New model in OGS2.0 | DPOGS202355  |
---|---|
Genomic Position | scaffold4501:+ 11808-15883 |
See gene structure | |
CDS Length | 3333 |
Paired RNAseq reads   | 361 |
Single RNAseq reads   | 891 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA013759 (2e-65) |
Best Drosophila hit   | mutagen-sensitive 312, isoform A (1e-22) |
Best Human hit | ND |
Best NR hit (blastp)   | PREDICTED: similar to mutagen-sensitive 312 CG8601-PB [Tribolium castaneum] (5e-29) |
Best NR hit (blastx)   | conserved hypothetical protein [Culex quinquefasciatus] (2e-24) |
GeneOntology terms    | GO:0000712 resolution of meiotic recombination intermediates GO:0005515 protein binding GO:0007131 reciprocal meiotic recombination GO:0045132 meiotic chromosome segregation GO:0000715 nucleotide-excision repair, DNA damage recognition GO:0043234 protein complex |
InterPro families   | ND |
Orthology group | MCL20328 |
Nucleotide sequence:
ATGGATGACAGTTTTTCTGATTTTAAAGAGAAGAAAAAATGCAAAATTGGCCCAAAGACT
GTTCAAAAAGGTAAAACCAGACAAAAGAAGCCACTGAAACCTTCAAAAGGCCAAAAAGAT
ATCAGATCTTTGATAAAAAAGAACGAAATTGTATCCTACAGTAAAGACTTCAACGAAGTT
TGCAAACAAAGTGGAATAGATGTTGATGCGGAACAGTTACAGCTTGCTATAGCATTGTCA
AAATCTCTTGATAGCTTCCAATCTTCAACTGGCAGTACATCAGAAGAAGTTGAAGTACAA
GATAAACTGTCTTCTCAAGAACGATCAGCTAAGATCAGATCTACTTTACAAGAGTATGGT
TTTAAACTAAATGGGTCAAAACTACCATCAGTCAATCCGAATAAAAGGAAAAAATATAGC
AAGCATTCAAAATTACTAAGAATATCAAATGAGGAAAGACAAACAAAAATTTCAGATAAA
TATGCCAAAGTCTTAGCTTTAAATTGTCAAACTGTAGTTGATATATCCGATGACAATTAT
TTGAGGGACGAAATATTCTACAAGGCCACAAACATTTCATATGAGCATATTAAGAATAAT
GATGTATATTATGTTTCTAATTTAATAGAAAAGGCCAAGCACAGATCATGTCTATTAAGA
AATTGGTCGGAAATCCCAGGACGACCGGCCAGTCCTGAGCTAGCCCTTAATGATATTGAT
TTCTATGCCATCCAATGCACTCAACAAGAAATGGATGAAATACTCAGCAGTTCCATCGAT
GTCGCACAAAGTATTATTAGAAGCAAACAAAATTGTATTGAGGAACATTCTAATAAAATT
GTACACAGTAATATGAAATTGATAGAACGTGGTCCATCAAATGCATTTTCAACAATACAT
ACAAGTCATACAAGTCCGGAAGTTATCTATAATGAATTGGACGATTCTAACAAAGTAAAC
AATCGTTCGAAACTGGACACAAATGACGTTCAAGCCTTAGACGTGTCAGATCATAATGAA
GTACAAATAGTAGATTTTAATGAAATATCTGGAGAAGACAAAGAGCCAGAGCATGGAGAA
GATAGTATTGATAACAATTTAAAAGTGTACAGAAGTACTTCACCAGATCTATTTGATGAA
GAATGTTCTATAGTAGACAAAAACTATTCAATAATAGATAACGCTGAAAAAAATCACACA
ATTTTTATGGATCTAACAGAATCGGAAAATAATTTAAACACACAGAAGTTGGAATCGACT
AAGAATAATTCAAATAACATAATTGAAATAATAGACTGCGTTGATTACAACGCGCACAAA
GATAAAGATAAAAGAAAGTCAATTGATCTAAAAGATAGAACAGGAAGCGCTAATAGAAAT
ACGGATATTGGAAATAATATTGATCACGTACTGTCAGATAACGATGAAAACTCGGAAATG
ATCGATCTGACACAAGAACCGAATTTGATCGATGAATTACCGAGTATTGATTTGGGAAAC
AAAAATACGTCGGTGGAACTTGATGACACGATAATTTACGAGAATCATGAACAAGTTACA
TCTGAACCTACAAATGAGGCAATAAGTAAATCAAATCAAATAACAGATTTCAATATACAG
TGCAATGGTGATATTAGGGATGTAATTGGAATTACAAACGGAAATATACAGGGTGTAGAT
GCTAGCGATATATGCGATGGAGATGTTGAAAATTGTGAACTTGTGAATATTGATCTAACC
CAAAGTTCTAGAGAAGGTGTAGGGAATTGTTCTAATCGAGAGCTTGTTGATGAACACGCT
