Gene list
Applied filters:
COG category: Replication, recombination and repair
Organism: Synechococcus sp. WH 8102, WH8102
Number of genes found: 112
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Synechococcus sp. WH 8102, WH8102 >SYNW0779 conserved hypothetical protein GTGCCCCGACCCTGCTCGGTTCTGAGTCTGGATGTGGGACGCAAGCGGAT CGGTCTGGCCGGCTGCGATCCTCTTGGCATCACTGTGACCCCCATAAAGG CGCTGCATCGAGGGCGCTTTGATGATGATCTCCCCGTGCTGCAACAGCTC TGCCAGGACCGTCGGGTTCAGGGCCTGGTGGTGGGGCTGCCGCTGGATGC CGCCGGTCAGCCCACAGCCCAGGCGGACCACTGCCTGCGCTACGGCAGGC GTCTCGCCCAGGCCCTGCAGTTGCCCCTCGCTTGGGTGAACGAGCACAGC AGCACCTGGGCAGCAGGGGAGCGCCATGGGCTGAAGGGAGATCGCTCTGG TCGGCTTGACAGTGCAGCTGCAGCGCTGCTGCTGGACCAATGGCTTCGTG AGGGGCCGGATCTCAAACCGGTCCAAGGCCTCCTGGGCGGCGCGGGCGCT GAGCTGGTCGATGGTGGATCCTGA >SYNW1818 conserved hypothetical protein ATGAAGGCCGGCGAGTTGTCCTTGGGTCAGTCACTGGATCTTCCAGCCCT CGATCGGGTCGACACCCTGGCGCAGGAACTTGCTCTGTTGCAGGACAAGG GCAAACGGCGGATCGCCATTCTTGGCAGCCGGCATGTTCCCGTTGTGGCC ATTCACCTTGTACAGCTAGTGGCCCGCTCGTTGGTGCAAGAAGGACACTC GCTGATCACGTCCGGTTCACAGGGTGTTAACGCAGCTGTGATCCGGGGTT GTTTGGATGTGGATGCATCTCAACTGACTGTGCTGTTGCCCCAGAGCCTG GATCGGCAGCCCACGGAAATCCGCGACCTTCTCGACCGAGTGCTGCATCT GGTCGAGAAGCCGGAACAGGACGATCTGCCATTGCCGATGGCCAGCAGCC TCTGCAACCAGGAAATTATCAATCGCTGTGATCAACTGATCTGCCTTGCC TTTCATGACAGTGAAACTCTGCTGTCGAGCGCCAGAACGGCGGAAGACAT GGGAAAAGTGGTGAGTCTTCTGTATTTCGATTGA >SYNW1144 phage integrase family ATGAAGTCCAATCGCCACGGTCAGAGTCGTGTGCTGGACACGAACCAGCT CGACCTGCTCATCTCAAATCTTTCTGATCAATACCACCAGCTGGTGGCTG AAGTGTGTCGCCGCACTGGCTGCCGCGTTGGTGAAGCAACGCAACTGACC TGGGGCATGGTTTCGGAATCTGCCATCACGTTCCAGCGCGGTATTACCAA AGGCAAGCTGGCCTCAAGGTCTGTGCCGGTTACGCCAGTGTTGTGGGAAG CCCTGCGCGCCTGGAGAGATGTCTGGGTAGTGCGGCAGGGTCGTGATCCT GTGGCTGGTGATTACCTCGTACCAGGACAATTTGCTGGTTCGTGTCTCAG TACGCGAAGCTTTATGGATGCTCTTGAAAAGGCGGCTGCTGAATCGGGCC TAGAAGGCGTCTCAAGCCACAGTTTCCGGCGTTCGGCACTAACTAGTGCT CACAGTGCTGGAGTGCCTCTGAGGGTGCTTATGGCCCTGTCTGGGCATAA ATCCATGTCAGCCCTGCAGCGTTACTTAGAGGTGACGCCGGCTCAACGTG TTGCTGCCGCTGCTGCCTTTGCATAG >SYNW0295 Methylpurine-DNA glycosylase (MPG) ATGGAACCAATTCCGGCACCTTTTTTTGCTCGACCAGCGGAGGTCGTGGG CCCTGAACTAATTGGTTGCCTTCTGGTGAAACGCCAAGAGGACGGCAGCC TGCTTTGGGGCGTGATCGTTGAAACGGAGGCGTATTCCCAGGACGACCCC GCCTGTCATGGTTACCGGAGGCGGACGCCCCAAAATGAAACCCTGTTCGG TGAGCCAGGGCGTTTTTATGTGTATGTGAGCTACGGCATCCACCAGTGCG TGAATGTGGTCACTGACCGATCTAACTGGGCGAATGGGGTGTTGCTCAGG GCTGCAGCTCTGCCTGGTGAGCCTGAGCGGGTTGCGGCAGGCCCTGGTTT GCTGGCCCGGCGCTTTGGGCTCACCCGCAGCAATGACAGTTGGCCGGTGA CGGGCGAACATGACTTGTGGCTGGCGCCACGCCTGGCCTCGTTCGACAGC CCGGAGCTTGTGACGACCACGCGCATCGGTATCTCTCAGGGGCAGGACCT GCCACTGCGTTGGTATTTCCGTCTGAGCCGCAGCGTGAGTCGCCGAGCCA AGGGTGATCGCACTCCGAGCCTGTCGCAGGCTTGGTTCCCATCGCCTGAG TTCGGCTGA >SYNW0642 hypothetical GTGAGCTTCGAGAGCTTTCTGCATTATAGACTGCGTGTAAGGATCAGGAA TCAAATGCAGTACTGGTATTCGACAACAAATATTCTTTCATCGCTAAGAG ACAAACTAGCCAAAGCAGGACTTAAACCACTTACATCGATCAATTCTGAT AATGAACCTCAAAATGTGCTATTAATTTATTCGGCTCCCAATCAAGTGCT TGAACAAAAACGACTCGAAGAAAGCACCGCAACAACATGCAATGAAATTC GCGCATATTATGAAGAGTTATCCTTGTTATCTGCAAAATACAAAAATATC TCGTCAAGTTGGCGCCTGAATTCACTTGACAGTACATCAATCATAAGACT TTGTAATGGTGAGAATCCACTGCTAGATAAAAGTATTAACTTTCCCAGCC CCAAGTCCCTTTCAAGCTTACTAAGCCTAGAGATTGCGAGAAAAGAACCA AGAATTATTGATATTTACCTTGATCTAGAACTAAAATCACACTTATTTGG CCTGGAAGCTGACAGCAACTATCTACAAAGGTTGAGCCAAGGCTCATTGA TTGATCTCGCACTCATGGACTGGTGGGAGGTCAACCTAGACCGCGAAGCA AGTTTTGAAGAAGTTGAAAATAGTTTAAATCAATTAACGCAGATGCAAAG TAACTATGATTGCCTTGTGCGGGAAAACGAACGACTGCAAAAATCTCTAA GAAAACAAAGAGCTAAATATGCACTCCTTGTAGAAGAGAACAAAGAGTTA AAAGAATCCTTATCGGATCAACCGATATCTAATAAGCCAGAGATAGAAGA TCATAATCTAAGAGGGGATCATGATGAGGTAGTGAGTCAAGAGTCAGGAA CGAACATGAGCGAGACAGAAAGACAATTAGAGGTCATAACTTCTGACAAA GGGGGGCTATTCCCTGCACTAGTACGACAACTTCTCAAACTGGCAAGCAA GAACAATCAATGA >SYNW0005 putative DNA topoisomerase chain A ATGGCTGAGGAGCGCGTTGAATCGATTGCCCTGCATCAGGAGATGCAGCG TTCCTACCTCGAATACGCCATGAGTGTGATCGTGGGCAGGGCCTTGCCCG ATGCCCGCGACGGCTTGAAACCGGTGCAACGCCGGATTCTCTATGCGATG CAGGAACTGGGGCTCACCCCAGACCGGCCGTACCGCAAGTGCGCCCGCGT CGTCGGCGACGTCTTGGGCAAATACCACCCCCACGGCGATCAAGCGGTTT ATGACGCCTTGGTCCGGCTTGTTCAGACCTTCGCCAGTCGACACCCACTA CTGGATGGTCACGGAAACTTCGGTTCTGTCGACGATGATCCGCCGGCAGC CATGCGTTACACCGAAACACGCCTGGCACCGATTGCTCACCAGGCATTGC TGGAGGAAATCGGCGACGACACCGTTGATTTCGCACCGAATTTCGATGGG TCCCAGCAGGAACCCACCGTGCTGCCGGCGCAACTGCCCTTTCTCCTGCT GAACGGCTGTTCGGGCATTGCCGTGGGCATGGCCACCAGCATCCCTCCCC ACAACCTCGGCGAAGTGGTGGATGGCCTAGTGGCCTTGATTCGTCAACCG GAACTCAGCGACAGCAAACTGCTGGAACTCATTCCAGGACCTGATTTCCC AACGGGTGGGGAGGTACTGCTGAGCAGTGGCCTCCGCGACACCTACCTGG TGGGACGGGGCAGCATCCCGATGCGTGGGATTGCCCACATCGAAGAAGTG CAACCCGGCAAGGGTCACCACAAACGTAATGCCGTTGTGGTGACGGAACT CCCCTACCAGCTGAGCAAAGCCGGCTGGATCGAAAAGCTGGCGGAATCGG TGAATGACGGAAAGATCGGCGGCATCGCCGACATCCGCGATGAAAGCGAC CGCGAAGGAATGCGGGTGGTGGTGGAGCTGCGACGCGATGCCGATCCAGC CAAGGTGCTGGCTGATCTGCAACGGCGCACGGCGCTGCAGAGCAACTTCG GTGCCATCCTTCTGGCCCTTGTTGATGGTCAGCCCCGCCAGCTCTCCCTA CGCCAGTTGTTGCAGACCTTCCTGGATTACAGGGAACTAACCCTGATCCG GCGCACCAGCCATGCTTTGCGCAAAACGGAAGACCGCCTTGAAGTGGTCG ACGGCCTGATCACCGCGCTGAACAACCTTCAGGCAGTGATCACGATGATT CAAGAAGCTCGCGATGCTGCTTCGGCGCGAGCCAGCCTGATGGTGCGCCT CGATTTGAGTGAACGCCAGGCTGACGCCGTTCTGGCCATGCCACTGCGAC GGTTGACTGGTCTGGAACAGGAAAGCCTGCGTCAGGAACTCGAGGAGCTG CAAGCGGAACGGGAACGTTTGCGCCTGCTGCTGGACAACCGGGATCAACT GCTCGATGCCATGGTCCAGGAGCTGAAGGGACTGAAAAAGCGCTTCAGCA CGCCGCGCCGGACGCGACTGGTGGAAGGTGGCGATGCTCTGATGGCAGAA CGGGCCGCCAGCCAGCGACCCAACACTGAGCTGCTGCGTCAGCAGGCCCT GGAGGCCTTGCCTGCCGATGCACGATTGCTCATCCAAGCTGATGGGCAGG TGAAGGTGATGAGTCCCCCGGTGCTGGGTCGCATGCACCTGTCCGAACCT TGTGCCGTGGGTGACCACCCCTCTCCGGCACAGGTCATCCTCCCAATCGA ACCATCACCTCGACTCCTGGGGGTCAGCGCCAGCGGGCGCGTTGCTTTGG TCCGCTGGGAATTCGCCGGACAACAGCCTGGATCCCTGGAGAAATTTCTA CCCAGCGGTCTTGACGGTGACCCATTGATCGCCATCTTGGAACTCCCCGT GGGTGATGGCACAGAGTTCAGCCTTGGGCTGCTCAGCAGCGATGGACGCT TTAAGCGACTCCCCCTGGCCGACGTTCTGGACCTCTCCGGCCGAGCCACC AGCGTGGTGAAGTTGAAGGAAGGCTTGAGCCTTTGTTCAGCCGTGATCTG TCGCGAGCACAGCGATCTGGTCTTGGTCAGCAGTATGGGGCGTCTGCTGC GGCTGCCCGTGAATGATTCCGTGCTGCCCAAGATGGGGCGTCTGGCGCAG GGACCGATGACCATGCGTCTTCTTCCCGGAGAAGAACTCGTGGGGAGCCT GTCGATCGACGTAGCTGAAACAGATCCAACCCTGCTGCTGGTCAGCCGCA AAGGTCAGATGACGCGGATCGACCTCACTCCACTGCGTCGTTGCCAACGG GGAGATCTGGGAATCATGGCGGTTGTGCTCAGTGCCGATGAAGACTCCGT GGCTGGACTTTGTTCCGGAGATTCCCTGGCCGGAATCGTGACCGATCAGA AACGCCATGGAAGACTGGACGCCAGTGCAGTTGAATTAACAGCACCAGGC CAGTCCTGGGGCAATCAACTTGATCTGAACAGCAAAGAGCAGGTTTTTTC AGTGGTAGCTCTGAAAACCAGCTGA >SYNW0920 probable ATP-dependent RNA helicase DeaD ATGAATGACCAACAGCTCGGGGAGACCCCGTGCGCCGTCGATCTGTCCGC ATCTTCGCTGCCTGAGCAGGCCACTTCAGAGCAGGGTTCTGCAGACGTCT TCACCACAACGATCGACGCCCAGCAACCGGAATCGGGTTTCGATGGTTTC GGATTCAGTGAGGCATTGCTGAAGACGCTGGCGGATAAGGGGTACAGCGA GCCTTCACCGATTCAGAAGGCGGCCTTCCCTGAATTGATGCTGGGGCGTG ACCTGGTGGGCCAGGCCCAGACCGGTACCGGAAAAACGGCGGCCTTCGCG TTGCCATTGCTCGAACGGCTCGCCAGTGGCCAGAAAACTCCGCAGGCCCT CGTGCTGGCACCCACCCGCGAACTGGCCATGCAGGTGGCTGATTCGTTCA AGGCCTATTCCGCTGGGCATCCGCATCTGAAGGTGCTGGCGGTTTACGGG GGCACCGACTTCCGTTCTCAGATCAACACCCTGCGCCGTGGCGTGGACGT TGTGGTGGGGACACCGGGCCGGGTGATGGATCACATGCGGCAGGGCACCT TGGACACCTCCGGCCTACGCAGCCTGGTGCTGGATGAGGCCGACGAAATG CTGCGGATGGGCTTCATCGACGATGTCGAGTGGATCCTGGAGCAACTGCC GCAGGAACGGCAGGTGGTGCTGTTCTCCGCGACCATGCCACCGGAGATCC GTCGCCTGTCGAAGCGCTATCTGAAGGATCCAGCCGAGGTCACGATCCGC ACCAAGGATCAGGAAGGCAAACGGATTCGCCAGCGTTCGATCACCGTGCC GATGCCCCACAAGCTGGAGGCTCTGCAGCGGGTGCTCGATGCCTGCGGTG GTGAAGGAGTCATTATTTTTGCCCGCACCAAGGCCATCACCCTCACCGTG GCCGAGACGCTTGAGGCGGGCGGGCATCAGGTGGCCGTGCTCAACGGTGA TGTGCCGCAGAACCAGCGGGAGCGGACGGTGGAACGGCTGCGCAGTGGTT CCGTCGACATCCTTGTGGCCACCGATGTGGCCGCTCGGGGCCTGGATGTT GATCGCATCGGGTTGGTGATCAACTACGACATGCCGTTCGACAGCGAGGC CTACGTCCACCGCATCGGTCGTACCGGCCGGGCCGGTCGCACGGGGGAGG CCGTGCTGTTTGTCACCCCGCGCGAGCGTCGCTTCATCAACAACCTTGAG CGGGCAACAGGCCAGCCGATCGAGGCGATGGAGGTGCCAGGCAACTCCGC GATTAACCAGGGTCGACTCGATCGTTTGCACAAACGCCTCAGCGAAGCAG CCCACAACGAGCGGTCCTATGAGGAAGAAGCGGCGCTGCTGAAAGAGCTG TTGCAACGCATCGGCACGGAACTGGAGCTCAGCCCTGAGCAACTGGCCTA CGCCGCCCTCAGCATGGCCATCGGCCCAGACCCTTTGCTGCGCCAGAAGG GCGACGACGAGTGGATTCACAACAACCAGCGCCGCGATCGTGATCGTGAC CGTGATCGGGGCGGCGAACGGAGAGAGCGCCGCTCCGATCGTCCGGCCCG TGCCCCGGAGGAGAACATGCAGCGCTACCGCGTCGAGGTTGGGCACCGTG ATCGGGTCAAGCCCGGAAACCTTGTCGGGGCCATCGCCGGAGAAACCGGT CTGCAGGGCCGTGCGATCGGCCGGATTCAGATTTTCGACAACCACAGCTT TGTGGATCTGCCTAAAGGCATGCCGGAGGATGTCTTTAACAGCTTGCGGC GGCTTCGGGTGATGAACCGGGAGCTACAGATCACTCAGGCGTCGTGA >SYNW0880 possible phage integrase family TTGCCACGAGTTTCCGAGACAGAAGCCTGGATCAAGCCCTTTAGGCGTCA GATCGCAGAGACCTGCGGTGAGAGTTGGTACGTCCGCAACAATCGCGGTC GAATCCGTTTGGAGGTCCGTGATGCTGGGACCGTTTCACTTCCGTTCGAG TGGACTGCGCGTGGATCAGCGCTTGCCTTGCCCCGCATTCAACAGATCTT CAAGCGTTGGAACGGTGGACAGATCACCCTTGCCGCTGCAGCACAAAACG CTGACACCAGCAGCGCCCATCAGAAGCTGGATTTCAGCCAGTTGATCGAG AAATATCGGGCCTTCGTTCCTAACGCTGGCGACACCACCTGGCAGACCTT CTATCTGCCAGTCCTGCGCAACTGCGCCAAGGCATTCGACGGCCGACCAC CAGTGGACGGTGAAGCGCTGGCAATGGCTTGCCTCTCCCAGTGGGAACAG GGCTCACGGATGCGTCAGACCTCCCGTCAGAAGCTCTACGGCTTCTTGAA CTGGGCGGTGCAACGTGGACACCTCAAGCCCATCTACAGCCCCCCTGCGG CGCTTCCTGAAGTGCTCAAGCCCAAGCGCATTGGCTATCCCCTCAGCGAT GCGCAGATCCTGCAGCTGCTGGACAACCTCCCCGAGGGCGAGGCCCATGA CCGTTGGCGATTCGCCATCCAGCTCTGTGCCGTTTACGGATTGAGACCTG AGGAATTGCGCCATCTCCGCATCAAGGACGGGGCAAGCGGGGAAGAACTG TGGACGATTTATCAGAAATCCATGGGTGGCACCAAGGGAGCCAAGACAGA ACCGCGGCGGTTGCACCCGCTGCTGCTGCGTGATGCCGATGGTTCCGCCA TCGATTGGAAACTGCAGGCACGGTTGCAGGTTGGTGAACAGCTGCCGCCG TTGAACCGTGACGGTGATGGTGGCCAGGCTTTGAATCAGTACCTACGCAG ACGCAAGGTCTGGATGGCGCTGCGGGGTGAAGCCGAGCACCAGAGTGAAC AGCTCACGCCCTATTCATTTAGGCACCGCTACGCAAAACAGGCTCACGCG GCACGGCTTGCCGTTGCAGAGATCAGCGAGGCCATGGGCCACACCATCGA GGTGCATCTGAAGAGCTACGCGCGGTTCAAGCCCGATGCGACGGCTGCCA ATTTCGCCGCAGTCAACGTCTGA >SYNW1180 hypothetical ATGTCAGCTGAATTTCAATCAATCGACGATCAGATCAAGGCGTCGTACCA ATCTGCATCACAAGTCGAAACTCAGGCCCGTCAGCTTGAAGCCAGAATCG CCAAGATCGATGGTGCAAAGCGATACCTGCCATCACGTCGTTACGGTCAA CCGATCGACATAGCAAAAATCAGGTCAAACCTGACACTTACATCGCTTAT TGCACAAGATTCCGCAGAGCTAGCTCACTTTTGCGGTATCCACCCTGGCA TTCGTCACCGTATGGACGAGGAGAAGGAGGCCAGAGCCCTTGCAGCGCAG GCCCTGCAGATGCGCACTGAAGCTCTCCGCCAGCAGAACCAGCAGCGTCA GCAGCAGGTGCAGCAACGTTCTCAACTCTCTCCGTGGCAACGCGGTTACG GGAGCGTCTGA >SYNW1680 putative 6-O-methylguanine DNA methyltransferase family protein ATGGGCGACCGCATTTCCTTTGATTCGAGCGTATGGGATGCGGTGTCTCG CATTCCCCATGGCCGCCTTGCCACCTACGGACAGATCGCTGATCTGATCG GTGCCTATGGCTGTGCCCGGCAGGTGGGGTGGGCCTTGCGTCGCCTGCCG TTACCGTCAAACGTGCCCTGGCATCGGGTGGTGAATGCTCAGGGGCGTAT TTCAATGAGCCTCAGCCGCGAGGGCAGCGACTGGATCCAGCGGGAGCTGT TGCTGGCGGAGGGTGTCCCTGTGGATGAGGAGGGTCGTTTGCCGTTGAAG GAACGGCTGTGGCGGCCGGACGCTATGTCTGGATCCTGA >SYNW0801 possible Staphylococcal nuclease homologue GTGCCTGGCTTGTCTGCAGGCTCCCCGCAGCCAACAGCGCCCCTGGTCAA CCCGCGCATTGGTGTCATTCAGAAGCTGGTTCGTCCTGGGGATGTGGGCG ACTTCGAGCTCAGAGCGAGGGACGTTTACGGCCGTCTTGTGGGTCGGTTC TTGATCAACGGGCAGGACCTGGGTGCCGAACTGGTCCGTCGCGGTGCGGT GTTCTCCTGGGATGGATTCCTGGGCCGCTGTGATGACCTCGACTACGACG GCATTGAGGCCAAGGCTCAAGCGGCTCGACGCGGCATCTGGTCCGCGCCA GCTGGTGTGAAGCGTCCTTGGGATGTGATGGAAGCCTCCAACGACGGCGA ACCTTGA >SYNW1570 possible phage integrase family TTGGCCAAAGTCATCTGGTCCGACAACTTGCGGCAGGTGCTCAAGCGTGA GCACGGCAAAGGTTGGTCAGTCAGAGACCACCGTGGCCGGGTACAGCTGA CGCGGATTTTTGAAGACCGTTCACGCAGTGCCGTTTACCTGCCATTGACT TGGACAGCCGATAACGCCACATCGATCCTCAACACGGTTGCTGCAATTCA CGACCTGATGGATTCGCGCAAAGTCAGCCTGAAAGAAGCTGCCAGGTTGA ACACTCAGGCATTGGCAGAGCCAGCCAAAAGCGCCAAGACGGTGGCTGAC AAAGGTTGGGATGCAGTTGCTGCCGACTTCCTCAAGAGCCGTGGTGACAG GCGCAGCAGCACTCTCAGAGACCTCAAGCTGCGGGTTGAACGTGCTGTTG CAGTCATCAACCAGAAGCCCAAACCACGCGACGGTATGAGCGTGTTGGAG GCATACGCCGCCGCCTACTTCAAGGAAATGGCACCCGGTGGTCAGGGGCG TAAACGAAATCTGAACGACGTCGTGGCATTCCTCCAATTCGCTGTTGATC GTTGCGGTGCACCAGACCGTTTCCTGCCACCACCAAAAGACCGCATCAAT GAATTGATCGGCACCAGCCCAACATCAACAACGGAACGACTGACACCACC AATCAAGGCAGACCAGTTCACTGCATTGTTGGATGCACTGGAAGCTGACG GCCGGCATGACCTCAAGCTGGCAGTGGCGTTGGTTGGCTATCTCGGGTTG CGGCCTGCAGAGCTGGCAGTCCTGCGTGTTGGTGATGACGAAAAGGCAAG GGTCGGCAGCATCAAGCGCAACATCCAAACGATGCAGCAGGCAGACAAGC CGCCACGGTTGGTGATGCCACTTGAGATTGACGGCAGAAACAACGAAGGT GCCCGGGCCATAGCACAGTTCGCTAGTGGACTGGTGAAGTTGCCGAAAGC ACTACGAAAACAGATTGATTTAGTTGAGGAGAAAGGACGTTTTCAAGACG TTGGTGCTGAATTTGCCCAGCAACTTTCACGCTGCAAGCATTGGCAAGCC ATGTTCAAAGCAGACCCGCGCATCACCCCGTACAGCTTGCGCCATGGATT TGCTTGGCGGGCAACAGTGGGCCAAAACAAGATTCCGGTAAGAACTACTG CCGCATTGATGGGGCATACAATGCAAGTGCACCACAGGCATTATGGCGCT TGGGTTGACGAAGCAGCCATTGAAGAAGCAGTTGGCATGCACAACGCTGT CGTCGCTTGA >SYNW1569 possible phage integrase TTGGTGGTTTGCCAGATCAGGGAGCGTATGGAGAAGGGGGAGGAGTCCCT CGCAAAGGCGTTTCAGCTGCTACAGAAGCAGCACGGTGCGACTCCCACGG TCAGCAAGTCGGTGGATGACGAAGACAGCGGCTGGCAGGCCGTCATCTAT GACTTCATCGAGAGAAGGCGGCAGAACAGCCGCTCAACAACGATGAAGGA CCTCACCCGTCACATGGAACGGGTGAAGCAAACCTTGGCGAAGAAGCCAC GTCCCCAAAGTGGCGCTGACCTGATGCGCTCCTTCGCTCGGCAGCATTTC AAGAACTGCCCACCAGGAAAATCAGGGCGCATCACACAGATGAACAACGT TCGCGGCTTGCTGCGGCACGCGATCAAGGAATTTGGTTACGACAGCCGTT GGAAGCCTCTGGAAACAGATGACCTGCGGGAGTTGATCGGTACTGACGAC AGACCCACTGAGGACAAGTTGACGCCACCTGTGATGCCCAACGATCTGGG CAATCTGCTCGACGCGCTTAGGGATGCCGACAGGACCAGCCTGATGTTGC TGGTGGGGATTATTGGCATCTACGGTCTGCGCCCCCTTGAAGTCAGTCAG CTGATTTGGGAGGACGGGCATTTGAAAGTCCGACCCGGTGGCAAGCGGAA CAAAGCCACTAGAGGCAAGAAACAGAAGAACAGGTTGGTGTTGCCCTTCG ACGTGCCAGGCAGAGAAGGTGAAGGAGAGCGTCTGGTGATGCTGTGGCGC ACTGGCACGATTCGCTTCCCTCAGACCGTTTTGAACCGCATCAACGAGGC TGAGGAGAAAGGCTTCAAGCCTGTTGGTGATGAGATTCGGCAGCAGCTCC AACGCTTCAGGTTTTGGCAGGGCCTGGAAGCAACCCGCTCAGGGTTGACG CCATACAGCCTGGGGCACGGCTGTGCTTATCGGATGCACAAGTCATATGA CCGCCCGTTGTCGATTCGGGATGCTGCTGCGCTGCTCGGGCACACTCCAC AGGAGCATCACGCCAGTTATGGACAGTGGATTGATGAGGCTGGCTTGATT GAGGCTGTCGAACGGATTACTGGAGCAGGTAGGACAACTTTGGAGGGGGA TACCTTGTCACCCCTTGACCTACACCCGGAAGCCGCCTAG >SYNW0722 conserved hypothetical protein TTGCGCCTGATCAGTGGCCGACGACTGCTCAGCCCCCGTGGAAGCGGAAC TAGACCGACAACATCCCGCGTGCGGGAAGCGGTGATGAACATTGTTCGTC CACGGTTGCTGGACTGCCGCTGGCTGGACCTCTGTAGTGGAAGTGGCGTC ATGGCCTGCGAGGCAATCGAACGCGGGGCTCGTTCGGTGACCGCTGTGGA AAAAGACCCGCGCTGCGCCAGCATCTGCGAACGCAATCTCATGGAAGTTG CCCAGTCAGGCTCAAGGCGTGCCGACGTGACCGTCGTGAAACGCGACCTG ATGATCTGGCTTCAACAGGACTGGAGACAGGAGGGGTTTGATTTGATTTA TTTCGATCCTCCCTATGACGGAGGGCTTTACTCAAAAACACTCTCACTCC TGGCAAACCAGGAATGGCTCCGACCTGATGGTTTATTGATCTGTGAACAT CCTTCCGATCAACCACTTGATCCGGGGGGGCAATGGACCGTGATGGATCG TCGTCGCTACGGCAGCAGTTCGCTGGTGATGATCAGCCGCCCAGAGCGCT GCCGCCGCGACGGTACTGATTCCAGGCAGCCACGAACAGACCCAGAAGCG TGA >SYNW0346 Putative RNA methylase family UPF0020 GTGGTGACCTGGAGCACAACGGTCTTGGGTCGAGGGAACCGTCTCAATGG CGTGGCGGTGCTGCCCCAGGGGCTGGAAACGCTGGGCTGCGACGAACTAG TCGCTTTGGGGGCCCATGGAGTCCAGCCCCTGCGCCGGGCAGCAGCGTTT CAGGCCGACATGGCCTGCCTCTATCGGCTGCACCTACAAGCTCGACTGCC GTTCCGCCTGCTGAGGGAGATGGCGGTTTTTCCCTGTCAGGGCCGGGCTG ATCTTTACGACGGCATCAGCAACGCGCTGAATTGGGAGCAGTGGCTGCAT CCCTCGATGAGCTTCCGAGTGGACGTGACCGGAACAGCGCCAGGGTTGAA CCACAGCCACTACTCCGCGCTGCAGGTGAAGAATACTCTGGTGGATCTGC AACGGGAGCTTTGGGGAGAGCGTTCGTCGATCGACCTGGCTCATCCAGAC CTGGCTCTGCATCTCCACCTGAACCGTGGTGGTGCGGTCCTGAGCCTGGA TGGCAGTGGCGTCAGCCTTCACCGGCGGGGCTACCGCGCTGCCATGGGAG CCGCACCGTTGAAGGAGAACCTGGCTGCTGGGCTGATTCAACTCACGGGC TGGGATGGTCGGATGCCGCTGGTGGACCCTTTCTGTGGCAGCGGAATTCT GTTGATCGAAGCCGTCACGATGGCCCTGCAACAGGCTCCAGGTCTCGGTC GACAGTTCGGATTGGAAGGCTGGGCCGACTTTGATCGTGAGCTTTGGGAG CGCGAACACGCCAGGGCTCGCCAACGCCGTCGCTCCGACCTTGATCTGGC CCCCGTCGTGGGATATGAGCAGGATCCATTGATCGCAGATCAGGCCCGCG ACAACATCCGAGCCGCCGGTCTTGACGGACTGATCTCCATTCATTCCGGC AGCTTTGAGCAGCAGACACTCCCTCCAGGGCCAGGGCTGCTGGTGTGCAA TCCGCCCTACGGCCACCGCGTCGGTAGCGAAGACGATCTCGAACAGCTCT ACCGATTGCTTGGATCCTTCGTGCGCGAGCAAGCATCAGGCTGGCAGCTG TGGTTGCTCAGCGGCAACGCTTCCCTCACTGGTGCCTTACGGCTTAAGGC CAGCCGTCGCATCCCCGTGAGCAATGGCGGTATCGATTGCCGCTGGCTGA ACTACGGGATCCGTTGA >SYNW1177 Transcriptional-repair coupling factor ATGCCCCTGCGTTCCCTGGTGACACAGCTGCGCTCAGCAGCCCTCACTGG CGAACTGCTGCAGCGCACCGAACGTGATGCACGGCTGTTGTTGCGGGGGG CCGGTCGGATCAGTCGTGCTCTCGTGGCGAGCGCCCTGGCACAAAAAGAA GGAAGGCCATTGCTGTTGGTGGTGCCGACCCTGGAGGAAGCCGGTCGCTG GACAGCGCTTCTGGAATTGATGGGGTGGAGCAGCGCGAGTCTGTACCCAA CCAGCGAGGGATCGCCCTACGAACCGTTCGATCCCACCAGTGAAATCATC TGGGGACAGCTTCAGGTGCTGAGTGACCTGATTGGAACCGACGATCCAGC GGGGAAAGCCATCGTGGCCACCGAACGCTGTCTTCAACCCCATCTGCCAC CGCGACAGGCACTCGAGGCCACCTGTCGCACCCTGAAAAAGGGTGACGAG CTCGACCTGGACGAGCTAGCCGAAACCTTGGCTCGCCTCGGTTACGAACG GATGTCCACCATCGACCAGGAAGGAACCTGGAGCCGACGCGGCGACATCG TTGACATCTATCCGGTGAGCAGCGAACTGCCGGTGCGGCTGGAGTTCTTC GGAGAGGAGCTGGACAAACTTCGAGAATTTGATCCAGCCACCCAGCGCTC ACTGGACCCGGTGGATCGCCTGCAGCTCACCCCCACGGGCTTTAGCCCCC TGGTGGCCGATCAGCTGCGGGAGTCGATGCCGGAAGGGCTGGATCGCTTG CTGGGGGACGAAGCCACAGAAGAACTGCTGGAGGGAGGCACGCCGGAGGG GTTACGACGCCTGATGGGACTGGCCTGGGGACAACCTGCATGCCTGCTCG ACTATCTGCCGGCCTCCGCTGCGGTGGTCATCGATGAGCGCCGTCACGGA GTCGCCCACGGCCAGCAGTGGCTGGATCACGCCATCGACCACTACAGCGA CATGGCCAGCGAACTGGGCCTATCGGAGGAGGAACGTGATCTGCTCTGGC CAGCTGTTCTGCAGCGCACGATCGACAAGGCCTATGGCCTGGCCGAGGCA TTCCATGGCTTTGACATGGCAGAGCTGCTGGAGGAGGACGGCCATCCCAA CAGCTTTGACCTCGCCAGTCGTCCGATGCCGGCGTATCCCAATCAGTTCG GCAAACTCGGCGAGCTCATCAAAGGATTTCAGAAGGAGAAAACCGCGGTC TGGTTGATTTCTGCTCAACCCAGCCGGGCGGTGGCCTTGCTGGAGGAACA CGACTGCATCGGCCGCTTCGTTCCCAATCCAGCAGATGCGCCGGCGATTG AAAGGCTGATTGAACAGAACACGCCCGTTGCATTGAAATCCGCCGGCACG GCGGAGCTGGAGGGGTTGCAACTACCGGCCTGGCGCCTAGCTCTGGTCAC CGACCGTGAGTTCTTCGGCCAACAGACCCTGGGTTCTAGTGGCTACGTGC GACGTCGCCGCAAGGCGGCCAGCCGCACGGTGGACCCCAACAAGATGCGG CCAGGCGACTTCGTCGTCCATCGCAACCACGGCATCGGACGGTTCAAAGC GATGGAGAAGTTGGCCGTCTCAGGCGATGTGCGCGACTACCTCGTGGTGC AGTACGCCGACGGACTGTTGCGCGTTGCAGCGGATCAACTGGGCAGTCTC GGCCGCTACCGGGCCACCAGTGAAACGCCGCCACAGCTCAGCAAGATGGG CGGTGCTGCCTGGACCAAGGCCAAGGAGCGAGCCAAGAAAGCGGTCCGCA AGGTGGCAATGGACCTTGTGAAGCTCTACGCGGAGCGGCATCAGGCCAAT GGCTTCGCCTTCCCCAGTGATGGTCCCTGGCAGAACGAGCTTGAGGAATC GTTCCCCTATGAACCGACGCCGGATCAGCTGAAGGCCACCGCCGATGTAA AGCGCGACATGGAGAAGGCGGAGCCGATGGATCGCCTGGTCTGCGGAGAC GTTGGTTTCGGCAAGACGGAAGTGGCCATCCGCGCCATCTTCAAAGCGAT CACGGCTGGAAAGCAGGTGGCCATGCTGGCCCCCACCACCGTTCTGGCGC AGCAGCACTGGCGCACCCTGAGTGAACGCTTCGCGCCGTATCCGATCAAG GTGGCGCTGTTGAACCGCTTTCGCACAGCATCGGAACGCAAGACGATCCT GGAGGGCCTCAAGGGAGGCACCATCGATGCGGTGGTCGGCACCCATCAGC TCTTGGGCAAAGGGGCCTCGTTCCAACAGCTTGGTCTGCTGGTGGTCGAT GAAGAACAGCGCTTCGGCGTCAACCAGAAGGAAAAGATCAAGGTGCTCCG CAAGGACGTCGACGTTCTCACCCTGTCGGCGACACCGATTCCCAGAACGC TGTACATGAGCCTGTCAGGCGTGCGGGAGATGAGCTTGATCACCACACCA CCGCCACTGCGTCGTCCGATCAAAACCCACCTGGCAGCCCTGGATCCGGA AGCGGTGCGCAGTGCCATCCGCCAGGAACTGGATCGCGGGGGACAGGTGT TTTACGTGGTGCCCAGGGTGGAGGGCATCGAGGACGTGGCCGCCGGACTG CGGGAGATGCTGCCCGGCCTGAAGCTGCTGGTGGCCCACGGCCAGATGGC GGAGGGTGAACTGGAGAGCGCCATGGTGGCCTTCAACGCAGGAGAAGCCG ATGTGATGCTCTGCACGACCATTGTCGAGAGCGGACTCGACATTCCACGG GTGAACACGATTCTGATCGAGGATGCCCACCGCTTCGGATTGGCCCAGCT CTACCAACTGCGGGGTCGTGTGGGGCGCAGTGGCATTCAGGCCCATGCCT GGCTGTTCTATCCCGGCAATGGTTCGCTCAGTGACAACGCAAGGCAACGA CTGCGAGCCATCCAGGAGTTCGCACAACTGGGCAGTGGCTACCAGCTGGC CATGCGCGACATGGAGATCCGTGGAGTCGGCAACCTGCTCGGCGTGGAGC AGAGCGGCCAGATGGAAACCATCGGCTTTGACCTCTACATGGAAATGCTG CAGGAATCCCTGGCAGAGATTCAGGGCCAGGACATTCCCAGTGTCGACGA CACACAGGTTGACCTTCCCGTTACAGCGTTTGTGCCCGCGGACTGGATCA CGGATCCCGATGAAAAAATCGCCGCTTATCGCGCTGCGGCCGACTGTCGC TCCGGCGAGGCCCTGGTGGAGTTGGCCGCCGGTTGGGCCGATCGGTATGG GGCGCTGCCGGCGGCGGTGCAATCCCTGCTGCAGTTGATGGAGTTGAAAC TGCTGGCCAAACGTTGCGGTGTCGCCCGCATCAAACCGGAGAAACCCAAC ATCGTGCTGGAAACGCCAATGGAGGAACCAGCGTTCCGGCTGCTTCGGCA GGGCTTACCTCAACACCTGCATGGTCGGTTGGTGTACCAGAGCGGTAAGG CCCTTCAACACAAGGTGATGGCTCGAGGGCTTGGGGTGCTGCCGATGGAC AAGCAACTCGAGCAGTTGATGGAGTGGCTGCGATTGATGGCGGCGCAGAT TCCCGATGCCGACGGAACCACCGAAGCGCAGCGTCTGGAGGCGGAGGGGC AACGAAACGAGGCGGTGCTACAGGTGTGA >SYNW2059 conserved hypothetical protein ATGCTTGAAGCTCAGGCCCACAGTCACCTGAAGACACTGCTGCGGCAGGG TGAATCGAACTGGCCCCATCACCTGACCCTCAGCCGGCTGGTGGGTCGCA GCCTGAGACGGGGCGACCGGACCCTGCTGCGTCTGGCACCGAACCAACGG GAACGCTGGTGGCTGGGGCTGCTGATGCCGCTGTGTCTGCAATCCAGCAG CGCCGTGCTCGTGCTCACAGCGCAACAGCGGCAGCGACTGCTGCAGGTGG AACGTCCGCGCCTGGCCCGCCAGGGATTCCGACTGGCCTGCTGGGAGGGC AACACCCCGCCGCCGCAGGATCAGCTCTGGCTGCTGGACCATGCCGGCCT GATTCAGGCTCACCGCAATGACCTGCTGGGTGATCGTCAGTTGCTGTTGC