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qh_1_scaffold_29_9

Organism: QH_1_Halovirus_44_21

RP 0 / 55 BSCG 0 / 51 ASCG 0 / 38
Location: comp(5957..10867)

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
DNA polymerase {ECO:0000256|RuleBase:RU000442}; EC=2.7.7.7 {ECO:0000256|RuleBase:RU000442};; TaxID=1273749 species="Viruses; dsDNA viruses, no RNA stage; unclassified dsDNA viruses; unclassified archa similarity UNIPROT
DB: UniProtKB
  • Identity: 58.3
  • Coverage: 587.0
  • Bit_score: 724
  • Evalue 3.80e-205
DNA polymerase n=1 Tax=Halovirus HGTV-1 RepID=R4T6Q3_9VIRU similarity UNIREF
DB: UNIREF100
  • Identity: 58.3
  • Coverage: 587.0
  • Bit_score: 724
  • Evalue 2.70e-205
DNA polymerase B exonuclease similarity KEGG
DB: KEGG
  • Identity: 33.4
  • Coverage: 728.0
  • Bit_score: 363
  • Evalue 3.50e-97

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Taxonomy

Halovirus HGTV-1 → Viruses

Sequences

DNA sequence
Length: 4911
ATGAAGTTAACTAACTCCAGAGAGCGTCTTGCTCTCATGACGCTCGAATACGATATCGAGAGTGATGGCCACTGGCTTGACGAACCGATTGTCCAACTGTTCTGTCGAGATTCTGATGGGAATAGAAGGAGAGTGGATGTAGAAGGGTTCTATCCATTCTTTTATATTTCTGAAGAAGAATTGAAAGAACACGAGGATACTATTTTCAGTGAGTCGATGATCCGCTCGGTAGAGGCGCGGACAGAATCAGTCTCTGTGGATAATCGACACAATGATGCGTTTAAGGCAGCGAGTACTGCCCCGAGAGAGACACTTCACGGAGAACCCCTTGTCAAAATTACGACAGTCAAACCAAACCACGTTTCTGACCTGAGAGACTACTTCGATGAGACATGGGAAGCCGACATATTCTTTACAAACAGGTTCCTCATCGAAAGCGAAATTACTCGTGGACTGGAAGTTCCGACTGGTGCCCAGAGAGTTCACTTCGACGATATAGAGTCATGTGAGCCACCTGAAGTAAAACCAAGACTGCTCTGCGTTGACATAGAAGTCTACACAGGTGGTACATTCCCGTCTCCAGAGAAAGCAGAGATGCCAGTCACAGCAGTTACTGCATACGACTCCTATGATGAAGAGTACATTGTCTATGCACTTCACCCCTCTACCGTAGTGGATGATTCTTCGTTCGATATAACTGAACACTCGTGGGAAGAAACTATTGAAGAACCAGACTGGCCAGTTCCAGAAGGCGTAGACCCAGACTCGGTAGAGATGGAAGTGTTCGACCGAGAAGATTATCTTCTTGGAGCACTGAATGAGTGGATTTCCGAGAAAGATGGGGCCTTACTCAGTGGATGGAATAGTAGCGCGAATAATAAAGGAAGTGGTTTCGACTATCCCTACATTATCAACCGATGCAAGAATATTGGTGAAGGGACCTACGAGAAGTTGAGCAATACTGGAACCTGTTTCGTTTCTGGAAGAGGGTCTGCAGTAGTTGGGGGAAGAGAACTGTTCGATATGCTTCAAGCATACGAGAAGACACAGATTCACGAAAAAGAGTCCTACGCACTCGACGCAATTGCTGAAGACGAACTCGGTTATGGAAAGGAAGAAGTCGAAGGAGGATTGGACCACGGCTGGCTCCACGAACCCGATGACTTTATCAAATACAATATTCGGGACGTTGAAGCAGTGATCGAAATCGAAGAAGTGAAGGGAATTATCGATATGTACGACCACATTCGATCAATTGCTGGAGCAACCTATTCAGAGTGTGCTGATTCCAATATTGGAATTATCGACATTCTGTATCTTCGGGAAGCAAAAAAACGAGGACTTGCATTACCTACTTCTACTAAACCGGAGAAGGGTTGGTACTACGGAGGAGAGGTCATCGAACCAGTTCCTGGAAAGCATCGGAAAGTAGTTTACCCAGACCTCAAATCTCTCTACCCATATGGAATGTGGTCCCTCAACGTCTCTCCAGAGACACTGTACGAGTCTCTCGAAGAAGCGCGTGCTGATGGATACGAGGAGTCACAACTTTACTCGGCTTATATAGACTACCGAGATGAAGATGTAAAGAAAGATAATGAGCCCGAGTTGACCGAAATATATTACGTTAAACCTGAATATAAAGAAGGATTCGTTCGAAGCGTTATCACTGAGTTGACGGATATGAAGTATGAATACAAGAGTGATGGCCATCCGGACGAAGCATATGCTGCTGTGAAGAGAATTGTCAACTCTTGTTTCACACCAGACACTGAAGTTCTGACACCAGATGGTATTCGTAATATTACAGACATTGAAGAAGGAGACGATGTATATTCATGGAACCCAGAGACAGGTCAGATGGAAGTAAAGCCTGTAGTTGAAACTATAGAGAAACCAGAATACAGGGGTGAACTTGTTCAAATACAGAATGAGAACATGGATATAAAAGTTACCCCAGATCATAGACTATACACGAAGCGCCCCAGATACGACAGTGGTTGGGAAATTGCAGAAGCAGGAGAACTTAATGAGTGGACCCATTATGAAACTCCTAACAGGTGGGAGTATGATCACGCAAATGGCATAGAATCCATCGACATTGCAAATTACATAAATAAAGATTTTGAATTGACAGAATACACAATAACTGCTGGAAAAACGCACAGCACGTTCGATAGGTTTATTGATGGCGATGTATTCATAGACCTCATAGGATGGTACATCACTGAAGGAAGTGCATACATCTCTGGCCCTGGCGGAAGCAGGGGAGACAGTCTTCACTTTGCGCAGTATCAGTCCGTCAACCCTGACGAATACGAAGAGATTTGTTCAATGTGTGACGCTCTGGGGTGCCACTACACAAAGTGTGATGAGTCTATACAGATATCTGGCAGCGTTTATACGGAGTTTTTAACAAACCTCTGCGGTGAAGGAAGTGAGGAAAAGTACATCCCCGAAGTGGTGTTCGAGAGAGCAAGTGATGAGCAGAAACAGAGATTGCTCGATGTGTTAATGATGGGAGATGGGGACAGTAGAGAAACACCAAATAGATACACAACAAAATCTGACCAACTCCGGGATGATTTTGTAAGACTTTTATGGGAACTCGGACATAAACCATCATATAAGTGGGAAGAGAGTAACTGTAGAGAGCGAAGAGGGGTTTGGAGAATTCATTACACCTGTGACGAAAGGGGTGATGAAGCAAAACAGTCCTTTAGAATGCACCGTGACGGGAGTACTGAAACTGCAGAGAATGGTGTATATTGTGTACAGGTAGAAGACAATCATACACTTGTTGCTGGGCGAAATGGAAAATTTGTCAACATTCTTAACTGTTACGGAACCTTCGGAGATTCCTCCTCCTATGGAAAAGGATTCCGCTTGTTCGACTGGAGACTCGCCGAATCCATTACCATCTTCGGGAGAGAAGTTCTCAACTATACGGCAGAAGAGTTTACAAAATACTTGCAAGAAGAAGAGTACTCCGACTCCGAACTAATCGGAGGAGACAGTGTTCCTGCGAATGAGCCAATTCTCGTAGATAGAGGAAATGGAACAGAAATTATCTCTATTGAGGACGTAGTTGTAGGAGATTCTGTTTGGTCGAATGGTGGCTGGACAGATGTTGAGAATGTAATCAAGAAAGAAAATAAAAAGCAACTGTATACTGTTCGGACAAAGGGTGGAGTTACTCATGTCACAGAAGACCATAGTCTTGTAACAAAAGATATGAAAGAGATTTCTCCAGAAGAAGCAATGGTAGGCGATTCCTTACTCCACGAAGATATTGCTTCGGTAAGTACTGAAGGACTGTTCTTCGATGAAAAGCGGGCATGGCTGCTCGGACTATTTGCTGCTGAAGGAAGTTGTGGCATCTATAATTCCGAGTGGGGTTCAAAAGCATCTTGGGCAATAAATAATTCTGAGAGAAGTGTTCTCGAAGAAGCAAAGGAAATTATGTCAGAGGTGTTCGGTATTCGGACGAAAATAGATAACGTAATGGAGTCGAGTGGCACGATGAAACTTCGACTACATTACAACACTGATAATGTCAGTACAGTACTTGGGTTCAGAGAAATGTTGTATGAAGGAACGGAGAAACGTGTTCCGAAAGAGATATTACAGTCTCCGAACTCTGTAAAGAAATCATTTCTCTCTGGGTATCATACTGGTGGTGGGCACATTGCGCGTGACTCGAAAGAGTTCGACGAAATGTGGACGAAGCACAAACATCTTGGGGCAGGAATAGCGTTTTTGCTCCGACAAACCGGTCACAAGATAACGACAAGTATTCGACAAGAAGAATCTTTCGAATATTACAGAATTCGGGCAGTAAAGTTTCATCGTGGTTCGAACGAAGAGATTAGGGAAATTGAAGAGTACGACTACGATGGAGACTACGTATACGACCTCGAAACAGAAAACCATCACTTCCAGTCAGGAATTGGCTCCATTATAGTTCATAACACAGACTCTTGTATGACAGAAATAAGTGGTGCTGAAAACAGAGAAGAAGCACTCGGAGCAGCCTTCCGTGCTGCTGAGTATGTCAACGACTCCTACGACGAGTTTGTCTCCAGAAAGTTCAATATCAATGACCCGGATATGCACAAGACTGAAGTCGAAGTAGAGTCATATGCTGACTCACTCTTCTTCCAAGCCAACTTCAAAGATAGAGAAAGAAATAGTGGAACAAAGAAAAGATATGCTCAATTGATTACCTGGGACGAAGGAGAGTACATCGAAGATCCGGAAGTTGACACAAAGGGCTTCGAACTCGTCCGAAGTGACAGCAGTGCTCTAACGAGTAGAGTTCAAGAAGGTGTTCTGGAACGGATTCTTCGTGAAGAAAATCCAGAAGAGTCTGTAGCAGAGTATGTCAAAGAAGAGTGGAACTCGGTCCTCGATGGAGACGTTGATCTTGAAGCACTGGGCAAACCGTCTGCTATCAACAAAGACCTCTGGGACTATGGGTGGAGCGAGGATGAAGACTCTGGAGAAGTAAACTACTACACTCCTCAGCCAAGGATTCGAGGAGCCAGATATTCCAACGAGTATATCTCTGGTGAGAATATTCAAGAAGGAAGTAAACCACTCTTCTTCTATGTGAAAGATATTGTCCCGAACACTGACGGCCTTCCGGAAACCTATGATTACTCTCACAAGAACCTCAATGCTCCAGAAAGTGGCGGTAATACCAAGAGAATAAAAGAGTTGGACCGAGATGTTGATGCCATTGCAGTAGAAGATATTGATAACATCCCAGAAGTTGCTCGAATTGACTGGGAGAAGTTGGCCGAAAAGAATGTCCGAAATCCCGTAGAACCAATTACTTGGACTATGGGGTGGGACTTCGACGAACTGGTCAGTGATGGGAATCAGCAGTCTCTTGTCCAATTTATGTGA
