New model in OGS2.0 | DPOGS214401  |
---|---|
Genomic Position | scaffold4333:- 24071-32633 |
See gene structure | |
CDS Length | 5277 |
Paired RNAseq reads   | 817 |
Single RNAseq reads   | 1873 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA011359 (9e-62) |
Best Drosophila hit   | ND |
Best Human hit | breast cancer type 2 susceptibility protein (7e-49) |
Best NR hit (blastp)   | hypothetical protein AaeL_AAEL014774 [Aedes aegypti] (2e-78) |
Best NR hit (blastx)   | hypothetical protein AaeL_AAEL014774 [Aedes aegypti] (4e-84) |
GeneOntology terms    | GO:0001556 oocyte maturation GO:0043009 chordate embryonic development GO:0033205 cell cycle cytokinesis GO:0033593 BRCA2-MAGE-D1 complex GO:0043627 response to estrogen stimulus GO:0007090 regulation of S phase of mitotic cell cycle GO:0006289 nucleotide-excision repair GO:0007141 male meiosis I GO:0033595 response to genistein GO:0033600 negative regulation of mammary gland epithelial cell proliferation GO:0048478 replication fork protection GO:0007283 spermatogenesis GO:0010165 response to X-ray GO:0016563 transcription activator activity GO:0043015 gamma-tubulin binding GO:0006310 DNA recombination GO:0007420 brain development GO:0008585 female gonad development GO:0003697 single-stranded DNA binding GO:0005737 cytoplasm GO:0006978 DNA damage response, signal transduction by p53 class mediator resulting in transcription of p21 class mediator GO:0010225 response to UV-C GO:0042771 DNA damage response, signal transduction by p53 class mediator resulting in induction of apoptosis GO:0045931 positive regulation of mitotic cell cycle GO:0051276 chromosome organization GO:0000724 double-strand break repair via homologous recombination GO:0005515 protein binding GO:0005634 nucleus GO:0007569 cell aging GO:0010332 response to gamma radiation GO:0030097 hemopoiesis GO:0030141 stored secretory granule GO:0051298 centrosome duplication GO:0001833 inner cell mass cell proliferation GO:0005813 centrosome GO:0032465 regulation of cytokinesis |
InterPro families    | IPR016027 Nucleic acid-binding, OB-fold-like IPR015252 DNA recombination/repair protein BRCA2, helical domain IPR002093 BRCA2 repeat IPR015187 BRCA2, oligonucleotide/oligosaccharide-binding 1 IPR015188 BRCA2, oligonucleotide/oligosaccharide-binding 3 IPR015525 Breast cancer type 2 susceptibility protein |
Orthology group | MCL15070 |
