| New model in OGS2.0 | DPOGS207753 |
|---|---|
| Genomic Position | scaffold114:+ 52890-59563 |
| See gene structure | |
| CDS Length | 5049 |
| Paired RNAseq reads | 1880 |
| Single RNAseq reads | 4641 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA005308 (5e-172) |
| Best Drosophila hit | xmas-2 (2e-90) |
| Best Human hit | 80 kDa MCM3-associated protein (2e-70) |
| Best NR hit (blastp) | hypothetical protein TcasGA2_TC008518 [Tribolium castaneum] (3e-125) |
| Best NR hit (blastx) | GE15617 [Drosophila yakuba] (3e-103) |
| GeneOntology terms | GO:0009790 embryo development GO:0003729 mRNA binding GO:0007283 spermatogenesis GO:0048477 oogenesis GO:0005575 cellular_component GO:0003676 nucleic acid binding GO:0016973 poly(A)+ mRNA export from nucleus |
| InterPro families | IPR005062 SAC3/GANP/Nin1/mts3/eIF-3 p25 IPR012677 Nucleotide-binding, alpha-beta plait |
| Orthology group | MCL17998 |
Nucleotide sequence:
ATGGATAATAGTCCGCAGAAGAAATTAAGAGGATCCATTTTAGATAAGGTCAATAATAGG
ACATCCATCACCTGTTCTAACGTTCCTGACTGTTTATTCGAAGCCAAGATTGCTGAAAAG
CATTTCTGTAAGTTTGGCCGAGTACAGAGAATTAGACTGCTGCCCAAGAAGCATATGTGT
GTTATAGAATATGACCACCCTGGTGCCGCAGAGAGAGCTGTCCTCAATGCTGGTGCTTAT
GATGGTTTTATGTTTGATGTCACACGATCAAAGCCTAGAGTGCGACGAAAAAGTTCAAAA
GATGAAGACCCCGATTGGGTTCCGGATCCTGAAGTAGAACAGGAATTAAATGCTATGAGT
GGTATAGAGACTTACAAAGTACCCAGGAAGAAATTACCAGGCATGGGACCTGGCATAGTC
ATATCAAAGGCCAGAGCGATGGCTCCACCGATAAAGAAGAAAAATCCAATAGCACCTAAA
CGCACAAAACCCACCATAATGAACCAACCAGCTAATGCTGAAGCTCCGATAGTTATAACG
GCCACCACTCTGAGCAATCGTGAAGCGGCCATGGAATTAGACAAGCTAAGATCCAGAGTT
TCCATCACCCCTGATGAGAAGTGGAGGACATTGGATGCAAGAGATAGGATTTTAAGAGCA
TGGGGCGGTGCTGGTTCACGAGTGAAGGTTGGTGGAGCGACTATTGGAACATGTCCTGAT
ATGTGTCCGGAGAAAGAACTGTTGCATCGACAGTCTGAACATCAGTTAATGACATTGGAG
ACAATACCGGGCTCAGATGGTCTATTGGAGCCCTGGCGTGCAGTTAAACAGTACAGTCGC
AGTTCAGCTGACCAAGAGATTCCTATGTGCTATGAACTCAGACCAGCCAGGGTTCTCATG
AGGACTTGTTCATATTTGCTACATGAAATCGCCGACACTAATAGACAGGTGACCCTAGCT
GACTGGTTCCATTTCATGTGGGATAGATTTCGTGGAATTCGTAAGGACATCACACAGCAA
