Monarch geneset OGS2.0

DPOGS200223
TranscriptDPOGS200223-TA7125 bp
ProteinDPOGS200223-PA2374 aa
Genomic positionDPSCF300414 - 21072-36152
RNAseq coverage571x (Rank: top 22%)
Annotation
HeliconiusHMEL0175290.065.38% 
BombyxBGIBMGA008439-TA0.062.37% 
DrosophilaCG18522-PA0.042.69% 
EBI UniRef50UniRef50_A8TUC00.063.99%Aldehyde oxidase 2 n=5 Tax=Obtectomera RepID=A8TUC0_BOMMO
NCBI RefSeqNP_001103811.10.063.99%aldehyde oxidase 2 [Bombyx mori]
NCBI nr blastpgi|1603332470.063.99%aldehyde oxidase 2 [Bombyx mori]
NCBI nr blastxgi|1603332470.063.99%aldehyde oxidase 2 [Bombyx mori]
Group
Gene OntologyGO:00551141.7e-140oxidation-reduction process
GO:00164911.7e-140oxidoreductase activity
GO:00468721.9e-32metal ion binding
GO:00166148.5e-31oxidoreductase activity, acting on CH-OH group of donors
GO:00506608.5e-31flavin adenine dinucleotide binding
GO:00038248.5e-31catalytic activity
GO:00090555.4e-16electron carrier activity
GO:00515365.4e-16iron-sulfur cluster binding
KEGG pathwaytad:TRIADDRAFT_265536e-160 
 K00106 (XDH)maps-> Peroxisome
    Purine metabolism
    Caffeine metabolism
    Drug metabolism - other enzymes
InterPro domain[1754-2366] IPR0082741.7e-140Aldehyde oxidase/xanthine dehydrogenase, molybdopterin binding
[1636-1801] IPR0006743.9e-35Aldehyde oxidase/xanthine dehydrogenase, a/b hammerhead
[64-182] IPR0028881.9e-32[2Fe-2S]-binding
[1310-1503] IPR0161668.5e-31FAD-binding, type 2
[1506-1613] IPR0051071.8e-30CO dehydrogenase flavoprotein, C-terminal
[1329-1500] IPR0023462.9e-25Molybdopterin dehydrogenase, FAD-binding
[1-64] IPR0126753.9e-19Beta-grasp fold, ferredoxin-type
[1-69] IPR0010415.4e-16Ferredoxin
[1389-1490] IPR0161692.1e-08CO dehydrogenase flavoprotein-like, FAD-binding, subdomain 2
Orthology groupMCL10023 Multiple-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS200223-TA
