New model in OGS2.0 | DPOGS205514 |
---|---|
Genomic Position | scaffold2729:- 8072-19369 |
See gene structure | |
CDS Length | 2475 |
Paired RNAseq reads | 1314 |
Single RNAseq reads | 3460 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA000144 (6e-45) |
Best Drosophila hit | happyhour, isoform A (6e-124) |
Best Human hit | mitogen-activated protein kinase kinase kinase kinase 5 (5e-96) |
Best NR hit (blastp) | PREDICTED: similar to mitogen-activated protein kinase kinase kinase kinase 3 [Apis mellifera] (5e-156) |
Best NR hit (blastx) | PREDICTED: similar to mitogen-activated protein kinase kinase kinase kinase 3 [Apis mellifera] (8e-140) |
GeneOntology terms | GO:0004674 protein serine/threonine kinase activity GO:0004702 receptor signaling protein serine/threonine kinase activity GO:0006468 protein amino acid phosphorylation GO:0005083 small GTPase regulator activity GO:0005524 ATP binding GO:0004672 protein kinase activity GO:0032008 positive regulation of TOR signaling cascade GO:0042059 negative regulation of epidermal growth factor receptor signaling pathway GO:0048149 behavioral response to ethanol |
InterPro families | IPR011009 Protein kinase-like domain IPR002290 Serine/threonine-protein kinase domain IPR001180 Citron-like IPR000719 Protein kinase, catalytic domain IPR017442 Serine/threonine-protein kinase-like domain |
Orthology group | MCL10571 |
Nucleotide sequence:
ATGTGTAAGGAAACGCTTACCGGTCTATCATACTTACACAGCATGGGGAAGATGCATAGG
GATATAAAGGGGGCCAATATACTTTTAACCGAGTGTGGTGATGTGAAGCTCGCCGACTTC
GGAGTATCAGCACAGATCACAGCTACCATCAACAAGAGGAAGAGCTTCATTGGCACGCCG
TACTGGATGGCACCCGAGGTCGCAGCCGTTGAGAGGAAGGGTGGATACAATCAGCTGTGT
GATATTTGGGCCTGTGGTATCACAGCTATAGGTATGTTAATATATATATCTTATTTATAT
GCTTATTCACATATATATAGCAAGTGGTGTCGGGTCCTCACTGGTGACGATATAATGAGA
ATGACCTTGAGGAGCCTCTTGCAATATATTGACGAAGAATTAATGCTCAGGGCGACATTA
CCTCTGACCGCTGAGAACGCGTCTATAGCGCAGGCCAATTCCGGCCTCTCTATACACGAC
CAACATCTCTCGCAATGTATACAATTAAAACAGAATTTCCTCAACAATTCCACCACGAAC
GTCTACCAGAGCCTCGCCTCCAACTTCCAATCTCCCGTCGGTAACTCATCTATATCTATA
GACGATCCGCTTATGAGGAAACACGACACAGACATACTGTACGTAGACCAAGAGGACGAG
GCCAATCATTCCCAGTTCAGAAACGCGAACTGCGAGTGCGGGCTGTGTCCCAAGCCGGAA
ACCAGGGGGAACGACACGCTGAGCGACCTGCAGAGGTCGGTGGCGTCCAAGTGCGCCTGC
GACGCCTGCACCTCCAACGGAGACATACTGAGCTACTACAAGCATTGCTCAAACCAGAAC
ACCGACTCCGGCATAGTGTACTGCGACGTGTGCAAGAAGCAGAAAATATCGGTGTCCAAC
TTCAGAGCGCTGCAGATAGCGAACCGATTGCGGATATCGGACTCCAGCAAGGTGGAGAAC