GCTTTGTGTTGCGCTGAATCAATCAAAATGGTGGAGATCTGCGCTCGCTTCCACGCGCAC
TGTGCGGCTAGACTGGCTGACTTAGAACACACTCAGTTTGACCAGAAGCTGAACACGGAC
AATCTGACAAAATGTCTGCAAACATTAAAACATATGTATGCGGACGTTAGTGCTGAATCT
AAACCTAATGAGGCTGAATTTAGAGGATATATCGCTTTATTGAATCTCGGTGACGCCAAT
TTTTGGTGGGAAATAAAACAGCTACCATACGAGATCCAGAAATCTGAATCGATAACTTTC
GCTCTACAAATATACGCTGCTCTTGATAATAATAATTATGTGAGATTCTTTCGTCTCATT
CAAGAGAAAGCGACATACCTTCAAGCGTGTATTCTATTGAGGTATTTCAATGACGTCAGA
GCTAGAGCCTTAGCTAGAATTGTGAAAGCGTACGCACCCAGAGGTGGTGCTCGATATCCA
GCGGAGGATATGATGAATATTCTAGCTTTTGAATCTATAGAGAGCATGAAGTCATTCATA
AATCATTATGGCCTGCGATTCGCGAAGAATGAAGAAGAATTAACAATAATACTGAACAGA
AATCAATTCATCGAAGACAGCGATCCATATCCGTTATCAAGAGCTATAAATCTCATAGAG
TCGAAGAGGCAAAATACGGTCGGTGAAATTATATCTGGAGGTCAAATGCCTAGATATGAT
TTTGAAAACGTACCTCTTTACTCTAGCTTCGGTATTGATGGGAGATTGAAAGAAATTTCT
TTATTGGCAGAAGATTTAGGATACAATACCATAAACGATAGCGAAAAAGATGTCCAAGGC
CTAAAACTGGAGATGCAAAAACTCTCGCAAGAAGGTAGAATACTTGCGGTGTCACAGAAG
ATTGAGCCAAGGAAGACTTTATTTGTCAAACAAGACGATGAGATAAATTCAAATATCAAT
AAATTTTCCTTCCAACCGCCTATTCCGGTAGCACCAACAGAAGTAATTGCCAACTCACCG
GAAAAGGTGTTAGATAGTCCAAAGAACATATTTACTTTCTCCAAGCCTCAGAAGATTGAA
ACAAATGTGTACCAATCCAAGTTAGCATCGAATTTGTTTTCGCGTCACGAAAACGATAAA
TATAACGCAGATTTACCGAAGCCGAACGTATTCGCGTCAGCGAACCATAGCAAAAATGTC
TTTGAAGTTGCTAAAAGTGCATTTAAACCTTCTGAATCTAGTGATGTTTTTAAGAAACCA
GCCAGTAATTCTATGTTTGGGCAACAAACAAACAAGAACGAAGCCACGAGTGGTAATATA
TTTACAAAAAGCACATTATTTTCACAAACAGATCCAAAGAATATTTTCTCAACGGCTAGG
CCAAATGTATTTGGAAAGGCGCAAGAAGGCAACGATAAAAGTGCTAATATTTTTTCTAAG
CCATTGCAAGATAAACCCAGTAATCCGGGACCAGTTTCGAGCATTTTTGGCTCAGGCAGC
AATGAGACCACAGCAAAAACTACTTTCAAATTGGGTAATAACAATGCAAATCCCGTTCCT
TATTCTAATGGCGATCAATCAATTGCAACGTCACCAGGAAGTTTATTCAAAAGTGCAAAC
CAACCGTCATTTCCAAGCAACAAATTCACAATATTTCAAAGTAAAAATAAAGCTCAGACA
GTTGCCGATAATATATTCAATTCTGTGAAAGCACCACAGACTGATGTTTATGATTTTGAT
CCCAATCAAGAGAACACTGAGAAACTTGAGGAAGACATGAAACAAAAGATGAGAGAAGAG
GAAATGAAGAGGCAAGATGAATTGAAAAGGCAAGAAGAGATAAAGCGGTTAGAAGCTGAG
AAACTTGCTTTACAAAGAAAGGAGGAGGAACGGAAGAGGGAAGAACAAAGAAGAATGGAG
