New model in OGS2.0 | DPOGS215465  |
---|---|
Genomic Position | scaffold250:- 54389-70626 |
See gene structure | |
CDS Length | 4932 |
Paired RNAseq reads   | 2682 |
Single RNAseq reads   | 6292 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA007325 (7e-26) |
Best Drosophila hit   | gp210 (7e-52) |
Best Human hit | nuclear pore membrane glycoprotein 210 precursor (2e-34) |
Best NR hit (blastp)   | PREDICTED: similar to ENSANGP00000004199 [Nasonia vitripennis] (5e-79) |
Best NR hit (blastx)   | PREDICTED: similar to ENSANGP00000004199 [Nasonia vitripennis] (2e-62) |
GeneOntology terms    | GO:0016021 integral to membrane GO:0008355 olfactory learning GO:0007611 learning or memory |
InterPro families   | ND |
Orthology group | MCL11584 |
Nucleotide sequence:
ATGAAGAGCCTACGGACTAGTATTGTCTCCGTGTTGACATTACTTTCATTTATTACTAAT
TGTGAATCTGCCAAAATAAATACACCGAGAGTTTTGCTTCCATGGTTTGAAAATTTATAT
GTAAACTTTACTTTTGAAATCATAGAAGGTGGCTGCTATTCCTGGAGTTTGTCTCGGGAT
GACATCATTGATCTTGTGCCATTGTACGAAGATACATGGGGTCACTGTTCACGAGCTGCA
CGTGTTTCAGTTTCCAAAACATGTATACCGCCGGGTTCAGTAATTATTCTAGCAGAAGAA
GTTAATACAGGAGAGATCCTAAGAGGTGATGTGGATGTTGATATAATAAGATCATTAAAA
ATTATGAGTACAACTCGTAATTTATATTTGGAAGAAGCCCCCGAAGCTTTTGAAGTGGTG
GCATACGATGACAAAGGAAACAAGTTTTCCTCTCTGGAAGGAATAAGTTTCACTTGGAAT
ACTGAAAATGTGGATAATAGTGGAAATCACCCATTGATTACTCTCGTCCAATGGAAAGAC
ACTGATTATGAAGCCCCTCAAGGTATAGCTGAATTAGAAGCTCAAGGCCTACAGTCATAT
TCTGTGCTTCTTTACGGTCAGGCTATGGGGGAATCCCATGTTACAGTGTGTCTTGATAAA
ATTTGTACCGACTTTTATCTTCATGTGGTTGCCAGTGTTGTTCTGACTCCGGCAGTGGCT
TATGTTGCCCCCGGTGATACTTTAAGATATAAGGTTGTAAGAGCGCGTGCTGGTCGTCTG
ACTGTACAAGATGTGGCCGCCACAATATACAGAATGGAATTGCCACAATCTGATGTTGCC
ACACTAGAAGACGGCGTAAGCCTTGTCAGAGCTGCAGAAGTAGGGACATCTCATGTTTAC
CTTAAATCAGAGGCAACAGAAGTGGCAATGGCAACACTCACGGTTGTAGAACCATACTCT
ATACGCGTCACTTTAAGACCATCTAATATGATAATACGCGGTGAACAATTTACTGTACAC
TGTGTTGTATTCGATGAGGATGGGCACCCATTAACAGCTGGGCCGGAAATATCAATAAGG
