DPGLEAN15369 in OGS1.0

New model in OGS2.0DPOGS206801 
Genomic Positionscaffold1:- 3856415-3865858
See gene structure
CDS Length4341
Paired RNAseq reads  2982
Single RNAseq reads  7868
Migratory profilesQuery via corresponding ESTs
Best Bmobyx hitBGIBMGA000602 (0.0)
Best Drosophila hit  epidermal growth factor receptor, isoform B (0.0)
Best Human hitreceptor tyrosine-protein kinase erbB-4 isoform JM-a/CVT-1 precursor (1e-117)
Best NR hit (blastp)  PREDICTED: similar to epidermal growth factor receptor [Nasonia vitripennis] (0.0)
Best NR hit (blastx)  PREDICTED: similar to epidermal growth factor receptor [Nasonia vitripennis] (0.0)
GeneOntology terms























































































  
GO:0005006 epidermal growth factor receptor activity
GO:0008071 maternal determination of dorsal/ventral axis, ovarian follicular epithelium, soma encoded
GO:0048749 compound eye development
GO:0007390 germ-band shortening
GO:0007173 epidermal growth factor receptor signaling pathway
GO:0005886 plasma membrane
GO:0016333 morphogenesis of follicular epithelium
GO:0001709 cell fate determination
GO:0008586 imaginal disc-derived wing vein morphogenesis
GO:0001752 compound eye photoreceptor fate commitment
GO:0007314 oocyte anterior/posterior axis specification
GO:0007310 oocyte dorsal/ventral axis specification
GO:0007391 dorsal closure
GO:0007443 Malpighian tubule morphogenesis
GO:0002009 morphogenesis of an epithelium
GO:0007431 salivary gland development
GO:0009952 anterior/posterior pattern formation
GO:0004713 protein tyrosine kinase activity
GO:0005887 integral to plasma membrane
GO:0008314 gurken receptor signaling pathway
GO:0009950 dorsal/ventral axis specification
GO:0008313 gurken receptor activity
GO:0007424 open tracheal system development
GO:0046845 branched duct epithelial cell fate determination, open tracheal system
GO:0035309 wing and notum subfield formation
GO:0007444 imaginal disc development
GO:0035310 notum cell fate specification
GO:0007477 notum development
GO:0007476 imaginal disc-derived wing morphogenesis
GO:0006468 protein amino acid phosphorylation
GO:0007298 border follicle cell migration
GO:0016330 second mitotic wave involved in compound eye morphogenesis
GO:0045165 cell fate commitment
GO:0000578 embryonic axis specification
GO:0007447 imaginal disc pattern formation
GO:0048477 oogenesis
GO:0030381 chorion-containing eggshell pattern formation
GO:0001751 compound eye photoreceptor cell differentiation
GO:0006916 anti-apoptosis
GO:0045468 regulation of R8 cell spacing in compound eye
GO:0007469 antennal development
GO:0007479 leg disc proximal/distal pattern formation
GO:0042676 compound eye cone cell fate commitment
GO:0030031 cell projection assembly
GO:0046673 negative regulation of compound eye retinal cell programmed cell death
GO:0007473 wing disc proximal/distal pattern formation
GO:0009880 embryonic pattern specification
GO:0009953 dorsal/ventral pattern formation
GO:0007420 brain development
GO:0007369 gastrulation
GO:0042694 muscle cell fate specification
GO:0048139 female germ-line cyst encapsulation
GO:0007350 blastoderm segmentation
GO:0016203 muscle attachment
GO:0007421 stomatogastric nervous system development
GO:0001742 oenocyte differentiation
GO:0048140 male germ-line cyst encapsulation
GO:0007474 imaginal disc-derived wing vein specification
GO:0004888 transmembrane receptor activity
GO:0035202 tracheal pit formation in open tracheal system
GO:0045466 R7 cell differentiation
GO:0007472 wing disc morphogenesis
GO:0007422 peripheral nervous system development
GO:0007346 regulation of mitotic cell cycle
GO:0007458 progression of morphogenetic furrow involved in compound eye morphogenesis
GO:0001745 compound eye morphogenesis
GO:0000086 G2/M transition of mitotic cell cycle
GO:0001654 eye development
GO:0016318 ommatidial rotation
GO:0005524 ATP binding
GO:0016020 membrane
GO:0019904 protein domain specific binding
GO:0007169 transmembrane receptor protein tyrosine kinase signaling pathway
GO:0045610 regulation of hemocyte differentiation
GO:0035225 determination of genital disc primordium
GO:0045749 negative regulation of S phase of mitotic cell cycle
GO:0035277 spiracle morphogenesis, open tracheal system
GO:0007367 segment polarity determination
GO:0030718 germ-line stem cell maintenance
GO:0007455 eye-antennal disc morphogenesis
GO:0016337 cell-cell adhesion
GO:0035160 maintenance of epithelial integrity, open tracheal system
GO:0046843 dorsal appendage formation
GO:0043066 negative regulation of apoptosis
GO:0007309 oocyte axis specification
GO:0035088 establishment or maintenance of apical/basal cell polarity
GO:0007482 haltere development
GO:0022008 neurogenesis
GO:0048149 behavioral response to ethanol
InterPro families









