| New model in OGS2.0 | DPOGS206833 |
|---|---|
| Genomic Position | scaffold1:- 2963928-2975986 |
| See gene structure | |
| CDS Length | 2967 |
| Paired RNAseq reads | 1623 |
| Single RNAseq reads | 4016 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA012778 (5e-24) |
| Best Drosophila hit | LIM-kinase1, isoform E (3e-133) |
| Best Human hit | LIM domain kinase 1 (2e-82) |
| Best NR hit (blastp) | PREDICTED: similar to LIM domain kinase 1 [Tribolium castaneum] (1e-172) |
| Best NR hit (blastx) | LIM domain kinase, putative [Pediculus humanus corporis] (1e-161) |
| GeneOntology terms | GO:0004674 protein serine/threonine kinase activity GO:0006468 protein amino acid phosphorylation GO:0030036 actin cytoskeleton organization GO:0004672 protein kinase activity GO:0008270 zinc ion binding GO:0005524 ATP binding GO:0005515 protein binding GO:0050770 regulation of axonogenesis GO:0051124 synaptic growth at neuromuscular junction GO:0007416 synapse assembly GO:0001736 establishment of planar polarity GO:0001737 establishment of imaginal disc-derived wing hair orientation GO:0048749 compound eye development |
| InterPro families | IPR001781 Zinc finger, LIM-type IPR001245 Serine-threonine/tyrosine-protein kinase IPR017441 Protein kinase, ATP binding site IPR011009 Protein kinase-like domain IPR000719 Protein kinase, catalytic domain IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain |
| Orthology group | MCL11601 |
Nucleotide sequence:
ATGGAGGAATCGAATCAAAAAGAAATCCTGATATGTGGAGGCTGTTTAAATGATATCAGC
GATGAAGATTATGTATCGGCGTTAAGCCAGGATTGGCACAGAGACTGCTTTCGGTGCTCA
GTATGTGACGCTCAGTTGACGACGTGGTTCTTTGAGAAGGGCGGCTTGCTATTCTGCCGG
GAGGATTACTGGACCAGATTCGGGGATGTCTGCCATAGATGTGGACAGGTGGTGTACGGA
TCCTCAATGGCGGCGGGCGAGTTGAGGTATCATTCCGAGTGCTTCGCTTGCGCCGCCTGC
GGATCGCTGTTGGGTGAAACTGAACTCTACGCCCTCGTGGACCGAGACACTTTGTACTGC
GGTGGCTGCTCTCCGAATCTTTCGTCCTCAAGATCCACCGCACTTGTCCAACCTCAGTTG
GATGCCAGCGGAGCCCTAGCGCTGCGAGTGGAGTGTGTGCTGGAGAAAGGAGGAGAGGGC
AAAGTACTCCAGGGCGTTAGGGGGAGAGGCAAAGAGGTTGTAGATGAAAGAGGCAATGAA
CAGACGATCCATCACATACAGCCACCGATAGAACATAATCCGGACACAATAAATGTTAAA
CGGGGATCATCAGACGTAATGAAAACGTCCAGTAATGGAGAAGATATGAAGAAAGAGAAT
AAGAAAGAGGAAGCCGGGCTGAAAAGAGAGCGGCTGTTCAAGAGGAAGGGGGAGGACGGG
GGGAAGGTGCGGGTCATTAAGAGGAGACAGACTCCCTCCTCACCACTATTGGGGGAGAAA
GAGAAAAGTAGCAGCATGTCTAAACTGTTGGACGTCTCGGAGGGCGGTCCACCCGCAGCT
CCTGGTGTGTTGGACGACCTGAGTCGTGCGCGCTCCTTCAGGACACACGCTAACACGCAA
CAGAGGGTCTTCAGGGACGCGGATCTTATACAGGGTGAACTCCTGGGTACTGGTTTCTTC
GGCCACGTGTACAAGGTGACTCACCGCGCTACCGGTGAGCTCATGGTGCTCAAACAACTG
TACCGCGTCGATGACACCGCCCAGAACAACTTCCTTAAAGAGGTGGCTGTGCTGCGATCA
CTGAGACACCGGAATGTTCTTCGGTTTGAGGGAGTGTTGTACCGCGAGCGACTCCACCTC
GTCACCGAGTACGTGGCGGGCGGCACTCTACACGACTTACTGCAGGACAAGTCCCGTCCT
CTATCATGGGAGACCCGTGTCCGCCTGGCGCGGGATGTAGCGGCTGGTGTGGGCTACCTA
