| New model in OGS2.0 | DPOGS205818 |
|---|---|
| Genomic Position | scaffold146:+ 11891-42076 |
| See gene structure | |
| CDS Length | 3360 |
| Paired RNAseq reads | 159 |
| Single RNAseq reads | 444 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA009306 (3e-06) |
| Best Drosophila hit | rickets, isoform A (0.0) |
| Best Human hit | lutropin-choriogonadotropic hormone receptor precursor (1e-67) |
| Best NR hit (blastp) | PREDICTED: similar to leucine-rich transmembrane protein, putative [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to leucine-rich transmembrane protein, putative [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0004930 G-protein coupled receptor activity GO:0016021 integral to membrane GO:0007186 G-protein coupled receptor protein signaling pathway GO:0016500 protein-hormone receptor activity GO:0005886 plasma membrane GO:0008188 neuropeptide receptor activity GO:0007564 regulation of chitin-based cuticle tanning GO:0005515 protein binding GO:0001837 epithelial to mesenchymal transition |
| InterPro families | IPR017452 GPCR, rhodopsin-like superfamily IPR001611 Leucine-rich repeat IPR002131 Glycoprotein hormone receptor IPR000276 GPCR, rhodopsin-like, 7TM IPR003591 Leucine-rich repeat, typical subtype |
| Orthology group | MCL10928 |
Nucleotide sequence:
ATGGCGGCGGCGCTGGCGCTGGCTCTCGTCTCGCTGGCGCTGGCGGGCCCCGGCGTGGGT
GCCGGGCTGGGCCCGGAGCTCGCCGCGGGTCTCTCATGCCCGGCCGCAGGGTGTACGTGC
TCGGAAGGAGGCACGCGCGTGTCGTGTCGCGCCGCCGGCCTGGGCGCGCTACCTCCGCTA
TACGACCGTCTGGTAGTACTTGACGTCTCTGGCAACAACATCAGCGCTCTACCGAACGAC
GCACTGCTGCCCGCCGCTGGACTTAGAGACTTGAACCTGTCGGCCAACCTGCTGGAGGTG
GTGTCGGCGACCTCCCTGGTCAGCTCTTCCGTGGCTCGCCTATGGCTGGACCGCTGCGGC
CTGGCTCGTCTCCCGCCTCTCAGCATGCCGCGCCTCCATCACTTGTCGGTCGAGGACAAC
TTTCTATCTGGCTTGTCGAAGGGTTCCCTGTCCGAATGCCGTTCTCTGAGGGTGCTCCGC
CTGTCCCGGAACAAGCTGTCCGAGGTCCCGACCGCCGCCCTCGCCACGCTGACTCGTCTG
CAGGCACTCAACTTGGCCGGAAACCTCATCAGCGAGCTGACCGCAACCTCACTGCCTGAA
CTACCGTCACTGCATACTCTAATATTAAAAAAGAATCGCATCACTCATATAGAACAGAGC
