>NZ_BMNG01000005.1_371_dnaB-1 replicative DNA helicase
GTGAGTATTTCCGAGCCCTTGGACGACCCGTGGGCCGACAGCGGTCCGGGGGACCGTCTGCCTGTCTCCCGCCCGCGCCGTGACGGAGGCCGGGGCCGCGAGGAGCAGCACGACCGGGGTCGGGAGAGCTCCTGGGACGGCGGTGGTACGTCCTTCGAGCGCGTTCCGCCGCAGGATCTCGACGCCGAGCAGTCCGTACTCGGCGGCATGCTGCTGTCCAAGGACGCCATCGCGGACGTCGTCGAGGTGCTCAAGGGCCACGACTTCTACCGCCCGGCGCACGAGACGATCTTCATCGCGATCCTCGACCTGTACGCCAAGGGCGAGCCGGCCGACCCCATCACCGTCGCCGCCGAGCTCACCAAGCGCGGTGAGATCACCAAGGTCGGCGGCGCCTCGTATCTGCACTCGCTCGTCCAGACGGTCCCGACGGCCGCGAACGCCGAGTACTACGCGGAGATCGTCCACGAGCGCGCGGTCCTGCGCCGCCTGGTCGAGGCCGGTACGCGCATCACACAGATGGGATACGCGGCCGACGGCGACGTCGACGAGATCGTCAACAGCGCCCAGGCCGAGATCTACGCCGTCACCGAGCAGCGCACCAGCGAGGACTATCTGCCGCTGGGCGACATCATGGAGGGCGCGCTCGACGAGATCGAGGCGATCGGCTCGCGCAGCGGCGAGATGACGGGTGTGCCGACAGGCTTCACCGACTTCGACTCGCTCACCAACGGCCTGCACCCCGGCCAGATGGTCGTCATCGCGGCCCGTCCCGCGATGGGTAAGTCCACGCTGGCGCTCGACTTCGCGCGGGCCGCCTCCATCAAGCACAACCTGCCCAGCGTCATCTTCTCCCTCGAAATGGGGCGCAACGAGATCGCGATGCGTCTGCTCTCCGCCGAGGCACGTGTGGCGCTGCATCACATGCGTTCCGGCACGATGACGGACGAGGACTGGACGCGGCTCGCGCGCAGGATGCCCGAGGTCTCGGCCGCTCCGCTCTACATCGACGACTCCCCGAACCTGTCGATGATGGAGATCCGCGCGAAGTGCCGCCGCCTCAAGCAGCGCGCCGACATCAAGCTCGTGATCATCGACTATCTGCAGCTCATGCAGTCCGGCGGCTCGAAGCGCGCCGAGAGCCGCCAGCAGGAAGTCTCGGACATGTCGCGAAACCTGAAGCTGCTCGCCAAGGAGCTCGAAGTTCCGGTCATCGCGCTCTCACAGCTGAACCGTGGCCCCGAGCAGCGCACCGACAAGAAGCCCCAGGTCTCCGACCTGCGTGAGTCCGGCTCCATCGAGCAGGACGCGGACATGGTGATCCTGCTGCACCGCGAGGACGCGTACGAGAAGGAGTCACCGCGCGCGGGCGAGGCGGACATCATCGTGGGCAAGCACCGTAACGGCCCGACGGCGACGATCACTGTGGCGTTCCAGGGCCACTACTCGCGCTTTGTGGACATGGCGCAGACGTAG
>NZ_BMNG01000033.1_1_dnaB-2 replicative DNA helicase