  
IPR011009 Protein kinase-like domain
IPR009030 Growth factor, receptor
IPR001245 Serine-threonine/tyrosine-protein kinase
IPR000494 EGF receptor, L domain
IPR006211 Furin-like cysteine-rich domain
IPR006212 Furin-like repeat
IPR002290 Serine/threonine-protein kinase domain
IPR020635 Tyrosine-protein kinase, catalytic domain
IPR017441 Protein kinase, ATP binding site
IPR008266 Tyrosine-protein kinase, active site
IPR000719 Protein kinase, catalytic domain
Orthology groupMCL10512

Nucleotide sequence:

ATGTTGGCTGGCCGCAGCTATCTGTGGTGGCTGTGCGTGTGCGCGTGCGCGACGGTGCTG
GACGCGAGGCGCCTGCACAACGACGCGAACGCCAGGCACAAACATTCGGAATTTGTCAAG
GGAAAAATATGCATCGGTACCAATGGGCGGATGTCGGTGCCTTCGAATCGAGATACTCAC
TACAGAAACCTACGCGATCGATTCACCAACTGCACCTATGTCGATGGTAACTTAGAATTG
ACGTGGCTCGAGAACGAAACGATGGACCTTTCATTCCTACAACACATAAGAGAAGTGACT
GGTTATGTTCTCATTTCGTATGTGAAAGTGGCTCAAATCATATTACCAAAACTACAAATT
ATTCGTGGAAGAACACTTTTCAAACTTAATGTTAGAGTTGAGGAATTTTCCCTTTTGGTA
ACTATGTCTTCGGCTCTTACACTGGAACTTCCTGCTCTTAGAGATGTCCTTCGTGGCAGT
GTGGGCATCTATAATAATTACAACCTTTGTCATGTTAAAACCATTAATTGGGATGAAATT
ATTACTGGTGTTAATGCAACATACGTATTTGTATACACCTTTAATGTACCAGAAAGAGAG
TGTCCGCCGTGTCATCCTAGTTGTGAGGCAGGTTGCTGGGGAGAAGGAATACATAACTGT
CAGAAGTTCTCAAAAACAAACTGTAGTCCTCAATGTGAAGACGGAAGATGTTTTGGCCCA
AACCCTCGGGATTGCTGCAATACTTTCTGTGCTGGGGGGTGTAAAGGTCCTCTCCCTAGT
CAATGCCTTGCTTGCCGAAACTTTTATGATGAAGGAACATGTTCCCAAGAATGCCCACCA
ATGCAAAAATATAACCCAACAACTTATTCTTGGGAACCAAATCCTAACGGAAAATATGCA
TACGGTGCTACTTGTGTTAGGAATTGTCCAGAACACCTATTAAAAGACAACGGAGCCTGC
GTTAGGAGCTGTCCCCCTAACAAGACAGCAGTGAATGGTGAATGTATACCATGCAATGTG
ACTTGCCCAAAAACTTGCCGAGCTGAAAAACCTATCCACTCCGGAAATATCGATAGTTTT
AAGGATTGCACTATTATAGACGGATCGATAGAAATTCTTGAAATGACTTTTACTGGGTTT
CAACACGTTAACGCTGATTACTCTTTCGGAGATAGATATCCAAAAATGGAACCTGATGCT
TTGGAAGTATTTAGCACTGTACGTGAAGTTACCGGTTACTTAAATGTTCAAGCTCATCAT
CCAAACTTCACAAGTCTCTCGTACTTTAGAAATCTAGAAGTTATAGGCGGGCGTCAAGTT
GTAGAAAACTTATTTGCATCTCTTTATATTGTAAAGACCTCTTTAAAATCTCTGGGACTT
AAATCTCTCAAAAGAGTGAACTCTGGTGCTATAGCAATCATGGAAAATCGACAACTATGT
TTCGCTGATAAAATAGCATGGAATAAGCTGGGCAAATCAAAAGATCATAAGCAAATAATT
CAGAAAAATGGGGATCAAAGAAATTGTGAAAAATTGAATTTGGTGTGCGATCCTCAATGC
TCAGCGGATGGCTGTTGGGGTCCCGGGCCGGATCAATGTTTATCATGTGAAAATTATAAA
TTTGGAGAAACTTGTGTTCAAAATTGCTCCGTACTTCCTGGACTTTACAAAGGCGGACCA
AAAGTTTGCAGACAATGTCATGCTGAGTGTTTAGACGGGTGCTCTGGTCCAACAAGAGCA
AATTGTACTAAGTGCAAACACGTACGGGATGGACCCTACTGTTTCGCGGAGTGTCCAAAG
TCTAGATACACAACAGGAAACGGCACCTGCTTGCCATGCCATCAAAATTGTTTTAATGGA
TGCACTGGTCCTGAAAATATTGTTGGCGAAGGAGGATGTAATTCCTGTAAGAAGGCTATA
