Monarch geneset OGS2.0

DPOGS208912
TranscriptDPOGS208912-TA4869 bp
ProteinDPOGS208912-PA1622 aa
Genomic positionDPSCF300009 - 490230-496819
RNAseq coverage473x (Rank: top 26%)
Annotation
HeliconiusHMEL0146660.070.69% 
BombyxBGIBMGA002483-TA0.068.21% 
Drosophilaec-PC0.043.79% 
EBI UniRef50UniRef50_F4WWL80.047.02%Inactive ubiquitin carboxyl-terminal hydrolase 54 n=8 Tax=Formicidae RepID=F4WWL8_ACREC
NCBI RefSeqXP_394511.30.045.48%PREDICTED: similar to echinus CG2904-PA [Apis mellifera]
NCBI nr blastpgi|3320209470.047.02%Inactive ubiquitin carboxyl-terminal hydrolase 54 [Acromyrmex echinatior]
NCBI nr blastxgi|3072128520.037.93%Inactive ubiquitin carboxyl-terminal hydrolase 54 [Harpegnathos saltator]
Group
KEGG pathway 
Orthology groupMCL16108 Insect specific
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS208912-TA
ATGATTAAGTTTCGATATAAACGGAAGGAGACAAGTGATGCCGGGAAAGGGGGAACGGCGATACAGAAGCAGAAGATTGAAGGTTTGAAGGACAGAGAACTGTTGCCTCCTAAAGATTTAATAGGCGGTTCCCTCGCTGGAGTCCGCCACAATACTCTTCCCCGCTCCCGCCCGCCGTCCGCTGCTAACCGAGACGCACCCGAAACTCTATTGAGCCAAACTACCTTATCACTCTTCAGAGAGCTGTTTGCCCAGTTACAATGGTCTGCGGAGCGCGCGCCGGCTGCGGATGGGCTTCGGAGAGCCTTGGGCGGTGGTGGAGCTCGTTTTCAACTTGGTTGTATGGCGGACGCCAGCGAATGCTTCGAGCATCTTCTGTTGAGGGTGCACGCACATGTCGCGGCTGGTACTGGAGATAAGAGAGAGGATGACGCCTGCAGAGTCCCGCACTGTGTGCCCCACAGGAAGTTCGCTATGATGCTCGTCGAACAATCAGTCTGTGGGGCCTGTCAAGCCACCTCCGAACCGTTACCTTTCACGCAGATGGTGCACTACGTGTCAGCGACCGCCCTCACCGCTCAAGCTGCCCTGGGAGAAGTTGGCGATAGCTTTGGGACCCTGCTGAGAAAAGCCGGAGGAATGGGAGACGTGCGAGATTGCCCCAACGCCTGCGGTGCAAAAATCCAGATCTGCCGTACATTAATGAACCGTCCTGAAGTGGTGTCTATCGGTATGGTTTGGGATTCCGATCGTCCATCGGCTGAGCAGGTGTCAAGCGTATATGCAGCACTCGGTACTGAGCTGAGACCCACGGACGCCTTCCACGCGTGCGTCGACCGAGCCTGGGCGGCCCGTGCCACGCATCGCCTTGTAGGACTCGTCACCTATTACGGAAAACATTACTCCACCTTCTTCTACCATAGCAAATTGCGGCTTTGGATATACTTTGATGACGCCGACGTGAAAGAAGTAGGACCAGAATGGTGCCAGGTTGTAGAAAAGTGTAGGCGAGGCAGATTTCAACCGCTTCTGCTTCTTTACGCTGCTATTGATGGTACACCCTGTGACACACGACACGCTCCTAAGGATGTAGTGCCATTTCCAGCACCTGAACCACGAAGGGCTGTCACTCCAGCTCCGGAGAGACCCGCGGCCGCATACGCCAGACGAGCAGTTACACCGGGACCGGATAACGACAGCGATTACGTAAACAGAAAGGCCGTGGAGAATATGTTTGAGGTGCAAGCCAGTCGGCGGGCACAATTAGGTAGAAGCTTAAGTGCGAGTTCAGCGTCAGATACGCAAGAACGGCCTCGATCTAGACGGGATTCAGGAAACTGGAGCGGGGACAGGAACAGTGCGTCATCGACCTCGTCTAATAATGAGAGTCCTTACATGTTCACTCGCGGACGGGGATCTGGTAGTATACCAAGTAGTCCCACTCGAAAAGGAGAACTTTCGAGTGGCGGATCCTGCGACGCTGGCTACGATTCGTATTCCTTATCATCAACTGACAGCGTTTCCTTGCAACAAGGCCTCCGCCATAACTTACAATTAGCACAGATACCAGAATTGACAACGCGGGGTGACTGCGAAGCTCTATGTTTGGAAGCTGACAGATTACTTGAAAAATCTCGTCACGTTGAAGACGCAGGGGAGTACGAAAGTGCTCTGGCGCTATGTGACACAGCAGCATCCAAAGCTAGGGCTGCGATGGACGCCCCCTACAATAATCCCCACACAATGACGTTTGCTCGAATGAAACATAACACTTGTGTCATGCGAGCACGGAGTCTTCAGCGACGCATGGCGGGGATGATCAGAGTAACTGAAATACCACAATCAGCGCCAGTGAGGAACACTAAAGGAGGCCTGGAAAACTCCCCAACAACAATAGAAATTTATGCTACTCTGCCTAAAAAGAAGGGATCAAAGAAATCACCTAAAGCTGTTATTGATGATGACTTGGAAACAATACCAAGAGAACGACCGCCTCGATATAAATCACGTGAAGAAGAAAAGGTACGAGAAAAACGTTCAAGAAGTGAAGAACGATGTCGTGCAAGAAAAGACGCGGTGGTTGTTGTGGAAAAGAAAGAAGAACCCGTTGAAGATAAAAAAGCCAATAAAAAGCAACACAAAATAAGAAGAAAATTAATGGGTGGTTTAATAAGAAGAAAGAATCGATCTATGCCGGATTTAACCGAAGGAGCTGATGGGAAAAGCGATACCAAAAACAAAGAAATCCGTATTTTATCTGTCGATGATGCGGATGTGGGCAGGAAAAAGAACGATGACAAAACAAATCTCAGTGGCTATTTGTCTGAGGGACATCTAGAATATTCAGCAGGAAGTGGCACCAATCCCAACTTAGAAAGAAGTAAACTTATGAGAAAGAGTTTTCATGGCAGCGCTGGAAAAATATTGACTGCAGCAAAAGTGCCGCCGCCACCGCCATTGCGGACCACTTCTCAGCTTAGCGGGACTAAGTTCGAGGAAGAAGGAATGAAGCACAACGTTTATACACCACCAAAACAAATTTTGCAAGCCGATAAAGAAGAGTATTCTTATAGCACACATGAAAATGAAGAAGATGGCGGATTCTCTGAACAATTTGGCGACGAACCGCGGTCTCTACCTTTTTTACCGTTACCTTATGATGACAATCAAGTGATTCATTACAACAACAACAGATTGGATGACTCCCCTAATACATCTCAAAACTTTCAAACTGTTGTTACCAAGGCTATGATTCACCACGAACAAAGTCCAGTAAAAAGAGAAAATATTTTAAACATAACGCCGTCCCACAACAACGTGCATAACTTGACAAATATATTCGATAACGGCGTGGACGTGGTAGACTGCGGTATGCTCATGCGGAGATCGCCGCAAATGTTTGACCTTCCACCGTATCCGAGTCCTCTGAATTCAGTTAATCATTCTAGACAGCAAAGTGAGGAATTCCCACCGCCTCCAGAACCAATAGATTTGACACCACTACAGGAAGAACTTCATAAAATAGAGTATCAAAAAAATAATGACAACATCGACTGTTTCAATAACAATTTCAATAATAACGAGTCGGAAACTCCAAAGAGTTCACTATTAGCTGAATTACAAGAAAAACGGAATCAAATTTTCAAACAAGAAACAAACATAAAGCAAAATCAGTTAGAAAACATTGGTACCTCTGATGACAATTGGCTGAGAGAGTTACAAGCAAAACAGGCCGTACTTAAGCTTAAAAGATCGGGTTCACTTGAAGGTCAATTGTCCAATAATCAGGAAATTTATACTCAAAACGCAGATTCTATCAGAAACGTCAGAAATATGGCTTCAAGATTCGAAAATAACGTGCATAATGTGAGCAATGAAATCGAACGGAACCATAGTGGATACATGGGCATGTCGGGCAGCCGTGACGTCATAAACTGTTCAAATCAATCAAATAACAGAATGTACAATCGACGCTCATCATCGTCCTCCATTGATCCAAAGCAAATGGAAGAAGAGTATAATGACCAGAAATCAAAACCCAAGAAGAAATCTGTATCTTTTTGTGACCAAGTGATATTGGTCGCTACAGCCGAGGATCAAGAAGACGACAGTTACATACCCAATCCTATTTTAGAAAGGGTGTTGAAATCTGCGATGAATAAGCCAGAACTCACCACAGTACCTTTGCAGAACGAAAAGAACTCTCTACAACGAACAGACTCATTTGACAGCCAGTCTTCAAGATCCACTATATCTTCCGTATCGCAAGCATCTTATAGACAGACTGATAATGGACATGTTGATTACTACAGAATCCAAAACTCATACCCGACTTACCAAACTCAAACGAGATCACAACCACAGTTCAATACGCAGAAAAATATTCCAGCACAGAACACAAATTCTCCGTCGGTAAATAATCAAAATTCTAACATACAAAGCAACAATCAAATATACATAGCTGTGCCAACCAACAGTCCTCTAAATAATAATAATCCAATACCGTATAACCACCCACCGGCAGCATATCCTAACCAAAACAACTCAAACTCACCGAATTATAGTCAAAATACTGCCAATAGAATGACCCCTACATCGCACAATCAGCTTTATGCGACTAAACAAATGCAAAGACCATGCAATACATACCAACAACAGCCTGGTTCCATACAAACAAGCAACCCTAATGGCAATTATCACAGACTTCCTCAACATCCTACAACGAATCAGCTTCAAGGAATGTATCAAAAACGACAGTTCGCACAAAACGACAGCAATAGGCCATATCAAAGTGTGCCAGCAAACTCACCGGCTTACCAAAGCTACCACAACCCACCGACGAATTACGTTAACACCGATTACTCTAGTCGTTATCCCCAAGTTAATAGTTCCAATTTCAATCACTCGCCGTATCAAAGGGTCCCGCCTCCACACGGAGAGGTGCCCGGCGAAGACTACAACAGTAATTATCAGAAAATACCCAGCAACCGTTACGACAACAGCAACAGTCGCACACCGGATGCGAGGCATTACGCTAACTCCCAACAGCGGCCGTACGAAACCGCTCTAGATAATGTCAATAATGAGCCATACCAATATCAAAACGGCTACAATCCCTACCAACATCTGGTGCCGCCGAAACAAATCCAGAAGAAATCGGTGTCATTTGAACCCGGGACGAAGGGAGGAACGGACTCTCCCGTCCCGTCACAGATGAACGGCCACTACCAAGCAGAAAACCAGACGAATCCATCAATGACCAGCCACAAGACGCCTTGCAACTTATGTCGCAAGAAAACCGTCAACCCCCCCGCCATTTACTGTCCCGATTGTGACTTTTACATGTCAAGGTTCAAACCGCGGTCATAG

