New model in OGS2.0 | DPOGS208117  |
---|---|
Genomic Position | scaffold61:- 79598-129041 |
See gene structure | |
CDS Length | 4119 |
Paired RNAseq reads   | 14405 |
Single RNAseq reads   | 36594 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA006770 (0.0) |
Best Drosophila hit   | Ect4, isoform D (0.0) |
Best Human hit | sterile alpha and TIR motif-containing protein 1 (1e-147) |
Best NR hit (blastp)   | hypothetical protein TcasGA2_TC012668 [Tribolium castaneum] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to Ect4 CG7915-PB, isoform B, partial [Apis mellifera] (0.0) |
GeneOntology terms    | GO:0004888 transmembrane receptor activity GO:0005488 binding GO:0045087 innate immune response GO:0007165 signal transduction GO:0031224 intrinsic to membrane |
InterPro families    | IPR011510 Sterile alpha motif, type 2 IPR000157 Toll-Interleukin receptor IPR016024 Armadillo-type fold IPR010993 Sterile alpha motif homology IPR001660 Sterile alpha motif domain IPR011989 Armadillo-like helical IPR013761 Sterile alpha motif-type |
Orthology group | MCL14240 |
Nucleotide sequence:
ATGCGTCGAAAGGAACAAGTTTCGGCACCGAGTGGTAATGGAAGAAGTTTGATTGCTACA
AGAACGAACCAACACCAGCAACGTAAAATGCAAGGACCACGAAGTCATTTACCTAGAAGC
TATTCCTCACCATCTGCCGCGAAAGATGAAAATCCCGAAAATGCGTCGAAAGCCTTTGTA
TTGCGGAGTTTTTCTTCACCCGAACCCAATAACACGGATAAAGAAAGTCACAGAAGTGCC
GAATCCCTTTCTAGAACAAATCCACATGAATCGCGAAGTGAATTGGACACTGATTTAGAT
AATTTTGAACAATTTGAGGAAAGCTTAAAAGATATAGATGCTGAAAATTATGATTTCTCC
AACCGATATCGTAATACACCCGACACTGAGCAGCCCAAACGCATTCTGACCACAATGCTT
CCAGGCAGTGGTTTACAGAAAGTCGCGTTGAGACCAGTAGCTACAAAAGAATATGGGACC
GTTTCAGCAATGAGGCAGCCGAAGAAAGAAAATAAAAGACTTTCCCGCTTGAGTTTCCGC
CCTCTCATCATAAAGATGCCAAGTCAGATTACAGCTCAGCCCAAGTGCGAATCTATTCCT
GGATTGGAGGAATTGCAAACCTCCCCACAGTTTGAGATAGAATCAGCAGAACTGGACCAT
GAATTTGATAATGCAGAGGAACACTTAGAGAGGGAGATAGCAATAGCGGCTGCAGAGACT
GACGTTGATATGATACCAGAATTCAACCTGGATGGCAACAACAGCCTAAAACACAACGGG
AGTGCAAAGGACTTGGCCTCCGTCATGGAGAACCTAAAGAAGAACAGCCTCGTCTCCCGC
CAGAACCAGACCCTCAACACCCAAGTCACCAGTTCCTCTAAGCAGCAGATGGTATCGAGC
ACCACATCGAGCAGTGCCGCCACCAGCCAGAGGGTTCAAAGCTCGTCGCAACGCGCCAGT
TCCATGAAGTCGGACCTCACGGAGCTAAAGAGTTCCATCTCTGAAATGAAAACTCTCAGC
AACACCGCCGCTTTGAACTTCGGACAAAGATTGAGAAGTTCAATGGAGAATATAGTAGAT
CAGGACGACATGAAGGAACGTCACATACCAGATATTCGTGATCTGAGTGAGATGGGTGAC
