DPGLEAN20085 in OGS1.0

New model in OGS2.0DPOGS202575 
Genomic Positionscaffold523:+ 35492-47961
See gene structure
CDS Length4083
Paired RNAseq reads  1855
Single RNAseq reads  4234
Migratory profilesQuery via corresponding ESTs
Best Bmobyx hitBGIBMGA004279 (0.0)
Best Drosophila hit  immune response deficient 1, isoform A (0.0)
Best Human hitphosphoinositide 3-kinase regulatory subunit 4 (0.0)
Best NR hit (blastp)  PREDICTED: similar to conserved hypothetical protein [Nasonia vitripennis] (0.0)
Best NR hit (blastx)  PREDICTED: similar to phosphoinositide-3-kinase, regulatory subunit 4, p150 [Apis mellifera] (0.0)
GeneOntology terms





  
GO:0006963 positive regulation of antibacterial peptide biosynthetic process
GO:0004674 protein serine/threonine kinase activity
GO:0006468 protein amino acid phosphorylation
GO:0005524 ATP binding
GO:0002784 regulation of antimicrobial peptide production
GO:0034198 cellular response to amino acid starvation
GO:0016236 macroautophagy
InterPro families













  
IPR008271 Serine/threonine-protein kinase, active site
IPR019775 WD40 repeat, conserved site
IPR002290 Serine/threonine-protein kinase domain
IPR001680 WD40 repeat
IPR011989 Armadillo-like helical
IPR015943 WD40/YVTN repeat-like-containing domain
IPR000719 Protein kinase, catalytic domain
IPR019782 WD40 repeat 2
IPR017986 WD40-repeat-containing domain
IPR011046 WD40 repeat-like-containing domain
IPR011009 Protein kinase-like domain
IPR016024 Armadillo-type fold
IPR020472 G-protein beta WD-40 repeat
IPR017442 Serine/threonine-protein kinase-like domain
IPR019781 WD40 repeat, subgroup
Orthology groupMCL13559

Nucleotide sequence:

