Gene list
Applied filters:
COG category: Replication, recombination and repair
Organism: Vibrio vulnificus CMCP6, CMCP6
Number of genes found: 230
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Vibrio vulnificus CMCP6, CMCP6 >VV11533 Endonuclease I ATGAAGCGATTATTCATTTTTATTGCCTCGTTCACTGCCTTTGCGATCCA GGCCGCGCCACCTAGCTCCTTCTCTGCCGCCAAACAACAGGCGGTGAAGA TCTACCAAGATCATCCCATTAGCTTTTACTGTGGCTGCGACATTGAATGG CAAGGCAAGAAAGGCATTCCTAACTTGGAGACATGTGGTTACCAAGTACG CAAACAGCAAACTCGCGCATCGCGTATAGAATGGGAACATGTCGTCCCTG CTTGGCAATTTGGCCACCAGCGTCAATGCTGGCAAAAAGGTGGGCGCAAA AACTGCAGTAAAAATGATCAACAGTTTCGCTTGATGGAAGCAGACTTACA CAACCTCACGCCAGCGATCGGTGAAGTCAATGGCGATCGTTCAAACTTCA ACTTCAGTCAGTGGAATGGCATGGATGGTGTCAGTTATGGGCGCTGTGAA ATGCAGGTCAACTTCAAACAACGTAAAGTCATGCCGCCAGACAGAGCTCG TGGGTCTATTGCTCGAACCTATCTCTACATGAGTCAAGAGTATGGCTTTC AGCTTTCCAAGCAACAACAGCAACTGATGCAGGCTTGGAACAAATCATAC CCCGTTGATGAATGGGAGTGCACAAGAGATGATCGCATTGCCAAGATTCA AGGCAATCATAATCCGTTTGTGCAGCAATCCTGTACCGTGAGATAA >VV12466 ATPase involved in DNA replication ATGGGAAGCCAAAATCAGATTAAGTCCAAGTTATTGGAACTGGAAGGCGG AAAGTTTCAACGGCTCTGTGATGATTGGCTGCATAGGAAGGGGTATGAAA ATATTAACCCAATCGGAATGATGGATACTACCAACAGGACAGTTAAAGGT ACGCCTGACTGTTTGTTTATGCAGTCAAATGGAAAATATGTTTTTTTAGA GTATACAGTTCAGCAGGATCGTCTAGCGAATAAGCTAAGAAACGACATTG AAAAGTGCTTTGACGTAAGTAAAACGTGTATCCCAGTAGACAAAATCAGC GAAATAATCATATGCTACACGGGTAAATTATCAACGGAAGAAATCAACCA ACTCCGAACTATTTGTTACGATAGAGGAGTAATGTTAACGCTTAATGGAC TTGATTCAATTTCATTAAGTATTAAAAACTCCTATCCTGTCTTATCAGAA ACTCATTTAGATTTACCTTTAGATACTGGTCAATTGTTGGGCCTTGACGA TTTTGTAGAGAGGTACGGTAGAAGCAATTTTACAACGTCTATCGACAATG AACTGTTGTTCAGTGATGACTTGTTGAGTAGCGCGGTTAGAACAATGAAA TCCTCAAAGTTCCTACTTGTGTCAGGAGCAGCAGGATTAGGAAAAACGTT ATTTTCAGTCACTTTGGCAAGACGAATTCAGCAAGAGAATAAAAACACCA GTATCATTTGTGTTTTTGATAAAGGTGCAGACCTAACAAGAGATATCACT GCATACTTTAGCGAGCCTGGAGATTATTTGATTTTTGTTGATGATGCCAA TAGATTAGATAATAGACTTGATTATATTCTTCATTATCTAACTGAAAAAG ATGAAAGTAGAAGTTTTCGTATTATTGCTACGGTGAGAGATTATGCACGA ACTTCTATTATAGAAAAGATTAGAAAATTTACAGTTTTTGATGAGCAAGT TATCAGGCCCTTAACTGATGAACAAATTAAAGAACTGACTGAAATATTGT TTGGAATTAAAAATGGAGAATATCAAAAAAGAATAAAAGAAATATCCTGT GGTAATCCAAGATTGGCAGTAATGGCATCAAAAGTTGCAATTGAGAAGAA TCAAATACAATCCATTCAAAATGTCACTTCCTTGTATAGAGATTACTTTA GAGAAAATGAAAATGTAAAACTTATTATTGAAGATGAAAGGTTAATTCTT GCAGCATGCGCTATTTCATTTTTTAGAAAGATTGACAAACTCAATGAACA GCAAATGAGTTTGCTGGAGAACTCTTTCGGTGTTCAGGCTGAGGAGTTTT GGGAGCTTGTTGATATCTTACATAAAAATGAATTGGTAGATTTGTATGAA AATGAAGTGGTAAAAATATCCGACCAAGTTCTATCTACGTATCTTTTTTA TATAGCTGTCTTTGAAAAGAAGATAATGCAATTTTCATCAATTGTTAAAT ATTTTTATCCAGACTACACCAGAACTATTGTTGACTCACTTAATCCCATC ATAAGTGCATTTGATCAAAGAAAAGTTGTTGCAGGGATTAGAAGTGAGAT CAAAGATATTTTTGAAGTTTTTTCTAAAAATGAGGAGATAGATAAATCAG TAGAATTCTTAAATACTTTTTGGTTTGCTCTACCAACTGAAGCATTAGTT TACTCATCAAAGATTATTAAAGGAATGCCGGAAGTTTGGATTGATTGGAA AAACGAATCTTATGAAGAGTCTAAGCACGAGGCAGGTAAGTCATCTATAA TCAGCTTGTTAACAAGTTTTAGATTTTATAGTGAGCAAGAGTTTAAATTG TCTTTTGAGTTGCTGCTAGAATATCTTTCTAAAAACAGAACATCTTTGGG TTTTGTCGTGCGATTATTATCTGAGTGTTATAGCTTTAAGCCTGATGATT TTCGATATGGCTACTATGTACAATCGTTCATTGTAGACATGTTGATTGAA AAAATGGAAAACGGGGAAAACCACTTATTTAGTCGCCTTTTTATATTAAT AGCTAATTATCTGCTAAAAGTCGAGCATCAGGATCACCAGTACTCTAGAG GGGATTCAATAAGTATTATTACCTTTAGATTAAACCCTGATGAATACTTA CTCACTTTAAGAGAAAAAATTATATCAAACTTATCTGTTTTAATAGCTAA AGATGAGTTTAATTCTTTAGCCATTGAAGCATTTAAAAAATATGTAGATA GGGTAAGATATGAAGGGATTGATATGGCTGAGGCTGACCTTCCTTTCATT GAGAGATATCTAATTAAAAAATTAGATAAAGATAACTTAACTCACTGCAT GATGATGCAAAACTATTGTGAGCACCTTAATTCTTTAGAGTTGAACTATC CCAAAGAGTGGAACGCTGATTTCTTCAATGAAACGCTTAAAATATCACGC TTAATTCTTGAAGACAGATATGAGCGGCGTATACTTGAAATGGGTTATGA GGAGTATAACCAGTATCGACATAAGGGGTTGGTCGAGTATTTTACTGGTA TTTCTATGGCGGATTTCATTGACTTCATAAATAGGTGTAAAGAGTTGAAT AATGCTCTATCGGGGAGAGATAGGGATTATTCTCTAAAAAATGGAATTGA AATGAGTCTTCATGCAATGGCTGAATCAGTACCAAAACTCTTTCCTGATA TTGTACTCATGTATATGGATTATGATGATTATTTTGAAGTGAATCCTCAT CTAATAATCATTGATCTATTTAATTCTCGATCGAAAAAAGATGTTTTCTT AATGCTAAACAGCAAAGAATATCGAAAGAGGAAATTATGGCTATCTGCCT ATTTTGCATTATTACCAGAGAAGTACATTGTTGAAGATGATGCTAGATTA TTAGTAGAGCATGTAAGGACTACACCAAGTAATGAATTGCAAGATTGGCT AAATTATTTGGATAAGTATGAGTCTGTTGATGATTCTATATATAGAAAGA TTGTCAGATCTCTAACAGATAAATCCCGTGAAGATGCTTACTATGCAAGG CCGTTGGAGCACATTTTTAGTAAAAATTCCAGTATTTTTGGTAGGTGGTT TGAAATGTTCGAACCCGATGTGGAATTGGTTTTTGATGCATATCTAGCAG CTTACGTTTTAGGCAATTACTGGGATTATTCTGGCGACGCATTAAAACTT ATCCTGGATAGGAAGTTTGAGTTTTTATATAGTTTGGTTGATAAGATATA CGAAAAGGAAAGATGGCCATGCTTGCATACCAATATGCCTGAGTTGAATT TTTTGTGGGAAAGAGAAAACTATATTGAAGAGATTGAGGGCTACGCGAAG TATATTCATATAAAAAATGAGAAATCCTATAGGTATAAAGATAATATATT TGGCAAATTGTTTACTAAAGAAAATAGTAAAGCTGACTCAGAAGAGATGA TTCAAAAAAAACATAATTTCTTTCGTAGAGTTATCACTAAGAATGCAACT GACATTACATTCATGTGCTTTCTATTTGACTCGGCCAACTACCTTAGCAA AGAAACAAGGAGGGAACTATTAGAGTTATTCCTTAAAGAAAATGATAAGT TCGAGGACTTTAAAATGTTAGATTGCGAACTAACTACTCGGATTTGGTCA GGTAGTCGAGTCCCCATCTTGGAACGAGAAAGGAATTTCCTTGAAAGTTT ACTACCACTTTTTAACTCCATTCGGTTTCTTGAACATAAATCCTACGTAG AAAAACAAATTGAGTATAAGTTGAAGTCTATCGAGGATGAAAAGAAAAGA GATTATCTTGAGAGCAGATAA >VV12955 ATPase involved in DNA repair ATGAATATTGGTTTAATCATCGCTCTGGTCGCCGTTTTACTTGTACTTGT TATTGGTTACAACGTTATGTTGCAGTACAAAGTAAAGGCAGAAACCGCGA AAAGACAGGAGTCAGCGCGTTATGTTGCCGTTATAGATGCAACAGAGGAG TTGATCGGACATGCACATCATATCCCTTACAGCAAAGACTTATTGGTTTG TCTCAACAATCGTATTCTTGATGCGTTAGAAAATATGGCGGCACTTGATC CCAAGAGCAAGCAACTTGCTCAACGGGTCGAAGCAATGAAGCAGCAAATC GAACACCTTAAGAACAACTACCAAGGCGGTGAAAGCACAGCCTTTAAAGT TCCGAACAGTGATAAGCAAGCGATTGTAATGCTGAAACTTGTCAAACGCC TGAGAGACACCATTCGTAACGAGCACAATAAAGGTCGCTTTGATACCCAA GCTTATGTAGAAGAAAATGCTCGCTTAGAAACGATGCAGATTCGCATTAA CATTGAAAACGTCATAAAGCGTGCTCATGATTCTATTGCTCGCGGTCAAG CAGGTACGGCCGTTCAATTGCTGCGTAAAGGGATTGACGTGCTGAGCACT AAGAATGATACCTATTCAGTGCAAGCTAAAGAGAAGCTTGAAACCATGCT TAACGAACTGGATAGAAAACGTTCAGACAAGAATGCAGAAGAGTTGCAAC AAATCGAAGAAAAAGAGCGTAACAACGACATGGATGCACTCTTCGGTGAT AAGAAAAAGTGGTAA >VV21492 DNA-damage-inducible protein J ATGGACACTAGAATTCAATTTCGTGTTGATGAAGAAACAAAACGCCTAGC TCAACAAATGGCTGAGAGCCAAGGTCGCACTCTTAGTGACGCATGCCGTG AACTTACTGAGCAACTCGCTGAACAACAAAGAAAAACATTGTCTCACGAT GCATGGCTAACTGAACAAGTAAATCTAGCATTTGAGAAGTTTGACTCAGG AAAATCCGTTTTCATTGAGCACCAAACTGCTAAATCTCGAATGGAAGAGC GCAAAGCCAGAATCCGTAATCGAGGTAAGCAATGA >VV12520 Type IIA topoisomerase, A subunit ATGGACGTAGTAAGTATCAATAAAAAATTTTTAGAAGAAAAAGAGCAGTT ACTTACAGCTCGTTTGAAGTTGTTACAAGATAAAGCATTAATTCGATTTG AAGAAATAACAGGTATTCGTTCTATACATTCATTTCATGCAATGATGGGA GCGAATAATAATACTTACGTAGATAGTGTTAACACTGTTTTTTTAGATCC CAATGATTTCATTAGTATGTGGATTGACGGTTTAGGTAAAAGTGTACGAG AAAAAGCTGTTCTAGGACGACTAAAGCCCAAAGCTCCCTATAATAGGGTT AATCGTGAATATTTCTTAATGCATGCCCTCCAAGATCATCTCTTAAAAGA GTACCTAATATTATTTCTTACCCGTAATTTTTATCGAAATTTTAAAGAAA GAGTAAGGCATAAACCTGATGAATCTCTTTGGACAATTTGGTTTGGAAGT GGAAATTTAGTGTGGGGATTACTCATTTCTCCTGAAATGAGAAATGATGA CTGGGTAAACGACAAATCTGAAATGAGACGATCAGATTTCAATTTCTGGA CAATTAGGCATGTTATGAATACAGGGCTAATTGATCCGGATTCTGATGAA CCAATGAAATTTCAATCATCAAAGGATTTTGTTCAATTTTATAGAAGTGT TTTAAAAAGAGTTTCTAATTCGCAGTATGAAAAAGCTATAGCAGATCGTT ATATAGATTATTTGAAAAATTCAGACAATTCATATGAAGAGCCATTTTTA ATCCCAGAGTTGAGGTACGCAGGAAAAGAAGCTAAACACAAATATAGACT TGATTACACAATACTTAATCCATATACGAATAAACTCGTGGGTTTCGAGA TAAGTCCGTCATCAACGCATATGGTTGTAGATAGGATCAGAGATGTAAAA AAGATAGATATTAATGAAGACTTATCTAAAAAATGGTCTAAAGAAATGGG TAAAAGAAATGAATACTTCTCTAAGTTTGGTATATCAACGATAACTTTTA CTGATGAAGAACTGAAGGATGTAGATTCATGTTTTTCAGTTATAGCTAAA TATCTTTCCGAAAGAGGAGTAGAGAAGAAAAATTTAAGTAATTCAATAAG CAATATTAATGGGCTATTTGACGAACTTTCGTTATAA >VV20185 Superfamily I DNA and RNA helicase ATGTTGGTGCATCCTCAGTATGGAACACATCAAGGGGTTAAAGGCTTAGA GTTTGATCGTGTTATGGCAATTATGGACGATAACAGTGCAAATGGATTCC TGTTCCTCTATGAAAAACTATTTGGTGCTCAAGAGTTATCCCAGACGGAT ATACGAAATCAATCAGAAGGCAAAGACTCTGTTCTATCAAGAACTAGAAG GTTGTTTTATGTGATATGTAGTAGGGCAGAAAAGAGTTTAGCTATCGTTG CATATACCAAAGATCCCAAAGTTGTAAAGAGGAAGAGTTTAGAGTCTGGC TGGTTTACTCAAGATGAAATTGAAATGATGTAG >VV20227 Superfamily II DNA and RNA helicase ATGACAAATACTTTCATTGAGCTTGGACTTGATTCTTCGTTAAGCGATCA TCTTTCTCAGCTAGGATTTAACACACCAACACCAATTCAACAGCAAGCGA TTCCACATCTTTTGCAAGGTAGAGATGTGCTGGCTGCCGCTCAAACAGGG ACAGGAAAAACCGCCGCTTATGGCTTGCCACTGATCCAAATGTTGTCACG ACAGTCGCGAGAAGAAACGGCACCCAAACATCCTAGAGCACTGATCTTAG CGCCAACCCGAGAGCTGGCGCAGCAAGTGTTCGACAATTTGAAACAGTAT GCGCAACACACTGAGTTGGCTATCGTTACCGTATACGGTGGAACCAGTAT CCGTGTTCAACAAGAACAATTGGCAAAAGGTGTTGATATCCTCATTGCGA CGCCTGGACGTCTATTGGATCATCTTTTTACCAAGAAAACCTCATTGAAC CAGTTGCAAATGCTGGTGTTAGACGAAGCCGATCGCATGTTGGATATGGG CTTTTTGCCCGACATTCAGCGCATTATGAAAAGAATGCCTGAAGAGCGTC AAACGCTGCTGTTTTCCGCTACGTTTGAAACACGTGTCAAAGCATTGGCT TATCGTTTAATGAAAGAGCCCGTCGAAGTTCAAGTTGCCGCTGCCAACAG CACCGCCGACACCGTTAAGCAGATGGTGTATCCGGTCGACAAAAAACGCA AAAGCGAGTTGTTGGCGTATCTCATTGGCTCTCGTAATTGGCAGCAAGTA CTGGTATTTACCAAAACTAAGCAAGGCAGCGATGCTTTGGTGAGTGAATT AAAGCTGGATGGCATCAAGGCCGCTTCCATCAATGGCGATAAATCGCAAG GTGCACGTCAGAAAGCTCTGGATGATTTTAAATCGGGTAAAGTACGCGCG TTGATCGCCACCGATGTTGCCGCACGCGGTTTGGATATTGCTCAGCTAGA GCAAGTCGTAAACTTCGATATGCCTTACAAGGCAGAAGATTACGTGCACC GAATTGGCCGAACGGGGAGAGCAGGGCAAACGGGGCTCGCAGTATCTTTT ATGTCACGAGATGAAGAATACTTGCTGCAAGCGATTGAAAATCTGCTGGA TACCCGTTTACCTCAAGAATGGTTAGCGGGATTTGAGCCCAGTGAAAAAG AGAACTACGTTGAAGATACACCTAGCAAGCGCACTAGTCGTTCAGCAGAA AAACGTAAGCTTAAGCAAAAGTTAAAAATTCACCAAGGCCGTGGTAAAAA GCGCTGA >VV10385 Putative transposase GTGTTCAGTGTCCAGCGTAGCAGCTACAAATACTGGCGTTGTCGCCCCAA ACGTGTTTCCCCTGAGCTGGTGAAACTCAAGAGTCTCATTAAAGAAGTTC ACACGGCAAGCAATGGCTCTGCGGGTGCGAGAAGCATTGCCGACATGGTA ACGGCCCAAGGTGTAAAACTGGCACGTTATCGAGCTTCTAAGGTGATGAA ATTATTAGGCCTGGTAAGCTGCCAAACATTGAAGCACCGTTATCGAAAAA CATCACAAGAGCATGTAGAGATCCCAAACCATCTATCTCGACAGTTTGCC GTTACTGCTCCCAACCAAGTCTGGGTAGGAGACGTGACGTATGTCTGGAC AGGTCAGCGCTGGATGTATCTTGCTGTTGTCATCGACCTATTCGCGAGAA AGCCAATTGTTTGGGCGATGTCAGTCTCTCCCGATAGCAAGATGACAGGA AAGGCACTCTCTATGGCATTTGAGTCACGAGGTAAGCCTAGAGGCGTAAA GAGTTAA >VV12529 Transposase and inactivated derivatives ATGAGATACACGCACCTCACTGAGAACGAAAGGTATATGATTTCTGCGCT CAGAAAGCAAGGAATTAGTACCGCTAAAATAGCTAAACAACTAGGTCGTC ACAAAGCTACTATCTATCGAGAAATTGAACGTAATTCCCGATACAACAGA CACTTTAGAAGGTTCTCCTATCAAGCATGGAGAGCCCAACAGATGGCTCG CAACCGGCTAAGCCGCTCGCGCAGAAACAAGCGCTATAGCGAAATCGACT TCAGGTTACCTGAAGCCTTGCTACGACTGGATTGGAGCCCTGACCAAATC GTCGGATACCTAAGGGTAAGAGGCTATCCAACAATGAGCCACGAGCTCAT TTATCAGCATATTTGGAACGACAAAACTCTCGGTGGAACACTATGGAAAC ATCTACGCCAATCGACCAAGAAAAGGCGCAAAAGATATAACTCAAAAGAC AGCCGAGGTCGGCTGGCAGCAAAGCGTCATATTACCGAAAGACCTGCAAA AGCTGAGCATCGAAATGAGCCTGGCCATTGGGAAATTGATACCGTCGTTG GCCGCGGAACCAAGCACTGTATCGTAACTTTAGTCGACAGAATGACTGGC TACACTTTTATAGGGCAAATGGACGATAGAACAAGCGAGTCGCTCAACGT AAGAATGAGCAAAATCATGACCCGCTCTGACTTACCTTTTAAGACGATAA CTGCGGATAACGGCACTGAATTTCATGGTTATGCACAACTGGAAAAACAT CATAACTGTCTGTTTTACTTTGCAAATCCATACCATTCATGGGAGCGAGG GACTAATGAAAACACCAATGGTTTGATACGACAATACTTACCAAAACGAA CTTCTATGTCACACGTAACACAGAAGCTCTGCAATGAAATTGCACACAAA TTAAATACGCGCCCACGCAAAAGACTTGGGTATAGGACACCAACGGAGTA TATTCATGCGCATCTGTAA >VV11214 NTP pyrophosphohydrolase ATGTTATCGAATAGTGACAGTAAGCATGGCCAGAAAGCATATTGGTGCGT TGTATCGGGCAGTGACCTTTGGCTGGTGGACGGGCAACTTCCCCTTGCAA CAAGCAATGAGCTCAACTTAGTGGCAGAAAAGGCGCAGAAAATCGGCAGT TATAACAACCATCCCGTCATGTGGCTCAACGAAGCAGATGTCGAGCAGAG TTTAGAAATGCACTCGCTGCGCGAGTGTTTGCATTTTCCTGAACCTCTCT TTTTGCTCATGAGCAAAGCCATTCAATATGGCCATATGACGCAAACAATG CGTTTTTGTCCTCAGTGTGGTGGACGCAACCACCTCAATCACAACCAACT CGCGATGCAGTGTGGGGAATGCCGGACCTTGCATTACCCGAGAATTTTCC CATGTATTATTGTTGCGGTGCGGAAACAGCAGCATATTTTGTTGGCACAG CACCCCAGACACCGTAGTGGTATGTATACCGTGATCGCTGGTTTTGTCGA GGTCGGTGAAACGTTGGAGCAGTGCGTCGCTCGAGAGGTGAAAGAAGAAA CTGGTATTGAAGTGACCAATATTCGTTACTTTGGCAGCCAACCTTGGGCA TTTCCTTCCAGTATGATGATGGCCTTTTTAGCGGATTACCACGCTGGAGA GTTGAAACCAGACTACAGCGAGTTAGCGGATGCTAAATGGTTCACCAGTG ACAATTTGCCCCCCGTCGCACCAACAGGCACGATAGCTAGAGCATTAATA GAACAAACATTGCTTAATATGAGATCTGACTCGTAA >VV12508 NTP pyrophosphohydrolase GTGCAACATTTTAACGGATGCAAATTAGTTGTTCATTGTAACGAGCAAAT TCTTACCTATAAAAGAGATAATATTTCTTCCATCTCATACCCAAATTGCT GGGACTTACCTGGTGGCGGTCGTGAAGGGAACGAAACGCCAGAGGATTGT GCACTAAGAGAATTGAAAGAAGAATTCGGTATCGAACTGTGCCCATCGCG TATTCATTACAAGCAAAAAGTGGAAAGTCATACAGGCTTTGGTTGTGCGT ATTTTCTAGCGGTTACGATAACCGAAAGTGAGTTACGCGAAATTCAGTTT GGCGATGAGGGGCAATATTGGAAGCTTATGGACATAGAAACGTACTTAGC CCTCTCAGACGCTGTGCCATCCAACCAGCAAAGAATAAGAGGCTATCTCA ACCTATGA >VV12040 ATPase involved in DNA repair ATGAACATACAAACTAACGAACGCACTTACATTACAGACTTACGTACCAA GCTTAAACAGCAATTTATTCAAGAGATGCATAACGCGAACAAAGATCCCG ATAAAGGCATTACCTTCGACGTGATGCTTGACGCTTACGAAGCTGCAAAA GCGGAAGGAAAATGTTTTGAGAACCCAGCCCAATTACAAGCCGCGGTTGG TGGGAGGTATGTAAAAGCTCAAATAGCATTTCAAATACTCGATTCTGCTC AACCTAATGCGAATCGATATAATCGAGAAGTTCCCCAGTGGTTTTCCAGC CCGCTAGAAACTGCACTAAAACTCGACATAGCGGCTTTGTGGCAAGCTGT AGAGAGTGACATTGCTAGTATTGTAGAAAGTCGAGTAAAGATAGCTGAAC ACTGTTCTGAACAGAAACGCCTACAAGCATTACAATCCAGTGAGCTGGTC GAAGAGCTTCAAGACAAACTTGATGAGCTGAAAGAACTACCTGCGCAACT TAGTGAACTAAAGATCGACAATGAGCGCTTAAAAACCGAAGTGAGCGTAC TTGAAAACAGAGCCTCAACTTTGCAAGCCAGTTCAGACTCTTCATTTGCC TTACAGCGTGAAAACGCGATTTTAGAAGACAACAATGCGAAGATTAAATC TGAAAATCAGAATATGAGAAAAGAACTTGAGCGAACTGCTGCCCTCTTGC AAGAAACGCTTATCAAGAAAGCTAACTTAGAAGGTCGCTTAGAAGAGCGC GGCGAGTTTTCTAAAACTACCAACAAACGGCATCCAAGCTAA >VV10999 DNA replication initiator DnaA ATGCAACGGCTTCAAGAAGAGCTACCAGCTACAGAATTCAGTATGTGGGT TCGCCCGTTACAAGCGGAGCTCAATGACAATACGCTCACTCTGTTCGCGC CAAACCGCTTTGTTTTGGATTGGGTGCGAGACAAATACCTCAATAGCATT AATCGTTTATTGCAAGAATATTGCGGTCATGACATTCCTAACTTGCGTTT TGAAGTCGGCAGCCGTCCTGTGGCTGCACCTAAGCCAGCACCAACTCGCA CACCAGCGGATGTGGCGGCCGAATCGTCGGCACCCGCACAATTGCAAGCG CGTAAGCCAGTACACAAAACTTGGGATGATGATGCTCAAGCGATCGCTGA CATCAATCACCGCTCAAATGTGAACCCTAAGCATAAGTTCAATAACTTTG TCGAAGGTAAGTCGAACCAATTGGGTTTGGCCGCAGCACGTCAGGTGGCG GATAACCCTGGTGGGGCGTACAACCCACTGTTCTTATACGGCGGCACCGG TTTAGGTAAAACCCACTTGTTGCACGCCGTTGGCAACGCCATTGTTGATA ACAAGCCCAACGCCAAAGTGGTTTACATGCACTCTGAGCGTTTTGTGCAA GACATGGTTAAAGCCCTGCAAAATAACGCAATTGAAGAGTTCAAACGTTA CTACCGCAGTGTTGATGCCTTACTTATCGATGACATTCAATTCTTTGCTA ACAAAGAGCGTTCGCAGGAAGAGTTCTTCCACACCTTTAACGCGCTATTG GAAGGCAACCAACAGATTATCCTGACTTCGGATCGTTATCCAAAAGAGAT CAGCGGGGTAGAAGATCGCCTGAAATCACGCTTTGGTTGGGGTTTGACGG TGGCGATTGAGCCGCCAGAACTGGAAACCCGTGTGGCGATCTTGATGAAG AAAGCCGAAGATCACCAAATCCATCTTGCCGATGAAGTGGCGTTCTTTAT TGCTAAGCGTCTGCGTTCTAATGTTCGTGAGCTAGAAGGGGCATTAAACC GCGTGATCGCCAATGCCAACTTTACTGGCCGCCCAATTACCATTGATTTT GTGCGTGAAGCACTGCGTGACCTATTGGCACTGCAAGAGAAGCTGGTGAC CATCGACAACATTCAAAAGACGGTTGCGGAATACTACAAGATTAAAGTGG CCGATCTACTCTCTAAGCGACGTTCTCGCTCGGTTGCGCGTCCTCGCCAA TTAGCCATGGCATTGGCCAAAGAGCTTACCAACCACAGCTTGCCGGAAAT CGGCGATGCGTTTGGTGGCCGTGACCACACCACAGTGCTGCATGCGTGTC GTAAGATTGAGCAGCTGCGTGAAGAGAGCCACGATATTAAAGAAGATTAC TCTAACTTGATTCGCACCCTGTCGTCTTAA >VV12024 Phosphatidylinositol kinase and protein kinase of the PI-3 kinase family TTGGCACTGATTATAAGGCAACAGCTCCCAACTCTAGTTAACTTTGATTT AGATGAGTGGGATTTTAATGATGTGCAATGGGAGGTTGAATGTACCAAAT CTGGATTTCAAGTTGATGCATACACTAAAGACTTAACCTCTAACATATCG GTAGTGATGGATATCCCTTTCGAGAGCAGTCGTCATTTGTTACCTGAAGC TGTCCCCGAAGATATAGACATAATCCTAAGAGTGGATACACACAAGATGG CTCGGCAGCTTTATCCATCTAAAAGCCCAGTTAAATTATTAAGCTCAGAA GAAGTATTCAACTATCTCTTAAATCATTGGGAAGACTTAGTTGAAATGCT TCGCTGGCCTGAGTCAACCATAGAACAACTATGCAAAGATACAGAGATTG CAGAAAACAGTATAAAGACCAATGATCCTATCTGCCTATGCTGCGGTGAG AAAACAGCAAGATATGGACGAGGGCTTCTTTGTGAAGAGTGCGTTTGGAA AGAGGTTGGTAGCAAATTTAATTCAATCAGTGAGATGGTTGTGTTTTATA GGAAAAACTCTAATTAA >VV12039 ATPase involved in DNA repair ATGAGAGTAGGTACTAAAGAGTTGTACAAAATCGGTTTGGAAACTCTTCA GCATTATGAGCAAGAAGAGTACTTCAGCTTGTTTAGTTACCGAAAGCTTT TGAGGCCTTTTCTCGAGACGCATTACTGCATTGATGAACATATTGAGCGT TTTAATAATCAGTCTTATCGAATTTTGAAAATACTAGAACAGGAAGGGAA GGTTGTGCGATTAAGTCCCCCTCGAATAAATAACGCTCAATTTGTTGCAG TCGGAGGCACAAAAGTCACACAAGAAAAGCATAGAGTAGGCCAAGGGTAT TTAGAGTCTGAGCTAGTTAGCGAAGAGCGACAATACCAAGATCAGTTGAA CACTAAACTTGTTGAAATTAATGACCAAATAGTTGCGCATAAAGAACTGC TGGATCTATTTCCAGTTCATGGTGAACATTTGAACAACGAAATAGAAAAG CTAGAGCGTGAAGCATTACTTACTGAATATAAGAAAGAAATTATGGGGAA GATTATTAATCAAGAGAAACGCTAA >VV12157 Crossover junction endodeoxyribonuclease RuvC ATGTCGATTATTCTAGGAATTGACCCAGGCTCTCGCGTTACTGGCTATGG TGTGATTCGCCAAAATGGCCGACACCTGCAATATCTTGGCAGTGGTTGTA TTCGTACATCAGAAAAAGATTTACCTGGTCGTTTAAAGCAAATTTATGCG GGTGTAACGGAGATTATTACTCAGTTTCAGCCGGATGCGTTTGCCATCGA ACAGGTCTTCATGGCGAAAAATGCCGACTCAGCACTCAAACTTGGCCAAG CGCGTGGTGCGGCAATCGTTTCTGCCGTGAATCACGATTTGCCAGTTTAC GAATACGCCGCTCGTTTGATTAAGCAAGCCGTGGTAGGCACGGGTGGGGC TGATAAAGCACAGGTGCAACACATGGTGCAACATATGCTCAAGTTACCCG CTAAACCCCAGGCGGACGCGGCCGATGCGTTAGGTGTTGCCATTTGTCAC GCCAATACCAATAAAACCCTCATTGCCTTAGCCGGGCAGGCGACCAGTGC TAAACGAGGCCGTTATCGCTAA >VV21063 Superfamily II DNA and RNA helicase ATGCCATTTTCTACTCTCTCATTGAGTTCTGAGCTGATTCACGCACTGCC AAAAGACTTCAAGAAACCGACCGATATTCAAGCGTTGGCCATTCCTGAGC TGTTGGCTGGTCAAGATCTACTGGCTTTGGCAAATACGGGCAGCGGCAAA ACCCTTGCGTATGGTTTGCCTTTGTTGGAAAAGCTAGGTGTCAATCCAGA GCAAAAAGCGCTGATTTTGGTACCAATACGCGAGCTAGCAACGCAAGTGA GCGAGGCAATTAACCAAGTTGGTCAAGCGCTTGGCCTTAACGCGGTGTGT TTGTGCGGTGGTGTGGATAAAGAGCAGCAACTGCAAGCACTAGCGACAAA TCCTCACATTCTTGTTGCCACAACCGGCCGTTTGGTTGATCTGGCAAACA ACGGTTTGGACCTAAGCAATATCCATTACCTAGTATTGGATGAGGCGGAT CGTTTGCTGAATATGGGCTTTTGGCCTGACGTACAAAATATTGCAGGGCA GATTTCAAATCAGCGTCAAACCGCAATGTTCTCGGCAACCTTTTCAGATG AGTTGAAGGGTAAAGCGAAGCTGCTTATGCAGGCACCAAAGCAGGTGGCT GCGCATCAAGAAAACAGCACCAACCAAGATATTGCTGAAACGCTGTACCT CGTCAACAAAGGCAGTAAAACCAAGGCATTGATTGAACTGATTCAAAAAA ACGCGTGGACTCAGGCGTTAGTCTTTATTGGCGCGAAAGAGAACGCCGAT GGTTTGGCGAAGAAGCTGAATAAAGCGGGCATCTCAACCAATGCATTGCA CGGTGACAAGAGCCAAGCAGAGCGAGAAGCAGCATTGGCGCAGTTTAAAT CTGGGCAAACTCAGGTGCTGATTGCGACCGATTTATTAGCACGCGGCATT CACATTGAACAACTGCCCGTGGTGATCAACTTCGAACTGCCGATGCATGC AGAAACTTATGTTCACCGAGTAGGGCGCACCGCCCGAGCAGGTGAGCAAG GCGTGGCGTTGTCATTGGTTTGCCACGGCGAAATGGACGCACTCAGCGCG ATTCGCCACCTCACTCAACGTGAGTTGCCTGTGCAAGATTTGGAAGGGTT TCCAGTTACAGACAAACCGTCGACAGGCGAGAGCAAACGCGCGCCACGCG ACAAAAAAGCCAATCGCCGTACGCAAAATAAAAAGAGCGTTAAGCAGTTT CAAAGTAAGGCGAAGCGCCCAGCGCCTAAAAGTAAGTAA >VV20619 Transposase ATGGCTCGCAACCGGCTGAGTCGCTCGCGCAGAAATAAGCGCTATACCGA ACTTGACTTCAGGTTACCTGAAGCCTTGCTACGACTGGATTGGAGTCCTG ACCAAATCGTCGGATACCTGAGGGGAAGAGGCTATCCAACAATGAGCCAC GAGCTCATTTATCAGTACGTTTGGAACGACAAAACTTTCGGTGGAACATT ATGGAAGCACCTACGCCAATCCACTAAGAAAAGGCGTAAAAGGCATAACT CAAAAGACAGCCGTGGACGGCTAGCTGCAAAACGTCATATTACCGAAAGA CCAGCAAATGCTGAGCATCGAAAAGAGCCTGGTCATTGGGAAATTGATAC CGTCGTTGGCCGAGGAACCAAGCACTGTATCGTGACTTTAGTCGACAGAA TGACTGGCTATACTTTTATTGGGCAAATGGGCGACAGAACAAGCGAGTCG CTCAACGTAAGAATGAGCAAAATCATGACCCGCTCTGACTTGCCTTTTAA GACGATAACTGCGGATAACGGCACTGAATTTCATGGTTATGCGCAACTAG AAAAAAAATCATAA >VV10005 Transposase ATGATTCTAACATTACCTGACCGCGTTGAGCGACGTCGTATCACTAAAAA GATGCATAAGACTAAGGATAAAGACCATTACCGACGCTTGAATGCCATAT TGCTTCTTTACCAAGGACATTCTGTTACCACAGTCTCGAAGATTCTGGTT TCAGCTCGGTCTTCTATAGGACGCTGGATTCACTGGTACACGAAATGCGG CATCGATGGCTTGGAAAGCTCAACTCGAGGTAGAGCCGCGACGCTCCCAT TTCTTCAAATTGCCGCTGTATTGACAGCTTTAATCGCACTGAATCCTCAA AGTCTGGGATATCAGCGTTCACGTTGGGATCGTTTGGTCCGGTGA >VV20294 Mg-dependent DNase ATGATTCAGTTAGCGGAGCCAGCGGGCGCGCTGGAACGGCTCAAAGTGGC GTTTAGAAAATGCCCGCAAGACTTCGAAGCCTTAAAGGGTGAAGTGTCGG CGGGCAATGTCAGCCTCTACCAAATACACGGTGAAGGGTATGACGTCACG ATTGCGGGGGAGATTGTCGGCGATTCCTATTTTTTGTGGGGAGTGTCGGG GGTTGGCGTCGTGAAAGCCATGCAAGAGCTCGCGCCCGTTGTGCGCCGAT TGGGTTTAAACAGTATCAGCGCTGAAACCTATTTTCCCGCGCTGGCTCGG TTGGTAAAGCCTTTGCACACCAACGAGAAGCAGCCAAGCGAAGAAGTGAC CGCGCTGACAATGCGAGTTTAA >VV12550 Transposase and inactivated derivatives ATGGCTAAACATCGTAATCCAGCGTACACCGAAGAGTTCCGTAAAGACGC AGTTCGCTTGGCCAGTCTTCCTGGCCGAACAGCAGTTTCCGTTGCCAAGG AGCTGGGCATCAGTGCCCAGCAGATCCGGAACAGTTCACACGCCTATCTG ATAAACAGTTTAACACTTTAG >VV20968 Superfamily II DNA and RNA helicase ATGTCCTTTACTCAACTCGGCTTGTGTGCGTCGCTCACTGACGCCATTGA TACACTTGGCTACCCAAAACCCACTCGCATTCAAACCCAAGCCATTCCTG TCATTCTAGAAGGCCGAGATTTGATTGCGGCGGCGCAAACGGGGACAGGT AAAACCGCCAGTTTTGTTCTGCCAATGCTTGAGAAATTGCGTCATGGTCA AACACAAAAGAAAAAGCGTATCCGCGCCCTTATTTTGGTTCCAACACGCG AACTGGCGATCCAAGTCGACGAAAAAATCAAACAGTATGGGCAAAACCTA GCGCTTCGCTCATTGGCCATGTTCGGTGGCGTTGACGAAAAAGCGCAAAA ACAAGCCTTAATTGAAGGTTTAGATATTCTTGTCGCCACGCCAGGACGAC TGCTGGATATGTACGGTCAACGCGCCGTCTATTTCGAAGAAATCGAGATG TTAGTGCTTGATGAAGCCGATCGCATGCTCGACATGGGCTTTATTGATGA CATCAATAAGATCCTCGATCGTTTGCCTGAAAACATTCAGCATTTGCTGT TCTCTGCCACCCTCTCGAATAAAGTGCGTGATCTGGCCAAAAGCGCCATT CACAATCCGTTCGAGATCAGCATTGCCGCGAAGCAAGCGTCTAAATCTAA CATAGAGCAATGGATCATCACCGTAGACAAAGACCAAAAATCGGCCTTGC TCAGTCACTTGATCAAAGAAAATCAGTGGGATCAAACCTTGATTTTTATT GAGACCAAACATGGTGCCGCCAAGCTGGTCTCTCAGTTGGAAAAACGAGG CATCGTGGCCGAAGCCTTTCACAGTGGCCGCAGCCAAGCGGTGCGAGAGC AACTGCTGGAAGATTTTAAAGCGGGAAAAATCAAATACTTGGTGTCAACG GGCGTGGCTGCTCGTGGTATCGATATTGAAGCACTACCACGCGTGGTGAA CTACGACTTGCCTTTCCCTGCCGATGAATATGTCCACCGAATTGGCCGTA CGGGTCGTGCCAATGCCAAGGGTGAAGCGATTTCATTGGTTTCAAAGGAT AACTTCAAAAACCTATGCATGATTGAGAGTCGTCTCGGACACCTGCTTGA GCGCCGAGAAGTGGAAGGATTTACCCCGAAGAAAGCCGTGCCAATTTCAA TTTTGAATTATGTGCCAAAACACAAAAGAAATAACCAGCCTGAATAA >VV11430 Single-stranded DNA-binding protein ATGGCCAGCCGTGGAATTAACAAAGTAATCTTGGTAGGGAACTTAGGTAA CGACCCTGAAATTCGTTACATGCCAAGTGGCGGTGCGGTGGCGAATATCA CCGTTGCAACTTCAGAAACTTGGCGCGACAAAGCGACAGGCGAGCCGCGT GAGAAAACAGAATGGCACCGTGTGACGTTATACGGCAAGCTGGCAGAAGT CGCGGGTGAATACCTACGCAAAGGTTCTCAAGTCTACATTGAAGGACAAC TGCAAACGCGCAAATGGCAAGACCAAAATGGTCAAGACCGTTATTCAACT GAAGTCGTTGTACAAGGCTACAATGGCATTATGCAAATGTTGGGTGGTCG TCAGCAGCAAGGTGGCGCCCCAGCGATGGGTGGTGCTCCGCAGCAGCAAC AAGGTGGTTGGGGTCAGCCTCAACAGCCAGCCGCACAGCCGTCTTACCAA AAGCAGGCTCCAGCGCAACAACAGCCAATGCAGTCTCAGCCTCAGTACAA TGAGCCGCCAATGGACTTTGACGACGACATTCCGTTTTAA >VV12106 Exodeoxyribonuclease III ATGAAAATCGTCAGCTTCAACATCAATGGGTTACGAGCTCGCCTTCATCA ACTGCAAGCATTGATCGACAAACATCAACCTGATGTTATTGGTCTGCAAG AAATCAAAGTCCACGACGAAGCCTTTCCTGTCGAAGACGTCGAAGCGATG GGCTATAAAGTCTATTTCCACGGGCAAAAAGCGCATTACGGCGTGGCTCT GCTGTGTAAACAAGAGCCAATCGAAATCCAAAAAGGGTTCCCAACCGATA ATGACGAACATCAGAAGCGCATGATCATCGGGACTTTTCTTGATGAGAAG GGTGAAAAAGTGACGGTGTTGAACGGCTATTTTCCGCAAGGGGACAACAT TGCGCACGAAACCAAGTTCCCTTATAAACGCCAGTTTTACAAAGATCTGA TGGGGTACCTAACCACTCACAGAGACAACGGTGAGCAAGTGGTTGTGATG GGTGACATCAATATCAGCCCGATCGACGCCGACATCGGTATTGGTGAAGT GAACCGCAAACGCTGGTTAAAAACGGGCAAATGTTCGTTCCAGCCTGAGG AGCGTGAGTGGTTACAAACCTTACTGGATTGGGGGTTAGAAGATACGTTC CGCAAATTGCATCCAAGTGTGGATGATAAGTTCTCGTGGTTTGACTACCG TTCAAAAGGCTTTGACGATAATCGTGGCCTGCGCATTGATGTGATTCTTG CTACACCATCGTTAGCGGCCCAGTGCCGAGAATCCGATATCGATTACGAG CTACGCGGCATTGAAAAACCTTCAGATCACGCGCCTATTTGGGCAACCTT TGAGTAA >VV11960 ATPase involved in DNA repair ATGGTTGAGATGTTTTCTAATAGTCCAGCGTTGCTTGTCGGTGTTGGACT TTTCGTCTTACTGTTGTTGGTTGTGCTTCAGCTACGGATAAAAGCGACGT TGCAAGCGCGTTTGGATAGCCAAGGGCAGAAGCTGCGTAGCAGCGAGAAA GAGTTACAAAAAGCGAACAAGCAGCTATTAGAAGTGAGATCGGTTGTTAT CGGTTTAGGCCAACGCGTCAGTGAGCAACAAGAGATCATTCAACACTTAA CAGAGCGCGTGGTTGAGCTTGAGCAAGCGGATACCGACGGGCGTTTGTAT ACTCGAGCCAGCAAAATGGTTCAACTTGGCGCAGACGTCAACGAACTGAT TAAAGAGTGCGAACTGCCAAAAGCAGAAGCCGAGTTGATGCTTTCTCTGC AAAAGAAAATTGCAGGTAAAGAGAAAATTCCACCGCTAAGCAGCCAATTG TCGGACTTAGACGAAACGGCAGCAAAAAAAGCACCGACGCGTCGCCGATA G >VV11238 DNA polymerase III, epsilon subunit ATGAACTGGTTTCGGCGCAACTACTGGTACTACCGATTGAAAGGCTCGCC CTATCAGTCGCTGTTTTGTGCGCCAAACAATAAAGAGTATGTCTCTCTCG ACTGTGAAACCACCAGCCTTGACCCCAACCGCGCAGAACTCGTCACCATT GCCGCGACCAAGATCATCGACAATCGCATCATCACCAGTAAACCGTTCGA GGTGCGTTTGCGTGCGCCACAGTCTCTCGATTCTGGTTCAGTGAAAATTC ACAAGATCCGCCACCAAGACTTGGTCGATGGGTTGAGCGAGAAAGAAGCA CTGCTCAAACTGATTGATTTCATCGGTAATCGCCCCTTGGTGGGCTACCA CATCCGCTACGATAAGAAGATCCTCGATTTAGCCTGCTTACGCCACCTCG GTTTTCCCTTGGCCAATCCACTGGTGGAAGTCAGCCAGATCTACCATGAC AAGCTGGAAAAACATCTACCCAACGCCTATTTCGATTTGAGTTTGGACGC CATTTGTCGCCATCTCGACTTGCCCATCCAAGACAAACACGATGCGCTGC AAGATGCCATTGCCGCGGCTTTGGTGTTTGTGCGACTCACTCGTGGCGAT TTGCCGAGCCTGTCATTGCCCTATGCTTCTTCGTGA >VV13103 Ribonuclease T ATGACTGTAGAAAACACAGCACTGACCCTGAAAAAACGCTTTCGCGGCTA TTTTCCTGTTGTCGTCGATGTTGAAACCGCCGGGTTCAATGCCCAAACGG ATGCCCTCTTAGAAATTTGCGCCGTCACACTATCCATGGATGAAAACGGT GATCTTCACCCTGCATCGACCATTCACTTTCATGTTGAACCCTTTGATGG GGCAAATCTCGAAAAAGAAGCACTTGAGTTCAACGGCATTCGCGACCCGT TTAGCCCATTACGCGGCGCAGTGACGGAACAAGAAGCGCTAAAAGAGATC TATAAACTCATCCGTAGAGAACAAAAAGCCGCTGATTGTAGCCGCGCCAT TATGGTGGCACACAACGCAGCGTTTGACTTAAGTTTCGTTAACGCCGCTA ATGAGCGTTGCAAACTTAAACGAGTCCCGTTTCATCCCTTTGCCACTTTC GATACCGCAACGCTCAGTGGCTTAGCTTATGGCCAAACTGTACTGGCGAA AGCGTGTAAAACCGCAGGGATGGAATTTGACAATCGTGAGGCCCACTCGG CGCTTTACGATACCGAAAAAACCGCAGAGCTGTTCTGTGGCATCGTCAAT AAATGGAAAGCGCTTGGAGGCTGGCCATTAATTGAAGATGAAAACGAAAA ATAA >VV10998 DNA polymerase III, beta chain ATGAAATTTACTATCGCACGTAGTCATTTTATTAAACCCCTTCAACAGGT TTCCGGTGCACTCGGTGGGCGACCAACGCTACCGATCCTCGGTAATTTGC TGATCAACGTTGAAAATGGTCAACTGTCAATGACCGCCACGGACTTAGAA GTGGAGCTGATCAGTAAAGTGACCTTGGAAGGGGAGTTTGAAGCGGGCAG TATTACGGTTCCTTCGCGCAAGTTTATCGATATCTGCCGTGGATTACCCG ACGATGCGGTGATCACGTTTGTATTGGAAGGTGATCGCGTGCAAGTGCGC TCCGGGCGAAGCCGTTTCTCGTTGGCCACTCTGCCGGCCAATGATTTTCC GAATATTGAAGATTGGCAAAGTGAAGTGGAAGTCTCCCTCACTCAGGGCG AATTGCGCGCGCTGATTGAGAAAACACAATTCTCGATGGCGAACCAAGAC GTACGCTACTACCTCAATGGCATGTTGTTTGAAATTGAGGGCAGCACACT GCGCAGTGTCGCGACCGATGGTCACCGTATGGCTGTGGCGCAGGCAGCGT TGAGTGCTGACTTTGCACAAAAGCAGATCATCGTACCGCGTAAAGGTGTG CAAGAGCTGGTTAAATTGCTGGATACACCAGAGCAACCCGTCACGCTGCA AATTGGCAGCTCAAATCTGCGCGCCGAAGTAAACCATTTTGTCTTTACTT CTAAGTTGGTGGATGGTCGTTTCCCGGATTACCGTCGCGTGTTGCCGCAA CACACAACCAAAACGCTGGAAGCGAGTTGTGATGAATTACGCCAAGCGTT TTCACGCGCGGCGATTTTGTCGAATGAAAAATTCCGTGGCGTTCGCGTTA ACCTCGCTGGCAGTGAAATGCGCATTACCGCCAACAACCCAGAGCAAGAA GAAGCGGAAGAGATGTTGGATGTGAGCTTCGAGGGCGAGGCGATTGAGAT TGGCTTCAACGTTAGCTACGTATTGGATGTGTTGAACACCTTGCGTTGTG AACAAGTACGAATCTCAATGTCGGATGCCAACGCCAGTGCTCTGGTTGAA AATGTCGATGACGACAGCGCCATGTACGTGGTTATGCCAATTCGTCTATA A >VV10605 Type IIA topoisomerase, A subunit ATGTCTACAGAAATTACTTATGATGGCGTCGAACAATTGCCAATGCGCAA GTTCACCGAAGATGCTTATCTAAACTATTCGATGTACGTCATTATGGATC GTGCGTTGCCTTATATTGGTGACGGTCTGAAACCGGTTCAACGACGTATT ATCTACGCGATGTCGGAGCTTGGGCTTTCGGCGGCGGCAAAATATAAAAA ATCAGCGCGTACCGTGGGTGACGTGTTGGGTAAGTACCATCCGCATGGCG ACTCTGCGTGTTATGAAGCGATGGTTCTGATGGCACAGCCATTCTCATAC CGCTATCCGTTGGTGGACGGTCAAGGTAACTGGGGGGCGCCGGATGATCC GAAATCCTTCGCTGCGATGCGTTATACCGAAGCCAAATTGTCGAAATTTG CCGATGTGCTTCTGGGAGAGCTTGGTCAAGGCACGGTCGAGTGGCAGCCT AACTTTGATGGCACGATGAAAGAGCCAAAAATGCTGCCAGCACGTTTGCC TCACATCCTTCTCAATGGTGTGACAGGCATTGCGGTGGGTATGGCGACGG ACATTCCTCCTCATAACGTACGTGAAGTTGCGGATGCCACCATTCATTTG ATTGATAATCCAGCTGCACCGCTGATGGATTTAATGCAGTACGTCAAAGG GCCTGATTTCCCGACAGAAGCAGAGATTATTACCCCAAGTAGCGATCTGG AAAAAATGTACCGCAGTGGCCGTGGCAGCGTGAAAATGCGCGCGGTTTGG TGCAAAGAGGGCAGTGACATCGTTATCACGGCGCTCCCACATCAAGTCTC AGGGGCCAAGCTGCTTGAGCAAATTGCTGCGCAAATGCGCGCGAAAAAAT TGCCAATGGTGGAAGACTTGCGTGATGAGTCTGACCACGAAAACCCAACT CGTATTGTGATTGTACCGCGCTCAAATCGCGTTGATTGCGACCAGTTAAT GAACCACTTGTTTGCGTCCACTGATTTGGAGAAGAGCTATCGTGTTAACT TAAACATGATTGGTCTCGACAACCGCCCACAAGTGAAAGGCTTGGTGCAG ATTTTGACGGAATGGATCACTTTCCGTCGCGAAACGGTACGTTCACGCTT GCAATACCGTCTTGATAAAGTGCTGGCTCGCTTGCACATCTTGGAAGGTT TGTTGATCGCGTATCTCAACATCGATGAGGTGATTGAGATCATTCGTACA GAAGACGATCCTAAAGCGGTATTGATGGCCAGATTTGGCATTACCGATAT TCAAGCCGATGCGATTCTGGATACCAAACTTCGTCACTTAGCCAAATTGG AAGAGATGAAGATCCGCGGTGAACAAGATGAGCTGGAAAAAGAACGTAAG AAGCTGGAAGAGTTACTGGGTTCTGAGCGTCGTCTGAATACCTTGCTGAA AAAAGAGATCCGTGCCGATGCCGAGAAATTTGGTGATGATCGCCGTTCTC CGCTAGTGGTTCGTGAAGAAGCGAAAGCACTGACTGAACGTGACCTGATG CCGAATGAAGCGATCACCGTTGTCTTGTCAGAGAAAGGTTGGATTCGTCA CGCCAAAGGTCATGAAGTGGATTGTCAGGGGCTGAGCTACAAAGCGGGTG ACAGCTATCTGGCGCATGCGTGTGGTAAGAGTAACCAGCAAGCGGTACTG CTTGGTTCAGATGGCCGCAGTTACTCATTAGAATCGCACACACTGCCTTC GGCTCGCGGTCAAGGTGAGCCGATTACTGGCCGCCTCAACATCACGCCAG GAAGCAGTATTCGCCAAGTGATCATGGGTGAAGAAGAACAGCTGTGGCTG ATTGGCTCTGATGCGGGTTACGGCTTCGTGTGTAAAGGCAGTGATTTGTT GTCGAAAAACCGCAGTGGTAAAGCGCTGGTGTCGTTGCCTGAAAACGCAG AAGTGATGACCCCATCGGCGGTATTGGATCTGGACAATGACGATATTCTT GCCATTACCAACCAAGGCCGTATGTTGATGTTCCCAATTAAAGACTTGCC ACAACTGGGTAAGGGTAAAGGGAATAAGATCATCAATATTCCAGCGGCGA AAGCCAAAGCGAAAGAAGAGATCCTGTCGCATTTGATTGCTTTGCCAAAA GGCGCTTCACTGACGCTGTATGCAGGCAAACGTAAGTTGGGCTTGAAGCC TGCTGATCTGGATAACTTCCGTGGAGAGCGAGGCCGTCGAGGTGGTTTAT TGCCACGTGGCTTGCAGCGAGTCACTCGTATTGAGCTCGAGCAAAGTGAC TCATCGGATGGCTCAGAAACGGCTACTGACGCGTAA >VV11459 Superfamily II DNA/RNA helicase ATGGCATTTGCTTTGGGGCAGCGCTGGATCAGCGATACGGAGAGCGATTT GGGTTTAGGTACGGTAGTGGCGTTAGATGCTCGCACCGTGACACTGATGT TTGCAGCATCAGAAGAGAACCGAGTTTACGCCAGTAACGATGCGCCGGTA ACCCGAGTAGTTTTTAATGTCGGTGATGTGGTTGAGTGTCAAGAAGGTTG GTCACTCAAAGTGGAACAAGTAGTGGAAGAGAACGGGTTATATACCTACC TTGGCACGCGTGAAGACACTGAAGAAACTGGTGTTGCACTGCGTGAAATC TTCCTGAGCAACCAAATTCGTTTTAATAAACCGCAAGACAAAATGTACGC CGGTCAAATCGATCGCATGGACAACTTTGTGTTGCGTTACCGCGCACTCA AAAATCAATATGAACAACACCGCAGTCCAATGCGCGGCCTCTGTGGTATG CGTGCGGGCTTGATCCCTCATCAGCTCTACATTGCCCACGAAGTGGGTCG TCGTCATGCGCCACGCGTATTGCTGGCGGATGAAGTGGGTTTGGGCAAAA CCATTGAAGCGGGCATGATCATTCACCAGCAAGTGCTGCTTGGCCGTGCT GAACGCATCCTGATTGTGGTGCCTGAAACGTTGCAACACCAGTGGTTGGT GGAGATGATGCGTCGTTTCAATCTGCATTTCTCTATCTTTGATGAAGAAC GCTGTGTCGAAGCGTTTGCCGAGTCAGATAACCCATTTGATACCCAGCAG TACGTACTGTGTTCACTCGATTTCTTGCGTAAAAGTCGCAAGCGTTTTGA GCAAGCGCTCGAAGCCGAATGGGATCTGCTGGTGGTGGACGAAGCGCACC ACCTTGAGTGGAGCCAAGACAAACCCAGCCGTGGCTACCAAGTGGTAGAA GGCTTAGCAGAACGCACACCCGGTGTGTTGCTGTTGACCGCAACCCCGGA ACAGCTTGGCCGTGAGAGTCACTTTGCCCGCTTACGCCTTCTCGATTCAG ACCGTTTCTACGACTACGCTGCGTTTGTTGAAGAAGAAGCGCAATACGCG CCAGTTGCGGATGCGATTACCGCGTTATTCTCCGGCGTGAAGCTGGCGGA TGAGGCGAAAAACCAAATTACCGAACTGCTTTCTGAGCAGGACGTTGAGC CGCTGTTCCGCATCATCGAAAGTAATGCTGACGAAGAGAGCAAAGCGATC GCTCGCCAAGAGTTGATTGATAATTTGATGGACCGCCACGGCACTGGCCG TGTCTTGTTCCGTAACACCCGTGCGGCGATCAAAGGCTTCCCTGTGCGTA ATGTGCACCTGTTGCCGATGCCGATCCCAACCCAATACACCACCTCGATG CGTGTTTCGGGCATGATCGGTGGCAAGTTGGCCCCAGAAGCGCGTGCGAT GAAAAACCTCTACCCAGAAGAGATCTTCCAAGAATTTGAAGGGGAAGAGT CGAGCTGGTGGCAGTTTGACTGCCGAGTAAACTGGTTGCTGGAAAAGCTG AAAGCGCAACGCAGTGAGAAAGTTTTAGTGATCGCTTCGCGTGCCAGCAC GGCATTGCAACTTGAACAAGCGTTGCGTGAGCGTGAAGGCATTCGTGCCA CCGTTTTCCATGAAGGTATGTCCATCCTTGAGCGCGACAAAGCCGCAGCT TACTTCGCGCAAGAAGAGGGCGGCGCACAGGTGTTGATTTGTAGTGAAAT CGGCTCTGAAGGTCGTAACTTCCAATTTGCTAACCAGTTGGTGATGTTTG ACCTGCCATTCAACCCAGATTTGCTTGAACAGCGTATTGGTCGTTTGGAC CGTATTGGTCAAAAACGTGATATCGATATTCATGTGCCTTACCTGCAAGG AACCGCACAAGAAGTCTTAGCGCGTTGGTTTAATGAAGGCCTCAATGCAT TTGCTGAAACTTGCCCAACAGGCCGCACTGTCTATGACCAAGTCTCCGAT CAACTGATCGAGATGTTGGCATCGGGTTCCAATGAGGCGTTGGATGACGT GATTGCGGAATCGGCCAAACTGAATCAAGCGTTGAAAGCCGATCTTGAGC AAGGGCGTGACCGTCTGTTGGAAATGCACTCCAACGGTGGGGAGAAAGCG CAGCAAATCGTGGCGGAAATTGCCGCCAAAGATGGCGATACCAACCTAGT GAGTTTTGCACTTAGCTTGTTTGACACCATTGGTTTGAACCAAGATGACA AAGGTGAAAATGCCATCGTGGTGACGCCGTCGGAGCACATGATGGTGCCG AGCTACCCAGGTTTGCCGTACGAAGGCGCGACGATTACCTTCGATCGCGA TACGGCGTTGTCACGCGAAGACATGCACTTTATCAGTTGGGAACACCCAA TGATCCAAGGCGGCATTGATTTGCTGATGAGTGAAGGGGTGGGCACCTGT GCCGTTTCTCTGCTCAAGAACAAAGCATTGCCGGTCGGCACTTTGCTGCT AGAGCTGATTTATGCGGTGGACGCGCAAGCGCCGAAACGCAGTGGTATTG GCCGCTTCTTACCTCGCACGCCAATTCGTTTGATGATGGACGCTCGTGGC AACGATCTCTCTGGTCAAGTGGAGTTTGAAAGCTTTAACCGTCAATTGAG CCCAGTGAATCGCCATTTGGCGAGCAAATTGGTTTCGTCGGTGCAAAACG ATATCCATCGTTTGATTGAAGCCGGTGACCAGTTGGTGGTGGAAAATGTC GAAGCAATTCGTCAGCAAGCACAGCAAGAGATGCAGCAGAGTCTTAATAG TGAACTTGAGCGTCTGCAAGCATTGAAAGCGGTCAACCCGAACATTCGTG ATGAAGAAATTGAGGCGATTGACGCGCAAATCAAAGAGTTGAACGGTTAC ATCTCGAAGGCGCAATTCCAATTGGATTCACTGCGTCTGATTGTGGTGAG CCACAACTGA >VV20122 Superfamily I DNA and RNA helicase ATGCTGCTAACGGCCAATAAAACCGCCCAGTTTTTTATCCAAAAAGAGTA TCACCATGTCGAATTGCAAGGTCAGTCTCTCCTCTTGGTATCGGTCGGAA GCGAGGAGCACATTCCATTCACGGTTTGGAATGGTGAGATTCATGTAAAA CGAGGCTTGTTTTGGGGGGCATTGCAGTTTTTTGCGCATCCGGTCGAAGG TAAGCAGCAGAGCTGGCTGGTACAAGGTCTTCCATGGCCAGAGTGCAAAC AATTTGCTCGGAATGCAGTAGAACAATATCAACAGTGGCACGATCAGCAA TGTCGCCAATTGAGTCAGTATTTGCCAATTTGGGAAGACGGGCTACACCG TTTAATCTATCTACCGGCTTATTTACCGCATTCAACCGTAGACACTTGGG TTCGTGATGTTCATGGTCAATTAAAAGAAATGAACATGACACTTGATGAA GCGAAACAGCGACTGCCAGAGCGGGTGGCTGCGATGGAAAGCTGGCTACT TGATGGAGAGCAAGCGATTCAACAGCGCAATTTGTCTTGGCTTGAACAGG AAAGGCAAAATTGGGAAGTGTTGTTCAATCAAATCGAATCTTCGCCGCTC AATGTTTCTCAGCAACATGCGGTGTTGCTGAATGATGATCACAATCTCGT CTTGGCTGGGGCCGGTTCAGGGAAAACCAGCGTATTGACCGCTCGGGTGG CGTATTTATTACAAAGCCATCAAGCGACAGATGAACAAATGCTGTTGTTG GCGTTTGGTCGTGATGCGGCTCAGGAGCTGAAACAGCGCTTAGTGGATAA AATAGGGCTTGCCGCGCAAAACACCAGTGTGTCTACCTTCCATCAGTTAG GCTTGTCGATCATTCACCAAGTGGAAAGTAAGCCTGTAGAGATTTCCCCC ATCGCTTTGGATGACAAACTGCGTCAAGCATGGTGCGTGGATTGGCTGAA AAAACATTGGATGACCCCAACCAACTTCAAACGTTGGCAAAAACATTTAA CCAAATGGCCGATTGCCTACCTCACAGGGGATGATGAGTTGGGCAGCCAA TCAGAAAACCCCAAGCTGATTGCTTGGCTGGACAGGCAACTGACTCAATT TGCGTCACTGGGTTTTAGTAAGAAAGAGATCCAAGAGCGATTGGTGGAAC TGCCTGATTACACGCGCTTAAACAGCGAACTGTCACTGTGCTGGCCGTGC TTCAGCGCATGGCAAAAAATGCTGAAAGAGACAGAGCAGATCGATTTTCC AACCATGATCAGTCGTGCAACGAAATACGTCAAAGAAGGGAAGTTTGTCT CTCCTTGGCGTTTCATTATGGTAGACGAATATCAGGACATTTCACCCGAT CGGCTGGCTTTGGTTGAAGCGCTCTGCGAAACAACCCATAAGCAGCCAGG AGCCTCTCTTTTCGCCGTCGGTGATGACTGGCAGGCGATTTATCAGTTTG CTGGCGCGGATGTTGATTTAACCACGGGCTTCCAGCAGCGTTTTGAGCAC TCAACGGTGCATCACCTTGATACCACTTATCGTTTTAATAACATGATTGG AGAGGTGGCAAACCGATTTATTCAGGCGAATCCACGACAACTGGTGAAAA CGCTGCAGAGTTACAAACAGCAGAAACAAAAAGCAGTACACACAGCGCCA AGTAACTCGGTGGAAAAGATCCTCGACCAGTTAGATAGAAAGTCGGACAA GCAGAAATCAGTGCTACTGCTTGGTCGTAATCACTATCACAAACCGGACC TTTATGATGATTGGGTAAAACGCTTCAAAAACCTGTCACTCAACTTTATG ACTTGCCACGCCAGTAAGGGCAAAGAAGCGGATTACGTGATTATTCTTTG CGTTGACGAAGGCCAATTTCCAGCCAAGAAAAAGCAGCTGCATGTTGATG GAGCACTAACTCAATCTTCAGACACCTTTGCGTACGCCGATGAGAGACGC TTGTTTTATGTGGCGTTAACTCGCGCCAAAGAGAAAGTTTGGATCACACA CAGTGGTGCAGGCTCCGGATTTGTTCAGGAGCTGTTGGAAAACGACTACC CAGTGGTGAAACACAACAGCTAG >VV10590 Predicted endonuclease ATGGGGCTCTTTAGCCGACGCGCCATTGGTAACCAATATGAGTCCTTGGC GAAGGAATACTTACAACGCCAAGGACTGAGGTTTATTGAAGCCAACTTTA CGACCAAGGTTGGCGAAATCGACCTGATTTTCAAAGAAGCACAAACCATT GTGTTTGTTGAAGTTAAGTATCGAAAAAATAGCTGTTATGGTGACGCCGC AGAGATGGTGAATCCTGCCAAAGCCAACAAGCTTATTAAAACCGCTTATT TATGGTTAAACAAACACGGATATAATGCTTGTAACACTGCGATGCGGTTT GATGTTGTGGCCATTCACTCCAATGGCCATGATATTAACTGGATCGCCAA TGCAATTACTCAAGGATAA >VV20136 Superfamily II DNA and RNA helicase ATGACGCCAATTCAAGCTCAGAGCCTACCATTGGTGCTCGATGGAAAGGA TGTAATTGGTCAAGGAAAAACAGGGTCAGGGAAAACCGCCACCTTCGCTT