Monarch geneset OGS2.0

DPOGS207783
TranscriptDPOGS207783-TA4272 bp
ProteinDPOGS207783-PA1423 aa
Genomic positionDPSCF300042 + 95263-103997
RNAseq coverage37x (Rank: top 73%)
Annotation
HeliconiusHMEL0175810.090.24% 
BombyxBGIBMGA005478-TA0.090.55% 
DrosophilaDuox-PB0.073.62% 
EBI UniRef50UniRef50_Q9VQH20.073.62%Dual oxidase n=49 Tax=Pancrustacea RepID=DUOX_DROME
NCBI RefSeqXP_001658452.10.075.02%dual oxidase 1 [Aedes aegypti]
NCBI nr blastpgi|1571163870.075.02%dual oxidase 1 [Aedes aegypti]
NCBI nr blastxgi|1571163870.074.88%dual oxidase 1 [Aedes aegypti]
Group
Gene OntologyGO:00200375.4e-139heme binding
GO:00551145.4e-139oxidation-reduction process
GO:00069795.4e-139response to oxidative stress
GO:00046015.4e-139peroxidase activity
GO:00055093.5e-29calcium ion binding
GO:00164911.3e-16oxidoreductase activity
GO:00090552.4e-14electron carrier activity
GO:00055062.4e-14iron ion binding
GO:00506602.4e-14flavin adenine dinucleotide binding
GO:00160212.4e-14integral to membrane
KEGG pathway 
InterPro domain[3-520] IPR0102555.4e-139Haem peroxidase
[49-519] IPR0020076.3e-138Haem peroxidase, animal
[733-863] IPR0119923.5e-29EF-hand-like domain
[1254-1403] IPR0131211.3e-16Ferric reductase, NAD binding
[1152-1245] IPR0131122.9e-15FAD-binding 8
[32-47] IPR0197913.1e-15Haem peroxidase, animal, subgroup
[970-1110] IPR0131302.4e-14Flavoprotein transmembrane component
[1146-1249] IPR0179381.8e-13Riboflavin synthase-like beta-barrel
[752-775] IPR0182481.1e-07EF-hand
[751-779] IPR0020483.2e-06Calcium-binding EF-hand
Orthology groupMCL10754 Multiple-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS207783-TA
ATGGCAGGAGTAGATCGCCCTGGTGCCAGAACATTATCAAAGTTGTTCATGAGAGGGCAGGATGGATTGCCGTCTCTAGTTAACAGAACTGCTTTACTTGCCTTCTTTGGTCAGATAGTAACTGGCGAGATAGTGATGGCGTCTGAATCAGGGTGCCCTATAGAGCAACATCGTATACCAGTTGAAAAATGTGATCATATGTACGACCCTGATTGCCAAGGAGCAATGTACATGCCCTTCCATAGGGCAGCGTATGACAGATCAACTGGACAAAGCCCCAACAGCCCTAGAGAACAGATAAATCAAATTACGTCCTGGATCGACGGTAGCTTCGTGTACAGCACCAGTGAAGCCTGGGTGAATGCTATGAGGTCATTTCAGAATGGGAGCCTTGCGAGTGAAGGTGGTATGCCATTACGTAATAAGAAGCGAGTGCCTCTATTCAATAATCCCGTACCTCACTACATGAGAATGCTCAGCGCTGAAAGACTTTTCTTGTTAGGAGATCCTCGCACGAATCAAAATCCAGCAATGGTAACCTTTGGCATCCTGTTGATGAGGTGGCACAACGTCGTAGCAGCTCGCATTCACAAACAACACCCTGACTGGAGTGACGAACAGCTGTTCTTGCGAGCAAGACGAATAGTTATAGCCAGTTTGCAGAATATAATCCTCTACGAATACGTGCCAGCATTTCTAGGAGTATCAATTCCTTCATATACCGGGTACAAAGCCGAAGTAGCCCCTGGAATAACCCACGCCTTCGCAGTGGCTGCTTTTCGCTTTGGCCATACCCTCGTACCGCCAGCTATATTACTAAGGAACAGAAACTGCAAATATGGTAGAGCACCCGGTGGCCATGATGCCATTAGATTATGTCAAACCTGGTGGGATGGTAATGATGTTATGTCCCAAGTGCCAATAGAGGAGGTACTGATGGGCATGGCCTCGCAGTTATCGGAACGTGAGGATGCTCTCCTGTGTTCAGATGTACGGGATAATCTATTTGGACCAATGGAATTTTCTCGGAGAGATCTTGGTGCATTAAATATAATGAGAGGTCGTGATAATGGTCTGCCAGATTACAACACTGCCAGGCAGTACTTTGGTCTTCCAAAAATAAGAACGTTCAATGAAATAAATCCTCAGCTTTTCGAAAATAATCCAGATCTTCTTCAAAAACTAATTCAAATATATGAAGGAAGACTTGACAACATCGATGTTTATATTGGTGGAATGTTGGAATCGACAGGACATCCGGGGGAACTATTTAGAGCTATTATCACTGATCAATTCACAAGAATACGAGATGCGGATAGATTTTGGTTTGAAAACGAAGCCAATGGAATTTTTACAGCAGATGAAATCAAGGAACTTCGTCGCATCACTTTGTGGGATATAATAGTCAATAGTACTGCAGTAGGACCGAATGACATCCAGAGAGATGTTTTCCATTGGAAAGATGGAGACCCATGTCGACAACCCTATCAATTGAATGCCTCCAAATTACCTCCTTGCAAATATCTCAAAGGCTATGATTACTTTGAGGGCAACGAATTTGCATATATCTACACATGTTTGATTCTTGTTTTTGTGCCAATACTGTGTGCCGGTGCTGGATATGGTGTTGTGAAGCTTCAAAATAGTCGTCGTCGTCGGCTCAAAATACAACAAGAACATTTAAAGAACGGTGGTGAACAGAAAGGCTCAGTCGATAAAATGGTTTGTCGCGAGTGGGTTCATGCTTCGCACAAACGACTTGTCAAACTTCGGCTGGGACCAGAATCTGCTCTCCATGTAACCGATCGTAAAGGCGACAAACTACGCACTTTGTCGTTGGAGCACACTGATCAACTAACTGTTTTGGAAAGCCAGGAAAGCAGAACTAACAAGAGGCCTTTAGTTTTGATAAGAGTACCACGCGAGCACGACCTTGTACTAGAAATGGATTCAGTAGCTTCAAGGCGTAAATTTTTAGTGAAACTAGATACATTTTTGTCTCAGCATAAAAAAGCTTTAAATCTTACTCAGGGTCATCGAGATCAAATTTTATCATCAGCCGAAACGAGAGAGAGACGACAACGTAAGTTAGAACATTTCTTCCGTGAAGCTTATGCTATTACTTTTGGTTTAAAACCCGGAGAAAAACGAAGAAGAAACGAAGATTCTGATCCAGAGTCTATAGTTATGAGAACATCGTTATCAAAGAGTGAATTCGCTAGTGCACTTGGAATGAAAGCGGATGCAGTTTTTGTAAAAAAAATGTTTAACATAGTAGATAAGGATGGCGACGGAAGAATTTCATTTCAAGAATTCCTCGATACTGTCGTCTTATTTTCTCGTGGAGCAACTGATGATAAACTTAGAATTATATTTGATATGTGTGATAACGATCGTAACGGTGTTATTGATAAGGAAGAGCTGAGTGAGATGCTGCGTTCTTTAGTTGAGATAGCAAGAACGACATCCTTAAAAGACGAACATGTCACTGAACTCATAGATGGAATGTTTTCTGATGCTGGACTACAACATAAAGATCACCTAACGTATTCAGATTTTAAAGTTATGATGAAAGAATATAAGGGAGAGTTTGTTGCTATTGGGTTAGACTGTAAAGGCGCTAAACAGAACTTTTTGGATACCTCAACCAATGTAGCAAGAATGACTAGTTTTCATATTGAACCACCGATGGATCAAACTAGACACTGGTTCCTTTTAAAATGGGATTACTTAACAACATTTTTGGAAGAAAACAGACAAAACATATTTTACCTTTTTGTATTTTACGTGGTCACGATTGGATTATTTGTGGAACGATTTGCTCATTACTCCTTTATGTCTGAGCATTTGGACTTAAGACACATAATGGGTGTTGGTATTGCTATCACACGAGGATCTGCAGCATCATTATCTTTCTGCTACAGTTTGCTGTTATTGACGATGTCAAGAAATTTATTAACGAAATTAAAGGAATTCAGTATTCAGCAATACATTCCTTTGGATTCAAGTATTCAATTTCACAAGATTGTGGCCTGCACAGCACTTTTCTTTTCTCTACTTCATACAGCTGGGCATCTGGTAAACTTCTATCACGTATCCACACAACCAGTTGAAAACTTAAGATGTTTGACTAAAGAGGTTCACTTCACTTCTGATTTTAGACCTGGTATTACTTACTGGGTGTTCCAAACAGTCACTGGTATATCGGGAGTTCTTTTATTTATAATAATGTGCATTATATTCGTGTTTGCCCATCCTGTGATCCGCAAGAGGGCCTATCCTTGGTTCTGGCGCGCTCACTCACTGCATGTTGCACTATACGCATTGTGTCTTGTACATGGACTGGCGAGGCTAACTGGAGCTCCTCGCTTCTGGATATTCTTCCTTGGACCAGCAATTGTTTACACTTTGGACAAAGTGGTATCATTGCGTACGAAATATCTGGCTTTGGATGTGCTAGAGACTGAGATGTTGCCATCAGATGTCATCAAAATAAAATTCTATAGGCCGCCGAATCTAAAATATCTATCAGGACAATGGGTACGGTTGGCATGTACAGCTTTTAAAAAGGAAGAATTTCATTCATTCACCTTAACATCGTCACCTCATGAAAATTTCTTATCATGCCATATAAAAGCACAAGGACCATGGACTTGGAAGCTCAGAAATTATTTTGATCCCTGCAATTATAATCCCGAAACTCAACCTAAAATAAGAATCCAGGGACCATTTGGAGGTGGTAACCAGGATTGGTATAAATTTGAAGTAGCAGTGATGGTTGGAGGCGGAATCGGAGTGACACCTTACGCTTCCATATTAAATGATTTGGTTTTCGGAACTTCCACTAACCGGTACTCCGGTGTCGCGTGTAAGAAAGTATACTTCCTTTGGATATGTCCGTCACACAAACACTTTGAATGGTTTATTGATGTCCTTCGTGATGTCGAGCGCAAGGACGTCACAAATGTTCTCGAGATACATATTTTCATTACACAATTCTTCCACAAATTCGACCTGCGAACTACAATGCTTTACATCTGTGAAAATCATTGGGAGGAAATATATCCAAGCACGCTATTTATGAAAAGTGCCCTTTATATCTTATCTGGTTCATTAAGGAAAGTTTATCTGCTTTGTCCCCAGGTATCCAAAATCGGTGTATTTTCCTGTGGACCTCGCCCGCTCACCAAATCTATCATGTCAGCATGCGAACAAGTCAACAGAACAAGACGACTGCCGTATTTCATACACCACTTCGAGAATTTTGGATAA

Protein sequence:

>DPOGS207783-PA
MAGVDRPGARTLSKLFMRGQDGLPSLVNRTALLAFFGQIVTGEIVMASESGCPIEQHRIPVEKCDHMYDPDCQGAMYMPFHRAAYDRSTGQSPNSPREQINQITSWIDGSFVYSTSEAWVNAMRSFQNGSLASEGGMPLRNKKRVPLFNNPVPHYMRMLSAERLFLLGDPRTNQNPAMVTFGILLMRWHNVVAARIHKQHPDWSDEQLFLRARRIVIASLQNIILYEYVPAFLGVSIPSYTGYKAEVAPGITHAFAVAAFRFGHTLVPPAILLRNRNCKYGRAPGGHDAIRLCQTWWDGNDVMSQVPIEEVLMGMASQLSEREDALLCSDVRDNLFGPMEFSRRDLGALNIMRGRDNGLPDYNTARQYFGLPKIRTFNEINPQLFENNPDLLQKLIQIYEGRLDNIDVYIGGMLESTGHPGELFRAIITDQFTRIRDADRFWFENEANGIFTADEIKELRRITLWDIIVNSTAVGPNDIQRDVFHWKDGDPCRQPYQLNASKLPPCKYLKGYDYFEGNEFAYIYTCLILVFVPILCAGAGYGVVKLQNSRRRRLKIQQEHLKNGGEQKGSVDKMVCREWVHASHKRLVKLRLGPESALHVTDRKGDKLRTLSLEHTDQLTVLESQESRTNKRPLVLIRVPREHDLVLEMDSVASRRKFLVKLDTFLSQHKKALNLTQGHRDQILSSAETRERRQRKLEHFFREAYAITFGLKPGEKRRRNEDSDPESIVMRTSLSKSEFASALGMKADAVFVKKMFNIVDKDGDGRISFQEFLDTVVLFSRGATDDKLRIIFDMCDNDRNGVIDKEELSEMLRSLVEIARTTSLKDEHVTELIDGMFSDAGLQHKDHLTYSDFKVMMKEYKGEFVAIGLDCKGAKQNFLDTSTNVARMTSFHIEPPMDQTRHWFLLKWDYLTTFLEENRQNIFYLFVFYVVTIGLFVERFAHYSFMSEHLDLRHIMGVGIAITRGSAASLSFCYSLLLLTMSRNLLTKLKEFSIQQYIPLDSSIQFHKIVACTALFFSLLHTAGHLVNFYHVSTQPVENLRCLTKEVHFTSDFRPGITYWVFQTVTGISGVLLFIIMCIIFVFAHPVIRKRAYPWFWRAHSLHVALYALCLVHGLARLTGAPRFWIFFLGPAIVYTLDKVVSLRTKYLALDVLETEMLPSDVIKIKFYRPPNLKYLSGQWVRLACTAFKKEEFHSFTLTSSPHENFLSCHIKAQGPWTWKLRNYFDPCNYNPETQPKIRIQGPFGGGNQDWYKFEVAVMVGGGIGVTPYASILNDLVFGTSTNRYSGVACKKVYFLWICPSHKHFEWFIDVLRDVERKDVTNVLEIHIFITQFFHKFDLRTTMLYICENHWEEIYPSTLFMKSALYILSGSLRKVYLLCPQVSKIGVFSCGPRPLTKSIMSACEQVNRTRRLPYFIHHFENFG-