DPGLEAN08102 in OGS1.0

New model in OGS2.0DPOGS211780 
Genomic Positionscaffold400:+ 48114-71725
See gene structure
CDS Length2697
Paired RNAseq reads  957
Single RNAseq reads  2703
Migratory profilesQuery via corresponding ESTs
Best Bmobyx hitBGIBMGA004089 (2e-174)
Best Drosophila hit  Src oncogene at 42A, isoform A (0.0)
Best Human hittyrosine-protein kinase FRK (3e-140)
Best NR hit (blastp)  PREDICTED: similar to AGAP006270-PA isoform 1 [Acyrthosiphon pisum] (0.0)
Best NR hit (blastx)  PREDICTED: similar to CG7873-PA [Nasonia vitripennis] (0.0)
GeneOntology terms




















  
GO:0005912 adherens junction
GO:0007154 cell communication
GO:0048749 compound eye development
GO:0004715 non-membrane spanning protein tyrosine kinase activity
GO:0004713 protein tyrosine kinase activity
GO:0042059 negative regulation of epidermal growth factor receptor signaling pathway
GO:0007169 transmembrane receptor protein tyrosine kinase signaling pathway
GO:0007391 dorsal closure
GO:0006468 protein amino acid phosphorylation
GO:0007254 JNK cascade
GO:0018108 peptidyl-tyrosine phosphorylation
GO:0005515 protein binding
GO:0005524 ATP binding
GO:0005622 intracellular
GO:0007395 dorsal closure, spreading of leading edge cells
GO:0046529 imaginal disc fusion, thorax closure
GO:0007424 open tracheal system development
GO:0051017 actin filament bundle assembly
GO:0007476 imaginal disc-derived wing morphogenesis
GO:0007435 salivary gland morphogenesis
GO:0006099 tricarboxylic acid cycle
GO:0043277 apoptotic cell clearance
InterPro families






  
IPR000980 SH2 motif
IPR000719 Protein kinase, catalytic domain
IPR001245 Serine-threonine/tyrosine-protein kinase
IPR011009 Protein kinase-like domain
IPR017441 Protein kinase, ATP binding site
IPR008266 Tyrosine-protein kinase, active site
IPR002290 Serine/threonine-protein kinase domain
IPR020635 Tyrosine-protein kinase, catalytic domain
Orthology groupMCL13693

Nucleotide sequence:

