New model in OGS2.0 | DPOGS202575  |
---|---|
Genomic Position | scaffold523:+ 35492-47961 |
See gene structure | |
CDS Length | 4083 |
Paired RNAseq reads   | 1855 |
Single RNAseq reads   | 4234 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA004279 (0.0) |
Best Drosophila hit   | immune response deficient 1, isoform A (0.0) |
Best Human hit | phosphoinositide 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 group | MCL13559 |
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