CAGGCATCGATCAGCTCAGCGAACAGCTGCGGCGTTGCATGGCCATCCGT TTGGATGCAAGCCACTGGGAACAGTTGCGCCTGGCCCTGCCCCAGGCCGA AAAGCCGTTGCTGGAATTGCATGAACGGCTCAGCAGACAACTGTTCCGGG AAGCGCCGCGGGTTGACGCCTGCATTCGACTGGACAACAGCGCCTGCCAG AGCCTGCGGGATCTGCTGGCGGTGATGGGGCCCTGCCCATCCCCCTGGTC TGAGTTGCTCGCCTGCGATCCCCGCGAGTGGTCCCACTGGGCTGAGCTGG ATCACACGATGCTGCAGTGGAGCTGGTGCCTGGAACCACTGGAGCCCCTG CAGCAACTGCAGGGGCTGCTGAGCCAACGGCCGACGCTGATGCTGAGCGA CAGCGGGGACAGCGCCCGGCTGGAACAGGAACTGCAGGAGGCGAATGCCT CGCCCACGGTGACCGCGGTGCTGCGGGAGGCCGAACTGGAGGAGCCACTG CCGTTGTTTGCTCCCAGGCGTCAGCCCTTACCCAACACGGAGATCTATGC CGAGCATCTGCTGGAGCAAAGCCGGCGACTGATCCTGGGTCGCCCAGGCC TCACGGTGCTGCTGCTCGACGACCCCAGCCTGCGCCGTTCCCTCACGGCA TCGCTGGCCGCCGAATTCGGCACCCGAGTTCAGGATGAGTGCACCGCACC GGAAGACAACGGGGTGATCAGCGGCAGCTGGAGCTGGTGGTTGCAGCACC TTGACCAGTTGCCGGAGCCGGAGCAGATCATCATCGGCCTGCTGCCGATC GCCAGCCTCACCAGCCCGATCACAGCCGCCCGGGTGGAACGGTTGAAATC CCAGGGTGCGGACTGGTTCCGCTCCCTGCTGTTGCCGGAAGCACTGCGCC AGATCCCTGCCGCAGTGGCCCCCCTGCGCCGTTCTGGAGGCAGGCTTGCG GTGCTGGATGGCCGCCTGCGGGGGCGGAGCTGGGGCGACCAGGTGCTGCA GCGGCTTGAACCCTGGCGACCGCTTCAACGTCTTCTGCCCGACTGA >SYNW2241 weak similarity to phage integrase family TTGTTCCGAGTCTGTTCCAACAGGGTCGTGCCAAAAGTCCTCGAAAAGCG GAAAGTCGCCGGAATCAAAGGTGACATCGTTTTGCTTCAACGCGGGCACA ATTCGATTGGTTACTACTACCGGGAATACAGGTCGCTCACCCGTGACTAC AAGTTTCAGAAAATCGAAGGCGCCAAGGACATGTATGAGGCGTGCGAGCA AGCCGTTGATATTGCATTCAAGTTTAAAAGTGAATTCTCAAAAGAGAAGA AGGTTATAAGCGAGCAAGTTGGCGTATACGCACCAAAAAGACAAAGCAGA AAAAGATATAAGCCAATTAAAGCAGCAATAGATGAATATCTTGGCGAGGA AGAGAAGAGGGCACGATCTGGTCTCATACAACCTGGCACTTTCAAGACTA AGAATGAATCCTTCAGGCTGTATATCGAACCTTATATAGCCTCAAAAGGC ATTAAGTATACGCAACAGATAGATCACAGCACCTTTGAAGAATATTTTAT TTATCGAGCACGAACAACAGCTCTGATGCGGCAGAGAGAACTTGCTTTCA TAAAGCAATGGATCAATAATTATCTACTTCCTAACAAGCTGCTGAATGAA ATGCCATCAAAAGCATGGTATCCGCGACAGATCGTCAGACAAACGGATCG AATGGCTAACCCAGCTATAAATCCAGCTGATTGGAAAGTAATTATTGATT ACATTCGTGATGATTGGCGACATTATCATGAGCAGGGAGGAATGAAAGGA CCTGCAACAAGAATATGGCGAGATGCCTTTTGGCATTTCTGCCTATTCAT GAAAAATACCGGGATGAGTCCTGAGGAGATCTTGAAACTCAAATGGAAAA ACGTCGAGATACGAGACATAGGCAGGATTGACAGCAAAGGCGAACGACAA GAATGGCTAGTTGCGTACATCAACACAATCCGAGCGAAGACACAACAGAT GCGAGAAATACCAACTAACCAAGGCAAAGAACTAAAGAGATATATGCAGA TGCTGAAGGACTACTGCGCTAAGTACAAGATTCCAAATTCAATAGGACCT AACACGCTGGTCTTTGGCAATCCAAATCTAAACTTCGAACCATATGGCCA CTGGCGATACGGAAGGTGCTGGCGTGAAATCAGAGAAGAACTAGCCGACA AGCTCAAAGGCCACAAGTTCAGCAATCACCCATACACCCTGTACTCAATG CGAGCAACATTTATAGAAGATCATCTGCGTAGAGGCACAGACATCTTTCT ACTGGCACGGATGGCTGGCCACGACGTCAAAGAATTAATGAAGAGCTACG AAAGACTTGACATAAGAGAAAGAACCAAAGAAATAACGACAATTGAATTC GGCAAGCAGAAAAGCAAGGAGGAAGACTTCCTGATCGACCTGATGCAACC AGAAGACGATCAAATCTGA >SYNW1367 carotenoid binding protein ATGTTCACGCTCGACAAAGCTCGTCAGATCTTCCCAGACACGCTGAGCGC TGCAGCCGTCCCGGCCATCACAGCCCGCTTCAAGCTGCTGAGCGCAGAGG ACCAGTTGGCACTGATCTGGTTTGCTTATCTGGAAATGGGCCGGACCATC ACCGTGGCGGCACCGGGTGCGGCCCGCATGGCGCTGGCACAGCCGACGCT GGATGAAATCCAGGCGATGAGCTTTGACGAGCAGACCAAGGTGATGTGCG ACCTGGCTGGCAAGATCAACAGCCCGATTTCGGCGCGCTACGCCTACTGG TCGGTGAATGTGAAGCTGTGCTTCTGGTACGAGCTGGGCGAATTCATGCG CCAGGGCAAGGTGGCTCCGATTCCTCAGGGGTACAGGTTGTCCGCCAACG CCAACTCAGTTCTGGAGGCCGTCAAAAAAGTTGAGCAGGGCCAACAGATC ACTTTGCTGCGCAACTTCGTGGTGGACATGGGCTACGACCCCGATGTGGA CGACAGCCAGGTGGTCACCGAGCCGATCGTGGCCCCGACACCGGTTGATC AGCGCGAAGAGATCCTGATCCCCGGCGTGCTGAATCAGACCATCCTCAGC TACATGCAGCTGCTCAATGCCAACGACTTTGATCAACTGATCGATCTGTT TCTCAACGATGGTGCTCTGCAGCCCCCCTTCCAGCGTCCCATTGTCGGCC GCGACGCCATCCTGAAATTCTTCAAGCGGGATTGTCAGAACCTGAAGTTG ATGCCCCAGGGCGGTTATGGCGAGCCGACCGAAGGTGGCTTCAACCAGAT CAAGGTCACCGGCAAGGTGCAGACCCCCTGGTTCGGTCGTGAGGTGGGCA TGAACGTGGCTTGGCGCTTCCTGCTGGATGAAAACGACAAGATCTATTTC GTGGCCATCGACTTGCTGGCATCACCAGCCGAGTTGCTCAAGCTGGGTGG CAAATGA >SYNW2039 conserved hypothetical protein ATGCCCGGGCACACAAGCAGTCATCGGCAACGGTGCGGCAAACATCTCAG CCTCGGTGGGCTGGCGTTGACGCTTCTGCTCTGCCCCGCCACGACGGCCC AGCCACGCCAGAACTGGCTCACCCCTCAACCAAAACCCGCGCCACAGGCA CCTAGGACGGCTCCAGCAACGCCATGCCCCGTCAGCGGCAACCCCGATCC CCTTCTGGGGCCCCGCACCCGCATGCCGGGACGCTGGGTTGGGCGGGGAG CGGTCAAGCCCGATCTGCCCATCGTGGTGATGGCCGGCCACGCCGATTCC CAGGCCATGGCCAGTGCCGGAACACCGGGCTTTGCCGTGGACAAGCGGCG TCAGGCGCCGATGGATCCCCGCATGCGGGACGAGCTGTACTGGAACCTGC AGGTGCAGAAGGCCGTGGTGCGGCTGGGGCGAACCCGAGGTCTCAACATC AGCGCCTACACACCACCGGCCCTCACCATCCGCAACGACGAGGACCCGAG AACCAACTGGTCCCAAGCCAAGACGCGTTCAGCCCGCGGCGACTACATCC TGGAGATTCACTTCGATGCCTACCGGCCCTACGGGTTCGGATCGGGTTTG ATCCCGGCGATCAATCGACCTCTTCACGCAGTGGACGAGAGTCTTGCTCA GGCCTTCGGACGATTCCCACGACTCTTCCGTAGCGGCCTCGGTGGTCCCC GTCGTGGTATCGGCATCCTGGAAATCGCGATGCTGGAGCCGCCTCTGGAG AACAAGCTGCGCAACCCTTCCACCCGCTCCCAGACCCTGGAGTGCATTGC CGAGCGGGTGGTGAACGCCCTGGTTCAGGGGGTCAGTTGA >SYNW0587 DNA binding protein HU ATGAACAAAGCTGACCTGGTGAATCTGGTGGCTGCTCGCACCGAGCTCAC CAAGACCGACGTCTCCATGGTTGTCGACGCCGCAATCGAAACCATCATCG ATTCGGTTGTTGAAGGCAAAAAGGTATCGATCCTTGGTTTCGGCTCCTTC GAGCCCCGCGAGCGTTCCGCCCGTCAGGGTCTGAACCCCAAGACCGGCGA AAAGATCGCCATTCCCGCCAAGCGCGTGCCCGCCTTCACCGCCGGCAAGA TGTTCAAGGACCGCGTGCAGGGCTGA >SYNW2182 conserved hypothetical protein ATGAGCCAACCCAACGACCTGCAAGCCCAGATCGAAACCTGGCGCGAGGA TGCCGCAGGCCTCAGCTACGAAGAAGCTCTGCAAGCCCTCGATCTGCTGC TGGCTGAGCTACAAAGCGACACGGTTCCACTGGCTGAGCTGCAGCAGCGT GTAGCGCATGGTGAGGTGTACCTCGACCACTGCGAATCACTGCTGAAGTC TGTGGAACGTGCCGTCGACACCCTCGACCCCGACAGCCTTGAACCAACCA CTGATGCGTAA >SYNW1342 putative endonuclease ATGCGCAAGAAGGAACGGGCGCAGGTAGTGCTGGAACGGCTGAACGATCA GTATCCAGAGACGCCGGTCCCTCTGGATCACAGCGATTCATTCACGCTGC TGATCGCAGTGCTGCTCAGCGCCCAGTGCACGGATAAAAAAGTGAACGAG GTGACCCCGGCTCTGTTTGCGGCTGGGCCTGAGCCTGCGGCCATGGCACA ATTGGAGGAACAGGAGATCCTGGAGCACATCCGTCAGCTGGGGCTGGCGA AGACCAAAGCCAAAAATGTCCGACGGCTCGCGCAGTTGCTGCTGGAGCGT CACGACGGCGAGGTCCCCCAGAGTTTCGAGGCGCTGGAGGCACTGCCGGG CGTCGGCCACAAAACCGCCAGTGTGGTGATGTCCCAGGCCTTTGGCGTAC CGGCCTTTCCGGTGGACACCCATATTCATCGCCTGGCCCAGCGCTGGGGA CTGAGCAACGGCGACAACGTGCAGCGAACGGAGCGAGACCTCAAGGATCT GTTCCCGCGGGAGGCCTGGAATCGACTGCACCTGCAGATCATTTTCTACG GGCGGGAGTTCTGCACCGCCCGTGGTTGCGACGGTCGGATATGCCCGATG TGCCGGGAGTTGTATCCAAACCGCCGCAAACCGGTGATCACACGCAAAGC GTGA >SYNW2362 SNF2 helicase homolog ATGAGCCTGCTGCACGCCACCTGGCTTCCCGCCATCCGTACCTCTGGCAG TTCCGGCCAACCGGCACTGCTCATTTGGGCTGACACCTGGCGGGTGGCGA CACCAGAGGGCCCCGGGCTAACTCCGGCGCTGCACCCGTTCACCCTGGAA CCCGACGACCTCAAGGCCTGGCTTCAGGAACGCGACCTGTTGCCAGGCGG CAGCATCGATGCCACCGCCTGCCTCACCCTGCCCAGTCGCACGGTAAAAC CCCGCAAGAGCCGCAGCAAAACGGCCGAACCAGCGCCCGAAGAGCCCATC TGGACCGGTCTGCCGATGCAGGCCGGAGAGCCGATTCCGAAACAGACAGA ATGGTGGCCGTGGCAAGTCCAGGGCCTCGCTGTCGAGCCCTCTGCCGCCA CGGAGTGGCTCTCACGCCTTCCCCTGTCAGGACGGAATCCAGACCTGGCC GATGAGCTGCGCTGGTGGAGCCACCTGCAGCGCTGGGCCCTCAGCCTTGT GGCCCGGGGGCGCTGGATTCCCCAGATGGAACTGAGCAAAGGCGAGGGAT ATCCCCACCGGGCCCGTTGGGTGCCTCTGCTCAACCGCGAGGAGGACCGG CGACGTCTGGAGGATCTGGCCGCCAGCCTGCCGCTGGTGGCCACCTGCGC CCTGCCCTGGCGGGAACCGATGGGTCGGCGCAGCAACCGCATGACACGGC TGCGTCCGGAGGCCATGCGTGCCGCCAACCCGGTGGCCTGCTGCCGGCCC CGCAGTGGCCGCCTGCGGGTGGCCACGCTGCTGGAGGATCTGGTCGACGC ACAGCTGCGCAAGGACTTTGAACCATCCACCGACGGCCTCGATCCCCTGT TGACCCTGTGGCAAGACGCCCTGGGCTCCGAAACAGGGGTGATTGAGATC GGTGATGAACAGGCCGAACGGCTGGCCAGCGCCAGCTTCCATTGGCGCGA GGGCATCGCTGGAGATTTCGCCGCTGCACGCACCTGCCTGGAACTGCAGA CACCTGCAGAGGGAGAAGAGCTCTGGGAGCTGCGGTTTGGGCTGCAGGCG GAGTCGGATCCGAGCCTCAAGCTGCCCGCCGCTGCGGCCTGGGCCTCCGG TGCCGACCAACTCCAGTTGGGAGAAGTGACAGTCGAGCAGCCCGGTGAAG TGCTGCTGGAGGGTCTGGGACGCGCCCTCACCGTGTTCCCACCGATCGAA AGGGGCCTGGAGACCGCTACGCCTGACACGATGCAGCTGACCCCCGCCGA AGCCTTCGTGCTGGTGCGGACCGCAGCGCGGCAGCTGCGGGATGCCGGCG TCGGCGTCGACCTTCCCCCCAGCCTGTCGGGGGGCCTGGCCAGCCGCCTG GGTCTGGCGATCAAGGCGGAGCTGCCAGAGCGCTCCAGCGGCTTCAGCCT CGGCGAATCCCTCGACTGGAGCTGGGATCTGATGATCGGCGGGGTGACGC TCACCCTGCGGGAACTGGAGCGGTTGAGCGGCAAACGCAGCCCCCTCGTG CGCCACAAGGGGGCCTGGATCGAATTGCGACCGAACGATCTGAGAAACGC CGAACGCTTCTGCGGTGCCAACCCGGAGCTCAGCCTGGACGATGCCCTGC GGATCACCGCCACCGAAGGCGATCTGCTGATGCGTCTGCCGGTGCATCGC TTTGAGGCCGGCCCCAGGCTGCAGGCGGTGCTGGAGCAGTACCACCAGCA GAAGGCCCCGGATCCGTTGCCAGCGCCGGAGGGGTTCTGCGGCCAGCTGC GGCCTTACCAGGAGCGTGGCCTGGGCTGGCTGGCCTTCCTCAACCGCTTC GACCAAGGCGCCTGCCTGGCGGACGACATGGGTCTGGGTAAGACCATCCA GCTGCTGGCCTTCCTGCAGCACCTGAAAGCAGAGCAGGAACTGAAGCGCC CGGTGCTGCTGGTGGCCCCCACATCGGTGCTCACAAACTGGCGACGGGAA GCGGAAGCCTTCACCCCCGAACTGGCGGTGCGCGAGCACTACGGACCGCG GCGTCCCTCCACTCCGGCTGCGCTGAAGAAGGCGTTGAAGGATGTCGACT TAGTCCTCACCAGCTACGGCCTACTGCAGAGGGACAGTGAATTGCTGGAG TCTCAGGATTGGCAGGGGGTTGTGATCGATGAAGCCCAAGCGATCAAGAA TCCCAGTGCCAAGCAGAGCCAGGCAGCCCGAGACCTGGCCAGACCAGCCA AAGGCAACCGCTTCCGCATCGCCCTCACGGGCACACCGGTGGAGAACAGG GTCAGCGAGCTCTGGGCTTTGATGGATTTCCTCAGTCCCAAGGTGCTGGG AGAAGAAGACTTCTTCCGTCAGCGCTACCGGATGCCGATCGAGCGCTATG GCGACATGGCATCCCTACGGGACTTAAAAGCCAGGGTCGGCCCCTTCATC CTGCGCCGGCTGAAAACCGACAAGACGATCATTTCCGATCTGCCCGAGAA GGTGGAACTCAGCGAATGGGTGGGGTTGAGCAAGGAGCAGAAATCGCTGT ACAGCAAAACCGTTGAAGACACCCTGGATGCCATTGCCCGGGCGCCTCGT GGACAGCGCCATGGTCAGGTGCTGGGACTGCTCACCCGCCTGAAGCAGAT CTGCAACCATCCGGCCCTGGCATTGAGTGAAAACGCTGTTGACGACGGCT TTCTGGGGCGCTCCGCCAAGTTGCAACGGCTTGAGGAAATCCTCGATGAG GTGATCGAAGCAGGGGATCGGGCGCTGCTGTTCACCCAGTTCGCCGAGTG GGGCCATCTGCTGCAGTCCTGGATGCAACAACGTTGGAAGGCGGATGTGC CCTTCCTGCATGGAGGGACGCGCAAAAACGAACGGCAGGCCATGGTGGAT CGTTTTCAGGAGGACCCCCGCGGCCCGCAGCTGTTCCTGCTGTCGCTCAA AGCCGGCGGGGTGGGTCTGAACCTGACCAGGGCCAGCCACGTGTTCCACA TCGATCGCTGGTGGAACCCTGCGGTAGAGAACCAGGCCACCGACCGTGCT TATCGGATCGGCCAGACCAACCGGGTGATGGTGCACAAATTCATCACAAG CGGATCCGTAGAAGAAAAAATTGACCGGATGATCCGAGAGAAGTCGCGCC TGGCAGAGGATGTGATCGGTTCCGGTGAAGACTGGCTCGGGTGCCTGGCC GGTGATCAGCTGCGCAATCTCGTTGCCCTGGAGGACACCTGA >SYNW1108 possible site-specific recombinase ATGACGGCCGCCAGTCAGCACAGTGGATCGACAGCACAGGACCGGACTAA AAAGTCGGTTGAAGAAGTGACACGTATTGGGTTCAGCTACGAACGGGTTT CAACGAAATCCCAAGTGGATGGAGTAGGACTGAAAAGACAGCACGACGCA TTTGAGCCGTTTTGCCAGCGCCACGGCCTGATACCCAACGCCGATCCAAT CCGAGATGAAGGGCTTTCGGCTTTTCACGGCACACACAAGAGCAAGGGTG CCTTGGGTGCGTTCATCCAGGCTCGGCGCGACGACCTAATCCCGGCAGGC TCGGTGCTGGTGGTGGAGGAATGGGACCGCTTCTCAAGGCGAACCACAAG CGTTAGCGAGCGGATGCTCCACGAGCTTTGGGACCTGGACCTTGCCCTTG GAATTGTCAGCCAGGACTCGATCGTCACAGAGGAGCTCTACAACGAAAAT ATAGGACTCTCAGTAATGCTGAAAGTCCTTCAAAATGAGTCCAACGCAGA GAGCAGCAAAAAATCCCGAAGAATCAAAAACGTTTGGCAAGAGCGACGTG ACTCTTATCTGAATTCTGGAAAAAAGTTTCTGTCCTTGTCAGATGCACCA AAGTGGTTGGCAATAGGTGAGAACGACTTTGTCCCAGCTCCACTAGCGGA AACAATCCAGTTGATCTTTGAGTTGGCAGCCAAACAGGGACTGTCCAGCG TTCAGATCGCAGAAGAACTAAACCGTCGTGGACTATCTACTGCCACTGGT GGTACCTGGGGAAATGCAAACGTCTGCAAGGTCCTGAGAAACGACCAAGT GATGGGACATAAGTGCTGGGGAGACGGGATAATCAGCCAGGGCTATTACC CGGTAATTGTTGACGCTAAAACGGTTGAACTGGCAAGAGAGAACGTCAAG CGTCGTTACTCGGCTCCAGCTAGAGGTCGGACAACGAGAAAGAACGGAGA ACTAGGGCCATGCCGCAATATCTTTAAAGGGCTGACTTACTGTTGCTGCG GTGCACCGATGGTGGATACCAGCAGCCATAGCGGAAAGTATTTAGACCTT GTCTGCAGCGCACAGAACGATGGCCGCGATTGCATTGTCAAAAGCAAACA ACGATGGAAGGTAGACGAAGAGCTCTTGCTCAGGGCCTTCATGGACAGGC GATGGGAGCGGTTTTTTAAAAACCCAGGCACCGGGCCTCGTATCCGAGAT CTTCAGGATCGGCTCTTAGAGCAAGAGCGACTTGCGGGTGAGCTGAGGAC ACAAGCAAAAGCCGCTGAGGACAATGCCAGCAAAGCCTTTACTCAAACGA ATGCAGATAAGGACCTTCTGGTGTTCTATGGAGAACTGGCTATCAAGGCT AAGAAACAAGCCAACGCGGCCGAGGATAAAACAAAACAAACAAGAGCTGA ACTTGAAGCTTTTCAAGCATTACCTGACGGCGCGGACATGAAGGAACAAA TTCGGATCAAGTTAGAAGAATTTTTGTCATTGCCCAATCGTGCCGACCCA GAAGTAAGAAATAAGTTCAACCAGTGGGTGCAAACACTTGGAGCACGGAT TATTTTCATGAACACGAATCCGGTTCGTGTCCGCATTACACTAAAAGATC TGCCAATCGATCACTGGTGGCGTGAGATTCGACCGGATGTAACTGACAAG CAGCTTTTGAACTCCATTGATGATGTTTACCTTTATCGCAGAGGAGACGA TTGTGTGATTGACCAAACTATTCAGGACTTAGCGGAACTAAGAGCCACAC CACAACAGATAACAGAGCAGCGAGAAAAACTTGAATCAAGCATCCCCGTT CCTAAACGAATCAAATCTCCAACATTCACAGCAGAGGAGGCAGGCCGGCT AAGCGCAGGAGCAAGAGCTGATGCAGTGGACTGGGCCAAAACGGCATAA >SYNW1807 exodeoxyribonuclease III GTGCGGATTGCCACCTGGAACGTCAATTCAGTGCGCACCCGCCTTGAGCA AGTGTTGTGCTGGCTTGAGCAAACCAAGCCAGATCTGCTCTGCCTGCAGG AGACCAAGGTCGACGATCCTCTGTTTCCTATGCAGGCCTTCGAGAACGCT GGGTGGCAGGTCAGCATCCATGGCCAGAAGTCGTACAACGGAGTGGCGTT GGTCAGCCGCGAGCCCCTCGAAGATGTCCGCTGCGGTTTCGTTGGTGAGC TCCCTGACGATGCCGAAGCCGCAACCCTGGGGGAACAGAGGCGCGTGATC AGTGGCCTGCTGGATGGGGTGCGGGTGCTGAATCTCTACGTACCGAATGG TTCGAGCTTGTCTTCAGAAAAATATCCCTACAAGTTGACCTGGCTTGGAT GCCTGAAGCGCTACTTGGACGCCCAGGCCGAACGAGGGGAACCGCTGTGC ATGGTGGGGGACTTCAACATCGCCCTCGAGGCAAGGGACATCCACGACCC CGATCGCCTCAGCGGCTCGGTCATGGCGAGCGATGCGGAACGGGATGCCT TGCGCGAAGCCCTGGGGAACCGCCTCCAAGACGCCTTCAGAATGTTCGAG CCCGACGCCGGCCACTGGAGCTGGTGGGACTACCGCACCGGGGCCTGGGA TCGAGATCGTGGCTGGCGCATCGATCACATCTACCTCTGTGAGGAGCTGA TGGGGCTCGCCCGCAGCTGCAGCATCCACAAACAGCTGCGTGGCAACGTT CAACCCAGTGATCATGCGCCAGTAAGCGTTGATCTGGACTGGCCTCCTGC TGACGACGACCAAGACGAGGACGATCAGCTGTTTTGA >SYNW1206 possible single-stranded-DNA-specific exonuclease ATGAGTGCCACCTCACCGCATACCTGGGTGCTTCCGGCTGTTGTGGATGC CAGTCCGCTGCCTCAACTGCCGTTACCACTGGCCCTGAGGACCCTGCTGC TTCGTCGGGGATTGAGCGAAGAGGATGTCGCTGAACTGATCACACCACAG GAGTTGCCCGACGCTTGCGGACACTTCCCAGATCTGGAAGCAGCGGTTGA ACGCATCTGCCGCGCCTGTGAACAGGGAGAAGCTCTCGCGGTCTGCGGCG ATTACGACGCCGATGGCATGACCAGCACAGCTCTTCTGTTGAGAGCCTTG ATACCACTCGGCGCCAAGGCGGAGCCGGCGATCCCTTCCCGGATGGAGGA GGGCTATGGCCTCAATCCAGCGATGGTCGATCGCCTGCATGGCCAAGGCA TCCGACTGCTGGTCACCGTGGACAACGGAGTGGCGGCGGTGGAGGCCCTC CAACGGGCCAGAACGCTGTCGATGGACGTGATCGTGACCGATCACCACTC CATTCCAGAACCGCGTCCATGGATGACCGCACTGCTGCATCCAGCCACCA CCCCGGAAGCATCTCCCTACAGAGGTCTTGCCGGTGTGGGGCTGGCCTAC GTGCTCGCCAGCAGCGTTGCCGAACGGCTGGGGCGAATGGATGCGATTCA GGTGGCCCGCGACCTGTTCTGCATCGGCACCGTGGCCGACATGGCACCGC TGACCGGAGCCAACCGACGTTGGTTGCTGGAAGGACTGACAACCCTGCAC CGCAGCCGTTGTGAAGGGGTCGTGGCACTGCAGCGTCTGGCGGGACTGGG CGAGACGCCCTTAACCGCCGAAGACATCGGTTTTCAACTCGCCCCGAGGA TCAATGCGGTCGGACGACTCGGTGATCCCGTGCTGGTGGTGGACCTGCTC ACCGAATCAGATCCGGGCAAAACCATGGCTTTGGCGCGCCGCTGTGACGA TCTCAATCGTCAGCGACGGGATCTCTGCGATGCCATCGAAGCGGAAGCCA CTGCCCTGGTGGAATCGGATGCTGAGGGGCTGATTCCACCGTTTCTACTG TTGGCCCAGAGCCACTGGCATCACGGGGTGATCGGCATTGTCGCCGCACG ACTGATGGAGCGTTACCACCGCCCTGTGGCGCTGCTGGCCGGGGATGGTG AAGGTCTGTTGAGAGCCTCAGCACGGGCGCCCCAGGGTTTCGCCGTTGAC AAGGCGCTAACAACCTGTGCGGATCTGCTGGAGCGGTTCGGAGGCCACCC GGCTGCGGGTGGATTCACGGTGAAGGCCAGCCAAGTGCACGCCTTGCATG ACCGCCTGAATCAGCTCACCCAACCGTGGCTGGATCAGGAGGGGGCAGGA CGACCGGTTCGCCCTGAGGCTTGTTTGAAGCTGAACGAAATCAACTGGGA TCTCTGGGCTGCCCTCGAAACCTTGACCCCCCATGGTGTGGGGCATCCAG CACCCCTGTTCTGGTCCCGGGGATGCCAGGTGGCGGACTGGCGAACCCTG AACGGTGGGCACTTGGCGGTGACCCTGCAGCAGGGGACACACCAACGGCG AGCAGTGGCATGGCGATGCTCCCCCCTGACTCCGATGCCGGAGCGGGTCG ATGTTGCTTACGAACTGAAACTGAACGTCTGGCGGGGGGAGCGCCGGCTC CAACTCGAACTCAAGTCCATTCGGGAGCACACGGACACCGTGAGGCTGAG CTGCGGCGAACGGAGCTATCTGGCAAGCAGGAAATTGGGTGATGACAACG CAGTCACCTTTGGGTTGACCAACGCCGGTGGAGATCACCTTGATGCATCA ATCACTAAAGATCAGACGGTGAGTTGCAAAGACCAACGTGCAAGCCACTC GAGGATCCAGACCCTTTTGGAGGAAGCCGCCCTGGCCCTTGGATTACGCG CCTAA >SYNW1662 phage integrase family ATGCCTTTCACCGACTCTGAAATCAGGGCGCTGAAGGTGGGCGAGAAGAT GAAAGACTTCTCCGCTGGTCCAGGACTGCGAATTCGACTGGAACCCGCCA AGAAGGGAGGCGGCAAGTCGTTCTACGGGTACATGTATTTCCCGCCTGGT GGCGGAGGGAAGAAGGTCTGGGTCTGCATCGGTCCTTATGGCAAGGGACC AGGCAAGTGGACCCTGAAAGACGCCAGGGACGAGTGGGTCCGCATCCGCA CCTGGTCCCAAGAGACGGGCAAGGACCCCAGAGAACTGAAGAAGGAGGAG CGTGCGGTCGTCGTGGAGCAGCAGAAGACGCCAACGCTTGAGCGTGCTGC AACGGAGTTCTTGGAGAGGTCCCACCTGAAGAGGACGACCCTGAAGGACT ACCGCAACATGCTGTTCGACCAGATCATCCCCAAGTTCGGAGCGGAGACA CCGATCAAGAACCTTGCCTGGGATGCCAAGCAACCCGATGGCAAAACAGG ACGGCAGGCAATCCTGGACTTCAGGAAAAAAATCGAAGGCAGAGGGTCCA AGATCGCCAGCGAGAAGATGCTTGGAGTGATGCGTGGGGTGTTTGCCTAC TCGATCGACCAGGCATGGATGAACGAACCCAACCCTGCTCAGTCATCACG GTTTTCCAAGGCACAACACAAACCCCAACCGAATCCATCTCTGGACTGGG ACCAGTTACCCAAGTTCTTTGATGACCTGGAGAGGAATGACCCGAACGCT GCATTGGTCATTCTTCTTGCAGTGAAGATCCTGGTGATGACCTTCCTTCG AGTTGGTTCTTTGACACCAGCAAAGTGGGACGAATTTGACTTCAAAAAGG AGATATGGACAATTCCTGCAGATCGAATGAAGACAGGTAAGAGTCATAAA GTGCCGTTAACTGCACCGATTAAAGATGTTTTAAATCGACTGCATACTTT TACAGGAGAGACTGACTATGTCTTCTTCTCTCCAAGAGGAAGGGAGTATC AACATGTGCACCGTGATTCACTCAATGCTCATCTCAAAAAAATGGGATAC AAGGGTCTAACGACTGCTCATGGATTCAGGCACCTTGCTCTTACCGCGGG ACAAGAGGTGCTCAAGGTTGATCATGAGATTATTCAACGACAGATGGCGC ACTCTTTTGGAGACAAGATACGTGGTTACTACGACAAGTCCCAGATGCTG ACTGAGAGAAAAGATTTTATGATTGCTTGGTGTGATGCATTAGTGGAACA AGGTCTAATCACATAA >SYNW1493 conserved hypothetical GTGGCCATCGATGCAAGTCGCATCGTCAGCGTTATTCCTGGTTACAACAC GACAACTGTTGATGCTGTCGTGACCACCGCATCTGGCGACGAAGAGATGC TTTTGGTGTTGGATGAGGACGGCAAACTGCTTGCATGGAAGTGGGCTGAC CGTGTCCAGCCCATCGAAACCACAGCACTCGAATTCACAAGCGACCTTGC GGCGGGACGTTTGATTGCAGCGCGATCCAAGATGTCATTGCAGCTTCAGC AGGAGCTGGCCCCGGGGGACCTTGAGCGCAAGTGGAGCAAGCTCGTGCGG GTGGCTGGAGGTTTTCGCAAGGTCAAAGACGCTGTGATTGCTCATCAGGG CGGTAGCCAGCAATTGGTGCTTGTGGCTGTGGAATTCGGTAAGGCCACCT CCAACCTGTTTGTGATCTTTGACGAGCGTGGACGGATCATCAACGTCGAC ATCTCCCGCGACTTTGTCTGA >SYNW0112 hypothetical GTGGTTCGAGGCTTTGGCCGGCTCATGGCAGATCGATCGTTGGTTCCGTC AGTTTCTGATCAAACGGTATTCATGGGTGTGATTTCGAGATCAGTGCCGG CGATGGCCCAGCACCTGCTGGGCTGGTGGCAGATCAATGGACGCTGTGAT TCGGCACAGAAGCCGTGGATGGTCAACCTTGCAGGCCGCTGGCCAACGGT CACCGACGAGCTTGATCTTTATGGCATCTGGATCGCCGAGGTGATGCTTC AGCCACCTGCCGTATCGGCTGGCTCTGATTGA >SYNW2389 Putative DNA ligase ATGGCTGAGCAACAGCAGCGGGCCGCGGAATTGCGGTCCCTGCTCAACCG AGCTGCCCATGCCTACTACGTCCTCGATGCCCCGGTCATGGAGGACACGC TCTACGACCGGCTGTACCGGGAATTGCAGCAGCTGGAGCAGGCTGACCCA AGCCTGCTCAGTGCAGACAGCCCCACCCAGAGGGTGGGCAAAGCACCGGC AACGGGCTTCCACAGCGTGGAGCACAGAATCCCGCTGCAAAGTCTCGACA ATGCCTTTGATCACGGGGAACTAAAGGCCTGGCATGAACGCCTGCTCAAG GTGCTGGACCGAGCTGACGACAGCCCTTTACCCCTGGTGGGCGAGCTCAA GATTGACGGCAATGCCCTGGCTCTGAGCTACCGCCATGGGGTGCTGGAGC GGGCAGCAACCCGCGGCGATGGCAGCAGCGGTGAGGAGATCACCGCCAAT GTGCGCACCATCAGTTCGATCCCGCTGCGGCTGCAGATCGACGATCCACC GGAATGGGTGGAGGTGCGCGGAGAAGCCTTCATCCCCGATGACACCTTCG CTGCGATCAACAACGAACGCGCCGCCCACGGCGACGCCCTGTTCGCCAAC CCCCGCAACGCCTGCGCCGGAACGTTGCGGCAACTGGATCCCAAGGTGGT CGCGGCCCGACGACTGGATTTCTTTGCGTACACCCTGCATCTGCCAAGCG ATCACTCCAATAGCCCCGAATGCCAGTGGGACGTCCTGGCATGGCTGGAG CAAGCCGGCTTTCGCGTCAATCCCAACCGCGAGCTCTGCGATGGCTTGAA CGGAATCGAACGCTTCTGCGACCGCTGGGAGCAGCAACGTCATCAGCTGA CGTACGCCACCGATGGCGTGGTGGTGAAGCTCAATGACCTGCGCCTTCAA GATGAGGCGGGCACCACCCAGAAGGCCCCACGCTGGGCCATTGCCCTGAA ATATCCAGCGGAGGAAGCCCCCAGCAAGCTGCTGAAGCTGGCGGTGCAGG TGGGACGCACCGGCGCCGTGACGCCCGTAGCCGAATTCGAGCCGGTGGCC CTGGCGGGCACCAGCGTCAGCCGCGCCACCCTGCACAACGCTGATCGCAT CGCCGAACTGGATCTGCACCTCGGTGACACGGTGGTTGTGCGCAAAGCCG GAGAAATCATTCCGGAGGTGGTGCGGGTGCTTCCCGAGCTGCGCCCTACG GGAGCCGTTCCCCTCGAGCTGCCGGACCACTGTCCGGAATGCGGTTCCAA CCTGGTGCGAGACGACAGCGAAGCAGCCACCCGCTGCATCAACAGCAGCT GCCCGGCGATCCTGCGAGGCGGCTTGCGCCACTGGGTGAGCAAGGGCGCC CTGGATGTGGACGGGCTCGGCAACAAGCTGATCCAACAGCTGGTGGAGCG AGGTCTTGTGCGCTCCATCGCCGACCTTTACCGGTTGGATGCAGCCCTGC TGGCGAGTCTGGAGCGGGTGGGCGAGAAATCCGCCGCCAACCTGGTGGCG GCCCTCGAGCAATCCAAGCAACAGCCCTGGCATCGCCAGCTGTATGGCCT GGGGATCCGCCACATCGGCGAGGTGAACGCCAAAGCACTAGCGGCGGCTT ATCCCAACAGCGCCAGCCTGGCCGCTGCTGAGCCGGAAAGTATCGCAGCG CTGCACGGCATCGGCCCAGAAATCAGCAGCAGCCTGCAGCAATGGCACGC CAACCCCCCCAACCAGAGGCTGCTGGAGGATCTGAGGGCGGTCGGCCTGT CGCTAGAGGCCAATACTTCGGAACTGAACGCCAACAGCACCGGCGAAGGC AACAGCAGCGGCGCGCTGCTGGGCAAAACCCTTGTTCTCACTGGCACATT GCCCAACCTCAGCCGCAGTGACGCCAAAACCCTGATTGAAGGCGCCGGCG GCAAAGTGAGCGGCAGCGTCAGCAAGAAAACCGACTACCTGGTGGCGGGA GAGGCGGCCGGCAGCAAGCTGTCCAAGGCTGAAAGCCTGGGGGTGGAAAT CCTGACTGAAGCCGAATTGCAAAAGCTGCTAAGCACATAA >SYNW0665 possible Recombination protein O (RecO) ATGGCCGAACGCACCCTGGTGGGCTTAGCATTGAAGGTTGGGCCACTCGG CGAGCACGATCGGCTGCTCAGCCTGCTCAGCGATGCGGAGGGGGTGACCC GCCTGGCGGTCCCTGGTGCTCGTCGGCCGAAGAGCAGCCTGGCGGCAGCG GCACCCCTGACCCTGCTGGAACTGCAGGTGGGCGGCCGCAGTGGTCTGGC CCGCGTGCGCCAGCTGCGGGTGCTCCACAGCCATGCCGGACTGGGCCGCC AGCTGGAGACCTTGTCCGCCGCTCAGGCCTTCTGTGATCTCTGCCTGCAG ATAGGACGGGAGGATCCGGTGGAGGGATTGCTGGCCACACTTCAACTGCA TCTGGAACGGCTGGACCAACGCAGCGACTGCCTGGATGAGCTGCTGGCCA GCAGCGTGCAGGGGGCCATCCATCTATTGACCCTGGGGGGATACAGCCTG CCGCTGCAGAGTTGTTGTCTCAGCGGTGCTCCACTGGAGCCTCCCATCGG GACGTGGGAGTGGCGCTGCAGCCTCCTGCCGATGGACGGCTTCGCCATTG ATCGACAGCCCGGAGCGGCGATGACCCTCAATCCCTCGGAGCTGGCCCTG CTGCAACGGCTGACCCGTGCCGATCTGCCGCGCCGCCGCGACGGGGAGCT GATGGGGCCACGCCCGGTGTGGTTGCGGTTGCTGGCCGTGGTCGAAATCT GGATCCGAACGCATCTGCAGCGGGGGAACCCTGCCCTGGCGATGCTGCGG GAATGCGTCACTGCGAAGCAGGTAAGCCAACATGGCGCCGACGCAGCGAA CAGTTGA >SYNW0219 probable deoxyribodipyrimidine photolyase