New model in OGS2.0 | DPOGS211678  |
---|---|
Genomic Position | scaffold3213:- 18726-30976 |
See gene structure | |
CDS Length | 5472 |
Paired RNAseq reads   | 20984 |
Single RNAseq reads   | 57144 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA001372 (0.0) |
Best Drosophila hit   | rhea (1e-116) |
Best Human hit | talin-1 (9e-108) |
Best NR hit (blastp)   | PREDICTED: similar to rhea CG6831-PA, partial [Apis mellifera] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to rhea CG6831-PA, partial [Apis mellifera] (1e-154) |
GeneOntology terms    | GO:0007475 apposition of dorsal and ventral imaginal disc-derived wing surfaces GO:0016203 muscle attachment GO:0007016 cytoskeletal anchoring at plasma membrane GO:0005925 focal adhesion GO:0003779 actin binding GO:0007155 cell adhesion GO:0008360 regulation of cell shape GO:0005158 insulin receptor binding GO:0005200 structural constituent of cytoskeleton GO:0001726 ruffle GO:0005856 cytoskeleton GO:0032582 negative regulation of gene-specific transcription GO:0006911 phagocytosis, engulfment GO:0035160 maintenance of epithelial integrity, open tracheal system |
InterPro families    | IPR002558 I/LWEQ IPR015009 Vinculin-binding site-containing domain IPR006077 Vinculin/alpha-catenin IPR015710 Talin-related |
Orthology group | MCL10506 |
Nucleotide sequence:
CAGTTCGCGCGCGCCGCGGCCGCCATAGACGCTGCGTGCGCCGCCTTGTCCGCCCCGCGC
GCCCAGCAGCAGCAGGTGCTGTCGGCCGCCACCGCCATCGCCAAGCATACGTCCGCCCTG
TGCAACGCGTGCCGCGCCGCCTCCGCCAGGTGCACCGAGCCGCAGAGCAAGAGACACTTC
GTCCAGGCCGCCAAGGACGTCGCCAACTGCACGGCCTCGCTCGTCAAGGAGATCAAGGCT
CTGGACGCTGATTACTGCGAGGAGAATCTGTTTCGCTGTTCCTCCGCGACCCGGCCGCTC
CAAGACGCCGTTCGTTCCCTGCGAGCCTTCGCGGACAGTCCCGAGTTCGCGGCGGTCCCG
GCGAGGATCTCGCCGCAGGCCAGGGACAACCAGGAAGCTATACTGCAGTGTGGAAGGAGT
ATCATATCGGAGTCGTGCTGCATGGTGGAGGCCGCGCGGGCCCTCGCACTCAACTCCTCG
GAGCGGACCCACTGGCACACGCTGGCCCATCACAGCAAGGCCGTGTCGGATACCATCAAG
TCACTCGTCACCAACATCCGTGAGAAGGCACCCGGTCAGCGGTCGTGTGAGGCGGCGCTG
CAGGTGATCGTCCAGCAGCAGAGAGCCCTGGACCTGGCCGCGCTACAGGCTGCTGGGATG
GAGCTACAGCCACATGCCGGGAACACGCTGCAGGGATTCTCCGAGCAGATTGAGAACAGT
CTGGCGGAGATGATGGAGCGGATCGAACCTCTGAGGCTGGCCGCCAGGAGCGAGGCCGAG
AACCTGGGACATGCCGTCACACAGCTGGTGTCGTACTCAGAGCCGCTGGTCAGCGGAACG
