| New model in OGS2.0 | DPOGS205916 |
|---|---|
| Genomic Position | scaffold453:+ 52334-56003 |
| See gene structure | |
| CDS Length | 3120 |
| Paired RNAseq reads | 2570 |
| Single RNAseq reads | 6249 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA007017 (0.0) |
| Best Drosophila hit | protein kinase related to protein kinase N, isoform C (4e-162) |
| Best Human hit | serine/threonine-protein kinase N2 (2e-150) |
| Best NR hit (blastp) | conserved hypothetical protein [Pediculus humanus corporis] (0.0) |
| Best NR hit (blastx) | conserved hypothetical protein [Pediculus humanus corporis] (0.0) |
| GeneOntology terms | GO:0004674 protein serine/threonine kinase activity GO:0006468 protein amino acid phosphorylation GO:0004697 protein kinase C activity GO:0004672 protein kinase activity GO:0007391 dorsal closure GO:0005622 intracellular GO:0007165 signal transduction GO:0005524 ATP binding |
| InterPro families | IPR011072 HR1 rho-binding repeat IPR017441 Protein kinase, ATP binding site IPR008271 Serine/threonine-protein kinase, active site IPR000719 Protein kinase, catalytic domain IPR000961 AGC-kinase, C-terminal IPR017442 Serine/threonine-protein kinase-like domain IPR000861 HR1 repeat, rho-binding IPR017892 Protein kinase, C-terminal IPR011009 Protein kinase-like domain IPR008973 C2 calcium/lipid-binding domain, CaLB IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain |
| Orthology group | MCL10754 |
Nucleotide sequence:
ATGGCAGACCCAGGTTATTACCACAGTGATTATATTCGACACCCTGTCCTCTACGAGCTG
GGTGTCAAGTATGGAATTAAAACGGAATGTATTCCAGAAATAGCATTGCCGTCTAAGTTG
GAAGAGCTCAAGGATGTCATACGTAGGGAGATACGTAAAGAACTGAAAATAAAGGAAGGC
GCCGAAAAGCTACGCGAAGTTGCTACTGATCGAAGATCATTGTCGGATGTAGCAAACATC
GTTAAAAAAGCAAATTTAAAACTTAACGAACTTAAATCTGATTTGCAAGAACTGGAATCA
CAACTTCTTTTGTCACGCGGTCAATCTACTCCGACCTCTCCACAAGACTTGTCTTACGAT
GAAGAAATTATACTTGCTTCAGAAGCGGCTCAACAGCAGCGTCAATTGGGAGAAGGTACT
GCAGACCGGAAGTTGGCATCATTGGAAAAACAATTAAATATAGAGTTAAAGGTAAAACAA
GGGGCAGAAAATATGATCCAAAGCATAAGCAGCAGTAACCAATCTCGTGATAAAAAACTT
CTTAATGAAGCCCATCAAATGCTAGCAGATTCTAAAGATAAGATTGAATATTTAAAACTG
CGAATTTCAAAATTGAGTAAGCAACAAAAAGGCGATAATGCTGGAGCAAATGGAGATGGC
AGAGGTACAGACCTTAGTGGTGTTGATCCATTGCTTGATGAAAGAATTGCAGAACTAAGG
AATCGCTTACGAATTGAAGCTGCAGTTGTTGAGGGATCCAAAAATGCCATAAGGCTATTA
CAGAGCGACAAAAAAGTGACTGATAAGAAGGCTTTACAGGAAGCCCAGACAAGTCTTGTT
GAGTCAACACAAAAACTAGACTTATTAAGAAGGTCTTTGGACATGCGCCGACAGGAACTC
CCAGTTGAGAGTGCTGCATTTATAGAATTAGGACATGAATTACGTAGTACTGGCTCCAGC
CCTGGATATGTTAGTTTGACGGGAGCCAGCGGACCAAGAAACTTGTTTGTATCACCTGCC
CCTATGATCAGCCCATGTGTTCAAGTCACTGGTACCTTAGAGGTTAGATTGATGGGATGT
CAAGATTTATTGGAAGAAGTACCTGGGCGTACTCGCAGAGATCCACTTGCAAGTCCATCG
GATCTAAAATCTTTTGTCAAAGGTGTTGCAATACGCAACTCAATGAAGTACACATATAGT
ATTAAGGAGGATACAAGTAATGAGATCATGGCTGTTATGAAGCTCGATAATCACACGGTA
GCCCAAACCAGTTGGCGACCTTGCTCTCAGCAGGCCTGGGATCAAAGATTTACTATAAGG
TTAGATAAATCAAGGGAATTGGAGATTGGCATTCACTGGAAAGATTGGCGTGGGTTATGC
