>NZ_CP104467.1_6659_dnaB replicative DNA helicase
ATGAGCGGGGATAATATGTTTATGGATCGTGTACCCCCACAAAATATAGAAGCCGAGCAAGCCGTACTCGGCGCTATTTTGATTCACGGCGAAGCCTTGATTACCGCCATGGAGCGAATATCAAGCGACGACTTCTATCGTGGAACACATCAACGCATCTTCGAGGCGATCGTAGAACTCGCAGAAGAGCAGGAGCCTGTCGATCTGATCACGCTTACGTCACGGCTGCAGAACAAGCAGCAGCTTGAAGAAATCGGTGGCGTGACGTATCTTTCTGAGTTGGCTAACGCGGTGCCAACCGCAGCAAACATTGACTACTACGCGGCTATCGTCGAGGAGAAGTCGATGTTGCGCCGCCTTATCCGCACAGCGACCCAAATCGTCTCCAATGGCTATGCCAATGAGGACGATGTAGGGTCGATGCTCAGCGAGGCGGAGGCCAAGATCCTTGAGATCTCGCAGCGCCGCAGCTCAAGCGGGTTCGTGGTTATTCGCGACGTGCTCATGGAAGTATTCGAGAAAGTCGAGCAGCTTTACTCGAATAAGGGAGGGTCAACGGGGATCCCTTCGGGCTTCATTGACCTCGACAAGATGACGTCCGGCTTCCAGCGCTCGGACCTTGTTATCTTGGCCGCCCGTCCTTCGGTCGGTAAGACCGCGTTCGCGCTGAATGTTGCGCAGAATGTGGGCGTGCGGGCCAAAGAAACCGTCGCCATCTTCTCCCTGGAGATGGGCGCGGCGCAGCTCGTACAGCGTATGATCTGCGCGGAAGCGAACGTCGACGCGAACCGCATGCGGACGGGGTATCTCGAGGGCGACGACTGGGAGAAGCTGACGATGGCGATAGGCGCCTTGTCCGAAGCGAACATCTTCATCGATGATTCACCGTCGATTACGGTCGCGGACATCCGCGCCAAGTGCCGTCGACTGCAGCAGGAGAAGGGGCTCGGCATGATCCTCATCGACTACCTGCAGCTGATTGCCGGCCGTGGTAAAGGCGATAACCGTCAGCAGGAGGTCTCTGAGATCTCCCGTACGCTGAAGCAAATTGCGCGTGAGCTCAACGTTCCGGTCATCGCGCTCTCGCAGCTGAGCCGGGGTGTAGAGCAGCGGCAAGACAAGCGTCCGATGATGTCTGACCTTAGGGAATCGGGATCGATCGAGCAAGATGCCGACATCGTAGCGTTCCTCTACCGGGACGATTACTACGATAAGGAATCCGAGAAGAAGAACATTATCGAGATTATTATTGCTAAGCAGCGGAACGGTCCTGTAGGAACCGTAGAGCTGGCTTTCTTGAAGCAATTTAATAAGTTCGTGAATATGGATCGAAGTCATCAGGAAGCAGCAGCCGCGCAGTATTGA
>NZ_CP104467.1_4051_rpsA ribosomal protein bS1
ATGTCAGATGAAGTAAAAGTTGAAGATCAAACGCAAGAAGTACAAGAATCAGCCGTATCGCAAGCAGAAGCTGAGCACGCTCTTAACAACGTTGCTGTGCTGAAGAAAGGCGCTACCGTTAAAGGTAAAATTGTTAAGGTAGACGCAGATCAAGCCTTCGTGGATATCGGTTACAAATACGATGGTGTTATCCCTGTTCGCGAGCTGTCTTCCGATGCGGAAGCAACTTTGCTTGGACAAGAAGTTGAACTGAAAGTTGTTTCAATCAACGATGCGAAAGAAACTTTGGTTCTTTCCAAACGTGTTGTTGACAACAGCAAAGTATGGGAGTCACTGCAAGGTCAACTGGATAGCAAAGAAATCATTGAAGCTGCTGTAACTGAAGTTGTAAAAGGTGGCCTTGTTGTGGATATCGGCGTTCGTGGATTCGTACCTGCTTCCATGGTTGAGCGTCAATTCGTTGAAGATTTCTCCTCTTACAAAGGCCGCACATTGCGCCTTCGTGTAAAAGAAATTGATCGCGAGAAAAACAAAGTGATCCTTTCTCAAAAAGATGTTCTAGATGAAGAATTCGAAGCTAACAAAAAGAAAATCATCGAAGGTCTTCAAGTGGGTCAAGTACTGGAAGGTACTGTTCAACGCTTGACACAATTCGGTGCGTTTATTGATATCGGTGGTATCGATGGACTTGTACACATCTCCGAGCTAGCTTGGCACCATGTAGAACAAGCTTCTGATGTTGTCAAAGAAGGCGATAAAGTGAAGGTGCAAATCCTTAAGCTTGATCCTTCCAATGATAAAATCAGCTTAAGCATCAAAGCTACACAAGCAGGTCCATGGTCCAATGTGGAGAATGATTTCAAAGCTGGCGATATCGTAACAGGTACAGTGAAACGTCTTGCAGCTTTCGGCGCATTCGTTGAAGTGGCTCCTGGTGTTGAAGGTCTTGTGCATATTTCCCAAATTGCTCACCGTCACATCGGTACTCCGCATGAAGTATTGAAAGAAGGCCAAGAAGTTCAAGTGAAAATCTTGGAAATCAATACGGCTGAGAAACGCGTTAGCTTGAGTATTAAAGACACTGAAGAAGCTCCAGCAGCTCCTGCTGGTGCAGCGGCTCCTTCTGCTGGTAAACCAGAGAGAGAAAGACAACCAAGAGGCGATCGTGACCGCGGAAACAGCGCAAGTCACCAAAAAGAGATTGCTGGCAATGAGAACGTGTCCTTGAGCAATCAAGGTCTGTCCATGACACTTGGCGAGCGTTTTGGCGATAAACTTTCCAAATTCAAAAAGTAA
>NZ_CP104467.1_3105_recA protein RecA
TTGTCAGATCGTCGCGCAGCACTTGATAATGCTTTACGTCAAATTGAGAAACAGTTCGGAAAAGGCTCCATCATGAAGCTTGGAGAATCTACACATATGCAAGTTGAAACGATTTCATCTGGAGCTCTTGCTCTTGATATCGCTCTTGGTATAGGTGGGTTTCCACGTGGAAGAATTATAGAAGTATACGGACCCGAGTCTTCCGGTAAAACGACGGTAGCTCTACACGCTATCGCAGAAGTACAGAAGACTGGTGGACAAGCAGCTTTTATCGATGCGGAGCACGCATTGGATCCTTCTTATGCAAGCAAGCTTGGTATTAATATAGATGAGCTTCTACTCTCTCAACCGGATACCGGTGAACAAGCACTTGAAATCGCTGAAGCTTTAGTACGAAGTGGTGCTGTAGATATTATTGTAATTGACTCTGTAGCGGCATTAGTACCTAAAGCAGAGATTGAAGGCGATATGGGTGATTCTCACGTGGGTCTTCAGGCTCGCTTGATGTCCCAAGCACTTCGTAAGCTGTCTGGTGCGATCAACAAGTCCAAAGTTATCGCGATTTTCATTAACCAGTTGCGTGAGAAAGTTGGCGTTATGTTTGGTAACCCAGAGACAACACCTGGTGGCCGTGCACTTAAGTTCTACTCATCAGTTCGACTAGACGTTCGTCGTGTGGAGACAATCAAACAGGGGAATGATATGGTTGGTAACCGCACAAGAATTAAAGTCGTTAAGAATAAAGTAGCTCCGCCGTTTAAACAAGCGGAAGTGGATATTATGTACGGTGAAGGAATTTCACGCGAAGGAAGTATTATTGATATCGGAACAGAGATGGATATCGTTAATAAAAGCGGAGCTTGGTATTCATATGAAGGTGAGCGTCTTGGTCAAGGTCGTGAGAATGCGAAGCAGTTTTTGAAAGAGAACAAAAGTATTTCAGAAACGATAGAATTAAGGATTCGTGAGAACAGTAATTTAATTAAAGTTGTCGCTCCTAATGTTGACGAGGAAGATGATGAATTAGAACCAGATTTCGAGTAA