ATGACAACGCCACGCGTTCTGTTCTGGCACCGGCGTGATCTCCGCCTGAC GGACAACCTCGGTTTGGCTGCTGCTGCAGCGATCAGCCCCGCCGTCACTG GTGTCTATGTGCTGGATCCGCAGGTGATCTCCCCTTCGGAGCATCTGCTG CCGATGGCTCCGGCTCGATTGTGGTTTCTGATCGAGAGCCTGATTGAGCT GCAACAGCGCTGGCGGGATGCCGGCAGTCGACTGCTAGTTGTGGAGGGCG ATCCTGTGCAGCTGCTGCCGCAGTTGGCGGAGCGGATTGCTGCCGAGGCG GTGGTGTGGAACCGGGATGTGGAGCCCTATGCCCGTGAACGGGATCGTCA GGTGGCTCAGCGGCTGCAGGCGGATGGCCGCAAGGTGGTGGTGGATTGGG ACCAGCTGCTGATTGCCCCGGAGCTGCTCAAGACCGGCGGAGGAGATCCC TATCGCGTTTATGGCCCATTCCTGCGCAACTGGCGCGGACAGGTGCAGGC CAAACAGCCCGTCACTGTTCCAGCACCGGCGGGCCTCGTTGATCTCGATC CGGCCGCCGTGCCATCGGGCGAACCCCTCATGGCACGGCGGGACAGCCAT GGTTTCAAGGGGACCGAGCTCTGCCCCTGCCGTCCCGGCGAGGCGGCGGC GATGCAGCAGCTCACCAGCTTCTGTGATGGCGCCCTGTTCGGTTACGAAC CGGACCGCAACTTCCCTGGCGTCGTCGGTACCTCGTACCTCAGTGCCGCG TTAAGCGTTGGCACCCTCAGCCCACGCCAGGCCTGGTCTGCAGCCCAGGA GGCCCGTGAGCAGGCCCGCAGCGAAGAGCAGCTTCACGCCATTGCTGTTT GGGAGCAGGAGTTGTGCTGGCGCGAGTTCTACCAACAGGCCCTGTTTCAT TTCCCCGAATTGTCGGATGGTCCCTACCGCGAGCAGTGGCGCCGCTTCCC CTGGGAGAACAACGAAGACTGGTTCGATTTCTGGAGGGAGGGTCAGACCG GCATGCCGATCATTGACGCCGCCATGCGCCAGCTGAACCAGACCGGTTGG ATGCACAACCGCTGCCGCATGATCGTGGCTTCGTACCTGGTGAAGGATCT GATCTGCGACTGGCGCTGGGGGGAGCGCGCCTTCATGGAACTGGAGGTGG ATGGCGATCTGGCCGCCAACAACGGTGGCTGGCAGTGGAGCGCCAGCAGT GGCATGGACCCCAAGCCCCTGCGGATCTTCAACCCCGCCACGCAGGCCTC AAAGTTTGATGCAGCCGGCGATTACATCCGCCAGTGGGTACCGGAACTGC GCCATGTGAACACCAAGGACCTGCTCAGTGGTGAGATCGGTGCTCTTGAA CGGCGCGACTATCCCGAACCATTGGTCAATCACAAAACCCAGCAGGCCAA ATTTAAGGCGCTTTACGCCACCATCCGCTCCTGA >SYNW0744 conserved hypothetical GTGAGCAGCGAGGCCCAGCTCACAGAAGATCTCACGGACGATCAGCGCAA GGCTGCCGAGGCTTTCGCGGACTGGCTCACCTCACCAGCCGATGGAACAC CCTTCGTGCTGAGCGGTTTCGCTGGCAGCGGCAAGACGTTTCTGTCGATG CGCCTGTTGCGGATGGTGGAGGTGCATGGGCTGTGCTGGACCGTGGTGGC GCCGACGCATAAAGCGGTGGGCGTTTTGCGTCAGGCCCTGGATCTGGAGG GTCTTCAGCCCACCTGGTACCCCTCCACCATTCACCGGTTGCTGAGGCTG AAGCTGAAACGCTCCGCTGATGCTGAGGTCTGCGAACCAACGGAGCAGAC GGCGATGGCCCTGGAGAACCTTGGCCTGGTGCTGATCGATGAAGCCTCCA TGGTGGACAGCACATTGCTGGGCATCGCTCTGCAGTGCGCCCATCCGTTC AAAACGCGGTTGGTTTTTGTCGGTGATCCAGCTCAGCTGCCTCCGGTCGG CGAGGACTCCAGTCCTGTTTTTTCGATGCAGCGGGCCTGTGCTGCAACTC TGGAGGAGGTGGTGCGCCACCAGGGGCCGGTGCTGCAGCTCGCCAGCCGT CTGCGGGATGGAGGACTTCCCTGTCAGAACCCGCCCGCGTTGCCTCCGAT CTGCAACGACAGTGGTCAAGTGCGTTGTCTGCCCCAGAAAGACTGGCTGG ATCAAGCCCGCCAAGCGCTTCGGCAGGCCTCTCTTCAGGACAACCCAGAT GCCGCCAGGATCCTCTGTTACACCAACCGCACCCTTGAGCGCCTGGTTCC CCTGGCCCGGCGGGCCATCCATGGGGACATGGCTGATCAGATGGCGGTGC TGCCTGGAGAGGTGCTGATCAGCCGAGCGGCGGTGATGGCGCCGGCCTCA AGGGATGGCGAAGAGACCGGCGAAGAGCCCGACATGGTGCTGGGTTCCAA TCGTGAGGTGACTGTCAGGGATGTGACGCCTGAGTCCTGTGACCTGATGG ATTTCGGTCTGTCCCCAGCAGATGGAGCAGTCCCGGTGATTGAAACCCTG TCAGCTCAGGTTTCAGCGGGGGAATTGGAGCTCTGTTTGAGACTCCAACC GCCTGTTGGTAGTGAGGCCCGGCGCGAGCTGGATGGTGTGATGCAGCGGC TGCGTCAGCAGGCGCGTGACGCGGGCAAACAAAACGGTCGGGCCATCTGG CGGCGTTATTTCCTTCTGCGTGATGCCTTCGCCTCCCTTGGACCAGCGGC GGTGCTGACGGTGCATCGCAGTCAGGGCAGCAGTTTCGGAGAAGTCTTTG TGGCCCCGGATGTGTTCCGTGCCGATCTATCCATCCGTCAGCAACTCTGT TATGTCGCGGTCTCGCGAGCCCGAACCGGCGTGTGGCTGATCGGAGGAAC GGCCAGCTCTGCCACCGCGCGTGCCTGGCGCGATGAATTCGCATCCACCC TGTCGGCCCCTTGA >SYNW2416 possible phage integrase family ATGCCCGCCCAGCAATGGGAAAAGACGCTTCGGCGTCAGATCAAGGACAA CCACGGCTTTGGTTGGAACCTCATTGCCCAAAGCGGCAAGACCAAGCTGA CGCGTGTCCATGAAGACGGCACCAAGAGCGCCAAGGTGCTGCCTATTGAG TGGAAAGCCACCAACTCGGTGCAGATCTTGAACGCCGTCACCCGCGTGCG GCAGCTGATGGAAAGCCGCAATCTCAGCCTTGCTGAGGCTGTTCGTCTAG ACACCGCAGAACTTGCAGTTCCCTCCAGTCACAGCGGCGTTGCTGAACAA GGTTGGTCTGCTGTTGTGCAGGAGTACCTGAAGGGCAAGCAAGGTCTTCG CAGCTCAACGCTGTCTGACCTCAGAACGCGTCTGAATCGCTTGCTGGTGT GCCTGGATCAAAAGCCCAAGCCGCGTGATTCCAGAGCCTTGCTGAAGCGT TACGCGCAGCTCTTTTTCTCCGACATGGAATCTGGCGGTGAAGGCCGTAG GCGCAACATTCAAAGCATCGTGGCCTTCTTGCGTTACGCCGTTGACCGGG CTGGTGCCCATCAGTGTTGGCTGCCGCAGGAGAAGTCATTCACAGCTGAA CTGATCGGTGTTTCCGCCACCAGTACGCAGGCGCGTTTGACCCCACCAAT TAAGTCGCCAGACCTTGCTGCCCTGTTGGACCAGATGGAGGCAGATGGCC GTCATGACCTGCGTTTAGCGACAGCCTTGATATCGCTGTTTGGGCTCAGG CCCGCAGAGCTGGCTCTGTTGAGCGTCAAAGAAGGTCGGCTTTATGCCGG TGCCGTCAAAAGGAACACGGCTTCACTGGCGCAGAAGCCAAAGCCGCCAC GGCTGTGCCTGCCACTAGACATCGAAGGCCGTGAAGGTGAAGGCATGAAG GCACTGCAGCTTTATGCCTCTGGTCTGGTGAAACTGCCCCAGTCGGTTCT GAACGAAATTTCTAAGGTTGAGGAGAAGCAAAGCTTTAAGCAGGTTGGTC ATGCCTACGGGCAGTTGCTTCGCCGATACGCACCCTGGCAAAACTTGGTG CGAAGTAATCCAGACACCACGATTTATTCGCTGCGGCATTCGTGGGCATG GCGCTGTCATGTTTGCTCAACTCATCCTTTGCACGTTCGACAAGCAAGTG CGCTTATGGGTCATACGCCCACTGTGCATATGGCGACATATGGTCAATGG GTTGATGAAGCCAGTCTGGAAGCGGCAGTTGAGCGATACACCGAAGGTTT GGTCACTGCTGATTACTGA >SYNW0612 possible deoxyribonuclease similar to TatD GTGTCGTCCATTCCAACGTTGATTGACAGTCACTGTCACATCGTTTTTAG AAACTTCGACGACGACCTCGATGAGGTGGCCTCCCGCTGGCGGGAAGCAG GGGTCAAGGCCCTGTTGCATGCCTGCGTGGAGCCGTCCGAAATTCCTGCG ATCCGGGCCCTGGCTGATCGCTTTCCTGAGATGCGCTACTCCGTGGGGGT TCATCCCTTGGATACGGAGCACTGGCGAGACGACACGATTGCGGTGCTGA GACGGGCGGCGCTGGCAGACAAGCGGGTCGTTGCCATTGGCGAACTGGGG CTCGATCTGTTCCGTGACAAGAACCTCGAGGAACAATTGCAGGTGCTCCG TCCGCAGCTGGACCTGGCGGTGGAGTTGGATCTGCCGGTGATTATTCATT GCCGTGATGCCGCTGAGCCGATGCTCAACGAGCTGCGTGCCCGCGTTCCC GAAGGCCTATGCCCACGTGGGGTCATGCACTGCTGGGGCGGGACGCCCGA CGAAATGGACGGCTTCCTGGAGCTCGGGTTGTACATCAGCTTCAGTGGCA CAGTCACTTTCCCGAAGGCAGTCCCCACCCATGACTGCGCGCGTCAGGTG CCTGAGGATCGCTTTCTGGTGGAAACGGATTGCCCATTCCTGGCGCCGGT GCCCCGGCGGGGTAAACGCAACGAACCGGCTTTTGTGGCGTCGGTGGCCA ACCGGGTAGCTGAACTCCGCGGCGTCGATCTCGACACGGTTGCGGCCAGC AGCACCTCCAACGCCCGTCGTTTGTTCGGTCTTCCCTAA >SYNW0395 conserved hypothetical protein ATGAACGATCCGTTCAAACTGCTGCTGATCGGAGACAGCGACAGCCAATT GTTGGCCTGTGAAGCGCTATGTCGCTTCCCGTCGGACCTCAACGTTCAGG TCACCATCAACGCCATCCCGCGTGAGGGAACACCCGATTCGATACTGCAG CGGGCTGCTGCCCTTGGTGATCTCTGGCGGCTGGACATGGGGCAGTTGCT GACTCACTCCGAGCTGCTCCACTTCGATGCCATTGGCGTCTACCTCACCG GCAGCAAAATCAGTGATTTCCGACTGGCGTTGGGATTGCTGCCCAGTCGT GAGCGACCGTTGTTGTTCTGCGGATTCAACGGCGTTGTGCTGGAGAAGTT CATGGAAGGCATGAGCTGGCGGCTGGGTTACGACCTCGTCTGCCTCAGTG GCCCTCGGGATCGTGAGGCGCTGGACCGAATGCTGGAGGGAAGTCCGTTT GCCGGTCAGCGCACGGTTCTCACCGGATTGCACCGCCAGGAGATCTCAGA TGATCAGCTCCTCGACCAAGAACAGAGGCGCAAGCAACTGGTGTTTGCAG AACAGGTGGTGATGCCGTCCAGTCCTGCAGACCGCGCTGAGATGGTGCGG ATTTTGGCGGACCTTGCCCGGCGTTCCCCGGACTGGGAGGTGTTGATCAA ACCGCGTATTGCCCCCGGGGAGGCAACCTTCCACAGCATCACAGACCACA TCAGCACCACATTGCAGCAGGCCCTTGGCCACCCCCCCGACAACCTGCGA TTCGACTATCGGCCTTTGCCCGACTTGCTGCGTCAGGCCAGGTTGACGGC CACCATCTCCTCAACCGCCTTCTTCGACGCATTGGATATGGGTTGCAGGC CTTTGGTGATGGCCGATTTCGGCATCAATCCTGCCAATGGCAGCCATGTC TTTGCAGGTTCGGGTGTTTGGCGCTGCCTTGATCAGGTCGAGGACCTTGA TGCTCTTGATCGTTCACTGCCTTCGCCGGACGCCGACTGGCTGGCCTGGA TGGGATACGGCACGAATCTCGACCCTGTGGATCTGATCGAGGCTTTAGGC CAGCTGCGTGCCGATCCACCTGAACGCCTCAGCACAACATCCGGATATCT CTCTAACGCCAATCTCAGCTTCACCCAGCTGCGACGCGACGCTGAGCAAG CCATCGGTCAAAAGAATTGGGAGGAAGCCCAGAGCCTGTTGCAACTCGGA AGCCTGATGCGACCGACCCATCGCAATGTGGCCCGTCGGCTGCGTGCAGT ACAGCAACGGAACCGCATCATCAGGCGCCTGCTGCTGAGCCTGACCTACA GGGACGTGGGGTAG >SYNW0115 putative adenine glycosylase ATGGGTCAACGAAGCGGCGCCGAACATCGTGACCTCAGCGCCCTAGCGCC TGAGCTCAGTCAATCCCTGTTGGCCTGGTGGGAAATTCATGGTCGGAAGG ACCCTGCGCTCAAGCCGTGGATGTTCACCAAGGACGGCAGGTGGCCCGAA CCCCATGAACATCTCAATGTCCTGGAGTGCTGGATCGCCGAGGTGATGCT GCAGCAGACCCAGCTGAAGGTGGTTTTGCCCTATTGGCAGGGTTGGATGA AGGTGTTTCCCACCGTTGATGCGTTGGCCGCGGCGTCGCTTGAGCAGGTG CGGTTGCAATGGCAGGGCCTTGGCTATTACTCCCGAGCCCGCCGTCTGCA CGCTGCAGCGCAGCGTTTAGCCCAGGGACCATGGCCCCGGGATCTGGACA GTTGGATGGGTCTGCCGGGCATTGGCCGCACCACCGCAGGCAGCATTTTG TCCAGTGGCTTCAACGCACCTTTGGCAATCCTCGACGGCAACGTCAAGCG TGTGTTGGCGCGTTTGCATGCGCACCCTCGCCCTCCCGCCCGTGAGCAGG TCTTGTTCTGGCAGTGGAGTGAAGTCTTGCTGGATCCGGCGCGACCCCGG GATTTCAACCAGGCCCTGATGGATCTCGGGGCCACGGTCTGTACCCCCCG CAACCCCGACTGTGGGAGATGTCCGTGGCAGTTCTGTTGTGCTGCCTACG CTGCCGGCGATCCGACCCGCTGGCCGATGACCGATGCCCCGAAACCCCTC CCCTTTCAGGTGATCGGTGTCGGGGTGGTGTTGAACGCTGAAGGTCACGT CTTGATTGATCAGCGCCTTGATGAGGGGCTTCTCGGTGGCCTGTGGGAGT TCCCTGGCGGTAAGCAGGAGCCTGGTGAATCGATCGAGGCCTGCATCGAG CGGGAGCTCAAGGAGGAGTTGGGCATTGTGATCAGCGTCGGCGAGGAGCT CATCACGCTGGACCACGCCTACAGCCACAAGAAACTACGGTTTGTGGTGT ATCTGTGTGCCTGGGTCTCCGGTGATCCTCAGCCTTTGGCCAGCCAACAA GTTCGCTGGGTGAGTCCAGATCAACTCGACACTTTTGCGTTTCCTGCTGC TAACGCCAAAATGATTGAGGCGTTGCGGAGGTCAATCAACTGA >SYNW0689 conserved hypothetical protein TTGCCCCTGCACACCATCTCTCCTTACAGCTTTGACGTTGGGTCGTCTGG ATCCGTGTCCGCGATCCAACCCAGGCAGTGGCAAACCCAGCTAATTCAAC TGTTGCGTCGTCGTCTGGATGGTAAAGCGACCGGTGAAAAGGACGTCCTT GTTTCCGCCGGACCGGGTGCCGGCAAGACCCTTGGCGCGCTGCTGGCCTT TCGCAGCATGCGTCAGGAACAACTGCTGCAGCACTTCCTGGTGTTCTGCC ACCGCACGTCGATCCTGGAGCAATGGCAACGGTCCGCCGCACGGGTGGGC CTGGAGCTGGTCAGCTGGCCTTGCGAGCAGAAGACGCTGAGCCAAGCGGA TGGTCTGCTGCTCACCTATCAATCCGCTAGTCGACAGCCCCAGCAGCTTG CGACAGCGCTCGACCCCTGGCCCGCATCAACCCTGATTGCCATCGCCGAT GAAGCCCACCACCTCGGTTTGGATCCCGAGGAGCCCGGAGCAGCGGCCTG GAGCCAGACCTTTGAGGAACAGACATCACAGTGTCGACTGCGACTGGGGT TGACGGGGACACCGTTCCGCGCTGACAACCTCGGCTTCTGCGCCGCGCGC CGCATTCGAACAATCCAGAACGGCGAACTGGTGGAACAGATTCAGCCTGA TCTCTGCGTGGAACCGCGGGAACTGATCGCCGCGGGAGATGTGCGCCCTC TGGAATTCCACTTTCAGGACGGCTGGGTGGAGCACAGCCAGGAGGCCCGT CCTGATCGCGATGTGTCCCCGCTCTCCCAGGAGCAGCGCGAGAGCTGGCG CGCCCGCAATCTGCGTCGCGCCATCCGACTGGCCGACAGCAGCTGCATCG GTCAGCAGGTGATTCTTCAGGCCCAGCGACGACTCGCCAGGGTTCGACAG CAGCAGCCGAATGCCGCTGGACTGGTGATCGCCCGCGACATCGAACACGC CTCAGCCATCGCCACCCTGCTGGAGGACGATGGCGACAGGGTGGACCTGG TCCATTCCCAGGACCCAGAGGCCGCGGCGCGGCTTGATGGCTTCCAGGCC GGTGCAGCGGATTGGCTGGTGAGCATCGACATGTGCGCTGAGGGATTTGA TGCCCCCCGCCTCAGGGTGGTGGCCTATCTGACGACGGTGGTCACCCGCA GCCGCTTCCTGCAGGGCATCACCCGAGCCGTGCGCATGACTCCTGAGCTG GCGGAACAGGAGCCGATTCCCCGCAACCCTTCGTATGTGGTGGCCCCTGC GGATCCTTTGCTGATGGGCTATGCCCGCTCCTGGTCCGTCGCCGAGCCCT ACGTACTGACCTCGCAGGACAGCGACCAGGCCCCCCTGAGCGGTTTCCCT GGTCATGGACGAGGTCCCAGCCTGCCGCTGGAGGCGGTCAACGACGGAGC AGGAGCCATGATCCGCCTGAAAACGCCGCAACTGCCGTCTTTTTTGCAGC GTTGA >SYNW1030 conserved hypothetical protein ATGAGCCCTTTGATCCGGCCGCTGCGCAGCCTCGCCAATGGTGTCGGGCT GGCTTGGTGGGCCCGTGTTGAGACCACCGGGCCCGATGTCACGTACTGGT TCGGTCCTTTCCTGACCCGCACGGGGCTGGAAGCTGAGCTCGCCACCTTC CTTGAGGATGTGGGTTCAGAGCAGCCCCGGTCCATTCGTCACACCCTGCT GCGCACCCGTCGCAGCGAGCCATTGACCACCGCTGCCGAGGGGTGA >SYNW1346 phage integrase family ATGAAGATCAATCGCTTCGGCAAAGCTGAGGTCTTGTCCACTGCCGAGCT TGATCTGTTGCTGTCGGTTCTGCCCGAAAATCATCGTGTCTTAGCCACCT TGCTGAGACGCACCGCTGCTCGGGTGTCCGAAGGTCTACAGCTCAAGTGG CAGTACGTCGGCAAGACCGAAATTATCTTTGCCGCTCCAACGACCAAAGG GAAGAAGAGAACAAGAACCGTTCCAATCCATCCAGATCTTGCCGATCAGC TTTCGAGCTGGCGGCAGGTTGTGGCTCCATTAAACGGCCCAGATAACTGG GTCTTCCCAGGGAGGAATCCTGGCGAGCATCTGACGCGTCGTGGTTTCGA TCACGCGTTGAGGAAGGCTGCTGGTGAAATCGGGATGCAGGGAATCTCAA CCCATACATTTCGACGGTCATTCTTGACCGCTGCCAGTCAGAACGGGATC CCATTACGCAACATCCAATCAATCAGCGGCCATTCGAGTCTGACGATGCT GTCCAATTATTTGGACGTGTCTGAATCAGCGAAGAATGACTGTGTGATGG CTGGCGCGTGA >SYNW1748 Phage integrase family TTGAGCGTAACCCGCGTCAACGTCATCTTGGGCGCTGAAGCCTCAGCTAT GGACCTTCGCAACAGCCTGAATGCCCTCAACGCGCAGCTGGCTGTCCAGG GGACACGGCTGCGCATCGAGCAACGGGGCCAGAGCCTCAACCTGAGGGGA CCGCTGCCGCTGCGGGAAGAAACGTCCAAAACCAAGGTGCAGCGCATCAG CCTGGGGCTCCGGGCCGATGCCGCTGGCCTGCAGGAGGCCAGGGAGAGCC TGGATCAGGTTCAACGGCAGCTGGATCGTGAGCGCTTCAACTGGGAGGAC TGGCAGAGCAAGCCGCGCGGATCAACCGGAACCGGTGCAGACGCAGCGAT CGGCTCCTTCGAACAAGCCTTTTTCAGCGACCCCCGCCGTCGCCGCGCCG CCGCCGGCAGCCGCACCACCTGGAGTGGGGCCTACCTCCCCTACCTGAGA CGCCTGCGCCACCTCAGCGGTGAAGCCCCACTCAACGCTGCATTGCTACT GCAAACCCTGCGCAGTTACGAGGATGGAAGCCGCAGTCGCCAGCAGTGTT CCACGGCCCTCGCGGCCCTGGCCCAGCATCTCGGCCTTGCCCTGCCGGAG GACTGGCGACAGGAAGCCGGCGGCTATGGGCTGCACCGGGCACGCTTCCG GCAGCTGCCGACAGACGCACAGATCCTCGAAGCGGTGCTGCGGATCCCCA ACCCCCGATGGCGGCTGGCCTACGGCCTGATGGCCACCTATGGATTGCGC AACCACGAGGTGTTTTTCTGCGATCTCAGTGCCTTGGCCGAGCACGGTGA CCGGGTGATCCGGGTGCTGCCCACCACCAAAACAGGTGAACACCAGGTGT GGCCATTCCAGCCTGAGTGGGTGGACCGCTTCAGCCTCACCAGCCTGGGG AGCTGTGAGGAGGCACTGCCGCAGATCCAGACCGATCTGCGCCGCACCAC CCTGCAGCAGGTGGGGCGACGGGTGAGTGAACAGTTCCGCCGCTACGCCT TGCCGATCACCCCCTACGACCTGCGCCATGCCTGGGCCGTGCGCACCATC CACATCGGACTTCCCGATACCGTTGCCGCCAGGATGATGGGACACTCCGT GGCGATCCACACCCGCACGTATCACCACTGGATCACCCGTCGTGATCAAC AGCAGGCGGTGGATGCAGCCCTGGCACGCCAGCAGGCCTGA >SYNW0977 conserved hypothetical protein ATGGGATTGATCCAGACCCTTCAGAGCCGTCTGCTGCGATACGAATCCAC GGCGCTACGTTATCGACAAGCTTATTTCAGCGCTGCACGCAATCTGGCGC GGGCCCAGTTTCTGCTGGGGGATGCTGAACTCAGTCAGCGGTTGTGGCAG GACGTCGCCGATCGAGGGCTGGATGTCGAGCGGATCGAACAGTTGATGTA CGGCTGCTGGTTTCAGGACGATCCAGACGCCATGGCTGAGGCCGATGCGG CGTATCTGAGCCGGACGGCTCCGCACGAATCTCCCGGCATCTTCGAGCAC TGCTGA >SYNW1173 Uracil-DNA glycosylase ATGGCGATGTTGGAGCTGCGTGACTGTGAGCAGTGCACCGGCTGTGATCT GGCCCTGACGCGTGAACGGGTGGTGATCAGCCGCGGTGCAGCGACAGCAC CATTGATGTTGATCGGTGAGGCACCGGGTGCCCGCGAAGATGCCCTGGGC CAGCCCTTCGTCGGACGATCCGGACAGCTGCTGGATCGCCTGCTGCAGGA TGTCGGTCTGAATCCAGAGAGCGACCTCTACATCTGCAATGCAGTGAAGT GCCGTCCTCCACAGAACCGCCGACCGAAACGGGCGGAATTAACCGCTTGC AGACCCTGGCTGGATCATCAGATCGATCAGGTGAATCCCAGGGTGATCGT CCTGCTGGGTGCCACTGCTGTGGAGAGCCTGCTGGGCATCAAAGGCGGCA TGACCCAGCTCAGGGGGCAATGGCTCAGCTGGGATGGCCGGGATGTGATG CCGATCTTTCATCCCTCGTATTTGTTGCGCAATCCCTCCAAGGCCTCCGA TGCACCCACGGCGTTGACCCGGAGTGATCTCAGCACAGTCCAGCAGCGAC TGTGCGAACGTTGA >SYNW0181 UvrD/REP helicase ATGAGCTTTCTGGCCGGCCTCAACGACGCCCAGCGCAGGGCGGTGGACCA CCACGAAGGGCCCCTGCTGGTGGTGGCCGGTGCCGGCAGCGGCAAGACCC GCGCCCTCACCCATCGCATCGCCCATCTGATCGGTGAGCACGGTGCTGAT CCCGCCCAGATCCTGGCGGTGACCTTCACCAACAAGGCCGCCCGCGAGAT GAAGGAGCGGCTGGAGGTGCTGCTGGCTCAGAAGCTGGCCCAGAGCCAGT ACGGCCAGCCCTGGAGCACCTTGCCGCCGGTTGATCAACGGCAGCTGCGC TCTCGGATTTACCGCGAGGTCAGCAAGGAGTTGTGGATCGGCACCTTCCA CGCCCTGTTCGCGCGGATGCTCCGCTATGACATCGACAAGTTCAAGGACG CTGAGGGGCTGAGCTGGACCAAGCAGTTCTCGATCTACGACGAGGCCGAT GCCCAGAGCCTGGTGAAGGAGATCGTCACCCAGGAACTGCAGCTGGATCC CAAGCGGTTCGAGCCGAAGAAGACCCGCTGGGCCATCAGCAACGCCAAGA ACCAGGGCTGGCTGCCGGATCAACTGGAAGCCAATGCTGAAGGTCAGCGG GGCAAGCTAACCGCCAATGTGTACCGCCGCTACCGCAGGGCGCTGGCGGC GAACAATGCGCTGGATTTTGATGATCTGCTGTTGCTGCCGGTGCAGCTGC TTCAGCAGAACGAGCAGGTGCGTAGCTACTGGCACCGCCGCTTTGCCCAT GTGTTGGTGGATGAGTATCAAGACACCAACCGCACCCAGTACGACCTGAT CAAGCTGCTGGTCACCGATGGCAAAGACCCGCAGACCTACAACAACTGGA GTGGGCGCTCGGTGTTCGTGGTGGGAGATGCCGACCAGAGCATCTACAGC TTCCGCGCCGCCGACTTCACGATCCTGATGGGTTTTCAGGAGGACTTCGG TGATCAGGCGCCGGACGACGCCACCCGCACGATGGTGAAGTTGGAGGAGA ACTACCGCTCCACCGCCACGATCCTCGCGGCGGCCAATGCCCTGATCGCC AACAACAGCGAGCGGATCGACAAGGTGCTGCGACCCACCCGCGGCGACGG GGAGTTGATCACCCTCACCCGTTGTGATGACGAAATTGCCGAGGCCGAGG CGGTGGTGCATCGGCTGCGGACGATGGAGGCGGCCAACCCCGAGCTGAGC TGGGGAGATATGGCCGTGCTGTATCGCACCAATGCCCAGTCTCGCTCGAT CGAGGAATCGCTGGTGCGCTGGGGTATCCCCTACATCGTTGTAGGGGGTC TGCGCTTCTACGACCGGCGGGAGATCAAGGATCTGCTGGCCTATCTGAGG CTGTTGGTGAATCCGGCGGACACCGTCAGCCTGCTGCGGGTGATCAATGT GCCCAAACGGGGCATCGGCAAGACCACGATTCAGCGGCTCACCGATGCCG CCAATCAACTGGGGATCCCGCTCTGGGATGTGGTGAGTGATGCCGAAGCC GTGCGATCCCTGGGGGGACGGTCGGCCCGTGGTCTGCTGCAGTTCTGCGA GCTGCTCCATGACCTGCGGCGTCAGGTGCAGGAGGTGGCTCCGTCCGAGC TGATCCAGCAGGTGATGGAGAAAAGCGGCTACATCAGCGAACTGATCGCG GAAGGCACCGATGAAGCGGAGGAACGCCGCCGCAACCTGCAGGAATTGGT CAATGCCGCTCTTCAGTACCAGGAGGAGAACGAGGAGGGGGATCTCGAAG GCTTCCTGGCTACGGCAGCGTTGTCCAGCGATGCCGACAGCAAGGACACC GCAGCGGATCGGGTCACCCTGATGACTTTGCACAGCAGCAAGGGCCTGGA GTTCCCGGTGGTGTGTCTGGTGGGTTTGGAGCAGGGCCTGTTCCCCAGCT ACCGCTCCCTCGATGATCCGGCCTCCCTGGAGGAGGAGCGTCGCCTCTGC TATGTCGGCATCACTCGCGCCAAGGAGCGCCTGTTTCTCTCCCATGCCAG TGAGCGTCGGCTCTGGGGTGGCATGCGCGAAGCCGCCGTGCCGTCGGTAT TTCTTTCAGAGCTGCCGGAGGCCCTGGTGCAGGGGGATCTCCCCCAGAGC GGTGGAGCGGCCCTGCGCCGCGAACGGCGGCTGGAGCGGCTCACCCGTGT GGATCGTGATCGTCCCAGCTCGGCGCCGGCCAATGCGGTGCGCCGCCGCC AGGCGGGTCCGGCCCCCGGGCGCAGCTGGAGCGTTGGTGATCGCGTCACC CATGCCAGCTTCGGGGTCGGCGAGATCACTCACACCTTCGGTAGTGGTGA GAAGGTGTCGATCGCGGTGAAGTTCGCTGGGATGGGCCCGAAGATCCTCG ATCCGCGGTTGGCGCCGATCGAGCCGATTGCTGCCGATGGCTGA >SYNW1667 partial phage integrase GTGAGAAAATCTGGTGTTGTGAGAATGCCGCAGACCTCCCTCAATGACTC GCAAGTCAGGGCTCTGCAGGCCGGTCCAAAGCGTTCAACCCATGCTTTGG GCAATTCCCTCTTGCTGGTGGTGGAACCGGCTTTAAAAGGCGGCAGCAAG CGTTTCGTGGGGCGTTACCGGTTCCCTCCAGGACGCTCTGGAAAACAAAA GGAGTACTCCCTCGGGGTCTACGGCAGAGGGCATGGTCAGCTGACCTTGA AGGAGGCCCGTGACACCTGGACCAAGATCAGAGCTTGGGGTCTCGATAGC GGAGAGGACCTACATGTCTACAAGCAGTCGGTGCTCCCGGCCTAG >SYNW0073 conserved hypothetical protein ATGCCGATCCATCTGATCTGGGGTGATGACGCCGCCGCGCGGGACCGGGC CATCAACGGCCTAATCGAGAAAGTGGTGGATCCCAGCTGGGCCAGCCTCA ACCTCAGCCGCCTCGATGGTGCCGAGGCCGGTCAGGCGGCCCAGGCCCTC GATGAGGCCCGAACGCCGCCCTTCGCGAGCGGTGAACGCCTGGTGCTGCT GCAGCGCAGTCCCTTCTGCAATGGCTGCCCCACCGAGCTGGCGGATCGCT TCGAAGCCGCGCTGACGCTGATCCCCGACAGCAGCCATCTGGTGCTGGTC AATCCCTCCAAACCCGACGGTCGCCTTCGCACCACCAAGGCACTGCAGAA GCGCATCAAAGCCGGCCTGGACCAGGAGCAGAGTTTCCCGTTACCGGCCG TGTGGGATGGCGCCGGCCAGCGGCAGCTGGTGCAGCGCACTGCCGAAGCC CTTGGCCTCCGCCTGGAACCGGACGCCATCGATGCCCTGGTGGATGCCAT CGGTACCGACAGCGCCCGGCTGGAGTCGGAACTGCGCAAGCTTTCCCTGC GGTCAATAACCATCAGCGCCGACCTGGTGGCCGAGCTCGTTGGGGGTCTC GCCACCAATGCCCTGCAGGTGGGGGATGCCCTGCTGGAGGGCAACCCCGG CGACGCCATCGCCCGCTGGGATGCCCTGATCGAAGCCGGTGAACCGGCCC TGCGCATCGTGGCCACCCTCAGCGGGCAGATCCGCGGCTGGCTCTGGGTG AGCCTGATGGAGCAGCAGGGCGAACGGGATGTGGCGGTGATCGCCAAGGC CGCTGGCATCGGCAACCCCAAACGGATCTATGTGATGCGCAAGCAGCTGC AGGGCCGGCCACCCCAGCGCTTCCTCTCCCTGCTGGGGCGGCTGCTGGAG GTGGAAGCCCGGCTGAAACGGGGTAGCCAGCCCGGTGATGCCTTCCGTGA TGGGCTGCTGGGGTGA >SYNW0952 conserved hypothetical protein ATGGCACCAGCACGCGCAGGTTCGTTCAATGCGAATTTTTCACCTGAGAC GCTCGAGAGCTTTAAAAGCTTATGCCGTGATCAGTCGCGTCAATACACAA AAGTTTTAGAAAGATTGGCTGAATTGTATTTAGGCTCTCAAGGAAGCATT CTTGATACCCCGGAAGAGAATTTAATAGGTACTCAAACCAGTTCGCCAGA AGTTGACAACTTGGCAAAGTCAGTCGAGCAGTTGGAGACGGCTACAGCTA TCTATAGAGAAGATTTTGAAGAAATTGTTTCCCAGCTTAAAAGTATTGAA GCTAGAATAAAGAAACTCGAAGGCAATATTGTCAAATAA >SYNW0636 putative DNA helicase ATGGCTGCGTCCGGCCTCGACCCATCGAAGATCTTTCCGTTCCCACTGGA TGACTTCCAGTTGGAGGCGATTGATGCGTTGAATCAGGGCCACTCGGTGG TGGTCAGTGCACCGACGGGATCCGGCAAGACCCTGGTGGGGGAGTACGCC ATCCATCGGGCCCTCGCCCATGGCCAGAAGGTGTTTTACACAACGCCACT CAAGGCGCTGTCCAACCAGAAGCTGCGTGATTTCCGCGAGGCCTACGGCG ACGACAACGTCGGTCTGATGACCGGTGACCTCAGCGTCAACCGTGAGGCG TCAATCGTGGTGATGACTACGGAGATCTTCCGCAACATGCTCTATGCGGA AGCCAGCGAACAGGACGACCCACTGGCGGATGTGGAAGCCGTGGTGCTGG ATGAGTGCCATTACATGAACGACTCCCAGCGCGGCACGGTCTGGGAGGAG TCGATCATTCACTGCCCGCCTTCGGTGCAGCTGGTGGCCCTGTCGGCAAC GGTCGCCAATGCCGGGCAGCTCACCGATTGGATCCAGAAGGTGCATGGTC CAACCACCCTGGTGCTCAGTGACTATCGGCCTGTGCCGCTGCAGTTCAGC TTCTGCAGTGCCAAGGGATTGCATCCGCTTCTGAATGATGCCGGAACCGG ACTGCATCCCAACTGCAAGGTCTGGCGGGCGCCGAAGGGGCACAAACGCA AGGGACGCTCCGCTAAACCTCCTCAGCCGGAGCCGCCGCCGATCAGTTTT GTGGTGGCGCAGATGGCGGAACGGGACATGCTCCCCGCCATCTATTTCAT CTTCAGTCGCCGCGGTTGCGACAAGGCTGTTCGCGATCTCGGCATTCAGT GCCTGGTCAACAAAGAGGAACAGGCCCGGATCCGCGCGCGGCTTAAGGCC TACAGCAGTGAGAACCCTGAGGCGGTGCGGGATGGCATCCATGCTGATGC TCTGCTCAGGGGCATCGCGGCGCACCATGCCGGTGTGCTTCCGGCTTGGA AGGAGTTGATCGAAGAGCTGTTCCAGCAGGGCCTGGTCAAGGTGGTCTTC GCCACGGAGACCCTGGCCGCCGGTATCAACATGCCGGCTCGCACCACCGT GATTGCGGCCCTGTCCAAGCGCACGGAACGGGGTCATCGTCCGCTGATGG GCAGCGAGTTTCTGCAGATGGCCGGTCGCGCTGGGCGTCGCGGCCTTGAT TCAAGGGGCTATGTCGTCACCGTTCAGAGCCGGTTTGAGGGCGTTCGGGA AGCCGGTCAGCTGGCCACCAGCCCGGCTGATCCGTTGGTCAGCCAGTTCA CGCCCAGTTACGGCATGGTGCTCAACCTGCTGCAACGCCATGACCTCAAC AAGGCACGGGAGTTGGTGGAGCGCAGCTTCGGGCGCTATCTCGCCAGCCT GGATCTGGTGGAGGAGGAGGACGTGCTGTCCCAGCTGAGGCTGCAGCTCG GACAGCTCGAGGGGGTGGCCGGGGACATCCCTTGGGAAGACTTCGAGGAG TACGAAAAGCTCAGAGGACGCCTGCGGGAGGAGCGGCGCCTGCTGCGGAT TCTTCAACAGCAGGCTGAAGAGACCCTGGCCAACGAACTCACCCTGGCTC TTCAGTTCGCCAGCACTGGAACGCTGGTGAGCCTCAAGTCACCGCAGCTG CGCGGACGGGTTACTCCTGCGGTGATTGTCGACAAGATTGAGGGCCCAGG CCAGTTCCCTCTGCTGCTCTGCTTGAGCGATGAGAACCTCTGGCTGTTGT TGCCATGCCAGTCCGTCGTCAGCATCCATGCTGAATTGAGCTGTCTGCAG GTGGATGGGGTCACGGCCCCTGATTTGCACAAGGCAGGCGAACTCCGCCA TGGCGATCAGGCCAGTGGAGGACTGGCCCTGGCGGTGGCGCACGTGGCCC GGCGCCACGACATGACAATGCCTCAATACGACCTGGCGGGGGAAGTGCTG ACCCAGGCCAGGACGGTGCAGGCCCTGGAACAGGAGCAGGAAGCCCATCC CGCCCATCGCTGGGGTGATCGCAAGCAGCTGAAGAAGCATCGGCGCCGGA TGGAGGAGTTGGAGCAGGAGATTGAGGAGCGGCAGCGGTTGCTGCACCAT CGCTCCAACCGCCACTGGGAAACTTTCCTGGCCCTGCTCGAGATTCTTCA GCAGTTCGGCTGCCTTGATGAGCTGACACCCACGGAGATCGGGCGGACCG TGGCGGCCTTACGTGGTGACAACGAGCTTTGGCTTGGACTGGCCTTGATG AGTGGACATCTCGATGACCTCTCAGCGCCGGATCTGGCGGCGGTGTTTGA AGCGATCAGTACCGAGGTCAACCGGCCTGATCTCTGGAGTGGCTTCCCTC CCCCTCCCGCAGCGGAGGAGGCACTGCATGATCTCTCTGGATTACGCAGG GAGTTGTTGCGGGCCCAGGAGCGTCTCGGTGTGGTGTTGCCGGCCTGGTG