Monarch geneset OGS2.0

DPOGS203048
TranscriptDPOGS203048-TA2544 bp
ProteinDPOGS203048-PA847 aa
Genomic positionDPSCF300206 - 6992-11505
RNAseq coverage541x (Rank: top 23%)
Annotation
HeliconiusHMEL0128930.084.84% 
BombyxBGIBMGA014046-TA0.078.25% 
DrosophilaCG8939-PA0.050.54% 
EBI UniRef50UniRef50_Q17ME60.052.18%Ribosomal RNA methyltransferase n=5 Tax=Coelomata RepID=Q17ME6_AEDAE
NCBI RefSeqXP_001599955.10.057.96%PREDICTED: similar to ribosomal RNA methyltransferase [Nasonia vitripennis]
NCBI nr blastpgi|3320258040.058.52%Putative rRNA methyltransferase 3 [Acromyrmex echinatior]
NCBI nr blastxgi|3454814360.057.19%PREDICTED: putative rRNA methyltransferase 3-like [Nasonia vitripennis]
Group
Gene OntologyGO:00081680methyltransferase activity
GO:00015100RNA methylation
GO:00056349.5e-66nucleus
GO:00063649.5e-66rRNA processing
GO:00322591.2e-55methylation
GO:00036761.2e-55nucleic acid binding
KEGG pathwaymgr:MGG_081404e-142 
 K00599 (E2.1.1.-)maps-> Naphthalene and anthracene degradation
    Tyrosine metabolism
    Histidine metabolism
    Selenoamino acid metabolism
InterPro domain[1-826] IPR0155070Ribosomal RNA large subunit methyltransferase E
[596-819] IPR0129209.5e-66Spb1, C-terminal
[24-200] IPR0028771.2e-55Ribosomal RNA methyltransferase RrmJ/FtsJ
Orthology groupMCL14228 Single-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS203048-TA
ATGGGAAAGAAAACGAAAGTAGGAAAACAGCGAAAAGATAAATATTATCAACTTGCTAAAGAAACAGGTTTTAGGTCAAGAGCTGCTTTTAAGTTAATACAGTTAAATCGAAAATTTGGTTTTCTCCAAAAATCGCGAGTATGTATCGATTTATGTGCTGCTCCCGGAGGATGGATGCAGGTGGCTCACCAAAACATGCCTGTATCCAGTGTTGTAATAGGTGTCGATTTGTTCCCTATAAAACAAGTACCTGGCTGCATCAGTCTGACTGAGGATATAACAACAGAAAAATGTAAAACTGCTATTAAGAAAGAAATCAAAACATGGAAAGCTGATGTTGTACTTCATGATGGTGCTCCAAATGTTGGTCTAAATTGGATCCATGATGCTTACCAGCAGGCTTGCCTCACTTTAAGTGCATTAAAATTAGCATCACACTTCTTGAGAGAAGGTGGATGGTTTGTGACTAAAGTCTTCAGGTCAAAAGATTATCATGCATTACTGTGGGTGCTAAAACAATTTTTTAAGAAAGTACATGCTACAAAACCACAAGCATCTCGTAATGAATCTTCTGAGATATTCGTTGTGTGCCAAGGATATATAGCCCCAGACAGTATTGATCCCAAACTTTTAGACCCGAAACATGTGTTTGAAGATCTTGAAATAGTTAAAAAGCAACAAATGAATCTTTTGCATCCTGAAAAACAGAAAAAACCCAAAGCTGAGGGTTATAAAGAAAATGATTACACAACATACCACAGTGTTCCTATATCAGAATTTTTGGATAAAGAGGATCCCATAGACTTACTACAGGGGTGCTCTGAGATAATAATAGATGATAAATCTGTACTCAGCCATCCTAAGACCACAAAAGAAATTATAGAATGCTGCAAAGACATAAAGGTTTTGGGAAGGAAGGATGTGAAAGCTCTTTTAAGTTGGATAAAACATCTCAAAGATTGGAAAGCATCGCAGAATGCTACAGAAGAAACAGAGAAGAAAGATGACAATGATAAAGAAGTAGAAGAAGCTTCTGGTGATGAAAATGATAAAGTCGATAATGAGATAGCTGACCTACAGGATGAAGAAAAGAGGCAACTGAAACGAAAAAGGAAGCAGTTGAATAAACAGAGACAGAAATTAGCGGAGAAAATGAACCTTAAAATGGTTTTGAAAGGAGATGATGGACCAATATTAGAAAGCCATGACATGTTTTCTCTCTCCGACATCAAGAACACCCAACAATTAAATATGATAGTTGACCAACAACCAGACATAGTATTGGAGAAAGAGGATTCCGATGACGAATTGAAGAAGAAGGCGAAGTTTGTTAAATATGATATAGAGGAATCCAAGCTGGATTCATCAGGACTGTTCTACAAGGATTCCGACAGTGAGCTGGAAATGGAATCCGATTCGGACGATGAAAAGGAGAAAGAGACTTTGGCATTTTCTGACTCCGACAATGAATCAAAGAAAATTGACAAGCTGACAAAGTTGAATACATTGAGGAACAGCAAGATCAGTAAAGAAAAGCCCATACCTAAGAATAATCCATTGCTGACAGACCTCGACGACACAGATCCAGTGTCTAAGAGAACTAAGAAGGCTGAGCTCTGGTTCGAGAAGGACAGCTTTAAAGAAGTTGATGAGGAAGATGACGAAGGAGTCGACTTGGATAAATTAGCTGAGACATACAGGGGTAAAGGAAAAAAGGTAAAGGATCTGTCAATGGGAATAAGTGACATAAAGAAGTCTGGTGTGAAGAGGAAGAACGAAGAGAGTTCAGAGGAATCATCGGACAGTGATTATGATGTGGAGGAAAATGTGTCGCCTACTGATAAAAGTGGAGCAAAAACAACAAAGAAGGATGGATTTGAAGTGGTCACACAGGATCCCGAATTAAAGCGTCTGAAGAAAAATTTAAAAATGGATGCTGAAACTCTAGCGTTGGGCACAATGATAGCCACTTCGAAGAAATTTAAACGAGACCTAATCGATGATGGCTGGAATCGATACGCCTTCAACGATACTAACCTACCTGATTGGTTTGTAGAAGACGAAAAGAAACATATGAGGAAAGATATTGTAGTACCAGAGAAATACACCGAGGAGTACAAAAATAGATTACAAGACATAAACGCAAGACCAATCAAGAAGGTTGTCGAAGCAAAGGCTAGGAAGAAGAAGCGTATGATCAAGAAAATGGAACGAGCGAAGAAGAAGGTCGAGGCTGTTATGGAAAACGCTGATATGTCAGAAAGAGAAAAGGCTCAACAAGTTAGACAGCTGTATAAAAAGGCGCAAACAGAAAATAAAAAGAAAGTCACATATGTGGTCGCCAAAAAACATACGACCGCCAAACGTATGAAACGACCTACCGGGGTGAAGGGTCAATATAAAGTGGTGGATCCGAGGATGAAGAAAGATCTACGAGCCCAGAAGGCGAAGGAGAAAACTAAGGGTCGCGGCAAGAAAGCGGGCAAGACGGGCAAGACAAACAAACAGAGACCCGCGAAGAAAAAAGGGAATAAGGCCAAATGA

