Monarch geneset OGS2.0

DPOGS201865
TranscriptDPOGS201865-TA2565 bp
ProteinDPOGS201865-PA854 aa
Genomic positionDPSCF300191 + 97957-100521
RNAseq coverage136x (Rank: top 55%)
Annotation
HeliconiusHMEL0069860.088.88% 
BombyxBGIBMGA006041-TA0.086.01% 
DrosophilaCG3573-PA7e-12834.79% 
EBI UniRef50UniRef50_E0VI580.053.29%Type II inositol-1,4,5-trisphosphate 5-phosphatase, putative n=9 Tax=Neoptera RepID=E0VI58_PEDHC
NCBI RefSeqXP_001942987.10.054.10%PREDICTED: similar to inositol polyphosphate-5-phosphatase, 75kDa [Acyrthosiphon pisum]
NCBI nr blastpgi|3287121310.054.04%PREDICTED: type II inositol-1,4,5-trisphosphate 5-phosphatase [Acyrthosiphon pisum]
NCBI nr blastxgi|3287121310.054.05%PREDICTED: type II inositol-1,4,5-trisphosphate 5-phosphatase [Acyrthosiphon pisum]
Group
Gene OntologyGO:00044377.2e-117inositol or phosphatidylinositol phosphatase activity
GO:00071651.3e-27signal transduction
GO:00056221.3e-27intracellular
KEGG pathwayapi:1001599190.0 
 K01099 (E3.1.3.36)maps-> Phosphatidylinositol signaling system
    Inositol phosphate metabolism
InterPro domain[196-495] IPR0003007.2e-117Inositol polyphosphate-related phosphatase
[175-526] IPR0051355.3e-72Endonuclease/exonuclease/phosphatase
[634-852] IPR0089361.3e-27Rho GTPase activation protein
[626-849] IPR0001981.8e-25Rho GTPase-activating protein domain
Orthology groupMCL11391 Multiple-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS201865-TA
ATGAATCACGAAGAGATAAAAGCCGTAGTTCAGGAAAAGTTTCTATCAAGTGAAAAAGTAACGGCATTTTTGTGCGACGCCAAAGTTCTCCACCCGGACTGGGTCAAGAAGGAAAGGCTCTTAGCAATTGTGGAGTACGGAGATGAGAAAGCCGTATTTTGTTTATTTACGTCATGTTACCCTCCAAAATCATTCACCGACTTATCTGTAGAAATTGTGCTCCCAGTAGACAATACTTTTAAATGTGAAATTGACAACAAACCCTCAGATCCTGAAGCAATTTTGTACCTGAACCTACAGTCTCGTAATAATAAATTTAAGTTCGAAATCCAAATGACTCCTCGTGTTGACAATTTTGTAGATGACCTTTTTCGAGGTATTGAAGCAGTGAACAAGCTGCAATTACAACCAGAATTCCTTTGGCTCAAAAAATATAATGGTAAGAATGAGGATGATATTTTAGCTCACACTATGGTCGCACCAAGGGGAGGAGTAACACACATGCAGAACTCAGCTCCCGTTGCTATAAGAGAGAGTCTCATAAAGAGAAAAATGAGTGACAAAGAGAATGATTACACATTCACCAAAAAATTTACTGTTTTCTGTGGCACCTGGAATGTCAATGATAAATCACCTGTGATACCTCTCAAAGGATGGTTAAGTGTGGATAAAGAGCCACCTGATATATATGCCATAGGTTTTCAGGAATTAGACTTGTCCAAAGAAACCTTTCTTTTTGACCAAACTGCAAGAGAAGATGAATGGTATAATGCCGTGTTAGGTTATGTGGATAGGAGAGCTAAATATGTTAAAGTTGAAAAGGTGAGACTAGTGGGCATGCTGCTCATAGTACTGATAAAGGAAAAGCATTTTTCACATGTACGTAATGTTATCTGTGACACGGTCGGTACTGGTATAATGGGTAAGATGGGAAATAAGGGAGGAGTCTCTATAAGACTTGATTTACATAACACTTCCATCTGTTTTGTCAATTCCCATTTGGCTGCACATGTTGAAGAGTATGAGAGACGAAATCAAGACTTCAGGGACATTTGTAACAGAACAAGATTCATACAACCCAACCAACAGCCGAAAGGTATAAAGGACCATGATCACATTTACTGGCTCGGCGATCTTAACTATCGCATAACGGAGTTAGATCCGCAGAGTGTCAGGAAGCTTGTTAGTGAAAATAACTTTCTGCCGGTCTTGGAACGAGATCAGTTAAAACAACAGCATAAAAATGGTAATGTTTTTTCTGGTTACACCGAAGGGCCTATCACATTTAAACCTACATACAAATATGACCCTGGCACAGACAACTGGGACTCCAGTGAAAAGAACAGGGCTCCTGCCTGGTGTGATAGAATATTTTGGAAAGGAAATAATATTATACAGTTAGCATACAGAAGTCATCCACCTCTAAATATAAGTGACCACAAACCTGTGTCCGCCATATTCATGTCTGAAATAAAAATAATAGATGAAGAGAAGTATAGGAAAGTATATGAAGAGGTGATCAAACAGTTAGATAAACTGGAGAATGAACTGATACCACAGGTTAAAGTGGACATCACGGACATTGATTTTGGAACTGTTAAGTACTTGGAGTTGCAAGTAAGGACTATCACTATTAAGAACACTGGGAAACTGCCAGTGGAGTTTGAGTTCATTAAAAAATTGGATGAGGCAAGCTTTTGCAAGGAATGGCTGATTGTTGAACCATACAAAAAATGTATCTGTGCCGACGAGACATGCGAAATTCAACTGAAGGTGCTTATAAATAAGACTTCGGCTTGTAAAATGAATGCCGGAATTGACAAATTATATGATATATTAGTGTTACATCTGTATGGTGGCAAGGATATATTTATTACTGTCAATGGCACCTATGAAAGAAGTTGTTTCGGATGTTCCATTGAGGTTTTAGTTAATTTAAACAAGCCAGTCAGAGAAATCCCAGTCGGGAAACTCATTGAGCTGGAGAGTAAGAGAGATCAATGCATTTCTAATCATTCGACATATTCTATACCTAAAGAAATTTGGTTCCTCGTTGACCACATTTACCTTCATGGACTGAAGGAGCCTAATCTGTTTGAACAGCCGGGTCTGCACTCGGAAGTTCTACAAATCAGAGACTGGTTGGATACTGGATCTATAGATCCAATACCTGGGAGCATTCATTCAGTTGCTGAGGCACTACTGCTTCTGCTGGAAAGTACAGCAGATCCAATAATACCATACAATCTTCAGTCAGTATGTCTTCGGGCTTCCGCCAACTATCTTCAGTGCAAACAAATAATAATGGAATTGCCAGAATTTAGAAAGAACGTTTTTCTGTATTTGTGTGAATTCTTACAGGAGGCATTGCAGCACAGCGCGGAGAATGGTTTGGATTCTAAGACGCTGTCGACTCTATTCGGTGCTATATTCCTGAGGGACAACCCCAATGTGATCCAAGAACCTCAGTCCAGAATAAACAAGCAAGTCATTGACAAGAAGAAAGCACATTTTGTGTATCATTTCTTAACAAACGACCATAGTGATTTAATATTTGCAAGATAG

