| New model in OGS2.0 | DPOGS203198 |
|---|---|
| Genomic Position | scaffold72:+ 98327-102175 |
| See gene structure | |
| CDS Length | 3669 |
| Paired RNAseq reads | 337 |
| Single RNAseq reads | 874 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA011084 (0.0) |
| Best Drosophila hit | Toll-6 (0.0) |
| Best Human hit | slit homolog 1 protein precursor (4e-34) |
| Best NR hit (blastp) | PREDICTED: similar to toll [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to toll [Tribolium castaneum] (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 | IPR000157 Toll-Interleukin receptor IPR001611 Leucine-rich repeat IPR004075 Interleukin-1 receptor, type I/Toll precursor IPR003591 Leucine-rich repeat, typical subtype IPR000372 Leucine-rich repeat-containing N-terminal |
| Orthology group | MCL10076 |
Nucleotide sequence:
ATGGCTCTTCAGACCTGTTCAAGAAAATCTATCTTCGGCCAGATTGTATTTTGGTTAATA
ATTGGACCTTATGTCACCGATCAAAGCTCTCTGCCATTAAAATATGAAGCTCCTGACGAC
TGCCAGTGGTGGCTGAAAGGACCAAATGAGGCCCATGAGGTTTCACTCACGTGTAAACTT
CGCACAATAAACAGTGAATTTGATACAACAAATTTTAGTGTCATCCCATCAGAACACACA
ACTTCGTTACGAATAGAGTGTAACGAAGAAATGATGTACAAAAGTTCCTTAGATGACCGT
AGTTTTGCACATCTAATTAAACTCCGTGAACTTGTATTAGACAATTGTAAAATTGGAAGA
TGGCCGCCTGGTGTACTGTCAGGTCTAAGAGACCTTCGCAATTTAACAATTAGAACTAAA
AACACTGAGTGGGCTGCTATGAGTTTAGAAATCGCATCTGAAAGTTTTACAGCTGTAAGA
CAGTTAGAAAAGTTGGACTTGAGCTATAATAATATCTGGTCGTTTCCGGAAAACTTATTC
TGCCCTTTGACTAACTTAGTTTACTTGAACGTGTCTTCAAATAGACTACAAGATGTAAGT
GATTTGGGTTTTAGAGAACGGGCTATGCATCAAGCTCTTATAAGTGAACATGAAGGCCCT
TCACCATCAACGTCCACTTCACCGCATACATCATGTTCTTTGGATATCGAAGTATTAGAT
GCATCGGTAAACCAATTTGTTCTTATGCCAGAAAATGGATTTATGGCTCTACGAAGACTT
AAAGAACTACATATTCACGACAATGAGATTTCTATGGTCGCTGACAAAGCTTTATCCGGT
CTGAAACAACTGCAAATAATTGATCTTTCCAATAACAAAATAGTGGCCTTACCTCAGGAC
TTATTTCGGGATTGTAGACCAGTGATTAAAGAAATATACTTACAAAATAATTCTATAAGT
GTTCTTTCACCAAGTCTGTTTGCAAATTTAGATCAACTGCTGGCATTAGACTTATCAAAC
AACCATTTAACAAGCACTTGGATAAATGAAAACACGTTTACTGGTCTCATAAGGATGATT
