>PBBU01000057.1_4_dnaB replicative DNA helicase
GTGGATGCTGAGGCATCACTACTAGGAGCAATGCTTCTATCTCGCGATGCCATTGGGCCCGCAGTCGAAACGCTTAGCGGTGACCAATTCTATGTCCCGGCGCATGGTTACATCTTCGACGCTGTGGCTTCGTTGTACGGGTCAGGAGAACCCGCTGACCCTGTCACGGTTGCCGAAGAACTCACTAGATCCGGTCTTCTTGACCAAGTTGGTGGGCCCCAGCGGCTACTTGAGCTGCAGACGTTGACCCCGGCTTCGTCCAATGCGGGTCGTTACGCGCGAATCGTGGAAGAACACGCCATGCTTCGCCGCCTCATTGGAGTTGCCGGCGACATCGTGGAATTGGGCTACAGCAGGCCGGAGGACGTAGTCAAAACTGTTGACGAAGCTGAAGCCATGATGTTCCAAATTGCTGAACGTCGGGTTGTCGACACGACCAAGCCCATTCGCGAATTACTTGACGCCAACCTTGACCGCCTAGAGGAGTTGTACGAACAGGGCAACGCGATCACCGGGCTCCCCACCGGTTATATCGACTTTGACGAACTTCTTTCTGGTTTACAACCCAGCAACCTCGTCGTTGTTGGCGCGCGTCCTTCCATGGGTAAGACAGCCTTTGCCTTGGGGATGGCGGCAAGCGCTGCCCTGGAGGCACAACGTCCAGTGCTGTTCTTTTCTTTGGAGATGGGCCACCTTGAGTTGACTCAGAGGCTCCTTTGCTCGGACGCTCGAGTCGATTCGCAGAGAATGCGAAACGGGAATCTTTCCGAAGACGACTGGCCCAAGATCACGCGAGCAGTAGGAAAGCTCGGTGAAGCTCCAATATGGATTGACGACAATCCAAACTTGACGGTAATTGAAATCCGGGCAAAAGCTCGGAGACTGAAAAGTCGTCTAGGCGACCTCGGGATGGTAGTCGTCGACTATTTACAGCTAATGAGTGGTCGAGGGAATGCCGAGAATCGCCAGGTTGAGGTTTCAGAAATGTCACGTGGTTTAAAGATCCTCGCCCGCGAACTCGAGACCCCAATAGTTGCTATATCCCAACTCAGTCGAGGACTCGAGTCGCGGACTGATAAACGGCCCATGCTTTCAGATCTTCGAGAATCCGGGTCTATAGAACAAGATGCCGACGTCGTTGCTTTTCTCTACCGCGACGAGGTGTACAACCCCGAATCACCTGACATTGGGTCAGCTGAAGTTATTGTCGCGAAACATCGCAATGGCCCAACGGGCACGGTGCGACTTGCTTGGCTCAGCAATTACACAAGATTCGCGAATATGAGCCGGTACCAAGACCAGACATAA
>PBBU01000009.1_23_rpsA ribosomal protein bS1
GTGTCCGATACCACAGAATTCGGCAGCTTTAATGATGCCGGTGAATACATCCCCCGCACCGTCGTTGAGAACGACCTAGGTGCGACCTCCTTTGCAGACGCCATAGACAGCACGATCGTCGAATTTGACGACGGGGACCTTGTCTCAGGCACCGTCGTCCGGATTGACCGCGATGAAGTGCTACTCGATATTGGGTTCAAGTCCGAGGGCGTCATCCCTAGCCGCGAACTTTCGATCAGGAATGCCGTGGATCCATCGGAAGTGGTTGAGCTAGGCGAAGAGATTGAGGCCCTCGTCCTTCAAAAAGAAGATCAGGACGGACGGCTTGTTCTCTCTAAGAAACGCGCCCAATACGAGAAGGCATGGGGCAAGATCGAAGAAATTAAGGACTCTGAAGGTGTGGTTTCAGGGCCGGTTATAGAGGTCGTCAAGGGCGGTCTCATCATAGACATCGGGTTACGCGGGTTCGTACCAGCGTCACTGGTGGAGTTGCGTCGTGTTCGCGATCTTGACCCCTACATAGGCATGGAACTTGAGGCCAAAATCATCGAACTCGACAAAAATCGCAACAACGTTGTTTTGTCTCGCCGGGCGTGGCTAGAGGAGACACAAAAAGAACAGCGAGAAGAGTTTCTCGACAATCTCCTGCCTGGCGAAAAGCGCAGCGGCGTTGTGTCTTCGGTTGTGAGTTTTGGGGCCTTTGTTGACTTAGGCGGCATGGATGGCCTCATTCACGTCTCAGAGCTTTCCTGGAAGCATGTCGATCACCCGAGTTCGGTGGTGACGGTAGGGGACGAGGTCGATGTAGAGGTGCTTGAAGTTGATCGCGAACGAGAACGGATTTCGCTGTCGCTCAAAGCAACACAGCAGGATCCGTGGCAGGAATTTGCCGAAGGTCACAAAGTGGGGGAATTGGTGTACGGACGCGTCACCAAACTGGTTCCTTTTGGTTCTTTCGTGCAGGTTGGCGACGGGATCGAAGGTCTTGTTCATATCTCGGAGATGTCCGCACATCACGTTGAACTTCCAGAGCAAGTGGTTACTCCCGGCGAAGAACTCTGGGTGAAGATCATTGATCTGGATCTTCAACGGCGAAGAATCAGCCTGTCGATTAAACAAGCCGCTGAAGGTGGCGTGGTCGCGGCAGAATACCAAGAAGCATTCGGAGAACATGCCTACGACGAAGCCGGCAACTTTATCGGCGAATTTGATTACGCGGCCCCTGCAGAAGGCGAAGAATCCGAAGCGGAGCGAGCCTGGCGCGAGTACTACGAAGAACATGGTGAAGAGGCGTATCGTCAAGCGGTGGCCGAGTATGAGGACAATGGCTCAACTGCTGAAGGCGCCGAAGCTTCGTCGGCGGACGAGGTCTCAGCGGCAACTGAAGAAACGTAG
>PBBU01000029.1_18_recA protein RecA
GTGGAACGAGAAAAAGCACTCGATATGGCACTGTCGCAGATTGAGCGCCAATTTGGCGAAGGCGCAGTCATGAAAATGGGTGAGCGCGGCCAAATGAAAGTTGAAGCTGTGTCATCAGGCAGCCTGGCAATCGACGTGGCCCTTGGCATTGGGGGTCTTCCGCGAGGGCGGGTTGTCGAGGTTTATGGTCCAGAAGCATCGGGAAAGTCAACCCTCGCGATGCATGTTGTAGCGGAAGCCCAACGCACCGGTGGAATCTGTGCCTATGTAGATGCAGAGCATGCCATGGACCCCGACTACGCCAAAAATATCGGCGTTGACGTCGACGAATTACTCATTTCCCAGCCTGATACTGGTGAGCAAGCTCTTGAAATTACCGACATGCTGATTCGTTCAGGAGCCATTGATGTTGTGGTCATTGACTCAGTGGCAGCGCTCACACCGAGAGCTGAAATTGAAGGTGAAATGGGTGATACTCACGTCGGGCTACAAGCTCGGTTGATGTCACAAGCCTTACGAAAACTCACCGCCAACCTGAGCAAAACTAAAACCATCGTCATCTTCATCAATCAATTGCGGGAAAAGATCGGCGTTATGTTCGGCAGTCCCGAAACAACGCCTGGTGGTCGAGCCCTGAAGTTCTACTCGTCGATTCGTATAGATATTCGCCGGATAGAAGCGATCAAGTCTGATGGTGAGATCACGGGTGGCCGTACCCGCATCAAAGTCGTCAAGAACAAAGTTGCCCCTCCGTTCCGGCAGGCCGAATTTGACATCATGTACGGCAAAGGAATCAGCCGAGAAGGATCACTCATAGATGTTGGTGTGGAGCAAGGCATCGTCAAAAAATCTGGTGCCTGGTACACCTACGAAGGCGAACAACTGGGCCAAGGCAGAGAAAACGCTAAACAATTTCTGACAGAGAACCCGGAAGTCATGGTTGAAATTGACGGCCGAATAAGGTCACAGCTTGGNATGACCGATTCACCAACCGATGACCAAACGAGCGACGACGAAAATGAAGTCGCAGAAGTCATCGACGACTAA