Protein sequence:

>DPOGS208912-PA
MIKFRYKRKETSDAGKGGTAIQKQKIEGLKDRELLPPKDLIGGSLAGVRHNTLPRSRPPSAANRDAPETLLSQTTLSLFRELFAQLQWSAERAPAADGLRRALGGGGARFQLGCMADASECFEHLLLRVHAHVAAGTGDKREDDACRVPHCVPHRKFAMMLVEQSVCGACQATSEPLPFTQMVHYVSATALTAQAALGEVGDSFGTLLRKAGGMGDVRDCPNACGAKIQICRTLMNRPEVVSIGMVWDSDRPSAEQVSSVYAALGTELRPTDAFHACVDRAWAARATHRLVGLVTYYGKHYSTFFYHSKLRLWIYFDDADVKEVGPEWCQVVEKCRRGRFQPLLLLYAAIDGTPCDTRHAPKDVVPFPAPEPRRAVTPAPERPAAAYARRAVTPGPDNDSDYVNRKAVENMFEVQASRRAQLGRSLSASSASDTQERPRSRRDSGNWSGDRNSASSTSSNNESPYMFTRGRGSGSIPSSPTRKGELSSGGSCDAGYDSYSLSSTDSVSLQQGLRHNLQLAQIPELTTRGDCEALCLEADRLLEKSRHVEDAGEYESALALCDTAASKARAAMDAPYNNPHTMTFARMKHNTCVMRARSLQRRMAGMIRVTEIPQSAPVRNTKGGLENSPTTIEIYATLPKKKGSKKSPKAVIDDDLETIPRERPPRYKSREEEKVREKRSRSEERCRARKDAVVVVEKKEEPVEDKKANKKQHKIRRKLMGGLIRRKNRSMPDLTEGADGKSDTKNKEIRILSVDDADVGRKKNDDKTNLSGYLSEGHLEYSAGSGTNPNLERSKLMRKSFHGSAGKILTAAKVPPPPPLRTTSQLSGTKFEEEGMKHNVYTPPKQILQADKEEYSYSTHENEEDGGFSEQFGDEPRSLPFLPLPYDDNQVIHYNNNRLDDSPNTSQNFQTVVTKAMIHHEQSPVKRENILNITPSHNNVHNLTNIFDNGVDVVDCGMLMRRSPQMFDLPPYPSPLNSVNHSRQQSEEFPPPPEPIDLTPLQEELHKIEYQKNNDNIDCFNNNFNNNESETPKSSLLAELQEKRNQIFKQETNIKQNQLENIGTSDDNWLRELQAKQAVLKLKRSGSLEGQLSNNQEIYTQNADSIRNVRNMASRFENNVHNVSNEIERNHSGYMGMSGSRDVINCSNQSNNRMYNRRSSSSSIDPKQMEEEYNDQKSKPKKKSVSFCDQVILVATAEDQEDDSYIPNPILERVLKSAMNKPELTTVPLQNEKNSLQRTDSFDSQSSRSTISSVSQASYRQTDNGHVDYYRIQNSYPTYQTQTRSQPQFNTQKNIPAQNTNSPSVNNQNSNIQSNNQIYIAVPTNSPLNNNNPIPYNHPPAAYPNQNNSNSPNYSQNTANRMTPTSHNQLYATKQMQRPCNTYQQQPGSIQTSNPNGNYHRLPQHPTTNQLQGMYQKRQFAQNDSNRPYQSVPANSPAYQSYHNPPTNYVNTDYSSRYPQVNSSNFNHSPYQRVPPPHGEVPGEDYNSNYQKIPSNRYDNSNSRTPDARHYANSQQRPYETALDNVNNEPYQYQNGYNPYQHLVPPKQIQKKSVSFEPGTKGGTDSPVPSQMNGHYQAENQTNPSMTSHKTPCNLCRKKTVNPPAIYCPDCDFYMSRFKPRS-