Nucleotide sequence:
ATGACTATCAAAAATTCTGATCTTCTTAACCAAGATGTGCGAAAAAATATTACTTTATCT
AGTCATAAGAAATGTGGATTCATACCTCTTGCCTCAATTCAAGCGGAGACATCGATGAAC
ACTGAAAACAATTTTGATTCACAGTGCAGTATGGACACTCAATTGATTGATTTTGTTAGA
AACGCTGAAGCTATGATGCAAGAAGAAAATGACAGAGAAAAAAATAAATTAAAATCTCCC
AGAGATGTGGCTAGTGAGAAAGAAAGAATAGTTTTGATGGACAACACAAAACAATATATG
CCAAAACAGCATAAGGTACTAAATATTACTGAAGAAAGACAGTGTGGAGGAAAAATAAAT
GATAAATGCTGTGAGGTCGGAAATAAGGAAGATAGTGATGACATCACAGATTTACATAAC
AAATCTAACTCAGGTGATAAATTGGAAGCACCCACGAGTCCTATATTGAGCTCGTCGAGA
TCTACGTCCAAGCCCTTAGTATGTATGTTGGAAGAATTTGACAATTTCGAAAAGCTAGCT
GTGCCTGTATTAAGGAAATTCACAGATTTCAACGAAGCAAAACGTGCTATCCACACACAG
GTGAAAGCCAAAAACTTTGCCATCCAAAGTCATTCGGAATCGGTTAAATATGATCGTGAC
AAGGGTATTCAAAATGTACTCGGTGTCACTCGAAATGCTGTCGATCAAGCTGATGATTGC
ATGCAAGTCAGTGATGATATACGGACACAGTATAGTTTTGATGTCAAAGTTACCAATGAA
GACAAAATGCTGTTCGATAGTGATGATGAAATAGATGTCTTGCCGTTGACTTGTGCGTTA
GAAACCTATGATGAACCTGGACTCCTTGACAAAACTCTATATGTTGGTTTCCAAACAGCC
AGCAATAGGTCCATACAAATTCTGGCTGACTCTTTCAATAAGGCGAGATGTATTTTTGAT
GATGTCAGCCGAAAAGTCGCTGACAAATCGGTGACTGAACTAGTTCAGGATATAGACAGG
AAATGTACAGATGGATGTCATTCCACAGTGGATATCAAAGATAAATATAGATTGAATAAT
CTGCGAGACACGTCAGATAATCCTAGAGGGATTGTCGAAGAATTTTGCAAGAAAGAGGAT
ATTATTGAGATAGTTGATAAGAAATCAGTTGCGTGTGGAACTGCTCATAATAACGCAGAA
TATATAGACGAACAGTTAATAAAGGAATTTGATGTGAGTGTAGTTTGCGATAGTGATATA
TTAGATAATAAAAAAATATCAAGCGATACACAAAATAGCGATAAAATGTGTATTGAATCG
GAATTGAAAAACGATGAAAATGACGTTATTAATATAAGTTCTGAAGAACACAATATAGCA
CACACAGAAAGCTCTTCGACAAAATGTCGCGGTTTATTAATTGAAAATAGAGAAACGAAA
GTTAATAATTTTGTTGGATTCAGGACCGCTAGTGATAAAAAGATTGCAGTATCAGATGAG
GCTGTCATAAAGACGAGAAACATTTTTGACAACATCGACGATCTCGAACTTAGTGGATGT
AGATCAACAACAGAATGCATCGAAACAAAATCTGTTGAAAAATTTCCAAAAAACAAACCA
AATTTACACGATTCCAAAAATACTGAAGTTACGAAAGATGTTTTTCGTAACAATAAATCC
ATAGACACAGAAAGGTTCAGAGGTTTTCGCACTGCGAGCAACAAAAATGTGTATATATCG
AAAAGTGCTTTGGAAAAATCCAAAAAAATCTTCGAAGATATTGGAGGAAATGAAGACGGA
TTTAGAACTGATGATACAAAGAAACATGATGAGGATATGGAAAGAAATAAAATGTTTAAT
AAAATTGCACCTTCAGACAATGGATACAAAACTCAAACTACAATGCAAGGCTTCATAACA
GCTAGCAAGAAACCAGTGACCATATCAGAAGAAGCTCTAAGTAGATGTAAGAAAATTTTT
CACGATATTTCATACGGAGATGGGATACAAAATACGTCCTATTCTCATGACAATAAGGTT
CAAAATATATGTAAAGTAAAATCTGATAATATAACTATAGAAAAAGTAGAACATCGTCTA
AAAAGGAAAGGAAGTTTGTCGAAATCAGAAACTATTGAGAATTCATCGGTTGTAGGAATT
CAAAATGCGAATAATTTGAAGATATCAAAAGACGAAGGCATGAGAAGTAAGATATCGGAC
AATATTGATTATAAAAATAAAGAAAATTTGTGTATACAAACCTCTTTCGTTGGATTCCAA
ACTGCGAGTAATAAAAAAGTAAAAATATCTGAAGAAGCCCTCATTAAGAGTAAGGAATTA
