| New model in OGS2.0 | DPOGS205279 |
|---|---|
| Genomic Position | scaffold445:+ 56258-59821 |
| See gene structure | |
| CDS Length | 3564 |
| Paired RNAseq reads | 252 |
| Single RNAseq reads | 647 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA011082 (0.0) |
| Best Drosophila hit | Toll-6 (0.0) |
| Best Human hit | slit homolog 3 protein precursor (2e-32) |
| Best NR hit (blastp) | PREDICTED: similar to toll [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | toll, putative [Pediculus humanus corporis] (0.0) |
| GeneOntology terms | GO:0004888 transmembrane receptor activity GO:0005886 plasma membrane GO:0007165 signal transduction GO:0016021 integral to membrane GO:0006952 defense response GO:0031224 intrinsic to membrane GO:0045087 innate immune response GO:0005515 protein binding |
| InterPro families | IPR001611 Leucine-rich repeat IPR000157 Toll-Interleukin receptor IPR003591 Leucine-rich repeat, typical subtype IPR000483 Cysteine-rich flanking region, C-terminal domain |
| Orthology group | MCL10076 |
Nucleotide sequence:
ATGTCAATGGAATTTCATCGCGATTCATTTAGAGGACTGACAGATTTAAGGACTTTGGAT
CTTGGTGACAATAATATATGGATTTTGCCCTCTGAAATATTCTGTCCTCTTTATAACTTA
AAAGAGTTAAATATAACTTTAAATAGGTTGCAGGATATCTCGAATTTGGGTTTCTCAGAT
TGGGGAAATGGTCCAACCGCACCAGGTAAATCCTGTAATACTGTCCTAGAAACACTAGAC
ATGTCTTTCAATGAAATCAGTGCTCTTCCAGACAATGGTCTGTCGAGCTTGCGAGCACTT
CAGAGGTTGCTCTTACAAAATAATAGAATTTCCACTGTCGCCGATCGTGCTTTTGTGGGA
TTAAGTGATTTGCAAATGCTTAATTTGTCAACAAACGCTTTGACTGCATTACCTCCAGAA
ATGTTCCAATCTTCACGAGACATTAAACAGATATATTTAAATAACAATTCATTAAGTGTT
CTGGCGCCCGGTTTATTAGAAGGATTAGATCAACTGCAAATATTGGATTTATCTTATAAC
GAACTGACAAGTGAATGGGTCAATAGAGATACATTTTCAGGATTAGTGCGTCTCATTGTT
TTGAACTTATCGCACAATAGAATAACAAAGATTGATGCTCTATTGTTCCAAGATTTAAAC
AATCTACAGTTTTTGAGTTTGGAATATAATAACGTAGCTCGAATAGCTGATGGCGCCTTT
TCTTATTTGAAAAATCTACATTCTCTTTCTTTGGCGCATAATAATATAGTAGAGGTAGAT
AGTAACCATTTTTCAAATTTATACGTATTAAATCAGCTATTCCTCGATGGAAATAGAATA
ACGAAAGTTGATTTGCGTTCTTTTGAAAATATAACCAAATTACATGATTTGGGTTTAAGC
GGGAATCAATTATCTGAGGTACCTGAGGCTATCAAAACTCTAAGATTTTTAACAGCTCTA
GACTTGGGAATGAATAGAATAACAAAAGTTACTACAAATTTATTTGAAGGCTTGGATGAT
TTATTTGGTTTACGACTAGTGGGAAATAAAATCGAAAAAATCTCAAAAGACACATTTGCT
GCCTTACCATCATTGCAAATATTAAATTTGGCTTCCAATAATATTGATCAAATAGATGAT
GGAGCTTTTGCCTCTAACTTACAGTTAAGAGCTATAGTATTAGATGGAAATAAGTTAGTA
GATTTAAAAGGAATTTTTACTAAAACACAACCTCTTGTCTGGTTAAATGTTTCAAACAAT
GAATTACTGTGGTTCGACTATAGCCACATACCAACAAATCTCGAATGGTTGGACATGCAC
GAAAATAAAATAGAAAAACTTGAGGACACTTATGGTGTTAAAGAAACATGTAATGTGAAA
ATGCTTGATGTAAGCAACAATAAAATAAGAAACATTGATGAATTTTCATTTCCAAGTAGT
ATAGAGACAGTAGTATTAAATAACAATAATATTGAGAAAATAAATCCAGGAACATTTCTT
CAGAAGTATAATTTAAACAAAGTTATGCTATATTCAAACAAGATAAAAACTTTAGATGTT
GGTGCATTCGCAATTTCTTTTGTTCCTGAGGATAGAGATCTACCAGAATTCTATATCAGT
GAGAATCCTTTCGAATGTGACTGTACAATGGAATGGCTACAAAGAATAAACCAATTAAGT
GAACTTAGACAGCGTCCCAGAGTAATGGATTTAGAAAATGTAAGATGCTCCCTAACACAT
TCAAGGAGTAGTTCAGATGTACTACTGTTGGAAGTCAAATCGTTTGAATTTTTATGTGAA
TATGAATCACATTGTTTTACTTTATGTCACTGTTGCGATTTTGATGCATGTGACTGTAAA
ATGACTTGTCCAGATAAATGCTCCTGCTATCATGACCTCACGTGGAGCTCAAACGTAGTA
GATTGCTCAAGTGGTGGTTATGACCATGTGCCAGACCAAATACCAATGGACGCTACTGAA
ATTTATTTAGATGGAAATGATCTTAAAGAACTTGGAAATCATGTTTTCATTGGCAAAAAA
CGCCTGCAAGTTTTATATCTTAATAACAGCAATATAAATTTAATACAAAATAAAACTTTT
AATGGTATTGAATCATTACGAGTACTTCATTTGGAGAATAATAAATTGGAGGTGTTAAGA
AATACACAGTTTACAAAATTACAAAACCTGAATGAACTTTATTTGCAAGACAATAACATA
AGGTTTATTGAAAATGACACTTTTAACTATTTGCCTTCTTTGGAATATTTGAGTCTAGAT
AATAACGGTTACGTTGAGTACATGCCATGGCGAGTTATTACCGACAATAATCCACGTACG
AGAGTATCTGTGGAGGGGAACAATTGGATATGTGACTGTAAAGATGTAGCACAACTAAAT
CAATGGTTGATTAAAAAATCCAAAGATACGGATAACATGATGTGTTTCTTTGCTCATGGT
CAACCGATGAACAAAACTATAGCAACTGTTTCTAAAGAATGTAAGGCTGAGACTACCACC
GAGGAAACAGGAACGGAGACTCAGAAACGATTATTTATTGAATCAAATGATAGTGTTGAG
AATTACATCCCGTATATCGTGGCTGGATTGATAACAGTAACTGTGCTTTTGCTTATGTGT
GCTTTCCTTTTTATGTTTAGAGACGATTTTAAACTGTGGATGCACTCAAAATATGGTATA
AGAGTATTTAGTTCCGCCTCGAAGGATGTGAATGATAACAAAAACAAACGCTTTGCCGCT
TTCTTTATGTATAATCCACAAGATGAAGGCGTCATGCGTGTCGTGAGTTCGGAGTTAGAG
