>NZ_BMPB01000008.1_248_dnaB-1 replicative DNA helicase
ATGGCAGAAGGAACTAAAAATACCGGAAGAGGAAACTCCGGAAAGGGGAAACAAAAACCTGTTGTAGTGTCTGATATGGGACGTCTGCAGCCACAGGCTCGTGAGTTGGAAGAGGCCGTTTTAGGTGCCTTGATGCTTGAAAAAGATGCTTATTCGATCATCAGTGAGATCTTGAAGCCGGAATGCTTTTACGAAAAGTCGCACGAGATGATCTATGCAGCTATTGTGGATCTGGCAGCCAGCCAGCGGCCGGTCGACATGCTGACGGTGACGGAGCAGCTGAGGAAGCGCGGCGAACTGGATCAGGTGGGCGGACCGTTTTATATCTCGCAGCTGACCAGCAAGGTTGCCAGTAGCGCGCATATCGAATATCATGCCCGTATCATCGCCCAGAAATACCTGGCGAGAGAGTTGATCTCTTTCACTGCGATGATCCAGGGAAAGGCTTTTGACGAAACGATCGACGTGGAAGACCTGATGCAGGAAGCGGAAGGTAAACTGTTTGAGATATCTCAGCGAAATGTAAAGAAGGACGTAACCCAGATCAATCCCGTTATCAAGGATGCGATGGATTTGTTGCAGAAAGCGGCGAACCAGAAGGAAGGTCTGAGCGGTACGCGTACCGGTTTCGATGCGCTGGATAAGATCACTTCGGGATGGCAGAATTCCGACTTGATCATTATCGCTGCCCGTCCTGCGATGGGTAAGACGGCGTTCGTACTTTCCATGGCGAAGAATATGGCGGTGAATCATAATGTGCCGGTTGCTTTGTTCTCGCTTGAAATGAGTAACGTCCAGTTGGTAAACCGTCTGATCGTAAACGTATGTGAGATCCCGGGCGAGAAGATCAAGAGCGGACGTTTGGAAAGTTATGAGTGGGAGCAGCTGGACTTCAAGATCAAGGAGTTGTATGATGCACCTATCTATGTGGATGATACGCCGAGTCTTTCGGTGTTTGAGTTGCGTACCAAGGCTCGCCGTCTGGTGCGTGAGCATGGGGTACGATGTATCATCATCGACTACCTTCAGCTGATGAATGCGAGTGGTATGAGTTTCGGTAGCCGTGAGCAGGAGGTAAGTACGATCTCCCGTTCATTGAAAGGGTTGGCGAAGGAGTTGAACATACCGATCATCGCACTGTCGCAGTTGAACCGTGGTGTGGAAAGCCGTCAGGGAGCCGAAGGAAAGCGTCCGCAGTTGGCCGACCTTCGTGAATCGGGAGCGATCGAGCAGGATGCGGATATGGTTTGCTTTATCCACCGTCCGGAATATTATAAGATCACGGAAGATGAGCGTGGTAACTCGCTGGTCGGCCTGGCAGAGATCATTATCGCCAAGCATCGTAACGGTGCGACAGGTGATGTGCGTCTGCGGTTTAAAGGCGATTATGCGAAGTTTATGAATATAGATGAGGATGTAGCCGTGCGCGAGTTCTCATCGAATATGAACAGTGAGGATCCGTTACCTCCGATACCGCCTGCCGGTGCAGATTTCCTGAACCAGGGCAGTAGCAGCGAGGTTCCGTTCTGA
>NZ_BMPB01000008.1_267_dnaB-2 replicative DNA helicase
ATGATGGATGTCGAGAAAACGTTGATCTGTTGCCTGCTGACCTCGGCGGAAGCTCCGATGCTGGTAGCTTCTTCCTTGCGTAAAGAGATGTTTGAAGATAAGTCGCTGAGCTTTGTTTACGGGGTTATCATGGATTTGTACAACCGGGGTGTGCGGCCGGATATGATGACGGTCGAGACTGAAATGCGTCGCCAGGACGAGGCACAGTGGAAAGAACTGAACGGGCTTTCTTTCATCCTCCCGGCCATGCTGAATGTCCGTACCGGAGAGAATGTAAGCCTGTATGCCGATGAGGTGAAACGCCGGTATAAACTGCGTCTGCTGGGACAATTGTTCGTTATGCTGAATTTTAAATCGGGACAGTTCGATGCCGTGCCCGATGAGCTGATCGCGGAGGCGGAACAGTCGTTGATGGATATCCGGCGGAATACGGCCGACGGGGAACCGATGCAGACGGTGGGAGAACTGTCGGCAAAGGCTGTGGAATGGCACCGGAAACGGATGAATGCTTCCGAGGATGTCACCCGGATATTGAGCGGGATGGAGGAACTTGATTATGTCACGGGCGGTTTGCATCGTGGGGAGGTGATCGTTTTGGGCGGCCGTCCCAGCGACGGGAAAACGGCGGTGGCACTTCATATCGCTGTCAATGCGGCACGTGCCGGAAAGCATGTCTGCCTGTTCAGCCTGGAAATGTCGGACTTGCAACTGTTGAACCGTATCCTGGCTGGCATGACCGATGTGGATGCCGATCATCTGCGTATTTCCGGATTGACGCAACAGGAACTGGAGATGCTGGCGGAAGCAGGAAAGAAGTTGGATAAGCTACCGTTGTATATCGATTACACGCCTTGCTGTACGGTCGGCGATATCCGAGCCAAGGTGATGCTGAAGAGTAAGGCGGGCGAGTGCGACCTGGTGGTGATCGATTATCTGCATCTGTTGTCGTCGGTCCGCCAGAAGAATGAAACACTGGATCAGGTGGTAGGACGTAATGTGACTGCCTTGAAACAGCTGTCACTGGAGGCTGATTGTCCGGTTTTGCTTGTTTCGCAGATGAACCGTGCCTGCGAGACGAGACCGGATAAGGCACATGTCCCGGTGATGAGCGACCTGAGGGATTCGGGTACGATCGAGCAGGTGGCGGATTGTGTAATTTTTGTCTATCGTCCGGAAAAGCATGGGATTATACGGGACGAACGGACAGGGGAGAGCCTGGTGGGAGTAGGCAAACTTTATATCGTGAAAAACAGGAACGGGGCAACAGGAATTGCCCGTTACCGTTACAACGAATCTTATACGAAGATCACGAACTATCGTAATACTCCTGCATCATGA
>NZ_BMPB01000001.1_313_dnaB-3 replicative DNA helicase
ATGAAAAACGAAACAAAACAAACAGCTGGACAGCCTTCAGCGATCAGCGTTGCATCCGGTAACAGTCAGGCACCGGTTTCCGAAGAGATGGAACTTGCCGTTATCTTGTCGGTCGTGGCACAGAGTACCTCTATCTGCGAAGTGGGCGAACGGCTTCGTCCGGAGATGTTCAGCCATCCCGATTACTGCCTGGTGTACCGGGCGATGCTGGCGCTTTACCAGCATGAAGCGGATATCGACATGCTGAGCATCGAACGGGAGATGAGGCGTCTCGACCCCGAGCATGCCGCGCGGCTGAACGGGTTGGGCTTCATCGCCGACCGGATGCTGAAGGTACGCAACGCCAGTTTTATCCGTACCTATGCCGCCTGGGTGATCCGTTGCTGGGTGTTGCGGCAGGCCATCCTGAAAATGACGGTACGTATCGGCGAGGCACAGCGTGCGGATGCCGATGTTGTGGGGTTGCTGGGGGCGACGCACAAGGATCTGGAGAAGCTGGAGGAGGAGTTTGTTACGCACGGTACGACCCGTACGGCGGCTGAAGTGAGCCAGCGGGTGCTGGGCGAGATTTACGAGGAACAGGAACGCCGCCGGGCAGGCGAGGAGTTGCAGGTCAGTACCGGTGTCGATGAGTTCGACCGCCATCTGGGAGGGCTTTTCAAAGGCGAGATGCTCGTGCTGGCCGGACGCCCTTCGATGGGGAAGACGGCACTGGCGCTCCATATGACCCTGGCAGCGGCACGGCAGGGGAAGAAGGTGGCCTTTTTCAGCCTCGAGATGACCGAACGCCAGCTGGTCGGCCGTATCCTTTGTACCCTGAGCGGGGTGGAGCCGGACAAGCTGCGGTTCAAACTGCTCGACGACGACGACCGGCGGCGTCTCGACCGGGCGGCGGAGGAGCTGCGGAAGTTGCCGATCTTCCTCATTTACTGTAGCGGCAGCAGCCTCGAAGAGATCCGGGCGCGGTGCATACTGCTGCAACGCAAGTACGGACTCGACATGATGGTGCTCGATTACCTGAACCTGCTGAATGTCACTTCCGGCCGTGCCGACGTGAAAGACACGATGGACCTGGCCCTGGGGGAGGCGGCAGGCAAGGTAAAGTCGCTCTCCCTTGAATTTAATATTGTCACGGCGGTGCTGGCGCAGTTGAACCGTAACTGCGAGACGCGTCCCAGCCATATCCCGGTCATGAGCGACCTGCGTAACTCGGGCGAGATCGAACAGATAGCCGACAGCATCGCGATGGTCTACCGCCCCGAGCAGTACAACGAGCTTTACGATGACGTGACGCACGAATCCTACTACCGTGTAGGCCGCCTCTTCGTCATCAAAAACCGCAACGGCGCTACCGGCGAAGTACGCTTCCGCTACAACGACAGCCTTACGCAGATTTATCCGTACAAGAAAAAGTGA
>NZ_BMPB01000002.1_10_dnaB-4 replicative DNA helicase