GAAGCCAAGAAATTAGAAGAAATAAAGAAAAAGGAAGAGGCAAAGAAACAAGAAGAGTTA
AAAAAGAAAATTGAAGAACAAAAACGGCTTGAACTTAAAAGAATTGCAGAAGAAAAAGAG
AGAAAATTCAAGGAAAGAGTTGAAAAGGAATCTCGAGAGCTCATAGAAGAACTGGTTAAT
GAAATAGAAGAAGAAACAGTCGGAAGTATTTTGAAGGAGGAAGTGGATGACTTTAACAAG
TTGCTATCATACGCACGCGATTTTAATGAAAATATAAGTATGGAATTGCTCAACGAAATA
TGTACTTCAGAATTAAAAGCTGAAATATTTAGAACCAAGAGGATTATGAAGAAATGGTAT
TATGTTTGGCGTAAACATTTTATTAGAAATTTCAAGCGACGTAGTCTTCTAGACGATACG
CCATTGTGGTTGCCAGATAGGAGTCCGTTACAAGAAGCTAGGTTATTGAAAAGGAGATCG
GAGAAATCGGCCCTGGATAATATGAATGCTATTCACAGAGGATATAAATTTGTTGGTGAA
TTGAAACAACTCCCTAGTCCGAAGCCATATAATATTCTGGATATAATAAGATCGCCTCTT
ATAAAACGTATGAAACAAATAGAATATCCCTACGACAAGTGTTTCTTTTGGAAAGCTTTA
TTAGTGTCACCTGGAGCTAATGATTACTTACATAGAAAAATAAATGTTAGAAAATGGGTT
CAAGAGGTCTTTGGCGACGGCAGACGGCATGATATAAGTGACTGTTTGATTCACGTGGAA
AAAGAATCGTGGAATAAATTGATGGATTTCGCGATATCTATAAGCTTATTAAATAAAGAC
AGCTTACACGAGTCAAACGAAGCTTTAAGTGGCGCCAATGGTATATTGGTCTACGTTACA
GAAAATGATGGCGACACTGACGCAATTATCGAGCTAATACTGAAACAGAAGCATCAATAT
CAAATAATTCCCATAGCAGTCATTATGCCAAATAAAGCTATTACGGACAGGAGATGTCTA
GAAGAAAAATTAACATTATGGCAGAATAATAATGTCATATCAGCATATAAACTTTTTTAT
GTGGATTCTGTGAATGTGGACAGATCAATTGACTCTTGTACTAAAAGCGCTCTAAAGTGG
CTATCCAGAAACTACCCCAAGCCTCCACCTCTTGAGATAGACTATCTCAAGTCTATCTGT
CAAAGATATCTTGGTAATGATATATGGGCTAGGTTGAAATCGGATAAGAATGAAAGGACT
AATTACGTACTTAAAGATTTACAAAAACTCGTTGCCTGTTACAACACAGCCGTTGACAAG
TTATGTCATGTTATAACCAACGAAGACCTATTCAATTATCCCTCGTTTCCTTTAGAATTT
GTCAAGTATTTAGACAGCTCATCCCCATATCCTAAACCATTTGAATTCATACCGAGCAGT
GCAAAACAAACAGATAATACAAGTTTTATAAGGAGGTTGATGCACAAGTTAAAACTTCCA
GATCCATCTTCACAATTTCTACCAAAGACCATTTTAAATATGCAAGAACAAATTGGTAAA
TACTGCAAGCAAATTGGCTGGTTTTCCAATCCTGAGGACGTTATGTGCAAAGTAGTTGCT
CTCATACCACAAGAGTTATGTGATTTTGATATGCCTCATGAAATATCTGATAAACATTTA
GATCAGCTCAATCTGGTCGATGTTTTAAATGTTATTGTGTATGAAAAAATTAATAGTCTC
GACAATTTTGATAATAGATTGGCTGTTTATTTAAAACCTGCCTTGGATGAATACAGAAAT
ACAAACTTTTTGTTAGAGGTGGATGTTTACGCTGGAACTAAACATAGAGCTTTAGATTGT
GAAGACGATTTGGACTATTATATACGAGCAAAACGTCGCAAAATAGCTTCTGGTGCAGTG