TGGGTCTGCTGAGCAACCTGAATGTCTCGCGCTTTCGCGTTCAATCGCTT GTTCTTTGCCCTACACGTGAATTGGCGGATCAAGTCGCAACGGAAATTCG TACTTTGGCTCGTGGCATTCACAACATTAAAGTGCTGACTTTGTGTGGTG GCATGCCTATGGGGCCACAAATTCTTTCGTTGGAACATGGTGCACACATC TTAGTTGGCACACCGGGGCGCATTCTCGATCACTTAAGCAAAGGCCGTAT TGATCTTGCAGAACTGAATACGTTAGTGCTTGATGAAGCCGACAGAATGT TGGAAATGGGCTTCCAAGATGCGATTGATGCCATCATTGACGTCGCACCG ACTCAACGCCAGACGTTACTTTTCAGTGCGACCTTCCCAGAGCAGATTGA AACCATCGCAAGCAAAGTGATGCAGAATCCGGAAATGGTGAAAGTCGAGT CTACACACCAAAAGAGCACCATCGAACAACGCTTTTATCAGCTCGAGAAC ACAGAAGAACGTGACAACGCTTTGGAAGCTCTGCTGCTTACGCACAGACC TGAATCTACCGTGGTCTTTTGTAATACCAAGAAAGAAGTGCAAAACGTCA CCGACGAGCTGAACCATCGTCGCTTCAGCGTTATCGAACTGCACGGTGAC ATGGAACAGCGTGAACGTGAACGCGCGTTAACCATGTTTGCCAACAAAAG CATTTCTATTTTGGTCGCAACCGATGTTGCCGCTCGTGGTTTAGACGTGG ACAACCTAGACGCCGTGATTAACTTTGAGCTTTCTCGTGACCCTGAAGTG CATGTTCACCGCATTGGTCGTACTGGCCGCGCGGGTGCGAAAGGGATTGC GATCAGCTTCTTCAGTGAGAAAGAGCTGTATCGAGTAGAGCGTATTGAAG AATACATGGGTATTGATGTGCATCCGGCCAAACTGCCTCAACCGGAAAAC CCTAAACCTTACTACCCTTCAATGCGTACGATTCAAATTTTGGGTGGCAA AAAGCAAAAAGTCCGTGCTGGCGATATCTTAGGCAGCCTAACCAAAGAAG CCGGAATTGATGGTAAGTTGATTGGTAAAATCAATATCTTACCTATGGTC TCTTATGTTGCTATCGATAACTCTGTGGCCAAAATCGCCGAACAGCAACT GCAAAACGGCAAAATGAAAGGGCGTAACTTTAAAGCCCGAATTATGAAAG GTTAA >VV11796 ATP-dependent exoDNAse beta subunit ATGACGCACAAGCCCGAGCCAACCCCGTTACAAACCATGACCTTTCCATT GCATGGCGCAAGGTTAATTGAAGCGTCGGCGGGGACAGGTAAAACTTTCA CCATTGCTGGATTGTATTTACGCTTACTGCTTGGTCATGGCAGTGAAGAG ACGCGTCATCAAGTCCCACTGACTGTGGATCAAATCTTGGTCGTGACCTT TACCGAAGCCGCAACGGGTGAGCTGCGTGATCGCATTCGTGCGCGTATTC ACGATGCGCGTTTGGCGTTTGCTCGAGGAGAAAGCCAAGATCCCGTCATT GAGCCGCTGCTGCGTGACTTTCCCGATCACAAGCAGGCCGCCGCCATTTT GCTGCAAGCCGAAAGACAGATGGACGAAGCGGCGGTGTTCACCATTCACG GTTTTTGCCAACGGATGCTAACGCAAAATGCGTTTGAGTCGGGCAGCCGT TTTAACAATGAATTTGTCACCGATGAGAGCCAGCTAAAAGCACAAGTGGT GGCCGATTATTGGCGACGCAATTTCTATCCCTTGCCCACCGCATTGGCAG GTGAGGTGCGCCAGATTTGGGGCTCACCCGCAGCGTTGTTGAGCGACATT GGCCGCTATCTCACTGGTGCGCCATTGGCGCTGAGCGTCAACGCGATGAG TGGCGATCTTGCGGCGTTGCATCAAGACAACCTGCAAAAAATTACGCAAC TAAAAAGTGCTTGGCGAGCGGCGCAGCCTGAATTGCAAACGCTCATAGAA CAATCTGATATCAACAAACGCAGTTACACCAAAAAATCCCTACCGGATTG GTTGGAAACGGTTAACCGGTGGGCAGAGAGCGAAACCTTTGATTACCACT ACCCAGATAAGCTGGCCAAATTTGCACAAAGCGAGCTGCTGGCCAAAACA GCCAAAGGCACTGCGCCAACGCATCCGCTATTTGAGCAAATTGACGCGTT TTTGGCCAATCCGGCCAGCTTAAAAGCCCCATTGTTGGCACACGCGATTG AGCAATGTCGCGCATGGCTGGCGAAAGCCAAAGAGCAGAAGCAGCGTTTG TCGTTTGACGATTTGTTAACGCGTTTATCCGCGGCAATCGATCAAGATGA AGCGCAGTTATTGGCAAGTCGAATTCGTACTCTTTACCCCGTTGCCATGA TTGACGAGTTCCAAGATACCGACCCTTTGCAATACAGTATCTTTAGCCGT ATTTATTTGGAGCACCCACAAACTGGGTTGTTTATGATCGGCGACCCGAA GCAGGCGATTTACGGCTTCCGTGGGGCGGACATCTTCACTTACATCAAAG CGCGTAACCAAGTGAGTGCCCACTACACCTTGGGAACAAACTGGCGCTCC AGTGCTGAGATGGTTGCAGCGGTGAACCAGATATTTCAGCAGCCTGATAG TCCGTTTATTTATGATCAAGACATCCCTTTCTTGCCTGTCAACGCTAGCC CCAAAGCGGAGCAACGCATTTGGAACATGGCAGGCCAAAAGCAGCCCGCT CTGACTTACTGGTTACAAGAGTGCGAAGAAAAACCCGTGGCGAAAGGGGA GTATCAGCAAGTGATGGCCGACGCGACCGCCAGTCAGATTCAGCGGATTC TGACGCTTTCGCAGCAAGGTCAAGCGTCATTCCAGCAAGGGGAGCGACAG CACCCCATTCAAGCGGGTGACATTGCGGTGTTGGTACGAACCGGCAGCGA AGGGCGATTGATCAAGCAAACTCTCGCTAAGCAAGGCATTGCCAGTGTCT ATCTTTCGAACCGCGACAGCGTTTTTCTCAGCCCCGTCGCGCAAGATGTT CAGCGCATATTGCAAGCGGTGCTCACCAGCGAAGACGATCGCGCATTGCG GGCGGCGTTGGCTTGTGAGCTGTTTGCCCTTGATGCCGCCAGTCTGGATA AATTGAATAACGATGAAAATGCGTGGGAAAAAGCGCTCAGTGAGTTTAAA GAATACCGCAAGCTGTGGCTTTCTCGTGGTGTGATGCCGATGCTCCGAGC AGTGATGGCCAAACGCCATATTGCGGAGCGACTGCTGACTCAGCAAGAAG GTGAGCGCACACTCACTGACCTGATGCATTTGGCGGAACTGCTGCAGCAA GCAAGCAATGAGATCGACAGCGACCACGGTTTGTTGCGTTGGTTTGCCCA ATCAATCAGTGATGCACACAATGGTATTGGCGGCAGCGATGAGCAGATCC AACGTCTCGAATCGGAACGGAACTTGGTGCAGATCGTCACCATCCACAAA TCAAAAGGGCTTGAGTACGATCTGGTTTTTCTCCCGTTTGTCTTTGCTCA TCGCGAAGCCAGCGAAGCCAAGTTTTACGATGCGCAAACCGATCGCACCG TGTTAGATATCACCGGCAGCGATGCCGCGTTGCAACAAGCGGACAAAGAA CGATTAGCCGAAGACTTACGCCTTATTTATGTGGCGCTCACTCGAGCCGT TTATGGCTGTTTCATTGGTGCGGCGCCACTGCGTAATGGTCGCTCCACGA AAGAGCCAACGGGCGTGCATCGCAGTGCCATGGGGTATTTGGTGCAAAAT GGCCAAGAAGGGGGAATTGCTACGCTGCAACAAGCGTTGGCAGGACAGCA AACGCAGTCAGACAGTATTGTCGTTACCTCACCACCAACCTTGCCAGATG AGCGATATCAACCTATCGCAGCGCCCGCGTTGGCGCTCTCTGCGCAAGAG CTGGCCACGCCTATCGATCGTTTATGGCGCATCACCAGTTACTCCGGCTT GGTCAAGCAAGGGAGCCATCAAAGCGACTACGATGCCAGTTTAGAGGTGG TGGGGTTTGATATCGACTCTTCTGCCGAAGATCCGCAAGCGCCAGTTCAA GAAGTGGAGAAGTCGATTTTTACCTTCCCCCGTGGTGCCAGTGCTGGTAC GTTTTTGCACTCGCTGTTTGAAGAGGTGGAGTTTACTCAAGCGGCAGACT CTGAACAGAATCGTCAAGTGATCAGCGAGCTGATGGAAAAAAACTTGATC GACTTAGAATGGTTGCCCGTTTTGCAGCAGCTGGTGGATACCGTGTTGTC GACGCCGCTTGATGGCAAACATCTGTACCTTAACCAGAAAACGCCTTCAC AGCGTTTGGTGGAAATGGAGTTCTTATTGCCGATAGAAGTGCTCAGCGCT GCCAGTTTAAACCAAGTCATTCAGCGCCATGATCCCCTCTCGGCTCGCGC GGGGGATCTGGGTTTCCAAACGGTGCAAGGCATGCTCAAAGGCTTTATTG ATTTGGTGTTTGAACACCAAGGCAAATATTACGTATTGGACTGGAAATCC AACCATCTAGGGGATGCTGTACATTTATATCACGGTGAGGCATTGCAAGG GGCGATGGTGGATCATCGCTACGATTTGCAATACCAAATCTATGCGTTGG CGCTACACCGTTTTCTACGCAGCCGTTTGGCCAACTATGATTACCAGCTT CATTTTGGTGGCGTCTATTATCTGTTCCTTCGTGGTATGGATGGCGAAAG TGAACACGGTATCTTTTCTGCCAAGCCCTCGTTGGATTTATTAACGGAAA TGGATCGTTTGATTGACGGTCTTGAGCCTCAACCTAGATCGACCCAAGGT GGTCAGATGGAGTTACTATGA >VV12539 Transposase and inactivated derivatives ATGAGATACACGCACCTCACTGAGAACGAAAGGTATATGATTTCTGCGCT CAGAAAGCAAGGAATTAGTACCGCTAAAATAGCTAAACAACTAGGTCGTC ACAAAGCTACTATCTATCGAGAAATTGAACGTAATTCCCGATACAACAGA CACTTTAGAAGGTTCTCCTATCAAGCATGGAGAGCCCAACAGATGGCTCG CAACCGGCTAAGCCGCTCGCGCAGAAACAAGCGCTATAGCGAAATCGACT TCAGGTTACCTGAAGCCTTGCTACGACTGGATTGGAGCCCTGACCAAATC GTCGGATACCTAAGGGTAAGAGGCTATCCAACAATGAGCCACGAGCTCAT TTATCAGCATATTTGGAACGACAAAACTCTCGGTGGAACACTATGGAAAC ATCTACGCCAATCGACCAAGAAAAGGCGCAAAAGATATAACTCAAAAGAC AGCCGAGGTCGGCTGGCAGCAAAGCGTCATATTACCGAAAGACCTGCAAA AGCTGAGCATCGAAATGAGCCTGGCCATTGGGAAATTGATACCGTCGTTG GCCCGCGGACCAAAGCACTGTATCGTAACTTTAGTCGACAGAATGACTGG CTACACTTTTATAGGGCAAATGGACGATAG >VV10821 Formamidopyrimidine-DNA glycosylase ATGCCTGAATTACCAGAAGTGGAAGTGAGCCGAATGGGCATTACGCCGCA TTTGCTCAATCAAACCATTCAATCACTGATTTTCCGTACCCCAAAACTGC GCTGGGTCATTCCAAGTGAGCTAAAAAAGCTGCAAGGGCAAGTGATTCGT CATATTGGCCGCCGAGCCAAATATCTGATCATCGAAACCGATGTCGGCAG TGCGATTGTGCATTTAGGCATGTCCGGTTCATTGCGTGTGCTGGACGCTG ACTTCCCAGCAGGCAAACATGATCACGTCGATCTCAAACTCTCTAATGGC AAAGTGCTGCGTTACAACGATCCACGTCGCTTTGGTGCTTGGCTTTATGC AGCGCCAGGGGAAGACCATGATGTGTTGGGTAATATTGGTCCAGAGCCGC TAACGAATGCCTTTGATGGGCAATACATGTTTGAAAAAGCGCAAGGAAAA CGCGTTGCGGTGAAGCAGTTTATTATGGACAACAAAATCGTAGTGGGTGT GGGGAACATCTATGCCAGCGAATCTTTGTTTCGCTCACGCATCCTGCCGA CCAGAGCGACGATGTCACTCAGTGCCGAGGAATGGCAACGCTTGGTGAGC CACATCAAGCAAACCTTGCAAACGGCGATTGAGCAAGGTGGCACGACATT GAAAGACTTTTCCCAAGCCGATGGTAAGCCGGGGTATTTTGCCCAAGAAT TGCAAGTGTATGGAAAAGCGGGAGAACCATGCCCAGAATGCGGCGAAGCG ATTCAAGAGCAGAAGATAGGGCAACGCAATACCTTCTACTGTTCTTACTG TCAGTGCTAA >VV20128 Type IIA topoisomerase, B subunit ATGAAATTTAGAACATTTCTAATACTAGCAGTAGTCACACTTTTTGCAGG TTGTGCCACCTATGCTGGGCTCAACTATGATCAGCTGTTTGGCGAGGCCG AAGTCCGCGACCGGACCGCGCACATTCAATCGGCTCAAAGTGCGTTTTTT ATGCACGATGTCAAGCCCATCATCGAAAACCGATGTGTGGTTTGTCACAC GCTCTACGACGCGCCATGTCAACTCAAACTCTCTTCTGTAGAAGGTATTG ACCGTGGCGCAAGCAAGACGCTTGTTTATCAAGGGACTCGTCTCACAGCC ACAGCACCCACACGCTTATTTGAAGATGCACAAACCACACCCAAGAGTGG CGTGATGCGGGCTTTCATCCTGTGCTCAACGAGCGTGCCCAAACCGGTGT TGCCAACATTGATGCCGGCTTGA >VV10949 DNA helicase II ATGATCGATCCTTCACTTCTTCTCGATGGCTTGAACGACAAACAGCGTGA GGCTGTTGCTGCACCTTTGGAAAACTTGCTGGTGTTGGCAGGCGCAGGCA GTGGTAAAACGCGCGTTCTTGTGCATCGCATTGCTTGGCTAATGTCAGTC GAGCAGGCTTCTCCGTTTTCTATTATGTCTGTGACCTTTACCAATAAGGC GGCGGCGGAGATGCGTGGTCGAATCGAAGAGTTGATGATGGGCAGTGCGT CGGGCATGTGGAATGGCACCTTCCACGGTATTTGCCACCGAATTCTCAGA GCGCACTATCTGGATGCCAAGCTGCCGGAAGATTTCCAAATTATTGATAG CGACGACCAACAACGTTTGCTTAAGCGACTGATCAAAGCGCAAAACCTGG ATGACAAACAGTGGCCAGCGCGCCAAGTCGCTTGGTGGATCAATGGCAAA AAAGACGAAGGATTACGCCCTGCGCACATCGATGCCTACCACGATCCCGT GACCAAAACCTACCTACAGTTGTACACCGCCTATCAAGAAGCGTGTGATC GCGCAGGCTTGGTCGACTTTGCGGAGATCTTGCTGCGTGCGCATGAGCTA CTGCGTGAGAACAAATTTATCCGCGAACACTATCAAGCGCGCTTTAAACA CATCTTGGTGGACGAGTTCCAAGACACCAACAACATTCAATACGCTTGGC TGCGTATGATGGCGGGGCCTGAATGCCATGTGATGATCGTCGGTGATGAT GACCAGTCGATTTACGGTTGGCGTGGCGCGAAAGTGGAAAACATCGAAAA GTTCACCCTTGAGTTTCCGAGCGTCAACACCATTCGCCTCGAGCAAAACT ACCGTTCGACCAAAACCATCCTAGAAGCCTCAAACGCCTTGATTGCCAAC AATACCGAGCGTATGGGCAAAGAGCTGTGGACCGATGGCGTCGAAGGTGA ACCGATCTCGATTTATTCTGCTTACAACGAATTGGATGAAGCGCGTTTTG CGGTGAACAAAATCAAAGAGTGGCAGGACAAAGGCGGCGTGTTGAACGAC GCAGCGATGCTTTATCGCAATAACGCCCAGTCGCGTGTACTGGAAGAAGC GTTGATTCAAGCGGGTTTGCCTTATCGCATTTACGGCGGGATGCGATTCT TCGAGCGCCAAGAGATCAAAGATGCATTGAGCTATCTGCGCCTCATCGCC AACCGCAATGACGACGCGGCCTTTGAACGTGTGGTTAATACTCCAACGCG TGGCTTAGGGGACAAAACCTTGGAAACGGTGCGTTTTGCCGCGCGCGATC GTGGCTGCACCTTGTGGGAAGCCAGTATCGCTTTGATCGAAGAAAAAGTG TTAACGGGGCGTGCTGCTGGTGCGTTAAGTCGCTTTATCGAGCTGATCAC GGCGCTGGAAGACGACAGCTTTGAAATGCCACTGCACATTCAAACCGACC ATGTGATCAAATCCTCAGGCTTGTACACCATGTATGAGCAAGAGAAAGGC GAGAAGTCCAAGGCTCGCATTGAGAACTTGGAAGAGTTGGTCACGGCGAC ACGTCAGTTTGAAAAACCGGAAGAAGCCGAAGAGATGAGTTTGCTCACTG CTTTCTTAACCCATGCCGCTTTGGAGGCGGGTGAAGGTCAAGCGGACGAT TTCGAAGATGCGGTACAACTGATGACCTTACACAGCGCCAAAGGATTGGA GTTCCCATTGGTGTTTATGGTGGGCGTGGAAGAAGGCATGTTCCCGAGCC AGATGTCCGCCGAAGAAGCGGGCCGCTTAGAAGAAGAGCGCCGTTTGTGC TACGTGGGCATGACTCGGGCAATGCAGAAGCTCTATATTACCTACGCTGA AATGCGTCGTTTGTACGGGCAAGACAAATATCATAAACCATCACGTTTTA TCCGAGAGCTGCCGGAAAGCTGCTTGGATGAAGTGCGCATGAAAGCGCAA GTCAGCCGTCCTGCCAGCAGTGGTCGCTTTAGCCAAACTGTGGTCAAAGA GAGCTTCAATGAAACGGGCTTTTCGCTCGGCTCTCGTGTGCGTCACCCAA AGTTTGGTGAAGGGACGATCATCAACTTTGAAGGCAGTGGGCCACAAAGT CGAGTTCAAGTGGCCTTCAATGGGGAAGGAATCAAGTGGCTAGTGACCGC TTACGCGAGGCTGGAAAAACTGTGA >VV13000 Mg-dependent DNase ATGCTTGAGCTCATTGAGCCTTTTGACAACGTACACGCCTCTTGTGGAGT GCACCCATTAGACGTGGAAAGTCCCTTTTGCTTGGACAAAATGAAAGCCT ATGCCTCGCATTCTAAAGTTGTGGCTATTGGTGAAACGGGTCTTGATTAT CACTATAAGCCAGAGACGCAAGCATTGCAGCGTGAACGTTTTGAACAGCA AGTTGCACTCGCGGTTGAGCTGAATAAGCCACTGATTATCCATACGAGGC AAGCGAGAGAAGATACCTTAGCCATTCTTCGCAATGGGGGGGCAGACAAA TGCGGTGGCGTGATTCACTGTTTTACCGAAGATCTTGCTTTTGCTGAAGC GGCAATGGCGCTCGGTTTTTACATCTCTATCTCTGGAAATGTCACGTTCA GACAAGCAACGGAGCTTAAAGAGGTTGTAAAACACATTCCTTTGGAACGG TTGTTGATCGAAACCGATTCTCCGTACTTGGCACCTGTACCTCATAGGGG CAAAGAGAATCAACCCGCCTATGTTATCGAAGTTGCTGCATATATCGCAC AGCTTAAAAACATTTCCTTAGCAAGTGTTGGTGAAAAAACCACCCAAAAC TTTAAAAATCTTTTTTTGCGATAG >VV10606 Type IIA topoisomerase, B subunit ATGACTGAACAATATAATGCTGGTGCCATTGAAGTACTGAATGGTTTAGA GCCAGTACGTCGCCGACCAGGGATGTATACGGATACAGCGCGCCCGAACC ATTTGGGCCAAGAAGTCATCGATAACAGTGTCGATGAAGCGCTGGCCGGA CATGCCTCCAAAGTACAAGTCATCCTACATGCAGACCAATCACTGGAAGT GATCGATGATGGTCGAGGCATGCCAGTCGATATCCACCCAGAAGAGAAAG TCTCGGGCGTTGAGCTGATCCTATGTAAGCTGCACGCTGGTGGTAAATTC TCCAACAAAAACTATCAGTTTTCTGGTGGTTTGCACGGGGTAGGTATTTC GGTGGTGAACGCCCTGTCTAAAAGGGTTGAAGTGACAGTACGTCGAGATG GTCAGGTTTACGAAATCGCTTTTGAACATGGTGACAAAGTGTCGGATCTC ACCGTGACGGGAACGTGTGGTCGTCGCAATCGCGGTACCAGCGTGCACTT CTGGCCAGACACCAAATACTTTGATTCGCCAAATTTCTCGGTCACACGTT TAGTGAATAACTTGCGCGCGAAGGCGGTTCTTTGCCCTGGTTTGGAAATT ACTTTCAGTGACCGTGTGAATGGTAAAGAGCATCAGTGGCTCTACCAAGA TGGCTTGAAAGACTATTTGATTGAAGGGGTGAAGGGCTACACCTTACTCC CTGAAGAACCATTTACAGGCCAATTCTCGGCAGAAACAGAAGCTGCGGAT TGGGCGGTGATCTGGCAGCCAGAAGGCGGTGAGATGATCACCGAAAGCTA TGTTAACCTGATCCCAACCGCACAAGGCGGTACGCATGTGAACGGTTTGC GCCAAGGTTTGTTGGATGCGATGAGAGAGTTCTGTGAGTTCCGCAACTTA CTGCCCCGTGGCGTGAAGTTAACGGGCGAAGACGTTTTCGACCGCTGTTC TTACGTACTGTCGGTGAAGATGCAAGATCCGCAGTTTGCCGGCCAAACCA AAGAGCGCCTTTCTTCTCGTCAAACCGCGGCGTTTGTCTCTGGGGTGGTA AAAGACACCTTTAGCTTGTGGTTAAATGAAAAGCCACAACTTGCTGAGCA ACTTGCGGAAGTGTGTATTGCGAACGCCCATCGTCGTATGCGTGCGAGCA AGAAGGTCGTGCGTAAAAAGATTGCATCAGGCCCAGCTTTGCCAGGTAAG TTGACCGATTGTTCCGTGCAAGACTTAGCTCGTACTGAAATCTTCTTCGT GGAAGGGGATTCGGCAGGCGGCAGTGCCAAGCAAGCGCGTGATCGTGAGT TCCAAGCCGTGATGCCGCTGCGGGGTAAAATCTTAAATACTTGGGAAGTC TCTGCCGATCAAGTATTGGCGTCTCAAGAAGTGCACGATATTTCTGTTGC ACTAGGGATTGATCCAGATAGCGACAATCTTGAAGGGCTGCGTTACGGCA AAATCTGTATCCTTGCCGATGCGGACTCGGATGGTCTGCACATTGCGACA CTCTTGTGTGCGCTATTCACACGTCATTTCCGCGCGCTAGTTGAAGCCGG TCATATCTACGTAGCAATGCCACCACTGTATCGTATCGACTGTGGCAAAG AGGTGTTCTATGCGCTGGATGATGCAGAAAAAGATGGCGTATTAGAGCGC CTAAGCCAGAAGCGCGCCAAAATCAACGTGCAACGATTCAAAGGTCTGGG TGAGATGAACCCACTGCAGTTGCGTGAAACCACGATGGATCCCAACACGC GTCGTCTGGTGCAACTGACCATTGATGACTCCGATGCGACCATGGAAATG ATGGACATGCTGCTGGGTAAGAAACGCGCAGATGACCGTCGTAGCTGGTT ACAAAACAACGGCGATATGGCAGAGGTTTAA >VV12160 Holliday junction DNA helicase RuvB ATGATTGAAGCAGATCGCTTAATTGCTCCGGACAATCCCGCTTTTCGTGA TGAAGATGTGATTGACCGCGCGATACGACCAAAGAAACTCGCCGATTACC AAGGCCAAGATCACGTACGTGATCAAATGGAAATTTTTATTAAAGCCGCG CAATTGCGTAACGAAGCGCTCGACCATTTATTGATTTTTGGCCCTCCAGG TTTGGGTAAAACCACCTTAGCGAACATTGTTGCAAACGAGATGGGCGTAA ATATTCGCACCACGTCAGGGCCGGTGTTAGAAAAAGCGGGAGATTTAGCG GCCTTGCTGACCAATCTTGAAGAAAACGACGTGCTCTTCATTGATGAAAT ACACCGACTCAGCCCGATGGTGGAAGAAGTGTTGTATCCAGCCATGGAAG ATTACCAATTGGATATTATGATTGGTGAAGGCCCTGCTGCACGTTCAATC AAAATCGATTTGCCGCCCTTTACGCTAATTGGTGCAACCACTCGTGCCGG CTCACTGACTTCCCCTTTGCGTGATCGTTTTGGTATTACCCAGCGTTTGG AGTATTACAAAATTCCTGATCTGCAGAATATTGTGCAACGCAGTGCTGAC TGCTTGGGGCTTTCCATGGAAGCGGAAGGGGCATTAGAGGTGGCGCGTCG TGCGCGTGGTACACCGCGTATTGGCCAATCGCTTGTTGCGCCGCGTACGC GATTTTGCTGA >VV11717 DNA polymerase III, psi subunit ATGACTGAAAACGAAAAGTTGTATTTACAGGAAATGGGTATTTCGCTTTG GCAATTGCATCATCCAGAACGGATGATGGGCTATGAAATGCCAACCTTTT CCCTGCCTGAAGAGTGCCAGTTACTGTTGATCGCACCGAGTTGCCCCATT TCGCAAACGGCACTATTTTTTGAAAAAGTGCTTAAAAGCATGCAACTTGA ATTGTCTCAAGCAAGGCACATTACCCCAGAGCAATTAAGCACGCTCGAAC CACATTCTTTGCAATGGGTTTGGTTTGCGGGCTGTCCTGTTCAACCTCTT CCTATGGTAGCTAAAGTGCTCCAATCGCCAGAGTTGGCTCAAATTGATGG TCATAATGAGCATCGTCGTGCGCTGTGGCAACAGATCCGTTCTTATGAGT AA >VV21047 FOG: Transposase GTGGCCACTATTCGTAAACGTCGTATCCCTCTCGACATGGCCGTTTGGGC GGTCGTTGCTATGTCGCTTTACCGACAAGAGCCTTTGTGGTCAATTGTCT CCAAAGCGCAATTAATGTTGCCCGGGAAGCGAAGTCTGGTTGCCCCTAGT GCTATCGTTCAAGCGAGACAACGGCTCGGGGCTGATGCAATGAAAGAAGT ATTTCATCAAAGCCAGAGCTTATGGAATGAAACAGCTGACCATCCGACTT GGTGTGGATTAAAACTCCTCGCTGTCGATGGCGTGGTATGGCGAACGCCA GACACTAAGGAAAACCGTGATGCGTTTCAATCTGCGTCAAATCAGAATGG TGAAGGTAGCTTTCCTCAGGTGCGTATGGTTTGCCAGATGGAGTTGACCA GTCACATGCTGGTCGCCAGTGCTTTCGCGAGTTACAAAACCAATGAGATG ATATTGGCGGAACAGTTGATTGAAACAACACCAGACTACAGCCTCACAAT GTTCGACAGAGGTTTTTACTCTCTTAGCCTTCTTCATCGTTGGGCAAATA CAGGTAATGAAAGGCATTGGCTAATGCCAATGCGCAAGAATACCCAATTT ACTGAAGTTAGAAAGCTGGGTCGCAATGATCGGATTGTCGAACTCAAGAC AACGCCTCAAGCGAGAAAGAAGTCCCTGTCACTACCTGAAACCATCGAAG TTCGCCTGATAAAGAAAACTATCAAAGGGAAAGAAGTGAGTATCTTGACC TCGATGACTGATCATCGTCGTTATCCGCCAGCGGAAATAGCAGAGCTTTA CAGTCATAGATGGGAAATCGAAGTGGGATATCGTGAAATGAAGTCTTCAC TTCTGAACAACGAGTTCACACTGAGAAGCAAGAAGCCAGAGATGGTAAAA CAAGAACTATGGGGCTTATTACTTAGCTATAACATTATTAGATATCAGAT GGTTAACATGGCTAAAGCTGTGCCAGGCATCTACCCCAACCAACTGAGCT TCACAACGTGTGCTCACTCTATCATTCACGTAATTTTGGGGTTCTGGTTG GAGTCAGCGGGAACAATCCCTAAGCGCATTACTCACTTGCAAGAGGAGGC GATACACCATGTCTTGTCCATTAAACGAGAAGAGCGGATATATCCGAGAG CAATAAAACCAAAGGCAAAGAAATACCCCAATAAAAAAAGCCAGTCAGCT TAA >VV12298 Conserved hypothetical protein ATGTCCATGAACGAAGACAAATTTACGAATATATATCGTTTACCAGGATC ACTGCAGATTCGTATTGCCAAATGGCAACAAACCTTTCGCGGCACGTCTG ATCTTGTTTTGCATCAAGCCCTCACGGTACGTAATAAACAGTACCAAAAG CACGACTTTTTTCCGAAAGGTTGGTGTATTCCATTGGTCGATGAGAGCGA AAGTTCCATCACACATCATGGGAAATATATTCAAACCGCCATGCGTACCA TGGTGGACCGAAAAGTCTCCTATAAGCGAGTCTTCCTCTCTCGTATGCCA CAGGAAGAAGCCGAGAAAGCGCTCGCTTTATTTAAGAAAGAATGGATCAC TAAACACAACAAAATTGCGCGTCAATACAACCAAATTAAGAAAAAAGAGT TTATGAACTACGCTTGGGAAGAGTTAGAAACGCTTTATCCTGCGATTCCC AAAGAAAATTTCGACAAGCAATTGTGGAATCGATTGGTGTTCAAGGAATT TGGTCCAGAGAAGAAATACAAAAATCCTTACTTTGTTAAAAAAGCCGATT TTTAA >VV12844 DNA or RNA helicase of superfamily II ATGTACACCCTCAGACCTTATCAAGCCGACTCAGTCAAAGCCGTTGTGCA CTATTTTCGCCGCCATTCCACGCCGGCAGTCATTGTGCTGCCAACTGGGG CGGGCAAAAGTTTAGTGATTGCCGAATTAGCACGATTGGCGAAAGGACGC GTATTGGTGCTGGCGCATGTAAAAGAGCTGGTTGAACAAAATCACGCGAA ATATGAGGGATATGGCTTACAAGGTTCGATTTTTTCGGCAGGATTGGGAC GAAAAGAAACCCAACATCAGGTGGTTTTCGCCTCTGTTCAATCGGTCGTT CGAAATTTAGAGCAGTTTCGTAATCAATTCTCTCTGCTGGTAATCGATGA ATGCCACCGAGTACCGGAAGAAAAAAGCAGCAGCTATCAAAAAGTCATTA GCCATTTAACGGATCTCAATCCGGGGATAAAAATCCTCGGCCTAACGGCC ACGCCTTATCGCTTAGGCATCGGCTGGATTTACCAATATCACACTCGCGG CCAAGTTCGCAGCGAAGACGCGCGATTTTTCCGCGATTGTATTTTTGAAT TACCCATTCGCTATTTGCTCGATGAAGGCTTTCTTACCCCAGCCAGAATG ATGGACGCCCCCGTCTTGGCGTATGATTTTTCACAGCTGAAACCCGCTAA CACAGGCCGCTATAAAGAAGCAGAGCTGTATATGGTGATCGATAAAGCCA AGCGTGCGACACCGCAGATCGTTGATCAAATCCTTCATCTCGCCCAAACC AAGCAGGGTGTGATATTTTTGCAGCCACGGTGCGTCATGCCCAAGAGATC CACGGCTTATTGCCCGTAG >VV11515 A/G-specific DNA glycosylase ATGCTGCAACAAACGCAAGTTGCGACCGTAATTCCCTATTACCAACGTTT TTTACAGCGCTTTCCGACCGTAGTTGATCTCGCCAACGCCGAGCAAGATG AAGTGCTTCATCTATGGACGGGGTTAGGCTACTACGCTCGCGCACGCAAT CTGCACAAAGCCGCGAAAATGGTGGCTGAGCAATATCATGGTGAATTTCC ATTGGAACTGGAGCAGATGAATGCTCTGCCGGGGATTGGCCGCTCTACCG CCGCTGCCGTGCTCTCTTCCGTTCACAAACAGCCACATGCCATTCTTGAT GGCAATGTGAAACGCACCTTATCTCGCGCCTTTGCCGTTGAAGGTTGGCC TGGGCAAAAAACGGTCGAAAACCAATTGTGGCAATTAGCGGAAGCACACA CACCCAACACCGATGTCGATAAATACAACCAAGCGATGATGGATATGGGG GCAATGGTCTGCACACGCAGCAAACCCAAATGCACATTGTGCCCGGTAGC CGAGCTATGCCAAGCCAACAAACAAGGTAACCCACTGGACTATCCCGGCA AAAAGCCTAAAAAAGAGAAACCCGTCAAAGAGACATGGTTTGCCATGTTG CACTACAACAATCAAGTGTGGTTGGAACAAAGGCCACAAAGTGGCATTTG GGGCGGATTGTTTTGCTTTCCGCAAAATGAGCATGCACAACTTGAAGCAC TGCTCGAGAAGCGAGGCATAAAAGAGGGTGACATTCGCACACAAAACACC TTAATTGCTTTTCGCCATACTTTTAGCCATTACCATCTCGACATCACTCC GATTTTGCTGGACCTATCAAAGCAACCTGACATGGTGATGGAAGCCAGCA ATGGTCTTTGGTATAACTTAGCCAATCCCGGAGAAGTTGGGTTAGCGGCT CCCGTCAAACAGTTGCTGGAGAGCTTGCCCCATGAACTTCGTTAA >VV12078 Transcription-repair coupling factor ATGACTTATCAACCGATTTTACAAGTCTCCACGCCCAAAGGGGCGGGAGA CAAAAAATACTTGGGCCAGTTGCCTGGCGCCTCACTGGCCCTTTCTGTGG CCGAACTGGCAAATACCCATGCCAACCACACGGTTCTCATTGTTCCAGAT CCTCAAACCGCGCTGAAGTTGCAAAGCGAGATCGAGCAGTTTTACACCGC TCACGTGACGATTTTCCCCGATTGGGAAACGCTGCCATACGATAACTTCT CTCCTCATCAAGAGATCATTTCCGATCGTATCGCCACGTTATATCAGCTT CCCTCTCAGACCGATGGCATTACCATTGTGCCGGTGAGCACGCTACTGCA ACGTCAATCTCCACGCGATTTTCTGCTGCAACATACTTTGATGGTCAATG TTGGTGATCGCTACTCGCTCGAAAAACTGCGCCTACAACTTGATAACTCT GGCTACCGTCATGTTGATCAAGTATTTGGCCCTGGGGAATACGCTAGCCG CGGTTCGATTCTTGATCTCTTTCCGATGGGCAGTCGTGACCCTTACCGTA TCGATTTCTTTGATGATGAAATCGACACCATTCGCACGTTCGACCCTGAG AATCAACGTTCAATTGAAGAGATCCAGCAGATCCGCCTACTGCCTGCGCA CGAGTTCCCAACCACCGAGGCGGCAATAGAAGAGTTTCGTATCCGCTGGC GCAGCCAATTTGATGCCCGCCGTGAGCCAGAATCGGTCTATATGCAGGTG AGCAAAGGCGTTTGGCCTGCGGGGATTGAATACTGGCAACCCCTTTTCTT TGAACAAACGGAAACGCTGTTTGACTACATCAATCGTGATTCACAACTGC TGGTGTTGGGGGATATCGAACCCACCATCGATCATTTCCTAAAGGATGTG GATTACCGCTACGATCAGAAAAAAGTCGACCCGCTGCGCCCACTGCTGAA ACCAGAGCAACTTTGGCTTAAAAAAGATGAACTGTATGCGCATCTGAAAA ATTTTGGCCAAACCTGGCTGTGTGTTGACGCCATCGACGAAAAAGCCGGG CGTTCCAACCAGCCATTGAGCCCACTGCCGACTCTCGCGGTGCAACAGCA AAATAAAGAGCCTTTGGCGCAGTTGCGTCAGTTTAGTGAAAGTTTCTCAG GCAAAATCATCTTTTCCGTTGAATCGGAAGGGCGTCGCGAAGCGCTCAGT GAGTTGCTACAGGGCGTTAAGCTCAAGCCACACGCTTGTGCCTCAGTCAG TGAAGCCCTTGCACATAACCATAAATTCACTTTGGTCATTGGCGCCAGTG AGCACGGTTTTATTCACAACACGCTGAACTTCGCCTTTATTTGTGAAAGC GATTTGCTTGGCGATCGCGTTATCCAACGTCGCAAAAAAGATAAGCGCAA CGTCAACAGCGATACCGTGATTCGTCATCTGGCGGAGCTGAAACCTGGGC AACCTGTGGTACACATCGACCACGGTATTGGTCGTTATATTGGCCTGGAA ACCCTTGAAGCTGGCGGGATCAAGGCTGAATACGTGATGCTTGAGTACCA AAACGAAGCTAAGCTCTACGTGCCCGTTGCTTCCCTTAACTTAATCAGTC GATACTCTGGTGGTGCAGAAGAGAGCGCGCCGATTCACAAACTGGGCAGC GATGCTTGGACCAGAGCACGTCGCAAAGCCGCTGAGAAAGTGCGAGACGT TGCCGCTGAGCTTTTGGACGTTTATGCCAAACGTGAACTCAAACCGGGTT ACAAATTTGTTTTGGATCGTGGCCAATATGCGACCTTTAAATCGGGTTTC CCATTTGAAGAGACTGATGACCAATCAATGGCCATCAACGCGGTGCTGTC TGACATGTGTCAAGCCAAAGCCATGGACCGCTTAGTGTGTGGTGATGTAG GTTTTGGTAAAACCGAAGTGGCGATGCGCGCTGCGTTTGTTGCCACCGAT AACGACAAGCAAGTGGCGGTTTTGGTCCCGACCACCCTGCTTGCTCAACA GCATTTCGAAAACTTCCGTGATCGTTTTGCCAACCTGCCAATTCGCGTCG AAGTACTGTCGCGTTTTAAGTCGGCAAAAGAACAAAAGCAGATCATGGAA GATGTGGCCAACGGCAAGGTCGATATCTTAGTGGGCACGCACAAACTGCT CTCTTCCGACCTCAAGTTCAGTGATCTTGGATTGTTGATCGTCGATGAAG AACATCGCTTTGGTGTGCGCCAAAAAGAGAAAGTGAAAGCAATGAGAGCC GATGTCGACATTCTCACCCTCACGGCCACCCCAATTCCGCGAACGCTCAA CATGGCGATGAGTGGCATGCGCGATTTGTCGATTATTGCCACCCCACCCG CTCGCCGTTTAGCCATCAAAACATTTGTCCGCGAAAGTGACGATGCGGTG GTCCGCGAAGCGATTCTGCGTGAAATCATGCGTGGTGGACAAGTGTACTT CTTACACAACCAAGTCGAAACCATTGAGAAAGTTGCAGAGGACCTGACCA AACTGGTGCCAGAGGCACGCGTCACCATCGCTCACGGTCAAATGAGAGAA CGCGAGTTGGAGCGTGTGATGAACGATTTCTACCATCAGCGCTTTAACTT ATTGGTGTGTACCACCATCATCGAGACGGGCATCGATGTGCCAACCGCCA ACACCATCATCATGGATCGCGCAGACAATCTCGGGCTTGCTCAGTTGCAC CAACTCCGTGGGCGTGTGGGTCGCTCGCACCACCAAGCGTACGCGTACTT GCTCACGCCACACCCGAAATCCATGACCAAAGATGCCATTAAACGCTTGG ATGCCATCGCTTCTTTGGAAGATCTGGGTGCCGGTTTCACCCTCGCCACG CACGATCTAGAAATTCGCGGTGCGGGTGAACTGCTCGGTGATGAGCAAAG TGGTCAAATTCAATCGATCGGTTTTACGCTGTATATGGAGATGCTTGAGC AAGCCGTGCAAGCATTGAAAGAAGGCAAAGAACCTGCGCTGGATGATCTA CTTCGCGAGCAAACTGAGGTGGAAATTCGTATCCCAGCCTTGCTGCCAGA CGATTATATACCAGACGTCAACACACGTTTGTCGATGTATAAACGCGTCG CCAGTGTGGCCGATTTAGAAGAGCTAAACGAAGTCAAAGTCGAGCTCATC GACCGATTCGGCTTACTACCGGAGGCGGCGAAAAATCTTCTTGCTGTCGC GGAGCTCAAACTGAGTGCCCACCGAATCAAGGCGAAGAAGATCGAGGCTC ACGACAAAGGTGGATTTATCGAGTTTTATCCACACGCTGACATAAACCCA GCTTATTTGGTTAGACTACTGCAATCTCAGCCGAAAAAATTTGCAATGGA AGGTCCAACTAAGTTTAAGTTTAGCGTACCATTGACGGACAGACGCCAAC GTATTCAGTTTATCCAAGATTTGCTGAATGAGTTTAACCAGAATTTATTA CCAGTGAGCTAG >VV10275 DNA polymerase III, delta subunit ATGCGAATTTTTGCCGATAACCTTGCTCAGCAACTGACGAAAGAACTCAA ACCTGTCTATTTGATTTTCGGGAATGAACCGCTACTGATCCAAGAAAGCC GCTCTGCTATTCAAAAAGCAGCGTTTCAACAAGGTTTCGAAGAGCGTCAT CGCTTTGCCGTAGATGCAAGCTTAGATTGGAATCAAGTCTATGACTGCTG CCAAGCTTTGAGTCTTTTTTCCAGCCGCCAACTGATTGAACTTGAACTGC CAGAAAGCGGTGTCAACGTATCAATCGCCAACGAGTTGCTTTCTGTCGCT CAGATACTGCATGCCGATATTATGTTAGTCATCATTGGCAGCAAACTCAC CAAAGCGCAAGAAAACGCAAAATGGTTCAAAACATTGAGCCAGCAAGGCC ACTGGATCAGTTGTCTAACACCCGATAATCAACGCCTGCCACAGTTTGTA TTAAATCGCTGCCGTCTACTGAATTTAAAACCAGACCAACAAGCGGTACA AATGCTCGCGCAATGGCATGAAGGAAATCTTTTTGCCCTTTCTCAAAGCC TGGAGAAATTGGCACTGCTCTATCCAGACGGCGAACTCAACTTGATTCGT TTGGAGGAATCCCTCAGTCGACATAATCACTTTACTGTTTTTCACTGGAT TGACGCACTATTAGAAGGGAAAGCCAACCGCTGCCAAAAAATCTTGCGCC AACTTGAAGCAGAAGACATTGAAGCGATTATTTTGTTGCGCTCATTGCAA AAAGAGCTGCTATTGCTTTTACAAATGCAGCAACAACTGCAGCAAAGCTC TATGATGCAAGTGTTCGAAAAGCACCGAATTTGGCAAAACAAGAAACCGC TCTATACTGCGGCTTTAACTCGACTCAAGAGCACTAAGCTAAGACAACTG CTCACATTGCTTGCAAAGGCAGAGATTCTGGCCAAAACGCAGTATGAGCA ACCAGTATGGCCAATTCTTCAGCAATTAAGCGTCGAGATGTCTCTCCCTG ACGTAGAGTTAGCTTTTAAAAGTTAA >VV10854 RecG-like helicase ATGTCTGCCCAACTGTTATCTGCTATCCCCCTCACATCCCTCAGTGGGGT CGGTGCTAAGGTGGCTGAAAAACTGGAGAAAATTGGCCTAAGCAGCGTGC AAGACCTGCTGTTTCACTTGCCACTTCGTTACGAAGACCGCACCCGCATC TACCCGATTGCCAAATTGCATGCTGGATTGTGGGCCGCTGTGCAGGGCCA TGTGATGCAAGTGGATACCTTGTTTGGTAAACGCAAGATGTTGACGGTGA AGCTCAGCGACGGGAATGGCACCATCACGTTGCGTTTTTTCAACTTTACC GCGGCAATGAAAAACAATTTTGCTGAAGGTAAGTTAGTACACGCTTACGG CGAAATTAAGCGCGGTAATATGGGGCTGGAGATCGTTCACCCAGACTACA AGTTTTTCGCCCCAACGCAGAAGCCCGATGTGGAACAGAGCTTAACGCCT GTTTATCCTACCACCGATGGCTTAAGGCAAATCACGCTACGTAACCTCAC AGACCAAGCCATCGCCCTGCTCGATAAAGCCGCGGTTCAAGAGTTACTGC CTGCCGGGTTGTATGACCAACAACTGACCATGGGGCAAGCGCTGCACATT ATCCATCGTCCTTCGCCGGAGATTAATCTGGAACTGTTCGACGAAGGGAA GCACCCTGCCCAAGTTCGCTTAATTATGGAAGAGTTGCTGGCTCAGAACT TATCCATGCTCGCCGTGCGCAGCAAAGGTCAGCAAGATGTCGCGCTGCCA CTTCCCCCCGTCCACCAGCTTAAACAACAGCTGTTAGCCCAACTGCCTTT TTCACCGACCAATGCCCAAGCGCGAGTGGTGCAAGAGATTGAAGAAGATT TGCAAAAAGCGCATCCGATGATGCGTTTGGTGCAAGGGGATGTCGGCTCG GGTAAAACCTTAGTGGCAGCCTTGGCCGCGGTACGCGCTATCGAACATGG CTACCAAGTGGCGCTGATGGCGCCCACCGAATTGCTGGCCGAGCAGCACG CGATCAACTTCGCCAATTGGTTTGAAAAAATGGGCATTCCCCGTTGGCTG GCTCGCAGGCAAGCTCAAAGGTAA >VV12873 3-methyladenine DNA glycosylase ATGATGGCAGAACAAAAAACATGTGCGTGGGCGATGAATCACCCTTTAGA ACGTGAATATCATGATTCGGAATGGGGTAAGCCTGTTTACGACGACACCG TACTTTTTGAGTTCATGACGTTAGAAGGTGCACAGGCAGGATTGAGTTGG ATTACGATTCTGAAAAAGCGTCAAGGTTATCGAGAGGCATTTGAAGGCTA TGACCTCAAACGACTCGCGCAACAGGGAGAGCAAAGAGTTGAGGAGATCA TCGCTCAGTACGATGTGGTGAAACATCGTGGGAAAATTGCGTCGGTGTTT AGTAATGCACGCGCTGCATTGGCGCTTCAAGAAGAGTTTGGTTCACTGTC TAACGCTTTGTGGTCGTTTGTCGACCATCAGCCGATTGTTAACCAATGGC AATCAATGGATGAAGTGCCCGCGGTCACGGAGCAATCTAAAGCGCTCAGC AAGTTTCTTAAAAAGCGTGGCTTCAAGTTTGTTGGAGAAACCATTTGTTA TGCCTTCATGCAAGCGGTCGGGATGGTTGATGATCATTTAATTGATTGCC CCTGTAAAGCACATCGATAA >VV11797 ATP-dependent exoDNAse alpha subunit ATGATGTTGAATGGGTCACTCCAAGCGACGCTGTCGATGCTGGAACAGCA AGCCCAACAAGGCTACCTGCGCTTATTGGATTATCAATTTGCGCGCTTTA TTGGTGAGCAGAGTCAGCACAGCGGATTGGCGCTGTTGGCCGCTGCGGTC AGTGCCGAGTTAGGCAAAGGGCATATTTGCTTGCCTCTGTTTGATGAACT TGGCCAAGTCTGTGAATTGGCCAGCAAAATTGGCCTGTTTGGTGAGGCGG CAACCGAGCTGAACGCCCAGTTGCAGTCGTTCGACTGGCGAGCATTGCTG CAAACCAGTCGCTTGGTTGGCACCCAAGGGGAAGCGGTGCCCTTGATGTT CGATGGGGAACGAGTTTATCTGCATCGCTATTGGCACTATGAAGTCGTTT TGGCGCAAAAACTTAATCAATTGAGTCACGGTATTGAACTTAACGCCAGC TCAGCGGCATCGTTATCCGCATTGCTGGATCGATTGTTCGCGCGAGATTA CCGCTTTTTGTTCGAAACGCTGATTGCCGCGCAAGCGAGCGGCAGTACCC AGGTGCAGCGACAGCAATGGGTGTGTGATTTTCTCGACGTGGTTGAAGAG CACCGTTTGGATTGGACGGCGATTGAACAAGTGCTGAGCCAAGTAAGCAA AGTCTCAGATCTCAACGCGCTGGATCATCTTGTGCCTCATGCGGCCTGCA TTAATTGGCAAAAGGTAGCTGCCGCGGTGGCGTTGACGCGTCGTTTTGCC GTGATCTCTGGGGGGCCGGGAACAGGCAAAACCACCACCGTCACGAAATT GTTGGCGGCGCTGATTGAGCAAGCTGGAGCGCAAACGCCCACCATTCGTT TGGTGGCGCCAACGGGTAAAGCGGCGGCGCGTTTGACCGAATCCATCGGT AAAGCGGTGCAATCTTTAGCCGTAGAGCCGAGTTTAAAGGCGTTAATCCC CACAGAAGCCTCAACATTACATCGCTTGTTAGGCGCGATCCCCGGCAGTG CCGAGTTTCGTCATCACAGTCAAAACCCGCTGCATTTGGATGTGCTGGTG GTGGATGAAGCCTCAATGGTCGATCTTTCGATGATGTATAAAGTGATTGA CGCGCTGCCTAAACATGCTCGTTTGATTTTACTCGGTGATAAAGATCAGT TGGCCTCCGTTGAAGCGGGGGCGGTGCTGGGGGATATCTGCGCATTTTCT GCTTCCGGATACAGCGCAGAGCAAGCAGCAACGCTCGCGAAGTTAACGGG TTATCAAGCGCTGCCAAAGAGTGCCAGCCGTTTGGCACCAGTTGCAGATA GCTTGTGTATGTTGCAAAAGAGCTATCGTTTTGATGCTCGCTCAGGAATT GGCCAATTGGCAAAAGCGATCAATGCCGGTTCCGTGGCGGCGTTAGAGAG TGTATGGCAGCGAGAGTTTAACGATATCGAACATCACCCATTGGATGCCA GCCACTACAACCATATGTTGCAAACGCTTGTAAGTGAGTACTCACATTAT CTTGCTCGCATTGCCTTAACTCAGCAGCATCTTGAGCCGAAAGAGAGAGA AAGCAGTGCTGTTCGAGCCAAAGCGGGACTGAATTTGTTTCATCGTTGCC GGTTACTTTGCGCCGTGCGTGAAGGCAATTTTGGTGTGGCCGGACTTAAC CTTCGCATTGAAAGAGCCTTAGCTGCGCGGAATTTGATTAAAGTGAAGGA CGAGATTTGGTATCACGGCAGGCCTGTAATGGTGACGCGTAATGATTACG CGCTTGGGCTTTACAACGGCGACATTGGCATCTGCATGTGGGATGACACT GACGAAGCCCCGCGTCTAAAAGTCTATTTTGAGTTGGCTGACGGCAGCGT TAAAGCGGTATTACCAAGCCGAGTGCCAGAACATGAAACAGCCTATGCGA TGACAATACATAAATCACAAGGCAGCGAATTTGATTTTACCTTGATGATT TTGCCTGCCGATTTCAGCCCAATACTGACGCGAGAGCTGATCTACACGGG CATTACTCGAGCGAAAAAGCGTTTAGCGCTGTATGCCGATCTCCAAGTCC TGAAACGTGGTATGAAGATAAAAACACAGCGAGCGAGCGGCCTGCCACAC CGTTTGGGCCAGTAA >VV13192 Putative transposase GTGTTTTATGAAGACGAAGTCGACATTCACTTAAACCGCAAAATTGGGTC AGATTGGATGCCCAAAGGTCAACAAAAGAAAGTAGCGACACCGGGACAAA ATGCCAAATACTATCTCGCAGGAACTCTGCATGCCAACACTGGTAAAGTC TCGTATGTCGGAAGTAGCAGTAAAAACTCAGAACTGTTTATTGCGATGCT AGAGTAG >VV12969 FOG: Transposase ATGTCTATCCAAAACTATTTTGCTGACTTTCTTGAAGAGAGTCCTGTTGA TGTCGCTCAGCTCACCACCTTCTCCGAGCATATTCCTGATGAGTGGGTTG CTAAAGCGGCAACACTTTCCGATAAAGCGACAATTCGTCGACGTCGTTTA CCTAGTGATATGGTTCTTTGGCTTATTGTTGGAATGGCGTTTTTCCGCAA TGAGTCTATTGCAGAAGTCGCACGGCGAATGAATGTCTGTGCCGAGGGCT TAGCCGATGAGGAACTGCTAGCTAAAAGTGCTTTAACGCAAGCAAGGCAA CGCCTTGGTAAAGCTGCTCCAGAATGGTTGTTTAGACAATGCAGTCACAC ATGGGGTCTAGAGCGTTACCCCGAGGATACTTGGCAAGGCTTACAAGTCT TCGCTATTGATGGGGCTCTTTTTCGAACCGCTGATACATCAGAACTAAGA GAACATTTTGGGTCAGGTAATACATCCAGCGAGAGGCAGACACCTCATCC AGTACTCAGGGTGGTGACCATGATGAATGTTCGCTCACATGTCATTGTAG ACGCAGCTATAAGCCCCTATCGTCGTGGTGAAATACCGCTTGCAATGCCC TTTATTGACTCTCTACCTGATAACTCATTGACTTTACTAGATAAGGGGTT TTATGGCGCAGACTTACTTCTTTCTCTCCAAAATAGTGGCTCCAACAGGC ATTGGTTGTTACCAGCGAAGAAAGGGGTGAAATTCAGACTTCTGGACGAT GAAGAGAGCGACGACATGTTGGTAGAAATGAAAGTCTCTCCACAGGCTCG CAAGAAAAATCCTAACCTACCTGAAAAATGGCAAGTCAGAGCCGTTACTT ATCAAGTACAAGGTAAGCACAAAACAGTGTTTACGTCTTTGCCTAGGGAA GAGTACGATGCGGAATCAGTAGCCGAGCTTTACCATGAGAGATGGGAAAT TGAGTTAGGGTACAGAGACATAAAAAGTTCGATGCAGCACAACGCGTTAG TGCTGAGGAGTAAGACGGTCGAGCTTGTCTATCAAGAGTTATGGGGGCTG TTGCTTGGTTATAACTTGGTAAGACGAGAAGCCAGTCAAGCGGCCGTAGC ACATGGTCGAATGGCCAATGAAATCAGTTTTAAATACGCTTGTCAGTTCA TCGCTAGTCAACTGAAAGTAATGAGCAAAGCGGTATCTCCAGGTAATACA CCGAAGCGTCTAAAAAGTCTGCGCGGAGACTTATCCATCCTTTTTATAGA CAAACGCCCTAAGCCAAATCGGCCTAGGGCGGTAAAAATATCAAAGACCC GATATCCTGTTAATCGCAAAGCAGCTCCTCTTAAGTGA >VV13099 Endonuclease III ATGAATAAAGACAAACGCATACAAATTCTCGAACGATTACGAGAAAACAA CCCCAACCCACAAACCGAACTCAATTGGAACTCCCCTTTTGAGCTGCTGA TAGCGGTTTTGTTATCAGCACAAGCAACGGACGTCAGTGTCAATAAAGCC ACCGACAAACTGTTCCCAGTCGCCAACACCCCTCAAGCGATGTTGGATCT TGGGGTGGAAGGTCTGAAAGAGTACATTAAGACCATTGGCCTGTTTAATT CCAAAGCGGAAAACACCATCAAAACGTGTCGCATTCTGCTCGAAAAACAC AACGGTGAAGTCCCTGAAGACCGAGACGCTCTTGAAGCACTGCCCGGGGT TGGGCGCAAAACCGCCAATGTGGTGCTCAACACCGCCTTTGGCTGGCCAA CCATCGCTGTCGATACCCATATTTACCGCGTTTCCAATCGCACAAAGTTT GCCCCAGGCAAAAACGTGGATGAAGTCGAGCAGAAGTTACTTAAAGTGGT ACCAAAAGAGTTTAAACTCGATGTCCACCACTGGTTGATTTTGCATGGAC GCTACACCTGTATTGCACGCAAGCCTCGCTGTGGCAGTTGCATCATTGAA GACCTGTGCGAATTTAAAGAAAAAGTCTACCCAGAGAATTAA >VV10313 Exonuclease VII small subunit ATGGCAACCAAGAAACCAGAAAACATGTCCTTCGAAGCAACCATCGAAGA ATTGGACAATTTGGTGGATCAACTGGAAAACGGTGATCTGGCTTTAGATG ACGCTCTTAAGAAATTTGAGCGTGGGATCGCATTAGCCAGAGCCAGCCAA GCTAAACTAACAGAAGCAGAACAAAGAGTTAGCATTTTACTGAGCGACAG TGATGATGCTCCTCTCAGCGATTTCTCCACCTTGGCAGAGTAA >VV12161 Holliday junction DNA helicase RuvB TTGGCCAATCGCTTGTTGCGCCGCGTACGCGATTTTGCTGAAGTAAAAGG CAATGGTCACATCTGTGCAGACACCGCAGACAAAGCGCTCAACATGCTAG ATGTGGACTCGAAAGGCTTTGATTACATGGACCGCAAGTTGCTGTTGGCC ATCATGGAGAAATTTGGTGGTGGTCCGGTAGGCTTGGATAACATGGCAGC CGCGATCGGTGAAGAGAAAGACACGATTGAAGATGTGTTAGAGCCCTATT TGATTCAGCAGGGTTATTTACAACGCACGCCTCGAGGGCGAATCGCAACC GATCGGGCGTATCTTCATTTCGGAATTGAAAAGTAA >VV12548 Transposase and inactivated derivatives ATGAGATACAAGCATCTCACTGAGAACGAAAGGTATATGATTTCTGCGCT CAGAAAGCAAGGGATTAGTACCGCTAAAATAGCTAAACAACTGGGGCGTC ACAAAGCCACTATCTATCGAGAAATTGAACGCAACTCCCGATACAACAGA CACTTTAAAAGGTACTCCTATCAGGCATGGAGAGCCCAACAAATGGCTCG CAACCGGCTAAGCCGCTCGCGCAGAAACAAGCGCTACAGCGAAATCGACT TCAGGTTGCCTGAGGCCTTGCTACGACTGGATTGGAGCCCTGACCAAATC GTCGGATACCTAAGGGTAAGAGGCTATCCAACAATGAGCCACGAGCTCAT TTATCAGCATATTTGGAACGACAAAACTCTCGGTGGAACACTATGGAAAC ACCTACGCCAATCGACCAAGAAAAGGCGTAAAAGGTATAACTCAAAAGAC AGCCGAGGTCGGCTGGCAGCAAAGCGTCATATTACCGAAAGACCTGCAAA AGCTGAGCATCGAAAAGAGCCTGGTCATTGGGAAATTGATACCGTCGTTG GACGCGGAACCAAGCACTGTATCGTGACTTTAGTCGACAGAATGACTGGC TACACTTTTATTGGGCAAATGGACGATAGAACAAGCGAGTCGCTCAACGT AAGAATGAGCAAAATCATGACCCGCTCTGACTTACCTTTTAAGACGATAA CTGCGGATAACGGCACTGAATTTCATGGTTATGCACAACTGGAAAAACAT CATAACTGTCTGTTTTACTTTGCAAATCCATACCATTCATGGGAGCGAGG GACTAATGAAAACACCAATGGTTTGATACGACAATACTTACCAAAACGAA CTTCTATGTCACACGTAACACAGAAGCTCTGCAATGAAATTGCACACAAA TTAAATACGCGCCCACGCAAAAGACTTGGGTATAGGACACCAACGGAGTA TATTCATGCGCATCTGTAA >VV11591 RecA/RadA recombinase ATGGACGAGAACAAACAGAAGGCTCTGGCCGCCGCACTAGGTCAAATTGA AAAGCAGTTCGGTAAAGGTTCAATCATGCGCCTAGGTGACAACCGTGCGA TGGATGTTGAAACCATCTCGACAGGTTCACTATCTCTGGATATTGCGCTG GGTGCGGGTGGCTTACCAATGGGCCGTATCGTTGAAATTTTTGGTCCAGA ATCTTCAGGTAAAACCACGTTGACCCTTGAGCTGATCGCTGCGGCTCAAC GTGAAGGCAAAACTTGTGCGTTTATCGATGCCGAGCACGCGTTGGATCCT GTGTATGCGAAGAAGCTTGGCGTTAATATCGACCAGTTGTTGGTATCTCA GCCTGACACCGGTGAACAAGCGTTGGAAATCTGTGATGCTCTTGCTCGCT CAGGTGCGGTTGACGTTATTGTTGTCGACTCTGTTGCAGCATTGACGCCA AAGGCAGAAATCGAAGGTGAGATGGGCGACTCGCACATGGGTCTTCAAGC TCGTATGCTATCTCAAGCGATGCGTAAGTTAACGGGTAACCTAAAGCAGT CTAACTGTATGTGTATCTTCATCAACCAGATCCGTATGAAGATCGGTGTG ATGTTTGGTAACCCAGAAACCACAACGGGTGGTAACGCACTGAAATTCTA CGCTTCTGTTCGTCTTGATATTCGCCGTACTGGTGCGATCAAAGAAGGTG ATGAGGTCGTGGGTAACGAAACGCGCATCAAAGTGGTGAAGAATAAGATC GCTGCGCCGTTTAAAGAAGCCAACACTCAAATTATGTACGGCCAAGGCTT TAACCGCGAAGGTGAACTGATTGACCTAGGCGTGAAATGTAAGCTGATTG AAAAATCAGGTGCTTGGTATAGCTATAACGGCGACAAAATTGGCCAAGGT AAAGCGAACGCTTGTAAATACCTGAAAGAAAACGTAGATGTCGCAAAAGT ACTGGATACGAAATTGCGTGAAATGTTGCTTTCTCCAGCAAACATCAACG ATGAATCGGCAGAGTTAGTCGAAGAAATGCCAGAGCAAGAAGAGTTTTAA >VV21341 Mg-dependent DNase ATGTTTATTAAAAACTTTCGAGATGGTTTTAGAGGTAAACCTAATTTTGA AAGATTAGAACTAGCTCAATATAAAATAGATAATTATTTCTACGAGTGCT CATTTCCAAGCAATTACTCTAGCTTTGTCTATGAGAGGGAGTGTGTGTCT TTACCTATATCTAATGATGCTTTTGTTAATGATGGCCATGAAGACATTGT TCATCTTGGTTTTGTGTCCTATCGATTTAGCAATGTCATTAAAAATCCTT TACTTCCATGCAATAGTCAGGGTTTGCTACTTGTGATCGTAAGAATAAAA CAAGTAAAAGAAAAAATTGATGATGTTGAATCCCTTGGTCGTATTCTTGA AAAAGAGTATGTTGACTATTATCACGACCCAAATCCAGATCATAAAAGCC AGCGCGGAAGGCATACGGAGGATATGGAAAATGCATATAGATACGCTAAT AAAGTTTGGGGGAATTTACCAGATAGTGACGATGATTCTATAGAAAGAAA TGACTATCTGCTTGGTTCGTATCTGAGGTCATATCCGCCAATAAAATGTG AATCTGTGAAAATAGGAAAATACGGTTATTCTAAGTATGTAGAGGGGAAC ATCGATTATAAAAATACCGTTAGAAGATTCTATAATTTGCCTATTAAAGA TAACTATATATTGAGCTTTGAGTTTAAATATCGTTTAGAAGGCGAAGCGT CTAAGAAAAAATTCCGTAAGTGGCTTCTTTCTTCGGATGAAACCTTTGAG CATAAAATACTCGAAACATTGGATATTTCTCGTTTGGTGGATGCCTCTAC TGAGAACGAGATCGCGTTCATCTCAAGCCAAGGTAAGCAGTAG >VV21154 Serine/threonine protein kinase ATGCTTGATTACACTGTAGCAGAGGTAAGATTTGATGAACTCGGGCGAAT TGGGGATGAAGGGCGAAACTCCGTTGTCCTGAAAGTTCGAGATGTTTGCT TAGACGCCATCATGGCAGTTAAGAAAATAAAAAAAGGCAGTAGAGCATTA CCTAATCCAGCCGAGTACTTCAATGAAGCTAGGATTTTATACGCAAATCC ACACCCTTATGTTGTTCAAGTGAACTATGCTTGTGAGGACAGCAGTCATG TTTATATTGCTATGCCTTTATATAAGAATGGTTCATTGAGCAAGTATATG AGCGAGCGTTATCTCACTCTCGGTGAAATCGTCCGTTTTTCATGTCAATT TTTATCTGGCTTACACAATATCCATTCAAACCAACTGATTCATTTCGATA TCAAACCTGACAACATCCTATTATCAGACCGGAATGAAGCTATGTTGTCC GATTTTGGCTTAGCTAAGTTTTCTGATGAGGATGGCTTTGCTACTCCAAA CCAGTTATACGGCACACACATGCCTCCAGAAGCATTTGAAGGTGGGGAAT ATACAAACCTACTAGATATTTACCAAGCTGGTTTAACAATGTATCGCATG TGTGTTGGTAGTGATGAATTTAAACGTCAAGTAGATACTTTCCGCGAGCC TGACGGCACGCTAGGTCATACTTTTATTCAAGCTGTTCAAGCAGGTGATT TCCCTGCAAGAAATGCTTTTCCTGCACACATACATAGTAAAGTTAAAAAC GTAATTACTAAGTGTATGTCTCCAGACCCCGATGACCGATATATGTCAGC CATTGAAGTCGTAAATGATCTATCTTTTGTTGATGAAAGCTATTTCCCTT GGCAGTATAGTATTGACGACGGTGTGCGAAAGTGGGAAAAAAACACTAGT TCGAATGGAAAAAAGTGTATAGAGTGGCACCCTGACTCTAGCTCAGTCGC CTACACTATAAGTGTAGGGCAAGTAAGAAAAGCTAACTCAAAGTACACTA AAGACCGCTTAACTATTACGGAGTTGAGAAGATTTCTGAAGGAGTAA >VV12130 DNA topoisomerase I ATGGGTAAATCGCTCGTTATAGTGGAGTCGCCAGCTAAGGCTAAAACGAT CAATAAGTATCTTGGAAAAGACTTTGTGGTTAAGTCGAGTGTTGGTCATG TACGCGACTTGCCTACAGCAGGTCAGAGTACAGGCGAAAAAGCGGCTGCC