GGCGAGACCTCGGACGACGACCTGTGCAGGAAGATAGACATGAGCCTCGACATGGACGAG
AACAAGCCGTACGAGCACAGGAAGAGGCACAACAGACACCACTCGGACTCCGCGGCGGCC
GGCATCGACTTGAGCCAGTTCTGTCAGTGCGAACTCGGAAACAGCACCAAGAGAAAAACG
TCCTCCGTAGACGAGATATTCAAAATGGTGGACGACAACGGAAGGGAGGCGGAAGTGGCG
GACGAGGAAGTCAAAACTGGCCAGAGGCAAAGGAGTCTGTCCGACAGCCAGAGAGATAAG
GCTAAAGTGGAAAATGATGCATCATCCACCCCCCCAGTACCTCCTCGGAGGTCTAGAGCT
CGTCGTACTAGAACACCTCCTCGACCAGCGCCGAATGGTCTCCCGCCCACGCCCAAGGTC
CACATGGGCGCCTGCTTCTCAAAGGTGTTCAACGGTTGTCCGTTGAGGATAAACTGTACA
GCATCATGGATACATCCGGACACAAGGGATCAACATATACTTATCGGTGCTGAGGAAGGT
ATCTACACTCTGAACCTCAACGAGCTCCATGAGACAGCGATGGACCAGTTGTGTCCGAGA
CGAACTATATGGATGCATGTCATCAAAGATGTGCTCATGTCACTCTCCGGTAAAACCCCT
TCCCTCTACCGACACGAGTTACTATCGCTGTCAGGCAGTGGTAGGGGCGGCAGGAGCGGG
GCTCGGTCGCTGCGAGTGGTGCCATCCAGATTACTACCACGAAGATTCGCTCCCACCACC
AGAGTGCCGGACACTAGAGGCTGTACCCGCTGTGCGGTGGCGCGGAGTCCCTACAACGGG
TACAAGTACCTCTGTGGCGCGACACCGGCCGGTCTGTTCCTGATGCAGTGGTATGATCCC
CTGAGGAAGTTCATGCTGCTTAAGAATATAGAATGTGTTCTGCCGTCACCGTTATTGGCC
TTTGAGCTGATCATAACTCCCGAGTTGGAGTATCCTCTGCTGTGCGTGGGTGTTACAAGG
AAACCTCTGAGACTGAATCTGATTAATATAAACTCTGGTGCGAGTTGGTTCAATTCCGAG
GAGCTGGCATTATTACCAGGTGGCTCGAACACAGTGGTACCAAGGCCTGAAAGACTTCAC
ACGTTGCGAGCTGTGAGACAACTTAATAAAGATTCGGTACTCGTCTGTCACGAGAACCTC
GTTGACATTATACCAGTGTTGCCGTTCGAGAGAAGAAGAAATAAATTACTGTCTAGAATA
CAGTTCGACTTCAATATTGATAGTATATTGTGTCTGGCCGACTCCGTGCTAGCCTTCCAT
CGTCATGGAGTCCAGGGTCGGTCGCTGAGGAGCAACGAGATCACTCAGGAGATAACAGAC
GCATCCAGAGCATACCGACTGCTGGGACACGATAAAGTTGTTGTTCTCGAGTCACATTTA
TTGCAGAACAACACACTATCTGGTGAAGACGGAAATGATTTGTACATTCTGGCCGGACAC
GAGGCTTCATATTAA
Protein sequence:
MCKETLTGLSYLHSMGKMHRDIKGANILLTECGDVKLADFGVSAQITATINKRKSFIGTP
YWMAPEVAAVERKGGYNQLCDIWACGITAIGMLIYISYLYAYSHIYSKWCRVLTGDDIMR
MTLRSLLQYIDEELMLRATLPLTAENASIAQANSGLSIHDQHLSQCIQLKQNFLNNSTTN
VYQSLASNFQSPVGNSSISIDDPLMRKHDTDILYVDQEDEANHSQFRNANCECGLCPKPE
TRGNDTLSDLQRSVASKCACDACTSNGDILSYYKHCSNQNTDSGIVYCDVCKKQKISVSN
FRALQIANRLRISDSSKVENGETSDDDLCRKIDMSLDMDENKPYEHRKRHNRHHSDSAAA
GIDLSQFCQCELGNSTKRKTSSVDEIFKMVDDNGREAEVADEEVKTGQRQRSLSDSQRDK
AKVENDASSTPPVPPRRSRARRTRTPPRPAPNGLPPTPKVHMGACFSKVFNGCPLRINCT
ASWIHPDTRDQHILIGAEEGIYTLNLNELHETAMDQLCPRRTIWMHVIKDVLMSLSGKTP
SLYRHELLSLSGSGRGGRSGARSLRVVPSRLLPRRFAPTTRVPDTRGCTRCAVARSPYNG
YKYLCGATPAGLFLMQWYDPLRKFMLLKNIECVLPSPLLAFELIITPELEYPLLCVGVTR
KPLRLNLININSGASWFNSEELALLPGGSNTVVPRPERLHTLRAVRQLNKDSVLVCHENL
VDIIPVLPFERRRNKLLSRIQFDFNIDSILCLADSVLAFHRHGVQGRSLRSNEITQEITD
ASRAYRLLGHDKVVVLESHLLQNNTLSGEDGNDLYILAGHEASY