Gene list
Applied filters:
COG category: Replication, recombination and repair
Genomic element: chromosome
Number of genes found: 163
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Syntrophus aciditrophicus SB >SYN_01637 transposase ATGTCCACGAGTTTTCTTTACCACGGATTCAGCCTCGTCGGCTACGATTA TGTTAGGACGCGATACGAAGGAAGAAGTATCACGTTCACCATACGCCACA AAAGGAGCAAGCTTTGCTGTCCAGTCTGTAGAAGCCGGGAGATCATCATG CGAGGAACGACCCGGAGACGGTTTCGAAGCATTCCCATCGGTTTCAAGAA TGTGTTCTTCGATCTCAGCGTTCAGCGGGTGGGCTGCCTTCGTTGCGGCA GTATTCGTCAAGTGTCGCTGGGATTTGCTGATCCCCGGTTTTCTTACACC CGTGCTTTTGAGCGATATGCCTTGGAATTGTCGAAACACATGACAATCCA GGATGTAGCTGCACATCTGTCGGTATCCTGGGACGTGATCAAGGAAATTC AGAAACGGGATTTGACGAAGAGGTTTTCCAGACCTTTTCTGAAGGATCTT CGGAGAATTGCCATCGATGAGATCTCGATTCGCAAGGGGCATCGGTATCT GACTGTTGTTTTGGATATGACCAAAGGGACGATCGTCTATGTCGGTGATG GCAAGGGAGCCGATGCGCTTGACTCTTTCTGGAAAAAGGTCAAACGTGCC GAAGCCAAGATTGAAGCCGTTGCCATGGATATGTCTCCCGCTTACATCAG CGCTGTATCGACTCATCTTCCGAAAGCGACGATTGTTTTTGACCATTTTC ATGTCATCAAGCTCTTCAACGACAAATTGTCCGGGCTAAGAAGAGACCTT TATCGAGAGGCAAAAGATCTCCTTCAGAAGAAAGTCCTGAAGGGCACCCG CTGGCTTCTCCTGAAAAATCCGGAAAATCTTGACTCATCCAAAGGTGAAA AGGCCCGCTTGAACGATGCCCTCCAGCTAAATCAGCCACTTGCATGCGCC TATTACCTGAAAGAAGATCTCCGACAGGTCTGGTTTCAGCCAACAAAGGA AAAAGCACGCCTGGTATTGGTTGATTGGATCAAGAGGGCGGAAACTTCCG GGATAAAAATGTTGAAAAAGTTTGCGAAGTCACTTGCTGCATTTCAATCC GGTATCCTCTCTTATTATGATTACCGCATCTCGTCGGCTCCCTTAGAAGG CACAAACAACAAAATCAAAACCATGAAACGGATGGCTTATGGGTTCCGGG ATATCGAATTCTTCAAACTTAAAATCATGGCCATTCATGAAGCCAAGTAC GCTTTAGTCGGATGA >SYN_02327 transposase ATGGGCTCCTTAACGGTGGACTGCACAAAAGACCGGTTCTCGGCAAAGGA ACTGGCTGTCATCATGGGCATATCATGGCAGGCGATCCAGAAGCGGGCGG ATCAGGAAGGCTGGCCTTGTGAAATGGAAACGGGCAGAGGCGGCAAAAGG AAGCTTTTTCGCCGCGCCGTCCTCCCCGTCGATTGGCAGGCCCGCATCGC CAGACAGCGCGCCGCCCAGGCGGCCGCCGCCATCGCCCCCGAGTCTCCGG AAATGGCCGGCTATCGGGCCGCCCGGAACTATCTGGAAGACCTGGAAAGG GAGAAGGAAGAGAAACGCCTTATAAAGGAGAGGGGGCTGGTCGAATTCGC CCGGTTGCCGGAGGCCCGGAAACGGGAGGCGGAGGCCTGCTGGGAGGTCC TCAAGGCGAAAGACGCCTTCATCGAGGCCGGCGGTTTCGGAAGGATACAG GGAGCAGCCCTGTTCTGCGCCCAGTTCAATGAGGGCAAAATTCCCCTGGA CGACGGGATTGTCGAGATCGTCAACAAGACCGGCAAGCTCCATCCCTCCA CCCTGTACCGCTGGGAGGAGAAATACGAGACGCAGGGGCTCGCCGGCCTG GCCTGGCATTACGGGAAGAACGCAGGGCGCACGCTGCTGACGCCGGACAT GCAGGACTTCATCCGCGCGATGATCCTGGAGCACAACCGGGTTTCGGTTC CCAAACTCATGGCGGGCCTGGAGGCGCGGTTTGCCGGGCAGGAGATCCCC GCTTCCCACGTCGTCTGGAGATGGGCGTCCCGCTGGCGGGACGAGAACCG CGTGCTGCTTTTATCCATTCACAATCCGGACGAGTGGAAATCGAGGTACG GCGCCGCGTTCGGCAGCGCCTCCGCCTCGGTGGGCCGCCTCAACCAGTTG TGGGAATCGGATGCCACCCCCGGCGACATCATGCTCGCCGAAGGGCGGCA CACGGTGATCGGAATGATCGACGTCTGGAGCCGCCGGGCGAAGGTACTGG TCGTGCCGTCATCGAAGGCCGTGGCCATCGCGGCGCTTCTGCGGCGCTGC CTGCTGGACTGGGGCGTTCCCGAAGTCCTGCGGACGGACAACGGCAAGGA CTTCACCGCCCGCCACATGACGCGCGTCCTGGAATCCCTGGAAATAGAAC AGGATCTCTGCCCTCCCTTCACCCCAGAAATGAAGCCCCACATCGAACGC TTCTTCCATACCTTCTCTCACGGCATCGTGGAACTGCTCCCCGGCTATAT AGGCCACAACGTGGCCCAGCGCAAGGCCATCGAGTCCCGGAAGTCTTTTG CCGAGCGCCTGATGAAGAAGGGCGCCGTCCTGGATGTGAAGCTTGCCGCC CGGGAGTTCCAGGAGATCTGCGACCGCTGGATCGAGTCGGTCTATCATCA GGATCCTCACGGCTCCCTGGACGGGAAGCGCCCCGCGGAGATGGTCCGCT CCTGGACGGCCCCGGTGCGGAGGATCGCAGACGAGCGGGCCCTGGATGTG CTGCTCGCCCCCGCCCCGCAGGACGGCGGCGTCCGGAAGGTGGGCAAGAA GGGCGTGACGGTCAACCGGAGGCATTACGTCAACACGGCCCTGATCGGTT ACGAGGATCAGTCCGTTCAGGTGCTGCTCGATTACGCCGATGTGGGGAAG GCCTACATCTTCGCCGCTTCCGGGGAGTATGTCTGCACGGCGGTGGATCC GGACTGGAGCGGCATTTCCGCCGCCGATCTGGCGAGCCACGCGAAACACA CGCAGAAGAAGGCCTACGCCGAAATGCGCAAGGAAGCCCGGAAGCTGATC CGGGAACACAAGATCGCCCTCGTCCCCGAAGACATCCTGGCGCACCGGGA GAGCCTTCTTGCGAACGTCGAGGAACTGCCTCAAAAGACGGTGGAATATT CCACGCCCGCCCTGAAGGAGGCCGCCTTTGCCGTGGCCGATGCCGACCGG ACGCCCAACGCACAGGCTCTTGCCGGCAGGATCGAGCTGCCGCCTGAGGT CCTTGAATACGAGGAACGGCAGAAGAAGGTGGTCGACCTCCGGCAGAAGC GGCGGGAGCGACGGGTCTTCGCGAACAACGAAGAGATATACTGTTGGATT CTGGACCGGATCAAGGCCGGCACAGTCACGGAAACCCAGAAGCAGTGGAA GAAGGAATACGAAGCCTGGCAGGAAACCGAGGCCGGGAAAGCGAGAAGGA AGCCCTTCACCAGCACCATTGGAATACGCGCACTGACAGGGGAAACCGCC GAGGCGGCCCTGTGA >SYN_00932 coA pyrophosphatase ATGGAATTGATCATGAATACCGCAGCAGAGAAATTCGATCAGACCCTCCT GAAAGATCGGGGGTCATTTCAATCTCTCATTACAGATAAGCTCGGAGCGA CTCCGCTTGATTTTGCCGACCGATTTCAAGCGATCAGGAATACATGGAAG GAGCATAAAAAGCATCTGGCTGCCGGTGTCTTTCTCCTGCTTCAATATGG ACGGCATTCCTCAGCAGGAAGTCGGGATGAACCAGTTTTCCTGTTGATTA AACGGTCCCTCGAGGTGGCCCAGTCCGGAGATATAAGTTGCCCGGGCGGC ATGCTGAATCCTTTTCTCGATTCGTTGCTCAGTCGCATCATCATGAACCG ATTCGCTCCTTTTCATGATGGAAACGCGTTAAATTACGCCAGAGGAAGGG ATGTTCCGACATTTCGCACCATACGCCTTTTTCTCGCCAACGCGGCGAGG GAATCATGGGAAGAAATCGGCCTGAATCCTTTCAATGTTTCCTTCCTGGG AGCGCTTCCTACATATTCCCTGCATCTTTTCAAAAGAACCATTTTCCCCG TTGTCGGATTGATCAAAGATCCATGGCACTATAAACCAAATTCCGAAGTG GAAAAAATCGTCGAGATACCCGTCCATGCCTTCTTCGATTCGGAAAACTA TTGTCGCTGCTGCATCAATTCTGACAATTCAAGGCTGAATCAAAAGAGAT TGCAAACCTGTTTCCCCTGCATGACTATTAAACAAGAAGACAATACGGAA GAAATCCTCTGGGGAGCAACCTTCAACATCATTACCAATTTTCTGAGCAT CGTCTTCGAAAACCCTCTTCCCATGGTGAGCGATAAAACAAGGATAGTCA GCAAGATATGTCCTGACAACTATTTCAGAGGAAATTCAAGATGA >SYN_02486 excinuclease ABC subunit A ATGTCCGGTTTTATCCGTATCAAGGGTGCTTCACAGCATAACCTGAAAAA CGTCAGTCTCGACATTCCCCGGAACCTGCTGGTTGTTATCACCGGGGTCA GCGGTTCCGGAAAATCCTCGCTGGCCTTCGACACGATCTATGCTGAAGGT CAGCGGCGGTATGTGGAGTCACTGTCCACCTATGCCCGGCAGTTTATCGG CCAGATGGACAAGCCGGACGTGGAATCCATCGAGGGGCTTTCGCCCGCCA TCGCCATCGAACAGCGCTCCACCACGCACAATCCCCGTTCCACCGTGGGT ACCGTGACGGAAATCTACGATTATCTGCGTCTGCTCTTCGCCCGGATCGG CATCCCCCATTGTCCCGTCTGCGGCCGGGAAATCCGTTCCCAGAAGATCG ACACGATGGTGGAGACAATTCTCAACCTGCCGGATAAAACCCGACTGACC GTTCTCGCCCCGGTCGTCCGAGGGAAAAAAGGGGAATTTCAAAAGGAATT CAAGAAACTGCAGAGGGAAGGATATGTCCGAGTCCGGGTTGACGGTGAAA TCCGCGAACTGGAGGAGGACATCCTCCTTGACAAGAACCGGCGACACGAT ATCGATGTGGTAGTCGACCGCCTCGTGATTCGGGAAGGCATGCGGCAGCG CCTCCGCGATTCCCTGGAGACGGCCTCCGCCCTGGCCGACGGTCTGGTCC GGATTGACATCGCCGACGGCGGGGAAATACTCTTCAGTGAAAAATATGCC TGTCCCGTCTGCGGAGTCAGCCTCCCCGAACTGGCGCCCCGGCTCTTTTC CTTCAACACGCCCTACGGCGCCTGCCCGGAGTGCAGCGGCCTGGGAACCC GGATGTACTTTGACGAAGACCTGGTCGTTCCCGATCCGGACCTGTCCATC CGGGAAGGGGCCATCGCTCCCTGGGCAGGGCGCAATTCCATGCAGTATCA CCAGATGCTGGACGCCCTGGCCGAGCGCTACGGCTTCGACATCAACACCC CTTTCCGGAAACTCCCCGAGAAGGTCCGTAACATTCTTCTTTACGGTTCC GGCAGGGAAGAAATCCGTTTTTATGCCGATCGCGGAGGGCGGCGCTTCTT TTACGACAAGCCCTTTGAAGGCGTGCTCACTCAACTCGACCGGCGGTACC ATGAATCCCCCTCCAGCACCGTTCGCCTGGAACTTTACCGTTATATCAGT CTCCGGGAGTGTCCGACCTGCAGGGGCACACGCCTGAAAAAGGAAAGTCT GGCCGTCAGGATAAACGGGAAGAACATCCATGAGGTGTGCCTGCTGTCCG TCCGGGAATGCATGCAGTTTTTTAAATCCCTGCCGCTGACGACTCAGGAG GCGCTCATCTCCGAGCGGATTCTCAAGGAGATCAGGGACCGGCTTACCTT TCTGCTCGACGTGGGCATGGATTACCTGGACCTGGCCCGTTCCGCCGGGA CTCTCTCCGGAGGGGAAGGGCAGCGCATCCGGCTGGCGACCCAGATCGGC TCCGGCCTGGTGGGTGTTCTCTATGTCCTGGATGAGCCCACCATCGGACT GCATCAGCGGGACAACGAACGGCTGATCCGCACCCTGAAGCGCCTGCGCG ACATGGGCAACACCGTGCTGGTGGTTGAACATGATGCGGACATGATGCTG GCTTCGGACCATATCATCGACATGGGTCCGGGCGCGGGCGTCCACGGCGG GGAAGTCACCTTCCAGGGCACGCCGGAAGACATCCTCCACAGCGAAACCT CCCTGACCGGCCAGTATCTTTCCGGAAGGCTCTCTATCCCCCTGCCCGAG GCCAGGCGTCCCCTTCCCCGACGGTTCATCCACCTGGAAGGCGCCCACGA GCACAACCTGAAGGACATCGACATCCGGATTCCCGTCGGCGTCTTCACCG CTGTGACGGGCGTCTCCGGCTCGGGAAAAAGCACGATGATCATTGAAACC CTCCACCGGGTTCTGAACCGCAGGCTGAACAACCGCAAGGGCGGTCTGGG CAAGATCCGGCGCATCGTGGATCTGGGCGGCATCGAGCGGGTCATTCTGA TCAACCAGCAGCCCATCGGCAGGACGCCCCGTTCCAACCCGGTCACTTAC ACGGGCGCGTTCACCTATATCCGCGATCTTTTCACCGGCCTTCCCGAGGC GCGGATGCGGGGCTACAAACCCGGCCGGTTCAGTTTCAACGTCAAGGGCG GACGCTGCGAGGCCTGCGAAGGCAATGGTCTGATCAAGATCGAAATGCAC TTCCTGCCGGATGTCTATGTCACCTGCGACGCCTGCGGCGGCAAACGGTT CAATCCCGATACCCTGGATATCCGCTACAAGGACAGAAACATCGCCGACA TCCTGGACATGACGGTGAATCAGGCCCTGGCTTTCTTCGAAAACATCCCG TCTATCCGGGCTAAGCTGCAATCCCTGTATGACGTCGGTCTGGGGTACAT CCGCCTGGGACAATCGGCCACCACCCTGTCCGGCGGCGAGGCCCAGCGGA TCAAGCTTTCCCGGGAACTGGGCAAGCGGGTCAACAGCAACACCCTGTAT ATCCTCGACGAGCCGACCATCGGCCTGCATTTCGCCGACATTCAGAAACT GCTGGATGTCCTCATGCGCCTTGTCGATATGGGAAACACGGTGGTGGTTA TCGAACACAATCTGGATGTCATCAAGAGCGCCGACTACATCATCGATCTC GGTCCGGAAGGCGGCCCCGGCGGAGGACGGATCATGGCCTCCGGAACGCC GGAGGAGGTCGCCGCCGTGGAGGACTGCCCCACGGGCCGGTTCCTTCAGG CCGTACTGAAACCAACCCCATAA >SYN_01916 DNA integration/recombination/inversion protein ATGCGGGTACCCAAAAGTGGAGATATTACCATGCCGAAACGAATCATCCC TTTGACGGATATGAAGGTCCAAAAAGCCAGACCGCAAGACAAACCAATTG CGCTATTTGACGGAGGCGGTCTATATCTTCTGATAACGCCTTCCGGTGGT AAGTTGTGGCGGTTTAAATATCGTTTCGACAAAAAAGAGAAGAAGCTTGC TCTCGGATCGTACCCGGAAATCAGTCTGCAAGACGCACGTCGCAAACGGG AAGATGCCCGGAGGCTACTTGCAAACAACATTGATCCTGATTCCATTCGT AAGGCACAGAAGCAGGCAAAAACAGAAGAAACCGAAACCTTCGAGGTCAT TGGCCGGGAATGGCATACGAAATTCACGCCGACGTGGACGCCTGGGCATG CCGTCACGATTATGAGCCGGTTGGAGCGTGATCTATTTCCATGGATCGGT AAACGCCCGATCAATCAAATCAAGGCGCCTGAACTGCTCGCCGTCCTTCG CAGGGTGGAAAGCCGGGGCGCTCTCGAATCGGCACACCGGATCAGGACGA TTGCCGGGCAGGTTTTCCGATATGCCGTTGCCACGGGAAGGGCAGAGCGC GACCCTGCGGCCGATCTTAAAGGAGCCTTGCCGCAGCCGCGAGAAAGGCA CCATGCTGCGCTTACGGAGCCCAAAGAAGTTGCCCCCCTTTTAAGGGCCT TGGACGGCTATCAGGGGCATTTTGTTGTGAAGTGCGCCTTGAGGCTTGCG CCGATGTTCTTCACTCGCCCCGGAGAACTGCGCAATGCGGAATGGTCGGA GATTGATCTTGACGAAGCCGTTTGGAACATACCGGCGCACAAGATGAAGA TGAAACAGGCACACATCGTACCGCTTTGCCGCCAGGCGGTGGAGATATTG ACGGAACTGAAGGAAGTGACCGGGCCAAGCCGTTACGTTTTCCCGTCCGG GCGCTCCTTCGCGCGGCCAATGAGCAACAATGCCGTTAACGCAGCGCTTC GCCGCATGGGGTACGATAGGGAAACCATGACCGGCCACGGCTTTCGGGCA ATGGCGCGGACCATTCTCGATGAAGTCCTGCATGTCCGGCCTGATTACAT CGAGCATCAGCTTGCCCATGCCGTGCGTGACCCGAACGGGCGGGCTTACA ATCGGACGGCCCACCTTGAAGAACGCCGGAAAATGATGCAGATATGGGCG GATTATCTTGACGGATTAAAGGCAAACGGCGTGTTGGTTCCGTTCAAGAC AATCAAAGGATAA >SYN_00952 integrase/recombinase ATGAATTTTCAGTTGATCGATGAGTATCTGAATTATCTCACTGTCGAAAA AGGGGCGTCTCATAATACGCTCGAAGCATACGGTCGAGACTTGAGTCGCT ATTCGGGCCTGATCCAGGAAAGAGGAATCAAAGAAATTCACGAGATCAGT CCCGATGATGTCATCTATTACATGGCAGAGTTAAAGCGCAAGGGGTTGTC GGCCAATTCCATCAACAGAAGTCTTGCGGCGCTTCGCGGATTTTACAAAT TTCTGTTAAGAGAGAAGAAAATTGAGCAGAATCCTGTCGCGGAGATTGAA TTGGCCAAGGTCTGGATGCGTCTTCCAGACACCTTGAGTCACGAAGAAAT GGACCAACTGCTTTCTCAGCCCGGCGTGAGGACGGACAGCGCCATTCGGG ATACGGCGATGCTTGAGTTGATGTATGCCACGGGACTCCGGGTTTCGGAG CTGATCTCACTGACCACCGGCAGCATCAACTGGCAGGTCGGTTATCTCGT TGTCCAGGGAAAGGGAAACAAAGAACGGATCGTCCCCATCGGGCAGGTTG CCTATGAACACGTCAGGCGTTATTTTGACGAGGTCAGGCCGAAGTGTATC AGAGGGGCGCAGACGAATGTTCTTTTCCTGAACAAATCGGGCCAGGGGAT GACCCGTCAAGGCTTCTGGAAACTGGTGCGCAAGTATGCCGTCAAGGCAG GTCTTCAAAAGAAGGTGCACCCCCATACCTTCCGGCATTCCTTCGCTTCC CATCTCCTGGAAGGAGGGGCGGATCTTCGTTCTGTTCAGATGATGCTGGG TCACGCGGATATTTCCACAACTCAGATCTATACCCATGTGACGCGGGAGC ATCTCAAAGACATTCACAAGAAATATCATCCGCGGGGTTAG >SYN_01929 ATP-dependent RNA helicase ATGAAATTCGAGAATTACACCATCTCCGAGGCCATCAAACAGAACCTCGC GCAGCTCGGCTTCAGGAGGCCGACGGATATCCAGTTTAAATCCATCCCCT CAATCATGAAGGGGGAAGATGTGTTAGCCATCGCCCAGACGGGAACGGGC AAGACAGCCGCGTTCGCCATTCCTCTGATCGACCGGATTCACCGGGAAAA GAGCAGTAAGCGGGTTTTTGGAATCAAATGCATCGTGCTGGTTCCCACCC GGGAACTGGCCATGCAGATCGGGGAGGTCTTTGCCGGTCTGGCGAAGCAT ACCCGGGTGAAGACTTTTCCTTTGATCGGCGGTGTCGAACAGGATGAACA GATTCGGAAGCTTCAGGATGGCATCGATATCCTCATTGCCACCCCGGGGC GGATGTTCGATCTCATCCATCAGGGACATATTCGTCTGGACCGCATCGAG ACTCTGGTCCTGGACGAAGCCGATCACATGCTGGACCTGGGATTTATCGA GGACATCAAGTTTGTCAAAAGAATGCTTCATAAAAAGCATCAAACCCTTT TCTTCTCGGCGACCATTAATCCGGAAATCAAGAAGCTGGCTTTTTCGCAG GTAAAAGGCACGGCGATCCGCATCCAGATCTCTCCCGAAGATCCCGTATC CGCGAATGTGACCCACGCGGTCATGTTCGTCGAGATGGACGACAAGCGGT TTTTCCTCGAACGGTTTCTCAAAGAGAATCAGGAAAGCAAAGTCATCGTC TTTGTTCGAACCCGGATTCGCGCGGAGCGGGTCGCCCGGGCCATGGAGCG GGTCGGGCTCCACTCGCTGACCATCCACGGTGAAAAGGACCAGGCGGAGC GAACCAGCGTGATGCGCAAATTTAAGGAGGGGGAATGCAATCTTTTGATT GCAACGGACGTCAGCGCGCGGGGCATCGACATTCCCGATGTGAATTATGT GATCAACTACGATCTGCCCGAAAAGGCGGAAAACTATGTCCATCGCGTGG GAAGGACAGGTCGGGGCGACAACAAGGGCATCGCGCTTTCTTTCTGCAGT TCGGATGAGAAAATGCGGCTGCAGGAAATCCAGCAGTTTCTGAATAAAGA GATTGAAGTCGTAAAGGTCGGGAAAAAAGATTATGGGCTGACACTGGGCG CCTCCAGTGCGAAAACCGGCGTCGAAGCGCTTATCGAAGAACATGAGGCA TGGCTGAAGACAAAAAGAAAGACGAAAAAATCCAGAAAGTGA >SYN_02862 DNA repair protein recN ATGCTGGCGCAACTCAAGATTCGCAACTTCGCCCTGATCGACGCCCTGGA TGTATCCTTCGACCGGGGGCTGAATATTCTTTCCGGTGAAACCGGCGCGG GGAAGTCCATCATCATCGGCGCCATTGGACTTCTGCTGGGAGACCGGGCC TCAACGGAGATGATCCGCTCCGGGGCCGAAGCGGCGGAGGTGGAGGCTTT CTTCGATCTGGACGAAGGCGACCCCGTGCGGGAAAAGCTGGCGGAGGCAG GCCTTGACGACGGCGAGGGGATGATTGTAAGGCGGGTGATGTCCCGTTCG GGCAGAAACCGGGTCTACATCAACGGCAGCATGGCGACCCTGAACCTCCT GGCCGACCTGGGCGAATCGCTGATGAACATCTGCGGTCAGCGGGAACATT CAGTCATGTTGAATGCGGATCGTCATCTGGACATGCTGGATGCCTTCGGC GACCTGAATCCCCTTCGATCCGGCTACGGCGCGTTGTACGAAACCCGGCA GGATCTTCTGGGACGCGTTGAAAAATTGACGGAGGCAAAAAACCGGCGCA CGGAGCAGGAAGAACTGGCCCGCTTTCAACTGGACGAAATCCATAAGGCA GCCGTGATCCCCGGTGAAGATGTCCGGCTGACCGCGGAAAGGCAGGTGCT CCTTTCCGTGCAGAAGCTGATGGACGCCGCCGGGCAGGCCCATGAGCTCC TCTACGATCGCGGAGACTCCGTTCTGGCGTCCCTGAAAAGCGTAATTTCC TGTGTGCGGGACATCCGGAAACTCGATGAATCTCTGAATCTCTCTGAAGC GGAGCTGGACGCCCTGTATTATTCCCTGGAGGAAGCCGCCTTTACCCTGC GGGATTACCGGCAGCGACTCGTTCCGGACCCCGGCAGGCTCGCTGGCATT GAAGAGCGGCTTGAAATCCTGGGGCGGCTGAAAAGAAAATATGGCGGCTC CCTTGATGGAGTGCTGGAAAAGCAGGCGGAACTGGAAAATTCCCTGTCGG AGCTGTCCGGCCTGGAAGAGACTCTGGAGAAAGCCCAGGCATCGCTGCGG GAAATCGAAACCCGCATGAGAGAGAAGGCGGAAGAGCTTTCCGCGGCAAG GCGGCGGGCGGCGGCCGTGCTGGAGCAGGCGATCGAGGAGGAGCTGCGCG GCCTGCGCATGGAGGCGGCGGACTTTGACGTCGTCTTTCAGGAGAGAGGA GAAGAGGGCAATCCGCCATTCAATCCCCGGGGAATAGATCTGGTCGAGTT TTACCTTTCCGCCAACGCCGGAGAGGAGCCGAAGCCGCTCAACCGCATTG CTTCCGGCGGGGAGCTGTCGCGCATCATCCTGGCGATGAAGAAGGTCCTG GCCCGGGCCGGCGCCGTGGGCGTCATCGTTTTCGACGAAGTGGACAGCGG CATCGGCGGGGAGACGGCGGATCGCGTGGGAGACAGACTCCGCGATGTGG CGCGCCATCATCAGGTGCTCTGCATCACCCATCTGCCCCAGATTGCCTGC TACGGGGAACGGCACTATCGGGTAATCAAGGCGGCGGAAGGCGACCGGAC GACAACCCGGATTGAACTTCTTTCCGATGAGGAGCGCCCGGAAGAAATCG CCCGGATGCTTGGGGGGAGGGAAATGACGGAAACGACGAAGCGCCATGCC AGGGAAATGCTGGCCCGGGCGGCCGGGAGGTAG >SYN_00716 NTP pyrophosphohydrolase containing a Zn-finger N ATGATTCATGAAATTTTTCCCCACCGTTTTGACAATCACTATCTCGCAAA CAATAATATTGGAAAAAAGGATTATGTTATTCATTATAATGGGAATTCAC TGTTATTGAAAACCAACGGCAATGAATTTGAAATACCACAAAAAAAAGAT TTTTCTGAAATCTCAGATAAAACGGAACGTACATTTTTATTTAGATTGAA TGATGTACCGTGTTTTCTTGTATGGGATAGCCTGAAGGCCGATAAGCCCC ATTTTATTTACAAGGAAATAAATTTCTTCCGAACTATCAGACAGCAGGAA ATAGCATGGATCAGTATTGTCGGATTCCATCTGATGAACTGGTACTCGCA GAATAAATTTTGTGGAAGATGCGGTACAAGAACGCAACAGAAACCTGATG AAAGGGCGCTGATATGTCCAGATTGCGATACAATTTTTTATCCAAAAATT TCTCCGGCGATTATAGTAGCAATAATTTGCAATAATAAAATACTGCTTGC TCGCAGCCCAAATTTTCCAGGAAACATGTATTCATTAATTGCTGGATATG TTGATGTGGGTGAATCGCTTGAGGAGGCTTTAGCACGTGAGGTCAAAGAA GAGGTGGGATTGGATATTAAAAATATCCGTTATTATAAGAGTCAACCCTG GCCCTCGTCAGGTTCGATGATGATAGGTTTTATCGCTGAAGCAGATGAAA ATCAGCCTATCTCTATAGATATCAAAGAAATTGCAGATGCCGCATGGTTC ACCAGGGGAGATCTCCCAGAACATCCTTTGAATATTAGTATTGCAGGCGA AATGATTGAAAAATTTGAGAAAGGGGAACTATGA >SYN_03201 DNA repair protein ATGGGAACATGCTTATTATCTGGATTATCAGAACCGTCGGGCGGAATATC TGAACACCTTCGTGGACAAACTGATCAACTGGGATTTCGTCAATTCCCGC ATGGGTTAAGCGGCATCACGCAACCCTGCCGGGGACATCGCGCCCCCCTG GCAGGGTTGCACCCGCGCTATCTCCGGTTTTCCCAATCAACTCCAGCTCA TTTTGTTATCTTAACCACGGAATCCATGACACCGACACCTGAGATACCTG AACCTCACTATATCGGGCACCGTCAGCGCCTGAAAAAGAAGTTTTTTAAA TGCGGACTCCAGGCCCTTCATGACTATGAAGCGGTGGAACTTCTTCTCTC CTATGCCATCCCGAGAAAAGACATCAAGAGCCTGTCTAAGGATCTTCTAG AGCGATTCGGCTCTCTGAAGGGAATCATGGACGCGGAATTGGAAGAATTG ACCGCCGTGAGAGGCATCAGTGCTCATGCAGCGGGACTCGTTCGGATGGT CAAGGAAATGAGCGCCCTGTATCTTCAGGAAAAAGCTCGGGAAAAACCAC AGATCAGCTGCACCGGCGAACTGCTGGATTTCTGTAAAACCGCCTTGGGC GGTCTGAAGGATGAAAATTTCTGCGTTCTTTACCTGGATACGCAGAATCG GATCATCGCCTTCGAAACGATCCAGAAGGGTATTGTCAACCAGGCTGTTG TCTACCCTCGGCAGGTGATCGAAAGAGCGCTCTCCCACAAGTCCTCTGCA CTGATTCTGGTGCATAACCATCCTTCAGGGTTCGTCAAGCCTTCCGATGC CGACATCAGGTTGACCCGTACTATTACAGATACGGCTAAGCTCTTGGACA TCATGGTGCACGATCACCTGATCATCGGCGAGAACCGGTTTTTCAGTTTC CGTGAAGAGGGAATTATGCCGCTCTGA >SYN_00524 type II restriction enzyme, methylase ATGAACTACCAACCGCTGTTCAGCATTTCTCTTCTGGCCTCCCACTGGGA GAATGAATTCAGGATTTTTCAAGACTCCGTTGAAGCTCAGGTGCTGCTTG AGCGCCTTAAAATCTGGAATGAACGCCGAAGGCTCAAGGAAACCGCCACC GATGCCGCCTTCATATCATTGTTTTTCCGGGACATCTGGGGTTATTCCCT GCAGGGCGAGAGTGGCGATGGCTATCAGTGCTATCCTCAATTTCCGATTG CCCGGGCGGGGCAAATGGGTGGCGTGGGCCAGGCTGATCTGGCGCTCGGC CGTTTTGGCGAAGCCGGGATGCCGGACATCCCTCAGGTGCTTTGCGAGTT CAAGGACATGCGCTCCGGACTGGATCAACAGCAACACCGGAAGGGTAACG ATCGCACACCTGTAAGACAATGCCTGGATTACCTGCGGGAAGCCAGGGCA TCCCTGACCGGCCATGAACTGGTCGAGCCGGCATGGGGTATCGTTACCGA TACAAACGAATTCCGACTCTACAATCGCGTAAAAGGGGAAGCCCAATGCC AGCGTTTCGTGATCTCTCCCGCACCCGGTGAAGAAGCCGAGTCCCTTCTC AATAATACTGAATCCGCGGCCTTCCTGCGGTTCCTGTTCAGTAAAATCTT TTCCTCCGCCGTCCTCCTTTCCGAACGTGGTCCCGCACCGCTCGAAGTTT TACTGAAAGAGCAATTCGTCCGGGAATCGGCCCTCGAACGGGACTTTTAC ATTGAATACAAGGCGTATCGTGAATTCGTTTTTAAAAGCATCGTCGAAGC CAATCCGGGATTCTCCGGAACCAGGGGCAAGCTGGTACGGTTGACCCAAC GATTCCTTGACCGCTGCCTCTTCATCATGTTCTGCGAGGACATGGGAAAG GCCCTCGAGTTTCCCGGGGATCTCCTGAGAAACGTCCTGATCGATCTCAG CCGCGACGCATACTACAATCCCGAGGATTCCATCCCCTGGGAGCGGGTCA AAACCATCTTCCGGACCATGCGCGACGGAGGAAGGGTCGGCGACCACCTC ATTAAGCGTTTCAACGGCGGCCTGTTCGAAGAACTTCCCGATCTGGAAAA CCTGAATATTCCCGCCAAGGTCTTCTGTGTCAGGAACCAGGGAACAGGTG GGGCGGAAACTCTGCTCGCCCATCCCCTGACCCTGCTCTTTTTCTGTGCC AAGTACAATTTCGGCATCAAGAATGCGGCACACGAGCGGATGATCGATTT TTACGCCATCGGCCGCATCTTCGAACAATCGATCACCGAACTGGAAATCA TGGAGGCCGAAGCCGACGGCAGGCCGTCCATCAATCTTCTTTCCCAGCGC AAGCGGGACGGCGTTTACTATACCCCGGAATGGGTCACGGCCTATATCGT GGAAGAGACGGTGGGCGCGCGGCTTCGGGATATTAAGGGCGAACTTGACC TGACCGAGGAAAAGCGTCCGAATGATGAGCAGATCGAAGAGTACCGCAAA TTTTTAGCGGACAGACGCCGAACCGCGAAGGCAGCCGGTGCCTGGCTGCA ATCGCTGCAGGCCTACCGCAGGCGGTTACGTGAGTTGAAGGTCGTCGATC CCGCCTGCGGTTCCGGCGCTTTTCTCATTCAGACGCTGGAAAGGCTCAAA CGGGAGCATCGCTGGGTGGCCGATGAGACAGACCGCATTGTTGGGCTGGC AGAGTTATGGGACCAGGATGTGGTCATCAACGATATCCTGGCCAACAATC TGCACGGTGTGGACCTCAACGCCGAGTCCGTGGAAATCACCAAACTGGCG CTCTGGATGCACACGGCGTCGGCCGGCAAGCCCCTGTCGAGCCTCGACAG GAACATCCGTTGCGGCAACAGTCTGGTCGGCCCGGACTTCTATGCGAATC GGCAGCCGGACCTCTTCAGCGAAGATGAACGGGAGCGTATCAATGCCTTC GACTGGAAGGAGACGTTCCCGGGAATATTTGACCAGGGCGGCTTCGACTG TGTGATCGGCAACCCGCCCTATGTCAAACTGCAGAATTTCCGCCGGGTTC AATCGTCCGTTGCCGAATATCTGCTGGAGGCCCGCCGTGCCGACGGCGCC CCCTTGTATGCAAGCACCCGGACGGGCAATTTCGACCTGTATCTTCCCTT CATCGAAAAGGGACTGGATCTTCTACGGCCGGATGGGCGCATGGGCTACA TTGCCCCCAACGTCTGGATGATGAACGAGTACGGCAGGGGGCTGCGCGCC GTTGTCAAGCGGAACCGCCGCCTTGACCGCTGGGTCGATTTCAAGAGTTT TCAGGTTTTCGACGAAGCCATCACCTACACGGCCCTTCAATTTTTCCGGG GCCGTTCGGTTGATGCGCTTCGCTGTTCCTTTATCCCCGACGGGGACATG TCCCGGATCGAGTGGCAATCCCCTGATGCTCGGATCTCCTATGAAGAACT GCCCGAAACCGAAGCCTGGAACCTGATGCCCGATGCCGAACGGAAGCTCA TCGACCGTCTGAGAGAGACTTGCAAACCATTAATTGAGCGTTGCCGCGGG ATATTTGTTGGGATTCAGACCAGCGCTGATGCCATCTACCACTTAATCCG TCTTGGACCGGGGCGATACCGGACAAAAAGCGGCATGGAGGTCCGCCTTG AGGACGCCATCATGCGTCCCCTCGTCTCCGGTGCTGAAGCCAAACGTTAT CAATCCCCTCAGACCGATACCTGGCTCCTGTTTCCTTATGATATTTCCGG TGCGAGGCCGCGACTTCTAACAGAAAGCGAACTATCCAACCGTTTTCCCC TGGCCCTGGCTTATCTGAAGCAGCATGAACAGGCATTGAGAAACAGAGAA AGAGGCAGGATGAATATAGATGACGGTTGGTGGGCTTACAATTACCCTAA GAATCTGGATAAGCAGGAACATACCAAGCTATTGGTTGCCCAGACCGTTC CCAATCTGCGGGTTTCCTACGATTCAGAGGGAACGTTCTACTGCAACAAC GTTCGAGTCAATGGCATCCTGCCGAATACTCCTGAGGGCGGCTGGTTTCT CCTTGGCATCCTCAATGCCCGCCCTGCCGATTTCATTTTTCGTCGCATTG CCAAACCAAAAGAAGGTGGATGGTTTGAGGCCAACAAACAATTCATCGCT CCCCTCCCCATTCCCGAGGCGTCGGATGAGGACAGGGCCGAGGTTGCCCG GCAGGCAAGGGAGTTGCAGCGGCTGCACACCCTCCGGCGCGATCTGATCG CCGGATTCGGCAAGCGGGTCAACGGCGACCAGACCGTTGTGGACAGGCGC AGGTCGACCTGGCTTTGCGCCGATGCCGACAGGTGGAAGGAAAAGCTTGC GGCCTGGGATGCCCTGCTCCGTCCCGGCGTGGAACTTGCCGTGGAAAATA CGGACGATGAATTGCTCCTCAAGATCGGCGGCGAGACGGTACTGGAACTC TTTGATGTACCCGAGACGCCCTTTATCGCCGCCCAATGGCGGCAAGCCCT GCGTGATGTATCGGTAACGGCGGGCTTCAACGCCGGAAAGCTCTCCGATT TGCTGCTCAAGCTGCGGAAAAGTGACTCCCCCGAATTGAAAAAACGACTG ATCGGCATCGATGACGAGATCAAACGGACGGAAGCCGCCATTATTCAAAC GGAGAAAGTCATGAACAGCACCGTGTATCGATTGTATGGCATGACCAGGG AAGAAATACGCATGGTTGAGGCCGGGTGA >SYN_02430 ATP-dependent RNA helicase ATGAGTTTTACTCAATTTAATCTTCACCCGCAGATCAATGCCGGTATCGA GGCCCTGGGCTATAAAACGCCGACACCAATTCAGATGCAATCCATTCCCG CGATTATCCAGGGAAGGGATGTTATGGGGCTTGCACAGACCGGAACGGGG AAAACAGCTGCCTTTGCACTTCCGATTTTGCAACGGCTGATGAACGGTCC CGGCAAAATGGTTCGCGCCCTGATTGTCGCACCGACGCGGGAGTTAGCTG AACAGATAAATGAATCCATTAATGAAATGAGTCGGTCAACGAAATTGAAG AGCGTTGCTCTTTACGGGGGGGTGAGCAAGAATCCCCAGATCGAGAAACT CCGGCAAGGGGCCGAAATTATCGTCGCCTGTCCGGGTCGTCTTCTTGATC TTGTGGCCCAAGGCGTTGCCGACTTGTCTGGAATCGAAGTTTTCGTTTTG GATGAAGCGGACCGGATGTTTGATATGGGTTTCCTTCCTGAGATCCGGAA AATCACAAAGCAGCTGCCCGAAAAGCGGCAGACGCTGCTTTTCTCTGCCA CCATGCCGGCCGACATCCGCAGCCTGGCAAAGGATATCCTGCACGACCCT CTAACCATCAGGATTGGCAACGATATTCCTGTCTCTACGGTTTCCCACAC TCTTTATCCCGTTGAACAGCATCTCAAAACGGCGCTTCTGATAAAGCTTC TCAAGGAAACAGACACTGAGTCAGTCCTCGTCTTCGCGCGGACGAAGCAT CGTACAACGCGGGTGGCCATGCAGATGAAAAAAGCCGGTTTCCCCGTGAG TTCCCTCCAGGGAGATCTGTCGCAGAATCAACGTCAGACAGCACTGAATG GGTTCCGGGAAGGGAAGTATCGGATTTTGATCGCTACGGACATCGCGGCT CGCGGGATCGATGTGACCCGCATTTCTCACGTGATCAATTATGACATGCC CGACACTGTCGAGGCTTACACACATCGGATCGGGCGCACTGGTCGTGCGA CAAAGTCAGGGGACGCCTTTTCGTTTGTAACCTCAGAGGAAAGGGATTTG GTGGATTCCATCGAGTATGTGCTTGGAAAACAGATCGCAAGGTGTACCCT TGAGGATTTCGATTACTCAAGACCGGCTCCTGCTGGAAGTGGCAGGGTCC GCCATCCCATGCGAATGCCGGCAATAAGCGAACTCCCGACACGGTTTCGT AGTTCAACCCCGGTAAAGAAAACTGCATCTTATCACATGAGCCCTGGAGC TTCCGGCCGCCGAAGCCGTTAG >SYN_03074 transposase ATGTCCACATCGGTTCTTTATCATGCTTTCAATCTGAAGGGTATTACTTA TAGAGCAACACGCTTCACGGGTGACGTCATCGAATATTTTGCAGATGTGA AAGAAGAATACATTCGCTGTCCAAAGTGCGGGCAGCGTAAATTTACCTTT AAAGGACAGAAAACACGGAGTTTTCATCTGGGACCTATGGGGCGTAAGAG GTGTTTCCTTGTACTTTCCCTTCATCGAATAAAATGCAACACTTGCGACA CCCTTTGGTGGCCCGATCTGCCTTTTATGGTGGGGAAGCATAGATTTGCC CGATCCTTTGCTCTGATTGTTCTGGATCTGCTTCGATTCGGCACGATTCG CTGGGTTGCCGATTACCTCGGCGTGGGTTGGGATATGATCAAAGAGATTC ATAAGTTGAAATTGCAGCGCCTCTATCGGAACATTCCTCTTCATAAAGTT CGGTATATCGGTATCGATGAATTCAGCATCCGGAAAGGCCATGAGTACAT GACCACGGTGATGGATCTCTCCGAAGGACGAATCCTTTACGCCACTGAGG GAAAGGGCAAGGAGGGGATTTTACCCTTCCTGAAAAAACTTGCACGCAAG GGGAAAAAACTGCGAGCGGTTGCAATGGACATGGGAATTTCCTTCTTCTC CGCCGTCCGGGAAGCCCTTCCCAATATCGATGTCGTCTTCGACCGTTACC ATATTATGGCTCTGATGAATCAAGGCATCGAAAACTTGCGCAGAAATCAT CAGAAAGAACTTGATGATACCGGGAAGCAAACCCTCAAGGGAAACCGCTT CCTCCTTTTGCGAAATTATGATTCCCTGAAGCCGGACCATAAGGAACGTC TCGATGCCCTGATGCAGGCCAATCAGCCTCTATTCGTCATGCATTCCATG AAAGAGCAACTCAGACTCTTCTGGGAAATACCGGAGTACGCCCAGGCTGT TACCTTCCTTGACACCTGGTGTAAGGACGCCATGCTGTCCGGAATCAAAG AACTCGTCAAAGTAGCCAAAACGCTCTCCGGATACAGGACTGCGATACTC AATTATTTCAAACATCACATTACAAATGCCGCCCTTGAGGGCACAAACAA CAAGATTAAAACTTTAAAAAGGCAGGCCTATGGATTCCGGGATATGGAAT ACTTCAAACTCCGCCTCTATCACCTGCATACTCAGAGGTACTCATTAACC GGATGA >SYN_01911 uvrD/rep helicase TTGCCCCTACAAGGCTCTCTGCCTCAAACCAGACCTCTATCAGACGATAG GACGACCAGGAGGCCACCCATGGTGAAGAGCCTTTTCGTCACCGCCTCGG CCGGTTCGGGGAAGACCTTCCGCCTGACCCGTGAGGTCCGCAGCCACCTC GACCGGGAGGGAGAATTCGTTGTCGCCGCCACCTTCACCCGCGCCGCGGC GGCAGAAATGGAAAAAAGGATCCTCGATGCTATCGACGAAGGGAAGGAGA GCCCCGTCGACAAGCTGCGGTTCATCATGCGGGCCGCTAGGGTCCACTTC TCCACGATCGATGCGCTCTTTCACCAGTTTCTTTCCACTGAAGCCTATGT TCCGCAGTTGGCAGACGACCATGAGAAGGCGATCATCGCCACGCTCGCCG ACACGCGTTTTTTCCAGCATCCGCGCGTTCTGGCCGACATCGAAAGCATC GTGATCGCGGCCCGAATCCTCCATCTGCAACCCGATTCCCTGATTGCGGA GCTGGATAAGGGCAGAGAGTCACTGGAGGCATGGGACTGCCCCGAGCGTC TGCTCGATGCACTCAAGGGCGAACAGTCGCGGCTTGTCGCCGAGTACGAT CAGCTGCGTGCCAAGGTGCAAGTCGTCGCGGAAGCGACGCGGGGAGCCCT GCGCAGCCAGGTGGCCGCCCCCTTGCTTGAACCGCTCGCCGGGGTGGACC TCAAACGGGCGCTTTTCCTCAAAGACAACCTCGCTGATGTTCGCGTAGCT GCAGCCGATCGCGCCACGCCCGCCTACGCGGCCTTGGAGGACCTCTATCC GCGAATGCGCGTTCTGATCTCCGAACACCTCATCAACACGAAACGGTTGC GAAGCGCCCTTCTCAAGCGTTTCATCGCCCTGCGTGCCGACGTCATTGCC GAGGAGAAGGAAAAACTCGGACGGCTCTTCTTCGACGACGTCCCACGGAA GCTCATCGCCCTTGATGGACCGGACAGCCCCGACCGACCGCTTTTTGCTG CACGCCTCTATGAAATGGGCTTCCACCGAACGGCCCATCTGCTCCTCGAC GAGTTTCAGGACACGTCGCAAATCCAGTTTACCCTGCTTCGGCCTTTGAT CGAAGATATCCTCGGCTCCGTGGGGAGCAATGCCGAGGGAGACCGGTCGA TCTTCCTCGTGGGAGACTGGAAACAGTCGATCTATCAGTGGCGGGGGGCG GCGCCCGATATGCTCCGGGCCTCGCTCACCCCAGCCCTCGCGAGCGGACA GATTGCTGCCGAGACTCTTCCTTACAACTACCGTTCGACACCGCTTCTTA TCGAATTTTTCAACCATCTGGTCGCCGACCTCTTCGCCGGAACCGACAAA GTCAACATGCAGGCGCCGCCGGAAAAGCCGAAGCACCCCTACGGCGGCAT CTCCGAGGTGGCGGTTATCCCGGTCGCCTGCGGAGCGGGAGACGAGCCGG TGTACGAGCGGCTCATCGAAGCAATTGTCAAAAAAAAGGCGGAGTGCGGT CGCCCCTGGGGCGATATCGCAGTGCTGTGCCGCACCAACAGGCATATGGA TAGGGCCGCCGCGGCGCTGGCCAGAGCCGGAATCCCCACCTCGGGGATCC GCGGCCGCGAGATGCTGTCACTCCGGGAGGGAACGGCGCTCTATCTTTCG CTCATCGCGCTTTTCACGGCCCACGACGGCCGCTTCATTCCTCGCGCCCT CAAGTCTTTGGACTATGGCGAGGCCCAGGGCGCGACATTGATGTCCGCCG TCGCGCAGCTCGCCGAAACTGTCGGCAACGCGCCCCGGCCGCACCGGTTC GCGGCCTTCGCATCCGCCCTGCGCGACCTTGCGCCTCATTTTCCGCGCAT CCTCATCGAGACGCTCTGGGATGAGGCGGAGCGATACTTCGTCCGGCCCG ATGCCGTCGATGCCGCCGCCTTCCTGCGTTACCTGCTCACCATGTCGCAC CTTATCACCATACCCGAGGGAGAGCATGCTGACCGGGTGAAGCTGGCCAC GATCCACGGTACCAAGGGCCTTGAATTTCCCCATGTCTTTCTTTTCTGGA AAGAGGAGCACGACAGGGCGCCCGAAATTCCGCACCCCGAAGATGGCTGT CCGCTCAGCCTGAGCAAAGACGAACTGGCTTTTCTCGCTACCGACCCGAT AGAAGGAGCTGCAGCCATTGCCGAGGCGGTAACTGTTGTGAAGGAAGAAA GGGCCGAAGAGACGGCCAATATCATCTACGTCGCCGCGACCCGCGCCGCC AAGAGTCTGACGATCCTCCTGCGGGCGGACCGGGAGGGCGCCTTGAAGGG CTACAGTGAGCGAATGTTTACAACGGCCCAGGAACCTATAGCGGACGCCG AGCGCACCGAATTCGGCTGGCGGCATGACTACGGCCTCGAAAAGCCGCGC CCCGCGGACCATGAGGATCTGATCGAGCCTGATCTGGGCGATCTCCCCGC CGTGCCAGCCGACAGCGACGAAATGGACGCGGCCCTGCGCTCCGCCGCCA TCGAGGCGGGAATTGAGCGCGGTCTTCGCATCCACGCGATCCTCGCCCGC CTCACATGCGATCGCCAAACGATTGCCCCTGACAGCCTCGCCGCAGAAGA GCAGGCCGTGGTCGAGCGGTTCCTGCACGAAGAGAAGGTGCGAGAGATCC TCTTCCGACCCGGGAAGGTCCTCGTCGAACAGCACATCTCCGACACCCGC ACCTTCGGCATCGTGGACCGGCTCATCATCGCCCCCGACCGCATCACCCT CATCGACTTCAAGACGGGTCGCGTCGGCCATTTGGCTGACAAGTATCGGC CCCAGATGCTCCGCTACCGGATGATTCTCCAGGGGCTGTTCGCAGGGCGT CCGGTCGAGTGCTATCTGCTGTTCGTGGACGAGCCGCAACGGATTGTGAT AATTTAA >SYN_01336 primosomal protein N'-superfamily II helicase ATGTCCATGTATGTAAAAATCGCAATCAATATCCCGACGGAGTCCCATTT TACCTATTCCGTACCACAAGCTCTCTCTGGTGACGCAGCCGTCGGGAAAC GAGCCCTGGTGCCTTTCGGGGCAAGAAAACTGACGGGTTATATTATTGGT TTTCTCAGCGAACCGGACTTCGACGACATCCGGGACATTCTGGATATTCT GGATAGCGAGCCTCTCTTCAGCTCTGAGGACCTGGCATTCTATTCCTGGG CTTCATCCTATTACCACTATCCCCTGGGCAAAACCCTTCATGACATCCTG CCGGGCGGCATCGATTTGAAGAGCGACCGCCTCTTTAAAGTCGCCGCAGG TCATAAAGCTCCATCCAACCCACTTCCGGAGGGACAGCGGAAAATTCTGG ATCTGCTGGGAGCCGCGCCCAAAGGTCTGTCCTTAAAACGCTTGCGGAGA CTTCTTTCCGGCAGCCCAATCCGGCGGGATCTTGCCGCCCTTCTTTCCGC AAATCGGGTGATCGCCGAAGAAGGCCTGGAGCAGCCGGAAATCCGGAAAA AAACCGAAAAGGTAATTACTCTCGTCGCGGGTCGTTCCGTACCGGCACGT CTTTCCGCCGTCCAGCAGCGCGTCCTTTCCTATCTGCAGGAAAAGGGAAC GGCTTGCTTCCCGGAACTGCGCCCCTTTGCGTGCAATCCGTCCCCCGTTG TTCACCGGCTCATGGAAAAGGGGCTGGTTTCGCTTTCCGAACGGGAGGTC TACCGTTCCTCCGAAGAATCTCCGGAAATGAGCATCCTCAACGATATCCA TTTGAATGATGATCAGGCCGCCGCCTGCGGAGAACTGGAAAGCGCACTTT CCTCACGGCGATTCAAACCCTTCCTGCTTCATGGCGTAACGGGAAGCGGG AAGACGGAGGTTTATTTCCATGCAATAAAGCAGGCCTTGAACTCCGGCGG CGGCGCACTTTATCTCGTGCCGGAAATCGGTCTGACACCGCAACTGCTTT CCCGCGTGCGAAATCGTTTTCAAGGGGAAGAAATCGCCGTCATCCACAGC GATATCGCACGGGGAATCCGTTACGATTTCTGGCGTCGACTCCAGCGGGG GGAAATCCGTCTCGTCGTCGGCGCCCGCTCGGCTCTTTTCGCCCCTCTTC CCAACCTGAGGCTGATCGTGATTGACGAAGAGCATGACAGCTCCTACAAA CAGGATGTCCGGATGCGGTATCACGCGCGGGATCTGGCCGTTTTGCGCGC AAAGCTGCAGAATGCCGTTATCGTGCTGGGGTCGGCGACTCCGGACATGC GCACCTTTTATCAGGCACGCCAGGGAAAATATGACTGCCTTTCCCTGCCC CGCCGGGTGGAAAACAGGCCCCTTCCCCAGGTCCGGATCGTCGATATGAA GGCGGAGCGGGAAGAAACGGGAAGGATTCCAGTCCTGTCCCGCGCCCTGA TAACAGCCCTGGAAGAAACCCTGAACGATGGCTCGCAGGCGCTTTTTTTC CTGAATCGACGGGGCTTTCATACGTTTCTTTTCTGCCCGGACTGCGGTAC CGTCCTTTTCTGTCCCAACTGCGCCGTCTCGCTTACTCTCCATGCCGAAG CGAACAGGCTGCAGTGTCATTACTGCGATTACGCCGTCAAGACGCCTTCC CTCTGTCCGAAGTGCGGAGGCCGGGATATTCAGTTTTATGGGGCGGGAAC GGAACGGCTGGAGAAGGAAATTCTTTCTCATTTTCCCCATATCCGAACCG CGCGGATGGACCGCGACACCACCGCACGGAAAGGAGCGCACACGCGGATT CTCAAATCCTTCGACCGGGGAGAAATCGACCTGCTCATTGGAACCCAGAT GATCACCAAAGGCCATGACTTCCACAACGTGACGCTGGTCGGCGTAATCG CCGCCGATACGGCATTGAACCTGCCTGATTTCCGCTCCGCGGAAAAAACA TTTCAGCTTCTGACGCAGGTCTCCGGAAGAGGCGGCCGGGGCAGAAAAGA AGGACAGGTCATCATTCAGACCATCAATCCTGACCATTTCGCCATTCAAA GGGCAAAGAATCATGATTATACAGGCTTTCACGAAGAGGAAATCCTTCAT CGAAAGTCCCTGGGCTATCCGCCGTTCTCCCGCCTGATCATCCTGCAGCT TTCCAGCCTGAACGAAGAGCGGGGGCGTCGGGAGGTCGAGGAAGCAGGCC GGATGGCCAGGGCTTTCACCCGGGAGGAATCGAGTCGGACGATGCCTGTG GAGGTCATCGGGCCGGCTGAAGCGCCCATCGCCAAAATCAAAGGACGCTA CCGCTGGCAGATCATGCTTAAGAGCGACAACCTTCAGGCTCTGCATTTCC TGACCCGCCGCCTGCTAACTTCAGCTGCTTCACGGAAACTGGAGATCAAG GTGGATGTGGACCCTGTCAACTTCATGTAA >SYN_00609 excinuclease ABC subunit B TTGAAGTGGGAATGCCGTCGGCCTGATGATATACAGGGATTTGATTTCCA TGGAAATTCAGGTAATTTGCAGGAGCAAAGCGCCATGAAGCCCTTTCGTA TCGTGACGGAGTTCAAACCTCGGGGAGATCAGCCCCAGGCGATCGAGAAA CTGGCGGATGGCTTGCGGCTGGGCCTGCCTCACCAGGTTCTGGTGGGCGT GACCGGATCGGGAAAAACCTTTACGATCGCCAACGTGATCGAAGCGGTGC AGAAACCGGCCCTGATCATCGCCCCCAACAAGACCCTGGCCGCCCAGCTC TATGGTGAGTTCAAAAGCCTTTTTCCGGATAACGCCGTCGAATACTTCGT CAGTTATTACGACTATTATCAGCCCGAGGCCTACATCCCCAGCACGGACA CCTACATCGAGAAGGACTCCTCGATCAATGAGGACATCGACAAACTGCGC CACGCGGCGACCCATTCCCTCCTGGATCGCCGGGATGTGATCATTGTGGC CAGTGTCTCCTGCATCTACGGACTGGGTTCTCCCGAGGCTTACCAGGGCC TGCTGCTGGAACTGGAGGCAGGAATGGAGCTGTCCCGGGAAATGATGCTG AGAAGGCTGGTGGACATTCAATATGAGCGGAACGATGTTGACTTCCATCG GGGCTCTTTTCGCGTCCGGGGCGATGTGGTGGAGATTTTTCCGCCCTATG AAGAAGACCGGGCGATCCGTGTGGAATTTTTCGGCGATGTCGTGGACGCC CTGTCCTTCGTGGATCCTCTGCGGGGGAAGAAGCTTCATTCCCTGGAGCG GATTGCCGTCTATCCGGGGAGCCATTATGTAACCACGCGGGACAACCTCA ACCGGGCCATTGCGGCAATCCGGGAGGAACTGCAGGGCAGACTGGCAGAG CTGCACGCGGCAAACAAACTGCTGGAGGCGCAGCGCCTGGAACAGCGTAC GAATTTCGACATCGAGATGATGGAGGAAATGGGTTACTGCCAGGGCATCG AAAATTATTCCCGCCACCTCACCGGCCGGGCTCCCGGCGAACCGCCTCCC ACCCTGGTGGAATACCTCCCGAAGGACGCCCTGATCATCCTCGACGAGAG TCACGTTACCGTTCCCCAGCTGATCGGGATGTACCGCGGTGACCGGTCCC GAAAGGAGACTCTCGTCAATTACGGGTTCCGCCTTCCGTCGGCCCTGGAC AACCGGCCGTTGAGATTCGAGGAATACGAAAAGTTCCCCCAGCAGCGGCT GTATATCTCGGCGACACCCGCGGCCTATGAAATCAAAAAGGCCGGGCCCC ACGTGGTGGAACAGATCATACGGCCCACGGGGTTGATGGATCCGGAGATT ATCGTCCGCCCCGTAACCGGACAGGTGGATGATCTCCTGACTGAAATCCG CCGGCGAGCGGAAAAGAAGGAGCGGGTGCTCGTGACCACCCTGACCAAGC GGATGGCGGAGAACCTGTCGACCTATTACGAAGGATTGGGGGTGAAGGTG AAGTATCTTCATTCCGACGTTCAGACCCTGGAACGGGTAAGCATCATCCG GGATCTGCGACTGGGGGAATTCGATGTCCTGGTCGGCGTCAATCTCCTGC GGGAGGGGCTCGATATCCCCGAGGTGTCGCTGGTGGCGATCCTGGACGCG GACAAGGAAGGCTTCCTCCGTTCGGAGCGCTCCCTCATCCAGACCAGCGG CCGGGCGGCGCGGAATGTCGGCGGCCAGGTGATCATGTATGCAGATACGA TCACCCGTTCCATTCAGGCCTGTCTGGATGAAACCCGCCGCCGGCGGGCT CTTCAGGAGCGGTATAATCGGGAGCATTCCATCACCCCCGAGTCCATCAA AAAATCCATCGACAACATCCTGAGCTCCATCTACGAGGCGGATTATGTGT CGGTGCCGGTTGTTTCCGAGGAAAAGCAGGTTTATTTATCGGATACGGAT CTGGAGAAGACGATTCGGCAGTTGAAAGGGGAGATGAAGGAGGCGGCGAA AAGACTGGAGTTCGAAAAAGCCGCGCGCTTGAGGGATCAGATCAAGGCCC TGACCGATCTGAAAATGGAGATGGGAAACCCTGCGGTGTGA >SYN_00121 phage integrase family protein GTGGGCCAGTATTCAAGAAAACTAAAGCGCGGCGTCCGTTGGTATTATTC AGGCCAATATCTTGGGCAGAAATATTTTAGCAGAGCAATATATCTGACAA AACAGGAAGCGAAGAGGGCGGAAAGGGAAACGATTGCAGAGATGGACCAA AAAGCCCGCCAGCCCGGCGAAGTGCTGCTAAAAGACCTGATTGAAGAACG GCTTGACATTATTCTGCACAAGAAATCAAAAGTTTATTACCGCGAGAACC