TGCGGCGCGGCGTCTCACATGACGGACAGCGCGGCGCGGGACGTACTGCTGCAGCACGCC
ACCACCGTCATGGAGACCCTGGCGCTGCTGGTGACGGCCGCCAAGCAGGCCGCCGGCAAC
CCGAGGGCGGTGAGCGCGCACGGGGAGACGGACGCCCAGGCGAGCCTGGCGCGGTCCGCA
CTGAGCGAGATGAGCGCCAGGGTCCGGGACCTCAGTCTGCAGGCCGGCGCTGTGGGCCCG
CTCGTGGAGAGCGTGGCGCGGGCCGTGGCGAGACTCACCGAGCACAGGATGTCGCTGATC
GGCTCCTACGATGAGACGGACTCCTTCGTGGACTATCAGACCCGCATGGTGGGCGTCGCT
AAGGAAATAGCCCACCTCGCCTCCGACATGACCGCCAAAGCGGCGACGGAGCCTTCTCGC
TTGGTCGAAGTCGGTAACGCGATGGTGGGCAAGTATGAGCGCCTGGCCACCGACAGCGTG
GGCGCCGCCGCCACCACACCTAACGCGGACGTGGCCAGCAGGATCCGCGTGTCAGCGGTG
GAGCTGGGCGAGTGTGTGTCGGAGTTGGTGCGAGCTGGTGGTCACTGTCGCCTATCAGCC
ACCGCGCTCAACCAGCGAGCTGTGGCCGACAACGCGAGGAAAGTCAGCGAGAAGGTGGTG
TCAGTGCTGAGCGCCCTGCAGGCGGGGTCTCGCGGGACTCAGGCCTGCATCGACGCGGCC
GCCACCATCGCCACCATCCTGGGGGACCTCGACACCACCATACTGTTCGCCAGCGCCGGC
ACGCTCCAATCTGACAAGCCGGGTGACACGTTCTCCAACCACCGTGAGGGTATCCTGAAG
ACCGCCAAGACCCTGGTGGAGGACACCAAGACGTTGGTCAGCGGAGCGGCCTCCAGCCAG
GACCAGCTGGCCAGCGCCGCCCACAGTGCCGTGGATACCATCGTTCAACTGTGCAGCGTT
GTGAAGGCCGGTGCGGCATCGCTGGGTGCGGGCGGGCCGGAGCCGCAGGTGATGGTGCTG
CACGCGGCCCGGGACGCCGCCGCCGCCCTGAGGGACCTCGCCGCAGCCACGGCCGCCGCC
TCCGGGAAGCACGTCACCAGCCCCGACATGCAGAGGCTCAAGCACGCCGCAAAGCGGCTG
TCGGACAAACGTTGGAGCCTGCCTCTCAAACCTGACACCCTCCCGCGGATCAAACGGCGA
TCGGTACAGATCAAGGATTATAACTCGTGCGATTCAGAGACAGACATGTTTCAGTCCGAC
CAGGAGGACGAGCTGGTCAGGCTGCTGGACTACTCCAGCCACGACGATGACGTCTCCCCT
ACCATATTCCACGACAGCTGCGAGGAGCTCATTGCATACTTTGAAAGTAAAATGACCGAA
GTTCCAAAGAGAGTCCCCAATGATGACGTCAACATACGATACAACTTAGCCTCCAGAAAT
AGTCTGTTCGACATGGACTGGCGGGTCCTTAAGTACGGTGAGACTATATTTTTGGGAGAA
CTACGGAAATTGGTCGACTTATGTCTAGAGTTTCTAGATAAGGTTGAGAAAAGACGAAAG
AGAAAAGCGGAAGCCGTAGATAAAGCCAACTCTGATCTGGACAGTGAAATGAAAAGGTTA
TCGCAGGTCATAGTCGATTTGGATTTCCAAAATTTGGTTTTGGACAAAAATGAAATCAAC
GTCAACAAACACACGGCTGCCAAACCCGTAGTAGAGAAACCGAAGTTAAAGAGTCCCACA
TTCAAAGTTAAAAAAGTTAAAACTATCAATTTGGCCGTTAACTTGGAACCAGACGTTGAA
TACGTTGACGATGGTAAGGAAACTCCAACAAATGACGTGAAGAACGATGTGGATAAAAAA
GCGGACAATAAGAAACAGTTCTGGGACATGTTCAAGGATGACAGCGAGTGGTGGAAGGAA
CTGGCCAAGAGGAACTTGGAGAAAATGAAAGAGACCAGGCTGGAACTAGAACGATTCAGC
GGGCACGAGCTGGGGCTGGGAGAAATAAAGACAGAGATAGACAAATACACGAGAGAGAAA
GAGACGCTGGAGAGTTTCATAGAAGACATCGACACCTCCCAAACGTGCAACAGAGACCTG
GAGTATGACAAGAAATATGAAGAGATGGTCCTCAAGCTCATACAGTTCGCCAAAAAGGAC