CTTACAGTGAACGGTGAAGCAGATGTCCTTTTGATGAAATCAACAGAAAACGGAACAATA
ACTGATGCTGTGGCCTACAACACTGGAGAGTTTACAGTTACAGCTAAATTAGTTTCGGTA
GCTGGTAAAAGTATGTTTAAAAATGTTGAAGGTCAAATAACTGCAAAGGCTGTAGACCCG
TTAGCGATGGTGCCACCAGAAATGTTTATAGCATGGACTGAATCAAACTTGGAGTTTCCA
TTAAAACATAGCGGCGGTGGTGATGAACATGTGACTTGGTCAGAGAGACAAGATAGCAAT
CTCGTGCTGACGCCAGCTGGTTTGCTAACTGTACGTGGCGTTGGACACATGGATGTCAGA
TTACATCTCACAAAGTATCCACATATCCAGGCGTCGGGGAGGGTGTGGTCAGCTGTTCCC
GAACTCCTGCAAGTGTCGACCTCAGGAACAGCGCGCGTGGCTCGTCCTCATCATCTACAC
ATCAAGCTCACTGGAACTCATCCGGCTACCGGGGAATTATACAACTTTAATACCTGCAAC
TGCGCGTCATTTGCTGTGTCCTTAGTCGAGGGTCCGGAGCCGCAGAATGTGACGGCTGCT
CCTTGGGTAAAACCAAAAGATGGCGCGTGTTGTGTAGTGGAGTGCACGTTTTTGTTCCGC
GGCGTGTCGACGTTGCTTGTGTCCCGTGGTAGGGCTGCCGACACGGCCCGTGTGGCGGTC
AGGGCTGCCCCAAGCCTATTGTGGCCGCACGCCGCCGCTCTGTTGCCTGGCGCTACGATA
CCTGTGATCGGCGAGGGTGAATCACTAATTCCTCAGTCGAGTCAGCCGAGGGTCGCTGAA
CTCATCGGTCGTGATGGCGCTCCGCCCCACAATTATCCTGATGCCCAACTGTTCACCCTT
AAATGCCAAAGGAAAGGTGAAGCGTTGGTGGAATTATCATCGTTGCAAGAGGAACGCGAG
TCAGTGTCTCTTGAGACGTGGTGCTCGTCGCACGTGACGCGAGTTCGACTCGATCCTCCG
GACACGCAAGGAAATTGTTCAGGACCGAGGCTGTGGTTGCGTCCCGGGCAAGAAGTGCCC
ATAAAGGTGACTCTGTTTGACACAATAGGAAGACAGCTATTGGACGAAGATGGACCGATT
ATGCAATGGGATGTACAACCTTATCATATAGGGATAGGTGTCAAAACCACAGACCGATTG
TTTGTAGAGACAAACAGTAAATATGCTCCGGTACCAGTACCTGATAAATATTATCAACTA
GTAGTGGCAACGGAACAGGCTATAGGATGGAGCGGTTCTATAAAAGCCGCAATTCCTGAT
ACTTCAGCGACGATACAAGCCAAAGTTGTTTCTCCCTTGAAATGCGACCCTATGAAGGTT
CACATCGCATGGGAAGGGGAAACCGTGCCTAATATATCAGCCGTCACCGGCGGCAGCGGA
AAATATATAGTCGAAACCCCGAAAGGAGTTACAGCATCCGTTGATGAAGGCAGATTATCA
GCAGTGTTGCCAACGCCGGGTACTTATGATCTGATTGTGGCAGATTCATGTGTTAGCGGC
GAGAAGAACATTGTCGAGGTCATTATAGAAGAGGTTCTGAGTGTGGAGGTATCAACCGCG
AGGGCTGTGTGTGTCGACAATTGTATTCCCATCAGAGCGCTGGTGAAAGGCGTCTCCCAT
AGATATCTAGCCACTAGCCGGGAACCAGATTGGAAGACCGAGGGCGACATTGTAGTTAGG
AAGGGACAACTGTGTGGCCTCAGGGAAGGGGTCGGAAGAGTTAGAGCTTCTTTGGGGGGT
GTATGGAGTCAATCTGTTGAGGTGTGGGTGTTTCCGTCGCTGGCGATTGTTCCTGAGAGG