GGCTTTACATGAAAAAACTTCTCGATGCCGTTGGTAATATCCCGATTCAG GACATTACCAGGCAGCAGATACACAAGGTCTTGATTGATTATTCGAAAGA TTTGCGAAAGAGGGGAAAGACAGACCATAAGGCTAATGCCATGATCAGAT GTTTTAAAGCCCTTTTCAATTACGGCATCAGTCTTTACGAGCTAAATATG AAGAATCCGGTCAAGGGAATCCAGTTTTTCAGCGTTGACATCAATCTGAA ATACATTCCGACCGATGAGGATATTTTAGCCGTTAAAGAGGGACTGACCG AGGAGCAGAAATTTTTGATCGATTTCTGCCAGCAGACCGGCTGTAGGATC AATGAAGCTTTGAGGCTCAAGGGAAGCGATATCGGGGACAATTACATTGT CCTCTATACCCGGAAAGCCAGGAATTCGAATCTCACGCCTAGGAAGATCC CGAAGCCGCCTTGCCTTGCCGGCTATAAACCGAAAAAAGAAAGGGTTTTC TCAGAGTGGTCCAACGTCCCAAGGTTTTTGGAAAAGCGGGTAAAAAAACT CGATATGAAATACTGGACATGGCACAACCTGCGTCACAAATATGCCAGCG AGCTCTCGAAGCGGAATGTGCCGCTGTTCGAGATCATGAACCTGCTTGGC CACTCCAATATGAAAACCACCCAAATTTATCTCCAGCTAATTGGATTTTA G >SYN_02552 exodeoxyribonuclease V beta chain ATGAAACCTTTTGACCTCCTCAACGCGCCCCTTCAGGGACGAAACCTGAT TGAAGCCAATGCGGGCACTGGAAAAACCTACGCCATCAGCGGACTCTTTC TTCGCCTGATTGTGGAGCATGCCCTGCAGGTCGGGGAGATTCTCGTCATG ACCTACACCGTGGCGGCGACGGAGGAACTGAAAGACAGAATCCGCTGCAC ACTCAGCCGGGCTTTGGAGGCCCTCGGGCATGGAAGGGTTGAAGACCTCT TTCTGGACTCATTTGTCCGTCGTCTGGCGGAGGATGATCGCACGAATTCC GCACGGCGGCGTTTGGCGACGGCGCTGCGGGATTTCGACGAGGCGGCCAT TTTTACCATTCATGGTTTCTGTCAGCGGACGCTTCAGGAAAACGCTTTTG AAAGTCATTCAACCTTCAATGCCGAACTGATCACCGAGTCGGAAAAAATA ACGGATTTGATTCTCCAGGATTTCTGGCGGCGTCACTTTTACGAAGCGCA GCCGGAACTGGTCGCCTACGCGCTTGAAACAAAAAATAACCTGGCGGGAT ACCGCTCTTTTCTGAGGCAGATTTCCAGCCATCCGGATATTCGAATCGTT CTGGAGCCGCCAGCCCCGAACCATGATATCGTGGAAGAAGAAATCGCCGC TTATCGCCGGGAGATCAGCAAATTGCGGGACTCATGGAAAGAGTGCCGCG AAACCGTTTGCAGCCTCCTCAGGGATGGTTCGCTAAACGGCAAAGTATAC GGGGAATATCAAACGGATCGCTATGTCGATGAACTGGATGTTTTTCTGGA AAGAGGGGGGCCCTGCTTTCCCCTGCCGAAAAACTTCGAAAAATTTACTG CAGGCAAACTGTCCAGATCGTGCCGGAAAGGCTGTGTGCCTCCAAAACAT CACTTTTTCGAAATTTGCCAAGTAATTAATGACTTGGAGAAAAGACTTAA AGTTGTACTTGACAGTATTCTTCTATCGCTGAAGAAAGAACTTCTGCAGA CTATCCACGCTGAACTGCCCGCTTTTAAAACCCGGCGGAATATCCTCTTT TTCGACGACCTTCTCCTGCGCCTGCGGGATGCCCTCGGACGGCCGGAAGG CGATCTCCTGGCGGCGGCTATCCGGAGAAAATACCGGGCTGCCCTGATAG ATGAATTTCAGGATACGGACCCCGTGCAGTATGCCATTCTGCAAGCGGCT TTTCTGTGCAACCGCCCTGAGGAGTCAGATAAACCGCCGATATTTCTCAT AGGTGATCCAAAACAGGCGATATACAGTTTCCGGGGCGCGGACATTTTTG CCTACATGGCAGCGGCGAAACAGGTGGATGCAGCATATACCCTTCAGGAG AACTGGCGTTCTGCGCCTGCGCTTCTCAATGCTGTCAACAGCGTGTTTCA CAGTCATCCAAATCCTTTCGTTTACGAGGCCATTTCCTTTATGGATTCAA AACCGGCTCCGGGAGGGCAGAAAGAACAGTTGATCCTTGCCGGACCCGAC GAATGGGATCCGGCGCCTCTTCAACTCTGGGTTATTCCTGATCATCAAAA GGGCGGAAAGGTGAAGCCGTTGGGAAAAGGCCATGCGACCCCCGGGATTC TCCAGGCCGTTACAGCGGAGATCAGTCACCTGCTGGATGCAGGAAGGAAG GGGATGGCCCTGATTGGCAACCGGAGAATAGAAGCCGGGGATGTGGCCGT TCTCGTCCGGTCCAATCGGGAGGCCCGGCTTATTCAGCAGGCCCTTTTGG AAGGATCGATACCGGCTGTTATGCATAGTCGGGATAATCTGTTTGACTCG CTGGAGGCAACGGATATGGATCTGCTTCTCCGAGCGATTGAAGTTCCCAA CGACGAGCGTCGTCTTGGAGCGGCCATGATGACTTCCCTCCTGGGGTTGA GCATTGGCGCTCTTTACCGCCTCAAAATCGATGAAAGACAATGGGAAAAC TGCCTTCAACGTTTCCGCAATTATCACAGACAATGGCAGGAAGCAGGCTT CATGCGGATGATGCGTTCTCTGCTGCGGATTGAAGATATACGTTCCCGTC TTTTGTCGCAACCCGACGGAGAACGGAGGCTGACCAACGTTCTTCACCTC GCGGAAGTCCTGCACCGTGAGAGTCTGGAGAGAAACCGCGGGATGCGGGG CCTCATCCGGTGGCTGGCAGAGCAGCGCGATCCGGGAAAGATGCGATCCG ATGAACATCAGCTCCGGCTTGAAAGTGATGCCCGCGCTGTGAGGATTGTG ACCATCCATAAAAGCAAGGGACTGGAATATCCCGTTGTATTCTGTCCCTT TGTCTGGGAGGGCGCAAAGGATGTTTCTAAAAATGATGCTCTCACCTGCC ATGGTGGGGATGAAAACAGCTTTCTCCTCTGTGATCTGGGCCTTCCTCAC CAGGCTCTCCATGAACTGCGGGCTTACCGGGAAGGGCTTGCGGAGCGTGT CCGTCTCCTCTATGTCGCACTGACCCGTGCCAAACATCGCTGCTATCTTG TTTGGGGCCATTTCAACGGAGCGGGAGGCTCCGCCCCGGCCTATCTCTTC CACGACAGGACTTCAAAGTGGGATGAGAATAATCCGGAAGAAGCCATTGC CGCGGCTGCATCATTCCGGAATTTCTATAATGAACTTACAGGACCGGAAA TTCTTCGGGATCTGGATCGGATAGCGGATTCCGCTCATGGATCGATTTCG ATTGCCGATCTGCCTGTTCCGACTGCGGTCACTCCCCTTCCGAATGAGCA CTGGAAAGGGACTCTTTCACGCAGGAATTTTACGCGGAAGCTGGAACAGT CCTGGCGGTTCACCAGTTTTTCCTCCCTGGTATTCGGTACCTATGTTCCT CAGGAAGGAGCCGATCGGGATAGGGAAGAGGAGTATCGGCCGCTGAAATC TTCAGACTGGCAGGTCCTCCCTCCGGGAACTCAGACGGGAAATCTTCTTC ATGAGTTCCTGGAACAGCTTGATTTTAAGGAAAGGGACGAAATGGTTCTC CAGCAGCGGGCATCAGAGGCGTTATCTTCTCACGGATTCGATTCCCGCTG GAAGACGGCCCTGCTGACGCTTATCAGGAATGTCCTTGCCCTGTCGCTAT CGGGGGGAGGAAATGGGCAATCCTTTCGTTTATCAGACATTTGTTGTGGG GATCGGATCAGTGAACTGGCATTTTATTTTCCTCTGAAGCGGCTGACCCG GGATAACCTGCGCATCCTCTTTCAGGAGATCAGCCGGGAAGACCCCGGGA TGGTTCCCGATTCATGGGACCTGGAAATGGAACGCCTCTCCTTCAGCTCG GTCCGGGGGTGGTTGAGGGGCTTCATCGATCTCGTTTTTGTCATCGATGG CCGATATTACCTTCTGGACTGGAAGTCCAATTTTCTTGGCGCCGACCCAT CCGGCTATTCTCCGGAAGCCCTGAAAAGCGTCATGGTCCGGAAGCATTAC ATCCTTCAGTATCATCTCTATGCCCTGGCCCTGCATGCCTATTTGAAACA GCGTCTTCCCGGATACCGCGTGGAAAGGCATTTCGGCGGGATTTATTATC TATTTCTTCGGGGCATCGATCCAAGCCGGGGAGAAAAAACGGGCGTTTAT TTCGATCGGCCGTCAGAGGCGCGGCTGACTGCGCTGTATGACGGACTTAT TGAAAAGAATCCTGCGGAAAGGAGAAATGCCGATGTTGCCTGA >SYN_00662 hypothetical cytosolic protein GTGTCTCTGCTCCTTCACCTTGAAAGGGCACTGGAGGAGATAACCGGCAT ACTGATTGAGATGATCCGGATGCAGATGGAAAACGTTATCAACATTCTAA CTTCCATAAAAGGCATCGGGAGCAAAACCGTTGTAAATTTTCTCATTGAG ATGGGTGACGATGTTCATAAGTATGAACGTTCCGGGAAAATCATTGCCAT GGCAGGATTGGATCCGGCTGTTTACCAATCAGGTAAACATTGA >SYN_00910 adenine-specific methyltransferase ATGAGAATCATCGGGGGGCAGGCAAAAGGCAGACGCATTGCTGTCCCCCC GGGATATGCCGTCCGGCCGACATCCGACCGGATCAAGGAAGCTCTGTTCA ATATCCTGGGGCCGGTGGAGGGTCAAGAGTTTCTCGATCTTTACGCCGGA ACCGGAAATGTGGGAATGGAAGCACTGAGCCGTGGCGCCGACGTGGTTGT TTTTGTTGAAAAGATAAGCGTTCTCGTGACATCTCTCAAGAGGAATCTTG AACAGTTCGGTTTCCAGGGACGGTACCGAATTTTTCGGATGGAAGTCGAA AAAGCCGTCGCACACCTGGCTGAGGGTGGGATGTGTTTCGATTTGATCTT TGCAGATCCGCCATACAGAAAGGGGTTTGTTGACAGAACAATCGGCTTGA TTAAAGATTACCCGTCAATTTTGAGGAAAGACGGCATGCTGGTTCTTCAG CACGCGGCGAATGAAACAATTGAAATAAAAGAGGATATGGCACTGGATGT GGTCGACGTGAGGAGGTATGGGGATACCCTCCTGACATTTTTGAATATTC AAAATAAAGTAGAAAGGGGATGA >SYN_00771 ribonuclease HII GTGATCGGGATGGACCATTTTGAGCGGGAAGCATATGAGGACGGCTATCG GGTAATTGCCGGTGTTGATGAAGCCGGGAGAGGGCCGCTGGCGGGACCGG TTGTAGCTGCGGCGGTAATCCTTCCTCATGGGTATTCGCACCCGGAAATC ACCGATTCCAAAAAGCTTTCAGCCGGGAAGAGAGAAAAACTGTATGAGGT GATTAAGAGAGATGCCCTTGCCATCGGTGTCGGTGTTGTGGAATCGCCTG TCATAGACCAGGTCAATATTCTGCGGGCCACTCTGAGGGCGATGGCTGAA GCGGTAGATGACCTTTCAATAAGGCCGGATTTTCTTCTCGTGGATGGACT GCACCGCATTTTCCTGAACATTTCGCAGAAGACCATTGTTAAAGGAGACA CATTGAGTGTCTCCATTGCCTCTGCCTCGATCATCGCCAAAGTTTCGCGG GATCGAATCATGGAAATTTATCACCGTCAGTTTCCCCAGTACAATTTTCT TAAAAATAAAGGGTACGGCACGAGAGAACACCGTGAAGCCATCCAGAATT TCGGGTTCTGTAAAATCCACCGAAGATCATTTAAGGTAAAAAGTACGAAA CCTCAATCCCTGCAGACTGTTAACCTCTTTGATTTTTAG >SYN_02889 DNA mismatch repair protein mutL TTGAATCGCAGAATCGTCCTTCTTCCTGAAACACTGACTCACAGGATTGC CGCCGGCGAGGTTGTGGAGAGACCGGCGTCCATCGTCAAGGAACTCCTGG AAAATGCCCTGGATTCCGGGGCGACGGATATCAATGTCGAGTTGGAAAGA GGCGGCTGCGGACTGATCCGGGTTGCCGACAACGGCAGCGGAATATTCGC CCAGGATGTGACCCTTGCCTTTGCCCGTCATGCCACGAGCAAAATAGCCG AGTTCGATGATCTTTACCGGGTGAGATCCTTCGGGTTCCGGGGAGAAGCC CTGGCAAGCATCGCCTCCATCTCCCGGACTGAACTCGTTACCCGTACCGC CGACGATCTTGCAGGAATGCGGATTGTAGTCGAAGGGGGGAATATCTGCG AAAAGACGGAAGCCGGCTGTCCGATAGGAACCTCAATTACTGTCAGCCGG ATTTTTGATTCTGTTCCGGTGCGCAAGAAATTTCTCAAGGCGGAGGCAAC GGAACGGGCTTACTGCCTGGATGTCATTACGCGCCTGTCCCTGGCGAATC CGGAAGTAAGAATCCGTGTATTTTCCAAAGGGAGAGAACTGTGCCATTAT CCGGCAACATCCAGGCTTTCCGAGCGGGTCGCCCTCGTTCTCGGAAATGC CGATGCCGACCGCTTGCAGCCCATTGAAGGGGAAACCGACCGGGTCCGGG TTACTGGCTTTGCCTCCCGCCCTGACTTTACCTGCGCAACGACGAGACAG ATCTATACATTTGTCAACCGGCGGCATGTCAGGGATCATCTCCTGAATCA TGCCGTGATGACAGCTTATCGGCGAGTTATCGAGCCTCGAAGATACCCGG CGGTGGTTCTCTATGTTGATCTGGACCCGGCCGATGTGGACGTCAATGTC CATCCTGCGAAGCTGGAGGTGCGTTTCCGGCAGCCCCGGACCGTTTATGA AGCCGTTGTTGAGGCTCTGTCCGGCATGCTTCGCGGCATGGGTCAATCCG CTTTGAGTTTGACGCGCTACGGACCGGCTGGAACTGCGGAAATCGGCCAT ATTCCGCAAGAGGATTACGAATCCCGGATTTCCGAGGCCCTGAGACGATA TTCCCTGGCATCGGGAAGCCGGAAAATGATGTATGGAACGGGAACAGAAG CCAATCCGGTAAATAAAAAACATTTCCTCGCTGAACGGATCAGGGGAGAG GAGATCCATGCCCGGGAGTCCCTCCTGCTTTCACCCGCTCCGGCGCTGCC TCAGAATTCTTTTCATCCGGTTTTCGCCGACCTCGTCTATCTCGGTTCCC TGTGGGACAGTTATTTGATTTTTTCTGTGGCAGACGGAATGCTTCTGATC GATCAACACGCGGCGCATGAACGGATACTCTTTGAAAAGATTAAAAAGGC GGCGGAAAGAAACAAAACAGCCGTTCAGGTGCTCCTTATTCCTGAGATCC TGAATCTGTCCAGGCCGGATTTTGAACGATTCGGCGACGTGGTTCCGCTT CTGGAGCAGGTCGGCATCGAAGCGGAACCTTTTGGCGGGGAGGAAATCAT CATCAAGGCCCTGCCGACTCTGCTGGCCCATCTTGATCCGGGAGTTCTCG TGAAGGATCTGATCGCGGAATGTGCCGATCGCGGGGGGGGCCTTTCTCTT CAGGAGAAGGGCGAAAAGATATATGCCTATCTGGCCTGCCGGGGAGCGGT CAAGGCAGGGCAAAAACTGATCCGGGAGGAAGTAGCTCAATTGTGCCGTG ATCTGGATGCCACGCCTTTTGCCGCGACCTGTCCTCACGGAAGGCCCGTT TATGTGCTGTATCCTCTCAAAGACATTGAACGGATGTTCCGGCGCAGATA G >SYN_01899 istB-like ATP binding protein ATGAACCTAGACCACCAGCTCAAAGAACAGCTGCGAACGTTGCGTCTGAG CGGCTTTCTCGAGAGCCTCGACCTGAGGCTCCAGCAGGCTCAAAAGGACT CCCTGGGCTACCTCGAGTTCCTTCAAGTACTCCTGCAGGACGAGGTGGAA CGCCGGGAGGCCAAAAAGCTCAACCTGCGCATCTGCCGGGCCTGTTTCGA AGAAGAGAAGACCCTCGAAGGGTTCGATTTCTCCTTCAACCCCAAGATAA GCGCCAAAGTGGTCCGGGACCTGTGCCGATGCACCTTTATCGAAAAGCAC GAGCACGTTCTTCTGTGCGGCCCCTCCGGCGTCGGAAAAACTCATATCGC TCAGGCCATCGGCCACCACGCCTGCCGCCTCGGTCATGATGTCCTCTTTA CAAAAGCAGTGAAGCTCTTCCGCGTCCTGCTGGCGGGGCGGGCCGATCAA TCCTGGGAGAAGCGGATGAAAAGATATCTCGCTCCCGACCTGCTCATCAT AGATGATTTTGGGCTGTCCGCTCTGAACCCACTGCAGGCGGAAGACTTCT ACGAGATCATTGCGGAGCGCTATCTCAGGTCTTCCATCATCATCACAAGC AACAGGCCGCCTCAGGATTGGCTACCCCTTTTCCCCGATCCTGTCATGGC CAATTCCGCCCTCGACAGGCTGGCCCACAACGCTCACCACTTGATCACGG AAGGAGACTCGTACAGGCGGATTCTCAAACCCAAAATATCACCCTCTACC TCCAGGGGGGTGAATTAA >SYN_03272 recombination protein ATGGCAGGATATCCCCTTCCCATTAAACATCTGATTTCGGAACTGGGAAA ACTTCCGGGAATCGGGGAAAAAACGGCGACCAGACTGGCGATGCACATTC TGAGAGCCCCGGAAGGCGATGCTCGCGCTCTGGCCGACAGCATTCTGGAG GTTCGGGATAAAATCCGGTTCTGTCGGGTCTGCTACAATTTTTCCGAGGC CGAGTTGTGCACGGTTTGTCGCGATTCTGCCCGGGATTCGAGTCAGATCT GCGTCGTCGAGGATCCCGATGCCCTGATGGCGATCGAAGACAGCGGAAGT TATTCGGGGACTTATCATGTCCTGCACGGCGTTCTGTCTCCGTTGGACGG GATCGGGCCTGAGCAGTTGAAACTGCGGGAACTGGTTGAACGGATCCGGG AAAGTGGGGTCCGGGAGGTTATCCTGGCCACGAATCCCAATGTTTCGGGA GATTCGACGGCCCTTTTGATTTCCCGTATGATCGGGCCGCTGGCTGTCAC CGTGACCCGGATCGCCCAGGGAGTTCCCATGGGCAGCGATCTCCGGTATA TGGATCGGATGACCCTGTCCAAATCGCTGGAATTCCGCCGGGGCATGGAG AAAGAGCCGTGA >SYN_02973 crossover junction endodeoxyribonuclease TTGTCTGCATTCGGGTTATGCGTAAAGGTTAACTTTAAAATACCACATGA GTCATGGATTATGAGATTGAAAGTGTTGGGAATTGATCCGGGAAGTGTTG TTACGGGTTTTGGAATCGTGGAGCAAATTCAGGAGCGGTATATTGATATT GTCCATGGAGAAATCAGGTTAAAAAGAGGAACATCATTCACTTCATCATT GGAGAAAATCTATGATGAATTGTTTTCTCTTGTAGAACGTGAACAACCTG ATGCGGTCGCGATTGAGGATATATTTTACGGTAAAAATATCAAGAGTTTA ATCAAGCAGGGGCACGTAAGGGGGGTGGCTATTTTGGCAGGTTCAAAACA TCATTTGCCTGTGTTTGAATACACGCCGCTTGAAATAAAAAAAGCAGTGG TCGGCTATGGTCATGCTGAGAAAATTCAAGTACAGAACATGATAAAAGTC ATTATGAAATTGTCAGAGCTTCCTCCCGCAGATGCTTCAGACGCAATCGC AGTAGCCATATGTCATCTCAACCATCAGAAGAAAAATCACATATAA >SYN_02019 DNA-binding protein HU ATGCCACTGACCAAAAACGAAATGATGACCATGCTCTATAATCAGTTGAA TATTTCCAGAAAGGAATGCGTTGACATCGTAGAAAGCTTCTTCGAAATCA TTAAATCGGAACTGGAAAAAGGTAATCCGGTTATGATCTCCGGATTCGGC AAATGGACCGTAAGGCCCAAGAGAGAAAGGAAAGGCAGAAATCCTCAAAC CGGTGAAGATTTGACCATTACGGCAAGAAAAGTCGTTACTTTCAAAGCTT CCCCGAATCTGATCTCTTCTATTAACCCATAA >SYN_00539 phosphohydrolase ATGCCACCAAAAGACTGGACCGTTTTGTCAAGCAGATCTGATCGTTCCAA TCGGTTCCTTACCCTCCGGACTGATCGAGCCCTTTCTCCCCGGACCGGCC TGTCTTCGGACTTCGTTGTTTTCGAGTCGTCTCCCTGGGTCAATGTCATT CCTCTGACCTCTCAAAATGAAGTCGTGCTGGTCCATCAGTACCGTCACGG CACCCGGACGGTGACTCTTGAAATTCCAGGTGGGCTTGTTGAGGATTACG ATTCGCCGGCGGGGGCTGCTCGGCGAGAACTTCAGGAGGAAACCGGATAT GTGGATACTTCCCTGATTTCCCTGGGGACGGTATACCCCAATCCAGCGAT CCAGAATAATCTCTGCTATACTTTCCTGGCTAAGGACGTTTATCTTGCCG GAGAGCAGAACCTGGATAAAAACGAGGATATTGAAGTCATTCTGAAGCCT TTGGATGAGATCCCCAAACTGATCCGGGAGGGCGATATCAGCCATGCCCT TGTGATTGCGGCCTTTTATCGATTTTATATGGAATACCTGCAACAGGGAA AATGA >SYN_00397 ATP binding protein ATGAGCTCTGCCGATTCACCAGAATATCCGAGGGAGCGACTACTATGCGG GAGGCGCCCAATGATGATGGAGCCCACGTTGACGAAACTTCACCGGATGA AACTCTCCGGCATGGCCGAGGCACTCACCGAGCAGAGTAAGAGCACACAG TACTCCGGACTTTCCTTCGAGGAGCGAATCGGGCTCCTCGTCGACCGGGA GATGACAGTCCGGGACAACCGTCGTCTTACAAAACTCCTGAAGAGCGCAA GGCTGCGTTATTCCCATGCCTGCCCCGAAGAAATCAACTTCCGGACGCCG CGGGGGCTTTCCAGAGAAGTCATCCTTTCCCTGATACAAAACGACTGGAT AACGGAAAAACAGAACGTGATCATCACGGGTCCTACCGGCAGCGGCAAGA CCTTCATTGCCTGTACCCTTGCCAACAGTGCCTGCCGAAACGGTCACAGC GCCCATTACATCCGGTTGCCCAGGTTGCTTCAGGAACTTAATATTGCCCG CGGTGACGGCAGTTACGGAAAACTCCTTGCCCGTCTCGCTCGATATGCCC TGCTGATCATCGATGACTGGGGGTTGGCAAAACTCAATGACAAGGAACGA AGAGATCTCCTGGAGGTTCTTGAAGATCGCCACGGCTTCACGTCCACCCT CGTCTCCAGTCAGATTCCAACGGAGAAATGGCATAACATCATTGGAGACC CGACCATTGCCGACGCAGTACTGGACAGGCTGATCCACAATGCACACATC ATCACCATGAAAGGATAA >SYN_02852 ATP-dependent helicase GTGCAAGAAACAATCCATGTAAATAAACGTCCGGGGCGGATGCGCTCCGG GAATAAGAAGGAGCTTCGGCGGAAAAACCGTCCCCGGGTGACCTATCCGG CGGATCTGCCGATTACGGCCCGGCGAAGGGAAATCGTTCAGGCCATCGCG CGTCATCGCGTGGTGGTTATTACGGGAGAGACCGGTTCGGGAAAGACGAC TCAGCTCCCCAAGATGTGCCTGGAGGCAGGGCGAGGCATCAACGGGATCA TCGGCTGCACGCAGCCCCGGAGGGTCGCCGCGGTGACTGTGGCGGAGCGG ATTGCCGAGGAACTGGGGCAGACCGTCGGCCAGGCGGTGGGCTACCGCAT CCGCTTTGAAGACCGTTCCGGTCCTTCCCCGTATATACGGATCATGACCG ACGGCATTCTCCTGATGGAAACCCAGTCGGACCCTCTCCTGCACGCCTAC GACACGATCATCGTCGATGAGGCGCACGAGCGGAATCTCAATATCGACTT TCTCCTCGGTTACCTGAAAACCCTCCTGCGGAAGAGAAACGATCTCAAGA TCATCATCACCTCGGCCACCATCGATACGGAGAAATTCGCCGCCGCCTTT GACGGCGCTCCGGTAATCGAAGTCACGGGAAGGGTTTATCCCGTGGAAGT CCTTTACCGGCCCATCGAACAGGGTGACGGAGACGAGGAAATCACCCACG TCGAAGCCGCGGTGCGGGCTGTGGAGGAACTGCGAGCCAGGCGTTCCGAC CGTGGAGACATCCTGATTTTTATGCCCACGGAACAGGACATCCGGGACAC CTGTGAGCTGCTTGAGGGAAGACGCTATGAGAACCTGGTCATTCTTCCCC TTTTTGCCCGTCTGTCCTGGGCGGAGCAGCGCCGCATCTTTTCGGCGACG ACCGCGCAGAAAATCATTGTAGCCACGAACATTGCCGAAACCTCGCTTAC CATCCCCGGCATCCGCTACGTGATTGACACCGGTTACGCCCGTGTTTCCC AGTATAATCCGCGGACCCGGACCAACAGCCTCCCCGTGCGGGCGATATCA CGGAGCAGCGCCGATCAGCGCAAAGGGCGGTGCGGGCGCGTGCAGAACGG CGTCTGCATCCGGCTTTACGAGGAAGAGGATTATCTGAACCGTCCCCAGT TTTCCGTACCGGAAATTCTGCGCTCCAATCTGGCGGAGGTCATCCTCCGC ATGCTGAAACTTCGATTGGGCCACCCGGCGGCTTTTCCCTTCATCGATGC CCCGAATCCCAAAAGCGTCCGCGACGGGTTTGAAATCCTGAAGGAACTGG GAGCCATCTCCATCGAGAAAAACAGGAACAGCAGAGAAGAAGGGAATGGG GAAGCGGACGTGCGGCTGACCGAGAGAGGGCGCCGGATGGCCCGTCTGCC CATGGACCCGCGGATTGCCCGGATTCTTCTGGAGGCGGAAAAGGAAGGGT GTGTGGAGGAAGCGACGATCATCGCCTCCGGGCTCTGCATTCAGGATCCC CGGGAGAGGCCCGTCGATGAGGAAGGCCTGGCCGACGCGGCTCATCGCGT TTTTCTCGATCCAACGTCCGATTTTCTGACGCTGCTGCGCATCTGGGACA AGTATCAGAGGGCTCAGGAGACGCTGAAAAGTCAGGGAAAGATGCGGAAA TACTGCCGGGTGAACTATCTGTCCTGGAGAAGAATGCGGGAATGGAAAGA CATTTACGAGCAGATCCGGACAATTCGGCGCGAAGAGGAAAAAGCGGACC GGAGCATCTCGAAAAAGTTAGCGGCGGCTCCGGAAGATCTGAACGCCGCC ATCCACCGCTCCATCCTCAGCGGCTATCTGTCCGGCATTGCCGTCAAGAA GGAGAAAAACATCTATTCGGCGACTCGGGGAAGGGAAGTCATGCTCTTTC CGGGTTCGGGACTCTTCAATTCCGGGGGGAACTGGATCGTGGCCGCTGAA ATGGTGGAGACGTCCCGGCTCTTCGCCCGCATCGCCGCGAATATTTCCAG CGAGTGGATCGAGGAATTGGCCGGAAATCTCTGCACCTCCACCTATTCCG AACCGCACTGGGAAAAGCGCCGGGAAGAGGTTGTGGCTTATCAGCAGGTC TCGCTTTTCGGCCTGGTCATCGTTCCGCAGCGAAAGGTGTCATACGCGCA TATCGATCCCGAGGAAGCCTCGCGCATCTTTGTCCGCAGCGCCCTGGTGG AAGGGGAGTTGAAAACGCCTCTGCCGTTCCTGCTCTACAACCGTCAGCTC GTGGCGGAGGTCATCGGGATGGAGGACAAAATCCGCCGCCGCGATCTTCT CCAGGATGAATCCGTGCTGAACGATTTTTACGCGTCGAGGCTGCCGGGGA TCTGCAATGTGCGGACGCTTAAGAGAAAGATCCGGGAACAGGGCGGCGAC GCCTTTCTGAGGATGACTCCCGCGGATGTCCTGACCCGGCTTCCCGATGA GGAGGAATTATCCCTTTTCCCCGACGAGGTGACCGTCGGAGGGCGGAGCT ACCGCTGCGTCTACCGTTTCGATCCGGGCAAGGCCGACGACGGCGTGACC CTGAAAATTCCCGATGTCCTGCTGCCCGATGTCCCTGCCGCGGCTGCCGA CTGGATGATTCCGGGACATCTGCGGGACCGGATTCTGGCCCTGCTTAGGG GACTGCCCAAGGAGTATCGTAAGAAACTTCAGCCGCTGGCCGGGACAGCG GATTACATCGTAAAGCATCTGGGCGGCCCCTCAGGTCCGCTTCTTTCCGC CGTGGCCGGCCTGCTCCGGGAAAGACTGGGTGTGGACATCCCCGCATCGG CCTGGTCCGCCAGAGAAGTCCCCGATTTCCTGCAGGTGCGCTTTGCCGTT GTGGATGGCGAGGGTCGCGAGAAGGCTGCCGGCCGGGACCTCTCGTTACT TCAGCAGACCCTGACCGCGGAGCAGGATTCCCGGGCTTTTGAACAGGCGC GGAGAAAATGGGAAAAATCGGATCTGACGGCGTGGGATTTCGGGGAGATT CCTGAATCCATCGATCTCCACGCGAACGGGTCATTCAAGGGATGCGCCTG GCCTGCCCTGACCCCGGGAGACGGATGCGTCCATCTCCGCCTTTATAAGA CCCGTGAGGAAGCGGCCTGCGTGCATCGGGAAGGGATCGCTGCACTTTAC GGCCTTTATTTTACCCGGGAGTTGAAAGAGCTGAAAAAGGCGCTCAAATT GACGGAACCATTGAAAACCTGGGCGGAGTCTTTTATCGGCGTTCGGAATA TGGAAAGCCGGCTGCTCGAAAAGGTGAAAAAAGATCTCTTTGCCGTGGAT GTCCGGACAGCGGAGGATTTCGAGGCCCATGCCCGGAAGATAGCGGGGAA GATATTGATCTCCGGACAGGAGGGGATCAGGACTGTGGAGCCCCTGTTGA AGGCCTGGTTCGAAATCGCGGGAGATTTCAGGAATCTTGAGATCGTCAAC CGGGGAAACAGCGGGGCGCGGGAATTCATTCTTCAACTTCGACGGGAAAT GGAGGGACTGCTGCCGGCGGATTTTCTGTGCCGCTTCGATGCGGGGCGGC TTTCGCATATCCCCCGTTATCTGAAGGCCCTGAAGATACGCGCCGAACGG GGCCTGCTCAATCCTGAAAAAGACCGGCGCCGGGAACGGGAGCTTCTTCC TTTCGTCACCCGGCATAATGAACTTGTGCAAAACATGACGTCCGGTGTCT CCGATGAAAAGCAGCAGGCTCTTGCAGACCTTTCCCTGATGATCGAGGAG TTCAAGGTGTCGCTTTTCGCCCAGGAGCTGAAAACGGCTTTCCCCGTATC CGCCCGTCGGCTCGAGGAAAAACTGAACGAAATCGTCAGGATGTTTTAA >SYN_00484 integrase ATGACTGTTTACAAGCATCGGGACAAATGGAGGTACGACTTTTGGAAGAA CGGAGTGAGACAGAGGGAGAGTGGCTTTACGACCAAGCAGGAGGCAAAAG CCGCCGAAGCAGAAGCCCGAAAGAAGCTAAAAGTGATGAATTCGGACTTT ATAAGTTTGTGCGAAAGCAGACTTAGGGATTTGCGAGACAGAAGAACAGT CAAGTATTTCAAGGAAAATAAGTCGCTCTTTGAAAAGTTAATATTGGCGT GGGGCAACAAAAAGAAAATCGAACGCAAAGACGTTGATGATTATCTTTCC CGAGTTGCCAATAATTCCCATTATGTGGCGAATAAGGAACTGAGATTTAT AAAAGCCCTTTTTAATCATGGGGTTGAAAGGGATATGATAAACTCAAACC CTGCCGAGAAAATCAAGTTCTTCCCCATTGAGAAAAACAAGAAATACATC CCCCCAGAAGAAGACATCAGAAAAGTTTTCGAATTCTGCAATGATGAACA AAAACTTTATCTGACAGCGGTGCTTTGCACAATGGCAAGGATTAATGAGA TCAACAAGCTGAAATGGGAAGACATTCACAAGGATTATCTGATTTTGAAA ACGAGAAAATCCAAGAATTCGGACTTAACTGAACGAATAATCCCTCTTAA TGAAACACTAAAGGAAGTTTTTGACACGGTGCCGAGGATAGCAGAATATG TGTTTTGCCATGAAGACGGCAAACCGTATTTTTACCGGAGCAAATTCTTG AAGACGGCGTGCAGGATGGCAGGGGTAAGATATTTCGGTTATCACGCGCT GAGACATTATGGAGCAAGCAGGCTGGCGAACTCCGGTGTGCCTATAACAG ATATCCAAGCCCTATTGGGTCATCAACGACCGACTACAACAGATATTTAT TTGCAGTCGATAAGAAAGAGCTTGATTGGGGCCATGAAAAACCTTGAGTC ACCCACAAGAGTCACCCACAAAAAAAGGGTTACAGAATGTAACCCTTTGA TTTAA >SYN_00395 nudix domain protein TTGATTGAAGAGAAAGCCATGAAATACCCTATACCTATCGTTCGATTGAT CATACCGGATTCAGAAGGAAAGGTATTGATCCTGAAACGATACCAAAGTG AATATGCGGCTGGACAATGGTGTCTTCCGGGTGGAAAAGTGGATTATGGC AGCACCGTAGAAGAAACAGCTGTAAAAGAACTTCACGAAGAAACTGCCTT GACTTGCACGTCAATGAAATTCCTTTTTTACCAGGATAGCCTGCCGTTCG CAGAAGGAAAAATGCATTGTCTCAATCTGTATTTGGAATGCGCCGTGAAG GGAGAGATTCTATTAAATGAGGAATCGTGTGATTATGCCTGTATCGGACC TTCAGAACTGAAACGGTATGAAATCGCATTCCGTCATGATCTTGGCCTGA TTCGATACTGGCAGGAAATTATCAAAGCATAA >SYN_02458 exodeoxyribonuclease VII small subunit ATGGCAAAAGAAAAATTTGAAGAAGCAATGGCCAAACTGGAAGCCCTGGT CCGAAAAATGGAAACAGGTGATATGACCCTTGAAGAATCCCTGAAGGCCT TCGAAGAAGGCATCAGACTTTCACGGCTGTGTGCGTCCCGCCTGGATGAT GCCGAACGGCGCGTGGAGATGTTGATTGCTGAAAATTCGAATGTGACGGT GCAGCCCTTACGGGAAAATGGAGAGAAAAATGAATCCTGA >SYN_02228 DNA-damage-inducible protein J ATGGCACGGTCAGCAATGATAAACGCCCGGACAGAACGGGAATTGAAGAC GGAAGTAGAAGAAATTTTCAAAACCCTGGGGCTATCAACTACGGAGGCGA TCAATCTCTTTTTTCGCCAGGTGAAGCTGCGCCGTGGGCTGCCCTTCTCT GTCGAAATCCCGAACGAGGCAACCCTGAAGGAATTCAAGGACAGTGAAGA GAGCAAAGGGCTTGTTGAGTGCGAAGATGCCGATGATATGTTCAGGAAAC TGGGCATCTGA >SYN_03174 transposase GTGGACAGGATAGAAAGAAGGCGTATCCTCCAAACGTTTAATCCAAAAAA CGAAGCCCCTTTAGCAAGAAGGGGAGGAAAGGATACGCCCGTGGAGAATA ATGACCGCGATTATTGGGAAAAGCAAGTTAAAGAAGAAGCAAAGAACGTC CTGGAACTGATTATCCGAGAAGGAGCCTGCCGGATGTTGCAGGCGGCGAT TGAGAACGAAGTAAGCGAGTACATTGACCGCTTTAAGAATGAAAAAGACT CCAGGAACAGGCGGTTAGTTGTGAGAAACGGTTCCTTGCCTGAAAGAGAG ATCGTAACAGGTATCGGCCCCTTAAAGCTAAAACAGCCCAGGATTCATGA CAAAAGAGAAGATCAGCTTTTTACGAGCAATATTCTGCCGAGATATATGC GCCGGATTCCCTCGGTTGATGCCTTAATCCCAGCACTGTATCTTAAAGGA ATCTCCACGGGAGATTTCAGCAAGGTGCTGGAATCCATATTGGGGAAGAA TGCATCGGGGCTTTCCGCGACCAATATCGTCCGGCTGAAGAGGCTCTGGG AGCAGGATTATAAAGACTGGGCCAGACGAGATCTTTCCTCCAAACGATAT GTTTATTTCTGGGCAGACGGCATTTACTTCAATGTTCGTTTGGAAGATGC CGAGAATAAGCGGCAATGCATCCTGATCATTATGGGAACATTGGAAAACG GGAAGAAAGAACTCGTCTCCATTCTCGATGGCTATCGGGAAAGCAAACAA GCCTGGCAGGAGATGCTGGGCGATCTCAAGCACAGGGGTCTTAAAGAAGG TCCCAAGTTGGCAGTGGGCGATGGAGGTCTGGGATTCTGGGCAGCCCTGC GGGAGGAATTTCCGGAAACAATAGAGCAACGTTGCTGGGTTCATAAGACT GCTAATATTCTGGATAAGATGCCCAAGAGTATTCAGCCGAGAGCCAAGGT GCATATCCGGGACATGTACATGGCGCCAACAAAAGAGGAAGCCCTCAAGG CCTTTCATCATTTTCTGTCACAGTATCAGGCGAAATATGAAAGGGCTTGC AACTGCTTAGAGAAGGATACGAACAGTCTTTTCGCGTTTTATGATTTCCC CGCAGAGCACTGGCGTCATATCCGGTCTACCAATCCTATTGAATCCACTT TTGCCACGGTCAGGCTGCGCACAAATCGGACAAAAGGCTGTGGATCACGG TTAGCAACGCTGACCATGGTTTTCAAGCTGGCAATGGAAGCGGAAAAAAC CTGGCAGAGAATCAAAGGGCATCAACTTATCGGAAAGGTCATTGAAGGAA TCCGGTTTGTTGACGGCCTCATCATGCAAGAAGCGGCTTAA >SYN_02043 hypothetical membrane protein ATGGATTTATCTCCGGCTATAAATCAAGTCGTAGGCAAGTTATGGTATTT GATTCCAATCATTATCTTAATAATTTTAATAAAATCTGCCTGGTTCAAAG GGGTGATGGGAGAATTCATTGTAAACGTCTTTGCAAGGATACTATTAGAT AAAAATGTGTATCATCTCATCAAGAATGTGACATTACCAACCGAAGACGG AACGACACAGATTGATCATATCATCGTTTCAAGATATGGCATATTTGTAG TTGAAACAAAATATATGAAAGGGTGGATTTTTGGTAGCCCCAATCAGAAG ACATGGACTCAAAAAATATACAAGCATTCAAACAATTTCCAAAACCCTCT GCACCAAAATTACAAACACGTAAAAACTCTTGAATCCCTGCTTGATCTGA GTGATCAGCAGGTTTATCCGTTGGTTGTTTTTGTCGGAGATAGTACTTTC AAAACAGAAATGCCTGAAAATGTTACACATGGCCGTGGTTATGTTCGATA TATCAAATCAAAAAGACAGCTTGTCCTCTCTGAAGCAGAGGTTGACGCAA TCTTAAACAAAATCAGTGCCGGCATGTTGACGCGCTCATTTAAAACCAAC AGGGAGCATGTAAAACATGTCAACCATATCAGAAGCGAAAAGAGGAAGAA AAATACCTGTCCAAAGTGTGGTAGCCCCATGGTGCTGAGAGAAGCAAAAA ATGGTCAAAATGCTGGAAAGCAATTTTGGGGATGTTCAAATTTTCCAAAA TGCAAAGGTATTCTAAATGTCACATAA >SYN_02907 ATP-dependent endonuclease family protein ATGCAGATCTCACGTCTCATAATAAAGAACTTCCGTGGTATTCAGAATGC GAGCATTATCCTATCAAAGCACTCTGTATTAATCGGCGACAATAACACAG GCAAAACCACAATACTTGAAGCCATTGACCTGGCGCTCGGGCCGGACCGT CTAAACCGAGTGCCCCCGGTTGACGTGCATGACTTCTATCAGGGCAAATA CATCTCTGACGCATCTGCTGATGAGGTGCCTACGAGTACTAAAGCTGAAC AAGGCGTTAAAGCTGAGGGTGCCGTTGATGCAGTAGCTAATAATGCAGAT GTCCAGGTTGATGGTGATGTTACCGCTGAAGCACCGCAGATTGAGATCGA GGTTACCGTTGCAGACTTGACCGAAGAGCAGAAGGGTAGGTTCGGCGATT ACACCGAGTTCTGGGATACGGCGACCGACACCTTCTATGACCAGCCCAAT CCCGCCGGCGTTGATGCTGTCTCGATCAGTGAAGCGCTACGGGTGAGTTT CATCGGCTGGTACGACCCGGAAGAAGATGACTTCAAGGGGAAGACCTACT TCACCCGCAGTCTCTCCGAAGGTGACAACCCTGTGGTGTTCTCCAAGAAG GACAAGCAGATTTGTGGTTTCCTATATCTTCGCTCCCTACGTACGGGTTC ACGCGCGCTTAGCTTGGAGCGAGGCAGCCTGCTCGACATCATTCTGCGCC TGAAAGAGGTCAGGCCACAGATGTGGGAGTACACGATAAGCAAATTGGAT TCGTACTCGGTTGCGAGTGACCCGGAATTGGGCATTTCCGGCGTGCTGGA AAGCATCAACGCGGCGCTCCAAAAATATGTACCGAAAGAATGGGGGATCG AACCCCATCTAAAGGTGTCGAACCTGACCCGCGAGCATTTGCGGAAGGTA ATTACCGCTTTTATCGCCACAGGCGAGGGCCGCCACGCTGCGCCGTTCTA TCGGCAGGGTACTGGGACAATAAACATGCTCGTACTGGCGATGCTATCTC AAATCGCCGAAGACAAGCAAAACGTAATCTTCGCAATGGAAGAACCGGAA ACGGCCATTCCACCCTATGCGCAAAAGCGGATTGTGCACGAAATCCGCAC GCTCGCTTCGCAGACCATTTTCACCTCGCACTCGCCTTACGTGCTTGAGG AGTTCACATTGGAGGAGACTGTTGTCCTCGCTCGGGACGCGCAAGGCGCG CTTCGTCGGTCCGCGATCACCCTGCCTGATAGTGTGAAACTAAAGCGCTA TCGACAGGAGTTTCGTACCCGTTTCTGTGAAGGTCTGCTGACCCGCCGCA TCTTGGTCGCCGAAGGGGCGACGGAAGCTGCGTCATTTCCAGTTGTGTGT CGGCGTTTGGCGGAGTTGAAGCCTGCCACGTATTCCTCCTTGGAAGCGTT GGGTATCTGCACAATCGATGCCGGTGGGGAGACGAACATCTCCGATTTGG CCAAACTTTATCGTGACCTTGGCAAGCGGACTCTTGCCATCTGTGATAAG CAGACTGATGAGGAAAAGGCACTGATTGAAGCACAGGTTGATACTCTATT CATGCACGACGAAAAGGGTTTCGAAGACCTCGTCCTCAAAAACACCACCG AAGACGCCTTGAAGCGCTTTACCAAATTGATCGTCTGGCCCCAACACCTT CAGCAGAAATACCCAGACCCTGAAGCCCAAGCGCAGGCTGCGTTGAGCGA CTATTTCTGTGGAAAAAAGGCCGATTGGGGCGTATCTGATTTCCTCGCGC AGTGCACTGAGGACGAAATACCAGAATGGCTACGGGACACCTGCTTATCC TTGAAAGCAATTTGCGAACCTGTCCACGTTGGTGATGCCGACGGCGGCGC GCTCAACGCACCCGAAGCTCCAGATTCTGAACAGGGAGTAGACGTGGATG CAACTAACTGA >SYN_02908 ATP-dependent DNA helicase ATGCAACTAACTGAGAAACAGACAAAGATCATGGACGCCGAAGGGCACGT CCTCGTCACGGGAGGACCTGGCTCCGGTAAGACTACTATTTCTATTCTCA AGGCAGCGCAAATCGCTGGATGCGGTCTACGTCCAGATCAGAAAATTCTG TTTCTCAGTTTTGCCCGTGCGACCGTTTCAAGGGTTGTTGAAGCCATTGA ATATGAGCAACAGATTCCGCACGAGCAGAAGAAACGGATCGATGTCGAGA CGTATCATTCGTTTTTTTGGCGTATTCTCAAAGCGCATGGTTATCTAGTC GGCTTACCGAGGCAGCTCTCCATCCTCACACCACCAAGCGAAGCTATAGA GCTTTCGACGATTCGGAGTGGTTATGCGCCAGCGTCCAAACTGAATAATG CTGAGAAAGCCGAGAAGCGTGCAAGGGAAGACGCGGAACGTCTGAGACTC GCACGGATTGAGGGTTGCGTCTGCTTTGACCTTTTCGCGCAGTATACTGG GGATATCCTGCAGGGGAGCAAGCGCATCCGTAAGCTGATCGCCACCATGT ATCCAGTCATCATCCTTGACGAATTTCAGGACACAAATGTCGAGCAGTGG CGCGTCGTGCAGGCGCTTGGTGAGCACAGCATATTACTCGCCCTCGCTGA TCCTGAGCAGCGCATATATGACTGGATCGGGGCTGACCCTAAACGCTTAA GCCACTTCAAAGACGCATTCGCGCCAACCGAGGTGGACCTCAGCACTGAT AATCACCGCAGTGCCGGCATCGATATCGTTGCGTTCGGCAATGACATTCT TACGGGCAAGTTCCGGGAAGAGCCCTACAGGGGAGTGCAAATCGATGTCT ATACTCCAAATTTCAATCAGGCTTTTTCTGCTCTAGTTACTACCACTTAC AAAGCCAGAAAACGTCTCATCAATAGTGGTCGAGAGGATTGTTCTTTAGC CATCCTCGTGCCTACGAAAAAGATGACTCGCCTTGTCTCGGATAGCTTTC GGTCACCCCTTGCAGGTATGACCAAGATTCCTCATGCGGCCGCCATCGAG ACGGAGGCCGCCATCTTGGGAGCCGAGATAATCGCCTTCCTGATGCAGCC CGATATGGACGGCAGCCACTTCAAGCACTTTATCGACCTGTTGCGCAACT ATTTTCATGGTAAGGGGGGCGACAACCCAACAAAGGCCGACCTCAAGGAG GCCGAGAATATCCAGAAGGCATATAATGACTGGCGCTCCCGGCAAGCGGC CGGAAAGGACATCAACAAGAGAAGCATCCTTATCGCCATTATCGCTGTTT ATGGTACGACGCGCAAGATAGTGCTCACAGGGGATCCTGACAAAGATTGG CGTGCAGTTAGGAACATTTTGGAAGAGGGCGCCTGCCCTCGTCTTAAAAG AGTTGCGGAAGAAGTCCGAAATATCCGCCTTCTGGAACGCGGCACACAGT TAAGACAAGAGCTTTCACAAGACTGGCGCGACAAGGGTGCCTATGACAAT GCTCTCAGGATCACCCAACAGGCTTTTGTACGGGAACATTTTTCCACTAA CGCCAATCCTGAATCTGGTGTTGTGGTAATGAACATGCACAAGGCTAAGG GCAAGCAGTTCGACGAGGTGATTATCTTTGAAGGTTGGCCGATTAAACGG AAGGGACAACCTCCATACAATGCCGACCGTATTGTTCGGTACAACTCACG AAAGCATGATAGCGACCAATCTCGTCAGAATCTTCGAGTTAGCATAACGA GAGGAAAGTTTCATGCCACGATCTTAACTCCTAAGGGTGACCCTTGTATC CTTCTTATTGGTGAGGGTTGA >SYN_01952 endonuclease V ATGGCCTTGGATATGGAATTTGGACAAGAGATTCTTTATGGAGAACGAGA GATGTCAAGGACAAAACCCCTGCATTCCTGGGATGTGACCTGTCGGGAAG CCGTGGCCATTCAGAAAATATTCAGAGAAAAGCTGATCCTCTGTGACGAG TCCCCCCCGGTTGAAATCCATTCGATTGCCGGGGCGGACATCTCATATTC CCGGGGCGATGACCGTTTCTTCGGCGCCGTGGTGATTCTGTCCTGGCCTG CGATGGAAATCCTCGAAATCGCCTCGTCCGTCGCTCAGGTCCCTTTCCCC TATGTTCCCGGACTGCTCAGTTTCCGTGAAGGCCCTGTTCTGTTGAAGGC CTTTGACAAACTGAAGCAGCGGCCCGATATTATCATCTTTGACGGCCAGG GAATCGCCCATCCCCGGGGCATCGGTCTGGCATCCCATCTGGGCCTTTTC CTGAATCTTCCGACGATCGGCTGCGCCAAGACAAAACTGGTCGGAACCTT TGAAGAGGTAGATCAGGAGAGGGGTTGCCACACAAACCTGTACCACAAGG GTTCGGTCATCGGCGCTGTGGTAAGAACCAAGAACAGGGTCCGGCCCGTA TTCGTGTCCCAGGGGCACCGGATCAGTCTGCCGCGGGCTGTTGAAATCGT CCTGAACTGCTGCCGGGGATACCGTCTTCCCGAACCGGTCAGGCAGGCCC ATCTTGCGGTAAACCGCCTGCGTGAAGCCGCACCACCTCCGTGCAAGACC CGGATTTCAGCACCGGAGAGCGACCCCGCGCCCTCCGAAATAGATTCAAT CAGGCCTCATTCAAAAGAATAA >SYN_02798 DNA topoisomerase I ATGCCGGATTCCCTGATTATCGTTGAATCTCCCACAAAGGTAAAAACTCT AAAAAAATATCTCGGTGCGGACTATGAGGTCCTGGCTTCGAAGGGACATA TCAAGGACCTGCCCAAGAAGACGCTGGGCATCGATCCCCAGAATGAGTTT CAGCCGACATACAGCGTCATCGATGACAAGAAAAAGGTCATTGCCGATTT AAAGAAGGCAGCGAAAAATGTCAGCCGCATCTTTCTTGCACCCGATCCGG ATCGTGAAGGGGAGGCAATTGCCTGGCACATCGCGGAAGAAATCAAAGCC AAGAACAAGGAAATTTATCGTGTTCTGTTCAACGATCTGACTAAAAATAC GATACTGGATGCAATCAACCATCCCGGTAAGCTGGACTTCAATAAATATG AAGCGCAACAGACCAGACGCATCCTTGACCGGCTGGTCGGTTATCAGATC AGCCCCATCTTATGGGAAAAAGTAAAAAGAGGACTCAGTGCGGGGCGCGT CCAGTCGGTAGCTGTCCGGATGATCTGCGACCGGGAAGAGGAGATCAAAC GCTTCATCCCCGAAGAATACTGGAACATTTCCGTTCAGTTGAAAGGCGTC ACCCCCCCGCCCTTTGAAGCCAGACTCATCAAGATCACCGGCAAAAAGGC AAAAGTAAAGAATGAAGCTCAGGCCAACGAGATTGTGTCTCGCTTATCGG GAGGCGTCAAATCCGGCTCAAAACCAACTATCAATCTATCTGAAGATCGG GATTTGCAGCCGCAGTTTGTTGTCAGCAAACTTGAAAAAAAAGAGGTCAA GAAAGAATCCCTGCCTCCTTTCACAACGAGCAAGCTGCAACAGGAAGCCT CACGTTTGCTGCGTTTCTCTGCAAAAAAAACCATGGCGACTGCACAGAAG CTTTACGAAGGGATTGAACTCGGTGAAGAAGGCCCTGTCGGCCTCATTAC CTACATGAGGACGGATTCCGTGCGGATCGCCGAGGATGCTCTGAAGGAGG TCCGATCTTACATCCGTGAAAACTACGATCCTCCATTTCTGCCTGCAAAA GCACGTTTCTTTAAAAGCAAAGGGAAAACGCAGGATGCCCACGAAGCCAT CCGTCCCTCGTCGATGAACTACAATCCTCAGAAAATCAAGCACTTTCTGA GTGCCGATCAATTCCGTCTTTATCAGTTGATCTGGAATCGCTTCGTGGCA AGTCAGATGAATCCGGCTCTTTATGATCAAACAACGGTTGAAGTTTCCGC GGATTTTTATACATTCCGCGCCCAAGGGGCGATTCTCAAGTTCCCCGGTT ATACCATTGTGTATACCGAGGGCAAAGAAGACAAGGAACAGAATGAGGAA ATGGAGTCGGGAAAAATTCTGCCGGACTTGAATGAAGGGGAACGGCTTAC TCTCTTGAAAATCACGCCGGAACAGAAATTCACGCAACCCCCTCCCAGAT TTTCAGAAGCCTCACTGGTTCGTGAACTCGAAGAACAAGGCATTGGAAGG CCGAGCACTTATGCGGCAATTCTGAGCACCATTCAGGACCGGAATTATGC CCGGCTTGAACAGGGAAAGTTCCATCCTACCGAACTGGGAACGATCGTTA CGGAACTTCTGGTAAAAAACTTCCCCAAGGTTATGGACGTTTCTTTCACG GCTTCCTTGGAAAACCAGCTCGACCTGATTGAAGAGGGAAAGCAGAAACG CATCGAAACGTTGCAGGAATTTTATGCTCCTTTCGAGGAAGACCTCAGCA AAGCCAGGCTCGAAATGAAAAATATCAAGCGGGAAGAGACCCCCACCGAT CTGATATGTGAAAAATGTCAGAGTCCAATGGTCATAAAATGGGGTAAAAA CGGTAAATTCATTGCCTGCTCCAACTATCCCGCATGCAAAAATACAAGAA ATATCGAGCAGGGCGAAGGTGTCGAAAGAAGTGCCAAGGGAGGTGAAATG ACAGATACGGTTTGCCCGAAATGCGGGAAGAATATGCTCATTAAGCATGG CAGATTCGGTCGTTTTCTGGGATGCTCCGGCTATCCTGACTGTAAGCACA CGATGCCTATCAGTCTTGGTGTGAAATGTCCACAGGAAGGATGTGACGGC GAGATAATCGAAAAGCGCACAAAAAAGGGAAGAAGTTTTTTTGGCTGTTC CAACTACCCGAATTGCACCTTTGCTGTCTGGGACAAGCCGATACCGGAGC CCTGTCCTCAGTGCAATTCCCCGTTTCTGGTCGAAAAATACTCTCGCACA GAAGGAAGCTATAAGGCCTGTCCCAACAAGGATTGTGGATACAGGGATGA CCAGTCATAA >SYN_00509 site-specific recombinase TTGGGTAGCCAGACTGTCCCTTTAATTTGGTTAAAAAACAAAAATATGAA AGGAATTATCTATGTGAGAGTTTCAAGCGACGAACAGGTCAAGGGCACGT CCTTGGAAAACCAGGATGAGCTTTGTCGCGCCTATTGCCAAAACAAAGGC ATTGAAGTCCTGGAGATCTTCCGGGAAGAAGGGGCTTCAGCAAAAACGGC CCAACGAGCCGAGTTCTTGCGGGCCATCGAGTATTGCCGGAAGAACAAAG GTAAGGTCGACGCCTTCGTTGTTTATAAGGTGGACCGGTTCGCTAGGAAC ACTGAAGATCATTTTTACGTCCGGAAAATGCTAATCGATTACGGGGTGAC CCTCCATTCCGTGACAGAACCGATCGGCAACAACCCAGCGGAGAAATTCA TTGAAACAGTTCTGGCCGGCAGCGCTGAATTCGACAATGCAGTCAGGACC CAAAGATGCGTTGATGGAATGTCCGCAAGAATTAACCAGGGTATCAGTCC CTTTAAGCCACCTTTGGGTTACGAGTGCCAATTTGCCAGACGAAAGGGCT ACAAAAAGAATGAACCCGACAAACCCGATGAAAAAATTTTCCCTATAATT CAGAAAGGACTGAAGGAATTTTCCAAAGGCATTTACACCCAAGCGGAGGT TCTTGGTCTCTTTGACAAATTCGGATTGAGCAAGACACGAGGTATAAAAA CCAGGCCGCAACTGGTTAGTCGGATCTTCAGTAACTACCTCAAATTCTAT GCTGGAATAATCGTCAATCCGTGGACCCACGAAGAGATTAAAGGCTTACA CCAGCCGATGATAACCGAAGAGGAATATTTCAGGATCAGAATGATTCTGG CGGGAAAAACCGTCAGAGCCAAGAAACAGAAATTTAATCCGATTTTTCCT TTGCGAGGAACTGTTAAATGCGGTTATTGCGGGAGGCCTTTGACGGGCAG CTGTTCGCGCGGAAGGAGTGCGAAATATTCCTATTATCACTGCTACAACA AAGAATGCTCGATGTACGGCAAGGCAATAGACAAGCTAGGATTGGAAAAC GAATTCATGAATTATCTTGATGAGATAACTCCCAAGAAAGAATTCTTGAA ATTGTTCGAGACGACAGTTTTGAATTTATGGAATGAAAAAGGTTCTTACT TCGAAGAACAGGCGCAGAAATATTCAAGATATTTGACTGTTTTGGACGGA AAGCGAAAGACGATTTTTGAAATGCGCGAAGACGGATCATATACGGCTGA TGAATTTAAGGAGCGCAAGGAAGAAATCGAAAATGAGATTATGGTAACAA AAATATCCTTGGATGAAACAAGGATTGAAAAATTCGATATTGAAGCTACC CTGTCTTACGCAAATAGTTTTATATCAAATTTGGGAAGACAATGGCTTGA TTTATCAGAATCTCGTTCGCGGTTCCAAAAGTTGGTATTTCCGGAAGGAA TTTCATATCGGCGGGGCGAAGGTTTTGGAACCGCCCCTTTGGGGCTTATT TACGAGCTTAATAGGACTTGCGGAACGGATAAATCCCTTATGGTAGACCG CACGCTCATCAGTTGGAACCAAATTATCACTGAATTGAAGCAATGGCAGG ACTTAAAAGAAAGTTTGAGCCTTGCTATGTAG >SYN_00402 deoxyribodipyrimidine photolyase ATGATTCAGAAGGAAAGAGTTAAATCGCTGAATAAGGCAGAGTTGAAAAA AGGAAAGTATGTCCTGTATTGGATGCAGGCCTCTCAGAGAGAGACATGTA ATCACGCTCTGGAATACGCAATCCGAAAAGCCAATGCGCTTTGCCAACCT GTAGTTGTTTTTTTCGGTATTGTCGACGATTTCCCAGAAGCTAATGAACG GCACTACTTTTTTATGCTGGAGGGCCTTTGTGATGCGAAGCGCACCCTTG