Monarch geneset OGS2.0

DPOGS201566
TranscriptDPOGS201566-TA1968 bp
ProteinDPOGS201566-PA655 aa
Genomic positionDPSCF300201 + 40125-44983
RNAseq coverage331x (Rank: top 35%)
Annotation
HeliconiusHMEL0047131e-16176.56% 
BombyxBGIBMGA006114-TA0.063.98% 
DrosophilaCG2614-PA3e-15745.17% 
EBI UniRef50UniRef50_E2BQP65e-16346.55%Putative methyltransferase KIAA0859-like protein n=3 Tax=Formicidae RepID=E2BQP6_HARSA
NCBI RefSeqXP_001845139.13e-17046.59%CGI-01 protein [Culex quinquefasciatus]
NCBI nr blastpgi|1700345557e-16946.59%CGI-01 protein [Culex quinquefasciatus]
NCBI nr blastxgi|1571274181e-17147.48%hypothetical protein AaeL_AAEL002186 [Aedes aegypti]
Group
Gene OntologyGO:00081521.3e-09metabolic process
GO:00081681.3e-09methyltransferase activity
GO:00038243.7e-06catalytic activity
KEGG pathway 
InterPro domain[55-157] IPR0132161.3e-09Methyltransferase type 11
[454-535] IPR0010453.7e-06Spermine synthase
Orthology groupMCL13612 Single-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS201566-TA
ATGAATCTTCTCCCAAAAACCTACAAGGAATTTGGTGAAAAAGACTATTGGAATAAGTTTTTTAAAAACAGAGGCAATAAAGCTTTTGAATGGTATGGAGAATATTTAGAACTGTGTGCTCATCTACACAAATACATTAAACAGACCGACAAGGTCCTTATACCTGGATGTGGAAACTCCAGCCTGAGTTCTGATCTTTATGATGTTGGCTATAAGAATATCATTAACATTGATGTCTCGGAAGTGGTAATAAAACAGATGAAAGCTAAGAATGCACATAGGACAGATATGTCATTTTTACATATGGATGCTCTCAACACAACATTTAATAACGATGAATTCAATGTAGTGCTGGACAAAGGAACCTTAGACGCTCTTATGCCAGATGATTCAACTGAAACTCTTCTGAGAATAGACAGTTATTTCTCGGAAATTAAAAGATTATTGAAGTTAGGGGGAAGGTTTATTTGTATATCCTTGCTGCAGGGTCACATTTTGAGTAAGTTGATAGACTTCTTCTGTGACAAATCCTGGTTGTTAAGGATCGTAAGGTGTCATGAGGCTGAGGAAAAAAGTGCAGAGAGCGATGAAGGAACAACATTACCAGTATTCATTGTTGTTGCCACCAAATTTAAGGAATGTCCGAGATTAATTCTAGAAGTATGTATGGCGGGTGAGAAGATGCAGAGTGTTCAATCCACAGACGAACTGAAGTCGATAATTAAATCCGTTCAGGATACAGCGTTTGTCACTAATGGACTGGCTAAGGCAGATCTGGATGAAGACGACGAGGTCTGCTTGGACCTCATGCAGCCTGGGGACACAAACCCTCGATACACACTTTTCATCATAAACCAGAAGAAATATCAGACGGTGAACAAGTATGCGGTGTTTATTGTGCCTCAGGGCAGGCAATGTGAATGGTTATTTGGCACACCAGCCGGTAGGAGACAACTCCAGGATTCAGCACGATTTGGCCGGTTGGTTGTAGCCTGTCTGAACAGAGGACATCAGTTCCCAAGCCTTGATGCCGTCAAGGACGAACTGGCTCATGCTGCCAAGATGCTAATGCCCAATGGGTTCAGTGGACAGATACCGTTCCTGTCCCTGGGTGACGTCGGGTCGCGCAGTCAGGTGTGGTCCGGCGAGTCGTGTTCGGGGCCTTACGTGGTGGAAGATGTGTCCGTGGACGGGATCCTCCACCGGCGGCTGGTGTTCCTTCATCACCAGGGACTGGTGCAGTCCGAGGCGAGGTTAAAGACTGTTAAAAGGAAGAATAAATCCAAGCTGGTGGTGGACTTCGGCGCCGTGTCCTTGTACCATTCAATAATGACCCTCGGCTTACATCTCAACGACGCTGTCAGCGGCGAGGTCGCGGTGCTCGGCCTCGGAGGTGGCGGCCTCTGCATGTTCATTAAGAAATGTTACGACGACGTTAAAGTAACGGCCGTCGAAATAGACGCGGACATGCTGGACGTGGCTAGAGAATACTTTGAGCTGGAAGTCGACGAACGTCTGGAGGTGCAGGTCAAAGATGGTCTGCAATTTTTACAGGAGGAAGCCAATGCTGGTAAGCAGTACTCGTGCGTGATGTACGACATGGACAGTAAGCAGCACGCGGGTGTCTCCTGTCCCCCGGAACAGTTCCTGGAGGAACACGCGCTGGAGCTGCTGGTGGCTGTGCTGGGGACGGGACAATTCATCCTAAACTTTGTATGTCGAGATAAGCAGATACGGGAGTCGACGTTGGACGTATTGAAGAAATACTTTAAATATATCGCGACCGTCCAGCTTGAGACAGAGGTCAATGAAATTATATTTGCAACGAACGGAGACAGAGCGTACGACGCGCAGAGGATAGAAGCGGCCGTGACCGACGTGAACCAGGCAGCGAGGCAGAGGAAACTCGTTAAACTGAAATGTATAGACATGAAGGATGTCCTTGACACGCTCAGTGTAGTTAAATAG

Protein sequence:

>DPOGS201566-PA
MNLLPKTYKEFGEKDYWNKFFKNRGNKAFEWYGEYLELCAHLHKYIKQTDKVLIPGCGNSSLSSDLYDVGYKNIINIDVSEVVIKQMKAKNAHRTDMSFLHMDALNTTFNNDEFNVVLDKGTLDALMPDDSTETLLRIDSYFSEIKRLLKLGGRFICISLLQGHILSKLIDFFCDKSWLLRIVRCHEAEEKSAESDEGTTLPVFIVVATKFKECPRLILEVCMAGEKMQSVQSTDELKSIIKSVQDTAFVTNGLAKADLDEDDEVCLDLMQPGDTNPRYTLFIINQKKYQTVNKYAVFIVPQGRQCEWLFGTPAGRRQLQDSARFGRLVVACLNRGHQFPSLDAVKDELAHAAKMLMPNGFSGQIPFLSLGDVGSRSQVWSGESCSGPYVVEDVSVDGILHRRLVFLHHQGLVQSEARLKTVKRKNKSKLVVDFGAVSLYHSIMTLGLHLNDAVSGEVAVLGLGGGGLCMFIKKCYDDVKVTAVEIDADMLDVAREYFELEVDERLEVQVKDGLQFLQEEANAGKQYSCVMYDMDSKQHAGVSCPPEQFLEEHALELLVAVLGTGQFILNFVCRDKQIRESTLDVLKKYFKYIATVQLETEVNEIIFATNGDRAYDAQRIEAAVTDVNQAARQRKLVKLKCIDMKDVLDTLSVVK-