCAGTCTGACCCATTCCACGGCAAGGTTTCCAACGAATCTCCGATCGGCAAGGCCCTGCTTGGCCACAAGAAGGGTGAAACGGTCAAGATCAACGTTGACTCAGCCAACGTCAGCTACGATGTCGTAATCAACGACGTTAAGACGACCGACTAA
>SRR1919932_00706 phenylalanyl-tRNA synthetase subunit beta
ATGTTAGTTTCTTACAATTGGTTGAAAGATTTCTTGAACATGGACGGCGTAGACCCTTACGCCTTGGCTGAAAAACTGACTCGGTCCGGGGTTGAAATCGCCTCAACGGTTCACCCGGAAGACGGCTTGAGCAAGCTGGTCGTGGGCCATATTTTGACCTGCGAAAAGATCGAAGGGACCCACCTCAACAAGACTACGGTCGACGTTGGTGAAGATGAAGCCCGCCAGATCGTCTGCGGGGCACCTAACGTGGCTGCTGGCCAGGACGTGATCGTGGCCCTGCCCGGGTCCCATTTGCCAGGCGGGATCAAGATCAAGAAGGGCAAGCTGCGCGGGATTGAATCCAATGGGATGATCTGCGGCCTGCAAGAACTCGGCTTCAGCGACTCAGTTGTTCCGCCGAAGTACGCCGACGGCATCTGGGTCTTCCATGATCCGGACCTTAAGCCTGGTGACTCTGTCTTTGCAGCCTTGGGCATGGACGACTACGTTTTGGACTTCGACATTACCCCAAACCGGGCCGACACTTCCTCAATGGAAGGGGCAGCTTATGAAGTTGGTGCCTTGATTGACCAGAAGCCAAAGATCGAAGACGTTGTCCTTAAAGAAGACGGGGCAGACTGGACTGGTGACTTTACTGCCGTTGCTGATGAAAAGATCGCGCCGAAGTACTACTTGAGAAAGCTGACTGGGGTCAAGATAGCTGAAAGTCCCCTTTGGCTGCAGGCCCGCCTGTGGAATGCCGGCATCCGCCCAATCAACAATGTGGTTGACGCGACCAACTATGTCATGCTCTTGACTGGCCAGCCAATGCACGCCTACGACGCCAAGCTTTTTGACAAGACCAAGAAGATCGAGGTCCGCCTGGCCAAGGAAGGCGAAAAGCTGCAGCTCTTGAATGAAAAAGAAATCGACCTGGACCCGCAAGACATCGTGATCACTGATGGTGAGCAGGCAGTCGGCTTAGCTGGCGTGATGGGCGGCTTGAACAGCGAAGTAACTGAAGAAACTACTGATGTGATCCTGGAAGCTGCTGTCTTTGACCCGGCCTTGACCAGAAAGGCAGCTCTGCGCCACGACAACCGGACTGACGCTTCTGCTTTGTTTGAAAAGGGGATCAACTGGGACAACACCCAAAAGGCCCTGGACATCTGCGCCTTGATCTTGCGGGCAAATGCCGGCGCCACTGTCTTAGCTGGTGAAATCAAGGCCAGCGACCTGGACAAGGAAGCAGTTGTTATTACGACCACTGCTTCCCGGACCAACAAGATCCTGGGCACTGACCTGTCCATGGACGAAATCGTCAAGATCCTGGGCAAGCTGAACTTCCCGGTTGCAGTAAATGGCGACGAATACACGGTAACTGTGCCAAACCGCCGCTGGGACATCTTCATTGACTCCGACATCTTTGAAGAAGTCGGCCGGATCTACGGCTACGACAACATCAAGTCCACCCACCCGGCGACCGGTGAACTTATTGGCGGCTATGCGGCTGATGAAGTCAAGGTCCGTCACCTGCGCCAATTGCTGGAAGGGCAGGGGCTCAGTGAAACGATCAACTACTCCCTGACTTCTGAAGAACTGGCTACGACTTTTGTCAAAAAGGCCCTGGCTCCAGTCAAGGTCAACTGGCCGCTGAACTCAGCCAGAACCACCATGCGGCAAAACTTGATTTGCGGCCTGCTCGACACGGTTGCTTACAACTTCGCCCGCAAGCAAACTGAACTCCAGCTCTTTGAAAACGGCCGCGTCTACGACATGGAAGGCGGAGACTACCACGAACATGAACACCTGGCAGCCGCTTATGTCGGCTTAGCTGGTGAAAGCAACTGGCAGCACAAGGACGAAGTCGTTGACTTCTACTACGTCAAGGGGCAACTGGAAGACGTATTTGAAATGATCGGGGTCAAGGACGTGGAATACCGGGCTGAAGCAATCAAGGGGATGCACCCGACCAGAACGGCTAGCATCTACGTAAATGATGAATATATTGGTCTGATCGGCCAAATTTCCCCAGTTTTGACCATGACTGACAAGAACTTCGCCGGCAAGGAAATCTACGTTTACGAACTGAACCTGGATGCCCTGCTGCCGTTGATGGCTAAGGGGGTCAAGTCCAAGCCGGCTCCGAAGTACCCAGCCGTGCAGCGGGACCTGTCAATTTTGGTTGACGAAGATGTCACTAATGCCCAAGTTGAAAGCTGCATCAAGGAAAACGCCGGCAAGTACCTGGTTAGCGTTGAAGTCATCGACGTCTACCAAGGGGCCCACCTGGCTGCCGGCAAGAAGAGCCTGGCTTATCGCCTGACCTTCTTGAATGAGGCAGAAACCTTGACTGACGCGGTTGTCACTAAGGCAACTGACAATGTGCAAGCCGCTTTGGAAGAAAAATTAGAGGCAAACATTCGTTAA
>SRR1919932_00707 phenylalanyl-tRNA synthetase subunit alpha
ATGGATTTATTTGATCGATTGAAGGACCTGCGGGAGCAGGGGCTTGCTGAAATCAAGGAAGCAGAAAGCGAAAAGAGCCTGAATGACGTCCGGGTCAAGCTGGTCGGCAAGAAGGGGAAACTGACGCAAATTCTGCACCAGATGAAGGACGTTGCTCCGGAAAAGCGGCGGGAAGTCGGCCAGAAGGTCAACGAACTCCGCGACCTCTTTAATGAAAACTTGGCTTCTGCCAAGGATAACTTGATCGAAAAGGCCATTGAGGCCCGCCTGGAAGCTGAAAAGATTGACGTGACCCTGCCAGGGCGCAGAAAGCATGTCGGCTCCAAGCACCCGATCAGAATCATTCAAGACGACCTGGAACGCTTCTTCATCGGCATGGGCTACCAAGTTGTCCAAGGCCCGGAAATCGAAAGCGAACACTACAACTTCGAAATGCTGAACCTGCCTAAGGACCACCCGGCCCGGGACATGCAGGCTACTTTCTACGTTGACGCTGACCACCTGCTGCGGAGCCAGACTTCACCAGTTCAAGCCCGGACCATGGAAAAGCATGACTTCGATAAAGGGGACCTCAAGATGATCTCCCCAGGCAAGGTTTACAGAAGAGACGATGACGACGCCACCCACTCCCACCAGTTCATGCAGATGGAAGGGCTGGTTGTTGGTAAGAACATCTCCTTGAGTGACCTTAAGGGGACCTTGGAACTGGTGGCTAAGCACGAATTCGGCCAGGACCGGGAAACCCGCCTGCGGCCAAGCTACTTCCCATTTACTGAACCATCAGTTGAAATGGACGTTTCCTGCTTTGAATGCGGCGGCAAGGGCTGCGCGATCTGCAAGAACACCGGCTGGATCGAAGTTCTGGGTGCCGGGATCGTTCACCCGAATGTTTTGTCTGCCGCCGGCATTGACCCAAGCGTCTACTCCGGCTTTGCCTTTGGCCTGGGCCTGGACCGCTTCGCTATCTTGAAGTATGGTATTGACGACATCCGCGACTTTTACAGTGACGACGTGCGCTTCTTGCAACAATTCCGTCAGGAGGAAGATTAA
>SRR1919932_00708 HxlR family transcriptional regulator
ATGACAGAATTAGCTGAACAGGACGTGCCATGCTGTAAAAACGCTGAAAACTACGAAATGTGTGCCCGCTTCGTCAAGGCCTTTGAGATCATCGGCAAGAAGTGGAACGGCTTGATCATCAGCTCCTTGTGCGACACCAAGGCCATGCGCTTCCGGGACCTGGCCCACGCGGTCGGTGCCTGCTCTGACCGGGTTCTGGTCGAACGCCTGCGGGAGCTGGAAGTTGACGGGATCGTCAAGCGGTCCAAGGATGCGGAAAAGAAGATCGTCCTTTACACTTTGACGCCAAAAGGGGCCGAATTAAAGCCGGTCTTCAACCAGGTTCATATCTGGGCTGACAAGTGGGCGTAA
>SRR1919932_00709 rRNA methyltransferase
ATGCAAGAAAGAACATCTGTCAACAATCCGCAAATTAAGGCCATCGGCAAGCTGCAGCAGAAGAAATACCGTGAAGAAAGCGGCTATTACTTGATCGAAGGCTTCCACTTGGTTGAAGAAGCCGTAAAAGCAAGCGTCAAGTACCGGGAAATCCTGGCTACTGAAGCAGCCCTAAGCCGCTTGGCGCAACTGGGCCTGGCTTATGATGAGAGCAAGCTGATCAAGATCAGCCAAAGCGTGGCCAGTCACCTCAGCAGCACCAAGAATTCCCAGGATATCTTTATGACCGTCAAGATCAACCAGTCTGAGCATTTTGCCTTCAGCTACGGCAAGTGGGTCCTCTTAGATGACCTGGCTGACCCGGGCAATGTCGGCACCATCATCCGGACGGCTGACGCGGCTGGCTTTGACGGGGTGATCCTGTCAAACAAGACGGTTGACCTCTACAACCCAAAGGTCCAGCGGTCCATGCAGGGGAGCCAGTTCCACTTGAACTTGATCAAGGCTGACCTGCCAGACGCCATTGCCAGCTTGAAGGCCGCGGACATTCCAGTTTACGCCAGCCTTTTGGATCCAGCCGCTAAACAATTGGGTGACTTTGCCCCAGTAGCCCAGGTTGCTTTGATCATCGGCAATGAGGCGCACGGGGTAAGCCCGGAAATCGCGGCTCTGGCTGACGAGAAGCTCTACATCCCGATCAAGGGCCGGGCTGAATCCTTGAACGCCGCTGTTGCTGCCGGGATCATGATCTACCACTTCAGCTAG
>SRR1919932_00710 acylphosphatase
ATGCAAACATGGGAACTATTAGCGCATGGAGTCGTCCAAGGCGTGGGCTTTCGCTGGAGCGTGCAGATGCTGGCCCAGAAGATGAAGCTGCCAGGCAGCGTGAGAAACAACCCTGACGGGACGGTCACCATTGTCATTCAAGGGACGCCAACTGATCTGGTCAAGTTTAAAGCTGAGTTGCCAAACGCGGCGCCATATGCCCAAATTTCACGTTTGGACACAAAAGTTCTGCCTGAAATGGAACAAATGCATTCTTTTCATGTATTATATTAG
>SRR1919932_00711 preprotein translocase subunit YidC
ATGAAAAAAATCAAAAAACGTTTATTACCTGTCAGCCTGCTGGCGCTCTTGCCGCTTTTCCTTACGGCCTGCGCCAGCCAGACCAGCAAAAACGGCAGCTTAAAGGCCCCGACCAGTGGTCCTTACTACTGGATCTATGAATGGATCGGCCTGCCTTTGCAGCATATCACCGTCAACATCGCCCACGCCATCGGCGGAGCCAGCGGGGCCGGCTGGGCCATCGTCATCATCACTTTGGGCGTCAGAGTGATCTTGATGCCGCTCATGCTGAGCCAGCAGCACAAGGCTACCCTGCAGCAAGAAAAGATGCACCTTCTGCAGCCGCAAATGCAGCTTTTGCAAAAGGCCATGAAGACACCAGGGATGACTCCTGACCAGCAGATGGCCTTGACCGGTCTGCAAAGAGAGATCTATTCCAAGAACAATGTCTCCATGACTGGCGGGATGGGCTGCCTGCCCCTCTTGATCCAAATGCCAATCATGATCGGGATCTACCAGGCCGTGGCTTACTCAAACGCCCTGGCCAAGTCCACCTTCTTCGGCATTTCCCTGTCCAGCAAGTCCATGGTCCTGGCCATCATCGCTACTGTTTTTGCCTTGATTCAAAGCTACGTGGCCATGATCGGCATCCCTGAAGAGCAAAAGAAGACCATGCAGGCCACCATGCTGATGAACCCAATCATGACCTTCTTCTTCTCCATGTCCTTCTCCGGCGCCCTGGCCCTTTACTGGGCAGTCGGTAACCTGGTCATGGTCATCCAGCAGCTGATCACCACCTTCATCGTGCAGCCGCGGGCCAAGAAGCGGGTTTCCAAGGAACTGGCAGACAGCCCGATCGTGGAAGTCGTTACCCAAGCCAAGCTTGACCAGATCTTAAAGCCAGCCCCTGAACAAAAGCCAACCAGACAGCCGAAGTCCGGCGACCTGCGCAAGCGCAACCAGGGCAAGCAGAAGCGGCAGTAA
>SRR1919932_00712 two-component system sensor histidine kinase
ATGCTTAAGCAAAACGCCGCCAGCGGCAAGAAGGGGACCAGACACGTTTCACTGATCGTGAGATGGGTCAGCATCGTCGCGATGACGATCATGGTCTCCTTTCTTGTTTTCTCAGCTGTCGTCTACAATACGGTCAAGCAGGAAGCCCTGAGCCAGCAAAAGGATACGTCTAACGAAGTTGTCAACGTCCTCCGCAAGCGTTTAATTGACATCGATGATGAACTGGAGATCACCAACGTGGTCCAGCAACTATCACCGAACACCAGACGGATTTTAACGGGCGGGCCGGCTCTGTCAGATAATAACAACAGCAACAGCAGCGTTTTTGGCGACTCGGTCTTAAGCACCGTGACCAACCCTGACATGACCGTGGCGATCTATAATCTCCGCAATGAGATCGTCTTCCACAACGGCGACAGCGCCCCTAAACTGGTCAAGTTCACCAGTGAGAGCAAGAGTGTGGTCAAGGAAGGCAAGGATGGGCGAAGTTCTCTTTATGTCTACCGGAAGGTCAGAAACCGGAAGAGCCATAAATTGACTGGCTACATTGTCGTCAAGAACCAGATGACCGGCTACAACCGCTTGATTTCCCGGACATTGAAGGCCATGCTCTGGCTCTCAATCCTAGGGATCGGCCTGGCGATTGTAATTTCCTACCTGGTTGTCCGCAGCGTCGTCAGACCAATCAATAAGATGTCCAAGGTGGCCAGGGAAGTCAACGCCGACCCGAACAGTACGGCCAGAATTCCCGAGCTGCACAGAAACGACGAACTGGAAGAGTTGGCCCTGTCTTTCAACATGATGCTGGATCGGATGCAGAAGTATATCGAGCAGCAGAAGCAGTTCGTCTCTGATGTCTCCCACGAATTGAGGACGCCTGTAGCGGTCATTGAAGGCCATCTGAGCATGCTTAAGCGCTGGGGCAAGGATGACCCGCAGGTCCTGGAAGAATCCATTGACGCCTCGATTTCAGAGGCTGAGCGGATGAAGCACTTGATCCAGGAAATGCTGGACCTGACCCGGGCTGAACAGATCAGTGTCCACTACCCGAATGCCATCGCTGAACCGATGGAAGTCTTGACCCGGGTAGTCGGGGACATGGGCATGGTTCACCCGGACTTCAAGATCTCTCTGGAAGTTGAGGACCTGGATCCGGATACTAAGATTCAGATCTTCCAGGGCCACCTGGAACAGATTTTGATTATCTTGATCGACAACGGGATCAAGTACTCAACCGACCGCAAGGAAATTGCCGTGGCTGCCGGCCAGTCCGGCCAGGAAATGCAGATCGTGGTCCAAGACTACGGGGAAGGGATTTCCGATGAGGACAAGAAGAAGATCTTCAACCGCTTCTACCGGGTCGACAAGGCCAGAACCCGGGAAAAGGGCGGCAACGGCCTGGGCCTGTCAATTGCCCAGAAGCTGGTGGAATCCTACCACGGGACCATTGACGTTGAATCAGTCTTAGGGCAGGGGAGCCAGTTCAGAATCACCTTCCCGGTCTTGACTGATGAAGAAGTCAAAGAATTGGAAAGCCGGGAAGAGCAAAAGCAAGCTGGAACTGAGAGTCCAAAGCAAGATCCGACAATTTAA
>SRR1919932_00713 two-component system response regulator
ATGCCGAAAATTTTAATTGTTGAAGACGAAAAGAACCTGGCTCGTTTCGTCGAACTCGAACTCCAGCACGAAGGTTATGAGACCGTAGTGGAAAACAACGGCCGCAAGGCTTTGGACCGCGCTTTGAGCGAAGACTTCGACGCGATCTTGCTGGATTTGATGCTGCCAGACTTGAACGGTTTGGAAATTGCCCGCCGGGTACGGCAGAGCAAGACCACGCCAATTATCATGATGACGGCCCGTGACTCCGTGATTGACCGGGTATCAGGCCTGGACCACGGGGCTGACGACTACATCGTCAAGCCATTTGCTATTGAAGAGCTCCTGGCCCGCTTGCGCGCTGTCTTGCGCCGGGTCAAGATCGAAAAGGACGCCTCAAAGGACAAACTGCCGCGGCAAAAGGTTGTCAAGTTCAAGGACTTGACCATCGAAACCGCCAACCGGATCGTCCACCGGGGCGATGGCAAGACCGTTGACTTGACCAAGCGGGAATACAACCTGCTCATGACCTTGATCGAAAACAAGAACAATGTTGTTGGCCGAGACCAGCTCTTGAACAAGATCTGGGGACCGGAATCAAACATCGAAACTAACGTTGTCGAAGTTTACGTCCGTTACCTCCGCAACAAGATCGACATCCCTGGCCAGCCATCTTACATCAAGACGGTGCGCGGAACCGGCTACATGGTCAGAGACGAGGACGACAATGCTTAA
>SRR1919932_00714 DNA-binding protein
ATGCTAGAACTTTCAATTTTCCAAATCAAGAACAGCCGGGAGCCATTGACCCAGATCTCAGCTGATTTGACTTTTGCTGATGGCTTTTACCAGCGGGCCAAGGACCTGGTCTATGAGGTAAAAAGCGCCCACGTGGAAGGGCAGCTCTTTTATGACGAACCCTTCGTGACTGGCAATTTCCAAGTGGAAGCCGACCTCTTGGTTCCGTCCTCCCGCAGCCTGGAAGCAGTGCCTTTGAAGCAGAAATTCAGCTTCGTGGAAAATTATTCCGACCATGAACCGACCCAGGAAGAAAAGGAACTGGGCTTGATGATCATTCCGCTGGACGATGACCGCATTGACGTGCAGACGGCCGTGGAAGACAACATGCTCTTGAATATTCCAAGCACGGTTTTGACCAAGGAAGAAGCTGAAGAAGACCTGTACCCAGAAGGGCAGGGCTGGGAAGTCATGTCTGAACAAGACTTCGCCGGCCAGAAGAAGGACCAGGTCAACCCGGCCTTTGCCCAGCTGCAGGGTCTTTTGGACAAGATGCAGGCTGAAGAAGACAAAGATAAAGCCGAAGACGAAGAGAAATGA
>SRR1919932_00715 nucleotidyltransferase
ATGAGCGTTGTCGGGATTGTAGCTGAATATAACCCTTTCCACAGCGGCCATGAATTCCTGATGAACCAGGCCCGCTTGATCGCCGGTGATGACCCCATTATCGCGGTCATGTCCGGCAATTACGTGCAAAGAGGGGAAATGGCCATCCTGGACAAGTGGTCCAGGGCCCGCAGCGCCATTGAGGCTGGGGCTGACCTGGTCTTTGAGCTGCCTTTTTCCTATGCTGTCCAAGCTGCCGACATGTTCGCCACCGGCGGGGTCGACCTCTTAACCCGGCTGGGGGCCAAGAACCTGGTCTTTGGGGTCGAAGACGCCAACTTGAATTTTGAATATTTCGGCGACCGGATCTCCAAGATCCCCCGGCAAAGGCAGGAATTCGCCGACTACAGCCAGACTTATTCCACCCAGTACAACCAGATGGTGGCCCGGGAAGTCGGCCATGAAGTCAGTGAGCCCAACGCGATTTTGGGCCTGGCTTATGCCGTGGCTAATGCCAATCTGGGCTCGCCTTTAAAGCTCAGCCCGGTCAACCGGGTTGGGGCCGGCCATGATGACATCCTGCAAAGAGAAGCAGCTGTCCAAAGTGCTAGCGCTATCCGCAACCTCCTTTTAAACGGGACCGAGCGCTCAGAACTGGAGCAATGGCTGCCAAAAGGGGAAATTGTCGCTTTTGACCAGGGAAAGGTCCTGCCCAACTGGGAACTGCTCTTCCCGTTTCTGAAATACCGGCTGGAATCAGCCTCAATCAAGGAATTGCAGCAGATCTACCAGATGAGCGAGGGCCTGGAATACAAGTTCAAGGCAGAAATCCACCTGGCTGAAAATTTCGCTGACTTCCTCCGCCGGGTCAAGTCCAAGCGCTACACCTATTCAAGGTTAAGAAGACTGAGTCTTTATACTCTTTTGAACGTGACTGAAGCCGATGTCTTAAACAGCTATGACCATGTTTCCACCATGCTTCTGGCTTACAGCAAGCGGGGACGGAAATATTTGAAGCAGCAGCGGAAAGACTTTGAGATCGATATCGTTTCCAAAGTGGACCGCAAGAATGCCCAAGAAGGGACCCTGGGCCTGCAGGTCAGGGTTGACCGCTTATTTGAACAGATTGTTGGCGCTGACCAGAACTTTGGCCGGCGGCCACTCGAGGTAAATTAA
>SRR1919932_00716 ribosome silencing factor RsfS
TTGAAGAGCGAAGAATTACTTGACTTAGTTTTAAACGCAATCAGCGAACGGCACGGGGAAGACACCGAAGCCTACGACATGCGCGGCATCAGCATCCTGGCTGACTACTTCGTGGCCACCAGCGCCACTTCCAGCCGCCAGCTGCACGCCATTGCCAACAGCATCATCGAAGCCTGTCACGAAGCTAATTTCTACGACTACCGGGTTGAAGGCAATCATGACTCAGAATGGCTCCTGGTTGACCTGGGCGACGTCGTTGTCAACATCTTCTCAGAAGATGCCCGGGCCTTCTACAACCTGGAAAAGCTCTGGGCTGACGGCAAGCGCGTGGAAATCGAGGAAGACTAG
>SRR1919932_00717 hypothetical protein
ATGATGGATGAAAAACGCTTTGCCCACTGCGTCCGCGTCAGTGAAACGGCCCGGACCCTGGCCAAATTGAACGGCTATGACGAAGACAAGGCGGCTTTGGCTGGTTTTGTCCACGACTATGCCAAGCAGATTCCAGTTGAAGAATACATCAAGGTCATCAAGGAAGAAGGCTTTGATCCGGATCTTTTGAACTGGAACAGGGCTATCTGGCACGGGATCGTGGGCAGCTGGTTCATCAAGCGCGACCTCGGCATCACCGACCCGGAAATTTTAACCGCTGTCTACCGGCACACCACCGGGGACGTGGAAATGACCACCCTGGACCAGATCGTCTTCGTGGCTGACTATATTGAGCCGGGCCGGACTTTTGCCGGAGTTGAAGAGGCCAGAAAGACCAGCTACGCGGATTTAGCTTCCGGGGTTGGCTATGAACTGGCTCACACTCTGGCCTTTTTAGTCCAAAAGAGAAGCAAGATCTACCCAAGAACTCTGGCTGCTTACAATGTCTGGGCAGCTGAGTAA
>SRR1919932_00718 nicotinic acid mononucleotide adenylyltransferase
ATGGATTCATTGGTAGATTTCAGTAAAGAAACGCAAGTAAAAGTGCAGACGGCTGAGAGCCAGCGGAAAGGCAAGCAGATCGGCATCATGGGCGGCACCTTTAACCCGGTGCACATGGCCCATTTGGTCGCCGCTGAACAGGCCATGACCAAGCTGCACCTGGATGAAGTCTGGTTCATTCTGGACAATATTCCCCCGCATAAGGACGCTCCCTTAAACGTGTCTGCCCGCGACCGGGCCACCATGCTGGATTTGGCTACCCGGGACAATCCCCGTTTCAGGGTTAAGCTGCTGGAACTCTTCAGAGGCGGCGTTTCTTACACGATTGATACCATGCGCTATTTAACCAAGAAGGCGCCGGAAAACACCTACTACTTGATCATGGGCAGCGACCAGGTCAACAGCTTCCACAAGTGGAAGAATGCTGAGGAACTGGCCAAGTTAGCTACCTTGGTCGGTATCCGCCGGCCGGGCTACCCGCAAGATCCGCAATATTCCATGATCTGGGTTGATGCTCCGGACATCCGCCTCAGCTCAACTGCTATCCGCCGGGCTGTCTCAACCGGAACCTCAATCCGTTACCTGGTCCCGGACAAGGTCCGCGAATATATTGAAGAAAAGGGGCTTTACCGTGACTGA
>SRR1919932_00719 GTPase
ATGAGTGAAGAAATTCGCTGCATCGGCTGCGGCGCGGCTCTGCAGAGCCAGGACAAGCAGCTGCCAGGCTACCTGCCGGCTAGTGCCCTGGCCAAGGTGGAAAATGGTGAAAGAGAAGAAGTCTACTGCCAGCGCTGCTTCCGCTTGCGCCACTACAACGAGATCATGCCGGTCTCCCTGGACAATGATGACTTTTTAGCACTTCTGAACACCATGGCGGAAAAGAAGGCCTTGATCGTCAACGTGGTGGACCTGTTTGACTTCTCCAACTCGCTGATTTCTTCTTTGAAGCGCTTTGTCGGCACAAATGACTTTATCCTGGTCGGCAACAAGCTGGACCTCTTCCCGAAGAACTCCAAGGAAAGCAAGATCAAGGACTGGATGCGGCAGGAAGCCAACCGGATGGGCCTCTACCCAAAGGACATCTTCTTGATCTCCGCGGCCAAGAAGAAGAACCTGGACACTTTGATCGACTACTTGAACAAGCACAGCCAGGACCGGGACGTCTACTTCGTCGGCACGACCAATGTCGGCAAGTCGACCTTGATCAACGCCATTATCGATGAAATGGGAGACGTCCAGGACTTGATCACCACTTCCCGCTTCCCTGGGACCACTTTGGACCAGATCGAAATTCCCCTGGACAACGGCCACTTCTTGGTCGACACCCCAGGGATCTTGACCGACAAGCAGCTGGCCAGCCGGCTGGACCCGAAGGACCTGGACCTGGCTTCTCCAAAGAAGCCGCTTAAGCCGGCCACTTATCAGCTTTTGCCAGGCAATACCATCTTCTTGGCCGGCCTGGGGAGAATTGACTACCTGAAGGGGCCGTCAACCAGCTTTACTATCTATGCTGCCCGGGGCATGTACATCCACCGGACTAAGACGGAGAAGGCTGACGAATTTTACCAAAAGCATGTGGGCGAATTGCTGTCTCCGCCAGGGCCAAACAGCGACCTGCCGCCGCTTAAAGGGCAGGAGTACTCCATCAAGTACCGCAGCGATGTATTGTTTGCCGGGGTAGGCTTCATCACTGTGCCGGAAGGCTGCGTGATCAAGGCCTACACGCCGGGCGGAATCGGCTTGGGAACCAGAAGAGCTTTGATTTAG
>SRR1919932_00720 50S ribosomal protein L20
ATGCCAAGAGTTAAAGGTGGTACCGTTACACGCGCACGTCGTAAGAAGGTTTTGAAGCTTGCCAAGGGTTACCGTGGCTCAAAGCACGTTCAATTTAAGGCCGCAAGCACTCAATTGTTCGTTTCATACAAGTACGCATTCCGCGACCGTAAGAAGCGCAAGAGCGAATTCAGAAGACTGTGGATCGCCCGGATCAACGCAGCTGCTCGTCAAAACGGCTTGTCATACTCAAAGATGATGCACGGCTTGAAGCTGGCTGGTGTTGACATGAACCGTAAGATGTTGGCTGACATTGCCTACAACGACGAAAAGACTTTTGCCGCTTTAGCAGAAACTGCTAAGAAGGCTTTGGCTTAA
>SRR1919932_00721 50S ribosomal protein L35
ATGCCAAAGATGAAAACCCACCGCGCTTCAGCTAAGCGTTTTAAGAGAACTGGTAACGGCGGTTTGAAGCGCCACCACGCCTTCACTGGTCACCGCTTCCACGGTAAGACCAAGAAGCAACGTCGTCATTTGAGAAAAGCCGCTATGGTTTCACGCAGCGACTTGAAGCGCATCAAGCAAATGCTTTCCCAAATGCGTTAA
>SRR1919932_00722 translation initiation factor IF-3
ATGATCCTTAACGAAAGCATCCGCGCTCGTGAAGTTCGGCTGATCAACGCTGAAGGTGAACAAGTTGGGGTCGTGTCAAGAAATGAAGCTCTGCGCCAAGCGAGCGATGCTGGCCTTGATCTGACTTTGATTTCACCAAACGCCAAGCCGCCTGTAGCAAAGATTCTTGATTATGGTAAGTACCGGTTCGAACAGCAGAAGAAGCTGAAGGAATCACGCAAGAATTCCAAGCAGGTCAGCGTTAAGGAAATCCGTTTGAGTCCGGCGATTGAAGGCAATGACTTCGAAACCAAGTTGAAGCATGCACGCAAGTTCTTAGAAAAAGAAGGCGCCAAAGTTCGTGTTTCGATTCGTTTCAGAGGCCGGGCAATCACGCACAAGGAATTAGGACAACAAGTGCTGGAAAAGATGGCCGAAGAAACTTCGGATATTGCTGTTGTAACCAGCCGGCCAAAGATGGAAGGCCGTCAAATGTTTTTAATGCTCAGTCCCAAGAGCGATAAAGACAAGAACAAACAATAG
>SRR1919932_00723 5-methyltetrahydropteroyltriglutamate-- homocysteine methyltransferase
ATGGAATTCGATGATGAAAAATACTGTAACTTCTCACTTTTAGAAAAGAGGCAGGGGCAAAAGATCGTGCTTGGCTTGGTCAACACCCAGTCAGACGAGTTGGAAGACAAGGAAGTCTTGCTTAAGCGCCTGGAGGAAGCCAATAAGCACGTTGATCCAAAGCAGATCTGCATTGCTACCCAATACGGTTTTGCCTCAACAGAAGCCGGCAATTTAATCAGCGAAGAAGGACAGTGGCGTAAGCTCGACCTGGTTCATGAACTGGCCGAAAGTCTTAATGCCTAA
>SRR1919932_00724 aminotransferase
ATGTTAAGCAAGCTTTTTGCCAAAAGAATCAAAACTCAAAATCCATCACGCCTGCAAGGGCTCTTCCCGGAAAGCAATTTTTCCGACAACATCTCCTTTGGGGGCGGCTGCCCGGACGAAAGCCTCTTCCCAAGCCAAGCTTTGCAAGCTGCTTACCAGAAGGCCGTTGACCAGGAACAGGCCCACTCTTTCCAATACCACGACGTTAAGGGGCCGGGCAACTTGCGCGACTACCTGGCAAACCGGGCAAGGCAGCAGGGAATCAAGGCTAACGCTGACGACATCCTGCTGACGGCTGGCGGCCAGCAAGGGATCGACCTGGTGGCCAAGCTTTTCCTGGGGGCAGGCGACGAAATGGCCGTTGAAGCACCAAGCTATGTCGGCGCCCTGGCTGCTTTTGACAATTACGAACCAGTCTACCATGAAATTCCTTTGGAAGACGACGGGGTCAACCTGGACTACTTTGAAGAAGTGCTGAAAGAGCACCCGGAAATCAAACTCTTCTACACGGTGCCAGACTTCCACAATCCAACCGGGATCACCATGTCCCTGACCAAGCGCCAGCGCCTGGTTGACCTGGCCAACCGCTATGACTTCGTCATCTTGGAAGACACCCCTTACCGAGACCTGTGCTATCATGGGGAAAGCCTGCCAAGCATCAAGAGCTTTGACACGGAAGGCAGAGTGATTTTCCTGTCCAGCTTCTCTAAGATCCTTTCCCCAGCCTTCCGTTTAGGCTGGCTGGTAGCTGGTCCGGAAATCAAGGAACAGCTGGTCAACCTGAAATTGTCAGCTGACCTGGAAGTGCCATACTTAGCTGCTGGTACCGTAGCTGCCTACCTTGCAGACAATGACCTGGACCAGCATATTGATCAGTTGAAGCAGGTCTACCGGGTCAAGCTGGATGCTATGGCTAAAGCCTTAAAGACTTACCTGCCAGCTGATGCCAAGATCAGCCAGCCGGAAGGCGGCTTCTTCTTCTGGGTTGAACTGGACGATAAAATTGATACCAGACAGCTTTTGCTTAATGAAGCCGTGCCAAAAGAGCACCTCATCTACGTGCCTTCGGCTAGCTTCTATCCTAACTGGGACAAGAATAACGGCCTCCGGGTCAGCTTCACCGGCTCTAGCCTCAGCCAGATCGATGAAGGAGCTGAGCGCTTAGGCAGAATCCTCAGCCCGGTCCAGCTGAAAATGTCAATATAG
>SRR1919932_00725 LysR family transcriptional regulator
ATGCTGCCATTTCCATATCTAGTCTTCCAGACAGTGATCGACCAGGGAACCTTCAACAAGGCTGCCGTAGTCTTGAACGTGACCCCGTCGGCCATCAGCCACTCGGTCAACCAGCTGGAAACCGAACTAGGCTTTCCGGTCTTTGTCAGGTCAAGAAACGGGGTTAAACTGACCCCGGATGGGGAGAAAATCCTTCCCTTGATCCAGGAAATCATCAATGACCAGAGCCGGCTGGAGCAGGTCGCCCAGCAGATCCAGGGCCTGGACACCGGTTTGATCCGGATCGGGGCTTTCTCTTCGGCCTGCATCAACTGGCTGCCGCCTTTAATCCGGAATTTTGCTAAAAATTACCCCCAGGTCAAGATTTCCGTCCGCCAGGCTGGTTTCAGTGAAATTACCCAGGCTGTGAAAAGCGGCCAGCTGGACCTGGGCCTGACCATGTTGCCGGAAAATGAGCAGGGGATCAGCTGCGAAAAAATCCTGGAAGACGAAATCTACTGCATTGCCCCCAAAGACTTCCGGGTCAAAAACGGCCACAGCATCAGTGAGGAAGACCTGGTCAACTGCAACTTCATCCTCCAGCAAAGCGACTACGACCTGGATACCAAGGCCGCGCTTGATCACTATTCAATTAAGTCAACGGCTATTCGCTTTTCCATCGACGACCAGTCAATCGTGGCTATGGTGGAAGCGGGCCTGGGGCTGGGGATCCTGCCGGCTTTGGCCCTGCAGAAGATGCAGGGGGAAGTCAGAATCCTGCCTTTCAGCACTCCCTTTTACCGGAAGATCGCCCTGGTAACCTCAAACCAGCAACGGCTGGCTCCTTCAAGCAGGCAGATGATCAAGAACGTGCATGAACTGATCAGACGCCAGTATCCGGGCGGGCGCTTGACGATGGAAGCGGAAAACGCATAG
>SRR1919932_00726 arginyl-tRNA synthetase
ATGAACGGTAAACAACTTGTTGCAGAAGCTTTACAGGCGGTTTTGCCTGACTGGTCACTGGATGACATTGATGTCAAGATTGAACGGCCAAAGGACGAAAAGCTGGGGGATTACGCTTTTCCAACCTTTACTTTAGCCAAGACCATGCGCAAGGCGCCAAACCTGATCGCGGCTGAACTGGCTGAGAAGATCGACCAAGGCAGCTTTGAAAAGGTGGAAGCAGTTGGCCCATACATCAACTTCTTCCTGGACAAGAGCCAGACCGGGGCGGCCATCTTGCAGGAAATCCTGGCTGACCCTGAAAACTACGGTGCCCGTGACCTGGGCCACGGCCGGAACGTTTCAACTGAATACTCATCACCTAACATTGCCAAGCCAATGGGGATGGGTCACCTGCGGTCAACCATGATCGGTGAAGCTATTGCCCGCATTCTGGCCAAGGAAGGCTTCAAGCCGATCAGAATCGACTACCTGGGTGACTGGGGCACCCAATTCGGGAAGATGATGGCTGCCTACAAGATGTGGGGCAACGACGCCGACATCGAAAAGGACCCAATCAACACCCTTTTGTCTTACTATGTCCGAATCAACCGGGAAGCTGAAGAACACCCGGAATACGATGAAGAGGGCCGGGAATGGTTCTCCAAGCTGGAACACGGCGATGAAGAAGCCAAGCGCTTGTGGAGCTGGTTCAGAGAAGTTTCCCTGGAACGGTTCAAGAAGGTTTATGACATGCTGGACGTTCACTTCGACTCCTTCACTGGTGAAGCCTTCAGTGCCCAAATGATGGATGAACCAATCCAAATCCTGCGGGAAAAGGGTCTCTTGGTTAAGAGCCAAGGTGCTGAAATCGTCGACCTTGAAAAGTACAACCTGCCGCCTTTGATGGTTATCAAGAGTAACGGGACTTCAACTTACATCACCCGTGACCTAGCAACTGCCATGTACCGGAAGAAGACTTATGGCTTCTACAAGTCCATCTACGTTGTCGGCCAGGAACAGGAAGTCTACTTCCAGCAGCTGCGTGCCTGCTTGAAGGAAATGGGCTTTGACTGGGCTGACGACATTGTTCACATCAGCTTCGGTCTGATGAGCATCAACGGCCAGAAGATGTCTACCAGAAAGGGTAACGTCGTTAACCTGGAAGACGTTTTGAACGAATCAGTTGACCTGGCCCGCAAGCAGATTTCTGAAAAGAACGTTGGCTTGAAGAACGCTGACGAAGTTGCCAAGCAAGTCGGTATCGGCGCGGTTGTCTTCCACGATTTGAAGAACTACCGCCGCAACCCAATCGACTTCAACCTGGAAGAAGTCGTTAAGTTCGAAGGTGAAACCGGCCCTTACGTGCAATACTCCCGGGCCCGTGGCGAAAGCCTCTTGAGAAAGAGCGGTATTACCGACTTCTCAGACGCTGACTTGACCAAGATCGGCGCTGAAGAATGGGACCTGGTCTCCTTCATGGGCCGCTACGCCGACACCATCCAAAAGGCCATGGAAACCTACGACCCAAGCGCAATTGCCAAGTACGCCCTGGAATTGGCCAAGCGCTTCAACAAGTACTACGCTCACACCAGAATTTTGGTTGATGACGTTGACGAAGATGTCAAGAAGGCTCGTTTGGCCGTTGTCCAAGCGGTCAGCCACGTCATCAAGTCAGCCCTGGACTTGCTGGACGTCAAGGCACCAGACGAAATGTAG
>SRR1919932_00727 arginine repressor
ATGAACTACAAAGAAAGAAGACAGCTGATTTACGAACTGATTCAGACCAACAAGATTGAAACCCAGGAACAATTGCTGCTCTTGTTGCAAGCCCATGGCGCGAACGCGACCCAGGCTACTATTTCCCGGGACATTCACGCCTTGCACATCAGCAAAGTGCCAGATGATGACGGCCGCAGCTACTACGTCAAGGCGCCATCAGCTGCTGTTAACCGGGAAAGGCAGCTGAAAGACGCAATCCGCGAACGGGTGGCAACTGTAACTGCCGTTCAGTTTACCGTTGTCATTCAAACCAGCATGAAATTGACTTACGCGCCAATTTTGGCAGGATTAATTGACGATATTGACAACGATGACGTGGTCGGCACGATCGCCGGGACTGATACTCTTTTGGTTATCTTGAAGGACGCTGAAGCAGCTGCCAGCTTCGCGGACTGGGCACAAGCCATCGTTAAGGAACGCAAAATCTACTAA
>SRR1919932_00728 phosphopantothenoylcysteine decarboxylase/phosphopantothenate-cysteine ligase
ATGGCAAGAATTTCGGTCTATATGACTGGCGGCATAGCTGCCTATAAGGCCGTGAGCGTTGTCCGGGGCCTGCAGAAGGCGGGCCATGAAGTCCGGGTAGCGATGACGGCCAAGAGTGAACGTTTTGTTGGTCCGGCAACTTTGGCGGCCTTAACGAAATGGCCGGTTTTAGACGACTTGTTCAGTCCAGGCCGGCAGGCGGAAATCGCCCATATCGACTTGGCTGACTGGAGCCAGCTGGCCCTGGTCGTGCCGGCTGATGCCAATATCTTGGCCAAGCTGGCCCAGGGGATCGGGGATGATGCCGTTTCAACCACCCTTTTGGCATTGCACTGCCCGCGCTTGATCGTGCCGGCAATGAATAGCCATATGTGGGAAAATCCTGCTGTACAGCGCAATCTCCGCTTGTTAAAGGAGGGCGGCGACCGGATCATGGAACCGGCCGTGGGCCGACTGGCTGAAGGCTATGCCGGCAAGGGCCGGATGCCGGAAGCTGAAGAGATCCTGGCCTGGGTTAATGACCAGCTTGACTTGCCAGCCAAAGGCAAGCGAATTGTCGTCACTGCGGGGGGCAACCTGGAAGCTATTGACCCGGTCCGCTTTATCGGCAACCGGTCAAGCGGCAAGATGGGCTTCCGCTTGGCAGAGGCCGCGGCCAAAAGAGGGGCCGAGGTGGACTTGATTTACGGCAACGTCTCAGTTTCCCTGCCAAGGGATGCCCGGATTCACCTCCATCCCGCCCTGTCGGCCCAGGCCATGCTGGAGAAGCTGGAAGAACTTTTCCCGGCTGCTGATGCCCTGTTGATGGCGGCAGCCGTCAGCGACTGGCGGCCAAAGGAAGCCGCTGACCACAAGCTGAAGAAGCAGGCCGGGGTAGAGGAAATGACCCTGCAGCTGGTCAAGAATCCGGACCTGTTAAAGACAATGGCCCAAAAGAAAAGGCCGGACCAAGTGGTCATCGGCTTTGCGGCTGAAACTAATGACCTTCTGGCCAATGCCAGCCGGAAGCTGGCAGAGAAAGGCGCTGACTTGATCGTGGCCAATGACGTCAGCGGGGATGCCTTTGGCGGCGACGAGGACCAGGTAACGATCCTGGAACAAGGCAAGGAGCTGGACCCTTGGCCGCGGATGAGCAAGCAGGCCGTGGCTGACCGCTTGCTCGAACTGACTTTGGCTAGGCTGGCAGAAAAGAAGAATTAA
>SRR1919932_00729 amidohydrolase
GTGAAAGACCTTTTATTTTTTTCTGAAACTTTTGCTAAAATGAACCGCTTTCACTATAATAAGGGTAAGAGTTTCGCGAAAAAGATTGGAAGACGAATAATGAAGAAAATTGATGCCCACCTGCACCTGGTGCGGGACCTAGCCAGCTACAAGGGCAATGGCCGCAGCAATGCCTTGGGAAATGGCCTGGTTGTCTGGGACAGCGGCTTTAAGACCAGCCTCTTTCCCGCCGGCTGGGGTGATGACGCTTTTCGAGCAGACGCTGCCAGGAAAGTAATGGAAGACCATGATGTGGCCAAGGCAGTCCTTTTGCAGGGAAGCCTGTATGGCTTTCAAAATTATTACAGCTGGCAGGCAGCCAAGGCCGCCCCGGACCGCTTTGCCCCGGCTTTTTCCGTTGATCCCTTTGCCAGTGAAGCGGAAAAAATCGTCAAGCGCCATGTTGAAGACCTGGGCTTTCGGGCTTTGAAACTGGAAGTCAGCCAGGCCGGCGGCCTTATGGGCTACCATTTGCCTTTTGACTTGGCAGAAGACGACCGCTTGGGCAAAATTTTGGACTATCTCAGTTCTTACCCAGGCTTCGCGGTGGCCGTGGACTACGGCGACAGCAGCCAGGCCAGCCACTTTCAATGA
>SRR1919932_00730 2-hydroxyacid dehydrogenase
ATGGAAAATGCGAAAGTTTTGGTGGCGGGCCTGGCGGTCAAGCAGCTGCCCGAATTGGAAAAAGTATGTGAAGTGACCTTTGCTCCGGCAGGTGCCGGCAAGGACTGGTACCTGGCTAACCTAGGGGATTTTGATGCCCTGATCACCGGCAAGCTGCCAGTTGACCAGGAACTTTTGGACGCGGGCAAAAAGCTCAAGATCGTTTCCGCGACCGGAGTTGGCTATGACCATATCGACGTGGACTATGCCAGCAGCCAGGGGATCATCGTCTCCAACTGCCCGGCCAGCGTCATGCAGCCGACGGCGGAAATGGCCTTTACCCTCCTTTTGGCTCTCAGCCGGAAATTGGCCCTCTACAATCAAGAGATGCGGCAAGGGAAGTTTTTGGACACAGGCTTGCTCGAAAACCAGGGGCAGAGCCCGGTCGGCAAGACCCTGGGGATCTTCGGCATGGGGAGAATCGGCAAGACCCTGGCCAGCTATGCCCGGACCTTCGGGATGAACATTCTCTACCACAACCGCCACCAATTGCCGGAAGATGAAGAGCGGGCCCTGGGAGTCAGCTACGTGCCCTTGGCCGACCTGCTCAGCCAGGCCGACTATGTCAGCTTGAACGCTCCGGCCACGGCGGAAACCTACCACGTGATTGATGAAGCAGCCTTGAGCATGATGCAGCCGACGGCCTTTTTGATCAATACTTCCCGGGGCAGCCTGGTCGATGAAGCGGCGCTTTTGCGGGCCTTAAAGGGCAAGCGGATTGCCGGGGCGGGCCTGGACGTGTTTGAAGAAGAACCGGACTTCAACGAGGAATTCTGCCAGCTGGACAATGTGATTTTGACCCCGCATGCCGGCAGCGCCACCCGGGAGTCCCGGCGCAGCGTCTTGAAAGAAGCCAGCCACAATATTGTCTCCTTCCTGGTCGACGGAGTGCCGGTCAACCGGGTCAACTAA
>SRR1919932_00731 ATP-dependent DNA helicase RecQ
TTGCTTGATCCACAGCAGGTCTTAAAGAAGTATTTTGGCTATGACAGTTTCCGGCCGGGCCAAAGAGAAATTATTGAAAAAGTTTTCCAGGGGAAAAATGTCCTGGCAGTCATGCCGACCGGGGGCGGGAAGTCGCTTTGCTACCAGATCCCGGCCTTGATGATTCCCGGTACGACTGTGGTGATCTCACCCTTGATCTCCTTGATGAAGGACCAGGTTGACAGCCTGCGCGAGTACGGGATACCGGCCGCGGCACTTAACAGCTCCACAGCCCAGGAAGACGTCAATCCCATCTTAAGAGCCTGCTATGAAGGGAAAATCAAGCTGCTCTACGTGACGCCGGAACGGATGGAGATGGATTATTTCCGCTACCAGCTCAACTTTTTGGAGGTCAACCTGGTCGCCATCGATGAAGCCCACTGCATTTCCCAGTGGGGGCATGACTTCCGGCCGGCCTACCGGAAGCTAAAGGACGGGATCAATGCCCTCCATACCCATCCCAATGTTCTGGCCCTCACAGCTACGGCCACTAAGGCGGTCAGGGAGGACATCGGCCAGCAGTTGGACATTTCCGAGGAGAATTTCGTCATCACCAGTTTTGAAAGAAAAAATCTCCACTTCAAGCTGGTCAACGCGCCGAAAAACAGCCGGGCCTATATCGTCAACTACTTGAAGCAGCACCGGGGTGAGGCGGGCATTATTTATTCCAACACCCGGAAAAAGGTGGAGGGGCTGACCGAATTTTTGCGTCGGGAGGGCTTTAACGTTGCCGCCTACCACGCCGGGATATCCAATGAGAAACGGGCCCAGGTCCAAGACGACTTCCAGTATGACCGGATTCCCTTGATCGTGGCTACGAATGCTTTTGGCATGGGGATCGACAAGAGCAATGTCCGCTTTGTCCTGCACGCAAACAGCGCCAAAAACCTGGAGGCCTATTACCAGGAAGCCGGCCGGGCGGGCCGTGACGGTCTGGAGAGTGAGGCCGTGATGCTTTTTCACCCCAGTGATCTTCGCCAGTTCCGCTGGTTTATCGACAATTTTGAAGCTGATGAGTCCTACCGGCAGGTCCAGTACCAAAAGCTGCAGACGATCAGCGACTATGCCAATACAGATGAGTGCCTGCAGCAATTTATCGTCCGCTACTTTGGCCAGGACTGCCCGCCCTGCGGCAAGTGCAGCAACTGCTTAAACAGCGGCGACTTCCAGGACGTGACGGCCGAAGCCCAGGCTATCATCGGCATGGTCTATGACTTAGACGGCCGCTATGGCAAAAAAATCGTTGCCCAGGCCGTGACTGGGTCCAAAGTCAAGAAGATCAGTGAGATCAGGGCTGATGAGTGTGTCCACTACGGCCTGCTCAAGGGAAAAAAGCAGGCTGATGTAAGCAGCCTGGTCGACTACTTGGTTTCAAAGGACTACCTGCAGCTGGTGGGGGACCGCTATCCCTTGGTCCATGTAACCAACCGGGGCTGGGACGTTTTGGACGGCAAGGCCAGAGTCAAAAGGCGCCAGGAAGTCAAAAGCGAGCAGCTTGCTGAAACAGGCGGTGACCAGGTCCTCTTTGAAGAGCTCAGAAAGGCCCGCCGGATCCTGGCCCAAAAGCGGGGAGTGCCGCCATTTGTCATCTTTTCCGACTTGTCTTTGCGGGATATGGCAGCCAGGAAGCCGCAAACGCCGGAAGAGCTGCTCCAGTGCAGCGGGGTCGGGGATGCCAAACTGGCCAACTATGGAAAGGCCATGCTGGCCGTAATCAAAAAATATGGATAA
>SRR1919932_00732 inosine-uridine preferring nucleoside hydrolase
ATGAAGAACTTCTACTTGAACCATGACAGCAACATGGATGACTTTACTTCACTTTTGCTCATGCTTTTGGCACCAGACATCAAGCTGATCGGGGTCGGGGTAACCGACGCCGACGGCTACGTTGAACCAGGCGTTTCCGCTTCCCGGAAGCTGATCGACCGCTTCAACCAGCGCGGCGACAAGCTGGAAGTGGCCAAGTCCGACTCCCGGGCAGTCCACCAGTTCCCGGAAGCCTGGAGAGTGTCAGCTTTTTCCGTGGACCACTTCCCGATCTTGAATGAAAAAGGCACGGTTGAAACGCCAGTTGCCGCAAAGCCGGCCCACCTGGACATGATCGACAAGATCCATGCTGCTGACGGCCCGGTTACCCTGGTCTTTACCGGTCCGCTTACTGACTTGGCCCGGGCCCTGGAAATTGACCCAAGCATCCAAGACAAGATCGAGGAACTTTACTGGATGGGCGGGTCTTTGAACGCCCACGGTAACGTTTATGCCCCATGCGCTGACGGGACCCAGGAATGGAATGCCTGGTGGGACCCGGAAGCCTGCAAGACGGTCTGGGACTCCAAGATCAAGATCCAACAGGTCGGCCTGGAATCAACCGAAGAACTGCCTCTGACCGATGAAATGCGCCAGCACTTTGCATCCAACCGCAAGTACCCGGCCTTTGAATTCCTGGGCTATGTCTACGCCCTGGTCAACTCCTTTGAAGTCGACTCAACTTACTACCTCTGGGACGTTTTGACCACCATGAGCGCCCTTTACCCGGAAATCGCCACGACCCGTAACACCAAGTCTGACGTCTACACTGACGGCGACCGGGCTGCCCGCTTCTTTGAAACTGAAAATGGCCGGCCAATGACCCTGGTTACTTCCGCTAACTACGACAAGTTCTGGGAACGCTTTGACGACCTGTGCGAAAAGGCCAAGCTTTTCTAA
>SRR1919932_00733 excinuclease ABC subunit C
ATGGCGAGTCAATTGATTGAAAACAAATTGAAATTGCTGCCGGAAAAGGCCGGCTGTTATCTGATGAAGGACGTCAACGGCAAGGTCATCTATGTTGGCAAGTCCAAAAACTTGAAAAACCGGGTCCGGTCCTACTTCAAGAGCAGCCAGGAGGGCCGCCGGGCCGAGCTGGTCAAGAATATTGCCGATTATGACATCATCGTGGTGGATTCTGACAAGGAAGCCTTTTTGCTGGAAGTCACCCTAATCAAAAAGTACCAGCCTTATTACAATGTGGCTCTGAAGTCGGGGACGGGCTATCCCTATATCGAAATCACGAATGAGAAAAATCCCCAGACCCGCCTGACCTCGATCGTCTACAAGGACAAGGGCTACTATTTTGGCCCTTACCCCAACGTCTACGCGGCTAGCGCGACTTTAAAATTCATCCAGAAGGTCTTCCCTTTACGCCGCTGCAGCGGCTATACCGGCCGGCCCTGCCTTTACTACCATATGGGCCAGTGCCTGGGCAGCTGCTTTAAGGAAGTGCCGCAAAGCGAATATGACGAGCAGATCAAGAAGATCAAGCGCTTTTTGAACGGGGACATCCAGGAGGTCAAGAAAGACTTGACCAATAAGATGCTGCAAGCTTCAGCTGACCTGGAATTTGAAAGAGCCGGGGAACTCCGGGACCAGCTCAAGTATATTGAAGAAACGGTTGAAAAGCAGAAGATCATCTCTAATGACCATACCCAAAGAGACATCTTCAACTATTACGTGGACCGGTCCTGGATTTCCATCCAGGTCTTCTTTTTGCGGCAGGCCAAGCTCTTGCGGCGGGAGTCGCACATGTTCCCTTTGACTGATGAAACTGACCCAGAAGACGAATTCATGTCCTTTATTGCCCAGTTCTACGCCCAAAAGAACCGGGTCAAGCCAAGGGAAGTCCTGGTGCCAAAAGGCATCGACCAGGATGAACTGGCCGCGGCCATCGGCATTAAGGTCCGGACCCCGCAAAGGGGGCAGAAGGCTTCTTTGATGGAGATGGCCCGGGAAAATGCCCAGCTGAAGCTGGATGACAAATTCCGCCTGCTGGAGCTCGGCCAGCGCAAGACTAAAGGGGCCCAGGAAGAAATTTTCAAGGCCCTGGGTCTGCCTTACGGGTCATACATTGAAAGTTTTGACCACTCCCATATTCAAGGGGCAGACCCGGTTTCGGCCCTGGTTGTCTTTAAAGACGGAGAACCCTTTAAGACCGGCTACCGGAAGTTCAAGCTGAAGGGGGAAGTTGAGCACCAAAACAGCGCCGATGAAGTCGGCAACACCCGGGAAGTCGTCCGCCGCCGCTACAGCCGGCTGTTAAAAGAGCATGAAAGAATGCCGGACCTGATCTTGATGGACGGGGGACAGATCCAGGTGGAAGCCTGCGAGGACGTCTTAAGAAACGAGCTGAACCTGGATATTCCGGTAGCGGGGATGGTTAAAGATGACAAGCACCGGACCAACCACCTCTTGTACGGTGACCCGTTTAAGGGCCAGCCTTTCAAGCTGATTCCAATGGATCCGAAGTCAGAAGGCTTTTACTTAATGACCCGGATTCAAGATGAGGTCCACCGCTTTGCCATCACCTTCCACCGGCAGACCCATGCGAAAAACTCCCTGGTCAGCCGGCTGGACTCGATCAAAGGTATCGGGCCGAAGAGCCGGACCAAGCTTTTGCGGGAATTTGGCTCTTTAAAGAAGATCAAGGAAGCTTCTATTGATGATCTGCGCAAGGCGGGACTGACTTTAACCCAGGCGCAGGCAGTCAAAATTTCCCTTTAG
>SRR1919932_00734 GTPase Obg
ATGCCAACTCCTTCAACATTTGTTGATCAAACTAAAATTGAAGTCCAAGCCGGAAAGGGCGGGGACGGCATGGTGGCCTTCCGCCATGAAAAATTCATGCCTAACGGGGGACCAGCTGGCGGTGACGGCGGCCGGGGCGGGTCCATTATCTTCGTGGCCGATAACGGCCTCAGAACCTTGATGGATTTCCGCTACCGGCGCAAGTTCAAGGCTGAGCCGGGCGAAAACGGCCGCATCAAGGCCCAATACGGCAAGGCAGCCAAAGACCTGTACCTGAAGGTGCCGGTCGGCACGACCGTTTATGACTTTTTCACCGGTGAAGAAATCGGTGACTTGGTTGAAAATGGCCAGGAACTGGTCGTCGCTAAAGGCGGCCGGGGCGGCCGGGGCAACATCCACTTTGCCACCAGCGTCAACACGGCGCCGGAAATCGCTGAAAACGGGGAACCGGGTGAATTCCGGACCCTGCGTTTGGAATTAAAAGTCCTGGCTGACGTCGGTTTGGTCGGCTTCCCGTCTGTCGGCAAGTCAACCCTTTTGTCAGTCGTCACCAGTGCCAAGCCAAAGATCGCGGCTTATCAGTTTACGACTTTGAAGCCAAACCTAGGCATGGTTCTTTTGCCAGACGGCCGGGACTTCTCCATGGCCGACCTGCCGGGCCTGATCAAGGGGGCCAGCCAGGGGGTAGGGCTGGGGATCCAGTTCCTGCGCCACGTGGAGAGAACCAAGGTTATCCTGCATATGGTGTCCATGGACCCGAACAACGGCCGGGATGCCTACGAGGACTATGAGACCATCTTGCACGAACTGGCCTCATACACGGAAGATGACCTTTCCAGCAAGCGGGAAATCATCGTGGCCAGCCAGATGGATATTCCAGGCGCCGATGAGAAACTGGCCCAGTTTAAGAAGGACCTGGCCGCGCATGGGGTTGACCAGGAAGTTTACGAACTCTCCAGCGTTACCCACCAGGGCGTTGACCGCTTGATGAGTCGGGCGGCTGACCTGGTCAGCGAGGTTGAGGCCCAAGAGGCTGAAGCTGCCGTTAAGCCCAAGGAAGAGGTCAAGACTAAGACCTACAAGTACCACCGGCCTGAAAAGATGGAATTCACGGTTGAAAAGCTGGCTGACCACGAATTTGAAATTCACGGTGAGCAGCTTGAACGCCTGGTAGCCATGACCAACCTGGACCACCAGGACGGGATCATGCGCCTGGCCCGCCGCTTGAAGAAGATGGGTGTCGATGATGAACTGCGGGCGCAAGGCGCTGTCGATGGAGACGACGTTTACATTGGCGACTTCAGCTTTGAATTCGTGCAATAA
>SRR1919932_00735 acyltransferase
ATGAAGAAACGATATATTACTGGCTATGCTGGCTTGCGGGCCCTGGCCGTAATCGGGGTAATTTTGTATCACCTGGATCCGGACCACTTTGGCGGAGGTTACCTGGGCGTGCCGGTCTTTCTGGTTTTGACCGGTTATCTGGTAACCAACCAGATTATGGCTGCCTACCGCAATCAGGGCTATTTTGACATCAAGTCCTTTTACCAGCGCCGCTTCAAGCGTCTTTATCCCCCGCTGATCGCCATGCTCTGGCTGACCAGCGCATATATCGTGCTCTTTCAGCGCAACCTTTTAAACAAGCTTTACCAGATTGTCGCCAGCAACTTGCTGGGGGTATATAACTGGTGGCAGATATTCAACGGGCAGAGTTACTTTGAGCGTTTTGCCAATAATGAATCGCCTTTTACCCACTTGTGGACGATAGCGATTGACTGGCAGTTCTACCTGCTCTGGCCGCTGGTGATGGCCCTCTTGGTCAAATTTGCCAAAAAGCGGCGGAATATCTTCTGGGTTCTGGTGGGCCTGTCGGTCTTGTCCGCTCTGGAAATGGCCCTGCTTTTCCGGCCGGGCCAGGATACAAGCCGGATTTACTACGGGACTGACACCCGCTTCTTCTCTTTGGGCCTGGGCAGCGCCATGGCAGTTCTCTGGCCTTTTGAAGAGCTGGACAACCGCTTTACCCAAAAAGACGGGGTGATTCTCAACTGGACGGGGCTGGCGACCCTGTTTGGGATGCTTTTGCTCATGTTCTCGCCTTTGATGAACGCTCAGACCGCTTTCCCATATTATGGTGGGATGTTCATCTTCAGCTTCTTCGTGACGGTTTTCGCGGCGGTAATCGCGGCTCCGGTCGGAATCTGGAACCGGCTGATGACCAACCCGGTCTTTAACTGGCTGGGGTCAAGAAGTTATGAAATCTACCTCTACCAGTTCCCGGTCATGATCTTTTTCGAAAGCCGGGTCAGCGACCTGGCCGACCATGTGACTCTTTACCGGGTGACCGAGATTGTCTTGATCCTCTTGATCAGTGAAATTACTTACCGTCTTTTTGAAAAAAAACGCTACACCAGCGAAGGCATCCGCTACAACTTGACCAAGCTTTTTCAGTGGCCAGTCAAGTTGTCCAAAAACTGGCTGAAGACGGCGGCCTTCTTCCTGGTCTTTTTGATCGGCAGCGGCGGGATCATCTTCTCCCCGCTGGCCAAGGCTGACAACAAGGATGGGGCTTTGATCAAGACGATCAATGACAACTCCAAGCAGCAGGCTGAGATGAACAAGAAGGCCCTGGAATCGATCAAGAGCTCGCGAAAAGCGGCTAAGAAGTCATCCAGCAAGAAGAGCAAGCAGACTTCCAAGGCCAAGACCAAGTCAAAAACGACTAAGTCTAAGAGCGGCGGAAAAAAGGTCAACCAGGAATTTGAGAAGTACGGGATCAGCCAGGCTGACTTGCAAGCCGCGCAAAAGCTGCAGGTGACGGCCATTGGCGACTCGGTCATGGCTTCTTCAAGTGACATCTTGCACCAGCTTTTGCCGCACGCCGTGATTGACGCCACGGTTTCCCGGCAGGCCAACGTGGCCCCCCAGCTGCTGCAGTCTTATGCCCAAAAAGGTGAGCTGCAGGACAATGTCTTGATTGGCCTGGGGACCAACGGGCCTTTTACTGATGACGAAGTCAAGCAAATCATGCAGATTGTCGGGCCGAAGCGCCAGCTCTTTTGGATCAATGTCGTCGTGCCAACCCGGTCCTGGCAAAACCAGGTCAACCAGCAGCTGCAGGCCTTGACCAAGAAGTACAAGAACTTGACCGTCATTGACTGGTACGGCTACGCCCACGGCCAGTCCAGCTGGTTTTACGACGACAAGACCCACCCGAATAATGTGGGGCAAAACTACTACAGCACTTATATCGTCAAAGAAATGGTCCGCGCCAGCGGATCGAATTAG
>SRR1919932_00736 ribonuclease Z
ATGGAACTGGAATTTCTTGGCACCTGCTCGGGCCAGCCGTCAAAGCTACGGAACGTTTCGAGCCTGGCTTTAAAACTATTGGATGAGCTGAACGAGATTTGGCTCTTTGACTGCGGGGAAGCAACCCAGCACCAGATTCTGCGCACCAATATCCGCCTGCGCAAAATCACGAAGATTTTTATCTCGCACAATCACGGCGACCACATTTTCGGTCTGCCGGGCCTCTTGTCAACCAGGTCCTTTCAAGGCGACGTCGGCCCCTTGACCATTTACGGGCCAGCAGGGATTGAACAGTTCGTCAAGACCTCTCTCAGGATTTCAAAAGCGAAGATTTCTTATCCAATTAAATTCGTCACCCTGGAAGAAGGCGGCAAGATCGTCAGTGAGCGGGGCTTTGAGGTTTATACTGAAAAGCTGGACCACCGGATCGACAGCTGGGGCTTCCGGGTGGTTGAAGCTGACAAGGCCGGTGAGCTTTTGATGGACAAATTGGCGGAATTTAAAGTGCCAAACGGCCCGCTCCTTGGTAAACTAAAGAGGGGTGAGCAGGTTGAACTGGCTGACGGCACGGTGTTGAACGGCAAGGATTTCTTAGGCCCGGCCAAGAAGGGGCGGGTAGTGACCGTGATTTACGACACCCGGTCAACGCCGTCAATCCGCCGCCTGGCTGACCATGCTGATGTCTTGGTCCATGAAGCGACCTTTGACGCCAGCGAAGGTAAGCTGGCCAGGGACTATTACCACTCAACGTGCACACAAGCCGCTGAGACGGCTAGCGCCTGCCATGTCGGGCATTTATACCTGACTCATGTTTCGGCCCGCTACGTGGGCCCTCTGGCCAGCCAGATGGTCAAACAGGCGCGGGAGATCTTCCCGGCCACGACTTTGGCCAAGGACCTGGACAAGTTCGTAGTTCCAATGAAAGGTTAA
>SRR1919932_00737 short-chain dehydrogenase
ATGAGTGATTCATTACGCAATAAAGTTGTAGTTATTACCGGGGCCAGTAGCGGGATCGGCCGGTCAATTGCCCTGGAAAGCGCCAGCCGGGGCGCCACGGTTGTTTTGCTGGCCCGCCGCCTGGACAAGCTGGAGGAAATCGCTGCTGAAGCCCGGGAATTGTCTGCTTCAGCAGCTTTCGCCGTCAAGGCTGACCTGGGCCTGGCCAGCGACATCGAAGCGGCTTTTGCCGAAGTTAAGGAAAAGGTCAAGCACATCGACTACCTGGTCAACGCGGCTGGTTTCGGCAAGTTTGAGGAATTCATGGAAGCTGACATGCAAGACGCCACGGAAATGTTCCAAGTTGACGTCCTGGGCTTGATGTACATGACCCGGCTTTTTGGCCGCCTGATGCTGGAGCAGGGCAGCGGGCAGATCATCAACTTTGGCTCCATGGCCGGCAAGGTGCCGACGACCAAGTCAGCGGCTTACAGCGCCGCCAAGGCAGCCGTAATCCAGTTCTCCAACGTTCTGCGCCTTGAACTCAAGCCTTTTGGCGTCAAGGTCATGACCGTCAACCCGGGTCCGGTTTACACCAACTTCTTCAACATTGCCGACGCAAGCGGCCAGTACGTCAAGAATGTCCAGGCCTTCATGCTTGACCCGGACGACGTTGCCTGGGAAGTAGTCCACTACTTCGGTTCAAACAAGCGTGAGCTCAACCTCCCGGTCAGCCTGGCGGCTTTGGCCAAATTGTACAACTTGTTCCCGGGGATCGGGGACAAATTGTCGCTTGAATTTGCCTCCCGCAAATAA
>SRR1919932_00738 50S ribosomal protein L32
ATGGCAGTTCCTGCAAGACATACTTCTAAGCAAAAGAAACGTTCACGTCGCGCTCACTTGAAGCTCAGCGTGCCAGCAATGCACTACGACGCAACTACTGGTGAATACCGTTTGAGCCACCGTGTTTCCCCTAAGGGTTACTACAAGGGTCGTCAAGTAGTCAGCGAAAACAGCGCTAGCGATAACGACTAA
>SRR1919932_00739 2', 3'-cyclic nucleotide 2'-phosphodiesterase
ATGAAACTGGTTTTTTTACATTCAAGCGACACCCACGGCTACTTGCTGCCAACTGACTACCAGAGCACGGGCGACTACGACGCTCCTTACGGCCTTAGCCGGGTAGCCAGCGCTATCAAGGCGGAGAAGGCCAAGTGGGGGGCAGACCACGTCATCGTGACTGATGCCGGCGACTGCCTGCAGGGGTCTCCTTTGGCTGCTTACACCCATGGCAGCAAGAATCTGGACAACCTGGCCCGCTTTACTGCTGCTTACAACGCGGTCGGCTACGACGTCCGCTGCCTAGGCAACCATGACTTTAACTTTGGCCAGGAATACATGGCCTACTATGTGGACAACAACAAGGCTCCATTCGTTAACTGCAATATTTTGGATACCGAAACCCAGGTGCCGACTCTGGGCCGGGACTACGTGATCCTGGAAAGAAGCGGGGTCAAGGTTGGCGTTTTGGGGATTACCACCCAGTACATCCCTCACTGGGAAGCAGTTGACCGGATCAAGGGCCTGGCCTTTAAGTCTGCTTACGAACAGATCGCTCATTTTGCCAAGATCATCAAGCCGCAAGTCGATGTCCTGGCCGTCCTTTACCACGGCGGCTTTGAAAGTGACATCGCCAGCGGGGAAGCAACTGAACCGCACAACGGGGAAAACGAAGGCTACCGGATTCTGACTGAGATCCCGGAAGTCGACGTCATGCTGACGGGCCACCAGCACCGGAGACTGAACATGATCAGCCCGTCCGGCAAGCCTTGCGTGCAGCCGGGCTACCGGGGCGAGGCGATTGCGGAAGTCGTTTTGGACCTGGAAAAGACGGAAGCAGGCTACAAGGTCAAAGAAGCTACCAGCGAATTGATCGACACCAAGGACTTTGCATCAGACCCGGAAGTTGAAGAAATCGTTAAGCCGCTCGATCTAGCCACCCAGAAATGGCTTGACCAGCCAATTGCCCACCTGGACCAGCCAGCCCCGATTGAAGATGCCAACAAGGGCCGGATTGAAGGGGCACCTTTCATCAACCTGCTCCAGCAGATGCAGCTCTACTTCACCCACGCTGACCTTTCAGCCACGGCTGTGATGAATGACGTGGCCAAGGGTTTTGGCAAGACGGTAACCATGCGGGACATTCTTTTGAACTACCCATATGCCAACCAATTGGTCAGCGTCAAATTGACTGGTAAGCAGCTCCGTCACATTGTAGAGCACACGGCCAGCTTTTTGGAAAAAGACGAAAACGGCAAGATCCACTTTATCGACCGCTACCTCAAGCCAAAACCGGAACTTTACCACTTTGACGTCTTTTACCCACTGGAATACGAGGCTGACCTCTCCAAGCCGGTCGGCCAGCGTTTGACCAAGCTGAAGTTCAAGGGCCAGGATATTCAAGATGACCAGGTCTACCATCTGGCCGTCAACAACTACCGGGCCAACGGGGGCGGTTTCTACCCGGAATACAGCTTGGACAAGATCGAATTCTCCTTGGACAAGGACTATGTCCAGATGTTCAGCGAATACCTGACTCAAGGAGAGGTCAAGGTCGACACGAAGAAGTACTATCGCTTCTATTAG
>SRR1919932_00740 hypothetical protein
ATGCCAGGAGAAAATGTGCGCGTGCAAGGGAAAGTGGTTAAGAGCCATTTGACTTCCTTCGTTTCAGCCGAAGAATTGCGGCAGGTGCAGGCAGCGGAAAAATTAGCCGGCCTGCCTGTCCACCAAAAGCCCTATGCTTTCGTGACCTTGAAAGACTGGGAGCTGGTTGCCGGCCATTTAGAAAAGAATTTGCCGGGAGCAATTGTTTCTTTTGAGGCGGCCGAAGGGGTCCTGCCCTGGCTGGCCAAAGAAGAAGGCGGCAGGCTCAAGCAGATTTTTGGCCAGGAAGTCCCGGCCGGGAAAGTGGTGACCTTGACCCTCAGCCAAGCCGGGAGAAATGGCAATTGGCAGTTGCAGCTGGATGGGGTGATCATGGCTGCCCAAAAGCCAAATGACGCAAATAAAGCAGAAGAAGTAAAGGGAGTTAAAGGAGTTAAAGGAGCTAAAAAAGCAAAAGGAGCAAAAGAAAAGACTGAGTCTTTTGCTGGGAAAATGGTTGATGCCCAGGTTAAGTTGGGCGGGCAGACTTTGCCCCTGCATGACTATCAGCTCTACAGCATGAACTTTATTATGGACCACCCTTACTGCGGGATTTTCCTGGATATCGGCTTGGGCAAGACCTTGACGACCCTGGCTGCCCTGGCTAAATTGCGGGAAGAGGGGATGAAGGGGCATATTTTGGTGATCGCCCCAAAGACCGTGGCTAAGTCGACCTGGCAAGATGAGATTGATAAGTGGAACTTGCCTTTTAAGACCCAGTCCTTTTTGACCGATGAAAAAGGCCGCCAGCTGACTCCAGCTGGCCGGAAAGAGCTCTATGAAGCTGCCGCGGCCAAGGCCGCCAAGGGTGACTGGCAGCTGTATTTTGCCAGCCGGGACCTGGTCAGCAAGCTGGTTGACCTGGGTCCCTGGCTTTTTAAAAACGTGGTAATCGATGAGTCCCAGTCCTTCAAGTCACCGGCTTCCCAGCGCTTCAAGGCCTTAAAGAGCGTGCGGGGGAGGATCCAGCGCCTGATTGAACTGACCGGGACCCCGGCGCCTAATTCCCTCCAGGACCTGTGGTCACAAATCTACCTCTTGGACCAGGGAGAGCGGCTGGGCAGGAGCATCACGGCCTACCGGCAGCAGTACTTTGAGCCGACCTTGCTGGTCAACAACCACCCGGTCAAGTGGCGGCTTTTGCCAGGAAGTGAGGAAAAAATCTACCAGGCCATCGACGATATCGTCATCTCCATGAAAAATACTCGGCTGAAATTGCCGGAACTGACAGAGAGCCTGGACTGGGTGGAAATGCCTCCAAGGGCCAAAAAGAGCTACCAGCAGCTGAAAAAAGACCAGGTCCTGGACCTGCCTGGCCAGGAGATTAGCGCCGATAACGCGGCTGTCTTAGCCGGCCGCCTGCGGCAACTAGCCAGCGGTGCCATCTATGAAGAAGACGGGGAGCATTACCAGGAGATTTTTGCTGAAAAAATAGAAAGCTGCTTCTACTTAACCAGCAATACGGCTACGCCCAGCCTGGTCGCTTATTATTTCAAGTCAGACGCCTCCCGCCTTTTAGCCTTTTACCGGAAAAACGGGGTCAAGGCTGAGCTTTTTGACGGCTCACCTGGCATGATCCGCCGCTGGAACAAGGGCAAGATCCCTGTCATGCTGGTCCAGCCGGCCAGCGCCGGGGCGGGCCTTAACCTGCAAGAAGGGGGCCACACCCTGATTTGGTTTACCCTGCCCTGGAGCCTGGAGCAGTACCAGCAGATGAATGGCCGCCTTTACCGGCAGGGACAGAAAAAGCCGGTCATCATTCACCATCTTTTGACGAAGGGAACGATTGACCGGCATGTATTAGACAGTTTGAAAAAGAAAGACCTCTCCCAGCAGGCCTTGCTAGCGGCGGTCAGGCGGACGCTTGCCTAG
>SRR1919932_00741 hypothetical protein
ATGAACCTGCAGCGCTACCTGTCAGCGGGCCGGGCTCTTGCCGGCCGGGCGGCCTTACTGGACACCATGGGTGACTTGATCGCCGACCTGGCCAGCAGCCTCCTCTTCAGCTGCTGGAGCTACTGGCAGCTGAAAAACGACCGCTCCTGGCTCAAGACCTTCTTTTTCAAGAAATACAGCCCGGACGACTAG
>SRR1919932_00742 hypothetical protein
ATGCACAAACAAAGTCTGGCCCTCAAATTTTCTTTTGTCTTTGTCGTTCTTTCAATAGCTATTTCCCTGCTCACTGCTGCCTGGCAATTAGCGCAAGGCAAGTCCGGTAGCCTGCTCCTGGTCCTTGAGACCGGGGCTGGCCTGCTCTTGGTCCTTTTGCCGGCCCTTTTGAGCAAGTGGCTTCGCTTTTACCTGCCGGCTTTTTGTGCCTGTACGGGGTGGCCTTTGCCGTCTTCTGCGGGGTCCTCTGGGAATGCTATGAGTTTACCTGTGACGGTCTTTTCGCCATGA
>SRR1919932_00743 hypothetical protein
ATGGATTTAGCAGAAATTCAAAAGCAGGCCAAGCAGGCCGTCAGTGAAATTGTCGAGGCATCCGGGATCAAGGCCGGCCAGTTTTTCGTGGTTGGCTGCTCTTCAAGCGAGGTCTTAGGTGAGGCGATCGGCACCAATACCAGCACTGATGTTGCTGAAGCCCTTTACCAGGGGATCAATGAAGTTTTGGAGCAAAAGCGGATCTTCCTGGCCGCCCAGTGCTGCGAGCACTTGAACCGGGCCCTGGTGGTCAGCCGGGAAGCGATGGAAAAGTATGACTTAGAGCAGGTCAACGCCATTCCCCAGCCAAACCATGCCGGCGGGGCCTTCGCGACCGTAGCCTACCAGAAAATGCCAAATGCGGTACTTGTAGAAGACATTGCTGCCCGGGGGGAAGCCGGGATTGACATTGGCGGTACCTTGATTGGGATGCACCTGCATCCGGTGGTCGTTCCCCTAAGAATTTCCCTGGACAAGATCGGGGAGGCCAGAATCATCTGTGCCCGCCGCCGGCCAAAGTATGTCGGCGGCCAGCGGGCCATCTACGATCAGGCTTTGATGTAA
>SRR1919932_00744 GntR family transcriptional regulator
TTGCTGGAGCAGGAAGGCTTTGTTTACAAGGAGTCAGGCCTGGGAACCAAGGTCTTGTCCAACTTGACCCTTTTGGGCCAGCATGACTCCCCCGTCAATTCTTTTGCCGGCCTGTCGGCTGAAAACGGCAGTGACCGGGTGAGCAGCAAGATTATCAAGTTTGAAGTAGCCTTTCCGTCAGCTGACTTGTGCGAGAAATTGAACCTGGATGAAAATGACCCGGTTTATGAGATCATCCGCTTACGCCTTTTGGACGACGAGCCTCTGGTGATTGAGCATACCTATATGCCGGTCAGCCCGGTGCCGGCCCTGTCCAAAAGGATCTTGGAAGGGTCGATCTATTCTTACCTGCACAAGAAGCTGCATATCAAGTTTGGCGGGGTCTTCCGCCGGATCAAGGCTGATCTGCCAGATAAATATGACCGGCAGTACCTTGGGGCCAACGAAAGCACGCCGATTCTGGAAATCGAGCAGATCGTCTGGACCAATTCCGGGGTCAACCTTGAATATTCTCGGTCAAGAAACCTCTACAACAACCGGTCTTATATCATGGTCGAAACCAGCCATTAA
>SRR1919932_00745 pyrroline-5-carboxylate reductase
ATGAAAGTTGGATTTATCGGTTTAGGCAACATGGGAAGCGCGATCGCCAGAGCAGTTGCCAAGTGTGATGACGTCAGCCTGCTTTTGAGCAGCCACAACCCGGAAAAAGCCGGCAAGCTGCAGGCGGAAATCGGCGGCCAGCTCTTAGACAACGCGCAAGTTGCTGCTGAAAGCGACGTGGTCTTTTTAGGCGTCAAACCTTACCAGGTGGCCAGCACCATCAAGGAAATTGGTGAAAACAGCAATAACGGCAGCATCTGGATCTCCATGGCGACCGGGGTCAGCCTGGAAACTTTGGCCAAGCTTTTGCCCGGCCACGACCTGGTCAGAATGATGCCCAACACCCCAGTAGCCATCGGCCAGGGCATGACCAGCTACACCAGCCAGAGCAGCCAGGCCAAAGATGTCTTCAAGGAATTAATGGCTCACTCCGGCAAGGTCGTGGAAATCCAGGAAGGCTTGATGGATGCCGCTACGGCAGTAGCTGGCTGCGGTCCGGCCTTCGTCTACCAGTTTATTGAAGCCCTGGGCGACGCTGGCGTGCAAAACGGCCTCTCCCGCTCCCAAGCCATTGAAATGGCCGCCCAGACGGTTTTGGGCTCAGCCCAGATGGTCCTGGCGACCGGCCAGCACCCGGCCCAGCTCAGAGATGCCGTAACTTCACCAGGCGGCTCAACCATTGCCGGCGTCGTTGAACTGGAGAAGAATGGTTTCCGCTACGCGGCCATCAGCGCAGTTAACGCGGCTCTTAAGCGGAACCAGGAATTGGGCTAA
>SRR1919932_00746 gamma-glutamyl phosphate reductase
ATGACTGAAAGCTCAACTCAGCAACTGATGGACAGCCTGCTGGCAAACAAGGCGGCTGTCAACCTGGCGAATACTGCCGATAAGAACGAAGCCTTGGCCTTGATGGCTGACAGCCTGCTGGATCATGAAGCGGAGATCATTGCTGCCAACCAGCTTGACCTGGAAAAGGCCAAGGGGCAGATTCCTGACGTCATGCTGGACCGGCTCCGCCTCACCCCAGACCGCTTAGCCGGCATGGCCAGCGGCATCCGGGCCTTGATCGACCTGCCAGATCCAGTGGGCCGCCTTTTAGGCGAGCACACGGCTGACAATGGCCTTAAGATTGAAAAGCGGTCCGTGCCTTTTGGCTTGATCGGGATGATCTATGAAAGCCGGCCAAACGTCACTTCTGACGTGGCGGCCCTGGCTCTTAAGTCCGGCAATGCCGCCCTTTTGCGGTCCGGCAAGGATGCTTTTAATTCTGCTAACGCCATCATGCAGGCCTTAAAGGCGGGCTTAGCCAAAAGCAAGATCTCCCCAAAGGTGATTGAACTGGTGCAAGACACCAGCCGGCAGTCTTCCACCGAAATGATGACGGCCCGGGGCAAGATCGACCTCTTGATCCCGCGTGGGGGCAAGGGCTTGATCAGAGCGGTTGTTGACAACGCCAAAGTTCCGGTAATTGAAACCGGGACCGGGATCTGCCATATCTATGTCAACAAGGCCGCTAATTTGGACGAGGCAGTCAAGATCACGGCCAATGCCAAGATGAGCCGACCATCAGTCTGCAACGCTGCTGAAGTCTGCCTGGTTGACCAGGAAGTTGCCGCTGACTTCCTGCCCCGTTTAGCTGCAGCTTTTGCCGGCAAGGTTGAGATGCGGGCTGACGAAAGAGCCAAGGAATTTTTGCCAGAAGCTAAAGCAGCTGGCCCGGACGACTTCGACACGGAATTTTTGGACTATATTATGGCTATCAAGGTCGTAGACGGAATTGAAGAAGCGATTGACCACATCGCCAAGCACTCAACCCACCACAGCGAAGCCATCGTGACTGAAGACCAAGCAGCCGCTGACCGCTTTACCCAAGCCGTCGACTCAGCCGCTGTTTACGTCAACGCTTCTACCCGCTTTACCGACGGGGGTGAATTCGGCCTGGGCTGCGAACTGGGCATTTCCACCCAGAAGATGCACGCCCGGGGGCCAATGGGTTTAAACGAACTTACCAGCTACAAGTACATCGTCCGTGGCCAGGGCCAGGTCAGAGAATAG
>SRR1919932_00747 glutamate 5-kinase
ATGAAAGATAACCTGATCGTTTTTAAAGTAGGAACCTCCTCGCTGACCAGCCCGGCCGGCGACCTGGATCCGGAGAAGATCAAAAAAATTACCCGGCAGCTGGCCCAGCTGCACCAGGCCGGCTACAAGCTGGTCCTGGTAACTTCAGGATCCATCGCGGCTGGCTTCCGCCGGCTCGGCTTTGACAAACGACCCAGGAAGGTGGCCAACAAGCAGGCTGCGGCCGCTGTCGGCCAGGGGCTCTTGATCGAGGAATACACCCGCAGCCTTTTGGTCCAGGGCGTGGTTTCCGCCCAGATCCTCCTGACCCAGGACGACTTCGCTGACCAGCGCCGCTACCAAAATGCCCAGACAGCCTTGAACGTTCTTTTGAGCCGGCGGGTCATCCCCATTATCAACGAAAATGACACCATCGCCATCGATGAACTGAAAGTCGGTGACAACGACACCCTGTCAGCCCAGGTAGCCTCCCTTTTAAAGGCTGACCTCCTGGTCCTTTTGACAGATGTGCCTGGCCTGTACAGCGACAACCCCAGAAAGAACCCTGATGCCCGGCCGATCCCGATCATCAACGAGATTACCCCGCAAATTTTTGCAATGGCCGGCGGGACCGGGTCCAGCAATGGAACCGGCGGCATGGCCACCAAGATCAAAGCCGCTGACATGGCGACCAAGTCCGGCGTCCCGGTCTTCATCTGTTCAGCAGACTCCACTGCCCTGGTTGACGCCGTTCACCAGAAGAACCAGGGGACCCTTTTTACAGCCAACGAAAATGCCTTCAACCAGAAGAAGCAGTGGCTGGCCTTCTACGCCCCGGCCAAAGCCCGGGTCTACATCGACCACGGAGCCGTCCACGCCATGGCCAGGGAAGGCTCCAGCCTCCTTATTTCCGGGATCAAACAGGTCCAGGGCAACTTTAAGAAAGATGACATCGTGGAAGTCTACAGCTTGAAGAGCAAGAAGCTGATCGGCAAGGGCAAGGCCCGATTCTCCCGGCCTGTTCTTGAAGAAATTCTGGAGCAAAAGCACCCTGAAGGCATCTTCATCCACCGTGACGACTGGGTTACCACCCTTTGA
>SRR1919932_00748 hypothetical protein
ATGGGACGTTACATTGTTTGCATCGTCTGGGGGATGATTTTTACTTTCATCATCGGCTTTATCGGAGCCCCTCTGACCCAGAGCACCTATAACCCTGTTACCTTGTTGATCGTCGGTGCCGTATTTGGCCTGCTGTTCTCTTTGACTATTCCAAAGATCACGGCCAGGTCATACAATGACGACTCCGCGTACAGCAAATAA
>SRR1919932_00749 DNA polymerase III subunit alpha
GTGAACATAGCAGCATTGCAGACGATTTCGGCCAATACCATTCTGGCCAGCCCAATGAAAACGGCTGACCTGGTCCAGGGGGCAAAAGAGCGGGGTTATAGCGCCGTGGCACTGACGGACATCAATGTAACTTTTGGCCTGGCCGACTTTTACCAGGAAGCCGTAAAAGCAGGGATCAAGCCCCTTTTGGGCCTGCAGGGCCGCTTTAAGGGAGTCGAATTGGAAGAAGCAGAATATGACCTGGTCTTTTTGGCTCAAAGTCAAAAAGGCTACCAGTCCTTGATGCGCCTATCCAGCTTTTTAAATATCGCTTCTGGCGACCTTGCCGGCCCGGCGCCTAGCCTGTCTGACCTGCCCGAATTGTCTGACTTGACCGTGATCGTGCCGGCCGGGCTGACCAGCGAACTGCGCCAGCTTAATAAACTGAGGAACAGTGGTGAGGAATATGTTAAAAAGCTCCAGGCCTTTTTGCCAAAAGGCCTGCCCTTATACTTAGGCGTTTACCCGGCTGAATCCGCGGCCGCTTATGATGCCTATGTCAAAAAGCTGGCAGAAATTTCAGCCTTGCCCATCACGGTTGTTGAGGACGTCCGCTACTTAGACCCGGGCGACCAGTTTCTTTGCAAGGTCCTGCAGGCCATTAAGGAAAGACGGGTCCTGGATGAGCATGAACTGACCTTGATGGCGGAGGGGCAGGGGTCACATTGGCTGCGGCCCGCGCCTGTCCTGGAAGATGCCTGCCGGGAAATGGGCTTAGAAGAAGCTTTGGCCAACAGCGGCAAGATCGCGGCCAGCTGCCATGCTAAGATTCCTTTTAAGGAGCCACAGCTGCCGGTCTTTCCGCAAGCAACAGGACTTTCTTCCGACCAATATTTGGAAAAGCTGGCTTTTGCTGGCCTGGAAAAATTAGGCCTTAGGCAGGGAATTTACCACGCCCGCTTGCAAAAGGAACTGGCCGTCATCCAGCAGATGGGCTTTGCTGACTACTTTTTGATCGTCGGCGACATCGTCAATTACTGCCGGCAAAGAGGCGCCCTGGTCGGCCCGGGCCGGGGGTCAGCTGCCGGGTCCTTGGTAGCCTATGCTTTAGGCATTACCCAAATTGACCCCTTAAAATACGACCTGCTCTTTGAGCGCTTCTTAAACCCCGCCCGGGCCGACATGCCCGACATCGACCTGGACTTTACCACGAGCGGACGAAAGCTGGCTTTTGCTTACGTGCAGGAAAAATACGGTGCTAAAGCCCGCTTTGGCGAGGGCTCTGACCTGGTGGCCCGGATTTTGGCCTTGACGACCATGAAGGCCAAAAGCGTCCTTGAGCGGACCGGCCAGGTCTTTGGCTTAACCCTGCCGGCTATCGCCCGCCTCAAGCAGGCCATGGGGGCAGCCAAAACTTTGGCCGAAGCTGGCCAGCAGACTGAATTTAAGGCCCTGGTCGCTGCCAGTCCCTTGACCCGCCTTCTTTATCAAACCGCCGCAAGGCTGGAAGGGCTGCCGGAAGACACGGGCACCCACGCTCCCGGCCTGGTCATCAGTGAAGAGCCCCTATCCAGGCAGATCGGCTTGATGACTGGGAAAGAAGCCCCTCTGTGGACGGTTGAGCAGACCAAAAAGTACGTTGAAAAGTATGGTCTCTTAAAGATCGACTTTCTGACCCTGGACAATTTGGAACTTTTGGAAGGCGTTTTAGCAGAGATTCAAAAGTCCAGCGGCCCCCTGGATTTGACCCGGCTGCCCCTGGATGATCCGGATACCTTGCGCCTTTTTGCCCGCGGGGAGACCCAGCAGATTTTCCAGTTTAATTCCAGCGGGATGCAGGAGGTCTTAAGAAAAATCCAGCCCCGGACTTTTGACGACTTGTCCGTCGCCGTGGCCCTTTACCGGCCGGGCCCGATCGCCAGCATCCCCTTGTACGTCGCCCGGAAAAACGGGACCAGCCCGGTTCAGTATCCTGACCCCAGCTTAAAAGAAGTCCTGGGACCGACCTATGGTATTTTCGTCTACCAGGAGCAGGTCATGCAGACAGCCCGGATTTTCGCGGGCTTCAGCCTGGCGGAGGCTGACGTCTTCCGGAACGCGATTTCCAAAAAGCAGGCTGGCCTCTTAGCCGAAGAAAAGGGCAAGTTTGTCGCTGGCGCTGTCAGAAAGGGACACAGCCGGCAAGCCGCCGAGGCAGTTTACGCCTTAATCGAGCCTTTCGCCAACTACGGCTTCAACCACTCCCACGCCGTCGCCTATGCCCTTTTGGCCTACTGGCAGGCCTTCTTGTCCGTCCATTTCCCTAGGGAGTTTTACTTGGAAAAGCTCAGGGCCAGCCGGGGCAAGGAAAAAGGGGCCATCATCCGCCAGGCCAGAAAGGCCGGCGTTGAGATCCTGGGGCCCGACATCAACTTGAGCCAGGCAGAGGCCCGCTTGTTTGAAGGCCGGATCTACCTGGGCTTAAAGGACATTATGGGGATTACGCCGGCCTTTTTGGACCAGCTTCTGGCCCTAAAACGGCCAGTAACCAGCTTCCCGGCTTTTTTGCGGCAGCTGGATACCAAGGAATTGAAAGAAAAGCAGCTGGTCCCCTTGATCGAAGCCGGCCTCTTTGACCAGGTCAGTCCCAACCGGGCCAGTCTTTTGGTCAACTGCGGCAACATGCTCAATACTGCCCGCTTGTCGCAAAAAAGCCTGGTCTTGCAGGACTTTTTGGCCGCCAAGGAAGAAAACGTGCCAATGCCGACGCCAGCAGAAAAGGTGGCTATGGAAGAAAGAGCCATGGGCTTTGCCGTAACGGCATCTCCCCTGGAAATTGCCGGCAAGGCCCTGGCCAAGCGTTATGGGGCCAAGCCTTTTGCTGGTCTTGCCTTAAACGAGACCGGGCAGGTGCTTGCCCAGTTCATTAAGAAAAACGACTGGCGGGTCAAGCGGGGAGCCCGGGCCGGTGAGTTAGGCAGCAACGCCGTCTTTAGCGACGGACAGACCAGCGAGAAGGTGACCATTTTTACCAGCCAGTACCGCCGCTTTGCCCAAATTCTGAAAGAAAACGCCGTCTACCTCCTGCAAGTTGACAAAAAAGAAGACCAAAAGGACAGCCGGGGCTACCAGCTGATCTTGCAGGATTTGCGCCTTTTGGACTTAAAGCAGCTCGAGCAGGCTGAAGAAGTCAAGCCGGTTACCGTCAAGCCTAAGGACCTGGCTCTTGAGCGTTATTTTGACCAGCACTACCGGACCAAGCGCTTAGGCGACTTCCAGGTTAAAGAAAGGGGCCAGGCCCTGGCCAAGCTTTTGGCTGTCCGCTACCAGGAAGACAAGCGGGGACGGAAGATGGCGACCTTGATTCTGGCTGATTCTTCCGGCCGCTACAGGTGCTGGCTTTTTGCCGGGGAACTGGCCAAATTAACTTTGAATTTACAGGTAAATGACTACTACCTGCTCAAGCTGGAAGCTTTAGGCCAAAGAGAGATCCTGGACTTCAAAATTTGGGACATGAAGCAGGTAAATTTGCGCTGA
>SRR1919932_00750 6-phosphofructokinase
ATGAAACGGATTGGTATTTTGACTAGCGGCGGTGACGCCCCTGGTATGAATGCAGCCGTAAGAGCCGTAACCAGAGTCGCGATCGCGAACGGTTTGGAAGTTTTCGGTATCAGATACGGTTTTGCAGGTTTGGTTGCGGGCGACATTTTCCCATTGGAAAGTGAAGACGTAGCCCACTTGATCAATGTTTCCGGTACCTTCCTCTACTCTGCGCGTTATCCTGAATTTGCAGAAGAAGAAGGACAGCTGGCTGGTATTGAGCAATTGAAGAAGCACGGCATCGATGCTGTTGTCGTTATTGGTGGGGATGGTTCCTACCATGGCGCCCTGCAGCTGACCCGCCACGGCTTCAACTCAATTGGCCTGCCAGGCACGATCGATAACGACATCCCTTACACGGATGCCACGATCGGCTATGACACGGCCTGCATGACGGCAATGGACGCGATCGACAAGATCCGTGACACTGCTTCCAGCCACCACCGGGTCTTCATTGTCAACGTAATGGGCCGCAACTGTGGTGACATCGCTATGCGCGTCGGCGTAGCCTGCGGGGCGGACGCGATCGTCATTCCTGAAAGACCATATGATGTCGAAGAAATCGCCAACCGGCTCAAGCAAGCCCAGGAAAGCGGCAAGGACCACGGTTTGGTAGTCGTTGCTGAAGGCGTAATGACCGCTGACCAATTCATGGCTGAACTGAAGAAGTATGGTGACTTCGACGTCCGGGCCAATGTTTTGGGTCACATGCAGCGGGGCGGCACGCCAACTGTTTCTGACCGGGTGCTGGCTTCCAAGCTGGGCAGTGAAGCCGTTCACCTTCTTTTGGAAGGCAAGGGCGGCCTGGCTGTCGGCATTGAAAACGGCAAGGTTACTTCACACGACATCCTTGATTTGTTTGATGAGTCTCACAAGGGTGACTATGACTTGTTAAAGCTCAACGCAGATTTATCAAGATAG
>SRR1919932_00751 pyruvate kinase
ATGAAAAAAACGAAGATTGTTAGTACTTTAGGGCCAGCTTCAAACGATATTGAAACTATTACCAAGTTAGCCGAAGCAGGGGCAAACGTATTCCGCTTCAACTTCTCACACGGTGACCACGAAGAACACTTGGCAAGAATGAACATGGTTCGTGAAGTTGAAAAGAAGACTGGCAAGCTTTTAGGCATCGCTTTGGACACCAAGGGTGCTGAAATCAGAACCACTGACCAAGAAGGCGGCAAGTTCACTATCAACACTGGTGACGAAATCCGCGTGTCAATGGACGCAACCAAGGCCGGCAACAAGGACATGATCCACGTTACCTACCCAGGTCTGTTCGACGACACTCACGTAGGCGGCACTGTATTGATCGACGACGGTGCTGTTGGTTTGACTATCAAGGCCAAGGACGAAGAAAAGCGCGAATTGGTTTGTGAAGCTCAAAACACTGGTGTCATCGGCTCAAAGAAGGGTGTTAACGCTCCAGGTGTTGAAATCCGCCTCCCAGGGATTACTGAAAAGGACACTGACGACATCCGCTTTGGTTTGAAGCACGGTATTAACTTCATCTTTGCTTCATTTGTACGTAAGGCTCAAGACATTCTTGACATTCGCGCACTTTGCGAAGAAGCTAACGCATCATACGTTAAGATCTTCCCAAAGATTGAATCACAAGAAGGTATTGACAACATCGACGAAATCTTGCAAGTTTCAGATGGTTTGATGGTTGCCCGTGGTGACATGGGTGTTGAAATCCCATTCATCAACGTGCCATTTGTTCAAAAGACTTTGATCAAGAAGTGCAACGCTTTGGGCAAGCCAGTTATCACTGCTACTCAAATGCTGGACTCAATGCAAGAAAACCCACGTCCAACCCGTGCCGAAGTGACTGACGTTGCTAACGCCGTTCTTGACGGTACTGACGCAACTATGCTGTCAGGTGAATCAGCAAACGGTTTGTACCCAGTACAATCAGTTCAAGCTATGCACGACATCAACGTTCGGACTGAAAAGGAAATGGACACCCGGAACACTCTGGCTCTGCAACGCTTTGAAGAATACAAGGGTTCAAACGTTACTGAAGCTATCGGTGAATCAGTTGTCCGCACTGCTCAAGAACTGGGCGTTAAGACTATCATTACTGCTACTAGCTCCGGCTACTCAGCTCGTATGATCTCCAAGTACCGTCCAGACGCAACCATCGTTGCCTTGACTTTCGATGAAAAGATCCAACACTCATTGGGTATCGTTTGGGGCGTTGAACCAGTTTTGGCAAAGCAACCTTCAAACACTGACGAAATGTTCGAAGAAGCTGCCCGCGTAGCTAAGGAACACGGTTTCGTTAAGGATGGCGACCTGGTAATCATCGTTGCCGGCGTACCATTCGGCCAATCAGGTACTACTAACTTGATGAAGCTGCAAATCATCGGCAACCAACTTGCTCAAGGTTTGGGCGTAGGCACTGGCTCAGTTATCGGCAAGGCTGTTGTTGCGAACAGCGCTGAAGAAGCCAACGCTAAGGTTCACGAAGGCGACATCCTGGTAGCTAAGACTACTGACAAGGACTACATGCCAGCTATCAAGAAGGCCAGCGGTATGATCGTTGAAGCTTCCGGCTTGACCAGCCACGCAGCTGTTGTCGGCGTATCACTCGGCATTCCAGTTGTTGTCGGTGCTGCTGACGCAACTTCAAAGATCGCTGACGGCTCAACTTTGACTGTTGACGCACGTCGCGGCGCAATTTACCAAGGTGAAGTTTCAAACCTGTAA
>SRR1919932_00752 nitrate/sulfonate/bicarbonate ABC transporter ATP-binding protein
TTGACCAGATCCAAGATGCAGGAGCTCATCCTCCAGGTCTGCAAGGAAGAGGGCATCACCACAGTGCTCGTTACCCACGACGTCCGGGAAGCCACCATCATGGCCAACAAGATCTGGGTCATCAAAAACCAAGGGATCGCGACAGAAATGATCAACGACTTCCGCGACCAAGACGATGACCAGGCCCAACTGGCCAAGGACAAGATCTTCCACGACACCTTGCAGATCATCTTAGGTGAAGATGACCTTGCAGCTTAA
>SRR1919932_00753 nitrate/sulfonate/bicarbonate ABC transporter ATP-binding protein
ATGAACGGACAAAAATTATCCGGCCTCAACCAGCAGGCCCGGGTCATGTTCCAAGATGATCGCCTTTTGCCTTGGAAGACCGTCCTGGGCAACCTGCTCATGACCGGCAATGACCCGGACAAGGCCAAGCGCCTTTTAGCCCGGGTGGGCCTGGAAGAATACGCTGACGCCTACCCGGCCACCCTGTCCGGGGGGGCAGAGACAAAGAGCTGCTTTAGCCAGAGCCCTCCTGTCCTCTCCCCAGCTCCTGCTTTTGGACAACCCCCTCGGAGCCCTTAA
>SRR1919932_00754 putative acyltransferase
TTGATCCTGCACTTTCCCCGCTTCGGCTTTATGTTCATCACCGGCCTGGTTCTCTTTTTAGGCTACTGGGGCCGGCCTAAAAAACAAAACTGGCCGGTCTTCTGGAAAAAGCGCTATATCGGTAGCGGTATTCCCTACCTCTTCTGGAACGGCCTCTTTTTGGCCTTTCTCTTGCTGACCAGCGGCTCTTTTAGCTGGAACAAGTGGCTGACCGGCTGGCTGGAAGCCATCAGCAAGGGCAACCAGTTCTACTTCAGTCCACCCTCCTGCGCCTAA
>SRR1919932_00755 molybdopterin/thiamine biosynthesis adenylyltransferase
ATGTATAAAAGACCACGAATTAAGGAGATATATCCGGTATATCGCTTAGACCAAGAGCACTTTAGAATCGGTGCACAAATTGGAATTACTAAAGAATTTTATGATCCTACAGAACAATTATGGAATCTAGCCACTATATTAGATGGTCGTTCTTTGAAGGATGTATTGGATGAAGAGAGAAGACGGTTTCCTGACTTAGAATTGTCAGATGACTACATACTTGATGGGATTAATCTGCTAGATCAAGAAGGCTTTTTGGAAGAAACTGATTTAAAGGAAGAAGAATGCCTTAACGCACGGTATATGCCAAATGTTAGATATTTTAGTCATTATATCAACTCTACTAATGATAGATTCCATGTTCAGAAAAAAATACAGGAATCTACGATTTTGTTGCTCGGACTTGGTGGAGGTGGTACAAATATATTAACGTTGCTAGCTGGATTAGGTCCTAGAAAAATTAAAATTATTGATTATGATATGGTTGAAGAAGAAAATCTAGGTAGGCAATTCCTTTATAGTGAAGCAGATATTGGTTTGATGAAGACAGATGTAGCACGAAGGGCAATCAATCAGATTAATTCTCAAATTGAAGTTGAGGTACATAATCTTAAGATAAAAGAGCCGGAAGATTTACAGAAATATTTGGAGTCTGTAGATATGGTAATTAGTGCTATTGATGAGCCTCAGTTCGAGATAGTTAGAGTTGTTAACGAGGCAATTGTTAAAGCTAATATACCTTGTGTTTTCGCAGGTACCCAAGTGAACCATGGGCGTGTATTTACTATTATTCCAGGAATTACAGGATGCTTTGATTGCCTTAATATTCACTATACTTTGACGGATAAACAATTTTTGAAACAATTTATTGGATCGGCTAAAAGCGGCTTTAGACCAAAGTCAATTGCTTACGGGCCAGCAATATACCAATTAACATCCGTTGTTGTAGATGAAGCTGTTAGAGTATTGACGGGATATGCTAAACCAAGGAGCCTATCTACACAATTAGAAATTGACTATGAAAACTTCAGTTCCTTTGCGCATAAGCCATGGCCTAGATATCCTGATAAGTGTCCTACATGTGGGAATGGAAAAGTTGAGGATTGGGAAGTCTTTAAATATTATGGTTTATTCAAGTAA
>SRR1919932_00756 major facilitator superfamily transporter
ATGAAAGTGTATCTGAAAAACTCAGGGTATCGAGCCTTAATTAACTCAACAGTTTTAAGCGGAATTGGAGATAGTCTGTATAATATTGTTTTTATCATTTATGCGGCAAGTGTCCCCAATAAATCACTAGCAGTATCGTTAGCTTCGTTTGCGACCTTACTGCCGTCTCTTTTATCTGTAGTAACTGGCAGCCTGGCTGATCAGACCCATCATAAAGCTAAAAGCGTAATTATCGTTAGAATGATTCAAGCAGCTCTCTTTGTGCTGTTAGCTGGTTTAATTAAGCTACCACAGTCATTCCCTTTATTTCTATTCTTACTATTAATTAATATCGTGTCAGATACAATTGGCAGTTACGCTAACGGTTTAACTTTGCCCTTTTTGCCAAGACTGCTGCCTGAGGATGAGTTAAATGCTGCTTTTGGCTTAGAAACTGCAGCCACGACCACGGTGCAGATTATCTTTCAAGGTCTTGGTGCTGCGCTGATTGTTGCCATGGCTTACAATTACTCTGCCTTTGCTTGGATTAATGCGGCTACTTTTTGCTTAGCAATTTTACCCTTAAAATTAACCTGGCCAAGGTTAATTAAAGCTGAAAAAGAGATTCCATTATCACAAAAGCCAGATCAATCTTTATTGAGCAATATTGCTGATGCCTGGCTTGAATTGAAAAAACATAGTTTTATTTTGTTGACTATTGCCTTAGCAGTAATAATCAATTTCCTCGGTGCCTCAATGAATGGGCTGATTAATGTCGCCTTGTTAGGTGAACGCACTATGTGGCTTGGCAATTATGGGAATACAGTAGCCTTATTAGACATTATTTTGTCAGTTGGAACCATTTTGGGAAGTCTTTTAATGAATGATTTCTTGAAAAATAGTCGTTTACTAACGTTGCTTTTATTGGCTGGAGCTTCGTTAGCAGCTTTAGGAGTGTCGTTTATCTGGCACCAAGCTTTAATCTTAGCTGCAGTAAGCCTTTTTGCAGCGGGCTACATAGCTGGTAAAGTCAACCCCCGAATCAGTGCCTTAATGGTTAGAGAAATTCCTAACGAGAAAATTGCTGCCGTTTCTGGATTTATGCAGATGTCGGTCTTGATAGGAGCCCCTGTGGGTCAGGCACTCTTTCTTAGTATTGCAAATATGCAAACGCCTCAAGTAAGTTGGATACTGTTTACCATCTTAGCAACGCTTTTTATCGTGCTCTGTGCATTGCTGACTCAAAACAAAAAATTAGTTATGAACGAGAGATAA
>SRR1919932_00757 xanthine/uracil/vitamin C permease
ATGGAATTTATTAACAAGTATTTCGAGCTCGACAAACTCGGTTCAAACCCTAAGCGGGAGTTCATCGCTGGTCTGACGACCTTCTTCGCGATGTGCTACATCCTTTTCGTCAACCCTAGCGTCTTGGGCGCCAGCGGGATGGACAAGGGCGCGGTCTTCACGGCAACTGCCCTGGCCAGCGCGCTCGGCTGTCTTATCATGGGTATTTTTGCCAACTACCCGATCGCTACTGCCCCGTCTTTGGGTCTTAACGCCTTCTTCGCCTACACTGTCTCCATCGGCATGAAGGTGAAGTGGCAGACTGCCCTGGCCGCTGTTTTCCTGGCCTCAATCATCTTCATTTTGATTACGGTCTTCAAGCTGCGGGAACTGATCGTTGACAGCATCCCTAACGACTTGAAATTTGCCATTTCCGCCGGGATCGGGATCTTCATCGCCTTCCTGGGCCTGCAAAACGGCAAGCTGGTTGTCAACAGCGCTTCTACTTTGGTAACTATCGGTTCCTTCAAGGACCCAGCTGCCTGGGTAACCATCTTCGGTCTGCTGGTAACCATCTTCTTGATGATCCGGCAGGTGCCAGGCGCGATCTTCATCGGGATCGTCCTGTCTTCAATCTTCAGCATCCTGGTTGGCCAAAGCAAGATGCCGACTTCAGTCGTTTCTTTGGCGCCAAGCTTGAAGCCAAGCTTCGGCCAAGCTATCTTCCACCTGGGCGACATCAACACGGTGCAGATGTGGACGGTCGTTTTAACCTTCCTCTTGGTGGCCTTCTTTGACACCACTGGTACCTTGATCGGTCTGGCTAACCAGGCTGGACTGATTGACAAGGACGGCAAGATGCCAAGAATCGGCAAGGCCATGGCGGCTGACTCAACGGCCATGATGGCTGGTTCCATCATCGGTACTTCACCGGTTGGCACCTACGTTGAATCTTCATCCGGGATCGCTGCCGGCGGCCGGTCTGGTTTGACTGCCGTTTGGGTTGGCATCTTCTTCCTTTTGTCCATGTTCTTCAGCCCGCTTTTGAGCGTGGTAACGACTACAGTTACTGCTCCAGCCTTGATCATCGTCGGCGTTTTGATGGCCGCCAACCTGGCCAAGATCTCCTGGGACAAGCTGGAAATCGCTGTTCCAGCCTTCTTGATCGTGATTGGCATGGGCTTGACCTACTCCATCGCTGACGGGATGGCCCTGGGGCTGATCGTTTACCCGATCTCCATGACTGCTGCTAAGCGCGGTAAGGAAGTTTCACCAATGATGTGGATCTTATGCGTGATCTTCATCATCTACTTCTTGATCTTGAACGTTTAA
>SRR1919932_00758 glutamine ABC transporter ATP-binding protein
ATGGAAGAAAAATACAAGGTTCAGGTAACTGACCTGCACAAGAGCTATGACGGCGTTCATGAAGTCATCAAGGGCGCTAGCCTGGACGTCGCGCCAAGCGAAGTCGTCTGCATCATCGGTCCGTCTGGTTCAGGCAAGAGTACCTTCCTGCGCTGCATCAACAAGCTGGAAGACTTCCAAGACGGCCACATCTACTTGGATGGCGTTGACCTGGCTGACCCAAAGGTCGACATCAACAAGATGCGGGAAAAGATCGGCATGGTCTTCCAGCACTTCAACCTCTTCCCGAACATGACCGTCCTAGAAAACATCACCCTGGCTCCGGTCGAACTGGGCAAGGAAGACAAGGAAACGGCCATCAAGGAAGCCCACAAGTACCTGCAGATGGTCAACATGGATGACAAGGCCGACGTCAAGCCGACCACCCTGTCCGGCGGCCAGCAGCAGCGGGTAGCCATCGCCCGGGCCCTGGCCATGAAGCCGGATGTCATGCTCTTTGACGAACCGACCAGTGCCCTGGACCCGGAAATGGTCGGCGACGTTTTGAACGTTATGAAGAAACTGGCCCAGGAAGGGATGACCATGATCGTGGTAACCCACGAAATGGGCTTCGCCAAGCAGGTGGCTGACAAGGTTGCCTTCTTCTACGGCGGCGTGATCAAGGAACTGGGGACGCCGGAAGAAATCTTCGACCACCCGCAGGAAGAAGAAACCAAGAACTTCTTGAACAAGGTTTTGAATATCTAA
>SRR1919932_00759 glutamine ABC transporter substrate-binding and permease protein
ATGCATTTAAAGAAACTTCGCAAACTTCTCCTGCTGCCAGTCAGCCTGCTCATCGCCGCGCTGTTCTTAACGGCGCCCAAGGCCCAGGCTGCTAGCAAGAAGACTTACATCATCGGTACCGACCAGACTTTCAAGCCCTTTGAAATCCAAGACAAGGATGGTACCTACAATGGCAAGAACCCGGGGATTGACATCGAAATCCTCCGGGAAATCGCCAAGCACGAAAACTTCAAGTACGAGCTGAAGATCATGTCCTTCAACGCCGACGTCCAGGCCCTGCAGTCTGGCCAGATCGACGGGATGATCGCCGGCATGAGCGTGACTGAAGAAAGAAAAAAGACCATCGACTTCAGCAACTCCTACTACACTGACGGGGTCTGCCTGGCCGTGGCCAAGGACAGCAAGATCACCAGCATGAAGGACCTCAAGGGCAAGACGGTTAACGTTAAGACCGGGACTACTTCTGCTATCTATGCCAAGTCCATCCAAAAGAAGTACGGCTTCAAGCTGAAGTACTACACCAACTCCAACACTTCCTGGGCTGACGTCAAGGCCGGCAACGCTGACGCCTGCTTCGACGATGGTCCGTCCCTGCGCTACGGGATTGCCAACGGGACCGGCCTGCGCATCGTCGGCAAGCAGGTTGCCAACGCCCCTCTGGCTTTTGCAGTTAAGAAGGGGGAAAACCAGGAACTCCTCAAGATGTTCAACGACGGTCTGGCCTGGCTGAAGAAGACTGGCCGCTTAAAGAAGATCGTCAACAAGTACACCAGCAAGAAGGCTGTTAAGAGCCAAGTCGTAGCTGATACTTCAATTTTGGGCTTAATCAAGGACAACGCCGGCGCTCTTCTGCAAGGTCTGTGGATGACCATCGAACTCTCAATCGTCGGCATCCTGGCCGCCCTGGTCTTCGGTTTAATCCTCGGGATCATGGGGATCGCTGAACACAAATTCTGGCATGGCCTGGCCAACGTAATCATCTACATCTTCCGTGGGATTCCAATGATGGTTTTGGCCTTCTTTATTTACATCGGCATGCCAACCTTGCTGGGCCACAAGCTGCCCCTCTTTACCGCCGGCATCCTGACTTTGATGCTGGACGAAGGGGCCTACATCGGGGCCATCGTCCGCGGGGGCTTCGAATCAGTTGACGTGGGTCAGTGGGAAGCGGCCCGGTCCCTGGGTCTGCCTTACTACAAAGCCCTGTGGAAGGTTGTTGCCCCGCAAGGCTTCAAGCTGATGATTCCATCCCTGGTCAACCAGTTCATCATCACTCTTAAGGACACGTCCATCCTTTCCGCCATCGGGGTCATGGACTTGACGCAAACTGGTGCCAACTTGATCGCCCAAAACTTTCAGGGCTTCAAGATGTGGCTGATCATCGCCGTAATATACCTGATCATCATCACCCTGCTTACCTGGCTGTCCAACTACATTCAAAAGAAGATGCAACATTAG
>SRR1919932_00760 deoxyadenosine kinase
ATGACCGTTATTGTATTAAGTGGGCCCGTTGGGGCCGGTAAATCCAGCCTAACCGCAATTCTTTCCAAATATCTGGGGACCAAGCCTTTCTACGAAAGCGTCGATGACAACCCTGTCCTCCCGCTTTTCTACAAGGACCCCCTCAAGTACACCTACCTGCTGCAGCTCTTCTTCTTGAACACGCGCTTCCACAGCATTAAAAAAGCCCTCAGCGACGACAACAACGTCCTGGACCGGTCCATCTATGAAGATTCTCTTTTCTTCCATATGAACGCCGACATCGGCCGGGCCAATGACCTGGAAGTCCAGACCTACGACGAGCTGCTGGAAAGCATGATGAAGGAACTGGAGCGGATGCCTAAGCGCCATCCTGACCTCCTGGTTCACATCAATGTTTCCTATGAAACAATGATCAGACGGATCCAGAAGCGGGGCCGGTCTTACGAGCAGCTCAGCTTCGACCCGACCCTGGAAGACTACTACAAGCGGATGCTCCGCTACTATGAGAAGTGGTACGACGACTACGACTACTCACCAAAGATGATGATCGACGGCGACCACTACGACTTCATGGCCAGCGAAAGCGACCGGACTGAAGTCCTGGACCAGATCACCCAGAAGCTCAAGCAAGTGGGCAAGCTGCCAAAGAACTGGCAGGCCGGTGAAATTGCCACCGAATCAATCGAATTTTCATCTTAA
>SRR1919932_00761 deoxynucleoside kinase
ATGAATAGAAAGAGTGTGATCACCGTTATTGTCTTAAGTGGCCCAATTGGAGCCGGCAAATCCAGTTTAACCAGTATCCTCGCCAAGCACCTTGGCTCAACAGCATATTACGAAGAGGTCAACAACAATCCGGTTCTGCCTTTGTACTACAAAGACATGAAACGGTACACCTTCCTCTTGAACACCTACTTCTTGAACAAGCGGCTGGCTGAAATCAACGCCGCCGCCGGCAACCACAACGACGTTTTAGACCGGTCCATCTACGAAGACTTGCTCTTCTTCAACATGAACGTCGATAACGGGGTTGCTGACCCAACTGAATATCAGATCTACCACGACCTGATGGACAACATGATGGAAGACGTGCCAGGCAATCCGCGCAAGAAGCCGGACCTCCTGATCTACATCCACGTCTCCCTTGACACCATGCTCAAGCGGATCGGCAAGCGGGGCCGGGAGTTCGAACAGCTCGACTCCGATCCAGGCCTGAAGGAATACTACCAGAACCTCCTGCACTACTACGAGCCCTGGTATGAACAATATGACGTTTCACCAAAGATGATGATCGATGGTGACAAGTACGACTTTGTCGACAACATCGATGACCAGGACCTGGTTCTGGACATCATCGACAACAAGCTGCGCGAAATCGGTAATTTATAG
>SRR1919932_00762 hypothetical protein
ATGCCTTGGTTTACAATCATGACGGTCATCGTAGTCATTTTGGCAGTCTTCGGCCTAATTGCTTTGGCCAAGTATCTGATCAACTACTCTAAAAAAGGCCGCTAA
>SRR1919932_00763 glucosamine-6-phosphate deaminase
ATGAAAATTATCGTTGTGAAAAACGCCAGTGAATTAGGCAAGCAGGCCTTTGACCTTTTGGCAAAGGCGGTTGACGAAGGGGCTAAGACCTTGGGCTTGGCAACTGGGTCTTCACCAGTTGAGCTCTACCAGGAGATTGTGGCCAGCCAGCTCGACTTCAGTCAAATGACCAGTGTCAACTTGGATGAATACGTTGGTCTCAGCCCGGAAAACCCGCAGAGCTACCACTACTTCATGAACCAGCATCTCTTCCAGTACAAGCCATTCAAGCGCTCTTACCTGCCAGACGGCCAGGCAAAGGACATCCAGGCAGAGTGCGGCCGCTACAATCAGGTTTTGGCAGAGAACCCGGTAGACTTGCAGGTCTTAGGGATCGGGCAGAACGGGCACATCGCCTTCAATGAACCGGGGACGCCGTTTGACAGCGTGACTCATGAAGTTGCTTTGACGGAAAGTACGATCAAGGCCAACGCCCGCTTCTTCGACAGCATTGATGAAGTGCCAAAGAGCGCCATCTGCATGGGGATTGCCAATATCATGGCGGCTAAGGAGATCATCCTTTTGGCCAAGGGGGAAAGCAAGGCTAAGGCTATTAAGGCCATGGTTGAAGGGCCAGTGACTACGGATGTCCCGGCCAGCGTCCTGCAAAAGCACCCGAACGTTACGGTGATTGCCGACCAGGCAGCTGCGAGCTTGCTTAAATAA
>SRR1919932_00764 aldehyde oxidoreductase
ATGAAATACATGACCGTCAAAGGGGAAAAACTGAGCCAGCTGGGCCTGGGCACCTGGAACATGGGGGAAAATGCCGAAAAGCGGGATGCAGAAATCGAGGCTATAAGATGCGGCTTGGCATCCGGCGTCAACGTGATCGACACTGCTGAAATGTACGGGGAAGGGCGGGCTGAAAGCCTGGTTGGCGAAGCCATCAAGGACCTGGACCGGAGCCAGCTTTTCCTTATCTCCAAGTTCTACCCCTGGCATGCCAGTCCTGATGACCAGAAAAAAAGCCTGGCCGCCAGCTTAAAGCGGCTGCGGACAGACTATCTGGACTTGTATCTTTTGCACTGGAAGAGCGATTATCCTTTAGCAGAAACCGTCAAGGGCCTGCAGGATTTGCAAGCTGCCGGCCTGATCCGCCACTGGGGCGTCTCCAACTTTGACACGGCTGATATGCAGGAGCTGGTAGATATCGCCGGGGAAGGGGCCGTTTTTGCCAATGAAGACCTCTACAATCTCGACAAGCGGGGCGTTGAATATGACCTCCTGCCTTGGCAAAAGCAGCACGGCATTGCTTTTATTGGCTATTCGCCCTTTAACTCAGGCAACGGGCAATCTATTCCCGTTAAAGCCAGCTTAAAGCAGATCGCTGACAAGCGGGGCGTGTCCGTCCACCAAGTCATGCTGGCCTGGACCATGCGGACCGGGCAGGTATTGACCATTCCCAAAGCCAGTTCAGTTGACCACATGCGGGCCAACCTGGCGGCTGCTGACCTGGTTTTGACCGCCGGTGAACTGGCCGCCTTGGATCGGGATTACCTGCCACCGAAGAGCAAGCAACCTTTGGAGAACATTTAA
>SRR1919932_00765 major facilitator superfamily transporter
ATGAAGGTCTTCAACCAGTCTTTGAACAACGTGCAGTGGATTACCACGGCCTACCTGCTGGCCGTTACCTTGACGATCGTCCTGGCTGCCTACCTGCAGCGCAGCTTCAAGTTCAAGAGCTTGATCATCGCGGCGGGCACGGCCTCAGTCATCGGCGGGGTGATCTGCATGCTGTCCAATACCTTGCCGGTCATGCTGCTGCCCCGGGTCAAGCAGGGTTCTTTCGTCGGGACAGCGGGCATGATCGTCGCCCTGGCCCCGTCACTTGGGCCGACCTACGGGGGGATCTGCCTGGCAGCTCTTAACTGGCGGTTCAACTTTATCTTTACCCTGCCGATTACCATTGTCTTCTGCATCATCGCGGCCCGCTTCATGAGCGACAATAAAGCCCACCGAGACCACTTCAACTTCAGCGAGTACCTCTTGATCGTCCTGGCCCTGGTTGCCTTGACCCTGGCCGTTAACAACTTAAGCTCCGGCTTTGCCAGTCCGCTGGTTTGGGGCGGGCTTTTGGTCACGGTCATTTCCTTTGTCATCTTCTTCAAGCTGGCCAAGCAGGAAGGCAAGGCCCACATCATCAATATTTCCGTTTTGAAAAATACCAGCTTTAACCTGGGTCTGCTCATCTACACTTTCCTGCAGTTCATCCAGATCAGCCTGACCTTCGTCATCCCTAACCTGGCGCAACTGGGTCTGAAGACCAGTGCCTTGACCAGCGGGATGCTGCTGCTCCTGGGCAGCCTTTTGTCAGCCTTCTTCGGGCCGGTAATGGGCCGGCTCTTGGACAGCCAGGGCTTCAAGAAGCTCTTCTTAATCGGCAGCTTCCTGGCCATGGCCGGCATTTTGCTCTACATCATTTTTGCCCAAAAGCTCTCCATTGCCTTGATCGTGATCTTCCACGTCATGTTCATGACCGGCTTCAGCATGATGTACAACAACTCCATGACGATCGGCCTGCAGCAGCTGGATCATCAGCCGCTTTTTGGACTTGGACTGCGGGGAAGAAGACGGCAAGGTCTACGACTACTACAAGACCTTCGTGGAAATCAGCTGAAAATTAAATGTTCTCCAAAGGTTGCTTGCTCTTCGGTGGCAGGTAATCCCGATCCAAGGCGGCCAGTTCACCGGCGGTCAAAACCAGGTCAGCAGCCGCCAGGTTGGCCCGCATGTGGTCAACTGAACTGGCTTTGGGAATGGTCAATACCTGCCCGGTCCGCATGGTCCAGGCCAGCATGA
>SRR1919932_00766 sugar ABC transporter permease protein
ATGAACTTCGTGACTGTATTAGCCTTAATCGTTTCATCAACATTAGTTTATTCAGCTCCCTTGATTTTCACCGCTTTGGGCGGGACCTTCAGTGAAAACTCAGGGATCGTCAACGTCGGTTTGGAAGGGATCATGACCATGGGGGCCTTCACCTCCATCGTCTTCAACCTGAGCTTCGCCTCAACCTTCGGCACCGCTACTCCATGGCTGGGTGCCCTCTTGGGCGGGATTGTCGGGATCATCTTCTCCCTGCTGCACGCCGTTGCCACGGTCAACTGGCGGGCTGACCACGTTATTTCCGGGACGGTCTTGAACTTGATGGCGCCGCCATTGGCCGTCTTCCTGGTCAAGGCCATCTACAACAAGGGGCAGACCGAAAACATCAACCAAAACTTCGGCTACTTCTCCTTCCCTGGCCTGGCCAACATCCCGGTTATTGGGCCGATCTTCTTCAAGAACACTTCAGCTCCTGCCTGGGTGGCCATCGTCTTGTCCATCTTCCTCTACTGGGTACTATACAAGACCCGCTTTGGCCTGCGCCTGCGGTCCAGCGGTGAAAACCCGCAAGCTGCCGACACTTTGGGGATCAACGTCTACAAGATGCGTTACGCCGGCGTCTTGATCTCCGGTTTCCTCGGCGGGATCGGCGGGGCCGTCTTCGCTGAAGCAATTGCCGGGAACTTCTCAGTTTCCACTATTGCCGGGCAAGGTTTCATGGCCCTGGCGGCCATGATCTTCGGCCGCTACAACCCAATCGGCGCTATGCTGTCCTCCCTCTTCTTTGGCTTCGCGCAAAGCTTGAGTATCATCGGGGACCAGATTCCAGGCATTTCCAGCCTGCCATCCGTTTACCTGCAGATCGCGCCTTACGTCTTGACGATCATCGTTCTGGTGGTCTTCTTCGGCAAGACTGTCGGGCCAGCTGCCGACGGGCAAAACTACATCAAGTCGAAATAA
>SRR1919932_00767 branched-chain amino acid ABC transporter permease
ATGATTAAGGTGAGCCCTAAGGCCAAGCGGCTTTTAGTGCCGATCGTTTCTGTTATTGCCGGCTTTTTAGTCGGGGCCATCATCATGCTGGTCTGGAGCTATGACCCATTCCAGGCCTACAGCTCAATGTTTGAAAGTGCCCTGGGCTCAGCCAACGGGATCGGGGAAACCATCCGTAACGCCACCCCGTTGATCTTTATCGCCATCGGCTTCCAGATCTCTTCAGCCGCTGGCTTCTTCAACATCGGTCTGCCGGGCCAGGCGCAAGCCGGCTGGCTGACCGCCATCTGGATCGGCCTGGCCTTCAAGGGCCTGCCCGTCTACATCCTCTTGCCATTTGAAATCATCGCCGGCAGCCTGGCCGGTGCCTTGGTTGCCGGGATTGCCGGCTGGCTGCGGGCCTACTTCGGAACTAACGAAGTTATCTCAACCATCATGCTTAACTACATCGTCCTCTACCTTTGCCAATACCTGCACCAGGACGTCATGAACAAGAGCCTCCGCGTTGACACCGACACTACCAAGACCATCGGGGCTAGCGGCAGCCTGCGGATTCCGTGGCTGAGCGAAATGTTCGGCGGCTCCCGGATCAGCGGTGGTATCTTCCTGGCCATCATTGCCCTGGTCATCTTCTGGTTCTTGATGAAGAAGACCACGGTCGGCTTTGAAATCAAGGCGGTTGGTTTGAACCCATTCGCCAGCCGTTACGCCGGCATGAGCGACAAGAAGAACATCATCATCTCCATGCTCCTGTCAGGTGCCTTCTGTGGCCTGGGCGGGGTCGTACAAGGTCTGGGGACTTACCAGAACTACTTCACCCAAACGACTACCCTGGACATCGGCTGGGACGGCATGTCCGTTGCCCTTTTGGGCGGCATGAGCGCCATCGGCATCCTGCTGGCTTCCCTGCTCTTCTCTATCTTGAAGATCGGTGGCCTGGGGATGCAGACGGCAGCCGGGATTCCATTTGAAATCGTTTCTATCGTCATCGCTGCCATTATCTTCTTCGTAGCCATCAGCTGGGCTGTCGGCCTCCTTTTCAAGGAAAAGAAGTCTGACAAGACTGCGACCTATATTGCCACGGCGGAAACCGCCGGCCGGCAAGCCGCCAATGACCAGCAAAAAGGAGGGGAAGCATAA
>SRR1919932_00768 heme ABC transporter ATP-binding protein
ATGGAAAAAGAGATCAAAAACATCATTGAGATGCGCCATATCGTGAAAGACTTTAACGGTTTTAAAGCCAACAACGATATCAACCTCACGCTCCGCAAGGGCGAAATCCTGGCGCTTCTTGGCGAAAACGGCGCCGGCAAGTCTACTTTAATGAGTATTCTTTCTGGCCTGCTCGAACCAACCTCTGGCGAAATCTACGTGCGGGGCGAGAAAGTCAACATCTCCGGCCCAAACGTCGCTACCAGCCTGGGGATCGGGATGGTGCACCAGCACTTTATGCTGGCCCAGGCCTTCACTGTCCTGGAAAACATCATCTTAGGCCACGAAACCACCAAGGGCCTGGCCCTGGACTTCAAGACCGCCAGAGAAAAGATCCTAGCCCTGTCCAAGCAATACGGCCTGTCCATCGACCCTGACGCTAAGATTTCCGACATCACCGTCGCTCAGCAGCAAAGAGTTGAAATCCTGAAGGTCCTTTACCGCGGGGCCGACATCTTGATCTTCGACGAACCAACTGCCGTTTTGACGCCGCAGGAAATCACTGAATTCATCAAGATCATGAAGAACCTGGCCAAGGAAGGCAAGTCCATCATCTTGATCACCCACAAGCTGAAGGAAATCAAGGAAAGCGCCGACCGGGTCACTGTCATCCGGGCTGGTAAGTCCATCCAAACCGTTAGCGTTGCCGATGCAAATGACGAACAATTGGCCGAAATGATGGTTGGCCACCATGTTAACTTTAAGCTGGACAAGGCTCCCATCAATCTAGGCAAAAATATCCTGGAAGTCAAGGACCTGCACGTCAATGAAGACCGGGGGACCGAAGCAGTCAAGGGTCTCTCCTTCAATATCCGCGGCGGGGAAATCCTTGGTCTGGCCGGGATCGACGGCAACGGCCAGGACGAACTGGTCGAAGCCATCACTGGCCTGCGCCATGTTGAAGGCGGCCAAGTCGTCATCAACGGCCAGGATTTGACCAACAAGCCAGTCCGCCAAATCACGGAAGCCGGCGTCGGCCACATCCCTGCCGACCGGCAAAAGTACGGCTTGATCCTGCAACTGCCTTTGTCTGAAAACATTGCCAGCCAGACCTACTACAAGGAGCCTTACTCCAAGCACGGGATCATGAACGAACAGACCATCCGGGAACACGCCCGGGAACTGATCAAGAAGTTCGACGTCCGCACGACCAGCGAACAATTGCCAGCCAGCGACCTGTCCGGTGGTAACCAGCAAAAGGCCATCATCGCCCGGGAACTTGACCGGGACGCTGACTTGATCATTGCCTTCCAGCCAACCCGGGGCTTGGACGTCGGAGCCATCGAATACATCCACAGCCAGCTGCTGAAGCAAAGAGACGCCGGCAAGGCCGTGCTCCTTGTGTCCTACGAACTTGACGAAATCTTGCAGCTGTCTGACCGAATTGTCGTCCTGCACGACGGGGCCGAATCAGGTGAAGTCAAGCCTGACCAGACTAGTGAAACTGAACTCGGTTTGCTTATGACCGGGAAGAATACCAAGAAGGAGGCTGCCGCTAATGATTAA
>SRR1919932_00769 membrane protein
ATGCGCTTTAATTACAAGAAATTGGTTGCCGCTGGGGCAGCCACCCTGTCAATCGCTGCTGTATTGACTGCCTGCTCCGGCAAGAAGTCTAACACTTCCGTCAACAAGGACACCAAGCACGGTATCGCCTTGATCACTGACGGTAACGGTGTTGACGACCACTCCTTCAACCAAGCCGCTTGGTCTGGTTTCAAGGACTACGGCAAGGAACACGGCCTCAAGCAAGGCAAGGGCGGTTACCAGTACTTTGAATCATCATCTGCTGCTGACTTCACCCCTAACCTGACTCAAGCTGCCCAAGCCGGCTACCAAACCATCTACGGTGTCGGCTACATGCTGACTGACTCAGTTAAAGCCGCATCCAAGAAGTACCCTAAGAAGAACTTCGTCTTGATCGACTCAGTTATCACTGGCCGCAAGAACGTTGCTTCAGTTACCTTCAAGAGCAACGAAGCTTCCTACCTTGGCGGTCTGGCTGCTGCCTACACCACCAAGACTAACAAGGTCGGCTTCATCGGCGGAGCCAAGTCCAGCGTCCTGGACCTCTTCGAAGCCGGCTTCAAGCAAGGTGTCAAGGATGGTGCCAAGGCCTTAGGCAATAAGATCACCGTTTACGACCAATACATCGGCAACTTCACCTCAACCGACAAGGCCAAGTCAATCGCCCAGTCAATGTACACTGACGGCGCTGACATCATCTACCAAGCTGCCGGCAACGCCGGTAACGGTGTCTTCACCGAAGCCAAGACCCGCAACAAGGCAACCACGGCTGCCAAGAAGGTCTGGGTCATCGGTGTTGACGTTGACCAGGCAAACCTGGGTAACTACACTTCAAAAGACGGTAAGAAGGCCAACTTCACGCTGACCTCCGTATTAAAGGGGCTGCGTTTCGCATGCAAGGACATCGCTGACAAAGCCTACAAGGGCAAATTCCCTGGCGGTAAGGTAATTTCCTACGGCTTAGCTCACGATGGCGTCTCTGTCACTAAGGGGAACCTTGATGCCAAGACTTGGAAGGCAGTGCAAGCTGCCCGCAAGCAAATCCTGGCTGGTAAAATTAAAGTTGCAACTGCTCCAAGTAAGTAG
>SRR1919932_00770 bacteriocin
ATGGTTAAGTTTAAAGAAACCACAAGCATTTCGCTCAAGAAGACGATTGAACTGAAGCCAGATCCAGGCCGCGCTATCCAGAAGGGTAATGTTGGCTCAACTTACATTTACTGTCTTTACCTGAAAAACGTTCAAAAAGATACGTACGTTGTTCGTGGAAAAGCTGGCAACATAAAGGATCAAATCCTGCACTTAAGCGGTGATGCAGCAGGACACACACAAACCTGGGAATATGCCGGTATCGCGAACAAGTGGTTCATCGGCGTCAAAAGAACTGATATTCATGATAATAAATGGGACAAGCAAATTGCCCGTGTTGATATCAAAGCGCAGAAAGGAAGCCACAGCAGTCATTTAGATTTTCCGCGTTTGGCTTACCTCAACCGTGCGGGCAGTCATCCATATCCCGGGGAGAATTTTGTCAGAGCAGAAACTGCTGTATCACCAAACCATCAAAAGTTTCTCTTAGCAACCATTGATGCTTCTGGCAACGGCTACTTCACAATCTACTCTCTAAGTACAATTAACAAGGCTTTGGACCAAGTTGCCTCACTTAGAAATGGTGATAACTACGTCAATATGGGTAACATCGCCTATCTTGAGTCGTTCTACTACCCTAACTTAAGCAGCTTAATCAATTCCTACCAAGGTTTTGATATGGATGATTACGGCAACATCTATATCTCTAGTCAAAAAGCTCCAGATATTAATTCTGATACCGGTGAATTTACAACTCACCACAAGCAGATCATCAAGATTCCAGCCAACAAGCGCTCCTTTGCGGATCAATGGATCAGCGTCAACTTGAGTGATTGGGGCAAGATCGACCACAAGGGCTATCATTCTGAAGTCGAAGGCTTACAAGTTATCAGCGAAGACCATGTCTATCTTACCGTTGCTTACCACTACAAAAAATATGATGATGATAAGCAACAGTACGTATCCGCCACTAAGTACAACAATCTCTACGAAATTTCCTGGTAA
>SRR1919932_00771 hypothetical protein
ATGCTCAAAAGACTACGTAACACACTGTTTGCTTTAGCTGCCCTACTAAGTTTTACGGCTTTAGCAGCAACTCCAAACACAGTTTCAGCAGCAAGTTCATCAAAATACACGCCCAAATATATCAAACGGCAAGTCGTTCTGAAGTTAAACTGCAACAGCTATGTCTATGACCGTTATGGCAACCGGATGCCCTGGTTTAACGGACTTTATGGCCCCCTCGGTTACCTGAAGGAAGACAGTTATGTCTACACAACCAGAAATAGAATTGAACGGACAGACAAAGACGTTCGCTACTTCACCTTATTCACCAAATACCACGCTACTAAATACAATTATGGCTTCGTTGGTAAAAAATATTGGCTGCCATATAAGAAGATCAACGGACATTATTTCTACTACATCGGCTATGGCGCCTACATCAAAGCAAGAAACGTCTCTTTGATCAACGATCTGCCCCAATATTCAAATGGTGAAAAAGCCATGATTACGATGTCCGGCTATCCTTTTACATTTGACAGTAAAACCAAGAAAATAAAAAATCTGACAAAAAAATGTAAAGCAGGTAAATACGTAGTAATCGATGGTCTACGGCAATTTACTGACAGTGATGGCATTTACTTTATGGACACCGATCAACCAGTCTATGCTCGGTTAAAAGGAACAGGCCACGGCACTACGGGAACATATGTCGATGTTGCTGCTTTAAGAACTAAGGAGCTCTACACTTTCTATTCAGATCCAGAAGAAGGAAGTAATCCGAATTATCGGATTAACTTAGTAGATATTAACAGACTCGAAGATTACTATACCGATACTAAGAAAAAGAAATAA
>SRR1919932_00772 surface layer protein
ATGCTCAAAAGACTACGTAACGCTCTGGTTGCCTTAGCTTTTTTGCTAGGCTTTTCTGCTTTAATTGCAAACACTGTGCAGGCCGCATACGATACGCCCTATCTAAAAGGCCAAGTCGTTCTGAAATTAAATTCCAACAGCTATGTCTATGACCGCTATGGCAACCGGATGCCTTGGTTCAACGGACTTTATGGTCCCCTCGGCTATCTAAAGAAGGGCACTTACGTCTACACAACCAGAAAAAAGGTTGAACGGACAGACAAAGATGTCCGCTATTATTTCCTCCATAGTACAAAATATCATACCTATGAAATTGACAAAAAATACTGGCTGCCTTATAAGAAAATCAATGGCCACTACTTTTACTACATTGGCCATGGAGCCTATATTAAAGCTAGAAACGTTTCAGAGATCAACAACCATTCTCAATATTCAAATGGCGAAAAAGCCATGATTGATGAAACTACATATGCATTTAAATTTAACAGCAAAACCAAGAAGATCACTAATCTTAAAAAGAAATATAAATACGGTGATTACGTCATGGTCGATGGCCTTAGGCAATTCACTGACAGTGATGGATTTCCTTTCTGGGATGCCGACCAACCATACTATGCGCGTTTAAAAGACACCGGTCATGGCTATACAGGAACGTATATCCTTTTGGGCAATTTACGAAAAAAAGATAGCGATATATTTTTTTGGGATATCGAAGAAGATACCCATCCTAACTATCGAATCAACATACTCGATATCAATTGGCAAGAAAGCAAGTATAAAAAAGCTGAGAAAGCTAAGAAAGCTGAAACGCAAAAGAGTAAGCAAGACGACTGA
>SRR1919932_00773 surface layer protein
ATGCCTTGGTTTAACGGACTTTATGGTCCCCTCAGTTACCTGAAGGAAGACAGCTATGTCTACACAACCAGAAACAGAATTGAACGGACTAACAAAGACGTTCGCTACTTCACCTTATTCACCAAATACCACGCTACTAAATATAATTATGGCTTCGTAGGTAAAAAGTATTGGCTGCCATATAAGAAAATCAACGGACATTATTTCTACTACATCGGCTATGGCGCCTACATCAAAACAAGAAACGTCTCTTTGATCAACGATCTGACACAATATTCAAATGGTGAAAAAGCCATGATTACGATGTCCGGTTATCCTTTTACATTTGACAGTAAAACCAAGAAAATAAAAGATCTGACAAAAAAATATAAAGCAGGTAAATACGTAGTAATCGATGGCCTACGGCAATTTACTGACAGTGATGGCATTTACTTTATGGACGCCGATCAGCCAGTCTATGCTCAGTTAAAAGGAACAGGCCACGGCACTACGGGAACATATGTCGATGTTGCTGCTTTAAGAGCTAAGGAGCTCTACACTTTCTATTCAGATCTAGACGGAAGAAGTAATCCGAATTATCGGATTAACTTATTGGATATTAACAGACTCGAAGATTACTATACCGATACTAAGAAAAACAAATAA
>SRR1919932_00774 membrane protein
GTGTCTGTTTCTAAATTTAAAAAGTTAGCAACCATCGCTACTGCTGCTGTTTCAGTTTCAGTTCTGTTGACTGCCTGCCAAGGCAAGAAGTCATCATCTTCAACTAGTACTAAGACCACCAAGCACAGCATCGCGCTTATCACTGACAACAACGCCATTGACGACCACTCCTTCAACGAAGCTGCCTGGAATGGTTTCAAGGCCTTCGGTAAGAAGCACGGCCTGAAGCAAGGCAAGGGTGGCTACCAATACTTTGAATCTTCATCAGCCGCCGACTTTACTCCTAACGCCAACGAAGCTGCCAGCTCCGGCTTTGAAACCATCTTCGGTGTCGGCTACCAACTGACCAGCGCTATCAAGTCCGCTGCCAAGAAGAACCCTAAGAAGAACTTCGTGATCATCGACGACGTGATCAGCGGCCAAAAGAACGTTGCTTCAGTTACCTTCGAAAGCAACCAGGCATCATACCTTGCAGGTATTGCTGCTGCTTACACTACCAAGACCAACCACGTAGGTTACATCGGTGGTGCCAAGTCAGCTACCCTGGAACTGTTCGAAGCCGGCTTTAAGCAAGGTGTTGAAGCAGGTGCCAAGGCTTTGGGCAAGAAGATCAAGATTGACGACCAATACATCGGTAACTTCACTTCAACTGACAAGGCTAAGTCAATCGCTCAATCAATGTACGCCAGCGGCGCGGACATCATCTACCACGCAGCCGGCAACGCTGGTAACGGGGTCTTCACTGAAGCCAAGGACATCAACAAGAACCGCAAGGCTTCCAAGAAGGTTTGGGTCATCGGTGTTGACGTTGACCAATCAAGCCTGGGTAGCTACACTTCCAAGGACGGCAAGAAGAGCAACTTCGTTCTGACTTCAGTTCTGAAGGGTCTGGACGTTGCTGTTGAACGTATCGCTGAAAAGGCATACCAAGGCAAGTTCCCAGGCGGCAAGCACTTTGTCTACACTCTTGAAGGCAACGGTGTTTCTGTAACCAAGGGCAACATCGACTCCAAGACTTGGAGCAAGGTTCAAGCAGCCCGCAAGCAAATCTTGAACGACAAGGTTAAGGTTGCTGAAAGCGTAAGCGACTTGAAGTAA
>SRR1919932_00775 putative prophage related protein
ATGAAGTCCAATAAAAAGCCATTTTATAAGCAATGGTGGGCTGTAACCATCGCCTTCATTTTCGTGTTTTTTGTCGGCTACATCTTCGGCTCCGCCGCTTCTTCGAGTGACGACTCCAATGACGAAGCCTCTGTAGCCAGTTCATCAAAGAGTTCTTCTAAGAGCACTACTGACGACAAGTCTTCTGGGAAAAACAATGCTAAGAAAACTTTGACTGTCAGCTATAAAAATTACGAAATTTCTTCAGAAAGGACCTTTAAGCCGAACTATACGAATAATAGCTGGGCCGGCGGCAGCGTATCTGTCGACAGCATTACTTTGTACAAGACGGCCAAGTCCTACAATTATGATAGTGCCAACGATGGCAAATTCACTATTCAAGGTTTCATGCAGATTCATTACGTAATTAAGACCAAAGCTGATGTTTCAGTTTACCCGACTCAAGGAACATATATCTACTCCAATGGTGAACAGCACGGAGCAGATTCCACTGAAAGTTGGGATGGCGATATTTCTAAGAACGTAACTAAGCAAGGAACGGTAACTGTCCCAGTCGAAAAGATTTCAAGCGTCAACAGTGTTCGCGTAAAATTTGACGCGAGTGGCCAAGACTTTAGTGATGATTCTTTAGACCACGATTTTGATTTCACTATCACTTTGTCCTAA
>SRR1919932_00776 hypothetical protein
ATGAAAGTAGTTGGAATTCTGTTAATCATTTTAGGCGTTATTGGTATTGCCATTGGGCTGATGATGTTCGGTGATATTGGCGTAGCATGTATTGTCGGCGCTCTTGCCGCCCTGCTGTCGGGATTCGGCTTCTTAAGCGTTAACAACAAACTGAATAGTTCTGAGTCTTAA
>SRR1919932_00777 serine/threonine protein kinase
ATGAAGCAAGGAAAAATAAGCGATTACGTTAATCCCGTCCCAATTAAAATAACGGACGACAAGGCAATTTTCAAAGTTGAAAAGCTGGTCCCGACCCCTTACATCGAGCGAGTCCTTCCTTTAGAGTACGCTCCTTTATATGAACAGCTGGCTGAGCTGGACACCGCGATTCCCAAGATTGTCTGCCTGGAAAAAAGCGACCGCCTGACCGTCATCGAAGAATACATCGACTCTCCCCGTCTCGACCAGTACTTAGAGACCCACAAGCTCACTTCTGCCCAGATCCACGACTTAATCTGCCAGCTGCTGGACGTCCTCGCGGTCCTGCACCAGCAGACACCGCCGATCATTCACCGGGACATCAAGCCGGAGAATATTTTTTATGATGGCCAAAAGCTGATCCTGGCCGACTTCGATATCGCCCGGAACATGCAGGAAGACGCTGACCGCGACACCCGCATCCTGGGGTCAGTGGGCTACGCGGCCCCGGAACAGTTCGGCTTCAGCCAGAGCGGGCCAGCCAGTGACTTCTATGCAGTCGGGGTGCTGATGAACGTCCTTTATACTGGCTGCCTGCCCAGCGTCCGCCTTTATAAAGGACCAGAACGGGAAATCATTGAAAAAGCTACCCATATCAACAGCCAGAAACGCTACCAAAGTGCCCAGGAATTCAAGGATGCGATTACTGGCTTAGGCCGGTCCAGCTGGCTTTTGCCAGGCTTCCGCAGCCATCAGCCCGCCCGCATGCTTACAGCCGGTTGCGGCTACTTATTGATGCTGTTTAGTTCCTTTAGTATGGACGCCAAGAGCGACTCAGCGGCTGACAGTTTCCTGCTCCGCCTGTCCTTTTTCATGGTTCTTTTCTTGATCGTCCTTTTTGCCTGCAACTACCGCAATATCAAGAGCATGTGCCTTTTCCATTCATCCAAGTCCAAATTTACCCGGGCCTGCGGGATCATCATCAGCTACCTGCTCGTGGCTACGGTTTTGACCACGGCTTTAGCCGCTTTATCGGTAGCGATTTCATCTTTTGGCCATTAG
>SRR1919932_00778 hypothetical protein
ATGGAAACTGAAAAATTACTCGCTGCTTTGAAAGCAGATCATATTTCTAATGTACTAGATCAAGTGGCTGATTACAATTTTGCCGGCTATTTAAACAAGCTGATCGAAGATAAGGGGGTCAAGAAAAGCGAGCTTTTCAACGAGGCTATGATCGAACGCAGCTATGGCTATCAAATTTTGAAGGGGCGGCGCCTGCCAGCAAGGAATAAGGTTTTGTCCCTGGCCCTCAGCTTGAAATTATCTCTGGCTGAAACCAACCGCCTTCTGTCTTTAAGCGATAACGGGGCACTTTACGCCAACGTAAAACGGGACGCGGTCTTGATCTACTGTTTGGTTAGGGGGATGTCGGTGATCGATACTGACCAGCAGCTGGCAAATTACGGCTATCAGAGCTTGAACGAAGAAGAATAA
>SRR1919932_00779 hypothetical protein
ATGAATAGCTTGTTTTGGGTAAATTTGTTAATCGGCTGCGGGATGCTGCTGAGTCGCTTTAAGCAGTTGCCGGTGACTTTCAGTTGGCGGAAATTGGCAGTGATTTTTCTGGCAAGCGGGAGTCTGCTCTTGGTTGAAGGGGTGCTGGTCAGAAAGGTGTTTGAAACGGCGCAGGTACTTTTTGTGATTGCGGTTCTCTATTTGCTGCTGGGTCTTGCTGGCCTGGTCATGATGTTTGCCAAAAAGGACTGGCAAGCTTTCACCAACGAAGATTGGCACGATTTCGCGGCCGTCTTGATTATCAGTGCCTTGCTGGCCTTCTACTTTTTGCGGGATGCTGCTTTTAATTTATCCAGCATGCTGCTGCCAGAAGCAATGTTTCTTGCTGGCCTGCTCCTGGTCTCTTGGGCCGTTAAAGCCGGGAAAAATTAA
>SRR1919932_00780 hypothetical protein
ATGAAAAAAGGAATTCCAACTCTGCCCTTTAATTCCTCGCAAGGAATAATCATGCTGGCGGCCAGCATCTATAGCGTGGCCCTGTCCTTTATAGTTCAGGAGTACGTCTCCAGCCCCGCGGTCAACAGCCTGGTCAACAACATCAGCGTTGCCGTAAGCGTGGCCTTTGCTCTGGCTATCGGCAGCTTCGTTGACCAGCATGGTGCCTGGCGGATCCTTTTTTTCACCACCTTGCTTTCTGGAATAGCCTGCCTGCTTCCGCCGCTGATTTTTGACCTGGACAAGGTGGCCTTCATCGGCGTCTTGATTGTCGTCGACATTGTCATTTCCATCATCAGTGAGTTCGACAACGCCGCCAGAACCGTCTATATCGTCCGCAAGGAGAACCGGGAGGCCTGCAGCAGGGGATCAGTTCGCTGA
>SRR1919932_00781 hypothetical protein
GTGACCCTCAGCTTCGTGGCTTTGCCCAACTACCTCTACCTCTGCGCCGCCCTTTACCTGCTGGCCCTCTTAATCTGGCTGCGGGTGCCGGCTGATCAAGTTGTGGCTTCCGCCCAACCCTCCTTCAGCTTTTCCATCCTGGCCCGCGACATCCGGGAATCAGTCAGCATTGTCTTTAAAAACAGCATTGCCTTGATCTTTGCCGCCGAAGTCCTTTTTACCTGCCGTAATCAGCTGGTTATGAGCCTGGTAATTCTAAAAATCGGCCGCTATGATCCCAAGTTCAAGTCAATCCTGGTGATTGGCCTGGGCATCATCTTGGCCGTGGCAGTCGGTGCTGGCCTCAACCGGGCCGTGGTCAGCCTGCCTGCTGGCCTCAAAAAGCTCTCTGTCCTTGCCTTGATCGTCCTTTCTGCTGGGGCGACCTACCTGAGCGGCGGTGCAGGCAGCCAGCTGTCTCCCTTTGTTTTCGGCCTCCTGCTTGGCAGTATTTTTGGTACCGGCATCCCCGTCTACACCTACCTGGAAACCAGCCGGATCATGAAAACACCCGCCGCCTACCAGGGACGGAGCACGGCCCTGCTCCGCTTCGTGGGCATCTTCTTGACCCTGATCATGGCCCTGGTCCTGGGCTTCTTTGAAGGCCGGGTAAAGAGCAGCGTGGCCCTCTACTTCTCAGCTGGCGCCATCATCCTCCTCGTCATCTTCTGCCTGGTCTTGCTCCAGTCCGCCCGCGAAAAGAACGCCTGA
>SRR1919932_00782 membrane protein
GTGAAGAAAATCAAATTCAAGCAAGTTTTGGCCACTGGCACTGTTTTAGCAGCAGGGATTGCCCTGACTGCCTGCTCAGGGGCCAAGCAAAACGGCGGCGGCTCCAACAAGAAGAGCTCAGCCAGCGTGGCCTTGATCACTGACATCGCCGGGGTTGACGACCACTCCTTCAACCAGTCCGGCTGGGAAGGGATGGTAGCTTACGGCAAGTCCCAAGGCTTAAAGCGGGGGACCAACGGCTACCAATACTTTGAATCAAGTTCAGCTTCTGACTTTACGCCAAACATCAACCAGGCGGTTGCGGCCGGCTACAAGACCATTTTTGGTGTTGGCTACTCACTTAAGGGCGCGATTGCTTCAGCAGCCAAGAAGCACACTGACAAGAACTTCGTCATCATTGACGACGTGATCAAGGGGCAAAAGAACGTGGCTTCCGCCAACTTCAAGTCCCAGGATGCTTCCTACATGGCCGGGGTAGTTGCGGCCCGGACCACCAAGACCAACGTGGTTGGCTTCATTGGCGGGGTTCACGGGGACATCGTCGACTTGTTTGATGCTGGTTTTGCCAAGGGCGTGCAGGACACGGCCAAGAAGATGGGCAAGAAGATCACGATTTTGAACCAATACGTCGGCTCATTTACGGCTGCTGACAAGGAAAAGTCAATCGCCAAGGCTATGTTTGCCAAGAAGGCGGACGTAATCTTCCACGCTTCAGGTTCAGCCGGCCAAGGCTTGTTCAGTGAAGCCAAGTCCGTCAACGAAGGCCTGGCTGCCAACTCCAGCAAGAAGGTCTGGGTCATCGGGGTCGACTCTGACCAGTCCAACCTGGGCAAGTACAAGTCCAAGGACGGCAAGAAGTCCAACCTCTGCCTGACCAGCGTAATGACCGGGGTCAACGTGGCAGTCAAGGACATCGCTACCAAGGCAGCCAAGGGCAAGTTCCCAGGCGGCAAGCAGCTGGTTTACGGCTTGAAGCACAACGGTGTTTACCTGACCCGGGGCTACGTGGCTGACTCAGTTTGGAAGCAGGCACAAACTGCCCGCAGCCAGATTCTGGCCGGCAAGATTTCCGTACCAAGCCACCCAAGCAAGTAA
>SRR1919932_00783 hypothetical protein
ATGCCATCCGGATTAAACACACTGCTATTTCTATTCAGCCAGAACCGGGCTTTCAGCTACTTTACCATTTTGGTGGCGATTGCCGCGGTAACCTTCATTTTCTCCTGGCTGAGCGACCCGCGCCGCTTGATCAACGGGGTCTTTTTCACCTTTTTCATTGCTTCGCTGGGGGCCTGGTTCACCTTCCTGGTCTATGCCACCAACCTGCCCAGCTTCCGCAAGGTCTACCTCTGGGCCCTGGCGATCCTGGCAGTAACCGTGGCCGTCATCGTCTCCTTCTCCTGGATCCTGCTTTTATGGAACTCCTATGTGGTCTTGAAGCATGAGAGCCATACCCTGCCCAACCTCCTGACCTTGATCCTGGCCGGGGCCATGCTGGGCCTCTGGGTCTTCATTTTCATCGGCCACTTCACCCGCAGCACGCCGACCGGCCTGCGCCTCATCCTGGACATTTTCCCGACGGTCGCGGTCTACCTGGCAGCCGTCATGTACAACTTCCTGGTCAACCTCCTGCTATACCAGATTGTTCCCCGCCGCTACCAGCAGAACTACCTGATCGTTTTGGGAGCGGGCCTGATCCATGGGGACCAGATTTCCAACATCCAGGCGGCCAGAATCAACCGGGCCATCCAGTTTGCCTACCACCAGCAGGAAAAGGGCCAGCCCTTGCCCAAGTTCATCATGTCCGGCGGCCAGGGGCCGAATGAAAAAATTTCTGAAGCGGCAGCCATGGCCGCTTACGCCATCAAGCGGGGGGTCCCGAAGGAACTGATCCTGCTAGAAGACCAGTCCAGAAATACCGAGCAGAACATGGAATTTTCCCAGATTGTGGCCTACAACGACTATGGCAATGACAACTTCAAGGCTTGCTTCTTTACCAGCAACTACCACGTCTTCCGGTCAGCCATCTACGCGAAAAGGGCGGGGCTGGATGCCAACGGGATCGGCTCTTACACCCGCCCTTACTACCTGCCCAACGCGGTTTTGCGGGAATTCGCCGGCATGTTCGTCATGAACCGCCTCCGCCACTTCACCGTGATGGCCTTGATCGTGGCCGGCTACATCGCCTTGGCAATTTGCAAACTACTAAATGTCTTTTAA
>SRR1919932_00784 hypothetical protein
ATGAAAAAAATTGGGCATTATCTCTTTTACTTGATCGAAATCGCAATCGTGTTCGCGCTGTACACGACCCTGCAGGAGTTTTACTTCTACCCGGACATCTTTGGCTTCGGGTCGGCTGAGGCCTTCATCCTGGCCCTCTCGACCGTCCTGGTCTTCTGGTTCAGCTTCTGGCTCTATAAGGGGCAGCTGGATGATGACAATGACTGGGGCTTCAGCCAGGACTTCCACTGGGATTGGCGGAAGCTGGCCACCACAGTCGGGGGCTTCTTCTTGATGCAGCTGCTCTACATCCTCTTGATGAACTTGATCGGCGGCGGGGTCTCAGTCAACCAGCAGAACCTGGATAACCTCCAGCAGACGGCGGGTCCGACCTACAATATCATGGTGGTCTTAGTTGCCCCGGTTATGGAGGAAATCATCTTCAGAGGGATGTTCTTCAACCTCCTCTTTAACCATGCCGGCAAGGTCGCCAAGTGGGCGGGGATCTTGGTTTCCGGTTTCTTCTTTGCCTTTGCCCACAATCCCTTCTGGTCACCATATCTCCTGGTTTACTGGATGATGGGGTCAGTCCTGGCCTGGGTCTACATGACCACCAAGGACCTGCGCTACTCCATGGCCACTCACATCATGTGGAACATGCTCAGCATTTTAGGCTAG
>SRR1919932_00785 Na+/H+ antiporter
ATGGAATTTATTGGACAACTGATACTGGTCTTGCTGATGACAACCCTGCTGGGGCAAGTCTTTGCCCGCTTCAACTGGCCCCCGGTCATCGGCCAGCTCTTATCGGGGATCCTGCTGGGATCGGCTCTTTTGGGCTGGATCCACCCTAACGAAACGATGACTCTCTTCTCCGACATCGGGGTTATCATGCTGATGTTTTTAGCCGGGATGGAAAGCGACCTGGACTTGCTGAAGAAGTACTTTAAGATCAGCTTCACGGTGGCCACGGTCGGGGTTATCCTCCCTATACTCTTTATCGGCGGGGCCTCCCTGCTCTTCGAGATGCAGTTCCTGGAAGCCCTCTTCATCGGGATCATCTTCGCGGCCACCAGCGTCTCCATTTCCGTGGAAGTCCTGCGGGCGACCGGGAAGCTGCAGACCAAGGCCGGGACGGCAATTTTGGGGGCAGCGGTAGTCGACGACATTTTGGCGGTGATCGTCCTCAGCATCTTCACCACCTTCAGCCATGAAGGCGGCAAGTCAGGACTGACCAACAACTTCTTCCTGAACATGCTCTTTGAAGCCCTCTACTTCGTCTTCGTCTGGCTGGTTTACAAGTTCATCGCGCCAAAGTTCATGCAGCTGGCGGAAAAAATCAATGTCAGCTACTCTGTGGTCATCGCCTCTTTGATCCTGTCTTTGGGCATGGCCTACATCGCTGAATTAGTCGGCTTGAGTGCCGTGGTCGGGGCCTTCTTCGGCGGCCTGGCCATCCGGCAGACCAAGCAGGAAGCAGAAGTCAATTCCTCAGTCTCCGCGATCGGCTACTCAGTCTTTATTCCAACCTTCTTCGTCAACATCGGCCTGTCGATGACTTTTGCCTCCATCGGCCAGGACTTCCTCTTCATCGTGGTCATGACGGTTCTGGGCGTTCTGTCCAAGTACTGGGCCGGCAAATACTCATCTGAAATCTTCGGCCTTAAGCCGCTGGAAGGCAGCATTGTCGGGGCCGGGATGGTTTCCCGGGGGGAAGTGGCCTTGATCGTGGCCCAGATCGGGATTGCCCACCACCTTTTCCCAAAGGACATTTACTCCAGCTTGATTCTGGTCATCATCTTGACGACGGTTCTCTCACCAATCATGCTCAACCACTACATCAGAAAAGACGAAGCGCAAAACTAA
>SRR1919932_00786 cation-transporting ATPase
ATGAAACGCCAATGGAAATTTATTGTCGTCCTGGTTCTCGGGGCAATTGGACTGATCACTGACAATGTCCTGCACATTCCGGGAATCGCGGAGGTCCTGTTCGACATTGCTGGTGTCTACGTCAGCATTTCCTTAGCCAGGGAAATGTTTGGGGACTTGAAAGAAGGGCACTGGGGCATCGACGTCCTGGCCCTGATCGCGATCATCTCCATGATGATTACCCGGGACTACTGGGCTGAATGGATGATCCTGGTCATGTCTACTGGTGGCGAAAGCCTGGAAGAATACGCGACCGGCCAGGCCAACCGGGAACTGCGGGCCCTTTTGGACAAGAACCCGCAGGTAGCCAGCAAGCTGGTTGACGGCAAGGTAGTTGAAGTCAAGGTTGACGACCTGCAGATCGGCGACCAGGTCTTAATCAAGCCAGGTCAGCAGGTGCCAGTAGACGGGACCATCATTGAAGGCAGCTCTACCTTTGACCAGTCATCTCTGACCGGGGAATCAGTTCCGGTGGACAAGACGGTCGGCGACGACTTGATGTCCGGTTCCCTTAACGGGGAAACCGCCGTAACCATGGAAGTCAAGAAGCTGGCCAAGGACTCTGAATATCAGACCATCGTTGAACTGGTTAAGTCTTCTGCTGCCCAGCCGGCCAAGTTCGTCAAGATGGCGGACCGCTACGCCGTGCCATTTACCATTATTTCATTAATTATCGGGATCGCTGCCTGGGTGACGACCGGGAACTTCACCCGCTTCGCGGAAGTCATGGTCGTTGCCTCCCCATGTCCGCTCTTGATCGCCGCTCCAGTTGCCCTGGTAGCGGGGATGAGCTCCATGTCCAAGCACCACATCATCGTCAAGTCCGGTCCAACCTTGGAACAATTAGCCAAGGCCAAGACTTTTGCCTTCGACAAGACTGGGACTTTGACCCAGAACCAATTGGTCATCCAAGACGTTCTGCCGGAAAACGGCTTTGACAAAGAAACCATCCAAAGCTACGCGGCCAGCCTTGAGCAGCAATCCGACCACATCATCGCCAACTCCCTGGTTCAAGGGACTGACAAGAACTTGATCCAAGCCGTAAGCAACCTGCAGGAATCAACTGGTAACGGGGTCAGCGGGACCGTTGACGGCAAGTACGTCATGGTCGGCAAGCTTTCCTACGTGGCGCCTGACGCTAACGTAAACAAGGCCAAGACTACTGCTGTCTACGTTTCAGTTGACGGCAAGTACGCCGGCTGCATCACCTTCAAGGACCAGCTGCGGCCGGAAACTCCGCAAACTTTGGCCCGCCTGCGCAAACAAGGCGCAAAGCACATCATGATGCTGACCGGGGACAACAAGGACGTGGCCCAGGCGATCGCTGACGCCGCCGGCGTCGATGACGTCCGGGCCGGCCTTTTGCCAGCCCAGAAGATTGAAGCCATCAAGAACGTGGCGCCTGAAAACCGCCCAGTCGTCATGACCGGGGACGGGATCAACGACGCGCCAAGCTTGACGGCCGCTGACGTCGGCATTGCCATGGGAGCCAAGGGGGCTAGCGCGGCCAGCGAAAGTGCTGACGCGGTCATCATGGTCAACGACTTGAGCAAGATCAACGATGCCGTGGCCATTGCCAAGCACACCATGAAGGTGGCTGAAATCGACGTTATCACTGCTATCGTGGTCGTTATCATTCTGGAACTGGTGGCCTTCACTGGTCTTATTCCGGCCTTCTGGGGCGCTGTTTTGCAGGAAGTGGTCGACATGATCACCATCGTCCTGGCCCTTTTGGCTAAGACCGAACCGAAGAATCCAAAACAGACCGGTTTATAA
>SRR1919932_00787 CRISPR-associated helicase/endonuclease Cas3
ATGACTTATATTGCTCACACAAAAGAAAATTCAGAGGAGATCCAGACCTTAAGGGATCATCTTTGGAATAGCAAGATGTATGCTGAAAAATATGGTGATATTTTAGGAATACCACATGTAACAGGCGTAGCTGCCTTAGTACATGATTTGGGTAAATATCGGCAAGAATTCCAAAAGTATATTAGGCATTCTGAAAAAGCCAAGAAAGGCAGTGTTGATCACTCTAGTTTTGGCGCAGTTTTCCTCAAAGAGAAAGTTAAAGAATTATCGCAACAGCCGGAAGAATTTTCGGCAGATAGCCTTTTTGCTGAAATCATTTCTAATGCGGTTTTCTCTCACCATAATAGTTTAGGATTGAAAGACTATCTAAACGCCCGCTTAAAAAGTCCCTATTACGAAAGGGTTGAAAAGTTTGATATTGATCCCGAGAAAAAAATAGAACTGAAGCAAGCTGAAAGTCTTTTTTATCAAGAAACGATGGCAGAAAACGACTTTAATATCTATTTAAAGACGGCGATGCGAGAGTTTAGCCAACTTTTTAAGGAGTTGCTAAAGGATCAAGATGGCTTACTTGACAATCTTTACTATGTGGGCCAGTTTATCTACTCTTGTTTGTTAGATGCTGACCGGACAGACACATCTCTGTTTTCATTTGGTAAGAGTGCAACTGAATACCAGTATGATGAAATCTTTGAGCAGTACTATGGCAAGTTGCTAAACAGTATAAGCAAATTTGACCAGAGCACGAAAATCAATCAAGCTCGTTCCGAAATGTCGGATGAATGTGATGCTTTTGCAGACCAAGCAGATGGTATTTACCGCTTGTCTATTCCGACAGGTGGTGGGAAGACATTGGCAAGTTTGCGTTATGGATTGAAGCATGCGATCAAGACTAAAAAGAAGCATATTATCTATGTGCTTCCATATATCACGATTATTGAGCAAAATGCAGAAGTGATTCGGAATATGCTCAATGATAATTCTAAAAATACTACTAATATACTAGAATTTCATTCAAACGTTTCAAATGATCTGACAGAAGATGATACTGAGGTTGAAAAGACAGTCAGACTTGCTGAGGATAACTGGGACAGTCCAATTGTAATTACCACGACGGTTCAGTTCTTAAATTGCATTTATGCCAAGAGTACGGTTAATCGCAGGCGCTTTCATAACTTGTGTGACTCAGTAATTATTTTCGATGAAGTGCAAAAACTACCGTTAAAGACTATATCAATGTTTAACAAGCTTCTTAACTTTTTGAGCAATATTGGAAAATGCAATATTGTGCTATGTACGGCAACACAACCGGCCTTTAATAATTTATCATCAGGAACCTCATTAAAGTTGGCTGGTAAGCCTGAAATGATTTCTAATTTGTCAAGTAGAATTCAGCAGTTCAAACGGGTGAAAATCATTGATCGCACTAAAAAGGATGGAGCAGACCATCAGCTAACAGTAACTGAAGCAGCAGAAATGATTTTAGAAGCTGCCAGAGCACAAGGATCTGTCCTTGCCATTTTCAACACAATTTCAGCGACAGAAAGAGTGTTTAATGAGGTCAAAAAAGGTGCTCAAGACTACGTTTACATTCTCACAACAAGAATGTGCCCAGAACACCGTAAAAAGGCAATTGAAGAAATAAAGGAACTGCTGGCGGAAGGAAAAAATGTGATTTGCATTTCAACCGCACTTATTGAAGCTGGGGTAGATATTAGTTTCTCCTGCGTCTTCAGATCGCTGTGTGGTTTGGATTCAATTGTCCAGTCAGCCGGAAGGTGCAATAGGAATGCTGAAAAGAAATATGGAACAGTAAACCTAATTTTAATGGATCAAACTGCAGAGAAATTAAACAGCTTGCAGGAAATAAAGAACGGCAAAGAAATCGTCCAAGGAATGCTGGATGGAAAGTACAAGGCAGATTCTTTCTTAGAAGATGAGACAATCAACTACTACTTCCAAGTTTTATATAGGGATGCTGACAAGGAATACTTGGTAAGTGATCATGGTTATCAAGTATATTTGGCAGATTGCATCGATGGCAGTAAATTGATGCAAAAATATGTTAACGAATATCATAGTGGTCCTAAAACTATTGAAGGGTCTGCTAGTGAGACGATAGCACGGAATTTTGAAGTGATCGATGAAGACATGGTGTCTTTGATTGCCCCATATGGTTTAGGCAAAGAAATTATTACGAAGTTGAATTCACGAGAAGGAAGCAGACAACTTAAAGAACTCTTGAAAGTGTCTCAACCATATTTGGTAGGTGTTTATCGGACAAAGCTTAAAGAATTAATTGACAAAGGAGCTGTAATTTCTCTAGGAGACGAATATCAGAAAAATGAGATATTTGCTATTAGAGATGACCACTACGATGATGGGATTGGATTAGTTGAAAATCCTACTAACAATAACTTCGTTAGTTTTTAA
>SRR1919932_00788 two-component system sensor histidine kinase
ATGATTAAAAAAATCAGGCGGCGCTTTATCTGGCTGGCGACGCTATCGCTTTTTTTGGTCATGTTTTTCTCTTTCTCCAGCTTGATTGGCATCAGCCTCTTTGAATCCAACCATGAAGCTGACCAAGTCCTATCCATTATTGTTAAAAATAACGGCCGACTGGACGAGGTTCAAGCCAAAAAGCGGCTAGGCGATCAGTACAATAAGGAAGGGATCTTCAAGTACCGCTACTTCACGGCCAACATCAATACGAAAAAACAGACTTTGACCGTAATTGACGCGGACCACATCATCGGCTATTCAATCAACTCGGTTTCCAGCCGGAAAAAGCAGATCTCCATGCGCCTGTCAGCTGGCCAGTTGAAGGGGACGATCCACTCTAATGGAGTCCGCTTCCGCTACTTGGCAAAAAAGATTTCCGCCAACAAGTACTATATATGCTTTATTGACTTGAGTCCTTTGATGCAGTCAGCGCTTTTGTTGGTGAGATATGCCTTGATTTTCACTTTCGGCGGGATTTTGGTTTTTGTCATCATTATGGCCCTGCTTGCTGACAAGGCAATCCAGCCGATCAAGGATGCCTACGACAAACAGCGGCGTTTTATCACCAATGCCGGTCACGAGCTGAAGACCCCTCTGGCCGTAATCAGCGCTAACGCTGAAATGGAAGAGCTGCTGGGTAATGATGATGAATGGAATGAAAGCACCAAAGAGCAGGTGGTGCGGATGACCGGTTTGATCAACCAGCTGATCACTTTGACTAGGATGAGTGAACCGGAAGAACTGGTCTTGTCAAAGGTCAATTTCTCAGAAATTACCAAGGAATCAGCAGATTCATTTAAATCGGTTCTGGCTAAGGATAATAAAAAGTATGCGGTCAGCATCGATCCGGATCTCTACATCAACGCCGAACAGCACAGCCTGCTGGAACTGGCCAACATCTTGATCGACAACGCCCAGAAGTATTGTGATCCCGAAGGCGAAGTCATGGTTGTCCTGGCCAAGAGCCGGCTTAATCAGAACGCGGTTTTGACGGTCACCAATTCATATAAGAATGGGGCTGGGATCGATACCAACCGCTTCTTTGAACGTTTTTACCGGGAAGACGAATCCCACCATTATGATCAGAAGCAAAAGAATGGTTTTGGGATCGGCTTGTCTATGGCCCAGGATCTGGTCGCTGCTTTTGGCGGCAAAATCAATGCTAGCTGGTCGGATGGCGTGATGAACTTTACGGTAACTTTCAAGCGGGTCCACTAA
>SRR1919932_00789 two-component system response regulator
ATGAAAATTCTTTTAGCTGAAGACGAAGCACAATTGAACAGAGTTTTGACGGTTGCCATGCAAAAAAGCGGCTATGATGTCGACTCAGTTTTTAACGGACAAGAAGCCGTCGATGCTGTCAAAAAGCATCCCTACGACGTCATTATCATGGACATCATGATGCCCGTCAAAAATGGCCTGGACGCGGTCAAGGAAATCCGCGCTACTGGCGACAAAACCTACATTATGATGTTGACGGCCAAGTCTGAAATCGACGACAGGGTAACGGGCCTGGATGTCGGTGCTGACGACTACCTGACTAAGCCGTTCTCCTTAAAGGAACTGCTGGCCCGCCTGCGGTCAAAAGAGCGCCGAAGCGAGGATTACAACAGCACTCAAGAACTGAACTACGACAACCTCAAGCTGGACCTCAACTCCCAAGAGCTGTCCAGCAACAACTCTATCAGTCTGTCCAAGCAGGAAACCGGCTTGATGCGCTACTTCTTGCTCAATCCTGGCAAGGCCATCAGCACGGAAGAACTATTCAACCATGTTTGGAAGAATGAAGATGAAAGCGAAGACGTGGTTTGGGTATACATCTCCTTCCTTCGGTCCAAGCTGGCCTCAATCGGTGCAAATGTCCAGATTTCCGGCGAGAAGGGCGGCGAGTTCTGCCTTGAGAGGGCCTGA
>SRR1919932_00790 GTP pyrophosphokinase
GTGAGCATTTACGGTAAGTACGCCGATTATCTTCCACAGATCCTGGATTCTGTTTTCCAGCAAATCCAAGGCATCGGTCAGGAGTATAGTGCAAAACACGGGCAAAAGCTATACGAGTACCTGAAAGGTCGCGTCAAAGGCGAAGAAAGCATGACGCAAAAGTGCGAAAGAAAAGGTTTACCGCTGACGCCAGAGTCTGCATTGATCGAAAATCGAGATGCGATCGGCCTCAGAATCGTCTGCAACTTTATTGACGATATCTACACTTGCATTGACTTGTTGAAGAAGCAGGACAACTTCAAGATAATTAATGAAAAAGACTACATTACCGATGCCAAGCCAAACGGCTACCGGTCATACCACTTGATCATAGAAGTAGTCACTCCCTTTGAAGACGTCCATGGCAACAAGCCTGGCACCTACTACGTTGAAATCCAGCTGCGGACAATTGCCATGGAGACTTGGGCCAGTCTTGAACACGAAATGAAGTACAAGCATGACATCAAGAATCCTGAACGTATCAGCAAGGAACTCAAGCGGGTTGCTGACGAACTGGCATCTTGCGATGTAAGCATGCAAACAATCCGCCAACTGATCAAGGAAGGGTAA
>SRR1919932_00791 fumarate reductase flavoprotein subunit
GTGAACGTTGCTGCTCGCGGCAAGAGTCTCTGCACCGGTGACGGGTTGGCTATCGCGCAAAAGGCAGGTACAATTCTTGACAAGACCTTTGGCTATTGTGGCTGTGAGTATGGTGGAACCAACCCCAAGGCCAGTCGCCCAGCAACCCAAGATAAATATGACCAGAACCCAGCATTCAAGTTTGGCATTTACGGTAATCTGTTAGTTGACAACCAAGGAAAGCGCTTCATGAATGAAGGCTTGCTATGTGATTATCCAATGTCATATGGTGAAGAGCCGACCTTGCGCCACTCACCATATTACGCCATTGTTGACCAGGAATATGTTGACAAAATGCGGGATGAAGGCCTGTATGAGTACTTAACCAAGCGTGGAGCTAACCATGACAACTGGTTTATCGGCTCCTACTACAAGCAAAGAGGTGCCTTGAAGAGCTTAGATAGTGATCTTGAAGAAGGAATTCATGAAGGTTGGATTGTAAAGGCTGACACTTTGGAAGAACTTGCTAAAAAGACTGGATTCGATTATTTAACAGGTACAGTAGCGTCTTATAACAGTTATTGTGAAAAAGGAGAAGATGAGCAATTTGGTGCCAATCCATGGTACTTAAGCTCGGTCAAGCAAGGGCCGTTTTATGCCATTGAATGTGAGGTAAGTGCTTGGTCAACTTTTGGTGGAGTAAAAACTGATGACGAGTGTCGTGCTTTAGCTGAAGATGACCAGGTTATTCCGGGCATGTATGTAGTTGGCACTGACAACGGCTCAATGATGTACTCACCATATTATGACATCCCAGGCTTCTGTTATGGTTCATGTATCGGTAGTGGGGTTATTGCCGGACATGGAGCAAGTGCTTACGCGAAAGCCTAA
>SRR1919932_00792 fumarate reductase
ATGTACAAAAAAGGCGATTATGAAGTCGAAGCAGAAGGACATCATTCTACGGTTAAGTTACGCGTTTCTTTTGATGAAGAAAAACTGACTAAAATTGAAGTTCTTGAAGAAAATGAAACACAGGCTTTTGTAGACGATTTAAAAGACAGATTTATCCCAGAAGTTGTCGCTAATCAGTCTTTAAACTTAGATGCGATTAGTGGTGCAACAAAGTTGACTAAAGCAGTGACCAGTAGTGTAGAAGAAGCAATTACTGAAGCTGGCGGGGACCCTAAAACATTTACTGAAGCAGCACATGTTACTGAAACCAAGCTTCCAGATGCTGATGTTACAGCTGACGTTGTAGTTATCGGCAGTGGTGCATCAGGCTTTATGTCAGCTATCACCGCTGCCAAGGCGGGCAGTAAGGTGGTTGTTTTGGAAAAAGCTGGTAATTTAGCAGCGGTTAACGGAGTAAAAGTTTCAGGCCCATTTGCCGTTAATACTCCAGTCTTGCGTGAACGTGGGACTACTTTGACGGTTAATGAAGTTTCCCAACATGTGATGAATTACACTCACTGGGAACCGAATTCTGCTTTGATTAGGAACTACCTTGAGCATTCGAGTGAAGCGGTTGAAAACTTATTGGAGATCGGTTACCAATTTAAGGAAGCAAACTTCCGTTTTAAAACTCCTTTCGTCGATGAAAAGGGCGGCTTCCATTTGATTTTAACCGATGTTGATAAGCGCGTCCGTCTTTGGACTGAAGCTTACGAAAAATATGGTGTTGATGCGTTCTTTAATACGGCAGCCAAAGAAGTTCTGAAGGAAAACGGTAAAATTGCAGGCGTTGCTGGTCAGCGGAAGGATGGTTCGAAAGTTACCGTTCATGCCAAGAGCGTTATCATCGCCAGTGGTGGATATCTTGGCAACAAGGAAAGTATCTAG
>SRR1919932_00794 hypothetical protein
ATGAACGCGTTACAAGAATATCTTGATCAAAACGGTGTCACTCGCCACCAAGTAGCTAAACAAACTGGGATTGCTAATACGACCTTAGCCAACGCCGTTAAAGAAACTAAGCCATTATCCGGGCAAACCGTCAAAGTCATTACCGCGGTTGCACAGGCCCTGGGTAAGACGCCAGGCCAAGGTCTTGATGATCTGATTGAACTTGACGAGGATAATTCAAAGTAA
>SRR1919932_00795 hypothetical protein
ATGGGCGAATCTAAAGAAGACAAAAGGATGAGGGCAAAGTGGGAAAGTTTAAGCGGCGCAGAAAAATCAGAGTTTAAAAAGAACTATGCTATGAGGCGGGGGATTACGATAGATTTTATCCGCCGTTGGGCTTAG
>SRR1919932_00796 argininosuccinate lyase
ATGAAAAAAATGTGGGCCGGCAGAACTTCCGGTAAGACTGACCAGATCGCGGACGACTTCAACTCATCCATCCGTTTTGACCAAAGAATGTATCCAGAAGACATAGCCGGCTCCATTGCCCATGCCAAGATGCTGGCCAAGCAGGGGATTATTCCTGAAGAAGCAAGTGCGAAAATCATTGCCGGCTTGGAGGGCATCTTGGCTGACTTAAATAGTGGCAAGCTGGAAATCGATCCGGCCGCTGAAGACATTCATATGTTCATTGAAGAGACCCTGACTGACCGGATCGGCCAGGACGGGAAGATGCTGCACACGGCCCGGTCAAGAAACGACCAGGTGGCCCTGGATATCCGCTTGTACATGCGGGAAGAAAACGGGCATATCAAGCAGCTTTTAAAAGATTTGGTGGCAGCTCTTTGCGACCAGGCAGAAAAGTACAAGGCCAGCCTCATGCCGGGTTATACCCACCTGCAGCGGGCCCAGCCGGTCACTTTTGGCCACCAGCTGATGGCTTATGCTTACATGTTCATGCGGGATCTGGAACGTCTCGGGCAGATGGAAGAGCGGATGAACTATTCGCCAATCGGCAGCTGCGCCCTGGCCGGGACGACTTACCCGATCGACCGGGTCTATGAAGCGGAACTTTTGGGCTTTAAGGCTCCGGTAGCCAACAGTTTAGACGGGGTTAGCGACCGGGACCATGTGGTGGAAGATTTAAGTGATTTGGCGCTGGTGATGATGCACCTCTCCCGCTTAAGCGAAGAGCTGATCTTGTGGTCATCTTGGGAATTTCACTTTGTCCGCCTGGCGGATGCTTATACGACTGGGTCATCCATCATGCCGCAGAAGAAAAATCCCGACATGGCTGAACTGGCCCGGGGGAAGACCGGCCGGGTCTACGGGGACTTGATGGCGATTTTGACGACTTTGAAGGGACTGCCTCTGGCCTACAATAAGGATATGCAGGAAGACAAGGAAGCCTTGTTTGACGCCATCGACAATGTTGAGCTGTGCCTGGAGACTTTTATCCCGATGATCAAAACACTGGAGGCTAATGAGAAGGCCATGCACCAGGCGGCGCAGAAGGGCTTTATTAACGCGACGGACTTGGCGGACTATTTGACTAAGAAGGGGATGCCATTTAGAGATGCCTACCATATTTCCGGGCAATTGGTGGCCTTGTGCATCGACCAGGACATGGTTTTAGAAGACTTGCCGCTTGAAACTTACAAGGGCTACAGCGACTTGTTTGAGGAAGACTTGTACCAGGCAATTGACCTGCATAACTGCCTGGCCAAGCGGACTTCTTTGGGAGGACCGACGCCGGAGTCAGTCCAAAAGCAGGTTGATGAGGTCAGAGGAAAGCTGGCGGAAGAAAATTAG
>SRR1919932_00797 argininosuccinate synthase
ATGAACATCGACAAGAGTAAGATCAAGAAAATCGTATTGGCATACAGCGGCGGCCTGGACACTTCCGTGATTATTCCCTGGTTGAAGGAAAACTACAACAACCCGGAAATCATCGCGGTCTCAGCCAATGTCGGCCAGGGGGATGAACTGGAAGGCCTGGAGGAAAAGGCCAAGAACTCCGGGGCGGCCAAGCTGGTCGTAGCCAACTTGGAAGAAGAGTATGTCAACGATTACCTGCTGCCATGTCTGAAGGCTGATGCCAAGTACGAAGGCTACCTGCTGGGGACGGCCAACGCCCGTCCTTTGATCGCCAAGGCTCTGGCGGAAGTAGCTATTAAGGAAGGGGCTGACGCGATTGCCCACGGGGCAACCGGTAAAGGCAACGACCAAGTACGTTTTGAATTAGGGATCAAGCACTTTGCCCCGGACATGCCGATCATTGCTCCTTGGCGGGAATGGGACCTGGTTTCCAGAGAAGATGAAATCGACTATGCCGCCGCTCATAATGTTCCTTTGCGGATCAGCAAGGAGACCAACTACTCTAAAGATAAAAACCTCTGGCACTTAAGCCATGAAGGGCTGGATTTGGAAGACCCGAGTCTTGAGCCAACTTATGAAAAGCCGGGCTTTTTGGAAATGGGCGTGTCACCGCTTGATGCCCCGGACAAGCCAACTTACCTGCAGCTGGACTTTGAAAAGGGCGTGCCAGTTGCCTTAAACGGGCAGGAAATGCCTTTAATGGAAATGTTGGAGAAGCTGAACAAGGTCGGCGGGGAAAATGGGATTGGCCTTTTGGACTTGGTCGAAAACCGTTTGGTCGGGATGAAGTCAAGAGGTGTTTATGAAACTCCAGGCGGCAGCATTCTCTACTTTGCCCACGAATACCTGGAAACCATCACCCTGGACAAGCAGGTTCAGCACAAGAAGTCTGAACTGGCCATTACTTACGGGGAACTGGTTTACGACGGGCAATGGTTTACCCCATTAAGAGAAGCACTGGCTGCTTTTGTCGACAAGACCCAGGAATGCGTGACCGGGACGGTCAAATTGAAGCTCTACAAGGGCAACATCATCAAGGCCGGGGTGACTTCGCCAAACAGCCTTTACTCAACTGAACTGGCAACTTTTGACGAATCAGACTACGACCAGGCGGAAGCCGCTGGCTTTATCAACCTCTTCGGGCTGCCGATCCAGGTGCAAGCCAAGCTGGACGCCAAGAAGAAGTAA
>SRR1919932_00798 LysR family transcriptional regulator
ATGAATACCGATAAAATCAAAATTTTCCTTGATTTGGCAGAAAGCCTGAACTTCTCGCGGACTGCTCAAAACATGAATATTACCCAGTCGGCTGTTTCCCAGTCAATTTCTTCATTAGAGCGCTACTTAAATACCAAGCTCTTCTACCGCAGCCGCAAAGAAGTCAATTTGACCCCGGCCGGCCAGCTCTTTTACCAGGGGATGCAGCCGGTCATCACCCAGTTCAACAAGGCCGTCACCCATGCCCGGGAAGTGGCCCAGTCAGTTAATACTCTCTTGACCATCGGCTTCTCCGGGTCCGGTTATGACCGCTACGCCATCAACCAGTTGATCCATGAATACCGGAAGGTCAGACCGGAAGTCAAGATCTTCTTGGAAAATTACGACCACCGGACCATGGTTGCCCGCTTAAAGCAGGGCTTTTGCGACGTGATCTTGACCGGACCAGAATCAATCGACTCCGGCATCACCCTAACTTACGACAAGCTGCTGGAAGGACGCTTTTATGCCGTCTGCAGCAAGAACTACTGCTACATGGGCAATTCGCCCGTTACCATGAAGGATTTGTCTAAGGAGCGCTTGATCTTCCTGGACAACAGCTGGTGCCTGCCCAAGCAGAACTCCCTGCAGAATGCCTTAAGCCGGGACCTGGCCAGCCTGGACTATGCCGTAGCTAACAACATGGCCGACTACACCCAGATGATTTCCGCCGGCCTGGGCATCGGCATCTGTGCTGACTTTGTCGTTGACCCCAGCGATGACCAGCTGGAGCTTTTCCCTTTGGAAAAGGAAGTTACTGATGAAATCGGCATCGTCACCTTGAAGGACCGGAAGTCACCGGCCGCCGACTTTATCGCCTGGGTCAAAGAGCGGGGGCTGCCGGCCACCCACCCGATCACAAAATAA
>SRR1919932_00799 transcriptional regulator
ATGAACACAGAACACTTGGCAATTTTTATTAACCTAGCTGAAACCCTGAGCTTCTCCGGGACAGCCATGAATATGGGGGTCTCCCAGTCGGCGGTCTCCCAGACCATTTCCTCGATGGAGCGCTATATCGGGGCCGACCTTTTCTACCGGACCAGGAAGAAGGTCTCCTTAACCCCAGTTGGCAAGGCCTTTTATGAAGACATCCGCCCTGTCCACCACAATTACGTGGACACTTTAAGGCAGCTGGAAGCCCTAAACGAGCAGGCCAGAGACAAGATCACCATCGGCATCAGCAATTCCCCTTACGAGATCTTTGCCTTGTCTAAAAGCATCAAGGCCTACCAAGCGGAAAATCCCAAGGTCCAATTTTACATCGAAAGCCATAACAACCGGGACCTGGTTGGCCTCTTAAACGAAGGCGCCCTGGATATCGTCTTCTTAAGCCAAGACTCCTTGAGTCCGAGTGCCAATGTCAAATTCAAGCCGCTTTTAACAGGCAAGTACTGTGCCGTTTTCCATCAGGACTATGATTTTGCCATCCGCGGATCGGTCAAGCACAGCGACCTGCACAAGCAAAGAGTTATCTTCTTAAGTGACAATATCTGCACCCCTGGCCAGTACTCTTTGCAAAAGATCCTCTGGCAGAAACTACCCCACCTCAAGGTAACTTCGGCCAACTCCATCAACGCTGCCATGCTCAGCATCAAGGCGGGCCTGGGCATCGGCATCCTGCCCAACTTCCTCTTGCCTGACCAGCTGAAGGACTTGACAGTCGTTCCCCTGTCCGGAAAAAACGAGGTCAGCTATGGCACAGCCATCCCCGAGCGGACCATGTCTACCGCCAGCCAGGACTTTTATGACTGGCTGGAAGAGGGCAAATTGCCAGCCATGCATGAACTGGCTTAA
>SRR1919932_00800 hypothetical protein
ATGACCGACACGCAAAGCATGATTGCCGTTCAAGAAAAAGACAATACCGTTTCCAGCCTGGTTTTGGACCATGACGGGGACTTGGAAATCGCCGGCCGGATTCTGGAGGAAAACTACCAGGATTATGAGCAAGTCCTGGCCCTGGTCAATTTAGGTGACTTAAAGAGGCTGGGGAAGACGGCGGAAGAAAGTCGGGCCTACTACCGGGACGAGCATGAAGACCAATTGGTCTTGGAAAATTACGCGGACACGGAAGTTTTTGACCGGGCTACTGAAGAGCAGGGGGACTACCTGGCCTGCTGCTTTTTGTACTGCAAGTATGAAGGTGACTTCCAGTGGCTGGTCAGAGATTTTTCCACAGGCGACAAGCGCTTTAAGCCGCTGAAGGAAGCTCTGGCTTAA
>SRR1919932_00801 hypothetical protein
ATGGCAAGGATTATTGATACTCAGCGAAAGTTACTGATCCAGCACGGCTTGCTGGAAGACATCAAGGAAGCAGGGGAGGAATACGGGAGTCTGACGGCCGCCCTGGCCGCTCCTGACTGGACCCTGCTGGACCGGGAGCTCAGCCCTTTATTTAAGCAGGTAAAGTTTTGCCTGCTCTTTGGGGAGGAAGAAGTTCCCGAACTTGCCGCGGCAAGTGAACTGTCCCGGCTTTTTCCGCTCTTAGCTAGCGACTGCCCGGACTTAAAGGAAAAACTGGCTGCTGGCCGGCTGGCGGTTAGTTTTTCACCGCAGAAAGAAAGCAACTTCTTCCTGCTGACCGGGAAAGACCAGTACCGCTTCTACTGGGGGCAGGGGGCGACCTACTTCTTAAGCAGCGGGGAAAAGACCGGTGACGACTGGGCCATGGTCCAGCAGCTGGTCAAAGAGCTGACGGCCAAGGCCAGAGATATTTTAGACAGGGAGATCTACCAGGGCTATTTGGACCTGGCAGAAGACAAGCGATCCCAGTACCTGCTGGAAGTCAGCGGCTTGGCAGATAAAATGGCTGAAGCACCTTTAAAGGATTTCAAAGAAGCGACCCGGCTGGGGCAATTAGGCCAAAGTCAGGCCGGCGTGTCCTTTAAGAAGACGGCCAAGCTCCTCCGCTTTAAAAGCGGGATTGACAAGGAGAACTTGACGGGAAAAAAGATCCTGGCTGATGAGGAATTGAGTAAGCGGCTCAGCCAGATCGTCTTTGGCGAAGGCAATGAAAATGGCGAGGCCATTGTTTTGCCGGATGAAAAGGCCCACTACCCGCGCCCCCTTTACCTGCAAGACCCGGTAACCGGGACGATTCTGGAGAAGCCGGCAATCGACTCCTACCAGGAAGAACCAGTCGCGGTCCAAAAGCCGACCCGGCAGGACGTGTCAGCAATTTTTGACATTATCCGCTTCTACCGGGACCGCAAGCAGGATAATGAATCCCAGGCTGCCTTCTCCTTCTTGATGTATGTCCTGGAAAGCGGCAGCATCTGGAAGATCCGCCAGGCCATCGATGAGCGAAACGGGATCGTGGAAGACGTCCCGATCGTGGCCGGCCTGGTCGGGCAGGGAGAAACTGGCAAGTCGACCCTGCTTAAAATTGCCTCCAACTTGACCATCGGCAATACCAAGGAGATCGTCCAGGCCGGTTCAGAAGACAAGCTCTTCGGGATGACGGCAGCGGTCAGAAAGAAGCTGCTGGCCGGCAAGAGCTTGAGCAAGCAGGACCGGGTCAGCGCCTACAGCTCCAACCCCAAGGTCATCAACAAGAATATCTGGAACTTTACCGACCACTACATGGATGAAGACCAGGTCATCACCCCGATCTGCATCGATGACCCGGAAGTCTCCCTCTTTTCTTCTAGCGCCGCCCAGAGCTTTTTGAAAAAGCGGAGCAACCGGCATGGCGAGAAACTGGGAGTGGAACCGGTGGCCATTTTCAGCATGAACAGCAAGGGCAAGGATATCGAGCTTTTGACTGAAGTTGGCCGCAGGGGCTACGTAATTAGCCAGGGCAACCAGTTCCGCAAGAAGACGGACGCGGACATCCACTTTTTTGAATACTTGGATGGCAATACCGACAACCACGGCCACTGGTTGAACAACACCCTCTTTCTTTACCTGACCCGGCAGATCGACCGCTGGCTGGAAGAGATGGATGACGAGGACTACTTGAAGCTCAAGCACGACTTCCTTTACCCGGTTAAGCACGCCTTCTGGCAGTTGGTTGAAGAATACGGCCTGGTCAACACGGAAACCAAGTACTACTTCCACATAAAGAACTACAATATTGTTGAGGACCTGGGCCGGCGGAACTGGAGCATTCTTTTGCACGATGAGGCGACCTTGCGGGAAATCACCTTTACCCGGGACAATCCGGAATGCATGATTCCCGCCCGGGTCTTCCCCAACAAGGGCAACGACATCAACCGCTACTTCGCATACCTGCCGGCTTCAGCTGAGATCTGCAAGACTTTTAACAGCCAGGGGCTGACGGTCAAGATGGCCAATATGGACCTCTGGCAGGGCAACCACTTGCTGATTGAGCGCTATGAGAAGGAAACTGGGATCGCGGCTGAGCGCTTTGAAATTGAAAAGGCCAGAGCCGCCGCGGAAGTCCAGGGGCAGAGAATGGTCGAAAACATTGCTCCATACTTGAAGAAGAATGCCAAAATGATGGACCGGATGATGAAGGTCACCGAGCAGAATGCCCAGCTTTTGGCGGAAAAGGAAGCCCAGGCTGAAAAGCAGCAGCAGGAAGAAGCTGAGAAGAAGGAGCAGGCCGACCAGATCCAGAAGCTGCTGGATGAACTGGCCCAGGCCAAGGAGGCCGCGGAAGCCGCCAAGAGCGAGGAAAAGAAGCCGCGGGGCTTCTTTGACCGCTTTTTCAAGTAA
>SRR1919932_00802 hypothetical protein
TTGCAGACCTTTAACAAGATTATAGCACTATCCAGCCAGTTTTCGGCAGCGTTTACCCGCTTTACTGGCAAGATTCTGCGGATTTTTGCCAAAAGAAAGCCGGGCTGGATTGGCTGCGGGATCTTCATTCTCTTTGCCTTGATCTGGCTCTTTGGCCTCATCACCAGCCAGTCCCGCCTCCGCTTTGCCTGCGACTTCTTCATGCTCGGCACCTTGTTCATCATGTTGATTGGCTTCGGCGGCCGGCACAAGCAGGTCCTGCTGCAAGAGAAAAGGCAGGCTGCTATCGCACTTAAGCAAAAGAATTACGACCAGACCGCTAGTGAATTAGGGCCACGTTAA
>SRR1919932_00803 transcriptional regulator
ATGAACTTTCAACACTTGGAATACTTCAACGAGCTGGCTGAGACCCAGTATATGGCCCAGGCAGCGGAAAAACTGGGGATTTCCCAGCCAACCTTGAGCTACGCGGTCAAGAAACTGGAAGAGGAACTGGGCGTTCCCCTTTTTGAAAGAGAAGGCCGCAACATCCGCCTGACGGTTTACGGCAAGGTCTTCAAAGAGTACAGTGAAGCCGGGGTCCAGCAGATCCAGGAAGGGCGGCGGCAGTTGTCTGAGATGGCCCTGGGCGAAAGCGGCAAGCTGTCAATCGGGGTGGCTGAAATCGTGGCCCATAAATTCATTACCGATGTGATCAAGGACTACCGGCAGGTCAATCCGGAATACCGGGTCGACTTCAATTTAAAGCGGGCCGTGACCGGCAAGCTCCTGGACATGCTGCAAAGCGGGGAACTGGACCTGGCCATTGTCACAACCCGGCCGGGTGAAAAGATTGCCGGCTTTGACTTAGTACCAATGATGCACAGAAAGCTGGAGCTGCTCTTGCCGGCGGGTCATGAACTGGCCAAGCAGAAGTCGGTCAGCTTGAAGCAGATCGAGCAGTATCCTTACCTGGCTTTTGGGGAAGAACATGCCTTGGCCGGGATCATCGCTGACGTTTTTGCTAAAAATGACATCCATCCCCAGATCAGCAGCGTGACTGACGATGTGCGGACCCTGGTTAACCTGGTGGCGATCGGTGAAGGGGTGGCTCTCTTGCCTAAGTCCAAGTACCACGAATCTGCTGGTGCCATTGCCGTGCCGGTAAGGGAAGATACTTCTTACACCATCAGCCTGGCCAGCCGGAATCTGGCCCAAGAGCCGAAGGTTGCCCAGAAGATGGCTTCCTTTATCCTGGACTTCTGCCAGACCCGGGGTTTAACGTGGCCCTAA
>SRR1919932_00804 LysR family transcriptional regulator
TTGAGCAAGGCAGAAAAGAAATACAATGTCGTTCTCCTGGAAAGAAGAACCCTGCCGATCGAACTGACTGAAGCCGGCCGGACCCTTTGCGACGGCTTAGCCAAGCTGCACAGCGACCAGATGAAGATCGAACAGGACCTGCGCCGCTTCACTGAAGAAGAGCAGTCCTACATCAAGATTGGTTTCTCCCCGATCTGGGCACCAGGCGAAAGCAGGAAGATCATCCCCGTTCTGCAAAAGCAGTTTGAAACCACCCGCTTTGAACTGATCAAGACCTTCTCTATCAACTCTGCCAAGCGTTTGATCGACAACCGGATGGTTGACATCTACCTGGGGCCGCTCCTACGGGGGGAAAACTTGAAGAACTTCTTCCTCTTCCAGCCTCGGATCTTCTTGATCATCCCTGAAACCAGCAAACTTTACCAAGAAGGCAAGCGGGACGTTCCGTTCAGCCAGCAGCTCTTGATGGACCTCAGCGAAGAAAAGATGGTTTCCTTAAGCGATGACTCCGGCTTCCAAAAGACCGTTGACCACCTGCTTGAAGACCAGAACCTCTCCGTTAACAAGAGTATCAAGGTCAACGACTACGAAGTCGCCCTGCAAATGGCAGTCGGCGGTTTGGGCTGGACGGCAACTTTGGAATACATGCTGCCGGACCTGGACCCAGACCTTAAGTACAACCAGGTTGAACTTCCTCACACCTTGATCCAGTCAGACAACGGTTTGACCATCCACATGGACTCCAACGACCGGGCCAAGGAAGTTGCCCAGGTGATGACCAGACTGATGAAGGATGACCTGGTTGCCCGCAAGCTGATCAAGGAATAA
>SRR1919932_00805 membrane protein
TTGCAATTCAGCTTTAACAAAAAGCGTGACCGGGCCGTCTACTGGAAGTACTCTGTCTTCTTCCTCTTTTTGGCGGCCTGTGTTTTTGGACCTTACTTGGTTACGGGCCATAGCCTGATCTGGAACACTGACACGGCCAACCAGCACCTGCCCTTGCTGGTCAAGTACCGGGAGTACGTGTTCAGTTTCCTGCGCCACTTAAGTCAGGGGCCAGCTGAATGGTCCTGGACCATGGGCCTGGGCAGTGACCTGTTTTCAGTCTTTTCTTACTATACGATTGGTGACGTCTTTGCCTATCTGGCCCTTTTATTTCCGACCAGCCACCTGGTCTTTGCCTACCAGCTGATCCTGCTGTTGCGCCTTTACTGCGTGGGTTTGGCCTTTGTTTATTTTGCCCGCCATTTTGACTTTAAAGACGGTGTTGTCTTGATTGGCAGTGGTGTCTACATGGTCAATGCCTACCTGCTGTACGCGGCCCTGGCCCAGCCGATGTTCACCACGACCTTTATTCTTTTTCCCTTGATCGTGGTCCAGCTGGAGCGACTCTTGCAGGGAGGCAGCGCCTGGCCCTTATTCGGGGTCTTTGTCTGGATGCTGGTCAGCAACTATTACCTGGCCTTTGTCCTGGGCCTGGGGGCAATCATTTACCTGTTTTTGCGCTGGGGCCTGGCTTATTGGAAAAAGATTCCTTTCTGGCCAACAATTAATAAGCTCTTCTTTGCCAGTTTAGGAGCGGTCCTTCTGTCAGCCGGCCTGCTTTTGCCGGAACTTTTGGCCGTGGTCAACTCCACCCGGACCGGATCGCAGTTTGCCAATGGCTTGACCTTTTATCCGGCCTACTACTACTTGCTTTTGCCAAAGGAACTGATTGACGGGGACAACTGGAAGTTGATGTTCTGGTCAGCCTTGGGCCTGGCTAGCATCATCCTGCCAGCCCTGGTCTATCTCTTCCGTAACTGGCGCAAGTACCGGCTGGTCGCTGCTTCTCTGTTATTAGGGGCAGTCATGCTCTTGATCCCGGCAGTCGGGGCAGTGTTTAACGGGGGGATGTCAGCGTCAAACCGCTGGACTCTGCTCTTGTACCTGCCTTTTGCCTTCAGCGTGATGGTCTTTGTCAAGGCCATCAGTGAGCAGGCGGTCAGTCAAAAGGAGATGCGGCTGATTTTTACCACCAGCGGAATCTACCTGGTCTACCTGGTCGCCATGTCCTTTTTGGAAAATGACTACAAGCTCTTCTTGCCAGTCATCTTCCTCTTGCTCAGTCTGGGGGCCAGCTACCTGGTCAACGAAGGACGGGCTTTAAAGCGAGCGTTATTGCTTACTGTAGCGGCTAACTTGGCCTTTAACGCCCTGTACGCGGCTCTTCCATACAATGGCAACTTTGCGGCCAAAATGCTGGTCAGGGGGGAATATGAGCAAATCGCGGAAGACCGCTATGGCGGCTTGAACTATATCCTGCCGGCCGGCTTTTACCGGGTCAACACGGTGTCAAATAACCAGTTTGTCAGCCAGAAGAAGCTGTTTAACGACTTGACCAGCGGCCTGGCCAACGTGTCATCTTACTATTCCATCCAGAACCAGTACCTGGGTCAGTTCTCGACCGACCTGGGCAACCTGCAGTATGACAACAACATTCCCTTCCACCAGCTTGATGACCGGACGATATTGAACAATTTCCTGGGCGTCCGCTATATTTTTAACCAAAAATACTCAGTAAACGGTAGCAAGGTGCCCGGGACTTACGACCTGATCGCTGCTGGCAAGGAGAAAAAAGATCAAAATCAGGAGTCTGTCTACCAGGCCGAGCTCTACAAGACCACAGAGGCCTTCCCGCTGCTTTGGCTAAGCTATAAGGCAATTAGCCCCAGCCGCTACCAAAAACTGTCAGCGAGCCAAAAAGAGCGGTCTCTGGCCAGCGGGGTGGTGGTCAAGGGGGTTGGCCTTAAAGCCGCGAAATTGACCGGGGTCAAGACCATCAAAGCCAGCCTGGTCGATGCCAGTGGCAAGAAGCTGAGCAAGAATAAATTGACTTATACGGACTCTGATGCCAGCTACAAGTTGAAGCTGCACTTGTCAGATAGAGAAAAGGCCAAACTGGGCAAAAGCGAGTTGCATGTCGAGATCAGCCAGATTTCCTACCAGCCTTTCACTTTAAGCCAGCAGCTGGACTTGGAGCTGAAGAAGGCCAAGCAGGAGGCCGACCTGGCCGGGCAGACCTTTAATGAGCGGGCGACCCGCTACAAGTACTGGCGCTACCACCTTCTGGCCGGTTCACCAGACCCCAGCTACAAGCTGACGGTAACGGGGAAGAAGGCCAGTGAAACAATTGTGCAGAGAAGCCAGGATATGACTTCTTTTTACCGCCTGGTCGACAGCGCGGTCATGAACATGGGCACTTATCAGACTCTGCCCAATAGTCTGACCTTCCAGCCTTCAAAACTGGGGACCTACCGCTTCAAGATCAAAGTTGTAGCAATTCCTTTGAATCAAGAATACACGAAAGAAGTGCGGCAGATTCAAAAGCAGGGGGTCAAGCAGCTGAAACTCGCGCAAAACCAGCTGACCGGCCTCTTTACTAGCAAGAAAGCCGGTGTCGTTACTTCGACCATCCCTTATTCAAACGGTTGGACGGCTACGGTTGACGGCAAGGCAGTCAAGGTAATTAAGACCAACACGGCCTTTGTCGGCTTCAAAATGCCAGCAGGCAAGCACCGCGTCCGCCTGGTTTACCGGACGCCGGGATTGCGAAGCGGCCTGCTGATTTCACTCTTGACGGCTTTAGCCATCTTGGTTTATGCCGCGTTTAGTCACAAAGAATGGCGGCGGGAATTCCGGGCCAAGAAGAAAGAAAAATAG
>SRR1919932_00806 peptide-binding protein
ATGACATATTCTGAACAATTGTTGGACGCGATTCAAGGTCACCGTTTCAGCGAGAGCCGCGCCCTCTTGAAGCAGGCCCTGGAAAACGATGATCCGGAGATCCTGGCGTCTCTGGCGGAAAATCTGACCGACCTGGGCTTTACCGACCTGGCCAAGGAAGTCTACCGCAGCTTGATCGCTGATTTTCCCAATGAAGACCTCTTCAAGGTCTACCTGGCCGAAATCCTCCTCAATGACGGAGCAGAGGACGATGGCTTGACCCTGCTTTACAATGTGCCGGCTGATTCAGATGCCTATCTGGAAAGCCTCCTGGTCCAGGCTGACTACTACCAAAGCGAGGGCCTCATCGAAACGGCACGGGCCAAGATGGAGCAGGCCCGGCAGCAGGCCCCGGATGAAGATGCCATTACTTTTGGCCTGGCGGAACTGGACTACATGAGCGACTTGAACGACCAGGCCCTGCCTCTGTACCAGGACTTGCGGCAAAGACAGACCATGTTCGGGGAAGTCAATCTTAACCAGCGGGTCTTCCAGACCCTGGCTAAACTGGGCCGGTATGAAGAAGCAGCTGCTTTTATCAATGACCATAAAGAAGACCTCCTGGACATCGACGCCAAGTACCAAGCCGGAGTAATCATGGAAGAGGCCGGCCAGTTTGACAAGGCCATTTCCTTCCTTGATGATGTCATTAAGCAAAGCCCTGACTACGTCAACGCTTATCCTTTCCTGGCCAAGGCCTACCAGGAAGAAGACAACCCAGAAGAAGCCCTCTTTGCGGCTCAGACGGGCCTGGGCTACAATGAGCTGGATGAAGAGCTTTACCTGACTGGGGCTAAGGCAGCTGCCAAATTAGGCAAGGCTGAGGATGCTGAGGACCTCTTGCAGCGGGGCCTTGAGGTCAACCCGGACAATTCCAGCCTCCGCCTCTTGCTGAGCGACCTCTACTTGGCCCAGGGGCGGGCAGAGGACTCCTTGGCCTTGTTTACTGCTCTGGCTGACAGCGACCTGGAGCCCCAGGCCCACTGGAACATGGCCCGGTCCTACCAGGAAATGGAAAAATATGACCAGGCCCTGCAGGAATATCTCTTGGCCTACCAGAGCCTGCAGACCAGTCCTGCCTTCTTGCGGGGAATGATCTCCTTTGCTCAAGAGAGCGCCCATGGCGATCTGGCCCGGCAATTGCTGGAAAAGTACTTGAAGCTTGTGCCAGATGACCAGGAAATGCAGGATGTTTACGAACAGCTGAGAAATTAG
>SRR1919932_00807 DNA-binding protein HU
ATGGCAAATAAGGCAGAATTAGTTTCAGAAGTAGCTGCAAAGACTAAGTTGACTAAGAAGGACGTTTCAGAAGCTGTTGACGCGGTTTTCGAAGCAATCCAAGAAGACTTGGCTAAGGGCGAAAAGGTGCAACTGATCGGCTTCGGTACTTTCGAAGTACGTGACCGTGCAGCTCGCAAGGGCCGCAACCCACAAACTGGTGCTGAAATTGAAATTCCAGCAAGCAAGGTTCCTGCATTTAAGCCAGGTAAGGCTCTTAAGGACGCTGTTAAGTAA
>SRR1919932_00808 GTP-binding protein EngA
ATGCCATTACCAATTGTTGCCATCGTAGGGCGGCCAAACGTGGGCAAGTCAACCCTGTTCAACCGGATTATCAATGAACGGGTGGCGATCGTGGAAGACCGGCCAGGCGTGACCCGGGACCGGAACTATGCCCGGGCCAGCTGGATGGGCCACCAGTTCAGCATCATCGACACCGGGGGGATTACCTGGGAAGACAGTACGATTGACGAAGAAATCCGGGCCCAGGCGGAAATCGCTATTGAAGAGGCCGACGTCATCGTCATGCTGGCCGATGCCAGCCAGGGGGTGACCAGTCTGGACGAACGGATCGCCCACCTGCTCTACCGGGCCGATAAGCCAGTTCTTTTGGCCGTTAACAAGGCAGACAACCCTGAGCAGCGGACCGATATCTATGACTTCTACAGCTTAGGCTTGGGCGACCCAATCCCGGTTTCCGGTTCCCACGGGACGGGGATCGGTGACCTGCTGGACGAAGTAGTCAAGAACTTCCCGGCCGATGCCGAAAAGACCGAAGAAGGGGTTATCTCCTTCAGCGTGATCGGCCGGCCAAACGTGGGCAAGTCATCCATCGTCAACCGCCTGTTGGGCGAAGAACGGGTGATTGTGGCCAACGAAGAAGGGACGACCAGAGACGCCATTGACACGCCATTCGTCAAGGATGGAACCAAGTTCCGGGTTGTTGACACAGCCGGGATCAGACGGCGGGGCAAGGTCTATGAGAAGACTGAAAAGTACTCCGTCATGCGGGCGATGAGCGCCATGGAACGGTCAGACGTGGCCATCCTGGTCCTGGATGCCAGCACCGGGATCAGAGAGCAGGACAAGCACGTGGCCGGCTACGCCCATGAAGCGGGCCTGGGGATGATTATCGCCGTCAACAAGTGGGACTTGCCGAAGAAGGACTCTTCATCCGGCAAGGACTTTGAAGCGGTTATCCGGGAAGAATTCTCCTACCTGGACTATGCCCCGATTGTCTTTGTTTCGGCCAAGACCGGCAAGAACGTCGACCAATTGCCAAAGATGGTCAAGGAAGTTTACGAGAACAAGAACCAGCGGATCCAGTCATCCGTCTTAAACGACCTGCTCCTGGAAGCCAGCCGCTTGGTGCCGGCGCCGATGGTCAAGGGCAAGCGGCTCCGGGTCTACTACATGACCCAGGTCAAGACCAATCCGCCGACTTTCGTTGTTTTCTGCAACGATCCAGAACTGATGCACTTCTCCTACCAGCGCTTTTTGATCAACCAGCTGCGGGAGAATTTCGACTTCACCGGGACCCCGATCAAGATCCTGCCGCGTAAGCGGAAGTAG
>SRR1919932_00809 30S ribosomal protein S1
ATGTCAGAAAACAATCAATTTTTAGATGCTCTTGCTCAAATGCAAGAAGTTAAGGCAGGCGACATCGTTGATGTTAACGTTTTGAGCGTTGAAGATGGCCAAATTAACGTTGGTGTTCAAGGCGCCGGCGTTGAAGGTGTAATCACTCGCCGTGATTTCACCAACGACCGTAGTGTCAACTTGCGTGACGAAGTTAAGCCAGGTGATACCTTCAAGGTTTACGTAGTTCGTCGTGCAGGCGGTGACAAGGAAAACGGTGAATTTTTCTTCTCAGTAACCCGCGTTAAGGAACGCGAAGCTTACGACAAGCTGCAAAAGGACTTCGAAGAAGGCAAGACTATCGAAGGTAAGGTTACTTCATCAGTTCGCGGTGGTTTGCTCGTTGATGTCGGCACCCGCGGCTTCTTGCCAGCAAGCTTGATCTCAAACCGCTTCGTTTCAGACCTTAAGCCTTACATCGGTAAGGCTATCAAGGTTAAGATTACTGAAATCGACCCGGCTAAGAACCGTCTGATCCTTTCCCACAAGGAACTGATCGAAGAAGAACGCGAACAAGCCTTTGAAAACGTTGCTTCACAATTGGTTGTCGGCGACGTAGTTGAAGGCCGGGTATCACGCTTGACCAACTTTGGCTCATTCGTTGATATCGGCGGCGTTGACGGTTTGGTACACATCTCCGAAATCTCATACAAGCACGTTGACAAGCCAAGCGACGTCTTGAAGGTTGGCCAAGATGTTAAGGTTAAGGTTATTGGCATCGACAATGACCGTCACCGTATCTCCCTGTCAATCAAGCAAACTGAACCATCCCCATTCGAACAAGCTACTTCAAGCTTGAACGAAGGCGATGTAATTGAAGGCGAAGTTAAGTCTTTGACCAACTTCGGTGCCTTTGTTGAAGTTGCTGACGGCATCCAAGGCTTGGTACACGTTTCAGAAATTTCATACAAGCACGTTGACAAGCCAAGCGACGTCTTGACTGTAGGTCAAAAGGTCAAGGTTAAGGTTCTTAACATTGACCCAAGTAAAAGAAGAATCTCCCTGTCAATTAAGCAAGCTGATCCAGAGAACGCTTCTTCATCAAACGACAGACCTCGCGCACGTCGCTCATCAAACAACGACGCATTTGCTCGCAAGTACATGAACAACGACGACAACGGCTTCTCACTTGGTGACATGATCGGTGACCAACTTAAGAACCGTTAA
>SRR1919932_00810 cytidylate kinase
GTGGCCAAGATTGTGGCCAATAAGCTGTCATTCGTTTATATCGACACGGGTGCTATGTACCGGGCATGTACTTTTATCGCCCGCAAGCACGGCCTGGACTATGGGGATGAAGCCGGGATTTTAAAGGCGATCGACGAAGACGGCATCGTTTTAGAGCCCGGCGAAAGCGGCCAGAAGGTTCTGGTAGCCGGGGAAGACGTGTCTTTGGAAATCCGGACCCCGGAAATCACGGCTAATGTCTCCCAGGTCTCAGCCCTGCCGGGGGTCAGAAGCAAGATGGTTGACCTGCAAAGAAAACTTGCCGGGTCAACCAACGTGATCATGGACGGCCGCGACATCGGGACCACGGTTTTGCCTGAGGCTGAAGTCAAGATCTTCCTGGTTGCCAGCGCCCGGTCTAGAGCAGAAAGACGGCTTTTGGACTGGCAGGAAAAGGGGATTGAGGCCAAGCAGACGGTTGAGGAAATCGAAGCTGATATCGCCAAGCGGGACTACCTTGACTCCCACCGTGAAGTTTCACCTTTGAAGAAGGCAGCGGATGCAATCGAAATCGATTCAACTAATTTAACGATTGACCAGGTTGTTGCCGCTATCTTGGCCGAAATTGCTAAAAAAACAAATACCAGCAAGTAA
>SRR1919932_00811 N-acetylmuramidase
ATGGATCAAAATGCCCAAAAGCCCTTGTCACGTCTGGCCCGCCAGCAAGCGGTCAGAGAAGAGCGCAAGAACAAGCAGGCGCCGTGGTGGACGGCCCTCTTGATCGCGGTTATGATGGCCTTGGCAGCCGTGCCGCTGATCACCAGTCAAAACAGTGACTACGCCGTTCCGCAAGCAAAGAAAGAGCAGGCCAAGCCCAAGCCGGCCGTTGAAAAGACTAGCAAGGCCAAGCCTGCTCCCAAGGTCAAGACTTACGTGGTCAAGGCCGGCGACAGCTGGGCCGCGATCGCCCAGAAGTACGGCATAAGCGCCGAAGAGCTGGCTGAGCAAAATGGTCTGGATACCAGCTCAACCCTGGCAGTTGGTCAGAAACTGAAGATCAAGCAAGCCAAATAG
>SRR1919932_00812 membrane protein
ATGGAAGCTGCTAACAAACGGACAGATAAATCAGTCAGCAACTGGCTCGCTTATGCCATGATCGGGGCCATCGCCTTTGTGGTGATGAAGTTTGAATTCCCGATCATGCCGGGTGTCAGCTTTTTGAAGATGGACTTCTCAGACGTCATCGTGGTCATTACCACCTTTATCTTCGGCATCGGCGGCGGGGTGGCCGTAGCCGCGATCAAGTGCCTTTTGTCCTTGATCTTTGCCGGCTTTGCCCTCCCGTCACTGGTCGGTGAACTGGCTGCCTTCCTGGCTTCAATGGCCTTTGCCCTGCCATTTTACTTCCTGGCTGGCTCAGTCAAGGAAGAAGACAGAAAGAGCCTGAAGGGCTACCTGCTGCCGGCCCTGGGCCTGCTTTTGGGCGTTTTGTCATTGACGGTGGTCATGGCTTTGACCAACCAGTTCCTCTTGACTCCGGTTTACGCCTACACTTCAGTGCCGCAGGCAGCGGGGATGCACATGAGCTACGCTCAGCTGCTCACTTTTACTGAACAGACTTACCTGGGCAAGATGCTGCACATTCCAAGCATGTCCAGCTACATCATGGGCATCATCGTCCCATTCAACTTGATCAAGGGGGCCATCAACTCAGTTGTGGTCTACATCCTCTTTGAATCAGTCTTAAAGACGATCAAGCCATTCGTGATCAAGCACTTCAGCGTTTCCAGCAAGTACTAA
>SRR1919932_00813 ribosomal large subunit pseudouridine synthase B
ATGGCGGAAGAACGTTTGCAAAAAGTGATCGCCCAGGCGGGGATCGCTTCCAGAAGAGAAGCGGAAAAAATGATCCTGGCCGGCCGGGTCAGAGTCGACGGGCAAGTGGTAACCAAGCTGGGGACCAAGGTCAGCTCGATTGAACAAGTTGTTGTTGACAACCAGCCGATTGAAAGAGAAAGCCACCATACTTATCTTTTTTACAAACCCCGGGGCGTGATCTCCGCGGTTAAGGATAACAAGGGCCGCAAGACGGTGGCAGACTACTTTACTGATTTGCCATACCGCCTTTACCCGGTTGGCCGCTTGGACTACGACACTTCCGGCCTGCTCTTGATGACCAATGACGGGGAACTGGCCAACCTACTCATGCACCCGAGAAACGAAGTTGACAAGGTCTACGTGGCTAAGATCAAGGGCATTCTGCAGCCAGATGAAATCAAGGCCTTGAAGAAGGGGGTCCAGATCGGCCGCTACAAGACCAAGCCGGCCCAAGTCAAGGTTTTGAAGACCAATCCCCGGGCCCAGACCCAGATCGTCCAGCTGACCATCCATGAAGGCCACTACCACCAGGTCAAGGAAATGTTTAAAGCTGTCAATCACCTGGTTGACAAATTGTCCAGAGAACGCTACTCCTTCCTGGACTTGCAAGGCCTTACATCCGGACAGTACCGGGAATTAAACCGCAAAGAAGTTGACAGACTCAAGCAAGTGGATTAG
>SRR1919932_00814 segregation and condensation protein ScpB
ATGACGAGTAAAATAGCCAAGCTGCAAGCCCTCCTTTATATGGCCGGCGACGGCGGGATCAAGAAAGAGCAGCTGCGGGACCTGCTGCAGCTGGCGGACCCGGAAATTGAGAGTCTGGCCAAAAGGCTGCAGGAAAAACTGGCCAGTGATCCGGACTGCGGCCTGCAGCTTTTGGAAATCAACGACGAATATAAATTAACGACCAGCGGGGAAGTCAGCGACCTGGTTGAAGCCTATTTCAACAAGGACCTGACCAAGAATATCAGCCAATCAGCCTTGGAAATTCTGGCGATCGTGGCCTACCGGCAGCCGATTACCAGAATTGAGATCGATGAAATCCGGGGGGTCAACTCTTCTGGTGCCCTGCAGACCCTGGTTTGGCGTGGCCTGGTCAAGGCCCAGGGGGTTAAGGACGCCCCGGGCCACCCCAAGCTGTACGTGACGACCGATTATTTCCTCCAGTACTTTGGCTACAAGTCTCTGGCGGATCTGCCGGTAATTGAGAATTTTGAAGACAGCAGCTTTGATGCCGACGGCCAGGTAGACCTGTTTGCCGAAAACGGCACGGCTGATGAAGCATTGCAGAAGATGGAGGATTTATAA
>SRR1919932_00815 segregation and condensation protein ScpA
ATGATGAATGAAGGCATGACCATTGAGCTGCCGAATTTTGAAGGCCCCCTGGACCTTTTGCTCCACCTGATTCGGTCGCAGGAATTAGACATCTATGACATCCCGATTGCCCGGATTACCCAGCAGTACCTGGACTACCTCCAGCAGATGCAGCGGCTGAACCTGCAACTAGCCGGGGAATATTTCGTGATGGCGGCAACCCTGCTGCGGATCAAGTCCCAGTATCTGCTGCCGAAAAACGACTTTGTCGAGACAGAAGAAGAATTTGCCGACCCCCGGGAAGAACTGGTTGAGCAACTGGTTCAGTATTCCGTCTTTAAAAAGATTTCGGCCTACTTCAAGGTCAGAAATGACGAGGTACCAGTTTTGGCCGCCAAGGAGCCCAGCGTGGCTGTAGGGGCCAAGGTTCAGCCCCTGCCTTTAGGGCAAATCAGCCAGCAGGACCTGACGGCCAGCTTTATTTTGGCTATGCGCCGCTTTAAGAAAAGGAACGACCATGCCCAGGTGACCTTGACCGGCCGGCCGATCCAGGAAATGATTGCCTGGCTGAAGGAAGTTTTAGAGCAGCAGGGCCGGGTCAGCTTTTTTGCCTTGACTGACCAGGTGGAAAGCCTGGCCGACCTGGTTGGCCTTTTTTTGGCAATTTTGGAACTGGCCAAGGACCAGTACTTGAAAGTTAGGCAAAAGCGCCGCTTTGGCGACTTGGAAATAGAGAGAAGCAAGCATGACGAGTAA
>SRR1919932_00816 hypothetical protein
ATGCTAGTACCATATAAGAAAGATTATGAAAAAGTCGCCATGGGCCTCTTGTCCTATCTGCCGGATTTCAAGAACCTGCAGAATTTGAAGGAAGAGATGCAGCTTTACGCTGAAGACCCGGCCCACCAGCTCTACCTTTACCGGGACGAGGACCAAAACATCGTCGGCCTGGCGGGCTGCGAGACCGGGGCCGGCTGCCTGGTCCTGCGCTATTTGTCTTTAGCACCGGGTTTCCGGGATGATGAGCATTTTTCGGAAATCATGCGGGAACTGGCCCAGGAAGCTGGCAAGCAAAAAGTAATGACGGTTCCGGAATATACCTATTTGATGAAGTACTTGAACAATGATGAATGA
>SRR1919932_00817 tyrosine recombinase XerD
ATGAATAAGCTCGCTGAGCAGATAAACGATTATCTGCGCTACAGCCAGATTGAGCGGGGACTCAGTCCGAATACCATCGCGGCCTACAAGCAGGATTTGCTGGAGTTTCTGGCCTTTGTCAAAGAAGAGCAGATGCCCGCCTGGCCGCTGGAAGCCGTGGAAATCGATGCTTTTTTAGCTAAAGAGCGGGACTTGGGCAAGGCTAACAGCTCTATCAGCCGGCTGGTGTCGACCCTGAGCCGCTTTTACCAGTGGCTGGTCCGCCAGCAGCTGATCGCCCTGGACCCCATGAGCCAGATTGATGCTCCCAAGCGGGAGAAGCGGATGCCCTTGGCTTTGACTGAGGCTGAAGTGGGCAAGCTCTTAGAGCAGCCAGATCTGACTACGGATTTAGGAATCCGCGACCGGGCCCTTGTGGAACTGCTTTACGCGACGGGGATGCGGGTCAGCGAAGCGGTCAACTTGCAATTAGCCGATGTCCATGCCGACCTGCAGCTGATCAAAGTCCTGGGCAAGGGGAGCAAGGAACGGCTTATTCCGGTGAGCGCCCTGGCCTTAGACTGGATTAAGCGCTATCTGCCTGTCAGGGACCAGCAGCTTTTAAAGCGGGGCAAGAGCAGCGATTACCTGTTCTTGAACAGCCGGGGCGGGCAGTTGACCCGGCAGGCCGTCTGGCAGAAGATCAAGAAGTACTGCCAGCAGGCCGGCATTGCCAAGGATGTGACTCCCCACACCCTCCGCCACAGCTTCGCGACCCATTTGCTGGAGCATGGGGCGGATTTGCGGGTGGTCCAGGAAATTCTGGGCCATACTGACATTTCCACGACCCAAATCTATACTAATCTGACCCAGAAGCATATCCTGGACGTCTACCAAAAGACCCATCCCCGCATTTAG
>SRR1919932_00818 S1 RNA-binding protein
ATGCTTGGAGAAATCCGGACCGGTAAAATCACTGACAGCAACGCTGAAGCCTATTTCGTGCAGATTGATGGCTTAACGTTCAAATTGAAGAAAGAAGAAATCACCCAGGAAGAGACGCCGGAAATTGGCGGGCAAATCACGGGATTTATTTATGATAACCAAAAACATGAACGGGAAATGACCCAGTTCCTGCCTTTTGCCCAGGCTGACCAATACGGCTGGGCCACGGTTACCAGGGTCCAGCGGGGGCTGGGGGTCTTTTTGGACGTTGGCTTGCCTGATAAGGATATAGTTATGTCCCTGGACGACCTGCCACTTGACCCGGCCCGCTGGCCGCAAAAAGATGACCGTCTTTTGGTGCGGCTGGAAACTGATGACAAGGACCGGATCTGGGCCAAGGCCGCTGACGAAAACGTCTTTGACCAAATCGCTGTCCGTTTCCCCAACAACCTGGTCAACAAGAACCTGCTGGCCCGGGTATACTCCAGCAAGTCCCTGGGTTGCTTTGTTTTGACCAATGACTACTATTTGGGCTTCATCCATGAATCTCAAATGCAGCAGCCGCTGCGGCTGGGTGAGGAAGTAAAGGCCCGGGTAATCGGGGTCAGCCAGTATGGCCGCTTGAACATGAGCGTTTTGCCCCGGTCTTTTGAAGAAATTGACGATGACGCGGCTATGATCATGATGTCTTTGCGCCGCAAGGGCGACAAGACCCTGCCATTTAGCGACAAGAGCGAGGCCCAGGCCATCAAGGACTATTTCGGCATCTCCAAGTCTGCCTTTAAGCGGGCCTTAGGCAACTTGATCAAGCGGGGCCTGGTCAGCCAGGACAAGGAAGCCGGCACGATCAAGCTGATTAAGGATGAGGCGGATGAATAA
>SRR1919932_00819 phosphoglycolate phosphatase haloacid dehalogenase hydrolase
ATGAAATATAAAGCCGCGATTTTTGACATGGACGGCACAATCTTAGACACGAGCACCGACTTAACAAGTGCATTGAACTACGCGTTTGAACAAACCGGCCACCGGCATGACTTTACCGTTGAAGACATCAAGAACTTCTTTGGCAGCGGGGTCGTGGTGGCGGTCACCCGGGCCCTGGCCTATGAAGCTGGCAGCAGCCGGGAAAGTCTGGTCGCCTTTGGCACCAAGGATGAACAGATCCCAGAAGCCGTTACCCAAGCAGAAGTTAACCGGGTCCTGGAAGTTTTCAAGCCTTATTACGCTGACCATTGCCAGATTAAGACTGGTCCCTTCCCAGGCATCTTGGATTTGATGAAAAATCTCCGGCAAAAAGGCGTCAAGCTGGCTGTCGTTTCCAACAAGCCAAATGAAGCCGTCCAGGTCCTGGTCGAAGAACTTTTCCCGGGCAGCTTCGACTTTGCCTTGGGTGAAAGAAGCGGGATCCGCCGCAAACCAGCTCCGGACATGACTAGTGAGTGCGTCAAGGTCTTGGGCGTGCCAAGAGACAAGTGCGTCTACATCGGCGACTCTGAAATTGACATCCAAACCGCGCGGAATTCTGAAATGGACGAAATCGCGGTAAATTGGGGCTTTAGAAGCGTGCCATTTTTGCAAAAACACGGGGCAACTGTGATCGTGGATACAGCTGAAAAGCTGGAAGAAGCAATCTTAGGTGAATAA
>SRR1919932_00820 acetyltransferase
ATGGAAATCAAGTTTGAAGAAGAGCAAAAGCGGGCCGCGGTATATGATGACGGCAAGCTGATTGGCCAGTGCGTATATGAAGATAAGGGTGATCACTGGATCATCACAACGACTAAGGTAGATCCAGCCTATGGCGGACAAGGCCTGGGCCGGAAGTTGGTTGATACCGTTGCTTCTGCTGCCCGGGAGAAGAGGGCCAGACTGCGGGCGACTTGTTCTTACGCGGCTAAGGTCTTAACCAAGCCGGGCTATGAGGATTTACGGTAA
>SRR1919932_00821 fumarate reductase flavoprotein subunit
ATGACAATTGCAGCTAAAGACAAGTATGATGTAGTAGTTGTTGGTTCGGGTGCGGCAGGTCAAGCCGCTGCCTTGACTGCCCAGGAAAACGGCGCCAGCGTCCTCTTATTGGAAAAAGGCCGCACTACCGGCGGTAGCGCCAACTACAGTGAAGGGATCTTCGCCGTTGGCTCCTACCTGCAAAAGGAAAAAGGGATCGAAGTCTCCGGTACTGACGTTTTGAAGGAAGAAGTCGAATATTCTAAGTACGAGGCTGACTCCAGAATCTGGCGCAAGTACGTTGACACCAGCGCAGAAAACGTTCAATGGCTGGCCAACGAAGGCGTTGTTTTTGAACGCGTGCAAGCCATGGGGGCCGGGGAAGCAACTTGGCACATCTACGAAGGCTTCGGCTACGGCGCCATCCACAAGGCTCTGGAACCGAAATTCCTCAAGCTGGGCGGGGAACTTTTAACTTCTACCGCGGCTGTTGCCTTGAAGCTGAACGAAGACGGCAGCAAGACCATCACGCTTAGAAATGAAGCTGACGGTACTACTGAAGACGTTACGACCAAGGTTGTCGTTCTGGCAGCTGGCGGTTACCTCAACAACAAGGAAATGATGGCCGAAGGAACTGACTACGACTTGAGCCGGATGATCCCTGTTTCAAGCGGCAAGGGTACTGGTGACGGCCTTCGCCTGGGCTGGAGCGTTGGGGGACGCAAGTACGGCACCGGCATGGCCATGCTCTTTGGCGGCTACTTGGATGACCCAGATCAGCCTTACTTCAAGATGATGTCCAGCCAGATGAACGTCGCTGCCGGCCAGCAACCCCTTCTCTGGGTCAATGAAGATGGTGAACGCTTCGTTGACGAATCCGTCATTTACAACTTCAGCTACGCTGGCAATGCTCTCTACACCCAAAATGAAGTCTACAGCATTTTGGACACCGGCGTGATTGAAAAGATGGCTAAGGACGGCAACTACATGGGTCTGGGCGTTTACGTTGAACGCGGCGACAAGATGGACAAGCTGGCCGCTGAAATCGACCAAGCGGTTGCTGACAAGAAACCATTCATCTTTAAAGCGGACACGATTGAAGAACTGGCTGAAAAGGCTGGCCTGCCAAAGGACCAATTGACTGAAACCATTTCTCGCTACAACGGCTTTGCCGCTAAGGGTGAAGACGAAGACTTCGGCAAGGATGCTGACTACCTGGTTGCTGTTGAAAAAGGCCCATTCTACGCCTTCAAGCTGAATATCGGCGCCTTCTGCACCATGGGCGGTTTAAAGGTCAACGTCAACAATGAAGTTGAAGACGAAAAGGGCAAGGTAATTCCTGGTCTTTACGCGGCCGGCAACGACGCCAGCGGCTTAACCGGCGACACTTACGGCCCGAACATGCCTGGTACCTGCGCTGGCTACGCCTTTTACTCCGGCAGAAACGCTGCCCTTGACGCGCAAAAGTATCTGTAA
>SRR1919932_00822 LysR family transcriptional regulator
ATGGATTTTGAAAAGCTGAAGATGTTCTGCAAGGTAGTTGAAGAGGGCAGCTTTCAGAAGGCGGCGGAGAGTGAGTTTGTCTCGCAAAGGGCGGTATCGCAGATGATGAAGAAGCTGGAGGATGAGCTGGGGCTGAAGCTCTTTGACCGAGAGAAGAACAAGATTTTTGTCACCCCGGTAGGCCGGGACTTTTACATATATGTCAGGAATATGCTGCAGAAGTTTAGCGTGAACGTTAGTGCTTTGCGCTACGAGTCAACGACCAAGCAACGGCTGATTTGCGGCTATTTTTCGCCATTTGACGGGGCCTTGCTGCGGGAGAAGCTGTACGGCTTCTTAGATAAAAAGATGCAGCTGAGCATAGTGCATGAAAGTATCGATCACTTGCTGAGCGATATAGCCAATGGCCTGGTGGTTACTGAGCCGGATTTAGCCAGTGCAGACGTGTATGAAAATGAAATGATCATGGGCGTCAGCGATTTGAATCCGCTTAGCAAGCTGGAGGAATTTCCCCTTACGGAGATTGGCAACCTGCCGGTTTTGTATTATATGCCGGAGGAGAATTCGAATTACCTGCGGCAGGCTTTTTTGTCGACCTTGCCAGAGGAATGTCAAGCCAGCTGCGCGCATATTTCCAACATTGAGCAGATGCAGATGCTGGTTTCCTTGAACAAGGCGGTGGCTTTTTATCCTAAGGGATTATTTGAGTATGTGCTGACGGACAGGGAGCATATAAGATATTTACCATTGGCGGGGATGCAGGAGAGGAGCCGGTACAAGATCAAGGTCATTTATAATCCGCATAGCGACAAGCTTTCACTGATTAAGAAGCTGCTTGCCAGCTTTGAGTAA
>SRR1919932_00823 surface protein
ATGGGTAAAAAGCTGAAAGCCATCAGTAAGGTTTCTGTTGCCCTGGCTCTTTTGGGCGCTGCTGTACCTACAGTAGAAGCTGCTCCAACTGCCATGGCTGCAAAGAAGGCTACCAAGAAGGCTAAGAAGTCTACAAAGAAGAGTACTAAAAAGGCAAAGAAGGCCAAAAAGAGTACCAAAAAGAAGGCAACTAAGAAAGTAGCTAAGAAGAAAGCTTCTAAGAAGCCGGTGAAGAAGGTTGCTAAAAAGAAGGCAGTAAAGAAGACAAACGCGCAAAAATACACGCCAAAGGCTAAGAGCGTAACTGTCAAGGCTGGCAGCAAGCTTTCAGCCAAGAGTATCATCACTAACGCCAGCAAGTTGCCAGCTAAGGCTAAGTATGCTTTTTCACCAAAGCCAAACTTGAAGAAGGCTGGCACTTATACGGTCAGCGTGATCGTGACTTATCCTGACAAGTCAAAAGACAAGGTCAAGAATGTCAAGATCAAGGCAACCGCGAAGAAGGCGGCTTATAATCCAGCTAAGGCTACTTATGAAAAGTACAAGAAGCAAGCTGCAGAGCTTGGTTCATTAGAAGCTGCGCAAAACGACTTGAGCCAAAAGAAGGCGGCTTTAGATAGTGCCAACCAGGCTTATATGGATGCTGTAACTAGCTACAATAACAAGGTTTCCGCTACTAAAGCAAGTTATGATGAGGCTTCAAGTGCCTATGATGCAGCTGGCTATGATTTTATTATGAGCAAGGCAACGGCTAATTTTTACCAAGACTCAAAAGCTGGCATGGCAAACGTTGCTGTATTGGCCGGCTACGTTAATGGACTGGATGATTCAGTTAAGAGTTTTCTGTCGACAAGCAATTTAAAGAAAGATGTTACTTTGATCAAAGAGCTGAACAGTCTCCGAGCATTGGACAACAATTTTTCCAATCATAATGCTCTAGGGGTCGACTATGATCTCATGATCTATGCAAGCATCTCTGGTTTTATCTCAGATAGCACGATGAATCATACATATTTTAGGAACGCTCCTACTGAAGTGTATGCTTCCCGTGCTGAGAATTTGGCTTGGGGCTACAGTGATCCATTAACTGGTTGGTACACTGAAGAAAAGGCGATTTATGATGCTCACGGCAGTGGTGTGACTGGTCACTATACGAACTGCATGGGCGATTATGAGTATGTTGGTTTGGTTCTTGATCAAAGTACGGGAACAAGTGCGGCAGATTTTGGCAGAGGAAAGATTTTAACTAGCGAATCGGGGACGCAAGTGAGTGTTGAGGAATTTGAAGCTGCTCTCAATAGTTATGTTGCTTCTTATGAGTCGACTATGAACACGGCAAAGGCTGCTTATGAACAAATCAAGGCTGATAAGTCAGAGGTCAATGTTGCGCAAGGAAATGTAACCAGCAGTAAAAAGACCTATGATGCGGCTAATGCTAAGGTAAAAAAGCTCAAGGCAGTCAACCAGCAATTAGCAAAGGCTTATACGGCTTATCAGAAGTCTTTAAAAGTCGCACACAAGAAGAAATAA
>SRR1919932_00824 hypothetical protein
ATGCAAAAATCAGCAATCACTAAACTCAAGAAAATCGGCCTGTCAGAAGAGTCGATAGATTTCCTTCTCCAGTTCTATACCGGCGCGGTTAATGCATACGGGATCATCTCCCTTGAAGACCTGTACGGTTTGTACAAAGACATCAAAAGGCAGAACCATGACTACCCGGAAATCACATTTGACCAATTCCTCACTTTCGGCGAAGTCACAGGCAGTAAATTGCTTGAGCATTACGCTATTTTCAGTCCAGAAATCATAAACAAGTACTTCAATGATTCTGGCATCCCCTTAACCAGCCCACTATTGGTTCATGAAAGTGTCGCCTGGAAAGAAGACAGTATTCATGAAATCTGGTACCTCTACATGGACCTCTGCGAATTCAGCAGCAAGTTCTACTTAACTCCTGATGACCTCCGCGACTTTGCCGAGCACCAAGAAACAGCCGACGACCGGGCTTTCCAAAAAATTCTGGCAGAGCTGAAGGCCTTTGGCAAACCGCTTGATCAGGTGGAAAGTCAGATCTATCCAAACGACACTGGCATAAACGAAATCACCAAGTTAGTGACCTATGCCTACCAAACCAGCCCAGGTAATTTGGAGGCAGCTTCTGAAGAATTTGAAAATCTCTCCCTATTCTACCGCCTTGACTACGGCAAGCACACATTCCAAGAAATCTGCACCTTGATGAAGCGGGCACTTTACGACCTCCCTTGCTGGGGCCTTGGCGGCTATACATATGGAAAGATGATGGGGATCCCTAAGGAAGACATCACAGAGAATGATTTTTTCGACGATTCTTTTTATAAAGATGATAACGACCTTTTCGATTTAGATGAAGACGATGTCTTAACTGATCACCTTCAGCAACTTGGCCAGGCGCTTTTAGACTTAGCTAGTGATACCCACCCACACGCCGCAATGCGCAAAAAAGCCAGCTACCCAAAGCGCCTGCTCGACAAGACCATGAAGAAGCGGTATGCAGATGCCGGCTTTGATACCGATAAGCTGGACTTCTTGCACAAATTCTTCCAAGCAGCCGTCAACCTCTACGGTGTAATAGAACTCGTTGACCTCGCTCAGATTTACGAAGATATTAAAGACAAAAATCATTACCCTGACATCAGCGACGATGAATTCATCGATTTTGCTGAACTGGTTCGCCGGGAAAAAGTGCCTTACTATGTTTTTGAACAGCATGAGCTTTTTAAAAACGGGATCGACTTAGAATTTGAACGGATACTTGTGGATGCAGACCTGCTGGGTCCAGATGGCTTAAAATCACTGGAAGGCGTCTACAATGTCTACTTTAGCGAGTACGCGAATGTATACTGGGAGCCGGAAGATATGCTGGCTTATACCGGTCACCAGCAGGAGAAGGAAGAGCTGGACATGCTAGCCTACTTTACCCAATTAGGGAGCAGGGATGCCAAGATTGTCAGCCTGGAAAGCAAAGACTTGGCCAGAAAGATCGTTGACCACTTCCTCTGGACTAGCAAGAGTGGCTTCCAGGAAGCTGACCCAATTCCTAAAGAGGAGTTCCGCCAGCTGCTGGCTAATGGCGGCAAAACGCTTAACAAAGAAATTGAAGATAATGTTTTAGAACTGATCCGCAACTATGACAAGAACCGGCACGTCTATGTCCTTAAGGGCTGGACGACTGATGAATGGAATTCCAATCTAGACATCCATGGTGAGCAAGTACAAAGAGCCAAAGCCATGCAGGCCATTTTAGACATGATCAAAAAGAGCAAAGATCCAGAATAA
>SRR1919932_00825 hypothetical protein
ATGCATATTGTTTTTACTATTATTTCCATCATCGGCCTGCTTTTAGCCATCACCTGCCTGGCCTTACTGGCCAATACCCGAAAGCTTTTGACCGGCGGAACAGATATTGACCAATTCTGGCCAAAACGCCGGCGCTTTATGTATTGGACCAACACTTTCATGTTAATTCCAAACGCAATCTATCTGTTTCTTACAATTGCCAGTTACTTTTCAGCGGACTTTGAGCCATCCTTGCTGCTCACCTTTTCTACCATGGCCATGGATCTTTTAATTGGCATCAGCATTATCTTCACTGACTATTTCATCACTGACGAGAAGATCAGCTTCAAGGATTTCTGGTCCGGCAGCAAGACTAGCACGAAGGTCTACTCGATCAGCTTGATTCTCCTTGTTATTTTGACTGTAATCTTAAACCTGCTCATCCATGCCTGGGGCCTGGACTAA
>SRR1919932_00826 MATE family efflux transporter
ATGGTCTACGACCAAGCTATCAGTAAGAGCATCCTATCTTTAGCCGGCTTGACAGCCCTGCAGCAATCGATCATGAACCTGGGCATGGGCATGGGCATCCTCATGGTGCAGGGCCGGATTAATTCTTTTGGCGTTAATGTCATGGCTGCATTTAGCTCAGCCGTTAAGATCGATACCCTGGCTTACTCGCCTGTCCAGGATTTTGGCAATGCCTATTTCACCTTCGTCGCGCAAAACTATGGTGCCCAGCAGGCAGACCGGATCAAGCAAGGAAACCGGCAGGCCAGCTGGTGGATTCTGGCCTTCTGCCTGGTCATCAGCAGTCTGGTTGTCTTTTGGGCCAAGCCCTTGCTGGCCCTCTTTAGCAGTGACCCGGAAGTAATTCAGATCGGTATTGGCTACTTGCGGATCGAAGGCAGCTTCTATGCCTTGATTGGTTTCTTATTTATGTTCTATGGCTACTTCCGGGCAATTGATGAGCCAATGATCTCTGTTGTTTTGACGATCTTTTCCTTATGTACCCGGGTTCTTTTGGCCTACCTCTTGTCCGTGGTTCCGTCAATCGGCTATATCGGAATTTGGGCCAGCATCCCAATCGGCTGGGCCCTGGCCGACTTAGCCGGGCTTTACTACCTGCACAAGAAGGCAGTTAAGCCAGCTGACTGA
>SRR1919932_00827 MATE efflux family protein
ATGTCCAAAAACAAATCTACCATTGATCTGACCTCTGGCCGCATCAGCCTTGGTCTGGTCAAATTTGCCCTGCCCCTGATGGCCGGCAACGTTCTCCAGCAGTGTTACAACTTAACAGACACTTTGGTCGTTGGCCGCTTTATTGGTAAAAATGCCTTAGCTGCTGTCGGCTCAGCCTATACCTTAATGATCTTTCTGACCTCCATCATTCTTGGTCTCAGCATGGGCTGCGGAGCCTTTTTGTCTCAGCCTTAG
>SRR1919932_00828 hypothetical protein
ATGACTACAGTATTTTTTCTTTTAGTTGGGGGCAGTTTGGCTATATTGTTGGTCGACCTGGTCATTTTGCTGAAAGCCAGAAAGAAATTGGCTACTGGCAGCAAAGAAGCAGCTGCACCTTACGACAATTTCTCCAAGCTAACCCTTTCTGCCTTTGCAATCCAAATTCTGCTCAACATGGTCTACTTGTGGAACTACTGGAGCTCAGCTTTTTCCGCCACTGCCTTGACCGCCCTCCTCCTTTTTGCCGGCAATCTATTGCTGGAATTCGTCATCTTCTGCGATGACTTCTTAACAGATGCCAGATACAAGAGCCTGTGGGCCTATTTCAAGAGTCTGAAGAAGAGGCAGCAGTTTTGGCTCATCGCAGTTGTCGTGATCACTGCCTTTGCCGGCCTGATCAATTTCTTCCCGTCTCCTTAA
>SRR1919932_00829 hypothetical protein
GTGGGCGACAGCATCCCTGCTTTAATCACTGAGCTATGCCTGCTCCTGATCCAGCTGGAGCTCAGCTTGCTGATGATCGCGGCTGAATTGATCACTCTCATCAATTTGACCTACAGCTATTTTGAATTCAACACCCAGACGCAATTTATCTTATCAATTTTTGAGTTGCTGATCTTATTCGATGCCCGCTTGTACACAAATCTTTTTGATGACGAAGCAGAATCTTTTACTATCAAAGATTATTGGAGCTATTTTGACAAGTCAGACCAGACTTGGCTTGTCATCTATGTTTCTTCTCTGTTTGTCCCCTTCATCTCCGCCAAATTAACCGGCCTGCCGCCCTACCCGACTTTCGCGGAACTTGACCAGTTATTTCCTTTCTAG
>SRR1919932_00830 ribonuclease HI
TTGCGGCAGGGTAAGCAGCTTGCTGATAGTGCCGGCCGTTTGGGCGCCACCAATAACGAAATAGAAATGACTGCTTTTCTGGAAAGCTTGAAGAAGCTGGAACAGTTGGGTCTGACCCAGCAGCCTTTGCTGTTTGTCTTGAACTCCCAGTACGTTATCAAGTCGGTTAGCGACACAAAAGATGGCCCAGCCTGGATGAAGAGCTGGAAAAAGCGGGACTGGAAGACGGCTAACGGAAAGCCGGTAGTCAACCAGGAACTCTGGCAGGACATTGACCGGGAGCTGGCCAAGTTAGATAGCTCCAAGCTGAAATTTGCATGGTTAAGAAGCACTGTCAGTGATGCTGGCAGCGACTTTGTTGACAGCTTGCTGATAAAGCGCATGGATGAATGA
>SRR1919932_00831 rhodanase
ATGAGCCTATTTCAAGCAAATGACATTAACGCCGGCGTTGAAGAATACCAGAAAACGCCGCGGGCTAAACTGATCGACGTCAGAGAAGAGGATGAGTATGCAGCAGGGCACATCCCGGCCAGCATCAACATCCCCTTGAGCAAGATCGAGTCCGCCCAAGGCGAGATCACAGACCTCGATACCCCGCTCTTTGTCTATTGCCGCAGCGGTAACCGGAGCGGCCAAGCAGTTGCCTGGCTTAAGCAGGCAGGCTACAGGAAAGTCCAAAACATTGGCGGGATTGCCAACTATAGCGGTAAGACTGAATAA
>SRR1919932_00832 multidrug ABC transporter ATP-binding and permease protein
ATGTCAGACAAGCAAAAGTCGCTTACTTATTTGACGAAATATCTGAAAAACTACAAAAAGCCGATCTTAATTTCAATTGCCTTCTATCTGATCGCGACCATCGCCCAGGTCATCGCTCCCTCCCTTTTGGGGCAGGCGGTTACGAACTTGTCGGCTTTTGTTAAGGGGCACGGCAGTCTTGGCGTCTTCTACCAGGCCTTAGCCTGGATGGCCGGCTTTTATGCCTTTAACTCCGTGGCCACCTACATTGCCTGGATGATGATGACCCGCTTTAACGCTAACGCCAACAACGACATGCGCAAGGGACTTTTCGGCAAGCTGCAGCGGATGACCATCCGTTACTTCGATACCCACCAGGACGGGCAGATCTTGTCCTTGTTCAACAGTGACCTGGACAACATCTTCAATGCTTTAAACAACGCCTTTTTTGAAATCATCTCCCAGTCCCTCCTTTTTGTCGGCACGATCATCGTTATGTTTGTCATCAACTGGAAGCTGGCCCTTAGTGTTGTAGCTACTACTCCTTTGATCTTGCTCTTAAGCTGGATCATTATGAAAAAAGCCCGCGTCTACCTGGACAATCAGCAAGACCGGGTTGGTGAGCTTAATGCCTACATCAACGAACAGCTCAACGGGGAAAACGTGATCATCACCCAGGGCCTCAGGGACCAGTCAGTTGCCGGTTTTAAAAAGGAAAACGCCAAGGTGCGGGAAGCCATGTTTAAGGGGCAATTCTACTCTGGTATCCTTAACCCCTTAGTTACCGGCTTCTCCCTCTTGAACTTCGCGATCGTGATCGCCACTGGCGCTTACATGATTATGACCAAGCAAGTCAGCCAGGCGGCTGGTCTGGGCTTGATCGTGACTTTCACAGAATATTCCTGGACTTACTTCCAGCCGCTGACTCAAGTAACTTCCATCTACTCCATGCTGCAGCTCGCCTTGACCGGTGCCAGACGGCTTGAGACGGTTGAAGAGCAGGAAGAAGAAAACACGGTGCCAGATGGCAAGACTATCTCAGGCGTAAATGACGCTGTCCGCCTGGAAGATGTGCACTTTGGCTACACTCCAGACAAGGAAATCCTGCACGGGGTATCAATTGAGGTGCCTAAGGGGCAGTCGGTCGCTGTTGTTGGCCCGACCGGGTCTGGTAAGACGACGATAATGAACTTGATCAACCGTTTCTATGACGTAAACAGCGGGGCAGTTACTTTTGACGGAGTCGACGTCCGGGACCTGCAGCTGGAGAATCTGCGCCAGAACGTCGGCATCGTTTTGCAAGACTCAGTCCTCTTCTCTGGAACAGTAGCTGACAACATCCGCTATGGCAAGCCGGAAGCTTCAATGGATGAAGTTATTGCCGCAGCTAAGGAAGCTCAGCTGCACGACTTTGTCATGACCCTGCCAGAGCAATATGACACGCCGATTGAGAATGGCCAGGCCAATTTCTCTACCGGGCAAAAGCAGCTTTTGTCAATTGCCAGAACCATTCTGGTCGACCCGGCCTTCTTGATCCTGGATGAAGCAACCAGCAACGTCGACACGGTTACGGAAGAAAAGATCCAAAAGGCCATGGACAACGTGATTGCTGGCCGGACCAGCTTCGTGATCGCCCACCGTTTGAAGACGATTTTGAACTCAGACAAGATTGTCGTATTAAAGGACGGCCAAGTCATTGAAGAAGGACCGCACGCCGACTTGATCAAGAAGCGCGGCTTCTACTACAAGCTCTACACCAGCCAGATGGCTTTTGAATAA
>SRR1919932_00833 multidrug ABC transporter ATP-binding and permease protein
ATGAAAATTCTCTTGCCTTACTTCAAGCGATATAAAAAAGACGTTTTCCTGACTTTGATCACCATCGTCTTTTCAGCTTTTGCCACCCTCTACCAGCCCCGCCTGCTCCAGCAGGTGCAAAATGAACTACTGGCTGACCAGCAGCAGGCCGTCATCCGGGACACCGCGATTTTGATCGGCCTGGGCCTTTTATCCATTATTACCGGGGTCCTCAACGTTTACTACGCCTCCCGGATCACCCAGGGCGTGGTCAGCGACCTCAGAGAAGACACCTATGCCAAGATCCAGACTTTCTCTCTGGCCAATGTGCAGCAATTCTCCTCTGAATCGCTTAGTGTCCGCTTGATCAACGACATGCAGCAAATCATGAACATGATCATGACCATCTTCATGCAGCTGATCCGGATGCCTTTGATCCTCATCGGGTCAATCATCATGGCCATCGTCACCATCCCCCGCTACTGGTGGGCGGTTGTCGTCCTCCTGGCCTTGATCATGGGTCTGGGCGTTGTGGCAGTCAAGCAAATTACCACCATGTTCGACAAGTTCCAAATGTACATGGACAAAATCTCCGGCCGGACCGGGGAATTTTTGCAAGGGGTCCGGGTGGTAAAATCCTTCAACCAAAGTCCCCAGGAAATTGCCAAATTAAACAAGGATTCTGACGAATTAAACGAAGTCAACATCAAGGTCGGCTACTGGTTCTCCACCATCCTGCCTGGTGCCCAATTGATCTCCTACCTGGTCATCAGCTTAGTGGTCTACTTGATCGGGACCAGCATTCTCCAGCATCCCCAAGACGTTTCCGTCATCACTCCATACGTCAACTATGTTTTGACCATGCTCTTTGCCATCCTGCTGGTCGGCATGGCCGTCATGCAGATTTCCCGGGGTAACGTCTCCTTACGGCGGATCCAGGAAATCATGGACACCCAGCCAGACGTTGTCTTCAATGAAAAAGCCCCGGAAGACGCCTTGGGCGGTTCAATTGAATTTGATGACGTCTCCTTCACCTACCCAGATGGCCAGCAGCCCGTCTTAAAGCACATCTCCTTTGCTGTTGCACCAGGCCAAATGGTCGGTATCGTCGGGGCAACCGGGTCGGGCAAGTCGACCCTGGCCCAGCTGATCGCCCGCCTCTATGACCCAACAACTGGGAAGATCAAGATCGGCGGCAGCGACCTCCGCCAGGTTAATGAGAAGGCCCTCAGAAAGACGGTTTCCTATGTTCTGCAAAAGGCTGTTCTCTTCTCAGGAACCATTGCCGACAACCTCCGCCAAGGGAAAAAGGATGCTACTTCATATGAACTTGAACGGGCAGCGCAAATGGCCCAGGCCAGCGAATTCATCCAGCGCTACGATGAAACTTTTGACCATGAAGTTGAAGAAAGAAGTGCCAACTTATCCGGCGGGCAAAAGCAGCGTCTGTCTATTGCCCGGGGGATCATCGCCGGCAGCCCGATTTTGATTCTGGATGACTCAACTTCCGCCCTGGACGCAGAAAGCGAAAAGCTGGTCCAGGAAGCCCTGGAAAAGCAGCTGCCTGACACGACCACGATCATGATCGCGGAAAAGATCGTTTCTGTCATGCACGCGGACAAGATCCTGGTCCTCGATAACGGCCGCCTGGTTGCTGAAGGCACCCACGAGGAACTGCTCAAAACTTCCCCGGTTTACCAGGAAATCTATAAAACCCAGAAAGCCAAGGAAAGAAAGGAGGAACTTTAA
>SRR1919932_00834 MarR family transcriptional regulator
ATGAACTTAAAAAAACACGAAAGCATTTCAGAATCAGTAACCCTGGCCAGCGTCCGGGCGACTTACGCGTATGAGCAATATGACAAGCTCATGGGAATCACCCAGTACGAGAGCATCATTCTATATGAGCTCTTCACCCACCCCCGCCTGTCACAAAAAGAGCTCGTCTATAGAAGCGGCATCCCCAAGCAATCCATCAGCAAGGGGATCCACAATCTAGCTGAGCTCGGCTACCTGGAAATCAGCTCTGCTGACCAGGACAAGCGGGTCAAGTACTGCGCCTTGACTGAGTCCGGGCTTGCCTATGCCCGGGAAAAAGAAGGTGAAATCCTGGCTATCGAGAAAAAGGTGATCGACAAGCTGGGCTTTGACCGGGCTGCTTTGGCCTGCCAGATTCTGGATGAGTGGTCTGATCTCCTCAGCAAGGAAATAGCTAACTTAAAGGAGGAAAAACAGAAATAA
>SRR1919932_00835 2-hydroxyacid dehydrogenase
ATGAAGATTGTATTGCTTGAGCCACTGGGCATTAGCCAGGAGAGTTTAGACAAGCTGGCGGAAAAATTGACCAAACAGGGGCATGAATTTACGGCTTACGACAGCTTTTCAACGGATACTGAAGAATTGAAGAAGCGGAGCGAGGGCGCGGACGCCTTGATTATCGCCAACCACCCCTTGCCTGGTGAAGTGATCCGGGCAGATAAGAATTTGAAGTTCATCTCAGTTGCCTTTGTCGGGATTGACCATGTTGACCTGGAAGCCTGCAAGGAGAAAAAGATCAAGATCTCCAACACTGGTGGCTATTGCAACGACGCGGTGGCGGAATTGGCCATCGGTTTGACTTTGGACTGCCTCAGAAATATCAGTGCCGGCAATGAGGCTGTGCAAGCTGGTGAGGGCAAGGGCAGACTCCAGGGACATGAACTGGCAGGCAAAACTGTTGGGATTGTTGGTACTGGAGCGATTGGCTGCCGGACAGCAGAGATTTTTAAAGCCTTTGGCTGCAAGCTGATCGGCTATAGCCGTAGTCAAAAGGCGGCCGCCCTTGACCTGGGCCTGGAATACAAGTCACTGGATGAAGTGATGGGGGAGGCAGATATTGTTTCCATTCATACGCCGCTGACTCCGGAAACTAAGGGCTTGATCGGTAAAAAAGAGATCGGAGAGATGAAGGAAGGGGCCATTCTGATCAACACGGCCAGAGGTCCGGTCGTAGATACTGAAGCGTTGGCTGCAGCATTAAAAGAAGGACGGATTAAGGCAGGGCTTGATGTGTTTGACCAGGATCCGCCACTGCCAGCTGATTATCCACTCATCGGAGTTCCGAATTTGGTTTGCAGCCCGCATGTCGGTTTTGATACGAAAGAATCAATTGACAGAAGAGCGGAAATGGCTTTTGAAAACGTGACTGCCTGGCTAAACGGCCAGCAGATCCGGACCATGCTGTAA
>SRR1919932_00836 ABC transporter related protein
ATGTTCGGCATCGTCTTGATCATCTACTTTGGCGGCCGCAATGTCCTCCACATCGGCTGGAAGGCCTGGGACCTGGCCAGCTTCACGACTTTCTTAGCCTGCTTTACCAAACTCGCCACCAAAGTCTCCCACGCTGCCAAACTGTTTAACGCTGTCCAAAAAGCCCAAGTCTCCTGGGTCCAGATCAGACCGCTAATGAGCGATCCGATCTATGACCATTACCAAAAGGAAGAGAAAGTAATAAACGACCTCACTTTTGACCATGTGGCGACTTTTTACCACGGCTACCCGGAAACCGCGGTCAAGGACATCAATTTTACCGCCTCCGCTAATGAAATCATCGGTATAACAGGTGAGGTGGCCTGCGGGAAAAGCCTGCAGGGCCATGCCATCTTGCTGATGACCCACTGGGTTGACTGCTTCAGCCAGCTGGACCAGATCATCTATATCCATGACCACCAGGTTTCTGTTGGCAAGCATGACGAACTGCTGAAAAAGAATGCCGGCTATGCCAAGTTGATTGAAGGGGGGTAG
>SRR1919932_00837 multidrug ABC transporter ATP-binding and permease protein
ATGCGTAATATCGCTAAAAAGGTCATTCATGACCATCCCAAGAGCTTCATCTCTATGGTCCTGCTCATCATCCTAAGCATCATCACTTCGCTTTTGCCGCCCCTGGCTCTGGAGCAGATCGTCAACCACTTGACTGATCAAAAGGAAGTTTCCCTGCTTTTTGCCCTGGCCTACCTAGGCTTGATCGTTTTGTCTGACCTTTTTGCCTCAGCCCAGAATATATCCATTACGATTTTTGGCCAAAAATTGACCCACGGCATGCGGCTCGCCTTGGTGCAAAAGCTGAACACCATCACGACAGGCTACTTGACCAATCACGAGAGCGGGGCAATCGCCTCAGTCTTTGTCAACGACGCCGACATCATCAACATGCCCTTGATCTTGGTCATGACCCGGCATTTCCAGAAGGCCTCCCTGGCTTCCCAGAAGCAAAACCGGGCCGCCATCGCCAAGGTCAACCACCATATCCCCGAAACTCTCCGGGTTCTCTCTATGATCCATATCTTTGAAAAAGAAGACTACATGGAAGACAAGTATGACCAATATATCGAAGAATCCTACCGGGCTCAGAACAAGTCCAACTGGCTGGACAGCGTCTATTCACCAATCATCCTGACCATCGAAGCCGTCGTTATCGGCCTACTGATGATCGGGGCCGCCCAAGGGCAGAAGATGCAGACTTTCTTTGGCATCAATGCCGGCAGCGCCGTGGCCTTGATCGCCTATGTCGGGCAGATTTTTACACCGCTGGAATCAATCGGGATGGAAATCCAAAGCATCCAAGACGCAATGGCCGGGATGAGCCGGATCCAGGACTTTTTAAATGAAACAGACAGAAAGCCGGACATCTACCAAGGAGAAGGGGACTACTTTACTTTTGACCATGTCACCTTCGGCTACCTGCCAGACCAGCCGATCTTGAAGGACTACTCCTTTAAAGTCGCCAAAGGCGAGCACGTGACCTTTGTCGGCCGGACCGGGAAGGGGAAGAGCACGATTTTTAAACTCCTCCTGGGCCTCTACCAGCCGCAAAAAGGGAAGATCCTGCTGGATGGCCATTCGCCAGATGCTCATCCCAAGAATCAGCGCCACTTCCTAGCAATTTGCGAGCAAGGGGTTGCCCTGGTCGACGGGACAGTCAAAGACCAGATCACTTTATATGACGACACGATTACTGCTGAGATGATCGATAAGGCTTTAGCCATGGTTGGCCTAACCGATATCGTCAAAAATCTCCCGCAAGGTTTGAACACGCCGGTAAGTGACATCAACCTCTCGCTGCAGCTCTTGATGATCGCCCGCAGCGTTGTCTGTGACCCGCAGATCTTGCTTTTAGACGAAATGACCGCATCCCTGGACAGGGAAACTGAGGCCAAAGTCCTCAAGGCAATCGATGCCGCCAGCAGCGGGCGGACAGTTCTGTCCATCTCCCACCGCCGCGGGGCCCACGATGGCCGGATCATCAAACTGTAA
>SRR1919932_00838 hypothetical protein
TTGAGTGAAGCCTATGACTACATGATGGACTTGGCCAGCCAGGCCCAGACCTTAACCCAGCTGGATATTCGGAATCTGAACAGGCTATCAATGGCGAAAAGCCGGCCAGAAGATGCTGGTGTCTACCGAAGCGTACCGGTCCGGCCGGCTGGAGCGGAAGTCAATCCGTATGCAGACCCTTGGGATATTGCTGTCAAGATGGCAGAATTGGTTGACTGGGCAACCGAGGCGCAAGACAAGTTGCATCCAGTAGACTACGCTGCCCAGCTGCACTGGCGGTTTGTCATCATTCACCCCTTCATTGATGGAAATGGGCGGACGGCAAGATTGCTGATGAACCTGGCATTGACTGAGCACGGTTATCCAGTTGTCAACATTCAGCCAAATAAGGAGAGCCAGCTGCACTACATGGAAGTTTTGGAAGCGTGTGACAGAGACGGCTCGGCTGACAAATTGACTGATCTCATTGCTGATTACGCTGAAGAAGCCTTGCGGAAGAAGTTGAAAATTTTGGAGCTTAGTGCTAAAAATCATACTGACTCCGGCTACATCATCAGCGAAAGGGAACTGGAAGAGTGGCGGAAAAAGCGAGAACAGGCCAAGCTGTCTGACCAATAA
>SRR1919932_00839 oxidoreductase
ATGAAGGTATTTATCGCCGGAGGAAGCGGCCGGGTGGCAGCCGCTGTTATTCAAGAATTAGTTAATCAAGGTCAGCAAGTCTACGCGGGTTCCCGGCACAAGGATGCGATCGTCAAATTGCCGGGCGTCACTCCCCTCAGCCTTGACCTGCATGCCAGCGTTTCTGAATTAGCTAAGCTTTTAGCTGGGATGGACGCGGTTTATTTTTTGGCAGGTTCTAGAGGCAAGGATTTGCTTCAAACGGATGCCTTTGGGGCGGTGAAGTTGATCCAGGCGGCTGAAATGGCCGGCGTTAAGCGCTACATCCAGCTGAGCTCAATTTTCGCGGCCGACCCGGACAAGTGGCAGGGCAAGGCAGAATTTGCCAGCTTGACTGACTACTATATCGCCAAGTACTTTGCTGACGAGTGGCTGATCAATAACAGCAAGCTGGACTACACAATCCTGTCCCCGGCTACTTTGGAAGAAAAGGCTGGGACTGGCAAGGTTAACTTTAAGCCTGAAAAGTTTGCCGCCAACCCGATTCCAGACGTTGCCGCGGTTTTGGCCCAAATCCTTGACAAGGAAAACGCCTACGGCAAGGTGATCAATATGACTGGCGGCGAGACGCCGATCAGTGAAGCTATTGCAGAAGTTTAA
>SRR1919932_00840 prismane protein
TTGTCAGTTCAAGACAATGTTGACCCGGAAAGAATCGGGATCATCGGCATCTGCGGCTGGGGCGGGATTGCCCTGCAGACAGCAGCGATCGACACTAGAATCAAGGCAACAGTAACTTCTACCATGTATGACTTGTCCAGAGTGACGGGCAACGGCTACTTTGACGCGAATGACAATGAAGAACCCCGCCACAAGATGCGAGTGGCCTTGAATAAGCAGAGAACGGCCGACTTCAAGGCTGGCAGTTATGCCAAGGCCGGCGGGGTGGTTGATCCACTGCTAGAAGACGCGCCGAAATTTGTCAAGGATTACTACGCGTATTACAAGACTCCGCGCGGCTATCACAAGCGCAGCCTTAACTCAAACAGCGGCTGGAACGTAACGGCTGCTACATCCTTGCTGAACACGCGCCTGTTCACTTATACCAATGAAATCAGAAACGCGGTCTTGGTGATCCATGGCGACCAGGCCCACTCCTGCTATATGTCAAAGGATGCCTACACCGACATGATTAAGGATAGCAAGTACACCGACAACAAGGAGCTGCTTTTGATCCCGGGGGCAAGCCACACTGACCTTTACGACCAAAAGAACATCATTCCTTTTGCCAAGATGGGAGCCTTCTTTGACAAGTACTTGAAGTAA
>SRR1919932_00841 acetyltransferase
ATGAAGCTGGAAGATTTTTTAGCGCATGTTAACAGCGGGAAAAGAATTGTTGACCCTTCAGAAGAACTGGAATACTGCTCATATTTGACGCAAGAAGCCTTGAAGGTGACGATGGAGCTGAATAATGCTTATCATACGCCGGAAGAGGTACAGGACTTGTTTGCCAAGCTGACTGGCAGCGAGGTCAACTGGAGTCTGGCACTGGTGCCGCCATTTTATACTGATTGCGGGAAAAATATCCATGTTGGCGACGGGGCTTTGATCGGCCACCACGCTATGATCGCCACTTTGAACCACAAGCAAGATCCAGCCAAAAGAGGGGAGCTGCTGTCAGCAGCGGTTCATATCGGCAAGAGGGTTTGGATTGGCGCGAACGTAACTCTTTTGCCAGGCGTCACGATTGGTGATGGAGCAATTATCGCGGCTGGCGCGGTAGTAACAAAGGATATACCGGCCAGAACAATCGCGGCAGGCGTTCCAGCCTGCGTGGTGAAAGAAATAACTGAATAG
>SRR1919932_00842 hypothetical protein
TTGTTTACACAGAAGCAAAAGACGATTGTCTATCGGGTTTTGATGGCAATTTACCTAGTTGCTTTGGGACCAAACTATACTTTTGGCTATGCGACGCAAGACAATCCTACTAACCGCTTTTTCTTGATTGCTAATTTGCTGTCGATTGTCGCACTTATTCTGGCAGCTGTTTGGATTGACCGGCCGAAGCTTTTCAAGGTAGTGTTTGTTATGATGGTGATTGTGGCTATCTTGGCAGTAGTTCAGCTTGTCTTTCCAGGACAGTCAGCTTATGCAAGGTACAGCAACGCTTGGGCAATCATTAATATCATCTGGGCTGTGTTAACCGTACTTTACCAAAAGCAACAGCTTCAGATGAAGAAACACGCTTAG
>SRR1919932_00843 putative Chromosome segregation ATPase
ATGACGAATTATAAGCTTAACCGCTTTGGCTTCTACAACTATTTCAATTACAGAAATCAGACTTTTGACGCCAATACCCAGTCGATTGTATTTAACGGGGAAAACGGGTCCGGGAAGACCGCGACCATGCTCTCCCTTTTCCCAACGATCTTCTTAGGCAGCATGCGGGTTGTCGACAACAAGCGGAGTCTTGACTACTACATTAAGGCTGGTGAAGCCGGCTTTGCCTGGGCCGAATTTAAGGCAGATGATTTGCTTCAGACCCTGCTTTTGGCCTACAGCAAGTCAGCCGATGGATCAAATACCAACCACTATTACTACGTCTTAAAGCAAGGAGTTAAAGGTGATGACCTCCCCTACTCGACCAGCTGGCCGGAATTCCGCGGAGCCGTCAAGCCCTACGTTGAACGTCGCTATGAGACCCAGGCTGACTACCAGAATGCCATCAACCAGCTCTTCTTTGGCTTTGCCTCACAAAGTGAGATGCAGGAGTACTTCGAGCACCTGGCCGCTTTTGAGAAGCCGCCATTAAAGCAAACTGGCAGCACGGCTGAACTGGACAGTGCATTAAAGACTGCCCTGCCAAACCTCCGCCACTACGCGGACCGGGCAACGGTTGAAAACTTCATCGACAATGCCCTGGCCATGGTTGAAGAAGAAAAGAAAAAGGCAGAACTGGACAAGCTGAATAACGCTTTGGCCAAGACTGAAGAATGGGAAACTTTGACCAACAAGCCAACTCTGGCCCAGATCCAGAACTTCTACGGCAAGGCTAAAACTGAGCTGGGCCAAAAGCAAGAACAGTTTGAGAAATTAAAGGCTAGTCTTGCGGAAACTGAGGAAGCAATCGCCCAGCTGAAGAGTGACCAGGCAAGTATCAGCCAGGATTCAAAGGCTAAAGAAGGTGAACAGCAAGCTCTGCAGGCCGTGATTGATGCTAAGAACCTTGACCAGCTGTCACGTAAAATCGCTCAAACTAAAGATGAAAGAAACAACCGGGCAAGAGATTTTGAAGCAGCCCAAAAGGACCGCAAAAATGCAGAAAAGCGGCTGCTCGCTTATACCGAGGACGCAAGAAAAGAGAAGAATGCTCTCGTTATCCTTGAAGGCCGATTGGCAACGACCAAAACAGAACTTGCCAAGTATCAAGTTCAAGCTGATTTTGAAGAAAAGTACCCAGATGCAAAGGGTCTGCTGAAGAAACAAAAGCTGCTCCTGGATAAACTGGATAAATTAGCTGAGCAAAACCAGGAGCTGGCTACCGAGTTGGGCATTGTAAATCAAGCAATTAATGCTTTTGACGAGACCATCTACACGGATAACATTGCCTCTGCCCTGGCTGAACTTGATCAAGAAACAAGTGCCTGGCTCAAGGAAAGAGAAATCAGTTTTGATCAAGTGGCAGAATTTGACCTTGACGTTTATGAAGACAGACGGCATCTGCTGGAAAATGCCAGAGGCCAGTACCAAGAAGCCATCGCTGAGACCAAAAATGACATTCGGCTTGAAAAGACCCAGTTAAAGCACCTGAACTCTGATTTGGAAAAGCTGCAAGAACAGCCAAAACCAGAAACAACAGCTGAGTTCGAAGACGGCAAGCAACTTTTTGAACTGGTCGACTTTAAAGAAGGCGTGCCGAGTAACCTTCAGTTGCAACTGGAAAGCGACTTAAAGTACTCTAACCTCCTCTACGCCCTCTTTGATGGTCAGGAGATCAAGACTGGCTTGGAAGCTGATGGTTTTACTGCCAATGTAAATAATGCAAGTACGAAGGATCTCCCAACCCTCGCCGACTACTTAGTCAGTCAAGACGACCGGGTCAACGCCTTTTTACAAACGATTGCGGTTAAAGACGGTCATATCAGTTATGCCAGTGTCAATGTGCACAGCGAGAAAGGCACAGCAATCACCCATATCGGTGAAAGTAACCGGCAAAAGGAACGGGAAAGACAGATTGCCCTGCTGACGGAAGAAATCAATCAAGTTAAGCAACGCTTAGCGGATCTGGCAGACAAACTGGCCAGCTATCAAGAGCTGTTTAAACAAGCAGATCCTGCTACTTTCCCAAAGAGTAACAAGGTCACCGAAGCACAAATCGCTTATAATAATGCCCTTGCTGAACAAGACAAACGCTTAAAGAAGCAAGAAAAGCTGCAAGTACAGTTGGCTGACTTCCACCGGCAAAAAGAACAATTTACTAGCGAGCTCTGCCCAGACCTGCCAGCTGAGAGCAAGGAATTTGCCGACTACCGCCTGGCCTGGGACAAATACCAGGACAAGCAAGTCCAGCGGATTATGCAAGAAAATGACCTGCTTAAGCAAAAGGACCGGCTGGCTAGTGCAGAAAGCCGGATCAAGCAAGCGCACGCTGAATTATCTGAAAAGACAAAGCAAGTCCAGGACAAGCAAGACCGGCTGACTGAAATTAAAGCTCAGATTGCGACTCTTGAAAAGCAGCTGGAAGAAATCCGAAATGACCCGGAAACTAAAAAGCAGCTGGCTAGAAAGGAAGAACTGGACCAACTGCTCAAGGAGCTTGAAAAGCAACTTAACGAAATCGAATTCAAGTTGGAGCGAGAAAACAATCATCTTACTGCCTACCAGGAGCGCTTGCCAGAAAAGCAGGCAGCCTATGAAGATTTGGATCATGAGTATGCAGCAGTAAATGATCTGTTGGAAAAACTGAATTTAACTGAGAAGGTCAAGGATGCATCCCCTAACGACTGGAACAGTGAGCAAGTCAAGGCAAGCAACCAAAGTAAAGCTAACTTGGCTATGAGTGCCGTTAACAGCATTAACGATAAAACAGACTATCGGGTCGACAACAGCAAGCGTTTGGAATTTGAAGACATTGAACTTAGCGACTACCTGCTCGTTCAAGTCCAAAACTTGTTACATGAAATCGCAGTGGTTCACTACTACTACGGTGGCCAGGAGTTAGAACTCAGCAAGCTCTATGACGATATCCGCCAGCAGCTTGAATCATTCCAGGCTTCAGCTGACGATGAGGTTCAGCGACTGGCCCGCTACCTTAACAACTCGACGATTCTGCAAAAGATCCGCCAGGCCACTGCCGAAGCTACAACTTTAACTAAACAGATCAGCAAGTCCTTGAAGGAAAAGGAACAGACAAGCCATATCTCCTTCTATACTAGCTTCAGTGAAATTCCTGACTACAGAAAGGACTACCTGGCTGCTTTTGGGAACACTTCTATCGACAGTCCGGAAAGCCAAAACGCGGTTACCCTCTTGATGGACCGCTTCTGGACTTACATCAAGGACAATAACGATGAAATGACCAGGGATGAACTGGTTGACCACTTCTATGAGGAATTTGACTACAAGAAATGGTACAGATTTAACATCAGCTTCCGCCGCCATGCTGGTGACGCCCCGGAAAAGATGACTGACCGTAAGCTTAACGCCTTCTCTGAAGGGCAAAGAAGCCGGGCGATCCTTGAACCACTTTTGATCGTCTTAGAACTGGACGAAAAGAAGATGAGCAATCCGCTTGCTCCGAAGATCATCTTGATGGACGAGTCCTTCTCTGGTATCGATGATGAACAGCAAGAGCTGCTGCTGAAGAATATCTACGATATCGCAGATAACTTTATTGCTACTGGCTACAATGCCCGCCTTGCGGTACCAGAAAACAGTAAGGACACGACTTACTTCACCCTGATTGACCACACGGTTGATGGCAAGAATCACTTTATCTCTGTAGAACAGAGTATCGTTAGAAAAAATCGCTAA
>SRR1919932_00844 hypothetical protein
ATGGCAGAAATAGATTGGAGCCAGGTCATGCCGAATCTTCTGGCTGGCAAGACGACCGCTTATATCCGGCAGAACCGCTTGGCGATCAGCAAATACTTGAAAGATAAGTTCAATTTGGTCTTGGACCAGGACTTGCATCTACGGGCTTACTCCAAGACCCGTCCGGTTGGCATTGAAGCTGACAAGCGGGTCCAAGCGGATCCTCTCTTATACCGGGTCTACTATGAGACTTTAGCCAGATTGACCAGCCTGCAAGTCGGCATGACCATCCTCTACCAGGACATCGTTGCTTACATCAACGACAAAGAGAATCTGTCAGAGGCAAGTTCAGTGGAACTGTCCAAGTACTTGAAGCCGGTCATCGCCAAGCTGGAAAAGGACGGGATTATTGAACTCCGGGACCAGGACGACAAGGACTCCTTGTATGTCTTGACCAAGCAGGCAAAGCCGCAGGACCCAATTGATCTGGAAAAAGGGATGCAGACTGCTAACGATCTTGCCCGGCAAGAACTCCTGTTAAACGGCTTCTTCCGCAAGGAAAACATGGGCAAAAATGAGTACAACTACCTGCAGAATTCTTTTGAGCCCTTTTTTAACCATGAAAGTAAGCAAGGCCTGCGCTTAGTTAACGTTGACGACTACTTTATCCTGCTCAACTACTCCCAGCTGGATTTCCCCAACACAGTGCAAAGCAAGCTGGATGCCATGTCCGTTGAACTGGTCCAATTGATCAATGACAGCCGCCAGAGCCGCTTTCAGTTGCCAGAATTAGTTAACTTGGCCAAGCAAACTAGCAGCTACAAGACCATGACCGGGTCACAGAAAGCAACTGGCTTGAAGATGAAAGTAAGCGAACTCCTGAATGAACTGACCAATTATGGCCTGCTTTCTAAAGAGCAAGACACTGGCCTTTTGACAAAAGAGCAAGATACCTGGTTCACCACTTCTTTAACCGGATTAATCGTAAAAGATGAGGAAATGACTGATGACGAATTATAA
>SRR1919932_00845 hypothetical protein
ATGAATTTTTATGACAACCAGAGCTTCATGTCCCAGGCGGACGGATTTTTAAAAGCCGTGTCCTCACCAGGCCTGGCCCGGGACATAATCATCTATTTAAACAGCCACCCCATGGGGGAATACACTCCCCTCCAGCTTAGCGAGCAGCTTTTAGCTGACTATGACGAAGTCACTAAGATCCTTAAGAAGCTGTCTGAAAGCAAAAACTTAAAGTCGATCCCTTTAACCAATCAGGCTAAGGCCCGGTCAATGAAAGAGGCCATGCAGACCACGGCTTATGCCTTAACCAGCGAAAGCATGGAGCTCTTCCAGGCTTTTGACAAGATTGCCAACCTGCAAAAGCAGATCAGAGAATCCCTGTCCATGACGGAAACCGATGAACTGATCAAGAATTTACGGGAATTAAAGGAAAGTCTTGAAGGACTGCTGACAGATCCAGAGAATTTGGAACTGAAGCAGCAGCTTTTTAAAGACGGTATCTCCCTTTATGACTTGTCTTTTGGCTACAACAACGGGATCTACAACCGGCTGAAGAACCGGATCGACAGCTTCGCGACCAACATCCACGATCTGAACATGCAGGTCTTCCGCTTGGAGACTGATGCCAATACAACCAGTGACTTGAACCAGGAGTTGTTTAAACTGCGAGACGTAGTCAAGGAAGTGCTCGATAAGGTTGAAAGCAAGATTCCAGAAGTCCTGGAAACAATTTTCGCCTTAGAGGAAAGCCAGACTAAGATTGGTCCCAAACTCTTCTACCAGCCCCTGGCCGATGAACTGCTAGCCTTTAACGCTACCAAAAGCAGCGATGAATTGTCCGACATCATGGCTGGCAATATTGCAGACATTGCCCAAAGCGAACGGGATGGCAGCGGCCTCTATGCTAGCCTTTTAGACCGTTTAAGCGACATGTTTTTTGCCTTGATTGACCTCATCTCCCAAAACCGGGAAATCCAGGTCAGCAAGCAACGGGCTGAACGCTTCTTAGCCCAAGCGCAGAGCTTTCAAGCTGGCATGACAGCCCAGGAAATGGCCCTCCTTTTTGACCAATATGAAGGCACGCCTGTCTACCACCACTGGTTCATGTCCAAACATGCTAGTTACAGCCTAGATGATGAAAAGATCCACTACAACTTCACACCGAAAGAACGAAAGCGGGCCGAAGTCAAACTTGCCCGGTCCATGGAACTGACGGACAAGGAAAAAGCTGAACTCGCAGCTGAACAAGCACGGCACGCGGCTGAAAAAGCCAAGCAGGCAGAACTGGGACAAAATCTGATCAATAAAGCATTAATTAATTTGACTGACGAAGAGTTTGCCTTTTTGCAAAAACTGCTGGGGCAAAGTCATTTTGATTACCGCTTCTCAGCTGATGGTGACTTGTTAAGTGCCAGCGCTACGACTGGCGACTATCTTCTGATCAAGCAATTCCAAACGGAAAACATGATTATCGAATCACCAAAACAGAGCTTGATTTTATGCAATTGCAGACTGGAGGTAAAAAGCAGATGGCAGAAATAG
>SRR1919932_00846 hypothetical protein
ATGATTGATTGGCATGCTCTGACCAGAGACCTCTATCTTGAAAAAGGCGAAGACCAGCAGCTTAAAAATTGGCGGGTTACATTGACAAAAGCTGACCTGCTCGACCTTGGCTTGTTGACCAAGGCCAAGCTTGATAAAGACGGCAATTACAGCATCCCTTGCTACCAGATTTTCAAGCAATATGACCAGAGCCCAGCTGAAGTTTATCAAGAGCTGGAAAATAAATATGGCCCCCTGCTCTCTAAAAAAGACAGGCGCAAGCAAAAGGCCAGTGCTGACCAGGTTAAACTAGACAAGTTCAAAGAAGACGTAGCTCCAGCTTACGCGGCTTTTCTTGCCGAAAATTTCTCAGAAAAACAGATCATCAGCGACCTCTCCTTTTACCAAAAAATGGCAAAGGGCTGGGAGAAACCAGTTGAAGGTGTTTTGCTTCCAACTTTTGCCTTACAAGTGCTAGGCGACCCCCATGCCTTTGACCGGGGAAGACGGGGCCGCGGGCTTTTGGGAAAAATTATCCAAGCCCAGCTAGGTGAAGAAGGAACCTTAGAGGACTTCAACGTCTATCCCGACCAGCTCTACAACTTCGCGATGACCGCCAATCTGCTGGATACTCCCTTGACCTACGACATTATTGCCCTACCGGACATTGACCAAATTGCTTTACCGGAAAAGATCAAGGTCTACCTGCATGAAAATTCTGGCGTGACCACCGCACTAGCCAGCAAGTTTTCAGACCGGGCCTTCGTTTGCACGGGCGGACAGGTCAATCTTGCCACCAAAAAGCTAATCAAGCGCCTGCTTGCAAATTCTTGCCAGCTCTACTATTCTGGCGATTTGGACCAGAGCGGGATTAAGATCGCGGACAATCTTTTATTGGAATTTCCAGAGATTCACCTTCTTAACATGGATCTGAAGACCTATAAAGAACACTATCAAGCCAGTGTCCCGCCGGTAAAAGACAAGCAGATCAAGGAAGTAGAAAATCCAGATTTGCAGGAAGTATTGACTGAGATCCAGAAGAAAAAACGCGTGATTTTTGAAGAGGCCATCCATGAATTTTTATGA
>SRR1919932_00847 phosphoglycerate mutase
ATGGAAAAGATACTGTATCTCATGCGGCACGGGCAAACCTTATTCAACCTTGAACACAAGATCCAGGGTTGGTGCGATTCACCTTTGACTGAATTAGGGATTAACCAGGCCAAGATCGCTGGCCGCTACTTTACAGATAACAAGATTAAGCTGGACCACTGCTATGCAAGCACGAGTGAACGGGCAAGTGACACTCTGGAACTAGTTACTGGCGGCAAGCTGCCGTATATCCGGCTCAAGGGGATCAAGGAATGGAATTTTGGCCGCTTTGAAGCGATGGATGAATTATTGAACCCGCCGCTGCCTTACAAGGACTTTTTCGTCAAATATGGCGGGGAAGACCAAGAGGAAGTCGGGGAGAGAGTGGCTAAGACCTTGAGCCAAGTCATGCAGCAAGAAGACCACCATTCCGTTTTAGCCGTATCGCACGGCGGTGCCATGGTCTGCTTTTTACGTTACTATAAGCAGCCTTTACCTCACGAGATGAAAAACTGCACTATCCTCAAGCTGAAGTATGAAGACGGACAGTTTACCTTACTGGACTACTTTGAACCAAATTTTGGTTCAGTATAA
>SRR1919932_00848 antimicrobial peptide ABC transporter ATP-binding protein
ATGAGAGGAATAAGCGTTTATGCCGATCAGATTACAGCACAAGCAGGAGACAAGCTGCTGTTTCAAGATTTGTCTTTTCAAGCAAATGGTGGGCAAGCAGTTGCCCTAATTGGCCAGTCCGGCGCTGGTAAGACCACTCTGCTCAACCTGCTCGGCTTGTTAAGCCTGCCAAGCAAGGGAAAAATTCTGATCAATGGCGAGAATGCCAGCAGCTGGCCAGAAGGGAAAAGGGAGAGATTTTGGCGGGAAAAGGCAGCCTTTCTCTACCAAGATGCTGGAATCATCAATGAAGAAAGCTTGCTGTACAACGTTTCGTTGACTAAGGTGAAAAAAGGCCAGGAACAAGCCTTGCATTGCTTAAAAATACTTGGCTTAACGCAAGCTTATGAAAAAGCAGCCGTGCTTTCTGGTGGGGAAAAGCGGCGTCTGGGTTTGGCCCGCCTTTTATACAAACAGGGTCAGGTGGTCTACGCGGATGAGCCGACCGCTTCTTTGGACGCGGCCAACCGCCAGCTGGTCACTGACTTGCTTTTAAAGCAGGCCCAGGCAGGCGCGCTCGTCTTTATCGCCACCCACGATGAAAAACTGGGGCAAAAGTGTGACGCGCGAATTTGCCTGGGGGAATGA
>SRR1919932_00849 hypothetical protein