AGAAAAGAGGTATTCAACTTGTAATTCAACACTGCTCACCGGAACTTGGA GTTGTAATGATGAGCCGGGATGCTTCTCTGGTAGTTGTGGACAGAGGGTA TCTTCGAATACAAAAAGCTTGGAGAAACGTCGCGGCTGCTTCCATGGATT GTCCTCTAATTCAGGTTGAAAGTGATGTGGTAGTTCCTATTGAAGAAACT TCGTCCAAGGAGGAATATTCTGCAGCAACAATCCGAAAAAAAATCCACCA AAAATTGAATCAGTACCTGATTTCTCTGGAAGAAACCAAACCAATGGCCG ATTCTCTTTCTCTCGATTTTGAATCTTTTCCCATCGATGATGTGGAAAGA GCCATCTTGCGCCTCGATATTGACCGGAGCGTTAAATGTGTCAGCTTTTT TCGAGGAGGCTTTGAGGAGGGCAGGAAGCATCTTGATGTGTTCATTGATC AGAAACTGGAGCATTATGCTGAACACAGAAATGACCCAACTCTGGACTGT CTCTCCCTCATGAGCCCCTATCTTCATTTCGGACAGATATCACCTCTGTA CATCGCGCTGAGGATCTTGAACTCTGGCAGAACCAGCAGTGAGGCCTATC TTGAGGAACTCATTGTCAGACGAGAGTTGGGCATCAACTTCGTATTCTAC AATACACATTATGATACATTTGAATGCCTCCCAGGCTGGGCGAAAAAAAG TCTGAGGACTCATGAGAAGGACCAACGGCCCTATCATTACTCTCGCAAGG AATTAGAGGATGGGAAAACACATGATCCGTATTGGAACGCCGCGCAGAAA GAGATGGTGTTGAAGGGAAAGATGCACGGTTATATGAGAATGTATTGGGG AAAAAAAATTATCGAGTGGTGTGAGACTCCTGAAGAAGCTTTCCATACCG CGATATATCTCAACAACAAGTACGAGTTGGATGGAAGGGAGCCCAATGGT TTTATGGGCGTTGCATGGTGTTTCGGGAAGCATGACCGCCCCTGGAGGGA ACGAAACATTTTCGGTAACGTCAGATACATGAATGACAGGGGGCTAAAGA GAAAATTTGATGCCGACGGGTACGTGAAACTAAGCGCGCAATGGGAAGAC CAAGGTGCTTTAATTCCCAATCAGTTAGAATAA >SYN_00665 transposase TTGGCAAGAGGGGGAGGAAAGGATACGCCCGTGGAGAATAATGACCGCGA TTATTGGGAAAAGCAAGTTAAAGAAGAAGCAAAGAGCGTCCTGGAGCTGA TTATCCGAGAAGGAGCCTGCCGGATGTTGCAGGCGGCGATTGAGAACGAA GTAAGCGAGTACATTGACCGCTTTAAGAATGAAAAAGACTCAAGGAACAG GCGGTTAGTTGTGAGAAACGGTTCCTTGCCTGAAAGAGAGATCGTAACAG GTATCGGCCCCTTAAAGCTAAAACAGCCCAGGATTCATGACAAAAGAGAA GATCAGCTTTTTACGAGCAATATTCTGCCGAGATATATGCGCCGGATTCC CTCGGTTGATGCCTTAATCCCGGCACTGTATCTTAAAGGGATCTCCACGG GAGATTTCAGCAAGGTGCTGGAATCCATATTGGGGAAGAATGCATCGGGG CTTTCCGCCACCAATATCGTCCGGCTGAAGAGGCTCTGGGAGCAGGATTA TAAGGAGTGGGCCGGACGGGATCTTTCTCTCAAGAGATATGTGTATTTCT GGGCCGACGGCATTTACTTCAATGTTCGTTTGGAAGATGCCGAGAATAAG CGGCAATGCATCCTGATCATTATGGGGACATTGGAAAACGGGAAGAAAGA ACTCGTCTCCATCCTAGATGGCTATAGAGAAAGCAAACAGGCCTGGCAGG AGATGCTGGGAGACCTCAAGCATCGCGGGCTTAAAGAAGGTCCAAAATTG GCCATTGGTGATGGTGCCTTGGGATTCTGGGCGGCCCTGCGGGAGGAATT TCCAGAAACGGTTGAGCAGCGTTGCTGGGTTCATAAGACGGCCAATATTC TGGATAAGATGCCGAAAAGTGTCCAGCCGAGAGCCAAAGGACACATCCGG GACATGTACATGGCACCGACCAAGGAGGAAGCCATAAAGGCCTACAACCA CTTCATTTCTCAATACCGGGCAAAATATGAAAAGGCTTGCGACTGCTTAG AGAAGGATCAGGACCGTCTCTTTGCATTTTATGATTTTCCGGCCGAGCAT TGGCGTCACATCCGCTCAACCAACCCTGTTGAATCGACCTTTGCCACGGT CAGACTTCGCACAAATCGGACAAAGGGCTGTGGGTCAAGATTGGCAACAC TGACCATGGTTTTCAAGTTGGCAATGGAAGCGGAAAAAACCTGGCAGAGA ATCAGGGGCCATCAACTCATCGGCAAGGTCATTGAAGGCATCCGATTTGT GGATGGCATAATCATGAAAGAGGCTGCTTAA >SYN_03746 hypothetical cytosolic protein ATGGGAATAAATTTTTTTGAAAAGAAGGTTTTTCAGAAAGATACAAAACA TGGGAAAGAGACAAAGGCCTGTACTGAGTTCGTCTTTACGACGGAGAAAG GAAGAACGGTTTTCCAGGAAAAGCGCGGATATCACTGTTCCGCTGAATCC TGTGAACAGGCGGCGGGTCATCCGCGAGCTGCAGGCTGCCCGGATTGA >SYN_02972 holliday junction DNA helicase ATGATTGCGCAGATTCGAGGAAAACTGATACTTAAAACCGTATCGATGGT TATCATTGATAATCACGGGATCGGCTATGAGGTAATGATTCCGCTATCCA CGTATTATGAACTACCCGACGTGGGAAGCGAAGTCAGTTTGTTCGTTTAT ACCTTTTTTAAACAGGATTCAATACTTCTCGTAGGTTTTTGCACAGAAAA CGAAAAACAGCTTTTCAAGTTGATGATTTCGGTTTCCGGTATCGGTCCGC GCCTTGCGGTAAATGTGTTGTCCGGGATCAACTCGAGTGAACTTATTCAT GCCATAGCAAATAATGATTTGAATCGTCTTCTGAAAGTTCCGGGTCTTGG AAGAAAAATGGCACAAAGAGTCATTTTGGAACTTCGGGACAAGGTATCTG GATGGACATCCAAAGAGCAGATAACCTTCATAAATAATAAAAAGGATGCA ATCGATCAGAGCGTTATGGAAGAGGATGCCATCTCCGCGTTGATAAATCT GGGGTATAAGAGCCAGGCAGCAAAGGATGCAATTGATCGAGTCATTTCAG AGGGTGGTGAAAATAAATCATTGGATGTGATCCTGAAGAAAGCGCTGAAA GTACTGGCCATGTAG >SYN_03171 transposase ATGGTTCTTTCCTGGCGTCTTTCCAATACCCTAGATAGTGCTTTCTGTGT GGACGCTTTGGAAGAAGCCGTCGCCAGATACGGCTGTCCTGAAATCTTCA ATACGGATCAGGGCAGCCAGTTTACTGCCGAAACATTTACAGATGCCCTT AAATCCAGGAGCATTGCGATCAGCATGGACGGTAAAGGCCGCTGGATGGA CACGGGGAGATGCGTCAAGTATGAGGATATTTACCTGAAGGCCTATAATT CGATGGCAGAAACCAAGAAGGGACTGGCTGCCTATTTTACGTTCTATAAT GAAAAGAGATGGCACCAGAACTTTGACAGGAAAACTCCAGCTATGGTTTA CTTTGATTCTCTACCGCAGAAACAGGCTGCGGCATGA >SYN_02479 exonuclease ATGAAAATTGAAAACTCTGTTATCCGATATCACAATGAGGAAAATTTCTT GAAATTGCATGGGAAGCCGATAATTCGGAAAGAATCGGATCAACGTATCG TTGTTCTGGACATCGAAACCACGGGGCTTATCCCGAAGCGGGGCCACTGC ATCATTAAAATCGGTGCAGTGGCACTTAAAAATAATGAAATTAGTTCTAA ATTTCAAAATCTTATCCTGATCCAACGTTGCACTTCCAGAATAATTGAGC TTAACTTACAAATATAG >SYN_00497 type I restriction-modification system restriction subunit ATGACCAAACTATTTGAATCCGACGTCGAAGAATTCGTCATTGAGCTGTT GCAAAACCAAGACTTTGAGTATCTGTCCCCTGAACAGCAGGAAAATGAAC GCGAAAGCCTATCCACCGTTATTTTCCGAGACCGCCTAAAGCAGGCCATT AATCAGATAAATCCCAAAGTCCCTGCGCCAGCTAGGGAACAGGCCTTCAA ACAGGTTTTCAACCTATCCAGCCAAAGCCTCATGGTCAACAACGAGGCTT TCCATTTGATGCTCACCGAAGGGATCGAAGTCGAGTACATGGGAAAGAAG GGCATAAAAGGCGACAAGGTTTCTCTTATTGATTTTGAGAACATAGAAAA CAACGAATTTCTCGTCTGCAACCAGTTTACGGTCATTGAGAACAACATAA ACAAAAGGCCTGATGTCGTAGTTTTCATAAACGGCCTGCCTCTGGTGGTT ATCGAGCTTAAAAATCCCGCCGATGAGAACGCCACCGTCCAGAAAGCCTT TACCCAGCTTCAGAATTACAAGAAGGCAATTCCGTCCCTCTTCCATTACA ACAGTATCTTGATCGCTTCTGACGGTCTGGATGCCAAGACAGGAACGATA TCTTCCGATATTTCCCGCTTTGTCGCTTGGAAATCGAAAGACGGCTTCAC CGAAGACAAGGAAACGGTCCCTCAGATTGAAACCATGGTCCGAGGAATGC TGAGCAAGGAAACCCTGATTGATCTGATCCGCCATTTCATAGTTTTCGAG AAAAGCAAGAAAGAAGACCTTGAAACCGGCCTTACTTCCGTCGTAGCCAT CAAGAAAATCGCCGCCTATCACCAGTATTATGCCGTTAATAAGGCTATCC AATCGACCCTGATTGCCTCCGGTACGGATGGGAACCGCAAGGCTGGCGTG GTCTGGCACACTCAAGGAAGCGGAAAATCCCTTTCCATGGTCTTTTATAC CGGTAAAACTGTCTTCAAGCTCAACAACCCGACAGTTGTCGTCCTTACGG ACAGGAATGACCTGGACGACCAGCTTTTTGATACGTTTGCAAGCTGCAAA CAGCTTTTGAGACAAGAACCGGTCCAGGCGGAAAGCCGGGAGAGCCTGAA GAATCTCCTGAAAGTCGCCGGGGGCGGGATCGTATTCACGACCATCCAGA AATTCTTCCCCGAAAGCGGCGCAAGCGATTATGAGCAGTTATCCGAGCGG AAAAACATCATCGTCATCGCCGATGAAGCCCATCGGAGTCAATACGGTTT CGGAGCCAAGACTCGGATCGTAAAGAAGAATGGGAAGGATGAAGAAGCGG TCACCCGCTACGGATTCGCCAAATACATGAGAGACGCCTTACCCAATGCC TCTTTCATAGGATTCACCGGGACGCCGATTGAGAAAGAAGACGCCTCAAC ACCGGCGGTCTTTGGCAATTATGTCGATGTCTATGATATCGCCCAAGCCG TGGAAGACGGGGCGACGGTCAAGATCTTCTATGAATCCCGTTTGGCCAAA GTCCATCTGAAACCGGAAGAAAGGGCCAAACTGGATGAAGAAGCGGAATC CATAGGCGAAGGCGAAGAAACCGCCAAAGAGAAAGCCAAGGCGAAGTGGG CGCAAATCGAAGCCATTGTCGGACATTCCGACAGGCTGAAAACGGTAGCG GCTGATATCATCGACCATTTTGAGAAGCGGCAGCAAGTTTTCGAAGGCAA GGGCATGATCGTCTGCATGAGCCGCAGGATCGCAGTGGAACTGTACGAGC AGATAATCGAGCTTCGGCCCGAATGGGAAAATGACGACTTGAAAAAGGGC TGCATCAAGGTGGTGATGACTTCCGCCTCATCCGATCCCGAAAAATGGCA AAAACACAGCACGACCAAGAAGGACCGCAAGGCCATTGCCGACAGGTTCA AAGACACAGCCGATCCCCTGAAATTGGTCATCGTCCGCGACATGTGGCTG ACAGGCTTTGACGTTCCCTGCCTTCACACCATGTATGTCGACAAACCGAT GCGGGGCCACAACCTCATGCAGGCGATTGCCCGTGTGAACCGGGTTTTCA AAGACAAGCCCGGCGGATTGATCGTCGACTATATCGGCATCGCATCGGAT TTGAAGTCGGCTTTGGCGACATACACGGCCAGCGGCGGCAAAGGGACACC GACACTTGATCAGGAAGAAGCGGTTGCCACGCTTCTTGAGAAATTTGAGA TCGTTGAACAGATGTTCGATGGCTTTGATTACAAGGGATTCTTCACATCC AGCACGCAGGAGAAACTCATTCTCATCCTGGAAGCCCAGGAACATATTCT CGGCCTTGAGGATGGCAAGAACCGGTTTACCAAACAAGTAAGCCTACTTT CCCAGGCCTTCGCCCTATCGGTTCCCCATCCTAAAGCCATGGAAATAAAG GATGAGGTCGGTTTCTTCCAAACCGTCAAAGCCCGCTTGGTCAAGTTTGA ACCGACAGGTTCAGGTAAGTCTGATGCGGAAGTCGAAACGGCCATAAGGC AGATCGTGGACAAGGCTGTCGTGTCGGACGGCATTATCGATGTCTTTGAC GCCGCAGGAATCAAGAAACCCGATATCTCGATCCTGTCTGACGACTTCAT GGAAGAAGTCCGCCATATGGAACGGAAGAATCTCGCGCTGGAACTGCTTA AGAAAATTTTAAACGATGAAATTAAGACCAGAACCAGAAAAAATCTCATC CAGAGCAAGAAGCTTTCCGAAATGCTGGAGAATGCTATCAACAAATACCA AAACAATCTTCTCACGACGGCCCAAGTTATCGAAGAATTGATCAAACTCG CCAAGGAATTCAAAGAATCCGACAAACGGGGGAAAGATTTGAATCTCAAC GATGAGGAATTGGCCTTTTACGACGCATTGGCCAACAACGAAAGCGCCAA GCAAGTATTGGGGGATAAACAGTTGGCCGTGATTGCCATTGAAGTCTTCA ATAGCATCAAAAGAAACGCGACGATAGACTGGACGCTCAAGGAAACGGTC AGAGCCAGGTTGAGACGAGATGTAAAAAGGATATTGAAACGCTACGGTTA TCCGCCGGACATGCAGTTATTGGCGACCGAGAATGTATTAAAACAGGCCG AATTAATGGCTGACGGGTTGATGGCAGCTTGA >SYN_01990 ATPase, AAA family GTGGTGAGTGGGGCGACTTCTCCGTTCCAGGCGAACTTCAGCGCCGGTAA GGCGGATAAGGGAATAACCATGGATCTTTTTGATCGAAACAATGAGACAA CGGAACAAAGCCGCCGGCCTCTGGCGGATCGAATGAGGCCGGAGACCCTG GATGAATTTTTCGGACAGGAGCATCTTCTGAAGAAGCATAGTCTTCTGCG GCGCGCGATTGAAGAGGACCGGCTGTTTTCCGTTATCTTCTGGGGACCGC CGGGGTCTGGAAAGACGACCCTGGCCAGGATTGTGGCCGGCGAGACCAAA GCGTATTTTGCCGCCTTCTCCGCAGTGCTTTCCGGTGTAAAGGAGCTTCG GAAGGTTGTGGAGGAAGCGGAGGCACGATGGCAAAACAACCGACAGAAAA CGGTTCTCTTTGTCGACGAGATTCACCGTTTCAACAAGGCCCAGCAGGAT GCCTTTCTCCCTCATGTGGAGAGCGGCCTGATCACACTCATCGGAGCGAC CACGGAGAACCCTTCCTTTGAAGTCATCGCCCCGCTGCTGTCCCGCTGCA GGGTTCTTGTTCTCAAACCTTTTTCGGATGAAGATCTGGTCCGCATTCTC AACAGGGTGCTGAGGGACCGCAGGCGGGGTCTGGGAAACCTCGGATTGGA GCTTGATCAGGATGCCCTGGCATACCTTGTCCACACCGCCGATGGAGACG CCCGGACCGCGCTGAACAGTCTGGAGGCCGTCGCGTCTCTGCTTGCTGCA GGAGAAGGACAATCATCGCGGATTTCACGTGTGCAGGTCGAGGAGGCCCT GCAGAAAAAAGGCCTGCAGTACGATAAGTCCGGAGCGGAGCATTACAATC TCATCTCGGCTTTTCATAAAAGTCTCCGGGGCAGCGATCCCGATGCCGCC CTCTACTGGCTGGGACGAATGCTTACGGCGGGAGAAGACCCCCTTTACAT CGCGCGCAGGATGGTCCGGTTTGCCTCGGAGGATGTAGGCAATGCCGATC CCATGGCGTTGAGCATCGCCATGACCGCAATGCAGGCATTCCATTTTATC GGACTGCCCGAAGGCGAACTGGCCCTGGCGCAGGCTGCCGTGTATCTGGC GACGGCGCCGAAGAGCAACGCCCTGTATGCGGGTTACGGTCGGGTGAAAG CGGCGATTGCCGCAACGGGAACGCTTCCCGTTCCCCTGCATATCCGCAAT GCCCCGACGCGTCTGATGAAGGATCTGGGATACGGCCGGGATTACCGTTA TGCTCACGATTATGAAGGCGCCTGGGTTCCCCAGGAGTATCTTCCCGACG CCCTTCTGGCCAAAGAGCATGAATTTTACCGACCCACGGACCGCGGCTAT GAGCGGACGATTCGTGAACGCCTGGAAAAATGGAAAAAACGTCTGAATGA AGCCAGAAGACAGCAACAGACCTCTTCGGAAAAGTAA >SYN_01849 ATP-dependent DNA helicase GTGGAGAACATCGAAGGTGAGAAGATGCCGATAACCGCTGCGCAAAAAGC ACAAGCCGAACAGCGCCAATGGACCGCTGCCAGAGACGGTGCACCACAAG TACGACTTGTGGCTGGCCCGGGTACGGGTAAATCTTATACGATTGAAAAG CGGGTAGCTGATCTTTTGACCAATGGGGCGACTCCCGGCAATGTCTATGT CATATCATTCACCCGGGCTACGTGCGCCGAATTGACTGAACGTATCCGGG CTTTCTGCAGCACTCTTCCTTGCGCGAATGCAGCAGCACAAGTGCGAGTC TCAACGATGCACTCCCTTGCGCTTCGAATTCTGCGACGTGCCAATCTGCT CACCTCGTATCCCAGCACGCCAATCATGTTGGACGATTGGGAACAGACCA ATGTTTATGACAGAGAATTCGCCGGGAGTCTGGGATGTACCCCGTCTCGA GCCGCCGAGATCAGACTTGCCCACGACGCACAATGGCAGACCCTGAATCC GCAATACGTGAACCAGGCGCAAATAACTCCTGCAGAGGTCCAAGGATTCA ACGCATTTCATTCGGCTCGGACCAACCTGTATTGCTGTGTGCTCCCCGGT GAGGTTATCTACAAGTGCGTAGACGCACTTCAGCAAGGCGCATTGCAGCC AAATCAATTACCGCAAATCGACCATTTGATCGTTGACGAATTCCAGGACC TTAATGCGTGCGACCAGGAATTCGTGCGCTTGTTGTCTGCAAACAATACA ATCCTATTTGTCGCCGGGGACGACGACCAGAGTATCTATTCGTTCCGTCA TGCCAATCCAGACGGCATCGTCCAGTTTCAAACCGCCTACCCAGCATCGG CCACGCATGTATTGACAGACTGCTTCCGATGTACTCCGGCAGTCCTCGGA CCGGCCAGCCGACTGATTACCTACAACTTGAATCGAGTTGCCAAGAACCT TACGTCGCTCTATGGCGCTGCCACGCCGCCAGTTCAGGGCCGTATGATGG TTTGGTCGTTCCAGACTGCACAGGAGGAGGCACGTGCCATTGCCCAATCT TGCCAGGCGATAATCAACGCAGGCATGGCTGGGCGGGAAGACGAAATTCT CATCTTGATATCCAATCGCCGGGTCCAGCTCGACATGCTGGCCCAGGAGC TTGGTAACCTCGGCCTTCCCTATGATCCTCCGCGAGGCGCGGCGCTCACA AGTGAGTATGAGGCCATCAGGGCGGTCTATTCGGTGCTTCGGATCGCCAG GGACAACTCGTCCGGCGAAGAAGATTATCCGGCGCATCGGGACCTGCTTG AGGTTCTCTCCGGTGTCGGAAGCGCCACGGCAAAAGGGGTCGCGGATGCC TGCATTTCCAACAACCAGAACTTCCGCCAGCTCTTTTATCTTCCAACGTG CCCGACCTGGTTTTCCGGACGCTGCCCCTCGGCGGTTCAGCGCGTCATGG CGACCGTTCAAACGGTTAGAACGTGGAGCATGAGCGACACCTTGGCAGCT CGGAGCGGCGACATCACGACCCTCCTATCATCGCAGGTGTTCACATCAGG GCGTAATGCTGCCAATAGCCTGTCGATATGGAATACCCTGATAGGCTCGC TTCCGGCCCAGATGACACTTGAAGAGCTTCTGCAATTTCTTGCGGCCGAC AGCGAGTCGGATCAGCAGGCCATCCTTGATCTGGTCAACCAGCGAATTGG CGGTGCTCAACCTCAAGCCCAAGTACCCGTTCAGAAGCGTATCAGGATTC TGACCATGCATGGTGCCAAAGGACTCAGCGGGAAGGTCGTGTTCATCCCG AGTACGGAACAGGGCCTCATGCCGAATTTCAGGGCCTTGCAGGCCACCGG GCTGCTCATTGAACAGCGACGTCTGTTTTACGTGTCCGTCACCCGGGCTA TGGCTTGCTGCATCGCGTCGCACGCGGCTCAACATTCGGGTGCTCAGGCG ATGGCTCTGACTCAGAGGTCTGTTGCACGTCTAACGCGCTCTCAGTTTCT GAACGAGATGAGTGTTCCAAGCGTTACTCGAAACACCGGTTTGAGCCAAG CTGAAGCGGCGGCAATAGTAGCAGAGGTGAACAACTTATGA >SYN_02071 swf/snf family helicase ATGAATGAGCAACAACAATCCGTGGCCGGGTCAAGAAAGCGTGAGAAACT GTCAAGCCTGTATGAGGGGTTATCGCCGGGAGAACAGATCCTGGTGCAGT TCTGCTCCCTGTTTATGGAACCGGTGAGCATGACGACCGTGATCCGCTGT TTCGATGTGACGGGCATTGCCTTTGCGGGACTCGGAAAAACCAGCTGGCA GAACCTGCAGCCGGCGCTGAAACGCATCGTCAAGCTGGGACTCGTGGATG ACCATTATCAATGTCCGGAAAGCTTCCGGGAAATCGCCACCCGGCGGGCC GTCGCGGAAGGGCATTTTGAAAAGATGGCCCGGTCGATTCAACGGCTGAT GCCCGGCAATCGCTATCTTTCCCGTTATTCTCCCGAATATGACTGGAGAC GCGTCCTGCGGGATTTCCGCATCGCCTTCTACCGGCAGGATTCAAGAGAG GTAAAAACGCTTTATGATTCGATGCTTCGCTTCTGCCCCATGCCTTACCG CACCCCGGATCCCTTTCTGCGCGTCTGCAACCAGCCCTTCGACCGGGTCT GGTTCGGCACGCTGCCCCTGGATCTCCGGTCCGCCGCTCTCTCCCGCATC CTGCTCCAGAGCCTGATCTTTCTTGAACCCGATGAAGCGCCGCTGAACGA GGCCCTGGATCTGGTCTCCGGAGACAGACTGACAGAGCAAGGCGGCCTCC CACTCCCCGAGGTGCTGGCCCTTCGTCCCCTGCTTCACATCCTGATCCTT CGACTCCTTCTCGGAGGCCGCCTTGCTGACGCCCGCCAGCTTCTCAGGGA AATTGGCCGGAGAGAGGAAGGATACACCGGCGGCCTGCAGGGATGCCTTT ATTTCCTCGAAGGGAAGAATGAGGAGGCCATTGCGGCAACGGAATCGGAT CTCCGCCTGCTGGCCCGGAAAACCGGCGTCCGGAATAATTTCTTTACCGA CCCGGTCGGCCTTTTTTTCCTGCTGGCCCTCCTGAAGGCTTATGCGGCTC AACCGGATGCGGCGGGGGCTGCGAAACTCAAAAAATACCTGTATCTGACC GTCCATCGCAACAATCCCAGCAATTTCTATGTTACAAGTCTGACCGCCTT GAGAAAAATCGCCGCCGCCCTGATGATGGAGCCGGAATACCCGGATTACG ATTCTCTGCCGGAACGACCGGAAATCGGAACGGTTTTTGCCGCCTTGGCG GAATTCTGGCAGAAGCGCCGTCTCACCTCGAAAACCATTACGTCGCTGCA GACGTTGTATCAGAGAGCCCGGGGCAACGGAATGGCCTGGGCCATGATGG AATGTGCAGGCCTCCTCACTGCCGCCGGCGTCAATCCGCCTCTGTACCGA CAGCAGGCAGAGGAGATCAGCGCCGGCGCCGGTCTGGTTTCCCTCATCCC GTCGATCCATTTCGAAGAGCCCTGGCGTAAAAGCCTCCGGGCCCTGACCC AGACGGCGGCGATGGAACGCCCCTCTATCGTTTCCAAGGAAAAAAGGCTG ATCTGGCTGTTTCTTTATGGAGAGGAGGGCCTGTCCCTCAAACCGCTGGA ACAGCGGCAGAAGGCCCGGGGCGGCTGGACCTCGGGGCGGCCCGTCGCCC TCAGCCGGCTGCACAAGGGGACCAATCTGGAATACCTGAGTCGGCAGGAT CACATGATCCGGGCGACCCTGAAAGCGGAAGCCCGGTATTACGGTGGTTA CAGCGGCGCCGATTACTATTTCGACTGGGAGAAAACCCTGCCGCTGCTCG TGGGACATCCCCTTATTTTTTCTGAAGAGAATCCGGAAAAACCCGTGGAA TTCCTCCGGGGGGAGGTTGAGCTGATGGTGACGGAGTCGACGGAGGGGCT CTGCCTGCGTCTGAGTGTTCCCCTGACGGAATCCCGGGTGGTCCTGATGC CCGAAAATCCCAGCCGGTTCCGGATCTGCGAAATTTCGGACGCCCATCAT CGGATCGGACAGATCCTGAGCAGCAAGGGGCTGATTGTTCCGGCAGCGGC CAGGAATGAGCTGATGGCGGCCATGGCGGAACTCTCCTCCCTGGTGACCA TCCATTCCACCATCGGCGGCAGTGCGGAATCCCTCGAAGAAATCGAGGGC GATCCCCGTCCTGTTATCCAGCTGGCGCCGGCCGGCGATGGTTTTCACCT GGAGCTGCTGGTTCGTCCCTTCGGCAGCGGCGGAACCCGCCTGAAACCTG GAAAAGGCATGGAGCATGTCATGGCGGACATGGATGGAAAGCATCTCCTG GCCCGGCGCGATCTCGCCCTGGAGATCCGCAATGTCAAGCTCCTGGAAGA TCGGTGCCCCACTCTGTTCATGGTCATGAACGACCGGGGGCAGGGGTATC TGGAGAATCCGGAAGATTGTCTGGACCTGCTGCTGGAGCTGAACCCCCTG CAGGAAGCGGAGGAAGTGGTGATCGAATGGCCGGAAGGCGAATCCCTGAA AACTCCTCAGCAGGCCTCTTTCGAGCAGATGCGTCTGAAAGTCCATAAGG TGGGAGACTGGTTCGAGCTGGACGGCCAGCTTCAGCTCGATGAAGGTCTG GTGATGGATATGAAGACCCTCCTTGAGCTGGTGGAATCTTCCCCCCGTCG TTTTCTCCCCCTCGGGGAGGGCCGGTTTATCGCTCTCACCGAGGCTCTGC GCCGCCGCCTGGACGAGATGAACGTCTATGCCGACCGGCGTGGGAAAACA GTCCGCTGCCATGCCCTGGCCATTCCGGTTCTGGACGGAATCTTCGATGA CTTTACCCAGGTGAATCGGGACTCCTCGTGGAAAGAGCGGGTAAAAACCT TTCAAAAGGGAATGACCCTGCAGCCCGTCGTCCCCTCCACCCTGCAGGCG GAATTGAGGGATTATCAGGTGGCCGGTTACGAATGGATGATCCGGTTGTC CTCCTGGGGCGCCGGCGCATGTCTCGCCGATGACATGGGACTGGGCAAGA CCCTGCAGGCCCTGGCGGTCATGCTGGAACGCGGTCCCAAAGGCCCCACG CTGGTAATCGCCCCGACTTCCGTCTGCATGAACTGGCAGGCCGAGATTAA CCGCTTCGCTCCTACCCTCAATCCTGTCCTGTTCGGCGGCCGGAACCGGG AGGAACGCATCGGGAAGCTCAAGGGCATGGACGTGCTGATCTGCAGCTAC GGGCTTCTTCAGCAGGAATCGGAACTCCTCGCCACAGCGCACTGGCACAC CATCGTCCTCGACGAGGCCCAGGCCATCAAGAATTTCGAGACCCAGCGAG CCCAGGCCGCCCTGTCTTTGAAGGGTGATTTCCGACTCATCACCACGGGC ACCCCCATTGAAAATCATCTGGGGGAATTCTATACCCTCTTTGATTTCAT CAATCCCGGCCTGCTCGGCTCCCGGCCGCAGTTCAACGAACGCTACGCCA TTCCGATCGAAAAAAACGGCGATCGGGAAGCCCGGAAGCGGCTGAAAAAG CTCATTTCCCCCTTTCTCCTGAGGCGGATCAAATCCCAGGTGCTGGACGA ACTTCCTCCCCGGACCGATGTGGTCCTCCAGGTGGAAATGTCGCCGGAGG AAACGGCCCTCTATGAGGCCATGCGCCGGCAGGCCGTGGAAACCCTGGAA CAGAACGACAGCCCCGTCGGACAAAAGCACCTGAAAATCCTGGCGGAAAT CATGCGCCTGCGGCAGGCCTGCTGTCATCCCCGGCTGGTCGTGCCGGACA GCGAACTGACCAGTTCCAAGCTGGCTCTCTTCGGGGAGGTCGTGGAGGAA ATGCTGGAAAATTCCCACAAGGCGCTGGTTTTCAGCCAGTTCGTCAGTCA TCTGGCTTTGATCCAGGATTACCTGAAGCAGAAGGGCATCGAATACCGTT ACCTCGACGGCGGCACACCGCCGAAAGAGCGGCGGCGGGAGGTGGAGGCC TTCCAGGCGGGAAAGGGCTCCCTCTTCCTGATCAGCCTGCGGGCCGGCGG CGTGGGCCTCAACCTGACCGCCGCGGACTTTGTCATTCACATGGATCCGT GGTGGAATCCGGCAGTGGAGGACCAGGCCTCGGATCGGGCCCACCGCATC GGTCAGAAGCGGCCCGTGACGGTGTACCGCCTGGTGACAAAGAACACCAT TGAAGAAAAAATTCTAAAACTGCATGCAAGCAAGCGGGATCTGGCCGACA GTCTGCTGGATGGCAGCGATATCAGCGGCCGGATGTCGGCGGACGAGCTG TTTCAGCTGATCCGGGAAGGGTAA >SYN_00384 hypothetical cytosolic protein exonuclease ATGAGCCTCAAGGACCGTCTGCGGCGCCTGACCGGTGAAGAAGAATCGCC CGCAAAACCGGACACGACGGATCGAGCGGAACAGCTCAGCGATCTGCGGC GGCGCCTTGACGCCATTGTATCCCGACGACCGGGAGATACACCTGAGTTC TTTCCTCCGGGACGTCTCCGAAAGGAATTACCGGCGCTGCAGGACCTTCT GACCGGATGCGAAGAATGCAACGACTGGGGTGCATTTTTTCGAATCGACT CTCTACTGGAAGGAACCGAGACCCACGGCATCCGCCGGCTTAATGAACTG GAGACGCTGGATATGGAAGCGACGGCTCTCCTGGCCAACGACACCCGCTT GTCCGATTTTGACAGCCGGACCGCACTTTTTCTCGACACGGAAACGACGG GTTTGGCCGGTGGAACGGGAACTCTGGCCTTTCTTGTCGGCGTGGGCTGG TTCGAAGCGGATGGTCGCTTCCTCGTCCGCCAGCTTTTCGCCCGGAGTTT CGAGGAAGAACGGGCCGTTCTCGCCGCCCTTCAGAAAATTGCCGCTTCGA AACGTTATCTGGTCACGTTCAACGGCAAATCCTTCGACATCAACCTGCTC GCCACCCGCTACATCCTGAACCGTCTGGACAACCCGCTGACCGCCCTTCC TCATCTCGACCTGCTTCACCCGGCCCGGCGTCTTTTCGGCCATCGGATCA GCAACAGCCGGCTTATTACCCTGGAGGAGGCTCTTCTGAAATTCTATCGC GAGGACGACCTGCCGGGTAGCGAAGTCCCTATGCGCTACTTCAACTGGCT CCGGTCTCGCGATCCCCATCCCCTGCTTGACGTCTTCCGGCACAACCGTC TGGACATCACGGCCCTTGCGGCACTGACCGTTCATCTGGCGGGGATATTC AACTCCAACGGTCATTGCTCCCATTATGATCCCTCGGACCTCTGCGCCGC GGCCCGTCTTTTCCTGGACAGGGGGAGACAGCTTTCGGCCTGTTCCCTAT ACGAGGATGCTTCCCGTTCCGCTTCGCGAACGGCGTCCCTTGAGGCGCGT CAGGCCCTTTCCCTGATTCATAAAAAAAACAGCCAGTGGGAAAAGGCGGT TATCCTCTGGGAGGATCTATTGAAGGAAAATCCGAATGACCTCTTCGCCG CGGAGGAACTGGCCAAATGGCATGAACATCGGACAGGAAATCTTGAACGG GCGTTACAACTCGTGGATGGAATCATGAAGACATCCCCCCCGATGCCGGA ACAGCAGAAAGATGCCTGGCGTCACCGGTTTTCCCGCCTTCAGACCCGCT GCGAAAAGGCTAAGCAGCGCGGAGTTGATGACAAAACCGGTGCGGAGAAG AGAACACCGCCGGATAATGAAGTCGGATAA >SYN_00645 hypothetical cytosolic protein ATGGCTCGATTGTCCGAAGGTTGGTCAAAAGAGCCATTTTTTTTGTTTTT TCACCCACCAAAGTCACCCACAAAAAAGGAGAACATTAAAATGAATTATC GTGAAACACTGCAAGCGGTAGACACGGAAAAAGCGTTGTCAGTTATCGGT ATCAACTCAACACTTCAAGGAGCTTATGTCAAGTTCAATTGCCCTGAATG CGAACAGCAGGCTTTAATCAAAGCGTACGGCGAAAAGAAGAACCTTTGGT ATTGCCCGAAGTGCAAGAAGTCGGGGCATATCATATCTTTGACCATGACG AAAAAGAACATTCAATGGGAAGAAGCCAAAGATCTTTTACTGAAGGCGCG GAACGGTGTCAAGAAGATAACCGAAGAGTTCAACCTGAAGTATGATTTGC AATACAACGACTTCATAAAGGACAAGGGGCTTTCGGAAGACATCTGCAAG TTCTTGGAAATCGGCACACCTAAAGGCAAAACTATGTTGTCGGGTTGCGT CGCGTTCCTGGTAAGGGATGAAGTCGGCATGAGGGTAGCCTATTTCGGGA TTAAGATGAAAGACGAAAAACATGTTTTCCATAAGTCTTTCAATCCTGAA CAATACCTTTATGGATTCCAAAATCTTGATTTTGCTTATGATGTGTACTT TACAACGGATTTATTCGAGTGTATAAAACACATCGAAAACGGCTTCCAAT GTGTGTGCAACTTCGGACTTCCCTATATCTCTAACGAACAAATGGAACTT CTTGAAAAAGCAGAAAGAGTAACATTCTCTATAAGAGACGAGCTGGTAAA GCCTTTCGCCCTGCAACTTACCCAACGTCAAAAGTTTTACAGGTTCATCA AATGA >SYN_00561 nucleotidyltransferase/DNA polymerase protein GTGAGCGACTTCCTGTTCAGTCTGCATTCATGGCCGCAGGCGATTCTTCA CATCGACGGCGATGCCTTCTTTACATCCTGCGAAGAGGCCATTCACCCCG AACTTCGGGGGAAGCCGATTATCGCCGGCGGAGAGCGCGGAATTGTCGCC TGTGCCAGTTATGCCGCGAAAAAACAAGGCGTCATGCGTGGCGTCCCCCT CCATCAGGCCCGGAAGATGTGCCCCGGACTGGTGATTCTTCCCTCGGACT ATGAAACGTACAGCCTGTTCTCCCGACGGATGTTCAACGTGATGCGGCGC TTTACTCCGCAGGTGGAAGAGTACTCCATTGACGAAGCCTTTGCCGATAT CACCGGGATGCGTCGACCCTTGCGGGCTTCCTATGAAACGATCGCAGTCA ACATCAAAAACGAGATTGCGAGAGAGCTGGGCATCACCGTCTCCGTTGGC CTGAGCATCACCAAGGTGCTGGCCAAGGTGGCCTCGAAACACAGGAAACC CAACGGATTTACATGCATTCCCGGCAAAAGCATTGCGATATACCTTGAAC ACCTCCCCGTGGAAAAGATATGGGGGATCGGCCATGCCACCGCCAGTTAT CTCCATAAAATGGGGGTCCGAACCGCCCTGGAATTTGCCCGGCTGCCGGA AGTTCTCGTCAAAAAGCGCTTTACAAAACCCGGCGTTGAAATCTGGCGGG AGCTTCGGGGCGACTCCGTTTATCCGGTATGCGCGGAAGAAAAGAGTCTC TACGCTTCCATCAGCAAAACAAAAACCTTTTCCCCGGCAAGCGGCGATGC GGACTACCTGTTCGCCCATCTGATGCGGAATCTTGAGTCCGCCTGCATCA AGGCCCGGAGGTATCATCTGGCGGCAAGCCGGATTGCGGCCTTCCTGAAA AGAAACGATTTCAGCTATGCAGGTCGGGAGATCCGTCTGAATCGCCCTTC CGTTTATCCTCTGGAACTGTCGATCGCCCTGCGGAACCTCTTTATCGATG TGTACCGCCCGGGCACACTCTATAGGTCCACGGGAATCGTTCTCCTGGAA CTTTCAGGAGATTCAGGCACCCAATACACCCTTTTTGACGATGTCGTAAG AGCGGATAGGGTGCGCGATATCTACAGGGTCACGGATGAAGTCGGTGCAA AATACGGCAAGCACAGCCTTCACCTGGGGGCGTCTCATTTCATCGAGCTG CTGGGAAGAGGAAAGCGGGGCGAACCCACTGCCAGGGAAAGGACGCGTTT CCTGGGAGAAACCGGACGCAGACACATCAATCTTCCCCTTCTGCATCTGA AGGTATAG >SYN_03159 transposase TTGTCGGGAGGTGATGTGATGCCCGGATTAAAGGGTAGCGTTGATGCTTT TGTCGGTATCGATATTTCAAAAGATAAATTTGATGTCTACGGGATTGGAA GGGACGAGAAAAAGCTATTTCAGTTTTCAGCGGCCATGGACCGGAATGGT TTTGAGAAGCTGAAGGAACATCTGGTGGTTGTTTCGGTCTCATCCGTTTT AATCGGGATGGAGTCCACGGCTTCCTATCATGTCAATCTTTTCTCTTATC TGGTTTCTGAGGGATACCAGGTCGTTATCATCAATCCTTTGCTGATTTCC AATTATGTCAAGATGCAGCTCAGGAAGACCAAAACCGACAAGAAGGATGC TGTGGTCATTGCCCAGTTTCTTCTTGCGAATGGGAACACTCTGATCCAAC GGGTCGATTCATCTTTGATTTCCGATCTTCGTGATCTCTCGCGTCAGCGG GAAGGTTTGATTGACGAGATGACCGCATTGAAGATCAATATCAAGAGGCT CCTGAATATCACTTTTCCGGAGCTGGAGCATATGACTTCCGTCTTTACGA AGTCCATACTGAAGCTTGTACAGAAATACCCTTCTGCCATTGCTCTTGGA AATGCAAACCTTGGTCAATTATCTCAGATGCTGATCGCAGATTCCTATGG GCATAAAAGAGAGGCGTTTGCTGTGAAGCTGATCAAGGCCGCACATTCGT CGGTCGGTACCAAAAGTTCAGCCAAGGAAATCATTCTCAAGCAAAACGTG ACTCTGCTCCTTCACCTTGAAGAGGCACTGGAGGAGATAACCGGCATATT GATTGAGATGAGTCGAAAGCAGATGGAAGACGATATCAACATTCTTACTT CCATAAAAGGTATCGGGGACAAAAGCGCTGTAAATTTTCTCATTGAGATG GGTGGCGATGTTAATCATTACGAATATTCTGGGAAAATCATTGCCATGGC AGGATTGGACCCGGCTGTTTACCAGTCAGGTCAACATGAAGGTAAAGGCA GGATCACGAAACGTGGAAATCGTCATCTGAGGAGAATCATATGGATGATG ACAACCAAAGTGATTCAATATAACGATATTTTTAAGGCTTATTACCTTAA ACGAAGGACTGAAGGCTTGCCCTATAAAATGGCGGTATTGGCCACTGCAC ATAAATTGATTCGTATCGCCTATGCCATGCTGACACGACGGACAACTTTT TGCCCACAGATGAATTCTTGA >SYN_01382 transposase ATGTCCACATCGGTTCTTTATCATGCTTTCAATCTGAAGGGTATTACTTA TAGAGCAACACGCTTCACGGGTGACGTCATCGAATATTTTGCAGATGTGA AAGAAGAATACATTCGCTGTCCAAAGTGCGGGCAGCGTAAATTTACCTTT AAAGGACAGAAAACACGGAGTTTTCATCTGGGACCTATGGGGCGTAAGAG GTGTTTGCTTGTACTTTCCCTTCATCGAATAAAATGCAACACTTGCGACA CCCTTTGGTGGCCCGATCTGCCTTTTATGGTGGGGAAGCATAGATTTGCC CGATCCTTTGCTCTGATTGTTCTGGATCTGCTTCGATTCGGCACGATTCG CTGGGTTGCCGATTACCTCGGCGTGGGTTGGGATATGATCAAAGAGATTC ATAAGTTGAAATTGCAGCGCCTCTATCGGAACATTCCTCTTCATAAAGTT CGGTATATCGGCATTGATGAATTCAGCATCCGGAAAGGCCATGAGTACAT GACCACGGTGATGGATCTCTCCGAAGGACGAATCCTTTACGCCACTGAGG GAAAGGGCAAGGAGGGGATTTTACCCTTCCTGAAAAAACTTGCACGCAAG GGGAAAAAACTGCGAGCGGTTGCAATGGACATGGGAATTTCCTTCTTCTC CGCCGTCCGGGAAGCCCTTCCCAATATCGATGTCGTCTTCGACCGTTACC ATATTATGGCTCTGATGAATCAAGGCATCGAAAACTTGCGCAGAAATCAT CAGAAAGAACTTGATGATATCGGGAAGCAAACCCTCAAGGGAAACCGCTT CCTCCTTTTGCGAAATTATGATTCCCTGAAGCCGGACCATAAGGAACGTC TCGATGCCCTGATGCAGGCCAATCAGCCTCTATTCGTCATGCATTCCATG AAAGAGCAACTCAGACTCTTCTGA >SYN_02754 ATPases involved in DNA repair ATGAGTAAAGCCAGATATGCACGATTCTGGAAATGCGCTCTACAGGTGAA TCCATGGGACTACGCCAGGAAATATCGAGGCCGGGACCACGGACTGGATG AATCAGAGTACAACAATCAGATTCTCCAGACATGCCAGTCTGAAGACATA CACGTTGTGGGTATTGCGGACCACGGGAGCGTTGACACGCTGGATGGACT TCGCCAGGTTTTAGTTAATGGCGGGATTGTGGTCTTTCCGGGATTTGAGA TTGCATCAGCGGAAAAGGCTCACTTCGTCTGCCTGTTTTCAGAAAACACC ACAATTCAGCAACTTGAGCGATACCTGGGCAGCCTTAAGCTGACGGACCC GGACGACGGCGTTCATCCCTCGTCCTTAAGCGCCGAACAGCTCCTATGGG AAATCGAACAGCTCGGCGGCATAGCCTATGCGGCGCATTGCACAGAAAAG AGTGGCGTACTCCAGCGGAAGCTCGACCATGTGTGGAAAAATTCTCTTCT CCTTGCGGCACAGGTTCCCGGCTCGCTTGATGACCTAAAAAATGACGAAG GCAACGCATACCGAATCATACTACGCAACAAGAACCGGGACTACCAGCGA GAGCGTCCGATAGGGATTATCAACGCAAAGGATGTCGCGGAACCGAAGGA TTTGCAGTTACCTCAAGCATGTTGCCTGGTACGTATGACCGAGCCTTGTT TTGATGCTTTCAGGCAGGCCTTTCTGGACCCTGAATCTCGGGTTCGGCTG TTAAGTGACCGCCAGGAACGTTTCTTCTCTCAACTGGAGCGTGTGCGCTT CACCGGCGGCTATCTCCCGGGCGTGGATATCCAGTTGTCTGGGCACTTGA ACGCTATCATCGGCGGACGCGGCACCGGCAAGACGACTCTCTTGGAATGC ATTCGCTATGCGATGGAGCAAGAACCTATCAGCGAACGGGCGAAACGGAC CCATAGAGAGATTGTAAAACAGAATCTTGGGGCTGGACGTGTTGAGATCG ACATCCGTTCATTCACCATGCAGGGACGGAGATTCACGATCTCCCGCCGC TATGGTGAAGCCGCAATTGTTCGCGACGAATCGGGCAACACCTCGACGTT CCGGCCTGCCGACCTGCTTCCCAGGCTCGAAATCTTTGGTCAAAACGAGA TCTTTGACATTGCGCAGGACGAAGGTGGATTGACAAGCCTGTTGCGGCGG TTTCTCTCCAGCAAAGACGCGACCGACCGGCGTAGGATAGAAATCCAGGA CAAGCTCAGGGGAAATGCAAAGCGCCTGGTCGATGCGCGGAGTAAACTTG CAGAGATCGAAGACCAGGTGGCACGCCTCCCCAAACTGGAGGAACAGGCT AGACAGTTTCAAACGATCGGCCTTGGTGAAAAACTCGCTATTGTTCCAAA GTTGGAGAAGGAGAGACAATTGGCGGCGCGCATCGAGGAAGAGCAGCGTA ATGTTCAGGAAGCACTGGTCAGTTTGGAGGATGCGCTGCCCGACGCAACT TTCCTTGGTGAAGAAGTCGTTAAAGGTCTCCCCCATGTACAAGAAATCAG AAAACTCAGAAGTAATCTGACAACACTGCACTCTGAACTTGAAACTTTAA TAGCCAATGCCAAGCAGAAAGTGGAGGTCTCCGATACCGAAATCAAAGCA AAAATAACCGCTTTGTCAGCAAAGATTACCGGTGAAGAAGCCACCCTGGA ACAGGAATTTGCCAAGATACCTGCTTTTCAAGGCCGTACCGGCCGCGAAA TCGGATCGGCATACCAACAAGTGCTTAAAGACATTGAACGGATTCGACCT TTAAAAACAAAGCGCGACACCAGACAAATGCTTGTCACCGAACTTCGCAA GGAACGGAACAATCTACTTGCCAATCTCTCAGAGGCTATTGCAAATGCCG CAGCAGAGATTGATGTAGAATTAAAGATACTGCGTAAGAAGTTGGAAGGA AAGCTCCGCCCATCTGTCGATCACGCAGCAAACCGCAGAGAATTAAAAGA CTTTATCATGAAATGCAACTTGGAAGGTGTGGGTGAGGCGCGATTACGCT GGCTTGACGATGCAGAGGAGTTCTCTCCCATCAGACTCGCACAGACGATA AGGCAGGGCGCAGAAGCGCTTAAGAATGCCGGGTGGGGGATGACTGCCGG TGTGGCAGAGGCTTTGACGAAACTTTCGGAATCTAAACTTCTTGAAATTG AAGCCATGGTATTGCCAGACATTATCCGGCTGGAGTTAAATGTCGCGCAT ATCGGCAAGGAAGAATATCGTCCGATATCCAAACTCTCGACCGGGCAACA ATGCACGGCCGTGTTGCACTTGCTGCTCTTGGAAAACCGGGATCCCCTGA TCGTCGATCAGCCGGAAGATAATCTCGACAATGCATTCATTGCGGAACGC ATTGTCACTGAGCTCCGCTCTGCAAAGCTCGGGAGACAGTTTATCTTCGC AACACATAACGCGAACATCCCCGTGTTTGGTGATGCAGAGTGGATCGGGG TGCTGCAAGCCAGCGAAGGCCAGGCCAACATGCCTGATGAATTCCAGGGT GCGGTGGACGTACCTGAGATCCGCTCTCAGGCTGCTGCCATTCTGGAGGG AGGGAAAGAGGCCTTCATCCAACGTAAGGAAAAATATGGTTTCTGA >SYN_01298 superfamily II DNA and RNA helicases ATGAAAACATTTGCCGAATTTGAGATTAACACGGATATTATGAAAGGACT TGACGGACTCGGCTTTTCCGTTATGACTCCCGTACAGGAGAAGATTATTC CTATTGTTCTGAACCGTCAGACCGACCTTGTTGGTCTCGCACAAACCGGA ACGGGGAAAACGGCGGCATTTGGCATCCCCCTGATCCAATTGACTGATAC CCGGCTGAAGCGGACTCAGGCTCTGGTTCTCTGCCCGACTCGGGAGCTTT GCGTTCAGGTGGCCGGCGATCTCAACCTGATGGGTCGATATGTACAGAAA TTAAAGATTGTGCCGGTTTACGGCGGGGCGAGCATCGTCAGCCAGACAGA GGAACTGCGGAAAGGGGCTCAGGTTGTCGTGGCGACCCCGGGGCGTCTGC ATGATCTGATCCGTCGGGGAGCGGTCGATCTCTCCGGCGTCTCCTGGGTC GTTCTCGATGAAGCAGACGAAATGCTGCAGATGGGTTTCCAGGACGAACT GAACGCCATTCTAGCCGTAACCCCGGATTCCAAAAACACCCTGCTTTTTT CAGCAACCATGCCGCGGGAAGTAGCGGCAATCGCTGCCAACTACATGAAG GATCCGCTGGAAATCATCGTTGGGCGACGCAATGCCGGAGCGGAAAACGT TGATCACATCTATTATGTCGTTTCAGCCAGGCACCGCTATCAGGCTTTGA GGCGAATTGCGGATATGAACCCGGAACTCTATGCCATCATTTTCTGCCGG ACCCGTCTGGAAACCAGAGAGATCGTCGATAAGTTGATCGAGGATGGCTA CAGCGCCGACGCCCTTCACGGAGATCTCTCCCAGAGCCAGAGAGACCACG TGATGCATAAATTCCGGAGCAGGAACATCCGGATGCTCGTGGCCACCGAT GTCGCGGCCCGGGGCCTGGATGTCAATGATCTGACCCACGTGATCAATTA CAGCCTCCCGGAGGAATCTTCCGGCTACACGCACCGGAGCGGCCGTACGG GGCGTGCGGGAAAGAAGGGAATTTCCATAGCCTTAATCGAAACTCGAGAA AAGCATAAGATTCGAGCAATCGAACGATGCCTTAAAAAGAATTTTGAAGA AGGCCGTATTCCTTCAGGCCATGAGATCTGTAAACGGCGCCTGCTCAGCC ACATGGAAGCCGTTAAAAAGACGGAGATCGATGCGGAACATATTGATCCG TTTCTGCCCGCTATCTCGAAAACACTGGAAAGCCTGGATCGGGAAGAGCT GATCAAACGGTTCGTATCGATGGAATTCAATCGGTTCCTGGCGTCTTACC GGAATGCCCCGGACCTGAACACCTTTGAAAAAACCCCTCCGAAAAAAAAG ACGCGGGAAGCTGCTGCCGGAAAGCCTTATCGGCTGGCTTCCCGGAAGAA ATTTACCCCTTTGTTCATTAATGCCGGGAAAAAGGATGGAATCAGTCCGA AACGTCTGATGCGCGATCTTTCGGACGCCGCAGGCATGCCGGACGTCCGG ATCGGCAGAATTGAAGTCAACAACACCACCTCGCTTCTGGAAGCGGACAG CCGCTTTGCGCCGAAAATATTGCAGGCATTGAAGTCCCTGACGATCAACG GGCGATATGTTGCCGTCGAGATCGACCGGAAAACCGCCATCCGAAACCGG CCCGAAAATCGGCGTTATGATTCGAGCACGGCGAAGGATAGAAGAAAAGG TCAGAGCAGACCAGCCTAA >SYN_02859 DNA-binding protein HU ATGACGAAGGCGGAATTGATTTCGGTAATAGCAGAAGAAGCAGGCATTAC AAAGGCCTCAGCGTCGAAAGCTCTGGAAAGTTATGTAAATACGGTAGCGA AGGAACTGAACAAAACTGGGAAACTGGGGCTGGTCGGCTTCGGAACTTTT TCCGTCGTCATGAGGGAAGCCCGCGAGGGTAGAAATCCTCAAACGGGCGA TATCATCAAGATTCCGGCCAAGAAAGTCGTCAAATTCAAACCGGGAAAGG AATTGTCGGAAAAAATCAAATAA >SYN_00178 superfamily II DNA and RNA helicases ATGCCTATGGACCCCACATTGAACGATCAAGAACCCGAATCGACACCGCC TGCAGACCAGAATTTCAATGATCCCGGGGAGGAGCCGATCCTGGAGCCGA CCGACGCCCTGCCCGAGGTCGCTCTGGAGTGTTTGCCCCCGACGATAAGG GATGCTGCCACCCGCGCGGGGTGGACGAAACTGATGGACGTTCAGGCCAA GGCGATTCCCTATATCCTGGCCCGGCGGGATCTCATGATCCAGTCGAAAA CGGGCAGTGGAAAGACGGGAGCCTATCTCCTGCCCATACTGGGACGTCTT GACCCGCGGAAGGCCGCCTGCCAGGCCATGATTCTTGTGCCGACTCGGGA ACTGGCCCTTCAGGTGTCGAGGGAAGCCCTCCTGCTGAGCGCCGACTCCG GAATCCGCACAGCCGTTGCCTACGGCGGCGTTGGGTATCACGCCCAGCTC GAGGCCTTCCGGGAAGGGGCGCAGCTCGTCATCGGAACACCAGGGCGGAT CCTGGATCATCTGATCCGGAGTTCCCTGTCGCTGAAAGCCTTGTCGATTC TGGTTTTCGATGAGGCGGATCGCATGCTGTCCATGGGATTCTATCCGGAC ATGAAGCGCATTCAGGAATTCATTCCCCGCGAGATCAATGCCTATCTGCT GTCGGCCACGTTTCCGTCCCATGTTCTCCGCCTTGCCGGAGAATTTCTGA GAAAACCGGAATTGCTGAGCCTCAGTCGGGATCAGATTCACGTGACGGAA ACGGAGCATGTGTACTATCTCGTTCCGGGAATGGGCAAGGAACGGTCTCT TGTCCGGATCATCGAAGCGGAAAATCCCGTTTCCGCCATTATCTTCTGCA ACACCAAAGCCACGGTCCATTTCGTGAGCGTCGTACTGAAACGTTTCGGT TATGACGCGGACGAATTGAGTTCCGAACTGTCCCAGAAGGCACGGGAAAA AGTCATGGCGCGGATTAGGAGCGGATTACTCCGTTTTCTGGTGGCCACGG ATGTGGCAGCCAGAGGCATCGATATCCCGGACCTGTCCCATGTCATTCAA TATGAACCGCCGGAAGATCCCGAGGCTTACATCCACCGGGCGGGCCGCAC CGGCCGGAAAGGCGCCAGCGGCGTCGCCATTTCCCTGGTTGCCGGGATGG AGCAGTTTCGGCTGCGGGACATCGCGAAGTCCTTCAGTATCGATATTCAG GAACGGTCCCTGCCAAAAGATGAAGAAGTGGAAACGACCGTGTCCCAGCG AGTGATCGCTCTGCTGGAGGCCAAGATGAGAATGCGTGACCGACTGCAGG TGGAACATATGCAGCGTTTCATTCCTCTGGTCAAAAGTCTGTTGCAGAAT GAAGAAGAAATGGACCTGATCGCCATGCTGGTTGATGATTTCTATATGGC GACTCTGAATACGCCTCCTCCCCAGCCGCCGGAAGTGCAGAAGTCGTCAG TGTCCGCTGGGGGGCCTGAGGCTGCCTCCGGGGCAAAAAAGAAACGCCGC CATCGCAAATCTTCCCGCAGCATGGCCGGAAGCCGATCGGACAGCGGCGA ATCCACGGGAGAAACGGAAGGGGATTAA >SYN_02945 transposase ATGTCCACATCGGTTCTTTATCATGCTTTCAATCTGAAGGGTATTACTTA TAGAGCAACACGCTTCACGGGTGACGTCATCGAATATTTTGCAGATGTGA AAGAAGAATACATTCGCTGTCCAAAGTGCGGGCAGCGTAAATTTACCTTT AAAGGACAGAAAACACGGAGTTTTCATCTGGGACCTATGGGGCGTAAGAG GTGTTTCCTTGTACTTTCCCTTCATCGAATAAAATGCAACACTTGCGACA CCCTTTGGTGGCCCGATCTGCCTTTTATGGTGGGGAAGCATAGATTTGCC CGATCCTTTGCTCTGATTGTTCTGGATCTGCTTCGATTCGGCACGATTCG CTGGGTTGCCGATTACCTCGGCGTGGGTTGGGATATGATCAAAGAGATTC ATAAGTTGAAATTGCAGCGCCTCTATCGGAACATTCCTCTTCATAAAGTT CGGTATATCGGTATCGATGAATTCAGCATCCGGAAAGGCCATGAGTACAT GACCACGGTGATGGATCTCTCCGAAGGACGAATCCTTTACGCCACTGAGG GAAAGGGCAAGGAGGGGATTTTACCCTTCCTGAAAAAACTTGCACGCAAG GGGAAAAAACTGCGAGCGGTTGCAATGGACATGGGAATTTCCTTCTTCTC CGCCGTCCGGGAAGCCCTTCCCAATATCGATGTCGTCTTCGACCGTTACC ATATTATGGCTCTGATGAATCAAGGCATCGAAAACTTGCGCAGAAATCAT CAGAAAGAACTTGATGATACCGGGAAGCAAACCCTCAAGGGAAACCGCTT CCTCCTTTTGCGAAATTATGATTCCCTGAAGCCGGACCATAAGGAACGTC TCGATGCCCTGATGCAGGCCAATCAGCCTCTATTCGTCATGCATTCCATG AAAGAGCAACTCAGACTCTTCTGGGAAATACCGGAGTACGCCCAGGCTGT TACCTTCCTTGACACCTGGTGTAAGGACGCCATGCTGTCCGGAATCAAAG AACTCGTCAAAGTAGCCAAAACGCTCTCCGGATACAGGACTGCGATACTC AATTATTTCAAACATCACATTACAAATGCCGCCCTTGAGGGCACAAACAA CAAGATTAAAACTTTAAAAAGGCAGGCCTATGGATTCCGGGATATGGAAT ACTTCAAACTCCGCCTCTATCACCTGCATACTCAGAGGTACTCATTAACC GGATGA >SYN_03249 transposase ATGTCCACGAGTTTTCTTTACCACGGATTCAGCCTCGTCGGCTACGATTA TGTTAGGACGCGATACGAAGGAAGAAGTATCACGTTCACCATACGCCACA AAAGGAGCAAGCTTTGCTGTCCAGTCTGTAGAAGCCGGGAGATCATCATG