ATAGGAGATATGAGTGACATGACTGACCTGGCCGGCGACGGGCCGCTGGTCACCTTTCCA
GAATCTGACACTCCACCACCTGACAAACAGTGTCTGCTGGCTCCGAACTCATCATCTGTT
GGTACAAATGCTGCTAACGAATTGAAATACAGTGCAGCTAGAATGACATCGGCCAGTTCG
ACTCGTGTAGTGACCGATGGATACAGTGCCTCCAAATCGGCAGCCAATAGCACCAGGATG
CGCCGTCTGCAGCACGGAGACATGCAATACGCTGAGCACAGCGCAGCAGGAGCGTCGCAC
AGACTTTTACAGGCCGAGGGTCTTACGGCTGAACAGAACGCTGCCTATCATCAAAGCGGT
TATCGTTTACCGCACCATGCTCGTGTCAGTCATCGTTTGACCGCCGTGCGTGCCAGCACG
CGGAAGTCAATTATTGCGCATGCGCCTTTGGGTACACGAATAGACGGCTTTAAATATAGA
AACGGAATGTCTAACGGCGCGGGTTCGGCCCCGTGGCCGGTACACAGAAACGTCCTGTCG
CGTTTCCCCCCTAAGCCGACGTATCCTTCGGAAAAGCGTTCTCTACAAGCGGGGGAAGTA
TCAGCTCAGGAGGCGAATAACATGTCCGCGACCAGTTCGAGATTACAAACGGAGGCTTTC
AGTGCTGAGAAAAAGGCGATGGCATCATCACAGGCGAGACAGACGTTCACTTCCAGTGGA
ATTTTCAGTCACAAAGAACATTCAAGCGTCGCTCACTCCAACATGACCATATCCAGCAAG
AATCTTAGCACTAAATCAACATTACTATCGTCTCAAATGAGTCAGCTGTTGAATGGGACA
GTGAAACCGGGAGACGAAGACCTCTCCAACCTAACATTCGAAGATTTAGACAAATTGGAT
GCTAAGTCGAATCAGAAGGACGTAGATTTAGCGATTCAAAAATATTCACACAGGATGAAC
GCTTTCATAACGGCCATAAAAAATAATCAGATAGACATGAAAAACGCCTGCGTCCACTTC
ATGAAGTTAAACGAGATGGTCAAAAGAGCATGGGCTGTGCCTACATACGGCCATGAGTTA
GGGTACTCGTTGTGCAACACGCTGAGATCGTCCGGCGGTTTGGACATTTTGATGGCGAAC
TGCTTGGAATCCAATAACCCGGATCTTCAATTCTGTTCCGCTAAACTATTGGAGCAATGT
CTCACCACTGAAAATAGAGATCATGTAGTGCAAAATGGTCTCGAAAAAGTCGTTAACGTG
GCCTGTGTGTGCACGAAGCATTCGAATTCAGTCGATCACTCAAGAATAGGTACTGGGATC
TTGGAGCATTTGTTCAAACACAGCGAAGGTACTTGCAGTGATGTTATCAAGCTGGGAGGT
TTAGACGCCGTTCTGTTTGAATGTAGAAAAAATGACGTGGAAACTCTGAGGCACTGCGCA
ACAGCTCTGGCGAACTTATCACTATACGGCGGCGCTGAAAACCAGGAAGCGATGATAAAA
AGAAAAGTACCCATGTGGCTGTTCCCTCTAGCCTTCCACAACGACGACAACATCAAATAC
TACGCGTGTTTAGCCATCGCTGTTTTGGTAGCCAACAAAGAAATAGAAGCAGCCGTCTTG
AAATCCGGAACCTTGGATCTGGTTGAACCCTTTGTTACTTCACACAACCCGTCGGAGTTC
GCCCGATCAAACCTAGCGCACGCTCACGGTCAGAGTAAGAACTGGCTTCAAAGATTAGTC
CCGGTTTTGAGTTCAAAGAGGGAAGAAGCGAGGAACCTGGCCGCCTTCCACTTCTGTATG
GAGGCTGGTATTAAAAAGCAGCAAGGGAATACAGAGATATTTAGAGAAATAGGAGCTATA
GAATCCTTAAAGAAAGTAGCCAGCTGTCCGAATGCTGTTGCGTCGAAATACGCAGCGCAG
GCTTTAAGACTAATTGGAGAAGAGGTACCACATAAACTGTCCCAACAAGTACCTTTGTGG
TCGATAGAGGACGTCAGGGAGTGGGTCAAACAAATAGGCTTCTCTGAATACGCGAACAAT
TTCTATGAAAGTAGAGTAGATGGTGACCTTTTGTTACAAATAACTGAAGCTAATCTCAAA
GAAGACATAGGTTTAAATAACGGAATCAAACGTAAAAGATTCACGCGAGAACTTCAGCAA