GCTGTAAAATTTTTGAGATTAGAAGAATTTATCGATGATATTCGGCATGGAATGGCTTTG
GAACTTGAACCTCAAGGGCTTTTGTTTGCAGAAATTAAGTTCCTTAATCCGATTATATCT
AGAAAACCTAAACTCCAGCGTCAAAGGAAAATATTCAAACAGCAGGGTAAGAATATTCCT
CGACCATCCTATGGAGAGATGCACATACCTGCTGTTGTACTTGGCAGACTTCTGAAACGT
TCATCGCCTTCAATACAAAATATTCAAACTGCTCACATACAGGCTCAACAGCAAAACTTT
GAAAATATTGAAAATAAAGATGTTGAAAACCCACATGCCACTCTTGTTGGAATGGCTGGT
GTCAGACCTTTGGGTCTACCATCCACCCCTACAACACCACTAGTGCCTATGCCACCTCAA
AAGCCAACACTGCCATTATACCCACCACCTAATGTATCAACTCTTAGAATGGAGAAAGAA
TTGCAAGAGGCCTTTGCTTTCTTAGATGACTCTTACACCAGAGATACCTACATTTCGAAG
GAGCCACAATCATCACAGTGTAATACACCTCTTGTTGAATATCCACCATCTCCATCACCA
AAATTAATTCTAGACTTCCCTAGTAATGAGGACCAAATAGTTGAAGTGACAAGTAACATG
AGAATTTCTTCATCTCGCTCCTCTTCAGTCATTGAAACTTTAGGCAGGGAATCTGATTCC
AGGAGACAATCAGGAGAGATGTCAATGAATAGCTTCAGACTATTAAGTGTTTTAGGACGT
GGACATTTTGGAAAAGTTATTTTAGCTCAGTACAAATCCACAAATGAATATTTTGCAATC
AAAGCTTTAAAGAAAGGTGATATAATAGCCAGAGATGAAGTTGATTCCTTGTTATCAGAA
AAACGCATATTTGAGGTAGCTAATGCAATAAGGCATCCATTTTTGGTAAACTTATTTGCA
TGTTTTCAAACAGATCAACATGTTTGCTTCGTAATGGAATATGCAGCTGGAGGAGATCTT
ATGATGCATATACATGCAGATGTCTTTACAGAACCAAGAGCAGTATTTTATGCAGCTTGT
GTAGTATTAGGTCTACAGTATTTACATGAAAATAATATAATTTATAGGGATTTAAAATTA
GATAACTTGTTACTTGACACTGATGGTTATGTTAAGATTGCAGATTTTGGTTTATGTAAG
GAAGGCATGGGCTGGGGTGACCGTACTGGTACATTCTGTGGAACACCAGAGTTTCTTGCT
CCTGAAGTTTTGACTGAAACATCTTATACAAGAGCAGTTGACTGGTGGGGACTTGGGGTT
TTAATATTTGAAATGCTGGTAGGAGAATCACCTTTTCCTGGTGAAGATGAAGGCGAAGTT
TTTGATTCCATTGTAAACGACGAAGTTAGATATCCTAGAACGCTGTCTTTAGAATCAATT
GCATTAATGCGTCGACTTCTACGAAAGAATCCTGAGAGGCGATTAGGTTCCTCCGAAAGG
GATGCAGAAGATGTCAAAAAGCAAGCATTCTTCCGAAATGTTGATTGGGAGCAATTGCTT
CTGCGTAAAGTTAAACCACCATTTGTGCCAACTATAAGTAATCTTGAAGATGTCAGCAAC
TTTGACAGTGAGTTTACGTCTGAAGCAGCAGTCTTAACCCCGCCTAAAGAGCCTCGCCCA
CTGAGCAACGCAGATCACAAACTGTTTTCCGACTTCACATACATGGCAGACTGGTGCTAG
Protein sequence:
MADPGYYHSDYIRHPVLYELGVKYGIKTECIPEIALPSKLEELKDVIRREIRKELKIKEG
AEKLREVATDRRSLSDVANIVKKANLKLNELKSDLQELESQLLLSRGQSTPTSPQDLSYD
EEIILASEAAQQQRQLGEGTADRKLASLEKQLNIELKVKQGAENMIQSISSSNQSRDKKL
LNEAHQMLADSKDKIEYLKLRISKLSKQQKGDNAGANGDGRGTDLSGVDPLLDERIAELR
NRLRIEAAVVEGSKNAIRLLQSDKKVTDKKALQEAQTSLVESTQKLDLLRRSLDMRRQEL
PVESAAFIELGHELRSTGSSPGYVSLTGASGPRNLFVSPAPMISPCVQVTGTLEVRLMGC
QDLLEEVPGRTRRDPLASPSDLKSFVKGVAIRNSMKYTYSIKEDTSNEIMAVMKLDNHTV
AQTSWRPCSQQAWDQRFTIRLDKSRELEIGIHWKDWRGLCAVKFLRLEEFIDDIRHGMAL
ELEPQGLLFAEIKFLNPIISRKPKLQRQRKIFKQQGKNIPRPSYGEMHIPAVVLGRLLKR
SSPSIQNIQTAHIQAQQQNFENIENKDVENPHATLVGMAGVRPLGLPSTPTTPLVPMPPQ
KPTLPLYPPPNVSTLRMEKELQEAFAFLDDSYTRDTYISKEPQSSQCNTPLVEYPPSPSP
KLILDFPSNEDQIVEVTSNMRISSSRSSSVIETLGRESDSRRQSGEMSMNSFRLLSVLGR
GHFGKVILAQYKSTNEYFAIKALKKGDIIARDEVDSLLSEKRIFEVANAIRHPFLVNLFA
CFQTDQHVCFVMEYAAGGDLMMHIHADVFTEPRAVFYAACVVLGLQYLHENNIIYRDLKL
DNLLLDTDGYVKIADFGLCKEGMGWGDRTGTFCGTPEFLAPEVLTETSYTRAVDWWGLGV
LIFEMLVGESPFPGEDEGEVFDSIVNDEVRYPRTLSLESIALMRRLLRKNPERRLGSSER
DAEDVKKQAFFRNVDWEQLLLRKVKPPFVPTISNLEDVSNFDSEFTSEAAVLTPPKEPRP
LSNADHKLFSDFTYMADWC