CGAGGAACGACCCGGAGACGGTTTCGAAGCATTCCCATCGGTTTCAAGAA TGTGTTCTTCGATCTCAGCGTTCAGCGGGTGGGCTGCCTTCGTTGCGGCA GTATTCGTCAAGTGTCGCTGGGATTTGCTGATCCCCGGTTTTCTTACACC CGTGCTTTTGAGCGATATGCCTTGGAATTGTCGAAACACATGACAATCCA GGATGTAGCTGCACATCTGTCGGTATCCTGGGACGTGATCAAGGAAATTC AGAAACGGGATTTGACGAAGAGGTTTTCCAGACCTTTTCTGAAGGATCTT CGGAGAATTGCCATCGATGAGATCTCGATTCGCAAGGGGCATCGGTATCT GACTGTTGTTTTGGATATGACCAAAGGGACGATCGTCTATGTCGGTGATG GCAAGGGAGCCGATGCGCTTGACTCTTTCTGGAAAAAGGTCAAACGTGCC GAAGCCAAGATTGAAGCCGTTGCCATGGATATGTCTCCCGCTTACATCAG CGCTGTATCGACTCATCTTCCGAAAGCGACGATTGTTTTTGACCATTTTC ATGTCATCAAGCTCTTCAACGACAAATTGTCCGGGCTAAGAAGAGACCTT TATCGAGAGGCAAAAGATCTCCTTCAGAAGAAAGTCCTGAAGGGCACCCG CTGGCTTCTCCTGAAAAATCCGGAAAATCTTGACTCATCCAAAGGTGAAA AGGCCCGCTTGAACGATGCCCTCCAGCTAAATCAGCCACTTGCATGCGCC TATTACCTGAAAGAAGATCTCCGACAGGTCTGGTTTCAGCCAACAAAGGA AAAAGCACGCCTGGTATTGGTTGATTGGATCAAGAGGGCGGAAACTTCCG GGATAAAAATGTTGAAAAAGTTTGCGAAGTCACTTGCTGCATTTCAATCC GGTATCCTCTCTTATTATGATTACCGCATCTCGTCGGCTCCCTTAGAAGG CACAAACAACAAAATCAAAACCATGAAACGGATGGCTTATGGGTTCCGGG ATATCGAATTCTTCAAACTTAAAATCATGGCCATTCATGAAGCCAAGTAC GCTTTAGTCGGATGA >SYN_00204 formamidopyrimidine-DNA glycosylase ATGCTGGCAACTTTGAATGGAATGGCCGGTTTTTACGCGGGTCGCTTCTG CATGCGCGTCGACTTTCTCTGCCGCCCTGCTGTCACTGTCAAACTCGAAA AGAGTGTGTCAGCGCCCGGATGGACAGACCGGACAAGAAAAGAGGAACAC ATGCCTGAACTCCCCGAAGTAGAAACCCTTTGCCGTCAACTGCGGCAGAA AGTACCTCATGCAAAGATCAAGGGAACTTTCATCCTTGACAGCAAACTGG GGAAGCTGGACAATCTGAAAGGCCGCGGCATCGCTTCCGTGACTCGTCTT GGGAAACGGATCGTCCTTGGGCTGGATGACGGCAGATCGCTGGAAATTCA CCTGAGAATGACAGGTCGGCTTCTCTGGCAGGAAAAACCGGATATCGGAG AAAAGCCGCCGCACAGCCGCTTCATCCTCGATCTGACCCCCGGTCGGATC ATTATCGTCGATCCCCGGCGTTTTGCCACGTTGTCTCTTGTCGCGGATGC GGCAAAGGGGAACGCGGCTGTCGACGCCCTGAAGCCCGGATGCCCAGAGG CACTGAAAGAAAAGGGATGCAACCGAAGTCGGTCCATTAAATCTTTTCTC ATGGACCAGAGCATCATCGGCGGAATTGGTAATATTTATGCCTGCGAAAT CCTCTATCGAGCAGGATTGAATCCTCTCCGCAGGACGGCCGACCTGACTT CAGAGGACTGGCGGCGCGTCGGAAGCGCCATGGTTGAGGTCCTTTCAAAG GCCGTTGTTTGCCGGGGAACGTCCATTTCCGACTGGCGCGATCTTTTTGG CTGCAAAGGCGAGTATCAGAAGGAACTTCGCGTATATGGGCGCGAGGGGA AAAAGTGCCCGCACTGCGGAGGAATCATTCAGCGAGTCCGCCTTTTGGGT CGGGGAACGTGGTTCTGTCCGAACTGCCAGGCTTGA >SYN_02935 NAD-dependent DNA ligase ATGATGGATGCCGAAAGCGCCCGCAAAAATATTGAAGATCTGAAAGCCCG GATCGAATATCATAATCGACGCTATTATCAACTGGATGACCCGGAAATCT CCGATGCGGAATACGACTCCCTGCTCCAGGAACTGATTGCCCTTGAAAAG CAGTTTCCTCAATGGCTGACGGAAGATTCTCCCAGCCGGCGGATCGGCGC CGCCCCCTTGAGCAAGTTTGCCCCGGCTGTTCATCTGTCTCCCATGCTGA GTCTGGCCAATGCCTTTTCTGAAGAAGAAATTCTGGAATTTGACAGGCGT TTAAAGCGCTTTCTGGACAGTTCGGAAAGGCTTTCCTTTGTTGTAGAACC CAAGATTGACGGTGTTGCCGTTAATCTGATTTACAGCAGCGGCGTCTTGA CAACAGGTGCAACCCGTGGGGATGGCGCCAAAGGTGAAGATGTCACTCAA AACATTCGCACTCTTCATACAATCCCCCTGAAAATCCAGAACGGCTCTGA TGAACGGCTGCCTGAACAGATCGAGATCCGCGGTGAAATCTACATGGAAA CGGCGGCTTTTCGAAAGCTCAATGAACGAAGGCTGGCCGCGGGTGAACCC CCTTTCGCCAATCCCAGAAACGCCGCTGCCGGATCTCTGCGACAGCTTGA TGCCTCCATTACCGCGAGAAGACCCCTGAAGATGTTCTGTTACGCTGTAG GGATTGTGAGAGGACGGGCCTTCACGTATCACCACGATGTGCTGCATGCC CTCAAGAAATGGGGATTTTCCGTTAATCCATTTATCCGTCAGGTTGAAGG CATTGAGAAGTGCATTGAATTTTACCGCGAGCTTCAGGACCTGAGAAATG AACTGCCTTATGAAATTGACGGGATGGTAATCAAGGTAGACGATCTGTCC CTTCAGACTCGTCTTGGCGCGGTATCCCGCAGTCCGCGCTGGGCGGTGGC CTGCAAGTTCGCCGCGACGCAGGCGACGACAGTGATCAGGGACATTATCG TCAATGTGGGAAGGACTGGTACTTTGACCCCTGTTGCCCTCATGACCCCT GTGAAAGTGGGCGGGGTCACCGTCAGCCGGGCCACACTTCACAATCAGGA CGAAATCGACAAGAAGGATATCCGCATTGGAGATACTGTTCTTGTTCAGC GGGCGGGAGATGTCATCCCTGAAGTCGTCAAGGTTATCGTATCAAATCGA TCCGGCAGGGAGATACCTTTTAAAATTCCTGATACATGCCCGGAATGCGG CTCGGAGGTCGTCCGCCTCGCCGGAGAGGCTGCCCATCGCTGCATCGGTC TGTCCTGTCCAGCCCAGCTTCGGAGGCATATTCAACATTTTGTATCCCGA GGCGGAATGGATATCGAAGGACTGGGAGACAAACTGGTTTCTCAGTTAGT CAATCAGAAGCTTATTCATGACCCGGCGGATCTCTATTATCTGAGCCATG ACGCGCTTCTGAATCTCGAGCGGATGGCGGAAAAATCAGTATCCAATCTT TTGTCCGCCATCGAACTGTCAAAGCACCCCTCACTTGACAAGATCATTTT TGCCCTTGGAATCCGTCATGTGGGGGAGCATATATCCAAAATTCTCGCCC GTCGATTTCGTACTCTGGATGCTCTGATAAACACAACGGAAAACGAACTT CTTGCGATCCGGGATATCGGACCCGAAGTCAGCAGCAGCATTTTAGAATT TTTCCGCAATGCTTCGAATCGGCGCGTGATTGAAAAACTTAAAAAAGCCG GTGTCAGTCCTCTGGAGACAATTTCCCCGCGCTCTGCCCCGCTGACAGGA AAGACCTTCGTCTTTACGGGTGCCCTGAGCAGAATGACCCGGGATGAAGC AAAGCAGATTGTCGAATCACTGGGCGGTCAGGCGGCGGGTACCGTGACTA AAAAAACAGATTATGTGGTGGCCGGCGAGGCCGCGGGCTCCAAACTTCAG AAGGCGCAGAAAGCAGGCATCGCCATTCTGAGCGAGGAAGAATTTCTGAG ATTGGCAGGCAAAATATAA >SYN_02050 DNA polymerase III, beta chain ATGGAATTTGATATTCAGCGACAGGTTTTTCTGGATGGCGTTCAAAAAAC CCTCGGAATTGTGGAAAGAAAAAGTACCATGCCCATTCTCGGAAATCTGC TGCTCAAAACGGAAGACAACCAGATCAAGATTGTCGCCACGGATCGGGAA CTGGGTCTGGTTGCCGATTACGAGGCGCAGATCATCAGCAGCGGGGCAAT CACCCTTTCCGCGAAAAAGCTGTTTGAAATGATCCGGGAAATCCAGGGGG ACAGCATTCATTTCTCCTGCGATGATCATGATCAGATTACCCTGAGCAGT CAGAAAGCGGTCTACCGGATACCCGGCATTTCCGCTGATGAGTTTCCCGC TGTGGCATATGATGAAAACTTGCCGCTGTATCCGGTTCCGGCATCCCTTT TAAAGGAATTGATTTCCAAAATCTCCTTTGCCATTTCGAATGATGAGACG AGAAAAAATCTGACCGGCGCCCTGATGGAGGCAGAGCCGGGGGAACAGGG GACCATTCTCCGAATGGTCGCGACGGATGGACATCGCCTGGCCAGGAGTT ACGAAGTTATAGAAGGTAATTCTCCCTTCACTCTGGAAAAAGGGATTATT CTTCCCCGAAAGGGAATTTCCGAGATCCGCAAGCTGATCGATGCCGAGCA GGGGGAAATCCTGATCGGGTCGGAACGCGGGATGTTTGTTCTGAAAACAG CCAATACCCTGTTGAAGGTGAGTCTCATTGATGAAACCTACCCGGATTAC ACGAGGGTCATTCCCAGCCAGCAGGGAGTCCGGGTGATTTTCAATCACGA TCTTCTTTTGCATGGCCTCCGGCGGATGAAGGTCATCTCGACTGAACAGT ACAGCGGCGTCGTGCTCACCTTGAATAATAACAGAATGATTATGAATTCG ACGAACCCTGATGTGGGAGAAGCCAACGACGAACTGGAGGTTGCCTACCA GGGAGAGGAGGTCAAGGTCGGCTTCAACGTGGATTATCTGATTGACGCCA TAGAGGTCATCCGGGAAGAAGAAGTGCTGTTTGATATCGGATCGTTCATG AAACCCAGCATGATCATGCCTGTTCACAACGACCGCTTTCTGTGCGTGGT CATGCCTTTAAAGCTTTAA >SYN_02049 DNA gyrase subunit B ATGACAGACAATTATTCCGCTGACAGCATTAAAATACTGGAAGGTCTGGA AGCCGTAAGGGTCAGACCGGCCATGTATATCGGCAGTATCGGCAAGGAAG GATTGCACCACCTGGTGTATGAAGTGGTGGATAACAGTATCGATGAAGCT TCGGCAGGATACTGTGATAAAATTACAGTAAAAATAAGAGTCGATAACAG CATCATGGTGGAAGACAACGGCCGGGGCATTCCCGTTGATATGCATGAAA CGGGAGTTTCAGCCGCCGAGGTCGTGATGACCAAACTGCATGCCGGGGGA AAATTTTCCAATGATTCCTACAAGATTTCCGGTGGGCTTCACGGTGTCGG CGTTTCCGTCGTCAATGCCCTTTCCAGCTCCATGGAACTCAATGTCCGTC GAGACGGAAAGGTCTATTCCCAGTCTTATGTCCGCGGCGTTCCAACAGCT CCTCTGGCCGTCACCGGTCAGACCTCGGGAAGAGGTACCAAGATTTACTT CAAACCCGACGATACGATCTTTGAGGAACTGGAATTCAATTTCGACATTC TGGCCAACCGATTGCGGGAACTGGCGTTTCTGAACTCCGGTGTCCGTATC GCGCTGATCGATGACCGCAGCGACCGGAAGAGTGAATTCTTTTATGAAGG AGGTATTATCTCCTTTGTCGAGTATATCAATCGCAACAAAAAGGTTCTGC ACAAGGATCCCATTTACGTCAGCGGAGAGAGGGAAGACTCCACGGTGGAA GTGGCGCTGCAGTACAACGATACCTATACGGAAAATATCTTCTCATTCGC CAACAGCATCAACACCACCGAAGGAGGAACGCATCTGAGCGGATTCCGGT CGGCCCTGACCCGGGTGTTCAATAACTACGCGGTCAACAACGGCCTTTTG AAGAATGGAAAGGAATCGCTGCGGGGGGAAGACCTGCGGGAAGGACTTGC CTGTGTGATCAGCGTCAAGGTCCAGAATCCTCAGTTCGAAGGTCAGACCA AGACCAAACTGGGCAACAGCGAAGTGCGCGGCCTGGTCGAGGGCATCGTC TATGAAAAGATCGGCAGCTACCTTGAGGAAAATCCCTCTGTTGCCAAACA ACTGCTGAACAAATGTCTCGAGGCCTCACGAGCCCGGGAAGCAGCCCGGC GGGCAAGGGAACTGACACGCCGGAAAAGCGCCCTGGAGGTGGGGGCTCTG CCCGGCAAACTGGCGGACTGTCAGGAGCGGGATCCGGCAAGAAGTGAGCT TTACCTGGTGGAGGGGGATTCTGCAGGCGGCTCCGCCAAGCAGGGTCGCG ATCGACGGAATCAGGCCATTCTGCCCCTGCGGGGCAAAGTGTTGAATGTG GAAAAGGCCCGCTTCGACAAGATGCTTCAGAACGAGGAAATCAAGACCAT GATAACCGCCCTGGGAACGGGAATCGGCCAGGAGGATTATGATGTCAGTC GAATCCGCTACCACAAGGTCATTATTATGACCGATGCCGATGTGGACGGT TCTCATATCCGCACCCTTCTGCTGACTTTTTTCTTTCGCCAGATGCGGGA GCTCGTGGAAAAGGGCTATCTCTATATCGCTCAGCCGCCGCTTTTCAAGA TCACGGAAAAGAAAAACGAAGTTTACATTCGCAACGAGGAAGAAATGAAC AATTTCATCCTCCAGAACGGTGTCAAACGGATCAAGCTGTTTAATGGGCG CGAAGAGGCGGTCACCGGCAACCAGCTGCTCAATCTGGTCAAGAAGGTGA TGCGGGTCGAGACCATTCTTGACAAGTTCGAAAAAGAGGATTGCGACCGT AAGATTATACTTGCTCTCGCGGAGAGACCCTCTTTCACCATTCAGGACTT CGATGATGAAGCGCTTCTGAAGGAAGTGGCCCGCCAGACCGCGCAAGCTC TCGGAGAAGAGGTCAGGGAAGCCGGGGTGGAAGCGGATGAGGAACACGGC GGATACAAACTGTTTTTCTTCCTGCAGAATAATGGGAAGGTGCAGCGGAT TTCCTTTGGAAAATCCATTTACCGGGCGCCGAAATTCTCGGAAGTCAAAG CGATTCTGGAACAGATTTCCTCTGTCGGAAAACCGCCCTATTCGGTCATG GCCATTGACGGGGATGGAACGGACCGTCAGGAAATTCCGGATATGTCATC CCTGGTGCAGTTTGTCAATTCCGTGGGAAAAAAAGGGCTCTCGGTCCAGC GCTACAAGGGTCTGGGCGAAATGAATCCAGAACAGCTATGGGAAACCACG ATGAACCCGGAGAAGAGAACCCTCCTGCAGGTTCGTGTGGATGATGCCGT GCAGGCGGATGAAATTTTCACCACATTGATGGGGGATCAGGTTGAACCCC GTAGAGAATTCATTTACCAGAACGCTCTTTACGTGTCCAACCTGGATGTC TAG >SYN_03150 phosphohydrolase ATGGTAAAAAGAGCAAAATCGCGACAGGGGGTAAAGAACATGCCGACCCA TGCCGGAAGTGTCACTTATCGTAAGGAACAGGACAAAATCCTCTATCTCA TTATTTCTTCATCCGATGGTGTACATTGGGTGCTGCCGAAAGGCCATATA GAGCCCGATGAGTCACCTGAAGAGGCCGCTTTGAGAGAGTTGAGAGAGGA AGCAGGAATTGTGGGCGAAATTGTTAATAAACTCCCGCTTCAATCTTTTG ACGTTGCCGGGAAACCGGTCACTGTACAATATTTTCTCATCAAGTCTTCA GGATATTGTCCGGCACATGAGCAAAGATTGATCCGATGGAAAGATCAAGC TTCCTCCCTTGAGCTGCTATCCTTTGCAAATACCCGAATGATTCTGCTTG AGGGATCTAAAAGACTCAAAAACCTGTAA >SYN_02924 bacterial regulatory protein, Fis family TTGACGCGATTGCTGCTCATTCCAATTCCGGGTTGGGTAAGATCTTCAGG CCGCAAGCCCCAGGCAGCGCAGGCGCATAAGTCGACCATCGAGAAACCGA TAACGAAGCCCGCGGAGCGCGCTTTGATATGGAATAGGGATTACCGGTCC AGAAAGGAGACAAATCTTTTCATGAATTATATCGTTGATCGCCGAAACAT TGTTGCGGAACGAAACATTGACGTAGAGGGCGATAAGGATGTGCCTTCCT CACCCGCTTTCGTTCTTGAAAGAATTCTTCAGAAGCAGCTTGAAGATATC GCAACGGTTCTGCATTCCACGGATTCGGACCGGAGCACGCTTTACGACGA CATCATGACCATGGTGGATCGGGGTCTTTACCGGATCGCTTTACAACGCA ACAATAACGTGAAAAGCGCCGCAGCCGCCTATCTGGGAATCAACCGGAAC ACTTTCCAGAAAAAAATGGCTAAACTGGGGCTGGACTCTCCGAAGCCCTG A >SYN_02744 transposase TTGTCGGGAGGTGATGTGATGCCCGGATTAAAGGGTAGCGTTGATGCTTT TTTCGGTATCGATATTTCAAAAGATAAATTTGATGTCTACGGGATTGGAA GGGACGAGAAAAAGCTATTTCAGTTTTCAGCGGCCATGGACCGGAATGGT TTTGAGAAGCTGAAGGAACATCTGGTGGTTGTTTCGGTCTCATCCGTTTT AATCGGGATGGAGTCCACGGCTTCCTATCATGTCAATCTTTTCTCTTATC TGGTTTCTGAGGGATACCAGGTCGTTATCATCAATCCTTTGCTGATTTCC AATTATGTCAAGATGCAGCTCAGGAAGACCAAAACCGACAAGAAGGATGC TGTGGTCATTGCCCAGTTTCTTCTTGCGAATGGGAACACTCTGATCCAAC GGGTCGATTCATCTTTGATTTCCGATCTTCGTGATCTCTCGCGTCAGCGG GAAGGTTTGATTGACGAGATGACCGCATTGAAGATCAATATCAAGAGGCT CCTGAATATCACTTTTCCGGAGCTGGAGCATATGACTTCCGTCTTTACGA AGTCCATACTGAAGCTTGTACAGAAATACCCTTCTGCCATTGCTCTTGGA AATGCAAACCTTGGTCAATTATCTCAGATGCTGATCGCAGATTCCTATGG GCATAAAAGAGAGGCGTTTGCTGTGAAGCTGATCAAGGCCGCACATTCGT CGGTCGGTACCAAAAGTTCAGCCAAGGAAATCATTCTCAAGCAAAACGTG ACTCTGCTCCTTCACCTTGAAGAGGCACTGGAGGAGATAACCGGCATATT GATTGAGATGAGTCGAAAGCAGATGGAAGACGATATCAACATTCTTACTT CCATAAAAGGTATCGGGGACAAAAGCGCTGTAAATTTTCTCATTGAGATG GGTGGCGATGTTAATCATTACGAATATTCTGGGAAAATCATTGCCATGGC AGGATTGGACCCGGCTGTTTACCAGTCAGGTCAACATGAAGGTAAAGGCA GGATCACGAAACGTGGAAATCGTCATCTGAGGAGAATCATATGGATGATG ACAACCAAAGTGATTCAATATAACGATATTTTTAAGGCTTATTACCTTAA ACGAAGGACTGAAGGCTTGCCCTATAAAATGGCGGTATTGGCCACTGCAC ATAAATTGATTCGTATCGCCTATGCCATGCTGACACGACGGACAACTTTT TGCCCACAGATGAATTCTTGA >SYN_00494 type I restriction-modification system methylation subunit ATGGCCAATAATAACAACAAAACGGAAGCTTTCGAAAAAACCCTATTCAA AGCGGCAGACAAGCTACGCAAAAACATGGATGCGGCGGAATATAAGCATA TAGTGCTGGGCCTCATCTTCCTCAAATACATTTCCGATTCATTCGAAGCC CTTTATGAAAAAATAAAAGAAGGCAAAGGTGATTTTGAAGGAGCTGATCC AGAAGATCCCGATGAATACAGGGCGGAAAATGTCTTTTTTGTTCCGCAAG CGGCCAGATGGTCATATCTTCACTCAAGGGCCAAGCTTCCTTCCATCGGC AAGGATGTCGACGATGCGATGGAAGCCATCGAGAAGGAAAACCAGACGCT CAAGGGAATCCTTCCCCAAGTCTATGCCCGTCCCAATTTGGATAAAGCCG CTTTGGGCGGCCTGATCGACCTTGTCGGCAATATCGCCTTGGGCACTGAA GCCGCCAAAGCGAAAGACCTGCTCGGCAGGGTTTATGAGTATTTCCTCGG CGAGTTCGCCAACGCCGAAGGGAAAAAGGGCGGACAGTTCTATACTCCCA AATCCATCGTCCGTTTGATGGTCGAGATGATTGAACCGTTCAAGGGCCGG GTTTACGACCCCTGCTGCGGCAGCGGTGGCATGTTCATCATGAGCGAACG TTTCGTGGAAAACCACCAAGGAAAAGTCGATGACATTTCCATCTTCGGAC AGGAAAGCAACCAAACGACATATCGCCTGTGCCGGATGAATCTGGCAATC CGAGGGATTGACGGCTCGCAAGTCAAATGGAACACTGAAGGTTCGTTTCT TAATGATGTCCACAAAGACTTGAAGTCGGATTTTATCCTAGCCAATCCGC CTTTTAATGACAGCGACTGGTCCGGCCAACTCCTCCAAAGTGATCCCCGC TGGAAATACGGTGTCCCTCAGGCTGCCAACGCCAACTTCGCTTGGCTGCA GCACATGATTTATCATCTGTCCCCCAAAGGGATCATGGCCTGCGTCCTGG CCAACGGTTCACTCTCCAGCCAAACCAATAATGAGGGAGAAATCCGTAAA TCCTTGGTTGAAAACGATTTGGTAGATTGCATCGTGGCTCTTCCGAAACA GCTTTTCTACAACACCGGGATTCCGGCTTGCCTTTGGTTCCTCTCCAGGA AACGTGCGGGTAATGGTGACAGGAAGAGAAGCAGCGAGATTCTTTTTATA GATGCCAGCGAAGAAGGCTTCATGGAGGACCGCACCCATCGCGCCTTCAG TGACGATGATATCGCAAAAATAGCGGGAACTTATCATGAATGGCGGAAGC AGGGCGGGAAATATGAAGACGTTAGAGGATTCTGCAAGTCTGCTGATATA GAAGAAATAACCAAGCATAATTTCGTTTTGATGCCTGGGCGCTATGTCGG AATCAAAGATGAGGAGGATGACGGAATACCGTTTGAGGACAAGATGGCGG GATATCTCAGTGAGCTTTCAATACAGATGGCGGAAGAAAAGAGACTGGAT GAAGAAATAAAAAAGCAGCTCGGTAATATCGGGCTTAAATTGAAATAA >SYN_01920 transposase ATGTCCACATCGGTTCTTTATCATGCTTTCAATCTGAAGGGTATTACTTA TAGAGCAACACGCTTCACGGGTGACGTCATCGAATATTTTGCAGATGTGA AAGAAGAATACATTCGCTGTCCAAAGTGCGGGCAGCGTAAATTTATCTTT AAAGGACAGAAAACACGGAGTTTTCATCTGGGACCTATGGGGCGTAAGAG GTGTTTCCTTGTACTTTCCCTTCATCGAATAAAATGCAACACTTGCGACA CCCTTTGGTGGCCCGATCTGCCTTTTATGGTGGGGAAGCATAGATTTGCC CGATCCTTTGCTCTGATTGTTCTGGATCTGCTTCGATTCGGCACGATTCG CTGGGTTGCCGATTACCTCGGCGTGGGTTGGGATATGATCAAAGAGATTC ATAAGTTGAAATTGCAGCGCCTCTATCGGAACATTCCTCTTCATAAAGTT CGGTATATCGGTATCGATGAATTCAGCATCCGGAAAGGCCATGAGTACAT GACCACGGTGATGGATCTCTCCGAAGGACGAATCCTTTACGCCACTGAGG GAAAGGGCAAGGAGGGGATTTTACCCTTCCTGAAAAAACTTGCACGCAAG GGGAAAAAACTGCGAGCGGTTGCAATGGACATGGGAATTTCCTTCTTCTC CGCCGTCCGGGAAGCCCTTCCCAATATCGATGTCGTCTTCGACCGTTACC ATATTATGGCTCTGATGAATCAAGGCATCGAAAACTTGCGCAGAAATCAT CAGAAAGAACTTGATGATATCGGGAAGCAAACCCTCAAGGGAAACCGCTT CCTCCTTTTGCGAAATTATGATTCCCTGAAGCCGGACCATAAGGAACGTC TCGATGCCCTGATGCAGGCCAATCAGCCTCTATTCGTCATGCATTCCATG AAAGAGCAACTCAGACTCTTCTGGGAAATACCGGAGTACGCCCAGGCTGT TACCTTCCTTGACACCTGGTGTAAGGACGCCATGCTGTCCGGAATCAAAG AACTCGTCAAAGTAGCCAAAACGCTCTCCGGATACAGGACTGCGATACTC AATTATTTCAAACATCACATTACAAATGCCGCCCTTGAGGGCACAAACAA CAAAATTAAAACTTTAAAAAGGCAGGCCTATGGATTCCGGGATATGGAAT ACTTCAAACTCCGCCTCTATCACCTGCATACTCAGAGGTACTCATTAACC GGATGA >SYN_02759 transcription-repair coupling factor TTGAGAAAAATCATATCCCTCCAACGAGGACCGGCCGCTCCGGTCCTCCG CATGCTTCGCGAAAGAATAGAAGGCGGCGTTGAGCGGTTGTCCGTGAACA GGCTTCACGGATCGGCCAATGCCTTTCTGATCGCGGCGCTGTCGGAACAA CTCGGCAGGCCCCTTGTCGTCCTGAGCCCGACGGAGAAAGAGGCAAGGGA AACTTTTCAGGATCTTTCCCTCTTTCTCGGTAGCGGCAAGGTTCTCCTCT ATCCCCCCTGGGATATCCAGACAACGGACATGTTCGCCCTCCAGCGGGAC GTCGAGCTGGTCAGGATGGAGGTTCTGGCCCGCCTGCTGACAGACGAACC GGCTGTAATCGTCGCCTCCCTCAAGGCCCTCATGCAGAAGGTTGTCCCGC GAAGCATCCTTGACGCCTACCTGGAGATTCTCGCTCCGGGCAGCGAGGTT CCCCGGGATGAACTCGTTGCCAAGCTGGTTGCCGGCGGTTATCAGCGGAT GACCCTGGTGGAGGACAAAGGGGAGTTCAGTCTGCGGGGGCATGTCCTGG ACATCTTTCCTCCTTTGGAGGATTCCCCGCTCCGCCTGGAGTTCGACGGC GACGATCTGGAATCCCTGCGCGCCTTCGACCCCGCATCCCAGCGTTCCAC CGGCAGGCGGGAGGCCTTTGTCCTGTCCCCCGCGCGGGAGGTCATCCTCT CTGAAGAACGCCGTCAGAGGGCGCTGCAGAACATCCGTTACCGGGCTGCC GCCCTGGAACTTCCCCGGAATGTGCGCGACCGGCTGTCCGAAACGATCGA TGCCGGTCTGTCCACCTCCTTCAATCCCCTCTTCCTGCCTCTTTTCTATG AGTCCCTGGCCCCGACTTCGCCGGATTCCCCAACGGAGAATGCAACGGCC ACACAAGCGGTCCGGCTGGGAACCTTTTTCGATTACCTTCCCGGAAACTG TTTTGTCGTGCTCGATGACGCCCTGGCCATCGAAAACGCAGGGGAAAGAA TCGAAAACGAGATTGACCGCTGTCTGCTGAAGGCGGAACGGGAAGGCAAG TTCTATCTGGAACGGGAAGCCTCCTACGTAACAAAGGATGCTTTTATAAA GGATCTGCGCCGGTTTCAACGGATGATACTGGAAGGCCTCGCTCTCGGCC GCCTGACGGAATATGCTTCCGGAAATGGGGAAAAAACACAAGCCTCCCAG TATGAATCCCTTCCCCTTCCCCTGGCAACGGACCCGGAACTGGGCGATCT TCACCGCGGACCCGGCGGCGAGGAAACCCTGCTTGCCCCTCTGGTCGAGC ACATCCGCCGCTGGCTGCAGGAAGGCATGCTGGTGGCGTTCCTCTGTTCC GGCAAGGAAGACCTGCAACGGATGCGTCATCTCCTGGGAAACTATGAGCT GCCCGTCCGGACGCCGGAAGGATCCCTGATCAGCGAAGCCTTTCTTCACT CGGGACCCGGCGTGCTGAGCCTGCGGGAAGGCCGGCTGAGCCGGAGTTTT CTCTTCCCCGATCTGAAACTGGCTGCGATCAGCGAGGAGGAGCTTTTCGG GAAAAAGATAACGGGAAGGCGTATCCGGTCCGCCCGGGAAGGATACTTCC TGCGCTCTTTCGGCGATCTGAAAGAGGGGGACTACGTCGTCCACAAGGAA CACGGAATCGGCCTCTATCAGGGGCTGCAGAAACTGAGTGTCGGCGGCAT CGAGAACGATTTCCTTCTCATCAATTATCAGAGCGGCGACAAGCTCTACC TTCCCATAGACCGCCTCGATCAGATTTCCCGCTACATCGGTCCCGAGGGC TATGTCCCCAAGGTCGACAAGCTGGGCGGGACGTCCTGGGACACCGTGCG GGAGCGGGTCAAAAAATCCATCCAGGAAGTCGCCGAGGAACTGGTCGCCA TTTACGCCGCCCGGGAGGTCATGGAACGGCGATCCTTCGCGCCGCCTGAT GCGGTTTATGAAGAATTCAGCGCCGCTTTTCCCTACGATGAAACGCCCGA TCAGGCCCGGGCCATCGAAGATATCCATGCCGACATGAACAGCGCAAAGC CCATGGACCGGCTGATATGCGGCGACGCGGGCTTCGGCAAGACAGAAGTG GCCATGCGGTCGGCCTTCCGCACGGCCATGGACGGCCGCCAGACCGCCGT TCTCGTTCCCACGACCATCCTGGCGGAACAGCACTGCCAGACCTTCAGCA GCCGCATGAAGGACTATCCCATCCGCATCGAGGCTCTGAACCGCTTCAAG AGCAAGGCGGAGCAGTCGTCGGTGCTGGAAGGACTCCGCAAGGGCCAGGT TGATATCGTGATCGGCACGCACCGGCTGCTTCAGAAAGATGTGACCTTTA AAAATCTGGGGCTGGTGATCGTTGACGAGGAACAGCGTTTCGGGGTCGCC CACAAGGAAAAGCTGAAGAAACTCAGGACCCTCGTCGATGTCCTCACCCT GACGGCCACGCCGATCCCCCGGACCCTTCATCTTTCCCTGGTTGGAATCC GCGATCTGTCCATCATCAATACCCCACCCGAGGACCGGCAGACCATCAAG ACCTATGTCCTGGAATTCAACGAGGAAACGATTCGGGAAGCCATCCGGCG GGAACTGGCCCGCAACGGTCAGGTTTTCTTTCTCCACGACCGGGTCAGGT CGATTTACACGATGGCCCGCCTGGTGGAAAAGCTGGTTCCGGAAGCGGAC ATCGGCGTCGTTCACGGGCAGATGAAGCCTCGGGAAATCGAGGACGTCAT GGGCCGATTTCTACGCAAGGAGTGCAATGTCCTGGTCTGCACGACCATCA TCGGTTCCGGGCTGGATATTCCCACGGCGAATACGATCCTCGTCAATCGG GCGGACCGCTTCGGCCTGGCCCAGCTCTATCAGATCCGGGGACGGGTGGG ACGATCCAGCGAGGAAGCTTACGCCTACCTCCTCGTTCCCAAAGGGGTTC TCCTTTCCCGGGACGCCCAGAAACGGCTGCAGGTCATCATGGATTTTTCG GAACCCGGTTCCGGATTCCGGATCGCCTCCAGCGATATGGAAATCCGGGG AGGCGGCAATCTGCTGGGGACCTCGCAGTCCGGCCATGTGTCCGCCGTTG GTTATGAACTGTACACGGAGCTGATGGAGCAGACGATTCGGGAAATCAAG GGAGAAACCATACCTGAGGAGGAAATCGTGCCGGAAATCAATCTGGGACT CCCCGCCTTTATCCCCGAAGAATACATGGCAGACGTGCACCGGCGGCTGG TCACGTACAAGCGGATCTCCATGGCCGATTCAAATGAGGAACTGGAAGAA ATCCGCGACGAGCTGGCAGACTGCTTCGGCTACCTGCCGCCGGAAGTGAC CAACCTCCTCGAGGTCATCCGGCTCCGCAACCGCCTGAAGGCGATCCGGG TAAAAAAGATGGGCTACGACACGAAGCAGATGTTTCTCTTCTTCAGCGCC GACACTCCCGTGGAGCCGGAACGGATTCTTTCTCTGGCCCGCAAAAAGCT CAAGGGACTGCGTCTGACACCGGACTGCAAAATTTACATCCCCATGCCCG GCCTCAAGGGAAGCGAGATTCTCGAAAAGGCAGGCGAGGTGCTGCGGCTG CTTTCCTGA >SYN_02048 DNA gyrase subunit A ATGGATGCATTGTCAATTCCAAGAAACATTCTTGTAAATATAGAAGATGA AATGAAAAAGTCCTACATGGACTATGCTATGAGCGTTATTATCGGCCGGG CTATTCCCGATGTGCGCGATGGCCTGAAGCCGGTTCACCGCCGTGTTCTT TTTGCCATGAGCGAGATGGGGAACCGCTGGAACAAGCCCTACAAGAAATC CGCCCGCATCGTCGGGGATATTATCGGTAAATACCATCCCCACGGGGATG CGGCTGCCTACGACACCATTGTCCGTCTAGCGCAGGATTTTTCCATGCGC TATCCCCTTATTGATGGTCAGGGCAATTTCGGTTCCATTGACGACGATCC TCCGGCGGCCATGAGGTACACGGAAGTTCGCATGGCCCGGATCACGGAGG AGATTCTGGCGGATCTGGAGAAGGATACCGTCGATTTCGTGCCGAATTAC GACGAGTCCCTGATGGAACCGTCCATTCTTCCTTCGCGTATTCCAACACT TCTGCTGAACGGCACGGCAGGTATTGCCGTCGGTGTGGCGACGAACATAC CACCTCACAATGTTACGGAAGTCCTGAGTGGAACCATTGCACTGATTCGG AATCCGGAAATGACTCTGGAAGAAATCATGCAGTTCATTCCCGGACCGGA TTTTCCAACGGCTGGTTTTATTAATGGCCGCGAGGGGATTATCTCCGCTT ATCGGACGGGACGCGGCATCATCCGTTTGCGGGCCAAAGTCGTCATCGAG AAAAATGAGCGGAACGACAGGGAGAGCATCGTAGTAACCGAAATTCCCTA CCAGGTCAACAAGGCGGCTCTGATCGAAAAGATCTCCGAGCTGGTCAAGG AAAAGAAAATTACCGGAATTTCCGATCTCCGCGATGAATCCGATCGCGAG GGAATCCGGATCGTCATCGATCTGAAGCGCGACGAAAACTCCAATGTAAT CCTGAATCAGTTGTACAAGCACACACAGATGGAGTCGACCTTCGGGATCA TTATGCTGGCCATCGAAAACGGTCAGCCTCATGTCTTCAATCTTATTGAA ATCCTGAAGAGTTTTATCGAATTTCGCAAAGTCGTCATCGTCCGGCGCAC GACTTTCGAGGTCAACAAGGCGCGGGAACGGGCCCATATCCTGGAAGGCC TCATCATTGCCCTCGACAACATCGATGAAGTGGTCGCCGTCATCAAGGCT TCCAAGAGCCCTCAGGAGGCGGCTTCCGCTTTGTGCAGCCGTTTTTCTCT GACAGACATTCAGGCCCGGGCGATTCTGGATATGAGACTGCAACGGCTGA CCGGGCTGGAACAGAGTAAGATAAAGGAAGAATTTGATGCACTGTTGAAG GAGATCGAACGGCTGCAGGGCATTCTGGACGATCCCCGGAAAGTGCTTGA AGTGATCATTTCCGAGATGGAGGAGATCATCGATCGCTACGGCGATGAAC GGCGCACGGAAATCGTGGCCAGTTCGGAAGACATCGACATAGAGGATATG ATCGCCGAGGAAGAAATGGTGGTTACCTACTCGCAGGGAGGGTACATCAA ACGCAATCCCTCCAGTCTTTACAGGACGCAGCGCCGGGGCGGACGCGGCA AGGTCGGGATGATGACCAAGGAAGAGGACGTGGTGGAACGTCTCTTTATT GCTTCCACCCATGACTATGTCCTGATTTTTACCAATGCCGGCCGGCTTTA CTGGCTGAAGGTGTACCAGATCCCGCAGGCGGGGAGGATGGCCAAAGGCA AGCCCATCGTCAATCTGATCAATATCGGACCGGATGAACGGGTGGCGGCG GTTCTTCCCGTCCGGTCTTTCGAAGAGGGACAGGCGGTGATTATGGCCAC CAGGGCGGGCATCGTCAAGAAGACCGATTTAACCGCTTATTCCAATCCCC GATCGGGAGGGATCATCGCCTTGAGTATCGACGAAGGCGATGAACTGGTC GATGTGAAACTGACGGGCGGCGATCAGGATGTTTTTCTCGCCACGCGTAA AGGGAAGGCGATCCGTTTCAAGGAGGATGACATCCGCACCATGGGCAGGA CGGCCCGGGGTGTACGCGGCATCTCCATGGATTCGGATGACGCCGTCATC GGCATGGATATTCCGAGAGAAGGCAATGCGATCGTTACCGTTTCCGAAAA AGGTTGCGGCAAGCGGACGGCGGTATCGGAATATCGTCTCCAGAAACGCG GTGGCAAGGGAATGATCAACCTGCGCATCGTGCCCAAGGGAGGACTGGTC GCCGACATCCTGCAGGTTACCGGTGAGGAAGACCTGCTTCTCATGAGCAA CAGCGGAAAGATCATCCGGATGAAGGTTGAGGATGTCCCTCTGATTCATC GGGTGACCCAGGGCGTCAAGCTGATCGAACTTGATGCTGAAGAGCAGTTG GTGGGAATGACCAGTGCGGAGCGGGAGGTCCGTGAAGAAGAGGATAATAT TCCGGAAGACGATCCGCAGACGGATACGTCCCTGTCCGGAGAGGATGAAT AA >SYN_03102 transposase TTGGCAAGAGGGGGAGGAAAGGATACGCCCGTGGAGAATAATGACCGCGA TTATTGGGAAAAGCAAGTTAAAGAAGAAGCAAAGAGCGTCCTGGAGCTGA TTATCCGAGAAGGAGCCTGCCGGATGTTGCAGGCGGCGATTGAGAACGAA GTAAGCGAGTACATTGACCGCTTTAAGAATGAAAAAGACTCAAGGAACAG GCGGTTAGTTGTGAGAAACGGTTCCTTGCCTGAAAGAGAGATCGTAACAG GTATCGGCCCCTTAAAGCTAAAACAGCCCAGGATTCATGACAAAAGAGAA GATCAGCTTTTTACGAGCAATATTCTGCCGAGATATATGCGCCGGATTCC CTCGGTTGATGCCTTAATCCCGGCACTGTATCTTAAAGGGATCTCCACGG GAGATTTCAGCAAGGTGCTGGAATCCATATTGGGGAAGAATGCATCGGGG CTTTCCGCCACCAATATCGTCCGGCTGAAGAGGCTCTGGGAGCAGGATTA TAAGGAGTGGGCCGGACGGGATCTTTCTCTCAAGAGATATGTGTATTTCT GGGCCGACGGCATTTACTTCAATGTTCGTTTGGAAGATGCCGAGAATAAG CGGCAATGCATCCTGATCATTATGGGGACATTGGAAAACGGGAAGAAAGA ACTCGTCTCCATCCTAGATGGCTATAGAGAAAGCAAACAGGCCTGGCAGG AGATGCTGGGAGACCTCAAGCATCGCGGGCTTAAAGAAGGTCCAAAATTG GCCATTGGTGATGGTGCCTTGGGATTCTGGGCGGCCCTGCGGGAGGAATT TCCAGAAACGGTTGAGCAGCGTTGCTGGGTTCATAAGACGGCCAATATTC TGGATAAGATGCCGAAAAGTGTCCAGCCGAGAGCCAAAGGACACATCCGG GACATGTACATGGCACCGACCAAGGAGGAAGCCATAAAGGCCTACAACCA CTTCATTTCTCAATACCGGGCAAAATATGAAAAGGCTTGCGACTGCTTAG AGAAGGATCAGGACCGTCTCTTTGCATTTTATGATTTTCCGGCCGAGCAT TGGCGTCACATCCGCTCAACCAACCCTGTTGAATCGACCTTTGCCACGGT CAGACTTCGCACAAATCGGACAAAGGGCTGTGGGTCAAGATTGGCAACAC TGACCATGGTTTTCAAGTTGGCAATGGAAGCGGAAAAAACCTGGCAGAGA ATCAGGGGCCATCAACTCATCGGCAAGGTCATTGAAGGCATCCGATTTGT GGATGGCATAATCATGAAAGAGGCTGCTTAA >SYN_00427 ATP-dependent DNA helicase ATGGAGAGTAGCAACACGGCTCATCAGCAAAAAACAAAATGGGGAAACAA ACGGTTTTCTTCGGACAGGGAGACAGGGACAAAACAGGGAAGAGAAAGGC GCAGACGTACCGCTCGTTCGGCGCGTATGCATCCGGCGATAGAACCTGTT TTGAAAGGCGTTTTCAAACGGATCGGCAAGCCGCCGGAAAGCGGTTTTGT TCCCGATGAATTTCAGCTTCAAGCCCTGGAAGCGATCAAAAAAAACGATT GCCTCGTTATGGCGCCCACAGGGTCAGGAAAGACCTGGATCGCGGAACAG GCGATTCTTTCTGTATTCAGAGCCGGAGGGCGGTGCTGGTACGCTTCGCC CTTGAAGGCGCTGAGCAATGCCAAATGGGTGGAATTCAGTCAGAACTTCG GCGCTCAGCATGTGGGAATCCTTACGGGAGATACGAAGGAGAATCCGGAT GCGCCCATCATCGTCGGGACGACGGAGATACTGAGGAATCAGCTTTACGA TGTGATGAAGGAAGGGGAAAACCTGCGCTGTGACCTGGTGATCCTGGATG AAGCCCATTATCTGGGAGATCGGGACCGCGGGGTGGTCTGGGAAGAAATC ATGATCTATCTTCCTGTAAGGGTGAACCTGTTACTTCTTTCCGCGACAAT CGGAAACGGAGACGAAATCGCTGCCTGGTTGTCTTCCCATCGCAACAAGA ACTGCACCGTGATCCGGGAAGAGAAGAGGCCCGTACCCCTTTTCCCTCTT TTTCTTCATCCCTCTGGGCGGATTATGCCACTCATGGAAAATCGGAAACT GTACGGAAAGGTCGCGGAATACATCGTGGCAAGAAAGACGCGTCGGTCGG GCAGTTTTGCATCCCTGCACTTTGGGGAGATCATCAACCTGATGGAGGGA TACGCACTGCTGCCTGCCATCTTTTTTCTGAAATCGCGCGCGGAGTGCGA TGCCGCGCTGAAGTCCTGTGCAGGACTTGCTGAAAGGTGTGCGGATGAGC GTTTTTATTATGATCTTGAAGAACTTCTCAGTCGTTTTCCTTTTCTCCGA CAGCACCGGCAGCTATCATTCCTCATTGATTATCGAGTTGCCTCGCACCA TGGTGGGCAACTGCCGGCCTGGAAGTTTTTCGTGGAAAACATGATGAAAA AGGGCCACCTGAGGGCCATTTTTGCAACCTCCACTGTAGCGGCGGGCGTA AATTATCCCGCCCGGACGATTGTTCTTTTTAATTCGGATCTCTTCAACGG TCATGAATTCTGTCCCATGAGCGGAACGGAGTTCCACCAGATGACCGGCA GGGCGGGGCGGAGGGGGTTGGATAACATCGGCTTCATGCTGGCCGTTCCG GGGCGTTTTATGGATCTGAGTCACATCAGGAAAAGTCTTTTTCAGCCTCC CGATGAAATTCTCAGTCAAATTCGGAGTGATTTTTCCATGGTGCTGAATC TTCTGCTGTCTCAGACCCCTGAAACGATCCGCGATATTTTCGAGAAATCA CTGGCTTCCTATCAACATCAGAATCTCAATCTGTGGAAGGAATTCTTGAG ACATCTTGAATTCCTGAAAGCCGAAGGATTCGTGGATGATCAGGACCGGT TGACTGAAAACGGCATCTGGGCTTCAAAATTGCGACTTGACCAGCCCCTG TTGATTGCTGAAGGGCTGCGGGCCGGGGGATTTCCTTCAGCGGATGAAAA ACTGCTGGCCGCTCTGATCGCGCCCTTCGTGAATGATCATGACCAGGAAA TCCTGATGGATAAGCGTTTTATATCCCGAAAGCTCCGCCGGGCCTTCACA CGTCTTGTTACGATGCTGGGACCTTTAACGGAACGCATGAAGGCCGCCGG TTTTCCTGTCCAACCCCTTTATTTCTGGACAAGCGCGGTGGTTTATGAGT GGGCTTCAGGGGAAGATTGGGATGAAATCATCAAGAGAACCGGCATAGCT GATGGTGAACTATCCATGCTGGTTCTTCGAGTCGCGGATAATCTGCGACA GATTGTTTCACTCCGGGATACACACCCTGAAATGGCCCACCTGGCCGCAC GGGCGCGGGATGCCATTCTGCGCGAACCCGTTGTTTTTGAATGGGAGGGG TGA >SYN_03092 transposase ATGGAGAATAATGACTGCGATTATTTGGAAAAGCAAGTTAAAGAAGAGGC AAACAGTGCCTTGGAGCTGATTATTCGAGAAGGAGCCTGCCGGATGTTGC AGGCGGCGATCGGGAATGAAGTCAGCGAGTACATTGACCGCTTTAAGAAT GAAAAAGACTCAAGGAACAGGCGGTTAGTTGTGAGAAACGGTTCCTTGCC TGAAAGAGAGATCGTAACAGGTATCGGCCCCTTAAAGCTAAAACAGCCCA GGATTCATGACAAAAGAGAAGATCAGCTTTTTACGAGCAATATTCTGCCG AGATATATGCGCCGGATTCCCTCGGTTGATGCCTTAATCCCGGCACTGTA TCTTAAAGGGATCTCCACGGGAGATTTCAGCAAGGTGCTGGAATCCATAT TGGGGAAGAATGCATCGGGGCTTTCCGCCACCAATATCGTCCGGCTGAAG AGGCTCTGGGAGCAGGATTATAAGGAGTGGGCCGGACGGGATCTTTCTCT CAAGAGATATGTGTATTTCTGGGCCGACGGCATTTACTTCAATGTTCGTT TGGAAGATGCCGAGAATAAGCGGCAATGCATCCTGATCATTATGGGGACA TTGGAAAACGGGAAGAAAGAACTCGTCTCCATCCTAGATGGCTATAGAGA AAGCAAACAGGCCTGGCAGGAGATGCTGGGAGACCTCAAGCATCGCGGGC TTAAAGAAGGTCCAAAATTGGCCATTGGTGATGGTGCCTTGGGATTCTGG GCGGCCCTGCGGGAGGAATTTCCAGAAACGGTTGAGCAGCGTTGCTGGGT TCATAAGACGGCCAATATTCTGGATAAGATGCCGAAAAGTGTCCAGCCGA GAGCCAAAGGACACATCCGGGACATGTACATGGCACCGACCAAGGAGGAA GCCATAAAGGCCTACAACCACTTCATTTCTCAATACCGGGCAAAATATGA AAAGGCTTGCGACTGCTTAGAGAAGGATCAGGACCGTCTCTTTGCATTTT ATGATTTTCCGGCCGAGCATTGGCGTCACATCCGCTCAACCAACCCTGTT GAATCGACCTTTGCCACGGTCAGACTTCGCACAAATCGGACAAAGGGCTG TGGGTCAAGATTGGCAACACTGACCATGGTTTTCAAGTTGGCAATGGAAG CGGAAAAAACCTGGCAGAGAATCAGGGGCCATCAACTCATCGGCAAGGTC ATTGAAGGCATCCGATTTGTGGATGGCATAATCATGAAAGAGGCTGCTTA A >SYN_00017 superfamily II DNA/RNA helicase, SNF2 family ATGATTCGACTGGAAGACCTTCAACCGCATGCCGCAATACGCGGCCTTCT CCCGGACTGCCTCGTTACGGTCATAAGCGTTCAGTGGTTTGGCTCCGAGG CTCTCGAACTTACCTACAAGACCCCCACCGGCAGGTTGGCAAATGAACTG CTTTATCGTCATGACGAACCGCGTCTTGATCTTGTGGAACATGGCCGCCC GTGGAGCTTCGACGGCGACGGCACCATGTTCCGCCTGGTGTCGGAAGCGC ATCGTATCCGCCTCGCTCACCTTTTTGATCCGGTACTTGCCGTCCACACT TCAATTGTTGATCCTCTACCCCACCAGATTACGGCGGTCTATGAAGCCAT GCTGCCGAGGCAACCGCTCCGTTTCCTGCTCGCCGACGATCCCGGCGCAG GCAAAACCATTATGGCGGGCTTGTTTATTAAAGAGCTCATTGCCAGGGGT GATTTACAGCGTTGCCTTATCGTCTGCCCCGGCAACCTTGCCGAACAATG GCAGGATGAACTGTACCGTCGTTTTCATCTCCCCTTTGAGATTCTTACCA ATGATAAACTTGAATCCGCGCACACCGGCAACTGGTTCCTGGAGACGAAC CTTGTCATTGCCCGTCTTGACAAGCTTTCCCGAAATGAAGACGTACAGCG AAAGCTCCAGACACCTGATTGCCGCTGGGATCTTGTGGTCTGTGACGAGG CACACAAGATGTCGGCCACAGTTTTCGGCGGAGAGACGAAGTACACAAAA CGTTACAGGCTGGGACAGCTTCTTTCGACACTGGCGCGACATTTCCTGCT GATGACTGCAACGCCTCACAACGGAAAAGAGACGGATTTTCAGCTTTTTA TGGCGCTTCTCGATGGCGACCGTTTCGAGGGACGTTTCCGCGATGGCGTG CATGTGACCGATATTTCAGATTTGATGCGTCGAATGGTAAAAGAGAGTCT GCTCAAGTTCGATGGTACACCACTGTTTCCTGAACGCATTGCTTACACCA TTCCCTATAAGCTCTCTGATCTCGAAGCCCAACTCTACAAGGCGGTTACT GATTACGTACGAGAGGAATTCAATCGTGCGGAGGCACTGGCTAATGATAA GCGTGCGGGAACCGTCGGCTTTGCGTTGACCATACTGCAACGCAGACTCG CTTCCTCACCTGAGGCGATATATCAATCCCTGCGGCGGCGGCGCGAACGG CTGGAAAGCAAACTTCGGGAAATGGAACTGCTTCAGCGAGGAGGCCAAAC CGTTTCAATCCTGACAAACAGCATCCCAATACTTGACACAGAGGACGTTG AGGATCTTGACGAGGCACCGGATAACGAGGTCCAGGTCGCAGAGGAAGAG ATCCTCGATCAGGCGACCGCAGCGCGATCTATCGCTGAATTGAAGGCAGA GATTGAGACCTTGAAAGACCTGGAAGCGCTTGCACTCAGAGTCCGACACA ACGGACTGGATACCAAGTGGCGTGAACTTTCTTCCCTTCTGGGGGAGATA TTCACTGCCGCAGCTATCACCGGTAACGTGGCCGACCCGACTCTTCCATA TGGAGCGGGAGCGATTCCTAAACCCACCCCTTCACCGCACCAGAAACTCG TTATCTTTACCGAGCACCGCGATACTTTAAACTATCTTGCAACCCGCATC ACAACCCTGCTTGGCCGCAAGGAAGCCGTGATGACGATTCATGGGGGCAT GGGACGTGAGGACCGCATGAAGGCACAGGAGGCATTCAAGCATGATCCGG AGGTGCAGGTTCTGCTGGCTACGGATGCCGCAGGTGAAGGTATCAACCTC CAGCGTGCACACCTGATGGTGAATTACGACTTGCCTTGGAACCCAAATCG TATAGAGCAACGTTTTGGTCGCATTCATCGTATCGGCCAGACCGAGGTAT GCCATCTCTGGAATCTGGTAGCCGATGAAACCCGCGAAGGCGACGTTTAT CGTAAATTGTTGGATAAACTGGAACAAGCCCGTCAAGCCTTGGGTGGCCA GGTATTCGATGTGCTCGGAAAACTTCAGTTCGAAGGTAAACTGTTGCGCG ATCTTCTTATTGAAGCTATTCGCTACGGTGATCAACCTGAGGTACGCGCC CGCCTTACGACGGTTGTAGAACAAGCACTTGACCGGAACCATTTTCAGGA TCTGCTTGAGGACCATGCCTTGGCCCGCGATGCCATGGATGCAAGACGAG TCCAACGTATTCGAGAAGACATGGAACGGGCGGAGGCCCGCCGCCTGCAA CCACACTATATTGAGTCCTTTTTCCTGGAATCTTTCCGCAATCTTGGCGG ATCAGTCCGACAACGTGAGCCACGCCGCTATGAAGTAACCCATGTACCGG CTCCGGTGCGCAATCGCGACCGCCTGATCGGGATCGGCGAACCGGTGCTG CCGCGTTATGAACGCATTTCTTTCGAGAAGGCACTGGTTAATTCGCCGGG GCAGCCACTCGCTGCATTTGTTTGTCCGGGTCATCCTCTGCTCGATGCGG TTATCGACTTAACCCTTGAACGTCACCGTGATCTCTTGAAACGCGGCGCT GTTTTAGTGGATGACCGTGACATGGGCATCCAGCCGCGTGTGGTATTCTA TCTCGAGCATGCGATTCAGGATGCAAGCCTGACACGATCAGTAGAGCGCC GAATTATTTCCAAGCGAATGATTTACGTGGAACTCGATGCCAACGGCAAA GCTCACCATGTGCATTACGCACCCTATCTGGATTATCGACCGCTTATTAA GGACGAACCAGGTGTGGGAACAATTCTTGACCGCCCTGAGTGCGTCTGGA TTACCCGAGAACTGGAAAATAGGGCACAGGCACATGCAGTTGCGCATGTC GTACCTGAGCACCTGGCAGAAGTCCGCGATCACCGGCTTAAACTGATTGC CAAGACCGAGGCAGCGGTAAAAGAGAGACTTACCAAGGAGATCACTTACT GGGATCATCGCGCAGAGCAGCTCAAACTCCAGGAGCAGGCCGGCAAGATT GGCGCCCGTCTCAATTCCGGAGAGGCCCGGAAGCGAGCCGATCTGCTTCA GGGACGGCTGCAAAAACGGCTTGAAGATCTGAAGCTGGAAGCTCAAATCC CACCGCTCCCGCCCGTGGTGCTGGGTGGCATGCTGGTGGTGCCCCAAGGC CTGCTTATGGCCATGAAAGGTCAAACAATGGTTTCTTTAACAGCTTCTGC CGATACACAGGCCAGTGCAGCACGGGCACGGGCTATTGTCATGGAGATTG AACGCAGCCTCGGCTTCGAACCAACCGATCGAGAGGTCGAGAAACTCGGT TACGATGTTGAGAGCAGAATACCGGGCACCGGCAAGCTGCGTTTTATCGA GGTGAAGGGTCGTATATCCGGCTCACCCACGATCACCGTAACTCGCAATG AGATCCTTTATTCGCTCAATAAGCCGGAAGATTTTATCCTTGCCATCGTG GAATTCCTCGATAGTGATTCACATCGAGTCCATTATTTACGGCAACCTTT CCAGCGTGAACCGGACTTCGGAGTCACAAGCGTCAACTACGACTTTCAGG AACTTCTGGATCGTGCAGTGGCTCCTTCATGA >SYN_02551 exodeoxyribonuclease V alpha chain ATGACGGACTTATTGAAAAGAATCCTGCGGAAAGGAGAAATGCCGATGTT GCCTGATGAGGCCCTCCTTTTTTACTTCTCCGACCTGGATCGTCATTTCG GACGACTGATGGAAAAGATTTCCGGGGGGGACAACCAGGATGTCTTTCTG GCTGCCGCACTGACCAGCCGAAGCAACCGGGGTGGGCATGTCTGCCTCGA TCTTGCCGAATATGCAGGCAGGCCACTCATGGCGGATATCCGGGAGGAAC CGGAAGACGAGATACTCGAGGAGATGCCCGAAAGCATCCTGCTGTCCTGT CCACCCCTTTCCATCTGGAGGGAAACCCTGCTGGCATGCTCCGTTGTCGG AACGCCAGGTGAATACAAGCCCCTGATCCTGGATGATAAGTCGCGGCTTT ATCTTTACCGTTACTGGTCTTATGAAGACACTCTGGTCCGTTTTATCAAA TCATGCGGAAATCCAGCTGAATCGGAGGATTTCCGGAAAATATCAAATGT ATCTCTCGATCTTTCCGGTCTTGGACATAACTTGCAGACTTTTTTCCCGG AGGATGCAGGGCAGTTCAGGTTTGAGGATGACAAGTCGAAAATTTTTCCG GACTGGCAGAAGATCGCCGCTCTCGCCGTCCTGCGAAACCGTCTGGTCGT CATTTCTGGAAGCCCTGGAACGGGAAAGACAACGACGGCGGCACGGGCTC TTGCTCTGCTGCAGATATTGAGCCGCGGGCCGAAGCTGCGTATTGCCCTG GCCGCACCTACCGGAAAGGCGGCTGTCCGCCTGGACGAAGCCATGAATTC GGCTTATGCCCGAGTCGGACTCAATGATCAACAGGGTAAGGCGATGACGG TGCACCGGTTGCTGGGGACTGTAGCCGGCTCTCCCTATTTTCGTCACGGG CCGGGAAATCCTCTGCCATACGATGTGATTGTCGTGGATGAGGCCTCCAT GGTCGATCTCCCCCTGATGGCCAAACTGGTTCAGGCTCTCTCCCCGGCTT CCCGGCTGATACTACTGGGGGATCGGGATCAATTGGCCTCTGTTGAGGCT GGCGCCGTGCTCGGTGATCTCTGCGGCCCCGACGATGCAGGAAATTTCTT TTCACAGGCATTTCGGCAGGAAATCAGAAGGATGACCGGCGAGTCGTGTT TGCCGCCGGTTCCTTTCCGGCATTTGCCGCCGGTTCCTTTCCGGCATTTG CCGCCCGTCAGTGACAGTATGGTTCAGTTGCAGAAAAACTATCGTTTCGA CGAAAACAGCGGCATCGGTCAGCTCAGCAGGGCGGTCAACCGGGGGGATA AAGACCGAGTCTTCAGCATTTTGAATTCGTCACGCTGTTCCGACATAGCC TGGGAGAATCTGCCCGACCCGCTGGGACTGCCCCGGTTAATCGAGGAAAA