ATTTCTACTAAGGGTATGAGCGTAGAAGAAAAGGCTCGTATCAAGCAAGA GAAAGATCGTAATGCACTGATCAAGAAAATGGGTATAGACCCATATCATG ATTGGGCTGCAAATTATCAAATTCTGCCAGGCAAAGAAAAAGTTGTCAGC GAATTACAAAAGCTAGCTAAAGACGCTGATTTTGTTTATCTCGCAACCGA TTTGGACCGCGAGGGGGAAGCTATTGCGTGGCACCTTCGTGAGATCATCG GTGGCGATGAAGCACGCTATAAACGAGTCGTTTTTAACGAAATTACTAAG AATGCAATTCAGCAAGCATTCCAAAAACCTGGCCATCTCAATATGGATGG GGTTAACGCACAACAAGCGCGTCGATTCATGGACCGCGTTGTGGGCTTTA TGGTGTCCCCATTACTGTGGAAGAAAGTGGCTCGCGGTTTGTCTGCAGGT CGTGTGCAATCGGTCGCTGTGAAGCTTTTGGTGGAACGTGAACGAGAGAT CAAAGCGTTTGTACCGGAAGAATTTTGGGACATTCACGCCAACACACTGA CGCAAGAAACGATGCCATTTAAGCTTTTGGTTGCTCAAAAGTCTGGTGAC ACGTTCCGCCCAGTCAATGAAGCGGAAACTAATGCCGCTCTGGCGGTTCT GCAAAAAGCACAGTTTGAAGTTTGCAAGCGGGAAGACCGTCCTACTAAGA GCAAACCTTCAGCGCCGTTTATTACGTCAACGCTCCAACAAGCGGCAAGT ACTCGCTTAGGCTATGGCGTTAAGAAAACCATGATGTTGGCTCAGCGTTT GTACGAAGCAGGTTACATCACCTATATGCGTACTGACTCGACCAATTTAA GCCAAGAAGCGGTAGAAGCAGTTCGTGGGTACATCAGTGATGAATTTGGA TCTCGCTACTTGCCAAAAGCACCATTGGTTTATGGTAGCAAGCAAGGGGC ACAAGAAGCACACGAAGCGATTCGTCCTTCAGATGTCAACGTCAAAGCAG ATGCTCTAGAGGGTGTTGACGCTGACGCACACAAACTTTATGCCTTGATT TGGAATCAGTTTGTCGCCTGTCAAATGACTGAAGCTGAGTACGACTCAAC GACGGTGAGCGTTAAAGCCGCAGAATATACCTTGAAAGCAAAAGGTCGCA TTCTGAAATTTGATGGTTGGACTCGCGTGCAGCGCCCACTGGGCAAAAAT GAAGATACGATCCTTCCAGCGGTTCAAGTGGGCGATAAGCTAAACCTTGA GTCCTTAGAGCCGAAACAGCACTTTACCAAGCCGCCGGCTCGTTTTACCG AAGCTGCTTTGGTTAAAGAGCTAGAGAAGCGCGGCATTGGTCGTCCTTCA ACTTATGCCTCCATTATCTCGACTATTCAAGACCGTGGTTACGTAAAAGT GGACCAGCGTCGTTTCTACGCCGAGAAAATGGGTGAAATCGTGACTGACC GTCTTGATGACAGTTTCAACGATCTGATGAACTACGACTTTACTGCTCGT ATGGAAGAGAAGCTGGATAAAATCGCCGAAGGCGATGTTAACTGGAAAGA CGTTCTGAATCAGTTCTTTGCAGACTTCACCACAGATCTTGGCCGAGCCG AAGAAGACGAAGCACATGGCGGTATGAAGCCAAATCACATTGTTATGACG GATATTCAATGTCCGACCTGTTCGCGTCCAATGGGCATTCGTACTGCGTC TACTGGGGTTTTCCTTGGCTGTTCTGGTTACGCATTGCCAGTGAAAGAAC GTTGTAAGACGACCATTAATCTTGGTGATGAAGAAGGCATCATCAACGTG CTTGAAGAAGATGTTGAAACTGCTGCGCTTCGAGCAAAGAAACGTTGTCC TATCTGTGAAACCGCGATGGATGCATACCTGATCGATGATAAACGCAAGA TGCACGTATGTGGTAACAATCCAAACTGTGAGGGTTACTTAGTCGAGCAT GGTGAGTTTAAAGTCAAAGGTTATGACGGCCCTGTGGTTGAGTGTGACAA GTGTGGCAGTGACATGGTGCTCAAAAACGGTCGCTTTGGTAAATACATGG ATTGCACGAGTGAGACCTGCAAGAACACGCGTAAGATCCTGAAAAACGGT GAAGTAGCACCACCAAAAGAAGATCCAGTGCATTTCCCTGAATTGCCATG CAGCAACTCAGATGCGTACTTTGTTCTTCGTGATGGTGCTGCTGGCTTAT TCCTCGCCGCGAGTAATTTCCCGAAATCTAGAGAAACGCGTGTGCCGTTG GTTTCTGAGCTGGCTCGATTTGCTGAGCGTCTGCCAGAGAAATACAAACA CCTTGCACAAGCGCCGACGCAAGATCCTGATGGTGTCGAGGCGGTTGTTC GTTTTAGCCGTAAAATCAAAGAAAACTATGTACGCACTGAAGTCGATGGA AAACCGACAGGTTGGACAGCGCTCTATGTTGATGGTAAATGGGAAGTGAC GGATAAACGTAAAAACGCGAAATAA >VV12262 MutT/nudix family protein ATGACGGGCAGAGGTAATACCTTGTTTGAGCTTAATAAAAATCAACTATT ACAATCTTTTCAGTTCAATCTGCCTCGCGGTTATCACGCAGAGTCCACCG CACGTGTTGCACACTTGAAAGGCAGTAAGCTTCGCGATGCCGCCGTGTTA ATTGGCTTTGTTGAACGAGAACAAGGCTTGAATGTGATTCTGACTAAACG CGCCTCTCATCTGAAACATCATCCGGGGCAAATCAGCTTTCCGGGTGGCA AGTACGAAGAGAGTGATTGTTCTTTACAAGCAACGGCGTTGCGCGAGACC CGCGAAGAGATAGGAATTGCACCCGATGCGATCTCCATTTTTGGCCAAAT GCCGGAATTGGTTACCGTCAGTCGGTTCAAAGTCACACCAATATTGGCGT TTGTCGAACCAAATTATCAAATCGTCATTGATAAAAATGAGGTCGATGAG GTGTTCGAAGTGCCCGCCAATCACCTACTTGATACGCAGAAACTGAAAAG TGCCCAGTTTCGCGTGAATCAATCTCATCATCGAGTCTTTGCCATTCCCT ATCAGCATCATTTTATCTGGGGGATGACTGCCCAGATAATCCAAGCCATG CAGCAACAAATTATGAAACGAGGTTAA >VV10141 Rad3-related DNA helicase ATGATAGCAAAAACGTTTTCTTCCAAAGGTGCTTTAGGCAAGGCCATTCC CGGCTTTCAAGCTCGTCAACCTCAGGTCGATATGGCCGAAGCGGTCGCCG AGGCGATCCAACAGCAAACACAGCTTGTGGTTGAAGCGGGGACCGGAACC GGTAAAACCTTCGCTTATCTGGTGCCAGCTCTGCTAAGTGGCAAAAAGGT CATTATTTCTACCGGTTCGAAAAACTTGCAAGAACAGCTTTTTCATCGTG ATTTGCCGCTCATGACCGATGCGTTAGGCTTTTTTGGACAACTCGCGTTG TTGAAAGGCCGCTCCAACTATTTGTGTTTAGAGCGTTTAAGCCGACAAAT GGTCGAAGTGCATCACAATGAATCGGATTCCACGTCATTAAGCCAATTGG TCAAAGTGCGCAGTTGGTCTTCGGAAACCAAAACGGGCGATTTGGGTGAT TGTGAAGAGTTGCCAGAAGACAGCATGATCATACCCACCATCACGTCAAC CAATGACAACTGCTTAGGCAAAGATTGTCCAAGTTACCAAGATTGCTTTG TGTTAAAAGCGCGAAAGAAAGCGCTGGATGCCGATGTGGTGGTGGTGAAC CATCACCTTTTTCTTGCCGACCTGGCGATCAAAGAAACCGGTTTTGGTGA GCTGATCCCCGAAGCGGATGTGTTTATTTTTGATGAGGCGCATCAACTAC CTGATATTGCGAGCGAATATTTTGGTCAGTCACTCTCCAGCCGCCAGATT CTCGATTTGGCCAAAGACATTGAAATTGCCTATCGCACGGAAGTGAAAGA CATGCGTCAGCTGCAAAAAGTGGGGGATAAATTAGCCCAAACCGCAATGG ATATGCGCATTGTGCTGGGTGAGCCTGGCTTTCGTGGCAATTGGCGAGAT GCCTTACAATCGCCATCCATCAAGCGCGAAGTGGATCGCTTGGTGGATGC GTTGGATCTGACCATCGAGGTACTCAAGCTCGCGTTAGGTCGCTGCCAAT TGCTTGATGTGGCGTTTGAGCGCGCTAACCTCATTAAAGGTCGTTTAGAA CGAGTGTGTGATACCAGCATCACGGGCTATTCGTACTGGTTTGATACCTC GCCGCGCCATTTTACATTGCACATCACGCCGCTCTCAGTTGCGGACAAAT TTCATGAGCAAATAGAGATCAAACAGGGCGCGTGGATCTTCACCTCGGCC ACGTTGGCGGTGGGGGACGATTTTAGTCATTTTACCGACCGCTTAGGCTT AAAGCCGCGAAAGCAATTCTCATTGCCAAGCCCATTTGATTATGCCGAGC AGGCGCGATTGTGCGTCCCTCGCTATCTACCAGAGCCCAATAGCCCAGGT TTGGCGCAAAAGCTGGTGGCGATGTTGGCGCCGGTGATTGAATCCAACCA AGGGCGTTGTTTCTTCCTCTGTACTTCACATTCGATGATGCGTGAATTAG GCGAGCGTTTTCGCGAGGTTTTGGACTTACCCGTTTTATTGCAAGGCGAG ATGAGCAAACAGCGCACGCTCGCTGAATTTATGGAGTTGGGGAATGCCTT GCTGGTGGCCACTGGCGCTTTTTGGGAAGGAATCGATGTTAGAGGTGACG CCTTAAGCTGTGTTATCATCGACAAACTTCCTTTTACATCACCAGATGAC CCGCTACTTAAAGCTCGTATCGAAGATTGTCGATTACGAGGCGGAGAGCC GTTTGAGCAAGTACAACTGCCTGATGCAGTCATTACGCTCAAACAAGGGG TAGGGCGTCTGATTCGAGATCAAAAAGATCGCGGGGCTTTAATCATCTGT GACAACCGCTTGGTCACAAGAGAATACGGCGGCATTTTTCTTGCCAGCTT ACCTCCGATCCCAAGAACCCGTGATTTGGATTTGATTCAACAATTTCTAA CAGAACAAACAGAGAACTGA >VV11050 Smf protein ATGAGTCAGGATGAACTGCATGCTTGGTTAGCACTCAGTTTTACGCCCAA TATTGGGGTTAAGAAGCTAACCAAGTTACTCAGTATTGATTCCCCGCTCA ATATTCTGCGTTACTCCCAAGAGCAGCTACTGTCGCTGGGGCTGTCGTCC CAGCAAATCATCACCTTGCGAAGTAGTGCTCAGCAAGACGCTGAAGCCGC CCTTCAATGGCAGCAGCTTTCCTCCCAGCATCATATTCTTACCCTTCATG ATGGCCTATATCCGCCGCTGCTTAAGGAAACGGCTTCACCGCCTTGCCAA CTGTTTGTACAGGGTGATCCTCATTGCTTAACCAAGCCACAAATTGCGCT GGTGGGGAGTCGTCATGCGACCATGCAAGGGTTGCAACATGCTCGCGACT TTGCGGCTCAACTGGTACAGCATGGGTTGGTGGTGACCAGTGGTTTAGCG CTTGGGATTGATGGCCATGCCCATGATGGTGCGCTGAGAGCGGGAGGCGA AACCGTTGCCGTTCTTGGTTCGGGCTTCCAACATATTTATCCCGCTCGCC ACAAAGGCCTTGCCGAGAGAATTGGTCAGCAAGGTGCGCTGGTTTCGGAG TTTCGTCCCAATACTAAAGCCAAAGCCGAACATTTTCCTCGTCGAAATCG AATCATTAGTGGCTTGTCTCTGGGGGTTTTGGTGGTCGAAGCGGCAGAGA AAAGCGGTTCTTTGATTACCGCCCGTTATGCCGCTGAGCAAGGTCGAGAA GTCTTTGCTTTGCCTAACTCTCTCCATATTACCAATGCACGCGGCGGAAA CTTGCTGATAAAAAGCGGAGCGTGTTTAGTCACTGGGGTAGAAGATGTGC TGAGTGAAGTGCAAACTTTGCTCGACTGGTCGACAAACCAACAAGCGGAT TTATTTTCTTCCTCTAATACGGAAGAACAATTGCCATTTCCTCAGCTGTT AGCTAACGTAGGTAATGAGGCTACACCAGTTGATATTCTAGCAAACAGGA CCAATATACCTGTGCAAGAAGTCATGATGCAGCTCTTGGAGCTTGAGCTT TCAGGGCATGTTGTTGCAGTTAACGGTGGCTATATTCGAAGGGGGAGGGG CTAG >VV11083 ATP-dependent DNA helicase Rep GTGAAAGAAGTGGTTCAACGTTTGACACTGCGTGACATGATGGAACGTGG TGAAGAAGATGAAGACAGTGATGCCGTACAACTGATGACACTGCATGCGT CTAAAGGTCTGGAATTTCCATATGTGTACCTGATCGGGACTGAAGAAGGG ATATTGCCGCACCAAACCAGTATCGATGAAGATAACGTCGAAGAAGAACG TCGCTTAATGTACGTCGGCATTACGCGTGCGCAGCGAGAGCTGACTTTCG TGATGTGTAAAGAGCGTCGTCAATATGGGGAGTTGATCAAACCCAGCCAA AGTCGCTTCCTAGACGAGTTGCCTTTCGATGATGTGGAATGGGAACAAAC CAAAAAGCCAGTGACACAGGAAGAAAGAATGGCCAAAGGCCAAGCGCACA TTGCCAACTTACGTGCCATGTTCAACAAGAAGTAG >VV12551 Transposase and inactivated derivatives GTGAAGTACGAGTTCATTGAAAGCTATACCGGCGAGTACTCGATCAGCTT AATGTGTCGTACTTTAGAAGTGAGTCGAGGTGGCTACTACAAGTGGTGTC GTCATACGCCGAGTGAACGTTCAAAGCGGCGAGAGCGCTTTGAACAGCTT GTCATGTGTACCTTTGCCCAATATCGGGCACATTACGGTTCAGTGCGAAT AGCAGAAGAGCTAAACGAAGCAGGCCATGCCTGCTGCGTGAACTATGTGG CTGATACCATGAAGGAAAAAGGTATCAGGGCACGTAATGGTAAAGGGTTT AAGTACAGCAAGGATGTGGCTGCGATGACGAATGTTGCTGACAATTTACT GCGTAGAGACTTTGTATCTGAGACCCCGAATCAGAAGTGGGTCACGGACA TCACGTATATCTGGGTGAAGAGCCGCTGGCTCTTCTTAGCGACAGTGATG GACTTGCATTCCAGGCGTATTGTGGGTTGGTCTCTAGGGACAACAATGAC CGTTGAGCTCATCACGAATGCTCTAAAAATGGCATTTGAGTTACGTAAGC CGCCTAAGGGTGTCATTATCCATTCGGACCGTGGTGTACAATACAGAGCA TATAAATATCAAGACTTCATGCGTAAGCATGGAGGTGTACCGAGCATGAG TCGACAGGGTAACTGTTGGGATAATGCAGTGATGGAGTCATTCTACAGTC GACTGAAAGTCGAGTTGATATACGCAGAAGACTACCAAACTGTCGAAGAA GCCCGAATGGGAATCTTCGAATACATCGAGGTATTTTACAATAGCAGAAG AAGACACTCAGCGTTGGGGCATGTCAGCCCGGTTGAGTACGAAAGTCTGT AG >VV12947 ATPase-like protein ATGAGACCGGAAACGATCGAACAGTACATCGGTCAGCAGCATATTTTAGG CCCTGGTAAGCCATTACGTCGCGCGCTAGAGGCCGGCCACATTCATTCAA TGATTTTGTGGGGGCCTCCAGGTACAGGCAAGACAACATTAGCGGAAGTA GCCGCAAACTACGCCAACGCGGAAGTTGAACGCGTCTCTGCGGTCACGTC CGGCGTGAAAGAAATTCGTGCCGCAATTGAAAAAGCACGCGAGAACAAAA TGGCGGGTCGTCGCACCATCTTGTTTGTGGATGAGGTACATCGCTTTAAT AAATCACAGCAAGATGCCTTCTTACCTCACATTGAAGATGGAACAGTGAC TTTTATCGGCGCGACCACAGAAAATCCATCGTTTGAACTGAACAACGCAT TATTGTCACGTGCTCGTGTGTATAAGCTTACGTCACTCAACAAAGAAGAA ATCTCACTGGCATTAAACCAAGCGATCAACGACAAACAACGTGGTCTGGG TAATACACCAGCACACTTTGCTGATAATGTCTTGGATCGTCTGGCTGAGC TCGTCAATGGTGATGCGCGAATGTCTCTTAACTATCTTGAGCTGCTGTAT GACATGGCAGAAGACAATGCTCAGGGTGAAAAAGAGATCACGCTAAAGCT ATTGGCGGAAGTGGCGGGGGAGAAGGTCTCTCGTTTTGATAATAAAGGCG ACATTTGGTACGACTTAATCTCTGCTGTGCACAAATCCATTCGCGGCTCA AACCCGGACGCTGCGCTTTATTGGTCGGCGAGAATGATCGCTGCCGGTTG TGATCCACTCTATATCGCGCGACGTTTGCTGGCCATTGCCTCTGAAGATG TGGGCAATGCGGATCCGAGGGCAATGCAAGTGGCTCTTTCCGCGTGGGAT TGCTTTACCCGTGTTGGGCCCGCAGAAGGCGAACGCGCAATTGCACAGGC GATCGTTTACCTTGCGTGCGCGCCGAAAAGTAATGCGGTCTACACCGCTT GGAAGCAAGCGCTGTCGGATGCACATAATCTTCCTGAATTTGAAGTGCCT TTCCATTTGCGTAATGCACCGACCGGATTGATGAAAGATCTTGGTTATGG GGAAGGTTATCGATACGCTCATGATGAACCAGGGGCCTACGCCGCGGGCG AACAATATTTGCCTGCTGAAATTGATGATCGCAAGTACTATCAGCCAACA AATCGAGGCTTAGAGAGCAAAATCGCTGAAAAGTTAGATTACTTGGCTAA TTTAGACGCAAATAGCCCACAAAAGCGCTATGAAAAGTAG >VV20917 DNA polymerase III, epsilon subunit ATGATGATAAAGAAATGGTTCAAGCGCTGGGACACCATGCCCAGCCAAGA ACAGATACGCCAACAGATCGTCGTTGAATCGGCGTGGCCCGAAGCGCTGC AAAACTACCTGAATACGCCGCTCATTGCACAAGAGACGCCACTTCATCAA GTCTCGTTTCTTGCTTTGGATTTTGAAACCACTGGGCTTGACGCAAAACA CGATAAAATACTGTCCATCGGTATGGTGGATTTGACGCTCGAAGGCATTA ACCTCTCAAGCGCAGAAGAGATCCTGCTCAACCATGGCGCGTACATTAAA GCCGAATCTGCGCGCATTAACGGCCTAACGCCACAGGCGCTAGAGCAAGG TTGCTCGCTAGAGCAAGGTTGCTCGCTAGAGCAAGGGATGATGCGTTTAT TTGAACGTGCACAAGGCAAAGTTCTGCTCGCGCACAGCGCAATCATTGAA CAAGGTTTTCTCCAAGCCTTTGCTCAACAACATTTTCAGCTTGCCAAATT GCCTTGCCACTTCGTGGATACACTGCAAATTGAAAAGCGCTTTAGCTACG CAGGGAAAAGCGGCCAACGCAGCAGTTTTCAACTTGATGATTTACGACGT TGTTATCACTTACCCGATTACCATTCTCATTCTGCCGCCAGTGATGCCTT GGCCTGTGCGGAGTTGTTTATCGTGCAAAGCAAAAAACTCGATCTGAATA AACAACGGCAGTTAAACACGGTTTTGTGCTCCATATAA >VV13039 Type IIA topoisomerase, A subunit ATGAGCGATCTAGCTAAAGAGATCACGCCCGTAAACATTGAAGATGAGCT AAGAGGTTCATACCTTGACTACGCGATGTCCGTTATCGTGGGTCGTGCTC TTCCGGATGTGCGTGATGGCCTAAAACCAGTACACCGCCCGCGTGCTTTA CGCGATGAATGTACTAGGCAACGACTGGAATAA >VV20932 NTP pyrophosphohydrolase ATGCCCCCTGTACACCCATGCGTCTCCTTTTTATTCATCGATCAAGACAA GGTATTGCTTGAGCAACGTAGCAAAGAGAAATCTTGCGATCCCGATATGG TTGCCATTCCCGGCGGGCATATGGAAAAGGGAGAAAGCCAAACAGAGACT CTGCTAAGAGAGATCCGCGAAGAACTTGGCGTCGATGCGTTGACGTATCA CTATCTCTGTTCGCTCTACCATCCAACCTCTGAGCTTCAGCTGCTGCACT ATTATGTGGTAACCCAATGGCAAGGTGAGATCCAAAGCCACGAAGCGGAC ACTGTCTTTTGGAGCAAGGTCACTGACTTCGCCCCAGCGACCGAGGCAGA TAAGACCGCACTTAAAGAACTACTTCGCTTACAAGCAGAGGGGTTGTTTT AG >VV11193 Transposase and inactivated derivatives ATGGGGCTTGATAACGTCGATGTCTGGTTTCAAGATGAAGCAAGATTTGG CCAGCAAAACACGACAACTCGACTTTGGGCTGAGCGTGGCTCAAGACCAA GAGTGGTAAAACAGCAGCAGTTTGAATATGCGTATTTGTTTGGCTCAGTA TGCCCCGCTAGAGGTATTGGTGAGGCAATGGTCGTTCCTTGGGTTAACAA GAACATTATGGTTGAGCATCTGAAGCAGCTCTCCGCGGTGACCGAAAAAG GTCGTCACGCAGTGGTCATTATGGATGGCGCGGGTTGGCATACAAATGAC ATTGCTGAGCCATTTGACAATGTCAGTATCATCAAGCTCCCGCCATATTC ACCAGAGCTAAACCCAATAGAACAAGTGTGGAGTTGGTTAAGACAACACT CTCTCGCCAATCAATCTTTTGCGGATTACGAAGACATTGTCTCCAAAGTA TGTAGGGCTTGGAATAGTTTTTTGGAATGTTCGGCCAGAGTCAGACAAAT GTGCTCGAGAAGCTGGATAGACCTGACCAGTTAA >VV11475 DNA polymerase III, chi subunit ATGCAAAGAGCCACGTTTTACATTGTCCGAGAACACACCCCACAAGCAAC GCCAGAAGGTTTTGCTCACTACGTAGTGTTCCTTGCCCACCATTTTGCCA AGCAAGGGGCGAAGGTGTATCTCAATGGAGAAAGTAAACGTCACGCAGAG CAAATTGCAGAGTACTTTTGGCAAGTTGAGCCCGCTCAGTTTGTTGCGCA TAATTTGGTCGGTGAAGGTCCAAAATACGCCACCAATATTGAGATAGGTC ACGAAGGTGTCAAGCCAAGCTGGAACCGCCAACTGGTAATAAATTTGGCG AAAAATGAGACAACCTTTGCGAACAAGTTTGCTGAGGTGGTAGACTTCGT CCCTTGCGAAGAAAAAGCTAAACAGCTCGCGCGAGAAAGGTATAAAATCT ACCGTCAAGCAGGTTACCAACTGCAAACAATCGAAATTGAACACAACTAG >VV10206 NAD-dependent DNA ligase ATGTCTGAATCCAAGCAGCAATATTTAGAAGAATTAAAACAGCAACTGCA CTATCACGCAGTTCGTTACTACGTTGAAGATAATCCTGAAATTCCGGATG CCGAGTATGACCGTATGATGCGCGAGTTAATGGCCATTGAAGCGGAGCAT CCGGAGTGGATTAGTGTTGACTCACCCAGTCAGCGAGTGGGAGGTGTCGC TCTTGATAGTTTCCGCCAAGTAACGCATGAGATCCCGATGCTTTCTTTGG ACAACGCCTTTAGCGATGAAGAGCTTGAGAGTTTCCTTAAACGCGCACAA GATCGTATGCCAAGTGCTCATATTGATGCATTTTGTTGCGAGCCTAAGCT CGATGGTTTAGCTGTCAGCCTTCTCTATGAAAATGGCGTTTTGGTTCAGG CCGCGACTCGAGGCGATGGCACCACAGGCGAAAATATTACCGAAAACGTG CGTACCATTGCTTCTGTGCCACTGAAATTGCAGGGAGAAGGTTGGCCATC ACGCATCGAAGTTCGTGGTGAAGTCTTCATGCCAAAAGCAGGCTTTGAAA AACTCAACGACATCGCTCGCAAGAAAGGCGAAAAAGTATTCGTTAATCCG CGTAATGCAGCGGCGGGAAGCTTACGCCAGCTTGATTCGAAGATCACCGC AACTCGTCCGTTGGCGTTTTATGCGTATAGCGTGGGCGTCGTAGAGGGCA TCTCACTGTCATCAAGCCATTACCAGCGTTTCTTGCAGTTAAAGCAATGG GGCTTGCCTATGTGCCCTGAGACGAAGTTGGTTAATGGGTTGGAAAGCGT TAAGGCATTCTACGCAGACATCTTAAATCGACGCGATGCATTGCCATATG AAATCGATGGTGTCGTGATTAAGATTGACGACATTGTGATTCAAGAGAAA TTGGGTTTTGTGGCACGCGCACCGCGTTGGGCTATCGCGTATAAGTTTCC TGCGCAAGAAGAACTCACCCTGTTGAATGACGTTGAGTTTCAAGTTGGCA GAACGGGGGCTATTACCCCAGTCGCGAAGCTGGAACCTGTTTTCGTCGGT GGTGTTACCGTCAGTAATGCAACGCTTCATAACGCTGATGAAATCGAACG CCTTGGTGTGATGGTTGGTGATACCGTCGTGATTCGACGCGCCGGGGATG TGATTCCACAAATTGTTTCTGTGGTGAAAGATCGTCGTAAAGGAGATGAA AAAAACATCATTTTCCCGACCGCTTGCCCCGTTTGTCACTCACATGTTGA ACGGATTGAGGGAGAAGCGGTGACTCGCTGCTCTGGCGGTTTGGTGTGTC AAGCACAGCGAAAAGAGGCGCTGAAACATTTTGTGTCTAGGAAGGCGCTC GATGTCGATGGGTTGGGTGACAAGGTCATAGAGCAGCTTGTAGACAAAGA AATGGTAGAGACTCCAGCGGACTTGTTTACGTTATCTGCAGGCGTTTTAA CGGTACTTGAACGAATGGGACCAAAGTCAGCCCAGAACATCGTCAACGCA CTGAACGTTGCGAAAGAGACTACGTTGGCTCGTTTTCTTTATTCTCTGGG GATCAGAGAAGTGGGCGAGGCAACCGCGGCTAATTTGGCTCGCCATTTTA AGACACTAGAAGCGATACAAACTGCAACGCATGAGCAGTTAATCGAAGTT CCCGATATCGGTGAAGTCGTCGCTCGTCATATCACGGCATTTTTTGCTGA AGAGAAAAATCAAAGAGTGGTGCAAGCACTTATTGAGCAGGGAATTGTGT GGCCCGCTGTCGAGGAGCTTGGTAGTGAGATACCTCAGCCATTAGCAGGC AAAGTTGTGGTACTAACCGGAACCTTGACGCAACTCAGCCGTGGCGATGC AAAAGCGGCTTTGGAACGATTGGGGGCTAAAGTCACGGGCAGTGTATCCA AGAAAACAGATATCGTTTTTGCTGGTGAAGCGGCGGGTTCAAAATTAACC AAAGCGCAAGAACTTGGCGTGGAAATTCAAACAGAGCAAGATTTACTCGC ACTTCTGTAA >VV13199 Transposase and inactivated derivatives GTGGAGAACAGAACTGCCTTAGCGAACCAGATCAAGGGATTGACTGCTGA GTACGGTGTTGTATTTCCTATTTCCATTATAGCTTTGCGGTGTCATTTAC CGAGAGCTCTTGAAGATGCAGAGAATAAGCTTTCTCCAGTAATGAGGAAC TTACTGCAAACTTTATACTATTACTTTGTCAGCCTTAGCGAAGAGATAGA TGCAATGACTCAAAGTGTCACCATATTGAGTCAGCAAAACCAAAGATATG AGGTCATTCGGAATATTTCTGATTTTGGGCCGATTTTGACAGCGGCACTG ATTAGTGAGGTAGGAGCTGGAAACCAACTCCAAAATGATCGCCAGTTCTC TGCATGGTGTAGTCTGATTCTTAAACAAAATAGTACAGGCGGAAAAAGTT GTCTTAGCTCTCTATCGAAAAATGGCAATCGTGAATTAAGAACATGA >VV11153 N6-adenine-specific methylase GTGCATGACGCCGAAGGCTTGCGCCCTACAACTGACCGAGTCAAAGAAAC GCTGTTTAACTGGTTAGCACAGGATATCCCTCGCGCTCGCTGTTTGGATC TGTTTGCCGGCTCTGGCGGCTTAGGTTTTGAAGCGGCATCACGTCAGGCA GAGCAAGTCACCATGTTGGAGTTAAACCCCAAAGCGTTTGCTCAATTGCA ACAAAATGTCACAGCACTAAAGGCAAATAATATCAAAGTGATTCAAGGCG ATGCACTGCAATTCCTTAAGCAGCAAGGCACACCGCATCACGTGGTGTTT ATTGACCCGCCATTTCGCCAAGGACTGCTTGCCGAAGCCGTGACTTTGCT GGAGCAAAATGGCTGGCTGGCAGAGGATGCAATGATTTATATTGAGACAG AAAAAGAGTTACAGGTTGAAGCGCTGCCAGCTTCTTGGCATTTGCATCGA GAAAAAACTGCTGGACAGGTCAGCTATCGCCTCTATGAACGCCAATAG >VV10996 DNA gyrase, subunit B ATGTCGAACAATTACGATTCATCGAGTATTAAGGTACTGAAGGGTCTGGA TGCGGTACGTAAGCGTCCGGGTATGTACATCGGGGACACAGATGATGGCA CCGGTCTGCACCACATGGTTTTTGAGGTGGTGGATAACTCAATTGATGAA GCCTTAGCAGGCCACTGTAAAGATATCGTAGTCACGATTCATGAGGATAA CTCAGTTTCTGTTAGCGATGATGGCCGTGGTATCCCGACCGAAATGCACC CAGAAGAGAACGTGTCTGCTGCCGAAGTTATCATGACGGTACTGCACGCT GGTGGTAAGTTTGACGACAACTCTTACAAAGTGTCTGGCGGTCTTCACGG TGTAGGTGTTTCGGTGGTAAACGCACTGTCTGAAAAAGTGCTGTTGACGA TTCATCGTGGTGGTCATACCCACAGCCAAACCTATCGTCATGGTGTGCCT GATGCACCGCTTGCTATCATCGGTGATACCGAAAAAACCGGTACCACGGT ACGTTTCTGGCCAAGTGCTGAAACCTTCACCAACATCGAATTTCATTATG ACATCCTAGCGAAGCGTCTACGTGAGCTCTCTTTCCTGAACTCTGGCGTG TCGATCAAACTGTTTGATGAGCGCGAAGAAGATAAGAAAGATCACTTCAT GTATGAAGGTGGTATTCAAGCGTTCGTCACTCACTTGAACCGCAACAAAA CCCCCATCCATGAAAAAGTATTCCATTTTAATGCCGAGCGTGAAGACGGT ATTGCGGTTGAAGTGGCGATGCAGTGGAACGATGGTTTCCAAGAAAACAT CTACTGTTTTACCAACAACATCCCACAGCGTGACGGTGGTACCCACTTAG CGGGTTTCCGCGCGGCATTGACGCGCACACTGAACAGCTACATGGACAAA GAAGGCTACTCGAAGAAAGCGAAAACCGCGACTTCTGGTGACGATGCGCG TGAAGGTTTGACCGCTGTTGTTTCAGTAAAAGTGCCGGATCCAAAATTCT CAAGCCAAACCAAAGACAAACTGGTTTCTAGTGAAGTGAAGTCCGCAGTG GAATCCTTCATGGCAGACAAACTGAACGACTTCTTGGCCGAACACCCAAG CGAAGCGAAAACCGTTTGTTCTAAGATTATCGACGCCGCACGTGCGCGTG AAGCAGCACGTAAAGCGCGTGAAATGACACGCCGTAAAGGGGCGTTAGAC CTTGCTGGCCTTCCTGGTAAACTTGCTGACTGTCAGGAAAAAGATCCTGC ACTGTCTGAACTTTACATAGTGGAGGGTGATTCGGCAGGCGGCTCCGCAA AACAAGGCCGTAACCGTAAGAACCAAGCAATCCTACCGCTAAAAGGTAAG ATTCTAAACGTAGAAAAAGCGCGTTTCGACAAGATGCTCTCTTCTCAAGA AGTCGCAACGCTGATCACTGCACTAGGTTGTGGTATCGGTCGTGACGAGT ACAACCCAGACAAACTGCGTTACCACAACATCATCATCATGACCGATGCG GACGTCGATGGTTCGCACATCCGTACGCTACTGTTGACCTTCTTCTACCG TCAAATGCCTGAGCTTATCGAGCGTGGTTACGTGTATATCGCTCAGCCAC CACTGTACAAAGTGAAGAAAGGCAAACAAGAGCAGTACATTAAAGATGAA GATGCGATGAACCAGTACCAAATTTCCTTGGCATTGGATAACGCAGCACT GCACGTGAACCCAGACGCACCAGCATTGGCCGGTGAAGCACTGGAGAAAC TGGTTCAGCAATACAATGCAGCGATCAAGCTGGTGGATCGTATGAGCCGT CGTTACCCACGTGCACTGATTCATGAACTGATTTATGTTCCGCGTCTCAG CGAAACACAGTTTGCCGATCAAGCAGCAATGGCGGCATGGACAGAGCAAC TGGTTACTCAGTTGAACGCCAAAGAAGTGGGCGCAAGCCAATACAGCTTT GAAATCGAACACGATGCAGAGCGCGGACTGTTCTCACCGAAGATTGTGGT TCGTACCCACGGTGTGATGCACGAGTACCCACTGAGCGTGGATCTGATCA ACTCGAAAGAATACCAGAAACTGGCAGAGCTGGCGGATGCGCTGGACGGT TTGATCGAAGAAGGTGCGTATATTCAGCGTGGTGAACGTACTCAACCCGT GAACAGCTTTGCAAGTGCGCTTGAGTGGCTGATTAAGGAATCTCGTCGTG GTTTGAGCCTACAACGCTACAAAGGTTTGGGTGAGATGAACCCAGATCAG CTTTGGGAAACCACCATGGATCCAGAAACTCGCCGCATGATGCGTGTGAC CATTGAAGATGCCGTTGGTGCGGATGAGCTGTTCACGACCTTGATGGGTG ATCAAGTTGAACCACGTCGTAACTTCATCGAAGAAAACGCATTGAAAGTA GCGAACCTAGACGTGTAA >VV12980 Bacterial nucleoid DNA-binding protein ATGACTAAGTCTGAACTGATTGAAAGACTCTGCGCTGAACAGACACATCT TTCAGCCAAAGAGATAGAAGATGCTGTCAAAGATATTTTGGAGCATATGG CTTCAACCTTAGAAAGCGGTGATCGTATCGAGATTCGTGGTTTCGGTAGT TTCTCGCTTCATTACCGTGAACCGCGTGTTGGTCGTAACCCAAAGACTGG CGATAAAGTGGAACTAGAAGGTAAATACGTACCGCACTTCAAGCCTGGTA AAGAGTTGCGCGAGCGCGTAAACATTGGCTGA >VV12263 Guanylate cyclase-related protein ATGAAGGGAATCATTTTCACTGAATTTTTGGAATTGGTCGAAGAGAAATT TGGTTTGACCGTACTGGACGATATTTTGGACAGGGCAGGAGATGAGGGTG TCTACACCGCAGTAGGGAGCTACGACCACCGAAAACTGGTCAGTTTGATT GTGCATCTTAGCCAAGTGACGGGGCTGTCTGTTGAGCAGTTGCAAGAGGT CTTCGGTGAGGCCGTGTTCGACAACTTATTGGCGTCCATTTCTAATCGTT CAAGCCTGCATCAATGTCACTCAACCTTTCAGTTTATTCGCCATGTGGAA GAGTATATCCATGTTGAGGTGAAGAAACTCTACCCCGATGCCAAGCCACC GGAATTTATCTTCATCGAACAAGATCGAATGAAGATGGTGTTTGACTACA AAAGCGCGCGTTGCATGGGGCATGTTTGCCTTGGATTGATGAGAGGGTGT GCCAAGCATTTTGGCGAAGAACTGGCGATACAGATGGAGACACTCAACCC AACAGGCAGTCACGTTCGTTTCAATGTTGCTTTGGTAAAGGGTAAACAAG ATGGATGA >VV13194 Transposase ATGTCGATTAAAGTTATTGGGATCGATTTAGCTAAGAACTTCTTTCAAGT ATGCTTATTGAATATTGACGGTACCATCTCGTTAAATCTTAAGGTCCTTC GAAACAAACTGCTCCATACAATCCGTCAACTTCCAGATAATACTCCACTG GCTAGGGAGTCATATGCTTCATCACAATATTGGGGGCGAGTCTTTTTAGG GCTTAGTTTTAAGGTATCACGCATACCAGCACAACATGTTAAGTCGTTCG TCGGTAGACAAAAGAACGACGCAAACGATGCAAGAACCATTTCTTTCGGC TACTAA >VV11231 Factor for inversion stimulation Fis, transcriptional activator ATGTTCGAACAAAATCTGACTTCAGAAGCTTTAACAGTAACTACCGTAAC ATCACAAGATCAGATCACGCAAAAGCCACTACGTGATTCTGTTAAAGCGT CTCTTAAAAACTACTTGGCTCAACTAAACGGTCAAGAAGTCACTGAACTT TATGAATTAGTTCTAGCTGAAGTTGAACAGCCACTACTAGATACCATCAT GCAGTACACTCGCGGTAACCAAACTCGCGCAGCAACCATGATGGGCATCA ACCGCGGTACTCTTCGTAAGAAACTGAAAAAATACGGCATGAACTAA >VV20236 Predicted ATP-dependent endonuclease of the OLD family ATGCTTTTAGAACGAATTGAAATCTCCGGTTTTCGCGGCATACGGCGGTT ATCTCTTTCTTTTGATGAGCTCACTACCCTGATTGGTGAAAACACTTGGG GCAAATCGTCACTTTTGGACGCTCTTTCCGTCGCTCTTCCAACGGATGCT GAGTTGTACCAATTCGAGATGTCTGATTTTCACGTTGATTATTCCATCTC TCATCCTCAAACACAGCATCTGCAAATTGTGCTCTGCTTCCGCTCTACCG ATAGACACGAGACAAAAGCAGGACGTTACCGCCGTTTAAAACCAGTGTGG TGTAAAGATGACAATGGCGATCATCGAATCTTCTATCGCATTAGTGCGAC CCGAGATGGTTACGACATCACGACACACTATGCATTTTTAAATAACGACG GTTCAACCAAGGCGCTTCATCACTCCGAAAAGATCGCTCAAGAGCTCATG TCTCTGCATCCGGTCATTCGCTTGCGAGATTCACGTCGATTCCCTGAGTT GAAATCCGATGCCAACGGCAAAAATGCGCGCATCGAGAAACGCATCGACA ATACCTGTCGTCGTTTATTGGCGATACCTGGCCATGTTAACAAAGGGGAA ATGCGCAGCAGTTTAAACTCAATGCATTCGCTGGTTGAGCACTACTTCTC TTTTAAGAGCATCAACCGAAATGATCCGCGAAAGCCTCGTGATGGCCTGT TTTATAACGCCACTTCGGCAGACAAAAACTTAAGTCAGTTCATACAAGAA ACCAACAATAAGCAAACACGCCTGTTGTTGATGGGATTGCTCAACGCTTA TCTGCAAGCCAAAGGGCCTGCCGACCTCAGACGTTGCGCCCGCCCTATCT TGATCATCGAAGATCCAGAAGGCCGTTTACACCCCACTCATTTGGCCAGA GCGTGGAGTTTACTGCAGATGTTACCGATGCAGAAAATCCTCACCACCAA TAGTGGTGCATTGCTTGGCTCCGTACCACTTCATTCTATTCGGCGCTTGA TTCGGCAATCGGATAAAACTGTGGCAAAAAGTATCCATCCGCAACGTTTT AGCGTAGATGAGCTGCGGCGGATTGGTTTCCATATCCGTTTTCATCGTTC GGGGGCCCTATTTGCTCGTTGCTGGTTGCTGGTGGAAGGGGAAACGGAAG TTTGGTTGTTCAATGAGTTGGCCAATCAATGTGGCTATAATCTCGCCGCA GAAGGCGTGCAGATCATAGAGTTTGCCCAATCCGGGTTACGCTCACTGCT CAAAGTAGCGAAAGCAATGGGGATTGATTGGCATGTGGTGACCGATGGTG ACGCAGCAGGTAAAAAATACGCCGCGACGGTGAAAAGCATGCTCGGACAC GATCAAGAACGTCACCGACTCACCGAGTTGCCCGATCACGACATAGAACA TTTTTTATATAATCATGGCTTTGATAAATTCTTTAAGGATCTCATCAAAA TTCCTTATGAACACCCTATTCCAGCGAAAAAAGTAGTGACCAAGGTTTTG AAAAAGCACGCCAAGCCCGATCTGGCCTTATCGATTGTGTCCCACTGTGA AGAAAATGGCATTGAGTGTATCCCTGTATTACTGCGCTGGACACTAAAGC GCATTGTGACCATGGCCAATGGCAACACCTAA >VV12003 DNA polymerase III, gamma/tau subunits ATGAGTTATTTAGCTTTAGCGCGAAAATGGCGTCCGCGTCAATTTAAAGA AGTGGTGGGGCAAGGCCATGTGCTGACTGCCCTAGAAAATGCTCTTGAGC ACAATCGTCTGCACCATGCTTACTTGTTCAGTGGCACACGAGGTGTGGGT AAAACCTCGATTGGTCGCTTGTTTGCCAAAGCTCTCAACTGCGAAACGGG CATCACCTCAGCGCCTTGTGGACAATGTGATACCTGCCGAGAGATTGAAG AAGGGCGCTTCGTTGATCTATTGGAGATTGACGCCGCATCGCGTACTAAA GTTGAAGACACTCGTGAACTGTTAGACAACGTTCAATACAAACCAGCGCG CGGTCGTTTCAAGGTTTACTTGATCGACGAAGTGCACATGCTCTCGCGTC ACTCTTTTAATGCGTTACTCAAAACCTTAGAAGAGCCGCCAGAGTATGTG AAATTCCTATTGGCAACGACGGATCCACAGAAACTTCCTGTGACGATTTT GTCTCGTTGTTTGCAGTTCCACCTTAAGCCGATCACGGTTGATGCTATCC ATCAACAGCTCGATTTTATTTTGGCAAAAGAAGGTGTCACTGCTCAAGCG CGTGCGCTTGGCATGATCGCGCATGCTGCCGATGGCAGTATGCGTGATGC CCTAAGCTTAACCGATCAAGCAATTGCGTTAGGCAATGGTCAGATTGAAA CCGATCTGGTCAGCCATATGTTAGGTACCATTGACACCGATCAAGCGATC CATCTCTTAGAAGCCATCAGCAGCAAGCAGCCACAAGTGGCGATGGATAA GATTCAGCAGCTCGCGCAAAATGGTGCGGAGTGGGATGGTTTGTTGCAAC AATTGGCGACTCAACTGCATCGCATTGCCATGTACCAGCTGTTGCCTTCA AGCCTAGACAAAGCGCAGCCTGATGCAGAAAAAATTGAGCTGCTTAGCCG AGCACTGTCACCACAAGATGTTCAGCTGTTTTATCAGATCGCCTTAAAAG GGCGTGATGACCTCTCTTTGGCCCCAAATGGGCGTATCGGGATGGAAATG ATTGTGTTGCGTATGATGGCATTTCGTCCTGCGGATGTGTCGCAAGCGAA CATCATTTCTGCGCAAGGTGCGGATCTAGCATCAGCTCCGGCAGCTCAAA GTGCCGCTCCTCAAGTGAGTACGTCGCCAGCCCAAACGGCCCCGGCGATG AGCGCAAAGCCAAGCGCTGAACGGGTTGCTCCTGCAGAACGTCCTCAAGC GGTCAGTCACGCGCCATCGCGTCCCACTTCATCGATGAACGCCCCAAGTT CTGTGGCCCCTCAGCCTGTTCAGACAGAGATGCCACCTCAATATGATGCG CCACCGATGGATTATGCCGATTATCCACCTATGGATGACATGCCGCCAAT GGGTTATGGCTATGAGGATGCAGCCGCATTGCAGCCTGAGCCTCAACCTG CGCCTCAACCTGCGCCGCAGCACACGCCTGAAAGCGCAAGTCCAGCTTCT GGTGGCTTAACCGGTTTGCGTCATCAATTGCGTTCTCAACGTCAAGGGTT GGCACAAAATGGTGGCTCAAAAAAGTCTAAAGCGGCATCTGCTGAGAAAG AGTCGGTCCTCGATCGAGTCGCGCAAAAGCAGGCAACTGCAGCGCAGGTG TCGCCACGTCAAAGCCTTGCGCCGTCAGAGCCTGAAGTAAAAGAGGATGA ACCCTATCAATGGCGTCCGAGTCAGCCTGTGGTGCAGTCTAAGAGCAAAG AGCTGACGCCGACGGAAATTAAACGTGCACTTGAGCACGAAAAAACGCCA GAAATGGCGGAAAAACTCGTTGCAGAATCGCTCGAGCAGAGTGAGTGGGC AAAACTGATCACTCAGCTCGAAACGGCAAAATTGGTGGAACAGTTAGCGC TCAACTCGGCGTTTAACAAAGATGGTTCAACCATCGCTTTGACGCTACGT AGCCATCAACAACATTTAAATACCGATAAAGCGCAAAAAGAGCTGCTCTC AGCGCTCAACGAAACGCTGGGTGAAACTTGCCATCTCTCTGTGGAAGTCG GAGAGCAAGGTGAGACTCCTCTAGAGTTACGCGAAAGGCTTTATCAGCAA AAATTACAGCAGGCTATGTCTAGCCTGGAAAATGACACCCATGTTCAGTT TATACTGCGCCGATTCAGTGCAGAACTGGACAGAGACAGTGTTCGCCCTG TCTGA >VV11830 DNA-damage-inducible protein P ATGGACTGCTTCTATGCCGCAGTAGAGATGCGTGATAACCCAAATTTCCG CAGCCGGCCTCTGGCGGTTGGAGGGCACGAAAAGCAGCGTGGGGTCATCA GTACCTGTAATTATGAAGCGCGTAAGTTTGGCGTGAGAAGTGCGATGCCA ACGGCACAAGCGCTGAAATTGTGTCCTAGTTTGCTGGTTGTGCCTGGGCG AATGCAGGTATACAAAGAGGTTTCAACGCACATTCGCAGTATCTTCTCAC GTTACACTCATTTGATTGAGCCACTCTCGCTTGATGAAGCGTATTTAGAT GTAACGGATTCCACACAATGTCATGGTTCGGCAACCTTAATTGCTGAAGC GATTCGCCGTGACATTTGGAATGAGCTACAACTCACGGCGTCGGCAGGCG TTGCTCCGATTAAATTTCTCGCCAAAGTGGCCTCGGACATGAACAAACCG AATGGCCAGTTTGTGATTCCACCAGAGCAAGTTCAGAGTGTGATTGATAC TTTGCCTTTACAAAAAATCCCTGGGGTTGGCAAAGTGAGTTTAGAGAAGT TGAACCAAGCGGGCTTGTACGTTTGCCAAGATGTGAAAAACAGCGATTAT CGTCAGCTACTCAAGCAATTTGGTCGCTTAGGGGCGTCGCTATGGCAGCG CAGCCATGGTATTGATGAGCGAGAGGTGATCGTCGAGCGAGAACGTAAAT CAGTCGGAGTCGAGCGCACTTTTACGCAAAATATTGTGACCTATGAACAG TGTTGGCAAGTGATCGAAGAGAAATTGTTTCCCGAGCTGGCCATTCGTTT AGAAAAAGCCAATCCTGAAAAAGCGATCATTAAGCAAGGGATCAAAATGA AATTCGCCGACTTTCAATTGACGACGATAGAGCATGTTCACCATGAGCTC GAACTGGCCTATTTCCGCGAGTTGTTGCAGGACATTCTTCAACGTCAAAA GGGGCGTGAAATTCGCTTACTAGGGCTCAGTGTGATGCTTAAGCCAGAAG AGCAAGCGCGGCAACTCAGCTTGCTCTAA >VV10388 Type IIA topoisomerase, A subunit ATGAAAGATTTAATAATTAAAAGCATTATTTTCGGAGCAGTAAAAGGCGA GCTTAGAAGAAGTGTTATCGAAGTTATCAAAAACAACAAAACTGCATACG AAGCTGCCCAAGATCTAGGCAACATCAACAAGCAGGCTACGATAAGAAAC AATATCGATAAAGTTATACAAGCATTTAATATGTTGATTTATACTGAAGT TGCAAGCAAGGTAGACCCGACCGACACGCACGAGCTGGTTGTCTACAGCG AAGGTGGCAGCACACACTACAAAAACAATCTTTCTACGCTTTTGAAATAT ATCAACTACAGAAAAAATCTTTTCGAGCTGGAGTTTGAAATAAATAAAGT AAGAATAGAAGATAATGAAGTTATTGAATCAGAGACAGTATTCTCTTTTA GATAA >VV10372 Phage integrase ATGATGGCTAGAAGAAACCCTGACAAAACTTATGATAAGGCATCTCTGCA AGACGGCAAGAAAGAACAACTCATCAGCGACGGTGATAATCTTTATCTTC GCTTGCGCTTGGGAAAAAATAAAAAGACGAAAAAATCTTGGCAATTCAAC TATCATCATCCACTGACTAAAAAACGCATCAAACTAACAATCGGAAACTA TCCCGCACTTACACTCAAAGACGCTCGAAAGAAGGCGGAAAATTATCTAG AGTTACTTGAAAAAAACATCGATCCTCAAGAGTACGAGCGCACGGGTGGC ATTAACGCAATTGATCCAGACAAGCGACTCTTTAAAGACGTAGCTGAAAA GTGGTTTGAAGAAAAAATATTGGCTGAAGACAAAAAGAAGCGACAAGAAA AAATTGACGATGCAAACAAGCGTGCGAAAGATGAAGGTCGAGAAAAAGCA TCAGAACAAGAGCTTGAAGCAGTCTTGCGCGACATCAGATACTCAAAAGA CATCCGAGGGCGCTTAGATAACCACATATTACCCGCTTTGGGCAATATAC CGATCACTAAGATGGAGACCTATCTTGCTCAAGAAGCATTGCAACCCAGC TACGCGAAGGGTATAAACATGGACAAGATTTGTCAGATCTCTAGTCGCGT CATGGGGTATGCTAAAAAACTGGGCTATATGAAATCAAACCCGCTCAGTG ACTTGAGTGAAGTGTTTGTGAACAAGCGCAAACAAAAGCAACCTTCAATC AAACCCGAAGGGCTAAGTGAGCTGATGAAAGCAATGGGTGAGCGCAACAT AACTAAAGTCACCCGCGCTGGTTTTGAAATGCAAATGCACACACTGGCAC GAGCATCAGAGATAGCAAAAATGCGGTGGGACGAAGTCGATTTTGAGAAT AACTTAATAAAAATACCGAGCTATCGAATGAAGCGCTTAAATGAGCATTT CATACCGCTGACTAAATACACGCGTGGCTTACTGGAGTACTTAAAACCGT TTAGCTCTCATCTTGAGTATGTTTTCCCCGCAGATCCACGCTCATCTCGA CCGCACATGAATCAGCAGAGCATCAACGCAAACCTAAAGCGAGCTGGCTT TAAAGGTGAACTTGTATCGCACGGATTCAGACACATGGGCAGTACTTTTT TGAATGACTCAAAAAAATACGGAGCGAATGAGAAGTTTGACGCTGACGTG ATCGAAGCATGCCTTGCGCATTGCGATAACGACAAGATTCGTGAGATCTA CAATAGCGCAGAGTACATCGAGATGAGACGAGAGATTCTCGAATTCTGGG GCGATTATATCGTCGAACAAACAGCTAACTATCACTCAATCGCCGCTCGC TTCAAGTAA >VV20711 Integrase ATGTCTATCCGCAACTTAAAAGATGGGTCTAAAAAACCCTGGTTCTGCGA GTGTTACCTAAATGGTCGCCAGGGCAAAAGAGTTAGAAAGCGATTCGCGA CTAAAGGCGAAGCCGCCGCTTTTGAGCGCTTTGTGACTAGAGAGATCGAA GACAAGCCCTGGGAAGGCGATAAACCCGATCACCGTAGGCTTACTCAACT GATAGAGATTTGGTTTACACGCTACGGAGTCACACTTGCTAATGGTGCAG TGGTGTACAGCAAGCTACTCAAGATGTCAGATGCGATGGGTAATCCAGTC GCTCCCCTTCTCAATGCCAAGTTGTATTCGGAATTTCGTAGTCAGCGTAT GCATGGTCAGATTAGTTTTGTCGACCACAGGTGGCAAAAAGGTGCACCGA GTATCGCGACACTCAACTCTGAACTCGCCAGATTTAAGGCGGTATTCAGC AAACTTAAGGAACTGGGTGAATGGAAACTGGCCAATCCTGTAGAAGAAGT AAAACCATTTAAAGATCACGAACGCAGCATGGCTTTCTTACACGAAGGAC AGATATCCCTGTTGCTTGAGCTAGTTGCACAACACAATCGTAAGGATATG CTCAAGATTGTGAAACTTTGCCTGGCCACCGGAGCACGTTGGAATGAGGC AGCGCAACTTAACGGCTCTCAGCTCACTAAATTCAAAGTCACTTATACCA ACACAAAAACAAAGAAGAATCGCTCTGTACCCATCGCTGAAGAGCTATAT AACGAGATCCATAAGCCAACTACTGGCAAGTTGTTTGAAGAGTGCTATAC GCCTTTCTGCTACATTCTGAAGAATAAACTTGGCATTACCCTCCCATCAG GTCAAGCTTCGCACGTTCTGCGCCATTCATTCGCCAGCCACTTTATGATG AATGGTGGCAACATTCTTGTCCTGAGAGACATCCTTGGCCATGCCGATAT AAGCATGACAATGCGTTATGCCCACTTCGCACCTGATCACTTGTCTGAGG CGATCACTCGCAACCCACTCGCGAATTTATAG >VV20663 ATP-dependent exoDNAse, alpha subunit ATGATGTCAATCAGCCCTTTAAGATCTCCCTCTAACGCTGCTCAATACTA CTTAAACGAAGAAAACACCCAAGACCTACCGGACACCTCTCTCGAAAAAG ACGCTAGCGACAACTATTACCTCAAGGAAAAACAACAAGGTGAAAACACC TTTTGGCATGGAAAATTAGCACAAGAAGCAGGATTGCTTGGTAAACCTGT AGAACAAAAAACCTTAGAGACTATCCTTTCTGGCACACTCAATGATGAAA CCATTAAGGGCAAGCGAGAAGACCATAAAAGTGGATTCGATCTCACTTTT TCTGCTCCTAAAAACGCCAGTATACTCGCATTGGTCGGTGGGGATTCACG TCTGATTGAAGCGCACAACAACGCGGTGAAATTTGCCCTCTCAGAGTTAG AGAAGGACGTAGCTCAGGCCACGCACACCAACGAAGCTGGCGAACGCGAG TTTCACAATACTCAGTCCATGATTTTTGCGGTCGTTCGTCATAAAACCAG TCGCAACAACGATCCACAAGTTCACTCCCATGCCCTCGCTGCCAATATGA CCCGAGATCAGGAAGGCAACTTACGTACACTCGCGTCTAACTTAAAACAG AAAGGCGGCGTCATTAATGGCAGTGGCGAGCGCATCTATAACTTTCAGAA GTATTACACTGCCCTTTACCAAAGCCAGTTCGCCAGAGAATCCGAAGAAT TGGGTTTCCAAACAAAAGGACTCGGTAACGCTCAATTTGATATCGATGGC GTCCCGGAGTCATTACATAAAGCGTTCTCAACACGCAAACAGCAAATTGA CCAACAGGTAATGGAGTTTGGCCATGATACCCAAGCAAGTAGAGACACCG CAGCCCTTGATACCCGACAGAGAAAAACTTACCACAGCGATTCGACCTTA AACCACAAATGGCAACAAACCGTAAAAGGTGAAGGTTTTGACCCTGCCCT TTTGGTCAAACAAAGCCAAGCAATGCCTCAAAAAGGCGGCCATGCCATGC AGCAAGCCCATGAAGCGTTTTCACATGCAATGACGCACTTGGGGCAGTAC TCAACCTCATTGAGCCTTGAGAAAGTGATTGAGGTCGCGGCCTCAGACTT TACTAAAGGAACACAGCAAGCCAATGCGATTGATTTAAAGCAAGTCGCCG ACGAGTGGATAAAAAACGGCCAGCTTGTACCACTGGCTGAGAAAGGACAC TACACCTCCCAAACGATGCTGAAAAACGAAAAAGCACTCATGGACATCAC TAAGGGACGGACTCATAACATGCGCACTAATATCGATGAACCGACCCTAA ACCGTCTCAATATTGCCCAAGATAATCGCCAAAAAGTGGCCGACCTTTAT GGCTCAACCAAACAGTTTCACGTGGTCAACGTATTTGGTTCTTCCGAGCA AATCGCGCAAAACCTACTTAACGCAGGCAACCACAGTGGTAAGCGAGTAC AGCTTGTCTCTCAAAACACCCAACACCACCGCCATAATCAACAAAACATC CCCCGAGAAAGCCACACCTTTGTCACTTGGGTTAAGCATTTATTTCAAGA CGATCAGCGTCATACCTTACAAGGTCTACTTGATTCTAAGCACCCGCTGA CCAACAAGGACATTATTTTAGTCGATAACGCAAACAAAATGAGTGCGAAT GAACTGCTCTCACTCAGTGAAAAAGCCGGTAACAGCAACAGTAAAGTTAT CTTACTTAACCGTGTCTCAAACCGCCAAGGCATGAAAGCGCACAGCGCTA TCGACCTTTACAGTAAAGGAAATGTCACGACGCACACCTGGGTCAACAGC AAACAAGCGGATAGCGTCGTGCGACTGCATAATCGAGAGGATCACAACAT CGCTCTCACTTACGCCGACTTGCCCGACAAAACCAATGCTCAAGTATTGG CAACCTCTGGAGTCGAACAACGGCGATTAACCAATGAGATACGCGCCGCT TTGAAGAACGATGGCCAACTCTCACGCACCAGTGTCACTGTCTTCACCCA GCAACCTCATTACCTTTCAAAGCCACAACAACAATTTGCAAAGCATTACC AATCCGGTATGACCCTCAGACAATGGGATAAGGGAAAACCTCACGACTTC GTGATCGCCAGTGTCGATAAAGCCTCTAACACCCTAGAGGTTTTGAGCAA AACGGACGGTAAAGCAAGCACTTTTGACCCTTCGTCTAAAGCGTTTCAAT CTATGAACATGCAATTGTACAAACCAGACGCCCTTGAGATCTCTCAAGGT GAACGTATTCTGGCCACAAATAAGCACTTTCCTTCTCAGCTCGAAGCTGG ACACCATTACCTTGTCACGTCCATCACTAAAAACTCATTAACGCTAACCA ATCAACAAGGACAATCAAGTACGCTCCCTCTAGATAAATTGAAAGACGCG CCACTCACGTATGACTATGCTCACTCAGCTAATCACTTTGAGCCCAGAGA ACATACCTTACTGTCGGGAAAAGCCTTTACGCTCTCTAAAGCATTACTCA ATGACCTAACAGAGAGCAGTGCTCGCTTAGACATTTTCACAGACCATCCT GAGAAAGCGCAACAAGCTCTAGAAAAAGCAGAAGTTCGCCCCTCAGCCAT CGAACGAGTCCTGCACACTCAGCACATCAATGATCGCTATCTCTCTGAAG CCACAGAGTCTACCCTCAGACACGATATTGAACACGCCATTGGTGTACTC GCGAAAGAGCAACACGCGCCTGTTTCACAGAAAGCAGTCGATTTCGCCCT AAACCACCTGTCAGAAAAAGAGGCCGGATTTACTCAAAAAGAGCTAGTGA TTGAAGCGGTACGTTTTGCTTTTGAGGAAACCAATAGCCCCATCACCAAA GCGCACATTGAGGCCGAGCTGGCGGAGCGCAGTGACACCCTTTCTGCAGA ATACAGTGACGGTACACGTTGGACGACAGAGGCAGCCATCGAAACCGAGA AGCATATCCTTAGTAATATTGAACAAGGTAAGGGGCAACACTCCCCTTTT GCCACCTCAAAACAGGTACATTCCTACCTTGAGGCTCAATCTTGTCTCAC TCATGGTCAAAAAAATTCAATTCATCTGATCTCCACCACAAAAGACAGCT TTGTGGCCATACAAGGTTTAGCCGGTACGGGTAAGTCCACAATGCTCGAA ACCAACATCGAACTCATCGCCCAAGCGGGAAAAAACCAACCTGATCAAAT TATTGGTCTTGCCCCCACTCACTCAGCTGTCGGGGAATTGGAAAGTAAAG GTGTCAAAGCGCAAACACTGGAGAGCTTACTCACCGATATTCGCCAGGGC CGTGCCTCACCAGAAGACTATAAAAACACCTTATTCTTTCTGGATGAGAG TTCGATGGTCAGCAATAAACAAGCGAAGGAGCTCACTGACTTGGTACTGC AAAGCCAATCTAAAGCTGTGTTATTAGGTGATAAAGAGCAGCTACTGTCT CTGAATGCGGGTAAGCCGTTCGAGCTGGCCATGACAAAAGGCATCATCGA TACCGCGCAGATCATCGAGTCAGAGCAAATGACCGACATCATTCGTCAGC GCAACAAAGCAACATTAGGTGCAGTGCACAACATTCTCGATAAACAACCC GACAGTGCGCTCGACAAACTCAGTCAACAAGGCGCGGATAAACAAGGAAA AACGCAACATGTCATTTCAACACTTACCGATAACCCTCAAGACCCTCGAA AAGCGCAGCAAATCGCGACTGAGAAGCTTCCTTATGAAGTCGCACAAGAT TACCTATCACGTACTCAAGAAACGCGCGAAAATACGCTTATCATTGCTTA CACGAACAACGAGCGAGATGCCATCACTGAACACATTCGCCACGGCTTAA TAAAAAAGAACGAGTTAGGCAAAGAAAATGTCATTGTGCCAAGACTTCGT TCTATCGGCGCCAGTGGCGAAGAGCTCAAAACGATGATGCCGTACCAAAA AGGGCTTGTGCTCAGTACCAAGCCAGGGCAATACGGAACCATCACCAAAG TCGATTCTGAACATGGTGTGGTCGTGGTAAAGAGCCACGAGACAGGGAAA GAAAGCGCCTTTTTACCAAGGCATCGCGATCATAAGTTTACTGCTCTGTT TTCGGTTTCGCATAAACCGTTATCAACAGGCGATAAGATCATCACCCGCT TTACAGACAAAACTCGCGGCATTAAGGCCAACGTCGTGCACCACATTGTT CAAGCCGACAATAACGCCGTGATTGCCCAATCCAAAAATGGACAATCACT CACGATCGATCCCGAAAAAATTAAGGATGGCCATTGGGATTACGCCTATA CCCGAACCGCAGATATGGCGCAAGGTGCCACGTACCAAAACGTCATTACC TCTATCAAAGGGAAAGGTGCTCTAACTAACCTAAGACGTGCTTATATCGA TTTAACAAGGGCAAGTGAACACGTCAGACTCTACACCGATAACCCCAAAC AGATGATGAAGAGCTGGTTATCCAAAGAGGTCAACAAAGCCAGTGCGATT GAAACCGTTAAGCACATCGCCCCTCAATCGACCACGTATTTTAATGGCAA CGCGCTTCCTCATGAAGACGTTCGTTATCAAAACAAAAATGGCGATTTCG ATTACGACAAATTCAGAGAGCACATCAACTCTGAGTTACCAAAATACACA GAAAGCCTCGCCATCCACCTATTAGGAGCGCCTAACAAATCGAAATCCGA TCGAGACTATTTAACGTTTGGTACGGGCAAGTCCGCCATTAAAGTCAGTT TAACGGGGGACTATCGCGGTTATTTCAAAGATTACACAACAGGAGAAAAA GGCTCGCTGATTAATCTAATGATGAGTCATAAAGACCTCAGTTACAAAGA GGCGATGAACGAGGCTCATCACCTCTTAAATAATCCTGAACACTATCAAG TTGCAATTAACAAGGATCACGACAAGCTTATGAATACAACACCAAAACAC ATTGCTCAATTTGAACAACGATCGAAAGATTATTTACAAGAAAGCCAAGA GCTAAAAGGAACATTAGCTGAGCAATACCTCCATAAGTTAGGTGTTAAAA ACGCTGAGAACGACAACGTTCGTTTCCATCCCGCAGTTTACTCGTCAGAA GATAAAGCGTTCCACCCTGCTATGATTGCAAACATTCACAACCAGAAAGG AGAAACACGAGCGATTGAAATTACCTATCTTGACCATGATGCTAATAAAG ACAGTGATATGGATGTGAACCCAAGAGTATTAGGGACCAAATCGAAGCAA ATGACTCTCTTTAACCAAGGACAGGATTTAAACACAACGATTATTAGTAC GGGCATTGAGCAGTCGTTCATAATAAATGAGCATACTCACGGCCAATATG ACATCATCAATGTCAATCATAAAAATGACATTCAAAATATAACGCCTGAC GAAATACGACAAAATGTCATTATTGTGTTGACCAATCAAAACTTAGATAT CAACTCAAACAACATGGAGAAGATCATTAAAAAATTCTCTTCTCCTAATA TTAACTTTGTTACCGAAGAAGATATGCTCAAGCAAATCACTGAGTGCATT CATAAATTTGAAGGACAGGATAAAGACATCAACCTCAATATTGCCATTGA