| New model in OGS2.0 | DPOGS215776 |
|---|---|
| Genomic Position | scaffold75:- 3475-17273 |
| See gene structure | |
| CDS Length | 4122 |
| Paired RNAseq reads | 1950 |
| Single RNAseq reads | 6021 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA003654 (0.0) |
| Best Drosophila hit | Insulin-like receptor, isoform D (0.0) |
| Best Human hit | insulin receptor isoform Long preproprotein (0.0) |
| Best NR hit (blastp) | insulin receptor [Bombyx mori] (0.0) |
| Best NR hit (blastx) | insulin receptor [Bombyx mori] (0.0) |
| GeneOntology terms | GO:0005009 insulin receptor activity GO:0008286 insulin receptor signaling pathway GO:0042169 SH2 domain binding GO:0043548 phosphoinositide 3-kinase binding GO:0043559 insulin binding GO:0043560 insulin receptor substrate binding GO:0046777 protein amino acid autophosphorylation GO:0051290 protein heterotetramerization GO:0051425 PTB domain binding |
| InterPro families | IPR001245 Serine-threonine/tyrosine-protein kinase IPR000494 EGF receptor, L domain IPR006211 Furin-like cysteine-rich domain IPR006212 Furin-like repeat IPR003961 Fibronectin, type III IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain IPR013783 Immunoglobulin-like fold IPR011009 Protein kinase-like domain IPR008957 Fibronectin type III domain IPR009030 Growth factor, receptor IPR017441 Protein kinase, ATP binding site IPR008266 Tyrosine-protein kinase, active site IPR002011 Tyrosine-protein kinase, receptor class II, conserved site IPR000719 Protein kinase, catalytic domain |
| Orthology group | MCL10382 |
Nucleotide sequence:
ATGTCGAAGTTGCGCGATTGTCGGGTTATAGAGGGCTATCTGAACATCGTGCTTATGGAA
CGAGCCACTGAAGCCTCCTTCGTAAACGTCAGCTTTCCTCTGCTGAGAGAGGTCACCGGC
TACATACTGATATACAGACTGAAGGGCGTACGTAATTTGGGTGATTTGTTCCCAAATTTA
ACAGTGATACGTGGAATGCAGCTGTTCAAGGATTTCGCTCTTGTTATTTTTGATAATGAA
GGACTAGAGTCCCTGGGCCTGCACTCTCTGTCTCGTATCGAGAGCGGCGCCGTCCGTATA
CAGAACAACGACCACCTGTGTTACGCGAACACCATCGACTGGTCCAGGATAAACGCCGAG
GGACCACAGAATAACATCATAAGATCAAACTACGACACGCGTCTCTGCGGGCTGTGTCCT
AACGCGCAAAGTCGTATGGATGACCATAGACAGCACCGTCTGCAATGCCCGTCCGATTTT
ACGGGCCGCCTGCTCTGCTGGGACGAAAAACACTGCCAGAAACGAGATTGTCCGTCTAAA
TGCGGCAAGCGAGCGTGCATGGACACCGGCGAGTGCTGTCACGCGAGCTGTCTCGGCGGG
TGCAGCGGGCCCTTCGCCAGCGACTGCTACGCTTGCACCAACTTCTCGTTGGACTACGGC
AAGAACAGGACGTGTATGGAGCGCTGTCCGGCCAACACTTACGAGCTCCACCGTCGCTGT
GTGACGGAGCAGGAGTGTCGGTCGACTCCCCCGCCTTTGTCGGGTGGTCGGCAACAGATC