CTTAATTCATTACTTCAGGAAATACATGCAAATGGTTATAAATAATGACA ATCCTGAAGTTATATTTGATTATTTTGAGCGATTCAGGATTCTCTGCGCC CTTCGTCGAGGACCATTCGGCGTGGTGTACGTCAATGCCCTGCTGGAAAG TATGCTGCGGTCGGAGCGCCTGATCGCCGGGAGCGGAAGGTGGTATCCGG GACGGCCCATAATGATTAACCGCAACGACTATTCTCTGGGGCTCTTCAAT GGGGACGTGGGCTTGACCCTTCCTGAACACGGCGGCAGCGGACTTTCCGT TTTCTTCAGAGACTCCGAAGGGAATTTCCGCCGTTTCGCTCCATTTCGGC TTCCGGAACATGAAACCGTATACGCCATGACCGTGCACAAGAGTCAGGGA TCAGAGTTTGACGAGGTTCTGATGATTCTGTCCGATCGGGATTCGCCGTT GTTGACTCGGGAACTGATTTACACAGGCGTATCGCGGGCGAAGAAAGGTC TTCTTCTGTGGGGAAGAGAAGATATCATACGCCAGGCCATTTCGCGCCGC ATTAAACGGACATCCGGACTTCGTGACGCGTTGTGGGAAAGCGCGGATGT CTCAGACTCCTGA >SYN_02584 superfamily II DNA helicase ATGATTCAAACCCCACTTGAAAGCCTGAAAAAAATCTTCGGGTACGACGC GTTCCGACTGCACCAGCAGGAGATTGTCGACGGGCTTATCCGTGGCGAGG ACGCCTTTGTCCTGATGCCCACAGGCGGCGGCAAATCCCTTTGTTATCAG CTTCCGGCCCTCCATCGTCCGGGGGTGGGGATCGTGGTTTCTCCGCTGAT TTCCCTGATGAAGGATCAGGTGGATTCCCTTAAGGCCTATGGTGTGAAAG CGGCATTCTACAATTCCTCTCTAAGCGGCACGGAAGCACGCAAAGTCCTG GCCCGACTCCACGGCGGGAAGTTAGATCTCATCTATATCGCCCCGGAGCG CTTGATGAGCCGGGAGTTTCTCGAACGGCTCAACGACATCCCCATCGCTC TGTTCGCTATTGACGAAGCGCATTGCATTTCCCAGTGGGGGCACGACTTC CGTCCGGAATACCGGCAGTTGGGCCGGCTTCGGGGCCTTTTCCCTGAAAT TCCCCTGATCGCCCTGACCGCCACGGCCGAGGCGCACACCCGCCGGGATA TTCTGGAGCGCCTGGGCCTCCGGCAGGCCAGATCCTACATCTCTGGATTC GACCGGCCCAATATCCGCTATACCGTTCTTGAAAAAAGAAAGCCTTTCGC GCAGTTGACGACCTTTTTACAACCGCGGTATAAGGGGACCGGCATCGTTT ACTGCCTGAGCCGCCAGCGGGTGGAAAAGGTGGCCGGAGCACTTACCGAA GCCGGCTTCCAGGCGGCTCCCTACCACGCGGGGCTCCCGGCGGGAGCGCG GAAGCAGGTGCAGGAGGATTTTCTGCGCGATGATATCCGGATCATCGTGG CCACAGTGGCCTTCGGCATGGGAATTGACAAGTCCAACATCCGCTGGGTG GTCCATTACGACATACCGAAAAATATTGAAAGCTATTACCAGGAAACGGG GCGAGCCGGCCGTGACGGCCTTCCGGCTGAGGCTCTGCTGCTCTTCGGCT ATGGCGATATTTCCCTGGCCCGCGGTCTGATCGAGAACTCAAAAAATCCC GAACGCAGACGGATCGAACTTCACAAACTCAATGCCATGGTGGGATATGC CGAAGCCCTGAGCTGCCGCCGCCGTATCCTGCTGGGTTATTTCGGGGAAT CCCTCGCGGAGGATTGCGGCAACTGCGATATCTGCCTTAACCCACCGCGA CTGGTCGATGTGACGGAAGACTCCCGCAAGGCCCTGTCCTGCGTCTATCG GGTGGGACAGCGCTTCGGCATGGGTCACGTCATCGATGTGCTGCGCGGAT CGCAAAAGGAGCGCGTGCTTGAACTTCACCATGACCGATTGTCAACCTAT GGGATCGGCCGGAACAGGAGCCAGGAATACTGGGGCAGCCTGCTCCATCA TCTGGTTCACAATGGCTTCCTGGAACAGGATGTGGGCAATTATTCGGTGC TCAAACTCACGGACGCCGCCCGACCGCTGCTGCGCGGGGAACAGACCTTG TCCATGGCGGAACCACGCGTGAAAACGGAGACAGCGTCTCTTACACATAG GCGCAAGGGCGGGCAAAAAGCGAGAGATGAATATCCCGACGACTCCGCAG CCCTGTTCGAAAGGCTGCGCACTTTGCGCAAGAAACTGGCCGACATGGCC GGCGTTCCGCCCTATATCATTTTCAGCGACGCCTCCCTGGCGCAGATGGC AGCCTTCCTGCCCGCCGATCCCGAGGCTTTTCAGCAAATCCACGGCGTCG GCGCGCACAAGACGGCACGCTACGGGCCGGATTTCCTGGAGGAGATCCGG CGATTTATCGACAGCTCTGTGGAAAAAAAGAAGAACAGGACACAGGGTTT GCCGGGCTGA >SYN_00221 predicted N6-adenine-specific DNA methylase ATGAATTCAAGACGCATCTCCCTCTGGAAGAAATTCAGCAGGATCCTGGT GACCTGTCCAAAGGGAATCGCTCCGTACCTGAAAAACGAAATCGAATCCC TGGACTTTCCGGTCGATTATGAGCGGGAGGCTGCCATCCTGACCGAGGGA ACCCTGGAGGATTCCCTGCGTCTGAATCTTCATCTGCGTACGGGACACCG CGTTCTCTATCTTCTGGCCGAAGGTGCGGTGAATGATCCCAACGAACTCT ATCGCTGGATTGCCGGCCTGTCCTGGGAAAGCATTCTGCATGAGGACGGG TATCTCTGCGTGACTTCCACCGTGGATCACCCCTCGATTCGGGACACGCG TTTTGCCAACCAGAAATGCAAGGACGCCATTGTCGACCGTCTTCAGCGAA TCTGCGGGCGGCGGCCGGATTCCGGTCCGGCGCGGGATCGGGCGGTGGTG CATCTCTTCTGGAAGGGGACGAGGGCGCAGCTTTATCTGGATACGTCCGG AGAGCCCCTCTCCCGCCGGGGATACAGGAAGATCCCCGTTCAGGCCCCCA TGCAGGAAACCCTTGCGGCGGCTATTGTCCTCGCCACGGGCTGGAACGGA AAAGGCCCCTTTGTCAATCCCATGTGCGGCAGTGGAACGATTGCCATCGA AGCCGCCCTGATCGCCCTGAACCGCGCGCCGGGCCTGTTGCGAAGCAATT TCGGCTTTCGGCATATCAAAGGATTTCCTGCAGCTCTGTGGAAGGAACTG CGAAGAAAAGCACAGGAAAAGGCTGCCCGCCGTTTCCCGGGACAGATCAT CGCCACGGATATGGACCGGCGGGCCATCGCCGCCGCGGAGCAGAACGCCG TCAACGCCGGCGTTCAGAACTGGATCCGTCTGGCCGTTTGCGATTATACG GAAACGGATATTCCCCCGGAAGCGGGAATCGTGATCATGAATCCTCCCTA CGGAGAGCGTCTGGGAAATGTGCAGAAGCTGGAAAAAACGTACGCCGGAA TGGGAAATTTCCTCAAAAACGCCTGTCCGGGCTACCGGGGATTCATCTTT ACAGGGAATATCGAGCTGGCCAGGAAAGTCGGTCTGAAAACCCGGCGCCG CCTTGTCTTCTTCAACAGCGGCATTGAATGCCGTCTTCTGGAATACGAAC TTTACGAGGGAAGCTACAGGGACAGGATGCCGCCGAAAGAGGAAGAACTG CGCCATCCCGAGGGGAACTGA >SYN_00393 predicted endonuclease containing a URI domain ATGAGCAAAAACTACGTCTACATCCTGGAATGTTCCGATAAAACCCTGTA CACAGGATGGACCGTTAACATAGAAAAACGGCTTCAGGAACATAACAGCG GCAAATACGGGGCAAAGTATACCAAATCACGGCGACCCGTTAAATTGGTC CATCTTGAAATGGTCGATAGTTTGTCGGGGGTCTTGAAGCGAGAGGCACA GATCAAAAAGATGTCTCGTGCGGAGAAGTTGCAGTTAATAAAACAAAACC CTGAAAGGATGTAA >SYN_02976 reverse transcriptase TTGGCCACTCGGCAAGATTTTGGGCCAACTGAAAATCAGGAAGAGCCGGT GAAATCAGCAAAGTCATCTGACATATCCAAACACTTGGTATGGGAAGCCA ACCGGGACTTGAAAACTAGAGGAGATGCAGCAGGCATAGATAAAGAATCG ATTGATGTGTTCGTGGTTAATCTGAAGGATAATCTGTATCGGTTATGGAA TCGAAGGTCATCGGGAAGTTACTTCCCGCCATCGGTCAGGGCGGTACCGA TACCTAAGAAAACAGGAGGAACGTGGATACTGGGTGTACCGACTGTTTCG GATCGGATTGCTCAGTCCGTGGTGAAGAGGGTGCTGGAAGCGATACTTGA TCAAATATTTGATCAAGATCAATTTGGCTACCGGGCTGGCAAGTCTGCTC ATGATGCTATTGCCAAAACGCGTCAACGCTGCTGGTTTTATGACTGGGTT GTAGAGTTCGACATTAACCCGGAAAAATCCCGGATGGTGTACTGTAAGGA TAGGAATAGCTCCGAGGAGCATGACGTGATCAACTTCGACTTTTTGGGCT TCATGTTACGCCCGCAACGGTGCTTATCCGAAAGTCATTGTATCCATGCG AATTTTCTTCCGGCAATCAGCCGATCATCCAGGAAAGAAATCAATCGGGA AATTTGCAGGCGGCATATCCAGTTAAAGAACGACAAAACACTCGATGATT TGTCGAACATGTTCAAGGCGAAGATCCGCGGTTGGATCGCTTATTACGGT CGATTCTATCCAAGCGAAATCGGCTGGATTTGGAAGAACATCAACGGCTA TCTGATTCGTTGTGTACGTCGTAAATATAAACGTTTTGCCTCCCACAAAA AGCAGGCGCGTTGTTATTTGCGACAACTTGCCCAGGGAAATCAAAGGCTT TTCATTCACTGGGAGCTTGGATGCTGCCATATGGCTTGA >SYN_01314 nucleotidyltransferase/DNA polymerase involved in DNA repair TTGATTCATCCCGAGTTGAAAGGGAAAGCCGTGATAACAGGCAGAGAAAG GGGCATTGTGGCCTGCGCCAGTTATTCCGCCAAGAAAATGGGAATTTCCC GAGGCTTTCCTCTGAATCAGGCAAAAATCATCTGTCCTGATCTCATTATC CTGCCTTCAGATTACGAGACCTACAGCCTCTTTTCCAGACGGATGTTCAA CATCATGAGGCGTTTTACACCGGATGTGGAAGAGTATTCCATTGACGAAG CATTCTGCGATATTACTGGATTGCGCATAGGCCTCTGTTTATTGCTTCCT GAAAGAGAGTGA >SYN_02459 exodeoxyribonuclease VII large subunit TTGTCACAAAGAATAATATCTGATAGGTGCACTGCGATGAAGGGAAGTAT AACGGAAATATTAACCGTTTCGGAACTGAATGAAAAAATCCGGGATCTTC TGGAAGCCCGGTTTGATCTGCTCTGGGTGGAGGGGGAAGTGTCCAATTTG CGCCGCCCCTCCTCGGGACATATCTATTTTACGCTCAAGGATGAAAAAAG TCAGATTCGGGCAGTCATATTCCGGTTTTTACCCGGATCGAGGCCCTTCC GGAACAATCGTCTCCCTTTTTTCGACCTTGAGGAAGGCATGCAGATCACC TGTCGAGCCAGACTGGCCGTCTACGCGCCGAGAGGAGAGTACCAGCTGAT TCTTGACTCGCTGGAACCCCGGGGAACCGGCGCTCTTCAGAAGGCGTATG AACAGTTGAAAGCCCGCCTGCAGGCCGAGGGACTTTTTGATGCCTCCCGG AAAAAACCGATTCCCTACCTTCCCCGGCGAATCGGCGTGATCACCTCCCC CACGGGAGCCGTCATCCGCGACATCCTGAACATCACGGCAAGACGCTTTC CCTCCGTTTCTCTCGTGATCGCTCCCGTCCGCGTTCAGGGACCGGAAGCA CCCAGGGAGATCGTTCAAGCCATTCAGGATCTGCATTCCCTTGAAGAAGT CGATGTCCTCATTCTGGCTCGCGGGGGAGGATCGCTCGAAGATCTATCCG CTTTCAATGATGAAAGCGTCGCCCGTGCCATCGCCTCGTCATCTCTTCCG GTTATCTCCGCAGTCGGCCATGAGACGGACTTCACTATCGCCGACTTTGC AGCGGATGTCCGTGCGCCTACGCCATCCACTGCCGCGGAACTGGCCGTGC CCAACAGGAACGATCTGACCGCCTGGCTTGCAGGAACCCGGTCAAGACTT TACACACTCTTAATCCGGAGCATGACACAAAGGCGGGAGCAGCTGGTCCG ATGCCGGGAACGGTTAAAGGACCCACAGCGCGTCATCACAGGTTTGCGTC TCGCCCTGGACGACCACAGGGAACGCGGCCGGCTTATCATTCAACAGCGG CTGTCAGCGGAAAAGCAGAATATTCTGCTTCAGCGCCTGCGTCTTCAGCA GGCAGGCCCCCTCCGCAGAATAAGGGACACCCGTTTGAACGTTGAGGATA TGGAAAAGCGGCTCATTTCCTCCTGCCGGCTTAATCTGGACCGGGCGAGA AAAAGCTGGACCGTTTCGGCGACACGCGTGGACTCCCTGAGTCCCCTTGC CGTTCTGGAGCGGGGGTACAGCATTGCCAGGACATTGCCGGGAGGTAGAA TTATAAGGGATGTCGCCATGCTGAAAATCGGCGATTCCCTGGAGCTTCGG GTGCGAAAGGGCCGCCTTGAGGCAGAGGTCACGAGGATTATTCCGGAGTA A >SYN_03173 transposase ATGCCCCCGAAGGAGGAGCAACATATGAGCAAGAGACCGAGAAGAAATCA TGCACCAGCTTTCAAGGCAAAGGTGGCGTTAGAAGCCCTGAGAGGCGACC AGACAATCGTTGAACTCTCTCAGCGATACCAGGTTCATCCGAACCAGATT ACAGAGTGGAAGAAACAGCTCCTTGAACACGCCGCGGACATTTTCGGTAA GGATAAGAAGACCGATCCATCATCTGTCATAAAAGAACTTCATGCCAAGA TTGGTCAGCTATCGATGGAAAACGATTTTTTATCCGGCGCGCTCGTTCGA ATAGGAGACACGAGCGCAAAGCGATGA >SYN_01848 adenine-specific DNA methylase containing a zn-ribbon ATGTTGGTGAGTCGCACAATGTGCAGGAGCGTGTGCTCAATCACGACCGC GCCGGTCGGTGGCGACAGAACTGCCGAGGCACGATCTACTATGCGGCGCA TTACACGCCGAACCTCCAGCAGACCGGACGAATCCAGATTGAAAGCAGGC TCCGTCAGCTTGAAAAACCTCTTTGTGGAGAACGCTGAATTGAACGACCG CAGACTCATAGAAGACTATCTGCCCGTGAACTCGGTCGGGGAAGCTGCTT CGAGTGAGCCCCGTACTAAGGGGCACATTTCGACCTTACATGTATGGCGT GCGCGGCGGCCCTTGGTGGCATGCCGGGCTGCGGTGTACGGGGCGTTGGT GCCGGCATCGTTATTTATCCCGGAGAATGGACCGGACAACAAGAAACAGA GTCTGGGCCGGGCTAACGTAGCCAAATTTGTTGATCGGCTCTGCAAGTAT CCGGGCAACCAAATCGTCATCAAAGACGCGCAGAGGCACATCCTCGAAGC CCATGCCGAGCGCTTGACGAGAGAGACGGGCAAGACCGTTACGGTCGAGG AGATCGAGGCAGGAAAAGCACCACGCCCTATGGTGCTGGATATGTTCGCG GGCGGCGGGGCCATTCCAATTGAAGCTGCCCGACTGGGATGTGAGTCACA TGCTCTCGACCTCAATCCGGTCGCTTATCTCATCGAATTGTGCACCGTCA CCTTCCCGCAGCAATTCGGAGCGGAGCTGGCTGACGATATCGAGAAGTGG GGAAAAACCATTCTGAAGCGGACGCAAGAGGCGGTGTCCGACGTCCTTGC ACGCATACCGGTTGCACGGAAGCAACCGAGGGCAATCCAAAGAACCCTTG GGGATGGAAATGAAACGCCAGCCGACGAGTATTCTGTCGTCGCTTACTAC TGGACGCGGACCATCCCATGTCCGAATCCACAGTGCAAAGGAACCGTACC GCTCTATCGACAGACCTGGTTGAGAAATAAATCCTCCGGTTACGTGGCCT TGAAGCCGGTACCGGACATGGGCAGACGCATCATGCGTTTTCAGGTGGTC GAAGCTCGGTCTGCATCGGCGCTCGGCTTTGATCCGTCCACCGGGAGCGC TGGATCATCCACGGCATGCCCCTTCTGTCAAACCGCTCTCGATGGTCCCT ATGTCCGCAGGTATGGCGACGAGAAAGGCTTCGGCCAGCAGCTCATGTGC GTGATTGCGCTCAATCCCGACGGACCTGGCAAGTTGTATCTTGTCGATGA ATCGCTTGCGGCAATAGAGGCCGAGCATCAAGCCATGTCCGAACAGCGGG CAACGGAGATCGAGCGAGAGCTTGGACCAAGCAGTCTGGATGAAGAGATT CCGCCGACCGGCAACGCCGGGCTTGCCACAGGGAACAGCTATCTATACGG CATCCGGACGTTCCGCCAGGCGTTCACGCCGCGACAACGGTACGTTCTCT TGACGTTGGCGCGCGAGGTGCACCATGTCTACCAAGAGATGCTTAAACAG GGAGTGGAGACGGAACGGGCAAAGGCCATCGCGACATACCTGGGGTTATG GGTCAGTCGTCTTACTGACAAGTGCAATGGATTAGCCAGATGGAATAATG GTCGGGAAACCATTGAGAGTCTCACATCGATGAAGCGTTTCGCGATGATG TGGGATTTTCCTGAAGTGAATCTCTTCGGTGGCGCTACCGGAGATGCATG GGGTAGCCTCGAATACATTACTGCTGCTGTCAGACGTGAAGGGCAATTCC GTAACCCTGTTAAAGTCGTGCGCGGTTCCGCCGCCGAACTGCCATATGAC AACGGCATCTTCGATGCGGTGATTACCGATCCCCCTTACTACGACAACGA AAGCTACTCGGAGCTTTCCGATGTCTGTTACGTCTGGCTGCGGCCTACCA TCGGCTTTCTCTACCCTGAGCATTTCGCTGGCCAACTTACGCCGAAGAAA AAGGAATGCGTCGCCGCAGCTTATCGCCAGGGGGGAAAGCAGCAGGCGCG GAACTATTATGAGGACACCCTGTTTCAGTCCTTGCAAGAAGCCCATCGTG TCACGAAACCTGGCGGCATCCTGATCGTCGTCTATGCCCATAAGACCACC CTTGGGTGGGCGACTCTTGTGGATGCGCTTCGGCGTGCCGGATATGAAGT TGCCGAAGCCTGGCCTCTTACTACCGAAACAAAGGCCCGAGTGGCTCACC AAGGAGACGCGGCCCTTGCCTCAAGCATTTTTCTCGTAGCCCGGCGACGT GAAGCACCTGAGACAGGCTCGTATGAGGATCAAGTCCGTCAAGACCTGGA GAAGATCGTCCGCGAGCGCGTTGATTCGCTCTGGAAAATGGGCATCACCG GCGCGGACCTGGTCATCGCCGCAGTGGGTGCAGGGCTCCGCGCCTTCACC AAATTTGCCCGCGTGGAGTACGCCAACGGCGAGGAGGTCCCGGCCGAGAA ATTCCTGGCGGAGGTGGAAGGTGTCGTGCTGGAGACGCTTCTCGAAAAGA TCTTCGGCGTGAGCGGCAGCGGGGTCGCCGCCGTTGACGGCCCGAGCCGG TTTTACGTGCTCTGGCGCTACGCTTACAAAGCGGCCGAGATGGACGCGGG CGAGGCCATCGTTTTCACCTACGGCCAGAATGTTGAGCTGGACGGCCAGA ACGGACTTTCGTCCGGAAGCCGCGCGCTGGTCGAGAAGAAGAAAGGTAAG TACAGGCTGCGGGATTTCGCCGAACGGGGTGATGACGAAAAGCTGGGGGT GCCAAAGGATGACGGCAAAGCCGCCCCGCTGATCGACATCCTGCACCGCA TCCTCTGGCTGGTGGAAAACCAGCCCAGGAATCTGAATGACTTCCTCGAC GAGGCGCGGCCGGACCGAGAGCGGTTGCGTCTGGTAGCCCAGACCCTGGC AGGAACTGCGCTGGCCGGCAGGAAGGACGACGGACCGGAACACACACTGG CGACCACGCCGGCGGAAGGGGCTGCACTTAAGAAACTCGTCGCCAACTGG CGGGCGCTCATCGACCAACGGCTGGCCGCCAGGGAAGGAACCCTATTTGA ACTCATTCGAAATTCGGAGGCCAAAAAGTGA >SYN_02042 DNA modification methylase ATGGAAGTAACTACAGATATATATCTTGGGGATAGCAGGGAACAACTAAA ACTGCTTCCAGATGATTCTGTCGACCTGATAGTGACGTCTCCGCCTTACG CAGATCAGCGTAAAAATACATATGGCGGCATCCATCCTGATAAATACGTT AATTGGTTCTTGCCTATTTCAGTACAGCTTTTACGTGTTCTCAAGCCGAC GGGAACCTTTATTTTAAACATCAAAGAAAAAGTAGTCGAGGGCGAGCGCA GCACTTACGTAATGGAGCTCATATTAGAAATGCGCAAACAGGGATGGCTA TGGACGGAAGAGTTTATTTGGCATAAGAAAAATTGCTACCCAGGAAAATG GCCTAATCGTTTTCGCGATGCCTGGGAGAGACTTCTTCAGTTTAATAAAA ATCGAAAATTTCATATGTATCAGGAAGAAGTAATGGTTCAAATGGGCGAA TGGGCAAACTCAAGACTGAAAAACCTTTCTGAGACAGACAAAATCCGTGA CAACTCAAAAGTAGGAAGCGGATTTGGTAAAAATATTTCAAACTGGCTTG AAAGAGATAAGGCATATCCCACAAATGTTTTGCACTTGGCTACCGAATGT AACAACAAAAACCATAGCGCGGCTTTTCCTGAAGGGTTGCCTGAATGGTT TATTAAACTTTTTACAAAAGAAAAAGATACGGTTCTTGATCCCTTTATGG GTTCAGGGACAACACTGATTGTCGCTAACAGAATGAGGCGAAATTCAATA GGAATCGACATCGTTCCAGAGTATTGTGAAATGGTAAAAAAGCAATTGAA AGCGGTAGAGTTATATCTATTGGAACCAAAGGCGGAATATGAAAAAACTA GGGTTGAAAAGCGTATCACAATACGTTGA >SYN_00640 replicative DNA helicase ATGAAAGTCAACGACATTGACGTTTCTCTCCACCGAATTCCGCCTCAGAA CCGGGAAGCTGAGCAGTCCATCCTGGGTGGAATCCTGCTGGATAATGAGT CGTTGCACAGTGTCCTGGAAATTCTGCAGATCCCCGATTTTTACAGCGAG GCTCATCGGCGGATTTTTTCCGCGATCCTTGATCTCTACGATCGAAATGA ACCCTGCGACCTCATAACTTTAAGCAATATCCTCAATGATAAAAGTCAGC TGGACAACGTGGGAGGCATGGCTTATCTTGCCTCCCTCGTGGACAATGTT CCTTCCTCGGCAAACATTACTTACTACGCGAAGATCGTTAAGGAAAAATC CGTCCTTCGGTCGCTGATCGGCACCGCGACGGAAATCCTGAGCAGGAGCT ACGATCCGGTCAATGACGTCGAGGAGGTTCTTGATCAGGCCGAACAGGCC ATTTTTGAAATTTCCCAGCACAAAATCAAACCGGCCTTCTCGCCCATGCG GGAAATCATCAAGGACAGCTTCAAGACCATAGAACAGCTCTATGAACGCA AGTCCATGATTACAGGAGTTCCCACTGGTTTTGAAAGGATAGACGATCTG ACTTCAGGTTTGCAGAATTCGGATCTGATTATTATTGCCGGACGGCCCAG CATGGGAAAGACCGCCTTTGCCCTCAACATCGCCTCCTTTGTCGCTCTGG AGGCAGCGATTCCGGTCGCCATCTTTTCCCTGGAAATGTCCAAGGAACAG CTTGCTCTCCGTATGCTGGCATCCGAAGCCAAGGTGGATTCGCAGCGCCT GCGGAAGGGTTTTCTCGGTGAAACGGACTGGCCGAAGCTGACGAATGCCG CCGGGAGACTAGCCGATGCGGCGATTTTCATCGACGATACGCCTGCGATC ACCGTTCTGGAAATGAAGGCCAAGGCAAGGCGACTCAAGGCGGAATCGGG ACTAGGTCTGGTCCTGCTGGATTACCTTCAACTGATGCGCAGCGGGAATA CAAAAGAATCCCGCGAACAGGAAATTTCGGAAATCAGCCGTTCTTTGAAA GCGCTGGCTAAGGAACTGAGCATTCCGGTTGTGGCCCTTTCCCAGCTCAA CCGCAAGGTTGAGGACCGCTCCGACCGCCGTCCACAGATGGCGGACCTCC GCGAATCGGGAGCCATTGAACAGGACGCGGACGTCATCGCGTTTATTTAT CGTGACGAGGTTTATAACAAGTCGGATGACAATCCGGAAAAGGGTATTGC GGAAATCATCATCGGCAAGCAGCGAAACGGCCCGACAGGCACCGTCAAAC TGGCGTTCATGGAAAAATATACGAGTTTCGAAAATCTTGCCCGGCCTGAG GACATGGCCTCTTAA >SYN_00727 hypothetical cytosolic protein GTGATCCGAAGAAAACAGACTTTCAGCCGGCACGGCATGTCGGCAGTCTG TTGCATAGACCTTGGCGGTAATGATTCTGTTATGGTGCTTATGCATCGTG TTTCAGTATCCGGGAACAGCAGTTCAATCAGACGGGCTGATCTTTATAAT TCTCAGGGGAGGGAACAGGAATTGACTGACGAAGAAATAAAGGAATCAAT AAAAAGAGCGACGGAAACGTGCATAGAATCCTCTTCCGCCATGGCGATGC TTCTCCGTGATGCTTTTTGCGTTCTGGCCGAGCAGCCGGGTGTTGACCGC CAGGCGGTGCTTGACGGACTTCGGTCTTTAACGCCAGTCGATGACGAAAG CGTTTTGTTTCAGGCAACTTATAAGTTTCATAAGGCCAGGCTTCTTGAGA AAATAGAGGTGCTGTATAAGGAGAAATCCTGA >SYN_03218 transposase ATGTCCACATCGGTTCTTTATCATGCTTTCAATCTGAAGGGTATTACTTA TAGAGCAACACGCTTCACGGGTGACGTCATCGAATATTTTGCAGATGTGA AAGAAGAATACATTCGCTGTCCAAAGTGCGGGCAGCGTAAATTTACCTTT AAAGGACAGAAAACACGGAGTTTTCATCTGGGACCTATGGGGCGTAAGAG GTGTTTCCTTGTACTTTCCCTTCATCGAATAAAATGCAACACTTGCGACA CCCTTTGGTGGCCCGATCTGCCTTTTATGGTGGGGAAGCATAGATTTGCC CGATCCTTTGCTCTGATTGTTCTGGATCTGCTTCGATTCGGCACGATTCG CTGGGTTGCCGATTACCTCGGCGTGGGTTGGGATATGATCAAAGAGATTC ATAAGTTGAAATTGCAGCGCCTCTATCGGAACATTCCTCTTCATAAAGTT CGGTATATCGGTATCGATGAATTCAGCATCCGGAAAGGCCATGAGTACAT GACCACGGTGATGGATCTCTCCGAAGGACGAATCCTTTACGCCACTGAGG GAAAGGGCAAGGAGGGGATTTTACCCTTCCTGAAAAAACTTGCACGCAAG GGGAAAAAACTGCGAGCGGTTGCAATGGACATGGGAATTTCCTTCTTCTC CGCCGTCCGGGAAGCCCTTCCCAATATCGATGTCGTCTTCGACCGTTACC ATATTATGGCTCTGATGAATCAAGGCATCGAAAACTTGCGCAGAAATCAT CAGAAAGAACTTGATGATACCGGGAAGCAAACCCTCAAGGGAAACCGCTT CCTCCTTTTGCGAAATTATGATTCCCTGAAGCCGGACCATAAGGAACGTC TCGATGCCCTGATGCAGGCCAATCAGCCTCTATTCGTCATGCATTCCATG AAAGAGCAACTCAGACTCTTCTGGGAAATACCGGAGTACGCCCAGGCTGT TACCTTCCTTGACACCTGGTGTAAGGACGCCATGCTGTCCGGAATCAAAG AACTCGTCAAAGTAGCCAAAACGCTCTCCGGATACAGGACTGCGATACTC AATTATTTCAAACATCACATTACAAATGCCGCCCTTGAGGGCACAAACAA CAAGATTAAAACTTTAAAAAGGCAGGCCTATGGATTCCGGGATATGGAAT ACTTCAAACTCCGCCTCTATCACCTGCATACTCAGAGGTACTCATTAACC GGATGA >SYN_01348 nuclease subunit of the excinuclease complex ATGAACCGGCAACAACTGGAAGGTCGTATAGACATAGCGCCACGGACGCC CGGTGTTTATCTCATGAAGGATGCCGCCGGCAAGATCCTCTATGTGGGGA AGGCAAAGAATCTCAAAAGCCGGACTCGCGCTTACTTCAGCGGGACGGAT TCCCGCGCCATGATCCCCTTTCTTGTTTCCCGAATCCACGATATCGAGTT TATCCTGACGGAGACGGAAAAGGAAGCCCTGATTCTTGAGAACAATCTGA TCAAAGAACACCATCCTCGTTACAATATCTGTTTTCGGGATGACAAGGCC TATTTCAACATCCGTGCGGATCTCAACGAACCCTTCCCCAGGTTTCAACT GGTTCGACGCCCCCGCAAAGACGGGGCAAAATACTTCGGACCCTATCCTT CCAGTGCCTCGGCCCGGGAAACCCTCCAGTTTCTTCAATCCATCTTTCCC CTTCGAACATGCCGCGATGCGGAATTGAAATCACGCACGAGGCCCTGTCT TGAATATCAGATCAAGCGGTGTCTTGCTCCCTGTGTTGGTCGAATAAACT CAGAAGACTATCTGCAAATGGTCCGGGATGGAGTTTCCTTTCTTGAAGGA CGGGGAAATAATCTGCTCCGTGAACTGCGGGAGCGGATGAAGATGGCGGC TGAACAGATGAATTATGAGGAGGCAGCCTTTTTGAGAGATCGGATCAGGG CGATAGAAGAAACCCTTGAAAGGCAGCGTATGGTTTCGATGACGTTCAAA GATCAGGATATCTTCGGCTTATACCGGGAAGGACACCTGATTCAGGTCTG TATTCTTCTGATTCGTCAGGGAAAAATTCTGGGAAGCCGGCTCCTTCCCC TTTTGAAATTTGAAGGCGAGACGGCGGACATGCTGTCTTCGCTGCTCATG CAATATTATGATCAATCTGTAGACATTCCTCAGGAAATTCTTATTCCGGC ATCGATCGAGGATCGGCAGGTCATACGGGAATGGCTGGAGGAAAAGCGTG GAAAGGGGCTTTCCATTCTGATTCCCCGAAAAGGGCGAGGCCTGGAACTT CTCCATATTGCGGAACAGAATGCGGAACATGGCTTCAAAATGGAGCGCAA GTCGCTCGATGATTCTGATGAGTCCCTGCGGCTGCTCATGGAAAGACTTC ATCTCAGACGCTTCCCCAGGAAAATAGAGGCGTTTGACATCTCGAACATC GGTGGACGGCTGGCTGTCGCCGCCATGGTGACCTTTCAAGATGGCAGACC CTTGAAGTCCGGTTATCGGCGTTTTCGAATCCGGACGGTCCATGGAGCAG ACGATTATGCCATGATGTATGAGGCTTTGAAGAGGAGGTATCAGGGTAAG GAAAACCTGCCTGACCTCATTGTCGTGGATGGAGGAAAAGGTCAGCTGGC TGTGGCGTTTTCCCTGTTGAAGGATCTGTCGATTTCGGGACAGGATGTGA TCGGTCTGGCCAAGGAAAGGGTAAACGGAGTTACCGTGCAGGGGGGAGTC AACAAAAGTGAAGACCGCGTTTACCTCCCCCATAAAAAGGAAGCCCTGTA CCTGAGCCGCTGGCCTGCGGTGCTTTTCCTGCTTCAACGCATTCGGGATG AGGCGCACCGTTTTGCCGTTTCCTATCATCGAAGTCTGAAGACCCGAAGC GATTTCATGTCTCTTCTGGACGACATACCGGGTGTGGGAGAAGTTCGTAA AAAGGCCCTTCTCCTGAGTTTCGGAGATCTTGCCCGGATACGAGAGGCAA CTGTCGAGGAGTTGACTCAGGTGGAGGGAATCGGAAAGGATCTGGGAGAA AAAATTCATGCGTTCCTTCACAACGATCAACGATCGGTTGAACCATCAAC AGGATAG >SYN_03172 transposase ATGATCAACAGGAAAGATGCTCTCCCAATAACACGGCAATGTCGTCTGCT TGATTTGAGCAGATCCGGATTTTACTACACTCCAAGGCCTGTGAGTGCAA AAGACCTTGAGCTGATGCGCCAAATCGACGAGATTCATCTGGCATTTCCT TTTTATGGGAGTCGTAAAATTCGCGACGAACTTTGGGCAAGAAAGCATAA CGTGGGTCTTGACAAGGTTCGCCGGCTGATGCGTCGGATGGGCATCGAGG CTCTGTATGTCAAGCCCAGACTTTCGCTGTCTTACCCTGAGCATGTAAAA TATCCCTATCTACTCCGAAGGCTTGAGATCAACCGGGCCAACCAGGTGTG GATAACTGATATTACGTATATTCCCATGGCAAAGGGATTCTGTTATCTTG TGGCAATTATGGACTGA >SYN_03856 hypothetical cytosolic protein TTGACCACTGAAAAAATCACCCTCTCCCAGCTCGAATCTTTTCTCTTCAA GGCCGCCGACATCCTGCGGGGCAAGATGGATGCCTCGGAGTTCAAGGAAT TCATCTTCGGAATGCTCTTCCTCAAGCGCCTCTCCGATGAATTCGACCGC AAGTGA >SYN_02909 DNA helicase ATGGGAGGACTCGTCGTGAATGATGTCATTAAGAACAAGATTCGCCAGTT GTACCAGTTCCTGAAGGAAGCCAATCAGCTTCGCTTCCGTCCTGTCCGTG TTCTTTCGGATCAGCCGAAGGTCGTCCGGCTGGCAGACATGCCCAATCAT CCAGCCATGCAACTGTTTCGACCGGTGCGTACGGAGAACATCCAGGAGGT CCCGGATTTGCTGCTGCGCGTGAAGCGTCCTCCGTTGACCAAGTGCCCGC CGCCGCCGCCGTCGATTGCCTCGTGGCTGGTACCGAACTGGGACGATCCG GCCAGGACGGTTTCCGTCGCAGAAAGCCAGAACACCACCGACAATGAAAG CAAGACCCTCACCATCCGGTTCGATGAAGACCCGCAGCGCGTGGCTGACT TGAAGGCTTGGTCGGAACAGCGCAAGGCTTGGATCGAGCCCGAACTATCC GCCCGCAAGGCGATGTCCTTCTTCGAGGTGTTCTACGACATCTACTCTGC CATCGAGAAGGATGGCGAAGGACTGGAATTGCTTGTCGCAGATGGGCATT TCCTGTGGAAGGCCACTTCGGGTATTGACGGTCCGGTTACAGTGCATCAT CCGGTTCTGCTCAAACGCGTGGAGCTTCGATTTGATCCCAACGTCCCCGA ATTTACGATCCACGAAACCGACCGGGAGCCAGAGCTTTACGGCAGCCTGT TCGTCGATCTGGAAGACGTCGCTCCTGCTGCAATCCGTAATCGGAAAAGA GAACTTGAAACCTCGGGCTATCACCCCCTGGGATGGGACGACACCGGAGC CTTCCTGCGCGCCTTCATCCAGACGGTTTCGCCGCTCAAAGGGGAGTTTC TCGACGATCTGCCCCACGATGGTGCTACTGCTACGCCACGGCTGTATCGG GACATGGTCCTGATCCTCAGAAAGCGTGTCGCTGGCATCGCCAACGCCGT CGACGCCATCATCGACGATATTGAACAGCAGGACGTCTTCCCGCCGTCGC TGGCACAGATTACCGGTACGATGGCCGAATGGGAGAGTGCTGGTCTAGGC GAAAGCTCCGGTGCCTGTTCCGCCGGCAGTTTCAGTGGCGGTACGTCAGA GAAAAGCCTTAGTGACGACGATATCCTTCTCGCGAAGGAAGCCAATGACG AGCAAATGCAAATCATCCGTCGGCTCGAACATTGCGGAGCGGTGATCGTC CAAGGGCCGCCCGGTACCGGCAAAACCCACACCATCGGCAATCTGATCGG TCACCTGTTGGCGCAGGGAAAATCCATCCTGGTCACCGCGCAGTCCGCCA AGGCGCTGCGAGTGGTACGCGAAAAGGTGCCAGAAATGTTGCAACCCTTA GCCGTCTCGGTCCTCGGCAGTGACCAGGACGCCCGGCGGCAATTGGAATC CTCCATCAGCTCCATCACCGAACGCCTGACCGGCAATACCGTTGACAGCC TTCTCCAGAAGGCAAAGAACTTCGAGGCCGAGCGCAGGAATTTGTTGTTC CAGATGAAGCAACTGAGCCACAGGCTGCGTGAAGCACTTGAGAACGAGTA TCGCGAGATCTTTGTAGGCGACCGGCATTTCACACCTTCCGATGCTGCCC GGTTCGTCTCGATAAACCGTGAAGCACACGACTGGATACCGTCGCCGATT AAACTTGGGACCGAACTGAATCTGACCGAACAGGAACTGGTGCGGTTATA TGCCCTCGGCACCTCCTATACTGCGGAAGAAGAACAAGATGCTCGCTACC CCTTGCCGGAGATGGCGATGCTGCCCTCGGAGCGACAATTCCAGATCATG GTGTCAGAGTATCAGCACCTCACGACGATCGACCTGTCGTCTGACGCCAA TCACTGGCAACCGTCCGATTGCGGCAGCGAATTGCTGGAGAAACTGGCCA CTGAACTGGCAGCGGAATTCTCCGATGACCTGCGTCATCAAGCATGGCGT CCTTATGCCATCGTCGCCGGCATTCACGGCGGTACTGAACGAGAGGTATG GGAACGACTTATTGCCGATATCGAGGAAGCGGCGGAAGCCAACTTGAAGC ACGCGCTGGTGCTTCACCACAGCCCGCGACTATCAGAGGCTCTGCCGGTG CATAGGCAGCACCAAATTTCCATCGAAATCTGCGGGCACATCGATACCGG TGGGAAACTTGGTTTCCTGCAACTGGCGACCCACTCCGAGTGGCGTCATT TCATAAAGACAGCGTCAGTCACGGCTGGACAACCGAGTCACCGCGACCAT TTCGAGGCTCTCGGACACCTTGCCGAACTCGAGTACCTGCGAGCCAGACT GGAACTAGCGTGGAATTCGATGATCGGGCAACACATCCAGCAGCCGTTCA ACAGCCTTGGATCGGCCCCGGAGCTTGCCTGTCGTGCACTCGTTCCTGAA ATCCAGCGGTGCCTGGACTGGCACGCTTCGGTATGGGAACCGCTAACAGC CAAGCTGAAGGCTGTGGGACTTAAACTGGATGATCTGATCACATCGCTTA CCCGGGAAGCAACGCAGATTTCGGAATATTTGGTTATAGAACGGCTGGCG TCTTCAATACTACCCAAGCTGCTGAGCACTGAAGCAGGGCGTCGTAAACT GTGCGAATGCGAGGCTAACTTCAGTCAGCTTGCTAACCTTGCCACGCAAG TTGATCCGACATCGCCTGATCGCGGCTGCATTGGCCGCATTATCGCCGCC GTCAGGTCGCGTAATCCTGATTCTTACTCTTCGGCACTGGAGTACACGCG GCGATTGCACGCAGTGAAGCCGCTGGTTGCCGAAAGAGATGCATTGGCTG GAAAACTGGGCCTTATCGCACCGGGTTGGGCGGAGCAAATTACCCACCGA GTGCCACCGCATCATGATGGAAAAGTCCCGGGGAATTTTGCTATGGCGTG GACATGGCGACAGTTGCACTACACCCTTGCCGAGCGCGATAAACTCGATA CCCATGAACTACAACGACAGATTGACCGGACGCGAGAAACGTTGCGGCAG GTGACGCAATGGCTGATCGATGCCAAGGCCTGGGGTAAACAGCTGGAACG ACTGCAAGGAAATCCTTCAATTCGGCAGGCATTGGTTGGTTGGCTAGATG CGACCAAGCGCCTTATTTATACGCGGCAGTTGGACAAGCGACAGACACTC CTTTCCGAATCGCGAAAACTGATGAAGAAATGTGCGGATGCGGTACCGGT CTGGATTATGCCGATCTCAATCTTGGCCGAGAGCTTTGATCCACGCGCGA CGCGCTTCGATGTGGTGATCATCGACGAGGCCAGCCAAGCCGACCTTAAT GCATTGATTCCACTTTATCTAGGCAAGCAGGTCATAGTCGTCGGAGACCA TGAGCAGGTCACGCCCCTGGGTGTAGGCAAAAAACAGACAATCTTGGAAA ACCTGCGCAAGTCAATGCTGCAGGATATTCCGAATTCATTCCTCTTCGAC AATCTCTTCTCAATCTATGACATCGGGAGGGAATCATTCGGGGATGCGAT CCGACTAGTCGAGCATTTCCGGAGTGTGCCTGAGATCATTGCCTTCAGCA ATCTGCTTTCTTACGAGGGGAAGATTCGACCGCTGCGCGAATCGAACTCG ACGGACATTAAACCGGCATGTGTCGGATGTCGGGTAGACGGGGTACGCGA AGGTGACATCAACAAGGCTGAGGCGCGGCGCATCATAGATACCATCAAGG CGATGATTCGTCACCCGCGTTATACTGGCAAGACCATCGGCATCATCTCC ATGCTGGGCGGTGCGCAGGCATTACTGATCCAGTCCATGCTTCATAAGGA AATATCCGGTTTCGAAATCGCTAAGCGCCGCATCCAGGCGGGCATCTCCG GGGAGTTCCAGGGAGACGAGCGTGACATCATGTTCTTATCGATGGTCGAT AGCTCGTCAGACGAGGGCCAACTTCGTACCACTGGCGAAGGTGCCTTCGA ATTGATCAAGAAGCGTTACAACGTCGCGGCCAGCCGTGCCCGGGACCAGA TGTGGGTCATGCATTCGTTTGATCCTGATCTTCACCTCAAAAGCAGCGAC ATTCGACTCAAGTTGCTTCAACACGTCCGCGATCCACTGGCATCCCTCCG GATCTTCAACCAGGAGGTCGGCAAGACTGAATCACCCTTCGAACGCGATG TTCTTAAGCGCCTTACAAACGCTGGGTACCGCGTCAAGTCGCAATGGCAG GTAGGTTATTACCGGATCGACATGGTGGTCGAGGGTGCGGGCAAGCGTCT AGCTATCGAGTGCGATGGCGACCGCTATCATCCGATGGAAAAGCTGTCTG ATGATATGGAGCGTCAAGCCATCCTTGAACGCTTGGGCTGGCAGTTCATA AGGATTCGCGGTAGTGCGTTCTATCGTAACCCGGATCTTGCTATGCGGCC GGTTTTTGATCGACTCGAAGAGTTGGAAATTTTCCCGGAGGCGGATGTCG GCGAGACAACGGCCTCTGACATGACCCTGATCCACGAATTGGACGAGCTG ATTAGGGCTGGATTTGGGCCGGAATCGGATGAACCGGAAAACGAGGTGAT GGAAGATGTTAGCACGGATGAAAGGGAAAACGACCTCTTTGCCGGTTCCT CGCCGATAAGGCCAACCGACGTATATCCTAGCCAGACCGAGGCACTTCTC GAAAAGCTTGGTGGAACGGCATTGCTTGAGACCTTCCTGCGTGATTTAGC CAATTCGAAAGGTTTCAAACGGCTGGGTGTCAATGTTCGCAAGAAACTGG AGGCGGAACTGGCGATGCTTGTCCGAGAGGGGAAGATTGCAATTGATGGC GGAATCATAAGGCTGCTGTGA >SYN_03595 transposase GTGCATTTTCATGAGTGTGCGCCCATGGCTCAGCTGGATAGAGCGTCGGA CTACGAATCCGGATGTCGCAGGTTCGAATCCTGCTGGGCGCACCAATATA TTCAAGGACTTAGCCGAATAAGGTTAAGTCCTTTTTTCTATTTGCTACCC TGTTGCTGCCCACAAAGAATACTTTTGGTGACCACCACGGAGTTGCCCTC CTGCCGATTTCTTGAAGAAATGGTCTCTGTCCTGATCGTCGTCCCCTGCG GCACAGTAAGAATTCACATTGCACAGGGCGTTGGTCACTGTGCCATCCGG GAAGCACATGACGTGCCGTTTACCAGTGCATCCAGGATGATTTCCAAGCT CCATACCGCCCGGGCAACCAACAGCTTCGAGATGCAAATTGCCAAGCTCA TCGACTGCGATCTGTTGATCATCAATGACTTCGGTCTCAAACCCTTCACC GGCATCCAGGATGAAGACTTCCACGAGGTGATCTCAGAATGCTACGAGCG TAGGAGCACAATTGTGACCTCGAATCTTGACGTTCCGGAATGGCCCGATG CCTTTCCCAACCGCATCCTTGGCTCCGCCACGATCGACCGCCTCCGGCAA GGCGCTTACAAAATTGTCCTTGCCGGAATGAACTACTGGACTGCGGCAGA TAAGCCGGGATGA >SYN_00245 transposase TTGGAAAAGCAAGTTAAAGAAGAATCAAAGAGCGCCTTGGAACTGATTAT TCGAGAAGGAGCCTGCCGGATGTTGCAGGCGGCAATCGAGAACGAGATTG CCGAGTATATTGATTTCTTCAAGAATGAAAAGGACTCCCGGAACAGGCGG TTAGTCGTGAGAAACGGTTCCTTGCCAGCAAGAGAGATTGTAACAGGGAT TGGAGCCTTGAGGTTAAAACAGCCCCGGATTCATGACAACAGAGAAGGAC AACATTTTACGAGCAGTATTCTTCCAAGGTACATGCGCCGGATACCTTCG ATTGATGCCTTAATTCCGGCACTTTATCTTAAGGGAATCTCCACGGGAGA CTTCAGCAAAGTACTGGAATCCATATTGGGAAAGAATGCATCGGGACTTT CCGCGACCAATATCGTCCGGCTGAAGAGGCTCTGGGAGCAGGATTATAAA GACTGGGCCAGACGAGATCTTTCCTCCAAACGATATGTTTATTTCTGGGC AGACGGCATTTACTTCAATGTTCGTTTGGAAGATGCCGAGAATAAGCGGC AATGCATCCTGATCATTATGGGAACATTGAAAAACGGGAAGAAAGAACTC GTCTCCATTCTCGATGGCTATCGGGAAAGCAAACAAGCCTGGCAGGAGAT GCTGGGCGATCTCAAGCACAGGGGGCTCAAAGAGGGTCCCAAGTTGGCGG TTGGCGACGACGGCCTGGGATTCTGGGCAGCCCTGCGGGAGGAATTTCCG GAAACAATAGAGCAACGTTGCTGGGTTCATAAGACGGCCAATATTCTGGA TAAGATGCCCAAGAGTATTCAGCCGAGAGCCAAGGTGCATATCCGGGACA TGTACATGGCGCCAACAAAGGAGGAAGCCCTCAAGGCCTGTCATCATTTT CTGTCACAGTATCAGGCAAAATATGAAAGGGCTTGTAACTGTTTAGCGAA GGATATGGACAGTCTTTTTGCGTTTTATGACTTTCCTGCAGAGCACTGGC GTCACATCCGGTCTACCAATCCTATTGAATCCACTTTTGCCACGGTCAGA CTCCGCACAAATCGGACAAAAGGCTGTGGATCACGGTTAGCAACGCTGAC CATGGTTTTCAAGCTGGCAATGGAGACAGAAAAAAACCTGGCAGAGAATC AAAGGACATCAACTTATCGTAAAGGTCATTGA >SYN_03042 transposase ATGTCCACATCGGTTCTTTATCATGCTTTCAATCTGAAGGGTATTACTTA TAGAGCAACACGCTTCACGGGTGACGTCATCGAATATTTTGCAGATGTGA AAGAAGAATACATTCGCTGTCCAAAGTGCGGGCAGCGTAAATTTACCTTT AAAGGACAGAAAACACGGAGTTTTCATCTGGGACCTATGGGGCGTAAGAG GTGTTTCCTTGTACTTTCCCTTCATCGAATAAAATGCAACACTTGCGACA CCCTTTGGTGGCCCGATCTGCCTTTTATGGTGGGGAAGCATAGATTTGCC CGATCCTTTGCTCTGATTGTTCTGGATCTGCTTCGATTCGGCACGATTCG CTGGGTTGCCGATTACCTCGGCGTGGGTTGGGATATGATCAAAGAGATTC ATAAGTTGAAATTGCAGCGCCTCTATCGGAACATTCCTCTTCATAAAGTT CGGTATATTGGCATTGATGAATTCAGCATCCGGAAAGGCCATGAGTACAT GACCACGGTGATGGATCTCTCCGAAGGACGAATCCTTTACGCCACTGAGG GAAAGGGCAAGGAGGGGATTTTACCCTTCCTGAAAAAACTTGCACGCAAG GGGAAAAAACTGCGAGCGGTTGCAATGGACATGGGAATTTCCTTCTTCTC CGCCGTCCGGGAAGCCCTTCCCAATATCGATGTCGTCTTCGACCGTTACC ATATTATGGCTCTGATGAATCAAGGCATCGAAAACTTGCGCAGAAATCAT CAGAAAGAACTTGATGATATCGGGAAGCAAACCCTCAAGGGAAACCGCTT CCTCCTTTTGCGAAATTATGATTCCCTGAAGCCGGACCATAAGGAACGTC TCGATGCCCTGATGCAGGCCAATCAGCCTCTATTCGTCATGCATTCCATG AAAGAGCAACTCAGACTCTTCTGGGAAATACCGGAGTACGCCCAGGCTGT TACCTTCCTTGACACCTGGTGTAAGGACGCCATGCTGTCCGGAATCAAAG AACTCGTCAAAGTAGCCAAAACGCTCTCCGGATACAGGACTGCGATACTC AATTATTTCAAACATCACATTACAAATGCCGCCCTTGAGGGCACAAACAA CAAAATTAAAACTTTAAAAAGGCAGGCCTATGGATTCCGGGATATGGAAT ACTTCAAACTCCGCCTCTATCACCTGCATGCTCAGAGGTACTCATTAACC GGATGA >SYN_02553 exodeoxyribonuclease V gamma chain ATGAAAGGATTGAACATTATTGCAAGCAACCGCATGGAGGTTCTGGCTGA AAAGCTGGCCGATGTTCTGGCCGGGCCTCTTTCTTCACCGCTGACTCCGG AAATCATTGTCGTCCAGAGCCGGGGAATGGAACGTTGGGTTTCCATGCAA CTGGCCGCTTTTCACGGGATCTGCGCCAATGTCCGGTTTCCCTTTCCAAG GAGAATGATTCAGGACATTTTCCATGCCGTTCTGCCGGGTTGGGAGGCAG AACAGGATTTCAATCCGGAGCTTGCGGCCTGGCGTATCATGAGCCTGCTG ACCGTTGCGTCATCGCGCCCTGGTTTTGAACCTCTGGCAGCATACCTCCA TGACGATTCTCAAGGGCTGAAACGCTTTCAATTGTCGCGTCAGATTGCCC GACTTTTCGATCAATATCTGATTTTCCGTCCGGAAATGATCCTTAACTGG GAGAAAAGAATTTCCGATGGAGACGAATATTCCTGGCAGGCGGATCTCTG GCGGCTTTTCGTAGAGGAGGGAAAGATCGTCCACCCGGCGGTACTCCGCC TCTCTCTGCAAGATGTCATGATCCGGCGGGGAAATCAACTCTCCGCTTGC CTGCCGGAACGCATCTCGATATTTGGAATCTCCTATCTGCCTCCTTTTTA TCTGGATATCTTTCTTGCTGTTTCGTCTTTCATGGAGGTTAATTTCTTTC TCCTGAATCCATCCCGTGAATTCTGGTTCGACATCCGTTCCTCCCGGGAG ATTTCCCGGGAAGTGAAACTGGTTAAGGGCAGCGTTGAGAAAGGAATGGA GAATGAGGAATTGTCCCGTAGTGAGCTCTATCTGGAAGAGGGCAACAGTC TGCTGGCCTCCCTGGGCACTCTGGGACGGGAGTTCTGGTCTTTTCTGGGC GAATGTTCAGGCCGGGAAGAGGAGTATTATGTCGAACCGGGCGAAACCTC GCTTCTCCACGCGATTCAGTCCGACATTCTGAATCTCCGGGAGGGCGGAG GGGAGGCCGATGCGGACGGCCGAGAGGTCATGTTTTCCGAGGAAAGATCT CTGCAGATTCATGCCTGCCACAGTCCAATGCGCGAAGTTGAAGTGCTTCA CGATTCCCTGCTGGACCTTCTGGAAGCCGATCCATCCCTTCAACCCCATG ACATCGTGGTCATGACACCGGAAATCGAAACTTACGCGCCTTTCATTACG GCGGTATTCGAGACAGTCGATGAGGATGCGCCCGGTCTGGTCGATCAGCC GAAAATCCCTTACCATATTGTCGATCGCGCCACGATCAGTGGGAGACCGG TTCTGGGAGGACTCCTGAAAATCCTTGATCTTCCATTAGGGCGGTTTGCC GCCGGCGAGGTGCTCTCACTACTGGAGGTTGCCGCTATTCGCAACCGGTT CGGCTTGACTGAAGCCGATATCGATCAGGTTTCGCGCTGGGTTGCCGACA GCGGCATCCGGTGGGGAATCGATGAACGCAGCCGTCTGCGGGAGGGGTTG CCGGAAATCGCCACAAATTCCTGGCAATGGGGACTGAAGCGTATGCTGCT GGGTTATGCCCTTCCGGCCAGAAACAATGAACTTTTCTCCGGAATTATGC CCTGTGAGACGGCGGAAGGAAGCGAGGCCCGGCTCCTCGGCATTCTGGCG GAATTCACAGAACGGCTGTTTCTGACAGCGGAAAGCCTGAGTCAGGATCG CACGCTTTCGGACTGGGGCAGTCTCCTTGACGATATCTCTGATCGTTTTT TCCTGGGAGATGAGGACTCTGAACCGGATATCCGGAATCTACGTCAACTT GCTTCCGATCTCAAAAATCTTCAGGAAAAAACCGGATTTCCGGAGAAAAT CAGCCTTGCCATCGTGCGGTCCTTCCTCCAGGATCGGTTTCAGGCAACGG GAGCCGATGGCGGGTTTCTCAGCCGGGGTGTAACCTTCTGCTCTCTCCTT CCCATGAGGAGCATTCCTTTCCGGGTGATCTGCCTGATGGGAATGAACAA TGGGGACTACCCGAGACGGCCGCAGACGCCCAGTTTCGACCTTATGGCCA GGCACCCCCGGCGGGGCGACCGTTCCCGGAGGAACGACGACCGCTATCTT TTTCTGGAAGCCCTTCTTTCCGCCCGCGATACGCTTTATATCAGTTATGT AGGGCAGAGCATGGAAGACAACAGCAGAATCCCCCCATCCGTGGTCGTGA GCGAACTTCTGGATTATGTCCGCCGCGGATTTGTTTTGAAAGACTGCAAT ATCGATGAGTTACTGATCACATACCATCCCCTTCAGGCTTTCAGCCCGGT CTGTTTTACCGAAGAATCGTGCCGGCTCTTCAGTTATTCCGAAGAGAACC GCAAAGCGGCAAACACCCTGCTCAAGCGTTCGTCCCTGACTTCGATACCG GGTGCCGAAGCGGAAAGGCTTCCGGAAGATCCGGCAATGGCTACGCAGGC AACCATTCGGGATCTGATCGCCTTCTTCCGTCATCCCGCAAGATTTTTTC TGCAGAGAAGACTGGCCGTCTTTCTGGGGGAGGCGGACATCGTACTGGAG GAGAATGAACACTTCGATGTAGAGGGGCTTGACCGGTACGGCATTGAACA GCTTCTGATGGAAAAGGAAATCGAAACGGGACACATGGAGGAAGTTTATC CGGTGCTCGCCGCGCAGGGGCTCCTTCCCCATGGGGCTGTGGGTCAGTCC CGGTTCGATGCCTTAAAGCGCGATATTTGCCATTTTGTTCGTAGTTATAA GCATATTCTGCACTCGGAAAACATTCCTCCCCGCGACATCGATCTGGAAG TGGCTGGTTTCCGACTCTCCGGTCGCCTTGAAGGACTCGGTTCGCGGGGT TTGCTCCATTATCGCTACGCGACCCTGAAAGGGAAGGATCACCTGAAACT GTGGATTATGCATCTTCTTCTGCATGCAACGGACGGCCCCGATGGAGGCG ACAGAGAAAGTCTTCTTCTGGGAAAAAACGGATTATGGCGATATTCCGCC ATCGATGAAGCCCGGTGTCACCTTGAAAAACTGATCTCCCTTTATCGGGA AGGGTTGTGTCGCCCTCTTCACTTTTTTCCGGAAACCTCCTGGGCCTATG CCGTAAAAATATTAAGGAACGGAGAACTGTCGGAAGAAGCGGAAGAGTCC GCCTGGGACGCGGCAAGAAAAGCGTGGGAAGGAGATGATTTTCAGAGGGG CGAAGGTGTTGATCATTACAACCGCCTTTGTTTTGGGGATTTCTCCCCCC AGGATGTGGAATTTCAGGAATTGTCCCTGAACGTCTATAGACCTCTGCTC GAAACGCAATGGAAGAAAAAATCAAATCGTAAAGCGCCATGA >SYN_00201 exonuclease TTGAAACTTCTCCACACCTCCGACTGGCACCTGGGCCGCGCCCTGCATGG CCGTAAACGGTATGCGGAGCATCAAGCCTTTCTGGAATGGCTGGCGGCGC TGATCGAGACGGAAGACATCGATGTGCTGCTGGTAGCGGGGGACGTGTTT GACAACAGCACACCCGGCAATGTCGCCCAGGAACTGTATTACCGTTTTCT CTGCCGCGTGGCGGCCTCATCGCGCCGCCACGTGGTGATAACGGCGGGAA ATCATGATTCGCCCTCCTTTTTGAACGCACCCGGGGATCTCCTCAAATTC CTGAACATCCATGTAGTAGGTTGCGCCTGCCCCTCCCCGGAAGAAGAATT GGTCACGATTGCAGGAGCGGATGGTGAACCCCGGCTGATCGTCTGCGCCG