New model in OGS2.0 | DPOGS211472  |
---|---|
Genomic Position | scaffold33:- 238702-241715 |
See gene structure | |
CDS Length | 2361 |
Paired RNAseq reads   | 1699 |
Single RNAseq reads   | 4142 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA014370 (3e-44) |
Best Drosophila hit   | toll, isoform A (8e-33) |
Best Human hit | toll-like receptor 2 precursor (7e-10) |
Best NR hit (blastp)   | toll receptor [Manduca sexta] (1e-82) |
Best NR hit (blastx)   | toll receptor [Manduca sexta] (9e-67) |
GeneOntology terms    | GO:0019732 antifungal humoral response GO:0019730 antimicrobial humoral response GO:0006963 positive regulation of antibacterial peptide biosynthetic process GO:0006967 positive regulation of antifungal peptide biosynthetic process GO:0004888 transmembrane receptor activity GO:0008063 Toll signaling pathway GO:0005887 integral to plasma membrane GO:0009950 dorsal/ventral axis specification GO:0006952 defense response GO:0030097 hemopoiesis GO:0007416 synapse assembly GO:0006955 immune response GO:0009620 response to fungus GO:0016021 integral to membrane GO:0009880 embryonic pattern specification GO:0070976 TIR domain binding GO:0009617 response to bacterium GO:0045087 innate immune response GO:0019955 cytokine binding GO:0050832 defense response to fungus GO:0050830 defense response to Gram-positive bacterium GO:0035007 regulation of melanization defense response GO:0035172 hemocyte proliferation GO:0000910 cytokinesis GO:0031224 intrinsic to membrane GO:0007165 signal transduction GO:0007352 zygotic specification of dorsal/ventral axis GO:0045610 regulation of hemocyte differentiation GO:0005515 protein binding GO:0043234 protein complex GO:0005886 plasma membrane |
InterPro families    | IPR000157 Toll-Interleukin receptor IPR004075 Interleukin-1 receptor, type I/Toll precursor IPR001611 Leucine-rich repeat IPR003591 Leucine-rich repeat, typical subtype |
Orthology group | MCL23584 |
Nucleotide sequence:
ATGCCGGCGACACCTACCCTCAACGCCACCCATCTACATGGCCTCGAGCTGCGCGCCTTT
GATCTGAATGCACCATTTGCACCCGCCCCGTTCCTTGAACCCGAAGACAATTTTCTTGAA
CCGTTAAAAGGTCTTTTAGATCTGAGACTTGTCCGTGTAACTCTGACATTGAAAAACACG
CAAAGTTTTCCTGTCGGGCTTCGCAGACTTATATTACACCATGCAAACCTAACAACACTC
CCAGCGGAGGTGTTCGCTCGTCTTCCTGACTTAGTTGATCTCTTTGTTGTTGACGAAACG
CTTCAGGAGCTGGACGTTAGCACGGCTTTGGCGCTTCGGGCTGTAGTTGTGGCGGCTCCT
CTGAATGGAATCACTCTTGGCTCACGCGTGGATACGGCCACACTGAGAAAGATACGTAGT
GCTGAAATACGTGGTAACTGTTCGGGGCTTCGTAGCTTAAGCATTGAGGAATTAAACGTC
CCACCACCGACCGCATGGCTAGCGCGATGTGGCGTACGTGAACTACGTCTAAGATATTTA
TCTCCTGGTGTACTGGGTGCTGGTGAGCTGAGAGGTACTCGTGACCTTCTACGACTAGAA