Protein sequence:

>DPOGS201865-PA
MNHEEIKAVVQEKFLSSEKVTAFLCDAKVLHPDWVKKERLLAIVEYGDEKAVFCLFTSCYPPKSFTDLSVEIVLPVDNTFKCEIDNKPSDPEAILYLNLQSRNNKFKFEIQMTPRVDNFVDDLFRGIEAVNKLQLQPEFLWLKKYNGKNEDDILAHTMVAPRGGVTHMQNSAPVAIRESLIKRKMSDKENDYTFTKKFTVFCGTWNVNDKSPVIPLKGWLSVDKEPPDIYAIGFQELDLSKETFLFDQTAREDEWYNAVLGYVDRRAKYVKVEKVRLVGMLLIVLIKEKHFSHVRNVICDTVGTGIMGKMGNKGGVSIRLDLHNTSICFVNSHLAAHVEEYERRNQDFRDICNRTRFIQPNQQPKGIKDHDHIYWLGDLNYRITELDPQSVRKLVSENNFLPVLERDQLKQQHKNGNVFSGYTEGPITFKPTYKYDPGTDNWDSSEKNRAPAWCDRIFWKGNNIIQLAYRSHPPLNISDHKPVSAIFMSEIKIIDEEKYRKVYEEVIKQLDKLENELIPQVKVDITDIDFGTVKYLELQVRTITIKNTGKLPVEFEFIKKLDEASFCKEWLIVEPYKKCICADETCEIQLKVLINKTSACKMNAGIDKLYDILVLHLYGGKDIFITVNGTYERSCFGCSIEVLVNLNKPVREIPVGKLIELESKRDQCISNHSTYSIPKEIWFLVDHIYLHGLKEPNLFEQPGLHSEVLQIRDWLDTGSIDPIPGSIHSVAEALLLLLESTADPIIPYNLQSVCLRASANYLQCKQIIMELPEFRKNVFLYLCEFLQEALQHSAENGLDSKTLSTLFGAIFLRDNPNVIQEPQSRINKQVIDKKKAHFVYHFLTNDHSDLIFAR-