TTCCCTACCTCCGGGACAGGGATATCCGTACCGCCGAAGCAGGAGAGAGC GTCGAGGACAAGGAACGGAAGATCATTGAAGGCATCCGGGATCATTACCG GAAGGTGTACGACGCGGCCCGGAGAAAAAATTCCAGGCTGAAAAGCCCCG TGCCCATCGTCGTCATGGGGCATCTGTACGCCGCCGGCGGAAAAACCGTC GACGGCGACGGCGTGCGCGAACTTTACATCGGCACCCTTCTGCATGTCGG AACGGATGTGTTTCCCCCGGATATCGACTACGTTGCCCTGGGGCATCTTC ATATCCCGCAGACCGTAAGCGGTCTGGGGCGGATCCGCTATTCCGGTTCG CCCCTCCCGATCGGCTTCGGGGAAGGAACGCAGGAAAAAAGCGTGATGCT CGTAGAGTTTCCCTGTTCCACCTCCCGCGCTACCGAGATCTCCGTCCCCC GATTCCGGGAATTGATGACCCTGCGGGGAGACTGGCAGACCATCGTCCGG AACCTCGAAGATTTGAAGTCCCGGGGAAGCAATGCCTGGCTGGAGGTAAT TTATGAAGGAAATGAAATGATCGGAAACATGCGTGCGCTTCTGGACGAAA CCATCGCCGGGACAGGCATGGAGATACTCCGCGTCAGGAACAACCGGATA CTGGAACACGCCCTGAAGCGGATGACCGCAAACGAAACCCTCGAAGACCT GGATACAACGGACGTGTTTAAGCGCTGCCTGGAAGCTCACGAAATTCCGG AAGAGAAGCGTTCGGCCCTTCTGGATGCCTACCGGGAAATTCTTGTCTCC CTCAACGAACAGGACCTGCTGGCTGACGTGGTGCACAAGGCATGA >SYN_00287 endonuclease III N ATGGAAAAAGAACGGATCGCCCTTCTGATTCAAAAGCTTGAAGACAGCGC GGGAGCCGCGGAGTTCCCCATCGTCACCCAGCTGGCGGAAACCCGCCGCG ATCCTTTTCTGATTCTGATTTCCACAGTACTCAGTCTCCGGACAAAGGAT GAAGTCACGGCCACCGCTACGGAGCGGCTCTTCAGCCTGGCCTCAACACC GGAAACCATGCTGGAGCTGAGTGAAGAGGAAATACGCCAGGCCATCTATC CCGTCGGCTTTTACCGAAACAAATCCCGGCAGATTCGCGAAATCTGCCGG GATCTTATTGAGCGATTTTCCTCCCGTGTTCCCGATTCCCTGGAAGACCT GCTTTCCCTCAAAGGCGTTGGACAGAAAACAGCCAATCTGGTCCTTTCCC TCGGCTTCGAGAAAGACGCCATCTGTGTGGACACCCATGTACACCGGATT TCCAACCGCCTCGGCCTGGTGAGCACGAAAACGCCGGAACAGACGGAATC GGCCTTACAGAACGTCCTGCCGCGCCGTTACTGGTCCCGGTACAACACCC TCCTGGTCTCCTTCGGTCAGCGCGTCTGCCGCCCTCTTTCTCCCCTCTGC AGTTCCTGTCCCCTTTGCTGA >SYN_00483 ATP-dependent helicase, dinG family ATGCTGAAACCCTATTCATATCCCATTGATGACGTTGCATTTGTTTATGC TCACACAGGCTTGAAGGAAGATCAAGGCAACCGGATTTATGAAATAGCCG CCACCATTCTGTCCCGTGATCATTCCCGCCGGGATTTCTCGTCCCTGGTC CGATACGGATATCTTACCGAACGGGAGCGTTACCATTCCAATATCTCACG GGAGAATCTTAAAGATCCGCCTCCGGCAGAAGAGGTGGCCTCCAGGTTGA GTTCTTTTCTCGCTGGGCAGGCATTTATACTGGTTCTGGATCCTCATCAT GTTCTGGATCTCGTCCTCCGGTTCTGCGTCCGGGAACGCGGAATTGATCT CAGCTTTGCGCTGGAGTTTTTCCTTCCCCATGTCGAATCCTTTTCCCCTC GCAGCCTATGGGAATTCATGAAAGGAAAAAGACGCGAAAAGATCAGCTTT TCCGCTGCGGAGCTGGTGGAGCTTTCGATGGACCTTGTCCGTCATATCTG TGGTAACCGGCTGAATGACGAAACCAATCCGCCGTCAGCGGCGCTGCGCT ATTATCTGCAGAAGAGCGATACCCTGCTGGGTGAGGTATTTCTTCATCTG ACCCGGCATTATCAGGATTACTGGGGAGGGCTGTTCAAGCCCGTGAACCG GTCTGACACGGCAAACTGGATGAGGTATCTGGAAAAGGCAAAAACGGTTT CACTGGAGCCGCAGATCCTGGAAGGTCAACGGAATATATCGGATCAAAGA GTCAAAGACCTTTGCCTCGGGCTGGCGGGAGCCGCTCAGGGTTTCAAGTT CCGAAAAACCCAGTTGGATTATGCCTTTCATGTCGCAGAGGCATTGAATG ACGGGGCGGTCCTGACGCTGGAGGCTGGGACGGGAACGGGGAAAACCCAG GGTTATCTGATACCGGTCATGGAATATCTGCATCGCAATCCCGAAGCCCG GATAATGATTTCGACCTATACAAAAAGCCTCCAGGATCAGATCTTTCAAC AGGAAATCAATAGAACTGTCGCCCTTGAACGGGGTTATTCAAAGATCTCC ATCGCCGTCCTGAAAGGCAAATCCAATTATCTCTGTGCCGAAAAACTGAA TTCAGCCTTCGAAGAAGATTTGAAAGGGGCCAGCCTGCTGGCATGGCTGT ACTTTGTAAATCTCATTTTTCTTTATCGACAGGTCGACGGTGAAACTGTT GGGGAGAAAATTGGCCGTTACCTGAACGATGGCCTTTATCTCCGTCAGCT TCAGGATGAGATTTCAGCGAAGACCGGGTGCGCGGGAAATCATACCCTCT GCCCGGCCCAGGTTGCTCTTGCCGAAGCCCGGTCTGCCCGTCTGGTCATT ACGAACCATCATAAACTGGCCTTGATTGATCACGACGAGGAATTGTCCGG ACTGTTTCGGAACTGCATTGTGGACGAAGCGAATCATTTTGAACAGGCCG TGCGCAACGCGTTCAGCCTCTCCGTGCATTCCCGCGAGATCACTGATATC ATCGCATATCTGGAATCGGTGCTTCAGAGGGTTTCTCGGAAGGTATCCGG GGAAGTCGAGATGATGCTTCAGCAATGTCATGAAACCATCAATGAATTTC ATCAGACCGTTCATGAATTCGGGAGCATGCTCCAGACGATTCATCCTTAC TTTGCAAAGGGTGAGATTCTGGAACTGCCGGTCTGTCATGGTGCGTACCC TGATGGGGACATTGAAAAGATGCTTCGTTTGTTTGCCGATCTTTTAAGGG GTATCGGTAAAGGGTTGTCTTTTTTGAAAGATCCGGATGCGTCCCGGGTA TTGAAAATATTGCCCCGTTCGCAGGAACGGGTCAGAAATGCCATAGCCCG GCTCTATACAGAAGCAGATAACTTTCAGACCATGGAAAAAACAATCCGCA CTGAAAATACCGTCGCTGCCTGCCAGCTCTTCTTCAAACACTGGGTGATC ACGGTTTCCGCCGTGGATGTATCCAGTTTGATTAAAGCGCATGTTTATAA TAAACGAGATTGCGTTATCTACACCTCGGCCACCTTGCGTCATCGAAACC GGTTCAACGACTTTTGCCGAATCGTCGGGATGGATGATGCGACAGGCTGT GATTCGATTTCGCCAGCTGGGAAGGAAGATCGCACTTTTTTCACGGATCA GGATGGGCGGGAATTTCGCTTCGTGGCGATTCCATCTCCCTATTCCCTTG AATCCATGAAAGTTTTTCTACCTGACGGTGCCGTGAATGGCGGTTATGAA AACAAGCAGGCCTGGTTGAAAGCTGTGGTTGACCTTCTTCCGGAACTGAT TCGTAAGAACCGGGGACGCACTCTGGTTCTTTTTTCAAGCTACAGCGATC TGGAAGCGGTGGCGCTGCAGACGGGTGACGAAATCATCGCCGACGGATAT CCTCTACTGATTCAACAGATGGGCCGTCCCACGGGAAATCTGATCGATGA ATTCCGGTCGATCAGGGAAAGCGTCCTCTTTGGAGTAGAAACTTTCTGGT ATGGGGTCGATTTCCGGGGGGATACCCTGACTCAGGTGATCATTACCCGG ATACCCTTTCCGTATCCCTTTGATCCCTTGCAGACCGCCCGTAAAGGATC GCTGTCCAAGGAAGAGTTCTGGAGCCGCTACTATTATGAAGCTATCATCA AACTGAAACAGGGAATGGGACGGCTTATTCGTTCGGAGACCGACAAAGGC AGACTTGTTTTTCTGGATTCCCGTTGCCGCCGTTTTGAAGACCTCTGGAG TTAA >SYN_02051 chromosomal replication initiator protein GTGGACAGGTATTGTATAGTGGATAATCTCTGGGAAGAAAGTATTAAAAT CATTAAGGAAAAAATTAGCCCACAGAATTTTGAAACCTGGATTCGTCCGC TTAAAGTGGTCTCTCTCGAAGGGAATCATGCCAGCCTGTCGGTACCGAAC AAGTTTTTTAAAGACTGGTTGACTGAAAACTATCGGGATGTCATTTCCGA CGCCGTATCCTCATCGGCTGGAAAAGACTATGCGATTGATTTTGTTATCC TTCAGGAATCTGAAAAAAATTCCCGCTCCGCTCACCCGGCGAGAAAGAAA AAAATCATCGAGCAGATCCCCCAAGAAAAAATTCGTCCCAAAATTCATCC CACGTTAAACCCAAATTACAGTTTTGAACGTTTCGTTGTGGGCTCATCCA ATCAGTTCGCCCATGCGGCAGCGGTTGCCGTTGCCGAACAGCCGGCCAAA AATTACAATCCTCTGTTCATCTACGGAGGCGTGGGGCTGGGTAAGACGCA TCTCCTGAATGCCATCGGACTGCTGAGCATGTCCATCTATCCCGATATGA ACGTGGTCTACGTCTCCGCGGAAGAGTTCATGAACGAACTGATTCTCTCC ATCCGCTACGACAAGATGCCTCAGTTCCGGGAAAAGTTCCGCAACATCGA CTGCCTTTTGATGGATGATATTCAGTTTATTGCCGGAAAGGAGCGAACAC AGGAAGAATTCTTTCACACCTTCAACACGCTTCATGATTCCGGAAAACAG ATCGTCGTCACAAGCGACAAATTTCCCAAGGACATCCCGAACCTGGAAGG CCGCCTCCGTTCCCGTTTTGAGTGGGGTCTGATCGCCGATATCCAGCCGC CGGAAATTGAAACCAAAATTGCCATCCTGGAAAAAAAGGCCCAGGAAAAC AATATTCATATCCCGACCAATGTGGCCTATTACATCTCTTCCCATGCCGA ATCCAACATCCGCGAGCTGGAAGGTTTTCTCGTCCGTATTGCCGCCTATT CCTCGGTTACGGGAAGAAACATCGATCTGGATCTGGTCAAGGAAGTTCTG AAAGACATCATCAAGCATCGGGAATCCGACGAAATTTCCTTCGAAGAAAT TCTCAAGGCGGTCGCTGCCCGATATAACCTGAAAATCGCTGATATCAAGT CGCAGAGCAAAAACAAGAACATCGCCATGGCGAGGCAGGTAACGATGTAC ATGGCCCGGAAACTGACCGGAAGCTCTTTTCCGGACATCGGAGAAAAAAT CGGGGGAAGGGATCATTCCACAGTTATCTACGCCAACAATAAAATCCGTA AACTTCTGGAGACAGATTCCAGGTTGAAAGCCACGCTCCAGGAAATCGAA GATCAACTCCTCAAGAAAAACTAA >SYN_01381 transposase ATGCTGTCCGGAATCAAAGAACTCGTCAAAGTAGCCAAAACGCTCTCCGG ATACAGGACTGCGATACTCAATTATTTCAAACATCACATTACAAATGCCG CCCTTGAGGGCACAAACAACAAAATTAAAACTTTAAAAAGGCAGGCCTAT GGATTCCGGGATATGGAATACTTCAAACTCCGCCTCTATCACCTGCATAC TCAGAGGTACTCATTAACCGGATGA >SYN_00286 DNA polymerase IV GTGGGAGGGGTTATGAAAAATGCCGACATGGCCGGAATTTTCGAGCAGAT GGCCGATTTTCTGGAGATCAGGGGTGAAAATCCGTTCAAGATCCGGGCGT ACCGCCGGGCCGCACAGGTGATCGAACACCTGCCCCGGGAAGTTGCGACG ATGCTGGCGGAGGGTGAGGATCTGAAAGCCCTCCCCGGGATCGGTGAGGC GATAGCCTCCAAGATGGCTGAACTGGTCCGAACCGGGCATCTGGTCGCCT GGGAAACCCTGCGGGATTCCCTTCCGGAAGGACTTTCCACCCTGCTGGAA ATTCCCGGGATCGGTCCCAAAACCGCCTATCGACTGGCGACCGAACTGGG AATTTCGTCTGTCGATGAACTGGAGCAGGCCATTCTGGAGGGCAAGGTGG CCCATCTCTTCCGGCTCGGAGACCGGACGGCGCAGAATATCCTGCATTCG ATCCGCTCCATGCGGCGCAAGGATCAGCGCATTCCGCTGGGGCAGGCCCT TCCCATCGTCGAGGAGATTCTGTCCGCGCTCCGTCCTCTGCCGGGGGTGA GAAATCTGGTGCCGGCCGGGAGTCTCCGCCGGTTCCGGGAAACCCTCGGC GACATCGACCTCATGGGAACGGCGGATAATCCGGAGGCGGTCATCCGGTC ATTTGTGTCCCTGCCTCAGGTCCGGGAGGTTCTTGCTCAAGGACCGACCA AGGCCAGCGTGATCCTGTCCGGCGGACTTCAGGCCGATCTGCGGATGGTG GAGCACGAGGCCTTCGGTTCGCTCCTCCAGTATTTTACGGGAAGCCGGCA GCACAATATCGCCCTGAGGACCCGCATGCAGAAAAAAGGGCTGAAGCTGA GCGAATACGGCATTACGGATACCGCCACGGACAGGTTGGAAAAGTTCTCC ACGGAAGAGGCCTTTTACGAGCGCCTGGGTCTGCAGTACATCCCGCCGGA AATCCGGGAGGATCGGGGCGAGATCGATCTGGCAGAGAGAAAAGCCATCC CCAGGCTGGTTGAGCGCTCCGATATCCGTGGCGATCTCCATGTGCATACC AACTGGAGCGACGGCACGGCATCTCTTGAGGACATGGCCCGGGCGGCGAA GGCCTTGGGGTATCAGTATCTGGCCATTACGGATCATTCCGGCGGATTGG GGATTGCCGGAGGGTTGAATGAAGAGCGGCTGCTCAAACAGATGCAGGCT ATCCGACAGCTCGATGAACGGCTCGAGGGGATTCGCCTGCTGGCCGGGAT TGAAGTCAATATCCTGGCCGACGGGCGACTGGATCTGCCGGACGGGATTC TTTCCCGTCTCGATGTGGTCGTGGCGTCGGTGCATTCCGCCCTGAATCAG AGCGAGGCAAAAATGACCCGGAGGATTCTGAAGGCCCTGGAAAACCCTCA TGTGGATATTCTTGCCCATCCGACCTGCCGCCTCATCGGTCAGCGGGAGC CCATCGCCGTGGATCTGGAGGCCGTCTTTCAGGCGGCGGCGCAGCACCGC AAGATTCTGGAGATCAATTCCATGCCGGACCGGCTGGATCTTCAGGACAT TTCCATCTACCGGGCCAGGGAACTGGGCGTTCTGCTGGCCATCGACACGG ATGCCCATCGTCCCGAACACTTCGATTTGGTGCGCTTCGGGATCGCCATG GCCCGGCGCGGCTGGTGCCGGCCTGCCCATATCCTGAACTGCCGGCCGCT TGGGGAGGTCCTGTCTTACCTGAAGCGGGACGAAGCCTACCGCCGGACTG GATGA >SYN_00567 transposase ATGTCCACGAGTTTTCTTTACCACGGATTCAGCCTCGTCGGCTACGATTA TGTTAGGACGCGATACGAAGGAAGAAGTATCACGTTCACCATACGCCACA AAAGGAGCAAGCTTTGCTGTCCAGTCTGTAGAAGCCGGGAGATCATCATG CGAGGAACGACCCGGAGACGGTTTCGAAGCATTCCCATCGGTTTCAAGAA TGTGTTCTTCGATCTCAGCGTTCAGCGGGTGGGCTGCCTTCGTTGCGGCA GTATTCGTCAAGTGTCGCTGGGATTTGCTGATCCCCGGTTTTCTTACACC CGTGCTTTTGAGCGATATGCCTTGGAATTGTCGAAACACATGACAATCCA GGATGTAGCTGCACATCTGTCGGTATCCTGGGACGTGATCAAGGAAATTC AGAAACGGGATTTGACGAAGAGGTTTTCCAGACCTTTTCTGAAGGATCTT CGGAGAATTGCCATCGATGAGATCTCGATTCGCAAGGGGCATCGGTATCT GACTGTTGTTTTGGATATGACCAAAGGGACGATCGTCTATGTCGGTGATG GCAAGGGAGCCGATGCGCTTGACTCTTTCTGGAAAAAGGTCAAACGTGCC GAAGCCAAGATTGAAGCCGTTGCCATGGATATGTCTCCCGCTTACATCAG CGCTGTATCGACTCATCTTCCGAAAGCGACGATTGTTTTTGACCATTTTC ATGTCATCAAGCTCTTCAACGACAAATTGTCCGGGCTAAGAAGAGACCTT TATCGAGAGGCAAAAGATCTCCTTCAGAAGAAAGTCCTGAAGGGCACCCG CTGGCTTCTCCTGAAAAATCCGGAAAATCTTGACTCATCCAAAGGTGAAA AGGCCCGCTTGAACGATGCCCTCCAGCTAAATCAGCCACTTGCATGCGCC TATTACCTGAAAGAAGATCTCCGACAGGTCTGGTTTCAGCCAACAAAGGA AAAAGCACGCCTGGTATTGGTTGATTGGATCAAGAGGGCGGAAACTTCCG GGATAAAAATGTTGAAAAAGTTTGCGAAGTCACTTGCTGCATTTCAATCC GGTATCCTCTCTTATTATGATTACCGCATCTCGTCGGCTCCCTTAGAAGG CACAAACAACAAAATCAAAACCATGAAACGGATGGCTTATGGGTTCCGGG ATATCGAATTCTTCAAACTTAAAATCATGGCCATTCATGAAGCCAAGTAC GCTTTAGTCGGATGA >SYN_00200 exonuclease ATGAGGATTCTCGGCGTACGATTCAAGAACCTGAATTCCCTTGCCGGCGA ATGGCAGGTCGACTTCACCCGACCCGCGTACATATCCGACGGGATCTTTG CCATTACCGGCCCCACGGGGTCAGGAAAGACAACGCTCATGGACGCCGTG TGCCTTGCACTTTATGGCAGTACGCCGCGGCTGGGCAAGGTCACGAAAAG CGGCAATGAAATCATGTCGCGCCAGACAGGTGAATGCTTCGCAGAAGTGA CCTTCGAAACCGCGAAAGGACGTTACCGCTGCCACTGGAGCCAGCAGCGG GCCTATAAGAAACCGGACGGCGAGCTGCAGCAGGCCAGACATGAAATCGT CGATGCCGACTCCGGCCGGGTCCTGAAATCAAAGATCAACGAAGTCGGTA CCTTCATCGAAAAGGTCACTGGGCTGGATTTCGAGCGTTTCACCCGTTCG ATGCTTCTTGCCCAGGGCGGATTCGCCGCTTTTCTTCAGGCCCCTCCTCA TGAACGGGCGCCCATCCTTGAGCAGATTACCGGAACGGAAATCTACAGCC GCATATCCATGAAGGTTCACGAACGCCGTTCCGAAGAGTTGGATAAACTC GAACTGTTGCAGGCAGAACTCAAGGGCATTGCAATCCTGAGCGAAGAAGA AGAGCGGGCCTTGCAGGATACCCTGAGAAAAAAGCAGGATTGGGAAACCG AACTCGCCGGAAGAATCAAGGAGGGAGAAAAGGCCCTGGCCTGGCTCGAA GGAATGGCGGTCCTGGAGAAAGAGCTGGAAGAACTGGACCGGAAACGGCA GGACTTCGAACTGCGTCAAAAGGCATTTGAACCGGACTCACACAGACTGG AACGATCCCTCCTGGCGATGAGTCTGGAAGGCGACTTCCGGGGTATTGCC ACCCTGAGGGAACTGCAGACTCAGGAAATGGAAGAACTTCATGATGCCGT CGCCACGCTCCCCGAAAAGGAAAAGACCGCCACAGAGGGATTATTCGCGA GGAAAAAGGCGGAAAGTCTCCTGAATGAGACACGGACCAGACAGCACTCG GAGGGGGAGGTGCTTAAAAAGGTGCGTGACCTCGATTCCCGACTGGGTGA GCAGGAAAAGCAGCTTGTGGAGAAGGACCGGGCGATTGCAGAGATAGAAA GTCAGGAAAAGGAATATGGAAATCTGCTCGAACAGGGAAAGCAGAAATGG AAAGAGGTCCATGCGGCCCTGGAAGCGATTTACGCATACCGGGAAAAATT TGCCGCGGATGAGGCCCTGATCGCCAACTTCAGCGCCATTGAAAGAGGAT TTGCCTCGCTTCGCGATGTGGAGGCAAAGTGGAACAAGGCATGTCGGGAA CTGGTTGCGGCCGCAGCTCAAAAGGATTCAGCCCTGGCCGAGCTTGCCGA CAGGGAGGGCGAGCATGAAAAAATCCGACGGGTCTTTGAAAAAACCCGGA AGGCTCACGAGGATGTGAGAGAGGAACTTTCCGTCATCCTTCAGGGACGC GAGTTCAGCACGTGGCGCAACGAAATGGATGTTCTCAGGGAACGGGAGCG GCTTCTGATCCAGACAGAGGAAATCCTGAAACGAATCGACCGGATCGCCC CGGCGCTGGTCAGTCTGAAAACACAACTGGAAATCCTGAACGCTGACCGG GACAGAATTATCAGCGAGCTGAAAGCCTGCTCCGATCATAAAGCGCTCCT GGAAAAAACTACTGCCGCCCTGGAAGCCCAGGTATCGCTTCTCAATCGTA TCCGCGATCTCGAAGAAGAACGGAAACGGCTGGCGGACGGCCGGCCCTGC CCTCTGTGCGGCGCTACGGAACATCCCTACGCGCGGGGAAACATACCGGC TCCCAATGAGGTGGAGGAGGAGCTTCAGAAAACAAAAAATGAGTTAAACA GCGCATCGAATCTATTGAACAGACTGGAAGCCGAACGCGCGCGGACCGAA GCCGGGATTCAACACAGCAAAAACGAACGGGAAGAAAAGGCGGAGGCTCT GAAAGCGGATGAAAAACAAGCCGCCGATTTTCTGTCGCGACTGCAGATCG AGGCTTCTCCGCCGGAACGCGCCATCAGGATACGTGCGGAACTCGCCACA GTGATGGCGATAACTGCCGAAATGGAAAAAATCATTCGTCAGGCCGAAGG GAAGGACAAGCAGGAAAAGTCGGCGCAGGATGCCCTGGATAAAGTGAGAA AAACCTTTGAACGGGCGGAAAAAGCCTTGCAGGAAGCGCGGCACAATGCG GAGAAGGCCGCTGCCGATCATGAGCGGTCTGAAAGGGACTGTGCCACACT GACAGAAGAAATGGACAAGGCCCGCGCTGACGCCCTTGCCGATGTGAAAC CGTTTGGAATCACTCGCCTGCCATTGGAAAAAATCGATGTTCTGTTGAAC GGCCTCAGGGCGCGCAAGGAAGCCTGGCACGCCCGGGAGAATGAAAAAAC CCTTCAACAGAAGACGCTTGACGAGCTGAAGGCCGGCATTGAAAAGCGTG AGGCCCTGCTGGCAAGCCTGGAGGAAGATCTGGCGGCACGACGCCGGGAC CGGGAAAAGCTGGTCAGAGATCGGGAATCCCTGTTCGGCGCCCGGCGGGC GCTGTTTGGAGAAAAGATTGCCGATGAAGAAGAAAAACGGCTTACGGCAG AGGTTGAAAAAGCGGGCAATGCCCTTGAAAAGGCCCGGGAGAACTGCGGA AAAATTGAAAAGGAAATCAGCATGCTGCGGGAAAGGATCGTCTCTCTGCA GATCAGGACGAAACAGCGCGCCGGGGAGCTGATGAAGACGAAACAGCACT GGGATGACCGGCTTCGCAGGTCTGGATTTGCAGATGAGTCGGACTTCCTG TCCTCGTGCCTGACCGAAGAGGAGAGGCAAGGGCTTCTTGAAAAGAAACA GATCCTGCTCAGGGAGAAGGCGGAACTCGACGCCCGCCGTCAGGACAGGC TGGATACCCTCGCCGTCCAGCAGGAGAAGAAGCTGACGGATCAGTCTTCC GAAGTTTTGAAGGAACAGATCCGCACCGGCGATATGGAGCTGAAACAACT GAGGTTGGATATCGGCGGCATGGTTCAGAACCTCTCCGACAACGAGAGCC GGAGGAAAAATCTGCAGGAACGCCTTCAGAGGATCGACCGCCAGAAAAGG GAATGCGCCCGCTGGGACGACCTGCATCAGCTCATCGGTTCCGCCGACGG CAGGAAATTCCGGAACTTTGCGCAGGGCCTCACTTTCGAGATGATGACGG TCCATGCCAACCGTCGCCTCAGAGAAATGACGGATCGCTATCTTCTCATC CACGACGAAGCGCACCCCCTGGAGCTCAACGTCATCGACAATTATCAGGC CGGCGAAATCCGCTCAACGAAAAATCTCTCCGGAGGCGAAAGTTTCATCG TGAGCCTCGCCCTGGCCCTCGGCCTTTCCCAGATGGCAAGCCGGAATGTC CGGGTTGATTCGCTCTTTCTCGATGAGGGATTCGGCACTCTCGACGAAGA CGCCCTGGAAACCGCCCTGGAAACGCTGGCGGGATTGCGGCAGGACGGCA AGCTCATCGGCATCATCTCTCACGTGGCGGCCCTGAAGGAGCGCATCGGC ACTCAGATACAGGTCATTCCCGAAACAGGCGGCCGCAGCATCCTGTCCGG CCCCGGCTGCCGAAGAATGTGA >SYN_01228 DNA-binding protein HU ATGAACAAAGGTGATTTGGTTGAGGCAGTAACAAAAGTTGTCGGGAAAAA GAAGTTGGCGCAGGAGACCGTTGGATGTGTTCTTGATACAATGACAGAAG CCCTTAAGAAGGGCGAGTCCGTAACACTCATTGGCTTCGGTACGTTTAAG GTAATGAAGCGATCAGCCAGAACCGGGCGAAATCCGCAGACAGGGAAACC GATCAAAATCAAAGCTAAGAAGGTCCCCAAGTTTACGGCTGGTAAAAAGC TGAAGGAAGCTGTGGCAAAAAAATAA >SYN_00925 single-strand DNA binding protein ATGATTAATAAAGCGATCCTGATCGGCAGACTGGGAAAAGACCCTGAAGT GCGCTACACGCCTGACGGCGCCATGGTTACAAGTTTCAGTCTGGCCACGG ACAGGCAGTGGAAAGATAAAAACGGGGAGAGAGCACAGGAAACGGAGTGG CACAACATCGTTGTCTTCGGCAAGCTGGCGGAGATCTGCGGAAATTATCT TGCCAAGGGACTTCTGGTTTATATCGAAGGCCGGATCAGGAGCCGTTCCT GGGAAGGAAAGGACGGCGTTAAGCGCTATACGACTGAAATCATCGCTCAG GACATGAAAATGCTCAGCCCGAAAGGGGCTGATCGCGGGGAGGTCCGAAC GCAGGCTGAAGGACACTTCTCGCCTTTCAATGATTTACCGCCGCTTCCTG AAGATGACGTCCCCTTCTGA >SYN_02537 uvrD/rep helicase ATGATCGATTATGAGAAGGAACTGAACGAAGAGCAGTGTCACGTTGTGCT GGAAGCGGGAGGGCCCATGCTGGTTCTTGCCGGCGCGGGGAGCGGAAAAA CCCGGACGCTGACCTATCGGGTGGCGCGCCTGGTTGAGACCGGGATCAAA CCCGAGCGGATTTTGCTGGCCACGTTCACTAACAAGGCTGCCCGTTCCAT GCTCAACCGGGTCCGGGAACTCGTTCCTGTGGATCTCAGCCGCCTCTCCG GCGGAACCTTTCATCACAACGGTCATTTCATGTTGCGGGCTCACGCCGAA AGGCTGGGCTATACACGGAGCTTTTCCATACTCGATACGGAAGACGCCCG GCAGTTGATCTCGACCTGCGTTGTCGAGGCGGGCATCGATACGAAAGGGG CGACCTTTCCCAAGGCCAATGTTCTTTATGGGATATTGAGCCTTGCCGTG AATACAGCGGCCGATCTTTCCACGACCGTAGCGGAACGCTATCCTTTTTT CAGCCATCGTCTTGAGGATATCCGAAAAGTCGCCGCTCTTTATGATCTGC GCAAGCGTCAGTCCGATTTCATGGATTTTGACGACCTGCTCCTCAACTGG CGTCGCCTGCTGCTGGAATGTCCCGATGTCCTGCAACATTACGCTGAACG CTTTGAACACATTCTCGTGGATGAATATCAGGACACGAATCGCATCCAGG CGGAAATCATGGATCTGCTGGCATCACGACACCGCAACATCATGGTCGTA GGGGATGACTCCCAGAGCATTTACGCCTTCCGCGGGGCCAACTTTGCCAA CATCATGTCTTTCCCGGAAAAATATCCGGACTGCCGGATTTTCAAACTGG AGACCAATTACCGCAGCACCCCGGAAATTCTCCATCTGGCAAATCTCAGC ATTGAAAACAATGAAAATCAGTTTGCCAAGTCTCTGCGGGCCGTCCGGGA AGCGGGTCTGAGACCGGTGGTCGTCCCTGCCCGGAATGCCCTGCAACAGG CCGAATTTGTTGCCCAGCGGATACTGGAGCTTCACAGAGACGGCATTCCT CTGCACGAAATGGCGATTCTGTACCGGGCCCATTTTCACGCCATGGATGT TCAGATGGAGTTGACACGGCGGGGAATCCCCTATGAAATCCGTTCGGGAA TCCGCTTTTTCGAACAGGCCCACATCAAGGATGTAACCGCTTATCTGAGA ATTCTGGGGAATCCGCTGGATGAACTGGCATGGAAACGGATTTTTGGGCT GTGTCCGAAGATCGGGAAAAAAACTGCCGAGAAACTCTGGCAATTTCTTT CGGAATCGGGAGAACCGCTGGAAGCTGCTTTAAGGGAAGATTTTCTGAAG GTGGTTTCGAAGACGGCCAGAGGCGGACTCGCTTTTTTTCAGGAAGTATT GATCAAGCTGCGGGAGGAGGCTGTTCATGCTTCGACGCTGCCGGATCTCA TCAGCCTGATTATTGAGAGAGGATATCGAAAGTATCTGCGGGAAACGTAT ACCGATACGGCCTCACGGGAAGAAGATCTCGAACAGCTCGCGGAATTTTC CGGCAAGTTTTCCTCTCTGGAGGACTTTTTGAGTGAATTGTCCCTCATGA CCAACATGGACGCCGACGGACGGGACAAGGCAGCCGGCGATGACCTCCAG GAAAACAAGGTCATTTTGAGCACCGTTCATCAGGCAAAGGGGTTGGAATG GTCCGTTGTCCTGCTCGTCGGATGCGCTGAAGGCATGATTCCCCTGGAAC GGGCGGTTCAGGAAGCCGGCGGCGAAGAAGAAGAGAGGAGACTTTTTTAT GTGGCCGCCACCCGGGCCAAGGATTACCTCTACCTCTGCTATCCCCAGAC GGATTATTCAAGATGGGCCGGGTTTGCCAATCTCAGCCCATCCCGGTTCA TTCGAGAACTGGTTCCCTCCTCCCGAAAAAAAGAACTGCCCTTCGAACAC TGGGTTGTCGAAGAGCAGTGGTGA >SYN_02088 a/g-specific DNA glycosylase TTGCCAGTCAAACAGAAAATGATGAACATCCGGCATGAATCCCTGCAGAG GGCGGAGCAGAATGCACAGCGGATTGCCACCCTGCTGACGGCCTGGTACG AAAAAAACAAACGCCTTCTGCCCTGGCGCAGCACTTCGGATCCCTATGCC ATCTGGCTGTCAGAAATCATGCTGCAGCAGACCCAGGTGGAGGCTGTGAT TCCGTATTACCGGCGTTTTCTGGAGCAGTTCCCGACGATTGAAGAACTGG CCCGGGCTCCGCTGGAAGCGGTTCTCAAGGTTTGGGAGAAAATGGGATAT TACAGCAGGGCGCGTCATCTGCACGCGACGGCCCGGCTTATTCTGGAGTC CCACGGCGGCCGGTTTCCTGCAAACCCGGTTGATTTGATGGCGCTTCCCG GTATCGGTTCCTATACATCCGGCGCTATCCTCAGCATCGCCTTCGGGAAA TCCGTTCCTGCCGTTGATGGCAATGTGAAACGGGTTTTGAGCCGGCTTTT CTTTGTGGACAGTCCTGTGGACCTTACCTCGACCAGGCGGCTGCTTTCAG CCCTGGCGGAAAAGCTCGTCCCCGCCCGGCAGCCGGGACGGTTCAATCAG GCCCTGATGGAGCTGGGGGCTGTCCTTTGCCGCCCGAAAACTCCCCTGTG TTCCGATTGCCCTCTGCAATCGATCTGTCTGGCTTATGCCGGCAGTGGTC AGCACTTCTTGCCGGTTTCCCGAAAAAGAACGAAGCGGCCGCACAGAGAG GCCGTTGCCGCGGTCATCCGGGATTCGGAACAGCGTCTTCTTGTGATCCG GCGGCCGGCAGCCGGGTTTCTTGGGGGCCTCTGGACCTTTCCCGGGGGGA TGCTCAACCCCGGGGAAATCGTTACGGAGGCCGTGGAAAGGCGTTGCCGG GAAGGGCTGAACATTACCGTCGCTGCAGGTGATTCCCTGATGACGCTCCA ACAGACTTACACACACTTTCACCTGACTCTGCACGTTTTTGCCGGAACGA TTCTGGATGGCGTACCCGACTCCCCGCAAAAGGACAACTGGCGTTGGGTG AGCCCCGGGGATATCCGGAATCTGCCCTTTTCTCGAGCCGAACTCCGGAT TCTGGAGACGTTATTCTCCTGA >SYN_01535 DNA repair protein ATGCGGCTTTCTCTCATTCCTGGGGCTGGCCACGCTTTTTTTGAAACTAC TGACATGAATACCCGGGCGACGCATAAAACGGAAGGGTTTGTCCTGAAAA CGCTGAGCTACAGCGATTCGGACCTTATCGTGACCTTCTATACGCGGAAT TTCGGAAAACTGACAGCAATCGCCAGAGGAGCCAGAAAAAGCAGAAAGCG GTTCGTCAATGTCCTGGAACCCTTCTGCTGTTCTTCCCTGCTTTTTTCCC GAAAGCAGAGGGACCAGCTGGCATGGCTTGAAAGCTGCCAGGTGATCAAC GAATTTCCTGAAATCAGGAAGTCACTGGACAGAACGCTTCTTGCCTCATA TCTCATCGACCTGGTTGATCATTTCTCTATCGAAGAAAAACCGGGCAGGG AACTGTTCGAACTTCTGCGCTCCTTTCTTCTTCTCATTGAAGAAGGCGAC ACATCGGAACGGCTTCTGCGATTCTTTGAAATCCGCCACCTGAAACTGAC GGGTTACGCGCCGGCTCTCGACTGCTGCATGATCTGCAAGGCCCCTCTGA ATCCGCAGCAGAGGTACGTCTTCAATATCGCTCAGGGAGGGCTGCATTGC AGGTCCTGTTATACGACTCCAGCCGCTCCGGATGTCCTGCCGATCTCCGT CGGCACCATTAAAACCCTGCTGCTGGGCAGAGAGATTGAAACAGAAAAAA TGAAACGAATTCTTTTTTCAGGGCAAACGGCGCGGGAAAGCAAATCCCTT CTTTCTCTTTTTATCGGTCATATCCTGGGAAAAGAACTGAAATCGCTGAA AGTCCTCGACGAGATCCAGAGGATGGGATTGTAA >SYN_01827 SNF2-related:Helicase, C-terminal:type III restriction enzyme ATGAAGATCATCGACAACATCAATTCTTTGCTGGGCGACGATCTGAAGGC TTCCATCCAAACCAAGGCTAAAATGAAAATCGCGGCATCGTGCTTTTCGA TCTATGCCTATGAAGCTTTAAAGTCCGAGCTCGCAAAGATTGAGTCGTTG GAATTCATCTTCACGGCACCGACCTTCGTTCCTAACGAAGTCACCGACAA GCTCAGAAAAGAACGCCGAGAGTTTTTTATCCCCAAGGCTAATCGGGAAC GTAGCCTCTACGGCTCCGAATTTGAAATCCAGCTTCGCAATAAACTCACC CAGCGTGCCATTGCCCGCGAGTGTGCTGAATGGATGTGCCGCAAAGCCAG ATTCCGCTCTAATAAAACCAGATCTCCGATGCAGCAGTTTGCCTGCATTC AGGGGCCTTCGCTGGAAGCGGCATATATGCCTTTGCATGGTTTTACCGCC GTGGATCTGGGATATCAGCAGGGTGATGCCGTTTCCAACATCGTCAACCG GGTAGACGAGACGGCCTTTACGTCGACATACCTTCAGCTCTTTGACCAGA TCTGGAATGATCCAACAAAACTTGAAGATGTGACTACCGCGATCTGTGAT CATATCTCGTCGGTCTATCAGGAAAATTCACCCGAGCGCATCTATTTCCT GATGCTCTACAATATTTTCAGCGATTTCCTTGATGATATCGATGAAGATG TGTTGCCCAATGACCGCACGGGTTATCTGGATACGCTGGTCTGGAACAAG CTTTTCAACTTTCAGCGTGATGCCGCCATAGGCATTATCAACAAGCTGGA AACCTACAACGGCTGCATCCTGGCCGACAGCGTGGGGCTTGGTAAAACAT TCACGGCTCTGGCTGTTGTGAAATATTACGAACTGCGCAACCGTTCGGTG CTTGTTCTGTGCCCCAAGAAACTTGCGGACAACTGGCTGAATTACAACAG CAACCTGACGACCAACATCTTCTCCAGGGATCGCTTCAATTATGACGTTC TGTGTCACACCGACCTGTCCCGCACCTCGGGAGAGTCGTTCGGCATTCCT CTGAACCGCGTTAACTGGGGCAATTATGATCTGGTCGTCATCGATGAATC GCATAATTTCCGAAACAACGATGCCGTTAAAGACAGGGAAACCCGCTATC AGAAACTGATGAACCAGGTCGTCCGCCAGGGCGTTAAAACCAAGGTTCTG ATGCTGTCCGCCACCCCGGTCAATAACCGCTTCAATGATCTGCGCAACCA ACTCGCGCTGGCTTACGAAGGCGACTCTGAAAATCTCAGCAAGAAGCTGC GTACTGGCAGATCGGTGGAAGAAATCTTCCGCAATGCCCAGACGGTCTTC AACCAGTGGTCAAAACTGGCACCCGAGGATCGCACGGCACGGGCTATTCT GGATTCCCTTGATTTTGACTTCTTTGAACTGCTTGACAGCGTCACCATTG CCCGTTCGCGCAAGCACATCCAGACCTTCTACGATACCAGTGACATAGGC CAGTTTCCCGAGCGCCGCAAACCGCTGTCATTCCATTCGCCACTGACCGG CCGCACGGATGTCATGAGTTTTAACGAGATCTTTGAACAGCTCTCGCTGC TCAAGCTCGCCGTCTACGCCCCGATCAGCTACATCCTGCCCAGTCGGCTC AAAAAATATGAAGACCTGTACGACACGCAGGTGGAAGGTGGCAAAGGGAA GCTGAGGCAGGCGGACCGCGAGCGAAGCCTGCAGGCATTGATGACGACCA ATCTGCTCAAACGTCTGGAAAGCTCGGTTGAGGCTTTTCGGCTTACCTTG AAAAGCCTGCACGACAACCACACCCGCACCCTGAGCAAAATCGATTCATT CAGGGTTGCAGGGGATGCTGGCAGTGTCTCTGACTGGACCGATAGCCTGG CAAACCTCGAAGCTGAAGAGGACGATATCCCGGTCCTGGACAACGCCGAA ATTGGCGGGAAGGTGAAGATAAACCTTGCGGACATGGATCTTCCTTCGTG GGAACACGACCTGAAGGTTGATCTGGAAGTCATTAACGCCTTGCTGGAGT CCATGGCAAAAGTCACACCCGAGGAGGACGCCAAGCTGCAACACCTCAAG GCCCTGATTTTCAGCAAGATTGAAAACCCTATCAATGACGGCAATAGAAA AGTCCTTGTTTTCACTGCCTTTGCCGATACGGCGAATTACCTCTACAACA ACCTGGCGGATACCCTACTGGCAACGCAGAGGCTGCACACCGGAAAAGTA ACCGGCAAGGATACGCCGAAATCAACCCTCAGAAAAAATTATGATTTTCA GTCGCTGTTGACGCTTTTTTCTCCCCGCGCCAAGGAGAAGGCTCAGGTGT TGCCAAATGAACCAGCTGAATTGGACCTGCTGATTGGCACCGACTGTATC TCCGAGGGGCAGAACCTTCAGGACTGCGATTACCTGGTCAACTATGACAT CCACTGGAATCCGGTTCGCATCATTCAGCGATTCGGCCGGATCGACCGCA TCGGCTCCATCAACAAGACCATCCAGCTGGTGAATTATTGGCCCGACATT TCTCTGGATGAATACATCAATCTCAAGGAACGGGTTGAAAACCGGATGGT CATTGCCGACGTAACGGCCACTGGCGACGACAACGTCCTCACGGCAAAAA GCAGCGAGATTTCGTATCGAAAGGAGCAACTCCGGCGCTTGCAGGAAGAG GTGATCGAACTGGAAGACCTTAAAACAGGTGTTTCCATCACCGATCTCGG CCTGAACGACTTCCGGATGGATCTGCTGAACTATGTCAAAACCAATGGCG ACCTTGCCAACGTGCCCAATGGCATGCACGCGGTTGTCCCAGCCCGGCCC GCAATGGGATTGCACCCTGGGGTCATCTTTGCGCTGCGCAACCGCAACCA TGCGGTCAACATCAATCAGCAGAACAGGCTGCATCCCTACTACCTGATCT ACATCTCTGGCGACGGCCAGGTCATCGCCAACCACACCGAGGTCAAAACG CTGCTCGACCTGGTGCGATCCAGCTGCAAGGGGCAACCGGAACCCATTCA GGCGGTCTGCCGCCTCTTCAATCAGCTAACGGATGAAGGCCGGAACATGA AGGCTTGTTCCGACCTGCTGAGAACCGCCATTCGTTCGATGATCGACGTC AAGGAGGAAAAGGATCTGGACAGCTTGTTCTCCGGCGGCAGGACCACCGC CCTGGTGAACACCATTGCCGGGCTCGATGACTTTGAGCTCGTCGCCTTTC TCGTGGTGCAGGAGGAAGGATGA >SYN_02657 transposase GTGACGAATGCCATCGACTGGAAACCCATCACCGCCATCCTGACCGAAAA CTATCCGGTGGGCAAATCGGAATACGGAAACAAGGCTTATCCTCCTTTGA TGCTGATGAAAGGGCTCCTCCTTCAGAAATGGTTCGGAATCAAGTCCGAT CCCGAACTGGAAAACCAGATCAACGACCGTTTATCCTTCAAAGCCTTTAT CGGCTTACCCTTCAGTGACCCCTCACCGGATCATTCGATTCTCTGCCGTT TCCGGGACAGAATCGGCAGGAAGGGGCTGGAAAAGGTTTTCAGCGAACTG CTGAAGCAATTCAAGAACCTGGGCTTTTCCATCGAATCCGGTCTGGCTGT GGATGCCAGGATTATCCGCTCGGCCAGTCGTCCCGTAAGCAGAGACAAAC TCGATGAGCTGCGGGAAAAGCGAAAACAGACAAAGAAGACGCCCCACTTC CAGCGGGATCTTGAATCCGACTGGACAGTGAAGAACAAAAAACCCGTCTT CGGAATGAAGGAACATGCCTCCGTCGACGTAAAAAGCGGTCTCGTATTGT CCTCCTCGGTTTCCAGAGCCTCCGAGCATGACACCAATTACTTCTCCTAT GTGGTGGCCAACAGCCTTCAAGGGAAAGAGCTTCCTCCAAGTGTTTACGC CGACAAGGGATACTGCAGCGAGGCCAATCGGGACTTCCTGAACATGAACG GCATTCGTGACGGAATCATGCGGAAGGACCAGATCAATGCCAGGCTTACG GAAAATGAGATCAAGAGGAACAAGAAAATCTCCAAGGTTCGGTACAAGAT CGAGCAGTATTTCGGAATTACCGAAAAGTATCATGGTGCAGGCAAGGCCC GCTTTACCTCTCTTGTCAAAGAGGGTTGGGACCATCTCTGCGGGGCGATG CCTTCAACATCAAAAAAATCGTTCTCGGCATCAGAAAGCAGGAAGCAACG GTAA >SYN_00753 hypothetical cytosolic protein ATGCAGCATCATGCCGCCTCTGTCATCAATAATGACCGGCAGTGTTTTCT ACATTTGCAACACGTCAATATTTCACATAAACCATCGGATCAGGAAAGGC ACAATGAAATGATACAGAATACTCTTGAAAAGATCGAAGAAAGATTAAAA AAAACTGAATCGATGAGTGATGAAAACAAATCCGAACTGCTCGATCTCAT ATCAACATTGAGGATTGAAATCGCCAACCTTTCGAAGACTCACAATGAAC AGGCGGAAAGCATCACGGGATTTACCGAAGTATCGACTCGTGAAGCCATT CGTCAGGAAAAGAACCCTGAACTTGTTAAACTTTCGATCGCGGGTCTGGA AAAATCCGTGGAGGGATTCGAAACTTCTCATCCGACACTGGTGGGAATTG TCAATAGAATCTGCACAATGCTTTCCAATTTAGGGATATGA >SYN_03262 hypothetical cytosolic protein ATGAAAATAAAGAAGAAACTCATCGAAGTCGCCTTGCCTCTCGATGCCAT CAATAAGGCATCGGCGCGGGAGAAGTCTATCCGTCACGGGCATCCAAGCA CTCTGCACCTCTGGTGGGCAAGACGGCCCCTGGCAACGGCTCGGGCGGTG ATTTTTGCCCAGATGGTGGACGACCCCTCGGAACATCCTGATTTATACCC TACTGAAAAGGAACAGGACAAGGAACGGAAACGCCTCTTCAAAATCATCG AGGATAATGAGAGAGAACAATTCCAATGCACTTGCCTCCAGCATAATCCT AGTCTGCCGCAAACGTAA >SYN_01724 DNA-binding protein HU ATGACAAAAATAGATATTATTCAGGACGTATACGAGAAATTGGGTTTTTC AAAGAAGGATTCTGCCCGGATTGTGGAATCTGTTTTTGATATTATCAAGG AAAGTCTCGGACGGGGTGAAAAAATAAAAATATCAGGTTTCGGAAATTTT GTCGTTAAGGAAAAGAAATCCCGAAGAGGGCGAAACCCTCAGACCGGGGA TGAGATTTCCATATCGGCACGCAGGGTACTTACCTTTAAATCGAGCCAGG TTCTCAGGAAAGCACTGAATGATTGA >SYN_02752 type II restriction enzyme, methylase subunit ATGGCAACTCTATCCAGTGAACTACGGAACAAATTGGAGCGCGTTGTTAT TGAGGCGCGGGACGCTGCTGAGACTGCTGCTCGCGCGGCCCTCGAAACCC TGGCCGTTCATCACCACGAGCCGTATCCGCACATGAATCCGGTACAGCGT GAGTTACGCAATCATCTCCGTGCCCGGGCGCGACAACTCGGGGATCGCAA GCTTCACAAACCTGATAGAAGTGGGAAAGACCATGCTATCTACCATCTAA CCGGCGATTGCGCCTATGAGCACTGGCATCGCATGCTCTTTGCCCGCTTC CTGGCTGAGAACAACCTCTTGATCGAACCGGAAGAGAACATGGCCATCAG TTTGGACGAGGCAGGGGAACTGGCTAGGGATGAAGGTGTGGACATGTGGG TCTTCGCCTCCCGGTGTGCACAGAAGATGCTACCGCAAATCTTCCGGCCA GATGATCCGCTCCTTCAAGTGTCGTTCGCCACTGAGCACATCCTCAAGCT GGAGAAACTCCTGGCGTCGTTGCCTTGGGAAGTTTTCACCGCCTCCGACG GGTTGGGGTGGGTCTACCAGTTCTGGCAGAGCAAGAAGAAAGGGGAGATT AATCGTTCCGAAGTGAAGATCGGGGCAGACGAAATCTCCGCGGTAACGCA GCTCTTTACCGAACCATATATGGTGGAATTTCTAATCCACAACACCCTGG GAGCCTGGTGGGCCGGCAAGAGGCTCAAAGCCGAAGGCGCCGCCAGCGCA GGGACAGAAGACGAACTCCGCGCCAAGCTTGCCTTGCCCGGGTTGACATG GGACTATCTGCGTTTTGTCCGTGGACAGGACGAAAACGGAGGTCCATGGC GACCTGCCGCCGGAACCTTTGAAGGCTGGCCGAAGGCCGCCAAGGATATC AAAGCCCTTGATCCCTGCTGCGGATCCGGACATTTCCTGGTTGCGTTGCT TCGCCACCTCGTACCGATCCGCATGGACGAAGAGGGTTTGTCTGCAAATA ATGCCGTCGAGGCGGTGCTCCGTGACAACCTCCACGGGCTGGAGATCGAT GAGCGCTGCTGTCAGATCGCCGCTTTCGCCCTAGCTCTGGCCGCCTGGAC ATATCCTGGCGGCGGCGGCTACCGACTACTGCCACCACTCCACATTGCCT GTACTGGAATCAGACAGCAAGCAACGGAAGAACAATGGGTGAAACTGGCC GAGCAATCGGGCATGCCCACTCAAGCCACTGAAGACGATCGCATCAAGAA TGGCTTACTGAATCTGCATCGCCTCTTCTCGCAGGCACCGATATTGGGGT CGCTCATTAATCCCAAGCAGCTCAAGGCAGACGTTTTTACTGCCGACTAC GAGATGATCCAGCCTTATCTGGCAGCCGTTCTCAAAGCAGAGGAAGTCGA CGACGAAACCCATGAACAAGCCGTCGCTGCCGCCGGCATGGCCAAAGCAG CCAACCTGTTGACCGGTAAATACACCCTTGTCATAACGAACGTTCCATAT CGGCAAGCAGATGATCTCGATCGGACATTACTGGAATATGCGGAAAAAAA CTACCCTGATGCGAAAACCGACCTTGCAACAGTATTCTACTGCAGGTTGA ACGACATGCTTTCATTGACTGGATCATCTGCAGTCGTTCTGCCGCAAGGC TTCCTTTACAAGGATTACTATGCACGCCTTCGAAAGCGGCTCTTCCGCGA GCACAACTTTTACGTGATTGCACGACTAGGTGCGAGGGCCTTCCGCGGGA TCAACGGAGAGGAAGTGAAAGTCTGTTTGGTTATTGCGGATAAACTGAAT TCAACGAAAAAGATCGTCATCAGTCAATACCTCGTCACGTCTGGGGATGC CGATGAGAAGCAGCAAAATCTACAGGTAATTGCAGAGGTGCTTGTCGCTC AGGAGGATGCCCTGGTAAGCGCGAAGTACATCTTACGAGGCGAGCAGAAG GCGAAGGAAAGGCTGCTCGAAGAATATGCATGGTATTCCAATGGCATTCA AACTGGCGACTACCCAAGATTCGGCAAGTGCTTTTGGGAAGTACCCGCTT TTTTAACCCAGTGGTCTTTGCAATTATCTACCGTGCAGGAGTCAGTTACG TATGGTGGCCGAGAACAATGCCTTCTTTGGGAAAGTGGTTGCGGATCGTT GCACCAATTTATTCGAGAAAAAGTCGGGCCAAGCCGAGTTAAGTCATGGG TGCGAGGATTAAACTGCCGCGATCGACGTGGCGTTGCTATCAGTGCTATG GGTGAACTCAAGGCAACACTATATTCGGGTGAGATATTTGACGACAACAC TGTCGTTATAATCCCAAAATCAGTTGATCATTTTGACGCGCTATGGGCGT TCTGTAGCGACGCATTATACGACAGGCTCGTTCGGAAAATTGATCAGTCG TCGAAAGTTCGCGGTGCACTTCTTCGCGTGCCATTCGACCTTGCCCACTG GCAGAAGATTGCAGCTGATAAGTTCCCCAACGGCTTGCCGGAACCCGAAA GCGACGACCCGACCCAATGGCTTTTCCACGGCTGGCCGGAAGAATCGACC GCTACACTCCAAGTTGCTGTGGCACGGCTAATGGGTTACCACTGGCCAGC TGAACTGGATTGCATGATGCGTCTCAGTGAACAGACTCGGGCGCTAGTCA AGCGGTGCAGGGAACTCTCCAAATTTGTGGACGAAGACGGTATTGTCTGT ATTCCATCTGTTCATAGCGAGGAACCTGCAGCCATACGGTTGAATGCGCT GCTGGCTGAGACGAATATTGAGCAAGCAAAGATGCGCGAACTGACCGGTG GGATTGACCTCGACGACTGGCTCCGCAACAGCTTTTTCGAGCAGCACTGC AAACTGTTCCACGATCGGCCGTTCGTGTGGCACATCTGGGACGGGCGGAA GCGCGATGGTTTTCATGCCCTGGTCAACTATCACAAGCTATGTGAAGGCG ACGGTAAGGGCCGGCGGCTGCTGGAGAGCCTCACGTACGCATACCTCGGT GAATGGATCACCCGGCAGAAGGACGGCGTGAAGCGCGGTGAAGAAGGTGC AGAAGACCGCCTGGCCGCGGCACTGGAACTTCAGAAGCGGTTGGAGGCGA TTCTGGCTGGCGAGCCGCCCCTTGACATCTTTGTTCGCTGGAAACCGCTG CAAAAGCAACCCATCGGGTGGGAACCGGATATCAACGACGGCGTCAGACT GAATATCCGCCCGTTCCTGGCGTCTGACCTGCCCGGTTGCCGGACTGGTG CGGGAATCCTCCGGTACAAGCCCAATATTAAATGGACAAAGGATCGCGGC AAGGAGCCGCAGCGCCCAAAAGACGAATACCCATGGTTTTGGGGATGGGA TGAAAAGACTGTCGACTTTTCAGGAGGTGAAACCTTCGACGGAAACCGTT GGAACGCCTGCCACTACACCAACAAGGTTAAGCAAATCGCTCGTGAGACT GCGAAAAAGGAGAAAAGTAATGCCAGCAAATGTTCAGACAATGGCCTATT ATGGTGA >SYN_03065 transposase GTGGACAGGATAGAAAGAAGGCGTATCCTCCAAACGTTTAATCCAAAAAA CGAAGCCCCTTTAGCAAGAAGGGGAGGAAAGGATACGCCCGTGGAGAATA ATGACCGCGATTATTGGGAAAAGCAAGTTAAAGAAGAAGCAAAGAACGTC CTGGAACTGATTATCCGAGAAGGAGCCTGCCGGATGTTGCAGGCGGCGAT TGAGAACGAAGTAAGCGAGTACATTGACCGCTTTAAGAATGAAAAAGACT CCAGGAACAGGCGGTTAGTTGTGAGAAACGGTTCCTTGCCTGAAAGAGAG ATCGTAACAGGTATCGGCCCCTTAAAGCTAAAACAGCCCAGGATTCATGA CAAAAGAGAAGATCAGCTTTTTACGAGCAATATTCTGCCGAGATATATGC GCCGGATTCCCTCGGTTGATGCCTTAATCCCAGCACTGTATCTTAAAGGA ATCTCCACGGGAGATTTCAGCAAGGTGCTGGAATCCATATTGGGGAAGAA TGCATCGGGGCTTTCCGCGACCAATATCGTCCGGCTGAAGAGGCTCTGGG AGCAGGATTATAAAGACTGGGCCAGACGAGATCTTTCCTCCAAACGATAT GTTTATTTCTGGGCAGACGGCATTTACTTCAATGTTCGTTTGGAAGATGC CGAGAATAAGCGGCAATGCATCCTGATCATTATGGGAACATTGGAAAACG GGAAGAAAGAACTCGTCTCCATTCTCGATGGCTATCGGGAAAGCAAACAA GCCTGGCAGGAGATGCTGGGCGATCTCAAGCACAGGGGTCTTAAAGAAGG TCCCAAGTTGGCAGTGGGCGATGGAGGTCTGGGATTCTGGGCAGCCCTGC GGGAGGAATTTCCGGAAACAATAGAGCAACGTTGCTGGGTTCATAAGACT GCTAATATTCTGGATAAGATGCCCAAGAGTATTCAGCCGAGAGCCAAGGT GCATATCCGGGACATGTACATGGCGCCAACAAAAGAGGAAGCCCTCAAGG CCTTTCATCATTTTCTGTCACAGTATCAGGCGAAATATGAAAGGGCTTGC AACTGCTTAGAGAAGGATACGAACAGTCTTTTCGCGTTTTATGATTTCCC CGCAGAGCACTGGCGTCATATCCGGTCTACCAATCCTATTGAATCCACTT TTGCCACGGTCAGGCTGCGCACAAATCGGACAAAAGGCTGTGGATCACGG TTAGCAACGCTGACCATGGTTTTCAAGCTGGCAATGGAAGCGGAAAAAAC CTGGCAGAGAATCAAAGGGCATCAACTTATCGGAAAGGTCATTGAAGGAA TCCGGTTTGTTGACGGCCTCATCATGCAAGAAGCGGCTTAA >SYN_01616 hypothetical exported protein ATGAGAAAAATACTTTTATCATTATTTATAGCCACATTGCTGGCACTTTC TACCCAAGGTTGCTTCCTCGGTGTTGAACCTGGTTCCTACGAATATACCG GGGACACCGGCCAGGAACCGCCACCCATCTTATTTGAGGCGCCGCCGGAC GTGATCGTCATGCCTGACACCCGGGATGTTTACGTAGTCCCTGATATCTA TATCGACTTGTATTTCTGGAATGGATGGTGGTGGCGTTCATGGGAAGGTC GATGGTATCGATCATTCTATTATGACCGGGGCTGGATTTATTATAGAAGC ATACCCGGGTTCTATTTCGACGTGAACCCAGGCTGGAGGATTTATTATAA AAACCGCAACTGGCAGGGACATCGGTGGCTCTATGAAAAGATATCTAATC AGCGGCTTCAGCAGAACTGGAAGAGCTGGCAGAACAATCGTTACTGGGAA AGAGAAAAAACCTGGGGCGTCGAAAACTATCAGCCTCAGATAGAACAGCA GAGGCAGAAAATACGGCTACAGCTACAGCAGGACACCCAAAAACAGCAAA ACAGGCAGGAGCAAAACAGGCAGAACAGACCACAAACTCAACGGCAGATA CAGCTACAGCAGGACACCCAAAAACAGCAAAACAGGCAGGAGCAAAACAG GCAGAACAGACCACAAACTCAACGGCAGATACAGCTACAGCAGGACACCC AAAAACAGCAAAACAGGCAGGAGCAAAACAGGCAGAACAGACCACAAACT CAACGGCAGATACAGCTACAGCAGGACACCCAAAAACAGCAAAACAGGCA GGAGCAAAACAGGCAGAACAGACCACAAACTCAACGGCAGATACAGCTAC