>NZ_CP104467.1_7_gyrA-1 DNA gyrase, A subunit
ATGAGCGAAGAATTACATTCGCAAGTCAAAGAAATTGACATTTCTACCGAAATGCGTACATCTTTCTTAGACTATGCGATGAGTATCATTGTCAGTCGTGCACTGCCAGATGTAAGAGACGGTCTGAAGCCTGTTCATCGACGGATCTTATTCGCGATGTCTGAGCTAGGGATGTCTCCAGATAAACCATATAAGAAATCAGCGAGAATCGTCGGTGAAGTTATCGGTAAGTACCATCCTCACGGAGATTCAGCCGTTTATGAGACGATGGTTCGTATGGCGCAAGATTTCTCACTTCGTTATATGCTGGTCGATGGTCATGGTAACTTTGGATCGATCGACGGGGATATGGCAGCGGCCATGCGTTATACCGAAGCTCGCTTGTCGAAGATCGCGATGGAACTCCTGCGTGATATCAACAAAGAGACCATTGACTATGCTCCTAACTATGATGGTGAAGAACAGGAACCAGTTGTTCTCCCTTCACGTTTTCCGAACTTGCTCGTAAACGGGAGTTCGGGGATTGCGGTAGGAATGGCTACCAATATTCCGCCGCATAACCTTCGTGAGGTAATCGAAGGTATCCAAATGATGATAGCAAATCCGGATGTAACACCGCTTGAATTGATGCAAGTGATTAAAGGACCGGATTTCCCTACAGCTGGCTTTATTTTAGGCCGTGAAGGGATTCGTTCAGCCTATCAAACAGGCAGAGGTTCTGTTACAATGCGTGCTAGAACAGTTATTGAAGAAAACAATAATAAAGCTAGAATCATTGTTAATGAGCTGCCATATCAAGTAAATAAAGCTAGATTAGTTGAGAAAATTGCGGAACTTGTTCGTGAGAAAAAGATTGATGGTATCACGGACCTTCGAGATGAATCCGACCGTAATGGTATGCGAGTTGTTATCGAGCTTCGTCGTGACGTTAATCCGCATGTTGTTCTGAATAACTTGTTCAAACATACGGCCATGCAATCGAACTTTGGTATTATTATGCTTGCACTCGTCAACGGCGAACCAAGAGTTCTAAATCTTCGCGAGATGCTGCACTATTATCTCAAGCATCAGCAAGAGGTTATTCGCCGTAGAACAGAGTATGATTTACGCAAAGCGGAAGCGCGCGCTCACATTTTGGAAGGCTTGCGCATCGCACTTGATCATTTGGACCAAGTTATTGCCTTGATTCGTGCTTCCCGTACAACGGAAGAAGCTAGAGAAGGGCTCATGACTACGTTTAATTTGAGTCTCGATCAAGCTCAAGCTATTCTCGATATGCGTCTACAGCGTTTAACAGGCTTAGAACGTGAGAAGATCGAAGCTGAGTATGCTGAACTTATGAAGAAAATCGCTGAGCTTAAAGCAATTCTTGCCGATGAGAAGCTGATTCTAGCGATCATTAGCGAAGAATTGAATGAAATTAAAGAGAAATTCGGCGATGAGCGACGTTCCGAAATTACGGTTGGTGAGGAAAGCATCGAAGATGAAGACCTCATCCCGCGTGAAGATGTCGTTATCACGATTACGCATACGGGTTACATTAAGCGTCTTCCGGTTACGACGTATCGGAACCAGAAGCGTGGTGGACGTGGCATTGTCGGAATGGATACCAAGGACGATGACTTCGTCGAACATTTGTTCGTGACGAATACGCATCACTATCTGATGTTCTTTACGAATAAAGGAAAAGTGTACCGTCTGAAAGCTTATGAGATTCCGGATCTGAGCCGGACGGCTCGTGGAACACCAATCATTAACTTAATCCAGATCGAGCAAGGTGAGACGATTAACGCGGTGATTCCGGTAGAAAGCTTTGAAACCGAGCAATACCTATTCTTTGCAACGAAGCAAGGTGTTGTGAAGAAGACTCCGATCGATGATTATTCAAATATTCGTAAAGGTGGATTAATCGCTATTAATTTACGGGAAGATGATGATCTCATTGGTGTTAAACTGACTGACGGCAACCAAGGTATTATTATGGGAACCAAGCTCGGCATGTCCATCCATTTCCCTGAACAAGATGTTCGTTCCATGGGTAGGTCTGCTACTGGGGTTAAAGGTATACACCTGGATCCTGAAGATACGGTTATTGATATGGACGTAGTCCATGAAGATAATAGTGTACTCATTGTAACGACCAAAGGTTTTGGTAAGAGAACGCCTGTTTCTGAATATCGGATCCAGACACGCGGCGGTAAAGGGATTAAGACCTTGAACGTCACAGATAAGAACGGCCCTATTGTCGGTCTTAAAGTGGTGCAAAATGATGAGGATCTTATGATTATTACAGCGTCGGGTACTGTTATTCGTACAAGTATGGACGGGATTTCGATGATGGGTCGTAACACGCAGGGTGTACGCTTAATCAATATTCGTGAAGACGATGAAGTTGGAACCTTAGCTCGCGTTCAGAAAAATGAAGAGCAAAGCGAGAATGAGGAAGACGGCGATTGGGAAGAAACAGAAGTAACGGATACAGAAGAATAA
>NZ_CP104467.1_3941_gyrA-2 DNA gyrase, A subunit
ATGAACATATTAGAAGAGTTTTTACCTGCCTATCTGGAGGAGATCGTTGGCGATCGTTTCGGGCGTTATTCTAAATATATTATTCAGGATCGCGCGATTCCAGATGTAAGAGATGGTTTGAAACCTGTACAACGACGTGTATTGTACGCGATGTACGACTCTGGCAATACCCCTGATAAGCCTTATCGTAAATCGGCCAAAACCGTCGGTGATGTCATGGGGAATTACCATCCGCACGGAGATGCTTCCATTTATGATGGTATGGTTCGTATGGCGCAGCCGTGGAAGATGGGCCACACCCTTGTGGATGGCCATGGTAACTGGGGATCACTGGATGATGATCCGCCGGCTGCTATGCGTTACACAGAGGCCAGATTATCTGAGATCGCGATGGAACTTCTGCGTGATATCGAGAAACGTACGGTCATGTTCAAGGATAATTTCGATAATTCCACAAAGGAGCCCGTTGTGCTCCCTGCGCGGTATCCGAACTTACTTGTAAATGGTGTTAGTGGGATTTCGGCTGGATTTGCAACGGAAATTCCTCCACATAATTTGCGGGAAATCATCGATGCTTGTACAGCCATGATCGACAAGCCTGAGATTACCGTCGAAGAATTGATGACAATTGTCAAAGGACCCGACTTCCCTACTTCTGGCATTATCATGGGTGAAGAAGGCATTCGCGAAGCTTATCGCACAGGAAAAGGCCGTATTTACATACGTTCCAAAACAGCGATAGAAGATATGCGCGGCGGCAGACAACAAATAGTAATCACGGAGATCCCTTATCAAGTTGTCAAATCTCGTCTGGTAACGGCCATGGAGAACATTCGGCTTGAGAAGAAAATTGAAGGAATTGCCGAAGTACGCGATGAAAGCGGTCGTAATGGGTTACGGATCGTCGTGGAGCTTAAGAAGGAAGCTGATGCCCAGGGTATTTTGGCTTACTTACTGAAGAAGACAGACTTGCAAGTGACCTACAATTTCAATATGGTTGCGATTGTGAATAAAGCGCCTCGTCAATTGGGTATTCGTGAAATCCTTGAAGCTTACATTGAGCATCAGAAGGAAGTTGTCACGTTCCGTTCTCAATACGAGCTCGAGAAAGCTGAGGACCGCGCACATGTGTTAGAGGGGCTTGTCAAAGCTCTTAACATTTTGGACGAAGTTATCGCAACGATAAAAGCTTCCAAGAATCGGCAAGATGCGCAAAATAACCTTGTTGAGAAGTTTGGATTTTCAGACCGACAAGCAGATGCTATTCTTGTTTTGCAATTATACCGATTAACGAATTTAGAAATCACAACGCTTGAAAAAGAGTTGAAAGATGTTGAGAAAACGATTGCCTATTTACGTGGTATTCTTGGCAGCTTGAAGAAGCTGTTGGGCGTTATCAAAGATGAAATGGGCGAAATCCGCAAGAAATATGGCATTGACCGCCGCTCAGATATTCAAGGTGAAGTGGAAGAACTGAAAGTTAATCTTGAGGTACTCGTGAACGCGGAGGACGTCCTGGTTACGTTGTCCAATGAAGGTTACTTGAAACGGACGAGCAAGCTTTCCTTCACACGTTCAGGCGGAGAACTCGAGAATACAGGGCTGAAGGAAGGCGATTACTTGCGCTTCCTGCTCGACGTGAATACGATCGAAAGCTTGCTGATCTTCACGAAGAAAGGTCAATATTACTTACTGCCTGTCCATCAAGTGCCTGAGTATAAGTGGAAAGAGAACGGTACCGCGATCGTAAATGTCATTCCTATTGCCAAGGAAGATCGCATTGTAAACGTTATTCCAGTGAAGGGCTTTGAGGATCCGACCAAGTCGCTTGTGTTCGTCACACGCAAAGGACAAGTGAAGCGTACAGAGCTGAAAGAATATATGACGAACCGCTCCAACGGAATCGTGGCTTGTAAGCTCGGTGAGCATGACGAAGTCCTTCATGTACATCTAAGTGATAATACGAAAGAAATCTTGCTTGTCACGAAGCAGGGCATGAGCATCCGTTTCCGTGAGGAAGAAGTGAACCCGATGGGCCGTGCGGCCGCGGGTGTGCGCGGCATCCAGCTCAAGGAGGACGATGAAGTCGTCTCAGCCGAGTGGATTTATGGGGATGAAGGGGAAGTGCTGGTCATTTCGGACCTCGGGTATGCAAAGCGTTCCCTAGTCGTGGACTATCCCATCCAAGGACGCGGCGGGAAGGGCATACTTACCTTCGAATTTAAAGAAGGCAAGCGTGTGAGACCTAACGGTTCAACCTTAATACGAACATTTATCGTGAAGATGGATTATCTCATTACGGCTGTCATGAGTAATGGGGAGAAGCTGCGTTTCTCAACAGAGACAGCACCTCTGGAGGATCGGAAAGCACAAGGCAAACAACTTATTCCTGTTTCCAAAACAGATGCGATCGTAGAGATCCTGAGATTCCCTCAATCATAG
>NZ_CP104467.1_5466_pheS phenylalanine--tRNA ligase, alpha subunit