TGATAGTGTGTTGAAACAGCCTAATAGTGACCATAAAGATGTTATTTCGT CTATACATAATGAGCGAGAGAGTAAAGAATTAGAGCACTTTGATCATAAA GAACATTCACCTCAACAAGATATTGACTTAAATAAAGCTCAAGACGTAGA CAAACATCTAGATTTAGACAGAGAGTTAGAACGATAA >VV11220 Uracil-DNA glycosylase ATGCCACTTGAGCCGCTGTTAACTCAAATCCGGGCTTGCCAAGTGTGTGC CTCCGCCTTGCCGCTAGGTGCTAACCCTGTGGTTCAAGCTCACTCAGAGG CGAAAATTTTGATCATCGGACAAGCGCCAGGCACCAAAGTCCACCACACT TCCATTCCGTGGAATGATGCCAGTGGTAATCGCTTAAGAGTGTGGTTAGA CATTGAAAAGCCGACTTTTTATGACCCAAAACAGATCGCCATCATGCCGA TGGGATTTTGCTATCCCGGACGAGGGCAATCTGGCGATCTTCCGCCACGA AAAGAGTGCGCACCACTGTGGCATGAGGCCTTACTGAAACACTTACCCAA TATCGAACTGACACTGTTGATTGGTCAATATGCACAAAACCGTTATCTGT CGAACAAACCAAAAACACTGACTGAAACGGTACAAAATTGGCAAGCTTGG CTACCCGATTACCTGCCACTTCCTCATCCCTCGCCAAGAAATACACTGTG GTTGAGAAAGAATCCTTGGTTTGAAGAACAAACCGTGCCCTACCTTCGCC AACAAGTGCATCAGCTACTTTCCCCGAGCAAGGTTGAGATCTAA >VV12800 HrpA-like helicase ATGTCCACACTCCCTATCGACATCATCAAAGCGCAATTTGATCATCACCT TGGCCACACGCATCTTGTGGTGGAAGCTGAAACTGGTTCAGGAAAATCCA CTCGCTTGCCATTGTGGGCGGCAGAGCATGGTCGAGTGCTGGTGATTGAA CCAAGGCGAATTGCTTGTACGTCATTGGCTGAGTTTTTGGCTGAGCAATC TGGTCAGCCATTGGGGAGTAAAGTCGGGTATGCGATCAAACTTCAGGCCG CTTATGACGCGCAGACCAATATCGTGTTTGTTACGCCGGGTGTAGCGTTA CGTTGGTTAGCGGAAGATGGTCTGAGTGCGTTTGATATCATTATCATTGA TGAATTTCATGAGCGTCGATGGGACATGGATCTTCTCACTGCGATGCTCA AAGCGCAAAATAACCATCGCTTGGTTTTAACCTCAGCGACGTTGGCGGGT GAAAAGCTGGCGAAATATCTCAATGCCGAACGTTTGCAATCTCAAGGTCG CTGCTACCCGGTCAGCATCGAATATCGAGCCAAAGAGAGTCACCTCTTGC CCAGCAAGAAACAGTGTGAGCATGACGTGTTGGCAGCAATCAAGGAAGTG TTACAAACCGAAGGGCAAGATATCTTAGTTTTCTTACCCGGCAGGAAAGA GATTTCAAACCTTGCCAGTCAGTTGCAAGCACAACCCTCTTTGGTTGTGG CAAAGCTGCATGCCTCAGTGTCAGAGGAAGAGAAACGCATTGCTTTAAGC GTGCAAGCCCAGCGCAAAGTTGTGTTAGCGACCAATGTGGCGGAAACCTC GCTGACGATACCGAACATCACCACCGTGATTGACAGTGGCTTAGAGCGAC GCACCATACAACGAAATGGTCGAACAACCTTGATCCTTTCCCATATTTCC AAGGCCAGTGCGGCACAAAGAGCAGGGCGTGCTGGTCGTGTTATGGCTGG CCAATGTTTGCGTCTGTACGGTGAACACGCGCCACTTGAACTTGCCACGC CCCCCGAACTGCAGCGAGAAGAACTCAGCGAGCCGATGTTGGCAGCGGCG TGTTGTGGCTATCGCTTGGCCGAGCTTGAGTTTTTAGATGGTTTGCCAGA GAAATCTCTTGTGCAGGCACACAAGATACTCAATGGCATGCAGGCCATCA CAGCCGAAGGCAAAGTGACCGAGCACGGACAAAAGCTCTATCCCTTACCT GTTGACACGCTTTACGCCGACCTTGTCACTCGCATGCCAACCAAGGCACT CAAAGAGGCGATGATTGATCTCGCCGCTGGTCTCTCTGTCCCTGCGGCGC TGTATCAAATCAAGGGTGGCGAAGAGGTTGAGACACTACTTGAACAAGAG CCGCAACAGTGCGACGCCACGTTAATGATTCAACTCATTCGTGGTCAGCG CTTTAGTGGTGTGATCGTGGATGAAGGGGCGTTAGAGGAAGCGCGAGGCT TGTCTCAACAAATGCGCGATCTGTTTGAACTGCCCGATCTTGAAGTGAGT TCGAGATACACGCGGGTTGAACTGGTTAAGGCGATCGCTCGTTTGCATCC AGAGTTGGTCTTTATCCGCCGAACCAAACGACGTGAGGCGTTGGGGAATG GAAAGATGGAAATGATGGTCGGTCGCCAAAGCCGTTTCTCTGACAAACAC GAGCTTGCTCTTGTGTTAGATAGCCATAGCTTGCCGGGGAAAGGTGTGAA ACAGACGCTCAACTTAGCCAGCGTGATCATGCCCGCTCCGTTGACCTTGA TTAACGAACTCGAGTTAGGGGAGTGGCGACAAGGGGAAACGCGCCCATCA AACGATGCGGTCGAAGTGGAGATGCAACTGGTTTACGCTGGTCGAGTGGT GGAGAGCAGGCTTGAACAACCTCAAGGAGAGGATGCCATTGAAACCATCG TTGCTCTGGTAAAAAAAGGCCAGTTGCTGCCGGATCTCTATGCGTTTGTC ACGACACAAATGACGCATTGGCACTTGTATTGTGCGTTAGGCTTGAATGA AGAGCAACGCCCCATCGGATTACTGGACTTTGACCAATGGTTACGCGAGC AGCTTGATGCCATGGGAGTGAACGAAGTGGATGAAATGGCACTGTTTGAA AGCCATGATTTCCCGTATCGAGGGATCCCAGATTGGCAATACAAGGATTT TGCTGAGCAATTTCCGTTATCGCTCTCTTTGCCTGATTTACAGCTGACGG TGGAATATTTTCCTGCTGGCAAGTTGGTGCAAGTGGTCTTCGCTGGCGGC AACCGCAAAGGCGATCCTAAGCGTTGGGAATTGCCTCGTTTTTCCGGCTG GCGAGTGCAATATCGTAAAGCGAGTCGAGTGATTGATGTTCGTTAA >VV12343 ATP-dependent helicase HrpA TTGACTTCGTCACAGCCAAATACAGAATCCCATGCTTCTGAGCAAAAGGC TCAAGCAAACAGCGCCGCGTCATTACGCAAGGCGCTCAGTCAGTGTTTGA TCAAAGATCGCTTTCGCCTGAGTAAGCGCATTGCAGGTGCCAGTAAAATT AATAAAGAATCGGCACGCAACGCGGTGTTTGATGAGATCGCACTGGACAT CGCCAAATCCATGATGGAAGTGGAACAGCGCAGCCGCTATCAACCGAAAA TTGAGTACCCAGAAATCCTGCCTGTTAGTCAGAAGAAAGATGACATTGCA GACGCCATTGCTCATCACCAAGTGGTGATTGTGGCGGGTGAAACGGGCTC AGGTAAAACCACGCAGCTACCAAAAATCTGCGCCGAATTAGGCCGTGGTA AGTTTGGTTTGATTGGCCATACTCAGCCACGCCGCTTAGCGGCACGCTCG GTGGCCAATCGCATTGCCGAAGAGATGGAAACGCAACTGGGGGATTTCGT CGGTTACAAAGTTCGATTTAACGATCAAATCTCCGAAAATACCCAAATTA AATTGATGACAGACGGTATCTTGCTGGCCGAGATCCAACACGACCGTTTC CTTAATCAATATGACACCATCATCATCGATGAAGCGCACGAGCGCAGCCT GAATATCGATTTTATCTTGGGTTATTTGAAAGAGTTGCTGCCACGTCGTC CTGATCTGAAAGTCATCATCACGTCGGCAACCATTGACCCAGAGCGATTC TCCAACCACTTTGGCGGCGCGCCGATCATTGAAGTGTCGGGACGGACTTA TCCTGTGGAAACGCGCTACCGTCCGTTAGGTGGCGAAACCGAAGACGATC GTGACCAACTTGAAGGCATCTTTGACGCGGTTGACGAGCTGTGCGACGAA GGCTTGGGCGACATTCTTATCTTCATGAATGGTGAGCGTGAAATTCGCGA TACCGCAGATGCGCTGGCCAAACGTAAGCTCAAAGATACTGAGATTGTGC CGCTTTACGCGCGTCTTTCTGCGGGCGAGCAAAATAAAATCTTCCAGCCG CATACTGGCCGCCGCATTGTCTTAGCGACCAACGTTGCTGAAACCTCGTT AACCGTGCCGGGCATCAAGTACGTGATTGACCCTGGTACCGCGCGTATTA GCCGTTACAGCTATCGCACCAAAGTACAGCGACTGCCCATTGAGCCGGTT TCTCAAGCCAGTGCCAACCAGCGAAAAGGTCGTTGTGGTCGTGTGCAAGA AGGTATCTGTATTCGTCTCTACTCTGAGGACGATTTCAATTCGCGTCCTG AGTTTACCGATCCTGAAATTCTGCGCACCAACTTAGCGTCGGTTATCTTA CAGATGACCGCGTTGGGCCTTGGCGATATTGAAGCATTCCCATTTGTTGA AGCGCCAGATAAACGCAATATTCTTGATGGTGTACGCTTGCTTGAAGAGT TGGGTGCCATCAACAGCAACGCCAAAGATCCGAAAAAACGCCTCACCGCG GTGGGCAAGCAGTTGGCTCGTTTGCCAATTGACCCTCGCTTAGCGCGCAT GGTGTTGGAAGCGCCAAGATTTGGTTGTTTGAAAGAAGTCATGATCATTG CAGCGGCCTTGTCGATTCAAGACCCGCGTGAGCGACCTTCAGACAAACAG CAATCGGCAGATGATAAGCATCGTCGCTTCTACCATGAAGATTCTGATTT CCTCACCTTTGTGAATTTGTGGAATCACATTCAGAAGCAACAAAAAGCCT TGTCGGGCAACCAGTTCCGTCGTCAGTGCAAAGACGATTACCTCAACTAC TTGCGTGTGCGTGAGTGGCAAGATGTTTACTTCCAAATCCATCAATCGAT GCGTGAGATGGAGTTCAAGCTCAATAGTGAACCCGGTTCTTACGATGCGG TGCACAGCGCGATTTTGACTGGCCTGTTATCGCATATTGGGATGAAAGAT CAGGAGAAAAATGAGTATCACGGCGCACGCAATGCCCGTTTCCATATTTT CCCTGGCTCTGGTCTGTTTAAGAAACAGCCAAAGTGGGTGATGTCGGCAG AGCTGGTCGAAACCTCGAAACTGTGGGGCCGAATTATTGCCAAGATTCAA CCAGAATGGATTGAACCACTGGCGAAGCATTTGATTAAGCGTAGCCACAG CGAACCGCATTGGTCGAAGAAGCAAGCGGCCGTGATGGCGTACGAAAAAG TGATGCTCTATGGCATTCCGATTGTGCCTAAGCGCTTGGTGAATTATGGC AATATCGATGCGTCAGTGAGCCGTGAGATCTTCATTCGCAGTGCGCTGGT GGAAGGGGATTGGGAAACCAAACACGCGTTCTTCAAACAAAACCGTAAAT TGCTGCTCGAAGTGGAAGAGCTGGAGCACAAATCTCGTCGTCGCGATATT TTGGTCGACGACGAAGAGCTGTTCCAATTTTACGATCAACGCGTCGGTAC GGAAGTGGTCTCTGGACGCCATTTCGACACCTGGTGGAAGCAAGCATCGA AGAAAGAGCCTGAGCTGCTGAACTTTGAAAAAGAGATGCTGTTCAAAGGC GATGCAAGCCACGTGACGGATTTGGATTACCCGAATTTCTGGCATCAGAA TGGCTTGAAACTCAAGTTGAGCTACCAGTTTGAGCCGGGTGACGACAGCG ACGGCGTCACGGTGCACATTCCATTGCCGATTTTGAACCAAATTGATCCG GCGGGCTTCGATTGGCAAATCCCGGGCTTGCGTCATGAATTGGTGGTGAG CTTGATTAAGTCGCTACCGAAGACGCTGCGCAAAAACTTTGTGCCTGCGC CAAATTATGCCGATGCATTCCTATCTCGCGTTACTGCAATGGAAATGCCG TTGCTCGATGCTTTAGAGAAAGAGCTACGCCGCATGACCGGGGCGACGGT GCTGCGTGAAGATTGGAAACTGGATCAAGTTCCTGACCATCTGAAAGTGA CTTTCCGTGCGGTTGATGAAAGAAATCGTAAACTGAAAGAGCACAAAGAT CTTCATGAGTTAAAAGAAAGCCTAAAAGAGAAGGTGCAAGAAACCTTATC GAAAGTGGCGGATGACGACATCGAGCAACAAGGCTTACATACATGGAGCT TTGGCGAGTTGCCACAGGTATATCAGCAGAAACGTGGCGGTTATCAGGTT AAGGCGTTCCCTGCGCTGGTTGACAACAAAGACAGCGTAGAAATCAAGCT CTACGAAACCGAGCAAGAGCAGATCAGTGCAATGAAAGCCGGTCAACGCC GTTTGATCTTGTTGAATGTGCCATCGCCGATTAAGTATCTGCATGCGAAC TTGCCGAACAAATCGAAGCTGGGCCTGTACTTTAACCCGTATGGCAAAGT GCTTGATTTGATCGACGACTGCATTGCTTGTGGCGTTGACAAGCTGATTG AAGAGCAGGGCGGCTTAGTTTGGGAGCCAGAAAAATTTGAAGCGTTGAAG GAACACGTGCGCGCAGAATTGGGCGACACGGTGGTGGATATCGCCAAGCA AGTGGAAACGATTTTGACCACGGCCTTCAACATCAACAAAAAGCTCAAAG GTAAGATTGATTTCACCATGGCATTTGCTCTGTCGGACATCAAAGCGCAA ATCGAAGGTCTGATCTTCAAAGGCTTTGCCACGGAATGTGGTTGGAAACG ACTGCCAGACATCTTGCGTTACATGAAAGCGATTGAGCGTCGAATGGAAA AACTGCCTATCGACCCGAACAAAGATCGCTTACATATGTTGAAGATTGAG TCGGTAGTCAAAGACTACAAAGAGCTATTGAACAAGATTCCGAAAGGATT AGCGGTACCGGAAAATGTGAAAGAGATTCGTTGGATGATCGAGGAGCTGC GAGTCAGTTTCTTCGCTCAGCAGCTCGGAACACCTTATCCGGTCTCCGAT AAACGAGTAAAAAACGCTATAGAAGCTTGCTAA >VV21151 Transposase ATGGACAGAGAAATCCAACAAAGACTACAGTGGGTAAAAATGTATGAGGA ATGTGGTGATGCAGGCCTCGTATGTCGACGCTGTGGTATTTCCAGACCAA CATTACGTAAGTGGGCTAAGCGATATAAGCAGTCTGGAATCGTTGGTCTG GAAAGCCAGAGCAGACGCCCTTATTCATCCCCAGATACCAAAGTCACTGA TGAGCTAAGAGCATTGATCCTTACGATGCGTCAGAAACGCAATTTAGGGG CGCGGCGTTTACAAACGGAATTAATCCGACTTCACCAAATACACCTAAGC ACCGCGACACTCCATAAAGTTTTATCCGAAGCATCAGTCAAACCCATCGT AACTTACCGACGCAAAAAAGATTTCCAAAGATATGAGCGCCCAATTCCTG GTGATAGAGTCCAAATGGACACCTGTAAAATAGCGCCTGGAATTTATCAG TATACAGCTATTGATGACTGCTCTCGCTATCGGGTTCTAAGGTGCTACTC TCGGCGTACAGCAGCAAATACAGTCGACTTTATCGATTGTGTCGTGGAAG AGATGCCATTTCCTATCCAGCGTATTCAGACGGACAGAGGGCGTGAATTC TTTGCTGAGAAAGTCCAGAAACAACTCATGATTTATGGGATCAAGTTTCG CCCAAATAAGCCTGGCTCACCTCACTTGAATGGCAAAGTGGAACGCTCGC AGAAAACAGATAAAAGTGAGTTCTATCCGACCATAGATGTCTCTGTGGGG CTGGAAGAACTGGATCTGCTACTAGCTGAATGGCAACACTACTACAACTG GGAACGGCCCCACAGCTCTTTAAATGGACTAACCCCGATAGACAGGATTA CTGAGATATCTGATCAAACTCCTTTGTCTGAAGAGGTATCTCAGCACTAC CAGATCAAGAAAGAGCGGTTTCAAGAGCAGAATTACAAGCTCGATCTTCA GCTAAGAAAATTGAAACCATCTCTATGA >VV20654 Transposase GTGTTACACAGCGATAGGGGCTCCCAGTATCCGAGCAGACAATATCGCAA ACAACTACAGGGTTATGGCATGTGGGCGAGCATTGGAGATGTCGGTGCTT GCTGGGATAATGCCGTGGTCGAGCGGTTCTTCGGAAGTTTAAAGCACGAC TGGTTGTTTAAAGTGCACCAACCAGAGAGCATATGA >VV12476 Transposase and inactivated derivatives ATGAGATACACGCACCTCACTGAGAACGAAAGGTATATGATTTCTGCGCT CAGAAAGCAAGGAATTAGTACCGCTAAAATAGCTAAACAACTAGGTCGTC ACAAAGCTACTATCTATCGAGAAATTGAACGTAATTCCCGATACAACAGA CACTTTAGAAGGTTCTCCTATCAAGCATGGAGAGCCCAACAGATGGCTCG CAACCGGCTAAGCCGCTCGCGCAGAAACAAGCGCTATAGCGAAATCGACT TCAGGTTACCTGAAGCCTTGCTACGACTGGATTGGAGCCCTGACCAAATC GTCGGATACCTAAGGGTAAGAGGCTATCCAACAATGAGCCACGAGCTCAT TTATCAGCATATTTGGAACGACAAAACTCTCGGTGGAACACTATGGAAAC ATCTACGCCAATCGACCAAGAAAAGGCGCAAAAGATATAACTCAAAAGAC AGCCGAGGTCGGCTGGCAGCAAAGCGTCATATTACCGAAAGACCTGCAAA AGCTGAGCATCGAAATGAGCCTGGCCATTGGGAAATTGATACCGTCGTTG GCCGCGGAACCAAGCACTGTATCGTAACTTTAGTCGACAGAATGACTGGC TACACTTTTATAGGGCAAATGGACGATAGAACAAGCGAGTCGCTCAACGT AAGAATGAGCAAAATCATGACCCGCTCTGACTTACCTTTTAAGACGATAA CTGCGGATAACGGCACTGAATTTCATGGTTATGCACAACTGGAAAAACAT CATAACTGTCTGTTTTACTTTGCAAATCCATACCATTCATGGGAGCGAGG GACTAATGAAAACACCAATGGTTTGATACGACAATACTTACCAAAACGAA CTTCTATGTCACACGTAACACAGAAGCTCTGCAATGAAATTGCACACAAA TTAAATACGCGCCCACGCAAAAGACTTGGGTATAGGACACCAACGGAGTA TATTCATGCGCACCTGTAA >VV11359 Primosomal protein N' ATGCGTCCATCCATTGCTCGTGTTGCGCTGCCAGTGCCACTCGATAAACA ATTTGATTATCTCGTTCCTGGACACCTTTTTCCGATCATTGGTGGTCGCG TGAGTGTGCCATTTGGACGACAAACCTTGACTGGCATTGTCACCGCTTTG GTTCAAGAATCAGACTTTCCACGCGAGCAACTTAAACCCATTAAAGCGGT GTTGGATCATCGTCCTATTTGGCCCGATTCCGTCTACAGTTTATTACTTT GGTGTAGCCACTTTTACCAATATCCCTTAGGTGAAACACTGCATAACGCC CTCCCCGCGGCACTAAGAAAAGGCAAAGCGGCTGACTTTGCCACTCTACA AGAATGGCAACTGACCGAGTTAGGCAAAAACCAGTTGATGCAAGGGTTAA ACAGTCGTGCGATAAAGCAAGCGAAAGTATTAAATATGCTTGCTAATGGC CCTCAGCCTCACCAAGCCTTTTTGGATGAGGAAGTGGCATCCACAACCTT ACGCACCTTAGAAGAAAAAGGCTGGATCAGCTGTGAAGAAAAAACGCCAC AGTTAACTCGGTGGGGTAACCCGATTGAACATCCCGTCGATAAACCGAAA CTCAACCAAGAGCAAGCCATTGCCATTGCGACCGTTAACAGCCAGACAGA CTTTGGCTGTTATCTGTTGGAAGGGGTCACAGGTTCAGGCAAAACCGAAG TTTATCTCAACTTGATCAAACCCATTTTGGAACAAGGCAAACAGGCTCTG GTGTTGGTCCCTGAAATTGGTTTAACACCACAAACCATCAATCGTTTTCG TCAACGGTTTGATGTGCCAGTCGCCGTCATCCATTCTGGTCTTAATGATA CGGAACGTCTCAACGCTTGGCTTTCCGCACGAGATAAAGCGGCGGGCATT GTCATTGGTACACGCTCTGCACTACTGATCCCATTTGCCCAGCTAGGGAT CATCATTGTCGATGAAGAGCACGACGCTTCGTACAAACAGCAAGATAGCT TGCGTTACCATGCTCGCGATGTGGCAGTGATGCGAGCGGCAAAAGAAGGC ATTCCAATTGTTCTCGGTTCAGCTACGCCCGCGTTAGAAACCTTACACAA CGCACTTACGGGCAAATATCATCATCTCTCGCTAACCCAACGAGCAGGAG TGGCCGTGCCAACCACCAACAAAGTGCTGGATGTCAAAGGGCTCTATCTG GAAAGCGGCCTATCAGCGCCACTCATTGCTGAAATGCGTCGTCATTTAAA AGCGGGCAATCAGGTGATGCTGTTTCTCAACCGTCGAGGCTTCTCCCCTG CGTTAATGTGTCATGAATGTGGTTGGATTGCCGAATGCAAACGCTGCGAT GCCTATTACACTTATCACCAGTACAGCAATGAAATCCGCTGTCACCACTG TGGTTCTCAACAACCTATTATCCATCAATGCCAAGGTTGTGGTTCGACAC AACTGGTGACGGTTGGTGTCGGCACTGAGCAACTGGAAAACCAGTTAACG ACCCTCTTTCCTGACTACAAAGCAATTCGCATCGACCGCGATAGCACACG ACGCAAAGGTAGCCTCGAAAGCGCTTTAGAAGCCATTCGCAAAGGGGAAT ACCAAATTTTAATTGGCACGCAAATGCTGGCTAAAGGCCATCATTTCCCA GACGTGACGTTAGTGGCGCTATTGGATGTTGATGGGTCACTGTACAGCAG TGACTTCCGAGCGTCCGAGCGATTGGCTCAGTTGTTTATTCAAGTAGCCG GACGAGCAGGGCGTGCTAGCAAACCTGGCGAAGTGATATTACAAACCCAC CATCCAGAACACACCTTGCTCAAAGCTCTGTTGACCAAGGATTACCGGCA TTTTGCGCAGTCTGCACTGGAAGAACGGAAAATTGCCCAACTTCCCCCGT TTAGTTTTCTAACGCTATTTCGCGCAGAAGCCAATCACAGCGAAATCGTC GAAACATTCTTACGTCAAGTGCGTATGACTCTCGAGTCGCATCCCTTGTT TGATCACACTTGTCTCGTGCTCGGTCCAACCCCCGCTCCACTGGCCAAAC GTGCGGGCAAATACCGCTGGCAGCTTCTGCTTCAAACTCAACATCGTTCC TTGATGCAGAAAATACTCTCGAGCACGAAACCTGCTATCGATTTGTTACC AGATGCGAAAAAAGTACGTTGGAATTTGGATATTGAGCCACAGGATCTGA GTTAG >VV10770 Predicted endonuclease GTGTATATTCTGGCAAGTCAGCCCTATGGCACTTTATATATTGGTGTGAC TGGTGATCTCATTAAGCGCATTTGGCAACACAAGAATGGTGAGAGTGACG GTTTTACCAAAAAGTACCGAGTGGTGCATCTTGTATACTTTGAACAGTTT GAAGCCATGAGTGATGCGATTTTAAGAGAGAAGCAGCTAAAAAAGTGGAA TCGACAATGGAAGATTCAATTAATTGAAAGTGCCAATCCTCATTGGTTGG ATGTGTATAAAAATCTCCGTACTACGATCCGATAA >VV11887 DNA polymerase III, epsilon subunit ATGAATACCAGTAACAATTCTGAATACGATCGTATCGTCGTGCTCGATAC GGAAACCACGGGTATGAACCGTGAAGGTGGCCCACACTATATGGGGCACA GAATCATCGAAATCGGGGCGGTGGAGATCATCAACCGCAAGCTGACCGGG CGACATTTCCATGTTTACCTTAAGCCAGACCGTGAAATTCAACCCGATGC GATCGATGTTCACGGTATTACCGATCAGTTTCTAGTTGATAAACCGGAGT ATCGTCAAGTTCACCAAGAGTTCCTAGAGTTCATTAAAGGGGCTGAGCTG GTGGCTCATAACGCGCCCTTCGACGTGGGCTTTATGGATTATGAGTTCGG TAAACTCGACGCCGCCATCGGCAAAACCGATGACTACTGCAAGGTGACCG ATACGCTGGCGATGGCGAAGAAGATCTTCCCTGGCAAGCGTAACAACCTA GACGTTTTGTGTGAACGCTACGGCATTGATAACTCACACCGAACGCTTCA CGGGGCATTGCTCGATGCGGAGATTCTGGCTGATGTTTACCTGCTGATGA CCGGTGGGCAAACCAGTTTGGAGTTCAACGCCAACTCGCAAGAAGGCGGT GGTGAAGACATTCGCCGAGTGGCGGGGCGAAAATCTCTTAAGGTTTTGCG TGCAACGGCCGATGAATTAGAAGCGCACCAATCTAGATTGGATATTGTAG AAAAAAGCGGAACTTGCCTCTGGCGTCAATAG >VV11589 Mismatch repair ATPase ATGATGCAGCAATACCTCAGATTGAAGGCAGAAAATCCAGATATTTTGCT GTTTTATCGCATGGGCGACTTCTACGAACTTTTTTACGATGATGCAAAGA AGGCGTCGCAATTGCTGGATATTTCTCTCACCAAGCGCGGCGCTTCGGCA GGAGAACCCATTCCGATGGCGGGTGTGCCATTTCATGCCGTTGAAGGGTA TTTAGCCAAATTGGTTCAGCTTGGGGAGTCGGTGGCGATCTGCGAACAAG TTGGCGATCCTGCCACCAGTAAAGGCCCAGTAGAGCGCAAAGTCGTTCGT ATTGTCACGCCGGGTACGGTAACGGATGAAGCTTTACTGTCTGAACGTTT GGATAACTTAATTGCCGCGATTTATCACCACAATGGTAAATTCGGCTACG CCACCTTGGATGTCACCTCTGGGCGTTTCCAATTGGTTGAACCCCAGTCA GAAGAGGCAATGGCAGCTGAGCTACAACGCACCTCTCCGCGTGAGTTACT CTTCCCAGAAGATTTTGAGCCCGTTCATTTGATGACAGGTCGTAACGGCA ACCGTCGTCGTCCAGTTTGGGAGTTCGAACTCGAAACGGCCAAACAACAG CTCAACCAGCAATTTGGCACCAAAGACTTGGTCGGTTTTGGCGTAGAAAA TGCGGTTTTAGGATTGTGCGCCGCAGGTTGCTTGATCCAGTATGTCAAAG ATACTCAACGTACAACACTTCCTCATATCCGCGCGCTTACTTATGATCGC CAAGATGACTCGGTTATCCTTGATGCCGCGACCAGACGCAATCTCGAACT GACTCAAAACCTTGCTGGCGGAAGTGACAACACGCTTGCTGCGGTTTTGG ATCGTTGTGCGACGCCGATGGGAAGCCGGATGCTGAAACGTTGGATCCAT CAACCAATGCGCTGTATTACCACGCGAGAGCATCGCCTAGACGCCATCGC CGAACTGAAAGAACAAGCTCTATTTAGCGATATTCATCCCGTGGTGAAAC AAATCGGCGATATTGAACGTATTTTGGCTCGCTTAGCACTCCGCTCTGCA CGTCCACGCGATCTCGCGCGATTACGCCATGCGATGCAACAGCTACCCGA ATTGGCTCAGACGTTGTCTTCACTGGGCAATAGCCATCTCAAATCACTGG CCACGGCAGCCGCTCCAATGGATGATGTGTGTGAGTTGCTCGAACGTGCC ATTAAAGAAAACCCGCCAGTAGTGATTCGCGATGGAGGTGTCATTGCCGA AGGGTACAGCGCAGATTTGGATGAATGGCGCGATCTTGCAGACGGTGCCA CGGGCTACTTGGAAAAACTCGAAGAGGAAGAGCGTGATCGCCACGGTATC GATACGCTGAAAGTGGGATACAACAATGTCCACGGTTTCTACATCCAAGT AAGCCGCGGTCAAAGCCATTTGGTTCCACCACACTATGTTCGCCGTCAAA CGCTGAAAAACGCTGAACGTTACATCATTCCTGAACTGAAAGAGCACGAA GACAAAGTTCTCAACTCAAAATCGAAAGCATTAGCCATTGAAAAGCAACT GTGGGAAGAGCTCTTTGATTTATTGCTACCTCACCTAGCCCGTTTGCAAG AGTTGGCAGCAGCGGTTGCACAATTGGATGTATTGCAAAATTTGGCGGAG CGTGCTGATACGCTGGATTATTGCCGCCCAAATTTGACCAAAGATCCCGT CGTTCACATTACCGCGGGTCGTCACCCTGTGGTAGAACAAGTCACTTCCG ATCCCTTTATTGCCAACCCAATTGAACTGAACAGCCAACGTAAAATGTTG ATCATCACCGGTCCAAACATGGGGGGTAAGTCCACCTACATGCGCCAAAC CGCATTGATTGCTTTAATGGCGCACATTGGTTCTTACGTTCCTGCAGAAT CGGCCACCATTGGCTCAATTGATCGCATCTTTACTCGAATTGGTGCATCG GATGATCTCGCGTCAGGTCGTTCAACCTTCATGGTAGAAATGACAGAAAC AGCCAATATCTTGCACAACGCGACAGCAAATAGCTTAGTTTTGATGGATG AAATTGGCCGTGGTACCAGTACCTATGATGGTCTTTCCCTAGCGTGGGCA AGCGCACACTGGCTTGCGACTCAGATTGGGGCAATGACGCTATTTGCGAC GCATTACTTTGAACTGACAGAACTGCCAAATCAACTCCCTCACTTGGCCA ACGTGCATCTTGATGCGGTTGAGCATGGCGACAGCATCGCCTTTATGCAC GCCGTACAAGAGGGGGCGGCAAGCAAATCCTACGGTTTGGCGGTGGCGGG GTTAGCGGGCGTTCCAAAAACGGTGATTAAAAACGCCCGTCAAAAATTGT CTCAACTTGAGCTACTCAGCGCAGAGGGTTCGCAGCCGAAAGCAAGAACG GTGGATATCGCTAACCAATTAAGCCTCATTCCAGAGCCAAGTGAAGTAGA ACAAGCGTTGGCCAGCATCGATCCGGATGATCTGACCCCACGCCAAGCGT TAGAAGCCCTATATCGTTTAAAGAAAATGCTCTAA >VV10540 Uracil DNA glycosylase ATGACACAGCAACTCACTTGGCACGATGTAATTGGTGCGGAAAAAGAGCA AAGCTATTTTCAACAGACACTCAACTTTGTTGAAGCAGAGCGACAAGCTG GCAAAGTGATTTACCCTCCAGCAAAGGATGTCTTCAATGCCTTTCGTTAT ACCGAGTTTCAAGATGTCAAAGTGGTGATCTTAGGACAGGATCCTTACCA TGGCCCCAACCAAGCTCATGGTTTGTGTTTTTCAGTATTACCGGGTATCA AGACACCTCCTTCTTTGGTGAATATGTACAAAGAGTTGGCGCAGGATATC CAGGGCTTTCAGATCCCGGCGCATGGTTACCTTGAAGCTTGGGCTAAACA AGGCGTATTGCTGCTCAATACGGTGCTTACGGTGGAGCAGGGCAAAGCGC ATTCTCACGCTTCATTAGGATGGGAAACATTCACTGACAAAGTGATTGAG GCGATCAATCAGCACCAACAAGGTGTGGTATTCCTATTGTGGGGATCGCA CGCACAGAAAAAAGGCCGCTTTATTGATCGCCATAAGCATGTGGTTCTCA CCGCGCCACACCCATCCCCTCTTTCTGCTCACCGCGGCTTTTTGGGCTGT AAGCATTTTTCACAAGCGAATCAACATTTACTTGATCAAGGAAAGCAAGC AATAGACTGGCAACTACCTTTGTCGCTCTAA >VV21539 Transposase ATGTTTAATTGGCTGGGTTCGCCCAGCCATCCGAATAATCCCGAGGGGGC GATCGTGTCTAACGGCGAACTGCCAAAAGACGCAGATGGGTTACAACTCA ACTTTTGTAAAACATTGGCGTGTGACAACTTTGGTCTGAGCGATGCAAAA CGATACGTTTTGCAACATGCGAACCCTAAGCGTCCAGCGATGGTCTGTCG TGAATGTGGAGCTTTCCCCCCCTTACTTAACAACCGTGAAGTGTTGAATG AGCTGCATCGCTTACGTCAACTTCACAGTGATGGTTTGCCAGCGTGTCGC AACGACGACTGCGCAAATTTTGGTCTTTCTGTTCACACCCACAAACATCT CTACCATGCCTTTGGCTACAGTGGTGATCGCCAACGCTATCGCTGCAAAT CCTGTCAATCCACGTTTGTCGATAAGTGGTCTGGCGCCAACAAGAAGCTT CAGTTTCAAGAAAACTTGATGGGTTTGTTGTTCACCGGTTACTCGGTGCG CGAGATTTGCCGTAAACTGGCCATCAACCCAAAAACGTTTTATGACCATG TTGAACACATTGCCAGCCGTTGCCGCCGTAAATTGGCAACGATTGATGCG CGATGGGTCAATCATGCGCTCAATTACGAACTCGCTTCTCATTACCAACG CTTGCAACCCAATAGCGACAATGGTGTGTATTGGATGGCCACAGGTGACG CGCATTCTGGCTATATTCTTTGCCAACATGTGAATTACTCTGCCAAAGAA GAGCCATTAGGTACGGTTGATCACAACCCCTATGAAGCGGTTTCACGCTT CGTTTCTCCGCAGTACACTGCAGAGGCAAAAGAGCCAGAAAACACACCGT CTGATTATCTGCGTGAACGTATTGACCAGAAATACCAAACCATTTTGGCC CGCGGCAACGTTGAAGATCCTATGGGAAATATGGCGACCTTCAACTACCC GACCAAAGGAGCCGTAGTTCGTCCGCCTTACACCTCTTATGCGCATTATT TGCATGTGCTGGATATGTGCAACGAAGCTGGACGCGTCTCACTTTACATG CCACAAGATCCGCTATTACGCTCTGCGGCACTGAGTGTTTGCCTCCCTCG AATTCAAAGTCAAAATGTTGACCTACTGTATGTCGACGAAGATCCTAGTT GGGATTTAACCCAATCATTTGAAAAGTTTGACATTGTCTACATGAGTTGG TGGCGAGATCGCTGGGCGATTGCCAACCAAGGCAGCAAACTCAAAGGTAT TTGTTATCTTGCAGGTAACAAAAATCAGCCAGAACAATGGTTTAACAAAG CAACCACGCGAAATATCTCGTTCTATCAGTCACGTTTTCAGTTATTGTTT GAAGGGTTTGTCAACGAACCAAGACGAAAACTTAGACCGGGTGGCGTCTT ACCATTACTCGACATTTTCAGAGCTTGGCATAATTTGTGCTATCAAGATA AACATGGACAAACGCCAGCCCAACGACTAGGTGTTACAGATAGCCCATTG ACCATTAAACAGCTTCTGTCCTAG >VV10914 Transposase and inactivated derivatives ATGGGGCTTGATAACGTCGATGTCTGGTTTCAAGATGAAGCAAGATTTGG CCAGCAAAACACGACAACTCGACTTTGGGCTGAGCGTGGCTCAAGACCAA GAGTGGTAAAACAGCAGCAGTTTGAATATGCGTATTTGTTTGGCTCAGTA TGCCCCGCTAGAGGTATTGGTGAGGCAATGGTCGTTCCTTGGGTTAACAA GAACATTATGGTTGAGCATCTGAAGCAACTCTTCGCGGTGACCGAAAAAG GTCGTCACGCAGTGGTCATTATGGATGGCGCGGGTTGGCATACAAATGAC ATTGCTGAGCCATTTGACAATGTCAGTATCATCAAGCTCCCGCCATATTC ACCAGAGCTAAACCCGATAGAACAAGTGTGGAGTTGGTTAAGACAACACT ATCTCGCCAATCAATCTTTTGCGGATTACGAAGACATTGTCTCCAAAGTA TGTAGGGCTTGGAATAGTTTTTTGGAATGTTCGGCCAGAGTCAGACAGAT GTGCTCGAGAAGCTGGATAGACCTGAACAGTTAA >VV12384 Conserved hypothetical protein ATGAAAAAAAACAGAGTCGTTACGACCGAAGATATCTTGTTAAAACTGTG TCAGTCCGTATCTGGAGTGCTCACTTCTGCCACCTCTTCTCAAATTCACT ATTCTGCAATGGTGCAGAAAATCAACAAAACCAGTCTAAAGCCTGATTTC GGCTGTTTTGTTCTTTTTGATGGTGGTTTTACTGGCCTTGTCGTCATCAA CTTTACCGCAAAAGCAGCATTAGAGATTTACACCAATTACATGCGCAATA TGGGCATGCCAGAAGAAGAACTGGCTGTGTTGCACACCTCCGATGAAGTG GGCGATGTGCTGGGTGAGTTGATGAACCAATTAGTCGGTGATTTCACCAA TAAAATTCGCAAAGAACTGCAAACCAACATCACCCAAAATCAACCCAAAA TGTTGTCTCTGAACAAACAGGTTATTCTTTCGGTGGATACCAACCTAGAC CGCCCACAAGCGCGTCGCGTGACCTTCTCAACGGCAAATAACAACATCTT CTACTTAGAGCTTGCGATGGATAAAACTGAATTTATTCAGCTTGAAGATT TCGAAGTCGCTGAAGATGAGAATCCGGATGATATTTTAGAAGCGGCGCAA GCAAACATGCGCGGCAAGAAAGCAGAGAGCAACTCATCAGAAGAAGAATT AGACATTACCTCAGATTTGCTTGATGAACTGGGTATCTAA >VV21209 Methylated DNA-protein cysteine methyltransferase ATGAAATACTACACTCAATTTTCCAGCCCGTTTGGTCTTGTGACTGTTCA GGCCAACGATCAAGGTTTGCTCGGGATCTGGTTTGAACAACATACGACTT TACCAATGGAGTTAGGGTGTGACGCGGCTACGCATCCGGTGATCAGCGAA ACTCGTCAACAGTTGGAGCAGTACTTTTCTGGCCAGCGACAACAGTTTGA TCTGCCTTTGGCCGCGCAAGGCACCGAGTTTCAACAAAAAGTGTGGCAGG CACTGACCCAAATCCCTTATGGTCAAACCTGTAGCTATCAAGATTTGGCC AATGCCATTGGTAACCCTAAAGCGGTGAGAGCGGTGGGGCTGGCGAATGG TAAAAATCCGATTTCTATCGTCGTCCCTTGCCATCGAGTGATAGGCAAAA GCGGCAAGTTAACCGGATATGCTGGCGGTTTAGAGCGTAAACAGCAATTG CTGGCGTTGGAGTCAGGTGGTGAAATTTCACGCTGA >VV11528 Predicted endonuclease involved in recombination ATGTCTCGCACCATCATGGCATTCGATTTTGGCACCAAAAGCATTGGTAG TGCCATCGGCCAAGAAATTACTGGCACCGCATCACCACTGAAGGCTTTCA AAGCCAATGACGGCATTCCAAATTGGGATGAGATTGAAAAGCAAATCAAA GAGTGGCAACCCAATTTATTGGTGGTGGGACTGCCGACAGATTTGCACGG CAAGGCCTTAGAAACCATTACCCCACGCGCGAAGAAGTTTGCTCAGCGCC TACAAGGGCGCTTTGGTCTTCCGGTTGAATTGCATGATGAACGCCTATCG ACTACAGAAGCGCGTTCTGAGCTGTTCTCTATGGGCGGTTACAAAGCTTT GAGCAAAGGTAATGTTGATTGCCAATCTGCGGTGATTATTTTAGAGAGTT GGTTTGAAGCTCAGTGGGGCTAA >VV12048 Integrase ATGTTAACTGTAAATCAAATCAAAGCGCTTCCTGCCAAAAAAACCGCTTA CTACAAGCCAGACAATACAGGTGAGCGAGGCACAGGCCGCTTAACTGTCC AAGTCACTCCTGCTGGCTCTAAGATCTTCAAGTTCAAATACCATAAAGAG AAGAAAGAAGTTTTCATCGCTTTGGGTAAGTTCCCTGCTCTAACTTTATC TAAAGCACGTGATCTAGCTAACGAGTACAGTGAAATGCTCTCTAAAGGAT TAGATCCAAAAAATGAGCTAGAAAGGCAGTCTGAAGAGAAGAAAACAGCA GAACGTGAAAAAGATCAATTAGGCACCTTTGAGCAACTTATTGAGTTCCA TAAGCAGAACAAACAAGATAATGGAAATCGTAGTCACGAAGACGAATATC AGCTCATAGTGAAAAATGTGTTCCCTCATCTCGACATACATCGAAAGGCG AAAGATTTTGAAACTGAAGATTTTTTGGACATATTAGCAATCCCAATTGA AGAAGGATTTGTGGACAAGAGTAATAAAATTCGCTCCATTCTGCATGCGG CATTCAACTTCGCTTTAGGGTACGAAAATAACCCTAAATTCAGAAAAAGA GAAACCAAATTCGCTCTTGACCACAATCCGATATCGAAAATACCAAAACA ACCTGAAAAAATTGGTTCACACTTCCTATCTTGGAATGAAGTAACCCAAT TACTTTATGACATGGAACATAGATTTGATGATTTAAACCTTGCATACCAA ACCAGACAAGTGCTAAGGCTTTGTTTTTACTTGGGAGGGCAACGACCTCA CGAAGTGGTAACGATCAAATGGTCGCACATAAATTTTGATCAAAAAACTG TTCTTGTCAGCGAAGCTTTCCAAAAAACAAAGAAAAATCACATGCTTCCT CTGACTAACTCTGCAATCCAAATACTAGAAGAAATCAGAGAACAAACGGC TACTATTGGTAGCCCATTTGTTTTCTTTAAGAAAACAAATTCAAATGAAC ATATGCCTACCAACACTATTGCTCAAGCACTGCTAACTTACAAAAAAGTT ACAAAAATTAGGCCTTTTGTCGCTAGGGACTTTCGGAGAACAGTAAAAAC ATTGGGAGGGGAAATCAAGATTCCCAAAGAGTACCGTGATCGTATACAGG GGCATGCTATCAATGATGTATCTGGTAGGCACTATGATATGTATGAGTAC ATTGATGAAAAACGATTGGGACTTGAACTATGGGAAAAGGCGCTCAATTC ACGCCTTGAAGATTATAAGCTAGTATTTTTTGAGAGAGAGCTTCCTTGGA AGAAAAAGAGCCTTACCTCCTAA >VV11518 3-methyladenine DNA glycosylase ATGCCACACCAAACAAGCCAGCAAATTCATCAAGCGCTGCTGATGCAGTG CCAATCTTTTCCGTTTCTGTGTTCCGTGCTGGAGCGCAATGGCCCACGCA CACTTGAGCGGCAACCGACGTCGAGTTTTCTGCCTTACTTAAGCCGAGCG GTCGCCGGGCAGCAATTGTCGGTTAACGCAGCGAAGACCATCTGGCGACG TGTAGAGTCGTTGAGCGCAGAGAAGGGCTCTTTGCAACAGACGTTTGTTG ATGAACACTATCAAGCACTGCGCGATTGCGGGTTATCGAATGCCAAAGTC AAAACCATTTTGGGCATCAATCAGGCCCTGATGGAAGGGGCGCTGGACAG TGCATTTTTGGCCAGTAATGATCCCCAGACGATTGTGAAGCAGTTAACGG GTTTATGGGGGATTGGGCCTTGGACGGCAGAGATGGCGCTGATGTTTTTC TTTGGCATGCCTGATGTCTGGTCTGCTGGTGATGCCGCTCTGATGCGTGG TCTCTCATCGTTGGCCGAAAAAGAAGGCGTTGATGCAGAAGCTATTTTAT CCGCAGCCACGCCTTATCGTACCTATCTTGCTTTGCATATCTGGGAGATG CTGGATGCCGAACTGCTCTCCGAGTAG >VV10825 DNA repair protein RadC ATGCCAAGAGAAAAGTTGCTTCAGCGAGGGCCTCAATCTTTGTCTGATGC CGAGTTGCTTGCGATCTTTTTGCGAACAGGCACACAAGGAATGAACGTAA TTGAACTTGCCGATTTTTTATTGCGAGACTTTGGCTCGCTGAGAAAACTG TTTTCCGCCGATGAACAGAGCTTTTGCCGTCACAAAGGATTGGGGCAGGC AAAATACGTTCAATTACAAGCTGTTTTGGAAATGACGCAACGTTATTTGG CCGAAACATTGCAACGTGGTGATGCGCTCACCAGTCCACAGCACACTAAG CTTTATCTCTCTTCCATGCTGCGCGATCGCCATCGAGAAGCGTTTTATGT GTTGTTCCTCGATAATCAAAATCGTGTCATTAAAGATGAGGTGATGTTTG AAGGCACCATCGATGCCGCCTCGGTCTATCCTCGGGAAGTTGTTAAAAGA GCCTTACACTATAATGCGGCAGCTTTAATATTGGCGCACAACCATCCCTC AGGCGTAGCAGAGCCAAGCCAAGCAGATCGGCGAATTACTCGACGTTTGA GTGACGCATTGGGCTTAGTGGATATACGGGTATTGGACCACTTTGTGGTG GGCGATGGGGAAGTGGTTTCCTTTGCAGAAAGAGGCTGGATTTGA >VV20655 Integrase ATGCAGCTCGCGCTACTGAACTTAGCTATAGATAGCAAGTTAAGAGCGAG TGATTTGCTAAAGCTACACGTTTACGATGTGTCTTCGCAAGGAGTTATCT ATGACAGGGTTCAGTGCATCCAGCAAAAAACGGGCACCGATGTCCACTAT GAGATAACACCAAGAACACAGCAAAGTATTAGCCGATGGATTTTTGCAGC ATCCCTAGAGGCAAGCAGTTTTCTATTTCCGAGTAGCAGACGCTCTGGGC AACCCATCAGCTACTCATTCTATCGTTCAATTATCAGGAGCTGGGCTGTA AAGCTTGGATTGAATGCTGACTATTACGGTACTCACTCCATGCGTCGCAC CAAAGCCACTTTAATCTATGCCAGAACGAAAAACATCAGGGCTGTACAGA TCTTACTTGGACACTCGAAGCTTGATAACACAATTCGATACCTCGGCGTT GAGCTAGAAGACGCTCTGAGGTTGTCTGAGAAAACAGACTGCTGA >VV20446 Serine/threonine protein kinase GTGACGGGGGAAAACAATTCTCCCGGTTATCAAACTCTAGAGAAAGGCCA TTTAGTTAAAAATCGTTACGTGATTGACAGCCTAATTGGGCATGGTGGCC TATGTGACGTCTACCGAGCCAAAGATAAAGTTCTTGAATCATCGGGAGTT GCTAGCCCTTTTGTCGCACTCAAAGTATTGCAGCACGAATACATCGACCA ACCAGAGACTGCGCGAATGCTTATCCGAGAGGCGCAGCATACTCAAACCT TGAGCCACCCCAACATCATTCGTGTTTTTGATTTTGGCGTCGATAACAAA ATTTATTTTATCGTGATGGAATACTTAGATGGAGAGACCATCGAACAGTT GATTCAGCGTTCCAGACCCAATGGCTTGGCGTTTCCTAATGCCAAAGTCC TACTAAACCAAATACTCGATGCTCTGATATATGCTCATTCGCTTGATATC GTACACGCAGACCTGAAGCCCGCTAACATCATGATCGATTCAGCCGGTAC GGTAAAATTGCTCGACTTTGGTGTGTCAAAAACTGAACGCCTCAAACAAG ATCAGTACGCCGCCAAGCGTAAAGTCGATGATCATCAAGTATTGGGATAT ACACCAAATTATGCATCCCTCAATATTATTAGCGGTAATAAGCCGTGCAG ACAGGACGATCTGTTTGCGTTTGCCTGCATCGCATACGAACTACTCTCTT GCAAGCATCCCTATAATCGAACCCCTATCGATTTGGCTAAGAAAAATGCG ATTCCGCTAAAGAAACCCTCTGGTTTTCCAAATACCCTATGGCCCGATAT TAAAACGATTCTCACCGACACCAGCGGTCAGTACAAGCTCAGTGCCGAGT CACTGAAACAGAGACTCAACCAAAAGAATCGCTCAAAATATGCGATAGCT GCATTGATTGTTTTCGGTTTATCCACCTCTCTTGGTGTTGTGCATCACTT AAACTCGCAGATCGTGCAGTTGGAAGAAACCAATCGCCAATTGGCTCATT CGCTACAAACGCAACAACAGATCATTAATAGCCAACCTGAGTCAGTCTTC GAACTTAGCGCATCCGATACCATCCATCCGGTTTTAAAAGCCGGATTACT GCGGCATCACAAGCAAACGCTTCTCGCGAAATTCGAGCAACAGATTGATG AAATTCTCAACCAAAGCAATAACGAGTATCCCGATTACGATCAAGTCGAA TCTGTCCTGAAGCACGCGGCCATCTACTACCCAGATTCCCACAAGCTTGA ATTACTCAACCTTGACATGCGCTCGAGCAAGCGTTCAACCTTGCTGTCAA TTGAAAGACACATCAATTCTGTACTCGAAAAAGGTCAATACGATGCTCAA CAGGATGGGAAATCGATCGTTGATCTCAACAATGATTTAAATTCCATTCA AAAGAATTATCCACTCACTCCATCATCACTGGCATTGGAAGTATTTGAGC AAAATCTTATTGACGCTATTGAGCAGCGTAACTCAATTGCACTCACAGAA CTGCTGGCGATAGGCGCGACGTTTTTTAGTACTCATGAAGCTTCTCAGCA GAGATTGCTACATGCTAAGGAAGTGAATTCAGCCGTCATTGCCATGGAGA AGTGGAAACAAGCGGAAGAAAATGGGCAGCAGGCGGTATACCCCTATGAT GCAGCGCAGGTTCTTTATGGGCACAAGTTTACCTCATTACATAAAAAGCT TGAAAACGCGACAACCGTTAACTCACTCGATCAGTTGGTGGCCGATATCG ATAACCTCGCCAAGGATTTCCCGCCAAATTTCCCAAACATCTCTGATCTG CGTTTTCAAACTGCCAACAAGTACCTGAAGTTTTCAGATATGCTGCTGAG AAAACGCCAATCAGTCAGTGCACGAAACGCGATGAAAAAGGCAAACGAAC TGCTGCAGCAAGTCGACAGTACCGACTTTAGAGGCTAA >VV11082 ATP-dependent DNA helicase Rep ATGAAACTGAATCCAAGACAAGACGAAGCCGTGAAATACGTATCAGGTCC CTGCCTCGTGCTTGCGGGTGCGGGTTCAGGCAAAACACGCGTGATCACCA ATAAGATTGCCTATTTGGTGCAACAGTGTGGCTACAAAGCGCGTAATATT GCGGCGGTCACCTTCACCAATAAAGCCGCACGTGAGATGAAAGAACGTGT GGGACAAACACTGGGGAAAGGGGAATCAAAAGGCCTGATGGTGTCAACCT TTCACACGCTTGGTTTGAACATCATCAAACGAGAGTATCGCCATCTGGGT TTGAAGTCGGGCTTTTCCTTGTTTGACGATCAAGATCAGCTTGCACTGCT TAAAGAGCTGACTGAAAAACAGCTGGATGGCGATAAAGATTTGCTGCGTC AGTTAATGAGCACCATCTCAAATTGGAAAAACGACATGCTCTCACCAGAG CAGGCCGTGGCACGCGCGCAAGGCGAACAGCAGCAGTTGTTTGCCTTCTG TTTTGAGATGTATCAGAAGCAGATGAAAGCGTACAACGCCCTTGACTTTG ATGATCTTATCTTGCTGCCTGTATTACTCCTTCGTGGGCATGATGAGGTG CGTCAATACTGGCAAAATCGTATCCGTTACCTTCTGGTCGATGAGTATCA AGACACCAACACCAGTCAATATGAACTGGTGAGACTGCTGGTGGGTGAGC GCGGACGCTTAACCGTGGTGGGGGATGATGACCAATCGATTTACTCTTGG CGTGGGGCGAAACCGCAAAACTTAGTGTTGCTGGGGCAAGATTATCCCAA CTTACGCCTGATTAAATTGGAGCAAAACTACCGTTCGACCAGCCGTATTT TGCGTGCGGCGAACATCTTGATTGCCAATAACCCACACGTGTATGAAAAG TCGCTCTTCTCGGAAATTCCCGATGGAGAAAAACTCAAAGTGCTGTTGGC CAATAATGATGAGCATGAGGCGGAGCGCGTCACGGGGGAAATCATTGCCC ACAAGTTTCTCAATCGCACCGACTATCGTGACTACGCCATCCTCTATCGT GGTAACCATCAATCGCGTCTCATCGAAAAGTCGCTGATGCAAAACCGCGT TCCTTATCGACTGTCTGGTGGTACGTCTTTCTTTGCGCGCGCGGAGATCA AAGACATCATGGCGTATTTGCGAGTGTTGGTGAATCCGGATGATGACAAC GCATTTTTGCGCATCGTCAACACACCTAAGCGTGAAATTGGCCCTGTGAC GCTGGAGAAGTTAGGCAGCTATGCCAACATGCGTGGCAAAAGTTTATTTG AAGCCAGCTTTGAACTTGGCCTTGAGCAGCATCTGACCGGACGTGGTCTC GATAATTTGCGGCGCTTTACTCATTGGCTGGTGGCGATTGCCGATCAAGC AGAGAGGGGAGATACCGTGGAAGCGGTGCGCTCGTTGGTGCGAGATATTC ATTATGAGGATTGGTTGTACGAAACATCTGCCAGCCCGAAAGCCGCAGAA ATGCGCATGAAAAACGTCTCTGATCTCTACTCTTGGATTGTCGCAGATTT AGAAGGTGACAATAACGATCAAGAAGAGAAAACGTGA >VV20080 ATPase involved in DNA repair ATGAAACCACTCAAACTTACCATGCAGGCGTTTGGTCCATTTGCTGAACG TGAAGTTATTGATTTTACCCAACTGGGTGAAAACCCACTGTTTCTAATTA ATGGGCCCACAGGTTCGGGAAAAACCTCTATCTTGGATGCGATCAGTTTC GCCCTTTATGGCGAAACCACAGGCAATGAGCGCCAAGGTATGCAGATGCG TTCAGATTTGGCCTCTATCCATCTAGCCACGGAAGTGACGTTAGAGTTTC TGCTACACGGAAAACGCTATAAGGTGATTCGCCTGCCTGAGCAAGAGGCG GCAAAAGCGCGCGGTGAAGGCACCACCACCAAAAAACACACTGCCGCGCT TTATCTTTGCCAAGATGACGAAGAGCTGATCACCAGCAAAACGGCTGAAG TGAAAACGCGAGTGACGGAATTGATTGGCTTGAACGAAACGCAGTTTCGC CAAGTCATGGTGTTGCCACAGGGAAAATTCCGCGATTTGCTGCTGGCGAG TTCCAAAGATCGTGAAGAGATTTTTGGCCAACTGTTCCAAACCGAAATTT ACAAACGCATTGAATGGGCGCTAAAAGACAAAGCCAATGCGATTAGTAAA GCCAAAGAAGAGTTTGATAACCAAATTCGTGGGGCGCTAGAGGTGGCGGA TGTCAGTGATGAGCAGGCGCTCAAAGAGGCGCTTGCAGACAAAAAAACGC AACTGATGCAGTGGCAAGAGACAGAGAAACACGCTCTCGAGCGTTACAAT TCGGCCAAGCAATCCCTTTCCACGGCTAAGGCTCTGGTGGAGGATTTTAA TAAACTGGCTTTGGCCAAAACGAATTTAGATGCCCATTTGGCGAAAAATG ATCAGATGTTTCACTTGGCGCAAAAGCTGGAACAAGCACGACAAGCTCAG CAGCTTGACGCACCGTATCGCCAGTGGAAAAACGCACTCAATGATGTTCA TGCTCAGCAAGGCAAAATTGACGAGCTTAACGCATCATTAAACATACTGT TGTTGCAGAGCAATGAGCTGGAACAACAGTGTTTGCAGGCGCAGAAAAAT GCCGAACAAATTCCTCAGCTACAACAGCGAACGTATGAATTAGAGACGGT TAAAAGCAAGCTGGTGGAAAAAGCCCAGTTTGAACAAGAGATCATTCGTC TTGAAGAAGAAGTACAGAAATTTGCTCATCAATTAAAACGCGTGCAAGAA CATAAAGTCGTGATGCAGCAGGAACTGACGTCCGCCATTGAAGCGTTTGA AAAGGCAAAGCAGCAAGCGGCAGAGATACCGAGACTTGAAGCGCGAGAGA GTGAGCTTAAGCGTCAGATCAGTGACTATGAACAATACCAGAATCTGAAT ACAGCGCTGCAGAATTTACTCACACAAACTGAACAAAAAGAGCAGTTACA TCAGCAAGCCAAGCAGCATTGGCTCAACGCCCAACAGTCTGCGGATAGCA TAGAACTGAGTTGGCATAATGGCCAAGCCGCTATTTTGGCTCAGCGCCTT CATCAAGGGGAAGCTTGCCCAGTTTGTGGTAGCCTCGAACACCCGCAAAA AGCGCAGTTTGTCGGTGAGCCTGTGCATAAACAGCAAGTAGAACAGGCCC GTGAGCAAGAAAAAACCGCTCTCGCACAGCTCAATCAACATCACCAAGAG CTGGAGCTGCACCTTGCACAAGTTAAGCAACAGCAGAAAGCGATTGAGGA AAAAGCAACACAACTCGGTGAGCTGCTTAACAGCCCGTTAGAAACCTTGC AGGCGCAAGCTCTTGAAATCCATCACACACTCAAACAGCTGCAAGGGTTG GATCTCGCTCAGCAAGAAAGTCATGTTAAACAACTGACCGAGCGTTGTGC GAAGGGCGAGGAGATGGAAAAAGAACTCGCTCAGCAACATATTTCTAGCA GAGCAACGTTGAAAGAAAAAACGCAACAGTTGGCGAAGTTCAGCCAACAA ATTGCCGCACAATTTAGCCATGTAGCCCAAGTTGAGCTGGAAATTGCGCA GCTCAAGCAACAAACGACGGCTTTACAAACGGCAAAAGAGACGAGCCAAA AGCGTTTTGATGAGATTCAACAAACGCTTGCCGCGCGTCAAAGTGAAGTT AAGGCACACGGTGAGATGTTGCTGCAGACTCAGCAGCGCAGTGAACAAAA CCAAACTGCATGGTTGGAGGCGTTGTCTGCATCGTCATTTGACGATGAAC CGCACTATTTGGCGTTGCGTGTCGAGCCAGAACAGATCGAACAATGGAAA CGTGAGATTGAGCAACATCAACAGCAGGCGACACGTTTAGAGCAGAGTTA TCACGACCTTAAAGAGCGTTTGAAAGATCAGCAAGCACCCGAGCTTGAGC AATTAGAGCTGTTGGTGACAACGACAGAACAGCAGTATCAACAGAACAAA AATGAGTTGGATGCGGTGCGTTCACTGGTGGCGAAGCTTGAGACCGTGCA AGCGAAGATTGCTGAACTGCACACGCATAATCATCGCCTTGAAGAAGAGT ACAAGGTTTTTGGCACACTCTACGATGTGGCAAGCGGCAAAACAGGCAGT CGCATTAGCTTGCACCGTTTTGTGTTAGGGGTGTTGCTGGATGATGTACT GATTCAAGCTTCGCATCGTTTGGCATTAATGAGCAAAGGTCGCTACCAGT TAACGCGAAAAACCGAAGGGTTTAAGGGCACGGCGGGTCGCGGGCTCGAT CTGATTGTGGAAGACAGCTACACCGGAAAATCGCGTGATGTCGCCACACT CTCAGGTGGTGAATCGTTCATGGCCGCACTTTCCCTAGCACTGGGTTTAT CGGATGTTGTTCAGTCATACAGTGGTGGCATTCGTTTAGAGACTTTGTTT ATTGATGAAGGCTTTGGTAGCTTGGATCCTGAATCCCTTGATCTTGCGAT TCAAACCTTGGTGGAGTTGCAGCAAACAGGCCGGATGATCGGGGTGATTT CCCATGTGTCAGAGTTGAAAGAACAAATGCAACAACGGATTGACGTGATA CCGTCGCGAGTGGGCTCTTCGATTCGCCTTAAGTCCGCTTTTGCCGCTAA TGCCTCAACAAGTTGA >VV20626 Methyl-accepting chemotaxis protein ATGGAAATTACGTTAGAGCTACTATTTTGGACATTGGTTGGCTGTGCTGG CTTGGTTGTGCTACTTCAAGCTATCTCGATCAACAAAAAGCATCAGATGC AGCAATGGGCACTCGATGAATCTGAGCGGGTAAATGCCAGGTTTGATCAG CACTGTGCGCAAATGGACAGGCAAGCTGGTGAGCTAAGCCAACATCTCAG CGATAAAACGGACCAGTTGCTCAGTGTGATGAAAACCGCTGCTGGTGACA CAATCCAGCACGTTACTGCTGAAGTTAGCCAGCAGGGAGAACAAGTGATA GCGCGCCTGTCCGCTGCGGAGAAGGAAGTGGTAAGCGGGCTGACTCAGCT CTCTTCACAGCTTGCCGAGACTGAGGCTGAGCTAAAAGGTGCAGCGCTGG CGCTGGATCAAAAGTTACAGGAGCAGCACACCAGCACGGGGGCCAACTTG TCTGCGATACAAGCGAGAACCGATGGACTGATCGCGCAGCAGGCAGCAGA GCAGCAAAGGCAGATCGCGGCTCTACATGCATTGAGCCAGGAGCAGCACC AGGAAAGCCGTCATCTACACTCTGAGTTGGCACGCACCCAAGCGGAATGT GCCCAGTCACTGACAAAAAAACAGAGCGAAGAGTTTATCCACGTGCAGAA GCTGGTGGGCCAGTCCCACAGCAGCCTGAAAGCCTTGTTGCAAACGCTTC ATCAACTGGATGATAAGCGTGATTTCACTGCCAAGCAGGCCGGTATTGCC CAGCTTGAACAGTTAACCACCCAGATCCAGCAGTTACGGGTCGATAACCT GGTGAGCCTGACCAATGAACTGGCCAGGCATCAGGATCTGACGATTGACA CGGACGATTTCGTCAAGCGGCTAGGCGATTGCAAAGTGACCCAGATCGAG GACAAGCACTCCGGTCAGGTGACGCAGATTTACTATAAAAACGGCAAAAA GCGCAGCAGTGATACCTTTGCCGGTACCCAGCTCAAATACCAGATGACGT TTAATGAGGACGGAAAACCGGCGCGGGGTTGTGAATTCGACCAGGCCGGA AACCTGGTGTTCGAATACCTGTATGACGATGCCGGTGAAATAAGCAAGCG CATTGAGACGGTCTATGACCCGAAAGGCAACGAAAAACAAAAACTAGAAA CAGCGTACTAA >VV10092 A/G-specific DNA glycosylase ATGTCCGGCCAGACATCCGCAACCGATCAGGCTGAAACAGGCAGCAAAGG CAAAGTGCTCACGGTGAAAGGGGTCATCCCCTTCACCAAAAGCGCCATGT TGAGCAATCTGTTCACCATGGCCGAAGCCTTGGAAGAGGGTGCGCGGAAA ATCTACCGCATCAGCAACCACACCGCTGACGCGCTGAAAATCCGCCAAGT CAAATTCCAAGGCGCCATTCGGGCCGACGAACAAGAAACCCCGCGCCAGC CAGGGAATCCCTCCCAACAACTTCAATAA >VV20624 ATPase involved in DNA repair GTGTGGAACGCCTTTACGGGTCAGCACTATGCCGATGAAGCGGAATCAAT CATTGCCGAAACGGAAAAACGGTTTGCCGATGCCAAGCAGGTTTACGAGC AAGAAGTCAGGCAGATATCTGCCAGTATCGAGACTAAGATCAGCCGGATC AACCGTCAGAAGCAGGACATTTACGTGATTCACTTCGAGCGTTTTATCAA GGTATCAAAGCGGATGCACAACGTTACGGTTAAGGGGCAACCTTTTGAAG AGCTATTCGATGACCGCATTCTGGAGATTAAACCGCAGCGTGGTGTCAGG GCAAAATCCGAGATCATGTTGATTGATTTTAATCAGATGGGCCTGTTGGA TACACTGGGCATGGTGCTGACTTTGGGCTTCTTTTCGCGTAAGAAAGCCA AAGAGTCGCTCGAGCGTGCCAAGCAGGAGCGTACGCGAGTAGGTGAAGAG ATCATCAAGCTGGAGGCACAACAGAAGCAACTTAGGGTGATCGAAGAGTC AATTGATAACGTGGTGGTGTATTTCGATGAACTGGTGGTCAACTACAGCA AGTTACTGGACCGGTTCGAATACGGAATCCAGACCCAACGCATGCATCAG ATGGCCGAAAACAGTGATGTGTTTGCACACAAACTCGATTTTAAGCGTTT GCCGATTGTTCACTTAGAAGAGTTTCGTGCCTTGTTTAACTTGTCGATCG TCCTGAAACAGATGGCAAGCCTAGGCTACTTGTCAGAATCGGGTGAGTTC