ATGAAAGAGGCTGTCGATGAACAGAAAGATTTGACTTTGGCGGAGGTGGAGAACACATTGGTGTGCTGCCTGCTGACCAGTGTGGAGGCACCGGGTCTGGTATCATCCTTATTGCGTAGGGAAATGTTTTCGGATGCCGCGGCAGGTTTTGTTTTCCAGGCGATAATGAATTTGTACGAACAGGGTGTGCAACCGGATATGATATCGGTCGAAACGGAGATGCGGCGGATGGATGAGGCCCGTTGGAAGGAACTGGACGGGGTGTCGTTCCTGCTTACTACGATGCTGAATGTGCGCCACGGAGGTAATGTGTTGCATTATGCCGGAGAGATCAAGCGCCAATATACTTTGCGCTGCCTGGCACAGTTGTTTGCTATGCTGAATTTTAAGAGCAGTACTTTCGATGCCGATCCGGGAGCCATTATTTCGGAAGCGGAGGATTCGCTGCTGAAACTGCAGACGGAAGTGGCCGGAAGCGAACCGATACGTCCGGTGGGTGTGTTGGCTGCTGAAGCGGTGGCGTGGCACCGGGAGCGGCTGGACGGGGCGTACGACCGGAACCGTATACGGAGCGGGTTGGGTGAGTTCGATTACGTCACCGGTGGTTTTCATAAAGGCGAACTGTCGGTGTTGGCCGGTCATTCGAGCGATGGAAAGACGGCTGTAGCACTGCATATTGCCGTCCAGGCGGCACGTGCCGGAAAGTATGTCTGCCTTTTCAGTCTGGAGATGTCGAACCTGCAAATGCTGAACCGTATCCTGGCGGGTATGACGGATGTCGATCCGGATCATCTGCGTATCTCGGGACTGACGGCTCGCGATCTGGAAAAATTGAAAAAAGCGGGCAAAGACCTGGAGCATCTGCCTTTGTATATCGATTATAAGGCTTGTAATACCTTGGCGGATATCCGTTCGAAAGTAATATTGAAAAGCAAGAAGGGAGAGTGTGATTTCATGATCCTCGATTATTTGCATCTTCTGGGAAGTATCCGCCAGAAAAATGAAACGCAGGAGCAGGTGGTAGGACGCAACATCACGGCATTGAAGCAGCTGGCATTGGATGCCGATTGTCCGGTCCTTGTCGTTTCGCAGGTGAACCGTGCCAGCGATCAGCGTGCCGACAAGGCGCATATTCCGGTGATGAGCGACCTGCGTGATTCCGGCACTATCGAACAGGTGGCCGATTGTGTATTTTTTGTCTACCGCCCGGAACGTTACGGGATCGTCAAGGACGAACGTACAGGGGATGACCTCAAAGGAGTAGGCAAACTCTATATTGTGAAAAACAGGAACGGGGCAACCGGTATTGCCCGTTTCCGTTATAATGCTTCCTTTACGAAAATAACGGATTATTAA
>NZ_BMPB01000018.1_7_dnaB-5 replicative DNA helicase
ATGGAAAAGAATGTAATTGAAAGGGCTTTGCTCTGTTCTTTGTTTCTGGACCAGGTGGCGATTCTGGAAGTGGTCGGGTTGTTGCGTCCGGAGATGTTTTCCGATCCGGATCATGGGTTTATTTACGAGGCTTTTACCGATTTGTTTAATCGGAATAAACGTCCTGACCTGATCCTGGTGGAAGAGGAAATGAAAAAGAAAGACCCGGAGCGTTACCTGAAGATGGGAGGCATAGCGTACTTGTCGGATGGAATGGAGACGGTTCGCCTGGAATATAATGCCGTTGAGTATGCGCGCGAAATCCTTCGTCATTATCTGTTGGCTTGTATGCACAAACTGTTTGTACAAAAAGCATCGGAATGCCTGCAATACGGTACGGACTACCAGAAAGTGATAGAAGACTGCGAGCGCGATTTACTGCGTTTGCGAATGGATAATTCGGAGTCAGACTCGCTTCAGCCGCTTAGTGAAGTGATGAAACAATCTATAGACATTCATCTCGACCGGATGAGCCATAAGGACGATCCGGTGCGCATGCTGACCGGTATCAGCGGGCTGGACGGACTGACGGGAGGACTTTACCGGAAAGAAGTGCTGGTGTTGGGCGGTCTTCCGAGCGATGGAAAGACGGCGTTGGCGATGTTTATGGCGATGAATTTGGCTTGCAAGGGGAAGCATGTGCTTCATTTTAGTTTTGAAATGACCGGGGATCAGACTGCCGCTCGTTTTTTTGCCGGTTATGCCGATGTGGAGGCAGCCCGACTGCGTATCGGGGGACTTCGTGAGGAGGATATCGATCGGATGAAACGGTATGCCTCCGGTATGGAAAGAATGCCTTATTATTTTGCGAATGTTTCTTCTATGAGCCTCGAGGCATTGCGGGCGGAGGTGATGCTCCGGAGCCGGAAGGGCGAATGCGATGCTGTCGTGATCGATTACCTGCATACACTTGCTCCACCGACGAAAAAGGGGGAGACGCAGGAGTCTGTGATCCGTAATACCATAACGGCATTGAAACGTATTGCAGTGGAGGCTAATTGTGCCATGTTGGTCGTTTCGCAGTTGAACCGCGAGGTGTTGAAACGTGCTGAGAATGGTTTTGTTCCGATGATGAGCGATTTACGTGATTCGGGAGCCATTGAGTTTGTGGCGGATTGTGTGGTGATCATCAATCGTCCGGAACGTTTCGAGAAGAATCTGGACAAATACGGAGAGAATGCCTCACACCTGGTCAAGTTGTATGTCCTGAAAAATCGTAACGGATCGACAGGTATTGCCGAACTATACAGGAATGATACCTATACGTCTTTTGTGAATCCGGGTGGTAACTTACATTTTGAAGATTGA