PROTEIN sequence
Length: 1637
MKLTNSRERLALMTLEYDIESDGHWLDEPIVQLFCRDSDGNRRRVDVEGFYPFFYISEEELKEHEDTIFSESMIRSVEARTESVSVDNRHNDAFKAASTAPRETLHGEPLVKITTVKPNHVSDLRDYFDETWEADIFFTNRFLIESEITRGLEVPTGAQRVHFDDIESCEPPEVKPRLLCVDIEVYTGGTFPSPEKAEMPVTAVTAYDSYDEEYIVYALHPSTVVDDSSFDITEHSWEETIEEPDWPVPEGVDPDSVEMEVFDREDYLLGALNEWISEKDGALLSGWNSSANNKGSGFDYPYIINRCKNIGEGTYEKLSNTGTCFVSGRGSAVVGGRELFDMLQAYEKTQIHEKESYALDAIAEDELGYGKEEVEGGLDHGWLHEPDDFIKYNIRDVEAVIEIEEVKGIIDMYDHIRSIAGATYSECADSNIGIIDILYLREAKKRGLALPTSTKPEKGWYYGGEVIEPVPGKHRKVVYPDLKSLYPYGMWSLNVSPETLYESLEEARADGYEESQLYSAYIDYRDEDVKKDNEPELTEIYYVKPEYKEGFVRSVITELTDMKYEYKSDGHPDEAYAAVKRIVNSCFTPDTEVLTPDGIRNITDIEEGDDVYSWNPETGQMEVKPVVETIEKPEYRGELVQIQNENMDIKVTPDHRLYTKRPRYDSGWEIAEAGELNEWTHYETPNRWEYDHANGIESIDIANYINKDFELTEYTITAGKTHSTFDRFIDGDVFIDLIGWYITEGSAYISGPGGSRGDSLHFAQYQSVNPDEYEEICSMCDALGCHYTKCDESIQISGSVYTEFLTNLCGEGSEEKYIPEVVFERASDEQKQRLLDVLMMGDGDSRETPNRYTTKSDQLRDDFVRLLWELGHKPSYKWEESNCRERRGVWRIHYTCDERGDEAKQSFRMHRDGSTETAENGVYCVQVEDNHTLVAGRNGKFVNILNCYGTFGDSSSYGKGFRLFDWRLAESITIFGREVLNYTAEEFTKYLQEEEYSDSELIGGDSVPANEPILVDRGNGTEIISIEDVVVGDSVWSNGGWTDVENVIKKENKKQLYTVRTKGGVTHVTEDHSLVTKDMKEISPEEAMVGDSLLHEDIASVSTEGLFFDEKRAWLLGLFAAEGSCGIYNSEWGSKASWAINNSERSVLEEAKEIMSEVFGIRTKIDNVMESSGTMKLRLHYNTDNVSTVLGFREMLYEGTEKRVPKEILQSPNSVKKSFLSGYHTGGGHIARDSKEFDEMWTKHKHLGAGIAFLLRQTGHKITTSIRQEESFEYYRIRAVKFHRGSNEEIREIEEYDYDGDYVYDLETENHHFQSGIGSIIVHNTDSCMTEISGAENREEALGAAFRAAEYVNDSYDEFVSRKFNINDPDMHKTEVEVESYADSLFFQANFKDRERNSGTKKRYAQLITWDEGEYIEDPEVDTKGFELVRSDSSALTSRVQEGVLERILREENPEESVAEYVKEEWNSVLDGDVDLEALGKPSAINKDLWDYGWSEDEDSGEVNYYTPQPRIRGARYSNEYISGENIQEGSKPLFFYVKDIVPNTDGLPETYDYSHKNLNAPESGGNTKRIKELDRDVDAIAVEDIDNIPEVARIDWEKLAEKNVRNPVEPITWTMGWDFDELVSDGNQQSLVQFM*