ATGACCATGCGTAATAAAATAAGTATTGCTGCTTCCTGTTTGCTCCTCTCCCTTGTTTTTCTGTATTCTCTTGGCCCCGGCCGCGATGCAGTAGACCGGCTGCCCTTGATCTGCAGTCTACTTTTATACGTTACAAGCCTGCTTTTGCCTTTGCAGCTTGGCTATCGTAAAGATGCCATTCGCCTGCTGGCCGGAATCAGCAGGTTGGAAATCTGCCTGGATAATTTTACCTGTCTCTTTGTTTGGAGCCTTTCTGGCAGCCTGCTTGGCATTTTGCTGTTTGGTCTGATTTTTCGTAAAAAAAGTATTTTAGGCAATTCTGCTCTTTTACTGTTGATTGAACTGGTCTTGATTTTCTGTTCACTCCTGCTGATGAAGCTGCCGGACAAATTTTGTGTCAGCCGCGGTTCTGTAAAAAAGCAAGGAAAAATCGCCCTGCGCTGCCTGCAGGTCTCAGCCTTGCTGCTGTTAGCCTGGTCCCTGCCGCAAGCGGCCTTGTTGGCCAAGAGTGCCTATGAAAATTACCAGTCAAAGGAAAAATGGCAGCAAGTTCCAGCCGCAGTCAGTTTTGATGATGACGGCCGCTTGGACCAAAGAGATCATTACCCGGCTGAACTCGCGCTCATCAAAGATGAAGAGCGGCAAGGCAACGCGGTTTTGTCCTTAATCATGGATGACCAGATGCAAACGTCAAAAGCTGAATTAGGGGGATATGACCACATTGTTTTCGTCAATGACCGGGCTTTAAAACTGGCCGGTATCAGCCACCAGGACCTAAAGGAAGTTGCCCTAGCCGATTTGCCAGCAGAAAGTCGGAATTTTTTGCGTAGAATCTTGCCACTTAATACCGCAAAGCGGCAAACCGTGCCGAAAGGGATGCACTTGTTGACCAGCCGGAAAAAGCTGGCCGCTTTAAATGAAACGCAAGATTTTCAAATTTGCCGCAAGCCCTTGCTCATCTACAGCAAACGGCCCAGCCAGATTTATGACATGCATGGCTTTTTATATCCAGCTTTGTCGACAGGCAATCTCTTCTTTATCCAGTCAGATAAGCTTATTCCTGCCTTAAAGCGGCGCGGCTTGACAAAAATTTACTCGCCAGAACCCTTCCGCTTGAAGCAACTCGCTCAAAGCAAGCTGGAGCTGGCCAAGCTCTACTTAAAGAGCTGCTTGTGGCAGCTGCTGAACTGCATCTTGCTCTTGTTTTTGCTAGCCAGCATCTTAAATTATCAAGCTGGAGCCTGGGTTCAGCTCAACCGGTCCAAGGTTTTCGCCTTGTTTACCAGCGGGCATAAGTGGAGAATAATTTTTACGCCTGCTGCGGTGGCGGCTGCCTTAGCGCTGCTTGTTTGTTTTCTGGTCACGGCCATCTTGCTTGTTCTTTACGCTGCAAGTCCTGCCGGCTTGCTGATCTGCCAGTTTTCCTTTATCCTGCTGTATACTTTGGTATATGGAAAGCTCTTGAGCAAAAAGAGCAAAACTGAAGTTAAACGGATGATTGGCCGGAAAGGATAG
>SRR1919932_00850 two-component system response regulator
ATGAAAGAGGAGCTGGGCCTGCGGATAGCGGTTTGCGACGATGAGGAAAAAGAACGCGCGAGCTTGCGGCAGTTGCTGGTCATGGAGTTAAACGCCGCACATGTCGACTGCTACGCGAGCGGGGATGACCTCCTTGAAGCAGGGAAAAAGTACAACTTGATCTTCATGGACATTGAAATGCCTGGTACAAGCGGCATGGAGACGGCCCGTCGCCTGCGCCGTGACAAGCGCGGCGATTTGCTGGTCTTTTTAACTGCTTATGACCGCTATATGCCTTCCGCCTTCGAAGTCAAGGCCTTCCGCTACCTGCTCAAGCCCTGGAAGAAGGAGAATATTGCTTTGGTTTTGCGGGCTGCTTACCAAGAAATCCTGGCCAGGCAGCTGCTAGCAGTTCCTTTGCCGGACAAGGCAATGACCGCTCTGCCCTTAAATGAAATCCGTCTGCTGGAAAGTTTGGGAGACCAGAGCTGCATCTATACGGCTGACCAAAAAGTAATCAGCCCAGAACCCTTGAAGTATTGGGAAAAACAACTGGACAGTGCCTTGTTTGGCCGGGTGAGCAGGCAATACATCGTGGCTTATCAGCATATCAGTGATCTAAAGCATAATCAGCTCTACCTTGCCGGCCTAAAGCAGCCAATCCTGCTTCCCCGCCGCCAGGTCAAGGCTGTAGAAGCTGCCTGGCTTGACTACCTGCGCTTTTATGCCCAGCCGCTGTGA
>SRR1919932_00851 two-component system sensor histidine kinase
ATGAATTTGTTTATCGATTCCGTGACGCTTTTGAACACGGCTTTTATCCTGCTGCAGTTCAGCAAGCTCTATCTGGCTTTTGCCTATCTCTTTGCTGAGAAAATCAGGCCGGTCTGGCTGCTGGGGATTTACGTTTTTGGTCTGGCGGCCTACTGCCTGGCCGGTCCCCAGCTGGGCTTGTTGAATGAAGCTTTGGTCTATGCCTTGCTTGCTTTGGGCCGGACTTTGCTGGGGCCGTTGAAAGAAGGAGACCTCAGCCAGCTGGGCAGCTATGCGATTTTAAGCCTGCTGGATCTGAGTCTAAAGCAGCTGATCCGCCGGCAAGAAGTGGGCGCGGCTGATCTTGTTTTTGAAGCTGCCATAGCTTTGACTTTCGTTTACTTGTTTTTGGCGCCTAAGGTCAAAAATGTTTTTGACAGCTGGCCGGACAAGGACAAGTGGCTGCTTGTTTTCCTGGAAATTCTGGCTTTGGGTGCGGCGAGTCTGACAGCAGGCCGCTTTCAAGCCTATCTTCGCCTGCAAAAGCAACTGCCAGTGCTAGAGGCCTGCCTGGCCGGGGCTGCCGTCTGGCTGGACATGGCTCTTTTGCAAGGACAGTTTAGGGTTTGGAAATTAAAAGGCGAGATGAGTGAACAAGAGCAGCTTCTCCAAGCTGAGGAAAACTATTATGAATCGCTTTTGGCCCGGGAGAAAGAAACCAAGAAATTCCGCCACGATGCCCGCCAGCACTTGGTCAGCTTGCAGGGCCTGGCTCATGCCGGCCAGTACCAGGAACTGACGGCCTATATTGACGACCTGGTTGGCAGCAGCCAGATGACCCGGCGATTGATCGATACTGGCAACAGCGGAATCAATGCCGTGATTAGTGACCTGGCCGCCCGGTATCCGCAGGTTGAAATCAGCTGGACCGGGGTGATTCCCGGCAACTTAGCCTTGCGGCAGCTGGATCTGTGCATCATTGCCGGCAATCTTTTGAAAAACGCCTGCCAGGCAGCCTCACTGGCGGCAGACCACCAGGTTAAGGCAGGGCTGAAGTTTTCCGGGAAAACCATGCTTTTAACCGTGCTTAACCAAACAGAGAAGAAGGTCAAGATCGGGTCAGAAAGAGATAATGTTGTAGCAAACGGCCGGGTAGGGATTGGCTTAGGCAAGGTCAAATCCTTTTTGGAGCCTTACCATGGCCGCCTGCGGCTAACTTTTAGCCCGCAAGCGCTGGCCAGCGGCGGGGGAGAATTCAGAGCTGAAGTCTTGGTGCCAAATGCTTTGGAAGCACCCCGGGAGTTTTAG
>SRR1919932_00852 nucleoside deoxyribosyltransferase
ATGCCAAAAAAGACGATCTACTTCGGTGCCGGCTGGTTCACTGACCGCCAAAACAAAGCCTACAAGGAAGCCATGGAAGCCCTCAAGGAAAACCCAACGATTGACCTGGAAAACAGCTACGTTCCCCTGGACAACCAGTACAAGGGTATCCGGGTTGATGAACACCCGGAATACCTGCATGACAAGGTTTGGGCTACGGCCACCTACAACAACGACTTGAACGGGATCAAGACCAACGACGTCATGCTGGGTGTCTACATCCCTGACGAAGAAGACGTCGGCCTGGGCATGGAACTGGGTTACGCCTTGAGCCAAGGCAAGTACGTCCTTTTGGTCATCCCGGACGAAGACTACGGCAAGCCGATCAACCTCATGAGCTGGGGCGTCAGCGACAACGTGATCAAGATGAGCCAGCTGAAGGACTTCAACTTCAACAAGCCGCGCTTCGACTTCTACGAAGGTGCCGTATACTAA
>SRR1919932_00853 PTS sugar transporter IIA component
GTGACTGAAGAACTCTTAAAAGCGGAAAGCTGTTTTGTTTTGCGGGCCGAAGACCGGGCTGACATGTTTGCCCAAGTCTACAAAAAGCTGCTGGAGCAGGGGCTGGTAGCGGCCGGCTTTTTAGACCAGGTGGTGGACAGAGAAGAGGACTTTCCGACCGGCCTGGCCAGCTGCAATCTGGCCCCGGGTCTCCCCAACCTGGCTTTTCCGCACACGGAAGGCTGCTTCGTCAAGCAGCAGCGGGTCGTTCCCATTAAGCTGCTGGCCCCGGTCAGCTTCAAGAGCATGGTCGATCCTAGCCGCGAATTGCCAGTTGGCTTTTGCTTCATGCTGCTGGACCAAAAGGCGGACGGCCAGGCTGAACTTTTAGCCAGAACCATGACCTTCCTCAGCCAGGCTGAACCAGCAGACCTCAGTTGGATTTTTGCCCAGACTGATCCTGCCGGCTTGTACTCTGCCCTGCGGGAAGAGGGCTTTTAA
>SRR1919932_00854 transposase
ATGACTGAGAAGATGAAAGATGCTGTCTATACAAAACGCTATGTTTACAACTGCCATTATCATCTGATCTGGTGCACTAAATACCGCAATCAGATCTTCACGACTAGCGAACTGGCAAGTGAGATGAAAGAGCTGATTATCGATACGGCAACAAGCAATGATATCCAGATTGAGAAACTAGAAGTTATGCCAGAACATGTCCATGCAATGATCTCCTTCAGACCGTCAAAATCTATCAGCTCAGTAGTGAAAGCTCTCAAGGGCCATACTGGATACGTATTTTTGCGAGACCACCCAGACGTACGGAAAAACAAATGTTGGGGCGGCAACTTGTGGTCATCCAGCTATTACATTGGGACTGTAGGCAATATGTCCAAAGACACCATAGAAAGATATATCAACGATCAGATCTACAATGCAAAAAAGGATGGCAAACCCTATCCATCCACCCATTGA
>SRR1919932_00855 transposase
ATGGCAAGAAAGCAATTGATGATCTCCATGTCGGATCTTCCTTATCATCTTGGAATTAAGATGAGGATCTACCCAAGCTCCCAGCAGAAAAGAATAATTGCCATCAACTGTGGCGTAAGCCGGGCTGTATACAACAAGCTGATTGCTATAAATTCTGAATTGTTGCATCTTAGAAAAACTGGCATCTATATCCAAACAGTAGCTGAAAGAATTGAGACACTAGAACTGCGGAAAAAGAAGCTGTCTAAGTATTATTCCTATATGTCTGTCAATGACGTTGACAGCTTAGCAGTAGCCCAGGCTAAACTTAACTACAATGCGGCTTGGAATATGTTCAAAAAAATTCACTCTTCCGGCGTTCCCAAATACCACAAGAAAGGCGTAAGCGACAGCTATCAAACTTCTTGTACCTACACAACCGAAAACAAGAAAAAAGGAAACTGTACGCCTTTCTCCGGATCAGTTAGGTTCCTGGACACAAAGCACGTACAATTGCCTAAGCTAGGAAGAATTAGAATAAGTGGATCAAGCTATCGAAAAATTCTTGCGCATAATCCAAATTTCCGGATTGGGACGGCAACGATCAAGTATGATACTTCTGGCTACTATCTCTCTCTTCAGATTGGGGACGTGGCGCCTTTTATCGATCCAAAGCCAAAAACAGGCAAGATCACAGGCATTGACTTGAATACCGACAATTTCTTGACGGACAGCAGCGGTAATGTTATTGACAATCCCCGCTACTACCGGAAATCATTAAAACGGCTGAAAAGCCTGCAAAGGCGGATGTCAAGAAGACAAGTGCGGGCAAAAAAGGAAGGCCGCAAGCTAGCTGAAAGTCGGAATTATCAAAAGTCCCGCCTGCAAGCAGCCCGCCTGCACCAGCACGTCAAAAATCAAAGAGAAGACTTCTTACAGAAATTGAGTACTGCATACATCAATAACCACGACGTAGTAGTGCTTGAGGACTTGAGAGGAAAAAACTTGATGAAAAATCATGCCTTGGCAATGTCAATTGCCGATGTTGGCTGGTACAGCTTCCAGAGAATGCTTGAATACAAAGCAGATCTCTATGGCAAGAAGTACATTGAGATCGACAAGCGCAATACCACTCAGCGCTGCTCTAATTGTGGCAGCATCATGGGGCATAACGGCTATCCAAAGCTTACCTTGAAAGACAGAGAATGGGACTGCCCAATCTGCAAAGCCCATCATATCCGGGACTATAACGCAGCTAAGAACATTCTGGAAAAAGGCATAGCCAAGTTAGAGGAAGAAGAATATTCGATCATTCCTTATAAAAGCTAA
>SRR1919932_00856 protein tyrosine phosphatase
ATGACTTCATTAAAACAGCAATTGCTGGACGTTAAAGGCGGCCGGAACTTCCGTGAACTGGGCGGCTACCAGACCGTTTCCGGCAAAAAGATCAAAATGCACAAGCTGATCCGGAGCGGGCACTTGGCCGACCTGCTCAAGGAAGACCAGGAATACCTGCGCCGCTACGGGCTCAAGTACGATATCGACCTCCGGACCAGTTTCGAAAGAAACAAGCAGCCAGACCGGAAGATCGCGGGCGTTGAGTACTTCGCCGACCCGGTTTTCGATGAGGACTTGACCAACTCCACCATGAGCATTTCCGACATGGCGAGAGAAAGCCAGGATCCAGGCTGGGGCTACCAGCGGATGCTGTGGGCCTACAAGAACATGGCAACCGGGAAGAACGCCAACAAGGCCTACCAGCACCTGTTTGAAGTTCTCCTGGCTAATGAAAAAGATGGCGAGAGCGTGCTTTTCCACTGCACGGCTGGGAAAGACCGGACCGGTTTCGGGGCAATCCTGATCTTGACGGCCTTGGGCGTACCGATGAAAACCATTGAAAAAGACTACCTCTTCACTAATGAAGTAATCAAGGACTTCGTCAGCCAGCTTTTGGCCAAGGAAAAGGCCGCCGGAGCTGATGACAGCCTCCTGGCAACCTTCCGCGATTTGCAGACTGTGCAGCCGGACTACTTCAAGTACCTGCTGAATGTCATCAACCGGGACTACGGCAGCATCAATGCCTACCTGCACCAGCAGATCGGCCTCTCTAATGCTGACCTGTTGGATTTGCGGACGATATACTTGGAGAAATAA
>SRR1919932_00857 universal stress protein UspA
ATGACTGAAGAAAAAATCAAAATTTTAGTACCTGTCGATGGATCTGAATCCGCTGAACGTGCTTTTGACAAGGCCGTGAAGATCGCCGTCAACAACGGCTACCACGTTGATGTTTTGAACGTGATCGACACCCGGCAGTTCATGGGCGAAATGCAGGACACCTTGATCTCAGGCGACACGATCTACCAAATGACCCAAGACTCAGAGGAATACCTCAAGAGCCTCAAGCAATGGGCTCACGACAACCTGGCCTTTGACGACATTGACTACCACATCCGTTACGGCAGCCCGAAGAGAATCATCTCTTACGACTTCGTCAAGGACCACGGCAACAACCTGATCGTGATGGGCGCCACCGGTTTGAACGCCGTTGAGCGGATGCTGATGGGGTCAGTTACCGAATACGTCAACCAGCACGCCATGGCCGATGTCTTGATCGTCAGAACTGACGTCAACAACATGCCTGCCAAGTAA
>SRR1919932_00858 phosphonate ABC transporter substrate-binding protein
ATGAAAAAGTTCAAGAAAGCATTGTTTGGTGCTTTAACTGTTGCTGCTGCCGTGCTGGCAACTGCTTGCTCTTCAAGCAAGTCATCTTCTTCATCAAAGGGCTACACTCCATCAAAGTCACACCCTTTGACGATCCAGTTTGTTCCTAGTCAAGCTGCTTCCACTTTGGAAGCCAAGGCTAAGCCGCTTGAAAAGATCCTTTCCAAGAAGCTTGGCGTTCCGGTTAAGATCTCAATGTCAACTGACTACAACACGGTTGTCGAAGCCATGAAGTCAAAGAAGGTTGACGTCGGCTTCCTGCCACCGGATGGTTACGTTCTGGCCCACAAGCAAAAGGCTGCTGACGTTCTGTTGCAAGCTCTCCGTTACGGGGTAAAGCAACCAGGCGGTAAGGCAACCAACAAGCTGGTTAAGTTCTACCGGTCAGAAATCCTGGTTAAGAAGGGGTCAAAGATCAAGAGCTGGAAGGACTTGAAGGGCAAGAAGATTGCCGTTCAAAACGCTACTTCTTCAGCCGGCTACATTTTCCCAATCGCTGAATTGAAGGAAAAAGGCCTGGACTTGACTAAGAAGGGCAACGCCAACCTGGTAACTGTAACTGGCCACGACCAAGCCGTGCTTGACGTTCTTAACGGGGACGTTGATGCTGCCTTCACTTTCGAAGACGCACGTAACACTGTTTTGGCCGACCAACCAAACATCATGAAGAAGGTTGTTCCAATCTACTTCACTACGGGCATCCCTAACGACACTATCTCAGTTCGTTCAGACATGAGCAGCTCCTTCCGCAAGAAGCTGTCCAAGGCCTTCGAATCTCTGCGCAAGGACAAGAAGAGTTTGAAGATCATTGAAAGCATCTACAGCCACGAAGGCTACACCCCTTCAAAGGACTCAGACTTCAACATCGTCCGCAAGTACGACAAGATGGCTGCTACCAAGTAG
>SRR1919932_00859 phosphonate ABC transporter ATP-binding protein
ATGGCAGAACAGCCGATGATCGAAATGAAGAACGTTACCAAGGTCTACGACAATGGTACCGTTGGTTTGAAGAACATCAACCTGAAAATCAACAAGGGTGAGTTCGTGGTAATCGTTGGTCTTTCCGGTGCCGGCAAGTCCACTCTGCTCCGGGCAATCAACCGCCTGCACGACATTTCTGAAGGCGACATCTTGATTGACGGTGAGTCAATCACCAAGGCCAAGAGCAAGAACCTGCGCCTCATGCGGCGCAAGATCGGGATGATCTTCCAAAGCTTCAACCTGGTCAAGCGCTCCAGCGTTTTGCGGAACGTTTTGGCTGGCCGCCTGGCTTACTACCCAACCTGGAAGACTACTTTCAACCTCTTCACTGACGAAGACAAGCAAAGAACTTATGAAGCCCTGCAAAGCGTCGGCATGGCTGAAAAGGTCTACTCCCGGGCTGACGAATTGTCTGGTGGTCAGCAGCAGCGGGTGGCTATCGCCCGGGTGCTGACCCAAAGACCGGAAATCATTCTGGCCGACGAACCAACTGCTTCTTTGGACCCGAAGACTTCCCGCCAGGTTATGGAAGACTTGAAGATGCTGAACGAAAAGTTTGACATGACGGTCGTAGCCAACCTGCACTCAATTGAACTGGCCAAGGAATTCGGCCACCGGGTCATCGGTGTCCGGGCCGGGGAAATCGTTTATGACGGCAAGATGGAAGACACGCCACAAAGTATCTTCGACAACATCTACAACGGCGGCAAGGGTAAGGAGGAAGACTAA
>SRR1919932_00860 phosphonate ABC transporter permease protein
ATGTCAGCAACTGACCGCGACATGTTAAAACTTCCAAAAAAGAAGTTTAAGATGTGGAACTGGGTCTGGGTCATCTTGATGGTCCTGGGTCTGGTTTTATCTGTTAACAACACGCAGACCAGTCTGCCGGAATTTTTCGCCAACTTTGACCAGTTCGCGGAAATCTTCGTGCAGATGGCTCAGCCGGACTGGTCATATGCCGGCACTGCCATTCCTTACCTGGTGGAAACGATCAAGATGGCCATCATCAGTACGGTTATCGGGTCCCTCTTGGCCTTCGTTTACTCACTTTTGATTGCCAGAAACATTGTCCATAACCGGGCAATTACCGGCGTTCTGCGCTTCATCATGAACATCATCAGAACGATTCCTGACCTGCTCTTGGGTTCAATCTTCGTTGCTGTCGTTGGTATCGGCCCAGTTGCCGGTATCCTGGCCTTGACTGTCTTCACCTTCGGTGTTGTGGTCAAGCTCTTCTACGAAGCCATCGAAACTATTGATCCAGGTCCAAGTGAAGCCATCAAGGCAGTCGGGGGCAACGGGATGAACAATATCATGTTTGCCGTTATGCCGCAGATTCTGCCTTACTTCATCAGCTACGCCCTGTACGCTTTTGAAATCAACGTCCGGGCATCCACGATCCTCGGTTACATCGGTGCCGGTGGTATCGGTCTGCAGCTGAAGAACACTTTGGACATGTTCAACTACAACCAAACGGGGATGATCATCCTGGTTGTCTTTCTGGTTGTTTTGGTCATCGACTTTGTTTCAACTAAAGCAAGGGAGGCTTTGATGCGCTAA
>SRR1919932_00861 phosphonate ABC transporter permease protein
ATGGATACGACAATGAAGAAATTACCACCAAAACCAGTGACGGCCAAGTCCAGAGCTATTAAGTGGGGCGGCTGGATTATTTCCATCGCCATCATTATTTGGTCCTGCACGGGCATCGACTTCGGCGGGATCAAGCCAACTGCCGGCCAGATTACCGGGGCGATCTTCAATGGTCTTTTCCACCCGGACTGGTCATACGTTTATAACGGCAGCGGGGAAGACCTGGTTTCCCAATTGTGGCAGACCTTGTGTATTGCCTTCCTGGGGACTTTTATCTCCGCCATCATTTCAGTTCCTTTTGCCTTCTGGGCAGCCAACACCCGGCACAAGAAGTTCTGGGTATCTGAAAGCGGGAAGATCGTTTTGACTTTCATCAGATCCTTCCCGGAAATCGTTCTGGCCTTGATGTTTATTAAGGCCGTTGGCCCGGGCGCTCCAGCTGGTGCCCTGGCCTTGGGTCTGCACTCAGTCGGGATGCTGGCCATGCTGTTCTCAGAAGCGATTGAAAGTTTGGATGATGGTCCAGCTGAAGCGATTACGGCGGCCGGCGGGTCTAAGTTCAACGTTGCTGTTTTCGCGACCATGCCTGACTTGATGCCAGCCATCGTTTCCAATACCCTTTACCGTTTTGACGTGTCCGTCCGGTCCGCTTCTGTTTTGGGTCTGGTTGGGGCCGGTGGTATCGGCTATCCTTTGATCATCGCCTTGAACTACCGGCAATGGAGCCGGGTTGGGATCATCCTTTTGGGGATCATCGTTATGGTTGTGGTCATCGACTGGATCTCTGGCGCCATCCGGAAGAAGTTGGTCTAA
>SRR1919932_00862 oligopeptide ABC transporter substrate-binding protein
ATGAGAAGCAAGAAACTTTTAGCCAGCTCAGCCATAATCTTAGCTAGCGCGGCCACTTTAGCCGCCTGCGGGTCAAACAGCTCACAAAGCAGTGCCAAGAAGCAGACCCTTACCTGGATGAATACCGCCGAAATGACGACCTTGGATGCATCCAAGGCAACCGACCAGGCATCATATGAACAAATCAACAACGTTGAAGAAGGGCTTTACCTTCTGGGCAAGAACGCCAAGGTCCAAAATGCTTTGGCCACTTCCACCAAGAACAGTGCCGACGGCAAGACCTGGACTTTCACCATCAGAAAGGACGCCAAGTGGTCCAACGGTGATCCGGTAACTGCCAAGGACTTCGTCTATTCCTGGCGCAGAACCATCGACCCGAAGACCGCCTCTGAATATGCCTATTTGTTCAGCGGCATCAAGAATGCCGACGCGATCGTTTCCGGCAAGAAGAAGCCAGCAGCTTTGGGCATCAAGGCTGACGGCAAGTACAAGCTGACGGTTACTCTGGAAAAGCGGATTCCTTACTTCAAGTTGCTGATGGCCTTCCCGCTCTTCTTCCCGCAAAATGAACATGCCGTCAAGAAGTTCGGCTCCAAGTACGCGACCTCATCCAAGTACATGGTTTACAACGGTCCATTCAAGCAAGTTGGCTGGACCGGGTCCAACTTGAGCTGGAAGCTGGTCAAGAACCCAACCTACTGGGACAAGAAGAGCGTCAAGCTGGACACGGTCAAGTTCAGCGTTCAAAAGACCCCTTCAACCGACTACAACCTTTACCAAAGCGGCAAGCTTGACGCTGCCTTCCTGGACGCCCAAGCCACTAAGTCTTTGAAGGGCAAGACCGGCTACACCCAGCGGAAGATGTCCACGACCCAATACCTGTCCTACAACCTCAAGAAGCACCCAGAATTCAAGAACAAGAACCTGCGTCTCGCCATCTCCATGGCCATCAACCGCAAGGAACTTGCTTCAACTCTGGGCGGGGCTGCAACGCCAGCTACAACCTTTGATCCAGAAGGCATGACGACGGTCAATGGCCAGGACTACGCGGACACGGTCAAGAATGCCGCAACTGAAAAGGCCGCAACTTACAACGTTAAGGAAGCCAAGAAGCTTTACAAGCAAGCATTGAAAGAAACCGGCAAGAAGAAGATCTCCTTCACCCTGCTGGGCGACGACGATGACACGGCCAAGAAGGCAGCTGAATTCGTTCAAAGCCAACTGGAAAACAACTTGGGCATCGATGTGCAAGTGCAAAGCATCCCGAAGAAGACCCGGCTGACCAGAATGATGAACGGCAATTTTGACGTCGTTTCAACTGGCTGGAACGCCGACTTCTCCGACCCAATTTCCTTCCTTGACCTGCAGACTACTGGCGCTTCATACAACTACGGCAAGTGGTCAAACAAGACTTACGACAAGTACGTTGCCGCTTCTAAGACGACCAGTTCAACCAGCGACCGCTTCAAGGATCTGGCCAAGGCTGAACAAGTCCTGCTGGCAGAACAAGGGGTTACTCCACTGTACCACCCAATCGAAGCCTGGATGGTCAAGCCGAGCGTTAAGGGCGTGATCTACAACGGCGCCGGGGCAAACTACAGCTTCAAGTACGCTTACCTGAAGTAA
>SRR1919932_00863 hypothetical protein
ATGGAAAAATTAACTACCATGGAGCTGGCTGACGAGTTAGCTGAAGCTCAAGACAAGATTCTTAACGGTGAAGCAAAGCTGGATACCGGCCGGGTTTACCAGGCCATCGATGATTTGGGCGTCTTGAACGATCCCATCAGCAATTACTTCGACCGGACCGAAGATGAATACTATGAAACTGAAAGTGACCACTACCTGGCTTTGACTAATCTGACTGGCAAGCTGGGCGACCTGCACGACCGCATCTTGACCAACCACGTTGACGGTTTCGTTGACAAGGACGAAATCAACCTGACCTACAACCACGAAAATGCCTACGTGGAAGACAATTACGTGCCAAGAACCGACCTGCACGTTTTGGTCTACGGGCTTAAGGTGATCGGGGCGGTCGAAGCCATCGCCGCTGCCGACCTGCGCAACGTCTTGTCCAAGGATGCCGTGCTTTCCTTGGGCCTGGCGGCACACGCATTAGCAGAAAATCTATAA
>SRR1919932_00864 serine/threonine protein phosphatase
ATGGACCTGTTTAAATACACAAAGGGAATTATTGACAAGGCAGTTGGGGCTTCCAAGCTGCACGCCGTGCAAAAGAATGCCGGCGAGCTCCTGGATCCCATGCAGAAGTATCTGACGGTAGGGGAGTACCATGTCGATGCTCGCGACGCCACGCCTGACGGCCGGCCGTTTACCTTGACGGTCTACCAAGATGACCAGGGCATCCTGCACCAGGCGCTCAGTCCGGAAAGCACCGACAGCCTGGCCGCTGAATACGACCGGAAATTCGTGCCGGAACTGAACCGCTTCAAGGCTTTCCGCAACCGGGAAACGGGCCGGCGCTATGTCGTGGAAGACTACCTGGCCCGCTTTGCCAGCGACGTGAAAAAGGAAATCCGGGAAGGAGACGACTCTGTCAATATCGGGGTCATTACCGACACCCACTTCAAGAACGTTGACAGCCTAGACTTCTATGGCTGGAACGGCTTGATGCATGTCAAAGAGTTTTCCTACCTGGACCAGCTGGATATTTTGGACCTCAAATGCCACTTGGGCGACTGGATCGACGGCTCTGACGCCGGCCTCATCAGCGAAAGCGAACTGATGAAGCTGCGGGACTCCTTTAAGTCCAGCAAGGTGCCTTACCTCATGATCAAGGGCAACCATGACGAAAATGACAAGTTTGACGAGCACCATGACTTGAAGGCCAGCTTCCCGGAGCGGGAGTTTGAGAAGATCATGTGGCCGGAGATGTACCGGCAACGGGAATTGGGCTATGTTTCCCGCCAGCACGGGGTGGCCTGGTTTGACCAGGGCCATGTCCGGGTGATCAGTCTGAATACGTCAGACATTCCCTACATTTTGAATGAAAAAGGGCAGAAAAAGTACGATGTTAAATTGACCCTGGGGGTACGGGAAGACCAGGTGCAGGAACTGATCGAAATCCTGCAGCAGTCAAGCGGCAAGCAGGTTATCCTGCTCAGCCACGCCAACCCGATCAACCGGAAGGGCGGCAATGCCTTGAAGTACAACGGGCGATCCCTGCATGAACTCTTGGTGGCCTTCAACCAGAAGGAAAAGGGCCGGATGCACTCCAGCAAGGACGTGCCGGCGGAATTCCGCTTGAGCAACGACTTTGACTTCACCAATGTCAAGGACGCCCGGATCATCGCCTACTTCTGCGGCCACCGGCATGTGGAAGACCAGTACCGGATCAACGGCATCCAGTACGTTCTGTTCAACTGCTCAGCCTTGATGGGACCCAACCACCAGCTGACGACCAAGTATAACAAGAACTTAAACCGGAAGATGGACCACCAGAATGAATTTGCCGGCTATGTCGTCAACGTGGACCTTTTCCGGCGGCGGATCAAGGTCTTTGGCTATGGGGCCGCGACCAGACGGAGAATTTTTTTCATTTAA
>SRR1919932_00865 asparagine synthase
ATGTGCGGAATTGTCGCCTTTTACGATCCAAAAATCAATGACAAGCAGGCGGCCATCGGCAAGATGATGGCTACCATCCAACACCGGGGACCAAGCAGTGACGGGATGTACACCAACGACAAGGTGGCCCTTGGTTTCAGAAGACTGTCGATTATCGACCTGCGGGGCGGTAGTCAGCCAATCTACAACGAAGACCGCAGCCGGGCGATCATTTTCAACGGGGAAATCTACAACTTCAAGCCCTTAAGAGAGGAACTGATCAAGGCGGGCCACACCTTCTCCACCAAGGCCGACACTGAAGTCATCCTGCACGGCTATGAAGAATGGGGGATGGACGGGATCCTTAAGCGGGTCCGGGGGATGTTCGCCTTCATCATCTGGGACGACAATACCCAGACCATGTACGGGGCCCGGGACTTCTTCGGGATCAAGCCGATGTACTACCAGGACGTGGACGGTCACCTTTTGGTCGGCTCAGAATTGAAGAGCTTTTTGGCCTTCCCTCATTTTAAAAAGGAACTGAATACCGAAGCCGTCAAGCCATACCTGATGAACCAGTACAACGACCTTAAGGAAACCTTCTTCAAGGGCGTCTACCGCTTCCAGCCAGGTCACTGGTTTGAATACAAGGACGGCAAGATGAAGACCCACCAGTACTGGGATGCCGAATACAAGGACAACAACCTTTCCTTTGAAGAAACAGTCAAGAAGATCAACGAAGACTTGAAGGAAACGGTTGACCTTTACCGCAACGCCGACGTTAAGGTCGGGGCCTTCCTTAGTGAAGGGGTTGACTCCAGCTTCCTGACGGCCCTTTTGGACCCGGATGAAGTCTTCTCCATCGGCTTTGACGACAACACATACGATGAAGCTTCCAAGGCCAAGGCCCTGGCCGACATCAACGGCTGGCACTTCTACGCTGACAAGGTCTACTCAGAAGAAGCCATGCGGGACTTCCCGGAAATGCAGTACCACATGGACGAACCAGACGCCAACCCGTCAATCATTCCTTTGTGGTACCTGTGCAAATTGGCCAGAAAGCACGTGACTGTTGCCCTGTCCGGGGAAGGAGCCGATGAGCTTTTTGCCGGCTATGTCAACTACGGGATGCACACCCACAACAATGTCATCAAGGTCTTTACCGACAAGCTGAAGAAGCTGCCAAAGGGCAAGCGGGTTAAGCTGGCTCATAAGATCAAGAAGATGCCAAACTTCCCGGGCAAGGTGCACCTTTACACCAACCTGGCTGAACCAAGCGAATTCTACGTGGGCCAGTCAGTCATCTACGACATGGACTACCCGACTATCTTCACTTCTAAGGACGCTAACGCTGTCTTGCAGCCGAGCTACCGGAACAAGCTGACGGTTAACGGCAACTACCAGGAAGACTTCAAGAAGGTCAAGGACCTGGACAATGTCAAGCAGATGCAGTACATCGACCTACACCACTTCATGCTCAACGACATCGAGCAGAAGGCTGACAAGATTTCCATGGCCCACTCCCTGGAACTCCGGGTGCCTTACCTGGACGTGAAGATCGCCAAACTGGCCAACTCTATTCCAAGCAAGTACCTGGTCAACAAATACGACACCAAGTACGCCCTGCGCAAGGCTTCAGAACAGGTCCTGCCGGATGAATGGGCCAAGCGGCCGAAGCTGGGCTTCCCGACGCCAATTAAGCAATGGCTGCAGGAAGAGCGTTTCTACAAGCAGGTCAGAGACCTCTTCAGCGAAGACTTCGTCAATGATATTTTTGAACAAAAGAAGATCCTGGACCTGCTGGATGAGAACTACAATGGGGACGGTTCTCACCGCCGGCAGATCTGGGCAATCTACACCTTCCTGGTTTGGTACAAGCTCTTCTTCGTTGACTACGAGGAAACCGTGCGCAAGTACCAGCACGTGCAGCCGGAAGTGGCCAGCTTGATCGCCCAGGGCAAGCTGCTCTAA
>SRR1919932_00866 carboxylate--amine ligase
ATGGCTAAATTTACACCAATTTTGCTTGGCAGCGACATCAACGTCTACGGGATGGCGCGGTCTTTTAACGAAGCATACGGCATCAAGGTCCAGGCTTGGGCGGCAACGCAATTGGCGGCCACCCGCTATTCCAAGATCGTGGACGTTGAAGTGCACCCTGGTTTTTCCGAAGACCCGGGCTTCATGGAAGTCATGCAGGAAAAAATCAAGGAATACCAGAATCATGAAGAGCCAGTCATTCTGATCGCTTGTGGGGACGGCTATGCAGAACTTTTGGCTAAGCACAAGCAAGAACTGGAAGGGACCTTCGTCGTTCCTTACATCGACTACCAGCTTTTGGAAAAGCTGATCTCTAAGGAGGGCTTCTACGAAGTCTGTGAAGAATACGGCCTGCCTTACCCGAAGACCAAGATCATCAAGCTGGCTGACTACCAGGATGGGTCATACGCCGACGTGCCTTTTGCCTTCCCGGTTGCCTTGAAGCCGGAAGACCCGATTTCCTGGCTGGATGTCCAGTTTGAAGGGCGGAAGAAGGCTTTTGTCATCAAGGACCTGGCTGAATTCAAGGACATTGTGGGCAAGATCTACACCAATGGCTACAAGGAAGACTTGATTCTGCAGGACTTCATCCCGGGCGACGACTCCAACATGCGGGTCTTGAACGCCTACGTGGACAAGAACCACCAGGTCAAGATGATGTGCCTGGGCCACCCGCTTTTGGAAGATCCGACTCCGCAGTCAATCGGGAACTACATGGCTATTTTGCCGGCCTATGATGAAAAGCTTTACGAGACCGTCCAGACCTTCCTGGAGAAGATCAACTATGTCGGCATGGCCAACTTCGACATCAAGTACGATGCCCGCGACGGCCAGTACAAATTCTTTGAAATCAACCTCCGCCAAGGCCGGTCCAGCTTCTACGTGACCTTGAACGGCTACAACCTGGCCAAGTGGTACGTTGACGACTACGCTGAAGACTCCTTGGCCGGCCAGGAGACCGTCTATGCCAACAAGCTGGAGAGCAGCCACATGCTCTGGCTGGGCGTGCCGGAGAAGATCTTCAAGGAATACGCGGTCGACAACGAGGCCAAGCAGGCGGCCTTGAAACTGATCGATGCCGGTCAGGTGGGGACGACCGTCTTCTACGACCAGGACAGCTCCTTTAAGCGCTGGCTCTTGATGAAGTACATGTTCCACAACTACTACAAGCGCTTCAAGACCTACTTCCAGGTCAACAAGGGCCAGTACTTCGATAAATAG
>SRR1919932_00867 ribonucleoside-triphosphate reductase
ATGTTAAAGCCGGCAGCAGAAACTGTGAGCCTGAATTTCGCTAACGCGCCAAAGAAGTTCATCAAGCGCGACGGCGCCCCATTTAAATTTGAACAATTCAAGTTGGAAACGGTTCTGGATGAACTTGGCCTGGAAGACAGCGAAATCAAGGCTGCCGTTTTGAGCAAGGTTTACGCCAAGCTGGCCACCTACACGGTTGACGCCGTTCAAGTCCACGCTGCCTTCAGAGCCAGCTTGAACGAACTGGGCTATCTGAATGAAGCCAAGGAATACGAAGCCAAGCGGCAGGAAGACGAAGCCGACTGGCGGGCAGAAACTGACACCAAGCAGCGTCTGGCCAAGCTGGTCGACAAGGACCCAAGCATCGTCCACGAAAATGCCAACAAGGACTCTGACGTCTTTGCCACCCAGCGGGACTTGACTGCCGGGACTGTGGGCAAGACGGTTGGTCTGACCTTGATGCCTCAGCACATTGCCAAGGCCCACCTGCGGGGGGACATCCACTGGCACGACCTGGACTACACTCCTCTTTCACCAATGTCCAACTGCTGCCTGATTGACTTTGACTACATGCTCAACCACGGCTTCAAGATCGGCAACGCCTTCGTGGAAGTACCGAACTCCATCCGGGTGGCCACCAGCCAGGTAGCCCAGATCATCACCAGCGTGGCTTCCAGCCAATACGGCGGCTGCTCTTTTGACCGTTGCGACGAAGTCCTGGCGCCTTTTGCCGAAAAGGACTACAAAAAGCACCTGGAAGAAGGGCGTGAGTTCATCGACGACGAAGACAAGGTAAAGGCTTTTGCCAAGAAGCGGACCCAAAAGGACATCTACGACGCTATGCAGAGCCTGGAATACGAGATCAACACCATGTTCTCCAGCCAGGGGCAGACTCCTTTCACCACCTTGGGCTTCGGCTTAGGGACCAACTGGATTGAAAGAGAAATCCAAAAGGACATCCTGCAGGTCCGGATCGAAGGCCTGGGCCGGGAACACCGGACGGCCATCTTCCCGAAGCTGGTCTTCAGCTTGAAGAAGGGGCTTAACCTCCACCCAGGCGACCCGAACTACGACATCAAGAAGCTGGCCCTGGAATGTGCTACCAAGCGGATGTACCCAGACGTTTTGAGCTACGACAAGCTCATTGACATCACTGGCTCCTTCAAGGCCCCGATGGGCTGCCGGTCCTTCCTGCAAGGCTGGAAGGATGAACAGGGCCAGGAAGTCAACTCCGGGCGAATGAACCTGGGCGTGGTTACCTTAAACCTGCCAAGAATCGCCATGGAAAGCCAGGGCGACATGGACCGCTTCTGGGAAATCTTCAATGACCGCCTGGAACTGGGCCAGCAAGCCTGCGAATACAAGGCCAAGAAGGTCACTGAAGCTAAGCCGGTCAACGCTCCAACTCTGTATGAATACGGCGCCTTTGGCCAAGGGGCTGGCGATGACGGCGACGTCAACGACTTCTTCAAGAACGGCCGGGCCACGGTTTCCCTGGGCTACATCGGCCTTTACGAAGTCGGCACGGTCTTCTACGGGCCAGACTGGGAAAAGGACCCGGAAGCCAAGGCCTTCACTTTGGAAGTGGTCAAGAAGATGCATGATGCCTGCGCCAAGTGGGAAAAGGAAGACCCGAACCACTACCACTACAGCGTCTACTCCACCCCAAGTGAAAGTCTGACCGACCGCTTCTGCCGCCTGGACACGGAGAAGTTCGGCAAGGTCAAGGACATCACGGACAAGGAATACTACACCAACTCCTTCCACTACGACGTCCGCAAGCACCCGACCCCATTTGAAAAGCTGGACTTTGAAAAGGACTACCCATACTACGCTGCCGGTGGTTTCATCCACTACTGCGAATACCCGAACCTGAAGCAAAACCCGGCCGCCCTGGAAGCTGTCTGGGACTGGGCTTACGACAGAGTCGGCTACTTGGGTACCAATACCCCGATCGACAAGTGCTACGAATGCGGCTTTGCCGGCGAGTTCAAGTCAACCGCCAAGGGCTTTGAATGTCCGCAATGCGGCAACCACAACCCGGAAACCTGCGACTGCGTCAAGCGGACTTGCGGCTACCTGGGCAACCCGCTGAAGCGGCCAATGGTCCACGGCCGGCATGAAGAAATCGCCCACCGGGCCAAGCACATGAGCTTGGGCATGGTCAGCGAGGAAGCCAGCCTGGAAAAGCAGAAGAACAGCCAATACTAA
>SRR1919932_00868 anaerobic ribonucleoside-triphosphate reductase activating protein
ATGCCAGAGAAAGACAAGAATCAGCAAGAAGGCCCTGACGTCCGGGACAACCTGATCCGGATCAGCGTCGGCGGGGAAACGGTCTTTGTGGACGCCAACCAGTACAAGGCTAAAAATGCCGGCCAGACGGCCAAGCCACGGAAGATGAAGCGCCAGCCCAAGAATCCCAAGCCGGGCGAATGGATCTCAGAAGACTACAGCAAGCATAAGATTGCCGACTACAAGCCCTTCAACTTCGTTGACGGGGAAGGGGTCCGCTGCTCCTTATACGTGTCCGGCTGCCTCTTTGACTGCCCGGGCTGCTACAACCTGGCCGCCCAGAACTTCAACTACGGCCGTCCCTACACCCAGGAATTGGAAGACCAGATTATCGCGGATATCGGCCAGTCCTATGTTCAAGGGCTGACCTTGCTTGGCGGGGAACCCTTTTTGAATACCTGGGTCTGCAACCGGATCATCGACCGGGTCCGGGCCGAATACGGCCACAGCAAGGACATCTGGTCCTGGTCCGGCTATACCTGGGAGGAACTCTTAAAGGAGACCCCGGACAAGGTGGAAATGCTCAAGAAGCTAGACATCCTGGTTGACGGCCGCTTTATGGACAACTTGAAGGACCTGACCCTGCAGTTCAGAGGGTCCAGCAACCAGCGGATCATTGACGTGCAGAAGTCCCTCAAGACCCCGGACCTGCACCCGGTCATCTGGGACAAGCTGCAGAGATAG
>SRR1919932_00869 hypothetical protein
ATGAACGAAGAAAAACGCGCCTTGGTTAACCAGGTCATCGGTCAGCTGCAGACCGTCATCGACCCGGAGCTCCTGGTCAATGTGGTCGACCTGGGCCTCATCTACGGAGTCGACATCGATGATGAGGGCAACTGCCTGGTGACCATGACCTTGACCACAGCCGGCTGCCCCTTAAACGACTACCTTAACCGGGAAATCCGCCAGGCGGTGGGCCAGCTGGCCGCCATCAAGCAGGTGGACATCAAGCTGGTCTGGTACCCGGTCTGGACCCCGGACCGCTTAAGCGAGCAGGCGAAAAAGCAGCTGGGCATCAAGGAAGAGCCGGCTCCGGCGGCTAAGGAGATCAACCTCCACCAGCCGATCAAGACTTTCGCTGACCAGTATCCGGAATTTACCGAAGATATGGCCGAGATCGGCTTCAACCGGATCAAGATTCCGGGCATGCTGGACACGGTGGGCCGGCTGATGACCCTGCCGATGGGCTGCCGGGCCATGGGCTTTGACCTGGAAGAGGTCAAGGAGAAGCTGCGCTTGAAGGGATACGAGGTGACTGAGTGA
>SRR1919932_00870 hemerythrin HHE cation binding domain protein
ATGACCATGTCTTTAAAGGAGAGGCAGGAGAAGCTGCTGGAGATCTTGCGCCTTTTGCGGGACAAGGGGGACTTTGACCAGGCCAAGGCCATGTTCAACGAGGCTTTTTCTTCAGTCTCAGTCAAGGAAATCACGGAAGCTGAGCGGGCCTTGATCGCCGGTGGCCTCAACCCCCAGGAAATCCAGAACTTGTGCACGGTCCACGCGGAAGTCTTCCGGGGATCGATCGGCGAGCAGGAAGCAGGGGAGGCTTTTGCCCGGCCCGGCCACCCGGTCCAGACCTTGAAGCAGGAGAATGTCGTTTTGACCTCTCTGGTTAACGATGCCCTTTTGCCAGACCTGGCCAAGTATGAAGCAAAGCCAGCCCCGGAACTTTTAGCCAAAATCAAGCAGGAGCTGGCAGACCTGGCCCAAGTAGACAAGCACTATACCAGAAAAGAAATCTCCATGTTTCCCTTGATGACCAAGTACGGCATCACGGCCCCGCCCCAGGTCATGTGGGGGGTAGACGATGATATCCGGGCCTGGATCAAGGAGGCCCGGCAGGCGGCTGAAACGGGCGAGGCAGAACTTTTGGCCAAAAAGGTCAAGCAGGCGGCCAAGGAAGTCACCGAAATGATCTTCAAGGAAGAGGCGATCATGCTGCCGCTCTTGACGGAAGTGGCGACGCCGGCCGACTGGCTTAGGGTCAAGGAAGACGAGCCCCGGGTGGGCTACTGCTTGATTCCCAATCCGCCAGCCTGGCGGCCATCCGCGGCCGAACTGGCTGAGAAAAAGGCAGCCGACCCGGCGGCGATCGCCAAGTGGAATGACCAGATCGGGGCTTTTGCCGGCCAGCTGGGCGGCAATGAAGCCGAAAACTACCAAAAGCTGGTGGAAGTCGAGCAGGCGGAGGAAAAAGCCCGGCCGGCCCTGACGGACTCCTTTATTGAGTTCGCGGAAGGCAGCCTCAGCTATGAGCAGCTCTCGGCCGTCCTGGACCTTTTGCCCCTGGACCTGGTCTTTGTGGACAAGGACGACGTCATCCGCTACTTTGGCGGCAGCTGCGGCTTTTATCCCCATTCGAAAAACGACCTGGGCATGAACCTGTTTAGCATTCACATGCCAAAAAGCGTGCCCAAGGTCAAGGCCATCGTGGATGACCTGAGAAGCGGGAGAAAGGACAAGCATGCCTTCTGGTTTGAAGTCCGGGGCCGCTTCGTCTATATCCAATACCTGGCGGTCAGAAACAAGGCCGGGGAATATCTGGGCGTTTTGGAAGTCTTGCAGGATATTACCGACCTGCGCGCATTGCAAGGAAAGAAGAAAGAGTTGTAG
>SRR1919932_00871 major facilitator superfamily transporter
ATGAAAACTAAACACGGACAGAGCCAGTTGCCGGAAATCGCGCTGCCCTGGCTAGTCGTGGCCGAACTGGCTACTTGGATCGGGGCCAGCTTCATTTGGCCACTGACTTCCGTTTACCTAAACAAGCGGTTGGGGATCAGCCTGTCGGTAATCGGGATCGTCCTCTTCTGCAATTGCGCGGCCAACATGCTGGGGTCAACCATCAGCGGCCGGCTTTTTGACCGGCTCAATCCTTATCCTTTGATTACGGGCGGGATGCTGCTGGATGCTTTGGTCCTGTTGGCCATGGCCTTCTTCCACGGCTGGCCGGTTTACTGGGTCTGGCTGGTCTGTACGGGCTTTTTAGGGGGCTGGAACGGGGCCCTGGTCAATTCCATCGCCACCAGCCTGCGCAAGTATCCGGGCCGGTATGTCTTCAATATTCTCTACTTCTCCCAGAACCTGGGGGTGGTAATCGGGACCTTGATTGTCGGCTACCTTTACGACTACTCAATTGAGCTGCTCTTTACCATTGCCAGCTGCCTTTTCTTGATCGGGACTTTAGTTGCCTTCTGCAAGTTTAAGCCGATCGTGGCCTACCATGCCCGCCGGCAGGAGCAGAAGAAGACTGGCCAAACCCCGCTGAAGGCGGAAAAGATGCCAAAGGCCAACTTCTGGATGACCATGGGCTTCTTCATCACCCTGGGGGTGACCTGGCTGATGTACATGAACTGGGAGTCCAACCTGTCCGTTTACATGGTCAGCCTGGGGATTCCTTTCCACCTTTACTCAACTTTATGGACGATCAACGCCGGCATCATCGTGGTCGTGCAGCTGATTTTGGCCCGCTTCCCGCGGATCTTCAAGAGCATCTACCAGCAGATCTACTTCGGGATCTTCATGTTTGCCGTGTCCTGGCTGACCTTGATTTTCGCCAAGACCTACCCGGGCTTCGTCTTGTCCATGTCGATCCTGACCTTGGGTGAATCGACGGCCTTTTCCGCCATTCCGGCCTATGTCAACGACATGTCGCCGTACTCCAGTAAGGGCAAGTACCAGGGGATGACCCTGGTGGCTAGCGGGGTCGGCCGGGCCTTCGGGCCGCTTTTCGGCGGGACCTTGATCGACCTCTTCGGCTACAAGACCATGTTTGTAGTCGCCAGCTGCGGCATCCTCCTTTGCCTTTTGGCCCTCTTGCCGCTGAGAACAAAGCTGAAGGACCAGGTGCAGTTCTTCAAGTAG
>SRR1919932_00872 hypothetical protein
ATGCTTAAGGTTTACGGGACAAAAATCTGTCCGGACTGCATCGCCTGTGAGGCCAGTTTTAAAAAGTACGGCATCGGCTACGAATTCGTTAATATTTTCGCCACCATGCCGGATTTCAAGGAATTTTTGCGCTTGCGGGATGCCAGTCCCGCCTTTGCTCACGCTAAGGAGCAGGGCAGCGTGGGGATTCCGGCCTGCGTCAAGGAAGACGGGGAAATTTTTACCGACTGGGAAGGCTTTTTAAAGGACCAGGGCTTAGAGCCAATCTGGCCCGAAGCAGCTGACCAGGCCAAGGCTGAAATTGAAGCCCAGTGCGACCTGCGCCAGCACAACTGCTAG
>SRR1919932_00873 endopeptidase
TTGAACAATAAATTTGCCGTCCGCGGCGGCAGCGGCGACACGACTGTCGTTGACAAGACTGCCCGCCCGCAGGACAACCTGTATTTGGCCGTTAACTCTGACTACCTGGATCAGCTGGAAATCCCGGCTGACCGGTCCCGGATGGGGAGCTTTGACCAAATCGCTGAAAACGTTGAAAAGACCCTGATGGCTGACTTCGCGGCTTTTGCCAGCGGGGAAAAGGAAGTGCCAAACCTGCCGAACCTGGCCAAGGCCGTTGAACTCTACAAGCTGGCCAAGGACTTTGACAAGCGGAACGCTGACGGGGCAGAACCAATCCAGGCTGACTTGAAGAAACTGGAAGGCTTGAACAGCTGGAATGACCTGCAAGGCGCGGCAGCTGCTTTGGCCAAGGAAGGCTTTGACCTCCCATTCTCCTTCTCCGTTGACGCGGACATGAAGAACACCAAGGTCAACACGGTTTACTTCGGCGGTCCCCACATCTTTTTGCCAGATACGACCACTTACGAAAGCCCGGACGCGGAAAAACTCTTGGGCGTGTTAAAAGAACAGACCCTCAAGCTCTTCCAAATGGCCGGGGTAAGTGAAGAAAAAGCCGCTGAATATGTAGACGGGGCCCTGGCTTACGACCAGCGCCTGGCCAAGGTAGTCAAGTCCAGCGAAGAATGGGCTGACTACCCGGCCATGTACAACCCGATTTCATTGGCGGACTTCAAGAGCAAGTTCACTAGCTTTGACATGGGCCAGTTCCTGGCAGGCTTCCTTGGTGAAGAACCAGAAGTTTTGATCAACACGGAACCCCGCTACCTGGACCAGGCAGAAGGTCTTTTAAACGAAGCCAGCTTCAGTGAAATCAAGGGCTGGATGCTGGTTAAGTTTATCAATGACGTGGCCTCATCTCTGTCGCAAGAATTCAGAGAAGCCGCCTTCCCGTTCAGCCAGGCTTTGACCGGCCAGCCGCAACTGGCCAGCGGGATTAAGCAGGCCTACCGGATTGCCAACAGCACTTTCAGCGAAGTTGTCGGCGTCTACTACGGGCAGACCTACTTCGGGGCCGCCGCCAAGGAAGACGTTTTGGGCATGATCAAGCGGATGATGAAGGTCTACGAGGACCGGCTGGCCAAGAACGACTGGCTCTCCCAGGCGACTAAGGACAAGGCCATCACCAAGCTGCAGGCCTTGATCTTGAAGGTCGGCTACCCGGACAAGATTGAAGACATCTACAACCGCCTCCAGGTTACCCCGGCAGAAGAGGGCGGCAGCCTTTACAGCAACCTGCAGGCCGCCAGCCAGGAAAGCATCAAGTACAGCCTGGAGAAGCTCCACCAGCCGGTTGACCGGACTGTTTGGCTGATGCCAGGCAACCTGGTTAACGCCTGCTACGACCCGCAGAGAAACGACATCACCTTCCCAGCGGCCATCTTGCAGGCACCATTCTACAGTGCTGACCAGAGCCGGGCAGCCAACTACGGCGGGATCGGGGCCGTGATCGCCCACGAAGTTTCCCATGCCTTCGACAACAACGGGGCCCAGTTCGATGAATTCGGCAACATGAAGAACTGGTGGACCGAAGCTGACTACAAGGAATTTGCTGACCGGACCAAGGCGGAAATCGCCCTCTTTGACGGGCTCAAGTTCGGCCCGACTACTTTGAACGGCAAGCAGATCGTGTCCGAAAACATCGCTGACCAGGGCGGCTTGACCGCGGCCATGACCGCCTGCAAGGAAGAAGGTCAAGGCCTGGAAGACTTCTACGCCAACTGGGCTAGAGTCTGGGCACAAAAGTCCCTGGAAGCGGCCATCAAGATGATCGTTTCCGTTGACGTGCACGCGCCAGGCCCTCTGCGGGCGAATGTCCAGGCCCAGTGCCAGGACGAATTCTACGAGACCTTTGACGTCAAGCCGGGCGACGGGATGTACCTGGCTCCGGAAGACCGGGTCAAGATCTGGTAG
>SRR1919932_00874 phosphoketolase
ATGACAGCAGATTACGATTCAAAAGAATACTTAAAGAGCGTCGACGCTTGGTGGCGGGCCGCCAACTACTTGTCAGTCGGCCAGTTGTTCCTGCTCAAGAACCCCTTGCTTAAGGAAGAACTGACGGCAGACGACGTCAAGATCAAGCCGGTTGGCCACTGGGGCACGATCGCGCCGCAGAACTTTATCTACGCCCACTTAAACCGGGTTATCAAGAAGTATGACTTGAACATGTTCTACATCGAAGGTTCCGGTCACGGCGGCCAGGTGATGGTTTCCAACTCATACCTGGACGGGTCTTACTCTGAAATCTACCCGGAAATCAGCCAAGACGAAGCCGGGATGACCAAGCTCTTCAAGCGCTTCAGCTTCCCGGGCGGGGTAGCTTCCCACGCGGCTCCGGAAACCCCGGGTTCAATCCATGAAGGCGGGGAACTGGGCTACACTTTGTCGCACGCGACTGGCGCGATTCTGGACAACCCGGACGTGATTGCCGCCGCTGAAATTGGTGACGGGGAAGCTGAAACCGGCCCGCTGGCTGCTGGCTGGTTCTCCAACCGCTTCATCAACCCGGTCAAGGACGGAGCTGTCTTGCCAATCCTGCAGGTTAACGGCTTTAAGATTTCCAACCCAACCATTACTGCCCGCATGAGCGATGAAGAACTGACCAAGTACTTTGAAGGCATGGGCTGGAAGCCTTACTTCGTTTCAACTTTCAAGGGCGGCCGCTTTGACGGGATGAAGGATATTGACCAGATCCATGAGGAAATGGCCAAGACCCTGGATGCCATCATTGAAGACATCAAGGCTATTCAAAAGAATGCTCGTGAAAACGGCGATGAATCATTTGCCCACTGGCCGCTCTTGATCTTCCAATGCCCGAAGGGCTGGACTGGTCCTAAGGCCGATTTGGACGGCAACCCGATTGAAAACTCCTTCCGGGCCCACCAGATTCCGCTTCCGGTTGACCAGAAGCACATGGACCACAAGGAACTGTTGCTGGACTGGCTGAAGAGCTACAAGCCGGAAGAACTGTTTGACGAAACCGGCTACCCGACTGACTTAGTCCTGCAAAACGCGGTTCATGGTGACCAAAGAATGGCTATGAACCCAGTCACTAACGGGGGGATCAATCCTAAGCGCTTGAACCTGCCAGACTGGCGCGACTTTGCCTTTGAAGTTGGCAAGCCGGGCTCCAAGGACGCCCAGGATATGGTGGAATGGGCCAAGTACCTGACCAAGGTGGCAGAACTGAACCCGACTACTTTCCGGGGCTTTGGCCCGGACGAATCTAAGTCCAACCGCTTGTTTGACTTCCTGGACGGCGAAAAGCGGCAATGGGAAAGTGAAATCCACGAACCAAACGATGAAAACCTGGCTGCGCAAGGCCGTTTGATTGACTCACAATTGTCAGAGCACCAAGATGAAGGGATGCTGGAAGGCTACGTTTTGACTGGCCGCCACGGCTTCTTCGCTACTTACGAAGCCTTTGGCCGGGTGGTTGACTCCATGCTGACCCAGCACATGAAGTGGCTGCGGAAGGCTAAGGAACAATACTGGCGCCGCGATTACCCATCATTGAACTTTGTAGCTACGTCAACTGTCTTCCAGCAGGACCACAACGGCTACACCCACCAGGATCCAGGTCTTTTGACCCACTTGTTTGAAAAGAACCGGCCGGACATGATTCATGAATACCTGCCAGCTGACACCAACACTTTGCTGGCTGTAGCTGATAAGGCCTTCCGTGACCGGGAAGGGATCAACCTGCTGGTAACTTCCAAGCAGGAACGGCCGCAATGGTTCACTCCTGAAGAAGCCGCCAAGCTGGTTGACAAGGGCCTGGGCTACATCGACTGGGCTTCAACTGACAAGGATGCCAAGCCGGACGTGGTCTTCGCTTCAACTGAAACTGAACCGACCATGGAAACCCTGGCAGCGATCGATATCCTGCACCAGAACTTCCCAGACTTGAAGATCCGCTACATCAACGTGGTTGACGTGATGAAGCTGATGGCGCCAAAGGATAACCCAGCTGCTATTTCCCAAGAGGAATTCGACCGCCTCTTCCCAACTGACGTGCCAACCATTTTTGCATGGCATGGCTACAAGACCATGATGGAATCCATCTGGTTTGCCCGCAAGCGTTACAACGTTTCAATTCACTGCTATGAAGAAAATGGTGACATTACCACGGCATTTGACATGCGGGTCTTGAACCACCTTGACCGTTTCGACCTGGCCAAGGACGCGGTTGAACAAATCCCAGCCTTGAAGGACAAGAGTGCTGCCTTCATTGACAAGATGGACAGCCTGCTGTCTAAGCACCACGCTTACATCCGGGACCACGGTGAAGACATTCCAGAAGTAACTTCTTGGAAGTGGACTGGCCTGGACAAGTAA
>SRR1919932_00875 GntR family transcriptional regulator
ATGGCTGATTATGTTTACCGGACGGTCATGCTTGACATCAAACGCCGGATTTTAGCGGGCGAATATGAGGGGATGCGGCTGCCCGATGAGCGCAGCCTGGCCGAACAGTATCAGGTCAGCCGGTCGTCGATGAAGCGGGCTCTGGAACTTCTTGCCCAGCAAGGCATCGTTTTTAAGAAGCGGGGCAGCGGGACTTTTATCAACCCCTTGTACTTGAAGAACCAGGCCATGTTCCGCTATGAAGGGTCCAACCTGGGCTTGACGGACAGCTTTTTAGCGCCAGGCAAGAAGCAGGGGATTAAGCTGCTGGAATTCAAGGTGGTCAAGGCCAGCCCAGAAACGGCCCAGGACCTCTTCTTGAGTGAAAATGACTTTGTCTACCAGTTCAAGCGCCTCCGCCTTTTGGACGGCCAGCCCTTCTTGATTGAAGAAGGCTTCGTGCCGATCAAGATCCTGCCGGAGCTTAAAGAAGAGATTCTGCAGGGGTCCTTGTTCAACTACCTGGAAGACGCGCAAAACAAGGCGGTCACCCGGTCTTATTTGACCATTACGGTTTCCCCTTCAAGCGCGGAAGACCAAGAAGCGCTGCAGCTCAAGGCCACTGAGCCGGTTGGCGTGATGGACGGGATCTTCTTTTTGGATGACGGCACGCCATTTGAAGTCTCCAGCATGCGGGTTCACTACAAGTACATGCGCTTCAACAGCTTTGTCAATTTGAATTAA
>SRR1919932_00876 nucleoside hydrolase
ATGAACAAGAAACCCTTAATTATTTCAACTGATCCCGGGATCGATGACGCGGTCTGCCTAACGATCGCCCTGTTCGCCAAGGAACTGGACGTGAAGCTGATCGTGCCAACCTGGGGCAACGTTTCTTTGGAGAAGACTTTGAACAACACCCTGCGCCTGCAGGCCTTCCTGGGCACTAAGGTCCCAGTTGTGGCCGGGGCCAAGTTGCCTTTGGTCAAGGAAGCCATCGATGCTTCTGAAGTCCACGGGGCCAGCGGGATGGACGGCTTTGACTTCCCGGAAGCTGACCAGAGCCTTTTGGTAGAAGGCTTAGCCGCGACCAAGATCCACGAAGTAGTCAGCCAAAGCCCGGAAAAGGTGACCTTGATGCAGATCGGGCCAGCCACGGACTTTGCCCTTTACTTCCGCCAATATCCGGAAGACCTGGACAAGATCGACCGCCTTTACATCATGGGTGGAGCCCTGGGCCGGGGCAACTACGGTCCTTACGACGAATATAACGTTTCCGGGGACCCGGAAGCAGCCAAGATCGTCTTTGACTTGGGCGCCAAGGGCCTGGACATCTACGTGGCTCCTTTGGAAGTCGGCAACCAGGCCTTCGTTGACGCGGCCAGCCTGGAAGAAATCAAGGCTTTGGGCCGGGTCGGGGAAATGATCTACGGGCTCAACTCTCAATATGAATTAAACGACGCTGACGCCGATTCTGGCAAGCGGATCTATGACGCCTTGACGGCTGCCATGCTGCTGGCGCCAGATCTGTTTGAAGTCAAGGAAGCTTACGTGGCGGTAGACACCAAGGGTCCTTACACTTACGGGGCTTCAGTCATGGACTTTGAAGGCTTCTTTGGCCAAAAGGCCAACGCCAAGATCGCGGTCAAGGTTGACCGCCAGGCCTTCAAGGACTGGTTCCTGGCTGCAATCGCACAAGCAAAGTAG
>SRR1919932_00877 ribose-5-phosphate isomerase A
ATGGACCAAGCAAAGCAAGATGGATTGAAAAAGGCTGCTGCCAAGAAAGCAGCTGCCTTGGTGGAAGACGGGATGGTTTTAGGCGTCGGCACCGGGTCAACGGTGAAGTTCTTCATCGATGAACTGGGCAAGAAGAAAGCAGCAGGCTTGACTCTTAAGGCAGTCGTGACCACCTCCAGCCGCAGTCAAAAGCAGCTGGAAGGCTATGGCTTTACTGTCAGCCCCCTCAGTGAAGTTGACCAGGTTGATTTAACGGTTGACGGGGCCGACAGAGTGGACAAGCAGTTAAACGGGATCAAGGGAGGCGGGGCCGCCTTGACCTTGGAAAAGAACGTGGCCGTCAACTCCAAGAAGAATGTCTGGATCGTAGACGAAAGCAAGGTGGTTGACCACCTCAGCGGCTTTGCCCTGCCAGTGGAAGTTTTGCCGATCTCCTGCATGCAGGTGGAAAAGCGCCTGGCAGATGAAGGGCTTAAGCCGGAATTCCGTTTAACGGAAGATGGTCAGCGCCTTAAGACCCACTATGGTAACTACATTCTGGACCTCAAGCTGGACCGGATTCCGGTGCCAAGTGGTCTGGCTGACTACCTGGACCATACGGTCGGGGTAGTTGAGCACGGCCTCTTTTTAAACATCTGCGACCAGGTCATCATCGCCCGCGACAACGGGGAGATTGAAGTCCGCAGCCGCTAA
>SRR1919932_00878 ribulose-5-phosphate 3-epimerase
ATGATTATTGCACCCTCAATTCTCAACGCGGACAACCTGCACTTAGGCCAGCAGATCCAGGAAGCAGCTGACAGCGGGATCCGCCGCTTCCACATCGACGTGATGGACGGACATTTCGTGCCCAACCTGTCATATGGTCCCCAGCTGGTCAGTGATTTTAAAAAGCAGTTCCCGAACCTGACCGCGGAAGTCCACCTCATGAGCAACAACCTGCCTGACCTTTTACCAGCCTTTGTTAAAGCGGGCAGCGACTTGATTGAAATTCACTATGAAGCCGACTACCCAAACCGAATTGACCACTGGTTGGACTACTTAAAGGAAAATGGCGTCTCCTGCGGGTTAGTCCTTAGTCCAGATACTGACATTAAGGTGCTGGAGCGCTACAAGGACAAGCTTGACCAGGTTCTCTTGATGACGGTCTATCCGGGCTTTGGCGGGCAGAAGTTCATGGAAGAAGCAGCAGACCGGATCAAGGCCGCCCGGGCAATTCTGCCAGATCTTCCGATCGAAGTAGACGGCGGGATCAATGCTCAGACAGCGGAAATCGCCAAAGAGGCCGGAGCTGATGTTTTTGTGGCGGGCTCTTATATCTTCGGCCGTGACTCAGTGGCTAAGCAGGTAGCTGAGCTGACAAGCATTTTGGAAAAATAG
>SRR1919932_00879 ribokinase
ATGAAAAAGATCGTAGTAATCGGGTCCAGCAACGTGGACACGACCCTGCATGTAGAAAAATTCCCCAAGCCAGGCGAAACCATCAACGCCCACAAGGTCAGCGAGGCTGGCGGCGGCAAGGGGGCCAACCAGGCAGTCGCGGCTGCTAAGAGCGCGGCTGAGACCATCTTCATCTCTAAAGTCGGCGAAGACTCCTATGGGAGCTGGATGAAGGAGCAACTGGCCGGCTACGGGGTCAAGACTGACTATGTCTTGCCAACCGCTGGCTTTAAGACTGGCCATGCCTACATTACCTTGAACGCGGAAGGGCAAAACGACATTATCATCGACCATGGGGCCAACTACAGCTTGACTGAAGCCGACGTTTTGGCGGCTAAAGACGTCATTGAAGCTGCTGACTGCGTCATCGCCCAGCTGGAAACCCCGCTGGAAGCAACAACAGCCGCCTTCAAGCTGGCTAAGGCGGCCGGCAAGGTAACTATCTTGAACCCAGCTCCTGCGATCAAGGACCTGCCAGTTGACCTCTTGGCCGTGACTGACTTGATCACGCCAAACGAAACGGAAAGTGCCCTGCTGACTTCTTTGCCAGTTGTAGAAGAGGCGGACCTGGAAAAGAACGCGGCCAAGCTGCATGAACTGGGCGTTAAGCATGTGATCATCACCTACGGCAGCAAGGGGGCCTACCTGTCTTCTCCAGTCTTTACCGGTCTTGTACCAGCCTTTAAGGTCAAGGCGGTGGACACGACGGCGGCTGGCGATACCTTCTTAGGCTTTTTGGCCGGATCCTTGGCCAGCGACTTCAGCAACCTGCATGAGGCTGCCCGCTTTGCCAACCGGGCGTCGTCTTTAGCCGTGCAGAAGATGGGGGCCCAGCCTTCTATCCCGGACCGGGCCAGCGTTGCGTCCGCGTTAGCTGAGTAA
>SRR1919932_00880 hypothetical protein
ATGAAGATTGAAGAAGTGCTGGCAAAGCAGCTGCTGGCAGAAGACCCAAGCATCGAACGCTTTGAGGAAGATTTTTACGGGGACTTTTACGACTTTTTTGTCAACTTTCTGAAGTTTAAGTGCCTTAGTCAGGGTAAGGACCTGGCCAGCCTGGATAAGCAGAAACTGGTCCTGTACCTGGACTTGTTCAATTCCCAGGACTTCCCGGGCCGGAAGGCTTACCGTTACAAGTTAGTCTTTGACAGCCAGCTGAACTTTTTAGCGGCGGAGTCAGACTTCACCCTCAGCGCTCTTTGCCGGGACTTGCGGGGGCGGGTGGATCAGCTGAGCGACTACGAGGCTGTCAGAAGCCAGGCCTTAGCTTCTTTGGCAGAACGTTTTGATTCCAAGAATCCAGACCCAAATACCAGGATCCAGAACTTTAACGTTGTCCTGGCCGACCTTTACGACCGCTATAATCTCAGCCGCTTTAAGACAGCCTACCAGTTGGTCGGCTAA
>SRR1919932_00881 hypothetical protein
ATGGGTAAAAAGTTGACTTTATATCTGCTGCCACCGGTACTTTTAGTAGCAATATTCATGATTATTGATTTTGTGAGCGGCCAGCACAATTTGTGGATGTCAGCCGTTGCGACATTAGCTTGGTGGCTGTTTTCCTTTGCAAGTGACCACTTGGCTAAAGGCTGGCAAAAGGCGGTTTTTCTGACCTGTGTTGGCTTTTTGCTCTTGGTTGCCGGCTTATACATCTACGTTAAGTTAAATTCATAA
>SRR1919932_00882 hypothetical protein
ATGAAAAAATTGTCAAAATATATATCAGTAGTACTTTTTTCAACAACATTACTAAACATCACTGCACCAGTAGTAACTGAGACTGTCGATGCTGCTACAATTCATACGGTATTTGAAAAATCTAAACAAAGTTCAATTAGCCAAGATGAGCCTGTGGAAAATAGGTTAGCAGCTGAAGATGTTGATGCTGTGGTAGAGGTACTGAAGAGTGAATATCCTGATTTAAGTGAGGATTATCTTCGAGAGATTGTAAATAATCAACGTCATGGAAACTATAGTTTGCCATCAGAATCGCAGCCTTCGTCTACTAGAGCGCGTAGTGCTATGTTTTCCAAAAGTAATTGGAAAGGAATAACTGTCTCGCAAATGGGTGCAGCTATTGACGCAGCGATAATCGGTGCTTCAGGTGGTGCCGCTTCTCTAGGAGTGAAGTTCGCTATTAAGAAAATTGGTAAAAAAGCTGCTAAAAAAGTTATAGTAAAAGCAATTCAAGCTATTGTAGGAGGAGCAGCTGGAAAGGTAACGTCTACAGTAGTTGGGAAAGCATTAGACTATGCAGGAAGTCCAGGATATTATATTGCTAAGTACTGGGACGCACATGACAAATACCCTAAGAATGGTCGTATTAATTTTTAA
>SRR1919932_00883 hypothetical protein
ATGATCAATGAAGAATTGACCGACCTGGACCGGGTGGAACTGACCAAGCTGTCTTATGAGGCGCTGAATGTGGGCGAGACAGTTGTAGTCGCCGGCAAAAAGATTGGGCAATTGACCCGGGACGTTTACGCCAAGGACGGGATGCAGGCTTTTTTGATCGAAAACAACAATGAGATTACAGTCTTGTTCAAGGGCTCTTATGGCTTTAAGAAGGGCAACGCGACAACCTGGCGGGACGAGTGGCTGAACACCAATTGGCCGATTTTTCTGGCCATGCTGACTAATCAAAGGCAGGTGCCCAGCGCCTTGGTTACGGCCAGCCGCTATCTTAACCGCTGGCTGGAAGAATTCCCGGATGGCCATTTTTACATCTACGGGCATTCCCTAGGGGCGATCAATGCTGAATACGCTCTGGCTAATTGCCGCTTTCCAGATCAGATTGCTGCTGCTTATCTCTATGAGGGCACCAATATCTGGCGCCTTTTGACTCATAAAGAGCGGCAGCTGCTGGCCCAGCTGCGGGGCAGAATCAATACTTATGTTGATATCTATGACCCGGTGACTTTGGGCTTTACGGCCAGCAAGCGGATGGTGGGCAAGCTGCACTATGTCGACAGCCTGCCCATGAACCCGGTCAAGCAGCACATGTGGGGCGGCTACCGCTTTGATGGAAACGGGAATTTGCTGGAAAAAGAAGTGGACCAGCGTTTTCTGGACTCCAGCAAAATGCAGCAGGCTTTTTTGAGCCGGACCGGGCGGATGGCCAATTACTTGAGGTATCGCCGGAATCTGCAGGCTGACTGGCAAAAGGAGTCTGACCAGCGGGCCGAACAAATCAGAGGAGAATTGTTTAACCACGGCTTTTTGCAAGATTTCAATGACCGAGACAAAAATTCAAAAGATGATCAAGAGCAATAA
>SRR1919932_00884 hypothetical protein
ATGGAAAAAGACCGCCACGAAATCGAAACTTTTAAAATCGATCAAATGTTTATCGGTGACAGCCAGGAAGAACTGATCAAGCAGGGAGAAGGCCGCCGTAAGGAACATCCAATTGCGGCGATCAGCACTTTCAACCCGGTCAAGCGGGACGTGTTTCAATTGATCAAGCTGACTGAGGAGAAAATGATTCCCGAGCTTTTGGGGATGCGGCACAAGCGGATGATGCAGAATCCCTTTTCCTACTTCCGGGCCACGGCCGGAATCATGGAAAAGGACCTGCGCCAGTTTCCAGACGGCCAGTCCCATATCCCGGTAATCATTTGCGGGGACTCCCACCTAACCAATTTCGGCTTCTTCGCTTCCCCGGAGCGCCAGCTTTTGTTTGGCTTGAACGATTTTGACGAGGCCCGGATTGGCAACTGGGAATTTGACCTTAAGCGCCTTTTGACCAGCGTGGTTTTGACCGGCCGGATCAATGGCTATCCTAAAGAGCAGCTGGACGGGATTTTGGCAGAAAGCGTCCACTCTTACCGGCGGGGAATCAAGTACGCCAATTCCTTGCCCCTGCTTGAGCGCTTTAATTTGTCTTATAGCGTTGATGACCTTTTAGGTCAAATGACGGACAATGAGCAAATGAAGCGGGTTCTCTTGAAGGTAGCGGACCGGGCACCGAAGAACAATTCTGATGCCGTGGTCAAGAAGTTTACGGAAAAGACCGAAGACGGGCGCTTGCGCTTTAAGGAAAACCCGCCCCGGGCCCGGCGTGTTTCCCAGAATGTTTATGCCGAGCTTATGGCAGGCCTGGAAGATTACCAGAAGAGCGTAACTGACGACATCCGGGTCCTTTTGATCAATTATGAAGTGACCGACATCATCCGCTACAGCGTGGGCGTCGGCAGCTGGGGAACCCGCTGCTATCTGGCCCTGCTCACTGGCAAGGACGGCAGCCACCTGGTCTTGCAGATCAAGGAGGCATTGCCGCTTCGCTACAACTTGTCTGCTTTGACGGTTGAGGAAAGCCAGGCCCAAGGCAAGGGGGAAGGCAAGCGGATCATTACCGCCCAGCGGGTTTTGCAGACCTACCATGATCCTTTCTTAGGGGCCATGGAAGCTGGCGGCAGAAGCTTTTACGTCCGTCAGTTCCGGGACATGAAGGACTCGATTGACCCGCTCAATCTGGACCAGGAAAGCTTCTCTGCCTACTGCAACATGTGTGCCTTCATTTTGGCCATTGCCCACTACCAAAGCCCGACAGCGCCGATGATTTACGGCTATGTCCACAAGCAAAAAGAGCTGGACATGGGCCTGGCTCATTGGGCCGTCAAGTATGCCGACCAGATGGAAGCCGACTATGCCTGCTTTGCCAAATACCTGCAAGGCGAGGAAGATGAAGAATGA
>SRR1919932_00885 polyphosphate kinase
ATGACAATTGCCAAGAACAAAAAAAAGTTTACCGATCCTAGTTATTACGCCAACCGGGAACTGAGCTGGCTGGACTTCAATGACCGCTGCCTGGACGAAGCCAGAAACCCGGATGAGCCGCTTTTGGAAAGAGCCAACTTCCTGGGGATCACCCAGTCCAACGTTGACGAATTCTACATGGTCCGGGTGGCTTCCTTGAGCAAGCTGGTAGCCGCCGGGGTCAAAAGCCACGATGCCAGTGGCCTTACGCCACTTGAACAATTGACGGCCATCAACCATAAGGAACACGAAGTGGTTGAAAAGCGCTACTCAACTTACTCCCGGTCATTGCTGCCGCTTTTGCGCAAGAACGGGATCAACATTTTGGAAAGTGATGAACTGTCTGAAGACCAGGAAGAATACATCCGCCGTTACTTCTCAAACGAACTCTACCCGGTTTTGACCCCGATGGCTGACGACCAGTCCCGGCCATTCCCGTTCATCAACAACGACTCCTTGAACATCGCCCTGCGCCTTAAGGACCGGGAAAGCGGTGAGCACAAGTTTGCCACGGTCAGAGTGCCGAACATCTTCCCGCGCCTGGTTAAATTGCCAGATGGCGATAATGACTTCATCATGCTGGAAGACATTATCAAGGTCTTTGCCGACCGCCTCTTTGATGGCTACGAAATCCGCCAGGCAGCCTGCTACCGGGTAACCCGGGACATGGATTTGGACGTTTCTGAAAGCGACACTTCCGACTTCCTTTTGGCGGTTAAAAAGCAGCTGGAAGACCGGGAACACGGGCACGTGACCCGGCTGGAAGTGGAAAGCAGCATGAACACCAAGCTGCTCAAGCACTTGATAAAGCGACTGAACGTCGATGAAGGCAGCGTCTTCAGCATCAACGGTCCAATCGACTTGACCTTCCTCAAGAAGCTGCCAGGGATGGTGGAAGGCCATGAAGACCTCCGCTACAAGCCAATGCAGGCCTTTGTTGACCCGGCTTTAAGAAGTGACCACAATATTTTTGACTCAATCCGGGAAAAGGACTACCTGGTGCAGCACCCATATGACAGCTTTGACGCTGTTTTGAACTTCGTCAAGCAGGCCGCCAAAGACCCAGATGTTCTGGCTATCAAGATGACCTTGTACCGGGTTTCCGGCAACTCCCCGATCATCAAGTACCTGGGCCAGGCGGCTAAAGCTGGCAAGCAGGTGACGGTTCTGGTGGAAGTCAAGGCCCGCTTTGACGAATCAAACAACGTGCACTGGGCCAGAACCCTGGAACAGATGGGCTGCCATGTTATCTACGGGCTGGTGGGCTTGAAGACCCACACCAAGGTAACCCTGGTTATCCGCCGCGATGAAGACGGGATCCGCCGCTACCTGCACCTGGGGACTGGTAACTACAATGACGTTACCGCCCACTTCTACACTGACTTAGGCCTCTTTACCTGCGACCGGGATCTGGGCGTTGACGTGACTAATCTCTTCAACATGCTGTCCGGCTACTCCAAGCCGCCTTACTTCAGCGAGCTGCGGATTTCACCAAAATTGATCCGCCAGTTCATCTATGAAAAGATCAACAACGAAATTGCCATTGCCAAGGCTGGCCGGCATGCTGAGATCCACATGAAGATGAACTCCCTGTCTGACCCGGACGTGATCGCCAAGCTCTATGAAGCTTCCGCGGCCGGGGTTAAGATCCACTTGATCGTCCGGGGGATCTGCTGCTTGAAGACGGAAATCCCAGGCGTCAGCGACAATATCGAAGTACACTCAATCGTCGGCCGCTTCCTGGAACACAGCCGGATCTACTACTTCTACAATGACGGCAAGGAAGACGTTTACCTGGCCAGCGCCGACATGATGCGGCGGAACTTGGACCGGCGGGTGGAAACCCTCTTCCCGGTTTTGCAAGAAGACTTGCGGGAAAGAGTTTTGGATATTTTTGCCAAGATGTGGCAGGACAATGTCCAGGCCCGAATCCTGCACAAGACCGAATGGGTGCACGCTGACCGGCGGGGACAGACCCCATTCAACAGCCAGGAATACTTCATCGCTGAAGCCGATGAAAAGGTTCGGATCGTTAAAGAAGAGGAAGAAGAAGAGAAGGCGAAGAAGAAGGACGCTTTTGAAGCTATGAAGCCGCAGGAAAGCGAATTGGAAGACGACGAAAAGTAG
>SRR1919932_00886 exopolyphosphatase
ATGAGTAAAAGACAATTTGGTCTAATTTACATATCATCATACCAGGCGCGCCTGTTCATCGTTGACTTGAAGAGACTGGCCATCATTGAACAGTTGAGTTCGGCCCAGTTCGTCCAAGGGGGGAAAAAGTTTGAAGTTTATGAAAACGAACTGCCCCGCTTGACTGATGCCTTGATCGGCTTCAAGCGAAAAATCGCGGAATATGGGATCGACAACTACAAGGTTTACGGTAACCGGCAGCTTTTGGACAAGATTTCTGCCCGCTACCTGGCCGACCAGATCAAGGTCAGAACCGGCCTGGAAATCGAATGGCTGAACGGGGCCCAGATCGCCTACTACAAGATCATTGCCGGAATGGCCCTGCCGCAGTTCTCAGAACTGGCGGATGATGAATTTACTTACCTGCTCAGCATGGGCAGTGCCATGATCAACCTCACCTTGTTCAAGGGCCAGCACTACCTGTCAACCTGGAACTTTGCCCTGGGCCCGGAAGAAATTGAAGAAATGGCCGCTATGACTCGGGACACGCCAAGCGACCCGATCGACATCATCGGCGACTACATCTCCCGCAAGCTGGTCAGCTTCAAGACCATTGAGAAGCCGACTGGCAAGGCCCGGATCATCATCCAGCACGTCTCCGGCCGAGGCGAGCAGAGCCTGCGGCCCCAAGAAAAGGACCGGGTCATCGACCTCAAGCAGTTTGCCGGCGTTTACTCTGACTTCAGAGAAGCCCCGGACCAGTACCTTATGGAAAAATACGAGCTGGATACCGACTCTTTGGCCCGGATGAAGCCGACCATTGTTTTGATCAACCAGCTGGTTAAGATTATCAAGCCGCACACGATGACTTTGACCCAGTCTTCAGCCATCACCGGTTTGATGATCCAGGAAGCCGCCAGATTGAAGTACCGGCCAGATGAATACTCAACCATCGTTTTGACGGCGACCAAAAATATTGCTCGCCGCTACGAATCAGGCGGCCAGCACATCAACCTGTCCAACAAGTTTGCCCTGCATATTTTTGACCGCCTGGCCCATGCCGGCATGGTTGACCGCCGCGACCGGCAATTACTGGAAATCGCGGCCCGCCTGCACGACATCGGCAACTTCGTCAATTTCCACAACCACTACGAGCACGCTGCCTACATCGTGGGGGCCAACCAGATCATCGGCCTGTCTGACCGGGAAAACGAAATGCTCTTGAGCATTTTGAAGCACCAGGACATCACCAATTTGAACGCTGATGAACGTGAATATCGCCACCTTGACCCGGCCCTGCAGGTCCGGGTAGCTAAGTTGGCTGCCATCCTGCGCCTGGCCAACAGCCTGGATGCTTCCCGCAAGCAGAAGATCAGCAAGATCGTGGTTTCCATCAAGGATGAGAAAATGCTGATCACGGTGACCAGCAAGCGGGACCTGACCTTGGAACGCTGGGTTTTTGAAAAGAATGTCAATTTGGCTGAAGCAGTCTTCGGCATGAAGATTGCCATGAAGCAGAAGAGGGGAAAGTAA
>SRR1919932_00887 glutamine ABC transporter substrate-binding protein
ATGGCACGTAAACTGAGGGAGCTGACCGCCTTTATGGCGGTCTTGCTGTTATCATTAGTTTTTACCGCTTGTTCACACAGTCAATCTAGCAGCACCTATGACCGGGTTAAGCAAACAAACACCATCACCTGGGGGATGCGAGCCGACACCCGCCTGTTCAGCATGATGGACGTGGACAGCAGCAAGGCCACCGGCTTTGAAGTCGACCTGGCCCGGGCTGTTACCAAGCAGATCCTTGGTCCTAAAGGCAAGATGAAAATTGAATACATCAGTGAAAAGTCCCGGATCATGGATCTCAAGATCGGCAACGTCGATGCTGTCATGGCTACCATGACCAACACACCCGATCGGCGCAAGATCATCAATTTTTCCGACACTTACTTCATGGCTGGGGAAACCTTGATCGTGCCGAAAAAGAGCAAGCTGAACTCCATCAAGGATTTCAACAACTCCAAGTACTCCATTGCCGCCGTTAAGGGGTCGACCGCTGACAGCGACGTCCACAAGTACGCCCCGAAGGCCCGGGTCATCTTCTATGATGACTATGGTTCTTGCTACAATGCTTTAAAGGCCGGCAAGACCAACGCCATGGTCAGCGACAACGCCGTTTTGGCCGGCTTGATTTCTGATGACAAGGACAAGTTCAAGATGCTGCCTGATACCTTTACGGTTGAACCATACGGGATCGGCATCAAGAAGGGGGAAGACAAGTTTACGGCTGAGGTCAACCAGGCCTTGAAAGTACTCCGGAAGAACGGGACTTACGCCCGCTTGATGAAGAAGTGGTTCAATGGCGTGCCTGGCTTCAACATCAAGTCCTCTTCCCGCTTGAAGGCAAGCGAATAA
>SRR1919932_00888 glutamine ABC transporter permease protein
ATGGAAAATCTTACAGAAGCATTATCCTGGATCAACCTCCGCTTTTTGCTGCAGGGTTTCTGGGTCACGATCGAAGTTTCAGTGATTTCAATCATCTTGAGCTTTGTGATCGGCCTGGCCCTGGGTCTGATCCGCTTTACCAGAATCGACGCCAAGACCACCCGGATTTCCAAAGTGGTCGGGGTGATCATCGACATCATCAGAAACCTGCCGCTTTTGCTGATCATCTTCTTCTCCTACTTTGGCCTGCCGGTCATGGGGATCAGAGTTGATGCCGTCCAGGCTTCAGTAATTGCCATGGTGGTCTTTGAATCAGCCATGATCGCGGAAGTTGTCCGCTCAGGGATCATGGCCGTCGACCCTGGCCAGATGGAAGGGGCCCGGTCAAACGGGATGACCTACATGCAGGCCATGACCCACGTGGTTTTACCCCAGGCCCTGACCAAAATGATTCCGGCCCTTTTGTCCCAGTTCGTGTCCTTGATCAAAGATACTTCCCTGGCCACGATCATCGTTTTGCCGGAACTGCTCTACCACGCTGAAATTATTTACAACCAAAACACCAATTATATGATTCCGATGTACCTGGCCGTGGCAGTAATGTACTTTATCATCTGCTTTGCCCTGTCCAGCTTTGCCAACTACTTGAGTAAGCGCATCAAGTACTAA
>SRR1919932_00889 glutamine ABC transporter permease protein
ATGTTGAATTTACTTGGAGCAAACTGGTCCACCTTTTTGCTCGGTTTTTGGAATACGATTCTCTGCAGTCTGATTTCCTTGTTTTTCAGTTTGATCATCGGATCCGGCTTTGCCATCCTGGAAACCGTGCCTAACAAGTTCTGGCGCGGGGTTGCCAAGGTCTATGTCGAAATCTTCCGGAACATTCCCTTGCTGGTTGTCACCATGGTCTTTTACCTGGTTTTGCCAACTTACACGCCGCTGAAGCTGACTGGCTTCCAGGCAGGGACAATCGGCTTGTCCATTTACTCATCAGCTTTTATCGCTGAAACTGTCCGCTCCGGGATCCAGTCCGTCGGGACCGGCCAGATGGAAGGGGCCCGGTCAAACGGGATGACCTACTGGCAGGCCATGCGCTACGTTATCCTGCCTCAGGCCTTCAGAATCGTGATTCCGCCATTGGGCAACCAGCTTGTCAACTTGATCAAGAACTCCAGCATCCTGGCTTTCGTAGCCGGCTTTGACTTGATGTACCAAGGGGACATCGTGGCATCCAATACTTTCCAGACCATCCCAAGCTATGTCTTGGTCAGCCTGTTCTACCTGGTTTTGACCCTGCCGCTCAGCTACTACATGCAGTATCTGGAAAAGAAGGGCGTTTAG
>SRR1919932_00890 glutamine ABC transporter substrate-binding protein
ATGAAACACACGAAACTATTCCGCAAAGTTGCCGCCCTGCTTTTTCTGTTGCTGACCACTGTTTCACTTTCCGCCTGTGCTGTTGAAAGTGACAACTCAGTGCGTGTCTACAACCACGTCAAGAGCAGCAAGACGATTACTTGGGGCGTCAAATTTGATACGGCTTTGTTTGGGATCAAGAGCGTCAAGACCAACAAGCTGGAAGGTTTTGAAATCGACCTGGCCCGCCTTTTGACCAAGGAGATCCTGGGCAAGGACGGCAAGGCAAAATTCATTGAAGTTACGGCCCAAACCAAGATCCCGCAGCTTAAGAACAACAACCTGGACGCGGTTCTGGCCACCATGACCATCACGGATGAGAGAAAGAAGTCGGTTGACTTCTCCACTCCTTACTTTAAGGCGGGGACATCCCTCATGACCAAAACCAGCAGTCCAATCAAGTCGATCAAGGACTTAAACCACAATGGCCGGGTGGCCATCGTGGTTAAGGGGACAACGGCTGCGGACGATATTGCCCGCCTGGCCCCCAAGGCCAAGATCCGCCAGTACAATGACTACGGTGCCTGCACCAATGCCCTCTTAGCCGGGCAAGGGGACGCGGTCGCCACTGACAACGGGATTTTGGCCGGGATTGCCGATCAGCAAAAGAGCCTGCACCTGGTTGGCGGCACAGTTGCCGTTGAACCTTACGGGATTGCCGTTGAAAAGGGGCAGACCAAGATGCTGGAAGCTATCAACAAGGCTTTGAAGGAAGCTAAGGCAGACGGCAGCTACCACAAGCTTGTCAAGAAATGGTTTGGCAACATTCCAGGATTCAGTGTTAAGGAGGCTGAATATTAA
>SRR1919932_00891 glutamine ABC transporter ATP-binding protein
ATGGCAGCAATTATCGAATTCAAGAAAGTCAACAAGTTCTACGGTGACTACCATGCCTTAAAAGACGTCAACTTAAGCATTGACGAAGGCGAAGTCGTTTCCATCATCGGCCCTTCTGGCGCGGGCAAGAGTACCTTGATAAGAACCATGAACGGCTTGGAAGGAATTTCTTCCGGCGTCTTGGAAGTGGACGGCTATGACCTGGGGGACAAGAAGACTGACTTGAACAAGATCCGACGGAATGTCGGCATGGTTTTCCAGCACTTTAACCTCTACGAAAACCACACCGTCCTGGAAAATGTCATGCTGGCCCCAAGAATCGTTTTGCACCGGGACGAAAAGGAAAACCGGGAAATCGCTGAAAAGCTGCTCAAGCAAGTTGGCCTTTTGGACAAGGAAGACTCCTACCCAAGACAGCTGTCCGGTGGGCAAAAGCAGCGGGTGGCCATTGCGAGATCTTTGGCCATGAAGCCCAAGGTGCTCTTGTTTGACGAACCAACCAGTGCCCTTGACCCGGAAATGATCCAGGACGTTTTGGACGTCATGCAATCCATCGCCGCTGAAGGGATGACCATGGTGGTCGTGACCCACGAAATGGGCTTTGCCAGAGAAGTGTGCGACCGGGTCATCTTCTTTGAGCAGGGGCAAGTCTTGGAAGACTCCCACAACCCGAAGGACTTCTTTGAACACCCGCGCAACCTACGGGCTCAGGAATTCCTCAGCAAGGTAATTTACCACTAA
>SRR1919932_00892 uridine kinase
ATGTCAAAAAAGCAACACCCCATCATTATTGGTATCGCCGGCGGCAGCGGGTCGGGGAAGACGACCATTGCCCACGAATTATATGACCAGTTCAAAAACGACCGGATCCGGATCATCACGGAAGACTCTTATTATAAGAACCACCCGGAAATGTCCATGGCTGAAAGAAATAAAATTAATTTCGACCATCCGGATGCTTTTGATACCGAGCTCTTGATCAGCCAGCTGCAGGACCTGCTGAATGGCAAAGCCATCGAGATGCCGATCTATGACTTCACCACCCACCTGCGCAGCCCGGAAACGGTCCACGTTGAGCCAGCTGATATCATCATCCTGGAAGGAATCCTGGTTCTGGCCTCAGAAGAATTACGGAACTTGATGGACATCAAGATCTTCGTCGACACTGACGACGACATCCGCTTGATCCGCCGCCAGCGCCGGGACATGGCCGAACGGGGCCGGTCCTTTGACTCAATCATCGACCAGTACTTGGCCACGGTTAAGCCAAGCTACCACCAGTTTGTTGAGCCAAGCAAGCGCTACGCCAACATCATCGTGCCAGAAGGCGGGGCCAACGATGTCGCTTTGGACATGCTGACCACGAAAGTCCGCGACATCCTCCGCCGCAATGATTTAGCAGAAAAAGAGGTAGAATAA
>SRR1919932_00893 uridine kinase
ATGGCTAAGCAGAAACCACTCGTCATTGGGATTGCCGGGGGGTCAGGCTCAGGCAAGACGACAGTCTCCAAGGAAATCAGCAAGCGCCTGCCAGCTGACCGGGTGCTCATTCTGACTGAAGATGCCTACTACAACGACAATTCAGCCCTCAGCATGGATGAACGCAAGAAGATCAACTACGACCATCCCAATGCTTACGACACTGACCTCTTGATTGAGCAGCTGCAGGACCTGCTGGATGGCAAGGCAATTGAACTGCCGACCTACAACTTCAACATCCTCTCCCGGGCCAAGGACACTATTCATGTTGAGCCAGCCGACATCATCATCCTGGAAGGGATCCTGGTTTTGGCTTCAGAAGAATTGCGGAAGTTCATGGACATCAAGCTTTTTGTCGACGCTGACGACGACATCCGCTTCATCCGCCGCTTGCAGCGGGACACCCAGGAACGGGGCAGGTCAATCGACTGGATCATCTCCCAGTACCTGACTACGGTTAAGCCAAGCTACAACCAGTTCGTTGAGCCAAGCAAGAAGTATGCCGACATCATAATCCCCCAGGGTGGGGAAAACCAAGTGGCCATCGACATGGTCTCCTCCAAGCTCTTGTCCATTATCAACGGCTAA
>SRR1919932_00894 hypothetical protein
ATGACGCATTTAATTTTAAGCAGACCAAAGAAGATGAACCGGGCATACTGGAGCACGGTTGGCCTCTTGCTGGCCTTGATGCTGCTGACTGCCTGGATTGGCCTGCATACCTTTGCTTACCTAAATCTCTAA
>SRR1919932_00895 energy-coupling factor transporter substrate-binding protein
ATGCTTAGAAGAGAGAGCAAGTGGAATGTGAAGGCTATTATCTTGATGGCCTTGATTGGGATTATTATGGGGGTTATCTACACTTACGTCGTCAACCCCATCTACAATTCAGTTGAATTAGCCTTGAACCTTGTCGGCCTGGGGCCTTTAGCCGGGCAGATCTGCGCCGGTCTTTGGTACATGGCTGCGCCTTTGGCCATGTACTTCGTGCCAACCTTTGGCTCCGGGATTGTCGGGGAAACCCTGGCTGCTACGGTTGAAATGGCCTTCGGTGGCCAGTGGGGGGCAATGACCATCCTGCAAGGGCTGGTGCAGGGGGCCTGCAACGAAATCGGCTTCTTCCCGAAGAAGGAAAACTATGACCGCTTCGGCTGGGGCAGCTTGATTACCGGGGCAGTCTGCTGCGCGGTGGCCGGCTATGTAATGTCTTACTTAACTTACGGCTGGAGTGCCTACAAGCCAGCCCTCTTGATTGAAATGTTCATCGCCTGCATCATTTCTTCCATCGTCTTTGACGCGGTTTTGGTCAAGCTGATCACCAAGCTCTTTGACCGGGTCATGGCCAAGTAG
>SRR1919932_00896 glutamyl aminopeptidase
ATGAAAAAAGCCGCTGAAATTCAAATGCTGAAGGACTTTTCAAATGCCAACGCCACTTCCGGCTTTGAAAATGAATTCGTTGACCTTTTTACCAAGACGGTCAAGGACTACGCCGACCTTGAAGTCGACGGGATGCTGAACGTCTACGCTTCCAAGAAGCAGAACACTGGCAAGCGGCCGGTGATCCAGCTGGACGCCCACTCAGACGCCGTGGGCTTCTTGACCCAGGCTATCCGGCCAAACGGCTTGATCAAGTTCGTGACCCTGGGCGGCTGGAACAATGTGGTTCTGCCGGCCCTCAAGGTCAAGGTCAGAAACCGGGACGGGGAATACATCCCCGGCGTCGTGGCCTTAAAGCCGCCCCACTTCATGTCGGAAGCTGAAAGAAAGTCTGTCCCGCAGGTCGCTGATTTGTCTATTGACGTCGGCTCCTCCAGCCGGGAAGAAACGATCAATGACTACAAGATCGACACTGGCTGCCCGATTTTCGTTGACGTGGACTGTGAATACAATGAAAAGACTGGCCTCTTCTTCGGCAAGGACTTTGACGACCGCTTCGGCGCCGCTGCTATGGCTGACATCCTGGAAAACTTGAAGGATGAAGAAGTCAACTTTGACCTGGTTGCCGCCTTGTCCAGCCAGGAAGAAGTCGGCCTGCGGGGTGCCTATGTCACGGCCCGCAAGATCAAGCCGGACCTCTGCCTGGTTCTGGAAAGCTGCCCGGCCGATGATACTTTTGAACCGGACTGGCTGTCTCAGACTGGCCTTAAGCGGGGACCAATGTTGCGGGACATGGACGTCACCTTCCTGCCAAACCCCAAGTTCCAGCAATACGCCTGCGACTTGGCTGATAAAAACGGGATTCCTTACACCCGGTCAGTCAGAACTGGTGGCGGGCAAGACGGGGCGGCCATCTACTACGAAAACGGGGCCCCGACCATCGTGATCGGGATTCCGGTCCGCTATGAGCACTCCCCATACTGCTTCAGCAGCTACAAGGACTACAAGGCTGCTGTTGATCTGGCCTTGGCGATTATTAGAGATATCGATGAGGAAAAGCTAGAATCCTTTAAAAGCTTTAATTAA
>SRR1919932_00897 dipeptidase
ATGCAAAAGCCAGCAGAATGCACGACCATTTTAGTCGGCAAGGACGCCACCATTGATGGCTCCACGATGATTGCCCGCAGTGAAGACGGCGGCAGCACCATTATCCCTGAAGCCTTTATCGCGGTTAACCCGAAAGATCAGCCAAAGCACTACAAGGCAGTGATCAGCGGCCAGGAAATCGATGATGAAGACCTGCTGCCAAACCCGCTGCGCTACACCAGCGCTCCAGACGCTTCCGGCAAGAACGGGATCTGGGCCGCTGCCGGGATCAACGACGCTACGGTAGCCATGACGGCCACGGAAACCATCACCACCAACAGCCGGATCCAAGGGATCGACCCCTTAGTTGAAGAAGGGGGCCTGGGCGAAGAAGACTTTGTCACTTTGACTTTGCCATACATCCATTCGGCCAGAGAAGGGGTCAAGCGCCTGGGCTACCTGGTGGAAAAGTACGGGACCTACGAAATGAACGGGTCAGCCTTTGCCGACCATGACGAAGTCTGGTACATCGAAACCATCGGCGGCCACCACTGGGCTGCCCGCCGGATTCCGGACGATGCCTATGTGGCAGCGCCAAACCGCTTGAACATCGACTTCTTTGAATTTAACGACGAAGAAAACTTCATGTGCTCAAGTGACTTGCTGGACATCATCAACGAATACCACTTGAACCCGGACTACCAAGGCTACAACCTCCGTCACATCTTTGGTTCATCCACCATCAAGGATGCTCACTACAACAACCCGCGGGCCTGGTACATCCACCGCTACTTCGACCCTGAATGGGAAGGCGAGCCAGGGGACCAGGACCAGCCTTTCATCACTTACGCCAAGAAGAAGATCAGCCCGGAAGACATCAAGTTCCTGGAAAGCTCCCACTACCAGGACACCAAGTACGATGTCTACAGCACGACCAACACTGAAGCGGAAAAGAAGCTCTTCCGCCCAATCGGGATCAACCGGAACTTCGAAACCCACATCCTACAAATCAGAAATGACGTTGAAGAAGGTATCGCCGGCGTGCAATGGCTGGCCTTTGGCCCGAACACTTTTAACTGCTTCGTGCCTTTCTACACCAACGTTACGACTACTCCGGCCAGCTTCCAGACCGGTCCGGACTTTGACTTGACCAAGATCTTTTGGCTCAACAAGCTGAACGCCCAGCTCGGCGACACCAACTACAAGGTTTACAGCGCTTTGGAGCAGGCTTTTGAAGAAAAGACCATGGCTAAATTGCGCCAGATCGAAAACGAAACTGACCGGGCTGTTAAGGGCTTGACTGGCCGCGACTTGCAAGAGAAGCTGGAAGAAGCCAACCAGAAGATGGCTGACTTGACTTACAAGCAGACCGTAGCCTTGACCGGGGAAATGGTCAAGGACGGCCACAGCTTGATGAAGCTGAAGTACGACCTGCTGGATTAA
>SRR1919932_00898 glutamate racemase
ATGTCAAAAGAATATGCTGATCGGCCAATCGGCGTTTTTGATTCCGGCCAGGGGGGCCTCACGGTCCTCAGCCGCCTGGTTGATCTGATGCCAAACGAAGACTATGTCTTCTATGGCGACTCAGCCAATGCTCCTTACGGGGTAAAGAGCAAGGAAGAAGTCTACCAGCTGGCCAAGCGGGTAGTTGATGAACTGATTGACAAACACCAGGTCAAGGCCGTCATGATTGCCTGCAACACGGCAACCAGCGCGGCGGCTGACCGCCTGCGCCGGGAATACTCCCTGCCGATCATCGGGATCGAACCGGCTGTCAAGCCGGCAGCTGAAGAAAATCCCGGCCGGCAGGTTGTTGCCATGGCCACTTCCTTGACCCTGGAGCAGGATAAGTTCAACCAGCTGGTTGCCGAATGTGCTGAGCCTGGTCAGGTGGCCAAAGTGCCAGCCCCGAAACTGGTCGAATTGATCGAAAAAGGGCAAACTGACAGCCCGGCCATTTACCAGTACCTGGAAGAATTGCTGGCCCCATATGCCGGCAAGGCGGCAGGAGTGGTCTTGGGCTGCACCCACTTTCCTTTTGCCAAGCAGGCCATCCAGGAGATCTTAGGCCCCCAGGCCAAGGTCTATGACGGAGCCATCGGGGCCGCTGCTGAAGTCAAGCGGCAACTGGCCAGCCGGGATGAACTGAATGCCAGCAGCCAGCCTGGCCAGATCCTGTTTGAAAACAGTGCCCCAGCCGGCGCCGATTTGAGCAAGCGCCTCTATGCCCTTTACCGGCAAAAGCATTAG
>SRR1919932_00899 membrane protein
ATGTTTAACGTTTCGCCTGAACAAGAGCGCCGCCACATCGTTGACGACTCAGCGCTCAATGGCTTTTTAACGAAAATGTATTCCATCATGGGCCTGGCGGTTCTGGTCTCAGCCTTGACTGCCTACTTGACCTTGACGGTCTTCTCTGGCAGCCTGCTGCCGCTACTCACCAACCGGGTCTTCATCTGGGTCCTGCTGCTATTGCCGCTGATTTTGAGCGTGGGCATCAGCTTTAAGGCTACTCGCAAGCCGACAACGGCCTTCTTCATGTTGATGGCTATCGCGGTTGTCTACGGGCTAGAATTCTCCCTTTTGGCTTTTGCCTACACGGGTGCCCAAATCGGCGGGGCCTTCATCTCCGCTTCAGCCGTCTTCATCGGGATGGCGGCTTACGGCAGCGTGACTAAGAAGAACCTGGACACCATCGGGGCTTACGCTTCAGCCGCCATCTGGGGCTTGATCGTGGCCAGCCTGGTCAACATGTTCTTGAAGAGCACGCCAGCCAGCTTCATCTTCTCCATCATCGGGGTCATCATTTTCACGATCTTGACTGCCTGGGATGCCCAGAAGATGAAGTCCATCTACGCCAGTTACGGAGACCAGCTGCCAGAACTTGGCCTGGCCGTTAACGGGGCTTTGATGCTGTACCTGGACTTCATCAACCTCTTCCTGCAATTTTTGCGGATCTTCGGGATCGCTGACAACGACAACTAA
>SRR1919932_00900 major facilitator superfamily transporter
TTGCAAAAGCAGCCGGTATGGAAAAGAAATCTGCAAGTCTCGACGGTCAGCGTCTTTTTGGCGGGGATTGCCTTTTCAGAAATTACCCCTTTTTTGTCCTTGTACATTGACACCCTGGGCAAGTTCAGCCACCAGCAGCTGAGCTTTTGGTCAGGGATCGTCTTTTCAGCGGTCTACGTGGTGGCGGCCCTGGTTTCCCCGATTTGGGGCAAGCTGGCTGACAAGAAGGGGCGCAAGCCGATGATTCTGCGGGCCTCTTTAGGGATGGCGGTCGTCTTTACCTGCATGGGCCTGGCCCAGAATGTCTGGCAGCTGCTGTTCCTTAGAGGGATGCAGGGGGTTTTTGCCGGCTTCATCTCTAACTCTAACGCCCTTATCGCGTCAGAAACGCCGAAGAACAAGTCGGGCAAGGCGCTGGGGATCATGATTTCTGCCCAGACCGGGGGGCAATTGCTGGGGCCCTTTGCCGGCGGGGCCTTATCGCAGGCTTTTAGCTACCGGGTAACCTTCTTTATTACCGGGGCTCTGCTTTTCAGCTGCTTTATCTTGTCTGTCTTCTTTATCCATGAAGATGACTTCGTGCCAGTTGAGAGCAAGCAGCGGGGCAGCTTTAAGGACACGATGAAGCAGTTTAAGAGCGGGCAATTGATTCTCGGGCTGCTGCTGACGACCTTGATCATTCAAGCGGCCAACAACTCCATCAACCCGATCGTTTCCTTGTATGTCAGAAGCTTGATGCACAATTCCGGGCAGGTTGTCCTCGTCAGCGGGGTGATCGCGGCTTTGCCAGGGATTGCCACGGTGGCCGCGGCTTCTTACTTTGGTGGCTTAGGTGACCGGATCGGGACCCACAAGATCATCTTAGGCGGCTTGATTGGGTCGATCATCCTCTTCTTCTTGACGGCTTTCGTCCGCAACACGGTTGAGCTTGGCGTCTGTCGCTTCCTGGTTGGTTTTACTGACGCCTGCCTCTTCCCGCAGGTCCAGACCATGCTGACCAAGCACAGTCCAAAGGAACTGACCAGCCGGGTCTTCAGCTGGAACCAAAGTGCCATGTACGTCGGCAATATTTTTGGCCCGCTGTTAGGTTCAACGGTTTCCGCCCACTTCGGCTACAGCGCCGTCTTCCTGGTAACCAGCGGGATTGTCGTGATCAACCTGCTTCTTTACCGGACTAATATTTTGAAAAACATTGCCTAG
>SRR1919932_00901 hypothetical protein
TTGAAAGTTATTACCAAAATTTTGCAAGCTGTCAGCTTTCTGCTCAGCCTCTTTCTTCTTTGGGCCGGCCTGGCCAGCTTGCTTGACGTCTGCAACTCTGCCAGACTAATGGGCTGGTCCCCTTTCATCCCTTCAATTGTCGCCGACCTGGTCTTCATTGTCATGCTCATCTGCGAAGCCTGGCTCAGCCTGCGGATAAACAAGCTGGACGACCGGGGAATCTTCTTCTTCCTGGCCGCCCTCCTGCTTTTAACAGCCGGCGAAATGGTCGCCACTGTTGCTTTAGGCTCTGGCTTTCTCTGGCTGAACCTCTTGCAACTCTTGCTGGTCCTTCTGGCCCGCTTTGCCATCGATTTTCATGAATAG
>SRR1919932_00902 major facilitator superfamily transporter
ATGGTGAAACTCATTCTCGAGCTTCACCATTTTATTTTTTCGTTTCATGGACAAGTCATCCGGCAAGACAAAGATCACAAAGACATCCCCGTAGTAACTGTCTTCCACATACCGGCCCAATATATCGCCTTGTACATGCGGTCAATCGGCCACGAAAGTCTCTTCTTTTACTACGTCTCCTTCGCGGTCTTCATTTCTCTTATGATCTACGTCTTTGCCTTAAAAGGTTGTGACTGTTAA
>SRR1919932_00903 hypothetical protein
TTGAAGAGTAAACTGATCGACATTTTCTACTTCTTCTTAGCCGGCATTTCCGGTACCCTGGCCGTCTTCAGCATGTTCAAGGACCATTCCGCCGCTAACATCGCCATGGACGTCTTATTCCTCATCATCAGCGCCTACTTCATTGTCCGCGGCTTCCTGGACATCGAATCTGAAAACAAGAAGCTGAGCAAGAACTGGCAGATCCTCTCCTGGATCGCCTGGTGCCTGCTCCTCTTGGGCGTCATCTTGACCTTGACCGGCTACAAGCTGGGCATCAACGGTCTGGGCTGGGGCGGCTTCGTCCTCTTCCTGCTCTGCTCTTTCGTCGTGCCCGAACAAGCCAACGACAAGAACTTTCATGTCAAGCGCCGGGATGAGACCGGTTTTGATGACAAAAATTAA
>SRR1919932_00904 ammonium transporter
ATGAACACAGCCAACACCGTCTTCTTAATTATCGCCGCCGTCCTGGTCTTGATGATGACCCCGGGCCTGGCCTTTTTCTACGGGGGTTTGGTCTCGAAGAAAAACGTGGTCAACACCATGATCTCGGTTTTTATCATCTGCTCTTTAGCCATCGTCTTATTCGTGGCCTTTGGCTATGAACTTTGCTTCAACGGCAATGTAGCTGGAATTTTTGGCAGAGTCCAGCACATCTTCCTCTCCGGCAGTGACTTGACTAAGGTCGTTTTAAAAGAGCAGGGAATTACCGCCGCCAGCTACCTGCTTTTTGAAATGATGTTTGCCATCATCACCCCGGCCCTCTTCGTCGGGGCCACGGTGGGCCGGATGCGGTTCAACTTTCTATTGGTCTTCGTCTTCTTCTGGTCAGTGTTGGTCTACTACCCCCTGGTCCACATGGTCTGGGGGACTGGCGGACTTTTAGCCGGCTGGGGGATCCTGGACTTTGCCGGCGGCACGGTCGTTCACATCAACGCCGGGATCACCGCCCTGGTCTTATCCATCTTCTTAGGGCCCCGCTACCAAAAGCAGACCCGGCCCTACAGCCTGCCCTGGGTCCTCTTGGGGACAGCAATCCTCTGGCTAGGCTGGTACGGCTTTAACGCCGGCAGTGCCTTCGGCATGAACCAAACGGCCTTGACGGCCTGCTTGACCAGTACGGTTGCGGCAGCGGCCTCTATGATGACCTGGCTTTTGCTGGAAGAAGCCTTTAGCGGCAAAGCCAGCCTAGACGGGATCTGCACCGGTACCCTCTGCGGCTTAGTCGGCATCACGCCAGGGGCTGGCTATGAAACCTGCGCTGGAGCCCTCTTCACCGGTATCCTCTGCAGTCTGGCCAGCTACTTCTTTATCAGCCAGGTTAAAGGACAGCTTAGCTTTGACGACCCCCTGGATGCCTTTGGATGCCATGGCATTTCCGGTATCGTTGGCGCTTTAACCGTCGGTCTCTTTGCCAGTCAAAAAGTTGACCCGGGGATTTCCACTAGCGGCCTTTTCTACGGAGGCAGCTGGGAACTCTTAGGCAAGCAGGCAGCCGGCACCCTCTTCACCATTGTCTTTACTCTCTTGATGGTCAGCTTAATTACAGCCGTCTTGAAGCGCTTCGTCAACATGCGGGTTTCCGCCCGTGATGAAGAAGTCGGCCTGGACCTCAGCGAGCACGGCGAATTCGCCGACTGCCAGATCAGCGCAAGCCAGGCCATCTTCGGCAAGTAG
>SRR1919932_00905 glycosyl transferase
GTGGAAAAATTACTAACTCTCATCGTTCCCTGCTATAACTCAGCTGAATACTTGAACCGCTGCGTCGACTCCCTTTTGCCCGGCGGTGACCGGGTGCAAATCATCTTGGTTGACGACGGGTCAACTGATGAAACCGCCCGGATGCTGGATGACTACCAAGCTAAGAGTTTAAACTTGGACCTGGAAGTTGTCCACCAGGAAAATGCCGGCCACGGCGGGGCCATCAACAATGGCCTGAGACTGGCCAAGGGCAAGTACGTCAAGATCGTCGACAGCGACGACTGGCTGGACCAGGAGGCCTACAAAGAGGTGCTGGATTACCTGGAAAGTAATCCAGAGGTCGACCTCTTTTTGGCCAACTATGTCTATGACAAGCCAGCTGCCGGCCGCCAGCGGGTGATCAAGTTCCCGCATCTGCCGGTCGGGCGGACCTTCTCCTGGGATGAGGTCAAGCTGCGGATGGGCCAGTACTTCATGCTCCACTCCGTTATCTACAACCGGAAAGTCCTGGACCGGGCCAAGGTAGCCCTGCCAACCAAGGTGTCTTATGACGACAATATCCTTGTCTTTGAGCCGATGGTGCAGGTGCGGACCATGCGCTACCTGCCGGTCAACCTCTACCACTACTTTATCGGCAGAGATGACCAGTCAGTCAACGAAAAGGTGATGCTGAAGAAGATTGACCAGCAAATCTTGATCAATAAGCAGCTGATCGTCTTCTACGCCTCCCAGGTCAACAAGCGGGCGCCTTACGCCAAATACATGAAATACTTCTTAGAAGCCGTTACAGGCGTGACTAGCGTAATCTTGATCCGGGGCAAGAAGAAGGAGTATATTGCCAAAAAGGACGAGCTCTGGCAGTTCCTGAAGACTTATGACCTGGAGACCTACAAGTCCTTTAAACGCCGCCTGGTGGGCCATTTTGTCTCCCGGGACGTCCTGCCTATGCGGCAGATGGTCAGCGGGGCCTACTTGATCCTGCAGCGGTTGTATTCGTTTAATTAG
>SRR1919932_00906 50S ribosomal protein L1
ATGCCAAAGCATGGTAAGAAATACGTAGAAGCTGCCAAGAAGGTTGACAGCAGCAAGTTGTACTCAGTAGAAGACGCTATCAAGCTGGTTAAGGAAACTTCATACGCTAACTTTGACGCTTCCGTAGAAGTATCTTACAACTTGAGCGTTGACCCTAAGCAAGCTGACCAACAAATCCGTGGCTCAATCGTTTTGCCAAACGGTACTGGTAAGTCTGTTAAGGTTATCGTATTTGCTGAAGGCCCACAAGCTGAAGCAGCCAAGGCTGCCGGTGCTGACGAAGTCGGCGCAGACGACCTGGTAGAAAAGGTTCAAAACGGTTACCTGGACTTCGACGTTGTCATCGCTACTCCAATGATGATGGCTAAGGTTGGTCGTTTGGGTCGTGTGCTTGGGCCTAAGGGCTTGATGCCAAACCCTAAGACTGGTACTGTTACTATGGACACTGCCAAGGCTGTTCAAAACGTTAAGGCTGGTCAAGTAGAATACCGTGTCGACCGTCAAGCTTCAATCCACGCTGCTATCGGTAAGGTTTCATTCACTGAAGAACAATTGACTGAAAACTTCCGCGCTTTGCAAAACGCTATCTTGCGTGCAAAGCCAGCTTCAGCTAAGGGTCAATACATCAAGAGCTGCGCAGTTGCCGCAACCTTTGGCCCTGGGATCAAGTTGGACCCAATCGCTTTGATGGCCTAA
>SRR1919932_00907 50S ribosomal protein L11
GTGGCAAAGAAAGTTATTAACGTTGTTAAGTTACAAATTCCAGCTGGCGCTGCAACCCCTGCACCTCCAGTAGGTCCTGCTTTGGGTCAAGCAGGTATCAACATTGTTGGCTTTACTAAGGACTTCAATGCTCGTACTGCTGACCAAAAGGGCATGATCATCCCTGTAGTCATCACTGTTTACGAAGACCGTTCATTCGACTTCGTAACTAAGACTCCTCCAGCACCAGTCTTGTTGAAGCAAGCTGCTGGCATTCAAAAGGCTTCAGGCGAACCTAACAAGAACAAGGTTGGTTCAGTAACCACCGCTCAAGTTAAGGAAATCGCTGAAACTAAGATGAAGGACCTTAACGCTGCCTCAATCGAAGCTGCTATGCGCATGGTTGAAGGTACTGCTAGAAGTATGGGTATCGAAGTGAAGGACTAA
>SRR1919932_00908 transcriptional antiterminator NusG
ATGGTAGAATCCGCCAAGAAGCAATGGTACGTCCTGCACACTTACTCTGGTTTTGAGGACAAGGTTAGATCCGACTTGCTGTCCCGGGCCCAGTCACTGGGGATGCAGGACTACATCTTCCGGGTTGTCGTTCCGCAAGAACCAAAGATCGAAGACGTGCGCGGCAAGAAGGAAGAAGTTAACGAAAAGGTCTTCCCTGGTTACGTTTTGGTTGAAATGGTCATGACTGACGAAAGCTGGTTTGTTGTCCGGAACACTCCTAACGTTACTGGTTTCGTTGGCAGCCACGGCGGTGGTTCCAAGCCTTCCCCGCTTTACGAGGAAGAAGTCAGAGCAATCCTGCAGATGCAAGAAGGCGAAGCAACTGAAAAGGTTGACTACGACTACGAAGTTGGCGAAAGCGTCATGATCACCGCAGGTGCCTTCAACGGCATGGTCGGCAAGATCGCTGAAATCCAGGACGACAAGCAAAAGCTCTTCTTGACCATCGACATGTTTGGCCACGCTACCACGGCTGAACTGGGCTTTGACCAAGTCAAGAAAATGGAAGACTAA
>SRR1919932_00909 preprotein translocase subunit SecE
ATGATTAAGTTTTTTAAGAGCGTTGGTCAGGAAATGAAACTGAGTCATTGGCCAAGTGCTAAGGAAAACCGACGCGACACGGCAAACGTGGTCGTAACTTCTCTGCTTTACGCGATTTTCTTGGGCGCTTTGGATTGGGCCTTTGCAAAATTGATTCAATTAGTTCTGTAA
>SRR1919932_00910 50S ribosomal protein L33
ATGGCAGTAAAGAAAGCAGCTTTGGCCTGCAGCGTTTGCGGGTCACGGAACTACTCAATCACTGCAAACAGCAACCGCACCAAGCGCTTGGAACTGAACAAGTTCTGCAAGCACTGCGGCAAGAAGACTTTGCACAAGGAAACGAGGTAG
>SRR1919932_00911 1-deoxy-D-xylulose-5-phosphate synthase
ATGAATCAACACCCTGAATACCTGCTCAACAAGATCAAGTCACCAGCTGACCTTAAGGTCCTGGATCTGGAAGAAATGAAGCAGCTGGCTTCAGAAATCCGCCACTTGATCATCGAGAAAGACGCGGCGGTTGGGGGCCACCTGGGTCCTGACCTGGGGATCGTGGAACTGACCATCGCCTACCACTACGTCTTTGACGCCCCCGGCGACAAAATCATCTGGGACGTCTCCCACCAGACCTACCCCCACAAGATGCTGACGGGCCGGGCTTATGCCTGGCTGGACCCGGAAGCCTACGGCAAGGTGACTCCTTACACTAATCCCGATGAAAGTCCCTATGACTACTACGCGGTTGGCCACACTTCTACCTCTATCTCTTTAGCCACCGGCATGGCCAAGGCCCGGGACCTCTTAGGCGGCAGCGAGCGGATCATGGCCGTCATCGGCGACGGCTCCTTAACCGGCGGGATGGCCTATGAAGGCTTAAATAACGCCGCGCTGGAAAAGGGCAACCTGGTCATCGTCATCAATGACAACCAGTGGTCCATTGACCAAAATGTCGGCGGCTTGACCACGGCCCTGAAGAAGCTGAGAGACAGCCAGGGGCAGGATCCGGAAAATCCTTTTAAGGCCTTTGGCTTTGATTACCGCTATGTCGCTGATGGCAATGACCTGGAAAGCATGATTAATGCCTTCAGCGAAATCCGCGATGTCGACCACCCCCTGGTTTTGCACGTCAATACCTTAAAGGGCAAGGGTTATCAGCCAGCTATTGAGGATGAAGAAAAGCACCACTGGGTCCGGCCCTTCAACTTAAGCGATGATTCGCCAAAGAACATTACTGCGGGCTCGACCCCAGCGGAAATTGCCATTAAGACCGTGGCTAGCGCTATTGACGGGGGCCAGGAAAACATCATGGCGATCACTGCCGCTATCCCTGGCGTCTTTGGCCTTGACTCCTTTAAAGAGTCTTACCCGGACCACTACCTGGACGTCGGGATCGCCGAGCAGGATTCCGTGGCCTTCGCGGCGGGCTTTGCCAAGGCGGGCGGCAAGCCCGTCCTTTTTGAAAACTCCACCTTCCTGCAGCGGGCCTTTGACCAGCTCAGCCATGACGTGGCGGCTAACAATTTGCCAGTCGTCATGATCGTGGCTGGCGGCGGGATCCAGGCCAACTCCAAGACCCACGTGGGCGTCTTTGACCAGGTCATGGTCAGCAATCTGCCTAACTGGAAGTACCTGGCCCCGACCAGCTTGACTGAAGAAGCGGCCATGATCAACTGGGCCTTGAAGCAAAAAGACGGCCCTGTAGCTATCAAGCTGCCAGTCCGGCAAGTTCCAGCCGGCGGAGCCGTTCTTGAAGGCTACCGGCACATCCACTACCAAAAGCGGCGGGCCGGCAAAAAGATTGCCATCCTGGCTTTAGGCGACATGCAGGAATTAGGCAGCCAAGTTGCTGAAGAACTTGATGCTGCCCTCTACAATCCTTTGTCAGCTAACATCCTGGATACTGACTGCCTGGACCACTTAGCCCGGCACTACCAGGCTGTAATTACTTTGGAAAACAATATTCTGGACGGGGGCTTCGGGCAAAAGGTGGCCGGCTACCTGGCTGACCGGCCGGTTTTGGTTAAGACTTTTGGCGAAAAGCGGGAATACACCGACGTTGACCAAAGCTATGACCAGATCCTGGTCCGCAACCAATTGACGGCTGAGCAAATCGTTGCCAGTGTCAAGCAATTATTTAATGATTTTGTCAATGGACGGCAAGCCCGAAAGTCCACCTATTTTTAA
>SRR1919932_00912 transposase
ATGGCTGATAAAATCAAAGATGCAGTATACGCTCAGCGCTACGTTTACAACTGCCATTATCATCTGATCTGGTGCACCAAGTACCGCAATCAAATATTTACGACTATAGAACTAGCAGATGAAATGAAGGAGCTTATTCTTACTGTGGCAGCTAGGAACGATATCCAAGTTGAGAAGCTGGAGGTCATGCCGGAACACGTTCATGCCATGATATCTTTCAGGCCGTCAAAATCTATCAGCGATGTGGTCAAAGCTCTCAAAGGATCTACCGGATATATGTATCTGCGCGATCATCCGGATATTAGAGAAAAGAAATGCTGGGGCGGTCACTTGTGGTCATCAAGCTACTATATTGGAACCGTTGGAAACATGTCGAAGGATACCGTGGAAAGATACATCAATGATCAGGTCTATAACGCAAAAAAGGCCGGCAAGCCCTATCCATCCACCCATTAA
>SRR1919932_00913 transposase
ATGACCAAAAAGAAGAAAAAAGTGGTTGCCAAAGTCAAAAAGACCGACGAGACAAAAGATGAAAAGCCGAAGCGTAAGACCCTAATGATCCCAATGTCAGAGCTGCCATACCATCTTGGCCTCAAGATGCGGATCTATCCAAACAATGAGCAAAAACGGCTGATTGCCATCAACAGCGGCATCAGCCGCTCCGTCTACAACAAGCTGATTGCCATCAATTCTGAGCTGAACCAGCTCAAGAAAGTCAACGTCTATGTTAAGCAGGTAGCTGACAGGATCGAGGCACTTAAAGAGCGCAAAAGCAAGCTTTCCAAGTACTACTTCTACATGGATTCAGAAGATGTGGATAGCTTGACTATTGCTCAAGCAAAGCGCTGCTATGGGGTGGCATGGAACATGTATCACAAGGTCCATTCATCAGGCCGTCCAAAATATCACAAGAAGGGAGTCAACGATGGCTATCAGACTTCTTGCATCTACAAAAGCGAGGACAAGAAGATCGAAAACTGTACTCCATTTTCAGGCTCGGTGTGCTTCCTGGACATGAAGCACGTCAAGCTTCCAAAGCTTGGCAGAATCAGAATCAGCGGCTCAAGCTACCGCAAGGTTCTTGCCCACAATCCCAACTTTCGAATTGGAACGGCCACCATCAAATATGATGCCTCTGGCTTCTATCTGTCACTTCAAATCGGCGACGTCATTCCATTCAAGGCGCAAAAGGCAAAGACGGGCAAGAAGACAGGAATCGATCTCAATCTTGACAATTTTCTGACTGATTCAGACGGCACGGTAGTGGACAATCCGCGCTACTACCGCAAATCCTTAAAGCGGCTGAAAAAACTTCAAAGACGGGCATCAAGAAGACAGAATCGTGCTAAAAAGGAAGGCCGGAAACTTTGGCAAAGCAAAAACTATCAGAAGGCCCGCAAACAGGCGTCTCGTCTTCAAAGACGGGTTCGCAATCAAAGAGAGGACTTCCTTCAAAAGCTCAGCACTGCATACATCAATAACCACGACGTAGTAGTGCTTGAGGACTTGAGAGGGAAAAATCTGATGAAGAATCATGCCTTGGCAATGTCGATTTCTGATGCGGGCTGGACCAGCTTTCAGAGAATGCTTGAATACAAGGCAGGCCTTTACGGCAAGGCCTTCATTGAGATCGACAAGCGCAACACAACCCAGCGGTGTCATGCCTGTGGCTCCATCATGGGCCACAACGGCCATGAGAAGCTGACCCTAAAGAACCGGGAATGGGACTGCCCAATGTGCGGAGCGCACCATATCCGCGACTACAACGCTGCGCTGAACATCTTGGAGAAAGGCATTGCCAAGCTCTCGGATCAGGAATACAAAATAATTCCGTACGATTCGGAAGCTGCAAGCTAA
>SRR1919932_00914 carboxymethylenebutenolidase
TTGGAAAAGAAACAAGAAAAAACGGAGAAACAGAAAAAGCAAAAGAAACAAAAGAATAAGATGGCCAAGAAGCAAAAAGGGCTGCTGGCTCTGGCGGTGATTTTAGCCGCCTTGCTGCTTGCCTTTGGTCTGTATTTTGGCAATTACTATCATGCTGACAAGACGGCCCAGCAGGCGATGAAGAGCAGTCGGACAGTCAAGGTCAAGCAGACAGCTGAGGGCTACCTGTTTGATGGGCCTGCAAAGAAGAATGCCATTATTTTTTACCCGGGAGCGAAAGTGGAAACTACCGCCTACGCGCCCCTCTTAAAGCAGATCGCCAGCCAGGAGGCGGATGTTTTCTTAGTTGATATGCCCTTGCACATGGCCTTCTTCGGCCTCAATAAGGCAGACAAGATTCGGGCCAGCTACCATTACCAAAACTGGTACATGTCGGGCCACTCGCTGGGGGCGGCCATGGCGGCTAGGTATAGCGCGGACCACTTGAAAGACTACCGGGGCTTGATCATGCTGGCCGGCTACCCAACCAAGGACCTGCACGCGGCTAATTTTTCCGTGCTCAGTATCTACGGGTCAAAAGATGGAAATACGAAGATGCTGCAAAAGAATCCCCAGTACCTGCCAAATGACTACACTAAGCAAGTCATCAAGGGCGGCAACCACGCCCAATTTGGCAATTATGGCCGGCAAAAAAGGGACGGCCAGGCAACCATCTCCAGAAAGTCCCAGCAGCAGGCAACGGTCCAAGCGGTTCGGAAATATTTACTTGCTCATGACAAGTAA
>SRR1919932_00915 hypothetical protein
ATGTCAGAAATTGTTAAGACAGCTTTGCTGGATCGTTCAATGAAAGAAGTTTTTGAGTGGAGTGACTCAGACACCCCTGTAAGAGATGCCCTTTGGGACTACTTCATGGAGTCAAACGGCCACAACACCGACAAGACTGAGGAAGCCATGCTTCCATTCATGAGCTACTCTGACGACAAGATCATCGCATTTGTCAACGAAAACCTTAAGAAATAA
>SRR1919932_00916 DNA-directed RNA polymerase specialized sigma subunit
ATGGGATTGACAAAGGAAAGAGAGCGCCTGCTGATCAGCCGGATTCAAAAAGATGACGATGAGCAGGCCCTTAAAGAACTGTATTACAGCTGCCTGCCTGTGATCGGCGGCACCATCAAGCAGTATTTTGTGGAGCTATATGACAACCAGGACTGGGAGCAGGAGGCCTTGATCCTCTGCTATAAGACCGCCAAGCGCTTTGACTTAAAGCAAGGAAAGCCTTTTGTCGGCTTTTATAAGGTCAGCCTGCACAACCGGGCCATCAACTTGATCAGACGGGGCAAGCGGAAAAAGCGCCTGGCCGCCAGTGACCAGGTCTATTGGGAAGATGTGGCTCCCGAACTTGAGCAGGCTTCCTGCTTGATCGCGAGTCCGCCGGCGCCTGTTTTGGACTGGCAGGATTTGGTTGAGTCCTTGAGCATGCTGGAATTGGAAGAATTGCTTTTGGAACTGGGCTATAAGCAGGCCGGGGAGATCAAGCGCCAGTACCAGGTCAATGAGATGGGGCTCAGACGGGCCAAATACCGGGTGAAGGAAAAAATCAAGCTAAAATTGCGGATAGGTGCGTAA
>SRR1919932_00917 rRNA methyltransferase
ATGTCTTCAACTAACAATGATTTTGTCTTCGGCCGTCATGCCGGAATCGACTTTTTGAAAACCCAGGACAGCGAAAAGATCAACAAGGTCTTCCTGGCTGAAGGGGTTCAGGAGGACTTTGCCAGAGAAGTCTACCGCTATGCCAAAAAGAAGCATTTGATCATCCAGCGGGTGCCGAAAAACAAGCTGGACAAGCTGACTGGCGGGGAAAACCACCAGGGCCTGGTTTTGGCTGTCGCTTCTTTTGAATACGCCGACTTTGACCAGCTCTTGGATAAACTGGATCAAGAAGAGGCCCCCCTTTTGCTCATGCTGGACAATATTGAAGACCCCCACAACCTGGGCTCCATCCTCCGCAGCGCCGACGCGACCGGGGTCAGCGGGGTGATCATCCCTAAGCGCCGGGCCAGCGGCCTGACCAGCGTGGTGGCGAAGACCTCAACCGGGGCCATCGACCACGTGCCAGTTGCCCGGGTGAACAACCTGGTTCAAACCTGCCAGGCCTTGAAGGACCGGGGTTACTGGATCTTCGGGACGGCCATGGAAGGCGATGACTACCGGAAGTGGAATGCCAATGGCAAGACCGTTTTAGTTATCGGTAATGAAGGCAAGGGGATCTCCCCGCTTCTTCTTAAGCAAATGGACCAGACTTTGACCATCCCGATGATTGGCCACGTCCAATCCCTGAATGCTTCAGTAGCAACCGGGGTCTTGCTCTACCAGGCCTTTAACAGCCGCCACCCTTTGTAA
>SRR1919932_00918 mini-ribonuclease 3
GTGAATAAAGCACAGAAGTTAACTGAAAAAAAGATTGATCCCAACACCTTGAGCGGGCAGACTCTGGCCTACTTGGGCGATGGGATCTATGAAGCCGCCATCCGCCGGCACTTGATCAAGGGCGGGATGTTGAAGCCGCAGAACTTGCAAAGAGCAGCAACCCACTATGTCTCAGCCAAGGCCCAGGCGGGCCTGATTGCTAAAATGCTGGACACCGGCTTTTTGACTGAAGAAGAAGAAACAGCCTACAGGCGGGGCAGAAATGCCAAGACCCATACCAAGGCCAAGAACACCAGCCTGGCCACGTATGAAATGTCAACTGGCTTTGAAGCAGTCTTTGGCTACCTGGACCTGGCCGGTGAAGAAGGCAGGGTCAAGGAATTGATTGCCTGGTGCATTGATGAGGTGGAAAGTGAAGGGACAAGGGAATATGTCTTCAACTAA
>SRR1919932_00919 cysteinyl-tRNA synthetase
GTGAAGCTTTTCAACACTTTAACTAGGCAGAAAGAAGAATTCAAACCCCTGGTTCCCGGCCAGGTCAGCATGTACGTCTGCGGACCGACGGTCTACAACTACATCCACATCGGCAACGCCAGAAGCGCCATCGCTTTTGACACCATCCGCCGCTACTTTGAATACAAGGGCTACAAGGTCAACTACGTTTCCAACTTTACTGACGTCGATGATAAGATGATCAACGAAGCTAGAGCCGAAGGCACGACCGTGCCGGAATTAGCCGAACGCTACATCCAGGCCTTCCTGGAAGACACCCGGGCCTTAAACATCGAAGAAGCGACTCTGCACCCGCGGGCAACCCACGAAATCCCGGCCATCATCGACTTCATCCAAACCTTGATCGACAAGGGCTACGCTTATGAAACCGACGGGGACGTCTACTACCGGGCTAAAAAGTTCGCTGACTACGGGCACTTGAGCGACCAAAACATCGACCAGCTGGAAGAAGGGGCCTCCCAGCACGTAAACGATGAAGAACAAGGCCGCAAGGAAGACCCGATCGACTTTGCCCTCTGGAAGGGGCAGAAGGTTGCAGACGAAATCGCCTGGGACTCCCCATGGGGCAAGGGCCGGCCGGGCTGGCACATTGAATGCTCAGTCATGTCCACCAAGTACTTAGGTGACACCCTGGATATCCACGGGGGCGGGCAGGACCTGGAATTCCCCCACCACGAAAATGAAATCGCCCAAAGTGAAGCCAAGACGGGCAAGAAGTTCGTCAACTACTGGCTGCACAACGGCTTCGTGACCGTGGGTAAGAATGAGGAAAAAATGTCCAAGTCCCTGCACAATTTCGTGACCGTCCATGATATTTTAAAGACTGTTGATCCCCAGGTTCTCCGCTTCTTCATGGCCAGCGTCCAGTACAGAAGCCAGATCGACTACTCGGAAGAAAACCTGGAGCAGGCCGCTAACATTCTGGGCCGCTTCAAGAACACCCTGGAAGGGATCAACTACCGCCTGGCTGACGCGACTGAAGGCTTGCCGGACCCGGACCTGGCCAAGCTGGTCACTGAAACCAAGGCAAAGTTTGAAGCCGCCATGGACGATGACTTCAACGTGCAAAATGCCTTGACCGCCATCTACGAAGCCCTGCCAGCCGTCAACTCCAACGCCAACGCTGAAAAAGCCGACAAGGAAAGTCTGCGGCTTTTTGCTAAAAAATTAGCTGCCTGGCTCAGCGTCTTTGGCCTGGATGTTGACAAGCTCCTGGCTAAGGAAGCCGGCGATGATGACGCTGTAATCGAAGAATTGGTTGCCCAGCGGACGGAAGCCAGAAAGAACAAGGACTGGGCCAAGAGTGACGAACTCCGCGACCAGCTTAAGGAAATGGGGGTAGTCCTCAAGGATACCCCGCAAGGAACCAGGTGGAGCCGTGAATAA
>SRR1919932_00920 NUDIX family hydrolase
ATGACTTTACTGACTGATTTAAAAAATTACCAACCCTTTAACGAGCAAGAAGCAGCCGACGTCAAAGAGATGATCTACCGGCTGGAGACCGGGGAAGAACTGTTCTTGCGGTCCAATTTGGCCGAGCACTTTACCGCTTCAGCCTGGGTCGTCAACCCGGCCCGGGACAAAGCCCTGATGGCCTACCACCGGATCTACGACTCCTGGGCCTGGCTAGGCGGGCACGCGGACGGCGACCAGGACCTTTTGCATGTGGCCTTAAAAGAAGTCGCGGAAGAAAGCGGGGTTAAAGCAACTCCAGTCACGGACCAGATCTATTCTGTTGAGATTTTGACCGTGGACGGGCATGAGAAAAAAGGCAAATACGTCCCGTCGCACCTGCACTTAAACGTGACCTACCTCTTGGAAGCAGACGACAGCTTGCCTATCCGGCCTAAAGAAGACGAAAACAAGGCTGTTGCCTGGTTTGGCTTGGATGAAGCCCTGGAAAAGTCAACCGAGCCCTGGTTTGTCGACCGGATCTACTCCAAGCTGAACGCCAAACTCAAGGATTATCCGGCTAGGTAA
>SRR1919932_00921 oligopeptide ABC transporter substrate-binding protein
ATGAAAAAATCAGCCATCATCACTTTAGCCCTGTCCGCCAGCCTGCTTTCCGCCTGCTCCAACAGCTCTGCCAGCAGCTCAAAGACCAAGCAAGTCTTAAACTGGTTCTCTGCCGGGGAAATCTCCACCATGGACCCGGCCTTGAACAATGACGTCTACGGTGGCCAGCAGCTGGACGCCACTATGGAAGGCCTGGTCCGCCTGGGCAACAACTCCAAGATCCAGCCCGGCATCGCCAAGTCCTGGACAGAAAGCAAGGACGGCCTGACTTGGACTTTTAAGCTCAGGAAAAATGCCAAGTGGTCCAACGGGGAAAGTTTGACAGCCAAGGACTTCGTCTACGCCTGGCGCCGGCAGGTCAACCCCAAGACCGCCTCAACCCAGTCCAACAAGTACTCCGGCATCAAGAACGCTGACGCCATCATTGCTTCCAAAAAGCCTGTCCCCAGCTTGGGCATCAAGGCCGTGGGCAAGTACAAGCTGGTCGTGACCCTGGAAAGAAAGATCCCTTACTTCCAATTGCTTCTGGCTGGCTCAGCCTTTGCCCCGCAAAATCAGAAATTCATTGAAAAAGCTGGCAAAAAGTACGGCACGACCGCTAAATACACCCTGTCTGACGGTCCATTCGTCATGAAGGGCTGGACCGGGTCCAACCTGACCTGGAAGCTGGTCAAGAACAAGTACTACTGGGACAAGAAGAATGTCAAGCTGACCAAGATCAACTTCAGCGTGCAAAAGTCCCAAAGCACCTCCTACAACCTCTACCAGGTCGGCAAACTGGACATGACCACCCTGTCCGCTTCCCAAAGCAAGAGTCTCAAAAACCAAAAGGGCTGGCAAATCAAGGAGGACAACCGGACCCAGTACCTCATGTACAACTTCAAGACTGACAAGAACTTGCGAAATGTCAACCTCCGCGGGGCTATCGCCGCCGCGATCAACAAGGAATCCCTGGCCAAGACCCTGAACCTGGCTGACATCGCCGCTACTTCTTTAACCCCAAGCGGGGTCACTGACCCGGTTACCGGCAAGGAATTCAGCAAGGAAGTCGTAACCAAGCGGACCAAGGCTATTCAGTCCGGGACTAAGGCCCAGGCTAAGGCTTACTACAAGAAGGCTTTGAAGGAGCTGGGCAAAAAGCAGATCATCATCAAGCTTTTAGGCGATGACACTGATGACGCCAAGAAGGCCACGGAATTTATCCAAAGCGCCCTGGAAAGCACCCTGGGCATGAAGGTCGAAGTCACCAACATGCCATTCAAGAACCGCTTTGCCAGAGAAGAAGCCGGTGACTTTGACGTCATCTTGGACGGCTGGAGCGGGGATTACGCTGACCCGAACACCTTCCTGGAAATGTTCCAAAAGACCAACGTCAACAACTACGGGTCATGGGAAAACGCGGCCTACAACAAGGCCATGGAAACTTCCAAGACCACGACTTCAAGCAAGAAGCGCTGGGCAGAACTGGTCAAGGCTGAACGCATCCTCCTTACCCAGCAGGGCGTGACCCCGCTTTACTATGGCAACACCGCGACCTTGATCAACCCGAAGGTTAAGAACATCACCCTCAAAGGCGCAGGCCTTGCTTACAACTTCAAGGGTGCTTATATCAGCAAGTAA
>SRR1919932_00922 dipeptidase PepV
ATGACTTTTCCTTACCAAGAATTTGCCAAAGCAAAAATGCCGGCCCTGCTAGCCGACTTAAAAGACTTGATCAAGATTGACTCCGTCCGCGACATGGACCTGGCCACTCCTGAATTTCCCGTAGGCCCGGGTCCGGTCAAGGCCTTAAAAAAATTCCTGGCCTACGCTGACCGGGACGGCTTTCAAACTGAAAACATCGACAACTATGCCGGGGTCGTTACTTTTGGCCAAGGCACCCAGGAACTGGGCGTGGCCGTCCACGTCGACGTTGTCCCGCCAGATGAAGGCTGGAGCCAGGATCCTTTTACCCCATGGGTCAAAGACGGCAGAGTCTTCGGCCGGGGAGCAAGCGACAACAAGGGTCCGGCCTTAGCCGCCTACTACGCCCTCCTGGCTTTAAAGGAAGCCGGTTTTCAGCCGAAAAAGAAGATTTCCTTGATTATCGGCACTGACGAGGAAACCGACTGGGTGGGGATGAAGTACTACCTCCAAAAACGCCCGGCTCCTGACTGGGTCTTCTCCCCCGACTCCTCTTTTCCTATCGTAACCGGTCAGGCTGGTCTGGCTGTTTTGAAGACAGATTTTATTGGCAAAGAAGCTACTAGCTTAATCCTTGAGTCCTTCACTGCGGGCCAGGCCACCAACATGATTCCAGCCGCCGCGACCGCCGTTGTCTCTGGCGAGAATCTTGCGAAAATTGAGGCAGCTTTCCCGGACTTTTTGGCAAAAAATGGCTTGACTGGGGAAATCAAAGAAACAGCTAGCGAAAATGGTAATTGCTTAAAGATTAGTTTGGAAGGCGTCAGTGCCCACGCCTCTGTTCCCTGGGAAGGAAAAAACGGGGCCTGCCTCCTGGCCAGCTTCTTACGGGACTTTCCTTTCACCGGCCGGGCTAAAAATTTCCTGGACTTTGCCGGTGACCTTGAGCTGGAAGACTACTACGGGGAAAAGATCGGGATCGCCAATACTGACTCCGAGATGGGCAAGTCCATCAACTGCCCGGCCGTCTTCCGCTACCAAAGGGGCCAAGCTGAAGCCTGTATCAAGAGCGACATCCGCTACAGCCGGGGGACCAGCCCGGAAAAAATGTGCCAGCAGCTGAACGACAAGTTCGGCGCTTTCTGCCAGACGACCTTCCAGCCCTACCAGGACTTTGAAAAGCCCCACTTCGTTGCTAGCGACGACCCCTTCGTCAAGACCCTCCTTTCCGTCTACGAAAAGCAGACTGGCCAAGCCGGTGCGACCGTTATCTCCGCTGGGGCCAACTACGGCCGCTTCTTTAAAAACGGGGTCGGCTACGGGCCTGCCTTCCCGGACAGCCTGGACACCGCCCACGCCATCGACGAATCCGTCAGCCTGGCTGAACTGGAAAAAAGCCTGGCCATCTACGCTGAAGCGATTTGCGAATTAACCAAGTAG
>SRR1919932_00923 LysR family transcriptional regulator
ATGCTGGATTTTCGCGTCAAAACATTTTTAACGGTCTGTGAGACCATGAACTTCACCCGGGCGGCTGACCGCCTGCATGTGACCCAGCCGGCGGTGTCCCAGCACATCCGCTATTTGGAGAAGGAGTACCAGGTCAAGCTTTTCAGCTACCAGGGCAAGAAACTGACCTTGACCGCGGCGGGAGAGAAACTCCGCCAGGCCATGCGGCAGATGCAGAGCGATGAGCGCCTGCTTAAAGCGGAAATCAAGCAGGCTGACCTGCCGCCGGTCCGCTTTGGGGTAACCATGACCATTGGGGAATACGCCTTAGCCAGGCCCCTCAGCCGCTTTTTAAAAGACCATCCCCAAACCAATGTGGAAGTAGTCTACGGCAACACCCAGTTTTTGACCAAGAAATTGGATGAGGGGGACCTGGACTTTGCCCTGGTAGAAGGGGACCCGGCCAGGGGTTATGCCAGCCTACGCTACCAAAGCGAGGACTTCATCGCCGTCTGCTCGCCAGATTTGTCTTTTGCCAAGGAGCCGGACCAGATCGCTGACCTTTTTGACCAGCGCCTTTTGGTCAGGGAACCGGGCTCAGGGACCAGGAAGATCCTGGAGGACAGCTTAGGCGCCCAGGGGCAGGAACTGAGCGACTTCAAGCAGTATGTCCAGGTCGGCAACATGCAGATGATCACCCAGCTGCTTTTGGCCAATTGCGGGGTCTCTTTCTTGTACCAGACTGCCGTCAGTGACCTTTTAAAGGCAGGAAAGCTGCGGAAGTTGAGTTTGCGGGACTTCCAGATCCGTCATGACTTCACCTTTATCTGGGAGAAGAGCAGCCTCTACGCCGACCGCCACCGGCAGATCTGCGCGGAACTTAAGGCAAGCAGATAA
>SRR1919932_00924 membrane protein
ATGAATTGGATTAAAAAGAATCTGCCCGGCATCCTGGTCTGCCTGGCCATCGCTACCCCCGCCTGGCTCTTAGGCAAGGCCCTGCCAGTCATCGGGGGCGCCGTCTTCGCCATCTTGTTTGGCATGGTCATCACCCTCTTTTGGGAAGAGAAGAAAGGCGCGGCCAGCGGGATCAAGTGGACGTCCAAGTATATCCTGCAAACGGCCGTCGTTCTCTTGGGCTTTGGGATGGACCTGCAGGTAGTCGTCAAGACCGGCCGCCAGTCCCTGCCGATTATCATCTGCACCATCTCGACCTCGCTCTTGCTCACCTGGCTTTTGCACAAGTCTTTAAACATCCCCGGCAAGATCTCAACCTTGATCGGGGTCGGCTCATCCATCTGCGGGGGCAGCGCCATCGCCGCTACCGCCCCGGTTATCGACGCTGACGACGACGAAGTAGCCCAGGCCATCTCTGTTATCTTCTTTTTCAACGTCCTGGCCGCCATCCTCTTCCCCATCTTTGGCAAGCTCCTGGGCTTTGACCAGACTTCGGGGACTTCTTTCGGCATCTTTGCCGGGACAGCCATCAACGACACTTCTTCCGTCACTGCCGCGGCGGCAACCTGGGACAGCATGTTCCATTTGGGCAGCCAGACCCTGGACAAGGCCGTGACCGTCAAATTAACCAGAACCCTGGCCATCATCCCTATCACCCTGGCCTTAGGCTATTTCACCGCCAAAAAGGAGCAAAGGGACAACAGCTTCAGCTTGAAGCGGGCCTTTCCTGCCTTCATCCTCTACTTTGTCCTGGCTTCCTTAATCACAACCTTTGCCCTGGCTAATGGAGTAAATGCCAATGTCTTCCTGCCTTTAAAGGAGCTGAGCAAGTTCATGATCATCATGGCCATGGCCGCGATTGGTCTTAACTCCAACATCGTCAAGCTGGTCAAGTCCGGGGCCAAGCCCCTCTTGCTCGGGGCTTCCTGCTGGGCCGGGATCACAGCCGTCAGCCTGCTTTTGCAGCGGCTAATGGGGCTCTGGTAA
>SRR1919932_00925 glutamyl-tRNA synthetase
TTGGCTAATAAGAAAATCCGCGTGAGATACGCTCCGTCACCAACTGGCCACTTGCACATTGGTAACGCGCGTACTGCTCTGTTTAACTATCTGTTTGCACGTCACAACAAGGGGACTTTGGTTCTGAGAATCGAAGACACTGACACCGCCAGAAACGTTGAAGGCGGGGCTGAATCTCAAATCGAAAACCTGCACTGGCTGGGGATCGACTGGGATGAAGGTCCGGACATCGGCGGGGACTACGGCCCTTACAAGCAGTCCGAAAGAAAGGACATCTACCAAAAGTACATCGACCAGCTGCTTGAAGAGGGCAAGGCTTACTACTCCTTTAAAACTGAAGAAGAACTGGAAGCCCAGCGTGAAGAACAGCGGGCCATGGGGATTGCTCCTCACTATGTCTACGAATACGAAGGCATGACTACTGACGAAATCAAGCAGGCACAAGACGAAGCCCGGGCCAAGGGCTTGAAGCCAGTTGTCCGCATTCACATTCCAGAAGGCGTGACTTACGAATGGGACGACATCGTTAAGGGCCACTTGAGCTTTGAATCCGACACTATCGGCGGTGACTTCGTCATCCAAAAGCGCGATGGGATGCCAACTTACAACTTTGCCGTCGTTGTCGACGACCACTTGATGGAAATCAGCCACGTGCTCCGGGGCGATGATCACATCTCTAACACGCCAAAGCAGCTTTGCGTTTACGAAGCTTTGGGCTGGGAAGCTCCAGTCTTCGGCCACATGACTTTGATCATCAACTCCGCTACTGGCAAGAAGCTGTCCAAGCGTGACGAATCAGTCCTGCAGTTCATCGAACAATACAGAGAACTTGGTTTCCTGCCAGAAGCCATGTTCAACTTCATCACTTTGCTGGGCTGGTCACCAGTTGGCGAAAGCGAAATCTTCTCCAAGCGTGAATTCATCAAGCAATTTGACCCGGCCCGTCTGTCCAAGTCCCCAGCTGCCTTTGACCAAAAGAAGCTGGACTGGGTCAACAACCAGTACATGAAGACGGCTGACAGAGATGAACTTTTGGACCTGGCCCTGCACAACCTGCAAGAAGCTGGCCTGGTTGAAGCTAACCCGGCTCCAGGCAAGATGGAATGGGTAAGACAATTGGTGAACATGTATGCCAACCAAATGTCCTACACCAAGCAAATCGTTGACTTGAGCAAGATCTTCTTCACTGAAGCAGAATACCTGACTGACGAAGAAGTGGAAGAAATCAAGAAGGACGAAGCTCGTCCGGCGATTGAAGAATTCAAGAAGCAACTGGACAAGCTGGACAACTTCACGGCCAAGAAGATCATGGGCGCCATCATGGCTACCCGGAAGGAAACTGGCATCAAGGGCCGCAAGCTCTTCATGCCAATCCGGATCGCTACTACCCGGTCAATGGTCGGCCCTGGCATCGGCGAAGCTATGGAATTGATGGGCAAGGACACGGTCATGAAGCACCTGGACTTGACCTTGAAGCAGCTTAGCGAAGCTGGCATCGAATAA
>SRR1919932_00926 ABC transporter permease protein
ATGATCGCTTTTAAGCAGACTTTCGCGGCCATGTTCAAGGAAAAGAGCCGGACGACCTGGCTCAGCCTGGGCATCGAGGCAATTTTTATCCTCTTGATCAGCTTGTACTTTGGTATCAGATACGGCTTTGGCAGCGACTCAGCTGGTATTGGCATCGGGATTGCCGCGACGGTGATCTTCTGCGTGGGCATCTGGTACCAAATTGACGTGATTATGGCGGCCTACCGGATCAACCGGTCCCAGACCTGGCGGCAAGTGCCGGTAACAGCGGGCAACTTCCTGACGGCTAATGTGCTGACCGGGCTTGTGACCGCGGTTATCTTTGCCTTAGCTAACCTCTTGATCTTCGTAATTACCTTGCTGCCATTTATTTTTGGCGGGGAGATGCGGATCGATTCGCAAGCAGTGGCGACTTTCCAGCCTTACGTCTCCAGCATCAGCAACTGGCTGCTCTACATGACCTTGTTTGCCCTGGTCAGCTTTGCCGGTGGCATCTGCTTCTGGCTGCTCATCACTGAATCAGCCAGCGTTTTGGGGGACTTCCTGCCTTTGAAGGGGAAAACGAGCAAGTTTGCCAAGGCAGTTATCCTGCTGGCCCTTCTGGCTCTCTTGTCCTGGGGCAGCAGCAGCATCTTGGGCGCGGTCATCCGCATGGTTTCAAATTCCGGCTTTGACTTCAACTTTGTCATTGACAATACTGGCCTGCACACGTCCCAGACCGACCTGGGCTTGCCGGTCATCAGCTGGCTCTACATGCTGGCTGAGCTGGTCTACGTGGCCATCTTGTGGGCAGCGGAATACTTCGTCTTCAAGAAGGGCGTTGAAGCCAAGAAATAA
>SRR1919932_00927 ABC transporter ATP-binding protein
ATGAAGACTTTGGAGATTAAGGATTTAAGCTACCACAAGAATTCAAAGACGATTTTGGAGAGAGTTAACTTGACTTTGGAGGCCGGCAAGATCGTGGCCTTAGTCGGGGCCAACGGGGCCGGCAAGACCAGCTTGATGCGGGTGATCGCGGGCCTGGCCAAGCAGTACAAGGGCAGCGTGGAGGTATGCGGGGAAGCAGATGAAGACCGCCGCAAGCAGTACATCGCCATGACCGACAGCTTGTCCGCCTTCCGCGACTCCAGAAAGATCAAGGATGTCGCTGACTTTTACCGCCTGGTCTACCCGGACTTTGACGACAAGCAGTTTGCTGATATTCTGGAATTCATGAACTTGAATGAAGATGAAAGACTGGGCAGCCTGTCCAAGGGGATGAAGGAGAAATTAATCATCGCCCTGGTCTTCTCCCGCAAGGCCAAGCTCTACCTGCTGGATGAACCTTTCAGCGGGGTTGATGCCATGAGCCGGAAGAAGATTATCAAGTCCATGCTGCTTTGGAAGCCGGAAGAGGCGACCCTGGTCATCAGCGACCACGTCTTAGATGAAATCGCTCCGGTGATCGATGAGGTCGTTTTGATCAAGAAGCACTCAGTTTTAGAGCAGCGCAGTGCTGAAGAAATCCGGGCTGAACAAGAAAGCATCGAAGAGTGGTATGAAGGATTTTACGAGGGGGAAGAGTAA
>SRR1919932_00928 GntR family transcriptional regulator
ATGAAATTCAAAGACAACCTGCCGATCTACTTGCAGATTGAAGACTATATCTACTTGCAGATCGCCCAGGGCAAGCTGCAGGCCGGCAAGAAGCTGCCTTCAGTCAGAGCCCTGGCACTTGAATTGACGGTCAACGCCAATACAGTCCAGCGGGCACTTAGAGAAATGACGGCCAAGGGCTATATTTTTACCAAACGCGGCGAAGGTAACTTCGTTACGACCGATGAAGGCCGCCTGGAGGAAATGAAGAGCAAATTGCTGAAGCAGGAGCTGGCGGCTTTCGTCAGCCGGATGGAGAAACTCGGAGTCGAAAGGGAAAACCTGACTGGACTATTGGCCAGCTACTTAGATGACACAAGGGAGGAATAG
>SRR1919932_00929 oligopeptide ABC transporter substrate-binding protein
ATGAAAAAGACTAAGACTTTTTTGGCTGCCGGCAGCATCTTGACGGCTGCATTAGCCTTGACGGCCTGCGGCGGCAACTCTTCATCTTCTTCATCTAACAAAAAAGAACTGAACTGGGAAGAATCAGCTGAAATTCCGACTATGGACCTGTCCAAGGCCACTGACTCTGCCAGCTTTACCCAATTGATCAACACCATGGAAGGTTTGTACCGGGCAAAGTCTGACGGCAGCCAGGAAAAGGCCATGGCAACCAGCGAAAAGGTATCCAAGGACGGGAAGACCTACACCTTTACTCTCCGTAAGGACAACAAGTGGTCAAACGGTGACCCGGTAACCGCGCAAGACTTCGTCTACTCATGGCGCAGAACTGTTGACCCAAAGACTGCTTCTCAATACGCTTACCTGTTTGAAGGCATCAAGAACGCCACCGACATCCAAAACGGCAAGAAGAAGCCGGAAACTTTGGGGATTAAGGCCGTTGGCAAGTACAAGCTGGTCGTAACCCTGGACCGGCGGATTCCTTACTTCAACAACCTGATGGCCTTCGGGAGCTTCTTCCCACAAAACGAAAAAGCAGTCAAGAAGTACGGCTCCAAGTACGGTACTGCCTCCAAGTACATGGTCTACAACGGACCATACATTATGAGCGGCTGGAGCGGGTCAAACCTGTCCTGGAAGCTCAAGAAGAACCCATACTACTGGGACAAGAAGAATGTCAAGCTGGACGCGGTCAACTACAGCGTGCAAAAGACCCCGTCAACTGCTTACAACCTCTACCAGTCAAACAAGCTTGACGCTGTAGCCCTGGACGCTGAACAAAGCAAGCAGCTTAAGAGCGTAAAGGGTTATGCTCTCTACCCACGTGGGACTACCTTCTACATCCAATTCAACCAGGCTAAGAACAAGTACCTGCAAAACGCCAACATCCGTAAGGCTCTTTCCATGGCTATTAACCGGGAAAGCCTGACCAAGGTCCTGGGCGGCAGCAACACTGTAGCTCACACCTTCACTCCAGCCAAGCTGACCACGGTTAACGGCAAGGACTACACCAGCCTGATTTCCAAGAGTGACGAAGCTTACACTTACTACAACAAGAAGGAAGCCCAAAAGTACCTTAAGCAAGGTATGAAGGAACTTGGCGTTTCCAAGCTGAGCTTCAAGCTTTTGTCAGACGACACCGATGGTGCCAAGAAGTCTACTGAAGCAATGCAATCAAACATTCAGGAAACTCTGCCGCAAGTCTCCATCACCACCCAGAACCTGCCATTCAAGACCCGTCTGGCTAGAACTAACGCGCTTAACTTCGACATGGTTGTTTCTGCCTGGGGTGCCGACTTCAACGACCCGATCTCCTTCCTGGACTTGCTGACTTCCACCAACGCCCAAAACGGCGGCAAGTGGTCCAACAAGGAATACGACAAGCTGATCGCGGCTTCAAAGACTACTGGCTCAGACTCTGAACGCTGGAGCAACCTGTCCAAGGCTGAAGGCATTCTGCTGAAGGACGTTGGTATTTCACCACTTTACTCAAGCACCAGTGCCTGGATTGTCCGTCCAGAAATCAAGGGCTTGGTAAACCTGCGCGACCACTGGGACTTCAAGTACGCTCACGTTAACTAG
>SRR1919932_00930 NUDIX family hydrolase
ATGTACAAAGTAGTCAAGAAAGAAACTATCAAGGCGGGCCGCTTCACGGTCATTCAAGAGAAGGTGGCCAAGGACGGGCAAATCGCCCCATATTCCTACGTTACGATCGGCTTCGGGATTTCCATCATCCCCTTCGTTGATGATGACCACGTCTTGCTCTTGAAGGAATACCGGCACCCCGTTGGCAGCTGGCAATATGAATTCCCCAGCGGCGGCATTGATGAGGGAGAAGAGCCCAGTCAGGCAGCCAGAAGAGAGCTGCTGGAAGAAACGGGCTATGAGGCCAGCGAGTTGACAGAACTCGGTTTCACCTACCCTTCTTTTGGCTCAACCAATGAGAAGATCACCCTTTTTGCCTGCCGGGCCACAAAAATGGCTCAGCCAAAAAGAGAGATTCTGGAAGAAATCAAGATGGAGATCGTCTCTGTCGACCAGCTGGAAGATTTGATCGTCAAGGGTGAATTTGCCCACGGGGCTGGCCAAGCAGCCTGGCTCAAGTGGCGGCTGCTTAATGAGAGAAGATAA
>SRR1919932_00931 acetyl-CoA carboxylase, biotin carboxylase subunit
ATGAAAAAGATTGTAATTTTGGCCCCTATCAGCAACAACTATATTAACTATTTCGATGCTATTAGCGGGGATAAGGATAACCTCTATCTGATTTTTGCCATGGAACGGCACCGTGACAATTATCCAGAAACTTTGCCAGAAAACATCAAATTCGTTTTCTTGAAGATCTGGAATGAAGAATATATTGACTACGTGATCAGTCAAACTTTTGGCCAGCAGATCGACTACGTTTATGCTTATTCTGAAGAAGAGATCATCTTTGCGGCAAAATTACGGAAAAAATACCAAGTTACCTTGGGGCAAAGCTTGACGAGCGCGGAAGAATTCCGGAATAAATTAACTATGGTCAAGGCAGCTGAGCAAGCTCACGTAGCCGTTCCCCGTTACTGGCCGGTCGATAACGTGTTTGATCTGATCGAGGCAGAAAAGAAGCTGGGCTTCCCCTTCGTGTTAAAGCCAATTGCCGGCATGGGGTCGATGGATACCTTTGTAGTTCATGATCATGTTGAGTTAGAAAGGCTGGCCGCTGATAAAATTCTTCGTGGCTATTTGGCAGAAGAATTTATCCCCTGGTCCCTGTACCACGTGGATGGTTTTGTAAAGCAAGGCCATTTTGTCTACTTGATCAGTTCTAAGTATTTTGCCAATACACTAGAAGTGAAAAACGGTAAATCAGTTGGAAGCGTGCAGATAAGCCCGACCGCGGCAGAACAGAAGTTGATCCGCTCTTACGTGACAGACCTACTCAAAGGAATGGATACGCCGGAAAACCATCTCTTTCATCTTGAAGTCTTTTGCGACGGCCGCGAGGTAAAATTGTGCGAGATCGGGTCAAGATTGGGGGGAGGACGGATTCTGCAAGAGCTTGAGCAAGGGCTGGGCTTTAGTCCTATTCAAGAATTGCTGAAGCTGGATCTGGGCCTGCCGAATAAGGTGGACCTTGACAAGGAGTATAAGTCAGCTGAGATTCGCGGTTTTGTGATGGTTGAACCTGGCCGGGGAATTTTACAAAAATTGCCGGCTGCAGATGCCGTGCTAGCAGCCAATCCGGAAGTCTATGACTACTATCAATATGCTAAGCTTGGCCGGACCTATAATGGCGCGGCAAGCAGCGTAGAGGCCCTTGCGGCAATTTCCGTTTGCGGAAAAGACAGCAGGACCGTTGAAGAAAAACTAAAGGAGCTGGATGCCTGGCTGAAAAAAGCAGCAGTATACAGCTAA
>SRR1919932_00932 potassium transporter Kup
ATGGAAGTAGAAAATAAACTCAATCGCACGACGGCCGCCGGCCTCTTGATCGCGATTGGGATTGTCTACGGCGACATCGGGACCAGTCCCCTGTATGTCATGAAATCCGTAATCGACGGCAACGGCGGGCTCAATACGGTCAGCCGGGACTTGATCATCGGAACCATTTCCGCGGTCCTGTGGACCGTGACCATGCTCACGACGGTGCAGAACGTGATTATCGCCCTGAAGGCAACCAACCACGGCGAAGGTGGTATCTTCGCCCTTTACACCTTGATCAGACATAAGGCTGCCTGGCTGGTCTGTCCAGCCCTGATCGGCGGGGCCGCTATCCTGGCCGACGGGACTCTGACCCCGGCCGTGACGGTTACCACTGCCATTGAAGGGCTGAAGGGGCTGGAATTCGGCAAGGGCAACGTCCCGGTCAGCACCCAGACCACGGTCCTGGTCATTACTATTATTATTTTGCTAGTGCTTTTCTCCATCCAGCGGATGGGGACCAGCATCATCGGAAAGGCTTTCGGTCCAGTCATGCTTGTCTGGTTCGCCTTCCTGGGCGTCATGGGCTTGATCAACATCGGCGGCAACTGGTGGATCCTGCAGGCCTTGAACCCTTACTACGCGATCAAATTGCTCTTTAGTCCTTACAACAAGGCGGGCTTAGCGATCTTAGGGTCCATCTTCCTGGCCACCACGGGGGCTGAAGCCCTTTACGCCGACGTCGGCCACGTCGGCAAGGGGAACATCATCGGCTCCTGGCCATTTGTTTTCGTCTGCCTCTCCCTGAACTATTTAGGGCAAGGGGTTTGGATCTTAAACAACACCAACCTGCACTCAGCCACTGAAATCAACCCCTTCTACGCCATGATTCCGGAAAACATCCGGCTGGCGTCAATCGTTCTGGCTACCCTGGCAGCGATCATCGCTTCCCAGGCCCTGATCAGCGGATCCTTTACCCTGGTGGCGGAATCAATCAACCTGAAGTTCCTGCCGCGGATGAACATCCTCTACCCATCTGATGAAAGAGGGCAGATTTACATTCCGGCCATCAACAAGATGCTGGGCATTACCACCATCGCCCTGGTTCTCTTCTTCAGAACCTCAGCCCACATGGAAGCAGCCTACGGCCTGGCCATCACCATTACCATGCTGATGACCACCATCCTGCGCTATGAATGGATGGTGCTCAAGCAGGGCCACAACCTGGCCAACCTGATCTTCGTGATCTTCTTCAGTACTATCAACATCCTCTTCATGGGGTCCAGTCTGAGCAAGTTCACCCACGGCGGTTACGTATCACTGTTGATCACCCTCTTGATCGTTTCCGTCATGGTCGTTTGGTACTTCGGCAACAAGGTCCGGGACCAAAACGAAGCCGGCAATGCCTATGTCCGCTTGGATGAATACACGGACATGCTGACCGACCTCAGCCACGACGACAACTACCCGACCTACGCTGACAACCTGGTTTACATGGCCAACGTCAAGTACAACAAGTTCATCAAGCGGGAAGTCCTCTACTCAATCCTGGACAAGCGGCCTAAGCGGGCCCGGGCTTACTGGTTCGTCACGGTCAACGTGACCAACGAGCCGTTTACCGCTGAATACGCGGTCAACACTTTTGGCACCAAGAACGTGATCAACATCCAGCTCTACCTTGGTTTCAAGAAGCAGACTAGCGTCAACGTCTACCTGCGCCAGATCGTCCACGACTTGATCAAGGACAACACGATCGAGGCCCAGCCGCAGGAATACACGACTACTCCTGGCCGGGACGTCGGCGACTTCAAGTTCGTCATCGTCAACGACGTCATCTCACCTTCGACCACCCTGTCTTCTTACAAGAAGTGGCTGGTCAAGGCCCGCGTCCAGCTGCAGAACCTGTCACCTAACCCGGCTCAATGGTTCGGCCTAGAATTCGCGGACACGGTCATCGAACGCGTGCCTTTGATCCTTGGTAAGCAAGAGCCTGCAAGAATCAAGCGGGTTGCTCCGGTTGACTACAGCAAGACACCTTGCTAG
>SRR1919932_00933 hypothetical protein
TTGGCAGAAGAAGAAAAGAAAATCCGCAGCAATGAAGACATGTTCAAGATCGTGATGCCTGAACCAGAACGCGTAACCATGCCAGCACGCGAAGTTGCCGACCAGCCGGCTTACCTGGTCAACTTCGCCAACTTCTACGTTTCTTCTTTCGAACGCGACGACCTGGAAATCATCAGTGAATTTGACGAAGACCACAACATGGTCAACATCAACCACTACCTCCTGCTCAACCAGCCATTCTCCCGCAAGAACCTGGTCAAGCATGTGCTGATCGATCACGCCCACAATTTCCAAGCCATCCTCGACAAGATGACCGCAGAAACCGGCGTTGACCCGGAAGCGATGACTACTTACGAAGACTGGAGCAACTGGTACGAAGGCGTTCGCGCGAAGATTGAAAGCAGTTTGTCCTAA
>SRR1919932_00934 hypothetical protein
ATGAAAAAATCGACTATCTGGTCCATCGTTGTGGTGGCCGTACTCGCCTTGGGCGGGGCTGGCGCCTACTTCTACTCCAGCCAGCAAAAGCAGAGCCAGGAGCAAACGGCAAGTTCCAGCTACTCCAGCCACATGCAGGCCGGCAAAGAGGCCGTAAAAGCCAAGAAGTACAGCCAGGCCGCTGACGAATTTGACCAGGCCTACCAGGCTAAGGCAACTGCCCAAGCCAAAAACTACCAGGCCCAGGCCGAAAACCTGGCCGACTCCGTGAAACTGGCCAAGACGACCGTCAAGTACGCCAGCGCCTTGAACCTGGCCCAAAAGGCCCAGGAGCAAAATGGCGGCTACAGTGTCATGACCAGCCAGGCCAAAAAGCTGGTTAAACAGCTCAAGGCCGTCAAGGACAACTACGACAGTGAAATCAAGCCGCTCTTAAACAAGGCAGCCAAGGCCATGGAAGACGGCGACTACGACAGCGCCGTTTCCACCTACAGCAGCATCTTAGACCTGCCTTACATCAACGGGGCTTACTACGCCAAGGTCCGGTCTAACGTCAAGGACCTGCTCAAGGAAGCCAAGAGCAAGCAGGAAGACTCCAGCTCCAGTTCTGAAAGCTCCAGCTCATCCTCCTCAGACTCTTCCAGCAAGTCCAGCAGCAAGGAATCCAGTTCCAGCTCATCTTCTGCCGCTTCCAGCTCAGCCAGCTCTTCCAGCAACCAGGCTGAAGGGTCCGGGACCAGCAACAATGACAAGGTCGGCGGCAGCACCGTGACCAGCCGGGACGTCCAGCAGATCCGCACCCAGCTTGACAACCTGGGCGAAAGCACGGCCGGCTGGAGCCCGCAGGACCTGATCAACCTGTTCAACTACGCCTACCAGCAGGGCCACACCACCATCGACTCCATCACCAAGGATGACGTCGAGGGCTACCTAAAGTCGGGCAAATAA
>SRR1919932_00935 hypothetical protein
ATGAACTTCACTTTAGCTGACCAAAGCATTCAATACACCTTCAAGGCCGAAAAGTATGACAAGGGGCAGATGCAGCGCAGCCTGCAAAACGTCAAGCTGGATGCCAGCCCGGAAAGCCTGGTCAAGGTGGGCCAGGCCATCAGCAAGCTGCAAGGCGATGAACTGGCTGCCTTGACCCTGGTCCAAAAGCACAATTTGACCTTGGCCTAA
>SRR1919932_00936 hypothetical protein
ATGACTACGACTACCGAATTGCAATTAACCTTTAAGTCCAGTGCCGGCAAAAAGAAGAGCCTGAACCTGCCATACGCGGTCAAGGGCTTGAGCGCGGACGTGGTCCGGGAGGCCGCGGCTGCCATCGCCGGCGAGGGCGTGTTCGTCAAGGAAGGGGAGGTCCTCTATGCTGAGCCGCTGGCTGCAAACTATATTGAACGTACTGTTACGGGTGTGTTTGACGATAGTAATCATTAG
>SRR1919932_00937 N-acetylmuramidase
ATGAAGAGAAGATTTTTGACTGGACTTGCTACCGCAGCGATGCTGACTTCCGTCGCCGTTCCAGTGACCAACAACATGTTTCTCTCAAATCAGGCAGTTGAGGCATCAGCTACCAGCGATGCCTTTTTAAGCAAGGTCAGCCCGCAGGCGCAGAAGACGTCCAAGAAGTACGGCGTCTACGCCTCTTTGATTCTGGCCCAGTCCACCTTGGAATCTGGCTGGGGGACTTCAACTCTGTCTACCCAGGCCAACAACTTCTTTGGGATGAAGGCAGCAAACACTTGGACCGGGGCAACCTATAACGTCAAGACGGCTGAACAGGACTCAAAGGGCAAGACTTACTACATCACGGCTGCCTTCAGAAAGTACAGCAGCTACCAGGCATCTTTTGATGACTACGGCTTGAAGATGCGGACGACCCTGGGCAATTACGGCAGCTTGCGCTACAGCAAGACCTGGCTGGAAAATGCCTCAAGCGCTTCAGCTGCCGCTAAAGCCATCAAGGCTGCCGGCTACGCGACTGACAAGAATTACGCGTCTAAGCTGATCAACCATATCACGAGCTACAACTTGACCAAGTATGACCCGGTTTACTCCGGCACTAATTACACGGCCAAGGTAGCCAAGTCCGGGGCAACCTACCTCTACCCGACTGACCACTCTGTTTCACCAAAGAAGTCTTACGTGACTGCCGGCCAAACCGTAACGGTTACCAAGACCTACACTTACTACAACGGCAAGAAGCGGATGTACCTCAAGGGCTTGGGCTGGATCAACGGGGAAGACTTAAACACTGGCAGCTCCCAAGCACCAAGCGCGGACACCAGCGCGACTGTTTCCGGACAGATGAAGATCTTGATGCACTCAGCCGCAATTTACACCAGTACCGGGGCTAAGAGCAGCGTCAAGAGCGTGAAAGCTGGCAAGAGCATGATGACTTACGGGTCAGTCACGATCAATGGGGCCAAGTACTACCGGATTAACTCAGCCAGCGCTGACCAGTTTATCAAGGCCAGCAACTTTGACGGCTCCCCCCGCAAGCTTAAGCACAATGCCTACCTTTACAACAGCAAAGGTAAGCGGGTTGGCAAGAGCAAGTGGCTCAAGGGCAGCAGCCACACCGTTTATGGCGGCAGCGTGAAGATCAAGCACAAGCAGTACTACATCGTTGGCCTTAACCAGTATGTCAAGAAGGGCAACTTTTAA
>SRR1919932_00938 putative amidase
ATGAGATTTAACAAAATTTTGACGGTAGCAGCCGTGGCCAGCCTTGGCCTGACGTTTGTTTTCAGTCAAGGGAAGGCCGCGGAGGCCTCAATCAACAGTGAAGCCAAGACCAAGACTTACAGCGGTACCAAGTCCCTGGAGACCCTGCTTAAAGCCGCGGGGCTGACTTACAACCAATTCAACAGCGTGGCTAATGGCAACAAGTACGGCAGCCGTTTTGGCTACCGCAATGGGGTTGGCAAGCCTGAAGGGGTGGTCGTGCACGAAACGGCGACCCCAGGTGCCACGGCCTGGGATGAAGGCCGCTATTTCAACAACAACTGGATGACGGCCTACACCTATGTTCACGCCGTGGTCGACAACAACCAGACCATCCAGCTGATGTCAACTGACTATGGTACCTGGGGGGCAGGCCCAATTGCCAACGTCCGCTACATCCAGATTGAACTCTGTGAAGTTTCAACCCGGTCCCAGTTCGTGCAGAGCGTGGCCAACGATGCCTACTATATCGCCAGCCTTTTGCACCAATACAATTTGACTCCTTCCCGGGCAAGCAAGAGCGGGACAGGTACTATTTGGTCCCACAATGAAGTTTCTCAGTACCTGGGCGGGACCGACCACGGGGACCCGGACAGCTACTTTGCCAAATGGGGCTACTCCATGAGCGACTTCTACAGCTTAATCACTTACTACTACAACAAGCTGGGAACTAGCAGCAACAGCGGTTCAAGCAGCTCCAGCCAAGCGCCAGCTACCCAGCCAGTTTCAACCAAGACGGTTAAGCTGATGCGGAACTCTTACAGCTACGATGCTTATGGCAAGAAGCTGGCTGTCAAGGCTTTGAAGGCCGGGTCTTCCCTGAAGGTCTACGGTTCAGCCGTAACGATCGGCAGCTCTAAGTACTACAAGTACGCTGATGGCAAGTATGTCAAGAGTGGCAACATTGATGGGACCAGCCGGACTTTGACTGGCAATTCCTGGACCTACACTATTTCCGGCAGCCGGGAATGGTCCACAGCTAAGCTCTTAAAGGGGAGCAAGGTCACGACCTACGGCAGCCAGGTTAAGATCAAGGGCAAGGCCTACTACATGACTGGCTTTACCAGCAATAACGTGGCCAAGTATGTCAAGGCAGTCAATTTCCAGCCTAAGCCAGTGGAAGTCAGCACGAGCAAGCGCTTGATGCGGAATTCTTACAGTTACAGCGCTGCCGGCAAAAAGTTGCCAGACAGCATGCTGAAGGCTGGGCAATACCTCAAGGTCTACGGGTCAGCTGTAACGATTGGCAAGGCCAAGTACTACAAGTACGCTAACGGCAAGTATGTCAAGGCTGGCAATATCGACGGGACCAGCCGGCCTTTGAAGCACAATGCTTACGTATACACGGTCAAGGGGACCCGGAACTGGAGTGAAGCCAAGCGCCTGAAGGGCAGCACGGTTACTACTTACGGCAGCCGGGTCAAGCTGGCTGGCAAGTACTACTACATGGTCGGCTTCTCCGGCCAGACCGCCCTGTACCTCAAGGCTGGCAACTTTTAA
>SRR1919932_00939 potassium transporter Kef
ATGGAAGGACTATCACTGTTTTTAACGGTCTTCTTGGCCCTGGTGATTCCGATCGTCATGGCCCGCTTGCGGGTGACCACGGTGCCGACCGCCGTGGCCGAGATCATCGTCGGGATCTTGATGGGCAAGAGCTGTTTGAACCTGATTACCCAGACTTCCCAGCTGACTTTTTTGTCCAACCTGGGGGTCATCGTCTTGATGTTTTTGTCAGGGATGGAAATCGATTTTGACTTGCTGAGCCCGAAAAAGCACAGCCGAGCCCGGAAGTCAGAGAGCGGCAAGCAGGTCAAGCCCATGGTCGTGGCTGCCTTCGCCTTTGGCGGGGTAGCGGTGGCCTCAGTTTTGCTGGCTTTGGGGATGAAGGCCCTGGGTCTCTTTAACGACGTGGCCCTGGCTTCGATCATCTTTATGACCGTGGCCTTAGGCGTGGTCATCGCTACCTTAAAGGAAAAAGAAATCCTGGGCCGGCCGATCGGGCAGACGATCTTGCTGACGGCGGTCATGGGGGAAGTTATTCCCTTGCTGCTTTTGACCATCTATTCCACCGTTAACGGCGGGGATGCCCGCAAGCTCTGGCTGATCATCCTCTTGTTTGTGGCCGCGATTATTCTTCTGCGCCGCTTTAAGCGGCCTTACCTGTGGTTTGCCAAGGTGACCAAGGCCACAACCCAGTTGGACGTCCGCCTGGCCTTCTTCCTGATTTTTGCCCTGGTGACGGTGGCAGAGCAGGTTGGGGCGGAAAACATCCTGGGGGCCTTTTTGGCCGGGGTGGTCATGAAGCTGCTGGAGCCAACCCAGGCGACCAAGGACAAGCTGACTTCCATCGGCTACGGCTTCTTTATCCCGATCTTCTTCATCCGGACCGGGGTCAACCTCAACTTGAAGCTGCTCTTCGCCAACCCGCAAGCCTTGATGCTGCTGCCGGTTTTGGTCATCTGCTTCTTCTTAGCCAAGCTGCCGGTTACTTTGACCTACATGCGGGCCTTTAACAAGCGGAATGCTTTTGCCGGGGGCTTCTTAACGGCAACGACGATCACGATCGTTCTGCCGACCTTGCAGGTAGCCCGGAAGCTGAACGCCATCACGGCGACTCAGTCCAGTGCCTTCATTTTGGCGGCGGTCATCGTCTGCATCGCCTGCCCGATCGTCTTCAACTCAACTTTTGCCTTGACGCCGGAAGACAAGATCAAGGAAAAGGTCGTGATCTTCGGCCTCAATGCCGTGACCATGACCGTCTACCAGGACCTGCACGACTCCTGGTATTCAGTTCAGGTTCTGACCTGCCGGAAGGAAAAATACGACACCTACAAGAGCAAGGTAAAGAATTTGAAGCTTTTGCCTGACCGGAAGCTGGATACTTTAGAAGCAGCCGGGGCCTTTGACACCGATATCTTCGTGGCCACCTTCACTGACGACCAGGCCAATTTGGAAGTGGGCCGGGCAGCCAAGCAGGCCGGAGTCAAGCGGGTCATCGTCAGCCAGGGCAAGGTCGTGGCTGATACGGTCGACCAGCTCAGAGAGGAAGGCATCGAGCTTTTTGCCTTCAACAACCTGCATGGGGCCATGCTCCGGGCCTTGATTGAATCACCAGCCGTCTACCGGATCATCACGGACACCAACAATGCCCTGTACGACGTGGTGGTCAGAAACTCGGCCTACACCGGCCGCCAGCTGATGGACTGGGACTTCGTCGACCAGATCACCGTTTCCCGGATCCGGCGGGGGGACAAGTGGATTTCCCCGCACGGGTCAACCGTGATCGAGCCGGGCGACGAACTGATCTACAGCGGCCCTTGGCGGGAAGCCGACCGGATTCACCAGCTTTTGAGCCGGGAATAG
>SRR1919932_00940 oxidoreductase
ATGCAACTCGGTATTATCGGCAGCGGCAAGATCGTTAGAGACTTCCTCACTGCCCTTCCCCTGCCCGGCTTAAAATTAGCTGCTATCGCCACGACCAAGCGGTCAGCAGCCACCGGCCAGGAACTGGCTGACCAATACGGCATCAGCCGGGTCTACGACGACTACCTGGAAATGCTCAAAGACGACCAAGTTGACACGGTTTACGTGGCCACCCCTTCCTCCATGCACTACCAAATGTGCCTGGACTCTTTGGCAGCCGGCAAGAACGTGATCTGTGAAAAGCCCTTCGTCCTCACGGCTGAAGAAGCCTTAGAGCTCAAGCAGCTGGCCGACCAGAAGGGCTGCCTCATTACCGAGGCCATCACCAACCGCTACCTGCCAGCCTTTAAGTCCTTGGCCAGTGACTTGCAGCTTTTAGGCCCGGTTCACGTGGTCAGCCTCAACTACACCCAGTACTCTTCCCGCTACGACCGCTTCCTGGCCGGCGACATCGCCCCGGCCTTCAACCCCCGTCTGGGCGGCGGAGCCCTCTTGGACTTGAACGTCTACAACATCCACTTAGCCGTCAGCCTATTTGGGGCGCCTTTGGACGTCCACTACTTCCCTAACCTGCAAAAGGGCGTCGACACTTCCGGCGTTTTAGTCCTGGCTTATGACGACAAACAGGCCAGCTTGACCGCGGCCAAGGACTCCCAGGCCTTTACCCACAACCCCTCTCTCATCGCCGGGGAAAAAGGGGCGATCAGCTTTATTGGCAGCCCGGGTGACATCAGAAGCTACCGGCTGGAAACGGCAGACGGGCAGACCGCCAAGAACTTTGACCCAGACCTGCACCGGATGATCCCGGAATTCACTGAATTCATCCGGATCTTTGACCAAAAGGACAAAACCGCTGCTGACCGGGCCTTTGCCCACAGCCTGCAGGTCATCGCCGTCCTGGAAGCAGCCAGGGACTACATGCCTTAA
>SRR1919932_00941 hypothetical protein
ATGCCGTCAAAGAAAAAGAAAATTCACCTGCTCACCCTTCTGGCCCTGGCCAGCCTCTTTTTAGCAGCCTGCGCCAAGCCCAGCCCCCAGAGCCTGGTCAAAAAGGCCCAGCAGAGCAAGATTGCTAACTTCCAGCTGAAGATCGACGAACATTATTACACGGGAAATAAACCAGTCCGTTTTTACGGCCAGATCAACTACCAGCGGTCTCCCTTCGTCATGCAGGCGGACTTAACCCAGAGCGGGGACCAGAACGTCAAGATGTGGGTGGGCCAGCACTATGCCTACGTCAAATACTATAAAGACCAGCAGGAAGCCTGGTACAAGGCCAAGCTCAGCCAGTTCACGACCATCTCCCACTTCCAGCAGCTGGTCAAGGACATGGACACCCTGACCCTCAGCCAAAAGAGCGCCAAGCTTTTTTCCGTCAGCCGGACAAAAAATGGCTGGCGGCTCAGCTACACGGGCAAGAGCCAGCGCCTCTGGCAAGAGATCACGGAAACCAACGGCCTGGCCAGCCTGTCTAGCGACAGCCAAATGGCCAAGGCTAAGCTCCAGCAGATCAAGATGACCATCGACTTCAGCCAGAAAAAGCAGCTGACCGGCCTGGCCATCTATGCCAAGTACAAGGTCAAGGGGCAAACCAGCTCAACCAAGCTGGCCATGCTCAAGGTCAACCAGCAGAAAAAGCTGGCCATCCCCAAGACGGTCAGCAAAAATTCCGTCGACGTCAGCCGGCTGAATAAATAG
>SRR1919932_00942 2,3-bisphosphoglycerate-dependent phosphoglycerate mutase
ATGTCTAAATTAGTTTTAATTCGTCACGGTCAAAGTGAATGGAACCTTTCAAACCAATTCACTGGTTGGGTTGACGTTAACTTGTCAGACAAGGGTGTTGAAGAAGCTAAGAAGGCTGGTCGTTTGATCAAGGAAGCCGGCTTGGAATTTGATCAAGCTTACACTTCAGTTTTGACCCGTGCGATCAAGACTTTGCACTTTGCTTTGGAAGAAAGCGGCCAACTCTGGGTTCCAGAAACTAAGTCCTGGAGACTGAACGAACGTCACTACGGCGCTTTGCAAGGCTTGAACAAGGCTGAAACTGCTGAAAAGTACGGCGACGAACAAGTTCACATTTGGCGTCGTTCATACGACGTTTTGCCACCAGTTTTGGCTGACGACTCAGAATTCAGCCAAGCTAACGACCGTCGTTACGCAAACTTGGACCCACACATCGTTCCTAAGGCAGAAAACCTGAAGGTTACTCTGGACAGAGTTATGCCATTCTGGGAAGACCACATTGCTCCAGACCTTTTGGCTGGCAAGAACGTGATCATCGCTGCTCATGGTAACTCACTGCGTGCCTTGACTAAGTACATCGAAAACATCTCTGACGAAGACATCATGGATGTTGAAATGAAGACTGGTGAACCAGTCGTTTACACTTTCGACGACAAGTTGAACGTTGTAAGCAAGGAAAAGCTGGACTAA
>SRR1919932_00943 LytR family transcriptional regulator
ATGAAGAAAGAAGACAAGCTGGGCATTCCTGAGACCAGGCAGCATGCCAGAAAGCGCAAGCATAAGCAGATCCGCAACTGGATCATCGGCATTTTGGCGGTTGTCTGCGCCATTGCGGCCGGAGTGGGCCTGTATGCCGCCCATTTGTACAAAACGGCTGAGCAGGCGGCCAACAAGGCTTATGACTCAGAAAACGCGGTTAAGACGACCTATGGCGAATTCAACGGCAAGAAGCCTTTTGCCGTCATGCTCTTAGGGACCGACACCGGGGCCTTGGACAGAACGGAAAAGCGCGGCAATACTGACACGATCATCGTCGTCGTGGTCAATCCGAAGAAGAAGAACTACACGATGATCTCGATTCCGCGGGACACCATGGCTGACATGGTTGGCGATGATTCAAACGACGTGCAGAAGATCAACGCGGCCTATTCGATCGGCGGAGCCAAGATGGCCATGAAGACTGTCTCTAACCTCTTGAACATTCCGGTCAAGTACTACGCCTTGGTCAACATGGGCGGGCTGATGAAGCTGGTCGATTATGTCGGCGGTATTTACGTGACGCCGCCTCTGACCTTTACCTACAGCGGCTTTCCTTTCAAGAAGCGGGTCCGCCAGCACTTAAACGGGCAGGCGGCTCTGGCTTACAGCCGGATGCGCTATGATGACCCGCAGGGTGACTACGGCCGGCAAAAGCGGCAAAGAGAAGTCATCACCAAGCTGGTCCAGAAGCTGGCCACGGCAGACTCACTGACGAACTTCAGCAAGATCGCCAATAACCTGTCATCAAACGTGAAGACCAACTTAAGCTTCCAGGCTTTGAAGTCGATCTTGGCCAACTACTCAGACTGCACTTCTTCCAGCGACAGCGACTACCTGCACGGCTACAGTGCTTATGTTAACGACGCGGCCTACCAAATCGCGCCAACCAGTGAACTGCAGCGGATTTCCAACAAGATCAGAAAGCTGCTGGGCTTGAAGACGGCGACCGTCTCCAACCGGGAAACCGAGCTGAATACCTTAAACGAGACTGCCGGCTTTAAGTTTGGCAGCGGTGAGACCCAGAACTACACGATCTATGATCCGGGCACGACGGCTGACAGCGTCAAGAGCGGCAAGAAAAGTTCAAAGTCCAGCTCCAGCGCTAAATCCAGCAGCCAGACTTCCAGCAGTACAGATTACTCTGGCAATACTGCTTATTCTGGCAGCACAAATTACGATACGACTTATAGCTACAGTTATAATTACAACTACAATACCAATCCGTTTTCAGGGGGCTATTAA
>SRR1919932_00944 membrane protein
GTGCTTAGCAAATTTTTGGCAGTAATTATCGGCTATTTGTTTGGCAACTTTATCAGCGCCATGTTCGTGGGCAAGTACTACCTGCACAAGGATCCGACCAAGTACGGGTCAGGCAACCCGGGCACGGCCAACATGGGGGCGGTTTTCGGCAAGAAGGCGGGGATTCTGACCTGCATCGGCGACTTGCTTAAGACCCTGCTGGCCATTTGTCTGGTCTATGCCATCTACCACCAGCACTTGCTTACGGCTTATACGGGCCTGGGCGTGGTCTTAGGCCACTGCTTCCCGGTCTTTAACCACTTTAAAGGGGGCAAGGCGGTGGCCGTGACGGCCATGGTTACGGTTCTCTACGACTGGCGGGCGGGGCTTATTACTCTTTTAATAGCCTTGGTCTTGACCGCAATCATGCAGAACCTGACTATCCCGCCTTTGGTTTTCATGCTGTCTTTCAGTATTTACCAGCTGACCAAGTCGCTTGAACCTGGCCTGGTCTTCTTGATCATGACGGCAGTCATGGCCTTCAAGTTCCGCTACGATATACGGGACTTTTTCACGGGCCATGGCAAGCGGGTCGATATTTTATATACGATCAAGAAGAAGTTGGGAATATTGAAATAA
>SRR1919932_00945 phosphoglycerol transferase
ATGAGTGAACAAACACAATCCAGAAAAATTCATAACCTGCTGAAGTACGGCTTCCTGCTGTTGGCAGCTCTGGTGCTTTTGCTGCAAATGTTTAATTTCAAGAGCAGCATGCTGAAAAGCTCAATTACCTACCTGCGCCACCTGCCACCAATCGTGGAAAGCGCGACCTATTGGTTTATTCCAATGGTCTTCGGGGCCGTTTACAGCAAGCGCAAGCTGCGCTTTAACGAAGGCTTTAGGGCCTGGGCTATCATGGAAGTAACCCTCTTGGCCTACTATCTTGTCTTCTTTATCTCCAAGCCATGGCACTTAAATGTCTGGCGCTTCTGGGGTATCCTCTTCCCGATTCTGACCTCGACTTCCGTCTTGATGACGGGCCTGGTCTTCGGCCTGCTGGTGCAGCCGGTCATTTATGACTGGCAGGAGAAGTTCAGCAAGAAGCAGAGCTTGATCATTTTGATCGCCTTGACCTTGCTGGGCTTTACCCTGTCAGCCGGGACTTACGAGATGAACTACTCCATCTATGGTCTCTACCTGGCTCTGCCATTTGCCTGGGGGATGTTCTTAGGGAAGGTTGACTTTTCCATCAAGCAAACGGCCATCTTTATTGTGGCCGGTATCCTTTCCCTTGGCCTGGTAATCGTCGGGGTAGCCGGCTTTAACGCCGTTTACTGGTCACAGATCATGTCCTGGCGGGCCAACCCATCATCATGGAACTACCAGTTCCTGCTCAACGTGACCTCACCCTTCATCTTTATTATTGCCTTGGCCGCTTTTGCTTTTGCCCGGCCGGCCATCAAGGCTTTGGAAGTAAAGGACCTGGACTTCCTGGTTCCGCTGATCATCTTCATGCAGGCACCAGATGCCAACTCCTTTATGTCTTCCTTTAAGTACGGTACCGGCAGCCGGCAATTGAACCGGATGATCACGATTTTGATCATGCTGGTCATTGCTATTGCCTGGCACTGGCTGATTGAACGCTACTTGTGGCGCTTCAAGCCAGTTAAGCGGATCAACCGCTTCTTGTATGAAAGCAAGAGCTTCGGGGCAGCGGCTGAAGGGGCCTTTAACCGCCTTTGGGGCTGGATGAAGTACCACCACCACCGGACCAACCTTTTGACTTGGACCTTCTTCTTTATCCTGTCCTTTGCTTCCTTCCTGGTTGAATCCGACAATATGCGGATCCAGATCACGACTGCTTCCAACGTCAACGCTGTAGTCTGGCTGGTCGGGACCAAGCTGGGGGCCTTGATTTTGACGACAATCTTTATTGACGCCTTCTTCACCATCCTTTACTTCGTCACGACCAGATACTGGGTTTCCCTCATCACGACTTCCACGGTCGTGATCGCTTGGGCGGTTGCCAACAAGATCAAGCTTGACCTCCGGGGCGAGCCAATTTACCCAAGTGAACTGTCTGAAGTAACCAACGCTGACAGTTTGCTGAGCATGATCGGGGGGCAGAAGACCTTGATCATGATCCTGCTGGCTTTGGCTGCCGTTATTGCCTTGATGGTCTTCTGCGAAGTCAAGTTCAAGGTCAAGAAGCGCGGCAACTGGAAGCGGCGGGGGATGTGGGCCCTGGCCAGCCTGGCCCTCTTCATGACGCCGAAGTGGTTTAACCACCAAGGCTCAGCTATTTACCGCTTGAACCGGGCCTTTGACAACAAGCAGTCCTTCCGGAACCCGGAAAGAGATATCCAGATTAACGGGCCAATTTTGAACTTCCTCAACTACATCGACTTGCAGATCATGGACAAGCCAAGCAACTACTCCAAGAGCCAGATTCAGAAGCTCTATGAGAAGTACCAAAAGGTGGCTGACCAGATCAACAAGACCCGGACTAACGATTTGTCCAAGCAGACCGTGATCTTTAACTTGAGTGAAAGTTTCATCGATCCATATACCTTCCCGACGATCAAGTTCGCCAAGGGGACCAAGGATCCGATTTCTTACATCCACTCACTGAAGAAGACGACCACTTACGGCAGCATGCTTAGTGCCGGCTACGGTGGTGGTACGGCCAACATGGAATGGGAATCACTGACTGGCTTTAACATGGGCTCCTTCAGCACAACTTTGACTCCTTACGTCCAAGTCGTGCCGCAGTACCAGTACTACCCAACCATTGGGGCCAACTCCAACTACTCTTCAGCAGTTCACCCATTCATCGGGACTTACTACTCAAGAATTGAAGACTACAAGCGCTTCAAGTTCAACAAGTTTGTTTACCTTGGTTCCAAGTACAAGATCGTGGACCAAAAGAAGCTAGGGACCAGTTCCTACAACTCCGACTTCACGACTTACGCCAACGGCTTGCGGCAGATCAATTCCCGCAAGGGCGGCCAGTTCATCAACCTGATTTCTATTCAGAACCATATGCCGTACAACAACTGGTACCCGAAGAACTACTATGCCGGCAAGATTTCCGGTGATCTTTTTGACGACGGCAGCATCAGAACGCAAGTGGCGACCTACATCATGGGGACCCACTACACTGACCAGGCGGTCAAGAAGTTCATCAAGCAGATTGACAAGATCAAGAAGCCAATTACCCTGGTCTTCTACGGTGACCACTACCCGTCAATCGTTTCCCAGTCATACACGTCTAAGTACCCGGTCCAAATGCACTCGACCCGCTACTTCATCTACTCCAACAAGTACGCCCGTCAGCACGGGGCTAAGGCTAAACTGACTTCCAAGACCAACTACGTCAACACCAGTGACTTCATCGCCATGATGCTGGAACAAACCAACAGCAAGGTTACGGCTTACCAGGCACTTTTAACTGAAGTGCACAAGAAGCTGCCAGCCTTGACGATCAGCTACAGCGATGACACCGGCTTTACCCTGGTTGACCAGAAGGGCAAGGAAGTTGACCCGAAGACCTTGACCAGCTCACAACAAGCCCTGCTCAAGGACTACGAAATGATCCAATACGACATGACGGCTGGTTCAGCATATGCCTTGAAGATCAAGGGTTTCTACACCATGAAGAAATAA
>SRR1919932_00946 acyltransferase
ATGGCTCATAAGCAGCGCGTCGCCTATCTCGATTACCTCCGCCTTGTGGCAATCTTGGGGGTAATCACTATCCATGTGGCTACGTCTCTCAACTTCTACCGGCAGGATTACGCGAGCTTAAACTGGCAGATCCTCAGCTTCTGGGACGGCTTGAGCCGCTTTTGCGTGCCGGTTTTTATCATGATTTCCGGGGCTGTTTTTCTGAATCCGGATTTTGACTTGAGCTGGGAAAAGCTTTTTAAAAAATACCTGCGCCGGATCGTAGTCAGCTACTTAATCTGGCAGCTGATTTATTGTGGCTGGTACTATTTCGCCAAGGGGGGCGACCTGGTGACCGTGGCTAAGTTCCTGATCGGCAGCTATGACCACCTGTGGTATCTGCCGATGATTGCCGGCCTTTACCTGGTGACGCCGCTTTTGCGGCCGCTGGCCAGAAGACGGCAGCTGCTCGAATACTACCTCTCGCTGGCCCTGCTCTTTGCTTGGCTTTTGCCGACCGGCCTGGACTTAATCCGCCTTTGGCCAAACCCGCCCAAGCATATGGCTGACGCGCTTGCCGCTTTTAAGCGCCTGCTGGGCAAGCTGGACCTGCAAACGGTAATGGGCTTTGGGGGCTACTACATGGCTGGCTACTACTTTAGCCAGGTCCACATGAGCAAGCGCAACCTGTATTTTGTCCAGGCCCTGGGCCTGCTGGGGGCTGGAGCGACAATCGTCTTGTCTGGCTGGCTGACGGCGAAGGCCGGCCATTTGCGCCTGACCTTGTACAGCTATAATTCCTTTTTTGTCCTGCTGGAGAGCAGCGCGGTTTTTCTCAGCCTGCAGACGCTCAAGCCCCGGCTTTGGTCAGAAGAAGTTTTAGGGGAATTGGCCGGGTCTGTAATGGGCATTTACCTGCTGCACCCGTTATTGATTTACTACTGGAGTAAGACGCCGGTCTGGCAGCTGGCGGCAAGTAATTCTGCCTGGCTGCCTGGCTTGGTAATTTTGATTTTTGCCAGCAGTCTGGCTATCGTCTGGCTCTTGCGCAGGAGCAGATTTTTGGCCCGCTGGCTTTTATAG
>SRR1919932_00947 tyrosyl-tRNA synthetase
ATGGCTAATTTTGACATTTTGGAAGATTTGAAATGGCGCGGCGCCATCAACCAGGAAACTGACGAGGAAGGCTTGCGGGATTACCTGGCCAAGCATGACGACCTGGCCCTTTACTGCGGGACTGACCCGACGGGTGACTCCCTGCACATCGGTCACTTGATTCCCTTCATGATCTTGAAGAGATTCCAGCTGGCCGGCTACAAGCCAGTCATCGTTATCGGCGGGGGCACGGGGTCAATCGGTGACCCATCCGGCCGGTCAACTGAACGGGTCCTGCAGTCTGAAGAAACGATCAAGCACAATGAAGAAGCTTTGACGGCGCAGATGGTGAAGCTCTTTGGCACGGAAAACTTCCGCATCGTCAACAACCGTGACTGGCTGGGCAAGATGACCCTGCTGGAATTCCTCCGCGACTACGGCAAGCTATTCCAGGTCAACAACATGCTGAACAAGGAAGTCGTGGCCAGCCGGCTGGAAAACGGGATCTCCTTCACTGAATTCTCCTACCAAATCCTGCAAGCCATCGACTTCTACATCCTGAACCGGGACCACGGCGTCCAGATGCAGATCGGCGGGGCTGACCAATGGGGCAACATCACGGCCGGGATCGACTTGATCCACCGCCTGGAAGGGGCAGACCGGCCAGCCTTTGGTTTGACCATCCCATTGATGCTGAAGGCCGACGGGACCAAGTTCGGCAAGTCCGCCGGCGGTGCTGTCTGGCTGGACCCGGAAAAGACCAGTCCTTACGAATTCTACCAATTCTGGATCAACCAGGACGACCGGGACGTGATCAAGTACCTCAAGTACTTCACCTTCCTCAACCACGAAGAAATCGACGCCTTGGAAGAAAAGGTCAAGACTGAACCATGGAAGCGGGAAGCCCAAAAGCGCCTGGCTGAAGAAGTAACCAAGTTCGTTCACGGCGAAGAAGGCTTGAAGGAAGCCCAAACGGTCACTGAGGCCCTCTTCTCCGGCAATGTGAAGGACTTGACCACCAAGCAGGTAGAAATCGCCCTGGCCAAGGCGCCAAGCGCTGAGAGCGGGGCAGAAAAGAAGAACCTGGTTGACTTCCTGGTTGACACCAAGATTGAATCATCCAAGCGGCAGGCACGAGAAGACGTTAACAACGGCGCCATCTATGTCAACGGCGACCGGATCCAGGACACCGACTTTGAAGTTGACCCGGCGGCTGCTTTTGACGGCAAGTTCGTCATCATCCGTAAGGGCAAGAAGAAGTACACCCTGGTGCACATCAAGGGCTAA
>SRR1919932_00949 methylase
ATGGCTATTACAGAATACGAAGATAAGATTCAAGAGATTATTGACAAGAATGACCACGACAGTTTCATTACTGACTTTTTGAGCGTGTACGAAAAAATTCCACGTTCTACGATTACTAAACTACGTAAAGGGATTGGACGGGTCAATCTGTCTAAAGAACCTGGTGAGGTTTATTTAAAGAATAAGCTTTACTACAAGGAAACAGATCAACCGTTGATGCAAGTTTACGTTGACTTAGAAAGAAAAGTGAGCGATCTTGGATCTAAGCCACGCTATATTTTTGTGACTGACTTCAAAGACATTTTGGCAAAGGATACAAAGACTGATGATAGTTTGAGCATCAAGTTTGAAGATCTGCCACAGTATTTTGAATTCTTTCTTGCTTGGAATGGAATTGAAAAGGTGGATTTTGATAAAGAGAACCCAGCTGACGTACGTGCAGCTGAGCGTTTTGCTAAACTGTATGACATCATCACTAGGGATAATCCGACTGCTACCGCACATGGTTTAAATCTGTTCCTGATCAGATTGCTTTTTTGCTTGTTTGCTGAAGATACGGGGATGTTTAAGCGGGATGAGTTTACCAATGACATTATGGCCTATACTAAGGCGGACGGTAGTGATCTTGATGACTTTATAAAAAAGTTGTTTGAAAATCTGGATGTTCATGAAGAGCAGAGAGATGCTTCATTGCCGAGCTGGGTTAAGAAATATCCTTATGTTGACGGTGATTTATTTATTGAGCCGCACGAATCGCTCAAGTTTACGACTGAAAGCCGTACTAAGATTATTGATGCTGGCAAGAAGTTGGATTGGACATCAATTAACCCAGATATTTTGGGTTCAATGCTTCAAGCGGTAGCGAGTGAAGACAAGCGGAGCCATTTAGGGATGCACTACACATCGGTTCCGAATATCATGAAAGTAATCAAGCCCCTATTTTTAGATGATTTGAGGGAAGAGTTTGAAAATGCAAAAGGAAATGTAGACAGACTTAATGAGTTGTATGCTCGTATTGGGAAAATTAAATTTATGGACCCAGCATGTGGCTCTGGGAATTTCTTAATCATTACGTATAAAGAGCTCCGGCAACTTGAAATTGACATCCTTAAAGAGCTTAACAATATGGGGACTTCTACCATGTATGTCCCATCTGTAACGTTGGATCAGTTTTATGGTATTGAAATTGAGGATTTTGCCTGTGATGTAACTCGATTGTCACTGTGGATTGCAGAGCACCAGATGAATGTTAAATTGCACCAGGAAATCAAAGACGCAGTTCGTCCAACATTACCGCTTAAAAAGGCAGGGGATATTGTTTGTGGTAACGCATTACGGCTAGACTGGAGTAAGATCCTCCCACATGAAGAAAAAGATGAAGTGTATTTATTTGGGAATCCACCGTATTTGGGCTCAAGTTTACAAGATAAAAAACAAAAAGAAGATATGGAGTTACTTTTTAAATCAGTCTTGTCTAAGTATAAGAATCTAGATTATATATCATGCTGGTTTTATAAAGGGGCATGCTATATTACTGGTACAAAAGCAAAGTGTTCGTTTGTTTCGACAAATTCGATATGTCAAGGTGAGCAAGTTGGATTATTATGGCCAACACTACTGGATATGTCAGAAATATTTTTCGCATACCAGTCATTTAAATGGAGTAATTCAGCCAGAAAGAATGCTGGTGTCACTGTATCAATTATTGGATTAGAGAGTAAGGAAGAAAAGACAGAAGCAAGATGGATATATGCAGCTAATGGTATGAGAAGAAGAGCTGAAGAAATTTCACCATATCTGGTTGCAAGTAAAAGTGTCATTGTGCCTAGGACTGCTAGCCCTATAAATGGTTTCCCTAGAATGGTGAAAGGGAGTCAACCATCAGATGGAGGAAATTTAATATTAAGTCAAGAAGATGCCAATAAGGTAAAAGGAGAGATACCAAACAATATATTAAGGAGGTATGTTGGGGCTAAGGATTATATAAATGGCTATTCCAGATATTGTTTGTGGATGAACGACAAGACATACAAAGAGTATAAGAATGTCCCACTTATTCAAGACCGAGTAAGCAAAGTGTATTCTTTTAGGCAGAGCGCAAAATCTTCTGCTGCCAGAAAGGGTAGTACAACGCCTTGGGAGTTTTTACAACGAGGAGAATATGCTTCTGCGTACGGTGAAGATATAGTAACTAATAAACGGACGATAGTTGCGCCACGTGTTTCGTCCGAGTCTCGCATGTACATTCCATTTGGCATTGTTGATTCATCAGTTATTATTTCTGATTCTGCCATGGCGATTTACGATGCTCCATTATGGCTTTTGGGGCTCCTGGAATCACGTATACATATGACTTGGCTAAGAGCTGTTGGTGGTAGATTAAAGACAGACTATCGCTACTCTGCCGGACTTGTTTACAATACTTTCCCAGTACCAGAGATGTCTACACGACGCAAAAACGAAATTGAAAATCTTGTACTCAATATTTTAGACATCCGTGAAGAAGAGGGCGGCACTTTAGCTGAACTATATGGATCGCCATTAGCAGAAAAGAATCCGAAGCCAATGAATGCAAGACTTCTTGAAGCCCACCAAGAGCTAGATCGGGTTGTTGACAGGGCATATAAGCCGTCTGGATTTAAAGATGATGCTGAGAGACTTTCGATGTTGTTAGAGATGTATGCGGAAAAAGTTAAGGATGTGAAGTAG
>SRR1919932_00950 DEAD/DEAH box helicase
ATGTTGAAAAATGTTTCAGATAATATCGTAGAAATTAACTACCATCAAACAGGAAAAAGCACAAACACCAATGAGCTGGGGATGCGGGAAATGCAGGCGAAGGTCTACGCTAAACGTAATTCGCAATATCTTTTGGTAAAGGCTCCGCCAGCATCTGGTAAGTCACGTGCATTGATGTTTGTTGCTTTAGATAAATTGGCCAATCAGGGCGTAAAAAAGGTCATTGTGGCGGTTCCAGAAAGATCTATTGGTAAATCCTTTAAGAACACGGAACTGGCCAAATACGGCTTCTACGAGGACTGGATTGTTGATCCTCAGTATGACTTAACTTTACCCGGCGGAGATATGGGGAAAGTTGACAAACTAGTTGAGTTTTTGAAAAACGATGATCCTAGCGCCAGAATAGCAATTTGTACTCATGCAACTTTGCGCTTTGCGTATGAACGAATTGAAAACGATCATGTTTTTGATGATGTGATGGTTGCTATCGATGAATTTCACCATGTTTCTGCTGATGATAGCTCGGTTTTAGGACAAGCTTTAAAGAACATCCTACGTAATTCAACTGCTCATGTTTTTGCTATGACAGGTTCATACTTCCGGGGAGATTCAGCTCCAATCTTGACACCAGATGATGAAGCTATGTTTGATAAGGTAACCTACACTTACTATGAACAACTGGACGGTTACCGTTATTTAAAGTCTTTTGGTATTGACTACAAGTTTTATCAAGGCTCTTACTTGGAAGCCATTGATAAAGCTCTTGATACGACAAAAAAGACCATTGTCCACATTCCTAATGTCAATTCCGGTGAATCTACTAAAGATAAATATGGGGAAGTAGACGCAATTTTTGACGCAATCGGCAGCGTTGTTGGACAAGATGAAAATACTGGGATTTACACGATCAAAGATAAAGAGACTGGACAGCTGTTAAAAGTAGCTGATCTGGTTACTGAAGATGGGCGTGAGAAAGTCCAAGAATATCTGCGTACTATGAATTCTGCGGATGATCTAGATATTTTGATCGCCTTGGGGATGGCAAAAGAGGGCTTTGACTGGTCTTTCGCTGAACAAGCACTAACAATTGGTTACCGTCATTCTTTGACTGAAGTGGTACAGATCATCGGCCGTGTAACTCGTGATAGTTCTAATAAGAGTCACTCACAGTTTACGAACTTGATTGAACAGCCTGATGCAAAGAATGAAGATGTTGAATATGCTGTCAATCAGATTTTAAAGGCGATTTCAGCATCCCTGTTAATGGAACAAGTTCTTGCTCCACAGATTCATTTAAAGCCACGTAAACATGAACATGATCCTCAACCGAGTGATGATGATAATAATGGCGGAGCAAATATTTACGTCAAAGGTCTGGCTGAGATAACGTCAGATAAAGTACGTAACATTCTCGAGAATGATATGAATGATTTGCAGGCAGCAATTTTACAGGATAGTGCAGTTAAGAAAGGGATCGCAGCTGATGTTGCTGCCGAGGAAATGAACAAGATATTGATTCCAAAGGTCATCATGACTCGCTATCCTGACCTTACTGATGATGAAGTTGAGCAAGTCAGACAATACACTGTTGCTCAGATTAATTTGCAACATGCTGAGACAGATACTGCGGTTGATGAGCAGGGAAAGACCAATGACTTTTTGAAAATGGCCGATAAATTTGTCAACATTGATGACCTGGATATTAATTTGATTGACTCCATCAATCCATTCCAAAGAGCATACGATGTTATTTCTCAGAATATTAATAGTGATGTCTTGAGAAAGATTCAGAGCGCTATTGATGCAAATAAGTACAAGTTTGATGATCAAGAATTGATTTTTCTTTACCCTAAAATCAAGCAATTCGTTGTTGAAAATAGCCGTAAGCCAAGCAAGGACTCTCATGATGAAATGGAAGTTAAGCTGGCTTATGCTTTGTCAGCCTTGAAGGTGTTGAGAGCTAAAAAGGGAGCACAAAATGGACAAGCCAATTAG
>SRR1919932_00951 hypothetical protein
ATGGACAAGCCAATTAGAAGTTTAGAGGACATCTTTGCGGATCCAGATGCGGCAACGCTGTTGGCTCCGGATAAGAAGCCAGTTATCAACTACGATCCAGACGTAGAAGGGTTCAAAGAAATCATTGACTGGGTTAAACAGCATGGTGGTAAAGAGCCACAAAAAACAATGGATCTGACTGAGCGTAAGATGTTCTCTCGCTTAAAGGGGATACGGAACAACCCAGATCGCTGTCAGAAGTTGAAAGAATATGATGAGCTGCATTTGTTGGGTGAGGCTGACGGTAGCAGCGAAAAAGAGAGAGAAGCAAAGGCTATTAAACAAGAAAAGATGGACTTTGATTCTCTAGATGATATTTTGACTGATGATTCTCTCTTATTTGACGATAGTCAGGAAGATATGGAATTGAACAGTAAGCTTTTTGACACCGCCAAATTTAAGCAAATACTGACAAAGAAACAGGAAGAAGAAAAATCTGTCCGGAATAAGATGGACGGCTTCAGCAAGTACGAGCCAATGTTCAAGCAAATTCAAGCTGGAATATCATCTGGTCAGCGTCAACTGGTTAAATTTCAGAATCCAGAAAAGAATCTCAAGGAGCACAGATTTTATATCTTGAATGGTCAATTGATCTATATTGAGGCAATTGGTGATCTTCAGCTTCGGGAAAGTAGTGATAGCAAAAGCCGTAAGGATGCACGGGCACACGTCATTTATGAAAACGGGACGGAGAACTTCCCATTTATCCGCGGGCTAGCCTCATCCTTATATGGAAGTAAACAGCGTCGCACGGTGCCAGGATACATTGTGACTGAACCTATGCAGAAGGAATATAAACTGACCAATGACGACTATGTGACTGGCTATGTTTATGTTTTGAAGTCACTTAGTCAGAATCCGCAAATACTTGAGATTGAAAAGGAACACGATCTATATAAGGTTGGTGTTACTGAAAATACAGTCGAAGAGAGGACTGCTAATGCTGAAAATGAACCAACCTATCTATATGCACCTATTCAAATTGTAGAAAAGATTAAAGTCATCAACCTTAACGCTAAGACGTTAGAAAAAACAATTCACCATGCTCTGGCAGAATATCGGCTGGATGTTGATATCAAAGCCGCTAATGGTAAGATCATCCATCCTATGGAATGGTTTGTTGTAGACTTAAACACCATTGAAACGGTTGTTGGCAAATTAATTACCCAATTAAGAGTTAAACAGCTTGATGGGATGCAAAATTAA
>SRR1919932_00952 hypothetical protein
ATGCCAAGAGGTGGATTTAGGGAAGGGGCAGGGCGTCCGAAAAGTGGCCGTAAAGTTCATACGATTAGGGCAACTGATGATGAATGGAAGCTAATTAAAGCCTATGCTGAGCAAGTAAAATTAGGCAAATTGCCGGAATTATTAAAGGCGAAGGAAGTTAAGCTAGTTAAAGAGCCAAAAGCTGCTGTAAAGAAGGCGAAGAGAACTAAGAAACTTGGTCAACTGGCACACGCTACCATCATTTTTGGCAACCCGGAAAAGATCAAGTATGGTTGTTTTTTCTGTGTTCCAGATGGGAAGATGTACGCTATTAAAGCCTACTTCTGTCCAATAAATGAGGCGCCTGCAAGCGTATGGGATGCATTAGATAGGGTGGTTGTTACCTATGGCTACCTTGTGCCTACCCCAGGAGGCTGGACTTGGAAAAATGTAGATGGTCAAAGACTTTTAGGACCAGATCCAGAAATATTGTCTAGAAAAAAGACAATCAAAGCCGCATTCGCTTGTTGGCTATCTGAATTACTGGCAAATCAAAAGGCGGTTAGAGCTAAGGAACTTCAAGAAAGATAG
>SRR1919932_00953 hypothetical protein
ATGCCAAGGATAAGCAAATCGTGCAGCCTCTCCAGGAATACTACAAGGCCAACCCAGACCAAGGCCAACAGCGAAGATGCTGAAGACCTTCTCCAGGACATTTGGGATGACAATGACAGCGAAGACTGGGTCAACGGCAGCAGCAATACCGGCTACCTCAGCATCAAGAAGCTGCACGACAACTGGGACGACTCTGACTCAGTCGCTAATTACAACGAAGTCGTCAGCGTCCTGTCTACCAGCCTGGCCGGCAGCGGCAAGACTTACGTCAACTACACGGTCACCCACAAGCTCTCTTACACCGGTGACAAGGATGACACCAGCGTGACTGACACTTACCAAAACGGTTGTGACTGTTAA
>SRR1919932_00954 Mn/Zn ABC-type transport system permease protein
ATGTTTGTCTACGAATTCATGCGCAATGCTTTTTGGGCGGCCACCTTTATCGCGATTACCTGCGGGGTGGTGGGCGTCTATGTCGTGGCCCGCAATTTCAGTTTCCTGGCCCACACCCTGTCGGAAATCGGCTTTGCCGGGGCGGCTTTTGCCATTTTGATGGGACTGAAGCCTTTGACGGGGATGCTGATTTTTGCCCTCCTGGGTTCAATCGGGGTCGGGGAATTGTCCATGCAGACTGAGCAGAAGGAGTCGTCGATTTCCGCGATTTCCGCCTTCTTCGTCGGCCTGGGGATCCTCTTTTTGTCCCTGTCCAGCTCAGCCAGCAGCTACGCGACCAACATTTTGTTCGGATCCATTATCGGGGTGTCCAGATCCAGCGTCTATCAGCTGGTCGGCCTGTCAGTGGTTGTCTTATTGATCATTTTTGCCATCCAGCGGCCCCTAAACTATGATTCCTTTGACCATATCGGGGCAGCGGCCCACCACATCAATACCGGCTTTGTCGGGGTGGTCTTCCTGGTGGCTTTGGCCATGGCGGTTTCCATCGGCTCCCAGGTGGTCGGGTCCATGCTGGTCTTTGTCCTTTTGACCATGCCGTCATCAACGGCCCGTTATTTGGGCAAGTCGATTCCGAGCATGCTGGCCTGGTCGGTCGGCCTGGCCCTGTTGGGGGTCTGGGCCGGGCTGTGCCTGGGCTACATCACCAACTGGCCGGTAACCTTTTTCATTTCGGTAATTGAGGTAACGGCTTACCTGCTGGTTTACTTCACCCAAGCCAGAAAGAAGCGGGCGTAG
>SRR1919932_00955 Mn/Zn ABC-type transport system ATP-binding protein
ATGAGTAAAGCTTTGCAGGTCGTGGACTTGAGCATGAAGTTCGACGACCAGGAGATTTTTAAAAAGCTCAATTTCAGCTTGGAGACCGGGTCCATGACGGCTCTTTTGGGCCCTAACGGGGCCGGGAAGACCACCCTGGTCAGAATACTGATAGGGATGCTGAGCCCCAGTCACGGCTATTTTGAGCTGGCTGACGACGTAAAGGTGGGCTATGTGCCCCAGTTCCGCAATATCGACCCGGACTATCCCTTGTCGATCAAGTCTTTTATCGAATTAAACACGCCTTTTTGGAAGAGCCAGAAGGTTAAGGACCAGGTCAACCATATTTTGCAGGAGACCCACTTGAAGGGCCTGGCGGACACCAGGATGGGGGAGGCTTCCGGCGGGCAGAAGCAGCGGGCCTACCTGGCCCAGGCCCTCTTGGACCAGCCGAACTTCATCATTTTGGATGAAGCCACGGCCAGCCTGGACCCTAAAGCCAAGGAAGAATTGATGAGCCTGATCGCCCACCTCAACCATGAACACAAGATGACGGTCTTGTTCGTCACCCACGACATTCCTTTGGCCAAGCGCTATATGAAGGACTATCTTTACTTAAGCGACGGGACGGTCAGCCAGGGGAAGATGGAAGATTTTAAGGAGAGTTTCAACTGA
>SRR1919932_00956 haloacid dehalogenase
ATGATTAAATTGCTTGCAACTGACATGGACGGAACTTGGCTCAACTCCAAGAAGGAGTACGACCTGGACAAGTTCAAGCAAATCATGGACCTAGCCAGGGAAAAGGGGGTCAAGTTCGTCATCGCTAGCGGCAACCAGTATGAAAACCTGGTTACCCGTTTTCCAAAAGAATACCTCAGCCAGCTCTACTTCGTGGCTGAAAACGGGGCCTATGTCTTGAAGGGGCGGGAAATCCTCAACATCGTAGACTTAAACAGCGATGAACTGGCCACGATCCACGAGATCAAGGAAAAGTACGGCCAGGACCACCCGACTGTCTTGGCCGGAGTGAATAGCGCCTACACCTTGCAGAGCTACGGGGAAGAGTTTTACAACTACCTCCACCTTTTTTACCAGGAACTGAAAGCCGTGGACGACTACGAAAGCGTCAAGGACCGGATCTTCAAGTTCACTGTGGCGACCGGGGAAGGGGAATCATCAGCCTTTGCCCAGCAGCTCAAGCGGGAATTCCCGAGCCTGGACATGGTGGCCGGCAGCGACTCAGCCGTTGACATCAGCAAGCTGGGCATGAACAAGGCGGTAGGCCTCAAGCTTTTGGGCAAGCGCTACGGGATCCCGGCTGACGAAATGGTGGCCTTCGGCGACGGGGGCAACGACGTGGCCATGCTCCAATACGTGGGCCAGAGCTACGCGACAGCTACGGCTTTGCCGGAAGCCAAGCGGGCGGCTAACGGGATCATCGGCTCAAGCGATGAAAGTGCAGTCCAGGACAAGGTCCTGGACTTGCTGAAGAAGATATAG
>SRR1919932_00957 hypothetical protein
GTGGCTATGGTAAAAATGGGGACAGTTTTGCGGGATTTGGATGTGGCTACGGTAAAAACGGGGACAGTTTTGCGAAATTTGGACGTGGCTGCGGTAAAAACGGGGATGAGTTTTGCGAGATTTGGATGTGGCTACGGTAAAAACGGGGATGAGTTTGCGAGATTTGGCCCTGGCTGCGGTAAAAACGGGGATGGTTTTGCGGGATTTGGCTGTGGCTACGGTAAAAACGGGGATAGTTTTGCGGGATTTGGACGTGGCTGCGGTAAAAAAGGGGATGAGTTTGCGAAATTTGGCCATGGCTACGGTAAAAAGGGGGATAGTTCATCGCTTCGAGCCCCGTTTTTTACTGAACCACAGCCCTTTTTCGTTTTTCGAGCCCCGCTTTTTACTGAACCACGACCTTTTTTAATAATTTTAGCCCCGCTTTTTACTGAACCACGGCCTTTTTCAATAATTTTAACCCCGCTTTTTACTGAGCCACGGCCTTTTTCAATAATTTTAACCCCAGTTTTTACTGAACCACATGAACCTAAAAAAATAGAACACCTACTTCAAACAATCTCCGAAATTCTTTTCTAA
>SRR1919932_00958 hypothetical protein
ATGGAACGAATATGGACAAATTGGTACCTGGCCAGTGAAGGAGTTGAAAATGACGCCGTCGTGCAATCGGCCCAGGCAGCTGAGCAGCTAATCAATCCGGACTATGACCACACCCGGCAGCTTTCTGATCAGAATTTGGCTGGGGTGCGCGAGCTGAACGGCTTGCTGGTCAGCTATAACCAGCTGGGGGTGGCCCAGGCAGCGACTTTGACGCAGGAACAGTTGGTGAATGCGGAAAATCTATTAGCAGGCGCGGCGGGTGAGTGGCTAGTCGATCAAGCGGTCAAGTCCGTCGCGGCGGCAGTTTTTCATAATGTGATTCTGCCCTGCAAATATGATAGAAATCGGCCAGTTGGCGACAACCAAATTGATAATTTGGTGATTACCAGTACCGGCATTTATTGTATTGAAGTCAAGGTGCGCAAAATTGCGGGGAAGCTTTTCGACTTTAACCGGCTGGGCCGGGGCATTTATGATCAGATTAGCTACCACAAGGAGGCGTTGACGCAAGTCCTGCAGCCAATGGGGATCAGTCCCAATTTTATTAAGACGATTGTGGTGGTGATCAACCGGCTGGGGAATGATGACTTCAAGCTGAAGAACCAGGAGGATCTGCAGCGGGCTGGTTCGCAGGTGGTCAAGCTGTCGGTCTTAAACCTGTTTTTGAGCAATGACGGGTTCGCCTTGCTGAATCAGCAGCAGATCCGGGCAATTGAGCAGGCGATTCAAAGCCAGCGCCTGCCTGATCGGCGGACCTATCCAGCCAATGTCCGTTTTAAGTTGACGCAGGCGCATCTGGATAAAGCCAGACAGATCAGCCAGGCTGTCAGGCTTGGAATTCCGCTTGCGCAGAACGTGACGTATCATGGGCGGTTAAATGATTATCCGCTCACAGGCTTGACCGGAAAGCAGCAGAATATGTTGTGGCTGATCGTGGGCCGGCTTTATGGTTTCGGGTGCGGCATGCTCCAGCTGACCCGAAGTGAGTTGCGGACTGGGGCTGGCTATGGCGGGCGTGATTTTTTGCGGCTGGATCAGCAGTTAAGCGAATTGGCTGAGTTCATGCAACAGAGCAAGCTTTTTCAAAAGGCTAAGTATGAAGATAAGAAATTGACGGTCAGCGTTAGCAAGAAATACTCATTCCTGTTTAACGGCTGCACGAAGGACTTCACCTGCTGGAATTATCAATTGCTGCGCCGAATCAGCCTGAACAACGCCAAGACTTTGTTCCGCAAGCTACTGCAAGTTTCAGCAGCTGGCTGCTACCAGGTGTCCTTTGAGCAGCTGCGGGAGATTCTGGCAGTGCCGGATAGCTATTCGAATTATGAGGTAATGAGGAATAAGATTAATCCTGCTGTACTTCAACTGGTACCATTTTTTGGCAATTTGAGCTACGAAGTGGTCAAGAGCGGCAAAGCGAATAAAATTGTTGGGATAACTTTCACTTTTGATAAGTTTTCGCCGGAGGAACTGTTGACCTTAAGAGAATGGCACAAATATTCAACCAATATTTCTGCTAATTCGCATTTGTCTCTAACCGAGCAACTGAAAGCTGAGAAAATTTTAGAAAAGAATTTCGGAGATTGTTTGAAGTAG
>SRR1919932_00959 fructose-specific PTS system IIC component
ATGCGGATTAAAGATATTTTGAACCCAGAGTCCATGATTATGGATTTGCAGGCTACCACCAAGGATGAGGCCATCAACGAAATGGCCGACTTGGAAGTAGCTACGGGTATCGTCAACAACAAGGAAAAGTTCGTTGAATCTATCTGGGCCCGGGAAAAGGAATCCACTACCGGGATCGGCGGCGGGATTGCCATGCCTCACGCCAGAAACGAATACATTAACAAGGCCCGGGTGCTTTTTGCCAAGAGTGAAAAGGGCGTGGACTACGACTCATTAGACCAGCAGCCAGTCCACCTCTTCTTCATGATCACTGCCCCAGCCGGTGCGGACAACACCCACTTGCAAGCCCTGGCTAAGCTGAGCAGCCTCTTGATCAACCCTGACCTGGTTGAAAAGCTGAAGGCAGCTAAGACGGCTGACGAAGTTATCGACCTCTTCAGCCAGGCAGAAGCTGACAAGGACAAGGAAGACGCTGAACGCGAAGCCAAGCTGGCCGCTAAGAAGGAAGCGGAAGCTAAGGCAGCTAGTGACGAAAAGCCATTGATCGTCGGCGTTACTGCCTGCATCAACGGGATCGCCCACACTTACATGGCTGAAGAAGCCCTGATCAAGGCCGGTGAAAAGCGCGGCGTTGAAGTCCGGATTGAAACCAACGGTTCAGAAGGCGTTAAGCACGAACTGACTGCTGACGAAATCAAGCGGGCTAAGGGTGTTATCATCGCTTCCGACAAGCAGGTCAAGATGGCCCGCTTTGACGGCAAGCAACTGGTCAAGCACCCGGTTGTTGACGGGATCAACAAGCCAGACCAACTGATTGACGAGATCCTGTCCGGCAAGGGCAGCGTTTACCATGCAGAAGCTGGTGAAGCCAGTGAAAGCTCAGCTGCAAGCGACGGCAGCGTATGGTCAACCATCTACCGGCACTTGATGAGCGGTATTTCCCACATGCTTCCGTTCGTTATCGGTGGCGGTATCTTGATGGCCATCTCCTTCCTGGTTGAACAATACATGGGTGGCGCCAAGAGCCCGGCCTTCATCTTCTTGAACAGTGCTGGTAACCTGGCCTTCGCCTTCATGGTTCCGGTTCTGGCCGGCTACATCGCTGAATCAATCGGTGACCTGCCAGCCTTGATGCCAGGTTTCGTCGGTGGTTTCATGGCCTCAATCGCCAACTCTTCCTTGGGTGGCTCTTACGCTGTTAACGCCAACGCCAAGGCTGCTTCACCAGCCGGCTTCCTGGGCGGGATTGCCATCGGTTTCATCGCCGGTTACCTGATCTTGGGCCTCAAGAAGCTCTTCGCTAAGCTGCCGAAGAACGTTGAAGGTATGAAGCCAATGTTGCTCTACCCAATCTTTGGTCTGCTCTTCGTAGCCTTGATCATGTACTACATCATCAACCCGGTCTTCGGTGCCTTGAACGGGGTTATCACCAACTTCTTGAACGGCATGGGCACTGGCAACCTGGTTCTCTTGACCACGATCCTGGCCGGCATGATGAGTATCGACATGGGTGGTCCTTTCAACAAGGCCGCTTACGTCTTCGCTTCAGGTGCCTTCGCCAACGACCCGACTTCCAAGACCTCAGCTATCTTGATGGCTGCCGTTATGGTTGGTGGTATGGTAGCACCATTCGCGACTGCTATCGCGACTACTTTCTTCAAGAACAAGTTTACTGAAGATGAACGCCGGGCCGGTGTTTCCAACTGGATCCTGGGCTTCTCCTTCATCACTGAAGGGGCTATTCCATTTGCCAGTGCTGACCCGCTGCACGTTATCGTTTCATCAATCGTCGGCAGTGCTGTCGGCGGGGCCCTGGTAGGTCTGTGGCACGTCGGCGTGCCAGCACCTCACGGTGGTTTCTGGGTTATTGCTTTGTCCAGCAACTGGCTGGGCTACCTGGGCGCCGTAGCTGTCGGCTCAATCGTGGCTGCTTTGATGATGGGCTTCTGGAAGAAACCAATTGACCAAAAGAACTAA
>SRR1919932_00960 1-phosphofructokinase
ATGATTTACACCGTGACTGTCAACCCAGCTTTGGACTACGTTCTGCAACTGCCAGAAGTCAAGGACGGGGAGACCAACCGGTCAAGCGACACCCAGTTCTTAGCTGGGGGCAAGGGGATCAACGTTTCCCAGATTCTTAACCAATTAGGCGTGGACAACACTGCCTGGGGCTTTGTCGGCGGCTTTACCGGCGAAGAATTGATCCGCCAATTGAACGTCAAGAAGATCAGCAGCGACTTCGTAAGAATCAGCGACGACACCCGGGTGAACGTTAAGATCCACGCCCAGGAAGAAACTGAAATCAACGCGGCTGGCCCGGACATTACCGACCAGGAAGTCGCAGCCTTCAAGTCCCGCCTGGACGACCTGGAAGCAGGTGATGTCGTTGTTTTGAGCGGCAGCCTGGCTCCAAGCCTGCCAACTGACTTCTACGAAAGCCTTTTGCCGCTGATCCGGGAAAAGGGGGCGGAATTCGTCGTTGACACGACTGGCGAAGCCCTGCTGCGTACTTTGAAGTTCAATCCATTGGTTATCAAGCCAAACCACCACGAACTGGCTGACCTCTTTGACACCAGCTTCTCATCAACTGCCGACATGCTGGAAGCAGCCAAGAAGCTGCAGAAGCTGGGTGCGCAAAACGTCATGATCTCCATGGCTGGCGAAGGTGCTTACCTGGTAACTGCTGACCACGTCTACCACGCCAACGCGGCCACGGGCACGGCGGTCAACTCAGTTGGCGCCGGGGACTCCATGATTGCCGGTTTCGTCGGCACCTGGTTTGAAAAGCACGACGCGGCTGAAGGCCTCCGGGTCGGCAGCGCCTGCGGCGGGGCAACGGCTTTCACTGAAGACATCGCGATCAAGAGTCAAATCGACGCCGTATTGCCGCAAATCAAGATTGACGTCGTTGAATAA
>SRR1919932_00961 DeoR family transcriptional regulator
ATGCTGACGGAAGAGCGGCAACAAATGATTGCCCATTATGTAGACGAACATCAGATTTGCCGCGTAACGGAACTTTGCCGCTTGACCTCGACATCCGAGTCGACGATCAGACGCGATCTGAGTGAAATGGAAGACCGGGGCCTGCTTAAACGGGTCCACGGCGGAGCGCAGAGCCTGCAGACTTTTGGCCAGGATGTGGCCCAGCAGATCCGCTTCAATCTGAACAAGGATGACAAGCTGGCTATTGCCCGCCTGGCCGCCAGGAAGGTCCACCCGCACGACTATCTCTTTTTAGACGCGGGGACGACCATTTATGAAATGGTTCCCTTTTTAAAAGAGATCAGCGGCCTGCACGTGGTGACCAACGGGCTGGAAACGGCCCTGGCCTTGACTGACGCTGGAATTGACTGCTGCCTTTTAGGCGGCCATGTCAAGCGGCAGACCCACGCGGCCATTGGCGCGGCCACTGTCTCCCGCCTGCAGGAGCTGAACTTCAACGCGGCTTTCATTGGGGCCAACGCCCTGAGCCCGGCCGGCTTTTTAACCACGCCGGACACTGAGGAAGCTGCCGTGAAAAGGACGGCTATCCAGCAAAGCCAGCAGGCTTTCGTTTTAATCGACCGCAGCAAATTTAACGCGGTAACTTTTGCCGAATTCGCCAAGACCGACCAGGTGACCATCATCAGCCGCCTGGAGGCTGGCGACCGGGAGAAATTGCCAGTAAATATTCAACTTGAGGAGGCTAAATAA
>SRR1919932_00962 aspartate racemase
GTGAAGCATTTCTTTAGCATTATTGGCGGGATGGGGACCATTGCGACCGAAAGCTATGTCCGCTTGATCAACCACCGGGTCAAGATCAGCAAGGACCAGGACTACTTGAACTACATCCTGGTCAATGATGCCCAGGTGCCAGACCGGACGGCCTACATCAAGGACCACAGCCAGCCGAATTTTTTCAATGCGCTTAAAGAAGATGTTTTAGGCCAGGCCAAGCTGGGGCCGGACTTCATGGTCATGCCCTGCAACACGGCCCACTACTTTTATGACGACCTGGCGGCCTTGACCGACATTCCCTTCCTGCACATGATGCGGATTGCCGTGCACCAATATGTCGACCAGTTCCCAAACAGTCCCAAGATCGGCTTGATCGCGACTGAAGGGTCAATTTACGACCACCTTTATGAAGACGAGATCCACCGGGTGGGACGGGAAGTCGAATTCGGCGGTCCCGAGATCCAGCCGATGGTGACGGAATTGATCTACCGGGACATCAAGGAGAAGGGGATCGTCGACAAGGAGCTCTACCATGAGATCCTCCGCAAGATGCACGACGAATATGGCTGCGACGTGATCCTGCTGGGCTGCACGGAACTTTCCTTAGCCCAGGAGCAGGCGCCGGACCACCCCTACCAGGTTATCGACCCCCAGTCGATCATCGCTGACGTGTCGATCGAACTGGCTCTGGCGATCAGGAACGGGCAAGATCCCCGCCAGGCCTGCCAGAAATATCTATATGACTAA
>SRR1919932_00963 UDP-N-acetylmuramoylalanyl-D-glutamate--2, 6-diaminopimelate ligase
ATGAACATCTCATTAAACACTTGTATTTTAATCTTAAAAGAACACCACCTGCTCAAGTCTAGTGCCGTCCAGGACACTGTCCAGACCAGAATGGAGGCTGTTTCTTATGACTCACGCGATGTCCAGAACAACAGCCTCTTCTTCTGCAAGGGGGCGGGCTTCCGGCCAACCTACCTGACCATGGCCAAGGAAAACGGGGCAATTGCCTACGTGGCTGAGCAGCCATACCCGGAAGGCACGGGGATGCACGCCTTGATCGTCCGCAACGTGTCCAAGGCGATGGCCCTTTTGTCAGCTGCCTTCTACCGCTTCCCGCAAGACGACCTCTTCCTGGTTGGCTTTACCGGGACCAAGGGCAAGACCACTTCCGCCTACTTCTTAAAGGGGATGCTGGACCAGCTCAACGGTGGCCGGACTGCTCTTTTGTCCTCAGTCGACAACATCCTCGGGCCGGCTCCGGAAGACACCTTCAAGTCCAGCCTGACCACGCCGGAATCACTGGACTTGTTCAGAGACATGCGGCGGGCAGTTGACAACGGCATGACCCACATGGTTATGGAAGTGTCATCCCAAGCCTACAAGAAGAACCGGGTCTTTGGCCTGACCTACGACCTGGGCTTCTTCCTGAACATCACCCCGGACCACATCGGGGTCAACGAGCACCCGAACTTTGAGGACTACCTCCACTGCAAGCTGCAGCTTTTGGTTAACTCCCGCAAGTGCATCATCAACGCGGAAACCGACCGTTTCGCTGATGTTTACGCGGCAGCAACGACCACGACCAACCCGGACAGCATCTACCTGTTTGCCCGGGACGGCTTTGAAAATCCGGATCTGAAGAAGCCGATCGACTTCCGCTACAAGTCCGTGGAAACTGACCTGGCTGAAACCAAGTTCACCTTGACTACGGCTTCAAGCAAGGCCCACAAGCTGCCAATCTCTGGTGAATACACTCTGCAGATGATCGGCGACTTCAACGAAACCAACGCTACCGGCGCCATCATCGGGGCTGGCCTGGCCGGGATGAGCTATGAAGACTGCGCCAAGGGGATCCGGCACGTGACCATCCCAGGCCGGATGGAAACCGTCACGACCCAAAAGCACGGCTTGATTGTGGTAGACTATGCCCACAACAAGGCCTCCATGCTGGCCTTGATGCGGTTCATGCGCCGGGAATTCACCAACCCCCGGGTTATCGTCGTGGTCGGCGCGCCTGGGGACAAGGGAATTTCCCGCCGGCCGGGCTTCAGTGAAAGCTTGACGGCGGAAGCTGACAAGGCCTACCTGACCACGGACGACCCTGGCTTTGAAAATGCCCAGGACATCTGCGAGGAAATCGATGCCGGGATCGACCACTCCAAGTGTGAAACGGTTATCGAACTGGACCGGGAGAAGGCCATCAAGGAAGCCATTTCCGAAGCTGGCCCGAACGACGTGGTCCTGCTCTGCGGCAAGGGGGCTGACGCCTTCCAGAAGATCCGCGGGGTAGACACCCCATATGCCGGCGATATTGTTATCGCCCGGCAGGTGGTCCAGGAATTAGAAAAGTAA
>SRR1919932_00964 two-component system sensor histidine kinase
TTGAAGCCTAAGCAAGACAAAGAAAAACAAGTCGTCCAGGGCAAGCGGCCCCGGGTCAAGCTGACCGCGGCTGAGAAGAGCGAGCTTTTTGCCGAAGGCGTGGTGACGGTCATCATCATGCTGCTCTTGAACATGTCCGTCATCATCCTCTACCATTTGGCGGTCCTGCAGGACAAGAGCCTGGTCAACGGCATTTATTTTTTGAAAAAAACCATGACGATCGGACCGGGCTACCATATCTGGTCCTGGGAAAGAATCGGGATCATTTTGATGGGGATCGCTGACGTCATCGTCTTGTACTGGCGCTTAATCCGCCGCTACCACCAAATGCAGCTGCGGCACATCATTTCCGAATTGCACTATATTGCTAACGGCCACTTTGACCACCGGATTTCCTTCAGCGTCAACAACGACATGCAGAAGGTGATCGATTCGATCAACTCCCTGGTCGACTCAACCGTGGGGGCGATCAATGAAGAAAAGGCGATCGAGCAGTCGAAAGACGAACTGATCACCAATGTTTCCCACGATATCCGGACCCCTTTGACCAGCATCATCGGCTACCTGGGCCTGCTGAAGAACGGGGCCGTGACCAGCCAGGAGGACATGCTCAAGTACATCAATATCGCCTATGACAAGGCTGAGCAGATGAAGTCCCTGGCCAATGACCTTTTCGAGTACACCACCTTGAAGTCGACCAAGACCAAGCTGAACGTGACCCCGATCAATATCAAGGGCATGATGGAGCAGGTGGCGGCCGGCTTTGAGCTGGAAGCGGAGAAGAAGGGCATTGCCTTTAGCGTCAAGGCCCGGCCGGATGACTTAATCGTCAACGCCGACGTGGAAAAGCTGATCCGGGTCTACAACAACTTGATCTCCAATGCCTTAAAGTACGCGGCTGGGGCCAGCCGGATCAACCTGGTGGCCAACCTGATCAACCACGAGCAGGTTGAGCTGCGGGTTGAGAATAACGGGGAACCGATTCCCAAGGACAAATTGAAGAAGATTTTTGACCGCTTCTACCGGGTGGAAAGCTCGCGCAATACCAAGACTGGGGGCACGGGCTTAGGCCTGTCCATCGTCCAGGGGGGCGTCGAGCTGCACGGGGGGACGATCCGCTGTGAATCAAACAAGGATTGGACCAGTTTCATCATTCTCTTGCCCCGGGATCCCCAGGCAAATCTTAGACCTGTGGTATAA
>SRR1919932_00965 two-component system response regulator
ATGAAAATTCTCGTTGTCGATGATGACCACGAAATCGTGGAACTCTTAAGCATTTATTTGAAGAACGAAGGCTATGAGCCGATTGCCGCCTACAATGGCAAGGAAGCTTTGACCAAGCTCTCAACCACGCCAGATATCGCCTTGATGATTCTGGACGTGATGATGCCGAACCTGTCAGGCATCGATGTGGTCAAGGAAGTTCGCAAGGATTCTGACATTCCGATCATCATCGTCAGCGCCAAGACCGGCGACATGGATAAGATCCAGGGCTTGATCACCGGGGCCGACGACTACGTTTCCAAGCCTTTCAACCCCCTGGAAGTCATGGCCCGGGTTCGGTCCCTTTTGCGCCGCAGCCGGAAGCAGGTCAAGGAAGAGCAGCCTGACGTTTTGGAAGTCGGGCCTTTGATCATCAACAAGGACTCCCATGAGGTCAAGACGGTTGAAGGCAAGGAAATCCAACTGACAGCCCTGGAATTCGGCATTCTTTACCTTTTGGCTAGCCACCCCAACCGGGTCTTCTCAGCTGATGAGATCTTCGAGCGGGTTTGGCAGCAAGAGTCCATTGTCAGCGCCAAGACGGTCATGGTTCACGTTTCCCACTTGCGGGACAAGATCCAGAAGGCCACCGACGGCGAAGAAGTCATCAAGACTGTGTGGGGTGTAGGTTACAAGGTTGAAGCCTAA
>SRR1919932_00966 multidrug ABC transporter ATP-binding and permease protein
ATGACTAAAAAACAAGCTCAGCAACCATCACAAATGCAGACCTTGACCCGCCTGCTGAAATACGTCTACCGGGTTAGCCCGGCGGCTTTGATCGTTTCCCTGGTCTCCGTGATCATCAGCGCGGCGGCTTCCGTTGTCGGCTCCTTGTTCATTGAACAGGTTATCGACCGCTACATCACGCCCATGCTCAAGCAAAAGAGCCCGGACTTTGGCCCCTTGGCTCACGCTGTTTTGCTCATGGCCGGCGTTTACGCCATCGGTCTGGTCGCCAACTACCTTTTCACCTTGCTGATGATGGTCTTGTCCCAGCAGGTGCAAAAGCAAATCAGAAATGAAATGTTTACCCACATGCAGCGGCTGCCGATCGCCTTTTTTGACCAGAACGAATACGGCGACATCATGTCCCGCTACACTAACGACATCGACACCTTGATGCAGATGATCTCCCAGGCCCTGCCGATGTTCGCTAACTCTGTCTTTTCAGTAGTCTTCGTTTTGGCGGGGATGTTCTACCTCAGCTGGCAATTGACCCTGGTTTCCCTGGTAGTGGTTCTCCTGTCCTTAGGCGTTGTCCGCTACTTGACCGGCAAGTCCAGCTACTACTTTGACCAGCAGCAGAAGACTGTGGGGACGGTCAACGGCTACAACGAAGAAATGCTTAACGGCTTGAAGGTCATCAAGGTCTTCTCCCATGAACCGGAAGCCAAGGCCGACTTTGACCGCTACAATGACCAGCTGCGGATTGCCTCAAGCAAGGCCAACACCTATGCCACCATCTTGTTCCCAATCATGGGCAATATCGGCAACCTGCTCTATGTCTTGATCGCCTTGATCGGCGGGGCGGCAATCTTAGCCGGCAACATTCCGCTGACCTTGGGGGCTCTGGCTTCCTTCATGCAGCTGTCCAAGGCCTTCATCATGCCGATCGCCCAGATTTCCCAGCAGCTGAACGCCATCGTTCTGGCTATTGCCGGGGCCCGGCGGATTTTCCAGGTCCTGGATGAAAAAGTTGAAGTCGACGACGGCCAGGTAACTATCGAAGAAAAGCCGGGCGTCAAGAATGCCTGGCAGTGGAAGCTGCCGACCGAAAACGGCTTTAAGTACGTGCCAGTCAAGGGTCACATCGTTTTTGACCACGTCAGCTTCGGCTATGTACCAGGCAAGCAGATCCTGCACGACATTTCCCTTGAAGCCAAGCCTGGCATGAAGGTGGCCCTGGTCGGGGAAACGGGGGCCGGGAAGACTACCATTTCCAGCATGATCAACCGCTTCTATGAAATTAATTCCGGAACGATCACTTACGACGGGATCGATATCAAGGACATCAAGAAGGATGACCTCCGCAAGTCTGTCTCCATCGTCTTGCAGGAAACTCACATGTTTACCGGCAACATCATGGAAAACATCCGCTTCGGCCGGCCTGACGCTTCAGATGACGACGTCTACCAGGCAGCCCGCCTGGCCCGGGCCGATGAGTTCATCCATGACCTGGATGATGGCTATGAAACGGTGATCGACGGGGGCGGCAGCGACCTCTCCCAGGGGCAGCTGCAGCTGCTCTCCATTGCCCGGGCCATGATCGCTGACAAGCCGGTCATGATCCTGGACGAAGCCACCAGTTCCATCGACACCCGGACTGAGCGCCTGGTGCAAGCCGGGATGGACAACCTTTTGGCTGGCCGGACCAGCTTCGTCATTGCCCACCGTCTGTCCACCATCGTCAACTCCGACTTGATCATAGTCCTGGACCACGGCCGGATCCTGGAAGCCGGCAACCACGACCAGCTTCTGGCCAAGCAGGGCTACTACTACGAGCTCTACACCGGCAAAAAAGAAATCCAATAA
>SRR1919932_00967 multidrug ABC transporter ATP-binding and permease protein
ATGCTTAAAACTTTATTGAAGTCCGTCCGCCAGTACAAAAAAGAGACGCTCTTGTCTCCTTTGTGCGTGGTCGTCGAGGTCTTCATTGAAATGTATATCCCATATATCATGGGGCTCTTGATTGACAACGGGATCAACAAGGGGGACATGGACTACGTGCGCAAGATGGGTCTGTTCACCATCCTGCTGACTCTGGTCTCCCTGGTCCTGGGGGCCAGTGCCAGCTACTTCTCAGCCCACGCGGCAGCCGGCTTTACCGCCAACCTCCGCCAGGACATGTTCTACCACATACAGGACTTTTCATTTGAAAACATTGACAAGTTCTCCAGCGCCAGTCTGGTGACCCGGCTGACGACCGACGCCAACAACATCCAGCAGGCCTACCAGATGAGCATCAGAATGGCCGTCCGGGCCCCGTTCATGATGATCATTTCCCTGTTCATGGCAGTTTCAATCAGCTGGAGACTGACACTGATCTTCCTCGTGGCTGTTCCGGTTTTGGCTCTGGCCATGATCTTGATCATTAAGAATGCCCGGCCATACTTCCCGAGAATCTTCCGGGCCTATGACGAACTGAACCGGAAGGTCCGGGAAAACATCCGCGGGATCCGGGAAGTCAAGACCTATGTCCATGAAGAAGAGCAGATCGAGAACTTTAAAAAGTCCACCAGCAAGATCTACAAGCTCTTCAGACGGGCCATGTTCATCATGGCCTTCAACGGACCGGTCATGACCATGATGATCGACGCTGTCATGCTGGCCCTGTCCTGGTTTGGGGCAAAACTGATCGTGGGCCATCAACTGGCAACCGGCCAGCTGGTTTCCATGTTCTCTTACACCATGTCCATCTTGATGTCCTTGATGATCCTGTCCATGATCTTCACCCAGCTGATGATGGCTCAGTCAAGCGGGCGCCGGGTGGCTGACGTCTTGACGGCCAAGCCAACTATTGTCAACCCGGCCAAGTCACCTTTGACCAGCGTGACCAACGGGGAAGTCGTTTTTGACCACGTTGACTTCAAGTACAACAAGGAAGATGCCCACTATGCCTTAAAGGACATTGACCTGCGGATCAAGTCCGGGGAAACTTTGGGGATTATCGGGGAAACCGGGTCTTCCAAGTCAACCTTGATTTCCATGATTCCTCGCCTTTACGACGTGACCGGCGGGGCAGTCAGAGTCGGCGGCCACAACGTGCGCTCTTACGACCTTAAGACCCTGCGCGACAACGTGGCGGTCGTTTTGCAAAAGAACGTCCTCTTCACCGGCACTATCAAGGACAACCTCAAGTGGGGGAATGAAAAGGCCAGCGACGAAGAAATCGTCTGGGCAGCCAAGATTGCCCAGGCTGACGGCTTTATCCGGGAAATGCCGGACGGCTATGACACCATGGTCGAACAAGGCGGCAACAATGTTTCCGGGGGGCAAAAGCAGCGGATCACGATCGCTCGGGCCCTGTTGAAGAAGCCGAAGATCCTGATCCTGGACGACTCCACCAGTGCCGTCGACACCAAGACTGAACGGGAAATCCGGGAAGCCTTGAAGCGGGACCTGCCGGAAACGACCAAGATCATCATTTCCCAGCGGATCGTCTCCATCAAGGATGCCGACCGGATCGTGGTCATGAACCACGGGAAGATCGAAGACGTCGGAACCCACGATGAATTGATCAAGCGCAACGACTTGTACTCATCCATCGCCAAGTTCCAAGAAGAAAACAGCAAGTAG
>SRR1919932_00968 membrane protein
GTGAGCGAAGAAAAGCAAGTTAAGAACGCTTCTCAAGCCGAGCTGCAAAAGCAGGGGCAGGCAGAAGCCAAGACGGAAAGCATCAAGCAGGAGAACCCGGAAGAACTCCGGGGGAAATTGTCCAACAAGAACAAGGACTACATCTACCGCTTGAAGAAGGAACTGGTTGCCGGCGGCATGAGCGAAGGCGACGCTGACGCCCAGATCGACGGCCTTTTGCCGGAAATCTACGACGCCCAGATCAAGGGGCAGCCGGCCAACGTTTTGTTTGGCGCCGCGCCTAAGCTGAAGGCCAGCCAGATCCTGCACCCGGTTGTTAAGCCGGAAAGGGTGCCGGACAAGCTGGTAGCCCTGGACGGGGCCCTCTTCTACACGGCCATGCTGACGGTTCTGTTTGGGGTCTTGCAATTGTTCACGGACAACAGCAAGTCCACTTCCTCCGGCTCCGGGATCCTGACCTTGATCGTGATGGGTCTGGCCATGGGCTGGTACTTCACCAAATACAACACCTGGATGCAGCCTAACCCGAAGACCGGCAAGCCGGCCTGGGGCAAGGTGATCTGGGGCCTTCTGGGGTCACTTTTGATCATCATGCTGATCGTCTTTGTCCTCTCAATTCCGGCCCTGTCCGTCATCAACCCGGTTCTGCCAGGCTGGGCTGACATCCTGGTGGCCGCAGCCGCTTACGGGATTCGCTGGCTGGTTCGCCGTCACTACGGGATTGAAGGGACTTCTCTCAGCCCGGACAAGCTGACCATGAAGAAAAAGTAA
>SRR1919932_00969 GTP-binding protein YchF
ATGGCTTTAACTGCTGGTATCGTCGGTTTGCCAAACGTCGGCAAGTCAACTCTTTTTAACGCAATTACCAAGGCAGGCGCGGAAATGGCTAACTACCCATTCGCGACCATTGAACCGAACGTGGGGATGGTTGAAGTGCCGGACAAGCGCCTGGCCAGAATCCAGGAACTGATCCCGGCCAAGAAGGTTGTCCACACGACTTTTGAATTCACCGACATTGCCGGTTTGGTCAAGGGGGCTTCCAAGGGTGAAGGCCTGGGCAACAAGTTCCTGGAAAACATCCGCCAGACCGACGCTATCGTGCACGTGGTCCGGGCTTTTGACGATGAAAACATCACTTCCGTCTCCGGCAAGGTTGACCCGGAAGAAGACATCGACACCATCAACCTGGAACTGATCTACGCTGACCTGGACTCAGTTGACCGCCGGATCGGCAAGGTGCAGAAGATGGCCCAGCAAAAGGACAAGGAATCCATGGCTGAATACAATGTCCTGCAAAAGATCAAGCCAGTTCTGGAAGCCGGCGACCCGGTCCGGTCCATCAAGTTCACTGATGACGAAGCCAAGATCGTCAAGGGCCTCTTCCTCCTGACTTCCAAGCCGGTCATCTACGTGGCCAACATCGCGGAAGAATCCATGGCTGATCCGGAAAGCGACAAGTACTACCAAATCGTCAAGGCCCACGCCGACAAGGAAGGGGCTGGCTGCCTGGGCATCTCCGCGGCTATCGAAGAAGAAATTGCCGGCCTGGACGATGAAGAAAAGGCAGAAATGCTGGCGGCTGAAGGGGTTGAAGAATCCGGTTTGGACCGCTTGATCCGGGCTGCCTACCACCTGCTGGGCCTCAGAACCTTCTTTACGGCCGGGGGCAAGGAAACCCGGGCCTGGACCTTCCACCAGGGCATGAAGGCGCCGCAAGTCGCCGGGGTCATCCACTCCGACTTTGAACGGGGCTTCATCCGGGCCGAAGTCGTTTCCTTCGAAGACCTGGACAAGTACGAAAGCATGCAGAAGATCAAGGAAGCCGGCAGAGTCCGCCTGGAAGGCAAGGAATACGAAGTCCAGGACGGCGACATCATCGAATTTAGATTTAACGTATAA
>SRR1919932_00970 hypothetical protein
ATGACTAAAAACATTACTTTTGACTTGGCGGACACGGTTGAAATGAAGAAGCCCCACGCTTGCCAGACCAACAACTGGGAGGTCCTGCGCCTGGGCGCCGACATCCGCTTGAAATGCATGGGCTGCGGGCACGTGGTCATGATGCCGCGGGCTGATTTCAACAAGAAGGTCAAGAAGCTCCTGGCCAAGAGCAATGATCCCGTCAACTTGAAGAACGATTTTTACGTGGCCAAGGAAGACATTGCCCGGCCAAATTTCGGCTAG
>SRR1919932_00971 chromosome partitioning protein ParB
ATGGCAAGAGACTCAAGAAATAAGAAACAGGAAAAGAAGAAGGGCGGCCTGGGCCGGGGCTTGGAGGCGCTTTTTGAAGAAGAACCCCAGGTAAAGCCGGCCGAAGAAATCGAAGACCTGCCTTTGGCAGAAGTCCGGCCCAACCCTTACCAGCCGCGGAAGAATTTTGATGAAAAGAAGCTGGCCGAACTGGCTGAATCCATCAAGGAAAACGGGGTCCTGCAGCCGATCATCGTCCGCCGGTCAGTCGGCGGCTATGAGATCATCGCCGGTGAGCGCCGCTGCCGGGCTTCCGAATTAGCCGGCCAGGCCACCATCCCGGCCATCATCCGCCAGTTTGATGAAAGCCAGATGATGGAAGTGGCCATCTTGGAAAACCTGCAGCGGGAAGACCTGACTCCTTTGGAAGAAGCCCAGGCTTATGAAATGCTGCAAAAGAACCTGGGCTTGACCCAGGAAGAGGTTTCCAAGAAGATGGGCAAGTCCCGCCCTTACATCACCAACTACCTCCGCCTGCTCACCCTGCCGCAGAAGACCAAGGGCCTTTTGCAAAGAGGGGAATTGTCCATGGGCCAGGCCAGAACCCTTCTGGGCTTAAAGGACAAGGACAGGATCGATGAACTGGCCAAGCGGGTGGTTAAGGAAGGGATGCCGGTCCGCAAGGTCGAGGCGCTGGTCGCCAAGATGAACGAGCGCGGGCAGAAGCAGAAGAAAAAGAATGCCGGCAAGTCAGCCTTCGTGCGGGCCAGCGAAAGCCAGCTGGCCGCCAAGTTCGGCTCGCCGGTAAGCATTACGGAAAACAAGACGGGGAAGGGGCACTTGTCAATTGACTTTGCTTCCCCGGATGAACTGAACCGGATTCTGGATTTGTTAGGTGTGAATCTCGATGACTAA
>SRR1919932_00972 chromosome partitioning protein ParA
ATGGGCAGCGTCATCGCAGTCGCCAACCAGAAGGGCGGCGTTGGCAAAACCACGACGACCATCAATTTGGCCGCTTCCATTGCTAAAAGAGGCTACAAGGTATTGATTGTCGACATTGACCCGCAGGGCAATGCCACCTCAGGCTTGGGGATTGAGAAGTCGACCATCGAGTATGATATCTACAATGTTCTGATCGATGAAATCCCGATCGCCTCAGCCATCAAGCCGACTAGCAGCAAGAAGCTGGACATCCTGCCGGCCACGATCAATCTGGCCGGGGCGGAAACCGAGCTGATCAGCATGATGGCCCGGGAAACCCGCTTGAAGGGGGCCATTGAAGACTTGGGCGACAAGTACGACTTCGTCTTTATCGACTGTCCTCCTTCTTTGGGGCAGTTGTCCATCAATGCCTTTACGGCCAGCCAGTCGATTTTGATTCCGGTCCAAAGCGAATACTACGCTATGGAAGGATTGAGCCAGCTGCTCAACACCATCCGCTTAGTCCAGAAGCACTTTAACAAGGACCTGGGCGTGGAGGGGGTCTTGCTGACCATGCTGGATGCCCGGACCAACCTGGGGGCCGACGTGGTCCAGCAGGTCAAGGAATATTTCGGCGACCGGGTCTACAAGACGATCATTCCGCGGATCACCAAGCTGGCTGAAGCGCCAAGCTACGGGGAGGCAATCACGGAATACGCGCCAAGTTCGCGCGGAGCCAAGGTTTATGATGACTTAGCAAAAGAGGTGCTGAAGGCTCATGGCAAGAGACTCAAGAAATAA
>SRR1919932_00973 chromosome partitioning protein ParB
ATGGCTTTTGGTTTTTTTCATCGAAATGAAATTCCCCAAAACAAGCAGGTTCAGGACCTGCCTTTAGCGGAAATCCATCCGAACCGCTACCAGCCAAGAAGGACTTTTAGCGATGATTCCATCCAGCAACTCGCCCAGACCTTGCAAGAAGAAGGGCTCTTGCAGCCGATCATCGTCCGCCAGGACCAGGGCGGCTACGAAATCATTGCCGGCGAGCGCCGCTTCCGGGCGGCCAAGAGCCTGGGCTGGGAAAAGATCCCGGCTATCGTGAACAATCTCGATGACCAGCAGACCGCTTCTTTGGCCTTAATCGAAAACCTGCAAAGGGAAAACCTGAATCCGATCGATGAGGCCCAGGCTTATGAGCAGCTGATGCAGCTCAACGACTTGACCCAGACCCAGCTAGCCCAGGATATCGGCAAGTCCCAGTCCTACGTGGCTAACAAGCTCCGCCTGCTCAAGCTGGCTGAACCTGTGCAAGAGTATCTGGCCAAAGGCGGGCTCAGCGCCCGCCATGGCCGGGCCATTTTGGGCTTAAGCGAAGAGGACCAGGTTAAATTGGCTGAAGAGATTGTCGAAAAAGGTCTCAGCGTGAAAGAGACGGAAGAGCGGGCGGCCAAGCTGGCCAATCCTAAGCCAGCCGTTAAGAAGAAGGCGGTGGTCCGCTATGGCCGGGACATGCAGCTGCAGATCAACACGATCAAGCAGGCGGTTAAACTGGCCAAGGAGTCCGGCGTGAAAGTCAAGGTTACCGAGGCGAAGAGCCCGGATGAGTACCAGATTACTATCGTGATGAAGAATCAGAGAAAGAAGAAGGAGGACTAG
>SRR1919932_00974 16S rRNA methyltransferase GidB
ATGAATCCTAAACTTTTTGCAGAAACATTGTCAAAATATAATTTTAAGTTGTCTCCTGTCCAAGAGCAACAATTTAAAACATATTTTAAGGAATTGGTCCGGGTCAATGAACACGTCAACCTTACCCGGATCACGGACGAAGACGAGGTCTACCTCAAGCACTTCTACGACAGCGTGACTCCGCTCCTGCTCTGGCCAGAGGTCTTTGCAGAAGGAGCCAAGCTCTGCGATGTCGGGGCCGGAGCCGGATTTCCGTCACTGCCGATCAAGATCCTCCGCCCGGACCTGGAAGTCACCATCGTTGACTCTTTAGGCAAGCGGCTGAACTTCTTGTCTGACTTGCTGGAGAAGCTTGGCATCGAAGGCGTGAACCTGGTGCACGGCCGGGCTGAAGATGTGGGGCAAAACCCGGACTACCGGGAGAAGTTTGACCTGGTAACTGCCCGGGCCGTGGCCAGAATGAGCGTTTTGAGCGAATACTGCCTGCCCCTGGCCAAAGTCGGCGGCAAGTTCCTGGCTTTAAAGGGGCCGCGGGCTGACGAAGAATTGGAAGACGCCAAGAGTGCCCTGGAGAAACTGGGCGGCGAAGTTGTCTTCAGCCGGGTCATCACCCTGCCAGGCAGCGCTGAAGAGCGGATCCTCGTCCTGGTTGACAAGGTCAAGGCAACTCCGGGCAAGTACCCGCGCCAGGCAGGCACGCCAAACCGGAAACCCTTGTAG
>SRR1919932_00975 CvpA family protein
ATGCTCTTAGTTATTTTCGTCATTCTCTACATCGCCTGGCAGACCTACAAAGGCTACCATGTGGGTTTCTCCAAGCGGATCGTCAATTTGATCTTCGCCGGTCTGGTCTTCATGCTGGCCATCATGCTGCAGAATCCGGTCGGCGACCTGATCTACACCCAGTTCGTCCAGGGGCAGGCGGGCGACTCCAGCCTGGTCCTGCATGCCTGCCGCTTCGGGGCCTTCTTCGCCCTCTTCTTCATCCTCAAGCAGATATCCAAGATCTTCAAGGCCTGGCTACCCGCCCAGGAGACCAAGACTGGTTTCACGGCCACTTTGGACCACATGGCCGGGGCCATCGTTTCTTTCGTGGCCTCCTACTTCTTCATGTACGTGGTCTTGTCCATCCTCAACTCAGTCGGCATCAGCCAGCTGAGCCAGCTGATCAGCGATTCACAGCTGCTCAGTTTCATCGTCAACGACACGCCAGGTCTGTCGACCGGGGTCTTCAAGACTCTCTTCAGCGTCAGCCGGACCACGGCCTAA
>SRR1919932_00976 thiamine biosynthesis lipoprotein
ATGGGAATCATCAAATACATATCAACTGACCAAGTCATGGCCCAGCACAAGGCCATGGGGACCCACATCAGCCTGCAGATCTACGGGGCAAGGGAAGACCCGGAAAAGATCCTGGACCAGACCAAGGTCCTAATCGACCACTTTGAAGACCTGCTGACGGTCAACCGCAAGCCGGACCACCCCCGCTACGGCCTGTCCGAAGTAACCCGGGTCAACGACCAGGCGGGCAAGGAGGCCGTGCAAGTCTCCAGCAGCGTTTACGGCTTGATCAAGCTGGCCGTTGAGACCAGCCGGGAAAACTTCGGCTTCAACGCCTTAATCGGCCCCCTGGTTAAGCTCTGGTCCATCGGCTTTCAGGATGCCCGCGTGCCAAGTGACGCGGAAATCCAGGAGAAAATGAAGCTGATCGACCCCTGGATGGTCGAATTAAATGACGATGACCACACGGCCTTTTTGAAGCAGGAAGGCATGGAGCTGGACCTGGGCGGGATCGCCAAGGGCTGGACGGCCGACCGGATCAGGGACCTCTGGCGGGCTTACGGGGTCGAAGCCGGCATCATCAACCTGGGCGGCAATGTCCTCTTCGTCAACCCTTGCCCGAAGCGGGCCAACGGGATGTGGACGGTAGGCGTCCAGGATCCTTTGAAGCCGCGGGGAGAAAACATCACGGCCATGATGATCCCGGAATGCTCCGTGGTCACCAGCGGGACTTACGAGCGCTTTTTGGAAGTGGACGGGCACAAGTACCACCACTTGATCGACTCCCGGACCGGCTACCCGGTGGAAACCAACATCGCCGGGGTGACGACCTTCACCAAGAATTCCGTTGACGCGGAAATCGAGTGCAAGCGCTGCTTCTTTGCCGGCCAGCCAATTGCCAACTGGGTCAATGACCGCCGCTTAGGCGCCATTTACGTGTATAACGATGAACGGGTGGAAAAAGTCGGCCTGGATTACTAA
>SRR1919932_00977 protein-tyrosine phosphatase
ATGGCAGAGGAGCTTTTACCCTTGAAAACAGTCCGCAATCCCCGGGACCTTGGCGGCTATACCGGCTTTACCGGCAGGAAGATCAAGGCCGGACTTTTGCTGCGGACCGGGACGGTCGCAGCGATCAGTGAAGAAGATGGCAATTATTTGCGGGCCCGCGGGGTGAAAACCATCATCGACCTCCGTTCTCCGCAAGAATGCCGCAAGCGGCCGGATAAAAAGCTAGCCGGGATCCAGAACGTCAATATCCCCGTTAACAGCCGGGACCAGACCAAGGCCGGAGCCAGCCTGGCGGAATTAGCCAGGCAGTACGGCCTAGACCCCCTGGCGGGCTTCCGCCATATGGTGGAGAGCTACCGGCTGATGGTGACGGAAGAGCACGCCCAGGCGGCTTTTGGCCAGGTTTTAGCCTATCTGGCTGAAACTGAAGGCGGAACTATTTATCATTGCTCGGAAGGCAAGGACAGGACGGGCCTGGTGACTGTCTTTTTGCTGACAGTTTTGGGGGTTGACCCGGAAACCATCCGCCAGGACTATCTTTTATCCGCTCCCTACCTTAACGGCTACCGGGCCAAAAGGGACAAGGAAGCCCGGGAAAACGGGGAAAGCCTGGTGCAGCGGGCCAACCTTAGGTCTCTGGGCACGGTCAACAATGAGTACTTAGACAGCGCCTTGATCACCATCGACCAGGAATATGGCGGCATGGAAGCCTTTTTGACCCGGCAATTGGGCGTAACGCCCGTCCTTCGTGACCAGCTCCGGGCCAAGTATCTAGAAGAGTAA
>SRR1919932_00978 NADPH-dependent FMN reductase
ATGAAATTATTAGCTATTGTCGGAACTAATGCCGATTTTTCTTTCAACCGTCTGCTCTGCCAGTTCATCGCCAAGCGCTTTGGCGATAAGGCGGAAATCGAAGTCGCTGAAATTGGCGACCTGCCAGCCTTCTACAAGGAAGGGCAAGCTGATGCCCGCGTTGCGGCATGGCGGGAAAAGGTTGACCAGGCTGACGGCTTGATCATCGCTACTCCAGAATACGACCACGCTATTCCAGCTGCTTTGAAGAGCGCTTTGGAATGGCTGGGCAGCCACGCTGGCAGCAAGGTTATGGCCTACAAGCCAGTCTGCGTTGTAGGCGTGTCCTTGGGCGGCCAAGGCGCTTCCCGCGCCCAGGAAGATGCCCGGGAAATTCTGCTGTCTCCGGACATGACGGCCAACGTTTTGCCAGGCAACGAATTGCTGATCGGCCAGGCTTACAGCAGCTTTGACAAGGAAAGCGGCGACCTGGTTGACGAAGCTTCAATCGCTCAGCTGGACAAGGTTATGGAGGCCTTCTTTGCTTTCGTTGCCCAAGCCAAGAAGTAA
>SRR1919932_00979 NADPH-dependent FMN reductase
ATGAAAGTTTTAGCTCTTAACGGATCTAACGCTGACAAGTCTTATAACGAAATGCTGCTGAAGTTCATTGCCAAGCACTTCGCTGATAAGTATGATTTTGAATTCGCGACCGTGAAGGGGTTGCCGATGTTTAAGGAAGGCCAGGAAGACCCGGCTGACGTGGCCAAATTGAGTGACCAAGTTGCCGCTGCTGACCTGGTTTTGATCGGGTCACCGGAACAACAGCACTCAGTAACCAGCGCTTTGAAGAGCGCCCTGGAATGGCTGTCAACCAACACTCACCCCTTCAACGGCAAGCCAGTCGTTATCGTGTCAACTTCACCGCTGGCCCAAGGGGGTGCCCGGTCACAGACCAAGCTGAAGACGATTTTGGCTTCCCCAGGCCTGCACCCGGTTGTCTTCAACGACGATGAATTCATGATGGGCGGGGCAGCTACTGCCTTTGACGAAAACGGTGATTTGAAGATTCCCGGTACCGTTGACTTCCTGGAACACTTCTTTGACGAAGTCGACGCCTGGTACGCACAAATCACGAAGTAA
>SRR1919932_00980 TetR family transcriptional regulator
ATGGCCAGAAGGAAAGAAATTGATCGCGAGCGAATATTGGACATCGCCTACAAGAAGGCCTTGACCGACGGGATCGAGAATCTGACTGCCCGCAGCATTGCCCAGACTGGCCACTTTTCAACTCAGCCGATCTATTTGGAATTCAAGAACATGGATGGCCTGCGCAAGGAAGTGCTTAAGCGCGTCTCCTGCACCTTGCGCGATGAAATCCTGCAGAAGAAATTTATTGGCGAGCCCTTATACGATGTTGACCTCTCCTACCTGCAATTTGCCCGCGACCACCGGAGCCTGTTCTCAACGATTTTCGTCAATGGGGAATTTGGTGACGACTTAATCCGCGATACCTTGATGGACCTGGGCCACACCAAGCTCCGCGAACAGTACCAGCGCGACCTTGACCCGGAACTGGAGAAGTGGCTCATCGCCCTCAACTGGATTATCGTCAACGGCCTGGCCGTAATGCTGGTCGATGGCCTGATTGACTATGACCAGGACAACTTCGTCCGGATCATCAAACGGCAGCTGGAAAGCCTTTTTGACCGCTGA
>SRR1919932_00981 asparaginyl-tRNA synthetase
TTGGACCACCGTCACCTCTGGCTGAGAAGCCGGCGGCCATTCGCCATCATGCAGATCAGAAACCGGATCTTCAAGGCCACGGTCGACTTCTTTGAAAACGAAGGCTTCGTGAAGTTTGACGCCCCGCTGTTGATGCACTCAGCGCCAGAAGGGACCACGGAACTCTTCCACATCGACTACTTCGACCACGATGCTTACCTGTCACAATCCGGCCAGCTTTACGGGGAAGTCGGGACAGAAGCCTTCAGCAAGATCTTTACCTTCGGGCCAACCTTCCGGGCGGAAGCTTCCAAGACCCGCCGGCACTTGACTGAATTCTGGATGATGGAACCGGAAATGGCCTGGATGCACCAAGATGAATCCCTGGACCTGCAGGAACGCTTCCTGTCTTACGTGGTTGGCCAGGTTTTGGAACACTGCGAATACGAATTAAGCATCCTGGGCCGGGACTTAGACAAATTGCGTCCAGCCGCTGAAGGCAATTACACCCGCTTGTCCTACGATGACGCGGTTAAGATGCTGCAAGAAGCTGGCAAGGACTTCAAGTGGGGCGACGACTTTGGCGCGCCAGATGAAGCCTTCCTGTCAGAACAATTTGACCGGCCATTCTTCATCGTTAACTACCCAGTAGCAATCAAGCCATTCTACATGAAGAAGAACCCGGAAAACCCATTGACTTACCTCTGCGCCGACGTGGAAGCGCCAGAAGGCTACGGGGAAATCATGGGCGGATCAGAACGTGAAGCTGACTACGACACCTTGAAGGCGCAAATCGAAGAAGCGGGCCTCAACTTGGACGACTACTCCTGGTACCTGGACCTGAGAAAGTACGGCAGCGTGCCACACTCCGGCTTCGGGATGGGCTTTGAACGGGTTATTGCCTGGATCTGCAAGCTGGACCACGTTCGTGAAGCTGTCCCATTCCCAAGAATGATCAACAGAATGCAGCCATAA
>SRR1919932_00982 DNA replication protein DnaD
ATGGCAAGTTACAATTTTTACCGGCAGCTGGGGGTGACCAGCATCAGCAATGGCCTGATTGCCTACTATGCCCGCCTGGGCTTGACTGAAGCGGAACTGGCCCTGGTCTTGCAGCTGGAAGCTTTCTTTCAAAGGGGAAATTACTTCCCCAGCAATGAAAAAATCGCGGCCAATACCAACTTCAGCGTCAGTGACGTCACCCTCTTGATCCAGAGCCTGCTGGACAAGGGCTGCCTGTCTCTTAGGCAGGCCAAGGACGCCAGCGGGAAGATCAGCAGCTGCTACAGTCTGGATGAGCTCTATGACAAGCTGGACCAGTATTTAGACCAGCATGTCCAGCTCAAGGACATGAACGGGGAAGTGCTAGAAGAAGCTAAAGACAGCTTGAATAACGATCCAATGAGTGACCTGGCCCGGGAGTTTGAGATTGAATTTGGCCGCTACCTGACCCCGATTGAGCGGGAGGAAATCCAAGACTGGCTGAATTTGGACCACTACGCCCCGGAGATTATCAAGTTGGCCCTGCGGGAAGCAGTCTTGTCCCGGGCGATGAGCTTCAAGTATGTTGACCGGATCCTGCTGAACTGGCAAAGAATGAATTTGAAGACCGCCAGCGAGGTCCAGCAGTATCTGGAGAGAAACCGTTAG
>SRR1919932_00983 endonuclease III
ATGGAAAAAGACGAAAAGCTCTTGAGTGATGAAGAAGCAAGAAATGTTTTGAAGCGGATTGACGCCATGTTTCCGGAAGCAAAAGGGGAGCTGAACTGGGACAACCGCTTCCAGCTTTTGTGCGCGGTCCTGCTCAGCGCGCAGACGACAGACAAGATGGTCAACAAGGTGACCCCCCAGCTCTTCGCGGATTTTCCGACCCCGGAAGCCATGGTGGCGGCCAGCCAGGAGGAGATCGAGGCAGATATTTCCCACCTGGGCCTCTATCATTCTAAAGCCAAGCACCTCAAGGAAATGGCCCAGACCCTGGTCGCTGAATATGGCGGCCAGGTGCCGGGCAAGAAGGAAGACCTGGTCAAATTAGCCGGGGTTGGCAACAAGACGGCCAATGTCGTTTTGGCTGAAGGCTGGGGGGTTCCGGCAATCGCGGTCGACACCCACGTGTCCCGGATCGCCAAGAAGTTCAAGATCGTGCCGGAGAAGGCAACGCCTTTGCAGGTAGAAAAGCGGCTGGAGGAGCTGCTGCCAAAGGATGAGTGGATCCATACCCACCATGCCATGATCTTCTTTGGCCGCTACAAGATGCCTGCCCGGGCCAAGAACCCGGATCCCTACAGTTATTTAGATTAA
>SRR1919932_00984 haloacid dehalogenase
ATGATAAAATTGATTGCCTTCGATATGGATGAAAGCTTCATGCCGCGGAAGGGATTTTATGAACGTGAGCGCTGGGCACGCGATTTTGACCTGCTGCGCGCAAAAGGCATCCGCGTCTTGCCTATTTCGGGAGACCAGTACCAGCAAGTAGCGGACTTCTTCCCGATGAAGGATGAAATGACGATTGGCGGCTTGAATGGTTCGGTGATTTTTGAAAAGGGCCAGCTGATTAAAGCAGACGAGATTGACCGGTCCATGGTTCAAAAAATAATGCAAATAATTGCGGAAAACGGCCTGGCACAACGGACCATGCTCTGCGGGATCAACTATTGTTATTTCTTGGAACAGGCTGATCCGGCTTTTCGCGAAAGAATGAATTTTTATTTCTCGCATAATCAGAATGTATCTAGCTTCCTGCCTTTGCCTGATGACAAATTCACAGAAATCGTGATAGTGCCAGGCACTGGCCGCATGGACGAAACTGAGGAGAAGCTTAAGGCAGTCTGCGCGGAAAAACTGCAGATTTTTAACTCGGGAGTAGCCAGCATCGACATTCTGCAGCCCGAAGTGTCAAAAGGTAATTCGCTTAAATGGCTGGCAAGCCGCTATGATCTTTCGCCTGAGGAAATCATGGCTTTTGGTGATGGCCTTAACGACATTGAAATGCTGAAATTCGCGGGCCATTCCTACGCGATGAAAAATGCCCGCGAAGAGGTCAAGGAAGCAGCCAAGTTCGTAACAAAACTGCCGGCTGCGGAGAATGGCGTCCTGGACACGATTGAAAAAGAAGTTTTGGGAATGTAA
>SRR1919932_00985 esterase
ATGGAAATTAAGAAATGGTCTTATCCGGATTTTCCGGAATACCAAACCGACTTGCCAGACGTAAAATGTATCGACAGTACCGGTGATGAAGTCAGAGTCCTCTACCACCCAAACGTTGAATACGCAGATTATGGCGGACAGAAACTGACCTTGCAGGTCTTGGAGCCATCTACACGGAACCATCCGGATGACTTGACTTACCCGATCTTTGTTTACGTCCAAGGCTCAGCATGGATGAAGCAAAATGTTTACCGCGACCTGCCCCAGATGGCAAAAATCGCCGCTCTTGGCTATGTTGTTGCGGTTGTTGAATACCGGGGCAGCGACGTGGCTTCCTTCCCGAAGCCGATTCTTGATGCCCAAAACGCCGTACGCTTCATGAAGCTGCACGGGCCCGAATACCAGGGCGACCCAAAGCGGGTTATTTTAGCGGGCAATTCTTCTGGCGGTCATACTGCCGTTTACGCCAGCTTTTTCCCGGAAGGTGAAGACAATCTCTACCCAGATGTTAACGCCAAAGTAAGTGGCGTGGTCGACTTTTACGGCTCCGTCTCCGTCATGCGTGAAGACAGCAACCCAACAACTATCAACCACTTGCAGGCTGACAGTCCGGAAGGGATCGAAATGGGCCATGTTGACTTAAGAGAGAATTCTGACCTGCGCCGGAAACTGTCAGTTGAGTGCAATATCAGCAAGGATACCGACATTCCGCCAGTATTGATCATTCACGGCACGAAAGACCGGACGGTCAACACAATCGGCAGCACTGACCTTTATCTGAAATTAAAGGAGTGCGGCAAAGAAGCCTCCTACATCTTGATCAAGGGTGCTGACCACGGCGGCGGAGAATTCACCTCCCCAGCTGTTTTAAAGGAACTGGATGCTTTCATTAAACATGTTTTAGCCTAG
>SRR1919932_00986 D-lactate dehydrogenase
ATGACTAAAATTGCCATGTATAATGTCAGCCCGATCGAAGTGCCTTACATTGAAGACTGGGCTAAGAAAAACGATGTCGAAATTAAGACGACCGACCAGGCCTTGACCAGCGCGACTGTAGATTTAGCTGAAGGGTGCAGCAGCGTTTCCCTTAAGCCACTTGGCCCGGTTGACGAAGAAGTTGTTTACCAAAAATTGAGCGAATACGGGGTCAAGTGCATCGGCCTCAGAATCGTTGGCTTCAACACCATCAACTTCGACTGGACCAAGAAGTACAACTTGCTGGTCACCAACGTTCCGGTCTACTCCCCGCGGGCGATCGCTGAAATGACGGTTACCCAGGCCATGTACCTCCTGCGCAAGATCGGGGAATTCCGCTACCGGATGGACCATGACCATGACTTTACCTGGCCAAGTAACTTGATCAGCAATGAAATCTACAACTTGACTGTCGGCTTGATCGGGGTCGGTCACATCGGCAGCGCCGTGGCAGAAATCTTCTCAGCCATGGGGGCCAAGGTCATCGCCTATGACGTGGCTTACAACCCGGAATTTGAACCATTTTTGACCTACACCGACTTTGACACGGTCTTGAAAGAAGCTGACATCGTCTCCCTCCACACTCCCCTCTTCCCATCAACGGAAAACATGATCGGGGAAAAGCAGCTGAAGAAAATGAAGAAGTCTGCCTACTTGATCAACTGTGCCCGGGGCGAATTAGTCGACACTGGAGCCTTGATCAAGGCCTTGCAGGATGGCGAAATCGCCGGTGCCGGCCTGGACACTTTGGCTGGGGAATCCAGCTACTTTGGCCACACTGGCCTGACGGACAGCGAAATCCCAGAAGACTACAAGACCCTGGCCAAGATGCCAAACGTTGTCATTACTCCGCACTCAGCCTTCTACACGGAAACTTCCATCCGCAACATGGTGCAGATCTGCTTGACTGACCAATTGACCATCGCCAAGGGCGGCCGGCCAAGAAGCATCGTTAACCTGTAA
>SRR1919932_00987 dipeptidyl aminopeptidase/acylaminoacyl-peptidase
ATGGACGCAATTAAAATTGAGGACTTTTTGCACTATGCCAACCTGGGCAAGCTCAAGGCCAAGGGTCAGAACCTTGTCTGGGTCAAGGGCCTGCCAGATGCCAGCAAAAAAGACAAATACCTCTACACATTAGAGACCTTGCAAGACGGGCAAGTCAGTCCCCTTAGCTCCTTTGGCCAGGAAAGAGACTTCGTCTTTCTCGATGAAAACACGGTTTGCTTTGCCGGCAACCGGACCAAGGAAAAGGACAAGACCTTTATCTACCAGCTTTCTTTAAAGGGCGGTGAAGCAAGGGAAATCGCTGCTTTAGAAGGAGAAGATTTCGCGCTTGAAAATGTCTTAGCAGACGGCCGCCTGCTCCTCAGCCGGCGGGTTGACTTGCGCGAAGCTGAGAAAAAGCAGGATCCGGATGAAAAAGACTATGTGGTCTTAGATGAGTTCCCGGCCTACTTCAATGGCGACGGCATTATTTCCAAGTTCCGCGACCGCCTCTTTCTTTTTGACCCCGACAAAAAGGAGTTGACCGAACTCTTAAAAGATGACCCATACTTCAACTTTGACTTCCACTATGTCGATGGCACTGACCTCTACTTCACCGGGGATTCTTACACTCAATCCAAGGCACGCAAGTCCGCCCTCTACAAGCTGGACTTAAACAGCCTGGAATATTCTCAGCTTTTGCCAAAAGAAGAGTGGTCAATTTTTGACATCTGCGTCTTAAAGGGCCAGCTCTACCTGGTGGCCACTGATGAAAAGCGCTATGGCTCGGAAGAAAATCCTCAGTTTTACAAGTATGACCCGGAATTCAAAACCCTTTCTTTGGCCGCGGCTTGGGAAGACTGCTGGGGCAACTGCGTAGACACCGACCTTTGCCTGTTGGACGTGCGGACCAGCCGGGTCTTTGAGGACTGCCTCTACTTCACCACGACTAAGGTCGACCACACGGTATTGGAATGCTTTGACGGCGAAAAAGTTACTCCTGTCTTTGAATTTCCTTCCATCGAATTCTTTGACTTTACCAGTGACGGCACTTGCTGGTTTACTGGTCCAAATGCCAACGAGACCCAGCAACTTTACAGCTACAAGGACGGCCAGCTGACCAAGCACTCTAGCTATAACGAAGATGCCTTAAAGGGCCGCTATGTTGCTTCCGCCGTTCAAGTTGACTATCAAGACTATGCCGGCAATACCCAGCATGGCTGGGTTCTTTACCCGAAAGACTTTGCTGAAAAGCAAAAATATCCGGCCATCCTCGATGTCCACGGCGGGCCAAAGACAGTTTACGGGACCCCCTTTTTCCACGAGATGCAGGTCTGGGCAAGCCAGGGCTACTTTGTCTTCTTTGCCAACATCTACGGCTCTGACGGCCAGGGCAACGACTACGCCAACATGCGGGGGCACTGGGGCCGGGAAGACTACGAGGACTTGCTGAAGTTCACGGACGCTGTTTTGGCAAAAATCCCGCAAATTGACGCCGGCCGTCTGGGCATCACTGGCGGTTCATATGGCGGCTACATGACCAACTGGGTGATCGGCCATACTGACCGCTTCAAGGCTGCCGCCAGCCAGCGGTCCATGTCCAACTGGCTGAGCGATGCCTTTATGTCAGACGTGGGTCCTTGGGATGACCTTTACTCCATTGACGCAAATAACTTGGATGAGAAGCTGGACTATGCCTGGCAGCAGTCTCCTTTGAAATATGCCAAAAACGTGACCACGCCGACCTTGTTCATCCACTCTTTGGAAGACTACAGATGTCCTTTGCCGGAAGGAATGCAGATGTTTCGGGCCCTGCTCTACTACGGGGTGGAAAGCAGAATGTGCCTCTTTAAAGGCGAAAACCACGAGCTCTCCAGAAGCGGGCAGCCAAAACACCGGATCCGCCGCTTAAAAGAAATTACTGCCTGGTTTGACCAGCATTTGCGGTAA
>SRR1919932_00988 penicillin-binding protein 1A