GGAGCCTGAGCTGATGGGGCTGGTGGAGTCATGGGCCAGAGGCACTGACT GGTCCGATCTGATCGCCAACACCTCGCTGGATGAAGGGGATGTGGTGCGG ATCATGCGCCGCACGGTGGATCTGCTGGCCCAGGTGCCTTATTGCGAAGC GATCAGTGAGCAGTTGCGCAGCCATGCCCGTCAGGCCCTGCGAGCGATCA ACCGCTTCCCGGTGGCGGAGGCTGAAGACTTGCTCAAACAGGCTGGCGAT CAGAACCCTGCCACCGAACGGGCGGCCTGA >SYNW0218 NUDIX hydrolase ATGGCGCCGCTTCCGGCCCCGGAACCCTTCGAGTTGCTGGACACCGTTGA GGCGGTGGATGCGCGCAAGATCCGCTTCGAGCGCAACCGGATCAAGCTGC CGATGGGGGTGGAGGCCACCTTCGGGATGATCCGACACCCCGGCGCCTCC CTGGCGGTGCCCATCACAGCGGATGGCCATGTGGTGTTGCTGCGCCAGTA CCGCTTCGCCGTACAGGCGCGCTTGTTGGAATTTCCGGCCGGCACCCTGG AGGAGGGGGAGGACCCGCTGGAATCGATGCAGCGGGAACTGGGGGAAGAG GCCGGCTACAGCGCGGCCCGCTGGGATTCCCTGGGGCCGATGCTGCCCTG CCCCGGTTACTCAGATGAGGTGATCCATTGCTTCCTGGCTCGGGAGCTGA CGCCCCTGGAGAACCCGCCGGCTGGCGATGAGGACGAAGACCTGGAGGTG GTGTTGATGACTCCCATGGATCTCGATGCGCGGCTGGGATCCGGCGATGA ATGGCTCGATGGCAAGAGCGTCACCGCCTGGTATCGCGCCAAACAACTGT TGGGCCTGGGATGA >SYNW1777 conserved hypothetical protein ATGAACCACTGTGTGCTGGAAGTGGAGGTGATCGACGCACCGACGGTTCG TTACACCCAGGACAACCAGACGCCGATCGCCGAGATGTCGGTTCGGTTTG ATCCGCTTCGGGAAGGCGATCAGCCCGGTGAACTCAAGGTGGTGGGTTGG GGCAATCTGGCCCAGGAACTGCAGAGCCGCGTGCAGGTCGGTCAGCGCTT GATGCTGGAAGGGCGTCTGCGGATGAACACCGTGCCCCGCCAGGACGGGA TGAAGGAAAAGCGGGCGGAATTCACCCTGGCGCGCATGCATCCCATCAGC CCAGGCTCCGCTCCCCAACCGTCTCAGCCGACAGCGGCCCCCACCGCAGC AGCTGCGCCACCAGCGAAGGCCGAACCCGAGGCCGCCAGTTGGAATGCCG CCCCCCTGGTGCCGGATACGGACGAGATTCCCTTCTGA >SYNW1145 conserved hypothetical protein ATGGCCTGTTGGCTGTGGGATGTCTTAGATAAACGGTGGTGGGCATCACA GTCTGCGCTCGACAAAATCCAGGCTAAGTGCGACAATGCCAGGAATTTAT CTATTGATGTTGATCAATGGATAAGTGACTGCATTGATCTACTTAAGCAA GGTTGGCAGCAATATGATCGTTTTTCTCTTCGACGTGGTGGAGACCTCGC CACACTAGCCATTGATCTTTTGATGCAATTCGAATTTGTAGAGGCAAATA CGTGGCGGTCACGCTTTTATGAGCTTACTTTGCTGAGCGAGGAGCTACAG CATCACATCTATCCAGACGGTGAACCAGGTATTTGCCATGGACTTGTTCG TAATTTAAGGACTGCTAAAAAGCTTAGAAAGGGAGGAAAGCACGAAAATG CTAATTTATTCCTGCTTCCAAAGGATCAGTGGGAAAAACCTATTAACTGC TCTGCAGAAGAGTGGGCAAACATTATCAAGCCGTTTAATCGCCGTAATAT TGATGAGCTAGTTGATGAATACCTGGCCAGAGTGGAATTAGCACGTCATG GCCTAACGACGCCAAAGGGGAAGTCAGCAATAGAGACGCTCGAACAGCAC GAAAACGATGCACACACCAAGATTAAAGAGGCAATACAACAGGGTGCAAG TGCAGATGAAGTGCAGTTGCTAGTCAATCAATACGGGACTAGATCAAACG GCTTTGGTCTTGCAAAGTTTGCGGAGCAATATCGAGAGTCGCTGGAGCGT CAACAGGATATTGCTGATGCACTTGATGACCTGCTGCTTCGTGGCGAGCC ACCCCAAATCCATTTGGCGGATTACGTTCCAGCCGACTGGCTACCGATGT TCCGCGTTCTGCGGGATGGCTTGAAGTTCAGTGATGAGGCCATCGTGATG ACGTTGATGGCCGGCGTCGCCGCGATGTTGCCGCCTCAGGTTCGCATCCG TGGTCGGTCGATGGAGGAAATCCCCACGGTGTGGGTGTTCCACATCGGCA GCAGTGGCACGGCCAAATCTGTGTTGCTTCAATGGCTGATTAACGGCCCA ATGGCAAAGCCCATCGCGTTCATTGATGGCTGGAACGAACGTGAGCAGCA ACGACGCAAAACCGCTGCTGCTGATGGTGAAGACCTACCGGCTTTTCGAA AACGCAATTTGATCTACACCGCGCCATCGACCCAAGGGATCCGTGCAGAT TTTGCGATCCATGGCGAAGACGTACCAGGGCTGCTGGTGCGTGATGAGTT AAACGGCTGGCTTAAGCAGATGGCTGATGAGGGTGGTGCTGGTGTGGGTG ATGTTGAGTTCTGGCTGTCGAGCTACGACGGTGCCTACAGCAACGACGTC TTTGCCGATGCCAAGAAATCCCGCGAGGTTCGTGCGGGGAAGTTGGGGGT GATCGGCGGCATCCAACCCAAGGTATTTTTGGATCAACTAGAGGCGGGTA ACGCCAATGGCTTCAACTCCAGGCCGTTGTTTGTTCACCTACCTCGTTCA CGTCGTCAGCTGGTGGACGGTGACGTAAACACCGAGAAACTTTCAGCTGT TCTTGGCAATCTCTATTTGGCTGCCCTCCAAGACGGGAACCATGCCTACG TGCTGTCAGCAGTTGCAGAGCAACTCTTCACCAGCTTGTTCAACCAGCTT GAGAATTTATCGCTGCAGGCTTGCAGTGAAGAGGTTGAAGCACTGTGGGC GAAGGGACCTGGGCAGGTGCTGCGAGTAGCGGCGGCAATCCATTTCATCC GTATTGCCACCGGTCAAGAAGAACTGGTGGAGCGTGGCATGGTGCAACCC GCCACGGTTGTTTCCGAGCGTTCGCTCCAGCTGGCCGCCAACTTGGTGAT GGCCGGCAAAACCAGGGCAGTTGAGCTTCACGAACGTGCCAGGAATCCGA TGCTTGAGCTCGCCGACAAGCTGCTGGAGAAAGCTCGTAAGAAGCAAGGC AAAGCGCCAGGTCGAGGTGTTGCACTTAGTTCAATCCGCAAAAGCTGGAG CAGTAAGGATCGACCAACACTTGCCGTACTAAAGCAAATGGCGCTGATGC TGCAAAGCCGTGGCTTAGTCCAAGTGTTTGATGGCGGCTTGTCAATCCGG GTGGTTCGTTAG >SYNW0039 possible helicase GTGGGGGATTTGATTTCCGATTCCGGATCGCTCTCCTGCGGGCTTGACCT ATCGGCTGCCGGACTCATCCGTGTGGTCTGTCCTTTTGACGCCGTCACCC AGGCGCAATTGCGGCGGATCCGGCCCCGTGGTAGTTGGATGGGGCCGTCC AGGGGCTGGGAGTTTCCTCTGGCGGCAGCTGCAGCGTTGATCCAGGGTTT CGGGACGCGATTTCCTGTTACCCCCCAACTGCAGCAATGGCTGGATTGGT GTCACCACCCTTTGCCGCCATTGCCCCCCCACCGTGATCTGGTGGCGGCC GCCGATCTGACGATGGCGTTGCGGGATGGCCGGCGGCCACTCCCCCATCA ACGCAGTGGAGCCCGTTGGCTGCTGGCGAGACGCGGAGCTGTTCTTGCCG ATGAGATGGGGCTCGGCAAAACGTTGACGGCACTGCTGGCGGCCAGAGCC ATGGTCCGCTGCGCTGAGCTGAGAGTCATGGTGGTGGCGCCGGTGGGGCT GCATGCCCATTGGCGCCGGGAAGCGGAGACGGTGGATCTCCAGCCGGAGT TGGTGAGCTGGGCGCGTTTGCCTGCTGAGCTTCCACCGGCTGGAACGCTG TTGGTGGTGGATGAGGCGCATTTCGCCCAATCCCTGCAGGCCAACCGCAC GGCAGCCCTGTTGCGGCTGGCGCGTCACCCCCGGCTACGGGCGATCTGGA TGCTCACGGGTACACCGATGAAAAACGGTCGTCCGGCTCAGCTCTATCCC TTGCTGGCGGCGATGGACCATCCGATTGCCAGGGATCAACGCCAGTTTGA GGAGCGCTATTGCCAGGGGCATTGGCGTGAGCAGCGGGGGCAACGGCGTT GGCAGGCCAGTGGTGCCACCCAGCTCGAAGAATTGCGCCGTCTCACACGG CCGCTGATTCTCCATCGCCGCAAGGCTCAGGTGCTGGAGCTGCCGCCCAA GCAACGCCGTGAGCACCCCATTGCCTTGTCAGACGCTGAATCCCTTGGAT TCGACCATCGCATTGATCTGTTGGTGGACGACTTTCGGCGTCGAGCCCTC AAGGGTGAGGTGCGGTCCGATGCGGAACCGTTGGCGGTGCTGACCGCACT GCGCCGGGTTGCAGCCGAGTTCAAGCTCCCTGCGGCGGAAACCCTCGTGC GAACGCTGTTGCAAGCCGGCGAGGCAGTAGTTCTGTTCAGCGGATTTGTG GAACCGCTGCAGTTGTTGCAGCAGCGATTGGGTGGAGCCCTGCTCACCGG TCGTCAACGGCCGGTGGAGCGGCAGCAGGCGGTGGATTGCTTTCAGCAGG GGGGAGAGGATCTGCTGCTGGCAACTTTTGGTACCGGGGCTCTTGGATTC ACCCTGCACCGGGCCAGGCATGTGGTGTTGCTGGAGCGCCCCTGGACGCC GGGTGATGTGGCGCAGGCCGAAGACCGCTGCCATCGCCTGGGGATGGAAG ATGAGGTGCTCACCTGTCATTGGTTGCAGCTGGGGCCGGCGGATCAGCTT GTGGATGGTTTGGTGGCCAGCAAGGCGGAACGGATCGAGATCCTGTTGGG CCCCCGTCGGTTGACGCTGGAGCGTCAGTCCTTGCCGTTGATGGTGCGGC GTTGTTTGCAGGTGGCCTGA >SYNW0348 Staphylococcal nuclease homologue ATGAAAGCAGCCACCGCACTGCTGCTGGCAGCTTGCCTTACGACAAACGT GAACGCTGCAACTGTGGTTTCTGTCGGGGACGGCGACACTATACGAGTGT CTGAAGGCAACAAAAAAATTACGGTTCGCCTTGCTTGCATTGATGCGCCG GAGAGATCCCAACAACCCTGGGGAGCGAGATCAACGGAACTACTGAAGCA GCTGACTCCCATCGGCTCTCAAGTCACTCTGAGAGTTCAGACAACAGACC GGCACGGGCGGGTCGTGGCTGAATTAATCAACTACCAAGGAAATGTGAAC AAACTGATGGTGGGGGCTGGGCAAGCATTTGCTTACAGGAAGTATCTCCG TAAATGCGATGCTCAGAAATACTTGGGGATTGAGGATGAAGCGAAGCGTC GGGGTATTGGCATTTGGTCTGTCGGACGATCGGGAATCACACGTCCTTGG GACTACCGCAAGGGAGGAGGGAGCAGTATAACCAACTCCAGCAGCAGTAG GAAATACCGCTGCAAGGACATTGGCTCCTGGAGTCGCGCTCAACAACTCT TGACTAAAGGACACCGATACCTCGATGGTGACGGTGATGGAGAAGCTTGC GAATCACTCAGATGA >SYNW1578 Staphylococcal nuclease homologue ATGGCACGCACCACCGCGAAAGAATGCTTTGCCCGTAGGGGACATGTGTT GGAGTCGCTTGCTATTGGGATGTCAAAGTTAGTTTTAGGTCTGCTTGTTT TTACTCCGCAACCACTCACCGCCTCTGAAGTCATCAGGGTGGTTGATGGA GACAGTCTTATCGTAAGGCTAAATGGTATCCCGCAACAAATAAGGCTGGC ATGCGTTAATGCCCCAGAAATTGGACAATATCCATACGGAAGACTAGCTA TGAATGCATTTCGCGGATTGATACCTGCAGACTCAGCCATTACAATCTAT CCCATCAAAAAAGATCGATATGGCCGCACAGTTGCACATGTCTCTACTCC AGGGGGAGTTGATGTAGCTGGAGAACTAGTGCGTAAAGGGCTTGTGTTTG TGTACACAAGATATCTTTCAGATTGTGATGGTCCAAATCTTCTTCTCCTG GAAAGTCAAGCGAGAGATCTCAAACAAGGTATCTGGTCAGAAGGTAAGCA AGGCATTACGAGGCCTTGGATTTATAGGAGGGGGACCAATGCAAGGCTTC GTTGTAGCGAAATCTCTTCGTGGGATAAAGCGCAATTACTTCTTCAAGAG GGTCACGTCTATCTAGATAGCGATAATGATGGTGAAGCCTGTGAAGGACT TCGTTGA >SYNW2181 possible exodeoxyribonuclease VII large subunit TTGAGCGCTGATCGGATCCCCAGCTTTTCCGTCGCGGAACTCAATACCGC CATCGGCAACCTGCTGGAACGGGGCTTTGCTCCGCGCTTCCTGGTTGAAG CGACCGTCTCCAGGCCCCAGCTCAAAAAAGGCCACCTCTGGCTGACCCTG ACCGATGGGGAGGCAAGCATCTCTGCGGTGGCGTGGGCATCTCAGCTGCG GCAACTCCGTTATCGCCCGGAAGACGGCGACGGGGTGACCGTGGTCGGCA AGCTGAATTTCTGGGCGGCACGAGCCAGTCTCAACGTCCAAGTGCTGGAC ATCCGCCCCAGCCTGAGCACCGTGCTGCGGCAGTTCGAACTGGTGCGTCG CCGGCTGGAGGAGGCGGGGTTGCTCGACATCACCCGCCGGCGACCGCTTC CAAGGCAACCAAGAACACTGGCGGTCTTGACCAGCGTTCCCAGCTCCGCC TTGGCGGACATGCTTCGTACCGCCTCCGAACGTTGGCCGATGACACGCCT GCTGGTGGTGCCGATCCCTGTTCAAGGCAGCGTGGCAGCGCGAATCCGAG AGGTGCTGGGTCGCCTTGCCGAAGAAGCGAGCGCGCTGGGATTGGACGCC CTGGTGCTGGCCCGCGGCGGCGGCAGCCGCGAAGATTTGGCTGTCTTCGA TGACGAAGATCTCTGCCGTGATCTGGCGGCCTTTCCGGTCCCCGTTGTGA CGGGGCTCGGCCATGAGGATGACCTGACCGTGGCCGACCTGGTAGCGGAT CATCGGGCCGCCACCCCGACCGCCGCCATCGTGGCTCTGCTACCGGATCG GCATGTGGCGCTGCGAGAGCTGCAGCAGCAGCGCCAACGGCTGCGGGAGC TGCGGAGCCGCTGGCTGGAACGCCAGCATCAACGCCTGTTGGATCGTCGC CAGGCACTGGCCCTGCTTACACCGCAACGACGGCTTCAACAACTGCGGCA GCAGCTGGAACAGCGCCGCGCCCTGCTGAGGGCCCTCTCGCCGCAGCGCT GGCTGAAGCAGGGGCTTGCCCTCGTCAGCAATGGCCAGGGCATGACCATC GATGGCGTGAAAGGTGTGCGCAAGAAGGACACACTGACCCTCAGCTTCCA CGACGGCAGCATCGAAACCGTGGTGACCCAGGTGCGTCCACAAAACTCGT CTTCAACGCCATGA >SYNW0369 weak similarity to phage integrase family GTGCGGCACACAGCCACCAGCAAGATCAGGCTCCGTGTTCGAAGTGGTGA ACGATGCGTCGGTGAGCAGGCCGTGCTCCCTCTCGCATGGGAGGCCCGCA ACGTGGCCGAGGCGATGCAGTGGATCGGTCGGATCTACAAACTGATCCAC ACCGGAGACCACAGCCTGAAGACCGCTCGTGATGCGGTTCTGGGGAAGGC CACCACCCACGTGGAGAAGAAGGACTGGACCTGGGATCAGATCTGCGAGA AATATCGGAACCACCTTCAGACCCGGAAAAACAAAATCAAGGACACCACC TTCGAAGCGTCTTACGGCCGGTACTTCGAGGTGATGCTGAAACTGCTCCG CAGCAACACACCCCCCCGCACCGGCGCTCAACTGTTGGATGCAGTGCTGT CGGCCCCCAGGGTCAACAAGAAACCTGGAAAGATGTTTGGGACGCCGTTG AAGACCTGGGGCGAGCAAGACGCCAGCCGGTTGGAGTGCTGCCTGGCGAT CAAAAACATGCTCACCTACGCGGTGTCGATGGACTACCGGCCGGGGTTGT GGCTGATCCCTGAAGCTCTCTACGAGGACCTGCGCGGCTCAGACAGTGCT GCCGCGGCATTGAAAGGAAAAAGCGACCTCACTGACATCGAGATCCTGGA ACTGATCCAGACCATCGAACAGCGCAGCCCAGGGTGGGCGTCAGTCCTCC GCCTCTGCGCGACGTTCGGGTTGAGGCCCTGCGAAGCCGATCGAAACCGG CACCTTGAGGTCCGGGTCAACAGCCGCGGCCAGGAGCAACTGCACTGCAG TTATCAGAAGAAGGCCGGAAAACGTCTTACCCCGCAGCGTTGGCTCGTCC CCCTGCCATTCATTGATCACGGTGGCGAGAGGGTCTGGTGGGACGGCTGG CGGGGCCTGAACGATCTGCCCTGGCCCCCGGTCGAGCGGGTCGATGGTGC AGCACTCGGGAAGTTTCTGCGCCGACAACCGGAATGGAAATCCTTGGTCG CCGAGAAGGCGAAGCAAGGACTTCAGCTCAAGCCTTATGCCTTCAGAGAT TCATTCACCCACCGCTGCGCACGCTTCGGGATCGCTGATGCAGACGCGGC CCTGGCCAGCGGCCACAGCGTGAAGGTTCACCGCGAGAGTTACATCAACA CCAGCACCGAAACGATGTTGGATGCGTTCGAGCGGGCCGCGGGACGGAAT TGA >SYNW1189 possible phage integrase family ATGCCAAAGCTTCGGTCTGGTGAGGAGTGGGCCAAGAGCCTGCGGCAAGA CATCAAGACCGAAATCGGCTTGGGCTGGAACGTCTGCGGCCATAAGCGCA GCGACGGCAACTTGTCTGGCTCCTGCAAGCTGACTCACAGGACTGAAGAC GGTCGTCGCAGCAGCGTGATGCTGCCGTTCCCTTGGGAGGCATCCAGCAA GCGCCAGATCCTCAACAAGGTCATCGCCATAGCCAAGGCGCTTCAGGCTG ATCCTCAAAAAGAACTGAACGAAGTTGCCAAGATCAACGCCGACACCCTT GATGAGCAAGCGGAAGCTCAGTCCGGCCATGGCCTGACGACGAACAAAGG CTGGGATGCCGTCTTGGAAAAATTCCTCAAGTCGAAATCAAGCTGCCGCT GGAAAACCCTGCGGGACTACGACTACAGGCTGGAGCGGGCCATGGCTCTA CTGAACCACCACAAACCAAAGCCCAGGACTGGTCTGGGGTTGATGCAGGC ATATAAGGAAGTCCACTTCCTTGGCCCTAATGGTGAGGAGCACAAACCAG GCGCTCAGATTGAGGCAGGTGCATCCGGTCGCAAAAAGAGCCTGGACGAC ATCGGCAGATTTTTAAAATTCGCCGTTGATGTTTGCGGGATGCCGAAAAG GTATCTACCGCCGGACAGAAAGCAGATTGAAGAGCTGGTGGGGTTTAAGA CAGTTTCAACAACACATGCACTCACTCCGGCAATCAAGCCAGATATGTTC GTTGAACTATTGGATGACCTGCTGGAAGAGGGCAGGGTCCGTGAATATGT TGCCGTGGCGATTGTTGGATATTGCGGCATCCGTCCAAGCGAACTTGCAA CCCTGCACCAGGTTGATGGTCAGGCAAGGGTTGTCAGCACCAAGCGGAAC ACAAAACAGATGAAGCATCCGCCTGAGGCCAGGGACATCTTTCCCCTGGA AATCAAAGGGCGCAATCGTGAAGGTGCCAAAGTCCTGCAGCAGTTTTTTG GAGGCAAGGCGAAACTACCAGCGGCACTGCAGGTTCAAATTGACAGGATG AAGCCTGACCATCCGAACCACATTGATTCATTCAGTTACGTCGGGGTGGA GTTCCGGCAAATGCTCTGCGTTAGATGCAGAGCATGGAAAAATTTGAAAT CCAACCCTGGAACGGAAGACATCACGCCATATAGTTTGCGGCACGGATTT GCATGGCGCGCAAACTACGGAGACACGAAGATGTCGCACCGTGCTGCAGC AAAGTTGATGGGCCACGATTTGGTGACGCATCAACGTTGGTATGGCCGTT GGATTGACGCCGCCAGCCTCAAAGCAGAGGTTGAACGGGTCAATTCAGAG ATGTAA >SYNW1757 putative deoxyribodipyrimidine photolyase TTGTCGTCTCTGCAGATCGTCTGGTTCAAGCGCGATCTGCGGGTCGATGA TCACCGCCCCTTGCTGGAGGCGGCAGCACGTGGGCCTGTGCTTCCGCTTT ATGTGGTGGAGCCGGAGTTGTGGCAGCAGCCCGATGCTTCCGAGCGGCAG TGGTTGTTTTGCAGGGAGTCGTTGTTGGAGTTACGGCAAGCCCTGGCGGA GCTGGGTCAGCCTTTGGTGGTGCGCTCAGGTGATGTGGTGCAGGTGCTGG AGCGGGCCCGACGTCAGTTCGGGGTGGATGGGCTGTGGAGCCATGAGGAA ACCGGTAACGGCTGGACGTATCAGCGCGACAAGCGCGTGGGCGCCTGGGC GCGAGCGCATGGCATTCAGTGGGGTGAAATCCGGCAGTTCGGCGTGACGC GGCGGATGCGCAGCCGCAACGGCTGGGCCAAGCGCTGGGAGGAGCAGATG GCAGAGCCCATCACTCCTGCCCCTGCTGGGGTTCCCGCTTTGGAGGAGAT CGATCCCGGTGTGATTCCGGAGCGTCCTTGCCCTGAGCTGTTGCCGGATG ATTGCTCGCAACGCCAAACCGGCGGACGTTCAATCGGCCTGGGGGAGCTG CGCGATTTTCTGCAGCATCGTGCTCCGTGTTATCAACGGGCGATGTCGAG CCCCAAATCGGCGTTCACGGGGTGTTCGCGCTTATCGGCATACCTCGCTT GGGGTTGCCTCTCGATGCGGGAGGTGCTGCAGACCAGCCGCCACCACAGC GGTCGCGGCGTCAGCAGCTTCGAATCGCGGCTGCACTGGCATTGCCACTT CATCCAGAAGCTGGAGGATCAGCCAGAGATTGAATTCAGCGATTTCCATC CGTACATGCGGGGCATCCGCGAGACGAATGCCGAGCGTTTGGCGGCCTGG ACTGAGGGCCGAACTGGTGTGCCGTTTGTGGATGCCTGCATGCGGGCGCT GAAGGCCCATGGCTGGATCAACTTCCGCATGCGGGCGATGTTGATGTCGT TTGCCAGTTACAACCTTTGGCTGCCCTGGCGTGACAGCGGATTGCATCTT GCTCGCCAGTTTGTCGATTACGAACCAGGAATCCATTGGAGCCAATGCCA GATGCAGTCGGGAAGCACCTCGATCAACACAATCCGGATCTACAACCCGA TCAAGCAGGGCATGGATCACGACCCCCAGGGGGTATTTATCCGTCAGTGG TGCCCGGAACTCAAGGATGTGTCCACAATTCACATCCATGAGCCCTGGAT GCTCGGCGGCGGTCGGTCGGCCCCGATCGTGGATGTGACCACATCGATGC AGCTGGCCAAAGACAGGATCTGGGAGATTCGCCGCTCAGCCGGTTTTGAT CGTCATGCCGATGCGATTCAGCGCATGCATGGCTCCCGTAAAGCGGGCCT TAAGCCCACCGCCAGTCGCCGTCGCCAGAAGCGCTCCAATGACAACGGTG TACGACAACTCAGTCTTGAGCTTTAG >SYNW1958 putative ATP-dependent DNA helicase GTGGTTGTGGATTCGCTTGAGACCGCTCTCCACACCCATTTCGGCTGGTC TCGCTTCCGGGCAGGTCAGAGACCTGTGGTGGAAGCCGTCCTGAGCGGAC GGGATGCCCTGGCTGTGCTGCCCACCGGAGGGGGGAAATCTCTTTGTTAC CAGCTGCCTGCGCTGATCCGAGGGGGCCTGGTGGTGGTCATTTCACCGCT GGTGGCCTTGATGGAGGACCAGGTCCTGCAGCTGCGGCGTCGGGGCATCT CCGCAGCCTGCCTCCATGCGGGGCTTGATCCAGTCCGGCGCCAGCAGGCG ATGGCTGCGCTGCGGGATGAAAGCCTCCGGCTGCTTTACCTGGCCCCTGA GCGCCTCCAGGGAGAGGCAACCCAGCGCTTGCTGGAAACCCATGCCGCTG AGGGACGCCTCGTGGCCCTGGCAGTGGATGAAGCCCATTGCATCAGCGCC TGGGGCCACGATTTCAGGCCTGATTACCGGCGTCTTGGCCTGATCCGCCG CCTCTGTCCTGGGGTGCCCATGCTGGCGCTCAGTGCCACGGCTGCCCCCC GCGTGCGGGCCGACATCCTGCGGCTGCTCGACCTGCGCAGTCCGTTGGTG CAGGTCAGCTCCGCCCGTCGCGAGAACCTCCGCTATGCCATGCAGCGGCG GCCGCGGGATCCGATGCCGCAGGTGCTGGAGGCACTGGAGCAGTCCCGTG GTGCAACGTTGATCTACGCCCGCACCCGTCGCTCCGTGGAGCATTGGGCT GAGCGCCTGCAGGGCCAGTCTGTGGAGGCAACCCCGTATCACGCTGGTCT GGACCCAGCCACGCGTCAGACCGCACTGACGCAGTTCCTGGAGCAGGAGA GGCCTGTGCTTGTGGCCACGGTGGCCTTCGGTATGGGGGTTGACCGCGGT GATGTGGGTCTGGTGTTGCACCTTGACCTCCCGTCGACACCGGAGGGGTA TCTCCAGGAGTCCGGCAGAGCTGGGCGGGATGGTCAGCCGGCCCGTTGCC TGGTGCTCTTCTCCCCAGGGGATCGCACCAGCCTGGGCTGGGCGATGCAG GCTGCCGCCGGACAAGGGACCACCGCCGATGAGCGGCATCGTTTGGATCT GGCTCAGCAGCAGTTGCGTCGGATGGAGGCGGTGGCTGAAGGGGAGATGT GTCGTGAGCAGGCGCTGCTGTTGGCGGTGGGTGAGCTGGTGGATCCCTGT GGCCGCTGTGATCGATGCTCCGCCTCACCCAAGCGAAAGGATTGGTCCCG CCAGGCGACAACGCTGTTGACACATCTGGATGATCTCGATGGAACCGACA TGCGGCGCCTTGGTGAGCATCTGGCCCTCCACGAAACCGGTCAGGGGGAG CGCTGGACCTGGTTGGCCAGGCGCCTTGTGCAAGAAGAGCTCATCCGTGA AAGCAACGACGGGGTCCAGCGACTGCAGCTGCGGGACAGCGGTCGCCGCT ACCTGGAGCGTCCTTGGCCTTTGGATTTTGCTGCTTGA >SYNW0370 possible integrase/recombinase ATGACTGCTGGGGGGTGGAAGTCCCCCTTAAACCATTCCAGCAAAAGCGA TCTGGCTCTTACGCTAGATCCTCAAAAAACGCTTTCCGACAAATCGTCCG ACAAATTGCCGCCTGTGTTGGTTGGCATGGACAAGGCAGAGGCGTTGGCG TATGTCAGCCGTCTCTTCGACGCTGCCCAAGCTGGAGCTGTCCTTTGGAG CGACAGCCTCCTGCTAAAAAGGTTTCTCGCCCAATGCAGCCGTACTGGCA GTCAGGAAACCCAAGACGGTTATCGCCGTGAAATTCGTCATTACGTCAGG TGGCGAGACCGTGTTCACCCCCACCTGCATTTGCGTGAAATTGATTCGAC GCTTGTCGAAGATTGGATCGCCGAACTGCGTCAGCAAGTCGAGCTTGGTG ATCTGAAGCCGCGCTCTTTCAACAGGCGTATCTCAGCTATCAGCAGCCTG TATCGATGGGCGTCGGAAGCTACCCGATCAGCTGTGTCAGGAGTGCCGCG GAACCCAGTCCCCCGAAGAACAGGGCTGTCGGCAGCAAAGTTGGCCAAAC CACTGTCTGAGGCTGATCTGACATCTGTCTTTGGTGCAATAAGTGCAGTG AAGGTAAAGGGGTCAACCATTGCTGCGCGTGACTTGGTGTTGGTGCGCGG TTCGTATCTGATCGGTTGCCGTGTGTCAGAGCTGATCGCCTTGAAGTGGC AAGACATTGAGCGTCTTGAAACCGGCGGCCAGATTCATCTATTGGGCAAG GGCAGCAAGCCACGCACTGTGCGAGTCAGCGAGGAAACCATTCAGCTCTT TGAGTCGATTGGCAGGGGGGAGCCAGATCAATGGTTGTTTCCTTCTTCGA GAAGAAAAGGACCTTTGACGAGACAGGCCGTCGCTGATCGGATGAAGCGA TGGGGGTGTTGA >SYNW0564 conserved hypothetical protein ATGCCGCGCCGTCACTGGTTGGACCCCCTGGCCCGACGGGTGCTGCAGGC CGCAGGTCAGTTGCCGACATCGCCTGCAGCGACTTCTCCCCCACCAGCCC CACCGGCCTGGACGATGGAGGTGAACCGCGCCAGCCGTGAGCAGTGGTTG CAATTGCCGGGCTGCAGCGACGACACCGCAGATCTGCTGCTGCGCCTACA GCAAGGTGGTGTGCAGTTCAGTTCGGTTGAGGAGCTGTTTCGGCTGCTGG AGCTCCCCGAGCAGCAGCGCCGCAGCTGGGAGCCACATCTGATCGTGCAC TGGCATGGTGATGCCCCGCCGCAACCGGCGGCCGCTCCATTGGACCTCAA CAACGCCAGCGCCGACGAGCTAGAACAGCTGTACTGGCCTGAACAACGCC TGCAAGGCCTGCTGCGGGAGCGACGCCGTGGCGGCTTCCGCGATCTCGCC GATCTGCAGGAACGGCTCTGCCTGCCCGCCAGTGCCATCGAAGCCTTGAT CGGTCGGGTCTGCTTCGAAGCCAAGCGGGCCGGTCCGTCCCTGCCCCTGA ACTGA >SYNW1666 phage integrase family TTGGGATTGGCGGTTAGGGAATATCTGGCCACGTCTCGTCATCGCGAGTC GACACGCAAGGACTACGCCAACTGCCTGAATAACCAGGTGTTGCCGGTCT TGGGAGCTGAGACGCCGCTTAGTTGCTTTGCCTTCTCTGATGTGCAACGG GATGGACGCACAGGACGGCGGATCGTGCTGGATATGAAGAAGGATCTGGA AAAGCGTGCTCCAGTCCAGGCGGATAAAGCCTTGATGGTCCTTAGGCAGG TCTTTGGTTATGCCATTGATCAGGGCTGGATGTCAGAACCAAACCCTGCT CAGGGATCGCGGCATGCACGGTCGTCCCACGTTGTCCAGCATCATCCAAC TCTGACGGCGGATCAATTGCCCACATTTTTTGAACGATTAAATTTCAATG AGACGAAGGGCTCTTTGGTTGTTAGGTCTGCAGTTAAATTATTGTTTTTA TCATTTTTAAGAGTTGGTTCGCTGGCTGGTATCCGATGGTCTGAGATTGA CGAGGGAGAGTCAATCTTGACGATTCCAGCTGAGAGGATGAAAAGCAAGA AGTCACATTTGGTTCCGCTGACCCAACCAATGATTGATGTCCTAGAACCG CTTAAAGACTTAACAGGTGATACTGGATATGTTTTTGACACTGGTCGTGG TGGTTGCTATCCCCATATGAATCCAGCATCGATTAATGCTTATCTAATCA AGTTGGGATATCAAGGACTCCTGCGGGCACATGGGGTTCGCTCTATTCCG TTGACGATTGGACAGGACATCCTTGGCTATAAACCAGAAGTGATTCAGCG TCAATTGGCTCATGCAATTGGAGATAAAGTGCGTCAAGCTTATGACCGAT CTACCTTGTTAAAAGAGCGCAGAGATTTCATGATTGCTTGGTCGGACTAT CTGCTGGATCAGGGGCTTGAGGGTTAA >SYNW0342 conserved hypothetical protein ATGGCCCGTTACGCCCTACTGCGCCACACCGGCGCCCCGGACGACCCCAG CGGCTGCCACTTTGATCTACTGCTGGAGGACGGCGACGCCTGCCGCACCT GGCGCCTGGCCAAGGTTCCAGCCCTCAATGGCATCAGCCAGCCAGCTGTG CCTCTCGCCCCCCACCGGCTGGTGTGGCTGGAGCACCGCAGTGCCGCCGT TTCAGGCGGGCGCGGTTGGGCGGAGCGCGTCATGTCCGGTCACTTCAGCG GTTCGCTCCCGGACAACCCCGCGGATCCTTTGGTGTTGACCCTGCTCGAT GGCGACCTGCAGGGTCTGCTGCGAATCCAGGCCGGGCAATGCTCCTTAAC GCGCACTTGA >SYNW0224 probable deoxyribodipyrimidine photolyase GTGCCCAGCACCCCGTCACCCCACAACCCTGGCGATCTGCCCCGTCAGTT CGCCTCACGAGACGCCCTCGAGGCGCTGCTGGTTGAGGAATTTCCCAGCG CAGAGGGACCGCTCAGTCCGATCCCCGGTGGCCGCCAGGCCGCGGAAGCC AAGTTGGCGGGGGTGCAACCGGCTCGCTACGCCAAAAGCCGCAACCATCT GAACGGTGCCGTCACCGGCCTCTCTCCGTACATCCGCCACGGCGTGCTGA CGCTGGCGGAGGTGAAGCAGGCGGTGTTTGAGCGGATCCGCAAGCGGGAC GATGGCGGGAAATTGATCAACGAATTGGGCTGGCGCGACTTCTGGCAGCG GATGTGGCTCGATCTGGGCGACGGCATCCACGACGACCAGGAGGCATTCA AGACCGGTCACGACGCCAGCTCCTATGCCAGAGAGCTACCCCAGGACGTG CGCGACGGCCGCACCGGACTGGCCTGCATGGATGGCTTCCGCGACAAGCT GGTGACCACGGGATGGCTGCACAACCACGCCCGGATGTGGATGGCCGCCT GGCTTGTGCACTGGCGGCGGGTGCATTGGACAGCCGGGGCCAACTGGTTC CTCGAGCATCTGCTGGATGGCGATCCCGCCAGCAACCACCTCAGTTGGCA GTGGGTGGCCAGCAGCTTCAGCCACAAGCCCTACTTCTTCAACCGCGGCA ACCTGGAGCGCTACAGCGATGGCCGGTACTGCGAAGAATGCCCCAGCGCC GCTGACTGTCCATTTGAGGGCAGTTACGACCAGCTGGAAAGCCAGCTGTT TGCCCCGATGCCGGCCATTCGGGACACCGGAACGGGACGCAACCGCCAGC GCAGGAACGGCGGAGGCGCCAGTGCCGCCCTGGCCCGTCCCAAGCGCTAG >SYNW2179 putative HrpA-like helicase TTGACGCTCAAACCCAGGCAGGACGCCTATCCGATCGATGCGCTCCTGCC TGAGCTGTGCGCCCGATTCCAGCCAGGGCGCACGTTGTTGCTCCAAGCTC CGCCTGGCGCAGGAAAAACCACCCGGGTTCCGCTTGCCCTGATCGGTGCC CTGGGGGACCAGGTCCGCAGGGACGGGCGGATCTGGATGATTGAACCCCG CCGGCTGGCGGCTCGGGCCGCTGCAGACCGCCTGGCCTCCAGCCTCGAGG AACCGGTTGGACAGCGGATTGGCTTCGCCGTGCGCGGTGAGCAGCGGCGA TCCGCCCGAACCCAGGTGGAAGTCATCACCGACGGCCTCTTTCTGCGACG GCTGCAGGCGGATCCCTCTCTGGACGGGGTGAGCTGTGTGCTGTTTGACG AATTTCACGAACGGCGCCGCGATGCCGACCTCGCCTTCGCCCTGCTGCGG GAAGCCGCCGCTTTGCTGCGGCCGGACCTGAGCCTGATGCTAATGTCAGC CACCTTGGACATCGCCGACCTGCGCTCACGGCTGCCCGAGGCCACGCTGC TGACCAGCCAAGGCCGGGCCCACCCTGTCGACACCCTGCACCAACCCCCA CGGGCGGACGAACCACTGCCCCAGCAAGTGCTCCGTGCCGTGGAGACCCA TGGCCTTGATCTCCCGACAGGCAGTGGAGTGTTGGTGTTTCTGCCTGGAC TGGCAGAGATCGAGCGCTGCCGGGAACGGCTGGAGCACGCCGATGCCCTC AGGCACTGGCAGATCTGCCCCCTCCATGGCCAGCTGCCTCTGGAGCGCCA GAGCGATGCGCTGAAACGCTGCCCTGCAAACCGCGACGGCAAGCTGGTGC TGGCCAGTGGTATTGCCGAAAGCTCGGTCACCATTGATGGCGTGCGCCTC GTGATCGACAGCGGCCTGAGCCGGCAGCTGCGCTTCGATCCGAACACCGG CATGGAGGGTCTCGAGACCGTGCCCGCCAGCCTTGCGAGTGCGGATCAAC GACGCGGCAGGGCGGGTCGCCAGGGACCTGGCTGCTGCGTCCGGTTGTGG TCGCCAGCCGAGCAACAACGACGCCCATCCTTCAGCCCACCGGAACTGCT GCTGGCGGACCCCCAACCGGTGGTGATGGAGCTGGCGGGATGGGGCGCAG GGCTGGGGGATGCGCTTCCCTGGCTGGATCCACCACCCCAAGCGGCCCTG CGGGAGGGGCAAGGGGAGCTGAAAAGCCTCGGCATCCTTGACAGAGACGG CCGATTAACCGCCATCGGCCTTCAGCTGACGCAGCTGGGGGTCCACCCAC GCCTTGGTCTGCTGATGGTGGAAGCTCAGCGCCATGGCCGCAGCCGGCTT GGCTGCGATCTGGCCGCCCTCCTGAGTGACCGGGATCCCCTGTCTGCAGC GGAGGTGGGCTGCGACCTTGAAGCCCGCCTCGAGGCCATGGGCGAGCAGA