| New model in OGS2.0 | DPOGS207064 |
|---|---|
| Genomic Position | scaffold1:+ 1876823-1882849 |
| See gene structure | |
| CDS Length | 3396 |
| Paired RNAseq reads | 1552 |
| Single RNAseq reads | 4171 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA013112 (0.0) |
| Best Drosophila hit | lethal (1) 1Bi (3e-07) |
| Best Human hit | ND |
| Best NR hit (blastp) | PREDICTED: similar to DNA polymerase v [Nasonia vitripennis] (4e-143) |
| Best NR hit (blastx) | PREDICTED: similar to DNA polymerase v [Nasonia vitripennis] (2e-131) |
| GeneOntology terms | GO:0005730 nucleolus GO:0006350 transcription GO:0003677 DNA binding GO:0003887 DNA-directed DNA polymerase activity |
| InterPro families | IPR007015 DNA polymerase V |
| Orthology group | MCL16101 |
Nucleotide sequence:
ATGAAAAACGAGATCAATATGGATAAACCTGAGAAAGCAGTAACTGCTTCATTGCTAGAC
GCTTTTGATTTATTTAAGTCACCGACAGATGATTTAAAAATCCTTGCTGGCCTTAAGATA
CATTCGCGTCTACGGGAAAATGAGGGTGGAAAGGAACTACAGTATACATTAAAAAGACTA
GTTAGAAGTCTTGGCGCGAACATCGCTGAGTTGCGGATGGGCTATTTTGCTGCACTTGTT
ACAATCCTGACTAGGTTTCCAGAGATAACAGTAACGCAGCTGCTAGAATTGATCAAAAAA
GAACTCCATGCCAGCGGATCATCTAAGAGTGAAGTTGGGGATGTTGCTTTAGGTCACATT
CTGGCATGCGGGGCTGTTTTTCGTTCAGGCCTTATGTTAAAATGTACTGAGGAAGAACAA
AAGGAAGTATTGCAACTTTTTGAAACAGCTAGCAGTAAGAAGTCATATTTGAGTACTGTG
GCAACCCTAGTCTTTATTGATTTTATTAATAATCTCGATGAAGAACAATTTGCTACAATA
GTTTGGCCGAACATAAAGCAGAACTACAAAAAAGCTATAAACGAACACAATTTAGACTCT
TTATATTTTTTAATGATTGTTAATGAAAAGTTTCCTAAGAAAGTCAAGCTGAGGAAGTTG
ATTGGTGTGCCAGAACTGTTACACGAAGATCACATTTCAGATATATGTGATAAATTAATG
ACAGGCGTAGACTTCAATTCATTAAGCCACCCAATATACCAGGAATGTGGTAAACAGATT
GCTAACTCACCACATCTTTCAATTTTTTGGAATAAAATTGACAGTCATCTTGTAAAACAT
AACAGGAACAGAGAATTGGTTTCATTAAATATTTTGAATACTGTTCTCCTGAATTTAAAA
GACAATGTTGAAGTCATACCAGATCTGCTGAGTGACAACTTTTTCAAGTTGTTCATGGAC
TGGTTCAAAGGTTTACAGACAGCCAGCAAAATAAGGAATAAGAGAGACAATGAAGATGAT
TCCAAAATAATGGTTAAAAAACAAAAAGAAGTTCTCATGTCTCTAGCCAAGGCATTACAA
TTGCCATCTGTTGATAGCAAAATAAGAGTGAAAACTTTGGACAAGTTATTATTTAGCCCG
GGTGAAATTAATTTCACTGAGATAACTGGATCTACAGTTGTTAAATCTATTACTGCTGGT
CTAGATGTTGATGGTCTCAAGAAAATGGCAAAGTCATTGAAAAAGGTCTTCCTCAATTCC
TCCAAGAAAGTTATTAAAGAGGGTGTGGAAAGGAACTGGTACAATAATGAAAGGGTTAAA
GCAGCTGAGTTGATATCATACATGGTCAGTCATGAAGCTGTGAAGGACGACGCTGAATTT
AAAATAAAATACATGCAATTGCTTATGTGCTTTGGATTTTTCAAAATCGGCGGTGATGAA
AGTGTTGCCGTTAGTAGTAGCCTAGCAGGGTCTATAAAAGCTTGCTTCTACCGATGCTTC
ACATCCCGCTTTTCAAACGTCGAAGGTTTGGTAACAGTATTGTCATCACTCAGTAGTTTC
ATTACATCTATGATGACCAAAGAAAAGGTGCGATCAAAGCTCGAGAAACAGTTTGACAAA
GAGAACATGGACTGTTGGGAAATGTTAACAAAAGTATGCGGCAAAATAGAAAAGAACCAA
TCTAAGTCGAAGGTCGAGAATGTCTTTCTTATTTTATTATACCAGCTCGGTTTGTTCCTC
TTCTCGGAACCGACACATGTGAAAATTGCCTCCAGCTCTATTATAGAACTCAAAAGTTGC
TACGAGCATTATATGAAAGACAGAAAAGCAAAGACAAGTAAGAAAGAAAACTCAATCAAA