AACGCCTACAAGATACTGAGAGGTCGCTCCTGTGTTTACTCGTGCCCCGCCGGCTACATG
GAGGTGGGTACCAGGAATAACTCAACTTGCGAGCCCTGCCCCGCGTCAGGGTGTGTGCGG
GAGTGTCCCGGGGGCAAGGTGGACTCGGTCGCCTCCGCCGAGGACTTCAGAGGCTGCACT
CACATCAAGGGCACTTTGGACATCTCCGTGAGAGCCAGGGGAGGAAACACGGTCGCCGTG
CTGGAGTCCACCCTGGGCGAGATCCGTGTGATAGAGGGCGCGCTGCGTGTGGTTCGCGCC
GTGCCCGTGGTGTCGCTCATGTTCCTGAGGAGTCTGCAGCGGATCGGCGGAAAGAACGCC
GACAAAGGCCAGAGTCTGTACATTTTCAACAACCCAAACCTGGAGATGCTGTGGAACTGG
TCGACTCATAAGTCCATAGAGATATCCGAGGGCAGGCTGTTCATACATTTCAATCCCAAG
CTGTGCTACAGCCAGCTGCTGCCCCTGAAGAATATGACGAAGATACCCGTGAAGACTTTC
AGTGAGAACGAAGTGTCCCAGGACAACAACGGAGACCAGGCTTCTTGTTTCCAGGACACG
TTGCACCTGAAGGTCAGCGAGCTGTTCCCTAAGGTGGTGATTCTTAAGTGGGACACGTAC
TGTCTAGAGGACTCTCGGAAACTGCTGGGCTACTCCATCTACTACGTGGCCGCAGAACAT
AACGTGACGCTATACGGCCAGAGGGACGCCTGCTCTGACAATTGGAATGTTCTGGACGTA
ACGATCGACGAAGCGAGAAACAACACGAAAGAGGAACCCAAGAACAAGAAGGCCTTGTTA
CAGAGTCCCTGCAACACTCCCAACCAGCCGCTGTTTTACCCTCTGTCTCAGTTGACGCCC
TACACTCGGTACGCCGCGTACGTCAAGACCTACACCACCTTGCAGGACAGGAAGGGCGCC
CAGAGCCCCATCATATACTTCCAGACACTGCCGGGACCCCCCAGCCCTCCCCTCGGACTT
ACAGTGGAGTCTCTCAAGGACCATTCTGCGACCATCAAATGGCAGCCGCCGTCTATGTCC
AACGGCACCATCATCCTGTACTACGTAGAAATCCAGGCGAACAACTATAACCGGCCCAAG
ATCTTGGCTCTCAACGTCAACTACTGCGGCAATCCTAGCGCGCTCGTGAACATGATCGCC
ATGAGGGGCGAAGAGGGACCGGACAAGGAGAAGAAGGAGAGGAAGGGGGAAGGGGCGGCG
GGGGCGAGGTGCGCCTGCCGGGACGACGCCAGGCCCACGAGGTTCTCGTCCGTGGCTGAA
CAGGAACGGGTCGAGAGCATCAACTTCGAGAACGAGCTACAGAACCTGGTGTACGTGAAG
GTCCGCCAGAGCGCTCCGTCCAACGAGTCGTCTTCCAGCCGCATCCGGCGCTCGGTGACG
GCGGCCGTCAACAGCATGCTGGTCATATTGACGGACCCTCACTCTCCACACATGGGGAGG
AACAACACCAACGACACGGACGGCAAGTACGTCAAGTCCCTGTACTACGACCTGGAGGGC
AGCGCCCGCTCCCTGACGGTGGAGAACCTGCGTCACTTCACGTGGTACACGGTGAACGTG
TGGGCGTGTCGCGAGAGAGACGCCAACGAGACCTACGAGGCCTACGAGAGGTCCTGGTGC
TCCGAACGAGCGCACTACACCTTCCGCACGCTCGAAAGATCGAACGCACTGCACCACTCT
TCGGACGTCCGGGAGGTGCTGCCGTCGAACAAGACCCTGCCGGAAGTGAACGTGACGTGG
GTCCCGCCGGAGGACCCGAACGGATTCGTGGTCGCTTATAACGTGTACCACTCGCGGGTC
GAGAATAACAATCAGCGTGTTAATCTCCAGGAGATGGGTCTGGGCAGTTGTATCACAGCG
GAGGACTACGAGGCCAACGGTCGCGGTGTGCTGGTCCGCAACCTCGCCCCCGGGAACTAC
TCGCTGCGGGTGACGCCGCTCACCCTCGCCGGCTCCGGGAACGTCTCCACCGACCTCTAC
GTCTTCATACCGGAGCGCGCGGTGGAGCAGAGCTACGAGTGGGTGTGGGGCGTGGTGGTG
GCGTGCGGCGTGCTGGTGTCGGTGGTGGTGGTGGGCGTGTGGTACGCGCGCCGCACGCTG
CAGCCCGCCGAGACCAACAAACTGTTCGCGAGCGTCAACCCGGAGTACGTGTCCACGGTG
TACGTGCCCGACGAGTGGGAGGTGCCGCGCGGGAACATCGAGTTCGTGAGGGAACTCGGA
CAAGGGTCCTTCGGCATGGTGTACGAGGGAATAGTGAAGAATATAGAGAAAGGAAAACCG
GAGACGAGATGTGCCGTGAAGACCGTCAACGAGCACGCGACCGACCGGGGTCAGCCCACG