ATACATGGATGTGGACTACGAATATTACCACCAGATTGGCTGGCTGACTCGAGTCGCCTG
AAAATTCTCGATCTCTCCGAAAACGAACTTGAAACAATTCCAAGTGCAATTATTTCCGCA
TGTCCCCGGTTGTCGGAGGTGATACTTCCCAACAATCTCCTCAACTCAAGCGTGGTTAAA
GCACTAGTAGCAGCACCACTAACAAAATTAGTTCTAGATGGCAACCCACTTGGCGATTTA
TGTCGAACCGGTTCAGGACTCATAGCAGACGCTATGTCGACCTTATGGAATAGACGGGAG
CTCATATACTTATCTCTGCGAAGCACAGGGGTTACTCGTATATGTCACGACTGGTGCCGT
CTGCCGAAACTTACACAAATTAATTTACGCAATAACAGCATATCAAAACTGGAGTTCGAG
GATCTGCAATGGTCAAGCGCCGTGGTGGTGGATTTGCGTGGTAACCCAGTGAAGGATGTG
TCATACTCGCAAGAACAGTATGAGAAAGTTCTGTTGGCTCCCGTTACCCGTGACAGTATT
TCCGCTATGATAAGACTGGATAGTCACTTACGTTGCGACTGTAATGAGTACTGGTTTTCC
CTGGCACTACGCGCACGACCGCAGCACGGACAGGCTTCGGTTCACGCCATCTGTGAGAAC
GAGAAAACATTCACTTCTGTGCCTCCAACAGATCTGCTATGCGAAGTGCCAGAGCTGTGC
CCAGAAGGGTGTAAGTGTAAAGTCGACGGTGAACGATCGCATATATCGTGTCCGAATGCT
GGATTGATAGCTTTGCCGACAATCCCTCCTCTCCCACCTCTCGCCTCACTGTCATTACCA
GGAAATGACATTACAATATTGGATTTCACTAACATTTCGACCAGCTTCAAATTACTGGAC
TTGACTAATAACCAGATTAAGCATATCGACGCTGCGACGGTGGCCACTCTATTTGCTGAT
AACAGGAGGGTGCTACTAGACGGTAATCCTTTGTCTTGCGAATGTCGCGACGTGGCACTA
CAACGTGAACTTGCAAATCGTGCGGAGGCTGGCGAAAATGGTGATGCTCGGCGACAGTGC
AGGGACGTTGCTGAGGCTGCTTGCGCGATGGCGCTGTGGGCACTGCCGGTGGCAATACTA
GTGCTCTCGGCGGCAGTACTTGCTACTTGCCTCGTGCGGCCGGCTGCACGCCGCCGTCTA
AAGTTGTTCCTATTTGAGCGTGGGATGTGTGTGCGTTGGGTGCTAGGCGCAGCACCAGAT
GCTGTAGCTGAAGCTGCGCGTGAATATGATGCCTTCGTGTCGTTTTCACATCACGATAGC
GAGTACGCAGCGGCAATAGCGGCGCGGCTGGAACGTGGACCACGCGCACGTCGCTTGTGT
CTTCATGAACGCGACTGGACTCCGGGAGAATGGATTCCAGAACAAATAGCAACATCTGTG
CGGCGCAGCCGCCGTACAGTAGCGCTGGTGTCAGAGAGCTTCCTCGTAAGCCAATGGGCC
CGCGCAGAATTAAGGGAGGCATACACCGCTGCATTACGCGAGGGTCGCGCCCGTTTGCTA
GCTGTGTTATTGCCAGGGATGGAACCTCCACGTGCAGCAACTGCACCAGAATTGCGAGCC
TACCTTGCTGCCGTTACATACCTGCGCTGGGATGATCCACATTTCTGGGACAAACTTCTC
CTAGCTGTGCCACCCCCACCAAATCCTTCAACTGCGGCACCCTCTCCGCCCACTCTTTGC
TCTCCACCACCTCCGCCTTGA
Protein sequence:
MPATPTLNATHLHGLELRAFDLNAPFAPAPFLEPEDNFLEPLKGLLDLRLVRVTLTLKNT
QSFPVGLRRLILHHANLTTLPAEVFARLPDLVDLFVVDETLQELDVSTALALRAVVVAAP
LNGITLGSRVDTATLRKIRSAEIRGNCSGLRSLSIEELNVPPPTAWLARCGVRELRLRYL
SPGVLGAGELRGTRDLLRLEIHGCGLRILPPDWLADSSRLKILDLSENELETIPSAIISA
CPRLSEVILPNNLLNSSVVKALVAAPLTKLVLDGNPLGDLCRTGSGLIADAMSTLWNRRE
LIYLSLRSTGVTRICHDWCRLPKLTQINLRNNSISKLEFEDLQWSSAVVVDLRGNPVKDV
SYSQEQYEKVLLAPVTRDSISAMIRLDSHLRCDCNEYWFSLALRARPQHGQASVHAICEN
EKTFTSVPPTDLLCEVPELCPEGCKCKVDGERSHISCPNAGLIALPTIPPLPPLASLSLP
GNDITILDFTNISTSFKLLDLTNNQIKHIDAATVATLFADNRRVLLDGNPLSCECRDVAL
QRELANRAEAGENGDARRQCRDVAEAACAMALWALPVAILVLSAAVLATCLVRPAARRRL
KLFLFERGMCVRWVLGAAPDAVAEAAREYDAFVSFSHHDSEYAAAIAARLERGPRARRLC
LHERDWTPGEWIPEQIATSVRRSRRTVALVSESFLVSQWARAELREAYTAALREGRARLL
AVLLPGMEPPRAATAPELRAYLAAVTYLRWDDPHFWDKLLLAVPPPPNPSTAAPSPPTLC
SPPPPP