>SHXX01000037.1_8_dnaB replicative DNA helicase
ATGGCTGACGAACGCCTGCCGCCGCAGAACTCCGAAGCCGAGCAATCGGTTCTGGGCAGCATCCTGATCGACCGGGATGCAATCGTACGCGTTGCCGGGTTCCTCCAACCCGATGACTTCTACCGGGTTGCCCACCGCCAGATCTACCAAGTGGCGAGGAACTTGTACGAACGCAAGGAACCTGCGGACTTCGTCCTCGTCTGTGACGAACTCGAACGGCGGGGCGAACTCACGAACGTCGGCGGTCCGGGATACATCACCAGCCTGATCAACATGGTGCCGACGGCCGTCAATGTCGAGTACTACGGGCATATTGTTGAGCGGAACGCGGTCCTGCGTCGCCTGATCTCGGCGGGCGGACAGATTGCCCAACTCGCCTACGACACCCAGCATGACGCCGAACTTGCGGTGGACAAGGCCGAACAGGTCCTGTTCAACCTGACGCAACGGCGCGGCTCGCGCGATTACATCGCGATGTCCGACTTCATGCAGGACTACTTCACCCAACTTGACGAAATCCACCAGCGGCGCGGGCAGCCAATCGGAGTGCCCACGGGATTCACACGCCTCGACGCGCTGACCGGTGGCTTGCAGAAGTCGGACCTCATCATCCTTGCAGCGCGGCCCGGTGTCGGCAAGACATCGCTTGCACTGAATATCGCGAGCAATGCGGCCCAGCACAACAAGGTGGGGACGGGCATCTTCTCCCTGGAAATGTCGCGAGACCAGTTGGTGTTGCGACTGTTGTGCGCCCACACCGGACTTGACTCTCATCGACTGCGTACGGGCAACATCGAGGAAGGTGAGTGGGCGAAGGTCGCCGAGGCAATGAGCGTCCTCGCCGACATGCCCATCTACATCGATGACACCCCAGGCATCTCGGTGATGGAACTGCGGACGAAGGCGCGCAGGATGCAGGCCGAGCACGACATCGGCTTCATCGTGGTCGACTACCTGCAACTCATGCAAGGGCGGGCTTCTGACAACCGTGTCCAGGAAGTCTCGGAGATCAGCCGGGCGTTGAAGGGTCTCGCACGCGAACTCAACGTACCGGTACTCGCGCTGTCACAGCTTTCACGTGCGGTCGAGAGCCGTCCGGGCAACAAGCCCCAACTCTCGGACCTCAGGGACAGCGGTTCGATCGAACAGGATGCGGACGTGGTGATGTTCATTTACCGTGCGGAGATGTACGACAAGGAGACGGCACCGAAGAATGTCGCCGAAGTGATCGTGGCCAAGCACCGCAATGGCCCCACCGGTGACATCGAACTCTTCTTCTCACCACGCCTGACCCGTTTCAGCGACCTGGAACAGCGATACACGTCACCATATTCCTGA
>SHXX01000026.1_5_recA protein RecA
ATGACCGCGTCATCAACTGGCAAGACAACTCCCCCCGCAGCAGCCTCAGCCGGGATCCTTGACCGAGGCGAGAAGGCTAGTGCTGATCGCCTTAAGGCGATTGACCTTGCAATCGGCCAGGCGGAAAAGCAGTTCGGCAGAGGCGCCATCATGCGGCTCGGCGACAGCGCTGCCAAGATGCAGGTCGAAGCAATTCCAACCGGCGCACTTGCTTTGGACCTTGTACTCGGTATCGGAGGCCTGCCCCGAGGACGTATCGTCGAGATTTACGGTCCCGAGAGTTCCGGAAAGACGACCCTTGCATTGCACGTCGTCGCTTCTGCGCAACGCATTGGCGGCATTGCGGCCTACATTGACGTGGAGCACGCCTTGGATCCGGTCGATGCTCAGAACAGATGCGGTGTCCGGATCGACGACCTTCTGGTCAGCCAGCCGGATACTGGGGAACAGGCGCTCGAGATCTGCGAAATGCTTGTGCGGAGCGGTGCCATCGACGTTGTCGTCGTCGACTCCGTCGCGGCCCTTGTGCCTCGCGCCGAAATTGAGGGAGACATGGGCGACTCACAACCGGGCCTACAGGCACGCTTGATGAGTCAGGCTATGCGCAAGCTGACCCCGGCAATCTCAAACAGCCGCACCATGGTCATTTTCATCAACCAGATCCGTGAAAAGATTGGCGTGATGTTCGGAAGCCCTGAGACGACCCCCGGAGGCAAGGCGCTGAAGTTTTACGCCTCAGTCCGTCTCGATATCCGACGAACCGACAACGTCAAAGTTGGAACAGACGTGGTTGGAATGCGCGCGAAGGTAACCGTCCGCAAGAACAAGGTTGCGCCTCCTTTCCGCGTGTGCGAGTTTGACATCCTCTGGTCTGAAGGAATCTCTCGAACGGGAAGCCTTCTGGATCTGGGTGTCGAGATGAACATCATCAAGAAGGCTGGTGCGTACTTTAGCTTCGGCGACGTGAAACTCGGCCTCGGGCGCGAGAATGCCCGTGAGTTCCTTCGCCAACACGGCGCCGTTGCCGACGAGATCGAAGCCTCGATCCGGGCAAATGCAAAGGCCGGCAAGGTCGCGGCCCCCGCAGCGCCAAGCGCCGAGTAG
>SHXX01000016.1_17_gyrA-1 DNA gyrase, A subunit
ATGGCAAACTTTGACATAATGGTAGATTCGTCTGACGAACGCACGAACGGCCCGGAACAGGGCGACAATCCGGGCACTGAAGCGAACCAGTTCGACGCCGAACGTGCCGAGGAAACCCTCCGCGGAGACGGTTCCGACGGGTTGAGCCTCCCGGTACTGACTGCAGCCGCCGCGCCCATCAATCTCGGGGCGAACAATGGCGGTGGCGCGTATTCCGGTGACGTCCAACAGGTCCAGATTGAAGTCCAGATGCGCACCGCGTACCTGGACTACGCGGTCAGCGTCATCGTCGGACGCGCCTTTCCGGATGCCCGTGACGGCCTCAAACCGGTCCACCGCCGCGTTCTCTACACCATGCTTGAAGAGAACATCCGGGCGAATGGGCCGTACAAGAAGAGTGCCCGGACCGTTGGCAACGTCATCGCCAAGTATCACCCGCACGGCGAGTCGTCAATCTATGACGCACTCGTCCGCATGGCGCAGCCATTCAGCCTGCGGTACCCACTCGTTGACGGTCAGGGCAATTTCGGGTCGGTCGACAATGACCCGGCCGCCGCGATGCGTTACACCGAGGCGCGCCTGACCGCAGTTGCCGAGGAACTCCTTGCCGATATCGACAAGGACACCATCGACTTCAACGACAACTTCGATGCCACCGAGAAGGAACCTTCAATCCTTCCGGGCAAGTTGCCCAACCTGCTCCTCAATGGTGCCGAAGGCATCGCCGTCGGCATGGCGACCAAGATCCCGACTCACAACCTGCGCGAACTCGTCGCGGGCATCACCCATCTCATCGACAATCCCAATGCCGGCGTTGACGAACTCATGCAGTTCGTGACCGGCCCGGACTTCCCGACCGCGGGATTCATCATCGGCCGCAGTGGCATCCGCGAGGCATACGCCACCGGACGTGGGCGGATCAATATCCGCGCCAAGGTCGAAGTCGAGGAATCCGATCGCGGGCATCTTCGACTGATCGTCTCCGAACTCCCGTATCAGGTCAACAAGGCAACCCTGCAGGAGAAGATTGTCGAACTGGTCAAGGACAAGAAACTCGACGGGATTGCCGATCTCCGGGATGAGTCGGACCGGCAGGGCATGCGACTTGTCATTGAACTCAAGCGCGACGCACGCCCGGATTCGGTCCGCAACAACCTGTTCAAGCACACCACCTTGCAGACGGCCTTCAACGTCAACATGTTGGCGGTGATCGGGCAGCAACCAAAATTGCTGACCCTCGTCACCGCACTGCAGTGCTACATCGACTACCGCATCGAAGTCATCGGGCGACGCACCCGTTTCGATCTCCGGAAGGCACGCGACCGTGCACACATCCTCGAGGGCCTGACGCGCGCCCTTGATCGCCTTGACGAAGTGATCGCGACCATCCGTGCCGCCTCAAGTACCGAGGAGGCGCGTACGAACCTGATCACCATCTTCGGCCTCTCCGAAGTCCAGGCCAACGCCATTCTGGACATGCAACTGCGTCGCCTCGTGCGCCTCGAACGGCAGCGACTGCTTGACGAACTCGCGGTCCTCCGGGCGACCATCACCGATCTCGAGGACATCATCGAGACACCAACCCGCATCCGACAGATCATCAAGGACGAACTTGCCGAACTCGGAACCAAGTACGGCGACGCACGTCGGACGGTCATCATGCCGGATGAGGACGGCTACCTGTCCGAGGCCGACCTTCAGCCCCGCCAATCCGTCCTCGTCTGCCTGACGGAACGGGGCTACGCCAAGCGGATGGTTCCGGACACCTACGTGCAGCAGTCACGTGGGGGACGTGGACGACGAGGCATCGCCACCAAGGACGATGATGGTGTCCGCGTTCTCACGCTTGCCAACACGCACGATTGGCTGCTCGTGTTCACCAACCGCGGTCGCGTCCTCCGCACGCGCGTCTGGGCTCTTCCCGAAGTTCTTCCAAACGCCCGCGGCACATCGATCACCAACCTGGTTGCGATCGACGCCGACGAACGTGTCACGTCGGTCATCACCATGCCCGATTCGGAGAGTTCAGGATTCCTGGTCTTTGCGACACGTCGCGGTGAGATCAAGCGCAATGGCTATTCGCAGTACGCCAACCTCCGACAGAATGGTCTGAAGACCATGGACATCGATGAGGGCGACGAACTTGGGTGGGTCGTGCGCACGTCCGGTGAGGATCGTCTCGCCCTCGTCACCGCCAGCGGACAGGCGATCACCTTCATGGAGACCGACCTGCGACAGAGTGGCCGCACCAGTGGTGGCGTCCGGGGCGTCCGCTTGCGCAACGATGACAAGTGCATCGGGTTCGTCGTGTGCCCGCCCGAAGGGTCCCTCGTCGTCGTCAGCGCCAACGGCATCGGCAAGCAGACCCCATGGGCAAACTTCCGCATTCAGCGACGCGGCGGTCATGGCCTCCGCGCGAGTGTCACGAACGAACGCACCGGGCCCCTTGTCTCGGCCATCTCGATCACCCCGGAAGCGACTGACCTCATGGCAATCACGGCCTCCGGGATCATCATCCGGACCCGAACTGCCGACATCCGGCGCACGGGCAGGAATTCGATCGGGGTCCGCATCATCCGACCGGATGACGGTGACACCGTCGTCGCCGCCTCGGCATTCGGCCAAGGTAACCTCGACTTCGTCGAATTCGCGGCGCCGGTCGTTCCCGACCCCGAAGACAGTTCCGTCCGCATCCTTGCGCCGGACGAAATCGAGGAAGACGAACCTACCGAAGGGTCGACAATCGACGACGAGGCCGAGGCGACGCCTGACGCCTGA
>SHXX01000006.1_44_gyrA-2 DNA gyrase, A subunit