ATGGCAACAAATAGTCCAGAGCAAAAGAACACGCGGATGGCCCGCCTGCACGCCAATGACGGCGCCAAGAAGGCCCGGCCCGTTCTGCGGGTAATTAAATGGCTTTTTCTGCTCTTTTTCTTGCTGATCATCTCCGGCGTCGGCGTCTTCGCCTACTACGCCAAAGACGCCCCGAGCATCAGCACCTCCAAGCTGCAAAGCGGCGGCACATCAAGTTTTTACACTACCGACGGCAAATTTTTAATGTCACTGGGTTCACAGACCCGGGTCTATGCTAAAGACTCGGCCATCCCCCAGACTTTGAAAGACGCGGTCGTCTCTATCGAAGACAAGCGCTTCTACTCTGAAAGCCTGGGGATCGACCCCCTCCGGATCGTGTCGTCTTTCTTGACCAACGTCAAGAGCTCCAGCACCGTGGCCGGCGGGTCAACCATCACCCAGCAGCTGGTCAAATTGACCTGCTTCTCAACCGCCAGCTCCCAGCGGACCCTGTCCAGAAAGGCCCAGGAAGCCTGGCTGGCCATGAAGGTGGAAAGAGAATACAGCAAGGACCAGATCCTGGAATTTTACATCAACAAGGTTTACATGAACTATGGGACCTACGGGATGGGGACTGCAGCCAACTACTACTATGGCAAGTCCCTCAAGCAGCTGGACCTGGCCCAGCTGGCCCTTTTGGCCGGGATGCCTAACGCCCCGGTGGCCTACAACCCTTACCTTTACCCAAAGAAGGCTAAGTACCGGCGGGATCTGGTTCTTAAGGCCATGTATGACAACAAGAAGATTACTAAGAAGCAGTACCTGGTAGCCAAGGCTGAAGACGTACAGAAGGGCCTTAAGAAGCACACGACCAGCACTGAATCCAAGCTGCGCAAGGTCGACGACGCCTACATCAAGGAAGCAATTGCTGAAGTGCAGGCTAACGGCTACGACCCATACAATGACAACCTGAAGATCACCATCAACATCAACCAGGCTGCCCAAAACAAACTTTACTCCCTGGCTAACAGCGGCAGCGTTGCTTTTACCAGCAAGAAGATGCAGATTGGGGCCACGGTCATCAACCCGAAGAACGGACATGTTATCGCCATCCTCGGGGGCCGGAAGTTGCCGTCAGTCCAGCTGGGTCTTGACCGGGCAGTCCAGACAGGCCGGTCAACCGGGTCAACGATCAAGCCGGTCTTAGACTACGCTCCGGCAATTCAATACCTCAACTGGGGAACCAGCCACATCCTGCAGGATACCAAGTACACCTACCCGGGCACTAATATCCAGCTTTATGACTGGGACAACACTTACCAGGGGTCAATGAGCATGCGCTATGCCCTGGTTCAGTCCAGAAACGTGCCGGCCGTCAGAACCTTGAATGAAGTCGGGATTTCCCGGGCCTCACTTTTTGCCAGAAAATTAGGTGTTAACGTCAGTGCCAATGCTGGTCTTTCAACAGCTATCGGGGCTGACGCCTCCAGCTTGCAGATGGCGGCTGCTTATGGGGCATTCGCGACGATGGGCGTTTACAGAAAGCCGCAATTCGTCTCCAAGATCGAAACGGCTGACGGGCAGGTCCGCAAGTATAACTCTGCTGGCAAGCGGGTCATTAAGAAGGCAACTGCCTACATGATCACCGACATGCTCAAGGGCGTCTTCACCAGCGGGACCGGGACCACGGCCAAGGTCAGCGGGATCTACGAGGCCGGTAAGACCGGTACGGTTAAGTACTCTGACTCCGACCTGGTTAAATACCCAAGCTACAGCTCAACGCCAAAGGATTCCTGGTTCGTTGGCTACACCAAGCAGTATTCAATCGGAATCTGGACAGGCTATGACAATTTGAAGGACGGGACGATCTCTGGAGTCGGCCAGTACTCAGCCCAGCTGATCTACAAGTACATGATGTCCTACTTGATGGCTGACGAAGACAGCACAGACTGGGAAATGCCAGCAACGGTCGTCAAGAAGCGGATTGTCAAGAATACTGAAGACAAAGTAGCCTCCCCTGGCCAGCCCTACACTTGGGAACTCTTTGTCAAGGGGCATGCGCCGACTGACGCTGACTATGTCTCCTCAAGCAGCGATACTTCTACTGCTTCCAGTTCAGCCGTGACTTCCAGCGTCAAATCAAGCTCAAGTTCCAGCTCCTCGAAGAGCAGCTCGAGTTCCAGTTCAAGCGAGAAGTCCTCATCTTCATCCAGCTCTTCAAGTTCAAGCGCGGCTTCATCAAGCTCGGCAGCTTCTTCCAGCCAGAGCAGCGAGGCGCCGAAGACTGAAGAAAATAAGCGAGACAAAAATAATGATGACAAGCAGGATAACTAA
>SRR1919932_00989 recombination protein RecU
ATGGTCAAATACCCAACTGGATCTGTCATGCCCCTCAGGGCAGCTCAGCGGCAAGGAGAAAAGGCCCTGCTTAAAAAGGCCAGCTTTTCTGACCGCGGGATGACCCTGGAGCAGCAGATCAATGAATCAAACCAGTACTACCTTGACGCGGGCATCGCGGTCGTTCACAAGAAGCCGACCCCGATTCAGATCGTCAAGGTCGACTACCCAAAAAGATCGCGGGCTGTCATCCGCGAGGCCTACTTTCGTCAGGCCTCAACGACTGACTACAACGGCGTCTATCAAGGCTACTACCTTGATTTTGAAGCCAAGGAGACGCGCAACAAAACTTCTTTTCCTTTAAAGAACTTTCATGAGCACCAGATCCTGCACCTTGAGCAGTGTTTGGATCAGGAGGGGATTTGCTTTGCCCTTATCGGCTTCATGACCCTGGAGCGCTACTTTGTCACCCCGGCATCTTTTTTGATTCAAGCTTGGCAAAACTGGAAGGCTGCCGGCAAGAGTTCCATGACTCTTGCTGAAATCGAAGCTAACTCCTTTGAAATTAAAAGCGGATTCTGGCCAGCCCTGCCCTATTTAGAGGCGGTCGACCGGATCATTGCGGATAGGAAACAAGAACATGGCAACAAATAG
>SRR1919932_00990 hypothetical protein
ATGCAGCGAATTTGGATCAGCGGCTACCGGGGCTATGAACTGGGAACTTTTGGCGACAAGGATCCAAAAATCACGGTGATCAAGTATGCCATCAAGCAGCGCCTGACCAACCTGCTGGAAGAAGGGCAATTGGACTGGGTCATCACTGGCGCTAACCTGGGCGTTGAGCAGTGGAGCGCGGAAGTGGCCCTGGAACTAAGGCAGGACTATAACCTGCGCCTGGCAGTGATGCTGCCTTATCTTGACTTTGGCAGCCGCTGGAGCGAAAACAACCAGCTTAAGCTGCAGAATTTGAAAAATCAAGCTGACTTCTGGTCCGCAACTTCAAAAGGACCCTACCAGGGCGGCCGGCAATTCCGGGAATACCAGCAGTTTATGTTCCAGCACACCGACCGGGCCCTTCTGGTCTATGACCCGGAATACCCGGGCAAGAGCAAGTATGACTACGAGATGATCGAAAAATACCTGGAAAAGCGGGATGACTACCAGCTGGACCTGGTCGATTATTATGACCTGGAACAGGCCGCCAGGGATTATGAAGAAAATCAAAGGGAATGGTAA
>SRR1919932_00991 cell division protein GpsB
ATGGCAGATTTAAACGATATTAAGTTGTCCGCGCAGGACATTTTGAAGAAGCAGTTCAGAAGCAAGGTCAAGGGCTATGATCCGGATGAAGTTGATTCTTACCTGGACCAAATCATTTCCGACTATGAAACCTTCCAGGACATCATTGAAGACCTTTACGGCCGGATTGGGGAACTGCAGGGGCAGGTAATCGACGCTGAGAAGCAGGTTAAGCAGGAAGAACAGGCCGTCAAGGAAATTCCGGCAGCCGGCCCGGCACCAGCAACTACTGAAAGCAAGGGAGAAGACGTTAAGACCTACGTGCCAAGCTCACAAAGGCAGCGGGCCAACTTCAGCCTGGATAACAGCAGCACTAGCGGCGAAATCTCAACTAACATGGCAATAATTCAAAGACTTTCAACCTTGGAGCGGAAGGTCTACAATCTGGAACAAAGAGTTTACGGAATTCAGGACTTACAAAAGTAA
>SRR1919932_00992 RNA methyltransferase
ATGGAAGAATACCGATTGTACACGACCATGGGGGCGGGTTTTGAAAGCGTCGTGGCCAAGGAACTGCAGTCCTTGGGCTATGAAACGACGACGGAAAACGGCAGGGTCTTTTTTAAAGGCGGCCAGAAAGACATCGTCAGATGCAATTTGTGGCTCAGAACAGCTGACCGGGTCAAGATCCTGTTAAAGGAATTTACGGCTAAAGATTTCTCAACCTTGTATGATGAAACTTACGCTTATGACTGGGCCATGCTTTTGCCAGTCGACGCGACCTTCCCAGTCAAGGGGCGCAGTGTCCGCTCAAAGCTGCACTCTGAACCGGATGTGCAGTCCATTGTGAAAAAAGCCATCGTTGACAAGATGGCGGCCCAATACCACCGGCGGGGCAAGCTGCCGGAAAGCGGCAGCCTCTACCAGCTGGACGTGCACATTTACAAGGACACTGTCCGCCTGTCGCTGGACACGACCGGGGAAAGTCTTTTCAAGCGGGGCTACCGGATTGAGCACGGGGGAGCGCCTTTAAAGGAAAACTTCGCGGCATCTTTGATCAAGCTGACGACATATGACGGGACCCATCCATTTATTGACCCGATGTGCGGGTCAGGGACCCTGCCAATTGAAGCAGCCTTGATTGCCCGCAATATTGCCCCGGGCACTTGGCGGAAGTTTGCCTTTGACGACTTTGACTGGTTTGACCCGCGCCTGCACGAAGAGCTGCTGAAAGAAGCCAAGAGCCAGGTTAAGCCAGCTGAAGCGCCAATTTGGGCCAGCGATATCGACCAGTCGATTCTGGAAGTAGCCAAGCTGAATGCCCACAACGCCGGGGTCTTGCAGGACATCCGCTTTAAGCAGGTCGCGGTCAAGGACTTTACCACCGATCTGGAAAACGGGGTCATCGTTTCCAACCCGCCATACGGCAAGCGTTTGAAAGACAAGCAAGGGGCAGAAGAGCTTTACCGGCAGATGGGGGAAGTCTTGCGGCCGCTGACTTCTTTCAGCCAGTACTACTTGACGGCGGACCCGGATTTTGAAAAGTGCTTCGGGCAAAAGGCCAGCAAGAAGCGCAAGCTCTACAATGGTAACCTCCGGGTTGACTACTACCAGTTCTGGGTCAAGCGCAAGTAA
>SRR1919932_00993 3',5'-cyclic-nucleotide phosphodiesterase
ATGAAGACGATTACGGATAGTGAACGGCCAGACTTCTGGCTGATCTCAGATCCCCACTTAATTGCCGATGACCTGCATGACTTTGGCGCCAGGTTTAAAAAGATGCGGCAAACCAGCGCTGGCAAGGACATTGCCTACCAGGACCTGGCTCTCAGGGCTTTTGTCAGAAAAGTTGTCAGGGCCAAGCCGGCAGCCTTGATCATTACCGGGGACTTGACCTTTAATGGAGCCAGGCGGTCAGCTGAAAGGCTGGGGGAGATTTTTGCCCCCTTAAAAGAAGCGGGGATTGCCTTGCTGGTTATTCCGGGCAACCATGACATTTATGACGGCTGGGCCAGAAGTTTTAGTGGCAGTGAGGAAAGACGGGTTGCGCAAATTTCACCGGCTGACTGGAAGGAAATTTTTTCCGCCAGCTATGACTTAGCCGCAAGCCAGGAGCCAGGCTCTTTATCATATTCAGTCAACTTGAACCCGCACTGGCGGCTGCTTTTGCTGGACTCCAACCTGTACAGCAGTAAGTTTTCCTGCACCCATCCTATGACCAGCGGGGCCATCGATGATGGGGAAAGGCGGTGGCTGAGCCAGGAATTGGTTGAGGCCAAAAGACTGGGACAAGACGTCCTCTTTTTCATGCACCATAACCTCTACAGTCATAATTCAGTGGTTCATGACGGCTTTAAGCTGAATAATGCCGGTGAAATTGTCCAGCTGCTCAGTCAGTACCCGGTCCGCTGCGCTTTTTCCGGCCATATCCATGCCCAGCACATCATGTCCGGCTGGGTTCCGGTTCCCGAGGTTGTTTCATCCTGCTTCGCGGAAAGCGACCAGGGCTATGGGATAGTTGAGCTGACTGCTAATTCCCTCAGCTACCGGCGCCACGCTTTTGACATTGACAATTTTTTAACGGCTGAAGAGAAAAAGCTGCCGCCTTTTGCGGATTTTCATGCTTATCTGAAGGAAGTTTTTGACCGGAGCAATAACCTGCTTCTGCGCCAGCACCTGCTCAAGGGAGCAGCAAAGGACCTGCCGGAAGCCGCGGAAATGCTCAAAAAGATGCACTGGGACTTTTTCACCGGGCAAAGCTATAAGAGTGAAGCCGAGATCGCGGCAATTTATGAATCAAGCGCTTACCGAACTTTGTTGGCAGCCATGCCCAGCATGAAAAGTTATATCAGCTCCCTTTACGAGAGCACCCAGTCAAGTCAAAAGTTAGATTTGACCTGGTGA
>SRR1919932_00994 hypothetical protein
ATGAAAAAACATTTGATCTTTTTAGGAGACCTTGGCGTCATTTATTACAGCTGGCTCTTGCTGGTGCTTTTCCTGACTGTGATCTTCTGTCTGGAGGGCAACCAGTTCATCAACCTGCCGACTGTGATAACGGGCATCATCTTCCTGCTTCTGCTTGTTTTTACATGGAAAAAGTCCTACATTTCTTTTGACGGTCAGACGCGCTTGCGTTTGCCTTACCGGAAGGAGTTCGTCCTAGAGGAAAAACCAGAATTGGTGACTAGTTGGCGTGGCTTTGAGGTCTACCGGGTGCGGGTTTCCAGGCATCAAAGCACTGATTATCTTGTTTTTAAGAGAAAGCGTGACAAAAATGGTTAA
>SRR1919932_00995 formate--tetrahydrofolate ligase
ATGGTTAAATCAGATATCGAAATTGCGCAAGCAGCAGAAGAATTGCCTATTACTGACGTTGCGGCCAAGCTGGGCTTGACCAGCCAAGACCTTGAACCATACGGCTACGACAAGGCCAAGGTCAACTGGCAGGCAATCAAGCGTAGTGAAGAAAACGGCCACCTGGGCAAGCTGATCTTGGTGACTTCAATTTCACCAACTCCAGCCGGTGAAGGCAAGTCCACGATGACGATCGGGATCGGGGATGCCATCAACAACCAATTAGGCAAGAAGACGGTGATTGCCTTAAGAGAACCATCCATGGGACCAGTCTTCGGGATGAAGGGCGGGGCTGCCGGCGGCGGCTATGCCCAAGTCATTCCAATGGAAGACATCAACCTCCACTTTACCGGGGACATGCATGCCTTGACCTCAGCCATCGACAACCTGTCAGCCCTGGTTGACAACTACATCTACCAAGGCAACGAACTGGGCCTGGACCCGGAAAAGATCGTCATTAAGCGCGGCCTGGACGTTAACGACCGGATCTTGCGAAAGGTAACGATTGGCCAAGGATCCAAGTTCAACGGGGTTGAACGCCCGGCCAGCTTCCAGTTGACTGTGGGTCACGAACTCATGGCTATTCTCTGCCTGTCCAAGGACATTGCTGACTTAAAGGAAAGAATCGGCAAGGTTCTGGTCGGCTACACTTACGAGGATGAACCAGTCTTTGTCAAGGACCTGGGCTTCCAAGGCGCCATCGCTGCCCTTTTGTCAACGGCCCTGAAGCCAAACCTGGTTCAAACTTTGGAACACACTCCAGCCTTCGTACACGGCGGACCTTTCGCCAACATTGCCCACGGCAACAACTCAATCCTGTCAACCAACCTGGCTCTGCACCTCGGCGACTACGTTTTAAGTGAAGCCGGCTTTGGTTCAGACCTTGGCGGGCAAAAGTTCCTGGACTTCGTTTCCACCAAGCTGGAAAAGAAGCCAGATGCCGCCGTTGTTGTTGCGACTGTCCGGGCCTTGAAGTACCAGGCTGAAAAGTCAACTGACCATTTGAAGGAAGAAAACCTGGACTCATTAAAGGAAGGTTTTGCTAACCTGGACCGGCACATGAACAATGTCCGTTCATACAATATTCCAGTTTTGGTGGTTATCAACAAGTTCCCAACTGACACTGAAGCAGAGCTTGACCTGCTCAAGTCATTGATTGAAGAACAAGGCTTCCCATGCGAAATCGTGACTGCCCATGATGAAGGCTCCAAGGGGGCTAAGGCAGCAGCTGAAAAGATCGTTGAACTGGCCGACAAGAGCGACTACGAAATCAAGCGCAGCTACGACCTGGATGACGACCTGGAAACCAAGATTGAAAAGGTAGCCAAGCGGATCTACCACGCGTCTGACGTGGAATACACGGACAAGGCCAAGGACCAGCTTGTAAAATTGAAGAAGATGGGCAAGGACAAGCTGCCAGTCATCATTGCCAAGACCCAGTACAGCTTTACTGACAATGTCAAGGAATTGGGAGCTCCTACCGGCTTTACTTTGCATGTCAAGGGCTTGAGCCTCCGCAACGGGGCCGGCTTCGTGGTAGTTTCAACTGGCCACATTCTGGACATGCCAGGCCTGCCAAAGCACCCGGCCGCCTTGGATATTGATGTGGACGAAACCGGCAAGATCAGCGGTTTGTTCTAG
>SRR1919932_00996 lipoprotein signal peptidase
ATGCAGATAGTTGGATTAGTGATCGCTGCCTTGATCGCGGCAGCTGATCAAGCTTTGAAGTATTATATTGTCACAAATTACCGTTTGGGCGAAGTCCACGACGTGATGCCGGGGCTGTTCTCCTTTACCTATATTCAGAATAACGGGGCGGCCTGGAATATCTTGTCCGGCAAAATGTGGTTCTTTTACGTAGTCAGCTCTGTTGCCATTGCCGTAGTGCTTTACTACTACTTCAATAAGAAGTACAGCCACTGGATGTTCAAGTCGGGCCTGGTTCTGGTTTTGGGCGGGATCATCGGCAACTTGATTGACCGCCTGCATTTGAAGTATGTCATCGACATGATTCAGCTGGACTTTGTGCAGTTCAATATCTTCAACCTGGCTGATGCTGCCATTACCGTTGGCGTGATTCTGATCTTCAGCTATCTGTTATTCATTGAAAGGGAGGACTAG
>SRR1919932_00997 ribosomal large subunit pseudouridine synthase D
ATGAACCGTGAGTATGAACTGACCGCGGAAGAAAGCGGCCAGCGGCTGGACAAGTATCTGGCAGGGGAAATGACTGACCTGTCCAGAAGCCGGATCAAGGAATTGGTCCAAGCCGGGGAAGTCCTAGTCAATGGCAAAAAGAGCAAAGTTTCATATAAAGTGCAGAAAGGTGACCTGATCCAGGTCACCGTTTTGCCGCTAGAGCCATTAAAGCTGGAAGCGGAAAATATTCCACTGGATATTGTCTATGAAGACGAAGACATCATCGTGGTCAACAAGCCGCAGGGGATGGTGGTCCACCCGGCCGTCGGCCACCCCAGCCACACTTTGGTTAACGCCTTGCTCTACCATACCAGGGATCTGGCCGACAGTCCGGAAGGCTTCAGACCCGGGATCGTTCACCGGATCGACAAGGACACCTCGGGCCTCTTGATGGTGGCGAAAAACGCGGCTGCCCGGGAATCACTGGAAAAGCAGCTGGCCGCCAAATCCAACAAGCGCCAGTACCTGGCCATCGTCCATGGCAATTTTGCGGAAGAAGAAGGGACAATTGACGCCCCGATCGGCCGCAATCCCAAGGACCGCAAGCAGATGGCGGTGGTGGAAAAGGGCAAGAGCGCGGTAACCCACTTTAAGGTCCTGGAGCAATACCAGGGCTACAGCTTGGTTGAGTGCCAGCTGGAAACCGGCCGGACCCACCAGATCCGAGTCCATATGGCTTATATCGGCCACCCTTTAGCAGGCGACCCCTTGTATGGACCGAGAAAGACCCTGCCCGGCCATGGCCAGTTCCTGCATGCCAAGACCCTGGGCTTTGAGCAGCCATCAACAGGTGAGTGGCTGGAGTTCTCCGTCCAGCCGCCGGAAATTTTCCAGCAGACGGTTGCAGACTTGCGAAAGAAGCGGGTGAAATAG
>SRR1919932_00998 carbamoyl phosphate synthase small subunit
ATGAAACGCCACCTTATTCTTGAAGATGGCAGCTCTTATGCCGGTGACGGCATCGGGGCCATGATCACCGCCACGGGCGAATTGGCCATCCAGACCAGCAATTACGGCTATCAAGAGGTTTTAACTGATCCGTCAAACGCGGGCAAGATTATCGTCTTTACTACTCCGATGATCGGCAGCAACGGGATCAACGCGGTTGACTACGAAAGCATCCAGCCCAGTGTCCGCGGCGTTATTGCCAACGACATTGCCTTGAACATTACCGACAATGACACCTTCCAGTCTTTGGGCGACTTTTTGCAGGAAAAAAAGGTGCCGGCAATTTTTAACGTTGATACCCGGGCCCTGGTCAGAAAACTGCAGAATCTGGGTCCTTTAAAGGCCTCGATCATGGATACCAATGATGAACACGCCTTTGACCAGATCAGAGCCCTGGTTTTACCGAAAAACAAGAGCTCCTTGGTTTCCACCAAGAACGCCTATGCTGCTCCTAATGTCGGCAAGACGATTGCCATTATCGACCTGGGCCTCAAGCACTCCATGCTGCGGGAACTATCATTAAGACAGGTCAATGCCAATGTTCTGCCATATAACGCGACTGTCCGCGATATCAAGACCCTGCGGCCAGACGGGATTATTATCTCTAACGGCCCCAGCCAGGCCAAAGAGGTTTTGCCATACTTGCGGCAGATTTTGGATGAATATCTGGGCAAGCTGCCGATCCTGGGGGTCGGCCTGGGCTTTTTGGCGATTTCAGCCTACCTGGACCTCAGCCTGGTTGACCTACCCCAGTACCAGAACGGGACCAATTTCCCGGTGATCGGGCAGAGCAGCGGACAGATCTGGCAGACGGCCATGAATATTGGCCAGCTGGTTTTGCCGGATGACACGGCCATGACCTTTAATGAAGAGTATTTCGACCTGCACAATGAGCTTTTAGCCGGCTTCAGCAATGATAAGCTGCAGCTGCTGGCGGTGGCCTTCAACCCGGAAGGAGCCCCGGGGACGGAAGATGCCCAGGTGATTTTTGACGACTTTTTGAAACTGGTGAAATAA
>SRR1919932_00999 carbamoyl phosphate synthase large subunit
ATGCCACGCGAAAATGATTTAAACAAAATCTTGATTATTGGTGCCGGCTCAGCCCTGGTGGGCAATGTGGCCAATACGGACCTCTTGACCAAGAGCGCCATCGAGGCCCTCTTAGAAGAGAATATTCAGGTGGTCCTGGTCAACCCCAATCCAGCCAGCGTCTCAACCGACCCCTTACCGGGCTTGACCGTGTACCTGGAACCGATGACCTTGGACTTCTTGAAGCGGATCCTCCGGATGGAAGAACCTGATGCGATCATGACGGCTTTTGGTTCCTTGATGGCCCTGGACGTGACCAAGAAGCTGCAGGCTGACGGAATCCTCCACCAGATGGGGATCAAGCTGTTAACGATCAATGAGAGGGCCATTTCCATGTCCAACCCGCAAAAGCGGACCCGTTTCTTGGAAGCCAATCATCTGCCAGTCGGGCAGACCTGGTTTTTAGACAGCCTGGGTTTAAAATACGACGAGCACCTGCAAGAGCAGTTGGAAAACAAGCTCTCTTTCCCGATTCTTTTGATCAAAAAGTACTACTTTGAGCGCGATGACCACATCTCCTTTAAGAGCAGCCGGGATTTAGCACAGTACCTGCGCCAGGAGAGCCAGGACCGGGACTTCCGCCCGGCCAGCTACCGGATGACGGAAGACTTGTCTAATTGTGAAGAGGTCATCTTGGACCTGCTCCGTGATGAAGACGGCAACCTCTGTTTTGTCGGAGCGACTGGGTCTTTGGAACCGGTCGGGATTGACTCAGGCGACTCAGTCTTGATTAAGCCGCTTTTGACCATGAACAATGACCAAATTCAAGTCCTGCGGGCAGAAGCTGGCAAGATAGCGGACAAATTGCAGCTGGTCGGCTTTTTAAGCGTCCACTTCGCCATCAGCCACCGGGGTACGGAAATGGTCTACAAGCTCTTGGCCGTTAAGCCACGCTTGACCAGAACCGCCGTCTTGGACCAAAAGACCAGCCTGTATTCAATCGGCTATGTTTTAGCCAAGCTGGCGATCGGGCTGCGGCTGAATGAAGTCACTGACCCGGCCACTGGCCTGTGTGCGGCCATTGAACCGGTCTCTGACACCGTCAGCATCAAGATCCCTTACTGGTCCTTTGCCAAGACCGGCTACAACCACTACCAGCTGGGCAAGCACACCCAGTCAACTGGGGAAGCGGTCGGGATCGGGCGGAATTTTGAAAGTGCCTTTTTCAAGGCCTTGATTTCTAGCAATGATCTGGAAGTCTTGTGGTCAGCTTTTATCAAGGAAAGGGGCAAGAGCGATGAGGTGATCCTGGAAGACCTTCGCCACCCTAACGAAATGCACATGGTCCAGCTGCTGGCTGCCCTTAGCCAGGGTATCGACTACCAGTCCATAAGCAGCGTCTTGAATATTCATCCGGTCTATTACCAGAAGCTGCGCTACCTGGTCAAGATTGGCAGGGACATTGCCCATGCGGGTGAATTAGACCATGACCTCCTTTTAAAGGCCAAGATCCGGGGCTTCTCCAGCGACCTTTTGGCCAAATTGACTAAGATGGACGTCCATGACATATTTCCTTTGCTGAATGAAAAAGACGTCCGGCCATCATTCTCGGCGATTGATGACAGCGCCGGGGTCTACCAGCCCAAAGTCAAGGTCTACTACCAGAGCTACGGGGTGGAAAGCGAACTGGAATTTTCCAAGGATCCGGAGAAGAAAAAGGTTCTTTTGCTGGGGATGCCGCCCTTCCAGGTGTCAGTAACCAGTGAATTTGACTACATGCTCTACCATGCCCTGGCGGCCTTGAAGAAAGAGGGATATGAGACGGTCCTTTTGTCCAACAACGCGGAATCTGCCTCGATGGACTACCACTTGGCTGACCGGGTCTATTTTGAATCGATCAACCTGGACAGCATCATCACCATCTGCGAAGAAGAAGGGATCACGGACGTGGTCACCCAGTTCTCCGGCAAGCAGGTTTCCGCCTTGCGCCTGCCTTTGGTGAGCCACGGTTTGAAGATTTTTGGCCAGCACGAGATCGACCGCCTTTTGCCGATCAGCCACTTAGACACGGCCAAGATTTCTGAGGTCAAACGGGTGCCATATTTGGCAACGACCGACTACCAGGCAGTTTTAGCCTTTGTGGCCCGTGTGGGCTATCCGGTCTTGGTCGGGGGCTATCACCAAAAGAGCAAGCAAAAGTCAGCTGTGGTCTATGACCAGCCGGCCCTGGAGAAATACTTTCGGGAAAACCAGGTTGATGATTATACGATTTCCCAGTTTATCTCGGGGATGAAGTATGAGATTACGGCGATCACGGATGGGGAAGACGTGACTATCCCGGGGATCGTGGAGCACTTGGAGCAGTCCGGGTCCCACGCCTCAGACTCCATCGCGGTTTTTGGCCCCCAGTATTTAAGCAAGGAGCAAGCGGAAAAGCTGCGGGTAGAAACAATCAAGCTGATCCGCAGCTTCAAGATCAGAGGGATCTTCAACCTGCACTTTTTGCTCAAGGGCAGGGAAATCTACCTGCTTCAGATCAAGACTTATGCCGGTCATAATCTGGCCTTCTTGTCCAAGTCTATGAGCAAGGACCTGGTTGAATACGCGGTTAAGGTCTTAGCGGGCAGAAAGATTGCTGATTTAGGCTACCCGAACGAGGTCTGGCCGGTTGACGAGTTCATCCACGTGAAGATGCCAGTCTTCTCCTACCTCAATTACAGTTCAGACAATACTTTTGACTCCAGGATGAAGTCCTCTGATGCCGTGATGGGCAGAGACAGCCGCCTGGCCAAGGCCCTTTACAAGGGCTATGAAGCCAGCGACCTGCATATACCAAGTTATGGGACGATTTTCTTCTCAGTCAGCGATGAGGAAAAGCAGGAAGTAGCCAACCTGGCCAAGCGCTTTGCCCGCCTGGGCTTCAAGATCACGGCCACGGAAGGGACCGCCAATATTCTGGCTGAGGCGGGGATTACGACCGGGGTTATCGCCAAGATCCAGGAGGGGTCTAGAAACCTTTTGGAAAGAATCCAGACCCACCGGATCGTGATGGTGGTTAATGTCGTCAACCTGTCGGACTCGGCAGTGGAAGACTCGATCAAGATCAAGGACCAGGCCCTGAATACCCATATTCCGGTTTTCTCCAGCCTGGAAACAGTCCAGTTGATCCTCGATGTTCTGGAATCGCTGGCCTTGACTACCCAGCCAATTTAA
>SRR1919932_01000 hypothetical protein
ATGAGAGCAATTTTGACAACTGTCGGCCAAGACAAGACCGGAATTATTGCCGGCGTAAGCAGCTTTTTAGCTGAAAAAGACATTAACATTCTGGACCTGTCCCAGACGATCATGAACGGCTACTTCACGATGATGATGGTCGTTGATGTCAGCGATGAGGCAGATTTCTCCGCCTTGGGCACGGAATTGAAGGAACTGAGCAAGAAACTGGGCGTGGAAATCAACATCCGGAATGAAAAGATGTACGCGGCCATGCATGAACTGGGCGGAGGTCTGGAATAA
>SRR1919932_01001 hypothetical protein
ATGGACTTGCGGCGGATTATGGAAACGGTCAATATGATCGACAACGAGAACCTGGACTTGCGGACGACGACCATGGGGATCTCACTTTTAGACTGTATTGATTCAGACAGTGACCGGGCCTGCCAGAAGATCTACGACAAGATCACGACTAAGGCGGAAAACCTGGTCAAGGTAGCTAGAGAACTGGAAACTGAATACGGGATTCCGATTGCCAACAAGCGGATTACTGTAACCCCGATTTCTTTGATCGCGGCAGCTTCAGGGGACAGCGACTACGTTAAGTACGCGGTTACCTTGGACAAGGCAGCCAAAGCAGTCGGCGTGGACCTGATCGGTGGCTTCTCAGCTTTGGTGCACAAGGGCTACCAAAACGGCGACCGGGTCTTGATCAAGTCAATTCCCCAAGCTTTAAAGGAAACTGAAAGAGTCTGCTCCAGCGTCAATGTCGGCTCAACCAGAAGCGGGATCAACATGGATGCCGTCAAGGAAATGGGCCAGATCGTCATTGAGAACGAAAAGATCAACCCGCTGAACAACGGCAACCTGGTCATCTTCTGCAATGCGGTTGAAGACAACCCGTTTATGGCCGGGGGCTTCCATGGGGTCGGCGAAAGCGATGTGGCTTTGAATGTCGGCGTATCCGGCCCTGGCGTGGTTAAGACGGCCCTGGAAAAGGTTAAGGGCGAATCTATGGACGTGGTTGCTGAGACCATCAAACAGACGGCCTTCAAGGTTACCAGAATGGGCCAATTGGTGGGCCAGGAAGCTTCTAAGCGCCTGGGCGTCGACTTTGGGATCGTGGACTTGTCTTTGGCGCCAACTCCTGCCCAAGGCGACTCGGTAGCCAATATTTTGGAAGAAATCGGCCTGGAAAGCGTGGGGACCCACGGGACCACGGCCGCTTTGGCCATGTTAAACGATGCTGTCAAGAAGGGCGGCATCATGGCCTGCAGCCATGTCGGCGGTCTGTCTGGTGCCTTCATTCCTGAATCAGAAGATGCCGGGATGATCGCGGCAGCTGAAAAGGGGATTTTGACGGTCGACAAATTGGAAGCCATGACCGCTGTTTGCTCAGTTGGTCTGGACATGATTGCCGTACCAGGCGACACGCCAGCTGAAACCATCAGTGCCATGATTGCTGACGAAGCGGCGATCGGGATGATCAACAACAAGACCACGGCTGTCCGGGTTATTCCAGTACCGGGCAAGGACGTGGGCGACTCAATTGAATTTGGCGGCCTCTTCGGCTATGCCCCGATTATGCCTGTTCACAAGGAATCAAGCGCGGCGATGATCAACCGCGGCGGCCGGATTCCAGCCCCAGTGCACAGCTTTAAGAACTAA
>SRR1919932_01002 fibronectin-binding protein
ATGGCTTTTGACGGCTTATTTATTCATAGCCTGCTTAATGAATTACAAGATGAGATTACTGCTGGCCGCTTACACAAGATCTACCAGCCTTTTAACAACGACCTGGTCCTGGTCTTCAGGAAGGACCGCAAAAACAAGCAGCTTTTAATTTCTGCTAATCCTGAATATCCCCGCCTCTACCTGAGCAAGGAGTCCTTCTCCAACCCTAACGTGGCTCCTCTCTTCGTCATGGTCCTGCGTAAATACCTGGAAGGGTCAGTCCTCCAGGAAATCAGCCAGGTTGGCCTTAGCCGGATCGTCAACTTCTCCTTCAGCAACCGTAACGAACTCGGTGACGAAATACAGCTGATCCTCTCCGTTGAACTGATGGGCCGGCACAGCAACGTCATCCTCTATGACAAGCAAAGCGGCAAGATCATCGACTTGCTAAAGCGGATCAACCCTGACGAAAACCGGGCCCGCCTCCTCTTGCCTAAAGCCAAGTACGAATTGCCCCCGCTGACTCCCGGCATCAACGGCTTTACTTTAACGGAATCAGAATTTTCTTCTTTGAAAAAAGAATACCCAACCCCAGCTGACCTGGCCAAGCAAATGGACGGTCTAGATGGCGATGACCGGCAAGAACTGACCGGCTACTTGGAAGACGACTACTCCTTCTCTTCTCTGAAGACCTTCTACAACCAGTTCTCCTCCCCTAAGGCCTACGTTCTCGTGACGCCAAAGCACAAGCGGCGGATCTACCCTTACCTGCCATATCATTTGGAGATGACCAAGGAAAGCTCCTCCACTAACTTAAATGAAGCCTTAGACGAGTTTTACGCCTACCAGGCCAACCGGGACTGGGTCAAGCAGCGGTCCCAGCAGGTGACCCGGGTCGTCACTAATGAGACCAAAAAGCTCCAAAAGAAGCTGAAGAAGCTGGAAAAGCAGCTGGACAGTGCTGAAAACTCCGAAAATCTCAGAGTCTCCGGGGAACTTTTAACCGCCTACTTAAGCCAGGTTAAGCCCGGCATGGAAAAAATCGACCTGCCTAACTACTATGAAGGCAACCAGCCCATGACCATCAAACTTAACCCGGCCCTCTCCCCTCAGCGCAATGCCCAGAAATACTTCAAGCGCTACAAAAAGATGCGGGATTCCATCAAACACGTGACCGAACAGATTGAGATCACGGAAGAAAACCTCCGCTACCTTGATTCCGTTCAAACGGAAATCGACAACGCTGACCCAGAAGACGTCGAAGCCATCAAGGAAGAGCTGATCAACCAAGGTTACCTTAGAGCTGATCAAAAAAAGCGCCGGAAGCCGAAGCTGACCGAAAAGAGCCTAAACAAGTTCAAGCTCAGCTCCGGCAAAACTGTTTTAGTCGGCAAGAACAACCTGCAAAACGACTGGCTGACCCTGAAAAAGGCCGACAAGAACCACTACTGGTTCCACGTCAAGAACATCCCCGGCTCCCACGTTATCTTGACTGACAGCCAGCCAAGTGACAGCGACATCCAGGAAAGCGCGGAGATCGCTGCCTACTTCTCCAAGGCCAAAAATTCCGCCCACGTGCCGGTTGACTATATCCAGGTCAAGCGGATCAAGAAACCTAACGGGGCCAAGCCTGGCTTCGTCGTCTACACCGGGCAGAAGTCCATTGAAGTTACCCCGGAAGCTGACGAGATTTTAGCTAAGCGGATTGACTAA
>SRR1919932_01003 thioredoxin reductase
GTGGTTTTAGTATATTTTCGAAAGGAGATCTCGCTTATCAAACAATATGATCTTGCCGTGATTGGCGCTGGACCAGTCGGCCTCTTCGCGGCCTACTTCGCCCGCCTGCATGGCTTAAAGACGGTTATCCTTGAATCCTTGAACGAGCCTGGCGGACAGCCGGAAATGCTCTACCCCTTCAAGAAGATCCTGGACATCCCTGTCTTCAATGAAATCACCGCGGCTGACTTAACCAAGCGCCTCTTAGCCAACTTAACCGACCAGGACCTGGTCACTGGCCACAAGGTCAGCCAGCTGGAGAAAACTGACGAATTTGTGATCGATGGCGAATACCAGGTCCGCAGCATTATCGTCGCAACTGGCAATGGGGCCTTTAAGGCCAAAAAGTTCCCCCTCAAGGCGACCCCGGAAGCTGAAGACCACATCCACTACTTTTTCAAAAATCCTGACCTCTTTGCTGGCCAGAAGATCGGCATCTTTGGCGGCGGAGACACGGCCTTAGACTGGGCCCAGGAACTTTCCCAAATCGCTGACGTCACCCTCGTTCACCGGCGCGACCAGTTCCGGGGCATGGAAAGCAGCGTGGAAAACTTGAAGGCTGACCAAAAGGTGACCTTAAAGACCCCCTACCTGCCAAAGAGCATGCAGGTCGAAAAGGGCCAGCTGGAAATTTCCTTGAAAAAGGTTGGCGGAGATGAAGTCACTCAAGAAACTTTTGACCAGATCCTGGTCGCCTACGGCTTCCGGGCCGACAACCGCTTCGTCAGCAAGTGGGGGGTTGACCTGGACCAGGGCTTGATCGCCGTTGACCGGTCCATGCAGACCAGCGTGCCTGGCATCTATGCCATTGGCGACTCCTGCGGCTACCCGGGCCGGGTGCCAGTTATCGGGATTGGTTTTGGGGAAGCCCAGATCGCGGTCAACGCGATTATGCAGGGCCTCTTCCCGGAAAAGAGCCTGACCATCCACTCAACCAGTATCTAG
>SRR1919932_01004 DedA family protein
ATGCCACTGATTGACTTTATCCTGCACATCGATGACCACTTGGTGACCATCGTCAACAACTTTGGGGCAGGAACCTATTGGATCATTTTTGCCATCATCTTTATCGAAACCGGTTTGGTCATCTTCCCCTTCCTGCCAGGTGACTCCTTGATCTTTGCGGCAGCCGCCATGGCCGCCAACCCGAAATACGTTTTAAATGTCTGGCTGCTCTACATCGTTGCTGCCGCTGCCGCCATTATCGGTGACAGCATCAACTATGAAATCGGCAAGTGGTCAGTCACTTCCGGGGCCAAGCACAGCTGGTTCAACAAGCTGATCAATGAAAACAACCGGCTGGCAGCGGAGAAGTTCTTTGAAAGACATGGCTCCATCACCATCGTGATCGGCCGTTTCATCCCCTTCATCCGGACCTTCGTGCCTTTCATTTCCGGGGGCAGCAAGATGCACTACCAGACCTTCGTTATTTACAACATCCTGGGTGGACTGCTCTGGACGGCCCTCTTTACCAGCATCGGCTACTTCTTCGGTAACTTCCCAGTCGTCAAGGACCACTTCTCCTTGATCGTGATCGGCATCATCCTGGTTTCAGTCGTGCCTATCCTGGTCGTGGCCTTGAAGAAAAAGCTCACCATGCGGCGCGAGCGGCAATTCAATGATTAA
>SRR1919932_01005 membrane protein
ATGAAAAAATTCCTAAGCAAGCTGGGCCAGCCCCTTTTCCATTTCTTTTTCGCGGTCTCCAGCGCTGTCGTTGGCGCGATCGTAGTCAGCTGGCCCTTGCTTTTGCTTTTTACCTTGCTGGAGAAGACTTACCAAACGGTTAACTTGACCGTGGGCCAGGTCATGAATAACTATAACCAGCTCCTGCTTTACCTGGTTTGGCCTGGACAGACCAAGCTGCAGATGAGCAACATGCCGACTTCGGCTTCAGCGGCTGCTCACTTTGCCGATGCCAAAAATCTTTTTATTCTGGCCGAGCTGGTTTTCCTGCTCTGCCTGGCTCTCAGCAGCTATTTCCGCAATTACAAGAAGCCGCTTAAATTGACCCAGACCCAGGCCTTGCTCTTGATGCTGCTGCCAATTGTGGTCATGCCTTTTGCCTTGACCGACTTTGACAGTTTCTTCCGGGTCTTTCATACTTTCTTTTTCCGCAATGACAACTGGCTCTTTGACCCGGCGACTGACCCGGTCATCAACGTGCTGACGGAAGGCTTCTTTGCCTCCTGCTTTGCGGTTGGCGGAGCGATTTACGAGCTCTACCTGGCCCGCTATTTGCTGAAAAAGTAA
>SRR1919932_01006 HAD family hydrolase
GTGAAAGATTACCGCTTATTTTTGATTGATTTGGATGGGACCATTTACCGGGGCAAGGAGACCATTGAATCCGGCGTCCGCTTTGTCAAGCGCCTGGATGAGGCAGGTCTTGATTACTTATTTTTGACCAACAACACGACCCGGACGCCCCAGATGGTAGCTGACAAACTGGCCGGGCACGGAGTCAAGACCGACGTTTCCAAGATCTACACGCCCAGCATGGCCACGGCCAGCTATATTTTGGAAAAAGAGGCGAAAAGGCCAATCGGCGTCTACATCATTGGCCAAATTGGCCTGTGGAAGGAGATCCTGGACCGGCCGGAATTCTATTATGACGAGGAAAATCCTGACTACGTGATCGTGGGGATGGACACGGACTTGACCTACCACAAGCTCATGGTTGCCACCCGCTGCATTCACCGGGGAGCGGTCTTTATCGGCACCAATTCCGACCAGAACCTGCCGGTGGGCAAGGAGCTGCGGCCAGGCAACGGTTCAATTTGCGCGGCTCTGGAAGTCGCGTCCGGGCAAAAGCCCCTTTTTATCGGCAAGCCGGAAGCCATTATTGTCAACCGCGCCCTGGACTTGGCTGGGTTCAAGGCGGAAGAGGCCTTGATTGTCGGGGACAATTACCCAACTGACATTATGGCCGGAATCAACAGCGGAGTCGACACCCTCTTGACCTTGACCGGGGTGACGCAAAAGGCAGACCTGGCCGGTCTCACTCCGCCGACTTATTTAGTGAACGATTTGGATGAATTTAGCCTATGA
>SRR1919932_01007 transcriptional regulator
TTGAGGAAAGAGCAGAAAGAGCTGAAAAAAGATAAGGGCAAAAAAGAGCAGAAAACAGAGGCAGCTGAAGCTAAGCCCCTCCACCCCCTGGCAGAGGTGGTGGTTGCCGGCGAAAAGGTCGTGATCAATCAGCGAGAATACCGCCTTTTGGTCAACCAGCGGGATGCTTTAGACCGGGAAGTTTTGAAGCAAAAGTACGATCCATACCTGGACCAGTATGATTATCTGGTCGGGGATGTATCCAGCGACCACCTCCGCCTCAGGGGCTTTTACAATGACTATGTCAAGACATCCATTGACCGGAAAAAGTCGACGATTGTTGACTACTTGACTGAATACTGCAACCCTGGCGCGCCTTACTTTATCCTGGAATCCCTCCAGCCCAGCCGTAAGCCCTGGCCGACCCAGCGCCGGCGGCCAGCCAGAAAGCGGCCGAAGAACAAGGCGGCTTTTAGCGAAAGAAAGGTCAAGGACGGCCGGCCCAAGAAGGGCAGCTATGCTGAAAGCTGCAAGAAGAACCGCCGCCACCAGGCCTTTGTGATTAGAAAGAAGAAGCCGTGA
>SRR1919932_01008 5'-nucleotidase
ATGGAAACTTTGCGGATTCTGCATACCAACGACTTGCACTCGCACTTTGAGCATTTTCCAAAAATCAGGCGCTATTTGAAGCAGGTGCAAGAAACGGCGGCTGCTGACCAGGTTTTGACTTTTGACGCCGGCGACTTCATGGACCGGTCCCATCCCTTGTCTGATGCTACAGAGGGCCAGGCCAACATCCGCTTGATGAATGACTTTCACTATGACGCCATCACGATCGGCAACAATGAGGGGATTTCCAACCCGCATGCCGTTTTGGAACGGCTTTTTGACCATGCCAACTTCCCGGTCCTCTTGTCAAATCTCAGAGAAGAAGACGAAAGCTGGCCGGCCTGGGCCAATGACTACAAGATCATCAAGACCAAAAAGGGCACCCGCCTGGCCTTGGTGGGTCTGACGGCCGCTTATCCAATGACATACGGTCCCAACCACTGGCATATCAAGATGCTGGGCGAAACTATGGACCGGGTCCTGCCGGAAATTGCCGGCCAGTATGACTGCTTGATTTTGCTGACTCACGTGGGCCTCAGAATGGATCAGTGGCTGGCCAAGCACTACCCGGAAATCGACCTGATCGTGGGCGGACACAGCCACACCCTTTTGGAAAAAGGGGTCAAGGAAGGCCGCACCTGGATCACCCAGACGGACAAGTGGGGCAATTATGTCGGCGACATCAGCCTGGAAATCGGCGATGACCACAAGATCATTTCGATTAAACCAACTACCGTGCCGGTAGCTGATTTGCCAAGCCAGGCGGGCGATGAAGCAGAAATTGCCGCCTTATATGAAGAGGGGCAGAAGATGCTGCAGAGCCGGCAGGTGGCGGACTTGCCAGAGAAGTTCAAGGATGACAAGCTGGCCGCGATCGACGTCTCCCTGGAAGCGATCGCTGACTTTGCCGGTACCGACCTGGCCATGCTGAGCACCGGCCTCTTTTTGACACCATTTAAGAGCGGCCTCATCAACCAGTTTGACCTCCAGCATGCCCTGCCGCACCCGATGCATGTCGTCCGGACTACCCTTTTAGGCCGGGACTTGTGGCGGCTGGTCATGGAAGTGGAAAAGAACCGGCACTTTTTGGAACATTATCCTCTGGTGGGGATGAGCTTTAGAGGGAAGATTTTTGGCCAGGTCTACTACAGGGGGATCAAGTATGACCCAATGACCAGGAACGTTTTCGTCAACGGGCAATTGCTGGACCCGGCGGAAGAATACCGGATCGCCGTTTTGGACCACTATGTCCTGATCCCGTTTTTCCCGACTTTGGCCATTGTTGGTGAAAATGAATTCCTCTTCCCGCAGTTTTTAAGGGAAGTCGTAGGCGACTACTTAGGCCGCAAGTATCCTGTGAAAAAAGAAGGTGAATTTATTGAGGAAAGAGCAGAAAGAGCTGAAAAAAGATAA
>SRR1919932_01009 hypothetical protein
ATGGATCACTTATACGAGCAATTCGACTTGATCGAAGAGATTACCAGAAACGACGGCAGTCAGTACTATGAAATTTCCAACATCGACCAAAACGGCTTCGCGGAACTGGCGGTCAACAACGGTTTAATCAAGAGCGTGCGGATTCTGGTCATCAACATCCCGCGCACCAAGGCGCTGGAAACTTACGAGCAGTACATTAACAAGGCCTACCAGCTGCATACTTTGATGAACGAAGAAGACTGGGAGAACCCGCAATGGGTGGAATGGGACAAGCCTAAAGGCCCGGTCAGGGATGCTTACGAAATGGTTTTGAAAGCCAACAAGATCGGCTAG
>SRR1919932_01010 catabolite control protein A
ATGAATAAGCAAGATGTAACCATTTACGATGTTGCTCGGGAAGCCAAGGTTTCTATGGCCACGGTTTCCCGGGTAGTCAATGGCAACAACAATGTCCGCAAGGAAACCCGTGACCGGGTCATGGAAGTTATCAAGCGTCTGCACTACCAACCAAACGCGGTAGCGCAGGGTTTGGCCTCAAAGCGGACCACAACGGTCGGCTTGATCGTGCCGGACCTGACCAACTTGTACTTTGCCGAATTGTCAAAGGGGATCGACGACATTGCTGTTTTGTACAAGTACAATATCATCATCTCCAGCGTGGAAAACCGTTTGATGAAGGAAGACGCCGTCATTCAAGGCTTGCTCAACAAGCAGGTTGACGGGGTTATTTACATGTCCAACAAGCTGTCTGAAGAAGCAGCGGAAGCCTTCAAGCGGACCGACACGCCAGTCGTTTTGGCCGGGACTGTTTCCGACAACCTAGAATTCCCTTCAGCCAACATCGACTACAAGAAGGCCGACACGGAAGCTTTGAACCTGCTTTTGAACGACGGCAAGAAGAAGCTGGCCTTGATCGTGGGCGACAAGGAAGCTCCGATCAACCGGAACCACCGGATTCCGGCCTTTGAGAAGTTCGTGGCTGACAATGAACTGGAAGGCTGCGAGATTTTTGACAACATCAAGGACTACTCCGACGGCTACAACCTTTACCCGGAACTGGCCAAGAAGGGGATCAACGGGGCCATCATCACCAAGGACGTTTCCTCAGTCGGCCTCCTCAACTCAGCTCTGGACCGCGGGGCTAAGGTGCCGGAAGACTTCGAAATCATTACGGCCAGCGCGACCCAGATCGCCTCAGTTGTCCGGCCAGCCTTGACCACGATCAAGCAGCCGCTCTACGACTTGGGTGCCGTGGCCATGAGAATGCTGACCAAGCTGATGAACGATGAAGGCCTGGAAGACAAGCACATCGTTTTGCCATATGAACTGATCAAGAAGCAAAGTACCTTGAACAAGTAA
>SRR1919932_01011 proline dipeptidase
ATGAATTTAGACAAATTACAAAACTGGCTGCAGGAAAACGGTATGGACGTAGCCTACGTTTCCAGCCCGACTACCATCAACTATTTCACGGGTTTCATTACTGATCCTGAAGAAAGAATCTTTAAGCTTTTCGCCTTCAAGGACGCTGAACCCTTCCTCTTCTGCCCGGCCTTGAACTATGAAGAAGCCAAGGCATCAGCTTGGGACGGGGACGTGGTCGGCTACCTGGACAGCGAAAACCCATGGAGCAAGATCGCTGACGAAATCAAGCAGCGGACCAAGGACTACCAAAACTGGGCTGTCGAAAAGAACGGCTTGACGGTTGCCCACTACCAGGCCCTGCACGCTCAATTCCCAGACTCCGACTTCTCCAAGGACTTGTCTGACTTCATCGCCCACATCCGCCTCTTCAAGACGGAAAGCGAACTGGTCAAGCTGCGCAAGGCCGGGGAAGAAGCTGACTTTGCCTTCCAGATTGGCTTTGAAGCCCTGAGAAACGGGGTTACCGAACGGGCCGTGGTCAGCCAGATTGAATACCAATTGAAGCTGCAAAAGGGCGTGATGCAGACCAGCTTTGACACCATCGTCCAGGCCGGCAAGAACGCGGCCAACCCACACCAAGGCCCAAGCATGAACACGGTGCAGCCAAACGAACTAGTACTTTTTGACTTAGGGACCATGCACGAAGGCTACGCTTCTGACTCCAGCCGGACGGTCGCTTACGGGGAACCAACTGACAAGATGCGGGAAATCTACGAAGTCAACCGGACTGCCCAGCAAGCAGCCATCGACGCGGCTAAGCCAGGCATGACGGCCAGCGAACTTGACGGGGTAGCCCGCAAGATCATCACTGACGCCGGCTATGGTGAATACTTCATCCACCGCCTGGGCCACGGGATCGGGATGGAAGTCCATGAATTCCCATCCATCGCTAACGGCAACGACGTCGTTTTGGAAGAAGGCATGTGCTTCTCCATTGAACCAGGGATCTACATCCCAGGCTTTGCCGGCGTCCGGATCGAAGACTGCGGGGTCCTCACCAAGGAAGGCTTCAAGCCATTCACCCACACCAGCAAGGAATTGAAGGTTCTGCCGGTTAAGGAATAA
>SRR1919932_01012 hypothetical protein
ATGACGAAAACAAACATGGTTCTTTTTCTGATTTATCTAATGGTAATGTGTTTTTCCTTTAGAAAATCAGATAATCCTTTTGTTTTGAAGCTGAGAAAATATCGGGGAATAATCTTGACTATCCTGCCTGCCGCGTTTTTTGCCATTTTTGTCATGAAGGAAGGCTATCATGATTTTCAGAATGTCTTCTTGCTGTTGACTTTAATTGGCGTCTACTACTTGATTCGCGACCTTCGTAAGGCATAA
>SRR1919932_01013 hypothetical protein
ATGAGCAAATTTGGTAGCTTTTTATTAGGGGCCGTCTTTGGGGCTGCTGCTGGGGTTGCAGCTGCCAGCCTGATCTCAGACGACAAGCTTAAAGAAGTCAAGGACAAGATCAAGAGCAATCCAAACGTCGAAGACTTGAAGGAAAAGTACGACAACGGGACAGAAATCTTGAAAAACCAACTGGCTTCTTTCCCAAAGAACATTGAAGATGATTCTGAATTGAAGGACTTCGACGACATCGTAATCGACGATTCAGCTAACGGCGCCGGCGAACAAGACGCCAGCGACCTGGACAATGCTGAAAAGAGCGAAGAAGGGGAAGAGAAGCCGGAAGAACCAAGCACGCCGACTAGTCCAGATCAGGAATAG
>SRR1919932_01014 chemotaxis protein
ATGACAATTTCATTTGGCGCTTTAGCCGGTTTGATCGCGGCCATTGCCTTTTTGGTACTGGTCCTGTTCACGATTCCCGTGTTGCTTAATGTTTCGAAGACTTTGAAAGAGGCTGAGAAGACAGTCCAATTGACCAATGAATCTATGGCCAAGCTGACTGAAGACATGGATGACTTGATGAAGCAGACCGGCGGACTCTTGGAAAAGACCGACGCGCTTTTGCAAGACGTCAATGGCAAGATGGAAACTTTGCAGCCGGTCGTTCAGGCCGCCGCTGACCTGGGCCAAAGCGTCTCAGACATCAACGAATCATCCAAGAAGATGATCAACAAGGTTTCCAATGCCCACTTTACCCGGACGGGAATGATCACTTCCGTAATTACGTCGGCTTTTGCCAGACATTTCCGGCGGAAGGGTTAG
>SRR1919932_01015 small-conductance mechanosensitive channel
ATGAAAAATCTTGATTTCAAAATTGCCGGCATCTCTGTCGACGTCGACAAGCTTTTTACCAGCGGCGTGACCATCCTCTGGAAGCTGCTGATTTCGACCCTGGTCTTCTACCTGGTCAGCCATTTTGGTCGGAAAATTATCAAGCGCTACCTGGACAAGCACAATGACAAGCTTGTCCTCTCCAAAAGGTCCCAGACCATCTCAGCCTTGGTGAACAGCCTCTTCCACTACACCATGGTCTTCTTCTATGTCTACTCCATCTTAACCATCCTGGGCATCCCCGTCGGCACCTTGATTGCCAGTGCCGGGATCTTCTCTTTGGCCATCGGCCTTGGGGCCCAGGGCTTCATGAGCGACCTGGTCAACGGCTTCTTTATCCTCAGTGAAGGCCAGTACGATGTCGGCGACAATGTCGAGATCGGGACTGAAGCCGGGACCGTGACCCAGCTGGGCCTCAGAACCACCCAGATCGTCACCACTGACGGCACCTTGATCTTCATCCCCAACCGGCAGATTTCCATCGTCAGAAACCTAACCCACGGCGGGATCGGCCTTAACTTGGACCTGAACCTGGATGCAGACACCGACTTAAAGCAGCTGGCCAGCCTGCTTGACCAGGCTGATGAAGATCTGCTTGCCTGGCATGACAAACTGGTCAGCGGACCAACCCAGATCGGGGTCGTCGGCCAGCAGGGGCAGACAATCACCTACCGGGTCCACTTCCAAGTCAAGCCGGGCTTTGAAGGCAAAATCCGCCAGGCCTACTGGCAGACCTACCTGCAATACTTACGGGTCAACCAGGTCAAATTTGGCCAGGAACCGGTTATCATCAACAACAGTAAAAAAGCTTGA
>SRR1919932_01016 nucleoside-triphosphate diphosphatase
ATGACTCAAGTACTATTGTTTGCTACAGATAATCAAAACAAGGTTAAGGAAGTGCAAGAAGCTTTCAAGCAGGCTGGTCTGGACATTGAGCTTAAATCAAATGCAGATTTGGACAACCCGCCATACGTTAACGAAAAGGGGACGACTTTTGAAGCTAATGCTAAGCTGAAGGCACACGCTTTGGCAGACTATAGCAAGCTGCCAACTCTGGCTGACGACTCAGGCTTGCAGGTTGCTAAACTGAACGGCGCTCCTGGCGTACACTCAGCCCGTTACGGCGGTGAGGCCCACAACGATGCCAGAAACAACGCTAAGCTTTTGGCAGCCTTGGGCGGAGTTCCGCAAGACGAGCGCCAAGCCAAGTTTGTCACTACCCTTGTTTTGACCATGCCAGGCCACGAAGACAAGGACTTGGTTGTAACTGGCACCTGCGAAGGTGAAGTTCTGGCAGTTCCGCGCGGCAAGGACGGCTTCGGCTACGACCCGCTCTTCTACGTACCAAGCAAGGGCAAGACTTTCGCCGAAATGACCACTGAAGAAAAGAACGAAGTCTCCCACCGGGGCAAGGCAGTCAAGGCTTTGATCGAAGAACTGCCAGCTTGGCTCGCTCAATTCAACTAA
>SRR1919932_01017 hypothetical protein
ATGTCAGAACACAACGACCACGTATACTTTGTTAATCAACTATACCGCGACTTCTTGTTGCCAACCATTTTAGGCGGGGACACGCCGGCGATTCTCTACTGGGCCGGCAAGCGGATCACCCGCAAATATGCCTTGAGTGAATTTGAAGACTTAAGCGAATTTTTCAAGATGGCTGAATTCGGCAATTTAACCATTGTCAAGGAGCGCCGCTCCTCAGTCATCTTCTCCTTGAGCGGGCAGCCAATCAGCGACCGCCTGGCCGCCGGCAGCCGGGAATTCTCCCTGGAAAGCGGAATGATCGCCGAAGCGGTTGAACAGAACCGGGGCCGGTCAGCTGAAGCCGAAATCGCCATCGACGACAAGAAAGAGACCGTTCAGATCACCGCCTTCTTCTAA
>SRR1919932_01018 thiol-disulfide isomerase/thioredoxin
ATGGTAGATGCAATTACTGACGCAACCTTTGAAGAAGAAACCAAGGATGGCTTAGTTCTGGTTGACTTTTGGGCAACCTGGTGCGGTCCTTGCCGGATGCAGTCACCAGTCATCGAAGCTTTGGCTGAAGAAAGACAAGACGTGCACTTCACCAAGATGGACGTTGACGACAACCCGGAAACGGCCAAGAACTTTGGCATCATGGCCATCCCAACCCTCTTGATCAAGAAGGACGGGCAAGTGGTTGACCGCTTGACTGGCTACACTCCAAAGGAAAAGCTGAACGAAATTCTTGACCAGTACGCTGACTAA
>SRR1919932_01019 DNA mismatch repair protein MutS
ATGAATCATAAAATTTTAGACATTCTGGAATACCAGGAAATTAGTAGCCGCATGGCTGAACAAGCGGTAACGGCTCCGGCCAAGAGCAAGGCCTTGAACCTCCAGCCCGCCAGCGACCGGGAGACGGTCAGCCGGGCCTTAAGCGAAACCAAGGCCCTGGTTGACTTGGACCGGATCAAGGGCCAGCTGCCTTTGACCGACTTTCAAGATGTTGCGCCCAGCCTCAAGCGTTTGAAGGTCAAGGCCGACTTGAACGCCCTGGAATTAGGCAATATCCTGCTGATTTTCACCCTGGCCCAGGAAAGCAGCCGCTTTGTAGAAGACGCGGAAGAAAATGAGACCTTGGACCTGGCGGCGATTGAAACTTTGCTGGAGGACCTGGAATTGCCGGATGACCTTTACCGGCGCCTGCGGACTTCGCTGACTTATGACGGGGAAGTCCTGGATACCGCTTCAGCTGACCTGGCCCGCCTGCGCCACGGCCGCCTGGCCACGGAAGCGGAAATCAAGGAAAAGATGACCGCCTACACCAGGGGCAAGAACGGCCAGTACCTGTCTGAGCAGATCGTGACCATCCGGGACGACCGCTACGTTATCCCGGTCAAGCAGGAATACCGCTACAAGTTCGGCGGGGTGGTCCACGACCAAAGTGCCTCTGGCCAGACCTTGTTTGTTGAACCGGCTGCCATCCTGCCTTTAAACAACCGCCTGCAAAACTTGCTGGCTGAAGAGCGGCAGGAAATCCACCGGGTTCTGCATGAACTGTCTCTGGACGCCAGAGAAGAAATGGAGGCTATCAAGCGGGTGGCCGCGGCTTTAAGCGAATTGGACTTCCTCCAGGCCAAGGCCAAGCTGGCCAAGCAGATGCGGGCCAGCCAGCCGACTTTGTCTGCTGACCAGTCCTTTAAGCTTCTGGGGGCCCGTCACCCCTTGATTGATCCAGACAAGGTCGTGGCCAATGACATTGCTTTAGGCCAGGACTTTGACACGATTTTGATCACCGGGCCCAACACTGGTGGTAAAACGATCACTTTGAAGACGGCAGGCTTGCTCCAGCTGATGGCCCAGTCCGGTCTCTTTATTCCGGCTAATGAGGGCTCCAGCGTGGCGGTTTTTGACCAGATTTTTGCTGATATTGGGGACGAACAGTCAATCGAGCAGTCGCTGAGTACTTTTTCATCCCATATCAACGATATCGTGGCGATCATGAAGCGGGTCAGCGACCAAAGCCTGGTCCTGATCGACGAAATCGGGGCCGGGACCGACCCGGAAGAAGGGGCCAGCCTGGCCATCTCAATTTTGGACTTCTTCAGAAAGAAGGGGGCCAAGATCATCGTCACAACCCACTACCCGGAACTCAAGCTCTATGGCTATAACAGAGAGCGGACCACCAACGCCTCCATGGAATTTGACATCAAGACCCTGTCGCCGACCTACCGCCTGCAGATGGGGATCCCGGGTCACAGTAATGCCTTTGCCATTGCCCGCCGGCTGGGCATGCGGGAAGACGTGGTGGTCGGGGCTGAGAAGCTGATGAGCAGCGATGATTCTGACATCAACCACATGATCGACGAATTAAACAAGCAGACCAAACTGGCCACGGAAAACAAGCAGAAGCTGCAGACCAGCCTGGACCGGGCCAAGCAGCTGGAAAAGAAGCTGCAGGATGCCCTGGATATCTACAACCAGCGGGTCCAAAAGCAGCTGGACTTTGCCTTGGACCGGGCCAATGAAATCGTGGCCAAGAAGCGCAAGAAGGCCGACAAGATCATCGCCGAGCTGGAAGAAGCCCGCAAGGAAGGGATGCAGATCAAGACCAACCAGCTGATGGACGCCAAGGGCGAATTCAACCAGCTGGCCAAGCAGGAGGCCAACCTGGCCAAAAACAAGGTCCTGCAAAAGGAAAAGAAACGCCACCACGTCCAGGTGGGTGACAAGGTCAAGGTCCTGTCTTACGGGCAGACCGGGACGGTGACAAAGCAGCTGGGTGAGCATGACTATGAGGTTTCCTTGGGCCGGATCAAGCTCAAGGTGACCGACAGGGACATCGACAAGCTGGCCGCCGGGCAGAAGCAGCAGGCCCAAAGACGGGCCACTTCTGCCTCCCGGTCCAGCCGGGCCCGCAGTTCCCTGGATCTTAGAGGGCAGCGCTATGAAGAGGCCATGGTCAATTTGGACCGGTACTTTGACACCATCCTTTTGTCCGGCCTTAGCACGGTCACGATCATCCACGGGATCGGGACCGGGGCCATCCGGCAGGGGGTCCAGCAGTATCTCAAGCGCAACAAGCATGTCAAGACCTACAGCTACGCGCCAGCCAATGAAGGCGGGACCGGGGCCACGATCGTGACCTTAAAGTAG
>SRR1919932_01020 hypothetical protein
ATGGCTTTTGAAGTTAGCGCCGAAGATCAAGACAGACAATTGACCTTGATCGATGAAGACGGCAACGAAGAATTATTTGAAGTATTGTTTACTTTCCATTCTGACGACAATGACAAGTCCTACATCCTGCTTTACCCGGCAGCTGTAGAAGATGACGACGAAATTGAAGTCCAGGCTTTCAGCTACGACGCCGATGAAGATGGCGACGTAACCAGCAGCGACCTGCACGAAATCACTTCTGACGCTGAATGGGACATGGTTCAAGGGGTGCTCAACACCTTCCTTGACGATGACCGTTTGAGCGGTGACGATTCTGCAGAATAA
>SRR1919932_01021 Holliday junction resolvase
ATGCGCCTGCTGGGTTTGGACGTCGGCTCCAAGACCATCGGGGTGGCCGTCAGTGATCCCTTGGGCATCACCGCCCAGGCCGTGATGACGATCCCGATTGATGAAGACCGGCACAATTTCGGCATGCGGTCTTTAAAGAAGCTGGTCCGCGAATATGAAGCGGACGGCTTTGTTCTGGGCCTGCCTAAGAACATGGACGGAACGGCCGGTCGGTCGGTCAGCCGGAGCAAGGCCATGGGCGAGCGCCTGGAGCAGAAGTTCGGCTTACCAGTCTACTATGACGATGAACGCTTGACGACCGTGGCCTCAGAGAGGATTTTGGTTGAAGAGGCGGGAATGCATGATCGCCGGCAGCGCAAGGAGGTCGTTGACCAAATGGCAGCTGTGTTGATTTTGCAGAACTATTTGGATTTACAGCGAAAGGAATAA
>SRR1919932_01022 hypothetical protein
ATGAGTTCGCTTGATAAGACGATGCACTTTGATTTTAACCAGAATAAGGGAAAGAACATCCGCGACACTCTGGAAGACGTATACAAGGCCCTGGAAGAAAAGGGCTACAGCCCGATCAACCAAATCGTGGGTTACCTGCTTTCAGGCGACCCAGCGTACATCCCACGCCACAACGACGCCCGAAACCTGATCTTGAAGCACGAACGCGATGAAATCATCGAAGAACTGGTCAAGAGCTACCTGGGCAAGGACAAGTAA
>SRR1919932_01023 alanyl-tRNA synthetase
ATGAAAAAGTTAAACAGTTCAGAATTTCGGCAAATGTTCCTCGACTTTTTTGCTGAACACGGCCACATGGTCATGCAGTCAGCCAGCCTGATTCCAAAGGATGACCCGACTTTGCTCTGGATCAACTCCGGGGTGGCAACCATGAAGAAGTACTTCGACGGCTCAGTCGTGCCAAAGAACCGCCGGATTACCAGCTCACAAAAGTCAATCAGAACCAACGACATTGAAAACGTCGGTAAGACTGCCCGCCACCAAACCTTGTTTGAAATGCTGGGCAACTTCTCAGTTGGTGACTACTTCAAGGAAGAAGCGATTCCTTGGGCCTGGGAATTTTTGACCAGTCCTGACTGGCTGGACCTGGACAAGGACAAGCTTTACGTAACTGTTTACCCTAAGGATACTGAAGCTCACCGGATCTGGCATGAAGTCGTCGGCCTGCCGGAAAGCCACATCGTGCAATTGGAAGACAACTTCTGGGACATCGGTGAAGGCCCATGTGGTCCTGACTCAGAAATTTTCTACGACCGTGGCCAGGAAAACAATGACGTGCCAGAAGACGACCCAGAAAACTACCCAGGCGGGGAAAACGCCCGTTACCTGGAAATCTGGAACATCGTCTTCTCAGAATTCAACCACCTGCCAGACGGCAGCTACGTTGAACAGCCACACAAGAACATCGATACTGGGATGGGTCTGGAACGTGTCCTGTCTATCCTGCAGGATGCCCCGACCAACTTTGAAACCGACCTCTTCCTGCCAATCATCCACGCTACTGAAGAAATGAGCGCGGGCAAGAAGTACGGCGCAAACAAGGCTGACGACATTTCCTTCAAGATTATCGCTGACCACATCCGGGCTATCTCCTTTGCCATTGGTGACGGGGCCCTGCCAGGCAACACTGGCCGCGGCTACGTTTTGCGCCGGCTTTTGCGGCGGGCAGCCTTGAACGGCCGCAGGCTGGGCATCGACGGCGCCTTTCTTTACAAGCTGGTGCCAGTAGTCGGCGACATCATGAAGAGCCACTACCCAGAAGTCAGCGACCAGGCTGAATTCATCAGCAAGGTCGTTAAGAACGAAGAAGACCGCTTCGGTGCAACTTTGGAAGCCGGTTTGACTTTGCTGGACGACTTGATCGACAAGGCCGAAAACAGCGAAGACAAGACCATCTCCGGCAAGGACGCCTTCAAGATGTTCGACACTTACGGCTTCCCATACGAATTGACGGTTGAAGCTGCTGAAGACAAGGGCCTGAAGGTTGACAAGGATGGCTTTGACGCCGAAATGGAAGCGCAGAAGGAACGCGCCCGCAAGGCCCGGGGCAACCTGCAATCCATGGGTTCACAAGACGAAACCTTGATGAAAATCAAGGACAAGAGCGTCTTTGAATACGGGGTCTATGAAGAAGAAAGCCAGCTGGTTGACATCATCGTTGACGACAAGCTGGTGGACAAGGCTGACGGTGAAAAGGCAACCTTGATCTTCGACAAGACGCCATTTTACGCTGAACGGGGCGGCCAGGTGGCTGACCACGGTGACATCTACGACCAGGAAGGCAACTTAGTTGCCCGGGTAGTTGACGTTCAGCACGCGCCTAACGACCAGAACCTGCACTTTGTCGACGTGGTCCTGCCACTTGTAAAGGGGCAGACCTACAAGCTGAAGATTGACCGGGCGCGCCGGGAAGGCCTCCGCCACTCCCACTCTGCTACCCACCTCTTGCACGCTGCCTTGCGGCAAGTTTTGGGTGAACACACCCACCAGGCCGGGTCAGTTGTTGAGCCAGACTACTTGAGATTCGACTTCACTTCCCTTGACCCAATCACGCCAAGAGAATTGAAGAACGTTGAAAAGATCGTCAACGAAAAGATCTGGGAAGCAATCCAAGTCAAGACCACGGAAACTGATCCGGAAACCGGTAAGAAGATGGGCGCCTTGGCTCTGTTTGACGGCAAGTACACTGACAAGGTCAGAGTCGTGCAAATGGATGACTTCTCCATCGAATTCTGCGGGGGTACTCACTGTGATAACACCTCCCAAATCGGTGTCTTCAAGATTATTTCTGAACAAGCCATCGGTGCCGGGGTCAGAAGAATTGAAGCCGTAACTTCCAAGCTGGCTTACGAATACTTAGCTAGCCGCTCAGACATCCTGGACCAGATCCAGGCTCAAGTTAAGGCCACTAAGGCTGACGGCATCCAAAGCAAGATTGCCAGCCTGCAAGAAGAACTCAGAAGCGCTGAAAAGCAAAACGCCGCTTACGAAGCCCAAATCAACGCTTCCAAGGCCGGCAAGATCTTTGACCAGGTCAAGACGGTTGGTGACTTGACGGTTATCGCCACGATCGCTGACGTCAAGGGGATGAACGACTTGCGGGAAATCGCTGACCAATGGAAGAGCGAAGGCAAGTCTGACGTCTTGATCCTGGGCGCTAAGTCTGAAGACAAGGCCAACATGCTGATCAGCCTGGGCCAAAAGGCCCTGGACAAGGGTCTGAAGGCCGGCGACTTGATCAAGAGCGTGGCTGCTATCTTTGGCGGTGGCGGCGGCGGCCGGCCAAACATGGCCCAAGCCGGCGGCAAGAAGCCAGAAGGCCTGCAGGATGCCATCGATGCTGCAGTCAGCCAGCTGGACTAA
>SRR1919932_01024 DEAD/DEAH box helicase
ATGAATAACATTTTTACTGATACCCGCTTAAGAAGCGAAATCCGCCAGGGCCTGGCCAAGATCGGCTTTACTAAACCGACTCCGGTGCAGGAAAAAGTCATCCCGGCCATGCTGAAAGGCGAAAGCGTGATCGTCCAGGCGGCTACGGGGAGCGGGAAGACCCACGCCTACTTGATCCCGATTTTAAACGCCATTGATGAAGACGCCCGCTATGTCCAGGCCATCGTCACGGCTCCCAGCCGGGAACTGGCTGACCAGCTCTACCGGGTGGCCCGCCAGCTGCGGGATAATTCCGGCTTAAACATCGCCATTGCCCACCTGGCCGGGGGCAGCGACCGGGACCGGCAGATCGCCAGATTTGAACAGAACAAGCCCCAGTTGGTTATCGCTACGCCGGGCCGGCTTTTGGACTTTGCTGACAAGAAGATCCTGCTTTTGGACCAGGTCAAGAACTTTGTCATCGACGAAGCCGACATGACCCTGGACTTGGGCTTCCTGGCCGATGTGGACAAGATTGCCGCCCGCCTGCCAAAGGACGTGGTCATGTCCGCCTTCTCAGCCACGATTCCGGTCAAGCTGACCAACTTTTTACGCAAGTACATGGCCAAGCCGGAAGAAATCGTGATCGACAATCCGGCAGTTATTGCCCCAACCATCAAAAACGACCTCTTGGACATCGGCAGCAAGGACAGAAAGAAGATCGTCTACAAGCTTTTGACCATGGGCCAGCCTTACCTGGCCCTGGTTTTCGCCAACACCAAGCAGATGGTTGACGAACTGGCTGATTACCTGACTAAGCAAGGGCTTAAGGTGGCCAAGATCCACGGCGGCATTACCGAACGGGAAAGAAAGCGGACCCTGCGGGAAGTCCGGGCCGGCCAGTACCAGTATGTCGTCGCCAGCGACCTGGCTGCCCGGGGGATCGACCTGCCTGGCGTCAACCTGGTGATCAACTATGAGATTCCCAAGGACCTGGAATTCATTATCCACCGGATCGGCCGGACTGGCCGGAACGGCCTGCCGGGCCACGCCGTGACTTTGGTCAGGGAAGAAGAGATGAACCGGGTGGGGGCCTTGGAGCACATGGGCGTTCACTTTGACTTCGTTGAAATCAAGGACGGGGCACTCGCTCCGCGGACTCACTACCGCCGCCGGGACAACCGGACGGCTGCAAACCGCCAGCTTGACCCCCACATGAAGGGCGTGGTCAAGAAGGTCAAGTCCAAGCGCAAGCCTGGCTACAAGAAGAAGATCAAGCAGGCGATTCAAGAAGACAACCGCAAGAAGCGGAAGATTGAAGCCCGCCACGAAATGCGCCACCAAAAGCGCCTCCGTAAGCGCAAGCGCGAGCAAAAACGTTGA
>SRR1919932_01025 phosphoesterase
ATGAACACTTTTGACGAAATATTCAGTAAGATTAAGCAATATCCAACCATCATCCTCCACCGGCACACCAATCCCGACCCGGACGCTATCGGCTCCCAGGCCGCTTTAGCCAAGAGCCTGCGCCTGCAGTTCCCGGACAAGAAGATTCTCTGCACCGGGGAAAATGATGTCGGTAACCTGGACTGGATCAACACCATGGACGAAGTCAAGGATGAAGACTACCAAGGCGCCCTGGTGATCACGACTGACACGGCCAACACGCCGCGGATCTCTGACCAGCGCTACCGGCTGGGGGACTACCTGATCAAGATTGACCACCACCCGGACGTTGACCCATATGCTGACATGTCTTACGTTGACTCAAAAGCCGCTGCTACCTGTGAAATCATCGCTGACTTTATCGAAGCAGAAGGCCTGCCCCTTACCCAGGAAATCGCCCTGGCCCTCTACGCCGGTATTATCGGTGACACTGGCCGCTTCATGTACGACGCGACCAGCGCCCACACCTTCGAAGTAGTATCCCGCTTGATGGAGACGGGGATCGACATCTCCCAAATTGCCAGAAACGAAAGTGAAGTTACCTTCCAGCAGGCCAAGCTGCAGAGCCTGGCCCTGGAGAAAATGCAGCTGGACGAAAGCGGCCTGGTCGCTATCGCCGTAATTAGCCAGGCTGACTTAAAGGCCCTGGGCGTTACCCAGCCGCAAGCTTCAGTCACTGTTTCAACCCCGGGCCGGATCAAGGGGATTCTGACCTGGCTGGTCATCGTGGAAAAAGAAGACGGTACTTACCGGGTCCACTACCGGTCAAAGGGTCCGCACATCCACAAGCTGGCTGAAGCCCACGACGGGGGCGGCCATGAATTAGCCTCTGGGGCAACGGCCCATGACCAGGTGGAAATCGACCAGATTTTCCAGGAATTAGTTGAAGTAACCAAGAAATACAAGGAAGACCATGAATAA
>SRR1919932_01026 DNA polymerase IV
ATGGCCGATATTGACCTTTTGCCCAGGAACGATTTTTCCCGCCGGATCATCCACCTGGACATGGACGCTTTCTATGCTTCAGTTGAAATGCGGGACCGGCCGGAATTGGCGAATAAGGCAGTCGTGATTGCCCAGGACCCCCGGAAAACTGGCGGCCATGGCGTGATCGCCACCGCCAACTACCGGGCCAGAAAGTACGGGGTCGGGTCAGCCATGGCGGCCGCCCAAGCCGTCAAGCTGATTCCAGCTGAAGAACTGGTTTTCGTTGAACCCGATTTCGTGAAATACCACCGGGTTTCCGGGCAAGTGCACGGCTTAATGCACGAACTGACCGACCAGATCGAAAGCGTGGCGCTGGACGAAGCATATATGGACGTGACCCGGAGCAAGATCCCCGGCAAAAGCGCCCTGGAGCTGGCCAGCTATTTGCAAGAGCAGATCTTCCGCCAGCTGCATTTGACCTCATCTTTTGGGGTCAGCTACAACAAGTTTTTGGCCAAGATGGGGTCAGAATACGCCAAGCCTTTTGGCCGCACTTATCTTGCCCCGGACCGGGCCCAGGACTTTTTAGACAGGCAGGAGATCAAGAGATTCCCCGGCATCGGCAAGAAGACCCAAGAGCGGCTAAAGGAAGCCGGAGTTTTGACCGGCCGCGACATCAGAAATTACGGGCTCAGCCGCCTTTTAAAAGACTATAAGAAGTCCGGCTACTACATGGCCCTGCATGCTTATGGCATTGACTTAAGCCCCGTCCAAGCCTCCAGGCAGCGCAAGTCCCTGGGCAAGGAGCGGACTTTTGAACCGGTAATCTATGACCCGGACCGGGCTGATGCCTACTTAAAGGACTTCAGCCAGACGGTGGCGGCTGAACTAAAGGAGAGAAATCTTTTAGCCCGGGTGGTCGTTTTAAAGGTCCGCGACCGCAATTTTAAAACTATCACCCGCCGGCAGCAGATCCAGCCGACCAGTGACCCGGAAGTCTTTTACCAGCTGGCCAAGGAGCTCCTGGCCCGGGAACCGGAATTCCTGGTTGAAGGCATCCGCCTCTTGGGCCTGTCAGCCGGCGAACTTGAAGAAAAACATTACCAGGAAATCAGTCTTTTTGCAGATGAATAG
>SRR1919932_01027 glucose-6-phosphate 1-dehydrogenase
ATGAACAATATTCCAACAGTAATGATCCTTTTCGGCGGCAGCGGCGACCTGGCCCACCGCAAGATCTATCCGGCCCTCTTCAATCTCTACCGCCGGAATGTCATTCACGACAATTTTGCCGTTATCGGCACTGCCCGGCGGCCATGGTCGCATGAATACCTGCGCGAGCAGGTGGCCCAAGCTGTTCATGAAAGCTGGGAAGAGGTCGACGAAGCGCAGCTGACGGAATTTGCCAGCCACTTTTACTACCAGTCCCACGACGTAACCAACGTTGAACACTACGTAACTTTGAAGCAATTGGCCCAGGAACTGGATGAGCGCTATGAATGCGGCGGCAACCGCATCTTCTACATGGCCATGGCCCCAAGCTTCTTTGGGACGATTGCCGAACACATTGCCGACCAGCATTTGACCGGGACCGGCTTCAACCGCCTGGTGGTTGAGAAGCCATTCGGGACTGACCTGGCCAGTGCGGAAGTCTTGAACCAGCAGATCCGCAATTCTTTTGCTGAAGACCAGGTCTTCCGGATCGACCACTACCTGGGTAAGGAAATGGTGCAGAATATCCTGCCTCTGCGCTTTGGCAACTCCTTGTTTAAGCGGATTTGGAACGCCGACGCGGTTAAAAATGTCCAGGTTACCCTGGCTGAACGGCTGGGCGTTGAAGCCCGGGGCGGCTACTATAACAACTCCGGTGCCCTGCGGGACATGGCTCAGAACCACATCATGCAGATCATCACCCTTTTGGCCATGCCGGAGCCAAAAGACTTGTCTGACAAGGCCATCCACGCGGCTAAAGAAGACCTTTTGGCATCTTTAGTTATCCCAGATGAAAAAGCCGTCAGCGAAAATATCATCCGTGGCCAGTATCTGGGGACGGAAACCACTTTTGAATATGTCAAAGAGCCGAACGTGGCGGAAGACTCCAAGACGGAAACTTACGTGGCTGGCCGTTTGGAATTTAGCAAGGGACCTTTGGCTGGCGTGCCGGTTTACTTCCGAACTGGCAAGGAAATGCGGGAAAAGAAGACCCGGGTGGACGTGGTCTTTAAGGATGAAGCTGGCCTGTATGGCGATAAGGCTAAGACCAATGTACTGACTATTGAGATTGACCCGGTCAACCAGGTCTACTTCCGCTTAAACGGCAAGAATGTTGCTGGCGGTGACCTCCGTCTTGAAAGATTCTGCTACCGCTACAGCGAAGATGAACAAGCTGAGGTGCCAGACGGCTATGAACGTTTGATCCACGACGTCTTTGTCAACGACTCCACCAACTTTACCAAGTGGGAAGAACTGAAGCAGTATTGGAGATTCGTGGACGCGGTTGAAGCTGCCTGGCAAAAGCAAAACGCTACCGGCGAAAAGCCGGTCAAGTACCGTCCTTACGGCATGGGGCCGGATACCAGCAAGATCTTCGCGGATCCTGAGGATGGCTGGATCTACAAGTAA
>SRR1919932_01028 preprotein translocase subunit YajC
TTGAATACTTTTGCATTAGCCGCAGCCAACAGTGGTGCTGGCAGCAGCATCTTCATGCTGGTTATGCTGGCCGCTTTGTTTGGTTTTACTTACTTTACGATGATCAAGCCGCAAAAGAAGCAGCAACAGCAGCGCCAGGAAATGATGAATCAGCTCAAGAAGGGCGACAGCGTGGAAATGGTCGACGGCCTGCGCGGCAAGATCGACTCAATCAACGATGCTGACAAGACTATCGTCTTGGACGCTGACGGCATTTACCTAACCTTCTCCAGACTGGCAGTCAGAACTGTTTTGAAGCAAGCTGACGCAAGTGAAGCTGAAGCAGCCAAGCCAGCAGAAGAAAAGGCTGAAGCAGCCAAGACTGAAGAAGCAGAAGACAAAGACAGTCAAGAATAA
>SRR1919932_01029 Holliday junction DNA helicase RuvB
ATGACGGAAGAACATTTGACCAGCCAGGAAGCCGCCGAAGGCGAGGAAGCGGTGGAACTGTCCTTACGGCCCCAGCTGCTCAGCCAGTATATCGGGCAAGGGCATGTCAAAAAGGACATGGAAGTCTACATCCAGGCCGCCCGCCAGCGTGACGAGGCCCTGGACCATGTCCTTCTTTATGGCCCGCCAGGTTTAGGTAAAACCACCCTGGCCTTTGTTATTGCCAATGAATCGGGGGTCAGCTTAAAAAGCACCAGCGGTCCGGCCATCGAGCGGGCCGGGGACCTGGTGGCTCTCTTAACTGACCTTGAGCCGGGGGATGTCTTGTTTATCGACGAAATCCACCGCCTGGCCAAGCCGGTTGAAGAAGTCCTCTATTCAGCCATGGAAGACTTTTACATCGATATCGTGGTTGGGGAAGGGCAGACGACTCATGCCATCCACTTGCCTCTGCCGCCTTTTACCTTGATCGGGGCAACCACCCTGGCCGGGCAGTTGTCGGCGCCTCTGCGCGACCGCTTCGGGATCGTTGAGCACATGCAGTACTACCAGGTCGAAGACTTGGAAAAAATCATCCTCCGCTCAAGCGAGGTCTTCCACACCAAGATTTCCCCGCAAGCTGCCCATGAACTGGCCCGCCGGTCCCGGGGAACGCCCCGGGTGGCCAACCGCCTTTTAAAGCGGGTGCGGGACTTTGCGGAAGTCAAGGGAGAAAAAGAAATCTCCCTGGAAACCACGGCCATGGCCTTAAAGCAGCTGCAAGTCGACAGTGCCGGCTTAGACCAGACTGACCGCAAGCTGCTGAGAACCATGATCTTAAGCTATGGGGGCGGCCCGGTCGGGATCCGGACCCTGGCTTCCAATATCGGGGAAGACCGGGAGACGATCGAGTCCCTGTATGAGCCATATCTTTTGCAAAACGGCTTTATCGTCATGACCCCAAGGGGGCGGGTAGTGACCCAGAAGGCCTACCAGCAGCTGAATTTGCCCCTGCCGGGTGAGGAAGAATAG
>SRR1919932_01030 Holliday junction DNA helicase RuvA
ATGTACGAGTATTTTGAGGGCACCATTACCGTGGTTAATCCGGCCTATGTCGTGATTGAAGTGGCCGGGATCGGCTACCGGATCCTGACCCCGACCCCTTATGCCTATAAAGATGGGGACAAGGCCCGGATCTACGTTGAACAGGTCGTCCGGGAAAACGGGATGACCCTCTACGGCTTCAAGAGCCAGCAAGACAAGGTCCTCTTCAACAAGCTTAATGAAGTTTCCGGGATCGGTCCTAAGTCTGCCCTGGCCATCATGGCCGCTGAAGACAACGGAGCCCTGGCTTCCGCCATTGAGAGCGGCGAAGTTTCCTACTTGACCCGTTTCCCGGGGATCGGCAAGAAGACGGCATCCCAGATCGTCCTGGACTTGCGGGGGAAGATGGGCAACTATGTGGCGGAAAACCTCTTTACCGAAGATGAACCGGTTAAGTCTGTTTTCCCAGCCCTGGAAGACGCCCTCCTGGCCCTTGGGGCTTTGGGCTACAGTCAAAAGGAAGTTGACCGGATCAAGCCGAAACTGAAGAAACTGCCGGAAATGTCCGCTGACGAATACATCAAGCAGGGGCTGGGCTTTTTGCTGAAGAAATAA
>SRR1919932_01031 hypothetical protein
ATGTCATATGAAACTTACGAGTTAGCAGTTAAACCCATCAATGAAGCCATTCAATCTAGAGCAGCTGAACTAGTGGCCAAAGTTAAAACTACCGCCACTGCTAATTCCAGCGACCTATCAAAGATGGTATTTGACGATGATTTCATCTTTTTTAGTCAAGACGGAGCATCTGTACTCACAAAAAGTGAGAACTACGGAATTAAACTATTTTCGTACGGTAAAACAGACGTCTACTATGAGCCTATAAACGATCGGTTTGTTTACTATGAATTTGATAGTGATTTCGGCTATACAATGTCTCATGAAATTGAAGAGTCAGTATTGACTAAGATATTTGAAGACATCTCGCTATATACTGCAGCTATGCACGTTGTGGGTGTGGATGAAGTTACAACCGCTTGTTTAAAGTTTCGCCAGGGCGTCTTAGACCGACTGAAATAG
>SRR1919932_01032 tryptophan synthase beta chain
ATGACTGAAGCAACTGCAGAAAAGAAGGAAATGTTTTACGGCGAATTTGGTGGCCAGTACGTGCCAGCTGAAATCCAGGCAGCACTTGATGAAATCGCGGAAGAATTTGAAAAGGTGAAGGATGATCCGGACTTTAACGCCGAACTTGACCAGCTGCTGCGCGATTACTCTGGCCGGTCAACTCCGCTTTACTTCGCTGAATCATTGACCAAACGCCTGGGTGGGGCCAAGGTTTACCTTAAGCGTGAAGACCTCAACCACCTGGGTGCCCACAAGATCAATAACGCCTTAGGCCAAGTCCTAATCGCCAAGCGTCTTGGCAAAAAGCGGATCATCGCTGAAACTGGTGCTGGCCAGCACGGTGTTGCCACTGCAGCTGTAGCTGCCCGCTTCGGGATGAAATGCACTATCTACATGGGGGCTAAAGACTGTGAGCGGCAAAGATTGAACGTCTTCCGGATGCGCCTCATGGGGGCCGAAGTCAAGGCCATCACTGCCGGCACCCAAGTCCTGGAAGATGCCGTTGCCGCAGCCTTCCAAGACTTGGCCCAAAACCTGGACACTACCTTCTACCTGGTCGGTTCAGCCGTTGGTCCATACCCATACCCGCAAATGGTCGAACGTTTCCAAAGAGTCATCAGTAAGGAAGCAAGACAACAATTCCTGGACCAGGTTGGCCGCCTGCCAGATGCCGTCATTGCCTGCGTAGGGGGCGGCTCCAACGCTATCGGGGCCTTCGGTGAATTCATACCGGACAAGGAAGTCCGCTTGATCGGGGCAGAAGGGGCCGGCAAGGGGGCTGACACTCCGGAAAACGCCGCAACCTTGACCAATGGCAAGGTCGGTATCAATGACGGGATGAAGAGCTACGTTTTGCAAGATGATGAAGGCAATATCTTGCCAGCTTACTCAATCTCAGCTGGTCTGGACTACCCGGGCATCGGGCCAGTTCACTCCTTCCTTAAGGATAGCGGCCGGGCAGAATACTACCCAATAACTGACGATGAAGCAGTTGCCGCCTTCAAGCTCCTGTCTGAGACTGAGGGTATCATCCCAGCCTTGGAAAGCTCTCACGCCTTGGCGCAAGCCATCAAGATGGTACCGGAAATGGATCCCGACCAAATTGTCATGGTCAACCTGTCAGGCAGAGGGGACAAGGACGTTAATCAAGTTGCCGCCTACCTGGGTGAAGAAATTTAA
>SRR1919932_01033 LysR family transcriptional regulator
ATGAACACTACACAAATCAAATGCTTTATCTCACTGGGTAAGACCCTTAACTACACGCGGACGGCTGAGGAGCTCTTTATGTCCCAGCCGACGGTCACTAAAAATATTCAGAAACTGGAAGCGGAACTGGGGGTACAGCTGGTTGAGCGGGAGAAAGGGCGGGTAAGCCTGACCGCTAATGGCCGCTTTTTCTGGCAAAAGGTCTGCGCGGCCGACCAGATTATCTCGTCTGCCATCAGCCAGATGAGTATTCAAGAACACCTGGCTGATCCGCTGACGATTGGTTACACCAACGTGCCCTTTGAGCGGGCATTTTTGCCAAAGCTGATCACGTATTTAAATAAGCAGGGCTTCCAGTTAAAACTGCAGAACCTTAATCCCAGCAGCAAGGCAGTGACTAAGGCAGTGGACAATGCAGTGGACAATAAGGAGGTTGACCTGCTCTTTTTCCAAGAAGACCTGTTCAAAAGTCACCGGGAATTGGCCTACACCCCACTCTTTAGCGGCGGCTTTTCAGTGATTGTTCCTAAAGAAAGTGACTTGAATAAGTTTAACCGCCTGACCCTGCCGCAGCTGGCTGGCCAGCGGCTGGTCCTTTGGCAGGGGGTGGAGCAGATACCAGCGATCAGTCAGTTGAAAATGATTTTAGAGCAGGATTATCCGCAAGTGGAACTGGTTGAAATGGCAGAAATGTCAAATCTGCTAATTTATGTGGCAAGCAGCCAGTCACTCGCAATTGTCCCTAACTTCCTTTACGATCCAGACAGCCCGGACTTCCAATATATTCGCCTGGAGGTTCCCCTGCAGTTTAACTATAGCGTGGGTTACCGGCGGGAATTTGCGGACCGGCCTTATTTTACCCCGCTAATTAGGGCGATTCAGCGGGTGGTCCGGGCTGAGCAGAAGCGGTGGAACCGGCAGGACCTGGCTGAGTAA
>SRR1919932_01034 fumarate reductase flavoprotein subunit
ATGACAGAAAAAGCGATCTATGACGTAATCGTTGTTGGTGCAAGTAACGCCGGGGCAATGGCTGCAGCGGCTGCCCGGGAAAAAGGAGCTAAAGTTTTAGTTATCGACAAGAGTAGCGATACTACTTATCTTTTCCGCAATACCGTTGCTTCAATCGGCTCAAAAGCACAAAAAGCTGCCGGTGTTAACATTGACAAACAGGAACTGGTCAACTATATCATGTAA
>SRR1919932_01035 fumarate reductase flavoprotein subunit
TTGCGCCCGCACGGGGCTTACATGAAGGCCACTGCTGACGCCTACTATGAAACACCAATGAACCGGGCCTTCCCAAGCGGCAATGAAGTTACCAATGCTGAAGGAACCATGTGGGCCATGGGCTGGGGCAAGTGGTTCCTTGAAAAACTGGCAGACATGGGCTGCGAGCTCCGCTGGCACACGGCTTTGGAGCACTTAACGGTCGAAAATGGAGCTGTAACTGGGGTCAAGGTCCGCAAGGTCGAAACTGATGAGGTTTACGAAATCAAGGCAACTAAGGGGGTCATCCTCTGCACCGGGGGTTATGGCGCAAATCTGGCACTGATGGAAAAGTGGAACCTAAGCGGGCTGAAGACGACTGTATACGAAGACGGTCCACGTGACGATGGTTCAGGGATTGTGGCCGGACTTGAAGTAGGGGCAGCTAAAGATGAACTGCCAGCTTCGATCGTCTTCAACCGCGGCAGCGTCCCAGTCGGCACCAACGCCAAGAATTTTTACAAGATCGGCCTTAGCACCGTCGGCAAGCCGGGTTACCTCTGGCTGGGAAGTTATCCTTTCCTGCGGGTCAACCTCAGAGGTGAACGTTTCTATAACGAAAGCTCACCATATCAATTCGCGATGAATGCTGCCCTGCGGCAGCCAGGTTACCTGCAGGCAATGATCTGGAATGAAGAAAGCATGACAGACGAAAAGCTGGCGCAAGTGCACACCCTAGGTTGCTCCCGCTTTGAATGGCCGGGGATTTTTGACGGTCCACTGGCCAGAAATGAAGTTCAAAGCAACTTGGAAACTGGTCTGGTGCAAAAGGCTGATACGATTGAAGAACTTGCAGAAAAGCTACAGCTTCCGGTTGCTATCTTGAAGGCGACAGTTGAACGCTACAATGAGCTCTGCCACGCCGGTAAGGACGAAGACTTCGGCAAGGAAGCCTACCGCATGATCGCGATTGACCAAGGGCCATACTATGGTGCCTTCGTCGGCGGCCGCATGCTGGCAACGCTGGACGGGCTGAGAGTCAACACCAAGATGGAAGTTGAACGTGAAGACGGCAGTGTCATCCCTGGCCTTTACGCGGCTGGCAACTGTGCCGGCGGCTTCTTCTTTGGATCATACCCGGACCATGTACCTGGTCTGACCGCCAGCCACGCCGACACTTTAGGCCGCTTGGCCGGTAAGTTTGCCGCTGAAAATTAA
>SRR1919932_01036 4-carboxymuconolactone decarboxylase
ATGGCAGAAAAACAAACTGTAGGCCGCGATCGCTTGGGCAAGTTGGCGCCGAAGTTCGCGGAGCTGAACGATGACGTTTTGTTTGGGGAAGTTTGGTCAAGAGAAGACAAATTGTCGGCGAGAGACCGGAGCATGATTACTATTGCGGCGCTGTTTTCCGCAGGCTTGTACCCGCAATTGAAGGCCCACTTGGAGCTGGGCAAAAAGCATGGGATCACCAAGGAAGAAGCAGTGGAGATTGTTACTCAGCTGGCCTTCTACTGCGGCTGGCCTAAGGCGTGGAGTACTTTCCCTTTGATTGAAGAAGTCTACGGGGACTAA
>SRR1919932_01037 alcohol dehydrogenase
ATGAAAGCAGCATATTTCGTTAAAAAAGGCCTGGTTGAAGCCCGGGAAGTTGAAGATGCAACACTTGAACAAGACACCGACGCGGTTATCCGCATAATTAGAGCTTGCGTCTGCGGGTCAGACCTGTGGTGGTTCAGAGGCATTTCTGACCGGCCTCAAGGCACAGTTGGCCACGAAGCCATCGGTGTCGTAGAAGCAGTCGGTGACAAGGTTGACAATGTCAAGGTCGGCGATTTCGTCATCGCTCCGGTTACCCACGGCTGCATGAAGTGTAAGATCTGCAAGGCTGGTTTTGACGGCAACTGTCCAAACGTGGAAGTTGGCGGCAACAAGGGTTACCAATCTGAAAAGCTGCGTTTTAAGAATGCCAGCGCCTTGGTAAAAATCCCTGGCCAGCCAAGCGACTACACTGAAGAGCAATTGAATGACCTGTTGACTTTGTCAGACGTTATGGCAACTGGCTACCATGCTGCGGCTAGCGCGGAAGTTAAGCCGGGGGATGCAGTAGCAGTTATCGGTGACGGCGCGGTTGGTTTGTGCGGGGTTATCGCAGCCAAATTGCTCGGTGCTGAAAAGATCATTCTGCTTAGCCACCACGAAGACCGGGCAGCCTTGGGCAAGGAATTCGGTGCAACTGACATCGTCAGTGAACGTGGTGAAGACGCGGTAAAGAAGGTTTTGGAACTGACTGACGGCTACGGCGCTGATGCTGTTTTGGAATGCGTTGGGGCAAGCAGCTCTATCGATCAGGCTGGTCAGATCGCCCGTGCTGGTGCGGTTGTCGGCCGGGTAGGGGTTCCGCAAAAGGAACCTGAAACAAACAAGTTCTTCTGGAAGAATGTCGGCTGGCGCGGCGGGACCGCTAACGTCACTACTTACGACCAGGAAGTCTTGCTGGGCGCTGTTTTGAAGGGCGAAATCCACCCAGGTAAGGTCTTCACTAAGAGTTTTGACCTTGATCATGTGCAAGACGCATATGAAGCGATGGATCAACGGCAAGCAATTAAGTCATTGCTGGTCGTGGCAGACAAGTAA
>SRR1919932_01038 DNA topology modulation protein FlaR
ATGAAGATCGCAGTAATGGGTTACAGTGGCTCTGGAAAATCAACTCTATCCCGCAAGTTAGGTGAATTGTACCAAGTTCCCGTTCTTCACTTGGATAGCGTCCAATTTTTGCCAAACTGGAAAACGAGATCAACGGAAGAACAAGGCAAGATCGTCCAAACTTTTCTTAACGATAATCCTAGCGGCTGGGTCATCGATGGAAACTACAACAAACTCAGCTATGAACGCAGAATCATTGAAGCGGACATCATTATCCAACTCTTATTCAGTAGAAAAGACTGCCTGCTTCGCTGCATCAACCGCTATCGTACCTACAAAGGGAAGACCCGGCCTGATATGGCAGTAGGCTGCGATGAAAAATTGGATTTTGACTTCATCAAGTGGATTCTTTGGGATGGCCGATCAAAAAATATCCAAGACCGATATGTCCGAGTCCAGAACGAATATCCCAGCAAAGTGGTCGTTCTCTGTAATCAGCAGCAACTTAACGGATATCTGCAAAATCTAAATGACTAG
>SRR1919932_01039 hypothetical protein
ATGGAATCGAAGAATTTGTCTGAAGAAGAAGCAATGAAGGCATTAGGATACACGCCAGCTTCGGTAGAAAGATGCAAACAGGTAATTGCTGATTTAGGGCAATTAAAGGAAACAGACGATAAATTTAGCGATAAGAAATTGCACAATGAAGAAATGATTTCTGTTTTGGATTCAATCATGACCATGGGCGGAGGGGATGACCTCCAAGAAGTCATTGAAGAACTCACTAATGAAGATCCAAATGGCAGCACAAGCATGAATGAAGTATTTACCCAACATATAGTAAAGAGAATTGCCAGAGCAAAGGCAGAGCAAAATCAGCATGCAGTTGACTATCTGATGCAGTCTATGAATCTCGATAAGAGTCAAGCAGAAGCCGCAATAGGACTGGATGCTGAATAA
>SRR1919932_01040 hypothetical protein
ATGATTTTGATGGACAGTTTGGATGAACTGTATGAGATTGTTGACAAGACGACTAAAGAAGATGAGCTGGTTAACGACTTTACTATAAAGTACGGGTTGACGTTGCTCGAGCAAGGAATAAGCTGCATTTGCTCCAGGCTTTGA
>SRR1919932_01041 hypothetical protein
ATGGAAATAAGCAAGTTTCCTCGTGACATGGATCCAGTTGTTTTGGCGACGTATGCTTTTGCCAGAATGAAGAAGCTCATGGAAGAAGAGTTTCCGATCTTTGAAGATGACGATTATGCGCACATGGCCTCGGTACAGATTACCGTTTTGGCAGATATGCTGCAGAGCGGGATTTTGAGTTACAACGATCTGTATCAAGAGACGCTGGAAGTAATCGAACAACTGCTTGGGTAG
>SRR1919932_01042 hypothetical protein
ATGAAGTCAGAAGAAGAAATTGCCAGAGTCGAATTGGACGCGGGGCTTAAGGAGGTTGACGATGGTGACAAGAATGAAGCATTGGCCAAGCTTGCGTTTATCTTTAGCCTGGAATTGATGGAGAAGAACAATCTGAGCCTTACTGAGCAAGAGGGGACGCAGTTAGGGATGGCTTTGACAACGATCATGGTAAACATGACAGAGCATGGGCGGCTTGCACCAGGGTAA
>SRR1919932_01043 hypothetical protein
TTGGGCCAAACAGGCAAGTGGATGGGGAGAAACTGGGTGAAGAAAATGGATGAGCGAGGATACGTAATCGTCGATAAAGAAACAGGTTTGTATTTCGCGAGGAACTGTTCTGAAAGATATACTGTCAACCTTTGGCAAGCGTCTAAATACCAAGAAGAAAAATACGCCCAGAGAATGCTGGATATGATAAAGAGGAGTCCGGCTACCTATAAAACCGCAAAGCCCGAGAATCTGAGCTTGCAGCTCTGTAATCTCAAAGGTCTGAAAGAAAAAACGCCAGAGGAGCTGCTGTCAAGGGAGCAGGAAGAAGAACTTCAAGCTTTCATGCAAGAGATCGGACGGGGCACGACATATGACAAAATTAGTAATTTTTGTAAGAATCCCTTGTTTATCGAGCCTTTGAGAAAGCTGATGCCATACAGTCAAGACTTGAGTACAAAATTGGTCAAGTTCGAGCGGAATCAACGGCTTGACCGGCGCAAGTACGAGGATGCCTTGAATCTGCTTGAGTTACTTTATCCTAAAGGGTCGGTGACGACAATGGAAGAGAGAAGGCGGCAGTATGTGAAACGGGTCGTTAAAATTCAGACTGAGCGCCGATTGTATGTTGTCAGAACGCAAGAAGTCAGTGAGTCATTTTCCAGCCTTTTCAAAGAAAGAGGCGGAATGATGTATTTGGCAATGCGCAGGCCGCTGCCGGGCAAAGTTGCTGGGTTAAACTGGCTAACGGAAACAAGGAGAAAAGTCTCCCAGCTGCTGTAG
>SRR1919932_01044 amidohydrolase
ATGACCAAGACGACTTTTGTTAACTGTAATTTATTTGTTGGGACTGAAGATGAGGTAAAGGAAAATGCCTGGTTTACCGTTGATGAAGCGACTGGTAAAATCACTGAAGTCGGCCAAGGCGAGGTAAAAGCCGCTGACAAGACGGTAGATCTGGATGGCCAATATGTAATGTCAGGTTTGATCAATGCCCACACTCACATTGGGATGGATCCTTATGCTAAGCGGGCGTATCCAGAAACTGAAACTAGCACGACCGTGGCAGCTTTGGAGAATCTGCGGTCAGGCCTGCAAGGCGGGGTGACTTACCTGCGCAGCTGCGCGGTTGGCTTTGACGTCGACATCAAGTTGAAGAGGGAAAGAGCGCAGCATCCTTTTGAAGGGCCGGGGATCATGCCATGTGGCCGGGCAATTTCAGTAATTGGCGGTCACGGAGATGCCAGAAATGGCGAAAACAACGAATTTGAGTCATCCTGGCTGGTTAATGGGCCAGATGAAATGCGCAAGGCGGTCCGGACGCAATTTAAGCTGGGGGCAGAAAACATCAAGTTGATGGCTACTGGCGGGATCATGTCAACGACTGACCAAGTTGATGATACGGAATTGACTTTTGAAGAAATCAAGACGGCAGTTGAGGAAGCCCATTCCAAGCACATGACGATTTGTGCCCATGCTCAAGGAGCGCAAGGGATTCACTATTGTGTTGAAGCTGGCGTTGATTCAGTAGAACACGGCTTCTACGTGACTGACGAAGACATTGAGACCATGAAGGAGAAGGGGATCTTCCTTTCACCAACTTTGATTGCTGGTTACCAAGTGGCCAATCTGCCAGATGACGCGCCGGATTTGACTCTGTTCTCAATTCAAAAGATGCGGAATGCTTTGGATGACTTTTACACTCATGTAGGCCGGGCGATCAAGGCTGGGGTGAAATTGGCTTTGGGGACTGATGCAGGTACTCCAGCCAACCCATTGAATCAGACTTGGAGGGAACTGGTAGAACTTACCAGAGCCGGGGCAAGCAACTATCAAGCTTTGCGGGCCGCTGGCCTGGGCAGTGCTGAACTGCTGAAGATCGACCAGAAATACGGCTCACTTGAGGTGGGTAAGTATGCCGACTTCCTGGTATTGAAGGACAATCCACTGCAAGATGTGGCAGCGGTTGGTCAAAGCGATAAGCAGGTTTACCAACACGGACAAAGAAAGTTTTAG
>SRR1919932_01045 oligopeptide ABC transporter substrate-binding protein
ATGAACAAATTGCATAAATTATTAGTCGTAGCGTCATTAACTTTAACTGCTGGTGCTTTGTCAGCCTGCGATTCATCCTCAGCTTCCAAGGCTAAGCTGAAGTCTCAGCTCAACTGGATGACTACCTCAGAGATCGAAACGATGGATCCGTCCAAGGTAGTCGACACCACTGGCGTGGAGGAACTCAACAATGTTATGGAAGGCCTGTACAACCTGGACGCAAATTCCAAGTTGACTCCAGGCGTTGCCAAGTCCTCAAAAGTGTCAAAGGACGGCTTGACCTGGACCTTCTACTTGCGCAAGAACGCGCGCTGGTCAAATGGCGACCAGGTAACCGCGGCTGACTTTGTCTATGCCTGGCAGCGGACTCTGGATCCGAAGACTGCTTCTCAGCAAGGGAACCTGTATGACGGGATCAAGAATGCTGATGCAGTAGTGGCTGGCAAGAAAAAGCCAAGTTCATTGGGGGTCAAGGCTGTTGGCAAGTACAAGCTGGTTGTCAGTTTGGAACACAAGCTGCCATACATGAAGTATCTGGTAGCCAGCGGACTTTTCCCGCAAAACCGGAAGGCTGTTGAAAAATACGGCAAAAAGTATGGCACGGCTTCTAAGTACATGGTTTACAATGGAGCTTTCAAGCAAACTGGCTGGACGGGTTCAAACTTGAGTTGGAAACTTGTTAAGAATCCCTACTACTGGAACAAGAAGTCAGTCAAGCTGCAGACAGTTTCCTACAGTGTGCAAAAGACGCAGTCAACAGACCTCAACCTTTATCAAAGCGGTAAGCTCGACGCGGCCCTGCTCAGCAGCCAGGCGGCCAAGGCTATGAAGACCAACAACGCTTACACGGTTCGCCGGCAAGGGAACACCCAATACTTGACTTACAACGTATCTAAGTACAAGTTCCTGCAAAACGTGTGGGTAAGACGGGCCCTTTCAATGGCAGTTAACCGGCAAGCTTTGGTAAAGACGGTTGGCGGCGAAAACACTGTTGCCAAGACATTCTCCGCGCCAACAGTAGTAGCTAGCGGGCAAAAGTTCGCGGCTTACGTTGAAAAGCGCAACCCAAACAATGTCTACATGACTTACGACAAAAAGAAGGCTGCCGCATACCTGGCAAAGGGCTTGAAGCAACTGGGCATGAAGAAGCTCAGCTTCACCTTGACTGGCGACGATGACGATACTTCCAAGCAAACGACTGAATACTTGCAAAGCTGCTTTAAGGCCGCTTTTGGTGACAAAGTTGACGTTTCAGTATCAAATCTGCCAAAGACCACGCGGGTCAGCCGGATGCTTAACGGCCAATACCAAGTCACTTTAACCGGCTTGACCGGTGACTTCCCGGATCCTTACAACTTCTTGAAATACATGCTGACGGGCCAGAGCTACAACTTCGGCAAGTGGTCAAGCAAGGCTTTTGACCAAGCCGTTAACAAGTCACAAACCGCGACTGGCGCAAAGCGGCTCAGCTACCTCTTGCAAGCAGAGGAAGTTTTGACCAACCAGCAAGCTTTGACTCCGCTTTACCACATGGGCCAGGCCTGGCTTGTCCGGCCAACGGTTCACGGCGTTGTCTTTAACGGCGGTTCTTACTGGTTTGCCCACGCTTACGTTTATCAAAAATAA
>SRR1919932_01046 oligopeptide ABC transporter substrate-binding protein
ATGAAAAAGAAAAACTATATTCCCATGGTAATTACTAGTGTCGTTGCGGCTACTCTTAGCGCCTGCGGAAGCAGCAGCGCCAGCAGCAAGGCGACTTACCAAAAGTCGATCAGCTGGATGACCACGTCAGAAATTGAAACTATGGATCCCAACACTACTGTGGATACGGCAAGTGGGGAGCAAGAGACCAATACATTTGAAGGCCTTTTCCGCCTTAGGAAAAATGGCAAGGTTAAGCCAGGCATCGCCAAAACAGCAGCGGTATCTAAAGATGGTTTGACTTGGACGTTTACCCTTCTGAAGAATGCTTACTGGTCAAATGGTGAAAAAGTTACAGCTCAAGACTTTGTCTATTCCTGGCAAAGGGCGGTCAATCCAAAGACTGGTGCCGGAAACACGACAGAGTACCAGGTGATCAAGAACGCGGTCGCCATCACTGAAGGCAAGAAGTCCGCGTCTAGTCTAGGGGTAGAAGCCGTTGGCAAATACAAGCTCGTTGTCGAGCTGGTTCACCCAGTACCTTATTTCAAGACAACCGTTGCCAGCGGGATGTACCCGGTCAGCAAGACGGCCGTTGAAAAGTTCGGCAAAAAGTATGGCACGGCTTCGAAATATCAGTACTACGACGGACCTTTTGTTCAGAAAGGCTGGACTGGTTCAAACCTGACCTGGAAACTGGTCAAGAACAAATACTACTGGGACAAGCAAGCTGTCAAGCTGCAGACCGTCAACTACAGTGTTGAGAAAACGGCGTCAACGGACTACAACCTCTATCAGAGTAAAAAGCTCGACGCGGCTCTGCTTGACACTTCCGCGGCTAGCCAGCTGAAAAAGAGCGCGGGCTATACTGTGCGTGACCTGGATAACACCTACTACCTGAACTACAACATCAAGAAGGTGGCTATCTTCAAGAACGCTGATCTGCGGCGGGCAATTTCCCTCGCTATCAACCGCCAGGCCCTGGTCAATACAGTCGGCAGCTACAATAAGACTGCCCAGACCATGAGCTCAGCCAGCATGGCAATTGGCGGGCAGAACTTTGCTAAATACGTTGTAAGCCAGACTGACGCGGCTAAATACAGTAAGTACTCAAAAAAGCAAGCGCAAAAATACTTCGCCGCTGCTCTGAAGAAGCTGGGCAAAAAGTCTATTTCCTTCACGATCATGGGTGATGACGATGATATGAGCAAAAAGGCGGTCGAGTACCTGCAGAGTGCATTAAACGCGGCTTTTGGCAACAAGATTAACGTTTCCGTGAAGAGTCTGCCAAAGACCAACCGGATCAGCCACTTAATGAATGGAACTTACCAGCTTTGCTTCATGAGTCTAACGACTGACGCGCCAGACCCTTATGAATTCCTAAAGTACATGCACAGTGGCCAGACTTACAACTTTGGCTCCTGGAACAATTCTGCCTATGACAAGATTGTTGATGCTTCAAACAGTGCTTCCAGCGATAAAAAGCGGCTGCAGGAGCTGGCCAAGGCCGAGGAAATCCTGGCTAAAGAGCAGGGGATTACTCCGCTCTTCCACTTAAGCCAGGCCTGGATGATCAGACCAAATGTCCATGGGGTGGTCTTCACTGGCTCCGCCAACGACTTCAAGACTGCTTACGCGACGAGTGAAAGTAAATAA
>SRR1919932_01047 hypothetical protein
ATGCGGGTGCTTCAGGCTATTTTCCCGGATGTGAAAAACTCTCAAGTGCTACTAAACACGGCAGGTTGTGAGCAAGATGAGGTCAATGGTCCGCTCGCGCAAGTGGTCGTACAGGATGAAGATGAGAAGAAGCACTTCTACTCATTGCGGATGGCAAAAGAGACCGACAATCTTGGCCTCCTTGGCCGTTATTGCACGTCTAAGATGGACATGACGATGTTCAGACTGATCGGTGAAGATTACTTCGATGAAGACTGTGGAGCGGTACTATTGTTCGGTTTTAATCCATATGGCAGCAACACGGTAAAGGTTGTTCACCAATTCCGCAGTACTAAACACCCAGATCTTATTTTGCCAGGCCAATGCCCTGTGATCATCATTAGCGGCAAGGGAGAAGAGGAAGGTGAATCAAGTGACATGAAGTCCTTGACTAATGTGATTTGCGGTGACTACAGTCTGGATGAGCCTCTTGCCGTATTCTTGAAGGAGAAAATCATTGCGGCTAACAAAAAGCTGAATTTGGTGAAATAA
>SRR1919932_01048 putative transporter
ATGACTTTTGAAGAAATGCGTAAGGGATATCAAAACGAGGTAGCCTATCAAAAGCATATGTTAAGAAATCTGGGCTACTGGTTCCAGCTGGGCAGCATACTTAGCGGGAGCGGAATTGTCCTGGTCTACTTCTTCCATGCGAAAAATATTTTTCTCAATATTTTAGGAATCGCCTTGCTAGTGTTGGGGACGGCAGGGATGTTGCTATTTGGCTATGCTGGTTGGAAAGGCCAGCGGAATCTCCAAGCTCTGATCGATGATTATGAGCAAAAGCTTGATTACCTGCAAAAGCAGGTCAGTCATGGTAAACGCTAG
>SRR1919932_01049 PTS fructose transporter subunit IID
ATGGACAACGCTAAGAAACTGGACAAAAAGACTTTAAGCAAGTCATTCAACTTATGGTTCTGGGGGGCATTGACCTGTTTCTCCCAAGAACACATGCAGACTTTTGGATACATGGCTTCCATGCTGCCAATTTTGAAAAAGCTTTATCCAAAGCATGAAGACCAGGTCAACGCTATCCACGCTTACACGGCCTTCTTCAACACCAACCCAATGCTGGGTTCAGTGATCGTTGGTATCACGGCAAGTATGGAAGAAGCCCGGGCAAATGACCGCGGGATTGACGGTGAAACGATCAACGACATGCGGTCCGGTTTGATGGGGCCAATTGCCGGGATCGGTGACTCCTTGATCGACGGGACTTTGATTCCAATTCTTCTGGGTATCGCTTTAGGTATGTCCAATGGCGGCTCACCAGTCGGTGCCATCTTCTACATCATTGTTTGGGTACTTTTGGCCTACTTCGGCCAGCGCTTCCTTTACTTCCGCGGCTACCAGCTGGGGGACAAGGCGGTAGAGTTCCTGGTTGGTGAACAAGGCGCTGCTGTCCGCCGGGCAATTGGTACGGTTGGTGCCATGGTTGTCGGCGGGGTGCTGGCATCATGGGTTAACGTCACTACCTCTTTGAAGCTGTACAACTCAAACGGCAAGGTCTTCCTGGACCTGCAAAAGCAGCTGGACTCAATCTTCCCAGGGCTTTTGACCGTTTTGATCACTATCTTCTGCTGGTGGCTGATGTCAAAGAAGCACGTTTCAGCAATCTGGACTATGCTGATTTTGGTCGTAATTTCCTTTGTCGGTGTCCTGGTTGGCTTCTTCAACCCAGGCCTGTCCTACTAA
>SRR1919932_01050 mannose/fructose/sorbose-specific PTS system IIC component
ATGACAATTAATTGGTTCCAGGCTGCCATCTTGGGCTTGTTCGCATGTTTGTGTTCCAACTCATGTATGGCAGGGCAAGCAGTAGGTAACTACACGATTGGTCGTCCTTTGGTCGGCGGCTTGGTCTGCGGGATTATCTTGGGCGACTTGAAGCTCGGGATTGCCTGCGGGGTGGCCATGCAACTGGTCTACATCGCCTTGGTTACTCCAGGTGGTACCGTTTCAGCCGACGTCCGGGCAATTTCCTACATCGGGATTCCCCTGGCCATGGTGGCAATTTCCGCGCAAAACTTGAACCCGCTGAGTACTTCAGCCGCTAACTTGGCTAAGTCAGTCGGTACCCTGGTTGGTACGGTCGGCACTGTTCTATACTACGCCGTTGCGACGATGAACTTGGTTTGGCAGTCATTAGGCTGGAAGGACGTTGAAAACGGCAAGCTGGACAAGCTGTACTCAGTCAACTTCGGCTGGCCATGGCTGTCCCACGCTTTGTTCTCCTTTATCCCAACCATGCTTTTGACGCACTTTGGGGCAACTGCTGTTACTGCTTTGCGTAACGCTTTGCCAATGGACGGGATTCCAATGAAGACCCTGTTTACGGTCGGCGGGATGCTGCCATGTGTCGGGATCGCTATCTTGCTGCGGCAGATCGTTAACAAGCCAATGGATTTCGTGCCATTCTTGGTTGGTTTCACTTTCTGTGCATCCCTGCACTTGAACCTGGTTTCAGTTACGATCGTTTCCCTGCTCTTTGCCGCAATCATGTACGAAGTACAAATGGTCGAAAGCAAGCGGGTAACGGTATCAGCCGGCTCAATTGATGATGACGATGAGGAAGAGGAGGACATCTAA
>SRR1919932_01051 mannose/fructose/sorbose-specific PTS system IIB component
ATGTCAGTTTCATTTGTAAGAATTGATGACCGGCTGATCCACGGGCTGATTACCACCCGTTGGGGGAAGGAACGTCCTTGTGACGGGATTATTGCTGTTAATGACAAGGCAGCAAAGAACAAGATTTTGAAAGAAGCCTATCAAGCAGCGGCCGAAGGGAAGAAAACTTTTGTCTGGACGATGGAGCACTTTTTAAAGGTGCAAGACAAGGTCTTGAACTCAGACACCCGTTACTTCTTGATTACCAAGAGTCCTCTGGACATGAAGAAGATCCTGGTTGACGAAGGCTTTAAGCCAAGCGACGTAAAGGTAGTCAACGTTGGTCCAGGCAATGACCGGCCAGGTGCGATCAAGCTCGGTGACAACCAGTCCTTCACCCAAGAAGAAGGGGATGCCTTTGAAGCGATCGAAAAGGCCGGCTACACGGTTGACTTCGCCTTATTGCCAGATCAAAGAATTGGTGAATGGTCAAAGTTTAAGTCAAAGTTTGGTTACTAA
>SRR1919932_01052 mannose/fructose/sorbose-specific PTS system IIA component
GTGAAATATGTACTTTTGGTCTCACATGGCAAATTTGCAGAGGGCTTGAAGACTTCTCTGGAAATGTTTACCGGTGACACGGAGCGTATATTTGCAATTGGCCTGCATAATGGGAAATCAGCTGATGACTTCAAGCAAGAAGTCAAGAGCCTGCTGGACCAGCACAAGTTTACCGCTGACGATGAATTTGTGATCTTGGCAGACTTGATTGGTGGCAGTCCCTTGACCAGCTTCTTGAGCGTGGCGGCTGATTACGGCCTGCTCGACCGGGCAACGATCTTGGGCGGGATGAACTTCACCATGGCTCTGGCAGTTGCTGTTTCCTTGGATGGAATGGACCGGGAGACATTGGCGGCTACTGCCTTGAGTGAAGCCAAGGAAGCCTTAAAGGAATACAAATTATCAGCAGACAGCGCTGATGACGATGATGATGAGATTTAA
>SRR1919932_01053 ribose ABC transporter substrate-binding protein
ATGACCTTTCATGACAAGCGGAAGTTTAGCAAGCAGCTGGTCTGCAGCACTTTCGCCACTGTCGGTCTAATTCTACTTACATATTTTCTGCTAAATCTGCATCCCTGGACCAAGCGGCAATACACAGTCGGGACCAGCTACATGACCATGAACAACAACTTCTATGTCATTTTGAACGAACAGATCGCCAACTCGGTCAACCAGCATGGTGACCGTTTGATCACCCGGGATCCGGCATTAAAGGTCGACAAGCAAGTCCAGCAGATTAATGATTTCATCAAGGAAAAAGTCGACTTGATCGTCATTGCCCCAGTCGACGGCAACTCTGTGAAAATCCACCAGGCTTTAAGAAAAGCGCGGGCAGCTGGCATTAAAATTATCAATGTCGACACGGAAATGAAGTGGGCAGACGCTAACTGCACGATTGCCACTGACAATTACCGGGCCGGCTCCCTGGTCGCCCGTTACCTTCTTAAAAAGGAAAAACAGGCAAAGATTCTTCTCTTGACCCAGGCCAGTGCATATTCTGCTAAAGAACGGATCAGCGGCTTCTGCGCAACGCTTTCTAATAGCTCAAAGGCGAAGAACTACAAAATAGTCGACCGGCTAGAGACCTTTGGCCAGTCAGAAATTGCTCTGCCAAAAGTCACGGCTTATCTGAAAAAAGGTAAAAGCTTTGACACGGTCATGGCCTTAAACGATCAAGCCGCCATCGGGGCCCTGTCAGCAATCGCTGCTCAAAAACTGGATAAAAAAATCCACGTTTACAGCGTTGACGGCTCCCCCAACATGAAATTGCTGATCAGCAAGAACTCTAACGCGGTAGCTACTGCTGCCCAGTCCCCGGTCAAAATGGGCAAAAGCAGTGCTAAGGCTATCTACGGCTTACTGAAGGGGGAAAAGGTAAAAGAGAAGATTGTCATACCTACTGAGATAATCGACCGGGGCAATCTTAATCATTACGGAACGACGGGGTGGCAGTAA
>SRR1919932_01054 histidine kinase
ATGTGGCTGAATACAATCATTGTGCTTTACATCTCTGCAATTTTTTACGGGGCTTCGGTCTATATCGTCAACCACAATTTCAGCTACCAGTTCTTGAACCAGTTGAACCGGATTCCCTTTTCTCCCGTAGCTATTTTCTGGACAGCTAATTTGACCATGCTGCTTCTGGCAACTATTATGACAATTCGCCATCATAGCAGTCATTCAGTCAATTCCAGCGCGTCATTCTTCATCATTGAAATCCTCTTGTCGATAATCATTTATATTGCCTTGCAAACCAGCTACAATGGTCTCTTTCTGCTAATCTTGGTTGATTACTTCCTATTCAGCCGGAACATGGCCCACATTCACCACCTGCCTTTTTGGGTCAGCATCTCCCTGCTTTTTCTCTTGCTCTATTCAGTCTCTGATTACGCGATCTTGGGCAGCTTCTTGAACATGCCAAATCTGACCAGCTATATCAGCTTTCTGCCGGTAAAAATCCGGACCAAGTTGATCATCATCAAAAATTTCTTAACAACGCTTAACCTGCTCTGCTTCATCGGTATTATCGCTGCTTACGGTCTTTACCTGCTTAACCAGGATCGCAATATCCAGGAAGAGCTTTCCCAGGCGGCCCGGACAAATCTTGAATTAAAGAATTACGCGGCCTTGTCAGAAAAAATCGCCCAGAACCGGGAAAGAAAGCGAATCGCCAGGGATATTCACGACACCGTTGGCCATGCCTTGACAGGTATTTCAGCCGGCGTTGACGCGACCAAAATGCTGATTGACATCAATCCGCAAGCCGCCAAAGAGCAGTTAGACAAAATATCGGTTGCTACCAAGCAAGGGATCAAAGATGTCCGTAAAACGCTCAATCAAATGCGGCCCGGCGCCCTTAATGGCTATACCCTGGAAGCCTCCCTTAAGAAAATGCTGCAGGAATACAGTGACATCTCCCACTTGCAGATTAATTTTAGCTATGAGTGGCAGCAGCCCGATTTTGAAAAGACAACCGAGAATGTCATCTTCAGAATCATTGAAGAAGCCATCACTAACTCATTAAGGCACGGCCATGCCAGCAAAGTTAATATTTACTGTTTGGAAACTCCGGCAGCTTACCTGCTCAATATCCAGGACAACGGAACCGGGGTGAAGATGATCCGGCCAGGTTTTGGGATCACCCAGATGAAAGAGCGGGTCGCGATCATCAACGGCAAGATTACTTTTGATGGCAGCCAGGGATTTTTAGTCAGCGTAATGATTCCAAAAAAACAGTAA
>SRR1919932_01055 two-component system response regulator
ATGATTAAGGTGTTAGTAGCAGATGACCAAGCCCTCATCCGCGATTCATTGAAAATTGTGCTAGAAGCATCCGGCAAGTTCCAGGTTACTGATACGGCCGGCAACGGCAAAGAAGTTCTGGACAAAATCGCTGTCCGGCAGCCAGATGTCATTTTGATGGACATCCGCATGCCGGAGATGGATGGGACAGTTTGCACCAAGTATGTCAAGGAAAAGTATCCGAACATTAAGGTGATTATCTTGACGACCTTTGATGATGATGATTTTATCTTCAGCGCTTTAAAGTACGGGGCTTCGGGCTACCTGCTTAAGGGGGTTGAACCAGCTCAGCTTTACCAGGCCATTGAAACAGTCTACCGGGGCGGGGCCATGATCAACCCGGATATCGCGCAGAAAGTCTTCACCCTCTTTTCCAGAATGGCGCAAAGCAATTACGCAATCAGCGTCAATGACCAGGAGGCCCGGGACTTCACACCGCATGAACTCCGGGTAATCCAGCAGGTTGGCTTTGGCCTGTCTAATAAGGAAATCGCGGCCAAGCTGTTTTTGAGCGAAGGCACTGTCCGCAACTATATTTCAAAAATCTTGGACAAACTTGACCTGAGGGACCGGACCCAGCTGGCAATTTGGGCCATTCAAAGCGGCGTCACCAGCGAGGTAATCAACGATGACCAAGCAGACAAGCAGTAA
>SRR1919932_01056 sugar-binding protein
ATGACCAAGCAGACAAGCAGTAACCGCATCAATTCCACTTGGCTGGTTTTATTGCTGATCGTCCTTCTTTGCGCGGCTTCTGCGGCTATAGGTGATTATTACGCGGAAAAGTCAAAAACGCTGACGGTTGCTTTTTATACTGGCAGCAGCTGGGACGCGCCAAGTGGCAAGCCCTATCAGATGATCGACTACGCGATTAAAAAATTTCACCGTAAGTATCCAGACGTTAAGATTCAATACGAAACTGGGATTACCAAGAAAGACTATATCAATTGGCTAAGCGGCAAGATCGTTTCTGGACAAACTCCAGACGTTATTTTGGTGCCCGACGAAAACTTTGCCACAATGGCATCCGAAGGCGTGTTGACCAGCTTGGACCGGTTTATTGACAGCGACAAGCTTGATACTAGCAATTTTTATCAGCCGCTGCTATCCAGTGACCGCTACCTGGGTGCTCAGTACGCCCTGCCCTATGAAGCTAATCCCCAGCTGATGATCTACAATCAAAGCCTGCTGGAAAAATATGGCCTGCCAAGTAAGTTATCTAAGCCAACGGTTGATGAATTTGAAGCAATCAGCACCCAGCTCAGCAAGGTTAAAGGGAAAAAGCTTTATGGGACAACCAGTGACTTTAACTGGTATAACGCGGCAGCAGCTTATCAAGATGAGCCTTTTAACATCAGCGACCGCCGCATAAATTTGACCAGCAGCCGCTTTAGCAAAGCAATCAAGTTAATGCAGCAGCTTTACGCTAACGCGGGAAATATGAACGTAACCAGTGATCTTTTTGACGAAGGGAAAGTGGCTTTTGAACCAATCTATCTGGCTCAGTACCGGACCTACACCTCCTATCCCTACCATGTCACCCGGTCCTATAACTTCCAAGTCGACTGCTGTCAGATGCCAAGTCTAAAAGGCAGCAGCAGCACAAGTATTGAAAGCAGTTCCTGGGGGATTGCCAATAGCAGCGCAAATAAGCGAATGGCCTGGCAGTTCATTCAAATGCTCTGCTCAGACCAGGAGTTGCAGCAAAAGCTGATGGCCAGTTCAACTGGGAGCTCAGTCTTAAAATCAGTTGTCCAAAGCCGGGCAACGGCGAAAGTTCTCCACCAATATGGCTCTGATTCTCAGAGTTTGAACAATTGGCAGCTGGATAATTTACTGAAGAGTGGCAAACTCGCCCCGCGTTTTAAAGAGTATACGGAAGTGATCAACTTGCTTAATTCACGTTTAAATACCGCGTTACAGAACGGGGACGTCGATACCGAACTCTATGACATCCAAACCGATGTTAACAACCTTTTAAAATAA
>SRR1919932_01057 hypothetical protein
ATGTTTACGATTTCGTTTTTGATTTTACTGATATTTTTAACTATTGTGGCCGTGCCGGTGGCGATCGCCGCTTTTCTGCTCAAGGTCTCATTTAAGATCCTGGGCTGGCTAATCGGCATCTGCTTTATTTTGGCCTTGCTGATCAGTTTGCTATTGATTAGCGTGATGTAG
>SRR1919932_01058 hypothetical protein
ATGTTCGCGATTGTATCTGCCTATCACCAGTTTGAGCAAAAGACTTTCAGCGGCGACCGCCTCTTTATGTTCTATACCTTTTTCGTGGTTTTTCTGGGGATCGTGATCCAGGAAGTGAGCGGGGGAGCTTTGCGGACGACATCATTGACGATTGCGATCGGGATGTGCTTTTTGCTGAACCGCTTCAACAATTTTACCCAGAAGGTCAGCGATTTGAAGATCAGCCGGGACAATGTCGTGATGCGGACGGATATTATGACGGGGATAGTAAAAGCAAGAAGGTTGACAGTCCGCGCCTGCTTGGGTTACCTTAAACTTGTATTTAGGGGATAG
>SRR1919932_01059 hypothetical protein
ATGTTGGATGGCGTCTCGGGCCAATACAGAATATGGTTGGTAATCAACAAGTTTTTAAACTACAGGTTAAAACCATTTCTAGGCTACTTCGTTATTCATATTTGGGTGCGGCATTCAAAGTATGACCGCCTGCTGGCAGTATTGCTGCCGGGGAATGTTCTCTTCCAGCTTGCGTCAATTGCTACTGGCTAG
>SRR1919932_01060 oligopeptide ABC transporter substrate-binding protein
ATGGGCTTTGCTGTCTTCTTCCCGCAGTCAGAAAAGGCTGTTGCCAAGTACGGTTCTAAGTACGGTACGGCTTCTAAGTACGTGCTCTACAACGGGCCATTTAAGCAAGTTGGCTGGACTGGCTCAAACCTGTCTTGGAAGATGGTCAAGAACCCATACTACTGGGACAAGAAGAACGTCAAGCTTGACACGATCACTTGGAGCGTACAAAAGACTCCATCAACTGCTTACAACTTGTACCAGTCAAACAAGCTGGACTACACTGGCCTGGACGCTTCACAAACCAAGCAATTGAAGAACCAGAAGGGCTACGTAACCTTGAACCAAGGTGCTACCTTCTACCTGCAATTCAACGTTGCCAAGAACAAGTACCTGGCTAACACCAACATCCGCAAGGCCTTGTCACTTGCTGTTGACCGGAAGGGCTTGACTTCATCCCTGGGCGGCAACAGTGTTCCAGCCAACACTTTGACTCCAACTCAATTGACTGACGTTAACGGTGAAGACTACACTAAGCGGATCTCCAAGTCTGCTAAAAGCTTCTACCCAGCTTCAACCAACAAGAAGGAAGCCGTTAAGTACATGAACAAGGGCTTGAAGGAATTGGGCGTAAGCAAGTTCAGCTTCAAGATCTTGTCTGACGACACTGACGCCGGCAAGAAGACTACTGAATTCCTGCAATCAACCTTCGAATCAACCTTCGGCAACAAGGTTAGCGTTTCAGTTCAAAACCTGCCATTCAAGACCCGTCTGTCACGGTCAACTGCCGGCAACTTCGACATCGTTGTCTCCGGCTGGAGCGCCGACTTCGCTGACCCGATCTCCTTCCTGGACCTGTTCACTTCAACTAACCCAGAAAACAAAGGTAAGTGGAAGAACACTTCCTACGACAAGCTGATCGCTGACTCCAAGACTACTGCTTCAACCAGCAAGCGTTGGGACGACTTGACTAAGGCAGAAGACATCCTGCTGAACAATGTCGGTGTTGCTCCGCTTTACTACAACACTAACGCTGCTTTGATCCGTCCAACTGTTAAGGACGTATACCAAAACCGTGGTACTTGGAACTTCAAGGACACTTACATCAAGTAA
>SRR1919932_01061 oligopeptide ABC transporter substrate-binding protein
ATGAAATTATCTAAGACTTTAAGCCTGGGAGCCACGGTTCTGGCTTCAGCAGCGTTGCTCGCTGCTTGTGGCAGCAATAGAAGTTCTTCTTCATCCAGCAGTAAGAAGACCTTGACCTGGATGGACTCAGCCGAAATTCCAACGATGGACCTCTCAAAGGCCACCGATGCGGCTTCCTTCAACCAGATTTCCAACACCATGGAAGGTCTCTACCGCTTAGGCAAGAATTCCAAGCTGGAAAAGGGCCTGGCTACCAGCGAAAAGGTTTCTAAGGACGGGAAGACCTATACTTACACCTTGCGTAAGTCCAAGTGGAGCGACGGCAGTGAATTGACCGCCAAGGACTTTGTCTACTCCTGGCGCCGGACCGTCAACCCGAAGACTGCTTCTCAATATTCTTACCTCTTCTCCGGAATCAAGAACGCTGACGCTATCGTCGCCGGCAAGAAGCCAGTCAGCTCTCTGGGGATCAAGGCTGTTGGCAAGTACAAGCTGGTTATCACCCTGGAACGGCGTATCCCATACTTTGACAAGCTGATGGGCTTTGCCGTCTTCTTCCCGCAGTCAGAAAAGGCTGTTACCAAGTACGGTTCTAAGTACGGCACGGCTTCTAAGTACATGCTCTACAACGGGCCATTCAAGCACGTTGGCTGGACCGGGTCCAACCTGTCCTGGAAGATGGTCAAGAACCCATACTACTGGGACAAGAAGAGCGTCAAGCTCGACACCATCAAGTGGACTGTTCAAAAGACTCCATCAACTGCCTACAACCTCTACCAGTCAAACAAGCTGGACGCGACTGCTTTGGACTCTTCACAAACCAAGCAATTGAAGAACCAAAAGGGCTACACCGAACTTAACCAAGGTGCTACCTTCTACCTGCAATTCAACATTGCCAAGAACAAGTACCTGGCTAATGCTAACGTCCGCAAGGCCCTGTCACTGGCTGTCAACCGGAAGGGCCTGACCACCACTCTGGGCGGCAACAACCAGCCAGCCGACACTTTGACTCCAACCCAATTGACCAACGTCAACGGGGAAGACTACACCAAGCTGATCCCAAGCTCAGCTGAAAGCCTGTACCCGGCTAACCCGAACAAGAAGGAAGCCGTTAAGTACATGAACAAGGGCTTGAAGGAACTGGGCGTAAGCAAGTTCAGCTTCAAGATCCTGTCTGATGACACTGACGCCGGCAACAAGACCACTGAAGCTCTGCAGTCTAACTTCGAATCAACCTTTGGCGACAAGGTCAGCGTCAGCGCGCAAAACCTGCCGTTCAAGACCCGTCTGTCCCGGTCAACTGCCGGCAACTTCGACATCGTTGTCTCCGGCTGGAGCGCCGACTTCGCCGACCCAATCTCCTTCCTGGACCTGTTCACTTCCACCAACTCTGAAAACAATGGTAAGTGGAAGAACGCAACTTACGACAAGCTGGTTGCTGACTCCAAGACTACTGCTTCCGCAAGCAAGCGCTGGAGCGATCTGAGCAAGGCTGAAACCATCCTGCTGAAGGATGCCGGGATCTCACCATTGTACTACGACACTAATGTCTGGATGATCCGTCCAAGCGTCAAGAACGTCATCCAAAACCGTGGGACTTGGAACTTCAAGGACGCCTACATCAAGTAA
>SRR1919932_01062 oligopeptide ABC transporter substrate-binding protein
ATGAGAAAAGAGAAGTTATTCGCTACCGGCTCAGTTTTGCTCGCCTCAGCTGAGCTTCTGGCAGCCTGTGGCAGCTCATCAAGCAAGTCAAGCTCATCATCCAAGGCACAAAAATTGTCCTGGACGGAAGCTGCCGAATTGACGACCATGGACCCGTCCAAGGCTACCGACCGTTACGACGCTGACAGTTCAACAATGTCATGGAAGGTTTGA
>SRR1919932_01063 oligopeptide ABC transporter substrate-binding protein
TTGATCAGGCTGGGCAACAATGCCAAGCCAACCCCGAGGATCGCCAAGAGCTGGAAGGAAAGCTCTGACGGCAAGACCTGGACCTTCAACCTCCGCAAGGGCGCTAAATGGGCCAACGGGGATGAAGTTACCGCCCAGGACTTCGTCTACTCCTGGAGAAGAACGGTCAACCCAAAGACTGCTTCTGAATATGCCTACCTGTTCTCCGGCATCAAGAACGCTGACGCGATCGTTGCCGGCAAGAAAGCAGCCAACACTTTGGGCATCAAGGCTGACGGCAAGTACAAGCTGACGGTGACCCTGGACCGGAGAATCCCATACTTCAAGCTGTTGATGGGCTTCTACATCTTCTCGAAACCAACTTGA
>SRR1919932_01064 oligopeptide ABC transporter substrate-binding protein
TTGAACGCCCAGCAAAGCAAGCAGCTTAAGGGGACGACCGGCTGGACTGTCAGAAAGTTTGCCTCAACCAAGTACCTGCAATACAACATCGCCAAGGACAAGTACTTAGCCAACGCCAACCTGCGTAAGGCCATCTCCCTGTCCAAGACCACTGGGTCAACCGCAGTCCGCTGGAAGGCAATGGTGGCTGCTGAACGGGCCCTGCTGGAAGACCAAGGGGTTACCCCGCTGTACTACACCAACGAAGCTACCCTGGTTAAGACCAGCGTCAAGGGCGTTGTCTTCAACGGTGCCGGCTCACCTTACAACTTCAAGGAAGCCTACATCAAGTAG
>SRR1919932_01065 oligopeptide ABC transporter substrate-binding protein
GTGAGTAATTTTAAAAAGCTTCTGACGGCAACTGTCGCCGTATCCGGCGCCTTCTTGCTAGCAGCCTGCAGCAAGACCGCGACCAAGTCAGCCAAGCCTGTGTCCAGCAGCGGATATGAAAAGTCAATCAACTGGATGACCACTTCTGAACTGGAAAGCCTGGACCCGGCCAAGGCCGACGATACAGCCAGTGAGGAACAGATCGCCAATACCTATGAAGGCCTCTACCGGCTGGGCGAAAACTCCAAAACCGTTCCGGGCGTGGCTACCAAGAGCACGACCTCTAAAGACGGCTTGACCTGGACCTTTTACTTAAGAAAGGACGCCAAGTGGTCAAACGGGGACCCGGTAACGGCGGAAGATTTCGTTTATGCCTGGCGCCGGCAGGTTGACCCCAAGACTGCTTCCAGCCAGGTCAACAACTACGAAGGCATCAAGAATGCTATCAAGATCTCTGAAGGCAAGAAGAAGCCGTCCAGCCTGGGTGTCAAGGCCGAAGGCAAATACAAGCTGGTTGTGACTTTTGAAAAGAAGATTCCTTATTTTAAGGTCGTTACGGCCATCAGCTTGAAGCCGCTGGACTCCAAAGCTGTCAAGAAGTACGGCAAGCGCTACGGTACCAAATCCGCCTATGCCGTCTACAACGGGCCTTTCAAGTCCGTGGGCTGGACTGGGTCCAACCTGACCTGGAAGCTGGCTAAGAACCCGTATTATTGGGATAAGCAGGCAGTTAAGCTGGAGACGATCAACTACAGTGTCCAGAAGACCCCGTCAACTGACTACAACCTCTACCAGACCGGGAAGCTGGACGCGGCCATCTTGGACACCCAGGCAGCTAAGAGAATGAAGGGCAAGAAGGGCTACCGGGTTCTGACCTTGGGCAACACCACCTACCTCTGCTACAACTACAAGAAGAAAAAGATCTTCCGTAATGCCAACTTGCGCCGGGCCATCTCCATGGCTATCAACCGCAAGCAGCTCTTGTCCACGATCGGTACCTACAACACCCAGGCCAAGACCTTCTCAGCCACCAACGTGGTTTTAGACGGGAAGAATTTTGCCCAGGAAGTGGAAAGTGCCAACTCCAGCGTGAACAAGTACGTGGAATACGACCTCAAGTCCGCCCGCAGTTACTTCAAGAAGGCCTTGAAGGAACTGGGCGTCAAGAAGGTTTCCTTTACTCTGATGGCTGACGACGACGACAGCTACAAGAAGCAGACGGAATTCATCCAGAGTGCCTTGACTGAGGCTTTTGGCGGCAAGATTACCGTTTCCGTCAACAACCTGCCAAAGACGACCCGGGTTTCCCGCCAAATTGCCAATAAATTTGACGTCGTTTTAGGCGGCTTGACCAGTGACTTCCCAGACCCATACCACTTCCTGGCTTACATGCAGTCAGGACAGACTTACAACTTCGGCAAGTGGTCTAATAAGGAATACGATAAGGCTGTCAAGGCTTCCTTGACCATGGACAAAACCAAGCGCCGCAAGGCCTTGCTCAAGGCGGAAAAGATCCTAATCGACCAGGAAGCTATCAGCCCGCTTTACCACATGGGTCAGGCCTGGATGATCAGACCAAATATCAAGAACCTGGTCTTCAACGGCGAATACCCAGACTTTAAGACAACTTACGCGGTTAAAAATTAA
>SRR1919932_01066 oligopeptide ABC transporter permease protein
ATGGCTAAATACTTGCTAAAACGTATTTTCTACATGATCCTCACTTTGTTCCTCGTTGCGACGATTACCTTCTTCTTAATGAAGATGATGCCGGGTTCTCCGTACGCCAACGAAGCAAAGATGACGGCTACCCAAAAGGCAATTATGAACAAGCAATATGGCTTGGACAAACCTATTATCGAACAATACATCACTTACCTGGCTGGCGCCGCGCATGGTGACTTTGGGATTTCCTTCCAATACAGCAACCAGCCTGTTTCCAGCTTGATCGGGGCGCGTTTGGGCGCTTCTGCTCAATTGGGTCTGCAAGCTCTGGTTGTCGGGATTATCCTGGGGGTCATCATCGGCTCAATCGCGGCCGTGAACCAAGGTACCTGGATCGACTCCACCGCGACGATCGTTTCCATCATCGGTAAGTCGGTTCCTAACTTCGTTCTGGCGGTATTGCTTCAATACTACATCGGCTTGAAGCTGGGCTGGTTCCCAATCGCCGGCTGGGGTGAAGCAGCACAGACGATCATGCCGACGATCGCCCTCTCGGTAGGGCCGCTGGCCGAAACAGCCAGATTTATCAGAACGGAAATGGTCGACACCTTGAGTTCCGACTACGTTGAACTGGGCAAGGCCAAGGGTCTTAGCCGGATCGAAGTCATCAGAAAGCACACCCTGCGTAACTCAATGATTCCATTGGTTACCTTGATCGGGCCATACGCCGTTGCTTTGATGACTGGTTCAATGGTTATCGAAAACATCTTCAACATTCCTGGGATCGGGGAACAGTTCACCAAGTCAATCCTGACTAATGACTACCCAACCATCATGGGTGTAAGTATGGTTTACTGCTTCGGTTTGGTGGTAATCCTGCTGCTCACTGACATCGTGTACAGTCTGATCGACCCACGGATCAGACTGACTGACTAA
>SRR1919932_01067 oligopeptide ABC transporter permease protein
ATGGATCAAGACGCAAGTAACGTAAAGATCACACCTGAATCCTTTGAACACGTGGAAAAGGGTGACACGCAAAGTGCGGAACACATTTCTGGTCCCTCACTTTCTTTCATGCAGAACGTGTGGATCAGATTCAAGAGCAACAAGGCAGCCATGATTTCCGCTGTGATCATCATCGTGATGGTGGTTATCGCTTTTGGTTCCAGCTTCTGGATCAACAACTCCAGCTTGGTTAAGTCAGCTCCGCAATACGCCAACCTCCCGGCCAAGTGGAAGGGCTTTGACTGGCTCAACGGCTTGAACGGGAAGATCAAGCAAAACGGCGTTTGGACTGATGCTTACGCTTCAGTGCCAGCTGGCAAGTACTTCGTTGCCGGGACCGACTACCTGGGCCGGTCATTGGCCCAAAGAATCATCTACGGTACCAGGATCTCCTTGATCGTTGCCGTGGTTGCCGCCTTCTTCGACCTGGCCATCGGGGTTGCCTACGGGATCATCTCCGGTTGGAAGGGCGGCATGACTGACAACATCATGCAACGGATCATCGAAATCATTTCTTCAATTCCAACTCTGATTATCGTTGTTTTGATGCTGGTTGTCTTGAAGCCCGGCATCACTTCCATCATCTTGGCCCTGGCCATTTCCTCATGGACGACCATGGCTCGGCAGATCCGTGCCGAGACACTGTCTTTGAAGAATGAAGAGTACGTTCTGGCAGCCCGGTCCTTGGGCGAATCAACCTTTAAGATCGCTACCAAGCACCTGATTCCAAACCTGTCCAGTATCATCATCATTCAAACCATGTACACCATCCCGAGTGCCATCTTCTTCGAAGCCTTCCTGAGTTTCATCGGTATCGGTATTTCCGCGCCTGAAACTTCCCTGGGTGTGCTTTTGAACGAAGGGCAGAAGAACTTCCAGTTCCTGCCATACCAAATGTGGTACCCAGCAGCAGTCCTCTGCGTTTTGATGATTGCCTTTAACCTGCTCGGTGACGGTCTGCGTGATGCCTTCGACCCTAAGGGCCAAAGATAA
>SRR1919932_01068 oligopeptide ABC transporter ATP-binding protein
ATGGCAAATAGAATTTTAGACGTTAAAAACTTAAAGATTGACTTCCACACTTACGCTGGTGAAGTTAAGGCCATTCGTGACGTTTCATTCCACCTTGATGAAGGTGAAACTTTAGCGATCGTTGGTGAATCCGGTTCAGGCAAGTCCGTTACCACCCGGAGCATCATCGGCCTTTTGGCCAAGAACTCCCAGATCATGGGTGGGCAAATCCTTTTCCACGGCAAGGACCTGCTGAAGATTTCCGAAAAGGAATGGCAGCAGATCCGTGGTAACCAGATCGCCATGATCTTCCAGGACCCAATGACTTCTTTGGACCCGACCATGAAGATCGGCCAGCAGATTGCTGAACCATTGATCAAGCACAAGGGCGCTTCGAAGAAGGAAGCCTGGGCTAAGGCCTTGGAAATGATGAAGGCTGTTGGTATTTCGAACCCTGAAGAAAGAATCAACCAATACCCGCACCAATTCTCTGGTGGTATGCGGCAAAGAATCGTTATCGCCATTGCCTTGATCTGTGAACCGGAAATTCTTTTGGCTGACGAACCAACTACTGCCTTGGACGTTACTGTGCAAGCTGAAATCCTGGACTTGATGAAGGACTTGCAAAAGAGGGTCAAGACTTCCATCATCTTCATCACCCACGACTTGGGTGTCGTTGCCGGGATGGCTGACCGCGTTAATGTTATGTACGCCGGGGAATTTTTGGAAAAGGGGACGGTTGACGAAATCTTCTACAACCCGCAACACCCTTACACTTGGGGCTTGATCAACTCCATGCCGACCCTGACCAGTGAAAAGCTGGAATCAATTCCAGGGACTCCGCCAGACTTGCTTGATCCGCCAAAGGGCGACCCATTTACCCCGAGAAACAAGTACGCGATGAAGATCGACGCGCAAATGAAGCCGCCGTTCTTCAAGGTTTCAGAAACCCACCAAGCTGCTACCTGGCTCCTGCACCCAGACGCGCCAAAGGTTACTCCGCCTGATGAAATCGTGCGTCGCTGGGAACACTACAAGGAACTGCAAGCAGCTGACAAGGATTAA
>SRR1919932_01069 oligopeptide ABC transporter ATP-binding protein
ATGCCAGAAGAAAGAAAAAAGATTTTAGAGGTCAAGCACTTGAAGCAATACTTCAAGAACGGACGCACCGTCACCAAGGGTGTCGACGACGTCAGCTTCGACATCTATGAAGGTGAAGTCTTCGGCCTGGTTGGTGAATCAGGTTCTGGTAAGACCACCACTGGCCGGTCAATTTTGCAGCTGTACAAGCCAACGGCCGGTGAAGTCCTCTTTGAAGGCAAGGATGTGGCCAAGCTACATGGCCGCGACGAACAATTGGCTTTCCGCCGCGACGCGCAGATGATCTTCCAGGACCCATACGCTTCCCTTAACCCAAGAATGACGGTTGAAGACATTATCGCGGAAGGGCTGGACATCCACCACTTGGTTAAGGACAAGGCAGAACGGCGCAAGCGGGTCGAAGACCTGCTGGAAACGGTTGGTTTGAACCGTAACCACGCTTCCCGTTTCCCACACGAATTCTCCGGTGGTCAGCGGCAAAGAATCGGGATCGCCCGGGCTTTGGCCGTTGAACCGAAGTTCATCGTGGCCGACGAACCTATTTCAGCCTTGGACGTGTCCATTCAAGCCCAGGTTGTCAACTTGATGATCGACTTGAAGAAGCAGCATGACTTGACTTACCTCTTCATCGCCCACGACTTGTCCATGGTTAAGTTCATCTCTGACCGGATCGGGGTTATGCACTACGGTAAGCTGCTGGAAGTCGGCAGTGCTGACGAAGTTTACGACCACCCGCTGCACGACTACACCAAGAGTTTGATCTCTGCCGTGCCGCAACCAGACCCGGAAATCGAACGGTCCCGGAAGCGGATCGATTACGAATACGGCAAGTTCGAAGGCGACGGTAAGGACGATCAACGGTCCATGCACGAAATCCGTCCAGGCCACTTTGTTAAGTGTACTGACGATGAAGTTGCCTACTACGAAAAGGTTGCCCAAAGCTACGAGAAGTAG
>SRR1919932_01070 hypothetical protein
TTGATAAAGCAAATAAAGAAAGAGAGCTCCAGCGAGCTCTCTTTTTTGTGTTTCGTCTATTTTTCGTTCTTCGAATTGAGCTTTATCGGCTGGAACATTCTGGCCGGCCTGTCCTTGGGGATCGGCTTCCTCTGGCTGGTGCCTTACTACAACGCGGCTCACGCTGAGTTCTACCGGACTTTAGCCGGCGACCAGTTTAAGAGCAAGGATTAA
>SRR1919932_01071 aminopeptidase C
ATGAGTCATGAATTAACTCTGCAGGAATTGGCGGAATTCAGCGCCAATTTCAATGTTGACCCTAAGAACCAAGTCATCGCCCGCGCTGCCGCCAGAAGCGGGGTTCTGGAAGCTTCCTACAACGAACGCGTGGCTGGCCGCCTAACCCGGGTCTTTTCAACTGAATTGCCAACGGACAACGTCACCAACCAAAAGCAGTCCGGCCGCTGCTGGCTCTTCTCAACCTTGAACGTCTTGCGCCACGACTTCGGCGCCAAGCATAAGGCCAAGAACTTTACCCTGTCCCAAAGCTACAACTTCTTCTGGGACAAGCTGGAAAGAGCCAACCTTTTCTATGAAAAAGTGATCGAAACCGCTGATAAGCCATTAGACGACCGGGAAGTCCGCAGCTACTTCGACTTCGCCGGCCACGACGGCGGCCAATGGCACATGGCCATCTCTTTGGTCAAGAAGTATGGTGTCGTGCCAAGCTACGTTATGCCTGAAAGCTTCAACACTTCCGCTACTAACGGTTTGGCCAGCGCCCTAGCTGACAAGGAAAGAAAAGACGCCCTGGCCTTGCGCCGCCTGGCTCAAGCAGGTGACCAGGAAGGGCTAGAAAAGGCCCGCAAGATCTTCTTAAACGAAATCTACCGGATGGTTGCCATCGCCGTTGGTGAACCGCCAAAGACTTTTGACCTGGAATACAGAGACGACGACAAGAACTACCACCTGGAAAAGGACTTGACCCCAGTCTCCTTCTTCAACAAGTACTTTGACGTCGACCTGGACGACTACGTGGTCTTGACCAACGCTCCAGACCACGAATACGGCAAGCTCTACCACCTGGGCGCTGAAGACAACGTTGAAGGCGGCAGCCCGATCCTCTTCTTGAACGTGCCGATGGAATACCTGGAGCAAGCCGCTGTTGCCCAATTAAAGGACGGGGAAGCTGTCTGGTTCGGCAACGACGTCCTGCGGCAAATGGACCGCAAGACCGGCTACCTGGACACTGACCTCTACAAGCTGGAAGACCTCTTTGATGTTGACCTTAGCCTGTCCAAGGCTGACCGTCTGGCTACCGGCGCTGGTGAAGTTTCCCATGCCATGACCCTGGTCGGGGTTGATGAAGACAAGGGCAACATCCGCCAATGGAAGGTAGAAAACTCCTGGGGCGACAAGTCCGGGGAAAAGGGCTTCTTCGTCATGAGCCACAACTGGTTCAAGGAATACGTCTACGAAGTCGTTGTTCACAAGAAATACTTGACCAAAGACCAGCAAGAGTTGCTCTCTTCAACTCCTGTTGAACTTGCTCCTTGGGACTCATTAGCCTAA
>SRR1919932_01072 aminopeptidase C
ATGTCACACGAATTAAGCCCCCAGCTCCTGGAGTCCTTCAGCCGGGACTTCAACGCTGATCCTAAAAATCAAGTAATTTCCCGAGCCGCCAGAAGAAGCGGCCTCTTGGAAGCCGCCTACAACCCGGCCGTCAGCCAGCGGCTGAACCGGAGTTTTTCCATCGAGCTGGACACTGACAATGTCACCAACCAGCAGCAATCCGGCCGCTGCTGGCTCTTTTCAACCTTGAACGTGGTCCGGCACAATTTTGGCAAGGCCAACAAGGCTAAGAACTTCACCTTCTCCCAGAGCTACAACTTTTTCTGGGACAAGATTGAACGGGCCAACTACTTCTACGACCGGATCATTGCTACGGCTGACCGGCCTTTGACTGACCGGACGGTCCGCGGCTACTTTGACTGGTGCCAGACCGACGGCGGCCAGTGGCACATGGCAGCTTCCCTCATCGCCAAATACGGTGTAGTACCGGCTTACGCCATGCCGGAAAGCTTCAACAGCAACCACAGCCAGGCTTTGGACATGGTTTTGGCCGACAAGGAAAGAAAAGATGCCTTGACCCTGCGCCGGCTGGCGCAAGCAGGCGACCAGGAAGGGCTGGAGGCAGCCCGGACCGACTTTTTAAGCCAGATCTACCGGATCATGGCTACGGCCTTGGGTGAACCGCCGAAGACTTTTGACCTAGAATTCAGAGACGACGACAAGAACTACCACTTGGATAAGGGCTTGACTCCGGTCCAGTTCTACAAAAAGTACTGTGCGACCGACCTGGACGACTATGTGGTTTTGGCTAATGCCCCAGACCATGAAATGAACCGGGTCTTGCACCTGGGCTTTGAAGACAACATTAAGGGCGGCTACCCTAACCTCTTCATCAACGTGCCGATGGAATATCTGGAAGACGCGGCGATTGCCCAGCTGAAGGACGGAGAAGCTGTTTGGTTCGGCAATGATGTTGGCCGGCAGATGGACCGCAAGACCGGCTTCATGGACCTGGATCTCTACCAGCTGGACCAGCTTTTGGACATCGACAGCCACTTATCCAAGGCTGACCGCCTGGCGACCGGGATCGGGGAATCTTCCCACGACATGGCCCTGGTCGGCGTTGACGTGGACGGCGGGCAAGTCCGGCAATGGAAGGTGGAAAACTCATGGGGCGACAAGTCCGGGGAAAAGGGCTACTTCACCATGAGCGCTGACTGGTTCAGAGAATACACCTACGAGGTCGCCGTGCAAAAGAAGCACGTGCCGGCTGAAATCCTGGACCTGCTCAAGAACCAGCCGATCGAACTTGATCCTTGGGATTCCTTAATTTAA
>SRR1919932_01073 small heat shock protein
ATGACTAATGATTTAATGAACCGTTACAACGACTTGTTCGATCACATGGGCGGCTGGCTTGACAACTCCAAGGACTTCTTGGACAGCCACGCTTTCAGAAACATTTTGCAATCAGACGTTGCTGAAGATGAGCACGAATACACCGTCAAGGTCGACGTGCCGGGGATGAGCAAGGATGACATCCACCTCTCTTACACTGACGGGATTTTGACGATTTCCGGCCACCGCAGCACTTTCAAGGATGACAGCGACAAGAAGAAGAACCTCCTGCGCCAGGAACGCAGCGAAGGGTCAGTTTCCAGAAGCTTCAGCCTGCCGAACGTTGACAAGAAAGGCATTAGCGCCAAGCTTGACGGGGGCGTTTTGACGGTTACCCTGCCAAAGGCAGCTCCAGAAGAAAACGAAGACACGATTACTATCGAATAA
>SRR1919932_01074 transcription elongation factor GreA
ATGGTATATTATCAGAAAATGACCCCCGAGGGCTACAAGCAGATTGAAGACGAGATTGCGGCCTTGAAGGCTGACCGGCCCCGCCGGGTGCAGAACCTGAAGGAGGCCCGGGCCCTGGGCGACTTGTCCGAAAATACTGAATATTCAACCGCTAAAAGAGAACTCCGCCACCTGGACAGCCGGGTCCGCTACTTGAACAAGCAGCTGAAATACGCGGAAGTCATCGAAACGGTCAACGACGGCAAGGTCAACCTGGGCAAGCAGGTGGAAATCCGCTATGAAGACGACCAGGAGGTTGAAGAATACCGGATCGTCGGCCGGATGGAAGAGGCCGTAGGGGATGGAAAACTGCCCTTTGACTCGCCTTTGGGCCACGCCCTGATGAAGCACAAGGCCGGAGACCGGGTGACAGTTGAAGCCCCAATGGGGGACTATGAAGTGACCATTTTGTCGGTCAAGTAG
>SRR1919932_01075 adenylosuccinate synthetase
ATGACATCAATCGCAGTTGTCGGCAGCCAATGGGGCGACGAAGGAAAGGGTAAGATTACAGACTTTTTAGGGACGACGGCAGACCTGTCAGTTCGCGCTAACGGCGGTAACAACGCTGGCCACACGATCGACTTTGACGGCAAGGAATTCAAGATGCGCTTGATTCCATCCGGGATCTTCGCGGCTAAATTGGGCGCCGTGATCGGCAACGGGCTGGTTATCAACCCTGAAGTCCTCCTGGGCGAACTGGACAACTTGGAAAAGAGCGGGATCGACACCAGCAACTTGAAGATCTCCAACCGCGCTCACGTCATCATGCCTTACCACGTAATGCAAGACACTTATGAAGAAGAAGCCAAGGGCAGCCTGAAGGTCGGCACCACCAAGAACGGGATCGGGCCAACTTACATGGACAAGGCTTCCAGAATCGGCATCCGGGTCTGCGACCTGATCGATCCGGAAACTTTTGCGGAAAAGCTCCGCTTCAACCTGGAAAGCAAGAACGCCCTCTTCACCAAGGTTTACGGCAAGCCAGCCATGGACTTTGACGAAATCTACAACAAGTACGTTGAATACGGCAAGCGGATCGCCAAGTACGTTTGTGACACTTCCCTCTACGTCAACGACGCCCTGGACAGGGACGAAAAGGTCCTCTTTGAAGGTGCCCAAGGGATCATGCTGGACATCGACCAGGGTACCTACCCATTCGTAAGTTCTTCTAACTCAGTTTCCGGCGGGATCGCTTCCGGCAGCGGGATCGGGGCTAACCGGATCAAGACTGTCCTGGGCATCTGCAAGGCCTACACTACCAGAGTTGGTGCCGGCCCGTTCCCAACTGAACTGCACGATGAAACCGGCGACAAGATCCGGGACATCGCCCACGAATACGGTACTGTTACTGGCCGTCCGCGCCGGGTTGGCTGGTTTGACTCAGTTGCCCTCCGTCACGCCAAGCGCGTAGCCGGCATCAACGCCTTGAGCTTAAACCTGCTGGACGTCTTCAGCGGCTTTGACAAGATCAAGATCTGCGTGGCCTACGACTTAAACGGCAAGCAAATTGACTACTACCCAGCCAGCTTGAAGGAAGTTGAAGCCTGCCAGCCAGTTTACGAAGAACTGCCAGCCTGGGAAGAAGACATCACCGGCGCCAAGAGCTGGGAAGACCTGCCAGAAAAGGCCCAGGCCTTCGTCAAGCGGATCAGTGAAATCACTGGCATCCCTGTCGTGACTGTTTCTGTCGGCCCAGACCGGGAACAAACCATTGTTTTGCAAGACCCATGGACTCTGTAA
>SRR1919932_01076 GMP reductase
ATGAACAATTATTTCAGCATGGAAGCTTTTGACTATGATGATATCCAACTGGTGCCCAACAAGGCCATCGTGAAGAGCCGGAAGGAATGTGACACGAGCGTCAAGTTTGGAAACCGAACTTTCAAGATCCCAGTCGTTCCCGCCAATATGGAAAGCGTCATTGACGAAAAGCTGGCGGTCTGGCTGGCCCAAAATGGCTACTACTATGTCATGCACCGCTTCCAGCCCGAAAAGCGGGCCGACTTCATCAAGATGATGCATGAGAAGGGACTTTTTGCATCGATTTCCGTCGGCATCAAAGGCGATGAATATGACTTCATCGACGAACTGGTGGAAAAGGACTTGATCCCGGAATACACCACGATCGACGTGGCCCACGGGCACTCAGTCTACGTGATCGACATGATCAAGTACATTAAGGAAAAAATGCCGGACACCTTCTTGACGGCCGGCAACGTGGCAACGCCGGAAGCCGTCCGGGAACTGGAAAATGCCGGCGCGGACGCTACCAAGGTGGGGGTTGGCCCGGGCAAGGCCTGCATCACCAAGCTCAAGACCGGTTTCGGGACTGGCGGCTGGCAGCTTGCTGCCCTCAGAATGTGCAGCAAGGTGGCCAGAAAGCCTTTGATCACTGACGGGGGGATCCGCCACAACGGTGACATCGCCAAGTCTGTCCGCTTCGGGGCCAGCATGGTCATGATCGGGTCAATACTGGCCGGGCATGAAGAATCCCCGGGCAACGTGATTAAGATCGACGGCAAGACTTACAAGCAGTACTGGGGTTCAGCCAGTGAAGTGCAAAAGGGCGCCTACCGCAACGTTGAAGGCAAGCAGATGCTGGTCCCTTACCGGGGCAGCATCGCTGACACCTTGGAAGAAATGAAGGAAGACCTGCAGTCTTCCATCTCTTACGCCGGTGGCCGGGACCTGGAATCAATCAAGCGGGTCGACTACGTGATCGTTAAGAACACGATCATGAACGGCGACTATTAA
>SRR1919932_01077 excinuclease ABC subunit A
ATGTACGATTACCGCTATGAGCCCCACCGGGTTATTTTCATGATCGACAACAAATCTTTCTATGCCTCCTGCGAGGCCCTGCGCCTGGGCCTGAACCCAATGGAAGTCGCTTTAGCCGTCGTGTCCCAGCAGGTGGGGACTGACTGGGGGTCAGGCTTGATTATGGCTGCCTCGCCTTTGGCCAAGAAAAAGTACGGCCTGAGCAATGTCATGCGGGCCAGAGACTTGCCGCCTAAAGACCAGGCCCCGGACCTGATGCTGGTTGAGCCGCATATGAATCTTTACATCAAGCGCAGCATGGAGGTTTTGCAGATTTTCCGCAAGTACGCGGCGGATGAGGATATCCATGTCTATTCGATTGATGAAAGCATGATCGATATGACTGAGTCCTGGCACCTGTTTGGGGATGATCCTTATCTGGTGGCCCGGAAGATTCAAAAAGATATTCACGACAGCCTGCGCCTGTACACGACTTGCGGGATTGGGGAGAACCCCTTTTGGCCAAGCTGGCCATGGACATTTCCGCCAAGCACCGGACTTCGATGA
>SRR1919932_01078 excinuclease ABC subunit A
TTGGCCAAGCTGGCCATGGACATTTCCGCCAAGCACCGGACTTCGATGATTGCTTGCTGGCACTATATTGACGTGCCCGATACTATCTGGAAGATTCCCAAGCTGGAAGACGTTTGGGGGATCAATGTCAAGATGGCCAACCGCCTGCGCCGGCTGGGGATCAACAACATGTATGACCTGGCCCACAGCGATCCGGCTATTTTGAAGAAGGAGTTCGGAGTGATCGGCGACCAGCTTTTTGCCATGAGCTGGGGAGTGGACCGGAGCATCATCAAGCAGAAGTACCGGCCCAAAAGCAAAAGCTACGGAAACTCCCAAATCTTAAGCCGGGACTATGAAGACCAGCGGGAAATTGAGATCGTTATTCAGGGAATCGGCGACCAGGTCGCGGCCAGAATCCGGGCCCAGCACTTGCTGGCTGGCCGGGTCAGCCTTTATGTCGGTTACGCTGACTACGAGGCAGATCCAGCTGGCTTCAGCATTCAAGAGAAGATCACGCCGACTGATATTTCCAGCGATTTGGTGGCCAAGCTCAGGGCCCTTTTCAGAAGAAAGTGGCGGGGGCAGGCGGTCAGACGGCTGGGAGTGACCTACAGCAATTTATCGCCGGCCGGCTGCCAGCAGCTGACCTTCTTCCTGCCTCCAGCCGAGCAGATCAAGCAGCAGAAGCGGGATCAGGTGGTTGACAAATTACGGAAGAAGTATGGTTTTGCCAGTGTCGTCAGAGCCTCCAGCCTTTTGCCAGGGGCCACGGCAATTGCCAGAAGCCGCTTGGTCGGCGGCCACAATGGGGGCAACGCCTATGAGTAA
>SRR1919932_01079 hypothetical protein
ATGGGGGCAACGCCTATGAGTAAGGAGTTTGACCAGCGGGTGACGGATTTTTTCGCCCATTATCAAGACCGGGGGATGAAGAAGTGGGCGAGCTTTTTCCTAAGCGACCACACGGCCATGATCAATAAAGAGACAAGGCAGAAAAGCGTGCCCGACCGGGCGGAAATAGTTGGCTTTGTCCAGGGCTACGCGGAAGACAAGGTGGTGATTGGCGAACATGTCATTGCGCTAGACGACTTGCGCTGCGTCCTGCTTTTAAGTGATTAA
>SRR1919932_01080 xanthine permease
ATGGATCAAACACAAGAACCTTCACAAGGCCGCTCTTTTGTCCTGGGCCTGCAACACCTTTTGGCCATGTACTCCGGGGCCGTGGCGGTCCCGATCTTGATCGGCAATGCCCTGCACTTTAACTCAGAGCAATTGACCTACCTGGTCTCCATCGACATCTTCATGTGCGGCCTGGCCACCCTCTTGCAGCTATTGCGCAACCACTACTTCGGGATCGGCCTGCCAGTCGTTTTAGGCTGCGCCATCCAGGCTGTTGCTCCTTTGGAAATGATCGGGCAGAAGTACTCCATCGGCACCATGTACGGATCAATCATCGTGGCCGGGGTCTTCGTCTTCCTCATCGCCGGAGTCTTTTCCAAAATCAAAAAGCTCTTCCCGCCAGTTGTCACCGGGACCTTGATCACCACTATCGGCTTGACCTTGATCCCGGTCGGCATCCAGAACCTTGGCGGCGGGTCAGCCACTGCCAAGGACTTCGGTGACCCGAAGAACCTCCTAGTCGGCTGCGTCACCATCTTGGTGATCGTGGCTCTGCAAGCCTTCGCCAAGGGCTTCATCGCCTCAATCTCCATCTTGATCGGCCTCATCGTCGGCACTCTCCTGGCCGCCTGCCTGGGCATGGTTTCTTTGACCCCAGTTTCTGAAGCTGCCTGGCTGCACTTCCCGCAATTCTTCTACTTCGGCTTGCCAAAGTTTGAATGGTCATCCAGCTTGACTATGATGATCATCGCCCTGGTCTCCATGGTTGAATCAACCGGCGTCTTCTTCGCCTTAGGCGACCTCTTGGGCAAGGACATCACGGAAGATGACCTCAAGCGGGGCTACCGGGCTGAAGGGCTGGCCCAGATTTTCGGTGGTCTCTTCAACACCTTCCCTTACACCACATTCTCCCAGAACGTCGGCCTCCTGCAACTGTCCGGCATCCGGTCCAAGCGGCCGATCTACTGGGCAGCCGGCCTCTTGATGGCCATGGGCCTTCTGCCAAAAGTCGGTGCCCTGGTCACCATCATGCCAACGGCCGTTTTAGGCGGGGCCATGGTGGTCATGTTCTCCTCCATCGCCGTACAAGGGATCAAGATGCTGCTCAAGGTCGACTTCAGCGACAACCATAACCTCTTGATCGTGGCCATCTCCCTGGGCCTGGGCTTAGGCGTTTCCGTCTACCCAACCATCTTTCAGGCTCTGCCAAGTGAACTGCAGCTTTTCCTAGAAAACGGGATCGTCATCGCCTCAATCTCTTCCGTCCTTTTGAACTTGATCTTCAAGGGCAAAAAAGGACTGGACGAAAAATAA
>SRR1919932_01081 xanthine phosphoribosyltransferase
ATGGAACTTTTAGAAGAACGCATTAAGAAGGATGGCGTCGTTTTACCAGGCGACGTCTTGAAGGTCAACTCATTCTTGAACCACCAGATCGATCCCCAATTGATGATGACCCTAGGCCAGGAATTCGCCCGCCTCTTCAAGGATGCTGGCGTCACCCGGGTCCTTACCGCTGAAGCCAGCGGGATCGCTCCCGGCATCATGGCCGCCTACTGCCTGGGCGTGCCGATGGTCTTTGCCAGAAAGAAGAAGCCTTCAACCGTCACTGACGCCGTCTACACCGCGGAAGTCTTCTCCTACACCAAGCAAGTGACCAACACCATTTCTGTTGAAGCCAAGTTCCTTGATGCCAATGACCGCATCTTAGTCATCGATGACTTCCTGGCCAACGGCGAAGCAGCCAAGGGCCTGATCTCCCTGGCTGAACAAGCCGGCGCTGAAGTAGTCGGCGTGGGCGTTGTCGTGGAGAAGGCCTTCCAGGGCGGCCACGACTGGCTGGTTAACCATGGCTATCACCTGGAAGCTTTGGCCAGCATCAAGGAATTCGCCGACGGGCAAGTTATCTTCAATTAA
>SRR1919932_01082 inosine-5'-monophosphate dehydrogenase
ATGTCTTTGTGGGAAACCAAATTTGCTAAAGAAGGTATTACTTTTGACGACGTGCTCTTGATTCCAGCTGAAAGTCACGTTCTGCCGAACGAAGTCGACTTGTCAACCCAGCTGGCACCAAAATTGAAGCTGAACATTCCTTTGATCTCCGCTGGGATGGACACGGTGACCGAAGGCAGAATGGCGGCAGCCATGGCCAAGATGGGCGGTCTTGGGGTAGTCCACAAGAACCTTTCAATTCAAGCGCAAGCTGACGAAGTCCGTCTGTCTAAGAACACTCCGGTAACTGCCGAAGACACCCACGCTGCCGTTGACAAGGATGGCAAGCTCTTGGTAGCTGCTGCTGTCGGTGTGACCAGCGACACTTTTGAAAGAGCAGAAGCCCTGTTTGAAGCCGGTGCTGACGCGATCGTTATCGACACGGCTCACGGTCACTCAGCCGGCGTTTTGCGCAAGATCAAGGAAATCCGCGACCACTTCCCGCACAACACTTTGATTGCCGGCAACGTGGCTACTGCTGAAGGTACCCGGGCCTTGTTTGAAGCCGGCGTTGACGTAGTCAAGGTTGGTATCGGGCCTGGCTCAATCTGCACCACCAGAGTGGTTGCCGGTGTCGGCGTGCCGCAATTGACTGCTATTTACGACGCGGCTGACGTAGCCCGGGAATTTGGCAAGCCGATTATCGCTGACGGCGGGATCAAGTACTCAGGTGACGTGGTTAAGGCTTTGGCTGCTGGCGGCAACGCTGTTATGCTGGGCTCCATGCTGTCAGGTACTGAAGAAGCTCCAGGGGACGTGCAGCAAGGTGCTGACGGCCGTCTGGTTAAGTCCTACCGTGGTATGGGGTCAGTTGGCGCCATGTCCCAGCAGAATGGCTCAAGCGACCGCTACTTCCAAGGCGGCGTGAACGAAGCCAACAAGCTGGTGCCAGAAGGCATCGAAGCTGTTGTTTCTTACAAGGGTACGGTAAGCAACGTTGTTTACCAGATCCTTGGGGGCCTGCGGTCCGGTATGGGCTACTGCGGGGCTGAAAACATCGACAAGCTGATTGAAACCGCCCAATTCGTCCGCATTTCAAACGCCGGCCTGCGTGAATCCCACCCGCACGACGTGATGATGAGCAAGGCCGCACCTAACTACGGAGGCATCGACTTCTAA
>SRR1919932_01083 GMP synthase
ATGGCAAAAATCGATTTAAGCAATTTTGACAAGATCATCGTCCTGGACTTCGGCAGCCAGTACAATCAATTGATTACCCGCCGGATCCGTGACTTTGGCATCTACTCAGAACTTTTGCCGCACACGATTACGGCAGAAGAAGTGAAGAAGATCGCTCCTAAGGGGATCATCTTCTCCGGCGGCCCGAACTCAGTTTACGATGAAAACGCCCTGGACGTTGACCCGGAAATTTTTGAACTGGGGATTCCAATCTTGGGTATCTGCTACGGGATGCAACTGATGACCCAGAAGCTGGGCGGGACGGTTGAAAAGGCCGGGGAAGCTGAATACGGCTCAGCCCACATTGAAGTCAAGGAAGCTGACAGCCCGCTTTACAAGGGCCTGCCAGAAAAGCAGGTTGTCTGGATGAGCCACGGGGACCTGGTAACCAAGGTGCCAGAAGGCTTTGAAGTTCTGGCTTCAAGCAAGAACTGCCCGATCGCTTCCATGGCTGACCCAGACCGGAAGTTCTACGCAATCCAGTTCCACGCTGAAGTCCGCAACTCAGAATACGGCCTGGACATCTTGCGCCGTTTTGCCTTTGACGTCTGCGGGGCCAAGGACAACTGGACCATGGATGACTTTATTAAGCTGTCTGTTGACTCAATCAGAGAAGAAGTTGGCGACGCCAATGTGATCCTGGGGATCTCCGGCGGGGTTGATTCCAGTGTTACGGCTACCCTTTTGCACAAGGCAATCGGCAGCCAGTTGACGGCGATTTTTGTCGACCACGGCCTGCTTAGAAAGAACGAAAGCGATGAAGTTATGGCCGCTCTTAAAGAAGGGCTGGGCGTGAACATCGTCAGAGTTGATGCTAAGGACCGCTTCATGTCCAAGCTGGCTGGGGTAACCGACCCAGAAAAGAAGCGGAAGATCATCGGTAACGAATTCGTGCAGGTCTTCAACGATGAAGCCAAGAAGATCAAGGACGCCAAGTTCCTGGCCCAAGGGACCTTGTACACTGACGTGATTGAATCAGGGACCGACACGGCCCACACGATCAAGAGCCACCACAATGTCGGGGGCTTGCCGGAAGACATGCAGTTCAAGCTGATTGAACCGCTGCGGCAATTGTTCAAGGACGAAGTCCGGGTCTTGGGTGAAAAGCTGGGTCTGCCACACGACTTGGTATGGCGGCAGCCGTTCCCAGGTCCTGGCCTGGCTATCCGGGTAATCGGGGAGATCACTGAAGAGAAGCTGCGGATCGTCCGGGACGCGGACGCGATCTTGCGGGAAGAAGTCAAGAATGCAGGCTTGCAGGAAAGCATTTGGCAATACTTTGTTGCTTTGCCAGGGATGCGGAGCGTCGGGGTCATGGGCGACGGCCGGACTTACGACTATGCTGTCTGCATCCGGGCCGTTACGTCAATTGACGGGATGACGGCTGACTTTGCCCAGATTCCATGGGATGTTCTGCAGAAGATCTCCGTGCGGATCGTCAACGAAGTCAAGCAGGTTAACCGCGTACTGTACGACGTGACGAGCAAGCCACCGGCAACTATTGAATACGAATAA
>SRR1919932_01084 hypothetical protein
ATGTCGAAATGGGATAAACTGTTACAGCGCATCCTTTCATTATCAAAAGGCATGCGTTTTGTTGAATTGAAGAAGGTTCTAGAAAGTTATGGTTATGTAATGACGGCACCAAGAAGTGGAAGTAGTCATTATACGTTTCGCAAACCGGGTAAAACTCCCATTACGATCCCTAAACATGAACCGATTAAGAAAATATACGTTGAAATGGTACGCAAAGTTGTTGAGGAGGAAACGAAGCATGAAGACAATTGA
>SRR1919932_01085 antitoxin HicB
ATGAAGACAATTGATGATTATCTGGCTCTTCCATACAGACTTGAACTTGTACCTGATCCAGATGAAGGCGGTTATGTTGCCAGCTATCCAGAATTGCCTGGATGCATTACTATCGGGGAAAGTCTAGAAGCTGCCGCGAAAAACGCGGAGGATGCTAAAAAAGCGTGGCTGGAAGCCGCGCTGGAGGATGGTATTGAGATAGCAGAGCCGGCATCTCTGGATGACTATTCCGGGCAATTTAAGCTGCGGATTCCCAAGAGCCTGCACCGCTCACTTGCTGAACACTCTAAACGCGAAGGTGTCAGCATGAACCAGTATTGTGTCTATTTGCTGTCTAAGAATGATGCGCTGGAAGAAAGAAATAGAGCTTGA
>SRR1919932_01086 hypothetical protein
TTGGATGTAAAAAATAATCTCCACAATAATAAGAGCAACCCGCGTAAATTGAATTTGCTTTACCTGGGCCTTTTGCTCTTCGTCACTTTGCTGACCACCCTTTATTTGGCTAGCAGCAAGGCAATCTTTACCGTCTCAGACTGGACCTTCCACGCTGCCCGGGTAGAAGAAATCTACTTGAACCTTAAGTCCGGCTCCTTCTTCACCTTTATCGCGGCCAGAACTTTCCACAACACCGGAGCTGCTTCTTTCCTCTTTTACCCATGTATTTTCCTTTATCCATGGGCCTTCCTGCGTTTTATTCTTTCCCCGGTCAACGCCTTTTACGCCTGGTACGCCCTGGTAACCTTTGCCACGGCTACAATCAGTTACTTCTCCATGAAGGCATACTCAAAGAAGTCTCTGGCCAGCTTTATTTTCTCCCTGGTCTATACATTTGCCCCTTACCGGCTTTACCTGGGCGAGGCAGTCTTTGGCGAATACCTGGCTGTAACCTTCCTGCCCCTGCTTTTCCTGGGCATCTATGAAGTCCTGTGGGGCGACAAGAAAAAATGGTACCTCCTGGCTATCAGCGGGGCACTGGTTGCTTATGCCCACATCCTCTCTGTCTTTTTGAGTCTGCAATTTGCCGTAATCCTCTTTATTATCAAGCTGATCACCAGCCGCGGCATCAGCAAGGATCGGATTAAGTCCCTGCTTTTGTCTGCCGGTGTCTGTGTCTTCCTGGTTTTGCCAGTAATCGTGCCTTTTTTCACTGACTTTATCGGCCAAGGGCTCTTCAGTGCCTATCCTGGAATCGTCTACACCATGGCCATGGGCCCACGCAACCTGCTCCTCAACCCCTTCTCTGCCCCCCAAAACAGCTGGAATCTGAGCTTCATGCTGATGTTAACAATCCTTACTGCCTGGGCCTTTATTAAGAGCCGGCGGAACTGGATCATCTACGGCTTAGGCCTCTTTGCCTGCTTCTTGACCACCCGCTATTTCCCTTGGAAGCTCACTGCTGGTACGCCTTTTGAAATGGTTCAGCTACCTGTCCGCTATCTTTCCTACGCTTCACTTTTCTTAACCATCCTTTTTGCCCTGGGCAGCAGCAGCGTGCTTGAAGAGCATGTGACCGGCCGGAAAAAGCTGGCTCTCAGCTGCAGCTTAGCCGTCTTCATGGCCCTCTTCTCCCTTAGTTCCTTGTCAGTTTACCGGGATACCTTAAAGCATGTTCAAGACATGCCGAAAACCAGTGCCAACAGCACACAGCCAGCGCCATTCAAGCGCCTGCGCGACTATAACTATTACAACCAGTTCAACTACAAGATTCTCTTTGGCGACTTTGACTATATGCCAAAAAGCTCACTGACCAGCGTGCAAAAGCGAAATTCTCTTTTAATGCACCAAGCCTACTTGAATGGCAAGACTTTAACCCTGAGTCCTTTAATCAAAGCCAATCAAATTTCTTACCAGGTCAAGAGTGAAAAAGCAGCTGATGTTGACTTGCCAGTAATTGCCTACAAGCACACCACTGTCAGCGTCAATGGGCAAAAGCATGCCTTCCGCCGCGGCAACCGGGGGACGGTTGTAGTTGGCCTCAAGCGCGGGCAAAACACCGTCACGGTAGGCTACAAGGCCAGTCCTGTCTTCTACTTGAGCATAGTCATCAGCATCCTCAGCTGGCTCGCCCTGCTTATCTACTTGGTCAAGTTCAAGGCCAAATATGCACAATAG
>SRR1919932_01087 hypothetical protein
TTGACCTTTATCAGGGATCTGCTCTTCCTCAATTTTATCGACCATGCCGATACAACCTACTGGTTCATCTTTTTCATCATCGTGATGTACTGCAAGTACAATATCCACTTTGACATCTGGCTGCCTCTGCCCTACTGGATCCGCTTGACCAACAGCCTCTGGGCCTTCCCATTGATGATCATTGGCCTTTATCTCTGCAAGTTGATCAACTTCACCAAGTTCCTGCAAGGCTTTGTCAAAATTTCCGGAGCCTTGTCCCTGGAACTGTACCTGGGTCATGTTTCGGCGCGGATTTTCCTTACTGCCCACCACATGTCCCTGTATATTCTTTGGCAATACCTGGTCATGATCGGCCTCTCCTACCTGGGCAGCTTTATCTTAAAATGGCTGGAAAACAAGATCCAAGGCCAACTCTTGCCACTGTCGCGTAAAAAATAG
>SRR1919932_01088 acyltransferase
ATGAATACGAATAAATTTACAATTAGCTGGGGAGACTTCAGCCGCTATCGGAGCAGCATGTTTGGCCTTTCAATCATTGGCATCATGGTCTTCCACTACTTCGAACATATTCGCAGCGCCCACCTGCTTCTGAAATCAGAGCAGTTCTGGGACTACTACATCGGTTCGACCGGGGTTGACTTCCTCCTCTTTTTGTCCGGGATGGGCCTCTTCTATTCCTTGACTAAAAATGATGATATTTGCCAGTTCTACAAGAAAAGACTAGTCAGAATCCTGCCAGCCTAG
>SRR1919932_01089 putative integral membrane protein
ATGCGGAAAAGAAATATTATTTTAGCCTTTTTGGGATGCTTGGGGTCGGTCCTGCTGATCAGCGGCCTGACTTTCCAGAATTCCGGCCAGTCAGTCCAGCTGACCTTAAAGTTCGTCAACTTATTTGAGAAGGTTCATTTTCACTTGACCGGTACTATGATGGCTGAGTACCCGATTTACCACATGATGCGGAAGCTGGCCCACACGGCTGAGTACTTCCTGCTCGGCGCCAGTGCCTGCTACTTCTTCAGCCGCTGGCAAAAGCGCTATGCCTGGTCAGCCCTGGCCCTGTCAGCCGCCTTCTCCCTCTTTGACCAGACCAGCAAGCTGCTGGTTCCCGGCCGGGAATTCGACCCAACTGACTTTCCTTTCGATATCGCCGGCTACCTGCTCGGGATTGGCTTAATCCTCTTGCTCCAGCGGCCATGGGCCAAGCGGGCCGTCAACCAAACCGCTAATACATTTTACTAA
>SRR1919932_01090 cell wall teichoic acid glycosylation protein
ATGGACAAAGAAAAAATCAATGAATTATGGGACAAGTACAAGGATATCATCCCCTATGTCTTCTGGGGCGTCATGACCACCCTAGTCAACATCTTCTCCTACTGGCTCTGCAACAGCGTCTTCAAGTGGGACATCATGCCAGCGACGATCATGGCTCAGTTCCTGTCCATCGTTTTTGCCTACTTGACCAACCGCAAGTGGGTTTTCCACAGCCAGGCATCCACCTTTAAGGAATACGCCAGTGAAATCGCCAGCTTCTTCGCGGCCAGAATCGGGACTGCCCTTTTAGATATGGCCATCATGTTCATCTTCGCTGAACAAATGCACTTAAACAGCATGGTTATCAAGATCCTGGCCAATGTGGTTGTCGTTATTATCAACTATGTGGCCAGCAAGTTCTGGATCTTTGAATCCAAGGACTCAGAATAA
>SRR1919932_01091 hypothetical protein
ATGTATCATGAACTGGCTTTGCTGATCCGCTTTGTGGTCATTGGCGCCTGTGTTTTGGCAGGCTACTGGGCTATCCGCACGGGGAACTCCTTTTTGCGGCTGGTAGTAACGGTTATCTATGGCTGTGCTTTGATCTACTATGTGTTTGCCTCAAGAATGCTGACGGCTGCTGTCTACTACTGGCAGCATCCGGCCCAAATGGCCGCCGGCTCAGAGGTTTTGAAAGACCCGGCCTTTTGGAAGTGGGGGCTGAAAAAAGTCTTTGCCAGCTCAAACTATGGCGGCCGCTACGGCTTTTTGATGAATGTTCTGCTTTTCATGCCCTTGGGTTACATTATTCCATCCTGGTCCAAGTGGCTGCATAGCATCATGATCACCACATTTATGGCCTTCTGCCTGTCCTGGTTTATTGAACATTTCCAGCGGATGACAGGGCTGGGCACATATGATGTTAACGACATGATCGCCAACACCATGGGTGCCTTCTTAGGAGCCGTAGCAATCATGCCGACCTTGTGGATGTGGGACATCCAGTCCAGAAAACTCCGCAAGGCCCGGGAACACGCGGAAGCTAAAGCCAAGGGGGAAGCAGAAGCTGCCCGTTTGGACCGGGTCAGCCGGCAACTGGCTAACCCAACTGAAAAGGTACCGAAGGTTAAGATGAGCCGGAAGGACTACCGGCAAAGACACGGCGACGAAGCCGATTAA
>SRR1919932_01092 ATP/GTP-binding protein
ATGTTGCTGCGCGCGGTTGAGCTGCATAACTTTCGCGGTTATCGCAATTTTAAGCTGAAATTCGCCCCCTTGACCAGTCTATTAGGTGAAGGGGAAGTGGGCAAGAAGACCATCCTGCGGGCTCTGGACATTTTTTTCAACGGCCCTTTGGCTAAGCGGCCTTTGAAGCTGCAAGACTTAAATGAGAAAGCCCTCAAGGCCGGGGACTGGCAAATTGCTATCACTTGCTATTTCGATGATTTTGCTATCAAAAAGTCGTTTGACCTTAAGCAATATTTGGAAGAAAGCGACAGCTTCGCGGAAGAAGGCGGGGACTTTCAGACAGTTACGGACCAAAACCGGGGCCGCTACCGGCAGCTTTCAGCCAGCATGCCCCTGTATGTCTTTTTTGATGAAGAGTCAAAGGCGGCCAGCCCCTTGAACTTCGTGGCCCGCAGCGCTATTAGGGACAAGGCAGCGGAAATCAAGGAAATTCAGGACTACCTGGACGACCGCCTGGGCCGCAGTCTCTCCCAGCTTCTGGCCAACTACCGGGACTTGGGTGAACCAGCTCCCCAGTTTGTCTTCCAGGATCCCAACCTGGCTGAACTAATCAAGCAGCGGGAAAAGGTCGGGGTGACTGGAACGGCCAAGGTCAGCCGGATTATTCTGTCCTTTCTTTTAGCTCAAAGTGAAAATGCCAGCATCGACAACGTGGTCTATGCCTTTGAAGCGAATGATTTGTCGGAGGAAGATGAAGCCTTGTTGGCCCAGGCCCTGCTTAAACTGGTCGCTAAGAACAAACAAGTCATCTTGATTCCGCGCACGCCGCACTTGATGGGTCTTCTGCCTTTGGAAGGGATCAAGATCATCAAGAAGGTTGCCGGCCAGCAGCAACTTTTGAGTGAGAGCCAGATCTTGGCGGAAGTGTCTAGCAGCTTGGGCCTGGCGGCTGACCAGCGGGCGGTCAAGTCCCGCTGCGTTCTCTTGGTCGAAGGGCAGGAAGACGTCCGTTTTGTGACCAAGATCAACCAGTGGATGTATGAAGAAAAGCTGGTGGAGGCGACTTTTGCTGAAAAAGGGCTTTTTATCCTGCCTGTCGGGGGATGCGGCAGTCTGCTGGCCTGGCTGAATTTTGACCTTTTTTCTAAACTGAATGAACCTTGGTTCATCTTGATCGACTCAGACAAGGGGACGGATGAAGCTAAGCAGAGCCAGCGGCACTTGCACCGGATCAGGGCAAAGTATCCAGGGATGCAGGCACACATTCACGCGACTTTTAAGCGGGAGATTGAGAACTACCTGGTCTTTAAAGAGGGCAAGAAGACACATGCCTTTGCGCCATACGAAGACGTTAAGCAGCACATGTATGACTTGATGCAGCAACGCCACCAAAGCTGGAGCAAGGATAAGACGGCATCTAAGTTGATGGAGCAGATGGATTTGGCTGATCTGCAGGACTACTATGAAAAAGACGGGCAGAAGCACCGGGAATTAGTAGAATACTTCTTGCAGATTGACCATTTTATCGATGGGTTGGCATAA
>SRR1919932_01093 hypothetical protein
TTGGGGTTGTTACAATTAATGCTTGGTGTGCTTGGATTCACAGTGTTATTAAGTTCTCTTTTTTTGACAATATTGGTACGGCGACAAGCTGCGCATCAAAAGCGTAGTGAAGCCTATATAGAAGTAGCTAAATATCTGGGTGAAAATCCAACTTTATTTAAGAAGGTGAACCAATTAGTCAAATTGGAAAGCACAACAAAGATTTTATCATTGGTGTTTTTCTTAGGTGGCTGGATAGTCTATTCAATAAACGATTTTCTGATAATTTCTTTGGACGATAGTGTCCGTGTAATGATTTTGTGGACATCAATTGTCTTGTTTGTTATCTTAACCATTGTGCAGATGATGCTAGAATTTCGGCACAAAAAATTGTTGGCTTTTCCTCTGTCTAATATTTCTCCAGTAGAGAATACTGCAGGAGAGAAACGCTGGATTCTCAGCAAGATACTGTTAATGATTGGGACGGCGATATTGACAACATGGCTACAGCTTGTGGCTCAATGA
>SRR1919932_01094 glycerophosphoryl diester phosphodiesterase family protein
TTGAAGAAACGGAAAGATATCAAAAAGTTGCTGCTGGCCTCAGCAGTCTTGCTGACTTTTGGGATTGGACAGCAGCTGGAACCGCTGCAGCCAGTGCACGCCGCCCGGCAGGTTAAGAAGAGTAGGAAGGCCAAGAAAGGCAAAAAAGCTAAGGTTTCTATAAATAAGAAAAAGCTGAGTCTGCTGCAGGGGAAAACAGCCCGCTTGTATCTGAAGAACAGCAAGAAAAAGACGACATGGAGAAGTTCCAACAAGAAGGTAGCGACAGTATCTTCTAAGGGCAAGGTCAAGGCAGTCAAGGCCGGGGCAGCCAAGATTACTGCTAAAAATGGCAAAAAGAGCTACGCCTGCATGGTTAAAGTTACTGCAGCTAAGGGAACGCTGACTTTTTCCTCCAATGACGGGTCTGGCCGCCGGCAAAAGAAGATTTTTACCTTAGGCAAGAAAGTTACTCTGCCAAAGACTGGCTTTAACCGGGAAGGCTACAAGTTCTTAAACTATACCGTTGCCACAAACGGAAAGGGGAAGAAGTACCGGCTCGGCAAGGCCTATACTTTTAAGAAGAGCACGACTTTGTGGGCCCAGTACCGCAAGCTGGAAAATTACACTATTCAAATTGCTGCCAACCAGGGCTTTGGGAAAAATATCACTCTGCATGAATTGGAAGGCGACAAAATCACCTTGCCAGAGACAGGATTCAGTAAACCTGGCTACGTTCTCGATTCCTTTAACACTCAAGCGGATGGGAGCGGCAAAAAGTATGATCTGGGGGCTAGCTATGCTTTAAAGGATGTTACTTTGTACGCCCAGTACCGTAAGCTGCCGGCAAGTGAGAAGCCGGAAAGGGACTTGGGCTTGTGGGGCCTGGATAGCGCGGGGAATTTTTACCAAAGCAAGAATGAGCTGACGACGGTTGACTATATCAAGGCTGACCAAACTAAGTATCTGGCTTTGGACAATTATTTTGACTACCAGATCAAGGCCCTTAAGTACAGAGATGATGAAAAGCCAAGTTATGTCGGCCTGCAGGCCAACTGGTCAAAGCAGGGGATTATCCTGGACCCGGGCTACAAGTACCTAATCATGGTGAGAAAGAGCAACCAAGCAGCAATTGAAGAAAGTGAGATTGCTGATATTGCCAAGCTGGTCCGACTGGAAAATGTTGATGTAAAGACGCAGAGTACTTCTGGCCTGGCTAAGACGGCGGTCAAGTTTATCGCCCACCGGGGCTATAGCACTAAGTATCCGGAAAACACGACCCTGGCTTTTGAAAAGGCTGGCGAGGAAGCCGGAGTTTGGGGGATTGAAACCGACGTAGATAATACGTCAGACAACAAGCTGGTTATCATGCACGATAATACTTTGGCCCGGACGACCAATATCAGTGCGGATGATCCAAACTACAGAAAGAACATCAACGATATTCCTTTTGACCAGGTGGAAAACTACAAGATCAAGGGTGTGCTGGATGGCGTCGATAAGGATAAGGTTTATGAAGATCTTCGCGTGCCAACTTTGCGTCAGTACTTAGAAATCTGTAAGAAGTATGGCAAGGAAGCTTTTTTGGAGTTGAAGTACATCAACAATATGGAAGCCTTGAAAGAGGTAGTTAAGGAAATTAACGAAGCAGGGATGCAGAAGCAGACGACCTTGATTTCCTTTAATATTGGTGAGTTGGAAGAAGTCAGAAACGTGATTCCGGGTGGCAAAGAAATTGCCATGATGGGGATTTACAACCGCCATTTGACTGATAACGACTATATTTTCCTGTCCCACTTAAAGGCCGGTGCTGACCGCAATAAGGATACGACAACGCTTGATGATATTCTCGCGGCTCGTAAGTATGGCGTAGACTATGGAATCTGGACGGTTTACCAGAATGATGACGCTGTTGCGGATATGATTAAAAATGGTGTGGACAAGGTTACCTTGAATGACGCGGGCTTGATTGAATCGATGAGTGCTATCGTTAATAACTAG
>SRR1919932_01095 hypothetical protein
ATGAAACTGATAAAGAAGACGATCAGCAACATTCCGTTTGACTTGCATGACAGTCGGATTGTAAAAATAGAAGTTAACGATGGCAATCTCACTTTGCATTTAGATCAAGTGTATGAGTACCACAAAGATTCCTAG
>SRR1919932_01096 hypothetical protein
TTGGAAGAATGCCATGCCTTATTTTTTGACAAGGGGATGGAAAACGGGGCTTTTTCGGGCGTAAGATATAACTTGCAAGAGTATTTGGAAAAGTACCCCGATGCTGAATTTGAGATTATCACGGACACTTACAATATGACGATAACAGTCATGGAAGGATACATCTACAGAGATGGGCAGGAAGCCATGGCTGGAATTATCTCACTTTGGACATTAGGCGAGGTTATCGCTGATTTTTAA
>SRR1919932_01097 hypothetical protein
ATGAAGAAAATTTCGAAAAATGTTCTACTCGTGTCATCCGTTGGTTTAGCTGGGTCTGCATTCGCGGTTACTAATACCCACCCGGTATTTGCGGCAAACAATGCTAGCAAGAAAACTACTGTGGCTAACGACCAGGCCAAGGTTAAGAGTGCGCAAAAGAGCGTTGACCAAACGCAAAGCAAGTTAACCCAAGTGCAAAATGATTTGAATACTGCTAACAAGGATCTGGCTCAAAAAGAGACTGAATTGGCAAACGCTAAAAGCACTGCCGAAGCTGCTAATAGTAAGGTGGCAGCTCCGAATAAGAGCAACGATGAGGCTCAGTCTGCCCTCAAACAAGCCCAAGCGGCTACTGATTCTGCAAACAGCGACTACCAAAACGCTGTTAAGGACAGTACCGATAAGCAAAAAGACTTGACTGATTCACAAAACAAAGTAACCAATCTTGAAAAGCAACTTACTGATGGCGAAAAGAATAATAACGACATCAAGCAAAGAGTTACTGAAAAGAACAATAAGATCAGCGACAACCAGAAAACTTTATCTGGCTTGCAACAAGAAAAGAGCGAATCTGACGCTAAGCTTGCATCCGCGCAAAGCGATCTTGCCGAAATGAAGCAAAAGGCTGATAGTGCCTCACAAGTTTTGCAAGCAGCCAAAAAAGATTTAAGTTCCGCAACCAGCACTAATGAAAGCTTAACTCTTCCGCAAAGCTACATTGATTACGTTACTGGCAAGTCAACTGACTGGGATACTGCCAAGAAAGACCTGCAAGATGTAGTAAACAACCACACTTATCCATTTACTGATGGAGACGAAAATGATACTGTTTACGACGATCCTGCCGCCTTATCCGAAAGTGATCAAAAACGTTTGGATTTCTACGTGAAGAGCTTGATTGATTCCGTCAAGTCTCAAGTTGGATCAACCAGCAAGCTGACCATTACTGACGGTTCACTTGAGTTCGCTAAGCGTTACACGCAAGAGTACCAAAACAGCAACTATGTCTTCAGAAAATACAACGCAATCAAGTCAGCTTCAAGCATCATGGGGCTTAATGAGTATGCTGTTACTGGATATGACATTGCTGCCAACAGACAGGTTACTAGCCGGTCCATTTCGATTATCAATGGGTACATCTACAACTCATATGAATTCGGAACAACAAAGATGAGTGAAATTGCCAAGGCTGCTTTTGACTTGGTAACACAAGAACTGGCTAATCCAACTGATTACAACAACATCATTAACAACAATGGTTACTTCTCAGTTGCCGTAACCACTCAAGACGACAAATTCTACGTCTGCCTTTTGACGATCAAACCGGCTAACGTTCCAAGCCACTTTAACACTAACGAAGTTGTCAAGCCGAGCCAAGATGAGCTTGCTACTGCTGTTCAAAAGTCTCAAGCTGATTCAGATCAGGCCAACAAGGATATAGAAAGTGCACAAAGCACTTTTGATCAAGCCCAAGCTCAAAACCAAAAGCTTGGCCAAGAAATCAGCGATTTGCAAAAGAAGATTAGTGACGGTCAAAGTTCTGTCGCATCCTTGCAGAAACAGCTTACTGATACGGCAAAGCTTCAATCACAGATCAAAGAAACTAAGGACTCGTTGCCAGCAAAGCAAGCGGCTCTACAAGCTGCGAATGAGAAAGTTCAAACTACTCAAAGCAAGCTGAATGACTGTAAGACTGCATTAGCCGCTGCTCAGAAAGAAGCAGCAAATACCCAAAGCAACTTGGATAAGGTAAAGGCTGACGCAAGCAGCGCACAACAAAAGCTCCAAACTGCTCAAAAGGCCTACGATGAAGCAAAGAAGAAACAAGAAAAGATGACTGCGTCAGTTGCATCCCTCACCAAGAAGCTGGCCTATGAAAAGAAACAATTAGCACATGCTAAGGCAGTCTTAGCCCTTGCCCAAAGCAAGAAGGCTACTACTAAGAAGAAGTCAACAAAGAAATCAACGAAGAAAGCTACTACTAAGAAGACTACCAAGAAGACCACTAAGAAGAAGGTTGCCAAGAAGGTAAAGAAGGCCAAGAAAGTAGTTGTCGCAAGCAGCAAGTTTACCAGCTTAAAGGGTAGCAAGAAGGCTTTTGTCGGCAAATGGAAGAAGGCTAAGTCCGTTTCCGGCTACCAAGTTCGCTACAGCACGGCTTCCTCAATGAAGAAGGCCAAGACTAAGAGTACCAAGGCAACCAAGCTCAAGGTTTCCGGCTTGAAGAGCAAGAAGAAGTACTACGTACAACTCCGCTCCTACCGCAAGCTCTCCGGTAAGACCTACTACTCTGCCTGGACAAAGGCCAAGACTGTAAAAAATCGTTAA
>SRR1919932_01098 glycerophosphoryl diester phosphodiesterase
ATGAGAACGAAGATTTTTGGTCACCGCGGTTATCCAGCCAAGTTCCCGGAGAATTCCCTGGAGGGCTTTGACTACTGCATGCATCACGGAGCTGAGGGGATCGAATTCGATGTCCACTTAACCCGTGACGGGGTGCCAGTGATCATGCATGATGAGAACATCAAGCGGACCACTAATGGCAAGGGCCTGATCAAGGATTTCAGCTTGGCGGAATTGGACCAGTTCCACCTGGCCAATGGCGAGCGGATCCCCCGTTTGAAGGACCTCTTCCAGCTGACTGAAGAATCTGGCTATGAAGGCCAGCTGAATCTGGAGATGAAGACCAATAAGTTCGATTATCCAGGCTTGCCGGAGAAGATTTTTGCCCTGGCGGACCAGTTCAAGTTCAAGCAGGAGATCATCTACTCCTCCTTTAATTTGCAGACCTTGATCCACGCGCAGAAGATCCGGCCGGAGGAAAACTACAATTTCTTGACCGACAAGCGGATCAAGGACCCGGCAGCTTTTGTCAAGGAGCACGGCTTTAAGGGGGTCCACCCCAAGCGCTTGCTCGACACGGACATGCCGGAGCGAATCTGGACGGTGGACAGTCCCCTGCGGGCCAAGAAGATTATTGAGTACGGCGCGGCCGGCTTTTTCACCAACAAGTTCGAAGATATGATGGACCTGCGCAAGCGGGTGGCAAATTACTAA
>SRR1919932_01099 phosphoglycerate mutase
ATGAAACGGATTTATCTGGTTAGACACGGGAAAACTTTTATCAACAAGTACAACAAGATGCAGGGCTGGTGCGACACCCCCTTGACTGACGAAGGCCGGGAAGGCGCAGAAAAGGCCGCTGAGGCCTTGCAGGAGCTGCCCTTGGACATTGCCCTGTCTAGCAACACTTTACGGGCCAGCGAGACCTGTGAAATCATCATAGAGAAGAACTGCAACAGGGACCTGCTCCAGCACCTGGCCTACCCTTACTTCAGAGAGCATTTCTACGGCTACTTTGAGGGGATGGACAATGACGTGGCCTGGCGGATGGTCGGCGCGGCCCACGGCTTTACTAACGCCGCTGATTTAGCTGAACACGCGACTTGCGACCAGATAGCTGACTGGACCAAGGAGGCTGACCCCTACCACGATGCTGAAGACAGCAAGGAATTTTGGGCCCGCTGGCAGAAAGGTTTTGACTTGATCCAGCAATTGGACGGGGCAGAAAATATCCTGCTGGTCAGCCACGGTTTTGCCATCAAGACCCTGGCCCAGAAATTTGCGGTGGACGGGATCGACACGACCGTTCACCCGAGAAATTCATCAATTTCGACTTTAGTGATGGATGAAGCTGGCAATTTGCAGATGACCAGTTACAACAAATTGCAGCTGTAA
>SRR1919932_01100 hypothetical protein
ATGCGACGATTTTTTAATTTCATCAAGAACCTGCTCATCTTAGCGATCATGGCCGCGGCCGTGGTCAACTACCATGAGCAAATACAGACTTTCCTGCTGGAAGCAGCGGGCACGGCCAGCACTTATCTGGAGCAGAAAGGCTTAAAGAGCAAGACTCTGGATTTAAGCGGCGGCGTCGTTGCTGAAAGCAATAAGAAGGTCACTAAGAACACGACCGGCTACCACTGGCCAAAGGCGACGGCCAAGGTCTACATCGAGGTCAAGCAAACCGACCTCTACAACGCCACGGTCAATGCCATGGCAGCCTGGAACCAGACGGGAGCTTTTACCTTTAAGCAGACTAAAAACAAGAAGAACGCCCAGATCGTGGTCGTGGCCAACTCCAAGAACAACGGGGCAGCGGGCCTGACTACCTACAAGTATCTCAGCCACACCAACCGGCTCTACTCAGCCCAGGTGGCTCTGAACACCTACTATCTGGAAAACGACTATTACAACTACACGCAGGCCAGAATCGTCAACACGGTTGAACACGAATTAGGCCACGCGATCGGCTTAGACCACCGGACCGGGGTTACTGTCATGTACCCGACCGGATCCATCTACACGATCCAGCCAAAGGACATCAAGCTGGTTAAGAAGATTTACAAGAGCAAGTCATAA
>SRR1919932_01101 putative ATP-dependent helicase
ATGGTAGAAAACTCAGACCGCAAAGCAGAACAAGCCCACCTGGACCAGGTCCTGCAAAAGATTGATCAAAAGGGGGACCAGCTGCAGCAGGCTATCGCTAAAGACAAGGCCGAAGCCCGCAACATCAGTGCCCACTTCTATGATGATATTCGCCTGGACTATGACGACTACTCGACCTCAATGGACACGGCCCTGTCGATTCAGCAGCAGCAGCAAATGCTCAAAGAACGCGACACTGCCTGGCAGGTCAACGCCCGCGAACTGGCTACTTTAAAGCGGCTGCATGTCCATCCTTACTTCGCCCGGGTCGACTTTGAGGAGGCTGGTGAAGAGCCGGAAAGTATCTACATCGGCCTGGCCTCCTTCATGGACGAGAACAATGAGCTTTTGATCTATGACTGGCGGGCCCCGATCTCCTCAATCTACTACGATGGCAAGATCGGCAAGGTAACCTACTACTCACCAGAAGGGCCGGTTGAAGTCGACATGAGCAAGAAGCGGCAGTTCATGATCGAAGACGGAACCATCATCAACATGTTCGACACTGACGAAACCATCGGCGACCAGATGCTGATGGAAGTTCTGTCAGAAAAGTCCTCCATCCAGATGAAGTCCATCGTCAAGACCATCCAAAAGGAGCAAAACAAGATTATCCGGGATACGACCAGCGACCTGCTCTTTGTCCAGGGGGCGGCCGGGTCTGGCAAGACCAGTGCCATCCTGCAGCGGATCGCCTTCCTCTTGTACCGCTACCGGGGCAACCTCAAGAGCGGGAACGTGATCATGTTCAGTCCTAACCAGCTTTTTAACGACTACATCGAAAACGTCCTGCCGGAAATGGGCGAGCAGAACATGGTCCAGATGACCTACTGGCAGTTTATCGCCCGCCGCTTGCCGAAGATGAAGGTGCAGAACCTCTTTGACCAGTTTGAAGACCGGCAGGCTGACACAGCAATCGGCCGCTTCAAGGATTCGCTGGCCTTCTACAAGCTGGCTACCCGCTACGGCCAGCACCTGAACCAGTCCGGCATGATCTTCCGCAATATCTATTTCCGGACCAAAAAGAAGCCGTTTTTCAGCAAGGAAGAAATCAAGGAGCTCTACTACTCCTTCAATGAAAACTACAAGCTGGGCAACCGGATTGACGCTACCCGCGAGGAACTGATCCGCCGCTTGAACAAACGGGTGGCCAGTGAAGCCCGCAAGGTCTGGGTCAGCCGGGAAATCGAAGGGCTCAGCCACGAGCAGATGCTGGACATGTACGACCGGCCGGACCAGGAATTCTCTTCAGAAAAGGCTGAACGGGCCTTCCTGGGCAAAAAGATCGTTATCAAGCACCTGGCTAAAGTTGCCCGCCGGATCAACCACAACGGCTTCTTGAACCTGCGGGGTCAGTACCTGGCCTTTTTGCGGGCCGTGCCGAAGATGACGGACCTGGCCAAGTACGGGATCAGCGAAGAAGAATGGCTGGCCCATGTTGAAGAAGTTAAGGCTAAGTTCAAAGAGCAGGAAATTGACCTCCGGGATGCTTCAGCCTATCTTTACCTTTACGACCAGATCATTGCCCGCCAGACCAACCTGGAAATGCGCTACTGCTTTATCGACGAAATCCAGGACTACTCAGCCTTCCAGCTGGCCTATCTGCGCTACAACTTCCCCCGGGCCAAGTTCACCATGCTGGGCGACTTGAACCAGGCGATTTTTACCAAGGACGAGAGCAGCAGCCTCTTAAAGCAGATCTCCGGCCTCTTTGACCCGGAAAAGACCAAGCTGGTTCAGTTGACCAAGTCCTACCGGTCAACCAAGCAGCTGACTGACTACACCAAGCAGATCCTCCGACATGGTGAAAAAATCGAAAGTTTCAACCGGCAGGGGCCTTTGCCGCAAGTCTGGGGCAGAAGTGATGAAGCAGAAGCTTTAGCGGCTTTGAAAGCAGCTTTAGCGGAAAATGACGCCCAAAAGCTGACGACTGCCATCATCACTAAGGACCTGGAGGCGGCTAAAAAGCTGGCTGACCAGCTTGAGAGGGTCCACCTTATCTCCAGCGCCAACCAGCGCCTGGTGGAAGGGAACCTGATCTTGCCGTCCTACCTGGCCAAGGGGCTGGAATTTGACGCCGTAATCATGTGGGATGCCTCTAAAGCGGCCTACCACGAAGAAGACGAGACCCAGCTGGTCTACACGATCGCTTCCCGGGCCATGTACAAGCTGGACCTGGTTTACGCTGGTGAAAAGAGTCCGCTTTTGCCAACTAATGAAGCAACTTTTGTAAAAAAGTAA
>SRR1919932_01102 amino acid ABC transporter permease protein
ATGAAATATGTTATGGAAATACTTCCCTCCCTTTTCAGCGGGGCGGGGATGACCTTGCAAATCTTTTTTGAAACATTGATCTTCTCCCTGCCTTTGGGGATCCTGGTCTCTTTCGGCTTAAGCAGCCGCTTTGCCCCATTGAAGTGGCTACTCAACTTCTACGTTTGGCTGATGCGGGGGACCCCACTTTTGCTGCAGCTGATCTTTGTTTTCTACGGCCTGCCGATCGTCGGCTTGACCTTCCCCCGCTATATGGCGGCTTTGGTGGCCTTTGTCCTGAACTACACGGCCTACTTTGCTGAAATCTTCCGGGGCGGCAACCAGGCCATAGACCGGGGACAGTTTGAGGCAGCCAAAGTCCTGCAATTGACTTACGGGCAGACCCTTAGAAAGATCGTTATTCCCCAGGTAATAAAAATCGTCCTGCCCTCAATCGGCAATGAAGTGATCAACCTGGTCAAGGACTCCTCCCTGGTCTACGTGATCGGTTTGGGCGACTTGCTCAGAGCCGGCAACCTGGCTACGGCCCGGGACGTGACTTTAGTGCCGCTGGTTTTGGTAGCCTTGATCTACCTGCTTTTGATCGGCCTGTGCACTTTGCTTTTGCGGCAGCTGGAAAAGCACTACTCATACTACAGATAG
>SRR1919932_01103 amino acid ABC transporter ATP-binding protein
ATGCTTGAAGTAAAAAACTTAGCCAAGTCTTTTGGCAACCGGCAGATTTTGCAAAATATGAACTTCAGCCTGAAGGACGGGGAAATCCTCACGGTGGTTGGTCCTTCCGGTGCCGGGAAGACGACCCTTCTGCGGATCGTGGCCGGCCTTGAAACAGCTGACGCGGGCAGCATGAGACTGGACGGGGAAAAATACGAGCTTAGCCAGGAAGAGCGGGGCGCCGTGGGCGTGGTCTTCCAGGACTTTAACCTTTTCCCCAACATGTCAGTTTTGGAAAACATCACCCTGGCTCCCCAGCTGGCGCTAAAAGAAGACAAGGCAACAGCGGAAGCCAAGGCCAAGGAGCTTTTGACGAAGCTGCAGATGGCGGACAAGGGCGGCCTTTACCCTTACCAGCTCTCCGGCGGGCAGAAGCAGCGGGTAGCCATCGCCCGGGCTTTGGCCATGCAGCCGAAGATGCTCTGCTACGATGAACCGACCAGTGCTTTGGACCCGGCCTTGCGGGACCAGGTGGCCGACCTCATCTTGAGCTTGAAGGAGTCAGGCCTGACCCAATTGATTATCACCCACGACATGGACTTTGCCAAAAAGGTGGCCGACCAGGTCCTAGAGGTTAAGCCATTGGAGGGTTAG
>SRR1919932_01104 amino acid ABC transporter substrate-binding protein
ATGAAATGGTTTAAGAAAATCCTGCTGCTGGGCCTGGTCTTGTCCTGCTTTTTGACAACAGCCTGCAGCAATTTAACTAAAGAAGCCAACCAAAAAGATACCTGGGCCAAGATTAAAAAGCGGGGCAGCCTGGTGATCGGTTTAGACGACACCTTCGTGCCCATGGACTTCCGGCAAAAAGACGGCCAGCTGGTCGGCTATGACGTCGACTTAGCCAAGGCCGTGTGCAAGAAGCTGGGCCTTAAGGCAGACTTTCAGACTATCGACTGGTCCATGAAGGAAACAGAACTGAGAAACGGGACGATCGACGTCCTTTGGAACGGCTACAGCGTGACCAGCCAGCGGAAGAAAAAAGTCGCCTTCAGCCGCAGCTACTTGCGAAACCGGCAGGTTTTGGTCGTGAAGAAGTCCAGCGGGATCAAGTCTTTTGCCCAGATGAAGGGGCAGGCAATCGGCGCCCAGAGCGGGTCAACCGCCCAGATCTGGCTGGATGGCAGCCAAAAGGTCATTAAGCCGAAGAGCAAGGTCCTTTACGACACTATTCCGTCAGCCTTCCTGGACCTCAACGCCGGCAGAATCAAGGGGATCCTCCTGGATGAAACCTACGCGGAATACTACATCAAGCACGAGGCAGACTCAAAGTCTTACCAGGTCATCTTGAACAAAGAGGTGCCAGAGGACTTGTTCGCGGTAGGGATGCGGAAGGGCGACAAGAACTTGAAAAAGAAGATCAACCAGGCCCTGGCGGAGCTGCAGGCCGACGGGACTTTGGCCAAGATCAACCAGAAGTGGTTCGGACAAAAGTCAAATTACTTGGGCAAGGTTGATTAG
>SRR1919932_01105 hypothetical protein
ATGAACAAGAACAGAAAGTCCGCGGTCAGATGGGGCTTGATCCTGATCGCTATCGCCATCCCCTTGATTTTAAGCCAGCTTTTTCCAGACTACTTTACCCTTTTTAAGCTCTTCAACTTAAGTTGGGGCCAGGTCTTCTGGGTTCTCCTCTTAGCCTGGATCGCCTGGACCAGCTTCAAGAACCGGGCCCTCTTCTTTGGAATTTTTGCCAGTGGCTTGATCGTCAAAACCATCAGCGAAGCTAGCCACTTCTTTAAATGGATCGGCTACATGTACCTGGCCCTCTTCCTAATCGCCCTGGGCTGCCAGCTTTTGGCCGGAGGAAGCCAGCTGGAGGTCAAGATGAATGTAAAAAGTGGCAAGAAAGACGATGACGGCACTAGCCTTAGCTACAGCGAATCAATCGGCGAAAATGGCGAAAAAGTTTCCATCGAATCCGTCTTCTCCAAATGCGTCCGCTACGTTCACAGCCAGGCCTTGCGCAAATTATCCGTCTCCACCGTTATGAGTCCGGTAACCATCTACTTGGACCAGACCCAGCTCAAGGATGGACGCGGCAAGCTGGATTTGGATGCGGTCTTCTCCAAAGTTGATATCTACATTCCCAGAGAATGGGAGGTCCAAGCCGACTCCAGCCCGGTCTTCTCCCGCTTCACCGCCCTTAACCCCAGCGGTTTAACAGCGGATTCACCCCTTTTAAAAATCGATGCTGACCTGGTCTTCAGCCAAGTCACCATTCACCGGGTCTAA
>SRR1919932_01106 LytR family transcriptional regulator
ATGCAGGTAGAGTTTAAACAAGACAAGCAGCTAAAAGAAGACCAGCTCATCATCAAGGCCAAGAAACTGACGCCGGAAATCGAAGCGGCTCTGGCCTTTTTGGAAGAAAAACTGGCCCAGAAGATCACGGTCTATCAAGGCAGCGATGAAATCATCCTGCCCCTAACCAGCATTCTCTTTTTTGAGACCAGTGACCGGCACGTCTGGGCTCATGACCGGGAAGGCAGCTACCTGGTCAAGCAGACCTTGCGGCAGCTGGAAGCCAGCCTGCCTAGCGACTTTGACCGGGCTTCCAAGAGTGCCCTGGTCAACTGCCGGCAAATCAATGCCGTCAAGCGGTCCATTACGGGCTGCGAGCTTGGCTTTACCGCTTCTTACAAGAAGGTCTTCGTCTCCCGCCGCTACTACCAAACCCTGATCAGCCATTTGCACGAAATGAGGTAA
>SRR1919932_01107 esterase
ATGAAGAAAGTCGTGCTTTTTGGCGATTCAATTTTTAACGCGTATGACGGGCAAAAGGATACCGACCGTTTGACCAAGGCCTTGGCCAAGCGGCTGGGAGACGCTTACGAGGTCGTGAACATCTCGGTCAGCGGTGCCTGCGCCCAGGACGTCCTGCCCAGAGTCGGCAGTCTGCCTGCCTGCGACATTTTGGTCGTAGAGTACGGGACCAACGACGCCGCCAGCTGGGGCTGCAGCGCCTATGACTACCAGGAAGGGCTGGAAAGCTTGATCAAGCAGGCCCAGAAGGTAACTGGGGCCAGCGATACCCTGGTTTTAGCTCCGTCCATGCCGGATTTGACGAACCCGGAAATGGCCGCGGCCTACTCCTTGGAGAAGCTGGACGAGTACGTCGACATCGCGCAAAGAGACGCCGGCAAGACCAACTCCTTCTTCTTCGACTTGACCCACAAGATGGAAAAGCTGAAGGACCTGCCTTCCTTCATGATTGCAGACGGCCTCCACTACAGCGAAAAAGGGATCTCCTGGCTGGCCGATGTCCTGGCTGACCAAATCAATAAGATGGCATAG
>SRR1919932_01108 pantothenate kinase
ATGCGAAACTATACTGAATTCAGCCGGCAGGCCTGGGCGGCTTTAACCCCCAAGACCAAGCTGGCGGTGACTAATGAAGAGCTGGCCAAGGTCAAGTCTTTGGGCGACCAGCTGGACGTCAAGGACGTCGATGAAATCTACCAGACCCTACTGAACTATATCCACCTGGCCTACCAGGCCAAGCAGGCGACAGCCGCCAAGAAGGCAGAATTTTTGCAGCTGCCGGAAAGCAAGGTGCCTTATATTATCGGCATTTCCGGCTCAGTTGCCGTGGGTAAGTCCACGACTGCCCGCCTTTTGCAGCTGCTCTTGACCCGGTATTACCCGGACTTAAAGACCCAGATGATGACCACTGATGGTTTCATCTACCCCAACCAGGAGCTGGAGAAGCGGAAGATGATGCCCAGGAAGGGTTTCCCGGAAAGCTACAACATGCAGATGCTCAGAGACTTCCTCCAGGACGTGGTCAGCGGAAAAAATGACGTCGTTTATCCCCTGTATTCCCAGGAATTAAGTGACATCGTCCCGGGCCGCTATGGCCATGTGGAAAAGCCCGACATCTTGATCATCGAAGGGATCAACACCCTGCAGCTGCCGGAAAGCGGCCAGCTGGTGACCAGCGACTTTTTTGACTTTTCAATTTATATCGATGCGGAAGAAGACTTGATTGAAAAGTGGTATATGCAACGCTTCAAGAAGATCATGAAAATGAAGAAGAATGACCCAAGCAACTTCTACTACAAGCTGGCCAACGGGCCGGAAGACGAGGCCCTGCGCCTGGCGGAAGAAACCTGGCAGATGGTCAACCTGGTCAACCTCCGCCAGTACATCGCCCCGACCAAGGAGCGGGCCAATTTGATCCTGCATAAGGTTGAGGGGCACTTGATTGATAAAATTTACCTTCGCGGCTTTTAA
>SRR1919932_01109 translation elongation factor P
ATGCAAGCAATTGAATTGAAAAAAGGCATGATTTTTGACGATGGCGGCAAGCTGATGCTGGTTATGGCGGCTAACCACCACAAGCCAGGCAAGGGCAACACCGTTATGCAAATGGACCTGCGTGACGTCCGGGCCGGCAGCGTGATCCACAAGACCATGCGGCCAAGTGAAAAGATCGAGCTGGTCGAAGTCGTCAAGAAGAACGCCCAATACCTGTACGCTGAAGGCGACAGCTACAACTTCATGGACACGGAAACCTACGAACAATACGCGATTTCCGGCGACCAACTGGGTGACGACGTCAAGTACCTGATGCCAAATATCGAAGTTATCCTGGAATTCACTGAAGACGGGGAACTTTTGGCCGCGCAATTGCCATCAACTGTCAACATGAAGGTAGTAGAAACCCAGCCAGGCATTAAGGGGGCAACCGCAGCTTCCGGCGGCAAGCCAGCCACTATGGAAACCGGCCTGGTTGTGACTGTGCCTGACTTCATCAACGAAGGCGATGAACTGGTCATCAACACCCTGGAAGGGACCTACAAGGGCCGGGCTTAA
>SRR1919932_01110 LysM domain protein
TTGACAATCGGTAAAGAACTACAGAAACAGCGCCGCGCCAAGCAGCTCAGCCTGGAAGCCGTTAGTCAAACCCTGCAGGTCGACCAGGCGACTCTGCAAAAGATTGAAGCCGATGATTTCCAAGGCTTAAACCCGGTCCTGGTCAGAAGCTGCATCCGGCAATACGCCAGCCTGCTGGGTTTAGACGGAGCAAAGCTGCTCGACCAGTTTACTGAGCCGGCCGCCGCCGGCAAGGACATTCCTGCTGCTAGCGCCCAAGCCGCTAAGCCGGCCAGCCCAGTTAAAGAGAAGGTCACTGAAGTCCGGGCCACTAATCCGGCGCCAGTTAAGGAGGCCAGCCCTGCTGGCAAGGCCAAGGAAATTTTGGACAAGAGCAAGTTGCCGCATGGCTTCAAGGCAATTTTTAAATTCTTTGACGCCATCAACTTGGACAAGCTCTTAAAAATCGGGATCTGGGTCATCTTGGGCCTGGCCGTGGTCGGGTCCGTAGCCGGCGGCTTCGGTGCCCTGGCTTCTAAAGCTACCAGCACTACCCGCTCATCCAGCTCCTCGTCATCATCTTCTTCTTCTTCATCTAAGCCAGCTCAAGATGATTCCGCTAAGCCTGATGAAAACAAGCCAAGCCATGATGACCAGCAGAGCCAGCAGAGCCAGCAGAGCCAAAGCCAAAGTAAAGAAGAGCAGGTCAGCTCTTCCAGTGAAGCCAGCTCTTCTAGTTCCGTGGCCAGCTCATCTAGCCAAGAACAGAGCAGCCAGGCCTCTTCCTCTAGCAGCCAGTCAAGCACTGACACGACGACTGATACAAACGAATAA
>SRR1919932_01111 HNH endonuclease
ATGAACATTCTGCGCAAGCGAATCATGACGACTTTCCCAGAAGCAAGCTTTCAATATGGTTCGCAAACCTACGTAGATCGCAAGAACCTTCTTTTGCCAAAAGGTCACTTCATGGATGCAATCGCAATCAGCGGGATCAAGTCAGTTGGTCAGATGCCGCTGACGGTGACAATGATCAGCCAGTTCCGCAAGAAGAAGCGGTCGCTTCATGAAGCAACTGCAAGAAAAGGCAGAAAGCAGCCGAATACGTCAGCCAAGCGCAATGAGAAGAACACGAAATATGCCCGTGGCTTGTGGCTGAATGACTACGTTCGTGTGATAGGAAACAATGTCAAGGGCTATGTAAAAGGCTTTAAGTCCAATGGATATTCTGTTTATCTGACAGATGGCTTAGGCAATTACGTGCTGACCAATAGTAGAAATTATATCAACTCAAAGCAGTGTCAGTTAATTACGCATAATAGCAACTGGCAAAAAGCAGAGCAAAAGCTTTTACTTTACGAATTTAAGTAA
>SRR1919932_01112 dipeptidase
ATGAGTGCTACGGAATCAGGTACGACCAACAAGAAGGGGCTGAAAGCTGACAACCTAGTCAAGAACGGGATCTCTGAAGCTTCCATGCTGGACGTGGTCCTGCCTTACATCCACTCCGCTAAAGAAGGCGTCAAGCGCCTGGGCCAGATCGTTGAAAAGCAAGGCAGCGCCGAAAACAGCGGGGTCATCTTCAGCGATAAGAACGAAATCTGGTACATGGAAATCGGCTCCGGCCACACCTGGGCAGCTGTCAGAGTTCCAGACAACAAGTATGCCGTCATCCCTAACCAAATGGTGATCGGCAAGCTGAACCTTAAGGACTCCAAGAATTACATGGCCTCAACCAACCTAATCAAGAAGTTCAAGGCCTGGTCCAAGAACAAGAAGATTAAGCTGGCCGGCTATGCAAAAGGCACGGTCAACTACGCTAAGGATTTTGGCACCAATGACAAGACCGACGCCATCTACAACCGGCCAAGAATGTGGGATGGACAGAGAATCTTGACGCCAAGCAAGAAGCCGTCAATTACCAAGAAGTCCTACACCCTCTTCCTCAAGCCGGACAAGAAAGTCAGCCCAGCCAAGGTTGGCCAGGTGCTTTCCTCCGAATTCAAAAACATATCCATTAATATTCAAGTGAACACGAATGAACATATTCTTGTCCTCTAG
>SRR1919932_01113 citrate lyase regulator
ATGCAGCTCAGCAACGACCAGCTTGCGAACATCGCACACGACTACTACATCAGCAAACTCAACATCGCCGAAATTTCCGCCAAATACAACCTGTCCCGCTACCTCATCGACAAGGCCTTAAGCGATGCTGAAAAGACCGGCATCGTCCAGATCAACATCAGGGAAGGAGCCAAGCGGAATTCCGGCCTGGAAAAGAGTTTCCGCCAGCAGTTTGGCCTCAAGGAAGCCTTTATCTTAAAGAAGCTGGAGACCAAGAACCAGGACAGCGAAAAGATCGTCAGCTTTGCCGCTGAACAGATCCAGAGCTACATGCAGTCCAGCAAGAACGTCGGAATCACCTGGGGCACGACCATGCTCGACATCATCAACTCCTTTACGGAAGTTAAAAACGATGACCTGACCTTCGTCCAGCTGGTTGGCTATCCTCTCCAGGGCAACGGCCGCAAGAATCCGCTGGAAAGCATCGCCGCTGCCCAATGCGGGGGCCACTTCCGCGCCCTGCCCGCTCCCCTTTACTCCTCCAACCCCGACCTGGTCAACTTGATCAAGAAGGAACCTTTTTACGAGCAGCTGGATGAGCTCTACGACAACATGGACCTCCTGGTCGCCAGCCTGGGCACCCTGCAAGCCTTTGAAGAAGAAAGCTTCCTGCACGAAAAATACGAGAGCCTCCTCTTCAAGAACATCCACCAAAAGAGCATCTCCGGCATGATCTTCGGCCGGCCATACGACCATGAAGGCCACTTCTTCAGTTCAATTACTGACAAGATCATCGGCATCTCCGACCAGCAGATTGTCAAAACCCCGGTCCGCTTCGTCGTGGTCAACGACCGCTTTAAGTCTGAAGCCCTCCTGGGTGCCCTCAAGTCCGGCATCATCACCCACCTAGTCACCAGTGAAACCATCGCTGACCGGGTACTGCAGCTGCAGGAAGAAAGCGGCCGGTAA
>SRR1919932_01114 aggregation promoting factor
ATGACGTTCAAACACAATTTCAAGAAAGTTTTATCAGCAACTGCTTTTGCAGCTGCCCTCGTGGTTGCTCCCGCCGCTAACGTTTCAGCGGCTACTAATGACGCAAGTTCTACCCAACAATCAGCAACTGCAACTAGTCAAGACCAACAAGCCAGCCAAGACCGGGCCGCAAGCCAGTCTAGCGCTGCTAACCAAAGCTCAAGCACTTCTACTTCTAGCGCGACTTCAACCAGCACGGTAAAGAAGGTTGCTAAGAAGACCAAGAAGAAGGCAGTCAAGAAGGTTGCTAAGAAGACTACTAAGAAGAAGGCAACTAAGAAGAAGGCAACTAAGAAGAAGGCAACTAAGAAGACTACTAAGGCCGCTACCGCAGCTGTAACTGCCAGCGCTGACCAAAGCCAGGCAACTGACCAGCAAGACGACGCGGCTAAGAAGTCTGCTGAAGCTGCTGCTAAGAAAGCCGCCGCTAAGAAGAAGGCCGCTGCCAAGAAGAAAGCTGCCGCTAAGAAGAAGGCTGCTAAGAAGTCAACTGAAAAGGCAGCTAAGTACTGGATCGCTATGCGGGAATCAGGCGGTTACTACACTGCCAGAAACGGCAGTTGTTACGGCCGCTACCAACTCTTGATTTCTTACCTGGGCGGTGACCTGTCCAAGAAGAACCAAGAACGGACTGCTGACCGCTACGTTTACGGCCGTTACGGTTCATGGGTCAACGCCAAGAGATTCTGGCTGGCTCACAACTGGTACTAA
>SRR1919932_01115 aminopeptidase N
ATGGCTGTTAAGCGCTTTTACGAAACATTCCATCCAGATCACTACGATCTGTACATCGACGTTGACCGGGCAGCAAGATCTTTCTCAGGGACTTCCACCATCCATGGTGAAATCCAGGAAGAAACTGTCTTGGTCCACCAAAAGTACATGACCATCAGCAAGGTCACTGTTGACGGCAAGGAAGTGCCGTTTACTTTTGGCGACGACTTTGAAGGCATCAAGATCGAAGCCGGCAAGACTGGGGAAGCGGTTATCGCGATCGACTACTCAGCGCCTTTGACTGACACTATGATGGGGATCTACCCGTCCTATTACCAAGTTGATGGCGTCAAGAAGGAACTGATCGGGACCCAGTTTGAAACTACTTTTGCCCGGGAAGCCTTCCCATGTGTTGACGAACCAGAAGCTAAGGCAACCTTCTCCCTCGCCCTCAAGTTCGACGAACACGAAGGCGAAACTGTTTTGGCCAACATGCCAGAAGACCGGGTAGAAAACGGCGTGCACTACTTTAAGGAAACTGTCCGCATGTCCAGCTACCTGGTTGCTTTTGCCTTTGGTGAAATGCGGTCATTGACCACCCACACCAAGAGCGGGGTCTTGATCGGGGTTTACTCAACTCAAGCCCACACTGAAAAGGAACTGACCTTCTCCTTGGACATTGCCAAGCGGGCAATTGAATTCTACGAAGACTTTTACCAAACTCCATATCCGTTGCCGCAATCACTGCAGCTGGCCCTGCCTGACTTCTCAGCCGGTGCCATGGAAAACTGGGGTCTGGTAACCTACCGGGAAGCCTACCTGCTTTTGGACCCGGACAACACCACTTTGGAAATGAAGAAGCTGGTTGCGACTGTGGTGACCCACGAACTGGCCCACCAATGGTTCGGTGACCTGGTAACCATGGAATGGTGGGACAACCTCTGGCTGAACGAAAGTTTCGCCAACATGATGGAATACCTGTCAGTTGACCACCTGGAACCTAACTGGCACATCTGGGAAATGTTCCAGACTTCTGAAGCAGCGGCTGCCTTGACCCGGGATGCAACCGACGGGGTACAGTCAGTGCACGTGGAAGTTAATGACCCGGCTGAAATCGACGCCCTTTTTGACGGGGCCATTGTTTACGCCAAGGGGTCAAGAATGCTGGTCATGGTCCGGTCACTTTTGGGCGATGAAGCCTTGAGAAAGGGCTTGAAGCGCTACTTTGACGAGCACAAGTTTGACAACGCGGCAGGTGACGACCTCTGGGATGCCTTGTCAACGGCCACTGACTTGAACATTGGGGAAATCATGCACACTTGGCTGGACCAGCCAGGCTACCCAGTGGTGAATGCTTTTGTTGAGGACGGCCACTTGAAGCTGACTCAGAAGCAATTCTTCATCGGTGAAGGCAAGGAAGTCGGCCGCAAGTGGGAAATTCCGCTTAACGCTAACTTCAAGGCACCGAAGATCATGTCAGACGTTGAACTTGACCTGGGTGACTACCAGGCTCTGCGGGCAGAAGCCGGCCACGCTCTGCGCTTGAACGTGGGCAACAACTCCCACTTCATCGTGAAGTACGACCAGACTTTGATGGACGACATCATGAAGGAAGCCAAGGACTTGGATCCAGTTTCCCAATTGCAATTGCTGCAAGACCTGCGGCTTTTGGCAGAAGGCAAGCAGGCTTCATACGCTGACGTGGTACCAGTTCTGGAACTCTTCAAGAACTCAGAAAGCCACATTGTCAACGATGCTCTGTACACGACTGCTGCTAAGCTGCGGCAATTTGCCCCAGCCGGCAGTGAAGCTGACAAGAACCTGCGGGCTCTGTACAACGACTTGTCCAAGGACCAAGTTGCCCGTTTGGGCTGGCTGCCTAAGGCAGGGGAAAGCGATGAAGACATTCAGACCCGGCCATACGTTTTGTCTGCTAGCCTTTACGGCCGCAACGCTGATTCAGAAAAGCAAGCCCACGAAATCTACGTGGAATACGCTGATAAGTTGGCAGAACTGTCCGCTGACATCCGGCCATACGTTTTGATCAACGAAGTTGAAAACTACGGGTCAAGCGAATTGACTGACAAGCTGATCGGTTTGTACCAGGCAACCAGTGACCCATCATTCAAGATGGACCTGGAAGCCGCGATCGTGAAGAGCAAGGACGAAGGCGAACTGAAGAAGATCGTTTCCTGGTTCAAAAACGCTGAAATCGTTAAGCCGCAGGACTTGCGCGGCTGGTTCAGCGGCGTTTTGTCCAACCCGGCAGGTGAACAGCTGGCCTGGAACTGGATTAGAGACGAATGGGCATGGTTGGAAAAGACGGTCGGCGGCGACATGGAATTCGCTACCTTCATCACTGTCATCTCCCACGTCTTCAAGACCCAGGAACGCTACGACGAATACAACGCCTTCTTTACTGACAAGGAAAGCAACATGCTGCTGAACCGGGAAATCAAGATGGACCGGAAGGTCATCGCTAACCGGGTAGACTTGATTGCCAGCGAACAAGCTGACGTCAACGCCGCGGTTGCTGCTGCTTTGCAAAAGTAA
>SRR1919932_01116 nitroreductase
ATGAACAACGATTTTAAAGATATCATGCAAAACAGAAAGTCTATCCGGCACTATGATTCCAGCGTGAAGATTTCCCGTGACGAATTGCTGGAAATCATTAATGAATCTATCTCTGCTCCAAGTGCCTGCAACCTGCAGTCCTGGCACTTTGTTATTGTCGACACTCCAGAAGGCAAGAAGAAGCTTCACGATTTATTAATGCCGTTCAATTACCCTCAAGTTGACACTGCTCCAGCCACGATCATGGTTTTCGGTAACACTAAGTCATATCTGAAGTATCGTGACCTGTGGAATGGCATGGTAGAAGAAAAGAAGGTAACTCCAGAAGCACGCGATGCCGCGGTTAACACCTTCCTTCCACTTTACGAAAAGGCTGACCGGCAAATGTTAGTTGCAGACGCAATGGTTGATGCCTCACTCGTTGCCATGCAACTGATGCTGGTTGCCCGTGAACACGGCTACGAAACCAACCCAATGGCTGGCTATGATGCAAGCAAGGCTGCAGCACAATTTGGCCTGGACCCAGAACAATACATTCCAGTGATGGCCATCTCCATTGGCAAACCGGACCCAAGTGAAGTTGTTCCAGATACTGTCCGTTATGATGTCAAAGACGTGACGGAATTCGCCTAA
>SRR1919932_01117 hypothetical protein
ATGAAGATGAAGCATGCTAAGAGAATCGCCCTTTTGCTGGCTTTAGGCTACGCTGGTGGCCAGGCTTTGAAGCGGTCAGCCCCATTCTTGAAGGGCGTGCAGGCAGGGATCCTCATGGAGAAGGGGAAGAGAAAGCTCAAGGAGAGCGAACCTGTCCAGAAACTTAAGGAATTAGCTGATAAATAG
>SRR1919932_01118 surface protein Rib
ATGAAAATGAAACTTAGTCGTATTCTGACGCTTATAGTAGCGTTAGGTTTATTAGGTAGTGCTTTTGAAACGATGTCTAGTTCAGTACAGCCAGCTGAAGTTGCAGCGGCTCAAAAGAAGACTGCTAAGAAGAAAAAGACAAAGAAAACTACTTCAAAATCTAAGAAGAAGTCAAAGAAGACGACAAAGAAGGCCACTTCAAAATCGAAGAAGAAGTCAGTAAAGAAGGCCACTTCAAAATCGAAGAAGAAGTCAGTAAAGAAGACTACTTCAAAGCCAAAGAAGAAGCCGGCAAATAAGACTACTTCAAAGTCGAAGAAGACTACTTCAAAGCCAAAGAAGAAGACTTTAGCAGACCGTTACAAACCATCAGTCAGAAACTTTAAGAAGATAAAAGTAGGTGTGAGAGCATCAAGTGATATTTTTATAAAGAATAAAGAATCACTTCCTGCAAATACTACGTTTAAATTTAGTAAAGAACCTAATTTTAATAAAGCGGGATCATATACTACAACTATCATTGCTCGTTATTCAGATGGATCAAAATCTATTTCAAAACCATTTGTTGTAGTAGTTATACCAAAAACTGACGCTGATTTATATGAACCTACTGTTAAAGATGGGGAAGCCTTTACTGGAGTTAGATTTGAAAGTGGTTCTTTAGTCACTAATAAAGGTGAGCTTCCAAAGGATACCTGGTTCAGTATAAAAACATCTGGAGACTTCAATAAGGTTGGTATGTATTCAGCTCAAGTGATAACTCATTACCCCGACTATTCTAAAGATACTTCAAAGCCAGTGAAAGTTAGAGTGTCTGAAGGCTTTTCGGTTGAAACTTCTGAAGATCAATATTCACCAAATAGCAGATATTTAATGGCTAAAGTTACAAACAAGTCCAATAAAACATTAAATTTTAGAGAAAGCGTAGTAGGAAAAGATAGTCATGGCAATAATCTTGATGGTCTAGCAGGTGTGGAACGTGGTCCAGTTGCACCAAATCAGACAGTTGTGTTATGGGAAAACCTTTATGATGAAAAACCATATTACTACGACCATATTGATTATGAAATACATGCAACAGACACTACGCATGAATCTGCAAATTCTAATTTAAAGGTACAAATTGTTCAAAAAGAAGATAGTGGTTTTTGCATACAGACAACAAACATAGGATCTAAGAAGATTTACTATCCGGAAGTATATGTGTTTGTCTATAAGAATGGTAAAGTATTTTATGAACAGGAGAGACTGTTAGCAGGCGACGATAAAGATGGATTGGAGCCAGGTGAGTCACATACTATAGGATTTAATGTTAGTGATTATGATGATGTAGAATTATCTTACACGTCATCGTATGACAAATAG
>SRR1919932_01119 hypothetical protein
ATGACTTCTCGCAAAGACTACCGGAAGAAAAATACTCAAGGCAGCAAATACCTGATTATCGCGGGTGTGGCGGTTATCGTCCTGGCCTGCGCGGGTATTTGGGGCCACAATGCCTACCAACAGCACCAGGCAACCGTTCTGGCGGAAAACAAGAAGCAGGTGGCATACAACAAGAAGCACTTCAACGCTAACGTCACTATCTATGGCGTCAAGGTGGGCAAGCTGACGGTTGACCAAGCGGTCGAAAAGATCCAGGACAAGGCTGTCAACAAGCTGGTCTACAAGGACGGCAAGATCAGTGCTGTTCGTGACAGCAAGCTGACAACTATCAGCAAGGAGCAGGTCCAGAAGTACTTTGACAAGCAGTACACCCAGCTGCCGACTGACCAGAGCTACAATTACGAGAACACGGCTCTGAAGAAGGGCAAGAGCAAGCTGAAGGCCATTACCGCGGCCAGCGTGGACTACTCTGTGGCGGGGAAGACTTTTACCCTGGCAGCTAAAGACTACTTAACCCAAGTCAGCTACTACAGCGGCGCTGTCCACTACGACGACGCAAGCAAGCTGACGGCGAAACTGAACGCCATGGACAAGGAAGTCAAGACTTTGGGCAAGAGCTACAAGTTCAAGACGCCAGCCGGGTCAACCATCACCGTTACCAACCAGAGCTACGGCTGGGGGATCTGGACGGCCAGCGCCAAGAAGGCGGTTCTGTCAGCTTATGAGACTGGCAAGAAGACCATTGACGGGAAGAACCACATCTATGGTGAAGGCTACACCACGCAAGGTCTGGGCTACGGCAAGAGCAACAATGGGCTGGGCAACAACTATGTGGTTGTGTCAATCGCCAGCCAGGACATGTGGGTGGTTGTCAACGGCAAGGCGGTCGTAACTGTATCTGACGTGGTTACGGGGACGGCCAACAAGGGCGACAACGCTACGCCTACTGGGGTTTGGTACATCATGTACAAGCAGCAGGACGCTACTTTAAGAGGGCAGAACGACAACGGATCGAACTACGCTTCTAAGGTCAGCTACTGGATGCCGTTTACGATGAGCGGCTGCGGGCTGCACGACGCGTCATGGCGGACCGACTGGTCAAGCACGGCCTACCTGAAAGGCGGGTCACACGGCTGCGTCAACATCCGGCCTAGTGAAATCAAGTCCGTTTGGGACGCGGTTAAGGTGCACATGCCTGTGATCGTTTACTAA
>SRR1919932_01120 hypothetical protein
ATGATCAACCCTGATTTTGCGATTATCTTAAATTTTAACCCAACTGGGGCAAATGTAAACGCGGATGCTCTGGTCCGCCGGGCAAGGGACATCGGTGCCCGCGCCGTCAGCGGCCGGGAAGAATTAAAAGCGGCCTGCGAAAAGTACACCATCGCCTACCTGCCAGACCAAGCTGGCCAGCACTACAAGGCAGATGAAGTCGTGGACGCTTTGCTAGCTGCCAGAAAGGCCGGCCAGGCCTTAGTCGTTGACGTGGACGGCGAAGACGAAGCTGACCAAGCGACTTTAGACGCTTTGAACGCCTGGATGCACAAGTTTGGCCACGCGGTTAATGAAGGCCAGGAAAGTGACTTGTCAGCTGACGCGGCAGAGGCTTTTGTCTTGACCAACCGGCACGCGCCTTACCAGGCCTACCTTTTCTTAAAGGCCCCTTATCCTGCAGAGGTCAAGGTGACTGGCTTGACGGAAGCGCCAAACCGGATCGAATGGATCGACGGCCGGGAAGAATGTGAATTCGTTTTTGAAAACGGAGTCCTGACGGTTCAGTTAAAGAAGCAAGAAAGTCCTTTTGCCTGGCAACTGGTGCGGATTCAAGGCCACCGGCCGGAGGACGATATCGCGGAGACAAAATTTTAA
>SRR1919932_01121 hypothetical protein
ATGAAGATTGTAATTTCCCCCGCTAAAAAAATGCAGATAGACGGCGGCTTTTTGCCGAAAAGCCAGCCCGTCTTCCTCGACCAGGCTGAGGAGCTTTGGTCCTATTTGCATTCCTTAGATCAAGCTGATCTGGAAAAAGTCTGGCGGGCCAATGCCAAAATCACCGAAGAAGCCCGGCAGATGCTGGCTGCTGACCTAACTCAGCCGCAAGTACCAGCCCTCTTTGCCTACAGTGGCCTGCAGTACCAGTACCTGGCCGCCGATGTTTTAGACGAAGCCGGGCTAGACTACCTGGATCAGCACCTGCGCGTTTTGTCCGGTCTTTACGGCAGCCTTCGCCCCTTTGACGGGATCGTGCCCTACCGCCTGGAAATGAAGAGCCCCCTGCCTGCCTTTAAGTATAAGAGCCTTTATGAATTCTGGGGAGAAAAAGTTTACCAAGAGCTCTACCAAGATGATTCCGTGGTCCTCAACCTGGCTTCCAAGGAATACAGCCATCTCCTGACTCCGTTCTTAAAAGAGGGAGACCGCTTGCTTGAGGTCGTCTTCCAGGAAGAGAAAAACGGCAAATGGCGGACCCAGGCAACTCATGCCAAGATGGCCCGGGGCCGTTTAGTCCGTTGGCTGGCGGAAGGGGGCCGGGACTTGTCCGACCTGCCGGATTTTACCGACTTCGGCTATGCCTTTGCCCCTGACCAAAGCGGGGCAGACCGGGTCGTTTTCCGGAAGAAGGCATGA
>SRR1919932_01122 FAD/FMN-containing dehydrogenase
ATGGAATATCATAAGTTAACTGCTGAAGACATTGAAAACTTGCGCGGCATGATCGCCGACCCAGAACGTTTTATTACTGAAGTAACTGAACACTGGGACCACGACCAATTCAAGACTGTCCGGGCTATGCCTGACCTGGTAATCCAGCCAACCACGGCTGAAGAAGTAGCCAGCGTCTTGAAGTACGCAAGCGACCACGAAATTGCCTTGACTCCACGGGGTAACTCAACTGGTTTGATGGGGGCTAACTTGACTGTGCACGGCGGGATCTCCCTGGACATGGTTAAGATGAACAAGGTTATCGACTACGACCCAGCCAGCTTGACTATCACTGTTCAACCAGGCATCCGTTTGAACCAACTGGAAGAATTTTTGGCAGACAAGCCATTTACCTACATGCCAGCACCAGCCATGCACTGGGCTACTGTAGCCGGCAACATCAGCACCAACGCCGGTGGCCTCAAGGCCATCAAGTATGGCGTAACCCGGGAACACATCCGGGAAGTCAAGGTTGCCTTGACTGACGGCAAGGTCTACAAGTTCGGTTCCAAGTCAGTTAAGTCATCATCCGGCTACTCCTTGAAGGACCTGATCATCGGTTCTGAAGGGACTTTGGGCGTGATCACTGAAGCTGTTCTCCGTCTTTACCCAAGACCAAAGCACGCTTTGAACGCCATCATTTCTTTCCCGACTTTGGACGATGCCATCCAGTCAGTGCCAGCTATCTTGGCTTCCGGCGTTGTGCCAACCACTGTTGAATACATGGGCCGCAAGGTCTTGAACCTGTGGGAAAAGTACTACGACGCTACTTTCCCAATCAAGGAAGGCGACGGCTTCATCATCCTGGGCATCGACTCCTTCACGGCCAGCGACGCTGAAGCCCAATTGGCTCAAGCTTTGGAAGCAGTCAAGCCATTCCACGCTTTGAAGGAAACTGTCTTGAACGCTGAATCAGACGAAGCCAAGACCATCTGGGACGCCCGTGAAAAGCTGCTTTTGGCCATCCAAAAGTCAACTCCTAAGATGGACGAAGTCGACGTTTCCGTGCCGATCAACAAGATTCCGCTGGTTCTGCACCGGATCGAAGAACTGGAAAAGGAAGAAGACATGCGGATTCCTAACTTCGGCCACGCCGGCGACGGTAACCTGCACATCTACCTTTGCTCAGACGATATGACTGACGACGAATTTGCCAAGAAGGGCGACATCATTATCTCCGAACTCTACAAGACCGCCAAGTCAGTGGACGGCAACATGTCCGGTGAACACGGGGTTGGCTACGCCCGCCAGAACTACTACGAAGACTTCTACGGCAAGGACTACACCGACTTGCTCAGAAAGGTTAAGGGCCTCTTCGATCCTAAGGGCATCCTTAACCCAGACAAGATCTTCCCGTTAGACTAA
>SRR1919932_01123 TetR family transcriptional regulator
ATGGTCAAGGCAACTTTTGAGAATTTAAGTAAAGACAAGCAGGACCGGGTAACAGAGGCCCTGCTCAAGGAATTCAGCGCCCATACTTTGGCCAGCGCCCAGGTGGCGCGGATCGTCAAGGAAGCCGGGATTGCCCGGGGGGCCTTTTACAAGTACTTTGAGGATTTGACGGATGCTTACCAGTACCTGTTCAAGCTGGCTATGCGGGACCTGCACACGGGTCTGACCGGCCGGATGGGGGCAGACGAGCTCTATCAGATGACCAAGGACTTTGTGACCAAGGCTACTGGCAGCCAGTACTATGACTTGATCCGCCTGCACTACGCGGCTAACGAGGCGCTTTTGCCAAGCAGCAGGCCCAACAAGCAGATGCCGGCCTGTGCCTGGGCGGCCATGGCCCTGTCACACGAGGCGATCAAGGAAGCCTTGCTGGACCCGGACAAGGCAGATTTTTACTTAGACCGGGAGCATGAGGCTTTAGAGAAGCTCTTTAGCCAACATAAATAG
>SRR1919932_01124 antimicrobial peptide ABC transporter permease protein
ATGTTTTTAGCACTAAAAGAGATCAAGCATGAAAAGATGCGGTACGGCTTGATCGTCTTCATGATTTTTCTGATCGCGTACATGATTTTGGCAACCTGGGGCCTGGCATACGGCCTGGCCCGGGAAAACACGGTGGCTTTGGAAGGCTGGCAGACCAAGAGCATGGTCTTGAACAAGAACGCCAACCTGTTTATGAACAGTTCGATTTTGACCAAGGACGACTTGAAGAAGATCGACCTGACTGACAAGGAAGCCGTGGTCGGCGAACTGCAGGTAGTGGCCAAGAAGAAGGGCAAGACCGGGATTAACGCCCAGTACATGGGGGTTAAGAAGGGCGAATTTATCTACAAGGACCAGGATGTAATTGCTGGCCGACGGGCTAAGAGCAAGTACGAAGTCACGGCTGACAGCAGCTTTAAGGACAAGGGCTACAAGCTGGGCGACAAGGTGACCTTGAACGGGTCAGACCACAAGTACACGATCGTCGGCTTCGTCAAGGATGCCAAGATTAATATTGAACCGATCATGTATGGCTTTTTGCCGGCATGGAAGGAATTAAAGAACGTGGCACCGGGGATTGAAGCTTCCGGGATCATTTCCCAGCGGAAGCTGTCTGTTAAGGGGAAGAACTTCAAGACTTACGGGATTAAGGAATTTACGCAAAAACTGCCGGGCCACTCTGAACAGAACATGACTTTTGAATTGATGATTGCTTTCATGTTCATCATTTCCCTGGCCATCGTGGCAGTCTTCCTGTACATTTTGACTATCCAGAAGCTGCCGAACTACGCGGTTCTGCGGGCACAGGGCGTGCCGGCCAAGACTTTGATCTGGGCCACGGTCAGCCAGAGTCTGCTTTTGGTAACGAGCGCTTTGGTCCTGGCTCTTTTGGCAATCTGGGGCACGGCGGCCGCGATACCGGCATCTGTTCCGATGGCCTTTACGCCAGGGATTTTCGTGGCGACGATCGGCGGGATGTTGGTAATGGGTCTGCTGGGCGGGCTTAACCCAGTTAGAACGATTTTGAAGATTGACCCGGTACAGGCAATTGGAGGCTAA
>SRR1919932_01125 peptide ABC transporter ATP-binding protein
ATGGCAGCGATTGAAATTAAGAACGTGAAAAAAGTTTACGGGCAGGGGGATGCAGCGACGGTTGCCCTCAAGGGGGTCGACTTCAGCGCGGATACTGGCAACGTGGTTCTGTTGATGGGACCAAGCGGGGCCGGGAAGAGCACCCTGCTGACGATTATGGGTGCCTTGCAGACCGCGACGAGCGGGAAGGTGGAAATCGACGGCCAGGACATCAGCCGGTTGAAGGAAAAGGACCGCAGCCGCCTGCGTTTGAACAAATTGGGCTTTATTTTGCAGGCCTACAACCTGGTGCCTTACTTGACGGTTAAGGAACAGTTCCAGCTGGTGGACAAGGTGAAGAAGACCGGCAACTTGCGCCAGGAAGAATTAAAGGATCTTTTGGCTGACCTGGGGATTGAGAACCTGGTCAAGAAGTATCCGGAGAACTTGTCAGGCGGGCAGAAGCAGCGGGTGGCAATCGCCCGGGCCATGTACGCCAACCCGAAGATTTTACTGGCTGATGAGCCAACGGCATCACTGGACAGTGAACGGGTGGAAGAAGTCGGCCGCTTGTTTAAGAAGCTGGCCAAGGATGACGGGAAGGCGATCATTTTGGTCACACACGACCCGCGGCTGGAAAAATACGCTGACCACATCTATGACATGATGGACGGGCAGTTGACACAAAGAAAATAA
>SRR1919932_01126 transcriptional regulator
ATGGACAGCTTTCAGATTTCCAAGCGGACGGCCCTAAGGGACATTGCCAGCCTGGAGGAACTTGGCTTGGCCTTATACGCCGAAGCAGGCCGGGCTGGCGGCTATTCACTGATTCAAGAGGACCTGCTGACCAAGATATACTTCAATTCGGATGAGGTTGCCGCGATATTTTTCGCGCTCAAAGCCATGGAGCAGCTAAAAGAAACCCCGTTTAACGAATCTTTCCAGATGATCAGCCAAAAGCTGCTCAAGAACCTGGCAGCGAGCCGGCAGCAGCAGGCCTTAGCCTCACAAGCAGCGGTTTCCTTCTTCAACACCCCGGCAGTTCACCACAACCCTTACTTGCGCCTGCTGATGGAGTCAATCCTGCACGACTCCCTGGTCCGGGCCAACTTCAAGGGCCAGCAAGTCCTGCTGCAACCCTGCCAACTCTTTTTTAGGGATGGCAACTGGTTGTTTGCGGCCTATGACTTGGTGGGCCAGGCCTTTTGGAACTACCGCTGCGACCAATTGCAGGATTGTACTGAGCAGGCTGCCGTTCCTAATAAGCTTAGTTTGGCTGAATTGAAGCAAAAGCAGCTAGAGTTTGAACACGACAATTCAGGCCAGGAATTTAAAATTCTCCTCAACCACCGGGGCCAGGAACATTTTTTGAAAAATCTCTACCCAAATATGCAGCTTGAGCATGAAGGCGGGACTACTTATTTGACCGGGTCATATACGCCACGCACCTTTGAGTACTTAATTGACTATCTCTTGACTTTTGGACTGAATGCGAAAATCATCACGCCAGAAGAGCTAAGAAGGAGCTTTAAAGAGCGGCTGGCTGCCATACTTGACCAATACAGCTAA
>SRR1919932_01127 FMN-binding protein
ATGTTAGAAGAAAGCACTACTTTAACCCAAAACTTTTTGGAGGTAATCAGCGATCCGCAACCAGTAACGATCGTTTCCTACCAAGCCAGTCCAGCTCATGTGGTCAACACCTGGAGCAGCTACATCAAGGTGGTTGATGACTCAACCTTCCTCGTGCCTGCTGCTGGGATGCGGTCGATTGAAGCAGATATTGCGGCTCAAAACAGCCAGCTGATCCTGACCTTCGGCTCCATGAAGTTTGAAGGCACTGAAGGTCCAGGCCGCGGCTACCACGTTTATGCTACTGGCGAATTCGTTGAAGCCGGCGAGTACTTTGACCTCATGAAAGCCGATCTGCCTTGGTTGCGGAAGGTCCTGGTTGTCCACGTGCAAGAAGTTAAGCAAAAAATCTAA
>SRR1919932_01128 two-component system response regulator
ATGTCAACCACGGCCAAGCTTATTTATGGCTATCTGATTCGCCCTGCGCAAAAGCGCTACAAGGATGAAGCGGGAAGAGTTGATGAAGAAAATGATTTTTTGGCTAAGATATCCCAGTCTTGTCTGATAAACCCCAAAAATGTAGTGGCGATCAACTTGCGCAAACGGACTATTGTCATGCTAAATGGTGAGAGCCTCAGCTTTTCACGGAGGTTCCGGCATGAAATGGACAAATTGGTTGACGAATATAATTGGAAGGTCGAAATGGCGGCCAAAACGGCTGCTCCGTTAGGAAAATGA
>SRR1919932_01129 glucose specific PTS system IIA component
ATGTTTAGAATTTTTGATTTGCTAAAGAGCAGGGCCCGGCTGAGCAAGGTTCTGGCTCCGGTCCAGGGCAGGTTGTTCCCGCTCGAGGACGTCAACGATGAGATTTTTGCTAGCAAGGGACTGGGCGAGGGCTTCGCGGTTCAGCCGTCCAGCGACTTGATCTACGCTCCCTTGAACGGCACGGTTACTTCTTTGTTTCCGACCAACCATGAGATTGGCATCCGGACCAAGGAAGGACTGGATCTCTTGATCCACCTGGGTTTGAATACGGTAGAGCTAGGCGGGGTCGGCTGCGACATTTTAGTTGAAGCCGGCCAGGAAGTTAAAAAGGGGCAGCTATTGGCGACGATGAACCGCAAGCTGCTCCGCGGTCTCGGCTACGACGATACGGTGATCGTGACTTATACCAACGACCGTATCCTGAAAGGGGTCTCGGCACCGGTCTTCTTTAGGGAGATCAATGCCAAAAGAGCGGTCCAGACGATCAGCTACCATTAA
>SRR1919932_01130 membrane protein
GTGTATATTAGAGAGCGACTAAAGTCGCCAAAAGTGTATATAGGGATAGTAATAGGCACGATAATTGTGCTTTCTCATTTTATTTCTGACTATTTCGTAATTAAACCACAGCTAGATGGAAACGTTACTTTTTTCACGCCGTATACACGATGGATTGGCTATGATACTGCTGCAATGACAACTTTTTATTATACTTTGTTGCCATTGTTAGCCTGTTTGACAGCCAACCAGCTTTTCTATCAAGATCTAAAAAGTGGTTTTATCAAGCATGCGGTTAAAGAACAAGGAGTCGCAAAGTACAGCCTTTCCCACTTGGGGATCAGCTTCTTGGCAGGCTTTTTGACAGTATCCTTGCCGCTGCTCCTGGACTTTGTGCTTTATTACTGCAGCTTGCCTAATATGAAGCCAGATCCTGTTTTAAATATGAGCGCGGGTGTTACGTCAGATTTAACCTATCTTGCTGGTCTGTACTATTCAAATCCCTTGCTGCACGTAGCTTTCTACCTATTCCTGGCAGGACTTGCCGGGGGCTTGGCCGCTACCATTTCTTTGGCTGTAACGTGCTTTATCAGCAATTATTTTACTGATGTAGCCATGGCCTTCCTGTTGTCGTTGATTCTTAACGCCTTTTCAGCAGCAACGACTTCGGCACTTTTTTCGCCAAACCTTTTTGTCATACCAGTTTGCCCGCTTTACATTCCTTCTTTATCGATAGCTCTGTCAGAGCTACTTTTAGGAACGCTTCTGTTTAGCTTGATCTATCTTTATGGGGTAAGACGCCATGTCTTTAGTTAA
>SRR1919932_01131 hypothetical protein
ATGTCTTTAGTTAACTACTTGCGGCAAAAGAGCGGATCCTGGCTGGCGATAAAAAGTATCTTGTTTGTGCTGATCTGGGCAGGGGTTTACACAATTTTGATTCTGTCAAATGCAAAAATCGTTGAGCCTGGCACGCCTGCTTTAAGCAATGCCCGTTTGACTGTCAGCAATCTTCACAACCAGCTTTATTTCTTTGCCCCTTTGCTGATAGTCAGCAGCCTGCTTTTCTTCAGCCGCCCTCAAAGCGTTGAATTTTTCTACTTGACCTTGAAGAAGCGGCTGCGGCAGTACTTGCTGATCTATACCATTCTTGAAACCATCCTGCTCATCAGCAGCTTTTTACTCAGCTTCGTGATTTCAGCTTTTGTGACGAAAGCGCCACTGGCTTCACAAATCGGCTTAGAAACCTTGCTCTTGCTGGCGCATTATTTAGGCGTTTTTGCCTTGCTCTTCTTTTTAGAGACCGCGATCTTCCTGGCTGGTAAATTGCGGGCTGGAGCGGCAATTGAAGCCTTGCTTTTGCTGGATGCCTTTTGCCTGGACCGGTTGGGCTGGTCTGTTTTCTTAAATCATGGTCTGGCAATTGTTCCTGGCCAGGGCTTCTTCGTGACCGCTCCGGCAGTCTACTTGGCTTATGACCTCTTGCTTTACTACTATCTGGCCAGCCGGGCCTTCTACCAGGAGGTCAAATATGCTTAA
>SRR1919932_01132 hypothetical protein
ATGCTTAACAAGACCCTATTAACAAGGAACTTGCAGCTGTACTGGCATAACATCAAGTTCCGCTTTCTTATCGTTTATCCGGCAATGCTCTTGCTTTTGACCTTTAAAAGCTGGCAGGGGATGGCCGGGATCCGGCTCTTTTCCGGCGTTTTGCAGGTCCCAGGAGCAATCGTCTTTCCTTTTGACTGGCTCTTTATAATGCTGGCTGTCTTTTTAATCATTGGTGACAGCCCCCGGGAGCTCTTCCTGAAGGACTATCCAATTGTTAGTCGGGTTCCTGCTGGCAGCTATCTGGCGACGATTTATTTTATGAATACCAGCTTGACGGTCATGATTTGGCTGACTTGGCAGCTTTTTGGTGGCTTGCCGCTAATCTTTTCTTTAGAAATGCTGTTGATTTTTCTGGCATTGACTGCCCTGTACGCCAGTTTGCAGTTCTTTGTCTCATCCTTGCTGGATCTGGGACTGTACGCGGCAGCATTTATACTGGCGATTCTGGTCAACCAGTTGCCTTTTCTGTCCAGCTTGATGTATTTGCGCTACTCAGCTCACTGGGCAGACGGTCTGCTTGGTTCTTGCCTCTGCCTGTTGGCAGCCTGGATTCTCAGCCAAATGATAAAATATATCGATTTTTCTTTGGAGTAA
>SRR1919932_01133 ABC transporter ATP-binding protein
ATGACGAAAATTATAGAAGTTGACCATGTCACTAAGCGCTTTAAAAACAAACTGGCCCTTAATGACGTTTCCTTCAGCATTGATGCTGGCAAAATTTATGGCTTCCGAGGCCCCAACGGGTCAGGCAAGTCCGTGACCTTCAAAACCGTTCTCGGCTTTATCCGGCCAAACTCCGGGACTGTCAAAGTTTTGGGCAAAAAAATCCGCCAGGACGTCATCTTTGCCCCGGACACCGTCTTCGCGATTTCTGAATACGGCCTGCTGGAAGACAAAACCGGCCTGGAAAACCTCAACCTGCTCAAAGTCTTGAACGATGACCAAAGCAGCCAGGCAGAAGCGATCTTGCAGCGGGTAGGCCTGGATCCAGCCAATCCCTTGAAACTGAAAGAGTATTCTCTGGGCATGCGGCAGCGGCTTTTGATCGCGGCCGCCCTCCTAGGCGACAAGCAGATCCTCCTTTTTGATGAGCCAACCAATGCCCTCGACGAAGATGGGCAGGACTTTTTGGCCCGGCTCCTGCTGGAATTGAAGGACCAGGGCAAGACCATCCTCGTCTCCAGCCATGACAAAGACTTCCTTAACCGGGTCGCCGACCACATCTTCGTCTACAGTGAAGGCAAGATTGTCAAAGAATTGGAGCAAGATCATGAAGTTGAAGCATAA
>SRR1919932_01134 hypothetical protein
ATGAAGTTGAAGCATAAAGGAATCTGGTTCTCTGCAATCTTTCTCTTGTGCCTGCTGGGCCTTTTCCTAAGCAAAAAACATATCGACCAAGTCTACCAGAACTTGCAGGTCTCCCAAACTGAAGTCAGTCAGACTGCCTATAGCAAGGTTAGCCAGAATCTGGCTGTCAAAAGCGGGCAGGGCAAGACTGAAGGAGGCAACTATCTGGCAACCATCTACGTCAAGGCCAAGACTGGGCAGAAGCTGTCCAGAAATGATTTCTACCTTTATCAAGGGCTGAAAGAGGGAGCGACAATGATCGACTCTTTAAAAATCAATGGTCAAGCAACTAGCCGCCTGCGATCCGGCGTAAACAAGGTCCAGGTCAAAGCCCCGAAAAACGGCAATGAGCAATATCTCTATTTGCTCGTTAACCCCCAAAAAGGCAAGTACGTCAAATATCATTTCAATCTGCAAAAATGA
>SRR1919932_01135 dipeptidase
ATGACAACACACGGACGTTCATCCTGCACTTCAATCTTGATCGGGAAAAAGGCCAGCCTTGACGGCAGCGTGATTATTGGCCGCAATGAAGACTCACGGACGGCCTGGCCCAAGCACCTGGCCTTCCACCAGCGGCAAGCAGGAGCCCAGACTTTCAAGTCACATGATAACAAGTTCACAATTGATTTGCCAGAGGAGGCCTTTGCATATTCATCCACTCCAGAATGGACGAAAAAGTACGGGCTTTTTGAAGAAGACGGGATCAATGAGTACCATGTGGCAATGAGTGCTCCGGAAAGTGCTTATGCCAACGAGCGGGTTCTGGCCATCGACCCCTTTGACGCTGAAAAGGGCCTGCTGGAAGAAGCCATGGTGACTATTGTTTTGCCTTACGTCAAGACGGCCCAAGAAGGGGTCAAGCGCTTGGGCGAAATCGTGGAAAAGTACGGGGCGGCTGAATCAAACGGGATTCTGTTTGCGGACAGAGACGAGGCCTGGTACTTGGAAATCGGGTCCGGCCACCACTGGGTTGCCCAGAGAATTCCGGACGACTCCTACACGGTGGTTGCCAACCAGCTGTCAATTCAGGAGATCGACTTTAAGGATCCGGCCAACTTCCTTTATTCAGCCGGCCTGCAGGAATTCGTTTATGAGCACCAGCTGTGGCCAAAGGAAGCCAAGTTCAACTGGCGGGAAATTTTTGGCACGAGAAGCGAGAGCGACCTGCACTACAACACCCCGCGGGTTTGGTACGGGCAAAAGCTGCTGACCCCGTCAGTTAAGCAGGAGCCGCAATCTTTTGACCTGCCATTTATTCAAAAGGCGGACCGGCCGCTCAGCGTCCAGGACGCCCAGACGGTACTGGCCAGCCACTACAGCGATACGGAATATGACTTGACCAACCCGAAGAACGCGGGCCAGGCAAGCTTCCGGCCGATCGGGGTGGCGACGACCCAGGAATCCCACCTCTTGCAGCTTAAGGGCGAGGACATGTACCACTGGCTGGCCATGGGGGTTACGGCGCAGAGCGTCTACATTCCCTTCTTCCCGCAGGGGACCAAGGTGCCTTACATGTGGGGCAATGGCAAGGTCGACTACAGCCCGAACTCTGCCTACTGGATCTTCAAGCTGGCTGGGGTTCTGGTTGACCGGAACTGGGGCAAGTACGGCAAGGAACTGGCCAACGCCCAGACGGAAGCCAAGGAAAAGGTCCTGCGCCTCCGCCATGAATACGACCAGAAGCTGCATGCTGACCCAAGCCAGGCCACGGCGATCGCGGATGAGGCCAATGCCAAGATGGCCAAGACGGTGACGGACATCTACAACAAGCTGATCAGCAACTTGATTACCCAGCAGACGGGCGATTCCCCGCTCAGCTTCCAGATGGACCCGAACTTGTAA
>SRR1919932_01136 cell wall-associated hydrolase
ATGAAGCGGAAATTCAGTTTAGTCCTTTTACTGCTGGCAGCTTGGCTGGGCGGGGCGCAGCCGGCCTACGCGGCAACGGACAGGCAGGACAGCAATATTACGATCGTGAAGAAGACCCGGGTAGCCTACAATAAGGGTATCTTGCAGTAG
>SRR1919932_01137 cell wall-associated hydrolase
TTGAAGTTCAAGAGTTTATTAGTCAAAGTTTTAATGGCCCTGGCCCTGGTCGCACCTGTTGCCGCCAGCGCCCAAGCTCCGGCAGCCCAGGCAGCGACTGTTAACAAGCAGGTTGTGGTCAACTACGTATCTGGCTACAGCGTTAAGGCTTGGAAGAATTGCAAGGTTAAGCTTGGCGCGGCCAACGACACTGGCATCAGCTTCAAGCACGGGACTACTTTGACGGTGGTTGGCGAAGTTAAGTACAAGAAGCAAACCTGGTACAAGATCGCTGACAACGAATGGATTCTGGCTTTTTACACTTTGAGTCATAAAGCCTGGGCCAAGAAGGCAGCAGCTGCCAAGAAGGCCGCTGCCAAGGCAGCTAAGAAGGCTGCGGCAGCCAAGAAGGTATCTAAGAGCAAGCAGACCAAGCAAAACAAGGTTGTTGCTTTGGCCAAGGCCCAAGTGGGCAAGCCTTACGTTTGGGGCGCCACTGGTCCTTACAGCTTTGACTGCTCCGGCTTGACCAGCTACGTTTACAGCCGAGCCCTGGGCAAGTACATTACCCGGACCACTTACACGCAAGTGCACCAAGGCAAGACGGTTGCTGTTTCTACGGCAACTTTGAAGAAGGGGGACCTGCTTTTCTGGGGTTCCAAGTCTTCACCATACCACGTGGGGATTTACGTGGGCGGCGGCAAGTTTGTTCACGCGGCTACTCCAAGCCAGGGCGTGATCAAGCAGAGCCTGAGCTACTACTTCTGGCCATCAACTGCCAAGCGCTTGATTTAA
>SRR1919932_01138 cell wall-associated hydrolase
ATGAAGCAGTTTAAGCAGATCTTAGTAAAATTGACCTTAGCCCTGGCCCTGGTTGTGCCAATCGCCGTGCAGGCAAACAGCCACCAGGCCCAGGCAGCAAGCGTGACGACCAAGCGGAACAAGGTCGTCTCCCTGGCCAAGAAGCAAGTTGGCAAGCGCTATGTTTACGGCGCTACCGGTCCTTACAGCTTTGACTGCTCAGGCTTGACCCAGTACGTTTTCAAGAAGGCGATCAAGAAGTCCATTACCCGGACCACCTACACCCAGGTAAAGAGGGGCAAGACCGTTAGGGTTTCAACCGCCAGCTTGAAGAAGGGCGACCTGCTCTTCTGGGGCTCCAAGTCTTCCCCATACCACGTTGGGATTTACGTGGGCGGCGGCCAGTACGTGCACGCGGCTACTCCAAGCCAAGGTGTCCGCAAGCAGTACTTGAGCTCCTACTTCTGGCCATCAACCGCCAAGCGGGTTATCTAG
>SRR1919932_01139 D-lactate dehydrogenase
ATGAGAATTGCATGTTACGGCGTTAGGCCGCTTGAAAGAAGTTATTTTGAAAAACTGAACAAGTATGACTACGACTTGAAGCTCATTCCTGAATACTTGAACCGGGAAAACGTAGTACAAGCAGAAGACTGCGACGCCGTCCTGGTCCGGGGCAACTGCCTCTGTGACCGGACCAACCTGGAGCAGTTCAAGAACTACGGGATCTCCTGGGTCTTCACCCGGTCAGTCGGCGTGGACCACTTCGACCTGGAAGCCGCTAAGGACTTGGGCATCTCCGTTGCCCGGGTGCCAAACTACTCCCCATACGCGGTAGCCAACCTGGCCTTTACCCTGGGTTTGACTTTGTCAAGACACGTTGGTGAAGCTGCCCATCATGTCCATGAACAGGACTTTGGGATGCATCCAGACTACTTCGCTACGGAATTCAACCGTTTGAAGGTCGGCATCTACGGGGCCGGCAAGATCGGGGCGGTTGAAGGCAAGATGTGGCAGGCTCTGGGTGCTGAAGTTTATGCCTATGACCCATTCCCATCTGACTTCGCCAAGCAATACTGCACTTTTGTAAGTGAAGACGAACTGCTGGCAACTTGTGACATCGTTTCTGTTCACGTGCCATACTTCCCAGGCAAGAACGACAAGCTGATGAATGCTGAATTCATCGCTAAGATGAAGGAAGGGGCAGTCTTGGTCAACACGGCCCGGGGCGAACTGGCTGATGAAGCCGCCATCGCTGCCGCGGTCTCCAGCAACCATCTGTCTGGCTACGGCGCTGACGTGGTTTCCAATGAAAAGAAGATCATGGGCCACAGTTTTGACTGTGAAAGCGACGTGCCGGACCAGGAAGTCCAGTCCTTGATGGACCTTTACCCGCGGGTGCTCTTGACTCCGCACATGGGCTCCTTTACTGAACCAGCCCTGGAAGACATGATCTCCTTGTCATTTAACAATTTCCATAACATGGCCACTGAGGGGGCAGTTGATGCCCGCAATGAAGTCGTGGCTGCACCGGAAAGCTCCACTTCCGCATCTGAGAAGCTGCGGGCTTAA
>SRR1919932_01140 cell wall-associated hydrolase
TTGAAGTTCAAGAAGTCATTAGCCAAAGTAGTCGCAGCCGTATCCCTGGCCTTCGCCGGTTTCGTTGCCGTAAATACTGTTAACACTCAAAACAACACTGTCCAAGCTGCTTCTAAGACCAGCCAGCGCAACAAGGTCGTCTCCATGGCCAAGAAGCAAGTCGGCAAGCGTTACGTTTACGGGGCAACCGGTCCTAACGCCTTTGACTGCTCAGGCTTGACTTCATACGTCTACAGCCACGCCATCGGCAAGTACATCAGCCGGACTACTTACAGCCAAGTTTACCATGGCAAGACTGTTAAGGTTTCAACTGCCAGCTTGAAGAAGGGTGACCTCCTCTTCTGGGGTTCCAAGTCCTCCCCATACCACGTGGGCATCTACGTTGGGGGCGGCCAATACGTGCACGCCGCTACGCCAAGCCAGGGTGTCCGTAAGCAATACCTGAGCTCCTACTTCTGGCCATCAACTGCCAAGCGGGTTATCTAA
>SRR1919932_01141 guanylate kinase
TTGGCTAAAAAAATTATCTTGATTGCCGGTCCCAGCGGGGCGGGCAAGACGACTATATCTGAATACTTGACCGACCGCTACCAGATCCCCCGGGTGATTACCCATACCACCCGGCCAAAGCGGCCTGGGGAAAGCGGGTCAGCTTATTATTTTGAAGACGATGATTCTTTTGCCCAGCTGCACTTCTTTGAACATGTCAAATACGGGGACTACCAGTACGGGTCCAGTAAAGAAGGGTTGGAAAGAGCCTGGGCCAAGAACGACCTGGTCAGCTTGATCGTGGATATCAAGGGGGCCCGGTCCTACCTGGAAGCTTTAGGCGACCAGGTTTACTTCCTTTATGTGACTTGCAGCCTGGATACCTTGGCGCAAAGAATGGCTGACCGGGGTGATGCAAGTGACCAGATCAAGAAGCGGCTGACCGGCAGCGAGTTGAACGAATTGCCGGAAGATTTGGCAAAATACGCCCATGTCCTGGTCAATGACGACCTGCAAGCGACCTATGCCAGCTTGGACAGTTTGGTGAGAAAATTACAAAATTAA
>SRR1919932_01142 hypothetical protein
ATGAAGAAAGCCGATGTTGAATTAGGTGCCGTCGTTAACGCCAAGTCAGAAGAAGAACTGAAGAAGCAGTTCCAAGGCACGGTGGAAAAGATCTATGAAAACTCCGCCCTCCTGGCTATCACTTCCTTTGACGACGTTGATGCTGCTGCCGTCAGCGACCTCAACTACAAGCTGGTCGTCAACTTCAAGAACATGAAGCCGGCCCGGGCAGCCAAGAAGGCCAAGGCCCTCTCCACCAACAACGTGACCATCGAAAAGATGGCCCCGACCATGAAGGCTGACGACAAGGACAAGAAGGAAAAGAAGGCTCCGGCCAAGAAGAGCAAGTAA
>SRR1919932_01143 transposase
ATGGATATTTCTTTGACTATTAAAGCTCACATCAAAGTTGCCAGTTCCGAAAATGCTAAATCACTGATAGACAGCATGGAAGCTTATAGACAAGGTTGTAATTTTGCATCTGAATACATTTTTGAGCATGACTTTGAACTCGGCCAAGCAAAGCTGAACAAAGCTGTCTACTCTGACTTACGACAAAAATTCAACCTCAGATCACAAATGGCTCAGTCTGTCTTGAAGACCGTTATCGCCAGATACAAGTCTGTTAAAACGCAGCTTGGTCAGAAGCCTTATAAATTTCACGACATCAATGCGCCGAAAGACAAGGGCTACTACACTGTCCAACGTGATCTTGACTGGCTTTGGGAGCCGATATTTTTCAAGCGTCCGCAATTGGATGAAGTAAGAGATCGGGATTATTCCTTCAAGCAGAATGGCAAGATCGTGTCTGTCAATACCCTTAACGGGCGGATTGAATGCGAAATTGCCATGCCAGGCTTTGAAAAATATCTGGATGACGAATGGACTTTTGGCACTGCCAAAATCCTTAGATCTGGCAAGCACTGGTTTATGCATATCAGCGCAACCAAGTCTTTTCCAGATTACGAGATTGAGCAGACTCGTCATGTAGTTGGGGTTGACAGAGGCCTTCGCCAGATCGTTACCTGCTATGACGAAAAAGGCAAAACTTTCTTCCACAACGGGAAGACGATTGCCAGAAAGCGTCAGCACTATAAAGAGCTGAGACGTCATCTGCAGATGACAAATACCAGAAACTCAAAGAGACGCATTCGCAAGATTGGTCAACGAGAGAACCGCTGGATGAGCGACTACAATCACTGCTTGTCTAAGACACTCGTCAACCACTACGGAGCTGATACTCTCTTTGTGCTTGAGGATCTTACTGACGTAACTTTTGATACGGTCTATAGCCGTAAGAAGGAAAATAGATATGAGCACCATTCCTGGTCTTTCTATGACCTGGAACAAAAGCTCAAGTACAAGGCACATCAGAATGGCAGCGAGGTTGTCGAGGTAGACGCTCACTATACCAGTCAGCGCTGTCCTAAGTGTGGGCAGATTTTGAAAGAAAATCGTGACCATGAGCTGCACATGTATATCTGTAACAGATGCGGCTACCGCTCTAATGACGACCGCATAGCCGCAATGAACATTCAAATGCTGGGAACGATGTACGTCAGCGGCGTGCCTAATCCGTCGTATCAGAGTCAGCATGATACGACAGATGCTAAGAAAGCCAAAGGCAAGAAAACAAAGAAACAAACAAATTAG
>SRR1919932_01144 hypothetical protein
GTGCTCCTCCCTCGATTGAAATCGAAGGTTTCCGCACGCTACATTTTAATGAAAGAAAAAACTAAAAGCCTGCTCTACTGGTTCATCCTCCTCCAGCCCTTCCTAGATTTGGACTTCTTCTACCGGGGGAAGCTGGCCACCATCCTGCCCTTCACCATCCCGACCATCATCCGGATCGCCGGTGTCATCGTCTTGCTGGGCCTGCTTGTCTGGGGGCAAAAGCAGCTGCCCCCGGCCTGGCTCTGGGCCTACCTGGCCCTCTTGACCCTCTACGGGATCTTCCACCTCTGGCACATGCAGAACTTCAAGAGCCTCAGCCCGAACGATTATGGCTACTCGAATTTCGGGGAGATTTTTTACCTCTTCAGAATGCTCCTGCCTCTGGCCTTGATCTGGGTGACCAAGAAGCAGGAAATCAGTCAGGACTTCTTGTTAAAAGCCTTCGCCTGGGTCAGCGGCCTCTTCACCGGCACGATCGTCTTGAGCAACCTCTTCGTGGTCTCTTTGAAGTCCTACGAAACTGGGGTAATCTCCGGCAACATCTTCACCTGGTTCATGGGGCCGCTTTATGGCTACTCCCACAGTGCCTCCAAGGGTTTCTTCTACTTTACCAACACCTTGAGCGCCATCCTCTTGATGCTGGCCCCGGTCGTCTTCTATCTGCTTCTTGAGCGCTTCTCCTGGAAGACCGGCCTTTTGGCCCTCAGCCAGACTTTGGCTATGCTGGAAGTCGGCACTAAGGTCGCTCTCTACGGCTTAGCCGGAAGCCTGGCCGTCAGCTTGATTGCCTGGCTGGTCCACCTGTTTTGCTTGAAAAACGTCAAGTTTTCTAAAGGCGGCCTGGTCACCCTTTTGGCCTTAGCCGGGATCACCGGGGTCTGCTGGCAGGTCTCCCCGGCTGTCCAGCGCTACAAGTACGAGATCTACTGGGCAAACAGCCATGACTCCAAGATCGACCAAGAAAACGCGCTCTTAAAGGCGGGCCTGGCCAAGTACAAGAATGACCCGGACAAGCTGAAAGAGTTTGAGAAGGACTTTTTGGCCAAATATTACCAGAAGTACGCCTTAAACAAGCGCTTCATTACCAAGTCCTACCCATATAAGTACGACCCGCAGTTCTGGATCAACCTGCTTAAAGAGCCGGCCAGCGTCCGTTTAGCCAACCGCAAGGTCGAAGAGGCCATGCTTAAGCAAGTGGTCAAGTATGACAATGATCCTTTGGACAAGTGGCTGGGGATCGGTTATATGCGGCAGACCAACATCTTCAACCTGGAGCGGGACTTCACGGCCCAGTACTACTCTCTGGGGCTAGTCGGCGCCTTCCTTTACCTAGCCTTTTACCCGGCCATCATCCTCTATGGGGCCTTTGAGTGGCTGAAGGAAAAAGCCTGCCGGACCTTTTACTTAACCAGCCTCTTGATCGCTAGCGCCCTGCTACTGGGGGCCAGCTACATGTCGGGCAATGTCCTGGACTTCCCGACCTCTAACCTGCTTTTAGCCTTCCTCGACGGCGGCCTCCTGGCTTACATCAAGGAAGAAAAAGGCCGAAGCAGAGGACTCCGAATCGTCAGATTTGAGAAAAAGTAA
>SRR1919932_01145 hypothetical protein
