| New model in OGS2.0 | DPOGS208548 |
|---|---|
| Genomic Position | scaffold28:- 126619-134661 |
| See gene structure | |
| CDS Length | 4398 |
| Paired RNAseq reads | 708 |
| Single RNAseq reads | 1765 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA010336 (6e-173) |
| Best Drosophila hit | cappuccino, isoform I (2e-97) |
| Best Human hit | formin-2 (1e-74) |
| Best NR hit (blastp) | PREDICTED: similar to formin 1,2/cappuccino [Tribolium castaneum] (1e-138) |
| Best NR hit (blastx) | PREDICTED: similar to formin 1,2/cappuccino [Tribolium castaneum] (9e-131) |
| GeneOntology terms | GO:0007315 pole plasm assembly GO:0007316 pole plasm RNA localization GO:0007304 chorion-containing eggshell formation GO:0048477 oogenesis GO:0003779 actin binding GO:0045451 pole plasm oskar mRNA localization GO:0015629 actin cytoskeleton GO:0045010 actin nucleation GO:0005938 cell cortex GO:0005737 cytoplasm GO:0030029 actin filament-based process GO:0008017 microtubule binding |
| InterPro families | IPR015425 Actin-binding FH2 IPR003104 Actin-binding FH2/DRF autoregulatory |
| Orthology group | MCL16049 |
Nucleotide sequence:
ATGGGCAATACACAAGCAGGTGAAAAACAACATAAAACCGGAAAGTCACCAGCCAAAGGT
AAACATTTTATAAGAAATTTAAACAGAAAAAGTTCCGGTAAAGAAACTAAGAAAAATGCT
CGTAAAAAGAGCATCGGAAGGCGAGAAACTCCAGATAAAGAGTTCGATAAAACATCAGAA
TCCGATAACAATGAAACTATTGAGGCATCTGATAACGACACGGTCGAGTGCGTGTTCAAA
ACATCGACTGGCGAGGGGGGGGCGGGAACTAGTGTGCAGTCGGAGGTAACGGTGACCAGG
TGCGAGTACTCCCAGCGGTCACCGACCCGCGACCACTCACACGCCGTCTCACCCGCCGAG
AAATCCTCCTCGGACTCAGTATTCACGGACCCTTTAACGCCGCTCGCCGTAGAAGTCAAC
CAGTGTTATTACTCCGCCGAGAGCGACAGCGCTCCCGAAGAACCGCTCGTCACGAACCTC
GCTCCATGCATCGATGCGCAACAGGTGACCTTGGCAGTCGAAGCCGGACAGACAACTATG
CCTCACGATGATACTGCCACCCCGCTGTCATTTCATGACAGCATAGAAAAAGAAGAAAAA
CTTGACATTTCCGATGAGATTAGTGATAGAGATAATAATGAAACTGTTATGGGTGGCATT
TTATCAAAGTCAAAGGAGGAAACCTTACCGCATAAGGATCATGAGTGTAATCATGAATTT
CTGGAGAATCGGTTGAAAGCTTGTCCGGGACAAACCTCATTTACTATATCCAGGCACAGG
AAAGTGGAGCTTCCACCGGTCGCAGATACCTCTCTTAATATTCTGGATGATGATAAAGAA
AAGCGTCATTCCAGTGTCAGTGATGGAGCGGTCCCCGATTCAAATGTTTTACGAAAAGTT
GCATCTCTCACCCTCGATAAGCACACAGAGTCGAGGGTCGTACGTCCCAAGTTCGTACCG
GAGAAACTTGATTTCCAACTATACCAAAAGTTTGAAGGGCAAATGCTTCTTAATTGGTTC
GCATCATCCACATCTGAAGATAATCATTTGCGGAACATTCTCAACAGTCAGGATCTCAAA
ACACTTGGGGTACAATACTGTACGCACTTGCTGGCGGCCGGTGTCTTAAGACAGATACCT
GACAAGGATGCTCCAACTGAGAAAATATTTAAGCCTAATCTAATGTATTATTGGTCACAC