TTCGTGTTTAAAGGATTCGATCCTCTCATAGAGAAACTCAAACATCTCTCGAACATTCAA
GTAGACGGACGCCACAAAAAAGTCCAAATACGTGACATCTTGGATGTATACTCAAAGATA
GATATATCCAAATATACTTACGAAGAACTGTGTCTCCTGGAGAGATACTACAAGGAAGTA
ATAAGAAGATATAAAATGGAAACCAGAGGGAAAGAGAACGAAACAGACTTTGATCGAGAA
GACACGAGGTCAGCACCTCCGGACTACAATAGAAGGGTCATGTTGAATGTCAACTCTCAA
CAGAATCACGACAGCAGCAACAAGCGACACACGACCAACTCGCTCACAAGAAACAGTATC
TTAAAGAAGTCTAGACACAGCCGAAACAGTCTAGAAATATTGGACCTGACCCGCACCTAC
CCCATGGAATACTACGCCAACAATTGGTGGAAAATATACGAGGATGTGCTAAAGAATCGA
GAACAACGGTTCGGGAGCATCGATAACTGGTGGAACTACTATGAGAGTATGTTGAACGGC
AGTCACAGTGACGGAGACTCGAATACAATGCAGGCTATGATCAGACGGAGGAGGAGGAGA
CCCACCAGCCGGATGGAGGAACAGCTCCGGATGCTGGAGGAAGTACAGCACTCGAGGTTC
AGGGAGAGCGAGGGCGTGGAAACCGGGGACAAGGAATCGGTTATGGTGACCAATGTGACG
TCATTGCTGAAGACTGTGAAGGCGGTGGAAGACGAACACACGCGCGGCACCCGAGCACTC
GAGTCTACCATCGAAGCCATCTCCCAGGAGATTGAGATGCTGTACACGCCGGCGTCATCT
CCATCGTCGGTGGAGGAGCTGGTCCGCTGCGCTCGCCTCATGACGGCGGCCACGGCCCGC
GCGGTCGCCGCGTCCGGCCAGGACCAGCTGACGGCCGCCGCCAACCTCGGCCGGAGAACC
GTGCTGGATGTTCTGGCAGCGGCCAGGGGAGCGGCCCAGACGGCAGAGACGGAGGAGATC
AGGAACCGTACTCTGGAAACCAGCAAGGCGATGGCGGAGGCCTACCGCGGCCTTCTGGGA
GCCCTGCTGGCCTCCGATAGGTCTCAGCTGCCAGAACTGTCCCGCAGGGTCGCCCTGGCT
GTGGCCGACATGTTAGCCGCCGCAGAACTGCTCAAGGGGTCGGAGTGGGTGGACCCCGCG
GACCCCACGGTCATCGCGGAACAGGAGCTGCTGGGGGCCGCCGCCTCCATCGACGCCGCG
GCTCGGAAACTCGACGCCCTGAGACCTAGAGTGGCTCACAGCGCACAGGCCGACCTGACA
GGCGAGAGATGTCGAAATAAGAAGAGGACAGCGACGAGCGCTCCCGATGATGATAATGTC
GTTGTGTCGACGGATGAGAACCTGAACTTCGACGAGATGATCCTGGAAGCCGCCAAGTCG
ATCATAGCGGCGACCTCCGCGCTGGTCAGAGCCGCGTCCGCCGCGCAGAGGGAGCTCATA
GACCAGGGGAAGGTGGCTCGTCGTCCGACCTCTTCCTCCGACGACGGTCAGTGGTCGGAG
GGCCTGGTGTCCGCGGCGCGCCTGGTGGCGGCGGCGGCGCACGCCCTGGTGGAGGCGGCC
AACGCCCTGGTCCAGGGTGCCGCCACCGAGGAGCGACTCATCAGCAGCGCCAGACAGGTC
GCCTCCTCCACCGCACAGCTCCTCGTGGCCTGCAAGGTGAAGGCAGATCCAAGCGCTGAG
AGTACGCGTCGTCTGCAAGCCGCCGGGGCGGAGGTGATCCGCTCCACCGACAACCTGGTG
AGGGCGGCCCGCGACGCCATCACTAGTGACGACGAACGCAGCCTCGTGCTGAACAGGAGG
ATGGTGGGCGGCATCGCGCAGGAGATCGACGCTAGGTCTGAGGTCCTCCGCATAGAGAAG
GAGCTGGAGGAGGCTCGCGGTCGGCTGACGGCCATCCGCCAGGCCAAGTACAAGTTACGA
GACACGTCCGGAGAAGACACGGACACCGACCAGCCGGGGTACTGCAGTGACGGCACGCTC
AACAACAGATTCAAAACGCCCAACAGCAGTTTCAACACCACCTACAGTCCGAACAGCAGC
TACACCCAGAACACCACTCACAACACCACGCAGAACACCACACAGAACACCACCCAGAAC