ATGTGGAGCTGGAACGTACTGGGGGTGGCCCTCTGGGTGGGAGTCATCGTTTACCTGGTCTTTATCGTGCAAAATATCCGGCGCCGGCGGCTGAAGATGATCATCCAGCGCCGGCATAAATTTGAATGGGGCAACTCCCTGATCAGCCTGCTGGAAGTCGCCAGCTTCTGCCTTTTGGCCGGCTGGCTCTTAGCTGTCAGCCTCTTTGACGACCCGAACTTGACGGATACTTCCCGGATTACTTCATCCGTGACCTACAAGCCCCTGGTCCTGCAGCCTAGCGCCAGCCAGAGCTACTATGTCCAGGTCAGGTCCACCAAGAACCGGGATTTGAGCCAGCAGTATATTTTTTACCTAAAGGGGAAAAAGTATACCGTGCCCAGCTACCTGGCTACGGTCTCTTATGAAAAGGATCCGATCAACGTGACGGTCTCGGCTCTGCCATTCAGCCGCAAGGAGCTAAAGAAGGAAGATTCCCGCTACCAGCAGGCCTACGTGGCTATCTACACGGCCAAGTACAAGAACACCGCGGCTAACGGGATCGGCCTCCATGTTGGCCACCAGGCCAAGCGCTTCTACCTGATCCGGGTGCCGGACAGTTCCTTTATTGACAAGGAAAGCAAGTAA
>SRR1919932_01146 hypothetical protein
ATGCAGATCAACCTGAAAGACTTAACTAAAGCAATCGAAGAACAGACCTACCTGTCTGACATGGAGACCATCAAGTATTCCGAAGTCTCCTGGAGCAAGAAGAAGCTGCGTGAACACGCCTTGACCATGGTCCAGGAAGTGGCCACGGCCTTGAATAAAGACCGGCTCATGCAGGTCCAGCTGGTTTTGGAAGGGAAGAACCCTATCACTTTTGCCCTGGAAACCAACATCATCAACCTGCCCCTGGCCAACTACAAGAAGCTGATCAACTTCTTTGACGAAGAAGAAGCCCAGCCGGTCAAGGTCTACTTTGAAACGGCCAGCGAATACCTGAACGCTTCCCACTTCCGGATCGACCTCTTCATGGATGGCGACGAATTAGTAGCCGATGTTGAAGGGGCAGCCGACCGCCTGGCTGACGCCATGAGCGAGAAGATCAAGCAGGTCAAGGAAGGCGAAGCAGCCGCCAATGAAGCTGCCAAAGAAGCCAAGGCCAAGACGAAGAAAGAGGCATAA
>SRR1919932_01147 transposase
ATGGTCCAAGCGAAAAGAAAGAAAAAACAAAAGACAATTCCGGGAAATAGTGAACTCATTGACCAATTGGCCAGTGAGTATTACATCAAGGCTACTCCAGAGCTTGACCGTGCGGCAGAAATTGCTCATAAGATTTATAACGCCGCTTTGTATCAGCTCAGACAAGCTCTTTTCAAAAGAAAAGGATCGATTTATTATGAGGGCTTGGACAGGATCTTCAAAAATAAAAGAAATGCCAATGAGCTTATGCTTTATGGTCAGATGCCCACTGTTCAATGTGCTCAACAGACGCTTAAAGAAGTAGCCGCGGTTTGGAAGGCCTGGTTCTGTGCCTTGCAATCTTACAAAATAGCACCACAGAAATTTACCGGCAGGCCGAGAATTCCACGTTACTTGAAGAAAAGCAGACGTCATACCTTTTACGTGACACCACAAAACGCGAGAGTCAAAGAAGTGAAAAGTGCTGATTGCAAAGATGTCGTAGCGCGGTATCTGATTATTCATTCTTTGGGGCTTAGCATCAAGCTTGCAGATGGCATAAAAAAGATCAATCGCATCGCAATTAAGCCACTGTCAAATGGTTATAAACTCACAATAGCCTACACTCCAGCTGCAAACCAGAAACCGTATCTGCCAGACAACGGCCGCTATATTGGTATCGATCCAGGTGTAGATAATGCATTTGCCTGCGTCTCAAATACGGGCGATAAGGCCTTACTCATTAATGGCCGTGCAATCAAGTCTGTCAATCAGTACTACAACAAGCGCATGGCGAAATTGAAGAGCCTTCAAGCTCAATACCACCAGCTCGAAAGCATCATCAATACCAAGCAAGGCCCAAAGGCGGTATACGGCCAGACCAAATCCATGCAGCGCCTAACCGATTGGCGCAATGCCAAGATTCGTCAATTTGCCCACAAGGCATCCAAGCGCATAGTAGATTACGCGCTAAGCTGTGGAGCAAATACTATTGTGATTGGCAAGAACAAGACATGGAAACGGTCAGTAAATATGGGCAAGAAAAACAATCAGAACTTTATTGGCTTGCCTCACCAGCAGATGATCAATATGATCCGCTACAAGGCCAATATGGTCGGTATCACGGTTATCTGCACAAATGAATCGTATACAAGTCAGACTAGTGCTCTTGACGGCGAAAAGCCGTGCTGGAACAATGGCAATAAGAGCAGAAAAAAGCAAGGGCTGAGCCCAGCCAATCGGCGCATTCACCGCGGCATGTTTAGAAGCAACAAGGGTTTGTTGGTCAATGCGGACATCAACGGTGCAATGCAAATAGTAAGAAAAGTATTCCCGAACGTCTCATTTGCGAACGGGATAGTGGATGCTGTGTTGCATCCAGCCAAATGGTCTCCTCTCATTTGA
>SRR1919932_01148 cupin
ATGTTTGATTTGAAGGACTACGGACCTGATCCATGTGCTTTGGACTTAAAGCAGGCCGCCTTAGAGAATGAGAAGTATCGTGAAACTTTGTGGACGGGAGATCACTTCCAGGTAACCCTGATGTGCATCCCTGCTGGCGGCGGCGACATCGGGCTTGAGATCTACCACGACAACGACCAGTTCATCGATCTCGTCAGCGGGACTGGCCGAGTGCAGCTGGGTAAGGAGAAAGACAACTTGACCGTGGACAAGATCGTTCACGCTGGTGAAGCTGTCTTCATTCCAGACAACACTTGGCACAACGTGACCAATGCTGGTGACGAGCCAATGAAATGCTTCAGCCTGTACGCTCCGGTAAAGCACGCGCATGGCACGACCGAATCGACTAAGGACGACGCGATCGCCCAGGAAGGGCCGCTGGAAGGGTCAAATGAATAA
>SRR1919932_01149 hypothetical protein
ATGAAGCATATTAAGTACCTAACATTTTTAGCATTGTCTATATTAGGCATTGCCGTTCTCAGCGGAAAGGCCTATGCTGCAACAGATGATGAAGTAACTACCTTGTACAACAAGGATTATCAAATTATCCAGGGAACATCTGGTTTTAATCCTAATTATTGTTCACGGATGGTGTGGCAAGCTTTCTACCATGGGTCTGGCAACAAAAATGTTATCCAAACTTCCACAGCTGGTTTAACTTACATTTTCCCAGGCGCACTTGTAAATACCTTTACCTCTAAGTATCGTCCATACAAAGTAGGTACCTATTAA
>SRR1919932_01150 hypothetical protein
ATGAAGGCAAGCAAGCAGCTCTACCATGAGCACAAGATCATCACCCTAATTCTGACCTCGCCAATCTGGCTCTTTGTCCTCTTCTCCGTATTGTTTACGGCTAACGAGATCTACAAATCGACCCAAGAAGGCGTGGTAACTGAAGTTCTGAACAAGACCCTGCCCCAGCATGGCTACAGCGACATCTACTACTTGAATCAGGTCAAGGCTGACAGCCATTTTGGCATGGGGACCACCTATGTCAGCAGCTTCTCAACCAAGCGGACAGTTAAACAGAACCAGGATCTTTTTGCAAAAGCTGGCAAGAAGATAGACAAGGGCGACGCTAACCTCCCTTATTACAAGGAAGTCACGGTCCGCCGGAGCGGGATGGGCTGGGAGGTCACCGTTTCTGATTCGATTGGGCAAGAGGAAAGCAATTATAGCGTGAAATGA
>SRR1919932_01151 membrane protein
ATGCTGGGGATGCAGGTTAGTTTCAACATCTGGGACGTCTTGATCAACTTGATCTTTTCATACATTGCCACGGTGGGCTTTGCCTTGACGGTGAATATTCCCCACCGGGTGATTCACTGGAGCGGGATCTGCGGTTGCGCGGGCTGGATGGTCTACTGGCTGGTGACGGAGGCTTCTGGCGGGCGGATGATTTCCAACACCCTGGGGGCCTTTGCCGTGGGCTTGGTCGCGGTGGTTTTGGCTAAGTGGAAAAAGTGTCCCGTCACCCTTTTCAGCGTACCGGGCCGGGTGCCGCTGGTGCCGGGAGCGCCGGCTTATATGGTGGTCAGACGGCTGATTGATGGCAAGTATATTGCTGCCCAGCAGATGATGATGCGGGTGGCTATCGTGACTGTGTCGATCGCTTTGGGCTTCTTGCTGTCAACCCTGTTCCAGGAAGCTTGGAACAAGTACATCAAGCGGCTCAAGCTGCGGGAGAAGTTGAAAAAGTAG
>SRR1919932_01152 membrane protein
ATGAGCACAGACGCGTACATGAAAAGAGTCGTTCATACTTGTTTGAAGGCTGGCCGCCTCATGCTGGCCGGCGGTAGCGAAATGTACCGGGTGGAGGACACCATGCGCCGGATCGCTGTCAACGCCGGCATCAAGGAGGTCAATGTTTTTGCCATGCCAACCGGCCTCTTCGTCAGCCTGGATGATGGGGAATGCAGCACGGTGACGGAACTGGAAACCGTAAAGAAGCGGGCCATCAACCTGGAACTGGTCGACCAGGTCAATGAATTCTCCCGGGAATTCGCCGACAAGCGGATTGACCTGGAGGAGCTGGAAGAGAAGCTGCGGGAAATCGAGGAGAACACCCCGACTTTTCCTTTATGGCTGCAGGTCATCGGGGCCGGGATCTTGAGTGCCACCTTGATGGTTCTCTTTTTGGATGTCTATGACTGGGTCGACTTCCCGGTTGCCGGGCTGGTCGGGGCCAGCGGCTATTTGATGGACTCCTGGCTTAAGGGCCACACCAAGGTCCGCTTCCTGGCGGAAATGATCGCGGCCATGGAGATGGGGCTACTCACCATTATCATTAATAGGATTTTTCCGGCCTGCAATGTAAACAATATTTTGACTGGGGCCTTGATGACTCTGGTGCCCGGCCTGGCCTTGACCAACGCCTTGAGAGACTTGTTTATGGGCGACTGGGTGTCAGGGATCGTGCGCATGTGTGAGGCGGCGATGACGGCGATTGCCCTGGGCGGCGGCGTCGGGATCGTGATTAGATTTTTAGGAGCTTAG
>SRR1919932_01153 ATPase component of ABC transporter with duplicated ATPase domains
TTGAGTTTACTGACCGTCAGCGGCTTGACCCAGGGCTTTGCGGAAAAGACCCTCTATGAAGACGCCAATTTCGTTTTAAACAAGGAAGACCACATGGGGGTCACCGGCCAAAACGGGGTCGGCAAGTCCACCTTGATCAAAATCCTGACCGGGGAAATCCTCCCCGATGAAGGGTCAGTCAAGTGGCAAAACAAGCTCTCCGTCGGCTACCTGGACCAGTACGCCAAACTGACGCCCGGTCTGACCATGCGGGACTTTTTAAAAACTGCCTTTGACCGGCTCTACCAAGATGAAGCCCGGTTGAACCAGCTTTACATCGATTACAGCGAAAGCGGCGATGAGTCCCTTTTAACTAAAGCCGGGCGCCTGCAGACCTACCTGGAAGAAAACAACTTCTACGACCTGGACACAGAAATCGACCGGGTGGCCAGCGGCTTAGGTCTGGCTGAACTGGGCTTTGACCGGGACGTCTCCCAGCTTTCCGGGGGCCAGCGGTCCAAGCTGATCCTGGCCAAGCTCCTCTTAGAGCAGCCTCAAGTCCTGGTCCTGGACGAACCAACCAACTACTTAGACGTCGGCCACATCGACTGGCTGGTCGACTACTTGAATGATTTTACCGGCGCTTTTATCGTTGTCAGCCACGACTACGACTTTTTAGGCCGGATAACCAACTGTATTATCGACATCGACTTCGGGACCATCACCCGCTATACCGGTACATTAAAGCAAGCCATGCGGCAAAAGGAATCCAACCGGCAGACTTATATGAAGGCCTATGCCAACCAGCAGCGGCAGATCACCAAGACTGAAGCCTATATCAGAAAAAATAAAGCCGGCACCCGGGCCAAAAGTGCCCGGTCCCGGCAAAAGCAGCTGGACAGAATGGAAATTCTGACCCCTCCGCAAAACGGCAAGAAGGCCAAATTTGACTTTCCATACGTGGAAACGGCCTCTAACTTGCTTTTGCAGACGCAGGACCTGGTGATCGGCTACGACCAGGCTTTGGTTAAGGAAGCCTTCAACTTCTCCGTTGGCAATGGGGAAAAGGTCGCCATCACCGGTTTTAACGGGATCGGCAAGACCACCCTGCTGAAGACCCTCTTGGGGCAGATTCCGCCGATCTATGGGGGCTTTGACCTGTCGGCTACGGCTAAGCTGGCCTACTTCAAGCAGGACTTGACCTGGCCCAACCAGAATATGACGCCTCTGCAGTACTTAGAGAGTGAATTTGACCAGAAGAAGCCCAAGGAATTGCGGCAGGCTTTAGCCCGGATGGGGCTGACCGCCCAATTGGTCATGAGTCCACTTAGGGAACTGTCCGGGGGCGAGCAGGAGAAGGTGAAGCTGGCTGAGATGCAGTTTGAGCCGGCCAACCTGCTTTTCCTTGACGAACCGACCAACCACCTGGACAATGAAACTAAGGACAGCCTGCGGAAGGCCATCGTCAACTTCCCGGGCGGGGTCATCATCGTCAGTCACGAACGGGACTTTTTCAGAGGTGACTGGGTCGACAAGGTCGTCGATATTGAAGCCATGAATAATTGA
>SRR1919932_01154 hypothetical protein
GTGAAAAAACGCTATTATCCATACATCTACGGCGGGATTGCCGGCGTAATGACTTTCATCGCCATGTTCTACATCTGCCGGCACTCTTTCGCCTTAACCAATACCCAGTCCCTGGTCTGGGGCATCATCGGCGCCATCCTGGTCTTCGTGAGCTCGTCTTACACCGAATACGCGATTGCCGAAATCCAGCGGATCTCTGACAAGTACCACCTGGATGAGGAATTCCTCTCCGGCTTAACCAAGCTCAGTCCCAGCTACTTCCGGGTGGCTGACGACCACCTGCACTTGACCGCCCCGCGCTATCTCTGGCCGCGGATCCTCAAGACCCTGCAGAAGTACGACCATGAGCGCAAGCAGGCGGAAAACTTTCACCTGTAA
>SRR1919932_01155 LytR family transcriptional regulator
ATGGAAGAGCAACACAGCAGAAGACAACAGAAAATTTTTCGTAATGTGACTCTTGTCCAGGCTGGCCTTTTGAAAAAGTCCCGCCGCCCTTTGCCGACCATCATTGGCCTCTTGGTGACCTTTGCCGTCATGATCGCGGCGACCTGGGGGGCGCATGCCTACTTCTCCCTGCATTCAGCCTTGGTGAGCATGAACGGCAATAACGGCAGCACGGCGACCAGTGCCCGGATCGCGGCCAAGAAGCCGATCTCGATTCTGGTTTTAGGGGTCGACCAGGGGCTTGAGGGGAGAAATGACAAGGGGAACTCGGACACCATCATCCTGGTGACCGTCAACCCAACGACCAAGAAAGCGACCATGACTTCGATTCCCCGGGATACCTTGACGGAAATTCTGGGTGAAACGAGCAGCACTAGCTACTACATGTTCAAGGTCAACTCGGCCTACCAGTTTGGAGGCAGCAGCGGGTCGGTCAAGACGGTTTCGGCCATGCTCAACGTGCCGATCAACTATTATGTGGAAGTTAACATGAAGGCCTTGAAGGGCTTGGTCAACGTTTTAGGCGGGGTTGACGTCAACGTGCCGTTCAGCTTCAGCTATGACTGGTGTGACTTTAAGAAGGGCAAGCAGCACCTGGATGGCCGCCATGCCATCGCTTATGCCCGGATGCGCTATGACGACCCCCGGGGGGACTACGGCCGGCAGCTGCGGCAGCGGCAGATCATCCAGGCTGTGGTCAAGAAGGGCTTGTCCGTCAACGGTTTAGCTAACTACCAGAAGCTGCTCAAGGTTTTTGCCAAGTACGTCAAGACCAATTTGACTTTTGGCGACATGACCAGCCTGGCCATCAACTACAGAGGCGCGGCCAGCAACATTTCCAGCGGCTACATCCAGGGCCACGACGCGACGATTTCCGGAACCAGCTTCCAGATAGCGTCAACTGAAGAATTGCAGAAGTGGTCCAACAAGCTGAGAAAGAGCCTGGGCCTGTCCACGCAGACTTTGACCAACCAGGAAACCCGGCAGAACAGTCTGAACGAGACCTATAACGGGGTCGACTTCTCCAGCAATGAGACCATCACCAACTACACGATTTATGAAGCCAACTCAATTACGCCAAGAAGCAGTGATTCTTGGTAG
>SRR1919932_01156 oligoendopeptidase F
ATGGAAATCCCTTATCGCAGTGAGGTTCCCAAAGAACAGACCTGGGACTTGACCCGGATCTTCAAGACTGAGGCGGACTGGGAGGCCGCCTTTAAAGCTGTCAAACAGGAAGTCAAGGCCCTGCCGGCCTTGGAAGACGGCTTTACGGAGAGCGCGGCCGTCCTCTATGACCGCTTGACCCAGATTTTTGCCGTTGACCGCCGCCTGTCCAAGATCTACGTCTATGCCAGCATGGCCAGCGACGTCGACACCAGCAACCAGAAGAAGCTGGCCCTCAATTCCCGCGCCCAGAGCCTGGCCGCTGAATACCAGGCGGCTGTTGCCTTCATTCAGCCGGCTGTTTTAGCCTTGGGGAAAGAGGGCTTGGACGCCTTTTTCAAGGAAGAGCCAAGACTGGAAAACTACCGGCACTATTTGGAACAAATCGTCAAGCAGGAAGAGCACGTTTTGCCAGCTGAAGAGGAGAAGCTGGTATCGGCGGCCGGGGATGCCCTGTCAGCTTCGGCCAACACCTTCAACGTCTTGACCAACTCCGATTTGCAATTCCCTTACATTGAAGATGAAGACGGGGAAGCAGTGGAACTGACGGAAGCCAACTACGACATCTTGATCCAGTCCCAGAACCGGGAAGTCAGAGAGGACGCCTTTGACGCCCTTTACGCTGTCTACGGCCAGTTCGCGTCAACTTTTGCCTCAACCTTGGCCGGCAATGTCAAGGCCCACAACTTTGATGCCCAGACCCACCACTACCAGGACGCCTTAGCCGCGGCTCTGTCAGAAAACAACATCCCTGTCGACGTCTACAACCAGCTTTTGACTAGCGTCCACAAGCACCTGGACCTCCTCCACCGCTATGTCAACTTGCGCGAAGAGATCCTGGACCTGAAGGGCGACCTGCAAATGTGGGACATGTACGTGCCGATCACGGGCAAGCCAAGCCTCAGCTACACTTTCGCTGAAGCCAAGGCCCAGGCCAGAGAGGCCCTGCAGGTTTTGGGCGAGGACTATGTCAAACACGTCGACTACCTCTTCAATAACCGCTGCATCGACCACGTGGCTAACATGCACAAGCAAAGCGGGGCCTACTCCGGCGGGGCTTATGACACCGACGCCTATGAGCTCTTGAACTGGCAAGGGGACCTGGATTCCCTCTACACCCTGGTCCACGAGACCGGCCACTCAGTCCACAGCATGTACACCCGGGAAAACCAGCCATACGTGTACGGGGACTATCCGATCTTTGTCGCGGAAATTGCCTCAACGACCAATGAAAACCTGCTGACCAACTACTTCCTGGATCGGGTGACGGATCCAAAGACCCGGGCCTTCTTGCTCAACTACTACTTGAGCTCCTTTAAGGGAACGGTCTACCGGCAGACCCAGTTCGCGGAATTCGAGAAGTTCATTCATGAAAGCGACCAGGCGGGTGAAGCCTTGACGGCTGACTACCTGTGCGGCTTCTACGACCGGCTCAACAAGCAGTACTACGGCCCGGCGATCAGCCTGGGCAGCGACATCGACCTGGAATGGGCCCGGATTCCTCACTTCTATTACAACTTCTACGTCTACCAGTACGCGACCGGCTTTGCCGCGGCGACTGCCCTGGCTAACAAGATTACTTACGGCAGCCAGGAAGACAAGGAGAAGTACCTGGACTTCCTTAAGTCCGGCTCCAGCGACTACCCGATCAACATCATGCAGAAGGCCGGCGTCGACATGACCAAGTCCGACTACCTGGAAGATGCCTTCAAGGTCTTTGCGGAAAGACTGGACGAATTTACTGACTTAATCAAAAAATTGTAG
>SRR1919932_01157 L-lactate oxidase
ATGACACATTACATCAAGGGCTTCCCGCAAAGCGAAGCAGATGAAGACTTAAAATTTGTTAACGTTGATGAGCTTGAAGAAAAGGCCAAGGAAGTAATGCCGGAAGGGGCTTACTACTACGTAGCCTCAGGTTCAGAATATGAATGGACTTGGAGAAACAACACTACTGCCTTCAACCACTACCAGATTGTTCCCCGGGCCTTGACCGGGATGGACAACCCGTCAACTGAAACTGAATTCCTGGGCATGAAGCTGAAGACGCCGATCATGATCTCACCAATCGCTTGTCATGGGATCTCCCACGCTGACGCTGAAGTTGCTACCCAAAAGGGGGCAGCTTTGGCTGGGGCCATGTTTACTTCCAGCACTTACGGCAACAAGCCGGTTGAAGAAATCGCTGCCGCTGCGCCAGATGCTCCGCGGATGTTCCAGCTTTACCTTTCAAAGAACTGGGACTTCAACAAGATGGTCTTTGACGCGATAAACGCTGCTGGCTACAAGGCAATCCTGTTGACGGTTGACGCTTTGGTATCAGGCTACCGGGAAGCCAACCTGCGGACCAACTTTGCCTTCCCGGTACCGCTGGACTTCTTCACCCGTTTCCAAGGCGCCAAGGGCGAAGGGCAAACGGTTGCGCAAATGTACGCTTCCAGCGCCCAGAACATCGGTCCGGATGACATCAAGCGGATCAAGGAAATGTCCGGCTTGCCAGTCATCGTTAAGGGTGTCAACTGTGCTGAAGACGTTGAAGTTGCTTTGACTGCCGGCGCAGACGGCGTTTACGTGACTAACCACGGTGGCCGGGAAATCGACGGTGCTCCTGCAACTATTGACGTATTGCCAGAAGTTGTTGAAGCAGTCAACGGCCGCTGCCCGGTTATCTTCGACGGTGGTGTCCGCCGGGGCTCCCATGTCTTCAAGGCTTTGGCTTTAGGGGCTGACCTAGTTGGTATTGGCCGTCCTTACCTTTACGGCCTGGCTTTGGGTGGCCCGCACGGGGTTGCTTCAGTCATCAACGAATTGAACGATGAATTGAAGATCGACATGCAACTGACTGGCTGCAAGACGATTGAAGACGTTAAGCACGCCCGCTTGACTGACTTCCAGTACGCTGGCGACACTAAGTCATCCAGCACTGACCCGCGGGTGCGCAAGCCATACCCAGTTACCGCGGTCAACCAAATCAAGTCTGAACCAGACGCGGCTACTGGTGCTTCACACCACTAA
>SRR1919932_01158 L-lactate permease
ATGTGGGTTAAATTCATTTTTGCCTTGATCCCGATCGTCTGGCTGATCATCTCTCTGACAGCCTTGAAGATGCCTGCGGCCAAGGCAGCCGTTATTTCTCTTATCCTGGCAATCATTTTGGCCATTACTGCCTTCCAGTTGCCAGTCGTTGACACTTTGACCGGGACCTTGGAAGGGATCCTGGGCGGCCTGTTCCCGATTGTCTACATCATCGTGGCCGCCATGTTCACCTCCAAGGTAACTTTTAAATCCGGCGCCATGCAAAAAATCCAGGACATGCTCTGTGGTCTGACGACCGACAAGCGGGTCCTGGTCCTTTTGATCGCCTGGGGCTTCGGGGGCTTCCTGGAAGCCATTGCCGGCTTCGGGACTGCTGTTGCCATCCCGGCCAGCATCTTGATGACCTTCGGGATCAACCCGATTGAAGCTTCCGTTATCTGCCTGGTGGCAAACACCACCCCAACTGCCTTCGGGGCGGTCGGCCTGCCAGTCATCACCTTGGCCCAGACTGCCGGCCTGGACGTGATGAACACGGCCTTCGTGGTATCTCTGCAGCTGAGCGTTTTGATCCTGGTCATCCCTTACATCTTGGTTGGCCTGGTCGGCGGGGGCGTCAAGACTATCAAGGGGGTAGGCTTCATTACCTTCATGTCTGGTCTGGCTTTTGCCTTGCCGCAAATCTTAGTGGCTAAGTACGTTGGGGCGGAATTGCCAGCCATCGCTGGTTCCATCGTCTGCATCCTGGTTACGGCCCTCTTGGCCAAGCGGCACAAGGACGTGCCGGAATACTCCGCTTCTACCGGGGACATTGCCAAGCACTCAGCTGGTGAACTGCTGCAAGCCTGCGCGCCATTCATCTTAGTTTTCGTCTTCGTTTTGGCCGCTTCATCCTTGTTCCCAGCCGTTAACAGCCTGCTCAACTCCGCGACTTTGAAGTTCCAGGTTTACACTGGAAAAAATGCTGGTCAGTTCAGCCTCAACTGGCTGTCTTCACCAGGGACCTTGATCTTGGTGGCTACCTTCATCGGGGCCATGATCCAGGGCTTGAGCGTTAAGGAAACTTTTGGCATCCTCTGGGACCTGATTAAGGGGATCGGCAAGACGGCGGTGACTATTTCCGCTATCGTGGCCCTGGCTAAGGTTATGGGCTATACCGGCATGACCAGTGCCATCGCGGTTGTTTTGGTCAAGGTCATGGGTCCGGTTTACCCATTGATCGCGCCAATCATCGGTGCCCTGGGTACTTTCGTGACCGGGTCAGACACCAGTTCCAACATCCTTTTCGCCAAATTGCAGGCTTCAGCTGCCCAAAGCCTGGGCGTGAGTCAGACTTGGGTCGTGGCCAACAACATGGTCGGGGCTACTGCCGGGAAGATGATTTCCCCGCAATCCATCACGGTTGCGTCTACCGCTATCGGCCAGGAAGGCAGCGAAGGCACGATTTTGAAGCAGGCCTTCAAGTGGTGCGGGATCTACACCGCCATCATCTGTATCTTCCTGTACCTGGTCGGCTTGGCTACAGGTCAATTGCACTTCTAG
>SRR1919932_01159 multidrug ABC transporter ATP-binding and permease protein
ATGATTTTCCCCTTGATGAACTTTGTTAAAAATGTCGGCTATTTCTTGATTGCCGTCTTTGGGGTAATCGACATGATCAACGGCGCCATCAGCCTGGGCAATGTCCAGGCTTTTCTCCAGTATTCCAACCAGTTCTCCCAGCCCTTGACCCAGCTGGCCAACATGTCCAGCACGATCCAGCAGACCATTGCTTCTGCCGAAAGAATCTTTGCCGTTCTGGATGCTGAAGACATGGATGAAACAGTCCACCCGGCGGAAGGATTAAAGACAGATACTAAACTGACCTTTAAGGATGTTTCTTTCAGCTACACTGATGCTCCTTTGATCGAAAATTTCAGCCTGGAAGTACCAAAAGGGGAGATGGTGGCCATTGTCGGGCCAACCGGGGCCGGCAAGACCACGATCATCAACCTGCTGGAGCGCTTCTATGACGTAAAAGGCGGGCAAATTTACTTGGACGGCCAGGAAACCAGGTCAATGAGCCGGGAAGACTTGCGCAGCCATATCGCCATGGTTTTGCAGGATACCTGGCTCTTTGCCGGGACAATTTTTGCCAATATCAAGTACGGCCGGGAAGATGCCAGTGATGAAGAGGTTTACCAGGCAGCCCGCCTGGCCAGGGCCGACAGCTTCATCCGCCAGCTGCCGGATGGCTACGAGACCCTGTTAAACGAAGAAGGGACAAATATTTCCCAGGGGTAA
>SRR1919932_01160 multidrug ABC transporter ATP-binding and permease protein
TTGACGATTGCCCGGCCTTTTTTAGCTGATCCGGAAATTCTCATCCTGGATGAGGCGACCAGCTCAGTTGACACCCGGACGGAAAGCTTGATCCAGAAGGCGATGGCCGATCTGAAGCAGGAAAGAACCAGCTTCGTGATTGCCCACCGCCTGTCAACCATCCAGGATGTCGACAAGATCATCGTGATCAACCACGGACAAATCGTCGAAAGCGGCAACCATCAAAGTCTCTTGGCCAAGGTCGGCTTTTACGCTGACCTCTATCAGAGTCAGTTTTTGGGCCAGGAAATCTGA
>SRR1919932_01161 glycerol-3-phosphate acyltransferase
ATGTTTGCAATAAAATTTGCATTATTATTAATTTTAGCATACTTAATTGGTTCTTTTCCGACCGGTGTTTTGGTCGGCAAGCTCTTCTACCACAAGGATATCCGGGATTACGGGTCGCACAATATCGGGACCACCAACACCTTCCGGGTCCTGGGCCCCAAGGCCGGCACCTTGGTCTTCCTGGTTGACTTCTTCAAGGGGACCCTGGCCACCTGCCTGCCCCGGATCTTCCACTTGGGTGACCACCACTTGTTCCTGATTTTCGGGGCAGCGGCTATTTTCGGCCACGCCTTCTCAATCTTCCTCAAGTTCAAGGGCGGCAAAGCCGTGGCCACCACGGCGGGCTTTCTTCTGGGCTACAATGTCCAGTTCTTCGGCCTCTGCGCCAGCTTCTTCATCCCCCTGCTCTTAATCACCAGCATGGTGTCCTTGAGCAGCTTGATTTCAGTCGTCTTGATCTTTATTTCCAGCTTCTTCTTCCATGATACCTTCTTGACAGTCATGTCAGGAGTCCTGGTTGTCCTCATCTGGTGGAGCCACCGGGCCAACATCAAGCGGATTATCGCCGGAAATGAGAACCTGGTTTCCTTCGGCCTTTACTATCATATTAAGCAAAAGCAGGACAAGGACAAGAAGGAGTAG
>SRR1919932_01162 DNA topoisomerase IV subunit B
TTGCCAAAGAACACCTATGATGATTCTTCAATTCAAATTCTGCACGGGCTGGAGGCAGTCCGCAAGCGGCCGGGGATGTATATCGGGTCAACCGACATCCACGGCTTGAACCAGCTGGTCTACGAAATCGTCGACAACTCCGTCGACGAAGCCATGGCTGGTTTTGGCCAGGAAATCAACGTGACCATCCACGAGGACAATTCCGTGACCGTGCAGGACTTCGGCCGGGGGATGCCGACAGGGATGCATGCCTCAGGCCGGCCAACCATTGAAGTCATCCTTACTGTCCTGCATGCCGGCGGCAAGTTCACGGAGCAGAACTACAAGACCTCCGGCGGTCTGCACGGGGTCGGCTCTTCCGTGGTCAACGCCCTGTCCAGCTACATGAAGGTGCACGTGGTGCGTGACGGCAAGGCCTACGAGGAAGAATTCAAAAATGGCGGTCACCCAATCGGCACCCTCCGCTGCCTGGGGGCGACCGAGGAAAAGACCGGGACCACGATCACTTTCAAGCCGGACCCGATGATTTTTTCAACGACTAAGTACAACTACGAGACCATCCAGGAAAGAATCCGGGAATCGGCCTTCCTGCTTAAAGGAGTCAAGTTTACTTTGACGGACGAGCGGACGCCAAACCACCACGACGTCTTCCAGTATGACGACGGGATTGAAAGTTTCGTTTCCTACCTCAACGAAGGCAAGGGGACGATCGGCAAGGTCTTCTACTTTGAAGGCAGCCAGGACGGGATGGAAATCGAATTTGCCGGCCAGTACAGCGATTCATACTCAGAGAACTTTGTTTCCTTCGTCAACAATGTCCGGACTGCTGACGGCGGCTCCCACGAAGTCGGGGCCAGAAGCGGCTTTACCCGGGCCTTTAACGACTATGCCAAGAAGCAGGGGCTTTTGGGCAAGAAGGACAAGAACCTGGAAGGGTCCGACTACCGGGAAGGGCTCAGCGCCGTTTTGAGCGTCAAGATCCCGGAAGAACTGCTGGAATTTGAAGGGCAGACCAAGGGTAAGCTGGGGACTCCCCAGGCCAGAAGCGCGGTCGACAGCATCGTTTACGAGAAATTGTCTTACTACCTGCTGGAAAACGGGGAATGGGCTCAGGACCTGGTCAAGAAGGCCCTAAGGGCCCGGGATGCCAGAGAGGCGGCCAAGAAGGCCAGAGATGAGTCCAGAAACGGGAAGAAACGGCACAAGAAGGAAGTCCTGTCCGGGAAATTAACCCCGGCCCAGTCCAGAAACCCTAAGAAAAACGAGCTTTTCTTAGTCGAAGGGGACTCAGCCGGCGGCAGCGCCAAGCAAGGCCGGGACCGCCGCTTCCAGGCCATCCTGCCTTTGCGGGGGAAGGTTTTGAATACCCAGCGGGCCAAGCTGGCGGATATTTTCAAGAACGAAGAAATCAACACGATGATCCATACGATCGGAGCCGGGGTCGGGACTGAATTCAAGGTTGAAGACTCCAACTACGACAAGATCATCATTATGACTGATGCCGACGACGACGGGGCCCATATTCAGATCTTGCTTTTGACCTTCTTCTACCGCTACATGCGGCCGATGATCGAAGCAGGCAAGGTCTACATTGCCCTGCCGCCGCTTTACAGAATCAGCAAGAAGCAGACCAACCTTTACGCCTGGACCGATGAAGAACGGGATGAGGATGAAAAGAAGGTGGGCAAGGGCTATGCCCTGCAGCGCTTCAAGGGGCTGGGGGAAATGAATGCTGACCAGCTCTGGGAGACGACCATGAATCCAGAAAGCCGGATGCTGATCCGGGTCAGAATCGACGATGCCCAGTTGGCTGAACGCCGGGTAACCACCTTGATGGGTGACCAGGCTTCCGCCAGAAGAAAGTGGATTGAAGAAAACGTCAAATTCCGCCTGGGCGAGGAAGAGTCGATCTTAGACAAGGTAAATGATTAG
>SRR1919932_01163 DNA topoisomerase IV subunit A
ATGCCAGAAACTCACGAGCGGATTCGTGAAATGCCTTTGGAACAGGTCATGGGCGAACGCTTTGGCCGCTATTCCAAATATATTATTCAAGAACGGGCCTTGCCGGACATCCGCGACGGGCTCAAGCCCGTGCAAAGACGGATTCTTTACGCTATGTACCGGGACGGCAATACGGCTGACAAGCCTTTTAAGAAGGCAGCCAAGGCCGTCGGTAATATCATGGGTAACTATCACCCGCACGGCGACAGCTCTATCTACGGGGCCCTGGTCTTCCTGTCTCAAGACTGGAAGATGAGAGAGCCATTGATCGAAATGCACGGCAACAACGGGTCCATGGACGGCGACAGTCCCGCCGCCATGCGTTATACGGAATCCCGCCTGGCCAAGATTTCCAATGTCCTGTTGGAGGATATCGACAAGGAAACCGTGCCAATGGTGCTCAACTTCGACGACACCGCCTATGAACCAACGGTTTTGCCAGCCCGCTTCCCTAATCTTCTGGTCAATGGATCAACTGGGATTTCTTCTGGTTACGCCACGGAAATTCCGCCCCACAACCTGGGCGAGGTTTTAGACGCCACTATCCACTTGCTCAAGCACCCGGATGCCAGCCTGGAAGACCTGATGACCTTTGTCAAAGGGCCAGACTTCCCGACTGGCGGGATCGTCATGGGCAAAAAAGGCTTGCGGGATGCCTACAAGACCGGTAAGGGCCGGATCCAGGTCCGGGCTAAGACCCATATTGAAGAGATCCGGGGCCACCGCCAGCAGATCGTGGTGACAGAAATTCCTTACCTGGTCAACAAGGCCCAGCTGGTTAAGAAGATCGATGAAATCCGGGTCAGCCGGGAACTGGACGGAATCAGCGAAGTCAGAGATGAAACTGACCGCCACGGTCTCTCTATTGTCATCGAACTTAAGAAAGACGCTGACGCCCAGAACATCCTCAACTATCTCTTGAAGAATACTGACCTCCAGGTTTCCTACAACTTCAACATGGTGGCCATTGCTCACATGACTCCAGTCCAAGTGGGCCTTAAGCGGATCCTGGCCGCCTACCTGGAGCACGAAGAAGAAGTCGTAACCAAGCGGACCCAGTTTGACTTGAAGAAGGCCTCAGACCGGCTGGAAATCATCCAGGGTTTGATCAAGGCCATGAGTATCTTGGACCAGGTGATCAAGGTCATCCGGGCTTCTAAGAACAAGGCTGACGCCAAGAAGAACCTGGTAGCGGAATTTGCCTTCACTGACCGGCAAGCCGAAGCCATCGTCTCCTTGCAGCTTTACCGCTTGACCAATACTGACGTTTTGGCCCTGCAGGCTGAAGAAGAAGAACTGACGAGCAAGATCGCAGCTTACGAGAAGATTTTGGCGGACCCGAAAGTTTTGCAAAAGGAAATCATCAAGGAACTCCGGGCCGTCAAGAAGGAATTTGGCTCAGACCGGCGCAGTGAAATCAGCGATGAAACGGCCAGAGTCGAAGTTGATGAAAAGGCCTTGATCACGGAAGAATCAGTCCGGGTCTTGATCAGCCGCGACGGCTACATCAAACGGTCCTCAATGCGGTCCTTCCAGTCAACTGAAGCCGGCGACAATGGCTTGCCGGAAACTGACCAGGTGGTTTATGAAGGGAGCCTGTCGACTTTGACCAACCTCTACCTCTTCACCAACCACGGCAATTTGATCTACCGGCCGGTGCATGAGCTGGTTGAAAGCAAGTGGAAGGATGTTGGCCAGCACTTGTCCCAGGAACTGGGCCTGGCGGCTGACGAGAGCATCATCAGGGTCTTTGCCTTGGAAGCTTTGGATGATCCAAACCTGGCCTTCCTGTTGGCCACAAACGACGGCTTTATCAAGCAGGTGGCCCTGGCTGACCTGCAGCCAACCAGAACCTACAAGTCTCGGGCAATTATGGCCATGAAGATGAAGGGGGAAGACTCCCGCGTGATTACTGTGGACCTGGTCAAGACAAGTGAAAAGCGGGAAATCACCCTCTTTACCAACCAGGCCTTTGCCCTTAAATATGACATTGGTGAAGTTCCGCAAGTCGGGGCCCGGGCAGCTGGGGTCAAGTCAATCAACTTGAAGGAAGACGATTATGTCGTTGCCTGCCTGGTCACTGACCCGCAATATGAAGACCTGCTCAAGGTGGGTCTGGTAACCCAAAGAGGGGCCTTCAAGCAGATGCCGCTGAAGCTGATCGGCAAGACCAGCCGGGCCAAGCGGGGCGTATTGGTTTTGCGGAACCTGAAGACCAAGCCGCACCGGATCGTGGCCTTGAAGGCTTACGGGCAAAACCATGAGCTGATCTTGATCACTTCCAGCCTGCGCAAGCAGGTCATCCGGACCAGCGACCACCCAGTCGGCGACCGGCAGAGCAACGGTTCCTTCGTCATTGATGTTAAGACAGACGGAGAGGCTAAGGAACTGCTCATGGGCCGGCCTTTACCGGACCAGGCCAGGGATGTCGGCCGCTTGCTCTAA
>SRR1919932_01164 manganese-dependent inorganic pyrophosphatase
ATGGAAAAAGAACTGATTTTTGGTCACAGAAACCCAGATACTGACGCAATTGGCACGGCGATTGCCTACTCATACTTCCAAAACCAACATGGCTACAACACTGAAGCCGTTGCTTTGGGTGAAGCCAACGACGAAACTTCTTTTGCCTTGAAGAAGTTCGGCTTTGAAGCACCACGCGTGGTTAAGACTGTCGCAAATGAAGTCAAGGCCATCATGCTGGTTGACCACAACGAACCGCAACAAAGCGTTGAAGACCGGGACCAAGTCAAGGTTACCCACGTCATTGACCACCACCGGATCAGCAACTTCGCGACGATCGACCCCTTGTTCTACCGCGCTGAACCAGTAGGCTGCACTTCCACTGTTTTGTGGGAAATGTTCAAGGAGCAAAACATGGAAATTCCAACCAACATTGCTGGTATCATGCTCAGTGCCATTATTTCCGACACCTTGCTTTTGAAGTCACCAACCACTACTGACATCGACAAGGAAGCAGTTGAAGACCTGGCTAAGATTGCCGGCGTTGACTATAAGGAATACGGTTTGGAACTGCTTAAGGCCGGCACCAACATCGCCGCTAAGTCAGTTGAAGAACTGATCGACCTGGACGCCAAGAGCTTCGAACTGGGCTCAAAGACTGCCCGGATCGCTCAAGTCAACGTTGTTGACGTCCCAGAAGCCCTGGAACGCAAGGATGCCTTCCTGGCAGCCATGGAAAAGGATGCTAAGGCTAACGGCTACGACTTGTTCATGCTGGTAATTACCAACGTTTTGGACTCTGACTCAGAAGTTCTCTTCATTGGGGATGACGAAAGCAAGTCTGTCTTTGCCAAGGCCTTCGGCAAGGAACTGGTTGACTCAGAAGCCCACCTGCCAGGCGTTGTTTCCCGGAAGAAGCAAATCGTTCCGCCATTGACCCGGGCATTTGAAGCTTAA
>SRR1919932_01165 isopentenyl-diphosphate delta-isomerase
ATGTCACAAAGATCTATAAGAAAAGAAGAACATCTGGCTTTGACACAGATGTTTTTTAATGCCCAAAAAACGAATTCCTTTGACCAGGTCCACCTGCTCCGCCCGGCCCTGCCTGAAAGCCAGGTTAACCTGAACGCCGTCAAGACGACCTGGTTTGGCAAAGAGTTAGCCGCTCCCTTCTTCATCAACGCGATGACTGGCGGGTCGGAAAAATCCAGGCAGATCAACCGGCAGCTGGGTGAAATTGCCAATAAGCAGCAAATTGCCCTGGCCTTGGGTTCAGCCAGCATCTTGACCAAGGAAGAAGACCAGCTGGAGTCTTTTTACGTAGCTAGAGAAGCCAATCCAGACGGCCTCTTGTTTGCTAATGTTAATCCTTTAACTCCAGCTAAAGCGGCTGCCAAGATCGTCAAGGATCTGCAAGCAGATGCCCTGCAGATCCACCTTAACGTGGCCCAGGAGATCCCCATGCCTGAAGGCGACCGGGACTTTGTCTGGCTGGACCGGATGCTGGAGATTAAAGAAGCAGCTGGCGTACCAGTCATCGTCAAGGAAGTCGGCAGCGGCCTGGATCCAGTCAGCCTGCAAAAATTGCAGGCAGCTGGCTTTAGCTGGTTCGATATCGGGGGAGCTGGCGGCACCAATTTTGCCCAAATCGAAAATTCCCGCAACCCCCACCCCATGGTGTATTTGAACGACTGTGGCCTGCCAACGGCCCTGGCTGCCCTTTTGGCAGCGCCTTTGACCAAGCAGCTGATCGTCTCTGGCGGGGTCAGAAATCCGCTGGACGTCTTCAAGGGCCTAGCCCTGGGCGGCAAATTTGTAGGCGTGGCCAACCACTTCCTCCACACCCTTTTAAATGAGGGCCTGGATGGCCTGGATGAAGAAATCGGCCGCTGGAAGGAAGAACTGACCTACCTTTTTGCCTTATATGGGCAAGGCTGTCTGCCAGTCAAGCAGCCATATTACTTAGACTTGGAACTGAAGAATCAGTTTGACCAGCTTAAGCAATATGCTGGCAAATAA
>SRR1919932_01166 phosphomevalonate kinase
GTGATTACTGAAAAAGCGCCAGGCAAACTTTACATTGCCGGGGAATACGCTGTCTTGGAACAAGATTGTCCAGCCATTCTGGTCGCCCTTGACCAATACGTCAGGGTCTCAATCAAGCCAAGCAGCAGCGACACCGGTTTGATTCACTCCAAGCAATACTCCCAGGACTCCATTCACTGGGTCAGACGGGGGTCAAAGATAGTGATCGACAACCGGGACAATCCATTTGAATACATTCTGTCCGCAATTTCTTTCACTGAAAGATACTGCCTGGAACAGAAGGTCAAGATGGACGTTTACGACTTGTTTGTCAATTCTGACCTGGATTCCGCAGATGGCAAGAAGTATGGCCTGGGTTCTTCAGCCGCGGTCACGGTCGCGACGGTCAAGGCAATCTTGCGCTTTTACGGTGTCCAGGCAAGCAAGGACCTGATTTACAAGCTCTCCACAATTTCTCACTACTCAGTCCAAGGCAACGGCAGCGCCGGCGATATCGCGGCCAGCGTCTACGGCGGCTGGATCGCCTACCAGACCTTCAACAAGCTCTGGCTGAAAGAAGAACTGGCAAGCAAGTCCCTGTCAGCAGTGGTCGGTGAAGCCTGGCCAGGTCTGAAGATCCAGCAGCTGGTTCCGCCGAAGGGCATGAAGCTCTTGATTGGCTGGAGCCAGCAGCCGGCTTCAACTTCCCGCCTGGTTGACAAGACTAACGCCAACAAGAACAACCTGCGGACTGAGTATGCCAAGTTTTTGGCAGACTCACGCAAGTGCGTTTTGCAGATGATCCGCGGTTTTGAAGAAGCCAACATCGCTTTGATTCAAAAGCAGATCGGCATCAACCGCCGCTTGCTGCAGCATTTTGCGGCTATCAACAATATTGCTATCGAAATTCCCCGCTTGACTGAGCTGATCGAAATCGCCAACAAGTTTGGCGGCGCGGCCAAGACCAGCGGCGCGGGCAACGGCGACTGCGGCATCGTCATCGTCAACAAGGACACCGATATTGACCGCCTCCGCAAGAAATGGGTCAAGAACAACATCCTGCCCCTGGAATTTCACATTCACCAATCTGAATTAACTTACTAA
>SRR1919932_01167 diphosphomevalonate decarboxylase
ATGAGTAAAACTGCCCGCGCCCATACCAATATCGCCTTGATCAAGTACTGGGGCAAGAAGGACGCCAAATTGCGCCTGCCGCTCATGTCCAGCCTGTCCATGACCCTGGATGCCTTCTATAGCGACACCAAAATCTCAGACAGCGAGCAAATGTCTTTTAAATTAAACGGCCAAGCCGTTTCCGGTCCAGCCGCTGACCGCGTTTTCGCCTACCTCCGGGCCATGCAGGACCGCTTCGGAGTCAAGGGAAATTTGGCGGTTGAATCGGTCAACCAGGTGCCAACCGCGGCTGGCCTGGCCTCTTCCAGCTCTGCCTTCGCCTCCATGGCAGCGGCTTTTGCCGACCACTACCAGTTAGGCGTTGACCGGCGGGAATTGTCCAGAATGGCCAGGATGGGATCGGGCTCAGCTTCAAGATCTATTTTCGGCGGTTTTTCCGTCTGGCAAAAAGGCGATAGCGACCAGACTTCTTACGCCTACCCGTTGGATGAAGAGCCGGACATGGACCTGCGCCTTTTGGCTGTTGAAATCAACGACCAGGAAAAGAAGATTTCTTCAACCAAGGGGATGGAAATGAGCAAGAGCTCCCCCTTCTACCAGGTCTGGCTGGACAGAAATGACAGTGAGATCAAGGAGATGGAAGAAGCGATTAAGCAGGCTGACTTTAGCAAATTGGGTTCTCTGGCTGAATTAAATGCCAGTGAGATGCATGCTTTAACCTTCACCGCTGTCCCCGGCTTTACCTATTTTGAACCGAATACCATCAAGGCCATCAAGCTGGTCCAAGACCTGCGCCAGCAAGGGCTGGAGTGCTACTACACCATTGACGCCGGCCCGAACGTCAAGGTCCTCTGCCAGGGACGAAATTCTAAAGATATTATTAATTGCTTTGAGTCTTCTTTTTATCGTGTTAAGATTATTGAGGCAGGTTTTGGTCCAGCAGTCACTCTGTTGGACTAA
>SRR1919932_01168 mevalonate kinase
TTGCAGACTTCATGTACTGCTCATGGAAAAGTAATTTTGATCGGCGAGCATTCTGTTGTTTACGGCTATGACGCCCTGGCTATGCCAATTCAGGCCCTGCACATCAAGACGACCGTCAGTGATTATGCCGGCCCGGTCTGGATGGACACCAAGCTCTACCAGGGTCCTTTTTTTGACGCGCCTGCTGACTATAACGGCCTTAAGTATGTCGTCAATGAGCTTTTGACTAGAAGCGGGAAAAATCCCCAGATCAAGCTTACCTATACCGGGGAAATTCCCATGGAGCGCGGACTTGGCTCCTCAGCTACCGTCGCTTACGGTACTACCGTGGCCTTGAGCCAATACCTGGGCTTGAAGTTAAGTGCAAGTGAAGTTATGGACATCACCAACCAGGCAGAAACGATCAACCACGGCAAGGCTTCCGGCCTGGACGCGGCCACGGTCAATTCCGATTACCTGGTCTTTTTTAATAAACAAAAGGGCGTAAAAAAGCTCTCCTCAAAATTAGGTGCCAGCCTTTTGATCATGGACACGGGCGATTTGGGCAATACCAGAGAAGCCGTCACTATGGTCGCCAAGCTTTTAAATGAGTCACCTGACGCGCAAGTTAGAATGCGCAAGCTGGGACAACTGGCTGACGAAGTCAAAGCTGCCTGGCTTGAGCAAGACCCGGAGACCGTTGGTAAATTCTTCAATGAGGCCCAGGAGCTTTTAGCTTCCTTTAACTTGTCGACAAGCAAGATCGACCGGATCTGCCAGATTGCTGATAAAGGCGGAGCTTTAGGCTGCAAGTTGTCTGGCGGCGGCCTGGGCGGAATCGTCATCGCCCTTTGCAAGGATGCCGCTTCTTGCGAAGAGATTGCCCAGGCTTGCCAAGCAGAAATCAGTAACTACTGGATTGAAGAGATTTGA
>SRR1919932_01169 ATP-dependent helicase/nuclease subunit B
ATGATCAAAATTATAACCGGCAGACAGTCCGATCCCCTGCAAACTGAGATCATCGGCCGGGCTGCCCGCAATTATCTGACCCAGCCCGGCAAAGATACCTTTATTATTGTTCCAAACCATATCAAGTTTAACACAGAAGTTGCCGCAATAGGCAAAGTCGCCCAACTTCAAGGGCGGGAAGAGACCAGCGTCAAGAACCTGCACGTCCTGTCCTTCTCCCGTCTGGCCTGGTTTTTCTTTAAAAAGGCCGACCTGCTCATGCCTGAAAGCCTGGATGACGCTGCCGCGACCATGATTTTGGAGCAGATCATCGACAAGCGCAGAGATGAACTGCTGCTTTTCAAAAATTCCCACGCCAATTCCGGCATGATTAAGCAGGTCTACAGCACGATCCTGCAGGTTCATACCGGCCAGCTGGACCTGGGCAATCTTTTGGAGCGGGCAGCCGACCCGGCGGTGGCCTTGGACCTGGATAATGAGACCAGGGACAAGCTGCACGACCTGGACTTGATCTACCAGGACTTTTTAGAAATCGTCAGTGAAAAGCACTTCGCCACCAAGGATGAACTGAACATCCAGCTGAACCAGCTTTTGGCCAGCCGGCCGGACCTGGTCAGCCAGGCCAGCTTCTACGTGACTGATTTCTCCCATTTTTCCATTCAGGAAAAAATGACCATGCAGCTGCTGGCAGCTTTTGCCAGCGAGATGACCTTCGCCTTCAAGACGGCTGACGGCAGCGTGATTGAGCCGGCCGCCGGGGAATACGACTATGTGGTTCAGAAGACGGTCAAGGACTTGACCGGCTACTTTTCCGCCCATGACTTTGCCTGGGAGAGAGAAAAAATCGCCAGTCCAGTCAGTCCGGCCAGGGACTTGAACCAGGCCTGGCAGGGACAGGGCCAGCCGGATTTAGATAACCTCCAGCTGGTTAAAGCAGATTCCCGCTACGCTGAAGCATATTTCGTGGCCCGGACCATCTATGACGAGGTGGCTTTAAAGGGCTGCCAGTACCGAGACTTTTTGGTCCTGGCCCCGAATTTGCAGGAGTATGAAACTTACCTGGCTCCGATTTTGCGGCAAAACCAGATTCCCTTCTTTGACGACCTGCAGCAGCAGATGAAGTACCACCCCTTGGTGCTTTTGCTGGAAAATTTGGGCAAGCTCCTCCAGCAGGCAGGAGACACGCCAGCTCTTTTGAGCATCATGAAGACCCGCCTCTTGATCCCTGACTGGTATTTAGAAGGGGATGCAGAAGCCGGGGAAGCCGCGTATTTGCGCGACGTCGACCAGCTGGAAAACTTTGCCCTCGCCCACGGAATCAAGTACAGCCTTTGGCAAAAGCCACTCAAGGACTTTACCAAAGCCCAGGTCATCGCCCTAGACCAAGAACAGTACCAAAAGTGGCTGGACCGCTTGGACAAGCTGCGGGACTTCTTTGTCAGCAAGATCTCCCGGCTTGCCCGCCAGCTGAAGAGTGAAAAAGACAGTATGACCGCCGTCAAGCTCTTTTTTGACTTCTTGGTCAAAAACGGGGTCAGCGCCCGCCTGGAAGCCTGGCGCTTAAAGGCCAGCGAGAGCGGAGACCTGCAGCAGGCCCAGCAGCCGGAGCAGTGCTGGAATCTGCTTTTGTCTTTGCTCAAAGACTACCTCTTGGTCAACCCGGAAAACTTTGCCTGGGCTGACTTCTTTAAGATGCTGACGGCAGCCTTTTCCCAGGCCAATTTCGCGACGATTCCGGCCAGCCTGGACGCCGTCACCTTGTCAGAATACGGGATGGTGCAGACCAGCGGCTACAAGCAGGTCTTCATCATCGGAGCAGCCAATGGCAGCCTGCCGCAAATCAACGACCAGCCCAACTTTTTGACTACGGAAAACCTGGCCAGCCTGGCAGACTTTTTTGACCAGGAGGCCTACCTGGAAGACAGTCAGCAGCTGCGCAACCTGGACCAGGAATACCAATTTGGCAATGCCCTGGCCCTGGCCTCTGACCGGGTCTACATCTCCTATCCGGTGATCAATTCCAATAATGACTTGCTGGATCCTTCCATTTACTACAAGCGCCTGCTGAAGCTGGTCAACGGCCGGGAATACCGGCAAAGGGACCTGCCAGATACCGCTGAAAAAGACCGGACTGAATTTGCCCGCCAGCTTTTGCTCTTTTTGACCAGTCCAAGGGCCAGCTTAGGCTACCTGGCCTATGCTGAGGAAAATTCCGCCCAAAGCCCGCTGGTGGCCAAGCTGGTCGAACTCAGCCGGCAGTATGAGGAAGAAAAGGCTGAGGAAATCGCGGAAGGGATGGCCTATGACAATAACCCGCAAGACATCTCAGAAGACCTGGCTGAGCGCCTGTACGGCAAGGACCTGTTGTCTTCAGTCTCCCAGCTGGAAAGCTACTACCAGAATTCTTTTGAATACTTCCTTAACTATGGCCTCCGCCTGCGGCCCCGGGCAGAAAATGAGCTGAATGCCATCCAGTCCGGTAACTACTTCCACCGGACCTTTGAGCTTTTGCTCAAGGAAATGCAAAAGAAAAATATCGAAATTGACAAGCTCAGCGAGCTGGACTTGGAGCTTTTGCTCAAGCAAGTCAGAAGCAAGATCCTGCAAGAACCACTCTACCAGCAGTTCTTGCGTGATCCTTTCAATGAATATCTTTTCAAGGCCTTTGACAAGACGACCAGTAAGGTGGCCCAAAGCTACCGGCGCAAGCAGCAGGAAAACAAGATGCGGGCTACTTACGGGGAACTGGCCTTTGGCCCGGCTGAAAAGCTGGCCGGCCTGGTCTTGCCTTTGAAGAAGTTTGCCGGCCAGCGGAAGATCAGCCTCCGGGGCAAGATCGACCGGGTCGACCTCTTTAATGGGGACCAGCACGTTTTAGGCCAGCTGATCGACTACAAGTCTTCCGACCACAGCTTCAACCTGGCCCGTTTTGCCAGCGGGGTGGACCTGCAGATGATCGCCTATTTGGACGTTCTGGAGAAGAACCAGGACCTCCTGGCCGGCGGGCGGCAGTTTGACCTCCTGGGGGCCTTTTACCAATATGTCACCCGGAAGCTGAATTCCATCAACTCCTCATCAACTGGTGCCTTGTTTGACAGCAAGCTGCAGCTGAAAGAGAACCTTTTGGGCGGGGAAGACAAGTTGAAATTGTCCGGGGTCTTTATCAGTGAGCCAGCCTGGTACCAGGAAGTCGACAAAGCCCTTGAGAAAAAGGCAAGCAGTTCGGTTTACCGGGGCCTCAAACTGAACAAGAGCGGCGGCTTTGGCAAAAAAGACAACTTCTTCAGCCAAGATGAGATGCAGGAGCTGCTGGAATACGTCGAAGCCTTGATTGAGGACGCGGCCAGCGAGATTTTAAGTGGGAAGATTGCCTTGAATCCTTTCCGGCAAGGCAACAATACCGGCCTGGCATTTAGCGACTACAAGGATATCTTCTACTTTGACCAGCAGCTACCAACTAACTCTTACCGGGACCTGCCAAGCCTTAAAAAGGCAGATCTGCTGGCTTTGGTAGAAAAGCGGCTGCGGCAGAGGAGATAA
>SRR1919932_01170 ATP-dependent helicase/nuclease subunit A
ATGGCTGTAAAATATACACCAGACCAGGCCAGGGCCATTGAAAGCCGGGGGCAGGACATTTTGGTTTCAGCCTCTGCCGGCTCAGGCAAAACCAGTGTTTTGGTTGAACGGGTCATCCGGGAAATCATGGACGACCACTTGGAGGTTAACCAGCTCCTGGTCATTACCTTTACCCGGGCGGCCGCCAGTGAAATGAAGCAGCGGATCAAGCAGCGCCTGCAGGACCGCCTGCAAGAAGAAACAGATGCCAGCCAGGCCGACTTTTTGCGCCGGCAGCTGGCTGAAATCGATACCGCGATTATTTCCACGATCGACTCTTTCTGTTTGGACGTCATCCGCCGCTTTTACTTCGCGATCGACATCGACCCGGACTTCAGCATTTTGACTGACGCCACCCAGATTGAGCTCTTAAAGGAAAGAGCCTTGAGGGATGTCGAAAACGACTACCTGCAAAATGAGAACCAAGCGAAAAAAGACCGTTTCCTGGCCCTCTATGATGCCTTTGCCGGCGACAGCGACGCCAATTCAGCCAGAGACTTGCTTTTGGATTTATACCAGTTTGCCATGGCCCGGCCCAACTACCGGGCTTGGCTGCAAAAGCTGGCTGCCCCTTACCAGCTGGAGACCAGCGACGTCGTTGACAGCGCCCTATGGCAGGAGAAAATCAAGCCTTACCTGGAGGAAGAATTTTCCAACCTGGCGGACAAGCTGACGGCTTTGATGGCCGAAGCCGACTTTGACCATGAAAAGTTTGCCAAGTACCAGCCAGCTTTTACGGCTTTTGCCACCAGTCTGGCCAGCTACCGGGAGAGCCTGGCCACAGATGATCCCTTTGACCGGCAAAGAGAGCTGCTGGCGGCCTGCCAGTTTGACGGGACCCTGCGGACTAACAAGGAGATCGCCGACTTTGTCGAGGAGGCAAAGGAGGTTAAAGAAGCTGGCAAGCAGCTGGTCTTTAATGTCTATACCAGTTTTTACGCAAGCAGCAATGCTGACCAGCAGGCCCTCTTAGCCAAGGGGGCAGAAATCGCCTCCGCGGCAGCAGAAGTTGAACTGGCCTTTATTGACCGCTTTAACGAATTGAAGCGGGCTGACCGGGTCCTGGACTTCAGCGACATGGAGCAGTTGGCCTATGAAATTCTGACCCAGGACAGTTCAAACTCTGACCTGGCCCGGGCCTACTACCAAAGCCGCTTCAAGGAAATCATGGTCGATGAATACCAGGACACCAACGCCCTGCAAGACGGCTTGATCCAGCGGCTGAAAAAAGCGGGGAAGAACAACCTCTTCATGGTCGGGGACGTCAAGCAGTCAATCTACGGATTCCGCCAGGCGGAACCCAGCCTGTTTATCGCCAAATATGATGAATATGGCCAGGAAAATTCGGCTGACAAGCAGCGGATTATTTTTGCCGAAAACTTCCGCTCCAGCCAGCCGGTCACCCAAGCTGTCAACTTGATCTTTGACAGCCTCTTAACCAAGGACTTCGGGGGGATTGACTACCAAAAAGAAGGGCAGCTGAAATTCGCGGCTGGCTATGACCCAGAGGCGGCCCTGCCGACTGAAACAGAAGTCCTCTACCAGGAAGATTCATCTGCAACAGATGATGACGGGGAATTGAACCAGGGCGATTTAGCCATGGTCATCAGCCGGATTCAGAAGCTGATCGCTGACCAGACGCCAATTTTTGACCCGAAGACCGGGCAGACCCGGCCGGTCAGCTATGGGGACATCGCCATCTTAACCCGGTCCAAGACCAGCAACCTGGACATCAAGCAGGAATTTGACCGCTACGGGGTCCCGCTCTTTGTCATGGATGTCCAGAACTACTTCCAGACCTTTGAATTGACGGTCATCATGTCCTACTTGAAGATCATCGACAACCCGGACCAGGATATTCCCCTGGTGGCGGTTTTGCGGTCTCCGATTTTTAACTTCTCCAGTTCAGATCTGGCCGAAATCCGCCTGGTCAACAAGAGCGTCAGCTTCTACACGGCTTTAAGAACTTATGCTAAAAAAGATACAGATCTGGCTGCCCGCTGCCGGGACTTTTTGGCCCAATTGCAGGACCTTCGCGACTTTTCCTTGAGCCACCGGATTTCAGAACTGCTCTGGACCATTTACGAGCGGACCAGCTTTTTGGAAATCGTGACGGCCATGACCAACGGCCAGCAGCGCCGGCTCAACTTGACTGCCTTGTACGAAAGAGCCAGCGCCTACGAAAGTTCGGGCTTCAAGGACCTTTACCAGTTCATCAACTTTATTGCCAGAATGCGGAAGAACCAGAAGGACCTGGCCCAGCCGATCCTGAGCGAAAATGCCGGCAACTCAGTCAAGCTGATGACCATCCATGCCTCAAAGGGGCTGGAATTCCCGGTCGTCTTTGTCTTGGGCCTGGAGCACCGCTACAATTACCAGCAAGACATTACCGGCAGCTATGTCTTAGATGCCAGCGGCCTGGGCCTGTCCTTTGCCTATCCCTTTGATAAAGCGGAATACCGGGCAGATACTTTGGCTAATGCCTGGCTGAAGATTGCCAAAAAGCAGAAGTTGCTGGAAGAAGAAGCCCGCCTGCTTTACGTAGCTTTGACCCGGGCCAAGCAGAAGCTGATTTTGGCGGCAAATATCAAGCTGCCAGCCAGAACCGACCTGGCGGGCTTGGAAGAGAAGTGGGCCAAGGAAATTTCTGCTGGCCGCCTGCCCCTTTTGGATAAGATGAAGGTAGCCAAGCCCCTGGACTTTTTGGCCCCGGCTTTAGCCCGCGCCAAGCAGGTGAAGCGGCTGGGTGAAAAAGCCGTCAGCGACCTGGCAACAGGCCAAGAAGGCAGTCTGGTCTTTGTCCACTTTGACCCCAAGAAAGACCAGGCCCAATTGCCGGATAGTGAGGCCGTGGCGGCCAGCGGGGCAGACTTGACGGAAGATGAAGCAGCCGTCTTTAAGCAGGCAGAAAAGCTCTATGCCTTCAGCCAGGGCGGCTATCCTTACTTGGATGCCAGCCGGACCACGGCCTACCAGGCGGTGTCTGAAATCAAGAAGGCTTTTGGAGACCCGATCGAAGACGAACTGGCTGACTCCCACATTTCGGAACTGCAGTCAGCCAACCGCTACCTGCAGCCGATCGATACTGAACCTGACTTCCTCTTCCAAAATACGGTCAGCTCAGCTGAACTGGGGACAGCCAGCCACCTGGTCTTGCAGTATTATGACTATGCCAAAGGCGACAAGGATGCCATTGACAGCTGCATTGCCGACCTGGTGGAAAAGGGCCGGCTGAGCCAGACCTTGGCCAGCAAGCTGGACCGGGAAGCCTTGTCCTGGTTTGTCAAGAGCGACTTTGCCGAAGACTTTTACCAGCAGCCTGACCGCCTCCACCGGGAGGAAAATTTTGCCACCATCCTGTCGCCGAAGACTTTATTTAAGGATTTCAGCGATTTTCCAGGAAAAATTTTGGTTCACGGGACAATCGATGGCTATTATGAAGCGGAGAATGGTATCATTTTATTTGACTACAAGACTGACCACGTGAACCCGCGTAAGCAGGAGGAAGCAATTCAGAAGCTGAAAGAGAAGTACCAGGGCCAGTTGCGCCTTTATGAGCGGGCCTTGAATGAATCTGGCCGGCTGCCTGTTTTGAAAAAGTACCTGGTGCTTTTGAGCTGCCGAGAAATTGTTGAAGTTGATTAG
>SRR1919932_01171 ATP-dependent helicase
ATGGTGGATTTTTTTGCCGGCGAAAGCTTCGCGGTCGTTGACTTGGAAACGACCGGGACGCGCAAGGAAGAGGGGGACCGGATCATCCAGTTTGGCTGCGCCATAGTCAAAGATGGTGAAGTGGTTAAAACTTATTCCTTCATGATGAACCCCCACCGGAAAATTCCCCTGGCCGTGACCAATTTGACCGGTATCGACCAGAAGATGGTGGCCGGCCAGGCTGATTTCAAGCACTATGCCCCGAAGATCCGCGAGATCCTGCAGGATACGGTTTTCGTGGCCCATAACGTCAATTTCGACTTTCCTTTCTTGAACTACGAATTGACCAATGCCGGCTTTGAGGCCTTGACCTGCAAGGCGGTTGACACGGTTGAACTGGCCAAGATCGCCTTTCCGACCCTGCCTTCTTACAAGTTGCGGGACTTGACGGCCAGTCTGGAGATCAAGCACGCCAACCCCCACAAGGCGGATTCTGACGCCTATGGGACAGCCGTCTTGCTCTTGAAGATCATCGACAAGCTGGCTTCTTTGCCCCAGGCAACTTTGAATGTTCTGGGCTCTTTGGCCAGTGGCCTTATCCGGGACACGGGGGACGTGATCAAGGTGATTGCTGACCAGTCCCGGCAAAGCAGGCGCAAACTGCCCAAAGACAAGATGCAGGTCCGCAACCTGGTCTTAAAGAGGCAGGAGATTCCGGCGGTTGAACATGGGGAAAATGGGCATTTTCCAGTTAAAGACACGGACAAACGCAAGCTTTTTAAAGGCAAGATCAATTACCGGCAAGCCCAAGTGGACCTAATCGACCGCTTGCACGACTTTGTCGAAGATGCCGGGCAAAGGGTCATGCTGGCTGAAGCGCCAAACGGGACAGGGAAGACTTTTGCCTACCTTTTCGCCTACGCCTACCAGCTCTATTCCGGCAAAAAATTAGTAATTGCTACACCGACCAAGGTCCTCCAGCAGCAGCTCCTAGACCAGGAAATTCCCCAGCTCCTGCGGGTTACGGGTCTTGGCTTAAACGCGGAAATGGTCAAGTCCAGCAGCCACTACCTGGATTTAGACGGTTTTGCCCAGACTCTCTACCAGAATTCGCCCAACAAGGCGACCTTGCTCTTGCAGATGCAGATCCTGGTCTGGCTGACAGAAACGACAACTGGGGACATGGATGAATTGCAGCTGACCAGCCAGCAGCTGCCGATTTTTAACCAGCTCAAGCACCCGGGGGATGCCCGGGTGGCCAGCCAGTTTGCCAGCGTTGACTTCTGGAACCTGGCCCGCCGCCGGCAGGAGCAGGCCAACATTTTGGTGACTAACCACGCCTACCTGGTCAACCACTACATGGACTCCATCTGGGGGCAGAATCCTTACCTGGTAATTGACGAAGCCCACCGCTTCAGCGAAAACCTGCAGACGGCCCGGATGGACTCCCTGCGCTTGGAAGCAATTTGGGGCAGCATCAGCCACCTGCGCAATTTGCTCTACTTTACGGACAATAACCTGCTCAGACAAAGCGAGGAAAATGTCCAGCTGCAGTTCATGCTGGACCTCTTGGACCAGGAAAGCCTGGACTTGATTCACAGCTTGAACCGGATGCAAAAGTACCTCTACCAGCACAAGGGGCAGGCGATCAGCCAGGTTGTTTTGCCCAACAAGAGCCTGCAGCTGACCATCCAGGGCCAGGATCTCTTCCCGGAAAACTCTCAGTTCCGGCCACTTCTTAGACAGTTCCAGCAGCAATTGGAGCAGGTCCGGATCCATACCAACCAGATCCGCTACTTGCTGGAGCAGGAAAAGGACTGCTTTTTAACTGATGAGGAATCTTTGCTGGAAGAATTGAATGACCAGGTCGACCTGCTGGAATTCTACACGGGAAAGAGCTACCAGCTGTCTGACCTCTTGAACCAGCCGCTCTTGGATCATTTGGGCTTCGTGGTCAACGTGACCAACCCCGAAGATGCTCTCAGCAGCAACCTCCACTGGCTCAGCCTGGACAGTTCTGAAGAATTGCATAAAATTTACGACCGCTTTGACCATATCAGCATGATCAGTGCGACAATAACTAATGACGGCAATTTTGCCTTTGCCAAGCAGTTCCTGGCCCTGCCAAATTTGGGTGTCTCCTGCTACAAGGGCAAGGCCAGCTTCCCCATGGCTGACCATCTGGAGATTCTGGCCATGGACGAGGGGCAGCCGGAACCAGACAGCCCGCGTTTTTTGGAAGAATTGAAAAATATCCTGACCAAGGACTTAAGCGGGCAAAAGCACGTTTTGTGCCTGTTTACCAATCTGGACTTGATCAAGCAGCTCTACTTTGAACTGCTGAATGATCCCCGAGTTAAGGACTATGAGCTCCTGGCCCAGGGCTTGACGGGGTCAAATGAGCGGATCACCCGCCGCTTTGTCATCGCTGAACGGTCAATCTTGCTGGGGGCGGATAGCTTCTGGGAAGGGGTGGACTTCCACAATTGCGGGATTGACCTGGTTATCGCGACCCGCCTGCCATTTGAGTCCCCGGACCTGCCGGAGGTTAGCCTCAGGCAGCACTACCTGGCCCAAAGAGGCTGGGATGTCTTTCAAGAGGACTCTTTGCCCCGGGCGGTTCTCCGCCTGCGGCAGGGATGCGGCCGCTTGATCCGGGGCGAGGATGATTATGGACAGTTTTTGATCCTGGATCCCCGGATCTGGACCAAGAGCTATGGCCCGGCCTTTAGGTCCAGCCTGCCGGCTCCGGTGCAAAGGGTTAAAGCGAGTGAGTTAAAAAAGAAGTTGAAGTTCGAGAGGAAAAATGCTTAA
>SRR1919932_01172 hypothetical protein
ATGCTTAACGAAAGAGTCAAAAATATCTTGCAGTATCTGGCCTGGCTGGTCTTCTTCCTGTTTTTGCTTTACGCGGGAACAGTGGCGGTTGTTGCTAAGGCAGCCAAGCCGTACAGTCAGCAGAAAGAGAAAGTCGCCAAGCTGGTCAAGCAGACTTCCATGAAGCAAATTGACAAGTACTACCATTTGAGCCGGGGCGTCAAGTCATATTCAGCCAGCGGGAAAACCAGTAAGGGTAAGGCGGCTTACTTCATCTACCTACCGGGTAAACATAAGGCCTACTATTATTCAGCTAGTGACGGCGTCAGCGAAAGCACGGTCAAATCCAGCTTTCAGAAGTCTTACCCAAAAAAGGCCATCAAGGAAGTCAACCTAGGCTGGTATCAAAAGCAGGCCGTCTGGGAAGTCACGGCAGTCAACGCAGACGGCAGCTACTGCTATGCCATCTACAAGTTCAAGGATGGCCAGCTCCTGTCTCTGGTCGATAAGTTATAG
>SRR1919932_01173 transcriptional regulator
ATGATTACCAGTATCAAACTTTTGGAAGCTAATCAGATCCTGGCCCAGGTCTTGGACAGCGAGAGGGGCAGTGAGATCAACGTCAAGAAGTTTTGCAAGCTAGCTGCCTGCTCACGGCCAACCTTTTACGCCCACTATGGCAGCATGCGGCAGCTCAGTGCGGAATTACTATTAAAGAAGCTAGACCAGCACTTGTACTTTGCCACCAGTGATTATGGCAATGGCCTTAAGAGGCTATTGACCTATATGGAAAAAGACCGCTGTTTCATTTTGAACCTGCTGGCCTTGATTGATGCGGAGAAGGGGAAAATCAAGGGCAAGGAGTTTGCGACCCGTTTTCCGCAGAAGGTTGAATGGCTGCTGCGAAAGAAGACAGTTTGCTATGTTGATGCTCATTCCTTAAGCGGGGATTATTCGATTAAGACCTTGAACAATGCTGCCCATATCATCTACGCGATCCTGTACGAGTGGCTGGCTGAAGGCCTGCAGCTAAGTGCGCGGGATGTTTATGACCGCTGCCAATTGGCGATTGAGATTGTCGAGGAGCAAACGAGTAAGAAAGCGCTTTTGTAA
>SRR1919932_01174 4-oxalocrotonate tautomerase
ATGCCATTTGTACACATTGAACTCTTGGCTGGCCGGACGCCAGAACAACTGGAAAAGATGATGAAGGACGTGACCCGCGTGATTTCTGAAGACACCGGTGCACCAAAGGAACACATTTCCGTGATCATTAATGAACTTGGCAAGCAGCAGCTAGCTCAAGGCGGCGAATGGAGAGAACCACAAGCTTAA
>SRR1919932_01175 hypothetical protein
ATGAAGTACGCTATTTCAGCGGCTACTGGCAACTTCGGCCAGACCGCGGTCAAGAATTTGGTTGATGCAGTTGGGGAAGAAAATGTAGTGGCGATCGTCCGCAACGAAGAAAAGGGGAAGCAGCTTTTGCCAGCTGGAATTGAAATCCGCCAGGCTGACTACGGCGATGAAGCAGCTGTAGAAAAGGCCCTGGCTGGCGTGGACAAGTTGCTCTTTATTTCCTCTCAGCCAGGCGGGGCAGTAACTAGAGCTGACCAGCACAAGAATGTGGTTGAAGCTGCTAAGAATGCCGGCGTTGGCTACGTGGCTTACACCAGTTTCCCGAAAGCCAGTGAAAGCGACAACTGGCTGGCAGCTGACCACAAGCTGACGGAAAAGCTACTTAAGGAGAGCGGCCTCAAGCACTCCTTCCTGCGCAACAACTGGTACCTAGAAAACGAAATGACTTTCCTTGCTCCAGGTCCGGCAAACCGGCTTTACTGGGCTAACAACTTTGCCGGCTGGGCACCGGAAAGTGAATATGCTGCGGCAGCGGTTAAGGTTTTGACCAGTGATGATCCAAAGGAAGTTTACGAATTTGCCGGCCCGAAGCGGAGCTACCAGGACCTGGCAGCGGCCTTGAACGTGGCAACTGGTGAAGCAGCAGCAGCCGAGCAGGTCAGCCAGGACGAATATGTGAAGGCCTTGGAAGGCCTGGGCTTGGATCATGATACGGCGGAAATGTACGCTGCCTTCCAGCAGCCAATTGATGATGGCTCATTAACTGAAGAAAGCAGCGACCTGGAAGAAGTTCTGGGCGGCTTGACTCCGCTGGACCAGGCAATTAAGGAACTTTTGGTAAAGTAG
>SRR1919932_01176 Rrf2 family transcriptional regulator
ATGAAATTTTCCCATAAATTGAGTGACGCGGTCCACCTGCTGGTCTACATCGAGATTTTTCCCGATGATGACCTGTCCAGCCGGGCGATCGCGCGTAGCATCGTGACCAATCCCAGCATGGTGCGGAGTCTGATGATGGACCTGCGCAAGGCAGGGCTTTTGAAGACCAAGCAGGGGAGCGCTGAGTCGGAACTGGCCAAGAAGCCGGAAGAGATCAGCCTCTACGATATCTTCGCGGCAGTCGGTATGGACCACCACTTGCTGCACGTCGATGAAGACACGGAGCAAAAGTGTCCGGTTGGCGGCAACATTCAAGGGCCGCTGGCTAAGGCCTACGCGGAAGTGGAAGAGGCGGCTTTTGCCAAGATGCGGGAGATCAGCCTGCGGGAAATTGTCGACCAGATAAAAGAAGACGGGCAGCTTGCTTAA
>SRR1919932_01177 hypothetical protein
ATGGCACAAGCCTTATATATCAGCGAGATTCACATGGACTTGAACGAGTACACCAGGATGGCCATGAAGGTGACGGAAAAGAGCCGGCGGCGGATCATCATGATCGCGGAAGCAATCTGGATCGCGGCCGGAGCGGTGGCTTTCGCCTTGAAGCAGTATGACTTCACGGTCATGTTTGCCCTGGTGATTGCTTTTTACCCGGCGGCACTCGTCTACCTCTACAAGCGGCGGCTGAAGAAGATTTACGCGGGCATGCCAGCCATCAAGGATGACTACGTGCGCTACGAATTCTACCCGGACCACTTCCTGGTTTTGACCAACCGGGGGGACGGGGAATACCGCTATGACCAGATCACCCGCTATGTTGAAACTGACGAGGAAATCATCATGATGCCGGCTCCGGACCAGGGCATGCTACTTTTGAAGAAAAACTGCAGCCCGGACTTGATCAAGTTTTTACGGGAGAAATGCCAGCGGTAG
>SRR1919932_01178 putative integral membrane protein
ATGAAAGCGAAGAAAATCCGGGCCCTGGCCCGGGAAAACCTGAAGCAGATCCCGAAGAAGATCTACATGCCGATGGGCCTGCTTCTGGTTGTGGCAAATATCATACCGAATGTCTTTGGCCAGGCCACTGATTCCAAGTCAGGGGTTGGAGCTAATATCATCTTCTTTCTCTTGGAAATTGCGGCCGCGCTTTTGACGGCTAACGGCTACATCTTCTTTGATCGCTGGCGGAATAAGATCCAAAAGGGCGGGGAAGAGCCAAATGCCTGGTGCGGCCTGAGCGGGCGGCACCTGGCCCGGCTGGCGGTCTACGGGGTTATCGAAGCCTTAATTATCGTTTCCGTGACGCTGGCGATTGTCGCGGTGATCGTTGGGTTAGTGATTTCGCAAGTACCGGTAGCGGTAAGCATCATTCTTTTGACCTTGCTGGTCGTTTTGCTGGTCTGGATTGAGCTGCGGCTGACCTATGTCGTTTACGTGATCGACGATGATGTGCGGACCGGGCAGAAGCGGTCAGTCTGGGCAGAAATCGGGGCTGGCTGGAAGCTGACCAAGGGCCGGGTCTGGAAGCTACTTTGCCTTAATTTATCCTTCTTAGGCTGGGACATTTTGACCGCCTTTACCCTGGGAATTTTGGGTATCTGGCTGATACCATACTACAATTTGGCAATCGCCGAAACTTATGAACAGAGCAAGGAAGACAAGTATTAG
>SRR1919932_01179 helicase
ATGGAACTTTCCCCATTAAGCCCGCCCCGGCTCGTCAGCAATCAGCAAGAAAACATCTGGCAAACCCTGCGCCGGCAGCTGCTGACCTGCCAGTCCTTTACCTGGGCCGTGGCCTTCATCACCGCCGACATGCTGCCCCCTTTCAAGCTGGTCATGGAAGACCTGCAAGCCAGCGGGGTCCGCGGGACCATCATCACCGGGACCTACCTGGCCTTCAACCAGCCCCGGGTTTTCGCCGAGCTCTTAAAAATTTCCAATCTTACCGTCCGGATCGTGGACGGTCCCTTCCATGCTAAGGGCTATCTTTTTGACCATGGGGACTGGCAGACCGCCGTCATCGGCAGCGCCAACTTCACCCGGTCCGCCCTCCTGGCCAACCAGGAATGGTGCCTCAAGGTCGATTCCCAAACCGATTCGGCCTTGCCCCGGCAACTAGCTGCGGCTTTAGCGGACTTGACGGGCAAAAGCCAGCCCCTGACTTACACCTGGCTAGCTGACTATGAAAAAAGCTGGCAGCCGCCAGCCAAGCCTGTGTTACACGTGAAACAAGAAAAGATCGTTCCCAACCAGATGCAGGCAGCCGCCCTGGAAAATCTCCAAGCCTTAGTCAAAAGCGGCGCCCGCCGGGCCCTTGTCGTTTCTGCTACCGGGACGGGGAAAACCTACCTGGCGGCTTTGGCGGTCAAAGACTTTGTCCCCCGCCGCTTCCTCTACCTGGTCCACCGGGAAGAGATCGCCCGCAAGGCCCTTGAGACCTTCAAAAAGGTTATCGACGGCAAGGACAGCGACTTCGCCCTTTTGACCGGGACCAGCCACCAGCAGGCCCGCTACACCTTCGCGACCATCCAGACCGTTTCCCAGGACCAGTTCCTGGCCAGCCAGGCTGCTGATTTTTATGACTACATCTTGATCGATGAAGCCCACCGGTCCGCCGCGCCCAGCTATCAAAAAGTTCTCAGCCACTTCAGCCCGGCCTTTTGCCTGGGTCTGACAGCCACGCCGGAGCGAATGGACCAGCAGGATATTTTTGCCCTCTTTGACTACAATTTAGCCTACGAGATCCGCCTGGCTGATGCCCTGGAAAGCAAAATGCTCACGCCCTTCCACTATATCGGTATCCGCGACTATGAAATTGACGGCCAGACTTCTGATGACTTCAGCGACCTCCGCTGGCTGGGCGCGAAAAAGCGGGTCAGCTACCTCCTTAAAGAACTGGATTATTACGGCTATAGCGGTCCCCGCCCCTGCGGCCTGGTCTTCTGCAGCCGGCAGGAAGAGGCCCGGCAATTGGCGGAAGCTTTTACTCAACAGGGCCAGCCGGCCCAGGCCTTGACCAACCAGGATCCCCCAGCTGTCCGCCGGCAGGCGGTCAAGGATCTGGAAAGCGGCCGCCTCCACTACCTGGTGACGGTCGACCTTTTCAACGAAGGCGTGGACATTCCCGCCCTCAACCAGATCGTCATGCTCCGGGCCACCCAGTCAGCCACGGTCTTTATCCAGCAGCTGGGCCGGGGCCTGCGCCTCTACCCGGGCCAGGACTTCGTCACCGTCCTGGACTTCATCGGCAACTACCAGAACAACTACCTGATCCCCCTGGCCTTAGCCGGGAAAAAGCTCTCCCGCGACCAGCTGAAGTACCAGCTGCAAACCGTCAGCTTCGCCGGCCTGTCCACCATCAACTTCAGCCAGATCGCCAGCCAGGAGATCCTGGCCTCCCTAGACAAGGTCAAGCTGGACTCGCTCAAGCAGCTGCGGGAAGCCTACGCGGACCTGGCCCAGCAGCTGGGCCGGCCGCCCCTTTTGCTGGATTTCGCCAAAAAAGGGCAGGTTTCACCCCGCCTCTGGCTGGACAACAAGTCCCTGCCCCACTACGGAGCCTTCCTGGAAAAAATGGGCCAGCCTTGCCAGCTGTCCTCTTACGAAAGCCAGGTCCTCTCCTTCGTTACTAAGGAACTGGCCCCAGGCCAGCGGCCACATGAACTTTTGCTTTTGCAGGCCCTTTTGCCAAAAGGCCAAATCAGTCAGACAGACTTCCAAGCTCTGTTAAAAAATTACGGGGCCTACGACTCACCCGCCTTGGAAAAATCTCTGGAAGCCATCCTCTCCTTGGACTTCTATGATGTCAAAAGCGGATCAACTAGCCAAAAGGCCAAGTACGGCGGCGAGCCTGTCGCCTGCTTAAAGGACGGCTGCTGGTCCTTAAATCCTCAGATTGTCCAAGCTAGTCCCGCCTTCCTCCGCCTGTTTAAAGACGCGGTCGAAACTGGCCTCTTCCTCGCCAAAGAAAAAGACCCGACTCAAGACTTCACCCTCTACGCGGCTTACGACCGCAAGGAGGTCTGCCGCCTGCTCAACTGGCCACTAGACGTCAGCCGGCCCATGTATGGCTACCGGCTGAGTGGCAATGTCTGTCCGGTTTTTATCACTTATCAAAAAACTGACCAGGAGCAAAGAAATGCCCGCTATGACAACCAGGCACGCGGCCAGCGCCTGGCCTGGTATACCAGAACTCCCCGCCACCTGTCTTCCCCGGAAGTCCAGCAGCTCTTGCGGGGGACGGAATCTGGCCAGCAAGTCACCCGGATTCCGGTCTTCGTCAAGCGGGCGGATGCCTACGGCCCAAAGTTTTACTACCTGGGCTCAGCGAAAATCGACCCTGCCACGGTCCGCGAGGTAAATCTCAAGGGCAAGAGCGCGGTCGGCCTGGATTTGGTTCTGCCTGATCCCCTGCCAGCCAAAATCGCCGACCAGCTTTTCAGCAATTAA
>SRR1919932_01180 membrane protein
TTGCGCGATGAACAGAATTCTTTAAGAGCAGTCGTGATGACCGGCTTGTTCGCGGCCATGATTTATATCGGCATCTGGATCCTGCGGATCCCGCTGCCGGCGGTTGTTGGCCGGCCTTTCATCCACTTCGGCAACACCTTGACGGCCGTGGCCATTCTCTACCTGGGCTTCCGTAACGGGGCCCTGGCGGGGATCATCGGCCTGGGCGGCTTTGACATCCTCAACGGCTACGCGGCTACCAGCTGGCTGACTATGCTGGAAGTCGTAGTCGTGGCTGCCATTTTGTCCGCGGTCTACAAGGGCATGAAGTACAACGACAGCAAGAAGAACATCATTATTTTGGCGGTCATCGCCGGGGTAACCAAGATTTTTACCTCTTACGCGACGATGGTCGTGGCTGCCTTGATGGCCGGGACGGCATTGCAGCCAGCCCTGGTCGCGGCCTTCCTGAGCCTGCTGGCCACGGTGATCAACTCCTGTTCAACCGCGGTCTGCACGCCGATCCTCTACTTTGCCTTGAAAGATATTACCGTCCGCGTCATGAAGCGGGCACACTAA
>SRR1919932_01181 pyridoxal kinase
GTGAAATCGGTCTTGATCAGTCAAGATCTATCCTGTGTTGGTCAAGTCTCGCTGGCGGTCGCCTTGCCCGTGTTAGGGGCCAGCGGCCTGCAGACCGCGGCTTTGCCAACGGCAATTTTGTCAACGCATACGGGCGGGTTCGGGGAGAACACCTTCCTGGACCTGTCGGCCAGTCTGCCAGATATTTGGGCGCACTGGGACAAGGAAAAGATCTCTTTTGACGCCATCTATTTGGGCTACCTGGGCCAGGCGGCCAGCCGGGTCTGGGAGAAGGGGCTGGAAGAATACAGCCGGCAGGGGAAACTCATCCTGCTGGACCCGGCTATGGCTGACCACGGCCGTCTCTACCGCGGCTTTGATGACAGCTATGTTGTCCAGATGCAGCTCTTGGCCCGGCAGGCAACGATTTTGACGCCCAACTTGACCGAAGCCCTGCTGCTCTTGAATGAGCCGGTGGACTTTACTGAGTTTGACAGCCACCGGGCCTGCGTGATCACCCAGCGCCTGGCCCAGAGGTTTGCCCTGTCCCAGGTGGTTTTGACCGGGGTGCCCCTGGCCGACAACCGGATCGGGGTTTACGGGCTCAGCCGGGGCGGCCGGGTTTGGGAAAGGACCCAGGACCGGATTCCGCACAGCTATTTTGGCACGGGGGACCTTTTTGCCAGCAGCCTCTTGGCCGGCCTGCTTCACGGGCTGGACTTGGAACAGGCAGCTGGCGTGGCCGGGGACTTCGTGGCCAAGGCAATCCTGGCAACTGATTTGGACCAGGACCAGCGCTTTGGCCCTAATTACGCGGCGGCCCTGCCTTGGCTTTTGCAGCAATTGCAAAATTAG
>SRR1919932_01182 GNAT family acetyltransferase
ATGCAGATTAGAAAAGCAGAATTGAAAGATTTTGACCAGGTGATGGCGATCCTGCAGGACGGGCGCAACCAGCTGGCAGAAAGCGGGATTGACCAGTGGCAGGGGGACTACCCGAACCCTGACCACGTCCGTCAGGACATCGAGAATGGCTATGCCTACCTGGCCAAGGCCGACGACGGGGAAACAGTCGGGACCTTGACCATTATTCCCGCGCCGGACCACGCTTATGATCAATTGGACGGGCACTGGCAAATCGACACGAATGACTACGTTACCATCCACCGGGTGGCTATCCACTCTGACCACACTGGTCACGGCTATGCTTCTCAACTCTACCAGGCAGTGATCAACTACTTCGCCAGCGGCTTCAATGACATCAAGTCCGTCAGAGTCGACACCCATGAGGATAACCTGCCCATGCAGCACTTGATCGAAAAGAGCGGCTTTAAGCGGGTCGGCACCCTGCATGGGGTCTACCGGGAAAACGAGACCAGCTACGTTTACGAACTTCTGACTGTTTAA
>SRR1919932_01183 lysin
ATGAAGTTTAAACACCTTAAACTGCTTGCGTTAGTCTCCACATTAACGGCAGCTGTAAGCATGAGCTTCGCCGGCCTGGCACAGGCCAGCACGACCAGCGCCAGCAGCCGTTCTTATGGGGTTGACGTGTCAAGCTACCAGCCAACCAGCACGACCAAGTACAGCAAGGCGGGCGCTCAGTTCGTCATTGTCAAGGTCAGCGAAGGCACCAGCTACCGGAATCCAAACGCCAAGGCACAAGTAGCCAGCGCCAAGGCCAACAAACTGTTGCCAATGGCCTACCACTTCGCCAATTTCGGTTCCAGTTCATCCAGAGCTAAGAGTGAAGCGGACTACGCTATCGCCAGCGCCAAGGCAGTCAGCCTGCCAGCAGGCTCATACCTGGCTTGTGACTGGGAAACCAGCGGCGGCAACTCAACCAGCGGGAGCAGAAGTGCTAATACCAGCGCCATCATGGCCTTCATGAAGAAGGTTAAGGCAGCTGGCTACCAGCCATTGCTCTACTCTGGTTCTTACCTTTTGAACAACGCGATCAACATGAGCACGGTTACGGCAACCTACCCTAACTCATTGTGGGTAGCCTACTACACCAGCTCAGGCCGGATCGACGCGCCAGACTTTTCATACTTCCCGTCAATGAACGGGGTCATCATCTGGCAGTTCACTGAAAACTGGAAGGGGCTGAATGTTGACGGGAACATCTCAGCTCTGCCTCTGTCAATCAGCTCCAGCTCATCATCCAGTTCTTCATCAAGCCCATCTAAGACGCCAGCCAGTCAAGCACCTGTAAGCAAGACTAAGAAGAAGATCATGTCTAAGTCTTACGTCTACACTTCCGCCGGCAAGAGAACCGGTGCTTACAAGAGCGCGTACACTTACGTTTACGTGATCGGCGGGATCGTCAAGATCGGCAGCAACAACTACTACAAGATCGGGACCAACCAGTACATCAAGATCAACAACGTTGATGGTACTGCCCGCAAGCTGGTTCACAATGCTTGGACTTACAATAGCAAGGGCAAGCGGGTGAAGTCAGTTGCTACCTTAAAGAAGGGCAAGCAGGTCTTCACTTACGGCGGCAAGCGGAAGATCGGTAAGAAGACTTACTACCGGATCAATGTCGGCCGTTACATCAAGGCAGGCAACGTTAAGTAA
>SRR1919932_01184 transposase
ATGGCCAAAAAGAAGGAAAAAGCTAAGGCTTCAAAAAGCAAAAAGATAGCTAAGGTCAAAGACGAAAAGAAGCAGCGCGAAAAACTGATAATTCCCATGACCGAGCTGCCATATCATCTTGGCCTCAAAATGCGGATCTATCCAAGCAATGAGCAGAAAAGACTGATCGCCATCAACAGCGGCGTCAGCCGGTCTGTCTACAACAAGCTGATCGTCATCAACTCTGAGCTGAATCAGCTTAAAAAGGTCAATACTTACGTCAAGCTCGTAGCTGACAGAATCAAAGCACTTGAAGAGCGCAAACGCAAGCTTTCCAAGTACTACTTCTACATGAACTCAGAAGACGTGGACAGCTTGACCATCGCACAAGCGAAGCGCTGCTACAGTGCTGCCTGGAACATGTACTTCAAGGTGCACTCTTCTGGCCGGCCAAAATTCCATAAGAAGGGCGTGAATGACGGCTATCAGACATCTTGTTCATACGACAGCAAGAAAAAGAATATAGAAAACTGCACTCCGTTTTCTGGGACGGTGCGCTTTCTTGACATGAAGCACGTCAAGCTTCCAAAGCTGGGAAGAATCAGAATCAGTGGATCAAGCTACCGCAAGGTTCTTGCCCACAATCCAAACTTTAGAATTGGCACTGCCACTATCAAGTACGATGCCTCTGGCTACTACCTGTCCCTTCAGATTGGCGACGTGGTTCCTTTCAAGAGCCAAAAGCCGAAGACGGACAAGACGACCGGCATTGACCTCAATCTTGACAATTTCTTGACTGATTCAGACGGGGTGGTCGTGGACAATCCACGCTTCTACCGCAAGTCTTTGAAACGCTTGAAGAGGCTTCAGAGACGGGCATCAAGAAGACAGACCCGGGCCAAAAAAGAAGGCCGGAAGCTCTGGCAAAGCCGAAACTATCAAAAGGCCCGTCTTCAGACATCTCGCCTGCAAAGAAGAGTTCGCAATCAAAGAGATGACTTCCTTCAGAAGCTCAGCACGGCATACATCAATAACCACGATGTAGTTGTGCTTGAGAATCTGAGAGGAAAGAATCTGTTAAAAAATTATGCCTTGGCCATGTCGATTTCAGACGCGGGCTGGACCAGCTTTCAGAGAATGCTTGAATACAAGGCAGACCTCTATGGCAAGACCTATTTGGAAATCGACAAGCGCAACACGACACAGCGCTGCAGCAGCTGTGGGTCAATCATGGGCCACAACGGCCATGAGAAGCTGACTTTGAAGGACCGGGAGTGGGACTGCCCAATGTGCGGGACACACCACATCCGCGACTACAACGCGGCTCTGAATATCTTGGAGAAAGGAATTGCCAAGCTTTCGGATCAAGAATACAAGATAATACCGTACGATTCGGAAGCTGCAAGCTGA
>SRR1919932_01185 transposase
ATGGCTGATAAGATACAAGACGCGGTATACGCGCAGCGTTATGTTTACAACTGTCACTATCACTTGATCTGGTGCACCAAATACCGCAATCAGGTATTTACAACTGAGGACCTGGCAAGCGAGATGAAAGAGCTCATTCTCAAAGCAGCATCCAGAAATGACATAAGAATTGAGAAGCTGGAAGTCATGCCGGATCACGTTCATGCCATGATATCCTTTAGGCCATCCAAATCTATCAGTGAAGTGGTGAAGGCACTGAAGGGGAATACTGGATATGCGTTTTTGCGCAAGCATCCAGAAATCCGAGAGCAGGAATGCTGGGGCGGACATTTATGGTCATCAAGCTACTACATAGGGACAGTTGGAAACATGTCAAAGTATACCGTAGAAAGATACATCAACGACCAGATCTACAACGCAAAAAAGGCCGGCAAGCCCTATCCATCCACCCATTAA
>SRR1919932_01186 ABC transporter permease protein
ATGAAAGCAATAGCTGTCAGCGATCTGTCATTAATCTTGTCTTTTGCCCTTGTCCTGGTATCCGTGGCGATTTCCTGGAAGGAAAAGCTGGGCTTGACCAGGGACATTTTTTACAGCGTGGGCCGGGCTATCGTCCAGCTGGTCATTGTCGGCTACGTCTTGAAGTTCATCATGCAGGTCAACAATGCCCTTTTGACCCTCTTGATGACCTTATTTATCATTTTTAACGCGGCCTGGAACGCCAATAAGCGGGATCCCAACCCGAACCGCCAGCTCTGGCAGTCAATCATAGCCCTTTTGATCGGGACTTACATCACCTTGGGCGTATTGCTGCTGACTCAGACGGTGAAGCTGAAGCCGATGCAGATCATTCCGATTACGGGGATGATCGCCGGCAATGAGATGGTGGCTATGGGTCTGTGCTATAAGGTTTTAGCCACGGGTTTCCATGACCAGCGCCAGCAGGTTTTGGAAAAAATCTCCCTCGGGGCTGACGTGAAGACGGCCAGCATGACCATCCTGCGGCGGAGCATCAAGACTGCCATGCAGCCGACGATCGATTCAGCTAAGACGGTGGGGCTGGTCAACCTGCCGGGGATGATGTCCGGGTTGATTTTTGCCGGCGTGGATCCAGTTTATGCAATCAAGTACCAGATCATGGTCACTTTCATGCTTTTGTCAGCGACTGGCCTGGGCGCCGTGATCGCGGGCTACCTGTCCTACCGCAACTACTTCAATAAGCGGAGCCAGCTGCGGGAAGAGCAGTAG
>SRR1919932_01187 ABC transporter ATP-binding protein
ATGGCACTCATTGAACTCAAGCAGGTGTCCTACCGGGCAGGTGACCAGGAAATCCTGCAAGACGTCTCCTTTGCCGTGGAGGAGGGGGACTACCTCACCTTGACCGGACCGTCGGGCAGCGGGAAAAGCACGACTTTGAAGCTGATCGCGGGCTTGATCTCACCTAATAAGGGGGAGATTTTTTACAAGGGGCAAAATCTTGATAGCCTGGATCTGGTCCAGTACCGCCGGCAGGTGTCCTACTGCTTTCAACAGCCAACCTTGTTCGACGAAACGGTTAAGGACAACCTGGCCCTGCCTTTTGCCATCCGCAAGCAAGACTTTGCTGAAAAGCGGGCCCAGGAAGCCTTGAAGCAGGTAGATTTGCCAGCTGACTATTTGGATAAAAAGATTACCACCCTGTCTGGCGGGGAGAAGCAGCGGGTGGCTTTGATCCGCAACCTGCTTTTCCGGCCGGAGGTCCTCCTGTTGGATGAGGTGACGACCGGGCTGGATGAAGAGAGCAAGCGGATCGTCCACCAGCTGATCGCCCGGGTGCACCAGGAGGGAACCACGATCGTGCAGGTGACCCACGACCAAGAGGAGCTGGCCGCTTCCAAGCAGCTCCTGCACATGGAAAAAGGAGGAGTTTTGAAATGA
>SRR1919932_01189 multidrug ABC transporter ATP-binding and permease protein
TTGCAAATTAAGGATTTGTTTCGGCTAAACCCCGGCCGCTTTCTGGCATTACTGCTGGCCCGGGCATTGACGGCCCTGCTGACGGCGTGGGCAGCTTTTGCCTTGACCTGGGAGTTCAGCGCGATAAAAGACCGGCATTTTCAGCAATTTCTGCTGTTTGCGGTTCTGCAGCTTTTCTTGCTCTTGCTTGGCAGCCTGCTGGATCAAGTGACCGATTATTTTTGGGAACTGCACCTTGAAAAGTATTTTCACCAGATCCGGCAGGAGGTTCTTGCCCACGCTTATGCTGAAGCGGCTGGGACAAAGGAAAATCTTCAAAGTGAATTGACCAATGACCTGGAAATGCTGAAGGACCAGTATGCTGATTCTATTGGCGGCATCGTTCACTCGGCCGTCCTGCTGGCCTTGGTTGCCGGTTCTCTGGCGTCTTTCCGCTGGAGCCTGCTCTTACTGGTTATTGCCGTAAGCGCCTTGCAGATGTACTTGCCACGCGTACTTGACGAGCCACTGCAAAAAGCTACTGACAAAATTTCGGCCAGCAACCGGAAATATCTGCAGACTCTGGCCGATTGGCTCAATGGCATTGATACTTTGCGCCGCTACGCGGTCGGGGAAAAATTCCTAAGCATTATTCATGCTGATGCCCGCGAGTTAGAGTCTGCTTATGTAAAGCAGCAGAAAGCTGACCAGGAACTGGACTACCTTAATCAAGCTATTTATTCTTTGGGGAACACGCTGATTTTCCTGCTGACTGCTTATTTGGTAGCGCGCGGGCAGCTCGAATTCGGCTTGATTGCCTCGGTAAATGACTTCAGCTTGTACCTGTTTGGCTCTCTGATGAACATTGCCAATTACCGGGGGCAGTTGGTTGCCAGCCGCGGCTTGCGGGAAAAGATTCTGGACTTGCGGCAGCCACTGGCTCAAGCGGAAGAAGGGGGGACAGCGCCAGCTGCCTTCTCTGTAAAGGATCTGCGGCTGACTTTTGCCAATGGACACGAAATCAAGTATCCAGATATCCAAGTCAAACCGGGGGAAAAAGTACTCTTGACCGGGGCCAACGGGACTGGCAAGTCGACTCTGTTTAAGCTCCTGGTAGGGGAAGCAGCGGCCAGTGGAGGACAGATCAGCTTTTTTGACCAAGCTGGAAAAAAGGTGAAGCCTGACCGGACGAAAATCGGCTACCTGCCTCAGCAGGCGGTCTTATTGCCAAGCAGCGTCATGAACAATATCACCATGTTTGATCCAGAGCTTGAGTCAAAGGCGAAGGCCAGCGCGGCCGACGCCCAGCTGTCTGAGGCAGTTGATAGTTGGCCTCAAGGCCTGGAAACGCCGGTTGACTTGGCAGGGGACAATTTGTCTGGCGGGCAGAAGCAGAAAGTAGTGTTGGCCCGCGCGGAAGTTCGTGACAGCCAGCTTCTCTTGGTTGATGAAGGGACCAGCGCGATCGACCAAGCAGCTGGCCGGAAAATCCTGGACAAATTGCTCCAGTCTAAACAGACGGTGGTTTTGATCGCGCACAATCTGACTAAAGAAGAGCGGGACCTGTTTGACCGGGAAATTAAACTATCCGCCTAA
>SRR1919932_01190 ABC transporter ATP binding and permease protein
TTGTTAAAATTATGGCTGAAAGCTAATCGGCCGCGGGCGGCCGTATTGCTGGCGCTGAGCGTCTTGTTTCAAGCTGTGTCAGCCTACAGTCTGTACTTAATCAGTCCGCAGCTGAACAGCTTGATTGGTGGAAAATTTACCTGGCTTTTCGGCCTGGCCCTACTTAAATTGGCTTTGGATTTGTTTGGCAACCTGCTTTTGGCGGTAAACAACTACTTGTTCAGCCAGCAGAGTCAAGCAGCAATCGACAGCTACCGGCAAAATTTGCTGCAGGCCTACTATGACAGCAATGATCAGTGGCCGACAGCTGATCTGCAGAATGACTTGGTCAATAATTTGCAGGTGATTAACCAAGATTATTGGCAAAGCATCTATTATTTCGTCAACAATGTGCTCTACGCCTTTTTTGTCAGTGTGGCAATTCTTTCCTTTAATTGGCAACTGGTTCTTTGTGCTTGGGCAATCGCTATTGTGGCTCTTTTTGTGCCGAAGCTCTTTGAAGAAAAAAGCAGCGCGGCAACTGAAGCCGTGGTTAACCGCAACCAAAAGTACTTGCAGGCACTGGACCAGTGGTTGGCAGCAATTGAGGAACTGCGGCGTTTTTCTTTAAAAAAGGTATTGTGCCGGCAGCTTGGTGAGGAAAGCCAAAAATTGGAGGACGCCCGGATCAAGCGGCAAGCTTGCCTGTCAGTCGCGGAATTCACGCAAGAAATAGTCGACAATATCGGGATTGTGGGAGTCCCTTTTCTGGCGGGAATACTGTACTTCAGGGGCCAGGTGGCTTTCGGGGCAATCATCGCTGCTGGCTATTTAGCCAATGGCGTTTTCAGTTCCCTGCAAGAGGCGTTTTCGGCTTACATTTCGGCAAAATCAACGACTAAGTTGAACGAAACCATGCTCCAGCATTTGCAAGTTCAAGCGGCCGCGAAGACGGAAGATCCCCAAACGATTATCGGCCGGGGGATAGAAGTGAACTTGGGCGGGCAAGTGATTAAATATCCAGATTTTACGATCAAGGCAGGAGAGAAGGTCTTACTTACCGGGCCAAGTGGCTGCGGGAAAAGCAGCTTGCTTAAACTTCTGCTTGGCCAAATTGAGCCGAGCAAAGGCCAGCTGACATATTTGGATTCTGAAGGGAAGGAAATCCCAAATCCGGCCCGGTCCTTTGAATATCTGCCGCAGGCTGGCTGGATTTTCCCCGGAACAGTCACTGACAATATCACCATGTATGATGCCAAAAAGCAAAGTAAATTGGCGGAGGTACTGAAAAAGGTTGGCTTAGACCGGGACTTCTCTAAGGCAGTTGACCTCGACCGTGAGGTCAGTCCCCAGCAGGCAGACCTGTCTGGCGGGCAGAAGCAGAAGATTTTCCTGGCCCGCGGCCTCCTGCGTCATAAAAAGTTCTCCTTGATGGATGAACCGCTGAGCGCGCTTGACCAGGCCAGCCGGCAGAAAATTTTGCCACTTCTGCTGGGGCGGAAACAGACTTTGATTTTTGTTGGGCATAATTTACCGCTCGAAGAGCGGGAGCGATTTGATCAAGTGATCAATTTGAAAGAAGGGGAAGATTTTGCAAATTAA
>SRR1919932_01191 molybdopterin/thiamine biosynthesis adenylyltransferase
ATGGATTTACATATTAAAAGGACTTTACAACCTCTGGTCAATGGAGATCAAATTGTGTTTGGTATCGGGAATAAAGGCTTAATCAGAAAAGTACCGGATACCGAGTTGAATGAAAAAGTCATTAAATACTTAAACGGGGAACTGGATAGAAAAGACTTGAAGATTTCAGATCAAGAACTGATCAATATAATTGAGAAATTTCGGTCTTTAGGCTTAATTACTACTAATTCGTATAGCGATAACTCAAAATATTCCAGAAATATCAGCTTCTTTGAATGGATGGACACGTCTGACAATGTTGATCCAAATATATACCAAGAAAAATTGCAGAAAGCAAAAGTAGCTGTGTTTGGAGTTGGCGGGATTGGATCTGCAATGGCTGAATACCTGGTTAGAGCAGGAGTAAAGAATATCAAACTGGTTGATTTTGATACAGTGGAAGAATCAAATCTCACGAGACAAACGGCTTATGTGGAAAGCGACATAAATAAAGCTAAGATACAGGCGTGTTCAGATTACTTAAAAAAGATAGACAGCACTGTTAGTGTGGAGACTGTACATTGTAAGATTACAGGGCCAGCTGATATTGAAGCGAATATTAATGCTGAAACCAATCTGATTGTAAATTCGATGGATCAACCAGCAGAGTTAGACAGCTGGTTTGATGAAGTTTCTAACAAGACTAAAAAAGCTGTGATTTTTAGCAGCTACGCTTCAACTGCAACAAATGTGTATCCTAAAATTCCAGGTGTAACAAGAGATTACAGTGAATTTTTAGGTAAGGAACAGATTACAAAAGACTGCATAATTGACAATAGTTTTCCAATGGCGGCAATCTCGTCTGTAACAGCAATGGCAGCGGGCATGGCTAGTTACTACGCAATTATGTTTCTAACTGGAATTCGAATTCCGAAAGATGCTATTCAGATAGATTTTGATGGATGGACAATCTTGAAGATTAATGTTTCTGTAGCGGGATAA
>SRR1919932_01192 two-component system response regulator
ATGCTTCTGACTAAAGGCCAAGCCGAAGTTCCCGTTTTCCAAATATGGAATCAGCCTTTCAAGACCTTGCGGGTTTACGCCAAAAATAAGGTCTTCGATTGCCTGGGCACCCTCAAGGATTATGAAAAAAGGTATCCAAGCTTGGTCCCTGCTGACCGGCAAAGCTTGATAAACCTGGATGCAGTGCAAAATTACGACGAAAAAAAGGGCGTTGTCCATTCCGTAGCCGTCCGGCGGCGGCGGTCAATCATGCTAAAATTGAATGCCACAAAAAAAGAGCCGTGA
>SRR1919932_01194 magnesium transporter MgtC
ATGGAAAAATTTACCGGCATACCTGTCAGCTTTCAACTGGTCTGGCTTCTGCGGATCCTGCTGTCCGCCTTTTGCGGCGGCCTGATTGGCTTTGAGCGGGCAACACAGAGAAAGAGCGCGGGCCTGCATACTCACGTCGTGGTAGCCATTGCCTCCACCCTGTTTTCTATCGTCTCCAAGTATGGGTTCTACGACATGCTCACTTTCAGCAACGTTTCTTACGATCCATCGCGAATCGCCTCTTTGACGGTCACGGGAATCTCCTTTATCGGTGCCGGGACCATCATGGTCCATAAAGAGCAGATTTCCGGATTGACGACCGCCGCGGGACTCTGGGCCACTTCAGCCATCGGAATCGCGATTGGGGTCGGCCTTTACTGGGTTGGAATCGTGGCCGCCGTCCTGCTCCTGCTCGTGCAGCGCTTTTTGCGGGAAGAAACGGTCCTCAACCTGCTCCGCAAGGTCAGCATCAGCCTCTTGATCGAAGCCAGCAACACGCCCCATATCCTGGAAACCATTCAAAGCGAACTGGAAAAAAACGAGGTCCACCAGCTCAGCATCAAGATCATCAGCGTCTCTGACGACCATGTCCTTTTCAGCTGCGATGGCGAAATCGCCAGCCGGATCGATGAAAACCAGATCATCATGAACCTGCGCAAATACCCGGATATCAAGCGCATCACTTACTCGCCCGGCAGCAAGTAG
>SRR1919932_01195 hypothetical protein
ATGAAAGTTGTAACAGTTAAGTCAATCTGGCTGACCCTGCTCACGGTCTTGAGCTTTGTCCTGCCATTTTGGGGCTGGCTGCCACTGGTGTACTTGTACAGCCAACGGCAGGATCCGGCCATGCAGGGGATGGAAAAGACACTTAAGCTCGCGGCTGGCGTGCAAGTAGCGTACTTGGTGATTTTGGCGGCAATCTTCTACTTCTTTGCCCCGATTCACGATTAA
>SRR1919932_01196 branched-chain amino acid permease
ATGAAAGAAAAGCTGACGCATGCTGAGTCGCTGACGATTTCCAGCATGCTCTTTGGCCTCTTCTTCGGGGCCGGAAACCTAATTTTTCCTACCTACCTGGGGGAAGCCAGCGGAGCCAACCTCTGGATCTCCCTCTTGGGCTTCCTAATCACCGGGGTGGGCCTGCCCCTTTTGGCCATCGCCTCATTAGGGATGACCAGGTCAGAAGGGCTTTTAGACCTCAGTGGCCGGGTCAGCCACAAGTACAGCTACTTCTTTACCTGCCTTTTGTACTTGACCATCGGACCCTTCTTCGCCATTCCCCGCTGCTTCACGGTTCCTTTTGAAACCGGGATCTCGGCGCTTTTGCCAAGTGGGATGACCAAAAGCACCGGCCTCTTTATTTTCTCACTGATCTTCTTCGCGATCATGCTTTTCTTCTCTTTAAGACCAGGGCGGATCATGGACTGGATCGGCAAGTTTCTGACTCCGGCCTTCTTGCTCTTTTTCTTCTTTATCATGATCACAGCGCTGCTGCATCCCTTGGGCAACTTCCAAGCAGTTAAGCCAGTTGGCGAATATGCCAGCGCCCCACTAATCAGCGGGGTCTTGGCCGGCTACAACACCATGGATGCTTTGGCGGGCCTGGCCTTTGGGATTATCGTCATTTCCAGCATCCGGACCTTTGGGGTTACCAAGCCGGAAAAAGTTGCTTCCGCGACTTTGAAGACCGGGGTCCTCACCTGCCTTTTGATGGCAGTGATATACGCCATTACCGCCCTGGTCGGAGCCCAGAGCCGGACTGCCTTGGGCCTAGCTGCTAACGGCGGGGAAGCCCTGTCCCAGATCGCCCGCCACTACTTCCCAGGTCTGGGGGCAGTAATTTTTGCCTTGATGATCTTCGTGGCCTGCCTTAAGACGGCCATCGGCCTTATCACGGCCTGCAGCGAGACCTTCGTGGAAATGTTCCCGAAGACCCTGTCTTACAACAAGTGGGCCATTATCTTCAGCCTCCTGGCCTTTGGGATTGCCAACGTGGGCTTGACCACCATCATTTCCTTCTCCCTGCCAGTCTTGATGCTGCTCTACCCGCTGGCCATCTCCTTGATCCTGCTGGCCTTGACCAGCAAGCTCTTTGACTTTAGGCAGGTCGACTATCAGATTATGACGGCTGTTACCTTCCTTTGCGCCCTGGGCGACTTCTTCAAGGCCCTGCCGGCAGGGATGCAGGTCAAGGCGGTTACCGGCCTTTACGGCCGCGCCCTGCCCCTTTACCAGGATGGCCTGGGCTGGCTGGTTCCAGTCGCTGTTACCTTCGTTATTTTAACTATTAAGGCTGCTATCAGCAAAAAACGCGCCTAA
>SRR1919932_01197 DNA-7-methylguanine glycosylase
ATGATGACCCCTTTTGAAAAGTACCAGGCGGTTAAAAAGGCTTATGCGGCCGGGGCTAACAAAGAAAATGCCCAGGCCATGGGCAAGTACATGCGAAATCTTTTTCCCTTCTATGGGCTCAAGACGCCAACGCGGCGGGAATTATCCAGGCCTTTTTTAAAGGGCGTGACTAAGGAAGAAATTGCCTGGGACCTGGTTGACCTCTGCTTTAAAGATGACTACCGGGAAATGCAGTACTTTGCCCTGGACTACTTGAAGAAAGTCCAAAAGCAGCTGACTTTTAAGGACTTACCAAAAATCAAGCAACTGGCTGAGACCAAGTCCTGGTGGGACAGCGTCGACAGCCTGGTCAAACTGGCCGGGCAGATTTTTATCAAAGATGAGGAAAACAAGGAAAAGACGGCAGCCCTCATGCTGGCCTGGGCTCAAGATCCCGACTTCTGGGTTAGGCGGACGGCGATTGAATTCCAGCTGGGCTTAAAAGAAGCAACTGACCCGGACCTTTTGGGCAAAATTATCGACCGCAACTTAGGCAGCCAGGAATTTTTTATCAACAAGGCTATCGGCTGGGCCCTAAGGGACTACTCCAAGACCAACCCGGCCTGGGTCAGGGAATACGTGGCTTTCCGCGATCTCTCTGCCTTAAGCCGGCGGGAGGGCAGCAAGTATATCTAG
>SRR1919932_01198 NUDIX family hydrolase
ATGTTTGAACTGACCTACTGCCCCCAGTGCGGGCAAAAATTGACTAAAAAGGAATTGCCTCTGGATGGCTTGATCCCTTATTGCGAGCAATGCGGCGACTTCCGCTTTCCAGTTTTTTCCGTCGCTGTCAGCATGATCGTCATGAATGAAGGAGGCGACCAGGTACTCTTGATCAAGCAGTACGGGAAGGACTCCTATATCCTGGTAGCTGGCTACGTTAACAAAGGGGAGAACGCCGAAGACAGCTGCCGCAGAGAACTAATGGAGGAACTTCATCTAACGGCTAAAAGCCTCCACTTCAACCGCAGCCAGTATTTTGCCCCCTCAAATACCTTGATGCTCAACTACACGGTGACCGTTGACCAGGCTGAAAAGGGTAGTCCAAATGAGGAAATCGACGCCTGGAACTGGTTAAGCATAGACGAAGCCCGCCGGCAGATCCGGCCAAATTCCTTAGCCCGGACTTTTTTGTTGGAATACCTCAATAAATGCAAGCTGGATAGATAA
>SRR1919932_01199 hypothetical protein
TTGGGAAAATACGGTGCTTTTAAAAGGGATTTTGATTTCAGCGGTCTTTCTCCCCTGGAAGCTCAGAAAATGCTGGGCTATGTAGAATTGATGAACCAGTGCATGGACCGGGCCAGAATCGCGGCCAACAATGCCGTGGGCAACTACCAGAACTACTAA
>SRR1919932_01200 hypothetical protein
GTGGCTAAGGGCTGGATCAAGGTCTACTACCAGCCGATCGTGGACACCTTCAGTTCCAAGATCAGCACTTATGAAGCCCTGGCCCGCTGGATTGACCCTAATTACGGCTTTTTGAACCCGGGAGAATTCATCGAGGTCCTGGAGCGGGGACATTTGATCCACAAGCTGTACCTGCATATCTTGGACCTGGTCTGCCAGGACCTGGAAGAAGCGATGCAAAAAGGCGAGACCTACCCGATGGTTTCGGTCAACTTGTCCCGTTATGACCTGGAGCTGCCCGACCTGCATGAAAGAATCAATAATATTTTGGCCAGTCATGGGGTGAAAAGCTCCCAGATTCGGATCGAAATTACCGAGTCAGCCCTCCTCAGCAACACTGAAGCTGTCATCAAGGAGCACATCAGCCGCTTCCATGAGGATGGCTACCAGGTCTGGCTGGATGACTTCGGCAGCGGCTTTTCGTCTTTGAACAACCTGCAGAACTTCGATTTTGACTTGCTCAAGATTGACATGGCCTTTCTCCGCCACGCCAACGAAAAGACCCCGACCATCTTGATGGACGTGATCGACATGGCCAAGCGGCTGGGGATTGAAACCCTGTCTGAAGGGGTAGAGACTAAGGACGAATACGACTTCCTTCACTCCATCGGCTGCGTTTTGGCCCAGGGCTTCTACTTCTCCCAGCCTTTGCCAAAAGACAAGATTACCGCCAAGCGGAAGGAGCGGGGACTGGAATTTGAAAGTCTGGCTGAGCATGCTTTTTATAAGAAGATCGGCCAGATCAATGTCTTGAACGCCCTCTATCCTTTCAGCGGAAAAAATGACCAGGATCTGGCGGAAACCGTGCCAGTCATGCTCCTTTTGGACAAGGGCGGGGACTTGGAGCCTATTTATTCTAACAAGGCTGCCCAGAACTGGTGCCAGTCCCTGCGTTTAAGGGGGGCTGGATTCGAGTTTGACTGCCGGCGGGAATTTTTGACCCTGGTAAAGCAGCTTGGAGAAACGGCTGACGGTGAAATCATTGAAGAAAATTTCCGGATCAAAGACTATGCCGGCCGCCTGCGCCTGCAGCTGGTGGCAGAGATGCCGGGCCAGCGGGCCTATGTAATCAACACGAATATGGCTTGA
>SRR1919932_01201 HNH endonuclease
ATGAAGCACGAAAATGCCAATCGGGTGTTTCTGCTTAACAAGGACGGCAAGCCGCTAATGCCATGTCGTCCAAGAAAGGCCAGGCTGCTTCTGACAAGCGGCAAGGCTTTTGTGGTCAAGAAATATCCGTTCACCATTCAGCTGAAATACGGCTCATACGGCTATAAGCAGAAGGTTAGCCTTGGCGTAGACACTGGGCAGAGACACATTGGCTTTGCCATTGTCAGTCAAAACAAGGTGCTGCATCAAAGCGAGGTAGAGCTTCGCCAAGACGTACACAAAAATCTGTACACCCGCAAGATCTACCGCAGAAGCAAAAGAAACCGCAAGACTCGCTATCGCCAAGCCCACTTTTTAAACAGAGTGCATGGCAAGCGAGACGGCTTATGGCTTCCGCCGTCAATAAAAGGCAAGGTAAGCCATAACATTGCTTGGATCAAACGCTATCTGGCTGTGTTACCAAATCCCGATCTTCACATCGAAGTAGGCAAGTTTGACATGGCCAAAATGGTTAACCCAGAAATTTCGGGCAAGCAGTATCAAGAAGGCTCACTGAAGGACTGGAAGAACTATGAGTATTACGTGCTGGCACGTGACGAGTACACCTGTCAGCTCTGCCATAAGCATGGCGAAGGCGTAAAGCTTGTTGTCCACCACATTGTCTACCGATCACAAGGCGGGACAGATCGGGTGGACAATCTGATAACGCTTTGCACGAATTGCCATACCACGAAGAACCACCAGCCAGGCGGCAAGCTCTACAAGTGGATGAAGGCAAAGAAGAAAGTGATAAAGCAGCTGAAGGGTGCAACGTTCATGAACATTCTGCGCAAGCGGATTATGACTGCCTTCCCAGAAGCAAGCTTTCAGTACGGTTCGCAAACCTACGTAGATCGTAAGAATCTTCTTTTGCCAAAAGGTCACTTCATGGATGCAATCGCAATCAGCGGGATCAAGTCAGTGGGTCAGCTGTCGGATACGGTGACGATGATCAGCCAGTTCCGCAAGAAGAAGCGGTCACTTCACGAAGCAACTGCAAGAAAAGGCAGAAAGCAACCAAATACGTCATCCAAGCGTAATGAGAAGAATACGAAGCATGCACGTGGTTTGTGGCTAAATGACTACGTTCGTGTGATAGGAAATCATGCCAAGGGCTATGTAAAAGGCTTTAAGTCGAACGGATATTACGTTTATCTGACAGACGGCTTAGGCAATTACGTGCTGAACAATGGCAAGAATTACATCAATGGACAGCAGTGCCGGTTGATCATGCATAACGGCAACTGGCAAAAAGCAGAGCAAAAGCTTTCTCTATACAAATTTAAGTAA
>SRR1919932_01202 sugar O-acyltransferase
ATGGATGAACTTGAAAAAATGCGCTCCGGCGACTTCTACCAGCTGACGGCTCCGGAAGTGGAGCATTATCAAGAAGCCGGGATCATCTGGAACGATGAGCTTAGGCAGGGCAATAATCTGGACCGGCCAGCCCAGCTCTTGCGCTTAAAGATGCACTTGGGCGCTTTGGGAGACCAAGCCGTCTTTGGGACCAGCTTCAGCTGCTTGAACGGACCCAATATCTATATCGGCCATCACTTTTTGGCGGCCAGTGGTTTAACCATTGAAGATGCCGGAGATGTTCATATTGGCGATTACGTGACCATGGGGCCAAGCTGCCTAATAACGACAATCGCCCACCCCCGGTCAACCAGGCAGCGGCGCCAGCGCCTGGCCCAGGCCAAGGGGGTTGAAATCGGCAATGATGTCTGCCTGGGAGCGGGGGTCACGGTTTTGGCCGGGGTCAAAATCGGCGATAACGTGGTCGTGGAAGCCGGGGCCGTGGTGGCCCAGGATCTGCCAGCCAATGGGGTCTTTGCCGGCATCCCGGCCAGGAAAATCGCTGATCTGGCCAATGATTGCGGATAA
>SRR1919932_01203 membrane protein
ATGAAAATAGCTTTACAAGTTTTAGCCTGCCTGGTGGCAGTTGAGTTCTTCTATATCATGTATTTGGAAACTTTTGCAACGACTTCCAAGAAGACGGCAGAAGTTTTCCAAATGGACCAGGAAGAATTAAGCCGGTCGTCAGTCAATACGCTGTTTAAGAACCAGGGTATCTACAACGGCCTGCTGGCCGTTTTGACCTTGATCGCGGCCTTTGCCCTGGGCAAGATCGTCCTGCAGCTGGTCTTGGCCTACATGATCCTGGTAGCGGCCTACGGGGCCGTGACCAGCCAGCCGAAGATCCTCTTGATGCAGGGGGGCTTGCCTATCTTGACCTTGATCGTCAGCTTCTTTGCTTAA
>SRR1919932_01204 AsnC family transcriptional regulator
ATGGTTGAATACAAAATCGACAAAACCGACCGACGCATTTTACAAATGTTGGAAGAGAACGCCCGCATTTCCGTCAAGGATATCGCGGAAGCCAACTTCATGTCTTCTCCGGCCGTAGCCAACCGCATCAGACGGATGGAAGCCAACAACCTCATCAAGCACTACTATGCTGACATTGACTACCCGTCCATGGGCTACGTGGTTAAGGCTTTCATCAATCTGGAAGTCAAGCCGGAAGACAAGAGCGAGTTCTACCCCTTCATCGAAAAGATTCCGAATGTTATCCAGTGCGACTGCGTGACGGGGGACTACTCCATGCTGATTCAGGCTGCCTACCAGCGGCCTGAAGAACTGGACCACTTAGTCAACGAGCTGCAGAAATTCGGCCGGACCAAGACCGAAATTGCCTTTTCCACCCCGATCGAGCACCGGCCAATCCCGGTCAAGACCGAGAGTGATGACGAAGAAGACAAGAAAGAAGACTGA
>SRR1919932_01205 glucosamine-fructose-6-phosphate aminotransferase
ATGTGCGGAATTGTCGGTGTAGTTGGCAAGCCAGCTAGAGAAGTTGTTTTAAACGGTTTGAAGAACTTGGAATACCGCGGCTACGACTCAGCTGGTATCTACCTCAATGACTTACAAGGGCATGAATACTTGACCAAGGCGGTTGGCCGGATTGCCAACCTGGAAGAAAAGCTGACGCCAGAGGAAGAAGGGACGACCGGGATCGGCCACACCCGCTGGGCAACCCACGGCCAGCCAACGGTGGAAAACGCCCACCCACACTACTCAGAAGACGGCCGCTTCTACCTGGTTCACAACGGGGTCATTGAAAACTACCTGGAACTGAAGGAAAAGTACCTGGCAGGCGTTCACTTCAAGTCTGAAACTGATACTGAAGTTATCGTGCAACTGGTAGCCAAGCTGGCCAAGGACGAAACCCTGGATGCTTTTTCAGCCTTCAAGCAGGCTTTGAAGCTGGTTAAGGGTTCATACGCCTTCTTGCTGGTGGACAACACCAAGCCAGACCACATTTACATTGCCAAGAACAAGAGCCCGATGATGCTGGGCTTGGGCGACGGCTTTAACATTATCGCTTCAGACGCGATTTCTGTTTTGGATCAAACCAAGACCTTTATCGCCTTGAACGATGGCGACTGTGCTGACGTAACCAAGGACTCAATCGAAATCCAAGACTACGACGGCAACAAGGTGGAAAGAGAAGCTAAAGTTTTGGACATCGACCCGAACGCTGCTTCCAAGGGCACTTACGAATTCTACATGCTCAAGGAAATCGACGAACAGCCAGCAGTTATGCGCCGCCTGTCAACTGACTACTTAGACGAAGCAGGCAAGCCAGTTGTTGACGAAAAGATCGTCGACGCTGTCAGCCAGGCTGACCGGATCTACATCTTCGCGGCTGGTACTTCCTACCACGCTGGTCTGGTCGGCAAGGAAATTTTTGAGAAGTTCACCGGGATTCCAACTGAAGTTGGCTATGCTTCCGAAGCTGGCTACCACTTCCCAATGATGTCCAAGCACCCATTCTTCATCTTCCTGACCCAGTCCGGCGAAACTGCCGACTCCCGCGTGGTCTTGACTGAAGCCAACAAGCGGGGGATCCCAAGCTTGACCATGACCAACGTTGAAGGGTCAACCTTGTCAAGAGAAGCAACTTACACCATGCTTTTGAACGCTGGTCCGGAAATCGCCGTTGCTTCAACCAAGGCTTACACTGCCCAAGTTGCCCTGCAGGCAATTTTGGCCAAGGCCGTTGGTGAAAAGCTGGGCGACCAGGCTGCCAAGGACTGGAACTTGAAGCAAGGCTTGAGCCTGGCCGCTGAGGGCATCCAGGAAATCGTTGATGGTAAGGAAAAGATCGAAGAACTGGCCAAGAAGTACCTGGTACCATCTAGAAACGCCTTCTACATCGGCCGGGGGATCGACCACGCCGTTTCCTTGGAAGGTGCCTTGAAGCTGAAGGAAGTTTCCTACATCCAAACTGAAGGCTTTGCCGCTGCTGAACTGAAGCACGGGACCATTTCCCTGATCGAAGACGGCACGCCTGTAATTGCCTTGATCAACGACCCGGTAACGGCTGACCTGACCCGGGGCAACATCCAGGAAGTGGCTTCCCGCGGGGCCAACGTGATCACTATCGTTGGCAAGCAATTTGCTAAGGAAGGCGACAACATCGTCTTGCCGGAAATCGACTACTACCTGTCAGCTTTGCTGTCAGTAGTGCCGACGCAATTGCTGGCTTACTTCGCGTCCAAGAACAAGGGCTTGGACGTTGACAAGCCACGTAACCTGGCTAAGAGCGTTACGGTTGAATAA
>SRR1919932_01206 transcription regulator
ATGATTGTGACCGACCGGCAGAAGAGAATTCTGCAGATCCTGCTGGAAAATGAAGACGGAATCAGTTTAGCGGAAGTGGAAAAAAGGCTGGAAACCAGCCGGAGGACCCTTTACCGGGAATTTGGCTTGTTGCGCCCGGAACTGGCCAAATCAGACTTGACCTTGACCAATAAGAAGGGCTATCTGCAGCTAACTGGATCGGATGAGTCGATTGCCGACCTGCGCGGCGAACTCAAAGAGAGCCCGGGGCAAGGTGAGATGAAGGCCGAAGACCGGGGAAATGCCCTGGCCGCTCTGCTACTGTTAAAAGACGAACCGGAAAAAATTATTGCTTTGGCTGATGAGCTGGGAGTCAGCGAGGCGACAGTTCAAGCAGACTTGGCTGCTGTGGCTGAGTCTTTGGCCAAGTACCAGATCGAGCTCAAACGGACCAAGGGCCTGGGGGTCCAGGTCAGCGGCAAGGAAAGCCAGCGGCGCCGGATTCTGAATGGAATCCTGCTCAGTGAAAGCAACGACTATGTCTTTTTCTCTTACCTTAATAAAGAAGATCAGGCCAAGTCGGGAAACTTTTTCATTGACCTGCTCCCGAAAAAAGATCTGCTTAAGTGCTGGCAAGCGGTCAAAGATCTGCTGTCAGTTTTCAATTTTGAGACAGATTATCAGCTGATCGAGCTGATTCTGCTCTTTGCCATTAGCCTGGACCGCCAGCGGCAAGGCAAAAGTGTGGAAAGCATGGCTGCCAAACCGGATTCTTTAAAATACCAAGGCTATGTCTACCAGATTTTTGCCAAGCTAGACGTACCAGAAGTTACCTTGACGCAAAATGAAGTGATCTTTCTCGCTAATCAAATGCAGATGCACGAGGACCAACGGGTGCCTTTTGCCAGTGATGACCAGGAAGTCCTCGTCAATCTCCGGGTGGGGCAGTTTATTCAAGACGTTTCTGACCAGGTTCAGTTTGATTTCAGCAAGAATCCGGCCTTTTCCCGCCGCCTGCAAAAGCATATTTCCGCCTTGCTGCAGCACAGCGTCAAGCGCTTGCCAAACGTGCGGATTGAAACCTTGAGTCAGCTGACCATGCACTTCCCCCAGCTTTATGAAGCAATCACGGCTGCCTGGAAGCTGGATTTTTCAGAGGAATTGAATGTAGCTGAATTGCAGCTCTTGCTGCTATATTTTGCCAATGAATATGGCAGCCGGCAGCCCCGCCGCAACTTGTCAGCTTTGGTAATCTGCGACAATGGGCTGGGAACTTCTGCCATTCTGGCGGCTCGCTTGCAAAAAGAGGTTCCAGAGATTAAGCAGGTTAAGACGGCCCGGGCTTCGGGCTTGGCCCAGCTGAAACTGGAAGATTATGACATCATCTTTTCGACTCTGGATTTGCCAGGTTTCCCCCGGGAATACCACTTGGTCAGTCCCTTGCTTTTAGGCGGGGAACTAGACCGGGTCAAGAGTGAGGTGGCCAGTTATGTAGCCAAATACCCGGAAAAAAGCACCGTTCAGCAGCCCTGCCGCTTCAAAAATCCAGCAGCTGTCTTGACCCAGCTGGTAGGAGAAAGCGCCTTTTGCCAGCAGCTTCTGCAACAGATGACCCTGCAGCCGATAGGCAGCCAGGGAATGGATATGAATGCTGTATTGTCGGCGATTGTCACGGCCGTGCCGGATGAGTACGTTAAAGACCGGCTGGAAGTCGCCCAGCGGCTGAAAAAGCGGCTGGACCTGGCTCCCTTGGGTTTGCCAGGCAGTCACTTGGCCCTCTTGCATACGCGGACAAGGGCCGTCAGCAAATGCTTTTTTGCCATTTATGACCTGGCTGAGCCAATTGCCATGACAGCAATGGATCAAAGCAAAATTATGGTTAAAAGGCAGCTCCTGCTTTTAGCGCCGGAAGATTTGCCCGAAGCCAGTGCTAATGTTTTGGGGATGATCAGCAGCTTTTTGGTCATGAGTGACCAGACCCTGCAGCTGTTTGAGTCCGGCAACTGCCAGGAAATCGCGGCTGCTATTGCCCAACAGTACCTGGGCCAGGTAACCCAAAGGCTAAACCAGGCCCGTGGCCAATCTTAA
>SRR1919932_01207 mannitol-specific PTS system IIBC component
ATGTCTGAAACTCAGAGCAAGAGCTCAGCTAAGGCAAAGATCCAGAAATTCGGGACCTTCCTGTCAGGCATGATCATGCCAAACATTGGCGCGATTATTGCCTGGGGCTTCATGACCGCGATCTTCATGTCGCCGAACGGCTGGTTCCCGAACAAGTACATCAACAGCTTTACCAGCTCAATGCTGTACTTCATGATTCCAATCTTGATTGCCTACACGGGCGGCAAGAGCGTCTATGAGGAAAGAGGGGGCGTGGTTGGTGCCATCTCCGTTGTCGGGACCATCGTCTTGGCCTTCCCTTGGGCCAACCCGGTAGCACAGGGTATCGTTTATCCGGCCCTTTACCCATACGCAGCCAACAAGGCTACGGGGATTCCAATGTTCCTAGGGGCCATGATCATGGGGCCGCTCAGTGCCTGGTGCTTGAAGAAGTTTGACCAGGCCTTCCAAAGCAAGGTCAAGGCCGGCTTTGAAATGATCTATAACAACTTCTCCCAGGGGATCATGGGGATGATCTTCGTAGCTATCAGCTACTTCTTGATCGGACCTATTTTGGTTGTATCAACCATTTGGATTGCCAACGGGGTTGACTGGATCATCGCCCACCACCTGCTGCCACTGGCCAACCTGGTTATTGAACCAGCCAAGGTCTTGTTCTTGAACAACGCGATCGGCAACGGTGTCCTGGTTCCTTTAGGTATCCAGCAAGCTGCCAAGGTCGGCAAGTCAGTCCTCTTCTTGATGGAATCAAACCCTGGCCCTGGTTTGGGGATCCTGCTGGCCTGCTCAATTTTTGGCAAGGGTTCAGCCAAGAGCTCTGCTCCGGGTGCAATGATCGTTCACTTCCTTGGTGGGGTGCACGAAATCTACTTCCCATATGTTCTGATGAAGCCAATCCTGATCCTGGCTGCCATGGCCGGCGGGATTACCGGGACCTTCCTCTTTAGCATCCTGGGCGGCGGTTTGACTGCTGCTGCCAGTCCTGGCTCAATTATCGCCATCCTGCTGGTTTCAGCCAAGGATGCCTACTTCGGCAACATTGTCGGTGTGCTTGGTTCAGCAATTGTTTCCTTTGTCGTTGCTGCTGTTATCTATAAGATGGACAAGAGTGATTATGGCGACCTGGCTGCCGCTCAAGGGCAAATGGCAGCTATGAAGGCAGAATCCAAGGGCTTGACTGAAGAAGAAGCCGGAGCTTCAGCTGTTGAAACGGTCGAAAGCTACAAGGATGTGCAAAGAATTATCTTTGCTTGTGATGCCGGCATGGGCTCATCCGCTATGGGGGCATCGCTTCTGAGAGATAAGGTCAGGAAGGCGGGCTTGAACCTGCCAGTTACTAACACTGCTGTCCGCAACTTGAAGGATGAACCGGGCCTGCTGGTCATCACCCAGGAAGAACTGGCTGAACGGGCTAAGGAAAAGACGCCAAACGCTTTGCACGTGGCTGTCGGCAACTTCCTCAGCACGCCAAAATATGACCAGGTCGTTGCCCGTTTGAAGGCAGCTGGTGAAACCCTGCCAGAAGCAGACCAGGTCAAGAAGAGTGAAAAGACAGCTGCTAAGGCAAACAGTCTGGCTTCAATCGATTTCAGCAAGGTTAAGGAAGTCAACTTTATCCGTCACGACCAACATCTGGGTACGGTGACGATGGCGTCAAGCCTGTTCAAGGACCAGATGAAGAAGGCCGGCAAGACAACCCCTGTTAAGGCCGTCAGAATCAATGAACTGGACAATGATCCAAGCCACCTGGTCATCGTTACGCCAATGGCTGGCAAGAACCTGGCTATCCGCTATGACCAGATCCAAGTTATCACCGTTGCTGACTTGCTCAAGGCCGGCGAAGTCAGCGGCCTGGTTGACAAACTGAAGTAA
>SRR1919932_01208 mannitol-specific PTS system IIA component
ATGAAACTGGAAAAAGATATGATCAAGTTGAACCAGAATGTTGCCACCCGTGAGGAAGCTATCCGCATGGCCGGGCAGCTCCTGGTAGACCACGGCTGCGTCGAGCCGGAATACATTGACGCCATGCTTGCCCGGAACGCGGATGTGTCAACCTATATGGGGAACTTTATCGCTATTCCGCACGGCACTGATGAAGGGAAGAAATACATTAAGAAGACCGGGATTTCAGTTGTCCAAATCCCAATGGGGGTCGACTTCAGCGACCCAGATGATGACCAGGAGCAATTAGTCACGGTTGTCTTCGGGATCGCGGGCCTGGGCAATGAGCACTTGCAGCTCTTGTCCCAGATTGCCCTGTTCTGCAGCGACGTTGCCAACGTAGCAAAATTAGCCGACGCGCAAACGCCAGAAGAAATTATCGGTTTGTTAGACAAAGTAGGAGAAAATTAA
>SRR1919932_01209 mannitol-1-phosphate 5-dehydrogenase
ATGAGAGCAGTACACTTTGGTGCAGGTAACATTGGCCGCGGCTTCATTGGTGAAACTTTGGCAGCCAACGGTTTTGGAATTGATTTTGTCGACGTTAATGAAACGATCATTGATGCCTTGGTTGAGCGGGGTGAATACGATATTCAACTGGCCGCCCCGGGGAAAAAGAAGATTCACATCAGCAACGTGACCGGGATCAACAACGCCAAGAACCCTAAAAAGGTAGTCGAAGCCATCAAGACAACCAACATGGTTACCACGGCAATTGGCCCCAAGGTATTGAAGATCATTGCTCCTCTGATCGCCCAAGCCTTAAGCGCGAGAGTCAAGGGAAATCGCGAACCTCTGGATGTCATTGCCTGTGAAAACATGATCGGCGGTTCCCAGTTCTTGAAGGAAGAAGTCTACAAGCACTTGACTGACGAAGACAAGGCCGAAGTTGACAAGTACGTTGGCTTCCCGAACGCCGCTGTTGACCGGATCGTGCCAATTCAGCACAATGAAGACCCGCTCTTTGTTTCAGTTGAAGACTTCAAGGAATGGGTTATCGACGAAAGCCAGATGAAGAACCCGAAGATCCGCTTGGAAGGCGTTCACTACGCTCCAGACCTTGAACCATACATCGAAAGAAAGCTGTTCTCAGTCAATACTGGTCACGCCACTGTTGCTTACACCGGCAAGGCTCTGGGCTATGAAACGATTGGGGAAGCCGTTAAGGATGACCGGGTCGTTGACCAGGTAACCCGCGTTTTGGCTGAAACCCGTTCCCTCCTTTTGGCCAAGTGGGACTTTAGCAAGGAAGAACTTGAAGAATACCATGCTCAAGTCATCAACCGCTTCAAGAACCCATACATCTCTGACGATATCGCCCGGGTTGGCCGGACACCGATTCGTAAGCTGGGCTATGATGAACGTTTCATCCGGCCAATCAGAGAACTGAAGGCCCGGGGTCTTGACTACACGGCCTTGCTTGAAACGGTCGGCAAGATTTACCACTTTGACGAGCCAGCAGACGCTGAAAGCCAAAAGCTGCAACAGATGCTCAAGGATGAACCGCTGAAGGAAGTCGTTTTGGAAACGACTGGCCTCAAGGATGACCCTGACCTGGTTGAAGAAATCATCGCTTCAATCAAGGCGGCTGATTAA
>SRR1919932_01210 phosphoenolpyruvate carboxylase
GTGACTGCTAAGAAATTAGAGAACAACAGTAACCACGCGGTTATTGCTGAAGAGGTCAAGATTTTGACCGACTTGCTTGACGAAAGCACCCGCCATTTGGTTGGCGACGAAGAATTCGCCAAGATCAAGGGCCTGGTTAAAATTGCTGCCAGCAGCGACCACAGCAAGCTGGAAAGTCAGATTGCCTGCTTAAGCAATCAAGAGATGATCATTGTCGCCCGCTACTTCGCGACCCTGCCGCTTTTGATCAACATTACTGAAGACGTTGACCTGGCCAGCGAAGTCAACCTGCTCAACAACACGGACAAGGATTACCTGGGCAAGCTGGAATCAACGGTTGACCTGGTAGCGGAAAAGGACAATGCCACTGAAATTCTGAGTCATGTCAATGTCGTGCCAGTTCTGACCGCCCACCCAACCCAGGTGCAGCGCAAGACCATTCTGGAATTGACTAACAAGATCCACGACCAGCTCCGCCGCTACCGGGACTTCAAGACCGGCACCATCAACCGGAAAGAGTGGACCAACCAGCTCCGCCGCTACATTGAAATCATCATGCAGACGGACATCATCCGGGAAAAGAAACTGAAGGTCTCCAATGAAATCAAGAACGTCATGGTCTACTACCCTGACTCCTTGATTCCGGCCATCACTAAGCTGACTGCCCGCTACAAGGAACTTGCCCGGGAAAAGGGCCTCAACGTTGACGGGGCAACGCCGATCACCATGGGCATGTGGATTGGCGGGGACCGGGACGGCAACCCTTACGTTACGGCTGAAACCCTCCGCTTGAGTGCGACGATTCAAAGTGAAGTCATTTTTGAATACTACGTCAAGGCTCTCAACGACCTTTACCGGACAGTGTCTGTTTCAACTTCTTACGTGCAGCCAACGCCGGAAGTTGCCGAACTGGCCAAATTGTCAGCCGACAACTCCCCATTCCGAGAAAACGAACCTTACCGCCGGGCCTTCTACTACCTGGAAAGCCGCCTGGCCCACACGGAAATGGAGCTTTTGGACGTCTTCTCCAAGGAAGCCGTCGTTAAGAAAGAAGCTGCCCTCAAGGCTCCGGTCTACAAGGATGCTTACGAGTTCAAGGAAGACCTGGAAGCCATCAAGCGGTCATTAATCCAAAACCATGACCGGGCAGTTACCGGCGGCCACTTTGACGACCTCCTGGAAGCTATTGATGTCTTTGGCTTCCACCTGGCTACGATCGACATGCGGCAAGACTCCAGCGTCAACGAAGCCTGCGTGGCAGAGCTCTTAAAGAGTGCCCGGATCTGTGACAACTACAGCGATTTGGACGAAGAAGAAAAGATCCAGATCCTGCTCAGTGAATTAAACAATGATCCCCGCAGCCTGCACTCATCCAACTCACCGAAGTCAGAGCTTTTGCAAAAGGAACTGAAGATCTACCACACTGCCCGCCTGCTTAAGGACACCTTGGGCGAGAATGTGATCAAGCAGCACATCATTTCCCACACCGAAAGCATCTCTGACATGCTGGAACAAGCCATCATGCTGAAGGAATACGGCCTGCTCGATTCCGAAAAGGCCCGGGTGCAAGTGGTGCCTTTGTTTGAAACGGTGGAAGACCTGCAGAACTCCCGGGAAATCATGAAGCGCTACCTCAGCTTCGACATCGTCAAGCGCTGGGTTGCTTCTAAGGGCAACTACCAGGAAATCATGCTGGGCTACTCCGACTCCAACAAGGACGGCGGCTACCTGGCCTCCTGCTGGAGTCTGTACAAGGCCCAAAAGGAACTGACAGCCATCGGCGAGGAACAGGGCATCAAGATCACCTTCATGCACGGCCGGGGCGGCACGGTTGGCCGGGGCGGCGGCCCATCATATGAAGCCATCACTTCCCAGCCATTCGGCTCCATCAAGGACCGGATCCGGACCACTGAACAAGGGGAAATCATCCAGAACAAGTACGGTAACAAGGACGCTGCCTACTACAACTTGGAAATGCTGGTTTCCGCCGCGGTTGACCGGATGGTCTCCAAGCAAAATGTCAGCCAGGACCACATCCAGGACTTTACGGCTTCAATGGACGGCATTGTGGAAGACAGCAACCGGGTTTACCGGGAACTTGTTTTTGACAACCCGCACTTCCATGACTACTTCTTCCAGGCTACGCCGATTAAGGAAGTTTCTAGCTTGAACATCGGCTCCCGGCCGGCAGCCAGAAAGAAGATTACTGAACTGTCCGGCTTGCGGGCCATTCCTTGGGTCTTCTCCTGGTCACAGAGCCGGGTCATGTTCCCAGGCTGGTACGGGGTTGGTTCAGCCTTCAAGCACTTCATTGATGCTGATCCGAATAACTTGAAGGAACTGCAGGAAATGTACCAGGGCTGGCCATTCTTCCACTCCCTGCTGTCCAACGTCGACATGGTTTTGTCCAAGTCCAACATGGAAATCGCGGAAAAGTACGCTGGTCTTTGTGAAGACGAAGCTACCCGGTCAGTCTTTGACATCATCAAGAAGGAATGGGAACTGACCAAGGAAGTCATCCTGCAGATCGAAGGCCACAGCAAGCTTTTGGAAGACAACCCGTCTTTGGAAAGCAGCTTGGACTACCGCCTGCCTTACTTCAACGTCTTGAACTACGTCCAGCTGGAAATGATCAAGCGGGGCCGGCAAGAAAAGCTCAGCGGCATCTACGAATCGATCATCCACATCACCATCAACGGGGTCGCTTCCGGCCTGCGTAATTCGGGCTAA
>SRR1919932_01211 malate permease
ATGGCATTTTTCATCTCACTGGAGCAGATCTGCATCATGTTCATCCTCATGGCCATCGGCTTTCTCTGCCGGAAAAAGGGCATGATCCATGAAGAAACCGGCAAGGACCTGACCGCCATCCTGGTCTACATCGTCGGCCCCTGCCTGATCATTAACGCCTTTGAGCGCCCGGCCAGCGCCAGCTTAATCAAGGACTTCGGCTTGACCTTCCTGGCTGGCTCTCTCAACTACCTCTTCCCAATCGCCTTCAGCAGCCTTTTCCTCCGCCTGCCCCGCTTAAAAAATGACCCCGACAAGCAGCTGATCGCCTTCGGGGCCGTCTACAACAACTGTGGCTTTATCGGCATCCCTTTAATCCAAGCCCTCTTAGGCAGCAAGGGGACCTTTTTCGCCGTACCCATCTTAGTCTTAAACAACATCTTCGTCTGGTCCCACGGCATCGGTACTTTTAAAAAGCGGCAGCCTTTAGCCGACACCCTCAGAACCGTCCTCTTCAATCCCAATATTATTGCCACCGCCATCGGCTTTGTCCTTTTTATCACTGGCGCCAGCCTCAAATTCCCAGCCGTGATAGACCGGTCGGTCAGCTACGTGGCCTCGCTTAATACCCCCTTAAGCATGATCGTCATCGGCTCTAACCTGGGGACTATTTCGGGTGACTTCTATAAAGACAGCAAGGCCTGGCTGATCTGCTTCTTGCGGAACTTCCTTATGCCGGCCTGCATGAGCGTAATCCTGCTCCTGGTTCCCCTGTCAACGACCGCTTACCTGGCCGTAGTCATCATGGCGGCTGCCCCGGTTGCCGGCTTTATCGTCATGCTCAGCCTCCTGGCCAACCGCCCGGTCGCCTTCCCAATGCGCTGTCTGTGCCTGTCGACTTTAATGTCTGTGGTCAGCGTGCCCTTGATTATTATGCTGGCCAGCTGGCTCAAGCAGCTTGTATAG
>SRR1919932_01212 ATPase component of ABC transporter with duplicated ATPase domains
TTGATCACAGTAACAGATTTAAGTTTGCAAATCGGCAGTCGCACCCTTTACAGCGACGTCAACCTTAAGTTCACGCCGGGCAACTGCTACGGCATCATTGGGGCCAACGGGGCCGGCAAGTCGACTTTCTTAAAGCTGCTGGAAGGGAAAATGGAACCAACTACGGGCTCAATCAGCATGGGCCCTAACGAAAGAATGTCCAGCCTGAACCAGGATCACTTTGCCTTTGAAGATTTTTCCGTTATGGAAACTGTGATTCAAGGCCACCAAAAGCTCTACCAGGTCATGAAGGAGCGTGACGCACTTTACGCCAAGGCCGACTTCAGTGAAGAAGACGGGGTCAAGGCGGCTGAACTGGAAACGGAATTTGCGGAACTGGACGGCTGGAACGCGGAAGCTGATGCTGCCCAGCTTCTCCAGTCCATGAGCATTCCGGAAGACATGCACCAAAAGCAGATGAGCGAGCTGGCGGAAAGCGACAAGGTTAAGGTCCTTTTGGCCCAGGCCCTTTTTGGCAACCCGGACATCCTTCTTTTGGACGAACCGACCAACGGTCTGGACGTGCACACCACGGCCTGGCTGGAAAACTTCCTGGCTGACTACGAAAACATCGTCCTGGTCGTTTCCCACGACCGTCACTTCCTGAACCAGGTCTGCACCCAGATGTGTGACGTTGACCGCGGGCAGATCAAGCTCTACGTCGGCAACTACGACTTCTGGTACGAATCAAGTAAGCTGGCTACGGAACTGGCCCGCCAGCAAAATGCCAAGAAGGAAGAACAGATCAAGCAGCTGCAGGAATTCATCGCCCGTTTCTCAGCCAACGCTTCCAAGTCCAAGCAGGCTACTTCTAGAAAGAAGCAGCTGGACAAGATCAGCTTGGACGACATCAAGCCATCCAGCCGCAAGTACCCGTACATCAAGTTTGAGATGAACCGGGACCTGGGCAACGACTTGCTGAGAGTGGACAATGTGTCCTACAAGTCCGGCGACGAGCAGCTTTTGGACAATGTTTCCTTTATCATCAGGCCAGGTGACAAGGTTGCCTTCTTGTCCAGAAACACCCGGGCAACCACGGCCTTGATGGAAATCATCGCCGGCCGCCTGGAACCAGACTCCGGGACTGTTACCTGGGGGCAGACGACTTCCTTTAACTACATGTCCAGAGATCTTAACGCCAACTTCGACAATGACGAATTGACGATTTTGGACTGGCTGCGCCAATACGCTGACAAGGAACACGACGACAACACCTTCCTGCGGGGCTTCTTGGGCAGAATGCTCTTCAGCGGCGACGAGATCAACAAGCAGATCAAGGTCCTGTCCGGGGGTGAAAAGGTCCGCTGCCAGCTGTCCAGAATGATGCTGGAAGCAGCCAACGTGCTGGTCATGGACGATCCAACCAACCACTTGGACCTGGAATCCATCACCGCCTTGAACGAAGCCATGGAAAACTACCCTGGCTCAATTCTCTTTACTTCCCACGACCACGAGTTCATCCAGACCATTGCCAACCACGTTATTGAAGTTGGTCCAAAGGGTGTGGTGGCCCGGGCCGACATCAGCTACGACGACTTCCTGGCCCAACCGACTGTTCAGGAACAAGTTGCAAAGATTTACTAA
>SRR1919932_01213 membrane protein
ATGAAAAAGTGTCCCAACTGTGGCCAGGCTCTGACTGGCCAGGAAAAGGCCTGCCCAAACTGTGGATTCAATGTGGAAAAATACCGCCGAGACTACTTTACGGAAGAAGCAGTAGAAGAAAATGTTGAAAGAAGAGAAGCTAAGCGGGAAGAAGCTGACCGGTCTTTAGAAAAAGAGCCAGTTGACAAGCTCAGCCGGTCCGCCTACCAGCAAAAGCAGGAACGGAATGCCTTTACCGGCAACTCAACCGCGGAAAAAATGCTCCAGTGGATGAGAGACAACACCACGATCGCCTTCTTGGTCGGCGTGGGTCTTTTGATCATCATGAGCTTCTCCCGGCCCCTGGGCTGGACGGCTTTTGCCGTCTCCATGGCTCTACTCATCTGGACCGGCCACCGGGACTCCCAGGGCGAATACACGGCTGACCGGAACTTGACTGAATATATCCGGAACGGGGCTTCTAAAATCTTCAATGCCTTTGACGACAAGGAAAGCAAAATTGAAGAGAAGAGTGAAGACTTCACCCAGGCCCACCCGAAATTTGAAGCCAAGGTGGAAAAGGCGAAAAAGAAGACCAAGAAGCCCCGGAACTTCGGCATCATCCAGCTCTCCATCCTCTTGACCAGTTTGATCACCCTGGTCCTGCTTTTCCTGGGGACAGGCTTCGTGACCTCCAGCAGCAAGCTGACCGTGGCCAGCGTTTTCTTTGAAGTCGCCAACCGGCAGATCGCGGCGGGTAAGATCGTTCCCGCCTTGATTCTCTACCTCTTCCTGGCCATCTTCCTGCTTTTGCCAGTCTTCATCATGCTGGCCGTCAGCCAGAATACCCGGGTCTCCCGGGTCCGGGCCTTTGCCTTGTCCCTGGTCGAAAGCCTGGTCTTGATCTACCTCTTTTACCAATTGGCCCAGACAACTAGCGCGGCCAGCTACTTAAGCCAGGCTGTTTCCAGCTTGAAGAGCTATGCCGTGGCCATCGGCATTTCCGGCTACCTCTTGATCCTGGTCAGTTGCCTAACCACGGTTTTGGCCGGTATCAACATGTTCCAGCCAATGGTCAAGCCCGGGCAAAATAGTGAAGAATAG
>SRR1919932_01214 membrane protein
TTGAAGAAGTTACTGAAGAACCATCTCGGCGCTTTGATCGCCTGGGTGCTCATTCTGGTGATTTCTTTGGTTGCCCTGCCAAACGTTGAATCACTGACGAGAGCGCACAGCGAAATCTCCCTGCCAAGCAACGTGGAAAGCGAAGCAGCCAAACTAATCAAGAACGAATGGGGCAGTAAGAAAAAGAATACTTATGAAGTCGCGGTTGTTTTCAACAAGAAATCCGGTAAGCTGACCGAGACCGACCAGGGCAACATCGAAGCCTCAATCGACCGCTTGACTAGCAACCAGAAGAAATACGGCATCAAGGACTACCTGGCGCCGCAAGACAACATCGCGACCAAGAAGCTGCTCAAGTCTAAAGACGGAACGACTTGGGTCATGCAGATGAACATCGCCAAGAGCCACGGGACCATCTCCCAGGTTAACGACGAGATCAACAAGGCTGTCAAGACCAGTGGGGTAAGAACCTACGTCACTGGTGCAGACGTCCTCAACAATGACTTTACCAGCTCGATCCGAGAAGGGATCAAGAAGACGGAACTGATCACGGTGGTTTTCATCTTCATCGTGTTGATCATCGTCTTCCAGTCACCGGTTGTCCCGCTCGTGTCACTTTTGACGGTTGGGGTTTCCTTCCTGGTTTCCTTCTCAATCGTGACCAACCTGGTCAACCAGGTGAACTTCCCGTTCTCCAACTTCACCCAGGTCTTCATGGTGATTGTTTTGTTCGGGATCGGGACCGACTACAACATTCTGCTATATAACCACTTTAAGGAGGACCTGGGCAATGGCCTGGGGGTGGCTGAAGCCACGAAGGACTCGATCAAGAAGGCCGGCCGGACTATTCTTTACTCCGGCTCCTCAATTCTGATCGGTTTCTCCGCTTTGGGCTTAGCCAACTTCTCAGTTTACCGGTCTGCTTCCGGCGTTGCTGTCGGCGTTCTGGTCCTCTTGATCGTCCTCTTGACTTTGAACCCCTTCTTCATGGCCACTTTGGGCAAGAAGATGTTCTGGCCAAGCAAGGAATTCGCCGGGGAAAACCCAAGCAAGATGTGGCATGGGATTTCCAGCGCTACTTTGAAGCGGCCCGTTGTCTTCTTGGCAGCTGTAGCGGTTGTCGTTACACCATTCTTCGTTACTTACTCTAACGTTTTGAACTACGACGACACGGCGGAAATTTCAGATTCAGTACCTTCTAAGCAAGGGCTGAACCTGGTGCAAAAGCACTTCTCTAAAGGGATGGCCATGCCGTCATACCTTTACATCAAGAGTGATCACACGCTCGACAATGAGAAGGACTTGAAGCTGATCGACGAATTGACGCGGAAATTGCGTAATTCTGAAGGCGTGGACAAGGTTATGTCCGCGACTGAGCCATACAACGAAAAGATCAAGCTGCTCTACGTTAAGAAGCAGCTGAAGTCAGTTACCGACGGTACCGCCAAGTTGGAAAAGGGTGTCGGCAAATTGACTAAGGGCAGCGAGCAGGTGACCAGCGGGGCCAAGAAACTGGCTAACGGGGCTGACCAGCTCGACGAAGGCACTGGCACTTTGAGTGACGGGGCCAAGGACCTGTACACGGGGACGGTTAAGCTTTACAACGGTTCAATCGCTCTCTACGACGGGGCAGGCACCCTCTTTAACGGGACCAAGACCTTGTCAGTTGGTGCAGACGCCCTTTACTCCGGCACTAGAAAGCTGTCCAGCGGGGCCAACACCTTGTCTGCTGGTACCCAGAAGCTGAAGAGCGGGACCAGCTCCCTGGCCAGTGGTTCAAAGACTCTGGCTAACGGGACCGGCTCTCTGGCAACTGGCGCAAACAGCCTGTACACTGGCACTCAGACCTTGACCAATGGCGCCAAGGACCTGACGGCCAACATGAACACCTTGGTTGCCGGCCTTGACCAGCTGAAGAGTGAACTGTCAGCCGAATCTGGTTCATTGGACACTAGCAAGCTTGACCAATTGTCATCAGGCTTGACCGCCTTGAACGAAGGCTTGCAAAGATTGAACAGCAAGGTCAGCCAAATCAGCGTGCCAAACATTGACACTTCCAAGATCTCCAGTCTGGTTAGTGGCTTGCAAAGTTTACAAGGCCAAGTCTCAAACTTGAAAAAAGGCTTGACTGATACACAGTCAGGTCTGACTACTGCTGGTACTGGCTTGGGAACTGCAAGTGCCGCAGCTGGCAGTCTGGCAAGCTCAATCAGCAAGGTTTCAGACCCAACTTTGAAGGCAGAACTGCAAAAGGAATTAGAAACCCTTAACAGTGGTCTGTCTTCTACCAAGAGTGGTTTGGGTACTGCAGGCAGCGGCTTGACTACTGCCGGTACTGCCGCAACCAACATGAATAGTGCCGCTTCCGGCATTCAAAGTGCCGCCGGCAGTCTGGGCAGCAGCACTTCTGCAGCTTCCACGGCCGACTTGAGCACGGAAGTTCAGCAATTGCAGGCAATTGTGTCCCAGCTTGCTTCGGGCTCCAATGATTTGAGTACTCAAGCAGCCAGTGGGATCAGTAGCTTGAAGTCTGGCTTGAGCAAGATTGGCGAGATGCAGTCGGGAGTTGACGCTCTTGCAGCTGGTGCTCACAAGCTTTACACAGGTTCAAATTCACTTTACAGTGGATTGAGCGAGGGTATGGCTGGTGCTTTAGCTCTTTCACAAGGTGCTAACCAAGTCAACTCTGGTGCTTCTGCTGTAGCCAGCGGCGCCAGTCAAGTCAACTCCGGCGCTGGCCAGGTTAACTCCGGTGCCGGCCAACTGGCTACTGGTTTGGCCAGCGGCGTCAGCGGAGCGGCTCAACTGGCTAACGGCGCAAGCCGCTTGACCAGCGGTGCCGGCCAACTCCAATCTGGTGCCAGCCAACTGCAAAACGGTCTGGCGCAAGGCGTCAACGGCTCCAGCCAACTGGCTGAAGGGGCTGACAAGCTGCAGTCCGGTACCAGCCAGCTTTCCAGCGGCGCAAGCAAGCTCGCTGAAAAGACGCCAGCCATCACCAGCGGCTTGACTGCCGTCAACAACGGTCTGGTTTCCGCCGGCTCATACTTGAACGGCCTGCGCAAGTCCAAGGCCTCTGACACCTTCTACGTGCCAAGCTACGTCTTGAAGCACAACGCCGACCTGCAGAAGTCCCTCATGGTCTTCCTCAGCCCGGACAAGAAGAGTGCTATGATCATCATCATCCTGGACAGCAACCCAAGTTCTGAAAGTGCCGCAAAGCACTCACAAGCTTTGAGCGCTATGGCCCGCAAGTCCCTCAAGGGGACCGACCTGGGCAAGGCTGAAGTCGAAATGGGCGGGCAAAGCTCAACCATCGAAGACACCAAGAACACGGCCAGCGGTGACTTTACCAGAACTATGGCAATCATGCTGATCGGTGTCGGCATTGCCTTGATCCTCGTCACCCGGAGTCTGCTTCAGCCGATCTACATCCTGGGGACTCTGCTTTTGGCCTACATCAGTTCTCTGTCAATCACCCGCTGGGTTGTCAGCGGCGTGATGGGCCGGAGCACCCTGGCTTGGAACGTGCCGTTCTTTACCTTCATCATGTTGATCGCCCTCGGGGTCGACTACAGCATCTTCGTCATGATGCGCTACCGTGACGGCGATCCGCATGCCTTGCCTAGCGCAAGAATCCTGAAGGCATGTACGGCTATCGGGACGGTTGTCATCTCAGCCGTCGTCATCCTGGGTGGTACTTTCGCGGCCTTGATCCCATCAGGCGTGCCAACCTTGATCGAAGTGGCCATCGGGGTCATCATCGGTCTGGCTATCCTGATCTTCCTGATGCCGATCAACCTGTCTGCTTCAACCAAGCTGACCTACGAAGGCTTCCCATGGCCTAAGTGGGCAGGCCGCAAGAAGGGCCTCAGCTTCGGCAAGAAGTCTTAA
>SRR1919932_01215 TetR family transcriptional regulator
ATGACTCAAAAAAGAACTTTGGACTTGGACAAGGTCCTGGCCAAAGCCACGGAAATGATTGAAAGCCGGGGCTTAAGCGAGATGACCATGCCAAATCTTGCCAAGGCTCTGGGCGTTCGCAGCCAGTCACTCTATCATTACGTGAAGAACCGCTCGCAACTTCTGTCGCTGGTCGCGGCCAGCCGGATCCGCCTGCTCTACCAGGACCTGCTCAAGCAGCTGGTCGGTTTGTCAGGCCACGAAGCATTGTTTAAGTTTGCTGACGTGGTCCGCGACCGCCTTTTGGAAGACCAGGCCCTGGCGACCCTCCTTTACCACGTGGATGAATTTTCTGATGATTTAGAAGTGGTTAAAGAGGTGGTCAAGATCCTGGACTTAGGGGACCAGCTGCAGGTGGACACTGAACACGTGGTTTCCCAGCACGCCTTGGTTGGCGCGGTCCTGGGCTACGTCTTCCTGGACCGGTTTATAGATGGCCAGGAAAAGGTGGAAAGTCCGCGAGAAGCAGAGGAGAACTATCACGAAATGATCTGGCGGCTGGTTTCGCCCAACGTCCAGCAGTCAAATGCCTAG
>SRR1919932_01216 hypothetical protein
ATGAAAATCTGGTGGTTCGCAAACTTTTACTGGTTCAGTTTACTGATTTATCTAAATGTTTTCATGTTCAATTTTCATTATGCTGACGGCAGCAGCATCAATCCTTTCGTAGTAACCTTCCTGCTGCTGGCTATCTGCATTATGGTCGGAGAATTCCAATTCGCCTGGTATATGTGGCTGGCTACGAAAACTTATAAACCACGTAAACGCAAGAAAACACAAAACGACTCTACTGTCTGGCTGTAG
>SRR1919932_01217 beta-lactamase class A
ATGAAGAACAATATTGTAGTCGGGGCTTTGATCGCCTCCCTACTGGCTTTTGTCGTGTACACCAGGACCAACAAGGATGCTGAAATGCGGAAAGTCACGGTGGTGCAGGTAAAGAAGTCCGGCAAGGTCAAAAAGATCATTTCTTCCACTGACAAGGAACCGAATGTCAATTCCATTGAATATGACAACCAGGTCAAGAGCAGCAAGGGCAGTGACAAGCAGTTGGTCAAGGCAATTAAGAAGGCTATGGGCCAGGACGTCAGCTACCAGGTGGCGGCTTATGACTTGAATAAGAGCAGCCATTTCGCGGAAGTGACCAACACCAAGAGCGGCCAGGATTCCCAGAAGATTTTTTACCTCTATCTTTTGATCGCCCTTTACGCCCAGGAAAAGTCCGGCAAGATCGGGGCCAGCACGACTATCAAGGTTACCAAGGCTGACAAGGCCGGGACAAGTACGGCGATCGCGGTCGGGATCAGCTATGGGCCAAGCTACTTGCGCGAGCAGATGCTGAAGGGCAACAAGACCGCGGCTAACGCGCTTTTGCGGACGATCGGGACTAAGCAGGTCAACAAGATCCTTAAGCAGCTGGGGGCCAGCCAGACTAAAGTAACGGGGACCTTCTCTAAATCCGTGGTCGGCAAGACGACAGCCAGTGACCTGGCCAAGATCATGGTTTCCATCTACCAGGGCAAGCTGGTCGGCAGCTACAACCAGCAGGTTCTGACTGCTATGACAGGGAAGACCAAGCTGGCCAGCAAGGCCAAGGGGACCATCTACCAGTATGCTGATGGCAGTTTAGAGGTCGCCTTGATCAGCAATAACGGCCACAATTACGTGGTTAGCGCCTGGTCCAGCAAGACTGATGACTTTGCTTCCTTGGGGCAAGCCGTTAAGCAAGTCATCGAAAAGTAA
>SRR1919932_01218 magnesium and cobalt transporter
ATGATTAAGCAACAAATTTTTCCAATTGAAACAGACTTTAACTGGTATGACGTCAATGGCTTGAACGAAGCTGACAGCCGGCGCCTGCAGACAGAGTTTTATTTTACACCGGAAATCATTTCCTACGTTTCCGACCGGCATGAACGGCCCCACTACGACTACGACCAATATACCGACACCCACCTGCTAGTCTATGACGTGCCAGTCTGGCCAACGACGACCATCAAGCACTTCACTTCCCGGCCAATCACTTTTTTGCTACAGGACAAGAACCTCTTTTCTTTCCATACGATTGAGACCAGCTATGTTTTTGACGAGTTCAATGATCCCAAGGTTTTGCGCCGGCTCTCACACGCCCAGGATGTGACGGAACTGCTGGTGACTTTTTTGATGTATGCTTCCCAGTACTTCCAGCGGGCCATCACCCAGCTGGATGCTGAACGCAACGACCTAGACGTCAAGCTGAGCGATGACATCGACAATAAGGACCTGGTGGAGTTGTCCAATATTGAAAAGAGTCTGGTCTACCTGTCCAGTTCAATTCAGACTGACCAGATGATGCTGCGCAGCCTGCAGCACTCCCGGCTGACTTTTTCCAAAGCGGCCAAGGAAATGCTGGACGACGTTTTGATTGAATCCAGCCAGTCTTCAGAAATGGTGCAGATTTCCCGGCAGGTTACCAAGACTTTGTCATCGACTTCCAACAACATGTTGAACAACAACCTGAATGACACCATGAAGTTCCTGACGGTCTGGTCCATCGTTTTGACCATCCCGACCATTTTGACTGGTTTTTACGGGATGAACGTGAAGCTGCCGGTTATCGGGGCCAGCTATGACTGGATAATCATTATTTTGATCACCGTCCTTTTGATGGTCTGGCTGATCTTCTTCATGCGTAAGCACCATCTTTTCTAA
>SRR1919932_01219 prolyl aminopeptidase
ATGCAAATCACAGAAAAATATCTTCCATTTGGAAATTGGCAAACCTACTGCCGGATCGTGGGCGAGGCTACTGACCGCGCCCCGCTCCTCCTCCTCCACGGCGGGCCCGGCAGCAGTCACAACTATTTTGAAGTCCTCGACCAAGTCGCTGAAAAAAGCGGCCGCCAGGTCATCATGTATGACCAATTAGGCTGCGGCAACTCCAGCATCCCCGACGACCAGGCGGAAACGGCCTACACGGCCCAAACCTGGGTCAAGGAGCTGGAAAATGTCATAGAGCAGCTGGGCCTTGACCAGATCCACCTTTTGGGGCAAAGCTGGGGCGGGATGCTGGCTTTGATCTACCTGTGCGACTACCAGCCTAAAGGGGTCAAGAGCCTAATCCTCTCCTCCACTTTAGCCTCCGCCAAGCTTTGGAGCCAGGAACTGCACCGCTTAATCAAGTACCTGCCAGAAGGCGAGCAGGCCGCTATCAAGGAAGCTGAAACAACTGGCAACTACGACTCCCCGGCCTACCAGGCGGCCAATGCCCACTTCATGGACCAGCACGCCATCAAGCTCACGCCGGACCTGCCGGAGCCAGTTTTGCGCAAAAAAAAGGGCGGCAGCCTGGCCTACTTGACCGGCTGGGGCCCTAATGAATATACGCCGATTGGCAACCTGCACGGCTATGAGTACACTGACCGCTTAAAGGACCTGGACTTGCCGGCCTTGATTACCAGCGGCACTGACGACTTGTGCACTCCCCTAGTGGCTAAAAGCATGTACGACCACTTGCCAAATGCCCGCTGGGAGCTCTTTGCCGGCTGCGGCCACATGCCTTTTGTCCAGGAAAATGCCAAGTATCAAGAGCTATTGTCTGACTGGTTAATCAGCCAGGACTAG
>SRR1919932_01220 GNAT family acetyltransferase
ATGACAGAAGTAAAAATTGTGCAAGTTAGTGAGAAAGATTTGCCAGAGTTGATTGCCATCAGCCGGGAAACTTTCGCGGATACTTTTGGCAAAGACAACAGCCCGGAAGATATGGCCAAGTTTTTGGACGAAAACTACAATGAAGACAAGCTTGGGGGAGAAATGGCAACTCCGGGCAGCTTCTTTTACTTCTTAAAAGCGGACGGGGAAGTTGCCGGCTACTTGAAGCTGGACGTTGACGACGCCCAAAACGAAGAGGTCGACCCAAACGGCCTGGAAATCGAGCGGATCTACCTGCGGAAAAGTTTCCAGCACCGGGGCCTGGGCAAGCAGCTCTTTGAGTTCGCGGAAGAAAAGGGCCGGGAATGGGGCAAGTCTGTCCTCTGGCTGGGTGTTTGGGAGCACAACGAAAACGCCAAGAACTTCTATGCCAGCCGCGGTTTGACCCGGTTCAGCGAGCATGTCTTCGTTCTTGGCGATGACCGTCAGACAGATTTTTTGTTAAAGAAGGCTCTGGTCTAG
>SRR1919932_01221 putative esterase
ATGGAAAAAGAGATGACCTTAATTAGCGCCAAGGGTAAGTTAAAAGGAATTTGGGGTGAAGCCGTCAACCCGATCGAAGGGATGACCCCCTTGGTAATTTTGGCTAAGACCGGTGACAAGGACCAGGCCTATTGGCTGAGCCGCTACTTAAACGACGCCGGCATCCTGACCTTCACCTTTGAAGCAGAAGATGCAGCCAGCGCCATCAGCGGCTACCACCTGGCCTTTGACGAACTTAGAAACGATGACCGGGTGGCCAGCGAATACATCGTCTTTGCCGGCTACGGGGAAGCGGGCAACGCTGCAGCTGTTGCGGCTAGTGAAATCGGCCGGTCAGTCCGGGGGATCTTTTTAATGTCACCAGTCATCAAGGACTGGAACAAGATCAAGGGCTACCAGGGCCGCAGCTACATTGTTGCCGGCAGCGATGACGACCAGGCGCCTTTGGCCAGCCTGGAAATGATGGCCAAGAAGCTGAAGCAGGGCGAACTTTTGCAAATGCGGGGCGCTGGCCACGACTACCGGGAAGAAGACTGGGAAAGAGCAGGGATGCTGCTCAGAACCTGGGTCTTGACTGGCCTTAACTAA
>SRR1919932_01222 dipeptidase
ATGCGCGACAACTGTACAACCATGCTGGTGGGCAAGAAGGCCAGCCTTGATGGGTTTACGATCGTGTCCAGAGACGAAGACTACGACCAGGGCTTTAACGAAAAGCGCTTTGTCTACTATCCAGCTAAAAATTATGACGAGCTCTTTGTCTCCAAAGGAACCGGCGTTGAAATTCCCTTAAAGGGAGAAGGCTGCGGCTTCACCGCCGTCCGCGACGCCGTAGAAGACTACGGCCGCTTTGACGAGCAGGGGATCAACAGCTACAACGTGGCCATGAGCGCAACGGAAAGCGAGGCCAGCAACCGCCGGGTCTTAGGCCATGATCCTTTTGTCAAAAACGGGATCGGGGAAGACTCCATGCTTTATTTGGTCCTGCCTTTCATCAAGACGGCCAGAGAAGGGGTTGAGCGCCTGGGCCGCCTGGTGGAACAATATGGTTCAAGCGAAAGCAACGGGATTGCTTTTGGCGATGAAAATGAAATCTGGTACATGGAAACCGGGGCCGGTCATCAGTGGGTTGCCCGCCGGGTGCCAGATGACAGCTATGTCGTGGCACCAAACATGATGATCATCGGGGAAATCGACTTTGATGACCCGGCCAACTACATGTATTCCACTAATCTCCGCCAGTTCGTCAAGGACCACCACTTGAATCCTTCTAAGAATGGCAGCTTTAATTTCCGGGAGATTTTTGCTCCAAGAGACCAGGACGACCTCCGCTATAACACTCCCCGGATGTGGTATGGGCAAAAGCTCTTTAACCCGGAAGTGGGTCAATCTATCGATGACTTGGACATGCCGTTTTGCCGGGTGCCGGCCAAGAAGATTGCCATCGAAGACGTGCAATTTTACTTGAGCAGCCACTACGAAAACACGGAATACGATTACTTGACCAAGGAAGAAAGCCCGGTTAAGAATGCCTACCGGCCAATTTCTGTCACGGTGTCGCAGGAATGCTCCATCATGCAGATCAGAAGTGACCGGCCAGAAGGCTACAAGGCCATCCAGTGGCTCTGCTTCGGCCTTTACGCGGCCGCGCCTTGGGTGCCTTTCTACACTAATATCAAGGACACCCCAGCCAATTACCAGATCAAGACCGGCCAGGCTGACCCAACTAATAGCGCCTACTGGCTCTACAAGTGCATCCAGGCCTTGCTGGAAGGTAAGCAGCAGGACTGGCAGAGAAAGCTCCGGGCCTTCCAGGCTGACTGCCAGAGCCTGGCGATCCAGCACGTCGACGAAACTGACCGGGCAGCTGAAAAGTTAAGCCAAACAGAATTAGCCGGCTTTTTGACAGAAGCCAATGATCAAATTGCCGCGGAGATTACGGCCAAGGGCAAAGACCTTTTCGACCAGCTGGTCAAGGACAATCTCAACAACTCGATTTACAAGTACCGGCCCTAA
>SRR1919932_01223 DNA-entry nuclease
ATGGCAAAAAAACGCAGGCGCAAGAAGCGCCAAAATACCAGCCTGCTGTCGGTCGCTATCGCCGCGGTGGCAATCATTTGGGGCGTCTACACCAAAGGCGGCCAGGAAAATTTAACTAGTTCCAGTTCCAGCAGCACGTCATCAAGCGCAGTCAGCTCGGCCCAAACGGCTAAAACCGTCTACGGGGGCTTAGCCAAGAGCGACTACCAGAAATTAGCCCAGGAGACTTTTAAATCCGGAGGCAAGGGCTGGCGCTATGTTAACAACAACCACTCCACCCTGGTGAAAAGCGCCTGGAAGGTCAATCGGGTTATCTACTCCAACCTGGACAGCCAGAACCGGACTTCCAGCTCCAACACCGCTTTTTTGGAGAAGCGGAACGTGGCTAACGACTCCTTAAGAGTAAGGCAGTACGTTCAGCCAACTGGCTGGCACTCCAACCGGCAAAACGGGACCCAGATCTACAACCGGGGCCACCTCATTGCCTACTCAGTTTCCGCCGGTATCGACCAGGACGGCAACTATAACCCCAAGAACCAGTCCGGTGACCAGAACAACCCTAAGAACCTTTTTACCCAGTCAGCCTTCTCCAACCAGAAGATCCAGACGATTTTTGAAAGCAAGGTCCGGTCAGCTTTAAGAAGCGGGAAAAAGGTCATCTACCAAGCAACGCCAATTTTTAAAGGCCGGGAACTCATGGCCCGGGGGATCAACCTCCAGGCAGTTTCCACCGACGGCAGCCTGGATTTCAACGTTTACATCTACAATGTGCAGCCGGGCTACCAGTTTGACTACGAAACCGGCCGGGCAAAGATCGACCGCGGCATGCAGGTCAGCGAATAG
>SRR1919932_01224 2,5-diketo-D-gluconic acid reductase
ATGGAAGAATTCAAGCTAAATGACGGAAGCCAGATTCCAAAGATCGGCTTTGGGACTTACAAGATCAAGGGCTACCAAGGAGTCCAAGCGATCAGCCAGGCAATTGAAAACGGCTACCGGCTCCTGGACTCAGCCGCCCGCTATGAAAACGAAGGGGCCCTGGGCAAGGCAATCAGAAGCAGCTCTGTTAAAAGAAGTCAGCTTTTCGTGACCTCAAAGTTGCCGGGAGCCCACCACGAATACAAGTCCGCGATTAACGAACTGGAAGAAGGGCTTTTAAGAAGCGGGCTGGACTATTTTGACCTCTACCTGATCCACTGGCCAAATCCTTTGGAAGACCGCTATGTAGAAGCCTGGCAGGCCTTGATCGACGCGCGAAGATTTGGCTTGGTCCGGTCGATTGGGGTATCGAATTTTGAACCAGGGCATATCGACCGCTTGATTAAGGAAACCGGGGTTACGCCAGCCGTCAACCAGGTAGAGCTGCATCCCTACTGGTCCAGCCGCGCCGTCCGGGCTTATGACAATGAGCATGGGATCGTTACGGAAGCCTGGAGTCCGCTCATGCGGGCCGGGGAAGTTTTCCAGGAAGATTTGATTCAAAAGCTGGCCGCCAAGTACGGTGAGAGCCCGGCTCAAGTAATTTTGCGCTGGGAAATCCAACTGGGGGTAGTACCAATTCCAAAGGCCTCCTCCAGCCAGCACCAGTTGAGCAATCTGGATATTTTTGACTTCACTTTAACTGAAGATGAAGTAACTGCCTTGACGGACTTGGACAAGGCAGATGGCCGCCGGCCCGACCGCGACCCTAACCAGCACCAGGAATTTTAA
>SRR1919932_01225 hypothetical protein
ATGAAGAAGCTTTTAACATGGCTGTTATTACTCTCAGCATCCTTGTTTTTCGCTCATCCGGTTAATGCGGATGCTGACACCACGGCTAATTCCGAAGTCTTTGCGTCTATCTACCGGCAAGGTGTAAGTAAAGGTATTCTTACTGAAAGTAACAGTTCCGAAGCAGAATTCGTAAAATACTGCAGTACAGAAGCATTTCCGATGTATCTGAAATACGTTGAAGTGGATCCCGGGACTTCTTTTGAACAATATGTCGCAGATGAAAACTATTTTGTTTCATGCAATCCGAATAATGATCATCCCGACACCATTTCTGCAGACAATTCACAAAGCAAAGGAAAGGGTTATTCCATCTTTTCATCATTTATCGCTGCAAAAAGTGGGTATAGCATGAAAGCCGGAGATATCTTAGTTTGTCACGGAACAGATAGTGCTGGTATCTTTGCCGGTCACGCTGCTTTTGCAACGTCAGCCAACTACATTTTAGAAATGCCGGGACCTAACCGAACTGTTGAACATCCCAGCAAGGAATCGTTTTTTAAAAAACATACTGGTAAAGGTAAGTACGTCGACGTATACCGCATCAAAAAGCATCCACACTATGCAGATGCAGCTTCCACCTACGCTTACCGTCATTTGTACAAAAATCCTAAAGATCGGCCAAAATACGGCTTTCAATCTGGCTTATATAGCATGAAGGATAGTTACTGCTCAAAATACGTTTACTACGCTTACTACAAAGTTTTACCAAAGGGCACACTTAAAACTTATAATAATTGGCATATCGTCCACCCATTTACTTTTGTCGGTAATTTCCAAGGTGACTTCAAAGCAAGTTATCTACATCAGATTACCAGTTGGAAGTGA
>SRR1919932_01226 hypothetical protein
ATGACAAAAACAGAAAAAGTTCTTTCAACAATTATTAAAGCGGTCAACTGCTTGATGTTTCTGATCGAGGCAGTTCTAATCTGGTTCATGGGAGCACACTCCGTTGGCTTTCAAACCGATTTCGAAAGCCTTACCATTGGTTGGGCTCTAATCATTGTGTCTATTGCCCTTTTGTTGGCTGCCATCCTAATCTGGACGAGCAAGTTTTCAGTCCTCTTCTGGATCACTGTAGTTGTCCTAGTTGCCGGATTCATTGCTTTAACCCTTTTACGGGTGATGACTGCAGGTTTAGCTTTCGATGTGCTTGGTTCAGCCATAATTCTTTTTATATTACGCTATGGCAAATTCACTAAGCCATATGCAGGACCTATTATGGTTGTTGCTATCAACTTAACCTACATCTATCTTTTATCCGTTCCTTATGACTGGTTCTTTAATTACTGGTTTACGAAGTAA
>SRR1919932_01227 transcriptional regulator/sugar kinase NagC
GTGAAGTACGCCTTGATGGATAATGAAGGGCAGCTGCTGGAAAAGGGGAAGCGGACAAGCGCGGACAATCTGGACGACTTTGTCGCCGCCCTGTATGAAGTCGGCGACCAGTACAAGGGCAAGTTTACCGGGATCGCGGTCTGCGCGCCAGGGAAGATCGACACGGAGAAAATGATCATCCACTATGGCGGGGCTTTGACCTTTTTGGACGGCTTAAACCTGGAAGAGACGCTGGGGTCCAGATACGGGGTAGCGGTTAGCGCGGAAAATGATGCAAAGGCGGCAGCCTTGTGCGAGCAGTGGCTGGGCGAACTCAAGGGAGTTGATATCGGAGCGGTGATGACTCTGGGCACTGGCGTTGGCGGCGGGATCGTCGTTGGCGGCAAGCTTCTGCACGGGAGCAGCTTCCAGGCTGGGGAACTTAGCTGGATGATCACGAACCAGGAAGCTGGGCTTAAGGAAATGGCTGCCTATACTGGTGCCCGCTGCTCAGCTGTCAGAATGGTGGAAAGGGTCAACCAGGAGCTGGGCAATGAAGACCTTGCTGACGGTTTGGCGGCTTTTGCAGCCATCAAGTCCGGCAATGAAGAGGCAGGCAAGATCTTCCGCCAGTACTGCTTGGATGTAGCCGTGATGATTTTGAACCTGCAGACCGTGATCAACGGGGAAAAGGTTGTGATCGGCGGCGGGATCAGCGCCCAGGAAATCTTGATCGAGGAGATCCGCCGACAGTTCGGGGAAATCTTGCAGGACAACCCGATTTTGGGCCAGCAGGTAATTCCGCCGGAAATCGTGGCGGCCAAGTTCAGAAATGATACCAACCTCTACGGTGCTCTCTTTGCCTTATTGCAGGGGATGCAAAAGTAG
>SRR1919932_01228 oxidoreductase
ATGGCAGAACCAAAATGGCTGCAGGACATGAACCCTGAAGAATACTTGAAGGAAGATTTTGAAGCAACTGGCCACAGCCGCTACACTGTTGACGGCTTGGAAAAGAACGACCCTGAATGGCTGGACAAGGCAGCTGCCAAGGTTAATGCTGCTGAAGGCGATGACTACGTTAAGCTGGACTCAGGTTTGCTGACGGTTAACCAAATCAACTGGATGCTCCGCAACACTTTCGGTGAAATGACTTACGTGGACGACAACAACCAATTCCTGTGGTACAACCGTCCGCAAGACCCTAACTACAAGATGAAGGCCGGCCGTGTGCCAGCCCAAGTCGGTAACACTATGGGCGCCGTTCACCCGGACATCCGTGACGTTATCCCAACTGCCAAGAAGGTTGTTCACGCCCTGCGGACCAAGGAAGGCGGCCATGACGAAGTTTGGATGCCAGTACCAACTGGTAACTTGACTGAACTCGTTTTGCACTACTACAAGAGAGTGGAAGACGAAGAAGGCAACTACATGGGTATCTACGAATGGGTTCAAGACATCTACCCATTCGTGAAGTACTTCTGCGAATCAACTGGCCAGAAGCTGGTTGTTGACCCAGACGCTGCAACTGGCGCAACTTACCGCCGCAACTCTGACCCAGACGCTAAGACTGGTCCTTCAACCAAGGCAGCTGCTGCCAAGGAAGAAGCAAAGCCAGCTGAACCAGAAGCAACTAGCGGTGCATCCCACCACTAA
>SRR1919932_01229 multidrug ABC transporter ATP-binding and permease protein
ATGTGTCTCAAATACGCACGGAAAAGCCAGGTAGCCCTGTTCAGCTTCCTGGCCGCCATCAAGGCCTGCAATGTTTTGTTCGTGGCCTACATGCTCAAGGTCATGCTGAACATTGCCTCTTCCGGCAAGGCTGATTACGGCCGCCTGGTCGGCTTCGCAGCCTTGACGGCCGGGGGCCAGCTTTTGTTCATGGCCAGCAATTTCTTCTATGAAACGACCAAAATGAACATCATCAGAAGCGTGAACATGACCTTGAAAGAGGCCAACCTCCGCTACCTGATCGACCAAAACAGCCTGGACACCAAGGACGGGCTGAGTTTCATGACCAACGACTTAAAGCAGATCGAAACCAACCGGGTCACGGCCCAGCTGGACATCATCTACCAAAGTTTGACCTTCGTGGGCTCTTTGGCCTTTGCTTTATATAACTCCTGGGAAATGACCCTGGTCTTTATCGTGGCGACTCTGGCTCCGGCCGGCGTGCAGATGATTACCAGCAAGATCATCACCAAGAAGTCCAAGATCTGGACCCAGAAGAACGCCGTCTACACCCAGTACGTGTCTGACAGCTTGAACGGGGCCCAGTCAGCCCGCCTCTACAACGTCCGCACTAATATCGTCAAGCGGGCGGTGGGTGCTGCCGGGGATATGGAAACGGCCCTTCGGAGCATGACCTTGACCCAGGCCTGGGCCCTGGAATTGATCTACTCAGCAGCGGAACTTTTCTGCTTCATCATTCCCTGCACGATCGGCGGGATCATGATGATGCAGGGGCGGCTGGCGGTTGGGACCCTGGTTATGATGGTCGACTTGGCCATCAACTTCATCAGCCCGGTGGTCACCTTGTTTAACGAATTCAACCAGGTCAAGTCAACCGTGCCGATGTGGCAGAGAACCCAGCGGGCCCTCAATTACGTGCAAAAAGACGACAATTACCCGGTCGACCACTTTGACGGCATGGAAATCCGGGACGTGGCCTACGTGACCAAGCACAGCAAGCGGCAGATTTTTGAACACGTGAACATCAAGATCAAGCCGGGGGAAAAGATCCTCTTGATGGCGCCGTCCGGCTGGGGGAAGACCACCCTCTTGCGCCTCATGCTGGGCATCTACACGCCAAGCCATGGTGAAATTTTAATCAACGGTGAAGAAGTGACGGGGGACTGGTACAAGGCCCACAACTTCTACTCCTACGTCAACCAGAAGCCTTTCATGTTTGACGACACCCTCCGCTTTAACGTGACTCTGGGCCGGCAGGTGGATGAAGAACAGCTGCTCATGGCCTGCCATGAAGCGGGCCTGGATGACCTGATCCAGGAAAACGGCCTGGACTACCCGGTCGGGGAGAACGGCAACAACCTCTCCGGCGGGCAGATCCAGCGGGTGGAAATTGCCCGGGCCCTCTTGTCTGGCCGGCCGATCCTGCTGGCTGACGAAGCCACCAGTGCCCTGGATCCCCGCCTGTCTTTGGAGATCCATGAGACTTTGCTGGGCAATCCGAAGGTAGCGGTGATCGAAGTCGCCCACAAGATTTCGGACGTGGAAAAGGCCATGTTCGACCAGATTATTGTTTTAGACAAAGTTAAGCCAGCCTAA
>SRR1919932_01230 hypothetical protein
ATGAAATTAGTTGAACTGCATACCAAAGCCGACCAATTATCCGGCAGCTACTATCTGGGCTACCTGGTCTACCAAAGCGCGGACGCGGCCACCCTCATCAGCCTGGACGACGACGCCAATGCCGGCGGGGTCTTGGTCATCAATAACCAGGACATCCTGACCAGCGTCGACGAATCCCCCAGCCTGGCCTACTGCCAGCACCTGATCGATGAAGGCAAGTCGACCGACCCCTTCGCCCTCATGCCCCTCAACCAGGAGCTCCTGAAGACGCCTTTGACCAGCCTTAGCGCGGCCAGCCAAGCCGCACTGGAGAAGGACCTGGTCGTCAATATCACCTTAACCAGCGGGATCGTCTACACCGGCATCATCGCCTTAGCCGGTCCAACCGAAATCCAGCTGAAGCAGATCGGGGACGACTACGAGCTGGACCCTCTCTGCCTGGTCATCCCCCTGTCTGCCATCTCCAGCCTGGAATTAAACGCTCCTTTAAACAAGCTCTGGAAAAAGTACCAGGCGGTTAAAGAGCAGTTTGCCGGCCAGAATCCCTACGGCTTAGTTGAACTTTACCTGGACTGGCTGGATGACGCCCGCTTTGGCAGCTGCCTTTTGGGCCTGGTCCTGGACCAAAGTGACCAGTTCCTGCTTTTTGAAAGCTTGAATGACTATGGGCAATTAGAATCCATCTGCCTGGTCAACAGAGAAGACGTGGTTCATGAATCAGTAAATTCCGCGGCTATCGACTTCTCCAGCTTCCTGGTCGCCTACAACCAGAAAAATGAAATTTTTGATCCGGGCCACTTGGGCAAATTAGCCCAGTCCTTAGACCATGTCCCAACTGTCCGGGAAGTGATTGAAAAAGCCGGAAAGCAACTGGTCAGCGTTGACGACTATGAATTAGCCGGGGAAAACCTGGGCTACGTGACCGCGGTAGACGAAGCAGGCTTCACCATTGAGGACCCGGAAAGCGGGCAGGAAGTCAGCCACCTTTTTGAAAACGTCTGTGCCTTGGACTTGGCCAGCACCGAACTGGAAAAAATGCGGGAATTCCTGGCAGCCCAAAACCAGTAG
>SRR1919932_01231 prolyl aminopeptidase
ATGAAACAAGGAACGACGATTTTGACTTTGGACAATGGCTACCATCTTTGGACCAACACCCAAGGGACAGGTGACATCCACCTGCTCTGCCTGCACGGGGGCCCGGGCGGCAACCACGAATACTGGGAAGATACGGCTGAACAATTAAAGAAGCAGGGCTTGAACGTCCAGGTCCACATGTACGACCAGCTGGGCTCCCTTTACTCTGACCAGCCGGACTACAGCGACCCAAAGATCGCGGACAAGTACCTGACTTACGAATACTTCCTGGACGAAGTTGAAGAAGTCCGGCAAAAGCTGGGCATCGATAACTTCTACTTGATCGGGCAAAGCTGGGGCGGCCTTTTGGTCCAGGAATACGCGGTTAAGTACGGAGACCACTTGAAGGGGGCCATCATCTCCTCCATGGTTGACGACATCGACGAATACGTGGCCGCGGTCAACCGCCGCCGGCAAGAAGTCCTGCCGCAGACCGAAATCGACTTCATGCACGAATGCGAAGCCAAGAACGATTACGCCAACCAGCGCTACCAGGACGACGTGCAGATTCTGAACATCAACTTTGTTGACCGCAAGCAGCCTTCCAAGCTCTACCACCTGGGCAACTTGGGCGGCACGGCCGTCTACAACGCCTTCCAGGGCGACAATGAATTCGTCATCACGGGCAAATTGAAGGACTGGCACTTCAGAAGCGAACTGCCAAAGATCAAGGTGCCAACCTTGCTGACTTTTGGCGAAGTGGAAACCATGCCTCTGGAAACGGCCAGAACCATGCAGAAACTGATTCCTAACTCCCGCCTGGTCACTACTCCTGACGGCGGCCACCACCACATGGTCGACAACCCCGATGTCTACTACAAGCACCTGGCTGACTTCATTAGGGAAGTTGAAGCCGGCACTTTCCAAGGCGAATAA
>SRR1919932_01232 esterase
ATGGCATCAACATTAGACTATCTGCGCTGGCGAGGCGATCTGCCTTTTCAAGCTTTCCCTTTCAACAGCCTGGATGCTTCCTTAATGGCATCCCTGGCCTACCTTCCCTTTGACGGCAGTACGGTTGGCCACAGCCTAGGCGAGGTCTGTCAGTCCATCTACCAACGTGAGCCTGACCGCTGGCAAAATCTGGACAAAACTGAACTCCTGCTCTTGCCTAAGTCTCCCCGTCTGGCTGACTTGACCGTTCTGGACTGGGTCAACAAGATGGAGATTGAGCCTGAACCCATCCAGTTCAACGCTGGCGCCTTCCGCCTGGACGATCGGACCATCCTGGTCGCCTACCGGGGCACCGACCAGTCCATGATCGGCTGGAGCGAGGACATGGTCATGAATTATACACCGGAAATTACCGGACATAGGCTGGCCGCTAAGTATCTTAACCAGATCGGCCAAGCTTACCCAAATGACCGGATCTATATCACCGGCCACTCCAAGGGGGGCAACTACGCCCACTACGCTTTGGCCTTTGCTGATCCGCAGATTCAAGCCCGGGTCATCAAGTCATACAGCTTTGACGGACCTGGCTACCGGCACCAAATTTACGGAACCAGCGGCTTCCAAGACAATATCAAAAAGATGAAGACCTACATCCCGGAAAGCTCCATTGTCGGCTGCATGCTGGACCATACTGAGCGCGTCTTGGTCGTCAAGTGCAACCAACCAGTCCTCAGCCAGCACGACCCAAGAACCTGGAGCGTTGGCCGGGATAGCTATGTTTTGGCGCAAGAGGGCCTCACGGCTACAGCCCGGGTGATCCGCCACTCCCTGATCGCCTTCAACCACCAAATTCCCGCGGAAAAAAGAGAGCAGATGTGGTCCGCCCTTTTTGAGGCTTTTGGCAGCCTGGACATCACTAAGATCAAACAGATCAGTGGTTTTACCGGCACCTACCGCTTTGGCCGGGCATACTTTGCCATGGATCCGGAAATGCGGGCTATCTTCAGGCAGATTTTTAACAACATCATTGAAACGGCCCGGCAGAGCCTTACCCTGCCCTTCAACAGGAGCGATGATCCTTACAAGAACCGGCCGAATTTCAATGACTCAAAGAAAGGGCCAATCTTCTTTGATGCCTACGACATCAAGCAAGAATAA
>SRR1919932_01233 replicative DNA helicase
ATGGATAATCTTGTCACGCAGCAGATCCCGCATGATTCTGCTGCTGAAAAAGCCGTTTTAGGGGCGATTTTCATTGATCCCGAAGTCATCAACGAAGTCAGCTCGGTCTTAGAGCCGGCTGACTTTTATGAACATGCCAACCGCCTGGTCTATAGCGCCCTTTTGGCCCTCTATGACGAGAGCAGGTCAATCGACCTGGTTACCTTGCAAGAGGAGCTCAAGCGGCGGGGACAATTGGAAGAACTGGGCGACATGGCCTACGTGTCAGAGCTTTTGCTGGCAACGCCAACTGCCTTTCACGCCAAGGACTATGCCCGCATCGTCCACCAGAAGGCCCAGCTGCGCAACTTGATCAATGCCAGCCAGAAGATCATCTCCAGTGCCATTCAAGGGTCCGACAGCGTGGATGAGATCCTCAGCAACGCTGAAAATGAGATCATGAACGTCTCCAATGAAAAGGGGAGCGGGGGATTTCATAAGATTGAGGACCTGGTTGCCGGAGCCTTTGAGCAGATTTCAAATAATGCCCAGAATCAGGACGCGGTCACGGGTTTACGGACGGGTTTTGCCTATCTGGACGAGATGACGACGGGGCTGCATGATGACGAATTGATCATTTTGGCGGCCCGGCCGGGTGTCGGTAAGACCTCTTTTGCCATGAACATCGCCAAGAATGTGGGCATTACTGAGAAGAAGCCGGTAGCGGTCTTCTCCCTGGAAATGTCTGGTGAGCAGCTGGTCCAGCGGATGCTGGCGTCAACGGGCTTGATCGACTCCCAGCACCTCAGAACGGGGATTCTGGACAGGGATGAGTGGAACCAGCTGGACATGGCAGCAAGTGTCTTGCGGCAGGCTCCGATCTATATCGATGACACGCCGGGGATCAAGATCAGCGAAATCCGGGCCGAGTGCCTGGCCCTGCAAAAGGAGCTGGGCGACCTGGGCTTGGTCGTAATCGACTACCTTCAGCTGATTGAAGGGCCAAAGACTGAGTCCCGCCAGCAGGAAGTTTCCGCGATCTCCCGCCAGCTCAAGAAGATGGCCAAGGAATTGCACGTGCCGGTAATTTCCCTGTCGCAGTTGTCGCGGTCAGTTGAGCAGCGGCAGGACAAGCGGCCAATTTTGTCAGACTTGCGGGAATCCGGGTCAATCGAACAGGACGCCGACATCGTTGGCTTCCTCTACCGGGACGATTACTACCGGGATGAGGATGCTGACGGCGAGGAACCGAAGGAAGATCCGGAAAACGTTGAAGTTGAAGTTATTATTGAAAAGAACCGGTCAGGCCGGCGGGGATCAGCCAAGCTGATGTTCTCCAAGCCTTACAACCGCTTCTCTAACCTGGACCCAGGCCATGAGGCCCAGGGGTAG
>SRR1919932_01234 50S ribosomal protein L9
ATGAAAGTTATTTTTATGCAAGACGTTAAGGGCAGAGGCAAGCGGGGCCAGGTCAAGGACGTGCCGGACGGCTACGCCCAAAACTACCTGATCAAGCGGGGCCTGGCCAAGGAAGCCAACAAGGGCAACCTGAACACCCTGAAGCGGGTGGAAGCCAATGAAAAGGCTGAATACGAAGCTCAAAAGGCAGCTGCCCAAGAGATCAAGAAGCAGCTGGAAGCTGACGAAACTGTGGTTGAACTGAAGTCCAAGGCCGGCAGCGACTCCCGCCTCTTCGGTTCAATCTCCAGCAAGAAGATCATCGAAGGCCTGGACAAGCAGTTCGGCATCAAGCTGGACAAGCACAAGCTGGAACTGCGGGAACCAATCAAGGTTTTGGGCTACACTAATGTGCCAGTCAAGCTCTTCAAGGGCGTTGAATCAAAGGTCCGGGTCCACGTTACCCAAGAAAATTAG
>SRR1919932_01235 DHH family phosphoesterase
ATGAAAAACTTTTTACGCAAACTTGAATTGCCAGAATTCGTCCGGGATTCCAGATTAATCATTGCCTTCTCCAGCATCGCCTTCTTGACGGTGCTGAGCACGGTTGTGGCTTTCTTCATCAACCGGATCTTCGGGGTGGCGCTTTTGCTGGTCCTGATCGTGGATGTCTTTTGGGTCGTTTTCGGCGTTTACATTCTCGCGAAAAATACCAACAATTACGCGGCCAACCTTTCCTACCGGATTAAACGGGGGGAGCAGGAGGCCATGATCAAGATGCCGCTGGGGATCCTCCTTTACGACGAGTCCCGGCACATCCAATGGGTCAACCCTTACTTGCAGCTCTATCTGGGCGACAAGGACGCCATCGGCAAGACGATTACGGCGGTCGACCGAAAACTGGGCAAGCTGGTTGAAGAAGCCCTTGAGGCCCAGACTTCGGAAAGCAAGGTGGTCAAGTGGGGGGATCACCAATTTGAAATGGTTGTCCAAGACAGCATCGGGGTCATCTACCTGCTCGACATTACCCGTTATGCCGACCTGGCCGACAAGTACCGGGCTGAGCGCCTGGCTATCGGGCAGATTTTTGTCGACAACTACGACGAGCTCAGCGAGCGGATGCACGACCAGGAACTGGCTAGAACCAGCACCTACCTGCAGACGACCTTGAACGACTATGCCAAGAAGTTCAAGGCCTACTTGAAGCGGATTGATGAGGACCACTTTTTGCTTCTGGCCCACTTGCAGGACCTGGAAGCCATGGAAGAAGATAAGTTCTCAGTTTTGGACAAGATCCGCCTGGAAACCAGCCGGAACAACACTCCTTTGACCTTGTCGGTCGGGATTGCCTACGGGGGCGAGTCGCTGAGAAAGATCGCCAACCAGGCCCAGGCCAACTTGGACCTGGCCCTTGGCCGGGGCGGGGACCAGGTGGTCCTCAGGGAACTGGGCCAGGTAGCCCGCTTCTACGGGGGCAAGTCCAACCCAATGGAGAAGCGCACCCGGGTCCGGGCCAGAATGGTTTCCCAGGCCTTGGGCGAGCTCTTCAAGGATGTTGACCAGGTCTTCGTCCAGGGGCACCAGCGGCCCGATATGGACTCTGTCGGCAGCGGGATCGGGGTTGTCAAGATCGCCCGCCTGCACGGGGTCAAGGCCCACTTTTTGCTAGACACGGCCCACTGCAACTATGACGTTGACCGCCTGGTCAAGAAGATGCAAGCGGCAGACCCCCAGCTGGACCTTTTTGTTAGTCCGGATGAGGCCAACGCGGTCGCGACGGACAACTCCCTTTTGGTCATGGTGGACCACTCCAAGTACTCCATCACTTATGACCAGCGCCTCTATGACCGCTTGAGGAACCGGATCGTGGTGATCGACCACCACCGGCGGGGGGAAGAATTCCCGGAGAACCCGATGCTGACTTATGTGGAGCCATATGCTTCCTCAGCCAGCGAACTGGTGACGGAAATGGTCGAATACCAGCAGCCGGCTGAAGACAACCGGGTTTTGACCAACCTGGAAGCCACGGCCATGCTGGCCGGGATCACGGTCGACACCAAGGAATTCTCCTTGCGCACGGGGACGAGAACCTTTGACGCGGCCAGCTACCTGCGGTCGATCGGGGCGGACTCCTCGGTGGTCAGTGAGCTTTTGAAGGAAGACATTTCCAGCTTCCTGGTCAAGAGCCACCTGGTGGCCAGCCTGCAGATGCTGCGGCCGAAGATGGCGGTCATGCAGGGGCCGGAGGACAAGGTGATCGACCCGATCTTGACGGCCCAGGCAGCCGATATGGCGCTTGATTTGGAAGGGGTGTCGGCATCTTTTGCCATCACCAGAAGAAGCGGGGACAAGGTCGGGATTTCAGCCCGGTCGATGGGCAACATTAACGTCCAGGTGATTATGGAGAAGCTGGGCGGGGGCGGCCACTTGTCCAACGCGGCGACCCAGATCAAGGATATTACGGTCAAAGAAGCCAGTCAGCGCTTGCTGGCGGCAATTGACGAATATCTGGAAGAAAACAGTTAA
>SRR1919932_01236 30S ribosomal protein S18
ATGCCTCAACAAAGAAGAGGTGGTCGTCGTCGCCGCAAGGTTGACTTCATCGCAGCCAACCACATCGACTACGTAGACTACAAGGATGTTGATCTGTTGAAACGTTTTATCTCAGAAAGAGGTAAAATCTTGCCACGTCGTGTCACTGGTACTAGCGCTAAGAACCAACGCAAGGTTGCTAACGCTATCAAGAGAGCCCGGATTATGGGCCTCTTGCCATTCGTAGCTGAAGACTAA
>SRR1919932_01237 single-stranded DNA-binding protein
ATGATCAATAACGTTGTACTTGTTGGCCGTTTAACACGTGATCCTGAATTACGTACTACTGGGAGCGGCATCTCGGTTGCTACGTTCACTTTAGCCGTTGACCGGCAGTTTACCAATGCATCAGGCCAGAGAGAAGCGGACTTCATCAGCTGCGTGATTTGGCGCAAGGCTGCGGAGAACTTCTGCAACTTCACCAGCAAGGGCAGTTTGGTGGGCATCCAGGGCCGAATCCAGACCAGAAACTATGATAACAAGGACGGCCAGCGAGTTTACGTGACAGAAGTCCTCGTGGACAACTTCTCACTGCTCGAATCACGCCGCGAGCGTGAAAGCCGTCAGCAAAACGGCGGATTTGGCGGCCAAGGTCAAAGCCAAAACACCGGCTTCAACACCGGATTTGGCGGCGACAGCGGCTACGCCAACAACAACGCCTTCGGCAGCCCGGCCCAGTCAAACGGGCCAGCTAATGCCGGATTCAATGAAGATAACAAGAAAGATGCCGGCGGAGACACGAACACCAACCCGTTCGACAGCTCTGACGATGCAATCAACGTCTCAAATGACGATCTTCCATTTTAA
>SRR1919932_01238 30S ribosomal protein S6
ATGACAACCAAGTACGAAATTACTTACATCATCAAGCCAGACGTTGACGATGAAGCAAAGAAGGCCATTATTGACAAGTACACTAAGGTGATCGCTGACAATGGTGGTGAAATGGTTGAAGCTAAGGACTGGGGCAAGCGTCGTTTCGCATACGAAATCGAAAAGTATCGTGAAGGTAGTTACTACATCATGACCTTCACTGCTGAAGACGCTGCAGCTGTCAACGAATTTGCCCGTTTGAGCAAGATTGACGACTCAGTTCTGCGTTCAATGACTGTCAAGTTAGACAAGTAA
>SRR1919932_01239 DNA gyrase subunit A
ATGGATAACGAAAATCAAGGACAAGACCGGCGGATCAGAAATGTCGATCTGACGCAAACGATGCGGAGCTCCTTCTTGGACTACGCCATGTCCGTCATCGTGGCCCGGGCTTTGCCAGATGTCCGCGACGGCTTGAAGCCGGTTCAGCGGCGGATCCTGTACGGGATGAACGAGCTGGCCGTGACTCCGGACAAGCCTTACAAGAAGAGTGCCAGAATCGTCGGGGACGTCATGGGTAAGTACCACCCGCACGGCGACTCCTCCATCTACCTGGCCATGGCCCACATGGCCCAGGACTTTGCCTACCGCTACATGCTGGTAGACGGGCACGGTAACTTCGGTTCCGTCGACGGCGACCGGCCGGCCGCCATGCGTTATACTGAAGCCAGAATGAGCAAGATTGCCGTGGAAATGCTCCGCGACATCAACAAGAATACGGTTGACTGGCAGAGAAACTACGACGACACGGAAAATGAACCGACCGTCCTGCCAGCCAGAATTCCTAACCTCCTGGTCAACGGTTCCAGCGGTATCGCGGTCGGGATGACTACCAACATTCCGCCGCACAACCTGTCTGAAGTCATTTCCGGCATTCACATGCTGATGAAGAACCCGGACGTGACGACCAAGGAACTGATGAAGGCCATCCCAGGGCCGGACTTCCCAACCGGCGGGATCTTGATGGGCCGGGGCGGGGTCCTGCACGCTTATGAAAGCGGCAAGGGCAACATCGTCGTCCGGGCCAAGACCGAAATCGAAACTGAAAAGAGCGGGCGGGAAAGAATCATCGTCAGCGAGATTCCTTACCTGGTCAACAAGGCCGAACTGGTCCAGAAGATCGCTGAACTGGCCCGCGACAAGGTGATCGACGGCATTACCGGGGTGCGGGATGAATCCGACCAGAGCGGGATGCGGATCACGATTGACGTGCGCCGGGATGCCAGCGCCAGCGTGGTTTTGAATAACCTCTTCAAGGAAACTCAGATGCAGTCCAACTTCGCCATGAACATGGTGGCGATCGTGGACGGGGCACCGAAGTTCCTGACCTTGAAGCAGATGCTGCAGTACTACCTGGCTCACCAGGAAGACGTCATCACCCGCCGGACCAAGTTTGACTTGGAAAAGGCTGAAGCCAGAGCCCACATCCTGGAAGGTTTGCGGATAGCGCTGGATCATATCGACGAAATCGTCAGCTTGATCCGGAACTCTGAATCAAGCGACATCGCCAAGGCGGGCTTGATCAGCCGCTTTGACCTGGACGACCGCCAGGCCCAGGCTATCCTGGACATGCGTCTGGTCCGCCTGACCGGTTTGGAAAGAGACAAGGTCGAAGGCGAATACCAGGAGCTTTTGGTCAAGATTGCCGACTACAAGGACATTCTGGCCAAGCCTGAAAGAATTGACCAGATTATCTACGACGAGCTGCTGGACATCCAGAAGCGCTTCGGTGACAAGCGCCGGACCCAGATTACGGCCAGCGAAGTGGTCACGATCGAAGACGAAGACTTGATCGAAGAACAAGACGTCCTGTTGACTTTGAGCCACCAGGGCTATGTCAAGCGGATGCTGATCGACGACTTCAAGACCCAAAACCGCGGCGGCAGGGGGATCAAGGGGATGGGCGTCCAAAAGGGCGACTTCATCGAGCACCTGCTCTACTCAAGTACCCACGACTACCTCTTCTTCTACACCAACAAGGGCAAGGTCTACATGAAGAAGGCCTACGAAATCCCAGAATACGGCAGAAGCGCCAAGGGGCTGCCAATCGTCAACCTCCTGCAGCTGGACAAGGGCGAGCACATCCAGACCGTGGTCAACCTGCCGCAAGGGCATGACGACGACTACGCCTTCTTCATCACCAAGCTGGGGACGGTCAAGCGAACCAAGATCCGAGAATTTGAAAATATCCGGACCAACGGTTTGATCGCCTTGACCTTGAAGGATGGCGACGAACTATCCAACGTCCTGACCACTGACGGCCAGCAGAACATCTTGATCGCTACCCACCAGGGCTACGCCGTGACCTTCAATGAAGATGACGTCCGGGCCATGGGGAGAAGCGCGGCCGGCGTCCGGGGGATCAACCTCCGCGAAGGCGACTACGTGGTTGGCTCCGGGATCTTGAAGCCGGAAGACGAAGTTCTGACTATCTCGGAAAAGGGCTACGGCAAGCGGACCGCGGCTAGCGAATACCCGGTCAAGGGCCGGGGCGGCAAGGGGATCCAGACCGCCAAGATCGGCGAAAAGAACGGTCCTCTGGCTGGCGTGGCCGTGGTTGACGGGCAAAGCGACATCATGCTGATCACCACTGACGGGATCATGATCCGCTTCAAGACCAGCGATGTCTCCCAGACTGGCCGGTCAACTATGGGCGTCCGCCTGATCAAGGTGGCTGACGGCAATGCCGTGGCAAGCATGGCAGTCGTGCCGGCTGAAGCTGAAGGCGAAAGCGAGCCGGAAACGGAAGTTTAG
>SRR1919932_01240 DNA gyrase subunit B
ATGGCAGACGAAGATAACAAATTGAAGAAGGCCAAGCAGTTTGAACGAGAAGCTGACAAGTACAATGCCAGCCAGATTCAAGTCCTTGGCGGCCTGGAAGCCGTACGCAAGCGCCCGGGGATGTACATTGGCTCAACCAGCTCCCAGGGCTTGCACCACCTGGTCTGGGAAATTATCGACAACGGGATCGACGAAGCCCTGGCTGGTTTCGCGACCAAGATCGAAGTCACCGTCAACGAAGACAACAGCGTGACTGTCCAAGACGACGGGCGGGGGATCCCGGTCGACATCGAAAAGAAGACCGGCCGGCCAGCCGTTGAAACTGTTTATACGGTTCTGCACGCCGGTGGTAAGTTCGGCGGTGGCGGATACAAGGTTTCCGGCGGTCTGCACGGGGTCGGGGCTTCCGTTGTCAACGCCCTGTCCACCAAGCTGAACGTCACTGTCATGCGGGATGGCAAGAAGTACCACATCGCCTTTGACCACGGCCGGGTCGTTGAAGAGCTGAAGGAAGTCGGCACAGTGCCTTTGACTGAACACGGGACCATCGTCCACTTCTGGCCGGACCCGAACATCTTCACGGAAACCACGGTTTTTGACGACAAGATCTTGAAGAACCGGATCCGGGAACTGGCCTTCTTGAACAAGGGGCTGAAGCTGACCTTCACTGACAAGCGGAAGGACACGGCGGAAACCGACGTCTACCACTTCGAAGGCGGGATCAAGGAATACGTCTCCTTCCTCAACCGGGGCCAGGAGGTACTTTTTGACGAGCCAATCTACGTGGAAGGCAAGTACGAGGGCATTGACGTTGAAGTATCTTTGCAGTACACGACCGGCTACAAGACAACCTTGATGACTTTTGCCAACAACATCCACACTTATGAAGGCGGGATGCACGAGGCGGGCTTCAAGACGGCCTTGACCCGGGTGGTCAACGACTACGCCCACAAGGCCAAGATCTTGAAGGAAAACGACGACAACCTGTCCGGGGAAGACATCCGGGAAGGGATGACGGCCGTGATTTCCGTCAAGCACCCGAACCCGCAGTTTGAAGGGCAGACCAAGACTAAGCTGGGCAACTCCGACGCCAGAACTGCCGTTGACCGCGCCTTCTCAGAAACCTTCTCCACTTTCTTGATGGAAAACCCGCAGGTGGCCCGCAAGATCGTGGAAAAAGGGCAACTGGCTGAAAGAGCCAGAGTTGCCGCCAAGCGCGCCCGGGAAGTTACCCGGAAGAAGTCCGGCCTGGAAATCGCCAACCTGCCAGGCAAATTGGCCGACAACACTTCAAATGACCCGAACATCTCAGAACTCTTCATCGTCGAAGGGGACTCCGCCGGCGGCAGCGCCAAGCAAGGGCGGAGCCGGCTGACCCAGGCCATCCTGCCCATCCGGGGGAAGATCCTGAACGTGGAAAAGGCCTCAATGGACCGGATCCTGGCCAACCAGGAAATCCGGACTCTGTTTACGGCCCTGGGGACCGGCTTTGGGGCAGACTTTGACGTCTCCAAGGCCCGCTATCACAAGCTGATCATCATGACTGACGCCGACGTCGACGGGGCCCACATCCGGACCCTGCTCTTGACCCTCTTCTACCGCTACATGCGGCCGATGATCGACAAGGGCTATGTTTACATCGCCCGTCCGCCTCTGTACCAAGTGCGCCAGGGCAAGCTGATCAAGTACCTGGACACTGATGAAGAACTCCACGACTACCTGGGGTCATTGCAACCAAGCCCGAAGCCAATCGTGCAGCGCTACAAGGGGCTGGGGGAAATGGACGCTGAGCAATTGTGGGAGACGACCATGGACCCTGAAAACCGCCGCCTGGACCGGGTGGACCCGGGATACGCCAAGGACGCGGATGAAGTCTTTGAAATGCTGATGGGCAACGAAGTTGGCCCGCGGCGCAAGTTCATCGAAGACAATGCCCAATATGTTGAAAACTTGGATGCTTAA
>SRR1919932_01241 DNA replication and repair protein RecF
ATGTACCTGGGCCGGTTTAAGCAGAGCGGTTTCCGCAACCTGGCTCTCCTTGACCTGGAATTTGACCCACACGTGAACGTTTTTCTGGGTGAAAATGCCCAGGGCAAGACCAATCTGCTGGAAGCAATCTACTTTCTGGCCCTTAGCCGGTCCCACCGGACCAGCAATGACCGGGAGATGATTGCCTTCGGCCAGGACTTTGCCAGCCTGGCTGGCCGGGTGCACAAGCGCCAGCTGGACCTTGACCTGCGCATCGTCATCAGCAAGAAGGGCAAGAGCGCCTGGGTCAACCGGGTCGAGCAGGCCCGGCTGTCCAAGTATGTGGGCCACCTTAACGCCATCCTCTTTTCTCCGGAAGATCTGGAATTGGTGAAGGGGGCCCCTTCTTTGCGCCGGCGCTTCATGGACCTGGAATTCGGCCAGATCAATCCGGAATATCTCTATTTCGCCAGCCAGTACCGGCAGCTGCTCCAGCAGAGAAACAACTATCTCAAGCAGCTGGCCCGCCGGCAGGCCAGTGACCAGGTCCTGCTCGGGGTCTTAACTGAGCAGGTGGCCACGGCGGCCAGTGAACTGATCTGGCGGCGCTACCGCTATTTGGCTGACCTCAACCGCTACGCGGCCGAGGCCTACCGGGCCATCAGCGGGCAAAGAGAAGAGCTGCGGGTCCTTTACCGGCCTTCAGCCAAGGAGATTACGGCTGCAGACCAGCCGGCCCAGATCAAGCAGAAGCTGCTGGACCGCTTTGCGGAGATCGCTGACGATGAGCTCAGACGGGCCACGACCCAGCTGGGTCCCCACCGCGACGACCTGGAATTCCAGCTGGACGGCAAAAATGCCCACCTGTTTGCCTCCCAAGGGCAGCAGCGGACCATTGCCCTCAGCCTGAAACTGGCGGAAATCCAGCTGATCAAGCAGCTGACGGGAGAAGAGCCGATCCTGCTTTTGGACGACGTGATGAGCGAACTGGACCAGAACCGCCAGGCAGCCCTGCTCAATTTCATCCATGGTCAAACCCAGACTTTTATTACGACAACCGATCTGGATGGTATTTCCCAGGAAATAGTCAAACAGCCGCGAATTTTTTACATCCATTCCGGCAAAATTATAGAAAAAGAGGAAGGATTAAATGGCAGACGAAGATAA
>SRR1919932_01242 S4-like RNA binding protein
TTGGTGAAGGTGAAGACTATCGAAACTTTTGCGATTAATGGTGAATTCATCACCCTCGGACAATTTTTGAAAGATGAATATATCGTTTCCTCGGGCGGGCAGGCCAAGTGGTACCTCAAGGACAGTCCAGTTCTGGTCAATGGGGACAAGGAAGACCGCCGGGGCAGGAAGCTCTATCCTGGTGACCGTTTGAGCGTTGCCGGCAAGGAATATGAGCTGGTTCAGGGACTTTAA
>SRR1919932_01243 DNA polymerase III subunit beta
ATGAAATTTACTGTACAGCGCAATCTTTTTATCAATGACTTGAATTCCGTTTTAAAGGCAGTTTCTTCAAGAGTCCAGATTCCGATTTTGAGCGGGATCAAGCTGGACCTGACGGAAACTGAACTGATCATGACTGGCAGCAATGCCGATATTTCCATTGAACTGAGCCAACCGGTTTCTGATGACTTACGGGTTGAATCAACTGGCTCCATTGTCGTGACAGCCCACTTGTTCAGCGAAATCGTCCGCAAATTGCCAGGCAGGGAATTCACTTTTGAAGTCAAGGAAGGCAACCAGATCCAGATCACCTCTGACAAGGCGGACTACGTAATCAACGGCCTGGACGCCAGTGCCTACCCGCGCCTGCCGGAAATTGCCGGAACTTCCTTCAGCCTACCGCCTAAGACCCTGCGGGAACTGATCACCCAGACTGTTTTCGCCGTATCCACCGAAGAAAGCCGGCCAACTCTGACCGGGGTCAACTTCAGCTTCAAGAACGGGCAGATCAAGGCCGTGGCTACTGACTCCCACCGCCTGTCCCAAAGAATCGTCGACATCGCGGCCGGTCCAAGCGAAGACCTGTCCCTGATTATCCCGGGCAAGAACCTGCAGGAACTAGCCCAGATCATCGGCGACGCTGACCAGGACATCAAGGTTTACCTTGGCGACAGCCAGATCCGCTTTGAATTTGAAAACCTGTCCTTCTACACCCGTCTTTTGGAAGGGGCCTACCCAGACGTTGACCGCCTTTTGCCAACTGAGTCAACGACCAGCGTGCAGTTCGCCGTTTCTGACTTGATGCAGACATTGAGCCGGGCCAGCCTCTTGACCCACGCCAACCGGACCAACGCCGTCCAAATGACTTTGAACGTGGCTGACCAAACCGTCCTGGTTTCCGGTAATTCCCCGGAAGTCGGAAAGATTGAGGAAGAAGTCGGCTTCAGCAGCTTAACTGGCCGGGACCTGACCATTTCCTTCAACCCGGACTACATGGCCGCTGCCCTGCGGGCCTCAGTAACTGACTCCGTCATCATCAACTTCACGGAAAGCCTGCGGCCATTCACGGTCGTGCCAAATGACCAGTCAGTTGAATTCGTGCAGCTGATCACCCCAATCCGAACTTTCTAA
>SRR1919932_01244 chromosomal replication initiator protein DnaA
TTGTTCGATTTAGAAAAATTCTGGGATAGCTTCAACGCTGAAATGCGGTCCGAATTTAACGAAGTATCCTACAATGCCTGGTTCAAAAACACCAAGCCCGTCTCCTTCAACAAGGACACCCATGAATTGGTAATCTCCGTCCAAACCCCCGTGGCAAAGGGGTATTGGGAGCAAAACATCTCCGCTAACCTGATCCAGTCGGCTTATGCCTACGCGGGAATCGATATCTACCCGGTTTTCGTCGTTAAAAACGGCCCGGCGTCCAGCAGCGAAAGAATGCTGGAGCCCCAGCCGCAGGCCAAGCCCGAGAAAGCCCGGCCGCAAGGCCGCGAATTCACCAAGGACCTGCGCTTAAACGAGAAGTACACCTTCGAGAACTTCATTCAAGGCGAGGGCAACAAACTGGCTGCCGGGGCCGCTTTGGCGGTTGCCGACAACCCGGGGACCTTCTACAACCCCTTGTTCATCTTCGGGGGCGTGGGCCTTGGTAAAACCCACTTGATGCAGGCGATCGGCCACCAGATGCTGGCGGAAAGACCAGATGCCAAGGTTGTCTACATTCAAAGTGAGACTTTTGTCAACGACTTCATCAATTCCATCAAGAACAAGACCCAGGACAAGTTCCGGGAGAAATACCGGACAGCTGACCTGCTCTTGGTCGACGACATCCAGTTCTTCGCCAAGAAGGAAGGGATTCAGGAAGAATTCTTCCATACTTTTGAGACTCTCTATAATGATCAAAAGCAGATCGTCATGACCAGTGACCGGCTGCCAACGGAAATTCCCGACCTGTCCGAGCGGCTGGTCTCGCGTTTTGCCTGGGGACTGCAAGTTGAAATCACCCCGCCAGACCTGGAAACCCGGATCGCCATCCTGCGCAAGAAGGCTGAATCCGAAGGCCTGGAGATCGATGAAAGCACCCTGGACTATGTGGCCAGCCAGGTCGATACTAATATCCGGGAGCTGGAAGGGGCCCTGGTCAAAGTCCAGGCCCAGGCCACCATTCAAAAGCAGGACATCAACATTGGCTTAGCCCGGTCGGCTTTAGCCGACCTCAAGCTGGTCCAGAAGAGCAGGGGACTGCAGATTTCCAAGATCCAGGAGGTCGTGGCCAACTACTTCCAGACCTCAGTGCCGGACCTTAAAGGAAAGAAGCGGGTAAGGCAGATCGTCATCCCGCGTCAGATTGCCATGTACCTGTCCCGCGAGCTCACCGATGCCAGCCTGCCAAAAATCGGCCAGGAATTCGGGGGCAAGGACCACACGACCGTGATGCATGCCTGCGACAAAATCGCCCGGCAGATCAAAACGGACACTGAAATCAAGTCTGCTGTTTCCGACCTGCGGCAGATGCTGGAAAGATAG
>SRR1919932_01245 ribonuclease P
TTGAGAAAGTCATATCGAGTTAAATCTGAACAGGATTTTCAGACCGTCTTTGAAAATGGCGAATCAGTTGCCAACCGGGCTTTTGTGATCTACGTCCTGCCTAGAAAGCAGAATAAGCATTTTCGCGTTGGCATCTCTGTCGGCAAGAAGGTCGGTCACACGGCCGTCGTGCGCAACCGTCTCAAGCGCTACATCAGGGCGGTGTTGACCGAGAACCGGGACCGGATTGCGCCGGACTTGGACTTCTTGGTGATTGCCAGGCCCTACGCTCGCGATTTCGATTGGGAAAAGACGCGGGAAAACCTGCTTCACGCGCTGAACCTGGCCCACGTCATTGAAGAAATGCCAAATAAAGAGGAAAAATAG
>SRR1919932_01246 preprotein translocase subunit YidC
GTGAAGGACATTTTATCGAAGAAGAGTACCAAGCGCCTTCTGGCCGCTCTGGCACTGGTGACGGTTTTTGCCCTTGTTCTGAGCGGCTGCGCCACGCAGACCACCCAGAAGCCAACGCCGATCTCCCATAATTCCAGCAACTGGTGGGATGCCTGGGTAGTTTACTACCTCTCCCAGTTCGTGCTTTGGATTGCCAAAGTCTGCGGGGGCAGCTACGGCTGGGCCATCATCATCTTTACGGTTATCATCCGGGTGATCCTCCTGCCTTTGAACGCGGTGCAGATCAACAGCACCAGAAAGATGCAGGAGATCCAGCCGGAACTGAAGGCCTTGCAGGAGAAGTATTCCAGCAAGGACCTGGAGACCCGGAACAAGCTGAACGAAGAAACGCAGAAGCTTTACAAGGAAGCGGGCGTCAATCCTTACGCCGGCTGCCTGCCGATGGTGATCCAGTTGCCGGTTATGTGGGCCCTGTACCAGGCCATCTGGCGGACGCCAGAGATGCAGAATGGTAAATTCTTGTGGATGGACCTGGGCAAGCCAGACCCATACTACATCCTGCCGATTTTGGCAACGGTATTTACCTTCCTGTCCTCATACATCGCGACTTTGTCGGTGCCTAAGTCTTCCCAGACCACGATGACTAAGATGATGAGCTATGTCATGGCCATCATGGTCGGGATCTGGGCCATCGTCTTCCAGTCCGCGATCTCCCTTTACTGGGTGATCTCCAACCTCTTCCAGGTTGGCCAGACCCTGGTCCTGCAGAACCCATTCAAGTACCGCAAGGAGCAGGAAGCCAAGGAAGAAGCTGAACGCGAGCGCCAGCGCAAGATGCGGCGGGCTTATAAGCGGATCAAGCGGAAATAA
>SRR1919932_01247 tRNA modification GTPase
ATGGTTCAACGTTTAACGGAATTTGATACGATCGCGGCGATCTCAACGCCGCTGGGAGAAGGCGGGATCTCCATCGTCCGCGTCTCCGGGGAAGATGCGGTCGCCATTGTCAACCGCTTGTTTAAGGGCAAGGACCTGGAAAAGGTTCCCAGTCACACGATCAACTACGGCCACATCGTGGACCCGGCGACCGGGCAGGTGATCGACGAGGTCATGGCCTCCGTCATGCTGGCGCCGAAGACTTTTACCAAGGAAGACATCGTGGAAATCAACTGCCACGGGGGGATCGTGGTCACCAATGACATCCTGCAGCTGCTCTTGGCCAACGGGGCCAGAATGGCTGACCCGGGCGAATTTACCAAGCGGGCCTTCGTCAACGGGCGGATCGACCTAACCCAGGCTGAAAGCGTGATGGACATCATCCGGGCCAAGACTGACAAGGCCCGGCAGGTGGCGGTCAAGCAGCTTTCCGGCGGCCTTTTGACGGAAATCCGGGCCCTGCGCCAGGAAATCCTGGATGTTTTGGCTAATGTCGAAGTCAACATCGACTACCCGGAATACGATGAAGAAGAAGTGACGGCCCAGAAGATGCTGGCTTGCGCGGAAGCCGTCAGCGGCAAGATTGACCGCCTGCTGGAGACAGCCCAGGAGGGGCAGATCCTCAGAAACGGCTTGAAGACAGCGATTGTTGGCCGGCCTAACGTGGGCAAGTCCTCCCTTTTGAACTACCTGACCCAAAGCGACAAAGCGATCGTGACGGACGTGGCCGGGACCACCCGGGACACCCTGGAAGAGTTCGTGTCTGTCAAGGGGGTGCCCTTGGAGTTGATTGACACGGCTGGGATTCACCATACCGAGGATCAGGTGGAAAAAATCGGGGTCGAGCGGTCGAAGAAGGCCATTGCCCAGGCGGACTTGATCCTGCTTTTGCTGGACGGCAGCCAGGAATTGACGGAAGAAGACCGGCGGCTTTTGGAACTGACCGCCGGCAAAAAGCGGATAATCGTGCTGAACAAAACGGACCTGGGCCAGAAGCTGACCGCGGCTGAGATTGCTAAAGAAAGCGGTAGTGAAGTGATCAGCACCTCGATCATGATGAAGGAAAACCTGGACGAATTGGAAGCCTTGATCAAGAAGCTTTTCTTCAAGGGGATCGAAAACTCCAACGACCAGGTCCTGGTGACCAACCAGCGGCAGGCGGGCCTTTTGGCCAAGGCCAAGCAGCAATTGGCCGACGTGGCCAGCGGGCTTGAGTCAGGGATGCCGGTTGACCTGGTTCAGATAGACTTTACCGGGGCCTGGGAAAGCCTGGGGGAAATCACTGGTGACAGCGCTCCGGATGAATTGATCAATGACCTCTTTAGTCAGTTCTGCTTAGGGAAATAG
>SRR1919932_01248 tRNA uridine 5-carboxymethylaminomethyl modification protein GidA
ATGAAGACTTATGTTTCAAACGAATATGACGTGATCGTAGTCGGCGCCGGCCATGCCGGCTGTGAAGCAGCCCTGGCCAGTGCCCGGATGGGGGAGAAGACCCTGCTGCTCACCATCGGCCTGGACATGGTGGCCTTTATGCCCTGCAACCCCTCAGTCGGCGGCCCGGCCAAGGGGACCGTGGTCAGAGAAATCGACGCTTTAGGCGGGGAGATGGGCAAGAACATCGACAAGACCTACATCCAGATGCGGATGCTGAACACGGGCAAGGGGCCGGCTGTCCGGGCATTAAGAGCCCAGGCTGACAAGTGGGACTACCACGAAGAGATGAAGCGGACCATCGAAAACACCCCTAATCTGACCCTGCGCCAAGCGGTCGTTGACGACTTGATCGTTGAAGACGGGGAATGCCGAGGCGTAGTGACCAACACCGGGGCCCGCTACCGAGCCAAGAGCGTGGTCTTGACGACGGGGACCGCGGCCAGAGGGCGGATTTTTATCGGGGAACTGAACTACTCATCTGGTCCGAACAACACGATTCCAGCCATTAAGCTGTCTGAAAGCCTGGAGAGACTGGGCTTCAAGCTGCGCCGCTTTAAGACCGGGACGCCGCCCCGGGTCAACCGGCACACCATCGACTATTCCAAGACCGAAGAAGAGCCGGGCGACAAGGAGCCCCGCCACTTCTCCTTTACCAGCAGGGATGAAGACTACCTAACCGACCAGACTTCCTGCTGGATGACCTACACCAACCCGAAGACCCACGAAATCATCAATGAAAACCTGGACCGGTCACCAATGTTCTCCGGTGACATCGTCGGGGTAGGGCCGCGCTACTGCCCGTCAATTGAAACCAAGGTCGTCCGTTTCGCGGACAAGGACCGGCACCAGATCTTCCTAGAACCGGAAGGGCGGAAGACGGAAGAAATCTATGTCGGGGACTTTTCAACCTCCATGCCGGAAGAAGTGCAGCTGGAAATGCTGCACACGGTCGCTGGCCTGGAAAAGGTTGAAATGATGCGGCCGGGCTACGCCATTGAATACGACGTGGTTGACCCCTGGCAGTTAACCCACACCCTGGAAACCAAGCGGATCAAGCACCTGTATATGGCAGGGCAGATGAACGGGACTTCCGGCTATGAAGAAGCCGCCGGCCAGGGCCTGATTGCCGGGATCAACGCGGCCTTGAGCGCGGAAGGCAAGCCAGCCTTCACCCTGGGCCGGGACGAAGCTTATATCGGGGTTTTGATCGATGACCTGGTAACTAAGGGGACGGAGGAACCTTACCGGCTCTTGACCAGCCGGGCTGAATACCGCCTGCTTCTCCGCCACGACAATGCCGACCTCCGCTTGACGGAAAAGGGGCATGACCTGGGCTTGATTGACGATGATCGCTATGCTGAATTTTTGGTCAAGAAGGAACTGATCCAGGAAGACCTGGACCGGCTGCACGAAATCACCGTTCACCCGACCATTGCCGTCAACGAATACCTGGCAGGTTTAGGCCAAACTGACTTAAACGGCGGGGTCAAGGCAGACGTCTTCCTCAGACGGCCAAGGGTGACGGTTGAAGACGTTGAACGTCTGACTGGGCAGAAGCTGGCCGGGGACCGCTATGTCAAGGAACAGGTGGAAATCGACATCAAGTATGCCGGCTACATCAAGAAGCAGGAGATTCAAGTGGCCCGCCTGCGCCGGCAGGAAGCCAAGAAGATCCCGAAGGACATCGACTATGACCAGATAGAGGGCCTGGCTACAGAAGCCCGGGAGAAGTTCGCCAAGATCCGGCCGGAAACCCTGGCTCAGGCGGAAAGAATCTCCGGGGTCAACCCGGCTGACTTGGCCATCTTGAGCGTCTACATACAAAATGGCAAATACGCCAAGGTTCAGAAGTAA
>SRR1919932_01249 ArcR family transcriptional regulator
ATGCAGCATATATGTGTCAGCCTGGTTCCTTTATTCGTGGACCTGCCAGAAAAAGACCAGCTTAAGATCAATTCCCTGGCCAGCCACCGGCGCTATCAAAAAGGTGAGACGATTTTTCAGCCAGGGGATGAAAAGCTGCAGATCGTGGCCCGGGGAAACATGAAGGTTTACCAGCTGTCCGCCAGCGGCCGCGAGCAGCTGCTCCGGGTTGCCCAGCCGGGTGACTATGAAGGTGAAGCGCAGCTTTTTGGCCTGGAAAACGACAGCTTCTTCGGCCAGGCCATGGAGAATACGGAAATCTGCAGCTTGAGCAAGGCCGACTTCAACCGGGTCCTCATGGAAAATCCCCAGCTCTCCCTCAAACTGCTGGAACTCAGCGCTCAGAAGCTGCTGGCCACCGAAAGACAGACCAAATTCCTGGCCATGGAGCGGGTCGAAGAAAGGCTGGCTAGCTACCTTTTGGACTTGGCTAAGGTGGCTGGCAGCGACCAGGTTCAGCTGTCCATGAAGATGAAAGATATTGCCCTTTACTTGGGAACTACTCCCGAAACCCTCTCCCGCAAATTCAAACTCCTTGAAAAAATGGGCTATCTGAAAAGGACAGGCAAGCAGGTGAAAATCCTCGACGAAGACGGCCTGCTGGACTTGTAA
>SRR1919932_01250 hypothetical protein
ATGATCAAGGAATTTTTTGACAAGAACGATGAAATGTTAGACTTATATACGCAAGCAATTACCAGGGCCCACGGCGCCCACCACCCGGAAGTCTTTGAAGTCCGCAAGGTTTACGAAGACATCCAAAAGAAGGTGAAAGCCGGCCAGGAAGACTTAACTGCCGACTTCAGCAAGCTGCGGTCCTTGACCGCGGATTACACCATTCCGGCCGATGCCTGCGGGGCGATGACTAAGACCTACCAGACCCTGGAAGAATTCGATCACTTGGTCCAGGGCTAA
>SRR1919932_01251 copper chaperone
ATGAAAAAAGCAATTTTACAACTTGAAACATTAGCCTGCCCGACCTGCATGCAGAAGATCGCGGGGGCCATCGCCAATGTTGACGGGGTTGAAAAGACCAGCGTCAAGGTCCTCTTCAACGCAAGCAAGGCCAAGGTCAACTTCGACCCGGAAAAAACCAATTTGGACACGATCACTCAAGCCGTGAAGAATATCGGCTATGACGTCTTGAAGGCCAGCGCTAAATAA
>SRR1919932_01252 cation-transporting ATPase
ATGCAAAAATGGTTAATGAAAAATCGCAACCGGCTGACGGCAATTACGGGCATCTTAATCGTCCTGGCCTTTGCCGCAAAATGGTTAATTAAAAGTGAAACAGCAGAGTCCGGCCTGCTCCTGGCCGCCTCCCTCATCGGCGGCTTCCCGATCGCCGCATCCGCTTGGCAGGCCCTGAAAGTCAAAGTCATCAGTATCGACTTGCTGGTGACCCTGGCCATCTTAGGTGCCTTCGTCATCCAGGAATTCGAAGAATCCGCCATCGTGGCCTTCCTCTTCTTGTTTGGGGCTTACCTTGAACAAAGGACCCTGGCCAAGACCCGGTCAGCCATCAAGAAACTGGTGGAGATGGTGCCAGAAACCGCCCTCCGGCAGACGGCAGACGGCGATTTTGAAGAAGTTGACTTAGACGACCTGGACGAAGGGGACATCCTTTTGGTCAAGACCGGCGGCAAGATCCCGGTTGACGGGGAAGTCGTCTCCGGTTCCGGGACGGCCAACGAAGCCAGCATTACCGGTGAATCCATGCCTTTAGGCAAAAAGCCCGGCGACCCGGTCTATGCCGGTACTATTTTGGAAAACGGGACCATCCGGATCAAGGCGGAAAAAGTCGGGGATGAAACGACTTTTGGCAAGATCATCGAACTGGTCGAAGAAGCCCAGGACTCCAAGTCCCAGGCTGAGCGTCTAATTGACCGTTTCTCCAAGTACTACACCCCAGTCGTCCTGCTCCTGGCCATTATTGTTGGCCTCATCAGCCAAGACCTGGAACTGGCTGTAACTATCCTGGTTCTTGGCTGCCCGGGTGCCTTGGTTATCGGGGTTCCGGTCTCCAACGTGGCCGGAATCGGCAATGGTGCCAAGCAGGGAATCCTTTTTAAAGGCAGTGAAGTCATCACCAAGTTCAGCAAGGTCGATACGATCATGTTCGACAAGACCGGGACCTTGACTTACGGCGACCCCCGGGTCAGCCAGGTGAAAAAGTACGGCCAGGGCCAGCTGGCTGAACAGCTTTTGGTCAGCGTGGAAAAAGAATCTGCCCACCCTTTGGCGAAAGCCATCACTGGCTACTATGAAGACCTGGAAGCTAAAGAAGTTGAAGCTTCCCAGGTCCTCCAGGGCGGCGGGATCGTTGCTCAAGTAGCTGGCCAGCAGGTCCTGGTCGGCAACCGCTACTTGCTTGACGAGTACCATGTACCAGTTACAAAAGAAATGGAAAGGGACATGGAAAAGCTGGCAAGTGCTGGCAATTCCCTGGTTCTGGTGGCTGTAAACGGGCAGCTGGAACTTGCTTTGGGCTTAAAGGACGAGATCCGGGCCGGGGTCAAGGAAGACCTGGCTGCTTTAAAGAAGCTGGGTGTCAAGAACCTGCTCCTCTTGTCCGGTGACAACCAGAAGACGGTTGACCTGGTAGCGGAAGAACTGGGCCTCACTGAGGCATATGGCCAGCTTTTGCCAGAAGACAAGGCCGAATTTGTCAAAAAGCGGCAGGCAGCCGGTGAAATCGTGGCCTTTGTCGGCGACGGGATCAACGACAGTCCGTCACTGGCCCGGGCAGACATCGGGATTGCCATGGGCAGCGGGACTGACGTGGCAATTGAGACTTCAAATGTGGTCCTCATGAACGGCAGCTTTGACCGGATTCCGCGGGCCCTAGCCCTGGCTAAGGCCACCCGGCGGAACATGATTGAGAACATCACCATCGCCCTGGCTGTCGTAGCCGTCCTGCTGGTCAGCGTGTTAGCCAGCTCATGGATGAACATGGCCATCGGGATGTTTGTCCACGAAGGCAGTATCCTGGTTGTAATCTTAAACGCCATGCGCCTTCTGGCCTATCGGTCAAAATTATAA
>SRR1919932_01253 hypothetical protein
ATGACTAAATACCGCGCCGACATTACGGCTCTTAACGCAGAAAAAATTGGCAGCCAGGCTCATGGCTACGTAGAATTCACGACTGCTGCTGACAAGCTCCACATCAAGCTGGAGATGTTCGACACCCCGGCTAACATCCAGCACTGGGAACACTTCCATGGCTTCCCGGACGGCAAGGATGCCCAAGTGCCAACCCTTGCCCAGGACACCAACCAGGACGGTTTTATCGACCTCGTGGAAACCGAACCGGTCTCCGGCACGACTATGGTGCCCCTGGACGCGGCTCCGCACGAAATGTGCATCCCCAACGACAACTACCCAGTTGCCGATGCAAACGGCTACTACAGCTATGAAAAAGATGTCGACTTAGCCAAGCTGGAAGCCAAGTTCAAGGAAGTCTTCAATGACCAGGATCTGGCCCTGGACAAGCGGGTGGTCTACATCCACGGCGTGCCAGCTGACCTGGAATTGCCAGAAAGCGTTGGCGGCAAGATCAACGACCATTACGACCAACACGTCACTCTTCCAATCGCGGCTGGTAAAATCAACCGCGTCGACTAA
>SRR1919932_01254 hypothetical protein
GTGTCCAGACTGACTGGCTGCAAAGAGCATTTTACCAAGGAAGAAGTGACTTCTTTTTTCCTAAAAGCTATCGAAGAAACGGACAGATACTTCTTCTTGATTCTAGATCTGAACGGTAAAATTATTGGCGAGAGCGTGATTCATAAAATCGACTGGGACCTGCGTCGGGCTAACTTCCGCATCTGCACCGGCTTGAACTGGACGTCTTCTCTTTTAATCCCCGCGCGCAAAAAGCCTACCTGCGGGCTGGTTTCAAGCGGGAGGGAGTTTTGCGGGATGCAGTTTTCGACAGGGGCAAGTACGCTGACGACATCTTGA
>SRR1919932_01255 carbamoyl phosphate synthase large subunit
TTGTCCAGGGCCAGGTCCTGGGGGCCGTCCGACGACCAAATTGCCCAGTCCTGGGCGATCAGCCCGCAAAAGGTGGCGGACCTGCGCGAAGAAAACCAGCTCCACCGCGTTTACAAGGAGGTGGTCCCCTCGGCGGGGGAATTTGATGAGCACTCCCACCGCTTTTACGCCACCTTTGAAACCGAAAACGAGAGCGACGCCACCGCCGGCCCCCGGGCCCTGATAGTTGGCGATGGGCCCCGCAAGCTGGGGAACAGTACCGCTAACGATTACGTGTTGGCGATGATTGCCCGCGAACTAAAGCACCACCAGTACCAGGTGGTTAGCCACTCCAATAACCCCAATTCGTTGTTAATGACCCAGTGGTTAAGCGATAAGGTTTACCTCTAG
>SRR1919932_01256 carbamoyl phosphate synthase large subunit
ATGACCGAAGAGGCGGTCGCTTCGGTCGCCCGGCTCGAGCGGCCTGACTACGCCTTCGTCCCCGCCGGTAAACAGGAGCTGGGGCGGGCAATTGAGCTGGTCAGCCCCACGACGAAGGTGGTGGTGATTGAAGCCACCCAGATCCCCAAAAACGTGGTTTCCTCAATCCCGACCCTCGAGTTTAACGGCCTCTTTGACGGCCAGGTAGTCTACCAACTGGGGGTTATCGGCGAACTGAAGGACCAGGGAGTTGGTAAGTATCAAACCCTGACCAAGCGTTACCCGGCCCACTTAGAGTCGGACCTGGCCACCAAGGTGACGGCCACCAGTGAACGGGCGATTAGCCAACAGGAAACGCCCGGTTTGTATCAGGTCCTCTACCAAGTCGATGGGGACGCCGAGGGGGTCCACGAAGACGTCTCACCCCTGACGGCCCCAGACATCGCCTTTATGACCAAGGTCTTGGGAATGAACCTGACTGCCATTTGGGTCCGCTTAATGATTGTGCGCTTCTCCGGCCAGGCCTTGGTCAAGGCTAGTCACGAGGGAACCACCTACCACGACGCCATCTACCGGGCCCACTTCCCCTACGCCGATTACCACTTAACCAACCAAAAGTCGGCGCCGGCCACCGTGATCGGGGCGCAGATTGAACGCGCCAACAAAGGGAGTGAACAATAA
>SRR1919932_01257 carbonic anhydrase
ATGGAATACATCAATTACCAGACCCAGGACCAGTGGCAAGGTCCCGCTAGCCAACAGTCACCCATCGACATAGTTTTAGAGCAAACTACCCCACGCCCCCACGCCGACCAGCCATTAACCGTCTCCTTTGTCGGCGACCAGGCGCTGACCCGCGACCCCCGTTCGTCTGGGGACCAGTTTATCGGCGCTGGCACTTTAACGCTAGGGAACCACCACTACCACTTCTTGCGCCTCCACTTCCACGACCACAGCGAGCACCTGTTTGATGGCCAGCGGCAAGACGCCGAGGTCCACTTTGTCTACCAAGACGACCAGGGGCAAACCCTCGTCTTAGCCATGCTGGGGATAAGGGCCGCCGATGGTGAAGCCGGCTTTGACTTCGCTCCCGTCATTAACGGTCAGGCCGGTGCCGCCTACTTAAACCAGTTCTTCGCTAACAACCAGGGCTACTTTAATTACACCGGTTCTTTGACGACCCCACCACTGTCGCCGGACGTGACTTGGGTGGTGCTTGACGCCGTGCACCCTTTTTCTTCCGGTTCACTGGCACTAATTCACGACTTGTTTGCCGACAACTACCGGGCACCACAACCCATCACGGTCCCGGTTTACCATTACTACGAGAGTGGGAAATAA
>SRR1919932_01258 restriction endonuclease
ATGGATAAGTATAATGCCGAGTACGGAATCTTCATCACGACCTCTGACTTTACCCGCGAAGCAATGAAAACCGCAAAAGCAGGCACGCGGATAATTACCCTTATCAATGGGGACAAGCTTTGCGATCTAGTGGCTAAGTACCACTATTATGTAGAACCTGTGACAACCTACAAGCTGAAGGGCTTTTTTACGGATAACGAATAA
>SRR1919932_01259 restriction endonuclease
ATGGAAGAATTTGAAAACCTGATTATGATTGAAGTGCTAAAAGCGATGCAAGCACTTGGCGGTCGGGTAACACGCAAGGAAGTTAAACGTGAGATTTGCGACCACTCTGAAGTAATTTCAGAGGATAAGGTCGATGAAGTTAAGCATTCAAAGAAAACAGGCACTCCATACCGTCCGTTTGATTATCGTTTTAACTTTGCGGTTAAACATTTGATTACGACTGGTTTCATCATCACTGATGATAATCGAAATCTTGAACTACCAGAAAAGGGACGGACAACTAAGTTAGAAGATTTTGATCCAATTCGTGATGTGCGGGCCGTGCTATCCGAAAATTCAGCCGATGATACTGATGTAGAGGAAGAGACTGAGATTGAAGAAGAACCCTGGAAAGCTGAACTGTTAGCAGCCTTAGCCAAGATGCCGCCACAGAAATTTGAAATATTTAGTCGAGGTTTGCTGATCCATATGGGGTTGACCTTGACGACAATATCGGTGTCCGCTATGTCGGCGACGGTGGCTTAG
>SRR1919932_01260 TrmA family RNA methyltransferase
ATGAAGAAAAATGAAATCGTCGAAGTCGAAATCACCGACTTGTCATATGAAGCCATGGGGGTCGGCCATGTTAATGGCGAAACGGTCTTTGTCAACAACGCCCTGCCGGGTGAAGTGGTCAAGGCGCAGATTTTGAAGGACAAGAAGAGCTATGCTTTTGCCAGAATTTCTGAGATCGTCAAGGAAAGCCCGGACCGGGTCAAGGTGCCTCTCCGCCAGTACGTGCAAACCGGCCTGACCAGCCTGGCTCATTTGAAGTACGACAAGCAGCTGGAATTCAAGCAAAAGCAGGTTAAGGAGCTTTTGAGCAAGGCCCACTTGGACCAGATCAAGGTAGCGGAAACTTTGCCAAGTCCCTTGGAAACTGGCTACAGAAACAAGGCACAGGTACCGGTCAGAATGGTTAAGGGGCAGCTGGAGATTGGCTTTTTCCGCCGGCACTCACATGACCTAGTGCCGCTGGAGGACTTTTTCACCAATGATCCGGAAATTGACCGGGTATTGCTGGCAGTCAGAGATATCTTGCGGGAAAAGCGTATTCCGGCCTATGACGAAGAAAAGCATCAAGGACAGGTAAGATATCTGGAAGTCCGCCGGGGGACGGCTACGGGCGACATGATGGTCGTCCTGGTTTGTCTGGACCGGGACTTCCCAGGCCTGCACGCGGTAGTAGATGAAATTAAGGAAATAGCCGAGGTGAAGTCGATCTTCCTCAACCATAACCCGAAGAGAACCAATGTCATCTTGGGTGAACACGACTACCATTTGTGGGGGAAGAGATACATTGATGACAAGATTGGTGATTTGACTTTTGAAATCTCGCCGCAGTCCTTCTTCCAGATTAATTCTTTGCAGACGCCGCGTTTGTACAAGCTGGCTATTGACCAGGCAGGTCTGACTAAGGACGATTTGATTGTTGATGCCTACTCCGGGATCGGGACGATCGGTCTGTCCGCAGCCAAGTACGTTAAGGAAGTCCGCGGGGTTGAAGTGGTTAAGGCAGCGGTTAAGGACGCCAAGAACAACGCCCGGCTCAACCAGATCCACAATGCCAAGTACTATGCCGGCAAGGCGGAAGAACTGATGCCAAAGTGGGCAGCTGAAGGCTTGAAGACGGATGTGATTTTTGTCGACCCGCCGAGAAAAGGCTTGACCAAGGAATTTATCGATGCCGCGGTTAAGACTGGTCCAAAGAAGGTTGTCTACATCTCCTGCAACCCGGCAACGCTGGTACGGGACATGCAGCTCTTGATGGAGGCTGGTTACACGACTGACCTGGTTTCCCCGGTCGACATGTTCCCGCAGACGCCACATGTGGAATGCGTGACCGTGCTAGAACGTACACAAATCGATTAA
>SRR1919932_01261 membrane protein
ATGATAACCAATATAAAGAAAGAATTAGCAAGAAAGCGGTCTCTGCAGCCTCTGTCGCCAGAAGAGCAGAGCGAGTGGGATCAGCTGCGCCAGTACCGGGAAAAGGCCATTAAGGAGTCCGGAGCCAAATTGGCCGAACACGTGATGACGTTTAACGACGGGGTAATTGCCATTATCATCACCATTGTGTTGGTGGAGATCGCGGATCCCTTGTCCAAGAGTGCCTACCAGGACTTTTTCAGCCAGATTTTTATATACTTGATTTCATTTTTCGTAGTAGCCAATTTCTGGTATGAAATCCACTATACCTTCAGTTTCCATATCATGCGGGCCGGCAAGATGACCATGGTCTGTGACTTTGCCTTTCTGGCCAGTCTGTCGCTGATTCCCGTCATGACAAAGTGGATCATGGGGGATTTATCGGTCTTGAGCGTGGTCTGTTATGGGATCGTCTATTTTTTGGTCCAGATTTTTGAACTGGCAACGGAAATTGTGGGGATGCGGAGCTCACTGCCGCATATCAAGACCTTCCGGAAGTTCTGGGGTCGGTTTTCCTGGCTGCGCATCATCTGGCTCTTCCTGCTCAATTTGGTCTTTATTTTGATATCTTTCGTCCAGCCAAGGTTGGGGATGATTTTGTATCTGGCCTTCCCAATCATCAACTTTGTCATGCCAGATAACCGGAGCCAGCGGGCCCGCAAAGGAGATAAATAA
>SRR1919932_01262 diacylglycerol kinase
ATGACTAAGCGCGCGCGCTTGATTTACAATCCGGTCTCAGGGCATGAACAGATGCCGAAGAACGTTTCTGATATTTTGGATATTTTGGAACAAGCGGGTTATGAAGCCAGTGCATTCAGAACCACGCCAGCTCCGCTCAGTGCTCAAAATGAAGCAACCCGGGCAGCCAAGGAAGGTTTTTCACTGGTCGTGGCCGCCGGTGGGGACGGCACGATCAACGAAGTCGTGAGCGGGATCGCCTTTTTGCCTAAGGAAGAGCGCCCGCGCATGGCCATCATCCCGGCGGGGACGACCAACGACTACGCCAGAGCCTTGAAGATTCCGCGCGACGACGTGGTTGCGGCGGCTAAAGTGATTCTTAAGGACAAGGTGCAGAAGATGGACGTGGGCCGGGCCGACTTCGGCGACGGCAGCCAGAAGTACTTCGTCAACATCGCTGCTGCTGGCTCTTTGGCGGAACTGACCTACGGGGTTTCTTCAGACGTCAAGTCCGCCCTGGGCTACGCTGCCTACCTAATCAAGGGGGCGGAAATGCTGCCAAACCTTAGCGAATGCGAAATGCGGCTGACTTTTGACAAGGGCGTTTACGAAGGCAAGCTGTCTCTGCTTTTATTGGGGATGACTAACTCCATTGGCGGTTTTGAAAAGATCATGCCAAACGCGGAACTTTCAGACGGTCTCTTCCAGCTGATCGTGGTCAAGCCAAGCGACCCGGGCAACCTGCTCCGGCTGATGGCTTTGGCTTTGAACGGCAAGCACGTGGACGACCCGAACATCATCTACACCAAGACGACCAGTCTGAAGGCGGAATTGATCGGCCACAACCGCGATGACAAGCTTTCCGTCAACCTGGACGGGGAAGAAGGCGGCATGTTCCCGGTAACTTTTGAAAACTTGCGGGAACGGATCGAATTCTACGTCGGTTAG
>SRR1919932_01263 aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B
ATGAATTTTACGTCAACTATCGGTCTGGAAGTCCACTTTGAGTTGAAGACCAAGAGCAAGATCTTTTCACCTTCACCAGTAACTTACGGGGCCAAGCCAAACACCGAAACCAACGTTATTGACTGGGGTTACCCAGGTACCTTGCCAATGGTTAACAAGGAAGTCTACCGCCTGGGCTTGATGGTCGCTTTGGCCACCCACTCTCACGTTAACCCGGTAACCCACTTTGACCGGAAGAACTACTTCTACCCGGACAACCCAAAGGCTTACCAAATCACTCAATTCTTCAAGCCACTGGCTGAAAACGGCTATGTTGAAGTCGAAGTTCACGGCAAGAAGAAGAAGATCCATATCCACGAAATGCACATCGAAGAAGACGCCGGTAAGAACACCCACGGGACCAACGGCTTCTCCTACGTTGACTACAACCGGCAAGGGGTACCGCTTTTGGAAGTTGTTTCTGAACCAGAAATGACTGACCCGGACGAAGCTGTTGCCTACCTGGAAAAGCTGCGGGAAATCGTACAATTTACCGGGGCTTCTGACGTTAAGATGGAAGAAGGGTCAATGAGAATTGACACCAACATCTCCATCCGCCCAGCTGGCCAGAAGGAATTCGGGACCAAGGTTGAAATGAAGAACCTGAACTCCTTTGAACACGTCCGTCTGTCCCTGGCTTACGAACAAAAGCGTCAGCAGGAAATCCTCCTGTCCGGTGGCCGGGTTCGCCTGTCCACCCGCCGTTTTGACACCAACACGGGCAAGACTGTCCTGGAACGTGTCAAGGAAGGGGACGCGGACTACCGTTACTTCCCAGAACCAGACCTGGCTCCATACCACATCAAGCAGGAATGGGTTGATGAAATCGCGGCCAACTTGCCAAAGACGGCTGACGACCGGCGGAAGATCTACGTTGATGAATACGGCCTTAAGCCATACGACGCGAATGTTTTGCTGCAAAACAAGGAAAGCTCAGACTTCTTTGACGCTACTGTAGCAGCTGGTGCTGACCCGCAACAAGCAGCTAACTGGATGAACACCCAGGTTAACGGCTACTTGAACGAAAAGCATGCTGAACTCAAGGACATTGCCTTGACTCCAGAAAACCTGGCAGCCATGATCAAGCTGATTTCTGACGGGACGATCTCATCCAAGATCGCCAAGAAGGTCTTCGCGGAAACTGTTGCCAACGGCACTGACCCGAAGAAGTACGTTGAAGAAAACGGCATGGCGCAATTGTCAGACGAAAGCGTCTTGGCACCAATGGTCAAGGAAGTTGTTGACGCCAACCCGCAGTCTGTTGAAGACTACAAGAACGGTAAGGACCGGGCTATCGGCTTCCTGGTTGGGCAAATCATGAAGCAGACCCGGGGCAAGGCCAACCCTAAGGTGATCAACAAGCTCCTCTTGGCCGACCTGGCCAGCCGTTAA
>SRR1919932_01264 aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit A
ATGAACTACTTAAACGAAACGATCGATTCTTTAAACGACAAGCTGAAGAGCGGCGCTGTTTCTACTGACCAATTGGCCAAGGACACCATCGCCAACATCAAAAAGACTGACGAAAAGATCAACGCCTTCATCACTGTAGATGAAGACGCCCAGCCAGCAGAAGACCTTGACTTTAACAACAAATTGGCCGGCGTGCCGATTGCCATCAAGGACAACATCATCACCAATGGCTTGAAGACGACGGCAGCCAGCCACATTTTGTACAACTTTGAACCAGTTTACGAATCAACTGTTGTTGCCAAGCTGAAGGCAGCCCAAGCTACCATCATCGGCAAGACCAACATGGACGAATTCGCCATGGGGTCATCCACTGAAACTTCTTACTTCGGTGACACCAAGAACCCATGGAACTTAAACAAGGTGCCAGGCGGTTCATCCGGTGGTTCTGCAGCGGCTGTTGCCAGCGGTGAAGTGGTTGCTGCCCTGGGTAGTGACACCGGTGGTTCAATCCGCCAGCCAGCATCTTTCAACGGTATCTTCGGGATCAAGCCGACTTACGGCCGGGTATCCCGCTGGGGCTTGATCGCTTTTGCCTCATCACTGGACCAAATCGGGGTGATGAGCAAGCGGGTCAAGGACTCAGCTGAAGTTCTGAACGTGATCGCCGGGGCTGATGACCGCGACGCTACTGTTTCAGAAAAGGAAGTCCCAGACTACACCAGCTTCCTGGGCAAGGACGTCAAGGGCCTGCGGGTTGCCGTTCCTAAGGAATACATGAGCGACGCCGTTGAAGAAGGCGTCCGCAAGGCAGTTGAAGCTCAAATCGAACTTCTGCGGGCAAATGGGGCCATTATCAACGAAGTATCCCTGCCGCACACTAAGTACGTGGTGCCAACTTACTACATCATCGCTTCCAGTGAAGCTTCAGCCAACCTGGAACGTTACGACGGGATCCGTTACGGTTACCGGGCAGAAGCCAAGAACCTGGACGAAGTCTTCCTCAAGTCCCGGTCAGAAGGCTTTGGCGACGAAGTAAAGCGGAGAATCATGCTGGGTTCCTTCGCCCTGTCCGCCGGCGCTTATGACAAGTTCTTCCTGCAGGCGGCCAAGGTAAGAACCTTGATTTGCCAAGACTTCGGCAAGATCTTCGAAGACAACGATGTTATTGTCGGGCCGGTTTCTACCGAAACTGCTTTTGACTTGAACTCAGAAATTTCTGACCCGGTCAAGATGTACAACAACGACATCTTGACGATTTCCGCCAACATGGCCGGGATTCCGGCAGCCAGCGTGCCAGCCGGCTTGAGCGAAACGACGGGGATGCCGGTCGGCTTCCAAATCATGGCCAAGCGCTTTGACGAAGGCCATGTCTTCCAAGTAGCTGACTTCATCGAACGCAGCAACAAGTTCTACGAACAAACACCAGCTGGATTGGAGGATTAA
>SRR1919932_01265 aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit C
GTGGAAAAGGTAACAAATGATACTATCAAGCACGTTGCGGCATTAGCCAAGCTTGAATTCAGCGAAGAAGAACTGGCCAAGTTCACCCCGCAAATGGGGAAGATCCTGGAAATGGCTGAAGAACTTCAAGCCGTTGACACGACTGGCGTTGAAGAAACGGTGCAAGTAGTTGATCGCGACACTGTCTTCAGAGAAGACGTTCCTGAAAAGTGGCAGACCCGCGAAGAAATGATGAAGAACGTTCCTGACAAGAGCAATGGTTTTGTCAAGGTGCCTGTAATTATCGATAAGGATGATAACCAATAA
>SRR1919932_01266 hypothetical protein
GTGAAGAGATTTTTACAGGCAATAACTTTGGCAAGCTGCAGCCTCCTGCTGGCGGCTTGCGGCAACTTGAAGAATTCCGACCTGGCCAGCAACTCAACGACGACGACCAGCGAGGCGAAGAAGTACGAGACGACTTCCAGCACTGACGGCGGCTACTCCGTCCTTTTGAAAAAGGGGGTCTACAAGACCAGCCCGATCTCCGGCCTGGAAGCCACCAACTATGACAACAGCGTGGACGAGTCGGCCATGGAACGGGGCTTGATCCGGGTCTCCAAGAAGGTCTTCTCAACCAAGGACTATGTCATCCAGGAAGGCCAGCAGCTCGACGAAACGACGGTCACCAACTGGCTGGGCCGGTATTCAAAGAGCAACAAAGATGGGCTGAACCTCAAGAACAACGGCAAGACCGGGTCAACGACCAGAAACCCGATCATCTTGCAGCAGATCATGGAAGAAGACTTCTATGTCAAGAGCGGGTCCAGCTACAAGCTGGCCGGCATCAGCATCAGCCTGGGCCTCAACTCAGTCGACTACTACACCAAGACGACTGACGGGGCCGAATACAGCACTAAGATTTCCCTGGCCAAGCGGCGGGCCTTCGGGCAGAAGACGGCCAACACGATCGTCTCCCGCTTGCACGCCAAGAAGAAGCTTAAGAATATCCCGATCATGGTTGGCCTTTTCTCTAAGACCGACACCGACTCATTAGTTGGGGGAACTTACTTCTCATATGGGACAGCTAGCGCAAATAGTAGTAAAATATCTAAATGGAGTTCCGTGAACGAAAAGACCCAGGTGCTGCCGACAGCCGATGGAGCCAGCGCGGTCAGTGCCAGTGACGAATCCAAATTCACCAGCTTTAAGGATGAAATTGAGGATTACTTCCCGAACGTTTCTGGGGTCACGGCCACTCTGCGCTACTACGATGGCAAGCTGGCTTACGAAAGCATCGCCATCACCACGCAGTTCTACGGCTATCTGCAGGTACAAAGCTTTGCCCAGACGGTTATGAGCCGGGCAAAGAAGTATCTGGGAACCAGCTCACCGGTTGAAATCACCATTTCCTCGGTCAACGACACCCAAGCGGTCGTCGCCAAGGAAACGGCCACCGGGTCTTATCGGATGCACATCTATGGCGGTAATTAG
>SRR1919932_01267 DNA ligase
ATGGCTGAAAGTTTAGAAGAAGCAAAACAGGAAGTCCGCCAATTGCGGGCCCAGCTGGACCAGTGGGCCAAGGCCTACTATGAGCAGGACGCTCCGGTGGTTGAAGACCACGTTTATGATGAAAAATACGCCCGCCTGCTGGAACTGGAAGCTGCCTATCCGGAATTAAAGTCAGCTGACTCCATCACCCAGAGGGTCGGCGGCGAGGTCAACAGCGACCTGCCCAAGGTTGAGCACCCAGTGCCAATGCTGTCGATGGGGGACGTTTTTTCCAAAGAAGAGCTGGCGGAATTTGACCAGCGGGTGCAAAAAGCCATCGGCCACCCTGTGGCCTACAATGTCGAATTGAAAATCGACGGCCTGTCCCTGTCTTTGGAATATGAAGAAGGGCGCTTAAAGCGAGCCTCAACCCGGGGCAATGGCCAGGTTGGCGAAGATGTGACCAAGAATGTCAAGTATATCAAGGACGTGCCCCAGAAATTGCCGAAAGCCATTACCACCGAAGTGCGGGGGGAATGCTACATGAGCAAGGAGGCTTTCGCCAAATTGAACCAGGAGCGGGATGAGGCCGGGGAGAGCATCTTTGCCAATCCGAGAAATGCCGCGGCTGGTTCTCTGCGCCAGCTGGACCCGAAGGTGACCAAAAAGCGGCAGCTGAGCACCTTTATCTATACCTGGATCAACCCACCTGCCGGTATCGACTCCCAGCACCAGGCGATCGGGGAAATGGCCAAGCTGGGTTTTCATACCAATGAAAACGGCCGCCGGCTGGAAAATCTGGCAGACGTCTACGACTATATCGACGAATTTACCAAAAAGCGCGACAGCCTGCCTTACGTGATCGACGGCATTGTCTTGAAAGTCGATGACCTGGCCCTGCAGGCGGACTTGGGCAACACCGTCAAGGTGCCCCGCTGGGAAATTGCCTACAAGTTCCCGCCGGAAGAAGAAGAAACAGTAGTCCGGGAGATTGAATGGACCGTGGGAAGAACCGGGGTCGTGACCCCGACTGCCGTGATGGATCCGGTGCAATTAGCAGGGACCACGGTAGCCCGGGCTTCTTTGCACAATCCGGACCTTTTGGCCAAATTGGACATCCGCTTGGGCGACACGGTCAAGCTGCACAAGGCCGGCGACATCATTCCGGAAATTTCCGAAGTTGTCTTAAGCAAGCGGCCAGAAGACTCTGTTCCTTATGAAGTGCCAACTAAGTGCCCTTCCTGCGGGGAAGACCTGGTTCACCTGGATAAAGAAGTAGCCTTGCGCTGCATTAACCCGTCCTGTCCGGCCCAAGTTGAAGAAGGGATTACCCACTTCGCCTCCCGGCAGGCCATGAACATCGCTGGCCTTGGCCCAAAGATCGTCAAGCAGCTGATCGCCAAGGACCTGGTGCACAATGTAGCTGACCTTTACTATCTGACAGCCGACGACTTGAGCCAGCTGGACCACTTTAAGGAGAAGTCGATCAACAATCTCCTGGCGGCCATTGACCAAAGCCGGAAGAATTCCGTTGAGCTGGTCCTCTTTGGCTTGGGGATCGACAATGTAGGCGGGAAAGCCGCCCAATTGATTGCCCGGAAATTTAAAAATATGTCTAAAATTGCTTCAGCAAGCGTGCAAGAACTGACGGCAATCGATACAATAGGAATGACGATTGCTGAGTCTTTGACGGCTTACTTCCAGCAGGAAGAAGCCAAGAAGCTGCTGGCCCGGCTGGAAGAGGCCGGGGTCAACATGGACTACTTAGGCGAAGACGGGGAAGCCGCAGACAACTTCTTCAAGGGCAAGACGGTGGTCTTGACCGGGAAACTGGCCCACTATAGCCGGGCGGAGTTTACCAAGAAGCTGCAGGCCCTGGGAGCCAAGGTGACCGGGTCAGTCTCCAAGAAGACCGACTGCTTGGTTTACGGGGAAGATGCCGGCAGCAAACTGGCCAAGGCAGAAGCCCTGGATATTCCGCGCTTAACGGAGGCAGAAGCAATCTCTAAGATCGAAGAGAAGGACACGGAAAAGTGA
>SRR1919932_01268 ATP-dependent DNA helicase PcrA
ATGTCTGAAGCAACGATTTTACAAGGTTTGAATCCGCAACAGGTCCAGGCAGTCAAGACGACTGAAGGGCCCCTTTTGGTAATCGCCGGGGCCGGCAGTGGGAAGACCTCAGTTTTGACCAGGCGGATTGCCTACTTGGTGGAAGAAAAGCGGGTTGCTCCCTGGAACATCCTGGCCATCACCTTCACCAACAAGGCCGCTAAAGAAATGAAGGAAAGAGAAGTCAAGCTCCTGGGCGACCAGGCTGAAAGCATCTGGATGTCCACCTTCCACGCCCTCTGCGTCCGCATCCTCCGCCGGGACGGCCACTTGATCGGCTATGACCGGGACTTCTCCATCGCCGACCCTTCGGAGCAGGTGACACTGGTCAAGCGCATCCTCCGCCAGCTGGACCTGGATCCCAAGCAATACCTGCCCCGCAACATCTTGAGCCAGATCTCCAATGCCAAGAACCGCCTGCAGACCCCGAAGCAGTATGAGGCCAGCGCGGTCGGTCCTTTTGAAAAAGTTGTCGCCGACGTCTACAAGAAATACCAGGCCAGCCTGGAAAGAGACCAGATCCTGGACTTTGACGACTTGATCATGCAGACGCTGACCCTTTTTAAGGCCAGTCCTGATACCCTGGCTTACTACCAGCAGAAGTTCCGCTATCTGCTGGTTGACGAATACCAGGACACCAACGAGGCCCAGTACGAGCTCTGCCGCTTGCTGGCTGACGGCTACCACAATATCTGCGTTGTCGGGGATGCCGACCAGTCAATCTACGGCTGGCGGGGAGCCAACATGGAAAACATCCTCAACTTTGAGCATGACTACAAGAATGCCCAAACTGTCAAACTGGAGCAGAACTACCGGTCAACCGGCCACATCTTGAAGGCGGCCAACTCGGTCATTGACCACAATGAAAACCGGAAGGCCAAGAAGCTGTGGACTGACAAGGGCGACGGGGAAAAGGTCCACTACTACCAGGCCCAGAGCGACCGGGACGAAACCCGCTTCGTCCTTGCCAAGATCAAGGAAGAAGTTGACCAAAAGAAGCGCCGCTACCAGGACTTTGCCGTCCTTTACCGGACCAATGCCCAGTCCCGGGGGATGGAAGAAACTTTGGTTGAAGCCAATGTCCCTTACCAGATCGTCGGCGGGCACAAGTTCTACGACCGCAAGGAAATCAAGGACATCATGGCCTACCTCAAGCTGGTGGCCAACCCCAGCGATTCCATGAGCTTCAACCGGATCATCAACGTCCCAAAGCGGGGGATCGGCCAGGCTACGACTAGCAAATTGGCTGCCTTCGCCGACGAAATGGGGGGCGGGATCTACGAAGCCATACGCAATGTCGAATTGGCTCCGATTTCTTCCGCCGCTGCCAAAAAGCTCCTGGCCTTCAGCGACCAGCTGACTGCCGCCATTGCTTACGCCCAAGACCACACGGTCAGTGAACTGACCGACAAGATCCTGGAAGACTTCGGCTACATCAAAGCCTTGAAGGAGGAAGAAGCTCAAGGGTCCCTGGAAGCTGCCGCCCGCCTGGAAAACCTGCAGGAATTCGCTACGGTTACCAAGCGCTTTGACGACAATTACAATGAAGAAGAAAACCCGGACAGCAGCCGCTTGAGTGACTTTTTAGCGGAAGTATCCCTCTTAAGCGACCAGGATGACCTGGAAGAAAGCGATGACCGGGTAACTCTGATGACCCTGCACGCGGCTAAGGGTTTGGAATTCCCAGTCGTCTTCTTGATCGGGATGGAAGACAACATCTTCCCGCTTTCCCGGGCGATCAAGGACGAAGACCCGAACCAGCTGGAAGAAGAACGCCGCCTGGCTTACGTGGGCATTACCCGGGCCAGGGAAGAGCTTTACTTGACTTCGGCTTACACCCGGATGATGTACGGCAGCAAGCAGTATAATTCCCAGTCCCGCTTCATCGGTGAAATCAAGGATGAGGACCTGGACATCGTGGCTTCAACTGCCCCGAAGTCCAGCACTTCCTTCTTAGACCTGGACCGGCTGCCTTTTGCCAAAAAGTCCCAAGCCAAAGCTGCTCAGCCGGCTAAGATCCACCGGGCCAGCAAGGCAGCCGGGGCCGTCGGCGCTGAAAAGAAGGGCTGGCACCCTGGCGACCAGGTAGAGCACAAGAGCTGGGGCAAGGGCGTGGTCATCAAGGTCACCGGCTCTGGCGAAGACATGGAACTGGACATTGCTTTTGCAAGCAAGGGCAACAAGCGCCTGCTGGCGGCTTTTGCCCCGATCAAGAAAATTTAG
>SRR1919932_01269 hypothetical protein
ATGCAATTTACCAAGCAATTTGAAGGAACTTTTGCCCAAGTCAAGGAACAAATCGACAAGTTCGTTGCTGAAGGCGGCCATATCGACGCGGTCATCACCGACCACACTGGCGAAAAGGTTACCGAAGACCACACCTTTGGCTACAAGATGCGGGTCATCGCTATCTGCAGCGAAGAAGAAAGCTAA
>SRR1919932_01270 beta-glucoside-specific PTS system IIABC component
ATGGCAAAGAAAGATTACAGCGGCCTGGCGAAGACGATCATCGCCAACGTCGGCGGCAAGGAGAACATCAACAGCTTGATTCACTGCATCACGCGCCTGCGTTTCTACCTTAAGGATGAAAGCAAGGCCAACGATGAAGTTTTAAAGGAAACTGACGGCGTTATCGACGTAATGCACGCTTCCGGCCAGTACCAAGTGGTCATCGGCAACGCGGTTACCCAGGTCTACGACGCCGTGATGGCGGAACTGGGCGGCCTGCCAGAAGGCGGCGAAGCAGCCGAAACTGCCGAAACTAAGGAAGATGATGGCAAGAACCCGGTTTCCAAAGCTTTTGGCAACTTGATCGGCTTCATTACTGGCTCCATGAGCCCGGTGGTCGGCGTTATTGCTGCTTCCGGTATCATCAAGGGGATCCTGGCCCTGCTGACTTTGCCGCAATTAGGGGCCCTTTTGAACGTGAAGAGCACGGCTTATATCACGGTCAGCGCTATGGCGGACTCAGCCTTTTACTTCCTGCCAATTTTGGTTGGCTTCGCCGCTGCTAAAAAGCTGAACGGTGATCCAATCGTGGCCGCGGTAATCGGCGGAGTCCTGACTTACCCGCAGCTGGTTACTTGGGGCGGGCAGTACAAGACCATGTTCAGTCTGGGCGGTTTCAACTTCCAGTTCTTGAACTACACCTACTCAATCTTCCCGATGATCCTGGCCGCCTGGCTGGCTAAGAAACTGGAAGACTGGCTGAGAGACCACCTGCCGGATTACCTGCAGATGATCTTCACGCCGATGATTACCATCTTGCTAGTTTCAGCAGTTACCTTGATGATTACCGGTCCGGTGATCCAGGGCGTGGCCAACGGGATTGCGGACTTGATCAACTGGGTTGTTTCAGCTTCTGGCTGGATCGGGGGTCTGTTGATCGGTGCCTTCTACCAAGTTCTGGTTATCTTCGGTTTGCACTGGGGCGTTGTGCCGCTGGTTGCCCAGCAGATTGCCCAAAGCGGCCAGAGTTCATTGAACGCGATTATTTCTGTGACTATGGTTTCCCAAGGGGCGGCAGTTTTGGCTGTAGCCTTGAAGACTAAGAAGAAGGGGACCAAGACTTTGGGGATCTCCGCAGCTGTTTCAGCCTTCTGCGGGGTTACGGAACCAGCGATCTACGGGATCAACCTGCGCTTTAAGAAGGTCTTTATCTCCGGTTTGATCGGGTCAGCAGTCGGCGGTTTGATCACTGGCTTGATGCACGGGACCATGTACGGCTTTACTGGTTCTTTGATCGGTTTCTCATCCTTCTTCAACCCGAAGAATCCAAGTGACTTGACTAGCTTCTACGCCTTCCTTCTGTCCAGCGCGGCAGCTCTGGTAATTTCCTTCATCGTGGCCTGGGTTTGGGGCTACAATGACGAAATGGTTGCCGGCAAGAAGGTTGAAAAGAAGCAACGGCCAGGCAGTGAAGCTAAGCGAAAGAGCGAAACTTTGACTGCTCCGGTAGCTGGCAAGGTGATTGCCTTGTCAAGCGTCAACGACCCAGTTTTTTCAACTGGTGCCATGGGTGAAGGCTTCGCGGTAGTGCCAACTGAGGGCGTGGTTAAGGCTCCGGTTGATGGTGAAGTAGCAGCCTTGTTTGAAACTGGCCACGCGATTGGCTTGAAGACTACGGCTGGCGCGGAAGTGCTGATCCACATCGGGATCGACACGGTTATGCTTAAGGGCAAGGGCTTTAACGTCAAAGTTGCGCAAGGTGACCTGGTTAAGGCCGGGCAAATTCTGATCGAGTTTGACCTGGACGGCATTAAGGAAGCCGGCTACGATCCAACGGTCATGACGGTAGTTACTGACAAACATGACGTGGACATTAAGTTGCCAAGCGTTGAATAA
>SRR1919932_01271 GntR family transcriptional regulator
ATGACTGCCAAGCAAGACATGATTACCCAAGACCTGGCCGGCAAGATCCGGCACGGGATCTACCCGCCCAAGAGCTTTTTGCCCAGCGAAAACGAACTGGCCAATCTCTACGGGGCATCCCGGAACACGGTCAGAAAGTCCTTGGAAGACTTAACCAGCCTGGGATTAATCCAGAAGATCAAAGGCAAAGGCTCGATCGTCCTCGACTTTTCCCGCTTGAGCTTTCCAATTTCCAGGATCACGACTTTTAACGAACTGAACCAGTCCCTGGGACTAAAAGCAGAGACCAAGCTTTTGGAAATCAAGGAAGTCAAGAAAGTTCCCGACGACTTCAGCTGCGACAACACGGAGCCTTTTATCAAGGTCAAGCGGCTCAGAATCATTGACGGTGAGCCGGACGTTTTAGACGTAGACTACATCTCCACCAAGTACGTCAAGGAAATCAGCCCGTCTGTGGCGGAACATTCCTTATATGACTACTTTGAAAACGACCTGGGCCTCAAGATTTCCTACGCGGTTAAAGACGTCAGCGTGCAGACCGTGAGCGAGGAATTAGCCAAGATGCTGGAATTGGACCCCGACCGGAAAGCCGTTTTAGTGAAAAGCATGGTCTACTTAGAGGACACCTCCCTCTTCCAGCTGACCGCCTCTTACCACAATCCCAACCGTTTCAGATTTATTGACTTTGCTCGCCGCAGCAAAATATAG
>SRR1919932_01272 alpha, alpha-phosphotrehalase
ATGCAAAATCTAGGTCAAAAAGTCATCTACCAGATCTACCCAAAGTCCTTCTACGACGCTAACGGCGACGGGATTGGGGACCTCCGGGGCATTATCGAGAAGATCGACTATATCAAGAAGCTGAACGTAGACATGATCTGGTTCAACCCCTTCTATGTTTCCCCGCAAAACGACAACGGCTATGATATCGCCAACTACAGGGAGATCGATCCCCTTTTTGGCACGATGGCTGACTTTGAAGAGTTGCAGGCCAAATTAGCAGACATCGGCGTGGGCGTGATGCTGGACATGGTTTTGAACCACTGCTCAACTGAACATGAATGGTTCAAGAAGGCTTTAGCCGGGGATGAAAAATACCGGAAGTTCTTCTACCTGCGGCCCGGCAAGCCTGACGGCAGCCTGCCAAACAACTGGCAGTCCAAGTTCGGCGGCCCGGCCTGGTCCAAATTTGGTAACACTGACCTTTACTACCTCCACCTCTATGACTCGACCCAGGCTGATCTGGACTGGCACAATCCGGAAGTCAGAAAGGAACTGGAAGACGTGGTCAACTTCTGGCGGGGCAAGGGGGTCCGGGGCTTCCGCTTCGATGTCATCAATGTGACTGGCAAGAGCGAGGATCTGGTCGACTCCACTGACCCAACCGAAGAAAAAACTCTCTACACCGATACGCCAGTGGTTCACGACTACTTAAAGGAACTGAACCGGACGACTTTTGGCCAAGACGAGGACTCTATCACGGTTGGGGAAATGTCTTCAACGACTATCCCCAACAGCGTCCGCTACACCAACCCTAAGGAAAAGGAGCTGTCCATGGTCTTCACCTTCCACCATTTGAAGGTCGACTACAAGGACGGGGAAAAGTGGACTAAGACGCCGTTTGACTTCATGAAGCTGAAGGGGCTACTCAGTTCCTGGCAGACAGGGATGACCGAAGGCGGCGGCTGGAACGCTGTCTTCTGGAACAACCACGACCAGCCTTGGGCCTTAAACCGCTTCGGCGATCCGGTCCACTACCGAGAAAAGTCAGCGGAAATGCTGGCGGCCACGATCCACTTTTTGCGGGGAACGCCATTCATCTACCAGGGAGAAGAACTGGGGATGGTCAACCCAGACTACCAGTCAATGGACGAATACGTGGACGTGGAATGCAAGAACGCCTACCAGGAATTGCTGGACAAGGGAATGAGCGAGGATGAGGCTTTTGCAATCATCAAGGCCAAGTCCCGAGACAACTCCCGGGTGCCAATGCACTGGGATGATAGCAAGTACGCCGGCTTCAGCCAGGTTAAGCCGTGGCTTCTGCCAACTCACCAAGACGAAATCAATGTCAAAAAAGAACTGGCTGAGGGAGAAATTTTCGCCTTCTACCAGAAGCTGATTGCTTTAAGAAAACAGGAAGCAGTAATTTCTGCCGGCGGCTTCCGGGAAATCCTGCCGGATGACCAGCAAGTTTTTGCCTATGTCAGAGAGCTGGACGGGGAAAAGTTGGTTGTCTTCAACAACTTCTATGGAAAAGAAGCCGTGATCTCCGTGCCAAGCGACCTGCAGGAATGCGGCCAGATTCTTTTGGACAACTACAAAAGAGAGCTCAGCTGCCTGCCAGGTGAATTGAGCCTGCGGCCATACGAAAGTCTGGCCTTTAGAATTTAA
>SRR1919932_01273 transposase
ATGTCCATATCAAAAGCAGCTGAGTATCTTAACGTTGCCAAGTCAACTCTCCGCAATTGGGAAGCTGAAGGACTGATTACGCCGCTTAGAACTGCCTCCAATCAACGTCACTACACTAAAGAAGTGCTAGATGAGGTTCTGCGCTGA
>SRR1919932_01274 ABC transporter ATP-binding protein
ATGAGGTTCTGCGCTGAATACAAGGAAAAGCTGAAGGTACTCAACCTGGGTCTGGAAGACCGGTTGACTGCTAAAGTAGGTCTTCTGTCCGGCGGGCAGAGACAGGCTTTGACCTTGCTGGTGGCAACTCTGGTCAAGCCGAAAGTTCTTCTCTTGGATGAACACACGGCGGCACTGGACCCGAAGACGGCGGAGAAGGTCTTGAAGGCGACCGACCGGATCGTCGCAGACGGCAAGCTGACCACGATTATGGTGACTCACAACATGAGGGATGCCATTGCCCACGGCAACCGCTTGATTATGATGAACGACGGCAAGGTCGTTTTAGACATCAAGGGTGAAGAAAAGAAGAAACTGACAGTGGAGAAATTGCTCCACCAATTTGAAGTCGTATCCGGCGAGGAATTCGCCAGCGACAAGGCAATTTTAGGCTAG
>SRR1919932_01275 peptide methionine sulfoxide reductase MsrB
ATGAACGAAAAAGTAGATTTGAAAGACCGGCTGACGCCAATGCAGTACGCCGTGACCCAAAACGCGGCAACTGAACCGCCTTATACAGGTGAGTACGACAACTTCTTCGAAAAAGGGATCTATGTCGACGTGGTCAGTGGGGAAGCCCTCTTTTCCTCTTTGGACAAGTACGATTCCGGTTGCGGCTGGCCAGCCTTCACCAAGCCTCTGGTTAAGCTGACCCAGCGCCGGGACCAGTCCTTTGGCATGGAAAGAACCGAAGTCCGCAGCCGCCAGGCTGACTCCCACCTGGGCCACGTCTTCACCGACGGTCCTTTGGACAAGGGCGGCCTGCGCTACTGCATCAACTCTGCTGCCCTCAAGTTCATCCCTTACGACCAGCTGGAAGAAGCGGGTTACGGCGAATACCGGCAGCTTTTCGAATAA
>SRR1919932_01276 hypothetical protein
ATGTCAGCAGTGATTTCCTGGCTGCCGTGCAAGATATCCTTGATTCTTGCAGCCGGCACATGGATGGCTTGCGCCAAGTCAGCAGCGCTAAGTCCTAACGGCTACAGGTATTCGTCATTGATGATTTCAGCAACTGTTGGCGTTTTGATAGATTCGGTCATTTTTTGCCTCCTTAAAATTATTTCTCTTGTACTGTTTGAACCTATTCTACCTCATCCAAAGCAGATTTTTTGGAACATGCATTCGGTAGAGAACCCCCGTCACTACAGCATTCTTACACAGCAAACTTTTTGTAAACTAGCCACCGCTAGCGCCTTTCTAGAAGAAGATCTTGCCACAAAAGTTTTTGGCCGATTTTTGGGCGAACGAAAACCCCCTTGGAAATTGAGAGCATATTCCAAGAGGGCGTTTATATCTTTTATCAGCATCATGCTTAGCGCATGGTGCGCTCGGCGCTATCTACCTTATTACCCATAA
>SRR1919932_01277 dTDP-4-dehydrorhamnose reductase