ATTGCCGCCGACAGCGAGAAAGCTAAAGCGGTGTACGAGATGTCTCAGTC ACACTCTTTGTGCGCATGA >VV20004 FOG: Transposase GTGGCCACTATTCGTAAACGTCGTATCCCTCTCGACATGGCCGTTTGGGC GGTCGTTGCTATGTCGCTTTACCGACAAGAGCCTTTGTGGTCAATTGTCT CCAAAGCGCAATTAATGTTGCCCGGGAAGCGAAGTCTGGTTGCCCCTAGT GCTATCGTTCAAGCGAGACAACGGCTCGGGGCTGATGCAATGAAAGAAGT ATTTCATCAAAGCCAGAGCTTATGGAATGAAACAGCTGACCATCCGACTT GGTGTGGATTAAAACTCCTCGCTGTCGATGGCGTGGTATGGCGAACGCCA GACACTAAGGAAAACCGTGATGCGTTTCAATCTGCGTCAAATCAGAATGG TGAAGGTAGCTTTCCTCAGGTGCGTATGGTTTGCCAGATGGAGTTGACCA GTCACATGCTGGTCGCCAGTGCTTTCGCGAGTTACAAAACCAATGAGATG ATATTGGCGGAACAGTTGATTGAAACAACACCAGACTACAGCCTCACAAT GTTCGACAGAGGTTTTTACTCTCTTAGCCTTCTTCATCGTTGGGCAAATA CAGGTAATGAAAGGCATTGGCTAATGCCAATGCGCAAGAATACCCAATTT ACTGAAGTTAGAAAGCTGGGTCGCAATGATCGGATTGTCGAACTCAAGAC AACGCCTCAAGCGAGAAAGAAGTCCCTGTCACTACCTGAAACCATCGAAG TTCGCCTGATAAAGAAAACTATCAAAGGGAAAGAAGTGAGTATCTTGACC TCGATGACTGATCATCGTCGTTATCCGCCAGCGGAAATAGCAGAGCTTTA CAGTCATAGATGGGAAATCGAAGTGGGATATCGTGAAATGAAGTCTTCAC TTCTGAACAACGAGTTCACACTGAGAAGCAAGAAGCCAGAGATGGTAAAA CAAGAACTATGGGGCTTATTACTTAGCTATAACATTATTAGATATCAGAT GGTTAACATGGCTAAAGCTGTGCCAGGCATCTACCCCAACCAACTGAGCT TCACAACGTGTGCTCACTCTATCATTCACGTAATTTTGGGGTTCTGGTTG GAGTCAGCGGGAACAATCCCTAAGCGCATTACTCACTTGCAAGAGGAGGC GATACACCATGTCTTGTCCATTAAACGAGAAGAGCGGATATATCCGAGAG CAATAAAACCAAAGGCAAAGAAATACCCCAATAAAAAAAGCCAGTCAGCT TAA >VV21157 Predicted polymerase ATGTGGAAACTCTGCCTTTCATGGAACGAAAAGAAGACTGAAATTACCGC CAAATTGCCTGAGGCTGATTTGGGGAGTGAGCTCGTCAGAAAAGAATTGG ATGCCGTCATCGCTGAGATGGAAGGCGCAGAGCTTTATCTTGATGATGCA GAAGTCGTTCGCTTTCTCAACTGTGCGCGAGAGCGTAAGGCCGAAGCGTA TGATGGCATCGTCATCGCCAAGCGTCTTAATGCACAAATTGAAGTGGATC TCACCGACAACGACATGCTGGCCAGCATGAAAGTCACTGGCGCGTATGGT GGCCGTGGATTGCGCGGCAGTGAAATTGTGCATGCCTTGGCTCAAGCTCG CGTCACCAAAGGCATCAACAAGTTGGCGCTGAAAAAAGTGTTGGTGGTGA GTAACCAACTCAAAGCCGGCGAAGAGTTTGTCCAACCGGTAGCGCAGGGC AAACAGCCAATCAAAGGTAAAGATGCTCAGTTTGTGCCTCTGGTGGAAGA CATTACCAAACGTGTGTTGAAGCCGGAAAAAGGCAAATCCGCGAACGCCA AAATCGATATGCGTAACCTCGGGGCCACCATCACCGTTGATAAAGGTGAT GAAGTGATGCGCCGTGAACCTGCAACCAAAGGCACTCCAGGCTTTACCGT TCAAGGCAAAATCATTCCTCCTCAAGCAGGCAAAGATGCCCTGCTCAAAC CCGGCAAAGGCACGGAAATCGCTTCCTACGATCCGAATCTTCTTATTGCT AGCCAATCGGGCATGCCGCTCATCAAAGAAAAAACCATCGAAGTGGACAG TGCACTCTGTTTGAACAACGTTGGTGTGGGCACGGGGCACGTGAAGTTCA AAGGCAATGTGGTGATCTCTGGTGATATTGAAGCTGGCATGATGGTACGT GCGACAGGCTCTATTACCGTGGGCGGGTTTATCGAATCGGCCGATGTTCA AGCCCAAGGCGACATTGAAGTGGGCAAAGGCATCATTGGCCACACCGTTA GCGACGGTGAGCCACGCAGTTGCTCGGTCAAAACTAAAGGCAAAATTGTT GCTAACTACGCCCAATACAGCGAGCTACAAGCCGGTGGCAACATTGAACT TGCGGTGCACTCTTTTAACAACGAGATTCGCTGTGGACACGATTTGCTGG TGATCGACGCCAATGAGCGTAACGGTACCTTAAGCGGTGGCGTGGCCAAG GTGGGTGGCAAAGTGCGTTGTGTTCAACTGGGTGTGGAAGGGGATACCGC CACCAAAGTGGAAGCCTTCGCCCGTTTTAGTGCCTACAAAGACAAAATCG CCTCCCTGAAAGAGCAATACAAGCTTGCCCAAGAAGAGACGATGGATGTC ATCCGTCGTGAACTCGAATTTAAGAAAACGCCGAAATCGCAGCGCGAAGA GGGCATGGAAGAAGCCATCGCGCAAATGAAGGCAGAAAACAACGCCAAAC TGGAAGCCGTTAAAGGCCAGTTAGAAACCCTCGATGCCGAGTTCAACGCT TTACTGGAACTCAACACCGTAGAAGCGACGGAAAAAGTCTTCACCCGTGT GACCGTCCAATTTGGCGATGAACAAGTGATCACCAAGCGCACCCACGGCG GCAGCATCTTTAGCTTCAACCAATACGAAATCAAAGTCTCCTCAACCTTA GAAGAAGAGGACGTCGCAGTGTAG >VV11274 FOG: Transposase GTGGCCACTATTCGTAAACGTCGTATCCCTCTCGACATGGCCGTTTGGGC GGTCGTTGCTATGTCGCTTTACCGACAAGAGCCTTTGTGGTCAATTGTCT CCAAAGCGCAATTAATGTTGCCCGGGAAGCGAAGTCTGGTTGCCCCTAGT GCTATCGTTCAAGCGAGACAACGGCTCGGGGCTGATGCAATGAAAGAAGT ATTTCATCAAAGCCAGAGCTTATGGAATGAAACAGCTGACCATCCGACTT GGTGTGGATTAAAACTCCTCGCTGTCGATGGCGTGGTATGGCGAACGCCA GACACTAAGGAAAACCGTGATGCGTTTCAATCTGCGTCAAATCAGAATGG TGAAGGTAGCTTTCCTCAGGTGCGTATGGTTTGCCAGATGGAGTTGACCA GTCACATGCTGGTCGCCAGTGCTTTCGCGAGTTACAAAACCAATGAGATG ATATTGGCGGAACAGTTGATTGAAACAACACCAGACTACAGCCTCACAAT GTTTGACAGAGGTTTTTACTCTCTTAGCCTTCTTCATCGTTGGGCAAATA CAGGTAATGAAAGGCATTGGCTAATGCCAATGCGCAAGAATACTCAATTT ACTGAAGTTAGAAAGCTGGGTCGCAATGATCGGATTGTCGAACTCAAGAC AACGCCTCAAGCGAGAAAGAAGTCCCTGTCACTACCTGAAACCATCGAAG TTCGCCTGATAAAGAAAACTATCAAAGGGAAAGAAGTGAGTATCTTGACC TCGATGACTGATCATCGTCGTTATCCGCCAGCGGAAATAGCAGAGCTTTA CAGTCATAGATGGGAAATCGAAGTGGGATATCGTGAAATGAAGTCTTCAC TTCTGAACAACGAGTTCACACTGAGAAGTAAGAAGCCAGAGATGGTAAAA CAAGAACTATGGGGCTTATTGCTTAGCTATAACATTATTAGATATCAGAT GGTTAACATGGCTAAAGCTGTGCCTGGCATCTACCCCAACCAACTGAGCT TCACAACGTGTGCTCACTCTATCATTCACGTAATTTTGGGGTTCTGGTTG GAGTCAGCGGGAACAATCCCTAAGCGCATTACTCACTTGCAAGAAGAGGC GATACACCATGTTTTGTCCATTAAACGAGAAGAGCGGATATATCCGAGAG CAATAAAACCAAAGGCAAAGAAATACCCCAATAAAAAAGCCAGTCAGCTT AACTGA >VV20382 Superfamily II DNA and RNA helicase ATGTCATTTGCATCTCAAGGTTTTGCTCCGGAAGTCGTGAAAGCGCTCGA AGAGTGCGGTTACGAAAAGCTAACCCCAATTCAGCAAAAAGCCATTCCTG TTGCACGTCGCGGGCACGATATTTTTGCTACCGCTCAAACAGGAACGGGT AAAACAGCGGCTTTTTCTCTTCCACTGATCCAACAATTGCTCGAAAGCGG AAAGTCTGCTTCGCGTAAAACGGCGAGAGCACTGATTTTTGCGCCAACTC GAGAGCTGGCAGAGCAGATTGCGGATAACATTAAGGCCTATACCAAGTAC ACGAATCTCTCTGTGGCGGCGATCTTTGGTGGTCGAAAAATGTCGAGCCA AGAGCGTATGCTTGAGAATGGCGTCGATATCCTCGTTGCGACACCTGGTC GTCTAGAAGAGCACATCGAGTCAGGCAATGTGTCAGTGGCGAACATCGAA TTCCTTGTCTTTGATGAAGCTGACCGTATTCTCGATATGGGCTTCATCAA CGCTGTGCGTAAGATCATGTTGGATGTTGAAACCAACCCACAAATCATGA TGTTCTCAGCAACCACATCAAGCCAATTGAATGAATTGTCCAAAGACATT CTTCGCAAGCCAAAACGTATTGCGGTCGAGCGCGAAAACACCACGGCGCA TACGGTAGCGCACGTGTTGTATCCTGTTGATCAAGAGCGTAAAACAGAAC TGCTTTCTGAGTTGATCGGTCGTAAAAACTGGCAACAAGTGTTGGTATTT GTTAACTACAAAGAAACGGCGAACGACATTGTCAAAGAGTTGAAGCTCGA CGGCATCAAAGCAAATGTGTGTCATGGTGATAAAGCGCAGAGTGCGCGTC GCCGTGCGCTTGAAGAGTTCAAAGAAGGAAAAGTTCGTGTGATGGTTGCT ACCGACGTGGCGGCACGCGGTCTGGATATTGAAGATTTACCACACGTGGT CAACTACGACATGCCGTTCTTGGCAGAAGACTATGTTCACCGCATTGGTC GTACTGGTCGTGCAGGAAAACAAGGTCATGCGGTCTCTTTTGTCAATCGT GAAGAAGAGCTAACGGTGGTTCAAGTTGAAAATCTGATTCAACAACGTAT TCGTCGCATCGAGTTGGCGGGTTACGAGCCTAAGAGCCGTGAAGCATACA TTGATAAGCTCAACAGCAAGCCATCATTTAAGAATCGTCAAGGCCGTCGT AACAACGCGAATGAGCCAACGGATCAAGCGGCAGCGGAACGTCGCTTAGC GATGATGAAGCGAATCAAAGCTCGTCGTAACTGA >VV12517 Transposase and inactivated derivatives ATGAGATACACGCACCTCACTGAGAACGAAAGGTATATGATTTCTGCGCT CAGAAAGCAAGGAATTAGTACCGCTAAAATAGCTAAACAACTAGGTCGTC ACAAAGCTACTATCTATCGAGAAATTGAACGTAATTCCCGATACAACAGA CACTTTAGAAGGTTCTCCTATCAAGCATGGAGAGCCCAACAGATGGCTCG CAACCGGCTAAGCCGCTCGCGCAGAAACAAGCGCTATAGCGAAATCGACT TCAGGTTACCTGAAGCCTTGCTACGACTGGATTGGAGCCCTGACCAAATC GTCGGATACCTAAGGGTAAGAGGCTATCCAACAATGAGCCACGAGCTCAT TTATCAGCATATTTGGAACGACAAAACTCTCGGTGGAACACTATGGAAAC ATCTACGCCAATCGACCAAGAAAAGGCGCAAAAGATATAACTCAAAAGAC AGCCGAGGTCGGCTGGCAGCAAAGCGTCATATTACCGAAAGACCTGCAAA AGCTGAGCATCGAAATGAGCCTGGCCATTGGGAAATTGATACCGTCGTTG GCCGCGGAACCAAGCACTGTATCGTAACTTTAGTCGACAGAATGACTGGC TACACTTTTATAGGGCAAATGGACGATAGAACAAGCGAGTCGCTCAACGT AAGAATGAGCAAAATCATGACCCGCTCTGACTTACCTTTTAAGACGATAA CTGCGGATAACGGCACTGAATTTCATGGTTATGCACAACTGGAAAAACAT CATAACTGTCTGTTTTACTTTGCAAATCCATACCATTCATGGGAGCGAGG GACTAATGAAAACACCAATGGTTTGATACGACAATACTTACCAAAACGAA CTTCTATGTCACACGTAACACAGAAGCTCTGCAATGAAATTGCACACAAA TTAAATACGCGCCCACGCAAAAGACTTGGGTATAGGACACCAACGGAGTA TATTCATGCGCATCTGTAA >VV12792 Exonuclease I ATGCAGCAAGACAATCAGCCCACTTTCTTCTTTTTTGACTATGAGACTTG GGGAACCAGTCCAGCAAAAGATCGCCCATCGCAATTTGCTAGCGTTCGTA CCGATGAAAACTTCAATATCATCGGCGAACCATTGGTGATTTATTGTCGC CCACCTGCCGATTATTTACCGGCCCCCGAAGCCGCACTCATTACCGGAAT TACGCCACAAAAAGCGCAGAAAGAAGGCTTACCCGAGCCAGAATTTATCG CAAAAATCCACGCAGAGTTGTCGCGTCCGAACACCACTAGCCTTGGCTAC AACAGCATTCGCTTTGATGACGAAGTCACGCGTTATACCTGCTATCGCAA TTTCCTCGATCCCTATTCATGGAGCTGGCAAAACGGCAATTCACGCTGGG ATCTGCTTGATGTGATGCGAGCTTGTCACGCATTAAGACCGGAAGGCGTA GAATGGCCGGAAAATGAAGAAGGCTTTACCAGCTTTAAACTGGAGCACCT TTCTGTGGCCAATGGCATTGAACACAGTAACGCCCATGATGCGATGGCCG ATGTGATCGCCACCATCGAAATGGCGAAAAAAGTCAAAGCCGCGCAACCC AAATTGTTTGATTACTTCTTTAGCATGCGCCATAAGCGTAAGCTCAATGA GCTGATCGATATTGTTAACATGACCCCTTTGATGCATGTCTCTGGCATGT TAGGCCGAGAATGTCAATACACCAGTTGGATTGTGCCGTTAGCTTGGCAC CCGACCAACAACAATGCGGTGATTGTGGTCGACTTAGCCAAAGATCCTCA ACCCCTCTTTGATTTGGATGCCGATGCGCTGCATGAGCGTCTTTACACTC GTCATGATGAGCTCGGCGATTTATTGCCTGTGCCAGTTAAATTGGTGCAC TTGAATAAGTGCCCGATTTTAGCGCCAGCCAAAACCCTCACAGCGGAGAA CGCCGCCAATATCGGCATCGACCGAGAACAATGTTTGGCAAACTTAGCCC TTATTCGCCAGCATCCAGAAGTGCGAGAAAAGTTGGTGCAGCTGTTCTCA ATTGAACGCGAGTTCGAGAAAAGTCATGATGTCGATACCATGCTGTACGA CGGTTTCTTCTCGCCTGCCGACAAAGCCTCGATGGACATTATCCGCCAAA CCGATCCAACGCACCTTGCCGCTTTGGACATCACGTTTAACGATAAACGC ATCGAGCCACTGCTGTTTCGCTACCGTGCGCGCAATTACCCATGGACGTT GGATGAGAACGAACAGCGCCGTTGGGCGAATCATTGCCGCGAATACTTCG AAAGTCGAATTGAAGAGTACATGCTTAATTTGGAAAACTTAGTTCACGAA CATGAAAGTGACGAAAAGAAAATGGCGATATTAAAATCCGTGTACCGCTA TACTGAGAGCTTGATCTCATAA >VV21480 Transposase ATGTCTATCCAAAACTATTTTGCTGACTTTCTTGAAGAGAGTCCTGTTGA TGTCGCTCAGCTCACCACCTTCTCCGAGCATATTCCTGATGAGTGGGTTG CTAAAGCGGCAACACTTTCCGATAAAGCGACAATTCGTCGACGTCGTTTA CCTAGTGATATGGTTCTTTGGCTTATTGTTGGAATGGCGTTTTTCCGCAA TGAGTCTATTGCAGAAGTCGCACGGCGAATGAATGTCTGTGCCGAGGGCT TAGCCGATGAGGAACTGCTAGCTAAAAGTGCTTTAACGCAAGCAAGGCAA CGCCTTGGTAAAGCTGCTCCAGAATGGTTGTTTAGACAATGCAGTCACAC ATGGGGTCTAGAGCGTTACCCCGAGGATACTTGGCAAGGCTTACAAGTCT TCGCTATTGATGGGGCTCTTTTTCGAACCGCTGATACATCAGAACTAAGA GAACATTTTGGGTCAGGTAATACATCCAGCGAGAGGCAGACACCTCATCC AGTACTCAGGGTGGTGACCATGATGAATGTTCGCTCACATGTCATTGTAG ACGCAGCTATAAGCCCCTATCGTCGTGGTGAAATACCGCTTGCAATGCCC TTTATTGACTCTCTACCTGATAACTCATTGACTTTACTAGATAAGGGGTT TTATGGCGCAGACTTACTTCTTTCTCTCCAAAATAGTGGCTCCAACAGGC ATTGGTTGTTACCAGCGAAGAAAGGGGTGAAATTCAGACTTCTGGACGAT GAAGAGAGCGACGACATGTTGGTAGAAATGAAAGTCTCTCCACAGGCTCG CAAGAAAAATCCTAACCTACCTGAAAAATGGCAAGTCAGAGCCGTTACTT ATCAAGTACAAGGTAAGCACAAAACAGTGTTTACGTCTTTGCCTAGGGAA GAGTACGATGCGGAATCAGTAGCCGAGCTTTACCATGAGAGATGGGAAAT TGAGTTAGGGTACAGAGACATAAAAAGTTCGATGCAGCACAACGCGTTAG TGCTGAGGAGTAAGACGGTCGAGCTTGTCTATCAAGAGTTATGGGGGCTG TTGCTTGGTTATAACTTGGTAAGACGAGAAGCCAGTCAAGCGGCCGTAGC ACATGGTCGAATGGCCAATGAAATCAGTTTTAAATACGCTTGTCAGTTCA TCGCTAGTCAACTGAAAGTAATGAGCAAAGCGGTATCTCCAGGTAATACA CCGAAGCGTCTAAAAAGTCTGCGCGGAGACTTATCCATCCTTTTTATAGA CAAACGCCCTAAGCCAAATCGGCCTAGGGCGGTAAAAATATCAAAGACCC GATATCCTGTTAATCGCAAAGCAGCTCCTCTTAAGTGA >VV10997 Recombinational DNA repair ATPase ATGCCGCTTTCTCGTCTGATTATTCAGCAGTTTCGTAATATCAAAGCCTG CGACATTGCACTGTCGCCAGGCTTTAACTTTCTTATTGGTCCGAATGGCA GTGGCAAAACCAGTGTCTTGGAAGCCATCTATTTGCTCGGTCATGGGCGC TCATTTAAAAGTGCTTTGACCGGACGCGTGATTCAAAATGAGTGTGATCA ACTGTTTGTCTATGGTCGTTTTTTGAACTCGGATCAATTTGAGCTACCGA TCGGCATTAATAAGCAGCGTGATGGCACAACAGAGGTTAAAATAGGCGGT CAATCTGGGCAAAAGTTAGCGCAGCTAGCACAAGTGTTGCCATTGCAATT GATTCATCCCGAAGGCTTCGATTTATTAACGGATGGGCCCAAGCATCGTC GAGCGTTTATTGATTGGGGCGTGTTTCATACTGAGCCCGCGTTTTATGAT GCATGGGGGCGTTTTAAGCGCCTCAACAAACAACGTAATGCGTTGTTGAA GTCGGCAAAGAGCTATCAAGAGCTGAGTTATTGGGACAAGGAAATGGCAC GTTTGGCCGAGTTGATTAGCCAATGGCGCGCCGATTACGTTGCCCAAATG CAAAGCAAAGCGGAACAGTTGTGCCAAGAATTTTTGCCAGAATTTCATAT CCAATTGAAGTATTATCGTGGCTGGGAAAAAGAAACCCCATACCAACAAA TACTGGAAGAGAATTTCGAGCGCGATCAAACGCTAGGCTATACCGTTAGC GGGCCAAATAAGGCCGATTTACGGATAAAAGTGAATAACACCCCGGTGGA AGATGTGTTATCGCGTGGCCAATTGAAATTAATGGTGTGTGCGCTCCGCT TGGCACAAGGCCAGCACCTAACGGAAAAAACCGGTAAGCAATGCGTCTAT CTCATAGATGACTTTGCCTCTGAATTAGACAGTCAACGTCGCAAGCGTCT TGCTGATTGCTTGAAACAGACGGGGGCTCAAGTTTTTGTAAGTTCGATTA CGGAAAACCAGATCAGCGACATGCGCGATGACTCTGGCCGACTGTTTCAT GTGGAGCAGGGTGTAATCGAGCAAGGATAA >VV10969 Transposase and inactivated derivatives ATGGGGCTTGATAACGTCGATGTCTGGTTTCAAGATGAAGCAAGATTTGG CCAGCAAAACACGACAACTCGACTTTGGGCTGAGCGTGGCTCAAGACCAA GAGTGGTAAAACAGCAGCAGTTTGAATATGCGTATTTGTTTGGCTCAGTA TGCCCCGCTAGAGGTATTGGTGAGGCAATGGTCGTTCCTTGGGTTCACAA GAACATTATGGTTGAGCATTTGAAGCAGCTCTCCGCGGTGACCGAAAAAG GTCGTCACGCAGTGGTCATTATGGATGGCGCGGGTTGGCATACAAATGAC ATTGCTGAGCCATTTGACAATGTCAGTATCATCAAGCTCCCACCATATTC ACCGGAGCTAAACCCGATAGAACAAGTGTGGAGTTGGTTAAGACAACACT CTCTCGCCAATCAATCTTTTGCGGATTACGAAGACATTGTCTCCAAAGTA TGTAGGGCTTGGAATAGTTTTTTGGAATGTTCGGCCAGAGTCAGACAGAT GTGCTCGAGAAGCTGGATAGACCTGAACAGTTAA >VV20693 Transposase ATGACAGGTGAAACTATGACCAAGTGTATCAGACGTACTTTCAGTGCGGA GTTCAAACTCGAAGCAGCGCAACTTGTTCTCGACCAAAACTATACAGTTG TTGAAGCTGCAAAAGCCATGGGTGTGGGTAAATCGACAATGGATAGTGGG TAA >VV20635 ATPase involved in DNA repair ATGCTCGATAACTGGAGAAAACGCCTTTTTAGTGACACAGATGGCGACTT TGAGCAAGGTGGCGAGATTAATCAGCGCACCGCATCAAGAAACAACACCG TCACCATTATCGCCGTCTCTGCCCTGCTCCTTGCCGCACTAGCATTGTAT AAATACACTAGGCCGCCTCCCCCTACACAAAAAGAAAGCCATCAAGAACC TGTCGAATTTGGTGCCATCATTGAGCAAGATTTTGTCGAAACAGACAACC AATCGGCGCTCTCCCTACAGCAAAAAACGCTGTCTGCCCTAGAAAAGCAA ATAGCGGATTTGACCAAATCTATGCGCACTCATAAAGAAGAGACCGAGCG TAAAATCGAGCAAGCAAAAGAGAAGACCGCTCGCTTAGTTGAGGAACAAG TACGTGAAGAGTTTCGAAATAAAGAAGCGCAGCTTCAATCCCGTATTGAT GAACTCGAACATAACACTTCGGAGTTAGTCAATACCGAACCATACAGCAC CATCCACACCCAAAGGCCGATGAATAGCTCAGAAACATTTGGACAGCACA AGCTTCCGCCTAGACCTATTGCCTCCTCTAACAACAACCCCGATATGGCG CAGATGCAATATCAGCCCTCAGAGCAAATCCCTTTCAATCGCAATGAGTT TGATAGCTTTAATTTCTTTTGGGAAAGCGATGAAACAACCTATCACCGCA CCACTGAGAACTATGTGCCAACTGGAACCTTTGTCACCGCAGTGGTGACA GGAGGCGCTGACACCAATGCCGGAGTGCTTGGCCAAGGAGACACGACCCC CGTGGTCTTTCAAACCATTCATGAAGGTATCTTACCCAATGGGGAAAAAT CCAAGCTCAGCAACTGCACCATTACAGGTTCATCCTACGGTGAGATATCG TCAAGCCGCGGCATTATCCGCACTAACCGCTTGAGCTGTATCCAAGACGA AGGGCATATCTTAGACGTCGCCATCAAAGGAACGGCGTTTAACTTTGGAC GCAACGGCATACGTGGCACCACCATCTTAAAAAATGGTGAGATTGTTCAA ATGGCGGGGATTGCCGGTATTTTGAATGGCATCGGCGAGACAGGTCAAGC GCTCTCACAAACCACCTCCACCTCAGCATTCGGTACAACCTCAAGCATCA ACAGCCAAGATGCAGCGTTGAACTTACTCGGCAATGCTACCTCAAGTGTG GGAGAAAAACTCTCCGATTACTACATTGGTCTTGCAGAGCTCTATCACCC CATCGTGGAAATCAACCCAGGTGCCGTTGTCAATATTGTCTTCTTAGAAG GATTCCCGCTGGATCCTCTTATGGCCGAAGAGTACGAACGCCAGCAATTG GCAGAGCAAAGCATGTCGAGTCAATCGAATCAAATCCTCGATGTGATCAC TAATGCCCCCCTTAATCCATTGGCGAAAGAGTTGTCTACACAAGGCATTG AGGTTCCCCCAACTCCATTTGGCCGCAAATAA >VV12635 Predicted N6-adenine-specific DNA methylase ATGGACTTGTATTTGGCAACGTCCTCTATCAATTGGGTAAATCAATTCCA CAGCACTAAGAAGTTTGTGGTTGATTTCAACGGCACGAACCGTGAGATTC GTAACAGCCAGTACGGTGCGATGAAAGTGAAAGATGGCATCGTAGATTGT TTCGAAAAGAAAAACCTACCACGTCCAAATATCAGTAAAGAGCGTCCGGA TGTACGTATCCATGTTCGTCTCCACAAAGACAAAGCGATTCTTGGTGTTG ATATGGTCGGGAATGGCTTGCACCAACGTGGCTATCGTCCTGCATCTGGT AAAGCACCACTCCGTGAAACCTTGGCTGCTGCCATCATCCTTCGCTCAGG CTGGACAGAGGAACAACCGCTTTTGGATCCAATGTGTGGTTCAGGTACGT TGTTGATAGAGGCGGCCATGATGGCAGCAAACATGGCGCCTGGCGTAAAA CGCGAAAAGTGGGTCTTTGAATCACTTGAAGATTTCGAGCCAGAAGTGTG GGCAGAAATAAAATCAGAAGCAAATGTCATTGCTCGAAGAGGTGTCAAAA AAGTTGGCGCAAGATTCTATGGCTTTGATAATGATGAAAAAGTGCTGAAA ATTGCCCAAGATAACGCTCGCAGAGCAGGGGTTGCGGATCTTATCGAGTT TAAGTTAGGTGACGCCGCTACAGTGTCACGTCCTCAAGAATTTGAGAATG GTGTAATTGTTTGTAACCCACCTTATGGTGAGCGACTTGGCACAGAGCCA GGATTGATTGCACTATACACAGCGTTTGGTGGCCAGTTAAAAGCCCAGTT TGGTGGGTGTACGGCATCTATTTTCTCCAGTTCAGATGAGCTGCTGAGCT GTCTTCGCATGCGTGCGGAAAAACAGTTTAAATTGAATAACGGCGCGCTA CCTTGTCACCAAAAAAACTATCCATCGCACAAAGAACTGCAGAGCAGATT GAAGGTGCGGATGGCCCGCTTTATATCGCACCAGACTTTGCTTATCCCCT AA >VV10301 5'-3' exonuclease ATGGCTATTCATCTTGTTATCATCGATGCACTCAATCTGATCCGCCGTGT CCACTCAGCTCAACCGGATCCGACGGACATAGCCAACACCATCCAAAACA CCCGTCGTACCTTGCAGCGAATCATTAGTGAAAGTCATCCTACGCATATC GTCGCGGTGTTTGATCATCTCGGTAGCGACCGAGGATGGCGTGCAGAGAT CCTTCCAGAATACAAACAAGGGCGAAAGCCGATGCCAGAACCTTTGCTCA ATGGTTTGGAGAAGATCCAAGAGGCATGGTGGCAGTTGGGTATTGATTCG CTGCTTTCTGAAGGTGATGAAGCCGATGACTTAGTGGCCACCCTAGCGTG CAAAGTCGCGCAACACGGTGAGAAGGTCACCATCATTTCAACCGATAAAG GCTACTGCCAACTCCTTTCTCCCACTCTGCAGATTCGCGATTACTTCCAA CACCGTTGGTTAGATCAGCCGTTTATTGAACAAGAGTTTGGCGTAAAACC TCAACAGCTTTCTGACTATTGGGGCCTGACGGGCATCAGTTCCAGTCAAG TGACCGGCATTCCCGGCATTGGCCCAAAAGCAGCCAAAGAGATCCTCAGC CAATTTGACGATATCGAACAGGCTTTTCTCTCGCCGGATCTACCAAAGAA ATATCGCACTAAGTTCGATCAACATATCGAGTTAGCTCGCCGTTGCAAAC GAGTCTCGGCACTCAAAACCGATATTGAACTCGGTTTTAACCTGCAAGAT CTGCGTTTTACCGCTAATGAGGCCCGTTAA >VV21643 Alkylated DNA repair protein ATGTCATCTTCGCTGTTTTTGTTTGATTCACCCGATTGGCTGACCATAAC CGATGGCCAGTTGCTGTGGTGGCCGACATTTCTTTCTCAAGATCAAGCCG AAACATACTTTACTCAGTTAAAGCATGAACTTCCGTGGGAGCAAAAAGCC ATTCAAATGTTTGGCCGCCAAGTCCTACAACCTCGTCTTCAGGCTTGGTG TGGTGACGCGGCTTACACTTATTCAGGCTTGACCATGCAACCTCTGCCTT GGACACCCACGTTACTCGATCTAAAAGCGCGTTGCGAGAATGCCTCCGGC CATTTATTCAACTCGGTATTGGCGAACCTCTACCGCAATGGACAAGACTC TATGGGCTGGCATCAGGATGACGAACCAGAGCTGGGCCGCAATCCCGTCA TCGCCTCCGTCAATTTGGGAGAAAGCCGTCGCTTCGTTCTGCAGCACCTC ATTAGCAAAGAGAAAATCGAGTTCGAACTGACCAGCGGCTCGTTGTTGAT CATGGCAGGCAGCACTCAGCATTATTGGCGACATTGTGTACCCAAAACCG CTAAAACCAAATCGGAGCGGATAAATCTCACCTTTCGCCAGATAATTTCT ACCGCCATTTGA >VV10520 MutT/nudix family protein GTGATAGATGGCGATGGTTACCGGCTAAATGTTGGTATAGTGATTTGTAA TAACCATGGTCAGGTCTTCTGGGCTAAGCGATACGGGCAACACTCTTGGC AATTTCCTCAAGGGGGGATTGATGATGGTGAGACTCCGGAACAAGCAATG TTTCGAGAGTTGTATGAAGAAGTCGGTCTAACGCACAAAGACGTTAAGAT CATTGCGAGCAGTCGTCATTGGTTAAGATATAAGCTACCAAAGAGACTGG TTCGTTGGGACTCTAAGCCTGTTTGTATCGGCCAAAAGCAGAAATGGTTC CTTTTGCGTCTTGAGTGCGATGAATCCAAGATCAATATGCAAAAAGGTAG CTCTCCTGAATTTGATGGTTGGCGTTGGGTTAGCTATTGGTATCCTGTGC GTCAGGTGGTTTCATTTAAGCGAGACGTTTATCGCCGAGCGATGAAGGAA TTTGCATCGTTAGCCATGCCTTTTCGCGAACGTAAATTGAAAGGTAAAAA AGTTAAACGAAGAGGATAA >VV12401 Super-integron integrase IntIA ATGCGAACTCGACACTATGCCACAAAAACGATTCAGGCTTACATCAGTTG GATTAAACAGTACATCTATTTCCATAGGATGGCACATCCGTCTACATTGA ATGAGAAACATGTTGAAGAATTTTTAACCCACCTCGCTGTTGAACAAAAA GTTGCCGCAAAGACACAAGCACTTGCATTAAACTCCGTTCTATTTCTCTA TCGGGAATATTTCAGAACACCGCTTAATAATGAAATTAAGTTTCAGAAGT CTCTACTCGATAGAAAATTGCCAGTTGTGTTGACCAAGCCAGAGCTTCGT GCATTTATTCAACATATAGATCCAAGATATAAACTTCATATTATGCTGTT ATATGGCTCTGGATTAAGAGTTATGGAGTGCGTTCGTCTTAGAATCCAGG ATGTTGATTACCATTATGGAGCACTAAGAGTTTGGCAAGGCAAGGGAGGG AAAAACCGCACTGTTACACTCGCTAAGGAGTTATATCCCCTCTTGAAAGA GCAAGAGGCATTAGCACTACGTTATTATCAAAAAGACAGAATTACTGCGG GTTACGCCGGCGTTTGGTTATCGTCTTCTCTGCAAAGAAAATACCAAGGA GCCGAAATGGATTTCAACTGGCACTATTTATTCCCATCCGATAGGTTATC AAGAGATCCAGAGTCCGATTTACTCAGAAGACATCACATCAACGAGCAAG CTCTTCAAAGGGCCGTAAAGAGAGCGGCAAAAGATGCTGGAATTACCAAG TCCATAAGTTGCCACACGCTGAGACATAGCTTTGCAACACACTTACTTGA GTCCGGCGCCGATATTAGAACCGTACAAGAACAGCTAGGCCATTCTGACG TTAAAACCACCCAGATATACACTCATGTATTAGAAAGAGGTGCGGGCGGA GTCCTAAGCCCTCTATCTAAGCTTTAG >VV12245 DNA polymerase III, epsilon subunit ATGATCTCTTTACTCAAACCCACCAAGCTTGAATGGCAGCACAAATTCCT GCAAAAGCAGCAGCGAGTTGCCGATGCGCGCTTGCGCCGATTTTATCAAT CACCGCCCGTCTCGGGTGAGACAGTGATAGGCTCAACGCCACTGGTGGCC TTAGACTTTGAAACCACTGGCTTAAATCCCAATCAACACGATATTCTTTC CATTGGGCTGGTACCCTTTGATTTACACCGAATACGGCTGCAACAGGCAC GCTATTGGACAGTCAAACCGGAAGATCAGTTGCATGAAGAGTCCGTCGTC ATTCATGGTATTACGCACAGTAAAGTTCAGCGCGCGCCCGACTTAATCGA CGTATTGGATGAAGTGCTTGATTGCCTTGCGGGTAAAGTGGTGGTGGTCC ACTACCAACATATTGAGCGGCCATTTTTTGATAGCGCGTTACGTAAACGA ATCAATGAAGGCATTGAATTTCCCCTGATCGACACCATGGAAATTGAAAG TCAGTGGGCAAAACAGCAATTTGGTGGCTGGCTGAATCGACTCAAAGGGA AATCGCTTCCTTCAGTCCGTTTAGCCCAAAGTCGTCGTCGCTATGGTCTA CCCGATTACTCCGCACACCACGCACTCACCGATGCCATTGCTACCGCTGA GCTGTTCCAAGCACAGATCGCCCATCACTTTTCCTCGCAGACGCCTGTTT CAGAGCTGTGGCGATAG >VV12761 Zn-finger domain associated with topoisomerase type I ATGACGAATATCTTTATTATTGTCGCGCTACTGATTTTGTTTTTTTTCGT AATACAGAAATACGTCGTCAAACAGGATGATACCAAGGAATATGCCTATC GTTCGAAAGGCTCGGTGTTGAAAGGGCATGAAGTGGCATTTTTCAATGCA TTGAAAACCGCGGTTGGCGAACATGGTGTTGTGTTTGCCAAAGTGAATAT GAGTAATGTGGTTGCGCCACGCGATATCAATAGCAAAAAGCAGTTGTTTA TCGCCAGCAACCGTATTTCACGTATGTATTTTGACTATGTGATTTGCGAC CCTCGTACGTTTGAGCCACGTGTGATCATTGAACTGGATAACGGTAAAGA GCTCAACAAAGTCAAAGTTGAGCGGGAAAAGTTACTGATGCAAGTGTGCA AAACCGCCAATATCCCACTGATTGGTACGTCGATTAAGCACAGTTATCAA GTGGGACGATTAAGACGCTTGCTCGCCGCGCATATCGATTTGATTGAACC AGACAAAGAAGTGCGCTTTTGTAAAAAGTGCGGCAGTCCGATGATCATCA AAATTGCTTCCCAGGGAGAATTCAAAGGGCGGCGCTTTTTCACCTGTAGC CGTCAGCCAAACTGCACCTACACCGAAAACTACAATGTGGTGTTTGATGT GGATGAGGATGATTGA >VV11075 Shewanella oneidensis MR-1ISSod10 GTGAATAAATGGGTACAAACCTTCCTTGAAGAAGGGCTTGAAGGACTGCA AGAAAAACCAAGAACGGGTCGCCCAGCATTTCTTAACGCGGAGCAGCGAG AACAATTAAGTCGGTATATAAAAGCTCGAGCGATGGATTCGTCTGGCGGT AGATTAACTGGTAACGATATTCATGCTTATATCGTTAATGAATTTGGCAA ACACTACCACCCAGATTCGATCTACTACTTGCTCAACCATATGGGCTTTT CTTGGATAACTTCACGCTCCAAGCACCCTCGTCAATCCCAGCAAATCCAA GACGATTTTAAAAAAATTCAACATTGA >VV11874 Ribonuclease HII ATGGCAGCAAAAGAAACCAAAGAATTACCTCCTTTTGAATATCCTCAGGG CTATCACTGCATTGCGGGGGTGGATGAAGTGGGGCGAGGTCCACTGGTGG GGGATGTCGTCACCGCAGCGGTGATTTTAGATCCGAACAATCCGATAGAA GGGTTGAACGATTCAAAAAAACTGAGCGAAAAAAAACGCTTAGCCTTGTT GCCAGAAATTCAAGAGAAAGCGCTGGCGTGGGCTGTTGGCCGCTGTTCGC CAGAAGAAATCGACCAGTTGAACATCTTGCAAGCCACCATGGTGGCGATG CAACGCGCGGTTGAAGGACTGGCTGTTAAGCCTGATCTGGTGCTTATTGA CGGCAACCGTTGCCCAGCTTTACCAATGGACAGTCAAGCGGTGGTCAAAG GTGACTTACGCGTAGCTCAAATCAGTGCGGCTTCTATCATTGCCAAAGTC GTACGTGACCAAGAGATGGAAGAGCTCGACAAGCAGTACCCACAATTTGG CTTTGCTCAGCACAAAGGCTACCCAACCAAAGCGCATTTTGATGCAATCG AAAAGCACGGTGTGATTGAGCAACACCGCAAAAGTTTCAAGCCGGTTAAG AAAGCACTAGGCATTGAAGAGTAA >VV10610 MutT/nudix family protein ATGCAACAGGATGACAAACAACACGCTGTTTTTACTCCAGAAGATGTAGA GGTTCTCTCAAAAGAGCCACTCTTTCAGGGATTCTTCAAGATGATCAAGT ACCGCTTCCGTCATAAGTTATTTGCCGGTGGGTGGAGCAATGTGATCGAA CGCGAAATGTTTGAACGTGGTCATGCTGCTGCAATGCTTCCTTACGATCC TATTCGTGATCAAGTGGTGTTAATTGAACAAATTCGTGTCGGAGCACTGG AGCATCAGCATCCTTGGCAGTTGGAAATTGTCGCAGGCATGATCGATCGT GATGAATCGGCGGATGATGTCGTGCGTCGAGAGGCGCAAGAAGAAGCTGG CCTAGAAGTCGGACAACTTGTTTCGGTGGTTTCGTATTATCCTTCAGCGG GTGGGTGTTCAGAAAAGCTGGATGTTTTTATCGGTGAAGTGGATGCCTCT AAAGCGCATGGCATTCATGGTTTAGACTATGAAGATGAAGATATCCGTGT GCATGTGATGACACGTGAGCAAGCCTACGATTTGGTCAAACAAGGCAAAA TCGAGAATGGTGCCTCAATTATCGCCTTACAATGGTTAGAGTTAAATCAC TTGCAGTTAAAGTCACAGTGGTTGGAGATTGAGTGA >VV10814 Putative KDO kinase WavC ATGATTGAACAACAGCAGTTTGGTCAAAGTCGAATTTGTTACGACAGCGA ATGGGTGAGTTCGCCAGAGCTGGCTTTATTTGACCCGCAGTATTGGCAAG CACAAAACAAAGTGGTGGGAAGTGCCACTGGGCGCGGCACCACGTGGTTT GTGCAACTGCCCAAGATCACAGCAGCACTGCGTCACTATCGTCGCGGTGG ACTATTCGGCAAGTTGGTGAAAGATCACTATTGGTTTCAAAGCTGGTCTG CAACACGCAGTTTCGCAGAATTTCATCTGCTTAAACAATTACGCGAAGCC GGGGTCAATGTACCGAGACCGATCGCAGCCTATGCGATGAGAAAAGGGCT TTTTTACCAAGCGGACTTGCTGAGTGAACGCATTGCCAATGCGCAAGATT TAGTGACCATACTGCAAAAACACTCACTGAGTGCGGAGCTTTACCAAAAA ATCGGTGTCGAAATTGCGAAAATGCATCGCGTTGGCGTCAATCATACCGA TCTTAATATTCACAACATTCTGATTGATGCGCAGGAAACGATCTGGATTA TCGATTTTGATAAATGCTATCCGCAAGCTGGGGATGGTTGGAAACAAGAG AACTTAGATCGACTCAAACGCTCATTTAACAAAGAGCGAGTGAAGCGAAG TATTCACTGGCACGACAAAGATTTTCACGCCTTACTGACAGGCTACGAAA GTCAACAATAA >VV20661 Endonuclease I ATGCCATCGGTTCTGTATAACCTCTACCCTGCAATTGGCAGTGTCAATGC GGCAAGGCAAAACTACAACTTCACATTGCTGCCCCATGCAAGGTCCAGCT TTGGTCAATGCGATGTGCCTATTGATGGTAGGAAAGTGCAGCCGCCTGAG CAGGCACGTGGCGCGATTGCTCGCACATACTTATATTTTGAAGCGCTCTA CCCTCGATACTCGATGAGTAAAGCGCAAAGGCAGTTAATGCAAGCTTGGG ACAAACAATACCCAACAACGAAAGTGGAGTGTCAGCGAGCTCAACGAATA AAACAACAACAAGGCAATGCCAATCCTATCCTTGCCGAACGTTGTAATTA A >VV11567 Recombinational DNA repair protein ATGAACGCGCCTGACGGTTTACAGCGATGTTTTGTTCTCCATCGTCGCCC TTATAGCGAATCCAGCCTGATCTTGGACATATTCAGCGAAGAGTTTGGTC GCATTACCTTAATGTCGAAAGGGGCACGCAGTAAGCGATCAAATTTAAAA GGGGCACTCCAACCGTTTACCCCCTTACTGCTGAAATGGTCTGGCAAAGG TGCAATGAAAACCTTACGCCAAGCTGAGCCGATCAGTTTAGGCCTGCCTC TGACGGGCATTAATCTCTATTCTGCATTGTACGTGAATGAGCTGATTGGA CGCGTTCTAATGCAAGAAGTGTCGATGCCCGGACTGTTCCATGACTATCT ATTTGCCTTAACGGAGCTTGCCCAAGCGGACAATCCTGAACCGGCTTTGC GCCGTTTTGAGCTCGCGTTGCTGGCTGCGATGGGCTACGGCGTGGATTTT TTGCATTGTGCTGGCACTGGCGAGCCGATTGATCCGCAAATGACTTATCG CTACCGAGAGCAAAAAGGGTTTATTGCGTCAGTGCGGCGTGACAACCTGA CGTTTTTGGGCAATGAATTGATTGCCATCAGTGAGCGTCGCTTTCTCACG AAAGAGCAACTTCAAGCGGCAAAACGCTTTACACGAATAGCCTTAAAGCC GTATCTTGGCGGCAAACCTTTAAAAAGTCGGGAATTGTTTATACAGATGA GGATTCCCCGAACACGGAGTATGGAAAAATGA >VV20682 Transposase ATGACGGTGAAAGAGGCTTTTGACAATAGCAAACGTCCTTACGACTCAAG GCGTATCCAAAAAGAACTGGCGGAACACGGTGACAGCTATAATGTTAAAA CCATTGCAGCTAGCATGAAGCGCCAGGATTTAACGCCGAAAGCGGCACGC AAGTTTAAGTGTACAACGGACAAGCAAACATAA >VV10568 NTP pyrophosphohydrolase ATGATGAAACGTATCCATATTGTTGCGGCGATTATTTTCAATCAAGATAA GAGCCAGGTTTACATTACCAAGCGTCCGGATGATAAACACAAAGGTGGCT TTTGGGAGTTTCCTGGAGGCAAAGTCGAAGAGGGGGAAAGCATAGAGCAA GCCATGGTACGTGAACTCGAAGAAGAAATTGGTATTACGGCGACTCAACA ACAGCTGTTTGAGCATTTAGAGTACGATTACCCAGATAAATCGCTCAAGT TTGACTTTATCACAGTGACGGATTTTAACGGTCAGCCTTATGGAAGAGAA GGACAACAGGGAGAGTGGGTGGCGATTGCGGAACTGAGCCGTTACCCGTT TCCAGAAGCAAACGTACCAATTCTCGAAAGAGTGCTAAAAGAGTTTGCTT GA >VV12456 Transposase and inactivated derivatives ATGAGATACACGCACCTCACTGAGAACGAAAGGTATATGATTTCTGCGCT CAGAAAGCAAGGAATTAGTACCGCTAAAATAGCTAAACAACTAGGTCGTC ACAAAGCTACTATCTATCGAGAAATTGAACGTAATTCCCGATACAACAGA CACTTTAGAAGGTTCTCCTATCAAGCATGGAGAGCCCAACAGATGGCTCG CAACCGGCTAAGCCGCTCGCGCAGAAACAAGCGCTATAGCGAAATCGACT TCAGGTTACCTGAAGCCTTGCTACGACTGGATTGGAGCCCTGACCAAATC GTCGGATACCTAAGGGTAAGAGGCTATCCAACAATGAGCCACGAGCTCAT TTATCAGCATATTTGGAACGACAAAACTCTCGGTGGAACACTATGGAAAC ATCTACGCCAATCGACCAAGAAAAGGCGCAAAAGATATAACTCAAAAGAC AGCCGAGGTCGGCTGGCAGCAAAGCGTCATATTACCGAAAGACCTGCAAA AGCTGAGCATCGAAATGAGCCTGGCCATTGGGAAATTGATACCGTCGTTG GCCGCGGAACCAAGCACTGTATCGTAACTTTAGTCGACAGAATGACTGGC TACACTTTTATAGGGCAAATGGACGATAGAACAAGCGAGTCGCTCAACGT AAGAATGAGCAAAATCATGACCCGCTCTGACTTACCTTTTAAGACGATAA CTGCGGATAACGGCACTGAATTTCATGGTTATGCACAACTGGAAAAACAT CATAACTGTCTGTTTTACTTTGCAAATCCATACCATTCATGGGAGCGAGG GACTAATGAAAACACCAATGGTTTGATACGACAATACTTACCAAAACGAA CTTCTATGTCACACGTAACACAGAAGCTCTGCAATGAAATTGCACACAAA TTAAATACGCGCCCACGCAAAAGACTTGGGTATAGGACACCAACGGAGTA TATTCATGCGCATCTGTAA >VV12113 ATP-dependent helicase GTGCTAGAATCCGTGGGTCTGAACATGGGTCACAGTATGCTAACCAGTAA AATTCAAAGTTCTATTCGCACCAGCTATCAAAACCTTCAAAACCAGCTTG AAAACTTTATTCCTCGCCGAGCGCAAAACTATCTCGTTGCGGAGATGGCA AAAACACTTTGTGGTTCCTATCACAAAAAAAATCGCATTCTTGTTGCGGA AGCCGGGACGGGGATCGGGAAATCACTCTCCTACCTTATGGCTGCAATCC CAGTGGCAGTACTTAACAACCGTAAAGTGGTGATTTCAACTGCAACAGTT GCTCTACAAGAGCAATTGCTGAATAAAGACCTGCCTTTGTACAGAAGAAT TTCAGACTTAAACTTTTCTTTTGTTTTAGCGAAAGGCAGACAACGCTATT GCTGTGCCGAAAAACTCGCTAGCGCCAGTGGCGTCGACGGTGGCCAGCTA GCGATGTTTGAAACAAAACCCAAAAAGAAAGACATAGAGCTGTTAACCAC GATGTATCAGAGCTTAGCCAAGGGGAAATGGGATGGCGATAGAGACAGTT GGCCAAAACCGATTGATGACAGCCTCTGGCAATTGATTGTCAGCGACAAA CATAGCTGTAACAACAATCTGCCGATTCATCGCCACTGTCCTTTTCAAAA AGCACGCTCAGAGCTCGACAAGCACGATGTCATTATTGCCAATCACAGTT TAGTCATGGCTGATGCAGACTTGGGCGGCGGCGTTATCCTCTCTGAACCG GAAAATACCATTTATGTCTTTGATGAAGCGCACCACCTTCCTCACGTTGC TCGAGATCATGCCTCTGCCGCATCTATCCTTAAAGGCGCGGCCGCTTGGT TAGAACGTTTAAACCAAAACAGCAGCAAGTTTGCAGCCTTGGCGGATGAA AAACGCGTTAGCCGCTTTCGCAATGAGCTTCAAGAATCCGTGCAAGTAGT GATTCCCTCTTTACTACAGCTTGCAAAACAGTTCCACCCAACGAATTTTG AGGAAGGCACCTATCGATTTGAGCATGGCCAACTCCCTTCGTGGCTAGAA GAGCAGGCAAAAGAGCTCAAAATTTTCAGCCAGAAAGCCCATCAGGCGGT CGCTAAAATTGCCGATCTCGTCGCCGAACGTGTTAAAGATGGTGAACTTT CCGCAAAAACTGCCGAGCCCGCTTTGGCTGAATTGGGTTTCTATATTCAA CGAACTGAAAATCTGTCACAAGTGTGGCGATTGATGGCACAACCGACCCG AGAAAAAGGACCGCCTCTTGCTCGCTGGCTTGAAAAACATCCGGATCGCG AAGGTGATGTTATCGTCAGTGTCTCTCCTTTAGAGGTAGGCTGGCAGCTG GACCAACAAATCTGGAGTCGCTGCGTCGGCGCATTGTTGGTTTCTGCAAC CATGAGAGCACTGAACTCATTTCAATATTTCTGTCATCAAGCAGGCATTG ATATGCGTGAGGAATCGGGAGTCCAATTCCTAGCTTTGGCCTCACCTTTC GATTATCAAAACCAAGCAGAGTTGCACCTACCTGCCCTCAAATACGAACC GCAAGCACCGCAGTTTACGGAATATCTTATCGAGATTTTGCCTAAGTATT TAAAAGACAAACAGGCAAACTTGGTTTTATTCTCTTCTTATTGGCAAATG AACCAAGTTGCGGAAGGTTTAGCAACAGAATTGGTAAAAAGAGGATGGGC TTTGCAAAAGCAAGGCGAAACATCACGCACTGAAATTCTAAAAAAACATA AAGAACTAGTAGAAAAAGGTGAAACAAGCATTCTTTTTGGTACAGGTAGC TTTTCAGAGGGGCTGGATTTGCCCGGCGAGCTTCTGGAAAACTTGGTGAT CACCAAAATACCTTTTGCTGTCCCAACTTCACCAGTAGAACAAGCGCATT CAGAATATATTGAGTCTCGTGGAGGTAATCCATTTATGCAGATCACTGTC CCAGAGGCGAGTAAGAAGATGATTCAATCGGTAGGACGATTACTGCGCAA AGAGCGAGATTCTGGTACAGTCACCATCCTCGACAAGAGGTTGATTTCGA AGCGGTATGGTAAAGCGATTCTGGACTCCCTGCCTCCTTTTAAACGAATC ATTGAAAAATAG >VV21406 Endonuclease I ATGCTAAATAGAATAATTACCCTAAGTACACTGGCTCTGCTCTCCGCCAA TCCAGCTTCCGCACAGCTACTCAATGGCGATTTTGAAACATGGAGCGGCA ATAGCCCACAAGGCTGGAGCACCATTGATTCTGGCATCGCCGTTTCTTCC GCCACAACCCCACTGAAAACAGGCAAGCTTGCCGCCGCCATTGCCGTCAA TACCGGCACACAAGGCAACACTGACTTCTTGCAGATGGTCAATGTGGAGC AAGGAAAAACCTATCAGTTCTCGGTGTCGGTGTACCATACCGAAGGCAAA GTCATGGCGCGATTGATTGCCGATGGCTACCAAGGTTACTCCAATAACGG GCTCACTAATCAGTGGCAAGAGCTGACGTTTTCCTACACCGCCACCAGCA CAAAATCCATTCCTGTAGGCCTACGCTTTTATGACGTTTCCGGTTTTGAT GGCTCAGAAGTGGTGTATATCGACAATTTCCAACCAACGGAATCGGCAAC TACACCTCCCGAACCAGAAAGCTGCTCAGCAACCACGGCAACCTTGTCAC TGACAACAGACCAATACGCGTCTGAGACAAGTTGGTTGCTGAAAAACAGC AGCGGTACCACACTCTTCTCTGGCTCTGGGTATGAGAATTCCACCACTTA CAACCAAGAAATGTGTTTAAGCGATGGCCAATACACCTTTGAAATTCTAG ACAGCTACGGTGATGGCATTTGCTGTGGGGTCGGTAATGGCTCTTATAGC CTTGTTGCCAATGGCAACACACTGGCTTCTGGTGGCGAATTTACCCAATC GCAACTCACGTCGTTCACCATCGGTGACTCTGGTACCACAACGCCGACTG AGCCCCCCGTCTTAGGCGACTACTACAAAGCGGCCGAAGGTAAGAATGGC TTTGCGCTGAAAACCGCGCTCTACAACATCATCACCAACCACAATAGCCA AGGATACAGTGCGATTTGGGAACTGGCGAAAGTGGCCGATCTCGATCTTT ACTACGAAAACGATGGTTCCATTTTGGATATGTATTCGGAAAAAGCCAGT GGCGCAGACAGTGTACATTTCACCAAGGGCACCAACCAGTGCGGTCAATA CAGCAAAGAAGGGGATTGTTACAACCGCGAACACTCTTTCCCGAAAAGTT GGTTTGGTGGCACAGTGGAACCAATGAATTCTGATGGACACCATATTTTT GCGACGGACGGCTATGTGAATGCAAAACGCAGCAACTGGCCATTCGGTGA AGTTGGCAGCGCAACATACGTATCCAGCAATGGTTCCAAACTGGGCTCGG CAAAATCTGACTTAGGCTATGCGGGCACCGTCTTCGAGCCGGTAGATGAG TTTAAAGGCGACTTTGCTCGTGCTTACTTCTACATGGCCACCCGTTACGA AAACGCCATTGCTAATTGGGAAGGCAACACCACGAACGCTAACGATGTAC TCAATGGCACCAGCACCACGGTCTTTGAACCTTGGATGCTCAACATGCTG AAACGTTGGCATAACGCTGACCCCGTTAGCCAAAAAGAGATTGATCGCAA CCAAGCGGTGTACGAGTTCCAAGGTAACCGCAACCCGTTTATCGATCATC CTGAGTTTGTCAGTGCCATTTGGGGCAATTAA >VV12403 Phosphatidylinositol kinase and protein kinase of the PI-3 kinase family ATGATGAAAACTGATAAGGTTACGGTCCGGACATTTCAGAATCGATACAA TACTTACTTAAAACTTTTGCTGGCTCTTCGTAGTGATATGGGTTGGTTTT TTGATGATTCTCATAAAGCAAATATCCTAACAGTCCCATTTATTCTGACA TTGGCAGCAGCACTAGAATGCTCCTTGAATGATCATTTAATTGAGCACTT TGATGATGAGTTTGGTGATAACTCGAAGCAGATGCTTCCGGGGCTAATGT CAATGAACTTTAAAGGAAAACTCATCAATATAGTGCCAATCTTGACGAAA TATAAATTCAAGCTAAATGCCGAGCACAAAGTATATGCACTATTAGTCGA GTTAATTAAGCTACGTAATAGCCTTGTACATAATAAGAGCGACTATGACT CTCACGAATTCTCGCTACTGAAAGATGATGAAGGGAACGTGCAAGGGCTA CAGTATGATGACTTAGAGTCCTTAATGGGGAAAGAGGTCGATTATACGTT TGGCATAAAAGCAGATGTTGGTGCTATTCATGACGCAGTAGAAAGGTTCC ATGAGTTGTTTTTAGAACATTATCGAGAATCAGACTTCAGTGGTAACGAA CTTGTTATTCCGTTAGAAGAGAACAATCGAATCAAAATCGTCGTAACAGA TTAA >VV10915 Transposase and inactivated derivatives ATGGACAGTCTTAATAACATTGATTTCAAAAAACTTGCTAGCCAACAAAA ATCGATTCAAATGAAGATGCGATTGCTCGCATTGGCCCATTTTAAAGATG GTCACTCTCGAACCCAAATTGCTAAGTTCCTTAAGGTAAGCAGAGCCAGT GTGAATAAATGGGTACAAACCTTCCTTGAAGAAGGGCTTGAAGGACTGCA AGAGAAACCAAGAACGGGTCGCCCAGCATTTCTTAACGCGGAGCAGCGAG AACAATTAAGTCAGTATATAAAAGCTCGAGCGATGGATTCGTCTGGCGGT CGATTAACTGGTAACGATATTCATGCTTATATCGTTAATGAATTTGGCAA ACACTACCACCCAGATTCGATCTACTACTTGCTCAACCATATGGGCTTTG CTTGGATAACTTCACGCTCCAAACACCCTCGTCAATCCCAGCAAATCCAA GACGATTTTAAAAAAATTCAAAATTGA >VV21543 Deoxyribodipyrimidine photolyase ATGGCAATGAAGCTGGTTTGGTTACGCAGAGACTTGCGCAGTGTGGACAA CACTGCGCTCAATCATGCCATTGCGACCTCACAAGAGGTGGTTGCCTGTT TTGTGGCCACCCCTTTGCAATGGCGTGATCATCATATGGCGCCTATGCAG GCCGATCTCATTGCACGACGTTTGGCGGTGTTGGCGGAAGAACTCAACGC GCTCAACATCCCACTGTTGTACGACGAAGTGGATGACTACGCTCAAAGCG CAACACGCGTTGCTAACTGGGCTGAACAATTGGCGGTTAGTGAAGTGGTG CTTAACCGCGAATATGAAGTCAATGAGCGTGTTCGTGACGAACAGCTGGT CAATCAGCTCGCATCATCAGAGATTGGTGTTCTAGATGTTGAAGATAAGT GTGTGCAGGCACCTGGCTGCGTGTTGAATAAACAGGGGGACTATTTCAAA GTCTTTACACCGTTTAAAAAAGCGTGGCTGAAATCGTTTGTTCCACCACA GATCATTAAAACCTCAGCGGCGCAGCCGGTTGTATTGCCTGAAGCGCTGC AATCATCACTTTGGCATGAGCAGGCGCCGTTTAGCTACCCACGACAAAGC AGCGAGGAATGGTCTGTTGATTCTCAACAGATTCGTGAGACGTTAAGACA CTTCTGTCATGAGGAAGTGGATCGCTATCATGAGCAGCGAGATTTCCCTG CCACGGCAGGCACCAGCGTGCTGTCTCCTTATTTGGCGATTGGCGCCATT TCGGTCAGGCAATGCATTGCACGACTGTATTGGCAGCAAAGTTATCTGTC GAACGGACGTGAAGTGTGGTTGAGCGAGCTTATTTGGCGTGAGTTCTATC ATCACCTGATTCATTTTGAACCCAAGTTGGTCAAAGGGCAGGGTTTTGTC GAGTGGGAAAAACATCTGTTGTGGCCTGCAAAACCGGACTGGTTTGATCG TTGGTGTCGAGGGGAAACGGGCTATCCCATTGTGGATGCCGCGATGCGGC AACTCAACCAAACGGGATGGATGCATAATCGCTTGCGTATGATCGTGGCC AGTTTTCTCACCAAAGATTTGCACGTCAACTGGCGGTTGGGAGAGCAATA CTTTATGCAAAAACTGGTGGACGGTGACTTTGCGGCCAACAATGGTGGCT GGCAATGGTGTGCCTCGACAGGGTGTGACGGTCAACCTTATTTTCGGATC TTCAATCCAATTACGCAGGGAGAGAAGTTTGACCCGAATGGCGAATTTGT GAAGCACTGGCTACCAGAACTAGTAGAGGTGCCGAGTAAGTTCGTTCACC AGCCGTGGAATTGGCCAGGTCACATGCAGTTAGATTACCCAGCGCCAATG GTTGATCACAAACAGGAAAGAGAGATAACCTTGTCTTTGTATACCCAAGC CAAGGATTGTCTCTGA >VV20959 ATPase involved in DNA repair ATGAGCCCTGAAGAATGTCGTAGCGCCAATTGGCAACAAATTGGCTATTT AGATGGGCAAAATGGCGTCAATCCCACGGTGATCAGTGACTATGTAAAAG ATTGTCGTGATGCGGGTGTTTACCCAGATCAAGAGATGTGGCAGCGTGGC TTTGAGCAAGGCACCGTACTCTACTGCTCAGCAGATAACGGCTACCGCGT CGGTAAGCAAGGCCGCGAATACTACGGCGTGTGCAACAACGAACGTTTTC TCGAAAACTATCAGAAAGGTTATCAAGATTATCTGGTTCAAAAGCGACTC AATGAGATCAACAAAGAAATCAGCGATATTGATACACAACTGCGAATGCT CAAAAACGATAACGAAAACAAACAGCAGAGAAAAACGCTGGAAAGTCGAC GTAAAGAGCTCATTCGCGAACGTACATCACTGATTGTGCCAACGCGTTCT TACAATCTGAAGTTTTCGTTTTGA >VV11886 Ribonuclease HI ATGACAAAACAAGTTGAAATTTTCACTGACGGTTCTTGCCTCGGTAATCC TGGACCCGGTGGTTACGGTGTCGTCTTGCGTTACAAACAGGTCGAAAAAA CCTTAGCACAAGGCTATAGACTCACCACCAACAACCGAATGGAAATGATG GCCACCATCGTTGCTCTTCAGGCCTTGAAAGAACCTTGCAATGTGATTCT CACAACCGATAGCCAATATGTTCGACAAGGTATTACTCAGTGGATCCACA ATTGGAAAAAGCGCGGTTGGAAAACCGCCGATAAAAAACCAGTCAAAAAT GCCGATCTTTGGCAAGCGCTTGATAAAGAAACCACTCGCCATACGATTGA CTGGCGTTGGGTCAAAGGACACGCAGGCCATCGTGAAAACGAAATGTGTG ACGAGTTGGCGCGTGCCGCGGCCGAAAACCCAACCCTTGACGACACCGGT TATCAGCCTGCCGAGTAA >VV10521 DNA mismatch repair protein ATGAAACCCATTCCACAAACAGAAGCAGAACTGCTCCAACGAGCGAATCA AATTGCAGGTTGTAGCTTCGCCGAGTTGGCAGAAGAAGCGAATATGGACG TTCCTCTGGATCTCAAACGCGACAAAGGTTGGGTGGGGCAACTTCTTGAG TGGCACTTAGGCGCGCCTGCTGGCAGTAAACCACAGCAGGATTTTTCCGA ACTGGGTATTGAGTTAAAAAGTATTCCCGTCAGTTATAGCGGCAAACCGC TTGAAACGACGTTTGTCTGCGTAGCACCACTGACGGGTGTGCATGGATTA ACGTGGGAAACCAGTCATGTGCGCAATAAACTCTCCCGCGTGTTATGGAT TCCGGTTGAAGGGGAGCGAGAAATCCCACTGGCAGAGCGTCATGTCGGTA CACCACTGCTTTGGTCTCCCAATGACGAGGAAGAAATATTACTCAAAAAT GACTGGGAAGAATTGATGGAGATGATCGTGTTTGGTCAATTTGATCAAAT TTCGGCCCGACATGGCGTGGCTCTTCATCTCAGACCAAAAGCCGCGAATA GCAAAGCACTCACCGAAGCGTATAACATCAACGGAAAACCGATTAAAACA CTGCCACGTGGATTTTATTTACGAACTCAGTTTACCGCTCAGATTTTGCA AAATGCCTTCAACTCATTGCTCAATGAGGAGTGA >VV10865 MutT/nudix family protein ATGAGCAGAAGGAAAGAACCCGATATTCTCAATCGTAATGTCGTTGCCCA ATCACGACTCTTTTCTATCGAAAGCCTTGAACTGCGTTTCTCCAACGGCG AAGAGCGAATTTACGAGCGCCTCAAACCAAGCGGTAAAAATGCCGTGATG ATGGTTCCCGTTACTGAGCAAGGTGACCTATTATTAGTGAGAGAGTACGC TGCAGGTACAGAGCGCTATGAGCTTGGCTTCCCTAAAGGGCTTATTGATC AGGGAGAAAGCGCCGAACAAGCAGCGGATCGGGAATTGAAAGAAGAAATC