Monarch geneset OGS2.0

DPOGS207018
TranscriptDPOGS207018-TA6198 bp
ProteinDPOGS207018-PA2065 aa
Genomic positionDPSCF300001 + 1355206-1372479
RNAseq coverage465x (Rank: top 27%)
Annotation
HeliconiusHMEL0106250.090.77% 
BombyxBGIBMGA012828-TA0.090.33% 
DrosophilaCG10260-PC0.055.21% 
EBI UniRef50UniRef50_D2A3W30.062.28%Putative uncharacterized protein GLEAN_14935 n=4 Tax=Tribolium castaneum RepID=D2A3W3_TRICA
NCBI RefSeqXP_002432992.10.064.34%Phosphatidylinositol 4-kinase alpha, putative [Pediculus humanus corporis]
NCBI nr blastpgi|2420251560.064.34%Phosphatidylinositol 4-kinase alpha, putative [Pediculus humanus corporis]
NCBI nr blastxgi|2420251560.064.24%Phosphatidylinositol 4-kinase alpha, putative [Pediculus humanus corporis]
Group
Gene OntologyGO:00480156.4e-270phosphatidylinositol-mediated signaling
GO:00044286.4e-270inositol or phosphatidylinositol kinase activity
GO:00468546.4e-270phosphatidylinositol phosphorylation
GO:00167738.2e-105phosphotransferase activity, alcohol group as acceptor
GO:00167721.6e-88transferase activity, transferring phosphorus-containing groups
GO:00054881.5e-36binding
KEGG pathwayphu:Phum_PHUM6079500.0 
 K00888 (PI4K)maps-> Phosphatidylinositol signaling system
    Inositol phosphate metabolism
InterPro domain[1-2065] IPR0154336.4e-270Phosphatidylinositol Kinase
[1809-2062] IPR0004038.2e-105Phosphatidylinositol 3-/4-kinase, catalytic
[1673-2064] IPR0110091.6e-88Protein kinase-like domain
[1487-1677] IPR0160241.5e-36Armadillo-type fold
[1546-1676] IPR0012632.8e-21Phosphoinositide 3-kinase, accessory (PIK) domain
Orthology groupMCL12561 Single-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS207018-TA
ATGTCAGAAAAATTTAGCTTCTGCCTTAACACTCTCCTTTCGGACGTCGTCACGAAGCAACCCGCATTGCGAGAAGAGATAATTACAGCTCAGATAGAACTCATGTCAAATCTCACTAAGATCATAACGAATTTTCACGAAAGTAAAGATTACAATGCAGTCTCTAAACTTCAGCTGTGCAAAAGTACTGTACCAATCTTTATTGGGCTAGCCAGGTCTATGGGTCGATACGCTACAGTAGAATCACCACTGCTATGTCGATTGTTCCCGCAGCCAAGCAGTCCTGTAAAAACAAAGGAACCCGAACCGAACTTTGAGTATTCAACTCTGGATAAGAAGAGGAGGTTCAATCAGTTCCGCCCAATCATTCCAAGGTCTCTATCGGGAAATCTGAATCCCAATAATGAGGTTATAGTAGAAAATGGTAGTGATGCTGTAGATAGCGCTGGTGGGACATTAAAAAGACGATCCTTGCATAGTTACAGCTCGGTCCCATATGATCCGACGACGTATTTCTTCCATAAATTCGGATCTAGTTACAATCAGTTTGCGTACATGAGAACCTCGGAGTCGCCGGAGAAGAGGCAAAACGTACAGTTCTACGTGACGTACCTACAGTCGATTTTGTCGTTGGCGAAAAAGCTATTGACCAAAGATCTTCTAGCGTTCTTGGATGAGGAGGCAGAGGATATTTTCGCTTCCGGGCAGATACAGATTTTCCCATACAAGTCATTTTCTGAGACATTAAATTTAGTAATGGTCACTTTGCTGCGGGATATTTTACAACATCAAAAGGATTTGCCTGGACCGTTTACAAAGGACGTACAAGAATTCGTGAAATGTCTGTTCTTGAGCGGACAGACCGAGCTTCAAAGCCGACATCATGACGCTTCCGAGAAAGAGGACCGGGAGAGTAACTTCGCTACCGTCAATAAGTTTAAAGTTAATGTGATGGCAAATTCAGCATGTGTGGACCTTCTAGTATGGGCCATTGGTGACGAAACTGTGGACGAAGACTATGACGTGCCAGCTCTTATAAACGCTCTAACAATATTGATAGGTGCTGATTCGCTCTGCGGACGTTTGACCGAAAAGATAAATTCAAATCATAACCACAAATTAATATTGGCTCACATGCCGCTGCTGATGGTCTGTCTTGAGGGTTTGGGTAAGTTAGCGACGAAATTTCCGACAATAGCGAACACTTCGATATATTGCTTGAGAGACTTCCTGGTTACACCCTCACCTATACTATTCAAGTTGCATAAGTTGGAACTGGAGAAAACTGGCAAGGAGCACATGAAAGTATCACTACAAGGTAAGGAGCATCAAGGTCTGACTGAGACGGGTCTTCCAGTGAAGTCCACGCCCTTCGAGAAGCTTCGAGATGCTGCTATAGAGAATTTGTGCGTCGCTCTAGAGGCAGCGCTTACAGTGGACCCTTTCTGTGTACCAGCTCTTGTTGGATCAGTCAGTAACAGATTATTCACAGCTGAAACTAGCGACAGCGAATCGTCACTCATCAGCACAAATATAGTGATTATGTTGGGGCATGTCGCCGTGGCTTTAAGAGATACGCCAAAGACGACAGATACAATTCTACAGTTCTTCCAGCAGAGGTTATGCAGAGCTCCGTCATCATTGGACACCCTCATAGTGGATCAATTGGGTTGTATGGCGCTGGCCAGTCCGGAAGGTCCGGCTCATGATGAGATTATGAGAATGTTTACCGTCATCACCGTTGAAGCCGCTAGCGCTTCATATCAACACACAGATGATAGGAAGCAGTATCGGCATGTATCCGGGGCGGTGTTAAACGCTTTAGCGAATATAGCCGCTAATGTAAGGGGGACTGGGGCTCGGCTAGAGCTGCTGACCAGGTTGTTGGAGCTGTTCGTCCAGCTCGGGCTTGGAGGAGAGAGGGCCACTGACAGGTCACCAGCACCGGTTCTGAAGGCTTCCGGCAGCGCTGGCAATTTGGGCGTCCTCATACCCGTTATAGCGGTACTTGTAAAGAGATTGCCACCAATAAAGAATCCAAAACCTAGGCTGCACAAGCTGTTTAAGGACTTTTGGTTGTACTGCGTTGTTATGGGATTCACAGCTGCGGAATCAGGACTCTGGCCCCAGGAATGGTATGCGGGTGTGAAAGAGATAGCAGTAAAATCACCTTTTCTTGTCTCGCAAACGTCTTTACGTTCGGAAATGCGGGAATTGCAATACACATCAGCTGTGAGAAACGACTCTGTTTCAATGAACGAATTGCAAGAACTGAAGACACAGATATTAAATCTGTTGGACCACCAGCCTGATGTCACTGTTATAGTCAATAAGCTCTCCTTTGCTCCCTGCATGTACTTGCTAAGTGTGTATTGGTTGGAAACCCTGAGAGTAACTAATTCCCCTGAGCCAAGTTTGCAACCGATAATTGAATATCTAAGCGATTCAGCCCTACAGAAAGATAAAAGTATGATGTGGCAATGTGTTGCCAGCGTCGGCGACAAAGTCTTTCAGAAGTTTCTAGACGTTATGTCTACAAAAGTGAAGGATGATTCCCGTGAAAGGGAGCTGGAAAGCCACGCCCAATTCCTATTGGTTAATTTCAATCACATCCACAAACAGATCAGGCGGGTTGCTGATAAATGGCTCGCCGGTTTGGTTGACAGGTTTCCACATCTGTTGTGGAATTGTCGGGTGCTATGGTCCATGTTAGACATTCTCCAAGTGCTGAGCTTTAGTTTGGAACTCGACGCTAATCAAGAAACGCCGCTATTAAAAGTACCGGGGACGGATTTCGCACTGCAATTGCAAGATACATTAGAAGGACGCGAGGGAATAGTTAAGGATTTCGCCGACAGATGTCACGGCATCGTTCAAGAGGCCATGAAGTGGGCGCCGCAGTCTACCAGATCACACTTGCAGGAATATCTCAATCAGGTCCCAAACTCTACATTATGGCACCACTGCGGTCTGGCCCTGGCTACGGGGGCATTGCTAGGGGCTCCCGGTCTAAACCGGATGTCCGCTCCTCTACCGAGATCCGCACTCGACAAACGTCCGCCCTGCGTCACCCAGGACTCCGCCGCACTACTGGCTGTGGTTTCTCAGAGGAGCAGATATGCTGGAGAGGTCGCAGGTGCTGTGATTGCGGAGGGCGGTGGAGAAGCAGCTGTTTGGCGTGTTGGAGCTAAGCTTCACGGAGCGCTGAGAGAGGCTTGCAGTAGTGGTAGCGAAACCGCTCACCGTGCAGCGCTGTGGCGGTGTGCAGCGCTTCTAGTGCACGCAAGGAACACTTCTACCAGCTCAACGCCCACCGCTAGGATCCTATCCAGCGGCTCGTCGCCCACGGCTAGGACGACCTCCACGGGTTCCTCACCCACCACAAGAACCACTTCCTCTGGATCTTCACCCACCGCCAGATCCAACTCCACCGGGTCTTCGCCTACCGCTAGGATGCTCCTACATAGCATTGCTTGGTCCCAAGTGGATATCTTCACTGAGGACGCTGTGACCACGGCTGTGGAGTGCTGGCAGTGGCTGAACACTTCCCGGCCGGACCTGGAGCTCAGACTGCTGCAAGAGGTGCTGGCAGCATGGCAGTGTACCGTTGATAGGAAGATGGGCCTGTTCTCGAAACAAAACGACGAAATCAGCCCTCTAGCGGCCTTTGAAGGTGCCAAGCTGAAACCCCGTCCGCCATTCATAGCTCCCCACGTGGTGTGGGTGAGGTATCTGTGTGAAGTAGCCGAGACAGCAAAGTACAACAGCCAAGAGAAGGTCGAGATGTTAGCCAGCTTGCTTCATAGATCATTGCCTATAACAGTTGGCGATATAAGGGACCATATTAATAGACATGTCGACGCAGCCGGAGTCAGATTCAGGCTCCTATCGTGTGGACTGTCGCTCCTCCAGGGAGACATCCTGCCTCGTTCGTTGGCTCGCAACATCCTCCGTGAGCGCGTCTACAGTGTTTGCTTGGACTATTTCTGTAGAGGGTTGCAGTGCCCGTCGAAAAGCGCCGGTGCTCTAAGAGAGGACATCATATCTCTCATCAAATTCTGGCAGCTGATGCACTCGGATAAGAAATATTTGAAGAGCAGTGACATCGGCGCCGACTTCGAAGTGATGGGTCCTAGCAGTCAACAGAGCATCTACACATCCAACTCACCGACAGACAACAGATCGTCCGTCAACAGTAGCGACATCGGCAACAGACAGACAACCGGTTGGATAAATACGGTGCCGATGTCAACGACAACCATCAGTAGCGGGGCTGGGAGTATTGCTGGTAAGAGATCCAACAGAAGCGTAAAACCACCAAAAAATCAAGACCCGTTCGTTAAGGATTACGTCCGGAAACGAAATCTCATCTTAGAGCTCATGGCCGTGGAAATTGAGTTCCTAGTGACGTGGCACAATCCTCACGGCAGACCGGAGCAGGCGATACCAGGTGAAGACAATATAGCAACGTGGCGATCAAAACCAAACGCTGACAAAATATGGAGGGATTACGCAAAGCTAGCCTGGGATATAAGTCCCACGTTGGCTGTATTCTTACCTGAGAGATTGAAAAACGATGGTATCGTTGCTGAGATTAAGCGTAAAGTGCAATTAAATCCAACAGCTGTATGTCACGTGCCACAGGCTCTGAAGTATCTGGTTACTACGGAGACACTACTCAATGACGCACATGAATTGGTGCATATGGTGACGTGGGCGCGCGTGTCTCCGGTGGAGGCGTTGTCGTACTTCAGCCGTCAGTATCCGCCGCATCCTCTATCGGCGCAAACGGCTGTCGCGACGCTCACATCCTACCCTCCGTCCGCCGTCCTGCTGTATATCCCGCAGCTGGTGCAGGCGCTCAGACATGACACGATGGGCTACGTGGCGGAACTGATAAAATCTCTCGCCAAGAACTCTCAAGTTGTAGCCCACCAGCTCATCTGGAACATGCACACCAACATGTACACCGATGAAGAAATGCATAATAAAGACACAGCGTTATTCGACATCCTTGAGAATCTAACCAAGTGCATAGTGGACACACTGTCTGGACCAGCCAAGGCTTTCTACGAGCGTGAGTTTGATTTCTTCGGACAGATCACAAACATCAGCGGCATCATAAGACCCTACCCAAAGGGAGCTGAGAGGAAAAGAGCCTGTTTGGAGGCATTGAAGAATGTGAAGGTCCAACCCGGTTGCTATCTGCCTTCGAACCCCGATTCCATGGTGTTGGACATTGACTACAAAAGTGGAACGCCTATGCAAAGTGCAGCTAAGGCCCCATACCTAGCTCGTTTCCGTGTACGCAAATACGGAATCTCCGAGATGGAAGCCGTCGCCATGGCCATAGCTTCCGGGGAGGAACTTCCGGCTGAGGAGGGCAAGGATAGATATACTTCGATAGCAGCGGAGACGTGGCAGGCGGCTATATTCAAAGTAGGAGATGACGTCAGACAGGATATGCTGGCATTGCAAGTGATATCGCTCTTCAAGAACGTGTTCCAACAAGTCGGCCTCGATCTATATCTGTTCCCTTACAAAGTTGTCGCTACAGCACCAGGGTGCGGTGTGATAGAATGTGTCCCAAACGCCAAGTCACGTGATCAGCTCGGAAGGCAGACGGACATAGGAATGTATGAGTACTTCATAAAGAAGTATGGGGATGAAACAACCAGAGAGTTTCAGGCTGCTAGAAGATGTTTCGTGACATCAATGGCCGCTTACAGCGTCATCGGCTTCTTGTTGCAAATAAAAGACAGGCACAACGGAAACATTATGTTGGATACAGACGGACATATTATACATATAGATTTCGGCTTCATGTTCGAATCATCCCCGGGTGGTAACCTCGGTTTTGAACCGGATATTAAGTTAACGGATGAGATGGTGATGGTGATGGGTGGTAAAATGGAGGCGCCGCCCTTCAGGTGGTTCTGTGAACTGTGCGTGCAAGCCTTCCTAGCTGTCAGGCCCTATCAAGAAGCGATAATATCTATAGTATCGCTGATGCTGGACACTGGCCTGCCGTGTTTTAGAGGGCAGACAATTCGACAATTGAGATCAAGATTTGCTCCTAACTCAACTGAGAAGGAAGCCGCTGCTTACATGCTATCCATAATAAGGAACTCCTTCCTCAACTTCAGAACCAGGACCTATGATATGATACAGTATTATCAGAACCAGATACCATATTAG

Protein sequence:

>DPOGS207018-PA