GAACAGCTGATGTTGGAAGACAAAGAATGCTCTCTGGTCGAAGACAATATACAGACGGCA
GATCAAAGTATACACATATTGAATTCCTGCCACGACGCTGTATCTGAACTTGAAAAACAA
CTGGATGAAGAAAAGAAAAAATCTGAGGCACTCGAAAACCTCTTAATGATGGCACTGTCG
AATATATGA
Protein sequence:
MDNSPQKKLRGSILDKVNNRTSITCSNVPDCLFEAKIAEKHFCKFGRVQRIRLLPKKHMC
VIEYDHPGAAERAVLNAGAYDGFMFDVTRSKPRVRRKSSKDEDPDWVPDPEVEQELNAMS
GIETYKVPRKKLPGMGPGIVISKARAMAPPIKKKNPIAPKRTKPTIMNQPANAEAPIVIT
ATTLSNREAAMELDKLRSRVSITPDEKWRTLDARDRILRAWGGAGSRVKVGGATIGTCPD
MCPEKELLHRQSEHQLMTLETIPGSDGLLEPWRAVKQYSRSSADQEIPMCYELRPARVLM
RTCSYLLHEIADTNRQVTLADWFHFMWDRFRGIRKDITQQALCCAESIKMVEICARFHAH
CAARLADLEHTQFDQKLNTDNLTKCLQTLKHMYADVSAESKPNEAEFRGYIALLNLGDAN
FWWEIKQLPYEIQKSESITFALQIYAALDNNNYVRFFRLIQEKATYLQACILLRYFNDVR
ARALARIVKAYAPRGGARYPAEDMMNILAFESIESMKSFINHYGLRFAKNEEELTIILNR
NQFIEDSDPYPLSRAINLIESKRQNTVGEIISGGQMPRYDFENVPLYSSFGIDGRLKEIS
LLAEDLGYNTINDSEKDVQGLKLEMQKLSQEGRILAVSQKIEPRKTLFVKQDDEINSNIN
KFSFQPPIPVAPTEVIANSPEKVLDSPKNIFTFSKPQKIETNVYQSKLASNLFSRHENDK
YNADLPKPNVFASANHSKNVFEVAKSAFKPSESSDVFKKPASNSMFGQQTNKNEATSGNI
FTKSTLFSQTDPKNIFSTARPNVFGKAQEGNDKSANIFSKPLQDKPSNPGPVSSIFGSGS
NETTAKTTFKLGNNNANPVPYSNGDQSIATSPGSLFKSANQPSFPSNKFTIFQSKNKAQT
VADNIFNSVKAPQTDVYDFDPNQENTEKLEEDMKQKMREEEMKRQDELKRQEEIKRLEAE
KLALQRKEEERKREEQRRMEEAKKLEEIKKKEEAKKQEELKKKIEEQKRLELKRIAEEKE
RKFKERVEKESRELIEELVNEIEEETVGSILKEEVDDFNKLLSYARDFNENISMELLNEI
CTSELKAEIFRTKRIMKKWYYVWRKHFIRNFKRRSLLDDTPLWLPDRSPLQEARLLKRRS
EKSALDNMNAIHRGYKFVGELKQLPSPKPYNILDIIRSPLIKRMKQIEYPYDKCFFWKAL
LVSPGANDYLHRKINVRKWVQEVFGDGRRHDISDCLIHVEKESWNKLMDFAISISLLNKD
SLHESNEALSGANGILVYVTENDGDTDAIIELILKQKHQYQIIPIAVIMPNKAITDRRCL
EEKLTLWQNNNVISAYKLFYVDSVNVDRSIDSCTKSALKWLSRNYPKPPPLEIDYLKSIC
QRYLGNDIWARLKSDKNERTNYVLKDLQKLVACYNTAVDKLCHVITNEDLFNYPSFPLEF
VKYLDSSSPYPKPFEFIPSSAKQTDNTSFIRRLMHKLKLPDPSSQFLPKTILNMQEQIGK
YCKQIGWFSNPEDVMCKVVALIPQELCDFDMPHEISDKHLDQLNLVDVLNVIVYEKINSL
DNFDNRLAVYLKPALDEYRNTNFLLEVDVYAGTKHRALDCEDDLDYYIRAKRRKIASGAV
EQLMLEDKECSLVEDNIQTADQSIHILNSCHDAVSELEKQLDEEKKKSEALENLLMMALS
NI