>NZ_BMPB01000003.1_216_dnaB-6 replicative DNA helicase
ATGAACGGGATCACGGTGATCAATGCGGCCATGACGCAGATACGGCATACCGGAAATCTGAAACAATATGTCGAAGAAGTGAAACGCCAGTATATGCTTCGTTTGCTCGCCACGCTATTCTCTACGTTGCAAGCAAAAGCCAACTGTTTCGATTCTTCTTATATGGCTCTTGTTGAAGAAGCTGAATCGTCTTTAATGGCACTGCGGGAAACCGGTATTGCAGGCAAACAGATCTGCCGGATCGGTAAAACGGCCAATGAAGTCTTGAAGATGCACCGCGACAGGTTGGAAAGCGGTATCAATAATATGTGTGTCCGGACAGGCATCGAGGAATTCGATTACGTGACCGGAGGCCTTTACAAAGGGGAGCTTACTGTTGGGGCGGGACGTCCCGGTGACGGTAAAACGGCTGTCGCCATGCAGATTGCCATGAATGCGGCCCTGGCAGGGAAGCATGTTTGTTTCTTCAGCCTGGAGATGACGGCTTTGCAGACGATGAACCGCTTGTTTGCCGGTTACGGGGGTGTGGATGCCAATCATTTGCGTATTGACGGCGCTAATCCGGCGGATTTGACGAAGATGGAGAAAATGGCGGATGAGTTCCAGAACCTGCCGTTATATTTTGACCATACCTCGGCGAACAGCGTGGAAAATATCCGTGCCCAGGTGATGCTTCAGAAACGTAAAAATCAATGTGACCTGGCAGTGGTCGATTACCTACACATGATGAAAATAGAGAATCATGGAAAGGAGACGATGGATCAGATGATAGGGCGCAATATACAGGGACTGAAACAACTGGCGTTGGATGCCGATATTCCGATACTCGTTCTTTCGCAGATGAACCGTAACAGTGTGAACCGGACGGATAAAGCTCATATCCCAGACCTGCATGACTTGCGCGACTCAGGCGTGATCGAACAGGTGGCGGATTGTGTGTACTTCGTTTATATACCGGAACGGAATGGAATCGAGAAGGATGAAATCACCGGAGAAAGCCTGCATCTGGTAGGGAAATTATATATCAGGAAAACACGTAACGGGTCAACCGGGATTGCCCGTTATCGCTATAATGAGAGTTACACCCGCATCACTAACTATAATACCGGCAGACGATCATGA
>NZ_BMPB01000005.1_237_rpsA ribosomal protein bS1
ATGGAAAATTTAAAGAACATTCAGCCGGTTGAAGATTTCAACTGGGACTCCTATGAAATGGGAGAAACTTACGGTGACGTAAGCAAGGACGACCTTGTAAAAACGTATGACGAAACCCTGAACACTGTAAAGGATAAGGAAGTCGTTATGGGAACCGTTACTGCAATGAACAAACGTGAAGTTGTAGTGAACATCGGTTTCAAATCAGACGGTGTTGTATCAATGGCGGAATTCCGTTACAATCCGGATCTGAAAATTGGTGACGAAGTAGAAGTATACATCGAAAACCAGGAAGACAAAAAAGGACAGCTGATCCTTTCTCACAAGAAAGCTCGCGCTACACGTTCTTGGGATCGTGTTAACGAAGCTCTTGAAAAAGACGAAATTATTAAAGGTTACATCAAATGTCGTACTAAGGGCGGTATGATCGTTGACGTATTCGGTATCGAAGCATTCTTACCGGGTTCTCAGATCGACGTTAAACCGATCCGCGATTATGATGTATTCGTAGGAAAGACAATGGAATTCAAGATCGTGAAGATCAACCAGGAATTCAAAAACGTTGTTGTATCTCACAAGGCTCTTATCGAAGCAGAGCTTGAAGCACAGAAGAAAGACATTATCTCTAAACTGGAAAAAGGACAGGTACTGGAAGGAACTGTTAAGAACATCACTTCTTACGGTGTATTCATCGACCTGGGTGGCGTAGACGGTTTGATCCACATCACAGACCTTTCTTGGGGCCGTGTTTCTCATCCGGAAGAAATCGTTCAGCTTGATCAGAAGATCAACGTTGTTATCCTTGACTTCGACGATGAAAAGAAACGTATCGCTCTGGGCTTGAAACAGCTGACTCCTCATCCTTGGGATGCTTTGGATACTAACCTGAAAGTTGGTGACAAAGTAAAAGGTAAAGTGGTTGTTATGGCTGACTACGGTGCATTCATCGAAATCGCTCCGGGCGTAGAAGGTTTGATCCACGTATCAGAAATGAGCTGGACTCAGCACCTGCGTTCTGCTCAGGACTTCATGAAGGTTGGTGACGAAATCGAAGCAGTTATCCTGACTTTGGATCGTGACGAACGTAAGATGTCTCTGGGTATCAAACAGCTGAAAGCTGACCCATGGGAAGATATCGAATCTCGCTTCCCGGTTGGTTCACGTCACACTGCAAAAGTACGTAACTTCACTAACTTCGGTGTATTCGTAGAAATCGAAGAAGGCGTAGACGGACTGATCCACATCTCTGACCTTTCTTGGACTAAGAAGATCAAACACCCGAGCGAATTCACTCAGATCGGTGCAGAAATCGAAGTTCAGGTTCTGGAAATCGACAAGGAAAACCGTCGTTTGAGCTTAGGCCACAAACAGCTGGAAGAAAATCCTTGGGATGTATTTGAAACTATCTTTACAGTAGGTTCAATCCACGAAGGAACAATCATCGAAGTACTGGATAAGGGTGCTGTAGTTTCTCTGCCTTACGGTGTAGAAGGTTTCGCAACTCCGAAACACCTGGTAAAAGAAGACGGTTCTCAGGCTGCTGTTGACGAAAAACTGCAGTTCAAGGTAATCGAATTCAACAAAGAAGCAAAACGTATCATCCTTTCTCACAGCCGTATCTTCGAAGATGAACAGAAGGGCGCTAAGAAAGATGCTCCTGCAGGTGACAAAAAGCCGGCTGCAAGACGCAACAAGAACGAAGAGTCTTCTGCAATGGTAACTGGTCCGGTTGAAAAGACTACACTGGGTGACATTGAAGAACTGGCCGCTTTGAAAGAAAAACTTTCAGGCAAATAA
>NZ_BMPB01000011.1_30_recA protein RecA
ATGGCAAAAGAAGACAATTTATTCGAAGAGGGAAAAACCCCGGAAGGTAAACCGGCTGTGAATGCCGACAAGTTAAAAGCATTGCGCGCTGCAATGGACAAGATTGAGAAGAACTACGGAAAAGGTTCTATCATGAAGTTGGGTGACGAAAGTATAGAAGCAATCGAAGTGGTTCCGACCGGTTCCATCGCACTGAACGCCGCTTTAGGCGTCGGCGGTTATCCGAAAGGACGCGTTATCGAAATATACGGACCGGAATCTTCCGGTAAGACAACCCTGGCAATCCACGCAATTGCCGAAGCACAAAAAGCGGGTGGTATCGCAGCATTTATCGATGCAGAGCATGCATTCGACCGTTTCTATGCTGAAAAACTGGGTGTCGATGTGGAAAACTTATGGATCTCGCAGCCGGACAACGGCGAACAGGCTTTGGAAATTGCCGAACAGCTGATCCGTTCGTCTGCCGTAGATATTATCGTTATCGACTCTGTTGCGGCATTGACACCGAAAGCAGAAATCGAAGGCGATATGGGCGACAGCAAGATGGGATTGCAGGCTCGTTTAATGTCACAGGCACTGCGTAAACTGACCGGTGCAATCAATAAGACAAACACGACTTGTGTCTTTATCAACCAGTTGCGTGATAAGATCGGCGTTTGCACTGAAGTTCTATGCTTCCGTACGTCTGGATATCCGTAA
>NZ_BMPB01000008.1_160_gyrA-1 DNA gyrase, A subunit
ATGGTTGATCAAGACAGAATTATTAAGATTAACATCGAGGAGGAAATGAAATCGGCATACATTGACTATTCAATGTCTGTTATCGTTTCACGTGCCCTTCCGGATGTTAGGGATGGTTTTAAACCGGTTCATCGTCGTATTTTGTTTGGAATGAATGAATTGGGAAATACATCCGACAAACCTTATAAAAAATCTGCGAGAATTGTTGGTGAAGTTTTAGGTAAATATCATCCACATGGTGACTCGTCCGTCTATTTCGCAATGGTTCGTATGGCACAGACATGGTCTATGCGTTATACATTGGTCGATGGACAAGGTAACTTCGGTTCTGTGGACGGTGACAGTCCTGCCGCTATGCGTTACACAGAGGCAAGATTAAGTAAACTTGCCGAGGAAATGCTCCGGGATATCGATAAGGATACAGTAGATTTTCAGTTGAACTTTGACGATACGCTGAAAGAACCGACTGTGTTGCCGACTCGTATTCCTAACCTGCTGGTAAATGGAGGTTCGGGTATTGCTGTTGGTATGGCTACAAATATGCCGACACACAATTTGACCGAAGTGCTCAACGGATGTATTGCCTATATCGACGCTCGCGGAGACATCGACATAGAAGGACTGATGCAATATATCAAGGCTCCTGACTTCCCGACCGGTGCAACGATCTACGGATATGCCGGTGTAAAAGAGGCTTTCGAGACCGGTAGAGGACGTATTATCCTTCGTGGTAAAGCAGAGATTGAAGTTGAAAACAATCACGAAAAGATTGTTATTACCGAAATTCCTTACCTTGTTAATAAGGCAGAATTGATCAAGTATATAGCTGATCTGGTAAATGACAAACGTATTGAAGGTATTTCCAACGTAAACGATGAGTCCGACCGTAATGGTATGCGCATCGTTGTCGATGTGAAACGTGATGCCAACTCAGGTGTCGTACTGAATAAATTGTATAAGCTGACCGCACTGCAATCTTCTTTCAGTGTAAACAATATCGCCCTGGTCAACGGTCGTCCGAGACAGTTGAACCTGAAGGATATGATCAAGGCTTTTATCGAACACCGCCATGAAGTTGTTATCCGTCGTACTCGCTTCGAACTGAAGAAAGCAGAAGAAAGAGCACATATCCTGGAAGGTTTGATCATTGCTTCTGACAATATCGATGAAGTAATCGCTATCATCAAATCATCCAAAAGTCCGAATGAGGCTATCGAACGTTTGATGGAGCGTTTCTCACTGTCTGATGTTCAGTCACGTGCCATCGTTGAAATGAGACTTCGCCAGTTGACCGGACTGGAACAGGATAAACTTCGTGCAGAATACGAAGAAATTGAAAAGTTAATCGCCCGTTTGAAAGAAATTCTTGAAAATGAAGATGTTCGTATGGACGTTATCAAGGGAGAACTGGAAGAGGTAAAAGAAAAATTCGGCGATGAACGTAAAACAGATATCGTATATGCTTCGGAAGAACTGAATCCTGAAGATTTCTACGCTGATGACGAAATGATCATCACCATTTCTCACATGGGATATATCAAGCGTACACCGCTGAGTGAATTCCGTGCCCAGGGACGTGGCGGAGTAGGAGCGAAAGGATCGGTAACACGTGACGAAGACTTCGTTGAATATATCTATCCGGCTTCTATGCATGCAACCTTGCTGATCTTTACGGCAAAAGGTAAGTGCTACTGGCTGAAAGTTTATGAAATCCCGGAAGGCGCCAAGAACGCAAAGGGTAGAGCAATCCAGAATTTATTGAATATCGAACCGGATGATAAAGTAAACGCATTCATCCGTGTAAAGAAACTGACAACCGATACCGAATTTATCAATTCACATTATCTGTTGTTCTGTACCAAGAAAGGTGTCATCAAGAAAACATTGCTTGAAGCATATTCACGGCCGCGTCAGAATGGCGTAAATGCCATCACATTGCGTGAAGACGACGGTCTGATCGAAGTTTGTATGACAAATGGCAATAACGAAGTGCTGATCGCAAACCGTAACGGACGTGCTATCCGTTTCCATGAAAGCGCCGTTCGTGTTATGGGACGTACAGCATCCGGGGTAAGAGGTATGACACTCGATGACGATCCTTCCGATGAAGTAGTCGGAATGGTATGTATCAAGGACAAGGAAGCCGATACCGTACTGGTCGTTTCCGAACAGGGTTACGGAAAACGTTCGGTTGTGGAAGATTACCGTATGACAAACCGTGGCGGTAAAGGTGTTAAGACACTCAACATTACAGAAAAAACAGGTAAACTTGTTGCCATCAAAAATGTTACAGTAGAAAATGATATCATGATCATCAACAAGTCTGGTATCGCTATTCGTATGAAAGTGACCGACTTGAACGTTATCGGACGTGCAACACAAGGTGTACGCCTGATCAACTTGGGTAAACGTAACGATGAGATAGCCTCGGTATGTAAGGTACTGTCCGAACCGGAAGAGCAGGAGGTGGATGAAGAAAACGCTGAACTGGATGCTCAGAATGAAAATAATGAAGAATTAACCGGGTTTGGAGGATCTGAAGATATCGCAAATGATACTGAAGAGACAACAAATGAATAA
>NZ_BMPB01000001.1_195_gyrA-2 DNA gyrase, A subunit
