Monarch geneset OGS2.0

DPOGS214355
TranscriptDPOGS214355-TA7935 bp
ProteinDPOGS214355-PA2644 aa
Genomic positionDPSCF300020 + 495272-509615
RNAseq coverage331x (Rank: top 35%)
Annotation
HeliconiusHMEL0045410.045.62% 
BombyxBGIBMGA004128-TA1e-16635.30% 
Drosophilamud-PD2e-2028.96% 
EBI UniRef50UniRef50_Q7SHZ42e-0621.38%Predicted protein n=3 Tax=Eukaryota RepID=Q7SHZ4_NEUCR
NCBI RefSeqXP_001991929.19e-2131.76%GH12928 [Drosophila grimshawi]
NCBI nr blastp%
NCBI nr blastxgi|1234386773e-12722.95%viral A-type inclusion protein [Trichomonas vaginalis G3]
Group
KEGG pathway 
Orthology groupMCL35018 Lepidoptera specific
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS214355-TA
ATGTTTCAGAAATGGAAAATAATTCTTGCGAACTGGGATGTTGACATTAAGAAGGCAATGTGTTCCAAACTGGCCCCTGATGATCAGGAGGTTATTCTAAAGTTCAGTAAATGTTTGATGGACTGTCGTAATATATCTTTTAGGGATGTCATAACAGCAATAACAGAAGCGTGTGGGCAAGACACAGCTGGTCCACTCCTCACTGTATCGGAGACGCCTCCAGCATTACGGTCCTTACATAGTGAAGTCAGACACCTGAAAGCTGCTCTGGAAGCCGAGAGATTTGACAGGAATTATCTTCAAGAGGAATTAGCTAGAACTAATTTAAAGATGGAGAAGCTTGTCAAAGATAAAGAGCAATATAAACAAGATATAGCAAACTTGAAGTTCAAAATGCTGAGCTATGGACAAGAGAATGAATCTCAGAATGCTGAAGCCTCCAACAACAACGTAACCAAACTCATGAGGGATCTAGAGGAAACGGAGCAGCGCTTGGCCAATGTTCAGGAAGAGATGGATGAAGTGACATACGAAAGAGACACTTACAAGACCAAGGTGGAAGAACTTAAACGCGAACGAGATATGTTATCTAGTTTAAATCAAGAGGAATCGCTCAAGAACAGCCAACTGACAGAGGAATTAGAAACAGAGCGTAGACACGTGAACTCTCTGAAGGAATTGGTCTCAGAGCTACGGCAACACAACAGACTGAACGGCTTGGACTCCAGCCAGCTAGAATGTGATGACTTGGATGTCAGCGTACACTCACTACCCCATAATATATCCGTTTGCAGCGAGGTATGTGTTAATGTGGTTGAGGTGCAACTTAGCGAGGAGCGCGCTAAGATCGTAGTTCTCAAACAACAGATACAGACGTTGCAGGATCAACTCACGGATGTACAGAAAAAGTTTGAAGAGGAAAGCAAAAAGTATTCGGTGATTGTTTCTGAAAAAGATACTGACATATTAAATTTGAGACATCGGATCAATGAAGAAATTGAAGAAAGAAATACATTAAAAACACAATGTGATAACGAAATGACGAAATTGAATAACGAGGTCAACGAACTCGAGCAAAGGTTGAGAGACACGGGCGAAAACTCTAGGAGGATAATAGATTCTAAAATTCAAGAGATTCAAATTTTACAAGAAGAGAAGCTTTCTTTATTGAAGAGTTTGACCGACGAAACAACGAAACTTGGCAGCATTATACAGGACCTGAAGACGAGCTTGGACACCGAAAGAAGCTCTAAGATTAAAATGAGGGAAGAGATGGACGGTCAGATAATGAAATTGAAAGAGAAAGTTCTCAATAGAAACAACGAGTTGGTCGAGTTTCAAAACAAAATATTCGAGAAAGGTGAAAGGATTGAAATTCTGCAATCCGAGTTGAAGAAAGAGAAAGAATCTCACGGGGATTTCGTTAACAAATACAATAACGACATCATGAATTTAAATACGAGAATTCAAATACTAGAAAATGATCTGTACAAAAAGTCTGAAGAATTTAAAAACCTTGATGAACATTGTAAGGCATTACAAACGGATATACAGTATAGGGATGAGAAAATTATTATGTTACAAGTGGACATTGAAAAACTCAAGACGGAACACGAGAAAGAGAATCGGGAGTTGCAATACAATCTGGACGAGATTAATGCTACCGTTGGTACATTGAAAATACAACTACAGAATGAGATACAGTACAAAGTGACCGTGGAGACAGAACTACAAACGCTCAAAGAACATCTCAACGAAGTTATCAAAGAAGTTGATAGACTGACGAACACGAATACAGATTTAAATAAAGAATACAAACAAGAATTGGAAAAGAATATCATATTACAAGAGAGATGCGCAGAGTTGAATGAAGTCCTCGACAAGTTGAACAAAGATATTGTCGAAAAAGATTCCATCATACAGACAGCAGAACGAAATCTCTTAGAACAGAAATCACAGTTTGAAGAATCGTTACACAAGTTGGAAGAAGTTCTTAATTCAAATAACTGTAAATTAATATCGGAGACCAGTGAGAAAAATACATTGATTCAAAAATTAAATTCACTGTCCCAAGAGAGAGAGGCGTTAAATAAAGAAATTAATGACAATCATAATACAATATCTAATCTACAAACGGAAATGGAAAAATCATTAGAAACTTCACAGGAATATATAACAACTATAAAGAGACTTGAAGATGACATCGTTGACATCAAGAGACAGAAGGAATTAGATCAAAGGAATTACGATGTTGAAACGACCAAGCTTCTGACGAAAATAAACGAAGCTAACAAGACCGCGAAGGAGCTGCATACACTTAACAATAACACCATTAAAGCTAAGGAACTAGAAAATGACACTTTGAGAATGAATATTGGCAACATTGAAGCGAGACTACAGAGTCAATATGAGGAAAATAATAAGTTAGAACATGAAAAAACGGTTCTGATTGAACAACTCGGACAGTTGAATACACACAAGAACAACATCGAAAGGGAGTATATCAATAAATGTGCCTTGTTGAACAAAGTAAGCGCACAGATGAACGAGGAGATATTGAGGAAAAGCAAGGAGATAAAGATATACGAAGAGGAAATAAAATCTCTGTTGAAAATAAACAACGACAGAAAAGAAGAAATTAACTACTTGAAATGTAATATTGAAAAGGATATACACGAAAGAGATGCCAAAGTGGCGGAGTTATGCAAAAATATTAAAAGTCTAGATTCACAGTTGATTGATTCTCAAAACGAATTGAAAAACGTCATTGAGAAACATTCACAAGTGGTTGAAGCGCTTCAGGCGGAAAATGTCCAGTTGCACTACACCATAGAGGAGGACAATAGCAACCACGAACTGCTGGTTAAAGAGAAGGATGCTGTGATTGAAGAGTTGGAAACGCGACTGAAGAATGTTAACGACAGCATGAAACTGTTACAGACAGACTATGAAAACGATAAACATTTGTTTGAAAAGTTCAAAATCGACGTTCAGGAAGAGATATTGAAACGGGAAGAGCAGATAACGGAATTGAATGATAGATTAAGTAAATATGAAAGTAATATAAAGGAGAAGGAAGCAGAAATACATAACGCTGACGCACAGATTAATATATGGAGAGAAGAGAACGCTGTGCTAGTGAATGACTTGAATACTTTGAAGAAGGCGTATACAGAGAGCGCACAGAGCAACGACATGCTGAAGGAAAGTCTTCACGCTGAGAAATCAGCTAAAGACCTAATAGAAAATGAAAAACTAAGTTTACAAAGAGATAATGATTCTTTAGTCAAGAGAGTATCGGACAACGAACATGCTTACAAAATAATACTTTCAGAGAGGGACAGTCTGTTGAACGAGAAGGCGATATTAGTGCAGCAGTTAATGGAAGAACGATCGGTCAGGAAAATAGCAGATGAAGGCAAGGAAGCGTTACTGATGGAGGCCAGAGAGATGAATAGCAACTTGAAGTTGTTTGAAGAAATGAAACATATGTTACTACAGGAAAAAGAATGTCTAACGCAACAGCTCGTCGAAGAACGACATAGCAAAGAACTAGCTGAACAAGAAAAGGTAAATATCATGGAAGTCAAACACGCGCTGGAAGACAAACTGGTGGAAAATAATTCACTGATAAATAATCTACAAGAAAAGAACTATGCTCTACAAGAACAGGTACAAACACTGTCTACAAGCGTGGATGATTATGTTAGGCTGAATGAAAAATTACAAGGCGATACAAAACAGTTGCAAGAAGAAATAGATGAGTTAACGAAAGACAACGAAACACAAAAGGAAGAAATTACAAAAGCAAAAGCAGATGTACTGAAAACTGAAATAGAAGCGCTTAGCAAAGAAAATGAATCATTACTGAACACTTACAACCAAGTGAAAATCACGCTCGACAAGACGGAGTCTGAGAAAAGAAAGGCTGAAAACAAAATTTGTGAAGCAAACGATAAATTTGCTTCCGAAATTGAGAAAAAACAGGAAGAAATAAAGACAGTTTGGTTGGAATACGACCAACTTAAGGCGGAGTACAAAACTCTGGAAGAAGACAGAGAGAAAATGTCCTCTTTAGTTAGTTGTGGACTATCGAAAGTTATAAGTTGTTTAAAGAAAGATAATATTTGTAAAGAAATTATTCAACATTGCGATAAACATAACGAAACATACGAAGCTCAATGTAACGTGATATTCGATATAATAAACAATTTAACGTCAGACTTAGTGCTACGGAAGAATCTAGAAAAAGCTGTCGAACAAGGCAACACAGCTGTTAAGGACATAACGGAGACGTTGAAACAAAAAGAGCTCTTAGTGAACAAACTACAAGTTGAAATGAACGCTTTGAACAAAGTCCTAGATGATTCTAAAATAGAATTTGCAAAAAAACAAGAGAAAAATGATAAATTGCTAGAAACAAAGACAATTGAAATACAACATCTACTATTAGAAAATCAAACGCTTCGTAACGAACTTAACGATGTTAAAATACAGTTGGAAGTTAAGGTGCACTCTCTGAAAGACAAACTGATAGACAACGAGAACCTGACGGACAAGCTGAAGAAAACATACGAGTGCCAGATAGATAACTTGAACATGATGATATCAAAGCTGACGGCCTATCTGAAAGAAAAGACTTCAGAGCTGGACGCGATGAGGAATGACAAGGAGAGATTACAGCAAGCTCTCCAAGACAGCAATACAGCAATAAAATCACTGGAAGAGGAATTAAAAACTCAAAAGCAAAATCAAGAAAAACTCATAAGCGACTTTGAATCAGAGCGACTTGTTCTCAAGAATATGGTGACTGTCACTGAATCTGTTATGGAGGATCAGAAGATCGGTCTGAACAAGATTATAAGTGATAATATGAAAGAGAGAGAACATTTGATGAATGAAATAAAAGCTATGAAAGAATCTACAGACAACGAAAGAAAGGATTACGAGAGCAAAATCATGGAGAAAGAAGTAGTGTTACAAACGATGTTCAAAGAATTAGCCGACCTCAGAAACGACAAAGACACTTTAGAAATGAACACGATCTCACAAACTAATATGTATGAAAATAAGATCGAGACTTTGGAAGGAGATATTGTTAAGAAAACACGGGAAGTGGAGAGATTATACGATGAAATAAGGGACTTGAATGATGCATTGAATAAATATAAAGATGATATAACCGCCTTAGAGGAAATGAATAATGAATGGAAAATTAAAAACGATTCAATTGAAAGCGAATTTGGAGATAGAGTAAAAAAATTACAAGAAGATTATGATGTTCAAAGAAAATATACGGAAGATTTAAAAGAAGTCGTAGAGAAGAAATCAAAGGAAAATAACGAACTACAAAAAGTCATAGAGGATTTAACAAATAAGAAATTAGAAAATGAGATAAAAGCCAAAGAGGTTTTAAAGGTTAAAAATACAGAAATATTCAACGTCCAGAAAGAAAAGGAATCAGCGCTGTCAGATCTGCAAAAACAATTGCAAATCGAATTAGATAAACAAATAGAAAATGGTAAAGAGATATTAAATCTTAACAACAAATGCTCCATACTAGAAGAGTATCAAATTAAAGCTGACACGGAACTTGAAAGACGTCAAAAGGATATCGATGCTTTACACAACGAGATTAAGACACTCCACGCTCAAGTAGAAAATATAATGAGCGAGAGAGACAGAGATATTCGATGTCTCAAAGAGGAAAGAGACGCAAATAAAGATCTCGAAAAGGAAATAACAGAAGATAAAGACAGTCTAGAAATTCTTAAATGTGAATTGAAATTAAAGGAGGAAGAAATAACAGAATTAAAGAGAAAGTTGACCGGGAAGGTGGAAGAAGAAGACGTTATACGCATTTTAAGAAAGGAAAATGAGGAATTGATCAGAGCTATTGGACAAAGAGAAACTTTCTCCGTTGTCGGTCAGGAAAGGTCAAGCGTTCAATATTCTGGACAAACCGAAGGCCGCGTCCTCAAACAGGTAGATAACACATCTGACACACTTTCGTCTTTGGAGAGCATTAAAACCATTTCAGACTTAGAAAAGATAGTAGAGGACAAGAACAGGACAATAAAGACATTGCAATGTGACGTGGCGTTCATGAAAACCTTGTTCGCCGAGTCTGAAAACAAACTCCTAGACGTGACCAGGGATCTGGAGATGAGCAGAGAGAACTGTCAGCAGCTGTCGAATCAATTGAAGAAGATCGTCCATCAAAAGAACGAGGAGATAGCCGACCTGAAGAAACAAGTCACCAAGATGAGTGTCACGGAAAATAGAGCCACGCAAATAATAAAAGTGTCGGCGAAATATCAAGCTATCATATTGAAGAGGATCGCCGAAATAAAGTCCAATACGGTGCTGAAGGAACTGACGAACTTTGGAAACACGAACTGTGATAACGAGCTACGAAGGAGTTTGACCTCCGGCAGCATCACCATGGAAGACTTGGAGAACTTCCTGGAGACCACCGAGAGACATCTGAGACGTTGCTCCGAGAAGCAGATATCATTGCAGAAGGAACGGGACCGGCTCGCTGAAGTGAACAAAATAAACGAATCTGAAATAATAAACATGCAAAAGTTCCTAACGGAAATGTCAGTGAGCGTTAAGACTTTCAATTCGTTCAAGGAGTTGTATTCACAGAAGTTGACCAAAGTGACGTCCATACAACGGACGGTCAGACGGGAGATATTGAACCTCGAGAACAATATAACGGACTCCGCCATGTGTAGGTTAGAACGCGGGTACGCCGCAGCCATGCAAGACTTGTCAGAGTGTGCTATGAACTTCCAAAGGTGGATGGAACGTTGCATATCTCGTTCGATTTCCTCGGAGAAGATCAAGCAGGCGTTCTACAGTGAAACGGACAGAGTATCTCTGACTTCTGGGAGCTTCCAGAACGCTGGGTTGGAAGTTCAACTGGATGAATTGGATTGTAAGTTCCAGAAGCTTCTAGAAGAAATCACACGAGCGCAGAAGGGCGAGGGCGCTAAGGACGTCCAGTCGCTTACCGTTTTGGAGGTACGAGCGGAATACGAGGACAAACTCAACAGGATGAAGGCGAAAATGAAACAATTGTACCAAGAACAGATAACCATATTCAAAGAGAAGCAGCGACAGGAGATTTTGAATTTGGAACAAGAACTGCAAAAGGCACGCCAAGATCTGAGAGAGTCGAGCCGAGGTTACGAGGAGTATATAAAGGAATTGACGAAGGAGCTGTGGAACGTTGGAGAGAAGTTTGTGATGAAACACGACGAGGCGGAGTGGCTCAGGAAGAAACAGAGGCACGGCTCGCTCATGTCACTGCAACATGTACATTCGTCTGGCCTCGTTCCTCTTCAAGAACCTCCTCGACCGTCAGACACGCATTCTCTCCGGTCGCTGCCTGTGAATAATAACGACAAAACAAAAGAAGGTCGCACCCTTCACATGTCTGATGAGGAAGGAGAGGTGTTCGACAATCGTTGGCTGCGAGAGTTAGCTTCGACGCCGCGAGCTCACCCTCGAGAGTCGCACCCTCAGGAGCCGCACCCCCCGCACCGCTTATCAGAGCTGCGCTGGCGTAACTCACTCTGCGGCGGTGTAGATTTCTCGAGCATTCCCGCTGAGACCCAGTTCGTCTCCGCGTTGCACGAGGAAGACATCAAGAACCCCGGCGGTCCGAGCATGTCTCTGGGCGGTCGTCAACGTAAAGAGGTTGGCATCACGGCGTACAAGAAGCCCGGGCCCCCCACACCCAGCAAGCAGGCCGGCCGACTGTCCGCTACTGACTCGGAGCTCCGGGAGTGCGTGCGTGAGGCGAGAGACGGAGCTACCAAGCGAGGGACTCCTTCACGGATACGAGCCTTGTTCAGATCGAAGAATGACACCGTAGAGAGCACACCCAAAGGCAGGAGATTGAGCAACATTTTTAGAAAGAAATGA

Protein sequence:

>DPOGS214355-PA
MFQKWKIILANWDVDIKKAMCSKLAPDDQEVILKFSKCLMDCRNISFRDVITAITEACGQDTAGPLLTVSETPPALRSLHSEVRHLKAALEAERFDRNYLQEELARTNLKMEKLVKDKEQYKQDIANLKFKMLSYGQENESQNAEASNNNVTKLMRDLEETEQRLANVQEEMDEVTYERDTYKTKVEELKRERDMLSSLNQEESLKNSQLTEELETERRHVNSLKELVSELRQHNRLNGLDSSQLECDDLDVSVHSLPHNISVCSEVCVNVVEVQLSEERAKIVVLKQQIQTLQDQLTDVQKKFEEESKKYSVIVSEKDTDILNLRHRINEEIEERNTLKTQCDNEMTKLNNEVNELEQRLRDTGENSRRIIDSKIQEIQILQEEKLSLLKSLTDETTKLGSIIQDLKTSLDTERSSKIKMREEMDGQIMKLKEKVLNRNNELVEFQNKIFEKGERIEILQSELKKEKESHGDFVNKYNNDIMNLNTRIQILENDLYKKSEEFKNLDEHCKALQTDIQYRDEKIIMLQVDIEKLKTEHEKENRELQYNLDEINATVGTLKIQLQNEIQYKVTVETELQTLKEHLNEVIKEVDRLTNTNTDLNKEYKQELEKNIILQERCAELNEVLDKLNKDIVEKDSIIQTAERNLLEQKSQFEESLHKLEEVLNSNNCKLISETSEKNTLIQKLNSLSQEREALNKEINDNHNTISNLQTEMEKSLETSQEYITTIKRLEDDIVDIKRQKELDQRNYDVETTKLLTKINEANKTAKELHTLNNNTIKAKELENDTLRMNIGNIEARLQSQYEENNKLEHEKTVLIEQLGQLNTHKNNIEREYINKCALLNKVSAQMNEEILRKSKEIKIYEEEIKSLLKINNDRKEEINYLKCNIEKDIHERDAKVAELCKNIKSLDSQLIDSQNELKNVIEKHSQVVEALQAENVQLHYTIEEDNSNHELLVKEKDAVIEELETRLKNVNDSMKLLQTDYENDKHLFEKFKIDVQEEILKREEQITELNDRLSKYESNIKEKEAEIHNADAQINIWREENAVLVNDLNTLKKAYTESAQSNDMLKESLHAEKSAKDLIENEKLSLQRDNDSLVKRVSDNEHAYKIILSERDSLLNEKAILVQQLMEERSVRKIADEGKEALLMEAREMNSNLKLFEEMKHMLLQEKECLTQQLVEERHSKELAEQEKVNIMEVKHALEDKLVENNSLINNLQEKNYALQEQVQTLSTSVDDYVRLNEKLQGDTKQLQEEIDELTKDNETQKEEITKAKADVLKTEIEALSKENESLLNTYNQVKITLDKTESEKRKAENKICEANDKFASEIEKKQEEIKTVWLEYDQLKAEYKTLEEDREKMSSLVSCGLSKVISCLKKDNICKEIIQHCDKHNETYEAQCNVIFDIINNLTSDLVLRKNLEKAVEQGNTAVKDITETLKQKELLVNKLQVEMNALNKVLDDSKIEFAKKQEKNDKLLETKTIEIQHLLLENQTLRNELNDVKIQLEVKVHSLKDKLIDNENLTDKLKKTYECQIDNLNMMISKLTAYLKEKTSELDAMRNDKERLQQALQDSNTAIKSLEEELKTQKQNQEKLISDFESERLVLKNMVTVTESVMEDQKIGLNKIISDNMKEREHLMNEIKAMKESTDNERKDYESKIMEKEVVLQTMFKELADLRNDKDTLEMNTISQTNMYENKIETLEGDIVKKTREVERLYDEIRDLNDALNKYKDDITALEEMNNEWKIKNDSIESEFGDRVKKLQEDYDVQRKYTEDLKEVVEKKSKENNELQKVIEDLTNKKLENEIKAKEVLKVKNTEIFNVQKEKESALSDLQKQLQIELDKQIENGKEILNLNNKCSILEEYQIKADTELERRQKDIDALHNEIKTLHAQVENIMSERDRDIRCLKEERDANKDLEKEITEDKDSLEILKCELKLKEEEITELKRKLTGKVEEEDVIRILRKENEELIRAIGQRETFSVVGQERSSVQYSGQTEGRVLKQVDNTSDTLSSLESIKTISDLEKIVEDKNRTIKTLQCDVAFMKTLFAESENKLLDVTRDLEMSRENCQQLSNQLKKIVHQKNEEIADLKKQVTKMSVTENRATQIIKVSAKYQAIILKRIAEIKSNTVLKELTNFGNTNCDNELRRSLTSGSITMEDLENFLETTERHLRRCSEKQISLQKERDRLAEVNKINESEIINMQKFLTEMSVSVKTFNSFKELYSQKLTKVTSIQRTVRREILNLENNITDSAMCRLERGYAAAMQDLSECAMNFQRWMERCISRSISSEKIKQAFYSETDRVSLTSGSFQNAGLEVQLDELDCKFQKLLEEITRAQKGEGAKDVQSLTVLEVRAEYEDKLNRMKAKMKQLYQEQITIFKEKQRQEILNLEQELQKARQDLRESSRGYEEYIKELTKELWNVGEKFVMKHDEAEWLRKKQRHGSLMSLQHVHSSGLVPLQEPPRPSDTHSLRSLPVNNNDKTKEGRTLHMSDEEGEVFDNRWLRELASTPRAHPRESHPQEPHPPHRLSELRWRNSLCGGVDFSSIPAETQFVSALHEEDIKNPGGPSMSLGGRQRKEVGITAYKKPGPPTPSKQAGRLSATDSELRECVREARDGATKRGTPSRIRALFRSKNDTVESTPKGRRLSNIFRKK-