New model in OGS2.0 | DPOGS210157  |
---|---|
Genomic Position | scaffold702:- 34702-43533 |
See gene structure | |
CDS Length | 3318 |
Paired RNAseq reads   | 1070 |
Single RNAseq reads   | 2701 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA004082 (0.0) |
Best Drosophila hit   | hopscotch (4e-87) |
Best Human hit | tyrosine-protein kinase JAK2 (7e-39) |
Best NR hit (blastp)   | tyrosine-protein kinase jak2, putative [Pediculus humanus corporis] (0.0) |
Best NR hit (blastx)   | tyrosine-protein kinase jak2, putative [Pediculus humanus corporis] (0.0) |
GeneOntology terms    | GO:0007350 blastoderm segmentation GO:0000910 cytokinesis GO:0008283 cell proliferation GO:0007365 periodic partitioning GO:0004718 Janus kinase activity GO:0007259 JAK-STAT cascade GO:0005737 cytoplasm GO:0042067 establishment of ommatidial planar polarity GO:0048749 compound eye development GO:0045317 equator specification GO:0001751 compound eye photoreceptor cell differentiation GO:0004713 protein tyrosine kinase activity GO:0006468 protein amino acid phosphorylation GO:0004715 non-membrane spanning protein tyrosine kinase activity GO:0030097 hemopoiesis GO:0007538 primary sex determination GO:0006952 defense response GO:0006955 immune response GO:0016318 ommatidial rotation GO:0007260 tyrosine phosphorylation of STAT protein GO:0007476 imaginal disc-derived wing morphogenesis GO:0007480 imaginal disc-derived leg morphogenesis GO:0007530 sex determination GO:0019827 stem cell maintenance GO:0042386 hemocyte differentiation GO:0048477 oogenesis GO:0007298 border follicle cell migration GO:0007442 hindgut morphogenesis GO:0030707 ovarian follicle cell development GO:0007424 open tracheal system development GO:0042078 germ-line stem cell division GO:0048103 somatic stem cell division GO:0007399 nervous system development GO:0005524 ATP binding GO:0005515 protein binding GO:0005856 cytoskeleton GO:0035171 lamellocyte differentiation GO:0006959 humoral immune response GO:0035010 encapsulation of foreign target GO:0006968 cellular defense response GO:0035172 hemocyte proliferation GO:0007262 STAT protein nuclear translocation GO:0045610 regulation of hemocyte differentiation GO:0051607 defense response to virus GO:0007455 eye-antennal disc morphogenesis GO:0030713 ovarian follicle cell stalk formation GO:0035167 larval lymph gland hemopoiesis GO:0060031 mediolateral intercalation GO:0003383 apical constriction GO:0016476 regulation of embryonic cell shape |