ATGAAAGTTTTTGTAACTGGCGTTAACGGCCAACTGGGCCATGACGTAATGAACGAATTGGCCAAGCGGGGCTACGAAGGCGTCGGCAGCGACTTGGCTCCGGAATACAGCGGGATCGCTGACGGCTCATCCGTTACTACTGCTCCTTACGTTTCTTTGGACATTACTAACGCGGAAGGCGTAAAGCAGGCCATCACTGAAGTTAACCCTGACGTGATCGTTCACTGCGCTGCCTGGACTGCTGTTGACCTGGCTGAAGACGACGACAAGGTTGCGGCTGTCCGCAAGGTTAACACCAATGGTACTCAAAACATCGCCAACGTAGCCAAGGAATTAGACGTGCCAATGGTTTACATCTCCACTGACTACGTCTTCGATGGCCAGGGCACTACTCCATGGGACCCGGACTTCAAGGGCTACAAGCCAATGAACGTTTACGGGGAAACCAAGCTGGGCGGGGAACTTGCCGTATCTGAAACTTTGGACAAGTACTTCATCGTCCGGATCGCCTGGGTCTTCGGCTTGAACGGGAAGAACTTCATCAAGACCATGCTTAACGTGGGTAAGACTCATGATGAAGTCAAGGTGGTCAGCGACCAAATCGGTACGCCAACTTACACTTTGGACTTGGCCCGGCTTTTGGTCGACATGATCGAAACTGACAAGTACGGCTATTACCACGCAACTAACGCGGAATTGCCAGAAACTGCCAGCGGCTATGATGAAAACGGCACGAAGACCGGCTACATCAGCTGGTACGATTTCACCAAGGAAATCTACCGCCAGGCCGGCTACAAGACCAAGGTAACTCCGGTTACCACGGAAGAATACGGCCTCTCCAAGGCTGTACGGCCATTCAACTCACGTTTGGACAAGAGCAAGCTGGAAAAGAACGGCTTCAAGCCGCTGCCAACTTGGCCAGACGCCGTGCACCGCTACTTGGAAGCCTTGAAGGCTGACGGCTTCTTTGACTAA
>SRR1919932_01278 dTDP-4-dehydrorhamnose 3,5-epimerase
ATGACAATCGAAGTAATCAAAGTTGAAAAGAATGTCGGCGGTATTGAAGGTTTGGCAGTGATTACGCCAGCAGTTCACGGGTATGACCGTGGCTACTTCATGGAAACCTACAACGAAAACGACATGAAGGAAGCTGGTTTTGACATCAACTTCGTCCAAGACAACCAATCAAGCTCAATCAAGGGCGTTTTGCGGGGCCTGCACTTCCAAAAGCACTTCCCGCAATGCAAGCTGGTCCGGGCCGTGCGTGGGGATGTCTTCGACGTTGCCGTTGACCTGAGAAGCGACTCCAAGACCTACGGCAAGTGGTACGGGGTGGAACTGACCGCTGAAAACAAGAAGCAGTTCTTGATTCCAGAAGGTTTCGCCCACGGCTTCCTGGTTTTGAGCGACGTGGCTGAATTCTGCTACAAGGTTAACGACTTCTGGCACCCAAACGATGAAGGCGGCATGGCTTGGAACGACCCTGAAATCGGGATTGAATGGCCGCAATTGGTTGGCGAATACCCGGGCTCAGCTGATGCTAGCGGCTACGCTTTGGAAGACGGTACTAAGCTGACTTTGTCCGACAGGGACCAAAAGTGGCTGGGCCTCAAGGACACCTTCAAGTTCTAA
>SRR1919932_01279 glucose-1-phosphate thymidylyltransferase
ATGTTAACGGGGATCAAAGATGTTTTGATTATCTCCACATCGACTGATACGCCCCGCTTTAAGGAACTAATGGGTGATGGCTCCCAATTTGGGATTAAGCTCTTTTACAAGGTTCAACCCAGTCCAGATGGCTTGGCTCAAGCCTTTACCTTGGGCGAGGACTTCATTAACGGTGAACCTTGCGCCATGGTTTTGGGTGATAATATTTTTCACGGAAATGGTTTTACCAATATGATCAAAGGCGCGGCAGAGGATGCCCGAAAAGGGAGAGCAACCGTTTTTGGCTACTATGTTAATGACCCTGAACGTTTCGGAGTGGTTGAATTTGATAAAAGTGGTAAAGCTATTTCGATTGAGGAGAAACCTGCAAATCCAAAAAGCAATTATGCTGTAACTGGTCTATATTTCTATCCATCGGGCGTGAGTCAGAAAGCAGCAGAAGTTAAGCCAAGCAAACGTGGTGAAGTTGAAATTACATCATTGAACGAGATGTACATCAAAGAAGAGCGGTTAATCGTTCAGCAGTTAGGTCGCGGTTGTGCTTGGCTAGATACTGGAACGATTCATAGTCTCATAGATGCCTCCAATTTTGTCAAAACGGTTCAAGAGAGAACCGGAGTAAGTATTTCTGCAATAGAAGAAATTGCCTACACTAATGGCTGGATTGATAGAGACCGGCTTAGAAATTCTGCAGCTTTTTACGGAAAGAGTACTTATGACAGGCATTTGAAGGCAATCGCTGATGGTAGATTTTTTAGAAAGGAATGA
>SRR1919932_01280 glucose-1-phosphate thymidylyltransferase
ATGAAAGGAATCATTTTAGCAGGCGGTTCTTGTACCCGCCTTTACCCACTTACTTTAGTTACCAGCAAGCAGCTGCTGCCTGTTTATGATAAACCAATGATTTATTAG
>SRR1919932_01281 dTDP-glucose 4,6-dehydratase
ATGAAAATTATCGTTACCGGCGGTGCTGGCTTTATCGGTTCCAACTTTGTCTTCTACATGATGAAGAAGCACCCAGACTACAAGATCATCTGCCTGGACAAGCTGACTTACGCGGGCAACCTGTCAACCCTGAAGGATGTCATGGACAAGCCAAACTTCCGCTTCGTCAAGCTGGACATCTGCGACCGCGAAGGCGTCTACAAGCTTTTTGAAGAAGAACACCCGGACGTTGTTGTTAACTTCGCCGCAGAAAGCCACGTTGACCGGTCAATCGAAAACCCGGAAATCTTCCTGCAAACCAACATCATCGGTACTTCCGTTTTGATGGACGCTTGCCGCAAGTACGGGATCAAGCGTTACCACCAAGTATCAACTGACGAAGTTTACGGCGACCTGCCGCTGGACCGGCCAGACCTCTTCTTCCACGAAGACACGCCGCTGCACACTTCCAGCCCATACTCATCATCAAAGGCCAGCGCTGACCTTTTGGTCGGGGCTTACGGCAGAACTTACGGCCTGCCTGTAACTATTTCCCGTTGCTCAAACAACTACGGCCCTTATCAATTCCCGGAAAAGCTGATCCCATTGATGATCCAAAGAGCCTTGGACGACAAGCCTTTGCCAGTTTACGGTGAAGGTCAAAACGTCCGCGACTGGCTTTACGTTGAAGACCACTGCAAGGCCATCGACCTCATTTTGGAAAAGGGGACGGTTGGTGAAGTCTACAACATCGGCGGCCACAACGAAATGCACAACATCGACATCGTTAAGCTGATCTGCGACTACCTGGACAAGCCTTACTCCTTGATCGAACACGTTACTGACCGCAAGGGTCACGACCAACGTTACGCTATCGACCCAACCAAGATCCACGATGAACTCGGCTGGTTGCCGGAAACCATGTTCAAGGACGGTATCAAGAAGACCATCCAATGGTACCTGGACAACAAGGAATGGTGGGAAAACATTATCTCTGGAGGATATCGAAAGAATTATTAG
>SRR1919932_01282 TetR family transcriptional regulator
ATGTCAGAATGTTTAAAGCTGCACATCTCGCAAGTTTTTAAAGATGAGGTGGCCAAAAACGGCTTTAACCATGTCAGTGTTGCCAAGATCATGAAGCAAAGCGGGATTAGGCGACAGACTTTTTACGAGAACTTTAAGGACAAGTTTGACCTTTTGGACTATACGATCAAGTCGATGATGGAAAACGATATCGAGAGCAATATCGGCTACCTGGACTGGGAAGGTATCATCTTTTTGGTCTTTTACGGGATCGAACTGAATAAAAAGTTCTATAAGAGCGTCTATGAAAGCCAGACAGAGGTTGATGTGGTCGGGGAAATTTCCAGCCATATTGCCGTTTTGCTCAAGCAGATCATTGAAGAAGAAGGGGCGGATTTTGATCAGCAGGCCAAGGACTTTGTGGAAACTTTTTGCCTGGGTCTGACTTATACAATGATTGACAACCTTTTCCGGCCACACCCGCTGGAATACGACGTTATCGCCAGCAAGGTCGACAACGCCCTCCACTTCACCTTGAATCTGTAA
>SRR1919932_01283 glycerol uptake facilitator protein
ATGAATGGATTTTTAGGAGAGTTCTTAGGAACGATGATTTTGATCGTGCTGGGTGTCGGCTGCGGGGCCGGGATCAGCTTGAATAAGGCTTATGCCAAGGGGCAGGGCTGGCTGTTTGTCACCCTGGCCTGGGGAATGGCGGTAACCTTCGGCGTTTACGTGGCTGGCCAATTCGGCGCACAAGGCCACATCAACCCAGCGGTAACTATTGGTTTCGCGGCCTTCGGCTTCTTCCCATGGAGCCAGGTAATGCCGTACTTGCTGGGGCAATTCCTGGGCGCCTTTGTCGGGGCAGCCCTGGTAATCCTGCACTACTACCCGCACTTTAAGGCGACTAAGGCTGATGAAGGCAACAGCGTGGGGATTTTTGCGACTGGCCCAGCCATCAACAACCCTGTTTTCAACTTCTTGAGTGAAACGATCGCGACTTTTGTCTTCATCTTCACCTTGCTCAACCTGGGCAACTTCACCCAAGGCTTAAAGCCATTAATTGTTGGTTTCTTAATCATGGTTGTTGGTCAAGCTTTGGGTCCAACGACTGGCTTTGCCTTGAACCCAGCCCGGGACTTCTCACCACGTCTGGCCTACGCGATTTTGCCAGTGCCAAACAAGGGCGTGGCTAACTGGGCTTATGCCTGGGTTCCTGTCTTAGGGCCAATCGCCGGTGGTCTTTTAGCTAGCGGCCTGCAGGCATTGTTGAAATAG
>SRR1919932_01284 mannose-specific PTS system IIA component
ATGACTTACGGTATTTTGATCGTGTCCCATGTGCCTGAAATCGCGGCTGGTTTACCAAAATTGCTTAAGCAGGTAGCGGCTGACGTGCCGATTACCTTTGCTGGTGGTACTGATGATGGCGATATTGGGACCAGTATGGAAAAGATTGGGCAGGCAATTGAAGAAAATGCTGCTGACGAGCTGCTGGCTTTTTACGACCTGGGCAGTGCTAGAATGAATCTGGACATGGCTGGGGAGTTTGCCGAGAAAAGGGTCCGCGTTTATGACGTAGCCTTGATCGAAGGTTCTTATGTGGCGGCTTCGCTCTTGCAGGCTGGTGTTGGCTTGGCTGAACTTGAAAGCCAGCTGGCGCCTTTAAAGATTAAAGGAGATGACTAA
>SRR1919932_01285 dihydroxyacetone kinase
ATGGAACTGACGACTGAACTTTTAGACAAGTGGATGGCAATTTTTGCGGAAAAAATCGAAGCCAACAAGGCTTACTTAAGTGACCTGGACACCCCGATTGGCGATGGAGACCACGGCAATAACATGGCCAGAGGGATGTCAGCAGTTGAAGAAGCCTTGCAGACTAAAGAGCCAGCTGATTTGACCTCAGCTTTAAAGCTGGTGGCGATGTCTCTGATCAGCAAGGTCGGCGGGGCTTCAGGTCCACTCTACGGGACAGCCTTCTTGGAAATGGCCAAGTTGAGCAATAGTGAAACTGACCTGGCTAGATTGACTGAAGCAGCCCTTTTGGGGATCAAGAAGCGGGGCGGCGCTGAACCTGGCGATAAAACCATGGTTGATGTCTGGTCAGCGGTCGTACCGGCTTTAGCTAAAGACAACTTAACTAACGATCTCATTCAAGAGGCAGTTGAAAGCACCAAGCCGATGCAAGCCAAGAAGGGTCGGGCATCTTACTTAGGTGAGCGGTCAATTGGTCACCTTGACCCAGGTTCCGTTTCAAGCGGCTACCTTTTCACGGCTTTGCTGGAAGCGGAGGCATAA
>SRR1919932_01286 dihydroxyacetone kinase
ATGAAAAAGATAATTAATGACCCAAGCAATGTTGTTGAAGAAATGGTAACTGGCCTAGCCGGAATGTACCCGCAATACGTTGAACGGATCCCTGGCACGGCTGCTTTAGTCCGCAGCGACAAGGACTCAATGACCGGCAAGGTTGGTCTGGTCAGCGGCGGTGGCAGCGGCCATGAACCAGCCCACGCTGGTTATGTTGGTAAAGGGATGCTGACTGCGGCTGTTTGCGGGCAAGTCTTTACTTCCCCGACTCCAGACCAGATCTACGAAGCAATTAAGGCAGCCGACCAAGGCAAGGGCGTCTTCTTGATCGTCAAGAATTATTCTGGTGACGTGATGAACTTTGACATGGCCAAGGATTTGGCCGCTATGGACGACATCGAAGTCCGCTCTATCGTGGTTGATGACGACATTGCCGTGGAAAACAGCCTTTACACTCAAGGCCGGCGCGGGGTGGCCGGGACCGTCTTTATGCACAAGATCTTAGGTGCGGCTGCTGACCAAGGTGCCAGCTTGGATGAGATTGAAGAATTAGCCAAGGCAGTATTGCCACACATCAACACGATTGGTGTTGCCTTGTCAGCAGCTACGGTGCCAGAAGTTGGCAAGCCGGGCTTCGTTTTAGCTGATGACGAGATTGAATACGGGGTCGGGATTCACAGCGAACCAGGCTACCGCAGAGAAAAGATCAAGCCATCTAAGGACCTGGCCCAGGAACTGCTCGGCAAGATCGATGAAAGCTTGAAGCTGTCTGCTGACAAGAAGTACGCCATCTTGGTCAATGGGATGGGGGCAACGCCTTTGATGGAACAATACATCTTTAGCAAGGATGTCCTGGACTGGCTGGGTGCTAAAGGCATTAAGCCTGTCTTCACTAAGGCCGGCAACTACATGACCTCCATCGACATGGCTGGTATTTCCTTGACGGTGATGGAAATCGCGGATGACAAGTGGCTGGACTACTTGAACTACCTAGTTAAGACGATTGCTTGGTAA
>SRR1919932_01287 poly-gamma-glutamate biosynthesis protein
ATGCTCTTTATTTTCTTTTGTGCCTTCTTGGAGTTCTTGACAGCCTTCTCAGCCGCCTCGTTTGTGCTTTGGGCAGTGCTATTGGCTTACTTTGGCCTGGCGGCCTGTCTGCTTTTTTCCAGCAAGCTGCGGGAATATGGACCGCTGATTTGGACGCTTAGTTTCGGTATTATTTTTACAACCTTGGGCTGCAAGTGGCTTTACGCGATTCACGAGGAATATGGCTACCTGGCTTTGCGGAACATCTGCTTTCAAATTTTGTCTCTGATCCTGCTCTTGACATATGTCAAGGATGAAAGCGATCTATTGCTGTATACTTGGACTACGGTGGCGGGCAGCGCGGGGGCCAACTTGATCAACTTTCTGAGGTTACGTAAGTACTGCACCTGGTCTTTGACCTGGCGCTTTTCCTGGCAAAAGCACCTCCTGCCCATCCTCGGCTTATTCGCCAACTCTCTGGTCAACCTGCTTTACGTAAGCGCGGATGTAGCCCAGCTGGGAGTGATGACCAGCGACTATTATGTAGGCCTTTACTTGGTGGCCAGCAAGGTTACGGCTCTGCTTAAGCAATTGTTAGGTGCTGTGATCGTTGTGACCGTGCCGCGTCTGGCCTGCTTATATGGGCAAAAGGGCGGAGAATTTTTTCAAAAATTGGCCCGGCAGATCGAGGATTTAGATTTCGCGCCGGCTGCAGGGGCGGCGCTGGCAACCTTGCTTGCCGACCTGGTGATTTGTCTAGCTTGTTACTTTTTGGCGAAAAAGTCGGCCCGCCTCTTGCCCAGCGGGAAAAAGCTGGCCAGCAGTTTGCTGGGCTGTCTTTATGTTTACTTGGTTTGCCAAGCTGCTTTAGCTAAAGGCCTAGGGCCTGGAGCGACGGTCTTTTGGGCAGCCCTCTGGGCCATCCCTGGCTACTTTGTGATTTTATATATGCTTGGCAACCGGGTCTTGCTGGAATTTAAGCGCGGAAGTAGATAG
>SRR1919932_01288 DNA-entry nuclease
ATGAAAAAGAAAAGAATAATTTTTGCTGCCGGTGCGGTTGCTCTGCTTTTTGCCGTGACTTCTACCAAGCCGGTTGATTCCCAGAATTATCCAAAGATTACCGTTAAGACCAAGCGGGTCAATAAGTATAAAGATAAAATCGAAGACTACGAGTCTGATAATCTTACTTTAGAAGTTGAGACTGATCTTATTAAGGATAAGACTGAGGAAGCTAAGGAAAAGCTGGCCAAAAAGCCGGGTAGTAAGACCAGCCAGACTACGTCCGCGAAAGAAACTGCTTCTGCTAAGTCAAAGCAAACTGATCTGGCATCCCTGACTTATAGCGGGCAACTGTTTACTGAAGTAAATAACAACCAACCAGACTTTAGCCAAAGTGACCTGACAACCAGCCGTGGTGCCTGGCAGACCTACGGCAATCTGGACAGCTTGAACCGGGCTACTACGGCCAATGCAATGCTGAATCAGTCCCTGATGCCGACTGCTAAAAGAGAACCATTGCACTGGGATCCAACTGGCTGGCACAACAAGCGGATTTCTAGCGGTTGGCTCTATAACCGGAGTCACTTGATCGGCTACCAGCTGACTGGACAGAATAACAACCCGAAGAACCTAATCACTGGTACGGAAGAAATGAACGTATCGGGGATGCTGCCATACGAAAATGAAGTAGCTGACTATTTGAAGGAATCTTCAAATAACTACGTCCGCTACCGGGTTAAGCCAATCTTCAAAGGAGATGAGCTTCTGGCCCGTGGCGTTCAAATGGAGGCCAAGTCTGTTGGCAGCAATGCGGTTTCCTTTAACGTCTATGTCTTTAACGTCCAGCCCGGCGTTGTTTTGAACTACAGCGATGGTACCAGCCGGGTACAGAATTAA
>SRR1919932_01289 hypothetical protein
ATGAGGATATTTATGGCCGTATTATGGCCCATATTGCTAGTAGCATCTGCTGCTATGGCGACGATCAGCTATCGTAAAAAAAAATCTGGTAAGGCTGATAAAGATTACTATTCAGTTAGAGGGTGGGGCAGCTTTGCCTTTTTGTCCCTGCTAGGCGTTATGATGAGCTATCTGCCGTTAGGAATTTTAAGTGTAGGGGGATGCCTCTTTATTGCCGCTTTTGTTCTGATGTATTTTGCCTACAGTAAAATAGAACACAAGTTAAAGGTACAAAAGGCAACCGCCTGGCTCTTGCTGGCCCTTTCTTTTGTGACTGTCGGTGTTGGCAGTGTAGCCGCGGAAGAATACAGTCCGCGGACCAAAGTCGTGGTTAAGTATACTGGCGCTAAGGAATACCAACAGGTAAAAGAAAAGAACGCTGCGCTGATTTCTGCCAAGAAGGCCGCCTTGTTGGTCTACGCGCCTCTGGCTAAGAAGGTTAAGAAGCTGGAAGCCCAGGAAAAGGCAGAAAAAGAAGCTGCTGCAAAGGCTAAGCAGGAGCAGGAAAAGCAGGCAGCTGAAGCTAAAAAGGCAGCTGAAGCCGCCCGTAAAGCCGCGGAAAAGCAAGCCGCTGCCGCATCTAGTGCCAGTGATTCAAGCACTGATGACTCAGCTGATACTTCAAGTGATCAGCACGGTGATATGAACACGGCTGACTCTCAGAAAATTGTTGGTAATGTCAACTCAAAAATTTATCATGTCCCTGGCCAGTCCGGCTACCGTATGAATTCGTCAAACGCTGTCTACTTTAACAGTGAAGAAGAAGCGCAGAGAGCAGGTTACCGGAGGGCTAAGAGATAA
>SRR1919932_01290 TetR family transcriptional regulator
ATGGAAGCCGATGTCGAAAGCAACATCGACAGGCTGGATCGGGAGGAAATTATCGCACAAGTTTTCTATAGTGCTGAGCTGAACAGGGATTTTTACAAAAGCGTATATTCAAGTCAAAAAGAGATCGACGTGATTGGTGAGATTTCGCGGCATGTTGCAGTGCTGCTGCGAAAGATCATCAAAGAAGAAGGCATGACCGACAACCACAAGGCCAGTGACTGCGTGATGGTATTCAGGATTGGCTTGACCTATACGATGATTGACAGCCTCTTCAGCCATCACCCGCTCGACTACGATGTAATCGCTGACCGGGTTAATAGTGCCTTGCATTTTACACTCTCTAATCACACTAGTGAGGAATAA
>SRR1919932_01292 alpha-amylase
ATGGCTAGCGATACCAAGATTGACTTGCGCAAGCAAATGATTTACAGTATTTTTGTCAGAAACTACTCGCCAGAGGGCAACTTCGAAGGGGTCCGGAAGGATTTGGACCGGATCAAGGACTTGGGGACGGACATCATCTGGCTTTTGCCGATCCAGCCGTCAGGCAAAGAGAAGCGGAAGGGGAGCCTGGGTTCACCCTACGCAATTTCCGACTACCGGGCTATCAACCCGGAATACGGGACTATGGAGGACTTCAAGCGCCTGTGCGATGACGTTCACGCCAAGGGGATGAAAATCATCATCGACTGCGTCTACAACCACACTTCCCCAGACTCAGTCCTGGCTAAGGAGCACCCGGACTGGTTCTACCACAAGAAGGACGGCAGCTTTGGCAACAAGGTGGGCGACTGGAGCGACGTTATCGACTTAGACTACAGCCACAAGGACCTTTGGAAGTACCAGGCAGAGACTTTGGTCATGTGGGCCAAGTATGTGGACGGTTTCCGCTGCGACGTGGCCCCGATGGTGCCGGTGGACTTTTGGAAGTATGCCAGAGAAGAAGTGGCTAAGGTGCGGCCAGGGGCTATTTGGCTGGCTGAATCTGGTGCCCCGGACTTTATCCGCTTCTTGAGAAGCAAGGGGGCAGTCGGTGGGTCAGATTCTGAGCTCTACCAGGCTTTTGACATGACCTATGATTATGACATCTACCCAGATTTGCGGGCAGCGCTGCTGGGGCAAAAGGATCTGACTGACTACTTGGCTGGCCTGAACCGGCAAGAAGGGGTCTACCCGGAAAACTATGTCAAGGCGCACTTTTTGGAAAACCATGACGTGGTCCGGGCGCACGGGATGATCGATGATCCGGCGGCCTTGCGGGCAATGACGGCCTTCATCTACTTCATGAAGGGGGCCATGCTGGTCTACAATGGGGAAGAAAAGGGGGATGCCCACCACGTGACCCTGTTTGACAAGGATCCGGTTGACTGGACCGGCGATATTGATTTGACGGATCTCTTAAAGAAGATGCATGAAATCAAGCAGCTGCCAATCATGGCTGAGGGCAGCTATGAGGCTAAAGAGGTCAGAAAGGGCGTTTTGGAAGCTGTCCACAGCCTGGGTGAAGGCGAAGAAGAAGAGCAGTTGATCGGCTTGTTTAATACGACCGGCAAGAAGCAGGCGATTCCGACCCAGCTGCCAGAGGGAATCTACAAGAACCTTTATGATGGCAGCAGCGTACAGGTTTACGAAGGAGTCATGCGGATCGGCGAGATTACCATTATTGAGAAATAA
>SRR1919932_01293 major facilitator superfamily transporter
ATGAAGACTAATCGTTACATTGTTGCTTTGGCGGGGGTCATGCTGCATCTGATGATCGGCTCAGTATACGCTTGGAGCGTCTACACTAAGCCAATCGCGGCACAGACCAGCTGGAGCGAATCATCAGTTGCATTTGCATTTAGTTTGGCCATCTTCTTCCTGGGGATGTCCGCGGCTTTCATGGGCCGCCTGGTTGAAAAATTCGGCCCGACCTTGACTGGGACTGTTTCCGCCATCCTTTACGGGAGCGGAATCGCCTTGACTGGCCTGGCTGTTCAAAGCCAGCAGCTCTGGCTCTTGTACGCTTCATACGGCGTCATCGCTGGTCTGGGCCTGGGTGCCGGCTACGTCACCCCGATCTCAACCATCATCAAGTGGTTCCCGGATAGACGGGGTTTGGCTACTGGCCTGGCCATCATGGGCTTCGGATTTGCCGCTCTTTTAACCAGCCCGGTCGCCCAATTCCTGATGTCAAGCGTTGGCTTGTCCAATACCTTCTACATCTTGGGTGCCGGCTACTTCTTGATTATGATCGTATCTGCCCAGTTTATTAAGCGGCCAACTGCTGAAGACCTGGCCAACTTCAAGAGTGAAGACAAGGAAGCTGTTTCCTTGACTGGCGGCCTGCAAATGACGGCCAACCAAGCACTGAAGGCCAAGGCCTTCTACCTGCTCTGGTTCATGTTCTTTATCAGCATCACCTGCGGGATCTCCCTGGTCTCCGCTGCTTCACCAATGGCCCAGGAACTGACTGGGATGAGCGCGGCTACTGCCGCTGTCATGGTCGGCATCATCGGCCTCTTCAACGGCTTTGGCCGGCTGGTTTGGGCAACCTTGTCCGACTACATTGGCCGGCCTTTGACCTACAGCTTGATTTTTGTCGTTGACATGGCCATGTTCGTGATCTTGATCTTCACCCACTCACCATTCATCTTCGCTGTAGCCCTCAGCCTTTTGATGTCCTGCTACGGAGCCGGCTTCTCAGTTATTCCGGCTTACCTGGGCGACGTCTTTGGCACTAAAGAACTCGGCGCCATCCACGGCTCCATCTTGACTGCCTGGGCGGCAGCCGGCATGGTTGGCCCGCTCCTGCTCTCCTTCACCCACGAAGTTTTGAAGAGCTACTACGTGACCTTGGCGGCCTTCATCATCCTGGCCGGCCTGGCCCTCTGCGTCTCCTTCCTGGTTCAGCGCGAATTTGCCAAGCTGACCGACCTGACTGATGAATTAGATTAA
>SRR1919932_01294 XRE family transcriptional regulator
ATGATGCTTCCAAGCAAGCTGCGCGACCTGCGCAAGAAGCATGGCTTAAGCCAAAAAGAATTAGCGGAAAAATTAATGACCACACAAGCCAAGGTGGCCAGCTGGGAAAACGGCGACAGCGTGCCCGACATATCATACATCGCCAAACTGGCGGTTTTATACGACGTGTCAGCTGACTACCTGCTGAAAGACGACAAGCAAGAAGGGCAGACCATCGAACCAGGCGAAGAGATGGACCGGCAGAACACTAAGCGCCTGGGCAGGATCAACAGCATCTACTGGACTATCGTCATCGCTGTCTACCTGCTGGCCAGCATCGCGACCGGCCGCTGGTCCACCAGCTGGGTCCTCTTTATTTTAGGAGGCGCCATTTGGCTCATCGGGGCTGGTTTTCACTGGATCAATTCGACTAAATAA
>SRR1919932_01295 hypothetical protein
ATGAAGAATTACATGCAACATCTTAAAGAGCGGGCCATTAGCGCTTATCCACCCAAGACCAGCCGGCGGTGGAGTATCTGTATTGCAGTTGCTGTCATCATTGGCCTGCTGCTTAGCCATTTTGGCCAGGCCAATTTCGGGGCCTCGCTTGCTGATTTCGCCCTGTTTTGCGGGATTGACTTGTTAGGAGTAACTTTTGCCAAGCACGGGGTCAATATTTTTCTGGCCTACTTACTGGCGGCAGCCTTGTATTTTGCGGTTTCTGTCTTATTGACTTTTTACATCATGTCATCCAACAATTTATAA
>SRR1919932_01296 helicase
ATGCTGAAAGACGGTATTTATGAACAAATCCTTAACCAAGAAATCCTGGACCAGCTGGAAAAAGTCGACCCAAAAACCAGGAATTATCAACTAGAACAGCTAAACGCTGATGACTCCCGCCAGCTCTTGACCATCTACCTCTCCCAGGTCATCCGGTCGGGCCTGCACTACCTCCGCGACATCTTCAAGTCCGGTGAAGACAAGGCTGCCCTCATCGCCCAGATCCGCCTGGCCAACTCCATTGTCGACCAGGTCGCCCTGCATACCGGCGAAGCCGACTACGAGGACCTGCAGATCCTGGAACAAGGCGAAGTCCTGACCTCCATCTACCACAAGCTGACCCAGTCCCAGAAGATTACCCCTATCCGGCCCCAGACTTCCATAGTTGAGAATGCCCTTTTTACCGGCAGTAAAAATGAGCCCAGCATGCTCAGCGAAATCAAGAAGGAAATTTCCTCTTCTGACCAGGTCGACTTGCTCGTTTCCTTTATTAAGTGGTCGGCCATCCGCCCTCTTTTAGGAGATTTGGAAGCTTTTTGCCAAAAAGCCGGCCACCAGCTACGGGTGATCGCGACAACCTATACCCAGGCAACTGACTACAAGGCTATCCTGACCTTGAGCCAGCTGCCCAACACTACAGTCAAGATCAACTATGAGACCGACCACGCCCGCCTACATGCCAAATCCTATCTTTTTAAAAGAGAGACTGGCTTCTCCACCGCCTACATCGGTTCCTCCAACCTCTCCAGCGCTGCCCTGACCACGGGCCTGGAATGGAATGTCAAGGTCACTGAGCAGGAGTCTTTTGACATCGTCAACAAATTTGCTGTCTCCTTTGAAAGCTACTGGAACGACCCTTCTTTTGAAACTTTTGACCCGGATCAAGAAGACTGCCGGAAGAAACTGCAGACAGAACTGAACCGGCATAAGGCAAATACTTTCCACTTGGAAACCAGCATCCGGCCCTACAACTACCAGCAGGAGATCCTGGACCGGCTGCAGGCTGAGCGGGAAGTTTACGGCCATTATAAAAATCTCCTCGTCGCCGCCACCGGGGTGGGGAAAACCGTCATCGCCGCCTTTGACTTCAAGCGCTACTTGGCAGAGCATCCCCATGCCCGCCTCCTCTTCGTCGCTCACCGGCAGGAAATCCTGGAGCAGAGCCTGCAGAAGTTCCGCGAAGTCCTCAACGACTTCAACTTCGGCCACTTGCTGGTCGGCCAGTACAAGACTGATGATGTCAGCCAACTTTTCGTCTCCATCCAGTCCTTTAACTCAGAAAAAATGGCTGATCTCTTGCCCAGCGACTACTACGACTTCATCATCATCGACGAATTCCACCATGCCGCGGCCAAGTCCTACCAAAAGCTGCTCAGTCACTTCAAGCCCAAGATCCTTCTGGGCCTGACCGCGACCCCCGACCGGATGGACGGGCAGGATATCTTGCAGTACTTTGACGGCAATATTGCCGCCGAAATGCTGTTAGGCGAGGCCATCGACCGCCAGCTCCTCTGCCCCTTCCAGTATTTCGGGGTCACCGACAATGTTGACTACTCCGGCATGAAGTGGAGCCGGGGCCAATACGAGGTCAGTGAGCTGGAAAATGTCTATACGGCTAACGACGCCCGGGCCAAGTTAATTTTGCGCAGCCTGGACAAGTACAGCAACAATTTGGAAGACATCAAGGGCTTAGGCTTCTGCGTCAGCGTCAAGCACGCCGAGTTCATGGCCGCTGCCTTCAATCAGGCCGGCATCCCTTCCGCTGCTTTGTCTGGCCAGACTGCCCAGGCTGACCGCCAGCAGGCTAAAGAAGATTTGACCTCCGGCAAGCTTAAGTTTATTTTTGTCGTTGACCTCTATAACGAAGGGGTCGACATCCCAGCCGTCAACACCATCCTTTTCCTGCGGCCAACCCAAAGCCCGACCATCTTCCTCCAGCAACTGGGCCGGGGCCTCCGCCTCAGCCCGGGCAAGGATTGCTTGACAGTCCTGGACTTCATCGGCCAGGCCAACCGCCACTATAACTACGAGGCCAAGTTCAAGGCCCTGACCGGACCAGGCCATGCCCTGCCATATGAAATCAGAGATGGCTTCCCGCACCTGCCGGCAGCCTGCTATCTGGAGCTTGAGCCCGTTGCCAAAAAGTACATCCTGGCCAACCTTGGCCAGAACGCGGCTAACAAAAATGGCTTGACCCAGCGGGTGAAGACTTTTAGCGAAGACACGGGCCTGGAATTAAACTTGGCTAACTTCCTCAAGGCCTATGGCATGAGTCTTTATGACTTCTACCACGCCAGCGGGTCGCGTTCACTTTTCCGCTTGAAGAAGTGGGCCGGACTGATTACTGACGACCGGGACGTGGAAAACCAGGTCTACCAGAAGTTCAGCAGCTTTTTCCACATCGATTCCAAAAGGCTCCTGGACTACTGGCTGGCTTACTTGAAGATGCCAAAAGAGACAAGTAATGAGACTGAACGCTTGATGCTGGGGATGCTCTACTACAGTTTCTACAAGAAAAAGCCGGCCCAACTGGGCTTTAAGGACCTGCATGAAGGGATCAAGGACTTTTTAAAGGAAGACTTCGTCAAAGAGGAATTAATGGATGTCCTCCGCTACCAGCTGAGCCAGTTGACCGTCTTGCCGGAAGCTAACGAATACCCCTTCACCTGTCCCTTGGAAGTCCACTGCCACTACAATGTCAACCAGATCATGGCGGCCTTTGACTACTTCAACCAGGGCCAGTCCCCGGAATTCCGGGAGGGGGTCAAGTACTTCGCTGATAAAAAGACGGATATCTTCCTTATTAATCTGAACAAGAGTGAAAAAGACTTCTCCCCGTCAACCATGTATGAGGACTATGCCATCAATGCCCAGCTTTTCCACTGGCAGAGCCAGAGCCAGGACCGGCCAGCCAGTCCCAAAATCCAGCGCTATATCCACCAAGGCGAGACCGGCAATCTGATTTCTCTTTTTGTCAGAGAGTTCAAAAAGCAGGGAAATTATACAGCAGCTTACACTTTCTTAGGCAACGCGGATTATGTTTCAAGTGCAGGCGAGCGGCCGGTTTCCTTTGTCTGGCACCTCCACCAGGCGATTCCGGCCAGTCTTTTGGCCAAGGCCAACAAGGCAATTGCCCTGTGA
>SRR1919932_01297 UDP-glucose 4-epimerase
ATGAAAATTTTAGTTGTAGGTGGTGCCGGCTACATCGGCTCCCACGCTGTAAGACGGCTGGTTGCCGATGGCAATGACGTAGTCGTTTTGGACTCACTGTTCACTGGTCACAAGGAAGCTATTGACCCAAAGGCCAAGTTTTACCAAGTTGACCTTTTGGACAAGGATGCGGTAGCTGACGTCTTGAAGAAGGAAAAGATCGAAGCTGTGATGCACTTTGCTGCTTACTCTTTGGTCGGCGAATCAGTCAAGAAGCCGCTGAAGTACTACAAGAACAACGTATCCGGCATGATCAGCCTGCTGGAAGCCATGGAAGAAACCGGGGTTAAGTACCTGGTCTTCTCATCCAGCGCTGCGACTTACGGCATCCCTGAAAAGCTGCCAATCACTGAAGAAACTCCGCTCAACCCAATCAACCCTTACGGGGAAACCAAGATGATGATGGAAAAGATCATGCACTGGGCTGACAAGGCTAACGGGATCAAGTCTATCGCCCTGCGCTACTTCAACGTGGCGGGTGCTTCCCTGGATGGGTCAATTGGTGAAGACCACCACCCAGAAACCCACTTGATTCCTAACATCATGAAGGCTGCCCTGGCTGGCGGCGGTGACTTTACTATTTTTGGCGACGACTACGACACCAAGGATGGTACTAACGTCCGCGACTACGTGCACGTGGTTGACTTGATCGACGCCCACGTCCTGGCTTTGAAGCACTTGATGGAAACTAACCAAAGCGACGTCTTCAACCTGGGTACGGCCACCGGCTTCTCCAACTTGGAAATCCTGAAGGCCGCCATCAAGGTTACCGGCGTTGACATTCCTTATACTATCGGGCCACGCCGCGGCGGTGACCCGGACTCACTCGTTGCTGACTCAAGCAAGGCCCGGAAGGTGCTGGGCTGGAGTCCGAAGTACGAAAATGTCGACGACATCATCGCCAGCGCTTGGAACTGGCACCAAAAGTATCCTAACGGCTTTAGCAAGTAA
>SRR1919932_01298 dipeptidyl-peptidase
ATGTACGGCTTGATCAATCAACCAGCGGTCTTCATGACGGAAGACGACCTCAAATCCAGAAGCGATGAACTTTTATACGGCTGGGCTGTCAAGGCAACCGGTAAAAAGGAAGACTTTTGGTACGTAACCAGTCATTACGGCTATAAGGGCTACGTGCCAAAGGCCGCGGTAACTCCAGTTAGCCTGGAAGAAATCAAGGCGCGGGAGGTCAAACTCATCCGGCGGCCAGTAATTGACGTCCTGGCTGAGCCCAAGGTTTCAGGCGACATTCTGTTGACGGTTTATAAGGGCAGCCTGCTTAACGTGACGGATGAGCTTGTGGACGGCTATTACAAGGTTAAGCTCTTGGACGGACGAAGCGGCTGGGTTTCCAAGACGGCCTTGGCAAAGCGGCTGGATGAAGATGACGTCTTGTGGTCAGCAGATCCGGAATACTTTTTGCTCCAAGCCAAGCCGGATGAAGAAAGCTTCAGAAAGCAGGTAACGGAGACCGCCAAGGAGTACTTGGGCTGCCAGTACCGGTGGGCGGGCAAGAGCCCCTTGGGGATCGACTGCTCGGGCCTGGTCTTCATGAGCTATATGCTAAACGGGGTCCTGCTCTGGCGGGATGCGGAAATCAAAGAAGCCTGGCCGGTGCATGAGATTGAGTTTGAAGACCTGCGGCCAGGGGACTTGATTTATTTCCCAGGACATATTGCCATGTACCTGGGCCACGGTAAGTACATCAACTCAACTGGCTATAAGGAGCACTTCGGGGTAGCCATCAGCAGCCTCCGTAAGGAAGACCCAGACTACCGGGCCGACCTCTTCCAGATGATCGAGAAGTGCGGCTCCCTGTTTTAA
>SRR1919932_01299 amino acid permease
ATGGAAGAAAAGAAAACACAAAGTACATACAAACGGACACTAACCAATGCCCACATTCAGCTGATTGCCCTAGGCGGGACGATCGGGACCGGCCTCTTTCTTGGGGTCGGCAACAGCATCCAGAAGGCAGGGCCGGCAGTCATCTTGATCTACATCATCGTCGGCCTCTTCCTCTTTATCTTGATGCGGGCCCTGGGTGAACTGATCTTATCTGACTTAAAGAAGCACACCTATATCGAGTTTATTGAAAAATATCTCGGCAAGGACATCGGCAAGGTGACTGGCTATCTTTACTGGCTCAGCTGGCTGATCCTGGCCATGGCGGAAACGACGGCCTTAGGCATCTACTTCAAGTCCTGGCTGCCCAACCTGCCGGCCTGGCTACCCGGGGTGCTCTCAGTCGCGGTACTGCTCTTGATCAACTTGATCTCTGCCCGCTTCTTCGGGAACCTGGAGTTTGCCTTCGCTATCATCAAGATTTTGATGATCGTCGGCTTCGTTATCTTCGCGGCCTTCATGCTGCTGAGCTCCGGTTCAACCAAGTACGGCCAGGCCAGCTTCAGCAACCTGTACGCTGACGGCTTTTTCAACAACGGGGCAGGCGGCTTCTTGCAAGGCTTCCAGATGGTTATCTTCTCCTTCATCGGGGTGGAACTGATCGGGCTGACAGCCGCTGAAGCTAAGGATCCACACAAGACTATCCGGAGCGCGATCAATGAATTGCCACTGCGAATCATTCTCTTCTACGTTTTGGCGATTATCGGGATTTTGGTGATCCTGCCATGGAACAAGGTTTCAACTTTCAGCTCACCATTCGTCCAAGCTTTGATGGGGGCAGGCTTTAAGGGTGCCGGCAACTTGATCAACTTCGTGGTCATCACGGCAGCTATTTCAGCAACCAACAGCTTCCTCTACAGTGCCGGCCGCCTGCTCTTCTCCGTTACTTTAGGCGGGGAAAGCAAGTGGAGCAAGTTCTTCGGCCAGCTCAACCACCGGCAATTGCCAATGAGAGGCCTGGTCTTCTCAGCCTTAATCATCATCTGCGCGCCTTTGATCACCATGATTATGGGGGACGAAGCCTTCAGCTTCATCTCATCAATGGCAACCAGCATGTTCCTTTTGATCTGGATCATCATGACCTTGACCCACCTGCGCTACCGGCAGGTTACGCCAAAGGACCAGCTACATGAATTCCAACTGCCAGCTTACCCATACCTTGACTACCTGCTCTTGGCCTTCTTCGGTGCCATGGTTATCCTGCTCCTCTTCCTTGAGAGCTACCGGGTCCCAATGATCACGGCTTTGATTACCTTCGCTGTCCTTTATGGTTTCAGCAAGGCCTTCAATAAGAAAAAAGAAGCAGCAAAATAA
>SRR1919932_01300 hypothetical protein
TTGGATCATGATCTGGCTAAAGAAACTTATCCTGACTTGCTTGACCGGGATTTGACCGAGCTGCCTGTGGCTGATCTGCTGGAGATCAGCAAGAAGTTGATTGTGACAGACCATTACCTCGGGGTAAATGTCCTTTTTAGGGACGAGAAGCACTATTCCTTGCTCCGGATCGAAAGCGGCATTGATGCTGATCTGTATAAACTTTCTAAGAAGTCGAAGAAGCTGGTTAATAAGCTGCTTAAGCGTAACGGCCTCTTCTTGGTGAAATACTAA
>SRR1919932_01301 hypothetical protein
ATGAAAGCAAAGCAGGCGTATAAGCTGGTGGACCAGCTCCGCAATCCAGGACCAAGGAATTACTATATCGATTGTTTTTCAAAAATGGAGCCGCCAGACAATTATGATAAGATATTTGAATACCTGAGGTCGCATACGATTGGCGAAGCCTACGCGGACAAAATGCTCCTGTTGCTGTTAATGCTGGTCAGCCAGTATGAGACACACATTTTTTGGATCATGATCTGGCTAAAGAAACTTATCCTGACTTGCTTGACCGGGATTTGA
>SRR1919932_01302 hypothetical protein
ATGAATAAGACCGTTGATCTGGCTGTATCCGGAACTTGGTTCCGGGCCATGTCTACCTATGGCAAAGTCATGATCGGCGATGAAGCTTTTGAATTCTATAACGAGAAGAATGTTGAAGACTATATCCAGATTCCTTGGGATCAGATAACTTATGTAGTCGCGGACGTTTACTTCAAAGGGAAGTACATTCCCCGCTTTGAGATCCGGACTAAGAAGGATGGGAAGTTCATCTTTATTACCAAGGATCCGAAGAAGACTCTGCGGGCGATCCGTAAGTATGTCCCGGCCGACCACATGCGGCAGGCTTTGGGAGTTTGGGATACGATCAAGCTCTTCTTTACTCGCAAAAAGAAATAG
>SRR1919932_01303 mannose-specific PTS system IID component
ATGACTGAAAAGAAAGTAATCTTATCAAAGCGTGATCGTTGGGACGTTATGTGGCACTCACAACTTCTGCAAGGTTCATGGAACTACGAAAGAATGCAGAACGGTGGTTGGGCCTACAGTATGATCCCAGCTTTAAGAAAGCTGTACCCAAACAAGGAAGACATGGCTGCGGCTTTGCAACGTCACCTGGTCTTCTTTAACACTCACCCTTACTTGGCTTCACCAATCATTGGTGTTACCCTGGCTTTGGAAGAAGACAAGGCTAATGGCGTTGAAGTTGACGACGAAGCTATCCAAGGTGTTAAGGTCGGTATGATGGGGCCTTTGGCCGGTGTCGGTGACCCAGTCTTCTGGTACACTGTTCGTCCAATCCTCGGTGCCCTTGGTGCCTCAATGGCCATCAACGGTAACATCCTCGGGCCAATCCTCTTCTTCATTCTTTGGAACCTGATCCGTATCGCCTTCTTGTGGTACACTCAAGAATTGGGTTACAAGGCTGGTGCCGCTATCAGCTCCGACCTTTCAGGTGGTTTGCTGAAGAAGGTTACCCGTGGGGCTGCCATGATGGGTATGTTTGTCCTGGGTGCCTTGATCGAACGTTGGGTAAGCATCACCTTCACTCTGAAGGTTTCAGAAGTGCCAATCCAAAAGGGTGGTTACATCGACTGGGCCAAGCTGCCAAGCGGTGCTGCTGGTATCAAGGAAGCCTTGACCCAACAAGCTGCTGGTCTGTCCTTGACTAATACCAAGGTTACTACTCTGCAAGACAACTTGAACATGCTGGTTCCAGGTTTGGCAGGTCTGTTGCTTACCTTCCTTTGCATGTGGCTCTTGAAGAAGAAAGTTTCTCCAATCGTTATCATCTTGGGGATCTTCGTTGTTGGTATCCTCTTCCACAGATGGGGCTTGATGTAA
>SRR1919932_01304 mannose-specific PTS system IIC component
ATGGACTTAAATGCTATTCAAGTCATCCTGGTGATTGTGGTAGCTTTCCTGGCCGGGATGGAAGGTATCCTGGATGAATGGGAATTCCACCAACCATTGGTTGCATGTACTTTAATCGGTTTAGTTACTGGCAATCTTACCTTGGGTATTATGCTCGGTGGTTCTTTGCAAATGATCGCTTTGGGTTGGGCCAACATCGGTGCCGCTGTCGCACCTGACGCCGCTTTGGCCGCTGTTGCCTCAGCCATCATTTTGATCAAGGGTGGTCAAGGTACCAAGGGTATCGGGACTGCCACTGGTTTGGCCATCACTTTGGCCGTTGCCGGTCTGTTCTTGACCATGTTGGTCCGGACTATTTCAACTGCCATCGTTCACATCATGGACAAGCACGCCGAAGAAGGTAACTGGCGCATGATCAACGTATGGCAATGGATCGCTGTCTGCTTGCAGGGTCTGCGTATTGCTATCCCAGCCGGCTTGTTGCTTGCTATTCCAACTGAAACTGTTAGAAGCGCACTGGCTGCTATGCCAGCCTGGCTGTCAGCTGGTATGACCATCGGTGGTGGTATGGTTGTTGCCGTAGGTTACGCTATGGTTATCAACATGATGGCCAGCCGTGAAGTATGGCCATTCTTCGCCATTGGTTTCGCTTTGGCCGGCGTTAAGGACTTGACTTTGATCGCCTTGGGTGCGATTGGTTTATCTATGGCCTTGATGTACCTCGCTTTGGAAGAAAAGGTAAGCAAGGGCTCTGGCGATGCTGCTGCAGCTGGTACTGGTGACCCGCTGGGCGACATCATTGATGACTATTAG
>SRR1919932_01305 mannose/fructose/sorbose-specific PTS system IIAB component
ATGGTAGGAATTGTTTTAGCTAGCCATGGCAGTTTCGCGGACGGTATTGCCGAATCCGCGCAAATGCTCTTTGGCCCACAAGACAATTTTGCCCATGTCATTCTGAAGCCTTCTGAAGGCCCAGATGATATTAAGGGTAAGATGAATGAAGCGATTGCTTCTTTTGCAGACCAGGAAGAAGTTTTGTTCCTGGTTGACCTGTGGGGTGGCACGCCTTTCAACCAGGCAAACGGTTTGCTCGACGGTCACGACAAGTGGGCAATCGTTTCCGGTTTGAACTTGCCAATGGTAGTTGAAGCCTTGACCCAAAGAATGATCAATGACAAGGCTACCGCGCAAGACATCGCGACTGCGATCATTAAGCCGGCTAAGGATGGTATCAAGACCAAGCCTGAAAGCTTAATGCCTGCAGAGCAAAAGGCAGCTGCACCTGCAGCCGCAGCTGGCGCTCCTAAGGAAGCAATCCCAGAAGGGACTGTTTTGGGCGACGGTCACATTAAGATCGTTGGTGCCAGAATTGACTCACGTTTGTTGCACGGTCAAGTTGCAACTGGTTGGATTCCATCACTTCACCCAGACCGGGTTATCGTGGTTTCTGACAAGGTTGCCAAGGACGACCTGCGCAAGAGCATGATCCGTGAAGCTGCTCCAGCTGGTACGGTAGCACACACCGTTCCATTGGAGAAGATGAAGGAAATCTCTGAAGACCCGCGTTTTGGTAATACGCGCGCCTTCTTGTTGTTTGAAAACCCAGAAGATGCTTTGCAAACGATCAAGAACGGCGTAGACATCAAGACTTTGAACGTCGGCTCCATGTCATACAGCAAGGGCAAGGTTAACGCCAACAACGTTCTGTCCATGGATCAGACTGACGTCGACACTTTCCGTGAACTCGAAAAGATGGGCATCAAGTTCGACGTCCGCAAGGTTCCTTCAGACAACCCAGAAAACATGGATTCAATTCTGAAGAAGGCACAAAGCCTGCTCGATGAACAAAAGTAG
>SRR1919932_01307 Na+/H+ antiporter
ATGAACAAACAAATCAGTTTTAAAGAAGCAGTAACTATTCTTATTTTGATGCTGGTCATGCTGGGCTGGGGCGTCATCGGCTTTGGCCTGTCCCCGCAGATCCCGGTCTTGACCGTCATCGCCTTACTCATCTTCTGGCTGCAGATCCGCGGCTTTGAGTGGGAAGAAGTCATGAAGGGAATCAGCCAGGGGATTTCCACGGCCATTGTCCCGATCTTTATCTTCCTTTTAATTGGGACCTTGATTGCTGTCTGGATCCAGGCCGGGATTATTCCATCCTTGATGGTCCTGGGCTTTCATATGATCAGCAGCCACTTCTTCGTTCCCTCGGTCTTCCTGGTCTGCTCTTTGGTCGGCCTAGCCATCGGGTCCGGCTTTACGACCGTGTCCACCGTCGGGATCGCCCTCTTTGGGATGGGAAGCACTTTAGGCATCAACCCGGCTTTGACGGCTGGGGCCATTATCTCCGGCGCCGTCTTTGGCGACAAGATGTCTCCACTGTCTGACTCAACCAACCTGGCTTCCGCGGTAGCTGAAGCTGACCTCTTTGACCATATCAAGAATATGATGTGGTCAACCATTCCCGCCTTTATCGGCTCTTTGCTCTTTTTCTTCTTCCTGGGCCAGAGCAATAAGGCAACTTCCTTAGCCGGCATCGCGGCCGTAGAAAGCAGCCTCCGCCAGAACTTCTCAGTTTCCTTCTGGGCAGCCTTGCCGATCATCTTTATGTTCGCCTGCGCCTGGAAAAAGGTGCCAGCCATTCAAACGCTTTTTGCCAACATCTTCTTGTCCGTTGCCATGCTTTTTGTCCAAAATCCGGGCTTCAAGATGCAAAAGCTGGCAACGCTGATTGAATCCGGCTACGTTTCAAATTCCGGCAACAAGACCGTTGACGCCCTCTTGACCCGGGGCGGGATCTCCAGCATGATGGGGACTGTTTCCTTGATCATCATGACCCTGGCCCTGGGCGGAATCTTGATGCACCTGGGCATTATCGACAGCGCCATGAAGCCTCTGGTTGAACGCCTTAAGAAGCCGGGCTGGCTGATCTTGACGACAATCATGGCCGGGATTGGGATCAACCTCTTCGTCGGTGAACAATACCTGTCTGTTATCCTGCCGGCCAACGCCTTTAAGCCTGCTTACAAGCGGATCGGCCTTGACCCCCTGGCCCTCAGCCGGGCCCTGGAAGACGGGGGCAGCGTCATCAACTACTTGATCCCTTGGGGGGTGGCTGGTTCCTTTGTGGCTTCAGCCTTGGGCGTACCAGTTCTGGACTTCCTCCCCTTCACCATGTTCAGCCTCCTGTCACCTGTCTTCTCTATCCTCAGCGGCTTTACCGGCATCGGCCTGAAGTGGAAGCAGGAAAAAGTGGCTTAA
>SRR1919932_01308 restriction endonuclease subunit M
ATGATAAATGTAAATGCAGACTCCATTAATGGGGTATTGTTGTCTCAAGACGAGAAAATTCAACGTCGTGCTTTGATTCGTCAAATTAATGAGAAGGGTTATGACCAAGTTGTTGAGGAAGTAGCTTATACTTGGTTTAACCGCTTTATCGCACTCCGCTTCATGGAAGTTAATGGTTACTTACCTTCCCATATTCGTGTTTTTACTAATGAAAACAACGAATTTAAGCCTGAAATACTGTCAGAAGCTATTAACTTAGATTTTGCTGGTTTAGATATACAAAAGGTTTACCAGCTTCAAGATGAAAACAAGACGGAAGAACTATATCGGTATTTACTGATCGTTCAGTGTAATGAGCTTAATTCAGCCTTACCGAAAATGTTTCAACGGTTGAATGACTATACAGAGCTCCTTTTGCCAGATAACCTGCTAAGAGATGGTAGCGTATTGGAGCAAATGGTATCTCTAATTCCAGAGGACGACTGGAAGGATCAAGTGCAGATTATCGGCTGGTTGTATCAGTATTACAACAGTGAGCTGAAGGATAAAGTCTTTGCTGATCTTAAGAAGAAAATCAAGATCTCAAAGGATAGTATTCCTGCAGCGACGCAACTATTTACCCCGGATTGGATTGTTAGATACATGGTTGATAACAGTTTGGGGAGAATGTGGTATGAAGGACACCCGTCTGAAAGTTTTAAGGAAAAACTGAAGTATTACATTGATGATGCAAAGCAAGAAGCTGATGTACAGGCTCAAGTTGATACAATTAAACAAAAGTATAGCCAGTTAAAGTCGGAAGAAATCAAGTGTATTGACCCCTGCTGCGGAAGTGGTCACATCTTAGTTTACTTCTTTGATGTACTGATGAATATCTACCAAGAATATGGTTATTCAACCCGTGAGGCAGCCATCAGTATTGTTGAGAATAATATCTGGGGATTAGATATTGATGAACGAGCAGCTCAATTAGCCTATTTTTCAATAATGATGAAGGCCAGAGCGTATGATCGTCGTTTCTTCAGTCGTAACATACAACCACATGTTTACGAAATTCGGGAAAGTAACAATATTGATCAAGCCTCACTAGAAGAAATATATCAAGAGAATAAAAATATTGCACCAGCAATCAAAGAAACTTTAGATGAACTATATGATGCAAAAGAGTATGGCTCGATCTTGCAAACTAAAGGTTCAGTATAA
>SRR1919932_01309 hypothetical protein
ATGAGAATTAAAGAAATGTTCAAAGATGATATCAATCGTAACATCAATGGTGTCATCAAGGTTGATGAAAAAACTAATGTAACTCTTAGCCAAGAAGTTAGAGAGTATGTTATCACTAAAGAGTTAAAGAAGCACTTCGTAACTTTCTTTGATGCTTTTGATGAATCATTTGATCAACCAACAGCTGATATCGGGGTCTGGATTTCAGGCTTCTTTGGTAGTGGTAAATCTCACTTCTTAAAGATGTTGTCATACATTTTACAAAATAAAGAAATTGATGGGCACCCGACAGTTGAGTATTTTAGAGATAAGTTTGAGGGAGATCCGCTGACTTTTGAATTGATCGAAAAAGCGACAAAAAGTAAGGCGGAAACGATTCTGTTTAACATTGACGTTGAATCAGTAACAACTAATGCGGATGCAGTTGTACGGGTTTTTGCTAAGATGTTTTACAATCATCTGGGTTTTTACGGAGAGAATTTAAAGGTTGCGCGTTTAGAACGCTTTATTGACAAAAAAGGGAAGACAGAAGAGTTTAGAAGAGTTTTTGAAGAAAAAAGCGGCGAGTCATGGCTTGAAAGCCGAGATTCTTTTGACTTTTACGAAGATGAAGTAGAAGAAACCTTGCAAGAAGTACTGGGGATGAGTGAAAAGGCAGCTGGGAACTGGTTCAATGGCGAAGAAACGGATGAGATCAGTATCGACCGACTGGTTGATGAGATAAAAGACTACGTTGATACTAAACCGGCTGATTTTCGCTTATTGTTCATGGCTGATGAAGTGGGCCAATACGTTGGAACAGACAACCATAAACTGCTGAATCTTCAATCTATTGTAGAAGAACTTGGTAGTCGCTGTCAGGGTAAGGTTTGGGTAGTCTGCACCGGGCAAGAAGCAATTGATGAAATAATCAAGGTTCGTAACGATGAATTCTCAAAGATTCAAGCTCGATTTTCAATTCGTCTGAGTTTGTCGTCTTCATCAGTTGACGAAGTTATTCAGAAACGTATCTTGCGTAAAACAGATCAAGCTAAAGAAATTTTGGGCAATGTATATGATGACAATGACTCTGTTATGCGTAACCTATTTTCATTTTCTGGTTCAACACTCGATATAAAAGGGTTTAGAGGTCAAGAAGAATTTATTCAGGATTTTCCATTTGTGCCATACCAGTTCACATTAATGCAAAATGTATTTGCGCAAATCCGGAAACATGGTAATGCGGGGAAACACTTATCCGGCGGTGAGCGTTCAATGTTAAGCGGTTTCCAAGAAGTGGCACAAAAATTGGAAAGCCGTGATGAACGCACGTTGGCACCATTCCAAATGTTCTATGATACAGTTCAAACCTTCCTGGATAGTTCAATTCGACAAGTGATTGACCGGGCACAAAGAGCTGCAGATAACCATGAGGGGCTGGAACAGGTAGATGTTGATGTTTTAAAACTGCTGTATCTTATTCGTTATATTGATGATGTACCGGCCAATATTGATAATATTGTGATTTTAATGGCTGATAATATCAACTTAGATAAAATTGATGCCAAGAAGAAAATTAGTGAGTCTCTTAATCGCTTGCTGTCTCAAAACAAGATTGGCAGAACTGGTGACACATATAACTTCTTAACTGATGAAGAGCAGGATATCCAGCGAGAGATCAGTAATATCGTGGTCGACAACAGTGAGATTGTTGTTGAAATTAGCAAAAGAATTTTTGACGATATCTACCCAAGTAATAAGTATCGGTATGGTAAAAATGACTATTCATTTGATCGTTGGGTTGATGACCTTAGAGTAGGCCAGGTTCAGAATGGGATGAGCCTTAGAATTCTGACAGTTGCAACTGATGAAACGGATAAGTCTGAACTGAAGTTGACTGCTAATTCTTCTGGACATGATTCATATGTAGTTTTAGCTGATTCGCCATATTATGACTTGCTTCAACAAGCAATGAAGATTCATAAATATGTGAAGCAACGCAATATTAGTCAGTTGCCACAAACGCAACAAAACATCATTCGTGGTCAGCAAGAGCAGGCAAGTCAATATGAAAAAGAAGCAACAAGTGCTTTACAAGAGGCAATTGTCAGCGGAACTTTTTATGCTGCAGGTGAGAGAATTTCTGTTCAAGGAAATGATGCTAAATCGAAGTTAGATAATGTCTTAAATTACTTGGTCTCAACTGTATACAGTAAGCTTGAGCAAGTGCATAAGCATTATGATGGCAAGACTGCCGATGCTAATTTGAGAGATCTTTTTCAAGGAAAAAGTGAAAGAGCCGTTAGTTTCGAGTATGAGGATAACTACGATGCAGCGAAAGAAATGGATGACTATCTTGAAAGACAACTGCGTCAAAACATCTTAGTCACTATGAGCGATCTGCAAAAGAGATTCACTGCAATTCCTTACGGGTGGAGTCTAAATGACATTTTAGCAGTCTTAGGTTTATTGGTTAGCTACCAAAAAGTTACGATTAAGAATAGTGGTAATGTTGTACAGCCAAACGATCCAAGGTTATTAGACGTTTTGCGCTTACGAAGTGAAATCGGGAAAACTGAAATTTGTAAGCGGATTAATGCTGATCCAGCAACTATCAAAGAAGTTGTTGAGTTTCTAAGAGATTATTTCGATGAAATGGATATTCCAAATGATGAAGATGGCTTAGCCGCCTTTATTATTAAGAGATTCCAAGATCAGCAGAATCAATATAAATTACTGTTAAATGAATTTAAGGATCATCGTTATCCAAATAAAGGTGCTGTTCTGGATGCAGTTCATCTAACTGGTGAAATTTTAACCCAATATAAGGATAATATCGCTTTGTTCAATAAAGTGATCGAAAAGGAAGACGCTTTATATGATAGTCAAGAAGAATTATCAAAAGTTGATAATTTTTTCGAGAATCAAGTTTCAATCTTTAATTCAGCCAGCCGCTTAGTATCTTCGTTAACTCCAGATAGGAATGCTTTAACTGATATTCCGGAAGCCAAAGAAGACTTAAAACAGATCCAGAAGATCTTAAATGTTGATGTTAAGAACTATAATTATAACGAGATCCCAAAGTTAAATAGCTTGATGTCAAATCTGGAAAACATTCATGATAGGTTGCTTGATGAAAAGCGAGAAGAGCTAATCGAAATCATCCAAGCTTGCCTTGGTGAAATTCACAGCAAGATGGAAGATAGTAAAGATTATGATCTTGCCAAGGGTATCAGCAATAGAGCAGACCAGCAGTATGACAAACTGAAGGAAGACCTTAGAAATACAAGAGTTTTAGCATATTTTGCCGCAATTGAAAATCAGATTATTGATAATAAGGACCGAGCAATTAAAGAACTGGATCAACTTAACAGACCGGTTCAAAAGCCAGAGGTAAAACCTAAATCAAATGTAGGACCTCAACAAAAGAGCAATGTCAAGTCTAAGAAGATTAGGTCAGTTGAACGTCGACTTGTCTTTAACCAAGCTTCAATCAAAGATGAGAATGATATTCGCAATTATTTGGAACAAGTAAGAGACAAGCTAGAAACGCTATTAAAGGATTCTGACGAAGTAGAAATTAGATAA
>SRR1919932_01310 hypothetical protein
ATGACTGATAGCCTAAATGCTCGATTAGATAGTTTCAAAAAAACAATTCAAACAAGTGATTTCTTGGAAGGCAAAGGGTTGAGCAATGAAGTCAATATTCGTATCTTTTGCTACGATCCTAAAGATGAAATGAAAGTGCGTTACTACGTTGAACAGCTTCAAAAAGATACTAGCCTAAAATGTAACCTGATTACTAGAAATCTGTACGACGTCTTTCTTGATATTTGTCAAAATAAGCGACTGTTAGATAAAATTCCTGCGAAAGAAGAGAAAAAAGGTTCAGAAAAGCTCTTAGTTAGCCTAAAAGGTGCAAGAAAGGTACAAAATTTTGTCGAACAAATTCAATATGAACCGCAAGAAACGGGAGACATACTGCTTCTAACAGGCGTTGGGGAAGTATATCCATTTTTACGATTGCATACACTACTTGAAGCATTGCAGCCTGTAATACCCAAAATTCCAATTGTCGTGATGTATCCTGGTAGTTTTGATGGACATCAATTAACCTTGTTTAACAAGCTCCAGCCAAATGATTATTATCGAGCTTTTAATTTGATTTAA
>SRR1919932_01311 hypothetical protein
ATGGCAACATTTAGAGATAATTGGCCATACACTGGAGTAATAACGAGAGAAAAGTTTCTTTTTAATGAAACGAGACTGACGGCTCAACTTCAACTTAAAGGTATGACTGATGAGCAAATTATTGAAAAGGTTGTTAGCGAAAATCTCTATCAATATCCTACAGATCGAATGCTCAGAAGTATGGCTAGGACATGCTTGAAACGTTTAGCTGCATTAGGTAATTCTAACTTAATAAAGGCACTAGCTACCGCTCCCGTTGAAGTAGCTAAACAAATTGACTTATATGCAATGATGTGTCAATACCATCTGGTTTGGGATTTTATGATAACGGTAATTGGCGAAAAATATCGAACAAATAATTTAACGTATGGTCACATTGATCTAAATGTTTTCATTAATTCCCTTCAAGAACAGCATGATAATGTTGCTAAATGGTCTGATTCAACTATCAAGCGCATAAAGAGAGAATTGAATCACCTCCTAATTGAAAATGATTATTTAGATAGTTTAAAGTCGACAAAACTTAACCCAGTAATCATTTCTCCCATTCTTGAGAAAGCGATTAAAGATAACGGAGACAAAGTTGCATTAATTGCTTTTAACTGCTTCGATTAA
>SRR1919932_01312 hypothetical protein
ATGAAGGGTACCGCGATACCAATTTATGAGATGTTTGACGGTTCAAAAACTAAGCTACAAATTCCTGTATACCAAAGAAATTATGATTGGAAGGTTCCGAACTGCCAACAACTTTTTGATGATTTGGTTGATATGGTAAAAGAGGATAGAGACACCCACTTCTTTGGTAGCATTGTTGAAATTGGCGGAGATTACAGCAGCAAACTTCAAATTATCGATGGTCAACAGCGCCTAACTACCGTATATCTTCTTATTTTGGCTATGGTTAAACTACTAGAAGATGGTCAAATTGAAGCCGAAGATCCAGACCTAGTTGCTGAAGAAATTGAAGAGGATTATTTAATCTGCCGGCATGTGAAAGACAGAGAGAATATTGACCATTATAAATTGCAGCCCGTCAAGCATGATGCCGAAGCCTTGATGAAACTATTTGGACCGGAATCAGGCTATGTAGGAGACTCGAATCAAACGACCAACTTTAAGTTCTTCCAAGATGAGATATTAAAGAAAAGGATCTCAGTTGATGAGCTATGGGATGCAATTCAACGTCTTATCGTAATTGATATTTCACTCAGACAAGGAGAAGATGATGCCCAGCTGATTTTTGAAAGCTTGAACTCCACCGGCGTTGATTTGACCGAAGCGGATAAAATTAGAAACTTTGTTTTGATGAACTTGCCAGCTGATCAACAGGAAGAATACTACAACAAGTATTGGCATCCGATCGAACTTGATACGGAAGAAGGTAACGAGTATCACGTTTCTGAGTTTATCCGTAACTACTTAACCTTCAAGCTCAAAAAGGTACCTGCAATGGGCAAAGTTTATCAAGTCTTCAAGCGTTTCATTGAGCAGAAAAAGATGACCACGGAAGCTGTTTTGCAGGATTTGCTCAAGTATGGAGGTTACGAGAAACAGATCAGAAGTGCGCAGAGTCCAAGCGACAAGGTAAACGTGTTGCTTAAGCGTTTGGCTGTCTTGGAAGTGAGTGTTACCAGACCGTTTATTCTGCCGCTTTTTGACTACTGGCAAGAAGGTAAAGTCAACGCTGATGAAGTTGCCGCTGTTTTGGGGAGTATTGAATCGTACATTTTCAGACGACTAATTTGCGGGATGCAGAACAATTCATTGAACAAGCTATTTGCGACCCTGTTCAGCGACTCCCTTAAGTACGTTGACCAGTCAGACAACTATGTTGATATCATCAACTACTTGCTTCTGTCTAAAACGGAAGTGTCACACTTCCCGACGGATGATGAATTTGCGGAGAGCATTGAGACTAGGGATGCCTACAACATGCGGCAGCAGACCAAGTATTACATCTTTGATCGCTTAGAGAACCAAGATTCACTTGAAAGAGTCAATGTCATTGACGGGATGCAAAATAATCAATTTACGATTGAGCATATTATGCCGCAAACGCTGTCCAGCGCGTGGAAAAAGGAGCTTGGGGATGATTATCAAGCGATTTATGACCGTTGGGACAACCGTCTCGCTAACTTGACGTTGACGGCTTATAATTCAAGCTACAGCAACAAGAGTTTTCACGAGAAAAAGACGGCTGAGAACGGCTTTGATCATAGTGGATTTAGACTGAATGATTTTGTTAAGGGATGTGACCATTGGACTGAAAAGGAATTAATAGAACGCAGTGAACTGTTGAAGCAGACGGCTTTGAAGCTCTGGCCAATGCCAAGCAGTAATTTTCAGCCGAAGGTTGTTGAAAATGAAGTGTATGGCCTTGATGACGACAACAACTACGCTAACGTGAAGATCGCTTCCTACAGTTTGATGAACACACCTTACAAGCTACCTAAGCGTACTTGGAAAGAGATGTATATCGGAGTTGTGCGGGCACTCTATGAGCTTGATCCTGCGCCTATGCGCCAACTAATTGCAGGTGATAGGACAAAACTTGAAAAAGTACTGATTGATCATCCAGAAAACGGCTTTAGCCAAGTTGCTGACGGTGTCTACTTGTACACGAGCACTGACAACTGGAACAAGATTCACAAGTTGAGAGACTTGTTTGACTTCTATGGCATTGATCAAAGCGAATTACAGATTGAGGTCGTATCTGGGAAGAAGGAATAG
>SRR1919932_01313 hypothetical protein
ATGAACATCAAAAAGATTGTTAAGCTGGCTATTGTTCTAGCATCCCTGATTGCCTTATCGCAAACTGGCCTGCCAAGCGCTATCGCAGACGCCTTGACCCCGGCAGCTGTTGGCAGCACGGCAACTATCGCACAAGCTGCCAAAAATGCGGATGTAGCAACCACCGCGGCGACTGCTCCAACGGCTCCAACTGAACCAAGCAAGCCAACCACTCCAACTCGCTAA
>SRR1919932_01314 acetyltransferase (GNAT) family protein
ATGACAACAGAATTAGTAAAGCTGGATGAAAGTTTTGCGGAGGATTTTTGGCGGCTGAGAAAAGAACTGTTTACGGAACTAGGGGAGGTTGCTGAAAGTGAAGATTTGTCTGCCCTGGAAGAAGCGACTAAGCAGTACTTTTTGGCCCATATTGGCCAGTATATGGTCAGCTGGGGGATGCTGGAAGACGGGCAATTGGCAGCAACCGGTTCGCTCTGTCTTTTTAGCCGGATTCCCTACGCGGAGAACTTGACCGGACAGGAAGGCTATATCTTGAACATCTACACGTCGCCTAAGTCCAGAAAGCAGGGCTACGCCAAGAGAATTGTCGATGAAATAATTGGCTATGCCCGTAGAACCGGGATAAAACGCCTTTGGTTGAATGCCAGTGAAGACGGCGCGGGCGTGTATGCTCAGCGGGGCTTTACTAAAAAGGACAACGAGATGGAGCTGTTTTTGTAG
>SRR1919932_01315 alpha/beta hydrolase
TTGGCCAAAACTATCCCGATTCTGCTGACCGCCTTGCTTTTCCTGACGGCTTGTCAAAAGCCCCTGACTAAGGCGGAAAAAGAGGAGCAGGCCAAAGAAACGGTAACCTTTTTCTTCCATGGCTACGGGTCCAGCATCAACGCGGAAAAACACATGGCTGAAGCGGCCAGACAGGCAGGCAAGAGCAATGAGGTTTTAGAAGCCAGGGTTGAAGAAAACGGGTCAGTCAAAATCAAGGGCAAGCTCGCGGATAATCCGAAGAACCCAATCGTTCTGGTCGGCTTCTCCAACAACCGGAATCCTGATTACCACAAGGATGGCTGGTATGCCTACAAGGCAGTTAAGGCAGCCCAGAAGAAGCTGGGCTTTTCCAAGATGAACCTGGTCGGCCACTCCATGGGCAATATGGCGATCAGCTACATGATCATGGATTATTCTGCCAAAAAGAATTTTCCAACGATCAAGAAACAGGTTGATATTGCCGGCCACTTCAACGGGATTGTTGGTATGGAGAAGGATTCTCCAATCGATGCAGCCGGCAAGCCGAAGAAAATGAATTCGACTTATCAAGAACTGACGAAGCTTCGGCAGGTCTATCCAAAGGGGATTGGCGTCCTTAACATATACGGCGATACTGGTAAAAAGTCAGACGGCAGCGTCTACAACAATTCATCAAGGTCCCTCAAGTATCTTTTAATTAGGGCCAAGAGCTACAAGGAAGTGAAGATCACTGGCAAGGGCGGCCAGCACAGCCGGCTCCACGAAAACAGCCAAGTGGACCAGGTCCTGCAGAAGTTTTTGTGGGAATAA
>SRR1919932_01316 dipeptidyl aminopeptidase/acylaminoacyl-peptidase
ATGGAAGCAGTTAAAGCAGAAGATTTGTATCAAGTCGTCAGCCTGGGCAACTTGCAAGCAAACGGCCAAAGGGCAGTACTGGCCAGAAACCAGGCCAAAGCCGATGGAGAAGGCTACTGGAACTGGCTGGACGTCTTTGAAAATGGTGAGCTCAAGCGCTTAACGACTTTGGGGCAGGAAAAGAGCTATGCCTTGGTAGATAATAGTGTCTACTACACCGCTCAAGAGGGCAAAGGCAATTGCTTGCTCTACAAGCAGGAACTTGACCAAGCCAGTCCGGCAAAAGTTGCTGATTTCAAAGAAGCCGGCTACCAGGTAATCAATTCCGTTGCTGGCCGCTATCTCCTTTTGTCCAGACGAGTGGATTTAGCTGAGAAAAAGTCCACCGATTACCAGGTCCTGGACGAACTACCATACTACTTCAACGGCCAGGGCTACATCAACAAGCTCCGCGACCGCCTCTATGTCTGGGACCTGGAAGAAGAAAAGCTGACTGAACTTTTTAAAGATGACCCAAGCTTCACGGTCATGGAAACCTTTGTAGCCAAGGAGAAAGTCTATGTGGTGGGCGTCAGCTACCAGACCCGGCGGCCATTTGACGGGGCAGTCTATGAAGTTGACCCAAGTACGGGAGAAGCTAAGCTCTTTTTAGCGGCAGGTAAGGCCGAAGTCTCTGCAATTTTTGCCTTGAAGGGACAAGTCTACTGCTTCGCTAACACTCATAAAAAGACCGGCTTAAACGAAAATCCGGAATTCTACCGGCTGACGGAAGATGGCCTGGAATTAGCAGCTAACTTCGACAATTCCGGCCAGAGCGCGATTGCCGGGGACTGCGGGGTGATTGGCGGCAATGCTTTTGACGTCTATGGCGACAAGTTCTACTTCGTGACCACCATCGTTGACCACGATGAAATCTACGTTTTTGACGGGCAGGAAGTCAAGCCGTTTTTTGCAACGGATGGCATCATCAAGGGCTTTCGTTTGACAGGTGAAAATGAACTTTTCCTGGAAGCAGCCTTTGCCAACGAGCTTTTGGAATTCTACCTGGTTAAAAATGGCCAGGTGAAAAAATTGTCCAGCTACAATGACCAGGCTTTAGCCGGCAAATACGTAGCTAAAGTCAACGAAGTCGAATATGAATCAGTTGAAGACGGGATCCAGCACGGCTGGGTGCTTTTGCCAAAGGATTACCGGGCAGGCAAAAAATACCCGGCGATCCTGGACGTTCACGGCGGCCCCCGCGCCACTTACAGCAAGGCCTTCTTCCATGAGATGCAGGTTTGGGCCGGAGCCGGCTACTTCGTCTTCTTCTGCAACATCCACGGTTCAAACGGGCAGGGGAACCAGTACGGGGACCTGCGGGGCCGCTACGGGACAGTAGACTACGAGGACTTAATGAAGTTTACTGACACGGTTTTGGCGGCTTATCCAGACATCGACCAGACCCGTTTAGGAATCACCGGGGGTTCATACGGCGGCTTTATGACCAACTGGGTGATCGGCCATACCGACCGCTTCAAGGCGGCAGCTTCCCAGCGGTCCATCTCCAACTGGCTCAGCTTTGAGCATATGTCAGATATTGCCCCAGAATTTTGCGTTGACCAGGTGGGGGCCAGTGAAGATGATAATCCGGAAAAGGTTTGGCTGCACTCACCGCTCAAGTACGTGAAAAATGTGAAGACACCGACTCTGTTTTTGAATTCAGATGAGGATTACCGTTGCCCGGTTGAAGAAGGGATGCAGATGTTCCATGCTCTCATGTCTCACGGCGTGGAAAGCCGGATGGTGGTCTTCCATGGGGAAAACCACGAACTGTCCAGAAGCGGGCGGCCAAAGAACCGCTTGAGCCGGTTGCAGGAAATCCAGACCTGGTTTGACGGACATTTGGACAAGTAA
>SRR1919932_01317 lipase
ATGACACTTGATAGAAAAATCTCACAAGCTGTTGAAGAGATGCGGACTGGATCCAAGATGCACGACGACAAGCGCGACGCAGGCTTGCCAACCGAAATCCCAGAAGTTGAAAGAATCAATGACCTAAGCTACGGGCCAGACCCAAAGTGGAACTTGCTGGACATTTACTTGCCTAAGAAGCGGACCGGCAAGGTCCCGGTCATCATCAGCATTCACGGCGGCGGCTGGGTTTACGGGACTAAGGAAACCTACCAGTTCTACGGGCTGGGCCTGGCTAAAGAAGGCTTCGCCTTTGTCAACTTCAACTACCGCCTGGCTCCTAACGTCCAGTTCCCAGGCGAAATGGATGATGTCAACCGCTTGATGCACTGGGTGGCTGAACACGGAGCTGAATATGACCTGGACATGGGCAATGTCTTCTTAGTTGGCGACTCAGCCGGTGGGCAGATGGAAGAGCAGTACCTGGCCATCTTGACCAATGACAAGTTCCGCCAGCTTTTTGGCTACGAACTGCCAAAACTAACAGTCAGAGCAGCCGCGCTTAACTGCGGGGCCTACTTCATGCTCACCCCGGGCTTTACTGATGGCGCGCCAGGCGCCTACTTTACCCCAGAAGCAGTCAGCGGCAAGGAAGAGATGCTGAACACAGAAAAGTACTTGACGCAAAACTTGCCACCGCTCTTTATCATGACGGCTAACCAGGACTTCCTGCGCGATTCTGCTGTCCGCTTGGACGGCTATCTTTTGGCCAAGGAGATCCCGCATGAACTCCACATCTACGGGGATATGGAGAACCCGCGTGGCCACGTCTTTCACTGCAACCAAAGAGACGACATCGCCAAGCAGTGCAACCTGGACGAGCTGAACTTCTTCAGAAAGCACTTAAAGAGTAGCTACAATAAATAA
>SRR1919932_01318 hypothetical protein
TTGCTCGCTCCAGAAGACTATGCTGAAGCTGTAGAGAGCTGTGACCAGCAGGTGGGGGACAGCGATGATGCAGTGGCTCATATGGACTACCATGTCATCACCAAAGAGACTCACAAGCGGATCTACGTGCATGCCGTGGCCCATATGGTCAAAAATCCCTACTTTGGTCAGATCTATTATGTTATTCTCAGCCCCAAGCCAGAGCAAAAATAA
>SRR1919932_01319 diguanylate cyclase
TTGATCGACAGCGATGACCTCAAGTACATCAATGACCTCTATGGCCATGATGCAGGTGACGCGGCGCTGAAGACTTTTGCCAAGGTTCCGGAAGACAATTTCGGCCAGCTGGGCAAGGTTTGCCGCAACGGCGGGGATGAATTTGCCGTCTTTTTGAAGCGGACGACAAGGACTGAGGGACGGGCGATTTTTAAAAAGCTCTTCCGGCAAAAGTTGACTTTTAGCTACCAAGGCAAAGACTATCCTTATACGATCTCCCTGGGTTTCGCCGTTTACCCGGACCAGGGGGCAAGCCGGGAAGAACTCTTGAACAAGGCTGATACGGCCCTCTATGCCGTGAAAATGACCGGGAAGGGAACGATGGCGGCTTACCACCCGGATATGGTCAAGGAAGGACGGGCACAACTGGGCTTTAATCTGCGCGACTTGGCAGTCAACCTGCCTGGTGCCTTCTTCATCTACCGGGCTGATGACGGGAAGATCCTATTTTGCTAA
>SRR1919932_01320 hypothetical protein
ATGGAAAACAAAATGTTGGTAGTAACGACGGAAAATATCCCAGGCCGCAAGTATGAAGTAATCGGTGAAGTCTTTGGGGTAACCACCCAGTCAAAGAACTTCGCGTCAGTCTTTGGGGCTGGTCTTAAGAGCATGATTGGCGGGGAAATCAAGGCCTTCACCAAGATGCTGACGACTTCAAGAGAAGTCGCCCTGGACCGTTTGCGTGAAGAAGCAGGCAAACTTGACGCGGACGCCGTAGTCATGATGCGCTTTGACTCCGGCTCAATCGCCGGCGACATGCAGTCAGTCGTAGCTTATGGGACCGCCGTTAAGTTCGTCGACTAG
>SRR1919932_01321 cellobiose-specific PTS IIC
ATGAACGCCATCACCTTCCGCGACTTGGCGGGGGAAATGGTTGACTTGTATGAAAAGCTTTACGCCAGCGGCAGTTTGAAGACCGAGTCATGGAGAGGTGCTGTCGTAGCGAACGTCTGCGCGATCGTTGCTTTCTTAATCTGGTATCCATTCATGAAGCGCTTCGACCTCAAGACTTACAAGAAGGAACAAGAAGAAGCAAAGCAAAACGCTAACGCTTAA
>SRR1919932_01322 hypothetical protein
ATGGCTACCAAAACCATTATGTTGAACTGCGCGGCTGGGATGAGCACCAGCTTGCTCGTTAAGAAGTGCAAGAAGCTGCCAAGGCCCAAGGCAAGGACTACGAAATAA
>SRR1919932_01323 6-phospho-beta-glucosidase
ATGTATTCTGCAAAAATGCCAGAAGGATTTTTATGGGGCGGCGCGGTTGCTGCCCACCAGCTTGAAGGTGCCTGGGACGTAGGCGGCAAGGGCGTGTCCGTTGCCGACGTCATGACCGTCGGTTCAGCCACTAAGCCGCGGGAAATCACCGACGGCGTATTGCCGGGGAAGAACTACCCGAACCACTCAGCCATCGATTTCCACCACCACTATAAAGAAGACATCAAACTCCTGGCCGGGATGGGCTTCAAGGCTTTCAGAACCTCCATTGCCTGGACCAGAATCTTCCCTAATGGTGACGACGCTGAACCTAATGAAGCAGGCTTGAAGTTCTACGATGACCTTTTTGACGAAATGCACAAGTACGGCATTGAACCTGTCATCACCTTGAGCCACTTTGAAATGCCATTCAACCTGGCCAAGAACTACGGAGGCTTCACCAACCGCAAGACCATCGACTTCTTCGTCCGCTTTGCTGAAGTCTGCTTCAAGCGCTACAAGGACAAGGTCAAGTACTGGATGACCTTCAACGAAATCGACAACCAAAGTGCCTTCAACAACGACTTCTTGATGGCTACCAACTCTGGTATCCTCTTTAAAGAAGGTATGACTGATGAAGAAAAAGAAGCCGCCATGTACCAGGCTGCCCACTATGAATTCGTGGCCAGCGCCCTGGCAGTCAAGATCGGCCACAAGATCAACCCTAACTTCAAGATCGGCCTGATGATCAACTACTCACCAGTCCGCCCGCTGACGCCAAGCTCAGAAGACGCCCTCTTGGCTGACAAGTTCGAACAGCACCGGGACTTCTTCTCAGACGTCCAAGTCTTCGGCGAATACCCGAAGGCAATTGAAGCCTATATTGAAAAGCACGGCTACCGGCCAGACATCACTGACGAAGACAGAGTCGTCCTTAAAGAAGGGACCGTTGACTACGTGGCCTTCTCTTACTACCAGTCAACTACTGTCTCCAGCGAAAAGGTCTCAGCTGATGAACTGAGCGACCTGGAAAAGGCGGTTGCGGTTAACCCGACTTTGGAAAGAAGCGACTGGGGCTGGGAAATTGACCCGGTTGGCCTCCGCCTGGCTTTGAACCACTTGACTGACCGCTACCACCTACCCCTCTTCATCGTTGAAAACGGCTTGGGGGCCTACGACAAGGTCGAAGACGGCAAGATTCATGACCCATACCGGGTTGACTACCTGAAGAAACACATTAGCGAAATGGAAAAGGCAGTTGCGATCGACGGCGTTGACCTGATGGGCTACCTGCCATGGGGGCCAATCGACCTGGTTTCTGCCGGGACTGGCCAAATGGACAAGCGCTACGGTTTCATCTACGTCAACAAGAATGACCAAGGAGTCGGCGACCTCAGCAGAACCCCAAAGAACTCCTACTACTGGTACAAGAAGGTCATTGCATCCAACGGGACTGACCTCGACTAA
>SRR1919932_01324 hypothetical protein
ATGTTTTTTAACAAGAAAGAAAACGAAGCAGAAGAAGCGTTCAAGAAGCAATTGGAAACTGTCGCAAATGACCCGGCAGTCAAGGCAAACGCTGCTTTGAGCAATCTGATTGAAGCAGCTGTTAAGAAGGTAGAAAAGTCAGAATCAATCCGCTCAATCGCGTCTAACCTGGATACTCAATTGCGGTCCAACTTCGCTGAAAACGAACTGCCAAAGGCCGTTATCAGCTTGCAACTGGACTTGGCCCGCTACTCTGCAGTTGGTGCTAATGGCGTAGTTCTGGAGTAA
>SRR1919932_01325 hypothetical protein
ATGTACCAAGCTTCACGCCTTCCGTTTTGGGAACGAGTTTTTCTTGTTGTCGGCAACAGTGTGATTTTCTGGCTGTGGCACCACCTCTTAATCGTGGCTCTAGGCCTTTTAACCTTGCTTGGCTTGGTGATCTATCTGGTTGTCAGCGGCATCCGGCAAAAAAACGTCGCTAAAGCTGTCTGGCCAGTCGTCATTTTCTGTTCCTGCCTGGGCCTGGTCTACTTTGCCATGAGCTGCGCAATTATGGACTAA
>SRR1919932_01326 alpha/beta hydrolase family protein
ATGCGTAAAATAGTTGAATATATTTTCTGTCGCGACTGTAAGAAAGTCTATTTTTACTTGCATGGAGGTCCCTTATTTACCCTTAGAAATTGGCAAGAAGACCCTTTCGCAACTATGCTCTACAATGAGCAACGGAATTTTATTTTGGTGAACTACCCCATTGTTTATGGCAACGGTGGAATTAGTGACTACCAATTTTTAAAAGAATATTTTTGGGAGTATAAAAGACAAAATCCAAATACAGAAATGGTTTTACTAGGAGAAAGCTACGGCGGATACCTAGCCAGTCTGTTTGCAGCCGAATATATATTCAGAAAAATTATAGCAATAAGCGCGTTCACCAGTATTGCTTATCAAGAGTTGTTTTCATCTGAGCGATCTTGGCTTAAGGACTATCTTTCAGAAAATGCGCTTGATTTTTACACTCTATGTCGGGACAATAAGGTAAATACTCGAACTATTTTTATAAACGGCTCTAGAGATTCAAGAGTTCCCTATCAGCAATTTTTAGCGCTACCATTCATGAAGAAATTCAAAGTTAATATACTACCTGGATTTACTCACAGAGAAAGCGGGACGAGGCTTGAATATGTTGTCTCGTTAATCAAACAAGAATTGTAA
>SRR1919932_01327 ABC-2 transporter family protein
ATGAATCCGAAACATTTTAGAAATATATCTTTGGGATTACGGTCGATCAGAATTGTTGCCAACAATGAGTGGCGGGCTTTCGTGCATAATAAAGGCTTGCTCTTATCAATGTTCATGCAGCCGCTTATTACTTACGGCTTGTTGGTCATGGCTTTGAATCAAAATTTAGCTTCCGTTCACTACGAATCACTAATTTTGCCCTACAAGCAGTACGCATTGACCGGTGTTTTGAGTTTCTTCATGACCACCCAGATGTCGCAAGCAATGTACCGGGCGACAGTTGATAAAGAATATGGTTTACTGGCTATTAAATTTACGAATGGTGTTCAACCATGGCACTACCTAACTGGAATGAGCTTCTTCCCAATTGCCGGTCTCTTATTTCAAAGCGCGGTATTGATTGTTCTTGGGCTTGCTACAGGTGGTGTGTACAATTTAGGGTTATTGTTACTATCTCTGCTTGTATTAATCATCTCACTTGAATTCTGGTCCACGTTGGGAATCGTTCTCAGCACACGGATTTCTTCTTACCAGCAACGAGACATTATCATGACCTTGATTTTCTCACCAGTTGCATATGCTGCGCCAACGCTTTATGTCTTCAGCAATAATTCTCCACTGATCATTAAAGTGTTGGCCTATATCAATCCTCTATCCTACCAATTAAAGGCGCTCAGAACTGTAGCCTTTGGCATATTTAACATTAACGATTTGTTAATTGCTCTAGCACTTACAATTATAATGATTATTTTTGCCCAGATAATTTTACGTAGAATGCCATTAAGTCTGGCTGAAAGATAG
>SRR1919932_01328 Mn/Zn ABC-type transport system ATP-binding protein
ATGATTATTGCTGATAGTCTAAATATTGGTTATAAAGATAAAGTTGTTGTTCACGATTTATCTTTCTCCCTGGATAAAGGAATGTTTATCGCTTTAATCGGCGCTAATGGTGCTGGGAAATCTACCTTGATTAACAGCTTGATTGGCGTCATTCCACCAGTGTCGGGTCAGATTTCATGGAAATTGAAAACTGATCGGGTTAATCCTTTCAACGATGTTGGCTTCAGTCCCCAAAGCCAGCTGATTGATTGGTATACCAGTGTCTCTGACAATGTGTATCAAGGACCGCTTCTCGCTGGCTTTAAGCCTAAGGAAGCCCAAAAAACAACCAAGCAGGCCTTAAAACTCTTGGGTATTAGTGATTTAAGCGCTAAGCCAGTTGACCATATTTCTGGTGGCCAGCAGCAGCGAGTACAAATTGCCAGAGAAATTGCCCGTGAGCCGCAAGTTTACATACTAGATGAGCCAACAACCGGGCTCGATGTGGAAACTTCGGAAAAACTATTTACCTACTTAAAGCAAAAAGTTGATGCTGGAAGTATTGTATTAACTTCTTCACATGACTTAACTCTGCTGGAAAGCTACGCGAGTCACGTTCTTTTCTTAGACGATCATGAACAAAAATACTTTGGTTCGCTTACTGATTTTTTGGACAGTGGTACGAGCTTGCGAGAAAAATACCTTAACGAACGGAAGGCGATAGAAAAATGA
>SRR1919932_01329 hypothetical protein
ATGAATACGCCACGATCACGCGAAGGTAACTTTGTCCGTTACCTCGTCTATTTTGTAGTTTTTGTTTTCACGGCCCTGGCCGACAACCTGGCGATCAAGAGCCCGTCCATCAGCATCTGGAACGTGATCCTGTTCCTGGTTCTGGCGGCCATGTGCCTGCTTTTTTACATTTACCGCTACAACCGTGAACAGCGCTTCTTCGATTCACGCTTCAATGTCCCCTGGCTGAGCAGTTTCAACTTCACCTTGCTCTTAAGCTTCGTGGTTGCCGCCGGCCGGATCGGGATTTCCTACCTGCAGCTCTACAAAGGCATGCCTGCCTCGGGTCTGCAGCTGGCCTATGCCTCTCATTCCACCAGCTCCTTATACTGGTTCATGATGCTGGCCAATGGGGTAGTCCTGCCGATCCTGGAAGAGTATCTCTGCACCGGCTTCTTGTTCAACTACTGGTTCAGAACTGAGAAAAAGGGCGTGGCCTACGTCGGCATAATCTGCTCGGGTCTCTTTTACGCTATCTTGACCTTCCAGTTCACTCCGGCAATCTTTGCCTTCAACTTTGCCTTTGGCATGCTTTTCGCCTGGAGCTACCTCAGCACCCAGACCATCTGGCTGCCTCTTTACCTGGCAGCCTTAAACGGGGTCTTGACGGTTGTGACCATCGCCGTTTAA
>SRR1919932_01331 tryptophanyl-tRNA synthetase
ATGACGAAAGAAATTATTTTGACTGGCGACCGGCCAACCGGCAAGCTGCACATCGGCCACTACATCGGCTCCTTGAAGAACCGGGTCATGCTCCAAAACACCGGCAAGTATGACTCTTACATTATGATTGCTGACACCCAGGCATTGACTGACAATGCCCGCAACCCGGAAAAGATCCGCAACTCCCTGATCGAAGTTGCCCTGGACTACCTGGCTGTTGGCTTGGATCCGGAAAAGTCAACCATCTTTGTCCAGTCCCAAATCCCGGCCCTGTTTGAACTGACCACTGACTACATGGACCTGGTAACCCTGTCCCGGCTGGAAAGAAACCCTACTGTTAAGACGGAAATCAAGCAAAAGGGCTTCGGTGACTCCCTGCCAGTCGGCTTCTTGACCTACCCGGTTGCCCAAGCCGCTGACATCACTGCCTTCAAGGCGACCTTAGTCCCAGTCGGCGATGACCAGGAACCAATGCTGGAACAAACCCGGGAAATCGTCCGCAGCTTTAACCGGACCTACAATGTCGACGTCCTGGTTGAACCAAAGGGCTACTTCCCGCCTAAGGGCCAGGGCCGCCTGCCAGGCCTGGACGGCAACGCCAAGATGTCCAAGTCCCTGGGCAACGCCATCTACCTGTCTGATGACGCGGAAACGGTCAAGAAGAAGGTTATGTCCATGTACACCGACCCTAACCACATCCACGTGGAGGACCCAGGCCAGGTTGAAGGCAACACCGTCTTCACTTACCTGGACGTCTTTGACCCGGATAAGGATACTATTGCCCAACTTAAGGAAGACTACCAAAAGGGCGGGTTAGGTGACGTCAAGATCAAGCGCTACTTAAACAAGGTCCTGGAAGCTGAACTGGCCCCAATCAGAGAACGCCGGCAAAAGTACGCTGAAAACCTGGATGCCGTTTACGACATGCTCTACCAAGGGTCACAAAAGGCCAACCAGGTGGCTGACCAAACCTTGCAGGAAGTCCGTGACGCGATCGGCTTCAACTACTTCAAGAACCGAGGCTAA
>SRR1919932_01332 competence protein ComEB
ATGACGCGCAAACGAATTCCCTGGAAACAGTACTTTATGATGCAGGCCCTGGTGATCGCCCAGCGGTCAACCTGTGACCGGGCCCTGGTCGGCAGCGTCCTGGTCAAGGACAAGCGGATCCTCAGCACTGGCTACAACGGGTCAGTTTCCGGCCAGGACCACTGCGATGACGTGGGCCACCAGCTGGTCGATGGCCACTGCGTGCGGACGATTCACTCTGAAATGAACAGTCTGATTTCCTGCGCGAAAAACGGGGTCTCAACCGACAACACGGAAATCTACGTGACTCACTTCCCATGCTACAACTGCACCAAGCACCTGCTGCAGGCCGGGGTGACCAAGATCAACTATTATTATGATTATCACGACAGTCCTTTGGCCATTCAGCTGCTGCGTGATAGTGGAGTACCTTATGAACAAATTAAGCTTGACCGCCAATTCGTCGAAGAACTGGCACACAAACTTGAAGACAGCAGCGACTAG
>SRR1919932_01333 hypothetical protein
TTGAAGACAGCAGCGACTAGGCTGGCCTGGCTCCTGGCTTTAGTCTGCCTTTTTCCCCTGGTGACCGGGGCCAGCAGCTTTTTCGTCCAGGACAATGTCGGCATCATCAATTCCGATACCTGGAAAATGGTTGACCAAAAGAATGCCAAGTACCAGAAGTCTGACCAGCACCCGATCGTGATCGTCGAGACCCTGCAAAATGCCAAAAAGACCCAGCCGGCCGGCTTGAGCAAGGCAAGCAGAACCCTCTATATTGTGATCAACGTGCAAAAGGACGGGACTAAGAAGGCCTATCTTTACAGCAGCAGCGACCTGCACAGCCAGTTTACCGCCCAGGTCCGGGCCAACATCCTCAGCCACACGGCTTCCAAAATCACGGCTGATGACCCGATCGCCTTCAATGAAGGGGTGCAGGAGCTGTTCAAGATTTCCGTGACCTTGATCGACCAAAGCCTCGGCTTTAAAAAGGACTCCCTTGACCTGTCCAGCGAGGAAGTGAACCGGGTGATCAAGCCAGCTGACCTCAGAATTCCGATCATGCTGGCCCTGCTGGTCTTGATCGCGGCCGTGATCATCTTCCTGCGCTTTACGATAAGACGGCAGGCTAGAAAATAA
>SRR1919932_01334 magnesium-translocating P-type ATPase
ATGCTCAACAAGACAATGAACAAAGCTGCCAGCGATGACGCAAAGCGGGTTGCAAGAATTGCCCTGGAAAAGCGGAGCGTGACTTTGGCCCAATTGCATACCAGCAGCAACGGCCTCAGCACTGAAGAAGCAGCCAATATCCGGGAAAAGACCGGAACCAACGAGATCGCGAGCAGCAACCAAGCCAGCAAGCTCCACTTCCTGGTCGAAGCTTTCCTGACTCCGTTTACCCTGGTCCTGCTCATTTTGGCGACGATGTCCTTGTTCACCAACTACATCTTCGCCCCGCAAGGGGAAAAGGACCTCAGCACCGTTATCATCATGGTGGTCATGGTCCTGGTTTCCGGGATTACGTCCTTCATCCAGAACGTCCGCACTTCCAACGCCGTCCGGTCCCTTTTGAAGATGGTTTCTGTCACGACCAACGTGCGCCGGGACGGCAAGGACCAGGAAATCCCGACCAAGGACGTGGTGGTCGGCGACATCATCAACGTTTCAGCCGGGGACATGGTTCCAGCTGACATGAAGCTTTTGTCCAGCACTGACCTGTTCTGCTCAGCCAGTTCCTTGAACGGGGAATCAACGCCGACGGAAAAGAATGCCAACTTTGTCCCAACCCCGGACAAGATGGAAAACTACCTGGACTACCCAAACATCCTTTTTAAAGGCACGACTATTGTCTCCGGCTCCGGCCGCGGGGTGGTCTTCGCCACTGGCGAGCACACCGTGTTCGGCAAGATTGCAGCCCAGATCGCCGACACCGAAATGAAGGAGACGACTTTTGACACCGGGATCAAGAACGTCTCCAAGCTGCTCTTGACCATGACGGCCATCATCGCGCCTCTGGTTCTCGTGGTCAACGGCTTGACTAAGGGCAACTGGACTGATGCTTTGATCTTCGCCATCGCTACGGCGGTGGGCCTGACGCCGGAAATGTTGCCAGTCATCGTGACCACCAACCTGGTCCGGGGCAGCCTGGAAATGAGCAAGCACCAGACCATCGTCAAGAAGATGAACTCCATCCAGAACTTCGGTTCAGCCGACATCCTCTGCACTGACAAGACCGGGACCTTGACCCAGGGCCAGGTCATCCTGGAAAAGCACTATAACCTGGAAATGCGGGAAACCGACCGGGTTTTGAAGATGGCCTACCTGAACTCTTACTACCAAACCGGGATGAAGGACCTGATCGACCAGGCAGTCATTGACGTGGCTGATGACGACCTGGACACCAGCGAAATCCAGCGGGACTACCACAAGATCGACGAAATTCCTTTTGACTTCCAGCGCCGGCGGATGAGCGTGGTGGTTGCCAACTCTGACCAAAAGCACGGCGAGCACCTCCTGGTTACCAAGGGGGCGGCTGAAGAAATGCTGGCCGTCTCCAGCCAGGTGGAAATCGGCGGCCAGATCCTGCCTTTGACTGAAGAAAGAAAAAAGCAGATTTTTAAAGATATCGACGACTTGAATAGTGACGGGATGCGGGTTATCGTCTTGGCCTACAAGGTTGACCCGTCTCCAGTCGGCAAATTCACGGTTGATGATGAAAGAGACTTGATCGTGATCGGCTTCTTGACCTTCCTGGATCCGCCAAAGGAAAGCGCCAAAAATGCCCTGGCTAGCCTCAACCGGGACGGCATTACCGTTAAGATTTTAACCGGGGACAATGAAGCCGTTACCCGGGCCGTGGCCTTGAAGGTTGGCCTTAACATCGATACGGTTTACGGACAAAAGGACCTGGTCGGCAAGAGCGATGAGGAACTGGCCAAGATCGTTGAAGAATGCGACATCTTCGTCAAGCTGTCACCGGAATGGAAGACCAAGATCATCGATGCCCTGCAGAAAAACGGCCACACGGTCGGCTACATGGGTGATGGGATCAACGATGCCCCGGCCATGAAGCAGGCGGACGTCTCTATCTCAGTTGACTCAGCTGTCGACGTGGCCAAGGAATCAGCGGACATCATCCTTTTGCAGAAGGACTTGAGCGTCCTGGAGCACGCGGTCCGGATCGGCCGCAAGACCTTGACCAACACCATGAAGTACATCAAGATCACCCTGTCTTCCAACTTCGGGAACATCTTGTCCATCATGGTCGCCTCAGTCTTCCTGCCGTTCTTGCCAATGCTGCCGCTACAGCTCTTGATTTTGGACCTGCTCTACGGAACCAGCTGCCTGGCTTTGCCCTTTGACAGCGTGTCTGAAGACTACCTGCACGTGCCGCGGGAATGGGCAACCAAGAACATGCCGAAGTTCATGTTCTACTTTGGGCCGACGTCATCAATTTTTGACGTCATCACCTTTGCCGTCCTCTTCTTTGTAATCTGCCCGGCCCTTACTGGCGGCAGCTACGCTTCCTTAGGACCGGCAGGGCAGCTGGCCTTCATGACCATCTTCCACACCGGCTGGTTCGTGGAATCCCTCTGGACCCAGGAAATGGTCATCCATGCCTTGCGCGACGAACGTCTGCCACTTATCCAGCAGCGGGCATCAAGCCCAGTCATGCTTGCTACTTTCGGGGCTGCTATCTTCGGGACCTTCCTGCCATTTTCAAAATTGGCCGGAGCCATGAAGTTCGTTCACTTGAACGAAGAATTCCTGTGGATCGTGGCTGGCCTCCTGGTCTGCTACCTGCTTTTGACGACAGTCGTCAAGCACTTCTACATGAAGAAGGAAAAATTCTTGATTTAA
>SRR1919932_01335 methionyl-tRNA synthetase
ATGGCAGATAACAAGAAAACTTTTTACATTACCACGCCAATCTACTATCCGTCTGGCCGTTTGACCATCGGCAACGCCTACACGACGGTAGCAGCGGACACCATGACCCGCTACAAGAAGGCCCGCGGCTATGACACCTTCTTCTTGACCGGGACCGACGAACACGGCTTGAAGATCGAACAAAAGGCCGAAAAGCTGGGCATGAAGCCAAAGGCTTACCTGGACGGCATGGTCAAGGACATCAAGGAACTGTGGAAGAAGCTGGACATCAACTACGACAAATTCATCCGGACCACTGATGAAGAACATGTCAAGGCTGTCCAGAAGATTTTTGAAAAGCTGAAGGCCTCAGGTGACATCTACCTGGGTGAATACACCGGCTGGTACTCAGTTGAAGACGAAGAATACTTCACTGAATCCCAGCTGAAGGAAGTCTTCAAAGACGACCAGGGCAACGTTGTCGGCGGGATCGCCCCATCTGGCCACGAAGTTCAATTGGTCAAGGAACCATCCTACTTCTTCAAGATGAGCAAGTACGCTGACCGGCTTCTCCAGTACTACAAGGACCACCCGGAATTCATCCAGCCAAACTCCCGGGAAAAGGAAATGGTGAACAACTTCATCAAGCCGGGCCTGGAAGACTTGTCAGTTACCCGGACCACGGTTGACTGGGGGATCCCGGTGCCAAGCGACCCGAAGCACGTTGTTTACGTTTGGATCGACGCCTTGGCCAACTATATCACTGCCTTGGGCTATGGGTCAGAAGATGACTCCCTCTTCAAGAAGTACTGGCCAGCTGACGTCCACCTGGTCGGCAAGGAAATCGTCCGTTTCCACACCATTTACTGGCCAATCATGCTGATGGCCCTGGACTTGCCGCTGCCTAAGCAGGTCTTCGGCCACGGCTGGGTCTTGATCTACAAGGACAAGATGTCCAAGTCCAAGGGTAACGCCGTTTACCCGGAATCCTTGATTTCCCGCTACGGCCTGGACCCGGTCCGCTACTACCTGATGCGGGCCATCCCATTTGGGGCTGACGGTTCCTTTACCCCGGAAGACTTCGTTGAACGGACCAATTTTGACCTGGCCAACGACCTGGGCAACCTCTTGAACCGGACTGTTTCCATGATCAACCAGTACCAAAAGGGCCTGGTTGCCCCGGTTGACCAGGAACAGGACAAGTACGGCCAAGACCTGGCTGCCGTTGCTGCCAAGGCCATCAGCGACTACTACGGCAACATGGACAAGATGCACTTCTCCAACGCTTTGGAAAATGTCTGGCAGCTGATTTCCCGGGCCAACAAGTACATCGATGAAACTACCCCATGGGTTTTGAACAAGGAAGGCAAGACTGAAGAACTTTCCAGAGTCATGAGCAACCTGGCGGAAAGCCTGCGCCTGGTAGCCATCATGATCGCTCCGGTTATGACCGAAACTCCAGGCAAGATGTTTGCCCAGCTGGGCCTGGACTGGGAAGACGAAAGCCAGAAGGACTTGCAGTTCGGCGGCTTTGCCTGGGACGTAAACGTCGTTGCCAAGCCAACTCCGATCTTCCCACGCTTGAAGAATGACGAAGAAGTGGCCTACATCAAGGAAGAAATGAAGAAGGCCAAGCCAAAGAAACAGTCAAGAAGAGAACAAAAGCAGGAAGAAAAGCAGATCACGATCGACGACTTTGCCAAGGTCAAGATCCAGGTCGGCAAGATCCTGTCTGTTGAACCAGTCAAGGGATCAAGCAAGCTCTTGATGTTCAAGCTAGACTTCGGCAAGACCGGCGAGCGGCAGATCTTGAGCGGGATTCGCAAGTTCTACCCAGATGAAAGCATCCTTTTGGGCAAGAAGGTTCTGGCTGTAACCAACTTGAAGCCGCGCAAGATGCTGGGCCACGAAAGCCAGGGCATGCTTTTGTCCAGCGAAGCTGACGGCGATGTCAAGCTGGCCCTGGTCGGCGACGAACACCCGGTAGGGGCTGAACTGGGCTAA
>SRR1919932_01336 TatD family hydrolase
ATGAAGATCTACGACAACCATACCCACTTAAACGACAAGCCTTTTGCCGGCAAAGAAGCCGATTATATCCAAAAAGCCAGGGACTTGGACGTGGTTGGGATGAACTGCGTGGGCCAGGACCCGGAAATGAACCTGGGCGCCCTGGAATTAGCTAAGCGCTTTGCCAATGTCAAGGCCATCATCGGCTACTGCCCGGACGTGGCTAAAGACTATGACCAGGCAGCTGAAGACCTGCTGGTTGAGCAAGTTAAAGGCGGCCAGGTAGTCGCTATCGGGGAAATCGGCCTGGACTACTACTGGGATGAGTCTCCCCGGGATGTGCAAAGGAAAGTTTTTGCCCGGCAGATTGAAGTTGCCCGCGATTTGCAATTGCCGGTAAATATCCATACTAGGGACGCCTTCGCGGACTGCTGGCAGATCTTGAAAGAAGCAGACCTGGAATACGGGGCGGTTTTGCACAGCTACAACGGGGGCCCGGAATGGACGGAAAAGTTCCTGGACTTGAACGTGAATTTTTCTTTCTCCGGGGTCGTTTCCTTCAAGAAGGCCGCGGAAGTGCATGAGTCAGCCAAGCTGGTTCCTTTGGACCGGCTTTTGGTTGAAACTGACGCGCCGTTTTTGACTCCGGTGCCTTACCGGGGCCGGCAAAACGAGCCTGGCTATGTCCGCTACGTTGCCCAGGCGGTCGCGGACTTGAAGGGGCTGGATCTGGCCGAAGTTGCGGAAGCAACTTATGCTAATACAATGAGGATTTACGGATTAAATGCAGAAGAATTTTAA
>SRR1919932_01337 ribonuclease M5
ATGCAGAAGAATTTTAACGCCGTCGTTGTCGTGGAAGGCAAGGACGATACGATGCGCTTAAAGCAGTTTTTTCCAGGAATTGAGACGGTCGAGACGAATGGCTCGGCCGTTTCTGATGCGGTCCTGGCCAAGCTGAAGAAACTAGCCCAAAGCCGCGAGATTATTGTTTTTACCGATCCTGACGTCAATGGCGAGCGGATCCGCCGGATAGTGACCGAAGCCGTGCCAACGGCCAAGCAGGCCTTTATTACCCGCAAAGAAGGCGAACCGCAAAAAAAGGGGAGCCTGGGGGTAGAGCACGCTTCAAAGGAAGCTTTAGAGCGGGCCTTGAGCGACTTACGCGAGGTCCAAGCCCAAAAGGCTGACTTTGACTACGGGGACTATGTCGACTTGGGCCTGGCCATGGGTCGCCAGTCCCGGCAATTACGGGAGGCAGTCGGGATCAAGCTGGGGATCGGCTATGCCAATTCCAAGCGTTTTTACCAGCGCCTGCAGACTTTTGGCATCAGTTTGGCTGAACTTAAGCAGGCAGTAGAGGAGGCGGAAAATGACCAACAGAATTCCAATCGCTAG
>SRR1919932_01338 dimethyladenosine transferase
ATGACCAACAGAATTCCAATCGCTAGTCCGGTAAGGACGGCGGCCATCGTCAATCGTTACTTTGTGCACGCCAAGAAGAACCTGGGCCAGAACTTCCTGGTTGACCTGGATGCCGTCCAGGGGATCGTCCGGGCAGCCGGGATTGAGCCCGGCGACCAGGTAGTGGAAGTCGGCCCGGGGATCGGCTCTTTGACTGAACAGCTGCTTTTAGCCGGAGGCAAGGTGGCGGCTTATGAAGTCGACCAGAGCCTGCCGGAAATCCTGGCCAACGAACTGCCGGAAAAGGTGGACGGCCAAGACCTGGACCAGCGCTTCAAGCTGATCATGAAGGATGTTTTGAAGGCGGACTTTGCAACTGATCTGGCGGGCTTTTTTGACTTAAGCAAGCCCGTCAAGGTTGTGGCCAACTTGCCTTACTACATCACCACGCCGATTATTTTCAACCTGCTGGAATCCAGCCTGGACTTTATCAGCCTGACCTTGATGATGCAAAAGGAAGTGGCTGAGCGTCTGGCTGCCCAGCCGGGCTCTAAGGCCTATGGCCCCCTGTCCATTGCCGTGCAGACTCAAATGAGCGTGGACCTGGCCTTGGAAGTTGGGCACGCTTCCTTCATGCCCCAGCCAAAGGTTGACTCAGCCGTAGTGGTTTTAACGCCTTTGGAAAAGCCAGCTGAGGTTGGCGACCGCAAGCAGTTCAACCGGGTGGTTAAGCTCTGCTTTGCCCAGCGGCGCAAGACCCTGGCCAACAACTTGAAGACCTTGCTTCCAGACAAGGAAGACCGGGAAAAGCTGCTGGACGACCTGGACCTGGACCCGCGCCAGCGGCCGGAACAACTGGCCATCGGCGATTTCATCAGAATCAGCCAGGCTATAGCGGAAATGAATAAATAA
>SRR1919932_01339 Veg-like protein
TTGCCAATCAATATTCAAGACATTAAGCAGAAGTTAGATACCCACCTAGGCGAAGAGCTGACAATCGTTGCCCAAGCGGGCCGCAAGAAGGTAACCAGACGCCGCGGCATTTTGAAGAACACGTTTCCTGCCGTGTTTGTAGTGGCTCTGGACCAGGACAGTAATAATTTTGAACACGCATCATACAGCTACACTGATGTTTTGACCAAGAACATCCTGCTGGAATTTGATGATGAAAGTGATGCAGAGTAA
>SRR1919932_01340 purine operon repressor
ATGAAACGTTCTGAAAGATTAGTAGATATGACCAAGTTTTTGATGGAGCGCCCGCATACTTTGATTGCTCTGCCCTTTTTTGCCAAGCGCTACGGGGCAGCGAAGTCATCAATCTCTGAAGACTTGGCCATTTTGAAGCACACCCTGGCCAGCAACGAGGATGGGATCCTGGAGACCGTTGCCGGGGCAGCCGGCGGGGTCCGCTATATTCCGTTCTTAGGCCAGAAGCCGGCTGAGAAGTACCTCAAGGACCTGGCAGGCCGCATCCAGGACTCCAGCCGGATTCTGCCGGGCGGCTTTGTCTACCTGTCAGATATTTTGGGCGGGCCATATGACCTGGAGATGATCGGCAAGCTGATCGCCACCCGCTATGCTTACGCCAATATCGAAGCCGTCATGACGGTGGAAACCAAGGGGATTTCTTTGGCCAATGCCGTGGCCAGCTACTTGAACGTCCCAGCGGTAACCGCCCGCAAGCGGTCCAAGGTGACGGAAGGGGCTACTGTGTCCGTTAACTACATGTCCTCTTCAACTTCCCGGGTAGCCAAGATGGAGTTGCCGACCCGGGCCCTGGACAAGGATACGAACGTTCTGATTGTGGACGACTTCATGAAGGGCGGCGGCACTCTGGACGGGATGCGGCAACTGGTCAAGGAATTTGACTGCCAGGTGGCCGGCGTCTGTGTTCTTTGCGAAACTGAATATGAAGAGGAACGCAAGATCAAGGACTACGTTTCCCTGGTCAACATTGACCAGATCGACAGCGAAAAGGAAATCATCCTGGCTCAGCCGGGCAACTTTTTGACTAGAACTAACTTCGACCGTTTCTAA
>SRR1919932_01341 bifunctional N-acetylglucosamine-1-phosphate uridyltransferase/glucosamine-1-phosphate acetyltransferase
ATGGGAAAATATGTCATAGTTTTGGCTGCCGGCAAGGGCACCAGAATGAAATCCAAGCTTTACAAGGTTTTGCACCAGGTTTGCGGCAAGGCCATGGTTGAACATGTCGTTGATGCCGCCAGAGCGGTCAAGCCAAGCAAGATCGTGACCATTGTCGGCCACGGGGCAGAAGACGTGGAGAAAGTCTTAGCGGGCAAGTCTGAATTTGCCATGCAGGAAGAGCAGCTGGGAACCGGCCACGCGGTTATGCAGGCGGAAGGCCAGCTGGCTGCTTTGGAAGGGGCAACGCTGGTCGTAACCGGGGATACCCCGCTTTTTACCAGTGAAACTTTCGAAAAGCTCTTCGCCTACCATGAAGAAGAAGGCAACGCGGCCACGGTTTTGACGGCTGAAGCTCCGAATCCTTTTGGCTACGGGCGGATCATCAGAGATGACCAGGGCAATGTTTTGCGGATCGTGGAACAAAAGGACGGCAAGCCGGAAGAACTGAAGGTCAAGGAAATCAACACCGGGGTCTTCTGCTTTGACAACCAGGACTTGTGGGCTGCTTTGAAGCAAGTCGGCAACGACAACTCTCAAGGCGAGTACTACTTGACTGACGTTTTGGAAATTTTACGCAAGGCCGGCAAGAAGGTCGGGGCTTACAAGATGCCGGACTTCAGCGAAAGCCTGGGGGTAAACGACCGGATCGCCCTGGCTGAAGCCACCCGGATCATGCAAAGAAGAATCAATGAAGGGCACATGCGGGACGGGGTTACCTTTATCGACCCCGCCACGGCTTACATTGACGCTGACGTGGAAATCGGTAATGACACGGTGATTGAAGGCGGCGTGACAATTAAAGGCCACACCGTGATCGGGTCAGACTGCTTGATCACTTCCGGGTCAAGAATCGTTGACAGCCAGATCGGCAACGGCGTGACGGTAACTTCTTCCACGATTGAAGAATCAATCATGGAAGACAACACGGACATCGGGCCAAACTCGCACTTGCGGCCAAAGGCTTTGATTAAGCGGGGAGCCCACCTGGGCAACTTCGTGGAAGTCAAGAAGGCGGAAATTGGCGAAAACACCAAGGTCGGGCACCTGACTTACGTTGGGGATGCTACTTTGGGCAAGGACATCAATGTCGGCTGCGGGGTCATCTTCTCCAACTTTGACGGGGTCAAGAAGTTCCACACGACGGTTGGTGATAAGTCCTTCATCGGGGCCGGGTCAACCCTGGTTTCTCCGATTAATGTGGCCGACCATGCCTTTATCGCGGCTGACTCAACCATTACCAAGGACGTTGGCAAGTATGAAATGGCCATCGCTCGGGGCCGGCAGGTCAACAAGGAAGCCTACTGGCACAAGCTGCCTTTGTCTGAAGACAAAGAATGGAAATAA
>SRR1919932_01342 hypothetical protein
ATGAAGTTTACTAAGAAAATTGCTTTTGCATCAGCATCATTGGCTTTGACCATGGCTACTCCAGCCGCCCTGCTTACTCAAAACGCGGCTTTTGCCAAGACCACCACGGTTAAGCAAGCAACCAAGGTTAAGGTAACTAAGAAGACCACTCCTTTCTACCACAAGGACGGTTCAAAGTTCACTAAGAAGAGCCAATACGTTTACCAAGGCTGGAAGAGCACTGTAGCTTACAAGAACACCAGCTACAACGTAGTTAAGACTGTAACAATCAAGGGTGCTAAGTACTACTACATCGGCAACGACGCTTACCTGAAGGCCAGCGACGTCAAGGTAACTGCAACTAAGACGGTTAAGTCCAGCTCAACTTCAAGCGCAAAGAAGGCAAGCACTAGTTCAAGCAAGACTACTTCCAAGAAGACTAGTTCAACTTCAAGCTCAAGCAAGTCCAGCTCCAAGAAGACTAGTTCAACTTCCAGCTCAACTTCAAGCAGCTCTTCTTCCAAGAAGACCAGCTCAAAGAAGACTGTAACTCAAATTCAAGTAACTAAGAAGACCACTCCTTTCTACCACAAGGACGGTTCAAAGTTCACTAAGAAGAGCCAATACGTTTACCAAGGCTGGAAGAGTACTGTAGCTTACAAGGGGACCAAGTACAAGGTTTCCAAGACTATCACCATCAAGGGAAGCAAGTACTACTACATCGGCAACAGCGCCTACCTGAAGGCCAGCGCCGTTAAGGTAATCGCATCTAACTTAAACTTCCCACACCAAAAATAA
>SRR1919932_01343 acetyl esterase
ATGAAAATCTTTAACAAAAAAATTGGTGAAAAGGGCGCTGAAGCCAGCTATTACATCCAGGAAGCAGATTCATCGGTTGATGAAAAGCGCAAGTCCTCATTCTTGGTCATCGTGCCAGGCGGGGCCTACTGTTACACGGCTTGGCGGGAAAGAGAGCCGATTGCCTACGAATTTATCGGTAAGGGTTTCTCATGTGCCATTTTTGACTACGCGACTGAGGGAGCGGAATTTTTTGACGGAAATCATGACTACAGCCGCGATCCTGTCAGTGCATTTCCTAATCCCTTGATTGACCTGGCAAAGCTGGTTGCTGACGTCAGAAGCCATGCTGAAGAATGGCAACTCGATCCGGAAAGCATAAACGTGATTGGCTTTTCAGCCGGCGGTAACTTAACGGCTCAGCTGGCCGCCTACTGGCAGACTTCTTGGCTGGCCAAGCTGACAGGCTTGAAAGCAGAGCAGATGCGGCCAGATTCAGTAGGCCTTTGCTACCCGGCTATCAAGATGGTCGATTTAAATAATCACAATATCGCGGTTTTGAACAAGGTCAAGGTTAGCGTGGACTTGATCAATTACGCGGCAACAGGCCTGGACCAGTCAGCTGAAAGAATTGCCATGATCAACTTGGACAAGGCAGTGACTAGTGAGTTCCCGCGGACCTTTATGTGGGGGACGACAGAAGACTTAAACTGCCATGTCGAGGATGCGATTAACTTTGCCGGTGACCTAGTGTAG
>SRR1919932_01344 alpha/beta hydrolase
ATGAGTGAAAAGGATGTAAGAATTACGCGTGATGGTTTGCAGCTGGCAGCCAAGGTATCCATTCCTGACAGCAAGGAATATGATTTGGCCATTCTGGCTTACGGTTTCGTGGGCATGATGGATCCCAAAGTCAATGACCTCTTGCCTGTTTTGGCGGAAAAGCTGCAGGAAAAGGGCCTGGCTACGGTTCGCTTTGACTTCAACGGGCACGGTTTAAGTGAAGGTTCGCTGGACAACATGTCGATTTTTAACGAACTGGAAGACTATGAAGCCGTAATGAAGTATGTCTTTGGCCTGGAAGGGGTCAAGAAGATCTACTTGATCGGCCACTCACAAGGCGGGGTCCTGTCTTCAATGATGGCAGGTTACTACGCTGATAAGATCGACAAGCTGGTAATTATGTCTTCAGCTGCTACTTTGGTTGATGATGCCAGAATCGGCACTTGCATGGGCCAGGAATACGATCCAAACAATGTGCCAGAAAAGCTGGACTTCAAGGACTTCAAGCTTAACGGCTGGTATTTCAGAACTGCCAAGTTTATCAACATTTACGAAACGGCGGCTGCTTACCATGGCCCGGTTTTGGCCCTGCATGGTGAAAAAGACGAAATTGTCAACAACTACGCCAGCCGTCACTACCAATCGATCTACGATAACTGCGAATTCCATCTGATTCCAGAAAGTGACCACGGCTTGCACCAAAACCGCGAAGAAGTCTACGACCGCGTTGCAAACTTCTTAACTAAGTAA
>SRR1919932_01345 major facilitator superfamily transporter
TTGGATGCCAGTGTAACTAGTGGCAAGAAGCGCAGCTATCTGTCAACAGCGGTTGCTGTATATACCACATTCTTAATGTGCGGGATCATTATGTCGATTTCCGCCCAGTACAAATTGCAATTAGCAGAATTATGGGGACAAAAAGGCAATATTGCCGCTGTTCTGTCAGTCAGTTCAGCGGTCGGCGTCGGGGGCCTAATCGGCACCCTGGCAGGTCCGCTTTCTGATAAGTTTGGCCGCCGCTTCGCCTCGATCATGGCCTGTCTCTGCACAGTAATCAACTTTGCCGGTTTTATGTTAGCACCGAATGTAACAGTGGCTTATGTTTGCTCCTTGATTGGCGGGATCGGTAATTCCTTTATGAATGCCGGCTTGACGCCATCAATGCAGGATGCTTATCCAGACAAGCGGTCAATGCTGACGGTTTTGACGAAGTTCTTTGTCAGCTTTGGTCAGTTCATCCTGCCATTTGTGATCGTTGCTTTTAATGCTCAGCATATCTCATTTAAAGTTGCCTTCTGGGGCATTACCGTGGTTTACGCGGTAATCGGTATCGCCTGCTTCTTCCTGCCATTCCCGGAAGTGGGCGGCGACCGGCAAGCGCAAAAAGTTGAAGCAAGCAGTGATGTTAAGCCAAAGGGCAAGATTAAAATCACTTTGGAATCAATAATCTTGGGTTTGATGGGCTTTAGCACCACGGCTGTCTTCATGGTTTGGACCAATACCAACCAGGAATTGGGTAAGTTGTATGGCTTGGCCAACCCCGCCATGCTGCAGTCAGTTTACGCGATTGCATCCCTGGTATCCGTTTTGACCACTTCTGCTATGGTGGCCAAGGGGATCCGTGAATCAACAATCTTGATTGTTTACCCGGCAGTTTGCGCGGCTGGCTTGCTTCTCTCATACTTTGTGCAGAGCGGTCCTCTCTTGTACGTTCTGGCTGCTGTCATGGGCTGGTTTGCTTCCGGCGGCTTGATGCAGCTGGCTGTTTCCTTGCTGGCCGGCCTGTATCCAGCTCACAAGGCAACTGCCATTTCAATTGTCGGCCTGGGCAATGCCTTATCCAACTGGCTGGTTATCCGGGCTTGCGGGTCAATTACCGCGACTGCTGGTACTAATGCTCCACGGGTAATTCTGCTGATGAACATGGTTATTGCCATTACCGGTGTCCTCTTAGGGATCATCGTTCGCATCAGCCAGAACCGCCGGGCAAAGAACAATATTACCAACTTGGAAAGCTAA
>SRR1919932_01346 fumarate reductase flavoprotein subunit
ATGTCAATGAAATCAGGTACTTATAGGGTTAAGGCCAAGGGCCACGGTTCATCATTCATGCCGATGGAAGTCACCATTGAAAACGACAAGGTGGCGGACATCACGGTTGAATCAGCGGGTGAAACCAGCGGGATTGCTGATGAAGTCTTCAAGCGCCTGCCAAAGGCTATCATCGACGGGCAAACCTTGAACGTCGACGCCGTTTCCGGGGCTTCAATCTCCTCACAAGGGGTGATCGACGGGGTTGCTGAAGCGATCAATGAAGCCGGCGGGGATGCTGAAGAATGGAAGAAGCGGGACAAGCCGGCTTCCTCAGCCGCCAAGGATGAAGAATACGACACTGACGTGGTTGTCATCGGTGCCGGCGGGGCTGGTTTAGCCGCTGCTACCCGGTCTCTGCAGCATGATAAGAAAGTTGTTATTCTGGAAAAGTTCCCGCAACTGGGCGGTAACACTGCCCGGGCCGGCGGTCCAATGAACGCGGCTGAACCAGACTGGCAAAAGGGCTTCAAGGCCCTGCCAGGTGAAAAGGGAACCCTGAAGGAACTGGCTGAAACGCCAACCAGCGAAATCGACCCGGAATACGTGGCAGACTTCGAAAAGCTGCGTGACCAGATCAAGGCCTACCTTGACTCAGGTGAAGACTACCTCTTCGACTCAGTCCTGCTGCACGAAATTCAAACCTACCTCGGCGGCAAGCGGGTGGACCTCAAGGGCAACGAAATCCACGGCAAGTACGAACTGGTAACGACCTTGGTCAACAACGTTCTGGACTCAGTTAACTGGCTGACCGACTTGGGCGTGAAGTTTGACCGCAGCGACGTGACCATGCCAGTTGGTGCCTTATGGCGCAGAGGCCACAAGCCGGTTGAACCAATGGGCTTTGCCTTCATCCACGTTTTGGGTGACTGGGTTAAGGAACATGGGGCAACCGTTTTGACTGAAACCCGGGCCAAGCACTTGATCATTGAAGGCGGCAAGGTGACCGGTGTGATCGCGGAAAAGACTGACGGCTCAAAGGTAACTGTCCATGCCAAGAGCGTGATTTTGACGGCCGGCGGTTTCGGGGCCAACACCAAGATGGTGCAAAAGTACAACACTTACTGGAGCGAAATTGCTGACGACATCGCCACGACCAACTCACCAGCCATTATCGGTGACGGGATTGCCTTGGGCCAGGAAGCCGGCGCCGCTTTGACGGGGATGGGCTTCATCCAACTCATGCCAGTTTCTGACCCGGTAACCGGGGAACTTTTCACCGGCTTGCAAACTCCGCCTGAAAACTTCATCATGGTCAACCAAAAGGGTGAACGTTTCGTCAACGAATTTGCTGAACGTGACACTCTGGCAAAGGCAGCGATCGACAACGGCGGCCTCTTCTACCTGATCGCCGACGACAAGATCAAGGAAACTGCCTACAACACCACGCAAGAATCAATTGATGCCCAAGTGGAAGCCGGCACCTTGTTCAGAGCTGACACTTTGGAAGAACTGGCTGAAAAGGTGGGCATGGACCCGGCAGTTTTGACCGACACCATCAAGAAGTACAACTCTTACGTTGACGCCGGCCACGACCCGGAATTCGGCAAGAGCGCCTTCCACTTGAAGTGTGAAGTAGCACCATTCTACGCAACTCCGCGTAAGCCAGCCATCCACCACACCATGGGTGGTCTGGTTATCGACACTAAGGGCCACGTTTTGGACGAAGCAGGCCACGTGATCGCCGGCCTGTACTCAGCTGGTGAAAACGCGGGCGGCCTGCACGCCGGCAACCGTTTGGGCGGGAACTCCTTGGCTGACATCTTCACCTTCGGCCGGATCGCCGCTGACACGGCTGATGAGGAAAACCCAGCTAGCGACGCGGTCAGCGGGGCATCTCACCACTAA
>SRR1919932_01347 LysR family transcriptional regulator
ATGAACGATCCCGACATCATGCTCAACTACCTGGAAACCCTGCTCAAGGAAAGCAACTTCACCCGGGCCGCCGAACACCTCTACATCTCCCAGCCCTACTTGACCCAGCTGATCAAGCGGGTGGAGAAAAAACTGGGGACCACCATCATCAACCGGGACAAGGTTCCCTTTACCCTGACTGAATCCGGCCAGATCTACTACCAGTATTTGGAAAACATTTCCGCCCAGCGCCACCAGCTGGCCAACGCCCTGGAGCGCTTCAGCAACCAACAGGAAGAAGTCATCCGGATCGCCATTCTGGAAAGCCTGGGCACCTTCCTTTTGCCTAAGATCCTGCCTGCCTTTTTGGCAAAACACCCCCAGGTCAAGATCCAGATCGCTGAAGGCTTCCCCCACACCAGCGAAGACCGGCTGCTGGGCGGGGATGTCGACTGCTATATGGGGCAGACGCCGGAAACCGTCGCGCAAGGAATTGATACTTATATCAACGGCGGGGAGGTCTACTATATCGTGATTCCGGAAAACTCCAAGTACTATCTCAAAGACCACTTTATCCTGGATCCGGCTGATTATGATCCCAAGGAGCTGCTCCAGCAGCCTTTTGTCTTAAGCAACGGGGAATCCGCCATCCGCCACCAGGTCAACGGTTTATTTCATTACTTCCGCGTGCAGCCAAATATCCGGATGACCTCCAACAGCGTTATCACGGCCACCAACCTTGCCGTCAACGGGGTCGGCTTCACGATCTCCTCAGCCAGTATCTTGAAGCGGCTGGAGCACCTGCCAATCAATCTCTACCCCCTTGACCCCCGCCAGATCAAGCTTACCTACTTCATCGGGGTCCGGCGCGGGGCTGACCTTTCGCCGGCCTTAAAAGACCTGGTCGAGGCCTTCCAAGCGGCCGAGCTGCAGGAAAAGATCAGATAA
>SRR1919932_01348 shikimate 5-dehydrogenase
ATGACTGACGAAAGAAACAATGATATTTTACCGGTAAAAATCAGCGGGATTACCGGACCGGTGACAGGCTGGCTGGACGGGCACACAATCTTGCTGGGCCTGTTCGCTGATCCAATCAGACACTCAGTTTCACCGACTATGCACAACAACGCGATGGCTAAGCTAGGCTTGAATGGGGCCTACCTCTGCTTTGAGATCGGGCCGGACCGGATTGGGGACGCGGTCAAGGCATTGCGGACTTTGGACATGCGGGGCGTCAATGTATCCATGCCAAACAAGCAGGCAATTATCCCTTACCTGGACAAGCTGGACCCGGCAGCGGAAATCTGTGGAGCGGTTAACACGGTGGTCAATGATCATGGCTTTTTGACGGGCTATACCACTGACGGAACCGGCTGGCTGCGGTCTTTGCAAGAAGACGGCCAGGACGTGAAGGGGCAGGTTGTGACTTTAGCTGGTGCCGGCGGGGCGGCGATTCCGATTGCTGTAGCCGCGGCTATGGGCGGGGCTAAGGAGATCAGAATTTTTAACATCCATGACCGCAACTGGGAACCAGCCAAGGACAAGGTGGCCGCGATCAATGAAGCGACTGGCTGCGCCTGCAGCTTGAACCCGATGGAAGACAAGGAAGCTTTCAAGCAGTCGATCGCTGAATCTGGGATTTACTGCGACGCGACCGGGGTAGGGATGCCGCCGCTGGATGACCTGTCACTGGTGGAAGACCCATCCTGGCTGCATGAGGACATGGTGGTCAGCGATACGGTTTATGAACCGCGGGAGACCAAGCTGATGCGGATCGCCAAAGAGGCTGGTGTCAAGCATATCTATAACGGGCTGGGCATGGTGGTCGGCCAGGGGGCAGAGTCCTTCAAGCTCTGGACTGGCAAGGAAATGCCGGTTGACTACATTAAGGAAATCGTCGCTAAGGCGTAA
>SRR1919932_01349 transcriptional antiterminator
ATGGAATTTATCAAGAATTACAACAACACTGCCCTTGTCAAAGACTCAGCCGGCAAAGACTGGGTCGTCATCGGCAAGGGGATTGGCTTTGGCCTGAAAAAAGGGATGCCGGTCGATGAAAGCAAGATTGAGCGTCGCTTCCTGGCCCAAGACGAAATCGACCAGGTTGAACCCGAAGTCGTCAAAGGGATCGATCCCCAGTCCTTTGAAGCCACTGACAAGGTCTGCGAAATGCTGGAAAACAAGTACGGCATCTCCTTTACCGGCTACCAGTACTTTGCCCTGGCTGACCACATCGACTTCATGATCAAGCGGACCCTGGACGGGGCGGAACTGAACCCGATGAGCGGGCGCTGGGAAACCAAAACCCTCTTCCCCAAAGAATACACCGCGGCCAAAGAAGCCCTGGCTATCATCTCTGCCACCATTCATTTGAAATTAGACCCTTCTGAGGCGATTTCTTTAACCTACCACTTCATCAATGCTGAATCGGACGGCTCCAAACTCCAGGATACCATGCGGATGACCCGTTACTTAGGCGGGATCGTCAATATTGTTCAATACCAATACGGGATCACCCTGGACACCGACAGCTTCAATTATGAACGTTTTATTACCCACCTCCGGGCCTTGATCATCCGCCACTTAACCGGTAAGGAAAGCCACTCTGAACTGGACCCGGCTCTGTTGCAGCTGATGGTTGCCAAGTACCCGAAGGAAAAAGACACTGTCGACCGGATCGCCCAGTATCTCAAGCGGGAAGCCGACTGGACCCTGTCAGCCGATGACCAGACCTACTTGATTCTTCATATCTGGCGGGTGACCCACCGCTAA
>SRR1919932_01350 beta-glucoside-specific PTS system IIABC component
ATGGCAAAGAATTACGATGAATTAGCCAAAGATATCGTTGCGCACGTCGGCGGGGAAGAAAACGTCTCCTCCCTCAAGCACTGCGTGACCAGACTGCGCTTTGTGTTAAAAGATGAATCCAAAGCTGACACCGACTACTTGAAGAAGCGGAACGGGGTCATCACCGTTGCTCAAGCCGGCGGCCAATACCAAGTGGTTATCGGCAACGAAGTTACCGACGTTTACGACGCGGTTCTCAGAAACTCCCACATCAAGGGGGTTGGGGAAGTTGCAGAAGACGACGCCGAAGACGCGCCAAAGGGCAACTTGTTCGACCGTTTCGTCGACTTGATCTCCAGCATCTTCCAGCCATTCCTGGGCGCCCTCTGTGCCGCCGGTATGCTTAAAGGGATAACTGCCCTGCTTGCTGCCACCGGGATGCCGGCAACTAACGGTATCTATATCATCTTCAACGCCATGGGCGACGGGATGTTCCAATACCTGCCATTCTTCCTGGCCTTGACTGCTGCCCGGAAGTTCAAGCTGGACCAGTTCACTGCTCTGGCCTTGCCCGGGGCCATGCTTTACCCAACCTTGACCACTACGGTTAAGGCAACCACCAACTTCTTCGGTCTGCCGATCAAGCTGCCAAGTGGCGGCTACTTCCAAACTGTCGTGCCAATCATCCTGGCCGTTTGGTTCGCCTCCCTGGTTGAAAAGCGGATGAAGAAATGGATGCCAACTGACGTCAAGATGTTTGCTGTTCCATTCTTTACTCTCTTGATCTCAGTACCGCTGTCCATCCTCTTGATCGGGCCAGTAGCCAACACCCTGTCCGCTTGGGTTGGGGTTGCCTTCCAGGCTATTTACAAGCTCAGCCCGATGCTGTACGGGGCAGTTCTGGGTGGTCTCTGGCAAGTCCTGGTTATGTTCGGTCTGCACTGGGGCCTGGTTCCTCTGGCCATCATGGACCTTGCCCAAAAAGGCTGGTCAGTTCTCTTGAACCCATCTTTTGCTGTCTGCTTCGCCCAAACTGGTGCCCTGGCAGCCATCATGATCAAGACCAAGGAAAAGAAAGTCAAGGAACTTGCTACCCCAGCCTTGATTTCCTCAATCTTCGGGGTTACTGAACCTGCCATCTACGGTATTACCCTGCCAATGAAGACGCCATTCATCATGACTTGTATCGCTGGTGCCATCCAAGGTATCTACTGTGGTTTGACCAACGTTACCGGCTACGCCATGGGTGGTTTGGGTATCTTCCTTTTCCCTTCATACATCAACCCTAAGACTGGTTCCTTCACCAGCGTGATCAACCTGGCTATCTGCTCAGTCATCTCATTAATTCTAGGCTTCGCCTTGACCATGATGACTAAGATCCCAACCCTTTACGGGGAAGAAGAAACTGCTTCAAACACTCAAACTACTGAAACTGCTCCAGCAGAAGGTTCTTCAGTAACTGTTGCTAGTGAAACTATCCTGGCTCCAGTTGCCGGTGAAGTTTGCCCGCTGAGCGAAGTAAAAGACGAAGTCTTCTCTTCCGGTGCAATGGGCCAAGGCCTGGCGATCAAGCCAAGAGAAGGGCTCTTGAAGTCACCAGTTGACGGCACGGTCAGCCTGGTCTTCCCAACTGGCCACGCTATCGGTCTGAAGAGCAAGACTGGCGCGGAAATCTTAATCCACATCGGCATGGACACGGTTGAACTCAACGGAGAAGGCTTCGAAGTCCTGGTCTCCAAGGACCAAGAAGTCAAGGCCGGCCAGCCACTGGTCAAGTTTGACCTGGACGCCATCAAGGCCAAGGGCTACGACCTAACCACGCCAGTCATCATCACCAATTCCAAGTCCTACCAGGAAATTGGCGACAGCAAGCGCGACGCGGTTAAGGCTGGCGATCAGCTGCTGGCCCTGTCCTAA
>SRR1919932_01351 6-phospho-beta-glucosidase
ATGAAGCAAAAGAATATCTCAAACACTTTTCCAAAAGGCTTCCTTTGGGGCGGGGCAACTGCCGCCAACCAGTATGAAGGCGCCTATTTAGAAGACGGCAAGGGGCTCAGCACGGCCGACGTAATGACCAACGGCTCCCACACTGAAGCCAGAAAAATCACCTGGAAGAACCCGCAGACCGGGGAAAGCGGCTACGTGCCAATGGCCTTTGGGGCAGATATGACCTTCCCGGAAGGAGCGGAACCGGCAGTTTTGGCCGGCTACTACTACCCAAGCCACACGGCAACTGACTTCTACCACTACTACAAGGAAGACATCAAGCTGATGAGTGAGATGGGCTTCAAGTGCTTCCGCCTCTCCATCAACTGGGCCCGGATCTTCCCGAATGGTGACGACGCCCAGCCAAACGAAAAGGGCTTGGAATTCTACGAAAAAGTCTTCCAGGAATGCCACAAGTACGGCATTGAACCTTTGGTTACACTGTCGCACTACGAAACTCCGCTTGACCTCTCTATCAAGTACAATGGCTGGACCAGCCGCAAGCTGATCGACTTCTTCGTCAACTACGCCAAAACGGTTATGCAGCGCTACAAGGGCCTGGTTAAGTACTACCTGACTTTCAACGAAATCAACATGATGAGCCTTGCTCCTTACATGGCAGCCGGTATTCTAACCGATGATGCCCAAAGCAAGGCCCAAGGCGCCCACAACCAATTCGTGGCCAGCGCTTTGACGGTCAAGGCGGCCCGGGAAATTGACCCGGAAATTCAAGTCGGCCAGATGCTGGCTTACGGCCCGGTTTACGCCTTGACGGCTGACCCGAAGGACCAATTGAAGGCCCTCAAGCAAAACGACGCTACCCTCTTTTACAGTGACGTCCAAACCGGCGGCCGCTACCCGGACTGGATCTTGAAGAAATACGAAGCTGAAGGGATCAAGCTGGACGACGAAGACAGCGACTATGAGCTCCTGGTCCAGTACCCAGCTGACTTCCTCAGCTTCTCCTGCTACTCCTCATCCGTAACGACTACCCATGAAACCGACGACACGGCTGGCGGCAACCTGGCTATGGGGGTCAAGAACCCTTATCTTAAAACCAATGACTGGGGCTGGACGATCGACCCTGACGTATTGCGGATTGCCTTGAACCAGCTCTGGGACCGTTACCACAAGCCGCTCTGGATCGTGGAAAACGGCATTGGGGTTAAAGACCAGATCAGTGAAGACGGCAAGATCCACGATCCGGAAAGAATCTCCTACCTGCAGCAGTGCATCTCTTCCATGCGCGACGCCATCAACATCGACGGCGTTGACTTGATGGGTTACGAAATGTGGGGCTGCATCGACCTGGTTTCCGCCGGAACCGGTGAAATGCGCAAGCGCTACGGCTTTGTCTACGTTGACCGTGATGACAAGGGCGAAGGCAGCCTCAAGCGGATTCCAAAGGACTCCTTCTACTGGTACAAGAAGGTTATCGCCAGTGACGGCGAAGATTTAAGCGACTAA
>SRR1919932_01352 hypothetical protein
GTGCCGATTTCATCATTCGTGGGGATTCTCGTCTTGCTGGTTGCTGGAGTAGCCATTGGCATAGCTGTCTATGGCTGGGTTAGTCATAAACGGGGCTTAGCAGTTGAAGCCCTGCTTGCTGGGGCAATCTTTCTAGGCTTAGTCTATTGGGTTGGCAGCAATTTTATCGGCTCCATGTGA
>SRR1919932_01353 hypothetical protein
GTGACTATAGAAAGACTATATCCTAATGAAAGTATACGGACTGATGGAACTACAATAACTACACCATTTACCGCATCATTTATCCAATTGCCCGCACAACCAAATGAAAAAATTATAAACTTTAAATCCTGGATAGATGAGATGGATGTTAGAAACGGTCAGACATCTGTTAAATCTGGATCTGTTTTTGTCGTAATGCCAACTAGTGGAGGGGGATATTCTGGTCAGTACGATGGTGAAAAAGTAAAAACTGGAGCACACGTACATTGTAATAGATTTAATGGGACCAAGAGCGATCATCGATATTGGAAGAAGAGCAATCCAAAAGCTTGGATTGATTTCTATCACAGTGATTGTGACTACCACGCAAGCAAATATGGTTGTGCAGATTTTGGTAATATGTCAAAATGTGATGGGCTTGATAAACGAGGAAAAGGTGTGAAGGACTGTTCATCATGGTCAGGAAATCCTAAACATAAGAATTGGCCCAAAACTTGCTGGTATCGCAAATAA
>SRR1919932_01354 3-dehydroquinate dehydratase
ATGACTACTGTAAAAGTTAGAAACATCGTTTTGGGCGAAGGCTTGCCAAAGATCGCCGTGCCAAACGTTGGCGTGACTGAAGAAGAAATCCTGGCTTCAGCCAAGGAAATCGCGGCTGCCAAGCCGGACATCATGGAATGGCGGATCGACTACTACGAAGCCGGCATCAAGGACAATGAAAAGCTGATCGCTACTGCCAAGGCTTTGCGGGACGTAGTTGGCGAACTGCCAATCCTGGTTACTTTCAGAACCAAGAACGAAGGCGGCGTCCTGGAACTTGGTGAAGATGAATACCTGGACCTGGTAGCTACTGTAGTAACCAACCGTTTAGGTGACGCGGTCGACATCGAACTTTTCCACGATGAAGAAAGAGTCAAGGACCTGGTTAAGCAGGCCCACAACTACAACGTGGTCGTGATCATGAGCAACCACGACTTTGAAAAGGTGCCAGCTAAGGATGTTATCGAATTCCGTTTGAAGAAGATGGCTGACTTGGGCGCTGACGTGCCAAAGCTGGCCTGCATGCCGCACAGCGCTGACGACGTTTTGACCCTGTTGAGCGCGACTAACGACGCCCGCAAGGCACTCTCCACGCCAATCATCACCATGGCAATGGCTGACTTGGGCAAGGTCAGCCGGATTGCCGGCCAAGTCTTCGGCTCCTGCTTGTCATTCGGTGCCGTTGGCAAGACTTCAGCACCTGGCCAATTGTCAATCGAAGACTTGAGAAACGCTGAAAATTACTTGGAACTGCACTAA
>SRR1919932_01355 major facilitator superfamily transporter
ATGAAAAAGAACAAGTACATGATGACTGCCTTCATGCTGTACATGAACTACTTCGTGCACGGGATGGGCGTTATCATCATTTCACAAAACGCTAGCAGCCTGGCTCAGCACTGGGGCACGACCACGACTGGTGCCATCGCCGTAGTTTCCTCACTGGGTATCGGGCGGATCATCAACCTTTTGATCTCAGGTATCCTGTCTGACAAGTTCGGCAGAAAGCCATTCGTGCAACTGGGGATCGTCTTCTACCTGGTCTTCTTTGTTGGCCTGCTCTTCTCCAAGAGCGTGACTGTGGCCTACATTCTGGGTATCTGCGCCGGGATGGCCAACTCCTTCCTGGACACTGGTACTTACCCAGCCCTGATGGAAATCTTCCCAGATGCCAAGGGGACTTCCAACGTTGTTTTGAAGGCCTTCATCTCTGGTGCCCAGTTCCTTTTGCCATTCATCGTCAGCGGCTTGGCTGCCGCTCACGCATGGTACGGCTGGTCAATCGTTATCCCAGCTGCCATCCTGGTTATCACCTTCATCTACTTCCTCAAGGGTGCCTTCCCGGACTCCAAGGAAGTTGCTGAAGCTGAAGAAAAGAGGGCTGCCGAAGCTGAAGCTGCCGCAGCCGGCGACAAGCCAGCCGTTAAGTCCAACAAGTGGGTTGACGGTACCTTGTTCATCCTTTACGGCTACATTTCCCAAGCTACCTTCTACATGGTCAGCCAAATGCTGACTCAATACGGGCAACAGATCAGTCACATGAGCGACGGTGTTGCCCACGCCCTGGTTTCCTGGTACTCACTTGGTTCAATCTGCTGCGTCCTGTTTACTGCAGTGATCGGCAGCAAGTTTAAGGAAGTGCAACTGGTGCCAATCTACACTTTGGGTGCCTTCATTGCCATCTTCTTGATGTGGGCATACCCAACCAGCGCGGTATTGATGGCTGTTCTGGCCTTCGCCGTTGGTTTCTTCGCCGCTGGTGGCGTAATGCAGCTGGGCTTGACGGTTATGGCCAACTTCTTCCCAGCTGGCAAGGGGACGGTTACTGGTTTCTTCTACACTGCCGGTTCAATCGCTTCCTTCACTATTCCTTTGGTAATCAACGCTTTGCCAGGGATGAAAGAAGTTATGTTCTTTGACGTGATCGTTGCCCTGCTGGGCTTCGTGGACACGACCATCATCGCTATCCGTTACAAGAAGCTGTTTGGTTCACTGAAGAAGTAA
>SRR1919932_01356 shikimate 5-dehydrogenase
ATGGCAGACGAAAGAAACAACGAGATCGAAGAAACGAAGATTCAAGGCGTTAACGGCCCAATCACCGGCTGGCTTGACGGGCACACGATTTTGGTCGGTTTGATGGCTTACCCAATCCGCCACACCATGTCACCAACCATGCACAACAACGCTTTTGCCAAGTTGGGCTTGAACGGGGCTTACCTTTGCTTTGAAATCGACAACGAAAAGCTTCCAGGCGCTATCGACGCTATCCGGACCCTGGACATGCGGGGGTCAAATATTTCAATGCCTAACAAGAAGAAGGTCATCCCTTACCTTGACAAGCTGGACAAGACTTCACAAATGTGTGACGCGGTAAACACTATCGTCAACGAACACGGCGTTTTGACCGGCTACACCACTGACGGCATGGGCTGGCTGCGGGCCTTGAAGAAGGACGGCCAAGACGTTAAGGGCAAGATCATTACTTTGGCCGGTGCCGGCGGTGCCGCTACTCCAATCGCCGTTACTGCTTCCTTGGAAGGGGCTAAGGAAATCCGCATCTTCAACCTGGATGACGACAAGTGGGCACAAGCAGTCAAGAATGTTGAAACCATCAACAAGGAAACTGACTGCGTAGCCAGCGTTCACCACCTGGAAGACAAGGAAGACTTCAAGCAGTCAATCGCTGAATCAGACATCTACTGCGACGCTACCAGCGTAGGGATGAACCCATTGCAAGACCAAACTTTGGTTGAAGACCCATCATGGTTCCACGAAGACATGGTTGTTTCCGACACTGTTTACGCACCACGCAAGACCAAGCTGATGGAAGTTGCTGAAAAGGCCGGCGTAAAGCACATCTACAACGGGATCGGCATGATGATCGAACAAGGTGCCGCTGCCTTCAAGCTGTGGACTGGCAAGGAAATGCCAACTGACTACATCCAGGAAATCATGGATGCCAACAAGTAA
>SRR1919932_01357 LysR family transcriptional regulator
ATGAACATTCGACATTTACGTTTCTTCGTCGAACTGGCGAAAACGGAACACATGGCCAAGACGGCCGAAAAGCTGGGCATCTCCCAGCCTTCCCTCTCCTACGCCATCAGCAGCATTGAGGAAGAGCTCGGCGTACCCCTGTTTGAAAAAGAGGGCCGGAACATCCGCTTGACCAACTATGGCAAGATCTACCTGGAATACGTCAAGAGCGGCTTGAGCGACCTGGACCGGGGCGGCGAGTACATTGCTGAATTGCTGGACGTCAACCGGGGTCATATTAGGGTTGGCTTCACCTTTACCATGGGCCAGGACCTGATTCCCCAGCTGATCTGCAAGTTCAAGCAGGAAAAAGACACCAAAGACATCACTTTCTCCTTCGTACAGGGAACCACCGACGATTTGGTGAACCAGCTGGTCAATGACGAACTGGATTTGGTCATCTCCTCAGCTCCTGACCTGCCTGGCCTGGAAGACAAGGTCGACATCTCCCATCTGGTTAACCAGGAAATGCTGGCTGTCGTTCCCTTTTCCAATCCTTTAGCCCAAAAGGACTCTGTCTCTCTGGCTGATTTGGCCAAGTACCCGATGATCTACTATAGCAAAAGCAGCGGCCTGCGCCCCCGTCTGGATAAGATGTTCGCTGAAGCCGGCGTCAAGCCGAAGATCATCATGGAGTCCATGGAGGACCATACCATCATCGGCTTCGTTCACTGGGGCTACGGGGTAGCCATCGTGCCCCACCTGCCCCAGCTGGACCCGCGGACGGTCAAGCTCTTGCACATTGATGAAAATGTCGGCGTTCACCCGATTTTTGTCGTGAAAAAGTCCGACCACTTCCTGACCCCGGCCGTAACCAGATTCGAACAATTTATCAAATCCTACTGCCGGAAGCATTACAATAATGAACATAAGCTCGTTTAA
>SRR1919932_01358 hypothetical protein
ATGGAGTTTATTCGATCTCACAAAAGGTTACTGGCTATTTTTGGCTTAATTGTCGTTCTGCTACTTGGGACATTGTTGCTGTTAAAGCACGTCGACAACAGTGCTAGCGCGATTTTGGAAGCTAGAATAACGGCTGACGATGACTCTGGAACTAGCTTCGCGACCATCTATGATAACGGGAAGGTCGAAAAAAGCAGGTCCAGCCAAAACAAGAAGTTTGTTAAGCCAATTGAAGTAGACCCACAAGTTTTTGTGGAGCATACGGACAAGAAAAACAATATTTATTTAACAGTAAACGAGAAAGCACTGAGGAAAAACAAACAGGTCTCTTCTGATGAAAACTGGGTCAAGCTAACTAAGCTGGTCGCCAAGAGAAGCAAGCACGCTATCGCGATGCTGAGCCTGTTTAAGCTTGGCGATGACTACTATGCCTTTCTAAAATATAATGCCGGTCTTTCAGATGAGGGCAGCCTTTATCAGTACAAGAGCAACTTGACCAAAGTGGCTACGCTTGATTCTGGCAAAATATCGGGCTTAAAGGAAAAATAA
>SRR1919932_01359 hypothetical protein
TTGAAGAAGGAAATCACCAAGGCTGAAGCCGTCCAGAAGAAAACAATCTACAAGCTGTCATCTTCCTACCGCCGTGACTACCTGGACTACGCGCTCAGCAACGCGCAAAAGGCACTTTCCGGCAATAAGGGTGAGGTAACTTTTGCCAAATGGCTCCTGGCCAACTCTGAGACATATCTTAATGGGAAAAAGGCCCCAGTCACCAACATCAACAAACTCAGCAAGGCTGAGTACGAACGCGTGCGGAGAATCGTTTCGGATGTAGCGCCAAATGGCTACATGACGACCATTTACTACAAGCGGGCGGATGGCACTTAG
>SRR1919932_01360 extracellular zinc metalloproteinase
ATGAAAAGAAATAAGATTTTAGCTTCAGTTTCAACGGCGGCTTTAGCCTTAGGAATGTTGACAGTCATTGGTAAAAAGCAAGTTAATGCCGCGGACAATGATGATCCTGCTAATATCGTAACGGTTGTAAACTATACTCCGACTAAATCAGCCGTCACTGCCGTTAAGACTAGCTACAACGCCAAGACCAAGTCATTGACGATCACTGGCAAGGCTAAAGGCGCAAGCAAGGTTGCCGTCAGCTACAATGCCAAGGCACTAAAGCCAGTCAAGGTAACTAAGAAGGGCCAATTCAAGACGACCGTTAAGTTCACCGGCTACAAGGACTTCACTCTTACTGGCTTAAACGCCAAGGGGGCTGCTGTAACCAAGGCCTACGTATTGGCCAAGGACAGTTACGCTGCCACTAAGCCAACCTTGCTCAAGGCTGACCGGACCAAGAAGGGGCTGACCTTCACGACCGATGCCAAGAAGAAGACCACTTTGAAGTTCTACTACAAGAACAAGCTGGTCAAGAAGACCAAGCTGACCAAGGACAAGCAAAAGGTCTTCTTCTCAGCCAAGTCACTGAAGGGCAAGAAGGGGAACTTCAAGGTCGTTGCCTCAGCTGCTGGCAAGAAGAGCAGCCAAGCTGCCCAATTCAAGATCATCGGCGTTGGCCAGGCAACTGTAACCAACTACTAA
>SRR1919932_01361 multidrug ABC transporter ATP-binding and permease protein
ATGGCAAAAGCACCAAGCGGCACCGCAGAAGACAGCACAGATACAGCTTCATCTGCTTCCACGGCAATGATTAAAGCTGGGAAAATCCGCCTGTTTTCCCTCGACCGCCGGCAAATCATGGCGATCCTGCTGAGCTGCCTGGCCACTGCCTTGTCCTTGAAAATTCCTCTCTTGCTAAAGCAAGTGATCGATCATGGAAAAATGCTTTCCCGGACAAGCAGCCTGGGCCAGATCGGCTTCTGCCTGCTCATTTCCAGCCTCTTGGAAGCCGGCAGCCAGTACCTGCTCAGCCTGGCCGGAGACGAGCGGATCAGAGACCTGCGCCTGCTTTTGCAGGAAAAACTCCTCCGCCTGCCTTGGAACTACTATAAGGAAAACAGCCGCGGCTCCCTGTTCAGCCACGTCCTAAACGACAGTTCAGTGGTCAAGGACTTTACCGTCAGCGTCCTGCCCTCAGCCTTGGTCAGCCTTTTGACGGTTGCCGCCAGCCTGGGGATCTTGCTCAGCCTGGATGTCAAAATGACTTTGGTTATCGTTTTGACTTTTGCCTTGATCGCCAGCAGCGCCTTTCCTTTAGGAAAAATCAATGAGCACTTCGCCTACCAAAACCAGGCCAAGCTCAGCCGGGTATCTGCTGATTTGGATGAAAACCTGGCCAATATCAAGCTGATCAAGCTGACCAATGCCCAAGCCGGCGTTTTGCAAAAATTCCGCGGCGACTTGCAGGACTTGTTCGCCCTGTCCCGAAAGACTGACGCGGTTTTCAGCGTGACTGGACCTCTGCAGACGGTCTTGACCCTGGCCGGTTTTCTCCTGATCCTGCTCTATGGCAGCCAGCGCCTGGCTAATGGCAGCCTGTCTTTGGGGATGCTGAGCTCATTTATCATGTACATGTTTGGCATCATTTCCCCGATTAATAATTTGGGCAACTTTTACATGAGCTACGCTGAAGCCCGGGGCTCCCTGAAAGCCATCAGTGAAATCCTGGCCCAGCCGGATGAAGCTGATCCTGGCCAAGAGCTGCCGAAAAAAGCCGCTGATCTCAAGGTCCGCGACCTGACTTTTGCCTATCCAGGCAGCCAGAGCCCGATTTTACGGGACTTGTCCCTGGACTTTAAAGAAGGGGCGAAAACAGCTTTGGTTGGTCCATCCGGAGCTGGAAAGACGACCTTGATCAACCTTTTAACCCGCTTAGAAGCTGGCTATCAAGGGCAGATCCTGCTAGGTGGCCTGGAAGCCAGAAACTGCAGCTTGCCTGCCTGGCGGGACCTCTTCAGCGTGGTTGCCCAGGACAACAATATTTTTGCCGGTACAGTCGCTGACAATTTGCTCTTTGGCTTGGAAAAATCCGTCAGCCGGTCGGACATGATCCAGGCCCTGCAAGTTGCCAATCTTTGGCCGGAACTGGACCTGGGCACCCAAACGGGGGAGGGCGGCTGGAAGCTGTCCTTGGGACAAAGCCAGCGCCTGCAGCTGGCCCGGGCCTACTTTCGGGATGCCCCGTGCCTGATCCTGGATGAAGCCACGGCTAACCTGGACCCCGAGTCAGAAGCCAAGGTCAGCCAAGCTGTTGACCGGATTGCCCGGGAAAAGATTGTCATCATCATCGCCCACCGTCTGTCGACGATCGCCAATGCCGATAAAATCTACTTTTTAGATGAAGGTCAGGTTCAAGCGGCTGGCCGGCATGAAGAATTGCTCAAGCAGCTGCCGAAGTATCTGGCCTATGTCGAAGACCAGCTGTGGCCTTTGGAAAGCAGGTGA
>SRR1919932_01362 serine/threonine protein kinase
ATGGATTATCAAGCACAAGATTACCAGCCCTATCTGCAGGTAGACAGCGATTATTATGAGCTGGATACAACTGAAAAGAGTGACCAGGAATTTACCTGCAGCCCGCCAGCAGATTGGCAAAACTTTTACCAGGGAGACTGGCATTGCTGCCTCAGCCCCCGGCCCTTGGCCCAGCAGGGCTGGAAGATTCACCTGTCGGTAGCTTTAAGGCAGGAGCAGGGGATGCTGGATTTGGTCAGCCATTACTGTTTTGCCCATCTGTCGTCCTTCAAAGTGACCCGGTCAAGACGGGCTTGGCTGTTAAAAAATGCCAAGTATGCCGACCGGGCAGCTAGCGGGAAATTTATCACCATTTACCCGGAAGATGAAGGGGAATTCGTCCAGACAGTTATTGACTTAGCGGCTTTGTTAAAGGATTTTGCTCCCGGCCCTTATATCTTGAGCGACCGCCGCTGGCAAGCCAGTCCGGTTTACTACCGCTACGGCGCCTTCAAGGAAATAGTTAAAGAAATTTCCGGGCAAAAATGCTACTGCCTCCAGGCGCCAGACGGCAGCTGGCAGGAGGACCAGCGCTGTCCTTATTATTATCAGCCGGACTTTGTGCAAGAGCCAGCTGAACTAGTAAGAGATAACTTTCAAGTTAAAGGAGCAGAGATCAGCAAATTAACTGCTTACCAGATCAAGGAGGCCCTCCACTTAAGTAATGGCGGCGGTGTCTATTTGGCCCAGAAAAATGGTAAAAATTACGTGATCAAGGAAGGCCGGCCGGCCGCGGGTCTGGATGGTCATGGCCAGGATGCCTTCAGCCGGATCCAAAAAGAAGCGGGCTGGTTGAAGAAATTGGCAAATGTGCCGGAAGTGGTAGATGGCAAGGAGGACTTTCAAGCCTGGATTCACGCCTATTTGGTTGAAGATTATGTTTCCGGGCAGACTTTGGGGGACTATGTAGCTGAAAACTATCCTTTCTACCCGGAAAAACGGGCAGCCTACGTGGCTAAAAGCCTGCAGATAGCGGAAAAGCTGTGCCAGGCCGTGGCCCACGTGCATGCGCAAGGAGTCGCTATCGGTGACCTGCAGGCCGACAATGTCATGATTACGGAAGATGGCGAGGTCAAGCTGATCGACTTTGAAGCCGCCGCGGAACTGGCCCAGCCCTATGATCCAGGGATCATGACCGCCGGTTTCAGTGACCTGGCTCTTGAAAATTATGAGCAGACTGACTTGTACGCCCTCTACCAAAGCATCCGGTCAATTTTCCTGCCGATCAGCAACCGGGCTAGAGCGAGCTGGCCGATGCAGGACTTGAATCTGCGCCAGTATTTTTCAAAAGAAGTAGGGGACTATTTGGAAAACTTGCGGCAGAAGCTCTTGCCCAAGTGCCCCCTGTTAGGGAAAGAAAATGATTATGGGCAAAAGGAAGTCTGGACTGGTTTGAACGAGCTGCGGGGAAATATTTCCCGGGGAATAAAAGCTGACTGGCAGAGTCCGAACTTGATCAAGGGGGACCTGCCCCTCTTAGAAGATCTGGACCAGCGGCTGACGGTCGACAACGGTGCCTTGGGCTACGGCCTTCTTTTAGCTAGATGGGGGGAGCTGGCAGAGAAGAAGAAATTTTTGGCCTGGCTGAAAAAGCAAGGAGCAGAGAAAATAACTGCTGCTGGCTTGTTTACCGGAAAGGCAGGCCTGGGCGGAATCGTTTATGAGTTAGGGGACAAGGCCTGGGGCCGGCAGTTGATCTGGTCAGCCCAAGGAAACAGTGCTGACTTGTCTCTAAGGTCTGGCCTCGCGGGAATCGCCTTGGCCAAAATCGCCCTGGCTAAGGAAGAAGGTCTGGCGAAAATAGCTGAGTTGATTAAAATAGGAAGAGAAATCGCGGCTGGCTATCAGAAAATGCAAACCGCGGGCTTGCTGACCGGCCAATTGGGGGCAATTCTTGCCTTATGGAAGCTGGGAAAGTTTTTAGAAGAAGACAGTTTTAAAAAAGAAGCCAAAAACGGGCTGGATGCCTGGCTGGAAAAAGATTTAGTGCAAGTGGATCAGCATGTATTTTTGGCAGAGGATGGCCGACGGATGCCTTATCTGGCAAACGGAACGGCTGGCCTGGCCCTGGTCTTGGCGGCAATCGCCCAAGACGAGCCGAAAGAGGACAGATATCAGAAAATCATTATTCAAGCAGCGGAAACGCTGGACAGCTTCTGCAGCTACATGGGCGGCTTATTTACCGGCTATGCCGGCTTAATGCTGCTAGACCTGGCCTTGGGCCGGAAGAAGGCGCTGGGAGAAAAAATCCGCCTGCTTAACAATTATTTACTGCCAAAGGAAGAGGGGACTTTAGTGGCTGCTTCTTGCGGCTACCGCTGCTCGATGGATCTGGCCGCGGGGGCAAGCGGAGTTTTGCTGCTGTTGGAGGGAATCGCGCGAAACGACGCCAGCCTCTGGCTGCCCCTCGTCCAGACCAAGAACTGGCGGCTTTTTTAG
>SRR1919932_01363 hypothetical protein
ATGAACTTTATTTTAGACCTGGAGCACTTTTGCGAAAACCTTGGCCATGATATAGAAAAAAACACGCACCGCGGCAAACTGCACGTGAGCTACGCCAGCAAAAGTGGAAAGGACTATTCCTTTATCTGCATTGGAGAAAATATCGGAAATGATTGA
>SRR1919932_01364 hypothetical protein
ATGCAAGTGTTGGACTTACAGCAATTAGGAAATGCCGGTGGAGTAGGTCTTGAAGACTCTAAGAGCTTCTCTTTAATCTGTATTGGGAGTAGAGTTGGTGATGGAAATCACTCTTCTCACAAGAAACACCATAAGGGTAAGAAGCATTAA
>SRR1919932_01365 two-component system sensor histidine kinase
ATGACCCTGTTTTTACAAATTCTAGTGATGATTTTCAGTGCCGTGGTTGATATCTGGCTCTTCTGCCTGTTTGCCCAGATCAAGCACGGCAAGCTTGACTGGCTGCTTTTGCTGGCCTTTGAAGCCGTGTTGTCCGTGGCTTTATCCAATTTTCAGACCTACAGCAGCCTGATTTACGAAACAGGGCTGGAGATTCTGCTGTTTTGTGGCTACTTCTATTTGCTGAAAAAAGCTGGCCGTTTCCGCCAGCTGCTGGGGGCTGGCCTGCTTTTTGGCATCATCAGCCTGGTCATCCAGCTCAGCATGAAAGTCCTGGTCAGCCTCCTGCCTTTGCCAAGCTACTTCTATTTTGACGCCTTCATGAACCTGCTGCTGCCTCTGGCGGCCCTGGCCTTGCTAATCTGGCAGCGCCAGCGGATCACTTCCCTGCTGACAGATGTTAACAGCGGCATTCTGGTCAGTCTCTTGGCTTATCTCTACTTTGTCTGCTGCGCGATTGGTGCCTATATTCTTGATGATAAAAAGCCAACAGAAGTAGTCCTCCTCTTTTTCTTCCTTTTGATCTTCCAGGCAATTTTTCTGGCGGTGATCTACCGAGAAATCGTCCACATCCAGCGTCAGCTTTTAGACCAGCAGAAGCAGGAAGCCCTGGCCCGGCAAAAGCAATTGCTGGTCAAGGAAAATGAGCAGCTGAAGGAATACGCGGACTATCTGGACCGAAACGAAGACGAGCTCCGCCGCTTCAAGCACGACTACCAGAACATCCTGCTCAGTCTCAAGGTCAGTGCGGAAAAAGGGGGAAGCCAGGCCCTGGTAGAAGAGCTGGAAAAATACACCAGCAGCCAGTTTGACCAAAAGGCCCTGCGCAAATACCCCGACGTCAACCACGTCAAGATTCCCGAACTGAAGAGCATCGCCATCGCCAAGCTGGCCAAGCTCTATAATGAAAAGATTGACTATAGTTTCGGCTGCGAGCCCGAAATCAGCCAGATCCCTCAAACTAATCTCCTGGACCTGGTGCGGATTATCGGCATTGCTTTTGACAACGCCATTGAAGCCAGTCAGCAGCTGGAAGCCCTGGGCGGCCAGAGACGGGTGGAGGCCATGTACTACCAGGAAGGCGGTGACTTTGAATTCATGATCAGAAACCGGATTGGCGGGCCCGTGGCCGACTCTGACCAATTGGCCCAGGCGGGCTACACGACAAAAGAAGAGCACGCTGGCCTTGGCTTGGCCAATGTCAAAGAAATCGTTAGCCAGCATGATGAACAAATGCTGCTGGACTACGGGCCAGAGAACGGCTGGTTCAACTTCAGCCTGACCCTGCTGCCGGAAAATGTGGAGGAAGAAATATGA
>SRR1919932_01366 two-component system response regulator
ATGAGCTACCCTGTATTTATTTGTGATGACGATCTAGAACAGATCGCCCAGGTCACCGATACCTTGAAGCGGGCGGAACAGATCCTGTCAGATGAAGAAAAAATTCGCTTTGACCTGGCCAGCCAAGGCAATTACCAAGACGCCAAGGCATACCTCTTAAGTCACCCGGCAGATGGCGGCATCTACTTTTTAGACGTGGAATTGGGCCAGGAAGTGGACGTGGACAACGGCTTTGACCTGGCAGAACTGATCAAAAAGCAGGACGACCGGGCCCAGATCATTTTTCTGACCAGCCATTCCGACCTGTCGATCATCACCTACCGCCGCCGGCTGGGGCCGGTTGACTACATCGTCAAAGGCGCGGATCCCGTGGCCCAGCGCCGGCGGATCGTGGAGACCGTGGAAGTGGCTTTGGATCAGCTGCATAAGGATTCTGTGGCTAAGCAGCTGACTTTTTCTTACCGGGTGGGCCGGCAGATCAAAAACATCAGATTAACCGACCTGGTCTATATCACGACCACCTTGACGCCCCACAAGCTTTTGATCGTCAAGCAGGCCGGTGAAGCCCAGTTCCTTGGCAGCCTCAGCCAGTGCGCCAAGGAAAATCCCCTCTTGGAGAAAATCAGCCAGTCTTGCCTGGTCAACCCGGACAATATCGAAGCCATCGATCTGCGCCGCCACCTGGTCTCCTTCGTGAATGGGGATGTCGAAGAGTACGGAGCCGGCCGGCAGAAGCAGATGAAGACGCTCATGCTGGAACATGACTATCGGCTGGCCAAGCTTATGAAGCCTTGA
>SRR1919932_01367 chloride channel protein
ATGGAGAGTGAAGACAGACAAACGCGCAAATCCAACCTGCGCTTATTATTCGAAGCCCTGGTCGTAGGCCTGGTGGCGGGCATTGTTGTTGGCAGCTTCCGCTGGCTGATCGGGCAGACCCTGGCCATGTGGCAAAAAGGCTACCAGGCAGCGCACGCTAACCCAGCCTTCTTGTTGCTCTTAGCCGGGGGCGTTCTGGCCAGCGTGATCGTGGCCGGCTTCTTAGTCAAGCAGCAGCCCCATGCTGGCGGCTCTGGGATTCCCGAAGTTGAGCTGCAGCTGCAAGGCAAGCTGCAGCTGGACTGGTGGCCGATTTTTTGGCGCAAGTTTATTGGGGGCGTCTTGTCGATCGGTTCTGGCCTCTTTCTGGGACGTGAAGGCCCATCAATTCAATTGGGATCAACCTTAGGCCAAGGAGTCGCGCGTGGCTTCAAGGCCTCAAAAACCGACTCCCGGGTCCTTTTGGCAACTGGGGCGGCCAGCGGCTTGTCTGCCGCCTTTGGAGCGCCGATTGGCGGGTCCATGTTCATCGTGGAAGAAGTCTTTCACAACTTCTCGCCCCGCGTATGGCTGAATGCTTTAGCTGGGGCGATCATGGCTAACTTTGTAGTATCCAATATTTTTGGTCAAAGGCCAGTCCTGGCAATTTCCTATAACCATACCTTCCCAATCCTGCAATACTGGCACTTGCTGCTGCTGGGGATCTTCTTGGGCGTCATTGGCCGCCTCTACCAATGGGGGCTGCTCAATTTCAGCAAGGTCTATGCCAAGATCGCCATTCTGCCCCGCTGGCTGCATGGGATCATCCCAGCAGCGATCCTGGTGCCGATCATGTACTTCTTCCCGAATTATGTAGGCGGCGGCAACACGTTGATTCTGAGCTTGGACAAGCTGCACGTGACTGGCCTTTTGGCCGCGATCTTCCTCTTGCGGATCACGTTCTCAATCGTGTCCTATGACTCTGGCCTGCCAGGCGGCATCTTCCTGCCAATCCTGGCCATGGGGGCGCTTCTGGGAGCAGTCTACGGCAACCTCATGGCTGATCTTGGCTGGCTTGACCAAAAATTGGTCGTCAACCTGATTATTTTTTCCATGGCGGGGCTTTTCGCGGCAATTGTCCGCTCACCATTTACTGCGATTATGCTGATCGCGGAAATGGTTGGGTCGCTGCTGCACCTCATGCCTTTGGCCGTAGTTTCAGTCGTGGCTTATATCGTCAATGAGCTGCTGGGCGGGGTGCCGATCTATGAAAGCCTGGCTGGCCGGATGCAGACCAAAGAAGACAATGACTACGTTGGTGAAGCTGACCAATTGACCGTCTCCATCTATGAGGGCAGTCAGTTGGCCGACCACCGGGTCAAGGACATCGCTTGGCCCGACCGGACCTTGGTCCGGGTCATCCACCGGGGGCAAAAGGACATTATCCCTGATGGCAATACCAAGCTTTTAGCCGGTGACCTCCTGGTTCTGGAAATTGATGAAAACCAGCGGGGCCTGGTCTATGACAAACTGGCCAGCCTGTAA
>SRR1919932_01368 transposase
TTGGACAAAGCGCATATCTTGAAAGACCCAGACCTTAAGCAAGTGATGACTATGCTAGATGATGCATTTGAGAAGCACCCGGCTCTTAACGGGCTTATTTTCCACTCAGACCGTGGCTGGCAATATCAGCACTATGCATATCAATCCGCTCTGGCTAACAGAGGGATCGATCAGAGTATGTCCAGGCTAGGCAACTCTCTTGACGATGGCCTAATGGAGGGCTTCTTCGGTATTCTTAAGCGGGAGATGTTCTACGGCCAAGAGCATAAATACAAGGACTTAGATGAGCTTGAACAAGCTATTCACAAATATATCGATTACTACAACAACGTAAGAATCAAAACAGGACGAAAAAACATGACCCCGATTGAATATCGGAATCATGTTTTAACAACCTTAACGGCATAA
>SRR1919932_01369 chloride channel protein
ATGGAAAATTATGAAGATAGAAAAACGCGGTCGGCTAACCTCCGCCTCCTCTTTGAGGCCCTGGTTGTTGGCCTGGTTTCCGGCGTGGTCGTAGGCAGCTTCCGCTGGCTGATTGGCGAGACCCTGACTTATTGGAAAAAGCTTTACCAGCTAGCCAGCCAAAATCCCCAATATTTTGCCCTCATCGCTGGGCTGCTGCTCGCCAGCATCCTGATTGCGGGCTTCTTAGTCAAGCAGCAGCCTCACGCGGGCGGGTCTGGTATTCCAGAAGTTGAACTCCAGCTGCAGGGCAAGCTGCGCCTGTCCTGGTGGCCAATCCTCTGGCGGAAGTTCATTGGCGGCGTTTTGTCGATCGGCTCTGGCCTCTTTTTGGGCCGGGAAGGTCCGTCAATCCAATTGGGATCAACTGTCGGTCAGGGCGTAGCGCAGGGCTTCAAGGCGTCAAAAACGGACGCCCGCGTGCTCTTAGCCACTGGGGCCGCCAGCGGTCTGTCAGCCGCCTTCGGTGCGCCGATGGGCGGAGCGATGTTTATTGTGGAAGAAGTCTTCCATAACTTTTCGCCTCGCGTCTGGCTGAACGCCTTGGCCGGCGCCATCATGGCCAACTTCGTGGTTTCCAACGTCTTTGGCCAAACCCCGGTCCTGGCCATCAGCTACAACCACTCCTTCCCCATCCTCCAGTACTGGCATCTGCTACTCCTTGGCATCTTCCTCGGCTTGGTAGGCCGCTTTTACCAGTGGGGATTGTTCAGTTTTAACAAGTTTTATGAAAAAATCCCCCTTCCGCGCTGGCTGCACGGGCTGATTCCAGCTGCCATCCTAATTCCGATCATGTACTTTTACCCGGACTACGTGGGCGGGGGTAACACCTTGATCTTGGGCCTGGACCAGATCCACGTAACCAAGATCCTGGTTATGATCTTCCTCTTGCGGATTGCCTTTTCCATCGTGTCCTATGACTCAGGCCTGCCTGGCGGGATTTTCTTGCCGATTTTGACCATGGGGGCCTTGCTTGGCGCTATTTACGGTCACTTTATGGCTGATCTGGGCTTATTAGACCAAAAATTGGTCGTCAACTTGGTGATTTTTTCCATGGCGGGGCTGTTTGCGGCGATTGTTCGCTCGCCTTTTACCGCGATTATGCTGATCGCAGAGATGGTGGGGTCGCTCCTGCACCTGATGCCGCTGGCAGTGGTGTCGGTGATGGCCTACATTACCAATGAACTGGCTGGCGGGGAGCCGATTTACGAAAGCCTAGCAGGCCGGATGCAGACCAAGGAAGACAACGACTATGTCGGGGAAGCCGACCAGCTGACCTTTTCCGTCTTTGAGGGCAGTCAGATGGCTGGCAAAAAGATTAAGGAGATCGCCTGGCCGGATCGGACCCTGGTTAAGGTTATCCACCGGGGGCAAAAGGATATCATCCCGGACGGCAACACCCAGCTCGTAGTGGGCGATTTGGTCGTTTTGGAACTGGATGAAAACCAGCGCGGCGTCATCTATGATGAAGTGGCTAGGTTACAGAATGAAAAGTAG
>SRR1919932_01370 AbrB family transcriptional regulator
ATGATGTTTATCCATGAGGAAACAGGATACGATCTTTGGTCAGATCCTGCATATGACTATTTGGACTATGAGGAATTACTGACTGAAGAATATAAGGATCTAGGATATAATCCTAGAAATGTAAAAGCGGTTGGTAAGGAAATAGAGCTTGATTGA
>SRR1919932_01371 putative transcriptional regulator
ATGTTTGAAAAATATCTTGATTGCGAAAGTTTGCTAGCTGAGAATCAAGACTTGACCTTTGACTACTTCGAAAAGTGGGCTAAGCGGGAGATTGGGCTGGAAAATTTTAGCCAGGATATCTTAAGAATCTTGAATTTATATGATGACGACCTTGGCTATAATCAAGTGGCTGAGCTTTTATCTGATCAAAACTCATTTCCGGGCATTGAACTTATCCACTTTGGTGACAGCATTAATGTAATCACCAAGCGAGCAACGTTTGACCATGAATCGGTTCTCAAAGAGCTAGATGATACTGTGAACGTCTTTTTGGACTACTATAGCTACGAAGAAATTTCCGGGATGACTAGAAAAAAGGTCTTTCGGATCCCCGAAGAAGCCTTCAGAGAAACTGTAGCCAACGCCTTGATGCACCGGACTTGGGATATTCCGGCACAAATTCGAGTGATGATGTTTGATGACCGGATTGAAGTCACGTCACCAGGTGTCTTGCCAGCGGGACTCTCAGAAGAGGAGTACTCGCGTGGCAATATTTCGATTCTTAGAAACCCGATCTTGGGGAATATTTTTTACCGTCTACACATCGTTGAAACACTGGGCACAGGAATCTTGCGGATTCAGGAGGCATATAAAGATAGCGAGCGAAAGCCGATTTTTGAGGCTTTTGCTAATTCGGTCAAGGTAACGTTGCCGGTACAGGGACAGGTTGAAATGACGTCGGTTGAAGGATTGGCATATGATACTTTGAGTAAAAATATCTTGAAACCAATAGGCGAAATTACAGATGCGTTGCCTTATAGCCGCTCCAAAGTCTCTAGAATTTTGAAGGATTTGATTGCTAAAAATCTTGTCGTCAAGGTTGGCAACGGCCGCGGAACCAGGTACAAAAAGCGGACATAA
>SRR1919932_01372 XRE family transcriptional regulator
ATGTTTGGCGAAGTTTTCAAAAAATTAAGGAAGAGTAAACATATTACATTGGAAGCTATATCTAAAGATGTAATTTCAACATCTCAACTTTCACGTTGGGAAAATGGTTTAAGTGATATATCTCTCAATAAATTAATTATTCTTTTGAATCGAATAAATGTCTCACCACAAGAATTTATAGCAATGACAATTCCTGAAAATAATGAGACTAACAATTTTCTAAAAAATCTTTCTTTACTTTATAGTGAGAAAGATTCTATAAGTATATATCGAATTTTTCTAAAAAATATTGCGGCTTACCATCATACGAATAACGTGGATTATCTGTTTCACGCAAGTGCTGCCGCAAATGTTCTTTTCGACATAAAAAATAAAAACTATCTAACTCCTCAAGATCAACAGGACTTAAAACTATTTCTAACTCAAAACAACCATTGGAACCTATCGACCATTCAAGCTTTTGGTAATTCTGGTTTTATTCTTCCAAATAACACTGTTTTCCAATTAATTAACAGTTTAATTGAAGACATAGTCTACTTAGAAAACATAAATTTTGAATTTTATCTAGAGGCTTGGAATACGATAATCAACAACTCGTTGATTTTAGTTAAAACAGATTTCAAAAAATCAAAACTTCTTCTAGCCAGAATTAAAGAGCTTTCCTATACGGAGCCTTACTTAAGCATTACAGTAAAAGTCAATTTTCTCGAACTACTTATTCACTATAGAGAAGACGGTAATTCTGAACCGATTAAAAGATTTCTAGAATCTGCAAAAGTCCTTGGTATACCTAACCTATATAATGATCTACTATCTGGTTGGGCTCTTTTAAAACTAAATTCTTAG
>SRR1919932_01373 alpha-amylase
ATGCAAACAGCAGCAGTTAGACACAGACCTGAAAGCGAAGATTGCTACCTGGTGACGACGGAGACCATGAAGCTGCGCCTGCACACGGGCCGCGACGTCAAGGCAGTCTACGTTCACTATTGCGACGTCCACGAACCCTTGACCAACTTGAAAAAGCAGGCCATGGACCTGGCCGGCCACGGCCAAGTAAACGACTACTGGGAAACGACGGTGACCTTGCCTTTGCACCGGGCCCAGTACGTCTTTGAAATTCACGGTGAAGACGGCGAGGAATGGGTTTATGGTGACCGGGGCTTCAGAAAGAACGAAAAGGAAAGCTACGAGGACCCGAACAACTACTTCAAGCTCCCTTACTTCCACGCGGTCGACATGACCAAGAGCCCGGACTGGGTCAAGGAAACGGTTTGGTACCAGATCTTCCCGGAACGCTTTGCCAACGGGGACAAGAGCAATGACCCGGAGGGCGTTAAGGACTGGAATCCAAGCGACCACCCAGGCCGGGAAGACTACTACGGCGGTGACCTGCAAGGGGTGCTGGACCACTTGGACTACTTGCAGGACTTGGGAATTAATGGCCTGTACTTCTGCCCGATCTTCAAGGCCAGCTCCAACCACAAGTACGACACGATCGACTACCTGGAAATCGACCCGGACTTTGGGGACAAGCAGCTTTTTGCCCGCTTGGTCAACGAAGCCCACGCCCGGGGGATGAAGGTCATGCTGGACGCGGTCTTCAACCACATGGGCGACTCCTCCATGCAGTGGCAGGATGTCGTGAAAAACGGCCCTAATTCCCGCTTTGCCAACTGGTTCCACATCAACCGCTTCCCGGTTGAACCGTATGACCCAGCCGATCCAAGCTACGAGACTTTTGCCTTTGAAAAGCACATGCCGAAATTGAATACCGCCAACCCGGAAGTCGTGGACTACCTTTTGACGATCGCGACCTACTGGGTCAAGGAATTCGATATCGATGCCTGGCGGCTTGACGTGGCTGACGAAGTCGACCACCAATTCTGGAAGAAGTTCAAGGCCGCTGTTACGGCCATTAAGCCGGACTTCTACGTCCTGGGCGAATCCTGGCACTCCAGCCAGTCCTGGCTGAACGGGGATGAATTCTCCGGTACCATGAACTACCCATTCACCGGCCAGATTGCTGACCACTTCCTTAAGGGGACGCAGGACGCCAAGACCATGACCGAATTATTGACTGACCAGCTCTTCTTATACAGAGAGCAGAGCAATTCAGCCATGCTGAACGTTTTGGACTCCCATGACACTGCCCGGATCAAGACGGTAGCCGGTGAAGATGAAGACAAGGCCCTGCAGGCTCTGGCCTTCACCTTCATGCAAACCGGTTCTCCGTGCATCTACTACGGGACGGAAATGGGCATGAGCGGGGACAACGACCCTGACTGCCGCAAGCCAATGGACTGGAGCCAGGCAGGCAGTCCGGTCTGGCAGGCAGTTCAAGCGATCATCGCCTTCCGCCGCCAGCACTGGGAAAGCCTGAGCAAGGGGCAGACCTGGCTGGAAGTTGAAGAAAACGGTTTGATCCATGCTAAGCGGACCGGCAAGGAAACGATCGAAGGCTGGTTCAACACGACCGGGCAAGCCGTCAGCTTAAGCGCGGAAGCCGCTTTGAGCCGGGGCTATGAAGCCGGCCAGCTGGCAAGCAAGGGCTATGTTCTGAGTGTGAAATAG
>SRR1919932_01374 maltose phosphorylase
ATGAAAAGAATTTTTGAAATTGATCCCTGGAAATTGACCAGTCATACCTTTTCAAAAGAAGACAAGCGTCTTCAAGAAAGCATGACTTCAATTGGCAACGAATACATGGGCCTGCGCGGCAACTTTGAAGAAGGTTACAGCGGCGACAGCCTGCAAGGCACCTACTACGCCGGCGTCTGGTTTCCGGACAAGACCCGGGTCGGCTGGTGGAAGAACGGTTACCCGGACTACTTCGGCAAGACTTTGAACGCCCCAAGCTTCATTGACCTGCCAGTGACCATCAACGGCCACAAGCTGGACCTGGCAACTGATAAAATCAGTGACTTCAGCTTGAGTCTGGACATGCATCAAGGTTTGCTCACAAGAAGTTTTATTTATGAAGGCAAGGACTGCCGGGTTCAATTTACTTTCACTCGCTTCCTTAGTTCCGTCATCAAGGAAGCTGCCTTGATCAAGGTCAAGGCCACTGTCCTCAGTGGTGAGGCTGACCTGCAGATTGCCAGCCACTTGAACGGGAACGTGGTTAACGAAGACAGCAACTACGAAGAAGGCTTCTGGGATGCCTTAAATGAAGATGCTAACGGCCGCAGCATCCAGCTGCGGACCAAGCCAAACAACTTCGGCACTCCGCAATTCACGGTTCTCTTGAAGGAAGTTACCCGGGAAGACGGGGAAGTCATTTCCGGTGACGTGACGACTGCCAGCGGTGAAGTCAGCGAACTGTTCGCTAAGACTTTGACCAGCGGCCAAAGCTGGGAACTGGAAAAGGACGTCATCGTCATCACCAGCCGGGACGTGGCTGATGAAGAACAAGCCGCCAGGGCTGATGAATTGATGGCCAAATTGACCAGCAAGACTTTTGCCCAGAACCTGGCCGACCATGAAGCTGTCTGGGACAAGCGCTGGGCAAGCTGTGACGTGACGATTGACGGTGATCCGGCCGCTCAGCAGGGGATCCACTTCAACATCCTCCAGCTCTTCATGACCTACTACGGTCGTGACCCGCGCCTTAATATCGGGCCGAAGGGCTTTACCGGTGAAAAGTACGGCGGTGCTACTTACTGGGATACCGAAGCCTTCATCGTGCCAATGTACCTGGCCGTAGCGCCTAAGGAAGTTACCAAGTCCCTCTTGGAATATCGGCACGAACAATTGCCGGGTGCCTTCCATAACGCCCGCCAGCAAGGCTTGAAGGGTGCCCTCTTCCCAATGGTTACCTTCAACGGGATTGAATGCCACAACGAGTGGGAAATCACTTTTGAAGAAATCCACCGGAACGCGGACATTCCATTCGCTATCTACCAATACACCCGCTACACGGGCGACGACTCCTACGTCAAAGATGAAGGCATGGATGTCCTGGTTTCAACCGCCCGCTTCTGGGCTGACCGGGTCCACTTCTCCAAGCGCAAGGGCCAGTACATGATCCACGGGGTAACCGGTCCTAACGAATACGAAAACAACGTTAACAACAACTGGTTTACCAACACCATGGCCAAGTGGCTTCTGGGCTACACCCTGGAACGCTGGCCACTGGCCACTGAAGCAGCCAAGAAGCGCCTGCAGGTAACTGACGAAGAACTGGCCAAGTGGCAAGACATCGTCGACCGGATGTACCTGCCGGAAGACAAGGAGCTGGGCATCTTCGTCCAACACGACACTTACTTGGATAAGGACCTCAGAAGCAAGGACACCATCCCGGCTGACCAATTGCCACTGAACCAGCACTGGTCCTGGGACAAGATCCTGCGGTCACCGTTCATCAAGCAAGCCGACGTTTTGCAAGGGATCTACTTCTTGAACGACCACTATACCAAGGAAGAAAAGGAAAGAAACTACGACTTCTACGAACCAATGACGGTTCACGAAAGTTCCTTGAGCCCGTCAATTCACGCCATCCTGGCTGCTGAACTGGGCAAGCAGGACAAGGCGGTTGAATTTTACGAACGGACTGCCCGCTTGGACCTGGACAACTACAACAACGACACGGTTGACGGCCTGCACATCACTTCCATGAGCGGGAGCTGGCTGGCCATCGTGCAAGGCTTTGCCGGCATGCGCTACAACGAAGACGGCATCAGCTTTGCCCCATTCCTGCCGAAGAAGTGGTCCAGCTACAGCTTTAAGATCAACTACCGCGGCCGCATCTTGGCCCTGGAGGTTGAAAAGGACAAGGAAGTCAAGCTGACCCTTCTCTCTGGTGAAGACTTGCCAGTCAAGGTTTGGGACCAAGAAGTAACTCTGAAAGAAGGACAAAGCCAATGCTTAAAGGATTAA
>SRR1919932_01375 beta-phosphoglucomutase
ATGCTTAAAGGATTAATTTTTGACCTGGACGGGGTCATCACTGACTCAGCAGTCTACCACCTCAAGGCTTGGCAAGACCTGGCCCGCGGTATCGGGATCGAACTGCCGGAAGAATTCGGTGACAAGCTGCGCGGCTTGTCCAGAATGGATTCCCTGGAAATCATCCTGGAATACGGGCACAAGGAAAATGACTACAGCCAGGAAGAAAAAGAAGCCCTGGCAGCCAAGAAGAACGCGGCTTACGTGAACGCGGTCAAGAACATGACCCGGGCCGATATCTTGCCAAAGATGGACGATCTGCTCAAGCAGGCCAAGGGCCAAGGGCTGAAGCTGGCTCTGGCCTCAGCTTCCAAGAACGCTCCTTTGATCTTGAAGCAGCTGGGACTTGCAGACATGTTTGATGCCCGGGTTGACCCGGCTACCCTCAAGCACGGCAAGCCGGATCCGGAAATCTACATCCGGGCCCAGGAACTGCTTGGTTTGGAGAAGAATGAAGTAATTTCTTTTGAAGACGCGCCAGCAGGCGTAGCGGCAATCAAGGCGGCCGGCCAGTTCGCGGTCGGGATTGGCGATCCGATCGTTTTGAAGGGGGCCGACTACATCGTTGGTTCAACCAGCGCCTTGGATTTGACCGAGATTGAGAAAGTTTTTGAAGCAGGGAATTAG
>SRR1919932_01376 glycerol-3-phosphate ABC transporter ATP-binding protein
ATGGTGAAAATCAACTTAAATCACATCTACAAGAAGTATCCAAACGCGGATGACTACTCAGTTTCAGACTTTGACCTGCACATTGGCGACCATGAATTCATCGTCTTTGTCGGCCCGTCTGGCTGTGGTAAGTCAACGACCTTGCGGATGATTGCCGGCTTGGAAGACATCACTGAAGGGACTTTGGAAATCGGCGGCAAGGTCATGAACGACGTGGCTCCCCGCGACCGCCACATCGCCATGGTTTTCCAGAACTACGCCCTTTACCCGCATATGACGGTTTACGACAACATGGCATTCAGCTTGAAGCTGCGCCACTACGACAAGGCCGACATCGACAAGCGGGTCAAGAACGCTGCTGAAGTCCTGGGCCTGGCCCACTTGCTGGAACGGCGTCCAGCCGACTTGTCCGGTGGTCAAAGACAGCGGGTTGCCTTGGGGAGAGCGATCGTGCGTGACGCCCCGATCTTCCTGATGGACGAACCTCTGTCCAACCTTGACGCCAAGCTCCGTGTCTCCATGCGGGCGGAAATCGCCAAGTTGCACCAGAAATTGAAGACGACCACCATCTATGTTACCCACGACCAAACTGAAGCCATGACTCTGGCTGACCGGATCGTTGTCATGAACGCCGGCCGGATCCAGCAGATCGGGACGCCGAAGGAAGTCTACAACAAGCCAGCCAACCGATTCGTTGCCGGCTTCATCGGGTCACCGCAGATGAACTTCTTCAACGTGACCTACAAGGACGGTTACATCGACGACGGCCAGGGCATCAAGCTCGAGGTGCCGGAAGGCCGGGCCAAGGTTCTGGATGCCAAGGGCTACAACGGCAAGGCTATTGTGATGGGCCTGCGGCCGGAAGACATCCACATGGAAGAAGCCTTCCTGGAAACCTGGCCGGAAGCAGTCGTTTCCGCCAAGGTTGTCGTTTCCGAATTGCTGGGTGCAACCAGCCAGCTCTACATGAACGTTGACAAGACCGAATTCGTCGGCGTTGTCAACGCTCGTGACTTCCACAAGCCAGGTGACAGCGTCAAGGCAGGTTTCAACCTGAACAACGCCCACTTCTTTGACAAGGAAACGCAAGTAACGATTACCGATTAA
>SRR1919932_01377 sugar ABC transporter substrate-binding protein
ATGAGTTTCTTTAAAAAGGCTGCTTTGAGCAGCGCAGTAGTATTGGCTGCCTTGAGTTTGTCAGCATGCTCCAAGAGCAGCAGTAGTTCATCATCAACTGCCGACAAGAAGGCATCATTGACTTTGTGGGTAGACACTGAACAAGTACCCTACTACAAGGACATTGCTAAGGACTTCCACAAGAAGTATCCAAACATTACCGTTAAGGTTACCCAAAGTCCTAACGGTTCCGCTAACGCCAAGACTGACGTTGGTAAGGATGCTTCCAAAGCAGCCGACGTCTTTGAAGTTCCAAACGACCAATTAGGCCAAATGGCAAACGCTGGTTACATCAACCCGCTGTCACCAAGTGACACTGCCAACATCAAGAAGAACTATGTCAGCCAGGCTTCCAAGGGTGTTACCTGGAAGGGCAAGGTTTACGCTTACCCATACGCTCAACAAGCCGACACGATTTACTACAACAAGTCCAAGCTGTCAGCTAATGATGTTAAGGACTGGGACACTTTGACTTCCAAGGGTGTTCTGGCTACTGACTTCACCAACGCTTACACCATGTGGCCAATCTTCTTCTCAGCTGGCACTACCCTGTACGGGGAAAACGGTGAAGACCTAAAGGGGTCAACTTTCAACAGCCAAAACGGTGTCAACGCTTTGACTTGGATTGCCAAGCAAAAGAGCAACAAGGGCGTAATGCAAACTTCAAACGCTTTAAACCAATTGAAGAAGGGCAATGCTGACGCCATCATGGACGGCCCATGGAACGCTGCCAACATCAAGAAGATCTTGGGCAAGAACTTCGCTGTTGCCAAGTACCCAACTGTAACTGTCGGCGGCAAGAAGAAGCAATTGGAAGCCTTCTTGGGTATCGAAGGTTTCGCGGTTAACTCCCACACTTCAAACGCCAAGGCCGCTTCACAATTGGCTGCTTACATCACCAACAAGAAGTCACAATTGATCGCCCACGAAAAGGCTGGTCAAATCCCAGTTTTGAAGAGCGCTGTTAACTCAAGTGCCGTGCAAAACGACCCAGTTGCCAAGGCCGTTATCGAAATGGCGCAACCGGGCAACTCAGTTCTGCAACCAAAGCTGCCGCAAATGGCAACCTTCTGGGACGGTGCAGCTCCTCTGATCAGCGGTACTTACGACGGCAAGATCAAGCCTAGCCAATACAAGGCGCAACTTGCCAAGTTCTCAAAGAAGATTTCTCAAAAGTAA
>SRR1919932_01378 sugar ABC transporter permease protein
ATGTTTAAAAGAAAAGGACATGTTCCTCCGACAGCCAGCTACAAAGAAGTCTGGTCCAAGGGGGACGCGGCTGATAAGCTGTCCTTCTTCTTCATGGGCGTCAGCGCCCTGAAGAATAAGCAGTGGGCCAAGGGGTTCAGCCTGCTGATCAGTGAAATTGTTTTCCTGGTCTGGTTTATCTTTAGCGGGGTCAGTGCCCTCAGCATGCTGAGCAACCTTGGGGAAAACAAGACCAAGAAGGTTGTCTTTGACCAAGCGCAAGGCGTTTACGTGACCAAACAGCCAGACAACTCAGTCTTGATCCTCCTCTTCGGGATCATGGCCCTCTTCCTGGTCATCGGTTTCATCTGCCTCTATGTCACAAACTTGCGCTCAACCCGGGCCAACTACATCAAGAAGCGTGATGGCAAGCACATTGCCACCAACAAGGAAGAACTGGCCAGCCTGCTGGACTCCCGCCTGCACGCGACCTTAATGTTCATTCCTATGCTGGGGATTCTTTTCTTCACTGTTTTGCCAACTGTCTTCATGATTTCCATGGCCTTTACCAACTACGACCGCCAACACCCGATCGGCTTCTCCTGGACTGGTTTCCAGGCCTTCGGCAATGTTTTGAGCGGGGACCTGGCCGGGACTTTCTTCCCTGTCCTGGGCTGGACCCTGATCTGGGCCGTAGCTGCCACGGCAACCACCTTCTTAGGTGGGGTTCTCCTGGCCCTCTTGATTGAATCCAAGGGGATCAAGCACCGGAAAGTATGGCGGACGATCTTCATCGTGGTTTACGCCGTACCGCAATTCGTTTCCTTGCTACTGATCGCGCAATTCCTGGACGCGCAGGGGCCTTTGAACACCCTGTTGCAAAACTGGGGCTGGATCTCAGGGCCGCTTCACTTCATTGACAATGAAGCTGCCCCTTGGGTAGCCCGGCTGACGGTTATCATCGTCAACATGTGGATTGGTATTCCGGTTTCCATGCTGGTTTCTATGGCGATTATCCAAAACCTGCCACAAGACCAGATTGAAGCCGCGAGAATCGACGGGGCTAACGTCTTCCAGATTTTCCACAACATTACTTTCCCGCAGATCCTCTTTGTGATGGGTCCGTCCTTGATCCAGCAATTCATCGGCAATATCAACAACTTCAACGTTATCTTCCTGCTGACTGGTGGTAAGCCAATGAACAACAACTACAACGGTGCCGGCTCAACCGACCTTCTGGTCAACTGGCTCTACAACCTGACCTTCGGTCAGCAGCAGCGCTACAACGCCTCAGCCGTTCTGGGCATCTTGATCTTCATCTTGAGTGCGACGATTTCCTTGATCGCTTACCGTCACACCACTGCGTTTAAGGAGGGATAA
>SRR1919932_01379 sugar ABC transporter permease protein
TTGAAGTCTTACTCTAACCAGAGAAAAGTATCCCTTTTCTTCAGATATTTATTGCTGACGATTTTAGCAATTTTGTGGCTGATCCCCATCCTCTGGATCGTTTTGGCCAGCTTCTCATACAACGATACTGGCTTTATCTCAACTTTCTTCCCTGAAAAATGGACCTTCCAGAACTATATCGGGATCTTTACCAACTCCCAGTTCCCATACCTGCACTGGATTATCAACACTTTGCTCGTGGCCATCATTTCCGCCACTCTGTCAACCTTCATCCAAATCACGGTTGCTTACGTCCTGTCCCGCTTACGCTTCAGACTCCGCAAGCCATTCTTGCAAATTGCCCTGGTTTTGGGCATGTTCCCTGGTTTCATGTCCATGATCGCCCTTTACTACATCTTGAAGGGGCTGAACATGCTGAACCTGGGCGGCTTGATCCTGGTCTACGTCGGTGGTGCCGGCCTTGGCTTCTACGTTGCCAAGGGTTTCTTCGACACGATCCCGCGGTCACTGGATGAAGCAGCTGAACTGGATGGTGCAACCAAATGGCAGATCTTCACTAAGATCGGCCTGCCGCTCTCCAAGCCGATGATCGTCTACACAGCTTTAACGACTTTCATGGCACCATGGGTAGACTTCATCTTCTCCGGGATCATCCTCTCAACTTCAGGTGACCCAAAGACCTACACGATCGCGTATGGTCTGTACAACATGCTTTCTTCTTCAAAGGGGAGCGCGACGGCCTACTTCGCCCAATTCGTGGCCGGCTGTGTCGTCATCGCTATCCCAATCACGATCCTCTTCATCATCATGCAGAAGTTCTACGTCAGTGGGATTACTGTAGGTGCTGACAAGGGTTAA
>SRR1919932_01380 alpha-glucosidase
ATGACTGCAGACCTGCAAAATTCAAGACATCAATTAGGAAGACTGGTTGGCGTCAATAAGCGTGAAAATTACTATGAGCTTCATTACACGACCGGCGAGATCGCCCGCGTCTACTTGATTGCTAATGGTATCTTCCGCTACTGGCTGGATCCAAGTCAAGAATTTGCCGAAACTGACGACATGCTGGTCAAAGACATTGAGCCCGACCCGCAATGTTTCGCCCGGGCCACGGCTCACGCGACCAGCGACATGTTCATCATCACCACTGGCAGCTGCAAGTTGATTTTCCAGCAGAAAACCGGCAGCTTCAGCATCTTTGACGAGTCTGTCCACCGGCCGCGGATGGTCCAAGCTTCCGCCCTCGAACTGAGCGGCAAGCACAGCATCGAAATCCTGAAGCAAGGGCAAAACGAATACTACTACGGCGGCGGGGTCCAAAACGGCCACTTCAGCCACAAGGGTGAAAAAATCACCATCAAGACCGACGGTATCACCGGGGCTGACGGCGTTCTGGCTGCCGTGCCTTTCTTCTGGACCAACGCCGGCTTTGCCGAACTGCGCAACACGACCGCGACTGGCCACTATGACTTCGGCCGGCAAAATTCCCAGCTCACCATCCTCAGCCACCGGACCCCGGTCTTTGACAGCTACTATATAATAGGAAACTCTCCGCAAGAATTGCTGTCCAGCTTCTATTATTTGACCGGCAAGCCCTTCATGCTGCCCAGCTACGCCCTCTCTTTCGGCCACCTCGGCAACTTCCTTGACGGCTCCTGGCAAGAAGCTGACGGCAAGGGCCATGAAGCAGTCCGCTTTGAAGACAACCGCTACTACACAAGAAAGACGGAAAACAGCGGCCACCTGCCAAGCTTAAACGGGGAAAAGGACTACCAGTTCTCCGCCCGGGCCATGCTGGACCGCTACCAGCGCTGGGGCTTCCCGTTATCCTGGATCATCCCCAACTACGAAAGCCAAACTGCCGCTAAGCCCGATGACTTTGCCGCCTTTGCCAGCTATGCCCAAAGCCGCAACTGCCATCCAGGCTTCTGGAGTGAAAAGGGCCAGCCTTTAGCCCACCACAGCGAATTTGCCGCGGTCGACGACCCAAGCAGCGACTTGACCGCCGTCAATTCCGACCTGGCTAAGGAAAATCCGAAAGCCAAGCCCCTTACCCTGATCCGCGACAGCCTCCTTCCTTACCAAAGCCAGGCTGCCCTGGCCTTCGGCGATGTCAGCGGTGACTGGTCCAGCATCAAAACGCAAATCTCTACCTTATTAGGTGCTGGTTTGTCTGGTCTGCCCTTCATCGGGGCCGCTGCCGGCGGCAAGCACGGCCCGGAAAATGCCCAAGTTGCCGTCCGCGACCTGGAATGGAAGACCTTTACCCCGCTTTTCTTCGCTATTGACGACCAAAGCCCCCTCAGCAAGACGCCTTTCGCCTTCAACAACAAGGTCTCCCGGATCATGAAGGCCTACCTCGGCCTGCGTGAGCAGCTGAAGCCTTACCTTTATGCCCTCAGCCGCCAGGCCCAGGACGGCCTGCCCCTGGTCCGGCCCCTGCTTATGGCCTTTCCGCATGAACAGGTTGGATACGGCCGGGACTTTGCTGATGAATTCATGCTAGGCGACCAATTGCTTGTTGCGCCAATCGTCAACGGCAAGTCTGACAATCAAGGCCTAAGCGTCCGCGACCGGATCTACCTGCCCGACAAGCAGACTGTCTGGATCGACCTCTTTACCGGCGACCGCTTGATGGGCGGCCGGGTCTACAACCAGCGCAAGTACCCCCTTTGGCAATTGCCCGTCTTCGTCAGAGGCGGCAGCATCTTCGACCTGGGCAGCCGGCGCTTCGTTCTCTACCCGCAAGGCGACGCCACCATCAGCACCTACAGCGACAACGACCAAAGCGACTACAAGCACAACAGCGCCCAAACCGTCATCCGCACCCATGTGGCCGACAGCAAGCTGCGCGTGATCATCGAACCGACCACCGGCTACTACCCGAACATGGCCATTAAAGAGCAAACCTTCTTTTATATATACTGTGACCAGCACCCAGATGAAATCCAGCTCCGGGCCGGCGACGAGGAAGTCGTTACCTTGACTGAATACGGCACGCCGGAAACCCTGCAAAGAGCCAAGGAAGGCTTCTACTACGACAACAAGTTCTGCTGGCCGGAAGGCTTCAAGGACTTGGGCGCAACGCCTCGCCCGGCTTTGATCATCAAATTGCAGGAGCGGGACATCAAGCAGGAAAAGCTGGAAATCCTGGTCAACAACTTCCGCTTCGCCAATGAGCAGCTGGTTCACCAGATAACCGACGCCGCCCTGCCCCTGCCGGGCAAGGTTGAAGTCGACCGGGACAAGATCAGTGCCCACTCTTTGACGGTCAAGTGGACCCAGCGGACGCCTAGTGTCCAGATTGAATTGAACGGACTGCTCTACACCGGGATCAGCGGGAACATCTTCACCTTTACCGACCTGGCCGCCAACACTGGCTACCGGTTGCGCCTGCGCTATGAAGCTGGCTACAAGGTATCCGAATGGTCCGACCTCTTGCAGGTCAAGACAAAGCGGGACCCGCGGGACTTTATCATCTCCAATGTCAAAGTCACTTCCAGCCAGGAAAGCGCAAGCGGCCACCAGCTGAAAAACCTCCTGGACCGGAGAATGGCAACCGACTGGCAAAGCACGGGCAAACCAAGCGAAGACCAGCCGTTGACTTTGACCTTCAGCTTCCCGGACCAAACAGAATTAAACAAGCTGATCTACGTGCCAAGAGCCAGCAGCCGGGATGGCCGGCCTTTGCGGATGCGGGTGGAAATCTCCACCGATGGGGAAAACTTCACCAGCTACGGAACTGACTACCAGTTTAACAGCGACTGCAAGAACAAGGTTATCGGCCTCAGAGGGGTCAGCGCCAAGGCTGTCCGCCTCAGCATTCTGGAAACGACCGGCGATTACGCTGCCGCCAGTGGCATCGACTTCTACCGGCCCCTTAAATAA
>SRR1919932_01381 N-acetylglucosamine-6-phosphate deacetylase
ATGCGCTATTACATTCATGCTGATCAGTTTTACCTGCCAAATGGCCGGGAAAAAGGCGGCTATTTAGAGATTGTTGATGGTAAATTCGGGACCTACCTGCCAGAAGGCAGCCAAGTGCCGGACGCGGTGGACTATACTGGCTTTAGCGTGGCACCGGGCTATGTCGACACCCACATCCACGGTTCTGTTAAAGAAGACGTGATGAAGAGCGACTGGGAGGGGATCAACCGCCTGTCTGAAGCCTTGCTGAGCGCCGGGGTAACCAGCTGGCTGCCAACGACGGTGACCGCGTCCAGTGAGCAATTGGCTGAAGTCTGCCGGATGCTGGCTGCTCACCAAGGAGAAGAGAGCGGGGCTAAGATGCAAGGGATCCATTTTGAAGGCCCATTTTTTACGGGAGAACACGCGGGGGCGGAAAATCCAAAATACATGATGGATCCAAGCCCGGCAGAACTGGACAAGTGGCTGGAAGCGTCAAAGGGGATGCTGAAGAAGATCTCTCTTGCCCCAGAACGTCCAGGAACGCCAGCTTTCGTAAGCTACGCTGTCAGCCGGGGAGTCAAGGTAGCCCTGGGCCACTCTAGTGCCAGCTATGACCAGACTAAGGCAGCTGCACAGGCTGGGGCAACGATTTTTACCCACACCTTTAACGGGATGCCGGACTTCTCTCACAACCAGCCAAACATTGCCAACGCGGCCATGGCACTGGAGAACATGGACAACGAACTGATTGCTGATGGGCACCACGTCACGTCTAGCGCCATCAAGGCCCTGCTGGCGGCTAAAGGCAAGGACCATATTGTTTTGATCACTGATTGCATGGAAGCCGGGATGATGCCGGATGGCGACTACATGCTGGGGGAACTGCCGGTGTACGTCAAGGACGGGATGGCACGCCTGAAGGAGGGCGACAACCTGGCCGGCAGCGTCTTGCAACTGAAGGACGGGGTGAAGAACCTGGTTGACTGGGGCTTGGCCGGCAAGGAAGAGGCTGTGTTGATGGCCAGCTATAACCCGGCCCGCAGCCAAGGCCTCTTGGACAAGTGCGGGGCAATTCGTCCGGGCCTGCCAGCTGACTTCTTGATTCTGAAGGATGACATGTCCCTGGTGAAGACCTACTTGAATGGGGAAATCCGCTGGGAAGAATAA
>SRR1919932_01382 hypothetical protein
ATGAGAAGAAAATTGAAGAGAAATATTGTAGTTGTCTTAGGTGTTCTACTGTTGCTTCAATTCAAGGGTACGGTTAAAGCAGATGTTGGAACTAGTAATAGTGATAATGAGTTTGTGAAAGCGTATTCTATTGGGCGTAGTAAAGGAATTCTTACAGACGATAATATGACGGAATCAGACTTTGTCAACCTGTGCAAGAATACAGTTTATCCACGATATCTAAAGTATAGCTATGAATATCCGGGTATGTCTTTTGAAGATTACTTGGCTGAAGATAATTATGAAGTTCCTGTTCAAACAACTGAAGATAAACCTATTGTTATCAATCATAAATCTTCAACGGCCTCAACTAATAAAATTAGTTTGTTGGGTGTATCCGCAAATAGAGATTATAAGATGAAGGCTGGTGATATCTTGGTTTGTTATGGGACTAGTTCTTCTAGTAATTCAATTCCAAATCATGTTGGCCATGCTGCCATTGCTAGCTCTTCTAGCCATATTTTAGAGATGCCAAATATTTGGTCACATGCGACTCATGTAGGAAAGGCGAGTTGGTTTGCTAAGCATACAAAAGGAAAAGATTATGTTGCGGTTTACCGAGTGAAGAAACATCCGCATTATGCTGAAGATGCAGCTGGATACGCATACCATGATATGTATATTAACAACAATCCTAAATACCTACTTTCTCCTAATCTATATGATAGAACAACGAGCTACTGTTCCAAGTATGTCTACTGTGCATGGTATTATGGTGCAACTAAGGATTCTGTAAAGCATTACAATACAGGACATTATGTTTTGCCTCACAGTTTCATTGGTAATTGGAAAGGTTCTTTCGTAGCATCATATGTTTATAAGGTAACTGAGTACTAA
>SRR1919932_01383 hypothetical protein
ATGAAAAAGAGAAGCTTCTTACTTCAAAATATTGTACTTGTTCTGATGAGTGTGTATTCAATTATGATGTCGATAGTGGCAATTAATAGCAATTATTATAATGGACAAGAGCTACTTAGCCTAGCGGCATATATACCATTGCTTTTATTTGTACTTGTGGACATTACTGCCTTTTTTGAAGAAAAAATTCCTTTTAAATGGTTGTTTTTGTTGGCTACTTTAAATCTTATATCAGTATTTAGCTTTACCGGTGCAAAAATAACGACCTTTTTCAGCTCTCCGTCTCTACTTTCTTATTTGGTTAATAGCGTTTCTGTCTTTTGCTTATATTTGTTAGAAAAGCCAGCATATTTTGGAAATGATACTAAAGCAAATTTACGATATATTTGTTGGTCAATGCCTGTACTTGATCTGGTCATAAATATTTTTATTATCTGCTTTGATTAG
>SRR1919932_01384 hypothetical protein
ATGAAGAAAAAGTTATTAGTAAGCACTGTGTTGGTCAGTGTGATTTCCTTTATGTCTGTATCACCGGCATTTGCAGCTACAGCTGTTGACAGCGATGTGATCAAGGAGAATATTTCAGTTGACAATGAGAATTGGACTCAAGGAATGGTTGAAGAGCAATGGACAGCAACTCATTCATCACCATTGTTCCCATCACTTTATTTGTCAATTGGTAAGCATGTTCGCTATCCTGCTGAAGGGGGGAAGTGGACATATGGATTTTGGAATGCAAAAGTACACTCTGAATACAAGGTAAACAAGAAGCATGGGTCAACAGTCGTGTATATTGATAGAAAAGGAAAAAAGCACAAACAGCGGTCAATTAATACGGCTGCTGGCAAAACATCCATTGCCGAAGTTTGGGCAATTAATCTGCCAAAGACCATTGATCGATACTATTACCGAATAGTCAAATAG
>SRR1919932_01385 hypothetical protein
ATGCTGAAACTGTTTACCCAATTACTCATGATTTCATTGCCACTGTTTGCCTTTAACCGCTACAGACGGTCCCGCCGCCAACTGGCAGTAGTTCCTGCCCACCAGCGGCACAATTAA
>SRR1919932_01386 N-acetylmuramidase
TTGAAAAATACCGCTGCCGTCTACACCCAGAGCCTGGAAAAAACCGGGACCAGCTATAAGAAGGGCAAGAAGGTCTACGCCTATGCTTACGCCATTTGGGACGGGGAAAAGTACTACAAGCTGGGCACTGACCAGTATGACGGCCGCTACATCACGGTCATGCACAGTTCAGCCGTTTACAGCAAGAACTTGAAGAAGACCACTTCTTCTGTGGCTGAAGGCAAGAAGATCCTGACTTTTGGCCGGACAACGATAAAGAATAAGAAGTACTACCAAACTGGCTACAACTCCTTCATCTCTGCTTCCAACGTTGACGGGACGACCCGGACCTTGAAGAAGAATGCCTATGTCTACAAGAAATCCAAGGGCAAGGCAGTCCGCTACAAGAATTCCGTCTTGAAGCAAAACAGCCAGCAGCAGACTTACGGCAGCGCCGTATCGATTAAGGGCAAGAAGTACTACATCATCGGTGTTGGCAAGTACGTGGCCAAGTCTGACTTCAAGTAA
>SRR1919932_01387 hypothetical protein
ATGACGAAGAGTAAAGCCAGTAAGGCTTACCGGCGCGCCCGCCGCAGCCGTCTGCTGGCTTGTCCCAGCGGCAAGCGGGCCTTTAAGACGAAGTTTGATGCCGACTTGTTTCTTTACCAGGAAGAGGTGACCGTTCACCTGCGTGAAATCAACCATGAGCACTGGCGGCAGATGCCGATTCGGGCTTACCGGTGTCCTTATTGCAAGAATTATCATGTAACCTCAATGTCGCTGGAGCGCTATGAGCAGCTGCACGGCAGGACAAGGGAGCGGACCTGA
>SRR1919932_01388 hypothetical protein
ATGAGCCGACTCAATTCTTATTTCTACGATATCGAATCTTTGACCAACGCCTTTACCTTGTCCTGTTACCGGCCAGACGACCAGCGGGTTGACATCTATTATCTGGTTGATGATCCGGCCTTAAATGACAAAGACAGCCTGGACTTTAAGAAGGCTGCTGCCCGGCGGATCCGGGAGAAGAACCAGAACTTTAAAGGGGAGATCTACTACTACAATCTCTGCTCAAGTGCAGCTTCCGCCCGTCTGGCCCAGACCTTTGGGGTTTCAGATGCCCAATACGTCAATGATCCCCAAGCCCCGTCCTCTTTCCCTGGACAGTTCCGCCCGGTCTGCGACACTGACCAAGGCTACCAGGAAGAAGAAGCGCCCTACCTGATGGGCTACAATTCCAGTAACTACGACTTGACCATGCTGGCCTACTACTTTACTAGAGCCTGGCAGCCTGGCGAAAGCGGCAAGCGGGACCGCTTTTCAGTCGTGACGGCCAGGGAGATGCGGGACTTTAACGATGAGCTCTTCAGCCGCTATATCGGCAACATGCGCCTGCGCCTTTGGCAGGACAAGACCATGGGTTTAGTTGCCAAAAACTTCCAGATGTCCGGCCGCCATATCGACGTGGCCCAGCTCAATGAGCGGCAAAGACGGGTTGGCCTCAAGCGCCTTTTGGGGATGCTGGGCTGGCAGATTCTGGAAAGTGACAAATTAAAGCCTGGCCAGGACTATTTGACCAGTCCTGAAGAACTGGCAGATCTCATTGCCTACAACGTTTCTGACGTGGTCAATTTAAAGGAGCTTTTCTGCCATCCTTACTACCAGGGCCAGTTTATTTTGAAAAAGGGCCTCTTGGGCCAGTACCCGGACTTGATCTACCAAGAAGACGGGGACAGCTACCAGGCGAAAATCGGCCCGGCCTTTGTCAGAAAAGACCGCTTGACCATTGATTCTTCTTCTGCTAATTTTGCCCGCCGGACCATCTGCCCATACGGCCGCTTAAAAGACGACCGGGCTGTTTCCTTCTTGTACCCGGCGGCCAGCGTGGCGGAAAAAACGGGCGAAAAGCAGAGAGACATCCTGGAAGAAAGCCGGGACTTTTTCTACAAGCTCTTTGAGGACGAAAACTTACGCAAGAAGTTCGACCGGGTTTATGACTACTACAAGCAGTTTGCCGGCAAGAACTTCAATCCTTCAAAAGAATACCGGGAAGATTACGGCGACCAGGCCCTGCCGGTCAGCGACTTAAGTGATGTCGAAAACGAAGATACCAACCTTTTCTACTACCAAAAGGACGGCCAGCCATCGACTTGCTACATTACTTTTTCCGTCGGCGGCCTGCATGGGTCAGAATATAACCGTGACCTTTATTTAAAAGACCATGCCCTTTGGGAGAAAAAGCAGGCTGACCTGGCTTATGTGCAAAAGCTTTACCCAGACCCTTTGGACTTGCGTAAGGCCAGGGAAGTTACCCTGCCAGACGGCCGGGTGGAAAAGTACCAGACTTTTCTGACTGCCAAAGCAACGATCAAGCTGATGGAGCAGACGGATCCAGCCGACCGGGGGCAGTTTTGGCGGGACTTCAGTCAAGATGAACCAACCGTTTTCAAAAAGCAGGGGAGCCGGGTCCGACTGGATGACCGCTATGCCTTTACTTCAAGCGACCTGACCAACCACGAGGACTTTACTTCCTACTATCCAAACATGCTCCGGCGCTTGAATGCTTTTTACAATGACCGCTTAGGTGAAGACCGGTATACGGCGATCTTTGAAAGAAAGCAGGAATTGGACAAAAAGCGGACTGATCCCCAATACAGCGACGAAGAGCGGCGGATGTTCAACATTGAAAGAGAAGGGACCAAGCTGATTTTAAACTCAGCTACCGGGGCCGCTGACCCAAGAGAGGGGCAAGTGCCGTCCTCTATTAGAATGAACAACCGGATCCGGTCCATGCGGATCATCGGCCAGCTCTTCACTTATATGATCGGCCAGGCCCAGACCTATGCCGGAGCCCGGATTGTGTCAACCAATACTGATGGCCTTTACTCAGTTTTGGACGCGGACTTAAACCGGAAGATTCTGGCTAAAGAAGCCGCTGAAATCGGGGTGGAGATCGTGCCAGAAGAACTCTACCTGGTTTCTAAAGACTCCAACAACCGCCTGGAAGCCAGCCCGGACTTGACCAAGATCCTGTCTGCCTCAGGCAGCCTGGCCTGCCGGAAGGACACCAGCCCGACCAAGTCCCTGGCCCACCCGGCCATCATCGATTGGGCACTCAGCCGCTACCTGCTGGAAAAAAGAACAGACCTGGCAGCGCCTTTTGACCGGGATCTGGGCCGGCAGATTCTGGCGGAAGCTGAGGAAGCCTTCCCAGACCCGGCCCACCGGCTCAGAATGTTCCAAAACGTCCTCTCAGCCAACCACAGCAAGGAGCGGGCTAACTGCATTTTCGGCCGGGGGGATGCCGGCCAGCTCTTAATCTTGCAGCGCTACAACCGGGTCTTTATCTATCAAGACGGCCTGCTGAAGACGGTCCACCTTTATTCCGCCGCGGCTAAAAAGCTGACCCCGGCCATGCTGAACAAGCGCAAGAAAAGCGGGGAGGCCGTGATCCAGCATGACCAAGAAGCCCTGTCCGTCCTTAAGGCTAACGGCCTGGGCAACTTGGCAAAAGGGCGGGAGGCTACGGTCCAGAAAATTCCTAATCTGTCACCTGACTGGTCCATGCACGTGGAAAACCGGGCCGTCAACTTACTTCAAGCTGAAGAGCAGGAAGCAATTTTGCATTCTCTTGACTATGACAAGTACCTGGACCTGGTGGCCAGCGCTTATGAAAAGAACTGGCGGAATTTGACTACATCCGGGCCAGTCTTATAA
>SRR1919932_01389 uracil phosphoribosyltransferase
ATGAGCAAACAAATCATGGATGAAGCGGGGATCCGCCGGGCTCTGACCAGAATGAGCTACGAAATCGTGGAAAGAAACCAGGGGACGGAAAACCTGGTCTTAATCGGGATCAAGACCCGGGGCTGGTACCTGGCCCAGAGAATCGGTGATCGCCTGGCCAAGATTGAAGACAGCCAGCTGCCAGTCTTGTCTTTAGACATCTCCGCCTACCGGGACGACCTCAGCCAGGAGGAAAAGGCCAAGGCCATTGCCAGCTTTGACACTTCCTTTGACTTGACTGGCAAGACGGTCATCCTGGTTGACGACGTCCTTTACACTGGCCGGACCATCCGGGCAGCTCTTGACGCCATCATGGACCAGGGCCGGCCAGACAAGATCGCTCTGGCGGTCTTGATCGACCGGGGCCACCGGGAACTGCCGATCCGGCCGGACTTTATCGGTAAGAACATCCCAACCGCGGCCAGCGAGGACGTCCAGGTCCAGGTCAGCGAAATCGACGGTACTGACGCCGTAAAGATCAGCGAGGCATAA
>SRR1919932_01390 16S rRNA methyltransferase
ATGGCTGAACAATACTTTACTGAAAATCCCACGGTTGACCATGATGAGCACCATGTCAACTACCACCTTAATGGCATTAACTTAAACCTGACCACGGACGCCGGCGTTTTTTCCAAAAACCGGGTCGACTACGGCAGCGGGGTTTTGATTGAGCAGATGCTGGACCAGGAGCTGCCAGGCGGCAATATTCTGGATGTCGGCTGCGGCTATGGCCCGATCGGTCTTTTCGCCGCTAAAAAGTGGCCCGGCCGCCAGGTCGACATGGTTGACGTTAATGAACGGGCCATGGACCTGGCTAGAAGAAACGCGGCGGCCAACGGGGCAGACAACGTTAATATTTTTGCCTCAGACCGCTATCAAGAAGTTTCCGGCCAATATGCCATGATCGTGACCAATCCGCCGATCCGGGCCGGCAAAGCCATCTGGTCCAGCATTTTGTCAGAAGCTAAGGACCACTTAACTGACGGCGGGATTTTGCTGGTCGTCATCCAGAAAAAGCAGGGGGCGCCGAGCGCGAAGAAGCTGATGGCAGCCAGCCTGGGCAACTGCGAAATCTTGACCCGGGACAAGGGCTACTACATTTTAAAGAGCGTGAAGAAATAA
>SRR1919932_01391 deaminase
ATGTATTCAAGCGAAGAAAAAAAGACCTACATGGAGGCCGCCTTTGCAGAAGCAGAAAAGGCCCGCCGGCAAGACGAGGTTCCCATCGGGGCCGTTGTCGTGGGGCTAGACGGGCAGATTATCGGCCGGGGCTACAACCGGCGGGAGCTGGATGAAGACGGGACAGCCCATGCCGAAATTCTGGCTATTAAAGAAGCCTGCCAAAAGCTAGACTCCTGGCGCCTGATCGACTGCAGCCTGTTTGTCACCCTGGAGCCTTGCGCCATGTGTGCCGGAGCCATTATCAACTCCCGGATCAAGGAAGTCTACTTCGCGGCCATGGACCCCAAAGCTGGCGCCGCCGGCAGCGTGGTCGACCTCTTCAGCGTGGAAAAATTCAACCACCATCCCAAGGTCATCCGGGGTCTTTACAAGGAGCAAGGGGCCCAGCTTTTGAAAGATTTCTTCCGGGAAATCCGCCGCAAGCAAAAATTAGCAAAAAAAAGCCCAGGGAAATTGCCAAAAGGATTAGTTTAG
>SRR1919932_01392 DNA polymerase III subunit gamma/tau
ATGGCTTATCAAGCTTTGTATCGCAAATGGCGCCCGCGCACCTTTGATGATGTGGTCGGGCAGGAAGCTATTACCGATACCCTCAAGAATTCACTTATCCGGGGCAAGGTCTCGCATGCCTTTCTTTTTGCCGGCCCGCGGGGGACGGGGAAGACCTCATGCGCCAAGATTTTTGCCAAGGCCTTGAACTGTTTAAACCTGCAAGAGGGCGAACCTTGCAACGAGTGCAGCAACTGCCTGGCCGCCGACCAGGGGGCAATGCCGGACATCATTGAAATGGACGCGGCCTCAAACAACAGCGTTGACGAAATCCGCGACCTTTTAGACAAGGTTCACTACGCCCCAACTGAAGGCAAGTACAAGGTTTACATCATCGACGAAGTCCACATGCTGTCGATTTCAGCCTTCAATGCCCTTTTGAAGACTTTGGAAGAACCGCCGGCCAGCGTCGTCTTTATTTTGGCAACGACTGAACTGCAGAAGGTGCCGGCCACCATCATTTCCAGAACCCAGCGCTACAACTTCAAGCGCTTCTCAAATGAGGCCATGGTCCAGCGGATGGAATACATCCTGGGCCAGGAAGGGGTCGAATATGAGGACAAGGCCTTAAAGGTCATCGCCCAAGTCGCTGACGGGGGGATGCGGGATGCCTTGAGCATTTTGGACCAGCTCCTTTCTTTTGAAAAAAGCAGTGTCCGCTACGAGGACGCCCTGGAAGTCACCGGCTTCGCCGCCCAGGAGCAAGTGGAAAAGCTCCTTTTGGCCCTCTTAAACGGGGACAGCCAGACGGCCCTGGACTTAGCTAAGTCTGCCATCCAGGACGGGGCCAGCGCCCAAAACATCTTAAATGAAATTATCAGCTTGACCGTCCAGGCCATGCTTTTTACCAAAACAGGGCAGGGGGAATTCCTGACGGATGACTTTGCCCAGGAAATTGCCCAGCAAAGCCCGGACCGCTTCAGCCAGATCATTGACCAGGCTAATGACGCCTTGGGCAGTCTCCGCTTTACCAACCAGCAGCAGATTCCCTTGGAAGTCTTTTTAGTCCAGGCCAGCCAGAAGCGGCAAAACAGCCAGGCAGGCCCGCAAGTTGCTTCCGCGGCCAGCAACCCGGCCATAGAGCGGCAGATCAAGGCCTTGAAAGAACAAGTCCACCAGCTGACCCAGCAGGTTCAGCAGCTGAGTCAGCGGCCAAGCCAGGCCTTCAGCCCCCGCCATGTCTTCCAGCTCAACCAGCAGCTGTACACGCAAAAGGGCGGGGCAACCGAAGTGGCCCAGCAGGCGGCGGAAAAGCAGCAGCAAGCCGAAAGCCTGCAGGCTGAAATCACCAGCAGCCAGGAAGAGATCTACGCGGTCTTAAGCCAGGCCACCAAGCCCGGCCTAGCTGAGGCCCGCAACCTTTGGGACCGGGACTTGCCAAGCATGCTGGAAGAGCCGGGCAAGACGGTCTTAGGCTTCCTGCAGCCGATCGCGGCCAGCGACCGGGCGGTTCTTTTGTCCAGCCAGTCCCGGGCCTGGCAGCTGGCCACAAATCCTCAGGAATTTTTAGCAACTCTCAAAGCTGACCTGGATCAATTGACCAAGGAGAGCTGGACCATCGCCATCGTTGACGAAAAGGCCTGGCCAAAGATCCGCCAGGAATTCATTAAAGAACATGCCAGTCAGCTCCGGGCCAAGGCCCAGCCAGAAGAAGCCCAGCCGGCAGAAGAAGCAGCTCCTGAGCCGCCTTTGCCGGACCAGGCGCCGCCGGAAGAAGCGGCAGATGACGCGATCGTGGCCAAGGCAGAAGAGCTTTTCGGCCCTTTGGCCCAGGTTAAGGACTAA
>SRR1919932_01393 DNA-binding protein YbaB
ATGAGCAAGAGACCAGCTTTCCCAGGAATGGGCGGCATGAACATGCAGCAGATGATGAAGCAAGCCAAGAAGCTGCAGGAACAAATGGCCCAGGAACAGGAAAACATCACGACCCAGGAATTCACCGGCAAGGCGGCTGACGACATGGTAGTGGCTACTTTTACCGGCGACCGGACTTTAAAGAGCTTGTTCATCAAGCCGGAAGCCATTGATCCGGATGATCCGGACATGCTGGAAGACCTGGTTATCGACGCTGTTAACAAGGGCTTGAAGCAGATCGACCAGGCAACCCAGCAGAGCCTGGGCAAGTACACGAAAGGCCTGATGTAA
>SRR1919932_01394 recombinase RecR
TTGCAATACCCATTGCCAATCGCCCGCTTGATTGATTCCTTCATGAAACTGCCGGGCATCGGTGAAAAGACGGCGACCCGCCTGGCCTTTTACGCCATGGACATGCCTAAAGAAGACGTGGACGAATTCGCCCAGGCTCTGGTCGACGTTAAGGAAAAGCTGCGCCAGTGCTCGGTCTGTGGCAACATCACCGAACAAGACCCTTGCGCCATCTGCAGCAATCCAACCCGGGACCGGTCAACCATCATGGTGGTTGAGGAAGCCAAGGACGTGATGGCCTTTGAAAATATGGGCGAATATGACGGCCTCTACCATGTCCTGCACGGGGTCTTGTCCCCGATGGATGGGATCGGGCCGGAGCAGATCAACATCAAGTCCTTGATCGTCCGCCTGCAGAAAAATGATGCTGCCAAAGAAGTCATCCTGGCCCTTAATTCCACCCCGGAAGGGGAGTCAACGGCCATGTACATTTCCCGCTTGATCAAGCCGGCCGGCCTCAAGGTTACCCGGCTGGCCGCGGGCCTGGCGGTCGGCTCAGACATTGAGTATGCCAACTTGATCACTTTGAAGCGGGCAGTTCAAGGTAGAACGGAGCTATAG
>SRR1919932_01395 hypothetical protein
ATGAGTAAGCACAGCGACAAAATCAAGCAAGCAGAAGATGAGAAGCTGATGGCTTTGGTAGAAAAGCTGCAGCAGGAAATCAGCCTTAGCAATGGTTTAGACAACATGACCCTGGACATGTCCGATGACAATATCGTGGCGGACAAGATTTTAAGAGCTGAGTATGCCTTTTTGTACGATGAGGCCCGCTACCGCCATGCTTCTTACACCGGCGTGACCAACGCCATTTCCCAATAA
>SRR1919932_01396 thymidylate kinase
ATGCAAGGTTACTTTATCACTTTTGAAGGTCCCGACGGCGCCGGCAAAACGACAGTGATCAATGAAGTCGTCAAGGCCATCCAGGGCCAGTGCAAGCGGGAAATTTTAGTAACGCGGGAGCCAGGCGGGTCAAAAATCGCGGAAAAAATCCGCGACATCATCCTGGACCCGGCCAATACGGAAATGAATGCCAAGACCGAGGCCCTGCTCTACGCGGCCAGCCGGTCCCAGCATGTCAGCGAGATCATCAATCCGGCTTTAAAGCGGGGGGACCTGGTCATCTCCGACCGCTTTGTCGACTCTTCTTTGGCCTACCAGGGCCAGGGGCGGGGACTGGGAATTGATGAAGTAGCCCAGATCAACGCTTTCGCTACCGGCCACTTGGAGCCGGACCTGACCATCTTTTTGGATTTAGACCCGGCCCAGGGCCTGGCCAGAATCGCCAAGGTCCGGTCAGGCAGCGAAGACCGGCTGGAACAAGAGAAGCTGGCCTTCCATGAAGAGGTCTATCGGGGCTACCAAAAGGTCAACCAGGCTCATCCGGACCGGGTAAAAGTGGTCGACGCGAGTCAAAATTTGCCGCAAGTTGTGGCCGCAAGTGTTAAACTGATGAAAAGCACATTTCCAGAATTGTTTTAG
>SRR1919932_01397 hypothetical protein
ATGAAACTGATTATTGCCATTGTCCAGTCTGAAGACGCCAAGCGCCTGCAGGCGGCTTTTGTTGACAACAATGTCGGCGCCACTAAACTGGCGTCAACGGGCGGCTTTTTGCGCGAAGGCAACACCACCTTCTTGCTTGGGGTGGAAGATGAAGACGTTGACGGCGTTTTGAAGCTGATCGAAGAGCATTCCCAAACCAGAGAAGAAACAATCAACCCTGGCATTCACCCTGGCATTTCCTTCGAGCAGCCGATTGAACCGGTCAACATCACGGTCGGCGGCGCGACGGTCTTTGTCTTGCCGGTTGACCAGTTCCTGCACTTTTAA
>SRR1919932_01398 DNA polymerase III subunit delta'
ATGCTGGATTTAAAGCAAATTGGCACTTCTGAATCCCGGCAGCTCAAGCAAGCCCAGGATCGGGGGCAGCTGTCGCATGCCTACCTGCTCTTGTCAAGTGATGAGGCAGAAGCCTTAAACACGGCCTACTGGCTGATCTGCTACGTGAACTGTACGGGCGAAAAGAAGCCGGACGGGACCTGCCCGGCCTGCCGGCGGATTCTGGCCGGCAACCACCCGGACGTCTTTTTGATCGACACGGAAGAAAACAAGCAGTCGATCGCGATTGACCAGATCCGGCCGCTTAAGCAGGAATTAGCCAAGAGCCCTCTGGAAGGCGACCGGCGCTACTTCGTGATCAACCATGCCCAGAAATTGACCCTGCCGGCTGCAAACGCCATGCTCAACCTGCTGGAAGAGCCAGCGGCGCCGGTAGTCACCTTCTTGATTGCCAATAACGGCGGGCAGATTCTGCCGACAATCAAGTCCAGAACCCAGATCATCAATTTCAGCCAGCAAGCTGCTTCCAGCAAGGACAGGCTCCTTTTGGCCAACGGGATGAGCCAGGAAGAAGTTGACCAGGTGAAAAGCAGCCAGGAAGTCGACCAGGCGGTAAAATATTTTTACCAGGAGCTCCGCGAGCATGACTCTTTGGCTATCGTGTCCGCCCACCAGCTGGCGGACCTGGTTAAAAAGCAAAAGCAGGGGACCAAGGCCTGGGAGAAGTATGTCTGGATTTTGCTCAAGAAGTGGGGAGAAAAGGACCTGGAGAAGGGTGACTACCAGGAAGCGGCCAACTTTTTGGCGGACCTCATGCGGGTTGACCAGATGCGGCAGAGTAATGTCGGCTTTTTGAACAATTTGGACTATTTGGCCTTAAAGTGGCAGCAGTAA
>SRR1919932_01399 DNA replication initiation control protein YabA
GTGGACCCATATACTAAATTGCAGCAGCTGCAGCAGCAGATGGAGCGCATGCTCAAAAGCATGGACTCCCTGCAGCAGGAGATGCTGGAGAGCTTGAAGGAAAATACCGAGCTCAAGGTTGAAAACCAGCTTTTGCGCGAGAAGCTGGACAAATTGACGGTTAAAGAACACGAAGGCAAGAGCCAGAGCGGGATGGCCGTGCTCAAGCAGATCTACCAGTCTGGCTACCATATTTGCAACATGTACTACGGAACCCACCGGGATCCCAGCGCGGACTGCATGTTTTGCCTGGATATTTTGGATAATTTTGGAAAGAAGGCGGTGCACAAATAA
>SRR1919932_01400 16S rRNA methyltransferase
ATGCAAACGCAACACAGCTACGCGAATGACCAGCAGGGCAAGCTCTACTTGGTGCCTACCCCGATCGGCAACCTGGAAGACATTACGATCCGGGCCAAGCGGATTCTGGAAGAGGCTGACTACATTGCCGCTGAAGATACCAGAACCAGCGGGATCATGCTGGACCGGCTGGGCATTCACAACAAGATGGTTGCCTTTCACAAGTTCAACTCTAAAGAAAAGGCGCCGGAACTGGTCAAGTTGATGCAGGAGGGGGCGACAATCGCTGAGATCAGCGATGCTGGCATGCCGGTGATTTCTGATCCCGGCTATATTTTGGTCCAGGAATGCATCAAAAGCAATGTTCCAGTCGTTCCCCTGCCGGGCCCGTCGGCTTTTGCCACGGCCTTGATCGCTTCCGGCTTTGACGGACAGCCCTTTACCTACTACGGCTTTTTGCCCCGCAAGGCCAGCCAGCAGCGGCCTTTTTTAGAAGAAATCAATGCTTCAAGAGCTACCTCGATCTTTTATGAGGCACCCCACCGGCTATTGAAGACTTTAGAGCAAATGTTGGAAGTTTTGCCAGGCGGCCGGCAGGTCGTCTGTGCCAGAGAACTGACCAAGATTCATGAAGAATTCATCCGCGGCAGCCTGGAAGAAGTCATCCAGCACTTTAAAGAAGTCGACCCCCGGGGCGAGTTCGTCGTTTTGGTGTCGCCAAACACGGAAGAAAAGCCCCTGGACTGGGCTGACCTGGTCAAGCTGGTCAAAGAGCAAGTTGCCCAAGGCGTTTCTAAAAAGGATGCCATCAAGCAGGTGGCCAAGAGCCAGGGCGTTTCCAAAAACGAACTCTATGACCGCTACCACCAGGAGGGGGCAAAATGA
>SRR1919932_01401 acyl-ACP thioesterase
ATGAGATACTACAAGGATTACCAGCTGGAATACGCTGACTGCGGGGAAAGCGGCCAGCTGAAATTGCCCAGAATGATCGACCTGATGATGGAAAGCTCTGAAAGGCAGCTGGCGCCAACTTTAGGCGGGGCTAGCGCCATGAAAGAGCGAGGCAGGGGCTGGGTAGTCACTCAGTACGAGTTTGAATTTACTAGCCTTCCCCGGGCCGGGCAAAAGGTTAGGGTCTGGACTGAAGCGGTTGGCTACAACCGTTTTTTGTCCTACCGGGACTTCGGCATTGAGGACGAAGCAGGCAAAGACCTGGTAATTGCCCACAGCCAGTGGGTTTTGTTTGATTTAAAGAGCCGGAAGCTTTTGCCCAGCGATGATAAAATCGCTGAGGAATTGGGAGCACCCCTTTTGGCTAAAATGCCCCGCTTTAAGAAATTGCGGCCAAAAGACGATTACAAAGACGAGAAGGTCTACCGGGCCTACTACTATGACCTGGACTCCAACCACCACGTCAACAACGCCCACTACCTGGACTGGATCGTCGACAGCCTTCCCCGGGACTTCATCAACAGCCATGAGCCGAAAGACCTGGCCATCAAGTTTGAGAAGGAAATTAAATACGGCGATGAGGTTGCCTGCCAGGTTATGCAGGAAACGGAAGACAGCGCTGTCAAGACCTGCCACGCCATTACCCGGCAAGGTGAACTTATGGCACTTTGTGAGGTAAACTGGCAAAAAATGTGCTTTAATAGAGACTGA
>SRR1919932_01402 hypothetical protein
GTGAAAAGTGAATCAAAAGTCAGCAGCAAGCTGGAGCTGCGGGAGCTGGTCTTATTGGCCATGGTTATCGCCATCAAGGTGGTTTTGGGACAGTTTAAGGTCGGGGATGCCACCCTGCAGGTGGGCCTGGGCTTTATCGGCAGCGTCATGCTGGGCTACTTGTTCGGGCCTTGGTGGGGCTTTGCCGGCGGTGCCTTGAGCGACCTGGTTTCATCCGCAATTTTTGGCAACCTGGGCGGCTTCTTTATCGGTTACACCTTGACCGCTGCCTTGGGGCCGATGATCTACGGCTTCTTCTTGTACAAGAAGCCCATCCAGATTTGGCGGGTCATCGCGTCCGTAATCTTCGTCACGGTAATCTGCAACATCGGCTTGAACACCCTTTGGGTCAGCATGATGTACGGGACCAACTTTATGGTCGCCCTGTCCAGCCGGATCCTCAAGGAAATGATCACTCCATGGATTCAGATGGTCGTGGTTTGGTTTATCCTGGAAGGCCTGTCCCGGGTCAAGCTGAGTAGAAAATTTTAG
>SRR1919932_01403 tRNA threonylcarbamoyladenosine biosynthesis protein TsaB
ATGAAGATTTTAAGCATTTCGACGGCAACGAGCGATTTGAGCGTTGCCTTGAATGAAGCTGACCACTTGGTCAGCGAAAAGATCGAGGAAAACCAGCGCAACCACAGCGTTGACCTTGATCCGGATATTGCCAGCCTGCTGGCAGAAAACGGTCTGTCTTTAAAAGACATCGACCGCTTCGCGGTGGCGATCGGGCCTGGTTCATATACCGGCCTCAGAGTCGGTTTGACCACGGCTAAGATGTTTGCCAGCATTTTGAATAAAGAGCTGGTTGGGGTCTCAACTTTACAGGCCCTGGCCCAGAACTTTGCCGGTGAAGATGCCTTGATCGTGGCGGCATTAGACGCCAGAAACAAGAACTTCTTTGCCGGTGCTTACCGGGGCAAGGAAGCCGTGATTGCAGACGGTCACTACCACTTAAGCGAGCTCTTAGAGCAAGTAGGGGCCCTGCCTGACCAGAAGGTGATTTTTGCAGGTAGCGACTTCAGCAAGTACCAGGAAGAAATCGCGGCAGGGCTGGCTGACAAGGACCTGCGCCTGGCTGAAGGGGAAGAGAACCTTCTGCACGCCGGTGCAATTGGCCGCTTGGCGGTAAGTGCTCCCGTCCTTGATCCGGACCAGGCCGTGCCGAACTATCTGCGCCGGACTCAGGCCGAGTATGACTGGGCAAAGAAGACCGGCCAGGAATTTGCAGCAGACAGTGCATATGTAGAAGAAGTTTAG
>SRR1919932_01404 ribosomal-protein-alanine acetyltransferase
ATGGGACTATTCTTTAAAGTTGACCTGGTGCAGTTTGCCCCCCGGGCAATCAGCATCAGCGGCCATGAATACTGCTTAAAGAAGGCGGAGGCAGGCGAGCTTGCCCGCCTCCTTTTGCTGGAAAAGGAAGTTTATGCCGGCCGCCTGCCCTGGGACTGGGAAGTCTTTGCCGAAGAATTGCGTCGCCGGGATTCCTTATACTTGCTCTTGCTTGAGAGGGATTTTTTGGTCGGAGCCATCGGCTGCCGCTTCAGTCTCTCTAAAGCCCACATCACCTTTTTGGCGGTGATGCCGAAAGAGCAGGGGCAGGGGATCGGGAGCTACCTGGTTCAGACGGTTTTAGATTTGGCCAAGTCGGCTGACCTTAAAGCGGTCACCTTGGAAGTGCGGGTCGAAAACAAGAAGGCCAAAGAGCTCTACCGGCAGATTGGCTTTGAAGACAATTTTGTCCGCAAGAACTACTACGATAATGATGACCGTCCGGACAGCGACGGTTTGAACATGATCTGCCATCTAAGAAAGAAGAACTGA
>SRR1919932_01405 tRNA threonylcarbamoyladenosine modification protein TsaD
GTGAAGGAAAAGAAAGACATTCGCATTTTAGCTTTTGAAAGCTCCTGTGACGAGACTTCGACTGCCGTGGTCAAGAACGGGTCAGAGGTCGAAAGCCTGGTCGTGTCTACCCAAATCAAGAGCCATGCCCGCTTTGGCGGGGTTGTGCCGGAAGTGGCCAGCCGCCACCATATCGAAGTGATTACCCAGATTACCCGGGAAGCCCTGGAAGAAGCCAAGGTCAGCTGGGAAGATCTGGATGCCATCGCCGTAACCCATGGGCCAGGCCTGGTCGGAGCCCTTTTGATCGGGATCAACGCGGCCAAGGCGGCCTCCATGGCGACCGGCCTGCCTTTGATTGGGGTGGACCATATCATGGGCCACATTTCAGCTGCCCAGCTGGTTGAACCGGTTGAGTATCCGGCCTTGGCCCTGCAGGTTTCCGGCGGCCACACCGAAATTGTTTTGCTGAAAGACCCGACCCACTTTGAAATCGTGGGCGACACCCGCGATGACGCGGCCGGAGAAGCTTACGACAAGATTGGCCGGGTCCTGGGGGTCAACTACCCGGCCGGCAAGACGATCGACCAGTGGGCCCACCAGGGTAAGGATACTTTCGGCTTCCCTAGAGCTATGATCGATGAAGATAATTACGACTTCTCCTTCTCAGGCCTCAAGAGTGCCTTTATCAACACCTGCCACCATGCTGACCAATTGGGGCAGGAATTAGACAAGTATGACCTGGCGGCCAGCTTCCAGGCGGCCGTGGTGGACGTTTTGGCTGAAAAGACCATGCGGGCCATCCGGCAGTACCAGCCCAAGACCTTCATCATGGGGGGCGGGGTTGCCGCCAACCTGGGCTTAAGAGAGCGGATGAACAAGGAGATCGCTGCTTTGGAAAAGGCACCGAAGGTTATCCTGCCGCCGCTTAAGCTCTGCGGGGACAACGCGGCCATGATCGCGGCTGCCGCTTACAACCAGTACCTGGAAGGCGACTTTGCCGATCTGCGGCTAGACGCTGATCCATCAATGGAACTGCCATATGCGGCTGATTACAAGTAA
>SRR1919932_01406 6-phosphofructokinase
ATGACTTTACGAGTTGGTATTTTGACGAGCGGCGGCGACTGCCAGGCGCTCAACGCGACCATGCGGGGGCTGGCCAAGACCCTTTACAACTGTGTCGATGACGTGGAAATCATCGGTTTCAAGCGGGGCTACTACGGCTTGATGCATGAAGACTACGTCAAGATGAAGCCGCGGGACTTCTCCGGCATCATCAACGAAGGCGGGACGATTCTGGGCACTTCCCGCCAGCCATTCAAGGAAATGCGGGTCATCGTTGACGGCTTTGACAAGGTAGCCGCCATGAAGAAGACCTACAAGAAGCTCAACCTGGACGCTTTGGCGGTTTTGGGCGGCAACGGGTCACTTAAGTCAGCCAACATGCTGGCCCAAGAAGGCTTGAACGTGATCGGCCTGCCAAAGACCATCGACAACGACACTTGGGGAACTGACTACACCTTCGGTTTCCAAAGCGCCATTGATATTGCCACCAGATACCTGGATGACATCCACACTACTGCTCAAAGCCACTCCCGGGTCTTCGTCGTCGAAGTCATGGGCCACAAGGTCGGCCACATCACCCTGGCCGCTGGCCTGGCTGCCGGCAGCGACATTATCCTTTTGCCGGAAATCCCTTATGACATCAATGTCGTGGCCAAGAAGGTCAAGGAAAGACAAAAGTCTGGCAAGGGCTTCACGGTCATTGCTGCCGCTGAAGGGGCAATTTCCAAGGAAGACGCCACCCTGTCCAAGAAGAAGTACAAGGCCAAGGTTGCCGCTAGAAACGGCGCCAGCGTGGTTAACGAAATCGCTGCCCAATTGCAGGAAGTTTTGCCAGACGCTGAAATCAGAACGGCGGTCATCGGCCACGCTCAACGGGGCGGCCGGCCAGATGCCTACGACCGGCAAATCTCAACCCGCTTCGGGATTGAAGGCGCCCGCCTGATCATGAACCGGTCCTTCGGCCGCCTGGTTGTCTTGAAGCAAGGTGAAGTCGACTCTATCGCCCTGGAAGACACGGCCGGCAAGCTCAAGTACGTTGACCCGAACGGCAAGACCGTAAGCAACGCCCGCCTCATGGGCGTCACCTTCGGGGACAAGTAA
>SRR1919932_01407 XRE family transcriptional regulator
ATGACAGCAATAAACTTCAAGCAAATTAGACAGATGCAGGGACTGACTTTGAAAGAAGCGGCAAGTGGCATCTGCTCTATTCAAATGTTGTCCCGGTGGGAAAATGGTACTGGCAATATGGATTTTGAAAAAACGCTCAAATTGCTTGAAAGGGTGAACATCACTAGTTCAGAATACGTTCATCTGGCCAACTTAGACGATACTTATCAACTATCCGCTGAATTGCAGAAGGCATGGAAGCAAAAGGATCATACTCTAATTAAAAGAATCGCCCGAAATAGCTTGCAGGAATTCCATCTGACTTCAGATATCTTATCCTTAAACTACGGAGCAATTGCTTGTGGCCTTTATCATCGTTTAGCAAAAGTCAATTTACTGGAGATTGATGAACAAAACGCGTTTAATAAAGAGCTATCTATGATTACGGTCTGGGGACAAGAAAATATTTCCCTGTTCTTTAACACCATTCAAGTGCTCAGTCCCAAAATGATTTTTCAAATTTCTGCCCAATTAATTGAAAATTTGGATTTTGCTAAGCAAGCCGGGTCGGATACTTTTTACTTTGCCACGACCACTTTATTTGAAGCCGTCATCGCTCTTCTTATCAGCGATAATCCATCCTATGCCGCGAACATCTTAAGGCAGTTGAACCACTTTGATTTTCCTCAGCGCGAAACAATGTTGATCATTGGCCGGAAATTTTTAAATAGTTTGATAGACTGGCAAGAGCCGCAAAACGAACAAAGCATTTTAAAAATCATCAATTTTCTGCTCGATATGGGATTGACAATGCAAGCCAAAAATTTCTTGCAAGTCTACAAAGCTGTTCGAAAGGTCAAGAAATGA
>SRR1919932_01408 hypothetical protein
ATGAGTTTAACTATCAAAAAGATTAGTTCATCAGATGTTTGTGATCGCCTAACAATAGAAAGCGCTGCATACGGTAAATATTTTGCAATGATTGAATGGATTGTTACTGATGATTCTGATGAGTCATATATGCCTGGTTGTAGTTTGCTTTAA
>SRR1919932_01409 major facilitator superfamily transporter
ATGCAGAAATCAAAAAAGCAATTAATTCTAGCAATCAGCAGCCTGGGAATCGGTAATTTAACGAGCGCGACTTTTTCCTTTTGCCTGGGCGTGTATGTTTTGCAAAAGACATCTTCTAGCATGCTATTTTCCATGCTGCTTTTGATTCGGCCTTTGAGCAACTTGCTTTTGAGTTCTTTAATCGGCTTCTGCGTTGATAAGTATGATCATAAAAAGATATGCATGATCGCCCAGGCAACAAGCGTTGTAGCGGTAATACTGTTTATAGCGCTATTTAGAGAGCAGCTTTCATTATCTGAACGGTTGCTGATTATTGTTGCCAGCAGTATTGTGCTGACAGTTTGTGATACCTTTCAATCGACCAGCTATAAGGCTTCAACCAATTCAATGGTGGCTGCAGAGCACCGGCAGAAATTAGTTGCCTATGAACAGCTGACAGACGCTGGTGCTGTTATTTTGGCACCGATATTAGGCGGTTTGCTGGCTGGGGTAGTTGCCATCTCCAATATTGCTTTGCTTGAATTAGCTGGTGAAAGCGTGGTTTTGCTAGCAATTGCTTTATTGGATTTTCACTTAATTTCTGTTGAAGTGGAAGCGATCAATGATTCATTGATCTTATCCATCAAAAATGGCTTAGAGTATTTCAAAAATGACCGCTATTTAATGGAATTACTGCTTTTTGCCGTGATTGCTAATTTTGCTTTAAGCGGCCTGGAGGTCAGCTTGCCAATCGCTATGATGAAAGAGCTGGGAATCCCTGCAAATTTATATGGATTGGCAGACAGCTTTTGCGCAGGAGGGATGCTTCTGGTCAGTCTATTGCTAGGCTCTTTCAAAATGCCCAAGAATTATTTACTGACGACCGGCAGAATTGGAATCATTTTAGCGGGTGACTTTATCATACTAGCTTTGGCATGTTTGTGTCCGAATAAGTTGCTTGCTACTGGTATTTTTAGCATTTGCATGCTGGTGGTAGGCGCCTGCTTGGCCGCGGTAAACTTGCCATATGCCATGTATGTCAGAACCAAGGTACCGGTTAATCTTCAAGGGAGAGTTGGAGCGACTACCAGTTCAGTAGTAGCCGTGCTTTCACCTTTGGGATATGCTTTGTTCGGGCTTGTTTTGGGCCAGGTTAAACCGGTCTGGTGCTTAATGATGTGCGCGATAATTATTTTTGCAGATGGATTGCGTTTACTGCTTTCTACTAGCAGAGTAAATAGTTCAATCTAA
>SRR1919932_01410 phosphoglucomutase
ATGGACGCAAAAGAAATTTTTGAACAATGGAAACAAGCCGCCCTGCCGGAAGACCTGGCTGAACAAATGGCTGAATTAGGCGGCGACGAAAAGTGGATCGAAGACGCCTTTGGCCAGGACATCAACTTTGGGACTGCCGGGATGCGGGGGCTCCTGGAACCAGGGACCAACCGGATCAACGTCTTCACGGTCGGCCGGGTAACTGAAGGTTTGGCCCGCTTGATCGACGAAAACGGCGAAGAAGCCAAGAAGCGGGGCGTGGTAATTTCCTTTGACTCCCGCTACAACTCACGCGAACTGGCTACTCATGCTGCCCGCGTTTTGGGGGCTCACGGCATTCATGTCTACCTCTTTGACGACCTGCGTCCAACGCCGGAACTGTCCTTCGCTGTCCGCTATCTGCACACCTTTGCCGGGATCAACATCACTGCTTCCCACAACGCCAAGCAGTACAACGGCTACAAGGCTTACGGCGAAGACGGTGCCCAAATGGGGCCGGAAAACGCTGACCGCCTCTTTGTCTACGCGCAAAAGGTTGAAGATATCTTCAGCGTTAAGGCAGCTCCAGTCAAGAAGCTGCGCGCTGAAGGCACTTTGCAGCTGATCGGCGAAGATGTCGACGAAGCCTACCTGGCCAAGCTGGAAACGGTCAACGTCAACAAGGACATGATCAAGGAAAACGCCGACAAGCTGAAGATTGTTTACACTCCGCTGCACGGGACGGGTAAGATGCTTTACGACCGCGCCTTCAGACGGGGCGGCTTCAGCAACGTTGTTCCAGTGCCAAGCCAGGCGATTGTGGACCCGGAATTCCCGACTTGCAAGAAGCCTAACCCGGAATTCCGTGACGTCTTCAACCCAGGCGTGGAACTGGCCAACGAAATCGGCGCTGACATGATCGTGGCTACCGACCCGGACGCTGACCGGATGGGAGCCTGCGTAAGAACTGACAAGGGCGACTTCCAAGTTTTGACTGGGAACCAAATCGCTACCTTGATGTCTTACTACTTGCTGCAAAACTTGAAGGGCTCAGGCAAGCTGACTCCGGACTACGAAATCGTTACTTCAATCGTATCCAGTGCCTTGCCATTCAAGATTGCCAAGGACTTCGGCATCAAGACCAAGTCAGTTCTGACTGGCTTCAAGTACATCGGTGAAGAAGTCGACCGGATGAACAGGGAAGGGGACGGCAAGTTCCTGATGGGCTTTGAAGAAAGCTACGGCTACCTCTTCCAAGCCTTCGCCCGCGACAAGGACGCCATGCAAGGGGCCTTGATGTTCGCCGAAGTTGCCAGCTACTACGCTTCCAAGGGCATGACTGTCTTTGACGGCCTGCAGGAAATCTGGAAGAAGTACGGCGTTGCCTACGAAATCACCCGGGCTATCGAAATGCCAGGGATCGGCGGGCAAAAGAAGATGGCTGAATTGATGAGCAAGCTGAGAGAAGAACACCTCAGTGAAATCAACGGGGCCAAGGTCTTGAAGATCGAAGACTACCAAGAACAAGTTACTGTCGAAAACGGCGAAGAAACCCCATTGACTGGCTTCCCGAAGTCAAACGTCTTGAAGTACTTCCTGGATGACGAAACTTGGGTAGCTCTGCGGCCATCTGGTACTGAACCAGTAATCAAGGCTTATGTCGGCGTTAACAAGGCTGACATCGCAACTGCTGAAAAGGCAGCTGAAAGCTACCAAGACGCTATCAGCGAATTGCTGAAGTAA
>SRR1919932_01411 amylopullulanase
ATGAGAGCTATATTTAATTCTTGGGACACTAAATACAAGCAGCCCTTTGGCGCCACGCAGGCCAATACCAGCGTCAAGTGGGCGGTTGAAGTCGATGAAGAGATCCAGGAGATTACCCTCTGGCTGACTAAAAACAATGAGTCGCCGGTGGCTTACCCCATGACTTTCAACGATGAAAGCAAGATGTATGAGACCAGCGTCAAGATTAGCAGCTCCGGGCTCTACTATTACTACTTCAACATCAAGCAAAACGACCAGTTTTACTTCCTGGAAAGAAGCCAGGACGGTTTTGGCGACGGGGAGATCACCCAGGACGGCCGGGATATCCGGACCTTCCAGCTGACTTGCTATGACCGGACGGTCCCGCAGGCTCCCTGGTACACCCAGGGGGTGGTCTACCAGATCTTCCCGGACCGCTTCAACAACGGCAACCCGCATGGGGAGATCCAGGGCCGCAAGAAGGACAGTTTCATCTACGCGACCAAGGAAGATAGTCCTTACTATATTAAGGATGGGCATGGCGATATAGCCCGCTGGGACTTTTTTGGCGGCAACCTCGAAGGTATCCGGCAAAAGATTCCCTATTTAAAGGATTTGGGAGTGACGGCCATCTACTTGAACCCGATCTTCCAGGCTTCCAGCAACCACCGCTATGACACCCAGGACTTCATGAAGATCGACCCCATGCTGGGGACCGAGGAGGACTTCAAGAACCTGATCAAGGACCTGCACAAAAACAGGATTGCCTTGATCTTAGACGGGGTCTTCAACCATGTCGGGGCCGACAGCAAGTACTTCTTGAGCGCGGTCACGGACAAGACGGGCCCTTACTACTCCTGGTTCAACTTCATCAACTATCCGACCAAGTACCAGTCCTGGTGGGGGGTAACCACGCTTCCTGAAGTCAACAAGAATAATGCTGACTACCAGAACTTCATCTGCGGGCCCGACGGCGTTTTAGCCAAGTGGACCCGGATGCATGTCGACGGCTGGCGCTTGGACGTGGCAGACGAACTCCCAATGCCGCTCTTGCGGGAGATCCGCGAGCGCCTGCAGAATGAAGACTGCCATGTCCTGATCGGGGAAGTCTGGGAAGACGCCTCCCACAAGTTCGTCAACAGTGAATTCCGGACTTATATGGCCGGGGACAATTTAACCGGAACCATGAACTATCCGGTCCGCAACTTTATCGTTTCGCTCTTGCAGGCCAATAACGAAACGGAAGAAGTGGCCGCCTTGAATGACCTGGAAAAGCTGGTTGAGAACTACCCTAAGGCTTTTCTGGAAAACTGCCTGAACAATATCGGCACCCACGACACGGCCAGAATCAAGACCGTCTTGGGGGGAGACGAGCAGCTGGTCGCTCTGACCTTTGGCCTCTTGTTCTCTATTCCCGGCGTTCCTTGCATCTATTATGGGGATGAAGCCGGCCTGGAAGGGGACAAGGACCCGGACAACCGCCGCTACTTCCCATGGGGCAAGGAAAGCGACTTTTTGGAAAAAGAAGTCAAGGAACTGGCCCACTGGCGGCGGGAAAACCGGGCACTAGTCGACGGGAAAGTTGGTTATGTCAAGATTGCTTATGGCATCAACGCCCTGGTCCGCTACAACCAAAGGGAACTGGTCATTTACTGCTACAACAAGACCGACCAGGATATGATCCTGGACGCGGGAGAATTTCAGCCATATTGCCTGCCAGAGAAGATTGGAGAGCTGGTAAGTGATATACTGGATCAAGAAAGCGTAGCTCAGAAGGCTTATCTGTTGAAGACATTTAAGCTGGACAGGAATGAAAAAGAATAA
>SRR1919932_01412 glycogen phosphorylase
ATGAAATCAAGTAAAGTATCAGCAGTAAACAGCAATTTGCGGGAAATTACCCCCGAAGAATTCAAGGAAAGACTGGCCAGCAAGCTGGACCGGCACTTTGAAGAAAGCGTAGATGAAGCTTCTATGGAAGACATCTTTGCTGCTTTGGCTTCAATGGTGCGCGACGGCTACTCCAGCAAGTGGCGCAGAACCCGGATCGCGGAAAGCGCCAATGGTCACAAGCAGGCCTACTACTTCTCCATTGAATTCCTGCCAGGGACTTTGCTGAGAAGCAACCTGCTTAACCTGGGCTGGCTGGACACGGCTAAAGAAGCCCTGGCTGACTTAGGCATCGACCTGGATGAAATCGCTGCTGTTGAACCAGACATGGCGCTGGGGAACGGGGGCCTGGGCCGGCTGGCTGCCGCCTTCATGGACTCTTTGGCTTCAACTGGCTATGCCGGCAACGGCAATGGCCTGCGCTACAAGTACGGCCTCTTTAAGCAAAAGTTCGTTAACGGCTACCAAAAGGAACTGCCAAACAACTGGCTGAAGCAGGGGGACTACTGGGAAGTCCGCCGGGAAAGCAAGTCTGTCCTGGTTAAGTTTGGCGGCCGGGTCAACATGGTTGACGACAATGGCTGGCTGACTCCGCAATACGAAGGCGCTACTGTTGTCCGGGCCGTACCTTATGATGTAGCCATGGTTGGCTACCGCAACGGGGTGGCCAACACCCTCCGTTTGTGGAATGCGGAAATTGCCCCGGAAGACGAATTGAAGTACCCGTCAATCGCTGACCGGCGGAAGGTGGAAGACTTGACTTCCATCCTTTACCCGGATGACTCCAGCTATGACGGCCGCCTTCTGCGTTTGAAGCAGGAATACTTCTTTGTTTCCGCCGGCCTGCAGAGCATCTTGAACAACTTCATCAGGGACTACGGTGAAGACAGCTTGACTGACCTGCCGAAGTACGTTGCTGTTCACATCAACGACACTCACCCGGCCATGTGCGTGGCTGAAATGATGCGCCTTCTGGTTGACAGATACCGGATGGACTGGGACGAAGCCTGGGAAGTTACCAAGCAAGTCATGAGCTACACCAACCACACCATCATGGCTGAAGCCATGGAAAAGTGGGACGTGGGCATGTTCAGCCAGCTTTTGCCGCGGCTCTTTGACATCATCAAGGAAATTGACCGCCGCTACGTGGCTGGCCTGGAAGGCAAGGTTTCCGGTGACGTGATCGAAAGAACCAGAATCGTCAAGAACGGACAAGTTCACATGGCCCACCTGGCCATCATCGGTTCCCACTCAGTCAACGGGGTTGCGGCTTTGCACACCCAGCTTTTGGAAACCGAAGTTCTGCGCGACTTCTACCAGCTCTACCCAGACCGCTTCAACAACAAGACCAACGGGATCACCCTGCGCCGCTGGATCCAAATCGCCAACCCGGACCTGGCCAAGCTCTTGGACAAGACCATTGGGACTGACTGGCGCTTTGACAGCAAGGAAATGCTGAAGTTTGAAAAGTTCTACCACGACACGGCTACCTTGACCAGCCTGCAAAAGATCAAGCTGGCCAACAAGGAAAAGCTGGCCAAGGTCATTAAGGACAAGACCGGCATCGTGGTTGACCCGGAAGCCATCTTCGACGTCCAGGTTAAGCGTCTGCACGCCTACAAGCGGCAAACCTTGAAGCTGCTCCATGTTCTGAAGCTCTACCCAGACCTCAAGGCCGGCATCGACCACCCAAAGCGGGTAGTTATCTTCGGGGCTATCGCTGCTCCAAGCTATGTCTTTGCCAAGCAGGTCATCAAGGTGATCAACTCCGTGGCTGACCTGGTTAACAATGACCCGGACATCAAGGGCAGGCTGAAGGTTGTCTTTCTGGAAAACTACAATGTTTCCCTAGCTGAACAAATCATTCCAGCCGCGGATCTCAGTGAACAAATCTCCACAACCACCAAGGAAGCCAGCGGGACCAGCAACATGAAGCTGATGGCCAATGGGGCCTTGACGGTCGCCACCATGGACGGGGCCAACATCGAAATCAAGGACGCGGTTGGCAGCGACAACATCTTTGCCTTCGGTTTGGACAAGGATGAAGTTTACAACTACTATGCAAACCACTCCTACCACCCACGTGACCTCTATGAAAGCGACCCAGTCATGAAGAAGACGGTTGACGCCTTGATTGACGGGACGATTCCTGGCTGCGTCAGCGAAGGCCGGGCCTTGTACGACGACTTCCTGAAGGACAATGAAGAATTCCTGGTTCTGGCCGACTTTGAAGCCTACTTGAAGGCCCAGAAGCTGGTTGAAAAGGTTTGGGCAAACAAACGGCAATGGGCCCAGATGAGCCTGGTCAACATCGCTCACTCTGAACGCTTTGACGCTGACAAGACCATTGAACGCTATGCCAGTGAAATCTGGCACCTGGACAAGGTGGAAGTGGACGCTGGAAAAGCGTAA
>SRR1919932_01413 glycogen synthase
GTGAGAGTTTTATTTGTCGGGGCCGAATGCGCGCCCTTCTTCAAGACTGGCGGCTTAGGCGACGTTTTGGGCTCTTTGCCCAACCAGCTGGCTAAAGACGGCGATGAAGTCGGCGTGGCTTTGCCCCTGTACCAGGACATGCCGGAAGAATACCGGGAAAAGCTGGAATACCAAGGCAACTTCTATGTTCCAGTTGGCTGGCGGAACCAGTACTGCGGGGTCTTCACCCTGGAAATGAACGGGGTTAAGTACTTCTTCATCGACAACGAATACTACTTCAAGCGGCCAGGCATCTACGGCCACTACGATGATGGCGAACGTTACGCCTTCTTCCAGCAAGCCGTAATCATGATGATGGAACGCTTTGACTTCGTACCAAACATCCTGCACTGCAATGACTACCACACTTCCTTCATCCCATTCCTGCTTCGGGAAAAGTGGGGCTTTGTCGATGCCTACCGCGGCATAAAGACTGTCTTGACCATCCACAACCTGGAATTCCAAGGCAAGTACGACGTCAAGACCCTGCCGAACTTCTTCGGCCTGGGCTATGAATGGTTTGACAACGGGACTGTCCGCTTCAACAACGACGTCAACTGGATGAAGACCGGGATCTTGTACGCCGACCGGGTAACTACGGTCAGCCCGTCTTACGCTGAAGAAATTCAGACGCCGGAATTCGGCCAAGGCCTGGATGAAATCCTCCGCTCTGTCAACTTCAAGCTGGTCGGGATCTTGAACGGGATTGACTTTGCAAAGTACAACCCAGCCACTGACCCGGTCATCAAGGTCCGCTACGACGTCAACCACTTGAAGCACAAGCGCCGCGACAAGACTGATCTGCAAAAGCAGGTTGGCCTGCCGGTAGCGCCAACTACCCCGGTTATCGGGATGGTCAGCCGCCTGACTGCCCAAAAGGGCTGCCAGCTGCTTTTGGAAGAACTGGACAACATTCTCCAGTTTAACCTGCAGGTAGTCATCCTGGGCAGCGGGGACCAGTACTATGAACATGCCTTAAGCGACATTGCCAGCCGCTACCCGGACAAGTTCAAGCTGATCCTGGCTTTTGACGTCAACCTGGCCCAGAAGATCTATGCTGGCGCTGACGCCTTCTTGATGCCATCCGCCTTTGAACCATGCGGTTTGTCACAACTGATCAGCCTGCGCTACGGGACCCTGCCAATCGTCCACCAAATCGGCGGTTTAGCAGACACGGTCTGGGTTTACGATAAGACCAAGAACGAAGGTACCGGCTTCGGTTTCCGCGAATTCAGCGGTTACCGAATGGTTGAAGCCATTATGAAGATGCTGGAACTCTACCATGAAAAGGACAAGTGGGCCAAGGCGCAAAGAACGGCCATGCGGTCTGACTTCTCCTGGAAGAACTCAGCAAGCAAGTACCAATGGATGTACGGCGAATTACTGGGATAG
>SRR1919932_01414 glucose-1-phosphate adenylyltransferase
ATGAAAACAAGTAAGATGTGTGCAATCTTCAGCAACCAGCACGAATACAGCCGGCTGAAGCCGCTGACCGACGAAAGAGCCCTGTCAACTCTGTACTTTGCCGGCAAGTACCGTTTGATGGACTTTGCCCTCTCCAGCATCGTCAACGCTGACATCAACCACGTTTACACCTTGATCAGCCAGGAAAAGGTCCGTTCATACCTGGACCACCTGGGCGGGGGCAAAGAATGGGGGCTGGACACGATCGGTTCCTACGAATACCTGGACTTCTACCAGAACTTGATGCGGCGGCGGTCAAGAGGGGAAAACTACTTTGACGACGTGATCTTCTTCCTTAAGACCTGCAAGATGCCATACACTGTTTTCATCGGTAACAAGATGGCTGCCAACTTTGACTTAAAGGCCATCCTCCACTTCCACCAGTCAAATGACAACCGGATCACCCCGGTCTTCAAGCGGGTGGAAAAGGACAACCTGGCTCCAGATGACCACACCTTTGTCTTGAGCGACAACAATGTCGTGACTGAACAAAGAGAAGCCATTGAACTGACCAGCGAGGGTTCTTTCAACCTTTCAGCCAACGTGTACGTGATGAACACTGACTGGCTGATCCACGAACTGGAAAAGGCCCAAAAGAGCGGGGCTTCCTACGATGTTTCAGAACGGCTGGCCGCTTTGGCCGTCAAGGAAAAGGCCAAAGCCTACGAATACACTGGCTACCTGCGCAACATCCACGACATTCCCAGCTACTACCAGGCCAACCTGGACATGCTGGAAAAGGACAAGCGTGACTCCCTGCTTTACGGCAACCAGAAGATCATCACCCGGATCAGAAACGAAGTCGGCACTTACTACGATAAGGAATCTGATGTCAAGAACACCTTGATTTCCACTGGCTGCACGGTCAAAGGTGAAATCAAGAACAGCATCGTTTCCAGAAGAGTAAACTTTGCCAAGGACTCTGTTGCTAAGAACGCCGTAATCATGGCCAACTGCAAGATCAAGAGCGGGGCTGACGTTGAATACGCCATCTTAGACAAGAACGTGGTGATCGAAAAGGACGTGACCGTCAAGGGCAAGCCTGACAGCCCAGTGGTTATCAAGAAGGGCAGCGTTATCAGCAAGGACTTCGTACTGGATTAA
>SRR1919932_01415 glucose-1-phosphate adenylyltransferase
ATGAGTACAAAAATGCTAGGTTTAATTTTAGCCGGGGGCAAGGGGACCCGGCTGGGCAAACTGACCGCCAATCAAGCTAAGCCAGCCGTGCCATTCGGCGGCCGCTACCGGATCATCGACTTTCCGCTGAGCAATTGCGCCAACTCAGGCGTGCGCAATGTCGGCATCATCACCCAATACGAACCGCTGCGGCTGAACAACCACATCGGCAACGGCTCCAACTGGGGTCTGGACGGCTTGAACTCCAGCGCCACTATCCTGCAGCCATACACGGACAACGCCGGCAGCAAGTGGTTTGAAGGGACCGCCCACGCCATCTACCAAAACATCGACTACATCGACAGCCAGGACCCGGAATATGTCCTGATCCTGTCTGGTGACCACATCTACAAGATGGACTACGCCGACATGCTGGAAGAACACGAAAAGAACCACGCTTCCTTGACTGTGGCCGTGATCGACGTGCCTTGGGAAGAAGCACCCCGGTTCGGGATCATGAATACCGACTCCAGCAGCCGGATCATCGAATTTGAAGAAAAGCCAGCTGAACCAAAGAGCAACCACGCTTCAATGGGGATCTACATCTTCAACTGGAAGCGGCTGCGGGAAGTATTGACCGCGGGCTTTGCTACGGCCGACGACATGGTCGACTTCGGCAAGAACGTCATCCCCTACTACCTGAAGAGTGACGAAAGAGTCTTTGCTTACCAGTTCTCCGGCTATTGGAAGGACGTCGGCACCATCGACTCCCTCTGGCAAGCCAACATGGAATTCCTGGACGGGTCAGACGGCCTGGCTCTGGACGACCGCAGCTGGCGGATCTACTCCAAGAACACCATCGACGCGCCGCAAATGATTACGGAAAACGCGGAAGTAACTGACTCCATGATCGTTGACGGCTGCTACATTGACGGGAAGATCAAGCACTCAATCATCTCAGCCAACGTTGACGTCCAACGCGGCAGCGAGATTGTTGACTCAATCATCATGCCGGGCGCCAAGATTGGCAAGAACGTCAAGATCACCAAGGCCATCGTCGGTGAAGGTGCCGTGATCGGCAGCGACTCTGTCGTTGGTGAAGAAAATGAGGAAATTGCCGTAGTCGGCAACAAGGAAAAGATTGGAGTGTTACCAAATGAAAACAAGTAA
>SRR1919932_01416 glycogen branching enzyme
ATGGACGAGTTGGATCAACATTTACAGAACTTTGCCGCTGGTAATGAATTGTATTTGCAGAATTATCTTGGCTGTCATGCGGCTGGAAATGGCTATGCCTTTCGCGTCTGGGCACCTAAAGCACAGCAAGTCTGGCTGGTCGGCGATTTCAACAATTGGGAGAAAGACCTGCCCATGCAGCAGAATGCTTATGGGATTTGGTCTATTGAAACTGACCGCGCGCAGCCTGGCCAGCTGTACAAATTCTTAGTCAAGCAGGCTGACGGGGAAGAAGTCATGAAATTTGACCCGATGGCCCTAGAATATGAGCGCCGTCCAGGCAACGCTGCCGTGGTAAGCAACTTGCCGGAGAAGCGGTGGACTGACGGTGCCTGGCTCGGCTGGCACAAGCGGTCAAACCACTTTGCCCGCCCAATCAACATATATGAGGTGCATGCCAGCTCCTGGAAGCAGCATGAAGATGGCAGCCTCTACACTTTGCGTGACTTGCAAAAGGAACTGATTCCCTACGTTAAGGAGCAAGGCTTTAACTATATTGAGTTCATGCCTTTGACAGCCCACCCGCTGGACGCCTCCTGGGGCTACCAGACGACCGGCTACTTTGCCTTGGAGAGGGCATATGGCGAGCCGCGGGATTTGCAGGACTTCGTGGAAGCCTGCCACAAGGAAAACATCGGGGTCTTGGCTGACTGGGTACCAGGCCACTTCTGCATCAACAGCGATGCCTTGGCTTACTACGACGGGACGCCTTGCTATGAATTTGAAGAAGGCTGGCGGGCCCAAAACAAGGGCTGGGGTGCCTTGAACTTTGACTTGGGCAAGCCACAAGTGCAGTCCTTCCTCTTGTCAAGTGCCCTCTTCTGGCTGGAATACTACCACCTGGACGGGCTCAGAGTCGACGCGGTATCCAACATGCTTTACCGCGACTATGACCGGGGACCGGGTGAGTGGAAGCCTGACCAGTACGGCGGCAACCGCAATATCGAAGGGATTGAATTCCTCCACAAGTTCAACAAGACCATCAAGGAGATGCACCCGGAAAGAATCTTGATCGCGGAAGAAAGTTCCTCCCAGGTCAAGATTACCGGCCGGATTGAAGACGGAGGCCTGGGCTTTGACTACAAGTGGAATATGGGCTGGATGAATGATGAGCTCCGCTTCTATTCCATGGACCCATACTTCCGCAAAGACAACTTTGACCTGTCCACTTTCTCATTCATGTACCGGATGAGTGAAAACTTCATCTTGCCTCTGTCTCACGACGAAGTCGTCCACGGTAAGCGCAGTTTGATGAACAAGATGTTTGGCGACCGGCTTGACCAGTTCGCCCAGTTGCGGAATTTGAATACCATGCTGATGACCTACCCGGGCAAGAAATTGCTCTTCATGGGCGGGGAATTCGGCCAGTACCTGGAATGGCGTTACCAAGAAGGCTTGGAGTGGTCTTCCTTAAGTGATGAGTTAAACGCCAAAATGCTCAAGTACAACCGGGAACTGAACCACTTTTACTTAAACGAACCGGCCTTGTGGCAATTGGAACAGGAAGACAAGTCAGTGAAAATCATCGACGCGGACAACCGCGACCAGTCCGTCCTTTCCTTCATCAGGCAAGGGAAGGTGCGGCATGATTTCCTGATCGTCCTGCTCAACTTCACACCGGTTCAGCGTGACGGCTTTAAAGTCGGCGTGCCTTACCCGGGGACTTACAAGGAAGTCCTCAACAGCTCACGCAGTGAATTTGGCGGCGATTGGACCGCGAAACCACAGGAAATGGCTACCACCCAGGAGAAATTCAAGGATTTCGACTACCAGATTTCGGTTGACCTGCCAGGCTTCAGTGCCATGATCATTAAGCCTGACCAGGTAACAATCAAGAGAAAGCGTTCGAAGAAACGTTGA
>SRR1919932_01417 TPR repeat-containing protein
GTGGCATTTTTGGACAAAGATAAATTCGTTGAGATGGATAAAATCGGTGCGACCTGGCTGGACCGGGGGGCGGAAGCCTACCGGCAGGGGGACTATGAACTGGCCCTGCAGTGCTATAAAAAGGCAGCTGACTACGGCAATTCCCAGGCTATGTGCAATTTAGGCTACATCTATGCATTTGGCCGGGTTGGTGAAGCCGACCAGGAGAAGGCTTTTTACTACTTTACTCAAGCATCTTTGGCCGGCAACCCGAATGCCTTCTATAAGCTGGGGGATGCTTTCCGTTTTGGCAATTTTGTAAAGAGAAACGACGAGATTGCCTTTCAATATTACAGCATGGCGGAAAGCGTCCTGCAGGAAGGCGACGAAGACATGATTGCTGAGATCGACTACCGCCTGGCCCTTTGCTACGCCAGAGGCTGGGGGACTGACCAGCGCTGGGACCTGGCCTTGAAGTATATCAATGAGGCTCAGCTTTATGCCTACCGGAACAAGCAGCATGGCGAGTACAACTGGCAAAAGACGAGCCAGCGGATCAACAAGCTGCATGATGAGATAGTAAGCGAAATGTTTTCATAA
>SRR1919932_01418 hypothetical protein
ATGAAAGAATACTATTTAGACTATCGTGAGCAAGTGCGGAATATCTTGGATGCTTTGGACGACAGCAGTACATCCTTGCGCCTGGGAGCAGTCGCGATTGAAAACCTCTTGACCCTGGCCAGAGTTGACCTGGATGATGAAGACGAAGAAGCTTCTGATGACTCAGACGCCATTGAAGAGGCAGATAGCGGCGGGGACCTAGCAGATGCGGAAACAGAGGACAAGGAGCAAGTCAAAATCATCCGTCATGAAGAACCAACCGCCAGCATTCATTACCAGATCTCGGCTGGCAACCAGCTCTGCCGTTTTTCCCGGGCCTTGAAGGGCGGGAGTTTTTACACCGAGCAGGGGGACCTGGTCAGCGAGATCAATGAGCTGGCCGTCAAAAATCTGAACGTGGAAAACGGCGATTTAGTCGAGCTGGACCCCAGCAGCCAGCCGCCCCGGGTAGTCCGGATAGTGGAAGCCGGCAACCTGCCTTCTAATATCGCAACTATGTCATATGGGGTGGTAGAAAGGGATCCTGTCGGCGACTTGTATGTCAGCCGCAGCGCCATGGGCGAGAGCTTGAGTGAGTGCGCGGGCATTGACCGCTATGAGGTGCCGGCGATCATTGATGCTCGGCAAACCGAGACAGGTTTTGTCCATGAAGGCGACATCGTTGACTTGGCCTGGTATAAGAACAGCCCCAGCAATATGATCGTCCGCTGGGTCAGCCAGACTAAGGGAGAAGAAGCTCCAAAGAAGGAAAAGCCGGCTGAAAAGAAGGTAAAAAGCGAAAAGGAAGACAAGGATAAAGGAGAGAGCGTAACGACCTTGAATTTCGACCTGCATGGCCGCAGCGTGGCGGTGGTCATCGGCAATGAGCTCCGCAGCCAGGAGATTCAGAAGATGGTAGGTGAGCACCACGGCCGCTGCAAGGTGATTGACGCCTTCAAGTTTTCCGATACGGAATCTTTTTACAAGCACGCTCTCAAGCGGGCTGACGTAACGGTCATGGTGCAGAATTTGAATAAGCACTCAACCAGCAAGGCTCTGCGCAAGTATGCCAAGCGGCTGGCCATCGCGGATTCGGCGGGCCTGTCTTCAATTGAGCGGGCGATCTACCGGGCTATGCACGGCCTGCCGGCTTATGAGACATCTACCCAGCCGATCGCGTATCCGGTCAAGGAGCTGGCACTTAGTTAA
>SRR1919932_01419 glycerate kinase
ATGCTCAAGTTTATTACAGCCAGCGACAGTTTCAAGGAAAGCTTGTCAGCCAAAGCGGCCTGCCAGGCCATGGCAGATGGGATCAAGCGGGTCTTTCCCGAGGCCGAAGTCGTCCAGGTCCCCATGGCCGATGGGGGCGAGGGGACGGTCGATGCAATCTTGTCCTGCATCCCCGGGGAAAAAGTGGAAAAGATGGTTACCGGTCCCGATGGCAGAAGGCTCTTGGCCAGCTATGGTCTGATCAATGACGGGGAATGCGCGGTGATCGAGACGGCAGCAGCCAGCGGCCTGGGCTTGCTTGCGAAAAAGGACCTCGATCCAATGACGGCAACTACTTTTGGGATCGGGGAGCTGCTGCTTGACGCGTTGAAGCGGGGCGTTAAAAAGATTATCGTGGGCTTAGGCGGCAGCGCGACTAACGATGGCGGTGCCGGCCTGGCTCAGGCTTTAGGGGTTAGGTTTTTAGATAAAAATGGCCAAGAGCTGCCTTTTGGCGGAGGAAGTTTAGACCAATTAGCCAGAATTGATACCAGCGGCTTGGCTCCCCGCTTAAAAGAAGCAGAAATAATCCTGGCCAGTGACGTGACCAATCCTTTGACCGGACCCAATGGAGCATCTGCGGTTTTCGGCCCGCAAAAAGGGGCGGACAAGGAGATGGTCCAGAAGCTTGACGCTAGCCTTCACCATTATGCGGCCGTGATCAAGGAGCAAGTTGGAAAAGACGTAGAGAACGTTCCTGGCAGCGGGGCGGCTGGCGGCCTGGGAGCGGGCTTTTTGGCCTTCAGCAATTGCCAGATGCAGGCGGGCGCCCAGATCGTGATCGAGGAGAGCCATTTGGCGGAAAAGATGCGGGATGCTGACTATGTCTTTACGGGCGAAGGCGGGATTGACTTCCAGACTAAATTCGGCAAGACACCCTATGCCGTGGCCCAAGTTGCCAAAAAGCTTGGCATACCGGTTTTTGCCCTGGCTGGCCAGGTCGGAGATGGAATTGACAGCTTATATGAAGCAGGCTTTACGGGGATTTTTGGCATCCTGCCAGGCATCTGCAGCTTGCCGGAAGCTTTAGCAGACGGAGGAGATAATTTAGCCCGGACCAGTGAAAACGTAGCCCGGGTGGTTAAGGCCGCCAGAGTAAATTTACAGTAA
>SRR1919932_01420 tyrosine recombinase XerS
ATGGAAACCAAGAAATACCTCTCCCTCATCGACCGGGAAATGGCCCAGATGCCGGACTTTGTCAAGGAATACCAGCTGGAAACAAGGCACTCTCTGACTACCAGCTACCAGTACTTAACGGAAATCCGCCGCTTTTTCTCCTGGCTGATCGCTGAAAATTTGACCCAGGCGAAAAGTCCCAGCCAAGTGCTGCCAAGCGACCTGGAAAAATTGAGCCGGAGCGATGTCATGCTCTACCTGGATAAACTGGAGCACAGCAGGAACAAGCAGGGACACCTCAACTCCCCGACGACCGTCAACCGGTCGCTCAACGCCCTGCGCTCCTTGTACAAGTACTTGACGATCACGGCTGACAAGAACAATGGCGAGCCTTATTTTGACCGCAATGTCATGCTCAAGATCAATTCCCTTCCTTATACAAGCACCTTGAACTACCGGGCTCATGCCTTAGAAGCTCACATGTACACCGGCAACTTGAAATACCAGTTCATGGACTTTTTGGACCAAAAATTTGCCGGCCTCTGCAGTGGACGCGCCCTTTCTTCTTTTAAGCAAAACAAGGAACGGGACATGGCAGTCATCGCTTTGATCTTAGGCACGGGAATCCGGGTTTCTGAATGCGCCGGGGTTGACATGAAGGACCTCAACTTAAAAGAGGCAACTTTAGATATCACCCGGAAGGGCGGACAGAGAGACTCAGTGCCAGTTGCTGACTGGACCCTCCCCTACCTGGAAAAGTACCTGGCAATCCGGGCAGACCGCTACAAGGCCCCAGCCACTAACAAGGCCTTTTTCTTAACCAGCTACCACCAGGAATGCCGGCGGATGACGACCAATGCCATCGAAAAAATGGTTGGCAAGTATTCTGCTGCCTTCGGCCACCCTCTCACCCCCCACAAGCTCCGCCACACGGTCGCTTCTGAACTCTATCAGGCGACCAAGGACCAGGTCATGGTCGCCCAGCAACTGGGGCAAAAAGGCACCTCAGCCACCGACCTATACACCCACGTTGACCAAAGAGAGCAACGGGCCGCCCTCAATGCCAGCGCCAAACAAAATAAGTCCTCCTCTGATTAG