ATGCTTTTTTATTATCTCGCCAATATTTCGTATATTTACACGCTGGAAATTGTTTTCCGGTTAGAGGCTGAAAAAGAAGAAAGAGCACCATATAAGTATATGAAACCAGAGGATATTGAAGAATTCACAGAGGAAAACGAAAACGAGGAAATAGAGCAAACAAATACAGATTCTCAGGAAAACGGGCAATCTGATGCTGCTACACATTCGGAATATAAAATACCCGGGAAGGGCGAAGGCCGTGTGTCCTATCATCTGTCAGGGATGTATCAGGATTGGTTTTTGGATTACGCTTCGTACGTGATCCTTGAACGTGCCGTGCCGCATATTAATGACGGACTGAAACCGGTACAGCGTCGTATCCTTCACTCGATGAGGCGATTGGATGACGGCCGGTATAATAAGGTCGCTAATATCGTGGGGCATACCATGCAGTTCCATCCTCACGGAGACCAGTCTATCGGCGATGCGCTGGTACAACTAGGGCAAAAAGACCTGTTGATCGACTGTCAGGGGAACTGGGGTAATATTCTGACCGGTGACGGTGCTGCCGCTCCCCGTTATATCGAAGCGCGTCTTTCTAAATTTGCTCTTGAAACGGTATTCAACCCAAAGACAACCCTTTGGCAACTCTCCTATGACGGACGTAACAAGGAACCGGTCACTTTGCCGGTGAAATTCCCGTTGTTGCTGGCCCAGGGTGTGGAAGGGATTGCTGTCGGTCTTTCTTCTAAAATACTTCCGCACAATTTTAATGAATTGCTGGATGCCTCAATCGCTTATCTGAAAGGGGAGGAATTTGCTTTATATCCGGACTTCCAGACAGGTGGCTATATCGATGTCTCTAAATATAATGACGGCGAACGGGGTGGCTCGGTAAAAGTACGTTCCAAAATTACGAAGCTGGATAACAAAACTTTGGTTATCAGTGAAATTCCTTACGGAAGAACAACCTCTTCCCTGATCGAGTCGATCCTGAAAGCAAACGACAAGGGTAAGATCAAGATCAGGAAGGTAGACGATAATACGGCAAAGGATGTAGAGATTCTTGTGCACCTGGCTCCGGGCGTTTCCTCGGATAAAACGATCGATGCGCTGTATGCCTTTACCGATTGCGAGATCAGTATTTCGCCCAACTGCTGTGTGATCATGGACAACAAACCTCACTTTCTGAAGGTTAGTGATGTGTTGCGCCATTCGGCAGACGATACGCTGCATCTGCTGCGTACGGAACTTCAGATCCAGAAGGCCGAGCAGGAAGAAACCTTGTTCTTCGCCTCTCTTGAAAAAATCTTCATTGAAGAGCGTATCTATAAAGATGCCGAGTTTGAAAACTCCAAAGATATGGATGAGGCGGTTGCTCATATCGACTTGCGCCTGACTCCGTTCAAGCCTGATTTTATCCGGGAAGTGACTCGCGATGATATCCTCAAACTGATGGAGATCAAGATGGGACGTATCCTGAAATTCAATTCGGAAAAGAGTAATGCCCTGATCGCCCAGATCCGCGAAGAAATAGAGCGTATCAATCACCATCTGGATAACATTGTCGATTATACGATCAACTGGTTTACCATGTTGAAAGAAAAATACGGCAAGAACTATCCGCGTATGACCGAAGTGCGCAACTTCGATACGATCGAAGCAACGAAGGTGGTGGAAGCGAACGAAAAGCTATATATCAACCGTGCAGAAGGTTTCATGGGTATGAGCCTTAAAAAGGACGAATATGTTTGTAATTGTTCGGACATAGACGATATCATCCTGTTCTACCGGAACGGAACTTATAAGATCGTAAAGGTCAGCGACAAGATGTTTGTCGGGAAAGACGTTTTGTATGTGAATGTCTTCAAACGGAACGATACCCGAACCATCTATAATGTTATTTACCGCGACGGAAAAGTCGGATTTAATTACATCAAACGTTTTGCCGTGACCGGAGTGACCCGTGATAAGGAATATGACGTAACTAAAGGAACGGAAGGTTCACGTGTACTGTATTTCAGTGCGAATCCGAATGGAGAAGCCGAAACGGTTAAAGTGATTCTGAAGCCGAAGCCACGCCAGAAGTTGCTTGTCTTTGAAAAGGATTTCAGTGAGATTGCCATTAAAGGACGTGGTTCGATGGGTAATATCCTGACGAAAGCGGATGTTCACAAGATCAGCCTGAAACAAAAAGGTAGCTCTACACTTGGAGGACGTCAGGTTTGGTTCGACTGGGATGTGCTGCGTCTGAACTATGACGGTCGTGGTGATGAACTGGGCGAATTCCAGAGTGACGACTTGATTCTGGTGATCTTGCGTAATGGTGATTTCTATACGACGAACTTCGATTTGAGTAACCATTACGACGACAATATACAGATTATAGAGAAATTCAATTCCAATAAAGTCTGGACAGCGGCTTTGTATGATGCTGACCAGAAATATCCTTATCTGAAACGTTTTGTGCTGGAAGCCGGAAGTAAGAAACAGAACTTCCTGGGTGAAAATCCGAAAAGTCGTTTATTGCTGCTTACGGATGAGACGTATCCGCGCATTGAAGTGGTATTCGGCGGGCATGACGATTTCCGTGAACCGATGGTATTGGATGCCGAAGAGTTTATCGGCGTGAAAGGTTTCAAGGCGAAAGGAAAACGTATCTCTACATTTGATGTGGAGACGGTCAACGAACTGGAGCCAACCCGCTTTGCCCCGGCGGAACAACCGGGCGGAGATAACGGAGAAACTCCTGATAATAATGATGCCGGACAGAATGAAAGTGATTCGGATATTATAGACGAGATAACCGGGCAGATGAAACTCTTTGACGAATAG
>NZ_BMPB01000020.1_55_pheS phenylalanine--tRNA ligase, alpha subunit
ATGATCGATAAAATTAAAGCTCTGCTTCAGGAAGTAGAGAATATGAAGGCTGCAAATGCCGAAGAACTGGAAGCTTTACGTATCAAATATCTCAGCAAGAAAGGTGAGATATCTTCCCTGATGAACGATTTCCGCAACGTTGCGGCCGATCAGAAGCGTGAAGTGGGACAGTTTCTGAACCAGCTGAAAGAAGCTACTCAAAATAAGATCAACGAACTGAAAGAAGGTTTTGACAACGTACAGACAGGCAACGACGACATCGACCTGACCCGTACCGCTTATCCGGTGCAACTCGGTACACGCCACCCCCTTTCGATCGTTAAAAAAGAAATCTGTGATATTTTCGGACGCCTGGGATTCAGCATCGCTGAAGGACCGGAGATCGAAGATGACTGGCACGTGTTTTCTTCCCTGAATTTCGCTGAAGATCATCCTGCGCGTGATATGCAGGACACATTCTTCATACAACATAACCCGGACGTTTTACTGCGTACGCACACTTCGTCGGTACAGACCCGCGTGATGGAGAATCAAGAACCTCCCATCCGTATCATCTGCCCGGGACGTGTGTACCGTAATGAGGCCATCTCTTACCGTGCTCACTGCTTCTTCCACCAGGTGGAAGCGCTTTACGTCGATAAGAATGTCTCATTCGCCGACCTGAAACAGGCATTACTTTTCTTTGCAAAAGAAATGTTCGGTCCGGAAACGAAAATACGTTTGCGCCCCTCCTACTTCCCGTTCACGGAACCTTCTGCGGAAATGGATATTTCCTGCAACCTCTGCGGCGGTAAAGGATGTGCTTTCTGTAAACATACCGGCTGGGTAGAGATCCTCGGCTGCGGTATGGTAGACCCGAATGTACTCGAAAATTGCGGTATCGACAGTAAAGTCTATACCGGCTACGCTCTGGGAATGGGTATCGAACGTATAACCAACCTGAAATACCAAGTTAAAGACCTTCGAATGTTCTCTGAAAACGATGTCCGTTTCCTGAAACAATTCGAATCAGCCAATTAA
>NZ_BMPB01000005.1_30_ksgA ribosomal RNA small subunit methyltransferase A
ATGAGATTAGTTAAGCCAAAGAAAGCATTAGGACAGCACTTCCTGAAGGATTTACAGATCGCACAGCGTATTGCCGATACGTTGTCGGACTACAAAGATTTACCGGTTCTGGAGATCGGTCCCGGCATGGGTGTGCTTACCCAATATCTGCTGGAAGCGGGTCACGACCTGACAGTGGTAGAACTGGATATGGAGTCGGTCGATTATCTGGAGCAGAACTTTCCGGCACTCGAAGGGCGTATCCTGGCAGAAGATTTCCTCCGGTTGGACCTGTCGAAACTTTTCCCCGGCCAGTTCTGTGTGATCGGAAATTATCCTTATAATATATCCAGTCAGATATTTTTCAAAGTGCTCGATTATAAGGATCACGTTCCCTGTTGTTCGGGTATGATCCAGAAAGAGGTAGCCGAACGCCTGGCCGCCGGACCGGGCAGTAAGACCTACGGTATTCTCAGTGTTCTTCTGCAAGCCTGGTACACAGTGGAATATCTATTTACGGTCAGTGAATTTGTCTTCGACCCACCCCCAAAAGTAAAAAGTGCGGTTATCCGGATGGTACGGAACGACCGGAAAGAACTGGGATGTGACGAGAAATTATTCAAGACGGTGGTCAAGACATCTTTCAATCAGCGCCGTAAGACACTCCGGAATTCAATGAAGCCGCTATTAGGGAAAGACTGTCCGGACTATGCGCTCCCGATTTTCGACAAACGCCCCGAACAGCTTTCGGTGGAACAATTTGTCGAACTGACATTGATTGCAGACCGCCATCTGAAAAACATCTAA