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