>SRR1919932_01421 dihydroorotase
ATGACCATTTTGCTGAAAAACGGCCTGGTTTACCAGGAAGGCGAATTCATCAACGAAGACGTCTTGATCTCCGGCAGCAAGATCCAGGCCATCGGCCTGGATCTGCCAGAAGAGGGTGCTGAAGTCTACGACTTAAAGGGCAAGCTCCTGGCACCTGGCTTAGTGGACATCCACGAACACTACAGAGAGCCGGGCTTTACCTACAAGGAAACCATCAAGACGGGGTCTGAAGCAGCGTCCCGGGGCGGTTTCACCACGGTCTGCACCATGCCTAATGTTGACCCGGTCCCAGATGACCTGGAAACTTTTGAAAAGCAGGTTGCTTTAAATGAAGCCAACAGCTGCGTCCACCTCAAGCAATACGGGGCTATTACTGAAGACCTGACCAGTGACCAGGTGGTTGACATGGCGGCCTTGAAAGAAGCGGGGGCTTTTGCCTTCAGCAATGACGGCCACGGCATCCAGCAAGCCGGCACTATGTATGAAGCTATGCAGGAAGCTGCTAAGGTAGGCCTGGCCATCTGTGAGCACATCCAGGATGACTCTCTTTACCATCATGGGGTGATGAATGCCGGCGAGAAGGCGGAAGAACTCGGCCTGCCAGGCATCCTGGGGGTCAGTGAATCTGCACAATTGGCCAGAGACCTGGTTTTGGCGCAGGCTACCGGGGTTCACTACCATGCCTGCCACGTTTCTACCAAGGAAAGCGTAGAACTGATCCGGATCGCCAAGGAATACGGAATCAATGTAACCGCCGAAGCCGCACCTCACCACCTGCTTTTGAGCGAAGAAGAGATTGACGGCAACAACGGTTACTACAAGATGAACCCGCCGCTTAGATCAAAGGAAGACCAGTTTGCCTTGATTGAAGGGATCCTGGACGGGACGATCGACTTGATCGCGACTGACCATGCTCCGCACAGCCGGGAAGAAAAGGCCGGTGATATGCGGAAGGCTGCTTTTGGGATCATTGGCAATGAAACTGCTTTTGCCAGCCTTTACACCAAGTTCGTCAAGAGCGGGCAAATGGACCTGAGCCTGCTTTTGGACCTCATGAGCTACCAGCCAGCCAAGCTCTTTGGCCTGGACGCTGGTGTCCTGGCTCCAGGCAAGGAAGCCGACCTGGCCGTCTTTGACCTGGACCACGCCGAAAAACTGGCCGAAGAAGACTACTTGTCCAAGGGGGTTAACACACCTTTCACCGGCCAGGAAGTCTACGGCATGACCGCCTTGACTTTTGTCAGCGGCAAGCTGGTTTACAAGAGCAAGCACTTTGCCGACTAG
>SRR1919932_01422 aspartate carbamoyltransferase
ATGACCACTGTTAGCCAAAACCAAGTCGTTGTCGAAACTGAAGACGAGCAAGACAACTTGCTCCGTCTGCCTTACTTTGTCAGCGTTGAACAACTGAGCGCCGACGACGTGCTGCACCTGCTGCAAAGAGCCCAATACTTCAAGAACGGCGGGGAAGTACCAGCCTTGAGCCGGCCAATCTTCTGCACCAACATGTTCTTTGAAAACTCAACCCGGACCCACACCAGCTTTGAAGTTGCTGAAAGAAGACTGGGCTTGACTGTAATCCCATTTGACCCATCCCACTCTTCAGTCAACAAGGGGGAAAACCTCTACGACACTGAACTGACCATGGCATCTCTAGGCATCGAAATCAGCGTGATCAGACACCCGGAAAACGCCTACTACAACGAAATCATCCGTTCAAAGGAAGGCCAGCACCTGCAAATGGGCCTGGTTAACGCTGGTGACGGTTCCGGCCAGCACCCATCCCAAAGCATGCTGGACATGATGACCATCTACAACGAATTCGGCCACTTCGACGGCTTGAAGATCATGATCGTCGGTGACTTGACCAGCTCCCGGGTTGCCCGGTCAAACATGGAAATCTTGAACACCCTGGGCGCGGAAGTCTACTTCTCAGGTCCGGAATACTGGTACGACGCTGAAGAATTCAGCAAGTACGGCACTTATGTCAAGAACATTGACGATGAAATCCCAGAACTGGACGTCTTGATGCTGCTCAGAGTTCAGCACGAACGCCACAACGGGGCAGAAGCCAAGACTGAACAGCTCTTTGATGCCAAGGACTACAATGCTGCCTACGGTCTTAACCAACGCCGCTACGACATGCTTAAGGATGACGCCATCATCATGCACCCGGGCCCAATCAACCGCGGGGTTGAATGGGACGGTGACCTGGTTGAAGCACCTAAGTCCCGCTACGCTGTCCAAATGCACAACGGGGTCTTTGTCAGAATGGCCATGATCGAAGCCGTTCTGCGCGGCCGTAAGTTGGGAGGCCTTGAATAA
>SRR1919932_01423 nitroreductase
ATGAAGTTTACGAAATTGTTGAAATCACGTAAGTCAATCCGGACTTATACTGGCAAGCCGGCTGACAAGAAGCAGGTCAAGAAGATCATCGAAGCAGCTGAACTGGCTCCAGTAGCCCGCGGCTTATACGAGAACTACCAGCTGACGATCATTAATGACCCAAAGCTTTTAAAGGAGATCGACCAGGAAGCAGCCATGATGTTTGGCGATCTGGAATCACATCCCTTGTACGGTGTGCCGACCTTGATTTTGGTCTCTGCCAAGAAGCAGGACGAGATGGCCTATGCCAGTGCCGGGATTATTGCCCACAACATGGTTCTGGCTGCTGAAAACAAGGGCCTGGGGGCTTGCTACCTCTTTGGCGCGGCAGCTGCTCTGGCCACTCACCCAGAAACAGTTATGAAGCTGGACCTGCCAGCCGGCTTCATGCCGGTCTGCGGGGTTGGTATCGGCGAAACTGAAGAAGAACTGACCATCCGCGACCAGAAGCTGGATCGAATCGGCATCAACGAAATTTAA
>SRR1919932_01424 ABC transporter permease protein
TTGAAAAAGTCCAACATTATTGTTGAGGAAATAATCAGAGAGCTGTCGACCATCAAGGTGCTCGGCTTCTTTGACCAGGAAACCACCCTCTACATTTACCGGGAAACGATTATCCTCTCCATTATCGGCATCCTCTGCGGCTACCTGGCCGGGATCGGCCTGCACACCTTCATCATCACCAGTCTGCCGCCAGACAACGCCAGGTTTGACCCGGCGATGAAGATCAGCAACTTCCTCTATTCAGCCTTAATTCCAGCCGTGATCACTGCTTTAGTCGCCTTGATCATGCACAAGAAGATCAAGTCCGTCAACATGCTGGATGCTTTAAAGTCCGTCGATTAA
>SRR1919932_01425 phosphoglycerate mutase
ATGACCACATTCTACTTTATCCGGCACGGGCAAACCTTTGCCAACAAGGCGGGCTTGAAGCAGGGGACCATCAATACCCCCAACACCTACTTGACCGACCTGGGCAAGGAGCAGGCGCAAAAACTGGCTGACCAGTTCGACATCAGCAATTTCGACCGCCTTTTCGTTTCCCCCTTGGTCAGAACCAAGCAGACAGCCGAGATTTTGAACAAGAAGGCCGGCCTGCCGGTTGAAACGGACGACCGCCTGCTGGAGATTTCCTACGGGGACTGGGATGGGCAAAAGAACAGCGAATTGATGGCTGAATACCCGAATTACTTTTCTCCCCTGGTCAATGACGTGACGGAAGACTACGTGCAGGCAGCCCCAAAGGCGGAATGCTTTGCCCATGTGGAAATGCGGACCGCTGAATTCGTGGAGGAAATCAGCCAAAAGTATCCAGAAGACCAGATCGTGGTAGTGACCCACGGCTTCACGGTCAGATCTTTTGCCATTAATGCCACGGGTGGCCAGGGCCTGCAGATCCTGGAACCAGACAACTGCTCCGTCACCAAGATCCTCGTTGACCCCCTGTCATTTAAGCAGCACCTGGTCTACTACAACCGGACAGTGACTGCTTTTTAG
>SRR1919932_01426 phosphoserine aminotransferase
ATGACATGCTACAACTTCGCGGCTGGTCCAGCCATGCTGCCGGTCGAAGTCATTGCCCAAATCAAACAAGACTTGCCAGATTATGCCCACAGCGGCATGAGCGTCATGGAAATCTCCCACCGGTCAGCCCTTTACAAGGAGCTCTACGCGGAAACCAAGGCCAACCTCTTGGAACTTATGAAGCTGGACCAGGCAGAATACGACGTCCTCTTCTTGACCGGCGGGGCAACCCAGCAATTCACCACAATTCCTTTGAACCTGGCCCGCAAGTACCACCGGATTGCGGTCGTGGACAGTGGTCACTGGGCCCAAAGAGCAGCAGAAGACGCGGCTAAAGTACCAGGCCTAACCGTTGACATCATCGCTAGCTCCAAGGACAACAATTACACTGCTGTTCCGGAAATCCCGACTGAATTTGATCAAGACTACGACTACCTCCACATCACGACCAACAACACTATTATGGGGACGGCCTACAGAGACGACCAAATTCCTAAGACCGACATCCCTATGGTAGCTGACATGTCCTCCAATTTTCTGGGCCAGGAATACGACTACAGCAAATTCGCTGTTATCTACGCCGGAGCGCAGAAGAACCTGGCCCCTGCCGGCTTGACCGTTTTGGTCATCAGAAAGGACCTGTTGGTCAAGCATGATGACCTGCCTGGCCTCTTTGACTTTGCTACTGAAGCCAAGAAGAAATCAGCCTTGAACACCCCGCCAGTCTTCCAGGTTTACGTGGCTGGCCTGGCCCTTAAGTGGCTTAAGGAAAAAGGCGGCGTGGCCGGTATTGAAGCCATCAACCAAGAAAAGGCCAAGCTCCTTTATGACTGCCTGGCTGAATCCAAGAATTTTGAGAGCAAGGTTGATCCAGACAGCCAGTCAATTATGAACGTGCCTTTTGTCAGCGGCGACCCGGACCTGGACGCGGAGTTTGTCAAAGAGGCAACCGCCCACCAGCTGCTTAACTTGAAAGGCCACCGCCTGGTTGGCGGGATGCGGGCAAGCATCTACAACGCCATGCCGCTGGAAGGGGTTCAGGCCCTCTGTGACTTTATTAAGGATTTTGACGCCAAGCACTAA
>SRR1919932_01427 D-3-phosphoglycerate dehydrogenase
ATGTACCAAATTAAAACTTACAATGCCATTGCTAAAGAAGGCTTAGCCGAATTTGGCGACAACTACCGGATTAACCAAACTGACAATCCAGATGCCTACCTGATCAGATCAGTTGACCTCCATGACCATGAATTTCCCGAGAATTTGAAGGCCATCGCCCGCTGCGGGGCCGGCTACAATAACGTGCCTTTGGACAAGGCCCTGGAAAATGGGACTGTGGTCTTCAACACTCCAGGCGGCAACGCCAATGCCGTTAAGGAATTGGTACTGGCTTCTATGATCATCGCCAGCCGGAACATCGTGGCTGCCGCCAACTGGTCAGCTAACGCCAAGCCGGGCGCGGACATCACCCTGCGGACGGAAAAGGAAAAGACCAGCTTCAACGGAACGGAATTGCTGGGCAAGACGGTGGCCGTGATTGGTTTAGGCCACATCGGCTCACTGGTAGCCAATGCCTGCCTTGATTTGGGGATGAAGGTTGTCGGCTATGACCCATACTTGACGGTTGAAGCCGCATGGCGCTTGTCAGACCATATCAAGCGGGCCACCAGCATCGCTGACGCCGTTAAGGACGCGGACTTTGTGACCGTCCACGTGCCAAAGAACGAGGAGACGACCGGTTTGATTGCTGACGCCAAGATCGCGCAGATGAAGCCAAACACTATCTTGCTCAATTTTGCCCGCCTGGGGATCGTTGACAACAAGGCTGTCGTTGAAGCCTTGGCAGAACACCGTTTGGGCAAGTACTACACCGACTTCAGTGATGCCACGATTTTGCACAACGATGACATCGTCATCATGCCCCACATCGGCGGATCAACGATTGAAGCGGAAATCAACTGTGCCCGGATGGCGGCAAAGCAAACCATCGAATTTTTGGAAACTGGGAACATTATCAACTCGGTCAACCTGCCGAACGTGTCAGCACCGTTTGAAAGCGACCACCGGATCACTTTGATTCACAAGAACATTCCAAACATGATCGGGCAGATCTCAACCTACCTGGCTGGCCGTGGCATCAACATTGAAAACTTGGTCAACAAGGCCAAGGACAAGTACGCCTACACCATGATCGACATCGATGAGATCGACCAGGCGACCCAAGACGAGGTGGTGCTCAACCTGGAACAGATCCCGGCTGTTACCCGCGTCAGAATCTTGACTCACAAGAAATAG
>SRR1919932_01428 drug/metabolite transporter permease
ATGAAATCAAACAGCAAGTGGGCCGGCCTGGCAGCTGCTGCCTGCATCCTATGGGGTATTTCTGGCCTCTTTGCCAAGGGCCTCTTTAACTTGGACCCCCGCATCACGCCGATTTGGGTTACGCAAATGCGGCAGGTTTGCTCAGGCTTGATCCTGGTAACTGTGGCCCAGCTGACGGGCAAGCATCCCTGGCAGGTATGGAAAGACAAGAAGAGCGCGGTTCAGCTTCTGGCATATGCAGTTATCGGTGTTCTGCCCTTCCAGTACTGCTTCTTTTTGGTAGTAGCCCAGGCTAACGCGGCAATCGCGACGGTCATTCAGTTTATCGGTCCCTTCTTTGTTTTGGCCTATCTGACTTTGACTAAGCAAGAGGCTCTGCGGCCGTTTGATGTCGCGGCCAGCCTGCTTGCTTTTGGCGGAGTCTTTCTCCTGTCAACGCATGGCAATATCCATGACCTTAGGATCGCGCCTCTTACCCTTCTTTTTGGCATTATGTCAGCGGTTGGGGCAGCGGCCAACAGCTTGCTTCCCCAAGCCCTGGTGACCAGGCAGTCCACTATTTCAGTTACTGGCTGGGGCCTGCTTATCTCCGGTTTGATTTTGACGGCAATTCATCCAGTCTGGCCCAGCCTGCCGAGTTCACCGACCGTCTATCTCAACCTGTCAGTCGTCATCGTTATGGGCACGATCATCCCGACGCTTTGGCAAAACCATGCTTTAGGCCATATTTCGGGGATGACGGTCGCCTTTATGGATGCCTTTGAACCGCTGGCCTCCATGATTGGCTCCATCATCGTCTTTCACTTTCATCCGCAAATGATGGATTACGCGGCATCTGTGATGATTATTTTTGCCGTTCTCGCCCTCAATTGGACCCCGCGGAGCAAAATCAAGGCCCGAGTTGAAAAATAA
>SRR1919932_01429 hypothetical protein
ATGAGAATCAAAAAGTGGGCCGTTATGGCCCTTTTTTGCGGTATTTTTTTGACGGGCTGCAGCAAGCAGACCGCTTCAAAAGAGGCAAGCAATAGTTCAAATAAAAGCAGTCAGAGCAGCAAGTCTAGCGTTAAAAAGACCAGCAAAGCTTCGTCAAGTTCAGCTAAAGCAGTAAAACTTGATGCGGCAAAACTGACGCCGCAGGAAAGCGGCAGCTTGATTACGCTCTACTGTGCTGACCGCTTTGGCGGAGAATGGTCTAATTTGCTTCAAGCAGGGCAGAATGGCTCTTTGACTATTACCCTGCACAAGACCAGCGACTACGAATTTAAGCAGCCGGGCAGCGGCTATGCTTATGAAGCCGCGGCGTCCGGACAAACAGGGACGACCTATTATACTCTTAGCGGAAGCACTTTTTACTTCTACCAAGGAGTAAAAGTAGCAGGCAGTGGCAGCTTTTTGGGCCAGGCAACTAAGCAGGAAATGGCTGACTATATCGTTAAAAAAGGCCAGCTGGCTGAATTCAAGCAGCTGGCCAAGAAGGTCGAGATCGTGGATAAATCTGGACAAACTCAGCGCCTGTCTGAAGGGCGGAGCGGCTACTTTACCATCCCCGCGGAAATGCAGGGAACCTGGTATTCTGCAAGCAACTATGATGGTGAGACAACGCATTCTAAGTACGTCTTTGGCCAAAGTACAATTTTTATTCAAGACGACAAGTACAATACAAAGGGAACCACAACTACCCTGTACACTAGGTCGAGTGATTTCAAAATGCCGTTACCGCCAACCGAAAAACAAATGGATCAGGTAAAAGGCTGGGGCTTGGGACACCTGTACCAGCAGGACGGTTTAAACTACATGAATGTCATGGGTTGGTACCAAACTGCCGGAAGTGGTACATCTTTTGCCGTTCATACTGAAAATATCGCTGGCAATAATGTGCAAATATTGGTTTGTGCTAGTGGTGCCCGTCCTTGGGTCGATGGAATTGCCTACCGCAGCCAGGCAATGGCTGAAAAGATGCAGGACCAGCATTTTGATGATCTGCACTATCGTGATGATGAGTAA
>SRR1919932_01430 DegV family protein
ATGAAGATCGCATTAGTTACCGACAGTACGGCCAATTTGTCCGCAGCCGAAATTGAAAAGTATAATATCAAGGTCATTCCTATTCCGATTTACATCGATGACAAGGAATACCTGGAAGGAATCAACATCACTTCTGAAGAGCTTTTTGAATCGCAGCGGAGTGGCTCCAGCTTCCCGACCACTTCCCAGCCGAAGATGGGGGACCTCATCACGACTTTTGACAACTTCAAGGATGAGGGTTACGACGCGATCATCTACATTTGCCTCTCCAGCGGGATTTCAGGTTCCTACAGCACCTTGATGGGGATCGCGCAAAGCAACCCGGACTACCACCTGTACCCGTTTGACTCACAAATTACTGTTCGCCTGCAGGGTTACCAAGTTCTGGCAGCAGCTAAGATGATCGAAAAGGATAGCTACAGTCCGGAAGAGATCATCGCCAAGCTGGCTGAAATCAGGTCAACTGTCGACGAACTCTTTATCGTTGATGACTTGAACAACTTGTGCCGGGGCGGCCGTTTGAGCAATGCCAGCGCCTTTATCGGGTCACTCTTGAACATCAAGCCTTTGCTGACTTTCAACGATGAAGCTAAGATCGTGGCTTACGACAAGGTGCGGTCAATGAAGCGGGCAGTTAAGAAGATCGAACAAGAAGCCCTGGAAAAGATCAAGTCATTGGACATCCCAGAAGACAAGCTGCGGATCTTGATCATTCAGTCAAATGACGCCGCGCAAGCTGAAGAAGTCATGAACTACCTCAAGGCTGAAGTGCCAAAGGCTGTCTTTGAAATGGACGAATTTAGCCCGGTTATCGCGACTTACCTGGGCGAAAAGTCAATCGGCATCACTTGGATGATTGACGTTGAACAGATGGAATTCTAG
>SRR1919932_01431 GntR family transcriptional regulator
GTGGACTTTATTGACTATTTGGACAGCCGGCCGATTTACCAGCAGATCGCGGACAGGTACAAGCAGCTGATTCTGACCGGAGTCATGCTGCCAGATGAGCAGCTGCCGTCTGTGCGGAAGTTGGCCATGGAATTGTCGACTAACCCTAATACAGTGCAGAAGGCATACGCCGCGCTGGAACGGGAGGGATACGTTTACAGCGTCAAGGGCCGGGGGAATTTCGTCCGGGCCAATGAAACGCTGAAGAGCAAGCAAAAAGAAGAGCTGAAAGGGAAAATGATTGATTTAATTAAGGAGATTCAAGCAGTAGGCCTGGATCCACAGGAATTATTTGCTGAGGCCATGGAGGAGGCGGCAGAAGATGATCGAGATTGA
>SRR1919932_01432 ABC transporter ATP-binding protein
ATGATCGAGATTGATGCACTAAGCAAGGATTATGGGCAGACAGAGGCCATTAAGAACCTTAACCTGACCATTGAAGAAGACCGGGTCTTTGGCTTGATCGGGACCAACGGGGCCGGCAAGAGCACCCTCTTGCGGATGATCGCCGGCATCCTGCGGCCGACTTCTGGGCATATCACTATTGATGGCTTGCCAGTTTATGACAATCCAGCCGCAAAGAAAAAGTTTTGCTTCATTCCAGATGACCCCTACTTCTTCCCAAATGCCACAGCGGAGTCTATGGCCAGGGATTACGCGGCGGTTTACCAGGACTTTGACCAAGAACGTTTTGCCAGGCTGCTGGCGGACTTTCGCTTAGAGCCAAAGCGCCGCATACACGACTATTCTAAGGGCATGAAGCGGCAATTGGCGATCCTGCTAGGATTATGTACTAACACCAAGTACCTGCTCTTAGACGAAGTTTTTGACGGCTTAGACCCGGTTATGCGGCAGAGCATGAAGAGCCTTTTTGCCGAAGACATGGACCGGCGGCAATTGACTCCAATCATTGCCTCTCACAACTTGCGGGAATTGGAAGATATTTGTGACCACATCGGTTTCCTGCACAGCGGCGGTCTGCTTTTATCAGAAGACTTGGTCGACATGAAACTGGAAATCCAGAAGCTGCAGTGCGTCTTTAAGGAAGACCGGGACATGGAGGAAGTCCTGGGCAAGCTGAAGCTGGTTGACCACAGCAGCCGGGGCCGCCTGCACACTTTGGTCGTGCGGGGGAGCCGGAGCGAAGTCGAGGCGGTCTTTGACCATGTGCCGATGACCTTCTTCGAAATCCTGCCGTTGACCTTGGAAGAAATCTTTATTGCAGAAGCGGAGGCAGTTGGCTATGACACGCGCAAACTTATCCTTAAATAA
>SRR1919932_01433 membrane protein
ATGACACGCGCAAACTTATCCTTAAATAAACACGGTCTGCCGCAAAAAGAAATCCTGCGGCACCGGAAAGTACCTGTAGTCTTGGCGATCTTGGTCATGGCCATGTTCTATATCGTTGGGCCGATTCTGGTTTTGATCAGCAACAAAGATGTTGAGACGGCTTCCTTGCTGCATGACGCCCGGACATATTATATTTTTCAAAATACGAGCATGTCGGCTGCGATGGCCGGGATCTTCGGCATCTACCTGGCCTTTGAAGGCTTTCGCTTCTTGCACGTGCCGCGGCAAGTGGACTATTACGAGAGCCAGCCGGTCAGCCGCAAGACCCGCTTCATCGGAATTACGGTCAACAGCTTGCTTATTTATAGCTTGCTTTACTTGCTCTTTTTCCTGGCCGGAATGCTGATCTTGGCTGCAGGTGGGGCTAATTTCCTGGCTGACGGTGAGGTCTGGCGGGGCTTTCTGGCTGACCTCTTTGCCTTTTCAGCCTGGTACGCTATCGCCTCTTTGAGCATGATGATCACAGGTAATACCTTTGTGGCTGGCTTAGCCACGATCTTTTTCTCCTGCTTTGAATTTGGCTTGATTTTTCTGAATTCAATCTTCTATTCCACCTTGGCAACTACGGCTGGCTATGACAATCATGATTGGCTGGCATACACCAATCCTTCAACTCAGGTTTATAACTCAAATCACTGGCTGGGGATCGGGATTAACCTGCTTTGGACCGTCCTTTACCTGGCCTTAGCCTACTGGGCTTACCAGAAACGGGCTAATGAAAAGGCAGGCAGAGCTGTGGCTTTTGCCCGGATTGAACAGGTGGTTAAGATCATCGTGGTTGTCTACTTCGCGGCAATTGGCGGGATCATTGGCTACACGATGATCGGCTTAAACTTTGCTTGCGGCATTATTGGTGCCCTGATCATTGGTTTAATAACTGCCAGCTTGATGGAAATCATCTACAAGTTTGACCTGGCTGCCTGGAAGCATAATTTTGTCCAGAGCTTGCTGTTAACCGTGGCGGGTTTAGCAATTTTGGCCGGCATGGTTTGGGGGGCCAAGCGCTATGATGATTGGCTGCCTGCAAGCAAGCAAGTAGCCAGTGTGGCAATTTCGCGGGATGACGGCATCTATACCAACTATTACATGGGTAAAAAATCAGCTAAAGGTGACGCCAGCGATTATGCCGCGAAATACATGTATTTGCCGGTAAACAGTGACCTCATAAATCTGGTTAAAGCCGGCAGCAAATTTACTCAGAACCGGTCCCATGAACGGGAAGATTCAGTCCAGATGCGCTTCGTCTTCAGAATGAAGAATGGCCGCGTCAAGACCAGGGTCTATGATGTGGATAGAAAGACGCTGAAGAAATACTTTGAACCAATCAGCAAGACCAAGGCTTACAAGCAGGCTTACTTCCAGATCTACCACGACCAGATGATTATGGACAATCTGGATAGCGTGTCCTTTACCTACACAAATGGCAAGGAAACGATCAAGCGCCAGGACAGCCAGCTTTACAAGGACTTCCGGGCAGCCTACAAGCAAGACTTAGCCAAGTGGGACTACCAGCAGGCCAGCCTGCAGAAGCCGATTGGCCAAGTCGCGGTTTCCTGGACGCGGGCAAATGGCAAGCGGGCTAAGATCTACTATCCGGTTTACAGCAACTACAGTCAGACAATTGCTTTCTTAAAGAAAAACAAATTGTATTCCGCAAAGAAAGTTAAATTGGAGTATCAACAGCCCTTAGATTTTTATCTTGAAGATCAATTCGGTTAA
>SRR1919932_01434 amino acid permease
ATGGCGAAAAGACACGAAAACGCGGACGGAACGCTCCGGTCCTTATCGAACCGGCATGTCCAGATGATTGCCATCGGGGGCACGATCGGGACTGGTCTCTTCTTAGGGGCCGGCAGCACGATCTCGGCCACCGGACCGTCAGTCATTTTGATTTATGCATTCATGGGGGTCTTTTTCTTCTTCATGCTGCGGGCATTGGGAGAAATGTTTTACTCAGACCCCAACCACCATACCTTCGTCTCATTTATTACTAAATACCTGGGGCCAGCAGCCGGCAACTTCGCCGGCTGGTCCTACTGGATCGGCCTGCTCTTTGCCTGTATGGCTGAACTTACAGCGGTCGGGACCTACTTCCAGTACTGGTTCCCGCACGCGCCTCTTTGGCTGGTTGAGCTGATCTTCCTAGGAGCCTTGACCCTGATGAACTTGACGGCAGCCCGCCTCTTTGGGGAAACGGAATTCTGGTTTGCCATGATCAAGATCATCGCTATTATCTCCATGATCTTGACCGGGGTCTTCCTGGTGGCAACCCATGTTAAAACCCCGGTTGGCTATGCTTCTTTAACCAGCCTGACCAAGAACTTCAAGCTGGCGCCAAATGGCACTTACGCCTTCTTTACCGCCTTCCCGATGGTCTTCTTCTCCTTTGCCGGGATTGAATTCGTGACTATCACGATCGGGGAAGCTGAAGATCCCCACCAGGTGATCAAAAAGGCGGTCAACGAGACCTTGTTGAGAATCTTGATCTTCTACATCGGGACTTTGACCGTGATCATGTGCGTGGTTCCCTGGCGGTCAGTGTCTGCCTCAAGCAGTCCTTTCGTCCAGGTCTTCCAGTTAGCCGGCTTCACTACCGCGGCTTCAGTTCTGAACTTCGTGGTTTTGACCAGCGCGGCTTCAGCCTTGAACTCAACCATCTTCTCAGCTGGCCGGCACTTCTTCCAATTAGCGCAAGAAGCTAAAAAGGGAAGCTGGCTGAAAGAAAAATTTGCCAAGATTGCGCCAAACGGGGTACCGGCAAGAGGGATCGCGATCTCAGTTTTATTCGCCCTGATCGCGCCAATTCTCAGCTTCTCTAACACGGCAATTGAGGCTTTCAGCATGGTCGCCGGGGCCACCAGTGACATCTTAATCCTGGTTTACGTCCTGGCCCTGCTGGCTCACCGGAAGTACCGCAAGTCCAGTGACTTTATGGAAGATGGCTTCAAGATGCCTTTTTACCAGGTAACCAGTCCATTGACGATTGCCTTCTTCCTGGTCATCTTCTTCAGCCTCTTCTTCGTTAAGGCGGACATCTTTGGGGCCAGCCTGGCCACGGCCTGGGCCGTCTTCTTTGGGAGTTTCTGTTACTTCCACCAGCGGGTTAAGGACAAGCGGGCCGGAAAATAA
>SRR1919932_01435 S-adenosyl-l-methionine hydroxide adenosyltransferase family protein
ATGGCATATAATAAGATGTTGGTTCTGCAGACAGACTTTGGTTTAGTAGATGGGGCGGTCAGCGCCATGCACGGGGTGGCCCACACGGTTGCCAGTGACATCCAGGTCTCTGACTTAACTCATGAAATCCCACCTTACGACATTTGGAACGCCTCTTACCGGCTTTACCAAACCATCAAGTACTGGCCAGCAGACACGGTCTTCGTCTCTGTCGTTGACCCAGGCGTTGGCTCAGCCCGCCGGTCAATCGCCGTCAAGACCAATTCCGGTCACTACGTCATCACCCCAGACAACGGGACTTTGACCCATATCTACAAGTATGAAGGGGTTGAAGCCGTCCGGGTGATCGATGAAAACAAGAACCGCCTGCCGCACTCCCAGGAAAGCAACACCTTCCATGGTCGGGACGTTTACGCTTATAACGGGGCCATGCTGGCCAGCGGGCAGGTTGCTTTTGAAGAATTAGGCGAAGATGTCCCAGTTGACAGCCTGGTGACTCTGCCGGTGATCGAGCCCCGCCTGCAAGGCAACACGGCCGTCGGCACCATCGACGTTTTGGACGTCCGCTTTGGTTCTTTATGGACCAACATTCCGCTGGAAATGGTCAAAGAGCTGTCCATCGACCGGGGCGACAGCCTGCTGGTCACCATCTTGCATCAGAACGTGGCCGTCTACCAGGAACACATCCCTTTCGTGCGGTCATTCGCGGAAGTCAACCTGGGCCAGCCACTCGTCTACATCAACTCCCTGGTCAACATCGGGATTGCCCTCAACCAGGAATCCTTCGCCGCTGTCCACCACATCGGCACCGGGACCGATTGGCAGGTCAAGATCAGCAAGGTTAACAAGTAA
>SRR1919932_01436 membrane protein
ATGAATAAGTATATGTGGAAGTTAAGCCCTAAGAACATCGCTGCCTTGGGGATCGGGTCAGCCGTTTTCGTGATTGTCGGCCGTTTTGCCTCAATCCCAAGCGGTCTGCCAAACACCAACTTTGAACTGGTTTACGCCTTCCTGGCCATGATTGCCATGATCTACGGGCCAACTGTCGGCTTCGGGGTCGGCTTCATCGGCCACGTCCTCTTGGACTTGATGATGTACGGGCAGACCTGGTGGAACTGGAACTTCGCGGCCGGCTTCCTGGGCTTCTTCATCGGCCTCTACGCTTTGCGCGTCAACATAGACCAAGGTGAATTCAGCGCTAAGGAAATGGTGATCTTTAATGTGGTGCAGGTCGTGGCCAACGCTATTGTCTGGTTCCTCTTGGGGGCCGTGGGCGACATGGTCTTGAACAGCGAACCAGCGGCTAAGGTCTTTGCCCAAGCCGGCCTGACTACCTTGATGGATGGTTTGACCATCGCGGTTTTGGGTACCATCCTGCTCAAGCTTTACGCCGGCAGCCGGGTCAAGAAGGGCAGTTTGCATAAGGATTAA
>SRR1919932_01437 energy-coupling factor transporter ATP-binding protein
ATGACAAGTCTGATTCAGTTTAGAGATTTTTCTTTTCAGTACGACAGCCAGCAGGAGCCAACCCTCCACAATATCAATTTGACGATTGAGCAGGGGGAAAAAGTATTGCTGGCCGGGCCCTCAGGGTCTGGCAAGTCAACCCTGGGCAAGTGCTTGAACGGATTGATTCCCAACCTGGATAAAGGGACGATCACAGGCCAGTGCTTGATTGATGGCAAGGACATCAGTCAGACTGGCCTGTTTGACTTATCTTTTACCACTTCAACCATTCTCCAGGATACGGATGCCCAGTTTATCGGCCTGACGGTCGGGGAAGACATCGCTTTTTCCCTGGAAAATGACTGCGTGCCCCAGGACAAAATGAAGCAGGTGGTAGACCGCTGGGCCAAGGAGCTGGATTTGGGCGATTTGCTCAAGCAGGCTCCCCAGAGCTTGTCGGGTGGACAGAAGCAGCGGGTGGCCCTGGCTGGGGTCTTGGTTGACGAGTCCCCGATCCTGCTCTTTGACGAACCCCTGGCCAACCTGGACCCGGCCTCTGGCTACAAGACCATGCGCCTCATCGACCAGATGCAGAAGAAGTTCAGGGCCACGGTCATCATCATCGAGCACCGCCTGGAAGAAGTCCTGGCTGAGGAAGTAGACCGGATCGTCCTGGTTGATGATGGCCGGATTTTAGCTGACCAAAAGCCGGATGACCTGCTCAAGGCTGACCGCCTGGAGGCTGTCGGGGTCAGAAATCCTCTTTACCTGGACACCATGAAGACGGCTGGGATTGATTTGAATAAGCTTGAAAAGCTGACCCCGCTGGAAGCTTTGCCGGTTGAGAGGGATGCCAAAGACAAGCTTTTGGCCTGGCAAAACAGCTACCAGTTGCCGGCAGAAAAGGCAGCTGGTAAGGAGCTCTTGACCTTGAAAAATGTTGGCTTTGCCTACAGCGCCGACCAAAAATACCCTTTAAAGGACGTTAATACCGTCATCAAGGAAGGGGACTTCATCTCCATCGTCGGGCAAAACGGGGCGGGGAAGACCACCCTCTGCCGCTTGATCTGCGGCTTTTTGCAAAACACGGGCGAGATTGCCTGGCAAGGCGAGGACATGGCCGGCTTGTCCATCAAGGAGCGGGCGGACAAGATCGGCTACGTGATGCAGGATCCCAACCAGATGATCAGCCAGACCATGATATTTGACGAAGTAGCCCTGGGCTTGCGCTTGCGGAAAGTACCAGAAGACGAGGTCAAGGAAAGGGTGGGCAAGGTTCTTAAGATCTGCGGCCTCTACCCATTCAGAAACTGGCCGGTTTCCGCCCTCAGCTTTGGGCAAAAGAAGCGGGTCACGATCGCGGCGATTTTGGTCCTGGAACCGGACTTGTTGATTCTGGATGAACCAACAGCTGGCCAGGACTGGAAGACCTACACGGAAATCATGTCCTTCTTGCAGAAATTAAATGCAGCTGGCAAGACGATCATAATCATCACCCATGACATGCACTTGATGATGGAATACACTGACCGGTCACTTGTTTTTGCCAAGGGACGTTTGATTGCCGACACCACGCCGGTTGCGCTCTTGACTGATGAAAAGCTGGTCGAGCAGGCTTCTTTGCGGCAGGTCAGCCTCTTTGACCTGGCCCAGCATTACGGCTTGCCAGATCCGGAGGGCTTTGCCTGCAAGTTCGCGGCTTATGAACGGGAAAGATTGGGGGAAAACGCTAATGAATGA
>SRR1919932_01438 energy-coupling factor transporter transmembrane protein
ATGAATGATGCAGTTTTAGGCTATACGCCGGGGAAGACCTTTGTCCACCGCTTGAGCGCGACCACCAAGCTTTTGTTCTTAATTATTACTTCGGTGGCCTGCATGGTGACTTATGACACCCGCTTTTTACTGATCATGTGCCTTTTGTCCCTGGTCTTGTTCAAGGTTTCCCAGGTCAAGTGGGGGCAGGTGTCAGTTGTGGTCAACTTGATCATAATTTTCGCGGTCTTGAACTTGATCTTGGTTTATGTCTTTCAGCCCAGCTACGGGGCGGACCTCTATGGCAGCAAGCACGTCCTGCTGGGCAGTGGCTTTTTTGCTTTAACGGCTGAGGAGACTTTTTACCTCTTCAACTTGCTGCTCAAGTATATCTGTGCCGTGCCGATTACAATCTTGTTCTTATTGACGACCAATCCCAGCCAGTTTGCTTCCAGTCTGAACCAGATTGGGATCAGCTACCGCTTCTCTTATGCCTTTTCCCTGGCCCTGCGCTATATTCCAGACATCCAGGAAAGCTACTGGGAGATTTCCCATGCCCAGCAGGCCCGGGGGAATGAGATTTCCAAGAAGGCCAAGCTGGCTGACCGGGCCAAGGGGACGGTCAATATCGTCATGCCTTTGATTCTGTCCAGTTTAGACCGGATCACGGTGATCTCCACGGCCATGGAACTGCGCCGGTTTGGCTCCAAGAAGAAGCGGACCTGGTACACTTCCCAAAAGCTTAAAGCCAGCGACTGGCTGAGCTTGGGGGTGGCAGTTTTGCTGGTTCTCTTGATGCTCTACTTCTGGCATCTGAACCAGGGCCGCTTTTACAACCCTTTTAAGTAG
>SRR1919932_01439 aldehyde dehydrogenase
ATGCCTAAGCAAAGCACCACAGAAGTGGAAAAGTCAGTTCGAACTGAAGACGAAATCTACCACAATATCGATATTTTGGTTAATAAATCACATGAAGCCTTAGCCCAGATGGACGACTTCAGCCAGGAAGACGTGGACAAGCTTTGTCAAGTCATTGAAAAAGTCGGTGAAGACAATGCCCGCTACTTGGCCCAAATGGCAGTTGACGAAACTGGCCGGGGCAAGGTCGAAGACAAGGTGACCAAGAACACCTATGCTGCCCAGACTATCTGGGAAAGCATGAAGGATATGAAGACGGTCGGGGTGATCGAAGAAGACAAGCAGGAAGGCTTGATGAAGATTGCTGAACCGATCGGGGTCATCGCCGGGGTAACGCCAGTCACCAACCCGACTTCCACGGTTATCTTCAAGGCTATGATCGCCATGAAGAGCAAGAACACCATCATCTTCGGCTTCCACCCGCAAGCCCAAAAATGCTGCGTGGAAACAGCCAAGCTGATTAAGGAAGCCACGGTTGCCGCCGGGGCACCGGAAAACTGGATCCAATGGATCGAACACCCAAGCCTCACGGCCACGACGGCTTTGATGAACAACCCAAAGGTGCAGATAGTCTTGGCCACTGGCGGCCCAGGCATGGTCAAGGCCGCCTACTCAACTGGCAAGCCGGCTCTGGGCGTGGGCCCAGGCAACGGCCCGTCCTACATCGAAAAGACAGCGGACATTGAACAGTCAGTTAACGACATCGTCTTGTCCAAGACTTTTGACAACGGGATGATCTGTGCCTCAGAAAACTCCGTTGTCGTTGACAAGGAGGTCTATGACCAAGTCAAGGAAGCCTTCTTAAAGCGCCACTGCTACTTCTTAAAGGCTGACGAAATCAAGCTCTTTGAAGAACACTTCATCGACCCCCGCCGGGGGACAGTCGCTGGCCCGATGGCCGGCAAGAGCGCGGTCAAGATCGCTGAAATGTGCGGGGTGACCGTGCCTGCCGACACCCAAGTCATCGTGGCTGAATACAGCGGGGTTGGCCCGAAGTACCCATTGTCAGCTGAAAAGCTGTCCCCGGTCTTCACCCTCTACAAGGCGGAAAACAGTGCCCAGGCCTTCAAGATCTGCACCGACCTCTTGAACTACGGCGGCCGGGGCCACACTGCCGGCATCCACACCCAAAACAGCAAGGTTATCCGCAAGTTTGCCTTCGCCATGTCTGCCTGCCGTATCCTGGTCAACAGCCCGGCTGCCCTTGGCGGGATCGGCGGGGTCTACAACAACATGATGCCATCCTTGACCCTGGGAACCGGCTCATACGGGGCTAACTCAGTTTCTCACAACATCACCGCCAAGGACCTCTTGAACATCAAGACCGTGGCCATGAGAAGAAAGCCAATCTTATAA
>SRR1919932_01440 membrane protein
ATGCAAAAATCATGGTCAGTCAAAAGAACCACCGTCGTCGCCGTTTTGATGGCGATGAACGTTGCCTTGTCTTCATTCAGTATCCCTGTCCCAGGCGGCCACCTCTACTTCAACGACGTGGTCATCATCGCCGCGGCCTTGCTGCTGTACCCATCAGAGGCCTTCGTGGTCGGCGGAGTAGGGGCCTTCTTGGGCGACTTCCTTTTCTACCCGGCACCCATGTTCGTCAGCCTCTTCTCCCACGGCTTTGAAGCCTTGATCATCTCTTACTTTGCCCACAAGTTTGCTGGCGAGCAAAAGAAGGTCATCTTGGGCATCTTTATCGGCGCCGCCGTGATGGTAACTGGCTACACTTTAGGCCGGGCCTTTATTTACGCGACCCCGGCCATCTCCCTGGTCAAGTTTCCTTTTGAATGCCTGCAGGCAGCCGTTGGGGCGGGCTTAGGCTACAACCTGGTCTACCATGCCGGCATCGAAAAGCAGTTCCAACACCGCTTGCGGTAA
>SRR1919932_01441 hypothetical protein
TTGAAACAGGTCAAGATTCTGGACTTGAAGTTTGACATCCATATTTCTGCCGGCTATGTCTATGGCCAGGCTCAGACCCCAGACGAGGTCTACGAAATGATCCGGGAAGCCGACCGCATGCTCTACCAGAGCAAGGACAATGTCCGCAACCAGATCAGCGGCGGGCCTTCGCGCTATAATTAG
>SRR1919932_01442 C-di-GMP-specific phosphodiesterase
ATGCTGACTCAGGGGCGGCTTTTGGCTAAAGAAATGCCGGAAGAAGAACTGAGCCAGGAAAGAGATAACTTTGAAAGCGTTGAAGAAAGAGCCCTTTTCTCTGGCTTCAACCACATCAACGTCCTGGATCCCTACTTGGAAACCCGGGACCGGCTGGACAACAACTTTGAGAATCCCCGGCCTAATTCCATCTTCATCGTCCAAAGCCAGCAGGCCAAGCTGGTCTACTGCAACAGTGCCTTCCGCTCCTGGACCGGCTGCGCAGGAATGACCAAAAGGTCCGGGAATACTTGA
>SRR1919932_01443 C-di-GMP-specific phosphodiesterase
ATGGACCTGCTGACGGGCATGCCCAATGTCAGCTACTTTAGCAAGTTCGGGGATGACTTTTTAAGAAAGCTCTTAAAGCGGGCCGGGCAAGTTGACGTTATCTACTTCGACATCTCCTCCCTGCACTCTTACAACGACCACTTTGGCTTCTTGCAGGGGAACCAGCTTATCAAGAAGTGCGGGGAAATCATCCGGGCCAGTTTCCAGGAAGGGCTGACCCTGCGCTATGTCGACAACTCCATCTTGACCATCACTGCTCCCAGCCAGCTCAAGAAGCTGCTGCCGGAGATCCAGAAGAAAGTCGCGGTTTTTTCCGCTGACAAGGTCACGACCGTCAGAGCCGGCGTCTACCAGGTCAAGGAAATGGAACCAGCCACCAGCGCCGTCGACAAGGCTTACCAGGTCTACAACACATCCGTCAAGAAGCCCTTTGAGATGCAGGACTACTTGATGGGCCACTTTGAAGAAGCCCTCAGCCAGAACTGGCTCAAGGTCTACTACCAGCCGATTTTCAACCTCTATTCTAAGAAAATCTGCAACTTTGAAGCCGTCTCCCGCTGGCAGGAACCAGGCGAGCCGGCTTTAAAGGCCAGCCGCTTTATCCCAGTTCTGGAAAGAAGCGGCCTGGTCTACCAGCTGGACCTCCATGTCTTAGACCATGTCTGCCAGCTGCTGAACCAAAGACGGGCCGACAACCTGCCAACCATTCCGGTATCCATCAACCTCTCGCCTAGCAACTTCAACATCGACAGTTTCATCGACCAAGTTCTCGGGATCACCCAGAAATACCAGATCCCCCACAACATGATCCAGTTTGACCTGCTGGCCCAACCAGTCGCGGTTGACCAGCAGCGGCTGAAGGACGCGGCGGCCAACTTGCGGAAACAAGGATTCAGGATCTGCCTGGACCGCTATGGCGGGGAAAACAACGACTTGTCAACGGAAACCCTGCTGGAATACAATTTCGACTATCTTAAAGTCGACGTCCGCAGCTTCAATACCAACCGGCAAAGGGCCAAGATCATCCTGGGTTCCGTCATCAACATGTCCCGCCTGCTCAAGATCGTCCCGGTCGTCAGGGGGTTGAGGACCAGGCCATGCTGA
>SRR1919932_01444 hypothetical protein
ATGGCAGAAGCCCTTTACCAATTTACCGATCAAGAACGCGCCCTATATGAGAAAACACCCCTGCCGCTTTTAGTTATGCAGGTCATCGACGGGGAGTACCATGCCTTGCTGGCTTCTGACGAATACTGCAAGATGGTTGGCTCTGACCGGGAGTCCATGCTGGAATACCTCAACCACCACAGCTTTGGCCGGGTCTACCCGGCTGACGTTGTCCGCCTGGCAACTTTTTCAGCTTCAGCTGTCAAATATCCCCAATGCCACTTGACCTACCGCCTGTCCATCAAGGGCGAATACCACACCCTTTTTGCCCACTCAAAGCGGATCAAGACTGAGGACGGCACAATCCTTTTGCTGGTTACCTACTTTGACCTGGGCAAGACCAGAGCCAGCAGACCAAGAAGCAAAGTGAATCCCCCAACATGGACCTGCTGA
>SRR1919932_01445 proline dipeptidase
ATGAAAGAAGAAAGAAAATTAACCTGGGAAGAGCATTTGGCAGCCTTAACGTCCTACTTGGATGAAAAAGGCATTGACCTGGCCTATGTGGCAGAGCCAGTGGACATTGCCTACCTGACGGGCTACAGCAGCTGGACGGAGGAACGGGTCTTCGCCCTGCTGGTATCCAGAACAGGCCAGGCCCTCTTGCTGGCTCCGGCGATCAATGAAGGAGAAGTCAAGCAGACTTCTTGGGCGGACCGGGCCTGCTTTTACCAAGACGGGGAGAATCCTTGGGAGAAGGCAAAAAAGAGAATGACCGCCTGGCCAAAAGGATTTTGGGCCCTGGAAGCGCGGGCAGTGACCCTCAGCCACTACCGGGCGATTAAGGAAGTTTTCCCGGAAGCAAATTTGGCAGCAGACATTTCTACCTGGCTGGCCAGACAACGGATGATCAAGTCGCCGGCGGAAATTGAAAAGCTGCAGGCGGCTGGCAGGCTGGCTGACCAGGCCCTGGACTTGGCTTTTGCCCTTTTAAAAGCGGGGCAGGGGATGAGTGAAAGCGAGCTGGCCCTTGAACTGGACTACCAGCTGAAGAAAAAGGGGATGGGGGACTTGAGCTTTCCATTGATTGTCCAGGCCGGGGAAAGCGCGGCCAGTATCAGCGGCCTGCCCAGCCAAAAGGGGGTTCAAGCCGGGGACATAGTGATTTTTGACTTGGGGATCATGAAGGACGGCTATGCTTCAGATGTCAGCAGGACGGTGGCCCTGGGCGAAATCAGCCCGGCAAAGTGGGAAATCTATGAGACGGTCCGGCTAGCCCAGGAAACGGCCGCTAGGGCGGCCAGACCAGGGATGACGGCAGGTGAGCTGGACCAGGTGGCCCGTGGGGTTATCGAAGAAGCGGGCTACGGGCAGTACTTTACCCACCGCTTGGGTCACGGGATTGGGATGCAGGTCCATGAGCCGGTGAATCTGGAGCCGGGAAGCAAGCAGAAGCTGGAAGCAGGGATGTGCTTTTCCATTGAACCGGGGATCTATTTGCCGGGTGTTGGCGGCGTCAGAATCGAGGACTGCGGCTGGCTGGGTGAAGACGGCTTCCACCCCTTTACCAAGACCAGGAAAGATTTGTTGCTTTTGTGA
>SRR1919932_01446 NUDIX family hydrolase
ATGCCTGAATTAGAAAAGATAGTCGAACGCCCCTTGATCACCATCACCAACCTGATCTGGAGCTTTAACAAGGAAACCCACCGGGTTCAGCTGCTTTTAGTCAAGCGCAAGGACGAACCTTTCGCGGACCGCTGGGCCCTGCCGGAAACCCTCCTTCGGGAAAACGAAAGTGCCGACCAGGCTGCCGTGCGCTTGATCAAAGAAAAAATCGGCCTTGACCTTCCGGAATCTTCCACCGAGCAGCTGGCCACCTTTACCTCCCCCCACCGGACGCCCGGCGAGCGGGCCCTGGCCCTAACCTACATGACCTACCTGCCCGCCATGCCAAACCTGCGGCCCGGCTACGGAGCCAGCGATGTTGCCTGGTTCGCCTTTGAAAACTTAGGCCACAAGTATGAGCTTTTTTCCGCTGACAAGGACCTGACCTTTGAATTAGCGGAAAAATCCCACGCCCTGGCCTTTGACCATGACGAAATCATCGCCGTGGCCATCCAGCGCATCCGCAACAAACTGGACTACCAGCCCAGCATCCTGCAGATCCTTGGCCCCGAATTCACCCTCCGCGAAGCCCGCGAGGTCTACGCCCCCTTCTTCCAGACCACAGTCGATGAGATCGACAACTCCAACTTCCGCAAGACCCACGGTTCCCTCTTTACCGAGCTGGGCGTGCAGAAGAATTACCACAAGAGCGGACGGCCGCCAAAACTCTATTGCCTTAAGGAAACGCAGAGCAATATCCTCTGGAGAAAGGCTATCAACAAGCAAGGCTAA
>SRR1919932_01447 membrane protein
ATGAACAACTTTTGGCAAAGCAGCCTGCTGCTTATCAACTTAATCGCCTTTGCCCTCTATGGCATCGACAAGGCTAAAGCCCGGATGCACGCCTGGCGCATCCCCGAACGGCTGCTGCTTACCTGCGGCCTGCTGGCCCCTGTCGGGTCCGGCCTGGGCATGCTGGTCTTTCACCACAAGGTCCGCAAGGCCTACTTCTATTTGGCAATCTTCGCCGGCTTTATCCTCTGGGCCGCGATTGATTACCTTATTCTCAGCTTTAGCTAA
>SRR1919932_01448 hypothetical protein
ATGAAGAAGAACAGGAAAAATTTGGCCCTGCTTCTGCTGGCGGCCAGCTTGCTTGCCGGTTGCGCGGGTCAAAGCAATAGTCAGTCCAGTCAATCCAGCCAGGCTAAGAGCGAGAAGAAGGCGGAAAGTAAGGCCAGCTCTAAGTCGGCGGCTAAATCCGCGGCCAGTTCTGCCGTTAGTTCGACAAAATCCTCCTCAAGCCAGGCCAGCTCTAAGTCCGCGGCTTCCAGCAGCCAAAGGGCAGATGCAAACCGGATGGGGACTTTAACTAGTCAATTAAGGGTCAAGCTGCCGGGGATGCTTTTGCCGGCGACTGACGGCTTAGGCCAGGGCAGCAGCAACTTGAATATCCGCTACACCAGCTCAAGCAGCCAGAATGTTGTTTACTACAGCGTCGGAAATAGCCCGCTGGCCTTAAATGACAGCCGGATTGCCAGTGAAAAGCCATATGCCGTTTTAACGGAAAAAAAGAATGTGGCTGACGCCAGCAGCTTGATTAATTACCAAGAGCCCAAGACCGGTCTGCCAGCGGTTAAGATTGCCAGCAATGTGACTGGGACAGAAGAAGGGGCGGCTGGGTCGACTTATCTGCAGTTCAACCAGGGCCAGTGGTCCTTTGTTGTCCGGGCAAGCAATGTCCAGGGGCAAAAGCCGCTGCCAACGGCGCAAAAGCTGCTGGCTCTCTACCAGCAATATGGTCTGCCGGATACGGCGGCAAAGTCCAGCGTGCAGGTTGATGTTGGCGAAAGCCTGGGTTCTTTGAACACGGTGATCACCTGGGCCAAAGGGTCCAGCGTTTATCAGCTTAAGGCCCACAGTACGGAGACCGCCTTTAAGATGCTCAAGAGCCTTAGCTAA
>SRR1919932_01449 isochorismatase
ATGGAAAATGAAGCACTCTTGATCATTGACTATACCAATGACTTCGTAGATGACAAAGGCGCTCTGACCTGCGGGGCACCTGCCCAGGCCTTGGCTGGCCAGATTGTCAGCTTGGCCGACCAGTTTTTGGCCGCCGGCAAGTGGGTTATCCTGCCAACCGACAAGCACTTTAAAGGCAACCCCTACCACCCGGAAACCAAGCTCTTCCCGCCCCACAACCTGCCAAATACTTGGGGCCGGGAGTTCTACGGACCCCTGCAAACTTGGTATAATAAACATCAAGACGACGAGCACGTCCTTGTCTTGGACAAGTCACGCTACTCTGCCTTCTGCGCTACCGGCCTGGACCTCTTCTTGCGTGAACGCAAGGTCAGCCGGGTTCACCTGGCCGGGGTCTGCACGGACATCTGCGTCCTGCACACCGCCATGGACGCCTACAACCATGGCTACGACATCACGGTGCACGAAAAGGCAGTTGCCGCTTTAAACGACGCGGGACAGGAATGGGCACTGAACCACTTCAAGTCCTGCCTGGGCGCTGAAGTCGTCGACTAA
>SRR1919932_01450 nicotinate phosphoribosyltransferase
ATGTCTTTATCACACGCGTTAATTACCGACCTGTACGAATTCTCAATGGCTAACGGCTACTTTGAAACCCTGCCAAGAGATACCGAAGCCGTCTTCGACGTCTTTTACCGGACTGTTCCAGACAACGGCAGCTTCGTCGTCTCCGCCGGCCTGGAACAAGTCGTTGAACAGCTGCGGGGCTTCCACTACACCAAGGAAGACATCGACTACCTGAAGTCCCTCAAGCTCTTCAGCGCTGAATTCATTTCCTACCTGGAAACCATGACCTTCGACTGCGTCGTATACGCGATTCCAGAAGGCACCCCGGTCTTCCCGCGGGTGCCAATCCTGACGGTCAAGGGGCCTTTGATTCAATGTCAATTGCTGGAGACCTTCGTCCTTAACCTAATCAACCACCAGTCCTTGATCGCCACCAAGTCCCGCCGGATCAACCTGGCCGCGGCTGGCCGGCCAGTCATGGAATTTGGTGCCCGCCGGGCCCAAGGTCCGGACGCTTCCGTTCTGGGCGCCAGAGCTGCCGTTATCGGCGGCTGCGGGTCAACCAGCAACGTCTTGTCAGCAGCCAAGTACAACATCCCGGTTGCCGGCACCATGGCCCACGCCTGGGTTCAAAGCTACCCAACCGAACTCGAAGCCTTTGAAAAGTGGGCGGAAGTCTACCCGGACAACGCCCTGCTTTTGGTCGACACTTACGATGTCTTAACTAGCGGCGTGCCTAACGCTATCAAAGTCTTCGAGGAGCTCCGCACCAAGGGCCACAAGAAGTTCGGCATCCGGATCGACTCCGGCGACATCGCCAAATTGTCCCGCAAGGCCCGCAAGATGATGGACGACGCCGGCTTCCCGGAAGCAACCATCACTGCTTCCAATGCCTTGAACGAAAACGTCATCCACTCCCTTCTCCAAGAAGGCGCGCCGCTTGACAGCTTCGGCGTTGGTGAACAATTGATCACCAGCTCCAGCTCACCGGTTCTGAGCGGGGTCTTCAAGCTGGCCGCTTTGAAGATTGGCGACGGGGAATGGCAGCCAAAGATCAAGCTGTCCAACTCCAAGGAAAAGGTCACCCTGCCTGGTGAAAAGAAGGCTTACCGCCTCTACCACAAGGGGACCAAGAATGCCTTCGCGGACGTCATCGCCCTGGCTGATGAAAGCTTGCCAGAAGAATTCGTCGGCATTAACATGGACCCGATGATGACTGAAACTGAAGCCAACTTGAAGGACTTCGATGCCGTCCTCTTGACCCAGGTCGTTGTCGGCCCAAAGGCCAAGTCCATCGAAACCGACACCTTCAAGATCCAAAAGCACATGTACGAAAAGCTGGCTGAACTGCCAGAAGAAACCCAAAGACTGCTTAACCCGGACCGCTACCCGGTCTACCTGACTCCTGCCCTGGCTGACCTGCAAGCCAAGATGATCAAGGACCACAAGCTTTAA
>SRR1919932_01451 large-conductance mechanosensitive channel
ATGCCAAAGCGAATTAATCTGCCAGACGGCCAGCAGGCTGTCGAATCTACTAAGGGCTTCTTCGGGGAGTTCAAGGCCTTCATCTCTAAGGGCAACGTGATGGATATGGCCGTCGGTATCATCATCGGCGGTGCCTTCACCACCATCGTCAAGTCCCTGGTCAGCGACATCATCAGTCCGCTTTTAGGGGTGGTCGGTGGGATGAATTTTGACCAGTTCTCACTGAAATTTGCCGGGGTGACCCTGGCATATGGGAAGTTCTTGACCGCGGTCATCAACTTCTTGATGATGGCCTTTGTCCTGTTTTTGATCGTCAAGGCCTTCAACCGGTCCGGGTCCTTGATCAAGAAGGAAGAAGAGGTTGAAGAAGAAGCAACGACCAAGGTCTGCCCTTACTGCAAGAGCGAGATCGACATCGAAGCCAGCCGCTGCCCGATGTGTACGTCACAATTGGAAGAAAAAATGGCTGAACAATAA
>SRR1919932_01452 haloacid dehalogenase
ATGATCAAACTGATTGCCAGCGACTTAGATGAGACCTTGCTGGGGCCGGGCAGCCGGGTAGTAGAGGAAAATCTGTGGGCTATTAAAAAATGCCAGGAACTGGGCATCAAATTCGTGCCCGCTACAGGGCGCGGCTTTTACTCTTTAAGGCAGACGCTAGAAGAACTGGGCCAGGCGGACCAGGCCGGCCAGTACACGATTTGTTACAACGGCGGGGCGGTTTTTGAGAACAAGGGGCCGCGCCTGATCTCCTTTACCGGGATGGACGGGGACCTGGTTGAGGAAATCTTCAAACGGGGGCAGGAATTAGGTCTGGGGATGCATATCTACACTGAGGACCAGGTTTACGGCTACCAACTTACGCAAGAAGAGATCGATTTTTGCCAAGGCCGGGCCGACTTCGCGGCTTTGCCAGGCGGGGACTTAACGGCCTTGCGGGCCAGCGGAGCCCGTTTTGCCAAGATTCTTTACGTCGATACTGATTTTCCCCGCTTGAAAAAATTGCGGAAGGACCTGGCAGATTTTGAAAAAGTCAGTGAGATGAGCTTTTCATCCAACCGCTACCTGGAATTCAACCCGCCCAAGGTGAACAAGGGGACAGGCCTAAAGAAACTGTGCCAGGAGCTGGGCTATCAGCTGGATGAGACCATGGCGATCGGGGACAGCTTCAATGACCTGGCCATGATCAAGGCAGCCGGCACCGGCGTCGGGGTGGCCAATGTCAGCCCGGAAATGCGGGCTGACTGCGATAAGATTACGGAGAAGACCTTTGACCAGGGGGCGGTGGCGGAAGCGATCGGCCGCTGGGTTTTGCCAGATTATGAGTAA
>SRR1919932_01453 L-asparaginase
ATGACCAATAAGAAAATATTGCTGCTGTCGACTGGAGGGACGATCGCGTCCGTGGCTTCAGAAGAAGGCTTGATCCCGGGCCAGTCCGGGGCGGAATTGCTCCATACCCTGGGCGGCCTGCCTTATGAAGTCGAGGTCAAGGACATTTTGTCTTTGGACTCTTCCAACATCCAGCCGGAAGAGTGGGCTTTTATCGCCGAACAGATTTATAAATTGCGCCGGGGCTTTGACGGTATCGTCGTCTCCCACGGGACTGACACCATGGCTTACACGGCGTCTATGCTCACCTTTATGTTGCAGGGAATTGACCTGCCCGTTGTTTTAACCGGGAGCCAGGTGCCCATGCAGGCCATCTTAAGCGATGCTCCAGATAACCTCCGGGTTGCCTTTGCCGCGGCCGCAACCTGCAAGCCAGGGATCTATATCGCTTTTAACCGGCAGATCATGCGGGGCTGCCGCTGCGTTAAGATCCGGACGACCGGTTTTGACGCCTTCAAGAGCATCAACGTTGACCCGGTGGCTATGGTGACTTCAGACGGCATTGACATCAAGCACAAAGACTTTGAATACGTGCCAAGCGAGCACGCCATCTGCACTTTGAACACCAAGGTGGAGACCCAGGTGGCCATGATCAAGCTTTTCCCAGGCTTTGACCCGGCGGTTTTGTCCGCCATGGTCGACAGCGGGGTCAGGGGGATCGTCATCGAAGCCTATGGCCTTGGCGGCATGAACTACATGCGGCGGAACATGGTTAAGGCGATCGGGGAGATCATCAAGCGGGGAGTCCCCGTGGTGGCCTGCAGCCAGTGTTTGTATGAACGAACTGACTTGACCAAGTATGAGGTTGGCCGGGCGGCTATGCTGGAAGGGGCGATCAGCGGCCGGGACATGACCAGTGAAAGTGCTGTAACCAAGCTGATGTGGGCCCTGGGCCAGGGGATGGGCCTGGAGGACGTCCGGGCCTTTTTCAACAAGGATATTGCCGGTGAGGTAACCATCACCGATTAA
>SRR1919932_01454 MarR family transcriptional regulator
ATGGATTTAGGGTTAAGAGTCAAGAAGATCAATGATTTGATGGCCAAAAGGGGCAACTATGAGCTCAAGAAATTGGGCCTGACCTTTTCACAGTTTCACTGCCTGGTTTATCTGGAGAAATGCGCGGGCCAGCAGGCGCCTTTAAAGCAGCTGGAAAACCACTTTGAAGTGGCCCAGGCCACCATGGCCGGGATTGTCGGCCGCCTGGAAGGCAAGGGCTATGTCAGAAGCCACCTGGCGGAAAGCGACAAGCGGGTGAAGATCGTCTGCCTGACGGATGAGGGCCGGCAGATTTGCGTCAGCGCTAAAAAGGGGATGCACAAGCTGCAGGAAAAGGTGGAGCAGCTCTACAGCCGGCAAGAACTAAGCCAGATGGAAAAGTACCTGGACCGTTTGTATGAGCTTTTGGCTGAGGAAAATCGGGAAGCATGCGAGGAAAAAGATGACCAATAA
>SRR1919932_01455 hypothetical protein
ATGGCAGTTGAACGAGTAAAAGATTTTTTCAAAGATACTGACGTTAACGTAATTGAACTTCCTGAGTCTTCAGCCACCGTGGCCTTGGCCGCCCAGGCTCTGGACACCGAGCCGGACCAGATCGCCAAGACCCTGTCCTTTTTGGTCGACGATGCCCCGATCCTAGTCGTTATGGCGGGGGAAGCCAGGACTGACAACCACAAGTACAAGGCCACCTTCCACAAGAAGGCCAAGATGATTCCTTTTGACCAGGTGGAAGACTATATCGGCCATGCCCCAGGCGGGGTTTGCCCCTTTGCCGTCAAGCCGGGCGTCAAGGTCTATTTAGACGAGTCCCTCAAGCGCCACACTGAGGTCTACCCGGCAGCTGGCTCAAGCAACAGCGCTGTCCGCTTGACCATCCCGGCTCTGGAAAAATACTCTGACTATACGGCCTGGGTGGACGTGACCAAGACAGCTTAA
>SRR1919932_01456 homocysteine S-methyltransferase
ATGGCAGATTTACCAACCCTTCTGGCCCAAGGCCCGGTGACTTTGGACGGGTCCATGTCCACGCCGCTTGAAGCCTGGGGCGAAGACACCAATTCCGACCTCTGGACGGCCAAGGCCCTCGCGGATAACCCAGACCTGGTCTACCGGGTCCACCAGGAGTACTTCAAGGCCGGCGCCCGGGTCACGATCACCGACAGCTACCAGGCCAGCCTGCCGGCCTTCATGAAGCACGGATTAAGTGAGGACGCGGCTCGAGCCTTAATCAGAGAGTCAGCTGCCGTGGCCATTAAGGCCAGAGACGACTTTGAAAAAGCGACCGGCATCCACAACTTCGTGGCTGGTTCAGTTGGCCCTTACGGGGCCTACCTGGCTGACGGCAGTGAATACCGGGGCGACTATGCTTTAAGCCATGAAGAATACGTGGACTTTCACGCCCCGCGGATTAAAGAATTAGTTGCCGGCGGGGTGGACTGCCTGGCGGTTGAGACTCAGCCTAAGCTGAGCGAAGTCAGAGCTATTCTGGACTACCTCAAGGCCAAGTACCCGGACCTGCCGGTTTACGTCAGCTTTTCCTTAAAGGATCCGGCTAGTATCAGCGAGGGCCTGCCTTTAACTAAAGCGGTCGAGGAAGTCAGCGCCTATGCCCAGGTCTTCGCGGCCGGGGCCAACTGCTTCAAGCTGGCCTGGACTGTCGATGTGGTGAAAAATCTCCGCGCTTCTAAATTGCCAATCGTCGTTTACCCTAATTCCGGGGCCGAATACGATCCTTCTGTTAAAAAGTGGGTCTACCCCCCAGAAGCCGCGGACTTTGGCCAGGCGGGGGCTGCCTGGCTGGCGGCCGGGGCAAAACTGGTCGGGGGCTGCTGCACGACGATGCCGGAAGATATCGCCGGACTTGCCGCCGCGGTCAAAAAGGGTTATACTGCTTTTTAA
>SRR1919932_01457 amino acid permease
ATGGCTCAACAAGAAAAAGTCGACCACCTCGAGCGGAAGATGGAAGCCCGGCATATTCAGATGATCTCCCTGGGCGGGGTCATCGGGACCGGTCTCTTCTTAAGCTCGGGCTATACCATCAGCCAGGCCGGACCCATCGGCACGATTATCGCCTATTTCTTCGGGGCAATCCTGGTTTACGCCGTCATGCTCTGCCTGGGCGAATTGTCGGTGGCCATGCCCTACACGGGTTCCTTCCACGTTTACGCTAAGAACCTGCTTAATCCGGCCACCGGGTTTACGGTCGCCATTCTCTACTGGCTGACCTGGACTATTGCCCTGGGCAGCGAGTTTACCGCGGCGGGGATTATCATGCGGCACTGGTTTCCCTCTGTCCCCGTCTGGATCTGGAGCCTGGTCTTCATGATTTTGATTTTCCTCTCCAATTTCTTCTCGGTCAAGATTTTCGCGGAAAGTGAGTTTTGGTTCGCGGCCGTCAAGGTAGCGGCAATCGTCGCCTTCATCATCTTAGGGGGACTGGCGGTGGTCGGAGTTATTCCTTTAAAAGGCAGCCAGGGAGCACCAGGTTTGACCAACCTGACCAAGGACGGCTGGTTCCCGACTGGTTTTGGCGGGGTTTTTACCACTATGCTCACGGTCAACTTTGCCTTCTCGGGGACGGAGCTGATCGGGATCACGGCCGGGGAAGCCAAGGAACCAGAAAAGACCCTGCCTAAGGCCATCCACACCACCTTATGGCGGCTGATCATCTTCTTCATCGACTCCATCTTCTTCATGGCCTGCCTCATCCCCTACAAGCAAGCCGGCGTTACCGAAAGCCCCTTCGTCCACGTCTTTAACATGATGGGGATTCCTTTTGCCAGCGACTTGATGAACTTCGTCGTTTTGACGGCCATCATCTCTGCCGGCAATTCCGGCCTCTATGCCTCAACCAGAATGCTCTGGTCCCTGGGCAATGAGGGGACTATTCCAGTTGTTTTTGCCAAAACAAACAAAAGAGGGATTCCGGCCATCTCCTTGCTGATAAGCATGCTGGGTGGGGTCTTCTCCCTCTTGACCAGTGTCTACGCGGCTGACACGATCTACCTGGTCCTGGTTTCCATCTCCGGCTTGGCGGTGGTCTTCGTCTGGATGGCGATCGCCCTGTGCCAGCTCAAGTTCCGGCAGAAGTGGCTGAAAGAAGGGCATACGGAGGACGAGCTCAAGTTCAAGACCCCCCTCTATCCTTTCACGCCTTGGTTTGCCTTTATCGCCAGCCTGGCCTCCTGCCTTTTGATCTGGTTTGACCCTTCCCAGAGGGTAGCCTTGTACGCGACGATTCCATTCGTGATCTTCTGCTACGTCGCCCACCATTTCTATGCCAAACACCAGGAGAAAAAGCAGACCAGCCTTTAA
>SRR1919932_01458 putative transcriptional regulator
ATGCTTACGCCAAATGATTCCAGCAGCTTTGAAAACCAGCTTTCTCTCCGCCAGGACTTGACCTTCAACTCCCTGCAGGCCCTTTTTGACCAGCAGGGTCTCCCCTTTAGCCCGCCGTCCAGCCAGTTCGGCATCCTCCAGTTCAGTAATTTCGACCTCCTGGTCTCTGACCAGTGCCCTTACACGATCAAGTGCGCTGTTTTTAAGGGGACAGACCAGGATGAATTCCTGGACCGGCAGGAGTTTACCGGGTCCCTGGCCGCTCAATTCCAGCAGGTCTACGCTTTTTTGGAAAAGCACAACCCAGTAGAGAGCCAGATTAAAGGCCTTTACCGGGAAGACCGGCCAGCCTACCCCAAGCAGGCCTTAAGGGAAGCCTTGATGAACGCGATTATCCACAGGGACTACAGCAACCCGGCCAGTAGCTTGATCAACTTATACACAGACCGGGTGGAATTCATTTCTTTTGGCGGCCTCATGCCCGGGATTACCCTGGAAGACATCCAGCTGGGCCTGTCAGTTTGCCGGAACAAGCGCTTGGCTGACCTCTTTTACCAGCTGAAGCTGGTGGAATCCTACGGAACGGGGTTAGCCAGAATCAAGAGTGCCTACAAGGGCAGCCGCCTTGCGCCCCAGATTTTAGCCGCTCCCAGCTCTTTTAAGGTGGTCCTGCCCCATTACCAGGCAGCTGTTAAAGCGACTTCTAAACCAGTCAAAAAGGCGGTAACACCTGCTCCTTCCCCTAGCCCAGCCCCCAAGCCAAAGGCCCGGGCAACTGGCAATGAAGAAACCGTTTTGGCTTTTGGCAAAGAGCATGGGGAATTTATCAGAAGCGATATTGAGGAGCTCTTAGGGGTCAGCCCAGCTACGGCGACCCGGCTCTTGCGGCAGATGGAAAACAGCGGCTTGGTTCTCAAGCGGGGCAAGGCCAAGGCCATCCGCTACCGGATCAGCGAAAATTCATAA
>SRR1919932_01459 carboxylate--amine ligase
ATGCAACAATTTACTCCGATTCTTTTAGGCAGCGACATCAATGTTTACGGGATGGCCCGGTCCTTCCACGAGGCTTACGGGATCAAGGTCCAGGCCTGGGGCGCGTCCACTTTAGCCCCGACCCGGTATTCAAAGATCGTTGACATCGAGGTTCACCCGGGCTTTACTGAAGACCCGGAATTCATCAAGGTTATGCGCGAGAAGATCAAGGAATACAAGAAGCACCCGGAACCGGTGATCTTGATCTCCTGCGGGGACGGTTACTCAGAACTTTTAGCCAAGCACAAGCAGGAGCTGGAAGAGGCCTTCATCGTTCCTTATATCGACTACGCCCTCTTGGAAAAACTGATCTCTAAGGAGGGCTTCTACGAGGTCTGTGAAGAATACGGCCTGCCTTACCCGAAGACCAAGATCATCACTATGTCCGCTTACAAGGATGGTTCTTACGCCGACGTACCCTTCCCCTTCCCGGTCGCTTTAAAGCCGGAAGACCCGGTTTCCTGGCTGGACGTCCAGTTTGAAGGGCGGAAGAAGGCTTTTGTCATCAAGGACCTGGACGAATTCAAGGATATTGTGGGCAAGATCTACACCAATGGCTACAAGGAAGACTTGATTTTGCAGGACTTCATCCCGGGCGATGACTCCAACATGCGGGTCTTGAACGCTTATGTGGACAAGAATCACCAGGTCAAGATGATGTGCCTGGGCCACCCGCTTTTGGAAGACCCGGACCCGATTGCCATCGGCAACTACATGGTAATCACGCCGGACTATGACGAGAAGCTCTACCAGACTGTCCAGGCCTTTTTGGAAAAGATCAACTACACGGGCATGGCCAACTTTGACATCAAGTACGACGTCCGCGACGGCCAGTACAAGTTCTTTGAGATCAACCTCCGCCAAGGCCGGTCCAGCTTCTACGTCACTTTAAACGGCTACAACCTGGCCAAGTGGTATGTGGACGACTATGTGGAAGACTCGCTTAAGGACCAGCCGGTTGTTTACGGCAACCAGGATCCAGCCAAGCACAAGCTCTGGTTGGGTGTACCGGACAAGATTTTTGAACAATACGCGGTCGACTCCCTGGCCAAAAAGGAAGCCTTGGCACTTCTGCGGGCCGGCAAGGTAGGCACCACGGTCTTCTATAAGCCGGACATGAACATCAAGCGCTGGCTCTTGATGAAGCACATGTACCACAACTACTACAAGGATTACCAGAAGTACTTCAAGGTCAATAAGGAGCAGTACTTCGAGAAAAAGTAA
>SRR1919932_01460 glycosyltransferase
ATGAATATCGGTTTGTTTACAGACACCTACTTCCCGCAAAACAGCGGGGTAGCGACGTCGATCAAAACCCTTAAAGAAGCTTTGGAGGCCCAGGGTCACAATGTCTTCATCTTCACGACAACTGATCCCAACGTCGACAAGGACACGGTTGAAGCCAACATCTTCCGCTTCAGCTCCGTGCCCTTCATTGGCTTCTCTGAGCGGCGGATTGCTTTCCGGGGCCTGTTTGAGGCGGCCAAGGTGGCCAAGGAGGTCAACCTGGACATCGTCCACACCCAGACCGAATTTTCCATGGGCTTAATTGGCAAGTACGTGGCCCGGCAATTGGGCATCCCGGCTATCCACACCTACCACACCATGTACGAAGACTACCTGCACTATGTCTTAAACGGCCACTTGCTCCGGCCAGTTCATGTCCAGCAGTTCACCAAGAGCTACTTGAAGAATATGGACGGGGTCATCGCACCCAGCCAGCGGGTAGCGGCTTTATTGGCCCGCTACGGGGTGGAGATCCCCATGCGGGTGATTCCTACCGGGGTTGACCTGGACGCCATCAGTGGCCCGGACAAGGCAGATCTGCGGGAAAAACTGGGGATTGCCCCGGATGCCCAGGTGATCATCACCTTGGGCCGGGTAGCCGCGGAAAAGAAGATTGACCGCATCCTCCGGGTCATGCCAGACCTGTTGACCGAATTCCCTAAGCTGGTCTTTGTTATCGCCGGCGACGGCCCGGACGTGGATGTCTTAAAAGAGCAGGTTGAGCGCCTGACTTTGGAAGACCATGTGATTTTTACCGGCAATATTCCCCATGACCAGGTCGCCAGCTACTATAAGATGGCCGACTTCTTCGTCTCAGCCAGCGACACGGAAACCCAGGGGCTGACTTATATCGAAGCCCTGGGCAGCGGACGCAAGTGCGTGGTTTACAAGACCGACTACACCGACCAGGTCTTCAATGACCCGGCTTACGGCTTGACTTTTGAAAGCCTGCGGCAGATGAAGGAAGAAATCGCGGCTTACTTGCGGCAGGGCCGGCAGGAGATTCCGCCCCAGCTCCTGGCAAAAAAGCTGGAAGAAATTTCCGCCAGCCACTTTGCCAGCGAGGTCTGCAAGTTTTACCAGTACGCGATTGACAACTATCAAGTGAAAAAAGAGGACAGCAATGATTAG
>SRR1919932_01461 glycosyl transferase
ATGATTAGAATCAACATGTTTTCCCAGGCGGACTCAGTTGCCGGCCAAGGGGTCGGGGCAGCCTACCTGGAACTGATCCGGCTTCTCAGGACCCACCTGGTCGATGATTTCTACGTGACCATCAACAAGTACGGCAAAAGCGACTTGACCCACTACCACACCATCAACCCGACCTACTTCGCCAACAGCTTTTCACCAGCCAGAGGCCGCAAGATCGGCTATGTCCACTTTTTGCCAGATACCCTGGAAGGGTCAATCAAATTGCCAGGGGTGGCTAAAAAGGTCTTCTACCAGTACGTGATCGACTTTTACAAGCGGATGGACCAGATCGTGGTCGTCAACCCGATCTTCATCGACAAGCTGACTGAATACGGCCTGGACAGAAACAAGATCCGCTACATTCCGAACTTCGTGGCCAAGAGTGAGTTCTATGAACAGACTCAGGCCAAAAAGAACGCCACCCGGCAGGAATTAGGCATCCCGCAGGACAAGTTCGTTGTCTTTGGCGACGGGCAGGTCCAGGCCAGAAAAGGGGTCGACGACTTCGCCAAGTTGGCGGAAGCCAACCCCGACTACCAGTTTATCTGGGCCGGCGGCTTTTCTTTCGGCAAGATCACGGACGGCTATGACCACTTCAAGCAGCTGGTGGAGAACCCGCCCAAGAACCTGACCTTTACCGGCATCATCGACCGGGAAAAGCTGGTTGACTACTTGAACATGGCCGACCTCTTCCTCTTGCCGTCCTTTGACGAACTCTTCCCGATGTCAGTTCTGGAAGCCTTCAGCTGCGGGACCCCGGTCTTGCTCAGAGACCTGGACCTCTACCGGGCGATCATTGACGGTTACTACCTGGCCGGCAAGGACTTTGCTGAGATGAACGAACAGCTCCGCTTCGCGGCTACCCATCCGGAAGTCCTGGCCCGTCAGCAGGAGCTTTCCCGCAAGGCCAGCCAGCAGTATTCTGAAGACCACCTGGCTGAAATCTGGCGGGACTTCTACCAGGAGCAGTACCAGCTGGGCCGGGAATTGGGGCAGATCAGCTATGAATAA
>SRR1919932_01462 membrane protein
ATGAATAAGAAAAATCTGTGGGGAGTCCTGATCGTCTTATTGATCAGCTCCCTTGTTTTGTACTTTGACCTCCGGGCCACGCCAATGGCGACTTTAAAGGCGGCAGCCGGGCAGATTATTCCCTGGCGCCTGGTCCTGGTCTTTTTGGCCATGGCCTTGTCCTATGTCTGTGAGGCCTTTATCCTCCGTCTTTTGGCCAAAAGGCCGGGGACAGCCAAGCGGAGCTTCTGGTCTTATCTGCGGATTCCGCTCATCCAGGCCCTTTTCAACGGGATCACCCCGATGGCCACCGGCGGGCAGCCGTCGCAATTGGCGGCTATGGTGGAAATGGGCATGGCCGGCGGCCGGGCAACTTCGATTTTGATGATGAAGTTCATCTGCTACCAGCTGGTTGTCTTATTTGCCTATTTGACGGCCTTTATCTTCGGCTTTCACTTTGTGGCCGGCAAGTTCTCGGCTTTAGCCATCTTTATTTTCCTGGGCTTTGCCCTCCACGTCTTCTCCATCATCCTGCTCCTGTTAGCCATGTTTGCCCATAACTGGACGGTTAAGGCTGTTAAAAAGGTCATGAAGCTGTTGGGGCGGATTTTTGGCCAGGAAAGGGCCCAGGCTTGGGAGAAGTCGACCCTGGAGCAAGTGGAAAGCTTCTACAAGGAAAGCCAGGCCCTTAAGGCTGAGAAGAAAAAGCTCTGGGGCGTGGTTCTCTTGACGGTTGGGCAGCTCCTGTGCTACTACTCGGCTCCTTACCTGACCTTGCGGGCCTTGGGTCAGCCAGTTGACTATGTTCAAGTGACCTTGATGACGATCTTGATCATCATGTTCATGGCCGTGATTCCTTTGCCTGGGGCCAGTGGCGGGGCGGAATTCAGCTTCCAGACCCTCTTTGCCAGCTTCATCAGCCAGCCGGGGGTAGTCGTTTTGGCCATGTTCTTGTGGCGGTTCGCGACCTACTTCTTCGGCATGATTCTCGGCATCTTTGGCTGGTCCTTCAAGCCGGCCAAGTTGCGGGACTGA
>SRR1919932_01463 alkaline phosphatase
ATGCAGAAAATCAAGGCCTTTGGGACCTGGCTGCGGACGTCGAAGAACGGCTTCTTTACTCTGGCGGTCTTCGGCTACTGGCTCAAGTGTTACCTAATCTATCTGACCAAGTTTACCCTGGGGGCGGCGGGCCCGATGCAGGGCTTCCTCTTGCTCATCAACCCTATTCCGTCGGGGATGCTGATCCTGGGTCTGGGGATGCTGATGAAGGGGCGCAAGTCCTACTGGACTATGCTTGTCCTGGACTTCCTCCTGGCTACCTGGCTTTTCGCCAACATCCTTTACTACCGGGAATTCTCTAACTTCCTCTCTTTCTCCCTGCTGCAGAATTCGGGCAGCGCTTCGGAAAATTTGGGCAAAAGCATTGCCGGAATCCTCAAGGGCAGCGACTTTTTAGCCTTTGCTGACCCCTTGATCCTGCTGGGGCTTTTGCTGGGGAAGTTTTTCAAAATGGACCTCTACGCCCAGTCCTGGAAAAGGAAGGTCGCCATTGAACTGACGGCCCTGCTCTTGATGGGGGGCAACCTCCTCTTGGCCCAAAAGGACCGGTCAGGCCTGCTCACGCGGACTTTTGACAACAACTACATCGTCAAGTATTTAGGGATCAACGAATATGCCCTTTATGACGGGATCAAGACGGCTCAGACCAACGCCCAGATGGCTAATGCCAAGGTGTCGGATTTGAGTTCTGTTAAAAAGTACCTCAAGGCCAACTACGTCCAGCCAAATTCAGCTTATACGGGTGTAGCCAAGGGGAAAAACGTCATCGTTATCCACCTGGAAAGCTTCCAGCAGTTTTTGATCGGCTACAAGTGGAAGGGCAAGGAAGTCACGCCTAACTTGAACAAGATCTACCATTCCAAGCACACTCTGGCTTTTGACAACTTCTTCAACCAGGTGGGGCAGGGGAAGACCTCTGACGCGGAACTGATGCTGGAAAACTCCCTCTTCGGGGTCCAGTCGGGGTCAGCCATGTCGACTTACGGGACCAGCAATACTTTTGAATCCATGCCGGCTATTTTGAAGCAAAAAGGCGGCTATACTTCCGTCGTTATGCACGGGGGGACGGGGTCCTTCTGGAACCGGAACAATGCCTACAAGTCTTTTGGCTATGATTATTTCGCTTCTTTGAACTACTACCAGTACCAAAACAGCTGGTACCTGGGCTACGGTTTAAAGGACAAGATCTTCTTCCAGCAGTCGGCCAAGTACATCTCTGAACTGCCCCAGCCTTTTTACTTGAAGATGATCACGGTCACCAACCACTATCCATATACCCTGGACAAGCAGAACCAGTCGATCAAGAAGACCACGACCGGGGACAACACGGTTGACGGCTACGTGCAGACGGCCCACTACCTGGACCAGGCGATCGGCGAATTCATGACCTGGCTGAAGAAGACCGGCCTGGACAAAAAGACCCTCCTGGTCTTCTACGGCGACCACTACGGGATTTCCAACAACCACAACGAGGCCATGGCCCAGCTGACCGGGAAGAAAAATTACGGGGAGTTTGACGACCAGCAGCAGCAAAGAGTGCCGCTCATGTTTTATTCAAGCAACTTAAAAGGCGGCATTAAGCATACCTACGGCGGGGAAATCGACGTGATGCCGACCCTGCTCAACCTGCTGGGGATCAAGAGCAAGGGCTTGATTTTGTTTGGCCATGACCTGTTAAGCAAAAAGAACCCGCAAGTGGTGGCCCAGCGGAATGGGAACTTTATTACCCCGACCTACACCAAGGTGGGGAGCAGCTACTATTACACCAAGACGGGCAAGAAGGTCACCGGCGCCAAGGAAAAGAAGGCCTGCCGCTTGATCGCCAACCAGGTTTTGACCCAGCTGACCCTGTCTGACCGGGTCGTGACCGGGAACCTGCTCCGCTTCTACCACCCCTCCTGGTTTACTCCGGTCAAGACCAGTGACTATGACTACAATAAGATTGACTCTTTAAAGAAGCTGGCAGAAGCCGGTAAGAGCAAGACCAGCTTAAAGAGCCAGCTAGGCAAGAAGGACGCAAGCAGTCTTTATAAAACTGACGCGCCCGAACTGAAAAAAACTAAGACAAAGTAA
>SRR1919932_01464 preprotein translocase subunit SecG
TTGTACAACTTTATTATGACGCTGTTGATCATTGTTTCAGTGCTGATCATTATTGCGACAATGATGCAACCACAGAAGCAGCAAGATGCCTTGAACGCTTTGTCAGGCGGCGCCGTCTTTAGCGGCCAGACCAAGAAGCGGGGCTTTGAAGCCTTTATGGAAAAAGTGACGTCAGTTCTACTGGTATTGTTCTTTGCTTTTTCGATTATTTTGGCAATACTGTCTTCTAAATAA
>SRR1919932_01465 exoribonuclease R
ATGGCGCAAAACGAGACTGTATTGGCGGGCGTGTTGGAGATCTTCCGGCACAACCCGCAAAAGCAATTCAGCGTTGACCAGATCGAGCGGCAGGCCCGCCGGGACCGCTTGGGCAACTTTACCGACCTGGTCAAGGCCCTGGCCTACCTGGAGCAGAAAAAGCAGATCATCACTGACGGCAACGGCCGCTACCAGCTGGCCCAGGAAAATACTGAAGTCGAAGGGGTCTTCCGGGCCAACGACAAGGGCTTTGGCTTTGTCCGCTTAGATGATGAAGAAGCCGATGACGTGTTCATCAACTCTGACGCTACCAAGCTAGCTTTGGACGGGGACCGGGTCAAGGTCAAGATCACGGCCGGCGGCAACCCTTGGAATGGGAAGGGGCCGGAAGGGCAGGTTGAAGAAATCCTGGAGCGCGGGGCCAGCAGCATTGTCGGCGAATACACCCCTTTGGAAGACCTGCAGGTCAAGATCAGCCACTTTGCCGGCTACGTGATTTCGACCAACAAGAAGTTCAAGAAGTACCGGGTCTATGTATCTGAAAACGGCTTGATCCCGCAAATGGGGGACATGGTCAAGGTATCTCTGAAGACCTACCCGACCGAAGAGTTGCCAGACCAGATGACCGGGGCAGTTGTCGAAATTATCGGTAACAAGAACGACCCGGGCGTGGACATCATGTCCATCGTAGCGGAACACGACATCCGGACTGAATGGCCAGAAGACGCCTTAGAGCAGGCCAATGCCATCCCGGACCACGTAACTGAAGAAGAGAGGCATGAAGCAGGCCGGCGGGACATCACCGACCAGCCAGCCGTCACGATCGACGGGGATGACTCCAAGGACTTTGACGACGCGGTCGTTTTGTGGAAGCTGGACAACGGCAACTACCACCTGGGCGTCCACATCGCTGACGTGGCCCACTATGTTAAAGAAGGAACGCCTTTGGACCGGGAAGCTTTTGCCCGGGGCAACAGTACCTACTTGGTCGACCGGGTTATTCCAATGCTGCCGTTCAGACTGTCTAACGGGATCTGTTCCTTGAACGAAGGCGTTGACCGTTTGGTTCTGTCCTGTGACATGGAAATCACCCCGGAAGGTGAGCGGGTATCTTACGACATCTACCCGGCCTTGATGCGGTCCCACGGCCGTTTGACCTACAACAAGGTCAACCAGGCCTTGCGCGCTGACGTGCCGGACAGCGACTTGGAAGACAAGTATGTTAAGGTGCGGCCAATGCTCAAGGACATGGCAGCTCTACATGAAGCCCTGTACAACCAGCGCCACGCCCGGGGGGCCATCGACTTTGAAGAACCGGAAGCCAAGATCATCGTGGATGAGAAGGGCAAGCCGGTGGACATCGTCCTGCACAGCCGGGGGACGGCCGAAAAGATGATCGAATCCTTCATGCTTTTGGCCAATGAAACTGTGGCAGAAGCCTACTACAGAAAAAAGGTGCCTTTCCTTTACCGGGTGCACGAAACGCCGGAAGCTGACCGGATCACCAGATTTTTTGAATTCTGCAGTGCCTTTGGCTTGAACGTCAAGGCAGATCCAAACGACATCAAGCCGCTGGACTTGCAGAAGGTGGTTACCAAGACTTTGGGCACGCCGGAAGAAGCGGTTCTCCAGATGATGATGTTGCGGAGCTTGAAGCAGGCCCACTACTCAGAAGATCCGCTGGGCCACTTCGGGATCGCGGCCAAGTACTACACCCACTTTACTTCCCCAATCCGCCGGTATTCAGACACCATGGCCCACCGGATGATCCACGCCTACCTGGAAGAAGGAATGGGGGATAAGGTCAAGGAGCACTTTAAGGAAGAACTGCCGGAAGTAGCTGATCAGACTTCAACGCAAGAGCGGCGGTCAATCGATACGGAACGGGCAACCAACGACTTGAAGATGACCGAATACATGGCTGATCAGGTCGGCAACAAGTTTGAAGCGGTTATTTCATCAGTAACCAGCTTTGGGATGTTCGTGCAGTTGGAGAACACGGTGGAAGGTTTGATCCACATCTCCAACTTGAAGGACGACTACTACTCATACGATGAAAAGACCATGACATTGACCGGCCGGGCAACCCACAAGAAGTATAAGGTTGGGATGCCGATCAAGGTTGTCTTGACCAATGCGAATGTTGAGCAGCACCAGCTGGACTTTGAAGTTTACGATCCAGATGCCAAAAAGCGGCCCCACAATGACCGCGGGATGGGCAGAAGAAGCGGGGACCGGAACTTCAAGGGCCGGAGCAATTACGGCGGCCGCGACAAGAGCGGTGACCGGCGCCACAAGCCAAGCCGCAACAACCGCGGCCAGCGGCTGGGGCAAAGTGAAAGAGGCAACCGCCGGCGGCCAAACCGTTAA
>SRR1919932_01466 SsrA-binding protein
ATGAAACAAAAAGCCAAGGATGAAAATGTCCTCGCGCAGAACCGGCAAGCCCGGCATGATTATTTCATCAAGGATACTTATGAAGCCGGGATTGCTTTGACGGGGACGGAGATCAAGTCAGTCAGAGCCCGGCACGTGACTTTGCGTGATGGCTACGTGCAGATCATCAACGGGTCGGCCTTCCTGGAAAATGTTCATATCGATGAATATAAGGAAGGCAACCGCTACAACCATGACCCGCTGAGAAGCCGCAGACTGCTTTTGCACAAGAAGGAAATCGCCAAACTGGCCGATGTGAAGGCCCAAAAGGGGATGACCATCGTGCCGCTCAAGGTCTACTTGAAGCACGGCTTTGCCAAGGTTTTGATTGGCGTAGCGCAGGGTAAGAAGGAATACGACAAGCGCGAAACGATCAAGAAGCGCGACCAGGACCGGGAACTGCGCAGAAAATACAGAATTTAA
>SRR1919932_01467 hypothetical protein
ATGGGTTTTTGGATCATGCTTTTGTCCGGACTGATCGGCCTGGGCTTGGTAATTTTTGGTGTTGAAAAGGAGCTGCCAAAGGGGCAGAAAATTGCTTTTTGGTTGATCGGCGCTGCTCTGTTGGTCTTCGCTGTTGCCTTGGCTCTGCCAAATGGCCTGCAGCTTTAG
>SRR1919932_01468 6-phospho-alpha-glucosidase
ATGTCAGACAAGAAATTTTCAGTAGTTATTGCCGGCGGTGGCAGCACCTTCACCCCTGGCTTTGTCATCAGTCTCTGTGCCAACCAAGACAAGCTTCCCCTGCGGAAACTGAAGCTGTACGACATTGATGCTGACCGGCAAAAGAAGATCGGTGACGCCTGCGCCATCATCGTCAAGGAAAAGGCACCGCAAGTCGAATTTGAGTATACGACTGACCCGGAAGAAGCCTTCACTGATGTTGACTTTGTCTTGGGCTCAATCAGAGTCGGCAAGTACGAAATGCGCAACCAGGATGAAAAGATTCCTTTAAAGCACGGGGTCAACGGCCAGGAAACTACCGGCCCCGGAGGCATGGCCTACGGTTTGCGGTCAATCCCAGCCATCATTGAAATCATCGACTTCATGGAAAAGTACTCGCCAAACGCTTGGATGGTCAACTACTCCAACACGATCGCGATTGTTTCTGAAGCCTGCCGGCGCTTCCGCCCGAATGCCAAGGTTGTCAACATCTGCGACATGCCAATCGATGATATGGGCAGAATGGCGGCCATTGCCGGGCTCAAGAGCTTCAAGGACCTCGACTTTACCTACTACGGCTTGAATCACTTCGGCTGGTGGAAGAGCGTTACCAACAAGAAGACCGGGGAAGACTTGATGCCGCTTTTGAAAGAATATGTCAAGAAGAACGGCTACTACGTGGGCGGAGACTTCGACAAGGAAACCGAAGCCAGCTGGGTCGCAACTTTCAAGAAGGTTGCTGACTGCTACGCTTTGGACCCGACGACTCTGCCAAACAACTACATGCAGTACTACTACTTCCCGCAATACGAAGTGGAAAACGCCAACCCGCACTACACCAGAACCGATGAAATCCTGGAATACCGGCAAAAGATAGTCTTCGGTGAATGCGCCCGGATCGTCAAGGAAGGCACGGCCAAGGGCAACCTTTGGGAAAGCGAAGTGCACTCCAACTACATCATTGACATCTGCCACGCGATCGCCTTCAACACCCACGAGAAGTACTTGGCCAATATTCCGAACAACGGGGCCATCTGCAACTTCCCAGACGATGCTATCGTTGAAGTGCCTTGCCTCTTTGGCTCAAACGGCGTGCAGCCGCTGGTAGTCGGTGAAGCCGGCCGCTTCCAACTGGGTCTGATGATGGAACAAGTAACCTGCGAAAAGCTGGTTGTCGATGCTTATGAGCAAAAGTCCTACATCAAGATGCTGCAGGCCTTTGCCTTGAACAAGACTGTTCCAGACGCTAGCGTGGCCAAGAAGATCCTGGACGACATGATGGTCGTCAACAAGCCTTACTGGCCGGATTTGAAGTAG
>SRR1919932_01469 alpha-glucoside-specific PTS system IIBC component
ATGATGCAGAAACTACAGAAATTCGGGGCGGCGATGTTCGTGCCTGTCCTGCTTTTCTCTTTCGCCGGTATCGTGGTTGCCTTAACCAGCCTGTTCAACAACCCGTTGATCTTTGGCTCACTGGCAAACACCAATACCTTCTGGTACGGTCTGTGGGACACCGTTCAACAAGGTGGCTGGACCGTCTTTAACCAAGTTGACATGCTCTTCGTGGTCGGCCTGCCAATCGGGCTGGCTAAGAAGGCCCACGGGCGGGCAGCCATGGAAGCCATCGTTACCTACTGGACTTTCAACTACTTTATCGCTGGTTTCTTGACCCACTGGGGTGCCTTCTTCGGCCTTAAGGACTACGTTAAGACCCAGATCGTGGCCAACTCAGCCAACAATGGTTTGACCATGATTGCCGGGATCAAGACCCTGGACACCAGTATCGTTGGTTCCCTGGTCATCGCCGGTATCGTGGTTTGGCTGCACAACCGCTACTTTGACAAGAAATTGCCGGACTTCCTGGGTACCTTCCAGGGTTCAGCCTTCGTTGTCATCTTAGGCTTCGTGGCCATGTTCCCAGTTGCCTTCCTGACCTGCCTTATCTGGCCAAAGGTACAAATGGGCATCACTGGTTTGCAGGAATTCATGGCATCCAGCGGCTTGATCGGGGTTTGGATCTTCAACTTCCTGAACCGGGTCCTGATTCCAACTGGCCTGCACCACTTGGTTTACATTCCGTTCCAATACGGTCCGGCCGTCGTTGCCGGGGGCTTGCAACCATGGTGGCTCAAGCACTTGACTGAATTTGCCGAAAGCACTAAGAGCCTGAAGAGCCTGGCTCCAAACATGGGCTTCATGCTTTACGGGAATGAAAAAGTCTTCCTTGTGCCAGCCATCTGCCTGGCCTTCTACCACACTGCCAAGAAGGACAAGAAGAAGCAGACTTCAGCCTTGCTTTTGCCAGCTGCTTTGACTTCATTCCTGGCCGGGATTACTGAACCTGTTGACTTTACCTACCTCTTCGCGGCTCCAATCCTCTGGGTTATCTACTCAGTTCTGGCCGCAACCATGAACACCACCATGTACATCTTCGGCGTTGTCGGCCAAATGACTGACGGGGCCATCGGGATTGCTTCCATGAACTGGCTGCCGCTGTGGGCTAACCACTGGCACACCTACATGGCCCAATTCATCATTGGTTTGATCTATGCCGTGATCATCTACTTCATCTTCCGCTTTATGATCGTCAAGTTCAACTACGCTACTCCAGGCCGGGAAGCTGACGACCAGGAAGTCAAGCTGATGAACAAGAAGCAATACAAGGAAGCCAAGGCTGCTGAACAAGCTGCTGAAGCTGCCGGGCAAAACTCCTCTGACCCATACATCGCGAGAGCTACGGCTTACGCGACTCTCTTGGGCGGGCCGGAAAACATTGCTGAAATCACTTCCTGCGCAACCCGTTTGCGGGTAACTGTCAAGGATCCTGACAAGGTCGGCGCCGATGCTGCCTTCAGAAAGAACCAGGCAGTCGGGGTTGTCCGTCACGGTTCAGCCATCCAGGTCATCGTTGGTCTGGACGTTGCCCAAGTTCTGGAAAGAATTGAAGATATTATTGCCGACAGCGGCAACACCGTTGCCAAGGCCGAAGTCGACCCTGATGAAGAAAAGGCCACCGGCTACCTGGACCTGCTGGGCGGCAGAAGCAACATTAAAGAACTGACTTCCTGCTCAACCAGAGTAAGAGTCCACGTCTTTGACACTAAGAAGGTTGCCGGCGACGACGACTTCAAGAAGTTCGGGGCCAGCGCCGTTGAAAGACGGGATGACCAGGAAATCGACATCGTGGTCGGCCTGGAAGCTGAACGGGTTGTCGACAAGATGAAGGAAATTATGTAA
>SRR1919932_01470 RpiR family transcriptional regulator
ATGGTAGGACTAAAAGCACGAATCGTGGAAAAATCAAGTGATCTGAATCCATCGGATAAGAAGATCTTGAATTACTTGCTGAACAATGCTGCTGAATGCAGCGAACTCAGTCTGGCGAAATTGGCCAAGAAGCTTTATGTTTCAGAATCGGCCATTTTTCGCTTATGCAAAAAGGTCGGTCTAAGTGGCTACAGCGAATTGAAATACGAGCTGGCAGATTTTTCCAAGGGGGAGAAGCGGATGGTTAAGCAGCAAGATACCTTCGCCGAGCGCCTGGTCAAGAATCTGCGCTCAGAGCTCAGCTATTTCAGGACACTGGATTTTGAAAGCTTTTATTCGACCTTAAACCAGACAGAAAATATCTACATTTACACCACCGGCTGGCAGCAGGCGTCTATCGCCAGCTATCTCTCCAACCAGCTCCTGGTGAATGTGGGCAAGCCGACGGTTGTCATGCCATCAGCGATTAGTGAATTGAAGATGTCGAAGAATTGGCTGCAAGACCATGACCAAGTGATTGTGATTTCATTTTCCGGGGAAGATCCTGACTTGTGCCAGCTCCTGGATGAGCTGCACTTGCTCAATGAGCATTTGACGATTACTTCGCTGACGACCATCAAGGAGAGCCGGCTGGCCAGTCTGTCTGACTACAGTCTCTTTTTCCAGCCAAGTCTCTTCCATGAGAGCATCAGCACCAAGAACTGGGCTTTTAGTCCGGCTTACACAATGATTGATTTATTGATTAACGGCTACTGCGAGTGGCTGAGAAAAGAGGATGAATAA
>SRR1919932_01471 hypothetical protein
ATGCAGGAGAAAGCTTTGAATTGGCTAGACAGGTTGACTAAGTCTGCCCGTCTGACGCCGAAAAGAATATTAAAGATCTACACCTTCGTCCTCTTTTTTGCCCCGCTGGCCTACCTGCTGCTCTTGCAGCTGCGGGCCGGGGCGGCCAAACAGACGATCACTGACTCCATCGCGGCCAGTCCCGCGACCACGGTGTCAATCATCGTGGCAGCCGGTGACTTTCTCTTGGGTTACCTCTGCTGGATCGACGGCGGGGCCCTCTTGGCCGACCGGCGCCAGTACATGAAGTTTATGAAGCTGCAGCTGTGGACCCAGCTGATCGTTGGCAACTGGTTCTGTCTCCTCTTCGCTATTTTTGCCCTGCGGCGGGGAGAGGATTTACCTGAAGAGAGCAAGGTAAAGCCGAGCCAGCTGCTGTCCTTGACCTACTTAATTGCTTCTTTATTCGTAATTTGTTTTGTGTTCTATGTTGTTCTCGCCTTTAGAGCGGTGAAAGGCTGA
>SRR1919932_01472 glucose specific PTS system IIA component
ATGTTTAATTTCTTTAAAAAGTCCAAGTCAAAAGGTAATGAAGTCAAGGCGCCCATCAAGGGCAATCTGATTCCCCTGTCCGAAGTCAGCGATGACGTCTTCTCCCAAAAGATGCTGGGCGACGGTTTTGCCGTTAAGCCGACCGGCCAGGAAGTAGTTGCCCCGGTTTCCGGGACCATTACCACCCTGTTCCCGACCAAGCACGCTATCGGCGTCAAGACGGCCGAAGGGCTGGAAGTCTTGATCCACTTGGGGATCGACACGGTGGAACTGAAGGGGGAACCCTTCAATCTCTTCGTTGAGCAAGGCGATTCAGTCAAGGCTGGCGACAAGCTGGCGGAAATGGACATCGCCGACGTGGCTGACCACGGCCTGGACAACACGGTCATGGTGGTTTACACCAACATGGACCTACTTAAAGAAGTCAAGGATGTCGACCCAATGTCATTAAGTTAA
>SRR1919932_01473 hypothetical protein
ATGAAATCGCTAAAAATCAATATTTCGTATCTGTACTTCACTATATTGTCCTTATATTTTGGGTTTGTTTTTACACCGCTTCAATTTTCCTATGAAGTTCAAAACACTGTTGCAATCTTGATGGCGGGTATTTTTATATTCTGGTTTATCAACGAAAGATATACTATAAAGGAAATTGCATGGATTCTTTTCCTTTTGTTATTCGCTTCAATAGCGGCTTGGAAAAATAATGTTGCTTTGTTGATAGATGTTATGTCAGCTATTATTTTTTCAAAAAGTCAGTCCAAATCTATTTTTAAATTAATTTTCTGGGAAAGAATTATTTTTAATGTCTTTAGGTCATCGCTTTCGCTAACTGGCGTAATTCAGAATAAAGTTCAAGTTGCAAAGAGTGGGCAGTATGTAATGGGATATGGCTTAGGATTTGACAGTCCTAATAATTTATCTGTTGAAATAGGCATGTTAATATTGCTGTATGTCTGTGTTAAAGAATCGTCTTTAACTTTAAAAAATATTTTTGTAATTATAGTTATTACGGCCATGACATATAGACTTACTTTATCTAGGACGTTTCTCCTTATGATGACTATTGCTATAATTTTATTGATTGGGATTAAGTATCTTGAAAAGTTTAAGTTCTTCATTAATCTATACACGTTCATTAGTATTGCTAGTTTAGCTATTGGTTTCATAGTTAGTATCGGGATTCCATATGTAATGAATTTGGGAATTGGCAATCTTAGGCCGCTAATTGTTTTGCTTAACAATTTAACTAGCAATAGATTTATGCATGCCTCTAGAGCTATGTTACACTATCCGATTACTTTATTTGGTGGTGTTGGGGATTTTAATATTCTAAAAACCATTTATAACTATTCCATCGTCGATGACAGTTATATTCATTTACTGTATGGATTTGGTATTGTAGGTACCATTATTTTTGCATTCATATATATTAAAACTATTACTACGCTTGCGAGCGAAAAGAAGTTTTATTGGATGGTGCCAGTAATCGTGTTTATACTGTGGGGAATATCTGAAGGTATTCTCTATACTTTACACTGGAATTTCTCGATCCTTTTATGGGGAGTTATTCTTGAGAAGAGTCGTGGAGTACTTGGGAAGGGTATCGCCGAAGAAAGGATTGGTAATTAA
>SRR1919932_01474 glycosyl transferase
ATGATGAAAGTAACTGAAAAAAAGGAAGTTTCAATAATTATTCCGGTTTACAATGCTGAAAAATATCTTAGCAGATGTATTGAATCTATTGTCGGTCAAGATTATACAGATTTGCAGATTATCGTGGTGGATGATGGGTCTACAGATAATAGCCTAGGAGTTGTACAGGATTTTCAAGATGATAGGCTTCAAGTGTTCTCAATTGCTAATGGTGGTGTATCCAATGCACGTAATTTTGGTTTGAGCAAGGCAACTGGTTATTATGTTATGTTTGTAGATGCTGACGATTGGTTGAACCCTAATGTGATTGGCACACTTATTTCAGCTGAGCAACATTATGGGTATGATCTAATTTTGGGTAATTATTCTCGAGATATAGAATATTCTAAGTCGAAACAAGTAAGTACAATTTCGTTTAAAGATCTAACAAAAGACGAGACCTATCGACAAGTAATCAATCCGTATGGTTTCTATGGTAGTGTTTGGGCAAAAATATTTAAGTTAGATATTATCAAAGATAACAATTTGAAGTTTAATAATAACATTACAGTTGGTGAGGATTTACTTTTTGTCTATCAGTATCTAAATTTTGTTAAAACAGTAGCATATACTGATGCTAGACTATATAATTATTATATTAACAAAAAGAGTGTATTGCATAGCTTAGACGCTGATACATTGTACCATCGTCTTGATATTTTAAAAGTTTACGAAACTATGTTTCAACAAAAAAATATACAGAAACAGAGTTATTATACTAGAGCGGTTGCAATTTATGTGCGTGAACTAACAGATTGGTACTGTTATGCAGTACATTTTAAACAGAAAAAACTTTCTGCATCACTAAAGGAAAAGATTAAGAAGTATTGGGCGATTTTTGTGAAGGATGATACCTTCTCTGCCAAAAATAAGCTGGCTGCTTTTTTAAAGTATCATTTTCCTGTATTGGCTTATAAGTTAAAAGGGTAG
>SRR1919932_01475 glycosyl transferase
ATGAAAAAAATAGCTTTCTTAATTATGAATATGGAGAACAAGGGTGGAACCGAACGGGTTACATCGATGATAGCTAATGCTCTATCTGATAAATATCAGATTTTTATTTTTAGCTGTCAAAAAGGTGAAAAGCCTCATTTTCATGTTGATGAGCGTGTTTCTATTGAATCTTTACATGGTGAACAGATTCAAAACACAGTCTTACGTAAAGTCAAAGTATATCGAGAACTTGCTAATAAGGCAAAAAAATACGAGATTGACATCATTGTAGCAGTAGATGTTGCCTTATACTTGTATCTGTATCCTTTGCAATTATCTAAAAAGTGCAAGTGCATTGCTTGGGAGCATTTTAATTACTTTATTTCCCCAAATAGAATGGTCAAGTTTGGTAGAAAACTTGCAGCTAAGCATGCTGATTGCGTGGTTGTTCTTGGTAAGAATGATATGCAGAATTATCAGCAAAATTTGTCTAAAATTAAGAGAATTGAGTATATTTATAATCCTGTAGCTGTGGAAACCACTGGCCAGATTGATGTAAATAGTAAGCAGATTATGGCTGCAGGGCGTTTAGAAGATCAAAAAGGTTTCGACTTGCTTATCGACGCATGGAATCTAATTGAACAGGATTGTCCTGAGTGGCATCTTGATATCTTTGGTGAAGGATCAAAAAGGGGGAATTTAGAACAGAAGATTAAAGATTTGGGGTTAAGTAGAGTTTTCTTAAAGGGTTATGCTAACAATATTGCAGAAAAATTACAAAAGTCTTCAGTTTTTGTTTTGTCATCACGCTATGAAGGCTTTGTCTTAGTTCTTATCGAGGCACAAGCTAACGGCTTACCATGTGTTAGTTTCGATTGTAAAGAAGGACCGGCTGAAATTATTAAGGATAATAAGAATGGTTTCTTGGTAAAAAACGGTGATGTGTCAGAATTTGCAATAAAATTGAAGCGTGTTTTAATGGATGATCGACTGCGCGAAAGATTTGCACGTCACGCTAAAGACGATTTAGCTCGTTTTGATATTGCAAATGTGAAGACTAAATGGCAGAAATTAATTGAAAGCTTGTGA
>SRR1919932_01476 glycosyl transferase
TTGATTCCCAAGATTATACATTACTGTTGGTTTGGAAATAGTGAGTTGCCAGATATTGTTAAGGACTGTATTTCATCGTGGAAAAAGTATTGCCCAGAATATGAAATTAAACGATGGGATGAATCAAATTATGACGTAAGTAAAAATGCCTATACTAGAGCAGCTTATAAAAATAAAAAATGGGCATTTTTAACTGATTATGTTCGATTAGACATCCTATATAATGAGGGTGGGGTCTATATGGATACAGATGTAAAGCTTATACGTTCTTTAGATCCATTGATTGATAAAGGGCCCTTTATGTCGTTCGAGAAGAGAGGAAGGGTTAACACTGGTGTTGGATTTGCTTGTGAAGCAGGAAATCCAATCGTAAAAGAAAATAAAGATTATTACGAAAACAATTTATTTGTTGATGAAAATGGCAATTTCAAACCTGAGATATGCGTCAAAATTACAACAAAGATTTTAATAAAACATGGCTTAAATTATACGGAAAATGTAGTGCAAAAAGTAGATGGCTTAATTGTGTATTCGTCGGATTACTTCTCTCCCAAAAAATTAGGAACTGAAAAAATAACGCTAACTAGTAATACATATGGAATACATTTGTTTGCTTCTAGCTGGTATAAAGGGTCAAAGATATCCAGAAAAATGAAGTACCACTTAATTCCTCTTAAGGAATTTATCAAATACAAAATATTGAGCAAAAAGCTTTATGAGTAG
>SRR1919932_01477 glycosyltransferase family 28
ATGATATTTGTAACTGTAGGAACGCACGAGCAGCCATTCAACCGTCTAATTGAGAAGATGGACGAATTGGTTGAAAAAGGTGAAATTAAAGAAAAAGTGGTTGTCCAGTACGGGTTTAGTACTTATGAAGCTAAGCATTGTGAAATGCACAAAATGATGAGTTTTGACGAGATGCAGCAAACGTTTAAGGATGCACGTATTGTTATCACTCACGGTGGTCCATCTAGCTTTGTAGAAGCTCTGCAGTATGGTAAGGTACCGATTGTAGTACCGAGACAGTTAGAATTCAATGAACACGTTAATAATCACCAAGTTGATTTTACCAAGCTGATTGCTGAGAGAATGAACAATATCATTCCCGTTTACGATATTGATGATTTAGCTACTACAATTGCTAATTACGACAGTATTGTAAAAACGAGAAATAGTGGCGAAAGCAGCAATAATAAGAAATTTAATGAGAATCTAGAAAGAATTGTAGATCAATTGATGTAA
>SRR1919932_01478 UDP-N-acetylglucosamine--N-acetylmuramyl- (pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase
ATGTCTAAAGAAAATATCAAAGTCTGTTTGGTTGGATCAAGTGGTGGCCACTTGACACACTTGTATATGTTGAAACCATTTTGGCAAAACAAGGATCGTTTCTGGGTGACTTTTGATAAAGAAGATGCTAGAAGCAAACTTAAAGGTGAAAGATTCTACCCTTGCTATTACCCCACTAACCGTAATTTGAAGAATTTAATCAAAAATACTTTTCTAGCAATAAAAGTGCTTCGTAAAGAGAAGCCAGATATTATTATTTCTAGTGGTGCAGCAGTAGCAGCACCATTCTTCTACATCGGAAAAATGATGGGAGCTAAGCTAGTTTATATTGAAGTGTTTGACCGTTACGATAAACCTACAGTAACAGGAAAACTAGTTTATCCTATTACTGATAAGTTCATTGTAGAATGGGAAGAAATGAAGCAGGTTTATCCTAAGGCAATTAACTTGGGTAGTATCTTCTAG
>SRR1919932_01479 sugar transferase
ATGGATATGGGATATAGCAGTAGTCCAGCATATGTTAAACAGTCCAAAGTCAAGGGCCGCCCTCTCTACCATGGGATCAAGCGTCTCTTTGACTTTCTGGCATCTTTAGTTGCTTTGATTCTGTTGTCGCCGCTCTTCTTGTGGCTGGCGATTAAGATCCATGGCGAAGACGGTGGTCCGATCTTTTACTCACAAATCAGAATCGGCAAGAATGAGAAACCATTCCGGATTTACAAGTTCCGCTCAATGGTAGTCAATGCCGATAAGATGAAGAAGGAACTCTTGGATCAGAATGAAGTTGAAGGCGCCATGTTCAAGATGCATGATGATCCACGGATTACCAAGGTTGGCAAGTTCATTCGGGCTCACAGCTTGGATGAATTACCTCAGCTTTGGAATGTACTGATTGGGAATATGTCACTGGTAGGCCCCCGGCCGCCGTTGCCAAATGAGGTTGAACAGTATACTGACTATGACAAGCAGAGATTGCTGGTTAAGCCGGGATGCAGTGGCCTTTGGCAAGCAACCAGCCGGAATGCAGCTGATTTTGCGGATATGGTGCAGCTCGACATTGAGTACATCAACCGGAGTGGCGTCTTCTTTGATCTGTGGATCATTTTTAAGACAATTGGTGTTATCTTCCACCCGAACGGGATGTATGAAGAGTAG
>SRR1919932_01480 exopolysaccharide biosynthesis protein
ATGCCGGTAGTTGATTTACACTGTCACATCTTACCAGGGATCGACGATGGTTCAAAGTCTTGGGAGGCTTCACTTAAGCTTGCCAGAGCCGCGGTTGCGGATGGCGTAACCCATGCCTTGTGTACTCCACACACATTAAATGGCCGCTACACCAACCACAAGCAAGATGTGACCAAGTTGACGGAAGAGTTTCAAGATCGGATTGACCAAGCGGGTATTCCGCTGACGGTCTTTCCAGGACATGAGGTCAGATTGTCAGGTGGCTTAACTGAAGCCCTTGATAATGATGACATCCTCTTCTGCGATGAAGAGGGACACTACATGCTCTTGGAATTGCCAAGCAATGAAGTGCCACATTACACCAAGAACATGGTGTACGAACTGACCAGAAGAGGGATTACGCCAATCGTTGTTCACCCAGAACGGAATAAGGAAATTCTGGCAAATCCGCAGAAGCTGCAAGAATTCTTGGAAATGGGAGTTTTGGTGCAGATTACTGCTAGCTCTTACACCGGTTTGTTTGGGAAAGAAATCGAAGACTGCAGCCGGGAGTTTATCAAGGCTGGACAATGTGCCTTCTTTGCCAGTGATGCTCATGATTTGCCAAGACGGCAATACCAATTAGGTGAGGCGCTAGACAAGTTGGCGAAAGAATTTGGTAAAGATAAGAAACAGAAGTACTTGGACAACGCGCAAGCGGTAATCAATGGCGATCCGGTTTACCTAGACTGGCAGCCATTGCCTAAGAAGCGGAAGAAATTCTTAGGACTGTTTTAA
>SRR1919932_01481 exopolysaccharide biosynthesis protein
ATGGGCTTATTCGGTAGAAAGAATCACTTAGACAACGAAACAATTAAGAACGGGGCCAAGCTGATTACTTTGGCTAACCCGCAAAGCGTTATTTCAGAACAGTTCAGAAACATCCGGACCAACATCAACTTCATGAACGTTGATAAAGAAGTAAAGACGATCGCCTTTACCTCAGCCATGGCCAGTGCCGGCAAGTCTACGGTTAGTGCCAATGTGTCCATTACCATGGCACAAGCTGGTAAGAAGACGATCTTGATCGACGCGGACTTGCGTCGGCCAACCTTGCACTCCACTTTCAATGTATCCAATAGTAACGGCTTGACCACTTTGTTGACTAGCCGGTCTAAGGAAATGGACGCAAACAGCGTGATCCGGAAAAGTGGGGTAGAGAACCTGTCAATCTTGACGGCAGGTCCGATTCCGCCAAACCCGTCAGAACTTCTGTCTTCCAAGCATATGTTGGATTTGATTGAAGATTTAAAGCAAGAATATGATATGGTCGTGCTTGACTTAGCACCGATCTTGGACGCGGCCGAAACCCAGCAACTGACCAGTTCTTTGGACGGAACGATCTTGGTTGTGCGCCAGGCATATTCACAGAAGTCAGCGGTTAAGCGGGCAGTTGAGCTACTTAAGCTGACTAAGTCACCAATTTTAGGTTATGTTATGAACGATGTTGATGCCGATGGGGATGGCGGTTATGGATATGGTTATGGATACGGTTACGGCTACGGTTATGGCAAAGAAAAGGAGAAGAAGGGTCTCTTTGGGAGAAAGAAGTAG
>SRR1919932_01482 exopolysaccharide biosynthesis protein
GTGAGCGCTGAACAACAGAATAATGAAGAAGTAACCATTGACCTGCGCAGGCTCTTCATCTTAATCAGAAAGCACATTATTAGCATTTTGATTTGGATGATCGGCCTGGGCTTGATCGCTTATGGGGTTTCAGAATATGTTCTGGTGCCAAAGTACACTGCTAGCACACAACTCTTGGTCAACCGTAAGTCAACAGACGCTAACCAAGCTTATGCCAACCAGCAAGCTGACATTAACGCTGTTACTACTTACAAGGATATTATCACTAGTAACGTTATTTTAAAGGGTGCATCCAAGTACCTGGCAAACCCGGTAACTCTGGTTAAGAAGGCAACTCCAGCTAAGAAGGCCGTTTACCGGACTAATGATGATGGTACCAGAACCTTGGTCAAGAAGGCGGTTAAGGCTAAGCCAGCGGTTTACAAGCGGGAAAGCAAGAGTTACTCAGTCTCAGCCAGTGAATTGGCTAGCGCGGTTTCAGTAACCACTACGACTTCTTCCCAGGTCTTAACCTTGTCAGCTACAGCTGAAACTCCAGCCAAGGCCCAAGCAATTGCTAACGCGGTTGCCAAGGAATTTAAGGAACAGATTCCTAAGATCATGGACGTTAACAACGTGACGATCGTGGCGGAAGCGCCTAAGGGAACTAAGTCTTTCCCAAAGGTAAGTCTGATTACGGCTATCGGTGTCTTGGTTGGTTTGGTTATCAGCTTGTTGATCATCATTATCAAGGACTTGTCGGACACGACTGTTCGGGAAGATTCATTCATGACTAACGAACTTGGCTTGACCAACTTGGGTGAAATTGCAAGCATCACGATGCCAAAGGACTGGACCTTTACGGCTAAGACAGCTGAAAAGCGCGGCAGTTCCAGAAGACGGGTTTAG
>SRR1919932_01483 LytR family transcriptional regulator
ATGAATGAACCTGATCAAAGTCGTGTTCATCACCACCACCATCATCACCATCACCGCCGCCGTAAGCGCCATATCGGCCACTGGATCGCGGGGATTGTTGGGGTCTTGCTGCTGGCAGCGTTATTAGTAATCGGTTATGCTTATAAGAATGCCAGGGATGCAGCGACGACGATGTACACGCCGGTTTCAAAGTCTACCAAGTCAAACAAGAACCGGTCCAGCTTAGACAAGATCCTGGATGCCAAGAAGCCAGTCAACCTCTTGATTCTGGGGACTGACACCGGGGCTGAAGGACGGAGCGTAAAGAACTACCACGGCTTGACTGACTTGATGATGTTCGTCACGGTCAACCCAAGTAAGAAGCAGACGCGGGTAACCACGATCGCCCGGGACTCCAAGGTTAACCTGCCGGATTACCCGGAGGTTTCACCGATCAAGCTGAACAGCGCCTACTCTTTGGGCGGGGTTAGCGAGACGATCAAGACTTTGGATAAGTACTACAGCGTGCCGATTGATGGTTATGTCCTGGTTAACTGGGCAAGTACCATGAAGATTATCACCAAGATGGGCGGGGTGGATGTCATCTCTCCATTGACCTTTGACAATATGGGCTACTCCTTCAAGAAGGGGCAGATGTACCACATTTCTGGTAAGAAGGCTTTGGCTTTCGTCCAGCTCCGCCACGGTGATCCGCGGCAAGACTACGGCCGCCAGGAGCGTGAACGGCTGGTGATGATGGCTGCGATTAAGAAGAGCGTGTCATACAAGACCATCTTAAACAGCTCATTCATGCAATCTTTGGGTGACAGCATGCAGACTGATCTAAGTTTGAATGACATGATCAAGTTGGCCATGAATTACCAAGGGGCAACTGACAATGTCAAGTCAGACTACCCGCAAGGGACGAGCAGCAGCGTCAACAACCAAAGATTTGGCAACATGGAAGTTGAAATCATGTCTACTAAGGAAAGACAGCGGATTTCCAACAATATCCGGCAAACTTTAGGAATTAAGAATGTCAACGTTTATAAGGAGGATAACTAG
>SRR1919932_01484 GTP-binding protein
ATGATCGACAATCAAGCTCACTCAGTCAAGGCCTACTTAGCCGGCGTCAATCTTGATGATCCCAACTTTGACTACTCCATGACCGAACTGGCCAATTTAGCAGAAGCCAATAATTTCACCGTTGTCGGCTCCAGCCAGCAGAAGGCGGAAAACATCGTCGCCTCCAGTTACCTGGGCAAGGGCAAGGTGGCTGAAATAAAAGACCTGGCCCAAGGACTCGGGGCCTCCGTCCTCATCGTCAACGATGAACTTACCCCAGTCCAAATCCGCAACCTGGAACGCATGACCAAACTCCGCGTCATCGACCGGACCGAACTCATCCTGGAAATCTTCTCTTCCCGGGCCCGGACCAAGCAAGCCAAGCTGCAGGTCCAATTAGCGCGCCTGCAGTATGAACTGCCCCGCCTGCACCCGTCTGAAAACAACCTCGACCAGCAGCACGGCAGCGGCGGTTCCACCGGCGGGGGCTTCGCCAACCGCGGGGCCGGGGAATCCAAACTGGAAATGAACCGGCGAACCATCGGCAAGCAGATCTCCACTATCAAACATGAATTAAAGGAAATCTCCGGCCAGGAAGAAATCAAGGCTGCCCGCCGCAACCAGAGCCAGCTGCCTAAGGTCGCCCTGGTCGGCTACACCAACGCCGGCAAGTCTACCACCATGAACGGCCTGCTTAAGGCCTTTGGGGCTGGCAATGAAGACAAACGGGTCATGGCCAAGGACATGCTCTTCGCAACCTTGGACACCTCAGTCCGCCGGATCGACCTGGATGGTTTCTCCTTTATCCTGTCTGATACCGTCGGCTTTGTCTCCAAGCTCCCCCACAAGCTGGTCGACTCTTTCAAGGCGACCCTGCAGGAAGCCAAAGACGCTGACCTCTTGATCAATGTCGTTGACGCTGCTGACCCGAATATGAACCAGATGATCAAGACCACTCTGGAAGTCTTGGACGAAATCGGCGTCAAGGACCTGCCAATGATCACGGCCTACAACAAGGCTGACTTGACAGACCGTAACTACCCGCAGATTGAAGGGGGCGACCTGCTCTACAGCGCGGTTGACCCAGCTTCCATCCAGGCCCTGGCCAAGCTGATCACGACCCGCCTCTTCAGCAATTACCAGATCACTGACCTCCGCCTGCCGCTAACAGCCGGCAAAGACCTGGCCTACCTGCACCAGCACTCCCGGGTCTTAAAGGAAGACTACCAAGCTGACGGAATCGAAGTTTCCGCCCGCCTGTCGCCCCAAGACCGGGCACGTTTTAGCGCTTACCAAATTTAG
>SRR1919932_01485 cell wall-associated hydrolase
ATGAAGAAGTCTAATATGATCAAGTTCTCTGCTGCAGCGCTGACTTTCTTAGGAATCTCAGCGACAGGGGTCAAGCCGGTCAAGCAGCCGGCCCAGGCCGCCAGCAAGCGGATCAAAGTTATCAGTAAGCAATATGTCACTGTCTGGGCCAACTATCAGAGAGGGCGGCATGTTGCGACTCATTTAAAGAAGGGCAGCAGCCATTTTGTCTACCAGACGGCAACTGACTCCATGGGCAATCTGTGGTACCGGATTGGCAAGAAGGAATGGGTCATGGCCAAGTACTTTAACCAGGTCAAGTCTGCCAAGAAGGCCGTGAAGGCCAAGAAGGTTAAGAAGACCAAGGCCAAAGTCAAGAAGACGAAGACGGTTAAGAAGGCCCGCAGTGCTGCCAGTTTGGCAGCCTCTTGGTCTGCCCCGATGGGGTCTAAGGCCCGGGCTAAGGCAGTCGTGTCTTTGGCTAAGCAGCAGGTCGGCAAGGCCTATGTCAAGGGCTCCAAGGGCCCGAATGCCTTTGACAATGCCAGTTTGGTTGCCTATGTCTACAAGCAGGCAGCTGGCGTCAATACAGGTTCCAGCACCAAAAGCCAGGTCAAGAAGGGGATCGCGGTTGATCCAAGTTCTGGCTTCGCGGAAGGAGACCTGCTCTTTTGGGGTTCCAAGAATAAACCATATAATGTAGCCATTTACGTGGGGGACGGGAAGTACGTTACCGCTGCTGGAGACCAGCAGGGGGTTGTACAAGCGAGCCTGTCCACCTACTTCTGGCCTAGTCGGGCAAGAAGAGTTCTATAG
>SRR1919932_01486 cell wall-associated hydrolase
ATGGGTAATGCAAGATGGATTAAATTCATGGGCGTGGCGGCGCTCTTTTTCGGAGGACTGGGCCTAGGCGGCCAGCCAGCAAACGCGCAAGTCAAGGGTCACCTTTCCAAGGTCCAGGTAGTCAAGAAGGCTCCGGTTTGGACCAACTACAAGAAGGGCAAGAAGACCCATAAGTACCTTAAGAAGGGTACGGTCAAGAAGGTCAAGGCCTCAGCTACTGACAAGAAGCACAAGGTTTGGCTGAAGATTGGGAATAAAAAGTGGATTGCCAGCAAGTACACGGTTGTCTTAACAACGACCAAACAGACTGCAGCCAAGAAACCGACCAACCCCGTCTTAAACGCCAATCAATTGACGCAAGCTGCTTCGTCCCAGGCTCCCGTTGGTTCATCTTGGCGGCAAAATGCCGTAGTAGCCTTAGCCAAGGCGCAAGTCGGCAAGGCTTATGTCTGGGGCGCGACCGGTCCAAGCAGCTTTGACTGCTCCGGCTTAGTCCAATGGGTTTACAAGACCGCGACTGGGCAAACCGTTTCCCGGACTACCTATACCCAGGTTGAGGAAGGCGTAGCTGTGCCGGTATCAACGGCCAGCCTGCAGCCGGGGGACCTCCTCTTCTGGGGGGATGTGGCAGCGCCATATCACGTTGCAATTTATGTTGGTAATGGTCAATATGTTTCCGCCGCTGATGAGCAGCAAGGGGTTATCTTGGCAACCATCAGCAGTTACTTCTGGCCATCAACGGCCCGGCGGATTCTCTAG
>SRR1919932_01487 cell wall-associated hydrolase
TTGGTTGGCCAGGTTAAGTCCGGCTACAAGTTCACGGCCACGGGTCAAGCCCAGTACAAGGGGCGGACCTGGTACCGGATCAAGGACAACAAGTGGATTCTGGGGACTAACACAGTCACGACTAAGAAGTACGCTTCAATTAAGGATAAGGCTGCTAAGACGGCTAAGCAAAAGAAGGTAGTTGCTTTGGCAAATGCGCAAGTCGGCAAGGCTTATGTCTGGGGGGCAACTGGTCCTTACAGTTTTGACTGCTCAGGCTTGACCATGTACGCGTACAAGAAGGCAACGGGCTTGACATTGCCGCACTACTCAGTCAGCCAGCTCTACTACGGCAAGGCGGTATCAACTAAGAAGCTGGTCAAGGGGGACCTGCTCTTCTTTGGTTCTAAGTCAGCTCCAAGCCACGTAGGGATTTACGTGGGCGGCGGCAAGTTCGTCCACGCTTCCAGCCCAACGGTTGGGGTAATCAAGTCTAAGGTCAGCACGAACCGCTCCAGCGCTTTCTACCCATCCAGCGCGCGGAGAGTAATTTAA
>SRR1919932_01488 RNA polymerase sigma factor RpoD
ATGGCAAAAGAAAATGCTTCTAACGTAAATGATTTTCCACTGGAAAAAGCAGTTAAAATGGTGATTACCGGTTTAAAGAAGACCAAGCAGATCCGCGAAAAGGACTTGAAGGCCCGGCTCTTGCTGCCGTATGGTCTGAATGATGCCGAAACTGCCAAGCTGGTAGAAGAGTTTGCGGACAATGGGATTAGTATCGTTGACGACCAGGGTGAACCGTCTGCTCTGGCCCTCAAGGCTGAAGAAGAAGCTGAAAAGAAAGAACAAAAAGAACTGGTCGCTTCCAGCGACAATGACCGGGTTTACGACTCGGTTCGGATGTATTTAAAGGAAATCGGCAAGGTCCCGCTTTTGAGCCGGGACGAAGAAGTAGAAGTAGCCAAGCGGATTGAAAACGGCGATGAGTCAGCCAAGGATGAACTGGCCGCCGCCAACCTCCGTTTGGTTGTCTCCATTGCCAAGCGCTATGCCAAGCACAATGGGAAGATGGGGATCCTGGACTTGATCCAGGAAGGCAATATCGGCCTGATGAAGGCAGTTGACAAGTTCGACTACTCCAAGGGCTTTAAGTTTTCAACTTATGCTACCTGGTGGATCCGGCAGGCCATTACCCGGGCCCTGGCTGACCAGGACCGGATGATCAGAATCCCGGTTCACGTAGTGGAAAGCATAAACAAGATGAACCGGATCCAGCGGACTCTGCAGCAGGACCTGGACCGGGCTCTGCAGCAGGACCTGGACCGGGATGCCAAGCCGGAAGAGCTGGCCGCGGAAATGAATGAACCTTTGCAGAAGGTGCAGGAAATTATCACGGTAGCCAAGAACCAGGAAACTGACTCTTTGGACAAGCCGGTTGGCGAAGAAGGGGACTCGCAATTGGGGGACCTTTTGGAAGACAACAAGGCAATCAACCCGGAAGAATACACTGCTTTTGAAATGCTGAAGGACCAACTGTCCAGCATGATGGGTGAGTTCCTGACTGACAGAGAAGCTAAGGTCTTGAAGCTGCGCTTCGGCCTGGAAAACGATGAGCCGCACACTCTGGAAGAAGTTGGCCGCAGTCTGGGCGTTACCCGGGAACGGGTCCGGCAGATTGAAGCTAAGGCTGTCAAGAAGTTGAAGCACCACTCAGACCTGCTCCAGGACTACTTCTCAGCAGAATAG
>SRR1919932_01489 RNA polymerase sigma factor RpoD
ATGACAGACAAAGCTAAGCAGACAGGAAAGGCAGACCAGGTATCCCTGGCTAAAGCCGTTAAGTTAGTTGTTAAGGATGTCAAGAAGAGCAAGCAAATTTCTGAAAAGGAATTTACCGACCGCTTGCTGAAGCCTTACCAAATCGAAGGCCGGGCGGTCGATCAGCTGGTGCAGGAATTTGAAGACAACGGGATCAGCATTGTCGATGACAAGGGCGAACCGTCCAAATTGGCCCTGGCCAAGCAGAAAAACGTGGAAAAGGCAGAGCTGGAACACTTGTCAGCCCCAGGCAGCCGGATGAATGACCCGGTCCGCCAGTATTTGAAGCGGATCGGCCGGGTCAGCCTGCTCAGCGGGGATGAAGAAGTCCAGCTGGCCAAGCGGATTGAAGCCGGCGACCAGGAGGCCAAGGATGAACTGACCAGTGCCAACCTGCGTCTGGTGGTTTCCATTGCCAAGCGCTATGTTGGCCGGGGGATGAGCTTTTTGGACCTGATCCAGGAAGGGAACATGGGCCTGATGAAGGCGGTCGACAAGTTTGACTACCAGCTGGGCTTCAAGTTTTCTACTTACGCGACCTGGTGGATCCGACAAGCAATCACCCGCGCGATTGCCGACCAGGCCCGGACGATCAGAATTCCGGTTCATATGGTGGAAACCATTAACAAGCTGATCCGGATTCAGCGGCAGCTTCTCCAGGATCTGGGCAGAGACCCGGAGCCAGAAGAAATTGCCGCGGAAATGGACTTGCCGGTCAAGAAGGTCCGGGAGGTCCTCAAGGTGGCCCAAGAGCCAGTTTCCTTGGAGACACCGATTGGGGAAGAGGATGACTCCCACTTAGGCGACTTTATCGAAGACAAGGACGCGACCAGCCCGGAACAGCACGCGGCCAGTGAAATGCTGAAAGACCAGCTGGCGGAAGTGCTTGACACTTTGACTGACAGGGAGGAGAATGTATTGCGTCTGCGTTTTGGTCTGGATGACGGAAATCCCCGGACTTTGGAAGAAGTCGGCCGGGTCTTTGGCGTGACCCGGGAGCGGATCCGGCAGATCGAGGCCAAGGCCTTGCGCAAGCTGCGGCACCCAAGCCGGAGCAACCAGTTGCGTGACTTTTTAGAGTAG
>SRR1919932_01490 RNA polymerase sigma factor RpoD
GTGACAGAAGAAAAGCAAACCAAGGCTAATGAGATGTCCCTGGAAAAGGCGGTGAAGCTGGTTGTTGAAGGAGTAAAGGCCAGCCACCAAATCACTGAAGCTGCTTTCGAAGACCGCTTGATCAAGCCCTACAAATTAGAGGGCAAGGCCGTCGACCAGCTGGTTCAGGAATTTGAAGACAACGGGATCAGCATTGTTGATGAGGACGGCAAGCCTTCCAAGCTGGCTCTGACCAAGCAGAAAAATGTTGAAAAGGCGGAACTGAACAATATGGACGCCCCGACCGGGATGAAGATGAACGACCCGGTCAGAATGTACTTAAAGGAAATCGGCCGTGTCAACCTTTTGACCAGTGAGGAAGAAGTCGCCCTGGCCAAGCGGATTGAGGCCGGCGATGAAGAGGCCAAGCAGGAACTGGCTGAAGCCAACCTGCGTTTGGTTGTCTCGATTGCCAAGCGCTATGTCGGCCGGGGGATGAACTTCCTGGACTTGATCCAGGAAGGGAACATGGGCCTCATGAAGGCGGTCGACAAGTTTGACTACCGGCTGGGCTACAAGTTCTCCACTTACGCGACCTGGTGGATCCGGCAGGCCATCACCCGGGCAATTGCCGACCAGGCCCGGACGATCAGAATCCCGGTTCACATGGTGGAAACCATTAACAAGCTGATCCGGATCCAGCGCCAGCTCCTCCAGGATTTAGGCAGAGACCCGGAACCGGAAGAAATCGGGGCGGAAATGGACTTGCCGGTCAAGAAGGTTAGGGAGATCTTGAAGATTTGCCAAGAGCCGGTTTCTTTGGAGACCCCAATTGGGGAAGAAGACGACTCCAATTTGGGCGACTTCATCGAAGACAAGGACGCGATGAGTCCCGAACAGCACGCGGCCAATGAGATGCTGAAAGAGCAGCTGGCCGAGGTTTTGGATACCTTGAGTGACCGGGAAGAAGAAGTCCTCCGTTTGCGTTTTGGCTTAGATGATGGCAAGGCCAGGACTTTGGAAGAAGTCGGCCAGCATTTTGAAGTGACCCGGGAACGGATCCGGCAAATTGAGGCCAAGGCCCTCAGAAAGCTCCGCCACCCGAGCCGGAGCAGCCAGTTGCGGGATTTCTTAGATTAA
>SRR1919932_01491 DNA primase
TTGGCTGGAAGAATTTCGGAAGATTTTATCAATGAAGTTCGGGGCAGCGTAAATATCGTTGACGTGATCAGCCAGTATGTATCACTAGAGAAGAGAGGCAAAGACTATGTTGGTCTTTGCCCTTTTCATCAAGAAAAGACCCCCTCTTTCAGCGTCAACCCGGACAAGCAGTTCTTCTACTGCTTTGGCTGCCATAAAGGCGGCAATGTCTACAAGTTCATCATGGAAAAGGAAGAAGTTACTTTTCCAGAAAGCGTTGAAAGAGTAGCGGAATTCGCCAATATCCCCATGCCCCAGGAATACCAGGAGCAGCCGGTCAAGCTGAATCCTTTGATGCAGATGCACAAGGAAGCGGCGGACTTTTACCAGCAGGTTCTCATGACTACCAAGATCGGGGAAAGGGGCCTGGAATATGCAAGAAAAAGAGGTCTGGACGATGACCTGCTCAGGCACTTTAAGATCGGCTATGCCCCAGGCAAGTCCGACCTGCTCTTGACCTATTTGCGAGGCGAAGGCTATACGGATGACCAGCTGGCGGAAAGCGGCTTGTTTGTCAAGAGCCAGGACGGCCGCCTCTTTGACCGCTTCAGAGACCGCTTGATGTTCCCGATGAGTGATGAAAGCGGCCACCCGGTAGCCTTTTCCGGCCGGAGAATCAGCGATGACCCGGAAGAACCCAAGTACTTGAACAGTCCGGAAACCAGCATCTTCAACAAGTCCGACCTGCTCTTCCACTTTTCAGAAGCCAAGAAACATGCCAGAAAAGAGGGACACCTGGTCTTGTTTGAAGGACATATGGACGTGATTTCGGCCTATAAGTCCGGGGTCAAGACCGGGATTGCCTCCATGGGGACCAGTTTGACCCAGCAGCAGGTCTATATGATCCGCCGGATCACCAAGCAAGTCGTCATCAACTATGACGGCGACGATCCAGGCCAGCACGCAACTGAACGGGCGGTGGGCCTCTTCAAGCAGGCCGGCAACTTTGACCTGGGCATCGTGATCCTGCCTGACAAGCTCGACCCGGACGAATATGTCAAGCAGTACGGACCGGACAGCTACCAGGCCGCGATTAGAGGGGCTATTTCGACCACTGACTTTTTCCTGCAGCGCTTGAAGAAGAAGTACAACTTAAACAATGAGCGCGAGCAGGTGGCCTATTTAAGCGAGGCAGTAGCGGAAATCGCCGCCTTGCCCAACCCGGTTGAACAAGACCTTTATGTAGGCCGCCTGGCCAAGGAAACCGGAGTCTCCCTCGACGCTTTAAAGGTCAACTTGTCCAGGGCCCGCCGCAAGCAGCGCCGGGTGGACCAGCATACCAGCAGCGAAGTCCTGCCCGAGCTGGCTCCCTTGGCTCCAGCCGCGGATCCGCAGCCGGTCACCAGGGCTCTAAAGGCCCAGCAGCGCCTGCTTTATGCCTACATCTATTCTGATGAGGCCCGGGACTACTTGACCGTCAACGGTTTTGTTTTTCCAAACCCGGAATACGAGCGCCTGGCCAAACTTTGGCTCAATTACATTGAAACTCATGAAAATGTTTCATTGAGCGGCTTTTTGGATTTTATTCCTGAAGAACTTCAGAGTATAATTGTTAGTACTGATATGACTGGGTTGCCAGGGGAAATCACCTTGGAAGAGCTCGAGGCGCAGGTTCGGGTACTCAACCTGTGCAAGATAGATGATGAGATCGACCGCCACATGCAGGCGATTGCAGACGCGCGTCGGCGAAACGACCAAACGGCAATTTTGCTGGAAACACAGGCAATTTTGCAGCTAAGGCAACTGAAGCTGCAGGAAGAGGAGGCAGTTAGTGACAGAAGAAAAGCAAACCAAGGCTAA
>SRR1919932_01492 glycyl-tRNA synthetase beta chain
ATGACTAAAGACTTTTTATTTGAAATCGGCGTTGAAGAAATGCCAGCCCACGTGGTCAGCAAATCAGTCAAGCAGCTGGCTGACAGAACTGGCAAGTTCTTGAAGGAAAATGGCCTGGGCTTTAAGGAAATCAAGACCTACTCAACTCCCCGCCGCCTGACTGTCCTGGTCAAGGAACTGGATGAAAAGCAGGCTGACGTGGACGAAGTCAAGAAGGGGCCAGCCAAGAAGATCGCCCAGGACGCTGACGGCAACTGGACCAAGGCCGCTGTCGGTTTTGCCCGCGGCCAGGGGATGAGCGCCGACGACATCTACTTTGAAGAACTCAAGGGCGTGGAATATGCCTACGTGCACGTGCAAAAGGCCGGCAAGGAAGCTAAGGAAATCCTCTTGGGCCTGGATGAAGTAATCAAGTCCATGACCTTCCCGACCAAGATGCGCTGGGACTCCCAAGACTTTGAATTTGTCCGCCCGATCCACTGGCTCGTTGCCCTTTACGGCAGCGAAGTCGTCCCAGTTGAGTTCCTGGACATCACTGCCGGCCGCAAGACTGCCGGTCACCGCTTCCTGGGCGACAGCGTGGTTTTGGCCAACGCTGACGACTACGTGGAAGCTCTGCGGGACCAATACGTCATCGTTGATGCTGACGAACGCAAGGCCATGATCGTTTCCCAGATCAACGACCTGGTAAACAGCCACAACTGGCAAATCAAGCTGGATGCCAGCCTCTTGGAAGAAGTCAACAACCTGGTTGAATACCCGACTGTTTTTGCCGGCTCATTTGACCAAAAGTACCTGGAAATCCCGGACGAAGTCCTGATCACTTCCATGAAGGACAACCAGCGCTATTTTGAAGTCTACGACCAGGAAGGCAAGCTAATCAACTACTTCATCTCCGTGAGAAACGGGAACAAGGACCACTTGGAAAACGTGATTTCCGGTAATGAAAAGGTCCTGGTTGCCCGCCTAGATGACGCGGTATTCTTCTACGACGAAGACCGCAAGTACCCGCTCAGCCACTTTGTTGACCGGATGGACAGCGTTTCCTTCCACGACAAGATCGGTTCTATGGCAGAAAAGATGACCCGGGTCCGGATCATCGGCGACTACCTGGCCAAGAGATTCGGCCTGTCAGCTGAAGAAGTGGCTGACTTTGACCGGGTAAGCGGCCTGTACAAGTTCGACCTGGTAACCCAAATGGTCGGCGAATTCGCTGAACTGCAAGGGGTTATGGGGATGCACTATGCCCGCCTGGCTGGCGAAAACGAAAACGTTTCTGTCGCCATCAAGGAACACTACATGCCAACCACGGCTGAAGGCGACTTGCCGAAGACCAAGGTCGGCGCCCTCTTGTCAGTTGCTGACAAGCTGGACACCATTATCGCCTTCTTTGGTGCCGGGATGATTCCTTCATCATCAAACGACCCATACGCTTTGCGCCGTTACGCTTACGGGATTGTCCGGATCCTTTTGAATGAAGACTGGTCCCTTCCATTTGACCAGGTTGTTCCGGAAATCGTGGAACTTTTGTCTGGCAAGACTCCGGCCAAGCTGCCGCAAGGGGCGGAAGAAGACAAGCAACTTGCTGACTTCATCCGTGACCGGATCAAGCAGTTCTTGCAAAAGAACAACTACCAATACGACGTTATCGACGCCGTTCTGGCTTCAAGCGAACAAGACCCAAGCCAGATCCTGGCCGCTGCCAAGGTTCTGCAGCAGCACCATGACGACGAGGCCTTCAAGCCAGTCGTTGAAAGTCTGACTAGAATCGCCAACATCTTGAAGAAGGCTAAGTTCAGCCAGGCTAGTCCGGTTGACCCAAGCTTATTTGAAGACAGAAGCGAACAAGACCTTTATAATGGAGTTGAAGCTTTGGCAAATGTCAAGGACCATGCTGAACTTTACGAAGCCTTCGTTGCTTTGCAAGGGGTAATCGACCGCTACTTCGACGTCAACATGATCATGGCCAAGGACGAAGCAGTCAAGAACAACCGCTTGAGCCAGCTGGCAGCTGTCAATGACCTGGCCAAGCGCTTGGGCGACTTGAGCAAGTTGGTTATCAAGTAA
>SRR1919932_01493 glycyl-tRNA synthetase alpha chain
ATGACACAAAAATTAGATATTCAGACCATGATCTTCAAGCTTGAACAGTTCTGGGCTTCAAAAGGCTGCATGATCATGCCGTCATATGATGAAAACAAGGGTGCGGGGACGATGAGCCCATACACCTTCTTGCGGGCAGTCGGGCCTGAACCTTGGAAGGCCTGCTACGTTGAGCCTTCCCGCCGGCCAGCTGACGGGCGCTACGGGGACAACCCGAACCGGCTCTTCCAGCACCACCAGTTCCAAGTCGTTTTAAAGCCGGCTCCGCTGGAAATCCAGCAATACTACCTGGACTCCTTGAAGGTTCTTGGCATTGAACCTTTGGAACACGACATCCGCTTCGTTGAAGACAACTGGGAAAACCCATCCATGGGCTGTGCCGGTGTTGGCTGGGAAGTCTGGCTGGACGGGATGGAAGTTTCCCAATTTACCTACTTCCAAACTGTCGGCGAACTGGACGTCAAGCCAACCATGGGCGAAATCACTTACGGGGTTGAACGGCTGGCTTCCTACATCCAGGACGTTAACTCAGTCTTTGACCTGGAATGGGGCGACGGCGTCCTTTACCGGGACATTTTCAAGGAACCTGAATACGAACACTCCAAGTACGCCTTTGAAGAAAGTGACCAGAAGCAATTGCTGGAATTCTTTGACACTTACGAAAGAATTTCCAAGCGCCTTTTGGGCCAGAACCTGGTTCACCCGGCTTACGACTACATCTTGAAGTGTTCCCACACCTTCAACCTGCTGGACGCCCGGGGGGCAGTCTCAGTAACTGAACGGGCCGGCTACCTGCACCGAATCCGCAACATGGCTCACGAAGTAGCGGTTAAGTTTGTGGAAGAACGTGAAAAGCGCGGCTTCCCATTGTTGAAGAGCGCACAAGCAAAGGCGGAGGCAAGCAATGACTAA
>SRR1919932_01494 DNA repair protein RecO
ATGGCCGCTGACCTGCTCGATGTCCACGGCCTGCTTTTTAAAAGGCAGCAGTATAAAGAGGCTGACCTCTTGGCCAAGCTCTGGACCAAGGAACTGGGAATCGTCACCGTAATTGCCAAAGGTGGGATGCGGCCCAAGTCCCAGCTGGCCGCCGCGGTTTTGCCCTTTACGGAAGGGACTTTTGGCATCTTGACCCGCTACAAGGGGATCAGCCAGCTGCGGACCTATAAGAAGCTCAGCCAGCACGATGAGCTTTTTACCGACCTGGACAAAAATGCCTATCTTTCTTATCTTTTTGACCTAGCTGACCATGCCTTCAGCGAGTACCAGAAACTGGGGGGCTACTATGACCTTTTGCTAGTGGCCTTTAACCGGATCGTGGCTGGCCAGGACCCGGAAATTATTGCCCAAATTGTCCAGCTGCAGCTCCTGGATGCCTTCGGGGTAGCTCCTCAGCTGGGGGCCTGCGTGATCTGCGGCAAGGAAAAAGGAATTTTTGACTATTCAATCGCCGCCGGCGGGGTGGTCTGCAGCGACCATTTCCGCTCTGTCAGCCGCCTGCACCTGTCGCCAAAGGCTACTGCCTTAATCAGAACCCTGGCCCTTTTACCAATCAGCCGTTTAGGAGAGATCCAGATCGGCGAAGATTTGAAAAAGGAAAGCCGGCGGGCCATCGCCCAGATCTACCAGGCAACAGTGGATTTGCACCTGCCCAGCCTCCGCTTTTTAAATGAGGTCCGGGGCAGCTGA
>SRR1919932_01495 GTP-binding protein Era
ATGGGGCAAATAAGTAAACACAAGTCAGGTTTCGTAGCATTGGTTGGCCGGCCAAATGTCGGCAAGTCAACCTTGATGAACCGTTTAATCGGGCAGAAGGTGGCGATCACCTCCGCCAAGCCGCAAACTACCAGAAACAAGATTTCCGGCATCTACACTGAAGATGACATGCAAGTTGTCTTTGTCGACACGCCGGGGATTTTCAAGAGCCATTCCGACCTGGACGAATACATGGACAAGGCCAGCCTGTCTTCTTTAAAGGACGTTGACTTAGTCATGTTCATGGTTGACGCTAAAGAAGCCGGCAAGGGCGAGGAATACGTGGCCGGTCTTTTGAAGGATTTGGATATTCCGGTATTTTTGGTTATCAACAAGATCGACCAGGTTCACCCAAATGATCTTTTGCCAATCATCGACTCCTACCAGGCCGTCGGCAAGTTCGCGGAATTTTTGCCAATTTCCGCCCGGCAGGGCAACGGGGTCGACGACTTGCTCAAGACCTTGAAGGACTACCTGCCAGAAGGACCGCAATACTACGCTTCAGATGAAGTAACCGACCGGCCGGAATACTTCGTGGTGGCTGAGATGATCAGAGAACAGATCCTTCGCTTGACCGACCAGGAAGTTCCCCACTCAACTGCTGTCTGGGTTGACCAGATGAACCAGCGGATCAATGGCAAATTGCAGATTGATGCCACGATTTTTGTGGAAAAAGACGGGCAAAAGCGGATCATTATCGGGCAAAGAGGGTCCATGATTAAGCAGATCGGGATGCGGTCCAGAAAAGAAATCGAAAATCTTCTGGGCGAGAAGGTTAACTTGAAGCTCTGGGTCAAGGTACGGCGCGACTGGCGGCAGGACCCGGCCTTCCTCAAGTCCATCGGCTATGACAAGAAGGAACTTTAA
>SRR1919932_01496 cytidine deaminase
ATGAACGAGTTGGAAGAAAAACTCTTTTTGCTGGCCAAGGACCATTTGGCGGATGCCTATAGCCCTTATTCCCACTTTCACGTGGCCAGCGCTTTAGTGACGGACGCGGGAGAAATTTTTACCGGGGTCAATATTGAAAACTCTTCTTTTGGCTTGACCAACTGCGCCGAACGGACGGCGATCTTCTCCTGGGTGAACGCTGGCCGGCAGGGCAAGATCAAGTGCCTTTTGATCATCGGCAACACTGACCGGCCAATCTCCCCTTGCGGGGCCTGCCGGCAGGTAATGAGCGAATTTATGGCTCCGGAAACGGAAGTAATTCTGACCGACAGCCAGGGGGACTATGAGCGCTTTACAGTTGAGCAATTGATACCATACCATTTCACAGAAAAGGACATTCAAGATGGGGCAAATAAGTAA
>SRR1919932_01497 16S rRNA maturation RNase YbeY
ATGCAGGGAATTGACGTAAGCTACAGCGATGAAGTCGGCTTTTTGACTAAGGGAGACCGGGACTGGGAAGACTGGATCATGCAGCTGCTCCTCATGGCGAAAAAGGAAATCGGCAAGGACAATGCCCAGGAAATGAGCATCAATTTCGTTGACGAAGACCGGTCGCAGGCTATCAACCGGGACTACCGGGATAAAGACCGGCCAACCGATGTGATTTCTTTCGCCATTGAAGACGGCGACGACGGCCTGGACCTGGCTATGTTCACCCAGGACCCGGACTTTATCGAAGACATTGGCGACTTGTTCATGTGCCCAAGTGTTATCGAGCGCCACAGCAAGGAATATGGCACCGGCTTTGACCGGGAATTTGGCTACACGATCGTGCACGGCTATTTGCACTTAAATGGCTATGACCACATCGAGCCAGACGAAGCCAAGGAAATGTTTGGCATCCAGGGCAAGATTTTGGAAGAATATGGCCTGCCCCTTTATCCGGACCAATTAGACGAAGGAAGAGGAAAATAG
>SRR1919932_01498 phosphate starvation protein PhoH
TTGGAAAAGAAGTTTTTGCCCCACAGCAGCGAAAATGTCCAGAAGCTGGTGGGCGTAAATGACAGCAATTTGAAGCTGATCGAAGAAGGCTATGAGGTTATCGTTACTGACCTGGGTGGTCAGATCAAGGTTGCTGGACCTGAAGAGCAGGTGGAGACCGTCTTGCGGGTTTTAAAGGCCTTAGACGGGGTAGCCAGCAACGGGATCAATTTAACTCCGGCCGATGTGGTCAGCGCCATGAAAATGGCTGACCGGGGGACAACTGAATACTTTGGCGACCTCTATAAGCAGATCTTGATCAGAGATGCTAAGGGCCGGCCAGTCCGGGTCAAGAATATGACCCAGAAGAGCTATGTTGAAGCCATCAACAAGAGCGACGTGGTCTTTGGGATCGGACCCGCCGGGACAGGGAAGACCTTCTTGGCTGTCGTCTGCGCGGTTGCTGCCTTTAAGCGGGGAGAGGTCTCCAAGATCATCTTGACCCGGCCGGCAGTTGAAGCCGGGGAATCCCTGGGCTTTTTGCCAGGGGACCTTAAGGAAAAGGTTGACCCTTACCTGCGGCCAATCTATGACTCCCTTTATGCCATCTTAGGGCAGGGACCAACTGACCGTTTGATGGAGCGGGGCGTTATCGAAATCGCTCCTCTTGCTTACATGAGAGGGCGGACCTTGGAAGAAGCTTTCGTCATTTTAGACGAAGCGCAGAACACGACTGACGCCCAAATGAAGATGTTTTTAACCCGGCTGGGCTTTAACTCCAAGATGGTGGTCAACGGGGACATGACCCAGATCGACCTGCCTGGCAAGGCCCACAGCGGTTTGATCACGGCCCGCAATATCCTGCAGGGGATCGACCAGATCGAGTTCGTGGAATTCAGTGCGGCTGACGTTGTCCGGCACCCAGTCGTAGCAAAGATTATCAAGGCATATGAAGAGGAAGGAAAATAA
>SRR1919932_01499 30S ribosomal protein S21
ATGGCTAAGACTATCGTTCACGAAAACGAGTCTATTGATGATGCTCTTCGTCGTTTCAAGCGTTCCGTTTCTAGAAGTGGTACTTTGCAAGAATACCGCAAGCGTGAATTCTACGAAAAGCCAAGCGTTCGCAGAAAGTTAAAATCTGAGGCCGCTCGCAAGCGTAGACATTATTAA
>SRR1919932_01500 phosphotransferase
ATGACTGAAAATAAAGCAGAAAACAAGCAAACAGAAAAAACTGAAAAGATGGAAGTCAACATTATTATTATTTCCGACTCAGCTGGGGAAACGGCCTTTAACAACGCCCAGGCGGCTGCCGTCCAGTTCCCTGACGCCGAAGTCAACTACCGCCGCTATCCTTTCATGGTTAACGAAAAGAAGCTGGCCGCTACCCTGGAAGAAATCGAGCAGTACCCTAACCTGGTCATCGTCTACAGCATGCTGGATGAGAAGCTGCAATTGCCGATCATCAAGTTTGCACGGGAACACAAGGCTAGGTACATCGACATTTTGTCTCCGATCATTGAGGCTATCGGCCAGACGACCCATATGAAGCCGACCGGCCTGGTTGGGGCTAACCACCAATTGACCAACAAGTACTTCAACCGGATTTCCGCCATGGAATTCGCGGTTATGTACGACGACGGCAAGGATCCGCGGGGCTTTTTGGAAGCAGACGTTGTCTTGTTAGGTGTCTCCCGGACTTCCAAGACTCCCCTTTCCTTGCTTTTGGCTAACAAGGGGCTTAAGGTGGCCAACTTGCCGCTAGTACCGCAGACCCACATACCAAAGGAAATCTACCAAATTGACCCGAAGAAGATCATTGGTTTGACCACCGATCCGCAAGTGCTCAACCGCATCCGCCGGCAAAGAATGATCAGCTACGGGATGGACCCCGACACTGCCTACTCCAACATGGACTCCATCAATGCCGAACTGGACAGTGCCATGGCCTTATACAAGAAGCTGGGCTGCTTCGTGATCAACGTGGCTGAACGGTCAATCGAAGAAACCGCGGCTTTGATTATAAACCACCTGGGTTACGAAGAAGATTAA
>SRR1919932_01501 3'-5' exoribonuclease YhaM
ATGCTTAAACGTTTGCTGGATTACAATGAAGGGGAAGAATTTGACCTGGTCTTGATGGTCAAGAATTCCCAGCTGCGCCAAGATAAGAGAGGCAAGCACTACCTGCTCATGCAATTGGCTGACTCTTCCGGCAGCATCCGGGCCAATTACTGGCAGGCCCAGGCTGAGGACGCCAGCCGCTTCAACGCCGGCACGGTGGTTGAGGCCTCAGGGATGATTGAAGACTACCACAACCATGACCAGATCAAGCTGTTCAGCATTCATCCGGTCAGCCCGGACGACCAGGTGGACTTGAGCCAATTGGTGGCCACTGCTCCGGAAAAGCCAGCAGAAATGGAGAAGGAGATCAAGGACTTTGTAGCCCAGATCGACAATAAGAACTGGCATGACCTGGTGGACTTCCTTTTGAAAAAGTGGTCCAGCCGCTTCTTCGCTTACCCGGCTGGCAAGTCCAACCACCACGCCTACAAAGGCGGTCTGGCCTTCCACACTTTGACCATGCTGAAAGACGCCAGAGGCTTAGCTGACAACTACCCAGCCGTCAACCGGTCTCTGCTTTATGCCGGCTGCATCTTGCACGACATGGGCAAGGTGCTGGAATTGTCCGGCCCGGTAGCGACCCAGTACACGGCAGAAGGCAACTTGGTTGGCCACCTGGTTTTGATCGATGAGCAGCTGATGCTGGCTGCCCTGGAACTGAAAATCGACTTGGCCAGTGAAGACCTGCTTTTGCTGCGGCACATGGTCTTATCCCACCACGGCCGCTATGAGTACGGGTCACCGAAATTGCCGGCTCTTTTAGAAGCAGAGCTTTTACACCGGATCGATGACCTGGACGCGGCGGTCAACGCCATCACGACTGAATTGTCCACGACCAAGCCGGGGGAATTCACCCCGCCGCTGATGTCCCAGGACGGCCGCCGCTATTACCGGCCAAGACAGGAAAGGTAG
>SRR1919932_01502 DNA repair ATPase
ATGAGACTCAAGCAGATTCAAATCTATAATTTCGGTCAGTTCAGCCAGGAGACTTTTGACCTGCCAGAGGGCAATTTAGCAGCCTTCTTCGGGGGCAATGAGGCCGGCAAGAGCACGACCGTGGCCTTCATCAAGCAGATCCTTTTTGGCTTCAATTTGAAAAATACTAGCTCAGTCTTTTTTGAAGACTACGAACCCTTGACCAAGAGCTACCCGATGGGCGGGCAGCTGGTCTTTACTAGTGATGCAGGGGAATATGTCTTAGAGCGGACCTGGAGCAAGGGGGACAAGAGCAAGACCGGGGCAGTCAAGGTCCTCTTAAACGGCCAGGAAGTCCCGGCCAGCCTCTTTTACGACCAGATTCAAAACATCGACGGGAGCTTTTACGCTGAAAGCTTTATCTTTAATGAAGACCTCCTCCGCCAGGTCAGCTCCCTGTCTGAAGGCGAGATCCTGGAGAACATCTACTATCTGGGGGCGGCCCAGAGCAGCCAGCTTTTAGCCATCCGGGCTGACTTTGACAAGGAAGCCAAGGACCTCTTCAAGCCAAGCGGGAAGAAGGCCCCGGTCAACCAGGACTTGCTCAAATTGGCTGAGCAAAGAGACAAGGTGGCCGCTGACGGCCAGGAATTCGACGCCTACCAGCAGCTGGAAGGCCAGCGGCTGGCTGAAGAGAAAGCAGCTAAAAAGCTGGAAAAAGAAGTCCAGGAAATCTCCAGCCAGCTAAGCAAGCTGGAAAAGCAGCTGGAGCAGGTGCAGAACTACCAGACTTATCTGGACCTAAAAAAGCAGGTCAGCCCGGTCGCTTTTGACCATGAGCTCTACCAGAAGGCCCTGGAGCTTAATGCCCAGATCAAGGCCCTCAAGGCCGCCATCAAGGAAGAAAAAACAGCGGTTGACCCGGCCCTTTTGGCCAAAAGAAAGGACCAGGTCCGGGCCTGGCGGCAGGAACTGGGGCAAATCAGCCAGAGCATGGAAATGCTCAAGCAGCAGGTCAAGCAGCTGGAAGAAAAGCAGGCCAGTCTCTTAGAATTGACCCCGCATTTAGAGCAAGTGGCAGATTTATCCATGGACCAGTTCCAGCAGATGCAGGCTGACTGGGAAGAAAGCCAGAAGGCAGAAGCCGCGCCTAAGACCCTGCCGCCATATGTCGGCTTGATCGTAGCGGTAATTGGTCTGGCTTTGATCGGGCAAAACCGGATTTTGGCAATATTGTTAATCCTTGCCGGCGCGGTTTTAGCAGCTTATGCCTACTTCAAAAAGCCCGCCAAGGGACCGGACAAGGCGGGAGCCTTTAAGGAAAAGTACGGTATCGATGCCAGCGTTAAGGTCGACTCCTTGCTTGCCCCTTACCGGGACCTGGCCATCAACCGGCGGGACTTGGCAAATAGCCAGGCAGAACTCGCTCAAAAAGAAAAACAGGCCGCTGACCTGGCCCGCCAATTGGGCTTGGATGGCAGTGACCTTACAGCTGTCAGCCAGCAGCTGGGCCGCTTGGAAGAGCAGGTGGAAGCTGAGAATGCGGCGCTTAGGGCCAGCCAGGAGGTCAAGGCGGCCAACTTGAACTACCAAAAGCAAATCAGCGCTTTAACTGAACAGCTTTTGGCCATTTACCAGACTGCCGGGGTAGAAAACCTGGCAGCCTACCAGGCATTAGCGCAAAAACTGCAAGAGCAAAAGGCTTTATCTGCCCAGATCACCGCTTTGAAGAACAACTTGGGTGACCAGTTAGCGGCTTTTGAAGAAAATGGCCTGGATTCAAGCAAATTGCTGGGGCAAAAGCAAGAGCTGGAAAAAGAACTGGCTGATAAGCAAAAAGCTGTCTCAGCCCGCCAGCAGGAAATGGCCAACCTTTTGGCTGAGGAAAAACGCTATGCTTCTTCCAGCCAGGTGGCTGAAGACAAGCAGACCTTGGCTGAAATCGCCGACAGCTTCAGAAGAGACAGCCAGGACTACCTGGCCAGCCTTTTGGCCGGGGAAGTCATTGGCCGGACCCTGGATCTAGCCTCAAATGACCGCTTCCCGAAGATGCTGAAATTAGCCCAGGACTACCTGGAAATTTTGACCGGCGGCCGCTACCGGGAAATCCTTTTGCCGGCCAAATTGTCCAAGAAGACCCCGCTCAAGGTGGTCAGAAAAGACAAAAAGAAGATCCCCCTGGCCTACCTGTCCCGGGGGACCCAGGAGCAGCTCTATTTTGCCTTGAAACTGGCTTTTGTCATGCAGATCAAGGACAAGATCGACCTGCCGGTCTTGATCGACGATTCATTCGTCAACTTCGACGGCCCGCGGACTGGCTACATTGTAGACATGCTCAAGAAGATGAGCAAAGACAAGCAGATCCTGGTCTTTACGGCCAGAGAAGACTTGGCTGAAGCCGTCAGCGCCGCGCCAATCAGATACAGAAAGAAGGAGCAGGATGCTTAA
>SRR1919932_01503 phosphoesterase
ATGAAATTCATTCATTTAGCTGACGCGCACTTAGATAGCCCCTTTCGTGGACTATCTTTTTTGCCAAACAGGGAATATGCTGAAATCCGCCAGTCAGCTGCCCAGTCTTTGACTAGGATCGTGGACCTGGCCTTAAAAGAGCAGGTCGACCTGGTTTTAATCGCCGGCGATACCTTTGACTCAAACAAGCCGTCTCCGGCCAGCCAGCTTTTTTTAGCCCGGCAGGTGAAGCGGCTGACTGACGCCCAGATACAAGTGGTCATGATCTTCGGCAACCACGATTACATGACCCGGCAGGATCTCTTGGTCGAAAACAGTCCTTACTTCTGCCTCTTGGGTGACCAGGAAAAAGTTGCCCGGGAATTTTTTAAGACTAAGACCGGCTTTGCCTACAATGTGACCGGCTTTTCCTATAGCCAGAACCATATTGAAGCTGACCTCCTGGACCAGTTCCCGGAAAAAGAGGGCTATACCATCGGCCTGATGCACGCGGCCCAAAGAGCGGCCAGCGGCAATGTCTACGCTCCCTTTGACTTAAGCCAGATGAAGGAGCTGAACTATGACTACTTTGCCCTGGGCCACATCCACGCCCGGCAAATTTTAAGCGAGAAGCCGCTAATTGTTTACCCCGGCAACATCCAAGGCCGGGATGTCGGCGAACTGGGGGAGAAGGGCTGCTACCTGGCTGAAGTCGATGAGACCAGCGGGCAGACCAGCTTGACTTTTGTCCAAACAGCGCCGATTACCTGGAAGCAGCTGACTTTAGAGCTGGACCAGGCAATTGATAAGAGCAGCCTGCATGCCAAAGCCCTGGAACTTTTGCAAGAAAATATCCAAGGCAAGACCTACTTCAGCTTGAAGATTTCGGGCTCAGAATATTTGACCAGCGAAGAAATAGACCTTTGGCAGGACCAGGAGGCCTGGGCCGGTCTGTCCGCGGCTTTAGCCCCAGCACAATTGGTTGATGTCCGCTTATCCGTCCGGGGCCTGGTCAGCCTCAACAACAGCGACCGGGAAGCCCTGGCTGCTGCTGAAGCAGAAGTTTTGACTGACGAGAAGATCCAGCAGCTGGCCGCTTCCTGGGCCAAGAAGGACCCATATGCCCGCCAGCTTTTAGAGGACGGGGAATTCCGCGGCCAGGTCCGGGACTTGGTGGCCGTCAAGCTGGCCAGGCGCCTGCAGGCAATGACTGGGGGAGAAGAATGA
>SRR1919932_01504 hypothetical protein
ATGGCCAACATTTACGATACTGCCAACCAATTAGCTAACGACTTGCGGGGAACCCAGCAATTTTTGGCTTTGAAGGAAGCCATGGACGCTGTTAAGGCGGATGAGGGCAGCCTGGCCTTGTTCAAGGAACTGGACGCGGCCCAAATGGAAATCATGGAAGCCCAGCAAACCGGCATGGAATTGACTGAGGAGCAGCAAGGCCACTTCAAGAGCTTGAACGAACGGGTCAGCCAAAACACCACCCTGCAAAGCATGCTTTTGGCAGAACAAGCTGTTTACACCCTGCTCAACGACGTACAAAAGAATATCGGCCAGCCTTTGTCTAAAGCATACGAGGATTTGAGAAAAGCCTAA
>SRR1919932_01505 penicillin-binding protein 2A
ATGGAAAACAGGCGCAAAGCGCGTAAACAAATGAACGACTCCCAGCCCAAAAAGGGCTTGTGGGGATGGCTGAAAAGGATCAACTACCGCTTCCAACTGCTAAGATGGTTGATTTTGATCGTTTTGAGCCTTTTTTTAGCTGTATCTTCTTATTATACCTTTAAAGTCAAAACAGCCAACCTGTCCAACCTCCAGGCTTCCCTGGCCAAGACCACGGTTATCTATGACCAGAATGGCAAAAAGGCCGGGTCCGTGTCTTCCGGCAAGGGGACCTATGTCAGCTTGAGCAAGATTTCCCCCAATGTCCAAAAGGCCATAGTCGCCACCGAAGACCGGACCTTCTGGACCAATATCGGGATCAGCCCCAAGGGCATCCTCCGGGCGGCGGTCAGCTATGTCATCCACGGGGGCAATATCGCCGGGGGCGGGTCGACCATCACCCAGCAGCTGGTCAAGAACTCCATTTTGACCCAGCAGCAGACTCTGTCCCGGAAGGTGGAGGAAATGTTCTATGCCATCCAGGTGACCAAGGTCTATTCTAAAAAGCAGATCATGGCCATGTACCTCAACAATGCCTACTTTGGCAACGGGGTCTACGGGGTCCAGGATGCCAGCCGCAAGTACTTCGGCAAGAACGCCAGCCAATTGACGGTGGCTGAAGGGGCAACCTTGGCCGGCATCTTGCGGAACCCTTCCTACTACAACCCGATCGATTCCCTCTCGCACTCGGTTTCCAGAAGAAACCTGATCCTGCAGCTGATGGTTGACAACAAGTCTATCAGCCAGACGACCGCCAACAAAGCCAAAAAAGAGGGGATGAACCTGGTTGATACCTACAAGGCGACCAGAGGCTACAAGTATCCTTACTACTTTGACGCCGTCATCTCTGAAGCCATCAGCAAGTACGGTTTAAGCGAAAACGAGATCATGAGCAAGGGGCTGAAGATCTACACGACCTTGGACCAGAACTACCAGAAGTCTATGCAGGCCAGCTTCAAGAACAAGTACAACTTCCCGGTCAACCCGGCCGGCACGGCCCGGGCCCAAGGGGCCAGCGTGGCCATGGATCCCAAGACCGGGGCAGTCAAGGCCCTGGTCGGAGGACGCGGCAAGCACGTCTTCAGAGGCTACAACCGGGCCACGCAAATGCAGCGCCAGCCCGGCAGTGCCATCAAGCCCCTGGCTGTCTACGCGCCGGCTCTGGAGAACGGCTACCACTATGACTCTGACCTCTCCAACAAGCGGCAGAAGTTCGGCAGGAACGGCTATGAGCCGGTCAACGTCGACAACCAGTACTCGACCACGATCCCGATGTACCAGGCCCTGGCCCAGTCCAAGAACGTCCCGGCTGTCTGGCTTTTAAACAAGATCGGGGTGTCTACCGGGGTCAGCTACTTGAAGAAGTTCGGCATTACCGTCTCAAAGAGTGACCAGAACCTGGCCCTGGCCCTGGGCGGGGTGTCCACCGGGGTCAGTCCTTTGCAGATGGCCCGGGCCTACTCAGCTTTTGCCAACAGCGGGAAGCTACCGGACAGCTCATATATGATCACCAAGATCACCGACGCCAGCGGCAACGTGATCGCGGAAAACAACAATACCGGGACCAGCCAGATTATTTCAGCTGACACGGCCAAGGAAATGACCCAGATGCTGCTCAGCGTCTTCATTTCCGGGACGGCCGTTAACGCTAAGCCAGCCGGCTACTCAGTAGCTGGCAAGACCGGGTCAACTGAAGTATCTTTTGCTTACGGGACTAAGGACCAGTGGATCGTCGGCTATACCCCGGACGTGGTCGTGGCTACCTGGGTCGGCTTTGACAAGACCGACAAGAGCCACTACATGCAGGGGATTTCGGAAACCGGGATTACCGCCCTTTATAAAGACGAAATGACTCGGATCCTTCCTTACAGCAAGCAGACCAGCTTTACCGTTCAGTCAGCTGACTCCATGGCCCAAAGCAATGGGACAAGCAGCTCTTCTTCAAGTTCTTCGGACTGGAGCAAGAAGCTGAAAGAATCGATTAGCAATGGGGTAAAGAATGCCGAATCAACGATTCAGTCATGGTACAATAAGATTACTGGAAAATAA
>SRR1919932_01506 ribosomal large subunit pseudouridine synthase D
ATGATCTATCATTTCAGCTTAATCTATCCCGCAGACCGTCCCCCAGTTTCCGTCAGTGACCTGCTTAGGCAGCTCTTAATTCCCCGCAAATGGCGGCACTATCTTCGTACTGAGCGGCAGGTTTTAGTCAACGGCCAATACCGCAGCTTCAACCAACTGATCAAGGGCAATGAAAAAGTCGACCTCTACTTAGACCAGGTGGAATCCCTGCAAGGAGACTACCCGGCCAGCGGCAAAATGCCAAAAGTCGTCTATGAAGACGAAAATGTTTTAGTCATTGACAAGCCCAAGGGGCAAAAGACCCACCCCAACCAGGGGGAAAACGGAACGGCCCTTAACGACTGCGCCAGCTACTTAGGCTACAGCCCCTACATCGTCCACCGCCTGGACATGCTGACGGGCGGGCTCTTGCTGGTCGCTAAAAATCCTGCAGTCGTCCCGATCTTAAACCGGCAGCTGACTAGCAAGACCTTAATACGAGACTACCTGGCTACGGTTGACTTAAACAAAGAAATACCCGATCAAGGCACAATTGACCTGCCGATCGGGCAAGACCCGGCAGACCAAAGAAAAAGGCAGGTCAGAGCTGACGGCTTAAGAGCAGTCAGCCACTTCCAGGTCTTAGAAAAAGACGAGGAGAAAAAGCAGGCTAAACTGCTGGTAACTTTGGAAACCGGCCGGACCCACCAGATCCGGGTACACTTGTCAGCCTCAGGCTGGCCGATCGTGGGCGATCCCCTCTACAACCCAAATTTTGCCGGCGAAGACTTGGCTTTAACCGGATGGCAGCTGACCTTCGTCAAACCCTACAGCTTTAACCAGGTCGCAGTCAGATTAGACAAAAAATAA
>SRR1919932_01507 fructose-bisphosphate aldolase
ATGGCTTATTTCGTTAATGGTAATGACATTTTTAAGAAGGCTCGTAAGGAACACTACGCTGTTGGTGCCTACAACACTAACAACTTGGAATGGACCCGCGCTCTTCTTCGTGGTGCTGAAGAAACCAGAACTCCATTGTTGATTCAAGTTTCAACTGGTGCTGCTAAGTACATGGGTGGCTACAAGCTCGTTAAGGACTTGGTAGAAGACTCAATGGACGCTATGAACATCTCAGTTCCAGTTATCTTGAACTTGGACCACGGCGACTACGACTCAGCTATTGAATGTATCAAGCTTGGCTACTCAAGCGTTATGTTCGACGGCCACGCATTGCCAACTGAAGAAAACTTGGCCAAGACCAAGGAAATCATCAAGCTGGCTCACGAACGCGGCATTTCTGTTGAAGCTGAAATCGGCAAAATCGGTGAAAACCAAGGTGCCGGCGAACTTGCTTCAGTAGAAGACGCTAAGGCCTTCGTAGCTGCTGGCGTTGACAAGCTTGCTTGCGGTATCGGTAACATCCACGGTGTTTACCCAGAAGGCTGGAGCGGCTTGAACTTCGACCGTCTTAAGGAAATCGCTGAAGCTGTTCCTGAAACTCCACTTGTTTTGCACGGTGGTTCAGGTATTCCTCAAGACCAAATCGAAAAGGCAATTTCTTTGGGTATCTCAAAGATCAACATCAACACTGAATTCCAACTTGCATTCCAAGAAGCTACTCGCAAGTACATCGAAGAAGGCAAGGACCAAGACAAGAGCAAGAAGGGTTACGACCCACGTAAGCTGCTCTTGCCAGGTACTGAAGCTATCACTGACTCAATGAAGGAAATGATCAGCTGGATGGGTACTCCATCAATCGACGACAAGGAAGCTGACGCTTCATTCGATAGAAGCTCACTTAACGAAGAATAA
>SRR1919932_01508 cell surface protein
ATGAACAAGGCCCATAAACGAATAGGAATGCTGCTGATTGCCATAATCGCGTGCTTGATGATCATTCCAGTCTTTGAGCCCCTGCCGGAGGTCGGCGGTAAAAGCAAGGTTCAGGAGCATCCCCCGAAGAAGGAGCAGGTTGCCAAGAAAGAAAATGACCGCCCTTACCCTGACCCGAGTGACATGCGTCCCATGACCGGCCACTACTACCTGTATTCCAGCGAAACCAAGCGCAAGTACCCTAACCTGCGTAAGTACAAGGATGTCTGGATTCGCGTCTCCATTTTGGGAGCCCGGGCCTATGTCATGTCTGGCAAGAAAGTCATCTACACCATGTACGCTTCCCCGGGCGCGATCAAGAAGAACGGTGAAAGCCGGACCCCAGTCGGCAACTACCGGATCCAGGAAGAAGCCGGCGAGGTCTTCTACAATAATGACGGGGTAGGGGCCCGCTATTGCGTCTCCTACCACCAGCACGGGGTCTACCTCTTCCACTCAGTCCCGATCAACAACTTCAATTCCGGGGTTAAGGCCGGCAAATACCACTATGGCTACAAGGGCGGAGCCCACCTGACCACCCTGGGCAAGAAGCCGGACAGCCATGGCTGCGTTCGTCTGTCAGTCAGCGATGCCAAGTGGATCTATGAGCAAAGATTGAATGGGGGCCTGCCAGTTGGCAGCAAGGTTGTCCTCAAAATGCGTTAG
>SRR1919932_01509 hypothetical protein
TTGCCGGTAGCCAGCAAGTGGCGCTTCAGCCAGCTGGAAGTGTCCCCGGCAACTTATACGGGGACGGCAAAGGACCGGGACTGGACCGTGGCCGGGCACAATTTCGTGAACCATTTTGGCCGCTTGAACCAGCTGGAAGTCGGCGACAAGGTCTATTTTGAAGCCGCGGCCGGCCAGCGCTATGTCTACCAGGTCCAGAAAATGGAAGTCCTGCAGCCGACCGCCATCAGCAAGATGGTTCAAAGTAAGTACGATTTGAGCCTGTTCACTTGTACTTATGACGGGACGACTCGCTTTACAGTTAGATTTCGTTTATTACAAATCAAATAA
>SRR1919932_01510 dextransucrase
ATGGTCACCATCCGTGGGGCAATTGAAAACGGCAAGTTTAATATTTATGATATTCGGACAAACAAGCTTATTAAGAGCCTCGACGCTGGTACTTGGGAGAACTTGGCCTATTCGATGGATGCCAACTCCATTAACAATGTTGATGGCTACCTTAGCTACAGTGGTTGGTACCGACCAATTGGAACAAGCCAAGATGGTAAGACATGGTACAAGACCGGGGCTGGTGACTGGCGGCCAATCTTGATGTATGTATGGCCAAATAAGGATGTTCAGGCACAATTCATTAAGTATTTTGTTAATCATGGTTATGAGAATGCTAATTATGGATTAACAAAGGTATTGGTAGCAAATCTTAACAAGGGCACAGATGCAACAGTTCTTAACACGGCAGCACAAAATCTTCGTTACGTAATTGAACAAAGTATTGCTACTAATAAGGGAACGGGTAAGTTAGCAAATGACATTAATGGTTTTGCAGCTACTGTTCCTGAACTATCGGCTTCATCTGAATTATCAGTACAGAGCATACCAAATTATAAGCCTAATGAAAGCGGAACTGTAGATAACGATCAAGTAATCTTCGTTAATGACGCTGATAGTAAGTATCGCTTAATGAACCGTACGATCAATAACCAAACTGGTAATGATAATAGCGATAACAGTCCTGAGTTATTGGTTGGAAATGATATTGATAACTCTAATCCGGTGATACAAGCTGAGAACCTTAACTGGGAATACTTCTTGTTAAATTATGGTAAGCTGATGGGTTATAACCAGGATGGTAATTTTGACGGTTTCCGGGTTGATGCTGCTGATAATATTGATGCTGATGTGTTCGACCAGATGGGACAATTAATGAATGATATGTACCATATGAAGGGTAACCCGCAAAATGCTAATAATCACTTAAGCTATAACGAAGGATACCATTCAGGTGCTGCCCGGATGTTGAACAAGAAGGGTAATCCACAATTGTACATGGATTCTGGAGAATTCTATACTTTAGAGAAGGTCCTCGGACGTGCTAACAATCGTGATAATATTAGTGATTTGGTTACTAATAGTATTGTTAACCGACAAAATGACGTTACGGAAAATGAAGCTACTCCAAACTGGTCATTTGTCACTAACCATGATCAACGCAAGAACTTGATTAATAGGTTAATTATTAAAGACCATCCTGGCATAGCTTACATTATGGGATCAGCATATAAAGCAGAATATGCTAACCAAGCTTGGCAAGAGTTTTATGCTGATCAAAAGAAGACCGATAAGCAGTATGCTCAGTATAACGTTCCAGCACAATATGCAATTCTTCTAAGCAATAAAGATACTGTACCGCAGATTTACTATGGTGATCTTTACAACGAAACTGCACAATATATGCAGGAAAAGTCGATCTACTATGATGCAATTACGACGTTAATGAAGGCACAGAAACAATTTGTTAGCGGCGGACAAACAATGACCAAGCTTAGCGATAACTTAATTGCAAGCGTTCGTTACGGTAAGGGCGTTGCTAATGCTAATAGTGAGGGTACTGATAGTTTGAGTCGAACGAGTGGAATGGCAGTTATCGTTGGTAACAATCCACAAATGGCAGAGCAAACAATTTCTATTAATATGGGTCGTGCCCATGCTAATGAGCAGTATCGTAACTTGCTTGACACAACGGATAATGGTTTAACATATAATGCTGATGGTGCTGAAAATCCAGAGACCTTAACAACTGATGATAATGGTATTTTGAAGGTTACTGTTAAGGGATACAGCAATCCTTATGTAAGTGGATATCTTGGTGTGTGGGTCCCAGTTGTTTCTGGAAATCAGGATGTTACTACTAATGCCGCCACTGTTTCAGCAGATAGTAATAAGATCTTCGAATCTAATGCTGCACTTGATTCTCATATGATCTATGAAGACTTTAGTTTGTATCAACCTGAACCAACAAGTACAGAGAATCATGCATATAATATTATTGCCCAAAACGCTGCGCTCTTTAACAACCTGGGAATCACTGACTTCTGGATGGCCCCTGCTTACACACCGTTTAGTATGAGTCGCTATAACGAAGGTTATTCTATGACTGATCGCTATAACCTAGGGACTAATGCTAATCCAACCAAGTATGGAAGTGGTGAAGAATTAGCAAACGCGATTGCCGCTTTACATAGCGCTGGCTTAAAGGTTCAGGAAGATATTGTTATGAACCAGATGATTGGCTTTTCCGGTCAAGAAGCAGTAACGGTTACCAGAACTAACAATCGTGGAATTCAGATTTACGTCAATGGTAAGACATATGCTAATCAAATCTACTTTGCATACACAACCGGTGGTGGAAACGGACAGGAAACTTATGGTGGTAAGTATCTGTCAGAGTTACAGTCCAAGTATCCTGACTTGTTCACCACAAGGGCCATTTCTACCGGCGTAGCTCCTGATCCAACAACGCGGATTACGCAGTGGTCTGCAAAGTATCAAAACGGTACATCACTTCAAAATATTGGAATTGGTTTAGCTGTGAAATTACCTAATGGCGATTACGCTTACCTGAATGGTGGTAATAACGATAAGTTTAAGACGACCCTTCCAGAACAGATGGGATCGATTGGTTACTATGTTCAACATGAATTATAA
>SRR1919932_01511 aspartate aminotransferase
ATGCCAAAATTAGCGCAAGATTTACTGCCGATTATCAACCACAAGCTCGACGCCGTGGTTCCTTCAGATATCCGCCGTTTTGACAAGTATGTTTCCCAGTTCGATGATGTTGTCAAGCTGACCCTGGGTGAACCGGACTTAAATACCCCGGAACACATCAAGCAGGCAGCGATCCGGGACATTGAAAACAATGACAGTCACTACGGCCCGCAGTCAGGCAAGCCGGAACTGCTCCAGGCCATCAGCAAGTACGTTAAGGGCGTGACCGGGGTTGACTATGACCCGGCGAGTGAAATCACCGTCACGGTCGGGGCAACCGAAGCCTTGAACTGCAGCTTGTCCGCCCTTTTGAACGATGGCGACAAGGTGATCGTGCCTACTCCAGTCTGGTCCATGTACATGCAGCTGGTCTGCTTGACTGGGGCTACTCCAGTTGAAGTCGACACTTCAGACACCGGCTTTATTTTGACCCCGGAAAAGCTGGAAGAAGTCATTGAACGGGAAGGCAAGGGGATTAAGGCTGTTATGCTGAACGACCCGACCAACCCGACCGGGGTAACCTACCCTAAGGAAGTTATCGAAGGCCTGGCTGAAGTTATCAAGAAGCACCACATGTACGCGATCAGTGATGAAATCTACTCCGAACTGATCTACGGGGATGCCAAGCACTACTCTTTGGCTACTTACATTCCAGACAGAACCATCTTTATTTCCGGTCTGTCCAAGTCCCACGCCATGACTGGCTGGCGGCTGGGCTATATCTGCGGGCCAGCTGAAATCATGGCCAGCGTCCGCAAGATGAACGACTTCATGATCACGGTCGTGACCAACAACGTGCAAGCTGCGGCCATTGAAGCCTTGACCAACGGTCTGGATGACCCGAAGGAATTCAGAGATATCTACCAGCGCCGGGTCAACTTCATGGAAAAGGGCTTGAAGAAGCTGGGTTTTGACATGGCTTTGCCGCGCGGGGCCTTCTACATCTTTGCCAAGATTCCTGAAAAGTACCAGGGTGACGACGTCGGCTTTGCCAAGGCCTTGGCAAAGGATGCCAGAGTCGGCGTGATCCCGGGCAGCTACTTTGGGGCTGGCGGGGCCGGCTATGTCCGCATGTCCTACGCTTCCAGCGATGAAGTCTTAAAAGAGGCTCTCAAGCGGATTACCAAGTTTGTGGAAGCAGAATAA
>SRR1919932_01512 diaminopimelate decarboxylase
GTGAACGGATTAATTAAAGCAAGCGATGTCAATCAAGCCGGCCACCTGCAGATTGCCGGGGTAGATGCCCTGGAACTGGCGGCCAGGTACCAGACCCCCCTGCAGGTTTTTGACGTGGGGAAAATCCGCCAGGCAATCCGGGCCTTTAAGCGGGTCTTTGAAGAAGAAGGGGTAGACTATGAAGTCAGCTATGCTTCAAAGGCCTTTTCCTGCCTGGCCATTTACCAGGTCATCAATGAAGAAGGCGGCCACACCGACGTCGTCTCTGGCGGGGAACTCTGGACGGCCATGAAGGCGGGCTTTCCTATGGACAAGGTGAGTTTCCACGGCAACAACAAGAGCCGGGCAGAACTGGAAATGGCTGTTGACCAGGGAGTCGGGGTCATTATTTTGGACAACTTCCATGAAATTGACTTGCTCAGCCAGATTTTGGAAGAAAAAGACGCAAGCAGCAAGGTCATGCTCCGGGTTACCCCCGGCATCAGCGCCCACACCAACGAATATATCCAGACTGGCCAGGTGGACTCCAAGTTTGGCTTTGATATGGAAAGCGGCCAGGCTGACCGGGCCCTGGAACTGGTCCTGGCCAATCCGCGGATGAAGATGGCCGGCATTCACGCCCACATTGGCTCGCAAATTTTTGACGTCCGGGGCTTCGTGGGCTGCGCAGACAAGCTCTGCCAGCTGGCTAGTGCCTGGAAAGAGAAATACGGCTATGAAACGGACATCTTGAATGTGGGGGGCGGCTTTGGCATCCACTATACTGACCAGGACCAGCCGCTTCCGGCTGAAGAATTCGTCCGGGCCATTGTTAAAGAAGTCAAAAGCAAGTGTCAGGAAAACAATTTGAAATTGCCGGCCATCTGGATTGAACCAGGCCGGTCGATCGTCGGCCCTGCGGGCTTTAGCCTTTATACTGTCGGCTCAAGAAAGGACCTGCCTGGCTACCCGAGCTATGTCGCCCTTGACGGGGGGATGGGGGACAATATCCGCCCAGCTCTTTACCAGGCAGAATATTCAGCCGTTGTTGCTGACCGCCCTCAGGCAGAAGATGAAGAAAGGGTCAACCTGGTCGGCAAGTACTGCGAAAGCGGGGATATCTTGATCAAGTCTTGTCCTTTACCAAAAACCGAACCAGGTGACGTAGTTGCCCTCTTAAGTACCGGCGCCTATGGCTATTCCATGGCCTCAAACTACAACCGCAATCCGCGTCCGGCCGTGGTTTTTGCCGAGGACGGGGTTGACCAGCTGGTGATCAAGCGGGAAAGCTATGACGATTTGATTGCCAACGACTTAAAATATCAAAAATAA
>SRR1919932_01514 hypothetical protein
ATGAGAAAAATCAAGTGTGAGCTTTGCGGGCAAAGAGATTTGTTAAAAGAAGGCAGCCGTTTTGTCTGCCAGACCTGTGGGGCAGCCTATTCAGCTGACCAGTTGCGCCGGCAATTTGACCTTGCCGACCAGGCGGAGATTTATGCTGAAGCCAAGCAGGCCTACCGGGCCAAGCGCTTCAAGCAGGCCAGGCAGCTGTATCTGGCCTTAGCAGAAGAAGGGGACCAGCAGGCGGCCTTTTACGCCAGCCTTTCCAGCAGCCAGCTCGACCCGGCGACGGACTTTGCCCCCCTTTTGAATCAGCTGCGGGCAGCTTTAGTGGCCAGCCGGGAAAAGGGTGGGGAAGGCTACTTTGCTTTTGCCAGCCGGGCCCTGGGCGAAGTGATCGTTTTTGCCCTGGCAGTGGAAGAAGAATGTGAAGAAGACTTTCAAAAGCAGGCTCAGCGCCTGGAACTCAGTTCCCGGCAGACCCTGGAGAAGGGCCACCAGAAGATGCAGAAAGAAGCCGGCCGAGCCTGGCTCTTGATGAGCCAGGCAGCCCACCTCTGCGTAGGGGAGAGCGATGACTTAGCCGCTGTCAGTCCCTATTTCTGGGAGCTGGTCGATGCGATTATCGATGACTTGAGCATCAACCAGAAGCGGGGAACGATTGCCTTGGGCAACGTGAAAGAAGAACGGGCTTATTTTGAAGCCTTGAAGGCTGAGAAAAAGGTCAAAAAGCTGGTTAATGGTTAA
>SRR1919932_01515 Rib/alpha-like repeat protein
TTGACGGTAACTGTCAATAATCCTGCTGACTCATCCCGCTACACCCCTGTCTTATTAGCCGCTAAAACCCAAGTGGGCAAGGCAATCGCGGCTTCCAGCTTGATTGCCAACTTCGCCTCCCCGCCAGCTGGCAGTCAGGCTAGCTACCTGACGGTGCCAGACTTTGCCAAGGCCGGCAGCTACAAGACCCAGATTAAGGTCACATACCCGGACAAGTCGACCTGGACCAGTTCAGAATTCATGATTGAGGTTGCCCCGGGAGCAGAAAGCACGCAGAGCAACTAA
>SRR1919932_01516 Rib/alpha-like repeat protein
GTGCCAAACTTCAAGCGGGCCGGGAGCTACTACGCGGCCGTTTTGGTCACCTACCCAGACAAGAGCCAGGAATACACCCGGCAGGTTAAAGTGACGGTCAAGCGGCAGAAAGACAAGGGCCAGATCGTCGCTTATGGGGCGAAATTAACAGCCAAGTCCTTAATTAAAAACGCCAAGTCCCTGCCGAAGAAGGGAACCAGCTCTCGCAAAAGATCAACACCAAGCAGGCTGGGACTTACCTGCTTGCAGTCAAAGTAA
>SRR1919932_01517 hypothetical protein
ATGCTAAAAGCCTTGCCGGCTAATACGGTTTATGAATTCGTGCCCGAGCCCAATTTCGCCAAGGCGGGGACATATAAGACCTGGATCCGCCTGCTTTATCCGGACAATTCAATGGAGACCAGCCAGGAAGTAACCGTCAGCGTTTATGAACATACCTGGAAGGCGAAGAAGACGGTCAAAAAGCATAAAAAGCTAATAAGAAGAGCAAGAAGTCCAAGCGCCTGA
>SRR1919932_01518 aldose 1-epimerase
ATGGATTATACTATCGAAAACGAGATTCTGAAGGTTACGGTATCAAGCCGCGGGGCAGAGCTGCAGAGCGTCATTGGCAAGCACATCGGCAATGAATACATCTGGCAGGCTGACCCGGAAGTCTGGGGCCGGCATGCTCCAGTCTTGTTCCCGATCGTGGGCAAGCTGAAGAATGATGAATACAGCTACCAGGGCCAGACCTACCACATGGGACAGCACGGCTTTGCCCGCAACATGGAATTTGCCCTGGAAGAGCAGACTAAGGAAAAGCTGACCTTCCTTTTGACCGACACAGAAGAAACCAGAGCTGTCTACCCCTTCAAGTTTGAATTCCGGGTCAGCTATGAGCTTTTGAACAACATGATCAAGGAAAGCTTCCACGTCACTAACAAGGGTGAAGGGGACATGATCTTCGGTGTCGGCGGCCACCCGGGCTTTGCCTTGCCGGTTGAAGACCGGGTCAAGAAGGATGACTTCTACCTGCAGGTCAACCCGGCTAAGCCCCGGGTGCAGGTGCCGCTGGAAGGCGGCCTGCTCAACTGGGAAAAGCGGTTCCTGGCCCCAACTGAATCCTTGATCACGATCACTGACGATCTCTTTAAGGATGATGCCATGGTGCTGGTGATGCGGCACCCGGACAACAAGTTCTCCATCAAGACGGAAACCAGCCGCTTCCACATCAATGTCAGAACTGATTCAGCTCCTTACGTGGGCATCTGGTCCCAGTACCCAAAGACGGCTGATTACGTCTGTATCGAACCATGGTGGGGGATCGCTGACCTTACCGATACTGACGGGGACCTGGAAGATAAGAAGGGGATGAACCGGCTGGCAAGCGGGGAAGACTTCGAAGCCAGCTTCCGCATGTCCTTCCACAGCAAGGTCCAGAGCAAATAA
>SRR1919932_01519 ATP-dependent protease ATPase subunit HslU
ATGAGAGAGAAAACGCCAAAGCAGATCGTTGACCTGCTGGACAAGTACATCGTCGGGCAGAATGAAGCCAAGAAGTCCGTGGCTATCGCCCTGTATAACCGCTACCGCCGGGCCCAGCTGCCAGAAGACGTGCAAAAGGACATTACGCCAAAGAACATTTTGATGGCCGGGCCAACCGGGGTCGGGAAGACGGAAATCGCCCGCCGCCTGGCTGACATCGTTGACGCGCCTTTCGTCAAGGTTGAGGCTACCAAGTTTACCGAAGTCGGCTACGTGGGCCGGGATGTTGAATCCATGGTCCGGGACCTGGCCAATGAAGCTGTCCGGATCGTGGAAAAAGAAGAATTTGTCAAGGTTGAAGGCCAGGCCATCCGCCAGGCCAACAAGACCCTGGTCCGCCTGCTGGTGCCGGGCGTTAAGCGCAACAACCGGCAAAACCAGATGCAGCAGATGCAGGAAATGATGCAGAGCCTGCTGGCTGGCGGCGGGATGCCGGAAGAAACAGAAGAAGTTACTGACGAGATCAGAAACCAAAGACTCAGCGTGGCTGAAAAGCTGGACCGGGGGCTTTTGGAAAACGAAGAAGTCACCATCGAAGTTGAACAAGCTCCAAAGGCCAACCCAATGGGCGACATGATGGGGCAGATGGGGATGGACATGTCCAGCATGCTGGGTGACATGCTTCCTAAGAAGAAAGTCAAGCGGACCCTGCCGGTCGGCCAGGCCAGAAAGCTTTTGGTCCAAGAAGAAGAAAAGAAGCTGGTCAACTATGACGATATCTACCAAAAGGCCATGGACCGGGCCGGGCAGAGCGGGATCATCTTCATCGACGAAATCGACAAGATTACCGCGGCTGATAAGCGCAACTCCGCCGGCGTCTCAAGAGAAGGGGTTCAAAGAGACATTCTGCCGATCGTTGAAGGCTCAACCGTAAGCACTAAGTACGGTCCGCTTTCAACCGACCATATCCTCTTTATCGCGGCCGGGGCCTTTGCTGAAAGCAAGCCGAGCGACCTCATTCCGGAACTGCAGGGCCGGTTCCCGATCAGAGTTGAGCTGGCCGCCTTGACCAAGGATGACTTCGTCAGAATCTTAAAGGACCCGCAAAACTCCCTCTTGAAGCAGTACATTGCCTTGCTGAAGGCTGACGGGGTTGACCTGGTCTTCACAGCTGAAGCAGTCGACAAGATTGCTGAAATTGCCTTTGAAGTCAACCAGGGGACGGACAATATAGGTGCCCGCCGCCTGGCTACGATCTTGGAGAAGCTGCTGGAAGAAGTTCTCTATGAAGGGCCGGACATGGAAATGGGGCAAATCACCATCACCCAGGCCTATGTCGAACAGAAATTGAGCGATATCGTCAAGAACAAGGACCTGACCAAGTTCATCCTGTAA
>SRR1919932_01520 ATP-dependent protease subunit HslV
ATGACAACGATTTGTTCAGTAAAATACAATGGCCAGACGGCGATTGCCGGCGACGGCCAGGTGACCCTGGGCAAGAGCATCATCGCCAAGACCACGGCCAAGAAGATCCGCCGCATTTACCATGACCAAGTGGTGATCGGCTTTGCCGGCGGGGTGGCGGATGCCGTCAGCCTGCAGGAAATGCTGGAAGGAAAGCTGGAAAGCTACAGCGGCGACTTACGCCGGGCAGCCGTGGAAATGGCCCAGTCCTGGCGGAAAGACCCGACCTTGCAGAAATTGGAAGCCATGGTTATTGCTTTTAACGACCAGGACCTGCTCTTGATTTCCGGCAACGGGGAAGTGCTCGAACCAGACGAAAGCGTGGTGGCCATCGGCTCAGGCGGCTACTATGCCCAGGCAGCGGCCGTGGGGATGCTCCGGCATGCCAGCGGGATGACGGCCAGTGAAATCGCCAAGGAAGCAGTCAATATAGCTGCGGACATCGATGTTTTTACCGACCACGAGATTGTTACGGATGAAATCGAGGAAAAATAG
>SRR1919932_01521 tyrosine recombinase XerC
ATGACCCTTGAAGAGCAGTTTCTTTCCTACTTGAAAAATGAGCGCTCTTACAGCCCCAAAACCGTCCTGGCCTACCAAAAGGACCTGGCAGCAGCTAAGAAATTCTGGCAGGAAAACGGGGGCTTTCCAGGCTGGGATCAAATATCCCGCCGGGACATGGAAATTTACCTGCTGGCAACCGGGCAAAAGCTGGCATCCAGCACTTTATCCCGAAAATTATCCAGCCTTAAGTCTTTTTACCGACTTTTGACCAGGCGGGGTTTGGTCAAAGCTGACCCGACCGTGGCCATTCAGCTTAGGCGAGGGAAGCAAAAGCTGCCGGAATTTTTCTACCAAGATGAAGTCGGCCAGGTCATCCGCTCGCTAAACGATGGCAAACCGTTAACAGTCCGCAACCGGGCAATCGTGGCGCTTTTTTACGCGACCGGGATGCGGCTGAGCGAACTGACTGACTTGAAAATTAAGCAGCTTGACCTGGAAAACGGCATGATTTTGGTGCACGGCAAGGGCAATAAGGACCGTTATGTCTTTTTTGACCAAGAGAGCAAAAAGTACTTGGAGGAATATCTGCAGGCAGCCCGGCCAAGTTTATTGAAAAATGAGCCAGATACCGGGGCAGTCTTTTTAAACAAGCTCGGTAGGCCAATTTCCAGCCGGGGGATTGCCAAAGCCGTCCAGCAAATTTTTCAAAAAGCAGGCTTGACGGCTGGTGCCCACCCCCATGAACTCCGCCATAGCTTCGCCACCGCCATGCTCAACAACGGGGCAGACCTCAGGAGCGTGCAGGAGCTCTTGGGCCATGAGGACTTGTCTACGACCCAGATCTATACTCACGTCAGCATGCAGCATCTTACGGCGGAATATCGCCAGCATTTTCCCCGAAAATGA
>SRR1919932_01522 tRNA (uracil-5-)-methyltransferase Gid
ATGACAGAAAAAGTTACGGTAATTGGCGCCGGGTTGGCCGGCAGCGAAGCAGCATGGCAGCTGGCCAAAAGAGGGATCAAGGTTGACTTGTACGAAATGCGGCCAAAGAAAATGACTCCGGCCCATGAAAGCGGCAATTTTGCGGAATTAGTCTGCACCAACTCCATGCGGTCCAACCAGCTTTCAAACGCTGTTGGCCTCTTGAAAGAAGAAATGCGGCAGATGGACTCCTTGATCATGCAAGCCGCTGATGCCTGCCAGGTTCCAGCCGGCGGGGCGTTAGCCGTTGACCGGGAGCTTTTCTCCAAGTATGTGACCGACAAATTGACCAGCCTGCCGGAAGTGACCATTCACGATGAAGAAATCACTGACCTGCCAAGTGAAGGCATCACCGTTATCGCGACCGGTCCTTTGACCAGCGATAGCCTGGCAGAAAAGATACAGGACTTTGAAGGCACCGAAAGCCTCCACTTCTTTGACGCGGCCGCTCCAATCATCGCGGCTGACTCCATTGACATGGACATCGTTTACAAGAAGAGTCGTTATGACCGGGGCGAAGCCGCCTACCTCAACTGCCCGATGACCAAGGAAAAATACGACCGCTTTGCCAATGCCCTGGTTCACGCGGAAACTGCTGAAATGCACGGTTTTGAAAACAGCGAGGTCTTTGAAGGCTGCATGCCGATCGAAGTCATGGCGGCCCGGGGGGCCAAGACCATGCTCTTTGGTCCTTTAAAGCCAGTCGGCCTGGAGAACCCGAAGGACGGCAAGACTCCTTACGCTGTCGTTCAGCTCCGCCAGGACAACGCTGCTGCCTCCATGTACAATATCGTGGGCTTCCAGACCCACCTCAAGTACGGGGAACAAAAGCGGGTCTTCCAAATGATCCCTGGCCTGGAAAACGCCCGCTTCGTCCGCTACGGCAAGATGCACCGGAACACCTACATGGCCAGCCCGGAAGTTTTAAAGGCCAGCTATGAAGCTAAAAAGCGGCCAGGCCTCTTCTTTGCCGGCCAGATGACCGGGGTGGAAGGCTACGTGGAAAGTGCCGGCAGCGGCCTGGTCGCCGGGATTAACGCGGCTAGAGAAGCCCTGGGGCAAGAGACGGTTGAATTCCCGGTAACCACTGCCCTTGGCTCTATGGCTCACTACATTACGACCACTGATGCCAAGCACTTTCAGCCAATGAACGCCAGCTTTGCTTTGATTCCGGGCCTGGAGGGCAAGAAGATCAGAAACAAGCGCGAGCGCCACGAAAAGATCAGTGAACGGGGCCTGGCCGCCCTGGCCGCCTTTAAGGCAGAGAAGCTGGCTGACTAA
>SRR1919932_01523 DNA topoisomerase I
ATGCCTGCTACAGCAAAAGAAGATAAAAGCAAGAGCAGTAAAAAGACCGCGGCTGCCAAGAAGAGCAGCCCGAAGCGGAAAAAGAGCAAGGTTAAAAAAGACCTGGTTATCGTGGAATCTCCAGCCAAGGCCCACACTATCGAGAAGTACCTGGGCCGGAAGTACCACGTAATCGCCTCTAAAGGGCACATCCGGGACTTGCCCAAGTCCCAGATGGGGGTCGACATTGACCACGACTACCAGCCAAAATACATCTCCATCCGGGGGAAGGGTGACACCATCAAGGAACTGAAGGCTGAAGCCAAGAAGGCCAACAAAGTCTACCTGGCTTCCGACCCCGACCGGGAAGGGGAAGCTATTGCCTGGCACGTGGCCCACGTTTTAGGCCTGGACGAAAAAGAAGCCAACCGGGTAACCTTTAACGAAGTTACCAAAGACGCGGTCAAGGATGCCTTCAACCACGCCCGGACCATCGATATGGACACGGTCAACGCTCAGCAGGCCCGCCGGGTCCTGGACCGCTTGGTCGGCTACTCTTTGTCGCCGATTCTCTGGTCCAAGGTCAAGAAGGGCCTGTCAGCCGGCCGGGTGCAGTCTGTTGCCTTGAAGCTGGTTATCGACCGGGAAAAGGAAATTAAGGCCTTCAAGCCGGTTGAATACTGGACGATTGACGCTGAATTTGCCAAGGGCAAGGACAAGTTCCAGGCTAGCTTTTACGGCGAAGAAGGCAAAAAGACGGAATTGCCAAATAACGAGGCCGTCCAGAAGCTGCTGGCTAAGTTTGACAAGAAGCAGCCGTTTACGGTCAGTAAGGTAGTTAAAAGAGAAGTCCGCCGGCAGCCAGCCGCGCCGTTTACCACTTCAACCATGCAGCAGGAAGCCAACCGGCGGCTGAACTTCCGGACTTCAAAGACCATGAACATTGCCCAGCACCTGTATGAAGGGATCAGCCTGGGCAAGGAAGGCACGGTCGGTTTGATCACCTACATGAGGACTGACTCCAAGCGAATCTCACCAGTTGCCCGCCAGGAAGCAGCTCAGTTCATCGCTGAGGAATACGGCAGCGACTTCGCGGTCAAGAAGGAGCGCCACTTCAAGAATCAAGGCGACGCTCAGGATGCCCACGAAGCTGTCCGGCCGACCAGTGTCTACCGGACACCGAAGTCCCTGGAAAAGGTTTTGACCAAGGATGAGCTCCGCCTTTACACCTTAATTTGGAGCCGTTTTGTGGCTAGTGAAATGACTCCGGCCGTCTTTGACACGGTCCGCTATGACTTGACCCAAAATGGGGTGACCTTCAGAGCCAGCGGGTCAGTTATGAAGTTTGCCGGCTACACCAAGGTTTATGACAACCGGAGTGAAAAGAACGTGGCCCTGCCAGCCCTGGAAGAGGGCGACGAGGTCAAGCTGACCAAGTCAGACAACAAGCAGCACTTCACCCAGCCGCCGGCCCGCTATACTGAAGCCAGCCTGGTCCGGGCTCTGGAAGAAAACGGGGTTGGCCGGCCGTCAACTTACGCGCCGACCATCCAGAACATCCAGTCCCGGAATTATGTCAAGCTGGAAGGGCGGGCAATCGTGCCAACTGAACTGGGGGAAATCGTCGACGGCTTGGTTGAGCAGTTCTTCCCGGACATCACCAGCGTTGACTACACGGCCAAGCTGGAAGATGAACTCGATGAAGTCGAAGAAGGCAAGAAAGACTGGGTCAGTGTGGTTGACCAGTACTACAAGCCATTCTCCAAAGAACTGGAGAAAGCCGACAGCGAGATCCAGAAGATCCAGATCAAGGACCAGCCAGCTGGCTTTGATTGTGAAGTCTGCGGGGCCCCGATGTTGGTCAAGATGGGCCGCTACGGCAAGTTCTACGGCTGTTCCCGTTTCCCGGACTGCCGCCACACCCAGACCATCGTCAAGAAGGTCGGCGTGACTTGTCCGAAGTGCGGGGAAGGCGAAGTTTTGGAAAAGAAGTCCAAGCGGGGCCGGAAATTCTATGGCTGTTCCCGCTATCCAGACTGTGACTTTGTTTCCTGGGACAAGCCGATCAGCCGGGTCTGCCCGCACGACGGCCACTTCCTGGTCGAAAAGAAGCGCAAGGACGGCATGGTCGTCCTCTGCCCGAATGGCGACTACAAGGAAGAGCCAATAGAAGAACAAGACGAAGCAGCCGAATAA
>SRR1919932_01524 50S ribosomal protein L10
TTGAGTCAAGCTACTATCGCTGCTAAGGCAAAATTCGTTGAGGAATTTGCAGAAGAACTTAAGTCAGCTAAGTCCATCGTAGTTATCAACTACCTTGGCTTGACTGTTGACCAAGTTACTGCGTTCCGTGCAGAATTGCGTGAAAGCAACGCCAAGATGAAGGTTGTCAAGAACACTTACCTTCGCCGCGCTGTTGCTCAAGCCGGCTTGGAAGATTTGGCATCAGTATTCGTTGGCCCATCAGCTGTGATCTACACTGATGATGAAGACAATGTTACTGCACCTGCCCGGATCGCTGCTGACTACGCTAAGAAGTTCGACGTTGTTGAAATTAAGGGTGGTGCACTTGAAGGTCAAGTTGCTACCAAGGAACAAGTCGAAGAACTGGCTGCAATTCCAGGTCGCGAAGGTCTGCTTTCAATGCTTCTTTCTGTATTGCAAGCACCTGTACGCAACTTTGCATACGTTGTTAAGGCTGTCGCTGAATCAAAGGAAGAATCAGCTGAATAG
>SRR1919932_01525 50S ribosomal protein L7/L12
ATGGCTTTGGATACTGCTAACATCATTGAACAATTGAAGGGTGCTTCAATTCTTGAATTGAACGACCTTGTACACGCTATCGAAGAAGAATTCGGCGTTACTGCTGCTGCTCCTGTAGCTGCTGCTGGTGCCGCTGGTGGTGCTGAAGAAGCTAAGTCAAGCTTCGACGTTGAATTGACTTCAGCAGGTACTGAAAAGGTTAAGGTTATCAAGATCGTTAAGGAAGTTACTGGCGCAAGCTTGCTGGACGCTAAGAAGACTGTTGACGGTGCTCCAGTTGTTCTTAAGGAAGGCTTGTCAGAAGACGAAGCTAACGAACTTAAGGCTAAGCTTGAAGAAGTTGGCGCAACTGTTACCCTTAAATAA
>SRR1919932_01526 LacI family transcriptional regulator
ATGGCGACGATGAAAGACGTTGCCCGTGAAGCAGGAGTCAGCTTAGGCACCGTTTCGCGCGTAATCAATCATGCGGCCGGGATCAAGCCGGCTACCTTGGAAAAGGTCAAAGCGGCAATCGAAAAATTGAACTATGTGCCAGACCAGTATGCCCGGGGAATGAAGCTGAACCGGTCTTATACGGTGGCGTTGATGGTGCCGACAATATGGAACTCTTTTAACGCGGAATTTGCATATCATGTCGAAAAAGCCCTTGCCAAGCAAGGCTATAAAATGCTGCTCTGCGATTATGACGATGATCCTGACCGGGAATTGGCTTACATTCAAATGGTCCGTGAAAATAAAATTGATGCAATAATCGGCATTACTTACGGTGATATCGATAAGTACATCGATTCTCAGCTCCCCTTTATCTCAATTGACCGCTACTATAAACAAAGAGTCTCATACGTGGCTAGCCAAAATTATGAGGGGGGGCGGCTGGCGACAAGTGAACTGCTTAAGCACGGGGCCAAGCATTTGGCTTTTGTCGGCAGTTACAACCAGTATCCAAATGATACTACCAGGCGATATGAGGGATTTTGTGACTATCTAAAAGAACGTGATTTGCCGATTTTGGCTATTCATGAACTGGAGCCAGTGGAAAGCTTTTTCCCTCTGTTGGATCAGCTATTTAGCCAGCATCCGGAAATTGATGGCATTTTTTGCAATACTGACACTTTACTCTATGACGTTTGGCGTTGGTGCGTGGCTAATAAGCTGAGAGTGCCAGATGATGTGCAATTGATCGGCTATGATGGAATGCGGATGACTGATTCGCAGCGCTTGCCAGTCTCGACAATCGCTCAACCTCTTCAGGAGATGGCTGAGGGAGCCGTAAAACTGGCTTTGGGCAAGCTGAATGACCCCCAGATGAAGGAAAAGCACATATTTTTTCCGATCAAGTTCGTTGAAGGCTTCACGACCAAAAATAATCACAGCCAGATTGACTTGCTAAAAAATCCAATGGGATAA
>SRR1919932_01527 sugar ABC transporter substrate-binding protein
ATGAAGCATTGGAAAATTGGCGTAATGACGGTTGCTGCTTTGGCAGGATTGAGCTTGACGGCCTGTGGTAAAGGATCAAGTGACAGCAACAGCAAAGACATTACTATGTGGGTTCACTTCTCAAATACTGACCCGGAAGGCAAGGCACTCGCCAAGAACATTAAGGATTTCAACAAGACCAACAAGCATGGTTATCATGCGACTGTTAAATACATTCCGCGGTCAGGTTCAGGTGGCGGTTATGAAGACAAGCTGAACGCCGCGGTCAACTCCGGCAGCTTGCCAGATGTTTTGACTTTGGATGGACCTAATACGGCGGCTTATGCCAACGCCAAGATTATTCAGCCAGTTGGTCAATACATTACTAACAAGGATGATATCCTGTCAACTATCAAGGACCAAGGGACTTACAAGGGCAAGCTCTACGCGGTTGGATATTCAGAATCAAGTATTGGCTTTTACTACAACAAAAAGATGTTTAAGGCAGCTGGCATCAGTAATTCAGAATTGCCAACTCTTAACAAACCATGGACTTGGGATCAGTTTAACGCTATTTGCAAGAAGCTGCACGATAAGTATAAGTCACCGATCTTGGACATGAGCTTGAGCGACCACTCAGAAATGTCACTTTACTCACTGGCTCCATTTGTTTGGTCAGCTGGCGGTGACATCACCAATAAGGCTGGCACTAAAGCGATCGGCTACTTCAACTCTAAAGAAACTGCTTCAGCTTTCAAGTTCGTACAAAGTTTAGTCAAGAACAAGTACACAACCGTCAGCCCGAAGGACAAGGGTTTTGAAACTGGCAAGTACGCGATGTTGATGACTGGGACTTGGGAAGTGCAAACTCTGAAGACCCAATACAAGAGCCTTGACTGGGGCGTTCTGCCTTACCCAGTTTCACCGAAGACTAAGAAGCTGGTTTCACCAACTGGCTCATGGCAATACGCAATGTCATCACAAGCTAAGAACAAGAAGGCTGCCGGGGCTTTAGTCAACTACCTGGCCGGCACCAAGGCCAGCTACCGGACTGACATGGCCAACACAGTCCTGCCAGCTCGTAAGTCAACTTCCAAGCTGATGCTGAAGGATGCTGACGAAGCAACCAAGTTCTTTATCAAGCAAAACCAGCAAAGTGGTCACGCCCGTCCAGTTATCGTTAACTACCCGCAGATCACCAGAACTTTTGCTGAAACGATGCAAGATGCGACCTACAAGCCGAATACTGACGTTCAAAGCCTGTTGAACAAGCAAGCAAAGGTTATGCAGAAGTACCTGGACCAAAAGAACTAG
>SRR1919932_01528 sugar ABC transporter permease protein
ATGAATCAAAAGGGGTGGCACAAGCAGGTTGGCTGGCTCTATGTCCTGCCAGCGATGCTGCTTTTGCTGACATTCTTGATCATCCCATTCTGCATGTCGATCAATTACTCATTTACTGATTACAACATGCTGACACCGGGATTAAAAAAGTTTGTCGGCTTACAAAACTACCTGCAGACTTTGAAAGATCCTGTCTTTTTGAAGAGTCTGCGGAATATTCTGCAATTCGTGGTCTTCATTATTCCAATTCAATTGGGGATGGCCTTAGGCCTTGCTTTGATTGTCAACAAGCAACGGCCGGGCAACATGTTTTTCAAGATCTCATTCTTTGCGCCAAATGTGGTTTCTTTAACGGTTACCGCGGTTTTATGGATGTACATCGTTAACCCTGACCAAGGGCTATTAAACAGCATGTTGGGTTTGTTGCACATCAGCCCGCAGCCGCTGCTCACTTCACCTAAACAGGCCATGTTTGTCATCATTGGGATTTCTGCCTGGCAGGGGGCTGGCTACCAAATGCTGATCTTCCTAGCGGGCTTGCAAGATATTCCTCACAGCCTTTATGAAGCAGCTGAACTTGATGGTGCCAATGCCTGGCAAAGATTCCGCCACATTACCATGCCATCCCTGCGGCCGACAACGATGATGATCATGACGACCACCTTGATTTCCGCTTTGAACTTGATTACTCAGTCAATGATTATGACTCAAGGTGGACCTGACAATGCAACGATGACTCCAATCTACTACATTTACCGGACTGGCTTTACGGACCGGCAACTGGGCCTGGCCTCAGCGATGAGTGTCATCTACGGGATTGTCATCATCTTCTTCACGATCATTCAAAGAAAGGTTGAAGGGAGAGCACAAAAAGATGAGTAG
>SRR1919932_01529 sugar ABC transporter permease protein
ATGAGTAGAAAGAAATTTCATATAATTTGGACAACAGTCCTAATTACTCTAATTGCCTTATTCTTCTTGTTCCCGCTGGTTTGGATGATTGCTTCATCCATGAAGAGCGAGGCAGAAATTTACAAAAACATTACTAGCTGGAAGGCCTTCCTGCCATCTGCAAATGTTCATGAATGGTTCGGTGCGTATGTGCAACTGTTCAAACGCTTTCCAATTATTCACTTCATTTTGAACTCAATTACCTATGCTCTGTGCTTGACAGCAGGATCATTGATTATCAATGGCTTGGCTGGCTATGGCTTTGCTAAGTTCAAGTTCACTGGCAACAAGATTCTGTTTAGCATTTTGATTGCCATGATGGTTATTCCAGGGGCAACCTTGATTATTCAGCAATTCCAAATTGTGAAGAACCTGGGCCTTTTAAACACTATCCTGGCTGTAGTTCTGCCTGGGGTGTCAAGTCCTTTCTATATCTACATGTTTAAGAATGCTTTCGAAGCAATTCCAGAAAGCGTTAGCGAAGCGGCATCTATGGAAGGGGCAGGGAGCTTCCGGATCTTTTGGAGCATCCTCTTACCAATGGCCAAGCCAACAATTGCTACTGTTGGTACTCTGGCCTTTATCGGTAGCTGGAACGACTATGTTTGGCCGCTGATAGTCCTAAATGATTCCAGTCAGTTCCCTTTACAAGTGGCAATTACTAACGTAAACGTAACTCAACCAGTTTACCAGAACCAGGTAATGGCAATCTTGACTATTTCAACGATTCCACTGGTTTTGATCTACATCCTCGCGCAAAAGTACTTGGTACGAGGCTTAGGTTCAGCAGGTAACGGTGACAAATAA
>SRR1919932_01530 fructosidase
ATGACTATGAATGCAAATCAATATATTTATCACCAAATTCGCACTCTCCAACACGATCCCTTTCGGCCAGACCAGCACTTTACGGCCCCAGTTGGCTGGATTAACGACCCTAATGGCCTGATCTACTATAAAGGCTGGTACCACCTCTTTTGCCAGCACAATCCATATTCTGGCCACTGGGATACCATGCACTGGTATCATGCCCGCAGCAAAGATTTAAAGCACTGGGAGGACTTGGGCGAGGCTTTGGAGCCAGACCAGGACTATGAAGCTAAAGGCGGCGTTTTCTCTGGGTCAGCTATCGTCAAAGACGATCGCTTGTACTTGGTCTACACTGCTCATCACGTAGCGGACGATGGCACGATTGATGAGACCCAGTGCCTGGCTTATTCAGACGATGGCTTGAATTTCCAAAAACACCCAGGCAACCCAGTCTTAACGGCAGCAGATGGCCCTAGTGGCTTAGCAGCGGCAGATTTCCGGGATCCGAAAGTTTTCGAACATGATGGCAGCTATTACTTAGTTGTCGCCGGAGCTGTCGATGGCCGGGGGCAGGTCCTGCTTTTCAAGTCAACTGACCTGGTCAACTGGGAATATGTGTCCGCAATCTTGAAGGATCAACCTTACATGGGCCGGATGACTGAATGCCCTGACTATTTTGAAATTGACGGTCAAGCATTTCTGGCTTTCAGCACGATCTATGGTGATGACCACTACAGTACAGTCAACATCGTCAAAGGTGAAATGGATTGGGAAAAAGGCGAGCTTACCCCGCTTAAGCATGAACTTTACGATGCTGGCCCAGATTTCTACGCTTCACAGTCCTTCTTGGACAAAAATGGCAACCGGATCATGATTCCTTGGCTCAGAAGCGTGGATCAAGCTGATTATTTGGCAGACACTGGTCATGCCTGGAATGGGATGATGGGGCTGCCTCGCCAGCTCAGCCTGGAAAATGGAGAACTCGTGCAAACGCCGGTTACGGACTGGAAGCAATTTGGCGAAAGAGTTGTGAACGGCAGCTACCACTTGGATGACTTCAAACCAGGCAAGAAGCTGACTTTGATTGGGGCTAATGGCCGCATTGAAATTAACCGCTTGGCAGATAACTACCAGGTTAAGGTGATTTCTCCAATTTATCAAAGAAAATACCAGCTATCGGCAATAGGTGATCAGCTGGACTTGAATTTTGACAATTCATGTTTAGAATTGTTTGCTAAAAAGCAGACTTTGAGTCTTTTTACCTTCATCTACGGCATAGAGCAAGCAATCTGGAAATAG
>SRR1919932_01531 sugar ABC transporter ATP-binding protein
ATGGTACAAATCGACTTAGAACACGTCTACAAGAAATATGACAAGGCGGAAAAGTACTCCGTCACTGACTTCAATTTGCATATCAATGATGAAGAATTCATCGTCTTCGTTGGGCCTTCCGGCTGTGGGAAGTCAACTACCTTGCGGATGATCGCGGGTTTGGAAGACATCAGCAAGGGGAAATTGAAGATCGGCGGCAAGGTGATGAATGACATTCCGTCTAAGGACCGCGACATTGCCATGGTCTTCCAGAACTACGCTCTTTATCCGCACATGTCAGTTTATGACAACATGGCTTTTGGCTTGAAGATCAGAAAAATGCCTAAGGATGTCATTGACAAGAAGATTCATGAAGCAGCCCAGATCTTGGGCTTGGAAGAATACCTCAAGCGCAAGCCAGCTGACTTGTCTGGTGGGCAAAGACAGCGGGTTGCCTTGGGACGGGCAATCGTCCGTGACGCGCCAATCTTCTTGATGGACGAACCTTTGTCAAACTTGGACGCCAAGCTGCGGGTCTCAATGCGGGCAGAAATTGCCAAGATTCACCGCAAGCTGAAGACGACTACCATTTATGTTACGCACGACCAGACTGAAGCCATGACCCTGGCTGACCGGATCGTCATCTTGAAGGACGGGAAGATCCAGCAAGTCGGCAGCCCGAAGGAAGTTTACAACAACCCAGTCAATGTCTTTGTCGGCGGCTTCATCGGCTCCCCGGCCATGAACTTTACCAAGGTTACCCTGCGCGGCAATCAAGTTATTGCTAAAGATGGCAGCTTAAAGCTGACCTTACCAGAAGGGCGCTTGAAGATGCTGCAAGACAAGGGCTACGCTGGCAAGGAACTGATCATGGGTATCAGACCCGAAGACATTCACTCAGAGCAGATGTTCCTGGAAACCTTCCCTGACAACGTTGTGACCGCGGAAGTCACGGTTTCTGAACTGCTCGGGGCTGAAACCCAGCTCTACACGAAGATCGGGGACATGGAAGTCATTTGCAAGGTCGACTCCCGCGACTATGTCAAGCCAGGCGAAACAATCCAGCTGGGCTTTGACATGAACAGGCTCACTTCTTCGATTCTGAAACTGAAGCAAATTTGGACTTGA
>SRR1919932_01532 fructokinase
ATGACTTTAGTTGGCAGCATTGAAGCTGGCGGGACCAAGTTTGTTCTGGAGGCCGCTGATGAAGATGGCAAGATTGTGGCCGAGGGCCGGATTCCAACCACTAGTCCGGAAGAGACCCTGCAAAAGAGCGTGGAATTCTTTAAGAAACATCCAGTAGCAGTTTTGAGCATCGCTTCTTTTGGCCCGGTCGATATTAACCCAAACTCCAAGACTAATGGCTATATTCTGAAGACGCCAAAGCCAGGCTGGTCGATGACTGATTTGAGGGGGACTTTTGAACGGGAACTCGGCATCCCTGTTTACCTGACTTCAGACGTTAATGGCTCTTGCTACGGGGAATATGTTGCCCGCGGCCGGGAAAATGAAAAGACCTACCTGTACATCACGATCGGGACGGGTATTGGTGGCGGTATTATCCAAAATGGCCACTTTATCGGCTATAACAACCACCCGGAAATGGGGCATATGCCAGTTGTCCGTTACCCAGGCGATGACTATGAAGGTCACTGTCCATTCCATGGCGCCTGCGTGGAAGGGATGGCAGCCGGCCCAAGCCTGGAAGGCAGAACGGGAATTAGGGGCGAAAAGCTGGACCGGAGCGACAAGGTCTTCACTTATGTGCAATACTATGTTGCCCAGTGCCTGTTCAATGCCTACTTAATCACCCGGCCAGATGTGATGGTGGTCGGCGGATCAGTCTTAAATGAAGCTGATCTTGAAGGCGTGCGGGAATTTTTTGCCAAATTCAACAACAACTATGTTGCAACGCCAGACCTCGATGAATTAATTGTGCGGCCGGCGGTTGCGAATAACGGCTCGGCAACCTTGGGCAATTTTGAATTGGCCAAGAACCTGCTTAAGTAG
>SRR1919932_01533 oligopeptide ABC transporter substrate-binding protein
ATGAAAAAGAGCAAAAATATCCTGGGCGGTCTGGCCGTCATGACGTCAACCCTCTTGGCTGCCTGCGGGGCAAGTTCCAGCAAGACCGCGGCCAATCAAAAGCTGAACTGGATGGAAGAGGCGGAACTGTCCACCATCGACGTGTCCAAGATCATGGACGACGTTTCTTTCAACCAGGTCAACCAAGTCATGGAGGGCCTCTACACCCTGGGCAACAATGCCAAGGTGAAAAACGCCCTGGCAAGCAAGGCAACCGTTTCTAAAGATGGCAAGACCTGGACCTTTAATATTCGCAAGAATGCCAAATGGTCCAACGGCCAGGCCCTGACCGCCAAGGACTTTGTCTACTCCTGGAAGCGGACGGTTGACCCCAAGACCGCGTCAGAATACTCTTATCTTTTTTCCGGGATTAAAAACGCTGACGCGATCGTCGCCGGTAAGAAAAAGGCTTCCACCCTGGGCATCAAAGCCGTGGGCAAGTACAAGCTGGTTGTCAGCTTAGAGTGGAAGATCCCATACTTCAAGCTCTTGATGGCCTTCCCGCTTTTCTTCCCGCAAAATGAACAGGCAGTCAAGAAGTACGGGTCCAAGTACGGGACCGCTTCTAAATACATGGTCTACAATGGCCCATTCGTGCACAAGGGCTGGACTGGCTCCAACCTCTCTTGGAAGCTGGTCAAGAACAAGTACTACTGGGACAAGAAGGATGTCAAGCTGACCCAGATCAACTACTCTGTCCAAAAGTCTCCGTCAACTGCCTACAACCTCTACCAGGCAGGAAAATTGGACGGGACCATCCTGGACGCCCAAGCCTCCAAGCAATTGACCAAGTCCAAGGGCTACACGATCAGAAAAGTGGCCAACACCCAGTACCTCCAGTTCAACTTGAAGAAGTACAGCAAGTTTAAGAGTACTAACCTCCGCCGGGGGATCTCCATGGCCATCAACCAGTCCAGCCTGTCCAAGACATTAGGGGCCACCTACAAGGCAGCGACGACCTTTACTTCCAGCGGCTTGACTACTGTCAACGGTGAGGACTTCACCAAGCTGGCCGCCAGCAGCGAGGCTAAAAAGTACACCAGCTACAATAAGCAGCTGGCCAAGCAGTACTTCGAAAAGGGCTTGAAGGAAGAGGGCTTGAGCAAATTGCCCTTTAGCCTTTTGGCTTCTGACGACGATACTTCCAAGAAACTGGCGGAATTCGTCCAGAGCCAGCTGGAAACTGCTTTTGGCGACAAGGTGCAGAGCATCCCTTCCAAGACCAAGCTCAACCGGGTCCTGGCCGGCAACTTTGAATGCACCTTGTCCGGCTGGATCGCCGACTACGCTGACCCGATCTCCTTCCTGGACTGTGAAACGACTGGTAACTCCTACAACTACGGGAGCTGGAGCAACAAGGAATACGACAAGCTGATCGCGGCATCTAAGACCAGTTCCGGGGAGGCCCGCATGAAGCTTTTGGCCAAGACTGAAAACATCTTGATGGTCAACCAGGGGGTAACTCCTTTAACTCAAGCCAACAAGGCCTGGATGATCAAGAGCAAGGTCAAGGGCATTATCTACAACAGTGCCGGCGCCTACTACAACTTCAAGTATGCCTACATCGCTAATTAG
>SRR1919932_01534 oligopeptide ABC transporter substrate-binding protein
TTGAACAAGAGAAAATCTTTATTGGCTGGTGCTGCTGTTTTGTTTTCTGGGGCACTTTTGACGGCTTGCGGGCAAAGCAAGGGGGCAAGTGAGAAGCAGGTATTGAACTGGATGACATCGGCAGAAATCATCACTATGGATCCATCGAAGGCGACGGACGCGACTTCTTTCACCCAGATGGAAAACACCATGGAAGGCCTGTATCAATTAGACAAGGACAACCAGGCCAAGGAAGCCCTGGCGACTAAGGCTGCCCAAAGCAAGGACGGTCTGACCTGGACTTTTGATTTACGGAAAGACGGCAAGTGGTCCAACGGGCAGGCAGTTACTGCTAAAGACTTCGTCTACTCCTGGCAGCGGACAGTTAACCCCAAGACCGCGTCTCAATACAGCTATATCTTCTCCGGCATTAAGAACGCGGACGCGATCGTGGCAGGCAAAAAAGCCCCGTCCAGCCTGGGCGTCAAAGCTCTTGGCAAGTACAAGCTGCAGGTTAAATTAGACCACAAGCTGCCTTATTTCAAGCTCTTGCTGGCCTTCCCGGTCTTTTTCCCGGAAGACCAAACTGCAGTCGAAAAATATGGCAGCAAGTTCGGTACTTCTTCTAAGACCACGGTCTTCAATGGGCCCTTTGTCCAAAAAGGCTGGACCGGAGCCAACATGTCCTGGAAGATGGTCAAGAACAAGAACTACTGGAACAAATCAGCCGTCAAACTGGCCCAGATTAATTTCATGGTTGAAAAGTCACCGTCAACGGCCTACAACCTTTACCAGGACGGCAAGCTGGATACGGCAATTTTGAGCGCCCAGGCAGCCAAGAACCTGCAAAAGCAGGCCGGCTACGTGATCAGAAAGAACAACGGCACGACTTACATGCAGTTCAACACCAAGCTGGCTAAATTTAAGAGCACTAAGCTCCGTCAAGCAGTTTCCATGGCTTTGGACCGGAAGGCCCTGGCCAAGACCCTGGGCGGTGGCTTTACCGGCGCGACGACCTTTACCGCGGCTGATATGACCAAGGTGGACGGGCAGGACTTTACCCAGCTGGCCCAGGACAAGACGACCAAGCAAATTACCAGCTACCACAAGACATTGGCTCAGAAGACCTTTAAGGAGGCGCTCAAGGACTTGCAGCTGAAGAAATTATCCTTTACTTTGCTGACGGCTGATGACGACAGCTCAAAGGCGATTGGTGAATACATCCAGAGTGCCTTGGAAACGGCTTTTGGCAAGCAAGTCTCCGTCAAGGTGCAGAGCCTGCCGACCAAGTCCCAGTTTGCCAAGATGGACAGCGGCAATTTTGAAGCCTGCGTCAGCGGCTGGAATGCTGACTTCGCTGACCCGATTTCATTCCTGGACTGCATGACCTCAACTAACGGCTACAACTCCGGTAAGTGGTCAAACAAGCAGTATGACCAGCTGATCGCCAAATCCAAGACCGTTACTTCATCTAGCCAGCGGATGCAGCTTTTGGCCAAGGCAGAAAACATCTTGATGACCGACCAGGGGGTAACGCCGCTGGTTCAGTCCGGCAGTGCCTGGATGCTGAACACAAAGGTCAAGGGCTTGATCTACAACGGCAGCTACTACTTCGAATATGCCTACTTACAGTAA
>SRR1919932_01535 hypothetical protein
ATGAAGGACTCAAATTCTTTTGTCTACAATGTCTGGCTGATCATTCTGCTGGTTGCTGCCTACATTTGGCCAATCTTCGGTCTGGTGCCGGCAATTTACCTTTTTATCAAGCGTAAAGATGAACAGTTAGAGAAGATGCAAGGCTGGATTACTCTGGCCTTGATCTGGCAGATCGTGCTCTGGCTCCTAATGATCATTTTCTTAATCTGCTTTGTAGCTCTTGCTGGCTCGGCTGGCAAGTAA
>SRR1919932_01536 oxygen sensor protein DosP
ATGAAGCTGGCTGAATGTGAGGCCCTGTCGCATTGGATTGACCCCAGATACGGCTTCCTGTCTCCAGGCAAGTTTATCCCTGCCCTGGAGGCCAACCGGGAAGTCTACAAGGTTGACTGCCACGCTTTAGAGGGCTATGGGCAAGACGCTGAGTTTTTACGAGAAAAGGAAAAAGAAATCTTCCCCATCAGCTTTAACATTTCCAGAACAGACCTGGAAGCCTGCGATATTTACCAAAAGATCGAAGACACCGTCGCCCGCTACGGGCTCAGCCGCGATCAAGTTCATATTGAGATTACGGAAAGTGCCCTCAATGACAGCAGCTAG
>SRR1919932_01537 hypothetical protein
ATGACCGTCTTCCTTTACCAGAAGCTAAGCCCCCTGGTCAGCCTTAATGCCTTAAGCGCCTTTTTTCTGGCAACTGGATTGATCCTCTTGACCCTGATCCCAGTCATTTTCCTTTATCAGCGCCTAATTAACAAGAAGCCGTCCGTAGCCGCCTTCACTTACTGTCAATTTGTCATCGCCGCTGAAATTTCATCCCTCTTGGCCAATCAAACCTGGCAATGGGACTCTTTCACCATTATCTTAACCCTCTGTCTCTACTTTATTTTTAAAAAAGAAATCCGCTACATCAGCCAGGAGCAGACCGTCATCACGGAAGACAGCCGCTTCTTCTGGTCCACCATACTCTGCATGATCCTGGTCGTAGCCCAGGCAGAATTTCCCCGCATGTTCCTTGATGGCAACAATTCGGCGGTCCCAACGCCAATCGCCTACGTGGTCAGCTTTTTAGCTATTATTTCCTGCATCATGTACATTTTCTTCATGAAATTCAATATCTTCAGCGTTAACCGCTATGAAAGCTACTTGAAGAAATATGATGATGATCAGCTGACTGGGGCCAAAAGCCTCCACTATTTCATGGAGCATTATGAAGAGAGCCTCAAGCAGTTCGGCAAAAGCCAAAGTTTAAGTATTTTTTACAGCTCCCTAGTCAACCTGCATGACTACAACTTAACTAACGGCTACCAGGACGGCAGCAATCTCTTAAAACAGTTGCGGCCCGCAGCACTGGTGAAACTTTACTCTTCAAGGCTGGCTTAG
>SRR1919932_01538 phosphate ABC transporter substrate-binding protein
ATGTCACGCAAAAAAACTAAAGTCGCCATCGTTGCGCTTGTTTTGCTGGCAATCGTCATCGGCTACGTCGTTGGCAGCTCCGAAGCCGATACCAAGGGAGTTTCCGGGACAGTTAACATCGCCGGGTCATCTGCCCTTCTGCCTTTAGCGCAGAACGCGGCCAAGACTTTCATGGACAAGAACCCGGACAGTGTCATCAACACTAACGGGGGTGGGTCAGGCCAAGGCCTGCAGCAGGTTTCTGACGGCACCATCGACATCGGGGACTCAGACTTGCTCGCGGAAGAAAAGCTGGACAAGAAGTCAGCCAGCAAGCTGGTTGACCACCAAGTGGCCATTACTGTCATCGCTCCGATCATCAACAAGGATGCCGGGGTTAAGAGCCTGACCACTGAACAATTGATCAAAGTTTTCACCGGCAAGGTGACCAACTGGAAGCAGGTTGGCGGCAATGACTGCCAGATCGTCCTGGTTTCCAGACCATCTTCATCAGGTACCCGGGCAACTTTTGAGCAATACGCTTTGAAGAAGCACGCTAGCCAGTCAAACCAGTCTCTGGAAACTGATGACTCAGGTACTTTGATCCAAATGATCCAAAGTGTTTCCGGCTCAATCGGCTACGTTGCCCTGTCCTACTTGACTGGTGACCCGCAAGTCGGCATCGTGTCAATCAACGGTGTTAAGCCAAGCCTGAAGAATGTCTACAATGGCAAGTATACGGTTTGGAGCTATGAGCACATGTACACTAAAGGCCAGCCAAAGGGTGCGGCCAAGGCATTCTTGCAGCAGATGCTCAGCGAGGAATATGGCAAGAAGATCGAAGCCATGGGCTACGGCATAGCCTCCAAGCTGACGGCTGCCGCTAAAGCCACCCATACTAAGTAA
>SRR1919932_01539 phosphate ABC transporter permease protein
ATGGACAAAGTAGTTCAAAAAGCAATTGCCAAAGACAAGCGCTGGCGCGCGGTCTACATCGCCTGCGGCCTCTTGATCGTTGCTTTGACCCTTTTAATGGGGGCCTTCCTGCTCTACCAAGGCAGCCAGACCTTCCTTAAGGCGCACCACAGCGTTTGGGAGTTCCTGTTTACCAGTGACTGGGCACCGCTTGACAAGACCGGCATGTTCGGGGGAAAAGTCGGGGCTGCCATTTACATCGTTGGTTCCCTGGAAACCTGCTTGCTGGGTTTGCTCATCTGCTTGCCGTTCGCGATCGGCTCAGCCGTTTTCATGACGGAAATTTCACCAAAAATCGGTGAAAAGTTCTTCCGGCCGGCAACCGAAATCTACGTCAGCATCCCATCCGTTGTTTACGGCTGGTTTGGCTTGACCAAGCTGGTTCCTATAATCAGAAACGCCTTCCACCCAAAGATGGGCGGTTTCTCAGTCCTGGCCGCCTCAATCGTTCTGGCCATCATGATTTTCCCAACGATCACTACTGTCGCCGCCGACGCCATCAAGTCAGTCCCGAATAACTACAGAGAAGGGGCTTACGGTTTAGGGGCGACCCGCTGGCAAGTTATCGGCAAGGTTGTTTTGCCAGCCGCTTCCGGCGGTATCTTGACCGGGGTGGTCTTGGGTCTGGCCCGGGCCATCGGTGAAGCTTTAGCCGTAGCCATGGTTATCGGTAAGACCCGGTCCTTCGCGACCAGTCTCTTGTCACCAACCAGCAACTTGACCAGTGCAATTGCCGCTGACATGGGTAACACGGCCCAGGGCGGGGAATACAATCTGGCTTTGTGGTCAATGGCCCTCTTACTCTTCATCATCTCAATCGTTTTGATCGTCTTGATTCACAAGCTTGGCAATGGAAAGAAGGAAAAATAA
>SRR1919932_01540 phosphate ABC transporter permease protein
ATGAGCCGTGCTAAAAGAAAAGACCGGCTGATGACGGGAATCTTCTACGCCATCGGCTGGATTATGCTGGCCTTCCTGCTCTACTTAACGCTGACCATCATCTTTGACGGCTTGAAAGGCTTCCAGTGGGACTTCTTGGGAGCAGCCGGCAACGGGATTTTCAACCAGTTTTTCAACACTATATACTTAGTTTTCCTCTCACTGCTGGTCTCAGTGCCAATCGGCATCGGAGCCGGGGTTTACCTGGCTGAATACGCTAAGGAAGGCAAGTTCCTGACAATCTTTGAAATCAGTATCGAATCCTTGTCATCCCTGCCATCTATCGTTATCGGCTTGTTTGGCTACTTGGCCTTCATCATGTGGACCGGGATGTCCTGGAATATCCTGGCCGGTGCCTTGACGATTTCAATTCTTTCAATTCCTCTGATCACTACTGAAACCAACAACGCCATCCGAGCCTTGCCGGTGGAATACAAGGAAGGTTCCCTGGGCCTGGGCGCGACCAAGTCAGAAACCATCCGCAAGGTCTTGATTCCGGCGGCCATGCCGCAGATCTTGACCGGGGTAATCATGGCTACCGGGCGCGGTTTCGGTGAAGCCGCTGCTCTTTTGTATACTTCCGGCCAGTCAACTTACATCAACTGGCAGAACTTCTGGAAGGTTACCTCACCAACTTCACCGCTGAACCCGTTCCGAAGCGGTGAAACCCTGTCCCTGCACATCTGGGTCATGAGAACTGAAGGGGCCTTGAACCCGTCAGCCACTCAGATCGCCAACTTTACTTCAGCAGTCCTGGTCGTTTTGGCCCTGCTCTTCACTTTGGTTACGCGCCGTATATCTGACAGAATGCGTAAGCGCAATAACGGAGGAAATTAA
>SRR1919932_01541 phosphate ABC transporter ATP-binding protein
ATGATGGAAGACAAAATTACAATTGAAAAGCTGAACCTGTACTACAGTGATTTTCATGCCTTGCATGACATCAATATGCACATCCAAAAGAACGAAATCACTGCCTTCATCGGCCCGTCAGGCTGCGGGAAATCAACTCTTTTGCGGTCACTTAACAGAATGAACGACCTGGTTGAAGGCTGCCGGATTGATGGTTCGATCAAGCTGGACGGCACTGACATCTATAACGGTGACCTGGATGTGACCGTCCTGCGGCAAAGAGTCGGCATGGTCTTTCAAAGACCAAACCCGTTCCCGATGAGCGTTTACGACAATGTTGCCTACGGCCCGCGGATTCACGGGATTACTGACAAGAAGGAACTGGACGAAATCGTGGAAACTTCCCTCAAGCAGGCAGCTATCTGGGACGACTTGAAGGATCGGCTGAAGAAATCAGCCCTGGGCCTGTCCGGCGGTCAGCAGCAAAGGCTCTGCATCGCCCGGGCCCTGGCTGTCAAGCCGGAAGTATTGTTGATGGACGAACCGACCAGTGCCCTGGACCCGATTTCAACCTCTAAAATTGAAGAATTAGCTTTGGAACTGAAGAAGAATTATACGATCGTCATCGTTACGCACAACATGCAGCAAGCCGTGCGGATCTCTGACAAGACTGGCTTCTTCCTCTTGGGTGACCTGGTTGAATTCGGTGAAACTGACCAGCTCTTCTCCATGCCGAAGGATGAAAGAACGGAAAAATACATCACCGGCCGGTTCGGTTAA
>SRR1919932_01542 phosphate uptake regulator
ATGAGAACAAGATTTGACAAGGAACTGGATCACTTGCATGAAGCAATGGAAGAAATTGGCCAGCTATGCAAGGAAAGCATTTCTGAATCAACCGACACCCTGTTTACGGGCAACTACCATGAAGCAGAGGACACGATTAACCTGCACCACCGGATTCACAAGGCAGAGCGTGACATTGAAGAAACCTGCCTGCGCCTTTTGATGGAGCAGCAGCCGGTTGCCACTGACCTGCGGATAATCAGTGCATCTTTGAAGGCGGTCTACGACCTTGAAAGAATCGGTGAAATTGGCGCAGACATTGCCGACTTGGTCCTTAACGAACACCTCACAGTCGCAAATGACATGCTGAACTTGAAGAGCATGTCCCAAATTGTTACGGGTATGGTCAACGACGCGGTAACGGCTTTGGCCAACCAGAATGTAGAACTGGCCAAGGCCGTAATCGACCGCGATGACCAGGTCGACGAAGACTTTGACAAAGCGAAGGCATTTTTGATCAATAACTTTAACAAGGATGGTAATCCGGAATATTTGATCAATTTGATGATGGTCGCAAAGTACTTTGAAAAAATTGGCGATCACGCCGTCAATATTGCTAAATGGTCCTTATTTGTAACTACCGGCAAGACTGGCAGATAA
>SRR1919932_01543 two-component system response regulator
ATGACTGAAATTTGGTGCGTGGAAGACGACGAAAGCATCCGCGAAATCGAAATGTACACGCTGGAATCAATGAACTTCAAGGTCCGCGGCTTTGACGACGGACAATCTTTTTTCAAGGCCCTGGACAATAGCCGGCCGGATTTAGTGATTTTGGACTTGATGCTGCCTGATGAAGACGGCAGCGAAATTCTCCACCGGCTCAGGTCTACTTCCGCGACCGAGGACTTGCCGGTGATTGTCGCCAGTGCTAAGACGGCAGAATATGACAAGGTCAAGAACCTGGATTCCGGGGCGGATGACTACTTAACCAAGCCATTTGGAATGATGGAAATGGTTTCCCGGGTCAAGGCTGTTTTGCGCCGGACCAACTGTAAGAAGGAGGACAAGATCGAAAAAGACGGGATCAAGATTCTCTTGAAGCGGCATGAAGTTTTCGAAAACGGCCATCAGGTCGATTTGACTTTGAAAGAATACGGACTCCTGAAGCTCTTGATTACTCATCCGGGAACTGTCTTTTCCCGGGAAGAAATCATGGATCAGATCTGGGAGACTGGTTTTTATGGGGAAACGCGCACAGTAGACGTTCACGTGAGAACCTTGAGACAGAAGTTGGGTGAGGCTGGTAAGCATATCGAAACGGTGCGCGGGGTCGGTTATCGCTACCATGAAGCAGACTAA
>SRR1919932_01544 two-component system sensor histidine kinase
ATGTTTAAGAAGATATTTCGGGCAAGTTTTTTACTGACTTCTCTGATTCTCTTATTTGCCGTACTCTTAAGCGCGATTGTCTTGAGCATTGACTTCGACCATACAGAAATGTCCGCCCTGGCTTCCCAGGCTGACCTGGCAGCCAGCGGGGTAAATACCAGCGGCAAGAAGTACATCAAGAACTTAAAAGGGGAGAACTACCGGATTACTTGGATCAATTCCAAGGGCAAGGTTCTCTACGACAATGAAGAGAATCCCAAAAAGATGGGCAACCACTCCCGCCGCAAGGAAGTCGCCGAAGCCATGAAAAAGGGGACAGGGACCAGCGAGCGCTACAGCACGACCTTGTCGACCGTAACCATGTATTATGCCGAGCGGCTCAATGACGGCGGGGTCATCCGCATCGCGATCACCAGAAACTCCTTCTGGCGGATTCTGGTCAGATTTTTGTCGCCGCTTTTGTTAATCATGCTTTTATCGGTCCTGGTGTCCTGGTTCCTGGCCAAGACAATCTCGCAAACGATCGTCAAGCCGCTGAATGAAATGGACCTGGACAAACCCCTGGAAAGCAATGCCTATGACGAAATCAAGCCGCTTTTGACCAGACTGGACAGCCAGAACAAGCAGATCGCTGACCAGATGGAGCAGCTCCACCACCGGGAAAAAGAATTAAAGACGGTGACAGATGCCATGCTGGAAGGCTTGATCTTGATTGACCTGGATGACCAGATCCTCTTGTCCAACCCGGCGGTTGTCTCCCTTTTGGGCTTGCATGATACTGACCCCTTGCCAGATGATGTTAAGGAAATCATCGATAAGAACAGCCGCTTGGCCCATGCTGAGGGGATTGTGGAAAGAAACGGCCGCAATATTCAAATCAGTGCCAGCCCGATTACCAGCCGCAAGATTCTGAAGGGGACTTCGATCCTGGTGGTTGACGTGACGGAAGAATACCATGAAGAGCAGGTCCGGCGGGAATTCACGGCCAATGTGTCGCATGAACTTAAGACGCCCCTGCAGTCCATCATGGGGTCAGCTGAACTTTTGGAAAACCACCTGGTTAAAGAAGATGACCGGGACAGCTTTTACAAGAAGATCCACGAATCTTCTGCCCAGCTTTTGACCTTGATTGACGACATCATCCGTTTGTCCCACCTGGATGAAAATCAACGCTTTGAAGAAATCAAGCTGAACTTGAAGAGTCCGGTGACTGAGGCCCTGGAAGCCCTGCAGAGTTCGGCTGACCGGCATGGAATCAAGCTGGAGACTAATTTGTCAGACACTATGATCCTGGCCAACTTCCGCCTGGTTTACGAAATTGCCTACAACTTGATTGATAACAGCATCCGCTACAACAAGGAAAAGGGCAAGATCAAGATTACGGTCAAAGAGCACCGGGGCCAGGCGATCCTGCAGGTGGCGGATACTGGCATCGGGATTCCCCAGGAAGCCCAGAACAGGATTTTTGAACGCTTCTACCGGGTGGATAAGAGCCACAGCCGCAAGACCGGGGGGACTGGCCTGGGCCTGTCCATTGTCAAGCATGCTGTTCAGCAGTGTCACGGGACCATCCGCCTGGAAAGCGAATTAGGCAAGGGGTCAACCTTCACGGTTATTTTCCCGGCCCTGCCAGCAGGAGCAGATGATGATAGCAAATAA
>SRR1919932_01545 ATPase component of ABC transporter with duplicated ATPase domains
ATGAGCCAGGGGCAAAAGAAGCGGGTAGCCCTGGCCAAGTCTCTGACTGAAGAAGCCAGCCTCTACCTTTGGGATGAACCGGCCAACTACCTGGATCTTTTCAACCAGGACCAGCTGATCAAGCTGCTGGCAAAAGAGCAGCCGGCCATGCTTTTAGTTGATCACGACCAGGCCTTCATCGAAGTCGTCGCCAAAGAAAGAGTCAACTTGCGGCCGGTCTTATAA
>SRR1919932_01546 TetR family transcriptional regulator
ATGCCCAGCCAGACTTTTTTCAACCTGCCTAAGGAAAAGCAGGATCGGATTATGGCAGCGGCCCGGGAGGAATTTTTTACCCACAGCTTCGATGAAGCTTCCATCAACCGCTTGATCAAGGCGGCGGGGATCCCCCGGGGGAGCTTTTACCAGTATTTTGCGGATAAGGAAGACGTCTACTTTTACCTGGGTGACCAGATCAGCCAGCGGATGATCGAAGGCGCCCGGAAAGAATTAGCTGCTTACGGCTATGATCCTTTTGCCCTGGCCAGGAAGGTCCTGCCCCAGTGGCTGGATGAAATCTTCTATGGGGAAAACGCGGCCTTCTTCTACCGGAAGATTGACATGCTGCACTCCCAGCAAGTGCCCCGGCCCAAGCAGGCAGAAGACCCGCTGGCCTGCCTGTCGGCTCAGGAAATTGCCGGTTTGACAGCTAAGGTTGCTTTGCAGGACCGGACTGACTTGAAATTTCTCCTGCACAGCCTGCTCTTGGCCTTCATCAGCTGCCTTAGTGAAGGAGCAGAAGACTATGAAGCCGGCCGGCCCGTCGATACGGCCAAGCTGGCCCAAGTCCTGGACCGCCGCTTGAGCTACCTGGAAAATGGCTTTAAGAAGAAAGCAGATTGA
>SRR1919932_01547 antimicrobial peptide ABC transporter ATP-binding and permease protein
ATGACAGTTCTTGAATTGAAAGACGTCAAAAAGTACTACAAGATGCCGGGCGGGGGCCAGTACGAGGCCTTGCGCGGGGTCAATGCGAAATTTGCCGCCGGGGAAATGGTCGCCATCGTCGGGGAATCTGGGTCAGGCAAGTCGACCTTGATGAACACGATCGGGGGCCTGGACTCTGACTTTGAAGGGGCCATTTTATACGAAGGGAAGAACCTGCGTGATTTTTCCCAAAAGGAAATGGTTAACTACCATAAGAAATCAATCGGTTTTATTTTTCAAAACTTCAACTTGATCCCCCACCTGGACTTGATCGACAACGTGTCAATCGCCATGACCCTGTCCAACGCGGATGAAAAAACGCGGCGCGGCCGGGCGGAAGAGCTCTTGACCCAGGTGGGCCTGAAGGACCACATGCACAAGAAGCCCGATCAGTTGTCCGGCGGGCAGAAGCAGCGGGTGGCCATTGCCCGGGCTTTGGCCAATGACCCGGACGTGATCATCGCCGATGAACCAACCGGGGCCCTGGACGCGGACACGACTGACGTGATTTTGAACATGATCAGAGACATCGCGGCTTCAGGCAAGCTGGTTCTGATGGTTACCCACTCAGACAAGGTGGCCAGCCACTGCAGCCGGGTTCTGCGGATCGACCAGGGGCAGATCGTCAGCGACCAGGAACAAAAGCCCCTGGACCACCACCTGGAGCAGAGAACTGAAGTTAAGATCCAGCAGATGAGCCTCTTTAAGGCGATCTCTTTGGCTTTTAAGAACATGAAGGCCAAGTTTGGCCGCAACGCCCTGGTTTCAACCGGGATGGGGATCGGGATCATGTCCGTAATCCTCATGCTCAGCCTGGGCAAGGGGGTTACCTCTTATGTCAGCGGGCAGATGAGCACCTACTCCAATCCCCTGGTCGCGGAAATCCAGAAGACTTCCAGCCAGAAGATGCGCCAGCAGGGGATGCAGGCCCAGCAAACCGGGGACAAGGCAGCCCTGGCCAAGCAGCAGCAAAACAATATGGCCTCTTTGTCCGGGACCAGCAGCGCTTCGGCTTTTAGCAAGCAGGACTTAAAGAAGCTGGAGAAGATCGCCCATGTCAAAAAGCTGCAGAAGGGCTACAGCGCGATTTCCCTGGGGACCAACCAGCTGAAATACGGCAAGAAGACGGCTAGCATGATCTACCTTAAGACGGTCAATGATGGGATCGCCAAGTCAGAGGTCAAGAAGGGCCGCTTGCCTAAGGCTGGCAAGGACGAGGTCATGATCGACAGCGGCAGCGCCGACAACTTGGGCAAGAAGATCTTAGGCAAGAAGGTCAAGGCAAGTTTGCAGATCGGGACCAAGACTATCACCAAAACGGTCAAGGTAGTCGGGATCTATGAAGCTTCCGGTTCCGGCCAGGTCAGCACCCTACTTTTGCCCTACAGCGACTTGGCAAAAATCTTCAAAGACAACGGCTTGAGCTTGAAGGCAAACGTGGTCTACTTGACGGCAACGGACAAGCAGTACACTTCTTCTATCAAGCAGGCAGCCAAGGACAAGGGCTTTGCCGGCTCAATGCAGGAGCAGATGACGGAAATGTTTGACAGCATCTTGAGCGTTTTGACTTACGTTCTGACGGCTATCGCGGCAGTTTCCCTTTTGGTTTCAGCTATCATGATCCTGGTTGTCTTGAACATCTCGGTAGTCGAAAGAACCCAGGAAATTGGGGTCATGAAGGCCCTGGGTGCCCGGCGCAAGGACATCCGGCGGATCTTCTCCAGCGAAGCCTTTTTGCTGGGCCTGGCTTCCGGGATTGTCGGCATTGCTTTGACCTGGCTTTTGGCCCAGGGGATCAACAGCTTCACCCAGTCAGCCTTTAAGGCGGCCGTGGTCAGCTTGACCCCGCAATACGCCTTGACTGGCTTGCTCATCAGCATTGTCATCAGCATGATCGCCGGGATCCTGCCAGCCAACCACGCTTCCAAGCTGGATCCAGTTGAAGCTTTGCGGAAGGAGTAA
>SRR1919932_01548 hypothetical protein
ATGGTTAAAATGACTTTTAGTCCGGAAGCTGGAGAATTTTTGCAAAAGAAGCTGGGAAACAAGCCAGTCTTGATCCTGGCTTTAAATGACGGGTCCAACAAGTACTCACTGCAGGGCGGAAGTTGCACGATAGGGGCTAACTTCCAGTTCGTCGCCCTGGACCAGGCAGACGCGGACTACCAAATCAAGATCGACAACGATTTAGGTCTAGACTTGTACACGGGCCAGGCGGAAATGGGCTTCTTGGATGACAGCTTGAGCGTTGGCGAACAGTACGGGATGCTGTCCTTGAGCGACGGCAGCGGCTTGATTGACAGCGCGGTCGGCGTCAACGTTTACGAGCCAAGCAAACTTACCGCTGAACAGATTCAAAACGGCGCCAGCTGCTAA
>SRR1919932_01549 hypothetical protein
ATGACTAAAGTCAAATTTAACCTGGACGACGAACTGGCCATCCTGCTTCAGGCCTACCAAGACCAAAGCGGGACAGACAGGGACGCCATCATCAACCAGGCCGTCAAACAGCTGCTGGTCAAAAAACTGGGCAAAAAGCGGATCGCCCAGTTGCTCAAGGACAGCGAAGACGGCAGCGACTACCAGCTGGAACAGTTCTTCAGCAGCTACGACTGGCTTGAATAG
>SRR1919932_01550 D-alanyl transfer protein DltD
ATGAAGAATAAGACAAAACTTTGGCTGATCTTTGGGCCAGTCATCTGCGCGGTGCTCTTGCTGATGGGGATCTTATCCCTGCCTTGGGAGCGGACCTTCTCAAAGGGCAGCCTTTTCCAGGCCGCCGCTTCGCAGACCACGACTGTCTTCAAGGGCAAGGCCATGCGGCAGAAGGCCTATAAGCAGGGCTATGTGCCTTTCTACGGGTCAAGTGAACTGTCGCGTTTTGACAACATGCACCCGACTGTCCTGGCTACCAAGTACCATCGTTCCTACACGCCTTTCCTGCTTGGGGGACCGGGCAGCCAGTCCCTGGCTCAATACCTGGGGATGCAGGAGGCGCCAAGCAAGAAGGCCGTGGTGATTATTTCACCGCAATGGTTCACGCCCCAGGGGCAGAACCCGGATGCCTTTACCCTCTACTACTCGCCTCTGCATGCCAGCGACTTTATTTTGAACGCTAAAGACACGGAAGCTGACCGCTACGCGGCCCGCCGCCTTTTACAAATGCCAAGCGTGAAGAGTGAGCACGTGATCCACCATGCCCTGCTGGAAATCGCGGCCGGGGTGGGGATCTCCAAGATGGAGCGCTACTACCTCCGCTGGCGGCGGCAGATCTACTCCACGGAAGACAAGTTCTTTACTTCCCTGCAGCTGCGCGACCGCCTGCCAAAGATTGAGCAGCAGGGGGCCAAGCTGCCGGATACCTACTCTTACGAGGGCTTGAAGAAGGCCTCAGAGAAGGAAGCCAAGAAGGATACCAAGGGCAACCGCTTTGGGATCCGGACTAGTTTTTACAAAAAGCGCTTGAATGCCAAGCTGCTCAAGAAACTGAAGGGGAGCCAGAAGAAGTTCAACTATGTTGAATCCCCGGAATACTCGGACTTCGAGCTGCTCTTGAACCAGTTCGCCAAGGACAAGACCCAGGTTCTCTTCATTATTCCGCCAGTTAACGCCAAGTGGCAGAAGTACACTGGCTTGTCACTGAAGATGTATGACACGGCTACGACTAAGATCAAGCACCAGCTGATCAGCCAGGGCTTTGACAACATCTATGACCTGTCCAAGGACGGCAAGAAGAAGTACTTCATGGAAGACACCATCCACCTGGGCTGGAACGGCTGGCTGGCCGTTGACCAGGCAGTCAAGCCTTTTATGGAGCAGAAGTACGCGGAACCGGAATACGCGATTAACGACTACTACCTGACCAAGACTTGGCGGGAAAAGAAAAAGCTGCCGACGGTGGCTTTGACGAATAAAGACGTCCTGGCAAAATTAAAAAAATAA
>SRR1919932_01551 D-alanyl carrier protein DltC
ATGGATATTCAAAAGCAAATCGTTGACATTTTAGCTGAAGCAACTGGTGAAGACTTCTCAGACAACATGGATCAAGAACTCTACGAGAGCGGGATCATGGACTCCATGTCCACTGTGCAGATGCTCTTGACCCTGCAGGAAACCTTCGACATCACCGTTCCGGTTTCTGAATTCAACCGCGACGACTGGAATACCCCGAACAAGCTGGTTGAACAGGTGAAGAAACTGCAAGATGAAGAATAA
>SRR1919932_01552 D-alanyl transfer protein DltB
GTGATAAATCTGCAACCATATGAAAACCCGCAGTACTTTGTCTACCTGTTGATCGCGCTTTTGCCTTTGATTATCGGCCTTTACTTCGGCAAGCGCTACAAGTGGTACGAAGCCCTGGTCTCCCTTGCTTTCATCTTCCTCATCTTCGACGCGGACAAGTGGCAGCAGGGGGTAACCTTGATCTGCTATATCGTCTACCAGTTCCTGGTAACTTTTGCCTACCAGCACTACCGGAAGAAGACGGGGAAGGCCAATAAGACCTGGGTCTTCTGCCTGGCCGTGATCCTGGCTATCCTGCCTTTGGTCGGGGTAAAAATCTGGCCGATCGTGCCCCATAAGCAGGGGATCGACTTCGGCTTCTTAGGGATTTCCTACCTGACCTTCAAGACGGTCCAGGTGGTCATGGAGCTGCGCGACGGGACGATCAAGCAGGTGGATCCGGTTATGTACGCCCGCTTCCTCTTGTTTTTCCCGACCATCTCCAGCGGCCCGATCGACCGCTACCGCCGCTTCGTCAAGGACTATGACAAGGCACCGAGCCGGGAAGACTACATTAAGGACCTCTCTTACGCGGTCAGATACCTCTTCCAGGGCTTCTTGTACAAGTTCCTCCTGGGCTGGTTCTTCGGGACCTACTGCCTGCCATACCTTGAGCAGCAGGCCATCCTGGCCGGGCGGATGTATCCTTTGCACCTGTCCTGGTGGCTTTTAGGGGTCATGTACTGCTACTCAATGTACCTGTTCTTTGACTTCGCGGGCTACTCCCTCTTCGCCGTGTCGATTTCCTACTTTATGGGCATCCACACGCCGATGAACTTCAACAAGCCTTTCGCGGCCCACAACATCAAGGAATTCTGGAACCGCTGGCACATGACTCTGTCCTTCTGGTTCAGAGACTTCATCTTCATGCGCTTCACCTTCTTCGCGATGAAGAAGCGCTTGATCAAGAACCGGAACCGCCTGGCGCAAGCGGCCTACCTGGTCAACTTCATGGTAATGGCGGTCTGGCACGGTTTGACCTGGTACTACATCGTCTACGGTCTTTACCACGCCCTGGCCATCATCATCAACGACATCTGGCTCCGCTTCAAGAAGAAGCACAAGCTGGTCAAGCACAACAAGTTCACTGAAGCGGTGGCAATTTTCGTGACCTTCAACGTGGTCTGCCTCAGCTTCTTGATCTTCTCAGGCTTCTTGAACAACCTGTGGTTCAACGTGCCGCTGGGCAAGTAA
>SRR1919932_01553 D-alanine-activating enzyme DltA
ATGAGAAATATTGTCAAGACGATCGATGAGATCGCGCAAAGAGAACCAGACCGGGTAGTTTACGACTACCTGGGTCAAAAGAACACCTACGCTGACTTGATCAAGCGGGCTAACAGCTGGGCAGCCTTGTTAAAGGAAAAAGCACCGGCCAAGGTACCCGTTATGATTTGGGGCGGGCAGACTTTTGACATGCTGGCTTGCTTCTTAGGTTGTGTAAAGAGCGGGCACTGCTACGTGCCAATCGCCGACTATTCTAACGCTGAAAGAATCGACCTGGTCAGAGAAGTCTCTGCCTCCCCGGTCTTGATCGCCATCAGCGACTTGCCGGAAGTCGACCTGGGCGACTTGACCCTGCTTAAGCCGGACGACGTTCCGGAAGAGGGGACAGCGGATGAGGCAGACTACGTCAAGGGCGATGAAAACTTCTACATCATTTGTACTTCCGGGACGACCGGTAAGCCTAAGGGGGTCCAGATCAGCCACGACAACCTGGTTAGCTTCGTTGACTGGGAACTGAAGGACTTTGACCTGCCGGACCATCCGCGCTTTTTGGCCCAGGCCCCTTACTCATTTGACCTGTCAGTCATGAGCATCTACCCGGCCCTGTTGAGCGGCGGGGAACTGGTTGTTTTGCCTCACGAAGTGACGGAAAACTTTGCCCAGCTCTTCAAGGCCTTGCCGGAAACCGACGTAAATGTCTGGGTGTCAACTCCGTCCTTTGCCCAAATGTGCTTCCTGGACCGGATTTTTGACGCAGAACACCACGCCGGCCTCAGCCACTTCCTCTTCTGCGGGGAAGAACTGCCCCGCAAGGAAGTTGAAATGCTCAAGAAACGCTTCCCGGACAGCCGGATTTTTAATACCTACGGGCCAACGGAAGCGACCGTGGCAGTCACGCAAGTGGAGATCACCCCGGAAATTCTGGAAAAATATGACCGCCTGCCAATCGGCTATGTCAAGGAAGATACGGAAATCACCATTGACCGCAGCCAGGGCGATGACGGCAAGAGCGGGGAAATGATCATCGCCGGCCCGTCAGTTTCCAAGGCCTACATCAATAACCCGGAAAAGACCGAAGAAGCCTTTTACCAGGAAGACGGCGTTCAGCACTACCGGACCGGGGACGTGGGCTACTTTGACGGGGACCTGCTCTTCTACAAGGGCCGGATCGGTTTCCAGATCAAGTTCAACGGCTACCGGATCGAGCTGGAAGAAATCAACTTCTACATGAACCAGAATCCGCTGGTCCGCCACGCGGTTGCTGCCCCGATCTACAAGCCTGACCACACGATCAAGCAATTGGTAGCCGTGGTTGAGTTAAACGACGGGGTCAGCCGCAAGTTCGCTGAAGGGACCATTACCAAGCAGATCAGAGACGGCCTGGCCAAGGACGTGATGCCGTACATGATCCCGCAGCGCTACCTTTACAAAGACGCCCTGCCGATCTCCCAGAACGGGAAGGTCGACATCAAGGCGGTCATCAAGGAGGTTAACCAGGCGTGA
>SRR1919932_01554 D-Ala-teichoic acid biosynthesis protein
ATGGAAAACAAGACACCAGTCAGCCGGGGGAAGGTCATCCGGTCTTTTATCCTGCGAACCCTGCTTTACAGCCTCATTTTATTAGGCTTGATTTATTTGTATGAATATTGTGGCTTGGGTTCAACTGGCTTTATTTACAATGAATTTTAG
>SRR1919932_01555 hypothetical protein
ATGGATAGCCAACTTGCTAAGAAAATCATCATCGACGTGCAGATTTCCGGCTGGTCCTGCCTGATCCCGGCCAGCGGCCTGCTCTACCTCTACCAGGTCACTCATTACGCCAGCTTCTTGTGGGGCCTGGCCCTGGTCGTTTTGTACGCAGCCTACGTGCTGGCGACCGCCAAGCTGGACAAGTGGCAGTATCCAAGCTACGTTTTGCGGATGAGCTTGATCGCGATGTTCTTCGTCGGCTTACTGCCTTCAATTCCGCTTTTGTTCTGCTACAGCCAGGAGCGTAAGGCCGGATTGAAGTAG
>SRR1919932_01556 hypothetical protein
ATGGGCAAAAAAGACAGAAAAAGCGGAAAGAAACTAGTCAGCCGGAAGAAGCACCATTTTCACCGGAAGCTGCGCCTGCTGATTTTTAACCTAATCCTGCTGGCGGGCCTGGCAGCCTGGGGCTATTACTGGGCCTATCCGGCTTACAGCCAGTGGCAGATGAAGCAGGCCATGCTGGCGGCCCGGCCCAAGCTGACCAAGGCCAAGGACGGAACCAGCACCAGCCCGGCCTGGCACAAGCTGACAGCCTACCGGAAGGCGATCCGGGACAATTACAGTTTCGTCTACCAGGCCGCCTACCAGACCCCGAAAAGGACGACGGTGGGCCAGGACGTGGTCATCCCGGGCCTCATTTCGACGCGGAGCTATGACTACCAGGCGAAAAAGATTACTTCAGCCAGCGCCATGACCCCCCAGGGGATCGCCGTGGTCTACAATTATCTTTTGATCACGGCCTATGACGGCCAGCACCGGCATGCCTCGGTCATTTATGTTTTAGACAAAAAGACGGGGAAATTTTTGAAAACGGTCCGCTTGCCAGGCCGGCAGCACCTGGGCGGGATTGCTTATGACCCTAAGGGAATGCAGATCTGGCTGACCGGGTCAAAGGACGGGCAGTCAGCCTTGATGTCCTTCTCCTTGGCCAAATTGATCGAATACGTGGCCAGCGCCAAGACTAGCGACCAGCTGGTTTATGATCATGAGATTCCGATCAACTCGATCGCCAAGGCCTCAGCTCTGACTTATTACGATGACCAGCTCTTTGTCGGCTATTTCAATGAAAATGGCCATGGCAAGGTCGCCAGCTACAAGCTGGCCCGGTCCGGCCAGTACAAAAACACCATCACCACCAGTGAGATTTCCAGTATCAACGAGTCCGTTTCCTGGTCTGACCCAGACGGGACGACCAGTATGAACAAGCAGATCCAGGGCCTGGCCATCTACGGGGACAAAATTTTCCTCAGCCAGTCATATGGTAGCCAGGATTCCAAGCTCTACATCTTCCCGATCACGGCCGTGAACAACCTCGACGAGTCAAATGCCGAGCAGGTGGTCAGGATGCCGCCTTACTTAGAGCAGATCACAGTCTATAAGGGCCAGCTGCTCTGCCTCTTTGAATCGGCCTCCAGCCAGTATGCCCGCCAGGATATCACGGTCATGGACCGGACCCTGTCGGTCAATATCAACGCCCTGCTGGACAATAACTGA
>SRR1919932_01557 hypothetical protein
ATGATTTCAGCAGCTATTCAACGCGTTCTCGCGGAAAAGTCCGGCTCCTTTTTGATTCCGGCCAGCAAGATTGCCATCGTTGAAGAAGACAATCCCCTTTACCATGCCTTCTTGATCTTAACCAAGGTCAAGTATGCCAAGATTCCCGTCTTGAACAAGAAGGGCCAGATCACCGGCCTCTTAAGCCTGGCCATGATCACCGACAAGATGCTGGACCTGGATGGCATTTCCGTTAAGCCTTTGAACAAGTACAAGGTCAAGGATGTCATGGAGACTGACTTCGTTTCCATCAACTTTACGGAAAAAGACATCGAGACCCAGCTCCACCTGCTCGTTGACAACAACTTCCTCCCCGTTGTCGACGACCAGGGGGTCTTTCAAGGGATGATCACCAGGCGAGAATGGTTCAAGGCCTTCAACTACCTGGCCCACACTTTTGACGACCACTATGTCACGGTTGACAAGAAGTAG
>SRR1919932_01558 major facilitator superfamily transporter
GTGATCGGGTCAGCCCTCTGCGGTTTCTCGCACTCGATGGTGGAATTGATCATCTTCCGGGTCCTGCAGGGACTTGGTTCAGGGGCTATCCAGACAGCCGGGGTGACGGTTTTAGCGGACATGTATGATATTGACAAGCGGGCTAAAATGCTGGGCCTGACTTCGGGCTTCTGGGGCCTGGCTTCGGTTATCGCCCCGCTTTTGGGCGGTTTTATCGTCCAAAAGCTGTCCTGGCACTGGGTCTTTATGATCAATGTGCCGATCGGCTTGCTCGCCTTTTTGCTGGTTGCCTTTTACCTGCATGAAGATTTTGCTAAAAATAAATTACAGATCGACCTCAAGGGCAGCTTTAGCCTGGTTATCTTCCTTTTATCCCTAATGCTGCTTTTGCAGGGGCTGGAAAAAGGATTTAACTGGACTCTGCTGCTTTTAGCAGCAATTATGCTGGTCAGCCTCTGGGCCTTTACCAAGGTGGAAAAAACAGCCGCTGACCCGATCATTCCTTTCAGCATCTTAAAAGACAAGGAATTTTTGGCGGTCAACATCTTGCAGCTCCTGGTTTCCGGGGTCGTGATCGGCTTTGAATTCTACATCCCGACCTGGCTGCAGGGGATCAACGGGGTCAGCGCTTCAATCGCCGGCTTCGCCATTACGCCAAGCTCCCTTTTGTGGGTCTGCGGGTCCTTTTTAGCCGGTGACCTTATGGGCCGGTGGGGGACACAGAAGTACTTTGACGCGTCACTTTTGCTTTTAATCGGGGCAGACCTGGCCTTCATCCTGATTCCGACCTACACGCCATTTTGGGTCTTCTGCCTGATCGCCGTCTTCAACGGGATCGGCTTCGGCAGTATCGCCACGGCCAGCCAGGTCCGGGCCCAGATGGTGGTTGACAAGAGCCAGGTAGGGGTGGCAACTTCCTTTAACACTCTGATGAAGTACTTGGGTCAAACTGTCATGATGGTCTTCTACGGTATGACCTTCAACGTGGTCGTGGCCAGCGGGCTCAAAAAGCAGCCTTCCTTGACCAGCGAGATGATGAACAAGATTGTCTCCCCAGTCCAGGCTAAAAGCCTGGATCCGGCCGTTTTGGCCCCTCTGCGGGAGATCCTGCATTCATCCATGCGGGGGATCTACATCGTTTCTCTGATTGCCTTGCTTTTGTCCTTGGTCTTCAACCATATCTACCGGCAAAAGAAGGACTAG
>SRR1919932_01559 membrane-associated phospholipid phosphatase
TTGAATACGAAAGAAAATAAAGTCAATTATCAGCCGCTTTTAATTTTTGGCGGTGCCTTCAGCCTCTTTTTTGCTTTTTGGGTTTACCTGATTGCCAGCAAGAATCCCTTTATCAAGACTTTTGATACGGTAGTCTACAATGCAATCAGAAACAACAATCCGGTCGAAAGGCAGCTGGCCTTTTACTGGACCCAGCTGGGCAATACCTTGACGATCACAGTCTTTACCGTGGTCCTGGTTCTTTTCCTGGTCTACCAGCGAAACTATATCCACGCAGTTTTTGCCAGCTTAACCATGATCGCGGCAAACGCCTGCAACTCAATTATCAAAAATATCATCCAGCGCCAGAGGCCCCGGATGGACAAGGCGGTTCAAGCCGATGGCTTCTCCTTCCCGTCCGGCCACTCGGTCGGTTCCATGACCCTGGCCTTGGTCTTGATCGCCCTGCTCGTCGTCTTGGTGAAAAAGAAGCCAGTCAAGACCTGGTTGATCGTCTTCTGCGTCTTCTTCACCCTGTCGATTGGCTTTACCAGAATGTACCTGCACGTCCACTGGCCAAGCGACGTCTTAGGGGGCTGGTGCGAGGGCCTGGCCTTCAGTTCATTGGCTAGCTGGCTCTTTTTCAAGGCCTTGGACAAAAAGAATAAACTAAATCCTTAA
>SRR1919932_01560 leucyl-tRNA synthetase
ATGTACAACCATAAAGTTGTCGAAAAGAAGTGGCAAAAGTACTGGCTGGAAAACAAGACTTTTAAGACCGGGACTGACCCGGAAAAGCCAAAGTACTACGTTCTTGACATGTTCCCTTACCCATCTGGCAAGGGCCTGCACGTTGGTCACCCGGAAGGCTACACCGCTACTGACATCATGGCCAGAATGAAGCGGGCCCAAGGCTACAATGTCTTGCACCCAATGGGCTGGGATGCCTTCGGTCTGCCGGCAGAACAATACGCCCTGCAAACTGGTAACGACCCGGCAACTTTCACCGACGAAAACATTGCCCACTTCAAGAAGCAGCTGCAAGCTTTGGGCTTCTCCTATGACTGGGACCGGGAAATCAAGACTACTGACCCGAACTACTACAAGTGGACCCAGTGGATTTTTGAACAAATGTACAAGATGGACCTGGCCTATGAAGCTGAAGTACCGGTTAACTGGTCACCAGACCTGGGCACGGTTGTCGCTAACGAAGAAGTTATCGACGGCAAGACTGAACGGGGCGGCTACCCGGTTTACCGGCGCAAGATGCGGCAATGGATGCTGAAGATCACTGCTTATGCTGACCGTTTGCTGGACGACCTGGACGACTTGGACTGGCCAGAACCGATCAAGGAAATGCAAAGAAACTGGATCGGCCGCTCAGTTGGGGCTCAGGTAACCTTCAAGATCAAGGACTCAGACAAGAGCTTTGCCGTCTTCACTACCCGGCCGGACACCCTCTTTGGCTGCTCATACACGGTTTTGGCCCCGGAAAACGAACTGGTTAAGGAAATCACCAGTCCAGAGCAAAAGGAAGCCGTTGACGCCTACATCAAGTCCATTGAATCCAAGTCTGACCTGGAAAGAACTGACTTGAACAAGGACAAGACCGGGGTCTTCACTGGTGCTTACGCTATCAACCCGGTTAACGGGGAAGAAGTGCCAGTCTGGATTTCTGACTACGTTTTGGCAACTTACGGGACCGGGGCAGTTATGGCCGTTCCAGCCCATGACGAAAGAGACTACGCTTTTGCCACTAAGTTCGACCTGCCAATCAAGGAAGTCGTTGAAGGCGGCGACATCAGCAAGGAAGCCTTTGCCGGTGACGGGGTCCACGTCAACTCAGGCTTTTTGAACGGCCTGCACAATGAAGAAGCCAAGGCCAAGATGGTTGACTGGCTGACTGAAAAGGGCGTCGGCGAAAAGAAGGTCAACTACAAGATGCGGGACTGGAACTTCTCCCGTCAGCGCTACTGGGGTGAACCAATCCCGGTCATCCACTGGGAAGACGGGGAAACCACTTTGGTGCCAGAAGACGAACTGCCGCTGCGCCTGCCTAAGGAAAGCAACATCAAGCCGTCCGGCACTCCGGAAAGCCCGCTGGCCAACTTGACTGACTGGGTCAACGTTGTTGACGAAAACGGCCGGAAGGGCAAGCGGGAAACCAACACCATGCCGCAATGGGCTGGTTCAAGCTGGTACTTCCTGCGCTACATTGACCCGCACAACGACAAGGCCCTGGCTGACCCGGAACTCTTGAAGAAGTGGATGCCAGTTGACCTTTACATCGGCGGGGCAGAACACGCGACCCTGCACCTGCTTTACGCTAGATTCTGGCACAAGGTTCTTTACGACTTGGGCGTCGTTCCAACCAAGGAACCGTTCCAAAAGCTCTACAACCAGGGCTTGATCTTGAAGAACCATGAAAAGATGTCCAAGTCCCGGGGCAACGTGGTTAACCCAGACGACGTCGTTGACGAGTACGGTGCCGACAGCCTGCGGACTTACGAAATGTTCATGGGGCCTTTGAACGCGTCTATTGACTGGGATGACAACGGTCCTTCCGGTGTTAAGAAGTTCCTTGACCGGGTATGGCGGACTTTTGTCAATGACTTAGACCTGGATCCGATCCCATCTGAAAAGATCACTGACAAAAACGACGGCAAGCTGGACAAGATCTACAATGAAACGGTCAAGACTGTTACGGAACACTTTGAAGAACTGCACTTCAACACGGCTATTTCCCAAATGATGGTCTTCATGAACGCCTGCCAAAAGGTCGACAAGATTCCGCGGGAATACGCTGAAGGCTTCGTGAAGCTGATGGCTCCGGTTGCTCCGCACATGATGGAAGAAATCTGGCATGTCTTCGGCCACGACGAAAGCGTGCAGTTTGCTGCCTGGCCAACTTACGACGCAAGCAAGCTGGTTGAAAGCACGGTTGAAATGGCGGTTACGGTCAACGGCAAGAAGCGGGGCAACTTCCAAATCGCCAAGGACGCAAGCAGAGAAGAAGCCCAAGCTGCCGCAACCGCTCTGCCGCACGTAAAGGAATTTTTGGAAGGCAAGGAGATCAAGAAGGTCATTGTCGTGCCAAACAAGATCGTGAACATTGTTGCCAAATAA
>SRR1919932_01561 polysaccharide transport membrane protein
ATGGCAAAGAACAAATCACAGACCAACTCCCAGGCCCAGTTGTTAAAGGGCTCGGCCTGGATGACTATTGGCTCGATCCTGTCGCGGATTCTCGGGGCGATCTATATCATCCCTTGGTATGCCTGGATGGGAAAGTATGGCAACTTGGCCAACTCTCTGACGGCGAAGAGCTACAACATCTATAGCCTGTTCATTATCATCTCCACCGCGGGCATTCCAGGGGCGATCGCCAAGCAGATCGCCAAGTACAATGCCCTGAATGAGTACGGGGTCGGCCGCAAGCTCTTCAGGCACGGCCTGGCCTTAATGGGGGTCTTCGGGATTATCTCAACGGCCTGCATGTACTTTTTGGCATTGCCGCTGTCTGGCTTTAACCCCCAGGAAGTACCGGTGATCCGGAGCCTGGCTTTGGCCGTTTTGATCATTCCGATCTTGAGCATCCTGCGGGGCTATTTCCAGGGCTTCAACGACATGATGCCCAGTGCCATGTCCCAGTTCGTGGAACAGCTGGCCCGGGTGATCTGGATGCTTTTGACGGCTTATGTGATCATGCGGGTCCAGCACGGCAACTATGTCGACGCGGTAACCCAGTCCAACCTGGCCGCCGCGATCGGGGCCGTGTTCGGTATTGGCCTGCTGGTAATTTTTTACCTTAGGCAGAAGCGGACGGTTGATCCTTTGATTGCCCAGTCCAACAACCAGGTGCAGGTTTCAACCAACAGCCTGCTCTTTGAAATCATCCAGCAGTCGATCCCCTTCATCATCATTGACTCCGGGATCAACATCTTTCAGCTGGTGGACCAGTATACCTTCCACCCGATGATCGCCAGCTTCATGCACGTGCCTTATGACACGGTCGAAATCTGGTATGCTTTGTTCGGTTTGAACGCCAACAAGCTGATCATGATCGTGGTCTCCCTGTCAACGGCCATGGCGGTTACGGCTATTCCGCTCTTGTCAGGGGCCCACGCCAGAAGGGACTATCGGGATATTTCCCGGCAGATCGGCAATACCTTGGAACTTTTCTTGTTCGTCTTATTGCCGGCTTCGCTGGGGATGGCCGCGATCTCAGACCCCTTGTACACCATTTTCTACGGCTATGACCGGCTGGGGGCCCATGTCTTGTACCTGTCCTCCTTTACGGCCATCAGCTTGGGGATGTTTACGGTCCTCATGGCCATCTTGCAGGGTCTGGACGAGAACATGTATGCCATCCGCTACTTGATCTTTGGTTTGGTCATCAAAGCGATCGTTCAGTATCCGATGATCCGCCTTTTCAAGGTCTATGGTCCGCTTTTGGCGACCAACCTTGGCCTTTTGGCGGTCATCGCCATGTCCCTCAAGCACCTTAGCGTGAAATATCGCTGGCGGGCTGACCGGATCATGCGGCGCTTTATCGGGATTGCCAGCTTCTCCATAGTGATGTTCGCGGCGGTCTTTGCTGCCGTTAAGCTGGGCGGCCTCTTCCTCAGCCCTTACCGGCGCTTGTCAGCCATGCTACTCAGCGGCTTGGCGGTAGCTGTCGGCGTGCTTGTTTACGGGGCCTTGAGTCTTAAGACCGGCCTGGCTGAAAACATTTTGGGCAGCCGGGTGACCCGGATCATGCAAAAGTTCAGATAA
>SRR1919932_01562 phosphoenolpyruvate synthase