GCCTTCTCCGGCTGTCCCTCGCTCCGTCAACTACGTCTCGAAGACAACCTGCTCACCGAA
CTGCCTCCGGCGATATACCTCTTACCGTCGCTCGAGGATTTGTCGTTATCTAACAACCTG
GTGGAGGTGGTAGGTGGTGGTCTGCGGGCCTGCTCTCGCCTGGCCCGGTTGGAGCTCCGC
GGGAACCCGCTGTCCGCGCTCGAGCCTCACGCTCTCACACACCTGCCCCGACTTACCACG
CTTGTGTTGTCGGAAGCACGCGGTCTGAGCGTTTTTCCTTCCCTGAACGGTTCCTCTCGC
CTCAACACGCTCCGCCTGGACCGAGCTCGCCTCACTCGCCTGCCCTCGGACCTGTGTCTG
CACGCGCCCCTCCTGAGAGCACTAGATCTGCGGTCGAACAAGCTGGAACATGTTCCAGAT
CTTCAGCAGTGTTCCGAGTTGCGTGTCCTGGACATATCGGACAACCAAGTGTCTTCGTTG
GGTGCGGGAGCCCTGACGGGACTGAGGAGATTGCACGACCTGCTGGTGGCCAGAAACCGT
CTGAGACGAATCTCTGCAGACACCTTCGTGCACACGCCACGCCTCCAGCTGCTAGATCTC
GAGGACAATGAAATCGAGCACATCGATATGGAAGCGTTCGTCCCCATTAATAAATTAGAA
GACCTAAACGTGGGGAACAACCGCTTTCCTGTACTCCCCGCCAGTGGACTGCAGCGACTG
CTGCACCTAAAGGCTCATAACAACCCCGCACTGAGACGTTTCCACCCGCCTGAGGCATTC
CCCAGGATACAGACTCTAGTCCTATCATACGCTTACCACTGCTGCGAGTTCATGCCTCTT
ATGGAGGGCGGGTCGAGCTCGGCGGGTTCGGCAGAGTCGGCGGAAAGCGGAGACGAGGAA
CCCGAACAGTTCAGCGACTTGGTGTTGCTACCGCCAGCACACGTCGACCTCGCCGCCTGG
GCTAACGCCACGGATATTTGGCCACATTACCTGAACGCGACTGGTGAGAGTAGTTCCCGA
CTCGCTGCCGTCGGCTGGGGCGACGTCAGCGCGGCCGAGCTCAAATACGGAGGCAACCGT
CGCGTGCGCTGCTTACCACTGCCTGGACCGTTTCTACCGTGTGTGGATCTATTCGACTGG
TGGACGCTACGTTGCGGCGTGTGGGCTGTGTTCCTACTGGCCTTGCTGGGTAATGGCACC
GTCGTATTTGTGCTCGTGTTCAGTCGCAGTCGAATTGACGTCCCAAGATTTCTGGTCACC
AATTTGGCGGCAGCAGACTTCTTTATGGGAATCTATTTAGGTTTCTTGGCTGTGGTCGAC
GCGGGCACTCTGGGTGAGTTTCGCGCTCACGCTATAGCCTGGCAGATGTCGGGTGGCTGC
CGGCTTGCAGGCTTTCTGGGCGTGCTCTCTTCCGAATTATCCGTTTACACGCTCGCCGTT
ATCACGCTCGAGCGCAATTATGCAATAACTCACGCTATGCACCTTAATAAGCGCCTGTCT
TTACGACACGCGGCCGCGGTCATGGCAGCAGGCTGGGCCTTCTCGCTAGCAGCAGCAGCG
CTACCACTCCTAGGCGTGTCCGACTACCGCAAATTCGCCGTATGTTTACCCTTCGAAACG
AGCTCGCCCGCAGCGCTCGGATATGTCGTTTCTTTGCTCATCATAAATGGATTTGCCTTT
TTAGTACTCTTGGGATGTTATCTTAAAATGTATTGTGCTATTCGCGGTTCTCAAGCTTGG
AACTCGAACGATTCACGCATTGCAAAGCGTATGGCTTTACTTGTGTTTACAGACTTTTTG
TGTTGGTCGCCTATAGCATTCTTCGCCCTTACCGCCGCTTTTGGCGCTCAACTTGTATCT
CTGGAGGAGGCGAAAGTGTTCACGGTGTTTGTGCTGCCTTTAAACTCTTGTTGCAATCCC