>PBBU01000006.1_9_gyrA DNA gyrase, A subunit
ATGGCTGATATTCCCCCCTCTGACGATGAAGTAGCTNACGGCGAATTGCACCTCTCGGTGCGACCGATCGAAATCCAAACTGAGATGGAACAGTCGTTCCTTGAATATGCGATGTCGGTCATTACAGCGCGAGCGCTGCCCGATGCCCGAGACGGTTTAAAACCGGTTCACCGCCGGATCCTGTGGTCGATGTTCTCAACNGGGATGCGTCCCGACCGACCGCATAAAAAAAGCGCNACCGTNGTCGGTGATGTGATCGGCAATTACCACCCTCACGGTGATTCAGCGATCTATGACGCAATGGTGAGAATGGGCCAATCGTTTAGCTTGGCGAACACGTTGATTGACCCCCACGGNAATTTTGGATCCCCAAATGACCCGCCGGCGGCATATCGGTACACCGAANCCAGGCTGACTGACCTAGCNATGCGANTGGTGGAAAGCATCGACGAAGACACGGTTGATCTCGTCCCAAACTTCGACGGTTCCAGTGAGGAACCAGTGGTGATGCCGGCGCGTTTCCCAAACTTATTGGTGAACGGTAGCCAAGGCATAGCGGTTGGCATGGCAACCAATATCCCCACNCACAATTTGACTGAAGTGATTGATGCGACACTCCACCTGATTGATAACCCCGAGTCAACGGTTGCCGACCTAATGGAGTTTGTTCAGGGCCCGGACTTTCCGACAGGCGGACTGATCATGGGACGCGCGGGTTTAACGAGCGCATTTACAACAGGGCGGGGTTCAATTCGAATTCGAGCACGGGCCGAAATAGTTGAAGAGGGCCGCAACACTCAAATTGTCGTCACTGAAATTCCCTACCAAACGTCAGTTGAAAATATTGAACAAAAAATCGCTGACGCCGTTGATCGAAAAATCATCGACGGTATCCGCGAACTACGAAACGAATCAGCAAAAGGCCAAACGCGGTTCGTGATCGAACTCAAACGAGACGCACCGGCCAATGTGGTGTTGAACAACTTGTTCAAACACACGCCTCTACAAAGCAGCTTCGCAGCAAACATGGTTGCGTTAGTCGACGGGGTGCCGAGGACCCTTAATCTTCTTGACGCGCTCGAAGCGTACGTCGGCCATCAAATTGACGTAGTCACGAGACGATCGGAATATCGCTTAGGGCAAGCCCGGGACCGAGCCCATATCGTTGAAGGTTTGTTGCAGGCGCTCGATCTCATTGACGAGATCATCACGCTGATACGCGGCAGCGAGGACAGGGCGTCAGCGCTCACCGGCCTGCAACGAGAACCACTGTCCTTTAGCGAACGTCAGGCGAATCACATTCTTGACATGCAGCTGGGACGTCTCACCAGGCTCGGGAGAACTCGACTTGAAGAGGAGCTCGTAGAGTTACGCAAACGGATAGAAGAACTAGAAGGCATCCTCGGCAGCGAGACACAACTCCGCAACGTTATTAAAGAAGAACTCACCGAGTTTAGATCTGAACACGACACACCTCGGAGAAGTCAGATTGTCTTCGACGCAGGTGACATGGAAGTCGAAGATCTCATCGATAACGAACCCGTCGTGATAACGCTCAGCAAGGGTGGATACGTCAAGTCCGTAGTCGCAGACGCATTCCGCACCCAGGGTCGCGGCGGGCGAGGAGTTCAAGGAGCCCGACTAAAAGAAGATGACATCTTGGTGCGCGTCCTCACCACCACTGCTCACTCCTACCTTCTTTTCTTCACCAATCGAGGGAAGGTCTACCGGCTAAAGGCCTACCAAGTTCCAATGATGGACCGAACCGCCCGCGGGACAGCTGTGGTCAACTTGTTGCAGCTAGACCCCGACGAAGTTGTTGAAGCAGTCATTGACACACAAGAATTCGCAGCCGACGAATACCTACTTTTCGTGACCCGAAAAGGCGTTGTCAAAAAGACAACATTCACCGAATATGACAAGAATCGAAGCAACGGCCTCATAGCTATCAACCTCCGCGAAGGTGATGAGCTGGTTCGCGTCATCCAAGTTCGCGAAAACGACGACATCGTGCTGGTCAGCAAAAGAGGACAAGCAATCCGGTTCTCAGGCAGTCAGGTAAGGCCCATGGGACGAAGCGCGGGAGGTGTCCGCGGAATGCGGTTGAAAGAGAACGACGTTGTTGTCGCAGCTGTAGCGACCCCAGAAAATGATCGACGGCAGCTCCTCACGGTCACCGAAGGAGGATATGGGAAACGCACCCCCATAGACGCCTACCCCCGCAAGGGACGCGGGACCATGGGAGTCAAGGGAATAAAGCTCACCGAAGCAAGGGGAACGTCTGTGGTGGGCGCCCGCATGGTGGACCTCGAAGACGAAATCATATTGGTCTCGTCCGGTGGGGTACTCATCCGCACAGCGGTGTCAGAGATAGCCGAACAGCGGCGGGACGCTACAGGGGTAAAGGTAATGAATATTGGTGACGAAGAAACCCTCGCGGCTTTGTCTCCCGTCACTATTGATGACGAAGTCGAAGAACCGGTGAACTCAGAATCAGTTAGCTGA
>PBBU01000014.1_40_pheS phenylalanine--tRNA ligase, alpha subunit
GTGAGTGTCCATGAGCAGATTGCCGAAGCTCAAGCCGAGGCCGTAGCAAGCATTGAGCAGTCGAATGATCTTGAAAGTCTGACAGCGCTTGAACCCAGTCTTTTTGGCAAGAAATCACAACTAGGCAGCCTCAAGCGGTTAATGGGTGAAGTTGATGCGGATGATCGAGCCAGCGTTGGTGAGGCTCTTAATGAAGCGCAGCGAATTATTCGAGAAGCACATGGCGTCGCAAAAGAACGTTTCTTGTCGGCTACGAGGCGAGACCAACTCGAGGCTGAGCGACTCGATCTAACCGAATCACTTGAGTCATCGCCTCAAGGGCATTTACATCTCGTTACACAAACGATGGAGCGCCTGGAAGACGTTTTCGTGGGAATGGGTTTTACCGTCTCAGAGGGCCCCCAAGCGGAGACTGACTGGTACAACTTTGAGGCGTTAAATCTTCCCGCCGCGCACCCGGCGAGATCCATGTTCGACACTTTGTACCTTGATTTGGGTGATCGAACAGAAATCGGGGACGGTCAAGGCGGCGAGGCGACGAACATCCTGCTCCGAACACATACTTCCCCGGTTCAGATTCGCGTCATGGAAATGATGCCGCCACCTATATACACAGTCTGCCCAGGGCGAGTTTTCCGAAGAGACACCGCCGATGCGAGTCATATGCCGGTGTTTCACCAAATCGAAGGCTTAGTCGTGGACCACGGCATAAGTTTGGCTGATTTAGCTGGAACTTTGAATGAGTTCACTGCCGCCTACTTCGGAGGTTCGATTCGAAGCCGATTACGCCCTTCATACTTCCCGTTCACTGAGCCAAGTGCAGAATTCGACATCACATGCGTCATCTGTGAAGGAGACGGATGCCAAACCTGCCAACGAACCGGTTGGATTGAGCTCGGCGGATGCGGAATGGTTCACCCAAACGTGTTGACAAATTGCGGAATCGACAGTGAAGAATGGACCGGTTTCGCGTTTGGATTCGGTATTGATCGATTGCGATCATGCGATACGGCATCAAAGATCTGCGAGATATGTACACCAACGACATTCGATTCCTTAGGCAGTTCTAGGCGAGGCTCAAGATGA