| New model in OGS2.0 | DPOGS204178 |
|---|---|
| Genomic Position | scaffold1861:- 339-6821 |
| See gene structure | |
| CDS Length | 2952 |
| Paired RNAseq reads | 453 |
| Single RNAseq reads | 1114 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA005105 (1e-177) |
| Best Drosophila hit | stranded at second, isoform A (3e-86) |
| Best Human hit | ND |
| Best NR hit (blastp) | conserved hypothetical protein [Pediculus humanus corporis] (7e-147) |
| Best NR hit (blastx) | conserved hypothetical protein [Pediculus humanus corporis] (8e-135) |
| GeneOntology terms | GO:0002168 instar larval development GO:0005887 integral to plasma membrane GO:0004872 receptor activity GO:0016324 apical plasma membrane |
| InterPro families | IPR013783 Immunoglobulin-like fold IPR001007 von Willebrand factor, type C IPR003961 Fibronectin, type III IPR008957 Fibronectin type III domain |
| Orthology group | MCL16089 |
Nucleotide sequence:
ATGGGAACTAAGAAGGTATTAGGTGATCTAAGTGACGTCAATTTAGACGGAGATGACGAT
GATGAACCCAGGATAACAAGCAATGATGCGAAAAATAAACAAATATCTGATAAGTTTTAT
ACAAATTTACAAGCACCATTCAATCCATTGCTAGCCGTGGACAGATCTGAAGAAATTGAA
ACTTGTAAAGAGAATGAAGTAATGTATAAGGTCGGTGAACGTATAGACCGTGGTTGTGAA
GAGACCTGTGTCTGTACACCGGGTGGTCACTTTGAATGCTCGCCGCGATGTAAGCATCCT
TACATAAGACGAGGCAGAAGACTCGATGATCCTCTTTGTTTTGAGTCGCCGGTTGACGTA
TGTTGTTCCATAGTCACCTGTGCAACTGGTAACAGAGAATCAAAGCCAACCAGCGTGGAA
ATTTGTAAATACGGCAATAATAGTCATCCAGTCGGTTCAACGTGGAATATAGGCTGCGAA
CAGACATGTGCCTGTGAACCTAACTCCATTGTCACTTGTAAACCAAGATGTAAAAAATTA
CCGCATTCGGATAAATGCATCAACGTACAGGATCCCAAAGACGAGTGCTGCGAGGTTCAA
GTCTGTGACGTCTCACAGGATGTTCACGAAGAACATGACAATATGACCAGCACTACGTCG
AGCACTACAGAGATACCGAAGGAATTGCACGATTTGATCAATTCGCATCTACCAACAATA
AGGCCATTAGTTCTGGCAGAACCCATTGGATCTATAAAAGTGTTGCAAAACAATAGCGTA
CAAGTTAACCTCATGCATATGAATAACAGCGAAGATCCTATTCATCTGCTACTAAGCAGT
GACGGAGGGAAAACCTATAGTGATATTGAGTTAGTGTATTCCAATTTAATATTAAATCTA
GACGGAGGCAAAGATTACATATTAAAAACTAAAGAAACGGGGACCAAATTTAATTTTACG
ATAACAGCTTTAGATGATGGTAACGAAGTACCAGTTGAAGAGAGATATAATGAGACCAAG
ATTGGGTGCTATCATGAGGGACAATTTTACGCTGTCGGAGAAGAATTCAAGATACACTGC
GCAGAAGTATGCGAGTGTACAGGAGACGAGACGCGAGAGTGTGCTCCCATGATATGCCCA
TCTCACGTGGGGCTAGAACTTGTGTCGAGGAGCTGCGTTGAGTGGGAGCCGAGCCCGCCA
CCTCAACCACCCAACTGCTGTCCTAGAACCGCACGCTGTTTAAGTGACGGTACATGCCAT
TACAAAGGCCATTTTGTTCCTAACTGGAGCGAAGTACCACTTTCAGTATCGGGTTGTGAA
CAGCGATGTTTTTGCGAAAACGGTATAGTAGATTGTCAGGAAGCTTGCAACCCACTTCCT
TCTCTACCGCCGCAATCATTACGATGCCCGCCTATGCATCGACCGGCTCCGGTCAATATA
TCTGACGAAGACTGCTGTAAACAGTGGGGTTGCGTTCCTCACGGTCAGAGTCCAAAAGGA