TTTTTATACGCCATTCTAACAAAACAATTCAAGAAGGATTGCGCCCTAGTGTGCAAAGCC
ATCGAGGAGTCTCGTGTCACTCGAGGCATCGGTCGATGTCGCCACTCCTCAAACTTCAGT
AACCGCCAGACCCCCGCAAACACGAATAGTTTAAACGAGCGATCGTCTCGCGGCCAGCAC
GGAGCCACATGCGCGTGCAGACGCCTGCTACCTACGGGCGGTGTTGGCGAGGGGCCCACC
GCACCCACCGAGCCCGGCGGCGAGCGACTATTACGCTGGCTGAGAGCGTGTGGCCGCCGC
GCCACGGCCCCAGCCCCACCTGCGCCCCGTCAGCCACCTACCGCTCCCGTACGTACTGGC
TCCGTTTCCTCGTCAGTGGAGTTCTCATCATCCCGTTCGGATTCTTGGCGTACGTACGGC
CGGCCTCCACCGCCGCCACGCCGCGCTGCTTCCTGGTTAGTGGCCAGGAAGACCTCTCAG
GACTCCAACTTATCCTCATCCCGAAATGACTCATCTGGATCTAACGCTACTGCTTCGACG
GGAACTTGGCGTACATCTCGATCAGGAGGTAGTGCGACGGCCGGGGCCGGGGGTGCTGGT
GGGCCCGTCGTGCCAAGCGCCGGAGTGGCAAGTGGGCGTCCGCGTCTCACGCGCCAGCCG
GCTGTGATGGCAGACGAGCCACCTCTGTCTCCGGGAGCGTTGCCCGCCCCTCGTCTGCTG
CACACGATACCTTCGGCGGCCGAGACGGAGGCCACGTTGGAGGAACCTGACGTGCGCTGA
Protein sequence:
MAAALALALVSLALAGPGVGAGLGPELAAGLSCPAAGCTCSEGGTRVSCRAAGLGALPPL
YDRLVVLDVSGNNISALPNDALLPAAGLRDLNLSANLLEVVSATSLVSSSVARLWLDRCG
LARLPPLSMPRLHHLSVEDNFLSGLSKGSLSECRSLRVLRLSRNKLSEVPTAALATLTRL
QALNLAGNLISELTATSLPELPSLHTLILKKNRITHIEQSAFSGCPSLRQLRLEDNLLTE
LPPAIYLLPSLEDLSLSNNLVEVVGGGLRACSRLARLELRGNPLSALEPHALTHLPRLTT
LVLSEARGLSVFPSLNGSSRLNTLRLDRARLTRLPSDLCLHAPLLRALDLRSNKLEHVPD
LQQCSELRVLDISDNQVSSLGAGALTGLRRLHDLLVARNRLRRISADTFVHTPRLQLLDL
EDNEIEHIDMEAFVPINKLEDLNVGNNRFPVLPASGLQRLLHLKAHNNPALRRFHPPEAF
PRIQTLVLSYAYHCCEFMPLMEGGSSSAGSAESAESGDEEPEQFSDLVLLPPAHVDLAAW
ANATDIWPHYLNATGESSSRLAAVGWGDVSAAELKYGGNRRVRCLPLPGPFLPCVDLFDW
WTLRCGVWAVFLLALLGNGTVVFVLVFSRSRIDVPRFLVTNLAAADFFMGIYLGFLAVVD
AGTLGEFRAHAIAWQMSGGCRLAGFLGVLSSELSVYTLAVITLERNYAITHAMHLNKRLS
LRHAAAVMAAGWAFSLAAAALPLLGVSDYRKFAVCLPFETSSPAALGYVVSLLIINGFAF
LVLLGCYLKMYCAIRGSQAWNSNDSRIAKRMALLVFTDFLCWSPIAFFALTAAFGAQLVS
LEEAKVFTVFVLPLNSCCNPFLYAILTKQFKKDCALVCKAIEESRVTRGIGRCRHSSNFS
NRQTPANTNSLNERSSRGQHGATCACRRLLPTGGVGEGPTAPTEPGGERLLRWLRACGRR
ATAPAPPAPRQPPTAPVRTGSVSSSVEFSSSRSDSWRTYGRPPPPPRRAASWLVARKTSQ
DSNLSSSRNDSSGSNATASTGTWRTSRSGGSATAGAGGAGGPVVPSAGVASGRPRLTRQP
AVMADEPPLSPGALPAPRLLHTIPSAAETEATLEEPDVR