AGCGTTGCAAACCCCTACGGGAGCTGAGCCGTCAACTGGAGCGGCAACTG GAACGCCTGGGGATCGATCCCGATGCCGAGGGCACGGGCATCGACAGCGC CCAGTTGATCCTCACCGCCTTCCCAAAATGGCTCGCTTTACAACGGCCCG GACAAACGGGGCGCTACCGACTGCGCCAGGGTCGTGGGGCCATCCTTCGT CCAACAGACCCCCTTGCCGGCTCTGAGGCCCTGGCGGTGGCCAGGCTGGA CATGGGCCAACGGGACACCAGGATCCAGCTGGCGGTGCCCCTCAGCCGTC AACGGGTGGAGCAGCTGGCCCTGCAGCAAGGGGAATGGCTGGATCAGGTC AGCTGGGATGACAAATCAGAGCGGATTCGAGCCGAACGTCAGCTGAAGCT GGGGGCGCTGGTGCTTCGCCAGGAGGCGCAACCGGCTCCACCGGCCGAGC AGTGCCGAGATCTTCTGCTCGGCCGCTTCAGGGAATCCGGCCGGCTGGAG CTGCTGCCCTGGTCAGACAGCTGTGAACAACTGCGTCGACGTCTGGCGCT GGCGCACCGCCACCGAGGGTCTCCATGGCCGAACCGGGATCGCATCCCAC TGATTGAGCATCCCGAGCAGTGGCTGGGGCCCTGCCTGGAGGGCTGTCTC AGCTGGCGAGACCTGGATGAACTCAGCCTGCAGGAGGCCCTCTGGGGTGA GCTGAGCTGGGAGCATCGCCAGCAGCTGAATCGGCTGCTGCCCCTGCGTT TGAGCATCCCCTCCGGCCGGGAAGCAACGCTCCGCTACGAGGATGAGGAG GTAGTGCTTGCTGTGAAATTGCAAGAGATGTTCGGCTGCCAGGAAGGGCC GACCGTTCTTGACAACCGGCTGGCGGTGACCGTCGAATTGCTCTCTCCTG CCGGTCGTCCTCTGCAACGGACCCGCGATCTCAGAGGCTTCTGGCAGGGC AGCTACAACGACGTACGCCGCGAGATGCGCGGCCGCTATCCCAAACATCC CTGGCCCGACAACCCGCTCGAGGCGATCGCAACAGCCTTCACCAAGCGAC GATCCGATACCAGGGAATGA >SYNW0905 conserved hypothetical protein ATGACGTCTCTTGACGATCCGGAATCCATCCGCCATTTCCAGTCCCTGTG TGATGCCTGCCAGGAGCTGACAACCCGCTATCACTCACCGTCTGAGCTGA GGTTGTACGCCGACGGCTATCTTCATGCCCTGCGTCGCTGCGGCAGCCTG GATTCCAGCCAGCAGCACAGGTTGGAGCAATTGATCGACCGCTGGATCAT GGATCCCTCCAGCTTCATTGGACCCGATGGGGACGTCAGCACCCTGTATC TGCGACGGCCACATAGTTATTGA >SYNW1051 conserved hypothetical protein ATGGGCTCGAGCAGGGGGGAATCCTTCGGGAACTTTGTGGATCGCATTCC GATGAAAATGCAGCCCCCCGGCGCCCAGGCGGAAACCCGGGTGTCCTCGC TTCTGCAACGGCAGGGGTGGCAGCTGCTGGATCGAAACTGGAGCTGCCGC TGGGGCGAACTTGATCTTGTTCTGCACAAGAACGAGCAACTGCTTGTGGT GGAAGTCAAGAAGCGCCGTTCCTTGGCCTGGGGTCCCTGGTCTGTGGATC CCACGAAGCGGCGCCGGCTGGGTCGGGCGATCAGTTGCTGGCGTGCTGAG CATCCGATTCAGACGGACTGGTTGCTTCAAGTGGCCGTTGCCGTGGTGCC GTTGCCGCCCTCCCAGGGAGCCCCACGTTGGTGCAGGCTGGATCGGCTGT GCTGA >SYNW1146 possible phage integrase TTGTCTGAAGTTGGCGATCTCGTCAAAGCCGTCAACCAAGGTCTTAAGGC CGAAAAAGCTGGCGTCTCAATCCGGCAACGGCGCAACAAGCTTTGCCTCA GAGCCGTCTTGCCGCACAAAGATGGGAGCAACCACGAGGTTCAATACGAC GTCCCAACCGGTTGTGATGCGACCAAGGCAGGGCTGAATCGCGCCAAGAC TTTGGCGATCAAGCTTTCGACTGACAGAAAGCTCGGCACCTTCAGCTGGG ACGGCTGGCTTCAATCGGGCGAAACGACCCAAGCGCCAGAGGAGCCATCT GAAAGCCAGACCATTGGTGCATGGACAGCGAGGTTCAAAGCCGACTGGTA CGAAAAGCGGGACGTCAGCACTACGGCCCAGAAGTCTCAAGCGAAGCGAA CGTGGGATCGAATCGAGGCATCGTTCAAGAAAAATCCTGACACGTCTGAT CTGCTGACGATTGAGGCACTTGTTGCGGTTGCCAAGTCACTACCAGCAGC GAGCAAGGCGCGCCACGAGTTCTGCCAGAAAGCCAAGGCATTGGCAAAGT TTGCCGAGCTGCCAACTAAAGAACTCGACAAGGTCCATACGAAGTATCTA ACCAGGGTGCCGAAGCTTCCGTTAGACGAAGAGCTGTTTGAGTTTGCGTT GAACAACCGTCATTCCAGCATTTATGGCTGGTGCTTCGCAGCCCTGCTGG TCTACGGATGTCGGGTGTCAGAGGTGTTCAGCTTGGTGCCATCAGAAACT GGTGCGACTGCATCAGTCCTGGGTATCAAGCAAAAAAACGCACCACCAGA GCAACGAGAAGCCCTGGCGTTGCCGAAAGAGTGGATTGAACCCCTCGAAA TCTGCACAGTTGAGAGGCCAAATGAGTTTCTTGACCCTGTCGCCTACGAC AGCAACAAAACAAAAGGGCACGTCGATCGCATGAACAAGTGGCTTCAGAG CCGATGGTGTGGAACGGTGAAACTCGAAAACAGCAACCTGAGACATTCGT GGTGCATCCGCTCCATCCTGAAAAGCCAGCTTGGTGATGGAGTGGCAGCC AAAGCAGCAGGGCACGACATCAGCATCCACATGCGGACCTATGCAGCTGC GATGCAGAAGAGAGACATCCTGAGAGCTGCTGAAAATCTCTAA >SYNW0360 weak similarity to phage integrase family TTGGCTCCGGATGACTCGCGCCCCCGGTGGGAACAGCGCCTGGTCGAGAC AACTGAGCCTTGGAACGGCTGGAGCATCTCCCGCGTCCGCGACCGGATCG TGCTGCGCGTCAGGAAGCGTGGCCGCCCCGCAGAGACCGCCTACTTGCCG CGGCCCAACACCTGGGATGAGGTGCACCACCGCAACGCCATCCGGTGGAT TGAGGCGGTCTACAAGGCGTGGGACAACGGCGAGAAAACGCTGAAGGCAG CAGTCGCCGACGCTCACGACACAAGCGATCTCCAAGGAGAGGAGAAGGCC AAAACATGGGCACAAATCGCAGACGCAATGGAGGCGTCCCGGGTGCAGCA GTCGCAGAAGTGCAGCGCCCACACCTTCCGGAAGAACTGGCGGCCATTCA TCGACTACGCCGTGAGGCTCATCAACACCGGCAAGGCCCACGACGGCTAT GGCCTGTTGAAGGAGGCTCTGAAGAACTGGGAAGGGGCTCCCACGATGAA GGTGGAGTGCGGCCGCTACCTCGGCCTGTTTATGCAGTTCGCGGTGTCCC GGCACAAGGCCCCAGCGAGCTGGCTGATCACCGAGTTCGACAAGGACGAG CTGATCCCCAAGGCACCGAAGCCGAGGCTTAAAGCGGTGCTGGACGACCT AGAGATGCTGCGCCTGATTGAGCTGGCCGACTCGGTAAACGTCAGGTGGG GCAACGTGTTCCGACTATTGACGCAATTTGGTTTAAGACCCATCGAGCTT CAGCATCTGAGCAGCCGAGTCAACCCGGTGACCGGCAAGCCAGCCATCTG GTGCAATTACAGGAAGACCGGCGGTGAAGAGGAAACCGATCCCCGCTTCC TGGAAGCGATGTACATCCGCGACGGCAACGATCAGCCGGTGGTGTGGCCC CTGGAGCAGGCGATGGCCGACGGAACCTTGCAGCTGCCCACCGGCAGGGA TGGTGATGTCCGCAAGCTCTCTGGGAGCGCGGTGAACTGCTACATCCACC GGAAGTCACGATCGACAGGCAAGCCCAGCGGTGCGGTTCAGATCTATTGG GCAGAGCTGGTGGAGCACTACGACAAACAGGATCCGAGCGAGTGGTTGCG GCCCTACAGCTTTCGGGACACCTACTCGATCCGCTGCCACCGAGAGGGAG TGCCGGTGGCGTCGATCTGCGACGCGATGGGCCACAGCGAAGCGGTGCAC TCGCACAGCTATCGGACCATGACCCTGGGGATGAGGACCCGCGACTTCGC CGCCAAGACCGGCACGATCCCGCTGCCCTGA >SYNW1351 partial homology to phage recombinase ATGGTTGCTCAAAAGAGCAAAACCAAAGCCAGCACCAAGGCTGATGTGGC TGGTCACAAAGTGGCCATCTCATATTCGCGTGTCAGTACCGGCAAGCAAT CCGGTGAAGATCGCAGTGGTGAGGAGCGCCAGCAACGTGCCATTGAGTCA TGGCTGTCTGAGCATCCGGACTACTCGCTGGATCGAGAAATCAGAGTCAC GGTTAGCGGCGCCAAAGCCGGCCGGTTCGAATGGTTCATCTCAGAGCTTG AGAAAGGCGTTCTGCCGCGTGGAACGTGTCTGGTGGTGGAGAAGGTATCT AGGTTCAGTCGAGAGCCCATAGAAGCCGTTCTGAAGACTCTTCTGCGTCT ATGGGATGCAGGTGGTGCTATCGCGTTCTGTGAACTAGGCGGCAAGGTGC TGTCTTGTTTTGAGCAAGACAGCGGTGACGCCTACGTAGTTCTTGGTGCG ATCCAACGTGCTAGAGGCGAATGGTTGGAACGCCAGGACCGTTCGCTTGC TGCTCGACGCAAGGAACGTGACTTACATAAGCAGGGCACTCACAAGCCAA AAGCTCGAACTAAGAGGGGTCGAGCTGACTATCCGTTTTGGCTAGATGTG AAAGATGGCGAGTACGTCCTGAACGACTGGGCTACTCATGTCAAAACCAT TTTTAGTCTTGCGCCAAAGCTGGGCATCACACGTATTGCAAACCATCTCG ACAGCCAAGGAATCAAGGCCGTTAGCGATGGCCGCAGGAGGTGGACACCA AATTCTGTTTCGGGTGTTCTGCGTAATGAAGCAGCACTCGGCTACAAGGT CTTCTGGAAAGACAACAAACCATCTGATGAGAAGGTTGTTTGCTATCCAC CAGTCGTCACACAAGAGGAATGGGATGCAGCTCAGATGGGGCTGTCATCA CGTAGTCAGTCCCGTCCCAGCAACAACAGTCCAACGCAGCAGAACCTTTT CGCTGGGTCGATTTATTGTCGTCATTGCGGCTCACCAATGGTGGTGAAGA ACGCCGGTAATGGTCAAAAATTTCTACGTTGCCGAAATGACTTCAGCATC TGCACCCAGCGTGGCCACAAGTACCTAGAAGCTTTCTTACTGAATCACCT TGCTCAATATCGCTGGGAAGAATTTTTCAATGCAGGGGTCCAAGAAGCTG CTTTGACATCCGCAAGGTCATCACTGCTCGAAGCAGAAAAAACGCTCAGG TCTATCCAGGAGGACGTAGCCAAAGTCAATAGCAACATTACGAAGCTCAC TACCAGCGATAGTCCAGAGCTATTGCGTGTACTGCCTCAGTTCAGTCGTC AGTTGGACAAACTGCTTGCTGATCAGAACGTGGCTCAAGCTGCAGTCGAT GACGTAAGAGCTGAAGTTAATAAGTTGACGCACCAGCAAACAGGACGTGA AGCGGAAAGAGCTCTAAAGCGTCAGATCGATGGGTTTATCAGCGGTGAGG ACAACAGCCTTGAACAAAGGGTTTCGTTCAACACTTGGCTAAGAGAACAA AAGCTTGTGCTCTGTCTTGAGGATGGGCATGCGATTGCTGAATTGGATGA TGAGGTATTTCCAGCCGATGAAATGAAGGCTTTTGTCAACATCGGTGAAC CAGTCTTCGATCAAGGAAGGCTGGTTATGGTCAACTGCTTGCTGGAGACG ATGAAAAATCATTCATCGTTTGACAAGATGTCAGATGCTCTTAAAGCAAA GGTCCATAGCATCTACCAGTTTCAAGACAATACTATTGATCCAGAAAGAC TTCAAAAGGGGTGGGAAGAGAAAATTGATAAGGGTTGGCCCATAGTTGAT TTGATTGGAATCAGGACGCCAGAAGAGCATGACTATTGGCAAAAAGTAGT AGCGGCAGGCGGCGATGACCCTTCGTCAACATTTGAGGGGCATATCGGTC TGCTCAACCAACCAGAGACATATGGCACTGACTTGGTTGGTCCCTGGACA TCACGTGAACAACGCAAGCGCGGTCGCCCCGCTCGTCGTAGGAGAATGAA CTGA >SYNW2099 phage integrase family ATGCCTCTTACAGACTCGGGTGTGCGGTCTCTGACTGCGACCGACAAGAT GCAGAAAAAGAGTGTCGGAAACTGCCTCTACGTGGTGGTAGAACCTTCGA AGAAGGGGGGTGGCAAGTCCTTTTACGGCGAGATCCGTTTCCCGCCAGGG GGTGGCGGACAAAAGGTCAGGGTCTGCATAGGTCCCTACGGCACTGCTCC AGGGCAATGGACCTTGAAGGCAGCAAAGGACGAATGGACCCGAATTCGCG CCTGGTCGCTGGAGACGGGCAGAGACCCCAGAGAACTGAATGGCAGGGGT AGGAAGCAAAACCAGGACCAAGGACCCTCCAAGACGCTTCAGGACGCCAT AGACGGGTTCCTGAGCACCAAGACGTCGCTGAAGGAGTTCACCCTCACCA ACTACCGCAGGCAACTGGAGAACCAGGTTCGGGAGTGCATTCCAGGGGCA ACGCCACTTCGCGAACTGGAATGGGACAACGGCGGGAGGGAGAAGGTCGT TGCCCTGCGGGAATACATCGAGGACAGAGGCAGTTACGACCAGGCATTTC GGGTGCAGAAGGTCCTGGCACAGGCACTGGACTACGCAATCCTCCAGGGG TGGATGCGACGCAATCAGAACCCAGCAACCAAGCAGAAGGGAGAAGAGAG CAAGCACGACCCGAAACACCATCCCCATATCCAGTGGGAACAGGTGCCAG AACTGCTGGAAGCAATTCACCTGAACCGCTGCTCAGGGCACGTTCAGTCG GTCATGGCACTGAAGCTTCTGCTCATGACCTTTCTCAGAGCAGGGGCACT TGCTCGTCTGAAGTGGAAGTGGATCAGCAGAAAGGAGAACCTCCTGGTGA TTCCTGGAACCACTCCAGGACTGAAACGCACCAAGAAGACAGAAGACCTC CCACATCACGTCCCGCTGACCAAGGAGATGAATGCACTGCTGAAGCAGGC AAAGCAGATGAATGGGCACCTGCCGTATGTCTTTGGTCCTGTCCGCGAGC AAAGCAGATATCCACATTTGGACCCCGAATCACCCAACAACCTCCTCAAG GGTTTGGGGTACAGAGAAGTGCTGCGTGCTCATGGTTGGAGGTCATTACC TCTGACCGCAGGACAAGAAGTTCTCAAGGCACCTCACGACATCATCCAAA GACAGATGGGGCACCTGATTGGCGACAAGGTCAGAAAGGCATATGACAAA TCACTCATGCTGGAAGAACGCAGAGACTTCCTAGAGCAATGGTGCAAGTT ATTGGTCAAAAATGGTTTGAAGATTTGA >SYNW1321 putative ATP-dependent DNA ligase ATGAAGGCCTTCCAGGCCCTGTTCGATCGACTGGATCGAATGAATGGAAC CAACGCCAAGGTGAGGGCGCTGGCGGAGCACTTCCGCAGCACACCCGCTG CTGATGGAGCGTGGGCCCTGCAGCTGCTGCTCGGTAAACGGCGACGGCGG CTGATCACCGGCCGACGACTGAGGGATATTCTTCGGGATCGGGGTGGACT ACCGGAATGGCTGATCGCCGACTGCCATGGCCAGGTGGGCGATTCGGCGG AAACCATCAGCCTGCTCTGGCCGGCCGTGAAGGATCGGATCCAAGGCCAA GCAACGGATCTGCCCTCCATCAACCCAGAGCAGCCGCTGCATTGGTGGAT GGAAACCTTGCTTCCAGCGATCGGTGCACTGAAGGACGACAAGCAGGCCG ATGCCGTGATCCATCTCTGGCACGCGGTACCGGATGAACGCCACTTCATC GTCAATAAGTTGCTCACCGGCGGCTTTCGCGTCGGCGTGTCCACAGGACT GATCAGCAGGGCCCTTGCCACGGCGTTTGAGCTGGAGGACACCTTGGTGG TGCAGCGGCTGATGGGTGGATTCACCCCCTCAGCCGCTGCATTTCTTGCC TTGTCTCGACCTGAGGCTCCTGAAGAACAGCAATCCAGCGGTGTGCCTTA CCCCTTCTTTCTGGCCAGTCCACTGGAGCCCGAACGCCTCGTTGAGACCC CAGCCAGCGACTGGCGGGTTGAATGGAAATGGGATGGCATCCGCGGCCAG CTGATCCATCGCGGCACGGGCGTTTATCTGTGGAGCCGGGGTGAAGAGCT GGTGAACGACAGCTTTCCGGAGCTCGTGGATGTGGCTGCGGCCCTGCCGC AGGGAACCGTGCTCGATGGGGAGGTGATCTGCTGGCGCGAAGGAGACGAA ACACCGTTGGGGTTTGATCAGTTGCAACGACGCCTTGGGCGCAAAACAGT GGGCAGCACGCTGAAGCGTGAATGTCCGATGCGATTCGTCGCCTACGACC TGTTGGAGAGATCCGGCACCGACATCCGCCAGCGCCCCCTGCATGAACGT CAACACCAGCTCGACGATGTGTTGAACCATGTCGACCATGGCGAGGCCTG GCGGCTGCACCGCAGTCCCAGCTGGGTCCTGCAGAGCTGGGGTGAACTGG ATCAACAGCGAAACAACGCCCGGGAGGTCAGGGCGGAGGGTCTGATGCTG AAGAACATCGACTCCCCTTATCTCAGCGGGCGCAAGCGTGGCCACTGGTG GAAGCACAAGCTGGAGCCAATGACCCTCGATGCCGTGCTGCTCTACGCCC AGGCCGGTAGCGGACGACGGGCGAATCTGTTCACGGACTACACCTTTGGA CTCTGGAGTGATGCCGCGGAACCCCAGCTGGTGAGTTTCGCCAAGGCCTA TTCAGGATTGAATGATGAGGAGATCCTCGAGCTGGATCGTTGGATCCGGC GCAACACCTTGCAGCGGTTCGGGCCGGCGCGATCCGTCAAAGCGGAGCTG GTGTTTGAGATCGGATTTGAAGGGATTCATCCGTCCAAACGCCACAAATC GGGCATCGCCGTTCGCTTCCCCAGAATTCTGCGCTGGCGTCGCGACAAAC CTGCCGACGAGGCTGATCGAATCCAAACAGCGCTCTCTCTGATCAGGGAT CAACCTGAAGCGTCGCTGTGA >SYNW0847 possible alkylated DNA repair protein ATGGGAGACGACGTCTTACAGATCCAATCTGAATCAACAACCCTGCCTTG GACCCTCCATCGCAGCTGGCTGCCGCCGCTCACAGCCATCGATTGGTCCT CAACCTTGATGAGAAGGGTTCACTGGCAGCAACCGATCGTTCAGGTCTAT GGCCGCCACCATCCGGTGCCGCGTCTGACGATGTTTCTGGCAGAACAGGA CGTGTCCTATCGCTACAGCGGGACCCGGCACTGCGGAGCAGGCTGGCCCA ACTGGTTCCTGCCCATGCTGAACCAGGTCAACACAGCCTGCGGCTGTCGA TTCAATGGCTGCCTGCTCAACCTTTACCGCCATGGGGAAGACCGGATGGG GTGGCATGCCGATGACGAAGCGGAGATCGACCAGAGCCAACCGATCGCCT CTCTGTCTCTGGGATCGAACCGGGACTTCCAGTTGCGCCATCGCCATCAA CGGCAGCACCGTCACACCCTTGAGCTGACAAGCGGTGATCTGCTGATCAT GCACCCCGGATGTCAACGGGATTGGCTGCATGGCGTGCCCCAGCGCAGGC GCATCAAGACACCAAGAATCAACCTCACCTTTCGCTGTTTTCAACCACGC TGA >SYNW1961 FPG, Formamidopyrimidine-DNA glycolase (FAPY-DNA glycolase) TTGCCGGAACTCCCTGAGGTCGAGACGGTTCGCCGAGGTCTGGCGGACCG TCTCTCTTTGTTTGAAATTGAACGCGTCGAGGTCTGCCGCTCGCGAGCGA TTGCCAGCAGTGGCGGTGTCGCTGCCTTTCTGGTGGGACTGACTGGTGCA AGGGTCGGAACCTGGAGCCGGCGCGGAAAGTACTTGATGGCAGCGCTTGA ACCCAACCGCGGGATTTGGGGGGTTCATCTGCGCATGACTGGGCAGTTTC AGTGGATCGAGGAGCCCAGCACTCCCTGCACGCACACCCGCGTGCGCTTC TGGAACGCCAACGGCCACGAACTGCGCTTCGTTGATGTGCGGAGTTTCGG CGAGATGTGGTGGGTCCCTCCCGACGTGGAGCTCACTGTTGGAATCCCGG GGTTGGCGCGGCTGGGACCGGAACCGTTCAGCGAGGCCTTCAGCGCTCCA TACCTCAAGCGGCAACTGAAGAACAGCAGCCGCCCGATCAAAACAGCACT TCTGGATCAGGCCCTCGTGGCAGGTGTGGGCAACATTTATGCCGATGAAA GCCTGTTCTCGGCGGGCATCCCCCCGCTGACCCCCGCTGGACGGCTCACG CTTGCCCAGCTTGAGAGGTTGCGCTCATCCCTGGTGGAGGTGCTCACCAC CAGCATTGGTGCCGGCGGCACCACCTTCAGTGACTTCCGTGATCTGGAGG GCGTCAACGGCAATTACGGAGGCCAGGCCTGGGTGTATCGCCGAGGGGGA GAACCGTGTCGGCGCTGCGGCACGATCATCCGACGGGACAAGCTGTCGGG ACGCAGCACCCATTGGTGCCCGACCTGTCAGGGCTGA >SYNW1536 dnaA, chromosomal replication initiator protein DnaA GTGGTGCTGACGGGCGAGGAGCTCTGGAGCAAGGTGCGTGAGGGGCTGCA GACCAAGCTGAGCAAGCCCACCTTCGAGACCTTCATCCGGCCAACGGCCT GCAGTGGCTTTGCCAACGGGGAACTGCGCCTGCTGGCCCCGAATCCCTTT GCCGGAGTCAGGTTGAGGGAGCAGCTTCTCCCTTCGATCACCCAGTTGGC CAGCGAAGCCTGCGGTGGCCCGGTGCAGGTGGTGGTTCTGGCTGATTCCG CTGTCGTCTCCCCCGGGGTGACAAACCAGGACGCTGACCCGCCGGAACCC GCCTCGGCCCCCGGAGACTCGGCGGCTGCCCGGGAGTCCGCGCCGTCGCG ATCGCCGCGACGGGTGCTGCCGGGGCTCAACCCCCGTTATGTGTTCGGTC GATTCGTTGTGGGTCCCAACAGTCGGATGGCCCATGCGGCAGCCCTGGCG GTGGCGGAGGCTCCCGGCCGTGAATTCAATCCCCTGTTCATCTGTGGCGG AGTCGGTCTGGGCAAGACCCACTTGATGCAGGCCATCGGTCACTACCGGC TGGAGATCGATCCCTCCGCTCGAGTGTCCTACGTCTCCACCGAAACCTTC ACCAATGATCTGATTGACAGCATCCGCAAGGACGGCATGAAGGCCTTCCG AGACCGTTACCGCGCGGCGGATCTGCTGTTGGTGGATGACATCCAATTCA TCGAAGGCAAGGAATACACCCAGGAGGAGTTCTTCCACACCTTCAATGCC CTACACGAAGCCGGCAAACAGGTGGTGATCGCCAGTGATCGGCCCCCCAG TCAGATCTCCCGGTTGCAGCAGCGCTTGATCTCACGCTTCCAGATGGGCC TGATCGCTGATATCCAGGCTCCTGATCTCGAGACCCGCATGGCGATTCTC CAGAAGAAAGCGGAGCAGGAGCGCATGGCCCTGCCCCGGGATCTGATCCA CTACCTGGCGGGGCGTTTCACCTCCAACATCCGTGAGCTTGAGGGGGCCC TCACCCGTGCCGTGGCCTTCGCCTCGATCACCGGCCTGCCGATGACGGTG GAGTCGGTGGCGCCGATGCTTGATCCGACCGGGCAAGGCGTCGATGTCAC ACCGCAACAAGTGATCGACAAGGTGTCGGAGGTGTTTGATGTCACCGCAG AGGAGATGCTCAGCAGCACTCGCCGTCGTGCCGTCAGTCAGGCCCGTCAG GTGGGGATGTATCTGATGCGGCAGGGCACGGATCTGAGCCTGCCGCGGAT CGGCGACACCTTTGGCGGCAAGGACCACACCACCGTGATGTACGCGATCG AACAGGTGGAGAAGAAGCTGGCCAGCGACCCCCAGCTGGCCGGCCAGGTG CAGAAGGTCAAGGACCTGCTTCAGATTGATTCCCGGCGCAAACGCTGA >SYNW2379 dnaB, replicative DNA helicase DnaB ATGGTGAGCGTCCCCCTGAGCGATAGCGGCGAGAACGCCGAAGGGGGACG CCGCAAATTCGGTCATAGTCGCCGCGACCAGGAACCAAGTTTCGAAGCCC TGCCCGATTCCGTTCCGCCCCAGAATCTTGAGGCAGAGGAAGCGGTTCTG GGGGGCATCCTGCTGGACCCGGATGCCATTGGCCGGGTGGCGGATGTGCT GCAACCGGAGGCCTTTTATCTCAATGCCCACCGGGAGATCTTCCGCACTG CCCTGATGCTGCACAGCCAGGGCAAACCGACAGACCTCACAGCGATGAGC GCCTGGCTGGCCGACACGGGATCGCTGGAGAAGGTGGGGGGCAATTCCCG CCTGATCGAACTGGTGGAACGGGTGCCATCAACCGCCTCCATCGAGCAGG TGGCACGGCTGGTGATGGACAAGTTCCTGCGACGCCAGCTGATCCGCTCC GGCAACGAGGTGATCAAGCTGGGCTTTGATCAAAGCCTGCCTATGGAGCA GGTGCTCGATCAGGCGGAGCAGACCATTTTCGCGATCAGCCAGGAGAAGC CGTCCAAAGGACTCACCCCTACGGCCGAAATCCTCACCCAGACCTTCGAG GAAATCGAAAGCCGCTCCCTGGGTACCTCCGTGGCCGGCATCCCGGTGAA CTTCTACGACCTGGATGCGATGACCCAGGGCCTGCAACGCAGCGACCTAA TCATCGTGGCCGGCCGCCCAGCGATGGGCAAAACCTCAATTGTGCTCAAC CTGGCCAAGAACGTGGCCCAGCTGCACGACCTACCGGTGTGTGTGTTCTC CCTGGAGATGAGCAAGGAACAGCTCACCTACCGCCTGCTATCGATGGAGG TGGGCATCGAAGCGGGAAGGCTGCGCACTGGCCGGTTGCAGCAGGAGGAG TGGCCCCTGCTTGGCCAGGGGATCAACACCCTGGGCCAGCTGCCGATCTT CATCGACGACAAACCCAATTCCGGTGTGCTGGAGATGCGATCGCTGTGCC GCCGGCTGATGGCGGAACAGGGCAAGGAGCTGGGGCTGGTGGTGATCGAC TACCTGCAGCTGATGGAAGGTTCCAGCCCGGACAACCGCGTGCAGGAAAT TTCCCGGATCACCAGGGCCCTGAAAGGCATGGCACGGGAACTGAATGTGC CGGTGATTGCCCTCTCCCAGCTCAGCCGTGGCGTGGAATCGCGCACCAAC AAGCGGCCGATGCTCAGCGACCTGCGGGAATCGGGCTCGATCGAGCAGGA CGCTGATCTGGTGCTGATGATCTACCGAGACGAGTACTACAACCCGGAAA CCCCCGACCGCGGCATCACCGAAGTGATCGTGACCAAGCACCGCAACGGA CCGGTGGGCACGGTGAAGCTGCTGTTCGAGCCGCAGTTCACCCGCTTCCG CAACCTGGCAGCTTGA >SYNW1032 dnaE, DNA polymerase III, alpha subunit ATGGCATTCGTTCCGCTCCACAACCACAGCGATTACAGCCTGCTGGATGG CGCATCGCAGCTTCCGGCCATGGTGGAGCGCGCCAAGGAACTGGGCATGC CAGCCATTGCCCTGACGGATCACGGGGTGATGTATGGCGCCATTGAGCTG CTGAAACTCTGCAAGGGCTCCGATCTCAAGCCGATCATCGGCAATGAGAT GTATGTGATCAATGGATCCATCGATGATCCTCAGCCGAAGAAAGAGAAGC GCTACCACCTGGTTGTTCTGGCCAAGAATGCCGTCGGCTACCGCAACCTG GTGAAGCTGACGAGCATCAGCCATCTGCGGGGAATGCGGGGGCGGGGGAT ATTTTCGCGCGCCTGCATTGATAAGCACCTTCTCAAAACCTATAGCGAAG GTTTGATCATCTCCACCGCCTGTCTCGGTGGAGAATTGCCGCAGGCAATC CTGCGGGGGCGGCCGGATGTTGCCCGCAATGTGGCCCGTTGGTATCAGGA GGTTTTCGGGGAAGATTTCTATCTTGAAATTCAGGATCATGGCTCTCCTG AAGACAGGATTGTCAACGTTGAACTTGTGCGCATCGCCCAAGAACTCGGC ATCCAATTGGTGGCCACCAACGATGCTCATTACCTGAGCAAGCAGGATGT GGAGGCGCACGATGCCTTGCTTTGCGTGCTCACGGGCAAACTCATCAGCG ACGAGAAACGACTTCGTTACACCGGCACGGAATATATCAAGACCGAAGAG GAGATGAACCGACTCTTCGTGGATCATCTAGAGCCGGATGTTGTGCGTCA AGCCATCGCCAACACCGTGGCTGTTGCCGAGAAAGTTGAGGACTACGACA TCCTCGGCCACTACCAGATGCCTCGCTTTCCCATTCCTGAGGGACACACT GCAGTGACCTACCTGCGAGAGGTCACAGAGCAAGGTTTGCGGGAGCGACT CGAGCTGTCCTCCGATGCATCCATTCCGGAGAACTACGCCGAGCGGATGG CCCATGAGCTCAAAATCATGGAACAGATGGGGTTCCCCACCTACTTCCTT GTGGTGTGGGATTACATCCGTTTCGCGCGTGAACAAAAGATTCCAGTGGG GCCCGGCCGAGGTTCGGCGGCGGGATCCCTCGTGGCTTATGCCCTTGGCA TCACCAATATTGATCCAGTGACCAACGGATTGTTGTTTGAACGTTTCCTC AATCCGGAACGCAAATCGATGCCTGATATTGACACCGACTTCTGCATTGA ACGACGTAGTGAAGTGATTGATTACGTCACTGAACGCTATGGCGACGACA AAGTGGCCCAGATCATCACTTTCAACAGGATGACATCCAAGGCTGTGCTG AAGGATGTGGCCCGGGTCTTGGACATTCCCTACGGCGATGCCGACCGGCT GGCGAAATTGATTCCTGTGGTCCGTGGAAAGCCCGCCAAATTGAAGGCCA TGATTGGTGAGGAGTCACCAACGCCGGAATTCCGCGAGAAATACGAATCC GACCCAGTTGTGAAGCGCTGGGTAGATATGGCCATGCGCATCGAGGGAAC CAACAAAACCTTCGGTGTGCATGCAGCGGGCGTGGTGATTGCCGCTGATC CATTGGATGAATTGGTGCCATTGCAGCGCAACAACGATGGTCAGGTGATT ACGCAGTACTTCATGGAAGATGTGGAATCCATGGGTCTGTTGAAGATGGA CTTTCTGGGCCTCAAGAATCTCACGATGATTGATAAAACCCTGGAATTGG TGGAAGTCAGCAGCGGAACGCGGCTGGATCCCGACAAGCTTCCGCCTGAG GATGCCGACACCTTCGCCTTGCTGGCCCGTGGGGATCTGGAAGGCATCTT CCAGCTGGAGTCCAGTGGCATGCGTCAGATCGTCCGTGATCTGAAGCCGT CCTCCCTGGAGGACATTTCATCAATCCTGGCGCTGTATCGACCCGGGCCT TTGGATGCCGGCCTGATTCCCAAATTCATCAACCGCAAACATGGCCGCGA AGCCATTGACTTCGCCCACACGATTTTGGAGCCGATTCTGAGTGAAACCT ACGGAATCATGGTCTACCAGGAGCAGATCATGCGCATTGCCCAGGATCTC GCCGGTTATTCCCTCGGCCAGGCAGATCTGCTTCGGCGGGCGATGGGCAA GAAAAAAGTGGCGGAGATGCAGAAGCATCGCGGCATCTTTGTGAAGGGTG CTGCCGAGCGGGGTGTGGATGAGGCGGTCTCGGATGAACTGTTTGATCAG ATGGTGCTGTTCGCCGAATACTGCTTCAACAAGAGCCATTCCACGGCCTA TGGCGCCGTCACCTATCAAACGGCCTATCTGAAAGCGCATTACCCCGTCG CCTACATGGCCGCCCTGCTCACGGTGAATGCCGGTGCAGCCGACAAGGTG CAGCGGTACATCGCCAATTGCAATGCCATGGGCATCGAGGTGATGCCACC GGACGTCAATGCCTCCCGCACAGATTTCACTCCGAACGGCGATCGCATCC TCTTCGGTTTATCCGCTGTTCGAAACCTTGGCGATGGGGCCATCCGTCAG TTGATTCGTTCACGGGATAGCGATGGCCCGTTCCGGTCGCTGCCGGATCT TTGTGATCGGATCCCTTCCTCGGTGCTCAACCGCCGCGGACTGGAATCTC TGATTCACTGCGGTGCCTTGGATTCCATGGATCCAGCCGCTAACCGAGCC CAGTTGATGGCTGATCTCGATCTTCTCCTCGACTGGGCCTCGTCGAGAGC CAAGGACCGTGACAGTGGCCAAGGCAACCTGTTCGACCTGATGGCAGCTC CGAACGATGAGGACGGTGCCTCTGATCTCAGTCTCGCTCCCAAGGCCGCT CCGGTGGCGGATTACGGCCCAGCCGAGAAGCTCAAGCTGGAGAAGGAGCT GCTTGGTTTCTATCTGTCCGACCATCCGCTCAAGCAACTCACACCCAGTG CTCGACTCCTCGCACCCATCGGCCTGGGGGCGCTTGAAGAGCAACCGGAC AAGGCCAAGGTCAGTGCCGTCACGATGATCACTGAGTTGCGTCAGGTCAC CACCCGCAAGGGGGACGGAATGGCGATCCTCCAGCTGGAGGATCTCTCCG GCAGTTGCGAAGCCGTGGTGTTTCCCAAGAGTTATGCCCGACTCGCGGAC CATCTGATGACAGAGGCGCGTCTTCTCGTCTGGGCGGGCGTCGATCGTCG GGATGATCGCGTTCAGTTGATCATTGATGACTGCAGGGCCATTGACGACC TAGCTGTTCTCCTTGTTGAACTCTCCTCCCAGCAGGCCAGCGACATCGCC ATCCAACACAAATTGAGGGAGTGCTTGACGCAATATCGACCTGAGCGTGA GGAGCTTGGCGTCAAAGTGCCCGTTATCGCTGCGGTTCGCGATGGTCATT CAGTTCGCTATGTCCGACTGGGTTCTCAGTTCTGCGTCAAGGACGCGGAA GCTGCACTGCAAGCCCTGAAGACACAGGCCTTCACGGCCCGTCACTCAGA GCCCATGGTTCTGGGTTGA >SYNW1038 dnaG, putative DNA primase ATGGCCAATGCCCGACTTCATCCCCGCACCATCGACGCCGTCAAAGAGCG GGCGGACATCGTCGATGTGGTGGGCGACCACGTCGTTCTGAAAAAGAAAG GACGGGAGTTTGTCGGCATCTGTCCGTTTCACGACGACAGCAAGCCGTCG ATGACGGTGTCTCCCGCCAAGCAGTTCTACTACTGCTTCTCCTGTGGTGC GGGCGGCAATTCCATCAAGTTCCTGATGGAGTTTCAGCGGCAGAGTTTCA GCGATGTGGTGCTGGATCTGGCCCGTCGCTATCAGGTGCCGGTCGAGACC GTTGATGGTCCTCAGCAGGAGCGGTTGAAGCAGCAACTCTCCCGGCGGGA GAAGCTTCAGCGGGCCCTGGCCTTGGCTGCCGGTTGGTTTCGCAGCCAGT TGCGCAGCACGACGGGTGAGCAGGCCCTTGCATACCTCACGGAAGCCCGC GGCCTGACACTCGCCACCCAGGAGACATTCGGTCTCGGTTACGCCCCGGA TCAATGGGACAGCCTGCTGAACCATCTGCAGCAGGTGGAAGGCCTTTCGG CTGAACTGTTGGAGGCAGCTGGACTGGTGGTCCCCCGCAAGGGTGGCAAT GGCTTCTACGACCGTTTTCGCCATCGGGTGATGGTTCCGATTCACGACCG TCAGGGTCGTGTGATTGGCTTCGGTGGCCGGAGTTTGGATGGCAGCGAGC CCAAATACCTGAACTCCCCAGAGACGGAGGTGTTCGAGAAAGGCAAGCAT CTGTTCGGTCTCGACAAGGCCACCAACACCATCCGCAAGCAGGACCGTGC TGTGGTGGTGGAGGGTTACTTCGATGTCATCGCCCTGCATGCGGCTGGGA TCACCAATGCGGTGGCGTCCCTAGGCACCGCCCTCAGCAGCCAGCAGATC ACCCAGCTCTGCCGCGTCACCGACGGCAAGCGCATCGTTCTCAACTTTGA CGCGGACGGCGCTGGGGTTCGTGCGGCCAACCGCGCCATCGGTGAAGTGG AGCAGCTCGCCTTGCAGGGGCAACTGGAGCTGCGGGTGCTGCATCTGCCC TCCGGCAAAGATCCAGATGAGTTCCTCAAGGACCATGGCGCCGGGGATTA CCGGGCTCTGCTCGATCAGGCGCCTCTCTGGCTGGACTGGCAGATCGAAC AGGCCCTCGCCGATCGAGACCTTGCCAAGGCGGATCAATTCCAGCAGGCG GTCTCGGCCTTGGTCGCTCTGCTGGGCAAGTTGCCCCAGTCGGCGGTGCG CACCCATTACCTGCAACGGGTCGCTGAACGGCTCAGCGGCGGTCAGGGCC