Monarch geneset OGS2.0

DPOGS212813
TranscriptDPOGS212813-TA3588 bp
ProteinDPOGS212813-PA1195 aa
Genomic positionDPSCF300086 - 510316-517843
RNAseq coverage462x (Rank: top 27%)
Annotation
HeliconiusHMEL0081790.055.71% 
BombyxBGIBMGA000757-TA6e-11669.01% 
DrosophilaCG5728-PA4e-5634.64% 
EBI UniRef50UniRef50_F5CET32e-10664.52%Programmed cell death 11-like protein n=1 Tax=Spodoptera litura RepID=F5CET3_SPOLT
NCBI RefSeqXP_001866588.11e-7340.69%programmed cell death protein 11 [Culex quinquefasciatus]
NCBI nr blastpgi|3307794048e-10664.52%programmed cell death 11-like protein [Spodoptera litura]
NCBI nr blastxgi|3307794044e-12157.42%programmed cell death 11-like protein [Spodoptera litura]
Group
Gene OntologyGO:00037231.2e-12RNA binding
GO:00054881.3e-06binding
KEGG pathwaydtu:Dtur_13793e-08 
 K02945 (RP-S1, rpsA)maps-> Ribosome
InterPro domain[419-512] IPR0160278.5e-16Nucleic acid-binding, OB-fold-like
[427-506] IPR0229672.4e-15RNA-binding domain, S1
[422-509] IPR0123402.6e-13Nucleic acid-binding, OB-fold
[427-506] IPR0030291.2e-12Ribosomal protein S1, RNA-binding domain
[1108-1148] IPR0119901.3e-06Tetratricopeptide-like helical
Orthology groupMCL13265 Single-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS212813-TA
ATGACTGAGACCGAAGAATACTTCCCTCGTGGTGGTAAAAAACCTACGACTACATATTTTAAGCAAAGTGAAAACTTTTTAGGAGCTCCGGATAAGGGAGAGAAGAAGAGGAAAAGACAAAAAAAGAAATCTGAAGATGATGATGGCTACTTATCAGATGATTTTACACAAGAAATTGATCAATCTTACAAAACTTGTGGAATATTTTTAAATTATAGGGTTGTGAAAGAAGGTCTGCTATTGTTAGGAAGAGTGCGACGAGCTCTTGAAACTAAAATATTGGTATCATTACCATGTAGAATGAGTGGTGTGGTCATGGCTTGTCACATTAGTGATGCATTCAATAACATACTGGAAGCTTATGTCAATGATAAGGTGGACCAAGTCCGCGAGCTGCCGCAAATGTTTCGACTGGGACAGTATGTAGCTGTGAAAGTCTTGGAGGCATCAGACAATTCACTAACACTTACAATGATGCCACAAGACATTAATTCCGATAGAAAAGCTACGGATCTCCACAAAGGAGCACTTATCCAAGCTGCGGTCACATCAATTGAAGACCACGGCTATGTAATGGACATTGGCATCCCTAACACTAGAGCCTTCTTGGCTAAAGATACTGCAAACTCAGACATGGAACTCGATATTGGTATGCTGACATGGGTGACCATCAAATCTCTGTCCGCTGACTCCAACGTCGTCACCCTGAGCTCCGAGCTGGGCGCTCTGCAGCGATCCTTCCAGAGGAATCCAGGTGTTATATATCCTGGAACCGCTGTGGATTTCACCGTACATAAGGCTCTGGACAACGGTATCGAGGGACACATCTTGAACAATCAACTCGCGTACATACAAAGACATCAAATAGACACTGTGAAGGGAAAGAAGCCGGCGCTGGGACAAAAGATCAGAGCCCGTCTGCTGTACTCCGTCCCACCGCAGCAGACCCCATTCTTAACTATGAGAGAAATATTCGACTCCTCAAAAACAAACTTGAACGAGGAACAGATACACCAGGACGGTGACGTCATCGAGGAGGCAAAGGTGTTGAAGAGTTGGGGGCGCACAGTGTTCCTCCGCTTGTCAGATCGCTCCACCGGCTTCCTCTCCTTAAGACGAGGCCATGACTTCAACGACCACGACGACCTCGCTAAGTCATACCCAATAGGCAGTACCCATCGCGTGCGCGTCCTGTGTTACAATCTGTCGGACTACGTGTACTCTGTGAGCGACGACCCCGCCCTCTTGCGGCAGAAGTACTTCAACATCTCACAGCTGAGTGTGGGGGAGCTGGTCTCCGGGACCGTCACCGAGGTCGCCGACCAACACCTCAGGGTCGCGGTGGACCGGATCAGCGGCTACGTTCCCCGCGCGCACATGACGGAGACCGGCGTGTTCATTGATCCCAAAAAGCCGAGGAATTCAAATGTATCCAAGAAATATAAGGTGGGTCAAGAGGTCCAGGCGCGGGTGCTGGTCGTGGACGAGACCAAGAACTCTGTGGTGTTGACCTTGAAGCCGTCCCTGCTGGCGGAGGACCTGCCTCTACTGATGGATTACAGTGAGGCGCACGTCGGCAAGATGTACACCGGGGTTATATCGCACATAAAACATTACTTGCTGGTGTCGTTCTTCAACAACGTGGTGGCGTATGTACCGAGCCGGTTGGTGGGGGCGCAGCCCGGGGACCTCGCTGACGCCTTCCACACGGGACAGATCGTGAAATGTACCATAATGTCTGTTAAACCGGAAGCTAAAAAGATGTCTGGCAGCCTCGTCGACGCGCCTTTCCAGGACGCTGACAATGAAGTTAAGAAGGCAATTAAACGGAAAAATGAAAGTTACGGCAACCAGGGAAACAGCTCAGATACAGACAAACATAACGAGCAGCCAGAAGATAAGATTCAGAAGAAGAAGAGAAAGAAGAATAATGAAGAGAAGTTGAAGACAGATAGGAATTTAAATGAAGAAGCGAATTGTGATGAAACAGAAATGGTAAGCGAAAAAAACGATAAGACTGACGTCAAGAGTCCAGAGAAGATCAAGAAAAATAAAAAACGTGAAGATAAGGTTGCGACAAACAAGGAAAGTGAAACGAAAGGTGCCAAAAATAAAAACGAAAAAGAAAATATAAATAAGAAGGAGCTGAAGAAACAGCAAAAGAACAAAGATAATAAAAAAAATAAAATCAAACGGAAATCTGAAGAAAGTCACGAAACACAGGATGGTGTGCCGACGCTGAACCCGATAGAGCTGAGACTCGTGGATTTAAGCGACTGCGACACAGAGAAGCATTACAAGAAGAGGGTCGTCTCTCTGATGAAAGCGATAAATGCGAGACTACATCGCATAGAACGCGTGGACAAGAAAATGGCTGCTTTACAGGGCGTAGGCCCCGATCCCAAGAAAATGCTTTTACGGTCAGAAATGCATTTGGAGAAAACGAATAATGAAGACAGATTAAAGTTATTTATGAAAGCTCTGAGAGAGGCGGAGAAGAAATTAAGTGAATTTAACAAAGATTCTGAGATCGACAACCCAAAAGAAGCTAAAGTAAAGGGAAATAGGATCCTGAAAATACCGAGCGCTAAGGAGTTTTGGAAGGTCTCGGAGAAGACGGAGGTTGTTCAAGATGACTCCAGCAGCAGCGATGATGAGGAAGAAGAGAAGCCTAAGAAGAAGCGTAAAAAGTTATCAGCAGCAGAAAAAGCAGCCAAAGTCAGAGAAGAGGAGGAGAGATTGCGAGAAATGGAAAAGAGAGCGATAGACAGCGAGAGCTCTCCGCGCTCCAGCGAACAGTTCGAGAGAGCTCTCCTCGCACAGCCTGACTGTAGTCAGCTGTGGATAGCGTACATGGCATTCCATTTACAGGCGACAGAAATAGAAAAAGCGAGGGCGGTCGCTCGCAAGGCGCTGAACACAATCAACTTCCGGGAGGAGGGCGAGAAGCTCAACGTGTGGCTCGCGCTACTCAATCTGGAGCATCGCTTCGGAACCAAGGAAACTCAACAAAAAACCCTGGAAGACGCGCTACAAATGAATGACACGTACAGCATTCACTCCAAGCTGCTGGACATTCTGGTGGAGACCAGTAAACAACAGGAGCTGACGGCCTTAGTAGAGCTGATGATGAGGAAGTACAAGACCTTGGAGTCGTACGTGGCGTGCGGAGAAGCTTGTTACAAGTCGGGCATGGTGGAGAAGGCGAGGCACGTCATGCAGAGAGGCATAGTCGTGTTGGAGAAGAAGGAACACGTATCCATGGTGGTGAAGTTCGCTGTGATGGAGCGGGCGCGGGGAGTCCCCGACGGTCGGGAGAGATGTGAAGCGCTTCTGGAACAGATGCTGGCCACCTACCCTCAGAGAGTGGACGTGATTGGGGTCTACTGCGACATGCTGTGCAAGGAAGGAGACGTCCAGAGAGTCAGACAACTCATGGAGCGAATGACGGCGCAGAAGATGCCAGCGAGGAAGATGAAGGTGTTGTACAAGAAGTGGATAGAAGTAGAACAGAAGATCGGAGACGAAGAACACGTGGAGCTCGTGCGGCAGAACGCCTTGAAGTTCTTAGATAAAGCCAAATTCTGA

Protein sequence:

>DPOGS212813-PA
MTETEEYFPRGGKKPTTTYFKQSENFLGAPDKGEKKRKRQKKKSEDDDGYLSDDFTQEIDQSYKTCGIFLNYRVVKEGLLLLGRVRRALETKILVSLPCRMSGVVMACHISDAFNNILEAYVNDKVDQVRELPQMFRLGQYVAVKVLEASDNSLTLTMMPQDINSDRKATDLHKGALIQAAVTSIEDHGYVMDIGIPNTRAFLAKDTANSDMELDIGMLTWVTIKSLSADSNVVTLSSELGALQRSFQRNPGVIYPGTAVDFTVHKALDNGIEGHILNNQLAYIQRHQIDTVKGKKPALGQKIRARLLYSVPPQQTPFLTMREIFDSSKTNLNEEQIHQDGDVIEEAKVLKSWGRTVFLRLSDRSTGFLSLRRGHDFNDHDDLAKSYPIGSTHRVRVLCYNLSDYVYSVSDDPALLRQKYFNISQLSVGELVSGTVTEVADQHLRVAVDRISGYVPRAHMTETGVFIDPKKPRNSNVSKKYKVGQEVQARVLVVDETKNSVVLTLKPSLLAEDLPLLMDYSEAHVGKMYTGVISHIKHYLLVSFFNNVVAYVPSRLVGAQPGDLADAFHTGQIVKCTIMSVKPEAKKMSGSLVDAPFQDADNEVKKAIKRKNESYGNQGNSSDTDKHNEQPEDKIQKKKRKKNNEEKLKTDRNLNEEANCDETEMVSEKNDKTDVKSPEKIKKNKKREDKVATNKESETKGAKNKNEKENINKKELKKQQKNKDNKKNKIKRKSEESHETQDGVPTLNPIELRLVDLSDCDTEKHYKKRVVSLMKAINARLHRIERVDKKMAALQGVGPDPKKMLLRSEMHLEKTNNEDRLKLFMKALREAEKKLSEFNKDSEIDNPKEAKVKGNRILKIPSAKEFWKVSEKTEVVQDDSSSSDDEEEEKPKKKRKKLSAAEKAAKVREEEERLREMEKRAIDSESSPRSSEQFERALLAQPDCSQLWIAYMAFHLQATEIEKARAVARKALNTINFREEGEKLNVWLALLNLEHRFGTKETQQKTLEDALQMNDTYSIHSKLLDILVETSKQQELTALVELMMRKYKTLESYVACGEACYKSGMVEKARHVMQRGIVVLEKKEHVSMVVKFAVMERARGVPDGRERCEALLEQMLATYPQRVDVIGVYCDMLCKEGDVQRVRQLMERMTAQKMPARKMKVLYKKWIEVEQKIGDEEHVELVRQNALKFLDKAKF-