ATGCCAGTGAGTGCCACTGACGGCGCCGGGACCATCAAGCTCGAAGAGTTCGGTGCGATCCTGGAAAAGGCGTTCGTCACGTACGGACTGTCGGTCGTTACCGATCGTGCCCTTCCCGACGCGCGCGATGGAATGAAACCGGTCCAACGCCGGATCCTCTATTGCATGTTCGCGAACCGTCACACCGCGAACCGTCCGACGGTGAAGTCCGCCGAAGTCGTCGGAAAGGTTCTTGGTGACTACCACCCGCATAGTGATACCGCGGTGTACGACGCCGCCGTGCGGATGGCGCAAGAGTTTTCGCTCAGGTACCCGCTGATCGAGGGCCAGGGCAACTTCGGATCAATCGATGATGACCCGGCCGCCGCCTACCGGTACACCGAGATGCGCCTTTCAGTCCTTGGCGAACTCATGCTGCGGGACATCGACCGCCAGACCGTGCCTCTGAAGCCGTCTTACAAGCAGGATCCGAAAGTTGTCGAACCTGAGTACCTGCCCTCCCGCATCCCGCCGGTTTGCAATCCGGCAAGCGGTATCGCGGTCGGCCTTGCGACGAATATCCCGCCACATAACCTGACAGAGGTTCTTAACGCCTGCCTCGCCTTGTTCGACAACCGCCAGATGGATGTTGCCGAACTGATGACACATGTCCGCGGGCCAGATTTTCCCTTCGGCGGCATTGTGATCGGACAGGACGGCATCCGTGATTACCTTACTACCGGCAAGGGGCGCGTCGTCGTCCGTGGTGTGGTGAAACTTGAGGAGAATGGCCGGCAGCGCTCACTGGTCATCAGTCAGCTGCCCCCAATATCCAAGGCACGCCTCAAGGCTGGGATCGTCAAGGCCTTCAACGATCGGAGGCTAGATGGTCTCGTCCCCGATGTTCGTGACGAATCGGACACCGAAAAAGGCGTTCGTATCGTCCTCGACGTGAAGCGCGATGGCGATCCAGTCCAGATGCTGAACGCCCTCTATCGGTGTACCGACCTCCAACTTGCGGTCTCGGTGCAGATGGTTTTCCTGTTCGGACAGCCGATGCTGCCCGCGAGGCAGCCTCGACAGGCGGGGATGGTCGAGCTGCTTGTCCATTACAACGACCACCAGGTAGACGTCCTGCGCCGTCGCGCGGCCCATGACCTAGCCGGAGCGCGGGAACGCCTGCATGTGGTCCTCGGCCTGATCATCGGGGCAGCCAATGCACCGGAGATCGTGCGCATCTTCCAGGCCGCCGCCGACCGTGCCGAGGCCAAGACGCAGATCCGCGCGCGATACAACCTCAGTGAAGCCCAAGCGGAAACCATTGCCGGCATGACGCTCGCACAGGTCACGAGGCTTGATGCGTCGCGCTTCGCGAATGAGCGACGCACGCTTGAGGAACGTATCGCCGAACTCGAGGCGCTGTTGGCTGATCCTTCTCGGCAGGTCGAGGCGGTCAAGGCGGAAATGCGCGAAATCATCGCCGTTCACGGTGATCCGCGAAGGACGGTCATTGATCCGACCGCCGATGCGACCGTGGAGGTCAGCGAGGTTGCGCCGAGTATCGAGACCAGGCCAGTGACCACCGTCCTGACCGCCGACGGTCACCTGAAAGCCGTGCCCCCCGACACCTTCAGGCGCGCAACAACTCGTGAGTATCCGGTGATCTCTCTTGGGACCGCCCGCACAGTGGATGCGCTGCTTCTCGTGACAGACACGGGCAAGGTGTGTGTCGTACGGGTTCAGGATCTACCTGAAGGGACGCGAGCGTCGCGCGGCGAGCCAGTCCGCAAGTATGTTCGGTTGGACCCGACCGACACGGTCGTACGTGCTCTCACGGTGGAGACGTTCGACCAAGGTGACGACAACTCACTGTCGCTGGTACTTGTGACCCAGTCCGGACGCATCAAGCGGAGTGCGATCTCCGAGTACCGGTCGCTTGGCGCCACTGGAGTTCCGGATTTCCGTCTCTCGGGGGGCGACCGTGTTGTGTCGGCGTTCCTTTCGTCAAACACGGACGACATCGTTTTCGTGACGAGTGATGCAAAGGGACTGCGCATCGAAGGTGCCGAGGTCAGGCCAACCGGGCGCGCAACGCAAGGTGTTGCCGGGGTCGGCCTCGCGTCGGGTGCGCGGGTTATTGCGTCTGGTGCGTGCCCCCCATCCGGAACCGAGGGCGCGACAGGACTGTTCACGTTGTCCGCAACCGGGCATGGTAAGCGGACCGCAATCGGGGAGCTTCCGGCAAAGGGTCGGGGGACGGGCGGGGTGCTTGTGGCTCCGAACGGCACCGTGCTGGCAGTTGCGAGCATCCATCCTCACGATGCGACTGTCCTGGTGCGGACGAGCGAAGGCAACGTGACCCGAATCACTCCGACGCAGGTGCCGTTGCAGTCTCGCATCGGCCGGGGCATCCCCTTGGTTTCGATCACCACCGACGACCCAGTCGTGGCCGTCCTTGCAATGCCAGTTGGGGCGTGA
>SHXX01000004.1_10_pheS phenylalanine--tRNA ligase, alpha subunit
ATGAGCGATCTCATCAGGGCACTCGAGACATTGGAAGAAACCGCCCTCGGGAGCCTCGACGGTGCCTCGGATGTCGACAGTCTCGAACGGTGGCGCCTTCTAGTACTTGGGAGAAGGGGATCACTCGCAGAAACCTTGAAAGGGCTCGGAACCCTCACCGCCGACCAGCGCCCGAAGGCTGGTCAGGTGGCCAATCGGGTCAAGGCATCACTCGAGGCATCGTTCGCAGTCCGATTGGAGACCATCCAGAAGGAGGTGCGGCGCCTCGAACTTGGTGCCGAACGGCTTGATGTGACGCTGCCCGCAAGCCCGCGTCCGCGAGGATCGCTGCATCCCGTGACCAAGATCCGACGTGAAATCGAGGGCGCATTTGCACGTCTCGGTTTCACATCCGTAGAGGGTCCAGAAGTTGAATGGGACCAGTACAACTTCACGATGCTCAACATTCCCCCCGACCATCCGGCACGAGACATCCAGGATAGCTTCTATATCGACGGTGGATCGGGAACCGGTGGCGAAATGCTCCTTCGCACGCAGACCTCACCGGTGCAGATCCGCACGATGCTCGCGCACAAGCCTCCGATCCGGATCATTGCGCCTGGTCGAACCTACCGGAATGAAGCGACCGACGCATCACATGAGGCCATGTTCACCCAAGTGGAAGGCCTCTGTGTTGACCGGAATGTGACCATGGCCGACTTGCGAGGCACCTTGACGGCGGTTACACGCGTCCTGTTTGGCCCTGACCGCGAAATCCGGTTTCGATGCGGATACTTTCCTTTCGTCGAACCAGGCGCCGAAGTGGACATGACATGTCACGTCTGCAATGGCCGCGGATGTCGGGTATGCAAGCGCACTGGATGGATTGAACTCGGGGGCGCAGGCATGGTGCATCCCAAGGTCCTTGCGAATGTAGGGATCGATCCAAGTGTGTATTCCGGGTGGGCATTCGGATGTGGCCTTGAGCGGTTCGCGATGCTCAGATACGGCATCGATGACATCCGGCTCTTCTATGACAATGACCTCAGGTTCCTTCGACAGTTTTCGTAG
>SHXX01000089.1_3_ksgA-1 ribosomal RNA small subunit methyltransferase A