InterPro families    | IPR011009 Protein kinase-like domain IPR001245 Serine-threonine/tyrosine-protein kinase IPR000980 SH2 motif IPR002290 Serine/threonine-protein kinase domain IPR020635 Tyrosine-protein kinase, catalytic domain IPR000719 Protein kinase, catalytic domain IPR000299 FERM domain IPR017441 Protein kinase, ATP binding site IPR008266 Tyrosine-protein kinase, active site |
Orthology group | MCL10622 |
Nucleotide sequence:
ATGGCAGCGTCTGAGACAGTTAAGGTATCTGTCGTCATAGATCCGACGCCAAATATTATT
CCCTGCTCAACAACTTTTACTGCTGAAGAATTGTGTATAGTTCTGTGTAAGAAATATAAC
ATTCCGCCACTGACGCGTACCCTGTTTGCATTACGGATCAAAGGCTCAGACCTTTTCCTC
AAAGATAACAGCAAAGTTCTTCTGAGTTCAAGAGATTATGAATTAAGGATACGGTTCAAG
GTACCTCGACTGGGTCTGTTAATTACTTTAGATGAAACAACTTATGATTACTACTTTCAA
CAAGCAAGAAATGATGTTAATGAAAATAAAGTGCCTGAAATTAAGTACCCTGAAAATAAA
CAGGAACTTTTGGGTCTTGGCATAGCTGATATGACAAGGGCAATTATAGAAGAGAAACTA
CAATTAAATGATGTAGTTCGTAATCACAAGAAATATATTCCCAAAATTATAATAAGGAGA
CATGGTCCATATCCAAAAAAATATGCCATAGATTATCTACCGAAACTGTGTTCTGTGGGT
CACAATGTTAACTATGTTAAAAATCTATATTTACAACAATTATATGGATTGGCACCAAAC
TATTTGGCTGAAGAGTATAACAATGTACTTTGGCAGAATGGTAGTGATGTATTGCCCGTT
AAAGTTGTTGTTTCACCATTTCATCCCCACCAGCCAGGAATACGGCTTTTTAATATTACT
AAAAGAGATTGGTTTCATGTTTGTACTATTGAGGAGTTGATATATCTGACTAGAAACGGA
GACAACTGTTTGGAGATATCAAGACGTGGGACACCTTTGTTTCTTAAGTTCAAAAATGAG
GAACAGTTATCATCGTTTATATCCCTATGTGATGGATACTATAGGTTGATGGTAAAGTGG
ACATTTAATTTGTCGAAGGATGATGAAACACCTTCGTTAAAGGAGCTCCAGAGAATAAAA
TGCCATGGGCCTGTGGGAGGTGCATTTTCATATCGTAAGCTTGAAGAGAAGCGATCTAAG
AAGCATGGATGTTACATTCTTAGGCAATGTCAGGACGATTACAATGTATATTATTTGGAT
GTTTGCTCCAAAAATAGTACAACTGAAACATACAAAATAGAATTTAAAGGCCACTGCTAT
ATATTTAATAAGGAAGAATATTTTAGCATCGAAAGATTGGTCAGTTGTCATCAAAATCCT
GAAGGAAGGATATTTCTAAATGAATGCATACCACCTTCAGAGTATGATAAGTCTCAGTTA
CTGTTGTGTGGTGAACCATTAAAGAAAGGAGTTAGAATTGACCAAGCGGAGTTGCAAGAG
ATTTTAAAAGATAACAAAAGTCCAAGATGTCTGCCAAACAAAGATTTATTATTATACACT
GGTTCTGAAAAAGTGGGTTCCGAAAATATAACAGCGACCTACAAGGCTCTTTGGCGTCTG
GATGAAACTAAGAAATTGGTTGTGGCATTTAAGACATTACAAAGAGAAAAAGCTAATGAT
TATTTAAAGGATTTCATTGAGTTAGCAAGTAAATGGGCGTGCGTGCAATCTAGTTCGATA
GTGAGGTTGTATGGAGTTACACTGAGTTCACCAACCGCTATGGTGTTGGAATACTTGCCC
TATGGCCCCTTCGATGTATATCTTAGGGAGAATGAGGAGAATGTTAAGCCTATACACCTG
AAGAAGGTTGCAGCGGGTCTGGCTCGTGCTTTATGGGATCTCTCAGAGGCTGGTATAGTA
CACGGAGCGATACGATGTCGCCGTTTACTACTGGCCTCTCACCACGATGACCGCATCATC
GTCAAGCTCTCAGGACCGACACTCAGACAGTACTCGCCGCTCGATGTTCACTGGATGCCG
GTAGAGTTCTTCGCTGATATGAACTTAGCGAAGAGATCTGTTTTAGGGGACATCTGGGCT
TTCGCTACCACCCTGTGGCAGGTTTTCTCATACGGACACTCTCCGAATGATACCAATCCA