GATGCGTACGCTTTAAATGGGCTGTACGTTTTATCTTTACTATCCATTGATAATAACCAC
CTAGAAGAACTTCACCCTGAGGCTTTTCGGAATACTTCTTCTCTACAAGATTTGAATTTA
AATGGAAATCGATTGAAAAAAGTGCCGACAGCTCTTAAAAATATGCGTTTATTAAGAACC
CTTGATCTAGGAGAGAATCAGATTATGTCGTTAGAAGAACCTGGCTTTGTAGGTTTACAT
AATGTATATGGATTACGTCTTATAGGGAATAAAATTGAAAATATAAGCAAGGAAGTTTTC
ACAGATCTACCTTCCCTACAGATTTTAAATTTGGCGCGCAATAAAATAAAACAGATTGAT
ATGGATGCCTTTGAAACATTATCAAATTTACAAGCTGTGAGATTAGATGCTAACCAACTC
AAAGATATCCAGGGCCTTTTCGTAAATATACCCTCTCTTCTGTGGTTAAACGTGTCAGGT
AACCAAATAGAATGGTTTGACTACGCTGTGATACCAGTTGGACTTCAATGGTTAGATGTT
CACAGTAATAACATCAAAGAATTAAGAAATAACTACCGTTTGGATAAAGAACTACGGTTA
CAAACACTAGACGCCAGTTTCAATTTAATGACGAAAATCTTTACTTATTCTATCCCCAGT
AGTATTGAGCTCTTGTTCTTAAATGACAATCAAATTACACAAGTTGAAGCCCAAACTTTT
GTCGGAAAAACCAATTTAACGAGGGTCGATTTGTATGCAAATCAGATAACTAGCATGGAC
CTTAATGCTCTTCGTTTGACGCCAGTTGATCCTGGAAGACCATTGCCAGAATTTTATATC
GGAGGAAATCCTTTTCAATGTGATTGTACGATGGAATGGTTGCAAAGAATAAATAAATTA
GATCATTTAAGACAACATCCTCGAGTTATGGACTTGGAAAGTATATATTGTAAGCTACTA
TATAACCGTGAAAGAACTTATATTCCGCTTATTGAAGCGGAATCATCTCAGTTTTTGTGT
ACATATAAAACTCACTGTTTTACTTTGTGTCATTGTTGTGATTTTGACGCTTGTGATTGT
GAAATGACGTGTCCGTCGAACTGTACTTGTTATCACGACCAACCGTGGTCAGCGAATATT
GTGGACTGTTCCGGTGCTGGCTATGCTGAAATACCTAACACTATACCTATGGATGCAACT
GAGCTATATTTAGATGGAAATAATTTTGGAGGGTTAACCAGTCACGCTTTTATCGGACGT
AAAAATTTAAAAATATTATATGCAAATAACTCGAACATAGATGCACTGTACAATAATACT
TTCAGTGGACTAAAACGATTAACCGTATTACATTTGGAAAAGAACAACATAAAGGAGTTG
TTAGGATTTGAATTGTCGCCTCTTGAGAATTTACGAGAGTTACATCTTCAAGACAATAAA
ATACATTATATCGACAATCGAACATTTATGGAGTTAAGGCACTTAGAAGTACTACGTTTA
GAAGGTAACAACATTTACAGTTTTGCTGTCTGGCAATTCACGATGAATCCATATTTAGTT
GAGATAAGCCTATCACGAAACCCGTGGTCTTGCGACTGTCAGTACATGCATAAATTCCGA
AATTGGTTTAAAAATAATCTTGGCAAAGTTGAAGCTTCTGATAAGATCACATGTATATTT
GACAATGTAACAAACGCCGTTGGACCGTTAATGTCTGATTTTAACTCAACTATTTGTACA
AGTCACGTAGGTGGAAGTTCATCAATCATCGAAAACCAAGTTATCAATGACTATCTGCCA
TTACTATTAATATCACTTTTTGTATTTGTAATGAGTTCTGCGCTTATTTGTGGAATATTT
TATTGGAGAAGAGAACTCAGAGTGTGGGTTTATTATCATTGCGGATTCCGAATGTGCTAT