ACATCACAGAGTCACAACATCAGCATCAATCAGAGTTACACTCAGAACGGCGTGACGCAG
GACAAGAGTCCGTCCTTCACCAGCTTCAGACCCCAGGACGACACGCCCAAGAACTACGAG
GGGTTCACCACACGCGATAGGACAAGCATGAGTGAGGAGCCCGTAGTCGTCAAGTCCTTA
CACCTGCCCCAAGTGAAGATGGCTCACCTCGTCACCGACGAGACGCAGAGGATATACTAC
AGGCGGCCGCCGCCCCCGCCCCCGCCCCCGCCCAGGCGGATACACAATAAGTACGGAGAG
GACGCTAGCTAA
Protein sequence:
QFARAAAAIDAACAALSAPRAQQQQVLSAATAIAKHTSALCNACRAASARCTEPQSKRHF
VQAAKDVANCTASLVKEIKALDADYCEENLFRCSSATRPLQDAVRSLRAFADSPEFAAVP
ARISPQARDNQEAILQCGRSIISESCCMVEAARALALNSSERTHWHTLAHHSKAVSDTIK
SLVTNIREKAPGQRSCEAALQVIVQQQRALDLAALQAAGMELQPHAGNTLQGFSEQIENS
LAEMMERIEPLRLAARSEAENLGHAVTQLVSYSEPLVSGTCGAASHMTDSAARDVLLQHA
TTVMETLALLVTAAKQAAGNPRAVSAHGETDAQASLARSALSEMSARVRDLSLQAGAVGP
LVESVARAVARLTEHRMSLIGSYDETDSFVDYQTRMVGVAKEIAHLASDMTAKAATEPSR
LVEVGNAMVGKYERLATDSVGAAATTPNADVASRIRVSAVELGECVSELVRAGGHCRLSA
TALNQRAVADNARKVSEKVVSVLSALQAGSRGTQACIDAAATIATILGDLDTTILFASAG
TLQSDKPGDTFSNHREGILKTAKTLVEDTKTLVSGAASSQDQLASAAHSAVDTIVQLCSV
VKAGAASLGAGGPEPQVMVLHAARDAAAALRDLAAATAAASGKHVTSPDMQRLKHAAKRL
SDKRWSLPLKPDTLPRIKRRSVQIKDYNSCDSETDMFQSDQEDELVRLLDYSSHDDDVSP
TIFHDSCEELIAYFESKMTEVPKRVPNDDVNIRYNLASRNSLFDMDWRVLKYGETIFLGE
LRKLVDLCLEFLDKVEKRRKRKAEAVDKANSDLDSEMKRLSQVIVDLDFQNLVLDKNEIN
VNKHTAAKPVVEKPKLKSPTFKVKKVKTINLAVNLEPDVEYVDDGKETPTNDVKNDVDKK
ADNKKQFWDMFKDDSEWWKELAKRNLEKMKETRLELERFSGHELGLGEIKTEIDKYTREK
ETLESFIEDIDTSQTCNRDLEYDKKYEEMVLKLIQFAKKDFVFKGFDPLIEKLKHLSNIQ
VDGRHKKVQIRDILDVYSKIDISKYTYEELCLLERYYKEVIRRYKMETRGKENETDFDRE
DTRSAPPDYNRRVMLNVNSQQNHDSSNKRHTTNSLTRNSILKKSRHSRNSLEILDLTRTY
PMEYYANNWWKIYEDVLKNREQRFGSIDNWWNYYESMLNGSHSDGDSNTMQAMIRRRRRR
PTSRMEEQLRMLEEVQHSRFRESEGVETGDKESVMVTNVTSLLKTVKAVEDEHTRGTRAL
ESTIEAISQEIEMLYTPASSPSSVEELVRCARLMTAATARAVAASGQDQLTAAANLGRRT
VLDVLAAARGAAQTAETEEIRNRTLETSKAMAEAYRGLLGALLASDRSQLPELSRRVALA
VADMLAAAELLKGSEWVDPADPTVIAEQELLGAAASIDAAARKLDALRPRVAHSAQADLT
GERCRNKKRTATSAPDDDNVVVSTDENLNFDEMILEAAKSIIAATSALVRAASAAQRELI
DQGKVARRPTSSSDDGQWSEGLVSAARLVAAAAHALVEAANALVQGAATEERLISSARQV
ASSTAQLLVACKVKADPSAESTRRLQAAGAEVIRSTDNLVRAARDAITSDDERSLVLNRR
MVGGIAQEIDARSEVLRIEKELEEARGRLTAIRQAKYKLRDTSGEDTDTDQPGYCSDGTL
NNRFKTPNSSFNTTYSPNSSYTQNTTHNTTQNTTQNTTQNTSQSHNISINQSYTQNGVTQ
DKSPSFTSFRPQDDTPKNYEGFTTRDRTSMSEEPVVVKSLHLPQVKMAHLVTDETQRIYY
RRPPPPPPPPPRRIHNKYGEDAS