ATGGAGATGCCAGCATCTCAGCCAGTCACACCGGGAAGATTAGACATGTCCTCATGGCCG
CCTGAACGTGATACACTTAACTTAAAAACACAAACACAAATCACCAACTATTGTACTATG
GAGAACCAATATAACAAACAGCACAGTGAAGATGTTAATGACATAGCTGAGGCAAAGTTT
GTTATATCACAGTTAAAAAGGAAACTTCAAGAATTAGAATACCAGTTGGAAAATTATAAA
ATGAGTCCACAAATTGGATTAATTAATAAAAAGATTAATAACACATTTATGTCGACTCCA
GAAAATTTATCGAACAGGAACAAAATTGATTTAGTCAGTAGAGAGGTTCAAACAATAAAT
GATAGCGAAGTTATTAGGCTGTCAGACAAACCTGTGATAAATTATAAAGATGCAAGTACA
GGTGTAAATGAAGATTGCAATTTAGAATTAAGTAGATTAGGTAAAAACAATGAATTGTAT
AATAACGATTTACTAGGTAAATCAGAAAAGAGATCTGAAAAAATAGAAAATTATTGTAAA
TTAAATAAAAGTCGAGATACTAATAACGCTTATCGGAATGAAGATATAACAAATATAAGT
GGTAACGGCAATAGAAAGCTTAGTAATAGAGAAAGAGATTTACTAATCACGAATCTTACA
AATCAACTATATAGTATAGATGATAATAATATTAATAATACATGTGAAAGCTCCTCGGAT
GCTTCATTCTTAAGTACAACAACAGAACTATTAAGTAGCAGTAGTAACAGATTCTTGGAC
ATCAATCAGGACAATATATCTAACTCATCTACAGAATTTCTTTGTAGAAATGATGATAAG
AAAACTGATTGTAATATACAATCATCAGATTTGAAAAATAGCATTATCCCAATACAAACT
ATAGAAGCAAGAGATGTTATGTTATCAGATATGAACCTCACATTGAAAGGTTCTGCTAAA
AGTAATGATTGTCAATCTGCTGCTACACCACCGCCTCCATACCCTGGGATGCTGCCATCT
CCCCCACCTGCGCCAGGGACAATCCAAGATCAGTCACTTTGCAAGGAATCAAAATCACCT
GACATAAAACAACAGTCAACAACACCAGCTAATCAACACAAAATCGATTTACTTGATGAC
AGTAAAGGTTCCCCAACACAAGATATTGTTAAAAGTTCCAGTATTGATGAATCTCCAAAA
TCAAACAGAAATCTAGACTGTTTCAGAGAAATCGAAAATAATGACTTAAAAGCTAAAAAC
TTCAATTCAGTCTCTTCAAACCAATATGATGAAAGGAAAAGAAATAGTATAAATTCCTCA
CTACCTCTCTCCAATGATAACGTGTTACCACCGCCACAATCTCAAGAGTCCACAGTATTA
TCTCCTCAAGATATTAAAGTAGACGATACTAAAACGCCAGATATCCCTGGTCTAGAACCG
CTGTCTTTAAAGTTGGAGTTACCGAGTACAGAATCACCAAAAACAACGATAAGTCCGCAT
TCACCAGTAAAAGTTGTGGGTCCTCCACCCCCACCTATGCCTGGAACTGACGGTCTCACA
CCAGTAATGCCAATTATGGGCCCCCCTCCCCCGCCAATGCTTGGAATGGGTCCCCCTCCT
CCACCGATGCCTGGAATGGGCCCCCCTCCCCCACCAATGCCTGGAATGGGGCCCCCTCCT
CCCCCTCTGCCCGGTATGGGCCCTCCACCACCTCCCATGACTGGTTTAGGACCACCATCG
CCACTAACACCTGGAATGCCTCCGCCGCCTCCATTAAATGCTGGACCTGTACCATTCCCA
GCGCCACCCGTGGGTGGATGGAATATGCAAAGAGCAACTCTGAGGAAAACTCCCATAAAG
CCTGCGGCTCCCATGAAGCCTTTATATTGGACGAGGATTTTAGCACCACCGATTCCCCCA
TCATGTCAAGGCGATCCAGAAACATCGGGATTCAAACCGCTCTGGCTAGAAATAGAAGAA
GCTAAATTGGACAACATAGACGAATTCGCTAATCTATTTTCACGTCAAGTCGTAAAAGCT
CCCGTTAAGAAAAAGGTTGAAGTGAAGAGTAAAATACAACCCATCAAGATTTTGGACAGC
AAACGTTCGCAGAACGTCGGGATTCTAGCTCAGAGTCTGCACGTTGAGTTCTCGGAGATC
GAGAACGCTATCTATAACTTCGACACTTCCGTCGTCAGTTTGGAGGCTCTGCAGCAGATT
TATGAATTGAGAGCCAAAGATGAAGAGCTGATGATGATCAAGGAGCACTTGAAGACTAAA
CCCGGCGTGCCACTGGATAAGCCTGAGGCGTTCCTTCATGACTTATCCGGAATCCACAAT