AGCAGGACACCCAAAAACAGCAAAACAGGCAGGAGCAAAACAAAATATTT CTAACAATCCCAAGAAATACAGAAATATGA >SYN_02987 transposase ATGAAAGGAGAAAGCGCCATGAAACTGGAAGTAACGGTATCTGAGATTAC GGATATATTCAAGGAGATTCAAGAGCAGCCGGGGAAATTGTTTGAGATGA TTCGCTTGGATATCAGAGAGGTTGTTGGCAACTATCTTACAGAGATGATG AATGCGGAGTTGACCCATTATCTGGGAAGAGAGCCGTATGTCCGGGTGGA GGGAAAGAGAGCAAATCATCGCAATGGTTCCTATGGCCGTGGTTTTACCC TCAAAGGGATTGGTGAAGTCCATGTGGATATTCCCAGGGATCGTAACGGT GAGTTCAAGACAACCGTTATTCCTCGGAGCAAACAGTATGAAGAGGAGGT GGCCAGGGACTTCAGCATTTTATTTCTAGCCGGCGTCAGCACCAGGACCC TGTCCATGCTATCCGAGAGGCTTATAGGACGGAAGATTTCTCCGGCGGAA ATCAGCAGCGCAAGCAGCGATCTCAATGAGGCCGTCGAAACGTGGCGTCG GCGGGATTTATCAGAGGAACCGGTCAAGTACCTGTTTATTGATGGCGTCC ACTTCCATATGCGTATGGGAAGAACCATCGAGAGTATTCCAGTCTTGGTG GCCATCGGTGTGACGGAGACCGGGCAGAAACTGGTACTGAGTCTCCAGGC CGGGGACAAAGAATCTGCAACCTCCTGGCGGGAGTTTTTCAAAGACTTGA AATCCCGTGGAATGAAAGGAGGAAACGTCACCTTGGGGATAATGGATGGA TTGCCGGGTTTGGAGGCCGTTTTCAGAGAAGAGTTTCCGCAGGCGAAAAC ACAGCGTTGCCAAGTCCATGTAGCCCGGAATGTCCTGGCCAAGGTATCGA AAAAGTTCAAAAAGGATGTGGCGAATGATCTGCGTTCCATCTTCTATGCA CCTTCACGGGAGACGGCATGGGCATGTTTTGAAGCCTTTATAAAAAGATG GGAAAAGACGCTTCCGTCAGCAGTTGAATGCCTGAAGCGCAGCATCGACG CCTGTTTAACCTTTTTCAATTTTCCTTCCGAGGAATGGATTTCGTTAAGA ACAACAAACATCATCGAACGGTTAAACAAAGAGTTTCGACGTCGGACCAA GGTCATGGAAATTGTGGCTGGAGAAACAGCATGCTATCGCATCCTGGCCT ACATATCTTTAAAAATGGAATTGCATTGGAGGTCGAATCCCGTAGGAAAA GTGCGCAAGAACCTGCCTTTCTTCAAAGAGCTGGCCTATGAAAATTTCAC ACAAAAAAATTGA >SYN_02995 type II restriction-modification system methylation subunit TTGTATCCCGGATGCCGACTTTGCATAAACATTGGAGATCAATTTGCTCG CTCGGTCTATTATGGAAGATACAAGGTTATTCCAATCAGAACGGAGATCA TCAAGTTCTGTGAAACAATGGGCTTTGATTACATGGGTGCCATTATTTGG CAGAAGGTAACTACAACAAATACTACCGGGGGGGCAACGATAATGGGCAG CTTCCCGTATCCTCGTAACGGCATACTAAAACTCGATTATGAGTTCATCT TATTTTTTAAGAAACAAGGTAATGCACCCAAACCTACACGGGAACAGAAA GAGCGTTCTGTGATATCAAAGGAAGACTGGAATACATATTTTTCCGGGCA CTGGTATTTTTCCGGTGTGAAACAGGAAGGACATATCGCGATGTTCCCCG AAGAGCTGCCTGCTCGCCTAATCAAGATGTTCGCCTTTGTCGGTGACACT GTTCTTGATCCTTTCCTTGGAAGTGGAACAACATCGATGGCCGCTAGAAA TCTGGAGAGAAACTCAATTGGTTATGAAATCAATCAAGATTTTATCCCCG CGATTCGGCAAAAGCTCAATGTTTGTCAAATGGATATTCATGGCGCAGAA TACAGTTTTTTAGAAGATTCAGCGACCATCGACTGTGAGCAAGAGATTGA GAAGCTACCCTATGTTTTCAAAGACCCTCATAAACTCGATAAAAAGATTG ACCCCAAGAAACTTCTTTTCGGCTCTAAAATTGACCGCAACAGCGCAGAC CGGGAAGAATACTTTTCGGTTAAAGAAGTGATCAGCCCTGAGGTTATAAG GCTAAGCAACGGACTACTGATTCGTCTGATGGGTGTTCGAGAAAATACGG CGATGAATGGCTTAGCTGTCAATTTTATAACCGAAAAAACAAAAGGGCAA AAAATCTTTCTCAAATTCGATCTTCAAAAACACGATAGCCAAAATCGTTT GCTTTGCTATGTTTATCTGAAAAATAAAACATTTCTCAATGCACACCTGA TCAAAGAAGGTTTGGCAATAGTTGACCGCTCTGTTGATTTTCGATACAAA GACAAATTCATGAAACTGGAGGCACAGTGTGGCTAA >SYN_01405 DNA mismatch repair protein TTGGGAATGAAAGAATCCATGGAAATAAGCAGTTTGACCCCGGCGATGAA GCAGTATGCGGAAGTCAAGGCTCTGCACAAGGACTGCATTGTCCTTTTCC GCATGGGGGATTTTTATGAAATCTTTTTTGAAGACGCCGTAACCGCATCC AAAATTCTGGATATCACCCTTACATCAAGAAACAAGGGAAAGGAGGACAG CATCCCCCTTTGCGGCTTTCCATACCATGCATCGTCTACTTACATTCCAA AGCTGATTGAAAAGGGATTCAAGGTAGCGGTCTGTGAACAGATTGAAGAT CCGAAACTGGCCAAAGGCGTTGTCAGGCGGGAGGTCGTTCGGATCGTCAC CCCGGGGCTGGTTGTCGACACAGCAAATCTTCATGCCAAGGAAAATAACT TTCTGGCGGCGGTTTTCCCTTTGGAGCATCATATCGGGTTGGCCTTTCTG GATATTTCAACAGGGGAATTCCGGGTCAGTGATTTTCAGGATATCCGGTT TTTTGAAACGGAGCTTGCAGCCTTGGATTTTCGAGAGATCATGGTTCCAC AGGGAAGCGGGAAGCAAGGTTTTTTAAAAGCTTTTGCCGGCAGGGAAAAT TCCTGCCGCCTTGATGAATTTCCCGATGAATATTTCGATCGGGAATCGGC CCTGGGCCGCCTGCAGGACTATATCCGGAAAGAGGACCTGGAAGATCTGG GGCTGAAAGACTGCCCCGCGGTTATCGGGGCGGCGGGCGCCGTCCTGCGC TATGTGGAGGAAACCCAGAAAAGCCGGCTGACACACATCAATCGGCTGCA ATGGTACTCGGCGGCTGAATACCTCGTTCTCGATGAAACGGCGAAGCGGA ACCTCGAACTTTTCAAAACGATTCAGGATAACCGGACTGCCGGTTCCCTG TTTTCTGTTCTCGATGAAACCGTGACGGCCATGGGAGGGCGCCGCCTCCG CTGGTGGCTGAACTACCCCCTTGTCGATCCGGAGAAAATTAAGGCAAGGC TGGCTGCCGTTGCGGAAATCCGTGAAAATCACCTGTTTCGCGAAAATCTG CGAAAAGTTCTTTCCGAGGTTTACGACATGGAACGCCTGGCGGGACGGAT TGCCCTGGGAGTTGCCAACGGTCGTGATCTGATTGCTTTGAAACAGTCTC TGAAAAATCTCCCGGTTCTGAAAAACCTCCTTGCCGACAGCAATTCGTTC ATGCTGGACAGAATTCAAGACGGCATTGACGAATTGCCCGATCTTTACGA TCTCATTGAAAAAGCGATTTGCGATTCTCCTCCGGTCACGCTTCGAGAAG GGGGGATCATTAAGGAAGGATATGACGAGGAAAGGGATCGGCTGTTCTTC ATGACGCGGGACGGCCGGCGCTGGATCGCGGCCCTCGAGGAGAAGGAAAG AAAAAGAACGGGCATTTCATCGCTCAAGGTGGGTTTTAACAACGTCTTCG GGTATTACATCGAGATCTCCAAGGCCAACTCTGCCCTGGCTCCGGAAGAT TACGTGAGAAAGCAGACCCTCGTCAACGCGGAACGCTACATTAATCAGGA ACTCAAGGAATACGAGGCGACCGTGCTCAACGCGGAGACGCGATGCCGGG AGCGGGAATATGACCTGTTCATGCAGGTAAGGGAATGCGCGGCGGCGGAA ATTACTCGAATGCAGGCGACGGCGACGCTGCTGGCTGATCTTGATGCGCT GGCCTCGCTGGCTGAAGTAGCTGAAAAGTATAATTACTGCTGTCCAGTTG TGGACCTGGAAGATCGGATCGAGATTGACGTGGGGCGCCATCCCGTTGTC GAACGGATGTCCCTCAGGGACGGCTTCGTTCCCAATGACGTGGTTCTGGA CACGGACGAAAACCGGTTCCTGGTGATTACGGGTCCGAACATGGCGGGGA AATCCACCTACATCCGCCAGGTGGCCCTGATCGTTCTAATGGCCCAGATG GGGAGTTTCGTGCCGTCATCACGGGCGCGGATCGGGGTCGTGGATCGCAT CTTCACGCGGATCGGAGCCGCGGACAGCCTGATCCGGGGGCAGAGCACCT TCATGGTGGAAATGAATGAGGTGGCCCAGATCCTCTGTCATGCCACCGGC CGAAGCCTGGTCATACTGGATGAGGTGGGAAGGGGAACCAGCACGTTTGA CGGGCTCAGCATTGCCTGGGCGGTGGCGGAATATCTCCATGACAAAAACT GGATCGGGGCGCGGACCCTGTTTGCGACACACTATCATCAGCTTACCGAA TTGGCCGTCGCGGGAACGGGATACAGGAATTACAATATCGCGGTCAAGGA ATGGGGTGACCGAATCATCTTCCTCAGAAAGATTGTTCCCGGAGGAACAA ACCGGAGTTACGGGATTCAGGTTGCCCGCATCGCCGGAGTTCCGGAAGAG GTCATTGTCCGCGCCAGAGAGATCCTCGACAATCTGGAAAAAGGGGAAAT GGATGAGGTGGGCATGCCCAGGATTGCCCGGAGCAGAAAAAGAAAACCCC GCAACCCGGGACAGTTGAATCTCTTCATGAGCGAGCGGGAACGCGTCATC GAAGAGCTTGCGGCGTTGAACATTTCCCGCGTGGAGCCGCATGATGCCCT CAACATGATGCTGAACTGGCAGGAAAGGCTTAAAGAAGGCTGA >SYN_00117 transposase ATGTCCACATCGGTTCTTTATCATGCTTTCAATCTGAAGGGTATTACTTA TAGAGCAACACGCTTCACGGGTGACGTCATCGAATATTTTGCAGATGTGA AAGAAGAATACATTCGCTGTCCAAAGTGCGGGCAGCGTAAATTTATCTTT AAAGGACAGAAAACACGGAGTTTTCATCTGGGACCTATGGGGCGTAAGAG GTGTTTCCTTGTACTTTCCCTTCATCGAATAAAATGCAACACTTGCGACA CCCTTTGGTGGCCCGATCTGCCTTTTATGGTGGGGAAGCATAGATTTGCC CGATCCTTTGCTCTGATTGTTCTGGATCTGCTTCGATTCGGCACGATTCG CTGGGTTGCCGATTACCTCGGCGTGGGTTGGGATATGATCAAAGAGATTC ATAAGTTGAAATTGCAGCGCCTCTATCGGAACATTCCTCTTCATAAAGTT CGGTATATCGGCATTGATGAATTCAGCATCCGGAAAGGCCATGAGTACAT GACCACGGTGATGGATCTCTCCGAAGGACGAATCCTTTACGCCACTGAGG GAAAGGGCAAGGAGGGGATTTTACCCTTCCTGAAAAAACTTGCACGCAAG GGGAAAAAACTGCGAGCGGTTGCAATGGACATGGGAATTTCCTTCTTCTC CGCCGTCCGGGAAGCCCTTCCCAATATCGATGTCGTCTTCGACCGTTACC ATATTATGGCTCTGATGAATCAAGGCATCGAAAACTTGCGCAGAAATCAT CAGAAAGAACTTGATGATATCGGGAAGCAAACCCTCAAGGGAAACCGCTT CCTCCTTTTGCGAAATTATGATTCCCTGAAGCCGGACCATAAGGAACGTC TCGATGCCCTGATGCAGGCCAATCAGCCTCTATTCGTCATGCATTCCATG AAAGAGCAACTCAGACTCTTCTGGGAAATACCGGAGTACGCCCAGGCTGT TACCTTCCTTGACACCTGGTGTAAGGACGCCATGCTGTCCGGAATCAAAG AACTCGTCAAAGTAGCCAAAACGCTCTCCGGATACAGGACTGCGATACTC AATTATTTCAAACATCACATTACAAATGCCGCCCTTGAGGGCACAAACAA CAAAATTAAAACTTTAAAAAGGCAGGCCTATGGATTCCGGGATATGGAAT ACTTCAAACTCCGCCTCTATCACCTGCATACTCAGAGGTACTCATTAACC GGATGA >SYN_02782 DNA-binding protein, ComEA family ATGAAGCCAGGCTGCAGAAACAACAATCTGACCCGAAGCCAGTTGGGCGG CGCTGTGCTTGTAGCCTTGAGCGCACTTTTTATTCCAGCCGTCCTTTTCT TTTACAGGGAGTATGTCTATTCAGCACCTGTCATCCTCCTCGGCGATCAG CGTAAAGATTTTGTTACCATTGAAATCGATGGAAACACAAGAAGAGGAAT CTACTTTCTCCCGGAAGGAACAAGACTGGAAGATCTTCTGTCTCTGCTGC GGCTTAGACTGAACTCCATAAAATCAACCTCTGCTGATTCTGCTCCTCCT GATTTCTTCAATCCTTTGAAAGACGGGGTCAAAATCATGGTGTTACGAGA TGAAAAGAAGAAATTCGAGATCAGGCTGGGAAGGATGAGCGCCTCTACGA GAATTGCCTTGAACATGCCTATAGACGTAAACAGCGCCTCAATGGCAGAA CTCGAACTTGTACCGGGCATTGGAGAAAAAACGGCACAAAAGATTATCGA AGCAAGAAATCAAAAGGGGAAATTCCACAAGCTTGAAGAGATGATGAAAA TCAATGGAATTAAACAGAAAAAACTGGATAAATTGAGACCATTTCTTTGC GTGGAACCTTTTTAA >SYN_00390 transposase IS116/IS110/IS902 family protein ATGTGGCTTATTATGTCTTTATCCGCTGTTCTTGGGATAGTGCTGGCGAA GCAGAAATTTGATGCTGCCCTTCTTGTCGATGGGAAGACCAAGCATAAGA CCTGCAAAAATTCAGTGGAAGGATTTGAGGCATTGACCCTTTGGCTTACG AAGCAGGAGGTTGAGAAGGTACATGCCTATCTGGAAGCAACTGGTAGTTA CGGGGAGGATTTAGCGGTCTATCTTCATGATGCGGGTCACATCGTCAGTA TCATCAATCCTGCCAGGATCAAAGGTTTTGCTCAGAGTGAGATGATTCGT ACCAAGACGGACAAGATGGATGCTGCCCTGATTGCCCGGTTCTGTCTGGC CATGAAGCCCAAGGAATGGACTCCACCTTTACCAGAGATGAGATCCTTGG AAGCTCTGGTCAGACGGGTTGATAGCCTGATCGACATGCGCAGTCAGGAG AAAAACCGGCTCAGCACATCGCACGAATCTGTTACTTCGATGATCAAAGA GCATATTGCTTATCTGGATCGGGAAATTGAAAAACTCAGGAAACAAATTG ACGAATTAATAAGGAAAAATCCACAGCTCAAAGAGAAAGAGGAATTGCTG GAATCTATTCCCGTTTTGGGCAAAGCCACCATTCCACGACTCATGGCAGA GCTGGACGATCTGGATAAATTCAATCACGTTCGTGAAATGGTGGCTTTCA TAGGACTTGCACCGCGAGAAAAGTTGTCAGGATCGTCGATTAAGGGAAAG CCCAGATTATCAAAAATCGGACATGCCAAGCTCAGAAAAGCGTTGTATAC GCCGGCCCTGGTGTCCATTCAATGTAATCCCGTGATGATTGATTTTTATA AACGCCTGAAAAATAAGGGCAAAAATGAGAAGGTTATTGTTTGCGCAATT ATGCGCAAATTGGTTCATGTGATTTTTGGTGTTCTGAAATCCGGGAAAAA ATATGACCCTAACTTCAAGCCAATTTTGGCTTGA >SYN_00758 DNA primase GTGTTGAAAGGAGATCATCCCGGGGATAAAATCGCGGAAATCAAAAGCAG GATCGATATCGTCGAACTGATATCGGAGTATATTTCCCTGAAAAAAGCCG GGAAAAATTTTTTGGGTCTCTGCCCTTTTCACAACGAAAAAACACCATCC TTCACGGTCAATCGTGAAAAACAGATGTATTACTGTTTCGGATGCGGCGA AAAAGGGGACGTATTCGCTTTTCTGATGCGCCTGCACAATACAACGTTCC CCGATACCCTTAAACTGCTGGCGCGCAGGACAGGGGTCATTCTTCCCACA TCTTCTTTTCGTGGAGACGGAAAGAGTCAACTCAATGCCAGGGAACAAAT CATCCAGATTAATCAGATTGCGGCAGCTTATTATAAAGACAACCTTTTTT CTCCAGGAGGGAAGGCCGCTTCAAGTTATCTGAAAGAAAGGGGGCTGAAA GAGTCCACGATAGAGGTTTTTAGTCTGGGCTATGCCCTGGACGGCTGGCG TTATCTGCGAAATCATCTTGAACGGAAAAAACAGTCCCTGAAAATGGCCG GAGAAGCCGGGCTGATCGTCGCAAAAGATGATCGGCCGGATGTGCTGTAT GATCGATTCCGTAATAGGCTGATGTTTCCGGTCAAGGATGTTGACGGGCG TATCATCGCCTTCGGCGGCAGAATTCTGGGAGATGGTGAACCAAAGTATC TCAATTCACCGGAGTCGCCTGCATATATTAAAGGCAGGCAGCTTTACGGA TTGAATCTGGCTAAAGAAGAGATACGCCGGTGCGGATATGTGATCCTTGT TGAAGGATATTTTGATCTTATCGTTCTGTGGAATGCCGGAATCAAGAATG TTGTGGCCACGCTGGGGACGGCCCTGACAAAAGATCACGTCGCCTTGATC AGGCGATATACCGATCAGGTGGCCATCACCTTTGATTCGGATGAAGCAGG GAAAAAGGCGCTGGCGCGAAGTGTTGAGATGTTCATTGCAGCTCATATGG ATGCCAGGGCAGTGGTTCTTCCCGAGGGACTTGATCCGGATGATTTTGTC CGTCGCTACGGTGGGGAGGCCTTAAAGCGGATGGTGGAAGGCGCACCGTC GATTGTTGACTACTATATAGAGAACGCGATCGGCAGGGGGAATTCGTTTG AAGAAAGAGGAGGCGCTGCGGCCCGGGCGGCGGCATTCATTACGGGGATA CAGGATGTCATTGACAGGAATCTTTTTATCAAACGGGTTGCTGAGAAACT GGGTATAGATCAGGATATTTTGAAAAAAGAGGTGCAACGCAGGCTTCGTT CCAACGCGCGCAAAGAATTTCTCACGCCCGTGCAGCAAAGAGAAGCCGCT TATTCAGGACTGGAATTGAATATGATTCATCTGATGATGGAATATCCGGA TGTCATCCCTTCCATTCTGTCGTCAAAGGCCATGGAATATTTTATAAACA GGGACCTGAGATTGATCGGTCAATCCTGGATCGATTATGCAGTGAATGAA ACCGTTAATCCGGGTGACGCCGTATCTTTTATTCAGAAACTTGATAATCC CGATATTGAGGATATTTTTCTGAGATTATTTGTAAAGGGAAGTCCCTTTC AGAAAGAGCAACTTGATTCGATTACATCGGATATGATCCGGCAGGTGAAA AGAAGATGGTACAAAGAACAGCATAAAAATATAAAAAATCGTCTGTTGAA CGCGCAGGCGTCAGGCGATCAGGCATTGGGGCGTGAACTTTTAAAAGAAA AAGAGCGGCTGATGAGAGAAGAAAGGGAATTGTAA >SYN_02985 DNA polymerase III, gamma subunit ATGGAGGCATTTCTCATGTCATTCAAGGACATCCTCGGTCACGCGAAACC CATAGGCATTCTTCAGAATGCCATACAACATAATCGTATGGCCCATGCCT ATCTGTTCCATGGAATGGCAGGCGTAGGGAAACTCACCCTTGCCCTTAAT TTTGCCAAAGCGCTGAACTGCCTGCAGGGGGCCTCCGATGCCTGTGACTG CTGCATTTCCTGCATAAAGACCGATCATCGCAATCACCCGGATATCGAAA TGATTGAAGCTGAGGGTCAGTACATCCGGATCGATGCCGTAAAAGACCTT CAGGAGCGGATGAAATTCAAACCTATGGAGGGGAAGAAGCGCGTCGCCAT CCTCGTGGACGCCGACCGCCTGAATAATGCCGCAGCCAACGCTCTGCTGA AAACCCTCGAGGAACCATCACCGGCCAATATACTGATTCTGGTAACCGAC AGACCCTACCAGCTTCCCATAACGATTCTTTCACGATGTCAACAGATCCG CTTCAATCCTCTTGCTCAGGAAATAGTAACCACTCTGCTCCACGAGCGTT TTTCCGTCGAAAACACCCAGGCCGGACTTCTGGCTGCCGCCTCCGGGGGA AGCATAGGCAAAGCCCTGGATCTGAACCGCGAAGCTTATCTCACTTTAAA GAACGAAGTCCTGAACTTCATCGCCGGAATTTCTGCGGATTCATCCCTTC ATCGATTAACTTTTCTTCGTTTTTTAAGCGACGACAAGAGAGACATTATG GACAAACTGGACATCCTGAGAACCTTTTTCCGTGATGTCCTGATCCTTAG GGAGACGGGAAGGGCAGAAGGACTCATGCACCAGGACCGTGTTGACCAGA TTACCGCCTTTGCAGGGAAACGCACCACCGGGGACATCCTGACTGCCATC CGGGCCATTGATTCGGCGGAACGTCGGCTGATACAGAATACGAATAAATC GTTGACTTTAGAGGTCATGATGTTTAAACTCGCGCTCTGA >SYN_01824 type III restriction-modification system restriction subunit ATGAAACTGAAGTTCAAAGTCCAGCCCTATCAGACCAACGCGGTGGAAGC TGTGGTTGACTGCTTTGCCGGGCAGGTGAATACCTCGGGCATTGTGTACC GGATCGACCCGGGCGTTAACAAAAAGCTGGTGGCTCAGGAACCGATTTTG CCAGGAATGGATATGGAGCAGACTGGATTCAAGAACGCCGATATCCAGCT TACAGATGCCCAGCTGCTGACCAATATCCATGCCGTACAGCGGCGGCAGA ATTTGCCCTTGTCCGACAAACTGGTTTCCAGCGCCGGGTGCAAGATCAAC CTTGACGTGGAGATGGAAACCGGAACCGGCAAGACCTATTGCTACGTCAA AACCTTCTTCGAGATGAACAAGCGGTACGGCTGGACCAAGTTCATCGTGG TGGTGCCCAGCATTGCCATCCGTGAAGGCGTGCTTAAGTCGCTGGAAATT ACCGCCGAGCATTTCACCGAGAGCTACGGCAAGAAGGCCCGTTTTTTTGC CTACAACTCCAGGCAGCTGCACCATCTGGAAAGCTTTTCCTCCGATGCGG GCATCAATGTCATGGTCATCAATATCCAGGCGTTCAATGCCACGGGAAAG GATAACCGCCGCATCTATGACGAACTGGACGAATTCCAGTCGCGCAAGCC TATCGATGTGATCAGCAGCAACCGCCCCATCCTGATTCTGGATGAACCAC AGAAGATGGAGGGCAAAAAGACGCTGGAGGCGCTGGCCAAGTTCAAGCCG CTGATGATCCTGCGCTACTCGGCTACCCACCGGACCACGCACAACAAGAT CCACCGCCTCGACGCCCTGGACGCCTACAACCAGAAGCTGGTGAAGAAGA TCGCGGTGCGTGGCATTGCGGTGAAGGGTCTCGCTGGTACCAACGCCTAT CTCTACCTGGAATCCATCGAGATTTCCAAGAAGGCACCGGTTGCCCGAAT CGAAATGGAAGTGCGCCAGGGAGGCGGAATCAAGCGGATCGTCAAACGCC TGGAGCGAGGCAAGGATCTGTTCATTGAGTCAAACGAGCTGGACCAATAT CGCGGCTTCGTCATCGCCCAGATCGACGCCAACAAGGACACGGTGGAGTT CACCAACGGCCATGTTCTGAGTGCGGGTGATGCAACCGGCGACATCACGG AAATGGCTATCCGGCGGATTCAGATCCGGGAGGCGATCAGGGCTCACCTT GAGAAGGAGCAGGTTCTTTTTGCCCAGGGCATCAAGGTGCTGTCTCTTTT CTTCATCGACGAGGTGGTCAAATACCGGGACTATAGCCAGGCCGATGAAC AGGGAGAGTACGCCAGGATTTTTGAAGAAGAGTACGAGCGGCTCAAAGCC GAATATTTAAGCCTTCTTCCCTTGGATGGTGGAGTGTATCAGGAATATCT GAAGGGCATTCATGTTGGCCGCACCCACAACGGTTACTTCTCCATCGACA AGAAAACCAAGAAGCTCACCGATCCGAGCTTCAAGACGCGTGGAGAGGAA GCCGGGCTTTCCGATGACGTGGATGCATATGATCTGATCCTGAAAGACAA GGAACGGCTGCTCTCCTTCGCGGAACCGGTCCGATTCATTTTCTCCCACT CTGCCCTGCGGGAAGGCTGGGACAACCCCAATGTCTTCGTCATGTGCATG CTCAAGCACAGCGACAACACGATCTCGCGCCGCCAGGAAGTTGGCCGGGG GTTGCGGATCAGTGTCAACCAGCTCGGGGATCGCATGGACAACCCGGCAA CGGTCCATGACGTGAATATCCTGACCGTTGTCGCGAGCGAGAGCTACAAG GACTTCGTTGGGAATCTTCAGCGTGAAATCAGCGACTCCCTCTCTGCACG CCCCCGCAAGGCGGACGAGGCCTACTTCACCGGGAAGGTCATAACCACGG AAACCGGTACGGTGGAAATTACCCCGGTCATGGCCAAGCAGATATACAAA TATCTGCTCAAGAACGACTATACCGATGATGCGGATCAGGTTGCCGACGC CTATCACGAGGCAAAAGCCAACGGGACTCTGGCGGCGCTTCCGCCCGAGC TTGCCCCTCATGCGGAACAGATTTTCGGCCTGATCGACAGCGTCTTCAGT GAGTCCCAGCTGCCCGACGTGGGTGATGACCGCAAGCCGAAGACCAATCC GCTGAATGCCAACTTCGAGAAGAAAGAGTTCAAGGCACTCTGGAGCCGAA TCAATCAGAAGGCGGTCTACCGTGTCGAGTTCGATTCCAGTGAACTCATT CGAAACAGCATCCGGGCTCTGGACAAAGAGCTGCGGGTGACTCCACTTAC GTACATCGTCCAAAAAGGTGTGCAAACCACGGAAGCTACCTACGACCGAT TGAAGTCTGGTCAAGCCTTCGATGTTAAAGAAACGAAGACAGAATACGGC ACTTCAGTGCATTCCAGGGTAACCTATGACCTGCTCGGGAAAATCTCCGA AAACACCCAACTGACAAGAAAGACCATCGCCGAAATATTGAGCGGTGTTC AAACGGCGGTTTTCATGCAATTCAAGCAGAACCCGGAGCATTTCATTGCC GAAAGCTCACGGCTTATCAATGAGCAGAAGGCCACGATCATCATCGAGCG GCTAAGCTACGACAACATCGCCGAGACCCACGATATCGATATTTTCACGA CAGGCCAAAGCAAGCAGGACTTCACCAAAGCCAGTGAGAAGCTGAAGAAC CACATCTATGACTACGTGATTACCGACTCCAAGGTTGAGCGGGAGTTTGT GAAAGAGCTGGATACCAGCACCGAGGTGGTCGTCTATGCAAAGCTCCCCA GAGGCTTCCTGATCCCCACTCCCGTCGGCGACTACAACCCGGACTGGGCC ATTTCCTTCAGGGAAGGCTCGGTCAAGCACATCTATTTCGTCGCCGAGAC CAAGGGCTCCATGTCCAGCATGGAACTTCGGGCAATCGAGCATACGAAAA TCGAATGCGCCCGCAAGTTCTTCGCGGAGATCAACCGCAAGATTGATCCC GAACACGTGAAATACGACGTGGTGACCAGCTACGGAAAGCTGATGGAGAT TGTCGGTATGGGGGGAGCAAGAGTATGA >SYN_02390 transposase TTGTTTGAGATGATGCGCCTGGATGTTCGCGGGAGTGTCGGTAAATATCT TTCCCGGATGATGGACGCTGAACTCTGCCATTTACTGAAAAGGGAATATT ATGAGTACGGCAAGGGGGAAGTGAATCATCGGAATGGTCATTATTCCCGT CATTTCACCCTCAAAAGGATTGGGAAGGTCGATGTGGAAGTTCCGCAAAA CCGATGGGGCGATTTCCGGAGCCAAGTTCTCCCAAAAAGTAAGCGGTACG AAGAGGAACCGGCCTCATCCTGGCGGGAATTTTTCAAGGATCTGAAGTCC CGGGGCATGGACCGCCGAAAGGTGGAATTAGGAATTATGGATGGCCTGCC TGTCTTCAAGAAACTGGTCCAGGAAAATTTTACACAAAATAGTTGA >SYN_03200 integration host factor beta-subunit ATGAACAAGTCCGAGCTCATTGAAGCTTTGAGCAAAAAAGAAGGCCTTAC GGAAAAAAAAGCCATTGAGGTGATTAATCTGCTTTTTAAAGGATTCACCG AGGAACTGCAAAAGGGAGGTCGTATCGAAATACGTGGTTTCGGCAGCTTC GTCGTCAGAAATTACAATGCCTACACAGGCAGAAATCCGAAAACAGGTAA AAACATTAAAGTATCTCCTAAAAGATTGCCTTTTTTCAAGGTTGGCAAAG AGCTTAAAGAGCGCGTTGACGGCAAGGTATGA >SYN_00684 phosphohydrolase ATGAAAAATAACAGAAGAAGCGCCGGATTGATTTTGTATCGTTATCGGGA TTTAAAACTGGAAGTGCTGCTGGTTCATCCCGGCGGGCCTTACTGGGCAG GCAGGGACGAAGGAACATGGTCCATTCCGAAAGGCGAGTATTCAAATGAA GAAGATCCCTTGGCTGCGGCAAAACGTGAGTTCAAGGAGGAGACAGGCTT CGACGCAGAAGGGAATTTCCTGGTCTTAACCCCGAGGAAACAACCCAGCG GCAAATTAGTCAGCGCGTGGGCCTTTGAAGGCGACTGTGATGTAAACGCC TTAAAAAGTAATACCTTTACAATGGAATGGCCGCCTCATTCAGGTAAACT GTCGGAATTTCCGGAAGTCGACCGGGCGGAATGGTTTCCCGTTTCAGTGG CAGAGAAAAAGCTTCTCAAAGGCCAGACAGGGTTTATCGATGAATTATGT GAAAGGCTTGAAAGGGAGGGGGAAATATGA >SYN_01825 type III restriction-modification system methylation subunit ATGATGGAAAAGATGAAAATGCACTCCCCGAACCTGACCCAGGAAAACAT CGCACGTATCCTCGAGATGTTTCCCGGCTGCGTGACTGAGGCTCAAGGCC AAGATGGCAAGCTGAAGCTGGCCGTAGATTTCGATCTGCTGCGGCAGGAG TTGTCGGAATCCATTGTGGAAGGTCCGCAGGAGCGCTATCACCTCAACTG GCCGGGCAAGCGGGAAGCCCTGTTGACCGCCAATGCCCCCATTGCCAAGA CCCTGCGCCCTTGCAGGGAGGAGAGTGTGGATTTTGACACCACGAAGAAC CTGTTTATCGAGGGTGATAACCTAGAAGCCTTGAAGCTGCTCCAAGAGAC CTACCTTGGCAAGGTCAAGATGATCTACGTCGATCCACCGTACAATACGG GCAACGATTTTATCTATGAAGACGATTTTTCCGAGAACTCAGATGAGTTT CTTAAAAGATCGAATCAGAAAGATGAGGAGGGCAATCGGCTGATTGCGAA CACAGAGGCCAATGGGCGATTCCATTCTGATTGGCTATCTATGATATATC CGCGATTGAAACTTGCGAGGAATTTGTTGCGAGATGATGGGGTGATTTTT ATTTCAATCGATGATAACGAAGTCACCAACCTTCAGCGGGCTTGCGACGA AATCTTTGGTGGTGCTAACTTCGTCGCTCAACTTACTATTATCGTCAAGC CAGAAGGTCGGAGATACGGATTTTTTGCCAAAACGCATGACTACATCTTG GTGTATTGCAAAAATCACGAATATGCCAGCATGAATGAAATACTCGTCGA AGGTCTTGAGCATCCTCACAGCGACGATCAAGGCGGTTTTACGCTTAAAG GCTTACGGAATCGAAACGTGCAGGCCTTTAATTCAACAAACAGGCCTAAT TTGAGATATCCTTTTTTCGTGGACAAGCAAAACCCAGATGCCAATGGGTT TTTCAAAGTGTCCACCATCCCTTTGGATCGGTTCGTCAAAGTGGAGGCAA GCACGGTTGATGGATTGAAAAGTGTTTGGCGCTGGAGCAAAGAGAAGTCT GAGAAGGAAAAAGATAGTTTAGTGGCTTACGAGGGAAATGATGGAGAGAT CCGTATTTTCCAGAAAGAGCGAAAGCTGTCTCAGATGGCGAAAACAGTAT TGTCTGATAAGGAGATCATTTCAAATAAGGGAACCAGGGAGTTGCAGGTC TTGCTGGGTAAGGGAATTTTTGATTTTCCGAAGCCGGTTGCACTAATCAA GCTGATAACAACGATAGGCTCGGATGAACACTCCCTAATCCTTGACTTCT TCTCCGGTAGCGCCACGACCGCCCACGCTGTCATACAGCTCAACGCCGAA GACGGCGGGAACCGCAAATTCATCATGGTTCAGCTCCCTGAACCTTGCGA CGAAAAGTCCGAGGCGTTTAAGGCAGGCTACAAAACCATCGCCGAGATCA GCAAGGAGCGTATCCGCCGGGCTGGCAGGAAGACTCTGGAAGGCGAGTGT CATGAAGATTGGAACAAGGATATCGGCTTCCGCGTCCTCAAGATCGATTC GTCCAACATGGCCGACGTCTACTACACGCCGGACGCCATTGAGCAAGGCC AGCTGAAAATCTTTACCGACAACATTAAGTCGGACCGCAAGCCCGAAGAC CTGCTCTTCCAGGTATTGCTGGACTGGGGCGTGGATCTTTCGCTGCCCAT CCGAAAAGAGACCATTCAGGGCAAAACCGTCTTCTTTGTCAATCAGCCGC CCTACGACCTTGTCGCCTGCTTCGATACCGGTGTGAATGAGGACCTGGTC AAAGAGCTGGCCCGGTTCGAACCGCTGCGGGTTGTGTTCCGCGACACCGG CTTTGTCTCCGATGGCGTCAAGATCAACGTGGAGCAGATCTTCAAGCAGA TGTCTCCGGGCACTGATGTGAAGTCGATATAA >SYN_01852 snf2-related protein with C-terminal Helicase ATGAGCGATAATCGCCTGGTATCTCAGATTGGGCAGCGCGTAATGCTTCC GGGACATTTTGATGTTCCTGTTGTTTTGGAAGATGCGCGGCCGCTTGGGT CAGGCGATTCGGCGGGTTACGAGTGTCGTGTCCGGCTTCCCGACGGCTCA TTGGAAGAAGCAGTAATTTCAGCTGAAGAGATTGCGTCAATTCTGGGGAG AGAAACAGTTAAAGCTGAATCAATGACTCCGGTTGACGCCGAAAAACTTC GCCTCCTTATAGAATCGACCCGGATCCGCCTCGCCTATGCTCACGATCAG CAGTTTGCTGTGAGCCTGTCGGGCATCCGCACTCTTCCACACCAGATCGA AGCGGTATACCGGGCGATGCTTCCACAGCCCAGATTGCGGTTTCTTCTAG CGGATGACCCTGGCGCAGGAAAGACAATCATGGCCGGTCTCCTGGTGAAG GAACTGAAGCTTCGGGAAGCGATTGAACGCATTCTCATTTTATGTCCCGC TCCGCTCACTATTCAATGGCAGGATGAGATGCTCCGATGGTTTGGGGAGC CGTTCGACATAATCTTTTCTGCAGTTGACCAGCAGCAATTGACCAATCCA TGGCAGCGGTCTTCGCAGATCATCGCTTCCATCGATTACGCCAAACAAGA AGACGTGCGCGAGCGTGTCTGGCAACAGCGATGGGATCTCGTTATCATCG ACGAAGCCCATAAGTGCTCGGCCCGCACCGCTTCGGGTGGTCAAAATCGT GAATCCAAGGTTACGACTACGAAAAGGTATGATCTGGCTTTACATCTTAC TTACCAAGCGGATCATGTCCTTCTCCTTACCGCCACGCCCCACCATGGGG ATGAAGACAAGTTTGCCCACTTTCTGAGGCTGATCGATCCCGATCTTTTC CCGGAACCTCACCGTCTCGGAAAGCAGGCGTCAGCCATTCGTAAGGATGT CTTTCGCCTCGGAAAGGACTCGCCCTGGTGTCTGCGCCGTCTGAAGGAGG ACCTACGGGATGCGAACGGGAAGCGGCTCTTTCCGGACCGGCACACGAAG ACAGTGACTTTCCGCCTGAATAGTGACGAGTACACGCTTTACAAGAGCGT CACCGCTTACATAAACGAATTCATTCCCCAGCAGACGGGGCAAAGACGTT CATCGGCGGCCCTGACGCGAACCGTTCTACAACGCCGATTGGTGAGTTCC ACTTGCGCCATCCATGAATCGCTGAAGCGTCGATTGAAAAAACAAGAGGA TCTCCTGGAAGAGCTTGAGGGGCTCACTCCCTCACAGCGTGCGAAGCGAT TGGCCGCCTTGCAGGGACGGCTTCCTGATGCCGAGCAGGACGAAGATGAT CTTGATGACGCGGTCCGCGATCAATTGGCTGATGAATACACGGCCGCACT GGAACTTGAGCAACTGCGCGCTGAAATCTCCGCCCTCCGGGAATTGGTTG AGCAAGCCCGACGTGTTCGGGAAGACGCAAATGATTCAAAACTGGCTGCA TTGAAAAAGTGCCTTGGCGAGGCGCAGTTCCTTGAGCTGAAGGATGGACG GGGGAAGCTCCTGATTTTCACGGAGCACCGCGACACCCTGGGCTATGTGC GAGATCACCTTGAAAGGTGGGGTTTCAGCACCTGTGAAATCCACGGCGGC ATGAATCCCCATGAGCGCAAACGGGCACAAGAGGTCTTCCGAACCGGAGC TCAGGTATGCATTGCAACGGAAGCCGCAGGTGAAGGCATCAATCTCCAGT TCTGTCATTTGATGATCAACTACGACATGCCCTGGAACCCGACGAGGCTG GAGCAGCGATTGGGCCGCATCCACCGCATCGGCCAGGATCGGGACGTGTA CGCCTTCAACTTTGTGGCCACGGATTCTGAAGACGGCCAGCCCATTGTCG AGGGTCGGATTCTCCACCGCCTCCTGGAAAAGCTGGACCAGATGAACGAG GCTCTTGAAGGTCGTGTATTCGACGTGATCGGTGAGGTGCTGTCACTGAA TGACGTTAATCTCCCCGACATGCTTCGCGATGCGGCTTATGACCCGAGGC GGCTTGATGAGTACCTCGATCAGATTGATCGCATCAATCCGGCCAAGCTC AAAGAATACGAAGAAGCCACTGGCATTGCGCTTGCGCGCAGCCACGTGGA TTTTTCAGCGTTCCAGCGCCGTAACCTTGAGGTTGAGGAGCGTCGGCTCA TGCCTCGCTATGTCGAAGCCCAGTTCGTCTCTGCCGCCAGGGAAGTAGGC TTGCGGGTCGAGCCGAGAGCCGATGGTTTATGGCGTATCGAGCATATCCT GGCGGATTTGCGCTCTGAACGACTCCGCTCCGTTCAGAAGGTCGGAAAAG CGGAATCGTCCTATCGAAAGATTACCTTCCATAAGCATCACCTTGAAAAG GACGCTCACGTTGATGCGATATTGATGGGGCCGGGACATCCCCTCTATGC GGCAGTAGACGAAAAACTCAACGAGCGTCTGATGGAGTTGGTCGGCGGCA TTGGTTTTTTTGTCGATCCCTTATGTAAAGAACCTTACCGCATTCACCTT TTCGAGATATCAATACGCGGCAAGGACTCGAAGGGAAGCGACGTTCCGCT CTACGGCGAGCTTGTAGCCGTTCGGGAGGAAAGGGGAAATTACGAAGTAA TCCCAAGCGACATACTTCTTAATCTGGCGGCGCATCCGCATCCGCCGCAG GAGATCGAAGCAACTTCCATACAAGGTGCCACTGATTTCCTGAAACGTAC CTATCAACTCGAATGCCGCGCCCGTTGTCAGGCAGAGCGGCAGCATTTTG CCCAAGTCTGCCGGGAATACCTGGAAAAGTCGTTTAAAGCCCGGATCGAC CGGGCTCAGGAACGGGCCATGCTGCTTGCAGCGGAGGTCTTCTCAAAGCC AGAATATAAACTGCCTGCAGATGAGGCCAGGAAATACGTTGATGAGCTTC AGCGTGCCCGTCAGGAGCGCCTCGATGGCCTGAAGCGGCTTGAGATTGCC AGGACGGGTCCGGTCAAGCATGTTGGGACGGCATTCATCCTCGCCCCTGA CGCCGACACGCAGGCCCAACTCGCCGATCTGACCGACGAACTCGATCCGA ATATCCGTCGGCAAAGCGAGATCGCTGCAGAAGACAAGGTGATTGAAGCG CTGGTTGCGGAGGGCTTCCCTCAGGACCGCATCGAGCGGGTCGGGCATCT GAAGTTGGGGTTCGACATCCGCGCCCACAGGATCGCCGATAAAGCTACCG GCGAGGTCTTCGTCAAGAGAATCGAGGTCAAGGGACGACTGCGGGGACAA CCGGTACGGCTTACCACGAATGAATGGTACAAGGCGCAACAATTGGCGGA AACCTATTGGCTCTATGTAGTATGGAATCCGCTTGGAGATTCACCCGAGC TTGTGCGTATTCACAATCCAGTCGCTAAACTCGACCATGCAAAGAGGGAG ATCGTGGCGGCAAGATTCTACGAGATCCCTGCAGAAGCTGTCATGAGCAT TGTCCATATCGATTCTGAGAAGAATCCGATGCTGTAA >SYN_00163 DNA polymerase III subunit gamma/tau ATGGACTACCTTGTTTTAGCCCGCAAATGGAGGCCTCAGGTCTTTGAGGA CGTCGTCGGCCAGCAGCATGTCGTCCAGACCCTGAAGAATGCCATCCGTC AGGAGCGCATTGCCCACGCCTTTCTGTTCAGTGGGCCGCGCGGTGTCGGC AAGACCTCCATTGCCCGCATTCTGGCCAAGGCCATCAATTGTGAACAGGG GCCTGCCGGGACACCGTGCAATGTCTGTACAAACTGCCGTGAAATCACGG AAGGCATTTCCATGGATGTCCGGGAAATCGATGGCGCCTCCAATCGGGGT ATCGACGAAATTCGGGAGCTCCGCGAACGGATCCGTTTCCTGCCCGTTTC CTGCCGTTATAAGGTCTATATCATCGATGAAGTGCACATGCTGACTCGGG AAGCCTTCAACGCTCTGCTGAAGACCCTCGAGGAACCCCCTCCCCATGTC GTTTTCATTTTTGCCACAACAGAGACCCATAAAGTGCCGGCAACCATCCT TTCCCGCTGTCAGTGCTTTGAGTTCCGCCGCCTTTCCCTGCGTCAGATTG CAGAGCAGCTGCGGAAGATCGCCGAGACGGAAAAGATCCGGATCAGCGAT GCCGGCCTTGCCTGGATTGCCGAAGCGGGGGACGGCAGCATGCGGGACTC CGAGAGCATCTTTGATCAAGTGATTTCCTATGCCGGAACGGCGATCGAAG ACGAGGCCGTTGAGGAGCTGCTCGGCCGGACCGACCGTCGCTTTCTCTTC CAGCTTTCCGAGGCGGTCCTGCGCCGCGATGCCGGACAATGTCTCCGGAT TGTGGAGGAGGGGTATTACGCCGGCCTGGACATGACGTATTTTTATACGC TTCTTCTCCACCATTTCCGTAATCTTCTCCTGGTGAAGATCGTCGGGCCG CAGCAGGAGCTCCTGGATCTGCCCGGCAACGACCTGTCCGGCATCGAGGC GCAGGTGGCGGAGGTCTCGCGGGAGACTCTGCAGCAGCTTCTGGATATCC TGCTGGCGGAAGAGGAAAGCGCGCGACGGAGCCACAACCCCCGGCTTCAC TTGGAAGCGATCGTCTGCCGCATGGCCGGTCTGCCGCCAGCTCTTCCCAT CGAAGAGATTCTCTCCCGCATGGAGGACCTGGAAACCCGGCTGGCGTCTT CCGCGCCTTGCCTTTCGGAAACGGTTCCCGGGGCCGCCTCCTTTTCGCCT TCCAAACCGGGAAATTCAACGACAGTGAGAGAGCGTCCGTTGACACTGCC AATCGTCCGGACAGAGGACCGGAGCGTAAGGGAACCGATGGCGGAATTGC AGGGGGCGGTCAGGGATCCGGCGCATGCCGGGGGGGATGTCTGGGCGGAT TTCAAAGCCCATGTGAAGAAGCATTCGATCCTGCTGGCCTCCAAGATCGA GCAGGGCGAATGTCTCGGCTGTGAAAACGGCCATCTGCGCATCGGGTTTC GCAAGGGGAGCGTTTTTTTTGAGGACCTCAACGAACCGGAGCAGAAGAGC CGGCTGAGCGAGCTTGCCGGATCCTTTTTCAAAACCGCCGTGACGGTGGA CATCGAGCCCGTGGAGACGGAATCCGACGGTCGGGGCTCCGGGGGGAGAT TGTCGGAGGCCATGGCCCGGAAAAATCAGGCGGAAGAGCTCCGTCGGGAA GCCCTGAATCATCCCCTTCTGCAGAAAGTCTTGAGCGTCTTTGAAGGAGC GGAGGTTCAGGAGATTAAAGTCCTGCCCCCTCAGAGGCCATCGACCGATG TGAAGTCTGAAGGATAA >SYN_01143 hypothetical cytosolic protein ATGGTCTTAACCGAGGTGGAAAAGATGGAACCTGAAGTGTTTTCTGAATT TCTGATGCGGCAGGGTCATCATGTGGTCAAGACGGAAAGCTGCTACTGGT ATGATGCTCAACCGGGTTTTTACTTCTATTTCCCGTACCACAGACTGATC AATCCGGGACAAGATGAACTGGACCGGATTTTCTGGGGGCAGCGAAGCAT AGGCGTGAGATTTTTTGCGCCGATGGATTGTGTCGGAAAAGAAAGCTACT CGATCATGTGCTCCGACAAGCATTACGACATTACGTCGGTGGACGCAAAG TATGCCAGGCGCCAGACGCGGCGGGGGCTGGAAAGCTTCGAGATTCGAAC ATTGCCCTTCAGGGACCTGGCCACATTGGGCAACCCCTTGAACCATGACA CCCTGTCCCGGCAGGAGCGCGATCCCGGCGCCTGGAACGAGCAGAAATGG CGGGAGTATTGTGAAGCGGCTGACGGTCTGGAGGGCTTTGAAGCATGGGG GGCGTTTTCGGACAAATCGCTGGCATCGTTCATGGTCACTTTCCAGATGG AGGATGTGTTCACGATCCTCCATCACAGTTCGGCAACGGAGTATCTGCGC TTTTATCCCAACAATGCGCTGGTCTATTTTGTGACCCAACTCAAGCTTTC GCAGCCGGATGTCCATGCCGTCTCCTATGGCCCTCAATCGCTGGATGCAC CGGAATCCCTGGATACGTTCAAGTTCCGGATGGGTTTTCAGAAAATGCCG ATGAAGCAGGCCATTGTCTTTAATCCTCTGATCAGGCCGTTTATCTGCGG ACCCTTTCATAAAGCGGTTCAACTGGCCGCCCAGGCCAGACCAAAAAGTG ATACGTTCAGAAAACTGGAGGGCGTTCTCCGGTTTTATCTTGAAGCCTCC TGA >SYN_01329 transposase ATGATCAGGGAATTTCAACTCGCCTATCCTGTTGTGCTTTTGTGTCGGGT TTTAAATGTAACGACAAGCGGATTCGAACAATTAAACCACGATTGCCTCC AGGACAATCTCAAACGTATCAAGCTGACCAGGGCTGCAAAGGTTCTGGAT ACCATCGTAACTCATTCCAAGGAAGATCGGGTTTCGCATCTCTCTTTCCT GGATCGCCTCCTGGAAGAGGAAGTGGCGGCCAGGGAAAAGAGGCGGATCG AAACCTCTTCGATCATCTCTTTCTGTTATGAGAAGAGCTATGCCATTATC ACCTCAAACAAGAGCTTCATCGACTGGCAGGAACTCTTTGGAGATCCCGT AATTGTCTCGGCCATTCAGGACAGGCTGCACCATCACAGCAAGGTGATCA ACATCAAGGGACACAGCTATCGGTTAAAAGAACATGCCTTCAGCAAACAG ATTTACAACCAGCGAGGAGATGATTCCGTAAACAATCTGTCATCATGA >SYN_03036 transposase ATGTCCACATCGGTTCTTTATCATGCTTTCAATCTGAAGGGTATTACTTA TAGAGCAACACGCTTCACGGGTGACGTCATCGAATATTTTGCAGATGTGA AAGAAGAATACATTCGCTGTCCAAAGTGCGGGCAGCGTAAATTTACCTTT AAAGGACAGAAAACACGGAGTTTTCATCTGGGACCTATGGGGCGTAAGAG GTGTTTCCTTGTACTTTCCCTTCATCGAATAAAATGCAACACTTGCGACA CCCTTTGGTGGCCCGATCTGCCTTTTATGGTGGGGAAGCATAGATTTGCC CGATCCTTTGCTCTGATTGTTCTGGATCTGCTTCGATTCGGCACGATTCG CTGGGTTGCCGATTACCTCGGCGTGGGTTGGGATATGATCAAAGAGATTC ATAAGTTGAAATTGCAGCGCCTCTATCGGAACATTCCTCTTCATAAAGTT CGGTATATCGGTATCGATGAATTCAGCATCCGGAAAGGCCATGAGTACAT GACCACGGTGATGGATCTCTCCGAAGGACGAATCCTTTACGCCACTGAGG GAAAGGGCAAGGAGGGGATTTTACCCTTCCTGAAAAAACTTGCACGCAAG GGGAAAAAACTGCGAGCGGTTGCAATGGACATGGGAATTTCCTTCTTCTC CGCCGTCCGGGAAGCCCTTCCCAATATCGATGTCGTCTTCGACCGTTACC ATATTATGGCTCTGATGAATCAAGGCATCGAAAACTTGCGCAGAAATCAT CAGAAAGAACTTGATGATACCGGGAAGCAAACCCTCAAGGGAAACCGCTT CCTCCTTTTGCGAAATTATGATTCCCTGAAGCCGGACCATAAGGAACGTC TCGATGCCCTGATGCAGGCCAATCAGCCTCTATTCGTCATGCATTCCATG AAAGAGCAACTCAGACTCTTCTGGGAAATACCGGAGTACGCCCAGGCTGT TACCTTCCTTGACACCTGGTGTAAGGACGCCATGCTGTCCGGAATCAAAG AACTCGTCAAAGTAGCCAAAACGCTCTCCGGATACAGGACTGCGATACTC AATTATTTCAAACATCACATTACAAATGCCGCCCTTGAGGGCACAAACAA CAAGATTAAAACTTTAAAAAGGCAGGCCTATGGATTCCGGGATATGGAAT ACTTCAAACTCCGCCTCTATCACCTGCATACTCAGAGGTACTCATTAACC GGATGA >SYN_00331 DNA-3-methyladenine glycosylase ATGGGCTTGAATACTAAAAACAGATGCGAATGGTGCGGTACGAATCCGCT GTATGTGGAATACCACGACAACGAATGGGGAGTGCCTCTGCACGATGATC GTGGCCTTTTCGAGCTGCTGACTCTGGAGGGCGCGCAGGCAGGTCTGAGC TGGCTGACCATCCTCAGGAAACGAGAGCACTATCGCAATGCATTCCACGG GTTCGATCCGCAGAAGATTGCCGGCTATTCGGAAAATGACGTTCAGCTCC TGCTTGGTGACTCCGGCATCGTGCGGAACCGCCGGAAGATCGAATCGACT GTCGGCAATGCGCGGTGTGTGCTCGCCATTCAAGAAGAGTTCGGTTCCTT CGATGCTTTCCTCTGGAGTTATGTCCATCATCAGCCTGTTCAGAATGCCT GGCGATCGCTGACCGAGCTGCCTGCAAGAACGGCGCTATCGGACACGATA AGCAAAGATCTGAAGAAACGGGGTTTCAACTTTGTGGGATCAACCATTTG TTATGCCTTCATGCAGGCGGTCGGCATGGTGAATGACCACGTCGTTACGT GCTTCCGCCACGAACAGGTAAAGAAGATCGCCCGGCCAGGGGATTGA >SYN_02599 superfamily I DNA and RNA helicase GTGTTGGCTGCCGTCGCCTCCAAGGCTGCATGGATGGCCGAGGCACTTCA CCTAGCCATGGCCTACTTCAGCTTGGAGCGTGACGTCTTCATCAGCCACT GGCTGCCGGAGCGCCAGAAAGAGTTGGCTCGGCAGACCACCCCCGAATCC TGGCGGAACATCGTCGAAAGCCTCAACAACCCCGTGCAACAACATATTGT CACCGATGATCGCGAGAAGACCAATGTATTGGTGTTGGCCGGCCCTGGCT CCGGAAAGACTCGCGTACTTGTGCATCGTATTGCGTATCTTGTTCGGGTA AAAAGGGAAAATGCACGTGGAATTCTTGCCTTGGCCTATAACCGCCATGC AGCGGTCGAAATTAGACGGCGTCTTGCAGATTTGATAGGCGATGACGCAA GGGGTGTCACGGTGCTCACGTGTCACGCGCTCGCTATGCGCCTCGCTGGT GTGAGTTTTGCCGGGCACACGGAGATGTTGGACGACGATGCATTCAAGAA GGTACTTCAGCAGGCGGTAGCACTTTTGAAAAGAGAGGGTCTGCCGCCAG AGGAAGCCGACGAACAGCGTGATCGGTTGCTTGCGGGCTTCCGCTGGATC CTTGTGGATGAGTATCAGGATATCGGTCCAGAGCAGTATGAACTCATCTC CGCTCTAGCCGGACGGACTTCGCAGGATGAAGATGGCAGGCTAAGCCTTT TCGCGGTAGGTGACGACGACCAGAACATCTACGCTTTCGATGGGGCCTCT GTCGAATTTATTCGCCGCTTTGAGAGCGATTATGATGCCAAGCCAGCTTA TCTGATCGACAACTATCGTTCGACCGCCCATACCTTGGGTGATTTTTGGG GAAAGGTAGAATAG >SYN_02012 DNA polymerase IV ATGCAGAAGAAAGCCATGGCTCAGCATAAATCTTTCGGAAGGCGAATCCT GCATATCGACATGGATGCCTTCTTCGCTTCTGTGGAGGAAAACAGAAAGC CTGAATTAAAAGGCAAGCCTGTTGTCATCGGAGGCATGGGGGATCCATCA AAGCGAGGGGTGGTTTCCACGGCCAATTATGAAGCGCGGAAGTACGGCAT CTCTTCCGCAATGCCCTTGCGGACGGCCTATAAACTCTGTCCTCGGGCGA TATTTCTTCCCGTTGATTACAAAGCCTATCTGGCTGTTTCACGTTATTTC AAGGCAGTGCTCCTGAATATTACAACAATCATGGAGGACGTCGGTATCGA TGAAGCCTATCTGGATATTTCGGAAAACCGGGATACTGATGAAAAAATCA GTGAGAAAATCAAAACCGGCATTTATGAGAAAACGGGATTGACCTGCTCC ATCGGCATCGCTCCGAACAAACTACTGGCAAAGATCGCCTCGGATATGAA CAAGCCTGATGGATTGACGATTTTTTCCGGGGAAGATATTGAGAATCGAC TCTGGCCCTTGCCGATCCGAAAGTTATACGGGATCGGACCGAAAACGGAA GAACATCTGAAGGCGTTGAACATCGCAACAATTGGGCAGTTGGCGGCTCT GCCGCCTGAAGTCCTCGTCGCGCGTTTCGGTCCTTCTTACGGCCATTATC TCCATGAAGCATCAAGGGGTATCGACGAGAGCCCCATCATTACGTCATGG GAGCCGAAATCATTCAGCCGGGAGATCACCTTTCAAGTGGATGAAAAAAA CTGGCAGGCGATTGCCAGGACTCTTGCGGAACTCACGAAAGAAGTCGTAT CTGATCTGGCTGAAAAGGGCTATGCCGCAAGAAATGTCATTCTGAAGATT CGCTACAGTGATTTCCGTACAGTGACAAGGGCATGTTCGATTGATCAAGC TGTCGGAAAGGAAGAGGAAATACGGCGTATGGCTTTTTCCTGTCTGAAGC GCGTTGATCTGTCGGGAAAGAAAATCAGGCTGGTAGGAGTCAGGGTCGGC AGACTGGAAAAAATTAAAAATGCCATCTCAGGGGTATAA >SYN_02529 single-stranded DNA-specific exonuclease ATGTCTTTTTTCCTTTGTGTGATCATGTTTAGAAAATGCTTGCCGACAAC AAACTGGGTTATGTCCGATGTCAACAAGGAGGCACAATATCTCCTTGTCA AGGAACTGGGTATTCACTGGATCATGTCTTCCATCCTGGCGAGCCGTGAC ATCCAAACCCCTGATGACGCCCGGAAGTACCTCTATCCATCCCTTCACGA TCTTCACAATCCTTTTCTCATGAAAGACATGCAGCTCGGGGTCAATAGGC TGATTCAAGCGGTGTACCAGGGAGAAAAAATCGTGGTGTACGGCGATTAT GACGCCGATGGAATTACGTCCGTAGCTGTGCTTGTCAAATTTTTACGGGA CATTCAGGCAGACGTTTCCTATTACATCCCCGACCGGATTGACGAAGGAT ACGGTCTGAACAGGAAAGCAATTGACCGGATAAAAGAAAAAAGCGCCAGT CTGATCATAACCGTCGATTGCGGCATTTCCGATTGCGACGAGATCCTGTA CGCCAGGTCGCTGGGTCTGGACACCATCATACTCGATCACCATGAGGTTT