GTGTCCAGCCCTATGGCCAATCCGGACACCGATGACGTCGCCGACTTCCCCCGCCAGGGCGCCACCGGCGGCTTCGAGCGGGTTCCCCCGCAGGACCTCGATGCGGAGCAGTCGGTGCTGGGCGGGCAACTGCTGTCCAAGGACGCCATCGCCGACGTCATCGACGGACCCATGCAGATCCGCGACTACTACCGTCCGGCGCACGAGACAATCCAGCAGGCGATCCTGTACCTGTACGGCCAGGGCGAGCCCGCCGACCCGATCACGGTTGCTGCCGAGCTCGCCAAACGGGGTGAACTGGCCAAGGTCGGCGGCGCTTCCTACCTGCACGCCCTGGTCCAGTCGGTGCCCACGGCGGCCAACGCCGAGTACTACGCCGAGATCGTCCACGAGCGCGCCGTGCTGCGGCGGCTGACCGAGGCCGGTACTCGGATCACGCAAATGGCCCACGCAGGCGAGGGTGACCTCGACGACATCAAGAGCGCCGCCGAGTCCGAGCTCCTGGACGCGCTCAAGGGGCGTGAGGAGTCCGCCGGTTACGCCTACGTCCGCGAGGATGTCCCCAAGTTCTGGGACAGCCTCGATGCGCGGATGAAGGGCACGGCGGCGATGGCCGGTGTGCCCACCGGCCTGGTGGACATGGACGCGATGACCAACGGCCTCAAGGCCGGCCAGCTCATCGTCATCGGCGCCCGCCCGGCCATGGGTAAGTCCACGCTCGCCCTGGACTTCGCACGCGCCGCCTCGATCAAGAACGGGCTGACGGCGGCCTTCTTCTCGCTGGAGATGGGGCGCGAGGAGATCGCCAACCGGATCTACAGCGCCGAGTGCCGTGTGGCTCTGCATCACATCAACGCCGGGTCAGTGAGCGAGGATGATCTAGAGCGCATGGCCCGGCGTACGCAGGCCATCGAGGCGGCTCCGCTCATCATCGACGACTCCCCGAACCTCACGTGCATGGAGATCCGCTCCCGGGCCCGGCGCATCAAGCAGGCCAAGGGAGGCCTGGACCTGCTGATCGTGGACTACCTTCAGCTCATGCTGTCGGGCGCCAGCCGCCGGGCGGAGAGCCGTCAGCAGGAAGTCTCGGACATGTCGCGAAACCTGAAGCTGCTCGCCAAGGAGCTCGAGGTCCCGGTCATCGCGCTCTCGCAGCTGAACCGTGGCCCCGAGCAGCGCACCGACAAGAAGCCCCAGGTCTCCGACCTGCGT
>NZ_BMNG01000011.1_262_rpsA ribosomal protein bS1
ATGACGAGCAGCACCGAGACCACCGCCACCACTCCGCAGGTAGCGGTCAACGACATCGGTAACGAGGAAGCCTTCCTCGCCGCGATCGACGAGACGATCAAGTACTTCAACGACGGCGACATCGTCGACGGCGTCATCGTGAAGGTCGACCGGGACGAGGTCCTGCTCGACATCGGTTACAAGACCGAAGGTGTGATCCCGAGCCGCGAGCTCTCGATCAAGCACGATGTCGACCCGAACGAGGTCGTCAAGGTCGGCGACGAGATCGAGGCCCTGGTTCTCCAGAAGGAGGACAAGGAAGGCCGCCTGATCCTCTCGAAGAAGCGCGCTCAGTACGAGCGTGCCTGGGGCACCATCGAGAAGATCAAGGAAGAAGACGGAATCGTCACCGGTACCGTCATCGAGGTCGTCAAGGGTGGTCTCATCCTCGACATCGGCCTCCGTGGCTTCCTCCCGGCCTCCCTGGTCGAGATGCGCCGTGTCCGCGACCTTCAGCCCTACGTGGGCAAGGAGCTCGAGGCCAAGATCATCGAGCTGGACAAGAACCGCAACAACGTGGTCCTGTCCCGCCGTGCCTGGCTCGAGCAGACGCAGTCCGAGGTCCGCCAGACGTTCCTCACCACCCTGCAGAAGGGTCAGGTCCGCTCCGGCGTCGTCTCCTCGATCGTCAACTTCGGTGCCTTCGTGGACCTGGGTGGCGTCGACGGTCTCGTCCACGTCTCCGAGCTCTCCTGGAAGCACATCGACCACCCCTCCGAGGTTGTCGAGGTCGGCCAGGAAGTCACCGTCGAGGTCCTCGACGTCGACATGGACCGCGAGCGCGTCTCCCTGTCGCTCAAGGCGACGCAGGAAGACCCGTGGCAGCAGTTCGCCCGCACGCACCAGATCGGGCAGGTCGTTCCCGGTAAGGTCACCAAGCTCGTTCCGTTCGGCGCGTTCGTGCGCGTCGACGAGGGCATCGAGGGCCTGGTCCACATCTCCGAGCTGGCCGAGCGCCACGTGGAGATCCCGGAGCAGGTCGTCCAGGTCAACGACGAGATCTTCGTCAAGGTCATCGACATCGACCTCGAGCGTCGCCGGATCTCGCTGAGCCTCAAGCAGGCCAACGAGTCCTTCGGTGCCGACCCGTCGTCCGTCGAGTTCGACCCGACGCTGTACGGCATGGCCGCGTCGTACGACGACCAGGGCAACTACATCTACCCCGAGGGCTTCGACCCCGAGACCAACGACTGGCTCGAGGGCTTCGAGACCCAGCGCGAGGCTTGGGAGGGCCAGTACGCCGAGGCGCAGCAGCGCTTCGAGCAGCACCAGGCCCAGGTCATCAAGTCCCGCGAGGCGGACGCCCAGGCCGAGGCCGAGGGTGCGGCCGCTCCCGGTGGCGCGGCTCCGGCCGCCGGCACCGGCGGTGGCGGTGGCGGCGGCGGTTCGTACTCCTCGGAGTCGGACGACAACTCCGGCGCCCTGGCGTCGGACGAGGCGCTCGCCGCTCTGCGCGAGAAGCTTGCCGGAGGCCAGAGCTGA
>NZ_BMNG01000003.1_22_recA protein RecA
ATGGCAGGAACCGACCGCGAGAAGGCGCTCGACGCCGCGCTCGCACAGATTGAACGGCAATTCGGCAAGGGCGCAGTGATGCGCATGGGCGAGCGGCCGAATGAGCCCATCGAGGTCATCCCCACCGGGTCGACCGCGCTTGACGTCGCGCTCGGCGTCGGCGGCATCCCCCGCGGCCGTGTGGTGGAGGTGTACGGACCGGAGTCCTCCGGTAAGACCACCCTCACCCTGCACGCGGTGGCCAACGCCCAGCGGGCGGGCGGCTCGGTGGCGTTCATCGACGCCGAGCACGCCCTCGACCCCGAGTACGCCAAGAAGCTCGGCGTCGACATCGACAACCTCATCCTGTCCCAGCCGGACAACGGCGAGCAGGCCCTCGAGATCGTCGACATGCTGGTCCGCTCCGGTGCGCTCGACCTGATCGTCATCGACTCCGTCGCGGCCCTGGTGCCGCGCGCGGAAATCGAGGGCGAGATGGGCGACTCGCACGTGGGTCTGCAGGCCCGTCTGATGAGCCAGGCCCTGCGGAAGATCACCAGCGCGCTCAACCAGTCCAAGACCACCGCGATCTTCATCAACCAGCTCCGCGAGAAGATCGGTGTGATGTTCGGCTCCCCGGAGACCACGACCGGTGGCCGGGCCCTGAAGTTCTACGCCTCGGTGCGCATGGACATCCGCCGCATCGAGACCCTCAAGGACGGCACGGACGCGGTCGGCAACCGCACCCGCGTCAAGGTCGTCAAGAACAAGGTCGCGCCGCCCTTCAAGCAGGCCGAGTTCGACATCCTCTACGGCCAGGGCATCAGCCGCGAGGGCGGCCTGATCGACATGGGCGTGGAGCACGGCTTCGTCCGCAAGGCCGGCGCCTGGTACACGTACGAGGGCGACCAGCTCGGCCAGGGCAAGGAGAACGCCCGCAACTTCCTCAAGGACAACCCCGATCTCGCCAACGAGATCGAGAAGAAGATCAAGGAGAAGCTGGGCGTCGGTGTGCGCCCGGAGACCCCGGCGGCGGAGCCGGGCGCGGACGCGGCGGTCGCGGCCGCCCCCGCAGCGGACGACGCGGCCAAGACGGTGCCCGCCCCCGCGGCCGCCAAGGTCACCAAGGCCAAGGCCACGGCGGCCAAGAGCTAG
