Monarch geneset OGS2.0

DPOGS203403
TranscriptDPOGS203403-TA2688 bp
ProteinDPOGS203403-PA895 aa
Genomic positionDPSCF300003 + 1113174-1117992
RNAseq coverage1325x (Rank: top 10%)
Annotation
HeliconiusHMEL0166520.085.27% 
BombyxBGIBMGA013328-TA0.079.27% 
DrosophilaTudor-SN-PA0.053.13% 
EBI UniRef50UniRef50_D9N4J40.080.78%Tudor staphylococcus/micrococcal nuclease n=3 Tax=Coelomata RepID=D9N4J4_BOMMO
NCBI RefSeqNP_001182009.10.080.78%tudor staphylococcus/micrococcal nuclease [Bombyx mori]
NCBI nr blastpgi|3043077390.080.78%tudor staphylococcus/micrococcal nuclease [Bombyx mori]
NCBI nr blastxgi|3043077390.080.78%tudor staphylococcus/micrococcal nuclease [Bombyx mori]
Group
Gene OntologyGO:00310470gene silencing by RNA
GO:00164420RNA-induced silencing complex
GO:00167881.6e-45hydrolase activity, acting on ester bonds
GO:00036761.6e-45nucleic acid binding
KEGG pathway 
InterPro domain[1-892] IPR0166850RNA-induced silencing complex, nuclease component Tudor-SN
[326-480] IPR0060211.6e-45Staphylococcal nuclease (SNase-like)
[502-653] IPR0160717e-31Staphylococcal nuclease (SNase-like), OB-fold
[667-784] IPR0081911.5e-25Maternal tudor protein
[715-773] IPR0029991.3e-16Tudor domain
Orthology groupMCL14769 Single-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS203403-TA
ATGAGTGCTCCAACACCTGCCCCTGCTTATAAAATTGGAATTGTAAAGCAGGTATTATCCGGAGATACCATCGTTATAAGGAGACAGCCACAAGGAGGTCCCCCGCCAGAGAAAGTGATCGCCCTTTCAGGCATCACTGCACCGAAACTAGCGCGTCAGAGAACTGCCAACAATGACTCTGAAACAAAAGACGAGCCGTTTGCATGGGAAGCAAGAGAGTTTTTGAGAAAAAAGTTGGTCGGTAAGGAAGTCATCTTCACCGCTGAGAAACCTCCCAACTCTGCTACTCGGGAATATGGATCTGTTTGGGCTGGGAAGGATCCTACTAAAGATGAAAACATGACGGAAGCCTTGCTAGCGGAGGGTTTTGTTAAAGTAAGAGAAGGCGGACGTAACATCCCTCAGTTGAAGAGACTCGTTGAAATCGAAGAAACAGCCAAATCCCAAGGCAAAGGTATTTGGGGAACTGACTTGCAGAATCATGTTCGTGACATAAAATGGAGTGTGGAAAATCCGAAACAATATGTGAACAAATTTAATGGAACACCTATAAAAGCTATAATAGAATATGTAAGAGATGGATCAACTGTGAGACTTTGTCTGCTGCCGGACTACACACCTGTAACGCTCATGCTATCAGGAATTAGATGCCCAGCTGTAAAGCAGGACGGTGATTCTGAGCCTTATGCCGAGGAAGCCAGATTCTTCCTGGAATCCAAATTGCTTCAGAAGGATGTTGAGGTGGTCCTGGAATCTGTAAACAACAACAATTTTGTTGGAACAATTCTACATCCACAAGGAAATATTGCTGAAGCTTTGCTCAGACAAGGTTTCGGTAGATGCGTAGATTGGTCCCTCGCTGTCATGAAATCTGGTGCTATGACACTGAGACAAGCTGAGAAGGCAGCTAAAGAAGCTAAACTTCGCATTTGGACTAACTATGTCAGTACGGCACCCATCATCCCTGCTAAGGATAAAGAGTTCACAGCCACTGTAATGGAAGTTGTCAATGGAGATGCACTCGTAGTAAAAATGCCATCTAATGTCCAAAAGAAAATATTCTTGGCAAGCATTAGACCTCCACGTGAAAAGAACAGCCCAGATGAAGAGGGCAAGCAGTCACCCAGGCCTAAGGGATTCAAACCGCTGTATGACATACCTTGGATGTATGAAGCACGTGAATTCCTCAGAAAGAAACTCGTTGGAAAGAAAGTTAATGTCACAATAGATTACATCCAGCCAGCAAAAGACAATTTCCCTGAAAAAACTTGTTGCACTGTTATGGCAGGCGGAATTAATATTGCAGAGGCCTTGGTCAGCAAAGGCTATGCCATAGTTGTCAGATACAGAAATGATAATGATCAAAGGAGCTCTCATTACGATAAGTTGCTAGAAGCCGAACAGAAAGCTATGAAGGCTAATCTCGGAGTATACGCCAAGAAAGATATACCGACCCATCGCATACAAGACACAAGCGGGGACTCCGCTAAGGCCAAAAAGTTCTTCCCGTTCTTAAAGAGAGCCCAGAAAACCGAAGCGGTCGTTGAATTCGTTGCGAGCGGCTCTCGTATGAGGCTCTACGTGCCCAAGGAATCCGTGCTTGTAACATTCTTACTGGCTGGCATCAATTGCCCAAGAGGTGCTCGCCCCGCTATCGGCGGCGGCGGCATGCAAGAAGCTGAACCGTTCGGTGAAGAGGCACTTCAATTCACTAAGGAGAAATGCCTCCAACGCGATGTCATTGTGTCTATCGAGGAGATGGACAAAGCCGGCAACTTCATCGGCTGGCTCTGGGTGGACAACGAAAACATTTCCATTTCGCTTGTAGAACACGGACTCGCTACTATGCACCACACCGCTGAGACCTCTGAATACGCGCGCGTTATCAAGAACGCTGAGGAGAGTGCGAGCAAGAAACGCATCGGCATCTGGAAGGATTACGTTGAGGTTGAGAAGGAAATTGAAAAGGAACGCAACGCTCCGATGCAGGACCGTGTCGTGAAATATGAAAAGGTTGTGGTCACGGAAGTCACACCGGAGGGTACATTCTTCTCACAGAACATGGAGTTAGGAAACAAACTCGAGACCTTGATGGAGAAAATTCATCAGGAGTTCACTAACAATGCACCACTGCCCGGATCTTACGTGCCGAGGAGGGGACAAATTTGCGCCGCTCGCTTCACACTAGACGACCAGTGGTACAGAGCCAGGGTTGAGAAACTCCTTGATGATAAGATGGTTCAAATATTCTACATCGACTATGGAAACAGAGAGGTGGTTAGCCAAACAAGATTGGCTTTATTGCCGGCGGGCACGGAGTCCGAGCCGCCGTACGCTAGCGAGTACTCCCTAGTGTGCATCAAGTTCCCCGCGGACGCGGACGATAGACTCGAAGCGGTACGAGCCTTCTCTCTGGACACACTCAACAAGAAGCTCTTGCTGAACCTCGAGACACGCGGCTCTCCACCAGCTGTGACACTCGTCGAGCCCACCACTAACACTGATATTGGAAAGAACCTGATCAAGGAGGGTCTGGTGCTGATGGAGAGCATCCGAGACCATCGGCTGAGCGGTCTGGTGGCCGAGTACCGGCTGGCCCAGGAGCACGCCAAGAGCTCGCGGCTCAACCTCTGGCGGCACGGAGACATCACCGAGGACGACGCCGTAGAGTTCGGAGCGCGTCGCTAG