ATGACCCTTAATGAATACATAAGAAATGTAGCAAACCTGAAAGGGACGAAGTATATGTGTAATGAAGGCGGCTGCGGCGTCTGTGTCGTTTCCGTCCAAGCGGCGTTACCTCCCACACAAGAAAACAAAACTTTTGCTGTCAATTCTTGTTTGGTGTCAATTCTATCCTGTCATGGATGGGAAATAACCACCATAGAAGGTATCGGAAATAAACACATTGGATATCATGAAATTCAGAAGCGATTAACAAAATTCAGCGGTACTCAATGTGGATATTGCTCACCAGGAATGGTCATGAACATGTACAGTATTTATAAAGATAAAAATGGAAAATTAACATCTTCTGAAATAGAAAATTCCTTTGGAGGCAACATTTGTCGATGTACAGGATACCGTTCGATAGCTGATGCTTTTAAATCTTTTGCAACCGATGCTAACCATGAACTTTTAAAACAAGTTGAAGATATTGAAGATTTAGGAGCAGCTAAATGCCCAAAAAATTGTATTCACAAGAAATGCAAAGTTATAGAGAGAACAAACAAACATGAAATTTATGATAAATCTGGTGATACAAAAGAAAAGGAGCCGTGTAAATTTGAAGAAATAAAGACACAAACAGACATGCTTGTTATAGACTGTGGAGCATATACATGGTATAAGATCGGTACCATTGGTGGGAATTTAATGCTTAAGCATTATGACAACAGTTTTCCTTCAGATTTATTTTTATTATTTGAAATGGTTGGTGGGATGGTAACAATAGCTGAAAGTAAAGAAAAAAAACAGGCGTTATCTTATCAGGAATTTTTGACAACCGACATGAATAAGAAGATTATTTTAAATGTAATAGTTCCACCTCTTTCTAAGTGGTGCTCTGTAAAAACATTCAAGATAATGCCACGAGCACAAAATGCGCATGCTATAGTAAATGCTGGATTTCTATTTAAATCATATCCGAACTCAAGACTATTAGAAAGTGCCACTATAGTGTATGGAGGAATATCAAACACTTTTATACACGCGGAAATTACTGAAGGTATTTTAGCTGGCAAAGATCCATTTACTAACGAAACATTGCAATTGGCTTTAGGAACTTTGCTGGGTGAAATAAAACCTGAACATAATCCCCCAGACCCATCGGTAGACTTTAGGAAAATGTTGGCTGTATCACTATTCTATAAGGCAATATTGTACTTGTGCCCAGATGACGTGATAAATCCTATATACAGATCCGGAGGAGAAATATTGAAAAGAAGTATTTCAAATGGAACTCAAAGTTTTGAAACAGATAGAAACCTTTGGCCCCTTAACCAACCAGTGAATAAAATAGAAGCAATAGCCCAATGTAGCGGAGAAGCTATTTATTCCAATGATATAACCACAGAATCTGATGAAATTTTCGCTGCATTTGTTACAGCAGACGCAAACGTTGGAAGTATTGTTAGTGGTTTCGATGTCACTGAAGCTTTTAAACTTGCAGGAGTACTAAGTATTTATACCGCCAAAGATATTCCAGGAGATAACACATTTACTCCATCTAATATTCCACTAATGAACGCAAAAGAAGAAATTCTTTGCTCAGGAAAAGTCATGTTCTACGGTCAACCAGCAGCTATTATAGTTGCTAGTCGAGAAAAGACTGCTATTAAAGCAGCGAACTTGGTTAAAATAATGTACTCGCACGTGAGTACTCAGAAACCCTTACTCACAACAGATGAAGTTCTTGATTCTGTTGAAGTGAAAGAAAGAACAATGAATAATATATCAATAGCACCGACAGACTTCGGTAATGACGTAAAACATGTACTTAAAGGAGAATTCAAGTTGAAAAGTCAGTGTCACTTTTATATGGAACCTCAAACTTGCGTAGTGAAACCAGTTGAAGATTCTCTGGAAGTTTATTCCTCTACTCAATGGCTAGATTTAACTAGCACTGCTATAGCACAATGTCTCAAAATACCTCTTAATAAAGTAAATGTTATAGTGCGTCGGGTTGGTGGTGGTTACGGAGGAAAAATATCCCGATCCGCCCAAATAGCTTGCGCGACAGCTTTAGTATCATTCTTGCAGGGAAAAACTTGCAGATTTGTCCTACCTTTATTGACAAATATGAAATCTCTTGGTAAACGTCTTCCTGTGCAAAACAAGTTTGAAGTGGGAGTCAATGATGATGGTAAAATACAATATCTTAAGAAAGAATTTTACCACGACTGTGGACATTCATTTAATGAAAACATTTCTGCTACTACTGTAATGCATATTACAAGCTCTTATGATACGAGGAGGTGGCAAATTGACGCCAATACATCTACTGAAGCAATTGCAATGGTAGAAAATATCATGGAATTCATTGCATACTCTATTGCAAAAGATCCAATAGAAGTCCGTCTTCAAAATATGTTAGTAGATAAGAATCCCCTGCCAGAAATGATAATTCAACTAAAAAGTGATTCTGAATACGATTCTCGCCTTAATAATATAAAAATTTACAATGAACAAAATCATTGGAGGAAAAAATCTCTAAGAATAATGCCTATGACATTCGAAATATTTTATTTCGGAAACTTTAATTCCGTGATATCTATTTACCACGCTGACGGATCAGTGGTCATTCACCATGGTGGTATAGAAATGGGCCAGGGATTAAATACGAAAGTGGCACAAGTGTGTGCTTATGTTTTGGGAGCTCCTTTAGCAAAAATAGAAGTACAACCTAGCACCAGTTTCATTTCTCCAAATGCTATGGTCACCGGAGCGAGTATAGGAAGTGAATGTGTTGCCTTTGCTACTATAAAAGCATGTGAAATAATTCTTGAAAGATTAGCGCCGATTAAAGAAACTGAGACCTTATCCTGGGAGGAACTTATCTCCACAGCCTATGCAAAAGGAATAGATCTACAAGCATCTTATATGTATTCAGGAAAAGATGATTTGCAACCTTACAACGTGTATGCTGTATGTGCTTTGGAAGTAGAAATTGATTTGTTGACGGGAAATCATGATGTAAAAAGAGTCGATTTACTGGAGGATACAGGAAGGAGTTTGAGTCCTATTATTGATATTACACAGATAGAAGGTGCTTTTGCTATGGGCCTAGGATATTGGACATCAGAAAACCTTGTTTACGATGAACTTACGGGTAAATTGCTAACGGACACAACTTGGACATATAAACCTCCGGGATTTAAAGATATACCTGCCGACCTGAGGATATACTTTCGAAGAAATGCAGGAAATGAGTTTGGTGTCCTTCAATCCAAAGCAACCGGCGAACCAGCGTTTTGTTTGGCCACAATTTTAATTCATGCAATCCGTGAAGCATTACAGTCGAGTAGGCACGACTCCGGGTATCCTGACGAATGGCTAGACATTGTGGATGGAAGATTTGGGCCGGATGTATCTCTCAATGAATACATACGAACTGTAGCTGATCTCCGAGGAACTAAGACGATGTGTCAGGAAGGCGGATGTGGAGCCTGCATAGTGGCAGTCAAGGCCGCCTTACCTCCAACACATGAATGCCTCGTATCTGTATTATCATGTCACGGATGGGAGATAACAACGGTCGAAGGATTAGGAAATAGAAATGAAGGGTATCATGAAATACAAAGTAGATTGGCAAGTTTTAATGGGACTCAATGCGGTTACTGCACCCCGGGATGGGTTATGAACATGTATAGTTTATACTTGGCTAAAAACAAAAAACTAAGTGCAGCTGAAGTTGAAAATTCATTTGCAAGTAATATTTGCCGATGCACAGGCTACAGGCCAATAGCTGATGCTTTCAAGAGTTTCGCTACTGACGCTGAGGAGAGATTAAAAAGAAAGATTATTGATATTGAAGATATGGCAACATTCACATGTGGATTTAAATGTAGCAAAGACTGCATACATAAGAGTGATTGTACAAAAAATACGAATGACGACGAATGGTGTCTCATCGAAAAAGCTACCATAAAAACGCTTACCATAAAAAACGATAAACACAAATGGTTCAAAGTTAACACGTTGACTGAAGTCTTTAAGGCTATATCTGATCACCATGATTATAAATTGATTGCCGGAAACACTGGACAAGGAGTGTATCATATATCGGAATATCCTAAAAACATCATCGATATATTCAATGTCACAGAAATAAAAGGATATTCCTTGGATGTTAATTTAATTCTTGGATCTGGAATGGTTTTAACCGATATGATGGAAGTGTTTTTAAAATTGTCTTCAGAAAATAAAGATTTCGAATACTTGAAAGAATTCTATCAACACATGGATTTAGTAGCACATATTCCTGTGCGAAATATTGGCACTATTGGAGGTAATTTGTATATGAAGTACGCGAACAACGAATTCCCATCCGATATTTTTCTTCTTTTTGAAACAGTGGGAGCAATGATAACCATTGCGGGATCAGTAAATAAAAAGAAAACGGTAACGTTAACAGAATTTCTGAAAATGAATATGAAAGGTTCGATTATTTTAAATGTATTATTACCTCCATTATCAAGTTCTTGCCGTGTGAAAACATACAAGGTTATGCCTCGCTCACAAAACGCACACGCCATTGTGAACGCTGGGTTTTTAATAAAGTTCAAGAAAAATGATTTAATCGACAAAGTAAACATTGTGTATGGAAACATAACCCCGCAATTTATCCACGCCGAGAATACGGAGAAAGTTTTAATTGATAAAGATCCATTTACCGAGGACACACTGCAATTGGCTTTGAAGAACTTGTATGAAGAAATTCATCCTGACTCGAGACCTCCCGAACCTTCGCCTGAATACAGAAAACTATTAGCAGTAACACTGTTTTATAAAGCAATATTAAGTTTGTGCCCTGAAGGAAAACTAAATGAAACCTATCGTTCCGGTGGTGACGTTATCAAACGGCATTCATCAACTGGCACACAAACATACGATACAGATGAGAGTGTGTGGCCTCTAAATAAACCAGTAGCGAAATTGGAAGCACTGGTGCAATGTAGCGGTGAAGCCACCTTTGCAAATGATTTGCCGACGCAAACGAATGAAGTGTATGCCGCTTTCGTAACAGCTGACATAAAACCTGGCAGTGTTATCACAGGATTCGATACAACTAATGCATTTAAAATTCCAGGAGTATTGGCATTTTACTCTGCCAGTGATATCCCAGGAGAAAATAATTTCACTCCTACCAATATCTCATTCATAAGTACCAAAGAAGAAATAATATGTTCAAAAGAAATTCAATATCACGGACAGGCAGTAGGCATCATAGTTGCTGATAGAGAGAAAACAGCAAATAACGCTGCTAAGTTTGTTGACATTAAATATAAACCTAGTGATGCACAACCATTATTATCCATATCGGATGTTCTAGCATCTAATAAGGATCAAAGAATCAACAAGATCAAAGACATAGAGGCCACTGATACAGGAAGTGACGTGAAAAATATTATTCACGGGGAATTTATTCTAGAATCACAATACCATTATTATATGGAACCTCAGACATGTGTTGTCCGACCGACAGAAGATGGATTTGAAGTTTATTCTTCAACTCAATATCTTGACTTAACGAATGTTGCTGTTGCCCAATGCTTAAATGTGCCTATTAATAGCATAAATGTGATAGTTAGAAGAGTGGGGGGTGGTTATGGTGGTAAAATAACAAGGTCGTCACAAGTCGCCTGTGGGGCTGCATTAGTATCGCATTTACAAGGAAAACTATGCAGATTTGTCCTACCTCTGGAAACAAACATGAAAACCGTAGGTAAACGGATTCCAACCTATTGTAAATTCGAGGTTGGAGTAAATGAAAATGGTGAAATCCAATACCTAAAAATTAAATATTATCAGGACAACGGATGTTCAATAAACGAAACAATTGCTCTTATGACTTTAAACCACTTACCCAACTGTTATGATCCCAAACGATGGAGTATTGAGGCATATACAGTAATAACAGACACACCATCAACTACATGGTGTAGAGCGCCGGCATCAACTGAAGGTATCGCAATTATTGAATACATTATGGAGAAGATAGCTTACACCTTAAAGAAAGATCCCTTGGAAGTAAGGTTTTTAAATATAAAACAGGGTGACAACCCTATTCCTGAATTGATAGAGCAATTGAAAAAGGATTCAAATTTTGACGACAGACTAGAAGAGATAAAACAATTTAATGAAAAAAATCGTTGGAGAAAAAGATCACTCAAAATAATGCCTATGACTTACGAGATGTTTTACATAGGCCCATTCAATGCAACCGTTTCCATTTATCACGGGGATGGTTCCGTCGTTATAACTCATGGAGCCACTGAAATGGGGCAAGGCATCAATACCAAAACAGCTCAAGTTTGTGCTTATATGTTTGGCATACCATTAGAAAGGGTAAGTGTAAAGCCCAGTACGAGTTTCACATCTCCGAATTGTATGGGCACTGGTGCTAGCGTTGGAAGTGAACTGGTGGCCTACGCTACCTCAAAAGCATGTGAAATTTTGTTGGATAGATTGAAACCCATACGGGAAAAATTAGGTAATCCTTCTTGGGAAGACCTCATCGAAGGGGCGCATGAATCTGGAGTTTATTTACAAGCATCACACATGTATTCAACGTTTGAACCTGTAAAGCCTTACGATATTTATGGCATCATCGCTATGGAGATTGAACTAGACATTCTGACGGGAAATCATGACATAAGACGGGTGGATTTATTGGAAGATACAGGTAGAAGCTTGAATCCCGAAATAGATATTGGTCAGATTGAAGGGGCATTTGTTATGGGTCTCGGTTACTGGACGTCAGAGAAATTAGTATACGATCGTGAAACTGGAAGATTATTGACAGATCGTACTTGGACATATAAACCACCCGGCATAAAAGATATCCCAGCCGATTTTAGGATATACTTCCGAAGAAATAGTGTCAATAACTTCGGGGTTTTACAATCTAAAGCCACAGGAGAGCCATCATTATGTTTGGCATCAGTTATAACACATGCATTTCGGGAAGCAGTATCTCAAGGTCGACGGGATGCTGGGTACGAAGATCAATGGATACATATAGAATACCCGTGTACTTCGGAGAACATATTCATGGCAATGGAGCATAAGTTGGAACATTTCAAATTAAAGTAA

Protein sequence:

>DPOGS200223-PA
MTLNEYIRNVANLKGTKYMCNEGGCGVCVVSVQAALPPTQENKTFAVNSCLVSILSCHGWEITTIEGIGNKHIGYHEIQKRLTKFSGTQCGYCSPGMVMNMYSIYKDKNGKLTSSEIENSFGGNICRCTGYRSIADAFKSFATDANHELLKQVEDIEDLGAAKCPKNCIHKKCKVIERTNKHEIYDKSGDTKEKEPCKFEEIKTQTDMLVIDCGAYTWYKIGTIGGNLMLKHYDNSFPSDLFLLFEMVGGMVTIAESKEKKQALSYQEFLTTDMNKKIILNVIVPPLSKWCSVKTFKIMPRAQNAHAIVNAGFLFKSYPNSRLLESATIVYGGISNTFIHAEITEGILAGKDPFTNETLQLALGTLLGEIKPEHNPPDPSVDFRKMLAVSLFYKAILYLCPDDVINPIYRSGGEILKRSISNGTQSFETDRNLWPLNQPVNKIEAIAQCSGEAIYSNDITTESDEIFAAFVTADANVGSIVSGFDVTEAFKLAGVLSIYTAKDIPGDNTFTPSNIPLMNAKEEILCSGKVMFYGQPAAIIVASREKTAIKAANLVKIMYSHVSTQKPLLTTDEVLDSVEVKERTMNNISIAPTDFGNDVKHVLKGEFKLKSQCHFYMEPQTCVVKPVEDSLEVYSSTQWLDLTSTAIAQCLKIPLNKVNVIVRRVGGGYGGKISRSAQIACATALVSFLQGKTCRFVLPLLTNMKSLGKRLPVQNKFEVGVNDDGKIQYLKKEFYHDCGHSFNENISATTVMHITSSYDTRRWQIDANTSTEAIAMVENIMEFIAYSIAKDPIEVRLQNMLVDKNPLPEMIIQLKSDSEYDSRLNNIKIYNEQNHWRKKSLRIMPMTFEIFYFGNFNSVISIYHADGSVVIHHGGIEMGQGLNTKVAQVCAYVLGAPLAKIEVQPSTSFISPNAMVTGASIGSECVAFATIKACEIILERLAPIKETETLSWEELISTAYAKGIDLQASYMYSGKDDLQPYNVYAVCALEVEIDLLTGNHDVKRVDLLEDTGRSLSPIIDITQIEGAFAMGLGYWTSENLVYDELTGKLLTDTTWTYKPPGFKDIPADLRIYFRRNAGNEFGVLQSKATGEPAFCLATILIHAIREALQSSRHDSGYPDEWLDIVDGRFGPDVSLNEYIRTVADLRGTKTMCQEGGCGACIVAVKAALPPTHECLVSVLSCHGWEITTVEGLGNRNEGYHEIQSRLASFNGTQCGYCTPGWVMNMYSLYLAKNKKLSAAEVENSFASNICRCTGYRPIADAFKSFATDAEERLKRKIIDIEDMATFTCGFKCSKDCIHKSDCTKNTNDDEWCLIEKATIKTLTIKNDKHKWFKVNTLTEVFKAISDHHDYKLIAGNTGQGVYHISEYPKNIIDIFNVTEIKGYSLDVNLILGSGMVLTDMMEVFLKLSSENKDFEYLKEFYQHMDLVAHIPVRNIGTIGGNLYMKYANNEFPSDIFLLFETVGAMITIAGSVNKKKTVTLTEFLKMNMKGSIILNVLLPPLSSSCRVKTYKVMPRSQNAHAIVNAGFLIKFKKNDLIDKVNIVYGNITPQFIHAENTEKVLIDKDPFTEDTLQLALKNLYEEIHPDSRPPEPSPEYRKLLAVTLFYKAILSLCPEGKLNETYRSGGDVIKRHSSTGTQTYDTDESVWPLNKPVAKLEALVQCSGEATFANDLPTQTNEVYAAFVTADIKPGSVITGFDTTNAFKIPGVLAFYSASDIPGENNFTPTNISFISTKEEIICSKEIQYHGQAVGIIVADREKTANNAAKFVDIKYKPSDAQPLLSISDVLASNKDQRINKIKDIEATDTGSDVKNIIHGEFILESQYHYYMEPQTCVVRPTEDGFEVYSSTQYLDLTNVAVAQCLNVPINSINVIVRRVGGGYGGKITRSSQVACGAALVSHLQGKLCRFVLPLETNMKTVGKRIPTYCKFEVGVNENGEIQYLKIKYYQDNGCSINETIALMTLNHLPNCYDPKRWSIEAYTVITDTPSTTWCRAPASTEGIAIIEYIMEKIAYTLKKDPLEVRFLNIKQGDNPIPELIEQLKKDSNFDDRLEEIKQFNEKNRWRKRSLKIMPMTYEMFYIGPFNATVSIYHGDGSVVITHGATEMGQGINTKTAQVCAYMFGIPLERVSVKPSTSFTSPNCMGTGASVGSELVAYATSKACEILLDRLKPIREKLGNPSWEDLIEGAHESGVYLQASHMYSTFEPVKPYDIYGIIAMEIELDILTGNHDIRRVDLLEDTGRSLNPEIDIGQIEGAFVMGLGYWTSEKLVYDRETGRLLTDRTWTYKPPGIKDIPADFRIYFRRNSVNNFGVLQSKATGEPSLCLASVITHAFREAVSQGRRDAGYEDQWIHIEYPCTSENIFMAMEHKLEHFKLK-