CCGATTCGCTTCCCACAGCCGTTGCGTCCATCAACCCGAAACGCCCGGAC TGTCCCTTCCCGCTGAAACACCTTGCCGCTGTGGGCATCGTTTTCAATTT CCTGATCGCCCTGCGCGGAAATCTCCGGAAAGAGGGATTCTGGCACGGAA AACCCTATCCGAACCTCAAGGAATATCTTGATCTCGTGGCCCTGGGGACG ATCGGAGACATCTGTCCCATGGTCGACGAGAACAGAATTTTTGTCAGAGT AGGCCTGGAATTGCTGACAGAAGGGAAAAGAGTCGGAATCCGCGCCTTGA AGGAAATCTGCGGCGTCGACACTCAGGCCGTCGATACCGAGAAGGCCTCC TTTTCGCTGATTCCCAGGATCAACGCCGCCGGCCGCGTTGGATTGCCAGA TGACGCCGTTGAGTTGCTCCTTGCCGACGATATGGGAAAAGCCAGAGACC TCGCGGTAAAGCTGGACAGCTACAATCGCAGAAGAAGGGCTCTGGAAAAA AATATCCTGGAAGAAATCATTGAAGATCTCGAAAAGACAATAAGTGACCG GAACAGGACAGCTCTGGTCATGGCTTCGGAAAAATGGCACCCGGGAGTCA TCGGGATTGTGGCATCCAAGATAGCTGATCGCTACGACCGTCCGGCTATC CTGATCAGCCTGAAAGACGGAATCGGGAAAGGATCCGGCCGGAGTATCGC GAATTTCAATATTTATCAGGGCTTAAGGGAATGTGAAGATTATCTGATAT CATATGGCGGCCATCGGTACGCTGCCGGTATTTCCATCATGGAAGAAGAC ATCGAACAATTCGCTGAAACGCTCGATGAAATTGTAAGGGAAAATGTTCT GCAGTCCGATTTCATCTCCGCGACGTTCATCGAAGCACAATGCCATTTGA ACGACATTACCCATGAACTGCTGGCGCAGATGGAACTGCTGGCGCCCTTT GGAAGCAAAAATCCCGAGCCGGTCCTCTGTGTGCGGAATGTCAACGCCTT TTCGCCCGCTGTCGTAGGGAACAACCATCTCCGCATGCGCGTATCGGAAG CGGGTGTGTCGCGCAATACGATCTGGTTCAGCCAGGGACATTTCATTCGT GAACTCAACGATTCCTGTCTTGATATCGCTTTTACACCGCAGATCAACAC CTGGAACGGAGCTTCCGACATTCAATTGAAAATGAAGGACATCACGATTC GCGGCAACTGA >SYN_02971 holliday junction DNA helicase ATGAAGAGAGATGATCTGGTGAGTCCTGAATGCATGGATGGAGATAATGT TTATGAAACGACATTACGTCCCCATAGCATCAAGGAATATGTTGGTCAGA AAAAAATAAAGAAAACTCTGCCCATTTTTGTTGAGGCGGCCCAAAAAAGG AAAGAGGCCCTCGATCATGTCCTGCTTTATGGACCTCCCGGTTTGGGTAA AACAACGCTGGCGCTTATTATTGCCAGAGAAATGGGATTCAATATCAAGG TAACTTCGGGACCTGTTATTGAACGTCCGGGAGATCTGGCGGCAATTCTG ACAAATCTGAAAGATTATGACATCCTCTTCATTGATGAAATTCATCGACT TCCTCATTCCGTCGAAGAAATCCTGTACCCGGCGATGGAAGACTTTTATA TCGACATTGTGATTGGGCAAGGGCCTTCCGCACGAAGTATGAAATTGGAC ATCCCGAAGTTTACATTGGTGGGTGCGACAACAAGAGCCGGGTTACTTAC TTCGCCACTGAGAGACCGGTTTGGGATAAGTTTCAGACTTGATTATTATG CTGTTGAAGAATTGACGAAGATCATAAACCGTTCTGCAAGCATTATGTCC ATTGAAATCGAGCATTCAGGCGCTCTCGAAATAGCAAAACGTTCAAGAGG TACGCCGAGAATTGCCAATCGTCTCCTTAAAAGGGTCAGAGACTATGCCC AGGTAAAGGGGGAGGGGATAATAAAAAGGGCTGTCGCTGTTCACGCGCTG GAAATGCTGGAAATTGATGACAGAGGATTTGATCAAATGGATCGGAGTAT TCTTTTGTCCATAATCGAGAATTACGGTGGCGGACCAGTAGGCATTGACA CATTATGTGCTACAGTCGGGGAAGAAAAAACGACGATTGAAGACGTTTAT GAGCCTTATCTGATAAAGGAAGGCTATCTACAAAAGACGGCACGCGGCAG GATAGCCACAAAAAAAGCGTACGAACATTTCGGGAAAAGAAAATTCGAAG TTGGACAAAAGGAATTATTTTAA >SYN_01765 DNA polymerase III, delta subunit ATGGGCATCCGAGCGGGAGAATCCGGCAACTCTTTGAGTAAGGCGCTTCT TGAGATCGAGAAGGAGCAGCCGGCTCCCTGTTATCTGCTTTACGGCGATG CGGAATACGAAATAAGCGATGCCTTCACGAAGATCATCGATGCGCTGCTT TCTCCGGAAGACCAGGCTTTGAATCTCTTCGTCCTGGACGGCGAGGATGA GGACCCGGAACGAATAGGGGAAAATCTTATGACCCCGCCTCTGCTTCCCG GCAGAAAGGTCGTTGCGGTCCGCCGGACACAGCTCTTTTCTTCCCGCAAG ACGCTGAAAGATCTGGTAAAGCGCATCCGTGAACAACTGAATGGAAAACC GCAGCAGGCCGCGAAGACCTTCATGACCTTCCTGAGTCTTGCCGGATGGA ATCTCGAGGATTTCAAGGGCGACGGCTGGAAAGCCATTTCCGATAAAGAC TGGCAGACAACCGTGGAGGGAGATGCCGGAGAGGACCGGATCAAGTGGCT CCCCCAGGTCGTCGAGGTTTGTGTCGATCTGGGACTGAAAGGCAGAAGCG CAACCGGCGGCGGGACGGATCATCTGGAGGCCATTCTGCGGGACGGCCTT CCCGCCGGCAATGTCCTTCTTCTGACCGCGGAATCCGTGGACAAGCGGAA AAAACTGTTCAAAACCATCAGTGAACTGGGCAGGGTGTTGCCCTTTGTTG TTGAGAAAGGCGAGGCCCGGCAGAAAAACACCTTGATGGATTCTGCCCGG GATCTTCTGGCGACCCGGGGAAAGCGCATGTCCTCCGGCGCGTGGGAGGT TCTGGGGAGAAAAACGGGGTTCCAGTTGCGGAACTCCATGGCGGCTCTGG AAAAGCTCATCACCTATACGGGGGAGCGAAAAACCATCGAGGTGTCCGAT GTCGAGGAAGTCATCAGCCGGACGCGGGAGGATAAAGTGTTCGACCTCAC CGCGGCCCTGGCGGAAAAGAACCTGAAGGGGGCGCTGTCTGTTTTACGGA GCCTGAGGGAGCAGGGAATTCATTCCCTTGTCATTCTATCCATGATCGTC CGGGAGATGCGGCTGCTATTGCATGCGCGGCAGCTCCGGAACGAGGGGGC GCTGCCGGGTTATCAGCCCCGGATGGATTACGGACGCTTTCAAAAATCGA TTTATCCGACCGTAAAGGGCTGGGCCGGGCAGGCGGGAGACGTTCACATT GAGCTGGCGGATTCGCACCCTTATGTGGTCTTCAATATCCTTCGAAATTC GGAAAACTTTTCGGAAAAGCGGCTGAAGCGCCATCTCGAGGATCTGCTGG CGATGGACCTGGCCATGAAGTCGACGGCGAAGGATGCCGACCTGATGCTG GAACGGTTCCTTATCGATGTGTGCCGCCCTTAG >SYN_01883 DNA topoisomerase III ATGGAAGACAAGCGCGAAGAGCTGGGCAAGTGCCCGGAATGCGGGAAACC GGTCTACGAGGGAAAAAAGTCTTACTATTGCTCGGGTTACAAGGAGGGAT GCAAGTTCGTGCTGTGGAAGAACAGCCTCGACCGGCTCGGGCACGCCGAC ATCACCCCCGCCCAGGCCAGGCAGTTGCTGAACAACGAGACAGTCGCCTT CACCGGTCTCAAGTCCAGGGCCGGCAACGAATTCGACGCCGAGGGGAAAC TCGCCAAAAACGAGACCTACGGATGGCAGATCGGCCTCATCTTCGGCGAC GCCGGCAAAGAAAAACAACAGCCCTCCGGCCGGGAAGAAAACGAATAA >SYN_02151 integrase/recombinase ATGGATGAGCTAATCAAAGAATTTGATCGTTACATGGACTTGGAGAGAAA TCTCTCAACGCACACACGAAAAAATTATTTAAGCGACTTAAATCAATTCA AAATATATCTTGAAGAAAATCATCGTGTTCCAACCGAATTAAAAACAGAG GCCTGGCAGAATGTAGATTATATGATGGTAAGAGCGTTTCTTGGGGCTCT CTATCGGCGCAGAGTCAAGAAAGTGACGATAGCCCGGAAACTGGCTTCTC TTAGAGCTTTTTTCAAATATCTGCATCAGAAGAGAAAAATTCAATGCAAT CCACTGGAAGCCGTTTCGACTCCTCGGACGGAAAAGTATATTCCCGCAGT TCTTTCAGTTGATGAAATCTTTGTCCTGCTGAATCTTCCTTTCCCGGAGG ATGTTTTTGGCTTGAGGGATCGAGCGATTCTGGAGCTCTTTTATTCCAGC GGCATTCGAGTCAGTGAGCTGACAGGAATCAATGAGGAGGATATGGATTT TTCTCAGGGACTGATCAGAATCCGCGGTAAAGGGAAAAAAGAGAGGATTG TACCCATAGGCCAACCGGCAAGTGAGGCTGTCCAGCGCTATATGATGAAA AAACCTGGGAGTGAAACGTCGGGAAAGGCGGTCGCTACTTGTCCCGTACC CCTGTTTGTGAATCGCAGGCAAGGGCGGTTATCTGCACGCAGTGTGGCGA GAATTTTGAGCAAATACGTTTCCATGAGCGGTCTTCAAAAGCAAATCAGT CCCCATACGCTGCGACACAGCTTCGCCACCCATCTTATGGATGCAGGGGC TGATCTGCGGTCTATTCAAGAGCTTCTTGGCCATGAAAGTTTGTCGACAA CTCAGAAATATACCGCAGTCAGTGTGAACAGGCTGATGGCCGTCTATGAC AGGGCTCATCCAAAGGCCCGGGGAGGTCACTGA >SYN_00429 exodeoxyribonuclease III GTGACCGCAAAGACTATGGCTCGATTCAAGATTGCCACATACAATGTCAA TTCCATCCGCTCCCGTCTTCATATCATTCTTTCCTGGCTTGAGGAAAACA GGCCCGATGTGTTCTGCATGCAGGAAACGAAAGTGGCGGATGCCCGGTTT CCCGCTGACGCTTTCACGGTTGCAGGCTATCATGTCGTTTTCCGGGGAAT GAAGCAGTACAATGGAGTTGCAATCGCTTCTCTGGAAAAACCGGAAAACG TCACATATGGATTAGGCGGAGAGGCAGACGACGCGGATGAGGATCGCTTG ATTGCCGCCGTTTATTCCGGTGTTCCGGTGATCAACACCTATGTTCCTCA GGGCCGCAATCGGGAAAACCCCCAGTTTGCCTACAAACTTCAATGGTATG CCCGCTTTCGGGAATATCTGGTTCAAAAGTGGTCATCAGATGCCCCCCTC GTCTGGTGCGGTGATCTCAATGTCGCGCCGGAACAGATCGATGTCCATGA TCCCAAACGTCTTCTCGGGCATGTCTGTTTCAACCCCGAGGTATGGGATG CCTTTGACCGGGTCAAGTCCTGGGGACTGGAAGACCTGTTCCGCAAGCAT CACCCCGGAGAAGTGGAATGTTACACCTTTTTTGATTACCGGGTTCCCCG ATCGGTGGAGAGAAAGCTGGGGTGGCGGATTGATCACATTCTTTCCACCC CCGCCTTGGCCGCGCACTGCGATTCATGCAACATCGATATGAACCCGCGG ATGGCCGAGAAACCATCGGATCATACAATCCTGGTTGCGGAGTTCACTAT TTGA >SYN_00695 phage integrase family protein ATGGGTCTGTATAAAAGAGGAACGGTCTGGTGGATGAGTTTTTCTCATAA TGGAGAGCAATTTCGCCGGTCAACTGAGACGGAAGACAGAAAACTCGCCA TAAGGATCTTTGACAAATTGAAAGGGGATATAGCGGAAGGAAAGTGGTTT GAAAAACTGCCAGGGGATAGTTACAAGTTCAAGGATTTGATGGATAAGTA TATGACGGAGTATTCTGCCGTAAATAAGGCTGCTTCGTCGTATAAGAGAG ATAAAAGCATTGTCACGCAGTTAAAGAGTTATTTTGGAGAGAAGTATTTA ACGGAACTTACTCCGGCAATGATATCCGATTACAAAGTCAAACGGAGGTC TGATGGAGTTTCATCCCGAACAATCAACTACGAACTCATCACAATGAGCC ATGCCTTCAATTTGGCAATTCGTGAGTGGGGATTAGCAAATGAAAATCCT GTTTCAAAGGTGAAGAAGGATAGGGTAACCAACAAGATCGAAAGATGGTT AACTTCAGAGGAAGAAACAAATCTGCTCAAGGAATCTCCGAAGTGGCTCC AGGATATTATTATATTCGCCATTCATACGGGCTTGCGCCAAAGTGAAATC CTTGATTTGAAATGGTCCCAGGTGGATATGAAACGGCGAACTGTCACCAT CCATGAACAGAAAAATCGCTGCATTGACACTCTTCCGCTCAACGAAACAG CCATGACTGTTCTAAAGAACAGGCATAATCCTGAATTACCATTGGAAGGG TATGTTTTCCCAAACACTTTGGGGGACCGCAAAGGGAACAGGCTGTTGCT GAAAGCCTTTTATGTCGCCCTTAAAAAGGCAAATATTAGCAATTTCAGGT TCCATGACCTTCGGCATACGTTTGCCACACGCTTAATCCGTAAGGGTGCC GATTTGTATACTGTTCAAAAATTAGGACGGTGGAAAACTGTAACGATGGT TCAGAGGTATGCTCATCATCACACGGAAAGTTTGAGAGCAGCCATTGAAA TGATGGATGATGTAGAAAAACCGATTATCACAAATTTATCACAATCACAA AAAAAGAGGAGTAAAGCTCCCCTTTTAAAACTCGCAAGTAATTGA >SYN_02227 integrase family protein ATGGCAATCAAGTGGATACATTCAGAACAAAAAGGGGTTCGGTATTATGT TCATCCCACTAAGAAATATAGAGAGGGAGAGAGCGGACCATACAAAAAGG ATCGCTGCTACGTGATCCGTTATCAGGCTCACGGAAAAAGGTATGAACAT GTTGTCGGTTGGGCCTCAGAGCTAGACCCAAAAGACGGCAAACATTGGAA TGAATTAAAGGCAGCAACCTTACGGGCTGAACTGATGGGAAACGCGAAGG GTCATCAGGAAGTGAAAACAATTTCTGACATGCGCGAAAAGGCAAGGAAG CAGGAAGAAGCGAAGCAAGCCGAGGTAGAGAAAAAGGAAAAAGAATCCAT CACCTTTGGAAAATACTTCAAAGACACCTATTTCCCAGACATGGCCCACA AGAAAAGCAAGGATGTTGAACAATTCATCTACGACAAATGGATTTGCCCT CTCATAGGCAAGTTAAGAATCAATGACCTTACAGATTTTCATCTTAAGAA GATCAAGAAGAACATGGAAGATAGCGGGAAGGCCGTTCGAACTATCCATT ACGCCTTCGCCATTGTCTCTCAAGTATGGAACCGCGCTCGAAAGGATAAG ATCGTCCAGAGGGATTGCCCGACCAGAGACGTTAAACTCCCACGCATCGA CAACCAGAAGAAACGTTTTCTGTCCCCACAGGAAGCAAATGACCTGCTTG CCTACCTAAAGAACAAGAGCCGGCAGCTTTATGAACTGGCATATCTCAGC CTCTATACTGGCGCACGGTTCGGCGAGCTGGCCGGGCTGACATGGCGGAG AATAAATCTGAAAGATGGAAGCATTATCTTCAGGAACACAAAATCCGGAA AAGATCGAACGGTATTTATGACTGAAGGAGTCAAGGCGCTATTTGAGGCC ATGCCTGAAGGTAAAGCCGATGATCTTATTTTTCCAGACAGAAAAGGAAA GCGGCTTTTTTCGGTATCAGCTACCTTTGACCGGGCTATTGCTGACCTGG GATTAAACAAAGGGGTTGTCGATCCCCGCGACAAAATAACCTTCCACAGT TTACGCCATACCCATGCATCATGGTTGGTGAACAACGGAACAAATCTCTT TCTGGTCAAAGAAATACTGGGCCATGCTGATTTCAAAATGACAACCAGAT ATTCACATCCTGCTGCCGACAGCATTAGGCAGGCGATGGTTGGCCTTGAG AAGAAAATCCCTGGAATGGCCGAAAGTCAGACCGGGCAGGTTGTGAATTT TTCAAAAGAGACTTGA >SYN_02797 SMF family protein involved in DNA uptake ATGGAAAATGATGAACTGATATACTGGATGGCCTTACGATCCGTCAATGG GATCGGAAACTTGGGATTCAGATCTTTAATGGATGCCTTTAAATTTCCCC ATGATGTCTTTCACGCCTCCTATCAGGATCTGATGTCAGTCCCTGGAATC GGTCCGAAGACGGCATCGCGCATCAAGGCATTTCATGAGTGGCGAAGGCT GGAATATGATTTGAAAAAGCTTCAACAATTGAATATTCATGTAATCACCT TTCATGACAGGCATTACCCTTCACTGCTGAAAACTATTTATGATTACCCT CCAATTCTCTACGTTAAAGGAATGCTGAAGAATGATGATCTGAATATCGC TCTGGTTGGATCACGAACGGCCAGCACTTATGGAGTCTTCACGACAGAAA GACTGGCCAGGGAGCTGGCCTTGAATGGAATCACTGTGGTCAGCGGAATG GCCAGAGGCATCGACTCTGCAGCGCACAGGGGGGCTTTGGCGGGTCGGGG CAGGACAATCGCCGTATTGGGATGCGGTCTTGATATCGTTTATCCTCCCG AAAATAAAAATCTTTATGAAAAAATTGCTGCTGACGGCGCTGTCATTTCC GAGTTGGCACTCGGGACTCCGCCCAATGCCCCTAATTTCCCCCTGCGCAA CCGAATCATCAGCGGTCTTTCCCTGGGTGTCGTCATAGTTGAAGCCAATG AACGGAGCGGTTCTTTAATCACGGCGCGAATAGCCCTGGAGCAGGGGCGG GAAGTCTTTGCCGTTCCGGGGAATATAGACTCCCACGGCTCAAGGGGCAG TCACAAATTGATAAAAGAGGGAGCGAAGCTGATTGAAAATGTTGGCGACA TCCTGGAAGAAATAATTCCTCAGATCGAACGACGGCGAGAAAATAATCTC CTGAACGAGCAGGAAAAGAACACAGAAACATCAGAGAAGAAAGTCTCCTG TGAAACCAGATCCTGTTCTGCTGCTTCCATCTTTCCTTCTTTCAGTGAAA ACGAAGCGCTCATTTTCAATCTCCTGACGGACAAACCTGTCGATATCGAT TTGATTATTGAGAAGTCTGGATTAAACATCAATGAGACATTGAATTGTCT CTTGAATCTGGAACTGTACGAAGCGATCTTGCAGTTGCCGGGAAAGCTTT ATAAACGTAAGGAGCAATCATGCCGGATTCCCTGA >SYN_02474 recB family exonuclease N TTGAGGTCATCAGTTGGGTTCCGAATCCGGGAATGTGATGCCATGTTCGA CGAAGATGACTTAATCATGATTTCCGCTCTTCAGCATTACTGCTTCTGCC CTCGCCAGTGTGCTCTGATCCATATTGAACAGGCCTGGTCGGAAAACCGT CTGACTGCCGAAGGGCGGTTGATGCATGAGCGGGCGCATGAGGAGGGTGA GGAATCACGCGGGGATCTACGCATCGCGCGAGCCGTGATGTTGAGATCCT TTCGTTTAGGTCTGATCGGCATGGCTGACGTGGTGGAATTTCATCGGATG GAAGACGGCCGATGGCAGCCTTTCCCGGTGGAATACAAGCGTGGCAAACC CAAAATGGACGACTGCGATAAGGTGCAACTCTGCGCCCAGGCGATTTGTC TGGAGGAGATGTTGAGTGTGGAAATTCCGGGCGGGGCGCTGTTTTACGGC AAAACACGCCGCCGTCTGGATGTCGCCTTTGATGCAGACCTGCGTCGGAA AACAGAAGCGATAGCGCGGCAGACTCATGAACTGATCGCATCAGGAAGGA CACCCCCTCCGGCCTATGGAAAATACTGCGAAAGCTGTTCGCTTATTGAA GGATGTCTGCCCAAAAAAATGCAGAAAAAACGTCCGGTCAAGGCTTATTT GTCCAGGATGCTGAGTGATCCATGA >SYN_02090 ADP-ribose pyrophosphatase ATGTCCGAAATCAAGCCACAGCGACTGGAAGAAAAACCAGTGTATACATG CCGGATTTTTGAGGTCTACGAAGGAAAAATTCAACTGCCCGACGGCAGGA CAGCCACTCAGAGCTGGATCAATCACAGGCCCTGCATCGCCGCCGTGCCC GTTTCTCCTGAAGGGAAGCTGCTTTTGATCCGTCAGTATCGGGCGGCTGT CGAGCAGATGCTCCTCGAAATACCGGCCGGAGCCCTGGACAAGGGGCCGG AAACTCTTGAGGAATGCGTCCAGAGAGAGCTTGCGGAAGAAATCGGGTTT CAGGCCCGACGGCTGGTCAAACTTTTTGAAGGGTATCTGGTACCCGGCTA CTGTAATGAATACATGTATTACTACCTGGCGACGGATCTTTTTGCTGCGT TCCTGCCGCCGGACCTTGATGAAGTTATCGAGGTGGTCCCGATCTCTTTT CAGGAGGCCTTGGCCATGATGAAAGACGGCCGGATCGCTGATTCAAAAAC CGCCCTGGGGATTACCCTGGCCTGGGAGTATCTGAAAGGCTCTTCGGACG CGCCGCCTTTTTCCGGCTGA >SYN_02261 DNA polymerase I ATGTCAACAGGCGACAATACGGAAAACAGCGAAAAGAGTACGATTTATCT GGTCGACGGCAGCAATTATCTGTACCGGGCCTTTTATGCGATCCGGGAAC TTTCCAATTCCAGGGGGCTTCCCACCAATGCCGTCTACGGATTCACCAAT ATGCTGATCAAGCTTCTCCGGGAGCGGAAACCGGAATACATTGCCATCAC CTTTGATCTAAAGGGGCCGACCTTCCGGCATGAGACTTACGCGCAATACA AAGCCACCCGGAAAGCGACCCCCGAGGCCCTGATTCCCCAGATCCCCTAT ATAAAGGACATCATCCGCGGTTTTTCCATCCCGATTCTTGAACAGCAGGG GACGGAAGCCGATGATATCATCGGCACCCTGGCCTGCCGTTTTGCCGGGG AAGGCCTAAAGGTCATCATCGTCTCCGGCGACAAGGACATGCTGCAGCTT CTTTCCCCCGATGTCATCATGATCGATACGATGAACGACCGGACCTATGA TGTCGCGGCCGTGAGGGAGCGTTTCGGCGTGGATCCGGAGAAGGTGCCCG AGATCCTGGGACTGACGGGGGATATGTCGGATAACATTCCCGGCATTCCA GGCATTGGTCCGAAGGGTGCCTTGCGGCTCGTTGAAGAGTACGGCTCGAT CGAAGAGATTCTGCGGAATGTGGAACGCCTGAGGAATCCGAAACTCCGGG ACAGTGTCCGGGTTTACGGTGAACAGGCCCTGCTGAGCCGCGATCTGGCC CGGATCCGCACCGGTATCCCGCTGACCTTTGATCTGGAAGAGGCCCGCCT CCAGGAACCGGATCGAGAGGTTCTGACTCGACTGTTCCGGGAACTGGAAT TTTCCTCCCTGCTTCAGGAATTCAGCGTCGTTGAAGATTGCGGCGACAAT TCCCATACACTGCTGCGAACACCGGAGGCTGTGGCGGCTTTCATGGAACC GCTGAAAGAGGGGGGATTTCTGGTCCTGGAAATGGTGCTTTCCTCGAGTG AACCAATGCGGGCGGAACTGATTGGAGTGGCCCTTGGACTGGATTCCGGG AACGCCGGTTATATACCTCTGGAACCTGGCGCAGCGGAAAAGAGCGCTTC AAGTCTTTCGGAAGAGCAGGTTTTTCCCGTCCTTTTTCCATTTCTAGCGG ATAAAAAAATCGCCCTTGTCGGTCATGATCTCAAAACGGTTCTGATCGTC CTATCCCAAAAAGGGGTGAAGGTGCAGAATCCCCTCCTGGATACGATGGT GGCGGCCTACATCCTCAATCCTGCGCGGCGCGGGTATGAACTCTCCGAGA TTGTGCAGGATTATCTGCACCGGCAGGTGGAGCCGTTGCGGAAAAAACTG GTCGGCGGGAGCTCGCCAAAACAGTCTCCTGCGTCCTTTCCGCCTGAACG TCTGCGGGATTTTGCCTGCCGGCGGGTGGAAGCTATTGGGGAGCTGGCTT CGACTCTGATTGAAAAAATGGAAGAGACGGGCCTCCGGGAACTGTTCGAT TCGGTGGAGATGCCGCTGGTGGCGGTGCTGGCCGCCATGGAAGAAAAAGG GGTTCTCCTGGATTTGCATCTGCTGAAGGAGATGTCTCAGGAACTGGGTC ACCTTCTTTCTCTTTCGGAGGCGAAAATTTATGCCCTGGCGGGGGAGCGC TTCAATATCGCGTCTCCCAAGCAGCTCCAGACCATCCTTTTTGAAAAGCT TAATCTGCCCAAGGGGAAAAAGACGAAGGGAGGATATTCTACGGATGTGG AGGTGTTGAGCAATCTTGCCCTGAACCATGAACTGCCGGCCGAGATCCTT GCCTACCGGAGCATGGCCAAGTTGAAATCCACGTATATCGATGCCCTGCC TTCCCTGATCAACATCCGGACAGGACGGATTCACACCTCTTATAACCAGA CGGTGGCAGCAACAGGTCGCCTCTCCAGCAGCAATCCCAATCTCCAGAAC ATCCCGATCCGCACCCTGGAGGGGAAGCGCATCCGGCAGGCTTTTATTGC CCCGCCAGGATGGGCGATCGTCTCCGCCGATTACTCTCAGATTGAATTGC GCGTGCTGGCCCATCTCTCCGAAGATCCGGTCCTGATTAATGCCTTTGCA GCCGGTGAAGACATCCACAGCCGGACGGCCGCCGATGTTTTCGGCGTGTT CCCGGAAATGATCAACGCGGAGATGCGCCGTCAGGCGAAGGTCATCAATT TCGGCGTGCTTTATGGGATGAGCGCCTTTGGCCTGTCCCGGGAACTGGGG ATTCCCCAGAAGCAGGCCCAGGCTTATATCGATGGATATTTTAAAAAGTA CGAAAGCGTCAAAACCTATCTCGACGGCATCCTCCAACAGGCCAGGGAAC GGGGCTATGTAACCACACTCCTTAACCGCCGCCGTTATCTTCCGGAAATC AACAGCGTCAATCCCGCGGTGCGTCAGCTGGCCGAGCGCATGGCCATCAA TGCGCCCATTCAGGGGACAGCGGCTGATCTCATCAAGATGGCCATGCTCA GGATCGCAGACCTCATCAGGGAAAAGGGGATGAAGTCTGCCATGACGATG CAGGTTCATGATGAACTGGTCTTTGAAGTGCCGCAGGAAGAAAAGATAGC GCTCATGAACCTGGTCCGGCAGGAGATGGAAGGGGTTGTCGAACTCAAGG TCCCCCTCAAAGTGGATATCGCCTCCGGACGAAACTGGGATGAGGCTCAC AGTTAA >SYN_00291 ribonuclease H ATGAAAGCAACCAGCAAAGCGAAAACACATCCCCCCGGGGCAACCGCTGC GAAGGATCCTCAAAAACAGGTCATCATATACACCGACGGGGCCTGCCTGG GAAATCCAGGACCGGGAGGGTACGGGGTTGTTCTTCTTTATGGGGAGCAC CGGAAAGAACTCTCCGGCGGCTATCGGCTCACTACGAACAACCGGATGGA GATCCTCGCGGCCATCAAGGGGCTGGAGGCCCTGAAGAGCGCCTGCTCGG TCACCCTTTATTCGGATTCACAATATCTGGTCAATGCCATCAACAAGGGA TGGGCGCAACGCTGGAAGGCGAACGGCTGGAAACGGAACGCCCGGGAAAA GGCGCTCAATCCCGATCTCTGGGAACGGCTGCTGGAACTCTGCTCCCGCC ATGATATCACTTTTGTCTGGGTGCGTGGGCACGCGAACAACAAGGAAAAC GAACGCTGCGATGTCCTGTCCAAGGAGGCCGCGGGACGGGCCGACCTGAA AGCCGATCCGGGCTACCCCTGA >SYN_00723 transposase ATGTCCACAAGTCTTCTTTACCACGGATTCAGCCTAGTCGGCTACGATTA TGTCAGGACGCGATATGAAGGAAGAAGTATCACGTTCACCATACGCCACA AAAGGAGCAAGCTTTGTTGTTCAGTCTGTAGAAGCCGGGAGATCATCATG CGAGGAACGACCAGGAGACGGTTTCGAAGCATTCCCATCGGTTTCAAGAA TGTGTTCTTCGATCTCAGCGTTCAGCGGGTGGGTTGCCTTCGTTGCGGCA GTATTCGTCAAGTGTCGCTGGGATTTGCTGACCCCCGATTTTCTTACACC CGTGCTTTTGAGCGATATGCCTTGGAATTGTCGAAACACATGACGATCCA GGATGTAGCCGCACATCTGTCGGTATCCTGGGACGCGATCAAGGAAATTC AGAAACGGGATTTGACGAAGAGGTTTTCCAAGCCCTGCCTGAAGGATCTT CGGAGAATTGCCATCGATGAGATCTCGATTCGCAAAGGGCATCGGTATCT GACTGTTGTTTTGGATATGACCAAAGGGACGATCGTCTATGTCGGTGATG GCAAGGGAGCCGATGCGCTTGACTCTTTCTGGAAAAAGGTCAAACGTGCC GAAGCCAAGATTGAAGCCGTTGCCATGGATATGTCTCCCGCTTATATCAG CGCTGTATCGACTCATCTTCCGAAAGCGACGATTGTTTTTGACCATTTTC ATGTCATCAAGCTCTTCAACGACAAATTGTCCGGGCTAAGAAGAGACCTT TATCGAGAGGCAAAAGATCTCCTTCAGAAGAAAGTCCTGAAGGGTACCCG CTGGCTTCTTCTGAAAAATCCGGAAAATCTTGATTCATCCAAAGCTGAAA AGGCCCGCTTGAACGATGCCCTCCAGCTAAATCAGCCACTTTCATGCGCC TATTACCTGAAAGAAGATCTCCGACAGGTCTGGTTACAGCCAACCAAGAA AAAAGCACGCCTGGTATTGGTTGATTGGATCAAGAGGGCGGAAACTTCCG GGATAAAAATGTTGAAAAAGTTTGCGAAGTCACTTGCCGCATTTCAATCC GGTATCCTCTCTTATTATGATTACCGCATCTCGTCGGCTCCCTTGGAAGG CACAAACAATAAAATCAAAACCATGAAACGGATGGCCTATGGGTTCCGGG ATATCGAGTTCTTCAAACTTAAAATCATGGCCATTCATGAAGCCAAGTAC GCTTTAGTCGGATGA >SYN_00772 endonuclease TTGATTTTTAGGATGACGCAAAACCTTCGAACCGGAAAACTGGGCGAACA GATGGCTGCGGCTTATCTGGAGGAAGCCGGTTACCGCATCCTTGAGCAGA ATTATCGATGCCGTTTCGGGGAAATCGATATCATAGCCAGGGATGGGGAT ACGATTGTTTTTGTGGAAGTGAAAAGCAGGCGATCCGATAAGTACGGGTT GCCGCAGCTTGCCGTTGGTCCTGACAAACAGATGCGGATATCCAAAATCT CCCTTTTCTACCTTCAGACAAAACGACTTGATTCATACAATGCCCGCTTC GATGTTGTTGCCGTCAGTCTGAAGCCGGAGGGGTGTCGTATTGAATTGAT TAAAGACGCCTTCGAACTGGCCTACGGACGGTAG >SYN_00398 transposase GTGGACAGGATAGAAAGAAGGCGTATCCTCCAAACGTTTAATCCAAAAAA CGAAGCCCCTTTAGCAAGAAGGGGAGGAAAGGATACGCCCGTGGAGAATA ATGACCGCGATTATTGGGAAAAGCAAGTTAAAGAAGAAGCAAAGAACGTC CTGGAACTGATTATCCGAGAAGGAGCCTGCCGGATGTTGCAGGCGGCGAT TGAGAACGAAGTAAGCGAGTACATTGACCGCTTTAAGAATGAAAAAGACT CCAGGAACAGGCGGTTAGTTGTGAGAAACGGTTCCTTGCCTGAAAGAGAG ATCGTAACAGGTATCGGCCCCTTAAAGCTAAAACAGCCCAGGATTCATGA CAAAAGAGAAGATCAGCTTTTTACGAGCAATATTCTGCCGAGATATATGC GCCGGATTCCCTCGGTTGATGCCTTAATCCCAGCACTGTATCTTAAAGGA ATCTCCACGGGAGATTTCAGCAAGGTGCTGGAATCCATATTGGGGAAGAA TGCATCGGGGCTTTCCGCGACCAATATCGTCCGGCTGAAGAGGCTCTGGG AGCAGGATTATAAAGACTGGGCCAGACGAGATCTTTCCTCCAAACGATAT GTTTATTTCTGGGCAGACGGCATTTACTTCAATGTTCGTTTGGAAGATGC CGAGAATAAGCGGCAATGCATCCTGATCATTATGGGAACATTGGAAAACG GGAAGAAAGAACTCGTCTCCATTCTCGATGGCTATCGGGAAAGCAAACAA GCCTGGCAGGAGATGCTGGGCGATCTCAAGCACAGGGGTCTTAAAGAAGG TCCCAAGTTGGCAGTGGGCGATGGAGGTCTGGGATTCTGGGCAGCCCTGC GGGAGGAATTTCCGGAAACAATAGAGCAACGTTGCTGGGTTCATAAGACT GCTAATATTCTGGATAAGATGCCCAAGAGTATTCAGCCGAGAGCCAAGGT GCATATCCGGGACATGTACATGGCGCCAACAAAAGAGGAAGCCCTCAAGG CCTTTCATCATTTTCTGTCACAGTATCAGGCGAAATATGAAAGGGCTTGC AACTGCTTAGAGAAGGATACGAACAGTCTTTTCGCGTTTTATGATTTCCC CGCAGAGCACTGGCGTCATATCCGGTCTACCAATCCTATTGAATCCACTT TTGCCACGGTCAGGCTGCGCACAAATCGGACAAAAGGCTGTGGATCACGG TTAGCAACGCTGACCATGGTTTTCAAGCTGGCAATGGAAGCGGAAAAAAC CTGGCAGAGAATCAAAGGGCATCAACTTATCGGAAAGGTCATTGAAGGAA TCCGGTTTGTTGACGGCCTCATCATGCAAGAAGCGGCTTAA >SYN_03204 sec-independent protein translocase protein ATGATGATTGATTCGCACGCTCATCTTGAGCTGCCGGAATTTGATTCCGA CCGGGACGAAGTGATTGCCCGGGCAAAGGAAGCGGGTGTTGATGCCATTG TCACGATTGGAATCGATCTCGATGATTGCCTCAAAGCGGTGGAAATTGCC GACCGTTACGATATGGTCTACGCGGCGGTGGGGATTCATCCCCATGAAGT CAAAGTGATCGACAGGCAGACCTACGACCGGATGCGGGATCTGGCCGCCC GCCCCAAGGTTGTGGCCTACGGTGAGATCGGGCTGGATTTTTTTCGGAAT CTTTCCCCCAGGGATGTGCAGATCCGCCGCTTCGGGGAACAACTGGAACT GGCTCAGGACCTGAATCTTCCCGTGATCATTCACGATCGCGAGGCCCACA GGGAAACGCTGGAAATCCTGAGCAGCTGGAAAGGGCAACGGCGGGGGATC ATCCACTGCTTTTCCGGCGATTACGCCATGGCCCGGAAATGTCTGGACCT GGGATTCTATATTTCCATACCGGGAACGGTGACCTTTACCAAGGCGGACA CCCTGCGGGACGTCGTCCGCCGCGTCCCGGCCGAATCTCTCCTTGTGGAA ACGGACGCGCCTTTTCTGACGCCGGAGCCACACCGGGGGAAGCGTAACGA ATCGGCTTACGTGAAGTACACCGCGATGCGGGTCGCGGAACTCAAGGAAA TGAAGTTTGAGGAACTCGCGGAAATAACATCGCGAAATGCCAGTGAAATA TTTTCGATTAAACTATAA >SYN_00495 type I restriction-modification system specificity subunit ATGGAAATAAAAACTTCGGCAATACCAAGCGACTGGAAAATGATGACGTT AGGACAAGTAGGTGTTACCGTCACAGGCAAAACCCCATCAAAAGATAATC CCGAAGATTGGGGCGATTTATTAAGTTTTATTACTCCTACTGATATTATA TCTGATTCAAAGCACCTGAAGACTGTCGCAAGGAAATTATCGGGAAGCGG AATAAATACGCTTAAAAAAATGATCATTCCCGCCGGTTCAGTTGTTGTGA CTTGCATTGGTTCTGATATGGGTAAAGTTGTCATTAATAGTTATGACTCA GTTACTAACCAGCAAATCAATTCAATTAAAGTTAATGATAACAACAACAA AGATTTTGTTTATTATCTGCTGAAGAATTCATATTCCATCTTACGAAACC ACGCCATTGGTGGTTCAACAATGCCAATATTAAATAAATCAACTTTTGAA TCGTTGGAATTCATTTTTCCTTCCCTAACTGAACAACAGGCGATTGCAGC GGCGTTATCTTCTTTGGATGATAAAATAGAGCTCTTGCGAACACAAAACA AGACACTTGAAAATATCACTCAGACCATTTTTAAACATTGGTTTGTAGAT TTTGAATTTCCTGGCAAAGACGGAAATCCATATAAATCCAGCGGCGGGAA AATGATTGAATCCGCGCTCGGAAAAATCCCGAATAATTGGAGAATTGGGA AATACGAAGATGTAGTTGATGTTGTAACCGGGAAAGGAATGAAGAAAGAC AATTTAAGGAGCAATGGCCTATATAAAGTATTAGGAGCTAATGGTGAAAT AGGAAAAACGGATGAATATTTATTTGACGAAGACCTTATATTAACGGGTA GAGTTGGAACTTTAGGGACGATTTTTATTTCCAGAGGCAAAGTTTGGATT TCTGACAATGTTTTAATTTCAAAACCAAAATCTGATGAGAATTGCTATTT TGCATATTTCCAATTACGTAAACTCAATTTGGAAAGCCTGAATCGCGGAA GTACTCAGCCTTTGATTACGCAAACAGACTTGAAAAACGTTGAAATAATA TTGCCTCCAAAAGAGATCCTTTTTGACTGGCACTGTATGGCTTCAAGTTT ATTTACAAAAATATTTAATAACGATTTTCAAATCAACACTCTTTCAAAAA TCCGCGATACTCTCTTACCCAAACTGATGAAAGGAGAAATAAGAGTAGCT AGTTTCAATAATTAA >SYN_02178 uracil DNA glycosylase superfamily protein GTGATTGAGATGAACGAATCGGATATCTTGAAAGACGAATTGTACACGCT GGTCCGTTCCTTAAAAAACCAGATCGAGCTTGCGTGGGAACTTCGACATC CTTTATCGTGGACGACGGCGGAGGGAGATCAGAAATCGCCATTCCTCGGA ATGAAGCTGGCCTCAGGGGTGCATGAACAAGATGTGAAGGAATCGTTGAT CTCCTCCGACATCACCGGTCCAGCGGACAATCCCCTGGAAACACTGGATG ATATTCGACGTGACATGGAAGCGTGCCATCGCTGTCCCCTTGAAAAAACG CGGAAAAATCTTGTCTTCGGCGAAGGCAATCCCCACTCGGAACTGGTTTT CGTGGGAGAAGCGCCCGGCGCCGACGAAGATCTTCAGGGAAGGCCCTTTG TGGGACGCGCCGGTCATCTCCTGACCAGAATTATCGATGCCATGGGACTG AAAAGGGAGGATGTCTATATCTGCAACATCCTGAAATGCCGTCCTCCGGG AAATCGAAATCCCCTGCCCGAAGAAATCGAAGTTTGTGAACCCTGGCTGA TCCGACAGCTGGAAGCGATCCGTCCACGGATAATCTGCGCTCTGGGCACC TTTGCGGCTCAGACCCTTCTCAAAAAGAAGGGAATTCCTATTACCGTTCT TCGTGGACAGTTTCATGACTATCATGGAATTAAACTGATGCCTACCTACC ATCCCGCATATCTTCTGAGGAATCCGGGAGCAAAAAGGCAGGTTTGGGAA GATGTACAGAAAATCATGAAAGTTCTGGAAGCGGGTCAATAA >SYN_01037 exodeoxyribonuclease V alpha chain TTGGTGTCGCCACTCCATATTCCCGGAATCTTTAAAATGGAAAAATCCCC GGACAGAACGCATTCCTCGGCAGACCCGCTGGTTGACCTTCAGGGGCACA TTGAGCGCGTCAGTTACATCAATGAAGAAAGCGGTTATACCGTTGCCCGG GTGAAGGTATCCGGCCACCGTGATCCGGTGACGGTGGTGGGCGGCATGAT GAACCCCACGCCCGGGGAAAAGGTCCGGATGAAGGGGGAATGGACGAATC ACCCCCGGTTCGGGGAACAGTTCCGTCTCGTGTTCTGCGAATCTTCCGTT CCGGCAACGGCCGTCGGCATCGAGAAGTATCTGGGATCGGGGCTGATTAA AGGGATTGGCCCCGTCATGGCACGGCGGATGGTGGAGAAGTTCGGCGAGG CCACTCTGGAAATCATCGATCAGGATAGTGCCCGCCTTCAGGAAGTGGAG GGCATCGGTGAAAAACGGATCACCATGATCCGCAGGGCATGGGAAGAACA GCGGGAAATCCGGTCCATCATGATTTTTCTTCAGTCACATGGGGTCAGCG CAGCCTATGCAGCCCGGATCTTCCGTCAGTACGGCAATGCCGCCATAAAG GTGCTTCAGGAAAACCCCTATCGCCTTGCCACGGATATCTTCGGAATCGG GTTTCTCACGGCCGACCGAATCGCTGAAAAGATGGGCTTTGCCCGGGATT CCCATCTCCGTGCGGAAGCGGGAATCCTCTATGTCCTTCATGAACTTTCC GAGGAGGGCCACGTCACTTACCCTGCCGGGCCGCTGATCCGAAAATGTGA GGAAACCCTCGAAATCGATCGGAAATTCATCGCTGCGGCTCTGGAAGGGA TTGCCGGAGAGCGACAGATCGTCATTGAAGACGGAGCATCTTTCCCCGAG GCACTCCCGGACCGGACCGTTTCCCTGGCAAAATATCACCTTTCGGAAAC GCAGACCGCAGCCAGGCTGAGGATTCTGCTGAACACTCCGTCAGCTCTCC GTGAAATCGAAACAGAGAAGGCCATCGCCTGGGTGCAGGAAAAATTATCC CTGACTCTGGCGCACAACCAGATCGAGGCGATTCGTGCCGCCGTGTCGAA TAAGCTGCTGGTCATAACCGGCGGACCGGGGACAGGGAAAACCACGATTA TCAATGCGATCATTCGCATTTTTTCCGCATCGGGGACCAAGATTCTGCTG GCTGCGCCCACGGGGAGGGCGGCCAAACGAATGAGCGAAGCCACAGGGAT GGAGGCGAAGACGATTCACCGGCTGCTGGAATACAGCCCTCAGAAGGGTG GATTCCAGAAAGACGACACATCCCCCCTGGACTGCGAGATGCTGATCGTG GACGAGGCTTCGATGATCGACATCATCCTGATGCATCACCTTGTAAAGGC CATTCCTCTTCCGTCCTCTTTCATCATGATCGGGGATGGCGATCAACTTC CCTCAGTGGGAGCGGGCCGCGTTCTGAATGACGTGATCGAATCGGGTTGC CTGCCTGTGGTGGAATTGCGTGAAATCTTCCGTCAAGCGCGGGAAAGCTC CATTATCAACAATGCCCACGAAATCAACCGGGGGAAATTTCCCCGCCTCC AGCCCCCCGGAGACCGGTTGGATGACTTCTATTTTGTGGAACAGGAAGAT CCGGAAAAAGTGGTCGATCTGATTATCCGCCTGGTAAGGGAACGCATTCC CCAGCGTTTCGGGCTTGATCCAATGGAAGACATTCAGGTGCTTACTCCCA TGCATCGGGGTCTTGCCGGGGCGGGGAATCTGAACAGCGTCCTGCAGGCG ACACTGAATCCCGGTAAAGACGGTCTGCAGAGGGGCGGGAGGTTTTACCT CGTCGGAGACAAGGTCATGCAGATCCGCAATAATTATGACCGCGACGTTT ACAACGGCGATATCGGCAGGATTGTCCGGCTGGACCATGAACTTCAGGAA GCCACCCTGAACTTTGACGGGCGCGAGGTTGTCTATGAGTATGGCGATTT GGAGGAGATTGTCCTGTCGTATGCCGTTTCTGTCCACAAATCACAGGGGG CGGAATATCCCGCCGTGATCATGCCTCTGCTTATGCAGCATTACATGCTT CTTCAGCGGAATCTCCTCTATACGGCGGTTACGCGCGGGAAAAAACTGGT TGTGATTATTGGCTCAAAAAAGGCATTGGCCATCGCCGTCCGTAACAACA AAACACATAAGCGTTTCACACTGCTCAGCCAGCGTTTGCGGAAGGCAATG GCCGAATCATGA >SYN_01734 4-amino-4-deoxychorismate lyase ATGCGCATCTTGGGACTTGATTACGGTGAGAAGCGGATCGGAGTTGCCCT CTGTGATGAACTGGGGCTGACGGCTCAGGCTTTGACCACCGTAATCAGGA AATCCTGGCGAAATGATGTCGGGATCATTGCGTCTCTGGTCCGGACCTAC GATGTGGAGAAAATCGTTATCGGCTATCCCCTGCGACTTGATGGCACGGA AGGAATTCAGTGCGAAAAGGTTGTCCGCTTTGCCCGCCGTCTGGAAGCCG CCCTCGGTATTCCTGTCATTCGGTGGGATGAAACCCTGACGACGAAGGAG GCGGAAGAGATCCTGTCCCGCTCCGGGGTTCCCCCAAGAAAAAGAAGGGG AGTCGTTGATCGCCTGGCTGCCAGTCTGATCCTTCAATCCTATCTGGATG CCATATCGCAAGAAAAAATTCCTTCGGATGCCTGCGATGCAAATGAGTCG TGA >SYN_01325 transposase ATGAAAGGAGAAAGCGCCATGAAACTGGAAGTAACGGTATCTGAGATTAC GGATATATTCAAGGAGATTCAAGAGCAGCCGGGGAAATTGTTTGAGATGA TTCGCTTGGATATCAGAGAGGTTGTTGGCAACTATCTTACAGAGATGATG AATGCGGAGTTGACCCATTATCTGGGAAGAGAGCCGTATGTCCGGGTGGA GGGAAAGAGAGCAAATCATCGCAATGGTTCCTATGGCCGTGGTTTTACCC TCAAAGGGATTGGTGAAGTCCATGTGGATATTCCCAGGGATCGTAACGGT GAGTTCAAGACAACCGTTATTCCTCGGAGCAAACAGTATGAAGAGGAGGT GGCCAGGGACTTCAGCATTTTATTTCTAGCCGGCGTCAGCACCAGGACCC TGTCCATGCTATCCGAGAGGCTTATAGGACGGAAGATTTCTCCGGCGGAA ATCAGCAGCGCAAGCAGCGATCTCAATGAGGCCGTCGAAACGTGGCGTCG GCGGGATTTATCAGAGGAACCGGTCAAGTACCTGTTTATTGATGGCGTCC ACTTCCATATGCGTATGGGAAGAACCATCGAGAGTATTCCAGTCTTGGTG GCCATCGGTGTGACGGAGACCGGGCAGAAACTGGTACTGAGTCTCCAGGC CGGGGACAAAGAATCTGCAACCTCCTGGCGGGAGTTTTTCAAAGACTTGA AATCCCGTGGAATGAAAGGAGGAAACGTCACCTTGGGGATAATGGATGGA TTGCCGGGTTTGGAGACCGTTTTCAGAGAAGAGTTTCCGCAGGCGAAAAC ACAGCGTTGCCAAGTCCATGTAGCCCGGAATGTCCTGGCCAAGGTATCGA AAAAGTTCAAAAAGGATGTGGCGAATGATCTGCGTTCCATCTTCTATGCA CCTTCACGGGAGACGGCATGGGCATGTTTTGAAGCCTTTATAAAAAGATG GGAAAAGACGCTTCCGTCAGCAGTTGAATGCCTGAAGCGCAGCATCGACG CCTGTTTAACCTTTTTCAATTTTCCTTCCGAGGAATGGATTTCGTTAAGA ACAACAAACATCATCGAACGGTTAAACAAAGAGTTTCGACGTCGGACCAA GGTCATGGAAATTGTGGCTGGAGAAACAGCATGCTATCGCATCCTGGCCT ACATATCTTTAAAAATGGAATTGCATTGGAGGTCGAATCCCGTAGGAAAA GTGCGCAAGAACCTGCCTTTCTTCAAAGAGCTGGCCTATGAAAATTTCAC ACAAAAAAATTGA >SYN_02028 recA protein ATGGGAACAGATGGAGACAGGGCAAAGGCGGTGGATCTGGCAATAAGTCA GATCGAAAGGCAGTTCGGAAAGGGGTCTATCATGCGCCTGGGGGCGAAAG AGCGGATCGAGGACATTGCGGTCATTCCGACCGGAGCACTCAGTCTGGAT ATCGCGCTGGGCATCGGCGGCGTCCCCCGGGGACGCATCATCGAAATTTT CGGTCCTGAATCCGGGGGAAAGACGACCCTGGCCCTGCATATTATTGCGG AAGCACAGAAGCGGAACGGACTGGCGGCCTTCATCGATGCCGAACACGCC CTGGATGTTTCCTACGCCCGAAAAATCGGCGTCAACACCGACGATCTGCT GATTTCCCAGCCGGATACCGGGGAGCAGGCCCTGGAGATCGCGGAAACCC TGGTTCGCAGCGGAGCCCTGGATATCCTCGTTGTGGATTCCGTGGCCGCC CTGGTCCCCAAGGCGGAAATCGAAGGGGAAATGGGCGATGCCCAGATGGG GCTGCAGGCCAGACTGATGTCCCAGGCCCTGCGGAAACTCACCGGCAGCA TCAGCAAATCCAACACGACGGTTATCTTCATCAACCAGCTGCGAATGAAG ATCGGCGTATTCTTCGGCAACCCGGAAACGACGACCGGCGGCAACGCCCT GAAATTCTACGCTTCCATGCGCCTCGACATCCGCAAGTCCGGTTCCATCA AATCGGGGCAGGATGTCATCGGCATGCGGACCAAGGTGAAGGTCGTGAAA AACAAGGTCGCGCCGCCCTTCCGGGAGACGGAATTCGACATCCTCTTCGG CGAGGGGATTTCCAAGGCCGGGGATATTCTCGATCTGGCCGCGGAAAGCG GGATCGTGGAAAAGAGCGGCGCCTGGTACTCCTACGGGGGAGAGCGGATC GGCCAGGGCCGGGACAACACCAGGAACTTTTTAAAGGAGCATCCCGATAT TCTGGTCCGGATCGAGGAACAGGTGCGAAGCGAACACGGTCTGAAGCCCC GGTTGCAGGAACAGGAAGAACCTGCTAAATGA >SYN_00896 DNA polymerase III alpha subunit ATGAAAATTGAAACGTTTGTTCACCTCCATGTCCATACGCAGTACAGTCT GCTTGACGGCACCATCCGGATCAAGGATCTGATCTCGAAGGCTAAAGAAT TCGGAATGCAGGCCGTCGCGATGACGGATCATGGAAATATGTTCGGTACG ATTGATTTTTATCAGGCGGCATGCAAAGAAGGAATCAAGCCGATTATCGG TTGCGAACTTTATGTGGCCCCAAAAACCCGTTTCGAAAAAACAGGCGGCA GCATCGGCGATACAGCACGTCACCTTCTCGTATTGGCCAAGGATTATCAG GGCTACCAGAATCTGATGAAATTGTCCTCCCTTGGTTATCTGGATGGATT TTACTACCGTCCCCGGGTAGACAAAGAACTATTAAAGAAATATCACAAAG GACTCATTGCTCTAAGTGCCTGTCTGAATGGGGAGATTGCTAATTATATA TTAAAGGATAAGTTTAAGGATGCCTTATTAGCTGCTGAGAATTACAGGCA GATATTTGGTGAGCACAATTTTTATCTGGAGATCATGGAGAACGGCTTGC CCGAACAGAAAACCGCAAACGAAGGATTGCTGGAAATCTCCAGACAGCTT TCGATACCCGTGGCTGCCACCAATGACTGCCATTACCTTAATCGGGAAGA CGCAGAATCCCATGAAGTTTTGTTATGTATCCAGACAGGGAAGACACTGG ATGACTCCGACCGGATGAGATTTTCAACTGATGCTTTTTATTTCCGGTCG CCGGATGATATGAAGCAGTTGTTTAACTATTGTCCGGAAGCAGTAGAGAA TACAAAGGAAATAGCTGATAGATGCAACTTGTCTTTTGAGTTCGGTAAAT TTTATCTTCCAAAGTTCGAAGTGAGCAGCGATGAAACTCTGGAAGATCGC CTGGAAAAAGTGGCGATTCAGGGTCTTGCGGAACGAATGCCCCCAATTGT TGACGAAAGAGGGGAGGAAGTCAGGGGAATATACGAAAAGAGACTGGCTG ACGAACTGAAGATTATCAAATCTATGGGTTTCGCCGGTTACTTCCTGATT GTTTCCGATTTCGTTTCCTACGCGAAAAGGATGAACATCCCCGTCGGTCC CGGACGTGGTTCAGCAGCCGGCAGTCTTGTTGCTTACGCCTTAACTATTA CCGACATCGATCCAATTCGCTACGACCTTTTTTTCGAACGATTTCTGAAC CCTGACCGAATCAGCATGCCTGATATCGATATTGATTTCTGCCCCGAGGG GCGCGGCGATATTATTCGCTATGTGACGGAAAAGTATGGAGAAGACAAAG TCTCTCAGATCATCACCTTCGGTAAAATGCAGGCCCGTGCAGTCATTCGT GACGTGGGAAGGGCGCTGAACATTCCTTATGGTGAAGTGGATTCCATTGC CAAACTCGTGCCCAACATACTGAATATATCTCTCGATGATGCTATGGAGA TGGAGCCTCGCCTTCAGGAGGCTGCTAAGCGCGATGAAAAAATTCGGAAA CTGTTGAAGCTTTCAAAATCACTGGAAGGATTAAACCGCCATGCCTCTGT GCATGCGGCCGGAGTCGTGATCTCGGATGTGCCGCTTGTGGAAAGAGTTC CGCTTTATAAAAGCCCGAAAGATGATGTGACGACGCAGTTTTCCATGAAT GATCTGTCAACCGTGGGTTTGACCAAGTTCGATTTTCTGGGCCTGAAAAC GCTCACAGTTATAAAAAACGCGCTTTCGTTCATTAAGGAGGGTCTTGGAA CAGATCTTGACTTGAAAAATCTGCCACTGAATGATGCCGATACCTTCAAA CTGCTCAGCAAGGGCGAAACAGATGGAGTTTTTCAACTTGAAAGTGACGG AATGAAGGAAATTCTCGTCCGTATGAAACCGGATTGCATCGAAGATCTGA TTGCATTGATCGCCCTTTACCGTCCCGGTCCCATGAATATGATTCCTGAA TTTATCGCCAGGAAACAAGGGAAAACCCCGATCATCTACGAAATTGACCA GTTGGAAGGCATACTGAAAGAAACATACGGCGTTATTCTTTATCAGGAAC AGGTCATGCAGATCGCAAGTGTTATTGCTCAATATTCGATGTCTGAAGCG GACACGCTCCGTAAGGTGATGGGCAAAAAAGACACGGCCAAGATGGAGAC GGAACGCCCCAAATTTATGGAGGGGGCAAAGGCCAACGGCATTCCGGAGC AGAAAACCAGGAAGATCTGGGAGCAAATGGAAACCTTTGCTTCCTACGGG TTCAATAAGTCGCACAGCACGGCCTATGCTATGGTTACTTATCAGACCGC CTATCTCAAGGCGCACTACCCCGTTGAATTTATGGCTGCGCTGCTGACCA GTGAAAAAGACAACAGGGACAAAATCATCAAATATATTCATGTCTGCAAG GAAATGGGGATTGCGATTCTTCCTCCGGATATTAATGAATCTCAGCGGGA TTTCAGCGTAGCTGGAAACCGCATTCGCTTCGGGCTCGCGGCCATCAAAA ATGTTGGACTGGGTGCGATCGATGCCATGATCTCTTCACGGCAGAAAGGA GGAGAATTTTTATCCTTTGAAGATTTCTGTAATCGGACCGACCTTAAGAA GGTAAACAAGCGCGTTCTCGAAAGTCTGATCAAGTGTGGCGCTTTTGATT CGACAGGACAGAGGCGGCGGCAACTGATGTCGGAATATGAGAACATCATC GAGATTTCTCAAAAGCGTCAGAAGGACAAGGCCAGCAAACAGGCCAGTTT TTTTGACGATATGGAAGACTTGGGAGTTGAGGAAAAGAGATCCTATGCCA ACTCCTCTGCGGCTGAAATTCAGGAATGGGACCCTAAAGAATTACTTGCC CATGAAAAGGAATTTCTCGGATTTTATGTTACAGGCCATCCGCTTGAGGG TTATGCGTCCAAAATCAGCATGGTAGCCAATACGGACTCAGCCGGCATTC TGGAAAAGGGTGACAAGGAACCGGTTTCCCTGGCGGGTATTGTGTCCGGA ATACGGGAAGTCTTTACGCGGAAAAAAGAAATCATGGCCTATGTATCCCT TGAAGACCTCAAAGGAGCGACGGATGTAATCTTTTTTCCTGAAATTTATA AAAAAGTGACGGATATCCTTCACGGTGATGCCCCGATTTTTGTAAAAGGC ATACTAGATGTAGCGGAAGAAAATGTGAAAGTAATCGCCGAAGAAGCCTC GCTTTTATCTGAAACGGAATACAATCCTTTTTCAAGCGTCCATTTCATGG TGGACATCGAAAATAACGGTACCTCAGATCATCTTGTCGACAGGCTGCAT CAGTTAACCAAAAATTATAAAGGAAAATATGACGCATATCTTCATCTCAT CAATGGCTCCTGTGAAACAAAGATCTATCTCGGTGACAAGGCAAAGTTAT CCATCAGCCCGGAATTAAAGAGAGAAGCCAATATAATTCTTGGAGAAGGG GTGATGATTTTCATGTAA