>NZ_BMNG01000005.1_334_gyrA-1 DNA gyrase, A subunit
ATGGCCGACGAGAACAACCCCACCACCACCGAGGACGGCGAGGACCAGTCGCTGCGCATCGAGCCCGTCGGGCTCGAGACGGAGATGCAGCGCTCGTACCTGGACTACGCGATGTCCGTCATCGTGTCCCGCGCGCTGCCCGACGTCCGCGACGGCCTCAAGCCCGTCCACCGCCGTGTCCTGTACGCGATGTACGACGGCGGGTACCGCCCCGAGAAGGGCTTCTACAAGTGTGCCCGCGTCGTCGGCGACGTCATGGGCAACTACCACCCGCACGGCGACTCCTCGATCTACGACGCGCTTGTCCGCCTCGCGCAGCCGTGGTCGATGCGCATGCCGCTGGTGGACTCCAACGGAAACTTCGGCTCTCCGGGCAACGACCCCGCGGCCGCCATGCGCTACACCGAGTGCAAGATGGCGCCGCTGTCCATGGAGATGGTCCGGGACATCGACGAGGACACCGTCGACTTCACGGACAACTACGACGGCCGCTCCCAGGAGCCCACCGTCCTGCCGTCCCGCTTCCCGAACCTGCTGATCAACGGTTCGGCGGGCATCGCGGTCGGCATGGCCACCAACATCCCGCCGCACAACCTGCGCGAGGTCGCCGCGGGCGCCCAGTGGGCCCTGGAGCACCCGGAGGCCACGCACGAGGAGCTGCTCGATGCGCTCGTCGAGCGCATCAAGGGCCCGGACTTCCCGACCGGCGCCCTGGTCGTCGGCCGCAAGGGCATCGAGGAGGCGTACCGCACGGGCCGTGGCTCCATCACGATGCGCGCGGTCGTCGAGGTCGAGGAGATCCAGAACCGCCAGTGCCTGGTGGTCACCGAACTCCCCTACCAGACCAACCCGGACAATCTCGCGCAGAAGATTGCCGACCTGGTCAAGGACGGCAAGGTCGGCGGCATCGCGGACGTCCGCGACGAGACGTCGTCCCGTACCGGCCAGCGACTCGTCATCGTGCTCAAGCGCGACGCCGTCGCCAAGGTCGTACTGAACAACCTCTACAAGCACACGGACCTCCAGTCGAACTTCGGCGCCAACATGCTGGCGCTGGTCGACGGTGTGCCGCGCACGCTGTCGCTCGACGCGTTCATCCGCCACTGGGTCGCCCACCAGATCGAAGTCATCGTCCGGCGCACCAAGTTCCGGCTGCGCAAGGCCGAGGAGCGCGCGCACATCCTGCGCGGCCTGCTCAAGGCCCTGGACGCCATCGACGAGGTCATCGCGCTCATCCGGCGCAGCGACACCGTCGAGATCGCGCGTGTGGGCCTGATGGAGCTCCTGGCGATCGACGAGATCCAGGCGAACGCCATCCTGGAGATGCAGCTCCGCCGGCTCGCCGCCCTGGAGCGCCAGAAGATCGTGGCGGAGCACGACGAGCTCCAGCTGAAGATCAACGAGTACAACGCGATCCTGGCCTCGCCCGAGAAGCAGCGGGCGATCGTCAGCGAGGAACTCGCGGCGATCGTCGAGAAGTTCGGCGAGGACCGCCGCTCCGCGCTCGTGCCCTTCGACGGCGACATGTCCATGGAGGACCTGATCGCCGAAGAGGACATCGTCGTCACCATCACGCGCGGCGGCTACATCAAGCGCACCAAGACGGAGGACTACCGCTCGCAGAGGCGCGGCGGCAAGGGCGTGCGCGGCACGAAGCTGAAGCAGGACGACATCGTCGACCACTTCTTCGTGTCGACGACGCACCACTGGCTGCTGTTCTTCACGAACAAGGGCCGCGTCTACCGCGCGAAGGCGTACGAACTGCCCGACGCGGGCCGCGACGCCCGCGGTCAGCACGTCGCGAACCTGCTCGCCTTCCAGCCGGACGAGCAGATCGCCGAGATCCTCGCGATCCGTGACTACGAGGCCGCGCCCTACCTGGTGCTCGCCACGAAGGCCGGCCTGGTCAAGAAGACGCCTCTGAAGGATTACGATTCGCCCCGTTCCGGCGGCGTCATCGCGATCAATCTGCGCGAGACGGACGACGGCGCGGACGACGAACTGATCGGCGCCGAACTGGTTTCGGCCGAGGACGATCTGCTTCTGATCAGCAAGAAGGCACAGTCGATCCGCTTCACGGCGACCGACGACGCGCTGCGTCCGATGGGCCGCGCGACCTCAGGTGTGAAGGGCATGAGCTTCCGCGACAGCGATCAGCTGCTCTCGATGAATGTGGTTCGGCCCGGTACGTTCGTCTTCACCGCCACCGATGGTGGGTACGCGAAGCGGACCGCCGTCGACGAATACCGCGTCCAGGGCCGCGGTGGCCTCGGCATCAAGGCCGCCAAGATCGTGGAGGACCGCGGTGAGCTCGTCGGCGCGCTGGTGGTCGAGGAGACCGACGAGATCCTCGCCATCACCCTCTCCGGCGGTGTGATTCGTACGCGAGTCAACGAGGTCAGGGAGACGGGCCGTGACACCATGGGCGTCCAACTGATCAACCTGGGCAAGCGCGATGCCGTGGTCGGTATCGCTCGTAACGCCGAGGCCGGGCGCGAGGCCGAGGAAGTCGACGGTGACATCGTCGTCGACGAATCGTCCGACGGCGAGTCGGCCGTCGGTACGGACGAGGGCACCGAGTCCCCGGCCGAGTAG
>NZ_BMNG01000003.1_114_gyrA-2 DNA gyrase, A subunit
ATGGCCCGCCGCAGCACGAAGACCCCGCCGCCCGACGACGCGTTCGAGGAGAAGATCCTCGACATCGACGTCGTCGACGAGATGCAGGGCTCCTTCCTCGAGTACGCCTATTCGGTCATCTACTCCCGCGCCCTGCCCGACGCCCGGGACGGTCTGAAGCCGGTGCACCGCCGCATCGTCTATCAGATGAACGAGATGGGCCTGCGCCCCGAGCGCGGATACGTGAAGTGTGCGCGCGTCGTCGGCGAAGTGATGGGAAAGCTGCACCCCCACGGCGACGCGTCGATCTATGACGCCCTGGTGCGCATGGCGCAGCCCTTCTCGATGCGCCTCCCCCTGGTCGACGGCCACGGCAACTTCGGCTCCCTGGGCAACGACGACCCGCCGGCCGCGATGCGGTACACCGAGTGCCGCATGGCGGACGCGACCTCCTTGATGACGGAGTCGATCGACGAGAACACGGTCGACTTCGAGCCGAACTACGACGGCCAGGAGAGAGAGCCCGTCGCCCTCCCGGCGGCGTATCCGAACCTTCTGGTGAACGGCTCCTCCGGCATCGCCGTCGGCATGGCCACGAACATGGCCCCGCACAACCTCGGCGAGGTCATCGCCGCCGCCCGGCACCTGATCAAGCACCCGGGCGCCGACCTCGAGACGCTGATGCGCTTCATCCCGGGTCCGGACCTGCCCACGGGCGGCCGGATCGTGGGCCTGTCCGGCATCAAGGACGCGTACGAGACGGGGCGCGGCACCTTCAAGATCCGCGCCACGGTCTCCGTGGAGTCGGTGACCCCGCGCCGCAAGGGCCTGGTCGTCACCGAACTGCCCTTCACCGTCGGCCCCGAGAAGGTCATCTCCAAGATCAAGGACCTGGTCGGCGCGAAGAAGCTCCAGGGCATCGCCGACGTCAAGGACCTCACGGACCGCGCGCACGGCCTGCGTCTGGTCATCGAGATCAAGAACGGCTTCGTCCCGGAGGCCGTCCTGGAGCAGCTCTTCAAGCTGACGCCGATGGAGGAGTCCTTCGGCATCAACAACGTCGCGCTGGTGGACGGCCAGCCCTTGACGCTCGGCCTCAAGGAGCTCCTCGAGGTCTATCTCGACCACCGCTTCAACGTGGTGCGGCGGCGCAGCGAGTTCCGCCGCGGCAAGAAGCGCGACCGGCTGCACCTGGTGGAGGGCCTGCTCGTCGCCCTCCTGGACATCGACGAGGTCATCCGCCTCATCCGCTCCAGCGACAACTCCGCGCAGGCCAAGGAGCGCCTGATGGAGCGCTTCTCGCTGAGCGAGATCCAGACGCAGTACATCCTGGACACGCCGCTGCGCCGCCTCACCAAGTACGACCGCATCGAGCTGGAGTCCGAGCGCGACAAGCTGAAGGCGGAGATCGAGGAGCTGACGCGGATCCTGGAGTCCGACGCGGAGCTGCGCAAGCTGGTCTCCTCCGAACTGGCCGCCGTGGCCAAGAAGTTCGCCACGGACCGGCGCACGGTGCTCCTGGAGTCGGGCGGCGCGCCCGCCGCCGCGGTGCCGCTGCAGGTCGCGGACGACCCGTGCCGGGTGCTCCTGTCGTCGACGGGCCTGCTGGCGCGTACGGCCAACGGGGAGCCGTTCGGCGAGAGCGACGGCAAGCGCGTGAAGCACGACGTGATCGTCTCCGCGGTGCCCGCGACGGCGCGCGGCGAGGTGGGCGCCGTGACGTCGGAGGGCCGGCTGCTGCGGCTCGCCGTGGTGGACCTGCCGCAGCTCCCGGACACGGCGTCGGCGCCCAACCTCTCCGGAGGCGCCCCGGTGTCCGAACTGCTCTCCCTGGAGGCGGACGAGAAGCTGATCTGCCTGATGACGCTCGACGAATCGTCGCCCGGCCTGGCGCTCGGCACCGAGCAGGGCGTAGTCAAGCGCGTGGTTCCCGACTACCCCACGAACAAGGACGAGCTGGAAGTCATCACCCTCAAGGACGGCGACCGCATCGTCGGCGCGGCCGAGCTGCGTACGGGTGAGGAGGACCTGGTCTTCATCACCGACGACGCGCAACTGCTGCGCTATCCGGCGGGGCAGGTCCGCCCGCAGGGGCGTCCGGCGGGCGGCATGGCGGGCATCAAGCTCGCCGACGGTGTGAAGGTCATCTCCTTCACGGCGGTGGACCCGGCGGTGGACGCCGTGGTGTTCACGGTCGCGGGCTCGCGCGGCACACTCGACGACTCGGTGCACACGACGGCCAAGGTCACGCCGTTCGACCAGTATCCGCGCAAGGGGCGCGCCACGGGCGGCGTGCGCTGCCAGCGGCTCCTGAAGGGCGAGGACTGCCTGAGCTTCGCCTGGGCGGGCCCGACGCCGCCGCGCGCGGCACAGCGCAACGGCCTGCCGGCCGAGCTGCCCGAGCCCGACCCGCGCCGGGACGGCTCCGGGGTGTCGCTGGCGAAGCCTGTGGGGGCGGTGGCGGGGCCGGTGTAG
>NZ_BMNG01000012.1_224_pheS phenylalanine--tRNA ligase, alpha subunit
ATGTCGGCACCGAACAAGTCGTACGACCCTGTCGAGGTCGAGGCACTGAAACCTGAAGAGATCGAGCGCATGCGGGACGAGGCGCTCGCCGCCTTCGTGGCCGCGTCCGACCTCGACCGGCTCCAGGAGGCCAAGACCGCCCACACCGGCACCGCCTCGCCGCTGGCGCTCGCCAACCGCGAGATCGGCGCGCTGCCCCCGCAGGCCAAGGCCGAAGCGGGCAAGCGCGTGGGCATGGCCCGCGGCGCCGTGAACAAGGCGCTCGCCGCCCGCCAGAGCGAGCTCGAGGCCGAGCGCGACGCCCGCGTCCTGGTCGAGGAGGCCGTGGACGTCTCCCTGCCCCACGACCGCGTCCCCGCGGGTGCCCGGCACCCGCTGACCACGCTGTCGGAGCGCATCGAGGACATCTTCGTGGCCATGGGCTACGCGGTCGCCGAGGGCCCCGAGGTCGAGGCGGAGTGGTTCAACTTCGACGCCCTGAACATCGGCCCCGACCACCCGGCGCGCGGCGAGCAGGACACGTTCTTCGTCGACGCTGCGTCTCTGGGTGCCCCGGCGGCCAAGGACGCCGACGGCTCCGGTGTCGTCCTTCGCACACACACCTCGCCCGTGCAGATCCGCTCGCTCATCGACCGCGAGCCGCCGGTGTACGTGATCTGCCCCGGCCGCGTCTACCGCACCGACGAGCTGGACGCCACGCACACCCCCGTCTTCCACCAGGTCGAGCTGCTCGCCGTGGACGAGGGCCTGACCATGGCCGACCTCAAGGGCACCCTGGACCACATGGTGCAGGCGCTGTTCGGCGGCGAGGGCATGAAGACCCGGCTGCGGCCGAACTTCTTCCCCTTCACCGAGCCGTCCGCCGAGATGGACATGGTCTGCTACGTGTGCCGCGGCGAGTCCGTGGGCAACCCCGACCGCCCCTGCCGCACCTGCTCCTCCGAGGGCTGGATCGAGCTCGGCGGCTGCGGCATGGTCAACCCCAAGGTGCTTGCCGCCTGTGGCGTGGACCCCGAGAAGTACAGCGGATTCGCCTTCGGGTTCGGCATCGAGCGGATGCTGATGTTCCGCCACAACGTAGAAGACATGCGAGACATGGTCGAGGGTGACGTGCGCTTCACCCGGCCGTTCGGGATGGAGATCTGA
>NZ_BMNG01000018.1_49_ksgA ribosomal RNA small subunit methyltransferase A
GTGCGGCGCACCCAGAGCTACTCTGGGGCGGTGAGTACCGAGCAAGGCGCCCTCCTGGGCCCCGCCGAAATCCGCGACCTCGCCGCGAAACTCGGCGTACGCCCGACCAAGCAGCGCGGCCAGAACTTCGTCATCGACGCGAACACCGTCCGCCGCATCGTCCGCACCGCGGAGGTGGGCCCGGACGACGTCGTCGTCGAGGTCGGTCCGGGCCTCGGCTCGCTGACCCTGGCCCTCCTGGAGACGGCGTCCCACGTCACCGCCGTGGAGATCGACGACGTGCTCGCCGGGGCGCTCCCGGCGACGGTCGAGGCCCGCGTCCCGCGGAAGGCGGCCTCCTTCGACCTGGTCCACAGCGACGCCATGCTCGTCCGCGAACTCCCGGGCCCCGCCCCGACCGCCCTGGTCGCGAACCTCCCGTACAACGTCGCCGTACCGGTCCTGCTGCACATGCTGGACACCTTCCCCAGCATCGAGCGCACGCTGGTGATGGTGCAGGCCGAGGTCGCCGACCGCCTCGCCGCCGACCCGGGCTCGAGGGTGTACGGCGTCCCGTCGGTGAAGGCGAACTGGTACGCCGAGGTCAAGCGCGCGGGCTCCATCGGCCGCAACGTCTTCTGGCCCGCCCCGAACGTCGACTCGGGCCTGGTGTCGCTGGTGCGCCGCGCCGAGCCGGTGAAGACCACCGCGTCCAAGCGGGAGGTGTTCACCGTCGTCGACGCGGCCTTCGCCCAGCGCAGGAAGACGCTGCGCGCGGCCCTCGCGGGCTGGGCGGGCTCCGCCGCGGCGGCCGAGGCGGCCCTGGTCGCCGCGGGCGTCTCGCCGCAGGCGCGCGGCGAGTCCCTGACGGTGGAGGAGTTCGCGCGGATCGCGGAGAACAAGCTTCCCCAGCCCGACACCACCGCCGAAACCGAGGAACCCGGTAAGTGA