GATGAACCTGAGTGGATAGAAGTTGTGACTGAGGTGTTGCTGTCGATTTTGTCGATTGAG
TCAAGTGTTTTGCGCTCAGTAGTACAATGTGTTTTCAGACTTCTGTGGGAGTATTTGACA
CCATCCTCTATAGCGCAAATTGTTTCGGTTCTCGACCCAGAGAGCGAAGCTAATCCGTTA
GGACAAGAAAGCGATTTGGAAGACGATGAAGGAGAATTTGATGATTCTGATGAAGAAGGA
AATGAAAATTGTCAAGAAAATGAAGAAAACGGAGAACACAATGATAGCGAGGAAAGTGAA
AGTGAAATGGATGATGACGATGATGATGAGAAGGATTTGAACACGCCAGACCAGTTACGA
ATGGCCATTCAGAAGGCTCTCGGAAATACTACAGTCGACACTGACGTCGAAAGTATAGAC
GCTGATATGATAACAGAAGAGGAAGGCAAGAAACTTGATGAGGCTCTTGCTGAAGCATTC
AAACAGTTCCATCAAGGCAAAAATAAGAAAACCAAAAAGGAACGCAAGAATAAAAAATCA
CTTTCAGATTTCAGAATCAAAGTACTAGATTTAATTGACATTTATCTGGAAAAGGATCCG
GCTATGGACATATGTTTAAATATGATCGCCCCATTGACTAGATGTCTCGAGTTTTGCATG
CAAGATAATCAGTTTAAGGAACTGGAAAATAGAGTACGGAAAACTATTAAGGGTCTATCG
AAAATAAAGAAGTTCGCATCCACTGACGACATAACACCTGACATTTTGGCCACTTATTTG
AAATCCGTAATAGAAAAGGGAGAACGATCCCACTTCATGTACCAAGCTCTTGGTGACGTT
TTAACATATTTTTCAGTTTTTATAATAAACTGTTCACAAAAGATTGAAGCCCAACCGACC
CAGACACCTAAAAAAAACAAGATATCTACTTTAAATGACCTTCTGAAAGAGACTGTTGAC
AATTTTTTCCACAATCGTAGCTGCTTATTACCAATTATTTTCTTCCATAACATTCTTCAA
TTAGAATGGCCTGGTAAATATAAATTAGCATCGATTGTAGTGAAAAATGTATTTAATCCT
AAAGTGAGACAATTTAAACGGAACGAAGGAGTACAACTCCTATCTGGCTTCTATTTATCA
ATGAAAAGATTTAAGCCTATTTCTGAAAGCTGTTTTGCTGAGTTAGCTAATATAGAGAAA
AATTTCAAAGAATCTTTTACAGCCACACTTGAAAGCAATGAGATGGACGTTAAACCTAAT
TTCATTGATTCCCTCAAGAAATTACTTAATGTTATGAAAAATCTTTATACGCAATGTAAT
CAGGAATCCCAACTTGATTTTGAATCAATGTTCAATGCATTAACGAACTTCAAAGTAGCT
GTTAAGAGTACAAACAATGTTGAAGAATCAAAACAGATCATCGAAAATGGAAATAAGCCG
AGTAAAGAGCAAAACAAAAAAAAGAAAAGAAAAGCTCTAACTAATGGGGTTATAGACCCA
CCGGTTAAGAAATCAAAAAACAAAATAAGTGAATAA
Protein sequence:
MKNEINMDKPEKAVTASLLDAFDLFKSPTDDLKILAGLKIHSRLRENEGGKELQYTLKRL
VRSLGANIAELRMGYFAALVTILTRFPEITVTQLLELIKKELHASGSSKSEVGDVALGHI
LACGAVFRSGLMLKCTEEEQKEVLQLFETASSKKSYLSTVATLVFIDFINNLDEEQFATI
VWPNIKQNYKKAINEHNLDSLYFLMIVNEKFPKKVKLRKLIGVPELLHEDHISDICDKLM
TGVDFNSLSHPIYQECGKQIANSPHLSIFWNKIDSHLVKHNRNRELVSLNILNTVLLNLK
DNVEVIPDLLSDNFFKLFMDWFKGLQTASKIRNKRDNEDDSKIMVKKQKEVLMSLAKALQ
LPSVDSKIRVKTLDKLLFSPGEINFTEITGSTVVKSITAGLDVDGLKKMAKSLKKVFLNS
SKKVIKEGVERNWYNNERVKAAELISYMVSHEAVKDDAEFKIKYMQLLMCFGFFKIGGDE
SVAVSSSLAGSIKACFYRCFTSRFSNVEGLVTVLSSLSSFITSMMTKEKVRSKLEKQFDK
ENMDCWEMLTKVCGKIEKNQSKSKVENVFLILLYQLGLFLFSEPTHVKIASSSIIELKSC
YEHYMKDRKAKTSKKENSIKDEPEWIEVVTEVLLSILSIESSVLRSVVQCVFRLLWEYLT
PSSIAQIVSVLDPESEANPLGQESDLEDDEGEFDDSDEEGNENCQENEENGEHNDSEESE
SEMDDDDDDEKDLNTPDQLRMAIQKALGNTTVDTDVESIDADMITEEEGKKLDEALAEAF
KQFHQGKNKKTKKERKNKKSLSDFRIKVLDLIDIYLEKDPAMDICLNMIAPLTRCLEFCM
QDNQFKELENRVRKTIKGLSKIKKFASTDDITPDILATYLKSVIEKGERSHFMYQALGDV
LTYFSVFIINCSQKIEAQPTQTPKKNKISTLNDLLKETVDNFFHNRSCLLPIIFFHNILQ
LEWPGKYKLASIVVKNVFNPKVRQFKRNEGVQLLSGFYLSMKRFKPISESCFAELANIEK
NFKESFTATLESNEMDVKPNFIDSLKKLLNVMKNLYTQCNQESQLDFESMFNALTNFKVA
VKSTNNVEESKQIIENGNKPSKEQNKKKKRKALTNGVIDPPVKKSKNKISE