TTTCGGAGCTTGGACGAGGATGGTGATCATACAGCCACAAAGAAGTTTAAAGTCAATGAA
GGTTTTATAGGCTTTCAGACAGCGAACAAGAAACCCGTCAAAGTATCGGAAGAGGCTTTA
GCGAAAAGCAAAAAGATTTTTGAAGATATAGATTTGAATAAGGCAGAAAGTGGATTTGAT
CCAAACGTTCTGATAAGCAACAAACAAGCAAAAATATCAGAAGCTGGTTTTGAAAGTGGA
GAGAAGCCCCAAAACTGTGACCAAGAACTTAAAAATCATATAAAATCCAAATTAAAAACT
AATTCCATTATAAAAAATAATCCAAAAGATACAAGAGATAATAAACCTAATGATAAAGAT
AAAGATATAACTCAGTTCGAGCTGAATATAGACGATCTTTTGAATACAGAGGTTATTAAG
AATTTTGACGAATCCCTACACATGGAGGAAATAGTGAAAGATACTCCTAAGTCGAAGAGA
TCTGGCAGCCCAATACTGTCTTGTCCTAGAGCCAAGAAGAAAAAGTTCGAACCCCCGAGG
ACCATTAATAGAAATATCATAAATAACGTAGAAGTTCCAAAGACCACACACTCATACAAA
TTCAGAGACTCCTATAAGAGAACGAAAATATATAAATTAAAAGATCTCAAGAAGAATCGC
ATAACATCCAGAGACATAGATATTTATATTCTGAAGTATTCTTTCGATAATCTACTCGAA
TTCCGTTTTCGTGATCAGCGAAATGACATTGACAGTGACGTGTGGGGCACAGACAAAATA
AAGGAATATTTCACAGACAACGTAAACATTAAGATCGTACCGGAAGGCTGGGTGGAAAAC
CACATGAGACTGATCATATGGAAACTCCTTTGTTACGAAACCTTCTTCGGGGAGTCCATG
AGGAACGTGTGTTCAGTTAAAAATGTTCTGGAACAGCTGAAATACAGATACGACAAGGAG
TTGTATAAAGTTGAGAGACCGGCGTTGAGGAGAATATTGGAGAGAGACGATCTCTCCACT
AAGATGATGGTTCTCTGTGTCGCTAGTATTCACGAAGCCGGCGTTAGTGTTCGTAGTGTT
ACCAATGACAGCAAAAACGTGGAACTGTTACTTACGGACGGTTGGTATTGTTTAAAGGCG
AGAGTAGACAGAATGATAGAAAAACTTATCGTTGATAGGAAAATAGTTGTTGGTATGAAA
CTAGCGATCCATGGAGCGGAATTGATGAATTGTGACCAAGGGATGTCTCCCTGGGAGGAT
ATAAATTCCGTGCGTCTCAAGTTGTCCGGTAATTCAACGAAACGAGCGCGTTGGGACGCC
CGCCTCGGTTTCCATGGCAACGCCGCCATGTTGACTCCGCTGTCAGCTGTCAGGCTGGAT
GGCGGGAAAGTGTCGAAGCTGAGAGTGTTCGTGACTAGAGTGTATCCGACTTTGTATGTC
GAGAAATTTGAAGATGGCAGTACCGTTACTCGTTCTGAACGCCTGGAACTCCTGCACCAG
ATGAAATATGAAGCGGAGAAACAGATGCAGATGGAGAAACTTTATGAAGAAGTGGAGAAG
ATGATTGAAACGGAATCTCAAGATTCAGAACAATTAACACAGAACTACAATCTTGAAACC
GGCTCCCAAATAGCAAAGCTGATGATGAAGAACCAAGACCCATCAGAGTTGAAGGCTACC
CTCACATCAAGTCAAGTGCAACGACTAAATGAACACACACATAGACAGAAGGAGGCTTTG
ATACAGAAAATACAAGACAAAGTCAAGGATCTGATGAAGAAGAGAGGAATCAATGTGTCC
AGGAGTGTGGTGCCCTTAATGAAGATACGGGTAGCTGACCTACGAGATGATGTTACTACA
GCTCTTATAACAATATGGCGACCGAACGAATCGCTACATGAAGTGATCAGAGAGGGCGCT
TGGATCGATGTCTATAATGCCGTACCTACATCGATTCGATATTCTGAGATCCAGATATCA
GCGGGGCGGCAATCGATGTTCTGTAAGTCGAAATACAAAGAGACAGACAGACAGACGATA
TTAAAACATACATTAGAAAGGAAATGTTACAACATAAAGGATTTACAGAGTTCAAAGACC
TCGCCGTACAACGAAATAGACACATTCGGCGCAATATTCCTCATAGAGCCAGAGAATTTT
GACAGTAACAAACAATTATTCCAAAATATATATATAAGTGGGATAAATAAAGATATTATA
TCTATAAATTTCTGGGGTGGCATCAAAAAATTTGGCTACGAAAACATACTGAATGTTGGA
AATGTCGTTGCCTGTGTTAATATACAAAAGAGGGCTGGCAACACCAAAAGCATACCTCAG