GAAAATGTTAATGCGTCTGACAGTGATGTATCAATATATAGTGTTAAAGGTTTGTCGTTG
GATAATAATTTGGGAAATGGAATTGATGTTAATGATACACTTACACTTGACAGCGATAAT
GATAATGATAATAATGGTTACAGAGAACAGCAAAAGAAAAAAGCAAAAAGTGTATCATTA
AATAATGATATGGAACATGAAGATTTAGATGAGTGTGTGAGTTTAGATGGACATTCGAAT
CATAGCTTCAATGAACTCAACAATGATCACGATAATGATAACAATATATCATTACAGGGA
AGAAAATCAAAATGTTTATCGCTAGATATATCTGAGATTCAAAATATAGATAATTACTAT
GCACTAGAACAATCGGATGATGATTCGCTTAAAAAATTTAAAAATGTCGACATTGACTTA
ACACAAGCATCAGACAAATCATTCGACCAAAACGATCAAATTAACATAAATGGAGATATT
ATTGAAGTTGTAGATGGAATTGTAACGACTGAACATGGCCGTTGTGATACTGATTTACAA
CAAAATAATGATATCGGTTTTACCGATGAAGCTGTACACAGTAATAGTGGACTGGGTGAA
GCGGATGATAATTATATAGACTGTGATGTTATGTTTGATGAACTTATGTCACAGAGTAAA
ATATCAAATAGAAATAGCAGCAAAGAAGTATCGGAACAAAATTCTGAGGTGTTCGATCTA
TCTGATAGGGAATTAAACTATTCTGTACATTTTTCTTTACATCAGGACGTCATTGATGAT
GGAAATATAGATCTACCCTCAATTAATCTATCACAACGTACACCTGTCAAAGGTGATGTA
TCCAAACGGCATATAAAGACTCCGATAAAACTAAATGATGAAGTAATAATTCAAAGTCCG
GGTAACGATGAATATATAATAAAAACCAGTCCAGTGACACCGATGGCTGACTATGAGGCT
ATGACTACACCGGAGAGGAATAAAGAATTGGAGAAATATGGACTTAAACCATTTAAGAGG
AAAAGAGCAATACAACTGTTGACATATGTGTACAACCAAACACATCCGATTATACAAAGC
TGTTCTCCCGGAGAGGGTCCATCCAAGAAATTTAAAAGCACCCAAGAAAGAACACCAAAC
AAGAAAAAACCAATGTCCAGAACACCGAAAAAATGTTTAGATTTTGGAACTGAAATTAAT
GAGGAAAGCAATATATATGTTGTTACAAGTGAAGTGCCGGAGATCAGAAATGTTGAATGC
GATCCAAGTGATTGGATTTTCCAGACAAAAGAAAAGGCCAAGGTACACTCGTGCCGAATC
CCGCTCCATATAGCTTTCTACAACTACGTATCGTGTAGGAAACTATTACGGGAAACGATA
TTGAAATACGAACCGATCAATATAGATGTTATACATAAACAGCTGCTTGGTTACGGATAT
AAATATAACCCAAAGGATCTCCTAAAATTCATGGACAGGAAATGTATAACTGTGAAAACG
GTGGAGAACAATTCGAGGAACAGAAAGTCGTAG
Protein sequence:
MDDSFSDFKEKKKCKIGPKTVQKGKTRQKKPLKPSKGQKDIRSLIKKNEIVSYSKDFNEV
CKQSGIDVDAEQLQLAIALSKSLDSFQSSTGSTSEEVEVQDKLSSQERSAKIRSTLQEYG
FKLNGSKLPSVNPNKRKKYSKHSKLLRISNEERQTKISDKYAKVLALNCQTVVDISDDNY
LRDEIFYKATNISYEHIKNNDVYYVSNLIEKAKHRSCLLRNWSEIPGRPASPELALNDID
FYAIQCTQQEMDEILSSSIDVAQSIIRSKQNCIEEHSNKIVHSNMKLIERGPSNAFSTIH
TSHTSPEVIYNELDDSNKVNNRSKLDTNDVQALDVSDHNEVQIVDFNEISGEDKEPEHGE
DSIDNNLKVYRSTSPDLFDEECSIVDKNYSIIDNAEKNHTIFMDLTESENNLNTQKLEST
KNNSNNIIEIIDCVDYNAHKDKDKRKSIDLKDRTGSANRNTDIGNNIDHVLSDNDENSEM
IDLTQEPNLIDELPSIDLGNKNTSVELDDTIIYENHEQVTSEPTNEAISKSNQITDFNIQ
CNGDIRDVIGITNGNIQGVDASDICDGDVENCELVNIDLTQSSREGVGNCSNRELVDEHA
ENVNASDSDVSIYSVKGLSLDNNLGNGIDVNDTLTLDSDNDNDNNGYREQQKKKAKSVSL
NNDMEHEDLDECVSLDGHSNHSFNELNNDHDNDNNISLQGRKSKCLSLDISEIQNIDNYY
ALEQSDDDSLKKFKNVDIDLTQASDKSFDQNDQININGDIIEVVDGIVTTEHGRCDTDLQ
QNNDIGFTDEAVHSNSGLGEADDNYIDCDVMFDELMSQSKISNRNSSKEVSEQNSEVFDL
SDRELNYSVHFSLHQDVIDDGNIDLPSINLSQRTPVKGDVSKRHIKTPIKLNDEVIIQSP
GNDEYIIKTSPVTPMADYEAMTTPERNKELEKYGLKPFKRKRAIQLLTYVYNQTHPIIQS
CSPGEGPSKKFKSTQERTPNKKKPMSRTPKKCLDFGTEINEESNIYVVTSEVPEIRNVEC
DPSDWIFQTKEKAKVHSCRIPLHIAFYNYVSCRKLLRETILKYEPINIDVIHKQLLGYGY
KYNPKDLLKFMDRKCITVKTVENNSRNRKS