GGCTTTGGCGCGAAACAATTAACGCCATTGAAGCAAGTGGTGCTGGCTCC TTCCTATTTCTCAAGCAAAATGACGCTGTTTTTGGCACAAGATCTGTATC CAGAAACATTGGAAGGCGATGAGCCAGAGCCACTTGAAGTGGTTCGTTGG CCACTCGCGCAGGCAGAAGAACTTCTTCATCACTTAGATTTTTGTGAATC CCGCAGTATCACAGCGCTACTATTGGCACTGAGAGCACTTCGACCGGCCA AGTAG >VV10078 Site-specific recombinase XerC ATGACAACCCTAATTTCACACTCTCAAAACCAATCATCGACTCAGTTCTT TCTTCACTACTTTACTGAGCAGGAAGAGAAGCAGTTGTTTAACACGGTTA AGCAGACTTACGGCATTTATGCACAGCGTGATTATTACTGGATGCTGCTG ATGCGCGAAACCGCCGTTCGCCTCGGTGTGCTGGCTGGCCCCGATGCCGA TAAAGCCAAGCGTTTTAACCTGCCAATGCTCGGTTTAACGGTAGGTGAAG CGGAGCAAAGCCTTGAAGAAGGCTATCTGATTTACCGCAGTGAAAACGCC AAGAACCAGAAAAAACACCCGATTGCTCTCAACAAATCCGCCATTCATGC GCTCAAGCAGTTGCTGAAAATTCATGTCGAAATGAGCCAAGGCATTGAGT GGGATACCCCTCGTTTAGAGCGTCCGCTTTTTCTCAGCCGTAACCGTCAG GCGATGAGTCGCCGATCGTTTCAATCTCGCTTTTCGACTTGGTGCCGTTT GGCCAATGTGCCGGAAGGGACACCACACTGGCTGCGCCACAGTTGGGCTA AGCGCTATTTGGAACGCACCACATCACCGGATGCGCTTCGCCGTGTTCAG GCGGTGCTTGGTCATTCCAACATTGCGACTACCTCGGTGTATACCACGCC GGATCGTGAATCATTGTCGTCAGCTATGCGGGAGGCCAGCACATGTTTTC GCTAA >VV11650 ATP-dependent helicase HrpB ATGTGGCCGCCATTTAAGCATAAGGACTCAACATTGTCACAATTGCCTAT CCACGCCGTGATGCCACAACTGCTTCAAGCGGTCTCGCAACATTCACAAG TCATACTCAAAGCCGCACCTGGTGCGGGTAAATCCACTTATTTCCCTTTG CAGTTGCTGCTGAGTAATGAATTCAGCGGAAAAATCGTGATGCTTGAGCC ACGACGCTTGGCGGCGCGCAATATTGCTCGCTATTTGGCGCAGCAACTTG GCGAAAAAGTTGGTGAGAGAGTGGGGTATCGCGTTCGTGGCGAAAGCAAG GTTAGCCACATGACCCAGCTGGAAATCGTTACCGAAGGGATCATGACGCG CATGATCCAAAGCGATCCAGAGCTGAATGGGGTTGATGTACTGATCTTTG ATGAATTTCACGAGCGTAGTTTGCATGCCGATATTGCTTTGGCGCTTGCT CTTGAAGTGCAAGAAGCGCTGCGTGACGATCTGAAATTGGTGGTGATGTC GGCCACACTTGAGCAGCATGCTTTGCAATCTCTCATGCCTCATGCCAGTT TTATTGAATCTCAAGGTCGCAGTTATTTGGTTGAGCAGCGCTATCAGCCG CTAAAAACGAACGACTTTTTACCCAATGTGATGGCGAAAACCATCGAGCA TCTACTGGCAACGGAATCGGGCTCTTTGTTGGCGTTTCTACCAGGAGTGG CTGCGATAAAACAAGTGGCTGAGCGTTTAGAGCATCTCAGTGAGCAAGTG GTGATCTGCCCGTTGTACGGTCAGCTCTCTTTTGCTGAGCAGCAAAAGGC GATTGAGCCCGCCAAAGCCGGTGAGCGAAAGGTGGTGCTGGCGACCAACA TTGCCGAAACATCGTTAACTATCGAAGGGATCCGCTTGGTCGTCGATAGC GGTTTAGAGCGGGTGGCAAAGTTTGATTTGAAAACGGAGATCACCAAGTT AGAGCAAGTGCGTATCGCGCAATCGTCAGCCATTCAGCGCGCGGGGCGTG CGGGCCGAGTGGAAGAGGGGATTTGTGTGCGCTTGTACTCTGAAAGCCAG TACCAGCAAATGGCGAGTGTGCCCCTTCCAGAGATCATGCAAGCTGATCT TGCTCCGCTGATGATGGAGCTGGCGCAATGGGGAGTCAGTGAGCCAGAAC AAGTGAAGTTATTGGATATCCCCTCTTCGGCAGCGGTACGTCAGGCCAAA CAACTGTTGCGGCAATTGGGATTAATCTCTGGGCACCAATTGACGAGTGA AGGACAGCTGGCGCAGCGGCTTGGTGTTGAGCCGCGTATTGCCGCCATGT TGATCGGTGCTCAGCAACGCGACGAGACGCTTTTCGCTTCAGCCTTGGCA GTGGCGGTGATGTTGGAAGAGCCTGAGCGTAACATCAGCAACGTTTGTCA CAGCTTACACCGCTGGCAGCAAAGCAAGCACGGTAAGACGACGCTACTCA CTCAGCGTGCCAATGCACTGGCGAATAAACTCAATGGCACTTTCTCTTTA AAACGGGTGACCGAATCGGCTTGTGCCATTGCCGCTAGCTTGGCATTTCC CGATCGCATTGCTCAAAAACGAGGCCAACAGTTTGGCCGATATTTGATGG CAAATGGTCACGGAGCCGAGCTGCGTGAGGATGACCCTTTGGGGGGAGAA GAGTACCTTGTGGTGCTCGATCTGATGCGTGGCCAAAAAAATGCCAGCCA GATCCAATTGGCTATCCCGCTAGACCTATCGGCTTTGCAACAAAGCAATC CAAGTTGTCTTGTGAACCACGAGCACATTGATTGGGATGAAACCAAAGGG CGTTTACTGGCGGAAAAGCAGCGAAGAATCGGTGAACTGGTGGTGAGCAG AGAAACACTTGCTCAACCCGGAAAAGAAAAAATGACGCAAGCTTTACTCT CCTATGTCCGAAGAAAGGGGCTTGCGGTATTAGACTGGAGCGAAAAGTCC CAATCGCTACTCGAGCGTATTCGTTGTGCCATTGAGTGGTTGCCGGAACA GGCCTGGCCAGCGATGGATGATGCTAGCTTGCTCAGCGAGTTAGAGCAAT GGTTGGAGCCGTATATGGCGCACGTCACAACGGTGAAAGACCTGGCTAAA ATCAACCTCTGCGAAGCATTGAATGCTCGCCTTGGCTGGCCGTTGAATCA GCAATTGGATGAGTGGTTGCCTAAGTACTACACCTTACCAACTGGTACCC AACAAATGATTCGCTATCAACAAGGTGCTAACCCCGTACTTTCGGCACGC ATGCAAGAGATGTTCGGTGAGCAAAGTTCGCCAACGGTGGCGCAAGGACG AGTAAAGCTCACCTTAGAGCTGCTTTCTCCTGCGCGTCGTCCTTTGCAAG TGACTCAAGACCTGGCCGGTTTTTGGGCTGGCGCTTACAAAGAAGTGCAA AAAGAGATGAAAGGTCGTTACCCTAAGCATGTTTGGCCTGACGATCCTGC CACTCACCAAGCAACCAATAAAACCAAAAGACAGTTACACTCATGA >VV10382 Predicted ATP-dependent endonuclease of the OLD family TTGTCGGCGTTGCGCGTATTTTATGAAGAAAGTGGCTTAAAGTTCGATAC TAAGAGAGATTTCCCCAAATTTTCAACTGATGATCAAGAGAGTTGGATTG AACTTTCTTTCTTAACTACACCAGAAGAACAAGACTCTCTGAAGGAAGAG TACCGTTCAGCGGATCGAGTTCTTAAGGTACGTAAATATCTTCAGTCAGA GCATGGATTAGTTCAGTCTAAACAATCAAATATTTATGCTTATGAGAACG GGCAGTTATCTAACAATTTGTTTTACGGTGCTGCTAACGTATCCACATCT AAGCTAGGTAGTGTTATCTACATACCAGCAGTTAGTAAGGTCGAAGATAG CATGAAAACTACAGGACCTTCACCATTTAGAAATATGGTTAACGTGGTGA TGAAAAAGGCTATTGCTAGTAGTGAGTCATTTAAGACGTTAACAACCGCA TTTAACGAATTCAATAAAGTATTTAAACAGGAAGAAATTAGCGGATTTTC AATTGATGGTGTTAAATCTGAAATAAATAGTGAACTGAAACAATGGGGTG TAGGTTTTGATATTGAAGTGTCCCCTATTAACACTGATGACCTAGTCAAG AGCTTGTTAAAGCCACATATTGAAGATAGTAACCTTGGTGAGCGAGTGGA TATTTCGTCATTTGGCCAAGGTTTACAACGCCATTTGATATATACACTCA TCAAGCTTTCAGCTAAATATAGTGCTAAAACCAAATCGACCAAAAAAGAT TTTAACCCCGATTTTTCATTGATACTATTTGAAGAGCCTGAGGCATTTTT ACATCCCGCACAGCAAGATGTGCTTTACCGAAGCTTAAATAAACTAGTTT CAGACGAGCAGCAACAAGTATTAGTTTCGACGCATTCATCAGTTTTCGTT AGCAAGTCAATCGACTCAATAAACTCTATTTCTCGACTTTTCAAAGAAAC AGATTCTACAACAGCTTATCAAATAACAGAGCGTTCTCTAAAGGAAATAC TATCAAACAACCTAGTTGCTGCAAGAGTTCATGGGGAAGATAAGTCTCCC GAATTTGATGAGGAAGTAAGAGCTGCTGATGAAGCGATAAAGTACTTTTT GTGGCTAGATACAGAGCGTTCAAATCTCTTCTTTGCAAGACATGTACTAT TGTGTGAAGGACCATCTGAAAAAGTATTGCTTGATTGCTTAGCTGATAGT GATTGGGAGTTTTTGAGAGAACATCGCGTATACATCTTAGATTGTGTAGG TAAATTTAATTTGCATCGATTTATGCACTTACTCAATGTAATAGGTATTA AACACTCTGTACTGTTTGATGGAGATAATGACGCTGTAAATAAGTTCATT AATCATAAAGTTTGGAATGGCATCATCCAAGGAGCCAAGACACCTTGTAC AACAGGATTGCATCAGTTTGAGTCTGATTTAGAAGGTTTCCTCCAAATAC CTAAACCTGATAAAAAACGGAGCGATTTAAAGCCTATCAACGTGTTGAAA GCACACCATGAAAATGCATTAGATGCAGGCAGACTAAGTATGCTTAAAGA GATTGTTCAAGATTTAGTCAGTTCTGAGACTGACCACACGTGA >VV20608 Superfamily II DNA and RNA helicase ATGGGTTTTACCTCCTTAGGTCTGTCTGCACCAATCCTTAAAGCTATTCA GGAAAAAGGCTATGACACCCCTTCTCCCATCCAATTGCAGGCCATCCCTG CTATTTTAGAAGGCAAAGATGTCATGGCGGCGGCACAGACAGGAACAGGT AAAACTGCGGGCTTCACGCTGCCTATTCTTGAACGTCTGGCGAAGGGGCC ACGTGTGCGTGCAAACCACATTCGTGCGCTTATCTTAACGCCGACCCGCG AATTAGCCGCGCAAGTACAAGAAAACGTCTTTATGTACAGCCGCCATTTG GATTTAAACAGTGCAGTGGTGTTTGGTGGTGTGAAAATCAACCCACAAAT GCTGCGCCTGCGTAAAGGTGCTGATGTGTTGGTAGCAACACCAGGCCGCT TGATGGACTTGTACAGCCAAAATGCAGTGAAGTTTGATCAGCTCGAAGTG CTCATACTGGACGAAGCCGACCGCATGTTGGATATGGGTTTCATTCGTGA TATCCGCAAAATTCTGGCTTTGTTGCCTGCAAAACGCCAAAACCTGCTGT TCTCAGCCACGTTTTCTGACGAAATTCGCGAACTGGCAAAAGGCTTGGTG AACAACCCTATCGAGATTTCAGTTAACCCAGCCAACTCAACGGCTCGCAC CGTAGAGCAATGCATCTACCCAGCAGACGTAAAGAAAAAACCAGCGATGC TTGCCAAGCTGATTAAAGACGGTGACTGGCAACAAGTACTGGTGTTTACT CGCACCAAGCATGGCGCAAACCGCCTCGCGGCTTTCCTTACCGATCAAGG CCTGACTGCCGCTGCTATCCACGGCAACAAGAGCCAAGGTGCACGTACCA AAGCGTTGGCGGATTTTAAATCAGGCGAGGTTCGCGTATTGGTAGCAACC GACATCGCCGCACGCGGTATCGACATTCCTCAGCTTCCTCAAGTCGTGAA CTTTGAGCTTCCAAAAGTGGCGGAAGATTACGTACACCGCATTGGCCGTA CTGGCCGCGCCGGTGAAACGGGTAAGGCAATTTCTCTAGTATGTGCGCTC GAAGCGCCTGAATTGTTTGCCATTGAGCGTTTGATTCAAGAACTGCTACC TCGTAAAGCGCTGGAAGGTTACGCACCAACCAACGCAGTACCAGAGTCTA AACTGGATACGCGCCCAATTAAGCCGAAAAAACCGAAGAAGCCAAAGAAA CCGAAAGCACCTAATGCGGAAGCAGCAGGCAGTGATGCGAGCAGCAAAGG CAACCAAAAGGCGAAAGCTGCAGACAAACCTCAAGGGCAAAACCGTGGCA ATGGCAAAGCCAAACGTCAGTTCTCTGCACCAAAAGAAGGTAACAACGAT TCAACCAACAAAGGTAAGAGACCAAATACAAAGGGCTCGAAACCTGCGAA CAACGCGAATGGCAAAACAAACGGCAAGCCAAGTCACGCCAAACCAAACA GCGCGAAAACTGGTAACAGCAAGCCTGCCAATGGCAAGCCATCGGCTCAA CGTCGTAAGCCACGTCCACAAAGCGCTTAA >VV10534 Superfamily II DNA and RNA helicase GTGATCAGAACCTTTGCCGATCTTGATCTTGACCCAAACTTGCTGGCTGC CATCGAAGAGATGGGCTACGAGCGTCCAACTCAAATTCAGGCAGAAGCAA TTCCACAAGCCCTAGAAGGCCGTGATATTCTTGCTTCCGCTCCGACAGGA ACCGGAAAAACCGCCGCATTTGTCTTGCCTGCGCTGCAATACTTGCAAGA TTTTCCACGCCGTAAACCAGGACCAGCACGCGTTCTTATCCTCACGCCAA CCCGTGAGCTAGCGATGCAAGTGGCCGATCAAGCTCGTGCGCTTGCCAAA AATACCAGTTTGAACATTTTCACCATCACAGGTGGTGTTCAATACCAAGA ACATGCGGATATCCTTGCGACCACGCAAGATATCGTGGTAGCGACACCGG GCCGCTTGATGGAATACATCCAAGCAGAGCGCTTTGATTGCCGCGCGATC GAATGGCTGATCCTCGATGAAGCAGACCGCATGCTTGACATGGGCTTTGC TCCGACAGTGGATCGCCTATCTAACGAATGTCGTTGGCGCAAACAGACCA TGCTCTTCTCTGCAACGCTAGAAGGCAAAGGGGTGGAAGGTTTTACCGCG GATCTGCTGAACGATCCTGCGGACATTGATGCTGAGCCTTCGCGCCGCGA GCGTAAAAAAATCACCCAGTGGTATTACCGTGCAGATAACATGGAGCACA AGCTCGCGCTACTGAAAGACATCATCAACAACCAAGCGGAACGTACGATT GTTTTCCTCAAAACACGTGAACGTCTGGCGGATCTACGTGCTCACCTCGA AAGCGAACAAGTCAATTGCGCTTGGATTCAAGGTGAAATGCCGCAAGATC GTCGTAACAACGCGATTGCTCGCTTCCGTGATGGCAGTGTGAATGTACTA CTTGCAACCGATGTCGCAGCTCGTGGTATCGACTTGCCTGACGTGTCACA CGTTGTAAACTTCGACATGCCACGCAGTGCCGATGTTTACCTTCACCGCA TCGGTCGTACCGCTCGCGCAGGTAAGAAAGGCAACGCAATCTCTATTGTA GAAGCCCACGACCAACCAATGATGGATCGCGTTGCTCGCTATGTGAAAGA GGATATTAAAGAGCGCTTTGTCAAAGAGCTTCGCCCTCAACACAAGAAGC CGGTGTTTAAGAAGAAAAAGAAAAAAGACGATAAAAAAACGTCAGTGAAA AAGAAAAGCACCAAAAAGAAAAAGTAA >VV11292 DNA mismatch repair enzyme ATGACGATCCGGATACTACCAGCGCGTTTGGCGAACCAGATAGCGGCTGG TGAAGTGGTTGAACGCCCCGCTTCTGTGGTCAAAGAGTTAGTGGAAAATA GCCTTGACTCAGGGGCAACTAAGATTGACATCGATATCGAGAAAGGCGGC GCAAAGCTGATTCGTATCCGTGATAACGGCTCTGGTATTGTGAAAGATGA GCTGGGCCTTGCGCTAAGTCGACACGCAACGTCAAAAATCCACACCTTGG ACGATCTGGAAGCGATCATGAGTCTTGGGTTTCGTGGAGAAGCGTTAGCC AGTATCAGTTCAGTATCGCGTTTGACCCTTACCTCTCGCCCTGCAACGCA AGAGCAAGCGTGGAGTGCTTATACGGAAGGGCGGGATATGCAGGTAAAAC TGCAGCCTACCGCTCACCCGATTGGTACCACCGTTGAAGTGGTCGACCTG TTTTTTAACACCCCCGCCAGACGCAAATTTCTTCGTACTGAGAAAACCGA ATTTGCTCATATTGATGAGCTGCTAAAACGGATTGCACTCAGCTGCTTTG ATGTGTCGATAACCTTACGCCACAACGGCAAAGTGATCCGCCAATACCGT GCTGCACACAATGATCTTCAGGCAGAAAAACGCTTAGCCACCGTTTGTGG TCAAGCGTTTGTACGTTGCATGCTGAAAATAGAGCTAGAACATCAAGGCC TCAAACTTCACGGTTGGATCACCACGCCAGAAGGGGCTCGCCAGCAAAGT GATCTGCAATATTGTTATGTTAATGGCCGGATGATGCGCGACAAGCTCAT CAATCATGCCATTCGCCAAAGCTATGAGACGAGCTTAAAGCCTGAGCAAT TTGCCGCTTATGTTCTATTCATTGAGTTGGACCCACATCAAGTTGACGTC AACGTTCATCCGGCCAAACATGAAGTGCGATTCCATCAAGCCCGCTTGGT GCATGATTTTATTTATCAAGCGCTTGCAAGTGCGTTGGCGCAAAGTGACA GTATCGAGCAACCGCAAATCAATGAGTCAGCTTTTCATTATCAAGCCGAG CCAGAAGTTGCTCCACAAGGCAGCTTTCCTGCCGAAAGTAATGAGGTTCC ACAAGCGGTTTATCATGCGATTGAAAAAGCGCCAGCCTATCCACGAAAAG CAGGACAAGAGCAACAGTTACAGCCAGTAGCACCTTTGGAAAGCTCGTTT TCTAGTGAACAAGGCCGTGAAGTTTCACCTGCGCCACACAATGAGCGCAA GGCTTGGATGGAGTCACGATCCCCTGCGCGCCATACAACATCTTCAAATC AGAGTGAACGCTATGGCGAGCCAGCACCCAGCAAACAGCAAGTCAAAGCC TATGCTGAGTTACTTCATACCCCGGATTTTCCGTCCCAGAATGTGGAATG TCATCCGTCGCCCTCTATCGCCTCTCCTGTCCAAGAGTTAGGGAAGGCGG TATCTGTGGTGGCGCAACGTTATCTTTTGACGACAACGAAGGCGGGTTGC CAACTGATTTCTCTTGCTCGTGCAGAGTTCTATCGAACCCTTGGGCAACT GAATGGCGATAAAGCGCCATTGAAGTCTCAGCCTTTGTTGGTGCCGCTTT CGCTAAAACTGGAAAAAGGGTTGGTTCATGCCGCGCAAGAGCATCAAGAT CGTTTTGCTCGCATGGGGATCCTCTTCAAAATGCGTAATGAGAAAGCCCT GATGGTGATGGGGGTGCCTGCGCCATTAAGGCAACAAAATTTACAACTTC TTATTCCAGATCTGTTATCTTACGCCGCTTCGCAAGCCCAGAAGGAAGAG CTGGCACAAAATGACACGGCGATGGCGCAGTGGTTGGCGTTGCGTGTGGC AAAAGTGAAAAGCCACTATACACTTTCTGAGGCGATACAAATTATTTCGG AACTCGAACAACTCTGGCAAGAGAAGCTCCCGCTACAGGATTCTCAACTG GTCACGAGTGTCGATTTCTCGGCAACGATTGCACAACTGACATGA >VV10530 Site-specific recombinase XerD ATGCAACAAACGGCATCGGTTAATATGCAAGATTTTGGCTACGTAGAGCA ATTTCTCGATGCGATGTGGATGGAGCGAGGCCTCGCAGAGAATACGTTGG CCTCTTACCGCAACGATCTGATGAAGTTATTGCAGTGGATGGAGGCGAAT CATTATCGGCTCGATTTCATCAGCCTGTCTGGGCTTCAGCAATACCAAAG CTATTTGGTGGATCAAGACTACAAGCAGACTTCAAGAGCACGGATGTTGT CAGCGATTCGTCGTCTGTTTCAATATCTTCATCGAGAAAAAGTGCGCGCC GATGATCCTAGTGCCCTATTGGTCAGCCCTAAATTACCGCAACGTTTGCC AAAAGACATCAGTGAAGAGCAGGTCGATGCGTTATTGGATGCGCCCGATC CGAATGATCCGGTGGAACTGCGTGACAAAGCCATGCTTGAGCTACTGTAT GCCACGGGATTGCGTGTTACCGAGCTGGTGAGTTTAACCATGGAAAACAT CAGCTTGCGTCAAGGTGTGGTGCGGGTGACGGGTAAAGGTGGCAAAGAGC GCTTAGTGCCCATGGGGGAAAATGCCATCGACTGGATCGAAACCTTTATC AAACAAGGTCGTCCGGCGTTATTGGGTGAAACCTCTTCGGATGTGGTGTT TCCAAGTAAGCGTGCCAGACAAATGACCAGACAAACCTTTTGGCATCGCA TCAAGTTCTATGCGGTGATTGCAGGTATCGATACTGATCATTTGTCACCA CACGTTTTGAGGCACGCTTTCGCCACCCATTTATTGAACTATGGGGCCGA TCTCAGGGTCGTACAGATGCTGCTTGGTCATAGTGACTTATCGACCACGC AAATTTATACTCACGTGGCAACAGAACGACTAAAACAGATTCATAGCCAA CATCATCCGCGTGCTTAA >VV20168 FOG: Transposase TTGCAATTAACTACAGCCCTAACACTCGCCAATCGTTATGCCCCCAATAC TGAACAACTTGGAAAACTCAGTGACATTCTTTGCCCTGATTTCATCAACC AATGCTTAGAAGCTTCCGGTGTGGCCACTATTCGTAAACGTCGTATCCCT CTCGACATGGCCGTTTGGGCGGTCGTTGCTATGTCGCTTTACCGACAAGA GCCTTTGTGGTCAATTGTCTCCAAAGCGCAATTAATGTTGCCCGGGAAGC GAAGTCTGGTTGCCCCTAGTGCTATCGTTCAAGCGAGACAACGGCTCGGG GCTGATGCAATGAAAGAAGTATTTCATCAAAGCCAGAGCTTATGGAATGA AACAGCTGACCATCCGACTTGGTGTGGATTAAAACTCCTCGCTGTCGATG GCGTGGTATGGCGAACGCCAGACACTAAGGAAAACCGTGATGCGTTTCAA TCTGCGTCAAATCAGAATGGTGAAGGTAGCTTTCCTCAGGTGCGTATGGT TTGCCAGATGGAGTTGACCAGTCACATGCTGGTCGCCAGTGCTTTCGCGA GTTACAAAACCAATGAGATGATATTGGCAGAACAGCTGATTGAAACAACA CCAGACTACAGCCTCACAATGTTCGACAGAGGTTTTTACTCTCTTAGCCT TCTTCATCGTTGGGCAAATACAGGTAATGAAAGGCATTGGCTAATGCCAA TGCGCAAGAATACCCAATTTACTGAAGTTAGAAAGCTGGGTCGCAATGAT CGGATTGTCGAACTCAAGACAACGCCTCAAGCGAGAAAGAAGTCCCTGTC ACTACCTGAAACCATCGAAGTTCGCCTGATAAAGAAAACTATCAAAGGGA AAGAAGTGAGTATCTTGACCTCGATGACTGATCATCGTCGTTATCCGCCA GCGGAAATAGCAGAGCTTTACAGTCATAGATGGGAAATCGAAGTGGGATA TCGTGAAATGAAGTCTTCACTTCTGAACAACGAGTTCACACTGAGAAGTA AGAAGCCAGAGATGGTAAAACAAGAACTATGGGGCTTATTGCTTAGCTAT AACATTATTAGATATCAGATGGTTAACATGGCTAAAGCTGTGCCTGGCAT CTACCCCAACCAACTGAGCTTCACAACGTGTGCTCACTCTATCATTCACG TAATTTTGGGGTTCTGGTTGGAGTCAGCGGGAACAATCCCTAAGCGCATT ACTCACTTGCAAGAGGAGGCGATACACCATGTCTTGTCCATTAAACGAGA AGAGCGGATATATCCGAGAGCAATAAAACCAAAGGCAAAGAAATACCCCA ATAAAAAAAGCCAGTCAGCTTAA >VV13182 Putative transposase GTGTTTTATGAAGACGAAGTCGACATTCACTTAAACCGCAAAATTGGGTC AGATTGGATGCCCAAAGGTCAACAAAAGAAAGTAGCGACACCGGGACAAA ATGCCAAATACTATCTCGCAGGAACTCTGCATGCCAACACTGGTAAAGTC TCGTATGTCGGAAGTAGCAGTAAAAACTCAGAACTGTTTATTGCGATGCT AGAGTAG >VV13001 DNA polymerase III, delta prime subunit ATGTCGGCACAGCGGTTACCTGGTGCCATCTTGTTGCAATCTGACGTTGA GCTCGGTGTTGACGAGCTTATCGAAAAGTTTTCGGCGGCTTTACTGTGTA AGACTTACCCTGATGAGGGTTGTGGCTTTTGCCATAGTTGCGAGCTGTTA AAGTCGCAAAACCATCCTGATCTTCATTTCATTAGGCCAGAGAAAGAAGG CAAGGCTATTACTGTTGAGCAGATACGCCAATGTAACCGTCAGGCACAAG AATCTTCTCAAATGGGCGGATATCGTTTGTTTGTTATCGAACCTGCGGAG GCGATGAACGAATCGGCTTCAAATGCGTTGTTGAAAACATTGGAAGAGCC GTCTGGGAGCTGCCTATTTTTGTTGATTTGCCACGATAAAAAACGGTTGT TGCCCACTATCATCAGCCGTTGTCAACAGTGGAGCATAACGCCTCCTGAG GTCTCGGTGTCTATGCAATGGTTGCAACAACAAGGGGTTAGCGTGAATGA GTCCTTTCTGAAACTGGCTCATTACTCGCCCGTGACGGCAATGCACATGG CAAAAGAATCAGAGTTTCAACACTATGAAAAACTCGAAAGACAGTTTGTG GATTTCTTAATTCAGGCGGATTCTGACTACGTGTCACTGTGTCAGACAGT TCAAGCCGCGACGTTACGTAATCTCTCGTGGTTGTGGTTACTGCTTTCTG ATGCGCAGAAGGTTCATTTTGGCTTGCAAAATGAAGAAACATTGCAAGGT AGTCACGCGCTAGGGCAACTGCCTTTGAGCGGATTACAGACCTCAATGGT AAAACTCAATCAATTAAATCAACAGTTACATCAGTTTTCGGGTTTAAACG AAGAACTGATGATCATCAACTGGTTAATCGAAACTAGAGAGGCATTATGT TTGTAG >VV10420 Exonuclease VII, large subunit TTGTCTTCTCTGACCAATCCAAACATCTTCACCGTTTCACGTTTAAATTC TGAAGTTCGTTTATTGCTTGAAAACCAATTAGGCATTGTTTGGTTAGTGG GAGAGATTTCTAACTTCTCTGCACCGGTTTCTGGTCACTGGTACTTCACC CTTAAAGATTCAATGGCACAAGTAAAATGCGCCATGTTTAGAGGGAATAA CCGCCTCGTTTCTTTTAAGCCCACCAATGGTAATCAAGTGTTGGTCAAAG CACGTCTTTCGTTGTACGAGCCACGTGGTGATTATCAGTTGATCATCGAA AGCATGCAGCCAGAAGGCGATGGTCGTCTGCAACAGCAATTTGATGCGTT AAAAATGAAACTGGCCAGCGAAGGGCTTTTCGCCCAATCCAGCAAACAGG CCATTCCAGAGCACCCGAAGTGTGTAGGCATTATCACCTCGAAGACAGGT GCAGCGCTTTATGACATTCTCGATGTACTGAAACGCCGAGATCCTTCTCT TCCTGTGGTCATTTATCCGACTCTGGTGCAAGGAGAAGAGGCCGCCATTC AAATCGCTCAAGCGATTGGTCGAGCAAACAGCCGTAACGAATGTGATGTC TTAATTGTCGGTCGTGGCGGTGGCTCATTGGAAGATCTTTGGTGCTTTAA CAATGAAATTGTCGCCCGCACTATTGCTGCCAGCCAAATCCCAATTATCT CTGCGGTTGGCCACGAGATTGATGTGACGATCGCAGACTTTGTTGCAGAT TTACGCGCACCAACGCCATCCGCAGCAGCAGAACTGGTTAGCCGTGATAA CAGCCACAAAGATCAAGCCTTAATGAGCCGTGAGCAAAAACTGCGCGCAG CATGGCGTCATTACCTCACCGAGCAAAATCGCACCATAGTCTCGCTGAGC CATCGACTAGAGAAACAGCATCCTCGCTATCGCTTGATGCGTCAGACTCA GCAAGCTGATGAGTTGCAGATCCGCTTACAACGAGCTATGGAAAAGTATC TGGCACAACGAGAACAAAAGGTATCTCGTGTTCAGCACAAACTGCAGTTG CTTTCACCTGTTCGTCAAATCAGTGAACAAAAAAATGCGCTTGCACGAGT GGAACAGAAGATGATGGATGCAATGGACCGCAAGCTGCTAAGGTTGCGCC ACCAGATCGCGATCGCGGCGGAGAAACTCGACACTGTAAGCCCCTTGGCG ACACTGAAACGAGGCTACTCCATTACGCAAAGTGAATCAGGTGACGTGAT TACGCGTCAATCACAAATTAAAACGGGCGACACTTTGGTCACCCGCTTAT CCGATGGTGAAATACGCTCTACCGTGAACTAA >VV11052 DNA topoisomerase I-related protein ATGAGTAGTAAAATTGATCGCACTTTGTTTTCCGCTCACGAGCACGCGCT TGAGCATACGCCTTGTCCGCAATGTGGTGGAGAGTTGGTGTTAAAACACG GTAAGCATGGCGCGTTTTTGGGGTGTAATCAGTACCCACAGTGTGATTAC GTCAAGCCCCTTCATCAAAATGATGGCCATATCGTCAAAGAATTGGGGGT TGCTTGCCCTGAATGTGGTAACGAGTTGGTGCTTCGTCAAGGGCGTTACG GTATGTTTGTCGGGTGCAGCCATTACCCACACTGCCATCACATTGAACCA ATCAATCAGCCTGAACCTGAGCAGAATTCCAAAGCGTTGTTTGCTTGCCC TGAGTGTGGCAAAGGACACTTAGTTGAGCGTAAAACTCGCTTTGGTAAAA CCTTCTATGCCTGTGATAACTATCCGAAGTGTAAGTTTGCGGTGAACTTA CCGCCAGTCAAAGGGCATTGTGAAACATGCGGTTTTCCCTTGTTGGTCGA GAAGAAACTCGCCAGTGGTGTGAAGCTACAATGCGCAAGCCGCAAATGCC AGCATACTCAATCGCGTTGA >VV13055 DNA polymerase elongation subunit TTGACCATCACTCACGGTTTTGTCTTAACTCGACATGCACGCGATCGCTT TTCAGGCACTCAAATTGAACTGTGGCTCTCGACAGAAGATGGGCCGCACC AATTGCTTATTGATGGCGAAAAACCGGTGTTTTTCATCGATGATACTCAG CGTGAAGATGCCCAACGCTTAGCAAGTGAACACCATCCCGATGTTAAAGT GGAATTCAAACCTCTTCCATTGAAAGACTTCTCACACACCCCTATGGCAG CGTGTTACTGTCAAACCAATCGAGATGCTTATACCCTCTCATCATTACTT ACTCAACACGACATTACGGTGTTGGAGTCAGACATTCGCCTTGCCGATCG CTACTTAATGGAACGCTTTATCCGCGGATCTTTGGCGTTTACTGGTACTT TTAAAACGCAAAATGCCCATGTTCAAGTCACCAATGCCAAGTGTCGGCAA GGGGATTACACGCCAACGCTTAAAATGGTTTCACTCGATTTAGAGTGTTC AGAAAAAGGGATTCTTTATTCCATCGGTTTAGATAGCCCGATGGATAGCC GAGTGATCATGATTGGTGAGCCCGAAGCGGCCGACACACCCATTCAGTGG GTCCAAGATGAAAAACAATTACTGCTTGCTTTGATTGCTTGGTTTGAGCA ATTTGACCCAGATGTTATCGTCGGCTGGAATGTCATTGATTTTGACTTTC GATTACTGCAAAAGCGCGCAGAGTGGCATCAGTTGAAACTGACTCTCGGC CGAGGCAACCAAACTAGCTATTTCCGCTCATCGAGCCAAAGCCAACAGGC ATTTATTACCATTCCCGGCCGCGTTGTCCTAGATGGCATTGATACCTTAA AAACCGCCACCTACCACTTTCGTTCTTGGTCGTTGGAGTCGGTTTCACGA GAACTATTGGGCGAAGGTAAAGCGATTCACAATGTGCACGATCGCATGGC CGAAATTAATCACATGTTTCGCCACGACAAGCCTTCCCTCGCGAAATACA ACTTACAAGATTGCGTCTTGGTCAATCGTATTTTCGCTCACACTCATCTG CTCGAGTACGTGATTGAACGGTCTAAATTAACGGGCGTCGAACTGGATCG TGTCGGGGGCTCTGTGGCGGCCTTTACCAACCTCTACCTACCGCAATTGC ATCGCGCAGGTTACATTGCGCCCAATTTACAGCCTGAGAATTGGGTTGCG AGCCCTGGTGGTTACGTTATGGACTCGCTGCCCGGACTTTACGATTCTGT TTTAGTGCTCGATTTTAAGAGTCTTTATCCATCGATTATTCGATCGTTTC TGATCGACCCACTTGGGTTAGTTGAAGGGCTTAAATTAGAAAGTGGCAAA GCGCCACACCAAGCCGTTCCGGGCTTTCGTGGTGGCCAGTTTCATCGCAC TAAGCACTTTCTGCCCGAGATGATCGAGACATTGTGGCATGCTCGAGATG TCGCGAAACGCAACAACGACAAAGCCTTCTCTCAAGCAATTAAGATCATC ATGAACTCATTTTATGGGGTACTTGGCTCATCGGGCTGCCGTTTTTTTGA TACTCGGTTGGCCTCAAGCATCACGATGCGCGGGCATGAGATCATGAAGC AGACAAAATTGCTGATTGAACAGCAGGGCTATCAAGTCATTTATGGTGAC ACGGACTCAACCTTTGTTTCGCTCAATGGTCGTTTCGAGCAGCCAGAAGC CGATGCAATTGGTCGCCAATTGGTTAGCCTGATTAACCAATGGTGGAAGC AACATCTTGAGCAAGAGTTCAATTTAAACTCCATCCTTGAACTTGAATAC GAAACCCACTATCGCAAATTTTTGATGCCAACCATCCGTGGCGCCGAAAC AGGCTCGAAGAAACGGTATGCAGGATTGATTCAACAAGGCAGCGAAGAGA GAATCGTATTTAAAGGCTTAGAAAGTGCGAGAACGGACTGGACGCCATTG GCACAACGTTTCCAGCACCAACTCTATATGATGATCTTTCACGACCAAGA TCCGACTGACTATGTGCGTGAGATGGTTGAACAAACTCGAGCGGGGGCAT TTGATGATGAGCTGGTCTATCAAAAACGCTTACGCAGAAAACTCAGTGAC TATCAGAAAAACGTTCCGCCTCAAGTTCGGGCGGCAAGAATGGCCGACGA AATCAATGCGCGCTTAGGGCGACCACTTCAATATCAAAATCGAGCACGTA TTGAGTATCTCATTACGCTCAATGGGCCAGAACCCAAGGAATACCAATCC AGCGCGATCGATTACCAACATTATGTCGATAAACAGCTCAAACCGGTTGC CGATGCCATTCTACCTTTTATTGGTAAAGACTTTAGCCAGTTAGCCGATG CGCAATTAGGTCTTTTCTAA >VV20079 DNA repair exonuclease ATGAAGTTCATCCATACCTCAGATTGGCATCTCGGACGCCAGTTTCACAA CGTTTCACTCCTTGATGATCAACGCGTCGTGCTCGACCAGTTAGTCAATT ATATTCGAAATCATCCCGTTGATGCCGTTGTTGTTGCTGGCGATATTTTT GATCGCTCGGTGCCTCCTACTGCGGCCATCGAATTGCTCGGCAAAACGAT TGATGAAATTTGTGGTGAGCTTGATACACCGATGATCCTGATTCCAGGCA ACCATGATGGTGCTGCGCGTTTGGGCTTTGGTGCCTCGCAAATGAAACCC TCAGGGCTGCATATCATTAGCCAGTTCTCACAAATGATCGAACCGGTTGT GCTTAAAAGTGAGAGGGCGGGCGAGGTGGCATTTTATGGCATGCCTTACA GCGATCCTGAACAAGTACGCGACGCATTTGGCGTGCTGGTGAGCAATTAT GATGAGGCGCATCGCGTCTTGGTTGATGAAATTCGCCAGCATTTTGATCC CAAACAGCGTCAAGTGCTATTGAGCCACTGTTTTGTCGATGGGGCGCAGA GCAGTGAGTCGGAGCGTCCACTTTCCATCGGTGGATCTGACCGCGTTAGC TATGAGCATTTTTCCATTTTTGATTACGTCGCCTTAGGGCACCTGCACCA ACCACAAAAGCGAGTGGAAGAACACATTCGTTATAGTGGTTCATTGATGA AATACAGTTTTTCTGAGCAGTTCCAGAAAAAAGGATTCATGTTAGTGGAG TTGGATGAAAACGGTTTTGTCTGCGCAGAGCATATTGCGCTCGATGCCCC TCATGACATGCGGGTGATTGAGGGCGAAATGAACGATATTCTCGAACAAG GTAAGCAAGATCCCAATTATCAGGACTATTTGCTTGTTCGCTTGCACGAC AAACATGCCATTTTAAACCCGATGGAAAAGTTACGAGCGGTCTATCCCAA TGTTCTTCATTTAGAAAAACCAGGGATGTTAATGAACGTAGAGCAAGGGT TATCGCAAGCTAAATTGGCTCGTAGCGAAGTTGACATGTTTCGTGATTTC TTTGCACAAGCGCAGGACAACCCACTGAGCGAAACGCAAGATGCCGCGAT TTGCCAGCTCATTCAACAATTGACCAAGTCTTAG >VV10170 SeqA protein ATGAAAACAATTGAGGTTGATGAGGATCTATACCGTTACATTGCTAGTCA AACCCAACATATTGGCGAAAGTGCATCGGATATTTTGCGCCGCTTATTGA ATGTGGATGGACGTCAGACTGTTGCCCCTATTACGATAGAACCGAAAGGC ATCGTAGTAAGCAAAGATGCAGGCAAAGACACTCAACTTGATGGCGTAAA AGAGATGCGCTCACTATTAATTTCGGATGAGTTTGCCTCATTAAAGAAAG CCATCGATCGATTTATGCTTGTGCTGAGCACGCTACATCGAATCAACCCT GAGTCGTTTGCTCAAGCGACAAAAGTGAAAGGTCGTAAGCGTGTTTATTT CGCCGACAATGAGGCGACATTGCTAGAAAATGGTAATACGACGAAACCAA AATCCATTCCAGGCACGGGTTTTTGGGTCATCACTAATAACAATACCAGC CGTAAGAGGCAAATGGTGGAGCAAGTGATGGTGCATATGGAATTCCAGCC TGATTTAATTGAAAAAGTAACAGGTTCAATTTAA >VV12451 Transposase and inactivated derivatives ATGAGATACACGCACCTCACTGAGAACGAAAGGTATATGATTTCTGCGCT CAGAAAGCAAGGAATTAGTACCGCTAAAATAGCTAAACAACTAGGTCGTC ACAAAGCTACTATCTATCGAGAAATTGAACGTAATTCCCGATACAACAGA CACTTTAGAAGGTTCTCCTATCAAGCATGGAGAGCCCAACAGATGGCTCG CAACCGGCTAAGCCGCTCGCGCAGAAACAAGCGCTATAGCGAAATCGACT TCAGGTTACCTGAAGCCTTGCTACGACTGGATTGGAGCCCTGACCAAATC GTCGGATACCTAAGGGTAAGAGGCTATCCAACAATGAGCCACGAGCTCAT TTATCAGCATATTTGGAACGACAAAACTCTCGGTGGAACACTATGGAAAC ATCTACGCCAATCGACCAAGAAAAGGCGCAAAAGATATAACTCAAAAGAC AGCCGAGGTCGGCTGGCAGCAAAGCGTCATATTACCGAAAGACCTGCAAA AGCTGAGCATCGAAATGAGCCTGGCCATTGGGAAATTGATACCGTCGTTG GCCGCGGAACCAAGCACTGTATCGTAACTTTAGTCGACAGAATGACTGGC TACACTTTTATAGGGCAAATGGACGATAGAACAAGCGAGTCGCTCAACGT AAGAATGAGCAAAATCATGACCCGCTCTGACTTACCTTTTAAGACGATAA CTGCGGATAACGGCACTGAATTTCATGGTTATGCACAACTGGAAAAACAT CATAACTGTCTGTTTTACTTTGCAAATCCATACCATTCATGGGAGCGAGG GACTAATGAAAACACCAATGGTTTGATACGACAATACTTACCAAAACGAA CTTCTATGTCACACGTAACACAGAAGCTCTGCAATGAAATTGCACACAAA TTAAATACGCGCCCACGCAAAAGACTTGGGTATAGGACACCAACGGAGTA TATTCATGCGCATCTGTAA >VV21546 ATP-dependent RNA helicase, DEAD box family GTGGAGAAACCTTTGCAATTTAAAGATTTAGGCTTAGATAATCGCCTACT GAAGAACCTAAAGCACTTAGATTTTCAGAAAGCGACGAAAATTCAACAGC AAGCGATTCCAGTTGCGATTGCTGGTAAAGATTTGCTGGCATCCTCAAAA ACAGGTTCTGGCAAAACGCTGGCGTTTGTTTTGCCTATGCTTCATAAGTC TTTAAAAACAAAAGCATTGTCAGCGCGTGACCCGCGTGGTGTGATCCTTG CGCCTACTCGTGAACTTGCAAAACAAGTGTATGGCGAGCTTCGTACCATG CTGGGCGGCCTTTCCTACGACGCAACCTTGATCGTGGGTGGTGAGAACTT CAACGATCAGGTAAAAGCGCTGGCACGCTATCCTAAATTCATTGTCGCGA CTCCAGGACGTCTTGCGGATCACTTAGAGCACAAATCTGTGTTCTTAGAA GGTCTTGAGACTTTGGTACTAGACGAAGCGGACCGTATGCTCGATTTGGG CTTTGCACCAGAGTTACGTCGTATCCACAACGCAGCGAAGCACCGTCGTC GTCAAACGTTAATGTTCTCTGCTACGTTGGATCACGCAGAAGTGAACGAT ATCGCATCAGAAATGCTGGATGCACCGAAGCGTATCGCTATCGGTGTGTC GAATGAAGAGCACAAAGACATCACTCAACGTTTCTACTTGTGTGATCACT TAGATCACAAAGAAGCGCTTCTAGAGCGCGTGTTGAGCGAAGCAGAATAC CGTCAGGTGATCATTTTCACGGCGACACGTTCGGATACCGATCGTCTGAC TGAAAAACTGAATGAGAAAAAGCTGAAAGCGATCGCGCTAAGCGGCAGTT TGAATCAAAACCAGCGCAATACCATCATGAGTCAGTTTGAACGTACCGTG TTCAAAATCTTGGTGACGACGGATGTGGCATCGCGTGGTTTGGATATTTC AACCGTGACGCACGTAATCAACTTTGATATGCCAAAGCATACGGAAGAGT ATGTACACCGTATTGGTCGTACTGGCCGTGCTGGTAACAAAGGTGATGCG ATCTCCTTGGTCGGCCCCAAAGACTGGGATAGCTTTAAACGTGTAGAAGC TTACCTTCAGCAAGACATCGCTTTCTCTGAATTTGATGATCTTAAGGGCA AGTTCAAAGGCATCAAACATCGTAAACCCGATTTCCGTGCTAAGAAACAA GCTACAACGAAGAAAGCACGCCCACAGAAGAAGGCTGTGTCGAAAGCACC TGCGAAGCGCGATAAGAGCTTCTACCAAAATGTGGCAGTGGGTGATTCAG TGTTTATTCCTAAGAAAAAACCTGCCGCACCAACGGAAGAGTAA >VV10122 Site-specific recombinase XerD ATGGATTTTTCTGCCCCCGACCAAGAAATAAAAACAAACCAAGCTTCAAC TGATCCAATTGATCAGTTTCTTACCTGGAAGAGAGATAGTGAGAACTGCA GCGCTAAAACGGTGCGCAAATATCGTGGCTTGCTTGAGCAGCTAAAGAAG TTTGTTGATGGCCAATTTGACAAGGTTGAACTGAAAGATTTGGAGCAGTT TTCCGGTGGTTGGCTGCATCGAGCTGGCTATTCTGCTGCGTCACGAAAGG TGGCCGTTGCGGCTATTCGAGGCTTTTACTCTTTTCTTGCTAAGCGGCGC CTTGTCGCTAAAAACCCTGCATCGGATTTGGTTTACCCTAAAATTGGGCG CAGATTACCGCGATTTATGGGGCTCAAAAGTGCAGAGGCGTTGTTGTTCC AACCTGAGTTAACATCGCTTTCTGGTGTTCGAGATAGTGCGATGCTGTCT TTGCTGATTGGCTGCGGTTTTCGTGTAGCGGGCCTATGCGGTTTGAATGA GTCACAGCTTATTTGGTATCAGTATGGTGAGGTTGAACGTCTGGCCATTC GCACCATGGAAAAAGGGGAGCGTGAGAGATTGGTACCCGTTCCCCTTGAA GCTATGCTGCTTGTTCAGGCTTATCTTGGCCATCCCGACCTTAAGCATGT TGATCGTCTGCTTGATGATGGTGACCAGGTACTGTTTGTTAATCTTCGTA ACCGTCACGTTCCGGAATGGGAGCACCGTGGAGAACTGCGGCGCTTATCA ACTAGAGCTGTTGACCGGATGATAAAGAAATATGCGATCGCCGCGGGAGT TCCGGAAGACCAAGCCCATGCTCATGCACTACGTCACTTGTTTGGTACAG AGTTAGCGGAGTCGGATTCCAGCACTCTGCAGATTCAAGCATTGATGGGG CATGCGGACCCTAAAACGTCAGAGATTTACACGCATATCTCGATGCGTAA GATGACGAACGTACTGGATAAAGGGAACCCATTAGGGAAAATTGATACGC CAGTTAGTGCCTTGTTGAATGAGCTTAGAAAAGGGAAACGCCTATGA >VV20755 Predicted endonuclease containing a URI domain ATGCACCAACAAGGCAAAGGGGCAAAAGCGCTGAAAGGCAAAGGCCCATT AGAATTGGTTTGGAGTGTACCTGTGGGCAGCAAAAGTATGGCACTGAAAC TAGAGCGCCACATCAAAACTTTGCGCAAACAAGATAAAGAGCGCCTAGTA AAAGGTGATCTATTACTGCAATTAGATAAATTTTGCGATTGA >VV10901 DNA polymerase I ATGGCCACTATTCCTGAAAATCCATTAATTCTTATTGATGGCTCTTCTTA CCTCTATCGAGCGTTTCATGCCTATCCTGGCACCATGAGTAATGGTGATA TCCCAACCAATGCGGTCTACGGTGTGGTGAACATGCTGCGCAGCATGATG CGTCAGTTTGCTTCTGATCGTATTGCGGTGGTGTTTGACGCCAAAGGCAA AACCTTTCGCGACGATATGTATCCGGAATATAAGGCCAACCGACCACCAA TGCCGGACGATCTGCGTTGCCAAATAGAACCTCTTCATCAAGTTATTAAA GCAATGGGGCTTCCCTTGATTGCTATTGAAGGTGTTGAAGCGGACGATGT GATTGGTACGCTGGCCTATCAAGCTTCTCAACAAGGGATGCCGGTGCTGA TCAGTACCGGTGATAAAGATATGGCTCAGTTAGTGGACGACAACATTACC CTAATCAACACCATGACCAATGTCGTGATGGACAGAGAAGGGGTCATTGA GAAATTCGGTATTCCACCTGAACTGATCATCGATTATCTCGCGTTAATGG GTGACAAGGTCGATAACATTCCTGGCGTGCCTGGTGTGGGTGATAAAACC GCCACAGCTCTGCTGCAAGGTATTGGTGGTCTTAGTCAGTTGTACGACCA TTTGGATGACATTGCGGCACTGAGCTTCCGCGGCTCAAAAACCATGGCGA AGAAGCTGGTGGACAACAAAGACAATGCGTTGCTGTCTTATCAGCTAGCG ACGATCAAGCTTGATGTTGCATTGCAAGAAACGCCAGAATCCCTTTTAAA AACAGAGCCAAATAAAGATGAGCTGATCAAGCTCTATGGCCAACTGGCCT TTAAATCTTGGCTCAATGAGCTACTAGAAGGTGGCACTGGTGTTGTTGAA GCGGATGAAAAAGCACAAACCTCGGTACGCAGTGGCGCATCTCCGGTTGA AAGTGAAATCAACAATGCTGCGGCGAATATTGACCGTAGCCAATATCAAA CCATCTTCGACCAAGCGACATTCGACATTTGGTTGGACAAGCTGAAAGCG TCAGAGCTGTTTGCCTTCGATACCGAAACGGACAGCCTTGATTACATGGT CGCTAACTTAGTGGGCCTGTCATTTGCTGTGGCAGAAGGTGAAGCTGCCT ATGTGCCTGTCGCACACGATTATCTGGATGCTCCGGAGCAACTTGATCGC GATTGGGTGCTGGCTCAACTTAAGCCACTGCTGGAAGATGATACGAAGGC AAAAGTTGGCCAAAACTTGAAGTACGATGCCTCAGTGCTGGCTCGCTATG GTATTGAGATGAAGGGCATCAAGCACGACACCATGCTGGCTTCTTATGTG TACAACAGCGTGGGCGGCAAGCACGACATGGATAGCTTGGCACTGCGCTT CCTACAGCACAGTTGTATTTCGTTTGAGCAATTGGCTGGCAAAGGCAAGA ATCAGCTGACTTTCAATCAAATTGATCTGAATGAAGCTGCGGTTTATGCC GCCGAAGACGCGGATGTCACCTTGCGTTTGCACAACCGCTTGTTTGCCAA TATTGAACAAGATGAGAAACTCAACGCCATCTATCAAGAGATTGAAGTGC CATTAGTGCCAGTGTTATCACGTATGGAACGGACTGGTGTGTTGATTGAT GACATGAAACTGTCTGCGCAATCTCAAGAGATCGCTGTGCGCTTGGGAGA GTTAGAGCAAAAAGCGTATGAAATCGCAGGCCAGCCATTCAATATGAACT CGCCAAAGCAGCTGCAAACCATCTTGTTTGAGCAAATGGGTTTACCTGTT ATCAAGAAAACGCCTTCAGGTACCCCTTCTACAGCAGAAGAAGTGTTGCA AGAACTCGCGTTGGATTACCCACTGCCGAGCGTCATTATGGAGTACCGTG GCTTAGCGAAGTTGAAATCGACTTACACCGATAAGCTGCCGAAAATGATT AACCCACACACAGGGCGCGTGCATACGTCTTACCATCAAGCCGTGACGGC TACTGGTCGTTTATCGTCAACCGATCCAAACTTGCAAAATATTCCAATTC GTAATGAAGAAGGACGCCGTATTCGCCAAGCGTTCGTTGCGCCACATGGC TATAAAATTCTTGCGGTCGACTATTCACAGATTGAATTGCGTATTATGGC GCACTTGTCTGGTGACCAAGCACTGCTTGACGCCTTCCAGCAAGGCAAAG ATATCCATGCGGCAACCGCGGCAGAAATCATGGGCGTGTCGATTGAACAA GTCTCCAGTGAGCAGCGTCGTCGAGCCAAAGCCGTCAACTTTGGTCTTAT CTATGGCATGAGTGCGTTTGGTTTAGCGAAACAGCTTGGAATTCCGCGTG GTGAAGCACAAGCTTATATGGATAAATATTTCGAGCGCTACCCTGGTGTC ATGCAGTACATGGAAGACACACGTTCAAATGCCGCTCAACATGGTTATGT TGAAACCATTTTTGGTCGTCGTTTGCATCTACCGGAAATTACCTCTCGCA ATGTGATGCGTCGTAAAGCAGCAGAACGTGCGGCGATCAACGCTCCAATG CAGGGCACTGCAGCAGACATCATCAAGAAAGCGATGTTGTTGGTGGATCA GTGGATTCAAGAGGAAGGCAATGGTCGAGTCAAATTACTGATGCAAGTAC ACGATGAACTGGTGTTTGAAGTGGAAGAGTCCTGTTTGACCGAAATTGAA AGTAAAGTACAACAATTGATGGAATCTGCAGCACAGTTAAATGTTCCTTT GGTGGCGGAAGCTGGCCATGGTGACAACTGGGATCAAGCGCATTAA >VV10968 Transposase and inactivated derivatives ATGCGATTGCTCGCATTGGCCCATTTTAAAGATGGTCACTCTCGAACCCA ACTTGCTAAGTTCCTTAAGGTAAGCAGAACCAGTGTGAATAAATGGGTAC AAACCTTCCTTGAAGAAGGGCTTGAAGGACTGCAAGAGAAACCAAGAACG GGTCGCCCTGCATTTCTTAACGCGGAGCAGCGAGAACAATTAAGTCAGTA TATAAAAGCTCGAGCGATGGATTCGTCTGGCGGTCGATTAACTGGTAACG ATATTCATGCTTATATCGTTAATGAATTTGGCAAACACTACCACCCAGAT TCGATCTACTACTTGCTCAACCATATGGGCTTTTCTTGGATAACTTCACG CTCCAAGCGCCCTCGTCAATCCCAGCAAATCCAAGACGATTTAAAAAAAA TTCAAAATTGA >VV12159 Holliday junction DNA helicase RuvA GTGATCGGACGTCTTCGCGGCATTCTGCTGGAAAAACAACCCCCTGAATT GTTGATTGAAGTTAATGGCATTGGCTATGAAGTTCAGATGCCAATGAGTT GTTTCTACGAGCTTCCTAACATTGGGGAAGAAGCCATTATCTATACTCAT TTTGTGGTGCGTGAAGATGCTCAGTTACTTTATGGATTCAATACCGTGAA AGAACGAGCGCTGTTTAGAGAGGTCATCAAAGCCAATGGGGTTGGACCAA AACTGGGTTTGGCCATTTTATCAGGCATGACGGCAAGCCAGTTTGTGGCG TCGGTAGAAAGAGAAGACATTTCCACGCTGGTGAAATTACCGGGCGTTGG CAAGAAGACCGCAGAACGTCTTGTGGTTGAGATGAAAGATCGTTTGAAAG GTTGGAGCGCTGGCGATCTGTTCACGCCGTTTACCGATGCGGCGCCAGTC GATTCAGGCAGCACAAGCAGTAACAGTGCAGAAGAAGAAGCGGTCAGTGC ACTCTTGGCGTTGGGATATAAGCCTGTTCAGGCATCAAAAGTAGTATCGC AGATTGCTAAACCGGATATGACCAGCGAACAGTTGATCCGTGAAGCGCTC AAGTCCATGGTCTAA >VV10386 Putative transposase ATGACAGGTGAAGCTATGACCAAGCGTACCAGACGCACTTTCAGTGCAGA ATTTAAACTCGAAGCAGCACAGCTTGTGCTCGACCAAAACTACACCGTTG TTGAAGCTGCAAAAGCCATGGGTGTCGGTAAATCGACAATGGACAAGTGG GTAAGGCAGCTTAAGCAAGAAAGAAAGGGAGTCACTCCCCAAGCCGCACC TATGACACCAGAGCAAATTGAGATACGTGAGCTGAAGAAGAAACTTGCAC GCCTTGAAGAGCACAATGAAATATTAAAAAAGCTACAGCTCTCTTGA >VV12005 Recombinational DNA repair protein ATGCGTACCAGCCATATGCTGGAACAATTGATGGAGGCCTTACGTTGTTT GCCTGGGGTTGGCCCCAAGTCAGCACAGCGTATGGCCTTTCATTTGTTAC AGCGAGATAGAAAAGGCGGCCTGCAGCTTGCGGATGCATTAAGTCATGCC ATGACGGAAATTGGTCACTGTAACGAGTGCCGTACTTTTACCGAAGAAGA CGTTTGTCATATCTGCAACAACCCAAAACGCCAAGAAAACGGATTATTGT GTGTGGTCGAAAGCCCTGCCGATATCGCTGCGGTGGAAGCCACAGGACAA TTCTCTGGTCGTTACTTTGTGTTGATGGGGCACCTATCACCGCTTGATGG TATTGGACCTAGTGATATTGGCCTCGATGTCCTCGATTATCGTCTGCGTC GCGGTGATATCAAAGAAGTGATCTTAGCGACCAACCCTACCGTGGAAGGT GAAGCGACTGCGCACTACATCGCTGAACTTTGTCGAGAGCATAAAGTGGA CGCCAGTCGAATTGCTCATGGTGTGCCCGTCGGTGGGGAGCTTGAGCTGG TGGATGGCACTACGCTCTCCCATTCGTTATTGGGCAGACACAAACTCAAC TAA >VV20054 NTP pyrophosphohydrolase ATGAGCACCGTCATACATAAATGGAAAAACATCGCCCTAATAGAAGAAGA GGTGCTACTCCCGACCGGACATGCCATCGCGCACACAACGATTCAACACC CGGGCGCCTCTGTCATCCTTCCCGTCACGGAAGAGGGCAACATCATACTG ATTAATCAATTTCGTCCTTCCCTAAAAAAATGGTTACTAGAACTCCCTGC TGGCACCAAAGAACAAGGTGAAGATCCTCAACACTGTGCAGAACGTGAGC TGGAAGAAGAAACCGGCTACAGCGCAGAGGAGTTTATCTCGTTAGGCCAA GTCACACCGCTTGCGGGATTTTGCGACGAAATTCAATATTTGTTTGTGGC CAAGAAACTGACACAAACCAATCGCTATCAATGCGATGAAGATGAAGTGA TTCAAGTGGTCAGCTTATCCCTTGAACAACTCGAAGAAAAAATAAGAGAT GGCAGCATTAGCGACGCCAAAACCATTGCTTGCTTAAGCAAAGCCAAGCT TTGCGGCTATATATAG >VV12235 ISSod7 ATGTCTATCCAAAACTATTTTGCTGACTTTCTTGAAGAGAGTCCTGTTGA TGTCGCTCAGCTCACCACTTTCTCTGAGCATATTCCTGATGAGTGGGTTG CTAAAGCGGCAACACTTTCCGATAAAGCGACAATTCGTCGACGTCGTTTA CCTAGTGATATGGTTCTTTGGCTTATTGTTGGAATGGCGTTTTTCCGCAA TGAGTCTATTGCAGAAGTCGCACGGCGAATGAATGTCTGTGCCGAGGGCT TAGCCGATGAGGAACTGCTAGCTAAAAGTGCTTTAACGCAAGCAAGGCAA CGCCTTGGTAAAGCTGCTCCAGAATGGTTGTTTAGACAATGCAGTCACAC ATGGGGTCTAGAGCGTTACCCCGAGGATACTTGGCAAGGCTTACAAGTCT TCGCTATTGATGGGGCTCTTTTTCGAACCGCTGATACATCAGAACTAAGA GAACATTTTGGGTCAGGTAATACATCCAGCGAGAGGCAGACACCTCATCC AGTACTCAGGGTGGTGACCATGATGAATGTTCGCTCACATGTCATTGTAG ACGCAGCTATAAGCCCCTATCGTCGTGGTGAAATACCGCTTGCAATGCCC TTTATTGACTCTCTACCTGATAACTCATTGACTTTACTAGATAAGAGGTT TTATGGCGCAGACTTACTTCTTTCTCTCCAAAATAGTGGCTCCAACAGGC ATTGGTTGTTACCAGCGAAGAAAGGGGTGAAATTCAGACTTCTGGACGAT GAAGAGAGCGACGACATGTTGGTAGAAATGAAAGTCTCTCCACAGGCTCG CAAGAAAAATCCTAACCTACCTGAAAAATGGCAAGTCAGAGCCGTTACTT ATCAAGTACAAGGTAAGCACAAAACAGTGTTTACGTCTTTGCCTAGGGAA GAGTACGATGCGGAATCAGTAGCCGAGCTTTACCATGAGAGATGGGAAAT TGAGTTAGGGTACAGAGACATAAAAAGTTCGATGCAGCACAACGCGTTAG TGCTGAGGAGTAAGACGGTCGAGCTTGTCTATCAAGAGTTATGGGGGCTG TTGCTTGGTTATAACTTGGTAAGACGAGAAGCCAGTCAAGCGGCCGTAGC ACATGGTCGAATGGCCAATGAAATCAGTTTTAAATACGCTTGTCAGTTCA TCGCTAGTCAACTGAAAGTAATGAGCAAAGCGGTATCTCCAGGTAATACA CCGAAGCGTCTAAAAAGTCTGCGCGGAGACTTATCCATCCTTTTTATAGA CAAACGCCCTAAGCCAAATCGGCCTAGGGCGGTAAAAATATCAAAGACCC GATATCCTGTTAATCGCAAGGCAGCTCCTCTTAAGTGA >VV11392 Replicative DNA helicase TTGTCAGATGGGCAACAAACTCTGCATGCGGAGGCGCGCATCTTAAACCA TTTTGAGTATAATGACGCTAAATATAAGTTACAGAGTGTAGTCATGGCGG ATAATCGAAAACGCAAAATTCCGGATAGCCAAGTAGATGCAATAAAAGTT CCTCCTCATTCCTTAGAAGCTGAGCAATCGGTGCTTGGTGGTTTGTTATT GGATAATGAACGTTGGGATACGGTTGCTGAGCGTGTGGTCAGCAAGGATT TTTATAGTCGTCCCCACCGTTTGATTTTCGATGCCATTAAAAGCATTTTG GAAGAGAACAAGCCGCTGGATCTGATTACCCTGTCCGAGCATTTAGAACG CCGTGAGCAGTTGGAAGATGTCGGTGGTTTTGCGTACCTTGCCGATTTGG CGAAGAACACGCCAAGTGCTGCCAACATTAATGCCTATGCTGATATCGTT GCTGAGCGAGCTTTAGTACGTAATCTGATCAGTGTGGCCAATGAAATTGC GGACGCGGGTTATGATCCTCAAGGCCGTAGTTCGGAAGATCTGCTCGATC TCGCTGAGAGTAAAGTATTCGCCATCGCGGAAGAACGCACCAGCGAAAAC GAAGGCCCACAAAATGTCGATTCCATTCTAGAGAAAACCTTAGAACGTAT CGAGCTACTGTACAAGAGCCCGCAAGATGGTGTCACCGGGGTGGATACTG GCTTTACGGATCTGAATAAGAAAACCGCAGGCTTGCAAGGCTCTGACCTT ATCATTGTCGCCGCACGTCCATCGATGGGTAAAACCACCTTTGCAATGAA CTTGTGTGAAAACGCCGCGATGGATCAAGACAAGCCTGTGCTTATTTTCT CACTGGAGATGCCCGCGGAACAAATCATGATGCGTATGTTGGCCTCTTTG TCTCGTGTTGACCAAACCAAGATCCGTACCGGTCAGCTGGACGATGAGGA TTGGGCGCGTATTTCTTCGACCATGGGTATTTTGATGGAGAAGAAGAACA TGTACATCGATGACAGCTCTGGTCTAACGCCAACGGAAGTGCGTTCACGT GCGCGTCGTGTGGCGCGTGAGCATGGTGGTTTATCGATGATCATGGTCGA CTACCTTCAATTGATGCGCGTGCCAGCTCTCTCGGATAACCGTACTTTGG AAATTGCGGAGATTTCTCGCTCACTGAAAGCATTGGCGAAAGAGCTGAAT GTACCCGTGGTGGCCCTGTCGCAGTTGAACCGCTCGCTAGAGCAACGGGC AGACAAACGTCCTGTGAACTCGGATCTGCGTGAATCTGGCTCTATCGAGC AGGACGCCGACTTAATCATGTTCATCTATCGAGACGAAGTATATAACCCT GACAGCGCGCTGAAAGGTACGGCGGAGATCATTATTGGTAAGCAGCGTAA CGGTCCTATCGGTTCGGTGCGGCTGACATTCCAAGGACACTGGTCTCGCT TTGACAATTATGCAGGCCCGGCGTTTGATGATGAGTAA >VV11831 DNA helicase ATGCAACATGACATTCGCGATACGTTACACCATATCTTTGGTTTTGAGGC ATTACGCCAAGGCCAACAGCAAGTCGTCGATGCGGTACTGACTGGCCATT CTGCGGCCGCCATTTTCCCAACTGGCTCTGGTAAATCTCTTTGTTATCAA TTACCCGCTTTGCACCTCCCCCACTTAACTCTGGTGGTCTCACCGCTCAT TGCCTTAATGAAAGATCAGTTGGCTTTTCTGCATAGCAAAGGTATTGCTG CAGCAGCCATCGAATCTGGCCAAAGCAAAGAACAAACACAGGCGATTATG CAAGCGGTTAATGCCGGGGAAATAAAAATACTGATGATCTCTGTCGAGCG