ATGGGAAACCAGCTCGTGGGTGTCGCTCCTTCTCAAATATTCCCCGTGGAACACTACCTG
AGCGACCATGTAGACTTGACTTTTGATCAGAGCCTTGGCTCAACGAGGTTCTTCAAAGTA
GCCCGAGCTCGTACCCGTGAAGGTCTGGTTGTGGTGAAGGTTTTTGCTGTGCATGATCCG
TCCCTACCTCTTGCAGAACACAAAGAACGAATTCTGAAAATCAAAGAGCAACTGGCTTCG
GCATTCAATTGTCTGCCATTTCAGAGAGTTATACTTACCGATAAGGCTGGACTACTTATT
AGGGAGTACCTTAAGTGTAGCGTCTACGACCGGATGTCAACGCGACCTTTTCTCACGGTG
TTGGAAAAGAAGTGGATAACATTCCAAGTACTATATGCTTTGCACAGGATGCACAAGCTT
GGAATATGTCATGGTGACATTAAGCTAGAAAATATAATGGTTACATCATGGCTTTGGGTC
CTTCTGACGGATATAGCTTCCTTCAAACCAACCTTCCTACCAGATGACAACCCAGCTGAT
TTTAGCTACTTCTTTGACACTTCCAGAAGAAGATTATGTTATGTCGCCCCGGAGAGATTT
GTGGGGGCCCCAGATCCTAACGCCAGGCCTCCAAGCGATGATAGGAATGCTGGTCTGTTG
CTAAGCGAGTCTCCTTGTAAAATTGGCGAACTAGTTCCCAGTATGGACATATTCTCGGCG
GGATGCGCTCTACTAGAACTATGGAACGATGGCACCCCAGCGTTGGACCTGCCGGGGTTG
TTGTCCTACCGTAACGGGGAGCCGAGACCCCCTACTATGACGCTGCCGGACACGTGCGAG
CCCCAACTACGAGATCTGCTGCACTCCATGACTGAAAGAAACCCCAAAGATAGACGCAGC
GCCGAGATTTATCTGGACGAGGCGAGGGGCACTTTGTTCCCCGAATACTTCTACTCGTTC
CTACAATCCTACATGCTGATATTCTCCGCCCAGCCGATACTGCCCGCCGACGAGAAGATA
ACCCGCATCCATCAGGACATAAAGAACATCATCAGGATCTTCACACAGACTTCCAACACC
AAGAACTACCAGGACCTGGTCGATGAGACCACCGACAACCAGAAGGTTGAAATTGACGCT
CTGATTAAGGAAGGGTTCAGGGTTATGAAGGTCAATGTGACGGACTGCGAGGAGGAAGGG
GAGAAGACTCAGGAGGACCGGCAGCTGGGGCCCGACAGCGAAGGGCTGATATTGATTACG
TCATTGGTGACGTCATGCATTCGTGGCCTGCACCATTGCACGTCGAAGCTCTACTGCCTG
GAGATCCTGCAACTGCTCTGCGAGAACTCCACCTCGGAAGTCATATTGGACAGGATATTG
CCTTTCATTATATACTTGTCCCACGCGCCCGAGGCCCGCGTCCGAGCGGCGTCCATCTGG
TGCGTGTCTCGCTGCGTGTCGTGTGTCCGCGTGCTGCCGTCTTCTGACTGCAACGTGTTC
CCGGAGTACATCCTGCCGGAGCTGGCGCCCCGAGCTTCAGACCCCGCGCTGCCGGTCCGC
ATCGCCTACGCCAATAATATTGCCAAACTAGCTGAGACCGCTGTGAGGTTTCTGGATCAA
ACTCAGAACATGGCGGACAAGGAGGCCGCCAACATCAACTATGAGACGGAACTGTCGGCT
CTGCACGAGATGGTGCGGTCGACTGTGTCGTACTTACTGACTGACTCCCAAGCGGTGGTC
AAACGGGCGCTCGTCGAGAACGGCATCACGAAATTATGCGTTTTCTTTGGAAAACAAAAA
GCTAATGACGTCATCCTGTCTCACATGGTGACATTCCTTAACGATAAGGAGGAGGTGTCA
CTGCGGGGCTGTTTCTTTGAGCGCGTGGTCGGGGTGGCCGCGTACGTCGGGCACCATGCT
GCTAACATACTACTGCCGCTGCTGCAACAGGGTCTCACGGATCAGTCTGAATGGATAATA
GCGAAGGCGCTCCGCGCGACCACGAGTCTGGCGGAACTGTGGCTCCTGCCAAAGCAGTCT
CTGTGTGATTTAGTAGCAGAAAGCTCCGTCTACCTCGCGCACCCTAACCTGTGGATCCGT
CACGAGGTATGCGGCTTGGTGTCGTGTGTTGCCAGTCTCCTGAACCCGATAGATGTCAAT
TGTAAGATATTGCCGTTGGTGTGGCCACATCTCAAACATAAGTTGATGCAGGAGAATTCG
CAGGTGGATAAAGCCGAGCTGCTGCTAGAGAGTGTGGCCGAGCCCATACCGCGGAAGGTA
CTGGACGCGGTGCTGAGGCACGGAGACGTGGACCGGCTGGTGGTCACCCTGAGGGAGAGG
CGAGCCACCAGGATGAAGGTGAAGCAGGGCGTGATGCCGCAGTACTCGGAGATGGGACAG
CAGCTGAAGAACTTGTTTAGACGACTGGCGTCGGACGGAATGACGGAACACGTTGAGAAC
CAGCTGCTGGCGATGAGCACGCACCTCATCAAGATACAGTGTTCATCCACACAGCACATA
ACCGACGCGCCGGGGAAGCTGGTGTTGGCTGGGAAGGATATATCGAAATCAGTGCAGTTG
GAGGTGGGAGGACAGGACGTGGTCGAGAAAATGTATGTACAGAGACGGACACACAAGACG
TCTCTCAACCACGAGACACACATGAATACGGAGTGGCAACACATGTTCGGACAGACGACG
GAACAGAGCACTGTGAAAGTGTCCGAGAGCCAGGCGGTGTCGAGCGTGTCCGGGGCGGTG
TCGACCAGTGTCCCGCCCTCACACACACACTCGCAGCTCGCACACAGCGCCACGTATGTG
CAATATAGCATGGCCCCCTGCCGGATAGAGCTGAGGAACCTTATAACCAGGATGCAGCAG
AAGTACAACAAGTCTCTGAGAAGCCACGAGGATCCAGTAGAGTCAGGCGAAGACCTGGCG
CCTCCCTCCACCTGGAGACCTGGCAACACACTGCTGGCGTACCTTCATGAACACAGATCG
CGTGTGAACCAGCTGGTGCGTCTGCCGGCTCACCGGTCGATGTTCGCCTCGTGCTCAGAC
GACGGCACCGTGAGGCTGTGGGACGCCACCCGCCTGCAGGGACACGCATACGTTAACAAG
TCCAAATGCGTGTACAACCGCGGTGCTGGAGCCGTGGTGTCCCTGACGGCCTGCGAGGCC
GGACACTCCCTGGCCGCCGCCACCACGGACGGATCGGTGTTCGTGTTGCGCCTAGACGCG
GGCTCCCGTCTCTGCCTGTCTCAGTGCCGTCAGCTGGAGGGCGGGTCGGAGGGCGCGTGT
GTGGCGGTGTCGGCCGCGGGCGGGGTCCTAGCGGGGGTCATCTCGTACGCCACTCTGGGG
GCTTGTGTCGTCGGCTGGGACCTCAGAGCCCCCGGTAACGCGTGGAAGCTGCAGGGAGAT
CTCAAGCAGGGCGTGTACACATGCCTGTACGCTAACAGCTCCGGTTACATTGCCGTGGGC
ACCTCCAGCGGGGCGGTGTGTGTCTGGGACCTGAGGTTCAGTCTGCCGATCACGTCCGTC
AAGCATCCGAACTCTGAGCGTATCCGTCGTATCGTGGGCAGCGGTGGTCGCCGTGTGTGG
GCGGTGGGCGGGCGGGACGCGGCCTCGTGGTGCCTGGAGTCCACTCAGAGGACCCACGCG
CTGTGGCCCTTCACCGCCTCCCAGCAACCGCTGAACTACGAACATGCGTCGTCCCACTAC
ATATCGAGCGCGTACTGCGGCACCCGCGACGGGAGCCGGTTCGTGGTGACCGGCGGCTCC
GACCAGAGGCTGAGGCTGTGGGACCTGCAGCACGCCGAGGACTCGCACGTGCTGCTGCAC
GCTCACAACGAGCACATGGACGCCGTCAAGTACAGGAGTCGTATCATAGACGGGACGACT
GTGATACAAGAAATTTGGAAACCGAATCCGACCTCGACGACCCACGAAGACAATGTGTAC
CGAACAGTCGAGTCACGGAGCTTCTATCACACCGCACCGATAACGGACATCACGCTCGTG
GAGGGGAGCAGATGCTACCTCGTCAGTTCGTCCGCCGACGGTGTCATTAACGTCTGGAAA
TGA