ATAAGTGTTGAAGCCACTGTTGCTAGTTGCCTTAAAGAAGATGAACCATGCCCTGAAGGG
TATTATAACGAATGGGTTGGCAATGTAAAACCTCTTGAAGGAAAAGTAAAAGTTGTTTGT
CGTAAATGTCATCCATTATGTTATAGATGTACTGGTTATGGCATACACGAGCAGGTATGT
CAAGTGTGCAACGGATTTAAGAGAGGTGACCAATGTGAACATGAATGTCCACCAGATCAT
TATACAGATAAAGCCAACCGTCTCTGCACACCATGTGATCCAGAATGTCGAGAATGTACA
GGGCTAACAGCAAAGGACTGTATAAAATGTAATAATCTTAAAGTATTTCTCGGAGATGAT
AATGCTAGCCCATTTAGCTGCACTGATAAATGCCCAAGCGAGAAACCACACAAAATATAT
TTTGACGAACTTCTTCAAAACCCTATAGATGAACCATACTGTTCGGCTTCGTCAAATGGT
CTTCCTAATATGGCTACTGCAAAAATCCCCACAGTCCTAGTTATAATATTCATTATAGCT
TTTATCCTTCTCATCATTCTTGCCATAATTGGTTATACATGCAGACAGAAAGCCAAAGCA
AAGAAAGAAGCCGTAAAAATGACTAGGGTACTCACTGGATGTGAAGATAATGAACCACTG
AGACCAACTAACGTCAAGCCGAACCTTGCAAAATTACGAATCGTAAAGGAAGCAGAGTTA
CGTCGAGGAGGAATGCTTGGTTTTGGTGCTTTTGGTAAAGTTTACAAAGGCGTTTGGGTA
CCAGAAGGAGAAAATGTGAAAATTCCAGTAGCCATAAAGGTTTTGAAAGAAGGAACAGGA
GCCAACACAAGTAAAGAATTTTTAGAAGAAGCTTATATTATGGCAAGCGTGGAACATCCC
AATTTATTACAATTGCTGGCAGTATGTATGACCAATCAAATGATGCTTATCACTCAATTG
ATGCCTCTTGGCTGTTTACTTGACTATGTTAGGACTCACAAAGAAAAAATTGGATCAAAA
GCATTTCTAAATTGGTGTACACAAATTGCTCGTGGTATGGCATATTTAGAAGAAAAAAGA
TTGGTTCATAGAGATTTGGCAGCTAGAAATGTTCTAGTGCAAACACCCAATTGTGTTAAA
ATTACCGATTTCGGACTTGCCAAATTACTTGATATCAATGAAGATGAATATAAAGCAGCA
GGCGGAAAAATGCCCATAAAATGGTTGGCTCTAGAGTGTGTTCAACACAGAATATTCACT
CACAAAAGCGATGTTTGGGCTTTTGGTGTTACTATATGGGAAATTCTCAGCTACGGAGCA
AGACCATATGCAAATATTTCAGCTAGAAATGTTCCTCAATTAATTGAAAATGGTTTAAAA
TTACCTCAACCAAGTATTTGTACATTGGATATTTATTGCATTATGGTCTCGTGCTGGATG
TTGGACGTCGACAGCCGACCAACGTTCAAGCAACTAGCTGAAACTTTCGCTGAAATGGCT
CTTGATCCTGGACGTTATCTTGTAATACCTGGAGACAAATTTATGCGACTGCCATCCTAT
TCACATCAGGATGAAAAGGAACTAATAAGGACTCTTTCTTCGGGAATGGAAGGACCTGAA
CCTCTAGTAGAAGCGGATGAGTATTTACAACCACAACTAAAGCCTTCAGTGCCCGGTACG
GCGACAACCAATTCTACTGCTACCGTGACTCTTGAAACAAACAGACACACTACAAAGCCC
TGTACTTCTTCCTCCTGGACTAATAACGCAACCGGACAAGAAAATGTTACTACGGACAAT
TCCAATAGGCAAGAATGGGATCAAGATGCGTTGCATTATAATAATTCTTCAAATGCAGAT
GGAACAGAACTTCGACACTATTATAATAATGGTGTTTGTGGGTCTGAAAATACCAGTTCC
CGTTACTGCAGTGACCCAATGAGAAGTCGACCTGACTGTGCCGAGACGAAGTTCGATAGT
ATGAGTAAAGTCAGAGAAGCACACGTAGGAAATCTGAAATTAAACTTGCCTCTTGATGAA
GACGATTACTTAATGCCATCCCCCCAACAAAATCAAACAACTTCTACCTATATGGATTTA
ATAGCTGAGGGAGCAGAAGGACAAGAAAACCAGGATTTACGTTACAGTGGTTTCCTTGCA
TCTAAGCGATGCATTGATAATCCGGAGTATTTGATGTCTGATCAGAACGTTCCTCAGCAA
ACCCTGGGAATACCCACAGAGCCAGTGGCGCCGGAGTCGCTCCCAAGTGAAACCAGTGAG
AGTGTCAATACGCCACAGCCAGGTCCTAGCCGATATGCACCGCAGCGGTCTGTAGAGGAA
GAGTCCATGTCGGACCACGAATACTACAATGACCTTCAACGCGAGCTGCAGCCGCTACGC
CGGAACGAAACAACCGTCTGA