ATGGAAATTAACGACAAGAAGGAATTGACTGAAGAAGAACGCGAAAATGCATACGTTCTTTGGTTTAACCAACTGCGCCGCGCTGACGTGGCCCTGGTTGGGGGCAAATCATCATCATTGGGTGAATTGACTTCAGGTACTGACGTGCCAGTGCCTTATGGTTTCGCAACGACCGCACACGGCTACCGGCACTTCATGGAAGTCAATGGCTTGAATGAGAAGGTAAATGCCTTGCTGGCAACTTTGAAGGACCCGGAAGACTCAGAAGAACTGCACCGGGTCTGCAGCCAGATCAGAAAGATCATGCGCGAGGCACCAATGCCGGAAGACTTAGCCGAAGACATCGGCAACTCATATGACGAACTGGCCAAGATGACCGGACAAAACGAACCATACGTTGCCGTACGTTCAAGTGCTACGGCTGAAGACCTGCCAGACGCTTCATTCGCCGGGGAACAAGACACTTACCTTAACGTTAGAGGCCGCAAGGACGTTATCCGCAAGGTCCAAGACTGCTACGCTTCCCTGTTTACTGACCGGGCAACCTACTACCGGATCAAGCAGAAGTTCCCGCAAGAGAAGGTGGCACTGTCAGCCGCTGTCCAAATGATGGCCTTCTCCAAGTCAGCCGGGGTTATGTTCACGGTCAACGTTGCCAACGGTGATGACACCAAGGTTATGATCGAAGGTTCATGGGGCTTGGGTGAATACATCGTCCAAGGGACGGTTACCCCGGACAACTTCGAAGTTGACAAGGAAAGCATGCGGATCGTAAGCAAGACCATCAACAACAAGAACATTGAATTGATCCGTCTGCCAGGCGGCGGGGTTGAACAAAGAGACGTCCCAGAAGACATGGCCAAGAGTCCATGTTTGACTGATGAAGAAGTTATTGAACTTGCCGGCTACGCTAAACAAATTGAAAAGCACTATGGCTGCTACATGGACATGGAATGGTCCAGAGACCAAGACGACAAGCTCTGGCTCGTTCAAGCCCGGCCAGAAACTGTTTGGTCACAAAGAAAGAAGGAGGGCGGCGCCAAGGAAGCAACTGACGCTAAGGCTCCAAGCTCCAATAAGGTTTTGGTCAAGGGTCTGCCAGCCAGCCCTGGTGTAGCTTCAGGTATCGTGCACGTAATTGACGACCCGAAGGACATCGGTGACTTCAAGGAAGGAGAAATCCTGGTTACCTTGATGACTTCACCAGACTGGGTCCCAGCCATGAAGAAGGCGGCCGCTATTGTTACCAACAACGGTGGGATGACCTGCCACGCCGCTATCGTTTCCCGGGAAATGCAGATCCCATGTATCGTTGGTACTGCCAGCCGGGGGACCTTTGCAACCAGATTGCTGAAGACCGGCCAGGAAGTAACGGTTGACGCCAAGAACGGGGTTGTCTACCAAGGGGTGGCTGACGAAGTCGTTAAGCCAAAGAAGGCCGAGACTGCCCCAATGGCTGCAGCTGAATACTTCCCGCCAACGGCAACCAGAGTCATGATGAACCTGGGTGACCCGGACCTGGCTGAAAAGTACGCAACTTTGCCAGCTGATGGTATCGGTTTGATGCGAGAAGAATTCCTCTGGACCACTTACATCCACCAGCACCCGCTTTACTTGATCGAAACCGGCCACCCAGAACGGGTTGTCAACGAACTGGCTAACGGGATCAGCAAGGTCTGCCGGGCCATGAACCCAAGACCTGTCGTCTTGAGATTCTCTGACTTCAAGTCCAGCGAATACCGGAACTTGAAGGGCGGGGACAAGTACGAACCGCATGAACCAGCTGACCTGCTTGGCTGGCGCGGGGCAAGCCGCTACTACGACCCGAAGTACATCGAAGCCTTCAAGCTGGAACTGGAAGCAGTCAAGAAGGTTAGAAACGAATTCGGCTTGAAGAACCTGAATGTCATGATCCCATTCTGCAGAACTGTTGAAGAAGCAGAAAAGGTAACCAAGATCATGGCTGATGAAGGGCTTGAGCGCAGCCGCGACTTCAAGGTCTTCATGATGGCGGAAATTCCATCCAACATCATTTTGGCTGACAAGTTCAACAAGTACGTTGACGGCTACTCAATCGGGTCAAACGACTTGACCATGCTGATCATGGGGACTGACCGGAACAACGATGCCATTTCCGCCCTCTACGACGAACGCAACCTGGCTGTTAAGCGGGCAATCCGCCACTTGATCAAGACCGCCCACAAGGATGGCAAGACCGTATCTATCTGCGGGCAGGCACCTTCAGAATACCCAGACTTCACTGAATTCCTGGTTAAGAGCGGGATTGACTATGTTTCCGTAAACCCGGACATGGTTAAGGAAACCAAGCTCAACGTAGCGCACTTTGAACAAAGAATTCTGCTGGACAAGGCTACTGGCCTGGGGATGCAGGATACTGAAGACTACGAATGGTAA
>SRR1919932_01563 putative membrane protein
ATGGCACAACAATACTACTCAATGGATCAAATCGCAAAATTGGCACAGGTTTCCCAGCAGCAGGTCTACTACCTGATCAACATGAAGTTCAAGTTCAAACCGACCTTGACTGATCCCAGCGGCAATAAATTTTATGATGAGCGAGCGGTGGGGCAGATTTTCCAAGAACTGGGCAAGGTCCTGCCCAAGTCGGCAGCTTCGCCGGCAACCGACAATGGCCTGCTGGACATCAATGCCTTGGCGGAAACTACTGGCCTGGGCAAGAAGAAGCTGCGGATTTTTTTGCGGGAACACAAGGACTTGAAGCCAGACTTTGTTGATGAAAAGAACCACAACAAGAAATACTGGGGTCCGAGCGCCATCCAGTACATCAATGACCACTTCGGAGCAGAAGAAGCAAAGGCAGAAGAAAAGACCACGCAAGCAGAAGAAAAGACTACCGAAGTTGAAGGCAAAGCAGAAGCTGCAGAAGTTGTAGAAGCAGCAAAGACGGAAGAAAAGCCTGCTGAGGAAGAAAAGCAAGAACAAGCAAGCCAAGTAGAGGATGAAAACAAAGAAGAGACTATTGCAGAGGAAGAAGTCAAAGAAGAAGTAGTAGAAGAAGAAAAGTCTGCTGCAGAAGAAGTCAAAGAAGAAGATAAGCCAGCTGGCCCGCGCTTTATCAAGAAGGCGCCGCGCCCGGCAATGGAAAAGTTGGCTGAACACCCGCAAGTTGAATTACCTTTTGCCTTTGATGACAGCGAGGAAGCTGAAAACAAGGCTGAGGAGGCTGACAAGCCAGGCCGCGGGCCAGAAGTCAAAGAAGAAGATAAGCCAGCTGGCCCGCGCTTTATCAAGAAGGCGCCGCGCCCGGCAACGGAAAAGTTGGCTGAACACCCGCAAGTTGAATTGCCTTTTACCTTTGATGACAGCGAGGAAGCCGAACACAAGGCTGAGGAGGCTGACAAGCCAGGCCGCGGGCCAGAAGTCAAGGAAGAAGCAAAGCCAGCGGAAAAGAGCGATGAGCCGGCCAATGACCAGCAATTTGTTGTTAGAAAGCGCACTAACGACGACAAGCGGGGCCGGGGCAATTACGGCAAGCGCAGAAACAACCAGAGAAACGGCTACCAAAACCAGAACCGGACCAACAATTACTCTAAGCGGCGGGAACTTTTTGCCGGCAAGATGAAGCTGGTTACGGAAAAGGGGACTTTCTACACTGACCAGTTTGCCAGCCTGGAAGAACTGGCTGAATACGTCTTTTCATCCAAGGATAGCTTCATGAAGGTCGAGAAGTACAACCGGGGTGAATTTTCACCAGCCTACATCTCAACCAAGATCATCATCGAATTTGAAGAAGTTTAA
>SRR1919932_01564 hypothetical protein
ATGTTGCACGTAAAAGTTTTAAGTTCATTCTACATACCTCAACTGGATGAGACTTTGCTTTCTTTACAAGGGCCCGAGAACTTAAGTATTTATGACGGTAAATTTTCCAAAATGTGA
>SRR1919932_01565 peptidase S8
ATGCAGAAGAAAAAATCCGCACGCCATTTGAACAAAGTGGCTGAACTAGCGGCAGCACTGCTCCTATCAGCGAGTCCACTGGCGGGAACTTTCCAGTCAGCCGCTTTTGTCCAAGCTGCCAGTCAAGAAACGGTTAGTCCACGGTCGGCTAGCCGGGCAGCATTGACTAAGTACTTGCAGCAAGAGCAGCGCTATAACGCTAAGGAGAGCTACAGCAAGTTCCAAGAGGCTGCTAAAGAGCAAAGACAGGCTTCTGGCCAAGCTGTCAGTAAGAAGAATGAGTCCTCGGTCCGGGTGATTGTCAGTCTGAACAAGTCAGCGGCATTTGATCACACCAGTAAGCCGACTGGATCAGCTGCCTCAGTGAAAAAGATTGAGCAGGCAAGTGACCAAGTCAAGGATGGTCAAGAAAAGGTTATCAAGCAGGTAGAAGAAATCACCGGCAACAAGGTCCGCCGGCAGTTCGGCTACTTGGTCAATGCTTTTTCAATCGATATGGATTTAGACGATATCGACAAGGTTAAGGATCTGCCCCAGGTTAAGAACGTTACGCCTGTCAAGGTTTACCACCCAACCGATGAGAGTGCTGATCAAATGGCCCAAGTGCAGGACGTTTGGCAAGAACAAAAGCTCAAGGGCGAAGGTATGGTCATTTCGATCATTGATACCGGGATCGACTCCAGCCACCAGGACTTGAAGTTGGACAGTGGCGTCAGCACCGCGTTGAGTAAGAGTGAGGTTGAAAGCGACAAGAGTAAGCTAGGTCATGGGAAGTATTACACGGAGAAGGTTCCTTACGGCTATAACTACGCTGATAAGAACGACCAAATCGTGGACAATGGGTCTGGCGAAATGCACGGCCAGCACGTGGCCGGGATTGCCGGGGCCAATGGCCAAGTCAAAGGTGTTGCTCCTGATGCCCAGCTTTTGGCAATGAAGGTCTTCTCCAACAATGCCAAGAATTCTGGAGCCTATGATGACGACATCATTTCCGCGATCGAAGATTCAGTTAAGCTGGGGGCCAACGTTATCAACATGAGTTTGGGCTCAGTTTCATCAGATGTCGATCCAAGTGATCCACAGCAACAAGCCGTAGCAAAGGCATCAGAGGCTGGCGTTATCAACGTTATCTCTGCCGGCAACTCCGGGGTCGCAGGGTCGACCGGAGATGGCAATCCAGTCAACAATACCGGGACAAGTGAACTCAGTACTGTTGGCGCGCCAGGGGTTACACCGGATGCTCTGACGGTCGCCTCTGCTGAAAACAGCAAAGTGACCACCGACACGGTTAAAGACGAACTCGGTGGGGTCACCTTTAGCTCAAATTCAGAATTGAAGGGTGCTGCACAAGTAACAACCCAGCTGGAAAGCAACTATTCCGTTTTAACCAAGAAGCTTAAGCTTGTTAACATGGGCTTGGGCGGTGCAGATGACTATACTGCTGAAAAGAAGGCTGAGGTTAAGGGACAACTTGCAGTTGTTAAACGGGGATCTTATACCTTCTCAGAGAAAGTTGCCAATGCCAAGGCAGCTGGCGCGGCAGGGATCGTCATTTACAATAGCAATGATGACGGCTTACTTTCAATGGCACTGGACGACAAGACTTTCCCAACCTTGGGGATGAGTAAGGCTGATGGGGAAGTTCTGGCTACAGCAGCAAAAGAAGGTAAGAGCATCAAGCTGAAATTCGGTACTGCTTTAATCGATAACTCCAGCGCGGGAAAGATGAGCGACTTTACCAGCTGGGGACCAACTCCTGACTTAGACTTCAAGCCAGAAATTACTGCTCCAGGCGGGAAGATCTACTCGCTGGCCAACGACAACAAGTACCAGCAAATGAGTGGGACTTCAATGGCTTCACCATTTGTCGCAGGTTCAGAAGCATTAATTTTGCAAGGTATCAAGAAGCAAGGTTTGAACTTGTCCGGGGAAGAATTAGTACAATTTGCTAAGAATTCAGCCATGAACACTTCGCACCCCTTCTATGACACTGAGCATACCAAGGAAATTATTTCTCCCCGCCGGCAAGGGAGTGGCGAAATCAATGTTAAAGATGCCATCAACAATACGGTTGAGGTTAAGGCAGCCAACGGCAACGGGGCAGCAGCCTTGAAAGAAATTGGCCGGCAGACGACCTTTAAGGTTACCTTGACCAATCATGGCAAGAAGGCCCAGACCTATGCAGTTGATAATTATGGCGGTCCATATACCCAGGCAACCGAAGCGAAGAGTGGCGAAATCTATGACACAAAGATTGTTAAGGGACAGCTGACGACGGAGACGCCAAAGATAACTGTCCAGCCTGGCGAAAGCGTGGATGTAAGCTTTACCTTGACCCTGCCATACAGTTTCCAGCGGCAGAACTTCGTTGAAGGCTATGTAGGCTTTGAAGCAGAAGACCAAGCAACACCAAACCTGGTTCTTCCATACATGGGCTTTTTCGGTAGCTACAGTCAAGCGAGTGTCAGCGCACCAATGCTTTATGAAGGTGGCAATTCAAATCTAATCAACACGATTCAGTCCCTGGTTGGCGTCATGGCTTCTAACGACAATGATATTCTCGGTTACACTGGCGGTGATGATTACAGCAAGTATACTGATCCTGATCTGATCGCGATTTCACCAAATGGCGATGGTAGCCGGGACTACGCATATCCTGTTCTCTTCTTTGACCGGAACTACAAGGAATACACGGAAACGATTACTGATGCTCAAGGAAACAAAGTTAAGAGCTTGGGCGTTGGCAAAGAGGGAACTAAAGATTACTACAGTTCTTCAAGCGGCAAGTGGACAACCCACTCACTGGACAAGTGGGATGGTACTGACGCTGACGGCCAAGTCGTCAAGGACGGGCAATACATCTACAAGGTTGAATTTACCCCAGCAACTGGCGGCAGCAAGCAGGAATTGAACATCCCTGTCAAGGTTGATACCCAAGCGCCAGAAGTGAGTGACTTGCAGGTTACCAAAGATGGCAAGCTCCGTTTGAAGGCTAAGGATTCCGGCAGCGGTCTTGACATGACAATGTTTGTTGCGGCAGTAAACGGTGAAAAGCAGAAGCTGGCGCTGGCTCCGGTTAAGGGAGAAAGTGATGTTTACGAGTCAACGACTGCCTTGACTGGACTTAAGGACGGCAAGAACCAAGTAGAAACTGTTTTGGCTGACTATGCCGGCAATGTTGGCTATGCTGCAACTTTCTCCAGTCAAAATAACGATGCTGATAACAAGCTTCTTCTCTTTAACTTAGCCGACGGTCAAAAGATCACTAGTCAAAGCCCGGCTTACGATCAAGAGAAAGAAACTTACACTGTAACTGGTACTTACAAGAAGAATGCCAAGCTTAAGTTTAATGATGTCGAGGCAGAGAGCGATGAAGATGGCTACTTTGAAGTTAAGCTGCCAGTCAAGGATGGACAAAACCAGCTTTTGATCAAGGATGGGGACCAAACCCTTGAAGCAGTCAACTTCACTGTTAAGGCTGAAGGACCGAAAGTCAGCGTTGACGAAGAAAGCTCAGGCCGTATTTTGGCTAAGGATGATTCCTATACTTTATCCGGGACGGTATCTGGCCTTGGCGAAAGCGGCAAACTGGAACTGACAAACTTGTCTGACAAGAGTAAGACTAAGTTAACGGTTGACCAGGACGGCAAGTTCTCACAAAAGGTTGACTTGAACTACGGTGACAATCCTTTTGAACTGACGGCAACTGATGCGGATGGCAATGTTACAAAGAAGGACGTAACGATTTTCACCGCTAGAAGTTACACTTACAACAAGGATATGCTGACTTTTGACAATATCGCCAGCGATCTAACGGTTATTGGCAAGACGACGCCGGGTTACGATGAGAAGGACCACAGCTTCACAGTAACGGGTAAACTCGCGTACCCAGTCGCCCGCTTCCAGTTAAACGGGGATGACGTTAAGTACGACCCAGATACTTTGAAGTTCAGCTACACGATCAAAGACTTAAAGAACGGCAACCATTCATTGACTGCTCTGGTGCAAGATCCACGGCTTAATGACGGCAAGCCAGTCGTCGAATGGGGCTACAAGCTCTGGGTTGACTTAGCAGCGCCAAGTCTGCAATTGGAAGGGATGTCCTTAGTTGAGGATGGCCAGTTGGCTGTCTACACCAACAAGGATGTTTACGATCTTAAGGCAACGATCAATGACAACTTGAGCGGATACAGCCTGCAAGTTGGCAGCGATACAGCCTACCAAGACAAGACTTACGAGGTGTTTAACGAAGACTTCTTTAAGAATAGGGATGCAGTCAAGGTCAGCTACCCGATCAAGGCTGAGAAAGACGGATCCCGGAAGGTCAAGGTCACTTTGACTGATGAAAGTGACAACAAGACTGAACAAGACTTTACCCTGTACAACCACCAGGCAGATCTTGAGGCACCGGAGGTTTCCGCTTCAGAAAGCAAGAAGACCAACCAAGCTGTTCAGCTGAAGGTTGAAAATCTGTCCGATGTACAAAAGTCTGCTGGCAAGTTTAAGGCGGCTGATCTCTACTACTCAGTTGACGGCAAGACTTGGACCAAGCTGGACAAGGATACTGTACAGGTAGCCGAAAACGGAAAGGTTGAGTTCAAGTACCAAGACGTTTACGGCAATGAGTCAAAAGTTACGACTTATGAAGTCAAGAATATCGTCAAGGAAGTCGCTGCCCAGCCGGAATTGAAGCTGACTCCGGATGGAGAAGGCAAGGTCAAGGCTGAGCTTGCTTTTGACAAGAAGGATGTTGACAAGGACTTCAACCACATCAAGTACAGCCTTGATGGTGGCAAGACCTGGACTGACTACAAGGATGCCTTTACGCTGACTCACAACGAAACTGTGGAATTCAAGAGCTATGACGACGCTGGCAATGAGAGCCAAGTCTACACCAGCGTGGTCAAGGTAGAACGGAAGCTGCCCGCTCCAGATTTGACTGGCACGGTTGAAGCTGATAAGAGTATTGAGGTTAAGGCTGGCAACGTTGAACAGGCTGAAAAGGATGCTGACGGAAAAGTAACTTTGCTTTACTCAACTGATGGCAAGGATTGGTCAAAGGTTGACGGCGAAGTTAAGCTGACTGACAGAGACCGGGCTATGTTCAAGTATCGCGACGGGGACGACAACGAATCTGCTGTTGTCGTTTACGAAGTCAAGAAGGTTGTTGAAGAAAAGACTGCCGAGTCTAAGCCGGAAAACAAAGACGATAGCAAGTCAGACAGTAACACTGACACTAAGAGCGACTCCAAGTCAGACAACAAGAGCAACACTAAGAGTGATGTCAAATCGGACGGCAATGGCGAAGCTAAGTCCGATAACAAGTCATCTGCCAAGGATGATAAGAAGACTGACAGCAAGACGACTTCAAAGAGTAGCGCGAAGAAGAACAAAAAGGCTTCTAAGAAGGCAAGCAAGAAGACAGTTAAGAAGACTAAGACTTACAAGTTGACTAAGCTTACAAAAGTCTACAATAAGAAGGGCAAGGTAGTTGGCAAGCTTAAGAAGAAGACTAGCGTCAAGCTATTAAGCAAGAAGCAAAAGCTTCATGGCAAGTACTACTACCGGGTTGGCAAGAACAGATATATTCTGGCAAGCAGCCTGCCGAAAAAGACTAAGAAGGTTAAGCAAGTTCGCGCAAGGAAGAATGCCAAGGTATATAACAAGAAAGGGAAGGTAGTTGGCCATCTGAAAAAGAAGCAGAAGGTTAAGCTCTTAAGCAAGAAACAGAAGCTTCATGGCAAGTACTACTACCGAATTGGCAAGAACAGATATGTTAAGGCAAATGTGCTGTAA
>SRR1919932_01566 GNAT family acetyltransferase
ATGCTGAGATTTGACCAGACAAGAGCGGAAGATTTAGACAGGATCGTGGAAATTGAAAGAGCTGGTTTCAATGAGGCAGAAGCGGGCAGTCCTGCTCAGTATAAAGAGAGAATTCAGAAGTTTACCGGGAGCTTTTTGGTCGCCAGAAATTTGGAAGAAAAGATCGTGGGCTTTATTACCGGGCCAGTCGTTAACAGCAAGTATGACTACATCGAGGACTGGATGTATGAAAAAGAGACAGAAAGTCTGGCGGGCCCTGGCGGCAACCAAATGGTCTTGACCATCGCGGTTCATCCGGATTACCGGGGGCAGGGGATTGGCAGCCAGCTTTTAGATAGATTCGCGGAGACCGCTAAGGAAATGAAGCGGGGGCGGATCGCCTTGACCTGTCTGGAAGACCGGGTGCCATTTTACGAAAAGAATGGCTACGTCAACCATGGGCAAGCTGAGTCAGAGCATGCCGGGGAAATCTGGTACAACATGATCAAAGAGATAGAAGGCTAG
>SRR1919932_01567 hypothetical protein
ATGACTAACGTAACTATCGAACAAGCAGTTAAGGGCTATCTTGTATTCTCAGCTAAGGAAGGCAAGCTTTTCCGTGAAGGCCGCAGCTACCTGGCAGGCAAGACCTACCACAACCGCTACCTGGCTATCTACGAAAAGCTGGAAGACGCTGTTGTCAACGCCAGCCAATACCCAAGTGAAGAAGGCATCACCATTTACGAAGTAAGTGGCTGGGGCCAGGTAACTGACTTTGGCAAGTGCAAGGTCACTGAATGGCTGAAGCTGGACCAAATCGTAGCTAAGAAGGAATGGGTTGCTCTCTTGGGCAAGCAAACTAACTCAAACTACGCAAGTCTGCGGATCCTGGCAGCTAAGCTGAGCAAAGACGCAGCTGTCCTGAAGAAGCTGGCCCAAGACAAGAACCAGCAAGTTCGCAGCGCTGTAGCTGAGAATGCTAGCACTCCAGCCTTGGTTTTAGCTAAGCTGGGCGTGACTGCTGGAGTTAACGCGATGGCTATCTAA
>SRR1919932_01568 alkaline phosphatase
ATGAACGAGACAATCACGCAGCTGATTCAAAACTATGGCTATGTCGCCGTTGCCTTGTTGATTGCAGCTGAAAATATTTTTCCCCCAATCCCTTCCGAACTGATCCTGACCTTTACCGGTTTCCTGACCCTGTCAGCCAACCTGTCTGTCCCGGGAGCCATCATCGCCTCCACGATCGGTGCCTTCATTGGCGCGGTAACTCTCTATTGGGTCGGCACCTTCTTTGACCAAGACCGCCTTTCCCGCTTCGCCGCCAGCAAGGTCGGCCGCCGCTTCGGCCTCTCCCCGGAAAAAATCACCAAGACGGAAAACTACTTTAACAGCCACGGCCGGGCAGCCACCTTCTTTGGCCGCTTTATTCCAGTCGTCCGCAGCTTAATCTCCCTGCCAGCCGGGATGAGTCGCTTCTCTTTAGCCCGGTTCAGCTTCTACACCATCCTGGGCACGGCAATCTGGAACACGGTCTTGATCTACGCCGGCCGCTTTGCCGGCAATGCCTACCAGCAAGTGGTCCAGGAATTTGAAGGCCTTAGCTTGATCGTGTTAATCGCCTTCTGCGCCATCGCAGCCGCTGTCTACCTGCTCAAGAAGAAGGGCTTGATCTTTAAAAAATAA
>SRR1919932_01569 aspartate-ammonia ligase
ATGGCTAAATTAGTTATTCCAAGTGATTACGATCCGAAAATGACCATCCGCGAAACGGAAAAGGCAATCCGCTACATCCGGGAAACCTTCCAGACTGAATTCGGGACCGCGATGAATCTGGAAAGAATTTCCGCTCCTATGTTTGTTAAGAAGTCTTCCGGCTTAAACGACAACCTCTCTGGCTGGGAAAAGCCGGTTTCCTTTACCCTGCATGACGGGGATGAAGGCGAATTGCAAATCGTCCACTCCCTGGCCAAGTGGAAGCGCTGGGCTCTTAAGCATTACGGCTTCGGCCACGGTGAAGGCCTATTCACCAACATGAACGCCATCAGAAAAGACGAAGAAGTTTTAGACAACCTCCACTCCGTTTACGTTGACCAATGGGATTGGGAAAAGGTCATCGACAAGAGCGAACGGACGGAAGCAACCCTCCGCCAAACTGTCCAGCGGATCTTTGAAACCATCAAGGGGATGGAATACCACGTCCGTGCCCTCTACCCGCAAGCCGCCTACCACCTGCCAGAAGAAATCAGCTTCGTAACCAGTGAAGAACTGGAAGCCCGCTGGCCATCCCTGACCCCAAGCGAACGCGAAGACAAGATCTGCCAGGAAAAGGGCGCCGTCTTCTTGGAACACATCGGCGGCGCGCTCCCGCTTTCCAAGAAACCGCATGACCTCCGGGCACCAGACTACGATGACTGGACTTTGAACGGTGACCTCCTCTTCTGGTACGAACCCCTCCAGCGGGCCTTTGAAGTCTCCAGCATGGGCATCCGGGTCGATGAAGACCGCTTGCAAGAGCAGCTGAAGCTTGCCGGTGCTGAAGACCGGTTAGATCTGCCTTTCCACCAAGCCCTCTTAAAGGGTGACCTCCCTTATTCCATCGGCGGCGGGATCGGCCAGTCAAGACTTTGCATGCTGCTTTTGGGCAAGGCCCACATCGGTGAAGTCCAAGCCAGCATCTGGCCTGACGAGATCGTAGAAAAGTGCCAGGCAGCCAAGATCCAGCTTCTGTAA
>SRR1919932_01570 DEAD/DEAH box helicase
TTGAAATTTACTGAACTAGGATTGAACGATAATATCTTAAAGGCAATTAAGCGGTCAGGCTTTGAAGAAGCCACCCCGATCCAGGCCCAGACCATTCCTTTGGCTCTGGCAGGCCAGGACGTGATCGGCCAGGCCCAAACCGGGACGGGGAAGACAGCTGCCTTTGGTCTGCCAATCCTGCAAAAGCTGGACCTGGACAAGCAGGAGCAAGCCATCCAGGCCATCGTAATTGAACCAACCAGAGAACTGGCCATCCAGACCCAGGAAGAACTTTTCCGCTTGGGCAGAGACGAAAATGCCAAGGTCCAGGTCGTTTACGGCGGGGCGGACATTGGCCGGCAGATCCGGGCCTTGAAGAAGGCGCCGGAAATCCTGGTCGGGACTCCTGGCCGGCTTTTGGACCACTTGAAGCGCAAGACCATCAAGCTGGACGGCGTCAAGACAGTTGTTTTGGACGAAGCCGACGAAATGCTTGACATGGGCTTCATCCAGGATATCGAAAGCATCTTAACCTATGCTGAAAACCGGGACCAGACCCTCTTGTTCAGCGCGACCATGCCAAAGCCAATCCAAGCTTTGGGCGAAAAGTTCATGCATGACCCGCAAGTCGTGAAGATCCAGGCCAAGCAACTGACGGCTGATTTGATCGACCAGTACTTCGTCCGCGTCCGGGAAAACGAAAAGTTCGACACCATGTGCCGGCTGATCGACGTGGAAAATCCGGACCTGGCCGTGGTCTTTGGCCGGACCAAGCGCCGGGTTGACGAACTGACCCGGGGCCTGGTTGCCCGGGGCTACAACGCGGCCGGCATCCACGGCGACCTGACCCAGGCCCGGCGGATGCAGGTGCTCAAGCGCTTCAAGGAAGGGGAGCTTGACATTCTGGTGGCTACTGACGTAGCTGCCCGGGGCCTGGACATTTCCGGGGTTACCCATGTTTACAACTACGACATTCCGCAAGACCCGGACTCCTACGTCCACAGAATCGGCCGGACCGGCCGGGCCGGCAAGAGCGGGATGAGCGTGACCTTCGTGACGCCAAACGAGATCGGCTACATGCGGACTATCGAGGACTTGACCAAGAAGAAGATGTCTCCTCTGCGTCCGCCGACAGACGCCCAGGCCTTTGCCGGGCAGATGAAGCAGGCGGTCTTGAAGGTGGACGACCTGTTGAGCGGGGATTTGAGCAAGTATGACGACGCGGCGGAAAAGCTGCTGGAAAATTACTCAGCTGAAGACATCGCCGCTGCTTTGCTGAAGGAACTCTCTAACGACAGCGAGGTCACGGTTACTATCACCCCTGAAAACCCTCGCTCTTACCGGGGCAAGCACTCAGGCGGCCGGGGTAGCCGCAGCCGGAGCGGTAACAATAACTTCAAGGGCAAGCGCAATTTTGACAGAAAGAAGCGCAAGCCAGGCTTTAAGTTCCACGGCCGGAAGGGCTAA
>SRR1919932_01571 UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D- alanine ligase
ATGAAAATGCAGTTGGCAGAAATCGCTCAAGCCTTAAATACCAGTTGTGAAGGGGACGCAGAAACGGTCATTACCTCAGTGGCCTTTGACTCAAGAAAGATCAGCCAGGGCGCCCTCTTTGTCCCGATCAAGGGGGAAAGAGACGGCCACGATTTTGTGGGTTCAGCCATTGAAGCCGGCGCCAGCGCCACTTTGTGGGAAGCTGGCCACCCAAACAAGCCGGAAGGCATCGCGGTTTTAGAAGTTGCCGACACCTTGAAGGCCATGCAGGATCTGGCCCGCTACTACTTGCAGAAGGTCAACCCAACCGTGGTCGGCATCACCGGCTCAAACGGCAAGACCACGACCAAGGACATGGTGGCGGCGGTTTTGGCCAAGCGCTTCAACGTTTACAAGACCCAGGCCAACTTCAACAATGAAATCGGCGTGCCGATGACCATTTTAGAAATGAAGCCGATCACTGAAATCCTGGTTTTGGAAATGGGGATGGACCGGGCTGGCCAACTGCATGAACTGAGCCAGCTGGCCCGGCCGGATGTGGCGGTCATCACCATGATCGGGGAAGCCCATATCGAATTCTTAGGCAGCCGGGACAAGATCGCCGACGCCAAGATGGAAATCACGGACTTTTTGCAAGAAGACGGCGAATTCATCTACAACGGTGATGAACCCCTCCTGGCGGAAAGAGCCGCAAAGCTTTCCCAGGACAAGTCCACCTTCGGTTTCGCGGACTCTGACAGCATTCATGCCAGTGACCTCCGCAGCACCATGCACCATTCCTTCTTCAAGATTAACGGGACTGACCGAGAATTCTCAATTCCAATGATCGGCCGCCACAATGTGGCTAACGCCATGGCCGCTATTCTGGTTGGCCGCCACTTCGGGGAAAGCGACGAGGAAATCGCCGCTGGCCTGGCCAACTTCGTGCCAACGGCCAACCGGATGGAATGGGAAAAGGGCGACTGCGGCGAAGACATCATGAGCGATATCTACAACTCCAACCCAACGGCAGTTAAGGCCGTGACTGCCTCCTTTGGCCAGGTTCCAGTCAGTGAAGGCGGCCGCCGGATCGCGGTTTTGGCTGACATGCTGGAACTGGGCAGCCGGTCAGCCGACCTGCACAAGGGTCTGGCTGCCTGCCTGGACCCGGACAAGATCAACGTCCTTTACCTTTACGGGCCGGAGATGAACCACCTTTACCAGGCCCTGCTGGACAAGTACGGCCAGCAGAATCTGCACTACTACCCAGAAGACGAGATGAGCCATTTAATCGATGATTTAAAGGGCGACATCCACAGCCAGGACATCGTTTTGCTGAAGGGGTCCCACGGGATGCACCTGGAACGAGTCCTCGACAGACTGAAATAG
>SRR1919932_01572 50S ribosomal protein L31
ATGAAACAAGGTATTCACCCAGATTATCAAGAAGTTTGCTTCATGGACTCAGCAACTGGTTTTAAGTTTGTTGCCGGCTCAACTTTGAAGTCATCAGAAACTGTTGAATTCGAAGGCAACACTTACCCATTGATCCGTGTTGAAATTTCATCAGATTCCCACCCATTCTACACTGGCAAGCAAAAGTTTGCCGCAGCCGATGGTCGAATCGAACGTTTCAACAAGAAGTACGGCTTCAACAAGAAGAACTAA
>SRR1919932_01573 UDP-N-acetylglucosamine 1-carboxyvinyltransferase
ATGAAGCAAATGATAATTCACGGAGGGAAACCCCTGCAAGGCGACATCTGGATTGGCGGCGCGAAGAACTCAACGGTAGCGCTGATTCCGGCCTCAATCCTGTCGAGAACGCCGGTGACCCTGGAATCAGTTCCGCGGATTGCCGACGTTGACAATTTGATGGACTTGTTGAGCGAAATGGACGTGCACTGCGACTTCCGCGAAACGACCCTGCAAATTGACCCGACCGAAATCAAGATGAGTCCCCTGCCAGCTGGGAAGATTAAGAGCTTGCGCGCGTCTTACTACTTTATGGGCGCTTTGCTCGGTCGTTTTGGCAAGGCGGTTGTAGGTTTTCCTGGTGGCGATGACATTGGCCCGCGGCCGATTGACCAGCACATTATGGGCTTCCAATCCCTCGGCGCCGACGTTAGATATGAAAATGAGCAGATTGTAATTACCGCGCCTGATGAAGGGTTGAAAGGGGCCCAGATTCACCTGAAGATGGCTTCTGTTGGGGCAACGATGAACATCATCATGGCCTCAGTCACGGCCAGCGACCGGACGGTGATCGAAAACGCGGCCAAGGAGCCGGAAATCATCGACCTGGCAACTTTCTTGAACAACATGGGGGCCAAGATCCGCGGGGCGGGGACTGACACCATCAGAATCGACGGGGTTGACCGCTTGGAGGCCAAGGTGCCGCACACGATCATCCCTGATCGGATTGAAGCCGGGACTTACATTTCCATGGCAGCCTGTATCGGTAACGGGATCCGGATCCACAACATCATCGCTGAACACCTTGACGCCTTTTTGGCCAAGGTGGAAGAAATGGGCGTGGTGATCGACACTGATGAAGACTCCCTCTTCGTTTACCCGGCCGGGGACCTGCGCATGGTCCAGGTCAAGACCGGGACTTACCCGGGCTTCGCGACTGACTTGCAGCAGCCAATTACGCCGCTCTTGCTGACGGCTAAGACCGGGGAAGGGGTCATCATCGACCCGATCTACCCGAAGCGGACCCGGCACGTGCCGGAACTGCAGAAGATGGGGGCTTCCATTACGGTCGTTAACAACATCATTCTGGTTCAACCGGGCAGCCGCCTGCGCGGGGCGGTGGTTCACGCTGACGAAATCCGGGCCGGGGCCTGCTTGATGCTTACGGGCTTGATGGTTGACGGCGAAACGGTGATCAACAATGCTGGCAACATCTTGCGCGGCTATGACCGGGTGGAAGAAAAGCTGCACCAGCTGGGCGCTGACGTGGTCATCCGGGACGTGGAAGATTAA
>SRR1919932_01574 CTP synthase
ATGACCAAATATATCTTTGTGACTGGCGGCGTTGTTTCATCATTGGGGAAAGGGATTACTGCATCAAGCATTGGTCGCTTGCTGAAGAACCGCGGCTTAAAAGTTACCATGCAGAAGTTCGACCCATACATCAACATCGACCCCGGCACGATGAACCCTTACCAACACGGTGAAGTTTTCGTGACTGACGACGGTACGGAAGCTGACCTTGACTTGGGCCACTATGAAAGATTGGTCGACGTTAGAACCAGCAAGTACTCTAACGTGACGACTGGCAAGATCTACCAGGAAGTCCTGCAGCGCGAACGGCGCGGCGACTACCACGGCGGCACTGTACAGGTGATCCCGCACGTAACTAACATGATCAAGGAAAAGGTCATGCGGGCAGCGCAAATGACCGACACTGACGTGGTTATTTCCGAAATCGGCGGTACGGTCGGTGACATGGAATCAACTCCGTTCATGGAAGCCATCCGGCAAATGCGGCGGGAAGTCGGCTCAGAAAACGTCATGTACGTGCACGTTACCTTCGTTCCTTACCTGCGGGCAGCCAAGGAACTGAAGAGCAAGCCGACCCAGCAGTCAGTTTCCATGCTGCGGTCAATCGGGATCCAGCCAAACATGCTGGCTCTTCGCTCAGAAATGCCAGTTCCGCAGGAAATGAAGGACAAGATCTCCACTTTCACCGACGTTCCAGTCGACTACATCGTGGAATCTTTGGACGCGCCATCTCTGTTTGACGTGCCGTTGTCCTACCAGGAACAAGGCGTTGATCAGAAGGTCGTTGACTTCCTCCACATCGACAGCCCGAAGCCGGTTGCCGACATGGACGAATGGCGCCGGATGGACGAACGGGCCAAGAACTTGAAGTACAAGACCAAGATCACCCTGGTCGGCAAGTACGTCGAATTGGAAGATGCCTACATTTCCGTAACTGACGCTTTGCAGCACGCCGCCTACCTGTACAACAGCAAGATCGAAGTTGAAAAGATCCAGGCTGAAGACATTACTGAAGACAATGTAGCCGAACTTTTGAAGGACACCCAGGGCTTGATCGTGCCAGGCGGTTTCGGCACCCGGGGTCTGGAAGGGATGATCACTTCCATCAAGTACGCCCGCGAACACGACATTCCATTCCTGGGGATCTGCCTGGGGATGCAGATGGCCAGCGTGGAATTCGCCCGCAACGTTTTGCACCTGGAAGACGCCAACTCAGCTGAAGCAGAACCAAACTGCAAGAACAACATCATTGACTTGATGGCTGACCAGCGCGACCAGGAAAAGATCGGCGGCACCTTGCGTCTGGGCTTGTACCCAGCCATGCTGAAGGCCGGCACTAAGACCCGGGAATGCTACGACGGCCAGGAAGTCATCCAGGAACGTCACCGTCACCGCTACGAATTCAACAACAAGTACCGGGAAGACTTTGAAAAGGCCGGCATGACCTTCTCAGGCGTTTCTCCAGACAACCACCTGGTGGAAATCGTTGAAATCACGGACAAGAAGTTCTTTGTTGCCGCTCAATACCACCCGGAATTCCTAAGCCGGCCAAACCGGCCAGAAGGGCTCTTCAAGGGCTTTATTGGGGCAGCCAGCGGTTTGCAGGTCGACAAGTTCTAA
>SRR1919932_01575 DNA-directed RNA polymerase subunit delta
GTGGGATTAGCTGATTTTAAAGACGTGGATCGTAACGAATTGTCAATGATTGAAGTTGCACACGCAATTTTGGAAGACCGTGGCGAAAGAATGGCTTTTGCCGATATCGTTAACGAAATGCAAAAGTACCTGAACAAGAGCGACGAAGAAATTCGCCAGCGCTTGCCGCAATTTTACACGGACATAAACACCGATGGCCGCTTCATTTCCATGGGTGAAAATGTCTGGGCCCTGCGGACCTGGTTCAAGTTTGAAGCTGTCGATGAAGAAGTCGACCACCCAGAAGACGACGGCGACGAAGCATCAACTCGCAAGCACCACAAGAAGGTCAACGCCTTCCTGGCGACGACTGAAGGCGACGACGTGATCGACTACGAAAACGATGACCCAGAAGACGAAGACTTGTCCGACGGCAGTGACGCTGACGAAGATGACGCTGACGACAACTCCGGCGACGATTACGACGACAATGAAGACGACGAAGATGACGACTCATTGCCAGACGGGATCGAAGGTCAGCTGTCACAAATGGATGACGACGACCTTGATGACGATGTGGACGAAGGATAG
>SRR1919932_01576 hypothetical protein
ATGAGCAAGATTAAGATCGATTTGACGAGCAAGATTACCCAGGGCGAGCAAACGGAAACCATCCGCCAGCAGGCAGAAGGCGAATTGCGGGAAGACGGCGCGGTGAAAAGAATTTTTTATGAGGCGGAAAAGGTGCCGGTCAAGATGCTCGTAAAAGAGCAGGAGCTCTTAATCCGGCGGGGGACTGACCACAGCAACTTCTCCCAAATGCATTTTATTTTAGGCGAGAAGGGGCAGTGCAAGTACGTGGTTGAGGGCCGGCAGCTGGATCTCTTGTCGGAAACCAAGCGCCTGGAATTGAAAGAAAATGCCGCTGGTCAGCAACTTGAAGTTGAATATGACCTCTTTAGTGGTGTAGACTTAATTGGTAGTTATGCCGTCTCGTTGATTTTTGCTTAA
>SRR1919932_01577 HD superfamily phosphohydrolase
TTGACAAAATTCGACAGTCCTAAACTGGCCCGCGAAGTCGTCGTCCGTGACCCGGTCCACGGCTATATCCACCTGGACACCCAAGTGGCCCTGGAAGTCGTCCGCTCGCAAGAATTCCAGCGGATGCGGCGGATCAAGCAGCTGGGCCCGACGGCCTTCGTCTTCCCCGGCGCCACCCACACCCGCTTTGAGCACAACCTGGGCGTCTACGAACTGGCCCGACGGATCAGCAACCTTTTTACTGACAAATACCCTAGTCAAAGTACCGGCGACGGACTCTGGGACCCCAGCGAAAACCTGCTGGTGCAGATGGCCGGCCTTTTGCATGACATCGGCCATGGCCCATACTCGCACACCTTTGAGCACCTTTTCGGCACCAACCATGAGCAGATCGGCCAGCAGATCATTCTGGATCCTTCCACTGAGGTCAACCAGGCTTTGAGCAAGGTCGACCCGGACTTCCCAAAGGCGGTGGCCAGCGTGATCGCCAAGACCTACCCTAATCCCCAGGTGGTCAAGCTCATCTCCAGCCAGGCTGACGCCGACCGGATGGACTACCTTTTGCGGGATGCCTACTTCACGGGGGCTTCTTATGGGGAATTCGACCTGTCCCGGATCTTGCGGGTCATCCGCCCTTATGAAAAAGGGGTTTGCTTTACGGCTAACGGGATGCACGCCGTTGAAGACTATATCGTCTCCCGCTACCAGATGTACCAGCAGATCTACTACCACCGGGTCAACCGGTCCATGGAGGTCATCCTTCACCACCTTTTGAAGCGGGCCCAGTACCTCTACCAGGAAAAAGAACTGCCGGTTACGCCAAGTTTAGCCAGATTTTTGGCCGGGACCTGGGACTTGCAAGACTACTTGAAGATGGATGACGGGGTCATGGAGACCAACTTCAGCATGTGGACTGAGTCCAGCGACCCGGTTTTAGCGGACCTAACCAAGCGCTACCTCTTCCGGCGGCCTTTAGCCAGCGCGAAGATCAACGAAGAAAGCAAGCAGCTTTTGCCGCAATTAAAGGACTTGATCAAGAAGGCCGGCTTTGACCCGGACTACTATACCGGAGTAGGGTCAGCCTTTGACGAGCCATATGACGCTTATAAGCCAAGTGGCAAGAACGCCAACAGCCAGATCGAGATCATGCAGGAAGACGGCAGCTTGATTGAGTTGTCCCAGCTCAGCCCCCTGGTCAAGGCCTTAAACGGAACCCTGCAGGGCGATGAGCGCTTCTTCTTCCCGGTTGCCATGCTCAAGCAGGCAGATTTTCAGCAGTACCTGAAAAACGGGGAATTGCTTACGAAAAAATAA
>SRR1919932_01578 ribose-phosphate pyrophosphokinase
ATGTCTTACAAGGACAACATCAAGCTTTTTGCGCTTAACTCAAACAAACCGTTGGCAGAAAAGATCGCTAAGCAGATGGGGTTAAAGCTTTCAACCTCAAGCGTCGTTCGCTTCAGCGACGGTGAAATTCAAGTCGACATCGACGATTCTGTCCGTGGCAAGGACGTCTTCTTGATCCAATCCACCAGCGCGCCGGTCAACGACAACCTTATGGAACTTTTGATCATGATCGACGCTGTCCGCCGGGCCAGTGCCGCTTCCGTAAACATCGTCCTGCCTTACTACGGCTACGCTCGTCAAGACCGGAAGACCCGGGCCAGAGAACCAATCACTGCTAAACTGGTCGCAGACATGATTCAAGCTGCCGGGGCTGACCGCGTCCTCTCACTGGACCTGCACGCTCCGCAAATCCAAGGTTTCTTCGACATCCCTGTCGACAACTTGATGGGCGCTCCTTTATTGGCTGACTACTTCCTGAGCAACCACCTGGAAGAAGACGCTGTTGTCGTTTCTCCAGACCACGGTGGCGTTACCCGGGCAAGAAAATTAGCTGAATTCCTGGGCACTTCAATCGCCATCGTCGACAAGCGCCGACCAAAGGCCAACGTTGCCGAAGTCATGAACATCATCGGTGACGTCAAGGGCAAGCGGGCCATCTTGATTGACGACATGATCGACACTGCCGGCACTATCACCCTGGCTGCCCAGGCCTTGAAGGACGCCGGTGCTACCGAAGTTTACGCCTGCGCGACCCACGCCGTTTTGTCCGGCCCAGCCGTAGACCGCTTGAACAATTCCGTAATCAAGAGCCTGGTCTTGACCGACTCAATCCAACAGCCAGCCGAAAAGAACCTCGACAAGATGATTCTCGTTTCCGTTGGGCCTTTGATGGGTGACGCTATCAAGCTGATCATGGAACACAAGGCAATGAGTCCGCTCTTTGACACTCGTTACGACGCTAACAAGTACAAGGACAAGTAA
>SRR1919932_01579 transcriptional regulator
TTGGCCCTGCTCAGCAAGAATGAGGGGATGAAGCAGGTGGAACTGGCCCGCTTTGCCAGAGTAAGGCCATCCTCAATCAGTGAAGTCGTGGACCGTTTGGAGCGGCATGGCTTGATTGAACGGCGCCGGGATAACAGCGACCACCGGGCTTTCCGCCTCTACTTGACTGAAAAGGGCAGAGAGCAAAACAAACGCAACCACTCCAGCTGGCTGGGCTTTGTTGGCGACTTGATGAGTCCTTTAAGTGACGATGAAAAGGCGGAATACCTGAACATCTTGAAGAAACTGGACAAACAGGCATTATTCTTAGAAGAACGCATGGAAGAAGATGCCAAAAAAGAGGGTATCTTGCAGTAG
>SRR1919932_01580 haloacid dehalogenase
ATGGAAGAAAAGAAAAAAATCAAATTAATCGCGACTGACATGGATGGCACCCTGGTCAATGACGCCAAAGAGGTGCCCGCTTCATTTGCCCCTTGGGTCTTAAGCCACCCGGACCAGCAGATGGTGATCGCCAGTGGTCGGCCATATTACACCAATGAAGAGCTTTTCAAGGAGATCAAAGACCACTTGATCTTCATTGGCGACAATGGCGGCTTGATCTACCAGCAGGGGCAAGTCTTGGCCAAGGCCGGCATTACAGCGGAAGAAGCAAAATTCTGCTTGGACCTCTTTAAAGATGAGCCCCTGGCCAATCCGATTCTCTGCGGGGCCAGCCAGGCAATCTGCCACGACCCTAAAGGTGACCGGAACTTTTTAAAGCAGCTGGATACTTACTATATCAAGCGCCGCTATGTTGAAGACCTTGAAGCTGAAGTAAACAGCGATGAAATTATCAAATTCACTGTTTATATCGAAGGCGGGGCCGCTGAAAGCATCTACCGGCAACTGCCGGAAATGCCGGGCAACTTAAGCGCAGTTTTGGCCGGGCCGGAATGGATCGACATCGTTAACAAGGACGCCAATAAGGGAGCAGCGGTAAAGAAGATCGCTGACCTTAAAGGAATCAAGCAAGATGAAATTCTGGCTTTTGGCGACTACTTAAATGACCTGACCATGTTAGAAGCGGCCGGGACCAGCTACGCCATGGTCAACGGCCACCCGGACTTGAAAAAGATCGCTGACCACATTGCCCCAAGCAACAATGATGAAGGAGTAATGCAAATCCTCCAGGTATACTAG
>SRR1919932_01581 hypothetical protein
ATGTACAGCTACATCCTGAAAGAACAAATTAAGATCTACCGCTACTTGACGGTTGACGCGGTCAACGCCGCTTTGGCGGACTTGCGGCAAAAAGGCATCAGCCTGGAACTGGAGAGCACGGTCGGGACGGCAGGCAACTTCGTGACCCAAAACGACGGGGTGGTGGACCTGGACTACCAGTTAAAGCTGGTCAAGGCGGCCGAAGAAGATCCGGCGGCCCTTCTGACTAAAATCAGCGCCGGCTTAACTGCCGGTCTGGCCAGCAAGTTCGAAGGCGGCCGGGAAAACAGCCAGGCTTTAACCTTCCTGCACCGGGCTAAGAAGAGCGGCAAGGTCAACTTTAAGTTAGACTTGACCATCATCAAGGAAGAAGACGGGGATGAATACCGCCTGGTCAAAACTGACGGTGGCAAGTGGAGTGAAGCCTTTAATACCCGCTTTTTGACCATCCAGGAAGAAACGATTAAGGACTGGGACCAGTGGGAAGACTTGCGCGAGGATTATCTTCGCCTTAAGAACGCAGATCCGGCTGGTCTGTCAGTTGACCTCTACCGGCAGGCAGTCAACCAGATCTACGGTTAA
>SRR1919932_01582 GGDEF family protein
TTGACCGGCCTGTATAACCGACTGGCCTTGCGGGAAGACTTCCCCAACTACAGCAAGCAGGAGGTTGGCGTGGCCATGATTGATTTAGACGACTTCAAGCGCTTTAATGACAATTACGGCCATGCATACGGGGACCTGGTCTTGACTAGACTGGGCCGGTATTTGCAAAAGGACTGGATGAATGAGCATTTGCGCTGCTACCGCTATGGCGGGGATGAAATCTTGATTATTGCTTATGGCTTAGAAGATGGTGATTTTGTTAAAAAATTGCAGATTTTTCAAGCTGAATATGCTAAACTAAACCAGCAATTAGAAGAGCCAGCCACCTTGAGCATCGGCTATGCTACCGGCGCGGTTGCCAATGAAGAAGAGTTGCGGAAAATGATTCAGCTGGTTGATAACTATCTTTACCAAGCCAAAAGACAAGGCAAGAACCAGGTGGTTGGCGCAGAGAAGAAATGA
>SRR1919932_01583 GGDEF family protein
ATGAAAGAGAAAGGAAATAAAAAAACTGTTCATGGCCTCAGCTGGCAATTTGCCGATGAAAAAGAAGCAGTTTACGCTGACTACCTGGCTTCAGAGGCGTTTGCCAGGGAAGTAGCCAGCAATAATTTAACCATGGGAATTGCCGTTTCCAGTTTGATCGCGGTCATTGGCTTTTTAGGCATATTTGACCTCAATTCAGATTATGCAAATATCTCGGTGCTTCCAGTAATTGCCAGTGAATGGGTCTATCTTTTCCTGCTATTAGCCAACCTGCCCAACCTGTTTTTGCCCCTTTGGCTGCAAAAACACCCGCAGGCTGCCGAGCTTGAAATCCGGATCTGCTTTGCCAACCTGGCGGTCAATGCCATCTTGTCTGGTTTTACCTTGTACACTACCCAGGAGGGGAGCAACTACTTTTTTGAACTGGTCTTGATGATGATGGTCATCTGCGTCTTTCCCTACTATAAAGCCGGGTATGGCTTATCTTTAGTGGCTTTGAGCCTACTCATGATCTCAGCAATCATTCTTGTCAACCATGTCCAGGTTGCCTGGCAGGATGCCTATGACCTCTTCCTCTTTTACGTTATCGGCCAGGCCTGTATTGTCCTGCGCCGGTACTGGTTTAGGCAGAGCTCTTGGTACAATTACATCCTGCACCAGGCCAACGGGACGCTTTTTGTCGCAGCCGGACCGATGAATTGA
>SRR1919932_01584 hypothetical protein
TTGATCAAGATTGAAATTACGGAGAGGGACCTGTCAAACAACACTAGCCGCTTGAAAGAGCAGATCGATCAGCTGCGCTCCTACGGCTTTGAAGTTTGGATGGATGACTTCGGCAGCGGCTATTCCTCTCTCAACGCCTTAAACGACTATAGCTTTGACCTGGTCAAAATCGACATGGTCTTTGTCCGCCACCTGGATGACGGACAGTTAAACCGGCTTTTGATTCCGGAAATCGCCAAAGTTGCCCATAAACTGGGTTTGAAAGTACTGGCTTAA
>SRR1919932_01585 energy-coupling factor transporter substrate-binding protein
ATGGATTCTAAAGAAATCAGTTCTAAAAACAAGACCAGCTTCTGGTCCTTCAAGCTTTCCGCCCACGCCATGACCCTAATTCCGGCCGCCGTCGGGATCAACTATGTTGCCAAGGCCTTTGCTGAAGGGTTGAAATTGCCGGTCTGGCTGGGGTCACTTGGGACTTTCCTGGCCAGCATGCTGGCTGGTCCTGTTGCCGGGGCCATCAGCGGCTTTATCAACAATGTCATCTACGGTTTGACCCTGTCACCTGTTTCCACCGTTTACGCTTTGACCAGCATCGGGATCGGCCTGGCAGTTGCCTGGCTGAACCAGCGGGGCTTTTTCAAGCGGCCGGTTACCGTCTTGCCAGCAGCTATTTTGATTGCCCTGGTTTCCGCCGTGATCTCCACCCCGCTCAACGTCATTTTCTGGAGCGGACAGACCGGGATCGCTTGGGGGGATGCCCTCTTTGCCTCCCTGGTTGCCAAGCACGTGAACATCTGGATTGCTTCATTCCTTGATGAATTTGTTCTTGACCTTTTGGACAAGACGGTCGTCGCCTACCTGGCCTTTTTGATCTACAAGCAGCTGCCAAAGCGCCTGGTCTACTTTTTCAAGGGGACTGAAAAATGA
>SRR1919932_01586 energy-coupling factor transporter transmembrane protein
ATGAGAAATAACACGGAAGACCTGGCCCTGCCCGCCTGGCAGGCAGCCATTGACCCCATCAGCAAGCTGCTCTTGATCCTGCTCTTTACGCTCGCTGCTTTCGCCGCCGGCAATCTGCCCAGTGCGCTGATCATCCTCGCTGCCAGCTTTATCCTGGCCCTTCTGACCAAAAATCTCCATACCCTTTGGGGAATGTGTGCCTTCAGCCTCTTCCTCATCCTGACCATGCTCTTGATCCAGGGGCTCTTTTGGCCGGGCAACCATACCGCCGCCTTTTCCGTTGCCTCTTTGACCTTTTACCAGGAAGGACTGGACCACGCGGCTCTCTTAGCCTGCCGGATTTTGACCATTATTTTTTCCAGCAGCTTTTTCATCCAGACAACCACCATTTCAGAAAATGCCCGCTACCTGGAAAATTCCGGTTTGTCCTACCAGCAGGTCTACGTCCTCATGTCGGTCTGCTATATCCTGCCGCAGATGCAGGAAAACCTGCGCAAGATCCAGCTGGCCCAGAAGGCCCGGGGGATCGCACCAGCCAAGTCCCTGCTCTCCCGGATCAAAAATCTCTTTCCCGTCCTTTTGCCCTTGATCGTCAAGAGCTTCCAGCAGGCCATGAACCGGTCGATCGCCCTGCAGCTGCGGGGCTATGCCAGCCCTAAGCGGCGGGCGGCCTGCTTGACAAATGACTACTGGAAAGACAAATTCTGCCACCGCCTACTCATTGCCAGCTGCCTGGTCCTTTTAGGAGTAAAAGCATGTCTAACAATTTTCAACTGA
>SRR1919932_01587 energy-coupling factor transporter ATP-binding protein
ATGTCTAACAATTTTCAACTGACCATCAGCCAGCTCAGCCTCCGCTACCTGGGCTTTGAAAATCTAGCTTTAGAAAATATTTCTGCCCAAAGCCGTGGTAAGCGGATCGGCATTATCGGGCCCAGCCATGCCGGCAAAAGCAGCCTTTTGGCCCTTTTAGCCGGAATTGCAGGAAAAATGATTCCCGCCAAGTTTTTCGGTTCAGTCCAGATCAACGGAGAAGAGCTAGAAGCTTGGCGAAGCCAGCATGAAATTGCCCTCCTTTTGCAAGACCCGGCCAGTCAGCTGTCTGGTTTAGCCGACACCGTTTATGATGAATTAGCCTTTTCCCTGCTCAACCAGGGCAAAAGCGATGAGGAAATAGAAAGTGCAGTTAAACGGGCAACTGACCAGCTGGACTTGACCAATTTGCTGGACCAGTCGCCAAACGAGCTGTCTGGCGGCCAGACCCAGCGGGTAGCCATTGCCACTGCCCTGGTCACTGAGCCCGACCTGCTTTTGCTCGACGACCCGACCAGCCAGATGGATCCCTTGAGCCGCCAGCACTTTTTCAGCTGGCTGGAAAAGCTTTCCTGTCCATTCTTGCTCATCTCCAATGAACTGGATGACTTAGCTGCCCTCTGCGACCAAATCTGGGTCATAAAAGACGGCTGCCTCTTGATGGCGGACTCTCCGCAAACGGTCTTCAACCAGCTGGATGACCCGGCTTTCGACAAGCCTGCTGCCTGGAAAATGGCCAAAAAGCTGGAGCTTAAACTCGATGGCTGCTACCCGGTCAATGCCCGTGAACTAAAGGAAGCTGCCGAAAATGCAAATTAA
>SRR1919932_01588 energy-coupling factor transporter ATP-binding protein
ATGCAAATTAAGATTAAAAGCCTTCATTATAAATACTCGGAAACGAATTTTTCCCTGGACATCCCGGACTTGACTCTTTCTCCCGGCTTGATCTGCCTGGTCGGACAAAACGGGTCCGGCAAATCCACTCTCTTGAAACTTTTGGCTGACCTCCTGCCATCTGGGGATGCCATTAAAGCGGACGGCCAGGCTTTGTCTGAATATCTGGCCTCCGGCCGCTTGAGCAAGATCGCCTATGCCTTTCAGGATCCCAATGACCAACTTTTTAACTCCAGCGTGGAAAAAGAACTGGCCTGGTCCATGAAGCAGGCTAAACTGCCGGAAGACGAAATCGCCAGAAGAACGGAAGCCGCCCTTAAAGAATTCGGCCTGGCAGAATTACGGGACTTAAACCCTTACGACCTGTCTCTTTCCGGAAAGAAATTATTGACTATCGCCTCCGCCTTAGTCCTTGACCCGGAGGTCTGCCTGCTGGACGAGCCCTTGATGAGCCTGGATTATCCTGGCCGCTGCCTGGTCACCCGCCTGCTTGAAAAACGGCTGGCCCAGGGCAAGACCGTGATCATGATCACCCACGACATGGACTGGCTGGCCGAAAATTGCCAGGAGGTTTATGCCATGAGCCAGGGCCAGCTGGTCTACCACGGCCCGGTTCACCAGCTCTTTAGTGACCAGGAGCTTTTGGACCGCCTGGGCCTTTTGCCGGCCAAGACCTGGCAGCTCAGCCAGCTGCTGGGGCTTAAGCCGGAGGTCCTTTCGTTAAAATAA
>SRR1919932_01589 C4-dicarboxylate anaerobic carrier
ATGGGCCTGATTGCCCTGGGCGGGACTACTTTTGGCCTGGCCGAAGAAACCATGGCCTTCTACCCGATGCTGATCCCGATCTTCTTGGAGGTCGGCTATGACACGATGACCGTGGTCGCCACCATCTTCCTGGGCACCACTTTAGGGACTTTGGGTTCAACCATCAACCCCTTCTCAACGGTTATTGCTTCAAACACGGCCGGGGTCAACTTCGCCCGGGCCCTGCCTTTGAGAATCATCATGCTCCTGGTTTCCCTGGGGGCCGGGATGCTCTACACCATCATCTATGCTGAAAAAGTCCGCAAGGACCCAAGCAAGTCCCTAGTCTACGACCAATATGAAGAAAGCAAGAAGAAGTTTCTTGCTTTTGACTCACAAGCTGACAAGGGCGACTTCACCTGGCGGCAAAAACTGACTCTGCTCACCTTCGTGGCTGGCTTTTTAGTCATGATCTGGGGTGTCCAGAACCGGGGCTGGTACTTCACGGAAATCGCGGTTGTCTTCTTGGCCGTTTCCTACCTTCTCTTCCTGGTTTCCGGCTTAAGTGAACACCGCTTCATGGAAAGCTTTGTCAGCGGCGCGGCTGACCTTTTAGGGGTTGCCTTGACGGTCGGCCTGGCCCGGGCGGTCTCCATCGTGATGGATGAAAGCCACACCAGCGACACGATCATGTACTTCTTCAGCAAGCAGATCACCGGCATGAACAAGCTGGCTTTCGTCTGGGTCCTCTTCTTGATCTACATCGTCCTCGGCTTCTTCATCCAGTCATCATCTGGTCTGGCCGTCCTGTCCATGCCGATCATGGCGCCGCTGGCCAATATCGTCGGCGTCGACCGGGCCAGCGTGATCGATGCCTATAACTGGGGGCAGGGCTACATCGGCTTGATCGCCCCAGTTGGCCTGATCTTGATGTCCCTGGCTATGGTCAATATCGGCTTTGACCGCTGGTTTAAGTTTATATGGAAGCAACTGGTCATCCAGTTCGTGATCTGCCTGATCTTCCTGGGAATAGGCCTCCTGGTCTACTAA
>SRR1919932_01590 NUDIX family hydrolase
ATGGAAATTCTTGATATTGTGGATAAAGAGGGCCGGCCCACCGGGCAGACCATTGAGCGGAATGAAGCCCACCGGATTGGGGCCTGGCACCGCTGCGCCTCAGTTTGA
>SRR1919932_01591 NUDIX family hydrolase
GTGCATGTCTACTCTAAGCCCGTAGACGAAAATAAATTAGTCCTGCAGGAAGAAGAAGTTTCAGCCGTTGCCTGGTTTGACCTTGATGAGGTCTGGGAGAAGGCCCAGGCCAAAGACCCGGACTTCTGCACCCCAGTGGGCGGATTAAAGCTTTTGCGGGAATACCTGCAAAAATTATAG
>SRR1919932_01592 hypothetical protein
ATGAGGAAAATCAGCAAATTTTTGAGTATTGTGGCCCTGGGCCTGTTAGTCGGGGGATGCAGCCAGGGGCAAAAGGCCAAGCAGACTAAGACGAAAACTGAGACCAAGACCAGCCAGAAGGCAAGCGGGAAAAAGGTTGGCATCAGCATTTGGCGGATGGAATAA
>SRR1919932_01593 NUDIX family hydrolase
ATGCAAGAACCTAAAATTTCACCTGACCAGAGCAAAACCCTGGCCGCTACCAAATATGTCAAACTCTACGACCTGGCATATGAAAACGGGGTCCACTACTATGATGCTTCAAGGCGGGACAAAGACCAGCTCTTTGCCTTCAAGCAGGATCCAGAGCTGGGAAGCGCCCTGCCTGATGCCGTCTGCGCGGTAATCATCGTTAAGGAAGCCGGTCAGAAAGACAAGCTCCTGCTCTTTTACGAGTACCGGTACCCGGCTGGCAGCTACCTGCTCGGCCTGCCGGCCGGCTTGATTGACCCAGCTGACCTGGCCAGCCCGGACCCAATCAAAACAGCTATGATCCGTGAAATCAAGGAAGAAACCGGACTCAGCATCGGCGAAAAGGACACGGTTGAAGTCATCAACCCCCTGGTCTTCACGGCTTCCGGCTTCAGCGACGAAAGCAACGCCATTGTCAAAGTCGTCATCCACGTTGATGACTTGTCCGCCCTTAACCACAAAGGAGCTGAAGGCACCGAAGTTTTTGGCGACTTCAAATTAGTTGACAAGGAAGAGGCCCGCCGCCTGCTCAAGGAAGGCAGAGACGACTATGGCCACTACCTGCCTCTGGTTGCCTGGGCAGCCCTGTGCTACTTTGTCAGTGACCTCTGGAAATAA
>SRR1919932_01594 hypothetical protein
ATGGCACGGTACGTCTTTTGCAAGCCGGACAAGCCCAAATTGACCTACTGGGGCATTATTGCTTTTATTGTGCTGGGGATCATCACCACGGCATACTTAGGCTTGACGGCATAG
>SRR1919932_01595 glycerol-3-phosphate cytidylyltransferase
ATGAAACGCGTTATTACATATGGAACATTTGATTTACTCCATTACGGCCATATCAATCTCCTGCGCAGGTCTAAAGCCTTGGGTGACTATTTAATCGTTGCTTTGTCGACAGATGAATTCAATTGGAAGTCCAAGCATAAGAAAACATATTTTTCTTATGAAGAGCGCAAACAGCTCTTGGAAGCCATTCGTTATGTTGATTTGGTAATTCCTGAAAAAGACTGGGATCAAAAACGCAGTGACATGCATGAGTACCATATTGATACTTTTGTTATGGGAGATGACTGGAAGGGAAAGTTTGACTTCTTAAAAGAAGAGGGGGTCGACGTGGTCTATTTACCGCGAACACCTGAAATCAGCTCCTCTAAGATTAAGCAAGATCTTTATGATGCCAATACGGTTACAGGAGAAAGTTGCTTGTTCCATGATGATTTGGATGTTGAGAGCAAAAGTTAA
>SRR1919932_01596 hypothetical protein
ATGGCTTATCTGATTGCGATTTCGATGTCGCTCCTTGTGGCTGCTTTTGTGCCACGACTAATTGAAGAAAACCGACATAGAACTTTTTTACTGGTTAAGCAGCCTTGGTACAAAGATACCAAGAAATGGCAGCTAATTGGACTTGTTTCTTTATCTGCCCTACCCATCTTGCTGATTTCTTGTTTTCGTTATGGAGTGGGAACTGACTATTTTCATACGTATGTCCCTCAGTTTCTATCAATTGTAAATGGTAGTTACACTCATTATTATGAACCTGGTTTTTATTTACTGAATCTGCTAGTCGCTAGTTTAACCAGTGATCCACAGTGGTTAATTGCTCTTTGTGCGCTTCTAACCCTAGGACTGGTATATGTAGTAACAGTTTTTTTATCAGATAATTATTTTATGTCGATCTTGCTGTTCTACTTGACTTATACCTACTTTGTTTCGATCAACAATATTAGACAAGCTTTAGCTTCAGCAATCTTGTTACCAGCTTTATATTTCTTAGTTCGTAAGAAGAAAATTGCTTTTGTTTTATTGACGATTCTAGCAGGGACCATGCACCAAAGTGCCTACTATTTCTTGATTATGGCGGTTCTGGATCTACTACCTCTGTCACAGCTCAGCTATCTGTTGATTAACTTAGGTTTTTACATTTTTATTAAGCTTTTAGGCAAGCGAATTTTAGCCTTATTAGCCTTACTCATTCCGCGAGTACAGATGTATCTAAATCAAGGAGTATATCTGGGTAAGACAATCGGTAAACTTTATTTGGGAGTACAAATTGCTATCTCACTAATTTACCTTTATCTAGAATACCAGCAGCGTTTTAACAGGGATTTGACGCAGTTTTCCTATAACAAGTCTTCCTTTAAGAGCCAATTGGTTGGCATGTTACAACTTGATGATCGCCAAAAACTAGGAAATTCAGCTGAAGAATGGACAATTGCCAAGCTTTTGCAATGGATGGTTTTGATTGTATGTGCTATGGATGGAATTTTGCCAGCTACGTACCGGGTAGTTAGAATCTTTACTTATGCCCAGTTCATCTTTATCCCAAATGCAATCAGTAAATTCGAAAGAGATGACAAACGTCGCTTGATCTTGTATATTTTAGTTATTGTGATCTTTGGTATACTCTTTGTCCATGACTTTGCTATGGGCTTTGAGCAAGTCTACCCTTACAAGTCAATTTTTAACCACTAA
>SRR1919932_01597 lipopolysaccharide biosynthesis glycosyltransferase
ATGATCTACATTATTACCCATAAAAGAGTCAAGCTACCCAAGCTAGACAAATATCTTCCTTTGCAAGTGGGGAGTAGTTTGCATGAACACCTGGACTACTTGACTGATGATACAGGAGATAATATTTCTGAAAAAAATCCTAACTATTGTGAATTGACAGGACTATATTGGATCTGGAAAAATACAAAAGATGATTATAAGGGATTAGTACATTATCGTCGTTATTTTGGCAAAAGTGATTTCTCTTCTAGTTTTGAGCAGATATATAGTTATGATGAGCTTAAAGGCTTTTTACAGGACCATGATTTGGTGACTTCATATGTCGCTAACTTTAAGCAGAATGCTCATGATGAAATTATGATTCATTGTTGTACTGAAGAAATTTTTGGTAAGTTGCGAGCCAGCGTGGCCAAATGCAGTCCCGAATACTTATCTGATTTTGATAAATTCTTTAATCAAAACAAGGCAGTTTTATTTAATATGATGTTTTGCAGAGGGGACTTATTTGATGAATATTGTCAGTGGTTGTTTACCATCCTCTTTAACCTAGAGCCACAGGTTGATTTAAGTAGTTTGAATGCATATCAGCAAAGATTATATGGCTTCTTGTCAGAGCGGTTGTTAAATATTTGGATCTTGCATAAGGAATTGAAGGTTAAGCACTTACCGATCGTTAATACCGAAATGCCAATGAAGGGAAAAATTGCTAATTACCGCCGCCGGATCACCAACCAGATCTTTTACACTTTGAAAAAATAA
>SRR1919932_01598 glycosyl transferase
ATGACTAAGAGAATCTTAGAAGTTAACGTTGATGACAATGGTTACAGCGGAGTGTATTCTCTAATTAAACGAGTAATTGAAAATAAGCCGGCCAATTATCAGATTGACTTAGCCTGCCTAGAGCCATTTGAATCACAGCAAAATATTGATTATTTAAACAAGCTAGGGACTCAGGTCTATTACATTGGTTACCCTGGTAATAAAATCAAGAAGCAGCTTAAGTACTATGAGAAATTACAAAAGGTTGTAAAAGATGGTAATTATGACTATGTTCATATCCATGGGGATGTAGCAAATAAACTCTACGTAACGGCTTTGGCTGCACGTAAGGCTGATAGTGGGGTTAAAATAATCTTGCAGTCACATGCCAGTGATGTGGATGGCTCTCATCGTCAGCTTAAGCGCTTTATTCATAAAAGCTTGAGAGGGAAGCTAGTCAAATTGGCTGACTGTTATGTGTCAGTTTCCGATTTAGCCTCTAATTGGATGTTCCCAAGTATACCTAAGTCACAGGTGATTAAGATTATGAATGGGGTTGACTTAGCCGCCTTTCGTTATGATCCTATTATTAGAAAAAGGATACGAAAAGAGTTAGGTTTATCTCGCAAACATGTACTAGGCCATATTGGTCGTTTTGCTTACCAGAAGAATCACCAATACTTGATTCAAGTTTTTGCAAAAGTCTATGCTCAAGATCCACAAGCTCGCTTGCTTTTGGTAGGAAAAGGTGATTTGCAAGATGAATGTAAACACCAGGTGCATGACTTGGGACTGGATAAGCAAGTAATTTTTTACGGCTTAAGTTCCAATACTAGTGAGCTTTTTCAAGCGATGGATGTATTTTTGCTGCCATCTCATTTTGAAGGCTTGCCAATTGTCGGGGTTGAAGCACAAGCAGCTGGTTTGCCAGTAATTTTCTCTGATCAAATCACTAGTGAGGCTAAAATGACTAACAATGCTTCTTTCTTGCCAATTGATGAAACAAGCTTGTCAGCTTGGCAAAGTCAAGTGATCAAGGATCTGGAATTAGGGCATCGTGACAACTATGACCTATTATCCCGTCAAAAATTGGATATTACAGATACAGTGGCTGCTTTCATGAAGCTATATAATTCGTAA
>SRR1919932_01599 glycosyltransferase
TTGAAATCTGTGGCTGCCGTAGTTGTAACTTATAATCGAAAAGAACTACTAAAAGAAGCAATTGATGCCTTGTTGATGCAAAGTGTAGCTGAGGCAGATGTATTAGTCGTTGATAATGCAAGTACGGATGGGACTAAGGACTATATTGCTGACTACATTGATCAAGGGCAAATCATTTATATTAATACCGGCGAGAATTTAGGAGGTGCCGGTGGGTTTAATTTTGGAATGCGCAAAGCTTGTGAGGCTGGTTACAAGTATGTCTGGATTATGGATGATGATGCGATCGTCAAAAGGGATGCTTTAAAAGAGTTGCTAAAGGCAGATCAGCTGCTTAAGGGAAACTATGGCTATTTATCTAGTACGGTCTTTTGGACTGATGGCCAGCCTTGTGTTATGAACCGTCCGAAATTGGTCAAGGACTGGACTAGTGATCTGGGTTATCTGTCTGCTGGCTTGGTAAGAACGTACTACTCAACTTTTGTATCATTTTTTGTTAAAACTGCAACGGTTAAGGAACTTGGCCTGCCAATTAAAGACTTCTTTATTTGGGGGGATGATGTTGAGTATTCCAACCGCCTTTCAAAAAAATATCCTTGTTATGTAGTTGGTAAGAGTCAAGTAATCCATAAGACTAGGGATAATAATGGGTCTAATATCGCTAAGGAACAGGGTGATCGGATCGGTCGTTATAAGTTTGCCTATCGTAATGAGTGCGTGATAGCTAGAGAAAATGGAATGAAGGGTCGACTTAGACAGTTCGCCAAGGTCAACTACAATATGTTGCGAGTTATTTTTACTCATAATCCACATAAGCTCAAAAAACTGGGGATAATCTTAGGGGGTTCAGTTGAGGGCATTTTCTTCAGACCAGAAATTGAATATATTGAGGAGCAGCATGACTAA
>SRR1919932_01600 flippase
GTGCGTGTTGTTAAGAATTACCTTTACAATGTCGGCTACCAGGTTTTAGCCATCATCGTCCCGCTGATCACTTCCTACTACGTCAGCCGGGTACTGAGTCCGGAAGGGGTTGGGGCCAACGCCTTTACCAACTCCATCATCCAGTACTTCATGTTGCTGGCTAATATTGGGATCGGCTACTACGGGAACCGGGAAATTGCATATGTTAGAGAAAATCGTCAAGCTATGGCGAAAACTTTTTGGGAGATCCAAATTGTTAAAACCATCATGACGATTTTGTCATATCTGGCTTTTATTACTTTTATGTTCTTTTACCAAGGAAACCAGCTATATATGTGGGCCCAGTCGATCAACTTGATCGCGGTTGCTTTTGACATTTCTTGGTTATATGAAGGAATTGAGGATTTCCGGCGAACGGTTTTGAGAAATACCTTTGTTAAAATCGTTTCGATGGTCGCTATTTTTGTTTTTATTAAGAGTTCAAGTGATGTTGCCTTATACATTGCAATCTTAGCAATTTCAACTTTTCTAGGCAACCTGACCCTATGGCCACATACATTTAAGATGTTGCCTGGTGTTAACCTGGCCAGCTTAAGGCCCCTAAGGCATTTTAAGCCAACAATTGCTATGTTTATCCCACAAATCGCGATCCAGCTCTATGTTCAACTGAACCGAACCATGCTGGGCCTAATGGTTGACCAGAAGGCCTCGGGTTTTTACCAATATTCAGACAACCTGGTTAAGCTGATTTTGGCCTTTGTTACAGCAACTGGGACAGTCATGCTGCCACACGTGGCCAATGCTTTTGCCAAGCACGATATGAAAAAAGTCCATGAGATGCTCTACAAGTCTTTTGATTTCGTATCCGCCTTGGCCTACCCAATGATGTTTGGAATTGCTGGCGTATCGCTAACTTTAGCGCCATTGTATTATAGTGCCAAGTATGCTCCGGTTGGTCCAGCCATGCTGATCGAATCAATCGTTATTTTGATGATCGGCTGGTCCAATGTTATTGGAACGCAGTACTTGCTCCCAGTTAACCGGGTCAAGGACTTTACGACTTCCGTAACTATCGGGGCTGTAATCAATATTATCTTGAACTTTCCTTTTATCAGTCTCTGGGGATTAAATGGGGCGATGTGGGCAACCGTTTTGTCGGAAGTGGCTGTGACGGGCTACCAGCTCTATGTCGTTAGAAAGGACTTGGATCTAAGCTTAATGTTCCAAAGTTCATGGAAATACTTATTGGCCAGTGGGGTAATGTTTGTTGCGGTCTTTGGGATGAATACACACTTGAAGGCTAGCTGGCTTTGGTTGATTTGTGAAGTGGCTGTTGGTGTAGTAATTTATGCTGGGCTAGTATATTTTTTAAAGGCTCCAATTATTGATCAAGCCAAGAACTTAATTAGTAAAAAGTTGCAAAAATAA
>SRR1919932_01601 UDP-galactopyranose mutase
ATGAGCAAATATTTAGTAGTTGGTGCAGGTCTTTTTGGGGCTGTTTTTGCGCGCGAAGCAGCCAAGCGGGGGCACGAAGTTACGGTAATCGAAAAACGTGACCACGTCGCCGGCAATATCTACACCAAGGAAATTGACGGCATCCAGGTCCACCAGTATGGAGCCCACATCTTCCACACTTCCAACAAGGAAGTCTGGGAATATGTCCAGCAGTTCGCGGAATTCAACCGCTACACCAACAGCCCGGTAGCCAACTACAAGGGCAAGATGTACAACCTGCCTTTCAACATGAACACCTTTACTCAAATGTGGGGTGTCCGGACGCCGCAAGAAGCCATGGACAAGATCAACGAGCAGCGGGCTGAAATGGCGGGCAAGAACCCGCAAAACCTGGAAGAACAAGCTATTTCTTTGATCGGCCGCGACATTTATGAAAAGCTGATCAAGGGCTACACGGAAAAGCAGTGGGGCAGAAAGGCAACTGAACTGCCGGCCTTTATCATCAAGCGTGTCCCAGTTCGTTTGATTTATGACAACAACTATTTCAACGATGACTACCAAGGGATTCCTAAGGGCGGTTACACCAAGCTGGTGGAAAACATGCTTAAGCATGACAAGATCACGGTTGAACTGGACACTGACTTTTTTGCCAAGAAGGACGAGTACCTGCAAAAGTTCGACAGGGTAGTTTACACTGGCCCGATCGATGAATTCTTTGACTACAAGCTGGGTGAACTGGAATACCGGTCCCTCCGTTTTGAAACTGAAGAAAAGGACGTGGGTAACTACCAAGGCAATGCGGTGATCAACTACACCGACGCAGAAACGCCTTATACCCGCGTCATTGAACACAAGCACTTTGAATTTGGCAAGGGGGACCCGGACAAGACCATCATTACCCGGGAATATCCAGCTGACTGGCACAAGGGCGATGAACCTTACTACCCGGTCAACAATGACAGAAACAACGACCTGTACGCTCAGTACAAGGAAATGGCTGACAAAGAAGATGCCAAGGTCATCTTCGGCGGCCGCCTGGGTCAGTACAAGTACTACAACATGGACCAGGTCATCGCGGCTGCTTTGGAAGCTGTTAATGATGAATTCGGTAAGTAA
>SRR1919932_01602 glycosyltransferase
GTGAAAGTTAAAGTTTTAGTGGCAGCCCACAAGCAGTTCCCCATGCCGGCTGACCCGGTCTACATGCCGGTTTTGGTCGGGGCGGTAAAGAACTACAAAGCAGGCATTGCCTACCAACGAGATGACGAAGGAGACAACATCTCTGCCAGGAATCCTTATTACTCTGAACTAACCGGGGTTTACTGGGCCTGGAAGAACTTGAAAGACGTTGACGCAATTGGCCTGGTGCATTACCGCCGCTATTTTTATGTATCCAAGCCTCATGACCTGGATCACGTGGCTAAAGGAGTCGACTACGAGCATTTTTTGGCTGACCACGACGTGATCGTGCCGAAGAAGCGGAATTATTACATCGAAAGCAACTATGACCACTACATTCATGCCCATCCGGCAGAGCCTCTGGACAAGACCCGTGACATTATCGCGGATGCCTATCCAGACTATCTGCCGGCTTTTGACATGATGATGAAGCGGCGCAGTGCCCACATGTTCAATATGTTTGTCATGAAACGGCCAGCCTTTGAGTCTTATTGTGAGTTTGTTTTTGGCGTTTTGAGCAAGCTGGAAGGGCAAATCGATATTTCCGGCTACTCTGTCCAGGACCAGCGGGTCTATGGCTACATTTCCGAAAGACTGCTGGATGTTTGGCTCTACACGACCAAGCAGGACTTCGTTGAAATGCCTTGGGGGCAAATCGGCGGTGAAGCGGTAATCAAGAAGGGCTACAACCTGATCAAGCGCAAGCTTGGCATTGGCAAGAAGCAGACCCACTTTTAA
>SRR1919932_01603 sugar transferase
ATGACAGATAACAATGGTTTTGATGGAGAGACTAGGCTGGGAGCATATCGGTACGTGAAAAGATTCTTAGATATTGTCGGCAGTTTGCTGGCCTTAATCGTCTTTTCACCAGTCTTCTTAGTTTTGTCACTGCTGATCAAGAACCGGGATGGCGGATCCGCTTTTTTTGCCCAGGAAAGAATCGGTAAGGGCGGCAAGCCCTTCATGATGTACAAATTCAGATCGATGAGCATGGACGCTGAAGAAATTCTCAAAAGCAATCCAAAACTCTACCAAAAGTATGTTGACAATGACTACAAGCTGCTGGCTGATGAAGATCCGCGGATCACGCCGATCGGCCGCTGGATGCGGCGGACCTCAGTTGATGAATTGCCGCAGTTTCTCAATATTCTCAAGGGCGACATGAGCATCATCGGCCCGCGGCCGGTTGTTGAAAAGGAGTTAGCTGAATACGGCGACCGCAAAGACAAGTTTTTGTCAGTCAGACCCGGAGCCATGGGCCTTTGGCAGGCAACGGGCCGGAGCAACATCAGCTACCCGGAGCGCTGTGACGTGGAGCTGGAATATATCGACAATATCTCTTTTGCCTATGATGTCAAAATTTTCTTCCAGACAATTTTCAGCATCTTCAAAAAAGAAGGGGCTTATTAA
>SRR1919932_01604 hypothetical protein
ATGTTTGCCCGGGGCTCCCTGGTCGATGAGCTGCTGGTGCCAACAATGCTGAACATCTATCCGGAATTCAAAGACAGAATCTACTATGACCGGCCGGTTCACGACCGGCCTGAAGAATTCCAAGGCAGCCTCCGCTATATTAATTGGTGGGACGGAAGTCCTTACGTTTGGCGGGAGAAGGATTATGAGACTTTGCTGGCTGCCCGCCGGCAGGGCCACCTCTTTTCCAGGAAATTTGATGCTGAAGTAGATAAGGCGATCATCGATAAAATAGCTGGTCAATTATTGGAAATTAAGTAA
>SRR1919932_01605 hypothetical protein
ATGCAGAAACATGCCTACTTAATCATCGCCAACCGCAACCCGGGTCAGTTGCAGACCTTGCTGACCCTGCTTGATGACAGCCGTAACGATATTTATCTCTTGGTCGACAGAAAAAGCGTGGGCTATCCGCGTGACTTTCAGCTAAACTACGCCACGCTTTTCAGTGTCTCGCCCCTGATCATCGACTGGGGCAGTTATTCGCAAATTGAAGCCGAAATGCGGCTTTTCCAAGCAGCAGCTCCAGGCAAATATGCCTATTACCATCTGCTGTCTGGCTTGGACTTGCCGCTGGCTAATCAGGATGAGATTCATGCCTTTTTTGCCGCTCATCCTGGCAAAGAATTCATTACCTACAGTTCCCAGGAAAGCGGGGCACAGTTATTGGCCCGGGTGCAGAAATATCATTTCACCCATAACTTCCGGCAGCCAAACAAGGCCATGCGGCTTTTTAGAAAAATCGAAAAGGCAGAGCAGCGGGTCTTTCCAGTAAGGAAGAAATTTGCTAGATACTGGCCTTTGGTTCCAACTGGGTCAGTTTGGAAAATGACCTGGTCCAGGTCTTGCTGCGGGAAGATGACCGGATCAGAACGATGTTTGCCCGGGGCTCCCTGGTCGATGAGCTGCTGGTGCCAACAATGCTGA
>SRR1919932_01606 D-lactate dehydrogenase
ATGAAGGCATACTTGTTCGGCGTTACGCCGGTGGAAGAAGCTTTTTTAAAAGAGTGGCAGGACCAGCACCCAGATGATGAAATTTCTTATACCCACAGCCCTTTGACGGCCGATAATTTAGAGCTGGCCAAGGGTTTTGAGGCGGTTTCGACCCAGCAGGAGGAGCCCTTGACGGCGTCTGACCTTAAGCCCTTGGCGGCTGGCGGCGTCAAGCACCTGGCCTTGCGGAAGGTGGGGGCGGACAATATTGACCTGGAAGCGGCAGCTAAATACGGAATTACCGTTGCTAATGTGCCGGCTTATTCGCCGCGGGCAATCGCGGAAAACGGCTTGACCGGGGCCATGTACCTCTTGCGCAAGTGGGGTTACTACCACCGGAAGATGCGGCGGGGAGACTTCACCCGGTCAACGGAACTGATGAGCGATGAGATCTTCAACCAGACGGTCGGCATCGTCGGCCTGGGCCGGATCGGGGCAGCTGCGGCGGAAATGTACCATGCCCTGGGGGCCAGAGTTATCGGCTATGACCCGGTTTACAATGCTTCTTTAGAGCCCTTTTTGGACTTCGTCGATTTTGAGACCTTGATCAAGGAAAGCGACATCGTCCAGGTGCACATTCCGCTGACTCCGGAAAACAAGGGCATGTTCAGCGCCAATGAATTTGCCAAGATGAAGGACGACGCGATCCTGGTAAACCAATCAAGAGGCGAACTGGTCGATACCGCGGCCTTGATCGTGGCCTTGAAGTACCATGAAATCGGCGGGGCCGCCCTGGACGTTTTGGAAGGGGAAGAAAAAATCTTCGGCCGCAAGTTTGAGGATGTGGGTTCCCTGCCGGACGAGTACACGGAGCTGATCAACCTGCCAAACGTGGTCATGTCCCCGCACTCTGCCTACTATACCAAGATGGCGGTCAAGAATATGTTCTTCCAGAGCATGACCGATATCGAGCGGACCCTGTCCGGGAAAAAGGCCTTTTTCAAGGTGAATTAG
>SRR1919932_01607 thymidylate synthase
ATGGCAAATCAAGACCAAGCATATTTAGATTTACTAAAAAAGATCATGACGGAAGGCAATGACAAAAATGACCGGACCGGGACGGGAACCAGAAGCCTCTTTGGGGCCCAGATGCGCTTTGACTTAAGCCAGGGCTTCCCGATCCTGACGACCAAGCGGGTGCCTTTCGGCCTGATCAAGAGCGAGCTTTTGTGGTTCTTGCGGGGGGACACCAACATCCGTTTCTTGCTTGAACATAAAAACCACATTTGGGACGAATGGGCCTTTAAAAATTGGGTGACCAGCCCGGAATACCAGGGCCCGGACATGACTGATTTTGGCCTTAGGAGTCAAAAGGACCCAGGGTTTAAGGCAGTCTATGACGAAGAAATGCAAAAGTTCTGCCAGCGGATTCTGGATGATGAAGCTTTTGCCCAAAAATACGGCAACCTGGGCGACGTCTATGGGGCCCAGTGGCGGCACTGGGGTAAGCGGGACGGCGGCTTTATCGACCAGATCGCGGACGTGATTGAGCAGATCAAGACCAATCCCGACTCCCGCCGCTTGATCGTAACGGCCTGGAACCCGGAAGACGTTCCTTCCAGCGCCCTGCCGCCGTGCCATGTCCTCTTCCAGTTTTACGTGGCTGACGGCAAGCTCAGCTTGCAGCTTTACCAGCGCTCAGGCGACATGTTCTTAGGCGTGCCCTTCAACATTGCCAGCTACTCTTTGCTCTTGTCCTTGATTGCCCGGGAGACCGGCCTGGAAGTGGGCGAGTTTGTGCATACTATTGGGGATGCCCACATTTACAAGAACCACTTTGCCCAAGTGGAAGAGCAGCTGAAAAGAAAGCCGTTTGACGCGCCAACTTTGTGGCTGAATCCAGAGAAGAAAAAAGTGGCTGATTTTGAAATGGCTGATATTAAATTGGTCAACTACCAGCACGGGTCTACAATCAAAGCCCCGGTCGCCGTTTAG
>SRR1919932_01608 dihydrofolate reductase
ATGCTTAGCTACGTTTGGGCAGAAGATGAAAAAGGCGCCATTGGCTACCAGGGCCGCCTGCCCTGGCACCTGCCGGCAGATTTAGCCCATTTTAAGGCAAAAACCATGGGCCACCCCATGCTGATGGGAAGAAAGACTTTTGAGTCCTTGCCGGGCCTGTTGCCTGGCCGGCAGCATGTCATCCTTTCCACCAGGAAATTAGACCTGCCAGCTGGAGTTCTGCAGCTGAAAAGCGAAGAAGAAGTTTCCGCCTGGCTGAAGGAGCAGGCGGGGGAAGTCTGCGTTATTGGCGGCTCCAGCCTCTTTGCCCTGCTGGCTGACCAGGTTGACAAGCTGGAAGTGACCCGGATCAAGGGAATTTTTCCCGCTGACACCTACATGCCAAACCTTGACTGGGCGGCTTTTGCCCTGGTAAAGAGTGAAGCCCACCAGGCAGACGGTAAGAATAAGTATGACTATGTCTTTGAGACTTACCTGCGTAAAAAATAG
>SRR1919932_01609 cation-transporting ATPase
ATGAAAACAAATTTGGAGACGGGCTTGACCGAGGAGGAGGTCGCGCAGAAAAGCGCGGCCGGCAAGGTCAACACCACCATTGATGATGAGTTCAAGACCAACCGGCAGATCATCGTTGAAAACACCTTTACCTACTTCAACTTGATCTTCCTAGTTTTGACCATCCTGCTTTTGATTGCCGGGGATATCCGGGATCTGACCTTTTTGCCGGTAATCATTTTGAACACGATCGTGGGGATCGTCCAGGAAATCCGGGCAAAATCTGTTTTAAGCAAGCTGCAGGTTTTAAACCAGACCAAGCTTTTAGCCCTGAGAGGCGGAAAAAGGCGGCAGGTGCCAATCGACCAGCTGGTTGAAGGAGACCTAGTCCTCTTGAAAGCTGGTGACCAGATCCCGGCCGACGCCAAGGTGGTCGACGGCAGCGTCCGGGTAAATGAATCCCTTTTAACCGGGGAAAGCGATGAAATTGCCAAGGAAGTTGGCGACGAGCTCTTATCCGGTTCTTTCGTCGTTTCCGGCGAAGTCATGGCCCAGCTGGTCAAGGTGGGCAGCGAATCCTACATCGCAAAATTGACGGCGGAAGCCAAGGCCATGGGCGAGGGAGAAGAGTCAAAGATGATCCGGGCCATCAACCGCTTGATCAAGTGGGTTGGCATCATCATTATTCCAATGGGGCTAGCCCTTTTTGCCCAGGCCTACTTCCTCAACCACCGGTCTTTTGCTGAATCCATCAGTTCCATGGAAGCAGCCATTATCGGCATGATCCCGGAAGGGCTCTACCTGCTGACAACGGTTGCCCTGGCGCTGGCCGCCATGCGCCTGGCCCGCAACCAGGTCATGCTGCACGACATGAAGAGCGTGGAAACCCTGGCCCGGGTCAATGTCCTCTGCGTTGATAAGACAGGGACGATTACTGAGCCGAAGATGGCGGTGGAAAAAGTCGTCCCGGCAAAAAATTACCCGGGAAATGATTTGGAAGACCGGCTTGCCGCCTACGTTTCCAACATGCCTGTCGACAATATCACCGCTGAAGCCTTGAACCAGAAGTTTGGCCAGGACCAGCCCCTGGTCAATGCCAAAAGGATTATTCCTTTTACCTCAGTCAACAAGTACAGCGGGGCGGTTTTTGCAGGCTACACCCTTTTGCTGGGGGCGCCGGAAATGATCCTTCGCTCGCAGCTGAAAGCCTGCCAGGAAGAATTTGCCCGCTACCCGGAAGAAGGATACCGGGTCCTGGCCTTTGCCAAGTATCCAGCAGAACTGGCAGATGAAAAAGAGCGCCTGACCCAGGAGGTCGAAGTCCTGGGCTACGTCCTTTTGTCCAATCCGATCCGGAAAGAGGCCAAGGAGACTTTTGCATACTTTGCCAAGCAAGGGGTGGAAATCAAGGTTATTTCCGGGGACAACCCGGTCACCGTTTCCCGGGTGGCCGGCCAGGCCGGGATTGCCGGGGCAGAGAAGTACATCGATGCCCAGACGATCAAGCCAGGCGAATATGAGCAGGCCATGGCTGAATACAATGTCTTTGGCCGGGTCAAGCCGGAGCAGAAGAAAGAATTCGTCCAGGCCCTGCAGAAGATCGGGAAGACCGTGGCCATGACCGGGGACGGGGTTAACGACATCCTGGCCATGAAGGAAGCTGATTGCAGCATTGCCATGGCTTCAGGCAACAGCGCGGCTGTTCAGGCTTCCCAAGTGGTCTTGCTGGACTCAAACTTTGCCAAAATGCCCCAGGTGGTCAATGAAGGCCGGCAGGTGGTCAACAATATTGAACGTTCAGCTGGCCTCTTTTTAGTCAAAAACATCTTCTCCTTGCTGATGGCGGTCTTTTCCTTGATCTTGACGATCAACTACCCGATCAAGCCGGCCCAGATCACCTTGATCTCCAGCTTTACGATTGGCCTTCCGTCCTTCCTTTTGGCCCTGGAAAAGAACCATTCCCGGATCCGGGGCAATTTCACGGTCAATATCCTGACCAAGTCGATTCCAGGCGGGATTACCGACTGGCTGGCCGTCAGCATCCTGGTCTTGACCAACAAGTTTACCAATATCGGGGACAATGAAGTCGCTACCGCGTCAACAGCTCTCCTGGTCCTGGTGGGCTTGATGGTCCTCTTCTGGATCTCCCGGCCACTTAACAAGTACAAGCTGGGCGTTTTGGCCCTGTCGGTGGTCTGCATCATCTTGTCAATCATCTTCATCCCTGGCTTCTTCAAGCTGAGTCCTTTGTCAGGCCGGGCTGTCTTCACGGTTGTCGTCCTTTTCTTTGCCGGCATGACCCTCTTCAGAATCATGTCGCGGATCTGCGACGGAATCAAAGAAGTCAGCAACGTGCTGACGGAGAAGGGGAAAGACGCCAAGCTGCGGGACCTTTTAGCCGCTTATGGCAAGGACCGGGACGAGCTTTAA
>SRR1919932_01610 methionine ABC transporter substrate-binding protein
ATGAGAAAAAAGAAACAAAGAAACATTATTATCGCTATCGTGTCCGTTGTGGTCCTTGCCGTTATCGCCTTCTTCTCCTTTGGCAAGAAGGGCAGCCAGCAAAGCGCCAAGACGGTGACGGTAACCGTCGGGACTGTCGGGGCAACCAAGGCTGAACGGGCCATCTGGAAGAGTGTGGCGGCAACTGCCAAGAAGAAGTATGGTATCATTGTCAAGACCAAGAACTTCTCTGACTACAACCAGCCAAACAGCGCCTTGAAGTCAGGGGACCTGGACCTTAACGCCTTCCAGCACTACAACTTCCTCAACAACTGGAATAAGGCTAACAAGAGCAACCTGGTTGCCATCGGCAAGACCTACATCGCTCCAATCCGCCTTTACTCACTGAAGTACAAGTCACTGAAGTCCCTGCCTAAGGGGGCAACGATCGCCATTCCAAACGACGCGACCAACGAAGCCCGGGCGCTTCTGGTTCTGAAGAACGCTGGCCTGATCACCCTGAAGGGGACCAGCGCTACCAAGCTGTACTCAGTTGCTGACATCAAGAGCAACCCGAAGAACTTCAAGATCAAGGAAGTTGCGACTGAACAAGCTGCCAGAGTTCTGAAGTCAGTTGACGCTGCTGTTGTCAACAACGACTACGCTAACCCAGCCGGCCTGGGCGACAAGCAAACCATCTACGTTGAACCAATCAACAAGGACTCATACCAATGGATCAACATCATCGTTGCCCGCAAGAAGGACAAGAACAAGAAGGCTTACAAGGAAGTCGTTAAGGCTTACCAGACTGAAAAGACCAAGCAGCTGTACAAGAAGTACTACGGCATCAAGCAAGTTGCGGCTTGGGACGCCAAGTTCTAA
>SRR1919932_01611 methionine ABC transporter ATP-binding protein
ATGAGCATTATTCAACTGGACCACGTCAGTGTGACTTTTAAGCGGAAAAAGGCTACCGATGTGCAGGCCGTGCAGGATGTGACTTTGCACATCGAAAAAGGCGACATCTACGGGATCGTCGGCTTTTCCGGGGCCGGGAAATCAACCCTGGTCAGAACCATCAACCTTTTGCAAAAGCCAACGGCCGGAGACGTCGTGGTTGGGGGTGTTGACTTTGTCAAAGACGGCAAACAGGTGATCAGTGGCAAGGACCTGCAGGCCCACCGCCGGAAGATCGGGATGATTTTCCAGCAGTTCAACCTGCTTAATGAAACGACCGTTATTGAAAATATCGCCTTTGCCCTCAAGCACTCAGACCTGTCTGACGATGAGCTGGAAGAAAAATGCCACAAGCTTCTGAAGCTGGTTGACCTGGAAGACAAGGCCAATGCCTACCCGGCCCAGCTCTCCGGCGGCCAGCAGCAGCGGGTGGCGATCGCCCGGGCCCTGGCTAACGATCCGGAAATCCTTTTGTCAGACGAAGCAACCAGTGCCCTGGATCCGCAGACGACTATCCAGATCCTGGACCTGTTGAAGAAACTGAACCGGGAACTGGGCTTGACCATCGTTTTGATCACCCACGAAATGGCCGCGGTCAAGAAGATCGCCAATAAGGTGGCGGTCATGGAAAACGGCCGGGTTGTCGAAAACGGCAACTTGCGGGATGTCTTCCTGGCGCCAAAGGCTGAATTGACCCAGAAGTTCGTCGGCGGTTCTTTGGCTGTAGTTGACACCTTGAAGAGCCTCAACATCAGCCTGGCTGAAAACGAAGCCCTCTACCAGCTGGTCTACAGCTTGAACAATGTGGCCAAGTCAATCATCATCGAGCTTTACCGGGAAGTCGGCGTGGAAGCTTCGATGCTCTACGGCAATGTGGAAGTCCTGGCTGACGAACCGGTCGGGACCCTGCTGGTCACGGTCAAGGGGGATGCTGACAAGCAAAAGGCAACCTTGAAGTTCTTAAACGATGAGGGTATCACGGTAACGGAATTAGACGAAAGAGGTAACCGCTTATGA
>SRR1919932_01612 methionine ABC transporter permease protein
ATGATTAATGGTTTGGTACACTGGATCGCGCAGAACTTCCCGAATATTTACAACTTGGGCTGGACCGGGGACACCGGGTGGGGCACCTCCATTCTGCAGATCATCTACATGACCTTCTGGCCGTCAATCTTCGGCGGGGTCCTGGGCCTCTTCTTCGGGGTCATCCTGGTTTTGACCGAGCCAGGCGGGATCTTGGAAAACAAGTTCTGGTTCAACTTCTGCGACAAGCTGATTTCCATTTTGCGGGCCATTCCTTTCATTATCCTTTTGGCCTTCATTTCACCTTTGACCCGCTTGATTGTCGGGACGGAAATCGGGGACACGGCTGCCTTGGTCCCGCTGACTTTAGGGATCTTCCCATTTTATGCCCGCCAGGTCCAGGTCGCTTTGGAAAGCTTGGATCCGGGCAAGGTTGAAGCAGCCCAGAGCTTGGGCGCAAGCAACTGGGACATTATTTTTGACGTCTACCTCAAGGAAACGCGGTCAGAAATCATCCGGGTGTCAACTGTTTCCATCATCAGTTTGATCGGCTTGACTGCCATGGCCGGGGCCGTTGGGGCCGGTGGTCTGGGTACGACCGCCATCCAGTACGGCTACCGCGACTTCGCTAACGACGTGACCTTCCTGGCCACTGTCCTGGTCGTCATCATGATCTTTATCGTGCAAGTGGTTGGCGACTTCCTGGCCAAGAAGCTGAACCACCAGCATCGGTAA
>SRR1919932_01613 fumarate reductase flavoprotein subunit
ATGGCAAAATACGAATTTAAGTCCAGTCCAATCGATTTAGTCAACCCAAGCTACGACTTGGTAGTTATCGGGGCCGGTGGTACCGGTTTGTCTGCTGCCTTGCAGGCACATGAACTCGGCGCCAGCGTGGCTGTTTTTGAAAAGAACGAAGTTTTGGGCGGGAACACCAGCAAGGCTTCATCAGGGATGAACGCGGCTGAATCCCTGGTTCAATTCAAGCACGGCATCATCGACAACAAGGCCGACTTTTACCAGGAAACCCTTAAGGGCGGCGGCAACTTGAACGATGAAGCAATGCTGAGCTACTTCGTTGACCACGCTGCTTTGGCAATCGACTGGCTGAAGCAATATGGCGTTGAGCTGGATGACTTGACGATTACCGGGGGGATGAGCAAGAAGCGGGCCCACCGGCCAGCATCTATGGCGCCAGTTGGCGGTTATTTGATCACTGGCCTTTTGAAGAGCATTGAAGCAGCCCGGATTCCAGTCTTCAACAAGACCAAGGTTGTTAAGCTTTTGCAAGACGAAAAGGGCAAGGTAACTGGCATCGACATCGTTGGCCCAGACGGCCGCCGGAAAGTTATGGCCAAGGCTGTTATCCTGGCAACTGGTGGTTTCGGCGCTTCTAAGGAAATCATCAAGAAGTACCGGCCAGACCTGGAAGGCTACAAGACGACCAACCAAGCCGGCGCTACTGGTGACGGTCTGATCCTGGGTGAAGAAGCCGGGGCAGAATTGGTGCAAATGGACTTCATCCAAGTTCACCCAACCGCGCAAACTGATGGTGAAAAGACCTTCTTGATCGGGGAAGCTGTCCGGGGCGAAGGCGCTATTTTGGTCAACAAGGCCGGCCAGCGTTTCATCAACGAACTGGACACCCGGAAGGTTGTTTCAGCAGCCATCACTGGCTTGAATGAAGACGGTGCCTACCTCATCTTTGACCAAGGCGTCCGTGACCACGTTAAGGCAGTTGAATTTTACGACCACATCGGCCTGGTAGAACATGGGGCTACTTTGGAAGAACTGGCTGGCAAGATCGGCGTTGACGCTGCTGGTCTTGAAGCAACTGTTGCCAGCTGGAACGAAGCAGTCAAGGACCAAGACGACCAAGCCTTTGGCCGGACTACCGGGATGGACCGCGACATTTCAGTTGCGCCGTACTTTGCTATCCACATTCACCCAGCCATCCACTACACGATGGGTGGTCTGCACATCAACCTTGAAACCCAGGTTTTGGGCAAGGACGACAAGGTGATTGAAGGCCTCTACGCCGCTGGTGAAGTTTCCGGGGGCCTGCACGGCAACAACCGGATCGGCGGTAACTCAGTTGCTGAAACTGTAGTCTTTGGCCGGCAAGCTGGTATTCAAGCAAGCAAGTTCGTGCGCGGCGAAAACTAA
>SRR1919932_01614 DNA mismatch repair protein MutL
ATGGCGAAAATTCATGAACTTTCAGAAAATCTGACCAACCAGATCGCGGCCGGGGAAGTTATTGAGCGGCCGGCCAGCGTGGTCAAGGAACTGGTCGAAAACGCGATCGATGCCCAGGCCAGCCGGATCAGGGTTGAAGTCCAGCATTCGGGCTTAAAGCAGATTTCTGTCCAAGACAATGGCAGCGGGATTGCCCCGGACCAGGTTGACCTGGCTTTTATGCGGCACGCGACCAGCAAGATTCAAGATGAGCATGACTTGTTCAATATTGCGACCTTGGGCTTTAGAGGGGAAGCCCTAGCTTCCATCGCAGCCGTAGCCCATGTGGAAATTTTGACTTCAACTGACGGGCAGACGGCCACCCGGGCAGCTTTTGCCGGCGGGGTGAAAAAGTTCCAGGAAGATGCCGGCAGCGCTAAGGGAACCAAGATCACGGTCGGGGATATTTTTTACAATACTCCGGCCCGGCTGAAGTATCTGAAGAGCCCGAAGACTGAACTCTTGAAGATTGTGGATATTGTCAACCGGATTGCTCTGGGCCACCCGGAAATCAGCCTGACTTTGGCCAGCGACGGGAAAGTCTTGCTCAGAACGCCCGGTAACGGCAACTTAAAGCAGGACGTGGCCAATATTTATGGCCGCAAAGTCGCCGAAAAAATGCTGACTGTGGAAAATGAGGACCCGGACTTTACCCTCTATGGCCTGGTGTCAGAAGCAAACTTGACCCGGTCATCCCGCAACTTTATCTCGATTTTGCTCAATGGCCGCTACATCAAGAACTACCAGCTCTCCAGTGCCCTTTTGGACGGCTACGGCAACAAATTGGGAGGCAAGTACCCGATCGCGGTCTTGGCGATTGAGGCTGATCCCCTCTTAGTCGACGTCAACGTCCACCCGACTAAGGAAGAAGTCCGCCTGTCCAAGGAAAAAGAGCTCAGCCGCTTGATCACCAGTGCCGTGACTGAGGCTTTAATGGATGAGGACGAGGCCAGCCCGCTTTTTCAGCTGACTCCTTTTAAAGACAAGACCCAGTTGGACCAATTGGAATTCAACTTAAAACCAAACGTGGTAGACACCCGCCGGCCAGATGACTTCCAGCTGGAAGTCTCCCAGGTGGCTGAGCCGGAAGGCAAAACAGATATAACTAATAAAAAAGAAACAGAGTCAAAAGAAACAAAAGAAACAGCAGAGAAGAAAGAAAATAAACAAGAAGAGAAAGAAGAAAAAACTTCTGCTCCGGAATACGTGGACTTAAACCAGGTCAGAGAAGATGACCAATATGTCTTAACCAAGAGCTGGGGCCAGCATGTCAAGGAACAGACGGCCCTGCCGCCTTTTGCGGGCGGAGAGGAAGCCGCTAGCCCGGTCACGTCAAAGGCTGACCAGCTGCTAAGGCAACACCTGCCGGCCCTGCGCCTTTTGGGCCAGATGGGGGGATATCTCCTGGCTGAACACGGGGGCGACCTTTACCTGCTTGACCAGGTGGCGGCCAGAAGACGGCTGGAGTACGACCAGATTTTAGCCAGCCTGGAAAAAGACGAGAACTACCAGCAAGGCTTGCTTGAGCCTTTGGTCTTTGACTTCAGCGTCTATGACTACCAGAAATTAAAAGACCAGCTGCCCCTTTTGCGCCAGCTGGGCCTGGAGATGGAAGACTTTGGCCAGAACACCCTCTTGATGCACTCTTACCCAACCTGGCTGAAAGGGGAAGTCACCGTGCAGGTCAGGGAGCTCTTGGACCAGCTCTTGTCCAGCCGGGAAAACGATGGAAAAAGTCTCTTGAAGCTGGTGGCGGCTAAGGCGGCGGAAAGCAATGTTTCCCGCCGGGTCAATTTAACCGGCGCTGAAGCCGCCGATCTGCTGCTCCGTTTGCAGACGGCCAGCGACCCTTACCGGGATGCCAGCGGCCAGGTCGCCATCGTCCGCTTGAGCCAGAATGATTTAAGCAAGCTTTTTAAGAAAGGGAAGTGA
>SRR1919932_01615 DNA mismatch repair protein MutS
ATGCCAAGAAAAGCCACGACTCCAATGATGGAGCAATATTACCAGATTAAAGACCAGTACCCGGATGCCTTTCTCTTCTACCGGGTGGGAGATTTTTACGAACTCTATGAAGACGATGCCATCAAGGGATCACAGATTTTAGAGTTGACCCTGACTCACCGGTCAAATAAGTCGGAAAACCCGATTCCCATGGCCGGGGTGCCCCACATGGCGGTTGATTCTTATGTCAACACTTTAGTGGAAAAAGGCTACAAGGTGGCCATCTGCGAGCAATTGGAAGACCCGAAGAAGGCCAAGGGGATGGTCAAGCGGGGGATCATCCAGCTGGTTACTCCCGGCACCAAGATGGCGCAGGGGCCAGACGACAGCCAGGAAAGCAACTACCTGACCAGCGTGGTTGAAAAGGCCGGCGGCTATGGCCTGGCTTACAGCGACCTGTCGACCGGAGAGATTTTTGCCACCCACGTCAAGCACTACGCCGAGGTGGTCAACGAGCTCCTGTCTTTGAGAACCCGGGAAGTCGTTCTTGCTGGCAAGCTTAGCGCCAGCGACCGGGACAGACTGCAAAAGGCCAACATCACCGTGTCTGAACCGGCAGAACTGGAAGGCGAGCACGCGGAAATTTCCTATGTCCAGCAGAAACTGACTGACTCTATGGAAAAAGCCGCCGTCCGCCAGCTGGTCGTTTACCTTTTGGCCACGCAGAAGCGGAGCCTGGCTCACCTGCAAGTGGCGGAAAGCTTTGAAATCGGCCAGTATTTACAGATGGCCAACACTGTCCAGCGGAATCTGGAACTGACCCAGTCAGCCACGACTGGCAGGAAGCAGGGCTCTTTATTCTGGGTTTTGGACAAGACCACCACGGCTATGGGGGGCCGGCTTTTAAAGCAGTGGCTGAGCCGGCCGCTCTTGTCTTTAGACCGGATTAAGCAGCGCCAGCAGATGGTGCAAGCCCTGTTGGACGACTACTTTACCAGGGAAAATATCGTTGACTCCTTGAAGGGAGTCTATGACCTGGAACGGTTGAGCGGCCGGGTGGCTTTTGGCAATGTCAACCCCCGTGAGCTCTTGCAACTGGCGAAAAGCCTGGAGGCGACCAAGCCGATCATCCAGGCCCTGGCCGAATCGGGCAATCCAGACCTGGAAAAATACGGGCAGGGGATCGACCCGCAAAGTGAACTTGCTGAGAGCATCACTAACTGCTTAGTTGACCAGCCGCCGATTTCGGCTAAAGACGGCGGCATTATCCGGGCCGGGGTCAGCGAGGACCTGGACAAGTACAGAGAAGCCATGAATGGCGGGAAAAAGTGGCTAGCCCAGATGGAAATGGAAGAGCGGCAGAGAACCGGGATCGACAATCTGAAGATCGGCTACAACCGGGTCTTTGGCTACTTCATCCAAGTCAGCAAGGGGAATGTCGCTAAAGTGCCCCAGGACCGCTACACCAGAAAGCAGACCCTGACCAATGCTGAGCGCTACATTACCCCGGAATTAAAGGAACACGAAAACTTGATCCTGGAAGCTGAGAGCCGGTCAACTGACCTGGAATACGAGCTCTTCAGCCAGCTGAGAGAGGCTGTCAAGGCCCATATCCCGGCCTTGCAGGAACTGGGCCGGCAATTGGCGGCCCTGGACGTCTTCGTGGCCTTTGCCCAGGATGCTGAAGAGAAAAATTACTGCCGGCCAAGTTTTTCCAGCAAAAACGAAATCGCCGTTAAGAACGGCCGCCACCCGGTTGTTGAGGCAGTTTTACCAGCTGGCTCCTATATCCCTAACGACCTGGTCATGGATGAAGACACCAGCATCTACCTCATCACGGGGCCAAACATGTCTGGTAAGAGCACCTACATGAGGCAGCTGGCCTTAATCGCCATCATGGCCCAGATCGGCTCCTTCGTCCCGGCAGACAGCGCCAAGCTGCCAGTTTTTGACCAGGTCTTCACCCGGATCGGGGCCGCTGACGACCTCTACTCCGGCAAGTCCACCTTCATGGTGGAAATGAGCGAGGCCAATGAGGCCCTCCAGCACGCTTCCAGCCGGTCTTTGGTCCTGTTTGACGAAATCGGCCGGGGGACGGCCACTTACGACGGGATGGCCTTGGCCGGGGCGATTATCAAGTACCTGCATGACAAGGTTGGCGCCAAGACCCTTTTTGCCACCCACTACCATGAACTGACTGAACTGGACGAAACCTTGCCGCACTTAAAGAACATCCACGTCGGAGCAACGGAAGAAAACGGCCAGCTGATCTTCCTGCACAAGATTTTGCCAGGACCAGCCGACCAGTCTTACGGGATCCACGTGGCCAAATTGGCTGGCCTACCGCGGGCCGTTTTAAGAGAAGCCTCCAGCATGCTCAAGCGCCTGGAAGCAGAAGGGGCCCGGGAGATCAACCCAAGCCGCCAGCAGCTGGACCTCTTCAGTCCGGTGGAAGTAGTGGAAGAGAACCCGCTCAAGGCGGAGCAGGAGGAACTGTTAGACGAGATCAGCCAGGTCAACTTGAATGAAAAGACGCCGCTGGAAGTCATGCAGCTGGTAGCTGACTGGCAGCAGGCCTTGAAGGAAGAATAA
>SRR1919932_01616 chaperonin GroEL
ATGGCAAAAGACATCAAGTTTTCAGAAGACGCAAGACGTTCACTTTTAAACGGGGTTAACAAGCTGGCCAACACGGTCAAGACGACCTTGGGGCCTAAGGGCAGAAACGTTGTTTTGGAACAAAGCTACGGCGCCCCAACGATTACCAACGACGGCGTGACCATCGCCAAGGCAATTGAACTGGAAGACCACTACGAAAACATAGGGGCCAAGCTGGTTGCTGAAGCTGCGTCAAAGACCAACGACATCGCTGGTGACGGTACGACCACGGCCACTGTTTTGACCCAAGCCATCGTGCAAGAAGGGATGAAGAACGTGGTTGCCGGGGCTAACCCAGTTGGCATTCGCCGCGGGATTGAAAAGGCCACCCAAGCAGCCGTTGACCAATTGCACAAGAACAGCCACGAAGTTTCCAGCCGGGACCAAATTGCCCAAGTTGCTTCAATCTCAAGTGCTTCAAAGGAAATCGGCGACTTGATCGCTGAAGCCATGGAAAAGGTCGGCAATGACGGTGTTATCACCATTGAAGACTCCCGCGGGATCGAAACTGAACTGAGCGTGGTTGAAGGGATGCAATTCGACCGCGGCTACCTGTCCCAATACATGGTAACGGACAACGACAAGATGGAAGCTGACTTGGAAAACCCATACATCTTGATCACTGACAAGAAGATTTCCAACATCCAGGACATCTTGCCAATGTTGCAGGAAATCGTGCAACAAGGCCGCTCACTCCTGATCATCGCTGATGACGTGACTGGCGAAGCTTTGCCAACTCTTGTTTTGAACAAGATCCGCGGTACCTTCAACGTTGTTGCTGTTAAGGCTCCTGGCTTTGGTGACCGCCGCAAGGAACAACTGGCTGACATCGCTGCTTTGACTGGCGGTACGGTAATTTCTGAAGACCTGGGCCTGGAACTCAAGGACACCCAGCTCAGCCAATTGGGTCAAGCCCGCCGGGTAACTATCACCAAGGACTCAACTACTATCGTTGACGGCTCTGGCGCTAAGGAAGCCATCCAAGAACGGGTTGACACCATCAGAAAGCAAATCGAAGACACTTCTTCTGACTTCGACAAGAAGAAGCTGCAAGAACGTCTGGCAAAGCTGACTGGCGGCGTAGCCGTAATCCACGTCGGTGCTGCTACTGAAACTGAACTCAAGGAACGCCGCTACCGGGTAGAAGACGCCTTGAACGCTACCCGTGCCGCTGTTGACGAAGGCTACGTAGCTGGTGGTGGTACTGCTTTGGTTAACGTTGAAGAAGCTGTTAAGGCAACCAAGGGTGACACTGCTGACGAACAAACCGGGATCAACATCGTGGCCCGCGCCTTGACTGCCCCAGTTCGCCAAATCGCTGAAAACGCCGGCCAAGAAGGCTCAGTCGTTGTTGACCACCTGCGCAAGGTTGACCCGGAAGTCGGCTACAACGCTTCTGAAGACAAGTATGTCAACATGATTGACGAAGGGATCATCGACCCAACCAAGGTGACCCGGTCAGCCCTGCAAAATGCCGCTTCAATCGCCGGCCTCTTGCTGACCACTGAAGCAGTTGTGGCAGAAATTCCGGAAGACAAGCCGGAGGCTGCTCCAGCTCAACCAGGCATGATGTAA
>SRR1919932_01617 co-chaperonin GroES
GTGTTACAACCAATTGGAGATCGCGTGATCGTTGAAGTTAAAGAAGCTGAAGAACAAACCGTTGGTGGCATCGTACTTGCTTCCAACGCTAAGGAAAAGCCAATCCAAGGCAAGGTTGTTGCCGTAGGCGGCGGCCTGTACGCGGAAGATGGCAGCAAGCTTCCTATGACCGTCCAAGAGGGCGATGAAGTTTTATACGATAAGTATTCTGGTACCAAGGTCAAGTACGAAGGCAAGGAATACTTAGTCCTTCATGAAAAAGACATTTTGGCAATCGTTAAGTAA
>SRR1919932_01618 redox-sensing transcriptional repressor Rex
ATGAACAACAAATTTAGAATTCCCAAGGCTACTGCCAAAAGATTGCCGCTATATTACCGCTACTTGCTGCTTTTGAATGATGAAGGCAAAGACAAGGTTTCTTCAACTGAACTGGCGGAAGCCGTTCAAGTCGACAGCGCTTCAATCCGCCGGGACTTTTCTTACTTCGGTGCCCTGGGCAAGCGGGGCTACGGCTACGACGTCAAGAACCTGCTCAGCTTCTTTAAGAAGATCCTCAACCAGGACACTTTGACCAATGTTGCCCTGGTCGGGGTCGGCAACCTGGGTCATGCCCTTTTGAACTACAACTTCAAGCGCAGCAACAATATCAGAATTTCCTGCGCCTTCGACATCAACCCGGAAATCACCGGCAAGATCACCCAGGGGGTCCCGGTTTACTCAATGGATGAAATGAAGCAGCAGATCGCTGACCAGCAGATCCGGATCGCTATCTTGACCGTTCCCCAGGCGACGGCCCAGAAGACGGCTGATGAAATGATCGAAGCCGGGATCAAGGGGATCATGAACTTTACCCCGATCCGCCTGTCCGCCCCAAACGGGGTCCGGATTCAAAACGTCGACCTGGCTACCGAATTGCAGACCTTGATCTACTTCCTTGACTCTGACGAAATGATCAAGAAGCAGCTGGAAGAGCGGAAAAAGGCCATGAACAACACGAATAAATAA
>SRR1919932_01619 ATPase component of ABC transporter with duplicated ATPase domains
TTGGAGCAACGCTTCGGGGCTGCTCCTATATTCAGCAAGGTAAACTTTTCAATTGAGAACAATGCCCGGATCGGCCTGGTCGGGCCAAATGGGGCCGGGAAAACGACCCTTTTAAAGATCATGACCGGCCGCCAGGAAGCCAGCCAGGGGGAATTTACCGTCAACAAGGGGATCGAGCTTGGCTACATCGCCCAGGAGCACGACTTTGACGAAGAGAAGTCGATCTGGGAAGAGATGCTGACGGTCTTCCAGCCCTTGATCGACCAGGGCCAGCAGCTGGAGAAGCTGCAGTACGCCATCGCCGACCATCCGGAAGACGAAGAGCTTCTGCGCCGCCTGGACCAGGCCCAGTATAATTTTGAACAAGCCGGCGGCTATACCTACCAGGCCGAAATCAAGAGCATGCTCAACGGCTTCAACTTCCCGGAAGCGACCTGGAACAAGCAGATTGCCAGCCTGTCCGGCGGGGAAAAGACCCGGCTCAGTTTCGTCAAGCTCCTTTTAAAGAAGCCCCCGCTCCTGCTTTTGGACGAACCGACCAACTACCTGGACCTGGATACTTTGGACTGGCTGGAAGCCTTCCTTAAGAACTACCCTGGCGCCATCCTGACGGTTTCCCACGACCAGTACTTCTTAGACCACCTGGCTACGCAGATTTTTGAACTCCAGCATGGGGAACTGACTGTCTTTAAGGGCAACTACAGCCAGTACCTGGCGCAAAGAGAACTGCGCGACCAGCAGCAAGAAGCCGCTTATGAAAAGCAGCAGGAAGAGATCAAGCGAGAAGAAGAGTTCATCCAAAAGAACATCGTCCGCGCTTCCACCACCAAGCAGGCCCAAAGCCGGCGCAAGGCCCTGGAGAAAATGGAACTGGTCGACCCGCCAAAGCACAAGTCAAAAGTCCGGATCAAGTTTGACAGCGCCCGGCCGTCAGGCAAGGAAGTCTTGATCTTGAAGGACCTGGCCGTTGGCTATCCAGACAAGACCATGCTTAAGGACATCTCCTTCCAGATCAATAAGGGTGACCGGGTGGCCATCATTGGCCAAAACGGGATCGGCAAGTCCACCCTTTTAAAGACCGTCATGAAGCAGCTGCCGGTTAAGAGCGGGGCCATCAAGTACGGGGCCAGCCTGGACATCGGCTACTATGACCAGGAACTGCAGGGATTAGACTATTCTAAGACCGTGATCGATACCATCTGGGACCGGCACAAGGACATGAACGAAAAGGACATCCGGTCCATCCTAGCCAGCTTTTTGTTCACGGCCAAGGACATTGACAAGCAGGTCAGCCAGCTGTCCGGGGGGCAAAGAGCCCGCTTGACCCTGACCGTCTTGTCCATGGAACACAACAACTTCCTTTTGATGGACGAACCGACCAACCACTTGGACCTAGACGCCAAGGAAGTTTTGGAAAAAGCTTTGGCCGATTACGACGGCACCCTCCTCTTCGTTTCCCACGACCGCTACTTCATCAACAAACTGGCCAACAAGATCGTCGTCGCTAAAGACGGACAGGCCAAAATCTATGAAGGCAACTACACTTACTACTTGAACGAAAAGGCCAAGGAAGAAGCCGCTGAAAATATGGCTGCTAGTCAAGAAGCAAATAGTGATCTTGCTCCTGCCAAAAATGTCAGCGAAAGCAAGCTGTCTTACCAAGAGCAGAAAAAGCGCGATTCCGAAAAGCGGAAGCTGCAAAGACAGGTTGAGCAAGCAGAAAAAGACATTGCCAAGCTAGAACAGCAAGAAGCTGACCTCCAAGAGCAAATGGCTGATCCAGCCATTGCCGCTGACTTCAGCAAGTTAGGGCCGCTGCAAGAAGAGCTCACAGCGGTGCAGGAAAAGATTGCCCAATTAAGCCAAGACTGGGAAGACTACTCCTTGGCCCTGGAAGAATTTGAATAA
>SRR1919932_01620 carbamoyl phosphate synthase small subunit
ATGAGAGCGCGTTTAATACTGGAAGATGGACACGTTTTTGAAGGCGAAAGCTTCGGCGCGATCCATGATGTTATCAGCGAATTCGTCTTCAACACGGCGATGACTGGTTATGTGGAAGTCTTGACCGACCCGTCATATGCCGGTCAAAGCGTGGTCATGACCTATCCCCTGATCGGCAACTACGGTGTTCCCCTGGATGACCAGGAAGCCGCCCACCCCTTTGTCGAAACCTTTGTAGTAAGCGAGCTTTCCCGACTGGGGTCCAATTTCCGCATGAACATGAGTCTGAACGACTACATGATTGAAAACAACATCCCAGGCATCCAAGGCGTCGACACCCGGGCTATCACCCGGATCCTACGCAAAGAAGGCTGCATGAACGGGATGATCACTACTAAGGATTACGAAGTCAGCGAAGTAATTGACCAGCTCAAGGCCTTCAAGATCCAAGGGGTCGTTGAAAAGTGCAGCTGCCTTGAACCCTACCATGTCGGTCAAGGTGACTACGAAGTTGCCCTCTACGACTTCGGTGCCAAGCGCAATATCGCCAGAGAACTGGCCAAAAGAGGCTGCCGTGTCACAGTCCTGCCGGCTGACACCCCGGCCCAATATGTCTTAGACCACAACTTCGATGGGATCATGCTTTCAAACGGCCCCGGTGACCCGAGTGAATGCACGGAAATCATTGACCAGCTGAAAATTCTTGCTTCTTCCGGCATCCCGATCTTCGCCATCTGCCTGGGCCACCAGCTTTTAGCCTTAGCCCACGGCTTTGAGACGGAAAAAATGGTCTACGGCCACCACGGCAGCAACCACCCAGTCAAGGATCTGACCACCGGCCGGGTTTACATTTCCACGCAAAATCACAACTACGTGATCAAGGAAGACACGATTGATCCAAAGCAAGCCAAGGTCTGGTTCAAGAATGTCAACGACAAGACCATCGAAGGACTGGAATACTTAAATGAAAACATCAAGTCCGTCCAGTTCCACCCGGAAGCCTGCGGCGGCCCGCATGACACGGAATACCTCTTTGACAGCTTTATTGAAATGATGGGAGAACACAAGAATGCCTAA
>SRR1919932_01621 carbamoyl phosphate synthase large subunit
ATGCCTAAGTGTGACGATATCAAAAAAGTTTTAGTGATTGGTTCAGGCCCGATCATCATCGGCCAAGCCGCTGAATTCGACTATGCCGGGACCCAGGCCTGCCGGGCCCTCAGAGAAGAAGGCATCGAAGTTGTCCTGATCAACTCCAACCCGGCCACGATCATGACTGACGGCGACATGGCTGACCACGTCTACATCGAACCTTTGACTGTGCCAGTCGTTAAGCAATTGATGGAAAAAGAAAAGCCAGACGCCCTTCTGCCAACCATGGGCGGGCAGAACGCCTTGAACATTGCCATGGCATTAGCTGATGAAGGCTTTTTGGAAAAGCACCATGTCAAGACAATCGGTACTGACACCGACACGATCAAGATGGCTGAAGACCGGCTGGAATTCAAGAACTTGATGGAAAGAATCGGTGAACCGGTTGCCAAGTCAGTTGTCGTCAACTACGTTGAAGACGCCATTGCTTTTGCCAAGGAAATCGGCTATCCCGTAGTTGTCCGCCCGGCCTACACTTTGGGCGGGACTGGCGGTGGGATCGCCCACAATGAACAAGAACTGCATGAAATCTGCTCTAACGGCCTCCGCCTCTCCCGAGTTACTGAATGTTTGATTGAACAATCAATCGCCGGCTGGAAGGAAGTTGAATACGAAGTCATGCGCGATGGTGCCGGCAACTGCATCACCGTCTGCAACATGGAAAACATGGACCCGGTCGGTGTCCACACCGGTGACAGTATCGTGGTAGCGCCATCTCAAACCTTGTCAGACAAGGACTACCAGATGCTCCGCTCCTCTGCCCTCAACATCATCACTGCCTTGAACATCAAGGGCGGCTGCAATGTCCAGTTTGCCCTCAACCCAGACTCCTTTGAATACTGCGTCATTGAAGTCAATCCCCGTGTTTCCCGGTCTTCTGCCCTGGCCTCAAAAGCAACTGGCTACCCTATCGCCAAGCTTGCTACCAAGATTGCTTTGGGCTACAACTTGGATGAAATCGTCAACGCCGTAACGGGCAAGACCTACGCTTCTTACGAACCAACCCTTGACTACATCGTCTGCAAGATTCCTAAGTGGCCTTTTGACAAATTCTACGACGCTTCCCGCAAGCTGGGCACCCAAATGAAGGCAACCGGGGAAGTCATGGCTATCTGCAACAACTTCGAAGGTGCCTTCATGAAAGCCCTCCGGTCCCTGGAACAAGACAGCTACTACCTTTATAATGAAGAAATTGCCCAGCTGTCAGCTGATGATCTCCGGAAAGACCTCCGCAAGATTGACGACAAGCGGGCCTTCAGAATTGCCGAAGCCTTGCGAAAGGGCGTCTCCATCCAGGAAATTCATGCCATTACCAAGATCGACGTCTGGTTCATTGACAAGATCAAGCACCTGGTTGAAATTGAAGACCGCCTCAAGAGCGAAGAACTGACGCCAGATCTTTTGAAACTGGCCAAGCACTGCGAATTCCCAGACCGGGTTATCGCCAGCTTAACCGGCAAGACGGCTGATGAAGTTTACTACCTCAGAAAGGGCTTGAAGATCACGGCTGCCTTCAAAACGGTCGACACCTGCGCGGCTGAATTTGACGCCGAAACGCCATACTTCTACAGCGTTTATGGCGGTGAACATGAAATCCAGCCAGACCGGTCCAAGAAAAAGGTGATTGTCTTTGGCTCCGGCCCAATCAGAATCGGCCAAGGGATTGAGTTTGACTACTGCTGCGTGCACAGTGTCTGGGCCCTGAAGGAAGCTGGCTACGAAACCATCATCGTCAACAACAACCCGGAAACTGTCTCAACTGACTTTGACATCGCCGACCGCCTCTACTTTGAACCATTGACGGCGGAAGACGTGCAGAGCATCATTGAACTTGAGCAGCCAGACGGGGCGATCGTCCAATTCGGCGGACAAACCGCGATTAAGCTCTCCCAGGACTTGATGAAGATGGGCGTGCCGATCCTTGGTACCTCTGCCGACAGTGTTGACGCGGCTGAAGACCGGGAAAGATTTGACGAGATTTTGGGAAAGTGCCAGATCGACCGGCCGAAGGGGCAAACCGTCTTTACGGCTGAAGAAGCCTTAAAGGCCGCTAATGAGCTGGGTTACCCGGTTTTGGTCCGTCCTTCCTACGTTTTAGGCGGGGCCGGGATGGAAATCGCCCTAAACGACGGCGACCTCAAGCGCTTTATCGACCACATCACCTCCCAGTTTAACATTGAAGACCACCCGATCTTGATCGACAAATACTTGGCCGGCAAGGAATGTGAAGTTGACGCTATCTGCGATGACGAAGGCATCTTGATTCCTGGGATCATGGAACACGTAGAAAGAGCAGGTGTCCACTCTGGTGACTCAATCTCCATCTACCCGCCGCAAAAGATCTCCCAGGAGATGAAGGAAAGAATCGTAGAATACTCTAAGCGCCTGGCCAAGGCCTTGAAGGTCAAGGGTTTGATGAACATCCAGTTTATCGTTTACGAAAACAAAGTTTACGTGATCGAAGTCAACCCCCGCTCTTCCAGAACCATCCCTTATATCTCCAAAGTTACCGGGATTCCGCTGGTTGACGTGGCAACCAATGTCATCATAGGCAAGTCCATCAAGGAGCAAGGCTATGACTACGGTCTGGCTCCGGAAAAGAAGACAGTTGCCGTCAAGATGCCAGTCTTCTCCTTTGAAAAGATTACCGGGGCGGAAATTGCCTTGGGGCCGGAAATGAAGTCAACCGGTGAAGTTCTGGGGATTTCTGATGACGTTGAAGAAGCCATGTACAAGGCCTTTATGGGGACTGGCCTGGACCTGCCTAAGCACAAGAAGGTTATCTGCACGGTCAAGGATTCGGCTAAGGAAGAATTTTTGCCAATCGCCAAGGAATACCACGACTTTGGCTACGACCTTTACGCGACCCAAGGGACATACGACTTCTTGCAGAGTCATGGCATCCCTGCCCGCCTGGTCAACAGGATCAATGACAAGGAGAACACCATCTTTGACTTGATCTTGACGGAAACGGTCGACCTGGTCATCGACATCCCAACCAGAAACAACAACTTGAAGGACGGTTTCCTGATCCGCCGCTTTGCCGTAGAAGCCGGTGTGCCGATCTACACTTCCCTTGATACGGCGCGGGCCCTCATCCACGCCCTGGAAGCCAAGCACGACAACAAGATCTCCTTGGTCGACATCACCAAGCTGTAA
>SRR1919932_01622 ABC transporter, transmembrane region:ABC transporter
ATGAAGTGGTCTGATTTACGGTCCATGTTTGGGATGGACCGGCTGATGCAGGGGCGGACGGCTTTTGTTATCGCCCACTGCTTGTCAACGATCAGGGATGCAGACAGCATCATCGTCTTGAAGGACGGGGATATCGTTGAAGTTGGCAACCATGACAGCTTTATGGCAAAGAAGGGCTTTTACGCCGATCTTTACCAGTTACAGTTTGAACATGGTGAAGAATAA
>SRR1919932_01623 methyltransferase
ATGAACTATCAAGATATAAACTCTGAAACGATCGACCGCTGGGTCAAAGAAGGCTGGGAATGGGGCAAGGCAATTGACCACGACACCTTCCAAGCTGCTATAGAAGGGAAGTGGGAGATCAAGTTGACCCCGGTTAAATATGCCCCGCACAGCTGGTTTGGTGACTTACACGGCCAAAAAGTCCTTGGCCTAGCCAGCGGGGGTGGCCAGCAGATGCCAATCTTGACTGCCTTGGGGGCAAAATGCACAGTCCTGGACTATTCTGACCAGCAGCTGGAAAGCGAGCGCCTGGTTGCAGAGCGCGAAGGCTACGATATCGACATTGTCAAAGCCGACATGACCCAGCCTTTGCCTTTTGCTGACGAAAGCTTTGACATGATTATCCAGCCAGTTGCCAACTGCTACGTTGAAAAAGTTAAGCCGATCTGGAAAGAATGCTACCGGGTTTTGAAAAAGGGTGGGGTACTCCTGGTTGGCCTGGACAACGGGATCAACTACCTGTTTGACAGTGAAGATGAAAAGTATGTCGTCAACTCTTTGCCTTTTAATCCGCTGAAAAATCCTGACCAGATGCAGCAGCTGGAAAAAGATGATTATGGCGTCCAATTCTCTCATACCTTGGATGAACAGATTGGCGGCCAGCTGGAGGCTGGCTTTACTTTAACCAATCTCTATGAAGATACCAATGGCGAAGGCCGCCTGCACGAATTGAATATCCCGACTTTTATCGCGACCAGAAGCGTGAAATAG
>SRR1919932_01624 peptide ABC transporter substrate-binding protein
ATGAAAGTTAGAAAAATGGCAACAGTTGCATTACTTGGCATGTCAGCTTGCACGTTGGCGGCCTGCGGCAATAGCAATTCCCAAGCATCCAATGGCAAGACAAGCCTGAACTTGATGGAGACTGATGTAGTCAGCTCCCTCGATACCTCAGTGACTGCCTCAATCCCCCAATGGGACACTTTGGTGCAAACTATGGCTGGCCTTTACCGGTCAGATAAAAATGACCAGCCAGTTCCCGCGGTTGCCACTAGCTATCATAAGTCCAGTGACGGTAAGACCTATACTTTTAATCTGAGGCACAATGCCAAATGGTCAAACGGTGATACTGTAACCGCGCAAGACTTTGTAACAGCCTGGCGTAAAGGCGTTTCTCCCAAAGCAATGTCTGGCTATAACTACATCTTCAGCAACATCAAGAATGCTGACCAGATCTCTCAAGGCAAAAAGGCGGTCAGCAGCTTAGGCGTCAAAGCCGTTGGCAAGTCTAAACTGGTCGTGCAGCTTGAAAATCCAGAACCGACCTTCATCGACAAGATGGTTATGCCAGCCTTTTACCCGCAAAACACCCGCCTTGTTAAAAAATATGGTGCCAAATATGGTACGGCTGCCAAGTATACCGCTTTTGACGGGGCCTTCAAGGTCACCAAGTGGACCAACACCAGCGAAAAGTGGACTGCCGTCAAGAATCCACACTACTACGCTAAAAGCGCGGTCAAGCTGCAAAAACTTAATTACCAAGTCGTCAAGGATTCAAACACTGCCCACCAGCTCTTCCAGCAAGGCAGCCTAGATGACGCTGTAGTTTCAGGCACGACGGCACAAGGTCTGCAAAATAATAAGAACCTCTACCACCTCTACCGGTCAGGTAATAACTTCGTAAATCTGAATATGGCTGAGGGCGCCGTATTGGCCAACAAACAACTCCGTCAAGCCCTCTACTTGTCTGTTAATCGTACTCAGCTGTCTAAAAAGGTTTTAGCAGATGGTTCAAAGCCTTCCTACACCTTCTCAGCACCAAATGCCGCAAAGGATCCAGCCAGTGGCAAGGACTTCGCAACAGCAGCGCAGCCAAAAGAAACTTACAATGTTGCCAAGGCTAAAAAGCTTTGGCAGGCCGGCTTAAAGCAACTGGGCAAGTCAAAAGTTGAGCTGACCCTGGTGGCAAGTGATACAACTACCGACAAGAATGTCGGTGAATTCCTGCAGTCACAGCTGGAAAGCAAGCTGCCAGGACTTAAAGTGACTGTCAAGAATCTGCCATCCAAGTCCGCTTACAACTTGGTTGCCAATGGCAAATATGACCTTTACCTTTCCTTGTGGCTCAACGACTACGCTGACCCATACAGCGAACTGCAGACTTTGGAAAAGACTAACAGCCACAATTACGGTAAATACACCAGTGCTGCCTACAACAATGAGCTCAGCCAAGCCAGAAAAAAAGCCGCGACCAGATCAGTCTACTTCAGCCACCTGTTAAAGGCACAGGAACAAATGAACCAAGATTACCCTGTTCTTCCTCTTTACACCATGGTTGAAGACCACCTGGTAAACTCCAACTTAAAGGGGGTACTTTGGCACAAGGTTGGAATGGTTGACTACACGAGAGCATACTTCAAGTAA
>SRR1919932_01625 prolyl aminopeptidase
ATGGATCAAACGAGAATCGTTACTTTAGACAATGGCTATCACCTTTTTACCCGCAAGGTCAATGAAGGGCCGGTCAAGTTGCTCTGCGTGCACGGCGGGCCTGGTGACAACCATGAAGACTTTGACAATTTCAAGGCTGGCTTAGCCGGCAAAGGAGTTGAGGTTTACTCTTATGACCAATTGGGTTCGTACTGGTCAGATCAACCCGATTTTTCAAAGGAAGAAAATCGCAAGTACCTTACTGTTGATTACTTCGTCGATGAATTGGAAGAAGTTCGCCAAAAGCTCGGTTTGGAAAACTTCTACCTGCTCGGACATTCATGGGGCGGCTTGCTGGCACAGGAATACGCAGTCAGATATGGCCAGCATCTTAAGGCAGTGATTATTGAATCGATGATTGACAATTTGGATGAGTACACGGTCAACATCAACCGTGAAAGGGATGAAATGTTCAGCCCGGCTCAAGTGGAATACATGAAGGAATGTGAAGCATCTGAGAATTTTGATGATGCGATGTACCAGGAATTGGTTGCCAAGCTCTACTCCGTTTACTTGGTCCGGCACCCGGAAAACGCGACCCGGCATGTGGTCAGCACGACCAATACCCAGGTGTACAACTACTTCCAGGGTAACAACGAGTTCATGATGGTTGGCAAGCTGACCGAATGGGACTTCAGAGACAAACTGGCCCAAATAACTCTCCTTACCCTCTTGACTGTTGGTGAATTTGACACTATGCCGCTTGACGCGGTGCGCCGGATGCACCATTCTTTGAAGAATTCCCGCATGGTGGTCACGCCAGATGGGGGCCACTGCCACCATGTTGACAACCCAGATGCATTTTTCTCTTCCTTATATAAGTTCATCAGTGATGTTGAGGCAGGGAAATTTGTGGAGGTAAAATAA
>SRR1919932_01626 hypothetical protein
ATGAAGTACGAATTGAGCGGCGGGAATACCTGCCCATTAGCAACTGTAACCCTCGATAAGGGGGAAAGCATTAAAGTCGAAAACGGGGCCATGGTGTACATGAAAGACGTCACCATCGCCGGTAAGATGAACTCCAGCAAGAAGGGCCTGGGCGGTTTGCTCGGTGCGATTGGCCGGAGCTTGACCAGTGGTGAAAGCATGTTTATCACTCAGGCAACGGGTGATGCGGACAGCGGACAAATCGGGGTTGCACCGGCAATTCCTGGCAAGATTCTAAAGCTTTCCGTTGGCAAGCAGCAGTACTGCTTAAACACCGGCGCCTTTCTGGCAAGTGACGACAGCGTCAGCTACAAGATGAAAAGTCAAAGTTTTAGCAAGGCAGCCTTTGGGGGAACAGGTGGCTTCTACGTAATGCAGACTGAAGGCGAAGGCGATATGTTAGTTAACGCCTTTGGTGACCTGGTAGAACTGACCGTGACTAGCAATAAGCCGATCTCAATTGACAATGAACACGTCATTGCCTGGGATGCAAATCTTGATTACGACATAAAAGTAGCGTCGGGGATGTTTGGCTTTACCTCAGGTGAAGGCCTGGTCAACCACTTTACCGGGGATGGCAAGGTTATCATCCAAACTCGTAACCTGCGTTCATTAGCTGAGGCCCTGCAACCTTTTATCGTTGAAAAAAACAGCAATAGTTAA
>SRR1919932_01627 anti-sigma factor
ATGAAAAACACTGACTTAATGGATGCAATGGGCGGAATCAAGACTGAGTACATCGTGGAGGCAGCAGCCAGCCGGGGGCAAAAGAAGGTTATTCCTTTGTCAGCCAAGCGCAAGCCGTGGGTCCGCCTGGTGGCAGGGATCGCGGCCGCAGCTGCTTTCAGCGTGGCTTTGCCAAACACGAGTCCGCAGGTGGCTAATGCCATGCAGAACTTGCCAGTTGTGGGGAACTACTTCAAGCTGGTGACCTTCCGTGATTACCACTATGAAAGCCGCAAGCATTCAGCCGATATTTCTGTTGATAAAGTTGCCGTCAGCGGGGTAACCGGGCCGGCAACCAAGGAGGCCAAGAAGAGCAGCCAGGCAGTCAACCGGGAAATTGTCCAGGAAACTGACCGTTTGACCAAGGAATTCAAGGCATCTCTGAAGAAGGGCGGCTATGGTTCTTTGACGGTCAAGACCAAGCAAGTGACTAACAACCGCTACTGGTACGTGGTCAAGCTGACAGCCGTGCAAACGCAAGCTGACAGCGGGGAAAGTAGCCGCTACTACGTCTTCAGCAAGGCCAGCGGCAAGCAGGTCAAGCTGGGGGACTTGTTCAAGAGCGGCAGCAACTACCAAAAGGCCATCAGCCAGAACATCATTAAGCAGATGAAGCAGGAAATGAAGGCTGAAAAGAACAAGAGCTACTTCCTCAAGGAAAATGGCAATCCGGACGGCTTCAGCCAGATCAAGAAGAAGCAGCAGTTCTACATCAACAAGAAGAACCAGGTGGTTATCGTCTTCAACCAAGGCGAAGTTGGCCCAATGTCCATGGGCAGCCAGAGCTTCGTTTTGCCAAACAAGCTGGTTGCCAAACTGCAGAGATAA
>SRR1919932_01628 DNA-directed RNA polymerase specialized sigma subunit
GTGAGAGAAACTGAAATCATCGGGCAGTTCTTCGCCAGAGACGAAGCTGCGCTCACTTCAGTCCAGAGTGAATATGGGGCATACTGCTCAACGATTGCCCGCAATATCTTGCGGGATAAGGAGGACGTTGAGGAGTGCCTGAACGATACTTGGCTGAAAGCCTGGAACACGATTCCGCCGAAGCGGCCGCAGAGCCTCTTGGCCTACCTGGGGCGCGTCACGCGCAATGGAGCCTTGAACATGGTCCGCGACCAAAAGCGGCAGAAACGAGCTGGGGATCAATATACCACCTCGCTGGATGAAATTGGAGAGTTATCCGGCGCGGTCCAGGGGCAGGCAGAGCTGGAAGGGATTGAGAGCAGCGCTTTGACGGAGATCATCAATGATTTTCTGGCAGGCCTGCCAAAAGAAAAAAGAATTATTTTTGTTCAGCGGTATTTTTACATGGATGCTGTCAGCGATATTGCGGCAGCTAACGGGATGACCGTGTCGGCTGTCAAGGTATCATTATTGCGGATGCGCCGCAAGCTGGGCAAAAAGCTGCAGGAAGAAAAGTATATTTAA
>SRR1919932_01629 seryl-tRNA synthetase
ATGCTGGATATTAAGGTCATTCGCGAGAATCTTGACTGGGCCAAGGAAAAGTTGGCAACTCGGGGCATCAAGCCTGAGCAATTGGATGAACTGGTAGCTATCGACGCCAAGCGCCGGGAAGCTATGGTGCAATGTGAAAACTTGAAGGCAGAAAGAAACGAAGTTTCAAAGAAGATTGCTGCCGCCAAGCGGGAAAAGGCAGACGCCAGTGAAGCAATCGCCAACATGCGTGAAGTCGGCGCCAAGATCAAGGAATTGGACAAGGAAGTTGACGAATTGCAGGAAAAGCAAGAATACATCCTGCTCCGTTTGCCAAACTTCCCGGCTGACTCAGACCCAATTGGCCCTGACGAAAGCTACAACGAAGAAGTCCGCCGCTGGAACGAACCGACCAAGTTTGACTACCAGCCAAAGGCTCACTGGGACCTGGGCACTGACCTGAACATCCTGGACTGGGATGCGGCAAGCAAGGTTTCCGCAGCCCGCTTCGTTTACTACAAGGGTGCCGGCGCTTTGCTGGAACGGGCAGTTTACAACTTCTTCCTGGATGAAAACACCAGCGAAGGCTATACTGAAGTCATCACCCCATCCTTGGTCAACAATGACTCAATGCAAGGAACTGGCCAATTCCCGAAGTTTACGGAAGACGTCTACACTATTGTTGACAACGACGACCCGGAAGTAGCCCGGAACCTGACTTTGATTCCAACTGCTGAAGTTCCTTTGGTCAACTACTTCAGAGGTGACATCATTGATGGCAAGAACCTGCCAATCAATGTGACTGCTTTGTCACCAGCCTTCAGAAGTGAAGCTGGTTCAGCTGGCCGCGACACCCGGGGCCTGATCCGGATGCACGAATTCCGCAAGGTAGAAATGGTCAAGGTGGTTAAGCCAGAAGACTCCTGGAAGGAACTGGAAAACCTGACCCACAACGCTGAACACCTGCTGCAAAAGCTGGGTCTGCCATACCGGGTTGTAGCCTTGTCAACCGGGGATGCATCCTTCACCAGTGCCAAGACTTACGACTTGGAAGTCTGGATGCCAGCCCAGGACACTTACCGGGAAATCTCATCCTGCTCCAACTGTACTGACTTCCAGGCCCGCCGGGCACAAATCCGTTACCGTGACGAAGACGGCAAGGTTAAGCTGACCCACACTTTGAACGGGTCAGGCCTGGCTGTCGGCCGGACGGTTGCCGCTATTTTGGAAAACTACCAAAACGAAGACGGCACGGTTACCGTACCAGAAGCTTTGCGTCCATACATGCACGGCATGACCAAGATCACGCCAGAAGTTAAGTGGCACTAG
>SRR1919932_01630 N-acetyltransferase
ATGGAGAGTGAGCGGATATATTTGCGGCCGGTCGGGCCGGAAGATGCTGAGCTGCTTTTGTCTTGGGGGCAGGATCCCTATTACCAGGAGACGGCAGGCTTTGCCCATTACCGGAATCTGGCAGAAGCTGAAGAAGGAGCCTTGGCCTACCAGCAGCGGCCGGCCAGCTACATGATTTGCTTGAAAAAGGGCCAGGCGATCGGTCTGCTGGAGCTGTACCCCCGGGATGGCCAGTCCCGGGAGCTGGGCTTTTTACTGGATAAAAAGTACCAGGGGCAGGGCTACATGACTGAAAGCATCAACTGCCTCTTAGGGGAGGCTTTTAAAGATCCGGAGATCAAGGAAATCTGGGCCGGCTGCCGGGCAAACAATTTGCGGCCCCAGCATTTATTGCAAAAGCTGGGCTTTCGGCAGATGTATGAAGTCGATTACCGGCAAATTCCGCCTTTTTTGGATTTTTCAGCCAAGTATTATTTGCTAAAACGGAGCGAATAG
>SRR1919932_01631 membrane protein
ATGAGTTACGAACAAAGCCGCAAGCTGATCAACCGGCTGACCATTATTTCAACCATCGTGATCATTGGCCTCTGCATCTACTGGTACCAGCTGGGGATTTTTACCAGCCAGGCCAAGATGAGCGCCTATCTGGCTGGCAAAAAGATCCTCGGCCCCATCATCTTTGTCTTGATTCAGATCATCCAGGTCGTGATCCCGATTATCCCCGGCGGGGTCTCCCTTTTGGCCGGGGTCGTCTTCTTCGGCGCCGGGCCCGGTTTTATCTACAACTATATAGGGATCGTCATCGGCTCCTTGATCAACTTCTTCCTGGCCCGCTACTACGGCAAGTCCTTCATCTTGCACATCGTGTCAGAAGAGAGCTTGGAGAAGTATACCAAGTGGACTAAGAACCAAAAGAAGTTCAACTGGTTCTTCGCCATCTGCATCCTGGCCCCGGTTGCTCCGGATGACCTGCTCTGCCTTTTAGCGGGTTTAACGGAGATGAAGCCCTGGACCTACTTCTGGATTATTGTTCTCTGCAAGCCTTGGACTATCGCGGCCTACAGCCTGGGCCTGGTCTACGGGGCCCGCTGGATCATGAGGCTGATGTGA
>SRR1919932_01632 esterase
ATGGTTGTGACTGTTAACAATATCGCTTATGACCTTAAGCATGGTCTCAAGACCGACATCTACTATCCCAACGATACCGACTCACAGACAAAAATCCTCATCTTCTGGCACGGCGGCGGCTGGTTCCGGGGGAGCAAGGAAAGCATTAGGGACGTAGCCATCGACCTGGCCAACGCCGGCTTCATGACCTTTGTGCCCGACTACCGGCTGGCTCCAGCGAACCACTTCCCGGCTGCCCACGAGGATGCCCTCAACTTCGCGGCCTGGCTTTTAGCTTCAAACTACACCGACGAAGGCGATGAAAACAATATCGTCCAGATCGGGGCCAGCAGCGGCGGCACCCTGGCTTTGAAGGTGGCCGGCATGTACGGCTTTCCAACCGTCACCTGGTCAGCCCCGGTCGACTTCAGCAGCTGGCTGGCCGACCACCAGGAGGTCAAGCCATCAGTCAATGCTAAAGAAGAACTGGGCTTGACCAAGCAGCAGGCCATCAATGAAGCCTTTTACAAGTACTTCGTCTTGACCTATGCCGGCAGTGAAGACTCCGACCTTTTGGCCGACCTGGACGCTCAGAGCTACGACTACACCAAGTTGGGCCGCCTGCTCATGCTGAATTCTGCGGCTGAACTAACCGACCTGGCCGGCGTTACTGACTTTGCCGGCCGCCTGGCCGGCCGTGGCCACCAGGTTGACCTGGAAATCATCCCCGGCCACGGCCACGCCATGGACTACGGCCGGGAATATCTCCGGGAAAGCATGACCTATCTCAACTATGCCCTCAGTCTGAAAACGGGAAGCGAATAG
>SRR1919932_01633 Cro/Cl family transcriptional regulator
ATGATAAACATTGAAAAATTCATCAAAATCCGCAAGTCACTCAAACTCTCCCAAAATGAGCTCTGCAACGGGATCTGCACCCAGTCAACCCTAAGCAAGTTCGAAAACAACGGGCAAATCCCCTCTTTCAAGATCCTCAAGCAGCTCTGCGAGCGGATGAACATCTCTTTATCCGACATCATGCTGACCAGCACGGAAAGTGAAATTGCCCAGAAGCTTTTTTCCGCGGACTTCTACTTTATCACCTACGACTATGACCAGGTCCGCAAGATCCTCAAGCAGGTCAATGAGAAAAAGATCCGCGACAAGCAGGACCTTCTGCACTACAACTACCTCTGCGGGAAGCTGGCCCTGGACGGGGACCACAACGATGTTTCAGCCCTCTTCTATTTCAACAATATCTTGACGACGGACAACCTCAAGGCCGACAACATCTACCGCCTCTTGGCCCTTAAGGGCTGCAGCCAGGTTTACGCCAGCCAGGACATGGACAAGGCCTCTCACTACTTTGACCAGATCCTGGGCCAGATCAAGAAAGTCGAAATTAAGGACAGCCTAAGAGAACTCCAAGTCATGTCCATATTGACGGCAGCCGGTGAATTCTATGGGCAAAACGGCCAGTACAAGCACGCTGACGACCTGCTCAACTACGCCTACGAACTGGCATCGAGCCACCATGTGGTCTACTTTTTAGCCCGGGTCGTTTACCAGCTGGCTCTGGACGACTTGGCCCAGAAGCGGTCCCTAAATACTGCCCTGGAGCACTTGCATGACTCCCTGGCCTTCGCCCGCCTGAACAAAAACGAGGTTATCCTCAAAGAAGGCGGCAAGCTCCTTAAAGAACTTGAAGAGAAAGCATACGAAAACAGTCAATCGCGAGATTGA
>SRR1919932_01634 nucleoside 2-deoxyribosyltransferase
ATGACGGCAACAGCACGTATTTATTTAGGTTCATCTTTTCACCGTGACCACCATCAAGCACGGGCCAAGCAGGTCCGCGAATACTTGGCGGCCAACCCGACGGTTGAACATGTCCACTTTCCCTTTGACCAGCAGGTAACCGACCCGGCTGAAGACCCGAATGTCGGCTTTGGCGACGAACGCAGCCTGCTTTGGAAGCAGCAGACCTACCAAAACGACATCAACGGCCTGTCCATGGCCAACTGCGGGGTCTTCCTTTACGACATGGATGAACTGGATGACGGCTGCGCCTTTGAAATCGGCTTTTTGCGGGCGCAGAACAAGCCGGTCATCATCGTGCCTTTCACTAACCAGCCGGAAAAGAAGCCAATCATGAACTTGATGCTGTCTGAAGGGGCAACTGCTTTTATCAAGGGTGACCAGGAACTGGAACTCTTAAAGACTTACGACTTTAACAACTGCCCATGCCGGCCGCTGACTGGCTACGGCACTATTTAA
>SRR1919932_01635 glutamine amidotransferase
ATGCGGATCAACGTTTTGCAGCACACCCCGAATGAGGGGCCAGGGGCCATCAAGGCCTGGGCCGAAGACCGGGGCAATAAAGTCTATGTATACCATCCGGAAACTTTCGGCATCTTCCCGAAAGCTGATGAAACTGACATGTTGGTCGTTTTGGGCGGGCCGATGAGTCCGGGCGATGACCTGCCCTGGCTGGAAGAAGAGCGGCAATTGATCAAGGACTGCCTCAAGCAACACCTGCCGATTCTGGGCATCTGCCTGGGCGCCCAGCAAATTGCCATCTGCTTAGGCAGCAGCGTGTACCCGGCGGCCCACAAGGAAGTCGGCTGGGCTCCGGTCTACAAGCAAAATGACGCTATTGCCGGTTTGCCAGACAAGCTCCTGGCCCTGCACTGGCACCAGGACATGTTTGAAATGCCGGCTGAAAGCCACATGCTTTATTCCAGCGACCTCTTGGCCAACCAGGGCTTTTTGGTCAATGGCAACGTGATCGGCCTGCAGTTTCACTTAGAGCCTTTGGCTGACAATGTCCGCGAAATCGTCATCAATGACGGCGCCTACGCTGAAAGCGGCAATGACTTACACCAGACTCCGGCTGAGATTCTGGCCCAGCCTTTGCCAAGCGCCAACAAGCGCGCCATTTACACCATGTTAGATTATTTAAGCGTCCACTAG
>SRR1919932_01636 succinate-semialdehyde dehydrogenase
ATGGCAAAATACGAATCAGTGAACCCATATACCAATGAAGTCTTCGCCAGCTACGAAAACCCGACTGACCAGCAGATTGAAGAATCTCTGACCTTAGCCCACGCCCTCTACAAGAAGTGGCGGCATGAAGAGCCAAGCAGCCGGGCCGCCATTTTGAAGGACATCGCGGCCAAGTTTCAGGAAAAGGAAGAAGAAATGGCCAAGACCATGACCCTGGAAATGGGCAAGAAGCTCAGCGAAGCCAAGGAAGAAGTTGAAATCTGCATCGGCATCCTCAACTACTACGCCGACCACGGCCCGGAGCTTTTAAAGCCGGTCGACCTGCCTAACCCATACGGGCGCGCCTACTACTTAAAGCAGGCCACCGGGGTAATCATGGCCTGCGAACCATGGAACTTCCCTCTTTACCAGGTCATCAGGGTCTTTGCCCCGAACTTTGTCGTCGGCAACCCGATGCTGCTCAAGCACGCCCATAATGTACCAAGCTCTGCTGCCCTGGCGGCCAAGATCGTCAAAAGCGGCGGGGCGCCGGAAGGCAGCTTGCTCAACCTCTACCTCAGCTACAGCCAGCTAGACCAGGTCATCGCTGATCCGCGGGTACAAGGTGTCGCCTTGACCGGGTCTGAAAGAGGAGGGGCTTCCGTAGCCGAAAACGCCGGCAAGAACTTGAAGAAGTCCACCATGGAACTGGGCGGCAACGACGCCTTTATCGTCTTGAGCGACGCTGACCCGGCAGTTTTAAAGGCAGCCTTGAGCGACGCCCGCACCTACAACAACGGCCAGGTCTGCACCTCATCCAAGCGTATGATCGTTTTGGCTGACCGCTATGAAGAAGTCCTGGCAGACATGAAGGAGATTTACTCCGGCCTTAAGTGGGGCAACCCGCTGGAAGACTCCACTACCCTGCCGCCGATGAACTCCCAAGCCGCCAAGGAAAAGCTGGCCAAGCAGGTGGAAGCGGCAGTTGCCGGCGGAGCCAAGGTCTACTACGAGTACCCGGAAATTGATGCTCCAGGCGCCTTCAGCCGGCCAATTATTCTGACCGACATGACTAAGGACAACCCAATGTTTGACCAGGAAATGTTCGGGCCAGTCTGCGTGGTTTACAAGGTTAAAGACGAAGCCGAAGCCATTGCCTTAGCCAACGACTCCAGCTACGGGCTGGGTTCATCCGTCATCTCCAGCGATATCAAGCACGCTGAAGAAGTCGCCAGCCAGATTGAAACCGGGATGACGGTCATCAACGGCCGCTGGATTACTGACGGCAGCCTGCCATTCGGCGGGGTCAAGAAGTCCGGCTACGGCCGCGAGCTCAGTCCTTTGGGCCTGGACGCCTTCGTCAATGAACACCTGGTGATCGACTTTACTGACCAAAACCAGCAATAA
>SRR1919932_01637 ATPase
ATGTTTATCGGCAGAAATCAAGAGCTTACAGCTTTGAATAAGCTCTATCAAGAAGACAGCTTTCAATTTGCGGTCATCTATGGCCGCCGTCGTATCGGGAAAACTAGCTTGATCAACCAATTTCTTAAAGGCAAGCGGGCCATCTATTTTACTGGTCTTGAAGAAAACGCCTTGGAAAACCTGGCCCGTTTTTCTGACGCGATTCACGCCTACGAAGATCCCAGCTATCTGGATGGACCTAATTTTGCTTCCTTTGAGCAGGCCTTCAAATACCTCGTCCATCTCTCTGAGAAAAATGGCCGCTTAATCTTAGTCATCGATGAATTTCCTTACCTGGCGAAAGCCTATCCGCCAATCAGCTCAATGCTGCAATCCTACATCGACCATTATTTTAAACAGAACAAACTCTTTCTTATCCTCTGCGGCAGCTCCATGCCCTTCATGGAAAAGCAGGTCCTTGGCTACAAGAGCCCGCTTTATGGCCGCAGAACTGCCCAGTTTAAGCTGAAACCCTTCAGCCTGCATGATGCCGAAGAATTTTTCCCGCAATTAAATAAGGAAGAAGTTTTTGAACTCAATGCCATCACCGGCGGAATTCCCCTCTACCTCTCCCTGATGTCTCCCAAAAAATCCCTTAGGGAGAACATCAAGGACAATTTCTTAACCACCAGCGCCATGCTCTATGACGAGCCGATGAGTCTGCTCAATCAAGAACTCCGCGAGCCGGCAAGCTACAGCTCCATCATCAGTGCCATCGCGGCCGGGGCCAGCCGGCAGTCAGAGATCTCAACTAAAACTGGTATTGCCAGCGGAGCCCTTAGCCCGTACCTGGACAATTTGATCGACCTGGGCATTGTCGAAAAACGGTTGCCGGTTACGGAACTTGATAAAGCCAGAAGCCGAAAGACCATCTATGCCATCAAAGATGGCATGTTCCGCTTCTGGTATACTTTCGTCGGCAAACGGGTCAGCTTTATCGAACGGGGGATTACCGAGCCAATTTTAGACTACATCATTAAGCAGCTCCCCCACTTCATGGGACCAGAATTTGAAAAACTCTCCCAAGAATACCTCTGGTCCAAACTGTTTGATCCAGACCTGGTGCCAGAGCCTTTTGTCAACTTAGGCAACTGGTGGGGACCGGATCCCAAGGAAAAGAAGCAAGTCGAAATGGACATTGTCGGTTTCGATGACCAAAAGCTGAACGGCTACTTTGGCGAATGCAAGTGGAAAAACGAACCGATCTCCGCGGATATCCTCGAAACTCTCATCTACCGAAGCAGCCTCTTCCCCACTCCTAAGGAAAATTACTACCTGTTCTCCAAGACCGGCTTTACTGATAAATGCCAGCAGCTTGCCCAGCAAGTCGACTGCCACTTAATTACCTTCGACATGATGTAA
>SRR1919932_01638 hypothetical protein
ATGCTTATCCTAACAATGGAAGGATTAATCTGTAGTGTTATGAAACAGATTTTCATGAAAGTTTTTTCGGTAACGTTAATTCTGTTTATTTTTGCTTATATAGTTGAGCAGCTAACCAATAGGAATAGCAACTACTGGAGTATCATTCCGATATCTGTCGTAGGCTTAGGCAGCTATGAACTCTTGAGAAGTGATTCTGTGTCTGATAGAGTAAAAAAGGTGATCAATATCATTACGGTTGTAGCTGCAGTCTTATTAGCAATAATTCTTGTGTATGTTGCATTACTATAA
>SRR1919932_01639 hypothetical protein
ATGAAAAAGTGTAAACGATATCTAACTGTCTTTTTTGTTACCATGATTACTGTAACAATTTTTTTGCCATTCAGTGCTGCTAGCGTAAGTGCGAAAACTAACTTGAATGAAGCGATGAGTTTACCTGACAAGAATATTGAGATTGACAAAAAGTATTGGTCTGATGAACGAATTGATCAACTTGCTGATATTTTACAAAAATCTCATCCTGAGTTTTCAAGGAACTACATTAAGGCGCTGATTCGAGATGAATTAAATGATGGACAAATCCCATCTGTATCTGTATTCAAGAGTCAAAAAACAATCTCCTCAAGATCCTCGTGA
>SRR1919932_01640 threonyl-tRNA synthetase
ATGAGTTTTGCTTTGACTCTGCCAGATGGCTCAAAGAAAGAATTTGACGCAGCTGTTTCCGTTGCTGACCTTGCTTCCAGCATCTCAACTTCCCTGGCTAAGAACGCCGTTGCCGGCAAGGTTGACGGGGAAATCAAGCCCCTTGACTTTCAGCTGGACGCTGACCACGAAGTTGCCATTTTGACCAACAAGGACGCTGAAGGTTTGAGCGTCTTGCGGGCAACTGTTGCCTTCGTTTTGGAAGCCTTGGTTAAGGACAAGTACCCGGAAATCAAGCTGGGCCAGGCTGAAGTTTCAGAAGACGGCTTCTTCATCGAAACTGACAAGGAAGACCAAATCAAGGTTACTGAATTGCCAGACTTGGAAAAGGCCCTGCAAAAGGCTATCAAGAACGGCGAAGCCATTGAACACGTACAAGTAGCTAAGAGCGAACTGGCTGAAGCCTTCAAGGGCGACCCATACAAGAGCGAACTTTTGGCCAAGGAAGGCGACGTGGTTAACGCTTACAAGCTGGGTGACTTCGTTGACTTTGGCTTTAGCGCGCTTTTGCCAAACACTGGCAAGATCAAGAAGTTCAAGCTGTTGTCAGTAGCTGGTGCCTACTGGAAGGGCAAGAGCTCAAACCCAATGCTGCAAAGAATCTTCGGGACTGCCTTCTTCAAGGAAGCTGACCTGGAAACTGACCTTAAGCGGCGGGCAGAAATCAAGGAAAGAGACCACCGGACTATCGGCCGGGACCTGGATCTTTTCTTCGTTGACCCTAAGGTTGGGGCAGGTTTGCCATACTGGATGCCAAAGGGTGCCACTATCCGCCGGATCATTGAACGCTACATCGTGGACAAGGAAGTCGCAGCCGGCTACCAACACGTTTACACGCCAGTTTTGATGAACCTGGACGCCTACAAGACTTCCGGCCACTGGGCTCACTACCGGGAAGACATGTTCCCGCCAATGGACATGGGTGAAGGCGAAATGCTGGAATTGCGGCCAATGAACTGCCCATCCCACATCCAAATCTACAAGCACCACATCCGGTCCTACCGGGAACTACCAATCCGGATTGCTGAACTGGGGATGATGCACCGCTACGAAAAGTCTGGTGCCTTGTCAGGTCTGCAACGTGTCCGGGAAATGACTCTGAACGACGGTCACACTTTTGTAGCTCTGGACCAAGTTCAAGAAGAATTTGCTAGAACTTTGCAAATCATCATGGACGTTTACCACGACTTCGACATCAATGACTACTACTTCCGTCTTTCATACCGGGATCCAAAGAACACTGACAAGTACTTTGCCAACGATGAAATGTGGGAAAGAAGCCAAAGCATGCTGAAGGCAGCCATGGACGACATGGGCCTGGACTACGTTGAAGCTGAAGGTGAAGCTGCCTTCTACGGTCCAAAGTTGGACATCCAAACCAAGACTGCTTTGGGCAATGACGAAACCATGTCAACCATCCAACTGGACTTCATGCTGCCAGAACGCTTTGAACTGTCATACATCGGCGCTGATGGCGAAGAACACCGTCCAGTTATGATCCACCGCGGGATTGTCGGTACTATGGAACGCTTTATCGCTTACCTGACTGAAATCTACAAGGGTGCCTTCCCAACTTGGCTGGCTCCTGTTCAAGCTGAAATCATTCCAGTTAACCTGGACGCTCACTCAGACTACGCTAAGAAGGTTCGCGACGAACTGGTAGCCAAGGGCTTCAGAGCAGAAATCGACTTCAGAAATGAAAAGCTGGGCTACAAGATCCGTGAATCACAAACCCAAAAGGTACCTTACACTCTGGTGCTTGGGGATGATGAAATGAACGCTGGCACGGTTAACGTTCGTCCTTACGGGACTGAAGAACAAAACTCCGAAAGCCTGGCTGAGTTCATGGACAAGCTGAGCAAGGACGTAGCAAGCTACTCCCGCGAAGACTAA
>SRR1919932_01641 primosomal protein DnaI
ATGTTGAGTGACGCGGCTAAGGCCGCGGCAGCCAAGAACGGGCAGGATTTTTCGGCGGAATCATTTGAAAAGATGAAAAAACAGGTCTTCGCTGACCCCGACGTCCGGGCCTTTCTGACGGCCCACCAGGACCAGCTGACTAAGGAGAGCGTGGACGCCAGCTTTGCCAGCCTCTATGAATACTGCCGGCAAAAAGACAGCCACGACAAGGTGATCAGCGGCTATTTGCCCCAGCTTTTCATGGAGGGTCCTTTAATCGGGATCCGTTACCAGGCCAGCCAGGACAAGCAGCGCCGGGACAAAGAAGCAGCAGCCAAGCGGCGGATTGAGTTGATTGACCTGCCGGAGAAATTGCGCCGGGTCAAGCTGGCTGACTTGGACATGGCCGATGACCGCAAGCAGGCCTTGTTTGAAGTGGGGGCCTTTTTGCAGGCTTACCAGAGCAATCCCCATGCCAAGGGCCTCTATTTAAGCGGGGACTTTGGAGTCGGGAAGACCTACATTTTAGCGGGCCTGGCCAACCGGGTAGCGGAAATGGGCGGCAGGGTGATCTTTTTGCACATGCCGACCTTTATCGCTGGTTTGTCCAGCCACTTCGGTGACAACAGCCTGCAGACGGAAATCCAGCGCCTGGCGGCTTGCGATGTCTTGATTTTGGATGACATCGGGGCCGAGACCCTCAGTCCCTGGTCAAGAGACGACGTTTTAGGCGTGATTCTCCAGGCCCGGATGGACAATGACCTGCCGACCTTCTTCAGCTCCAACTTTGACATGAAGGCCCTGGAGAGCCACTTTAGCGCGACCAAGAACGCGGATGACCCGGTCAAGGCGGCCCGGCTGATGCAAAGGGTCCGCTATTTGGCTAAAGAAGTGGTGGTTTACGGGAACAACCGCCGCCTGCCTTAG
>SRR1919932_01642 replicative DNA helicase
ATGTACGAAAATTCCAATCCCCGCCTCAGGTACGTCGTTTTAAATGAGCTGGCCGACCAGTCAGGGCAAGGGCAGGTCTTAATCAAGCTCTACCAGCCCTTGATCGGGGCTTTAGGGGTTGCCCTCTACCAGACCCTGGTCCAGGACTTTGATCCTTACCGGTCTTTGTCGGCTTCAAGTGCCCTGTACAGCCTGCAAGAAGACCTGGACTGCAGCCTCCGCCAGCTCTGGCGGGCCCTGCATAAGCTGGAAGCTGTGGGGCTACTCAAGACCTATGTCAGCCACAATCTCCGCTTGGGGGATATTCTGGCTTTTAAGCTGCACGCCGTGCCGGAGGCTAGTGAGTTTTTCAACACTTCGCTGTTAGCCAGCCTCTTAAAAGAAAAAGTTGGCGGGGTCCGCTTCAGCCAGCTGTCCCGGGAATTTGCCAAGCAGGCCCAGGTCAAGGAGCGGCAGCTGGACAACCTAGAAGAAGTTTCCGCTTCCTTTTTTGAAGTCTTCCGCCTGCCGGAAAATGAGGCCATCAATCCTTCTGAAGACGTCCAAAAGGCGGCTGAGGAAAATGCCGGCCAGAAGACGGAAGAAGCCCAGGTCAACTTAAAGCAGATCGACTGGCAGTATTTGAAAGACCGCTTCGCGACTTACCAGATCCCGGAAAGCGAGATCGACCGTCAGAAAGACGAAATCCGGTCCATCATGGAACTTTACGGCTTAAGCGAGGAAGAGTTTATCAACGAAACCCTGCCGACCCTGCATGGCAGCTACCAGCTGGACGCCGCGGCGATCAGAAAGAGCCTCAACTACAACTACAAGGCTGACCACCGCCGCAAGCAGGTAATCAAGCGTCAGGAAGAAAAGCAGGATCGGCCGAGCGTGGACCAGCAAGACCAGCAGCTTTTAGACCTGGTGAAGAGCAAGTCCCCGGTCAACTTCCTGGATGACATGAAGCGGGAAAAGGGCGGCTTTACCACTGCCAGAGAGCGGCAGATCGTCTATGATTTGCGGGAAAATGTCGGCCTGGAAATGGACTTGATCAATGTTCTGGTCTACACTTGCCTCAACTATCAGCCGGTTTTGACCCGGGATTTGGCCTACCGGATTGCCAACGATTGGCTGCAAAAGGGAATCACGACCCCGGAAGCCGCTATCAAGCACCTGCGCGCTGGGAAGAAACAGGCCCAGTCAGGGCAAAAGAAGAACTACCCGGCATATTCAGGCAGCCGGCGGCTTGAACAGGGGACTGACTGGAACAAGAAGCAGTTTATCCAGCCGGTCAATATTTCTGATGAAGACCTGCGGAAGATGCTGCAGGGGCCGGACAAGAAAGACAAGTAA
>SRR1919932_01643 NrdR family transcriptional regulator
ATGCTTTGTCCAAATTGCCATCAAAACGCCTCCCGGGTTATTGACTCCCGGCCAACTGACGAAGGGCGGACCATCCGCCGGCGGCGGGAATGCGAAAACTGCGGCTACCGCTTTACGACTTTTGAACGGGTGGAACAGTCACCCCTTTTGGTGATCAAGAACGACGGCACCAGAGAGGCCTTCAGCCGGGAAAAGATCCTGAACGGGGTGGCGGCTGCCTGCCAGAAGCGGCCGGTAAGCAGCGAGCAGCTCAACAAGCTGGTCGACAATGTTGAAAACCGGATCCGGGCTAAAGGAGTCAGCGAAATCTACTCCAAGGAAATCGGGGAACTGGTCATGGACCAATTAGCCGACATCGACGACGTGGCCTACATCCGCTTTGCCTCCATCTACCGCCAGTTCACTGACATGTCCAGCTTCATGAAGACCATGGAGGACATGATGGACCGGCACAGCAAGGCCAAGTAG
>SRR1919932_01644 dephospho-CoA kinase
ATGCCTTTTTATCTGGGACTGACCGGCGGGATTGCCACGGGCAAGTCGACCGCCAGCCGGATATTAAAAGAGCTGGGCTGCCAGGTCATCGACAGCGACTTGATTGCCCACCAGCAGGCCGAAGTGGGCCAGGTCTCCTGGCAAAGGATCTTAGAAGAATTCGGGCCGGACTTCTTCAATGAAGATCGGAGTCTTAACAGGAAGAAGCTGGGCCAGTATGTCTTTGCCAATCCTAAGGCTTTAGCCAAATTGTCTGAAATTACCCAAGGCGAGGTCTTAAAAGAAGTTCAAAAGCAGATGAAAGACAGCCAGGCTTCTGTTTGCGTCATCGATGTTCCCCTGCTCTTTGAGGCTGGCTGGCAGGACTACTTTGACGCTGTCCTCTTGATCGCGGTCCCGGAAGAAGTGGAACTGGACCGCTTGATGAAGCGGGACTCTTTAAGTGAAGCAGAAGCTAAAAGGCGGATGCAGGCCCAGCTGCCCTTAGGGGAAAAACGCCTGTTGGCTAGCTATGTCCTTGAAAATACTGGTACAATAGAAGAATTAAGAGATAAATTGAGCAATCTGCTGAAAACTATCGCGTGA
>SRR1919932_01651 arginine/ornithine antiporter
ATGGAAGAGAAAGTAAACAAAAAAGGGATAGGCCTTGTCGGCCTGACCGCTTTGATCGTCAGTTCCTCCATTGGGACTGGGATCTTCGGCATTACCAGTTCCATTGCCCAATCTGCCGCTCCAGGGCCCGCGATTTTGTCCTGGCTGCTGGTCGGCTTTGGTTTCTTGATGCTTGTTCTGTCATTGAACAATTTGACTGAGAAGAGATCCGATCTTAAGGGTGGTATCTTCGCTTACGCCGGGGCCGGCTATGGCCCTCTGGGCGAATTCATTTCCGGCTGGGCCTACTGGATGAGTGCCTGGCTGGGCAACTTGGCCTTCGCGACTATGCTGATGAGCGCGATCGGGACCTTTATTCCGGTCTTCAAGGGCGGTTCAAACCTGCCTTCAATCATCGTGGCCATCATCTTCTGCTGGGCCTTGACCTTCTTGGTTAACAACGGTGTTGAAAGTGCCTCATTCGTTAACACGATCGGTACTTTCTGCAAGGTTGTGCCATTGATTATGTTTGTTATCATCTGCATCGTTTCCTTCAAGGGCGGGATGTTCACCGCTGACTTCTGGGGCAGAGTTGCCAACAACCTGTCCAAGGGGATCACTACTGGCGGCCTTTGGCCACAGATGAAGGGGACTTTGATGACCCTGATCTGGGTATTTATCGGTGTTGAAGGGGCCTCAGTCATGGGGTCACGTGCCAAGAGCCTGAAGGAAGCGCAACAAGCAACCATGCTTGGTTTCGTTCTGCTTTTGGTCTTTTACATGCTGATTTCAATCCTGCCATACGGCGCACTTACCCGGGCCCAATTGGCCAGCGCTGCACAACCAGCTTTGGGTAACGACTTGAAGATGATCATCGGCGACTGGGGCATGATGATTATCAACATTGGTTTGATCATTTCCACTATCGTTTCCTGGCTGTCATGGACCATGCTGCCAGCAGAAACCATGCTTTTGATCGCTGAAGACGGTGCTGCTCCTAAGTTCTGGGGCAAGCTGAACAGCAAGAAGGCGCCAACCGACGCCCTGTTCACTACTGCTATCCTGCAGACAATTTTCCTCTTCTCCTTGCTCTTCACTAACAAGGCTTACGAATTCTGTTACACTTTGGCTTCAAGTGCCATCTTGTTCTCATACCTGTTTGTCGGCTTGTACCAAATGAAGTTCAGCCGTGAACACAAGGAATGGACTCAATGGACCTACGGGTTATTGGCAGCCCTCTTCCAATTCATGTGCATGATTTTGGCTGGCTGGCAATCAGTCTTGGCTGTTTCCTTGAGTTACATCCCAGGCCTGATCGTTTATTACCAAGGCGTCCGTGAACAAGGCAGAAAGCTCAACAAGAACGAAAAGATCACCTTTATCTTTATTGCAATTCTCTGTGTTCTGTCTATCGTGCTGATTGCCAATAAGAAGATCAACATTATGTAA
>SRR1919932_01652 arginine deiminase
ATGACAAGTCCTATTCATGTAACTTCAGAAATTGGTAAGTTGAAGACAGTTATGCTGCACAGGCCAGGGCGCGAAATCGAAAACATCACGCCGGATTCAATGGAACGTCTCTTGTTTGACGACATTCCATACCTGCCAATCGCGCAAGAAGAACACGACTTCTTCGCACAAACTCTGCGCGACAATGGTGCCGAAGTTATCTACACCGAAGACCTGGCTGCTGAAGCTTTGGCAGACGAAGCTGTCAGAAACGAATTCATTGAAAGACAAGTTGTTGAAGCAGGCTTTGTTGCCGGCGTAACCCATGACGCTTTGGTTGAATATTTGAAGGCTCTGACTCCAGCTGAACTGGTAACCAGAATCTACGAAGGTATCCGCAAAGACGACCTGGAATTGACTATCCTTGACTTGGCTGCAGTGTCCGAAAACACTGAATGGCCATTCTTGATGGATCCACTTCCAAACGCTTACTTCACCCGTGACCCGCAAGCTTCAATCGGCGACGGGATGTCAGTCAACAAGATGACTTTCCCAGCTCGTCAGCGTGAATCAATGATCACTGAATACATCTTGAAGTACAACGCTCGCTTTGCAGGCAAGGTTAAGGTATGGCGTGACAGAAACCACGCAAGCCATATCGAAGGTGGTGACGAACTGGTATTGAGCGACCACGTAGTAGCAATCGGTATTTCACAACGGACTACTGCTGACGCAATTCAAGACATCGCTAAGAGCTTGTTCGCAAACTCTGACTACGACACTGTAATTGCCATCTCAATTCCGCACAACCACGCGATGATGCACCTTGACACGGTGTTCACCATGATCAACTACGACCAATTCACTGTTCACCCGGACATCTTGACTGAAGATGGCAAGGTTGACAACTGGGTACTGCACCCAGGCAAGGAGGGCGAAGTAACCTTCGAACACCACACTGACATCAAGGAAGTGCTGAAGAAGGCACTGGGCAAGTCAGAAATCGACTTGATCCCAACTGGTAACGGTGACCCAATCGTAGCTCCGCGTGAACAATGGAACGACGGTTCAAACACTTTGGCAATCGCTCCAGGTGAAGTTGTAACTTACAACAGAAACTACGTCTCCAACGCTTTGCTGAGAGAACACGGGATTCTCGTTCACGAAGTTCGCTCAAGCGAATTGTCAAGAGGCCGTGGTGGTCCACGTTGCATGTCTTGCCCAATTGTTCGTGAAGACATCTAA
>SRR1919932_01653 carbamate kinase
ATGTCAAAAGTTGTTGTAGCATTGGGCGGTAACGCCCTCGGCAAGTCACCAGCCGAACAATTGGAATTGGTTAAGAACACAGCTTCCTCACTGATCGGTTTGATCAGCGCCGGCAACGAAGTAGTTATCAGCCACGGCAATGGTCCGCAAGTTGGACAAATCAACCTGGGCATGAGCTACGCTGCTGAACACGGCCAAAGCGCTGCCTTCCCATTCCCTGAATGCGGGGCAATGAGCCAGGGCTACATTGGCTATCATCTGCAGCAAAGCCTGCAAAACGAACTCCGCAAGCGCGGCATGACCAAGGATGTGGCAACCATCGTAACGCAGATCGTTGTTGACCCGGCTGACACCGCCTTCCAAAACCCAACTAAGCCGATTGGGGCCTTCTACACTAAGGAAGAAGCCAACTCAATCGCCGAAGACAAGGGCTACATCTTCAAGGAAGACGCTGGGCGCGGCTGGCGGCAGGTTGTTCCTTCACCGACCCCAAAGAGAATCGTTGAATTGAACAGCATCAAGACCTTGATTGAAGCAAATGAACTCGTTATCGCCGGTGGTGGCGGCGGGGTGCCTGTAGTTGAGACCGAAGAAGGGCTCAGGGGCGTGCCAGCCGTTATCGACAAGGACCGCTCCAGCGCATTGTTGGCAGACAATGTTGGCGCGGACAAGCTGATCATTTTGACCGCTGTTGACTACGTAGCCATTAACTTCAACAAGCCAGACCAAAAGAACTTGGAAGACATCTCTGTTGAAGAAGCCAAGAAGTACATTGACGAAGGTCAATTCGCGGCCGGCAGCATGCTTCCTAAGGTTCAAGCCTGCATGTCATTCGTTGAAGGCCACCCGGAAAGAGAAGCCATCATTACTTCTCTGTCAGGCTTAGACGCTGCTCTTGCTGGACAGTTGGGGACTGTTATCCACGCATAA
>SRR1919932_01654 ornithine/putrescine carbamoyltransferase
ATGGCTTTTAATTTACGCAACCGCAGTTACTTGACTCTCGCAGACTTTAACACTCGTGAAATGGAATACCTGCTTGACTTGGCAGAACAACTGAAGAAGGACAAGTACGCTGGTGTTGAACAACCTCGCTTGAAGGGCAAGAACATTGCTTTGATCTTCGAAAAGGACTCAACCAGAACCCGTTGTTCATTCGAAGTTGGTGCCCACGATCAAGGCGCTCACGTAACTTACCTTGGGCCAAGCGGCTCACACTTCGGCCACAAGGAATCAGTTAAGGACACTGCTCGCGTATTGGGCGGCATGTTCGATGGTATCGAATTCCGTGGCTTCTCACAAGAAGCAGCTGAAACTTTGGCTAAGTACTCCGGTGTCCCAGTTTGGAACGGTTTGACTGACGCTGACCACCCAACTCAAGTCCTGGCTGACTTCTTGACTGCTAAGGAAGTTTTGAAGAAAGAATACAAGGACATCAAGTTTGCCTTTGTTGGTGACGGTCACGACAACGTATCCAACGCTTTGATGCTGGGTGCCGCAGTTATGGGTATGGAATACCACGTTGTAACTCCTCCAGAACTGAACCCAAGTGAAGAAACTTTGGCAAAGGCTAACGCAATCGCTAAGGACACTGGCGCCAAGATCGTTGTTTCAAACGACATTAAGGAAGGCGTTAAGGGCATGGACGTAATCTACGGCGACGTTTGGGTATCAATGGGTGAATCCGACGACAAGTGGAAGAAGCGGATCGAATTGCTTTCACCATACCAAATCACCATGGACGTTCTTAAGGCTACTGAAAACCCTAACGTTATCTTCGAACACTGCCTGCCAGCCTTCCACAACCTGGAAACTGAAGTTGGCCGTGAAGTTTACGAAAAGTTTGGCTTGAAGGAACTTGAAGTAACTGACGAAGTCTTCGAAAGCAAGCACTCAGTTGTCTTCCGTGAAGCTGAAAACAGAATGCACACTATCAAGGCTGTCATGGTTGCTACCTTGGGCGACTAA
>SRR1919932_01655 chemotaxis protein CheY
ATGCACTTTTATATCACAAACAAAAGCACCAAGAACTTACAACTAATTAGTGACGCCCTGGAGCGGAACTTCGAAAACATCATCGTGGGCCGGTCAACTGATGCCCAAAGGACCTTCGATGATCTCCGCCAGCTCAGAGTTGACGTATTGGTGGTCGACTATGACCTGGCTCCTTTTGACGGCCTGGCTCTCTTAAGGCGGCTCAAGCAGGCCAACATCTTGCCCCGGGTGATCATGACGGCCAATACGCCGTCAGAATCCGTGATTACGGCTGCCTACCAGAACGGCTGCGATTTTTTTATCCACCACCAGCTCAATTCTGAAGAGATTGCCCATATTTCCAAAATCATCAGCACAACCCTGCAGCTTTTGAGCAACATGCGGGTGATTAGCGAGCTCTCCGGCAGCTTGAACAATCCATATGGCCGCCAGCAAACCACCCACCGCCAGCAGATCGACCATGTTACCGACACCCTGCGCTTTTTGGGCATTGCATCAGAAAAAGGCTATGATGACATCATGAAAATTATCCGCTTGATGGTCGACAAGGATATGAGCTTTGACCAGATTGACCTGGAAGAAAGCTTCGGCATCAGCAGCCGGGAGAAAAAGGTCATCTACCAGCGGATCCGCCGGACCCTGCACATCGGGATCGTCAACCTGGCCACCATGTGCATCGACTACCCGGACAACGAAATGCTGCTGGACTATGCCAACAACCTCTTTGAATACCAGAACATCCACGTGGAAATGCAGCACCAAAACGGCAAGGAGCTGGAGCGGGGGCAGATTTCCCTGCAGCACTTTTTTGACGGCCTCCTTCAGGAAAGCTACCGGGTCAAGCGGGACAGCAACAATGAGCTCTGGTAA
>SRR1919932_01656 B3/4 domain protein
ATGTTAGAAAAAGTTACCGTTGACCCAAGTTTTTGGGAACTCTTCCCTGACGCGCAAGTAAACATCATGCTCGTCAGCGGCATCGACAACCATGACACTGATGACAATTTGGCCTGCCGGCGCAAGCTGCTCAGAGAAGGCAGCGACAAGGCGGAAGACTTCCTGGGTGCTGCGGCTTTTGCCAAGAACCCAGTTGTTGCTGAATGGCGGCAAGCCTACCAGCAATTCAAAAAGAAGAAAGGCGTCCGGGCTTCCATCGAAGCGCTCTTGAAGCGGATCGACAAGGGCGAGGACTTGCACCCGATTTCACCATTGGTTGACGTCTACAATTCAGTTTCCCTGGCTCATGGTGTCCCAATCGGCATCGAAGACCAAGATAAATTGGCCGGCACCATGCACCTGGGCCAAGTCCACGAAGGCCTGCCCTTCCAGCCGGTCGGCGCTGACAAGGACGAACCGACCCTTGAAGGGGAAGTTGCCTGGTATGACGATCAAGGTGCCGTTTGCCGCTGCCTCAACTGGCGGGATGCCCAAAGAACCATGCTGGATGAAGATTCAACTAAGGGCGTAATCGTAATTGAATCAGTCAACGCTGACCAGGCCCAGCGAGCTAACGAAGCCATGAGCGACTTGGAAGAGCTTTTGGAAGAATTTTTCGGCATCAAGCCGGACAAGTCTGTGGTCTTGACCAAGGACGCGCCAAGCGTGGACGTTGACTAA
>SRR1919932_01657 amidohydrolase
ATGGGCGACGCGGCCATTCAGCGGGTGATCGACGTTTGCCAGGATCTGGATCCTTGGCTTGAAGGTCAGCCGTCAGTCAGAATCGAGCACGCTTCACTTTTATCCGACTCCATGCTCAAGGAGCTGAAGGGGGCAAAAATTGGACTGGCTGTTTCCACCCAGCCGATCTTCTTCTTCGCCGAAGAAGATTCCTACCGGCAGTTTTTGTCAGCGGACCAGCTAAAAATGGCCTACCGGATCAAGAGCTTAGACAAAGAAAATATTCTTTTCAGCCTCAGTTCTGATGCCCCATGCACCCCATGGGCGGAACCGGACAGTCCTTTTTACGGAATCTACGCGGCAGTGACCCGGCACACGGCAGCAGGCGGTTTTATTAATGAAGATGAAGGTATCCCAGTAGTCCGGGCCATCCTGGCTTATACCAGAGACGCGGCCAAGATGGGCGGCTTCGTCAATAACGGAATCTTGATCCCGGGCAAGGACGCCGACTTTGTTATCTTGGAAAGAGACATCTTCAGTCAAAAGGCAGAGGACTTAGCCAAGGTCAAGCCGGCGTCGACTTGGATTGGCGGAGAAAAGGTCTGGAGCCAGGAAAAGAAGTAA
>SRR1919932_01658 hypothetical protein
ATGTTGAGAAAATATTACGTGACAATCGTCTTTACCCTGCTGGCTCTGCTAAATTTGCTGAGCAGCTGGGGAACGCTGCAGTACCGCCTGATCATGCTGGCTTTAAACCTGGTCTGCGGCTTTGGCATGGAGTACCTGGTGAACAAGAAGGCGCCGGCAGAGAAATACAATTTGTGGAAGGGTATCTTGCAGTAG
>SRR1919932_01659 macro domain protein
ATGAATTTAGAAATCTGGCAAGGGGATATCACGACTTTGAAGGTGGACGCGATCGTCAACGCGGCTAACCGGGAACTGCGGGGCGGCGGTGGCGTCGATGGGGCTATCCACCGGGCAGCGGGACCTGAATTGAATGAGGCCTGCCGGGCCTTGGGCAGCTGCGAGACGGGTGAGGCCAAGATCACGCCGGGCTTTAACCTGCCGGCTAAGTACATCATCCATACTGTAGGGCCGGTTTACTCGGGTTCACACAGCGATCCCCTGCTTTTGGCGGCCTGCTACAGAAACAGTCTGCGGGTGGCCAAGGAAAATGGCCTGCACTCGGTCGCTTTTTCCGCGATTTCAACCGGGGTCTACGGCTATCCGTTGGACGCGGCCAGCAAGGTGGCCTTCGGTGAGGTCCGCAAGTGGCTGAGAGAACACAAGGATTACGAAATTCGGGTAATCATGGTGGCCTACGACGCCCGGACTTACGCCTTGTACCAGAAATTGCTGGGCTAG
>SRR1919932_01660 protein-tyrosine phosphatase
ATGGAGATGCAAAGGGTAATTGAACTGGACATGCCGGTCAACTTCCGTGACCTGGGCGGTTATCAAGGCTTGGACGGCCGCCGGGTTAAGTGGCGGAAGATCTACCGGTCGGCGGCTTTAAACGAGATGTCAGCCAGGGACCGGGTCAAGCTGGCCAACCTGCGTATTACGGTGGACTGTGACCTGCGGTCCAGCCGGGAGCAGCGGGACTACCCCGACCTGCTCTGGCCGGGGGTCCGTTTTGTGAATATTGGCCTTTACGCTGAAGGGGACCGCTTCAACCAGGCCCATCCTTTCTTGCGCCTTTTTCACCATCTGCCGGAATTTGACGACTACCTGCCTAAGATCTACCAGCAGGTTTTGTTAAATGAGCATTCAGAAGAGGGGATCAAACGGGTCTTTGAGGAATTGCTGAAGCTGCCGGAGGACCAGGCCTTGGTCTACCACTGCGCGGCCGGGAAAGACCGGACGGGGATCATCAGTATTTTGATCTTGATGGCCCTAGGCGTGGACGACAAGACCATCGCGGAGGACTATTTGCTGACGGATGAATTGTACGATTTTTCCATTGAGAAGCAGCATCCGACTAATGAGAAGCTGTCGCAGGTGATCGCGAAGATGAACGTGACCCGGGGCGAAGGACCCGCGGTTAAAGGGATCACGGAGACTATCCGGCAGGGCTGGGGCAGTTTTGACAAATTTTTTACCAGAAAACTGGGCTTTAAGCAGGCTGACTTGGAAAAGTTCCGGGAAATGTACTTAGAGGAGGAAGAAGAGGACTAA
>SRR1919932_01661 multidrug ABC transporter ATP-binding and permease protein
ATGAAAATCGGAGAACTTGTTAGGCAAAACCGACTGCGGTTTACATGTGCGCTTGCTTTAGAAGTTTTGGGACAGCTATGTGTGGCGGTTGGAAATTATATAATTGGATTTATACTAGACTTACTGGTTAAGAGAGATATTAGTAGATTTTATCTTGTTTTAGCAATATTTTTTGTATTGTATATGGGCGGATATGTCCTAATCAGCTTTGCTGAATACTTATATATCGTACAAGTTCAAGAATATGTTCATCAACTTAGAAGAAAAACAGTTGATTATTATTACCAAAATTCTGAAACTGTTGCTGAAATGCAAAATCATTTGACGAATGACTTTCAGATGTTGTTTGACAATTTTACTCAGCCACTGTTCGTTTTCTTTGACTCTGCTCTAGCTGTCGTATTTTCAGCATACGCGCTAATTACGATGCATTGGATTTTGTTGGTTACAACTGTGCTGTTGTCAGTTATGTTTCTATACTTGCCAAGCATCTTCTCTAAGAAATATCAAGAAAGAACGCTGAATTTTTCTAATATGAACACGGCCTATCTGACTAGTATAAAGAATTGGTTAGGGGGACTAGCTGAAATTCAACGTTATGATGCGAGACACAAGCTAGTTGAAGTTTTAGAAAAGAGGTCTAAGAAATTAGAAGGCTCATTGGTTACGCGTCAAGTTAGCGCAATTGAGATAAACTTTATCAACGGTTTTATGAGCATCTTTTGTCAAGTTGTATTAGATCTCGTAACTGGAGCATTGATTTTTGCTGGAGCAATTTCTATCGGGAAACTTGTCGCGGTTGGCCAATTCTCTAGTACAATATTTAACAGTCTGGTTACGTTGTCTAACTACCTGGAGCAAATCAAGTCAACTAAACCGTTGAATGAAAAGGTAGCTGCTGCCTTAGCTGATCCACCTAAGGATGTAAATACAGATAAAGAATTGGCCTCCTTTGATCATTTGCAGACAACTGGTTTGTCGTTTTCCTATGATCACGGGGAGACAATAAATTATCCCGATTTGAAAATCAAGGCTGGCGAAAAAGTTTTGCTGACCGGTGACAGTGGGACGGGTAAGTCAACTTTGTTAAAGGTTTTGGCGGGAGAGTTGAAAGCAACGACTGGTAATATTGCCTTCTATGATCACAATGATCGGAAAATTGATATTTCACTTAAAGCCATGCATTACGTGCCGCAAGACCCGGTGCTGTTCCCAGCATCGATTGCAGACAACATTACCATGTTCAAGCTTGAGTTGAATGACAAAGTTGGAGAATACCTGCAGAAAGTTGATTTGGCTAAAGATATTGCCAAGTTTCCAAAAGGCCAGGATACTGTTATAGATGTAGAAAAGCTTAATGTTTCTGGTGGGCAGAGACAAAAGATTGTTTTAGCTCGTGCGGAACTCAATCAAAGTGACTTTATTTTGATCGATGAAGCTACGGCTGCAGTGGATCAAGATAGCACGAAGCGTATTTTGAAGAACCTTCTTAAAACTAATGCAACGATTATTTTTATCGGCCACAATTTCACGAATGAGATGGTTGACATGTTTGACAGACAAATTTTTTTGTCTAAATAA
>SRR1919932_01662 serine/threonine protein kinase
ATGAAATATGAGTTAGTTAATGGTGATTGCTGCGTTCGGCAATATAATCATGTCGACATCGTGCCAACCAATTTTTGTGGTTTATCTAGAGAAATACTTTCAAGGGATCCTCAACATGTCTTTCTTCAGATTAATAAATCGGCGGGTTCTTTGCCGCGCCAGGGGTTTAAGATACATGTTTCGGCTACCTTGCAAAACTACCAAGTTATTTTAGATAAAGTATATGACCTTAGTTGTAAAAATAATTTTACGTTTAAGTATATTAGCAACTATAGCTTGTTAGAGCAGTATTTAGGAGGGACAGGCTCACTATGGATGACTGGGAAGTATATTACTGTTTATCCAGAAACTGAAAGCAGATTTAAAGAATTGATTAGAACAATCTACGATTTGGTTGGAGAAGAAGATGGAATTCCAATCTTTACTGACCAGGTTTTTAGGGACAGTAAGAATATCTATTATCGATATGGAATAATTAATTCTGATGATGATTTTATACGTGATGAACAAAGTAATAAGCTATATCGAGATCATGAATTAAGACCGTATCAATTACCATCTTTCGTAAAAGAACCTTTTGAATCTAAAAATGAATATAAACTAGAGGTGATTGGAAAAAAGTATTTTCTAAAAGGAATAATTTCACGAAAAAGTTCAGGAAGTGTTTATAGAGCGCAAGATATTCATGGTAGAGACGTTGTAATTAAGCGTGCAAAATACGGTTTTAAAGATTCAGAAGAAACTGAGATTCAAAAATTACAAAACGAGAGAAAGAATCTAATAAATTGGGAGAAGTATGATTTTATTCCTAAGGTATTAGACTCATTTTATGAGCAGAAAGACTTTTTCTTAGTTGAATCGTACATTGAAGGCTTGACGATTGATGATCTGCGAGCGGAATTTATAGGCGATAAAAGAGATAGTCTTTATTTTGCTAAAATAAGGCACATTGTACTTAATTACCTAAGATGCTTGCAAAGGTTACATAATGATTCTTTTTTTCTAGGCGATATTTCTGCTAGGAATATCATTGTTGATTTCGAAAGTGAAAAAGTGTTTTTGGTTGATGTTTCACAATCGGCGTTGCTAACAAATATGGATGAGAGCTTTTATTATCGAACTCAAGGTTTCTATGATAGACGAGTGGATTATCTATCTTCCGAACTTCAAGATGTCCATCAATCTGGATACTTAGTAATGAGTATATTTTCAAGGGCAAATGACTTTTTAAAAATAGACCGAAGCGGCAAACAAAGTTGGAATTTCTTTATTAAACAGGCAGTTGAAGAAAAAATTCCTACTGTGTTTATTAAGGCTATGAAAGTGCTGATCAATGCTACGGCAGGCAGCTTAGATAGGGCAATCGAAATTTTGCAAAAAGATGATATGAATGTACTGAGTCAAATTACCACAACTCAGCAATTACCTTTAAAGTCACTATTGCAAGGGTTGCAAAGGCCGGTGTCAATTGAACAGATTGAAGAAAATAGCCTTGATGAAAAAATTAGTGAAGCCAGAGTGGTGAAGGCGCTTTTATCAATGGAGTTAGGAAATAGCAGCTGTCCAGTTCCTGATTTTGAACAGAGTCAATTAAAAATTTTCGAAGAACTAAGTCAAACTAGGCCTTCAATGGAAAAGATATTACGGCAGTTATTTTTGATGGTTGAATATCTTAAGGAAAGAGTTCCAAAAGTTCCGGTCAAATTTGATAACTTTGATATCACAATAAAAAAGATAGAAAGTACGTTTTGGGTAGAAAATAACGATTTTTGTGGTTATAGATTGTTTGCAAAGTCAAAATACATTTCTCCATATTTGAAAAATGGTATGGCAGGGATGCTGATAGTACTTATGAATGCAAAAGTAATTTACCAGACTAAGGTGTATGACCGACGGATTAAGCAATTGGCTAATGAACTTTCTAGGATGGCGTATGCTAAAAATGGTACCTTCATAGAAGGCTTGTCTGGCATTACTTGGAGTCTTATAAAGTATGTTAAACAATCACATGATAGGGACTATATGCCCTTAATCGAACGGCAATTATCTTTTTACCAATATTTTTGTATAGATTGCCATGGCTTGACGTACTTAATCGACTCTAGAAATGAAGCCTTAGATACCAGTCTGTTTTATGGTAATCGAGGAATGGCGTTTGTATTGAAAGAATGGGAGAAGTTAAATGAAAATCGGAGAACTTGTTAG
>SRR1919932_01663 transposase
ATGCTTGTTAAGCGGGCGTTCCTCTACTTCACGCAAATGCTCATTGATGAAAATCTGATCAGAGAAAATGCCTTGTTTATCGACGGAACCAAACTTGAAGAAGATGCCAATAAATACTCGTTTGTTTGGAGAAAAGCTGTCGAGAAGTATCACGACAAGCTTAAGAACCATGCCCTTGAGCTCTACGATGAGCTTGTTAAAGAGAACGTCACTCAAACGATTGAAAGAGAACAAGCGCAAGAAGCCGCAGGACTTGAAGAAATAGCTAAAAGCACAGAGGCCAAAATTGAAAAGCTAACCGAAGAAATCGATAGCGAAAACCTTGATAAGACAGAAAAATCAGCTCGAAAGCAGTTACGCAGAAAGCTGAAGAAAATAGCTAGGAAACTGCACAAGGACTACATTCCAAGAGCCTACAAATACGAGCAATCAGAGAAGATTTTCCAAGGCAGAAACAGCTATTCCAAAACAGACCACGACGCGACCTTTATGCTTATGAAAGAAGACCACATGCGCAACGGACAACTAAAGCCGGGCTATAACATTCAAGCAGCCACATCGAATCAATACGTGATTGATTATGCCATATTTCCTAATCCAACAGATACAAGAACCTTGGTACCTTTCCTAAGTCAAATGGCTCTCCTGTCTCATTTTGAGAACATAGTAGCTGATACGGGTTATGGCAGTGAGTACAACTATATCACGCTAGAAGATCAGTTTAAGAAGAAATACTACATTCAATACTCGACATACCGAATTGAGAAAACACGCAAATACAAGAAAGATCCAATTAAGGTCGCCAATTGGCACTACGATGAAGCAGATGACTTCTATATCGATCCCCAAGGAGTAAGATTCAGATTCAAAGGTTATAGCAGTAAAGTGGACCGGTACGGCTATAAGCGAGACTTTAAAATTTATGAAGCAGATCCGATTCAAGAAACGGATGAATTAGAAGAAGCCTCTAAAACACCAAAAGGCTATCAGCGCCGCATTACGTACAATCCGACGTGGGAAAACGTTAAAGCCCATGCGAAAGAATATCTTGAGAGCGAAGACGGAAAACGAATCTACAGCTACCGAAAAATAGACGTAGAGCCGATTTTTGGGCATCTCAAGAATGTATTTGAGTTCACCTCCGCGGAAGGAAGAAAGTAG
>SRR1919932_01664 protein tyrosine/serine phosphatase
ATGCCAAAGCGGATCGTAAAGTTAGAGGCCGGCTACAATTGCCGGGATTTGGGCGGCTACGTCAGCCAGGACGGCCGGACTGTCAAGTGGGGCCGGCTCTACCGGTCGGGGTCACTCAGCCACTTGACCAAAGCGGACCAGGCGGAACTGGCCCGGCGGAAGATTGTGGTGGACTGCGATCTGCGCTCCCGGCATGAACAGGACAACTTCCCGGACAAGCTCTGGCCCGGGGCTAAACTGGTCGACGCTCACTTTTACAGTGAGAGCGGGGATGAAGAGGAAGAAGCTGAGGCAGCCTGGGAGAAGTATTCGGGCAAGCTGCCTAAATTGTCCTATCTGGCCATGGTCTACCAGCAGAACCTTGTCGCCCCCAGAACGGGCCTGGTGATGCGGAAGATTTTTAAGGAAATGCTGACCCTGGAAGATGATGAAGCCTTGATCTACCACTGCTCCATGGGCAAGGACCGGACGGGGATGGTGTCGGTGATCGTTTTGATGGCTTTGGGCCTGGAAGACCGGGAAATCCTGCGGGACTACCTGCTCAGCCGGGAATACAGCCAGGACTGGGATGAGGCGTATGAAAACGACCGCTTGGGCCAGCAGATTGCCAAGATGAACCAGACCCAGGTCAGCCAAACGGCTTTTTACGGGATTACGGAAACGATCCGGCAGACCTGGGGCGGCTTTGACCGCTATTTTGCCAGCCTGGGCTTTGGCCAAGGAGACTTGGACAGGCTTAGGGACAAGTTTTTAGAATAA
>SRR1919932_01665 hypothetical protein
ATGCTGCTTTTGTCGTGGATGAAGTTCAAGACGATGTTAGAGAAAAAATGGGTATCTTGTTCGGCAGAGCCATCCATCGCCATCCATCTCTATGCCAAAAGAGTGCCAACTGCTGCAAATCCCAAAGGCGTGATGCAGTACTCAGACTATTTCTCAAACCAAGCTGTGCAAGTTTGCCGGAAGGACAACATCGTTGAAGACCGTCCGGTAAACGAGGCAGAAAATAAAATTTACCAAGAGCTTTCGACCGGCCAAGGCCTTGATAAAGATGACCGCGAATACCTGCGTGACAACTGTTCTGAAGATCAAGAATAA
>SRR1919932_01666 hypothetical protein
ATGCTGTATTTAAAGCGCTCGGGGTTGAATAGCAACGGTAATACTCCCACCCAATCTCAGATTCGGCCAGAAGTTATCGATAGTTTAATGTATGCAGTTGAAAACATTAAGCTAATTATGCCAACATTAGGATACAAAGTATTTGGGCCAGTCAAAAAATCAATGTCGGCCCAATCCTCAAATCCACACTCAGTTGCTCCATCCTCTGGAACATATAGTGCAAACGAGCCTACTTTGCTTCATCTTGCTGGCAAGAAAGCTCAAGCCAAAGGTTATCTCAAAGATGACGGAAGTTTTGTGGTACTTAAGGGATCTACATTCTGTTCAGAAGAGACTAAGTCTTGCCAGGGCTTTTTAAAAGAGCGAAGAGCTGAGCTACTTAATCTGAAGCAGGTTGTAAATGGCAAATTTACGCAAGATGTTGAATTCAATAGTCCCTCATCTGCAGCGGGATGCATTCTTGGCGCTTCAGTAAATGGTAAAGTCAAGTGGCTCTACCCCGATGGAATGACAATCAAAGATAGATTCGGTTAA
>SRR1919932_01667 hypothetical protein
ATGAGTAGTGAAGAGGAACATCCAAGCCGTGATGTGATTAAACAGAAGTTAAGGGATAACTTTGATGGAAAGATAGTTAGAAAAGATCTTACCAAAAAGATTAAGGAAGGTGCCAACGTCCCAACCTATGTCTTGGAGTTTCTGCTTGGTCAGTATTGTAGTAGTGATGATCCAGAAATAATCAAAAAGGGCGTTGAAAAAGCAAAAAACATCCTTGCTGATAATTATGTTAGACCGGATGAAGCAGAGAAAGTTCTCTCACGTTTGCGGCAGCATGGTATGATGACGATTATTGATCAAGTGACAGTTCAGCTTAATCTGAAATACGACTACTACGAGGCTACTTTTTCCAATCTTGGATTGTCTAAGGTCCCTATTAGCGATGAATATCCGGAAAAGTTTGACCGTCTACTGGCTGGCGGCATTTGGTGTATGGTGCAACTGGAATACAACTCTGAAGAAGAGGAAGCTGAGGCAGAAGTGGGATTTGCTGCTTCTGCCAACAGATCTAAAAGGCCAAGTAAGAAAGACGAAGCTATCATCAGTATCCGTAAGTTACAACCAATTCAGATGCCACATGTCGATTTAAATGAATATCGAGAAGGCCGCAAGAACTTCACTAAAGAAGAATGGATGGATGTACTGCTTCGTTCAACAGGGATGGAACCAGATACACTGAAATATCGAGAAAAGTGGCTGTTATTGACACGTATGTTACCTTTTGTTGTTAATAACTTCAACTTGGTCGAATTAGGTCCGAGAAGTACTGGTAAGTCACATATTTATAAGGAAATCTCACCTAACAGTATTTTGGTGTCAGGTGGTCAGACTACAGTTGCCAATCTGTTTTACAACATGGGACGCCGGTCAATGGGCTTGGTTGGACTTTGGGATATTGTAGCTTTTGATGAGGTTGCTGGAATAAAGTTCAAAGACCGCGATGGTGTACAAATCATGAAAGACTATATGGCTTCTGGATCTTTTGCCCGCGGTAAAGAAGAAAAGTCTGCATCAGCATCAATGGTTTTTGTAGGCAATATTAATCAAAGTGTTGATGTGTTGCTGAAAACGTCTAGCTTATTTGATCCATTCCCACCAGAAATGGGCACAGATACTGCATTCCTTGATCGAATTCACTGCTATAATCCTGGCTGGGAAGTGCCAAAATTTAGGCCGGAGCATTTCACCAATGATTATGGTTTTATCTCTGACTATCTTTCGGAAGTTTGGCGTGAGCAGCGGAAGGAACAATTTGGTGACTCGATAGAAAAATACTTCCGTTTAGGACGAAATCTTAACCAACGTGATACTATTTCTGTACGAAAGATGGTAGACGGCTACATAAAGCTGCTCTATCCGGATGGCGATTTTACAAAAGAAGAACTGAGTGAAATCTTGACCGTTTCTCTTGAGATGCGTCGCCGTGTTAAGGAACAGCTTAAGAAGCTTGGTGGTATGGAATTTTACGATGTGAATTTTTCTTACATTGATGAGGAAACTTTTGATGAGCACTATGTTTCTGTTCCAGAGCAAGGTGGAGGTAAAATGATTCCTGAAGGCCTTACTAATCCTGGCCAGGTTTACACCATTTCTAGAGGAAAAAGCGGCATGATTGGGGTCTTTCGATTGGAATCACAGATGTTGCCTGGAAATGGTAAGTTTAACCGCACCGGACTTGGTAGTGACCGTGATTGTAAGGAGGCAGTTGACACGGCTTATAACTACTTAAAAGCTAACGGTAAGCATATCAGTTCATCAATCAGCACGAATGTTAAGGATTACATCGTAAATTATCAAGATCTTCAAGGATTGGGTATGACCCATACATTAGCGTTGTCAACCTTGATAGCTCTGTGTTCAATTGCATTGCAGAAGCCTGTTCAGAGTTCCCTAGCCGTATTAGGAGACATCAGCATTAGCGGAACTATAATGAAGGTTGACGATCTGGCAAGCACGCTCCAAGTTTGTCAGGATAGCGGTGCAAAAAAGATTCTATTGCCGCAAACTTCTGCAGTTGATCTTGCAACTGTACCAGCTGATTTGATGAGCAGTTTTAGCCTAATCTTTTATCAGAGTGCTGAAGATGCTGTATTTAAAGCGCTCGGGGTTGAATAG
>SRR1919932_01668 hypothetical protein
GTGGACATAGAGCAGGTAATAACTGAATTAAACCAGAGGTTTTCTATGCCGCTGCAAGAATTTTACAGTCGTAGAATTATCTTTTGGTATGACGAAGATAGGGATTTTGCGGATAAGTTAGATCAGATCCATATCAATGATGTTGAATTGTTGGTCTTAACTGGGTCAAATAACTTTGAAGCCAAGAAATTACTTACTAGAGATAAACCAGATACAAATTTCCTAGTATATTGTCCTATCATGGTTCCTACACCGGATGATGATTGGCTTCTTGACGTGAAGCTGTATAGCGAAAGCTTTAGAGCAGACCTTATTTCTATTTGGATGAAAGAATTAGGGTTATCAAAATACAGCTCTTTAAGACAAAAGGTTAAAAAGTATCGTAAATTTTTTAATGCTAAAGATCGTCGAGCTAAATTTAAACGCTTTTCAACACCAACTTCACAAAATACTCTGATTCTAACAATAATGGCTGCTGTAATTGGTGCAAAAACAGCCCAGCCTTCAGAAATAATTCAAGCTGTTATAGATGGGGGACTGGATTTAGAGCAAAATACTGCATATCAAGCGTTGATAAAATATCAACTTGAACCGGACTTTATTTTGATGGTAGCTTCCAGGACTGGCTTCCAAGAGATGAACTTTTCATTAGAGAACTTAGTTGCACATATTCTTTTTTCAGCAGCCTCAAAATTTATGTCAGAAAGATACTTGGAAGGACTTGATTACTCTGTTTCAAATAACTCATTCTGCTATGACTTCGTGTTTGAATGGCTTAGAGAAGATGATGAAAGTTTGTATCAAGCTGCACGGGGAGTAGAGGATAGATATCAATTGGTTAATCGTTTCCTCAAAGTACCGCTAACAGATTTACTTGAAACTACAGTCTTTCCATGTGTTAATGAGATCATTATAGAGAAGATTGTTGACAATATTAGCTTAGATTTGGCTGATCCAGATAAACTTGAGAAGCTTGTCGAACTTCGTCAAACTAGCGCTTGGTATGATAAGGTATCAAGTTACTATGGTTGTGTTGCTCAGACCGCTAAGATGTTGCGATTTAAGGCACAGCATAACATAGGTTTCCATACGACAGAACCAGAAGTAATCTGGAAAGAATATACTGAAGATTACTATCATATGGATACTTACTATCGTCATTATCATGATAGTTATCAAGCGTGCTTGCGGAATCCAAATATGAAATTGGATGATAAAATCAAGCAGTTAACAGCTAAAGTAGAAGGTATTTATACCAACTGGTTCCTTAAAGAGTTAAGTGATAACTGGAGTAAGATGAGCGAAGATGAGCTTGAAAATTATGGGCATATTTTGAAAGTTGAACAGCAACGTTCTTTTTATCAAAACTATGTTGAGTCTTCTACTAATCGGGTATTCGTTGTTATTTCAGATGCTATGCGGTATGAAGTTGCTGCAGAACTCGTTGAACAACTGCAACAAGAAACCCGTAGTCAAGTTGCCATTCATGGCGTTCAAGGCATTTTTCCTACTGTAACCAAGTTTGGTATGGCGGCATTACTTCCAAACAAGGAGATTTATCCAGAAAAAACTGCTGCGGGACTTAGAGTTATGGTTGATGGTCAATCTTCTGATGCGTCCAATCGGGAAATGATTCTAAAAGCTGCAAATCCGGATAGCTGTGTTCTAAAATACGACGACATTAGGGATCTAACTCGTGATAAGCGCTCAAGTTTGGTAAAAGGAATGAAAGTAGTTTATATTTACCATGATCAAATTGATAAGCGCAGCCATCACGATAAGTCGGCAATGCCTGCCGCGGTTGATGATACACTTACTGATTTGAAGAATATAGCTAAAATGATCATCAATGAATTTTCAGGTACGAATATTTATTTCACAAGTGACCACGGTTTCCTATATACCTACAGTGATCCAAATGAACGTACTAAAATTTCTCACGATCTGGACAACAGCTATACATTAGAAATCGGTAACCGCTATGCAATTCAAGCAAAGTCTGGAGAAATAGATTCGAGCTTTTTGAAACCGGTATCGATGTACTATACATGTCGTGACGTTCAAGGCTATACTGCACCAGAAACTATCCGCATCAAGAAGAGTGGTAGCGGGATGAACTTCGTTCATGGTGGTACTTCTTTACAAGAAATGGTTGTTCCAGTTGTCGAATTCCACCATGTTAGAAGTGACACAAAGGAATATCTCAGAAACCAGGAAAAGTATGACACCAAACCGGTAGAATTAGGACTTTTAGATACGTCTCGTGAGTTGAGAAATAAGATCTTCAATATGAATTTCTACCAGAAAGATGCAGTCTCAGCTAACCGTACAGCAGTGACTTACTCTATTTACTTTGAAGATTTCAATAAAGAAATGGTTAGTGATGTCCAACAGATTATTGCGGACAAATCGAATGAAGACATTAAAGAGCGTCAGTTTAGATTACTCTTCTCACTTAAAGATCAAGCATATGACAGTTTGAAACCATATTACTTGGTAATTAAAGATGAAAGTGGACTACAAGCTCCAGTCAGAATAGAATTCCGTATCAATATTCCAATGTCGATGGATGGTTTTGACTTCTAG
>SRR1919932_01669 restriction endonuclease subunit M
ATGATAACGCAACAATCTTGGATGTTTTTATCGAGCTTTGAAAAGTTGCGTAATGTGCTTCAAAAGAAAGCGACAGTCAATATGGTGCATCTGGGTGCTAGAGCTTTTGATGAAATTGGAGGAGAAGTTGTTCAAACTACAACTTTTGTTAAACTAAATTATAATCTAAAACATTTAATCAGTACTTTTATTAGATTAGTTGAGGTGGATGGTGAAAAGAAACAAAAGCAAGCTTTACTACAAACAATAAAAGAACGTTCTAATAAATACTGTTTTAAAAAAGATAGTTCAGAATTTTCGAGAATACCGGGATTGCCAATTGCTTATTGGATCAGTCCAAAAATGTTAAATACGTTTAAAAATCCACATGTTGGTTCTATCGGAAATGCGGTTAATGGCTTTACTACGGGAGATAATAATCGATTCTTAAGATTATGGTTTGAAGTGTCTTTTGGAAAAATTGATTTTTCAATATTAAATATTGAAAAATCAAACGAACATATGAAAAAGTGGTTTCCTTATAACAAAGGTGGAGAGTTTAGAAGATGGTACGGTAACAACTATTATTTGATTAATTGGGAAAATAACGGTAAAGAAATCAAAGAATATGGTCACCTTGTTCCTAGAAGCTACAAGTATATGTTTTTTCAGTCTATCTCATGGAGCAAGATTTCTTCAAAATTTAATTCATTTCGATTGATTCCAACAGGATCAATGTTTGATGTTGGAGGCTTAAGCCTGTTTCCAAAAAATTCAGAATATACATATTATCTATTAGCATTATTAAATTCTACATATGCAAGAAAAATTTTAGAGATTATTTCACCAACTATGAATTGTGAAGCAGGACATGTTTCTGAAATACCAATCACAGTAAATAGTGATAACTATACTTTGCAGACACTAAGTAAAGAAAACGTTCGCATTTCGAAAGAGGATTGGGATGAATTTGAAACTTCTTGGGGTTTTTTAGGAAATCCGTTAATTAGATTAAAGGGAAAAGAAAATAAAGTAGAATATGTTTTTGATAAATGGAGGAGAGAATGTGATCAGAGATTTAATGAGCTAAAGACAAATGAAGAAAAAATAAACGAAATAATTTTAAAAGGCTTTGATCTGCAAGACGAAGTTTCTTCATTAGAGAGCAACAAGGAAATTACCGTTAGAGTAGCAAATAAGACGAGAGATATTCAAGCATTTGTTTCATATATAGTTGGCTGTATATTCGGTCGATACTCTCTCGATAAAGAAGGACTTATCTATGCAGGTGGAGAATGGGATCCATCTCAATACAAAACATACCCTGCTGATGAAGACAATATCTTACCAATCACTGATGATGACTACTTTGAAGACGACATTGTTGATCGCTTCGTCAAATTTGTTGAGGTTGTTTATGGAACTGACACGTTAGAAGAAAATCTAAAATTTATTGCCGATGCCCTTGGAAACAAGGGATCCACTCCCCGTGAGGTCATCCGCAATTATTTCTTGAACGATTTCTACAAGGATCACTGCCAAACGTATTCAGTTACTGGCTCTGGTAAGCGACCAATTTACTGGCTTTTCGATTCAGGCAAAAAGAATGGTTTCAAGTGCTTAATCTATATGCATCGCTATACTCCAGATACACTTGCACGAATCCGGACAGATTATGTTCACCCACAACAGGCACGCTATCAAACTGCGATAGAAGATATCGAGAGACAGTTGGTTTCTGCAAATGGATCAGAAAAAGTTAGATTGAACAAACGACTTAAGAAATTGAAGGATCAAGCTGAGGAAACTAGAATTTTTGAAGAGAAACTTCACCACTTGGCTGATCAGATGATTGACATCGATCTTGACGATGGTGTCAAGCACAACTATGCTCTGTTTAAAGATGTACTAGCAAAGATTAAATAA
>SRR1919932_01670 histone H1-like nucleoprotein HC2
ATGACAAATGCTGTAATCCCTGTTATTAGTACAGCATCAGCAAATACGAATAATGTTACTGATAAGGCTGCTGCTAAGAAGGCTGCTGCTAAGAAGGCTACTGCTAAGAAGGCTGCTGCTAAGAAGGCTGCTGCTAAGAAGGCTGCCGCTAAGAAGGCTGCTACTGACAAAGCTGCCGCAGACAAGGCTGCTGCAGACAAAGCTGCCGCAGATAAAGCCGCCACAGATAAAGCCGCCGCAGACAAAGCTGCCGCAGACAAAGCTGCCGCAGATAAAGCCGCTGCAGACAAGGCTGCCGCTAGTTCCAACTCTGAATCAGCTACGGTAGATAGCTCTTCTAGCTCGGAAACTACTAATCCAACTGTTTACACCCCATTCGCCGGTAAAGCTGTTCACACTATTTATACTGGTACTAATACTTACCTATATACCACTAAAGAGTTAACTACCATTGCCACCACACCATTACAAGGTGATACCAGCGTAATTGCTTATCCCGATGGCATTACAACGGCCTTAACCGGTAAGAATGCTGGTGACCTAGCTATACCCGTAACTTATAAAGGACAAAACTTGTATTTTAAAGGTACTTTGGGAGACTTGACTTCAAACGGCTTATATCCAGATGGCTATTACTACGCTTTAACAGACACCACCTTCTACGGTGTGGTTAAGCCAACCGACCCTTCCGTCAAACTTGACGCACCTTTTCTAAACGGTTCCACTTGGTTCTACTATTTTGATGGTGGCGTTACGATTTACAGTTATAAAAATAACGTTTGGACTGGCAATACCTTTTTAAACGCTCAGTAA
>SRR1919932_01671 cold-shock protein
ATGCAAAATGGTACTGTAAAATGGTTTAATGCTGATAAGGGCTTTGGGTTTATCACTGGTTCAGATGGAGATGTATTCGTACACTTTTCATCAATTAAAACTAACGGTTTTAAGAGTCTTGAGGAAGGGCAAAAAGTTAGTTACGATGTTGAACAAGGCAATCGAGGACCTCAAGCGACTAATGTTGTTCCACAATAA
>SRR1919932_01672 drug/metabolite transporter permease
ATGAAAGACAAGCATTTGGGAATCCTGTTGGCAATTACCGGGGCTGCCTTATGGGGGACCTCGGGGACGGCGGCGGAAATGCTCTACCAAAACCCCAATATCAATACCTTCTGGCTGGTTGACGTCCGGTCATGGCTGGCCGGGGCGAGCCTTTTGCTCATTTCCCTGGTCCACAAGGGGAAGGGGACCTTTGCTATTTTCAAAAATCCACGGGACCTTCTCTACGCGGCCCTTTTCTCCATGCTGGGCATCACCGGGACCCAGTTTACCTACTTCTACACGGTAGCGGCCTCAAACGCGCCGACGGCCACTGTCCTGGTCTTCCTGGCCCCGGTCTTGATCATTTGCTTTATGGCGGCTAAAACCCGGCAAATGCCCCGGAGAATCGATCTGATCGCGGTCTTGCTAGCGGTGGTCGGGACGGTGGTTTTGGTGACCAACGGAAATTTCAGCCACTTGACGGTGACGCCTAAAACCCTGGTCTGGGGCTTCTTCAGTGCCTTGACCCAGGCTCTGGCCATTGCCATGCCGGCCAAGCTTTTTAAAAAGTACGGGACCATCACTATTTTGGCCTGGGGGATGCTGCTGGGCGGGATTATCCTCAGTCCGGCCCTGGCCTTGATGCCCGCCACTGGAGTTACGGTTAAGGAATGGAGCCTGGTGATCTACATCGTGATCGCCGGTACGGTTTTCGCTTACTCGCTCTACCTTTCCAGCGTTATGTACATCTCAGCCGGCCTGGCCAGCATGCTGGAGGCCTTTGAGCCGCTGGTAGCGACGATTCTGTCGGTTACCCTTCTGGGCAGCGACTTTGGCATCATGAAGATGGCGGGCGGGGTCTTGATTATCCTGGCCACCTGCCTGCAGGTCGTGCCCAGTCCCCGCCGGGGAAAATTGCAAAGAAATCTTTAG
>SRR1919932_01673 glutamine amidotransferase
ATGGCAAAAGCAGTTATCGGTATTTCAGCTTCAGAAGTTACGATCCAGTCCGGCCCCTTCATGGGCGAGCCCCGGACCTACGTCAACGCTGCTTACGTGGACTCAGTCCTCAAGAACGGTGGGATTCCTTTGGTAATTCCTTTTACCGCTGGCGGAGAAGAAATGGCCTTTAAGCAGCTGGACTTAGTTGACGGCTTGATCCTGTCTGGCGGCCATGACCTTGACCCCCACTTGTACGGGGAAGAGATTGACCAAAAGAGCGGGGAAACCTGGCCAGACCGGGATGCCTTCGACATGGCCCTCTTGAAGCGGGCGGAAGAAACCGGCAAACCGGTCCTGGGCATCTGCCGGGGCGCCCAGATCATCAACGTGGCCCACGGCGGCAGCATGTGGCAGGACCTGTCTTTGCGGCCAGGCAACACTTTAAAGCACATGCAGGCTACCCGGCCTGACGTGGGCACCCACGTGGTCAAGATCAAGAGCGGGACAACCCTGAAAAAGATCATGGGGGAAAGCAGCCTCATGACCAACTCCTTCCACCACCAGCTGATCAAGGAAGTGGCTCCGGACTTGACCGAATCAGCCAGCGCCAGCGACGGGGTGACGGAAGCTTTGGAAAGCACTGACGGCAAGGTGATCGCCGTGCAGTGGCACCCGGAAGAAATGCACGCTAACCCTGCCCCGGAAGCAGCCATCATGAACCGTCTCTTCAAGTACCTGATCGACAAGGCGGAAGAAGAGAAGCAGTAG
>SRR1919932_01674 haloacid dehalogenase
ATGAAGATTAAATTGATCGCGGTGGACTTGGACGGAACCTTGCTGACTTCCAGAAAGAAGGTCAGCCCTAAGACCCTGGCGACCTTAAAAAAGGCCCGGGAAAAAGGAATTCTTGTGGTGCCCCTGTCCGGCCGGCCCCTGCCTGGCGTCTTGAAGGTCTTTGAACCCTTCAAGCTGGATCCGGCAGATAACTTTGCTATTTGCTACAATGGCGGCCTGGTCCAGCGGATGGACGGGGAAGTCCTAAGCGCCAGCCCCTTGACTGATGAAAACGTGGAGCACATACTGGCCTTGAAGCAGACGGGGATTTTTGGCCCTTACTTCATGGACACCAAGGATTTCTATGTAGCCCCAAAGGGCAGTTCCTTCGGTGTCGGCTTTCTGGCCAAGGCCCGGAACATGGGGGTCAAGCGGATGGTGCCCGGCCAGCACTACGAATTCATCAAGGGCGAGTTTGTTTCTTTGCCTAGCAAGATGAAGAAGTTCCGGGCTGGCTTCAGTCCGGCAACTGAGCAGGAATTCGAAATCTCTGCTTCCGGCGGCCAGTGCCTGGAATTCAATACTCCTGGCACCTCCAAAGGCCAGGCCCTAACCACTTTGCTGGACCTTTTGAACATCCAGCCGGAAGAAGCCATGGTTTTTGGCGACAACAACAATGACCTCTCTGACTTCCAGCTGCCTGGGGTCTTCAAGGTGGCCATGGGCAACGCGATCGACGAGATCAAGGCCGCGGCTGACTACGTCACGGCCAGCAACAATCAGGACGGCATCGCTTTGGCGGTGGAGAAGTTTGTAGACATGGGAGAATAA
>SRR1919932_01675 acyltransferase
ATGTTTAAGAGCCGCAACTGGAAACTGATCGTCGTTGCCTTGACGATCATTATTTTGCTGGCCGTTCCGGGCTATTCCTGGATGAAAAAGACCAACAAGGAGCACGCTGAACGCCAGCGCTCGCAACTGTCACCTCTGATCATGGTTCCCGGCTCCAGTGCTACCGTCAACCGCTTCAATGAACTGGTGAACCTGCTCAACGAGAATACCCCTTATAAGCACAGCCTGCTTAAGGTGGAAATCAGTGAAGACGGGACCTTGACTTATTCTGGTTCAATAAAAAAGGAGGACAATGAGCCCTTTATCGTGATTGGCTTCCAAAATAACCATGACGGTTACAGCAATATCAAGAAGCAGGCCGGCTGGCTGGACGATGCCTTTTACGAAATTGCCAAAACTTACAAGTTTAACAACTTCAAGGCTTTTGGCCACTCAAACGGGGGCCTGATCTGGACCTACTGGCTGGAACACTACTACAGCGACTATTCAGATGAAATCACAATCAAGCGCTTGATGACCTTGGGCTCGCCTTACAACTTTAGTGAAAAGAGCATCAAGTACAAGACGCAAATGATGACAGACTTTATCAAGTACCGCAAGCGCCTGCCGAAAAATATGATCGTCTACTCCCTGTCCGGCGGGAAAAACTACGAATCCGACGGGATAGTGCCGGAAAGCAGCGTGGAAGCCGGCAAGTACATCTTCCAGAACCAGGTCAAGAGCTATACCACGATGACTGTTACCGGGGCAGAAGCCCAGCACTCCAGCCTGCCGCAGAATAAGCAGGTGGTCAGGATTATCCAGGAGTACCTGCTCAAGCAGCAGGTCAAGCCGGGGCCAAACAACAGCCAAAATTCCAAGCACAAGGAAAACTAA
>SRR1919932_01676 cellobiose-specific PTS system IIC component
ATGGACAAATTAGCCAAGTGGTGCATCTGGCTGCGCCGCCGCTCCTTTTTTAGAGTGGCCCAGCGGACCTTTGCCGTTCTGATGCCGATCGCGACGGTCGGGGCCTTTTTCCAGGTCTTGCAGAATAGCGTCTTTGCGCCGGAAAGTTTTATCTATAATTTATTTGATTTTGACAAAATCATGAGTGACTGCTTCTGGGACATCGGGACCAGCCTGTCACAATGCGTGGTTGAAGTTATCTTCGGCCTTTTTTGCCTGTTCACGGTTTATTTCTCAGCTTCCTTTACGGCAAAAATCTACCGTAAAGATGCGACGATGGCTGGGATCAGTGCTCTGACCAGTCTCTTGGTCATGATCTATCTCTTTCAGCTGGGCTTGACCGGACGGATTTCTTTGCTTACAGGAGGCTATTTGGTCTTCCAGTACACCTTCTTTGCCCTCTTGCTGGGTTATGGGGTAGGACAGGTCTTCCACTGGTTAGGGGCCGATTATGAGCCTGTCAACTATGAGCACACCAAACTGGTCCAGGACCGGGCGATCAAGGCTCTGAAGCCGACCTTGGTTACTGTAATCGTGGGCATCGCTATCGGCGGGATTCTCTATGTGGTCATCAGCAAGGTCAAGGCCAACTTCAGCCTGACCAGCATCGTGTCATCGGTTGAAAATTCCAACAACCTGCTTTTGACGGTGCCGGCCACGGCCCTGGCTTCATTTTTGAGCTGGCTGGGCCTGGAAGCCCCGATTCTTGACTTGGGCAACGTGGCTGGTTCAGCCGCCGCGACTGCCAACTTGACCTATGTCTTGCGGCGGGGGTCAGTCTGGAAGGTGCCTTATCCTTACCTGGGCGGGTCCATGATCTCGATTTACGGGGTTATGGGCGGCTGCGGGACAATTTTAGCTTTAGCCGTGGCCATCTTGATCTGGGGCCGACGGAAGGAGTCGGAAACAGTGGCTAAGATGAACCTCTGGCCGCTTTTGTTCAGTTCGTCCCGGGGCTTTTTGGTCGGCTTGCCGGTGATTCTCAACCCGATCTATGCCCTTGAGCTGGTCCTGGTGCCAGTCGTGAATATGCTGATCGCGGCTTTGGCGATTTTCCTGCATATCGTGCCGACTCCGGTCTACACGGTCTTGACGGGGACGCCAGGCCCTCTGGTGCCGTTTTTTGCCACTAACGGCAACTGGCCGACCTTGATTTTCACCATCTTCCTCTTCTGCCTGGACGTGGTCATGATGATTCCAGCCGTCAAGCTGGACAACCGGACCAAGATCCTGCTGAAGGACTATGAAATGGAGGATGACCGTCATGTTTAA
>SRR1919932_01677 hypothetical protein
ATGCCAGAATCAAAACTGGAAAATTTTGTCTTTACTGTTATGATGGCCTTTGTTATGGTCTACGCCATGATCTGCTACAACATCGCTCTTACCATCGGCGGGATGAGGGATGCTGTCTTACTGGACGCCTTCCGCGAAATGATGATCATGTGGCCGGTTGCAATCATCCTGGAGATGTTCGTCTTTGAAAAGCCTGTCGTTTACTTGACTCAGCGGCTGATTACACCTGAAACGCCAATCTTGTTGATCATCTTGATCCGGTGCTCAATCACCGTCTGCCTTATGTGCCCAACGATGAGCTTGATCGCGACCGCGCTCTTCAAGAACTTCCAAGCAGCTGGCTTCATCGGGACCTGGCTGCAGACTGCCGTCATCAACTTTCCAATGGCGATTGGCTGGCAAATCTTCCTCTGCGGTCCTGCGGTAAGATTCTTGTTTAGAACGATTTTTAGAAAAGATAACTAA
>SRR1919932_01678 surface protein Rib
GTGAAGAAAACTGCTAAGAAGAAAAGCAGTAAGAAGACTGTGAAGAAGGCTACCAAGAAGAGCGCTCAGAAGACAGTCAAAAAAACTACAAAGAAACCCGCAAAGACAGTAAAGAAGACTAGCAAGAAGCCGTTAACGATGGCACAGAAGTACAACCCAAAGGTTAAAGCTTGGACTACAACACTTGATTGGGGAGAAACATTCTCAAGCGATGCGTATTCCTACATTACCAATCCCTGGGATCTTCCAAGTGAGACGAACTATACTTTTGTAAAGCCAGTAAACACAAAGAAGGGCGGCTCCTATCAGACTAATATTTTGGTTACCTACCCAGATGGTTCAAAGGAAACGGTAGGGCCAGTTTCCTTTGTAGTCAAGTCAGCACAAGCAGATGCGTACAATGTGACTGTCAAGAACACTACCGTACCTTATGGGCACTATATCGATATTAGAAAGGACATTGTGACTAACCCAGTTGGTTACTTCCCTAATGACCCAGCTGAAGTTGAGTTATCGACAACTGAGTTTTACTTCAGCCGTGCAGATGGAAATATATTAGCTAATAATCCAGACACAAAGGTTCCTGGAAGCCATGACTATTATATTCGGGTAGATTATCCAGACGGCTCCTACCAAGTTAGCCAGAAGTTTACCTTGACGGTCAGTCAGCCAGATAACCTAGTCTATCATCCAGCTCTGAAGAGCTCTTCAATCACTCTGCCTGTAGGCACAGATATTGAAGCAGACAGCTACCAGTTGCTAAAGCCGCAAGACTTCATCAGTAACACCGCCGATATGCCAAAGGGGACCAAGTACGAGATTCGTGACGATTACAGCTACGATGAGCAATCTAGCAGCTACGTTACTATCAAGGTTACCTTCCCGGATGATACAACTTGGGAATCGCCGATGTTCTTACTGACCTTTAATTGA
>SRR1919932_01679 hypothetical protein
ATGAAAAGGAAAATTCTAGCATTTGTTGGATGTTTATCCTTGGTCGCTACGACCGTCAAGCCTGTGCAGGCAAGTTACCTTAATGGGTACGACTATGCCAAAATGGCTAACAAGAAGGTCGTAGTCACTAAGACTATGAAGGTCTACCGGGTAAAGACTGGCACTTCTGAGTCAAAGAACCATTTTTACTCTGCAGGCAATGTCAAGAAAGGGTCTGTCATCTATCGGTCACGATGGTTGATGAGCACCGGCAGTGGCTGGGTAATTAAGAGCAACAAGTACAAGGCCGGCAAGCGGCAATTCTACTTTGTCTCTGCCCCAGAAAAGACCAAGTGGTTCAAGGCTTACAAGGCTAAAAAGAAGTCTGTAGCTAAAACGANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGCTAA
>SRR1919932_01680 multidrug ABC transporter permease protein
ATGAGCGCGATGGTCAAAAGGAATCTCAAGATTTACTTTAGAGACAAAGCTTCAGTATTCTTCTCAATGCTGAGTGTCATTATCATTTTTGCCCTCTACATCTTATTCATTGGTGATTCGGTGAATAGCGGGCTAAAGTTTCTGCCGCATCCCAATCGCTTGATGCGGGCTTGGATGCTAGCAGGGATGCTGGCTTCGGCATCGATCACTACGAGTTTAGGAGCATATGGGGTGATAATCAGCGACCGGGAGAATAAGGCGATCAAGGACTTTTACTCATCTCCGGTCAGCAGAAGACAGGTCGCGGGCGGCTATATCGTGACCGGCTTCATCATCAGCATCATCATGTCCATTTTTACCTTAATTTTTGGGGAAATCTACCTTGGTCTGGCCGGCGGGGCAGTACTGGATATAGAGACTTTACTAAAGCTATTTGCTGTAATTGTCTTATCAGCCTTTGCATCATCGGCGATTGCTTCCTTTATGATTTCTTTCTTGAAGACCAACAGCTCCTACTCAGCCGCAAGCACGATAGTTGGGACCTTGATCGGCTTTTTGGTTGGGGCATACATTCCAATCGGCAGCTTGCCAGACAACGTTCAGTGGCTGGTAAAGTACTTCCCATGTGCTCATTCAGCGGTACTTTACCGGCAGCTTTTGATGAAGCCTGCAATAAAGGCAAATTTTGCCAATCAGCCGGCAAGTGTACTAAAAGAGATCAGGGAAATGTTTGGGATTGTCTTCGTCTATAACGGCCACATCGCGCCTGCATGGGTATCAGTAGCAGTCCTGCTGGTTACTGGGGTAGTCTTCTACTTGCTGGCGGTCTTGGTAATGACCCGGAAACAAAATGAAATATAG
>SRR1919932_01681 ABC transporter ATP-binding protein
GTGAAGAATGCTATTGAGGTTAGAAACCTATCTAAGTCCTATGGTGACTTGAAAGTCGTCAATGACATCTCCTTTGCAGTCCGCGAAGGCGAGCTCTTTGCCTTCCTTGGCCCAAACGGGGCCGGTAAATCTACAACGGTTGACTGCCTGTCGACTTTGACCAAGTTCGATTCTGGTGAGATCAAGTTGGCCGGGCTTAACATGAAGACACAGGCACAGGAGATCAAGCAGAGGATCGGGATCGTCTTTCAAGAAGGACTGCTGGATAAGCGGCTTACAGTGCTTGAGAATTTAACTCTTCGCGCTGGCTTTTACTATCACAGCAAGGCAGAAGTAAAAGCAGCTGTTGCCCGGGCAAGCGAATATACGGAGATTAATGACCTGCTTAAGCGGCAATACGGAAAATTGTCCGGTGGGCAAAGGAGGCGGGTAGATATCGCCAGAGCGCTCTTAAATACGCCGAAAATCCTTTTCCTAGATGAACCAACGACGGGTCTTGATCCGCAAACCAGGCAGCACATTTGGGAAACGATCCAGCGCCTGCAAAAAGAGCAGGGGATGACCATCTTTTTGACGACGCACTATATGGCCGAAGCATCCGTAGCGGATTATGTGGTAATACTGGACCACGGGAAGATTGTCGCTGAGGGCAGTCCGATCAGCTTGAAAGAGTTCTACAGCTATGACCGGCTGAAGCTGTATCCGAAGAAAGAGCAGAATTTAGACAATATTCTGTCGTCTTTATCACTTAATTGGAATAAGGCGGCCGACCACTATGAGGTAGAACTGAGGTACACCATGGATGCCATTGATATCGTAGAAGGAACGCGGGACCAATTGCAAAGTTTTGAAGTCCTGCATGGAACGATGGATGACGTATTCTTGAATATTACAGGGAGGAGGCTAAGAGAATGA
>SRR1919932_01682 GNAT family acetyltransferase
ATGCAAATTAGACGCGCGCAAGTTAAAGACATTCCAGCAATTATGAAGCTGCTGAGCCAAGTTTTGGAAATTCACGCTTCGATTCGTCCAGACATTTTTATTCCAGGCACAACCAAGTACACGGTGGAAGAGCTGACGACAATCATTAACGATGACCAGAAAGCAGTTTTTGTCGCGGTTGACGAAGATGATCAAGTGCTCGGCTATGCATTCACTCAGCTGCAAGAGCAGCCTTTTTCAACCAATATGGTTCAGTTTAAGTCACTCTTTATCGATGACCTCTGTGTTGACAGCACCCAGCGCTCCCAAGGCGTGGGCCGGGCCCTGCTTGATTATGTCAAAGCTGAAGCCAAAAGACTGGGATGCTATGAAGTGACGCTTAATGTATGGGAGGGCAATGATTCTGCCATAAACTTCTATAAGAAGAATGGCTTGAAGGTTAAAGAAACAAATATGGAATTTATTTTGTAA
>SRR1919932_01683 integrase
ATGGGCCGAAAAGTTAAAAAAACAGAGAGCAGCAGAAATATCCGGCCGCTGAAAACGGCAAAGGAAATCAACGCTATGAAACGGGCTCTGCAATTTGGGACCGGGACAGTTACCGGGCAAAACAGGAATGGTCTGCGGAATGCTATGATTTTTGTCTTTGGAATCAATACGGGTCTCCGGATCTCCGACATCGTCAAGGCCAAGGTGTCAGACATTGAAGACGGGGAATGGTACAACCTGGTTGAAACCAAGACCCACAAGAACCGGCATGCCTATATTGGCAATATCAGCCAGGACTTGGAAAATTACATTGCCCAGATGCAGCTGAAGCCAAGTGACTGGCTCTTCCCTTCTAGAAAAGGGGAGGGGCATATTGAAGGAAAGTCATTCTATAAAGATTTGAAGCGGGCCGCCCGGCAGTGCGAGATTGATCCCAATACGGTTGGTACCCACACTCTAAGAAAAACTTTTGGCTATCACTACATCAAGAGCGCGACAACCCCAGCAGGTGATCCAGATCCCCGGGCCTTGTACAAGCTGCAGAAGATGCTGAACCACAGCAGCCCAACCACTACTCTGAGATATATTGGCTTGGAAGATGAAAGCATGGAAGAAGATTTGAAGTCTTTCCGTTTGGGATAA
>SRR1919932_01684 hypothetical protein
ATGAACGAGGAATTAATTAAGACCGGGGATTTTGCCAAAATGTGTGCTGTCACTAAGAAGGCACTTTATGTCTATGAAGCAAAAGGGCTCCTGAAGCCGGCAGTTGTCAAAGATAATGGCTACCGCTACTACCGGCTGGAACAGGTGGACCAAGTTGCCACAATCCGCCTGCTGGAGAAATTGGGCAGCAGACTGCAGGAGGTTGGGGACTTTTTCGCCTTAAAGGATTTGAATGAACGGCAGAAGTATTTAGGCAAGCAGCAGGAAGCAGTCGAAAGAGAGATGGCTGAGCTGGGGAAGATCAAGTCCAGCTTAGAATTCTTTGACCAGAGAATCAGTGACTTGAAGCAGACTGGTTTTAAAAAAGTGGCAGTTGAGACTTGCCCGGAAGAATACCTGGAAGTCAGTCCTTTTAGGCATGGTGTTTCGCTGAATCCAATCAGCTTCGGGCCTAGATATGGGGTGATCGTCGATGACTTTGAAAAGGCAGAAATCAGCCGCTTTTTTAAAGTAGTGGAAAGAAAAGAGGGCAATTACGTCAAAGCGGCTGGAAAGTATGCCTGCTTTTACCAGGAAATGGAGAACGACGATGTTGCTGGCAATGGACCGAAGGCACTGGAATATTTAAGAAGCAAGGCAAAAGTTGTCCCGCCTTTTTACCAGGAAGACTTCAGCAGTTCCGTTTCAGGTCATGACGGATCGGTAATCATCAAGTATTCTGCCAAGTTGGATTTATGA
>SRR1919932_01685 MATE family efflux transporter
ATGACAGAAGAATTGAAAAAGAAAGTCTGGGCCTTCAGCCTACCCATGATCAGCGAGCTGTTTGTCCAGCAGCTCTACAGCGTCATCGACATGGCCATCATCGGCCGCTATCTGGGAGCCAGGGAATTAGGGGCTGTGGGCAACGCGGCCAATATCATCATGCTTTTCCTGGTTGTCTCCGGCGGCTTTGAAATGGCGGTTGACGTCATGGTCTCCCGGCTGTTAGGGGCCGGCAAAAATAAAGAAAAAGTCGCCATAGCCCGGGCAATGTCATTAAGTTAA
>SRR1919932_01686 beta-N-acetylhexosaminidase
ATGTCTTCACTTAGTCAAAAACTGGCCAGCCTTTTCCTAATCGACAGCACTGGCGATTTTACTGAAAACCTCCGCCTTTTGGAGCAGTACCAGCCAGCCGGCCTCCTCCTCTTTGCCAAAGACCTGGCGGGCCTAAGCGAAAAGGCTGTTAAAGAGCGGCTGGCGATTTACCGGCAGGCCCGGCCAGGTTTGCTGCTCGCCATTGACCAGGAAGGCGGCTTAGTCAGCCGCTTGTCCGCCCTTTACCCAAACCGGTCTTACCCCAGCCAGGCTGAACTTTTGAAAAAGGGGGCTGACTTTTTCTTAGCAGAAAGCCAAAAGACGGCCCTGGAATTAAAAGATTTAGGCATCAACTTGAACTTTGCTCCGGTGGCTGATCTTTCGCTTGATCCGGCCAGCTTCATCTACAGCCGGACCCTGCAAACAGGAGCTGAGGAAACCGGGCCGGCAATCGCGGCCTTTATCAAGCTCTACCGGCAGCTGGGAGTCGCCTCCTGCGCCAAGCATTTTCCTGGCTACGGGGATGCCGGCGACACCCACCAGGCTCCGGCTAAAGACCTTAGAAGCCTTAAGGAAGCCCAGCTGGATCTTTTACCTTTTAAAGCTGCGATCGCGGCGGGCGTGCCGACTATCATGGTGGCTCACTTGGAAGTTGCCTGCTATAGCCCTGGCCCTGCTTCCCTCTCCCCGGAAATCTACCGCCTGCTCAAGGAGGACCTTCATTATTCCGGCGTGGCTATCACCGACGACTTAGCTATGGCGACGGCGCGAGAAAGCAGCTGCCCGGAACTTTTGGCCCTAAAGGCCGGAGCCGACCTCCTTTTAGGCGGCAAATTGGAAAACTTACCAATTTTGGAAGCAGCCGCAGAGAGCGGTGAATTGCCAAAAGAGCGGATCAAAGACGCTCTGGTCCGGGTCCAGACCCTGCAGGACGATTATTCTCTTTAA
>SRR1919932_01687 serine hydrolase
TTGTTCAAAAAAGGTAAGAAACTAATCGTTGCCCTGCTTGTCTTAGTGGCCGCTTTGGCGTTTTGGCCAGAAGAAACCGCCCCTGATCTGGTAACGGCGGCCGATATGCATGTTTTTGTCGAGAAGCTTTTTAAGAAGAAGCATGTGACCGGCAGCGTGGCTATAGTGCAAAACGGGCATGTCCAGGTTGTTAACTATGGCTTGGCTAATGCTAAGCAGAAGGTCAAGAACGGGGCCAGCCAGGTCGTCTACCCGGCCGCTTCCATGCAAAAGGAAGTTACCGGGGCCATGATCATGCAGCTGATGGAAGAAAAGAAGGGGAGCTCAAGTGCTTTTAGTCAAAACACGAAGATCTCCCGCTGGTACCCGGCCTTGCGGAATTCCAAGAAAATCAGCGTGGGCAACTTGCTTTCCCACACTTCAGGCTTGCAGATTCCGGAAGTCGAAGCCGACCGCCATATCAACTACAGTGAAGACCAGGCAGTAAACTGGATTGTGAACCGGGCCAACCAATTGCCGCAGGACAAGGTGGGGAGCTACCACTACAGCGACGTCAATTATGTTTTGCTGGCAGGCATCATCAAGAAGGTGAGCCATAAGTCATATGCCTGGAACTTTAAGAAGCGGGTGGTCCAGCGGCTGGGCCTCAAGTCAACTTATGTAAGTAGCCAGCTGCCTAAGAATAAGATGCTGGCTGTATCTTACACCTATAAGCATGGCAAGAACTACCAGCAGGCGGCAACTTTGGAAAAGACACGGTTGTCTCAGCTGGTTGGGGCCGGGAACATGCTGACGACAGCCAGCGACTACTATCTTATCCAAGAAGCTTTGGGGACAGGGCAGTTCCTGTCGCCGAGCGCCTTTCACAAGCTGACCCACCTCAAGAGCAAGATCAACCAATATAGCGGCGGGGTTTACCTCAAGAAGGGGGAAAAGGTCAAGCTGGCCTACGGGGCAATTGGCAGCGCCCACTATGCTGCTTACTTCCAGCTGACAGCTGACAACAAGAACGGGATTATCATGCTTCTCAACCAGCGCAGCTTTGGTGAAGACAAGGTCAAGGATGTTGGCTACCAGATCTTGAAAAAGATCAGGTTTGCTACTTTCTCTAAGACTTAA
>SRR1919932_01688 penicillin-binding protein
TTGAATTTTGAAGATTTCTTTTTGAAAAAATCCGCGAAAACTGCCGGCAAGCTGGCTTTAGCTGCCAGCCTCCTGCTTCCAGCTTTGGCGCCAGCTACGGTCCAGGCGGAAGCGACCAAGAGCGACGTCAACCGGGTAATGAGGGACAACCACCTGGCCGGGTCAGTTCTTTTAGTCCAAAACGGCAGCGTCAAGACCGTCAACTACGGCTATGCCTGGTTTGGACGGTGGATGAAGAACGGTTCTTATAACGTGACCTATCCAGCCGCTTCCCTGCAAAAGGTGGTAACCGGGGCCATGCTAGTGCAGATCATGAACGAAAAGAATCATACCAAGCAGCAATTCAGCCAGTACACCAAGATTTCCCGCTGGTATCCCAAGCTGAAGAATGCCCGCTATGTGACGGTTGGCAACCTTTTGACCCACACCAGCGGCTACCGGACGCCAGGCTTAGAAAGCAACCGGCGCAAGAATCTGTCAGAAAACAAGGCCATCAACTGGGTGAGCCAGAAGATCAATGGCAGCTGGCAGTATCAGACGGGCAGTTTTAACTACAACAATGCCAACTACATCTTGCTGGCGGGCATTATCTGCAAATTGACCGGCCACTCCTACGCCTACAACTTCAAGCACCGGATCGTTCAGCCGCTGGGTTTAGCCCACACCAGCCTCAGACACGACATCCCTTGGACCCGGAGCCAGGCGGTCTCTTATGCCTACCTTTGGCAGAGAAAGTACCAAAGACCGGTTTCTCTGCCTAAGTCCGTGGCTTCCCAGATGCCAGGTGCCGGCAATATGTGCACCACGCCAATTGAATATTATGAGATCATGCTGGCCTTGCAGAACGGGGCAATTTTGAGCCAAAGCGACTTCAATTACCTGACCCACCTCAAGGCCAGAAAGACCACCTATAGCGGCGGCATGTACATGAAGCGGGACGGCAAGGTCAAGTCTGCCTTTGGCGCGATTGGGGATGAGCACTACGGGAATTACGTCCAGCTGACGGCGGACAACAGAAACGGGATCATCATGTTCGTCAATGAGCGCAGCCAGACTGAACAGCAGCTCAAGGGCCTGGCCTTCGGCCTCTTGCAGAAGATCCAGCCGGGAACCTTCAGTTTGAATTAG
>SRR1919932_01689 DNA-binding protein HU
ATGAACAAGACTGAACTTGTCTCAGTTGTAAGTGAAAAGACTGAATTCAGCAAGAAGGAATCTGCTCAAATCGTTGACGCTTTGTTTGCATCAATCGAAGAAGCACTTGCTAAGGGCGAAAAGGTACAATTGATCGGCTTTGGGACTTTTGAAGTTCGTGAACGCGCTGCTCGGAAGGGCCGCAACCCGCAAACTGGCGCTGAAATCGAAATCCCTGCAAGCAAGGTTCCAGCCTTCAAGCCAGGCAAGGCCCTGAAGGATGCCGTTAAGTAA
>SRR1919932_01690 galactose-6-phosphate isomerase subunit LacB
ATGAAGATTGCAATGGCAAACGACCACGCGGGTACCCGCTTGAAGAACGAAATCAAGGCCTACCTGGAAGAAGAAGGCTATGAAGTCGTTGACTTCGGGGCCGGCAATGAAGAATTCTGCGACCTGTCAGACTTTGTCTACCCAGCCAGTCTGGCTGTGGCCAAGGGCGAATGTGACCGGGGCATTTTCGTTGACGGGGTTGGCTACGGCAGCGCCTTGATCGCCAACAAGATTAACGGCATTTACGCCGCGGTCTGCCAAGATCCTTTCTGTGCCAAGCTTGCCCGCCAGCACACAGACTCCAACGTCCTTTGCTTAGGCGCCAAGATTATCGGGGACATGATGGTCGGCGAAATCGTCAAGACCTGGCTGAACACGGATCCTTTGATGGAAGAAAAGTACCGCCGGCGGGTGGACAAAGTCAAGGCGATCAACGACAAGCACTGCGTGCCAGTGAAATAG
>SRR1919932_01691 hypothetical protein
ATGTCTGCCAGAAAAGTTATCACGAGTGTACTCGCCGTTGGAACAACCATTGCTATTGCCATCGACGGCTATCTCTTATTTTTAAAAGCTGACCAAGCCAGCTCGACTGCATCTGCAGCTTCATCCAGCACAAGCACTGCAGCTTCCAGTTCTGCTTCATCTGCTTCATCTTCAAGCTCATCTGCAAGTTCATCCACGTCCAGCGGGTTAAAAGACGGGACTTACAGCGGCAAATCCATCAGCACCCAGTGGGGCGATGTCCAAGTCCAGATCAAGGTCAGCGGGGGAAAAATCACCACGGTTAATGTCTTAAAGTACCCTTCAGACAACGACCACTCCCAGCAGATCAACGACCAGGCCCTGCCTGTCTATAAAAAAGAGGCCGTCGAGGCCCAGAGTGCCGACATCCAGCAGGTTTCCGGGGCCACCGTCACTTACGAGGGCTTCACCCAGTCCCTGCAAAACGCCATCACCCAGGCTAAAGAAAGCTAG
>SRR1919932_01692 thiamine biosynthesis lipoprotein
GTGGCCATTATGAATGTAACCTGCCTTAACCAGACAGTGGAAGCCATGACCATTCCTTTCACTGTTTCTGTTGCTGTTCAAGGAGAGGCATCCCCGGACTTGACCCAGGCTTTTACAGACGCCTGTAGAAAAATTTATACAGAATTAAAAAGAATCGAAGCTGATTTCTCCGCCTTTTTGCCAGACTCCTTAGTCAGCCGCTTTGCTGAAGGCGATGAGAGCATACTTTTAGCCAATGCTGAATTTCAAGAAGTGTACGCGGCCGCCCTTTTGGCCAAAGAAGAAACAGCCGGTGCCTTTGATCCCTACTTTGCCGGCAAATTCGACCCGACCGGCCTGGTCAAGGGCTGGGCAGTGAAAAAAATCTTTGCCTCCTGTCTCATGCCCCTAGCTGCTTTTCCCGAAGTCACCGGCCTCTGCATCAACGGCGGCGGGGACCTGCAGGCCTGGACCAGGGGCGACTTCCGCTGGAAGACCGGCATTGAGAACCCGGCCCAGCCCCGCTTGCTCTTGGCTATCTATGATTTAGCCAGCCATGCCTTGGCAAGTTCCGGCTACACCTACCGCGGCCAGCATGTGACTTTAACTGGCCCCGCTGACCTCAGCCAGGTCACGGTTTTAGCCCCAGACTTAATTTTTGCTGACATCTGGGCAACAGCCGGCCTGGCCATGGGAGAAACAGCCTTTAAGGAGCAGATTGCCCAAAGAAGACTCAGCGGCTTATATGCCGGAAAAGACGGCCAGCTGGCCTTATTTACAGAAGGAGACCTGCAATATGTTCAAAAAGCATGA
>SRR1919932_01693 hypothetical protein
ATGTTCAAAAAGCATGACTACACCCTGGGCGTCTTATGGGCAGCGGCGATTTTTATCCTCCCCCTGCCATTCATCCAGACCCTGGAAGCCGGCCTGCCGGCCATCTACTATCCACAAAAGCTGCCCATCATAGCCGGAACCATCGCCTATGTCTGGCTGCTCTTAGCCATTTATCTTAGTACCCGCCCGCGCTGGCTTGACAGCTTGATCGGCCTGCCAAAGGTCTACATGATCCACGGTATCATGAGCCTGGGCGCCATCCTTTTAGCCTGGCTGCACATGCAAGGGTCACCTTCAGCAGGCCTCATCAAGCAGACCGGCAATATCACCTTTTACCTCTTCTTTGGCCTGGCGGTTTACTCCATGGTCTTCATGGCCGGCTGGCTGACCAAGCGGGTCCCATTTTTGGCAAAAAGCAAGCAGGTCCTGGAGGAAAAAATCTTCAAGCACGAGCTGTCCATTTGGCTGCACCGGTTAAACCTGCTGGCCGTCTTGCTGGTCTTTATCCACATCCAGCTGATCCCTTACATCCGGGCCATCACCCCCTTTATTGCCTGGATCTGGCTTGCCACGGTCTTCGTTTTTGCCAGCTACTTCATCAGCCTGGCCAAAAGCCGGGGGAAGAGCAATGCGGAACTTCTGTCCAGCCGCTTGATCGCTGACAATGTCCTGGAATTGACTTTAACGACTGACCAGAATTTGTCAGACTTTGAGGCAGGCGACTTCGTCTTCCTTTCCTTCCCAGAAGAAAAAGGCCTGGAAGAACCCCACCTCTTCTCCTTCGTCAACCTCCCGCAAGAAGAAAAGCAGGTCGTTTTGGCCATCAAAGGTAACGGGGACTTCACTAGACAATTGCAAGAGCTCAAGGCGCCGGTCAAAGCCCGCCTCAGCCCCAGCTTTGGCCGCTACCAGGAAGCAATTGACGAAGCCAAGCCCAACCAGCTCTTGCTGATCGCCTGCGGGATCGGGGTTGTCCCCCTCCTGTCGGTAATTGACGGCAATCCTGACTTGCCTACTAAAGTTTTTTACAACGCCCACACCAAGGAATTCTTGATCTATGAGGAAAAATTCTACTACTGGAACAGCCGGGACAATTTCCAGAGCCACTGCCAGGTGGGCCGGTTTAAAGATGAGGAAATTTTGGCTTCCCTGCCTGAAGACTTTTCCGGTCTCCAGGTTTTGATCGGGGGTCCCCAGGTCATGGCTGACCACTGGCTCAAGCTCTTAAAAGAAAAGGGCCTGCCAGCCGGGCAGATCTATTATGAAGAATTTGACTGGTAA
>SRR1919932_01694 DNA-directed RNA polymerase specialized sigma subunit
ATGAACATGCAAATCAATCAAGCAATGGACCAAGCCTGGGAAAGGCGGAAATTAGTCGCCGGAGCCTTGAAAACGGCCCATGTCTACCGGAAGTGTGCCGATTACGAGGACCTTTTTCAAGAAGGCCTGATCGTCTACGCCCAATGCCTGCAAGAAATGGCTGACCAGCCGCAAGAAGAAGCTGACAAGCTGGCCTTCCGCAAGGTCTACTGGCGGATCCTTGACCTGCTCCGGCAGAAGAAGCGGCAAAGAGACCACGACGAACCACTACTGGCTGCCGCCTTTGTTGGTCAGGCCGACCAGCACAATCTGCTTCTTAAGGAAGCCTGGAAGAAGCTGTCGACTAGCGAAAAGCTGCTTTTAGGCCAGAATCTTCTGGCTGGCCGCAGCCTCAAGGAAACGGCCGACTTAATGAATATTCCCTACCGGACGGCCAGCCGGATTAAGAAGCAGGCCCTGGAGAAACTCCGCCGGCAGTTAGCCTGA
>SRR1919932_01695 glycerol uptake facilitator protein
TTGATACACAACTTGTTAAATGAGTTCCTGTCTACCGGGCTCATGATTCTTTTCGGTGTTGGCGTGCACTGCGATGACGTTTTGAACAAGACCAAATACCACGGCTCAGGCCACATTTTCGCCATTACGACCTGGTCATTTGGGATTACCGCCTGCCTCTTCATCTTCGGCGGCGTCTGCATGAACCCAGCCATGGCTCTCTGCCAGGCTATCCTAGGGATCATCCCATGGTCCAGCTTCATCCCTTATACTCTGGCTGAATTCGCCGGTGCCTTTGCCGGGGCTCTTCTGGCCTACTTCATGTATGCTGACCACTTCAAGGCTTCCAAAGACACCATCGACGGCGTGGCTACCCGGAACATCTTCTCCACCAACCCTAACCTGCGTAACCTGCCACGGAACTGGATGGTCGAAATGATCGCCACTACCATCTTCTTGAGTGGTATCCTGGCTATCGTGGCCAACTACGAAAAGTTCGGTTTCACTCCACTCCTTGTGGGTCTCTTGGTATGGGCAATCGGTATGGGCCTTGGCGGTACTACTGGCTTCGCCATGAACCAAGCCCGGGACTTGGGCCCTCGTCTGGCTTACCAAATCCTGCCAATCAAGAACAAGGCCAACAACGACTGGCAATACGGCCTGATCGTACCAGGTACCGCGCCATTTGCCGGTGCCGTACTGGCTGCCATGTTCGTCAAGTACTTCTTGAAGCTGACTTTCTAA
>SRR1919932_01696 sucrose operon repressor
TTGCACTACCAACCCAAAAAGGCCAGGTCTAAGACCATCCTGGTCCTCTTGCCCACCATCAGCAACCCGCTCTACGCGGAATTCTACGAGGCAGTCCAGGGGAACTTGGAACAGCTGGGCTATGACAGTCAGCTGCATGTCGGCCTAGCAACCGCCTACCTCAAGCTCTTGAAGGGCGATGAATTCGGCGGCATGATTACCAGCTTGCCAGAAACTCCCCTGCCTTTGGCCAGAAAGCTCCCGACGGTTTCTTTTGACCGGCCTATTTCCCGGGAAATACCGCTAGTCAGTTGTGACAATTATGGCGGCGGCTGCCTGCTGGCTCAGGCTGTTTTAAAGCGGGGAGCCAAGCAGATCCTGATCCTCTGCGGCCGCCAGCAGGACCTCTCCCCCATCAACGAGCGCCTGCGCGGCATGATGGATTATTTCCAGAAGCAGCAGACCAGCTTTGAGACGGCTTATCTGGACTTCACTTCCGGCAACCTGCTCAAGCAGGTTCGCCTGGCCAAGTTGCTGACCGGACAAAAGTACGACGCCATCTGCTGCAGCGATGATATCACCGCCTTGCTGGTCAAGCAGCGAGTCCGCCAGCTGGGCTACCAGCCTTTGCTAACAGGTTTTGACGGCTCCAATTTTGTCCGCAATTTTTTTCCGGACCTGCTGACCGTTAAGCAGCCGATTAAGGACCTGGCAGCCCTGACCTGCCAGTTGCTCGACCAGCGCCTGCGCCGGGGCCATTTCCCCAGCGGCCATAAATAG
>SRR1919932_01697 sucrose phosphorylase
ATGAAACTGCAAAATAAAGCAATGCTGATAACTTATCCTGACAGCCTGGGCCATGACCTGCACGACCTGGCTTATGTGATGGACCGGTATTTCTCCAAGGCGATCGGCGGGATTCACATTCTGCCCTTCTTCCCGTCTCACGGCGACCGGGGCTTTTCCCCGATGACTTATGAAAAAGTCGCGCCGGAATTTGGCGATTGGTCTGATGTGGAAAAGCTGGGTGAGTAG
>SRR1919932_01698 sucrose phosphorylase
ATGTTTGACTTTATGATCAACCACATTTCAGCTCACTCTGACTACTACTTGGACCTGATTTACAAGCGCAAGGACAAGGCCCCTTGGGAAGACCTGGAATTCGCGGACGGCAGCCATGAAAAGATGTGGAATACTTTTGGCCCGGACCAGATTGACCTGGACGTGCGGACGGAAGTTACCAAACGCTTCGTCAAGGAAACCTTGTAG
>SRR1919932_01699 sucrose phosphorylase
TTGGCCAAGCACCACGCCAGCTTGATCCGCCTGGATGCCTTTGCTTACGCGGTCAAGAAGCTGGACACGAGTGACTTCTTCGTTGATCCGGAGATCTGGGACTTGCTGGCAGAGGTCCGGCAAGACCTGGCTGGGACTGACGCGCAGATTCTGCCAGAAATCCATGAGCACTATACCCTGCCTAAAAAGGTCAGTGACCATGGCTACTTTATCTACGACTTTGCCCTGCCAATGGTCCTGCTCTACTCCCTTTACACGGGCAAGAGCCAGCGGTTGGCTGCCTGGCTCAAGCAGTGCCCGATGAAGCAGTTTACGACCCTGGACACGCACGACGGCTTGGGTGTGGTCGATGCCAAAGACATCTTGACTGATGAAGAGATCGACTACACGACCCAGGAATTGTACAAGGTTGGGGCCAACGTTAAGCGCAAGTACTCATCAGCTGAATACAACAATTTGGACATCTACCAAATCAACACGACTTACTACTCAGCCTTGGGCAATGATGACCGGAAATACTTCCTGGCCCGGCTCTTGCAGATTTTTGCCCCGGGAATTCCGCAGATCTATTACGTTGGCCTGCTGGCGGGGGAAAATGACCTGGACCTGCTGGAAAGCAGCAAGGAAGGCCGTAATATCAACCGCCACTACTACAGCCTGGAAGAGATCGCCCATGAAGTTGACCGGCCAGTCGTGGCCAAGCTCTTGAAGCTGCTGGAATTCAGAAACAGCGAAGCCGCCTTTGACCTGGCAGGGCTGCTTGAAGTTGCCACTCCAAGCGAGCATGAAATCGTCTTAACCCGGGTCAACCTGGCTGATTTGACCTACCAAATTACGGTCAATGGCCAGGCAGTTGACCTGTAG
>SRR1919932_01700 hypothetical protein
ATGAAAGAGAATAAAAAACGCAAGCTTGAATACCAAGCCTACTTGCCTTACGCGGCCCTGCTTTTGCTAGCGGCGTATTTCTGTTTCCGGCAGATGCTGACCGGGAACGTCATCATCGGTTCAGATACGATCTTTCACTATAACCGCTTCTATGAAACGGCGGAACAGATCAAGCACGGCAACTTCAACTGGTTCATGAGCATGTATGGCTACGGTCACTCAGGCCGGGTGATCAATGCCCTGTACGGGCCGCTGTTTGCCTACGCCAACGGCCTGCTCTTATTGCTCGTTAAGACCTGGTATCGGTATCAGATAGTCAGCTCCTTTATCGTCTACGCGGTTGGGGGGATCGGCATGTACCGGGCCTTGCGCCGCTTTAACAGCCGGCGGTCAGTGGCCACGATTTTGGCCATGCTCTATCTGACGATTGGCTGGATGCCCCGATGGCAGGGGGCAACCAACTTCTCCGGGATCAGTGCTGCTATGATGCCTTATGGCATTCTAGTAGCCGCGGATATGATTTTTGCCGAGAAAAAAATCCCCTGGGTCAAAATGGGTCTCTTAATGGCCCTCGCGCTGGAAGTCCACCTGCTGACGGCCGTGATGTATATGGCCTTTTTGCTTCCGGCCTGGCTTTATGTCTTGATTAAAAACAAGGGGCAGCGGCAGTTGTGGCTGGAGACTTGCCAGGCCGTGGGCCTGGCGGTCTTGCTGGCCTTAAACACCCTGGCTCCCCTGTTATGGCTGTCCAAGACCAACAGTCTGGCGGCGCCATCGACCATGAATATGATGGCCAATGCCCTGCACCTCAAGCACACTTACCTGGCAGTCGCGCCAAGGGGGCTTTTGGGCTACAACCAAAGAGACGGTTTGACTTACTGGCTCTTCTGCATCTTTGCCGGCCAGATCCTCTATGCCGTCTGGCAAAGACAAAAAGACCACCTGAACAGCTATATTACTTTATATGGCGCTTTTTGGCTCTTTATGTCTTCCCGGCTCCTGCCTTGGGAACGGATCTCCAACCGCCTGCCAGCCTTGGCCCGCTACCTGCAGTTTCCGTCCCGTTTCACCTGCATCGCTTATCCTCTGCTATTGATCGGGATAGGGATGTCAGCAGAAATCCTGCTGAAGAAGTCCAAGCACTTCTCCTGGCTGGTTTATGGTCTAATTGGTGCGGCTTTAGCCCTTACTACGAGCAGCATGGTCCGTTACATGAATGCTGATGCTTGGAACGGCTATTTGAACAATGTTGGTCATAATGCCAGCACTAATTTTGGCCATGAAGTCACCAATCCAGGCAAGCATAAAAACAAGAAGACCAAGTCAGGTTTGATCGCCATGACTCCCGCCCGGAAAGAGGCCATGCGGCAGGCCAACGCGGCCACGCACACGAATGACTTGCGTAAGTTTTTGACTTTGACTAAAAAGCCAATCGCTGACTACCTGCCAGTTTACAAATTTGACCCTAAGCCGGTTATTACCGGCTGGGCAGATGGCTACAAAAATAAGGAATATTGGCAAGAGCAGACGAATAAGGCCGCCCGCTCTTACGACAAGACGGTTTTAAATCACAAGGTTAGAAAGCCAATTAAGTTTGAGATCCTCAAGGGGGGAAAAGTCAAGCTGACCTGGACTAGCAAGGGCAAAAAGAAGCGCCTGCCGGTCGTTACTTATGCCCAGTCGAAATTGACGGTCAACGGCAAAGTTTTGACCAAGTATGAAAGAAGCCGGATTGGCGCGCCAAAAGTAGCCAGCCGCCAGGGTAAGAACGTGGCTTACCTGGAATTCGTGACTCCCCTGTGGCTGAAGCTGCTCTTGGCGATCTCCCTTTTATCCTGGCCAGGCTTTATTTGCCTGGGCTTAGGGATTAAACTTAAGGGGAAGAATGCAGAAAGGGAAGGGAAAAAGCAAAAATAA
>SRR1919932_01701 bactoprenol glucosyl transferase
ATGAAGAAGATTTCAATTATTGTTCCTTGCTACAATGAAGAAGCTGCTCTGCCGCTCTTTTATCCGGTAGCCAGCGAAGTCTTGGAAAAGTTGCCAGACGACTATGAGCTGATTTTTGTCAATGACGGGTCAAAAGACCGGACCCTGGAGATCCTGCACGACTTGGCGGAAAAAGACCCCCATGTCTTCTATATTTCTTTTTCAAGAAACTTCGGTAAGGAGGCGGCCATGTACGCGGGCTTCGTCAATGCCAGCGGGGACTATGTGGCCGTAATGGACGCTGACCTGCAGGATCCGCCAGCGCTTCTGCCGGAAATGATCAAGATCCTGGACTCAGGCGAATACGACAGCGTGGCGACCAGACGGGAGGACCGGAAGGGGGAACCGCCAGTCAGAAGCTGGTTTGCCCGCAAGTTCTACCAGATCATCAATAAGATTTCCGATGCCGACGTGGTCGATGGCGCCCGGGACTTCCGCTTGATGAAGCGGGACATGGTCGACGCGATCGTGGAGATGAGCGAATACAACCGCTTCTCCAAGGGGATCTTTGGCTGGGTTGGCTTCAAGACCTACTGGCTGCCATATGAAAACGTGGAGAGAGTGGCTGGCGAAAGCAAGTGGAACTTCTGGAAGCTGTTTAAATACGCGATTGACGGGATTATCAACTTCTCCCTGGTACCCTTGAAACTGTCCTCCTGGCTGGGCTTTATTATGACGGGCGTAGCCTTTATCATGTTGGTCGTGATCATCCTGCGGCGCTTGATCCACGGGGACCCGGTAGCCGGCTGGGCTTCCTTGATCTGCGTGGTGATCTTCATCGGGGGTCTAGTCATGCTCAGCCTGGGCGTGATTGGCCAGTATCTGGCCAAGATTTATATGGAAAGCAAGCACCGACCCCACTATATTTCCAGTGAATCCAATATCAAGAATGTTAAAAAGATCGACTGA
>SRR1919932_01702 hypothetical protein
ATGATGACGGTCTACAGCCGGGAGTATTACCAGGCAGGATTAGCCGAAGGAAAAATCAAGGCCAAAAAGCTGGACAAGTACCGGCTGGGACCGGACTTTATTCTGGCTTATGACCTGGGGCCAGCTGCTTCTTACCGGACCTTGCTAGTCGACCGGAAGCAGGGGGAGATCGTCTTAAGAGCCACGACCAAGACCCTGCTGGCCCACTTCGTCAACGAGGATCTGCCTGGCGGCTACCCCTTGCAGGACAAGCTCTACAAGCTCCTGGGGATCCGGGAGCAGCACGTGATTTCGGCGGGGCATGGGGCAATTTTTTCCCCGGAATCCTTCCACGCCGGCCTGGTGGACCTGGTGGCCCTGCAGCGGATGCGGGGGATGGAAGCCTGCCAGGGAGGGCTGCTTATGACCGACTTGGCCGGGGTCAACTGCTATTTCTTTCAGGTGAAGCGCGGCTATGCCAATGCCAGCCGGCAAGTGAAAGAAGCGGTTGAGCACAACGCCCTTTACTGCAGCCTTTTTCATGGCCTGGCTGGGCAGGTGGGCTGCCCGGTTTGCAGACAGGGTGACTGGAACCTGCTCTATGGACCCAGCTACCAGCAGGCGGTTGAGGCCGACCTGGCTGGCCGGATCCCCTCTTTAAGGCAGCTTTTGGCTGAGATCAAGGCAGAGGAGAAGGCAGTCTTAAAGCAGATACTGCTGGATGAACTCGGCCTGCCTCTTTTACCAGATGATTTAGACTATGCCTTAAAGCAGGCTGAGAAAAAGCTCTTATTCAGAATATAA
>SRR1919932_01703 hypothetical protein
ATGGAAGACGTTGAAGAGGCACTTAAGCGGCAGCTGGCGGGACGGGTTTGGTCAGCCAGCTTGCGCCGCCAGCTGGAAAACAAGGATATTTGTTTAAGCGATTTGCTGCTGGACAAGCAAAGACTGAACGTGATTAAGCCAGCTGACGTCCCTTTAATCAGCCAGGCCCTGGATGAATTGCAAAAGAATTTTCGCGAGGCAGTCAAGCAGGTTCTGCAAACTGAAATAGAAGCTACTTCTGATGCTGACCGGCTGGCCTGGCTGCTCCTGCAGCTTTTTGCCAAGAAAAGGAAGCGGGTCCGGGACTTGACGGCTGACCAGCTGGCTCTCCTGCAGACTGAAGAGGCTAAGAAATACGTCCTTTTTCACGGGCCGCGGGTCTATTTCCGCAACAACGCCTGCTTTTTGACCAATACTTTCCCGGCAGAACTGGTCCATATCAACGACCTTGCCGGGCTTAAAGGACAGCCGGCAGCTTTTTCCGCCTTGTTGCAGGGAGAAGAAGTGGATGGGGAAGAACTCAGAAGCTGGCTTGACCTCTTCGGTCCCTTGTATGAAGAGAAATATTTCGGCAAACACTACGGACCAGGCGTGGAACTGGCGGGGTTTCAAATCTCTAGCGGGAAAAGAGATCCCCGGATCTACTATGTCCTGCGCTACCTGCTCAAGGATAAAGAGCCAGAAGCAAGATCGAAAAATTTTGCTGCGCTTCCTTTAAAGACGATCCTAAGGCGGAATTTAGTCTGCCACGAGGCCTTCAAATGA
>SRR1919932_01704 hypothetical protein
ATGAACCGCATCCTGCCTAGCAATGAAATTCTGGTCAATTTCACCAGTCTTTGTTTGGCGATCACTCTGAACATCCTCAGCTATACTACCTTGATGTTCGTGGCTTACAAGATCGAGCTGCCCCTGGCTAGCCAGTCAGGCAAAGAGTTCATTCGTGTATATCGTTACATCGGAACATTATCAAGAATGACATGCTCCCCCGACCAAGGTCGGGGGTTTCTTTATAGGCTAGTGCTCACGCACAGCCTACAGCTTCTGAGAACAACCAACTTATTCTTGCAAGCAGGATTGGCCGAAGTCAAGACTGCTTTTTTACTGGTTCTGTCCAGCAAGCTGAACAGCAGTGCAAAAACAGAGGTCAGTCTATTTATCACGGAAGTGCCCCCTCCGACGATTCCGCCAAGCCGCATTGACTGCTGTTTGACGGTACGATTTTTTGCTTACCCAGCTCTCTCAGAGCTGGGCAAGTCCTTTAAGCAAAATATTGATTGA
>SRR1919932_01705 transposase
ATGACAATACGCAAGCGCAAGTCAGATCTGCCGGAATATGGAGTGAAAATCAGATTGTACCCGACTCTCGTACAACAAGCCAAACTTAGACAGTTCTTTGGCAATGACCGCTTCCTCTGGAATCAGCTTGTCAGCCTCTATCAAGAGCGCTACAAGAACAACAAGAGCTTAAAACTGTTAACGGAATTCGATCTTAACAATCTGCTTCCCGCTTTGAAGAACGAATATCCATTCCTCAAGGCAAGTGACAGCTCCAGCTTCCAAATCGTGACCAGGAACATCAGCGATGCCTGGGAGGCGTTCTTTGCCGGAACGAGACGCAAGCCCCGCTTCCACTCAAAACATAACGCCAAGCAGTCATATACTGGCAAGTCGTCAAGCATCCGGATCATGGGCAAAAGAAACATGTTCCTGCCGAAGCTGAGAAGAGTCAGATCATCGAAAACCGGCGTCATCGACGGCAAGATCAAGTGCTACACGATCAGCATCGATGCTTGCGGTCGCTACTGGCTTTCTCTCATCGTGGAGAAAAAGAGCGCCTTCCTGCCAAAGACTGGCAAGGCGGTTGGCATTGACGTGGGGCTGACGCACTTGGCCATCCTGTCAGACGGCAGAAAGTTTGACAGGTTCTCATCGGATTTCTGCGAGAAACAAGCAGAAATCTGGCAGAGCAAGTCATCCAAGCGCCGTCATTTGGCTTTTGTTAAGTCGCAGCAGGAAGCCAACAAAAAGGTTCTTGGCGCAAAAAGCTTGTCTGACTATCGCAACTGGCAGAAAGCCAATGTCGCCAAGAACCGCTATATGAGCCGCATCACGAATCAGCGCGATGACTATCTGCACAAGATCACGGATCAGCTGGTAAAGAAATACGACGTCATCGTCATTGAAGATCTCAAGATCAAGAACATGACAAAGAATCACCACCTTGCCCGCTCAATCCTGCGTCAGTCATGGGGTAAATTCCGCAAAATGCTGGAATACAAGTGCAAGAAGTACGGAAAGATTCTCATCAAGGTCAATCCAGCATACACCAGCCGAATCTGCTCAAAATGCGGTAAGGATACGGGCAAGAAGCCACTGTCAGTGCGGGAATGGGACTGCCCATTCTGCAAGGCGCATCATGACCGTGACATCAATGCATCAATCAATATTTTGCTTAAAGGACTTGCCCAGCTCTGA
>SRR1919932_01706 transposase
ATGACTAAATACGAATTCAGAAATGATGAGCCAGATATCATCCATGGGCGAGGCTACGTATACAACCTCAATTACCACATCGTCTGGTGTACCAAGTATCACAACCAAGCCTTGGCTAATCCGATTATTGTCGATTCACTCAAGGACAAGATCCTTCAGATCTGCCGTGAGAATGAGTATACGGTCAAGGCTCTAGAAATAATGCCAACTCACGTGCATATTCTGCTGTCTGCCAAACCCAAAGAGAGCGTGACAAATATCGTCAAGAAGCTCAAAGGCATTACGGCCAAGTGGCTTTTTGAAAAGTACCCAGAAACGATGAAGGAATACTTCTGGGGTGGTCACGTCTGGTCACCGAGCTATTACGCAGGAAGCATTGGAGTGACAACCGAAGCTGTCGTCAAGAAATACATTGAGACGCAATGGAATAGACCATTTCACTAA
>SRR1919932_01707 fructokinase
ATGACAGATACTTTTGTAGGCAGTATTGAAGCCGGTGGCACCAAGTTTATTTTAGGCGTGCAAAACGTGGAAACTGGGGAAACCACTGCAACCAAGCGGGTGCCAACCACGACTCCGGCAGAAACTCTGGAAGCCTGCCGGGACTTCTTCAAGGAGAACCCGGTCAAGGCTATCGGGATCGGCTCTTTTGGCCCGATCGACATCGACCCGAAGTCAGCAACTTTTGGCTACATTTCCAAGACCCCCAAGGCTGGCTGGTCAAATACTGAACTGAGGGGCTACTTTGAAAAGGAACTGGGCGTGCCAGCCGTTTTGACGACTGACGTCAACGCTTCCTGCTACGGGGAATACATTGCCCGCGGCCGGGATAATGAAAAGACCTACCTTTACATCACCATCGGGACTGGCGTTGGGGCCGGGGCCATCCAGCAAGGCCACTTCATCGGCTACACCAACCACTCAGAAATGGGCCACATGCGCATTCCTAAGCGGGCGGATGACAAGTATGAAGGCGGTTGTCCTTTCCACCACGACGCCTGTGGGGAAGGCTTGACGGCTGGCCCGACGATCAAGGGCAGAACCGGGATTCCTGGGGAAGACCTGGACCGCAGCCACCCAGTCTTTGACTTGATTTCCTATTACGTGGCTGAGATGCTCTACAACATCTACTTGACCATCCGGCCAGATGTCATGGTTGTCGGCGGGTCAGTCTTGAACGAAGGCGACATGCCAACGGTCAGAAAGTACTTCGCGGAAATGAACAACGACTACGTTGCCCTGCCGCACCTGGACGAACTGATCGTGCGGCCGATCGTTGCCAACAACGGTTCAGCTACCTTGGGCTGCTTTGAAATGGCCAAGGACCTGCTTAAGTAA
>SRR1919932_01708 mannose-6-phosphate isomerase
ATGCAAATGGCAGAACCATTATTTTTGGAACCAGTTTTTCATGAAAAAATCTGGGGCGGCACTGGCTTAAAAGACGAATTTGGCTACCAGATTCCCAGCGACCACACCGGTGAAGCTTGGGCAATTTCCGCCCACCCGCATGGCCCGGCAACTATCAAGAACGACCTTTACAAGGGGATGAAGCTGAACGAGCTCTGGGACCAGCACCGGGAACTTTTCGGCAATGCCAAGGGGGACGTCTTCCCGCTTTTGACCAAGATTTTGGATGCCAACCAGGACCTGTCCGTCCAAGTGCACCCGGACAATGAATACGCCAGAATTCACGAAGGGGAGCTGGGCAAGACTGAATCCTGGTACGTGATTAAGGCCAAGCCAGGCGCCAAGCTCTACTACGGCCACAATGCCCAGACCCGGGAAGAATTCGCTGAAATGGTGAAAAACGGGGAATGGAAGAAGCTTTTGCGGACCGTCCCGGTGCATGAAGGGGACTTCTTCTACGTGCCACATGGCATGGTGCACGCTGTCGGCAGCGGCATCATGGTTTTGGAAACCCAGCAGTCCAGCGACACCACCTACCGGATGTACGACTTCGACCGGGTGGACAAGAAGACCGGCAAGCTGCGCGAGCTCCACTTGCAGCAGTCAATCGACACGGTGCAAGTGCCGTTTGAGATGCCAAAGCTAAACCATGAAGAATGGGATGTTGGTGACGTTCACGTGACCCAGTTCGTGATGGCGGAATACTTCGGCGTCTTCAAGCTGGATGTCCACGGCAAAGGCGACTTTGAGATCAAGGACGGCAAGTACCGCTTGCTGTCAGTCTTGGATGGATCTTGCGACTTGACGGTCGACGGGCAGACTTACCCGTTGAAAAAAGGTAATCATCTGATTTTGCCAACGACGATTTCCTGTTATACTTTAGATGGTCAAGCTACGATTATCGCTTCCAAACCAGGCGATGAAGCTTAA
>SRR1919932_01709 6-phospho-beta-glucosidase
ATGCTAATTAATCTGATGGGACACTCAAAATGGTCCTGGATGAATGCCTACCGGAACCGCTACGGGCTGATCCGCGACGACATTCACACCCAGAAGAAGACCTTGAAGAAGTCAGCCTACTGGTACCGGAAGCTGAGCGACAGCAATGAGCTGGACGCGGATTGA
>SRR1919932_01710 hypothetical protein
ATGGTTGAAGCGCGAATCAGTAATGCTGATTTATTCTACGCGATTCTAAATAGCGATATAAACTTCTATGTTGGGAATGACGATATTCTGTTTTCGGTTATTTTTCAGTACGTTCCTGATAAAGATGCTGAAATCGAACAAATTAATGAGGTTAACCGTAGTATATATAGAAAAATGCTTTCAGACGGTGAGTATTATTTCCATGGATTTGACATTATGGTTAACGGTAGTAAAAGGTTTGTTTTACGGTATAACAGCGGAAATATTGATGTAACCGAAAAAGAATTGCGTGCTGCGGTGAACTATATTAAAAAGTTGGGGAAGGAGATAGCTCATGAATAA
>SRR1919932_01711 non-ribosomal peptide synthetase NpsA