TTAAAAAAAATGGCGGACTACAGTTCACGTGACACGGGGAGCCTTAACGAATTTCTACAG
AGCATTGGTCCAGAATACACGATATACACGTATTCAATGTTGAATGCTGGTGTCGACAAG
GAATCCATCCGTGGCCTGAGTGACGAACAGCTGGAAAATGAATGCAGAATAGGCAACAGT
ATACACCGGCTACGAATACTGAACGCTATACGAGCCTATGAAAGCACATTGCCTAGCAAA
GGCGAAGAGAATATGGAGAAGAATTTGGACGTTTTCGTTAGTTACCGGAGATCAAACGGC
TCACAGTTGGCCAGTTTGTTGAAAGTTCACCTACAACTGCGAGGTTTCACCGTTTTCATA
GACGTGGAGCGATTAGAAGCTGGGAAATTCGATAATAATCTCCTCCAGAGTATACGCCAG
GCGAAGCATTTCCTTCTAGTGTTAACCCCAAACGCACTGGAGAGGTGCAAACATGATAAT
GAACAAAAAGACTGGGTCCATCGGGAGATAGTGGCAGCATTGCAGTCACAGTGCAATATA
GTTCCAATTATCGACAACTTCCAATGGCCGGAACCGGAAGAGTTACCGGAAGACATGCGA
GCCGTTTGTCACTTCAATGGCGTCAGGTGGATACATGATTACCAGGACGCCTGTGTCGAG
AAACTTGAAAGTTTCCTACGCGGCAAGTCGAACTTAGCAACTCGTCTGGAGGGTCCGCTC
CGCGGTCGGGACGTGCCCACTCCCGGGACAGCCGCCATGCGACCACCAAACTATCAACGT
ATGGTCTCCACTGAGAGCAGGGGCAGTGATAAAGATTGA
Protein sequence:
MRRKEQVSAPSGNGRSLIATRTNQHQQRKMQGPRSHLPRSYSSPSAAKDENPENASKAFV
LRSFSSPEPNNTDKESHRSAESLSRTNPHESRSELDTDLDNFEQFEESLKDIDAENYDFS
NRYRNTPDTEQPKRILTTMLPGSGLQKVALRPVATKEYGTVSAMRQPKKENKRLSRLSFR
PLIIKMPSQITAQPKCESIPGLEELQTSPQFEIESAELDHEFDNAEEHLEREIAIAAAET
DVDMIPEFNLDGNNSLKHNGSAKDLASVMENLKKNSLVSRQNQTLNTQVTSSSKQQMVSS
TTSSSAATSQRVQSSSQRASSMKSDLTELKSSISEMKTLSNTAALNFGQRLRSSMENIVD
QDDMKERHIPDIRDLSEMGDIGDMSDMTDLAGDGPLVTFPESDTPPPDKQCLLAPNSSSV
GTNAANELKYSAARMTSASSTRVVTDGYSASKSAANSTRMRRLQHGDMQYAEHSAAGASH
RLLQAEGLTAEQNAAYHQSGYRLPHHARVSHRLTAVRASTRKSIIAHAPLGTRIDGFKYR
NGMSNGAGSAPWPVHRNVLSRFPPKPTYPSEKRSLQAGEVSAQEANNMSATSSRLQTEAF
SAEKKAMASSQARQTFTSSGIFSHKEHSSVAHSNMTISSKNLSTKSTLLSSQMSQLLNGT
VKPGDEDLSNLTFEDLDKLDAKSNQKDVDLAIQKYSHRMNAFITAIKNNQIDMKNACVHF
MKLNEMVKRAWAVPTYGHELGYSLCNTLRSSGGLDILMANCLESNNPDLQFCSAKLLEQC
LTTENRDHVVQNGLEKVVNVACVCTKHSNSVDHSRIGTGILEHLFKHSEGTCSDVIKLGG
LDAVLFECRKNDVETLRHCATALANLSLYGGAENQEAMIKRKVPMWLFPLAFHNDDNIKY
YACLAIAVLVANKEIEAAVLKSGTLDLVEPFVTSHNPSEFARSNLAHAHGQSKNWLQRLV
PVLSSKREEARNLAAFHFCMEAGIKKQQGNTEIFREIGAIESLKKVASCPNAVASKYAAQ
ALRLIGEEVPHKLSQQVPLWSIEDVREWVKQIGFSEYANNFYESRVDGDLLLQITEANLK
EDIGLNNGIKRKRFTRELQQLKKMADYSSRDTGSLNEFLQSIGPEYTIYTYSMLNAGVDK
ESIRGLSDEQLENECRIGNSIHRLRILNAIRAYESTLPSKGEENMEKNLDVFVSYRRSNG
SQLASLLKVHLQLRGFTVFIDVERLEAGKFDNNLLQSIRQAKHFLLVLTPNALERCKHDN
EQKDWVHREIVAALQSQCNIVPIIDNFQWPEPEELPEDMRAVCHFNGVRWIHDYQDACVE
KLESFLRGKSNLATRLEGPLRGRDVPTPGTAAMRPPNYQRMVSTESRGSDKD