Protein sequence:

MLAGRSYLWWLCVCACATVLDARRLHNDANARHKHSEFVKGKICIGTNGRMSVPSNRDTH
YRNLRDRFTNCTYVDGNLELTWLENETMDLSFLQHIREVTGYVLISYVKVAQIILPKLQI
IRGRTLFKLNVRVEEFSLLVTMSSALTLELPALRDVLRGSVGIYNNYNLCHVKTINWDEI
ITGVNATYVFVYTFNVPERECPPCHPSCEAGCWGEGIHNCQKFSKTNCSPQCEDGRCFGP
NPRDCCNTFCAGGCKGPLPSQCLACRNFYDEGTCSQECPPMQKYNPTTYSWEPNPNGKYA
YGATCVRNCPEHLLKDNGACVRSCPPNKTAVNGECIPCNVTCPKTCRAEKPIHSGNIDSF
KDCTIIDGSIEILEMTFTGFQHVNADYSFGDRYPKMEPDALEVFSTVREVTGYLNVQAHH
PNFTSLSYFRNLEVIGGRQVVENLFASLYIVKTSLKSLGLKSLKRVNSGAIAIMENRQLC
FADKIAWNKLGKSKDHKQIIQKNGDQRNCEKLNLVCDPQCSADGCWGPGPDQCLSCENYK
FGETCVQNCSVLPGLYKGGPKVCRQCHAECLDGCSGPTRANCTKCKHVRDGPYCFAECPK
SRYTTGNGTCLPCHQNCFNGCTGPENIVGEGGCNSCKKAIISVEATVASCLKEDEPCPEG
YYNEWVGNVKPLEGKVKVVCRKCHPLCYRCTGYGIHEQVCQVCNGFKRGDQCEHECPPDH
YTDKANRLCTPCDPECRECTGLTAKDCIKCNNLKVFLGDDNASPFSCTDKCPSEKPHKIY
FDELLQNPIDEPYCSASSNGLPNMATAKIPTVLVIIFIIAFILLIILAIIGYTCRQKAKA
KKEAVKMTRVLTGCEDNEPLRPTNVKPNLAKLRIVKEAELRRGGMLGFGAFGKVYKGVWV
PEGENVKIPVAIKVLKEGTGANTSKEFLEEAYIMASVEHPNLLQLLAVCMTNQMMLITQL
MPLGCLLDYVRTHKEKIGSKAFLNWCTQIARGMAYLEEKRLVHRDLAARNVLVQTPNCVK
ITDFGLAKLLDINEDEYKAAGGKMPIKWLALECVQHRIFTHKSDVWAFGVTIWEILSYGA
RPYANISARNVPQLIENGLKLPQPSICTLDIYCIMVSCWMLDVDSRPTFKQLAETFAEMA
LDPGRYLVIPGDKFMRLPSYSHQDEKELIRTLSSGMEGPEPLVEADEYLQPQLKPSVPGT
ATTNSTATVTLETNRHTTKPCTSSSWTNNATGQENVTTDNSNRQEWDQDALHYNNSSNAD
GTELRHYYNNGVCGSENTSSRYCSDPMRSRPDCAETKFDSMSKVREAHVGNLKLNLPLDE
DDYLMPSPQQNQTTSTYMDLIAEGAEGQENQDLRYSGFLASKRCIDNPEYLMSDQNVPQQ
TLGIPTEPVAPESLPSETSESVNTPQPGPSRYAPQRSVEEESMSDHEYYNDLQRELQPLR
RNETTV