ATGAAAGAGCGGTTAGAAGCTTTGAAGCAGGAAGCGCTGCAGGAGCTAAGCGGCGTACAAAGTCAGCAGGAGTTGAACGATCTACGTATTAAGTATTTGGGTAAAAAAGGACCATTAACCGAGGTATTGCGCGGTATGGGTGCATTAAGTGCAGAAGAAAGACCCGTTATCGGTCAAGTAGCGAACGACGTTCGTGCAGCCATCGAAACTGTTATTGAAGAAAAGCAATCGGCGTACCAACAACAAGAAACCGAAAACCGTTTGCGTGCGGAAATGATTGATGTAACACTGCCAGGTCGTCCATCGCAGCAAGGTGCTGTACATCCTTTAAGCAAAGTTATTCAAGAAATTGAAGACATCTTTATAGGGATGGGCTACACAGTCGCTGAAGGTCCAGAGGTAGAGCAGGACTACTACAATTTTGAGGCACTTAATCTGCCGAAGGATCACCCAGCTCGCGATATGCAGGACTCGTTCTATATCACGGATGAAATTCTAATGCGTACACAAACCTCCCCAGTTCAAGTTAGAACGATGGAGAAACGCAAAGGGGAAGTTCCGATCAAAATCATTTGTCCGGGCAAAGTATACCGCCGTGATGATGATGATGCGACACATTCCCATATGTTTACTCAAATCGAAGGCCTGGTCATCGACCGTAACGTTCGTATGAGTGATTTAAAAGGAACTTTGCTTCAATTCGTGCAAGAAATGTACGGCAAAGAAACGAGAATTCGCTTGCGTCCAAGCTTCTTCCCTTTCACAGAGCCGAGCGTTGAAGTGGATGTGAGTTGTGCAATGTGTGGCGGCGTTGGCTGCCGTACTTGTAAGCAAACGGGCTGGTTAGAAATCCTCGGAGCGGGCATGGTACATCCGCGCGTTCTGGAGATGGGTGGATATGACCCGAAAGAATATACAGGTTTTGCATTTGGAATGGGCGTTGAGCGCATTGCGATGCTGAAATACGGGATTGAAGATATCCGTCATTTTTACACGAACGATTTGCGGTTCTTAAAGCAATTCTTACATTTGTAA
>NZ_CP104467.1_189_ksgA ribosomal RNA small subunit methyltransferase A
ATGAATGTACCCAATAATGAAGTGATTGTAACAGCCGATGACGTGGCTACACCAAGTAAAACGAAACAAATTATTAAGAGAAATGGTCTGGTGCTCAAAAAAAGCTTGGGCCAAAACTTCCTGATTGACCAAAATATCCTAAGCAAGATTGTTTTGGCCGCTGAGCTCGGGCCGAACAAGGCTGCGCTTGAGATCGGCCCCGGCATTGGGGCGCTCACGCAGCAGCTGGCCAAGCTCGCTGGACGTGTCTTGGCCGTCGAGATCGATCAGCGTCTGCTGCCCATCCTGGACGAGACGCTGGAGCCCTATCCCCATGCTACTGTTGTCCATGGTGACATCTTGAAGACCGACCTGCCGGAGTTGTTCCGGCAGCACTTCGAGGGCATGGATGGCGTCAGTGTCGTCGCCAACCTGCCCTACTACATCACGACGCCGATCATCATGAAGCTTCTCGAAGAGAAGCTTCCCTTGGAGAATATCGTCGTGATGATTCAAAAAGAGGTGGCCGACCGCATGGCGGCTCGCCCGGGCACCAAAGATTACGGCAGCCTCAGCATTGCCGTGCAGTTCCACTGCGAGCCGGAGCTTGTCACGATCGTGCCTCGCACCGTCTTCGTACCGCAGCCGAACGTCGACTCCGCCGTGATTCGGCTGCGTGTGCGCAAAACCCCGCCGGTCGAGGTGGCGGACGTGGACTTCTTCTTCGCCGTCGTCCAAGCGTCCTTCGTCCAGCGGCGCAAAACCCTTTACAATAACCTAGCTGCGCGGTTCTTTACGAAAGAGAACAAGCCTGAGCTGGAAGCGCTGCTGCTCGGCATTAACATAGAGCCTTCGCGTCGCGGCGAAACACTCAGTATGGAAGAGTTCGCGCGCTTGTCGTCGACTCTTCTCGCGCACGGCTGCAAATAA