CAGTTGGGCCATACTCTGTGCTTACAACATCGAGATTTACAGTTAATCGAAAGACGATCT
AGTGATAATTTAGTTAGTGCAGCAGAAAGTTCAAAAAGACTTATAATAGTGTTATCTACA
AGCTTTTTAGAACAAGAGTGGGACATGCCGGCATCAAAAGCGGCTGTTCAATGTGCTATA
AACTCAGTGAATGTGCGACATAGGCGACAAAAAATTATCTTTCTCGTAACGACTGACTTA
AGTGCCATAAGTATCGATCCAGACTTGAAAGTGTTGCTTAAAACGTGTACAGTGATACTG
TGGGGTGAAAAGTATTGTTTAGAGAAATTAAATTTTTGGTTGCCTGACGTGGACGTTACG
TTACCAAATCGGACGATACATAACGCTAATAATATAAAAACTGGTAATAGGGAGGGGTTT
GGAAGGCACGTGAATTTGAGGTATACAGCTCCTCCAACTTCTCATGATTCTTGGTACAAG
TATGGAATGGATCGTCAAATGTCTATTATGTCAAGTCCGATGCATTCAACTAGTGCCAGT
GCTGAGGTTTCGGCGCGGAGTACCGAAGACGAGACATGTTCGGTTGCCAGCAGTGAAGGA
CGACCGGATGATCGGTTGCCTCACCACCATAGTTACGTATCAATCGACAACCATCCCTGT
GAGGAGAGACCATTAAGACCCGCCCAACAAATAGCTATGTCTAATACAAGACCCACTAAT
GTAAGAAAGACTTACTTTGTATAA
Protein sequence:
MSMEFHRDSFRGLTDLRTLDLGDNNIWILPSEIFCPLYNLKELNITLNRLQDISNLGFSD
WGNGPTAPGKSCNTVLETLDMSFNEISALPDNGLSSLRALQRLLLQNNRISTVADRAFVG
LSDLQMLNLSTNALTALPPEMFQSSRDIKQIYLNNNSLSVLAPGLLEGLDQLQILDLSYN
ELTSEWVNRDTFSGLVRLIVLNLSHNRITKIDALLFQDLNNLQFLSLEYNNVARIADGAF
SYLKNLHSLSLAHNNIVEVDSNHFSNLYVLNQLFLDGNRITKVDLRSFENITKLHDLGLS
GNQLSEVPEAIKTLRFLTALDLGMNRITKVTTNLFEGLDDLFGLRLVGNKIEKISKDTFA
ALPSLQILNLASNNIDQIDDGAFASNLQLRAIVLDGNKLVDLKGIFTKTQPLVWLNVSNN
ELLWFDYSHIPTNLEWLDMHENKIEKLEDTYGVKETCNVKMLDVSNNKIRNIDEFSFPSS
IETVVLNNNNIEKINPGTFLQKYNLNKVMLYSNKIKTLDVGAFAISFVPEDRDLPEFYIS
ENPFECDCTMEWLQRINQLSELRQRPRVMDLENVRCSLTHSRSSSDVLLLEVKSFEFLCE
YESHCFTLCHCCDFDACDCKMTCPDKCSCYHDLTWSSNVVDCSSGGYDHVPDQIPMDATE
IYLDGNDLKELGNHVFIGKKRLQVLYLNNSNINLIQNKTFNGIESLRVLHLENNKLEVLR
NTQFTKLQNLNELYLQDNNIRFIENDTFNYLPSLEYLSLDNNGYVEYMPWRVITDNNPRT
RVSVEGNNWICDCKDVAQLNQWLIKKSKDTDNMMCFFAHGQPMNKTIATVSKECKAETTT
EETGTETQKRLFIESNDSVENYIPYIVAGLITVTVLLLMCAFLFMFRDDFKLWMHSKYGI
RVFSSASKDVNDNKNKRFAAFFMYNPQDEGVMRVVSSELEQLGHTLCLQHRDLQLIERRS
SDNLVSAAESSKRLIIVLSTSFLEQEWDMPASKAAVQCAINSVNVRHRRQKIIFLVTTDL
SAISIDPDLKVLLKTCTVILWGEKYCLEKLNFWLPDVDVTLPNRTIHNANNIKTGNREGF
GRHVNLRYTAPPTSHDSWYKYGMDRQMSIMSSPMHSTSASAEVSARSTEDETCSVASSEG
RPDDRLPHHHSYVSIDNHPCEERPLRPAQQIAMSNTRPTNVRKTYFV