| New model in OGS2.0 | DPOGS212783 |
|---|---|
| Genomic Position | scaffold3:+ 966451-969015 |
| See gene structure | |
| CDS Length | 2565 |
| Paired RNAseq reads | 4160 |
| Single RNAseq reads | 10435 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA013226 (1e-70) |
| Best Drosophila hit | egalitarian (2e-101) |
| Best Human hit | ND |
| Best NR hit (blastp) | egalitarian [Nasonia vitripennis] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to egalitarian CG4051-PA [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0048477 oogenesis GO:0007312 oocyte nucleus migration involved in oocyte dorsal/ventral axis specification GO:0007294 germarium-derived oocyte fate determination GO:0007310 oocyte dorsal/ventral axis specification GO:0016325 oocyte microtubule cytoskeleton organization GO:0008298 intracellular mRNA localization GO:0005622 intracellular GO:0006139 nucleobase, nucleoside, nucleotide and nucleic acid metabolic process GO:0008408 3'-5' exonuclease activity GO:0051028 mRNA transport GO:0003729 mRNA binding |
| InterPro families | IPR012337 Ribonuclease H-like IPR002562 3'-5' exonuclease |
| Orthology group | MCL16409 |
Nucleotide sequence:
ATGGAATCAATGGAATATGAGCTCGCTAGGAACCTCACTCTGTTGTTTTTCGTGGAGCGC
CTGCTCGATAAAGGCGAGCCGAGAACGTTGCACGATCTTTCCTGTCAGTTTGGTGCCAAG
GGTTTCACTAAGGAGATGCGTCAGATCGCTGGCGGGTCCCAGTCGGGTTTAAAGAAGTTT
CTGGGCCAATATCCCGCGTTGTTCAACATAGACGGGGACTATGTCGATATCAACACGTTC
CAGCGGCACCCGAGCGGCGCTGGCTCCTCCTCAAACAACGACTACATCGAAGAGGCGAAG
GAATATTTTGCCAGTAAAATGATACAATACGGCGATGGAACCGAAGTACCTATCAAAAGC
CTCCTGGGCCACAGAAGCCAAGCTTCACCACAAGTGCGTCACATTTCTGGGCAGCGCATC
AAAGAGTTCAAGGACTTTCTCATGAAGCACCCGGACACTTTCCAGATAATTGAAGATAAT
GTTGTTCTAGTCAGTGAGAATCATAGACGTGACCATTCACATGCTAACTCAGAACAGTTT
CACAATCTCCCCGTTCCGAACATCAATACGGACACGGCTCAGCAGCTCCTAGACTACGTC
GCTCAGTGTATTGAAGCCAAAGGTCCAGTGATGGTAGATCAACTATTCCACTTAATTGTG
TCCCGTTTCCCACAAGAATACTGGTATCAGATGTTCAAAACACCAGCAGATTTAAGTGCA
TTTTTAAAGATATTCTCTGATAGCTTTCATGTTCAAGCAAACCTCGTGACACTCATTAGT
AAACCAAAAATACCTGTAATGTATCTAAATGCAAAAGCTAAAGGTAAGACTGATCCACCA
AAGCCAGTTGTGGAGGAGGCACCCGTCTCTCCAGTTCCTCCACTCGCTGTTAGTCCGACC
CCCTCTGACGGCATGAAAAGTCCAGCGAACAGAATACTCAGTCCTGTCGAATCTCCTAGA
AGCCAACAAGCCAATATAGCAAATCAGACCCTAAAGCAGAGGATTAACTCAATTGTTATA
AAAAACTTAGCAGAAAACATGGTTAGGGACAGAGTCAACAATCATCTTAACCGTGCGGCC
GAGGAAACAAACGGAATGGCTAGTTTGAAGAACAATATGATGGGTGAAGCTTGGAGACAG