CCTCAAGAACGAACGTTTCCGACAGTTCATCGCCCAAGTACCGATCTCAT TACTGGTAGTGGATGAAGCACACTGTATTTCAGAGTGGGGGCATAATTTC CGCCCGGATTACCTCAAACTTCCGAGCTATCAAGCGACATTAAACATTCC ACAAGTTCTGCTGCTGACCGCCACTGCAACAGAAAATGTGATAGCAGACA TGCAACGCAAATTTGCCATCAAAAAGGACAATGTTGTTGTCACCGGGTTT TATCGCGCCAATCTTGATCTCCACGTGACCCCTTGTCGCAATGAAGACAA AGCAGACGCACTGCTGAAAATAGTACAACAGGCCCCTAACGCCCCAACCA TTGTCTATGTCACGTTGCAACATACCGCAAGTCAAGTTGCTACCCTACTG CAAGACGAAGGCATACGCGCTTCAGCCTATCATGCCGGATTGGATAACGA GTTGCGTAGCACGATACAAACACAGTTTATGCAAGGCCAACTGGACTGTA TTGTCGCAACCATCGCTTTTGGAATGGGGGTAGATAAAGCCGATATTCGC CGAGTAATCCATTTCGACTTACCCAAATCGATTGAAAACTACGCCCAAGA AATCGGTCGAGCCGGTCGAGATGGCCAGAAGTCCGATTGCATCGTCTTGG CCAATCAAAGCGGGTTAAGCACACTGGAAAATTTCATTTATGGCGATACG CCTGAACGAGATGACATCAGCTCGGTGATCCAACAAATACAAGCCTCTGG TGAACGATGGGAGGTGATCATCGCCCGCCTTTCTAACGATACCAACATTC GCCAACTGCCGCTAAAGACACTATTGGTATACCTTGAAATGGCTGGTCTC ATCGAGCCCATGTACGCCTATTTTGCTGAGTATCGTTTCAAGTTTCTTCG TCCTGCCAGTGAAATTGTGCAGCGCTTTCAGGGTGAACGAGGCGCCTTTT TGCAGGCTGTTTTTGATTGTTCTCCACAAGCAAGGGTCTGGTGTCAAACC GATTTCGAGGCCCTTTGGCATCGCTATCATGCCGAACGGTCACGTTGTGT GGCTGCGTTAGATTACCTTCATCAACAAGGCTGGATAGAACTGGAAAGTA AGCAAATGACGGACGTGTTTGCGGTAAAGCCGATTGAGTATTCCGCAGAA GATCTCACCGAGCAGATTTATCAACTCTTCAAAAACAAAGAGCAAAGTGA TGTCGAACGGATCCATCATATGCTCCACTTTTTTGAATCAGGTGAGTGCC TCAGTCATAAGCTCGCGCACTACTTTTCCGATCATAACGCACCACAGCAA TGTGGCCACTGCTCAGCATGCCGAGGCCAGCAAGCCACCCTTCCCAAAGA AATGCTGACGGACATTCCTCAGCAAGCGCTTGATGAATGGATTGCTCAGT TGCAGAGTCAAACCTCACAGCCGCTGAGTGCAGAGCTCATCACGCGTTTC CTTTGTGGGATCAGCACACCTAAGCTCACTCAACTAAAAGCGAAAAAGTT GAAGGGATTTGCGCAGTTGGAACGCGCACCTTATGGAGAAGTACTCGCGC GTGTCAGTAAACGAAGCTAA >VV11388 Primosomal replication protein N ATGACCAATCGAATGGAGCTGAGCGGCACTGTCGTGAAAGATCCGATTCG AAGCCAAAGCCCTGCTGGAATCTCACATTGTCGATTTTGGCTCGAGCATC GCTCGGTAGTGGTTGAGGCGGATTTACCAAGACAAGTTTTCTGTCGAATG CCAGTGGTTGTCAGCGGTAAAGGGTCACAAGACATAACTCAACAAATAGT TTTGGGCAGTAACATTAAGGTAAGTGGCTTTGTTGCTTATCAGACCGGCC GAAATGGCGTAGGTAAATTGGTGTTACATGCCGATGACATAATTCATATT TAA >VV12462 Integrase ATGGCTATCAAGCAGAAAATCACCGCCAGCTCTATCAAAAATCTCACCAT CGCAGACAAGCGATTGAACGACACTGAAATCAGCGGATTTCATGCGCGGA TTTCGCCCAAAGGGGTGATCAAGTATTACCTCTACTATCGAATTCACGGT AAGCAGCGCAATTTCTTGCTCGGTTCAGCTAATGCTTTAACGCCAGCGCA AGCGCGAGACTTAGCCAAAGAAAAAGCAGGGCAAGTCGCGGCGGGGGAAG ATGTGCAAGTCACTCGCCATGAAGCGAAAAAGCGAGAGCAGCGTAACAGC CTGACACTGAGTAAATTCCTTGAGGAACATTATTCCGCCTATCTCATGTC GATTAATGAAAAAACGGCGCAAAAGTCGTTGATGTGCATTCAAAGCAACT TCAAACATTTATCCACTAAGCCACTAGTTGAAATTACCGCTTGGGACATT CAGCAGTGGGTGGCCGAACGTAGCAAAGCAGGTCGCGCCCCTGCGACCAT TTCCTATGCCTATAACCGCCTAAGAGCAGTGTTCAATCGTGCGGTGGAGT GGGGTTTTATCGATTCTCACTCTCTTGATAATGTAAAAATCCCTCGCATT GATAACAAGCGTATTCGTTACCTGTCGGTGAGTGAAGAGGCGGCATTACT GGAGAGCTTGAAAGCGCGTGATGCACGTTTAAAAGACGAAGCATTGCAAA GGTACGGTAAGCGCGCCCAAAGGCTGGTGTCACAGCGCTATGTGGATTTC TTAGAGCCGTTGATTGTACTGGCACTCAATACAGGTATGCGCAAAGGCGA AATGTTGTCGCTTAAGTGGTCACACATCAACATGGAAGACAGGTATTTGA CCATTCGCTCTGAGAATGCCAAATCGAAAAACAAACGCACCATTCCACTC AATAACACGGTGTATACCATGTTACAGGCTTGGCATGAGCAAAATCCGGA TACCGAATTGGTGTTTGAGCGAAATGGCAAACCGCTCGACTCTTATCAGT ACCAGTGGGAGTCGTTACTCAAAGATGCGGGAATAGAGAATTTCCGTTTT CACGACTTGCGCCACCATTTCGCCAGTAAGTTGGTGATGAAAGAAGCGGA TTTGAACGTGGTTCGTGAATTGTTGGGCCATGCGGATTTAAAAATGACGC TGCGCTATGCGCATCTGGCTCCTGAACATAAGGCCAGTGCGGTGAATCTC ATCGGTTAA >VV11427 Excinuclease ATPase subunit ATGGACAAGATAGAAGTTCGCGGAGCACGTACCCATAATCTCAAAAACAT AAATCTCACCATTCCCCGAGATAAACTGATCGTTATTACGGGCTTATCCG GCTCAGGTAAGTCTTCTTTGGCATTTGACACTTTGTACGCAGAGGGTCAG CGACGTTATGTTGAATCCCTCTCTGCTTATGCTCGTCAATTTCTTTCATT GATGGAAAAGCCCGATGTTGACCACATTGAAGGCCTCTCGCCAGCCATTT CTATCGAGCAAAAATCCACCTCACACAACCCGCGCTCAACCGTAGGAACC ATCACAGAAGTGTATGACTACCTTCGCCTACTGTATGCCCGCGTTGGTGA GCCTCGCTGTCCTGAACATCAAGTCCCTTTAGCCGCTCAAACCATTAGCC AAATGGTCGACAAAGTGCTGGAGCTGCCTGAAGGTGCCAAAATGATGTTG CTCGCCCCCATCGTGAAAGAGCGCAAAGGCGAGCACGTTAAAACATTAGA GAATCTTGCTGCTCAAGGTTTTATCCGTGCGCGTATTGACGGAGAGACCT GTGACCTCACCGATCCACCAACGCTAGAGTTACACAAAAAGCACACCATT GAAGTGGTGGTTGACCGCGTTAAAGTGCGTGGCGATTTACAACAAAGGCT CGCAGAATCCTTTGAAACGGCACTGGAACTCTCAGGTGGCATCGCTGTGA TTGCCCCTATGGAGGGTGACGGTGAAGAGATCGTTTTTTCCGCCAATTTT GCGTGTCCCCACTGTGGTTATAGTATGCAAGAGCTTGAGCCACGTTTGTT CTCGTTCAATAACCCAGCAGGGGCTTGTGGCACCTGTGATGGCCTCGGGG TACAGCAATATTTTGACCCAGAACGTGTGATTCAAGATGCCAATTTAAGT CTTGCACAAGGGGCGATTCGTGGTTGGGATCAGAAGAACTATTACTATTT CCAAATGCTCACCTCGCTGGCTGAGCATTACGATTTCGATTTACATGCCC CTTTTAATTCGCTTTCAAAACGCATCCAAGAGGTCATCTTAAAAGGCTCA GGGCGCACTGAAATCGAATTTAAGTACATCAACGATCGAGGCGACATTCG TCTTAAACGCCATCCATTTGAAGGTATTCTCAATACACTCGAGCGCCGTT ATCGCGACACCGAATCTAACTCGGTACGAGAGGAGTTGGTAAAATATATC TCCACCAAACCTTGCACCAGTTGTGGTGGAACTCGTCTGCGCCTAGAAGC ACGCAACGTGTTTATTAATGACACGACATTGCCACAAATCGTCGAGTTGA GTATCGCGGATGCATTGACCTTTTTCGCCACCTTAAAACTCGAAGGGCAG CGAGCTCAAATTGCGGAGAAGGTCATGAAAGAGATCAACGATCGACTGCA GTTTTTAGTCAACGTTGGCCTCAATTATTTGAACCTGTCTCGCAGCGCTG AAACCTTGTCTGGTGGCGAAGCACAGCGTATTCGTCTGGCTAGCCAGATC GGTGCCGGTTTGGTTGGCGTGATGTACGTGCTCGATGAACCGTCAATAGG CCTTCACCAGCGTGACAATGAGCGCTTACTCAAAACACTGACGCACTTAC GCGATCTCGGCAATACCGTATTAGTCGTAGAGCATGATGAAGATGCGATT CGTTGTGCCGACCATGTGATTGACATTGGTCCTGGTGCAGGCGTACATGG TGGCCAAGTGGTTGCCGAAGGAACAATGGCCGAGATTCTCGCCAATCCAG ATTCCTTGACCGGACAATACTTGAGCGGAGCCAAGCAGATTATTGTGCCG ACTCAACGCACACCAAGAGATAAGAACAAAACGGTTGAGCTCATTGGAGC CAGTGGCAACAACCTTAAAGAGGTCAATCTTTCGGTGCCTGTCGGGCTAT TCAGTTGTATCACTGGGGTTTCTGGTTCGGGTAAATCAACACTGATTAAC GACACCTTCTTCAAAATTGCTCATACCCAACTCAATGGGGCGACCACAGC TCAACCAGCGCCTTATAAGTCTATTAAAGGCTTAGAGCATTTTGATAAGG TCATCGATATCGACCAGAGCCCCATCGGCCGCACACCGCGTTCGAATCCA GCGACCTATACGGGGATTTTCACTCCGATTCGAGAGCTGTTCTCCGGCAC CCAAGAGTCTCGTTCTCGTGGCTACAAGCCAGGGCGTTTCAGCTTTAACG TTCGTGGTGGCCGCTGTGAGGCTTGCCAAGGTGATGGTGTTATCAAGGTT GAAATGCACTTTTTACCTGATGTTTACGTCCCTTGTGATGTGTGTAAAGG CAAGCGCTACAACCGTGAAACGTTAGAAGTACACTACAAAGGGAAGAGCA TCGATGAAGTGCTAGAGATGACCGTTGAAGACGCTCATGAGTTTTTCGCT CCTGTCCCTGTCATCGCGCGTAAACTGCAAACCTTAATGGATGTTGGTCT TTCTTATATCCGTTTAGGTCAAGCGGCCACCACCCTCTCTGGCGGTGAAG CACAACGGGTAAAACTGGCTCGTGAGTTGTCCAAACGCGATACGGGCAAA ACCCTTTATATTTTGGATGAACCAACAACGGGCCTACACTTCCACGATAT CCAGCAACTGTTGACCGTCTTGCATCGCTTACGTGATCATGGCAACACCG TTGTCGTGATTGAGCATAATTTAGATGTGATCAAAACGGCCGACTGGATC ATCGACTTAGGTCCAGAAGGTGGCCAAGGTGGAGGGGAAATCATTGCCCA AGGAACACCTGAAGATGTGGCGCAGATCGAAGGTTCGCATACCGCACGCT TCCTTAAGCCTATGTTGAAATAG >VV11385 Site-specific DNA methylase ATGAAAAAGCAGCGAGCCTTTCTAAAATGGGCAGGCGGAAAATATGGCCT TGTGGAGGACATCCAAAAGCACCTACCGCCGGCTCGTAAACTCGTAGAAC CTTTTGTCGGAGCGGGTTCCGTATTCCTCAATACGGATTATGAGCATTAT CTTTTGGCCGATATCAATCCCGATTTGATCAACTTATACAATTTGCTCAA AGAGCAACCTGAGCTCTACATCAGTGAAGCAAAACGCTGGTTTACGCAAG AGAACAATCGTAAAGACGCTTACTTGAGCATCCGTAGTGAGTTCAACAAA ACCGATGACGTGATGTTTCGCTCATTAGCGTTTCTCTACATGAACCGTTT TGGTTTCAATGGCTTATGCCGTTACAACAAAAAAGGCGGTTTCAATGTGC CTTTTGGTTCGTACAAACAACCGTATTTCCCTGAAGCGGAATTAGAGTTT TTTGCGGAGAAAGCGCAGAAAGCGACGTTTGTATGCGAAGGTTATCAAGA GACATTTCGTCGTGCACGCAAAGGGTGTGTGGTGTATTGCGATCCACCGT ATGCGCCACTTTCAAATACAGCCAATTTTACGTCATACGCAGGGAATGGT TTCACATTGGATGATCAAGCTGCCTTAGCGGATATTGCGGAAAAAACCGC GAGCGAAAGAGGCATTCCAGTACTTATTTCAAACCACGACACCAAACTGA CACGCCGTTTGTATCATGGTGCGGAGCTGAATGTCGTTAAGGTCAAGCGC ACTATCAGCCGTAACGGCGGTGGGCGTAACAAAGTGGATGAACTAATGGC GCTTTTCCACAAGCCAGACATCAGTTAA >VV10541 Endonuclease IV ATGACAAACAGCAAAAACCGTTTTGGTAACAAATTTATTGGCGCGCATGT TTCAGCGGCGGGCGGGGTTGACAATGCACCTCTGCGGGCGCGTGAGATTG GAGCAAACGCGTTTGCTTTGTTCACGAAGAATCAACGCCAATGGGTTGCC AAGCCATTAGAAGAGAAAACCATCTCGGCGTTCAAAGCCAATTGCGCATT GTTGGGTTTTTCTCCACAGCAAATTCTTCCCCATGATTCTTATCTTATTA ATTTAGGTGCGCCAGAAGCGGAGAAGCTGGAAAAGTCTCGTCTCGCGTTT ATTGATGAAATGGAGCGATGCCAGCTGCTAGGGTTGAACTTACTCAATTT CCACCCAGGCAGCCATTTGGAGAAGATCTCAGAAAAAGCGTGTTTGTCTT TAATCGCAGAATCGATCAACTTAGCGCATCAAGCGGTACCTGATGTGGTG GCGGTGATAGAAAACACGGCCGGACAAGGTTCCAACTTAGGTTGGCGATT TGAGCACCTTGCAGAAATCATTGAGCAGGTTGAAGATAAGAGTCGAGTTG GGGTTTGTTTGGATACTTGCCACACCTTTGCCGCAGGCTATGATCTGCGA ACTCCTGAGGCGTGTGAGACGACCTTCGCTGAGTTTGAACGTGTGGTCGG AATGCACTATTTACGTGCAATGCATATTAATGATTCAAAAGTAAAATTAG CCAGTAAGGTGGATAGGCACCATGCCCTAGGGAAAGGTGAAATTGGCTGG GACTGTTTTGAATACATTGCGAAAGACAGCCGTTTTGATTCTATCCCATT GATTTTAGAGACTATTGAACCTGAACTTTGGCCGCAAGAAATTGAGCAGT TGAGAAAATATCATCTCTCTTCAATCGCTTAG >VV12111 Primosomal replication protein N'' ATGAAACTACAAGATATTGCGCAGCGGCTTGATAAGCTTGCTGTTCAGGC CGCTCAGTTAGACAGACAAAGAGGCGAACATCACACCCCTTTGTTTGATG AGCGATTGTTTGCTTGCCGAGCGCGCCTCTTAGTGCCCTGCGTTAAAGAG ACCAAAGCCACTTTGGATGCGTTACTGAGAGAGCAAAAAGATCAGAGACT CACAACCCAACGTGCTGAATATCTAACAGAACAGTTGGTTGCTCAGTTCT CTGCGATTCAACGTGAGCTCTCTACAACCACCATTCGCAAGAATGAAATC AAACATGCTAGCCATTATCGCAAACCAATCAATGTGTTGTATCAAGAGTT GGCACAGCATCAAGAGTGGACGCGTAGACTAAAAGAAATGGTGTTGGAAA AGCAGAAAGAACTCGATACCGCACCTGCATTTCTTCGTACGCAAGCTCAA CAGGCGTTATTGGTAACAGAGCAACGATTAGCGCGTTGCCAGGCAGCGAT GCTAAAGATAGAAAATCAGATCACATACAGAGAGAAAAATCAGTAA >VV20660 Unknown ATGTGTTTACTGGTTATCGTCTCGGGAGCCTGTGTGGCAGAACCACTCGG CAATACCAGCATTACCTCTTTCAACACCGCCAAGAAGATCGTGCAACAGC ATGTGTACACCACCACAGAGCTGCGTAAAACGCTCTATTCCGATGCCACA TTTAACGCGAAAAAAGACGTCTCGCTCCCTGGTGGGTTTAAGACAACTCA ATACAAAAATCGATTGAAACGCTGGGAAGCCGAGCACGTTGTACCCGCTG AAAACTTTGGCCAAACCTTTATTGAATAG >VV11722 Mg-dependent DNase ATGAAACTGTTTGATACGCATTGCCATCTCGATTTTGACGTTTTCGAACC AGCGCGCTCACAGCATCTTCAAAGAGGGCTTGAGGTCGGTGTAGAACGTT TGTTACTGCCATCCGTTGGTCCCGATAACTGGCAAAAAGTAAAAACACTG GCGCAATGGTCTGCAATGCCATCTGAACAGACTCGGCCTGCAATCTTTTA TGCGTTGGGCTTTCATCCCTATTTTTTGACGTTGGATTATCAGCAAAAAC AAAGTGCTCTTCTGGCTTTGTTGGACGAGCGTGACACTCGCTGTGTAGCC ATCGGGGAATGCGGTTTGGATGATGGGGTTGAACAAGACACGGCATTGCA AGAGCAGGCGTTGAACTACCAGCTCGATTTGGCCAAGCAGTATCAACTGC CGGTTATTTTGCACAATCGACGATGTCACAATCGACTCATTCAATTAGTC AAAGCGGCTCGGCTACCAAAAGGCGGCGTTATCCATGCGTTTTCTGGTAG CTATGAGCAGGGAATGGAGTGGGTACGTTTGGGTTTTTATCTTGGGGTCG GGGGAACCATTACCTACCCCAGAGCGAACAAAACGCGCCAAGCGATCAGT CGACTCCCTTTAGAAAAACTGCTGCTTGAAACCGATGCGCCAGATATGCC GATATTTGGCTTTCAAGGAAAGCTCAATACACCCGCTCAGATTATTCATC CACTAAATGAGTTGGGTTTGTTGCATAATCAAACAAAGCAAACGATTGCC TCTCAAATCTGGAAAAATAGCAATTCTCTGTTCTCTATCTGTGAATGA >VV20147 Superfamily II DNA and RNA helicase ATGCAAGATTCTGTAATTCAATTCAGTGATTTAGAGCTGAATGATGCTAT CCTTTCCGCTCTTGATGGTATGGGCTTTGTTTCTCCAACACCGATTCAAG CAGCTGCGATTCCTCATCTATTACAAGGTGTGGATGCGCTAGGTAAAGCA CAAACGGGTACGGGCAAAACGGCAGCATTTTCTCTGCCTCTTCTCAACAA ACTTGATCTCGCACAGCGTAAACCTCAAGCAATCGTACTGGCTCCAACGC GTGAGCTAGCGATCCAGGTTGCGGCAGAGATGAAAAACCTTGGTCAAAAC ATCCGTGGTTTGAAAGTGCTAGAGATCTACGGTGGTGCATCTATCGTTGA TCAAATGCGTGCTCTTAAGAATGGCGCTCACGTTATCGTGGGTACTCCGG GCCGTGTTCAAGACCTTATCAACCGCGAGCGCCTAGACTTAGGTGAAGTG CATACTTTCGTTCTTGATGAAGCAGACGAAATGCTAAACATGGGTTTCGT TGACGATGTAACGGAAATCATGGAGCACGCTCCATCATCTGCGCAACGCG TACTGTTCTCTGCAACTATGCCTCCAATGCTGAAAAACATTGTTGAGCGC TTCTTGCGTGATCCAGTCACTGTCGACGTTGCAGGTAAAAACCACACTGT AGATAAAGTTGCACAGCAATTCTGGGTTGTTAAAGGCGTAGAAAAAGATG AAGCAATGTCTCGTCTTCTAGAAACAGAAGAGACAGATGCATCAATCGTA TTCGTACGTACTCGTCAAGATACTGAGCGTCTAGCGGATTGGCTATGTGC ACGCGGCTTCAAAGCAGCAGCACTACACGGTGATATTCCTCAGTCTCTAC GTGAGCGCACAGTTGATCACATCAAACAAGGTGTTATCGATATTCTTGTT GCGACAGACGTTGTTGCTCGTGGTCTAGACGTGCCACGTATTACTCACGT GTTTAACTACGACATCCCATTCGATGTTGAGTCATACATCCACCGTATCG GTCGTACTGGCCGTGCAGGACGTCAAGGTAAAGCGATCCTTCTTGTTCGC ACTAACCAAATTCGTATGCTTCGTACTATCGAGCGTGTTACTAAGTCTTC TATGGAAGAGATCCAACTGCCACTTCGTGACAAAGTTGCAGCAGCGCGTC TAGATAAACTTGCCGCTGAGCTTCAAGCTGACATCGAGCATAAAGCGCTT GATAAGTTCGCAGAGCTGATAGAAAAACTAGAAGAGCGTCTAGAGATCGA CTCAAGCGTTCTAGCGGCGATTCTATTGAAGCGTCAGCAAGGCAAACGTC CGCTATTCTACATTGGCGAAGACCCAATGATCGAAGCGATTGAGCGCGAT AAGCAAAACCGTCGTGAGCGTCGTGAAAATCGTGACAATGGCGGTCGTCG TGAAAGCTTTAACAGCAACCAAGATTGGGATACTTACCAACTTCAAGTTG GCCGTGAGCAAGGTGTTCAAGTGAAAGACATCGTAGGCGCACTGGCAAAC GAACTTGGCTTAGGTAAAGGTTCAATTGGTGCAATCAAACTGGCTCAAGA GCACACGTTTGTTCAGCTACCAAAAGCGATGAGCACACAAGCTGCAAGCA AACTTCGTAAACTGCGTATTCGTCAGAAAGAAGTGGGTGCCGTTGTTTGT GATTTCAACGATTTCAACGAAAACCGTGGTCGTCGTGATGGGGCTCGCCG TGAAGGTGGTTTCCGCGAAGGCGGTCGTCGTGAAGGCGGCTACCGTGGCA ATCGCGAAGGTGGTCGTGAAGGTGGCTACCGCGGTAACCGTGAAGGTGGT CGCGAAGGTGGTTTCCGTGGTAACCGTGACGGTGAGCGTCGTTTTGACCG CAATCGTGGTGGTGATCACCGTGGTAACCATCGTGGTGAACGTGGTCACG GTCGTCCACGTCGCAACGAAGACTAA >VV12988 Nucleotidyltransferase/DNA polymerase involved in DNA repair ATGCTAGTGACACAACATCCTCTTGCTGTGGTGCATCCTCAGTCACACCA AGTGCTTCAAATAAACGATTTGGCCTCAAATGCGGGTCTGGCTGTCGGTA TGGGATTAGCCAGTGCTGCGACTCTTTGCTCCCAGCTACAAGTCATTGTT TATGATGAGAAGTTGGAACATCGCAAACTCAAAGAGATCGCACAATGGCT CTATTTTATGACGGCAGACCTCGTGTTAGATCCTCCGAGTGGCCTATGGG TTCGTGTCAGCCATATGCTGAATCTCTATCAAGGGCTTGATAATTACTGG CACACTCTCAGTGAGCACCTAGCGACACTGGCAGTCAGCTACCACGCTTC GACGGGGTTTTCTCCCCTATCGGCGAAATTACTGGCCAAAGCAGGGCATC CGCTCATTAGCGACAACCAAACTGAGCTACTCACAAAAGTAAAAAAGCAC CCACTCACATTTAGCGAATTAAAAGCCACCACTATCGAAAAACTGCAACG TATCGGTATTCATACATTCGATGCATTGCTGACGCTTCCTTTACAAGAGC TCGCACGACGTTTCGATATCGAACTGGTTAATTACATTGGAAAGTTAACT GGTCAACTCAAGCACCCAGTGGACTTTTATCATCCACCTTCTCGTTTTAA ACAGGAGTTAGAACTGCTGTTTGAGTTAGACAATGTCCAATGGCTGGAAA AGCCGCTAGAGAAGCTATTTAGGCAGTTAGAGAGCTATCTCACCATTCGT AATAAAACCGCGCATGAGCTGCAACTCACCTTATTTCAACGTAATGACTT AAGCAAGGCTATCTCTTTTCATTCCGCGCAAGGTGAATATCGTAGCCAAC AATGGCAAAAGCTCTCCGCTCTAACGTTAGAATCCACGATTCTTCAGGCT CCCGTTACACGTCTGCAGCTAGAGGTCATCCGGGAAGGTGAGCCCAATGC TCACCCTACTGATCTCTTTTCTCATCGAACAGGGCAACTCTCTCGCCTCG AGTTGTACTCACTGTTGCAAGCAAAATTAGGCGCAGATTCCATAGCCACT TTGGGCTTGAATCATGATCCTAGACCTGAAAAAGCAACCCGTTACCAATC AACATTAACAGAACCCCCAAGCGAAGAGATTGAATGCCGACTACTACGCC CAAGTTTTTTACTCCCTGCTCCTGAGCCTTTGCAACATCATGTTTCTTTG ATACATGGCCCTGAACGTATTGTCAGTGGCTGGTGGGATGGCGATGAGAT CATGCGCGATTATTTCATTGCGAGAACCGAGCAAGGCCAGTGGCTTTGGG TATTTCGCGATCAAAAAAAGCAGTGGTTTTTACACGGTTTATTTTGTTAA >VV12987 RecA/RadA recombinase ATGAAGAACATCATTCAGACCTTAAAAAACCAACAGTTGATTTGGCACGC AAATTCAACAAGGTGCGCTAATGAATCTTGTTACCAAACTTCTGGTATTG ATGAATTAGATAAACTGCTTGGCGGTGGATTCCCACAGCATGGTGTGGTG GAAATGGAATCTGCACTCGGCATCGGTGAATTACGCTTACTGGCTAATTA TCTTAAACAGCAGCAGGATCTGATCGTACTGATCCACCCCCCTGCAGTTT TGAATGCCGCCTTTTGGCGTAATATGGATTTTCCCTTAGCCAATTGTCTC GTGATCCATTCAGTGTCAACCAAAGAAGCATTATGGGCCGCCGAGCAATG CCTAAAAAGCGGAGTGTGCCGTACCGTGCTCCTTTGGCAAGAAGAGATGG AGATTCACCAAGTCAAACGCTTACAAGTGGCTAGCGAGCAAGGGGGTTGT GTACTGTTTATGTTCCGCCCTTATCAATCACATCGCCTTTCTTTACCACT GTCCTTAAGTCTGCGTCTTTCGCCTACCGAGCACGGCATACATGTCGAAC TCTTAAAACGCCGAGGAGGATGGGGAAAAGGAGCGGTTGATATTGATTAC CACAATCAGTATCCCCACCTGACACTGGCAAGCCAAATCCCAAACCATAC TGTCATTCCTTTTCCCGTCGCTATGCAGGGGTGA >VV12657 ATP-dependent DNA ligase ATGGCGATTCTCGTCGCCATCCCTGTGATGGCTGAGGAAGAGCCATTGCC AATACCAGAGGTGATGCTTGCACAAACTTATGGGCATGGAGTGAAGATCA ACGATTATTGGTATAGCGAAAAATTGGATGGTATTCGGGCGTATTGGACT GGCACTCAATTGCTTACTCGCAATGGCAATCGAATTTATGCTCCGACGTG GTTTATTGAAGCATTACCACCGATGGCGCTCGATGGTGAGTTATGGGCCG GACGAGGTAATTTTCACATTGTGCAGCAGACAGTGCTGGACGCCACGCCC GATGAGCATGCTTGGAAGCAGATTGACTTTATGGTTTTTGACCTGCCAGA GTCAGCGGGTGATTACCAAAAGCGCTACTATACCCTGATCGATTTAGTGA AAAACATCGACGCGAGGCACATCAAATTTGTTGAGCACAAACCGATCGTC AGCGAAGCACAGCTTTTTGAAAAACTGGATGCCATTACGGGCATCAGTGG TGAAGGGGTGATGCTTAGGAATATCACCAGCCGCTACCAAGCGGGGCGGG GCAATGATCTACTGAAACTGAAGAAGTACAGTGATGCAGAAGCGACGGTC ATTGGTTATAAGCCAGGGAGTGGCCGTTTAATGGGTATGCTAGGCGCATT GTTGGTGCGGCTCGATGATGGTACCGAGTTCTATATCGGTAGTGGTTTCA CCGACGAACAACGCAAAAATCCCCCTGCTATTGGTGCGACTGTTACTTAT CGACACAATGGTTTCACTAACAGCGGCAAACCCAAATTTGCCCGATATCT GCGAGAGCGTCTTCCAGAATAA >VV21680 NTP pyrophosphohydrolase ATGAGACATCTGAAAACAACGATTCACCCCGATATCGAACATCTAGACGA AAAAATCATTTTCCAACGCAGCGCCGCACGCGCCATTTGTGTCGATGGTG AAGATATTTTATTGCTCTACACCGAGCGCTACCACGATTACACCATTCCG GGTGGGGGCATCGATGAAGGAGAGGATGTGATCGCCGGGTTGGTTCGCGA ACTTGAAGAAGAAACTGGCGCAAAGAACATCCACAACATCAAACCATTTG GCATCTATGAAGAGTTTCGTCCTTGGTACAAAGGAGAAGTGAACGTGATG CACATGCATTCTTACTGCTACACCTGCAAGATTGACCGAGAGTTAGGCGA AACGCGTTTTGAGGAATACGAAGTGAAAAATGGCATGAAGCCACTTTGGG TCAATATCCATCAAGCCATTGCGCACAATGAGCAGACCATGGCGGAAAGC CCCAAAAAAGGCATGAGCATAGAACGCGAAACTTTCCTGTTGCGTCTCAT CGCCAAAGAATTGCTGTAA >VV11074 Transposase-like protein ATGGGGCTTGATAACGTCGATGTCTGGTTTCAAGATGAAGCAAGATTTGG CCAGCAAAACACGACAACTCGACTTTGGGCTGAGCGTGGCTCAAGACCAA GAGTGGTAAAACAGCAGCAGTTTGAATATGCGTATTTGTTTGGCTCAGTA TGCCCCGCTAGAGGTATTGGTGAGGCAATGGTCGTTCCTTGGGTTAACAA GAACATTATGGTTGAGCATCTGAAGCAGCTCTCCGCGGTGACCGAAAAAG GTCGTCACGCAGTGGTCATTATGGATGGAGCGGGTTGGCATACCAATGAC ATTGCTGAGCCATTTGACAATGTCAGTATCATCAAGCTCCCACCCTATTC ACCAGAGCTAAACCCGATAGAACAAGTGTGGAGTTGGTTAAGACAACACT CTCTCGCCAATCAATCTTTTGCGGATTACGAAAACATTGTCTCCAAAGTA TGTAGGGCTTGGAATAGTTTTTTGGAATGTTCGGCCAGAGTCAGACAGAT GTGCTCGAGAAGATGGATAGACCTGACCAGTTAA >VV20695 Transposase ATGCATAAGACTAAGGATAAAGACCATTACCGACGCTTGAATGCCATATT ATTTCTTTCTCATGGACATTCTGTTACCACAGTCTCGAAGATTCTGGTTT CAGCTCGCTCTTCTATAGGACGCTGGATTAACTGGTACACGAAATGCGGC ATCGATGGCTTGGAAAGCTCAACTCGAGGTAGAGCCGCGACGCTCCCATT TCTTCAAATTGCCGCTGTATTGACTGCTTTAATCGCACTGAATCCTCAAA GTCTGGGATATCAGCGTTCACGTTGGGATCGTTTGGTCCGGTGA >VV10469 DNA recombination-dependent growth factor C ATGGTCTATCGCGTGAATCGCGAGATTGAATTCAACGCAGATCAACTTGA AAAACAATTGGCAGAGTTCCGTTATACGCCTTGTGGCAGCCAGGATAAGC AAAAATTTGGCTGGGTAAGCGCGATGGGACGACACGGTGATATGATGACC CACGTGTCAGAAGACCGCATTCTTATCTGTGCTAAAAAAGAAGAAAAAAT GCTGCCCGCTTCGGTGATCAAAGAATCACTGAATGCCAAAGTGGAAGCGA TGGAAGCCCAAGAAGGCCGCCCGCTGAAGAAAAAAGAGAAAGAAACACTT AAAGAAGAGATCATCATTGATCTTCTACCACGAGCTTTCAGCCGCAGTAA TCACACCTATGTGCTCATCTTGCCAAAAGAAGGGTTTATTTTGGTCGATG CCAGCAGCTACAAAAAAGCAGAAGACGTGCTCGCACTGCTGCGCAAAACC ATGGGTAGCCTACCTGTTGTACCTGCGATTCCAGAAAAAGCGGTTGAGAC CACGTTGACTGAATGGGTAAAAACAGGCCAAACACCACAAGGTTTCCATT TACTCGATGAAGCCGAACTTAAATCGGTTCTGGAAGATGGCGGCATTATT CGCTGTAAGAAGCAAGAGCTAACCAGCGACGAAATTCTCAGTCATATCGC TGCAGATAAAGTTGTGACAAAACTGGCCCTCAATTGGCAAGAGCGATTGG AGTTTGTTCTGGCCGATGATGCAAGCATCAAACGTTTGAAGTTTTCTGAT GAATTACGCGATCAGAACGATGATATTCCGCGAGAAGATCAAGCCGCACG CTTTGATGCAGACTTTTCTCTCATGTGTGGCGAGCTGTCTGCATTTTTGC CAAACCTTTTTCAAGCACTGGGTGGTTTACCTCACCCTAACGCTTAA >VV10017 DNA uptake protein ATGCTAATGGCATTCTCTTTTCCTTCCGTTTCTTTTGCGGACTCTGCAAC GAAAGCAGCCGATAAATATGAAGGCATTGAGATTTCCGTCAATATCAACA CGGCGACAGCAGAAGAAATTGCCATGATGTTAAAAGGCGTTGGTATTAAA AAAGCTCAGCAAATTGTTGACTTTAGAGAAGCTAATGGACCGTTTAAAAC GGTTGATGAGTTAGCTCAAGTGAAAGGAATCGGTAAATCAACGATTGAGA AAAATCAGTCACGGATTAAGTTGTAA >VV12796 Superfamily II DNA and RNA helicase ATGCAGATTCAAACTCAAACTCGACCCTATTCTCGTTTTAACGTGTTAGC TCAGCCAACCGTACCTATGAATGTTTCTGATCAGTTGTTGCAAAAGCTGG CTAATCTTTCCGCTCAAAACCAGTGGATTTTGTTTACAGCCGAGTGCCCA AGACCTGACTTTGCACAACTTACTGCTTCCAATATCCGCTGCCAGAACGT CATCCAGATGAAAACTTCTCAGACGATGACTGAAATGGAGATCGTGATGA AAGCAATTCGCTCTGGCAATGCCGCTGCGGTTGTCGCATCCGATCAAATC GATTTGATTAACCAATCTTTGCTTAGCGATCTCGCTCGCGAGTATGGCTG TGAAGTGTTTTTCGTTGAAGGCAGAGCACACAAGTATCACTAA >VV20106 NTP pyrophosphohydrolase including oxidative damage repair enzymes ATGATCCCATTTCAATCTCACGCGGTATCGGGTGTGGCGCTGTCACGTTT TGATGGCCAATATAAAATCTTGATGATGAAGCGCACTAAAGGAAACTATT GGTGCCATGTCGCAGGCGGAATCGAAGCAGGCGAAGCGGGTTGGCAAACC ATCGTTCGCGAATTTGCCGAAGAGACCCAAATAAACGTAGAAACACTCTA CAACGGCCAATATCTGGAACAGTTTTATCAAGTCAAAAGTGACTCTATCG TCAACATCCCTGTTTTTGTTGTCTATTGTGAAGATAATCAAGTCGTTACA CTCAATGATGAACACACTGAATATCGTTGGTGCGATTTAGAGCAAGCCAA ATCTTTGGCCGAATTTCCGGGTCAAGAAGCGCTGTATGATCATGTTTGGC AACACTTTGTCTTACGCAGCCCTTCACCACTCTCACGCATTCCACTTGCC AAATAG >VV21003 DNA polymerase III, alpha subunit ATGCCTCAAGCCAATTCCGTTGTCGTACTCGACTTTGAAACCACTGGTCT CTCACCGAACTTGGGGGATCGCGCGATTGAAATCGGTGCGGTTAAGATCG TTGATGGTGAGGTGGTCGATAGTTTTCAACAACTTATGAATCCTGGCTTT CGGGTCAGTTCATTTATTGAAAGCTACACTGGCATCACCAACAACATGCT GCGCAGCGCGCCCAGTTGCGATGAGGTGATGGCATCTTTTAGCGAGTTTA TTGCGGGTGAAAACCTGATTGCGCACAACGCGTCGTTCGATAAACGCTTT CTGGATGCAGAGCTGGAGCGAATCAACTGCGACTATTCAGGCGAGTTTGC CTGTTCACTGTTGGTGGCAAGACGGCTGATTCAAGACGCGCCGTCACACA AGCTTGGTGAGTTGGTTCGTTATAAAAACATCGACAACGACGGTATATTT CACCGAGCGTTAGCCGATGCTCAAATGACGGCCAAATTGTGGCTACTGAT GGTGGAAGAACTAGAGCACTCGGGTATCGCCAATCCAAGCTTTCAGTTTA TGCAAACCGTGAGTAAAACCACCAAAGGCAAAGTGGCTCAGCTACTGGCA AAAAGCCGCGCATAA >VV12565 Type IIA topoisomerase, B subunit GTGGTTGTTGAAACCGATGGATACTTAGCTCTTATTGAGCACCTTGCCTT AAATCTTGATGTATTCGCGTCTGACGTTGGCGATACGGGCACAGAAACCA TTGAAGATGTGGTGACAGACATGATCGCCTCAAACATCATGGCGATTTTT GAACAGAACCCAGAGCTGCATTCTAGCGTTCGCTTTAAACTGTTAAAAGA AGCGGATTCAGTCGCAGAAGATCTAGGAGAAGTTCTGGCAGGGGTATGGC TCAAAAAAGCCACTAATGAACAGATCAACTTTTTAGATGAGTATATTGCT TTAGTAAAAAATCTGTTCGATACCGCTGTAGCAAAATACGACTAA >VV20667 Integrase ATGAGTTATTCCTATTACGCCAGCATTATTAAACGATGGGCAAGTACGCT TGGCTTGGATTCTACTCATTATGGTACTTACTCTATGCGCAGGACTAAGG CCACACCTATCTATGCGAAGACAAAGAATATTAGAGCGGTACAATTGCTG TTAGGGCACGTTAAGCTCGATAACACCATCCGTTATCTAGGGGTAGAAAT CGAAGATGCGCTCAAAATTTCAGAAGATACTGATATCTAG >VV11795 Exonuclease V gamma subunit GTGTTTACTGTCTATCACTCCAATCAAGTGGATGTGCTCAAATCTCTGTT GGTGGAACTGATTCGCCTCAATCCTTTGCAAAATCCCTTCGACAAAGAGC AAATCTTGGTGCAAAGCCCAGGCATGTCTCAATGGTTGAAAATGGAACTG GCGAAAGAGTTTGGCGTGGCAGCAAACATCGAATTTCCGCTACCCGCGAC ATTTATCTGGGATATGTTTACCCACGTTTTGGCGGATGTGCCAAAACGCA GTGCTTTTAACAAAGAAGCGATGACGTGGAAGCTGATGCATTTGTTGCCG CAGCAACTTGCACTGGCGGAGTTCTCGCCTTTAGCTCGCTATCTTCAAGA CGATGAAGAAGGTGCCAAGCTTTACCAACTGTCGGAAAAAATTGCCGATA TTTTTGATGGCTATTTGGTGTATCGCCCTGAATGGATACGTGATTGGGAA GCGGGGAAGGCCGTGGCTGAGATTGGTGATGAGCATCCTTGGCAGCCCAT GTTGTGGCAAGCACTGTATGACCATACCGTCGCGCTTGGGCAATCGCCGT ACCATCGCGCCAACCTATACGAACATTTCATTGATAGCTTAGAAAACTAC ACTGGCCAGTTTGAACACTTGCCGCAGCGCTTGTTTGTTTTCGGTATCAC CTCACTGCCTCCACGTTACATGGACGCGCTTAAAACGCTCGGTCAGCATA TTGACGTGCATCTGATGTTTACCAACCCGTGTCGATACTATTGGGGTGAA GTGCGCGATCGCAAATTTCTGGCTCGTTTGGCGGCGAAACAGCGTCAGCA CCTCGTGTGGCAACAAGATCATTCGCAGCTTCAGGGCCAAAGTGAGCAAT TGAAAGGCAGTATTGAAGACAATCTTGCCGATGAACTGCACACCGAGGTG GTGGGCAACAGCTTGCTGGCTTCGATGGGCAAACTTGGCCGTGACAACAT GTACTTGTTGTCACAATTGGAATCGCATGAGATTGAAGCGTTTGTCGATA TCGAACCAGACTCGCTATTGCATCAACTGCAAGCCGACATCCTCAACTTG GAAGAGCACCAAGATGACGACCATATCGAGAGCAGCCATCATAAACCGCT CATCGAAGCGAATGATCGCTCTTTGAGCCTGCACGTCTGCCACAGCCCAA TGCGTGAAGTGGAAGTGCTGCACGATCAATTGCTGGCGATGTTCGATGCC GACCCAACCCTCAAACCGCGCGATATTATCGTGATGGTGGCGGACATCAA TGCCTACAGCCCTGCGATTCAAGCGGTGTTTGGCAACGCGCCGGGTGAAC GATTCATCCCCTATTCCATTTCAGATCGAACCGCCGATCAAGAAAGCCCG ATTCTCAACGCGTTTTTGACGTTGGTGAATTTGCCACAAATGCGCTGTTT GGCGTCAGAGCTGTTGGAACTGCTAGAAACCCCCGCGATTTTGCAGAAAT TCTCCTTGAGTGAAACGGAGTTCTTGCAAGCAAAACAATGGGTGGAAGCG TCAGGTATCCGTTGGGGGCTCGATGCGCAAACTGGATGTGAGTTTGACCT ACCTCAGACAAGACAAAATACCTGGCAGTTTGGTATTCAACGCATGTTAC TTGGCTACGCCATGCCAGAATCGGCTGGCTTGTTCCAAAGCGGTGAGGAA TGGCTTGCTCCTTACAACGAAGTTCAGGGAATGGGAGCGGAGCTGGCGGG CAAACTGAGCTACTTCATTGAAAAGGTGCGCTGCTATCGCCACGCCTTAG CTCAAGCGCAAAACATTGACGCATGGCGACAACAATTACACGGTGTCTTG GCGGATTTCTTCGCCGTCGACTTAGAAGGCGAAGTGGCATTGAAATCGAT TCGCGATACGTTGGGACAGTTAAAAGAACAGTTGAGTGATGCGGCATTTG AGGCGGAATTGTCACCGAGTGTGATTCGTCAATATCTGCTCAATAAACTG TCCGGTAGTCGTGTAAGCCAGCGTTTTCTTGCCGGACAAGTGAATTTTTG TACCTTGATGCCGATGCGTTCGATTCCATTTCGCACCGTCTGTTTATTAG GGATGAACGATGGCGTCTATCCACGCAGTGTGGCGCCGGAAGGATTCGAT TTAATTCATGGCCGCGCCAGAGCCGGGGATCGCTCTCGCCGCGACGATGA CCGCTACTTGTTCCTTGAAGCTCTGTTGTCTGCGCAGCAAAGTGTTTACA TCAGCTATGTCGGACGTTCCGTGCAAGACAACACAGAGAAAGTGCCGTCG GTGCTGGTGGCTGAGTTGATGGAGTATTGTCAGCAAAACTACTGTTTAGC GGGGGATGAGCATCTGGGTGTGGATGAATCCGGTGCGCATCTATTAAAGG CGATCACCTGCGAGCATCCCATGGTGCCATTTAGCCCCAAAGCTTTTTTA GGTGAACCTCCGAGCAACGCGAAAAGCTATGCCAAAGAGTGGATTCCAGC GGCCCAGCAGCAGAGCGAAGGCCAAGTGCCATCGCAGCCAAGTGCGCCAT TTTATCAAGCCCTTGACGATTATTTACTGGGTGCCACGTTCCCGCTTGAA CTGGATTTGGTTGAACTGCAACGTTTCTGGCGACTGCCGGTACAGTACTT CTTCAATCGCCGTTTGAAAGTCGTTTTCGAGCCGCCAATGGCCGTGATGG CAGATGAAGAGCCGTTTGTGTTGGATGGGCTCAACAGCTTCCAATTGCGT GAACAGTTGTTGCATCGTCTCTTATCGGATGAAAACTGCACGCCTGACAT GGTACAGCCGCTGATTGAGGGCGTACGCAGTGAAATGCGTGCACAGGGCA AGTTGCCGATCGGCGCCTTTGGTGAGTTGGAATTTGACACCAACCGCGTG CAAGCTGAAGCATTAATAGAAAAACTAACCGGACTATCTCACGCTGCTTT GGATGATCTCGAAGTGGATCTGACTTTTACGCCATTTGGTGAAGGCAAAA CGATTCATTTGAGCGGTTGGTTAACGCAGCACTATCAATCGGGTCTATTG CGTTATCGCAGTGGCAAAATTCGCTCACAAGATTACTTAGCTGGTTGGAT TGATCACCTTTCGATGTCGGCCATGGGCGTTGCCAAAGTGACGCATTTGA TTGGCTACGACAAGAAAGAAGGGGTTGTGCACCTCAAATACTCGGCGATG GCGGATGCTGGCCAGGCCAAATCGTTGCTTAACGAATTGATCCGCCTGTA TATCGAAGGCATGACTCAGCCTTTGGCGTATTTCCCCAAAACCGCATTGG CGGCCATCGAAGCTGGCATAAGCCGCGGGCAATGGAACGATGATGAAGAG AAAGCGTTGAAAAAAATGGCGGATACCTTCAATGATGGTTTCTTGGGTGC AGGGGAAGGCGCTGACAGTTACATCAGTCGTATTTGGCCAAAATGGAATG AACAACTGGCCCATCAAGTACGTTTGATGAGTAGTTTGGTGCTGCAAGGG GCAAGATTGTCCGTTGTGGATGCGTCAGAGGAAGCATAG >VV10391 Nucleotidyltransferase/DNA polymerase involved in DNA repair ATGTTTGCCCTAGTTGATGCTAATTCCTTTTATTGTAGTGCTGAGCAAAT TTTTAGACCCGAGTGGAGAGGTAAGCCCGTAATCGTTCTGTCGAATAATG ATGGCTGTGTCGTTGCAGCTAATCGTCAAGCTAAAGAAGCAGGTATAGCA AAGTTTAAACCTTACTTTGAAGTCAAAGCGTTGTGTGAGTTGAAAGGTGT AATTGCTCTATCATCTAATTATGAACTTTACGCAGATTTGTCGTCCAAAA TGATGGATGTTATCGGGCGGTTTGCGCCTGAGCAATATATATACTCCATT GATGAATCATTTCTTTCCTTTCATCGCTGCTTTCCTGCCATTAAAGACTT ACGAGAACATGGCTCTTTAATCCGACGAGCCGTTTGGAAAGAGTGTCGAT TACCAGTATGTATAGGTATGGGAACAACGCTAACCCTCGCCAAAATTGCC AATCATGCAGCTAAAAAAATTCAAGGCTGTAAGGGCGTTTGCGTTATCGA CAATGAACATCAGCGTACCTCTATATTAAAGCAGCTAGAAGTTGGTGATG TATGGGGGGTGGGCAAAAAAATATCAACACGATTAAAACATATGGGGATT AACTCGGCTTATGATTTGTCTCAGTATGCCCCAGAACAAGCACGTCGAGA ATTTTCAGTCGAAGTTGAAAGAACCGTTCGTGAATTAAATGGTGTCGCTT GCAAGGGCTGGGACACAGCTAGAGCTGATAAAAAGCAGATTTACTCAACT CGTAGTGTTGGAACAAGAATCACCGACCTTGAACTACTGAAGCAAGCACT AAGTAAACACGCCGCTATAGCAGCACATAAAGCACGAAATCAAAAGTCGC TGTGTAAAGCTATGCTCTGCTTTGCTTCCAATTCACCATTCGATGATAAA CCTCAGAGCTTCCGTATAGTTCATCATTTTGCTTATCCAACTGCTGACTC AATGCAGTTGGTCAAAATTGCTACACAGGCAGCAACACAATTGTTCAAAC CTGGTGTACGTTATTACAAAATTGGCATCGGCTTGATCGATCTAGTTAAT GGGCAGCACGAACAATTAGATCTGTTAAATCAAACTCCGAGTAATGATAA GTTAATGAAAGTGTTTGATAGTCTTAATAATCGGTATGGCACTGATACGC TTTTTGTTGGTTCCCAAGGCATAGAGCAGAAATGGAGCATGCGGAGAGAA ATGCTTACTCCGCAATATACAACCAACTGGCTAGATATACCTAAAGTAAG GTGTTAA >VV12188 Helicase-related protein ATGCCAAATCAGTCGCTTACTATCAAAGACAGCTTATTAACCACTGGTGG TGAAGACCCTCTGCTGCCGCAGCTGATCCACGCGATCAACCATGCTACCG AGATAGAGATTGCAGTGTCCTTTATTCAACCCTCTGGTCTAGACTTGCTT CTACCAAGCATTCACGAGGCGATTGAACGTAAAAAGTCACGCCAACAGGC CTTAAAGCTGCGCATCCTAACGTCAGATTACCTGCACATCACTCATCCTA TTGCGTTGCGTTCTCTGATCGAACTAGAAGGAGATGAGATAGAAATTAAG ATTTTTGAAACCAATAACCGCAGTTTTCACCTCAAATCGTACATATTTGT TCGCAGCGATGAAGCTCGTTCCATTTACCAAGGAGCTGCTTTTGTTGGCT CTAACAACATCAGTAAAACCGCACTCACCGATGCCCATGAATGGTGCCTA CGTTTAGATTACCAGCAACCAGACAACTCCCTTCAAGCGGCGCAGTTTCA CAATATCCGAACCCAGTTTGACAAACTGTTTCATCATCCATCTGCCATAT TGCTGACGGATGAATGGATTGACAGCTACATCAAAAGAAGAACACCACCC AAGCTTTCAGCAGTCGGTGATACGACGCTATTGGATAACGAAGAATATTC ACCCAACTCGGCACAGTTAGACGCATTGCAGCGACTCAGCGAGACTCGTC AAAAAGGAAATGTGCGTGGATTGGTTGTGATGGGCACTGGCATGGGGAAA ACTTGGTTATCTGCGTTTGATGCCAAACAACTGGAAGCAAAGCGAGTTCT GTTCGTTGCTCACCGCGAAGAAATTCTGACTCAAGCACTGATGACTTTCG CGAAACTTTGGCCGCAAAAATCCGCAGGCTACTATCACGGTAAGAGCAAA GAAAGAAACAAAGAGATGCTGTTTGCCTCAGTGCAAACTTTGGGTAAAGC AGCACACCTCAAACACTTTGCTTCCGACCATTTTGATTACATCGTGGTAG ATGAGTTTCATCATGCCAGCACCAAAACCTATCTCAATATTCTCAGTTAC TTCGAGCCTAAATTTTTACTTGGGCTAACAGCAACTCCAGAACGGACAGA CCAAGCGAACATCCTCTCGCTTTGCCACGACAACTTAGTGTTTGAACGTA ACTTAGTGCATGGTATCAATGATGAAATTCTTGTGCCTTTTCACTACTAC GGCATCTGGGATGACTCGGTCGATTATCAAGAGATCCCATGGCGAAATGG TAAATTTGACCCCACCGCCCTTGACGCCCAGTTTGCAACCACACGACGTG CCAAACATATTTTTAAACATTGGCAAAACAGGCAACAAACTCGCACCTTG GCGTTTTGTGTATCCAAAAAGCACGCTGATTTTATGGCGCAGCACTTCAA TCAAACTTTTGCAGATAAAGGCTTGAGGGCGCTTTCTGTACACAGTGATT CCTCCATTCGTCGTAATGAAGCGTTAAGCATGCTGGATAAAGGAGAAATT CAAATTCTCTTCTCGGTTGATCTGTTCAACGAAGGGACTGATTTACCCTC AATCGATACCGTGCTAATGCTGCGCCCGACTGAATCCAACATCGTTTTCA TTCAACAATTGGGCCGAGGACTTCGTCGTCACACGGACAAATCACACTTG GTGGTATTGGATTTCATTGGGAACCATCGCTCGTTTTTGAACAAGAAAGA AATTTTAGGGATCAGCACATCAAGCTCACTCGAACAGTTGAGTGATAAGT CACAAACACGGCCCGAATTAGGCAAAGGTTGCTTTACCAACATCGATCCG AAAATCATCGATTTTTGGCAAACGCTGACAAAGCAGCTTCGCTATTCTGC TCAAGAAGAATTTGAACATTTGACCAACCATTTGGGCCATCGACCTCGTG CAGTCGAGTATTACCGAGCAGGTTACGACCTGGCCAAAGTGAACAAGCAG CACGGTAGTTGGCTAGAGCTGGTCGCAAGTATGGACAAGGATCCGGAGTT AGATTACCTCGTTCGCGAACATCGTGACTTCTTTGCCAATGCCATCCAAA AAGCAAGCATGACCAAGAGTTTTAAAGCGATATTGCTTGAAGCCTACCTC GAGCTGGATGGGTTCAGAGATGCCCCGAGTATCGAAGTGCTCGCGAGTAA AAGTTGGCATGTGCTGTCTCGTTATCCCAAGCTAAAGGCATCCGACCTGT CAGAGATCAACCAACGCTTAACCGCAGACTCTCAGGCATGGTTGAAATAT TGGCTTAGTAACCCTATCAACGCATTTGTAGGTGGAAACAAAACCAAGAG TCGAGTTTGGTTTAAGCTTGCCGACGGAAAGCTCAAAGCTGACTTTGATG TCGCCCCACTCCAGCAGCAAGCATTCCATGACTTTGTCAAAGAGCTCGTG GACCTACAACTTGCTCAGTATTCAGACAGGCAACCTAAACAGACTCATCA AACAGTGGCACAACCGACCACTCCAGCAGAGGCAGCCAATGAAGGAACCT TGTTGCCCTACTACCCAAACCTTAAGATCGCTTGTGGTCATTTTAAGACT GGATCTCACGAAGAGGTTGAACACATCCCCGTTGATATGGCTAACCTCAA TCCTCAAAAACATTTCTTGGCCAGCGCCTCTGGCAATTCGATGAACGGTG GCAAGACACCCATTTTAGATGGCGATTTGCTGTTACTCGAGTTTGTGACG CCAATATCCGCTGGCTCCATCACAGGCAACACCATGGCTATCGAAATCCA AGATAGCTCGGGCGAGAATCAGTACCTACTACGTGTCGTGCAGAAGGATG CACAAGGGCGCTACTGGCTAAAAGCGAACAACCCAGATTACGAGCTAATG CCTGCCAATGACTCGATGAAGACATTTGCGAGGCTGAAAAAGGTTATTAC GCAGTAA >VV21208 3-methyladenine DNA glycosylase ATGGCCATTTTAAACTACTCATCGCTCACGACAGAGCAATGTCAACAAGC AAGGATGGCCCGAGATAGTCGCTTTGATGGGCTGTTTTATGTGGCGGTCA AAAGCACTGGGATTTTCTGCCGGCCTGTATGTCCTGCCAATTTACCCAAA GAAGAGAACGTGGAGTATTACCACGATAAAGCGCAAGCCTTGTCGGCTGG CTATCGCCCATGTTTGCGTTGTCGCCCCGACAGCGCGCCTGATTCTTGGG CGTGGAAAGGGGTCGAAACCACATTTCAACGTGCGTTGACCTTGATTGAA CAAGGGGCGCTACAAACGGAGAGGTTGTCAGCTTTGGCGCAACGTTTAGG AGTGAGCGATCGCTATATTCGTCAATTATTTCGCCGGTATTTGGGGATCT CTCCGAAGCAATATGCTCAGTCTCAGCAGTTGTTGTTTGCCAAACAGTTG CTGCATGGTAGCTCATTGAGCGTTACCGAAATTGGCTTTGCTTCCGGCTT TAACAGTACTCGCCGTTTTAATGATGCGTTTCAAAAGTCGATGGGTATGC CCCCTTCGAAAATCCGTCGAAGTAAAGGGGGGGCGAGTCACGATCAGTCG CATATTGTGCTCGCGTTTCGCGGTGATTTGAACGTAAAACACATGCTGGA TTTTTATCGGCAGCGAGCGATTGAAGGCGTAGAGGTGGTGACGGAGACGA GTTATCAACGTCAAGTCGTGATCAACGGAAAAACGGTTGGGTTTCGCGCG GAATTTCCCGCAACATTTCCAGCAGAGAAGCGGCAGTTAGTGGTTTATTT TTCGATGGATGATCTGACGTTGTTGCGCCCGATGGTGGCTGGAATCAGGC GGATGTTCGATCTCGATTGCGACACGCGCGTGATTGAAGCCCATCTCAAC ACTGTAGCGCCTGGGTTGGTCAAAAGCGTTGGTATCCGGATTCCGGGTGT CTGGAGTGTTTGGGAAGCGGGCGTACGAGCGATTTTGGGCCAACAAGTCT CGGTCAAAGCCGCCATCGGACAACTGAATCTATTGGTCGCGACTTTACAC CCCGATTCTGAAGTGCGCACTTTTCCTTCACCACAACAGGTGGTTGATGC GGATCTGCATTTCTTACGAATGCCACAAAGTCGAAAAGAAACCTTAAGAC GTTTTGCTGCCATGATGCTGGAGAATGAACACGCCGATCCCAATCAATGG TTGGCGTTAAAAGGCATTGGGCCGTGGACGGTCAGTTACGCCCAATTGCG AGGCCTTTCGCAGCCAGACAGACTGCTAGAGAAGGATTTAGTGGTGAAAA AAGCACTGGCTCAGTTCCCCACTTTGAATCAAGAAAGCGCTTCACCTTGG GGGAGTTACGCAACTTTTCATCTATGGAATCAATAA >VV20618 Transposase ATGAAGCGTCAAGATTTGACTTCGAAAGCCGCATGCAAGTTTAAGGGAAT AGCGTACAGCAAGCATAAAATGCCTGTTGCTACGAATCTGCTGGGGCACA CTTGTGTTGAGTACTTTTTCCATTCAATGAGAGTAGGAGCAATCAAATAT GACCTGAACATTGCGCAAGGTGATGTGCGTCAAGAAATCTTCGAATATAT AGAGGTTGATTATAATCGGAGGAGAAGGCACAGTGCTCTTAAGTATCTAT GTCTAGTTAACTTTGAACAACAAAATGTAGCTTAA >VV13148 Predicted methylated DNA-protein cysteine methyltransferase ATGGACCATTTTTTGCCCCAAATCTTTGCTGTAATTCAACAAATTCCCTT TGGTAAAGTGACCACGTACGGAGAAATCGCACGTATGGCTGGATTTCCTG GTTATGCAAGGCATGTCGGTAAAGCATTAGGAAACTTGCCAGAAGGCACA AAACTACCTTGGCATCGGGTGATCAACAGCCAAGGCAGAATTTCGTTGCA GGGTTCGGATCTCAATCGTCAACGCCAATTGTTGCTGGCTGAACAGATTG AAGTGAGTGAGATAGGAAAAATAAGTTTAAAAAAATACCGATGGCAACCA TAG >VV12317 Conserved hypothetical protein GTGAATCTAGAAAAATTTGACGACATCTATCAACGAGCCGCCGAGCGCAA AGGGGGCGAAGCAAAGCTTGAAGCCCTTTTGTCCAAACCGCTCACCCAAG CGCAAATTGCCGCTATTCCGGATGATCGTTGGTTATCTGCCTTCAGTATG AAGATTTTCCAAAGTGGCATATCTTGGAAAGTCGTGCGGAACAAGTGGCC AAATTTCGAAGAAGTCTTCTTTGGTTTTAAAGTAGCGCCTTTGTTGATGC TTTCTGATGAACAGTGGGATCTGAAAGCGGCGGATACGCGCATTATTCGC CATCATGCCAAGGTCAAATCCATTCAAGCGAATGCGCAAATGATGCACGA AGTGGGGTTGCAATACGGCTCATTTGGCCAAATGGTGGCGAACTGGCCGA AAGAAGAGATCACCGGACTCTGGGCGTTTTTGAAAAAGCACGGCAGTCGA CTCGGTGGTAACACCGGCCCTTACAGCCTGCGTCAGCTTGGCGTCGATAC CTTTATTTTGTCTGGGGATGTAGAGGCGTACTTGCGCAGCTATAAAATCA TTGAAGGCGGAAAAGAAACCAAGCGTTCGTTAGAAGCCGCAACACTGGCC TTTACTCATTGGCAACAGCAAAGTGGTCGCAGCCTCACGGAAATTAGCCA GGTTATCGCTTTTAGCACGGGAGATAACCGCGTACAAAGTGAGATTGAAG AATAA >VV11095 Serine/threonine protein kinase GTGCAGCTAGGTACCAGTACCACGCAAGTGTTCTATCGCTTGCTGGATCT CAATGAAGAAGAAAAACAACAAGCGCTCCAACAACTCGAACAAGACGCCC CGGAAGTCTATCGAGCGTTAACCCCTCTCATGCAACCGCAAGAGAGCGAG CCCCTCACCGAATTACTGGGTTTTCACGCCCATCACGCCACCGATACCTC GCTCGATTTGGCCGGCCAACTGATCGACAAATATCAGCTCACTCACGAGC TCGGCCGAGGTGGCATGGGGGTGGTGTACGCGGCCTACCGCGCTGACGAA ACGTTTGAACAACAACTGGCCATCAAGTTTATTCAACCCTCTCTGACCAA AGTCCTCGGTAAGAAAGCACTGTTTGATGAAGCGCAGTTACTGGCCAGGC TTAATCACCCCTGTATTGCCAAAGTCTTTGATGGCGGGGTCTACCAAGAT TCGGTGTACATTGTGATGGAGCAAGTCGACGGCGTAACACTCGACACCTA CCTCAAACACCACACGCTGGATCAAACAGCCAAGCTCACCCTGTTTCTGC AACTGTGCCAAGCGGTCGAGCACGCGCACCACAATCAGGTCTTACACGCG GATCTTAAGCCAGAAAACATTCTCATCGACCACGCTCAGCGGCCAAAGTT ACTCGATTTTAACTTAACGCAAAAAGTCAGTGACCAAGCAAAGCAACAAG GCAAAACTGGCTTGGTTGCGTTTAGCGAACATTACGCCAGCCCTGAGCAA AAATCGGGGGGCTATTTAACTCAGCAAAGCGATATCTACTCGCTCGGGAA AATCCTGCAGCTGCTGTTCCCGCACATGAAAAAGCGCTCCGACCTTTGCT TTATTGCCGAGAAAGCCACCCAAGCGATCGCGGAGCAGCGCTACTTAAGC GTGAGCGAATTACGCGTCGATATTGAGAACATGCTGGCGTGCCGTCCTAT TTCCCTCAAACAGCACATTCCGCTCTACACCACTAAGCGCTTAATCCAAA GAAGACCAATGCCGACCTTCCTGTTGACGCTTTTGGTGATGACGGGCGTG ATGTTTACCAGCACGCTGATCAACAAAAACCGTCAGCTTGAACAGGAAAA GCTCATTGCAGAAGAGATGATGTACGAAGTGACGCGTTTGATGTTCCACA CCAAAGGTAATCAGTTAGCACAAATGTCGGTGAGCTCGATGCTCGAAATC ACGCGGCGGCGAATCTTATCCAATCCTGATATTCCCAAGCACATCAAACA GAAAATGTTGTTGGCGATGATCACCCCCACACCAGAGAAACAAGTGGTTG AGGTGGATTGCCAACCCAACTGCCAGCACCCCTGA >VV10367 DNA repair protein RecN ATGCTGGCTCATTTAAGTGTTAATAATTTTGCTATTGTTAAGTCTTTACA ACTCGAGCTGTCAAAAGGCATGACAACCATTACCGGTGAAACCGGAGCAG GTAAATCCATTGCTATTGACGCACTGGGTCTATGCCTTGGTGGACGCGCA GAAGCCAGTATGGTGAGGCAAGGCGAGGACAAAACTGAAGTCAGTGCCGC CTTTCTACTCGACAACAATCTTCACGCCACACGCTGGCTAGAAGACAACG AACTTTTAGACGGCAGTGAATGTATTTTACGCCGCATTATTACCAGTGAA GGGCGCTCTAGAGCCTTCATCAACGGCAGTCCGGTTCCCCTTTCTCAGCT AAAAGCATTGGGACAACTGCTGATCAACATTCACGGCCAGCACGCCCATC ATCAATTGATGAAGAGCGAACATCAAATGGCCATGGTGGATCAATACGCT GGCCACCTCAACTTGCTGAAAAACACACGTGTCGCTTACCAAAATTGGCG CCAAGCAGATAATCATCTAAAACAGTTGCAAGAGAACAGCCTCCAAAACC AAGCTCAAAAACAGTTATTGGAATACCAAATAAAAGAACTCAATGAACTT GCGATTGGTGAAGAAGAATTTACTGAGCTCGAACAAGAACACAAGTTGCT