TCAAGGGTCGCGGTGGGAGGACGCGTTCACCTCAACCACGCGGGAGGTCCCCCGCGACAT
CTCGCCTCGTTATTGTATACCGGCGGTGGAGAGCACGCGCAGGTTTCTTCGTCTGGTGTG
ATACAAGGCTTATACCCGGGAAGTACTCGAGTCAAGCTCGTGGCGGTTGATGCTGCTAAC
GTTGAACTGGCGAGTGCCGAGGCCGAAATTGAGGTTGTGCCTATAACCACGCTCCGAGTG
CGGGCGGCGACACAAACTTTGTTAGTGGGGTCGCCCGGACCCGTGTGGATTGAAGCTGCG
GGGTTGACAGCGACCGCTCTATCCTCGCTCCAACCGTTGCCTCGAGTCACTTGGGCATTA
CGGGACCCCACCATGGCCAGGATATACACGTCGCATATTGACGATCGCTTGGAGAGGTCG
GTTATTGAAGGACTATCAATACGAGTGGTGCCCTTAAAGCCCGGTGTTATCACACTCGAT
GTCAGAGTAAGGAACATGGGACAAGTCGCTGAAACTCGTTCCTGGGACAGTACAATCGAG
ATTCTTGGTGTATCAGATATCCGCACCTCCATAGAGGGCTTGAGAGATATAAACTCTGGT
GAGATGTTATCCCTGGCCGTTGGTTCCACCGTTCGTTTGAAGTCACTACCTAAAGGACGG
TGGTCTTCCTATCAGGATGGTATGTGTACATATTTATACGTAATACATGTCGAGGTCGCT
ATCCCCTACTACTGTACAGTGGAGCCGGCGGAGTCTTCGGAAACGTGGGAGTCCTTGAGG
GTTGTGACGAGGAGCGTCCTTGGTAGGGAGCTGTTGTCACCCCAGGCCAATGTCTCCGTG
ATGACGTCACTGCCGGCGAGGATACGTAGGAACTTAAACAGTGCTCGCGGTAGCGAGATT
ACTCTCAGTGGTCTGGACTCGAATGGAGCTTTTATGAGCTTCGAAAGTTCCTTAGCTGGT
GTTACCGTCTCAGACGAGGTCTTCATACCTGGATCCGACGCATACGCCAATAGGATAGTG
GCGACGGGAGGATCCGCTTTGTGTATCGAAGGTTCGGGTTGGACGGTTCCAGCGGGGATC
CAGGCGGTCTCCGGCGCGGGGCTGACACTGGCGGTGCTGATGTCGGATGCACCTGCCATG
CACGTGTTGCGACTCGATCGACCGCCATCTACCGTCAACATTCTGCAACTTCCGCTCTCT
AAGATGGAATTTCTTCCCGGAGAATGGCCGGCGTCCCTCGTACCTCTCTCCATCCAAGCG
GAGGGACTCACGTCGGGCCCTCTCCTGTGTACCGAAGAACAAAAGTATGCTCTAGCCGGA
GTAGACGTTGATGTGCCATTTAGCTGTCGAACGGCCGCCCCGTTTGCAGCGCAAGCTGTT
CTGGATATTCCCAACGGACGACACGGATGTGCCATTCTCCCAGGAAATGAAATAAACGAG
GCAGTCGAGGTGGAGCTGTGTGCCGAGTGGGGCGTTTTGAGCACTTGCACTAAAGTACAG
TTGTTGCCGCCGATACAATTGTCACAAACACGAGTATCACTGCTGAATCCCCCTTCTATG
TTTATTATTAATGGACACCCGAACGCTCTAAAGGCGGTCAAAATTACACCGTCGCCCGGT
CTGAAAGTTGAAACGAATTCCAGGGAAGGTCAAATAAGTGTAACGGTTAAATCCGAAAGT
ACGACCTGTGGCGTTGGATGGGTCAACGTTATATCGAAATTAACGTCTCAAGAAATCAGG
GTCGAGGTCGAGAGAGAATGCGAAATAGCTTGCGGGACGTTGCTGGGCGTTTTATTTTCT