MSEKFSFCLNTLLSDVVTKQPALREEIITAQIELMSNLTKIITNFHESKDYNAVSKLQLCKSTVPIFIGLARSMGRYATVESPLLCRLFPQPSSPVKTKEPEPNFEYSTLDKKRRFNQFRPIIPRSLSGNLNPNNEVIVENGSDAVDSAGGTLKRRSLHSYSSVPYDPTTYFFHKFGSSYNQFAYMRTSESPEKRQNVQFYVTYLQSILSLAKKLLTKDLLAFLDEEAEDIFASGQIQIFPYKSFSETLNLVMVTLLRDILQHQKDLPGPFTKDVQEFVKCLFLSGQTELQSRHHDASEKEDRESNFATVNKFKVNVMANSACVDLLVWAIGDETVDEDYDVPALINALTILIGADSLCGRLTEKINSNHNHKLILAHMPLLMVCLEGLGKLATKFPTIANTSIYCLRDFLVTPSPILFKLHKLELEKTGKEHMKVSLQGKEHQGLTETGLPVKSTPFEKLRDAAIENLCVALEAALTVDPFCVPALVGSVSNRLFTAETSDSESSLISTNIVIMLGHVAVALRDTPKTTDTILQFFQQRLCRAPSSLDTLIVDQLGCMALASPEGPAHDEIMRMFTVITVEAASASYQHTDDRKQYRHVSGAVLNALANIAANVRGTGARLELLTRLLELFVQLGLGGERATDRSPAPVLKASGSAGNLGVLIPVIAVLVKRLPPIKNPKPRLHKLFKDFWLYCVVMGFTAAESGLWPQEWYAGVKEIAVKSPFLVSQTSLRSEMRELQYTSAVRNDSVSMNELQELKTQILNLLDHQPDVTVIVNKLSFAPCMYLLSVYWLETLRVTNSPEPSLQPIIEYLSDSALQKDKSMMWQCVASVGDKVFQKFLDVMSTKVKDDSRERELESHAQFLLVNFNHIHKQIRRVADKWLAGLVDRFPHLLWNCRVLWSMLDILQVLSFSLELDANQETPLLKVPGTDFALQLQDTLEGREGIVKDFADRCHGIVQEAMKWAPQSTRSHLQEYLNQVPNSTLWHHCGLALATGALLGAPGLNRMSAPLPRSALDKRPPCVTQDSAALLAVVSQRSRYAGEVAGAVIAEGGGEAAVWRVGAKLHGALREACSSGSETAHRAALWRCAALLVHARNTSTSSTPTARILSSGSSPTARTTSTGSSPTTRTTSSGSSPTARSNSTGSSPTARMLLHSIAWSQVDIFTEDAVTTAVECWQWLNTSRPDLELRLLQEVLAAWQCTVDRKMGLFSKQNDEISPLAAFEGAKLKPRPPFIAPHVVWVRYLCEVAETAKYNSQEKVEMLASLLHRSLPITVGDIRDHINRHVDAAGVRFRLLSCGLSLLQGDILPRSLARNILRERVYSVCLDYFCRGLQCPSKSAGALREDIISLIKFWQLMHSDKKYLKSSDIGADFEVMGPSSQQSIYTSNSPTDNRSSVNSSDIGNRQTTGWINTVPMSTTTISSGAGSIAGKRSNRSVKPPKNQDPFVKDYVRKRNLILELMAVEIEFLVTWHNPHGRPEQAIPGEDNIATWRSKPNADKIWRDYAKLAWDISPTLAVFLPERLKNDGIVAEIKRKVQLNPTAVCHVPQALKYLVTTETLLNDAHELVHMVTWARVSPVEALSYFSRQYPPHPLSAQTAVATLTSYPPSAVLLYIPQLVQALRHDTMGYVAELIKSLAKNSQVVAHQLIWNMHTNMYTDEEMHNKDTALFDILENLTKCIVDTLSGPAKAFYEREFDFFGQITNISGIIRPYPKGAERKRACLEALKNVKVQPGCYLPSNPDSMVLDIDYKSGTPMQSAAKAPYLARFRVRKYGISEMEAVAMAIASGEELPAEEGKDRYTSIAAETWQAAIFKVGDDVRQDMLALQVISLFKNVFQQVGLDLYLFPYKVVATAPGCGVIECVPNAKSRDQLGRQTDIGMYEYFIKKYGDETTREFQAARRCFVTSMAAYSVIGFLLQIKDRHNGNIMLDTDGHIIHIDFGFMFESSPGGNLGFEPDIKLTDEMVMVMGGKMEAPPFRWFCELCVQAFLAVRPYQEAIISIVSLMLDTGLPCFRGQTIRQLRSRFAPNSTEKEAAAYMLSIIRNSFLNFRTRTYDMIQYYQNQIPY-