DPGLEAN08044 in OGS1.0

New model in OGS2.0DPOGS215325 
Genomic Positionscaffold2394:- 53598-60726
See gene structure
CDS Length2550
Paired RNAseq reads  546
Single RNAseq reads  1618
Migratory profilesQuery via corresponding ESTs
Best Bmobyx hitBGIBMGA007963 (1e-119)
Best Drosophila hit  pole hole, isoform A (9e-157)
Best Human hitserine/threonine-protein kinase B-raf (3e-131)
Best NR hit (blastp)  PREDICTED: similar to pole hole CG2845-PA [Apis mellifera] (0.0)
Best NR hit (blastx)  PREDICTED: similar to pole hole CG2845-PA [Apis mellifera] (0.0)
GeneOntology terms




















  
GO:0007173 epidermal growth factor receptor signaling pathway
GO:0008069 dorsal/ventral axis specification, ovarian follicular epithelium
GO:0005515 protein binding
GO:0035309 wing and notum subfield formation
GO:0035171 lamellocyte differentiation
GO:0042386 hemocyte differentiation
GO:0007476 imaginal disc-derived wing morphogenesis
GO:0007472 wing disc morphogenesis
GO:0007428 primary branching, open tracheal system
GO:0030097 hemopoiesis
GO:0007369 gastrulation
GO:0005524 ATP binding
GO:0004674 protein serine/threonine kinase activity
GO:0023034 intracellular signaling pathway
GO:0006468 protein amino acid phosphorylation
GO:0005057 receptor signaling protein activity
GO:0007165 signal transduction
GO:0040014 regulation of multicellular organism growth
GO:0002168 instar larval development
GO:0046534 positive regulation of photoreceptor cell differentiation
GO:0007298 border follicle cell migration
GO:0007552 metamorphosis
InterPro families






  
IPR000719 Protein kinase, catalytic domain
IPR002219 Protein kinase C-like, phorbol ester/diacylglycerol binding
IPR003116 Raf-like Ras-binding
IPR017441 Protein kinase, ATP binding site
IPR011009 Protein kinase-like domain
IPR001245 Serine-threonine/tyrosine-protein kinase
IPR002290 Serine/threonine-protein kinase domain
IPR020635 Tyrosine-protein kinase, catalytic domain
Orthology groupMCL11212

Nucleotide sequence:

ATGGCAGTAACTCGAGAGAAAGAAAATTGTACAAGAAAAATTAATGGAAATATACCTGCA
TTATCTCTTAACAGCGATAATATGTCGACATCGACCGACAGTGACGACGCAGCGGATCCA
ACATATGAAATTAGGAACATTCAGAGTATTATAAATGTGACCCGTGAAAACATTGACGCT
TTAAATGCAAGGTTTGCTGGTTTGCAGCACCCACCTTCTCTGTATCTTTCGGAATATCAG
GAGTTAACAGTAAAGTTGCATAATTTAGAACTTAGAGAACAGACACTTAGGGAATTGTTA
CAGTGCGATTCGCCGGATAGGAGCGAAGAATATTCATGGCAAGATGATTCTAAGAAGTAT
GATACTCTTACTCGGCAACCTAAAGTTTTCCTTAGAGCTTACTTGCCGAATCAACAGCGG
ACGAGTGTACAGGTGAAGGAGGGAGTTTCGCTTCGAGAAGCTCTCATGAAGGCTCTCAAG
CTTCGTAACTTAACTTGTGAAATGTGCGAAGTGGTTCGGACAGGAAATAATGCTGTGATA
CCGTGGGATATCGATATTACTATGATTGATGCTGAGGAGGTGACAGTGCGAATTTTGGAC
AAATTGCCCATTATGTCTCACATGTCGCACCAGTTCACAAGAAAGACATTCTTCACACTC
GCGTTCTGCGAGTGCTGTCGACGGCTGCTCTTCAACGGCTTCTACTGCTCGCAGTGCAAC
TTCAAGTTCCATCAGCGATGCGCTGATAAAGTTCCAAGTATTTGTCATCAGGTACGAATG
ACTGACACATACTACGCGGCTCTACTGGCCAAGAATCCGGAGACCCAGGCGGGGATCCTG
CACGTGCCCGCCCACTACAGCTATCATCAGAACAAACATCAATATTTTTACTATTTGCTA
TCAGGCACATCACTAGCCTTGACCTACAAAAACATGTACAATGAGCCAATATTCCAGGTG
ACAGTGCGAATTTTGGACAAATTGCCCATTATGTCTCACATGTCGCACCAGTTCACAAGA
AAGACATTCTTCACACTCGCATTCTGTGAGTGCTGTCGACGGCTGCTCTTCAACGGCTTC
TACTGCTCGCAGTGCAACTTCAAGTTCCATCAGCGATGCGCTGATAAAGTTCCAAGTATT
TGTCATCAGGTACGAATGACTGACACATACTACGCGGCTCTACTGGCCAAGAATCCGGAG
ACCCAGGCGGGGATCCTGCACGTGCCCGCTCACTACAGCTATCATCAGAACAAACAAGCC
CACCCTCGCTCGCTGAACCAGCAAGACCGCTCCAATTCGGCGCCAAACGTGTGTGTCAAC
ATGGTGAGACATTTGACCGATCACGGCCGGAAGAATAACCAGAGCAGCTCCCCGCAATCA
TCAAATTACCTTTCATCAGGGAGACACGGCAAAGACGACCGGGAGAAGGGCGAGCAGCAG
AGTCAAAGCACTCAGGCCTCCCCCACGGGCACGCTTCGACCTCGAAGGGCGCGCGCTCGC
TCCGCGGACGAGTCGTGGAAACATGCCCTGTCTCCTCGTGAAAGCTACGACGACTGGGTC
ATACACGCCGATGAAATACTCATAGGGGCCAGGATAGGCTCCGGTAGTTTTGGGACAGTG
TATAAGGCGCATTGGCACGGACCGGTCGCTGTCAAGACGCTGAACGTGAAGACGCCCACC
CCAGCTCAGCTACAGGCCTTCAAAAACGAGGTGGCTGTCCTCCGTAAGACGCGGCACTGC
AACATCCTTCTGTTCATGGGCTGTGTGTCCAAGCCTTCCTTGGCGATAGTGACCCAGTGG
TGTGAAGGCTCCTCGTTGTATCAACACCTGCACGTGCTGGAGACGCCGCTGCCGATGTTA
TACCTCATAGACGTGGCGCGCCAGACCGCCCAGGGCATGGACTACCTGCACGCCAAGTTG
GATCTGAAATCTAACAACATATTCTTAAGAGACGACTGGTCGGTTAAGATTGGAGACTTC
GGCCTGGCGACGGCCAAAGTGCGGTGGTCAGATTCGTCCACGCTGGGAGGCGTGCAGTGG
CAGCAGCCGACCGGCTCGATACTGTGGATGGCGCCGGAAGTGATCCGTATGGAGGAACCG
GCGCCGTACACCTTCCGGTCGGACGTGTACGCGTACGGGATCGTGCTGTTCGAGCTGACG
GCCGGCGAGCTACCGTACGCGCACCTCAACAACAAAGACCAGATACTGTGGTCGGTGGGC
CGCGGCCTGCTGCGACCGGACGTCCGTCGGTTGCGTCAGGACGCTCCGCAGGCCCTGCGC
CGCCTGTTCGAGGACTGCATCCAGTTTGACCGGGAGCGCCGGCCGCTGTTCCGTCAGATC
CTGGCGTCCCTGGAGGCCATGCTGCGAGCCATGCCCAAGATCACGCGCAGCGCGTCCGAG
CCGTGCCTGCAACGCGCCCTCCACGCATCCGACGACTGTCTCGGGTACGCCTGTGCGGAA
CCAAAGACGCCCGTCAACTTCCAGTTCGACGCTCACACTAGCTTCCCGGCCTTCTACAGT
ATTCCAGTGCCTAGCCAGCGACACGCCTAG

Protein sequence:

MAVTREKENCTRKINGNIPALSLNSDNMSTSTDSDDAADPTYEIRNIQSIINVTRENIDA
LNARFAGLQHPPSLYLSEYQELTVKLHNLELREQTLRELLQCDSPDRSEEYSWQDDSKKY
DTLTRQPKVFLRAYLPNQQRTSVQVKEGVSLREALMKALKLRNLTCEMCEVVRTGNNAVI
PWDIDITMIDAEEVTVRILDKLPIMSHMSHQFTRKTFFTLAFCECCRRLLFNGFYCSQCN
FKFHQRCADKVPSICHQVRMTDTYYAALLAKNPETQAGILHVPAHYSYHQNKHQYFYYLL
SGTSLALTYKNMYNEPIFQVTVRILDKLPIMSHMSHQFTRKTFFTLAFCECCRRLLFNGF
YCSQCNFKFHQRCADKVPSICHQVRMTDTYYAALLAKNPETQAGILHVPAHYSYHQNKQA
HPRSLNQQDRSNSAPNVCVNMVRHLTDHGRKNNQSSSPQSSNYLSSGRHGKDDREKGEQQ
SQSTQASPTGTLRPRRARARSADESWKHALSPRESYDDWVIHADEILIGARIGSGSFGTV
YKAHWHGPVAVKTLNVKTPTPAQLQAFKNEVAVLRKTRHCNILLFMGCVSKPSLAIVTQW
CEGSSLYQHLHVLETPLPMLYLIDVARQTAQGMDYLHAKLDLKSNNIFLRDDWSVKIGDF
GLATAKVRWSDSSTLGGVQWQQPTGSILWMAPEVIRMEEPAPYTFRSDVYAYGIVLFELT
AGELPYAHLNNKDQILWSVGRGLLRPDVRRLRQDAPQALRRLFEDCIQFDRERRPLFRQI
LASLEAMLRAMPKITRSASEPCLQRALHASDDCLGYACAEPKTPVNFQFDAHTSFPAFYS
IPVPSQRHA