AAAAGTACCGCTTTCGACGACGAGGCCGACAAAGATAGGTTATTCGACGCCTACATTAGT
TACAGCGTGAAAGACGAAGCATTTGTTGCTCAAATGTTAGCGCCCGGCCTAGAATCCACG
GACCCAAGTTTCCGCCTTTGTCTTCATTACCGCGATTTTAATGCATCAGCCTACGTAGCG
GACACCATTATTGAAGCAGTTGAATCTTCAAAGCGAACTATAATAGTGCTGTCTAAAAAT
TTTATTAACAACGAATGGTGTCGATTCGAATTTAAAACGGCACTTCATGAAGTTCTTAAA
GAGAGACGAAGAAGACTGATAATAATATTATTGGGTGACTTGCCGAATAGAGACATGGAT
CCTGAATTAAGGTTGTGTTTAAAAGCGAATACGTGTATTGAGTGGGGTGATAGACAATTT
TGGCAAAAACTAAGGTTCGCCATGCCTGATCTGCGGAAGTGTCAATATCATCGTTCAACT
GTGAACATTTACGCGTCAGTGTCACCTGTAGGGGCCGGGCGTGCGCCAGCGCCGACCCCT
CCTCCGCCGCCTGGCAAGCTGCCACCTCTGCTGGCTGATGGGCTAGCCGACAGACTTGGA
ATGCCGACCAGCGTACACCGCGATCATCATTCCCACCGAATGCCTCCACATGCTCAGCTG
TGGGCGTAG
Protein sequence:
MALQTCSRKSIFGQIVFWLIIGPYVTDQSSLPLKYEAPDDCQWWLKGPNEAHEVSLTCKL
RTINSEFDTTNFSVIPSEHTTSLRIECNEEMMYKSSLDDRSFAHLIKLRELVLDNCKIGR
WPPGVLSGLRDLRNLTIRTKNTEWAAMSLEIASESFTAVRQLEKLDLSYNNIWSFPENLF
CPLTNLVYLNVSSNRLQDVSDLGFRERAMHQALISEHEGPSPSTSTSPHTSCSLDIEVLD
ASVNQFVLMPENGFMALRRLKELHIHDNEISMVADKALSGLKQLQIIDLSNNKIVALPQD
LFRDCRPVIKEIYLQNNSISVLSPSLFANLDQLLALDLSNNHLTSTWINENTFTGLIRMI
DAYALNGLYVLSLLSIDNNHLEELHPEAFRNTSSLQDLNLNGNRLKKVPTALKNMRLLRT
LDLGENQIMSLEEPGFVGLHNVYGLRLIGNKIENISKEVFTDLPSLQILNLARNKIKQID
MDAFETLSNLQAVRLDANQLKDIQGLFVNIPSLLWLNVSGNQIEWFDYAVIPVGLQWLDV
HSNNIKELRNNYRLDKELRLQTLDASFNLMTKIFTYSIPSSIELLFLNDNQITQVEAQTF
VGKTNLTRVDLYANQITSMDLNALRLTPVDPGRPLPEFYIGGNPFQCDCTMEWLQRINKL
DHLRQHPRVMDLESIYCKLLYNRERTYIPLIEAESSQFLCTYKTHCFTLCHCCDFDACDC
EMTCPSNCTCYHDQPWSANIVDCSGAGYAEIPNTIPMDATELYLDGNNFGGLTSHAFIGR
KNLKILYANNSNIDALYNNTFSGLKRLTVLHLEKNNIKELLGFELSPLENLRELHLQDNK
IHYIDNRTFMELRHLEVLRLEGNNIYSFAVWQFTMNPYLVEISLSRNPWSCDCQYMHKFR
NWFKNNLGKVEASDKITCIFDNVTNAVGPLMSDFNSTICTSHVGGSSSIIENQVINDYLP
LLLISLFVFVMSSALICGIFYWRRELRVWVYYHCGFRMCYKSTAFDDEADKDRLFDAYIS
YSVKDEAFVAQMLAPGLESTDPSFRLCLHYRDFNASAYVADTIIEAVESSKRTIIVLSKN
FINNEWCRFEFKTALHEVLKERRRRLIIILLGDLPNRDMDPELRLCLKANTCIEWGDRQF
WQKLRFAMPDLRKCQYHRSTVNIYASVSPVGAGRAPAPTPPPPPGKLPPLLADGLADRLG
MPTSVHRDHHSHRMPPHAQLWA