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