TCACCAACTTCCTTCCTACCGACAATTCCTCCTGATAATCAATATCCACAAGACGAAATA
CCTGATTATGATCAAAATAATATCCACCGTCCAGATTATCCAATACAGTTTGGCTCATCC
GGCCTGCCCATAGGATTCCCCGTGCCGCAAGGATTTGACAATGAAAATAAAAAACTGTCA
GTCCTATCAATACAATCAGATTCATCAACGAGCATAAAAATGCTGTTCGGACTGGCGTCA
GTATTGGTCGGTCTGCGTGGTAGTGTTGATTTAAGATATACCGATACAGCAAATGAAGAC
ATAACCCAGTGGCAATCTCAAGTGTTCGCACCAGCTGACGAGATTTTGACAACACCGCGA
TTGGAATTCCGCCTCACTGGCTTAAAACCATCCACCACATACAAAATAAGAGGGAAATTG
TATCTACACAATCTAAAGATGGAGCCAGAAAGCGAAATATACACTGTTCGGACACAGGAT
TTGACACCGGTATTGCCACTCGAAGAAAAACGGAGAGAAATAGACGCGAAGCTGACGGTA
CTGGATGTGAACGATACTACCGCTCAAGTTAGCTGGAGACATTTCACTGAAGACGAGTTG
CAACTAATTGATGGCATTCAAGTGAGATATCGTCCAACAGGCACTCCCATCTATAGTATG
ACGGAGCTTCTTCACCACAGCCGGTCTCACGCTGAACTACGCGAGTTGAGACCCGGCAGC
CGGTACGAGGCTTCATTAGTGTTGATACCACCGCCCAGGAGTACCACCGAGCTTATAGAT
CCAGGGATGGTGGAATTCACTACCGCACCATTCATTGATCCCTACAACTGGTCGATCGTG
ATAGAGTCTCGTGCTATCGGCTCGGAGGCTGTTGAGTTAACGTGGCGAGGCGTACCGGAC
CCTGCTGAGCGCTGGGTGAGGGTGTACCGAGCGGCACACGCATGCGGTGACGTCGGCAAA
GAACATGATGCTTTGAAACTAGCCGCCAGGGATTCCCCGCCTACTATAACACTATCCGGG
CTAGAACCCGACTCCAGATGTCGTGTCTGGTTGGAGCTGTTCCTCACTAACGGGAAGGTT
AAGACTAGCAATGTTTTGGACATTCACACAAAATCGGTGGATTCACCGGAACCCATTGAT
AATATTGTAGAAGCCTCAACGATAGCTGGTCGTCACAAAGGCGATTACTACGGCGCGCTG
GTGGTTGTGGGAGTTCTAGCTGCGTTAGGAGCTCTCGCCACCACGCTGTTGTTACTAGTA
CTGGTGAGGAGACATCGACCGCGATCTGTTCCCATCACGTCGGTGCCATCAGCTCCCCGC
GAGTCATCGCTGCCTCCATATGACAATCCGGCCTACAAACTGGAACTGCAACAGGAAACT
ATGGGTATGAATATTATGTCGTTCAACTTCTGTTTCTACTTCGTTACATCTTTGTCATTA
GTTCCTCAATAG
Protein sequence:
MGTKKVLGDLSDVNLDGDDDDEPRITSNDAKNKQISDKFYTNLQAPFNPLLAVDRSEEIE
TCKENEVMYKVGERIDRGCEETCVCTPGGHFECSPRCKHPYIRRGRRLDDPLCFESPVDV
CCSIVTCATGNRESKPTSVEICKYGNNSHPVGSTWNIGCEQTCACEPNSIVTCKPRCKKL
PHSDKCINVQDPKDECCEVQVCDVSQDVHEEHDNMTSTTSSTTEIPKELHDLINSHLPTI
RPLVLAEPIGSIKVLQNNSVQVNLMHMNNSEDPIHLLLSSDGGKTYSDIELVYSNLILNL
DGGKDYILKTKETGTKFNFTITALDDGNEVPVEERYNETKIGCYHEGQFYAVGEEFKIHC
AEVCECTGDETRECAPMICPSHVGLELVSRSCVEWEPSPPPQPPNCCPRTARCLSDGTCH
YKGHFVPNWSEVPLSVSGCEQRCFCENGIVDCQEACNPLPSLPPQSLRCPPMHRPAPVNI
SDEDCCKQWGCVPHGQSPKGSPTSFLPTIPPDNQYPQDEIPDYDQNNIHRPDYPIQFGSS
GLPIGFPVPQGFDNENKKLSVLSIQSDSSTSIKMLFGLASVLVGLRGSVDLRYTDTANED
ITQWQSQVFAPADEILTTPRLEFRLTGLKPSTTYKIRGKLYLHNLKMEPESEIYTVRTQD
LTPVLPLEEKRREIDAKLTVLDVNDTTAQVSWRHFTEDELQLIDGIQVRYRPTGTPIYSM
TELLHHSRSHAELRELRPGSRYEASLVLIPPPRSTTELIDPGMVEFTTAPFIDPYNWSIV
IESRAIGSEAVELTWRGVPDPAERWVRVYRAAHACGDVGKEHDALKLAARDSPPTITLSG
LEPDSRCRVWLELFLTNGKVKTSNVLDIHTKSVDSPEPIDNIVEASTIAGRHKGDYYGAL
VVVGVLAALGALATTLLLLVLVRRHRPRSVPITSVPSAPRESSLPPYDNPAYKLELQQET
MGMNIMSFNFCFYFVTSLSLVPQ