ATCCAATAGCGGAGAGCTCGCCAGTACTTGCCAACATGCAATAGAACTTA TCTACGAAGGCGAAGACGTTAACGCACTCGGTATTTTGCAAAGCGCCAGC AATGCTTTGATTGAATTGGCAGAGCTAGACCCGAAACTCAGTGCTCTTCC TGATATGGTCGCCGAAGCGATCATTCAGCTTGAAGAAGCCAACAGTGAAC TCAGAAATTACCTCGATCGTATCGATGTCGATCCAGCTCGTATGGCCTAT GTTGAGCAGCGTTTTTCCAAGGTAATGTCCGTGGCTCGTAAACACCACGT TCAACCTGAAGAGCTTTATCAACATCATCAAGATCTGCTGCAACAAATAG AAGCGTTAGATTGCTCCGATGAAAAAATGGATGAGTTAGCCGCCAATGTG CAGGTTAAATACCAAGACTATCTTGAACAAGCGGAGAAACTGCATAAATC CCGCTGTCGCTATGCCAAAGAACTCAACAAGCTGATTAGCCAAAGTATGC ATGAACTGAGCATGGAAAAGGCAGTCTTTAACATTGAAGTCAACAATGAA GGCACACATCCCTCGCCATTAGGCTTAGACACTGTGTGCTTCTTGGTTTC AACCAACCCAGGCCAACCACTGCAACCTATTGCTAAAGTCGCTTCTGGTG GTGAGTTGTCGCGCATTTCTCTTGCCATTCAAGTCATCACGGCGCAAAAA GTCGACACACCTAGCCTCATTTTTGATGAAGTAGACGTAGGTATCAGTGG GCCAACAGCGGCGGTCGTCGGAAAAATGCTGCGTAAACTGGGAGAATCAA CTCAGGTGCTATGTGTGACTCACTTACCGCAAGTTGCAGGGTGTGGTCAT CAGCAAATGTTCGTGGCTAAGAACACCAAAAATGGCACCACAGAAACACA AATGCGCTTGTTAGACCAAAATCAGCGCGTGTCGGAGTTAGCACGCCTAC TTGGTGGAAGCCAAATTACTGAATCCACACTCGCCAATGCAAAAGAGTTG CTGATCGCAGCGTAG >VV10903 Putative Mg-dependent DNase ATGATTGACACTCATGCCCATATTTACGCCAAAGAATTTGACCAAGACCG CGACCAAGTTGTGCAACGCGCGCTTGAGCAGGGCATTGAAAAAATCTTAC TACCCAATATCGACCTCGATTCCATTGAGCCGATGCTACGCACCGAAGCC GCGTACCCAGACATATGCCATTCAATGATGGGGCTGCATCCATGTTATGT GGACAATAATGTGAAGCAGACGCTCGAGACGATCCACGCTTGGTTTGCAA AACATTCGTTCATTGCTGTCGGTGAGATTGGTATCGACTTGTATTGGGAT AAAACGTATCAAAAGGAGCAAGAGTGGGCCTTTGCCACTCAGCTTAATTG GGCAAAAGAGCTTAAACTGCCCGTTGTCATTCATACGCGAGATTCCATTC AAGAAACTCTCAAACTCCTAAAAGCCGAGCAAGACGGTACATTGAGTGGG GTATTTCACTGCTTTGGTGGTTCAATTGAAGAAGCCAACGCCATCAACGA CCTTGGTTTCCATCTTGGTTTAGGCGGGGTCACCACCTTTAAGAATGGTG GCATGGACAGTGTCATTCCAAGCCTAGATCTCAACTATGTGATTCTCGAG ACGGATTGCCCTTATTTAGCCCCCGTTCCACATCGCGGCAAACGGAATGA ACCTGCTTATACCCGATTGGTCAATGAACGGATCGCCGATCTACGACAAC TCTCCAATGAGGAAGTGGCTAAAATAACCTCAGAAAATGCCAAACGTTTG TTTCACTTACTGGATAAATAA >VV13200 Transposase and inactivated derivatives GTGAGAAAAGAAGTAACACGTCTGTCTATTAAAGTTGCCGGTATCGATAC AGCAAAAAATCTCTTCCAAGTATGTGTGTTGAGTACTGATGGACAAATAT TGTCAAACATAAAGGTAAAGCGAGATAAGCTTCTTGATACTATCCGTCAA CTACCAGAGCAAACTGCTCTTGCAATGACTCATGTGCAACTTCTCATCAT TGGGGCAGAATATTTCAAGAGCTGGGATATACAGTAG >VV10939 ATP-dependent RNA helicase RhlB ATGAAAAAGACGCATATCACAGAGCAAAAGTTCGCCGATTTGGGTTTAAA TCCCCAAGTTGTTGAAGGATTGGAAAAAAAAGGGTTTGAGTTTTGTACCC CTATCCAAGCCTTGGCGTTGCCGGTACTGCTCTCCGGCCAAGACATCGCA GGCCAGGCCCAAACCGGGACTGGTAAAACGCTCGCGTTTCTTACTGCTAC CTTTAACCATTTGTTGACCACACCTGCACACGAAGGCCGTCAGCCAACCC AGCCACGTGCCATCATCATGGCGCCAACACGTGAGTTAGCGATTCAGATC TACAACGATGCTGAGCCTCTAATCGCAAGTACTGGCATCAAAGCAGCCCT CGCTTACGGCGGTGAAAGCTATGATAAGCAGTTAACCAAGCTACAAGGTG GCGTTGACGTTCTGATCGGCACCACTGGTCGTATTATCGATTTTTACAAG CAGCGTGTGTTTAACCTCAATAACATTCAAGCGGTTGTGCTTGATGAAGC CGATCGCATGTTCGATTTGGGTTTCATTAAAGACATTCGTTTCTTGTTCC GCCGTATGCCAGCACCACAAGAGCGTCTGAACATGTTGTTCTCAGCAACG CTTTCTTACCGCGTGCAAGAATTGGCGTTTGAGCACATGCATAACCCAGA GCACGTTGTGGTTGAGCCTGAACAAAAAACTGGCCACCGCATTCAAGAAG AGCTGTTCTACCCTTCTAATGAAGATAAAATGGCGCTGCTACAAACACTG ATTGAAGAAGAATGGCCAGATCGCGCGATCATTTTCGCTAACACTAAATA TAAGTGTGAATCCATCTGGGCTCATCTTGCTGCCGATGGTCACCGTGTTG GCCTGCTCACTGGTGATGTTCCACAGAAGAAACGCGAAAAGATTCTTGAG CAATTTACTCAAGGTTCTGTAGATCTCCTCGTGGCAACCGACGTGGCAGC TCGTGGCCTGCACATACCGCAAGTAACGCATGTCTTTAACTACGATTTAC CTGATGACTGTGAAGACTACGTTCACCGTATTGGCCGTACTGGCCGTGCT GGTGCAAGTGGCCATTCGATCAGCTTTGCTTGTGAAGACTACGCCATCAA CTTGCCAGCAATTGAAGAATACATTGAGCACACCATTCCGGTCTCGGATT ACGATTCAAGTGCCTTGATCCAAGATCTACCAGCGCCAGTCCGTACACCT TCTGCGCGTAATCAGCAACGCCGCACGAACACTGGCGGTGCACGTTCAGG TGATCGTAAGTCAAACAACCGTCGTCCACGACAACCGCGTCAACACAAGG AAGCGTAA >VV10895 Putative ATPase involved in DNA repair ATGAGTGTAACCCTACTGGCCATTCTTGGTGGCGCAATCATTCTTGGTTT AGCGTCGTATGCTGGTTACCTTCTACTCCAGCTTAAAAAGCAAAAGGAGT TGCAGCTCCAGCATCAAAAATTGGCGATAGAGAAGCGCAACGCCAATATC TTTGATAGCGTAAATACCCTATGCCTTGCGGGCATTCAGGGTCAGTGTGA CTTATCCGAAATTGCGATTCGGGTTTATTGCATCATGGACTACGTTCAAG GTGAGGAACGCGTCGACTTCGATGCCACTTATCCCGCCATTGCGGAGCTT TACCACATCGTAAAAGATATGGCGCGTGGCGAAGAGAGACAAAAGCTGGA GAAACAGCAACGCATGAAGCAAAACCTTGAGCGCCACAAAGCGGAAGGTC GCCTCAGCGAAGCGGTGATTGAAGAGTTAAAAACTCTGCAACAGAAAGTG AAGCCGCTGAATAATCAAATCCATATTCAGATGATCTAA >VV11129 Site-specific recombinase XerC ATGACGACAGCGTCAAACACACCACTGCCTAGTGGCCTGAGAAAGCCGCT TGATCAGTTCTACGAGTACTTGCGTGCGGAGAAAGGCTTAAGCCTGCACA CCCAGCGCAACTACAAGCAGCAACTGGAAACCATGGCGGAACACTTACAC AGCATGGGGCTCAAAGCGTGGCCGCAAGTGGACGCAGGTTGGGTGCGCCA ACTGGCGGGCAAAGGGATGCGCGAGGGGATGAAGGCGAGCAGCATCGCGA CGCGTCTGTCTTCGCTGCGCAGCTTCTTCGACTTTTTGATTTTGCGTGGC ATCCTCACGGCCAATCCAGCCAAAGGGGTTTCGGCTCCGCGTAAAAAACG TCCTCTGCCCAAAAATCTCGATGTTGATGAAGTGAATCAACTGCTTGAAG TGAATGAGGATGATCCGCTGGCCATCCGTGATCGCGCCATCATGGAGCTG ATGTACGGTGCGGGATTGCGCTTGGCCGAATTGGTCGATATCGATGTCCG TGATGTGCATTTGCGCAGTGGCGAAATTCGCGTGATCGGTAAAGGCAACA AAGAACGCAAAGTGCCTTTTGCTGGCATGGCGGTCGAGTGGGTCGGAAAA TGGCTAAAAGTGCGCAGTGGTTTGGCAGACCCAAGTGAACCGGCGTTGTT TGTCTCGAAGCTGGGCACGCGCATTTCCCATCGCAGTGTGCAAAAGCGCA TGGCGGAATGGGGTCAAAAACAAGCCGTGGCGAGCCATATTACGCCGCAC AAACTGCGTCACTCATTTGCTACGCACATTCTCGAATCGAGCAATAACCT GCGTGCGGTGCAAGAATTACTTGGTCACGAAAACATTTCGACCACGCAAA TCTATACACACCTCGATTTCCAACATTTGGCCGATGTGTATGATCAAGCG CACCCAAGGGCGCGTAAAAAATCTTCTCAACACAAAGAGGAAGATGAATG A >VV10019 Bacterial nucleoid DNA-binding protein ATGGCACAAAGGGGAATCACAGTGAACAAAACTCAACTAGTAGAATCAAT CGCTGCAAACGCAGATATCTCTAAAGCGTCAGCAGGTCGTGCTCTAGATG CATTCATTGAAGCAGTAAGCGGTACTCTTCAGTCTGGTGATCAAGTAGCT CTAGTTGGTTTCGGTACTTTCAGCGTGCGTACTCGCGCAGCTCGTACAGG CCGTAACCCTAAGACTGGTGAAGAGATCCAAATCGCAGAAGCGAAAGTAC CATCTTTCAAAGCAGGTAAAGCTCTTAAAGACGCTTGTAACTAA >VV11224 Bacterial nucleoid DNA-binding protein ATGAACAAGACCCAATTAATCGACTTTATCGCAGAGAAAGCAGACCTATC TAAAGCACAAGCGAAAGCTGCTCTTGAAGCTACTCTTAACGGTGTGACTG ACGCACTAAAAGAGGGTGACCAGGTTCAACTAATTGGTTTTGGTACATTC AAAGTAAACCACCGCGCAGCACGTACTGGCCGTAACCCTAAAACGGGTGA TGAGATCCAAATCGCTGCAGCAAACGTTCCTGCATTCGTAGCAGGTAAAG CACTGAAAGAATCAGTAAACTAA >VV10943 ATP-dependent DNA helicase RecQ ATGACTTCCACGCTGCTTGCCGACCCTTCCGATGGCTCGATGACGCCCCA AAGCGTTTTATCACAGGTGTTCGGCTATCAGACCTTCCGTGAGGGGCAGC AGTCGGTGATCGAGGCGGCTGTTGAGGGGAAAGATAGTTTGGTGATCATG CCCACCGGTGGCGGCAAATCGCTGTGCTATCAAATTCCTGCTCTGGTACG CCCGGGTATTACCTTAGTGATCTCCCCTTTGATTTCGCTGATGAAAGATC AGGTTGACCAACTTAAAGCCAATGGTGTCGCGGCAGAATGTGTCAACTCG ACCTTATCACGTGACGCTTTGCTCAGCGTCTACAACCGCATGCACGCGGG ACAGCTCAAATTGGTGTACGTTTCGCCAGAGCGGGTGTTGATGCGCGACT TTATTGAGCGGCTGGAAAATTTGCCCTTGGCGATGATTGCTGTCGATGAA GCGCACTGTATCTCTCAGTGGGGACACGATTTCCGCCCCGAGTACGCCGC GTTAGGGCAATTGAAGCATCATTTTCCTCACGTGCCGTTTATGGCGCTAA CGGCCACGGCAGACGATGCGACGCGCAAAGACATTTTAAGTCGCTTACAT CTTAATGAGCCTCACGTTTATCTCGGCAGTTTTGATCGCCCCAACATTCG TTATGACCTAGTGGAGAAGCACAAGCCGGTCTCTCAAGTGATTCGCTATT TGGAAAGCCAGAAAGGCAATTGCGGCATTATTTATTGTGGTAGCCGTAAG AAAGTCGAAATGCTGACCGAGAAGCTGTGCAACAACCATATTCGAGCGGC GGGTTATCACGCTGGTATGGACGCCGATGAGCGCGCTTATGTGCAAGAAG CGTTTCAACGAGACGACATCCAGATTGTGGTGGCGACAGTGGCCTTTGGT ATGGGGATCAACAAACCCAATGTGCGCTTTGTGGTGCATTTTGATATTCC ACGCAATATCGAATCGTACTATCAAGAGACGGGTCGAGCAGGGCGTGATG GCCTGCCCGCCGAAGCAATGATGCTCTACGATCCGGCAGACATCACTTGG TTGCGCCGCATGTTGGATGAGAAAGACGACGGCCCGCAAAAACAAGTGGA AAGTCATAAGCTCAATGCCATGAGTGCCTTTGCTGAGGCGCAAACCTGTC GCCGCCAAGTGCTGCTGAACTATTTCGGTGAATACCGCGAGAAGCCTTGC GGCAATTGCGATATTTGCTTAGACCCGCCGAAGCATTTTGATGCGACGGA AGAAGCACGCAAAGCGTTGTCGTGTGTTTATCGCGTTAATCAGAGTTTTG GTATGGGCTACGTAGTGGAAGTGTTGCGTGGGATGCAAAACATTCGTATC CGGGAACATGGCCACGATAAGATTTCGACCTACGGTTTAGGGCGTGATCA CAGCCATGACTATTGGGTGAGCATTTTCCGCCAACTGATCCACAAAGGGC TGCTGTTTCAAAACATCACCCGCAATTCGACTTTGCAGTTAACTGAAGAA GCAAGGCCATTGCTGCGTGGTGATATGACGTTGGAGCTGGCGGTGCCACG TTTAGATACTGCCGCGCGCAGTGCCAAAGCAGATAAGCTATCGAACAAAC ATTACGACAAAAAGCTGTTCGCCAAATTACGTAAGCTACGCAAATCGATT GCCGATGAGGAAGAGATCCCACCCTATGTGGTGTTCAGTGATGCCACGCT GATCGACATGGCTGAAATATTGCCGACTTCATATGGTGAAATGCTCGCGG TGAGCGGCGTCGGGCAGCGCAAACTAGAAAAATACGCGGATCCGTTTTTA GATTTGATTCAGGAGCACATCACTCATTATGGATGA >VV11700 Transposase and inactivated derivatives ATGCCAATGCGCAAGAATACCCAATTTACTGAAGTTAGAAAGCTGGGTCG CAATGATCGGATTGTCGAACTCAAGACAACGCCTCAAGCGAGAAAGAAGT CCCTGTCACTACCTGAAACCATCGAAGTTCGCCTGATAAAGAAAACTATC AAAGGGAAAGAAGTGAGTATCTTGACCTCGATGACTGATCATCGTCGTTA TCCGCCAGCGGAAATAGCAGAGCTTTACAGTCATAGATGGGAAATCGAAG TGGGATATCGTGAAATGAAGTCTTCACTTCTGAACAACGAGTTCACACTG AGAAGCAAGAAGCCAGAGATGGTAAAACAAGAACTATGGGGCTTATTACT TAGCTATAACATTATTAGATATCAGATGGTTAACATGGCTAAAGCTGTGC CAGGCATCTACCCCAACCAACTGAGCTTCACAACGTGTGCTCACTCTATC ATTCACGTAATTTTGGGGTTCTGGTTGGAGTCAGCGGGAACAATCCCTAA GCGCATTACTCACTTGCAAGAGGAGGCGATACACCATGTCTTGTCCATTA AACGAGAAGAGCGGATATATCCGAGAGCAATAAAACCAAAGGCAAAGAAA TACCCCAATAAAAAAAGCCAGTCAGCTTAA >VV13053 Nuclease subunit of the excinuclease complex ATGTATAACGCCGAGGCTGTTGTTATTTATGTCGGTAAAGCCAAAGATCT CAAAAAACGCCTCTCAAGCTATTTCCGCAAAAAAGTTGACAGCGAAAAAA CCAAAGCATTGGTGAGTAATATTGCCAAAATTGATGTGACCGTGACGCAC ACCGAAACGGAAGCGCTGATTCTTGAGCATAATTACATTAAGCAATATTT GCCGAAGTATAATGTCCTGCTGCGAGACGATAAGTCTTATCCCTATATTT TCCTTAGTGCCCATCGCCATCCTAGGGTCTCTCTGCATCGTGGTGCTAAG AAGAGAAAAGGCGAGTATTTCGGACCTTATCCGGACTCAGGTGCAGTACG TGAAACCTTGCACTTGATCCAGAAAATTTTCCCGGTGAGACAGTGTGAAG ACACCGTTTATGCTAACCGAACGCGTCCTTGTTTGATGTACCAGATTGGT CGCTGTGCGGGCCCTTGTGTCAGCAGTGTCATTTCTGATGTCGACTATGC AGAGCTGGTGGGTTACTTACGTCTATTTTTACAAGGTAAAGATAACCAAG TTCTAGAGCTCCTAGTGCAAAAAATGGAGATTGCGAGCCAGCAACTTAAG TTTGAGGATGCGGCAAAATTTCGTGATCAGATCCAAGCGATTCGTCGTGT TCAGGAACAACAATATGTTTCGGAAGATAGCCAAGAAGATATGGATGTGC TCGGTTTTGCACAAGAAAATGGCATTGCATGCATCCATATCTTGATGATT CGCCAAGGTAAGGTACTGGGAAGTCGCAGTCATTTTCCCAAGATTCCTCA AAACACCAATGCGCAAGAAGTGTTTGACAGCTTTTTGACGCAATACTATT TGAGCCACAACGAAGCTCGGACGATTCCATCGCGCATCATTCTAAATCAG GAACTGGCTGCGGATGTTGAGGCGATTCAGTTGGCTCTCAGTGATGTCGC TGGGCGGAAAGTACAATTTCATACCTCGCCATCAGGGTCACGTGGTCGTT ACCTCAAATTGTCCAATACCAATGCGCTGACGGCAATGACGACCAAAATC AATCATAAGATGACGATTAATCAACGCTTTAAGGCGTTACGTGACGTTCT TGCGATGGACTCGATTGCTCGCATGGAGTGTTTCGATATTTCTCATACCA TGGGTGAAAGCACGATTGCCTCATGCGTGGTGTTCAACAGTGAAGGTCCG GTAAAGCAAGAGTATCGTCGCTACAACATTACCGGAATCACTGGTGGTGA CGACTATGCAGCCATGGGGCAAGCTTTAGAGCGTCGTTACGCCAAACAAC TGGATGTCGAGAAAATTCCAGACATTATTTTTATTGATGGTGGTAAAGGG CAACTTAATCGAGCACACGAAATCATCGTGCAATACTGGGGAGATTGGCC GAAGCGACCCGTGATGATCGGTATCGCAAAAGGGGTCACTCGTAAACCAG GTTTGGAAACTTTGATTACGGTTGATGGCGATGAGTTTCATTTGCCAAGT GATGATCCGGCTCTACATTTAATCCAGCACATCCGTGATGAAAGCCACAA TCATGCCATCGCAGGGCACAGAGCGAAGCGCGGAAAAACGCGTAAAACGA GTGCGTTAGAGGGCATTGAAGGCGTAGGGCCCAAACGCCGTCAGGCGCTG TTGAAATACACGGGAGGCTTACAAGAGCTCAAGCGTGCAAGTGTTGAAGA AATCGCCAAAGTGCCGGGCATCAGTCACTCTTTGGCAGAAATTATCTATC AAGCATTGAAACAATAG >VV13092 Excinuclease ABC subunit B ATGAGCAAACTTTACGATCTGGTTTCTGACTATGCGCCATCGGGAGATCA ACCAACGGCGATCAAACAACTGACAGAAGGGTTAGATGCTGGCTTGGCTC ACCAAACCTTACTTGGGGTGACGGGATCCGGTAAAACATTTACTTTGGCT AATGTGATTGCTCAAGCACAACGTCCTGCAATTCTGCTCGCGCCAAACAA AACTCTTGCCGCCCAACTTTACGGCGAGATGAAAGCGTTTTTCCCCAATA ACGCGGTCGAATATTTTGTCTCTTACTACGATTATTACCAACCTGAAGCC TATGTGCCAACCACCGACACCTTTATAGAGAAGGACTCATCGGTCAACGC TCATATTGAACAAATGCGTTTATCGGCCACCAAAGCGTTATTGGAGCGAA AAGACGCTATTATCGTCGCCTCTGTTTCGGCTATTTATGGTTTGGGTGAT CCCGAGGCCTACCTGCAAATGATGTTGCATATACGCCGTGGTGATGTGAT GGATCAACGCGACATACTGCGCCGTTTGGCTGAGCTGCAATATAGCCGTA ACGATATTGCTTTTGAACGAGGCCAATTTCGCGTGCGCGGAGAGGTGATC GACGTTTTTCCGGCTGAATCGGACCAAGATGCGGTGCGCATCGAGATGTT TGATGATGAGATCGACTGCATCAGTGTGTTTGATCCACTGACCGGAGTGG TCAAACAACGCGATTTACCCCGCTTTACTATTTACCCTAAGACTCACTAC GTCACACCTCGAGAGCGTATTCTGCAGGCGATTGAAAACATCAAACAAGA GCTGCGTGAGCGACAAACTTACTTGCGTGACAACAATAAATTGTTGGAAG AGCAACGTATTAGTCAGCGTACCCAATTCGATATTGAAATGATGAATGAG CTGGGATTCTGCTCGGGCATCGAAAACTACTCGCGTTACCTCAGCGGTCG AGCGGAAGGTGAGCCGCCTCCAACGTTATTTGACTACTTACCACACGACG GTTTGTTGATCATTGATGAATCTCACGTGACAGTGCCACAAATTGGCGCA ATGTATAAAGGTGACCGCTCACGGAAAGAGACCTTGGTTGAATATGGTTT CCGTTTGCCTTCAGCATTGGACAATCGACCATTGAAATTTGAAGAGTTCG AAGCGCTTGCGCCACAAACTATTTTCGTTTCAGCCACTCCGGGTAATTAC GAACTAGAGAAAAGTGCGGGCGAAATTGCTGACCAAGTGGTGCGTCCGAC CGGATTGCTCGATCCTGTACTGGAAGTGCGACCAGTGGCGACTCAAGTGG ATGATCTGCTTTCTGAGATCCGCATTCGCGCGGTGAAAGATGAACGCGTG TTAGTGACAACACTGACCAAACGTATGGCGGAAGATCTAACTGAATACTT GCATGAGCACGATGTGAAAGTGCGTTACCTACACTCTGATATCGACACGG TTGAACGAGTGGAGATCATTCGTGACTTGAGGCTAGGGGAGTTCGATGTG TTGGTGGGGATTAACTTGTTACGCGAGGGTCTCGACATGCCTGAAGTGTC TTTGGTTGCGATTCTCGATGCTGATAAAGAAGGCTTTTTACGTTCAGAGC GCTCATTGATTCAGACCATTGGCCGTGCAGCCCGTAACCTCCATGGTAAA GCGATCTTGTATGCAGACTCCATCACCAAATCGATGAAGAAAGCGATGGA TGAAACTGAACGACGCCGTGAGAAACAGCAAGCGTACAATGAAAAGATGG GCATTCAGCCTCAAGCCTTGAAGCGTAATATCAAAGATATTATGGAGCTG GGCGATATTACGAAATCCCGCAAGCAGAAAGTGAGCAAAACGGTGCCATT GTCGAAAGTGGCTGAACCATCACTGTCCTATAATGTGTTGACGCCACAGC AACTGGAAAAAGAAATCACAAAACTGGAAGCGCAAATGTACAAACACGCT CAGGATTTGGAATTTGAGTTAGCCGCGCAGAAGCGTGATGAAATTGAAAA GTTGCGTCAGCAGTTTATTGCTAACAGCTAA >VV12322 Conserved hypothetical protein ATGAACCATAACCGAATTGTTTGCTTTGATTTAGAAATGTGTTGCTGGAA CGAAGATGGCGTTGGGCGCACGGGCGAAATCATTGAAATCGGTTTAGCAG AGATTGATTTGCTCAAAGGTGAAATCGTCAAGCGTGCTCAATACTATGTG AAGCCTGAGCATGATGAAGTGTCGCTATTTTGCGCTGAGTTGACAGGTAT TACGCCACGTAAGATCGAAAAGCAGGGCAGGCCGTTGGCCGAAGTGATTA AATCGATGATCAAAAATTTCGGTGGCAGCAATAAAATCTACGCTTCTTGG GGGCGTGATGACCGAATCCTTATGCAAGAATGCCAAGAAAAAGGCATAGA TGCGCCATTTAATGAGTTCATTAATATTGCGACGTTGTACCGAATTCAAC ATCGCTTGAAGGACAAGCGTATTGGCCATCGTGCCGCGCAAGAAGCCAAA GGCATTGAGTGGGAAGGGCGCCAGCATTCTGGTTACGTAGATGCTTATAA CCTCGCTAAACTGGCATTAACCATGTTCTAA >VV10528 Single-stranded DNA-specific exonuclease GTGCCGGATATCCTCAAACGCATCTATCTCAACCGTGGTATTCAAGACAT AAGCCAGTTGGAAACTGCCGTCAAAGGGTTGCATTCATACCAAAAACTGC ACGGAATTGAACTTGCCGTTGAGCTGCTTTTTGAGGCTATACGTGAGCAG AAGCGAATTATTGTGGTCGGGGATTTTGATGCCGATGGCGCGACCAGTTC GGCACTCTCAGTGCTTGCCCTGCGCATGCTTGGCAGCAACAATGTCGACT ACTTAGTGCCCAACCGCTTTGAAGATGGCTATGGTTTGAGCCCTGAAGTG GTCGAGCAGGCTATCGCCTTGGGCGCTGAAGTGATCATGACCGTGGATAA CGGCGTCTCCTCCATTGAAGGGGTGCGTTATGCCAAAGAGCATGGCTTAA AAGTGTTGGTGACCGATCACCATTTGCCCGGGCAAGTGTTGCCTGAGGTA GATGCGATGGTCAATCCAAACTTACAGACCTGCGCTTTTCCTTCCAAAGC ACTGGCTGGGGTTGGCGTGGCTTTTTATCTGATGATGGCCTTGTGTGTCC ACATGCGTAAATGCGGTTGGTTTGCCGAGCAAGGTATGGCAGAGCCGAAG CTGATGGAGCTGGTGGATTTGGTGGCCTTAGGCACCGTTGCGGATGTTGT TCCGCTGGATGAGAACAACCGCATTTTGGTGCACCAGGGCCTGCAGCGCA TTCGCGCCGGGAAAGCGCGTCCGGGTATTCAAGCCTTGATTGAAGTGGCC AAGCGCGATGCTCGTCGTTTGGTGGCGGCAGATTTCGGTTTTGCACTGGG CCCGCGCATCAATGCCGCAGGGCGTCTGGATGACATGTCGTTTGGGGTTG AATTGCTGATGTGCAACAACATCCACGCGGCGCGTCGTATGGCGCATGAA CTGGACGGGCTCAATCAAACTCGTAAAGAAATTGAAGAGGGCATGAAGCA AGAGGCAATGGCGTTTTGTGAACGTCTGCAGTTTGGCGAAAACAGCGAGT TGCCTTATGGTTTGGCTCTTTTCCAGCGTGATTGGCATCAGGGCGTGATT GGCATTCTAGCGTCGAGAATCAAAGAGAAATATCATCGTCCGGTGATTGC ATTTGCCGATGGTGGCGATGGGTATATCAAAGGATCCTGTCGCTCTATTC CTGGCCTACACATGCGCGATGCGCTGGACTTGATTGACACACAAAATCCC GGCTTGATCCTCAAATTTGGTGGTCATGCGATGGCGGCTGGCTTGACCAT CAAAGAGTGCGATTTTGAACGATTTAGTCAGCTGTTTGATCAACTGGTGA AACGCGAATTGGATGAAGCCGCACTGAAAGGTATTGTGCTTTCTGATGGC GAACTCAAGCCTGAAGAGTTTTCTATGCATACTGCGGAGCTGCTGCGATC TGCGGGGCCTTGGGGGCAGGCATTTCCAGAGCCCATTTTTGATGGCGAAT TTAAAGTGCTACACCAGAAATTGGTCGGCGAAAAACATCTAAAATTGATG CTTGAGCCTCTATTCAAAGGTCATCCAACCAACATCATGATTGACGGGAT CGCCTTCAACGTCGATTTACGTCGCTGGCCAGATGCCTCGGTGAAAACCG TTCGCCTTGCCTACAAACTGGATATCAATGAGTTTCGCAACAATCAATCG TTGCAATTGATGATTGAACACATCGAAGCTCGATAA >VV12901 ATPase involved in DNA repair ATGAAGTTGGCACTGGCGGCATCAATGATGCTCTCCATTGTGGGTTGTCA GTCTACGCCAGAAGAAAAACTCACCCAAGAGGTGACAAACGAAGTCGCTG AAAATGCGAGCACGCCGTTTGTTGGCATTCAACAATCGCATCAACAATGG TCTCAAGCTCTACAAGACAGCGGGAAGCTGGCGATCTACGCACCGGAAAA CTTCAAAGATTTAACATCGGCTTGGAAAGAAGCCAGTGAGATCTACACAA AACTGGAAAAAGATCCTTCTCTAGCATCGAAAAGCTACTCTCTATTTTCT TCTGACACCTATGCGCAAGCGTATCAAGAGCAAATTAAGTTAGTGGATCA AAATTTCGCAGCGTTAGAAAAACTGAAAGCGAAAGCGGACGTGATCCTGG CAGATTCTATTGCTCAGATGGATTACCTAGCAGAGATCAATGCTGCGAAA CTCTACGCGAATGATTACAACAAGGTGCTTTCTCAGTATAAGAAGCTATT TTCTTACGTTGTGGTTGATGAGCTAGAAGAAGCGCAAGAGAAACAAGTTG TTTTCCTCAATACCGCGAAACAGCTTGAGGTGAAGGTAGTGCACAAAACG TTTATTCTACCGCTTCAACAAGAGCTGAAAACCCTAAAGAAAGAAGATTT TAATGAAGTTGCGCCAGTGAGTTTTGCCACGGCGGAAAACGTTATTAATA TTGCAGCAAACATTGCTCAAACCAATCCTCGTGATAAAGCCGCAATTGAG TTGGCAGTGGCGAACGCTCAGTTTGAGATCGAACACGTTAAGCAAGTCAC GCATCAGGTGAAACTGTTGGCTTCTGTCGAAGACGATGCTTTTGAAAACT CAGTTTTAGAAATTGAAAACAAGTTGCTCGCCATCTCTAAAGCAGTCGAT GGTTCTGATTACCGTGATGTGATGCTAAGAGAGCAAAGCGAGAAGATTCT TGCAAGCGTGAAACGCATGCACGAAGCAAACAAAACCACCGATTTGTCTC AGCAGGTGACAGAGCTTAACAGTAAAGTGAAAGTGCTCGAAACCAAGTCG GCTGAGCAAAAAACAGCATTGGAAAAAGCCAATCAACGTGAGCTGGCGTT AAATGCCCACATTGAACGCGAAGCTGCGCATATCAAGAGTTTGGAAGAGT TGGTCGCGAATCTGAAACTTCAGTTAGCGGCAAAAGATCAGCCTGCGTCT ACTGTGGAACAGGCAGATCCAGTGCAAGAGGGGACAGCATTAGAAGAGCA AGCTCCTCAAGTAGAAGAGGCAGCCCCTAAAGCCGAAGCGATTGAAACTG AAGAAGCAGCAAGCGACGTTGAGGCGAGTAGCGAAACCGCAGCGCCAGAA ACGCAGCCAGAGAATGCAGCAGAATAA >VV10855 RecG-like helicase TTGAAAAAATGGGCATTCCCCGTTGGCTGGCTCGCAGGCAAGCTCAAAGG TAAAGCCAAAGAAGCCGAATTAGCCCGCATTGCCAGTGGCGAAGCGAAAA TGGTGGTCGGGACACATGCGCTGTTCCAAGAACACGTGGTGTTTGACCAT CTTGCTCTTGTGATCATTGATGAACAGCACCGCTTTGGCGTGCATCAACG CTTGGAACTGCGCGAAAAAGGCGCCAAACAAGGCGCTTACCCACATCAAC TGATCATGACTGCTACTCCGATCCCTCGCACATTGGCCATGACCGCTTAT GCCGATTTGGAAACATCGGTGATCGACGAGTTACCGCCGGGACGAACCCC TATCCAAACCGTCGCGATTCCCGACACCAAACGCGAGGACATTGTCGAGC GCATTCGTCATGCCTGCCTCAATGAGGGTAAGCAGGCGTATTGGGTCTGT ACCCTGATTGATGAATCGGAAGTATTGGAAGCCCAAGCGGCAGCAGACAC TGCCGAAGAGCTGCAACGTAAATTGCCTGATGTGCGCATTGGTTTGGTGC ATGGCCGAATGAAACCGGCTGAAAAACAAGCGGTGATGCAAGCGTTCAAA AACAATGAATTGCATCTTTTGGTGGCCACCACAGTGATCGAAGTCGGGGT CGATGTGCCCAACGCCAGCTTGATGATCATCGAAAACCCCGAGCGCTTGG GTCTCGCACAATTGCACCAGTTGCGCGGTCGCGTCGGTCGAGGCTCGGTA GCAAGCCACTGCGTATTGCTCTATCACGCTCCGCTGTCCAAAACAGCGCA AAAGCGCCTCTCGGTATTGCGCGAAAGTAACGATGGTTTCGTCATTGCTC AGCGCGATCTTGAGATCCGTGGGCCAGGTGAGTTGCTCGGCACCAAACAA ACCGGCCTAGCGGATTTCAAAATTGCCGATCTCGTCCGCGACCAGCGCCT TATCCCCGAAGTTCAGCGCGCTGCACGCTACATTCACCACAATTACCCAC AAAATGCCGCCGCGATTATTGAACGCTGGTTGGGCGAGCGTGATATTTAT TCTAAGGCGTGA >VV11875 DNA polymerase III, alpha subunit ATGGTGGATGGCATCAATAAAGTTCCGGCTCTGGTCAAACAGGTGGCGGC GCTCGGTATGCCTGCAATGGCGCTGACAGACTTTACCAACCTATGTGGCT TGGTGAAATTTTATGGCGCAGCCCATGGTAACGGCATTAAGCCTATCATT GGTGCTGATTTCAAAATGCAATCGCCCGAATTTGGCGACGAACTCACCCA GCTAACCGTCTTGGCGGCAGATAATACCGGCTACAAAAACCTGACCCTGC TGATTTCCAAAGCCTACTTGCGAGGTCATGTTCAACATCAACCTGTCATC GATAAAGAGTGGTTGATTGAGCTATCAGAAGGATTGATCATCCTTTCAGG TGCACGTAACGGTGAAATAGGTAAAGCACTGCTGAAAGGCAATCAAAAAT TGGTCGAAAGCTGTGTTGATTTTTATCAGCAACATTTTGCCGATCGCTTT TATGTGGAGTTGATCCGTACCGGTCGTTCTGACGAAGAAACCTACCTGCA TTTTGCCATCGAACTGGCAGAGCAATACGATCTCCCTGTGGTGGCCACTA ACGAAGTAGTCTTTATTGGACAAGAGCTGTTCGACGCTCACGAAATTCGC GTTGCGATTCATGATGGCTATACGTTAGAAGATCCACGTCGCCCTAAAAA TTACAGCCCTCAGCAATATTTACGCACCGAAGAAGAGATGTGCGAGCTGT TTGCCGATATTCCTGAAGCGCTTGAAAACAGTGTTGAGATCGCCAAGCGC TGCAACGTTACTGTGCGTCTTTGGGAATATTTCCTTCCTGCGTTTCCAAC CGAAGGGATGGCAGAAACCGAGTTCTTGGTGATGAAATCCAAAGAGGGCT TGGAAGAGCGTCTCGAGTTTCTTTTCCCTGATCCTGAGATTCGCGCGCAA CGTCGTCCTGAGTATGACGAACGTTTGCAGGTCGAACTCGATGTGATTAA CCAAATGGGCTTCCCGGGTTACTTCCTGATCGTAATGGAGTTTATCCAGT GGTCGAAAGACAACGGTATTCCTGTTGGCCCTGGCCGTGGTTCTGGTGCG GGTTCGCTGGTGGCCTACGCATTGAAAATCACCGACCTTGATCCGTTGGA ATATGATCTGCTGTTCGAACGTTTCTTGAACCCAGAACGTGTATCCATGC CCGATTTCGACGTCGACTTCTGTATGGATAAACGTGACCAAGTGATTGAC CACGTGGCCGAAATGTATGGCCGAGATGCGGTATCACAGATCATCACTTT CGGGACCATGGCAGCCAAAGCTGTTATTCGCGATGTGGGCCGAGTACTTG GCCACCCGTTTGGTTTTGTTGATCGCATTTCAAAATTGGTGCCACCCGAT CCAGGTATGACGCTGGAAAAAGCATTTAAGGCGGAACCTGCATTACCTGA GCTGTATGAAGCTGATGAGGAAGTGAAAGAGCTCATCGACATGTGCCGCA TTTTGGAAGGCTGTACACGAAATGCCGGTAAGCACGCGGGTGGGGTGGTG ATCTCTCCAACCACGATCACCGATTTTGCGCCGATTTACGCCGATGCAGA AGGTAACTTCCCCGTTACTCAGTTTGACAAAAACGACGTTGAAACCGCCG GTTTGGTTAAGTTTGACTTCTTGGGACTGCGCACGTTAACCATTATTGAC TGGGCGTTAGGTTTGATTAACCCGCGCTTAGAGCGTGAAGGCAAAGCGCC AGTTCGCATCGAGTCGATCCCGCTCGACGATCCGGCATCGTTCCGTATAT TGCAAAACTCGGAAACGACAGCGGTTTTCCAGCTTGAATCGCGCGGCATG AAAGAGCTGATCAAACGCCTTCAGCCGGACTGTTTTGAAGACATCATCGC ACTGGTGGCGCTGTTCCGTCCGGGGCCGTTGCAATCGGGCATGGTAGATA ACTTTATCGACCGTAAACATGGCCGAGAAGCCATCTCTTACCCGGATGAG AAGTGGCAACATGAGTCGTTAAAAGAGATTCTTGACCCAACCTACGGCAT CATCCTGTATCAAGAACAGGTTATGCAAATCGCTCAGGTACTCTCTGGGT ATACCCTTGGTGGTGCGGACATGCTGCGCCGTGCTATGGGTAAGAAAAAA CCAGAAGAGATGGCCAAGCAGCGCGCTACCTTTGAAGAAGGCGCGGTGAA AAATGGCATCGATGGCGAGTTGGCGATGAAAATCTTCGACTTGGTAGAGA AATTTGCGGGCTACGGTTTCAACAAATCGCACTCTGCTGCCTACGCTTTG GTGTCATATCAAACCCTTTGGCTGAAAACGCATTATCCAGCCGAGTTCAT GGCCGCGGTAATGACCGCAGATATGGACAACACTGAAAAAGTGGTTGGCT TGGTGGACGAATGTTTCCGCATGAAACTCACGGTACTACCACCGGATATT AACTCAGGTCTGTACCGTTTCAACGTGGACGAAAATGGCGCAATTGTTTA CGGTATTGGCGCGATCAAAGGGGTTGGTGAAGGCCCGATTGATGCGATTC TCGAAGCGCGTACCAAAGGTGGGCACTTCAAAGACTTGTTTGACTTCTGT GCGCGCATTGACTTGAAGAAAGTCAACAAGCGTGTGATTGAGAAACTGAT TTACGCAGGTGCGTTGGACCGACTTGGCCCGCATCGTGCTGCATTAATGG CGTCATTGGATGACGCGGTGAAAGCGGCGAGCCAACACCATCAAGCGGAA GCATTTGGCCAAGCCGATATGTTTGGTGTATTGACCGATGCGCCGGAAGA GGTGGAACACAAATACATTCAAGTGGAACCTTGGCCAGAAAAAGTGTGGC TTGAAGGGGAACGTGAAACGCTGGGCCTTTATTTGACAGGGCACCCAGTT AATGCGTATCTCACGGAACTCAATAAGTACACCAGTTGTCGATTAAAAGA CGCCACCCCAACGCGTCGTGATCAATCACTGACACTGGCTGGCTTAGTGA TCGCCGCCCGTGTGATGACCACCAAGCGTGGTACGCGTATCGGTATCATG ACATTGGATGATCGCAGCGGTCGTATGGAAGTGATGTTGTTCTCAGATGC GTTAGAACGGTATGCAGATCTACTGGAAAAAGATAAAATCTTGGTGGTTT CTGGACAGGTCAGCTTTGATGACTTCAATGGTGGCCTTAAAATGACGGCT CGCGAAGTTATGGACCTCGGTTCTGCGCGTGAAAAATACGCCAGAGGGGT GTCTGTTTCGATTGCCGCATCACAGATTGATGACCAGTTTTTTGAGCGCT TTAGTCGGATCTTAGAACCGCATAAAGCCGGAACGATTCCTGTCAATGTA TACTACCAGCGTGCCGACGCCAGAGCGCGGTTAACATTGGGCACGGAATG GCGAGTAACGCCTAGTGATACATTACTTGATGAATTAAAAATGTTGCTTG GTAAAGACCAGGTAGAACTCGAATTTAACTAA >VV10631 DNA primase ATGGCAGGACACATCCCACGCAGTTTTATTGATGATCTCCTTGCTCGACT TGATATCGTCGACATCATCGACCCACGGGTGAAACTTAAGAAAAAAGGCA AGAACTATGGGGCGTGCTGCCCATTCCACAACGAAAAAACCCCCTCTTTC AGCGTTAGCCAAGAAAAACAGTTCTACCATTGCTTCGGTTGCGGTGCACA CGGCAATGCCATCGATTTTATGATGGAATTTGAACGATTGGAGTTTGTGG AAGCCATTGAGGAACTTGCCTCTTATCTTGGTCTCGACGTTCCACGCGAA CAACGCTCAACCAACACTAAGTTTAGCCAAGCACCTCAAGCCAGCAGTAG CCAAAAGCGCAGCCTCTACGATTTAATGGCCAGCATTAGCCAGTTCTATC GCAATCAACTGAAGCTTTCTTCAGGCAAAATCGCGATCGATTACCTAAAA AATCGCGGCCTATCAGGCGAGATCGTACAGAAATTTGGCATTGGTTATAT TGCCGATGAATGGGATTTGGTGCGTAAAAACTTTGGTCAGCATCCTGAAG CACAAGAGATGCTGGTCGCCGGTGGTATGTTGATCGAGAACGAAAAAGGT AATCGCTACGATCGCTTCCGTGGCCGTGTGATGTTCCCTATTCGCGATCG CCGTGGGCGTGTTATCGGATTTGGCGGGCGAGTGCTTGGGGATGGCACCC CAAAATATCTCAACTCACCAGAGACCCCAATCTTCCACAAAGGCAAAGAA CTTTACGGCTTGTACGAAGTCCTACAGGCATATCGAGAGCCACCTCAAAT TTTAGTGGTCGAAGGCTATATGGACGTTGTCGCGCTAGCCCAATATGGCG TAGATTATTCCGTCGCTTCCCTGGGAACGTCCACCACGGGTGATCATCTA CAAGTGCTGTTTCGTCAAACCAGCACCGTCGTCTGTTGTTACGATGGTGA CCGGGCAGGAAGAGAAGCCGCTTGGCGAGCCATGGAAAACGCATTGCCTT ACTTAAATGATGGCCGACAATTGAAGTTCATGTTTTTACCTGATGGCGAA GATCCCGATTCGTATATTCGTCAATTTGGTAAAGCGCAGTTTGAGCAACA AGTGGCCAATGCCATGCCCTTGTCAGAGTTCATGTTCAGCTCGCTTGCGC AACAAGTTGACATGAGCAGCAAAGAAGGTATGGCGAAGCTCACAACCTTA GCGGTTCCTTTGATCGATAAAGTGCCAGGCGGCACTTTGCGTCTATACTT GAGGGAATTACTTGGCCGCCGTTTAGGCTTGGTGGATGAACGACAGCTGC AACAACTGATCGATCGCCAAGGCCAAACCGACAAAAAGCCACAGCCCCAC CGTGAGCTAAAAAGAACACCCATGCGTGAAGTGGTCGCCCTATTAATTCA GCGTCCAAGCTTCTCGCAGCTGGTGCCGGATTTAACCCCGGTCAAACATT TAACCATACCCGGCTTGAGTTTATTGATAGAAGTGCTTGAAAGATGCCAA GCACGCCCCAATATAACCACAGGCCAATTGCTAGAAAGCTGGCGTGGCAG CCAGAATGAACAACTTCTGTCTCGTTTAGCAGGTTGGGAAATCCCCCTCG ACGATGACAATGAAGAAGACATATTTTTAGACTCGCTGGACAAGATTCTT GCTCAGTGTGTTGAAAAGCAAATTGAGAACCTGCAGGCAAAAGATAGAAG CATCGGCTTATCAGCCGATGAAAGAAGGGAGCTTATGGCACTCATGCTAG ATTTAAAAGCGTAA >VV20623 ATPase involved in DNA repair ATGGCAAGCAAGCACGATTTTGAGATCGAGTCATTCTCCAGTAGCGAGCT AGTTGAGCGGCTTGAGGGCTGCTCGCCACTGCAGGCCTGCAAAGTGTTGC TCGATGTCGAATTGCACGATCAGCGAGACAGCCTAGAAGTGTTACAGAGC ATTGAGGAGCAAGTAGCTGACAGTCAAGCGGGCATCGGCGAGTCACTGGT TAAGCCGATCCTGCTGAACGTGTGTGACGGCCTGGTCAGCCACCCGAAAC TCAAGTTGTCAAAAAAGGGGCTTACAGCCTCCCGGTTGGTGAATGAGTTA CAGAGTTTCAGTTATGATGCGTCGGCGAGCATGGCGGTCGATCATCGGCT CGATAAACAACGTCTGGACGAGCATACGCGAAAGCAGCGAGACGATAAGG GGCCATACAAAGGTAAGCGGAAGATAGTCGAAGATACCGATAAGCTCGAT GACTACCTGGACAGACGTATCAAAAATAACCGGCGCATCGAAAGTGAGCT TGAAGTCAATGAACAGGGGCAGAAACGCTATTTATACCGGCGAAGCGATG CGCTCAACCAGGCGAAAAAAGAGCAGGGGAGCAACTATTCCAAAAGTGAG ATTAATGTTGATCACCAAGTTCCGCTGAAACATGCTTTTGAGGAGTATGG TCAGAGTAAAGCAATTTCGCTCGATGATCTAAAAATGGCGCTCAACCAGG ACGCGAATTTTAAGAATATTTCCGGAAAGCTTAACACGTCAAAAGGAGAT AAATCCTGGAGTGAATACCAGCAATGGGTCGAGAACAAGCGAGGCCGGCT TGAGGATAAGCAAAGAGCGGGGACCCTATCCAAGTCGGAGCTGCAGGAGT TAAATGACCTGCCGACGAAAAAAACGCTGGATAATGCCCTGGAGGCGGAA AAAACAGCCAAGGCGGCGATCGAAAGTGATCTGAACAAAGTGGTGGCCAA CAAGTTAAAAACAGATCATGGCATAGGAAAAAAGCTGGCGAAGGAAGCCT ACAGTCAGGCGAAAGATGAGCTGGAAGAAAAGGGGATTGGTGAGCTCATC ATTCTCATCATTAAGCCCATTTTCTTTGAGCTGCGAGACATTTTACAACA TGGCGTGCTTTCCGGGCTTGAGACCGATTCCAAGTTAGATGCGATAGGTC TACGGTTTAAGAGAGCGTATCGTTACATCACGGCGAACCTGAAACACATC GGGTTTGATGTTATCAAGGACGCACTGAAAAACTTTGTAAAGTACCTGAT CAATGCGGTTGTTAACCTGTTTGTTGGAATGTTAAAACGGGCGCTGAAGA TCATTTCTGAAGGATTCAATGCCATGATTCAGGCGGTCAAGATCTTGTTC AGTGACAGCACTCCAGCTCAAAAAGCCGATGCGATTACCAAGTTGCTTGC CACGACCGTGGTTACCTATGTGAGTTTCACCTTTGAGCAGGTGATATCAC CGTATGTCGACATGATCCCTGTGGTGGGTGAGCATCTCAAAGAGGCGACC AGCATCATGGTGTCAGGGATTGGTTCAACCTTGGTGGTTTGGCTGCTTGA TCAGGCCGATATTTTTTCAACCAAGGCCGAGTTGCGCACTAAGCGGGTAA AAGAAGTTTTTGAGATGAGAATTCAGCAAATCAAAGACAACACGGATGCG TTTGAAGAGGCGTCGATAGCCAAGCTGGCCCAAGATAAACTACAGTTTCG TTCGCTGACTGAACATCTATCAAGAGCCATTGATGATGACAGTAACGTCA ACTCTGACGTTGAAGTGATAGCCGATTTCATGAAAATCGATCTTAAAATC AGATCCAGCGATGATTTTATGGCCCTGCTAGAAAACAATAATACGCTGGA AATCGCATAA >VV13038 Type IIA topoisomerase, A subunit ATGAATGTACTAGGCAACGACTGGAATAAACCATATAAAAAATCTGCCCG TGTCGTCGGCGACGTAATCGGTAAATATCACCCTCATGGTGACAGTGCGG TATACGACACCATCGTGCGTATGGCACAACCGTTCTCGCTACGTTACATG CTGGTCGATGGCCAAGGTAACTTTGGTTCGATCGATGGTGACTCCGCGGC AGCAATGCGTTATACCGAAGTTCGCATGGCGAAAATCGCCCACGAGCTTT TGGCTGACCTAGATAAAGAAACCGTGGATTACGTGCCGAACTATGACGGT ACAGAACAGATCCCAGCGGTTCTTCCTACGAAAATTCCAAACCTGCTGGT CAACGGTTCTTCCGGTATCGCAGTAGGTATGGCAACCAACATTCCTCCGC ACAACTTGACGGAAGTGATTGATGGCTGCCTTGCATACATCAATAACGAA GCCATCACGATTGATGAGCTGATGGATTACATTCCTGGTCCAGATTTCCC TACGGCTGCTTTGATTAGCGGACGTAAAGGCATTATTGACGCGTACAAAA CTGGTCGCGGCAAAATCTACATGCGTTCAAAAGCGGAAATCGAAGTCGAG AAGAATGGCAAAGAAACCATCATCGTTACTGAGATCCCATATCAAGTGAA CAAAGCTCGTTTGATCGAAAAGATCGCTGAGCTAGTGAAAGATAAGAAAG TAGAAGGCATCAGTGCACTGCGCGACGAGTCGGACAAAGACGGTATGCGC ATTGTTATTGAATGTAAGCGCGACGCAGTGGGTGAAGTGGTTCTAAACAA CCTTTACGCCCAAACTCAGCTGCAAACGACTTTCGGCATCAACATGGTTG CGCTTGATAACGGCCAGCCAAAGCTATTCAACTTGAAAGAGATGTTGAAG TGCTTCGTTGATCACCGTCGTGAAGTCGTCACTCGTCGTACTATCTTCGA GTTGAAGAAAGCACGCGATCGTGCCCATATCCTTGAAGCGTTGGCGCTGG CTCTTGCGAACATCGATGAAATCATCGAATTGATCCGTAACGCAGCGACT CCTGCAGAAGCGAAAGCGGGCTTAGTGGCTCGTGGCTGGGATCTGGGCAA CGTAGCTGCCATGCTTGAAAGCGCCGGAACTGACGCTGCTCGTCCAGATT GGCTTGAACCTCAATATGGCATCCGTGATGGTCAGTACTTCCTAACGGAA ACCCAAGCGCAAGCGATCCTTGATCTACGCCTACATAAACTGACAGGCCT AGAGCACGAGAAGATCCTAGACGAGTACAAAGCGCTATTAGACGAAATCA AAGAGTTGATGCATATCCTTGCAAGCACTGAACGTTTGATGGAAGTGATT CGCGAAGAACTTGAAATGGTTCGTGATGCATTCGGCGATGTACGTCGTAC TGAAATCACCGCTGCGAGCCATGACATTGATCTTGAAGAGCTGATCGCTC GTGAAGACGTTGTTGTGACGCTTTCTCACGAAGGTTACGTTAAGTACCAA ATTCTAAGCGACTACGAAGCACAGCGTCGTGGTGGTAAGGGTAAGAGCGC AACCAAGATGAAAGATGAAGATTACATCGAACGTCTATTGGTAGCGAACA CGCACGACAACATTTTGTTGTTCTCAACACGTGGTAAGACTTACCGCCTG AAAGTATATCAATTGCCTCTCGCCAGCCGCACGGCTCGTGGTAAGCCAAT TGTGAACCTACTACCGCTGGAAGAAAGCGAACGTATTACGGCTATTCTAC CGGTAACAGAGTTCAGTGCTGACAAGTTTATCTTCATGGCAACTGGCGAT GGTACGGTGAAGAAGACCTCACTTGATCAATTCTCCAACGTTCGTGCAAA TGGTCTTATCGCTGTGAACCTACGTGATGAAGATTCGCTGATTGGTGTTG ATATCACTGACGGCGAAAGCGAAATCATGCTGTTCTCTAAATTTGGTAAA GTGGTGCGCTTCAAAGAAGCAGAAGAGAGCCCAGTACTGGATGAAAATGG TAACCCAGCTCTTGATGAGAACGGTCAGCCAGAGATCAAGTTCAAAGGCG TGCGTCCTATGGGCCGTACCGCGGCAGGTGTTCGTGGTATGAAACTCGCT GATGGCGATCAAGTTGTGTCACTGATCGTACCGAAGAATGACGGCGATGT CCTTACTGTGACTGAAAACGGTTACGGTAAACGTACTGTGCTTTCAGAGT ACCCAACCAAAGGCCGCGGCACTCAGGGTGTTGTGTCTATTAAGGTTTCT GAGCGTAACGGTAGTGTTGTTGGTGCGGTTCAAGTTGAAGACGGTGACGA ATTCATGATGATCACGGACGCTGGTACACTAGTACGTACTCGTGTGGCGG AAGTGAGCCAAGTGGGTCGTAACACTCAAGGTGTCACCCTGATCCGTACT GCAGAAGACGAATCGGTCGTGGGCTTACAGCGCATTGATGAAGTTGAAGA AACTGAGTTGCCAGAAGGCGAAGAAGCGGACGCAACGGAAGCGACTGAGC AAGCACCTCAGGCACAAGATCCTCAAGCAGACAACGATGACGCAGCCGAC CAAGAGTAA >VV13130 Topoisomerase IA ATGACCCGTCTGTTTATCGCTGAAAAACCCAGCTTAGGCCGCGCGATTGC TGCCGCATTGCCCAATCCTCAAAAGAAAGAACAAGGCTTTATTCGCTGTG GCAATGGTGACATCGTGACGTGGTGTATTGGACATTTGCTGGAGCAAGTT GAGCCAGATGCTTACGACGAACGTTATAAAAAATGGAATATGGCGGATTT GCCCATCATCCCTGAGCAATGGCAACTGCGCCCACGTCCATCGGCCAGTA AACAATTGACCGTGATTCGCAAGCTGCTAAAAGAAGCAAGTGAAGTGATC CATGCAGGCGACCCTGACAGAGAAGGGCAATTGCTGGTGGATGAAGTGCT GGATTACTGCAAACTGAGCCAAACCAAAAAAGCACAAACCCAGCGATTGT TGATCAGCGATCTCAACCTGCCTGCAGTTAAGCGTGCGTTGAATAGTCTG CGCAGCAATCGTGATTTCATCCCACTGTCGGTTTCTGCACTGGCACGCTC ACGGGCTGATTGGCTTTATGGCATGAATATGTCACGCGCTTACACTTTGC TGGGGCAAAAAGCAGGCTATCAAGGTGTGTTGTCAGTCGGACGAGTACAA ACGCCGGTATTGGGGCTGGTGGTGCGCCGTGATGAGGAAATCGAGAATTT CGTTCCGCGTGATTTCTTCACTCTTCACGCGCTGATCCCTTATCAGAATG GCAGTGAACCGTTTGACATCAAAGCACGTTGGAAACCGAGCGAAGCTTGC CAACCTTGGCAAGACGAAGAAGGGCGAGTCTTGAGTCGTAAACTGGTGGA AAATGTTGCCAGTCGTATTGCCAATCAACCTGCTACCGTGACGGAATCGG AACACAAACAGACCAAGCAAGCCCCGCCTTTGCCTTATTCGCTGTCGGCG CTGCAAATTGATGCGGCTAAACGCTATGGTATGAGTGCACAACAGGTGCT GGATACGTGTCAGTCACTGTACGAAAAGCACAAACTGATCACCTACCCAC GCTCGGATAACCGTTATCTTCCTAAAGAACATTATGCGCAGGCCGCCAGT GTCAGCCAAGCCATTGCCAACAATGCGAAAGAGCTGGCCGATGCGGTGAG TGGCGCTGATCTTTCTTTAAAATCGAAAGCGTGGAACGACAGCAAAGTCG AAGCCCACCATGCGATTATCCCCACGCCGAAACAAGCCAGTGTTAACGCG CTGTCTGGCTACGAAATGAAGATCTATCAATTGATCGCCAGACAGTATTT GATGCAGTTCTATCCCGCTGCCACATACGCTGAAGCCAAACTGGTGTTTG AGATTGCTGGTGGTGTCTTTATTGCGAAAGGTCGCCAATTGACGTTCGCT GGTTGGAAAGCACTCACGGGAGCAACAGAAAAAGAAGAGGATGGGGCAGA TACCGTACCACCCCTTGCGAAAGGCACTGTGCTTACCTGTCGAGAAGGGG TAATCAAAGACTGTAAAACCGAGCCGCCAAAGCACTTTACCGAAGCGACC TTATTGCAGGCGATGACGGGAATTGCACGTTACGTCAGTGATAAAGAACT GAAAAAAATCTTAAGAGAGACCGACGGATTAGGTACGGAAGCGACCAGGG CGGGCATACTCGATACTCTGTTTAAACGTCAGTTACTCTCTCGACAAGGC AAAGCCATTCTTAGTACTCCAGCAGGGAGAGGGTTGATCCATGCGTTGCC ACAAGAATCAACTTATCCGGATATGACGGCTCACTGGGAGCACCAATTGC AAGGCATGGCTGAACGCAACCAAGCCTACCAGCCATTTATGGCTGCCTTG CAACAGCGTATTTCGGAATTAATGCAGCAGGTCAAAACATCACCCGTGCC GAGCTCGCTGCGTCAACTGCCACCAGTGGAGCGCCCAGAGTTTAAGCGCA AGAGACGCACCAGTAGCAGCAAGAAAACGGCGTCAACCGCGACCCAAAAA AGAACCAACAAGTCGGCTTAA >VV12375 Integration host factor, alpha subunit ATGGCGCTCACAAAAGCCGATTTGGCAGAGAACCTGTTTGAAAAACTAGG ATTTAGTAAACGGGACGCCAAGGACACGGTTGAAGTGTTTTTTGAAGAAA TTCGCAAGGCACTAGAAAATGGCGAGCAGGTAAAGCTATCAGGTTTTGGT AACTTTGATCTACGAGATAAGAACGAGAGACCTGGTCGTAACCCTAAAAC CGGTGAAGACATTCCAATTACTGCACGACGCGTTGTCACATTCAGACCAG GCCAGAAGCTAAAAGCTCGTGTCGAAAATCTGAAATAG >VV12989 DNA polymerase III, alpha subunit ATGTTTTACGCTGAACTCTTTTGCCAAAGCAACTTCTCTTTTCTGACGGG GGCTTCTCACCCTGAAGAACTCATCGTGCAGGCGAATTTTTTAGGCTACC ACTCGCTGGCGATCACGGATGAGTGCTCACTGGCAGGCATCGTAAGAGCA CACAGTGCCATTAAGCAACATCAACTTTCGGTCAAACAAATCGTCGGCAG CTTTTTTAAACTCAATACAGAATGTCAGTTTGTCTTGCTCTGCCCCAACC GCGAAGCCTACGCTGAATTATGTCGAATCATCACCAACGCTCGTCGACGT TGTGAAAAAGGCCAATACCAACTGTCACAGTGGGATGTCATGTCTCTAAA ACATTGCTTGCTCATCTGGCTTCCGACAGGGCAAACGAGTGATGAACAAT GGGCAACATGGCTTTCTCGTTATCAACAATCACGTCTTTGGCTTGGCTTA CAACGCCATCTTCGCCATGATGATGAACATTACCTTCACCACTGCCAAAC ATTGGCAAACCAGTTTGATTTGCCCATCACAGCCTGCGGTGGAGTATTAA TGCACAGACCCGAGCGATTACCTCTACAGCACACGCTCACCGCCATTCGT CACGGTTGTACGGTAGAACAACTGGGCACACAGTTATTGACCAATGCAGA GCAGTCTCTGCGTTCGGAGAAGAAACTCCGCAAGCTGTTCAAACCTCAGT GGCTCGCAGAGAGTCTGTATATCGCCAGCCTATGCAGTTTTGACCTTGAT AGTTTACGTTATGAATACCCAAGCGAGTTGATTCCTGATGGCTATACTCC CGACTCTTACCTCGAACACCTTGTCGAACAAGGCAAAAAATTGCGCTTTC CAGAAGGGGTTCCCGACGCTATCGAGCAAACGATTCAAAAAGAGCTTGCT CTGATTAAAGAGCAAAAATACCCATTTTTCTTCCTCACTATCCATGACAT TGTCATGTTTGCCAAACAGCAAGGCATTCTCTACCAAGGGCGAGGGTCTG CGGCCAATTCCGTCGTCTGCTATTGCTTACAGATCACCTCCGTTGACCCT AGACAGATCGCGGTACTATTCGAGCGTTTTATCAGTAAAGAGCGTGACGA GCCACCGGATATTGATGTTGATTTCGAGCACGAACGACGTGAAGAAGTCA TTCAATATATCTATCAAAAGTACGGTCGCCAAAGGGCTGCGCTGGCAGCG ACGGTTATCTCCTATCGTTTCAAAAGCGCCGTTCGACAGGTAGGAAAAGC CTTGGGTATCGAGGAAACACAGCTCGATTTTTTCTTGAAGAACATCAACC GTCGTGATCGCCAGGCTGGGTGGCAAGCGCAGCTCGTTGAACTGGGTTTG CAGCCCGACTCACTCAAAGGACAACACTTTATTCAGTTAGTCGAAGAAAT CATTGGTTTTCCTCGTCATCTTTCACAGCATGTTGGTGGGTTTGTTATCT CTTCTGGGCCACTATACGAACTGGTTCCAGTCGAGAATGCCGCCATGCCT GAGCGCACCATTATCCAATGGGATAAAGACGATCTTGAGAGCCTAAAGTT ACTGAAAGTCGATGTTCTATCTCTTGGTATGCTTACCGCAATCCGTAAGT GCTTCCTCTCGATTGAGCAACATCATCAACAACGACTTTCTATTGCCGAC ATTACTCGCCGCCAAGATGACCAAGCCGTCTACAAGATGATTCAAAAAGC CGACACTATCGGCGTCTTTCAAATTGAATCTCGAGCACAAATGAGTATGT TGCCACGGCTTAAACCAGCGTGTTACTACGATCTTGTGATTCAGATTGCG ATTGTTCGCCCAGGCCCGATTCAAGGTGATATGGTCCACCCTTTTCTTAA AAGACGTGATGGAGAGGAGCCGATTAGTTATCCATCGGTACACGTCCAAG AAGTATTGGAACGAACACTCGGAGTGCCGATTTTCCAAGAACAAGTGATT AAATTAGCGATGGTGGCTGCGGGATTCAGCGGCGGAGAAGCCGATCAATT ACGCCGCGCTATGGCGGCATGGAAAAAAAACGGTCACGTCTTCAAGTTCA AAACAAAGTTAATCAATGGCATGTTGGAAAGAGGCTATGAGTTAGACTTT GCAGAACGTATCTTTGAGCAAATTTGTGGCTTTGGTGAATACGGTTTTCC AGAAAGTCACTCCGCTTCCTTCGCAGTTTTAGCCTATTGCTCTGCTTGGT TAAAACACTACTACCCCGCTGAGTTTTATACTGCCCTACTCAACAGCCAG CCCATGGGCTTTTATAGCCCATCCCAGCTGGTGCAAGATGCCAAAAGGCA TGGTATTGCTGTGCTACCTATCTGTGTCAATTTCTCTAATGCAGAACATC AACTGGTGAGGTTAACATCAGGCGAGTTAGCCATTCGCCTTGGTTTCAAT CTGATCAAAGGGTTAAGCCACGAAGGCATCACTCGCCTACTGACTCATCG ACCCGCACAAGGCTACCAATGCATAAGCGAAGTGAAGCAAATCCTGCGTC AGGCAAAAGATATCCAGAGCCTTGCCTCTGCCAATGCTTTTTATCAATTG GCGGACAATCGTTATTTGGCTCGCTGGCAGGTGATGGACAACCTTGATGA ACTGCCTTTGTTCCAAACGTTACCCAGCATAAGCAACAACCCTTTACCGA AGCCAAGCGATTATCAAAATGTATTAGAAGACTATGCGGCAACAGGGCTC TCTCTGGCTGAGCACCCCGTTGCTATGTTAGAAAAAGCGGGCGGCTTAAC ACGCTTTACGCGCGCCAACCAATTAAACCAATGCTCTCATCGCTCATTGG TGACGGTGATCGGACTGGTGACCGGAAAACAATCTCCCGGAACCGCAGCT GGTGTCACGTTTTTCACTCTCGAAGACGACACTGGGAATATTAATGTGGT GGTCTGGCAGGCAACCTCAAGAGCACAAAAGCAAGCCTACTTAACCGCGA GGCTGTTAATGGTGAAAGGCATTTTGGAGCGCGAAGGAGACGTCATACAT GTGATCGCAGGGAGGTTGATTGATCTGACGGAGAAGCTGTCGGGTTTAAG CCCAAAATCTCGTGAGTTTCATTAA