TTCGCGGAGAGAATATCTTGTTTTACATTCCAAGCGGAGTTCGACGATGCAGCAAACACG
ATAATGCACAAATTAGATAATCTGAAGCACACTTGCGAGTTTCTTGTGACGAACGAATCT
CTTAAGCAGCTGTTTGCTATCATACTGGCTCTCGGCAATTACATGAACGGGGGGAATGGT
CAAAGAGGACAGGCTGATGGATTCGGTCTAGAGATACTTTCTAAATTGAAAGACGTTAAG
TCGAAGCAGTCCCATATAACGCTACTACACTTCATAGTACGTACGTACATGCGCGTTTCG
TCACTTGGAGCCCTACCGGTGCCGGAGCCCGGGGACGTTGCCCGCGCCGCCGCCCTAGAC
TTCGCAGAGGTCGCCACGAGTCTGAACACGCTGCGCACTAACCTTGACGAGTGCCGAGAA
AAGGTTGAAAAAGTTATCGAGACGGATGCACGGATACAAAAGACGGAAGACGAAAACGCG
AGTTGTGAAAGTAAAAAAAGACTGGAAGTGTTCAAAGACAAAATGACGGCGTTCCTGAAC
GCTGCGGGAGAAAAACTTAAGACGGAAAACGATAACTTATCAGAGTGTAAAAATAAGTTT
ATAGCTACAGTGAAATTCTATCAATATTCTCCAAAATGTGGCAAAGTTGAAGATTGTGAA
CCGAAGGAGTTTTTTTCCCTTTGGACGTCGTTTTGCAGTGATTTTAAAGACATTTATAAA
AAAGAAGAACAAATAGCTATTAAAGAAAAATTAAAAGAAACTAAAAAGCTACAGTGCGAA
AGAAAAGCGAATACCCAACCAAAAAAAGAGGGTGGTTTGAAAGCCCGTCTTCAGAAGTTG
TCTAGCACAAAAAAATGA
Protein sequence:
MGNTQAGEKQHKTGKSPAKGKHFIRNLNRKSSGKETKKNARKKSIGRRETPDKEFDKTSE
SDNNETIEASDNDTVECVFKTSTGEGGAGTSVQSEVTVTRCEYSQRSPTRDHSHAVSPAE
KSSSDSVFTDPLTPLAVEVNQCYYSAESDSAPEEPLVTNLAPCIDAQQVTLAVEAGQTTM
PHDDTATPLSFHDSIEKEEKLDISDEISDRDNNETVMGGILSKSKEETLPHKDHECNHEF
LENRLKACPGQTSFTISRHRKVELPPVADTSLNILDDDKEKRHSSVSDGAVPDSNVLRKV
ASLTLDKHTESRVVRPKFVPEKLDFQLYQKFEGQMLLNWFASSTSEDNHLRNILNSQDLK
TLGVQYCTHLLAAGVLRQIPDKDAPTEKIFKPNLMYYWSHMEMPASQPVTPGRLDMSSWP
PERDTLNLKTQTQITNYCTMENQYNKQHSEDVNDIAEAKFVISQLKRKLQELEYQLENYK
MSPQIGLINKKINNTFMSTPENLSNRNKIDLVSREVQTINDSEVIRLSDKPVINYKDAST
GVNEDCNLELSRLGKNNELYNNDLLGKSEKRSEKIENYCKLNKSRDTNNAYRNEDITNIS
GNGNRKLSNRERDLLITNLTNQLYSIDDNNINNTCESSSDASFLSTTTELLSSSSNRFLD
INQDNISNSSTEFLCRNDDKKTDCNIQSSDLKNSIIPIQTIEARDVMLSDMNLTLKGSAK
SNDCQSAATPPPPYPGMLPSPPPAPGTIQDQSLCKESKSPDIKQQSTTPANQHKIDLLDD
SKGSPTQDIVKSSSIDESPKSNRNLDCFREIENNDLKAKNFNSVSSNQYDERKRNSINSS
LPLSNDNVLPPPQSQESTVLSPQDIKVDDTKTPDIPGLEPLSLKLELPSTESPKTTISPH
SPVKVVGPPPPPMPGTDGLTPVMPIMGPPPPPMLGMGPPPPPMPGMGPPPPPMPGMGPPP
PPLPGMGPPPPPMTGLGPPSPLTPGMPPPPPLNAGPVPFPAPPVGGWNMQRATLRKTPIK
PAAPMKPLYWTRILAPPIPPSCQGDPETSGFKPLWLEIEEAKLDNIDEFANLFSRQVVKA
PVKKKVEVKSKIQPIKILDSKRSQNVGILAQSLHVEFSEIENAIYNFDTSVVSLEALQQI
YELRAKDEELMMIKEHLKTKPGVPLDKPEAFLHDLSGIHNFAERISCFTFQAEFDDAANT
IMHKLDNLKHTCEFLVTNESLKQLFAIILALGNYMNGGNGQRGQADGFGLEILSKLKDVK
SKQSHITLLHFIVRTYMRVSSLGALPVPEPGDVARAAALDFAEVATSLNTLRTNLDECRE
KVEKVIETDARIQKTEDENASCESKKRLEVFKDKMTAFLNAAGEKLKTENDNLSECKNKF
IATVKFYQYSPKCGKVEDCEPKEFFSLWTSFCSDFKDIYKKEEQIAIKEKLKETKKLQCE
RKANTQPKKEGGLKARLQKLSSTKK