CTGGTCGTCATGGAGCTCATGGAGCACGGGGACCTCAAGAGCTACCTGCGCTCACATCGT
CCAGACGCTGACTCCTCGCTGCCCAAGAAGGGCGCCAACATGCAGCCGCCAACGCTGCAG
AATATACTCCAGATGGCTATTGAAATAGCGGACGGTATGGCGTACTTGTCGGCCAAGAAA
TTTGTCCACCGCGACCTGGCGGCTCGGAACTGTATGGTGGCGGGAGACCTCACCGTCAAG
GTCGGGGACTTCGGCATGACCAGGGACATATATGAGACTGATTACTATAGGAAGGGCACC
AAGGGACTGCTGCCCGTGCGCTGGATGAGCCCCGAGAGTTTGAAGGACGGGGTATTTTCA
AGTAACAGTGACGTGTGGAGTTACGGAGTGGTGTTATGGGAGATGGCCACGCTCGCTATG
CAGCCGTATCAGGGTCTGTCCAACGAGCAGGTGGTGCGGTACGTGGTGGAGGGCGGAGTG
ATGGAGCGGCCCGAGCACTGCCCCGACCGCCTGTACGAGCTCATGAGGGCGTGCTGGGCT
CACAGGGCGCCGGCTCGCCCCTCCTTCCTGCGCCTCGTGGCGGACCTCGCGCCCGCAGCG
CAGCCCTACTTCAGACACCGATCATTCTTCCACACCCCCCAGGGACAGGAGATGTACGCG
CTGCAGAGGACCGCCCTAGACGAGGAGGCGGAGATGCAGGAAGTGAACGTGGGCGCTGTG
GCCACGGGCTCCGGGTCCAACCTGTTCGGCGTGTCGGGGCGGCTGGCCTCATGGGTCAGG
GAACTATCGTCGCTGAGGTCCCGGGGCTCCGACGATGCCGCCGCCGAGCCGCTCCAGCCC
GCCGACGACGTGCACACACCTCGGGCTATCCCGCTGAGGCCGGCACGCGCTCTACTCGCG
CCGACGCTCAACGGCGCCCTGAGGGACACACCGGCGTGCTAG
Protein sequence:
MSKLRDCRVIEGYLNIVLMERATEASFVNVSFPLLREVTGYILIYRLKGVRNLGDLFPNL
TVIRGMQLFKDFALVIFDNEGLESLGLHSLSRIESGAVRIQNNDHLCYANTIDWSRINAE
GPQNNIIRSNYDTRLCGLCPNAQSRMDDHRQHRLQCPSDFTGRLLCWDEKHCQKRDCPSK
CGKRACMDTGECCHASCLGGCSGPFASDCYACTNFSLDYGKNRTCMERCPANTYELHRRC
VTEQECRSTPPPLSGGRQQINAYKILRGRSCVYSCPAGYMEVGTRNNSTCEPCPASGCVR
ECPGGKVDSVASAEDFRGCTHIKGTLDISVRARGGNTVAVLESTLGEIRVIEGALRVVRA
VPVVSLMFLRSLQRIGGKNADKGQSLYIFNNPNLEMLWNWSTHKSIEISEGRLFIHFNPK
LCYSQLLPLKNMTKIPVKTFSENEVSQDNNGDQASCFQDTLHLKVSELFPKVVILKWDTY
CLEDSRKLLGYSIYYVAAEHNVTLYGQRDACSDNWNVLDVTIDEARNNTKEEPKNKKALL
QSPCNTPNQPLFYPLSQLTPYTRYAAYVKTYTTLQDRKGAQSPIIYFQTLPGPPSPPLGL
TVESLKDHSATIKWQPPSMSNGTIILYYVEIQANNYNRPKILALNVNYCGNPSALVNMIA
MRGEEGPDKEKKERKGEGAAGARCACRDDARPTRFSSVAEQERVESINFENELQNLVYVK
VRQSAPSNESSSSRIRRSVTAAVNSMLVILTDPHSPHMGRNNTNDTDGKYVKSLYYDLEG
SARSLTVENLRHFTWYTVNVWACRERDANETYEAYERSWCSERAHYTFRTLERSNALHHS
SDVREVLPSNKTLPEVNVTWVPPEDPNGFVVAYNVYHSRVENNNQRVNLQEMGLGSCITA
EDYEANGRGVLVRNLAPGNYSLRVTPLTLAGSGNVSTDLYVFIPERAVEQSYEWVWGVVV
ACGVLVSVVVVGVWYARRTLQPAETNKLFASVNPEYVSTVYVPDEWEVPRGNIEFVRELG
QGSFGMVYEGIVKNIEKGKPETRCAVKTVNEHATDRGQPTLVVMELMEHGDLKSYLRSHR
PDADSSLPKKGANMQPPTLQNILQMAIEIADGMAYLSAKKFVHRDLAARNCMVAGDLTVK
VGDFGMTRDIYETDYYRKGTKGLLPVRWMSPESLKDGVFSSNSDVWSYGVVLWEMATLAM
QPYQGLSNEQVVRYVVEGGVMERPEHCPDRLYELMRACWAHRAPARPSFLRLVADLAPAA
QPYFRHRSFFHTPQGQEMYALQRTALDEEAEMQEVNVGAVATGSGSNLFGVSGRLASWVR
ELSSLRSRGSDDAAAEPLQPADDVHTPRAIPLRPARALLAPTLNGALRDTPAC