Protein sequence:

>DPOGS203048-PA
MGKKTKVGKQRKDKYYQLAKETGFRSRAAFKLIQLNRKFGFLQKSRVCIDLCAAPGGWMQVAHQNMPVSSVVIGVDLFPIKQVPGCISLTEDITTEKCKTAIKKEIKTWKADVVLHDGAPNVGLNWIHDAYQQACLTLSALKLASHFLREGGWFVTKVFRSKDYHALLWVLKQFFKKVHATKPQASRNESSEIFVVCQGYIAPDSIDPKLLDPKHVFEDLEIVKKQQMNLLHPEKQKKPKAEGYKENDYTTYHSVPISEFLDKEDPIDLLQGCSEIIIDDKSVLSHPKTTKEIIECCKDIKVLGRKDVKALLSWIKHLKDWKASQNATEETEKKDDNDKEVEEASGDENDKVDNEIADLQDEEKRQLKRKRKQLNKQRQKLAEKMNLKMVLKGDDGPILESHDMFSLSDIKNTQQLNMIVDQQPDIVLEKEDSDDELKKKAKFVKYDIEESKLDSSGLFYKDSDSELEMESDSDDEKEKETLAFSDSDNESKKIDKLTKLNTLRNSKISKEKPIPKNNPLLTDLDDTDPVSKRTKKAELWFEKDSFKEVDEEDDEGVDLDKLAETYRGKGKKVKDLSMGISDIKKSGVKRKNEESSEESSDSDYDVEENVSPTDKSGAKTTKKDGFEVVTQDPELKRLKKNLKMDAETLALGTMIATSKKFKRDLIDDGWNRYAFNDTNLPDWFVEDEKKHMRKDIVVPEKYTEEYKNRLQDINARPIKKVVEAKARKKKRMIKKMERAKKKVEAVMENADMSEREKAQQVRQLYKKAQTENKKKVTYVVAKKHTTAKRMKRPTGVKGQYKVVDPRMKKDLRAQKAKEKTKGRGKKAGKTGKTNKQRPAKKKGNKAK-