Monarch geneset OGS2.0

DPOGS201665
TranscriptDPOGS201665-TA1539 bp
ProteinDPOGS201665-PA512 aa
Genomic positionDPSCF300103 - 409975-418382
RNAseq coverage680x (Rank: top 19%)
Annotation
HeliconiusHMEL0129540.059.00% 
BombyxBGIBMGA005346-TA1e-8556.97% 
DrosophilaCyp6a13-PA4e-7533.13% 
EBI UniRef50UniRef50_D5L0N44e-16554.27%Cytochrome P450 354A5 n=2 Tax=Obtectomera RepID=D5L0N4_MANSE
NCBI RefSeqXP_001599214.11e-9035.85%PREDICTED: similar to cytochrome P450 [Nasonia vitripennis]
NCBI nr blastpgi|2914641032e-16454.27%cytochrome P450 354A5 [Manduca sexta]
NCBI nr blastxgi|2914641036e-16154.27%cytochrome P450 354A5 [Manduca sexta]
Group
Gene OntologyGO:00090554.2e-104electron carrier activity
GO:00200374.2e-104heme binding
GO:00167054.2e-104oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen
GO:00055064.2e-104iron ion binding
GO:00551144.2e-104oxidation-reduction process
GO:00044971.3e-13monooxygenase activity
KEGG pathwaynvi:1001140233e-90 
 K07424 (CYP3A)maps-> Drug metabolism - cytochrome P450
    Drug metabolism - other enzymes
    Linoleic acid metabolism
    Steroid hormone biosynthesis
    Metabolism of xenobiotics by cytochrome P450
    gamma-Hexachlorocyclohexane degradation
    Retinol metabolism
InterPro domain[26-510] IPR0011284.2e-104Cytochrome P450
[367-383] IPR0024031.3e-13Cytochrome P450, E-class, group IV
Orthology groupMCL10208 Patchy
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS201665-TA
ATGGATACCAATAGCACTTTTAACTCATTATTGTTAAATATTTCTGAAAATTGGAGAAGTCTTCTAATATTTTCTTTAATATTCTTCATTTATTATCATTTTACCGAAACATTTGATTATTTTGAGAAACGAAATATAAAGTTTCGGAAACCCGTTATATTTTTTGGAAATAGCTTTAGACGATTAATGGGTACAATTTCATACCCAAACTTTCAATTAGAAAATTACAATTATTTTAAGGGTGAAAGAGTCGGTGGTATATTCGAAGGCCGAAGACCAGTGTTATATATCATAGATCCTGATTTAATAAAATCAGTCCTCATTGGAGACTCCGATCATTTTATTGACAGAAATTCGTTAAGAAGTAGAGAACCGAGATTTTTGAGCCGATCTCTCATAAATTTAAAAGGCGCAGAATGGAAAGCTGTCCGGAGTTTGTTGACTCCGACTTTCAGTTCGTCAAGACTAAAACACATGCAACATCTTATACAACATTGCTCGAATCAATTGGTGAAATACCTGGAACATTACGATAAGAAGGAAGTGGAATTAAAAGATTTGATGGGACATTTGACTCTGGAGGTGACTGGGACCTGTGTTTTCGGAATAAGTACAGATGCTTTGAATGACGAAAACGCTGAGTTTGTTAAAACGGCTGAGAATTTCAATTACATGTCACTGAAGAAACGCTTCGGTCTCTTGTTCGTTTTGTTCTTTATGCCATCTCTATTGAAATATTTGAACATCTCGCTGCTTAATTACGAAGCTAACAAGAAGTTGGTGGACATATTGATAAATACGAAATCCAAGAGGATTCTGTCTAACACAAGACGTAATGATTTCCTGCAACTACTGGTCGATGCTTCTTTGAAGGAAGAAAGTGAACTGTCACATCCGGGTGCTAAAAGATATTTAGACGAGGATACCGTGAACGCTCAGGCGCTGTTATTCCTTCAAGCTGGTTATGAGACCAGCAGTACGTTGCTATCGTTCGCGATACATTCATTGGCTGTACACCAGGACATACAGGAGAAGCTGCGGGCTCATATACAGGATGTTACCAAGGGGGAGGAGTTATGCTACGATCATTTGACACAGTTGGATTATTTGGAGGGAGTTATATATGAGACGCTGAGATTGTATCCGTCGCTCAGCAGGTTAGATAGGGAATGCACGAAACCTTACATAATACCGGGGACGTCTATCAAAGTGAACAAGGGCGATATGGTGTCTGTGCCGGTGTACGGAGTGCACATGGACTCCGACATTTATCCGGACGCGGAGAGTTTCATACCGGAGAGGTTCAACAGCGACGCCGGTAAGAAGAAATCTCACCTGTTCCTATCGTTCGGCGCCGGACCTAGGAATTGTATCGGTTTGCGTTTTGCACTAAATGTAGCGAAGACAACGCTAGTCAGTTTGATAAGGAACTACAAATTCTCGACCTGTGATAAAACCGAGAATCCAGTGACGTTTAACAAAAGATCAATGCTGCTAAAGGCAGAGAAGGGTCTATGGGTCAGAGTGGATAAGATATAA

Protein sequence:

>DPOGS201665-PA
MDTNSTFNSLLLNISENWRSLLIFSLIFFIYYHFTETFDYFEKRNIKFRKPVIFFGNSFRRLMGTISYPNFQLENYNYFKGERVGGIFEGRRPVLYIIDPDLIKSVLIGDSDHFIDRNSLRSREPRFLSRSLINLKGAEWKAVRSLLTPTFSSSRLKHMQHLIQHCSNQLVKYLEHYDKKEVELKDLMGHLTLEVTGTCVFGISTDALNDENAEFVKTAENFNYMSLKKRFGLLFVLFFMPSLLKYLNISLLNYEANKKLVDILINTKSKRILSNTRRNDFLQLLVDASLKEESELSHPGAKRYLDEDTVNAQALLFLQAGYETSSTLLSFAIHSLAVHQDIQEKLRAHIQDVTKGEELCYDHLTQLDYLEGVIYETLRLYPSLSRLDRECTKPYIIPGTSIKVNKGDMVSVPVYGVHMDSDIYPDAESFIPERFNSDAGKKKSHLFLSFGAGPRNCIGLRFALNVAKTTLVSLIRNYKFSTCDKTENPVTFNKRSMLLKAEKGLWVRVDKI-