Protein sequence:

>DPOGS203403-PA
MSAPTPAPAYKIGIVKQVLSGDTIVIRRQPQGGPPPEKVIALSGITAPKLARQRTANNDSETKDEPFAWEAREFLRKKLVGKEVIFTAEKPPNSATREYGSVWAGKDPTKDENMTEALLAEGFVKVREGGRNIPQLKRLVEIEETAKSQGKGIWGTDLQNHVRDIKWSVENPKQYVNKFNGTPIKAIIEYVRDGSTVRLCLLPDYTPVTLMLSGIRCPAVKQDGDSEPYAEEARFFLESKLLQKDVEVVLESVNNNNFVGTILHPQGNIAEALLRQGFGRCVDWSLAVMKSGAMTLRQAEKAAKEAKLRIWTNYVSTAPIIPAKDKEFTATVMEVVNGDALVVKMPSNVQKKIFLASIRPPREKNSPDEEGKQSPRPKGFKPLYDIPWMYEAREFLRKKLVGKKVNVTIDYIQPAKDNFPEKTCCTVMAGGINIAEALVSKGYAIVVRYRNDNDQRSSHYDKLLEAEQKAMKANLGVYAKKDIPTHRIQDTSGDSAKAKKFFPFLKRAQKTEAVVEFVASGSRMRLYVPKESVLVTFLLAGINCPRGARPAIGGGGMQEAEPFGEEALQFTKEKCLQRDVIVSIEEMDKAGNFIGWLWVDNENISISLVEHGLATMHHTAETSEYARVIKNAEESASKKRIGIWKDYVEVEKEIEKERNAPMQDRVVKYEKVVVTEVTPEGTFFSQNMELGNKLETLMEKIHQEFTNNAPLPGSYVPRRGQICAARFTLDDQWYRARVEKLLDDKMVQIFYIDYGNREVVSQTRLALLPAGTESEPPYASEYSLVCIKFPADADDRLEAVRAFSLDTLNKKLLLNLETRGSPPAVTLVEPTTNTDIGKNLIKEGLVLMESIRDHRLSGLVAEYRLAQEHAKSSRLNLWRHGDITEDDAVEFGARR-