GTGTCGGCGGGACGTGCCAAGCCGGTCGGTGCACGGCGGTTGACCGATGTGTCGACCGTACGTGACTTGCTGGCAAATCATGGCATCTGGCTCACCAAGACCCTTGGTCAACATTTGCTGACCGATGATGTGGTCCTCAACCGGATTGTCCTGTCCGCGCGTCTCCATCCGAGACTTGAGGTGCTTGAGGTTGGCCCAGGTGCCGGCGCCCTGACTGCCGAACTTGTCACACGGGTGAGGCGAGTGGTTGCCGTCGAGGTTGACCGGCGCATGGTGCGGGCATTGCGGACAACGGTTGATGCACCCAACCTCGAGATTGTCGAGGCTGACGCCTTGGCGATTGATCCGGCGACGCTGTTCGAGGGTCGGCCATACTCGCTGGTTGCGAACCTGCCGTACAACGTTGCGACGGCCCTGATCCGGCGGATGCTGTCATTCCCGGCGGTTGACCGCCCGCGTGAGATCGTGGTGATGATCCAGCGCGAGGTGGCGAACCGGATGGCGGCGCGTCCGGGAGACCTGTCGGTTCTCGGTGTGCAGGTGCAGGTGATGGCGGACGTGCAAGTCCTGTTCGAGGTGCCTCCGCAGGCGTTTTTCCCACCTCCGGATGTGACATCGGCGGTGATCCGCTTGAGACCTTACGACGAACCGTGTGTTCCGCTACTGCCATCGCCGGCCCGGTTTCTCCAGACGGTCCGGGCTGGCTTCGCGCACCGGCGCAAGCAGTTGCACAATGCCTTGGGTGACCTTGGAACTGGCACTGAACGCATTGATGCGGCCCTTGAGACGACCGGGATTGCCCGCACCCGCCGGGCGGAAACGCTGACATTGGCCGAGTGGTCGGCGTTGTCCGAGGCAATCTGGCCGGTCTCCGGGGAACCTGCGCAACCCCACGATGACCCACCTGCGGATGACCGTGATGGGATGGATGCGCCGTCCTCAAGTGGGTCTGCCTAG
>SHXX01000099.1_2_ksgA-2 ribosomal RNA small subunit methyltransferase A
ATGAATCTGGCAGGGCGGGGTGGGGATAGCGCGCAGGGTCCACGTGCGTCCCGGCCTGAGACGGTGCCCAATTCCCCAACCAGTCGCGACCGGAGATCAAGGGGAGTCGCTGCACCGGGCACTGCCCGGGACGGGGACGATAGCGGCGGAATGCCGGCGTCAGCGGGTAGTGCCAAGCCGGTCAGTGCACGGCGGTTGACCGATGTGTCGACCGTTCGTGACTTGCTGGCAAATCATGGCATCTGGCTGACCAAGACGCTTGGTCAGCACCTGTTGACCGATGAGGTGGTGCTTAACCGGATTGTCCTGTCCGCGCGCCTCCATCCGAAACTTGAGGTGCTCGAGGTTGGCCCGGGTGCCGGTGCCCTGACTGCCGAACTGGTCACGCGGGTGCGACGCGTGGTTGCCGTCGAGGTTGACCGACGCATGGTGCGGGCATTGCGGACAACGGTTGATGCACCCAACCTCGAGATTGTCGAGGCTGACGCCTTGGCGATTGATCCGGCGACGCTGTTCGAGGGGCGGCCATATTCGCTGGTGGCGAACCTGCCGTACAACGTGGCGACGGCCCTGATCCGGCGCATGCTGTCATTCCCGGCGGTTGACCGCCCGCGTGAGATCGTGGTGATGATCCAGCGCGAGGTGGCGAACCGGATGGCCGCCCGTCCGGGAGACCTGTCGGTTCTTGGTGTTCAGGTGCAGGTCATGGCGGATGTACAGGTCCTGTTCGAGGTGCCTCCGCAGGCTTTCTTCCCACCTCCGGATGTGACGTCGGCGGTGATCCGCTTGAGACCGTACGACGAACCGTGTGTTCCGCTACTGCCATCGCCGGCCCGGTTTCTCCAGACGGTCCGGGCTGGCTTCGCGCACCGGCGCAAGCAGTTGCACAACGCCTTGGGTGACCTTGGCACTGGCACTGGACGCATCGATGCGGCCCTTGGGTCGACCGGGATTGCCCGCACCCGCCGGGCGGAAACGCTGACATTGGCCGAGTGGTCGGCATTGTCCGCAGCAATCTGGCCGGTCGCCGGGGAACCTGCGCAACCCCACGATGACCCACTCGCTGATGACCGTGTCGGGATGGATGCGCCTCACGCCACTGCGTCCGCCTAG