AAAGTACTGCAAAGTGCAACTGTCATTGCTAATGCAAGAGAATGTGCAACATTAGTAGAC
AGCATCGTTGGTGCTAAACGCTCCACAAAGAGCATCATATCCTTTGATTGTGAAGGCATT
AATTTGGGACTAAAGGGTGTATTGACCCTATGTCAGATAGCTACAATGAATGGTGAGGTA
TATTTACTTGACATATTGGCATGTCCGGCTATGGTTGTTGAAGGAAAAATTAAGGAGTTA
CTAGAAAGTGAGTGCGTTGTTAAAATTATTCATGACTGTCGCAATGACTCAGTCAATTTA
TATAATCAGTTTGAAATCACTTTGAAGAATGTGTTTGACACTCAGGCCGCCCATGCCGTT
CTGCAATTACAGCAACAAGGTGTTCCTGTTTATAAAGTTAAAAATCTTAGCCTGAACGCT
CTTTGTGAATTATATAATGCACCGATGAATCCAATGAAGGAACAGTTAAAGAATGTCTAT
CGCAGGGATCAGAGATATTGGGCTAGACGACCTCTTACAAAAGACATGATAATTTATGCA
GCCTCTGATGTATTATCGCTTGTCAATCCAGCCATTTATGCCTATATGTCTGCAAATATT
AACCTGGAAAATCAACAGCTGTTCGAGGAATTATCAAATGAACAAGTATTCATGCACATA
CAACCAACGGAAGTGAAGTTACGCAAGAGACAGAGAAAAATAAACACAGAAGTTGGAGAA
TTGAAGCTTAAACTGGCCGAATCTACTAAGAATATCGTTTTAAGTAATAGGGAAATAAGA
TTACTGAGGTATTTGGAACTTACTGAAGAGGAAAAAGAAAAGCTGAAAGGTTGTCACAAA
ATATCCAAGAAATTGGAAAAGCTGGAGGCTATGGGCCAGGACAAGGACAGCGATTCTGAA
GACGACGAGAAGGAAAACGAAATGGCCAGTCTGGAGTCGAACCCTTCAGACTCTATATCC
TCCCCACACTCAACCCAACCACCCAGCCTAACAGAATCCATGCAAATGATGGATGAAATA
TTATCAGATACGAATATGGATAAGGTTGAAAAAATTAATCGCCTTGAGGCTATACTCTCA
GCCGTGGCCCCATTGAGTGGCGAGCTTGAAGATAAGTTCTCAAGGACCATGGAGCAGACA
TTACCACTGCTCAAGAACAAGGATTGGTCAAATCTAAGCCAAATCTTGAACATCGGTGAC
ACTGACAGGAAGAACTGTTGTTGTAAATGCCATAACACAAATTTCGACGATGTCAAGTGC
AATGATCTCAACGAAACTAAGAAGGCGGAGATAGCTTCGCAGACTTTGAGCACGGGGGAC
ATCGTTATAACGAGAATCCACTTCAGGGAAGAGGACAAACTCAACGAGAGGACAATTGAC
GCCTCGCCTTTCAGTAAGAGGGTAGGTATCAACAACGTGTCCTGA
Protein sequence:
MESMEYELARNLTLLFFVERLLDKGEPRTLHDLSCQFGAKGFTKEMRQIAGGSQSGLKKF
LGQYPALFNIDGDYVDINTFQRHPSGAGSSSNNDYIEEAKEYFASKMIQYGDGTEVPIKS
LLGHRSQASPQVRHISGQRIKEFKDFLMKHPDTFQIIEDNVVLVSENHRRDHSHANSEQF
HNLPVPNINTDTAQQLLDYVAQCIEAKGPVMVDQLFHLIVSRFPQEYWYQMFKTPADLSA
FLKIFSDSFHVQANLVTLISKPKIPVMYLNAKAKGKTDPPKPVVEEAPVSPVPPLAVSPT
PSDGMKSPANRILSPVESPRSQQANIANQTLKQRINSIVIKNLAENMVRDRVNNHLNRAA
EETNGMASLKNNMMGEAWRQKVLQSATVIANARECATLVDSIVGAKRSTKSIISFDCEGI
NLGLKGVLTLCQIATMNGEVYLLDILACPAMVVEGKIKELLESECVVKIIHDCRNDSVNL
YNQFEITLKNVFDTQAAHAVLQLQQQGVPVYKVKNLSLNALCELYNAPMNPMKEQLKNVY
RRDQRYWARRPLTKDMIIYAASDVLSLVNPAIYAYMSANINLENQQLFEELSNEQVFMHI
QPTEVKLRKRQRKINTEVGELKLKLAESTKNIVLSNREIRLLRYLELTEEEKEKLKGCHK
ISKKLEKLEAMGQDKDSDSEDDEKENEMASLESNPSDSISSPHSTQPPSLTESMQMMDEI
LSDTNMDKVEKINRLEAILSAVAPLSGELEDKFSRTMEQTLPLLKNKDWSNLSQILNIGD
TDRKNCCCKCHNTNFDDVKCNDLNETKKAEIASQTLSTGDIVITRIHFREEDKLNERTID
ASPFSKRVGINNVS