ATGAATAAGTTGGATCTTGTAAGGCAATATTTAGATAGTGAAAAAATCACTGGCACTAAAATTTTCTATGGGAGTTGTATTGAATCACATTCAGACGCAAAAGATGTTGATGTATGTGTAATAACGAATCAAACTGTAGACGAGGATTTTTACCATAGATATAAAAAATTTCTGATAGAAAACAATATTGTAATTGACGAAGAAGTAAGATATGAAGATAAGCTGCTTTTGAGTGAGAGCAAAATAAGCAACGCCATCAAGAATTATGTGAATCAGCCGGAATGTTTTGACTTAGAAGCCGACTATCCTCAAGTTGTAGATAGATTGGTTGTCAACATCTTGACAACCAAAGTGAAAGTATTTGATGATAATGGCGTATACGACGAATATAGCAATCAAGCTTGGGAAGAAGTACTGAAGAAGTTTACTAGTTTGGGAGGAAATACTTTTTCTGACTTTACAAAACTATTTCAAATCAACCAGAATTACAAGTCATTTTGGGGATATTCACCGAAAGTCGTTGATGACTTGTTCAATAGATTTTATCGCTACCATTCAAGCAATAGGGCAATTCGACTGTTAAAAGAGAATGTGATTAAGCATCCGCAAAGAATTGCCGTATTTTCAGAAAATAGGAATCTTACTTACGAAGAATTAGACAAATTATCGGATAATATTGCCAACAAGCTGCTCGAATTTAATTCAGACTATGTTGTTGTGAATTATCCGCACACATATGAACTGTTGCCAATAGTTTACGGAATTTTAAAAGCCGGTAAAATTTATATCCCTGTTGACAACACCAGCCCACTTACTGAAATTGAGCCTATTCGCAAAAAATTTAAAGACAGTATCTACATTAGCGAAAATGCTTCTGACCTCGCAGTTTCAAAAGCACTTGGCATGGAACACAGGATACTTGATTACTCAGAAAATGAACTGGCTTATATAATCCATACTTCCGGCACAACGGGAGTTCCTAAAGGGGTATGTGTGACCAAAAATAACTTGAATTACATATTGGAAGCATGCCAGTATATTGCGCCAGTAAGTAGTAGAGATTGCTACCTATTTTCGACAAGAGATACCTTCGACGTTTCAATAACTGAAATTTTTGGCTTCTTATATAACGGCGGAAGCGTGTGCGTCTATTCCGCTAAAAACAAGGACTTTTATAAAGAATTTCCTGATTTGATTGAGAAATTCGGCATTACCCATGTTGCGTTGTCTCCTTCTGTATTGGGACTTTTGCTAAAGCTGGCTGATCAAGAAGATCTTCGAAAAATTGATAAGTTGAAGTACTTATTAGTGGCCGGTGAAGAGTTTAAATATGAACTCCTAAAGCTGGTTTTAAAAGATTTGAAAAAAGTCAACGTCTATAACGTATATGGCCCAACAGAAACAACCGTTTACGCCACGTACTTCAATGTAAGGAATACCCCTAAAAAACTGCAAAAAGTTCCAATTGGAGAAAATCTGCCTGGGGTTAAAACTATGCTGGTTAAAGATGAATTGCTGATAGGCGGGAAAGGGGTATCTGCAGGTTACTTCAACAATGCTGAACAAACTGATCAGAAGTTTGAAAAAATTGACGGAGAAGTATTCTACCATACGGGTGACATTGTCGAAAAACAAGATTCTTTGCTCGTGTACCGCGACAGAAAAGACAGTCAGGTTCAAATTCATGGCATTCGAGTAGAATTAGGAGATATCAGAGCAAATATATCTAACATTATTGATGATCCGACACGGGACATTGAAGTAGTTTTTTATAGTGATTCCTTGATTCTCTTTTATACGGGCACAAAAATTAGTGATTTGAGAACAATGCTGGAAAAGCATATGGTATCTTACAAGATTCCTTCTAAATATATCAATGTCAAGGGATTTCCATTAACTTCAAGTGGGAAGGTAGACCGGAAAAAGCTTTTAAGCGGGATGAAGGAGTCATCTATCAGCAGCAACGATTCCAAGAAAAGCGGCATAGGCATATATAATACCGTGAAACACATAGCAGAGTCAGTAATGAATCAAACAGTAGGTTCAGAAGAAAATCTTTTAGACATTGGTTTAGACTCTCTGCGCTCAGTTGAATTGGTATTGGAATTAGAAAAAAGGCTGAACATCGATTTAAGTGCTTTTAATATCTACATGTCCCCAACGGTTGACAAGATAGCTTCATTTATAGAAAACATGACGACATCACCTGCTTCTAAAGCAGACAAGGAACTGTTTAGAGAAAATGAAATAAAGAATATTCCTATAACTAGGAAGGTGGAGTATACGTATCCTGCTTTTTTCTATGCTAGGATATACAATTCCTTGGGCTTTAATAGTCAGTTAACGGGAAAGATTTATCTTGGAAAAGATTCAATCAGCTATGAGGAAATCTATCATAAACTTTCTAAGGTAGAAGTATTTAAATCAGTTTTGTCAGAAGATCTGAATACTTTTAAGGTTTTGGACACGCCTGTAAATATTTCCAAATATGAAGTTGCTGATGCCAGAATAGATATTTCAAAAACTTTGAGTGACTTGGTCAAAACAAGTATTGAGAATGGCGGATTATTGTATAAATTTGTTCTGCTTGAAGATGAAAATGAGTCTGTTCTCCATTACTCCATTGACCATAGCATTTGTGATTCATCATCATTGGATGCATTGGAACGATACATTCTTGGCATATATGACTCAAGCCAAACTTACTCGTCGTATATTGAAGAGGTCTATTCCAGAAACCATCTGGAAGAAATTTTAAAAGAGATGGCTAAGTTTGAGCAACAGGATGACCGTAAGGTAGCGGAAACTTTTAAGCGGCTTGAAGATCGGGTTAATTTTGTCAGCCTCACATATTTGAACAATGATACTAAAAATGTATATGCTGAAATTTTGCTGTACTTAAGAGACAAACTCTTGAACAAATTTGCTTTGAATAATGTCAAAGTTAATCTGATCTACAATATTCGGAAGTTTCAAGAAAAACTGGACTTCACCACAACAATTGGCGACTTGCACCTGGGGTTGACGTACAGCTTAACTACTGATGATGATATCGATGAGCAGTTGACCGAAACAATAGCTTTTTATCAAAAAAACATGTTTAACCCTAAAGCTGTAGGCTACAAGCATTTTCCAAATCTAAATTCAGATGAGGAAAGAATTGTGAGATGTTTTGATGATACAGTTTATGTTTCGATAGATTATCTTGGGGTCGTTTCGCGCAAGGAATTTAATACAATCAAGCAGTCAGCAATTGAAACAAATACCGAAATTAAAAAGCTGAACGGAAGCAAATTAAATATAACGGCCTACATTGTTGATAATCGCTTGGAATTGATCATGTCCAAGGCGCTTGATTAG
>SRR1919932_01712 major facilitator superfamily transporter
ATGAAAGCAGAGAACAAAAATATCAGCCTATTGGTAAGCAGCAGAACGATCTCTAAAATAGGCGATGTTATGTTTGACTTTGCCAACAATACTTTTTTAGCAGGAATTAATCCAAATTCCCTGTTTCTGGTAGGCATTTACCAGTCACTGGAAAGCTTAATCGGCATTTTCCTTAATCTATTTGGTGGTGTGGTTGCAGATAGCTTTAACCGAAAAAGAATTGTCATCGCGACTGACTTTTTAAGTGGTCTGGCTTGTATTTTGCTATCTTTCATTACTAAAGAAAAATGGCTAATCTATGCCATTGTCGTAACCAACATTATTTTAGCCATTATGAGTTCATTTTCTGGGCCAGCTTATAAAGCCGTAACTAAGGAAGTTGTAAGAGAAGAGCAGATCTCTCGTTTAAACTCTTTGTTAGAAATAAGCAGTACGATAGTAAAAGTTACAGTACCAATGATCGCGGTATTTTTGTACAAAATACTTAAAGTGCACGGGGTGCTGCTGCTAGATGGAATAAGCTTTACGCTTGCGGCCTTGTTGGTTCACTTTATCACTCCAGTAAAGGAAGATCCGGCTGTAAATAACAAAGTTACTGTTCGAAGCGTGATGAATGATATGCTGCTAGGCTTTAAATATATTTTTGACCATAAACAGATCGCAATTATCATTCTCTTGTCAGCTCTAGTGAATTTCATGCTTGCAGCTTACAATCTATTACTGCCTTATAGCAACCAAATGTTTAGTGGCATGCCTAAGGGAATGTACGGGATGTTTTTAACGGCAGAAGCTATTGGCGGATTACTTGGAGCAGTTTTGAGTGGCTTTCTCAATAAAAAAATGTCCAGCATGTGGTTAATGTGCTTTTTGGGCGGGTCAGGACTTGCACTCGCCTTGGCGCCAATTTTGTACTTTTATTCACACAACCAGATTATCGTTTCATTATCCCCCGCGCTTTTTAATCTGCTTTTGACTATTTTTAACATTCAGTTTTTTTCAATCGTGCAAAGGGAAGTAGACAACGAATTTCTAGGGCGGGTTTTTGGAATTGTATTTACTGTTGCTGTTCTCTTCATGCCAATCGGCACATGGATTTTTTCAATCATCTTGCAAGCTAAAAATTCCTTGAATTTCTTGTTTGTGGGACTGATGATTGCTGCTTTATCGGTACTTTTTGCTCTTCTTTTAAAAAAGTATGCGGTAGAAAATAACTAA
>SRR1919932_01713 antibiotic biosynthesis monooxygenase
ATGAGTCTGACTGTCAACCTTTACTACCGCGGCCAAAATGGTTCTGCCCGCAAGTTCGCGGCTGAGATGGAAGAAAGCGGCGTGGCCAGCGCCATCCGGGCCGAAGAAGGCAACCTGCGCTATGAATACTTCCAGCCCCTGGATGACCCGGAAACCATCCTTTTGATCGACAGCTGGGAAGACCAAGAGGCACTGGATGCCCACCACGCTTCAGCAATGATGGGCCAATTGGCCAAGCTTCGTGAGAAGTATGACCTGCACATGAGCGTTGAGCGCTATGTTTCAGCAGAAGAAGCGGCTGGCGACGAGCAATTTATCAGAAAATAA
>SRR1919932_01714 cadmium transporter
ATGGGACAGACAATCATATCTGCTATTGGTGTTTATATTTCCACCAGTATAGATTATTTAATTGTTTTGATTATTTTATTTGCACAGCTATCACAGAATAAACAGAAATGGCATATTTATGCGGGGCAATATCTAGGCACGGGCTTACTTGTAGGGGTGAGTTTAGTTGCTGCTTATATCGTCAATTTCGTGCCTGAAGCATGGATGGTTGGATTGCTTGGTTTAATCCCTATCTATTTAGGGATTCGCTTTGCAATTGTTGGAGAAGGTGAGGAAGAAGAAAAGGAAGAAATTATTGAAAGATTAGAACAAAGTAAGGCAACTCAACTGTTTTGGACAGTTACATTGCTGACAATTGCGTCTGGCGGAGATAATTTAGGTATCTATATACCTTATTTTGCTTCGTTAGATTGGGCACAGACCCTCGTGGCGTTGCTTGTGTTTGCAATCGGCGTAATTATCTTTTGCGAGCTTAGTCGGGTGCTATCCTCTATTCCGTTAATATCCGAGACAATTGAAAAATACGAGCGAATCATTGTGCCCTTAGTATTCATTCTACTTGGACTATACATCATGTATGAAAGTGGCACGATAGAGACTTTTCTAAACTTTATTTTATAG
>SRR1919932_01715 multidrug ABC transporter permease protein
ATGCGTGAGTTGGCAAAGAAGAGACTGCAGGGTAACTTCCAGCAGTCAGCCAAGTATTTGGCCTTGGTTTTCAACGATTTCTTTGTCCTGGCTCTGATCTTCATCTTTGGGGCAGTCATGTTCTGGTATGCTCAGGTGATGAAGGTCCTGCCGGTAAAGGCCTGGTACTATCCCCTGGTATTATCCGCCTTGCTTTGGCTGGCCTACTTGCCGGGCAAACTGGTGACCCTATTGCAGACGGCTGACCGGCAGTTTTTGTTGGCCACTGACGACCGGCTGGATGATTACCTGGCTCCCATGCGCCGCTACAGCTTAGTTCTGCCGGCCCTGCTTTTGGCCTTAGCTGGCGGGATCATGTATCCCTTCGCCAGTTTAAAAATGGGCCTCAGCAATCTCAACTACTTTAGCTTGGTCTTGGCCCTCTTTTTCGCCAAGGTCTTTGAGCAAGGGGCGGTCAGCCGCAGCCTGACTTTTGACCACAGGGTCAAGCAGGTGACCTGGCTGATCAGGCTAGTCCTATTAGCCCTGCTTTTAGCGAGTTTGTATTTCTTGCCAAATGCCTTGTACCTGCTTTTGGCCCTTGCCGTTATCGCAGTTTTGGCCTTACGGGCCTGGAAAAATTCCGCCTTTGACTGGCAGTACGCCATTGACTATGAATCAAGGCGGAAAGAGACGGTTTACGCCGGCTTTGCCCTGTTTACTGACGTCAAGGAAAGACAGGTCAATATCAAGCGGCGGAAGTACCTGGACTTTTTATTGCCGCCTTTTGGCAAGGAAAGCCCAAACAGCTTCTTGTACCGGCGGACTCTTTTGCGGGACCCGGAATACTTGAACCTTTTGGCCCGGATGACGGCCTTTGCCGTTTTGTTAACAGCCATGATCCAGGATCCGGTCTGGTCTCTGCTCCTGTCCGGCTTGGTCATGTACTTAACCGTCTGGCAGCTCCTGCCTTTAGGGCAAAAATATGACCAGAACATCATGTACCGGGTCTACCCGATTGCCCAAAAAGAGCGGGGGCAGGAAGTCAGCCGGGTCTTGGCCTGGGCCTTGCTTTTGCAGACGGGGCTGATTATAATTTTCTGGCTGGCCATTATGCCGGGCCAGTTTGCCTGGAGCCTCTTGCTCTTGGTCTGGTGCGGCCTTTTGGCCAAAGGCTACCTGCCTTACAAGACCCAGCAGCTGGCGAAAAAATCCCGCTACAAGAAGCGGAAAAAATAG
>SRR1919932_01716 ABC transporter ATP-binding protein
ATGAAGAAAGATAGGGAAAATATGACTCTAGAAATATCGCATTTGACCGGGGGCTACAGCGGCATCCCGGTAATCAAAGACGTCAATCTGACCATCGCTTCCGGTGAGGCGATCGGCTTGATTGGCTTGAACGGGGCCGGCAAGTCGACCACCATCAAGCACCTGCTGGGCCTTTTGCGCCCGCAAGCCGGCAAAATTACTTTAAACGGGATCAACCTGGCTGAGAAGCCAGCTGAATTTAAAAAGCTGGTGGCCTACATCCCGGAAACGCCAGTCATCTACCCGGAACTGACCTTGAAAGAGCACCTAGAACTGACCATCCTGGCCTACCAGCTGGATCCGGATAAAGCCTGGGAAAAGGCTAAAGAGCTTTTAACCATGTTCCGCCTGGCAGACAAATTGGACTGGCTGCCGGTGCACTTTTCAAAAGGGATGCAGCAGAAGGTGATGATCGTGGCCGCCTTCTTGACTGACGCCCAGCTTTTAGTGATCGATGAGCCATTTACCGGCCTGGACCCTCTGGCTGTCGCCAACTTCATCGGCCTCATCAAAGAAGCGCAAGAGTCTGGCAAGGAAATTCTGATGACGACCCACGTATTAGCCGATGCCCAGAAGGCCATCAAGACCTACGCGATCTTAAACCAGGGCACGATCGAGTTCACCGGCAGCCTGGATGAAATCAGGGACCACTATGGCTTAGAGGCCAGCGACTCCTTTGACAAGCTCTATCAGCTCTTGTACCAGGAGCAGAAAAATGCGTGA
>SRR1919932_01717 histidine triad protein HIT
ATGACTAAGGCTGAATTAATTGACGACTGTTTATTCTGTAAGATTATCCGCGGCGAAATTCCCAGCTACACCGTTTTTGAAAATGACGACGTGAAGGCCTTTTTGGACATTTCCCAGGTCAACGAAGGCCACGTATTGATGGTGACAAAGAAGCACTTGACCAACTTCTTTGACTACAGCGCTGAAGACGCCTGCCGCTTTATGCAATACGTGCCGGAAATCGCCAAGGCCATCAAGGCTTCTGACCCGCGGATCCAGGCGATGAATGTCACCAGCAACAACGGTAAAATTGCCGGCCAGGTGGTCATGCACTCTCATATCCACTTTATCCCCCGCTGGGAAGGCGACGGCATCAAGTTCTTCACCAGAAACAATGCCGACCAGTACGACGAAAAGAAGTACCAGGAAGTCTGCGACCGGATCAAGGCCCAGTTTTAA
>SRR1919932_01718 hypothetical protein
ATGCGGAATTTCAAGCACTTTGGCCTGGGCTTTTTGCTCGGGGCAGCAGCAGGGGCGGTCTTTGCCTTTTTGCCAGATGAAAACGGCAAGAGCACCAGGGAATATCTCAAAGAAGACGCGGAAGACTTCAAGGAAAGCCACAAGGAACTGCAAGACGGCCTCTCCCGGGCCCAGGAAGCCGGCAGCCGCTTAGCCAGTGAACTGCCAGCAGCTGAGCAGATGGTCAGCGACCTCAACACCGACGTTGAACGCTTCAAGCAGGAAGCCGACAAGGAAATCACCCGCCTGCAGGCCAAGATTGACAGACTAAGCAGCGAGCTCAACCAGGACCTGAACGAGAGCGAAAATTAA
>SRR1919932_01719 dihydroorotate dehydrogenase
ATGACCGCAGAAGTTAATTTGGCTGTTGAACTGCCAGGCTTGAAGCTGAAGAATCCGGTAATGCCGGCGAGTGGGACCTTTGCCTTTGGCGACTTGCCAGAGAATTTCAACTGGGACGAGATGGGGGCGATCGTCTTAAAGACTGCCACCCGGCATGCCCGGACCGGCAACCCTCAGCCGCAGATTGCCTTGCTCGCTGACGGGGTCATGAACGCCGTAGGCTTGACCAACCCAGGCGCTGAGGTCGTGGCTAGCGAGAAGATCCCGGCTTTAAGAGAAAAGCACCCGGACCTGCCGATCTTGGCCAGCGTGGGCGGGGAAAGCGTGGAAGACTACGTGGAAGTCGCGAAAATTCTGGCCGCGGCCAAGCCGGACGCTTTAGAGCTTAACTTGTCCTGCCCGAACGTGTCTGAAGGCGGGATGACTTTTGGCATCGTGCCGGAAATGGTGGAAAAGATCACCCGCCTGGTTAAGGAAAAAGTGGACCTGCCGGTATACGTGAAATTGACGCCAAACGTTACCAGCATCGTGGAAATTGCCCAGGCCGCTGAAAGAGGCGGAGCTGATGGCTTGACCTTGATTAACACCTTGCTGGGCCTGCACCTTGATTTAAAGACCCGGCGGCCGGTTTTAGGCAATGACTTTGGCGGCTTGTCCGGTCAAGCAGTTAAGCCAGTGGCTGTCCGCATGGTGGCCCAGGTCAGGCAGGCAACTAGTTTGCCGATCATCGGGGTCGGCGGGATCAACAGCCCGGAAGACGCGGCTGAATTCATCTTGGCTGGGGCCAGCGCTGTCCAGATCGGCAGCATGGCTTTCCATGACAAATTGGCCATCAAACACGTGATTGACGGTCTGCCAGCAGTTTTGGCTGACATGGGCGCAAGTGACGTTACCAGCCTGGTTGGCCAGTGGCAGTCAAATAAACAATAG
>SRR1919932_01720 orotidine 5'-phosphate decarboxylase
ATGAACAAACCGTTATTTATCGCTTTGGACTATGATGATCAGGAAAAAATGTGGCTGTTCCTCAACCAGCTGAAGGACAAGCATGGCCTGCACGTCAAGCTGGGGATGGAAATGTTCTACCAGTACGGGCCGGAAATTGTCCGTGATTTGTCCGCCAAGGGCTACCAGATCTTCCTTGACCTCAAGCTGCACGACATTCCCAACACCGTCAAGCGGACTGCCCACCAGCTGGCTGCTTTGGGCGTTTACTGCACGACTGTCCACGCCCTGGGCGGCAAGCAGATGATCCAGGCCGCTAAAGAAGGCCTGATCGAAGGTACCCCGGCCGGCAAGCCGGTGCCAAAGCTTTTGGCCGTGACTGAACTGACTTCAATCTCTGAAGAAGTCTTGAAGAATGAACAGCACTGCTCACTCAACCTGGCTGACGAAGTAAAGAGCCTGGCCCACCAGGCCCAGGAAGCCGGGGCTGACGGGATCATCTGCTCACCTTTGGAAGTCAAGGCGATGAAGAGCGAATTCAACGACGACTTCATGTTCGTCACTCCGGGCATCCGGCCAAAGAGCTACCAAAAGGACGACCAGGCCCGGGTGGCCACCCCAGGCCAGGCGCGGGAAAACGGGTCAACCGCTATAGTTGTCGGCCGGCCAATCACCCAGGCCGCTGACCCGCAAAAAGCATATGAAGAGATTTTGAAGGATTGGAGCAAGAACGATGCAAAATAA
>SRR1919932_01721 orotate phosphoribosyltransferase
ATGCAAAATAACGAAATTATCCGCCAGCTGATCGACAAGAAGATTGTGACTATTTCCACAGACAAGGACTTTGTCTACGCCAGCGGGATGCACTCCCCCATCTACACTGACCTGCGGCAAACCATTTCCTTCCCGAAACTGCGGCAGGCAATCGCTGAAAACCTGGCAGCCTTGATCAAGCAGGAATTCCCGGAAGTTACGGTGATCGGCGGTGTCGCTACGGCCGGCATCCCGCACGCTGCCTGGGTTGCCCAAGTCATGAACCTGCCAATGGTTTACATCCGCTCCAAGCCAAAGGACCACGGCCAAGGCCGGCAAATCGAAGGCCGCCTGTCCATGGACGACCACATCGTTTTGATCGACGACCTCATTTCAACTGGCGGCAGCGTTTTGTCTGCCGTGCAAGCAGTCAAGGACACCGGCACCCACGTTGACGGGGTCAGCTCAATCTTTACCTACCTTTTGCCAGACGCTGACGAAAACTTCAAGAAGGCCGACACCAAGTTCGCTCCGCTCTTGAACTACCGGGAACTGATTGAACAGGAAATTGCTGAAACGGTCAGCGAAGAACAATATAAGGAATTGTTGGCTTGGCACCAGGATCCTTGGAACTGGAAGCGGTAA
>SRR1919932_01722 peptidylprolyl isomerase
ATGAAAAAGCATTTGAAGAAAATTGCCGTTTTGGCAGGTGCCGCAGCTATCGGTCTGTCCACTGCCGCTTGCTCAAGCAGCTCAGCTACTGTAGTTAACTACAAGGGTGGCAAGATCACTCAGGACGAATACTACGAAGCTATGAAGGACACTTCAGCCGGCCAATCAACTTTGGTCAGCTTGATCATCTACCGCACGCTGAAGGCCCAATACGGTGACAAGGTATCTTCAAAGAAGATCAACGCCGAATACAACAAGTACAAGAAGCAATACGGCTCAAACTTCAGCACTGTTTTGAGCTACAGCGGCTTGACTACTAAGTCATTCAAGCAAAACCTGGCAACCAACCTGTACTCAGTTGCCGCTTTGAAGGACTTGAAGAAGCCAACCACCACGCAAGAAAAGAACTGGTGGAAGAGCTACCACACCAAGACCACTGTGCAACACATTGTAGTTGACAAGAAGTCAACTGCTGAAACTGTCATCAAGAAGCTGAAGAGCGGCACTAGCTTTGCTACTCTGGCTAAGAAGTACTCAACTGACACTGCTACCAAGAAGAAGGCCGGCAAGCTGGCAGCCTTCGACTCAACTGACACCAGCTTGAGCAGCACTTTCAAGTCAGCTGTTTGGAAGCTTAAGGAAGGCGAATACACTACCACGCCAGTTAAGACTTCATCCGGCTACGAAGTCATCAAGGTTTTGAAGACTACTGAAAAGGGATCATACACTAAGAACAAGAGCTTCATCGACAAGCAGCTCTACGCTAAGTGGGCAGCTGACTCCAACACGATGACCAAGATCATCAGCAAGGTTCTGAAGAAGGCAAACGTCAACATCAAGGACAAGGACCTGAAGAGCAAGAACCTGCTGGCTAACTACTTGAACTCATCAGCTTCATCATCAGCATCGTCATCTAGCGCAAACTAA
>SRR1919932_01723 prephenate dehydrogenase
ATGAAAATAACCCCCGAAATTAGTGTCCTAATTTCGGGGGTCATATCAACGTCTTCCAAATCAGGTGGTTTTTATTTTTTAGGCTTGCCGGCAGAAGCCGGAATCAGCATCGTCAGCCTGCAGATCCTGGAAATCAGAGAAGAAATCGACGGGGTCCTGCAACTGACCTTTGCCAAGGAAGCTGACCGCCAGCAGGCTAAGGAAATCCTGGCCGCTTATGAGCTGAAGAAGTAG
>SRR1919932_01724 fumarate reductase
ATGAGTAAAGAAACACTTAAAGCGCAAGCACAAGGCCGTAACGGGGAAATCGACTTTGACATTGAAATCGAAAACCGGGAAATTGCCGACATCAAGGTAACCAAGAGCTCAGAAACCAAGGCTGTCTTCAACCAGGCCTTCGGCCAGCTCCGCGACAACGTTCTGGCTGCCAACAGCTTCAACGTTGACGCTGTTTCCGGGGCAACCATCATGACCAAGGCCATCCTGGAATCCGGCCAAAAGGCGCTGGATGAAGCAGGTCTCATGCCAGCTCCCCGGCCAGTTGACAGAAGCCACAAGGCTGTTACTTTAGACGTTGACGTGGCTGTTGTCGGCTCCGGTATGGCCGGCCTCATTGCTGCCTGCCGGGCCTTGTCCATGGGCAAGAAGGTCGTCGTTTTGGAAAAGAACGGCTATGTCGGCGGGGCTTCCATCTTGAACGGGTCCAACGTAACGGCTACCGGGTCAAAACTGGCCAAGAAGCTCTTTGGCTCTGCAGCTGAAGAAGACTCAGCCCAACGCCTTTTTGACGATATTACCAGAGAATGCCGGGGGACCAACTACCCTGAAATGTCCCACCTGCTGGCTGACAACATCGGCAAGGCCATCGACTTTATCACTGACTTCGCGGGCTTGACTTACCAAAAAGCGGAAACCCAGACCATTGAACACAGCGTTAACCGGCAAGTGGAAATGCCAAGCCAAAGCTTCTACGAAGTCGTGACCAAGGTAGCCAACGCCTTCAAGGCCAAGGGCGGGATCCTGTTGACCGACGCCCGGGTTGAAGAAGTGAAGAAGAGCCCGGCCGGCGTCTTGACCAGCCTGGTTGCTGAAGGCAAGCACCAAACCACCACGGTCAACTTCAAGTCTCTGGTTCTGGCCGCCGGCGGCTGGGGGGCCAAGGACTTCAAGGAACACAAGACTGACATTCCTTACTACGGGCCAATGACCTCAACTGGTGACTACTTCGGCTTTGCCAAGGGCATGAACCTGGTTACCCGGAACCTGGACTGGTACAAGGTTTACCCGCACGGCTTGGAAGTTGAACCTGGCATTGCCAAATTGACTACTTACTCAACCAAGGCAGCCAGCGACATGGGGGCAATTTTTGTCAACCGGGCCGGCAAGCGGGTGGTCAACGAAAGCCTGCCTTACACCCACTTCCGTGACGCGATCGCCAATGAAAAGGACAAGATCTGCTTTGTCTTGATGGACCAGCGGATCTGGGACCGCTACTATGAACTGATGCTTAAGTACGGCTTCACCGCTGAAGAAGTCCAAGGCTTCTTTGCTAATGACGGCAAGAAGAGCCCGGTTCTGGTCAAGGGCGACCTGGCCACTGTAGCGCAAAAGGCCGGCATCGACTACGGCAACTTGAAGGAAACCTTCGACCACTACCAGGAATATGCCAAGGCAGGCCGCGATCCGGAATTCGGCCGCGACGCTAAGTTCCTCCACGAACTGGAAGGCGACACTTACTACGTCATTGAACAAAAGCTCCGTTTCTGCACCACCATGGGCGGCTACGAAGCCACTAAGGACATGCAGCTTTTGGACAACGACCTTAAGCCAGTTGCCAACTTCTACGCTGCCGGCGAACTGGTTGGCGGGGCCAACGGCAAGGACTCAATGCCGTCAATGATGAACTCCTGGTCCTACGCTTCCGGTTTCGTGGCTGGTACGGCAGCTGCTGACAATGCCGACAACTACGCCGTTGACGTTGTTACCAGCGCCAGCCATGCTCCGGCTCCTAAGCCAGAAGCAACTTCCGGTGCCAGTCACTAA
>SRR1919932_01725 major facilitator superfamily transporter
ATGTCAGTTAAGAAGCACCAGTACGCCGCTACGGCCAGCACGGTCTACTTTTCATACTTTATGATGGGGATCGGGATGTCCCTTTTGGCCCAGTTCAAGCCCCAGTTTGCCAGCCTCTGGCATTCCTCAATTTCCGGAGTCTTGAGCGTGGTCAGCGCGGTTGGGATCGGGGGGATCGTCTCCATCTTGATCACTGGCCCTATTTCAGACCACTTTGGCCGCCGGGCCTCAGCCGTCATCGGCCACTTATTGTGGGCTATCTACTATATCGGCCTGCTTTATGCCCCGAATTTTGCGGTTGCCTACATCATCGGGATCCTGGGCGGGATCGCCAATTCCTTCTTGAACGCGTCCAACTTCCCGGCCTTGATGGAAATCTTTCCAGAAAGTGCCTCAGTAGCAGGCCTCATGTCTAAGTTTGCCATCAACATCGGCCAATTCTGCCTGCCTTTAGCTATTTTGCTGGGGACGGCCCTGGGTTCAGGCTACCGGACCGTCTTCATGCTGGCCGGCATTTTGTACATCGTCATGGCCTTGATTCTGGCCTTTTCACCTTACCCAGACCAGGTCACTGGCCCGAAAAAGCAGGAAAAAGCCAAGCACGACTTCAACCTGGGCGTCTGGAGCCTGGTTTTGATGGGCTTCACCTCCACGGCTGCCTTCCTGCTCTGGATCAACACCTACCAGGAACTGGCCAAGTCCTACGGGATTGCCAACCCCAGCTCCTTGCAGTCAGTCTACGCGGTTGGGGCCTCAATTGCCGTCCTTTTCAACTCCTTTATTATTAAAAAAGGGGTCAAGGAAATCGACATCTTGATCTGGTACCCCCTGCTCAGCGCGGCTGGCTTGCTTTTGGCCTACTTCATCAATGCCCCGCAAATCCTCTACCTGACCAGCCTGGCGGTCGGCTTCTTCGCGGCCAGCGGTCTTTACCAGCTGGGCCAAAGTGTCCTGGGCCAGATGTACCCGGACATGAAGGCCACCGTCCAGTCTTGGGGGGGCTTCTTCTCAGCCTTCGCCAACTTTGCCATCATCCAGCTGGCGGCTTCCATTACGGCCCGGACCGGCGCGGCTGCCCCGCGTTTGATCCTGCTTTTGAACGTGGCCAATATGCTGGTCGGCACGGCTTTGGCCTTCGTAGTCAAGCGGGTTGACCAGAAGAAGCAGGGTAAGGCTGATTAA
>SRR1919932_01726 membrane protein
TTGGATATTTGTAATTCTCATTTCTCACTTCATGTTTTTCTGTCTTTCTTCAAACCGAAAGCCAGGTCTGGCTTTGACCCCCTTCCCCGCCGGCTGGCGGCCTTGACCTTTGGCCTGGTCTTGAATGCTTTTGGCAACGGGATCACCATTTCCAGCAATATCGGCACGGCTCCCTGGGGGGCGTCGGAGGTCAACCTGACCCATATTTTCCATACCAGCATTGCCCTGGCCATGTTTTTGACCGGCTTTTTGGTAGCCGTCATCAACCAGCTGCTTATGCGGCGCTTTGACCTGCCCCGTTTCCTGGGCGAAGTCGTCTTTATCACCTGCTTCAGCTACTTCATCAACTTGTTCACCAGCCTCTTTTCCGCCCTTGGCCTGCCGGACCTGCCTTTGCCTTGGCGGCTGGTAGCCGGGCTTTTGGGCATCATGACCCTGGGCTGCTCCATTTCCCTTTACCAAAGGGCAAATTTGATCATGCACCCGAATGACGACACGACCAACATCCTCCGCTTCATGTATTGCAAGAATAAGGTAGTCCGGGCCCAGCTGATCAACTTCAGCGTTCCGCTTTTGCTTACCGGCATCTGCTGGCTGGCAACGGGCAAAGTCTATGCCGTCAATATCGGCACCCTCCTTTGCCTTCTGATCAACGGGCCGATGATTGCCCTGGCTGACCAGCATCTTTGGCATAATCTCCACCACAATATTGCCCTGCCGAAGGCCATCAGCGACCGGGCTGAGTAA
>SRR1919932_01727 major facilitator superfamily transporter
ATGGATAATACCAGCTCAATGTCCACTAACCAAAAGTGGGTTTTGGCCTCCATGTCTTCCGGCTTCCTGCTGGAAAACATGGACGTCATGTTCCTGTCTTTCTCCCTGTCGGAAATCATCGCGCAGATGCACATCAGCTCCGCGGCCGGCGGCTGGATCGGAACCTTTACCAACCTCGGAATGTTCTTCGGTGGCGCGCTCTTTGGGCTGCTAGGAGATCGTATCGGCCGGGTCAAGACTTTCAGCTATACGATCTTTCTTTTTGCCATCGCGACTGGCTTAACCTACTTTGCCCACAACATCACCGCCCTTTACGCTCTCCGCTTCTTAGCCGGGATCGGGGCCGGCGGTGAATACGGGGTCGGAATTGCCTTGATCGCGGAAAACTTCCAGGCTAATCAAATCGGCCGGGCCAGCTCGGTGGCGGCCGTGGGTGGCCAAATCGGCTCTATCGTGGCCGCTCTTCTGGCCGCCTGGATCATTCCGGCTTACGGCTGGAACACCCTCTTCCTCTTTGGGGTAGTGCCGGTTGTCTTGACCTACTTTGTCCGCCGCCACGTCAAGGAAAGCGACGAATTTTTGGCAGCTCACAAGAAGGCGGAAGAAACGAGTGAAAAGATCTCCTTCGGCCGCTTGTTTGAGACGCCCCGCCTAGCTTTGCAGACCCTGGGCTTGATGCTGATGACGATCGTGCAGATTGCCGGCTACTTTGGCTTGATGAACTGGCTGCCGTCAATCGTGCAGAAGAAGCAGGGCCTGTCAGTTTCCGGCTCTTCTTACTGGATGATCGCTACTATCATCGGGATGAGCATTGGGATGATGGTCTTCGGGACGATCATGGACAAGATCGGTCCACGCTGGGCCTTCGGCATCTTCCTTTTGGGCAGCGCGGTCGTGGTCTTTGCCATCGTCAACGTGACCAGCTACTGGGCCATGCTTTTAGCCGGAGCCTTGACCGGCTTCTTCTCCAACGGGATGTTTGGCGGCTACGGGGCGGTAATCAGCCAGCTCTACCCGACTGAAATCCGGTCCACGGCTAACAACTTGATCATGAACACCGGCCGGGCCATCGGGGGCTTCTCTTCCGTCATCATCGGCGCCTTGATGGACCACTACAACCTGTACGTGGTTATGGGCTTCTTGTCCGCCCTCTACATCATCAGCTTCCTGGTCATGATCAGCCTGCCAGGCCTTAGGGAAATCCAGGCCAAGAAGCGGGCAGCTTAA
>SRR1919932_01728 fibrinogen-binding protein
ATGAATTCAAGAAAGAAAATGATGAATGAACCATCTAGCGAAAAGCAAAGATGGTCCTTAAGAAAGATTAGCGTAGGTATGACGTCTGTGCTTCTTGGGGCGACTATGTTCTGGGCTAGTGGCGCGGGCAGCCAAGTAAAGGCTGATACCACGACTGCTAGCGAGCAAGCAGCCCAGACGCAGACGAATACAGCGAGAAAAGCTGCCGGCACGGAAAGTACCGAGCAGACAGAAGACAATAATGCCAATGCAGATGCAGGCAAGACTGCAGAAACTCCCGCGGCAACTAACAACGGCAGTCAAGAAACCACCACGGAATCGACGGCTGCCTCTTCTTCTGCCCAAAATCAGGGCTAA
>SRR1919932_01729 transposase
ATGTTGAACCAATTACAGACTAAACCTTATAGTCACCGTTTGCAAGTAGAGTTTAGAACTTTGTCGAAAATCTGCAAGAAACTTTATTACAAGTACGCCCCATCTCGGTTAACTCACCGCCGCAATGCCAGTCTGGTAAAGGTTCCAGACTACGAGATCATTGCATTACTTGTCTGGCAAGCTGAGGAAGGTATATCTTCTCATCGCAGATTTGCCCGTTGCTGGGGACTTTGTGGTCTTTCTAGGTCTCGTTTTAATCGCAGGGCTAGAGCGCTTCTTGGCATCACTGCTCAGATCGTCAACGATCTGAAGTCAAGAGTCGATCTGCTTGATCAGTATATGATCATTGACAGTCTACCCATGCCTTTGTGTCAGCCAATCAGAAACCGCAGAGCTAAGGTGTTTGAAGGAACAGCCAACATTGGCTATAACTCAACCAAAAAGTTTTACAGTTTTACTACTACGGTTTTAAAGGCCATTTTGCCGTATCTCAGGACGGGTATGTTCTTGGCTATGTAA
>SRR1919932_01730 hypothetical protein
ATGTGGAAGAGCCCTTTTTTTGCCCTGTATAGAATTGAATTGCTGATTGTTGCGGTTTTGCAGGACGACATCTATAACGCAACAAGCTATACCAGCCATGATGAAGCCGTAACTGACCGAGGGACCGGCACTCACTACGCTTTAGCCAGTGAGCTTTACCGGGAATTAACCGACAAGAGCCAGCAGAGCTTGACTGACGATGACAAGACTTATGTCCTTGATCAAGAGCTACTAATTAGTAACAAGTAA
>SRR1919932_01731 hypothetical protein
ATGAAAAAGTCAAAGTATCTTACCCTGCTTTCAGTGGCAGCTTTGACCCTGCTGACCAGTGGCCTGGGCAGCCAAGCAGTCTTGGCTGACACGGACACGGCGCAGACGACCAATACGTCAACCAACACGACAACGGATACGTCAGAAACGTCAACTGCCTTAAACCATCAAGAAGCCAAAGGACAGAAGCTGACCACGCCTGTGGGCACTCGGCCGAATGCTTCTGACGCCATCAGCAACAAGGATGATTTAAAGAACGTAAAGAAAGTCCAGGGTTACAGTTGGAAGACCACGCCAGACGTGTCAGCTGCCGGCAGCCAGAAGGCAACGGTAGTCATCACTTATACTGACGGGACGACCAGCGAAGTTGAAGTCGACCTGGAAGTAGTAACCAGTTATGCCAGCCAGAACAGCCCTGTAGCCAAGACCGGCTTGACGGTCAAGGTGGGCAAGAGCCTGACGGCCAGGTCAGCCATCAGCAACCTTTCCAGCCTTAAGAACGTGCACAGCGTGACCTGGAAGCAGGCACCAAGCACGGCCAAGGTCGGCACGGTCAAGGGGACTGTTTTAGTAACCTACACTGACAAGTCCACTGACACGGTTGATGTTACGGTTAAAGTGTCTTCAGTCGTGACGACCAAGAAGTCGGTCAAGAAGAGCAAGAAGAAGCAATACATTACCAAGACCCGGAAGATCATCTTGGACCGGCCGGGCAAGAACAAGACCATCACCCAAAAGGTTAAGCTGTCCAGAACGGTAACGATCACTACCACGACGACTAAAACCTATACTGATGGCAAATTAACCAAGACTTCCAAGAAGGCGAAGAAGAGCTATGGCAAGTGGTCAAAAGGGACCTGGAAGAGTTATAAGGTTCCTGCAATAAGCGGCTACAAGCGCAGCACGACTAAAGTTAAGGCCAAGACGGTGACCAGCAAGACCAAGAATGTTACCGTCAAGGTCAGCTACAAGCGGGTTCTGCATAAGCCAGCCAACGCTCCTTACTATGACCCTGCCGACATGCGGGCCAAGACTGGAGCTTACTACTTCCAGTCAAGTGAGAAGCGGGCTTACCCGAACCTGGCCAAGTACAAGAATGTCTGGATCCGGGTTTCCATCCTGGGCAACCGGGTTTACGTCATGAGCGGCAAGAGGGTCATCTACACTATGTACTCTTCAGCCGGCCGTTTTGAAATGACTAACGGCAAGTACCAAAGCGACACGCCGCGTGGCACCTTCTACTTGAAGGCAGCTTACGGCCCGTCCTTCATGTCTTCAGACGGCGTAGGGGCCCGTTACTACATGGCTTACTACGGCAGTGACTACTTGTTCCACAGCGTGCCAATCAACAACTATGGCTCTGGCGTCTACTACAATGGCTACCACTACGGCTACGGCGGCGTCGGCAGCACGGCCCACCTGACTGTGCAAGGGACCAAGCCAGACTCTCACGGCTGCATCCGGCTGACGCTGAGTGACGCCCGCTGGCTGTACGGTCAACGGACTTCAGGCAAGCTGAAGGTGGGTACCAAGGTCGTTATCAAGTACAAGTAG
>SRR1919932_01732 carbohydrate kinase
TTGGCAGCAAGTAAGATGAAAAGCATTGATGAAGATTTAGCCCGGCAGGTGGTCCGCCCCCGGCCGGCGGAAAGCCACAAGGGCAATTACGGCCGGGTCCTGCTAATTGGTGGAAATCACCAGTATGGCGGAGCCATCAACATGGCCGCCGAAGCCGCGGTTTACTCCGGGGCGGGTCTGACAACGGTAGCGACCGACCCGGTCAATTTTGCCGCCCTCCACGCCCGCCTGCCAGAAGCAGCCGTGCTTGACTACAATTTAGATCTGGCTAAGCAGATTTCCCGGTCTAATGTAATTTTGTGCGGGCCTGGCCTGGGCCTGGAGGAAAAAGCCTGGGAAATTTTAGAAGCAGTCTGCCAGCATGCAGGTTCTGACCAGACTATTATTTTTGACGCCAGCGCTTTAGACTTGCTCAGCCAAAAGCCTGACCTGCTGAGAAATCTCCAGGCCGGCCTGGTTATTCTGACTCCCCACCAGATGGAGTGGCAGAGGCTGAGCGGGATCAAGATTGCTGACCAGGAAGACCAGGCCAACCAAGCGGCTCTTTCGCGTTTGTTCTCTGGCAAAATGAAAAGTGTTATACTAGTCTTGAAGGCACATCGAACGCGAGTATATGCTTTTACAGGTGAAATCTACCGCAATTCAGCCGGCAACCCGGGAATGGCTACGGGCGGAATGGGCGATACTTTAGCTGGAATTATTGCCGCTTTTCTTGGCCAGTTTGGCCCCAAGCTGACCAGCGTTTTAGCAGCAGTTTACTGCCACTCAAGGGCAGGGGACGACCTTTACCAGTCTTCCTACCTGGTGCGGCCAACGCAAATTTCTGCTTATATGCCGCGCTTGATGAAGCGCCTGAGCACCTGTTAG
>SRR1919932_01733 D-alanyl-D-alanine carboxypeptidase
TTGTTAAAAAAGATCAAAAAGGCGCTGCTGAGTCTGGCAGCCAGTGGATTATTACTGACCGGAATAAGTACTTGGCAGGCCGCGCCGGTTGCGGCGGCAACCGCCAACTACCAGCAGCAGGACTTGAACCTGGACGTCAAGGCCGCGATTGCCGTTGATGCCGACAGCGGGCAGATACTTTATGCCAAGAATGCCACGACCCCGCGGCAGATTGCTTCCATGACCAAGCTGGTGACAGTTTACCTGACCCTGCAGGCCATCAAGCAGGGCAAGCTGTCCTGGACCAGCACGGCTAAACCGACGGCCGCGATTGCCAAGATCAGCCAGAACACTGAGTATTCCAATGTGCCATTAACTAGCGGCCATGCTTACACGATCAAGGAGCTTTACCGGGCCACTTTGATCGAATCCGCTAACGGGGCAGCCTTGACCCTGGCTCAGGCTGTCAGCGGCGACCAGGTAACTTTTGTTAAAAAGATGCGGGAGCTTTTGACCAGCTGGGGGATTAAGGACGCCAAGATTTACAACGCCTGCGGCTTGGCTAATGGCAGCCTTGGCTCAGCTGCTTACCCGGGCGTGGGCAAGGACGTTGAAAACGAGATGTCAGCCACTGACATGGCCATCGTCTGCCAGAAGCTCTTAAAGGACTTCCCGGAAGTCTTGCAGACGACTTCAATCACCAGCGCTACCTTCTCATCCGGTTCAACGCAAAGCCAGATGACTAACTGGAACTGGATGCTGAAAGGGCTGAGCAGCTACTACTCTGACCTGCCAGTTGACGGTTTGAAGACCGGGACGACTGACAAGGCCGGTGCCTGCTTTGCCGGGACTGTGAAGAAAAACGGCCACCGGATCATCACCGTGGTTTTGGGCGCCAAGCACGCAAACAGCCAGGACCCGTCCCGTTTCGTGCAGACGGCCAAATTGATGCACTATGTCTACCAAAACTACACGGCCGTAACCTTGAAGAAGGGGTCCAGCATCAGCGGGGCCAACACGGTCAAGGTGCCAGAAGGCAAGGAAACCAGCAGCAAGGTTGTCTTGGGCAAGACGGTGACTATCTGGGCCAAGCAGGGCAGCAAGCTGCAGACTTCTTTATCCAAGACTGCTGTTTCTGCCCCTGTAAAGAAGGGGAGCAAGATGGCCAGCTACAAGTTCTCAGCCACTAGCGGTAAATTGCCATCTCTTAGCGGCAAGACGGTGACTGCTCCAGCCGTGGCAACTCAGGACAACCAGGAGGCCAACTTCTTCGTCCGTTTGTGGCGGAGCATCTTTGGCAGCAAGTAA
>SRR1919932_01735 Xaa-Pro dipeptidyl-peptidase
ATGAAATACAATCAATATGCCTACGTTGAAACCAGTCCGGAAAAGGCAACTGAAGAGCTGCTGGCAATCAACTTCTTGCCGGAAAACTACTCTTCTCTTTCCTTCAGTGAGCTCCTGGCCGTCTTGACCGGCAATGTCCTGGCGGAAGCCACGACCCGCCAGGCTAAAGACGCAAAATTGGCGGAATTTGCCGTGGACGACCAAACTGACCTGGCCGCCTTTCTTTTGGACACGCCGACTGCCATCACGGCCAGCCAGTTCGCTAATGTTGCCCTGCAGCTTTTAGGCTACCACCCAAACTACGACTACAGCCTGACTGATCCTTTGACTTGCGGGAAAAAGCATGCCCTGCCGGCCTTTAAGGACTTGACCAGCAAGGAAGAATTGATTTTTACCTTCTACCGCCTGCTCAACACCCGGAGCAAAAACGGGCAGATCCTCTTGGACGTCATGGCCGGCAAGGGCTACTTCACCCAGTTCTGGGGGGAAGGCAAGTTTATGTTCTTCAACGGCAAGTCCCTGCCAGTTTTTGACACAAGCCAGGTCATCCGCGAGGTCGTTTACGTGCAAAGCGACCTGGACACGGACGGCGATGGCAAGGGCGACCTCTTGCCGGTCACGGTCTTCCGGCCAGTTGAAAGCCAGGACCAGCTGAAGGTCCCAGCCCTCTACACGGCTTCACCTTACTTTGGCGGGATCATCGACAATGTCAAGACTAACCACAATGTCGACGAGAACCTGACTGACGCGACCACTTGGACCAATCCCAAGTACGTGGCCAAGCCTTTAGTTAAAAGCCCTGCCCCCAGCGACCAGGACGTGCCGGCCACTGAACTGGCAACTGGGCAATCTTCTTACGGCTTAAACGAATACCTCCTGGCCCGGGGCTTTGCCTCTGTCTTCTCCGGGGCCATCGGCAACCGGCACGGGGACGGGATCCGGATCACCGGGTCACCGGAAGAAACCATCTCCCAAAAAGAAGTCATTGAATGGCTGACTGGGGACCGAGTGGCTTATACTGACCGGACCCGCCGCTTTGAAACCAAAGCCAGCTGGTGCAGCGGCAATGTCGGCATGACTGGCCGCTCTTACCTGGGGACCTTGCAGATCGCCATCGCGACGACCGGGGTCAAGGGCTTGAAGACGGTGGTTTCTGAAGCCGCTATTTCCTCTTGGTATGACTACTACCGGGAACACGGCCTGGTTGTCGCGCCAAGCGAATGCCAGGGCGAAGACATGGACAAGCTGGCTGAAGTCTGCCAGTCCAACCTCTGGGACGGGGGCAATTTCACTGCTAAAAAGGCTTATGAAGCAGAGCAAGCTGAACTTTTAGCCGCCCAGGACCGGGCAACCGGCCAGTACTCTGATTTCTGGGAGTCCAGAAACTACCGCCACCACACCGATGGCATCAAGTGCTCCTGGATCTCCGTTCACGGCTTAAACGACTGGAATGTCAAGCCGAAGAACGTCTACAAGATCTGGCAAAAGGTCAAGCAGCTGCCGGTGAAATCTCACCTCTTCCTCCACCAGGGTCCGCACTACAACATGAACAACCTGGTTTCCATCGATTTCACCGACCTCATGAACCTCTGGTTCGTCCACGAGCTTTTGGAAGTGGAAAACGGGGCTTATGAGCAATGGCCAAAGGTCATGATCCAAGACAACCTGGAAGCTGACGAGTGGCACGCAGAAAGTGACTGGGCCAGCGACCTGGGCCAAGCCAGCCTCTATTTACCAACGGCTGACGGGGACCTGTCAACGGTTGAAAACGGGACAGGCCAGCTAACCTTCACCGACTTGGGCGGGACAGAATTCAAGAAGGCCGGCATTAGTGAAACTGACTGGGAATACCAGTTTATCAGCGGGGAGGAAAAATGGGCCAAGGCCAGCCTCCGCTTTGAAAGCGAGGAATTCCTCCACCCGACTACCCTGGTCGGCCGGCCAAAGGTCCGGGTCCGGGTAGCAGCTAATAAGACTGTCGGCCAGCTGTCTGTTGCCCTGGTTGACCTGGGGACCCGGCAGCGGCTGACGGCTACGCCGAAGATTTTTGCCAGAGGAAACCAGCCCTTTGGCTACCGCTTCGGGGCAGACTCCTTGCAGGAATTCGTCCCGGACAAGGCCACTAAGGCCAAGCTGATTACCAAGGCCCACATGAACCTGCAGAACTACCAGGACATGAAGCAGCCAAGCAAGCTGGAAGCCGGCCAGTTCGTCGACCTAGAATTTGAACTGCAGCCGACCTACTACACCCTGCCAGCTGGAGCAAAATTGGGTCTGATCATCTATTCAACCGACCAGGGGATGACCAAGCGGCCGCTGGAGACCGAAGACTACACAGTTGACTTAGCCGGAACTGCTCTTTTGCTCTACCGGAAATAA
>SRR1919932_01736 major facilitator superfamily transporter
ATGGGAACTACCGCCTACCTGCTCAAGCAGGTCCCGGCTCGCTGGCTGCATTTAGGAGCCACCCTGGCCTTTATTTGCGGTTGCATCATCTGCGCCTTAACTTCCAGCTTTCCTTTGATGCTGGCCGGCCGGATCATTCAGGGGATCGCCACCGGCTTTTCCACCCCGATCATGTTCCAGCTGATCTTTACCCAGGTCCCTAAGCAAAAACTCGGCCTCATGACCGGTTTTGCCGGGACGATCATCTCCTTTGCCCCGGCCCTGGGCCCAACTTACGAGGGCCTGGTGGTCTCAGCTGCCAAGCTGGCGGATGATCTTATGGCTCCTTTTGCCCCTGGCTTTAGTCAGCTTAATCAGCGGTCAGGTCTACATCCGCAACCAGGTAAGCGGGTAAAAGGGAAAATTTGA
>SRR1919932_01737 major facilitator superfamily transporter
TTGCTGGGTCTGGCCCTTTTTGCCATTATCTATGCCCTGTCTTTAATCGGGACCAGCAGCTTGATCAGCGGCCTGGTCCTTTTGCCAGGCTCCTGCGTGGGGGCCGTCATCTCGCCTTTTGCCGGGAAACTGGCCGACAAGCGGGGCTTCAAGTTCCCACTAACCCTGGGCGGCTGCCTCTTTCTTTTGGGCAACTGCCTGCTTTTGGTCCTGCAGCCCTTGCTGACCCCGGTCTTGATCGTTGTCTGCCATATCGTGATCCGGTCCGGCTTCAACTTGAGCTTTGCCAACACCATCTCTAACGCCTCAACTTTGGTTGACCGGAAAAACGTGGCTGACGTTAACTCCTCTTTCAACATGCTCCAGCAGTTTGCCGGTTCAGTCGGCGTCAGTCTGGCCACGCCCCTGATCTCCCTGGCCCAGAAAACGGGGCAAGGGACTTTGGGCCAAAGAAGCTACCAGGGCGGCGGGAGATACGACTTTATCATGTTCAGCTGCCTAGCTTTGGTGACCCTTTTAGCCATCTGGCAGAACTTCTGCCTGCAGGAGCAGAAAAATAAAGGAAATTAG
>SRR1919932_01738 homoserine O-succinyltransferase
ATGAGCAAGAAAATCGGCATTCTCAATTTGATGCATGACAAGATCGACACCCAGAAACGGTTCAGCCATGTGATCAAAGAAGCCAGCCCGGAAACTGAAATCACTTATTTTTACCCCCAAAGCCACTATCTAAACCGGCCCCGACCCCAAAACTGGCCGGCTGAGCCGCTAAATCTCAAGACAGTTGCCAAGCTGGACGGCTTCATCGTCACCGGCGCCCCGATCGAGCTCCTACCCTTTAGCGAAGTCGACTACTGGGAGGAATTGACCAAGCTCTTTGACCTCTTAAAGGCAAAAAACATTCCCCAGCTCTATGTCTGTTGGGGCGCCATGGCGGCTCTCTACTATTTCTACGGGATCGGCAAGCATCCCCTGCCGGAGAAGATTTTCGGCATCTACCCCCAGGAGATCCTGGCTCCCGCCCCCCTGTTAAGTGGCCTGGTCACAGGCTTTCGGGCCCCGCATGCCCGCTACGCTGAGATGAACAGGAGCGAGATTGAGCAAGAAAAAGCTTTAACCATCAACGCCGCCACACCAGATGGCCACCTTACTCTGGTCACTGGGCCTGGCCAGCAGGTCTTTCTCTTCAGCCACCTGGAGTACGGCCCCCAGGCTTTTAGCAAGGAATACCAGCGGGAATTATCCGCTATAGGAGGTGATGACCGGAAGCTAGCGAAACCGCAGCGGTATTTCGCGGATGAAGCCGCCATGTCCCTGCCCCAGTTTACCTGGGAAAGCAGCCAGCAGCACTTTTTTAAAAACTGGCTGCAAACTATCAAATAA
>SRR1919932_01739 cysteine synthase
ATGTCAACTGACCGCATTTATGGCAACATTTTGGAAACTATCGGCCACACCCCAATCGTTAAGTTAAACCGGGTCGTCCCGGAAGGATCTGCCGACGTCTACGTCAAGCTGGAATTCTTCAACCCGGGCGGGTCGATCAAGGACCGGATTGCCCTGGCCATGATTGAAAAGGCAGAAAAAGAAGGCAAGCTTAAGCCTGGCGACACCATCGTAGAACCAACTTCCGGCAACACCGGGATTGGCCTGGCCGCTGTTGCCAGCGCCAAGGGCTACCACTTGATCATCGCCATGCCGGAAACCATGAGCGAGGAAAGAAAGAAGATCATGCGGGCCTACGGGGCTGAACTGCTTTTAACCCCGGGCAAGGACGGGATGCCAGGTTCTATCGCTTTGGCGGAAAAGCTGGTTAAAGAAAAGGGCTACTTCCTGCCAATGCAGTTTGAAAATCCGGCTAACCCGGAAATTCACGAACTGACCACGGGCCAGGAAATCGTCAACGCCTTTGCCGGCGATTTGCCAGACGCTTTTGTAGCCGGGGTTGGTACCGGCGGCACTTTGACCGGGATTGGCCGGGCCTTGAAGAAGGCCGGCGACGTCAAGGTCTACGCCCTGGAACCGGCGGAATCCCCGCTTTTGAAGGAAGGCAAGAAGGGCCCGCATAAGATCCAGGGGATCTCTGCTGGCTTCATTCCAAAGACTTTAGACCAGTCTATCTACGACGGGATTGTCGAAGTTTCCAGCGATGATGCCTTTGCAACAGCCAGAGATGTTGCCCGCCTGGAAGGCTTTTTGCCAGGGATCTCAGCTGGGGCCAACATCCACGGGGCCATCGAACTGGCCAAGAAGCTGGGTGCCGGCAAGAAGGTAGTCACTGTAGCGCCGGACAACGGGGAACGCTACCTGTCAACGGCTCTGTACCAATAA
>SRR1919932_01740 glycerol-3-phosphate dehydrogenase
ATGGCAAAAATCGGTGTTTTGGGAGCAGGTACTTGGGGCATGGCACTGGCCCGGATGCTCAGCAACTCTGGTCATGAAGTGACCGTCTGGTCAGCCCTGCCGCAAGAAGTCGACGAACTTTCAAGAACTCGTCGCCAGAAGAACCTGCCAGGTATGGTTATTCCTGACGAAATTAAATTCACTAAGGAAATTGCGGAAGCCTGCCAAGACAAGGACATCATCCTGTTCGCCGTACCATCAGTCTTCGTCCGCTCAACTGCCAAGACTGCCGCTGCCTCTATTCCAGACGGGCAGATCATCGTTGACGTGGCTAAGGGGATCGAACCAGACACCCTCTTAACTTTGACTGAAGTCATCGCTGACGAATTGAACAAGGACGGCAAGCATGGCAATGTCCACTACGTTGCCATGTCTGGCCCGACCCACGCTGAAGAAGTGGCCAAGGACCTGCCAACCACCATCGTTTCCGCCTGTGAAGACCAAGCTGTGGCTGAAAAGGTCCAGGATGTCTTCATGAACAAGAACATGCGGGTTTACACCAACTCTGACCGCTTGGGCGTTGAGCTCTGCGGGGCCTTGAAGAACGTAATTGCTTTGGCCAGCGGGATCTGCTCAGGCCTGGGCTACGGGGACAACATGCGGGCTGCCTTGATCATCCGCGGGATGGCGGAAATCAAGCGCCTGGGCCTTAAGATGGGCGGCAAGGAAGACTCCTTTGACGGCCTGGCCGGCATGGGGGACTTGATTGTCACCGCCACCAGCAAGGAAAGCCGGAATAACAATGCCGGTTACTTGATCGGCAAGGGCAAGAGCGCTGAAGAAGCCAAGAAGGAAGTCGGCATGGTCGTTGAAGGGATCAACGCCATTCCAGCCGCCTTGGAACTGGCTGACAAGTATGACGTGGAAATGCCAATCGTCTTCGCCGTTGACGCCGTGGTCAACCGCGGTGCTGATGCCCGGGAAACCGTTGACGCCTTGATGCTGCGGGAAAAGAAGTCAGAAATGACCAAGTAA
>SRR1919932_01741 XRE family transcriptional regulator
ATGGAAAAGAACATGATTGGCAAGTATTTGCGAGACCTGCGCCGGCGGCGGGGGATGAGTCAGCAGGAGCTGGCCCTGGCCTTGGGAGTAAGCAAGCAGACAATCTCTAATTGGGAGGTTGGCCGCAAGGTACCGCGGATGAAGGCTGTTGAGAAGATAGCGAATATTTTTGGCGTGTCCAGGAACAGCGTTTTGGCCGGGCTGCCGGTAGAAATGCTGGTGCAGGAAGGGCAGGAAGACCGCAGGGTGGTCGACTTGACCGACCGCGATATCCGTTTGACCTATCTGGGCCAGCAGGTGCCGCGGGAATATATTGACATCGTTGAGAAGCTGATGCGCTGCGATATTGCCGAGCGCGATGCTCAATAA
>SRR1919932_01742 hypothetical protein
ATGATGAAGGAGAAGAATTGGCTGACCTGGCTGACGGTCTTGGCTTTGGTGGTGGGCTTTGCCGCCATGGGAGCCAGCGTCTGGCTGAGCGCGTAA
>SRR1919932_01743 hypothetical protein
TTGGCGAGCGATAATTCCAGTTTAAAGAAGAAAAATTCCCGCCTGGCCAAGGAAAACCAGGCACTTAAGCAGGCCAACCAGGACCTGTCAGCAGCCAGCGCGGCCGCGGGATTAAACGTCTGGGAGACAGAAGAAAAGAGCGGCAAGCTACAGCTGAAGATCGACAACCAGACCGGGCAGGCAGTGAGTGACCTGCTGGGTTTGGCGGTAGCGGCTAACGGCCAGATTACTTTAAACAGCTTGCCCAGCTATTTCCCGGTTGGCGGGGCCAAGCCGCGCTATTTTTACCGGAAAAAAGTGGCGATTGGCAAGACGGAAGGAAGTTTGACCGGCGCTTACGCGGGTTCTGATATGGTCTGCCTCTTTGCAGACGCTAGTGGCGTTTACTGGTTCAAGGGAAACCGGGGTCAAATAGAAAAAATCGGCAGCCAGGCCCACTTCAAGAAGCTGCTTCGGCAGATCAGTTTGAATAAGCTGGAAGAGAGCTCGCTGCTGGTGAAGAAGACGGAAAAGAAGAAAAAGCAGACGAGTAAGAAATCAGAATAG
>SRR1919932_01744 DNA-entry nuclease
GTGAAGAAAGCAATGCAAAAATTAACGGCCCTCCTGCTGGCCTCAGCCAGCTTCCTCGTGGCCAGCCCCGCCAAGGCCAGCAGCCTGGCTGACCGCAACTACCAGGGGCAAAAAGTTATCACCGTCAACCAGGACCGGCCAACTTTTTCCAAAAAGGCCCTGTCGACTAAAAAGGGGGCCTGGCAGAGCTACCACAAGCTGGACTCTTTAAACCGGGCCGGGGAAGCCGATGCCCTGCTGAACAAGCGGCTCATGCCGGCCAAGGCCAGAGAGCCCCTTTACTGGAACCCAACCGCCTGGCACAACAAAAAGATCGCCGGCGGCTGGCTCTACAACCGCAGCCACCTGATCGGCTACCAGCTGACCGGGCAAAACAATAACCCCAAGAACCTGATCACCGGGACCCGGCAATTAAACGACCCGGGCATGCTCAAGTACGAAAACCAGGTGGCCAGCTACATCAAATCCTCCAGCCGCCACTACATCCGCTACCGGGTCAAGCCAATCTTCCGCGGCCGGGAGCTCCTGGCCCGCGGGATTGAGATGGAGGCCCAGTCCACTGGCTCTAACGCTGTCCGCTTCCACGTCTACATCTTCAATGTCCAGGACGGCGTCAAGCTCAACTATTCAAACGGTACCAGCGTGGTTACCGGCGCGGCGAAAAAGTCTGCCAAAAAGACAGTAGTTAAAAAGGCCGCTGCTAAAAAATCTACATCTTCTAAAAAGAAGATCAAGACTTCTACCACCGGCCGGATCGTCGGCAACCGCCGGTCCAAGATCTACCACGTTCCAGGCCAGGCCGGCTACCACATGAATTCAGCCAACGCGGTCTACTTCCGCACCGAAACTGAAGCCAAAAGAGCCGGCTACCGCCGGGCACTGCGCTAA
>SRR1919932_01745 LytR family transcriptional regulator
GTGAAAACTGTGAATAATGATATGGACAAAAATACCAGAGTCGGCAAGCGGAAGAAACGCAACAAGGCCATGCGGATCTTCTGGAGCGTGCTGGCGGTCATTCTGGTAGCGATCGGCGGCTTTGCCCTCTATGAGTACAATACTGTAAAGAACGCGGCTGATACTGCCTATAGGTCTGGCGGTCTGGGGGATGCGGAAAACGGGAGCAAGAATTCTGTTATCAGCAACTCCAAGCCAATTGCAATTCTTTTGATGGGGACGGACACTGGGGCCTTGGGCAGAACCTACAAGGGCCGGACCGACTCAATCATGGTCGCGGTCTTGAACCCAAAGACCAAGAAGACAACTTTGGTCAGCTTTGAAAGAGACCAGCAGGTCAACTTGCCAGACTACCCGGAAAATTCACCTTCCAAGTTGAACGCGGCTTACGCTTACGGCAATGCTAAGGAATTAGCCAAGGTTCTAAAGAAGTACTACAATATCCCGATCAACGCGTATGTCTTGATCAACATGGGCGGTTTGAAGACCATCGTTAACAAGGTCGGCGGGGTTGATATTGCTCCGATTCTTTCCTTTAGTTATGAAGGCTACACTTTCACCAAGGGGAAGACGACTCACATGGACGGGGCCAAGGCACTGGCTTATTCCCGGATGCGGTATGATGACCCAGAAGGTGACTACGGCCGGCAAAAGCGGCAGCGGCAAGTCCTTTCAGCTCTCTTGAAGAAGGCTGAAAGCGCGACAACCCTGCTGAACTCCAGCTTCATTTCTTCCCTGTCCAAGCAAGTGCAAACTGACTTGACTTTCAGTGACATGACTTCTATGGCGAAGAGCTACCTGGCAGCCACGAAGGACTTGAAGACTGACTACACTCACGGCACTAGCTACATGCAAGACGGGGTTTCCTACCAGAAGATTTCTGTTTCTGAACGGCAGAGAATCAGTGACTTGATCAGAAAGACCCTGGGCCTCAAGACAAAGACGGTAAGCACTGATTCAATCGATACGTCAACAAGCAGCAGTTCGAGCTCAAGCAGCACGACAACTGACAGCAATACTGGCACGGCTGGCAGCGATAATGGGGCAGCAGCCGGCAATGATCAAAGCAACAGTACCGGCTATTAA
>SRR1919932_01746 PTS system, sucrose-specific IIABC component
GTGGCAATGAATTACAATGCAGTTGCCAAGCGGGTGATCGCTGCCGTAGGTGAAGACAACCTGGTAGCTGCTGCCCACTGTGCGACTCGTCTGCGTTTAGTCTTAAAAGACGATACCAAGATCGACCAAGCAGCCTTGGACAAGGATCCCGACGTTAAGGGTACCTTCAAGACTGACGGCCAATACCAAGTTATCATCGGGCCTGGTGACGTTGACAACGTCTACAACGAATTGATCAAGCAAACCGGCCTGTCCGAAGTTTCTACCGACGACTTGAAGAAGATCGCCGCCAGCGGCAAGAAGGTCAACCCTGTCATGGCCTTCATCAAGCTTTTGAGTGACATCTTCGTGCCAATCATCCCAGCCCTGGTTGCGGGTGGTTTGCTGATGGCCTTGAACAACTTCTTTACCAGTCCTGGCCTGTTCGGGCCTAAGTCCCTGGTCCAAATCAACCCAGCTATCAAGGGCCTGTCTGAAATGATCCAACTGATGTCAGCTGCCCCATTCATGTTCCTGCCGGTTCTGGTCGGTATTTCCGCCGCTAAGCGGTTCGGCGCCAACCAATTCCTCGGGGCTGCAATGGGCTTGATCATGACCACCCCGCAGCTGGCTGGTGCAACTCACTACTGGAACATCTTCGGCTTGCACGTAGCGCAAACCAACTACCAATACCAAGTTATTCCAGTCCTGGCAGCTATCTGGATCTTAGCCTTCTTGGAAAAGAAGCTGCACAAGGTCCTGCCAAGCGCGGTTGACTTTACTTTCACCCCGCTTCTGTCAATCATGATCACTGGCTTCCTGACTTTCACCATCGTCGGGCCAGTGATGCAGACCGTTTCTGACTGGATCACCAACGGCTTCGTATGGCTGTACGACACTGCTGGCTTCATCGGCATGGGTCTGTTCGGTCTTTGCTACTCAGCCATCGTTATGACTGGTTTGCACCAAAGCTTCCCGGCCATCGAAACCCAATTGCTGGCTGCCTTCGCTGCCGGCAAGGGTGCGGGCGACTTTATCTTCGTTGTTGCTTCCATGGCCAACGTTGCTCAAGGTGCCGCAACCTTCGCTATCTGGTTCTTGACTAAGAACGAAAAGATGAAGGGTCTGTCTTCATCAGCCGGTGTTTCTGCCCTCCTGGGGATCACCGAACCAGCCCTCTTCGGGGTTAACTTGAAGTACCGCTTCCCATTCTTCTGCGCCCTGATCGGGTCCGGTGTTGCTTCAGCCCTTGCAGGTCTCCTGCACGTTGAAGCCGCATCCCTTGGTTCTGCGGGTTTCCTGGGCTTCCTGTCCATCTACCCGAAGACCATCCCAATGTACGTTGTCTGTGAACTTGTTTCCTTCGCTATTGCCTTCGCCTTGACTTTCTTCTGGGGCAAGAGCCACTTGAAGGAAGAAGTTGCCAGCGTTGAAGGCAAAACTGGCGTCAGCGCTTCAACTGAAGTTCCAGCTGAACAACAAGTTGAAGCTGCCAAGACTGCTGGTTTGGAAGACGAAGTAGTTTTGGCACCTGTAGACGGCGTTTCTGAAGACCTGTCAGCCGTAAATGACGAAATCTTCTCCCAGAAGCTCATGGGTAACGGGGCAGCCATTGTTCCTAGCGACGGCAATGTCTACGCTCCTGTTACCGGTACTGTTTCCGTTGCTTACAAGACTGGCCACGCTTACGGGCTTAAGTCTGACGACGGTGCCGAAGTCCTGATCCACATCGGTCTGGACACGGTCAACTTGAACGGCCAGCACTTCAAGTCCCTGGTCACTCAAGGCCAGCACATTGAAAAGGGCGACAAAATCGGTGAAGTCGACCTGGATGCCGTCAAGGCTGCCGGCTACGACACCACTGTCATGGTTGTCATCACCAACACCCCTTCATACAATGAAGTGGCCCGGGTTGAAGCAACTGACGTTAAGCACGGCGACAACTTGATTTCTTTAACTGCTCACTAA
>SRR1919932_01747 sucrose-6-phosphate hydrolase
ATGGAATGGACAAGAGAAAAAAGATATCTTCCTTATGAGAAATGGGATGTCAAGACTTTGCTTGAGCTGCAGAGCCAGGCAGCCCGGTCAGACTACCAATTGCACTACCACATCCGGCCAACTTCTGGTTTATTGAACGACCCTAACGGCTTTTCCTACTATAATGGCCGCTGGCAGGTCTTCTACCAGGCTTACCCATTTGGGGCAGTGCATGGTTTGAAGTCCTGGGTGCACTTGACCAGTTCCGACCTGGTTCACTGGGAAAACCTGGGCGAAGCTGTTTATCCTGACACCCCGCTGGACAGCCATGGGGCCTATTCTGGTTCAGCCAAGGCAATTGGCGACAAGCTTTTTCTGATGTACACGGGCAATGTCCGCGACGAAAACTGGGTTCGCCATTCTTACCAGGTTGGGGCCTGGATGGACGAAGAGGGAAAGGTGACCAAGCTGGAGACGCCTCTGATCAACTCGCCAGAGCATGTGACTGAGCATTTCCGTGACCCGCAGATTTTAGAGCACGATGGCAAGTACTACGCTATTCTGGGTGCCCAGGACAAGGAGACCAAGGCCGGCAAGATCAGCCTTTACAAGGCAGATGCTGTAACGGGTCCATGGCAGGACCTGGGCTATGTTGACCTGCCAGACATGGGCTACATGGTTGAATGCCCGAACCTGGTCTTTGTTGACGGCAAGCCGGTCTTCATCTTCTGCCCGCAGGGTTTGGACAAGAACGTGACCGACTACCAGAATGTCTACCCGAACATGTACTGGGTTGGGGAAAGCTTTGACTTTGAAACCGGCCACTTCGAGACCAAGCAGAAGGCCCCGATCAACCTGGACGGGGGCTTTGACGTCTACGCTACTCAGGCCTTCAACGCGCCAGATGGCTATGCTTACGCCATCAGCTGGGTTGGCCTGCCGGATGTGACTTACCCAAGTGATAAGGAAGGCTGGGCTAACTGCTTGAGCCAGGTCAAGCGCTTGGCTTTAAAGCACGGCCGCTTGCTTCAAAAGCCGGTCAAAGCCATGAAGAGCCTGAGAGGAGTCGAAGAAGACTTCACAGGTGACCTGGCCTTTGATGCTGGCGCGCAAAGCGAACTGAAGCTGACTATTAAGCAGGGGCAGAAGGGCAAGCTGCTTTTGGCGGCAGACAGTGAAGGTAAGAACTGCATCAAGCTTCGCTTCAAGACCGGCAAGCACGCCCGCTTAACGGTTGACCGGGGTGAATGCGGCCAGGCCGTGAACCCGGACTACGGGACTAGCCGGACGGTGAAATTGCCAGCCGGGGAAGACCTGGACCTGCGGATCTTTGTGGACCACTCCCTCTTTGAAATTTTTGTCAATGGCGGCGAAGAAGTCATTACGGGGAGATTCTTCACTCAAAATGGACAAACTTTTGTTAAGATGGATAGCGGTGTTGACTACCAGGCCAAGACTTGGCGGTTAAAGGATATGTAG
>SRR1919932_01748 LacI family transcriptional regulator
ATGAGGCCAAAATTAACTGATGTAGCGGAGAAGGCTGGCTGCTCGCCGACGACTGTCTCGCGGGTGATCAACAACTACGGCTACATCAGCCAGAAGACCAGGGATCGGGTGTACGCGGCCATGCGGGAGCTGAACTACCAGCCCAACACCTTGGCCCGGTCTTTGCAGGGCAAGCAGACCAAGATGATTGGGGTGATCATGCCCAGCATCACCAATCCCTTCTTCGCGGAACTGGTCGCGGCAATTGAAGACAAGCTGGAAGCGGACGGCTACAAGATGCTGCTCTGCGACGCCGGCCAGGACAGCGATAAAGAGCGACGCTATCTGCGGATGCTGGAGGCCAACCAGGTCGACGGTATCATCGCGGGTTCGCACAACCTAGGGATTGAAGAATACCAGCGCTATGGCCTGCCGATCGTTTCCTTTGACCGGGACCTGTCTGACCAGGTGCCGATCGTGACCAGTGACAACTACCAGGGCGGCTGCCTGGCTACCCAAGCCATGGTTGACGCGGGATGCGGGCATGTCTACTTTGTCGGCAATCCGGTTAAAACAGGCAACCCGACCTCCCGCCGCTTTGACGGCTACGCGGACACGGTGGCCGCGGCGGGATTGACGGTACACACGGCTCAGTCAGCCTTTTACGAGTCTCCGGCGGCTAAGGAGCGAGAACTCCGGGAGCTCTTGACCAGCGGGCGGAAGATCGACGGGGTCTTTTGCTCAGACGATCTGACGGCCATCCTGCTCTTAAAAGAAGCCAGGAAGCTGGGGATCAGGGTGCCGGAGGACTTGAAAATCGTTGGCTTTGACGGGACCCAGCTGGTCCAGAACTACGTGCCGGAATTAGCGACGGTCGTCCAGCCGGTTCCAGACCTGGCCGGGACCTTGGTCAAGCTGCTCTATGAGCGGATCGCGGACCCGGAAAAGAAGCTGGCCCAAAACAGCTACCTGCTCCCGGTCAAGCTGCTGAGAAACCAGACTGTTTAA
>SRR1919932_01749 hypothetical protein
ATGGAGAAGAAACGCGTTTGGCTGTTCATTCTGGCTTTTAGCCTGATCGGCCTCCTGGTCTACGGGGCGGAAATTGCCTATGCTTTTATGAAGGACCGCAACAAGAAGATGGAATACAGCTTCGATGAAGAAGAGGCGGAAGATCCGCAGGAAATGGAAGCTGACTACAAGAATCAAGAATAG
>SRR1919932_01750 membrane protein
GTGAGCAAGAACCGCTTGGAAGCATTCAGCGATGGCGTATTGGCCATCATCATCACCATCATGGTCCTGGAAATGAAGGCCCCGGAAGAGGCCAGCTTCCAGGCTCTAAAGCCGCTGGTCCCGCAGCTGGTCATCTACCTGCTCAGTTTCTTTTACATGGCCATTTACTGGGAAGTCAGTAGCTGTAAAAATATATAG
>SRR1919932_01751 glycerol kinase
ATGAGTGAACAATACATTTTGGCAATCGATGAGGGGACTACCTCAACCAGGGCAATCATTTTCAACCATGCCGGCCAGCAGGTGGCCAGCGTGGCCCGGGAATTCACCCAGTACTTCCCCAAGCCCGGCTGGGTGGAGCACCAGGCTGAGGAAATCTGGAATGCCGTCCAGATCACGACGTCAACGGCCCTGATCAACTCCGCCATCCGGCCGGACCAACTGGCGGCCATCGGGATTACCAACCAAAGAGAAACCACGGTGGTCTGGGACAAGGAGACGGGCCGGCCAATCTACCCGGCCATCGTCTGGCAGTCCCGGCAAACTAGCGATATCGCGGAAAAGCTGGTTAAGGACGGCTACAGCGAGATGATCCGGCAAAAGACGGGCCTGGTGATCGACCCTTACTTCTCCGCCACGAAGATCCGCTGGATTTTGGACCATGTGGAAGGGGCCCAGGAAAGGGCGGAAAAAGGGGAGCTGCTTTTTGGCACGATCGACACCTGGCTGGTCTGGAAGCTGACCCGGGGCAAGGTCCATGTAACTGACTGCACCAATGCCAGCCGGACCATGCTCTTTAACATTCATGATTTGACCTGGGACCAGGAGATCATGGACCTGCTGAAGATTCCGCGGGCCATGCTGCCGGAGGTTAAATCAAATTCTGAAGTCTACGGGGAAACTGACCCTTACCAGTTCTTCGGCGGCAGAGTGCCGATCGCCGGGATGGCCGGGGACCAGCAGGCGGCCTTGTTTGGCCAATTGGCCGTCAAGCCGGGCATGGTCAAGAACACCTACGGGACCGGGTCTTTCATCGTGATGAACACGGGGGAGGAGCCGATTGAATCCAAGAATAATTTGCTGACGACTATTGGCTACAAGCTGGGCAATCAAGTAAACTATGCTTTGGAAGGGTCAGTCTTCGTGGCCGGGTCAGCCATCCAGTGGCTGAGAGACTCGGTCAAGCTGCTGAACTCAGCTCCGGAATCAGAGCAGGCGGCCCTGGAATCTAAAGACGATAATGAAGTCTATGTAGTTCCCGCCTTTACTGGTTTGGGGGCACCATACTGGGACAGTGAAGCCCGGGGGGCGATTTTTGGCCTGACCAGAGGCAGCAGCGACAAGGACTTGATCAAGGCAACCCTGCAGTCCTTGGCCTACCAGACCCGGGACGTGGTCGACACCATGCAGAAGGACTCGGGCATTGAGATTCCGGTCCTCAGAGTCGACGGCGGGGCTTCAAACAACAACTACCTCCTCCAGTTCCAGGCAGACCTGTTAGGCAAGAAGATCGAGCTGGCAGCGGATTTGGAAACCACTGGCCTGGGGGCCGCCTTTTTGGCAGGTTTAGCCGTTGGCTACTGGCAAGACCTGGATAGCTTGAAGGAAATTGCCAAGACCGGGGCCGCCTTTGCACCAAAGATGGAAGAGGCGGAAAGAGACCGGCTCTACGCGGGCTGGCAGCGGGCGGTTCTGGCCACCCGGGTCTTTGCCCACGGGAAAGATTTTTAG
>SRR1919932_01752 glutamine amidotransferase
ATGGATGATAATTTGATTCGCATTGCCTACCTCTACGAAGACTTGATGAACACCTACGGGGACTCCGGTGACGTCAAGATCCTCCGCTACTTTTTGCAGAAAAAAGGCTGGCAGACCCAGATCGACAATATCTCCCTGGGCAGCCAGTTCAACGCGGACGACTACGACTTTGTCTTCTTCGGCGGCGGCCAGGACTATGAACAAAGCATCGTGGCCAAGGACCTGCAGCGCTTCAAGGAAACCCTGAACGACTACATCCAGGCTGGCAACCCCATGCTGGCCATCTGCGGGGGCTACGAACTGATGGGAACCTACTACAACACCATTTCCGGGACCAAGATCAAGGGCCTGGGGATCCTGCCCCTACACACGGAATTTGACCCAGAGAAGCGGATGATCGGTGACACCAAGTACGAAACTGAATGGGGCCCGACCATCGGCTTTGAAAACCACTCCGGCCAGACCTTCCTGGATGACCGGAAGATGCTCAAACCTTTCGCCAAGGTAGTCGAAGGCTACGGCAATAACCATGAGGAAAAGGAAGACGGGGTCCGCTACAAGAACTTCATCGGCTCCTGGTCCCACGGCCCGATGCTTAAGAACGAGAATGTGGCTAATGCCCTGGTGGACATGATTTTGAAGCGGCACGCTGCCCGCGTGGCCCAATAA
>SRR1919932_01753 hypothetical protein
GTGAGAACGATAAAGATCGATATTCTTCGATACCTCGACGACAAGCACCTGACCATTTACCGGGTGGCGAAAGAGTCGGGCTATGGCTACACTACCCTTCACAAGTCATTTAACAAGCAGCAATCAAATGCGACGTCAATCAACTTGCGCGATCTCGACGCGATCGCCCGGACCAAGCACGTGGCGATGTGGCAGGTTCTGCGTGAGCTGGAGAATGATTATCTCAGCGATGACGATGATGACTAA
>SRR1919932_01754 ATP-dependent Clp protease ATP-binding protein
ATGGATTACAACAACTTTAACGATATGGATGATCTTTTTAGAGAATTAATGAACGGCTTGGGCGGCTTCAATTCCGAAAACCGCCGCTACTTGATCAACGGCCGGCAGGTAACCCCGGAAGAATTCGCTGAATACCAGAAGACTGGACAGCTGCCAGGACAAGGCCAGGCCAAGAATTTCCAGGGCAAGCAAAAGAAGGCCAACGGCATTTTGGAAAAGTTAGGCCGGAACTTGACCGCTGAAGCCCGGGAAGGCAAGCTCGACCCGGTCATCGGCCGGAACAAGGAAATCCAGGAAACGGCGGAAATCCTCTCCCGCCGGACCAAGAACAACCCAGTCCTGGTCGGGGACGCCGGGGTCGGCAAGACCGCGGTCGTTGAAGGCTTAGCCCAGGCAATTGTCCACGGGGACGTGCCGGAAGCAATCAAGAACAAGGAAATTATTTCCATCGACATCTCCAGCCTGGAAGCCGGGACCCAGTACCGGGGCTCCTTTGAGCAGAACATCCAGGACCTGGTCAAGGAAGTCAAGGACAGAGGCAATGTCATCCTCTTCTTTGACGAAATCCACCAGATCCTCGGTGCCGGCGGCATGGGCGACGGCAATGGTTCCAAAGGGATGAGCGACATCTTGAAGCCGGCTTTGTCCAGAGGTGAAATCACCGTAATCGGGGCCACCACCCAGGATGAATACCGGAACACCATCATGAAGGACACCGCTTTGGCCCGCCGCTTCAACGAAGTAACTGTCAATGCTCCGAGTCCAGCTGAAACCTTCAAGATCTTGAAGGGAATCCGGTCCTTATACGAAAAGCACCACAATGTGGAACTGCCAGACGACGTCTTGAGGGCCGCCATCGACTACTCAGTCCAGTACATTCCGCAGCGGTCCCTGCCTGACAAGGCCATCGACCTTTTGGACATGACCGCCGCTCACCTGGCTGCCCAGCACCCGGTGACTGACGCCAAGACCATCGAAAAGCAGATCAAGGAAGAAAAGCAGGCCCAGGAAAAGGCCGCTGAAAAGGAAGACTACGAAGCCGCCCTTGACCACAAGGCCAAGGCTGAAAAGCTGGAAAAGCAGCTGAGTGAAAACCACAAGGAAAGAAAGACCGTGGCTACCCCGGCTGACGTGGCCGCTGCTGTTGAACGCCTGACCGGGATTCCGGTTTCCAAGATGGGCGCCAGCGACATCGAACGCCTGAAGGGGCTCAGCAGCCGCTTAAAGGCCAAGGTCATCGGCCAGGATGAAGCCGTTGAAGCAGTAGCCAAGGCTATCCGCCGCAACCGGGCTGGCTTTGACGAAGGCAATCGGCCAATCGGCTCCTTCCTCTTCGTTGGCCCGACCGGGGTCGGCAAGACGGAACTGGCCAAGCAGCTGGCCTTGGACATGTTTGGCTCTAAGGATGCCATCATCCGCCTGGACATGTCTGAATACTCCGACCGGACAGCCGTTTCCAAGCTGATCGGGACCACGGCCGGCTACGTGGGCTACGATGACAACTCCAACACCTTGACGGAAAAGGTTCGCCGCAACCCTTACTCAATCATCCTTTTGGACGAAATTGAAAAGGCTGACCCGCAGGTCATCACCTTGCTCTTGCAGGTCCTTGACGACGGCCGCTTAACTGACGGGCAAGGCAACACGGTCAACTTCAAGAACACCATCATTATCGCTACCTCTAACGCCGGCTTCGGTAATGAACAGCTGATGAGCGACGCTAAGAAGGACGAGAAGCTGATGGACCGGCTGGCTCCTTACTTCAGACCGGAATTCCTCAACCGCTTCAACGCGGTCATCGAATTCAAACACCTAACCAAGGAAGACTTGAAGAAAATCGTTAACTTGATGCTGGCTGACGTAAACAAGACTCTGGCCAAGAAGGGCATCAGCCTGACTGTCAGTGAAAGCGCCAAGGACTACTTGATTGAACAAGGCTACGACGAAGCTATGGGGGCACGGCCGCTGAGAAGAGTCATCGAACAGGAAATCCGTGACAAAGTAACTGATTACTACCTGGACCACCTGGACGTCAAGAAGCTGAAGGCGGACATGGTCGACGGGACCCTGGTTATCAGTGAAGATAAATAA
>SRR1919932_01755 branched-chain amino acid permease
ATGGGGGCAACCAGCAGCACGCAAGCTAGCGCCGACTACCTCGCTGCTCCTTTGACCAACGGCTTCCTGCAGGGCTACAACACCCTGGACGCCCTGGCAGCTTTGGCCTTCGGGATTACGGGAGCGCTCGTAAACTTCCCTGGCTTCCTTACTAAAAGCGTAGAATTTATCTTGCATAAGGCAACCTTCCGTAAGCAATTTTATATTACCTGTTTATTATAA
>SRR1919932_01756 transposase
ATGGGCTTATTCGCCATCTCAATCCGCAAGAAACGCAAATACAGCAGCTATTACGGCGTTCAAGGCAAGATCAAGCCAGACTTAATCAAGCGCAATTTTTACGCAATTATTCCTGACAGACATTGGTTTACTGACGTGACTGAATTCCATCTTAAAGATCAAAAGCTCTACCTTTCTCCAATTATCGATGGTTGTACCCAAGAAATCATCTCCTACAACATTTCTAGGCACCCAGACCTTAAGCAAGTGATGACCATGCTAGATGACGCATTTGAGAAGCACCCGGCTCTTAACGGGCTTATTTTCCACTCAGACCGTGGCTGGCAATATCAGCACCAAGCATATCAAGCCGCTCTGGCTAACAGAGGGATCGATCAAAGTATGTCCAGGTTGGGTAATTCTCTTGATGACGGCTTAATGGAGGGCTTCTTCGGCATTCTTAAGCGGGAGATGTTCTACGGCCAAGAACATAAATACAAGGACCTAAATGAGCTTGAGCAAGCTATTCACAAATACATCGATTACTACAACAACGTAAGAATCAAGACAGGACGAAAAAACATGACCCCGATTGAATATCGGAATCATGTTTTAACAACCTTAACGGCGTAA
>SRR1919932_01757 membrane protein
ATGTATATCATTAGGCAACAATGGCTGCAGGACAATGCTATACGTAAGTGGTATTTCCTAGCAGCTATTTTAATTTTATTTGGGGGATGCAGTACTGCTATTCTGGTAAGCGACGCTCCGCAAAATCAGTGGTTAAGCCAGACCATATTCTCACGCTTTCTTGTTTTCAGCCTGCTGGTTCCTGTTCAGATCTTGCTTTTACTGAGTACATTTCGTGTCCGTCTACAGGATATATATGTTACTGGGAGCAGGCGGATAATTTGGAAGCAGCTGGAGTATCGTTTGGCGATAGCTTTGCTCGTGACCCTTGTACCATGGGCAGTCGGCTGCTTGATTGGTATGTTCCTCAATGGCTGGGGGACCAGATTAGGGACTATAGTGGCAGAAGCATTGATTCGCTACCTGTATCTGGCCTTGTCCTGCCTGGCTATTCTCTTGCTGGTCAGTCTCTGTTTGCTGGCTAGCAAGAGAATCTGGGCCTTTCTGGCCGGCTTTGTTCTAAGCGGAATTTCCTATTTCTTGAACGTCAACCATCATTTTTCCTTGTTCTATGATTTTCTTATCGATGATTTGGGAACCCTGCTTCTGTCCCGCTTGCCGATCCTGCTAAGCATAGTCTTGTTTCTAGCTGTTGGCGTGCAAATGGAAATCGCTAGAAAGGACTGGTAA
>SRR1919932_01758 hypothetical protein
ATGCGGCTTTTTAAAGATCAGTTTCTGTATTTCTGGCAGATGATAAAGGTGAGGTTCCTATCATGGCTACTGTTGACCTGTTTGTTTTTGCTGGTTGCCGGTGGTTTCATGAGAAACGGCAGAAGTGCCAATATAATGGTCTTCCAAGGGCTTGGATTGGCAGAGATAAGGGCTGGCATTAGAGATTTTCCGGTCTCGTGGTTCGGCTATTTCTTTTTCCCGCTGATGATCAGCTTGAATATTTTCAAGGAATTGTGGATCAGCAGGGTAATGCAGCTGCGGGGCCAGCAGATCAAGCCAAGTCACTTCAGCTGGGTCAATGTCATATTGCAGTTGCTCTTGGCCGCAGTTTACGTCTTGGCAAGCAATGCCTCCCTGTGGTTGAAAGACTTGCTGTGTGGCAACTCGCCTCTTGTTCTGGGACCCTGGCAAGGAGGAGCAGCAGAATTGCACTGGATGTTAATTGCCTGGCTTGGGGTCAGCTCACTCTTACTGATTCAAGCCAGTTGCAGTGAGCTCACTCCCGCTTTGGGCTTGATTATGCCAATCGTCTTGTTGGTTTCGACCTCTTTGACAGCTTGGAGCGGCAATCCGCTTAATGCATTAATGTTGAGCCGCTGGACCAGTGGCGCAGAGTTGTTTATGTTTGTGTGGACCCTGATCTGGGCTTTGCTGTACGTATTAGTTGACAGCAAGCACGGCTGGGTCTAA
>SRR1919932_01759 ABC transporter ATP-binding protein
ATGTTTATTGAGTTAAAGAATGTAAACAAGGTCATCTCAGGCCGGCAGCTGCTCAGTCAAGTCAACTGCGAGATTGAGGCTGGCCAGATCGCGGTTTTTGAAGGGATCAACGGATCTGGGAAGACTTTGATTTTAAAGACGATTTTGGGCTTGATGAAGGTTGACGGGGAAGTTTTGGTAGCTGGCAAGCAGGTCAAGCCGCAAGATGCTTATCCGGTCAAGGCAGGGATTTTGATTGAAAATCCCAGCTTGATTACAGACTTCACGGCAACGCAAAATATGGAGCTTTTAGCCAAGCTTGATGAGCATATTTCTGCAACTGAAATTGCAGAATTGCTGAAATACTTTGACTTAAGCCGCTTTCCTAATGAAAAGGTCAAGAAGTTTTCTTTAGGGATGAAGCAAAAGCTGGGTATTGCTGAAGCCTTCTTGGGCTCATATCCGCTGATTGTTTTAGATGAACCGACCAACGCTTTGGACAGCGATAGTATTGATAAGTTGGTGGATTTGATCAAGTTGCGGCAAAGCAAGGGATGCACTTTTGTCATCGCTTCACATGACCGGGATTTTGTTGAGCAAGTGGCAACCAAGCGCTTTAAAGTTGAAGAAGGTGTGGTTCATGAAGCGTAA
>SRR1919932_01760 hypothetical protein
ATGAAGCGTAAAGTATGGCTGGCGGCAGCCATCGTCTTGTGCGTGCTGGCAGGCCTGCGCTATTGGCAAGTAAACGCTAATCCTGTTTACCGCGGGGTAGACAAGGAAATTTTTGTCAAGAAAGGGCAGGAGGTTCATGCTCCAGGAATCGACTTTAAGATTCTGTCCGCCAAGATGGTCAAAGGGAAAGAAAACGTTTATTTGACTGTAAAGGTTGATCTGAAAGACCGTGGCTATTACGCGGATGGCAAGCATGGAATAATCGCCGCGGTTAGCAACATGTATTTCAATATGCCATACAGCATCAGCAATCAATCAGATCTTTATGTGGTGGATGGCAATGGGCACAAGGTAGCCATTGGATACTTGACTAGCAAAACTCCCCAGCCATTGACGCTGAAATTTGACAATGTGCGAAGTTGGTATGATACAGAAAACACACCGGCCAGATTCAGCTTTTTGGTTGGGGATGGCAATGGGTATAAGAAGTATTCAATACTTTTGGAATGA
>SRR1919932_01761 hypothetical protein
ATGAGCGTAATTTTTAGGAGGTATATTATGTTACACAAAAGAATCGTTGTAGTGATTGCATCAGTTTTGATGACGTTGGGGATTGTGGCTACGGCCGCACCTGTATTCGCGGGGAATACGGGCAATACTTATTGGCGTAATGTTTATAGAGTTGGATCTCCTTACGACCATACTCCTGCTCGCAAGAAGGAAAACAGATCAGTTTACTATAATAAAACAAACAACGTACATATTAAAGGTGGCTACATCGTGATTTGGGCAGCTCTTTACGATGGGCGTGATGTTTCAGGTGGCCACAGTTATAAGAGTTATCAAGGAATGGTAACTCATTTGTGGAATGAAGCGGTAGAGCACTATGGGAAAGGCGTATCTGTAAGAATTAATTCGAAAAAAGCTGCTAACGGATGGGCAGATGGTGTTTGGAGTCCAGATAGCAAGTAA
>SRR1919932_01762 membrane protein
ATGAGTTTATTGTGGTCAAGGCTGAATAAGCGCTGGTTTGTTGCGGCAATCGCTGTTGGCATGGCAGTGGGATTGTGGCAGATAATCGTTAACTACCACACCGGTATGGCGAATATCGACTCGCCTTACACTCGCTGGCTGTCAATTGATACTGACTCATCTGCAACGACAATTTTCTTCATCCTCTTGCCCTTCTTAGCTAGTATTCCAGCAGGAAACATGTTAAAAGAAGACTTAGACAGCGGTCTGTTCAACAAATTTAAACTGCAGGTACCTTTAGCCCATTTGATTAAGCAATATGTGGCTATGGCTTTTTTAACCGGGTTTGTGACCATCATGATTCCGCTACTTTTAAACTTGTTGGGGTATCTGTTGATTCTTCCAAATTTTAAGCCAGATAATTTGCTAAATATCAATATTGGGGTTTTCAACTTCAACACCATGCTGGTTTCTTTGTATTATAGTCATCCATTTGTTCACGCATGTCTTAATATATTGCTAGCTTCTGTCTGGGGAGGTTTGTTCTCGGTATTTGTCTTGGTCAATTCGGTTTGGATTAGAAATCGATTTGCATCATTGAGTACAGCCTTGGTTTTAGAGCTGATCTTAATGGAATTGGATGCCGTTTTACCAATTGACTATATGCCCAGCATATCGCCTACGGATTTTTTACCGGAACAAGGAAGCCGCCCGCTGTTATGGCTGACAGCTTTGATGACGATAGCGTTAGCTGCATACTGTATGGGGATGTATAAGCTGGCTTGCCGCCGGGCCGTGCTGTAA
>SRR1919932_01763 membrane protein
GTGAAGGTTATTAAACAGCAATGGCTGTTAGATACGACTGTACACAAGTGGTTTCTGTTAACTGCCGCATTGCTATTCTTTGGGGGATATAGCAATGCGTTTTTAGTAAGTAATACACAGCAAAGCCTGTGGTTAGAGCAAACTCTGTTCTCGCGCTTTCTGATTTTTAGCCTCTTAATACCTAGTCAGATCTTGCTTTTATTGTGTACCTTTCGAATTAGGTTTCAAGATATTTACATCGTAGGTGGAAGATGGATTATTTGGAAGCAACTTAAGTACCGTTTGATAGAGATACTACTTTCAAGTCTTTTACCATGGTCGTGTGGCAGTTTAACGGGGATGCTTGTTAATGGCTGGAGTCCGACGTTAGGGGCAGTAGCTACTGAGGCATTAATTCGCTGTTTATATTTAATTTTGTCGTGCTTAGCACTTCTTCTGCTTACCAGTTTTTGCTTTCTAATTAGTAATCGAATTACGGCCTTTCTAGCAGGGTTTGTTATAAATGGTCTTTCTTTCTTCTTGAATGTTAACCACCACTTGTCTATAATTTATGATTTTGTTGTCCCGGAATTTGCTACTTTACTCTTTTCCTGCTTGCCAATAATGTTAGGCTTGCTTCTTTTCTTGATTTTCATTGTACAGCAGGAGATTTCCAGAAAAGATTTGTGA
>SRR1919932_01764 2-oxoglutarate translocator
GTGCCAAAGATCATGGCCGCTTTGATTCTGGCTTTCTGCGGGTCAATCTTCCTGTCAACTTCGACTTACTCAGCTGGTCCGGCAGCCATGCTGTCCGGTACGGGTTATGTTTCAAACAAGGACTGGTGGAAGCTGAGCGCGATCATCGGTGTGATTTTCAATGTTATTTGGCTGGGCGGCGGTTTGCTGTGGACCAAGTGCATTGGATATTGGTAA
>SRR1919932_01765 malolactic regulator
ATGGAATTCAGAGATCTGCGTTATTTTATCGACTTGGTGGAAAGCGAAAGCTATCATGCCACTGCGCAAAAGAATCAGGTCACCCAGCCAGCCATCAGCGCCATGGTCAAAAGGTTGGAAGAAGAATGCGGGGTCCAGCTGGTCTTTAAAAAGTCCAGCCGGGCTCCCCTGGTCATCACGCCAGCGGGACAAGTCTTATATAAAAGGGCCAAGAAATTAGTCAAAGAGGAAAATTCAATTAAGATCGAAGTCAAACGGGCCAACGCCAATAACTTCCGCTTAGGCTATTCAGAACTGGCCGGCAAGGCCTGGCTGGCATCAGTGATCACTCACTTAAACCAAGGCCGGATGCTGGCAAATATTGAAACTAAAGAAGAAAATTCCCACTTGCTTGAGCAGCATCTGCGGGAGGGACGCTTTGACGTAATCGTCTTCTCCAGATTAGGCGATGAGCCCTTACCAGGAATCAAGACTACCCCCTTGCAGCGCTATCAATATGTTTTGGTAGTTGCTGAAGACAGTCCCCTGGCCCAGCTGGATGAAATCCGCATTGCTCAGATCAAAGACACGCCCTTGATCATGCGGCACAAGCGCTTTTTATCAAGAACATCCCTTGACCGGCTCTTTGCTAAGACTGGTTTTCAACCAACCAAAAAGCTGATCGTCGACAATATTGACGCTACCTTGCAATTAGTTCGGCAAGGAATGGGCGTCAGCTACTTGATGGATATTGCCGTGGAAAACGTTCCCGGCGTCAAAGCCATCCCCTTGGTGCCAAGCCAGCGAAGCTACTGCTACTCCAGCTTGGGGATCCGCGAGAATTTCATTCCAAATGAGGTTCAAAAGCAGTATCTGGAGATCTTGAAGGAGCACCAGGACCTTAATTAA
>SRR1919932_01766 6,7-dimethyl-8-ribityllumazine synthase
ATGGCAGTAATTCAAGGTGATTTTAAGCAAGTCCACGGCAAGGTAGCGATCGTGGTGTCCCGCTTTAACGAGCTGGTGACCAAGAGCCTGGCAACCGGCGCGGCCGAGACTTTGCTTAAGTTTGGGATCAAGGAAGAAGATATTGATACTTACTGGGTACCGGGGGCTTTTGAACTGGGCTTCGCGGCTAAAAAGCTGGTTGATTCCGGCAAATACGACGGGATCATGACTTTGGGGGCGGTGATCAAGGGCGAGACCGACCACTACGCGATGATCATCAGCAATGTAACCAGCGCGGTCATGGAATTGAATTTGGCGGGCAAGGTACCGGTGACTTTTGGCATGCTGACGACGGAGAATATCGACCAGGCCTTGCAAAGATCCGGCTTGAAGGTCGGCAACGAGGGGAGCGCGACCGCCCAAAGCCTGCTAGAAATGATGAGCCTGCAGGAAAAAATCGGTTAA
>SRR1919932_01767 GTP cyclohydrolase II
ATGGATGTCAAAAAGATTCAAGATGCAATTGCCTGGATGAAACAGGGCGGCCTGGTAATCGTGGCCGACGACGAAGACCGGGAAGCCGAAGGGGACATGATTGGTTTGGGCAGCAAGGTTACTCCGGAAAAAATCAACTTCATGACCAAGCATGCCCGGGGCCTGCTCTGCACCAGTATTGGCCGGGAGATCGCGGAAAGACTGGAACTGCCGCAGATGTGGCAGGACAACACGGACCCGTTTGGGACGGCCTTTACCGTCAGCGTTGACTACAAGACGACGACCACGGGGATCTCAGCTTACGACCGGGCAACTACGATCAAGGCTTTGGCCGACCCGGAAGCCAAGCCGGAAGACTTTTTCAAGCCAGGTCACTGCTTCCCGCTGGTCGCTAAAGACGGGGGCGTTTTGGAAAGAAACGGGCACACGGAAGCCTCAGTTACCTTGGCCAGACTGGCTGGTGAAGCGGAAGTGGCCTACATCTGCGAAATTTTGAAGGAAGACGGGCACATGGCCCGCCGGCCGGAACTGGAAGAAATCGCCAAGGAATACGACCTGCCATACTTCACGATCGCGGAATTGCAGGAGTACTGCCGGAGCTTCGCGAGTAGCCGATCAGAATTCGTAAAACTGCCAACTGACTACGGCGATTTTGAAATCAAGGATTACGGCAATGGCAACCTGGTGATTAAGAAAGGCGAAATTGCCAAAAATGAGCCGGTAATGCTGCGGATCCACTCCAAGTGCCTGACCGGGGACGTCTTCGGCTCCAAGCGCTGTGACTGCGGCCACCAGCTCCACCAGGCCATGCGGCGGATTGAAGAAAAGGGGTCCGGGCTTATCCTCTACCTTAACCAAGAAGGACGGGGGATTGGCCTGACTAATAAGCTCCGGGCTTATGCCTTGCAGGACCAAGGTCATGATACTTATGACGCCAACCTGCTTCTGGGCTTTGCTCCAGATGAGCGCAAGTACGACGTGGCCGCCAAAATGATCAAGGATTTGGGGATTAAGCAGGTACAGCTTTTGACCAATAACCCGGACAAGATCAAGCAATTGGAAGAGGCCGGGGTGGAAATTACCGACCGCCTGCCCCTGGAAATGGCGGCAACGGCTGAGGACCGCAGATATCTGGAAACCAAGCGGGACCGCTTTAAGCACATGTTAGTCAGTTTATAG
>SRR1919932_01768 riboflavin synthase subunit alpha
ATGTTTAGTGGTTTGGTAAGCGGCAAGGCGCGGATTCAGCGCCTGGAGCAGGAAGGCAAGACGATCGTTTTGACGGTCAAAACATTCCCGGAAAACCTGGCCGGGGTAAAAATCGGTGACTCGATCGCCATCAATGGCTGCTGCCTGACGGTGGAGGCTTTTTCCAAAGACAGCTTTACGGTAACCATGATGCCGCAGACTTTTGCCAAGACGACTTTTAAAAATCTGCAGGCTGGCGACCAAGTGAACATGGAACGCAGCGTGCCAGTAGGTGGCCGCTTTGAAGGGCATATCGTCAGCGGGCATGTTGATGAGACGGTAGAAGTTGTTGACTTGAAGCAAAACGAAAATGCCTTAGAGCTCCGCTTTTTCCTGCCGGACCGCTTGAAAAAGCAGGTCGTCCCGCAAGGGTCAGTGGCCATCAACGGGACCAGCTTGACGGTGATGAACACTGGTGATGACTGGTTCTCAGTTGGCTTGATCCCCCACACCCAGGATGAAACGAATTTATCTGGCCTGCAAGTTGGCGACCAGGTCAACCTGGAGACTGACGTGCTGGGCAAGTACGTGGAAGCCAATCTGGCTGCTTTTTTAAAAAATGAATTGGACAAGTAG
>SRR1919932_01769 riboflavin biosynthesis protein RibD
ATGGCATCAGATGAAGAATACATGCGTCTGGCGCTTGCCGCGGCCCGTAAGGCTGGCAATGCTACCTGGCGCAACCCAAGAGTCGGCAGCTGCCTGGTCAAGGACGGCAAAGTCCTGGCGACTGGTTTCCACCAGCACTACGGCGGTTTCCATGCTGAACGTGATACCATCTCCAAATTGACTCCGGAACAATTATCCAATTCCACTATTTACGTGACTTTAGAGCCTTGCTGCCATTACGGCAAGCAGCCGCCTTGCACCCAGCTGATTATTGACAGCGGGATCAAGCGGGTGGTGGTCGGGGCAACCGATCCCCACTCTCTTGTAACGGGCAAGGGTATCGCTGCTTTGCGGCAGGCAGGCCTTGAAGTAAGCACTGGTCTTTTAGCAAAAGAAGCAAGTCAGCTGAATGACCACTACAACTACTTTTGCCAAACAGGTCTGCCTTACGTGACTTTGAAACAGGCCATGACCCTGGACCACATGCTGGCGAAAAAGGGTGAGCGGACCGCGATTACCGGGGCTGAGGCCTGGACCCGGGTCCACCAGGAACGGGCTGGTTACCAGGCTGTCTTGATCGGGTCAGAAACGGCGATCATCGACGATCCTTTGCTTTTGACCAGCGAGGACCTGGTTCACCCGCCAGTCAGAGTTGTACTGGACCGGCGGGGCCGGCTGCTTGAGCACTTGGATTTACGCTTATTTTCCGACAAGCGGGCTAAGACCTGGATTTTGACGGAAAATCCGGCTTTCTTGGAGCAGGATATGCCAAAGCAGGTAAAAATTTTTGCCCTGCCGGATGGAAAAATCTCGACCAGCATAAAAATTCTGGCTGACCAAGGCGTGCAGAGCGTTTACGCTGAAGGCGGCGCACATTTGCAAGAGAGCCTACTGGCAGCGGGCCTGGTCAATGACGTGATCAGCTATGTCGCTCCCCGCTTTTTGGGCCGGGGGACTGAAGCAGCCGTAGCCGCGGAAGCACTGGACTTGAAAGATGTCCAAACTGAGCAAGTTGGCGACGATGTAAGAATCTATGGGAGGATCAAGGATGTTTAG
>SRR1919932_01770 hypothetical protein
ATGGGAAAGGTCATGCGGCATACGCTCGGCGCCAGTTTGAATATTAGACATAATTTATCCTCAAGTAAGGGGCCGAAGCCCCTGCAATTAAAATTGTTGACCACCTACATACCAAAGACGAGCGCCTTTACGCTTGCCTTTAGTACCTCGCAACGGCTGCGGACGACCAGGGCGAGCGCCAGAACGTTTTTTACCTTTAGACATTACATCACTCCTTCTGCACGTAATTTTTGA
>SRR1919932_01771 bacteriophage scaffolding protein D
ATGAGTCAAGTTACTGAACAATCCGTACGTTTCCAGACCGCTTTGGCCTCTATTAAGCTCATTCAGGCTTCTGCCGTTTTGGATTTAACCGAAGATGATTTCGATTTTCTGACGAGTAACAAAGTTTGGATTGCTACTGACCGCTCTCGTGCTCGTCGCTGCGTTGAGGCTTGCGTTTATGGTACGCTGGACTTTGTAGGATACCCTCGCTTTCCTGCTCCTGTTGAGTTTATTGCTGCCGTCATTGCTTATTATGTTCATCCCGTCAACATTCAAACGGCCTGTCTCATCATGGAAGGCGCTGAATTTACGGAAAACATTATTAATGGCGTCGAGCGTCCGGTTAAAGCCGCTGAATTGTTCGCGTTTACCTTGCGTGTACGCGCAGGAAACACTGACGTTCTTACTGACGCAGAAGAAAACGTGCGTCAAAAATTACGTGCAGAAGGAGTGATGTAA
>SRR1919932_01772 bacteriophage replication gene A protein (GPA)
ATGGTTCGTTCTTATTACCCTTCTGAATGTCACGCTGATTATTTTGACTTTGAGCGTATCGAGGCTCTTAAACCTGCTATTGAGGCTTGTGGCATTTCTACTCTTTCTCAATCCCCAATGCTTGGCTTCCATAAGCAGATGGATAACCGCATCAAGCTCTTGGAAGAGATTCTGTCTTTTCGTATGCAGGGCGTTGAGTTCGATAATGGTGATATGTATGTTGACGGCCATAAGGCTGCTTCTGACGTTCGTGATGAGTTTGTATCTGTTACTGAGAAGTTAATGGATGAATTGGCACAATGCTACAATGTGCTCCCCCAACTTGATATTAATAACACTATAGACCACCGCCCCGAAGGGGACGAAAAATGGTTTTTAGAGAACGAGAAGACGGTTACGCAGTTTTGCCGCAAGCTGGCTGCTGAACGCCCTCTTAAGGATATTCGCGATGAGTATAATTACCCCAAAAAGAAAGGTATTAAGGATGAGTGTTCAAGATTGCTGGAGGCCTCCACTATGAAATCGCGTAGAGGCTTTGCTATTCAGCGTTTGATGAATGCAATGCGACAGGCTCATGCTGATGGTTGGTTTATCGTTTTTGACACTCTCACGTTGGCTGACGACCGATTAGAGGCGTTTTATGATAATCCCAATGCTTTGCGTGACTATTTTCGTGATATTGGTCGTATGGTTCTTGCTGCCGAGGGTCGCAAGGCTAATGATTCACACGCCGACTGCTATCAGTATTTTTGTGTGCCTGAGTATGGTACAGCTAATGGCCGTCTTCATTTCCATGCGGTGCACTTTATGCGGACACTTCCTACAGGTAGCGTTGACCCTAATTTTGGTCGTCGGGTACGCAATCGCCGCCAGTTAAATAGCTTGCAAAATACGTGGCCTTATGGTTACAGTATGCCCATCGCAGTTCGCTACACGCAGGACGCTTTTTCACGTTCTGGTTGGTTGTGGCCTGTTGATGCTAAAGGTGAGCCGCTTAAAGCTACCAGTTATATGGCTGTTGGTTTCTATGTGGCTAAATACGTTAACAAAAAGTCAGATATGGACCTTGCTGCTAAAGGTCTAGGAGCTAAAGAATGGAACAACTCACTAAAAACCAAGCTGTCGCTACTTCCCAAGAAGCTGTTCAGAATCAGAATGAGCCGCAACTTCGGGATGAAAATGCTCACAATGACAAATCTGTCCACGGAGTGCTTAATCCAACTTACCAAGCTGGGTTACGACGCGACGCCGTTCAACCAGATATTGAAGCAGAACGCAAAAAGAGAGATGAGATTGAGGCTGGGAAAAGTTACTGTAGCCGACGTTTTGGCGGCGCAACCTGTGACGACAAATCTGCTCAAATTTATGCGCGCTTCGATAAAAATGATTGGCGTATCCAACCTGCAGAGTTTTATCGCTTCCATGACGCAGAAGTTAACACTTTCGGATATTTCTGATGAGTCGAAAAATTATCTTGATAAAGCAGGAATTACTACTGCTTGTTTACGAATTAAATCGAAGTGGACTGCTGGCGGAAAATGA
>SRR1919932_01773 Microvirus H protein (pilot protein)
ATGTTTGGTGCTATTGCTGGCGGTATTGCTTCTGCTCTTGCTGGTGGCGCCATGTCTAAATTGTTTGGAGGCGGTCAAAAAGCCGCCTCCGGTGGCATTCAAGGTGATGTGCTTGCTACCGATAACAATACTGTAGGCATGGGTGATGCTGGTATTAAATCTGCCATTCAAGGCTCTAATGTTCCTAACCCTGATGAGGCCGTCCCTAGTTTTGTTTCTGGTGCTATGGCTAAAGCTGGTAAAGGACTTCTTGAAGGTACGTTGCAGGCTGGCACTTCTGCCGTTTCTGATAAGTTGCTTGATTTGGTTGGACTTGGTGGCAAGTCTGCCGCTGATAAAGGAAAGGATACTCGTGATTATCTTGCTGCTGCATTTCCTGAGCTTAATGCTTGGGAGCGTGCTGGTGCTGATGCTTCCTCTGCTGGTATGGTTGACGCCGGATTTGAGAATCAAAAAGAGCTTACTAAAATGCAACTGGACAATCAGAAAGAGATTGCCGAGATGCAAAATGAGACTCAAAAAGAGATTGCTGGCATTCAGTCGGCGACTTCACGCCAGAATACGAAAGACCAGGTATATGCACAAAATGAGATGCTTGCTTATCAACAGAAGGAGTCTACTGCTCGCGTTGCGTCTATTATGGAAAACACCAATCTTTCCAAGCAACAGCAGGTTTCCGAGATTATGCGCCAAATGCTTACTCAAGCTCAAACGGCTGGTCAGTATTTTACCAATGACCAAATCAAAGAAATGACTCGCAAGGTTAGTGCTGAGGTTGACTTAGTTCATCAGCAAACGCAGAATCAGCGGTATGGCTCTTCTCATATTGGCGCTACTGCAAAGGATATTTCTAATGTCGTCACTGATGCTGCTTCTGGTGTGGTTGATATTTTTCATGGTATTGATAAAGCTGTTGCCGATACTTGGAACAATTTCTGGAAAGACGGTAAAGCTGATGGTATTGGCTCTAATTTGTCTAGGAAATAA
>SRR1919932_01774 major spike protein (G protein)
ATGTTTCAGACTTTTATTTCTCGCCATAATTCAAACTTTTTTTCTGATAAGCTGGTTCTCACTTCTGTTACTCCAGCTTCTTCGGCACCTGTTTTACAGACACCTAAAGCTACATCGTCAACGTTATATTTTGATAGTTTGACGGTTAATGCTGGTAATGGTGGTTTTCTTCATTGCATTCAGATGGATACATCTGTCAACGCCGCTAATCAGGTTGTTTCTGTTGGTGCTGATATTGCTTTTGATGCCGACCCTAAATTTTTTGCCTGTTTGGTTCGCTTTGAGTCTTCTTCGGTTCCGACTACCCTCCCGACTGCCTATGATGTTTATCCTTTGGATGGTCGCCATGATGGTGGTTATTATACCGTCAAGGACTGTGTGACTATTGACGTCCTTCCCCGTACGCCGGGCAATAATGTTTATGTTGGTTTCATGGTTTGGTCTAACTTTACCGCTACTAAATGCCGCGGATTGGTTTCGCTGAATCAGGTTATTAAAGAGATTATTTGTCTCCAGCCACTTAAGTGA
>SRR1919932_01775 Capsid protein (F protein)
ATGAAGGATGGTGTTAATGCCACTCCTCTCCCGACTGTTAACACTACTGGTTATATTGACCATGCCGCTTTTCTTGGCACGATTAACCCTGATACCAATAAAATCCCTAAGCATTTGTTTCAGGGTTATTTGAATATCTATAACAACTATTTTAAAGCGCCGTGGATGCCTGACCGTACCGAGGCTAACCCTAATGAGCTTAATCAAGATGATGCTCGTTATGGTTTCCGTTGCTGCCATCTCAAAAACATTTGGACTGCTCCGCTTCCTCCTGAGACTGAGCTTTCTCGCCAAATGACGACTTCTACCACATCTATTGACATTATGGGTCTGCAAGCTGCTTATGCTAATTTGCATACTGACCAAGAACGTGATTACTTCATGCAGCGTTACCATGATGTTATTTCTTCATTTGGAGGTAAAACCTCTTATGACGCTGACAACCGTCCTTTACTTGTCATGCGCTCTAATCTCTGGGCATCTGGCTATGATGTTGATGGAACTGACCAAACGTCGTTAGGCCAGTTTTCTGGTCGTGTTCAACAGACCTATAAACATTCTGTGCCGCGTTTCTTTGTTCCTGAGCATGGCACTATGTTTACTCTTGCGCTTGTTCGTTTTCCGCCTACTGCGACTAAAGAGATTCAGTACCTTAACGCTAAAGGTGCTTTGACTTATACCGATATTGCTGGCGACCCTGTTTTGTATGGCAACTTGCCGCCGCGTGAAATTTCTATGAAGGATGTTTTCCGTTCTGGTGATTCGTCTAAGAAGTTTAAGATTGCTGAGGGTCAGTGGTATCGTTATGCGCCTTCGTATGTTTCTCCTGCTTATCACCTTCTTGAAGGCTTCCCATTCATTCAGGAACCGCCTTCTGGTGATTTGCAAGAACGCGTACTTATTCGCCACCATGATTATGACCAGTGTTTCCAGTCCGTTCAGTTGTTGCAGTGGAATAGTCAGGTTAAATTTAATGTGACCGTTTATCGCAATCTGCCGACCACTCGCGATTCAATCATGACTTCGTGA
>SRR1919932_01776 amino acid ABC transporter substrate-binding protein
ATGAAAAAGAAAAATATTTTTAACATTATTATGGGTATTGTTGCTCTAATAGTCGTGGTAAGTGCCGCTTATTTTGGTTTTACACAACCTAACTTAAACAGCGGTACTGCTGGCAGCCGTTGGAGCAATGAGAATGGCGTCTCAGAAATCAAACGTCGTGGTTATATCAGAGTTGCAGTTTTTGGTGATTTACCACCATATGGCTGGGTAAATGATCAAGGCAAGAGAGTAGGCTATGATGTTTACTTGGTTCGCAGAATTGCCAAAGATTTAAACGTTAAAATTCGTTTTATACAAGTCAATGCCAACAATCGTGTAGATACTTTAAATTCAAATAAAGCGGATATCGTTTTAGCTAACTTTACAGTAACTCCTGAACGTAAAGATGTAGTTGATTTTGCAAAACCATATATGAAAGTATCAGTTGGAGTAATTTCACCTAAAAATGCTCCAATTAACAGTGCGCAAGAATTGAAGGGCAAGAAGTTAATCGTTACCAAGGGAACAACTGCCGAAAACTATTTTGCAAAGCAATCTGGAGTTAATTTATTAAAGTTTGATTCTAAGACGCAGCAATTCAATGCATTGAAGAATGGTCGTGGTGCAGCTTTAGCTGATGACAATTCTTACCTTTATGCTTGGGTTAAGAAAAATCCTAAGTATGTAGTTGGCATTAAGAGTATTGGACCTCGTCAGTATGTGGCCCCAGCCGTAAAGAAGGGCAATCGTTCACTGCTTAAATGGACAAATCATGAGATTACTAAACTAACGAAGGAAGGCTTCTTTGTACAGGATTATCAAAAAGAATTAGCGCCTTACTTTGGTAAGGATATTAAGCCAACTGATATTGTGTTGAGATAA
>SRR1919932_01777 glutamine ABC transporter ATP-binding protein
ATGACAGAAGAAATTTTAAAAGTTGAGCATTTAGATAAGTTTTATGACGACCGTCAAGTTTTACATGACATCAATTTTTCGTTGAAAAAAGGTGAGGTATTAACATTACTTGGACCATCAGGTTCTGGTAAAAGTACTTTGCTTAGAACTTTGAATGGGTTAGAGGATTATAAAAAGGGAGCTATCTATTTCCATGGAAAGAAAATTAATCCTAGTCCAAAAGAATGGCAAATGCTGCGACAAAAAATCGGTATGGTTTTTCAAAGCTATGATCTTTTTCCGAATCTTACTGTGATAGAAAATGTTTTGCTTGCCCCAGTGAAAGTACAAAAACGAAATGAAAACGAGGTTAAAGAAGAAGCAATTAAACTGCTAAAACAAGTGCGATTAGATCAATATCTAAATGCTTATCCTAGAGAATTATCAGGCGGTCAAAAGCAGCGAGTAGCCATCGTTCGTGCATTAGCAATGAGGCCGGAAGTAATGCTTTTGGATGAAATCACTGCATCCCTTGACCCAGAAATGGTACGCGGTATTGAAGAAATCGTTGAACGCCTTTCTAAACGTGACCATATGACGATGATTATTGTTACCCACCAAATGAACTTTGCTTCTAGAATTGCGGACGAAGTACTTTTCTTAGAAAATGGACATATTTTAGAAGATACTCCAGGAAAAGACTTCTTTGATCATCCTCAGACGCAAAGAGCTAAAGAATTCTTAGACAGCATGGATTATTAA
>SRR1919932_01778 amino acid ABC transporter permease protein
ATGGTGCATTTGGGAATTAACGTTTTATTTGAAGGGAGCAATTTTGCTCGTTTAATGGCAGGTCTTTGGACTTCCATTTGGATTGCAGCTATTTCCTTAATAATTGGTTTAGCTATTGGAACTATTTTTGGTATTCTTAGAACTTTGACTAATAAAATCATTCGATTTGCTTTACGAATTTATCTAGAATTCTTCAGAATAGTACCTACAATCGTTTTACTTTACTTGGTCTATTATATTTTGCCACGAACTTTTCATGTTAACTGGCCAGCAACTTGGATGGCAGTTCTGGCATTTTCACTATGGGTAGCAGCAGAATTCAGCGATATTGTTCGCGGAGCAATCGAATCAGTACCTAAGAGCCAGCGTGAATCGGGACTGGCATTAGGCTTAAGCAAAATCCAATTATTTAGATATGTATTATTGCCACAAGCAGTTAAGTTAGAGCTTCCTGCAACAATCAACTTAGCAACCAGAGTAATTAAAACCACTTCACTTTTACTTGTCATCAGCATTATGGAAGTAATTAACGTTGGCCAGCAAATTATCGAAGCAAATAATCAGCAAAATCCAACTGGTGTTTTCTGGGTTTATGGACTGATATTTATCTTATATTTTGTCCTCGACTATCCATTATCAGCTTGGGCTAAGAAATTAACTAAGGAAAGCAAATAG
>SRR1919932_01779 polar amino acid ABC transporter permease protein
ATGAATTGGTCAATCATACAACAAGCGTTGCCATTATTTGCCCATGCATTTGGACTCACGATCTGGTTATCGCTAATAGGGATAATAGGTTCGATTATTGTTGGAATAATCGCTAGCTTAACACAATATTTTAAAATACCGGTAATTAGTCAGATCATGACAGCATATGTTGAACTAGCACGAAATACGCCACTTTTAATTCAATTATTTTTCTTGTACTACGCTTTTCCTGTTATCGGAATAAAAATGTCCGCTGAAGTTTGCGGTATTATCGGTTTAATTTTCCTAGGTGGAGCATACATGGCTGAGGGATTTACTGGTGGTTTCAATGGTATCTCTACTAGCCAAATTAACAGCGGAAAAGCATTAGGAATGAGCCGTTTTCAATTAGCGCGCTATGTTGTTTTCCCACAAGGCTTTGCATTAAGCTTGCCTGCTTTAACAGCTAATATTATCTTTTTAATTAAAGAAACATCCATTTTTTCAGTAATTGCAATCCCTGAATTAACCAATACAGCTTTAGATTTAATCGGCATGTACTACCGTTCCAATGAATACTTACTGATGTTGGTTATTGCTTATGCAATTATCTTGATCCCAGTAATTCTTTTATTAACTTGGCTTGAAAGGAGAGTTCGTTATGGTGCATTTGGGAATTAA
>SRR1919932_01780 MerR family transcriptional regulator
ATGACTGATCTAACTATTACAGATGTTAGTGAAAAATACCACTTAAAACCAGATACCCTTCGCTATTACGAACGGATTGGCTTAATCCCTGCTGTTCCTCGTAAAAAGAATGGCAATCGTTACTATAACGAAGGATTACAAAAGTGGATCGAAATGATTGTTTGTCTGCGGCATTCTGGAATTACCGTAGAAGCATTGGTCGATTACGTTAAGTTAATTGAGCAAGGCGATTCTACCCTGCAAGCTCGTGAAGATTTATTAAAAGAGCAGCTTGCTTTACTTGAAACTAAAAAGAAAAATTTGAATCGTTCAATTAAACGTTTAGAGCATAAAATTTTTCTTTATGAAAGCGGAGAAATCAAGCAAGGTAAAAGTTGTTTTGAAGAATATAAGATTTTAGATGATTAG
>SRR1919932_01781 hypothetical protein
ATGAAAGATTGGACTAAAGAAGAATTAGATGTTTTAAACAAGATAACTACTGTCCAAAACCATCCTAATGATGAGGGCCAGAGTTTTCAAGACTCCCCTATTTGGGTGGTAACCAACAATAATCACGTTTATTTAAGAGCTGGTAAAGGCAAAGAAAGCAAATGGTACAAGTCGGGTTAA
>SRR1919932_01782 fumarate hydratase
ATGGCAGAACAAGAATACCGTATTGAATCAGACACGATCGGTGAAGTTAAGATTCCTAAGGAAGCTCTCTGGGGCCCGCAAACTGAAAGAAGCCGCAACAACTTCCCATCCGGTGAATTGATGCCATTGGCTATCATCCGTGCTTTCCTGCGCTTGAAGAAGGCTGCTGCTGAATCAAACGTTGAAGTTGGCGACGAACCAGCTGAAAAGGGACAAGCAATCGAAGAAGCTATCGACCAATTGCTGGCACTTAGCGACGAAGACCTGCGCAAGGACTTCCCACTTCACGTATTGCAAACTGGTTCAGGTACTCAAACCAACATGAACGTCAACGAAGTTGTTGCCAACCTGGCTAACAAGCTTCACCCAGGCTTGAACATCCTGCCTAACGACGACGTCAACCGTGGCCAAAGCTCAAACGACACTTACCCAACTGCAATGAACATCGTTGCCGTTGAAGCTGTCGACAAGCTGGAACCAGCTATTGAACACTTGATTGACGAACTTAAGGTAAAGCAAGACAAGTACTGGAAGACTGTCAAGGTTGGCCGTACCCACCTGCAAGACGCTACTCCTTTGACTTTCGGCCAAGAAGTTTCCGGCTACATCTCAGCTTTGAAGCATGACCTGGCTTACATCCAAGAATTGAAGCCAAGCCTTTACGAATTGGCTATCGGTGGTACTGCCGTAGGTACTGGCTTGAACGCTGCCCCAGGCATGACTGAAGCTATCGCTGGCAAGCTGTCAGAAGCTTACGGCCACGAATTCAAGGTCGACACCAACAAGTTCTGGGGCCTGGCTCACCACTCAGCTTTGAGCGTAATGCACGGCGCCTTCAAGACTTTGGCCAACGACATGTTCAAGATTGCCCAAGACATCCGCTTCCTGGCTTCTGGCCCACGTGCCGGCTACGGTGAACTTAACATCCCAGCCAACGAACCAGGCTCATCAATCATGCCAGGTAAGGTTAACCCAACCCAGGCTGAAGCCGTAACCATGGCTGTAGCCCGCGTATTGGGTAACGACGTAACTATCAACTTCGCTGCCAGCCAAGGTAACTTCGAAATGAACGTCTTCAAGACTGTCATGATCGCTGCCTTCCTGGAATCAGCTGACATCCTGGCCGGCACTATTACTGGCTTCGCTGACAAGATGATCCACGGTTTGACTGTCAACGAACAAAGAATGGATGACCTGCTGGAAAACTCCCTGATGACTGTTACTGCTTTGTCACCAAAGATCGGCTACCACGAAGCTGCCGTAATCGCTCAAACTGCTCAACGTGAAGGCACTACCTTGAAGGAAGCTGCCCTGAAGAGCGGCAAGGTGACTGAAGAACAATACGATGAATGGATGGACTACATGGCCATGACCAACATCGACCGGACTAAGCCGGAAGAATAG
>SRR1919932_01783 2-oxoglutarate translocator
ATGTTAACAAAAGTTAATTACAAAGGCTTCATCTGGCCTTTGATCATCGGGATTGGGCTCTTCTTGCTCACTCCTCTGCGCCCGGCGACCATCACCGTTGCCGGCTGGCATATGTTCGCCATCTTCCTGGCGACGATCATTGCCTGCATTACCAAGCCCCTGCCAATCGCCGGGGTATCCATCATCGCCTACGTGACCATCATCGGCCTGGGCCTGGTGCAAATGAAGCCAGCCCTGTCAGCCTTCGCTGACTCAACTCCATGGACCATCGCCATGGCCTACATGATTGCCCGGGGCTTTACCAAGACTGGCTTGGGCCGGCGGATCGCCTTGATCTTCGTCCGGGCCTTCGGGAAAAAGACTTTGGGTCTGGCCTACTCCTTGTCCATGATCGACTTGGTCGTTTCACCAGCCACCCCAAGTAACACTGCCCGGTCTGGTGGTATCGTCCTGCCAATCATCGAATCCTTGTCCGACACTTTCGGTTCCAAGGTTTCTGATGGCACGGAAGACAAGATCGGTTCTTACCTGGTCTTCAACGAATTCCACGCCAACACGATCTCATCCAGCCTCTTCATGACTGCCTCAGCTCCTAACGTGGCCGCGGTTGGTCTGGCAGCGGCTAATGGGGTCAATATTTCCTGGTTCGGCTGGGTAGCAGCCGCTATCGTGCCAGCCTTGATCTCCTTCATCTTAGTGCCAATCATCATCTACAAGATGTACCCGCCTAAGATCAAGGAAACTCCTAACGCCAAGGAATGGGCTGACGGCCAATTGAAGGAAATGGGCGCTATAAAGGCTTCTGAGAAGGTTATGATGGCAGTCTTCATCCTGGCCCTTGTCTTGTGGATGCTGTCCAGCTTCATCGGCTTGGACGCCACCTGGATAGCCTTCCTGGCAACCGCGCTTTTGCTGGTAACCGGGGTGCTGACCACCAAGGACATGCTGAGCGAAACTGGTGCCTGGAACGTTGTCGTTTGGTTCTCAATCCTGATCTTCATGGCCAACCAACTGAGCCTTAAGGGCGGCGTGATTCCGTGGCTGCAGACTTCAATTAAGTCTGTCATCGGCGGCATGTCACCAGTTCTGGTCATGGCCATCCTGGTCCTGGTTTACTTCTACAGCCACTACCTCTTTGCCTCCGGCACGGCCCACGTTGTTGCCATGTACGCGCCTCTGCTCTTGATTGCCAAGAGTGCTGGCGTGCCGGTAATGTTTGCGGCTATCATGCTGGGCATGACTGGGGCGATCTTCCAGTCAACCACCCACTACTCATGTGGGCCGGCTACTGCCCTCTTCGCACCAGGCTATGTCAAGCAGACTGACTGGTGGAAGATGTGCTTCGTTTTGGGTCTCTTCTACCTGGTAGTCTACGGCGGCATCGGCGGATTGTGGATGAAGCTGATCGGTTTGTGGTAA
>SRR1919932_01784 oligo-1,6-glucosidase
ATGACAGCAGAAAAGCAAGAACCATGGTGGAAGCAGGCCGTGATCTACCAGATCTATCCCAAGTCCTTCCAGGACACAAACGGCGACGGGGTCGGCGACCTGCGGGGGATCATCAAGCGGCTGGACTACCTGCAAGACCTGGGCATCGACGCCATCTGGCTCTGCCCGGTCTACAAGTCACCAGGCGTGGACAACGGCTATGACATCGCCGACTACGAAGCCATCGACCCCCAGTATGGGACCATGGCGGACATGGAAGAATTAATCAGTGAGGCCAAGAAGCGGGGGATCCGGATCGTGATGGACCTGGTGGTCAACCACACCTCTGACCAGCACCCTTGGTTTATCGAAGCCCGGAAAAATCCTTCCTCTCCGGAACACGACTACTATGTCTGGGCGGACAAGGCCAATGAGCTCAAGTCGGCTTTTTCCGGCAGCGCCTGGGAATATGACGGCCAGGTTGGCCAGTACTACCTCCACCTTTTTGCTAAAGAGCAGCCGGACCTCAACTGGAAGAACCCGGCCCTAAGGCAGAAGGTCTACGACCTGATGAACTTCTGGATTGATAAGGGGATCGGGGGCTTCCGGATGGACGTGATCGAGCTGATCGGCAAGGTTCCGGAAGAAGAGATTACCGCTAACGGCCCTAAGCTGCACGACTACCTGCAGGAAATGCACCGGGAGACTTTTGGCGACCGGGACTTTTTGACGGTCGGGGAAACCTGGGGGGCAACTTTAGACAACGCTCCTCTGTACAGCGACCCGGACAGAAAAGAACTGTCCATGGTCTTCCAGTTTGAATTCACGGAACTGGACAAGCAGGCCGGCAAGGAAAAGTGGGACACCAAGCCCCTTGACTACGGCGACTTGAAGAATGTCCTGGCCAAGTGGCAGAAGCTGGACTTTAACCACAGCTGGAACAGCCTCTTTTGGAACAACCACGACCTGCCCCGGATCGTGTCCCGCTTCGGCAATGACCAGCAGTACCGCGAGCACAGCGCTAAGATGCTGGCCCTTCTCCTGCATGGCTTGCGGGGAACCCCGTACATCTACCAAGGTGAGGAAATCGGGATGACCAACTGCCCGGTTTCGGCTATCGACGAGGTAGAAGACATCGAAGCCCGGCGGATGTACCAGGAGCGGCTGGCAGAGGGCTGGAAGAAGGAGGACCTGATCAAGGCCATCAATGCCCAGGGCCGGGACAATGCCCGGACCCCAATGCAGTGGGATGCTTCAGCTTCCGCCGGCTTTACCAGCGGCCGGCCATGGCTGGCGGTTAACCCTAACTGCCAGGAAATAAACGTAAAAAATGCATTGAATGACCAGGATTCAATTTATTATTTCTATAAGAAGCTGATTGCCCTCCGCCACCAGGAACGGATTTTGACCGATGGGTCCTTTGAACTTTTGGACACGGCAGATGCCGTCATGGCCTACCACCGGGAAAACGCGGAAGACAAGTGGCTAGTTGTCTGCAACTTGACTGGCGAGGAGCAGGAAGTCTCCCTGCCGGATAAGGACAAGGAAGTCCTTCTGGCTAACGGGCCTGTCCCGGAAGACCTGTCGGCTGCTGTCCTGCCAGCTTACGCGGCCTTTCTCTGCCGGGTGAAAAAATAA
>SRR1919932_01785 LacI family transcriptional regulator
TTGAAGAGAACCGCTACTTTAGAAGATGTGGCTCGTAAGGCCCATGTGTCGAAGATGACCGTTTCCCGGGTGATCAACCACCCCGAACTGGTTGCTTCGGAACTGCAGGTCGTTGTTGAAGACGCCATGCACAAATTGAATTATCACCCCAACAACGCGGCCCGGGCCTTGGCCAAGAACCAGACCAGCGTGGTGAAGTTCGTGATTTTAGAAGACGTCGACGATACCGACCCTTACTTTACCAATGTCTTATTTGGCATGGCGACGGAGTTGAAGAAGCAGAACTATTCCCTCCAGCTGCTCTTGAAGGGGAGCCAGCTGGACCAAGGGGCAGCTGACGGCTATGTGATCACCGGAGCTAGGACTGATGATTACCCCCAATTGAACGAGCTTAAGCAGCCTTTCGTCCTGTTTGGCGAGAACCGGGGCGGCTACGACTTTGTCGACACCAACAACCTGCTGGGTGAGACCATGGCGACCAAGTATGCCTTGAAGGCGGGCTACCGGAATGTAGTCTTTATCGGTATCGATGTCCGTGAGGCTTTTGAATTTTCCAGAGAAGCTGGTTATGTCAACACCATGCAGCAAAATAAGAAGATTCCCAGCGTCTTCCGGGTGGAAAACAGCTTAGCCGCGGCCCGGGAATTTATCCAGGACCACTTGGGCGAATTTCCCAAGAACACCTGCTTTTCCTGTGCCAGCGACCGGATTGCCATGGGGGTCATCCAGGCCCTGGTGGAGGCGGAAGCCAAGATTCCGGAAGACTTTGGCGTGATCGGCTATGACGGGGTCCTTTTAGACCGAGTGTCATCGCCGACGATCACGACCGTCAAGCAAAACCTCTGGCTGATCGGTGAGAAGCTGGCGGAACTCATTTTAAGAAAAATTGCCCAAAACGGCGCGCCGCAAGGTGAGATCTTTATCGAACCGACCTTGAGCGAGGCCGAATCAACCAAATAG
>SRR1919932_01786 alpha-glucosidase
ATGACTAAGCAGGATGCATGGCAAAAGAATGCCATTATTTACCAGATTTACCCGAAATCATTTCAAGACAGCAACGGCGACGGCATCGGCGACTTAAACGGTGTCCGCCAGCGGATCCCTTACTTAAAGCAGCTGGGCATCACTGTCGTTTGGCTGAATCCGATCTACCAGTCACCGGGCATTGACAACGGCTATGACGTCAGCGACTACTACAAGATTGACCCGGTCATGGGGACCATGGCAGATTTTGAAGCACTTGTCACCGATTTGCACCAGGCCGGGATCAAGCTGATCATGGACTTCGTCTTAAACCACACGTCTGACCAGCACCCTTGGTTCAAGGCCGCGGTCAGTGACCCGGCCAGCCCTTACCGGGACTACTACATTTTTGCCGGTAAAAACGGTGTCCGGCCGAACAATTGGGGCAGCTTCTTTGGCGGCAGCTGCTGGGCAGCAGACCCGGCCGGAACGGGCCAGTCTTATTTCCACCTTTTTGCCAAGGAAATGCCGGATTTGAACTGGAAGAATCCGGCTGTCCGCGAGGAAATGTTCAAGGCGGCTGAGTTCTGGCTCAAAAAGGGGGTTGACGGCCTGCGGCTGGATGCCTTCATCCACATCGCCAAGGCCGACCTGCGCCAGTCCTACCCAAGTGAGGACGATAAGCCGGTTATCGCGGAAGACTTTTTCGCCAACCGGCCGGAAGTACAGGAATGGCTGGCGCCTTTCTGTGCCCGCCTGCGGGAAGAATTTCCGGACCTCCTGCTTTTGGGGGAAGCAGCCAGCGCCAGCATCAACCTGGCGGTCGACTACACTGATCCTAAGCGAAATTTGATGGACTCAGTCATTACCTTCCGCTACTTTACGGAAAAAGAAGATTCCGTTAACCCGGCCTTCAGCGGTCAATACCAACCAAAAGAGTTTGACTGGCTGGCCTTTAAGCAAAACCAAACCGTCTGGCAGCAGACCTTGTCAGCCGCGCCGACCCTGTACTGGAGCAACCATGACATGGCCCGCCTGGCCACCCGGGTCGCCAAGACCCCGGTCCAGCAGCGGTCTTTGGCCATGGCCATGTACCTGGAGCGGGGGATCCCGGTGATTTACTACGGGGAAGAATTAGGCCTGCACAATCTGGAATTTGATAATGCAGACCAGTTTGCCGATGAGACGGTGGCTGACTTCGTCAAGGAAGCTGGCGAGGCCGGGGTAGACGAAAAGACGGCCCTGGAAATGGCCAGCCAGACCCACAAATTGCCGGCCCGGGGGCCAATGCCTTGGGACGACAGCCAGTATGACGGCTTTAGCACTGCTGAGCCTTGGCTGACGGGCAGAAGCCGGGACAAGGTCAGCGTGGCCAGCGAAGACGCGGACCCAGCCAGCATGCTCAACTTCTACCGGCAGCTGTTGAAATTGAAGCAGACGCCTTTGTTTACCAAGGGCAGCTACTACCTGCTGGATACCAAAGCAGACCTCCTGGTCTACCAGCGGGATTTAGGGGATGACCGGGCTTTAGTGGTCGTTTCCCTCAGCGCCAAGAAGGAGCACTTGACCCTGCCAGAAGAACTGACTCCGGTCTTAACCGCCGGCAGCATCAACCTGCAGGGCAAGGAACTGACCCTGATGCCTTTTGCCGGGGTAGTTTTGCAAAAGAAAAAAGGTTCAGTATAA
>SRR1919932_01787 transposase
TTGATCTCAAATACTATCTATCAGAAGTACGTTCTCAAGGTTCCTGCCTACCGGCAAGAGAAAGACTTGTGGCATATGGGCCTTCCGCTTGATCACAAGACGGTCTCTAATTGGCACATCAAGGTCTGCGAGTACTACCTCTCCAGCCTTTACGAGCCCTTGAGAAAAGAACTGCTAAAGCAGGATGTAATTCACGCAGATGAGACGCCATATCGAGTCTTAGACAGTGAAAGAGCTAAAGACTACGTCTGGACCTTCTTGTCAGGCAAGCATGCCGAGAAGCCGATTGTCCTGTATCACCATGGATCACGAAAAGGCGCCGAAGCATGGGATTTCCTGGCAGGCTTCAGCGGATACCTTCATGTGATCAATATCCTGGCTATTTACGATTAA
>SRR1919932_01788 transposase
ATGACAAGGACTTGCCATCGCATTACCGAAACTATTACCTATAAGAGACGCAAGCAAGTCGGTAAAAAGCAAGACATCTTAGACTCTCTACCGGGCGAGGAGCTTCATCATCGTTTGGATAATCTTACCTGCCCAGACTGCCAGCACGAGCTGAAAGAGATCGGCAGCTTCTGTGCCAGAAAAAAGCTGCTCTACATTCCAGCCCAAGTTAAGAGAATCGATCACATCCAGCACTCTTACAAGTGCTAG
>SRR1919932_01789 5-methylcytosine-specific restriction enzyme B
ATGTTGGACAAGATCAGATTTGACGACTTAGTGGAAGAGTACCAGAAAGACTTTGAGTACAGAATTCATAGTGATCATTCTTTGTGGTTAGCAATAGCATGCTTTCAGAATAATTGGAGCTTAGATGACCGAGATTTTGAAAGCATGTTTGCTGATGTTGTACAGAATCTAGGTAACATTCTTAATCTCAATACGTTTACGTTTGACAGTGACGCGTTGCTAGAACTTATTGAAAGATCTCCGAAAATAGTCCATGCAATGATGGTTGATCTGTTTGATGAAAATCAAGACACCGTAATTCGAATCAAAAACTTTAAGCAGCAAGCCAATGAATTGCTAGATGGGGACTACGCTTTAGATGAAGAGACGGTCAGTATGTTGCTTTGCCTTAATTCACCTGATAAATACAGTGTATTTAACTTGCGAGGCTGTCAAAGACTGGCTAGCTGGCTTAAGTTAGACTATGAATTTGAGCAACAAGCTACTGTCAAGAATCTACAAAATTGGTTAGTTCTGGCTCAAGAAATTATTGAGCGGTTATCTGACAATCAGCTACTGCTTGCTGAGTACATGTACTATCTTGAATGGGATACTGAAGAGGAGCCAAATTATCTGTATTATCTGTGCGATAAGTTTGGAAATGATTTTCAATGGTCTGCTGAAAAGGATTCTCAGCTTTTGGTCCTAGCATCCGATATCTGCAATTATCTTACCCAGAATCGTAATTTGACTCCTACAATTGGTCAGAAGCAGTACTGGTGGTTAAATGCTAATCCCAGTTTTTGGAATCTTTCTGATTTAAAGGTTGGTGAGGAGCGCTATTATACCCTTTATAGTGAAAGCGGCCATAAAAGACGGGTCTTCCAGCATTTCTTGGATGCAAAGGTTGGTGACAAGATTATTGGCTATGAATCATATCCTAGCCGGAATGTTGTAGCTTTGATGGAAATCAGCCGGGCTAGTGATGGTGAGGCGGTCTTTTTCAAGAAAATCGAAGAATTTGAACATCCAGTAGCTTATAAAGACCTGCGGCAATACCCGGAACTGAAAGACTTAGAAGTTTTCATCAGCCCAACTGGCTCACTATTCAAGGTAACTGAAGACGAATTCAACTTCATTATGGATAAGGTAAGAGAGCATAATCCGGTGGCATATACTAAAGAGAATTTTCTCTCAGAGGTTTACATGCCAGAAGCAGACTATGATCGCGTATCAGCACTGTTAAAGTACAAGAAGAACATAATTCTGCAAGGCGCACCTGGTGTAGGCAAGACTTTTGCGGCTAAGCGGCTGGCGTATGCAATGATGGGGCAGAAAAAGGACGAAAATATTGAGCTGATCCAGTTCCACCAAAGCTACACTTACGAAGACTTCATGATGGGCTACAAGCCTACTGAACAGGGCTTTGAACTTCGCTATGGCAGCTTTTACCGCTTCTGCAAGCGAGCGGCTGAGCATCCAGATGAGCCGTTTTTCTGCATCATTGATGAGATAAATCGTGGCAACTTAAGCAAGATTTTTGGTGAGCTGCTCATGCTGCTCGAAAAGGATTACCGAGATCAGCCGATAACTTTAGCTTACACAGATGAACCATTTGCCGTTCCAAGCAATGTTTATCTGATCGGCATGATGAACACTGCTGACCGCAGCTTGTCGATAATTGATTATGCCTTGCGGCGGAGATTCAGTTTCTTTGATATGAAACCAGCTTTTGAAAGTACTAGCTTTATGCAGCAACAACTAATTGCCGGGAATGTTACTTTTGACAGATTGATCAACCGAATTGAAGAACTCAACGATGAGATCAGCAGAGATCTTTCTCTTGGACCAGGTTTCTGCATGGGTCACAGCTATTTTAGTAATCCGGAAGGGGAATGGACGATTGATAAACTAAGACTGATTGTTGATTACGATATTTTGCCGATGCTGAGGGAATACTGGTTTGATGACCAGGATAAGCTGGAGCATTGGGAAAGCGCACTGCATGAGGTTCTCAATGATTAA
>SRR1919932_01790 5-methylcytosine-specific restriction enzyme subunit McrC
ATGATTAAGGACAAGAGCATCTTCATCAAGAACGTCTACTATATGCTGAGCTATGCTTTTGGCAACCTGTATGAAACAGAGTATAAAAATATCGCCAAGGAAAGTTTTGATAATCTGGACAATCTGTTTGCCGCAATCTTAGCTAAGGGGATCGGCAAGCAGCTTAAACAGGGCCTGTACCGTGAATATGTGGCTTGTCATGATAATTTGCCAACCGTCCGCGGCAAGATTGACCTGGTTGAAACTGTCCGCAATCAGCTGGCTTGCCGAAAACTTGTAGCCTGTGACTTTGATGAGTTATCTGCCAATAACTTATACAATCAAATTCTAAAATCGACTGCCTTACAGCTGGCGAGGTCAAAGAAGGCTGACAAGAAATACCTTGATCAGCTCAAGAAAGAGTTGGTCTTCTTTGGTGAGATTGATATGGTTGATTTGTCTAAAGTGCCCTGGCATAAGCTTCGTTTTCACCGCTACAATCAGAGTTACCGGCTGCTACTAGGGTTATGTGAGCTGCTGACTGAGGGCAAAATCATGACTACAGAGCAAGGGATAATACGGTTGACTGACTTTGCTGATGATCAGCGGATGTCGCACCTGTACGAGAAGTTCATTCTTGAGTATTACGTGCAAGAGTACGGCCAAAAGTATCGCGGCTTTACCGCAAAGGCCGCGATGATTCCCTGGCAGCTGGACGATGGCAACAAGAATTTATTGCCGGTGATGAAGTCAGATGTGCTCTTGTCATATGGTGGTAGGAAATTGGTGATCGATGCCAAGTATTATGCCCATAGCTTACAGAGCAACTTTGACACGAAGACGATACACTCAGCTAACCTGTATCAAATTTTTGCCTATGTTAAGAATCTGGCGGCCATGCGAAGGGATGATACGGTGGCAGGGATGCTCTTGTATGCTAGGACTGACGAGGAGATTGTCCCAGATGAAGACTATCAGATGAGCGGAAACCGGATCAGTGTGAAGACCCTGGACTTGGGGCAGGAGTTCCCAGTTATCAAGGAGCAATTGGACAAAATTGTAACAGAGTACTTTACAGAATTGGGATAA
>SRR1919932_01791 DNA mismatch repair protein MutT
ATGGACCGCACGGAGCCTACAACTTTAACTAATATGTGCATGATCGTGGACAAAGACCGGGTTCTGACGATCGACCGGGAAGACCCGGTTTGGCCAGGCCTGGCTTTTCCAGGCGGCCATATTGAAAAGCATGAGTCATTTCATGATTCAGTCATTCGCGAGGTCAAGGAAGAGACCAACCTGGACATAGTTAGTCCCCGCCTGGTCGGCTTCAAGCAGTTTTTTGACAAGCTGGACCGGCGTTACCTGGTCTTCTTCTACCGGGCCGACCAGTTCTCAGGAAGTCTCCACGCTTCAAGGGAAGGCAAACTGGAATGGGTCAAGATCAGCGATTTACCTAAGCGGCAGTTAGCCTACAACTTTGACCGAGATCTGGAAGTCTTTTTAAAGAGTGACCTTGATGAGCATGTATTGTTGGACAAGAAGGACTTTTTATATTAA
>SRR1919932_01792 hypothetical protein
ATGCGCAAGAAAAAGAAAAATAATAATAAGAGCAAGCGGATTTGGGGCAGAGTCGTGACGGCACTACTCTTCCTTGCCCTCTTCGCTTTCGCGGGCCTTTATATCAAGAACTACCCGGTTGAAAAGGATGTCAAGCTGGTGGCTACCCAGCCCAAGGCCTTGAAGGCCAAAAAGACGGTTGCTGAGAAGGATATCTGGGGCTATCCGTTCGCCAAGTGCTACACCAAGAAGATCAAGTACCTGTCCGGCCAGCGCTACGGGAAGACCGATGTCTGCCGGCGGGTCTACCCGAAGAAGTCTTACTTCCATGACGGTTGGGACTTTGGCTGGAGCGAGGTTGGCAACAAAGCCTCAGTATTGGCTGTTCACCCAGGGACGGTTAAGAAAGTTGCCTACTTCACGGGCCTTGGCTGGTACATCTGGGTTGTATCTCCAGACGGCTATGTGGAAGTCTACCAGGAAGGTTTCGCCAACCGGTCAGACATTACGGTTAAGGCAGGACAGAAGGTCAAGCTGGGCGACAAACTGGGCCGGCTGACTGACTCCCACCTGCACTTAGGGATCACCAAGACCAGCGCTGACTACATCAGCAAGCACGGTCACCCATACAAGGACTACTGGCGGGACAACGGCACCTGGCTGAACCCGATGAAGGTGATTACTGACAGCTTGCAGCTGCAAAAGGATGTTAAGGAATACAACGCTAAGGCAGCCAGCTACAATGCCAAGGTTACCAGCTACAACGAGAAGCTGGCGGCTAAGAAGAAAAAGCTGAAGGCGGAAGAAAGCAAGCACCCTTACCACTACTTGAAGCCATTTATCAAATAG
>SRR1919932_01793 methylated DNA-protein cysteine methyltransferase
ATGGATGACAACGAAATGTGGCAGGCAGTCCAAACTTGCGACCCGGCTTATGATGGCGAGTTCTTTTATGCTGTGCAGACAACAAGAATTTTCTGCCGGCCTTCTTGTAAGTCAAAATGTCCCAGAAGAAACAATGTTGAGTATTTCAAAAGCAGTGCGGAAGCAGAAGCTGCTGGCTACCGTCCCTGCAAACGCTGCCGGCCTGACCTGCCCCAGTATGACCCGGACTGCGGCCTGGCTAAAGCAAGCAAGGCCGTCTTTGACCAATATTTTACTGACCGGCAAGAGCTTAACCAGCAGCTGAAAGAGCTGGGCGTAACTAGAAAGCAAATGTCCCTGGTCTTCAAGCGTTACTATGACATGAAGCCGGCAGAATACTTAATCCAGGTAAGAATCGCTACCGCTAAGCAAGCCCTGCAGGCCGGAGCCAGCGTTTTCGACGCTGCCGCTGATTCCGGCTACACTAACTACTCCAGCTTTTATGCCCACTTCCGCAAGCTGTCCGGGATGCCGCCGGCTAAGTACCGGCAGCTTTTTGCCCAAAATATCTCCCGGGCCGTCATGGACACGCCAATTGGGCCGCTCAGAATTCTCGCTTCCCAAGATGCCATCCTCTGCGTTGAACCGGCAAATTATCTTGAGAAAAAGACTGGCCAAGCAACTGACCAGGTTCCGGCTGACCGGATTATCCCAAATGACCCGTCAGGTGACTTGGCTAAGGCCTGCATGAGGGAGCTGAAGGAATACTTTGCCGGCCAAAGACAAAAATTCGACCTGCCCCTTTCGCCAGAAGGCACCAGCTTCCAGCAAAAGGTCTGGCAGCAGCTCCAGCAGATTCCTTACGGGGAGACCAGAAGCTACCAGCAGCTGGCTGAAATGACCGGCGACAAGAATGCCAGCCGGGCAATCGGCCTGGCCAACAACTGCAACCCGATCTTGATCTTAATCCCTTGCCACCGGGTCATCGGGGCCGACGGCAGCCTTACCGGCTACGCCGCTGGCCTTGCAGCTAAAAAACTTCTCCTTGACCTGGAAAAGAGCAGTAATAAATAG
>SRR1919932_01794 homoserine kinase
GTGAAAATCAAAGTTCCAGCATCCAGCGCCAACCTGGGCCCGGGTTTCGACTCCATCGGGGTGGCCATTTCCTTGTACCTAACCATTGAAGTAATCGGGGAGAGCGACCACTGGCAGGTAGACCATAACTTAGGGGACCTGCCAAGCGGGAAAGACAATATGATCGTCCAGGCGGCTTTAAGCGTCAAGCCGGATTTAACCCCCCAGCACCTGCGGGTGGAATCAGACATCCCCCTGGCTCATGGCCTGGGCTCCAGTTCCAGCGCCATCGTGGGCGGGATTGAACTGGCCGACCAATTGGGGCAACTCAACCTGGCTCCCCATGATAAAATCGAAATTGCGGCCCAACTGGAAGGGCACCCGGACAATGTAGCCCCGACCATTCTGGGCAGCCTGGTTGTCGGCTGTAAGGTCAACGGCCACTTTACAGCCGTCAAGGCCCCGGTACCACCTTTTGCCATGATCGCCTACATCCCGGCCTATAACTTAAAGACCAGCGATGCCCGGGCCGTTTTGCCCAAGCAGCTTTCCTTTAAAGAGGCGGTTCAGGCCAGTGCCGTGGCCAACACGGCGGTAGCGGCCCTTTTTGCCCAGGATTATGAAAAGGCCGGGGAGTTAATGGAGGCTGACCTCTTCCATGAGCGCTACAGAAGCAAATTGGTGCCGGAACTGGAGATCATCCGCAATGTCGGCCATGAGCATGGGGCGGTAGCGACCTACCTGTCAGGAGCCGGCCCGACCATTATGAGCCTGGTTGCCCCCCAGCATATCAGTGACTTTGTCGAGGCGGTCAGAGAGGCGGGTTTAAAGGATGGAATCCGCCGGCTGGAAGTTGCCCCGCGGGGTGCTTTTTGGCAGAAATAA
>SRR1919932_01795 threonine synthase
ATGATTTACCGCAGTACCCGCAGCCAGGGGCAGGAAGTTACCGCTGCCCAGGCAATCGTCCAAGGCCTGTCCCCAGATGGCGGCCTTTTCGTGCCTAAAGAATTTCCGGCTCCATTTTCAGCCGCTGCCTTAAAGGAAATTTTTGCCCTGCCTTACCAGGATATGGCTAAAAAGATCCTGGCCCTCTTCTTGACTGACTACAGTGCAGAGCAGCTGGCAGAGATTGTTAAAGGCGCCTACGGCCAGCAATGGGATGACGACCGGATCGCCCCGCTGACTGATAAGAAGGCCGGCAATTACTACCTGGAGCTCTTCCACGGGCCAACCCTGGCCTTTAAGGACGTGGCCTTGCAGTGCCTGCCCCGCTTGATGAAGACAGCCTTGGAAAACTCAGACGACCACAGGGGGATCGTGATTTTGACCGCGACTTCCGGGGACACCGGGACCGCCGCCATGCGGGGCTTCCAGTCCTTAGCCAAAACCCGGGTCATCGTCTTTTACCCTTACCAAGGGGTGGCCCCGATCCAGCTCAAGCAGATGCTGAGCGAAAACAGCGACAACACCGTGGCTGTAGCGGTTGAGGGCAACTTTGACCAGGCCCAGACCAGGGTCAAGCAGATTTTTAACGACCCGGACATGAACAGTTTGCTGGCTGACCACGATTTGACCTTCTCCAGCGCCAACTCCATGAATGTTGGCCGCCTCTTGCCCCAGGTCGTCTACTACTTCGCCGCCTACAAGCAGCTGCTGGACCAAGAAGCCATTGCCTTTGGCGATCCCGTCAATTTCTCCGTGCCAACTGGCAATTTCGGCGACATTCTGGCCGGCTATTATGCTCAAAAACTGGGCCTGCCAGTCGGCCGCCTGATCTGCGCTTCCAACAAGAACAATGTCTTAACCGACTTTTTCAAGACGGGCAAGTATGACAAGAAGCGGGACTTCTACGTGACCAACTCCCCATCCATGGACATCCTGGTCTCCAGCAACCTGGAGCGCCTACTCTTTGACCTCTGCCAGGACCCGGCCACAGTCAAGTCTTTGATGGAGCGGCTGAATACAAAGGGCGAATACCAATTGCCAGAAGACATGCAAAAGAAGCTTTCCGGCTTCTGGGCCGACTACGCCACTCCAGAAGAAATCGAAGGCGAAATCAAGCGGGTTTACGAAGAGAGCGGCTATGTCATCGACCCGCACACGGCTGTTGCTTCTTTAGCCGCCAAGCGCTTTAAGGAAGAAGACGATAAACCAACTGTCGTCCTCTCTACTGCCAGCCCTTACAAGTTCCCGGAAACCGTCTACCACGCCATCAGCGGGCAAAATGTTAAGGAAAAAGGCATGCCAGCCCTTAAGGAACTGACTGACCTAACCGGCCCTGCCCCAAAGGCCATGGAGGCCTTCTTAGGCCACAGCTCCCGGGAAATCGTCATCCCGGCTGATAACATGGCAAACGAAGTCAAGCGGCAGCTGGATCTGGACTGA
>SRR1919932_01799 GNAT family acetyltransferase
ATGACTGAATTAAACTGCCGCTTGGCAACGGAAGCTGACTTGGCTGCCCTCTGCCAGTTCTACCAGGACATCTGCGCCCACCAAAAAGAGGACCAGTTCGGGGCCGACTGGCACTGGGGAATCTACCCTACTGAAAAAGACATCAAGGAAGCCATTGACCAAAAACGGGCCGTGGTCGGCATCAAGGACGGCAAGATTGCCTCAGCTGGCATCTTAACTGTCGGCAACGACCCACTTTATAGCAATTTTGCCTGGCCAACCGCCGCCAAGGATGATGAAATCGCGGTTCTTCACCTCTACGGCGTCCACCCATCCTTCCGCCGGCAAGGGCTCTCCTCTTCCCTTTTATCCTTCATCAAAGACCGGGCCAAGGGGCTGGGCTGCACGGCTATCCGCTTGGACAGCATGGACGGCAACGTCCCTGCCCGCCGCCTCTATGAAAAGAACGGCTGGCGCTTTGTCAGCCAGGAAACGGTCCACTACGACGATATCGGTGACACCAAGGTCGACCTGCTTGAATTAGCCTTATAA
>SRR1919932_01800 multidrug ABC transporter ATP-binding and permease protein
TTGTATTATTCAGATTTTATCAAGGGCAACCGAGTTAGGTTTATCGCGATCATTCTTTTAGTTATTGGCGGCAGCGCGCTTCTGGCCGGCAACAACGCCTTGCTGACACTGCTGGGGGACAGCTTGCGCAAAGGAAACCTGCTGCTTTTCGTGACAATTATCGGGATTAATTTTGTGGTTAATTCCATCGGCAGCAGCTTGTCTTATAGAGCCAATTACTTGTATGACAAACAGACTCAAGAGTATTTCCACAAGCTTCGGTCTGCTGAAGTGGAAAAAATCTACAACAGTGGTAACAAGGCACCAAAAGTTTCCAGCGTTCAGAACAGTTTGACCCAAGATTTAAACATGCTGGGTGAAAATTTCCTGGCTCCATGGCTGAAAATTGCCGCTTGTGGATTGGATGTAGTCCTTTCCTCAATCATCGTCTTTACCTACAGCTGGCTTTTATTGCTGGTAATTCTGCTTCTTGCAGTGTTGATGTTTTTCATGCCTCGATTTTTATCTCCAGCTTTGCAAAAGGCTATGGATGATATTTCTAATGAAAACAAGCGTTATCTCGATATGCTGGAAAAATGGTTTAGCGGTTTGAGCGTTTTGCAGAGATACCACGTCAAGCAGAAGCTTTTGGCGGTGACGACTGCTCAAGGAAAGCGACTTGAAGATGCCAATGTCAGACGGTCCGGCCGGATGCAAGTTGCCAGCGGCGTCAACAATGCCGCAAACGTGTTGTCCCAGGCCTTGATTTTGCTCGTTTCAGGTGTCTTGATTATTACTGGCCGGATGAATTTCGGTGTTTTCTTTAGCATTGGCAACTTTGCCAGCACGATTTTTACTGAACTGGGGGTTGTGGTCAACCAATATACTATTTTGCAGTCAAGCAAGACTTTAAACGCCAAGCTCAGAAAGCAGCTTGCAGTTCAGATCGACCACTTAGAAAAGACTGAAAGTTTGGACCATTTTCAGTCATTGTCAGTTCAAGCCTTGTCTGTAGCTTTTAGTAATGAGGAAAAAATCACTTATCCGGATTTTCAAATCAAGCGGGGAGAAAAAATCTTATTGTCAGGTGACAGCGGGACTGGAAAATCTACGCTTTTTAAGCTGATCCTGCAGGAGTTGCCATTGGCGACTGGAAAGATTTGTTTTAAAAACGAAGCCGGGCAAGAAATTGAGCGGCCAGACCTGTCTCAAATTGGTTATGTTCCGCAAGATCCGGTTCTCTTTCCAGGTACAATCAAGGAAAACATTACAATGTTTAACTCCAAGCTGAATGACCGGGTAATGCAGTTTGTTAAGCAGGTGAATTTGGAAAAAGATCTGGCTAAATTCCCGGCAGGAGTAGATACGGAACTCGATCAAGGCAAGCATGCCCTGTCTGGCGGCCAGCGGCAAAAAGTGGTTTTGGCCAGAGCACAGATCCATGACAGTCAGCTGATTTTCATTGATGAAGGCACTTCAGCCATCGATACACACAATGGCTTGGAAATTCTGCAGAATCTGTTGCAAACCGATGCAACGATTGTTTTTATCGCGCACAACTTGACTGAAGAGATGCGGCAGTTATTTGACCGGGAGATTCATTTGAGTAATACTGCAGGTTAA
>SRR1919932_01801 serine/threonine protein kinase
ATGATAAATTTGAACTACCAGTCAAGTGACACATCACTTCTTCCGAGTGATTTTCAATTAGAAGATTATAAAAAAATTGCAAGAGATAGCAAAAAACGCTTTCTTCAATTTTGCTTTTCCAATGCTGAAATTCCCGATCAAGGATTCAAAATTCATATATCTGCAACACAAATCAATTATCAAGTGATTCTTGATGAAGTGTTTGATCTCTGTAAGTCAAATTTGATAGATTTTTATAGGTATGGTAGGCTTAAGGGACCGGATAAATGGATTTATAATCCTATTACGAAATTAAAGGAATATAGGGACTATGAGAGTATGGAGTACCGCTTACCAGCTTGGGTTGATGAGCCATTTCCAGATAACTCAGATGATAGTAAAACATGTAAATACTTGTTTAAGAAAATTATTCCAACGGAAGGGCTAAATTCTAAGCCTTCAGGAGCTACGCTTTTAGCCCATGTTGCCGGTAGTGAAGAGGAATTTGTCCTAAAAAATGCGCATCCAGGATATATGAACTTGGGGGTAGCATGTACAGATTCGCTGAAGAATGAAGCGGTAAATATAAAGAGAATGATGAAATTCGATTTTATTCCTAATTATATTGCTGATTTTTCAGAAGACGAAGATTATTTTTTATGTGAAGAAAAAAAGTGCGGCCTAAGTGTTGATGACTATCGTGCGGATTCGCACCATAATTTTATTGATAAAAAGTTACGTAAGAAAACAATCAATGACTACAGAAAATCGATTACAGATCTATTGAAAAATGTACAGATACTTCATGATGAAAGGATTTTTTTAGGAGATATATCATCGGAAAATGTTTTAGTAGATCCAGAAACTAACCTTGTAAGTTTTGTAGATTTAGAGCAAAGCGTATTTTTAGAAGATCATTCGAAAATAGCTTTTTTTGCACGTACTGAAGGCTTCTTTGATGAAAATACACCATTTTTAGCCCCAATTGCTCAAGATAATCAACAATTAGCATATTTATTGATATCATTTTTCTGTCGAGGAAATATGTTCTTGTTGATCGATCATAGTGGCGCTATGACAATTAATTTTTTTAAGCAGTATGCGTCAACTCATAATCTTCCAAAAGTTTTTGTCGATGTCATCATGGACTTATTAGAAGATCCAAATCAGCGGTTAGATAATTTGGTTGAAGTGTTAGATAAGATGGATTGTGAGAACCTCTATAATTCCGAAGATTTGGTTTCTTTAGATGACTTTCAATACGAACTTGTTAAATCTGTATATCTGACCATGATTGATGGAATACAAATTGATGATAAGAAAACTCTTTTCTTTGAGGAAGATACGGATTTAATATTCAATGAGAATATGGTGTCTATCTACAAGGAGTATCTCCAAAAGCCAACGATCTTTAATGATATATTTTTTGAAAAAAAGATGCATAACCATGTTATTTCAGAAGGCAAGAGATTGGTGGAGATGCTTAAGGATGGGGATGAGCGATTAGCGGAAACCTCATTAGTTCAAGTATATGCATTACTCTTGTGTACTATAAAAATTGCGAGTCCTAGTGAAAAAATTATTATAGATAGTTTGATAAACTATACACAAGAAAAATATATGGAATCTACAATAAATGGAAAATTCTTTAGGATAACGGAATATTCAACATATTTATCACCATATTTTGCTGACGGCACGGCAGGTATGATCAACATTTTGCTGGAATACAGGGAAAAATTTCATGATACCAAATATGATGCGTCGATTCTAGATTTAGTTAATTCTATTTCTCAAGAACATATGCCTAAAAATAGTTCTCTGTATAGAGGATTAGGAAGTTTTATATACGTCCTTCAGAAATTCAAAAAAATATTTAAATCAAGCAAACGAGATAATGATATAAGGGAAATGTTTAGGAATCTTCCGTTGTACTCAATTGTTTCTAATGGTAATAGATACATGGTTGATGAGTCGTTTAGGCGCATAAGCTTAGACTTTGCGGATGGAAATGCTGGAATTATATTTTTGATAGAACAAGCTAAGCAAATGGGAATTTTATAG
>SRR1919932_01802 formamidopyrimidine-DNA glycosylase
ATGCCAGAAATGCCAGAAGTTGAAACGGTCCGCCGGACCCTGCGGCCCTTGGTCGTGGGCAAAACGATCGACCATGTCGATATTTGGTACGACAAGGTCATCACCGGCGACCCGGAAACTTTTAAAAGGGAGTTAAAGGGCAAGACCTTTACAGCCGTTGACCGCTATGCCAAATTCCTGCTCTTCCGTTTAGGCGACTTGACGGTCGTTTCCCACTTGCGGATGGAAGGCAAGTACCATCTAACGACCTGGGATGCACCGGTAGACAAGCATGAGCACCTGCAGTTTGCCTTTACCGATGGAAGCAGCCTCCGCTACGCGGATGTCCGCAAATTCGGCCGCCTGCAATTGGTGGAAACTGGAACTGAATTCCAGGTCACCGGCTTGAAGAATTTGGGCGTTGAAGCAAATAGTCCAGAATTTAGCTTGGACTACTTTGAAAAAGGCTTGAAGAAGAGGAGCATGAACATCAAGAGCCTGCTCATGAGTCAGACCTTGGTGGCCGGCCTGGGCAACATCTATGTTGATGAAGTCCTCTGGCAAAGCCGGATTAACCCCTTAACGCCAGCTAACGAATTAACCAAGGACCAGGTCAAACAGCTCCATTCAGCTATCAATGAAACCATAGAAGAAGCTACTAAATACGGCGGCACCACCGTCCACAGCTTCTTAAACGCGGAAGGGGAGTCCGGCCACTACCAGGAAAAGCTCAAGGTCTATGGCAAGGAGGGGCAGCCATGCCCCCGCTGCGGGGAAGGCTTTGTCAAGATCAAGATCAGCGGGCGGGGAACCACCTACTGCCTGCATTGTCAAAAGAGGTTGTGA
>SRR1919932_01803 DNA polymerase I
ATGAACAAGAAGAAGTTACTTTTAATCGATGGCAATTCCGTGGCCTTCCGGGCCTTTTTCGCCATGTACCAGCAGCTGGACAAGTTTAAGAATCCAGAAGGTCTCCACACCAACGCCCTCTATGCCTTTAAAAACATGCTGGACGTGGTCCTGAAGCAGGAAGACCCAAGCCATATCCTGGTGGCCTTTGACGCCGGCAAGACCACTTTCAGAACCGCTATGTACAAAGACTACAAGGGCGGCCGGGACAAGACCCCGGCAGAACTTTCCGAACAGCTCCCTTACCTGCGGGAAATGCTCAAGGACATGGGAATCAAGAGCTACGAACTGGCCAACTATGAAGCCGACGACATCATCGGCACCATGGCTAAAAAAGGAGCCGAAGCCGGCTATGAAGTGGCCGTTGTTTCCGGGGACAAGGACTTGACCCAATTGGCCAGTGACCATGTCACCGTCTACGTGACCAAGTCTGGGGTAACTAAACTGGAAGCCTTCACTCCAGACCACATGAAAGAAGTCAACGGGGTGACCCCGACTGAGTTCATCGACATGAAGGCTTTGATGGGTGACCCGTCCGACAACTACCCAGGCGTGGCCAAGGTCGGCCCCAAGACTGCCTCTAAATTGATCCAGGAATACGGCAGCGTGGAGAACTTGTATAACCACGTTGATGAAATGAAGAAGTCCAAGCTGAAGGAAAATCTGATCGCCAGCAAGGACAATGCCCTTTTGGGTAAAAAGCTGGCCACCATCAACTGCGACAGCCCGGTGGAAGTGACCCTTGATGACCTTAGCTATGAGGGCAGCAATGTCGATGACCTTCGCCGCTTCTACGAAAAGATGAACTTCCGCCGCTTTCTGGCCGACTTGGCCCAAAAAGGGGAGTTGACTGAAAACAAGACGGAAGTTAAAAAGCAGGACTATGTCGTGCTCAGTGCTGATAACTTAGACCAGCTGCCAAAGGCTGCTGAAGTTACTTTCTACCTGGCCATGTTTGGCGACAACTACCACCTGGCCGACTTCGCCGGTTTTGCCTTGAAAATCGGCGGGGAAACTTTCGTCAGCCGGGACGTCTTCCTCTTGCAGGAAAGACCCTTGAAGGGAATGCTGGAAGATTCTGCCGTTCAAAAGAACGTCTTTGACTTAAAGCGGACCACTTACGGCCTCTACCGGCTGGGAATCAAGGCTGAATCTTTGAGCTTTGACCTGCTCCTGGCTTCTTACCTGGTTGACAATGAGAAAAATTCCAACGACCTGGGTGAACTGGTCCAAGGCTACGACTACTATGACTTAAAGACCGACCTGGAAGTCTACGGGAAGGGGAAGAATGCCAAGATTCCGGCAGATGACGCGGTCTTCTTCAACCACCTGGCTGGCAAGACCGCGGCGATCGCGGCTTTGAAGGACAGTCTGTTAAAGCAGTTAAAGGACCATGAGCAAGATGACCTCTACGATTCAATCGAACTGCCAACGGCCAGAGTCCTGGCCAAGATGGAGATGAACGGGATCAAGGTCCAGCCTTCCCGCTTAAAGGAACTGGAAAACGACTTTGCTGTCCGTTTAAAGGAACTGGAAGAGAAGATCTACAAGGAAGCCGGAGAAGAATTCAACTTGAATTCACCAAAGCAGCTGGGGGTCATCCTCTTTGAAAAGCTGGGCCTGCCAGTTATCAAGAAGACCAAGACTGGTTACTCCACTTCAGTTGAAGTCTTGAACCAATTGAAAGAACAAAGCCCGGTTGTCAGTGACATCCTGGAATACCGGCAGATTTCCAAGATCCAGTCTACCTACGTTAAGGGCCTCTTAGACGTCATCGATGAGCGTGATGGCCGTATCCACACCCGCTACCTGCAGACTTTGACGGCAACTGGCCGCCTGTCTTCAGTTGACCCTAACCTGCAGAACATCCCAACCAGAACGGAAGAAGGCAAGCAGATCAGAAAGGCTTTTGTCCCATCAAGTCCGGATGGCTATATCTACTCCTGCGACTACTCCCAAATCGAGCTCCGGGTCCTGGCCCATGTCTCAGCCGACCCGAACATGCAGGAAGCCTTCAAGACCGGCTACGACATCCACGCCCACACGGCCATGAAGATCTTCCACTTAAGTAGCGTTGACGAAGTAACGTCTTTGCAAAGACGGCGGGCCAAGGCGGTCAACTTTGGGATCGTCTACGGGATCTCTGACTACGGCCTATCCAAGAACCTGGACATCTCCCGCAAGCAGGCCAAGGAATTCATCGACGAATACTTTGACCAATACCCAGGCATCCAGGCCTACATGGACCGGGCTGTTAAAGACGCCAGAGAAAAGTGCTACGCGGAAACCATCATGCACCGCCGCCGCTACCTGCCAGATATTCACGCTAAGAACTTTAATGTCCGCTCTTTCGCGGAAAGAACGGCGATCAACTCCCCAATCCAAGGGTCAGCCGCGGACATCATGAAGATTGCCATGATCAACATGCAAAAGAAGCTGGATGAACTGGGATTAAAGACCAAGATGGTCGTCCAGGTCCACGACGAATTGATCTTTGACGTACCAGCTGATGAACTGGAAACGATCCAGAAGATTGTCCCGTCAGTTATGCAGGCAGCTGTTAAGTTGGACGTGCCTTTAGTCGCTGACGCCGGCTGGGGCCATGACTGGTATGAAGCAAAGTAG
>SRR1919932_01804 hypothetical protein
ATGCACACCTTCTACTGCGCGGCGTACTTCATGGGGATCTGGGTCTTTTTGGACACTTGGTCCAAAAACGGCCACGTTGTCCTTTTCCTCTTGCTGGCCATCGGCGAAGCAATCTGGGTCTTGATGGAAATCTACAGCCTGCAGCGGGCCCTGACTTATGAAAAGGACATCAACTGGAAGCCGGGCACGTCCTTTAAGACGCGCCTGCGCGACGTCATCTTCCAAGTCTTGATCTTCTATGTTTCTTTGAACCTGCTGCGCTTTGAGCTGCATGACAGCACCATGTGGAAATTCTGGATCTTTACCCAGATTTTGATCACCACGGTTCCGGGCCTGAGCTTGGAAAAGCAGGGCAGTCGGCAAGGACACAATGTCTGGCTGCACGTCACCTTGATCTGCGTCGTCATCGCCAGTTTCAATCCCTGGTGCAACATGTGGGCGATTGTCGCGCCAAAACTTTTTTCACCGGCCAACAATCCCTGGTACTACATCACCGGGGCGGTCTGCCTCTTCTTCGCCGTCCATGGCTTGATCGTCTATCTCAAACTGCCGGCCAAAAAATAA
>SRR1919932_01805 hypothetical protein
ATGAACATTATTTCCAGCCTGCTCTCCAAATACCCGGCAGACCAGGTTACCCCGCAAGACTTTATCGACAAATTGACCATCGGCAATCCCGGCTGGCAAAGCGCCTATTTGGCCGTGCGTCATTTTCGGCCTGCTGGTCTACATCATCCCGATCTACCTCACTGA
>SRR1919932_01806 transcriptional regulator
ATGTACAAAAACTCAACTGACCGCCGCTTTATAAAAAACAAGCGGGAATTCCGCCGGGCCTATATCGACCTGACGATCCAAAAAGGCTACCGAAATTTTTCCATCGCGGAATTAGCCCGGCAGGCAGAACTAAATCGGATGACTTTTTACAAGCACTATGACAACCTCGATGACGTCTTCCAGGAATTCATCGATGACATGATTGGCGAAATTGAGAGACAATTGGCCGCTAAAGAATCTGCAGATTTGGCCGACCTTTTTCACGTCAGCAGCCAGCTGATGTACTAG
>SRR1919932_01807 hypothetical protein
GTGGCCAAGGCTGGAAACTGCGCGGACTTTCGGGAGGCTTTTAAAAACAGCTTTCAAGAACTGCTCAAGCCGGATTTGCAAAATGGCCCCAGCTCAAAGACTGAGGCCTTAATCCGCAGCGACCTGTATTCAGCGACCATCGCCACGGCATATTTGGACTGGTTGGCGGGTATTTATGGCAAGGCTAGCTTGGATGAAGTCTTGAAGGTGACTGAGCAGGTGCTGAAAGAACAAATACAAAACTTTGAGGCTAGTCGGCCGTAG
>SRR1919932_01808 XRE family transcriptional regulator
ATGAAATCATCCTTAGGAAAAACACTCAGAGAAATCCGTGTAGGAAAACAAGTCAGCATTTGTTCACTTGCTGATCAACACCTGTCCAAATCGCAGATTTCCCGCTTCGAGCGTGGCGAATCTGAAATATCTTGTGCTAATCTCATTAACATATTAGATAAGTTAAACGTTTCTTTAGATGAATTCATGATTATCCATAATGATGTATCTCCAACGAGGACAGAATCTTTTTTCAACCTAATGAGCTACATCAGAAAGGCATATTTTGCTCAAAATACAGCTGAAATCATGAATTTGCTTTCTGCTAATTCCAGTTTTAAACTAAATCCTTTTGAAAAAACGATGATTAAATCAATTGTTCACACACTGGATAGCAATGTCTGTCCAACAAGGGAAGAGATAGCCCAACTAGTCGACTATTTGTTTAAGATAGAAAAGTGGGGCTACTACGAAATAACTTTGTTGGGAAACTGTGTAGAAACAATTCCATACGATTCTTTATTCCTGTTGACAAAGGAGATTCTAAAAAATTCTATTTATTACTCACTAAACAAAAACAACAAGCGGCTAGTGACGCGGCTTGCTATAAATTGCTTAACCATAAGCATTGATGAAAAAGAATTTGCAAATTGCGAGTACTTGATTCAAGAAATAAAAAATCTGTTAAGCAATGAATTAAATTACTACGAACAAACCGTTTTTCTTTACACAACAGGATATTTTGAGTTTATGAAGGGGAAACACGACGGAATTGAAAAAATGACAAAAGCCCTTCAGATTTTCAGTATTTTAGGTGATGAATCTCTTAAAGGCCTATATATCAATCACTTTTCCAAACACGTCGACATTTGA
>SRR1919932_01809 hypothetical protein
ATGAAAAATAACGATCTACTTTCAGAAGGGAATAAAGTAGAATTTGAAAGAGATTTGAATCAATTCATAAGGAAACTAATTGATTGGAAGACAGATAGTTCTTTGGTGCATAGAGCTGACGACCTTAATACCACCATAAGCACGGATGCCTTGCCACTCGGTGGGCAGTCGCTAGATGACTCTATTGAAGAATTAGTTGGTTCGCTTGATCGAATATAA
>SRR1919932_01810 hypothetical protein
ATGGGGACAGAAGTTGAGGCTGATGTACTTAATTGGTTGAGGGAATTGATAGGATACGCAGTTAATAATAAGTTAACAGACGTTAGTCAACTCGGTGGGGCTGTTACGACCGGCGGAGTAATGTCAAATACTTATGCCTTGATGGCAGCTGCAAGAAAGTATCCTGATAAGAAGATTGTGATACTTCCTAATAACATTGGGCAAGTTATGCGACAGAATGGTTAA
>SRR1919932_01811 tRNA (guanine-N(7)-)-methyltransferase
ATGCGTTTAAAGAACAAGCCTTGGGCAAACAAACTGGTAGAAGAGCACCCGGAAAGCGCCTTGGACTGGCCGGATCCAGCGGAAAAGATCGACTGGGCAGCCCGCTTTGGCAACGACAAGCCAATTGAAATCGAAGTCGGCTCAGGCAAGGGGCAGTTTATTACTACTTTGGCTAAGCAGCACCCTGACCGCAACTTCGTGGCCATGGAAATCCAGAAGACGGCAGCCGGCATCATCTTGAAAAAGAAGCTGGACGAGGGGCTGGACAACCTGCAGATCCTCTGCGCCGACGCGGCCAACCTGGTAGCCTACTTCGGGGAAAACTCCACCAGCAAGATCTACCTCAACTTCAGCGATCCCTGGCCAAAGAGCCGGCATGAAAAGCGCCGCTTGACCTACAAGGACTTTTTAGCCAAGTACCAGGCAGTCTTGACCGGCGACGGGTTGATCGAATTCAAGACCGACAACTCCGGCCTGTTTGCCTACAGTGTCAAGAGCATGAACAATTACGGGATGCACTTTGACTTCGTGTCAGTTGACCTCCACCACGAAAGCGAAGAAATCGTGGAAAAGAACGTGGAAACTGAGTATGAGCACAAGTTTGCCAGCAAGGGGCAGCCGATCTACTGCCTGCACGCGGGCTTTCTGGCCAAGTAA
>SRR1919932_01812 thiol-disulfide isomerase/thioredoxin
ATGGAAGAATATAAAGTAGTTGACCAGGCAAAGCTGGCGGACTTAGTCAAGAGCGGGCGGACGGTTGTCGAATTTTCTGCTGACTGGTGCTCAGACTGCCGCTTTTTGGAACCTGCCATGCCAGCAATCGAAGCTGACTTCGCAGACAGCAAGTTCATCAAGATCGACCGGGACGGTTCTATCGACTTGTGCAAGGAAATGAACATTATGGGAATTCCTTCATTTGTTGTCTACCAAGATGGGCAAGAAATTGGTAGACTAGTTAATGGAGACCGCAAGACCAAGCAGGAAGTAGAAGCATTTTTGCGGTCGCTTGACTAG
>SRR1919932_01813 tRNA binding domain protein
ATGATCACTAGTATTAACAAAGTAAGCTATCCCAACACTTTGATCGTCATCTTGGCGCAAGGCGATGGCGAAAGCAATTTCGAAGAAAAGGCCGACGTAACCCGGGTTACGGACGGCAAGGGCGAATTGACCGGCTTCAACTTCTTTAACGTTGACCAAGTACTGGACTACGACAAGCTGCCAAACGGCGAAGTCAAGCTGGATGAAGACCAAGTCGCAGCTTTAAACGAAAAACTGGCCAGCGTTGGTTTTTCCGACAAGCTGACTGTGGCCAAGCCAACCTTGGTTTATGGCTACGTTAAAAGCTGTGAAGTGCACCCGGACTCTGACCACTTGCACGTAACGCAAATTGACGTTGGCGATGGTCAGGACCACCAAATTGTCTGCGGGGCACCAAACATCGCCCAAGGGCAAAAGGTCGTTGTGGCTCTGCCAGGTACTTTGATGCCAACTGGGGCCCAGATTTGGCCAGGCACCTTGCGCGGGGTTGAATCAGACGGGATGATCTGCTCAGCCAGAGAACTGGGCTTGGCTCATGCTCCGCAAAAGCGGGGGATCATGGTTGTTCCGGACAGCTTCAAGATCGGTGACGAATTTGAACCGACCAAGTGTGACGAACTGCTGGCCAGCGGCGCTATCACCCTGTAA
>SRR1919932_01814 UDP-N-acetylmuramate--L-alanine ligase
ATGTTAGACAAGACTAAACAAATTTGGTTTATTGGGATCAAGGGGACCGGGATGGCTTCCTTGGCCTTGATTTTGCACGACCTGGGCTACAAGGTTGCCGGCAGTGATATCGACAAGTACACCTTCACCCAGGATCCACTGGAAGCCGCTGGGATTGAAGTTGCTTCCTTCTCTAAAGACAACATCAAGGAAAGCGGCCAGGTAATCGTCAAGGGCAACGCCTTCAAGAGCGACAACATTGAAGTTGCCGCTTGCGAGGAAAAGGGCGTGGCGTGGCAAAGCTACCCGGACACGGTTGAAGAAATCGTCCAGCAGTACACCAGTATCGGGGTTGCGGGTTCCCACGGCAAGACTTCAACCACCGGCCTTTTGGCAACGGTTTTGGGCGAAGCCGCTCCGACTTCTTTCCTGATCGGTGACGGGATGGGGAAGGGGGTCAAGGACTCCCGCTTCTTCGTCTACGAAGCTGACGAATACCGGCGGCACTTCCTGGCCTACCACCCGGACTACCAGATCATGACCAATGTTGACTTTGACCACCCTGACTACTTCAAGGACAGAGACGACTATGCCTCAGCCTTCCAGACGGCGGCTGACCAGACTAAGAAGGGGCTTTTTGTCTGGGGCGATGACGAACGCCTGCAGAAGATCCAGCCAAAGACCGCTAAGAAGTACACTTACGGCTTGAAAGACAGCGATGACTTCCAGGCCTTTGACGTGGTTAAGACCACTGAAGGGGCCAAGTTCCATGTCCGGGCTAATGGGAAAGACTTAGGCGAATTCACCATCCACCTTTTCGGTGACCATAATGTGATGAATGCCACGGCGGTTATTGCCATTGCCTTTACTGAAGGCATCGACCTTGATGTAGTCAGAAAGGGTCTGGTCAAGTACACCGGGGCCAAGCGCCGCTTCAGCGAAAAGGACTTTGGTGACACGGTGGTCATTGATGACTACGCCCACCACCCAACTGAACTGCGGGCTACGATTCAAGCTGCCCGGCAGAAGTTCCCGGACCGGAAGCTGGTTACCATCTTCCAGCCGCACACTTACTCCAGAACCAAGGAATTCGAAGAAGAATACGTGGAAATTCTGAAGGGGGTCGACAAGGCCTTCTTGACGCCAATTTACGGGTCAGCCAGAGAAGCAGCGGGCGACATCAAGAGTGAAGACATCACCAGCCAGATTCCAGGCGCTGAAGTCATTGACTTCGACAATCTGAAGGATCTTTTGGCTTACAAGGGTGACTGCATTGTCTTCATGGGTGCCGGCGATATTCCTAAATATGAAGTAGCATTTGAAGAAATGCTGGAAAAGTAA
>SRR1919932_01815 CopY/TcrY family copper transport repressor
ATGGATGCAAAGAATGTAACCATCACCGATTCTGAATGGATGGTTATGAGAGCAATTTGGACAATGGGACATGCGACTAGTCGTGAACTAATCGATGCTATGAACGAATTAGAAGGCTGGTCAGCTTCAACAACCAAAACGCTACTTCACAGGTTGATTCAAAAACAGGCGGTTGCGCAGCATGGCGGCAGTCGACCATTCACGTATAAGCCGGTTGTTGGCGAGAAGGAATCAATGGCGGCAGCGGCAGATGATTTGTTTGACCATATGTGTGCGATGCGGGCTGGTTCAACAATTGCCGGCGTTATTCAGTCAAGGGAACTCTCACGGGCAGATATTGCGAACTTACAGGCAATTCTAGCTGAAAAGGCCAAAACAGCGCCCGAGGAAGTTCAGTGTAACTGCTTGCCAGGTGATCAAACGTGTTAA
>SRR1919932_01816 cation-transporting ATPase
ATGGCAAATAAAGAGGACCATATGAACATGAAAAACATGAGTGCTAAGAATATGGAAAATAATGAATCAAATATGAGTCATATGGATCATGATGACATGAAAATGGATCACGATATGACCGAAACGGATCATAATCAAATGAACATGGACTACGATATGGCCGAAAGGGATCACAGCCAAATGAACATGAATCACGAAACTATGAATATGAGTGGGATGAATCACGGTGATATGGATATGGCTGGGACCGACATGATGATGCACGGTGGCTCAATGATGCATATGGGGAATTTGAAAGTTAAATTTTGGGTCTCCGTTGTCTTAGCGATTCCAGTTTTACTGTTAGCACCAATCATGGGTTTAAACGTTTCCATCCTTAGTTTCAGTTCACCGCTAATTGTTGGCATTATCATCGTTTTGTTTGATACAGCACTTTACTTTTATGGCGGAATGCCATTTTTAAAGGGGGCTAAAGCGGAAATTCAAGATAAATCTCCTGAAATGATGACGCTAGTAACCCTTGGAATTTCCGTTTCGTATTTCTTCAGTTTGTACGCATTTATTGCCAACAACTTCTTGAACCCGGCAAATCATGTAATGGATTTTTCGTTCGAACTTGCAACCCTGATTTTAATTATGCTTCTAGGACACTGGATTGAAATGAATGCATTGATGGGGGCTGGGGATGCCTTACAAAAGATGGCGGCCCTGTTGCCTAAGACGGCCCATCTAGTTACAGATAATGGTGAAACAAAAGAAGTGCCAGTATCTGATTTAAAAGTTGGTCAAACTGTCCAAGTACGTTCAGGTGAGAGTATTCCAGCCGATGGTGTTATTACGGCTGGGGAGTCGACCGTGAATGAAGCACTGGTAACCGGTGAATCTGCTGCCGTTACCAAGAACGTTGGCGATAAGGTCATTGGTGGTACAACCAACAATAACGGGACGCTAACGGTTAAAATTAGTGGTACTGGTGACTCCGGCTATCTTTCTCAAGTAATGAAAATGGTTCAAAATGCCCAGCAAGCTAAATCTAAAGCAGAAGATAAAGCTGATTTAGTTGCCAAGTATCTATTTTATGCGGCACTTGGTGTTGGGATTATTGCTTTCTTTGCCTGGTTACCCCAGGGATTAGAGACTGCAATGACGATCATGGTGACCGTCTTCGTGATTGCTTGCCCGCATGCGTTAGGATTAGCGATTCCATTAGTGGTTTCTCGTTCTACTACGATTGGCGCTCAAAATGGGCTATTAGTTCGAAATCGCCAAGCCATCGAAGCAAGTCAACACGTTAGCCACGTTCTCTTGGATAAAACTGGCACGTTAACAGAAGGTAAATTTACGGTGAATGCATTGATTCCAAATGATGGGATTGACGAAACAACGTTATTAAGCCGACTGGCCGCCCTTGAAAATAATTCGACTCATCCGCTGGCCCAAGCAATCATTGCTGAAGCCCGAGCGAAGGACATTGAAGTCGTTGCGGCTGAAAAGTCTCAAAATATTCCGGGCGTTGGTATTTCCGGTAATGTTGATGGCACTGACTATATGATTGTTAATGGTAACTATTTAACGAAGCAAGGGATTAGGTTTGACGAGGCCGCTGCTGATAAATGGGCTGCTAAGGGTAATTCCGTCAGCTTCCTATTGCAGGGCACCCAAGTTCAAGGAATGGTTGCTGAAGGCGACACCATCAAAGCGGGTGCTAAGGAATTAATTAGTGGTCTTCAGAGGCGAGGAATTACCCCCGTAATGCTCACTGGCGATAATCCAAAAGCCGCGGAACACGTTGCTAACTTACTAGGATTGACTGAATTTCATGCAGGCCTATTACCAGATGATAAGCAAAAGATTATTGCTGATTATCAAGCAAAGGGCAATCATGTCATCATGGTTGGTGACGGCGTAAATGACGCACCAAGTCTTGCCACGGCCGATATTGGAATTGCAATTGGCGCCGGAACCGATGTTGCCATTGATTCCGCTGATGTTGTGTTGGTTAAATCAGAACCCAGCGATATTTTACATTTTCTTGATTTGGCTAAAATCACAAATCAGAAAATGGTTCAAAATCTTTGGTGGGGAGCAGGCTACAATATTGTCGCAATTCCACTCGCTGCCGGTGTGTTGTCATTTATGGGAATCACTCTAGACCCAGCCGTTGGTGCTGTGGCCATGGCGATGTCGTCAATTATCGTGGCAATTAATGCGATGGGATTGACTGGTAAAAAGATCAAAAACGTGTAA
>SRR1919932_01817 hypothetical protein
GTGGCTTTGTTTGTTAAGAAAAATAGTCTTTGTCTGTTTTTAGGGGCAGTTGTCGGTTTTATGATAACGTTAACTGAAAACATATCAACTGAGATTGGAGGGACTTTATTTACTGTTTCAAATATCTGGGATACTACCAACATTATTAATCCACTAGCGAATGCTATGGTGGAGAATCCATCACCGGCAATCTATTACCTAAATTACGCGACGACTGCAGTTTTCTATATTACGCTAACTGCTGTTTTGTTAAGAATTTGGTACATGAAGAATGTAGAGAAAGGTTAA
>SRR1919932_01818 hypothetical protein
ATGCTAAAAACGCGTTATCAGCGCCTAATTGCCATAACACTCTTTTTGGACTTTGTGGTTAGTCTGGGATGCGGCCTGCAGTTTGCAATGATTGGCGGAGAAGGCGAGATGCCAATGTATTATCTGAATGCCAACTTGATCAGCTTATACATCCAGCCAGGTCTAACCGTCATGGCAGCCGTCCAAATCCTCTCTTTCCGCTCAGTCCGGCCGCTTCTTGCTCCCCGCGGCAAAATGGATTACTTTGACCAGCGCCTGGCCCAGCTGCTTTTCTTAGATTTGGCCATCTACCTTGTTTTCTCCATCGTGCCCTATTTCTTTGACAAGAATCCCTGCTTCCGCTATGGCCCGGCCTGGAAGGGCACCCTCTTGCTTTTGATGCATTACCTGCTGTTCATTGCCTGCTTTATGCTGATCTTGCTCTGCATCAAGACTAAATATCCTTTCTTTATTATCGTTTTTGCCAGTACAGTACCCATTCTTTACCATTACTGGCTGGAGAAGAGCTGGCTTTTACCAAAATACGCTAATATTTATGACCCTCTCTGGCGGGCCATCCACCACATGTATATACTCTAA
>SRR1919932_01819 ABC transporter ATP-binding protein
ATGTTGAAAGTGTCACATGTTAAGAAGAGCTTTAAAAAACTGGCCGTATTAAAGGACATCTCTTTAAAAACCCAAGCGGGTGAACTGGTCCACATCTCCGGTGTCAACGGCTGCGGCAAGTCCACCCTGTTCAAAATCATCGTCAGCCTCTTAAAAGCTGACAGCGGGGAGACCCACACTGACAAGGATGACTACCTTGGTGCCCTGATCGAAAACCCTGGCTTTATCGAATATGAAACTGCCTGGGACAACTTGACCTTTTTAGGTCACTTCAACCACCGCTTCCAGCCCGAAAAGACCCGGGACCTGCTCAAGGCCTTTGACCTGGATCCGGATAACCCGCAATCCGTCGGCAACTACTCAGTCGGGATGCGGCAGAAGCTCGGGTTCGTTAACCTTATGAAAGACTTGCGCAGTGAAAACAAGACCGTCATCGTGGCCAGCCACGACGAAATTCCCGGCCTGGTCTACGACCGCCGTTTAAGAATGAAAGACGGGATCTTGCTAGCCGAAGAGTAA
>SRR1919932_01820 SprT family metallopeptidase
TTGGCATTTTCCGCCTTGACTAGCTACAATAATCCCATGATTAGTGAACAAGAACTGCAGCAGCTGGTCGAAAGCATCTCCCTTGAATCCTTCAGCCGTCCCTTTCTCCACCAAGCGAAAATCAACCGCCGCCTGAAGACTACTGGCGGCCGCTACCAATTATCCGACCATCACCTGGAATTTAACCCGCTCTTTCTTAAGGAAGAAAATCTCCATTATCTGCCGGGCATCATCAAACATGAACTGGTCCACTACCACCTCCACCTGGCCGGCTTGGGCTACCAGCATAAAGACCGGGACTTCAAGCTTTTACTGCAAAAGGTAGGCGGTAGCCGCTATGCGCCAAGACTAGAAGAGAACAAAAGAAGCCGCTGGCACTACCGCTGCCGGCAATGCGGGCAGGACTACTGGCGCCAGCGGCAGGTCAACGTCAAGAAGTATTTCTGCGGCCGCTGCCGGGGAAAATTGGAAAAAATTGCCGGCCCCCTTGCCAAATGA
>SRR1919932_01822 membrane protein
ATGTACGATTCTGAAGCCAGACAGAAGACCTTGAACCTGACGGTCAGCGCGGTCTTTGTGGCCATTCTGCTGCTGGAAGCTTTTATTCCCAATGTGGGTTACATCACGATTTTGCCGGGCCTGCCGGCCATCACCACGATTCCGCTGACAGTCGCGGTCTTTGCCTCTTTAAGGGGGCCGAAAGCCGGCGCGGCCTTTGGCTTGGTCTGGGGCCTAACTAGTTCGCTTAGGGCCTATGCTGCTCCAAATGGCCTGGTTACCATTCTCCTTTTCCAGAACCCCTTGATTGCCTTATTTCCCCGGCTTGCTGCTGGCTGGGCAGCGGGCCTGGCTGGGCAATTGGCTGATAAATGGGAGAAGGAGAGCAGAAAGCCTCTGGCTTACGCCTTAAGCGGCCTTTTAGCTTCAGCGGCCAACACGCTCATGGTGATCCTTTTGTCTGACCTGGTCTACTTCAGTCATCCCCAGAAGCTGGCTTTAGCCCTGGGGGCCAAGAGCGGGCAGTCTTTGCTGGTCATCCTCTTTACGGCCCTGGCCGTCAACGGCATTTTGGAAGCAGTCTTCAGCGGCTTGATCACGCCGCTAATTACCGTGCCCCTCAAGAAGCGCCTTAAGCGGCGCTAG
>SRR1919932_01823 N-acetylmuramidase
ATGGCTGGACACAGAAAAACACGCAAGGGCAAGCAGACGACCACCATCCTCGTGGTCCGCGTTTTTGCCATCATCCTCTTGTGCCTGGGCTTGTTCGTGGCCTTCCGCTACTACCGCCGCCAGGCCTTGCAGCAAGAACAGATCCGCCAGGCTGAACTGGCCAAGCAGGAAGCAGCCGCTAAGCTTTTGCGGCAAAAGAAGGCCTTTATCCAAAAGGTGGGGCCGATCTCGCAAAAGGTTGACAAGGGGACCGGTCTTTTGCCAAGCATCACTATCGCCCAGGCCTGCCTGGAAAGCAACTACGGGCAAAGCGCCTTGTCCCAGAAGTACAACAATCTCTTCGGGGTCAAGGGGACCAACCCTAACACTTCAGCCGTGATGACGACCAAGGAGTACAGCAACGGCAAGTGGGTGACCGTCAAGGCCCGCTTCCAAATTTATGATTCTTATGAAGCCTCGATCCGGGCTCATGTCCGCCTCTTCCAGCAGGGAACCAGCTGGAACAAGGACCAGTACAAGGACGTTTTGGCGGCCAAGGACTATAAGAGCCAGGCCAAGGCCCTGGTCACTGACGGCTATGCCACCGACCCGGACTACTCGACCAAACTCATCAATTTAATTGAACAATACAACCTGAATAAGTACGATAATTAA
>SRR1919932_01824 carboxylate--amine ligase
ATGAAATACTTTATTTGGGCCTACAATCCCAAGGTAGTCGGCATTCGTCCTAGTCAGGGAATTTCCTTCGTTGTTCCAGAAACTAAAACAGAAGCCTATTTAGAATTGGAAATCAATCAGATTATTACTGTCAAAGGGATCGATTTTCAGACCGTCTATCCAATTTTTAAACAAAAGCAGGCTGAAGGAGAAAAAATTGAGGATATCTTTACCCTTCAAGAAGAAATCATGGACTGGGTGGGAGTGCTAAAGGCAATCTTTGTTCCTGGAAAAACAGGCGTGAGCGATGTCTTGTTCAAGGATAAGTACTATATGCGGTCGGTTTTAAAGCAGGAAGTAACCGAGCCGGATTTTTATGAATTAACGGAAAATTCTACTGTTGAAAGCATTCACGAAGGAATGGTCAAGCCAAGACGCGCGGACTCAACCAAAGGTATCAGTTATTTTAAAGCGCCTCTGCCGTTGTCTTCTTTAAAGAATCAAAGTGGTTATCTGAGCGATAAAGATTTATTGGTAGAAAGTTTCGTTCATTATGACCGGATGTTTACTGTTGACGGCTACACTGATTTTCAGGGTCATTCCCGTTTCTTTAGCCATGAGTACAATAATAAGCTGAGCGATTTTAAAAAGACTGGTTATTTTACCCTCCATACCAGTTCACTTTACTATCAAGATCAGCAGCTGCTACAAAAGTTGTTTGCCTTAAGCCAGAAGGCACTTCAAGCATTGAATGTTGAAAGGGACATTACTCCTTTTCACTTTGAATGGTTTTATTCTGACAAAGACCAGAGCTTTGTCTTTACCGAGGTTGGCAAGCGTTTTGGCGGAGCGAAGATTCCAAAATTGGTTAAGCAGTCCTTTGGCGTCGATCTTCTGGAAGAATATTGGAAAATGCAAGAAAGGCGTGCAGAAGAGATTGATTGGGAGCAGCCTCTTTCACCGCGAGTCTGCTCAAGCTCTTATGTTCAGCTGACCAATGGAAAGACGATGATGGAAAGTTTAGAGGAAAAAATCCCAGACCTTTTCACTTACGAGCAAAACCATCCTGTAGGCGTGCAGTCGCAAGCAGCTGAATCTATTGGGCAATGTCATTAA
>SRR1919932_01825 hypothetical protein
ATGAGTACCTATAAGAAATTTGTTCAGGTGTTGCGGAAAAAATGGCAGGTTGAAGAATTACCTGAAAGTCCGCTTTTACGGCCTGATGATGGATACTTCACTTTCTCACCTTTCCAAGATACAGAAGGAAATTTCGACAGTTTAAAAAGTACGTCTAGCATCTTTGTAAAATATCAGCCAACAATCAGAAAACTGAACGCGCTAGATTTGACGAACCCTTTAAATCTGAATTATCAGACGACGTATGCTGTACAAAAATATCAACGATCCAATCAAATCGATTTGATTAAGCAGCTAATTGAAGTCAGCCGTGAAAAGCTATTCCCACAAATTGCTGCTTCTGAAGTAGAAATTACCTACCCAGACATTTTGCATGATTACTTTGCACAACGAAAATTTGAATTTAAGCTCAATGAAGTTGAAACAACTGATAGATATCTCTGCAAGTTGGATATACCAGGAAAGCACTATTACATTAAAGTACGAATGAAGTTTAAGACTGGGTCAATCAATGTTGTTGATTTTGTATTGGTCGATTATGACTCAAGTGACTTTTCTTCACAACTTGATTCTATTTGGGTAGAAAACTTGATAGATTTGTTGACCGAAAATAAACGTTTCATCTTTGATGAGGCTAAATATCAAGCAGAGAAAGCTGTAGTTGCTAAGTATACGAATGAACCTAGAGACCAACATGTGATTATTAATGATGTTCGCACCGTGCTAAAAGTCATGTCTCTAGGGATTCTTCTAGCAGCCAAAGGAATTAATAGCGAAGTAAAGCGGAAGATACGCCATCTCTATTTTTACTACGTCTATTATGTCAACAATGACGTTGATGAGCTAGTATCAGTAGTTGAGCAGATCGGAAAAGCTGAAAAATATTCTGCTGATATTTTGGCGATTTTTACTGATAATCTGCGGGCAACACAAAAAAATTACCGGACAGCAGTAAAAACTGTTGAGAAAAAGAACTTAACTAGAGAAGTAGCACAGAGCTCCTTAGGATTGCCAGATGAGTATTATGGTGACTTTTTACAAAACTGGCACAGCGAATACGATTTTTAG
>SRR1919932_01826 major facilitator superfamily transporter
ATGAAATTAAATGAAAGAGAGCTAGCTAATACCGTCAAGCTTGTAACAAGCAATAGTATTTCCAAGCTTGGAGACATCTTGTTCGATTATGTTAATTCTGTCTGGCTATCGAAGCTGGGGAACGGCAGTTTTTGGATGGCAGTGTATCAGAGCAGTGAAACGATCGTCAGTGTTTTCGTCAACTTTATAGGCGGAATCTTGTCTGATACGAAGCAGCGGAAGAGCATTATCTGGATTTGCGATATTATTGCCGGTCTCTTGTGTATTGCGCTAGCAGTGTTTGTTCCTTCTATTTGGTTGTTATACGCAATTATTGCGGTCAATATTGCTTTATCGGTTCTGTCTTCGATCAGAGATCCAGCCTATAAGGCGGTCTTTGGTGAAATTGTCCGCAAAGAACAGATTGGCCGGGTCAATTCTTTGCTTGAAAGCTGCAAGCAAACTATCAAGGTTGCTGGCCCAGTGCTTGCCATGGTGATCGCTAAATTTTTTGGCAGTAAGATGGCTTTGCTGCTGGACGGACTTACTTTTATTATTTCTGGTTTGTTGATCAGACAGCTGGATATTTTGTTTGAAACAGAGCCGCCGGTAGCTAAGCAAAGCAATTTTAGCAAGATCAAGGATGCATTTAAGTATCTGCTGGCCGAAAAAAATATTTTGATCGTAATTGTTTTTGCCAGCGTAATCAACTTTATTTTGGCAGGTTACGAATTGATTCTTCCTTTTGCCAGTTTTGCTTTTAGCAAGAATGCTTATGCTTTCTTTTTAACGGCTGAATCAGTTGGTGGCTTGCTGGGAGCAGTGGCTTCAAATTTGATTCGGAAGGAATTATCCAGCAAGTATCTGTTCTGGATTATTGCTGTGGCTGGACTGCCGCTGGCGGTGATGAGTTTGCTGTATCAAGTTAGTCATTGGCTTTTTGGGCCGATAATCTGTATTACCCTGTTTAATTTCTGCGTTTCGGTTTTTAACATTCAGTTTATGACTTACATTCAGACTAACGCGGATATGACTTACATTGGCCGGGTATTCAGTATTGTCTTTACGGCGGCAATCATTTTCGTGCCGCTCGGTTCCTTTTTCTTCCAATTTGTCATGGACGTAAAGGACAGCGTGGATTATTTGTGGCTGGGGGGATTGCTGACGTTTGTAGCAGGCCTTGCCAGTGTAATTTACTCGCTGAATCAGCGGCGGGCAGAATAG
>SRR1919932_01827 hypothetical protein
ATGACCGACTACAACAATGAATACGACAACGACTACCTGGAAGATCTGGAGATTGACCCCAGTGAAATCCTGGACTACAGCATCTCTGAAAAACTTGCTGGCTTATGCGGGGAGGAAAAAGCTGCCTTCTGGCGCTCCTTCTACCAGCAGGCCCGGCAGCTGCACCGCCTCTTTATCACTAGTACTGACCTCCGGGAAAACTTTGACGTCGATGTCATCTATAACCGCCGCAACCAAGACGCGGTCTACCAAGCCATCCCTGCTGGCTGTAAAAAAGAGGAAAGCTGCCTGCTTCTGCAAGGGGTGATCGATGACTACACTTTCTCAGAAGACGACACCCTGGAAAGCCGCCAGTCCCTCTGTATCCCCGATAACGAATCTACCTTCGTCTACGAGCTGAACACTGACGACGGCCTAATCAACCTCTTCGCCTTGACCTACCAGCAGAATAGCCACGCCCTGGATGCCCTCGGCTTTAACTTGAAGCACCGCCAGCAGATTCACCATGCCGGTGAACTTGATTACTAA
>SRR1919932_01828 alpha-acetolactate decarboxylase
ATGCGTAAGGATCCAAAACTTTTCCAGCACGGCACCCTAGCCATGCTGGTCGCTGGCCTCTTTGACGGGACCATGTCGATTGAAGAGTTATTGAAACATGGCGACAGCGGGATCGGCACCTGCAGCGGCCTGGACGGTGAGATGGTCATCCTTGACGGAATGGCCTACACCATCCGCCGGGACGGGACCGTCGAAGCCTTATCCGGTGACGTCAAAACGCCCTTTGCCTGCGTCCACTTTGACCCAAAAAGTCCTGGCCAAAAGGTAAGCGGCTTCTCTTTGCCGGAACTTGAAGCCTATCTGAAAGGGCAGGGGATGGGGAATATCTTCTACGCCGTCAAACTCACCGGCCGCTTTGCCAAAATGAAGACCAGAACCGTCTTCAAGCAAGAAAAGCCATACCCGGGCTTAAGTGAAGTCGCTGACCAGCAGGCTGTCTTTGAAGGAGAAAATACGACCGGTACCTTGATCGGTTACTATGCTCCTGACCTCTACCAAGGCATCGCTTCCAGCGGTTTCCACCTCCACTATTTAAGTGCTGACCATGCCTTGGGCGGACATGTCTTAGATTTTCAACTGGCTGAAGCTGACCTTAGTCTCACGCCTTTTAGTGACTTTGACATCCACCTGCCAACTAGCAACGCTGACTTCCTGCAGGCTAACTTTGACCTCGCCAGCCTCAATGACCAGATCCAGCAGGCTGAACACTAA
>SRR1919932_01829 hypothetical protein
ATGAAGAAAAAGCTCCAAGCCCTGGCCGCCAGAGTCAAAGTTGAACTCCCGGCCTTGTTTCTCGCCCTTAAAGACCGGCGGACCTCCTGGCTGGCCAAGCTCCTGGCTTTTTTAACCGTGGCCTATGCCTTGTCCCCGGTCGACTTGATCCCTGTCCCGGTAATTGGTTATTTAGACGATCTTTTAATCCTGCCTCTTCTGGCTGCTTTGACCATCAAGCTGATTCCCGCAGACGTCTGGCAGGACTGCCTGGAGAAAAGCCAGGGGATGTGGGAGAGCGGGAAACCCAAAAAATGGTACTATGCCTTGCCAATTATCATATTTTGGCTCCTAATCCTCTTCTGGATCGGGAAAATGGTCTATCAAGGGATGCATAACTGA
>SRR1919932_01830 phage primase
ATGAAGACATTAAACGACCTCAAACAAGAACCCCTCTGGGCTGTGGCTAAGGTTGTACCACCCAGAAACGAGGGACAGCACCCGGGCAAGATCACGGTAGACCCCCAGCTTTTACTCAATGAGGGCAAAATGCGGAATTTAAAGAGCACTGAGGCCACAGGTTGGACGGACTACCAGACCGCCTCAAAAGCCCTCACAGCCGCTAACAATGCCTTACAAGAGGGCAAGATTACAGGCGTTATTAAATTCACCTTCAGTTTACGGATCACGCCACCCCTTGTTTTTATCGATGTTGACGATATCCCAGATCCCGAGGCCTCAGCCCAGTTTAAGGATCTGACCAAGCTTACAAAGGGCGGCTATTGCGAGGTATCTCAGAGCGGCAACGGATTGCATTATTTCGTTGAGGGCAAGCTTGATAAGGCACACAAGGGCAAGACGTACGAAATGTACACAGGCGGCCGCTATGTTGCTTTTACGGGCAATCAGGTATCAAATAGCGACAGCATCCCGGCACTGACAGAGAGCGAGATTAAAGCGATCGTGTCATACTGTGGCTTTAAATGGACGGGCAAAGAGCAAGCCAAAGAGCCTTTATTGGTTACCACCCCGCAACCGACCGGGAATGGCCGCCACTGGGGAGCAGATAACGGGCTGACAGCTGAACAGGTACTTTCTAATGCAATCAATAACCCCGAGCTAAAAGCCGTTGCTAGCGGCGATTACAGCGCCTATAACGGGGATCACAGCTCAGCGGTGCAAGCCCTTGTTAATAGCCTTGCCTTTTACGCTAACGGGGATGCGGCAAAGACTGACCAAGCATACAGATCAACCCCCAGCTTTACGGATGACACAAAGTGGGATGCATCCCGGGGCGACACAACGTGGGGTGCTCAAACCATTGCTAAGGCGATCAATTACGTTCAGACCAAGCATCCCGATCACGGCTATTTCCCAGCCCGCCAAAATTCCGGCATGAGGGTTGTTGAACCGGGCGAAAGAGCCACAGCCGAAACGCTTAAAATCAAGATTGACGGGGTGGAAAGAGAATTTCCGTTTAACGGTTATTTCTATAACAGAGATTACGAAATGACCGAGGTTGGGTTTGCTAACCGTTTTGCTGATTGGTACGCTAAGGGAAAATTAGTTTATCATCCCGGCTTAAAGGCGTGGCTTATGTACAACCCAGAAACGGGGTCATGGATGCCTAACGAGGATGACAGACTGGGCACGACCTTTAACCAAACCCCAGAAAAGCTCATTGATAATTTGCGGGTAAATCTCAAGAAAGAAAAACGCCTGTGGCTTACAGTCGGTCGTGATCCCCACAAACCGGATAAACAGTCATTCGGGGAGAAAGCCTATAACAAGGGTTACGAGCGAATCAGCTCAGCGGCTGGGCAAAAGGCAACCCTTGAATTAGCTCAGAGCCGTTTAACCGTGCGTGCATTTAACGACTGTAAGACCGAGCTTAACACCCGGACAGGTTGGATTGACCTCAAAACGGGCGCTATTAGCCCTCACAGCCCGGCTAAGCTGTTTGATAAGGCAACGGATGCTGGTTTGCCTAATAAAGCCACAGAGGGGGACGGTGGCAAGCTCTGGGATCGTTTTTTAAAAGAGACCTTTTGCGGGGATCTTGAATTGATCGATTACGTTCAGGCATGCATCGGCTATAGCGTTACGGGCAAAATCAATGAAGAGGTTATGTTTATCTGTGAGGGCAGTGGGGGCAACGGCAAGAGTATTTTTCTTGAGTGCATAAACGAGGTGCTGGGCGATTACAGCTCTGTTATCCCAATCGAAACATTGATAGATAACAACAAGGCACAGCGGGACGGCTCAGCACCAAGTCCAGACCTTGCAAGCCTTAAGGGCAAGCGGTTTGTCATGACAACCGAGCCCAAAAAACAGGTTACAATCGATGACGGGATAGTTAAGACGGTGACAGGTGGCACTAAGCTGAATGTTAGAATGCTACATCAAAACCCGATTGTATTTTTACCTCAGTTTAAAATTTGGTGGCAATCTAATGGCTTGCCCCGGATTGCTATTAAGGAACACTCTATGTTACGGCGCTTGATCGTTATTCCGTTTAAAAACGAGGTACGAGGGGATGCGGTAGATATCAACCTCAAAAGCAAGTTGATGAAAGAGAAAGAATTTATCTTGAAATGGTGCATTGAGGGCGTGGCCAAATGGCAAGCACGGGACGGAAAAGCCCTTTACCACCCTAAGTATCAACCAGCGGCCGTTGAAGAGGCCACAGCGGGGCTGTGGAATTCCGCTCACGTTCCGGTTGACAGCATCAAGCAATGGCTTGAAAACGGGAACTATGAAGAGGGGCATTCATCCACCCCACCAAAGGTTAAAGAGGTTTACGAGGACTATTTAGCCTATTGTAAAGAGCATGAATTGAAAGTACCGAGTGCATACACCAAGCAAGGATTTAATAAGGAATTGGCACGGCGGGGACATCACAAGCGCCCGGGAACGGGTAATTCCTATGTTTGGATCAGTTTAAAAAAGCGTGGTTAA
>SRR1919932_01831 hypothetical protein
TTGAGTACAAGAAACAAAGACATTAGGGATGCAATTAAAACGGCCGGATTGTATCAGTATCAAGTAGCGGACACGCTGGGGATCGATGAAACGAAACTCAGCAAGATGTTGCGGTATGACCTGTCAAAGACAGACCGGGAATCTATCTTAAACGCTGTGGCAATGACCAAGATTAACCAGCAAGCGGAAAGAGAGGCCGAATAA
>SRR1919932_01832 cytochrome C5
ATGGCAAGAATGTCGCGCAGACAGTACCAAGAAAGACAAGAACAAACCGCGCAAAAGCAGACGCGGCAGACAAACCCTAATTCCGTTCCCCGCCTGAACACTGACGGGGCTTCAAGAAGCAAGCAGAAGGTCCGGCTCAACTTCTGGCAGATCTTCGCCGACCGCCCTTACGTCACGGTCATCATGATCAGCCTGGCCCTCTTCTGCATCCTGGCCAAGTGGTGGATCGGCCTGGCCATCATCATCATCTTGACCATCGCCGGTATCTTCGTGATTGGCCGCTCTCACCACCCTAACCGGGTCCTCAGTCTGGAATTCAAGCTCAAGGCCTCCCGCAAGCTGAGTATGATCAAGGCCCTGCAGCTTTTGGGTTCAACCATCATGTTCCTTGCCGCCTACATGCGGCAGATCGTCAGCGTTGACTTCTCCAGCGCCGGGGCGACTGACAGCCTAACAGTCATCCAGAACATGCTCTCCAATCAAGGGACTTTCGGCCAGCAAGGTTCCTATTTCTTGAACCTCTTCAACCAGCTGACCGGGGGATCGCTTTGGGGGACCTACCGCTACGCTACCAACAGCTCGCAGATGATGAACTCCACTGCCGGCACCATGATCATCCTCTGGATCTTCCTCTTGATGATCGCCCCGGCCTTCTGCGTTTTGTCCCAGTTCTTCAGAGAGCCTTACTCCCGGCACGTGATGACGGTGGCTTCCTTGATTTCCACCATCTCCTTTGCCTTGACGCCAACTTTGATGAACCGCTGGGTCATCTCATACGCCGTAGAAAACCAGATGAGCCAGGCAGCAGCGGAAAACGCCGTCCAAGTCGGCGGCATGGTCTACCCGGCCATCATCTCCGCCGTCTTCGTCTTTATCCTGGCTATCTACCGGGAAATCAAGAAAGATGAATGTTGA
>SRR1919932_01833 hypothetical protein
ATGGCAGCAGTTGCGGTTGCTGACCAGGAAAGTGCAGTCAATGAAGCCCAAAAGGCCAATGAAGCTGCCCAAACTGATTTGTCCGCGGCGGAAGCTGATTTGGCGGAAAAGAAGGAAGCGTTGGCCACTGCTACGGCAAAAGCGGCCGCAGCTCTGCACGCTTTAAACCTGGCAAAGGCCCGCTTGGCTGCCTTGGAAGCAACACAGCCGACGGACCGGGCCCAACGACTCCAACTGAACCGACTCAGCCAAGTACAGAACCGTCAACGGATCCAACGACAGAACCGACTACCGAGCCGTCCGAAGAACTTTCTACAGAACCAACCGCTGAGGAAAATACTGAAGAACCAGCTGATACGGAAGAAGATACTGACGGCGGTGACGTTGTGA
>SRR1919932_01834 transposase
ATGTCGGACATCCAGATCCAGGAAATGGAAGTCATGCCTGATCACGTTCATATGCTCATCTCGTTTTCGCCAAAGCAGAGGCCTGTAGACATAGTTAAGGGGCTGAAGGGCTGGACAGCTCGGAAATGGTTTGAGCTGTACCCGGAAACTAAGCAGATGCTATGGGGTGGCCATCTCTGGTCGCCAAGCTATTTTATGAGCACCTTGGGTGACATGAGCAAAGAAGTCGTGAAAAATTACATTGCATCTCAGTACACGGCAGCCATGAAAAAACAGCAGAATGGCAAGTATGGCGAGTTGGAAAGAAAGAGAAGAAAGAGAAACTAA
>SRR1919932_01835 asparagine synthase
ATGTGCGGATTTTTAGCGATCGACTCCAAAGAATTTGACTTGAAGACCTTTGACGAAGCCCTGGCCAAATGCCAGGATCGGGGACCGGACATGACCAGGGTCTTTGACGAGCGGGGAGTTACTTTTGGCTTCAACCGCTTGGCCATCATGGACTTGACGGACAGCGGGATGCAGCCCTTTGAAACCCTGGACTGCACCCTGGTCTGCAACGGGGAAATCTACAACTACCCGGAACTGAAAAAGAACCTGGAAACCGACTACGAATTTACTTCCAGCAGTGACTGTGAAGTTCTGATCCCCCTTTACCGCAAATACGGGATTGAGACGATGGTTAAGATGCTGGATGGGGAATTTTCCTTTGTCCTCTATGATCACCTCTCAAAGACGATTTACGCGGCTAGAGACATCATCGGTATCCGGCCAATGTTCTACGGCTTTACTAAAAAAGACGGCAAGATTGCTTTTGCCTCAACTGGCAAGAACCTGCTTGACCTCTGCCGCGAAATCCACCCCTTCCTGCCTGGCCACTACTATGACGGGGAAAAGATCGTGGCCTACCATGAACCAGACCTCACCCCCAAGATGAGTACTGACGATTTTGAGACTGCGACTCACAAGATTCATGACCTTCTGGTTGAATCAGTTGACCAGCGCCTGGCCTCAGACGCCCCGGTCGGCTACCTCCTTTCAGGCGGCCTTGACTCTTCCCTGGTCTGCTCGATCGCCGCCCGCCTGCAGCCAGATACGAAGATCAGAACTTTTGCCATTGGGATGGACCAAAACCCGATCGACCTTAAATATGCCCGGGAAGTGGCTGACTACCTGGGAACTGACCACACCGAGTTCATCATGACCAGAGAAGACGTGTTGGGTGTTTTAAGAGAAGTCATCTATACTTTGGAAACCTGGGACATCACGACTATCCGGGCTTCAATCGGGATGTACATTCTCTGCAAGAAGATCCATGAAACAACTGACTTGAAGGTCATCTTGACTGGTGAATGCTCTGATGAGCTATTTGGCTACAAATACACCGACTTCGCTCCAAGCCCGGAAGAATTCCAAAAAGAAGCAGCCAAGCGGCTCAGAGAGCTCTACATGTACGACGTCTTGCGGGCAGACCGCTGCATTTCCGCCAACTCTTTGGAAGGCAGAGTGCCTTTCGCTGACCGGGAATTCGTCGACTACGTCATGAGCGTGGATCCGGACTTGAAGATGAACCACTACCACAAGGGCAAGTACTTGCTCCGGAAGGCCTTTGAAGAAGGCGACTGGCTGCCCCGCGACATCCTTATGCGGGAAAAAGCAGCCTTCAGCGACGCCGTGGGCCACTCCATGGTTGATGACCTTAAGGAATACGCTGAAAGCAAGTACAGCGATGAAGACCTGGCTAAAGCAGGCGAAAAGTACCCATACCGGACGCCATTTACCAAGGAATCACTTCTTTACCGGGATATTTTTGAAGAATTCTACCCTGGCAAGGCTGACTGGATCAAGGACTACTGGATGCCAAACAGAAGCTGGAAGAGCCTGGAAAGCGTCACCGACCCAAGTGCCCGGGTATTGAGCAACTACGGGGCTAGCGGTGAATAA
>SRR1919932_01836 rRNA methyltransferase
ATGGACAGAATCGACAGAGAAAACAATCTGATCAGAATTAACGCTTTCGATGATCCCAGACTAAAGCTGTTTACTGATTACAATGAAGCTCAGCTCTTTCATTACTATGAGCCAGAAGCCGGTATTTTCATCGCTGAAAGTCCGAAAGTAATCGAGCGGGCAATTAGGGCCGGCTATGAGCCAATCGCCATGCTGGTGGAGGAAAAGGCCTTAGAACGTGATTTAGCGGACTTTGACCGGGAGCTGGCTGCCAACCACGATCACTTGCTTGATTTTCCGATCTTTGTCGCTCAGTCTGACCTTTTGCGCCAGCTGCCAGGCTATAATCTGCTTCGGGGCGCCATTTGTGCCTTTCGAAGAAAAAAGCGGCCAAGTCTGCGTGAATTTGCGGCTGCCTTGCCCAAGCATGCCAGAGTCGGGGTCTTAGAGAGCGTCGTCAATCCAACCAATGTTGGCGCTATTTTCCGCTCAGCCGCGGCCTTAGGCATGGACGGGGTCTTGATTACAACCGACTCCAGTGATCCCTTATACCGGAGAAGCGGCCGGGTCAGCATGGGGACGGTTTTCCAGGTGCCTTGGACTTATCTGGATCAAAAACTTTGGCGGGAAAAAGGCGTGGCCAGCCTGCAGGAATTGGGCTTTAAGACCGCGGCCATGGCTTTAAGGGACAACACGGTTGACATCGACGACCCGGTCTTAAAAGAAGCAGACCGTCTGGCTGTCATTTTAGGTTCTGAAGGACCAGGCCTGTTGCCGCAAACGATCGCGGAGAGCGACTATACGATCAAGATACCGATGGCTGAAGGAGTGGACTCCTTGAATGTTGCCGCCGCTAGCGCTTTAGCCTTTTGGGAAGTCAAAAAAGGACTGGATTAA
>SRR1919932_01837 phosphohydrolase
ATGGAACGGAAACTGATCGCGGATTTTGTCAAAGAAAATCTGCCTGAAGAAAGAACGGGGCATGACTATTACCACGGCAAGCGGGTGGCAGTCTTGGCTGAAAGAATGCTGCTGGCGGATCACCCGGAGGCTGGGCAAAAGAGCCGGGATATTGCTTATACGGCGGGCTTTGTCCACGACACGATCGATGAGAAGGTTTGCCCAAACCCAAGTGAAGTTTTAGCCAAATTGCGGGAAGTCTTTACGGCTGCCGGCTTAAGCGCAAGCGACCAGGACAATGTCTTTTTCGCGATCGAGCACATGTCTTTTTCCAAAAATATTGACCGCCACTACCGGCTCTCTTTAGAAGGAGAGTACGTCCAGGATGCCGACCGGCTGGAGTCTTTGGGGGCCATGGGGATTGCCCGGGCCTTCGTTTACAGCGGCAAGCACGATGACAAGATCTACGATCCGGAAATCCCGCCGATGGAACTGGTCAGCCATGATCAATACCGGAATCATGAAGAAACTACGATCAATCATTTTTATGAAAAGCTTTTTAAGCTGGAAGGGCTGATGAACAGCCGGGCGGCCCAAAAAGAAGCCCGCCGGCGGACAGAATACATGCGGGATTTTGTCCGGGAATTTAGGCATGAATGGGATTTAGATTAA
>SRR1919932_01838 hypothetical protein
ATGAAAGTTTCCAAATTTTTAGGAGCTGGAGCAGCGGTAACATTATCTGCTTTAATGCTGGCGGCCTGCGGCTCAAGTTCCTCATCTTCCAAGTCGACCAGAAAGGCCTTGAACTGGACGGTCGACGGCTTCCCAGTATTCTTACCTTTTCTCCGGGATTAA
>SRR1919932_01839 oligopeptide ABC transporter substrate-binding protein
TTGGGGATCAAGGCTGTCGGCAAGTACAAGCTGGTTATCACTTTGGAACGGCGGATTCCTTACTTTGACAAGCTGATGGGCTTTGCGGTTTTCTTCCCGCAGTCTGAAAAGGCGGTCAAGAAGTACGGCTCTAAATACGGTACGGCTTCCAAGTACATGATCTACAACGGTCCATTCGTGCAAAAGGGCTGGACCGGGTCCAATCTTTCCTGGAAGATGGTTAAGAACAAGTACTACTGGGACAAGAAGAGCGTCAAGCTGAACACGATCACTTGGAGTGTGCAAAAGACGCCATCAACTTTTTACAACCTTTACCAAAGCGGCAAGCTCGACTACACCAGCCTGGACTCCTCACAAACCAAGCAGCTGAAGTCAACCAAGGGCTACACCACCTTGAACCAGGGGGCAACCTTCTACATGCAGTTGAACATTGCCAAGAACAAGTACCTGGCCAACACCAACATCCGGAAAGCCATCTCTTTGGCCGTCAAACGGAAGGGGCTGGTTTCATTACTTGGTGGCAACAACGTGGCAGCCAATACTCTGACCCCGCCAGGCTTAACCGATGTCAACGGCAAGGACTACACCAATCTGCTTTCATCATCAGCTGAAAGCCTCTACCCGTCCTCAACCAAGAAGAGCGAGGCGGTTAAGTACCTCAACAAGGGCTTAAAGCAATTGGGCGTAAGCAAGTTCAGCTTCAAGATCCTGGCTGACGACACTGACTCCGGCAAGAAGACAGCGGAACTGCTGCAGTCCAACATCGAAGCCACCTTCAGCAGCAAGGTCAGCGTTACCGTCCAGAACCTGCCGTTCAAGACCCGTCTTTCCCGGTCAACTTCTGGCAACTTTGACCTTGTCATCTCCGGCTGGAGCGCCGACTTTGCCGACCCGATCTCCTTCCTGGACCTGTTCACTTCCACCAATTCTGAAAACAACGGGAAGTGGAAGAACGCAACTTATGACAAGCTGATCGCTGACTCCAAGACCACGTCTTCAACCAGCAAGCGCTGGAGCGACCTGACTAAGGCAGAAAACATCCTGCTTAAGGATGCCGGTGTAGCTCCGCTTTACTACAGCACGACCGCGTCTTTAATCCGGCCGAGCGTCAAGGGCGTCATCCAGAACCGGGGGACTTAG
>SRR1919932_01840 hypothetical protein
GTGGCCTTGGACATGTCCATGGTTGGGATTTCAGAAGCAACCGTCCAGTTCAAAGTCTTCTTTGAAGAAGAGGATTCCTTACTGCTGTTGCTGCCACAGGCAGCCAAGAGAGCAGCTGATGCCAGCACAGTTGCACCAACGCTCAAAATCTTAGATAACTTCATCTTTTTTCTCCTTATAACACATATTTGTTTGGGCTGA
>SRR1919932_01841 GNAT family acetyltransferase
GTGAAAAAACGTCAGAAAAACGACTTCAGCAAAGAAATTCAAGTCAAACATTTTAACGAGCTCTCTGCCCGGGAGGTCTTCTGCCTGTCCAGAATCCGCGATGACGTTTTCGTTGCCGAGCAGGAAATCACGGTTCCTGAACTGGACGACCAGGACCTTTCTGCCTACCATGTCTTTCTTTTAAATGAAGACCAAAGCAATGCCCTGGCGGCCGCCCGCTTCTTCAGCGAAGAAGGCCGTTTCTACATCGGCCGGGTCGCCGTGCAAAAGACTGCCCGCCACCGCGGGATTGCCAGCCAGCTGTTAGGCGCCATTGAAAACTACGTTTTGGCAAATAGCTTAACCAAAGAACTTTATCTGCACGCCCAAGCCAATGCCCGGGACTTCTACCTGGCCAATGGCTACCACGATGTCGGCCCCGTCTTCATGGAAGCCGGCATCCCCCACCAAATGATGGCTAAAAGCCTCGCCTAA
>SRR1919932_01842 Fe-S cluster assembly ATPase SufC
ATGTCAGAGTTAGCAATTACTGATTTGCACGTAGAAATTGCCGGCAAGGAGATTCTCAAAGGGGTTAACTTGCAGCTGAAAACCGGGGAGATCCATGCCATTATGGGACCAAATGGGACGGGGAAGTCGACCCTGTCAGAAGCCATTATGGGCAACCCGGCATATAAGGTAACCCAGTGGTCAGTCAAGCTGGATGGGCAAGAGCTGCTGGATTTGCCAGTTGACGACCGGGCCCGGGCTGGCCATGCAGTACCCGGCTGA
>SRR1919932_01843 Fe-S cluster assembly ATPase SufC
TTGACGACCGGGCCCGGGCTGGCCATGCAGTACCCGGCTGAAATCCCTGGCGTCAGCAACGCTGAATTCATCCGGCGGGCTTTGAACGCCCGCCGGCCGGAAGGCGATCGAGTCCCGGCCCGGGAATTCCTCCAGGAACTGTATGAAAAGATGGACTTTTTGGCCATGAAGGCCGAAATGGCCCAGCGCTACTTGAACCAGGGCTTTTCCGGCGGGAAAAAGAAGCGTAACGAGATCTTGCAGATGCTGATGATCAAGCCCAAGTTCGCGATTTTAGACGAAATCGACTCCGGCCTAGACATCGATGCTTTGAAGGTGGCCTCTAAAGGGGTTAATGACCTGCGGGGGCCAGACTTCGGCGCCTTGATGATCACCCACTACCAGCGCCTTTTGGACTACGTGGTGCCTGACAAAGTCCACGTTATGATGGGCGGCCGGGTCGCCGGGTGGCGGGCCGGACCTGGCCCAGCGCCTGGAAAAGGAAGGCTACACCAAGCTGCGCGACGAGCTGGGCCTGGACATTGA
>SRR1919932_01844 Fe-S cluster assembly protein SufD
ATGACCGCACAAGCATGGTTTGCAAAAATGCAGGCAGAAGCCGCTGCCGCTTTGCCGGACTTGCCTAGGCCCGACTTTGCCAAGGTGGACTACCGGGCCTGGCCCCTGTCTTTGACCCGGCCCTTGCAAAAGAGGGCAGCTTTTTCCATTGAAGCTGGGGCAGAATTTTGGGCAAAAACACGACCGCCTACTTAA
>SRR1919932_01845 hypothetical protein
ATGATCAAAACCCGTCTTATCAAGCAGCTGGACTCTTCCAGCCGCTACCTCAGCCAATTCGCCTATGCCTTTCTGGCTCCCTTGACCCTGTTTGCCGTCTTGGTCAAAATCGACGCCCCGGCCAGCATCTTCCTTTTATGTGCCGTGCCCGTGATCCCCATCGTCATCATGGTCGTCATGCTGGTCGCCGATAGTAATGGCGATCACGTTCATCTCGGCTCTGGCTCCCTGCCCGTAAAGGTCAGAGTCATAGTCAGCCAGAATCTTCCCGTCGCTCAGCATCCCCATGGCCCAGTCCAACTTGGCGTCCCGGCCGACTCAGGCTACCCGCTTTAA
>SRR1919932_01846 6-phospho-beta-glucosidase
ATGGCTCATTTTAGAAAAGACTTTTTGTGGGGCGGCGCCGTAGCTGCTAACCAAGTTGAAGGTGGATACAACGAAGGCGGCAAGGGCTTGTCAGTGACTGACATTACCACGGCCGGCTCTTTGGAAAGTCCGCGTTACCTGACTTACACTTTGGATGGCAAGGATGGCAAAGTAGCTGGGATGTTCGCCAGCTCCTTGCCAAAGGGCGCTAAGGGGAAGATTTTTGACAATGAATACTACCCGAACCATGTAGCGATCGATTTTTACCATCACTACAAGGAAGACATCAAGATGTTCGCGGACATGGGCTTTAAGGTATTCAGAACTTCCATTGCCTGGACGCGGATTTTCCCAACCGGTGAAGAAGACAAGCCAAACCAGGAAGGGCTGGACTTCTACCGCAGAGTCTTTGAAGAACTGAAGAAGAACGGGATTGAACCATTAGTTACGATTTCCCACTATGAAGACCCATTGGCTTTAGGCGAAAAGTACAACGACTGGCAAGACCGCAAGATGATTGACCTCTACGTTAAGTACGCGACGACCTTGTTCAAGGAATACAAGGACCTGGTTAAATACTGGCTGACCTTCAACGAAATCAACTCATCCTTGATGTTCTTGAAGCTGGTGGGTGATGGCAAGGCATCTGATGCAGATTACCAAAAGGCTTACCAAAAGCTGCACCACCAATTCGTTGCTTCTGCTAAGGCAGTTGTTGCAGGCCACAAGATCAACCCAGACTTCATGATCGGGAACATGATTGCCGGTTCTGTTTACTACCCAGGCACCCCTGATCCAAAGGATGCTTTGGCTGCCCGCTATGAAGAAGAATTGAGCCAGCTTTACTGTGCTGACGCGCAAGCTAAGGGTGAGTATCCGAGTTTTGCCAAGCGCTTATGGGATGAACACAATGTTCATTTGAAGATTGAAGATGGCGACCTTGAAGTCATGAAGGAAGGTAAAGTTGACATGTACACCTTCTCATACTACATGTCAAACATGGTTACCACCCATGATGTTGGCGAAAAGGCTAAGGGCAACTTCGCTGCTGGCGCTAAGAACCCATATCTTGAATACTCTGAATGGGGCTGGTCAACTGACCCAGACGGCTTGCAACTGTACTTGGAAAAGATGTATGACCGTTATGGTATCCCAATGATGGTGGTGGAAAATGGTCTTGGTGCCGTTGATAAGCTGGAAGATGGTACTGTTCATGACGATTACCGGATTGACTACTTGAGAAAGCACATCAAGGCGATGGACAAGGCAGTTGAACATGGGGTTGACCTGCTTGCCTACACGACTTGGGGCTGCATTGACTGCGTTTCTGCCGGAACTGGTCAAATGTCCAAGCGGTATGGCTTCATCTACGTTGACCGTGATGACAAGGGCGAAGGTACGCTTAAGCGCCTGCCTAAGGATTCATACTACTGGTACCAAAAGGTTATCGCTTCAAACGGCGATGAATTATAA
>SRR1919932_01847 AraC family transcriptional regulator
ATGCCCATTGCTTACGAAGAGGTCGACAATCTCGTCCGCCTCCCCTTCAAATTTTTCAAAAGATCAAATTACGCTCCTAAAGCCCCCACCCACTGGCATACCGGAATCGAAATTGATTATTTGGTATCTGGGGAAGACTTCAAGGTTGTCATTGCTGGCCAGACCCACCATTACAATTCCGGCGATATCTGGGCTATTGACCGCTCACAGATTCATGCCGCGACGGGGCACAAAGACCGGTCTTATTATGTAATGGGACTGATTATTGACAATAATTTTTTAGAAAAAGAATATCCTTCCAGTAAAAATTGGCGGATCAAGATGGACCATATCAGCCGCGATACAGCCAGCTACCGGCAGTTAAGAAAAAATCTGATTACCATCGCTAAACTCGTCGACCAGCCGATCAGTGACAGTATCCGCTTTTTAATTTTGAGCGAATTTTTTCAAATGATTGCCCTGATCGACAGCGAATATACTGAAAAAACTGCCGTCACAACGCCGCCAAACCAATCTTTGGCTGATACGGTGATCGCCTACATCGCCAACAACTCTTCCACCAATATCACGGCACAAAGCATTGCTGAACATTTTAGAATTTCACAAGTGACTTTAAATAAAGAATTGAGCCAAGTGACTAAACTTCCTTTAGGCAAATACTTAAAACAAGTCCGGCTCATGCACGCCAGATACCTCTTGCTGAGTACAAACTATTCCGTCGCCTACATTGCCAATTACTGCGGCTTTTCTTCAGCCAAAGTTTTAGAACGTAATTTTAAAGCCTGGAAAAAAATGACCCCCAGCCAATATCGCAAAGCTTTTAGCAAATATTTCAATGAATAA
>SRR1919932_01848 protease
ATGCTTTATCAGCAAATCGAGCAAAACAAGCGCAATACCTGGATCGTGCTGGGTGGCTTTACGGCCTTGCTTTTAGCTATTGCTGGCATGTTGTCAGTTTATTTGACCTTCTGGGCCGGCATGATCTTTTTAGCCGCGGGAATCATTTACATGGTCTATATCTACTTTTATTCGACCAGACACTTGATGCGGATCACCCATGCGGTGGAAATCAACCAAGAGAACGTCCCTCAACTTTACGAAATGGTGGAGGAGATGAGCCTGGCCGCTGGCATCCCCATGCCGAAAGTCTACGCCATTCCAAGCAATATCCCCAACGCCTTCGCGACCGGCCGCGACCCGAAGCATGCCAGCCTGGCGGTTACTTCCGGCCTTGTAAAAATCATGAACCATGATGAACTCTTAGGCGTGATCGGCCACGAGATATCTCACATCCGTAACTATGACTTGCGGGTAACGACGATTACCTCAGCTCTATCTAGTGTAGTGTCATACTGA
>SRR1919932_01849 hypothetical protein
ATGACTTATAGTGTTTTTAAGGTTGTGAATTGGTTGCGGGTAAAAAACAACGCCGAGTCGATGATTAAAAGCAACTTTCGGACACGCAAGTCTAATGCCTCAAGAATCAGAAGGACGTATAAGACATATTTTGCGTTTAATTTTTCTTTTCTCACAAGAGACAAACGATACAATCTTAATAAAAACAACAATAGTATCGATAGGAATGTCCAGGCGAAGTTGTTGGAGAAAATAGAGAAGCTCTCTATTGAAGAAATATCGGTTGTCTTGGGGTGA
>SRR1919932_01850 cystathionine beta-lyase
TTGCCAGCCATTGAATTAATCATTGAGCACCGCGCCCGGCCAGAAGAAGACTGGTGCGTGTTTGCCTCAGGCGTCGTGCCGGCAATTTCCGCCATGATCCGGCAGTTCACCAGCCCTGGCGACCAGATTTTGGTCCAGGAACCGGTCTACAACATGTTCTACTCTGTGATTGAAGGCAATGGCCGCCGGGTAATTTCCAGTGACTTGGTATATGAGAATGGCAAGTACTCGGTAAACTGGTCTGATTTGGAAGAAAAATTGGCGACTCCGTCTGTCCGGATGATGGTCTTCTGCAACCCACACAACCCAATCGGCTATGCTTGGAGCGAAGAGGAAGTCAAGCGGATCGCGGAACTTTGCGCCAAGCACCATGTACTCTTGATTTCTGACGAAATTCACGGGGACCTGGTTTTAACGGATGAAGACATTACCCCTGCATTTACGGTAGATTGGGATGCCAAAAACTGGGTAGTTTCTTTGATCTCACCAAGCAAGACCTTCAACTTGGCGGCGTTGCACGCGGCTTGCGCGATTATCCCTAACCCAGATTTGCGCGCCCGGGCTGAGGAGAGCTTTTTCCTGGCCGGCATCGGGGAACCAAACTTGTTGGCCATCCCGGCAGCAATTGCCGCTTATGAAGAAGGCCATGACTGGCTCCGTGAACTCAAGCAAGTGTTGCGGGACAACTTTGCTTATGCCCGGGAATTTTTGGCAAAAGAAGTGCCGGAAGTGAAGGTACTTGACTCAAACGCCAGCTACCTGGCCTGGGTCGACATCAGCGCTCTTGGGATGAACGCGGAGGACTTCTGCAAGTATCTGAGGGAGAAGACGGGCTTGATCATCTCTGCCGGGAACGGCTACCGGGGCAATGGACATGAATTTGTCCGGATTAACCTGGCCTGCCCGAAAGAATTGGTAATTGACGGGATGCAAAGGCTGAAGCAGGGAGTACTTAATCTAAATAACTAA
>SRR1919932_01851 HNH endonuclease
ATGATCAGCCAATTCCGCAAGAAGAAGCGGTCGCTTCACGAAGCAACTGCAAGAAAAGGCAGAAAGCAGCCGAATACGTCATCCAAGCGCAACGAGAAGAACACGAAATATGCCCGTGGCTTGTGGCTGAATGACTACGTTCGTGTGATAGGAAACAATGCCAAAGGCTATGTAAAAGGCTTTAAGTCCAATGGATATTCTGTTTATCTGACAGATGGCTTAGGCAATTACGTACTGAACGATGGCAGAAATTACGTCAACTCAAAGCAGTGCCAGTTGATTACGCATAATAGCAGCTGGCAAAAGGCAGAGCAAATGCTTTCGCTTTACGAATTTAAGTAA
>SRR1919932_01852 LysR family transcriptional regulator
ATGCATCCGGACTTTGATTATCTCTTTTTCGAAGATGATGAACTGGCCCTCTTTGTTGCAAGCAAGTCTCCCCTGGCTAAAAAGCAGCAGGTGAAATTGGCCGACCTGGCTGGAGCCCGTTTTTTGACCTTGGGTGAACGGACTTATTTCGAGAAGAAAATTGTTGCTGCCTGCCAAAAAGCTGGTTATGAACCCAATTTCGTCTACCAGGGTGAACGGATCGAGGCAATTTTAGAAATGGTCCGCCAGCAGCTGGGCATTGCTCTTTTGATGAAAAAATCTGTTTCTGATAGCCAGCTAGCTGGTTTAAAGCGACTGGACTTGGCAGAGAGCTACTAA
>SRR1919932_01853 hypothetical protein
ATGGGCCGGCATCCGGAGATCGACCTGCTTTTTCATGAAGGCGAGTCCCAGGACCTGGCCCAAAAGCTCCGCCGGCCCCAGGACCTGCTCTTCCTGCGCAAGTAG
>SRR1919932_01854 LysR family transcriptional regulator
ATGAAGCTGTTTGAAAGAAGCAGCCGCCGAGTTCGCCTGACCCGGGAGGGGGAGTACCTGCTCCCTTATGCCCAGCGTCTCTTAGCAGACAGCCGGCAGTTTGACCAGGCAGCCGCGGCCTGCCGGCAAGAGCAGACCAAGACCCTGGACCTGTACGCGATCCCCACCATGACCAATTACGATTTTTTCAAGGCCGTAAACCGCCTTTATGGGCCGGCATCCGGAGATCGACCTGCTTTTTCATGA
>SRR1919932_01855 hypothetical protein
ATGACTGAACATCCAATCGTACCGCTCGAGTTGCCAAAGGGCAAAATCAGACCTAAGAATAGGCCCGGAAAGAACTGGCTTGTTCTTAACTTGAAGTCCAATGGGGTTGAGCTGTCATTTTACAGTGATGCCACTAACGAGCTTATGATCGAAGCCGTAGACAGGTTCTTGAGCCATGATTAA
>SRR1919932_01856 poly-gamma-glutamate biosynthesis protein
GTGAAAACTAAATCATTAGGAAAGAATGCATTCTTAAATGGGCTACGAAGCGTTTTAAATATTATATTTCCAATAATCACATTTCCATACGTGTCTAGAGTATTGAGTGTAGGAGAACTTGGAAAGTATAATTGGTCTAATTCTTTTGTATCATACTTCCTGTTGATTGCAGGATTAGGAATTGCGACATATGCAGTCAGAGAAGGCGCTAAGCTTAGGAATGATCGAAATGAAATTAGTGCTTTTGCGAGTCAAATTTTTTCGATTAATATATTATCTACTGTAGTTTCATATATACTGCTATTCTTATTTGTCTTGATTTTTCCGAAGATACAGAGCTATTCCGCATGTATTTATATTTTCGGTATTCAAATTGTTTTTACTACACTAGGTACGGAATGGATATATAGTATTTTTGAAGAATATACATATATAACTATCAGAAGTATAGTGTTTAAAATACTTTCCATTGTTATGTTATTTGTATTTGTGAGAAGACCTGGTGATTATTTAAACTATGCTGGAATAACTGTTTTTTCTGCAGTAGGGTCAAATGTACTGAACTATTTGCATGCTAAGAAATTTTGTACAATTAGGTTCACTTTTAATATAGATTGGCAAGAGCATCTTAAACCAATACTGATAATTTTTGCTTCGTCTGTTGCTACGACAATATATTTAGGTCTAGATACAACGTTATTGGGATTAATAAATAACAACTACGTTGTAGGTATATACTCTGTTTCGACAAAGATGTACAATATTGTTAAGCAACTTATTGCAGCGATACTAACTGTTACAATCCCTAGATTTGCATTGCTTTGGGGGCGTCATAGATATAGAGAGTATCGTAAGTTATTGTTACAGATATCCGACGCTTTGGCCTTGATATCAATTCCCGCTGCTGTCGGAGTTTATATGTTAGCTCCACAGATTGTAATACTATTGTCGAGTACTAAATATATTAGGGCTGTTAGCTCGTTGCGCTTATTATGTCCAGCGTTAATTTTTTCAATTTTTAGCTGGATTTTTACTAGTTGTGTTTTGATACCGGCAAAGCGCGAAAACAAGGTTTTGATCATAACGGTACTAAGTGCTGTAGTTAATTTGGTTTTGAATTTGCTATTAATGCCTTCTTTAAAAGAAAATGCTGCGGCGATAACAACATCATTGTCAGAAGCAATTTCTATGTTTTTAGGAATGTATTATAGCAGGGATATAATTAAGGGATTGTATAAAATCTATAAAAGCGAATTTTGGAAAGAAATCTTTACATATATCTTAGGTGCGATATCTATAGTGATCAATTGCCTTGCCGGTGATGTATTGTTTGATTCTACAGTAATGATTATTTTATTTGATGTTGTGTTATCCATTGTAGAGTATGTGTTGATACTTCTTGGAGTAAAGAACAAATTTGCGCTAGATGTGCTGGAACGTATATTGTTAAGGTTTAAATAG
>SRR1919932_01857 cyclopropane-fatty-acyl-phospholipid synthase
TTGTTAGAAAAAACATTTTACAAAATGATGCTCAGTAAGTCCTTCCCTTTTCCCGTTAAAGTAACTTATTGGGACGGTAAAAGCGAAGTATATGGTAACGGTACTCCAGAAATTGAAATAGTTTTCAATGAAAAAATTCCAATGGGCGACATTACAAGAAATGCTTCCCTAGCACTTGGTGAAGCATACATGGACAAGAAAATTGAAATCCATGGCAGCATTCAAAAATTAATTGACGGCGTATACGAAAGTGCCGACAGTTTCATGCGTTCATCCAAATTCCGTAAATTCTTGCCTAAAACTAAACATACTGAAAAGCAAAGTGAAGAGGACGTTCAAAGTCACTATGATATTGGTAATGATTTCTACGAACAATGGCTTGACCCAACTTTGACTTATTCATGTGCTTACTTTACGGACGATAATAAAGCTGATCTTGAACAAGCTCAGATCGCCAAGGTACATCACATTTTAAACAAGTTACACCCACAAAAAGGAAAGACTTTACTTGATATTGGTTGTGGCTGGGGTACTTTGATGCTCACTGCAGCTAAAGAATATGGTCTTAAAGTTACCGGTGTTACTTTGAGTGAAGAACAATACAAGTTAGTTCAAAAGAAGATTTATGCCGAAAACTTGCAAGATGTTGCCGAAGTTAAACTTGAAGATTATCGTAAATTAGGTGATCAACAATGGGATTACGTCACTTCAGTTGGTATGTTTGAACACGTTGGTTCTGAAAACTTGGGTGAATACTTCAATGATGTAGCTAAATACTTAAAGAACGATGGTGTAGCCTTAATCCATGGTATTACTCGTCAACAAGGCGGTGCCACTAATGCTTGGATTAACAAATACATCTTCCCAGGTGGTTACATTCCAGGTTTAGTTGAAATTATTTCTAGAATTGAAGAAGCTCACTTGCAAATTAGTGACGTTGAAATGCTCCGTCGTCACTACCAAAGGACTTTGGAAATTTGGGACAAGAACTTTAACAATGCTCGTCCTGAAATTGAAAAGAAGATGGGCGAAAGATTCTGCAGAATGTGGGATATGTACCTTCAAGCATGTGCTGCCAGCTTTGAATCAGGCAACATTGATGTTGTACAATATCTTTTAACTAAGGGTCTATCTGGTAAGAACTTGCCAATGACCCGTGATTACATGCTTAATAATAAATAA
>SRR1919932_01858 endopeptidase o
ATGATTCACAATATGCTTAAAGTATATGAGCAAAGAATCAATGATAATAATTGGTTATCTGAAGATACTAAGAAAAAGGCAATTATTAAATTAAGAGCTTTAGTACTTAAGATTGGTTATCCAGAAAAAATCGAAAAGATTTATGATCTTTTGCAAATTGACCCAGAAAGGAGTCTTTATGAAAATGAAGCTCAAATGGCAACGGTACGCACCAAGTATATGCTCGATAAATTAACTCAGCCAGTAGATCGCTCAGTATGGCTCATGCCAGGAAACTTGAACAATGCTTGTTATGATCCACAAAGAAATGATTTAACTTTCCCAGCTGGTATTTTGCAAGCGCCATTTTATGATATTCATCAATCCCGTGGTGCAAATTACGGTGGTATTGGTGCAACTATTGGTCATGAAGTTTCTCATGCCTTTGATAATAGTGGTGCTAAATTTGATGAACACGGAAATATGAATAACTGGTGGACTGATGAAGACTTCGCTGAATTCAATAAGCGGGTTGGCCAAATGGTTGATATTTTTGATGGCTTGCAATACGGTCCAGCTAAGATTAACGGTAAGCAAGTAGTAGGAGAAAATATTGCTGACTTGGCAGGGCTTGCTTGTGCTGTTCAAGCTGGTAAGAACGACAATGTTGATTTGAAAGACTTGTTTGAAAATTATGCAAGAAGCTGGATGCAAAAGCAACGTCCAGAAGCAATTAAAACTGAAGTGCAAGTTGACGTTCATGCACCACAACCAACTCGTGTAAATATCCCAGTTCAATGTCAAGACGATTTCTACACTGCATTTGATGTTAAGCCTGATGATGGCATGTGGCTTGATCCTGAAGATAGAATTACTATTTGGTAA
>SRR1919932_01859 major facilitator superfamily transporter
ATGAAGAAAACAAACGTGAAAATGGTCACGCTCGCTGTCTTTATTACCACTTTTATGTCCGCGATCGAAGGCACGATTGTGTCGACCGCGATGCCAACCATTATCGCCGATTTGGACGGGCTGGCAATCATGAGCTGGGTGGTGTCTGTCTTTCTGCTGATGACGGCAGTCTCAACGCCGATTTATGGGAAACTGGCTGATAGCGTAGGACGCTGA
>SRR1919932_01860 S-adenosylmethionine synthetase
ATGGAAAAGCACTTATTTACGTCAGAATCAGTTTCAGAAGGACACCCGGACAAGGTCGCTGACCAGATCTCCGATGCCATCCTGGACGCGGTACTCGCCCAGGATCCGCAAGCCCACGTGGCCTGTGAGACTTCTGTAACCACCGGTTTGGTCTTGCTCTTCGGGGAAATCTCGACTACGGCTAATGTTGACTACCAGCAGGTCGCGCGCAAGACGATCCGCGAGATCGGCTACAATGACCCAGACCTGGGCTTTGACGCCGACAACTGCGCCGTTTTAGTAGCGCTGGACAAGCAGTCGCCTGACATCGCCGGCGGGGTTGATGAAGCCCTGGAAGTCCGGGGAGAAGACGACAGCGATGAACTCGACCAGATCGGGGCTGGTGACCAGGGGCTCATGTTTGGTTTCGCCATCAACGAAACGCCGGAACTGATGCCTTTGCCGATTTCCCTGGCCCACCGCTTGATGCGCAAAGTGGCCCAGCTGAGAAAAGAGGAGACCTTCCCCTGGCTGCGGCCAGATGCCAAGGCCCAGGTCACGGTGGAATACGATGACACCGGCAAGCCTAAGCGGGTGGACACGGTCGTTATCTCAACCCAAACCAGCCCTGACGTGACTAATGAAGAGATCCGGGTGGCCATGGTCCACGACGTGATCAAGGAAGTCATTCCAGACAAGTTCTTGGATGACGAGACCAAGTACCTGATTAACCCGTCCGGCCGCTTCGTTATCGGGGGGCCGAAGGGGGACGCCGGTCTGACTGGCCGCAAGCTCATCGTCGATACTTACGGCGGCTATGCCCGCCACGGCGGCGGTGCCTTCAGCGGCAAGGACGCCACCAAGGTCGACCGAAGCGCCTCATACGCTGCCCGCTACGTGGCTAAGAACATTGTCGCCGCTGGCCTGGCTGACCGCTGTGAAGTCCAGCTGGCCTACGCCATCGGGGTAGCCCACCCGGTTTCCATCATGATTGATACTGCCGGGACCGGCAAGGTGAGCGACCAGCTTTTGACTGAAGCTGTCCGGGCCAATTTTGACTTGCGCCCAGCCGGGATCATCAAGATGCTGGACCTGCGCCGGCCAATCTACAAGCAGACGGCTGCATATGGCCACTTTGGCCGCACTGACGTCGACCTGCCTTGGGAAAAGGCCGACAAGGCGGAAGCCCTCCAGGCTTTTGTTAATGGCCGCAAGTAA
>SRR1919932_01865 hypothetical protein
ATGAAGAAATTTTTCGTAAGCGCGGCAGCCGTTTTGGCAATCGGGACGGCTTTCGCGGCTAGCCAGGTAAGACCAGTTGCAGCCAGCAGCCGGCAGGCGGTTTTTACCCTGCCTAAGGGCTATACTAAGGCCAACTTGAAGAAGGCCTACTGGTACTCCAACTTGTCTAAGAGCCAGCAGAAGAAGTGGCTGAAAAACAAGAAGAACGCGGCTTGGCTGAAGAAGTGGCGGAAGATCAACGTTAAGGGGATGCAGGCCAATACTTTTGACCAAAGTTCCTGGTCAGAGTCCAGCAAGGACAACAAGACCATTGTTAAATTGACCAATGGCCACTTGAATACCAGTCAGTCCAAGACTCTGGCGACCTACTCCCTCCGCTTGATCAACCAGGCCCGGGCCAAGCTGGGCCTGAAGAAGTGGAAGTACAGCAAGGGGACCCAGAAGCTGGCCTTGGAAATTTCCAAGGAATACGTGGCAAACAAGAAGACCATCGCCACTGGCCACTATGTGCCAGGGATCGTCCGGGCCACTAACCGGGTCGGCTTGAAATTGCCAAGCAACTACAACTATGTCGAAGACATGGCCGGCTTTAAGGACGGCAGTCAGGTGACCATGACGGCTATGAAGAAGGACATCTACTTTGGCTTGAAGACCATGATGTTTGGCTACCGCTATGCTAACCAGAGCAAGGTCAAGCAGCTGAGCCAGTACACGGAATGGGGGCACGCGGGGGACCTCATGAATACCCAGGGCGGCAAGTATGACGGCGACTGGGACTACTACGGCTTTAACGTTTCCTACACTAACGGCACTTACTCCCTGCACTATATCGGAGTGCCAGCCCACCTTAAGTGGGCCTACGGCGGCGCCTACTGGGGCAGCTTTAAGGCTTAG
>SRR1919932_01866 aggregation promoting factor
ATGAGAGCTTGCGACAAGCAAAGGAGAATTTTTTTGAACATCAAATCTAACGTACTTAAATCAGTATTTGCTGCAGGCTTGGCTTTGACTGGCGTGGCAGCGATCGGCTTAGGCACGAACGGTCAAGCAGACGCGGCAACCATCGGTGACAGCGTAACGGTTGACTACATTGATGGACAATCAATTGCAACTTGGTCAAATTACTACACTGCTACGGTTACCGGTTCCGTTAAGGACGGCAGCTCATGGAAGGTAGTTAAGACTGCCCGCGACGCTTCAGGTGAAAAGTGGTACAAGATCGGCAAGCGCCAATGGATCATGGCCAAGTACACCACTGAAGCATCAACTGCTTCAAACAGCACTTACAACGCGAATACTACCAGCACTAACACTGCTAACAGCACGACCAGCTCAACTGGCACTGGCTACACTACGAGCTACAGCTCATCAGCAAATAACTACGGCTACGGCTCAAACTATAACTACAGCTACAGCGCGAATACTGGCGCAGCCAACACTTCCAGCTACAGCGCAAGCACGACCAGTTCAAGCACTTCTGCTTCAACTTCAACTGCTTCCGCAAGCACTTCCAGCTCAACTTCAACTTCTTCATCATCATCTGAAGAAGCAGCTAAGGCTTGGATCGCAAGCAAGGAAAGCGGCGGCTCATACACTGCCTCAAACGGTAACTACTACGGCAAGTACCAATTGAGCTTGAGCTACTTGAATGGTGACACTTCTGCCGCCAACCAGGAAAAGGTTGCCAACAGCTACGTTCAAAGCCGGTATGGTTCATGGACTGCAGCCAAGGCCTTCTGGCAAGCTAATGGTTGGTACTAA
>SRR1919932_01867 6-phosphogluconate dehydrogenase
ATGCAACAATTTGGTGTGATCGGTTTATCGGTCATGGGCAAGAACTTAGCCCTCAATGTTAGAAATCACGGCTTTTCAGTCTCCGGCTTCTCCATCGACAAGCCGGAAGTCGATGCTTTGGCCAAGTACGAGGATGACAAGCTGAAGCCTTGCTACACTTGGGAAGAATTCGTTGATTCTTTGGAAAAGCCCCGCAAGATTCTGGTGCAGATCATGGCTGGTGACCCGGTTGACCAAACCATTCAGAAGCTGATCCCGCTTTTGGACAAGGGCGACATCATTATTGACGGCGGGAACTCCAACTTCCACGACACCAACCGCCGCTACCATGAATTAAAGAAGCACGGCCTGCACTTCATCGGCATGGGCGTGTCCGGCGGTGAAGAAGGCGCCTTGAACGGCCCGGCCTTGATGCCAGGCGGGGACAAGGAAGCTTATGAAGAAGCAGCGCCAATCTTGACCGCGATGGCCGCTAAGACTGAAGACGGCCGCGCCTGCGTGTCCTACATCGGGCCAGAAGGGGCGGGCCACTACGTTAAGATGGTCCACAACGGGATGGAATACGCGATCATGCAGGAAATCTCTGAAGTCTACGACATCATGCGCAAGGTAGCCCACAAGTCCAACAAGGAAATGGCAGATATTTTTGCTGAATGGGACAAGGGTGACTTGAACGCCTACTTGATTGAAATTGCTTCACAAGTTTTGCGGCAAAAGGACGACTTGACTGACGACGATGTGATCGACCACATCTTGAACGTTGCTTCCTACAAGGGGACTGGCAACTGGATGCTGGAAGACGCCATCAAGCTGGGCGCTCCAATTACGGTGGTAGCGGAAGCAGTTTTGGCCCGGTTCATGTCCAAGGCAACGACCCGGGAAGGCAAGGAAGTCGTTTACGACGGTGAAGTTGCCAGCGACTTGATCGACAACTTGGGCAAGGCAATGTACCTGGCACAGATCGTGGCTTACGCTCAAGGCTTCCAACAGTTGACTATGGCCGCTAAGGCTTACGACTGGGAACTGAACTACCCGGCGATCGCGCAGAACTGGGAAGCGGGATGCATCATCCACGCCAAGACCCTGTACCACATTGAAGATGCCTACGCTGACGGCAAGCAATTGGACAACCTTTTCCAAGACCCATACTTTGCGGGTGTGATGGAAAAGAACCTGCCAGCCTTGCGAGCAGTCGTTAAGCTGGCTGCGGAAGCTGGCGTGCCGACTCCAAGCTTCAGCGCGGCTCTGAACTACTTGGAATCAATCTTCAACCCAAGCCTGCCGGCCAACATGATTCAGGCACAAAGAGACTACTTCGGTGCGCACACTTACTACAGAAATGACCGCGAGGGCGTTTACCACACCGAATGGTATGAAGAAAAATAA
>SRR1919932_01868 phosphoenolpyruvate carboxykinase
ATGAGTACACGGGAACGCTATCAGCAGAGTGAACTGGTCAAGGCGAACAGCAAGTTCAGCCGGATCCGGGCGACTATTGAATCAGCTTTTTACGGCAACAATGTCCATGAAGTCAAGAGTGTAGCGGAAGCATATGAACTGGCCAAGCGCCAGCCTGGAGTAATTGAGACTGACCTGCCGATCCTGCATACCAGTGATTTGGGTCTGCCGGTCGGGGCCAAGCAATTGGTTTACAACCACGGCAAGATTTTGGGCCGGACGGCATCAGCCCGGCACTTTGTCGATGATTCAGAGGAAGACGCGGCTGCTTTAACCAACAGGTTGTATGAAGACATTTATGCCGGCCATAAGCAGAAGTATTTGAAGACGACAGTACTGGTTGGGCTGGACCCGTCCTTTAGCTTAAAGGCCCACTTGATGCTACCGGAGGACCAGGCCTTCAACCTGCTCAGCTACATGCTCAACTTCCGCTTTTTTGATGAAAAGGCGGCTGAGATGTACGGGAAATCCAAGCTTTATGATGAAGGGGACTTGTACTTCTACTTTGACCCGAACGTGACAGATCCGGCTTATCCAAACGGACTGGCAATTTTTGACGCTCCGCACAACTGCGCCGCGGTGTTTGGCCTGCGCTACTTTGGTGAGCTGAAGAAGGGAACCTTGACCTTGGCCTGGGCCCTGGCCCACCGGCACGGCTATGCAGCCTGCCACGGGGGCGAGCAAGCCTTCCACTTTGAAGACAAGAAAGACAAGGTATTTGCCTTTTACGGCTTGTCGGGCTCAGGCAAGTCAACCTTGACCCACGCTGACCATGGCGGCAAGTATGATATTACTGTTTTGCACGACGACGCCTTTATTATTTCAAGAGAAGACGGCAGCTCGGTAGCCTTGGAGCCGGCCTACTTTGACAAGACTCACGACTATCCAGCCGGTCACCACGAGACCAAGTACTACACGACTGTGATGAACTGCGCGGTTACCCTGGATGAAGCAGGGCGGAAAGTTTTGGTTACGGAAGACCTCCGGAACAATAACGGGCGGGTGATCAAGAGCCGGTATACTTCAGCCAACCGGGTTGATGTGGAAGAAAATCCGATCACAGCCCTCTTCTGGATCATGAAGGACAACTCTTTGCCGCCGGTATTGAAGGTGACTGATCCGGTTTTGGCTACAACCCTGGGCTTGACTTTAGCCACCAAGCGGACGTCAGCTGAGAACCTGCCAAAGGGTTTTGACATGAACACTTTGGTCATCGAACCATTTGCTGATCCCTTCAGAGCTTACCCAGTTGGGGGCGACTATGGCGACTTCAAGGAGCTTTTTACCAAGCGGGGAGCGGAATGCTACGTTTTAAACACGGATGCCTTCTGCGGGAAAAACATTCCTAAGGAACTGACTTTAGAGATCATTGAAAAGCTGGTGGATGATACTGACCAGTGGCAGGCCTTTGGCGATTTTGCCGGAGTCAGCTACATGCCGGTTGCTGACTATCCGGTTGACCTGGACTTCGCTGAATACAAGCATAATCTCAGAGCCCGGATGCAGGACCGGCTGGACTGGCTGAACATGTACAACGGTGAGCATCCAAAGACGCCGCTGCCAGAGGAAGCCAAGGAATGCTTAGAGAAAATCGTTAGTGAACTGAAGTAA
>SRR1919932_01869 NAD-dependent dehydratase
ATGATCTTCTCAGCTGTCGTTGACCATGACGACGCTGGTAACAACCGCCCAACCAAAAATATCATCGCGGCAGCTGAAGCAAATAAGATCAGCCGGGTGATTGAAACCAGCCTTTTAGGCATCTATGATGAAGTTCCAGGTAAATTCGGCAAGTTGAACCGGGACTTCTGCTTTGGCGGCAACCCAGAAGGCAGCTCTCCAGTCAATGCCGACCAGCTTTTGGAAGATTCCGGTCTTGACTACACTACTCTGCGCCTGCCATGGCTGAACGACCGGCCAGAAGTTAAGTACTCTATCACCCACCGCCATGACACATACGTTGGCGTATCTGGCTCAAGACACAGTATGGCTGACGTCGTCTTGAAGATCGTGGCTGACCCAACTTTTGGCAGCCGGGACAGCCTGGGGATTGCTGACCCAGATACTGACGGTTTGACTCGCCCAGTATATTAA
>SRR1919932_01870 hypothetical protein
GTGAAAGGACTGGATGAGCGCTCGATAACGAATGCCATTAAGCTGACCAGATTCGATGTCTACTACCGGGCTGGCCTTGGCTATAAGCCAGTTAGCGAGATCAAGCCGGATCAGGCAACGATTCAAAACGTGAGGACGATGGTTGAACGCTCACTGCATTTTCTTGAAGTCTATGGCCCAAAGCTGCTGGATGGATTTACTTTTGAAGGCGGCTATACAGACACGGTAAGCAAGGGGGCTGGTGACTTAACCACGGCTGACACCCTCTGGGACTTTAAGGTGTCGAAGAGGAAAGTGCAAAAGGAGAGCACACCCTGCAATTACCCATATACTGGCGGATGGGCCTGCATTCGGTTCATCCGGAATTTCAAAGCATCAAGTATCTAG
>SRR1919932_01871 aspartate ammonia-lyase
ATGAAAGCAGCAAGCAGATTAGAAGCAGATTCAATTGGCAGTCTTGAAGTCCCGACAGCCGCCTACTACGGGGTCCAGGCTGAACGGGCCAGACGGAATTTTGAAATTACGCACTTAAAGATGAGTCCAGTTTTTCTGAGCAACCTGGCCTTGATCAAAAAGGCAGCTGCCAGCGTAAACTTTGAAATTGGTCTACTCACTAAGCCGCAGGCTGACGCGATTAAAACTGCTTGCGATGAAGTGATTGCCGGCAAATTCGCGGAAGATTTCATCGTCGACCCAATCCAAGGCGGGGCCGGGACTAGCGCTAACATGAACATGAACGAGGTTATTGCTAACCGGGCAAACGAGCTTTTAGGCGGCAAGCGGGGGACTTACGACCTGGTTCACCCTAACGACCAGGTCAACATGGCCCAGTCTACCAACGACACCATTCCAACGGCTGGCAAGATGACCACCATCCTGCTCAGTGAAAAGCTGGTTGCCAGCCTGGACAAGTTGGAAGCTTCTCTGCGGATCAAGGCAGATGAATTCTCTGACGTGATCAAGATGGGGCGAACCCAGCTGCAAGACGCGGTGCCGATGACCTTAGGTGACAGCTTTGCCGGCTACGCTTCAATGGTCAGCCGCTTAAAGAAGCGGCTGGAAAAAGCCGTCATGGAAATGCACGAGATCAACCTAGGGGCAACGGCGATCGGGACCGGGATCAACGCTTCCCAATACTACAAAGACCACATCGCCGGGCAGTTGAGCAAGCTCTTTGGCTTTGAACTCAAGCAGGCCGACGACCTCTTTGACGCTACGGAAAACCTGGACTCCTTCGTGGAAGTGTCTGGTGCCCTTAAGGCCTGCGCCATCAGCCTGTCCAAGATGTCCAACGACCTCCGTCTTTTGTCTTCCGGACCGCGTTGCGGTTTCGCTGAAATCAACCTGCCGGCCAAGCAAAACGGGTCTTCCATCATGCCGGGCAAGGTCAACCCGGTTATCCCGGAAGTCGTCAGCCAGGTGGCCTTTCTGGTCTGCGGCCACGACACCACCATCACCATGGCGGCAGAAGCCGGGCAACTGGAACTGAACGCTTTTGAGCCAGTTGTCTTCTACCAGCTTTTCGAATCTTTTACGGCTTTGACTGGGGCAGTCGATACTTTGGTAGAAAACTGCATTACGGGCATCACCGCCAACAAGGGCCGCTGCAAGCAGCTCAAGGAAGGCAGCGTCGGCATCGCCACGGTTCTTTGCCCATACCTGGGCTACCAGCTCTCAGCTAAGATCGCCAAGCGGGCCCTTAAGGAAAAGCGCAGCGTCCGGGAACTGGTCCTGGAAAGTCACTTGATGAGTGAAGAAAAGCTGGACGGTTTATTAGGTTAG
>SRR1919932_01872 transposase
ATGAAATCTCAATCTCTACCTGTAAATATTTTAGCTCTACTTGACTCCATTATCAATGAAGCGGTATCCAAAATTTCTGAATTTACCACCAAGCCAACTGCCTTTAGCAGACACCGTGTGATTGACGTTTCTAAGCTAATAATGCTGATCATCAATATGCAGTCCGAGAGCATTCAGAAGGAGCTGTTCAAGAACATATCGCTTTCCGGTTGTAGTATTACAGCTTCTGCTTTTGTACAAGCCAAAGCTAAGCTCAAGCCCGACATATTCAGATACATTTTTGATCAGCTTAATATGAATCTCGCCAGTCTGAAGCTGTACAATGATGAATACAGATTGTTTGCCATTGACGGCTCAGACTTTAATCAAGTATGGAATCCTAAATCTGAAAATATCGTCTGTTTTGAAGACTCTAATCGTAAACCCTACTGCCAGGTTCATCTTAACGCACTGTACGATCTTGAAAATAAGATCTATCAAGATTGTGTGATCCAACCTAAGAACAAGATGGATGAACGAAAGGCAGCCGTTGAGATGCTTTCTAGGCTTGAGTGCGGAAAATATATCGTCTTGGTGGATCGAGGATATCTATCCTTCAATATGATTCAGCACTGCAACGTAAATAAAGACTGCTACTACGTGATAAGGTCAAAAACGGGTTTCACTGCGATCAAGGAAATCAGCCAGCTGCCCGATGAAGAATATGACGGTATCCTTGACTGCTGGGTAACTACATCTAACCATTTCTATACCCAAAACAAAGATCATCTCAATATACATCTGGTAAACCATGTAAATCATCAGTACAAGAAGTTCAAATCCAAGAACAGTAAGGACAACAGCTGGGATTTTAAACAGTTCTGTCATGTAAGATTCCGCGTATGCAAATTCAGAATCAACCCTGATGATGCTCCGAATAAGGAGCAGTGGGAAGTCCTAGTGACTAATCTTGACGCAGATAAGTTTCCGCTCGAGAGAATGAAGGAACTATACAATTTGCGCTGGGGAATTGAGAAGTCTTTCAAGATGCTTAAGTATGATGACTGCGGTATCCAGTTCCATTCCAAGAAAGACGAATTTGTAAAGATGGAGCTGTATGCCCATCTAATTGCCTACAATGTGATAATGAGCATGGTGAACCAGGCATATGCCCCGCATCCTAAGTCAAAATCTAACAGCGAATACCAGATAAACCTTTCCATGGCGTTCTTTATAGTGCATTTTTTACTAGGTACTGGATCGCCGAAGAAGGATTATGAGACGATGCTGTATATGATTTCGAGGTTTGCTGGAATAATTAGGCCTAACCGAAATTACCAGCGAAAAATGCATCCAAGAAGTGCAGTAGTTTTCAATTACCGACTATAA
>SRR1919932_01873 MATE family efflux transporter
ATGACATTGATAGCCCGGGACACCCTCTTTCTCAGTGCGATTAGCGGTCTGGTCTTAGTGGTAATTGCCTGGATCTCCCTGCCCGCTCTTTATAAGGCGGTGTCTTTACCGGAAAACATGGTGGGGGATGCCCTCCTATATGGCCGGGTCTACCTCTTTGCCCTGCCGATCATCTACATCTATGACGTTGGCCGGGCTATCTTAATCTCCAATGAGCGGGCCAAAATCTCCTTCTATCTCCTGGCAACTTCCAGCATCTTAAACCTACTATTAAATCTTCTTTTCATTCTCGTCTTGCAGCTGGGTGTATTAGGTTCAGCCCTGGGCACGGTTTTAGCCCAAGGGATCACCATGCTGGTCACCCTCTACCTTTTGGCAAAAATGGACCGGCAGGAAGAAGAGCCTGTCTCCCTTAAGCCTGACCTCTCCTGGACAAAAATCAAGTCCATCCTTCATATTGCCCTGCCAACAATCTTCCAGCAATTCGCGATCACCTTCGGTGCAACATTGGTTCAGGCCTGGGTCAACCCCTTTGGCCAGGAGGCAATCTTGGGCTATGTCGCTATCGTCAAGGTCATGAACCTGGCCCGGATCGTCCTGGTTGGCTTTGCCCAGACGTTAACTCTGATGACGGCTCAGTTATTGGCGGCAAAAACGTACTCTGCTGTTAAAGCAGTTTACCGCTACTGCAGCAATGTCTCCCTCATCTACTGGCTGGTCAGCTCAGCCCTGTCGGTCATCTTCTGCCAGCTATTGGCAGGCATGTTCTTTGATTCAGGCCAAAACCAGGCAGCTTACTCCTTCTTCAGAGTTTACCTCTATGCTTTTGTCGGCATCCAGCTTTTCTCCATCTTCAAGTTCTTGAATGAAGGATTGCTCAGAAGCATGGTTTTGATGAAGGAATACCTCTACTGCAACTTGGGTGAATTAGCCCTTAAGCTAGCCGCTACCTGGCTGCTTTTAACGCCTCTTCAGACTAATGCTTTCTGGAGCGCGGAACTGGGAGCCAGAATCATCTGCGTCTTGGGCTCAACCATCTTGGTTATTAAAGAAATGCAAGCTTTAGAAGCAATAGAAAGAGCCGGTTAA
>SRR1919932_01874 hypothetical protein
TTGGACAAAGTCCAAGCAAAGTCTGACCAAATCCTTTCTAACTTGAAAAAGCAATGCTACCACGTTTCAATCGGGATCAAGCAGGCAAAGGCCGACCACTTAAATGTCAGTGACCTGCTCTACCAGGCAGACAAGGCCATGCGCAAATCCAAGGAAGAATTCTACAAGAAAGCCGAGAGCGACCGCCAGGCCCGGTAA
>SRR1919932_01875 YitT family membrane protein
ATGAAGCTGTTTGATTTAAATCGATTTTCACGCAATTACGGCTTTTTGGTAAAAATCGGGACGGCAATTCTATACTCAGTTATGGTTGCCGTAGCCCTGAACTTCTTCTGGCATCCCGGCCACATCTATTCTTCCGGGATCACCGGCTTCGCGCAGATCGTCAACACTGTGACCAGCCGCTACATGCCATTTACCATCCCAACAGAAGTGATGTACTTTGCCTTGAACGTACCCCTCTTTATCCTAGCTTGGTTCAAGATCGGCCGTGAGTTTACCGGCTACACCATCTTCGCGGTTGCTATGTCCGCGATCATGATGCGTTTCATCCAACCGACCCAAGTTAGCCTGGACCCTATCCTCTGCGCCATTTTCGGGGCAGCAGTCAACGGGATCGGCACTGGTATGGCTTTGAAGAGTGGGATCTCTACGGGTGGTTTGGACATCTTAGGTATCGTGGTCAGGAAGAAAACTGGTATGAACTACGGCAAGTTCAATATCTTGATCAACTTGATCATCGTTTTGATCGCTGGTTTTCTCTTTGACTGGTCCAGAGCCCTCTACACGGCCTTGAACATTTTCATCAACGGCCGCTTCATCGACTCAGTCTACACTCAGCACAACAAGCTGCAGGTAATGATTGTTACTGAACATCCCAATGCTATCATCGAAGGAATTCAAGAAAAGATGCACCGCGGGATCACTATCTTCCACGACGTGGAAGGGGCCTACGGGCATACTGAAAAGACCGTCCTTTTAACCATTATCGACACTTACGACCTCTACGACATCCGGACCACAGTAGAAAAATGTGACCCCTTTGTCTTCATGAGTGTCACGGAAGTCCAGAAAGTTTATGGCAGATTTAGAGAACAAGAAGTCGTTTAG
>SRR1919932_01876 hypothetical protein
ATGCCAGATGAAAGGGACAATAGCCGCTATCAACCAAAATATATAGGCTTGGATTTGGCGACTGAGATCGCCACTACTTACGCTAAACAGCATGGACACCACAATGTCAAGCTGCTGATGACTAAGACCAGTCCAGACAAGCGGTCAGAGTATTTTTACGTCTTCAGCGTAACTGACAGCTTGCGCGAGAACGGTTGTGACTGTTAA
>SRR1919932_01877 transposase
ATGGAATCTATTATAACTGATATCGTGAAAATTATTAAGTCTGAAAATAATGTTATTCCTCGTGAAAAGGCATTAATGTGCTGCTTCTTTGATTTGATTAGAGAATTAATGAAATTAGCACTAGAAGAAGTTGATGCCGGCTTAGTTGAAGAAACTAAAAAGCAAGGCTATCAGATTGAAAAGAAAAATAAGCGCTCAGTTGTGACTGCCTTTGGTGAGATTAGCTATTGGCGCAGAAGATATGCTTGTCCAGGCAAGAAGGCCCAATACCCACTGGATAAGCTGATGGGCTATGACAAATATAAGCGTTACAGTGTTTTGGCAGTGAAGGATATTTTGCAGGTTAGCGCCGTGGCAACTTACCGCAATACTGCTTTAGCTGTTAATACTCTCTCCTGTTTCAACTTATGA
>SRR1919932_01878 hypothetical protein
ATGCTGAAGCGCAAACGACAACTGCAAACGATGCACAAGCTGACGTGGCAAAGCAAGAACCTGCTGCTCAAAGTCAGCAAACTGCTCCGCAAGCTCAAGTTTCAGCCCCAGCGTCAGCGGAAGAACAAGCTTCAACTGCTGAACAAACTGCTGGTCAAGCTTCTGCTGCAGCGACTGAAGGTCAAACGAATAGTTCTGCAAATGCCGGTGCAGCCATTGACGCCACTACTAAAGCAAAGAAGGATTCGGCAAATCCTGAAGCAAACAGCTCTGATGCTGCGACGGAAGGCGCCAAGAACGAATCAACTACCCTTGACGTAA
>SRR1919932_01879 hypothetical protein
ATGCAAGATAAAACTTTAGTATGTAAAGATTGCCACAAGGAATTCGTATTCACTGAGGGTGAACAGGAATTCTACAAGGAAAAAGGTTTCGATAACGAACCTCAGAGATGCCCTGAATGCAGAAAAGCAAGAAAACAGGAAAGAAGAAACTTCAACAACAGAAGTTATAGATAG
>SRR1919932_01880 hypothetical protein
GTGTACATCAAGATGAAAAAAATTTTGATCCCTTTAGCATGTCTGTCTGCCCTGACCTTATCCGCCTGCCAGACTTCGACCAAGCCGACTGGGCAAGCTTCGTCATCCAAGACTGCCAGCACTCACAAGTCATCTTCCAAGTCTAAAGCTGCTCCAAAGGAAAACAGCCAGGCCAAAAAGCCAAAGTCAGCCAAGCAGTCAAGTGCCGTCAAAAATAGCAGCTCATCTGCCAGCTCAAAAGCCAGTTCATCATCCAGCAGTCCTACTAGTTCCAGCAGCTCAAGCAGTGCCGTCAGTTCCAGTAGCTCCAATGCTCCTGCTGACTACCAAGCACTGTTTGAAGGGGAAACGCTCACCAGCTTCGTCAACAAATATGGCGAATCCCCCGCTGCCTATCTCTCCGAACACTACGGCCTAAGCCCCAAAGAAGCCTTGTATGCCACGCCAGATTCCCTGGAAACCTTCGGTGAGATGCAGTCTGAAAGCATGTACCGCAAAGGGCAAGATCCATTCGCGAACTAA
>SRR1919932_01887 multidrug ABC transporter ATP-binding and permease protein
ATGCTTAAAATTGCTAGAAAAACATTGACTTGCTGGGCGACTTGCTTGGCAAGTCTTTTTTTATTAGTACAAGTTGCATGTGATTTGTACTTGCCGACGGTGACGGCCAACCTGGTTGACAAGGGGATCATTGGCAAGAACCTGCCCTATATCTGGCAAACCGGGGGCAAGATGCTTTTGGTTTCTGCCTTGGGCCTGCTGGTGGCTTTTGGCAACATTTACTTTGCCTCCCACCAGGCCATGCAGGTCGGCCGGCGGCTTAGAACCATGCTCTTTGCTAAGGTCTTGACCTTCTCTGATGACATTTCTCTCATGCAGCCCGCCGTGACCCTGGTCCTTAGCTTGACCAATGTGGGCATCGTTTTTCTGGGCAGCCGCTTAATTAGCGGCAGAATCATGGAAATCGGCAGTCTTTTGACTTTCCTGACCTATGCCACCCAGATTCTGATGAGTTTCATGATGCTATCCATGCTCTTTATCGTGATTCCCCGGGCTTCTGTTTCAGCCAAAAGAATTATTAGATGCCGAAAATCAGCTCCAGGACCCGGTTAA
>SRR1919932_01888 hypothetical protein
ATGGCTGAAGAAGAAAAGAAGTTGAACATCACTAACCTGCAGATTCTGGGCCAGGACGACAGCCCTCTTTTTCAAGGCGCGGGCAGCGAGGGCAAAAGCGTGACCTATCCCAAGAAGTTTGCCAACCACCCGGGCTTTTAA
>SRR1919932_01889 hypothetical protein
ATGTTTTTGAATTCGGTCAAGGAGGAGTTTACGGACTTTGTTGAGTCAGCGGTTGATGAAGAACGCTTTAGGGGCGACTGCCAGATTTTGACGGCAGATGCCCGGACCCTGCGCGTCTTCTGCGACATAAAGTATTCTGTCAACCAGCGCTATGGCGCCTTGGTTTACATCAGTTTTGTCCTTAATTAA
>SRR1919932_01890 integrase
ATGAACAAGAAAGACATTATCAAGTATCAAACAGCCAGCGGGAAAGATCGCTACAAGTTCATTGTCTACGCTGGAAAAGATGAGACTACAGGAAAATCTATCATCATTAGGAAGCAGGGCTTCAAGACACTAAAGGAAGCCAAACAAGCTTACTTAGATGTTCAGCAAGCAATCTTGAACGGGGACTATTTGCCAATCAATCAGAAGCGGCTTACTTTCAAGGGCCTGCTTGAACTGTATCTTCCTTTGTACGCTCAAACAGTGAAGGAAACTTCCTTCTACCAGTTCAAGCGCTGTATGGAATCAAAGGTCTTGCCCGTCTTGGGTGATGTTTACTTAGACAAGATCACGCCGCAATTATGCCAGAAGGCCGTTAATCAATGGGCTAGGGAAAGGCCTAAAAGCGGAACTGTATAA
>SRR1919932_01891 hypothetical protein
ATGCGTCCAGGTGACAATAAGAAAGTTGATTCAGAATACGTTCGTAAAGGTACATGCAGTATCTTTGCCTTCGTAGAGCCGCTAGGAGGTCGTCATCACACAAGCGTCAGAGAACACCGAACTGCAGTTGACTGGGCTGAAGAAATCAAATATATGGTTGATGAGATGTACCCTGAAGCCGAGAAGATCATTCTTGTCATGGACAATCTTAATACGCACAAGCCATCCTCACTATATAAGGCTTTCAAGCCAGAGGAAGCACGTCGAATCATCAAGAAGCTTGAGATTCACTATACTCCCAAGCATGGCAGCTGGTTAGATATCGCTGAAATTGAGCTAAATGTGATGACCAGACAGTGTCTTTCTCAAAGAATCCCGGATATTGAGACACTACGCGAAGAATTGAGCGCTTGGGAAAGTGAGCGGAATAATAGCTATGCTTTGGTAAACTGGCAGTTTAGAACTTCGGATGCACGTATCAAACTTGCATCTTTGTATCCAAAGCTATAG
>SRR1919932_01892 hypothetical protein
ATGACTGAACATCCAATCGTACAGCTCGAGTTGCCAAAGGACAGAATCAGACCTAAGAGTAGGCCTGGAAAGAACCGGCTTGTTCTTAACCTGAAGTCCAATGGGGTTGAGCTGTCATTTTACAGTGATGCCATTAATGAGCTTATGCTCGAAGTCGTAGACAGGTTCTTGAGCCATGATTAA
>SRR1919932_01893 Gram positive anchor
GTGATTACCGTTGCCTACAAGGCAGTCAAGAAGGCCGTGCCTGCACAGACGCCTAAGGCGCCAGCCAAGAAGCCAGCCATTCCTGTCAAGGCACCTAAGGCTGTCAAGACCGCTGAACCGGCCAAGACGATCAGCATCAAGGAGTCTGCGCAAGCTCAAGACCAGCTGCCGCAAACCGGTGAAGACAATTCCAAGGCCGCCTTTGGCTTAGGACTTGCTTCCATCCTTGGCGGGATCGGCATCCTGGGTGCTTTCAAGCGCAAGAAGAAGGAAAACTAA