ATAATGAAACCCTATCTATCAACTCTAGTGACGGTCGCCGTTATAGCCGTTGGATATTTG
TATGCAAAAAGGTCAGATACAGTTGCCAAAGCCACCGCAGACTACCCTTCAGACTCCGCT
GCCAGAGCCTCGGAGTCGGACGTGGTCGCGGAGTCCCTACGCCTCCAACCCATCAGCACC
AGTGTATGGTGA
Protein sequence:
MKSLRTSIVSVLTLLSFITNCESAKINTPRVLLPWFENLYVNFTFEIIEGGCYSWSLSRD
DIIDLVPLYEDTWGHCSRAARVSVSKTCIPPGSVIILAEEVNTGEILRGDVDVDIIRSLK
IMSTTRNLYLEEAPEAFEVVAYDDKGNKFSSLEGISFTWNTENVDNSGNHPLITLVQWKD
TDYEAPQGIAELEAQGLQSYSVLLYGQAMGESHVTVCLDKICTDFYLHVVASVVLTPAVA
YVAPGDTLRYKVVRARAGRLTVQDVAATIYRMELPQSDVATLEDGVSLVRAAEVGTSHVY
LKSEATEVAMATLTVVEPYSIRVTLRPSNMIIRGEQFTVHCVVFDEDGHPLTAGPEISIR
LTVNGEADVLLMKSTENGTITDAVAYNTGEFTVTAKLVSVAGKSMFKNVEGQITAKAVDP
LAMVPPEMFIAWTESNLEFPLKHSGGGDEHVTWSERQDSNLVLTPAGLLTVRGVGHMDVR
LHLTKYPHIQASGRVWSAVPELLQVSTSGTARVARPHHLHIKLTGTHPATGELYNFNTCN
CASFAVSLVEGPEPQNVTAAPWVKPKDGACCVVECTFLFRGVSTLLVSRGRAADTARVAV
RAAPSLLWPHAAALLPGATIPVIGEGESLIPQSSQPRVAELIGRDGAPPHNYPDAQLFTL
KCQRKGEALVELSSLQEERESVSLETWCSSHVTRVRLDPPDTQGNCSGPRLWLRPGQEVP
IKVTLFDTIGRQLLDEDGPIMQWDVQPYHIGIGVKTTDRLFVETNSKYAPVPVPDKYYQL
VVATEQAIGWSGSIKAAIPDTSATIQAKVVSPLKCDPMKVHIAWEGETVPNISAVTGGSG
KYIVETPKGVTASVDEGRLSAVLPTPGTYDLIVADSCVSGEKNIVEVIIEEVLSVEVSTA
RAVCVDNCIPIRALVKGVSHRYLATSREPDWKTEGDIVVRKGQLCGLREGVGRVRASLGG
VWSQSVEVWVFPSLAIVPERSRVAVGGRVHLNHAGGPPRHLASLLYTGGGEHAQVSSSGV
IQGLYPGSTRVKLVAVDAANVELASAEAEIEVVPITTLRVRAATQTLLVGSPGPVWIEAA
GLTATALSSLQPLPRVTWALRDPTMARIYTSHIDDRLERSVIEGLSIRVVPLKPGVITLD
VRVRNMGQVAETRSWDSTIEILGVSDIRTSIEGLRDINSGEMLSLAVGSTVRLKSLPKGR
WSSYQDGMCTYLYVIHVEVAIPYYCTVEPAESSETWESLRVVTRSVLGRELLSPQANVSV
MTSLPARIRRNLNSARGSEITLSGLDSNGAFMSFESSLAGVTVSDEVFIPGSDAYANRIV
ATGGSALCIEGSGWTVPAGIQAVSGAGLTLAVLMSDAPAMHVLRLDRPPSTVNILQLPLS
KMEFLPGEWPASLVPLSIQAEGLTSGPLLCTEEQKYALAGVDVDVPFSCRTAAPFAAQAV
LDIPNGRHGCAILPGNEINEAVEVELCAEWGVLSTCTKVQLLPPIQLSQTRVSLLNPPSM
FIINGHPNALKAVKITPSPGLKVETNSREGQISVTVKSESTTCGVGWVNVISKLTSQEIR
VEVERECEIACGTLLGVLFSIMKPYLSTLVTVAVIAVGYLYAKRSDTVAKATADYPSDSA
ARASESDVVAESLRLQPISTSVW