GTCTTGCTCTGCAGCTCGAGGATGACCTGCGCCAGCAGGTGAAGGGCCAG CGTTGGCATGGTCGATCCAGCCGGCATGACCAGCCGGGCGACACCAGTCA GCGGGAGCGCTGTGAGGCTGATCTGCTGCGCCTTTATCTCCATGCCCCCC GCTACAGGGGCACGATCCGCCAGGAGTTGCGCCAACGGGAACTGGAGGAC TTTGCGATCCCCCATCACCGTCTGCTCTGGGCCTCTCTGACGGAACTTGA GGAGACCAACCTCGGTGTGGGCCGCCTGGAATCGATCAGCCATGGTGAAG ATGATGGTGACGGCCTGGATGGGCTGGACCTGCCCCGTCTGCTGACGGAT CAGCTGCTGCTGGAGAACAGCCCTCTGTTGTCACGGCTGACGCCGTTGCT TGAGCCGGGTGAACTGGAGCGTGTCGCCCTGGCCGAACCGCTCGAGCAGT TGCGTGGGCTCGCGGCATTGTTGGAGCGTCAGAAGAGCTTCAAGCGCTGC CGCCACCTGCTGGAAGCCTGGGGTGGGCAGCGTCTGCAGACCTTGGAAGC CTGTATTTCCGTGTTGGTGCAAGACAACCAGGAGGATCAGCAGGGCGTGG ATATGGAAGGTCGCATCGAGCAACTGTTCGAGGAGCTCAACCGCGATGCG TTGCACTATCAGGAGCTGTATTACAGCGAGCGGAAGCACATCCAGCATCT CGATCAGCAACGCCGCGGCGGCTTCCAGACCATTGATGCCCTGTCCGCCT GA >SYNW0001 dnaN, DNA polymerase III beta subunit ATGAAGGTGGTGTGCTCCCAGTCCGAACTCAACGCCGCTCTGCAGCTCGT GAGCCGTGCTGTGGCAACCCGCCCTACGCACCCGGTTCTGGCCAATGTGC TGCTGACGGCCGATGCCGGCACCGATCGCCTCAGCCTCACTGGATTTGAT CTCAACCTCGGCATCCAGACCTCCCTCGCTGCCAGTGTCGAGACCAGTGG AGCGATCACGCTCCCGGCTCGGCTGCTCGGTGAAATCGTGTCGCGACTGG CCAGTGATTCCCCGCTCACGCTCACCACGGAGGAATCCGGAGAGCAGGTG CAACTCAACAGCCTGAGCGGCAGCTACCAGATGCGGGGCATGCCGGCCGA CGATTACCCGGATCTACCGATGGTGGAAAGCGGCTTGACCCTCAAGCTGC AAGCGTCCGGTTTGGTGCAGGCACTGAAGGGAACCCTCTTTGCCAGCAGC GGTGATGAAGCCAAACAGTTGCTCACAGGCGTTCATCTCAGCTTCACCGA TACAAATCTGGAGGCTGCCGCCACCGATGGTCATCGGTTGGCGGTGTTGC AGGTGAACGATGCCCTTCAGGCTGCAGCTGAGGGTACGGAGGGCGAGGGT GCTGCGTTTGCCGTGACCTTGCCGGCGCGATCCTTGCGTGAGGTCGAACG GTTGGTGGCCGGGTGGCGGTCCGAGGATCCGATCAGCCTGTTCTGTGATC GGGGTCAGGTGGTTTTTCTTGCGGCTGATCAGATGGTCACGAGCCGCACG CTGGAGGGGACCTACCCCAATTACCGCCAGCTGATTCCCGATGGGTTCAG CCGCACGTTGACCATGGATCGCCGTGCTCTGGTGGGAGCTCTCGAACGCA TTGCGGTGCTTGCCGATCAGCACAACAACGTCGTCAAATTCAGCAGTCAG CCCGAATCAGGCGTGGTGCTGATCAGTGCCGATGCACAGGATGTTGGCAG TGGCTCGGAGTCTCTCGCCGCAGAACTCAGCGGCGATGCGATTCAGATCG CGTTCAATGTCCGCTACATGCTGGATGGTTTGAAAGCCATGGCCGGAGAT CGTGTGGTTCTTCACTGCAATGCCCCCACCACTCCAGCGGTGTTGCGTCC TGTGGAGGACGGTGATGGTTTCATCTACCTCGTGATGCCGGTTCAGATCC GCTCCTGA >SYNW1016 dnaQ, possible DNA polymerase III, epsilon subunit ATGGCTGATCAGTTGACGTTGTTAGAAGCGGTGCCGGAGCACCGTTCTGA GCCGACGGCTTCGGCAGGTCCTGCCACGCTTCTGATCATTGACACCGAGA CCACAGGGCTGGATCCGGAGAAGGATCGCTGCCTCGAAGTTGGCGCCATT TTGTTTGATGTGTCGACACGATCCGTGTTGGCACAGCAGTCCTTTCTGTT GCCGGTGGAGACCAATGCGGCGGAACCGATCAACCGGATCCCCGCGTCGG TCACACGGTTGCCCCAGCCCTGGACTGGTGCACTGCGCTGGTTTGATGAA CTCCTCACCGCCTCGGACGTGCTGGTGGCCCATAACGCCGTCTTCGATCG TCAGTGGTTTGGTCGGGATCCCTTGCCTGCCGTCAGCCATCCATGGCTTT GTTCGATGGAGGATCTGCGCTGGCCTGCTGAGCGGCAGTTGCGGTCCCGT CCCTCCGTGCGGGACCTGGCTCTCGCCTACGGCGTTCCGGTCTGGTCAGC CCATCGGGCGTTGACCGATTGCAACTACCTCGCGGAGGTGTTCGCCCGTT GCGACGACCTGGAGACGATGCTGCTGCACGGCCTTGAGCCCCGTCAGTTG ATGCGAGCAAGGGTGTCGTACGACAACCGCCATCTCGCCCGGGAGGCAGG ATTCCGATGGAACGACCCTGTGAAAGGGGCCTGGACGCGCCGCCTGAGCC AACGGGAGGTCAAGAGCCTCGATTTTCCTGTTGAGGTCGTTGAACCTGGT CCGGAACGCCGCGCTGCCTGA >SYNW0061 dnaX, DNA polymerase, gamma and tau subunits ATGAGTACGGCCTACCAGCCGCTGCATCACAAATACCGGCCCCAGCGCTT CGATCAGCTGGTGGGCCAGGAGGCCATTGCCGCCACCCTCGGCCATGCCC TCACAAGCAACCGCATCGCGCCGGCTTACCTGTTCAGCGGGCCCCGCGGC ACCGGTAAAACCTCTAGCGCCAGGATCCTGGCGCGATCGCTCAACTGCCT CAACAGCGACGGTCCCACACCAGAACCCTGCGGCACCTGTGAGCTGTGCA CCACGATTGCGGCGGGCACAGCCCTGGACGTGATCGAGATCGATGCCGCC TCCAACACCGGCGTCGACAACATCCGTGAGCTGATCGAACGCTCGCGCTT CGCACCGGTGCAGGCGCGCTGGAAGGTGTATGTGGTGGATGAATGCCACA TGTTGTCCACCGCAGCGTTCAATGCGCTGTTGAAAACCCTGGAGGAACCG CCGCCGCAGGTGGTGTTCGTGCTGGCCACCACGGACCCGCAACGGGTGCT GCCCACGATCCTCAGCCGTTGTCAGCGCTTTGATTTTCGCCGCATTCCCC TCGATGCACTCGAGGCGCACCTCAGCTGGATTGCTGAGCAGGAGGCCATC GAGATCCAACCGGAGGCGATTCATGTGGTGGCCCTGCGCTCCCAGGGTGG ACTGCGCGATGCCGAGAGCCTGCTGGATCAACTGAGCCTGCTGCCGCCTC CGATCGAAGCCACCGCGGTATGGGATCTGCTGGGGGCCGTGCCCGAACAG GAACTGCTGCAACTGGTGCAAGCGATGAGCAGCGCTGAACCGGTGGCCCT GCTGGAAGCTACCCGCAATCTGCTGGATCGGGGCCGCGACCCGGGCGCCG TGCTGCAGGGCCTGGCCGGGATCCTGCGCGATCTGGTGCTGATGGCTGCG GCACCGGACCGGCCGGAACTGACCGGTGTGTCACCCCAATTCCGCGACCA GCTGCCGCCCCTCGCCAAAGCCCTGGGCCGCGCCCGCTTGTTGCAGTGGC AGGCGCAGCTGCGGGGCAGCGAACAGCAACTGCGCCAGAGCGTGCAACCG CGGCTGTGGCTGGAGGTGCTGCTGCTGGGCTTGCTGGCGGAGGCGCCAGC TGCAGCACCAGCAACATCTGCACCCGTTACCGCAGCCGTGCCGTCACAAA CGGCTCCAGCGATCACACCCACGCCAGCGGTTCCTGCCCCATCGCCAACA CCGTCTGCAGCTCCTGCAACGGCTCCGGAGCTGCCCAAGGTGGCGCCAGC TGCTGCAGAGGGTGCAGCGCCCAACCTGGCGGAGCTATGGCAACAGATCC TCGGCAGCCTGGAGTTGCCCTCCACCCGGATGCTGCTGTCGCAGCAGGGG CAGTTGGTACGGCTCGATGCCAACAGAGCAGTGGTGCAGGTGGCCAGCAA CTGGATGGGCATGGTGCAAAGCCGGGCTGCCTTGCTGGAACAGGCCATGG CCAAAGCCCTGGGGGGATCACGCCAGTTGGTGCTGGAAGCCAGCAGTGGC GGAGCAGCGCCGAAGGTTCAGCCACCACCAGCGGCGGTGGTCACCCCACC GGTGATCAACACGCCAAGTCCAACTCCTGAGCCAACGCCACCAGCCCAGA CCAGAGCAGCTCCAGCTGCGACTCCGCAATTGCCCGAACCTGTTTCACAA GCCCCCAAGCCTCCAGAACCCAAGAGGCCGCCTGCCAACACGAGCGAACC TTCAGGTCTGGACCGCCAAGCGAAAAATCTGGCCGATTTCTTCAACGGTC AGGTGCTGGATATGGACAACCCAGAAGTCTGA >SYNW0727 gyrA, DNA gyrase A subunit ATGGCGGATTCTGTGGGGCCAGGAGGCGGCGGTCCCGGCGATTCCGACGA TCGAATCATTCAGGCGGATCTTCGCAACGAGATGTCGCGCTCCTATCTGG AGTACGCGATGAGTGTGATCGTGGGCCGGGCGTTGCCCGATGCCCGCGAT GGCCTAAAGCCCGTGCATCGCCGGATCTTGTACGCGATGTACGAATTGGG GCTGACCAGCGATCGCCCTTACAGGAAATGCGCCCGTGTGGTGGGCGAGG TGCTGGGTAAATACCACCCCCATGGCGATACGGCTGTGTACGACGCCCTG GTGCGGATGGCCCAGGACTTTTCGATGTCGATGCCGTTGATTGACGGGCA CGGCAATTTCGGATCGGTGGACAACGATCCGCCGGCGGCCATGCGATACA CCGAGTCCAGGTTGCAGGCGCTGACCACCGACAGCCTGCTGGAGGACATC GAGGCCGAGACCGTTGATTTCGCCGATAACTTCGATGGTTCGCAGCAGGA GCCGACGGTGCTTCCGGCTCGAATTCCCCAGCTGCTGCTGAATGGTTCAG CGGGCATTGCCGTGGGGATGGCGACCAACATCCCCCCCCACAACCTCAAT GAGCTGATCAACGGTCTGCTGGCGCTGATTGAGAACCCTGATCTCACAGA TCAGGAGTTGGTCCGGCTGATTCCTGGACCCGACTTCCCAACAGGTGGTC AGATCCTGGGTCGCGAGGGCATCCGTGAGACCTATCTGGGCGGTCGTGGC TCGATCACCATGCGCGGTGTGGCGGCGATTGAGACGATCGAAGCCCCCGG CCGTCCTGATCGTGATGCCGTGATCATCACGGAGTTGCCTTATCAGACCA ACAAGGCTGGCCTGATCGAGCGCATCGCCGAGCTGGTCAACGACAAAAAG CTTGAGGGTATTTCTGATATCCGCGATGAGAGCGATCGCGACGGCATGCG CATCGTGGTGGAGCTGCGCCGTGATGCCTATCCGCAGGTGGTGCTGAACA ATCTGTTCAAACTCACTGCCTTGCAAAGCAACTTCAGTGCTTACATGTTG GCGCTGGTGAACGGTGAGCCGATCCTGCTCACCCTGCGCAAGATGCTCGA GGTGTTTCTCGACTTTCGTGTCGAGACCATTGAGCGCCGCACCCGTTATC TGCTGCGCAAGGCCGAGGAACGCGATCACATCCTGCTGGGCCTGCTGTTG GCCCTTGATCAGCTGGATCCGATCATTGCCCTCATCCGGGCTGCGCCTGA CACGGCTACGGCCCGTCAGCAGCTGCAGGACCGTCATGGCCTCAGCGACA TTCAGGCCGACGCCATCCTGCAGATGCAGCTGCGGCGTCTCACAGCGTTG GAGGCCGACAAGATCCGGCTTGAGCACGAGGATCTGGTCACCAAAATCGC GGATTACAAAGACATCCTCGGCCGGCGTGAGCGGGTGTTCGGAATCATTC AGGACGAACTCAACCAACTCAGCGATCGCTACACGACACCGCGCCGAACC GAGATTCTCGATCTGGGTGGTGGTCTTGAGGACATCGATCTGATCGCCAA CGAGCGTTCCGTGGTGCTCGTCACCGAAACCGGTTACCTGAAACGGATGC CGGTGAGTGAGTTCGAAGCCACCAGTCGAGGCACCCGCGGCAAAGCTGGC ACCCGCAGCCAGGGAGAGGAGGCCGTGAAGCTGTTCATCAGCTGCAACGA CCACGACACGCTGCTGCTGTTCAGTGATCGGGGTGTTTCCTATGCCCTTC CGGCTTACCGGGTGCCGCAATGCAGCCGCACCGCAAAAGGCACACCGGTG GTGCAGTTGTTGCCCATCCCTCGGGAGGAAGCAATCACCTCGTTGATTCC CGTGTCGGAATTCAACGACGACATGGACTTGTTGATGCTGACCCGAGGCG GGTTCATCAAGCGCACCCGTCTTTCAGCCTTCAGCAACATTCGCTCCAAT GGTCTGATCGCTATCAACCTGGAAGAGGGGGATGCATTGCGTTGGGTTCG TCTGGCGGTGCCCGGCGACAGCGTGCTGATCGGCTCCAATGCGGGGATGA CGATTCACTTTCGCCTCAGTGATGAGGAGCTGCGCCCATTAGGCCGCACG GCCCGTGGTGTGCGTTCGATGAACCTGCGCGAGGGCGATGGACTGGTGAG CATGGATGTCCTGCCGGTTGAGCTGGCGGATCGGATCGCCCAGAGTGCAG AGGACGATGAAGAGGATGATGCATCCTCTGGTGATGGTCCCTGGGTGTTG GTGGCCTCGGCATCTGGATTGGGCAAGCGTGTGCCGGTGACCCAGTTCCG ACTGCAGAAGCGGGCTGGCATGGGCCTGCGGGCGATGAAGTTCCGCACGA CGGATGATGCTCTGGTGGGTCTACGGGTCCTCGGTGCTGGTGAGGAGGTG CTGTTAGTGAGCGAGAAAGGGGTGATCGTGCGCACCAGCGCCGATGCGAT TCCCCAGCAGTCGCGTGCCGCCACGGGTGTGCGGCTGCAGCGTCTCGATA AAGGTGACCGTCTTTCGGAAGTGGTGCTGGTGCCGCCTGAAGCAGAAGAC GACACCACAGCAACCGACGACACCAACGCGGATGACACCGAAACGAGTGA CACCGAAAGCAGCGCGCAGGACAGCTGA >SYNW0095 gyrB, DNA gyrase subunit B ATGAGCGACGCTTCCAAGGTCCAGAACGCCTACGGCGCTGAGCAGATTCA GGTGCTGGAGGGCCTGGAGCCGGTCCGCAAACGCCCAGGCATGTACATCG GCACCACGGGGCCGCGTGGATTGCACCACCTTGTGTACGAGGTGGTGGAC AACTCGGTGGACGAGGCCCTGGCGGGCCATTGCGACCGGATCCTCGTGAC CCTCGGCGAGGACGGTTCCGCATCCATCAGCGACAACGGTCGTGGCATTC CCACGGATGTTCACCCGCGCACCGGTAAGAGTGCCTTGGAAACGGTTCTT ACCGTGCTCCATGCCGGCGGCAAGTTCGGTGCTGGCGGCTACAAGGTGTC CGGCGGTCTGCATGGCGTCGGTGTGTCCGTTGTCAACGCCCTGAGTGAAT GGGTCCAGGTGACGGTGCGCCGTCAGGGGCAGGTGCATCGTCAGCGCTTC GAGCGTGGTGCTGCCATCGGCAGCCTGGCCTCTGAGGACCAGCCCGCCAG CGAAGCCGGCGAGACCGGCACCACCGTGTGCTTCAAGCCGGACATTGAGA TCTTCACCGGCGGCATCGTTTTTGATTACGCCACCCTTTCGGCCCGTCTG CGCGAGCTTGCTTACCTCAACGGCGGCGTGCGGATCGTCTTCCGCGATGA ACGGGAATCGGCCCGTAATGAGGTTGGCGAGGCCCACGAGGAAACCTATT TCTACGAAGGCGGCATCAAGGAATATGTCGCCTACATGAACACGGAAAAG GATGCCCTCCATCCAGACATCATTTATGTGAATTCCGAAAAGGATGGTGT GCAGGTGGAGGCTGCTCTGCAGTGGTGCTCCGATGCCTATTCGGACAGCA TCCTTGGCTTTGCCAACAACATCCGTACTGTGGATGGCGGTACGCACATT GAAGGTCTCAAGACCGTTCTCACCCGCACCTTGAATGCCTTTGCCAAGAA ATTAGGCAAGCGCAAGGAATCGGATTCCAACCTAGCGGGTGAAAACATCC GCGAAGGTCTCACCGCCGTGCTGTCGGTGAAGGTGCCGGAGCCGGAGTTT GAAGGCCAAACCAAAACCAAACTCGGCAACACTGAAGTCCGCGGCATTGT CGACAACCTGGTGGGTGAAGGCCTCAGCCAGTTTCTGGAATTCAACCCCT CGGTGATCGGGTTGATTCTGGAGAAGGCGATTCAAGCCTTTAATGCAGCT GAAGCGGCCCGCCGTGCCCGGGAGCTGGTGCGACGCAAGAGCGTTCTGGA GAGTTCAACCCTGCCGGGCAAGTTGGCTGACTGCAGTTCCAGGGATCCCA GCGAATCCGAGATCTACATCGTGGAGGGTGATTCGGCTGGTGGATCCGCC AAACAGGGCCGTGATCGCCGCTTCCAGGCCATCCTTCCATTGCGCGGCAA AATTCTCAACATTGAGAAAACTGATGACGCCAAGATTTATAAGAATACTG AGATCCAGGCATTAATTACGGCTCTAGGCTTGGGCATCAAGGGTGAAGAT TTTGACGTAAAAAATCTGCGCTATCATCGCGTTGTAATCATGACCGATGC CGATGTAGATGGCGCCCACATCCGCACCTTGTTGCTCACATTCTTCTACC GTTATCAGAAGGCCTTGGTAGAAGGTGGTTACATCTACATTGCCTGTCCT CCGCTCTATAAAGTAGAGCGAGGAAAGAATCACACCTACTGCTACAACGA AGGGGATTTGCAAAAAACCCTGCAGAGTTTCGGTGAGAAGGCCAATTACA CAATCCAGCGTTTCAAGGGCCTTGGCGAAATGATGCCGAAGCAGTTGTGG GAAACCACAATGGATCCCACCACCCGAACGATGAAGCGGGTGGAGATTGA AGATGCGTTAGAGGCGGATCGCATCTTCACGATCCTGATGGGCGACAAGG TGGCACCACGGCGGGAATTCATTGAAACCCACAGTGCCGAGTTGGATATG ACAGCTCTCGATATCTGA >SYNW2237 holB, DNA polymerase III, delta prime subunit ATGACCAATCTTTTCGAGGACCTGATCGGTCAACCCTTGGCGGTGGATCT GCTGAAAGCCGCGTTGAACCGGCAGCGCCTGGCACCGGCTTATCTGTTCG CCGGCCCTGATGGTGTGGGCCGTCGGCTGGCAGCCGTGCGATTTCTGGAG GGTGTGCTGGGGGCGGGGCAACAAGCGGAGCGGCAGCGACGGCGGCTGGA GGAGCGCAACCATCCCGACCTGCTCTGGGTTGAGCCGACGTTTCAGCACC AGGGTCGTCTGCTGACCCGGGAGGAAGCCGAGGAGGCCGGGATCACCCGC CGCACGCCGCCTCAGCTACGGCTGGAGCAGGTCCGCTCGATCAGCCGCTT CCTGGCCCGTCAACCGGTGGAGGCTGAACGGGGCATGGTGGTGATCGAAG CGGTGGAGGCGATGCCGGAGGCCGCGGCCAATGCTCTGCTGAAGACCCTG GAGGAGCCAGGACACGGGCTGTTGATTCTGCTTTCGGCTGCGCCGGAGCG GTTGCTGAGCACGATCCGCTCACGATGTCAGCTGATTCGCTTCCTGCGGC TGGCCCAGGCGGATCTGAATCGTGTGCTGGAGGGTTGTGGAGCGGTTGCT GAGCACGATCCGCCGGAGCTGCTGGCCATGGCGGCTGGTTCACCGGGTGC TCTGCTGGAGCATCGGCGCCAGCGGGCAGGCTTGCCCGAGGAGCTCACGG GGCGATTGGCATCTATGCGGGATCAACCCATGGAAGCCTTGGCTCTCGCC CGGGATGTGTGTGAAGCCCTCGATGGTGAGCAACAGCTGTGGTTAATCAA CTGGTGGCAGCAGCAGCTGTGGGCCCGTGGTGCCGGTGATCGACCGTTGC AACGCCTGGAAACACTGCGGCGCCAATTGCTGTCTTTCGTTCAGCCACGC CTCGCCTGGGAGGTGGCGTTGCTGGAGCTGACAACCGGTAAGTAA >SYNW1931 mutS, putative DNA mismatch repair protein MutS family ATGAACCCCCCGGTGGCATTCCTTCCAACTGCCGCTGACCCGACGAAGGG GATCGATCAGGCCTTCCAGGAAACTCTGGAGCTGCTCGAGTGGCCCAGGG TCTGCGACCACCTGGCGAGCTTCGCCTCCACTCGCATGGGGCGCGATGCG GCACGAAACCTTGTGTTGCCTGAAACCCTGGAGGCGAGCCGGCAGCGGCT GGCGGAGACCGTCGAGATGGCGGTGCTCGATGACCTGACCGAAGGAGGCC TCAGTTTCCGCGGGGTGCAAGACCTCACACCGGTGTTGCTGCGCTGCAGC AAGGGGGGCGTGGCCACCGGCGAGGAGCTGCTGGCGGTGGCTGAGACCCT TGCCGCTGCCCGTCGCCTGCGCCGTCAGATCGATGAGCCTGAGCTCAGGC CTGCCTGTTCGGCGCTGATCGACACGATGGTGACGTTGCCGGAGCTGGAG CAACGGCTCAAATTCTCCATCGAAGAGGGCGGTCGCATCGCCGATCGGGC CAGTGCCCCTTTGGCGTGGTTGCGTCAGCAATGGCATGGCCTGCGCCAGG AACGCCGCGACAAGCTGCAGGATCTGTTGCGACGCCTGGCGCCCTTTCTG CAGGACAGCGTGATCGCCCAACGCCATGGCCGCCCGGTGCTGGCGGTGAA AGCTGGCGCAGTAGCGCAGGTGCCGGGTCAGGTTCACGACAGTTCGGCCT CAGGCAGCACGGTGTTCGTCGAGCCCCGCTCCGTGCTCACCATCGGGAAT CGACTGACCGATCTGGAGGGTCGGATCCGGGACGAGGAACGCAAGGTGCT GATCGAGCTCAGCGCGGTCGTCGCGGACGATCACCCTGTGCTCTTGCAGT TGGTGTCGATCCTGCTGCAGCTGGATCTGGCCCTGGCCAGAGGCCGCTAT GGCCGCTTTCTCGGCGGCACTGCTCCCCGCATGGAGGCCTCTGCCGCGGC ACCGTTCCGTTTCGAGACCCTGCGCCATCCGCTGTTGGTCTGGCAGCACA AGCGTGCTGGCGGGCCGGCGGTGGTGCCGATTTCGATGGAGGTCTCAGTT GACCTGCGGGTGGTGGCGATCACCGGTCCGAATACCGGCGGCAAGACGGT CACGCTCAAAAGCATCGGTCTGGCGTCATTGATGGCCCGGGCGGGATTGC TGCTGCCCTGTGCAGGGATGCCGACCCTGCCCTGGTGTGCTCAGGTTCTG GCGGATATCGGCGATGAACAGTCGTTGCAACAGAGCCTGTCCACCTTCAG CGGTCACATCAAGCGGATCGGCCGGATTCTGGAGGCGTTGCAGTCCGGCC CTTCGCCCGCCTTGGTGCTGCTCGATGAGGTGGGGGCCGGTACCGACCCC AGTGAAGGCACGGCCCTGGCGACGTCTCTGCTCAAGGCCCTCGCCGACCG CGCTCGGCTCACCATCGCCACCACCCATTTCGGCGAACTCAAGGCCCTCA AATACAACGATGCCCGCTTCGAGAACGCCTCGGTGGCCTTCAACGCCGAG ACCCTTTCCCCCACCTATGAGTTGCTCTGGGGCATCCCTGGCCGCAGTAA CGCCCTGGCGATTGCCAGCCGTCTCGGCCTGGATGACCAGGTGCTGGAGG AGGCGAGTCAGTTGCTGGCGCCCGCTGCTGATGGAGAGGTCAACAGCGTG ATCCGTGGTCTGGAGGAACAGCGGCAGCGGCAGCAGGCGGCGGCGGAGGA TGCTGCCGCTCTGCTGGCCCGCACCGAGCTTCTCCACGACGAACTGCTGC AGCGATGGCAGAAGCAGAAACAGCAATCGGCCGAACGCCAGGAGCAGGGG CGCCAACGGCTGGAACGCTCGATCCGCGACGGTCAGAAGGAGGTGCGATC CCTGATCCGGCGCCTTCGGGATGATCGCGCCGATGGGGAAACAGCACGGC GGGCCGGACAGCGCCTGCGTCGGCTGGAGGATCGTCACCGCCCCGAACCG GAACGGCGTCAGCCCCTGCCTGGATGGAGACCCGAACCCGGCGAGCGAAT CCGGCTGCTGGCCCTTGGCAAGGCGGCGGAGGTGCTGGCGATTTCGGATG ATGGCATGCAGCTGACTGTGCGCTGCGGCGTGATGCGCAGCACAGTGGAG CTGTCTGGCGTGGAAAGCCTCGATGGCCGCAAGCCGGAGCCGCCCGCCAA GCCGGTGGTGAAGGTGAATGCTCGAATCAACCCGGGCTCCGGTGCCCAGG TGCGCACCAGCCGCAACACGCTGGATGTGCGCGGCATGCGTGTGCATGAG GCGGAGGCCGCTGTGGAGGAACATCTGCGTGGGGCCAATGGACCGGTGTG GGTGATCCATGGGATAGGAACCGGCAAGCTCAAGCGGGGGCTGCGGGCCT GGCTGGAGACGGTGCCCTACGTCGAGCGTGTCACCGACGCCGAGCAGGGG GATGGCGGAGGCGGTTGCAGTGTGGTGTGGGTACGTTGA >SYNW0078 mutS,fdv, putative DNA mismatch repair protein GTGCCTGGACCCTCCGACGACCCAACGGAGATCGCTCTTCAGGGCAACCT TTTCTCAGACGCTGAACCAACGGTTTCCGCAACCGGCGTCGAGCCTTCGA CAGCCTGTGAAGCATTCAGCGATATGGAGCTCACCGCCGACGCTGCATCC CGACCGCGCCGGCGTGCACCAGCCGATCACAACGCTGCAGATCACGACAG CAACACCGACGAGAGCAGCGATAACAGCGACGATCCGGCCTGGGCACATC ACAGCCAGGTTGATCCGCAGCAGCTCACACCCATGCTGCGTCACTACGTG GAGCTCAAGGCCGCCCATCCCGAACGGGTGCTGCTCTACCGGCTGGGGGA TTTCTTTGAGTGCTTCTTTGAAGACGCCATCACCCTGTCGCGGCTGCTGG AACTCACCCTCACCGGCAAGGAGGGCGGCAAGGCCGTTGGTCGTGTACCG ATGGCCGGCATTCCCCACCATGCCGCTGAGCGCTATTGCGGAGAGCTGAT CCGCCGCGGCTTCAGTGTGGCCCTCTGCGACCAGCTGGAAACCACCCCGG CAAAGGGGGCTCTGCTCAAGCGCGACATCACTCGGGTGCTCACCCCCGGC ACCGTGCTGGAGGAGGGCATGCTCAGCTCCCGCCGCAACAACTGGCTGGC GGCGGTGGTGATCGAGCCAGCCCACAGAGATGAGCCATTCCGCTGGGGCC TGGCCAGCGCTGATGTGAGCACCGGCGAGGTGCAGGTGATGCAGCGGCAG GACAGCGACGCCTTGCACCAGCAACTGGCTCAGCTAGGGGCTGCCGAACT GCTCAGCAGCACACCCGAGAGCAACCCCGCCTGGTGCCCCGACCAGCTGC GGCTGACTTCAGTCGCCAGTACCCCTTTCAGCCGCCCTGCAGCCGAAGCG GCCCTGCTGCGCCACTACAAACTCGCCAACCTGGATGGCCTGGGGCTGCC GGAGCTACCCCTTGCCCTACGGGCGATGGGGGGTCTACTGGCCTATCTGC GCGACACCCAGCCGCTGGAGGAGAACGCCAGCGTGCCGCTGGAGGTGCCT GCGATCGTGCAACGGGGCGATGCCCTGGTGCTCGATGCCCAGACCCGCCG CAACCTGGAACTAACCGCCACCCAGCGTGATGGGTCCCTGCAGGGATCAC TGCTCTGGGCGATCGACCGCACCCTCACCGCCATGGGGGGCCGCTGCCTG CGCCGCTGGCTCGAAGCACCACTGATGGATCTCGATGCCATCCGTCAACG CCAGCAGCTGGTGAGCACCCTGGTGGAACAACGCAACCTGCGCCAGGCGC TGCGGCGGTTGCTGCGGCCGATGGGGGATCTGGAACGGCTGGCGGGACGG GCCGGCGCCGGCCATGCCGGCGCCCGTGACCTGGTGGCCATTGCCGACGG CCTGGAGCGACTGCCGCAACTGGCCGCCCGCCTGGAGGGCACCATCATCA GAGGTCCCGACTGGCTCGACGACCTGCTGCAGCCCGACCCAGCACTGCAG GATCTTGCCAGCAGCATCCGTCACACCCTGCTGGAGAGCCCACCCCTGTC GCTCAGTGAAGGGGGACTGATCCACGACGGTGTTGACCCGCTGCTCGATG GTCTGCGCAACCAGCTGGATGACCAGGACGCCTGGCTCAGTCAGCAGGAG AAACAGGAGCGCCAGCGTTCCGGCAACAGCAACCTGCGGCTGCAGTACCA CCGCACCTTCGGCTACTTCCTGGCGGTGAGCAAAGCCAAGGCCAGCGCCG TGCCTGACCACTGGATCCGTCGCCAGACCCTGGCCAACGAAGAGCGCTTC ATCACCCCGGCCCTGAAAGAACGGGAGGGGCGCATCTTCCAGCTGCGGGC CCGCGCCTGCCAACGCGAATACGAACTGTTCTGCACCTTGCGGGAGCAGG TGGGTGCCCTGGCGGCATCGATCCGCCGCGCTGCCCGGGCCGTTGCCGGC CTTGATGCCCTGACCGGCCTTGCGGATACGGCCGCCAGCGGGGCTTACTG CGCACCGGAGTTGGTGGAGGGCCGTGCGTTATCCCTCAGCGAGGCCCGCC ACCCGGTGGTGGAGCAGCTGCTGGTGGAGACCCGCTTCACCGCCAACGAC GTCCATCTCGGCAGTGGCACTGATCTGGTGGTGCTCACCGGCCCCAACGC CAGCGGCAAGAGCTGCTATCTGCGACAGATCGGCCTGATTCAACTGCTGG CCCAGATCGGCAGCTGGGTACCAGCGGCCAAGGCCCGCATCGGCATCGCT GATCGGATCTTCACCCGCGTTGGCGCCGTGGACGACCTAGCCGCCGGCCA GTCCACCTTCATGGTGGAAATGGCCGAAACCGCCAACATCCTTCACCACG CCACGGAACTCTCCCTGGTGCTGCTGGATGAGATCGGCCGGGGCACCGCC ACCTTCGACGGCCTCTCGATCGCCTGGGCGGTGAGCGAACACCTGGCCGG CGATTTACGGGCACGCACCGTGTTCGCCACCCATTACCACGAGCTCAACA ACCTGGCGAACGAACGCGCCAACGTGGCCAACTTCCAGGTGCTGGTGGAG GAAACCGGCGACGACCTCCTCTTCCTGCACCGGGTGAGCCAAGGCGGTGC CAGCCGCAGCTACGGCATTGAAGCGGCCCGCCTGGCCGGGGTGCCCACCC CCGTCGTGCAGCGGGCCCGGCAAGTGCTGGATCAGATCGAGGCCGCGGCC TAG >SYNW1334 mutT, NUDIX family protein ATGACGATCAGCGTCGCCCTGGCCATGCTCCATCGGGATGGACGCTGGCT GTTGCAGCTGCGCGATGACATCGACTCAATCATTTATCCGGGCCACTGGG GTCTGTTCGGTGGCCATGTCGAGCCAGGAGAGTCTCCGGCTGACGCTGTT CAGCGCGAACTGGAGGAGGAAATCAGCTGGGTCCCCTCAGCTCCACTGCA GCTCTGGTTCAGCGATGCCAGTGGCACCCGCATCGCCCATGTGTTCCGCG GTCCGCTGACGGTGCCCCTGGAACAGCTGAAGCTCAGGGAAGGGCAGGAC CTCAAACTCGCCAGCCTGGAGGAGCTCTGCAGCGAGACGATCTGGAGTGA TCACTGCCAGGAGCAACGTCCGATCGCCCCAGGCTTATCCATTGTCATGC GCCGTCTGCTGGCGGAGATGGATGACGCCTGA >SYNW0702 polA, DNA polymerase I ATGCCTGAGGCCTCCACCAAGCCCCTGCTCTTGCTTGTGGACGGTCATTC CCTGGCTTTCCGCAGTTTCTACGCCTTCAGCAAAGGCGGCGAAGGGGGCC TGGCCACCAATGACGGCCGGCCCACTAGCGTCACCTACGGCTTCCTCAAA TCCCTTCTGGACACAGGTAAGTCATTGAAACCAGAGGGTGTGGCCATCGC CTTCGACACGGCGGAACCGACCTTTCGCCACAAGGCGGATGCCAACTACA AGGCACACCGTGATGTAGCGCCCGAGGTGTTCTTTCAGGATCTGGATCAA CTTCAGGAGATCCTGCGGCACAAGCTGGACCTGCCGCTGTGCATGGCGCC GGGCTATGAAGCCGATGACGTGCTGGGGACTCTGGCCAACCGTGCAGCCG ACGACGGTTGGGGTGTCCGCATCCTGTCGGGTGACCGCGACCTGTTTCAG CTCGTTGACGACAACCGCGACATCGCGGTGCTCTACATGGGGGGTGGTCC CTATGCAAAAAACAGTGGCCCAACCCTGATTCGCGAAGAGGGCGTGCTGG GCAAGCTCGGCGTGATGCCCAACAAGGTGGTGGACCTCAAGGCCCTCACC GGTGACAGCTCCGACAACATCCCGGGCGTGCGCGGCGTTGGTCCCAAAAC AGCGATCAGCCTGCTGAAGGACAACAACGACCTCGATGCTGTTTACGCCA CGCTGGAGGAGCTTGAGGCAGAAGGACCAAAGGCCAGCCGCGGCGCCATC AAAGGTGCTTTGAAGGGCAAACTCCGCAACGACAAGGACAACGCCTACCT CTCCCGCAAACTGGCGGAGATCCTGGTGGACATACCCCTGCCGCAGGAGC CCAGCCTGCCCTTGTCAACGGTGAATGCCGAAGGACTGAGCTCCTGCCTC GAGGACCTGGAGCTCAACAGCTTGCTGCGCCAGGTAGGTGGATTCGTCGC GGCCTTCTCGGAAGGGGGCTACGGCGCCAACGCAGACGCTGCTGCGCCGG CACAGCCGTCGTCGAGGCCGAAAGTCACCAAGGACGATCGGGGATTGGAA GAGACGGTTGGGAGCGTTCCCGCCCTGCGTCCCCAGCTGATCCAGGACAC CGCCGCCCTGCAGGGGCTGGTGCAGCGCCTGATGACCTGCACCGATACCG GATCACCGGTGGCTCTGGACACGGAGACCACAGATCTCAACCCGTTCAAA GCTGAACTGGTCGGCATCGGCGTCTGCTGGGGTGAGGAGCTGGATGCACT GGCTTACATCCCACTCGGCCACAACGGAAGTGCGGACAGCCAACCGGTTC AGCTGCCCTTGGAGACGGTGGTCACCGCTCTGGCCCCTTGGCTTGGCAGC GAAGATCACCCCAAAGCGTTGCAGAACGCCAAATTCGATCGCTTGATCCT GATGCGCCATGGGCTGGCCCTTGACGGTGTGGTGATCGACACGCTGCTGG CGGATTACCTGCGCGATGCCGCCGCCAAGCACGGCCTCGAATTGATGGCG GAACGGGAATTCGGCTTCCAACCAACCGCCTACAGCGACCTGGTGGGCAA AAAACAGACCTTCGCTGATGTGCCTCTGGAGGCAGCCAGCCAGTACTGCG CCATGGATGTGCACGTGACCCGACGTCTTGCACTGCTGCTCCGCAACCAA CTCGCTGCCATGGGGGCGCAGGTGCTGACGCTGCTCGAGCAGGTGGAGCA GCCCCTGGAACCAGTCCTGGCGGAGATGGAAGCCACGGGCATCCGGATTG ACGTTCCTTATCTCCAGGAACTCTCAACGGAGATGGGAACCACGCTGGAA CGCTTGGAGACCGAAGCCAAGGAAGCCGCCGGAGTGGACTTCAACCTGGC CTCCCCCAAACAGCTGGGGGAATTGCTGTTCGACACATTGGGACTGGATC GCAAGAAATCCCGCCGCACCAAGACCGGTTACAGCACGGATGCCACGGTG CTGGAAAAGCTGGGGGACGATCACCCTGTGGTGCCCCTGGTGCTGGAGCA CCGCGTGCTCAGCAAGCTCAAGAGCACCTACATCGATGCCCTACCGCAAT TGGTGGAAGCGGAAACAGGGCGTGTGCATACCGATTTCAACCAGGCCGTC ACTGCCACCGGGCGTTTGAGCAGCAGCAACCCGAACCTGCAGAACATCCC GGTTCGCACCGAGTACAGCCGCCGCATCCGCAAGGCCTTTCTGCCCCAGG CCGGCTGGACTCTGCTCAGTGCTGACTACTCCCAGATCGAACTGCGCATC CTCACCCACCTCTCCGGCGAAGAGGTGCTGCAGGAGGCTTACCGCAGCGG TGATGACGTGCACGCACTCACAGCTCGACTGCTGTTGGACAAAGACGAGG TCAGCGCCGATGAACGTCGGCTGGGCAAAACGATCAACTTCGGTGTGATC TACGGCATGGGCGCCCAGCGATTTGCAAGGGAAACCGGCGTGAGCCAGAG CGAGGCGAAGGACTTCCTGAGCAAATACAAGCAGCGCTACCCTAAGGTGT TCGCATTCCTGGAACTGCAGGAACGACTCGCCCTCAGCCGCGGCTACGTG GAAACCATCCTCGGCCGCCGGCGACCGTTCCACTTCGACCGCAACGGTCT GGGGCGGCTGCTCGGCAAGGAGCCGCTGGAGATCGATCTGGATGTAGCCC GCCGCGGCGGTATGGAGGCACAGCAACTGCGGGCTGCTGCCAATGCTCCG ATTCAGGGCTCCAGTGCGGACATCATTAAAGTCGCCATGGTGCAATTGCA