GTTTTAACTGCAAGAAGTTACGAGATGGGTGACAGATTGCTTCGTCCGTCCCGGTGTCCT
GGCGAGGTTTGGGCCTTGGTCAGATCCTGTTGGCAGAGCGACCCTCCAAGACCACAGGAG
ATTATGCGAGATATGAATCATATGCTGCATAGAGAATATGTTCCTTTACATGAGTACGAA
GAACCAAAGATTTCATTGGATCACATGGAACATGCAGAAACGGTGTCGAGCGATCGTTTT
ATTCCCAGCGAGTTGAGTGACGCCGGCAGCAATAAGTCGTTAATATCAGTAGACAGCAGT
GTACCGTCAACTAACGGGACAGTATCGGACTCGTATGATAATCCATTCGCTGACAACAAG
AGTTCAAACTCGTTGGAATCAATGAATGCATTGACCTACGCACTGCGGTCGGAGGCTGTG
ATCAGTCGTAGCAACAGCGCGTGTGGACCCGACGAGCCGGATGATGGTGCGGGCGCCCCA
AGACTCATGGAATCCATCGTGTCCCAGGGGAAGACATATCTCGTTACCATAACAAAGAAA
ATAGGAAGTGGCAATTACGGGCACGTCTTCAAGGGCTGGATGGAACGTGATAATCAGGAA
TCTCAAAGGAAAGAAGTAGCTGTTAAGAAATTAACTCGGCAAGCTTCAGAAAGAAATGGA
AGCCTTTACGAGGACTTTAAAAATGAACTGGAAATTATGAAGTCCCTACAACACATCAAC
ATAGTAGAGATCCTCGGTTATTCTTGGGATCACAGTTCGGATGTGCTGATAGTCATGGAA
TATTTAGAGGAGGGTTCCCTTAACTACTACCTCAAGTTCCAGGGAGATAAGCTAAGGATA
TCACATCTTTTGAAATACGCCAAAGATATTGCAACGGGCATGGATCACGTGTCAGCGAAG
AACGTCGTGCATAGAGATCTAGCGACAAGGAACATTCTAGTTGTGAACAAATATCATGTG
AAGATATCCGACTTTGGCTTAGCGAGGATCATACCTAAGGAGGAGAGTGCATACAGAATT
AAGACAGAACGCCTTCTACCTATCAATTGGTACGCTCCGGAATCAGCAGTAGAGCCGTGG
CATTTCTCCAGTAAGAGTGATGTGTGGTCGTACGGTGTTACAGCTTGGGAGATATTTACA
CGGGCTAGGACTGAAGTGCCCAAGTTTGATGTGGAAAGACCCAGGGAAAGGGCGTCGTGT
TTTCAAATACCAGAAGGTTGTCCATCGGAGATATTCAGACATCTGATGAAAGAATGCTGG
GCCCTAGACCCAAATTTACGTCCCAAGTTCATTGACCTCGTGCATATGTGCAAGCGATTT
ATGGATGAATACCAGTGA
Protein sequence:
MAASETVKVSVVIDPTPNIIPCSTTFTAEELCIVLCKKYNIPPLTRTLFALRIKGSDLFL
KDNSKVLLSSRDYELRIRFKVPRLGLLITLDETTYDYYFQQARNDVNENKVPEIKYPENK
QELLGLGIADMTRAIIEEKLQLNDVVRNHKKYIPKIIIRRHGPYPKKYAIDYLPKLCSVG
HNVNYVKNLYLQQLYGLAPNYLAEEYNNVLWQNGSDVLPVKVVVSPFHPHQPGIRLFNIT
KRDWFHVCTIEELIYLTRNGDNCLEISRRGTPLFLKFKNEEQLSSFISLCDGYYRLMVKW
TFNLSKDDETPSLKELQRIKCHGPVGGAFSYRKLEEKRSKKHGCYILRQCQDDYNVYYLD
VCSKNSTTETYKIEFKGHCYIFNKEEYFSIERLVSCHQNPEGRIFLNECIPPSEYDKSQL
LLCGEPLKKGVRIDQAELQEILKDNKSPRCLPNKDLLLYTGSEKVGSENITATYKALWRL
DETKKLVVAFKTLQREKANDYLKDFIELASKWACVQSSSIVRLYGVTLSSPTAMVLEYLP
YGPFDVYLRENEENVKPIHLKKVAAGLARALWDLSEAGIVHGAIRCRRLLLASHHDDRII
VKLSGPTLRQYSPLDVHWMPVEFFADMNLAKRSVLGDIWAFATTLWQVFSYGHSPNDTNP
VLTARSYEMGDRLLRPSRCPGEVWALVRSCWQSDPPRPQEIMRDMNHMLHREYVPLHEYE
EPKISLDHMEHAETVSSDRFIPSELSDAGSNKSLISVDSSVPSTNGTVSDSYDNPFADNK
SSNSLESMNALTYALRSEAVISRSNSACGPDEPDDGAGAPRLMESIVSQGKTYLVTITKK
IGSGNYGHVFKGWMERDNQESQRKEVAVKKLTRQASERNGSLYEDFKNELEIMKSLQHIN
IVEILGYSWDHSSDVLIVMEYLEEGSLNYYLKFQGDKLRISHLLKYAKDIATGMDHVSAK
NVVHRDLATRNILVVNKYHVKISDFGLARIIPKEESAYRIKTERLLPINWYAPESAVEPW
HFSSKSDVWSYGVTAWEIFTRARTEVPKFDVERPRERASCFQIPEGCPSEIFRHLMKECW
ALDPNLRPKFIDLVHMCKRFMDEYQ