CACTGCAGGAACGTGATACACAGGGACCTCAACTCACACAACTGTCTCATACGGCCCGGT
GAGGAGCTGACAGTGGTAGTGGCGGACTTCGGTCTTGCTCGGATCGTTCGTAGAACTGAC
CGTAATGCCTCCAGCCGCAAGCGGTACACGGTGGTCGGCAACCCATACTGGATGGCGCCT
GAGATGATGAACGGGAACCTGTATGATGAGAAGGTGGACGTGTTCTCGTTCGGGATTATA
CTCTGTGAGATAATCGGTCGCGTGTCAGCCGACCCTGACTACATGCCTCGGCGGTCGGAC
TTCGGTCTCAACGAGCGCGTATTCCGCGACAAGTTCTGCTCCACCTGCCCGGAGCCCTTC
TACAGGCTCGCCTTCCTCGCCTGTCAACTAGACCCGGACGCCAGACCACCGTTCGAGGTG
ATGGAAGTTTGGTTGGATTCTCTCGTGAGGCATCTGTCTGCCGGAGGAACTCTGCCGCAA
GCGTTACTACGAGACGTATTACAGTATGGAGGAAGGCACGGCGTGATGACGAGAGACGCG
GACGACGGTCCGGAGGAGTCACAGAAGTCAGGGTCACAGGAGGGACAGGGGGTCGTGAAG
AGTCAATCAACACTGGAGCTGGAGCTTCAGTCGCGCGACAGTGAAGGTCGTGCACTCGGC
AAATGCGTGTCAGCTGGGGCCTTGTGGTCCGCCGGCCCCGCGGCACGGCCCGGGGGGCGG
GCGGCGCGTCGCAGCACGCAGGCACTTACGCCGGGTTATATACTAAGACCCCACCAAAAC
GGCATCGACGTCACCAGAGTCGACGACATCTCTTGCTGGGTGGACCCGCACCTGCCCGCC
TTCATGAGGAACCAGTCCGAGGAGGGATTGCAGACGAGCTCCAAGAGAGAGATCCGTCCC
AGCGTTCCGTTCTGTCGTCACGATAGTATACCGGCGTGTTCGGACTCAGACTCTTCGGAC
GATGACCTCCTGTCCCCCTCCCCCCTCCCTGCTGCTCCGCTCCTGACTGATATTATGAAG
AAGGGTGGCGCCCTGCTCGCGGCCCGGGGCAGGTATGACGTCACGGAGGAGGCTCCAGGC
AAACAGAGGGGCGCGACCGACGACGACGCCGGGAAATATAACAAGAAGTCTCCGGTCACA
GCTAAATGGATAGAAAACATTCCGAAGGCACAAGCGGCCAAACCGCCGGAGAAAACCGGA
TTCTTCACGAAAACTCTCGGCTCGCCGAAGCTTCGTAGGTTATTCCGACCGAACAATGCC
GATGCGAACCATAAGCCGGAGACGGACAAAGACCGCTCCAAGAGCAACTTCTTCGTCCAG
AAGCCGGCTGGCGCTGTACGATCCGCTTACAGGGTGAGACCCGCGAGTGACGAGCGTAGC
GACTTGAACAGGAACGTCCTTGAATGTGACATCAAGCTGGCCAACATGGGCACGCCCATG
ACGCCCACGTTCAGGAGACACCAACCCGTGGACAGGGATTTCAAGGACGGCAGGTTTAGT
TACCGCGAGAGAAGGTTCGATCCGCCCCGGACTCGACCCCCGGACAAGATGGCCGACAAC
AAGAACAATATCATCACGTTAGCGGAAAAAATCAAGGACAAAGACGGTAAGGACGCGGTG
AAACGAAGACCGATCGGCATCACGAGGAGCAACTACGTGAAGCTAGAGAATCTAAGGATT
AGCAAGGACGGGGCTCATCTGGTGTAA
Protein sequence:
MEESNQKEILICGGCLNDISDEDYVSALSQDWHRDCFRCSVCDAQLTTWFFEKGGLLFCR
EDYWTRFGDVCHRCGQVVYGSSMAAGELRYHSECFACAACGSLLGETELYALVDRDTLYC
GGCSPNLSSSRSTALVQPQLDASGALALRVECVLEKGGEGKVLQGVRGRGKEVVDERGNE
QTIHHIQPPIEHNPDTINVKRGSSDVMKTSSNGEDMKKENKKEEAGLKRERLFKRKGEDG
GKVRVIKRRQTPSSPLLGEKEKSSSMSKLLDVSEGGPPAAPGVLDDLSRARSFRTHANTQ
QRVFRDADLIQGELLGTGFFGHVYKVTHRATGELMVLKQLYRVDDTAQNNFLKEVAVLRS
LRHRNVLRFEGVLYRERLHLVTEYVAGGTLHDLLQDKSRPLSWETRVRLARDVAAGVGYL
HCRNVIHRDLNSHNCLIRPGEELTVVVADFGLARIVRRTDRNASSRKRYTVVGNPYWMAP
EMMNGNLYDEKVDVFSFGIILCEIIGRVSADPDYMPRRSDFGLNERVFRDKFCSTCPEPF
YRLAFLACQLDPDARPPFEVMEVWLDSLVRHLSAGGTLPQALLRDVLQYGGRHGVMTRDA
DDGPEESQKSGSQEGQGVVKSQSTLELELQSRDSEGRALGKCVSAGALWSAGPAARPGGR
AARRSTQALTPGYILRPHQNGIDVTRVDDISCWVDPHLPAFMRNQSEEGLQTSSKREIRP
SVPFCRHDSIPACSDSDSSDDDLLSPSPLPAAPLLTDIMKKGGALLAARGRYDVTEEAPG
KQRGATDDDAGKYNKKSPVTAKWIENIPKAQAAKPPEKTGFFTKTLGSPKLRRLFRPNNA
DANHKPETDKDRSKSNFFVQKPAGAVRSAYRVRPASDERSDLNRNVLECDIKLANMGTPM
TPTFRRHQPVDRDFKDGRFSYRERRFDPPRTRPPDKMADNKNNIITLAEKIKDKDGKDAV
KRRPIGITRSNYVKLENLRISKDGAHLV