GGCTGCTCTCACAAGCCAGGGGCTCCCAGCGCGACTACTTCTGCAGGTCC ACGATGAACTGGTGCTGGAAGTTGAGCCCGACGCCCTGGAGACAACCCGA GACATGGTGGTGCGCACCATGGAGAACGCCGTGAAGCTGACGGTGCCTTT GGTGGCAGAGACGGGCGTCGGTGCTAACTGGATGGAGGCCAAATAA >SYNW1782 priA, primosomal protein N' (replication factor Y) ATGAAGTTTTCAGGCCTTTGCAACCCCTCCGAAAAGCCTCCTGATCTCGT TGAGGTCTGGCTTGAGGCTGGGCGTGAGGGCAGGACCTTCACCTACAGCG CCGATGCAGCACTTGGATTGCAGGCCGGCGATCTGGTGCAGGTGCGGCTG AGGGGACGCCCTCTGCATGGATTGGTGGTTGCCAGATACAACGTGTCCTT GGGGGCCACAGTGCCGGACAAGGTTCAGGCGGTTGAAGGCCTGGTGCAGC AAGCTGCCGTTGACCCCCAGTGGCGCCTCTGGCTTGAGGGTGTGGCTGAA CGCTGCCATCTCAGTGTGTTCCGGATGCTGAAAGCAGCCCTACCCGCCGG TTGGCTGGGCCAGGCCCGGACCCTGTCTGAAGGTCGTGCCCTGTTGTGGG TGGAGCGGTTGCAGCCACCCGTGCCCGCTCCGCCTCTCACGTCCCGCCAG CAGCAACTCCTGAATGCGCTGGATGTTGCGGGGTCGGGACTGTGGCAGCG CTCGCTGGAAGCCTCGGGCTTCAGCCCATCCATGGTCCGGGTCTTGGAGA CAAAAGGCTGGGTGCGCCGGGATCGGCGTCCCCTCTCCACAGGGGTGATG TCTGTTGCCCCACTGGAGGCCGCTCGGCCCCTCACCAGCGAGCAGCAGCA GGTGATGCAGCGCTTTGAGGCCGTTCCCGATGGAGAGGGGATGCTGCTTT GGGGCATCACCGGGTCGGGCAAGACCGAGGTATACCTGCAGTTGGCGGAG AAGGAGTTGGCGGCCGGCCGTCACGTGTTGATCCTCACCCCTGAAATCGG CCTGATTCCTCAGTTGGTGGATCGTTGCCGACGTCGCTTCGGCTCCAGGG TTCTCGAATATCACAGCGGTTGCCGGGATCGAGAGCGCCTCCAGGTGTGG CGCCGCTGCCTCGCGCCCGAGCAGCCTCTGCTGGTGGTGGGAACACGCTC AGCAGTGTTCATTCCCCTCTCGCCACTGGGGTTGGTGGTGCTGGATGAGG AACACGACAGCTCATATAAACAGGCCGCACCGATGCCCTGCTACCACGCC AGGGACCTGGCTTGGGATCGGATTCGTGCCGGTGGTGGGCGCCTGGTGCT CGGCAGCGCCACCCCATCACTGGACAGCTGGGTGCAACTGCATCCCGATG GGCCCCTGCGTCTGGGACGTCTGACTCAGCGGATCTCCCAGCAGTCTCTG CCTCCTGTCCATGTGGTGGACATGCGGCATGAGCTCGCCGAAGGACACCG TCGACTGATCAGTCGTCCGCTGATGGATCGATTGGCCGAGCTGCCGGAGA AGGGGGAACAGGCGGTGATCCTCGTGCCACGACGGGGCTACAGCCCTTTT TTGGGGTGCCGTAGTTGTGGGGAGGTGGTGATGTGCCCGAACTGTGATGT GGCGCTCACGGTCCACCGCGGTTCCGGTGGTCGTCAGTGGCTGCGTTGTC ACTGGTGTGATCACCGAGATGAGATCGGCAACCGTTGCGCCCATTGCGGG TCCACCGCCTTCAAGCCCTTCGGTGCCGGAACCCAGAAGGTCATGGAGTT GCTCAATGAGGAATTGGATGGGCTGCGGCTGCTCCGGTTCGACCGTGACT CCACCGGTGGTCGTGACGGACACCGTCGCTTGCTGGATCGTTTTGCCTCC GGCAAGGCGGATGTGTTGATCGGAACCCAGATGTTGGCTAAGGGCATGGA CCTTCCCCAGGTGACGCTGGCGGCGGTGCTGGCGGCGGATGGCCTGTTGC ACCGTCCCGATCTACGGGCCTCAGAACAGGCTCTGCAATTGCTGATGCAG CTGGCGGGTCGTGCTGGGCGGGGCGAACGCCCCGGTCAGGTGCTGGTGCA GACCTACTGCCCTGACCATCCCGTGATTCGCCACCTGGTGGATGGCCGGT ATGAGGCTTTCCTGGCCCAGGAGGTGCAGCTGCGGCGGGAGGCGGCGCTC GTGCCCTTCAGCCGCGCCTGTCTGCTGCGGTTGTCCGGTGAGTCCGCCAG CGCCACCGCCACGGCGGCATCGGTTCTGGCGGAGCGGGTGCGTCCTCTCT GTCGCGACCGTGGCTGGTGGTTGTTGGGGCCTGCCCCAGCCCCGGTGGCA CGGGTGGCAGGGCGGAGCCGATGGCAGTTGCTGCTCCACGGTCCGGTGGG CTCCCCCCTGCCGCTTCCCCCCGGCCCGACCCTCTGGGACGAACTTCCTC GAGGTGTGGCTCTGGCGGTGGATCCTGATCCCCTGGAGCTGTAG >SYNW2191 psbU, photosystem II extrinsic protein (psbU) ATGAAGCGGCTGCTGAGCTGGCTGACCGGTGCGTTACTGATGGCAGGCCT GCTGGCCGGTCTGATCCTTCCCGGAAGCGTTCATGCTGACGAGGACCTGG TTGGCAAGTATTCCGGTAACGAGATCCGCAACATCGCGGACGACAAGATC GCTGCACGGGAGGGCAAGGTGGACCTCAACAACTCCTCCGTCCGCCGCTT CCAGCAGTTCCCCGGGATGTACCCAACCATGGCCGGCAAGATCGTGCTGG GCGGCCCTTACAACGACGTTGATGAGGTGTTGAACCTTGATCTGAGCGAG CGTCAGATCGAATTGTTCAACAAGTACAAGGAGAATTTCACGGTGACCCC ACCCGAAATTGCTCTGAACGAAGGCGACGATCGGATCAACGACGGTCAGT ACCGCTGA >SYNW2062 recA, RecA bacterial DNA recombination protein ATGCCTGCAGAGATGAAATCCGCCGCCTCCGGTTCCGATCCCCGTTCCTC CGGCGAGCGTGACAAGGCGCTGAATCTGGTGCTTGGCCAGATCGAGCGCA ACTTCGGCAAGGGGTCGATCATGCGCCTTGGTGATGCCTCCCGGATGCGG GTGGAAACCATCTCCACCGGTGCCCTCACCCTTGATCTGGCCCTCGGCGG TGGCTATCCCAAGGGGCGTGTGGTTGAGATCTACGGACCGGAGAGCTCCG GTAAGACGACCCTCACCCTGCATGCCATCGCAGAAGTGCAGAAGCGCGGC GGTGTGGCCGCCTTCGTCGACGCTGAGCATGCCCTCGATCCGGTTTACGC CGCCTCCCTCGGCGTGGATGTGGAAAATCTGCTCGTGTCCCAGCCGGATA CCGGCGAGATGGCGCTGGAGATCGTCGATCAATTGGTGCGCTCAGCGGCA GTTGACATCGTTGTGATCGACTCGGTGGCCGCCCTGACGCCGCGGGCTGA GATCGAAGGTGAGATGGGAGATCTGGCGGTTGGAAGTCAGGCTCGTCTGA TGAGTCAGGCGATGCGGAAGATCACCGGCAACATCGGCAAGTCCGGTTGC ACCGTGATCTTCCTCAACCAGTTGCGCCTCAAGATCGGCGTCACCTACGG CAACCCTGAAACCACCACAGGTGGTAATGCGCTCAAGTTCTATGCCTCCG TTCGACTGGACATCCGTCGGATCCAGACGCTGAAGAAAGGAACGGAGGAA TTCGGGATCCGGGCGAAGGTCAAGGTCGCCAAGAACAAGGTGGCTCCGCC GTTCCGCATCGCTGAGTTCGACATCCTGTTCGGCCGCGGCATCAGCACCC TCGGTTGTCTGCTGGATCTGGCGGAAGAAACCGGTGTGGTGATCCGCAAG GGGGCCTGGTACAGCTACGAGGGCGACAACATCGGCCAGGGTCGGGACAA CACCATCACCTGGATGGAAGAGAACCCTGAAGCCGCCATCACCATCGAGC AGCTGGTGCGTCAGAAGCTCACCGAGGGATCTGAAGTGAAGGCCAACTCG ATGAAACCGCTTGCAGCAGCAGCTCGCACGGCGGCGGCCGCGGCGCCGAA GGCCACTGCGGATGAGGCGGCGGCCTGA >SYNW0917 recB, probable exodeoxyribonuclease V, beta subunit RecB ATGCGCTTTGACCCCAATCGCTATCCCCTCGACCCCGGTCTGCGGCTGTT GGAGGCGAGCGCCGGCACCGGCAAGACCTTTGCCTTAGCGCATCTGACCT TGCGACTGATCAGCGAGGCCGCCATGCCCTTGCCCAGTCTCCTGGTGGTG ACCTTCACGGATGCGGCGGCAGCGGAATTGCGCTCCCGCATCGGTCAGCG TCTGCAGGATGCACTGGCGGGGCTTGAGGCCGTTGCACGCGGTGATGCCC TGCCGAAGGCGGATTCGGTGCTGCAGCAGTGGTGGCAGCAGGCCCCGCAG GGTCAGTCCCGGCGTGACTGGATCAGCCGTGTGCTGATGGCCCTCGAACA ACTCGATGCCGCCGACATCACCACCATCCATGGCTTCTGCAGCCGCAGCC TGCGGCGTCAGGCGATCAACAGTGGTGCGGCCATGCAGCAGCAGCTGGAG ACCGATGCCACGGCACTCGTGCAGGAAGTGGTGCAGGAGCTCTGGCAACA GCAACTGTTGACCCTCCCCCTGCCGCAGTTGCAGGGATTGGTTCGGGCCG GCCTGACCGCCGATGGGCTGGCGGCTGCGCTGCTGCGTCTCGATGCTGAT CCCCAGGCTTGGCTGCAGACGGATGGCGATGACTTTGATCCCAACCAGCC TCTGGGGGCGCAGCTGGAGGTTTCGCTTCAGCTGAGCTGGGAGCGGTTTG TGCAGTTCTGGACGCGTGATGGCGAGGGCCTTGAGCAGTGCTTCCGGGCA ACGGCGAAGCAGTGGAAGGCGATGGGATTCAAACCGTCGCCCTACAGCCC TAAACCAACCAGTGATCGTTTCGGTCAGGTGGATCGCTGGGTCGCGGCCC AACACGACACCCCAGATCTCAGCACGATCCGGGCGCAGCAGAAACCGCTG CACGACTACTTCCACCCAGGCGTCTGGTGCCGAACGGCGCGCAAGTGCGG CGAGCAGGAGCCATCCCTGGCTGCTCCTGAATTGCAACAGGCCATCGCCG ATCTCTGGGATGGTCCGATCGAACGGGTGTGGCGCTATGCCCTGCAACGG GGATTGCAGCAGCTTCAGCGACGACGGCAGCGGAGCGGCACGGTCAGCTT TGCTGGCCTGCTGACGGCCATGGACCCAGGTGATGCTGAGGCCTCCTGGT TGGAGCCGTTGCAGCAGCGTTATCGCGCCGTGATGGTGGATGAATTTCAG GACACCGATCCGGTGCAGTGGCGGCTGCTGCAACGCAGTTTTGGAGGCGG CTCGCACCTGCTGTTGCTGGTGGGGGATCCCAAGCAGGCGATCTATCGCT TCCGCGGTGGTGATCTGGACACCTACCGGCGGGCGCGTGGACTGGTGAGC CGGATCGACACGTTGGAGGACAACTACCGCACCACACCACCGTTGATGGC GGGGCTCAATGCCTTGATGGCGCCGGGATTGCCGGAGTCAAGGCTGGAGG TTCCGGCGGTTCATGCCCGCACCGCACGGTCAGCGGCGGTTCTTCCCGAG GGACAGCAGCCCCTGCAGCTGCTGCAGTTCGAGCAGGACCTTCCGGCGGG GAAGACCGCCATCGAAGCGGCGGTGCCGCCAGCTGTTGCTGAGGTGGTGA TGCAACTGCTGATCGAACAACCGGCACTGAGCCCCGATCAGCTCTGCATC CTGGTGAGCAGGCACGACCAGGCGGCCGATCTGCGGCGGGCCCTGGCGGA GCGAGGTGTGCCCACACGCCTGGTGGCCCAGGGAGACGTGCTGGACAGCG ACGCTGCCCTTATGATGCAACACTTGCTGGATGCCCTTGCGGCGCCGGCG GATGACCGTCGCCTGCGGCTGCTGGCCGCCTCTCCCTTGGTGGGGTGGAG TGCCGACCAACTGCGTTGTGAGGCCCAGGATCCGCAGCTCGATGCCCTGG CTCAGCGTTTACGCCAGGCGGCGGATCAGTTGCCGCGGCTGGGGCTGCTG GGTTGCCTGTCTGGGCTGCTGGACGCTGAACGTACGGCTGGTCTGTCCGA CGAGGGGCGGATGCTGGGAGATCTGCAGCAGGCAGCCCGCTTGGTGCAGG AGGAGATGCACCGTCAGGGTCTGGATCTGGCCGCTGCTGCCCTGTGGTTG CGGCGGCAACGGCTGCATCCCCCCAGTCCACTGCCACCGGCCCGCGAACC CCACAGCGACCTGGCGGAGAGCGCTGTGGCGGTGGTGACGGTTCACCGCA GCAAGGGTCTGGAATTTCCTCTGGTGATCTGCCCCTACCTCTGGGCTGGT GCCAAGGAGGCGCGTTACGTCACCGGCCCCCTGTGGCGGGATGGCGCGGC AGGAGGTTGGCGGATCGCCTTGAACCGTGATTGGGGCCTCGGCTGGACGG TCTGGCAGCGCAGCCATGCCGAACAGGTGGCGGAAGCCGAGCGGTTGGCT TACGTCGCCGTCACCCGCGCTCGCTCGCAGCTGCTGCTGCTCTGGGCCCG CTGCGCGCCCCAGCAGTCGGTGCTGCAGCACTGGCTGTTCGAAGGCGACG CGGACACGCTGCGGGATCTGCCTCTCAGCCATCGACCGCTGAAGCCGGAG GTTGGTCAGCAACGCTGGCGACCGCCCCATCGCCAGGAGACGTTGGCGAT CGGAGCCACGCCGCAGAGGATCGATCGCAGCTGGGGACGTTCCAGCTACT CCGCCTGGATCGCCGCGCCGGCGGCGGAAGCGTTGTTGGAGCAGGGGCGT GATCAGGATCCAGAGGCTGAGGAGGTCACAGCAGCAGGTCTTGAGGAGTG GCCGGATCGGGGGCCTTTGGCGGACTTCCCCCGGGGTGCTGCGGCCGGGG ATTGCCTGCACCGCATGCTCGAGCAACTGCCCTTCCAGTGCTCCGGTGAT TGGGGCCATGTGATCGAGCAGGAACTGCAGCGATCAGGACTGTCCCTGGA CTGGCGCGAGGCGGTGGAACAAGGGCTGCAGCAGGTGCTGGACACCCCGT TGGGGGGACCACTGGCGGCCCTGCCCCTCAGCGCCTTAACGCCGGATCGC CGCTTGCATGAGCTCAGCTTTGATCTGCCGGTGCGTCACGCCCGCACGGA TGACCTCGTCGAGGCGTTTCGACTGGATCCAGAGGCTCGCTTTGGCCGCG ATTACATCGATCAGCTCAGCAGCCTGCAGGTGAACAGCCGCGGTTTTCTG ACCGGATCGATTGACCTGGTGTTCAGCGATGCTGCCGATCCCCTGCAGGC TCGCTGGTGGGTGGCGGACTGGAAAAGCAACTGGATCGGTGAACGCGGCG AGCCCGGCTCCCCCAGCTGCTGCGGCCCACGCCACTACGACCAGGTGGCG ATGGAGGAGCAGATGCGGCATCACCACTACCCCCTGCAGGCCCATCTGTA TCTGGTGGCCCTGCACCGGCACCTGCAGTGGCGACTGCCCGGCTATGTGC CGGAGCGTCATCTCGGCGGTTATGTCTATGTCTTTCTGCGGGGAATGCCC GGTCAGAGCATTGGCAGCTCCGGAGAAACAGGGCCAGGACGCATCGTGGA GCCGGCACCATTGCAACGGGTCCTGGCCCTCGATCGGATGCTGCAGCAGG TGGCGGTATGA >SYNW0914 recC, probable exodeoxyribonuclease V, gamma subunit RecC TTGCTGACGCTTTACCGCAGCAATCGGGCTGAATTCCTGGCCACCTTGCT GGCCCGTCAGTTGCTGGAGGAGCGACCGGACCCCTTCGAGACGGTGGAGG TGTTGGTGAACACCTGGCCCACCAGCCGCTGGCTTGGCGAGCAGCTCGCC ACGGCTAATGGCATCAGTTCGCTGGTGCGCTTTCCCTTCCCCGGCAGTCG TTTGCGGCAGCTGGTGCGACGGGTGCTCGACCTCCCCGATCAGGAGCAGG ACCCCTGGCGGGCCACCTCCCTGGTCTGGGCTGTGCTGGAGCAGATGCCG GCCCTGTTGGAGCAGCCCGTTGCCCGACCGCTGCAGCTCTGGTTGCAGCA ACGAGATGGTGGTGATGCTTCGGGGCTGAGCCGGGATCGTTGGCAGCTGG CTCGCGCCATCGCCGATGCCTTCGACGACTACGCGCTGTATCGGCCCGAA ACCTTGCACAGCTGGATTCAGAGCCAGGGCAGCCGTGCTGCATCCGCAGA AACGGACTGGCAACCGTGGCTGGCCAGGCAGCTGGCGGCGTCTCTGCATC GCCAACCGTTCGGCTTGCAGGTGCAGTCCGCTGTGGAGCGGCTGCGCTCC GGCGCCGTGGACCCCCAGGTGCTGCCAAAGGTGATCCGTCTGTTCGGGAT CAGTGCCCTGGCGCCGGTGCAGGTGGAACTGATCCAGGCCCTCTCAGGCA GCACCGACGTTCAGGTGTATCTGCTCACCCCCTGCCGCGATCTCTGGCAG CGCTGCGGCAATCGCCGTGAGCAGCTGGGAGCAACCTGGACAGAGCCCCC CGATGGGGGCTGGTTACAGCAGGCACCGCGATTGGAGGCCATGCTCGGAC GGATGGGGGCCGAGTTCCAGCAGCTGCTGGAGGGCAGTGGCGACAGTCAG CTGGGGGAGGTGCGCGAGGGGGATCTGTTTGCCGATCCCGTCCGCATTGC TGAGGGGGAAGGTCGCTCCGCCACGTTGCTGGAGCAGTTGCAGCAGCAGC TGGTGGAACCGGGCTGCCGTGAATCTCTCGATCGAGATCTTGACGACCGC TCCTTGTTGTTCCAGGCCGCTCCAGGGCCGTGGCGGGAGGTGCAACTGGT GCGCGATCAGGTGTTGCAGTGGCTGGCGGCGGATCCAGAGCTTGAGCCTC GGGATGTGTTGGTGATGACCCCGCAGATCGACCGTTATGCCCCACTCCTG AGCTCTGTGCTCAACGACCGTGATGCGATTGGAGTGGATCTGCCCTGGCG TCTCACCGATCGAAGCCAGCAGAGCACCCCTGGCCTGACGATGGTGATGC TGGAGTTGCTGGACCTGGCGTCAGGTCGCCTGACCGCCACTGGGCTGGAA CGGTTGTTGGCCAATCCCGCCCTACAGACGCAACAGGGGCTCAGCGGTAC TGAGGCGTCTGCCTTGACCCGCTGCCTGCAGCGCACGGGCTTCCGCTGGG GGCTCGATGCCCGGGAGCGGGGCGGTGATGAGACCCACAGCCTCAGTTGG TGTCTGGATCGTTGGTTGCTGGGTCTGGCGCTGCCGCAACGGGATGGCCT GGCACCCGGCGGGGCGGCCCCGTTTCATCAGGATCTCGATCCGCAGCGGC TGGTGCGCTGGTGGAGCGTTCTGGATCGGCTGGTGCGCTGGTTGCAGCAG CTGCGACGACCACGGACCTCGACGGCCTGGGTGGAGTTGCTGCAGGCCGT GCTGGAGGATCTCTTCGCTGACGGCGGTGCCTGGAGCTGGGAGCGTCAGG GTTGGTCTGCGGCCCTGGCGGAATGGCAGCAACGGGCAGCCTCCTGCTCG CTGGAGCTCGAGGTGGCGGTGGCAGCTGAGGTGCTGGCGGAGGCCCTGTC GGTGGACAGTGGCCGCTTCGGGCATCGCAGTGGTGCGCTCACGGTGAGTG CGCTGGAGCCGATGCGGGCGATCCCCCACAAGGTGATTGTGCTGATGGGT CTCGACGACGGGGTGTTCCCCCGTGTGGATCAACGGCCTGGGTTCCATCT GTTGGAGCAGCGCCGCTGGCTCGGCGACCCGCGCGGGGGTGATCAGGACC GTTATGTGCTGCTGGAGGCGCTGATGTCCGCGCGGCGTCATCTGCTGATC AGTTGGTGCGGCCGCAATGAACACACCGGTGAGCCTCGGCCGGCTGCTGC TCCGGTGGAACAGTGGTTGCAGGACCTGACAAGGCAGCTGGGCACTGAGG CCAGCGCGGGGCTGTGCATCGAGCCGGATCCCAACCCACTGGATCGCAGC AACTTTCAGGTTGCCGGCCATGGCCAGCCCCTCAGCTGTGATCGCCGCCA ACTGGCGGCGCGACGCTGGCTGGACCAGCATCAGAGCCATGCTGCGACGG CCGGCCTGGCCTGGCCGCTGCACTGGAGTGCGCCGGACCCTGAGGTCACG ATCGACCCACGCAGCGATGAGGAGCTGTTGCAGTGGCTGGTGGACCCTCA GTCAGCCTGGCTGCGGCAGCTGGGCCTCCACCCAGCTGAGCGGGTGGATC CTGTGGAGGATCTCGAGGCCCTGACGCTCAGCAGCCTGCTGCAGGCCCAG GTGTTGAATCAGGATCTGGAGGATCACCTGCTGGCGGCCGAGACGCCGGC ATGGTGCGAGACGTTGGCGGGCCAGGGGGTGTTTCCCCCCGCAGCAGGGG CTCAGCTGGAGGAGGGAATCCTCAGCCATCGACTCCAGGCGTTGCAGCTG CAGCTGGACCGGCTCGGACGTTGCAGCCGCCAGGGAACGCTGCTGATGGC CGGCGACATTCAGGTGGTGGTTCAGCCCGGTCGTTTCACCCCCCGTGGTC TGATGCGGGGCTGGTTGCAGCATCTAAGGCTCTGCGCAGACGATGCTGTC TTCGGCGGGAGCGCCGTCATCGCTCGGGCAGACAAGGGCGATGACGCCAA GCCCCATGTGCGTTGGGGACGTCTCGAACCTGCGGTGGCCCAGGCCCAGC TGCTGACGCTGCAGCGGTTGGCTCAGCAGGGGCAGCATCAGTGCTGGCCG GTTCCCCCCAGAAGTGGCTGGCTGTTGATGAGCAGGGATCACTACAAGGC CGGCAGCGGCGTCGCCGCTTTTCAAGACGGCTGGATCCGGGAGCGCCAGG ACCCCCAGCAGCGGCTGTGCTTCGGCGCCGATGCTGAGGCTGACCAGCTG TTGCAGAGCCAGGGCTTCGAGCAGGCATGTGCGTTGCTCTACAAACCGAT GCTGCAGGCCTTGGTGCACTGA >SYNW0918 recD, probable exodeoxyribonuclease V, alpha subunit RecD ATGAGCAGCAGCTGGTCTCCGGCCTTTGCCACAGCGGTTCACGCTGCCCT GGTGCGCCGCTGTCCGCCGGCTGAAGGGGGAGCTGCTCTGGCTGAGCTCA GCCAGGCCCTGGTGGATGCGCTGGAGCGGGGTGAGCTGGATCTGCCGCTC ACGCCGGACCGGGCTGCGGTGGTTCAAGCCAGTGGCTGGTTGGAGGGGGA CGACTCGCCGCTGCTGCAACGGGGCGAGCGGATCGGCTGGCGGCGCTGGC TGGAAGCCATGGAGGGGGTGGTGGAGCAGCTGCTGGAGCGACAGCCGCCA TCCCTGCCTACCCCTCAGGAGGCCCCAGAGCTCCCGAGCACGCTCAATCC CGAGCAACAGGCTGCGGTGTTGGCCATGGATGGTGCCGCCGTGGTGCTGC TCAGCGGTGGCCCGGGCACGGGCAAGACCAGCACGGTGGTGGAGCTGTTG CGGCGGGCGAGCCAGCGCCATCCCACATTGCGTATTGGGCTGGCGGCACC CACCGGTAAAGCAGCGCGTCGGTTGGGGGATGCGGTGCGGCCTGGGTTGA ACGAGCTGCCCTGTTTCACCCTGCATCGCTGGCTGGAGGCCGCCGGGGAT GGGTTCCGTCGCCATCGTCAGCGACCGCTGGAGCTTGATCTGCTGGTGGT TGATGAGATGTCGATGGTGGATCTGGAGTTGATGAGCGCCCTGCTGGAGG CGTTGCCGGATGCGTGCCGGCTGTTGTTGGTCGGTGACCCGGCGCAGTTG CCTCCGGTGGGGAGTGGTGCGGTCTGGCAACGGTTGCAGGATCCCGCCGT GCGTGAGCGCTTTGGTTCTGCAGCAGTTCATCTGTTGCACACCTACCGCA ACCGCGGTGCTCTGGCGGCGTTGGCCACGACCCTGCGTCAGCAGGGGATC GAAGCGTTCAGGCGGGATCTGGAGCAGCTGCCGGCAACGGCCAACGTTCA GCACCAGCGGGCCAGTCTGCGGCGGCTGCCGCCATCGGTGCGGGATGGCT GGCGGGATCGCCATCAGCGCCTCTCAGCCCTGGCGACGGGGTTGGTGGAG ATGCCGGAGTCTGAGCTGAACGACGCAGCGGGTCAGTTGCTGCTGGAACT GGAGAACGATTTGGTGCTCTGCCCTCGCCGGCGTGGACCCTGGAGCCTTG AGGACGTGCACCGATCGCTTTTGGGTGGAGGGGGCTGGATGGAACCGTTG CACTGGCCGGAGGGGGTACCGGTGATCTGTGGTAGCAATCAGCCGGAGGT GGGGCTCGCCAATGGTGATCTCGGCGTCAAGCTGGGATCCGGCGAGCAGA GTCGGGTGCTGTTCCGCGTGATGGCAGCGGATGGGCAGCCGCAGATCCGC CGGCTGCATCCAGCTCGGTTGACGTCCCTGGAGCCGGCTCTGGCGCTCAC CATTCATCGGGCCCAGGGCAGCGAGGCTGACCGGGTCACCGTGCTGTGGC CACCGCTGCAGGAGGACAACATCGCGTACGACAGCTGTCTTCTGTACACA GCCATCACGCGGGCCCGTGGCAGCCTGGATCTGATTACTGCTGTCGATCG CTGA >SYNW2049 recF, putative DNA repair and genetic recombination protein RecF CTGCAGGGGTTTCGGAACCACAGGAAGCTGTCGCTGGAGCTGACCCAGCC GCGGTTGCTGGTGATCGGCCCCAACGGCATCGGCAAATCAAATCTGCTGG AGGCCGTGGAGCTGCTGGGCAGCCTGCGCTCGCATCGCTGCAGCCAGGAC CGTGACCTGATCCAGTGGGAGGCACCGCGGGCCCTGCTGCGGGCCGGCCT GGATGATGGCGATCAGCTGGAGCTGGAGCTGCGTCGCCAAGGGGGGCGCC AGGCCCGTCGCAACGGCAAGACCCTGGATCGCCAATTGGATCTGATCGGT CCGCTGCGCTGCATCGGTTTCAGCGCCCTCGATCTGGAGTTGGTGCGGGG AGAACCGGCCCTGCGGCGGCAGTGGCTCGACCGCGTGGTGCTGCAGCTGG AGCCCGTCTATGCCGATCTGCTCGGCCGCTACAACCGCCTGCTGCGCCAA CGCAGCCAGCTCTGGCGTCGTGGTGCGCAGACCAACCCGAACCAGCGGGA CGCCTTGCTCGATGCCTTCGATGTGCAGATGGCCCTGGTGAGCACGCGCA TTCACCGCCGCCGCCAACGGGCGTTGCGGCGCCTGGAACCGATCGCGCGC CGCTGGCAGTCGCACCTCAGTGCCGGGAGCGAGGAGCTGGAATTGCACTA CCAACCGGGCAGTCGCCTCGATGCCGAGGAAGCGGAGGAGCCATGGCGAC TGGCCATCGAAGAGCAGCTGCGGCTGCAACGGCCGGAGGAGGAACGGTTG GGCAGCTGCCGGGTGGGGCCCCATCGCGATGAAGTGTCCCTGCAACTGGG GGGAACACCGGCGCGGCGGTTCGGATCATCGGGCCAGCAACGCTCGCTGG TGCTGGGGCTGAAACTGGCGGAACTGGAACTGGTGACCCAGCTGTTCGGC GAGGCGCCGCTGCTGCTGCTGGACGATGTGCTGGCGGAACTCGACCCCAC CCGTCAGCACCTGCTGCTGGAGGCGGTGGGGCAGGAGCATCAATGCCTGG TGAGCGCCACCCACCTGAGCGGCTTTGAGGGCGGCTGGCGGGAGCATTCG CAGATTCTCAAACCTGGAGACCTGAGTCCAGGGGTGGAGATCGGATAA >SYNW1093 recG, ATP-dependent DNA helicase TTGGCAGACTCCTCCCGATCCCAAGAGTCCCGCGGATTGAACCGCGAGCA GCTCACTGAGTTGCTGGGTTGGCTGAAGCCCTTACAGCAGGCTCTTTCGC TTGAGGTCGAGACGGGGTTCAACAATCTGCAGGGCCGTCAGCAACGGTTT GATGGCTTTCTGGTTCATCAGCTTGCAGCCCCCCCACCACTGCCCTACCC CCCTGGTGTTGAGGCGCGCCTGCAGCGCTTGCACCAGGGTTTTGTCGGTT ACGAGGAGTTGCCTGAAAGCGGCCGCCGAAGGCTGGTCACCGACACTCGC CAGTGGCTGCATGAGTTGCGGCTCCGCCTCGAACCATCAGCGCCCATGGC ACCGCCACGGCTGCGGTTGGCGACGGCAACCGCATCAGCACCTCGTCGGG AGCTTGGTCTTGACAGTCCGCTGACCCAGCTCCAAGGCGTTGGACCGAAG TTGGCGGGTCGTCTGGCGGCGATTGGTCTGCTGCTGGTTCGAGACCTGCT GAAGCACTATCCGCGAGACCACGTCGACTACGCCACCCGCCGCCGCATCG AGGCCCTGGTGGTCGGAGAAACGGCCACGATCGTGGCCACCATTCGCCGC TGCAACGGCTTCGTCAGTCCGCGCAATCCGAATCTGTCGATTCTGGAACT GCAGCTCCAGGACCCCACCGGTCGGATCAAGGTGACACGGTTTCTGGCGG GGAAACGCTTCAGCTCACCGGCCTATCTCAAGGGGCAACAGCGGCTGTAT CCCCAGGGGGCGACGGTGGCCGTCAGTGGTCTGATCAAAGAGGGGCCCTA TGGGGCGACCTTCCAGGACCCGTTGATTGAGGTGCTGGAAAGCAGCAATG CCGAGGTGCGATCCCGCAACATCGGTCGTCTGATGCCGGTCTATGGATTG ACGGAAGGGGTTGCGGCAGACCGCTTCCGTCAACTGATCGACCAGGTGTT GCCCCTAGCTCGGGCCTGGCCTGACCCCCTCAACCAGACCGAGCGCCGGG ATTGGTCGTTGGTCAGCCTGCCGGAAGCGTTTCAGGGACTGCATGCACCG GATGATCCCAGCCAGTTGGATCAGGCCCGGCGTCGGCTGGTCTTTGATGA ATTCCTTCTGTTGCAGCTCGGTCTGTTGCGGCGTCGACGCACCCTGAGCC AGCGTCCTTGTCCCCAGCTCGAGTTGATCCGTCGCGGTGATGGGCTCGTG GGGAAATTTCTGGCTTCCCTGCCCTTTGCCTTCACCGCTGCACAGGAGCG GGTCTTCGGCGAAATCGAGGCCGATCTGCAGCGTTCCCAGCCGATGGCCC GGCTGGTGCAGGGGGATGTCGGTTCCGGTAAAACCGTCGTAGCCATTGCG GCGTTGCTAAGCACCATCAGTTCCGGCTGGCAGGGCGCCTTGATGGCTCC GACGGAGGTTCTGGCCGAACAACACCACCGCAACCTTTGCCGCTGGCTTC CCCCACTGCATGTGACGGTTGAGTTGCTCACCGGCGCGACGCCGAAAACC AAACGGCGCCAACTGCTGGATGACCTGGCCAACGGCTCCCTCAAGGTTCT GGTGGGGACCCATGCCCTGCTGGAGGATCCGGTGGTGTTTTCCCGCCTGG GACTGGTGGTGGTGGATGAGCAGCACCGCTTCGGCGTGCACCAGCGGGAC CGACTGCTCAACAAGGGTCTGCAGCCCCATCTGCTCACGATGACCGCCAC CCCGATCCCCCGCACCCTGGCCCTGTCCCTCCATGGCGACCTGGACGTGA GTCAGATCGACGAACTCCCGCCAGGACGGACACCCATCCGCACCGCCATG CTCACGGCAGCGCAGCGGTCGCAGGCCTACGAGTTGATCCGTGAGGAGGT GGCCCGTGGCCAACGGGCCTATGTGGTTTTGCCCCTGGTGGAGGAATCCG AGAAACTAGAACTGCGATCAGCTGTTGAGGTTCACGCTGAACTGGCCTCG GAGGTGTTCCCGGAGCTGACGCTCGGTTTGTTGCACGGCCGCTTGAACAG TGCGGATAAGCAGTCGGTGCTGCGGGACTTTGCCGATGGCCGCAGCCAGG TGCTCGTGTCCACCACGGTGGTGGAAGTGGGTGTGGATGTGCCCGAGGCC AGCGTGATGGTGATCGACCACGCCGAACGTTTCGGATTGGCCCAGTTGCA TCAGCTGCGAGGCAGGGTCGGCCGTGGGGCGGCCGCCTCCCACTGCCTGT TGATCAATGGCAGTTCCAACCCCCTGGCCCGTCAGCGCCTGGATGTGCTG GTGTGCTCCAACGATGGCTTCGAGATCGCCGAGATGGACCTTCGCCTGCG GGGGCCAGGTCAGGTGCTGGGAACCCGACAATCCGGCCTTCCCGATCTGG CACTGGCCAGCCTTGCTGATGATGGTGCGGTGCTTGAGGATGCCCGTGCA GCGGCGCAACAGCTGATGGAGCAGGACCCGGATCTGTCCGCTCATCAAGT CCTCCTGGCCTTGTTGGAGGAACAGCAACGTCGGCTCAGCGGAGCGGCAC CCCTGAATTGA >SYNW2523 recN, putative DNA repair protein GTGCTCACCGGTCTGCAGCTGCAGAACATCGCCCTGATCGATCGGCTCGA ACTGGAGTTTGGATCGGGTTTCACGGTGCTCACCGGTGAAACTGGTGCTG GAAAATCGCTCCTCCTCGACGCCCTTGATGCGGTGCTGGGTGGTGCTCAG GGATCTGCTGGCCAGCGCTTGCTGCGCGAGGGATCCGAGCGCTCGCGGAT CGAAGCCAGTTTTCAGCTCACGCCGATTCTGCGGGCTTGGTTGTCCGACG GGGATTTCGAGTCGGAGGACGAGCTTCTGGTCAGCCGGGAATGGAAACGT CTGGACGGCGAACGTTGGTCCAGCCGTTCGCGGCTCAATGGCACGCCGGT CAACCGTCAGCAGCTGTTGTCCCTGCGGCCGCTGTTGATCGATCTCACGG TGCAGGGTCAGACCCAGCTGTTGTCCAAGCCCGGGCAACAGCGTCAATGG CTGGATCGTTTAGGGGGTTCATCTCTGGCGGCATTAAGAGCTGATGTGGC CGCGGCCTGGCAGGGGTGGTGTGAATCAGCAACGGCCCTTGAGGCGGTTG AACGGGAACAGCAGCGTTGCGAGGAGGAAAGGGCTGAGCAGGAGGCCTTG CTCGAGCAGCTAGAGGCGGCCGGTCTGGAGGATCCTGGTGAACAGGAGCA GCTGGAACAGGACCAGGATCGATTGGTCCATGGTGTGCGTTTGCAGGAGG GACTGGCCCAGTTGTTTCGTCGTTTCAGGGACGGTGCGGACCAGGCCCCG TCACTGCAGGACCATCTCGCAGCTTCGGTTCAGGAGCTGCAGGTGATGGC TCAACTGGACGGTTCCCTGACGGGGGTGAAGGATCAGGCTCTGGATCTGG AGGCGAATGTTGAGGAGCTTCTGCGGTCCCTCGATCACTACAGCCTGGCT TTGGAGAGTGACCCGGAGCATCTCGATCGGATTCAGGAGCGACTGGCGGA ACTGAAGCGGCTGCAGCGTCGTCATGGCCTTGATCTGGCGGGGTTGATCG ACCGTCGCGATGGTTTACGGCAGCGGTTGGGGGATAGGGGATTCGAAGCG GATCTTCAGCGGCTGCGGATGGTCGAACAGTCGCAACGCCAGCAACGGGA TCAAGCCAATGCCGCCCTGCGACAGGCCCGTTCTCAGGCTGCCATCGATC TCCAGGCTTCCTTGCTCAAGCTGTTGCCACCAATGGGCCTCGCCAATGTG CGTTTTGAGGTGGATCTGCGTTATGCCGAACCGGCAGACCATGGAGCGGA TGCTGTCTCTTTTCTGTTTTCCGCGAATCCCGGTCAGCCACTGGCACCGT TGGTGGAAGTGGCGTCTGGCGGTGAGATGTCGCGTTTTCTGTTGGCGTTG AAGACGACCCTTGCCGCAGTGGACGGTTCCAGCACGCTGCTGTTCGACGA GATCGATGCTGGCGTCAGTGGCCGCGTCAGTGGAGCGATGGCCGATTTGT TGCGCAGCCTCGGTGAGCAACGTCAGGTGTTTTGTGTGACCCACCAACCC CTGGTGGCAGCGGCTGCGGATCACCATTTAAGGATCAACAAGGAGGTGAA GGAAGGCGTCACCTATTCGCGAGTGTCCCGACTGCGGGACACTCGCGAGC GCCAGCAGGAACTGGCTGAACTCGCGGGTGGAGATCAGGCTGATCTTTAT GCAGCCAGCCTCCTGGCCCAGCGTTCAGCCTGA >SYNW0928 recR, RecR protein TTGGCCCGGCTGATCGATCAGTTTGAGAGGCTCCCAGGGATTGGCCCGCG CACGGCGCAACGGCTTGCTTTGCATCTGCTGAACCAGCCAGAGGAGCAGA TCCGCCAGTTTGCTGATGCCCTGCTGGCGGCCCGCACACAAGTGGGGCAA TGCCAGACCTGCTTTCATCTGTCGGCCGATCCGGAATGCGAGATCTGCCG CAACCCGGAGCGCCGCAACGGTTTGATCTGTGTGGTGGCCGATTCCCGAG ACCTGCTGGCCCTGGAGCGCACACGAGAGTTCCAAGGCCGGTATCACGTT CTTGGTGGTTTGATCTCGCCGATGGATGGCATCGGCCCGGAATTGCTCCA TGTGACCCCGCTGGTGGCCAGGATCAATCAGGAGGACATCACTGAGGTGA TCCTGGCACTGACTCCCAGCGTGGAGGGGGACACCACCAGCCTTTATCTG GCTCGTTTGCTCAAGCCGTTTTGTCCCGTGAGCCGCATCGCCTATGGCCT GCCGATGGGGAGTGAACTGGAGTACGCCGACGAGGTCACTCTCAGCCGGG CCCTGGAGGGCCGGCGCCCGCTGGACTGA >SYNW2338 rnhA, possible ribonuclease HI