ATGGTGTCGGAAGGGGCTTTGCCCGTTGTTTGGTGTATGCGCGATAACCAGCTTGTGCCT
CACCAAGTATCCGGTGTTAAGTTACAAGGTGCAGTTACTGGAGCACATATAGCTGCTGTT
TCGGACTTTTTACGTATGGTAGCAGGTACACCGATAATATTACAGCCGCCAGTAGTACAC
AACAATATTGATAATGAAATTAGCAAAGATAATACAATCAGACGTCGCAAAATGTCGATG
CAACTGGAGGTTCCTTGTGTCTTTCTCTCCGAAAGTGCTTTGCAAAAAGCAAAATGCCGC
CATAATTCCTTAGATGAACAGGTAATATTTGAAAATTGTAGTACATCTACCACAAAAAAT
ATTGATGTAGACCAATTATCAAACACCAAAATAAAAAATCCTAGATATGAGGATCGACAC
GGATCTGATAAAGACATGTTTCCCCAAAGAATTACGAGAATCATTGAATTAAATGATACG
ACCAATGAATCTGATAAGGAACCGTTACAAAGAATAACAAAAATTATAGAATTTGAAAAT
GATAAATTGCTGTCACCAGTGTCAATAGACGAAGATAATGAAGTACCGCAGAAAATTACT
AGAATAATTGAATTCAATGAAGAAAATACATTTTCTTCATTAACAAATAGTATTGATGAT
CTTACAAGAGAATGTACTCAGAAGATACCTAGGATATTAGAACCATCTAAGGAAAACGTT
TTCCCAAGTATGGCTAAAATTATAGAAATGGAGAATGAAAAGTCAAATGAAAGGAGAATA
TCACTAACGAGCGAACGAGAAATTAGTTGCGGTATCACAGAAAATTGTACCGAAAATGAA
ATAATTAGATCTAAGCCATTACAAAGAAGTAGATTTAGTGTTGATTCTTCATGCTCCGAA
AACTCTTATGCAAATATAGATACTATAAAGAGTTTGCAGGATGTAAGAAAGGAAGATACT
TTAGAATTTAGTACAAATACTGAATCTATAACAACTTCTAAACCAACGATTCGATCGCGC
TTCCGTAGGAAAAAAACATCTGTTTGTTCGATTGGATCGTCAGACTGTGATGACGAAATA
GATGTAATTTTTAAATCTAAACCAAAATCTAGTCAATGGGTGAGCTTGGATTGGATACCG
CCACCCATAGAAGAGCCAGTGATTGCTCAAGTCTGTGATAAAAATGATTTCATATCGAAA
TGGATAGCAGAACAAAATTCTCAAGATTCAGGTATCGTACCTGACGAGAGAAGAAAGAGT
CTGCCCCCGAAATCTAACGAAGTATACATACAAAATATGCGAAGATTCAGTGATGGTTTA
CAGATCTGTAAAGAAGATGCAGCTAGTGACTCTCCTGCTACGGTGAAATGGAAATGGCAC
GATATAGTCAAAAGACATCTACAGCTACTTAAAAATGACAAAGGCTTTCGACGCCAAAGA
GGCAGTTGGATACGAACAGCACGTCGCCTGTCAGGGACTAATGACAATAAGTTTTCGGAA
CTGCCTTTGGATACTTATATGAAACTAAACACTATGCCATGGTATTTCCGTAAAATCAAA
CGGATCGAGGCCGAGAAGAAGCTACTCCTTCCTGAGAATGAGCACGGTGCTTTTCTTATA
AGAGATTCTGAAAGTCGACACAATGACTTTTCACTATCAGTTCGAGATGGTGATACGGTC
AAGCATTACCGTATACGTCAGCTGGATGAAGGTGGTTTCTTCATCGCTCGCCGTACAACG
TTCAGGACCCTGCAGGAGCTCGTGGAACACTACAGCAAGGACGCTGATGGCCTATGCGTT
TCCCTCAACAAGCCATGTGTACAGGTAGAAAAACCGGTGACAGAAGGACTTTCTCATAGA
ACGCGAGATCAATGGGAGATAGATCGCTCCTCCCTGAAGTTTGTAAGGAAACTTGGACAC
GGTCAATTCGGTGAGGTATGGGAGGGGTTGTGGAACAACACCACGCCCGTAGCCATAAAG
ACGCTCAAATCGGGCACCATGGATCCCAAAGATTTCTTGGCAGAGGCTCAAATAATGAAG
AAGCTGCGGCACACCAAACTCATACAACTGTATGCGGTCTGCACTTTAGAGGAACCTATT
TACATTATCACTGAACTGATGAAGAACGGCTCTCTTCTGGAGTACTTGCAAGGCAAAGGT
AGAGGTCTGAAGCTCCAACAGCTTATAGACATGGCAGCTCAGATAGCTGCCGGCATGGCG
TATCTCGAGTCCCAGAACTACATCCACAGAGACTTAGCGGCAAGGAACGTACTGGTCGCT
GAACCAAATGTAGTCAAAATCGCTGACTTTGGACTAGCAAGACTTATCAAGGAGGACGAA
TATGAAGCTCGGGTTGGAGCTAGATTCCCAATTAAATGGACAGCGCCGGAAGCGGCCAAC
TACAGCAAATTCTCCATCAAATCTGATGTATGGTCCTTTGGTATTCTTCTCACCGAGCTC
GTCACCTACGGAAGAATACCATATCCAGGTATGTCAAACGCGGAGGTCCTCCACCAAGTG
GAGCACGGGTACCGCATGCCCTGCCCTCCGTCCTGCCCGGCGCCACTCTACGACATCATG
CTGGAGTGCTGGCACAAGGACGCCCTCAAGAGACCGACCTTCGAGACGCTGCAGTGGAAG
CTGGAGGACTTTTTCACCATGGAGAACTCGGAGTACAAGGAGGCCTCCGCCTACTGA

Protein sequence:

MVSEGALPVVWCMRDNQLVPHQVSGVKLQGAVTGAHIAAVSDFLRMVAGTPIILQPPVVH
NNIDNEISKDNTIRRRKMSMQLEVPCVFLSESALQKAKCRHNSLDEQVIFENCSTSTTKN
IDVDQLSNTKIKNPRYEDRHGSDKDMFPQRITRIIELNDTTNESDKEPLQRITKIIEFEN
DKLLSPVSIDEDNEVPQKITRIIEFNEENTFSSLTNSIDDLTRECTQKIPRILEPSKENV
FPSMAKIIEMENEKSNERRISLTSEREISCGITENCTENEIIRSKPLQRSRFSVDSSCSE
NSYANIDTIKSLQDVRKEDTLEFSTNTESITTSKPTIRSRFRRKKTSVCSIGSSDCDDEI
DVIFKSKPKSSQWVSLDWIPPPIEEPVIAQVCDKNDFISKWIAEQNSQDSGIVPDERRKS
LPPKSNEVYIQNMRRFSDGLQICKEDAASDSPATVKWKWHDIVKRHLQLLKNDKGFRRQR
GSWIRTARRLSGTNDNKFSELPLDTYMKLNTMPWYFRKIKRIEAEKKLLLPENEHGAFLI
RDSESRHNDFSLSVRDGDTVKHYRIRQLDEGGFFIARRTTFRTLQELVEHYSKDADGLCV
SLNKPCVQVEKPVTEGLSHRTRDQWEIDRSSLKFVRKLGHGQFGEVWEGLWNNTTPVAIK
TLKSGTMDPKDFLAEAQIMKKLRHTKLIQLYAVCTLEEPIYIITELMKNGSLLEYLQGKG
RGLKLQQLIDMAAQIAAGMAYLESQNYIHRDLAARNVLVAEPNVVKIADFGLARLIKEDE
YEARVGARFPIKWTAPEAANYSKFSIKSDVWSFGILLTELVTYGRIPYPGMSNAEVLHQV
EHGYRMPCPPSCPAPLYDIMLECWHKDALKRPTFETLQWKLEDFFTMENSEYKEASAY