TATAGGGCCACAGAATTATCTTACTTCACAAAAACACCGAAATACGACACACTGAAAACA
TATTTGACAGATTTTCTAAAGAAATACAACAAAATGGACGGAGTAAAGTTCGTACGGGAC
TGTGTAGCGTTGAAAAACAATTACAGTAACATAAACAACGACGTGTCGCCGCTTAGACAC
TGCAGTGAACTTAGTATATCGAGAAACAAAATGTTTCTAGACTCGCCACTGACAAGGAAT
TCACATCTAAATATCACAGGTTCGGCCCTGGAGCCGGGATTTAGTGAAGAAACAATGTTA
AGGAAGAAGAAAGAAAGCGAACGGAGAATCGATAAACTAAAAAAATACGGCGAACCGCCG
CCATTAAATCAAATACATATCAGGAATAGAGCCCATATTACACCGTACAAAAGCCCGCTA
ATTTCTAATGACGGTTCGATACGCGTTGCCAACATTGATAATGATGTTGCCAGCAATAAA
ATATCTAGTCCAGTTTTAAATAAAACCTTCGTTAAAATTAATCCTGTTAAACTAAATTTT
AATGTGGATAATAACGAAGAACCAGAAAGTCCGCCTTTAAGTTTAGACACTTCTTGA
Protein sequence:
MTIKNSDLLNQDVRKNITLSSHKKCGFIPLASIQAETSMNTENNFDSQCSMDTQLIDFVR
NAEAMMQEENDREKNKLKSPRDVASEKERIVLMDNTKQYMPKQHKVLNITEERQCGGKIN
DKCCEVGNKEDSDDITDLHNKSNSGDKLEAPTSPILSSSRSTSKPLVCMLEEFDNFEKLA
VPVLRKFTDFNEAKRAIHTQVKAKNFAIQSHSESVKYDRDKGIQNVLGVTRNAVDQADDC
MQVSDDIRTQYSFDVKVTNEDKMLFDSDDEIDVLPLTCALETYDEPGLLDKTLYVGFQTA
SNRSIQILADSFNKARCIFDDVSRKVADKSVTELVQDIDRKCTDGCHSTVDIKDKYRLNN
LRDTSDNPRGIVEEFCKKEDIIEIVDKKSVACGTAHNNAEYIDEQLIKEFDVSVVCDSDI
LDNKKISSDTQNSDKMCIESELKNDENDVINISSEEHNIAHTESSSTKCRGLLIENRETK
VNNFVGFRTASDKKIAVSDEAVIKTRNIFDNIDDLELSGCRSTTECIETKSVEKFPKNKP
NLHDSKNTEVTKDVFRNNKSIDTERFRGFRTASNKNVYISKSALEKSKKIFEDIGGNEDG
FRTDDTKKHDEDMERNKMFNKIAPSDNGYKTQTTMQGFITASKKPVTISEEALSRCKKIF
HDISYGDGIQNTSYSHDNKVQNICKVKSDNITIEKVEHRLKRKGSLSKSETIENSSVVGI
QNANNLKISKDEGMRSKISDNIDYKNKENLCIQTSFVGFQTASNKKVKISEEALIKSKEL
FRSLDEDGDHTATKKFKVNEGFIGFQTANKKPVKVSEEALAKSKKIFEDIDLNKAESGFD
PNVLISNKQAKISEAGFESGEKPQNCDQELKNHIKSKLKTNSIIKNNPKDTRDNKPNDKD
KDITQFELNIDDLLNTEVIKNFDESLHMEEIVKDTPKSKRSGSPILSCPRAKKKKFEPPR
TINRNIINNVEVPKTTHSYKFRDSYKRTKIYKLKDLKKNRITSRDIDIYILKYSFDNLLE
FRFRDQRNDIDSDVWGTDKIKEYFTDNVNIKIVPEGWVENHMRLIIWKLLCYETFFGESM
RNVCSVKNVLEQLKYRYDKELYKVERPALRRILERDDLSTKMMVLCVASIHEAGVSVRSV
TNDSKNVELLLTDGWYCLKARVDRMIEKLIVDRKIVVGMKLAIHGAELMNCDQGMSPWED
INSVRLKLSGNSTKRARWDARLGFHGNAAMLTPLSAVRLDGGKVSKLRVFVTRVYPTLYV
EKFEDGSTVTRSERLELLHQMKYEAEKQMQMEKLYEEVEKMIETESQDSEQLTQNYNLET
GSQIAKLMMKNQDPSELKATLTSSQVQRLNEHTHRQKEALIQKIQDKVKDLMKKRGINVS
RSVVPLMKIRVADLRDDVTTALITIWRPNESLHEVIREGAWIDVYNAVPTSIRYSEIQIS
AGRQSMFCKSKYKETDRQTILKHTLERKCYNIKDLQSSKTSPYNEIDTFGAIFLIEPENF
DSNKQLFQNIYISGINKDIISINFWGGIKKFGYENILNVGNVVACVNIQKRAGNTKSIPQ
YRATELSYFTKTPKYDTLKTYLTDFLKKYNKMDGVKFVRDCVALKNNYSNINNDVSPLRH
CSELSISRNKMFLDSPLTRNSHLNITGSALEPGFSEETMLRKKKESERRIDKLKKYGEPP
PLNQIHIRNRAHITPYKSPLISNDGSIRVANIDNDVASNKISSPVLNKTFVKINPVKLNF
NVDNNEEPESPPLSLDTS