ATGGCTGAAGAACGTGGTCGGGTTGTGGCTGCAGCCACCGATGGAGCCTG CAGTGGCAACCCGGGTCCAGGCGGTTGGGGCGCTTTGCTGCGATTTGAAG ATGGCAGTGTTGAGGAATTCGGCGGCCATGACCCGGCAACGACCAACAAC CGCATGGAACTGCAGGCGGCGCTGGAGTTGCTGCAGCGCCTGAAACAACT GCCACGCCATCCCGATCTGACGATTCGCACCGACAGCAAGTACCTGATCG ATGGGCTCGGCTCCTGGATGAAGGGCTGGAAGCGCAAGGGTTGGAAGACA GCGGCTGGCAAGCCTGTGCTCAACCAGGATCTCTGGAAAGCCCTGGATGC AGCTCGGCTGGATGATGTGCCGCTGGCCTACGTGAAAGGTCACAGCGGTG ATCCGGACAACGACCGTGTCGACCGGATCGCAGTTGCTTTTTCCCAGGGG CGTTCGTTGGATCTCGGCCAGCCAGCCGTTGAGAGCGACGTTGCGGCAGT CGATGTCGATGCTGATCCGGCACCACAACCGCTGGTGCAGTTGCTGAACC GCCTGGAGCTGGCGGACCGGTTGGCGGATGGAGGGTTCAGTCTCAGCCTG GTGGAGCTGGCGCAGCTGGTGGAACTCCCGCTCAAGCAGCTGGAGCAGCG TCGGGAGTCCTGGAGCTGGCGGGACTGGCGGGTGCACCCGGATAAGGAGG GTCGCTGGACCCTGCAGCGTCGCGAGGCAGGATCAGAACAGTCCTGA >SYNW2144 rnhB, ribonuclease HII ATGAGGTGCCGCCATTGCCTGAGCCCACGCCGGCTGTCGTTGTTGATGGG TCTGAAGCCACCGCTGAAGACACGGAATCCGAGGAACCCCGCCGTCGCCG GCGTCGGTCTTCGGCCTCAGCCTCTCCTGATTGATTCCATCCCCTGCCAC CGCGGTGTCGCCGGGGTGGATGAAGTGGGACGGGGCTGCCTGTTTGGCCC CGTCTTTGCTGGGGCTGTTGTGTTGGAGGCTGCCAACGCCAGCCGTCTTC AGCAGGAGGGGCTCACAGACAGCAAACGGTTGTCCGCACGCCGGCGAGGG GACTTGGTACCGTTGATTGAACATGAGGCAGAAGCCTGGGGGCTGGGCCA GTCGTCAACCCGAGAGATCGACCGCCTTGGGATCCGTCCTGCCACCGAGT TGGCCATGCTGAGGGCGCTGCAGCGGCTACCGAATCGGCCGGAGCTGGTG TTGGTGGATGGCAATCTGCCTCTGCGCCCATGGACAGGTGAACAGCGCAG CATCGTGGCCGGCGACCAACATTCATTGGCGATCGCTGCTGCCAGCGTGA TCGCCAAACAGTGCCGGGATGCATTAATGCAGCGTCTGTCGCAGCGGTTC CCGGGCTATGGCCTGGAACGCCACGCCGGTTACGGCACGGCCCTGCACCG TGCAGCCCTGCTCGATCTCGGACCGTCAGCTCTGCATCGCCGCAGTTTTC TCCGACGCTTTCTGGGGTGA >SYNW1035 ruvA, putative holliday junction DNA helicase RuvA ATGATTGGGTGGCTGAAGGGAGATGTCCAGCATCGTGACCAGAAAGGGTC CCGCAACCTTGTGCTGATTGCCTGCGGCGGAGTTGGTTACGACGTTCAAC TCATTGAACGGGACTGGCAAGCCGTCTCAACTGATCAACGTCATGAGTTC TGGATTCATCAGGTGGTCAGTGCTGACAACCTTCAATTGTTCGGATTTCT CCAATTGGCTGAACGGGACCTGTTCAGGGAACTAATCCAAGTGAGCGGAG TAGGGCCACAAGCAGGACTTGCCTTGCTTAATGCATGTGCGTACAAGGAA CTTGTCACGGCTCTGGTCCACTCCGATCTCAAAACCCTTTGCAGAGCTAA AGGTGTCGGCAAACGAACGGCAGAGCGTCTGGCGCTGGAGCTGCGCACAC GACTGACGGACAGCGTTGCTTCCACAGGTCCTGAACGCAATCAATTGGAT CCAGTTGCGCCGGACCTCATCGCCACCTTGGAGACCCTCGGCTTTGAAAC CCACGAGATTCGGGACGCTCTGCAACGGCTGAACGGCATGGGAGGCCCGC AGGACGGTGATGACGACGACGCCTGGCTGAGGGCCTGCATCAAGTTGATG TCATCCACAGATCCTTGA >SYNW0135 ruvB, Holliday junction DNA helicase RuvB ATGGCGATCGTCTCCTCCAACGCCGGCTCCTCTGCGCCCCGTCGTGAGCC GGTGCTCGATGCGCAGCCGTTGCCCGAGGAATCGAGCGGGCGTCCCGACG ATGGTTTGCGTCCCAAGCGACTGGACGACTACATAGGCCAGGACGAACTG AAGCAGGTGCTGGGAATCGCCGTTCAGGCGGCCCTCGGCCGTGGTGACGC CCTGGATCATGTGCTGCTTTACGGCCCTCCAGGTCTCGGAAAGACCACCA TGGCCCTGGTGTTGGCCGAAGAACTTGGGGTGACCTGCCGCATCACCAGT GCTCCGGCCCTTGAGCGTCCCCGGGACATCGTGGGTCTCCTGGTCAATGT GCAGCCACGGGATCTGCTGTTCATCGACGAGATCCATCGCCTCAACCGGG TCTCGGAGGAGCTGCTGTACCCCGCGATGGAGGATCGACGGCTGGACCTC ACCGTTGGCAAGGGCAGCACAGCGCGCACCCGCTCTCTTGAGTTGCCACC CTTCACCCTGGTGGGGGCCACCACCAAGGCTGGATCGCTCAGTTCACCGC TGCGCGACCGTTTCGGCCTGATCCAGCGGCTTGAGTTTTACGGCCAGGAG GATCTGGAGGCGATCGTGTCTCGAACCGCTGATCTGCTCGGAGTGTCCCT CTCCGCTGGGGCCTGCCGTCGCATTGCGGGCTGTTGCCGCGGCACGCCGC GGATCGCCAACCGTCTGTTGCGCCGGGTCCGTGATGTGGCCTGTGTTCAG GGGCGACAGAACCAGATTGATGAAGGTCTGGTGAGCCAGGCCCTGAGCCT GCATCGGGTCGACCATCGTGGCCTGGATGCCGGTGATCGACGTCTACTGG CGCAACTGGATCAGCACCATGATGGTGGACCTGTAGGCCTTGAAACCCTG GCTGCTGCCCTCGGGGAAGATCCCACCACGCTGGAATCGGTGGTGGAACC CTTTCTGCTCCAGCAAGGGCTACTGGTACGCACGCCGCGAGGCCGGATGC TCACCGAAGCCGCCCGCGCGCATCTCCGCGAGCAGGAGGTGGCATGA >SYNW0715 ruvC, Holliday junction resolvase RuvC ATGCGGATCCTCGGGATCGATCCGGGCCTTGCTCGGGTGGGCTACGGGGT GATTGACACCAGCGGCGGGCATCAGCGCATGCTGGATTGTGGAATCATCC GCACCGACCCCGGCCGCAGCGACGGTGAACGCATGGTGGAGATTGCCAGC GACCTGCGGCAACTGATCCGTGCCTGGCGACCGGAGCTCGCGGCCGTGGA GAAATTCTTCTTCTACCGCTCCAGTAACACCATCAACGTGGTGCAGGCCA GGGGGGTGGTGATGATGACCTTGGCCCGATTCAAGGTGCCGGTGGTGGAG TTCCCACCGATGCAGATCAAGCTGGCGCTGGCCGGTTTCGGCCATGCCGA AAAAGATGAAGTGCTAGAGGCGGTGATGCGAGAGCTTGATCTGACCGAAC CGCCGCGGCCGGATGATGCTGCCGATGCCCTGGCGGTGGCCCTTACGGGC TGGTTTCAGCGATGA >SYNW1977 smf, putative DNA processing protein (Smf family) ATGCGCGGATGGTGGTGGGCTTGGAGTGGATGCCCGGGCATCGGGTCTTC GCGGATGGCTGCGCTGCAGGTCGCTGCCGTTGAGCATGGTGTGGGCCTCG ATGACTGCTGGGCATGGTCCAGGGAACGCCTCGCTCAGGTGCTGTCCTGG CCTGATCCACTGCTCGACAAGGTTGAGCGTTACCGGCGGCTGCACGGCAG CAGCCCCCAGCTCAAGATCCCGAGCAATGTTCTGACCCCCCTGGATCAGA TCTGGCCCCAGGGTTTGAACAAGCTGGATCGGCCCCCACTGGTGCTCCAT CAGCAGGGTCGTGCGGATGTTCTTGCTTGGCTGGGTCAGCGCCGCGCTGT GGCCGTGGTCGGAACCCGTGCTGCCTCGGACCATGGCCTCCGCATGGCAG AACATCTCGGCAGTGTTCTGGCTGGAGCCGGCTGGCCAGTGGTCAGTGGT CTGGCGGAGGGGATCGATGCGGCGGCTCACCGCGGTTGTCTGGCGGCTGA TGGCGTTCCCGTCGCTGTGCTGGGAACACCGCTGGATCGTGTGTATCCGC GGCATCACCAAGCACTGCAAGAAGAGGTCGCTCGCAACGGTTTGTTGTTG AGCGAGCGCCAGCCTGGGGAGTCTGTTCAGCGAGGTCACTTTGCTGCCAG GAACCGCCTGTTGGTCAGTCTTTCCTGCGCTTTGGTGGTGGTGGAGTGTC CGGATCGCAGCGGTGCTTTGATCTCAGCGCGCCTCGCCGCAGAGCAACAG TGTCCTGTCTGGGTTGTCCCCGGTGATGCGGGGCGCTGGTCCAGTCGTGG CAGCAACAGGCTTCTGCAGAACGCGGCTGCGCCCTTACTGTCTCCAAAGG AGCTGGTGGAGCATCTCGGCCCTGGGCCTTTCCACAGGGCCAATGCCACG GCCCCTGCTCTTGTGAAGGCTCTGGGGGCGGGAGCCTCGATCGAGCAGCT TCAACAGACCCTCAAGCTGCCGGCTGGTCGCCTGGCCAGTGATCTGCTCG AGCTGGAATTGGCAGGGCAGGTGGTGTGTGAGTCTGGATTTCTCTGGAAG CCCTGTCGGCCGTGA >SYNW0121 ssb, single-stranded DNA-binding protein ATGGGCGTGAATTCCGTCACCCTCGTCGGCCGAGCCGGTCGCGACCCCGA AGTGCGTTACTTCGAATCCGGCAGCATGGTCGCCAATCTCACCATGGCCG TGAATCGCCGCAGCCGCGACGACGAGCCCGACTGGTTCAACCTCGAGATC TGGGGCAAACAGGCTCAGGTGGCCGCTGACTACGTGAAAAAAGGCTCCCT GCTGGGCATCATCGGCAGCGTCAAGCTGGATCGCTGGACCGACCGCAACA GCGGTGAAGAACGGAGCAAGCCGGTTGTACGCGTCGATCGTCTTGAACTG CTTGGCTCCAAGCGGGACAACCAGGAAGCCGCTGGCAGCTTTGGCGGCCA GGCTTCTGATGAAGAGATCCCCTTCTGA >SYNW1872 topA, Prokaryotic DNA topoisomerase GTGGCGCACACCCTCGTCATTGTTGAAAGCCCCACGAAGGCCCGCACCAT TCGCGGCTTCCTTCCGAAGGGGTTCAAGGTCGAGGCGTCCATGGGCCATG TGCGGGATCTTCCCAACAACGCCAGCGAGATCCCTGCGTCCGCCAAGGGT CAGAAATGGGCCAACCTTGGCGTCAATACCGAAGCCGACTTCGATCCCCT TTACGTGGTGCCGAAGGACAAGAAGAAGGTGGTGCGCGAGCTAAAAGATG CGTTGAAGGGCGCGGATCAGCTGCTGCTGGCCACTGACGAAGACCGCGAG GGGGAAAGCATCAGCTGGCACCTGCTGCAGCTGTTGGCGCCGAAGGTTCC GGTGAAGCGGATGGTCTTCCACGAGATCACCAAGGAAGCCATCGGCAAGG CGCTGGATCAGACCCGTGATCTCGACATGGAGCTGGTGCATGCCCAGGAG ACGCGCCGGATCCTGGATCGTCTGGTGGGGTACAGCCTCTCTCCCCTGCT CTGGAAAAAGGTGGCATGGGGGCTTTCCGCTGGCCGGGTGCAATCGGTCG CCGTTCGCCTCCTGGTGCAGCGGGAACGGGCCCGGCGGGCCTTTTGCAGC GGCAGTTACTGGGATCTCAAGGCCCAGCTCGAGCATTCTGGCAGTGGTTT CGAGGCCAAATTGACCCATCTGGTTGGCCGACGTATCGCCACCGGCAACG ATTTCGACGAAAGCACCGGTGGCCTCAAGGCCGGCAGCGAGGTGCGGCTG CTGACGGAAAAGGAGGCCCGCGCTCTGGCGGAAACGGTTCAGGCCGCGAC CTGGTCGGTGGATGCTGTTGAGGAGAAGCCCACGGTGCGGAAGCCGGTGC CGCCGTTCACCACCAGCACCCTTCAGCAGGAGGCGAATCGCAAACTACGC CTCTCAGCGAGGGAGACGATGCGCTGCGCCCAGGGCCTCTACGAGCGAGG TTTCATCACTTACATGCGAACCGACTCGGTTCATCTTTCGGATCAGGCGA TCAGCGCGTCCCGCAGCTGTGTGGAGAGCCTCTACGGCAAGGAGTATCTG AGCAAGGGGCCGCGGCAATTCAGCAACAAGGCACGCAATGCCCAGGAGGC CCACGAGGCGATTCGCCCCTCCGGCGAGAGCTTCCGCACACCTGGCGATA CCGGGCTTGAAGGCCGTGACCTGGCGGTGTACGACCTCATCTGGAAACGC ACCGTTGCCAGTCAGATGGCGGAAGCCCGGCTGACGATGCTGTCGATCGA TCTCAGCTCTGGAGAGGCAAGTTTCCGAGCCAGTGGCAAGCGAATCGATT TTCCGGGCTTCTTCCGTGCCTACGTCGAGGGCAGCGACGACCCTGATGCA GCCCTGGAGGGCCAGGAGCTGCTTCTGCCCGCACTGGCGGTGGGTGATGC CCCTGCCCCCAAGCAGGTGGAACCTTTGGGCCACCAGACCCAGCCCCCAG CCCGTTTCAGCGAAGCCTCTCTGGTCAAGATGCTGGAGAAGGAGGGCATC GGACGACCCTCCACCTACGCCTCGATCATCGGCACGATTGTTGATCGCGG CTATTCCACGCTGCAGGGCAATGCCCTGACCCCCAGCTTCACAGCCTTTG CTGTGACCGCCCTGCTGGAAGAACATTTTCCGGATCTGGTTGATACGAGC TTCACGGCTCGGATGGAGAACACTCTTGATGAGATCTCCCACGGCAAGGT CGAATGGTTGCCGTATTTGGAAGGGTTTTTCAAAGGTGATCAGGGGCTGG AAACCCAGGTGCAGCAACGGGAAGGGGACATCGATCCCGGAGCCTCCCGA ACCGTCGACCTCGAGGGCCTGTCCTGCGTGGTGCGCATCGGGCGATTCGG TGCCTACTTGGAGTCCAAACGGGTCGGCGATGACGGCGAGGAGGAGCTGA TCAAAGCGACGCTCCCCCGGGAGATCACACCGGCGGATCTGGATGCGGAC CAGGCGGAACTGATCCTGAAGCAGAAGGCAGATGGCCCGGAATCCATCGG CGAGGACCCAGAGACGGGCGACTTGGTGTACCTCCTGTTCGGTCAGTACG GGCCCTATGTGCAGCGCGGACAGGTCAGTGATGAGAATCCAAAGCCCAAA CGGGCCTCACTGCCCAAGGGCCAGAAACCTGAGGATCTGACCTTGGATGA TGCTCTCGGCCTGCTCCGACTCCCCCGCTTGTTGGGGGAACATCCCGATG GCGGGCGGGTTCAGGCTGGTCTCGGACGTTTCGGGCCCTATGTGGTTTGG GATAAGGGCAAGAGTGAGAAGGACTACCGCTCCCTCAAGGGTGACGACGA TGTGCTGGCGGTTGGCCTCAGTCGCGCCTTAGAGCTGCTGGCCATGCCGA AACGGGGCCGCGGCGGCCGGACGGCGCTGAAGGATCTCGGCAAACCCGAG GGCAGCGAGGAGACGATTCAGGTCTACGACGGTCCCTATGGCCTCTACGT CAAGCAGGGCAAGGTCAATGCCTCCCTGCCTGAAGGCAAAGGGGCGGACG ATGTCACGCTGGAGGAGGCCGTGGAACTGCTGGCGGCGAAGGCTTCTGCC AAGAAGAGCAGCCGCAAGACCACGGCGGCCAAAAAAGCTCCGGCCAAGAA AGCCGCTGCGAAAAAAACCGCCGCCAAGAAACCTCCTGCCACCACCAAGA GCGGACGGCTGCGGGCTAGTGCCGTGCGGGTGATCAAACCCGCCGACAGC TGA >SYNW1043 umuC, putative UmuC protein ATGGGCCTTGCCACCGCCCTGATCGACGGCAACAACTTCTACGCATCCTG CGAACAGAGCCTTGACCCCAGCCTGATCGGCAAACCCGTCGTCGTGCTCT CCAACAACGACGGCTGCATCGTGGCCCGCAGTGCAGAAGCCCGGGCCCTC GGCATTGCGATGGGAACCCCCTATTTCAAGGCGCGTCAGGAGTTGGAACG CCAGAACGTGGTGGTGCGCAGCTCGAACTACGCCCTGTACGCCGACATGA GCCAGCGGATGATGAGCCTGCTGGAAATTCACTGCGAAGAGCTCGAGATC TATTCCATCGACGAAGCCTTCGGGCGCGTCCGTCGTCCGAAGGATGGTGA CTTGCAGAGCTGGGGGCGATCCCTGCGAGCCCGGGTGCGCCAGGACCTGG GGCTGCCGATCGCCATCGGCCTGGGGGCCAGCAAAAGCCAGGCAAAACTG GCCAATCGCCTGGCCAAGCAAGTCCCCGCCCATGCCGGCATCTTCGATCT GGGCCACTGCACGGATCCCGACGCCTGGCTCGAGACCATCGCAATCGAGG ACGTCTGGGGCATCGGCCGCAAACTGGCGCGCTGGTGCCGGCTGCGGGGG GTGAACAACGCCCGCCTGCTGCGGGACATGCCCAGCGGTGAACTTCGGGC GAAGTGCGGTGTGGTGGGGTTGCGGCTGCAGCGGGAACTGCGCGGCCATG CCTGCTTGCCACTGGCGTTGGCACCGTCCCCCAAACAGGAAACCTGCGTG AGCCGCAGCTTCAGCAGGCCGATCACGACCCTGGAGGAACTGCGGCAGGC CGTCGCCACCTATGTGGTGCGCGCCGCGGAAAAACTGCGCAAGCAGCACC AACGGGCTGCCGCCCTCACGGTGTACACCCGCACCAGCCCCTTCATCCCC GCGTTTTACAGCCAGGCCGCCAGCACCCGACTGGATCTGCCCAGCAACGA CACCACCGTTCTGCTGGAGGCAGCGCTCCCCCTGGTGGACCGCATCTTCC GGCCACACCGACAGCTGGCGAAGGCGGGGGTGCTGATGCAGCACCTGCAG GGAACCGAGCTGCTCCAGTCCCATCTTCTGGTGCCACTGAGTGAGGCACA GCAACAACGACGAGAGGAGCTGATGCGCACCATTGATCGGCTCAATCGCC GCTATGGCCGAGGCACGGTCCAGTGGGCAGCCTGCGGGTTGCATCCGAGC TGGATGATGCGACGGGAGCGGCTGGGACGGACCGCCACCACCCGGCTGAG TGATGTTCCAGTGGTGCACGCCGATCGCTGA >SYNW2522 uvrA, excinuclease ABC subunit A ATGGTGCGAGCTGCTGCCAAGAGCACGGATCGAACGGCTCCTGTGAATCT GTCCGGCGGCAGCCTGGAGGATGTGATCCGGGTGCGTGGCGCTCGCCAGC ACAACCTCAAGAACGTCGACGTCACCATTCCCCGCAACAAGCTGGTGGTG TTCACCGGCGTTAGTGGCAGCGGCAAAAGCTCGCTCGCTTTTGACACGAT TTTTGCGGAAGGTCAGCGCCGCTACGTCGAGAGTTTGTCCGCTTACGCCC GACAGTTCCTGGGCCAGGTGGACAAGCCAGATGTGGACGCCATTGAGGGG CTGTCTCCTGCGATTTCGATCGATCAGAAATCCACCAGCCACAACCCCCG CTCCACCGTCGGAACGGTCACGGAAATCCAGGACTACCTGCGCCTGTTGT TTGGCCGCGCTGGTGAGCCCCATTGCCCGCAGTGTGATCGCTCGATCCGT CCTCAGAGCATCGACGAGATGGTCGATCAGATCCTGGTGCTGCCGGAGGG CACCCGCTATCAGCTGCTGGCTCCCGTGGTTCGGGGCAAGAAGGGCACCC ACACCAAGATGATCAGCGGCCTCGCTGCTGAGGGCTTCGCCCGGGTGCGC ATCGATGGCGAGGTCCGCGAGCTGGCGGACAACATCGAATTGGACAAGAA CCACAGCCACAACATCGAAGTGGTGGTGGATCGGCTGGTGGCCCGCGACG GCATTCAGGAACGTCTCACCGATTCATTGCGCACCGTTCTCAAACGGGGG GATGGACTCGCCCTGGTTGAAGTTGTGCCGAAGAAGGGAGAGGAGCTCCC CGATGGTGTGGAGCGAGAGCGCCTTTATTCCGAAAAATTCGCTTGCCCGG TCCATGGCGCGGTCATGGACGAGTTGTCCCCGAGGTTGTTCTCGTTCAAT AGCCCCTATGGGGCCTGTGAGGCCTGCCACGGCATCGGTCATCTGCGGAA ATTCACTGTGGATCGGGTCATTCCAGATCCCACTCAGCCGGTGTATTCGG CGGTTGCTCCCTGGGCGGAAAAGGACAACAGCTATTACTTCTCCTTGCTC TATTCCGTGGGAGAGGCCTTTGGCTTCGAGATCAAGACTCCATGGAACCA GCTCACCGATGAGCAACGTGATGTGTTGCTGCACGGCAGTCGCGAACCGA TCCTGATTCAGGCCGATAGCCGTTACCGCAAGGGCAAGGCGGGCTACAAC CGGCCTTTTGAGGGAATCCTGCCGATCCTTGAGCGTCAGCTGCGTGACGC CAGCGGAGAGGCCCAGCGTCAGAAGCTGGAGAAATTTCTTGAGTTGGTCC CGTGCGAGGCCTGCGCCGGTCAGCGGCTGCGGCCGGAAGCCCTCGCCGTG AAGGTGGGCCCTTTCTGCATTCCTGAGCTGACGGCCGTCAGCGTTGGTCA GACCCTTGACCGCATCGAGCAGTTGATGGGGGTTGGCAGCCATGAGGGTG CCAACCCATTGCTGAATGATCGCCAGATTCAGATCGGTGATCTGGTGCTG CGGGAGATCCGGCTGAGGTTGAAGTTTCTGTTGGATGTGGGGCTCGACTA CCTGAGCCTGGATCGGCCGGCGATGACGCTGTCCGGTGGAGAAGCGCAGC GGATCCGTCTGGCCACTCAGATCGGTGCCGGTCTCACCGGTGTTCTGTAT GTGCTCGATGAGCCGAGCATCGGTCTGCACCAGCGGGACAACGATCGTTT GCTGAACACCCTCGTGCGCCTGAGAGACCTGGGCAACACGCTGGTGGTGG TTGAGCACGACGAAGACACCATCCGTGCTGCCGATCACGTGGTGGATATC GGCCCCGGCGCGGGCGTGCATGGGGGCCACATCGTGGCGGAAGGCAGTTT CGAAGATCTGATCAACAGCGAAGCGTCGCTGACCGGTGCCTACCTCAGCG GTCGCCGCTCGATTCCGACACCTGCGGAACGACGCCAGAGCGGTACCCGT TCGCTCAAGTTGCTCGATTGCAACCGCAACAACCTCAAGAACGTCAGTGT GGAGTTTCCCCTCGGTCGGCTGGTGTCCGTCACCGGGGTGAGCGGCAGCG GCAAGAGCACCTTGGTGAATGAATTGCTCCACCCTGCACTCGAGAACGGC CTGGGGATGAAGGTTCCCTTTCCGCAGGGACTCGCTGAATTGCGGGGGTT GAAGTCAATCGACAAGGTGATCGTGATTGACCAGTCACCGATCGGTCGCA CGCCACGCTCCAATCCCGCCACTTACACCGGTGCTTTCGACCCGATCCGT CAGGTGTTTGCTGCCACGGTGGAGGCCAAGGCCCGCGGCTATCAGGTGGG GCAATTCAGCTTCAACGTGAAGGGCGGTCGCTGTGAGGCTTGCCGCGGTC AGGGCGTGAACGTGATCGAGATGAATTTCCTGCCTGATGTCTACGTCCAG TGCGACGTCTGTAAGGGAGCACGCTTCAACCGGGAGACGTTGCAGGTGAA ATACAAGGGGTACACCATTGCCGATGTGCTGCAAATGACGGTGGAGCAGG CCGCCGAAGTGTTCGACGCAATTCCTCAGGCTGCGGATCGATTGCGCACG TTGGTGGATGTCGGCCTCGGTTACGTGAAGCTTGGCCAGCCAGCTCCGAC CCTCTCCGGTGGAGAAGCGCAGCGGGTGAAATTGGCGACTGAGTTGTCAC GCAGGGCGACGGGGAAAACCCTTTATCTGATTGATGAACCCACCACGGGT CTGAGTTTTTACGACGTCCATAAATTGATGGATGTAATGCAGCGCCTTGT TGATAAGGGCAACTCGATTATCTGTATTGAGCACAATTTGGATGTGATTC GCTGTTCCGATTGGATCATTGATCTCGGACCCGAGGGTGGCGACAAGGGT GGAGAGCTTCTGGTGACCGGGACCCCGGAAGAGGTTGCCCAGCATCCAAC CAGTCACACAGGCAGATACCTTGCCCGTGTTTTGGAGCAGCATCCGCCAG AGATCCCACTGATCGCTGCCTGA >SYNW0077 uvrB, excinuclease ABC subunit B ATGCCTGCCTACGACCTAACTGCTCCATACACCCCCAAAGGTGATCAGCC GACGGCGATCAAGCAGCTGGTGCAGGGAGTCAATGGCGGCGAGCGCTACC AGACCCTGCTGGGGGCCACGGGCACAGGCAAGACGTTCACGATGGCGAAC GTGATTGCCCAGACCGGACGGCCGGCCCTGGTGCTCGCCCATAACAAGAC GTTGGCGGCGCAGCTCTGCAATGAGCTTCGGGAGTTTTTCCCTGAGAACG CCGTTGAGTACTTCATCTCCTATTACGACTACTACCAGCCGGAGGCTTAC GTTCCGGTCAGCGACACCTACATCGCCAAAACAGCGTCGATCAACGAGGA GATCGACATGCTGCGTCATTCAGCGACGCGGTCGCTGTTCGAACGCCGGG ACGTGATTGTGGTGGCGTCCATCAGCTGCATCTACGGCCTGGGGATTCCG AGTGAATACCTCAAGGCAGCGGTGAAATTCGAGGTGGGAGAGACCCTCAA CATCCGCAGCCAGCTGCGGGAGCTGGTGAACAATCAGTACAGCCGCAACG ACACCGAAATCGCCCGTGGCCGTTTCCGCATGAAGGGGGATGTGCTGGAG ATCGGCCCTGCCTACGAAGACCGGTTGGTGCGGATCGAGCTGTTCGGTGA TGAGGTGGAGGCCATTCGTTATGTGGACCCCACCACCGGCGAGATCCTCC AGAGCCTGGAGACGGTGAACATCTATCCGGCCAAACACTTCGTGACGCCC AAGGATCGTTTGGATTCAGCGATCGGCGAAATCCGCCAGGAACTGCGGGA TCGGCTTGATTTCCTCAATGGCGAGGGCAAGTTGCTGGAGGCGCAGCGGC TGGAGCAGCGCACCAAGTACGACCTGGAGATGCTGGGGCAGGTGGGCTAC TGCAACGGGGTGGAGAACTACGCCCGCCATCTGGCTGGCCGGGAGGAGGG CACCCCACCGGAATGCCTGATCGATTATTTCCCCAAGGACTGGCTGCTGA TCGTGGATGAAAGCCACGTCACCTGCTCGCAGCTGCAGGCGATGTACAAC GGCGATCAGGCCCGCAAGAAGGTGCTGATTGAGCATGGCTTTCGTTTGCC CAGTGCGGCGGACAACCGGCCGTTGAAGGGTGAGGAGTTCTGGGAGAAGG CACATCAAACCGTGTTTGTGAGCGCCACGCCGGGGAACTGGGAGCTGGAG GTGAGTGGGGGTGAAGTAGCCCAGCAGGTGATCCGCCCCACGGGTGTGCT CGATCCGATCGTGGAGGTGCGGCCCACGACGGGGCAGGTGGACGACCTGC TGGGGGAGATCCGCGACCGGGCCAGCAAACAGCAGCGGGTGCTGGTGACC ACTCTCACCAAGCGGATGGCGGAGGACCTCACCGATTATCTGGCCGAAAA TGAGGTGCGGGTGCGTTACCTGCACTCGGAGATCCACTCGATTGAGCGGA TCGAGATCATTCAGGACCTGCGCCTCGGCGAATACGACGTGCTGGTGGGC GTGAACCTGCTGCGGGAGGGTCTGGACCTGCCCGAGGTGAGCCTGGTGGC GATCCTGGATGCGGATAAGGAAGGGTTTCTGCGGGCTGAACGCTCATTGA TTCAGACCATCGGCCGGGCCGCTCGCCATGTGGAGGGAGTGGCTCTGCTG TACGCCGACAACATGACTGAATCGATGGCCAAGGCCATCTCTGAAACGGA GCGCCGCCGCAAGATCCAGCAGACTTACAACGAGAAGCACGGCATCGTGC CGACAGCGGCGGGCAAGAAGGCCAGCAACTCGATCCTCAGCTTCCTGGAG CTATCGCGGAAGCTCAAGCAGGACGGCCCCGATGCTGATCTGGTGCAGGT GGCCGGCAAGGCCGCCCAGGCGCTGGAGGAGGACCCTGATGCCGGCCTGG CGCTAGAGGCGCTGCCGGAGCTGATTGATCAGCTGGAAGGGAAGATGAAG GAGGCGGCCAAAAAGCTGGACTTCGAAGATGCCGCCAACCTGCGGGACCG GATCAAGCAGCTGCGCCAGAAGATGGCGGGCTAG >SYNW1246 uvrC, Excinuclease ABC subunit C (UvrC) ATGCCGCCGCTGCTCACGCAGCCGGAAGTGCTTGAGCGTCGGCTGAAGGA GATTCCGCCGGAGCCTGGTTGCTACCTGATGCGCGACGGAGAGGACAGGA TCCTCTATGTCGGCAAGTCGAAATCGCTGCGCAGCCGTGTCCGCAGCTAC TTCCGAAGTCGGCATGATCTGTCGCCGCGCATCCGGCTGATGACGCGACA GGTCTGTGAGATCGAATTCATCGTGACCGACAGCGAAGCGGAGGCTCTGG CCCTTGAATCCAACCTGATCAAGAACCATCAGCCGCACTTCAATGTGCTG CTGAAGGACGACAAGAAATACCCCTACCTCTGCATCACCTGGAGCGAGGC CTATCCCCGCATCTTCATCACGCGACGGCGCCGATTCCGCAGCCCCCTCG ATCGCTTTTACGGGCCCTACGTCGACGTCGGACTGTTGCGGCGCACCTTG TTTCTGGTGAAGAGGGTCTTCCCGCTGCGACAGCGACCGCGACCGTTGCA CCCCGACCGCACTTGCCTTAACTACAGCATTGGTCGCTGCCCAGGGGTTT GCCAGGAAAAGATCACCTCTGAGGACTACCACCGAACCCTGCGCAAGGTG GCCATGGTGTTTCAAGGGCGCAGCGATGAACTGCAGCGTCTGCTCGACGA GCAGATGAACCGCTACGCCGAACGTCTTGATTTTGAATCCGCTGCCCGGG TCCGCGACCAGCTCCAGGGGCTCGACCAGTTGACGGCTGATCAGAAGATG AGTCTTCCAGACTCCAGCGTCAGTCGGGATGTGCTGGCCCTCGCCTGCGA CGACCGTCTGGCCGCTGTGCAGCTGTTCCAGATGCGCGCCGGAAAACTTG TGGGGCGGCTTGGTTACACCGCCGATGCTTCAGCTCTGGCACCGGGTCTG ATTCTGCAACGGGTGATTGAAGAGCACTACTCCCAGGTCGATGCGGTTGA AGTGCCGCCGGAGTTGTTGGTGCAACACGCTCTTCCGCAACAGCAGCTTC TTGAGGACTGGCTGACGGAGCAACGGGAACGCAAGGTGCAGATCCACTGC CCAAAACAGCGTCAGAAGGCAGACCTAATCGAACTGGTTCAGCGGAACGC GGAATTCGAACTGCTGCGGGCCAAGCAGGGGCAGGAGCAGCAAGCGCTAG CCACCGAGGATCTGGCTCAGCTGTTGGAGATGCCGACGCCGCCGCGACGG ATCGAGGGATACGACATCAGTCACATTCAGGGCAGCGATGCCGTGGCCTC TCAGGTGGTGTTTATCGATGGCCTGCCCGCCAAGCAGCACTACCGCAAAT ACAAGATCCGCAGCAGCAGCATCCAGTCCGGCCACAGCGATGACTTCATG GCCATGGCCGAGATCATGCGCCGGCGCTTTCGTCGTTGGGCCCGCGCCAA GGCTGATGGTGTCGATGTGGGTGCCCTGCGCCACAAAGGTGGCAGTGCCC TGCAGACCGACGGCCTCAACGACTGGCCGGATGTGGTGATGATCGATGGC GGCAAAGGACAACTCTCTGCGGTGATGGAGGCCCTGCGGGAACTCGATCT GCACGAGGACCTCAACGTCTGCTCGTTGGCCAAACAGCGGGAGGAGGTGT TCCTCCCCGGCGAAAGTCAGCCACTGGAGAGTGAGCCGGATCAACTCGGC GTGGCCTTGCTGCGTCGCCTGCGGGACGAAGCCCATCGATTCGCGGTGAG CTTCCACCGGCAACAACGTGGTGAGCGAATGAAGCGTTCACGCCTCTCCG ACATCCCAGGGGTTGGTCCCAAACGGGTGAAGGATCTGCTGGCGCACTTC CATTCCATCGATGCGATTCAGATGGCTTCCGTGGATTTGCTCTCCAAAGC CCCCGGTGTGGGAACAGCTCTGGCCAGGGACATCCACGGGTTTTTCCACC CTGCTGAGGAAGCCGGGCAGGATGAATGCTCAGAAGAGCCCCGTGCACAC ACCGCATGA >SYNW2158 yrvN, putative ATPase, AAA family ATGCAGTATCCCCGCGAGAAGTGCTCTATTGGGACCGTCGATGCCGATTC CTTGAGTCAGGACCTCTTTACCTATCAGGGAGAACAGCGGCGTCGGCAGC AGGCCCCCCTGGCCGACCGCATGCGTCCACGCACCCTGGAGGAATTCGAA GGTCAGCAAGGGATCCTGGCCCAGGGACGCCTGCTGAGGCGGGCCATCAA AGCTGACCGGGTCGGCAACCTGATCCTGCATGGCCCACCTGGTGTGGGCA AGACGACCCTGGCGCGGATTGTTGCGAACCACACGCGGGCTCACTTCAGC AGCCTCAACGCCGTGCTCGCTGGCGTGAAGGACCTGCGCGCAGAAGTGGA CGCCGCCAAGCTTCGCCTCGAACGCCATGGCCTGCGCTCGATCCTGTTCA TCGACGAGGTGCACCGCTTCAACAGTGCGCAACAGGATGCCCTGTTGCCT TGGGTGGAGAACGGGACGGTGACCCTGATCGGCGCCACCACCGAGAACCC CTATTTCGAAGTCAACAAAGCACTCGTGAGCCGCTCACGCCTGTTCCGGC TGCTGCCGCTAGAGCCGGATGATCTGCATCAGCTGTTGCAGCGTGCCCTC AACGATGAGGAACGGGGGTACGGCACCCGTCGGGTGACGGTGACTCCGGA CGCAGCTGCTCATCTGGTGGATGTGGCAGGGGGCGATGCCCGCAGCCTGC TCAATGCCCTGGAACTGGCGGTGGAAAGCTCCGAGCCGGAGCCCGATGGA GTGATCCAAATCAACCTGGCGATCGCGGAGGAATCGATCCAGCAGCGGGC AGTGCTCTACGACAAGCAGGGCGATGCTCACTACGACACCATCAGCGCCT TCATCAAGTCTCTGAGGGGGTCCGACGCCGATGCCGCCCTGTTCTGGCTG TCACGGATGGTGGAGGCCGGAGAAAACCCCCGCTTCATCTTCCGGCGGAT GTTGATTGCTGCGGGGGAGGACATCGGCCTGGCCGATCCCCAGGCCATCG TGGTGGTGGAAGCCTGCGCCGCAGCCTTCGAGCGGGTCGGCCTGCCGGAA GGCCTGTATCCCCTGGCCCAGGCCGCCCTCTACCTGGCGGGGACCGAGAA AAGCAACAGCGTGCTGGGCTTCTTCGACGCCCTCAAGAGTGTGCGAGAGG CGAACCGTCAGGACGTGCCCAGCCATCTGCGGGACGCCAATCGCGATGGT GATTCCTTCGGCGATGGCGTCGGTTACCGCTACCCCCATGCCTATGCCGA GCATTGGGTGGAACAGCAGTACCTACCCACGGCACTGCAAGGGGAAGTGT TCTGGCAGCCAGGCCAACTGGGCTGGGAGGGGGAACGCCGGGAGCGCATG GCCGAGCGCCGTGCCGCACAGCTGGCAGCGGCGGCTGAACTGGCATCGGA GCAGCCATTGCTACTAAGCAGTGGTCCCGACAGTCCGGCGATGGAACGCT GGATTCAGCGGCAGTTGGGACAGGAGGGCGAACGTCTGCACCTACTGCGA CGACGGCTCTGGGCGGGAGTGAGCTGGCAGCGCCAGGACCGGGTGTTGCT ACTGGGCTGCCATTCCCTGCTCTGGGCGCTGGATCCATTGCGCCAGGTGC CGGAAGGGGGCGTCACCCTGATCTGTCCAAGCCCTGACGATCGCCAGCGA CTGGCGGCACAGATCGACCTGCTGGAACCGGAGCGGCAGCCTCAGCTCTT GGATGGGTTCGACGCGCTGCCATCCGATCAGGTTTTTGATTGGATCGGCG GGCGACTGGGCACGGTGGATCTGCTGGAGACAGACTGGACCGAGCTGGCT CAGACCTTGACGGACCATGCCGACAGCAACGCCAGCCTGCGTCTGCTGAT CAGCTGTGCTGGGTGTGGACCTGCAGGTGCCCTCAGCGCATCACACATTG CCGAGACCTCCCTGTCCCAGTTGGTTGAGCAGGAACAAAGCTGGCTGCAA CAGCTCCAGATCCAGACTCAGCCGCTGGAGGAGCAGGGCTGGAGCCTGAA CACCGATCAATGGGACGAGGTGCTGACATTGCCTGGGGGCAAGTCGTTGG CTGAGCGATGGCTGGCCAATGACTCTGATTACCGGCGCATGCTCGGCAGC ATCCAACCGGAACCACTGCAGCTGCTGCGAACAACCCTGGAAGGACTTGG GTCAGAGGGTCTGCGGTTGCCGATGCGGCATCAGCTACTCGCAGGGAAGC GAAGTCAGCCAACAACAGAGCATCGAGTATTGAGCCCCCAAACTGAGCGG GCATAA