Protein sequence:

MGNQLVGVAPSQIFPVEHYLSDHVDLTFDQSLGSTRFFKVARARTREGLVVVKVFAVHDP
SLPLAEHKERILKIKEQLASAFNCLPFQRVILTDKAGLLIREYLKCSVYDRMSTRPFLTV
LEKKWITFQVLYALHRMHKLGICHGDIKLENIMVTSWLWVLLTDIASFKPTFLPDDNPAD
FSYFFDTSRRRLCYVAPERFVGAPDPNARPPSDDRNAGLLLSESPCKIGELVPSMDIFSA
GCALLELWNDGTPALDLPGLLSYRNGEPRPPTMTLPDTCEPQLRDLLHSMTERNPKDRRS
AEIYLDEARGTLFPEYFYSFLQSYMLIFSAQPILPADEKITRIHQDIKNIIRIFTQTSNT
KNYQDLVDETTDNQKVEIDALIKEGFRVMKVNVTDCEEEGEKTQEDRQLGPDSEGLILIT
SLVTSCIRGLHHCTSKLYCLEILQLLCENSTSEVILDRILPFIIYLSHAPEARVRAASIW
CVSRCVSCVRVLPSSDCNVFPEYILPELAPRASDPALPVRIAYANNIAKLAETAVRFLDQ
TQNMADKEAANINYETELSALHEMVRSTVSYLLTDSQAVVKRALVENGITKLCVFFGKQK
ANDVILSHMVTFLNDKEEVSLRGCFFERVVGVAAYVGHHAANILLPLLQQGLTDQSEWII
AKALRATTSLAELWLLPKQSLCDLVAESSVYLAHPNLWIRHEVCGLVSCVASLLNPIDVN
CKILPLVWPHLKHKLMQENSQVDKAELLLESVAEPIPRKVLDAVLRHGDVDRLVVTLRER
RATRMKVKQGVMPQYSEMGQQLKNLFRRLASDGMTEHVENQLLAMSTHLIKIQCSSTQHI
TDAPGKLVLAGKDISKSVQLEVGGQDVVEKMYVQRRTHKTSLNHETHMNTEWQHMFGQTT
EQSTVKVSESQAVSSVSGAVSTSVPPSHTHSQLAHSATYVQYSMAPCRIELRNLITRMQQ
KYNKSLRSHEDPVESGEDLAPPSTWRPGNTLLAYLHEHRSRVNQLVRLPAHRSMFASCSD
DGTVRLWDATRLQGHAYVNKSKCVYNRGAGAVVSLTACEAGHSLAAATTDGSVFVLRLDA
GSRLCLSQCRQLEGGSEGACVAVSAAGGVLAGVISYATLGACVVGWDLRAPGNAWKLQGD
LKQGVYTCLYANSSGYIAVGTSSGAVCVWDLRFSLPITSVKHPNSERIRRIVGSGGRRVW
AVGGRDAASWCLESTQRTHALWPFTASQQPLNYEHASSHYISSAYCGTRDGSRFVVTGGS
DQRLRLWDLQHAEDSHVLLHAHNEHMDAVKYRSRIIDGTTVIQEIWKPNPTSTTHEDNVY
RTVESRSFYHTAPITDITLVEGSRCYLVSSSADGVINVWK