Monarch geneset OGS2.0

DPOGS201965
TranscriptDPOGS201965-TA4077 bp
ProteinDPOGS201965-PA1358 aa
Genomic positionDPSCF300060 - 557530-572672
RNAseq coverage669x (Rank: top 19%)
Annotation
HeliconiusHMEL0065810.084.74% 
BombyxBGIBMGA010545-TA0.082.17% 
DrosophilaPk92B-PC0.058.13% 
EBI UniRef50UniRef50_E9JEG80.082.17%ASK1 n=3 Tax=Bombyx mori RepID=E9JEG8_BOMMO
NCBI RefSeqXP_001607264.10.062.98%PREDICTED: similar to mitogen activated protein kinase kinase kinase 5, mapkkk5, mekk5 [Nasonia vitripennis]
NCBI nr blastpgi|3202029390.082.17%protein kinase ASK1 [Bombyx mori]
NCBI nr blastxgi|3202029390.082.17%protein kinase ASK1 [Bombyx mori]
Group
Gene OntologyGO:00055242.8e-90ATP binding
GO:00046742.8e-90protein serine/threonine kinase activity
GO:00064682.8e-90protein phosphorylation
GO:00167722.7e-79transferase activity, transferring phosphorus-containing groups
GO:00046722.1e-61protein kinase activity
GO:00047131.9e-14protein tyrosine kinase activity
GO:00055156.6e-08protein binding
KEGG pathwaynvi:1001236010.0 
 K04426 (MAP3K5, ASK1)maps-> Amyotrophic lateral sclerosis (ALS)
    MAPK signaling pathway
    Neurotrophin signaling pathway
    Protein processing in endoplasmic reticulum
InterPro domain[624-889] IPR0022902.8e-90Serine/threonine-protein kinase domain
[606-940] IPR0110092.7e-79Protein kinase-like domain
[629-879] IPR0174422.1e-61Serine/threonine-protein kinase-like domain
[624-880] IPR0206351.9e-14Tyrosine-protein kinase, catalytic domain
[1230-1297] IPR0109936.6e-08Sterile alpha motif homology
Orthology groupMCL10536 Multiple-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS201965-TA
ATGATAACATTCGGCGCTGCAAACACATCTACGGCGCAAGAGGAGTCTGGCGACGTGAGAAGTATTTGTGAGAGCATCTGCAGCGATGGATCGAATGCGACGGTGCAGCCGAGTGCTTCAAATCAGAGGCCCCGGATGGACATAGCTTGTGTTTTGGACGTTACCCAAACATTAAACCTTGCGCACAGAAAAAGAGCATTAGAAGAAGTGCGACTGGCTGCAGAACTTGTTAATGCGAATTTACACCATATTCATTTTGAAAAACTTGACTTTGGAGAGACGAGTGTGTTGGATACATTCTACAATGCAGATGTTGCTCTTGTGGATCTTAGTTTGCAAGTACAGCAAAGCTCTTTACTATACCACTTGGGTGTGCGGGAGAGTTTTGATATGAAGGAAAATGTTCTGCTTTATAATGATGTCGATCCTGATTCTACATTACGACTTAAGATATCGCTTCCAAATTTTCTATTCGTGTCATACAAATTGACTGATGTCGGTACATGTGTGACAACAAACCCAGCGGCCGCTAAGTTCAAGGGTGACGAAGCACCCGATCCAAAACAACATCTCACTTTAAGACTCAAGAACATACTCCAAGATGTTGAAGTACAAACCAAAGCCCATCTTCAAGAGAAATTTCTATCGGACCTTCGTAAAGCAAGAGAGACTTATACCGGGGCTGAGTTGGCGAATGTTCTTCATGCTATGCGCCGTCGCTTGGATGATCCGGCAGTACTCTCCGGTGATACCATACTGAATCTTCTGATATCCTACAGAGAAATACAGGATTATGACGCCATAGTCCATATAGTAGATGATTTGAAGACAATTATGAATAGAAAGAACTATGTCAATATGCCAATTATAAGGTTTATGTATGCGTTTGCTATGAATCGAAGAAACAAAGAAGGCGATAGGGAAAATGCTTTAAAGGTTTGTGTGAAGGCTTTGGAGAAGAAGGAGAATAGATTTCCAGATATGTTATGTCTGTGTGGCAGAATATATAAGGATAAGTTTGTAGAATCTCAACACTCTGACTTGGAAAGTCTCACAAATGCTATTCATTGGTACAGGCAAGGATTCGAAGTCCAGCCCAACGAATACGCGGGCATCAACTTAGCCACGCTATTAGTCATAGCTGGTAACGATTTTAAAAACTCAACGGAGCTACAGCACATAGGTATAGTCCTTAACCATTTAATTGGTAAAAAAGGCAGCTTGTCATCATTAAAGGAGTATTGGGACGTGGCCACGTTCTTTGAGATATCAGTACTAGCCCAAGACTATGTGAAGGCTATACAGGCAGCGGAGTGTATGTTTAAATTGAAGCCACCTAACTGGTACCTGAAATCTACGATAGGAAATATTGAGTTAATTGATAGGTTTAGAAAAAAAAGCGATGATTCGTCGCCAGAGCAGCAGGTGTTCTCGTTCTGGATGGAGTTTTTCGTGGAGGCAACTAAATCTACGTGCGAGAATATTATACGGTTTCCCGTCGTAATATTGGAAACGACGAAGGTGTATATGCCTTCGTATGTGAACGTCAATATGGGAGCCGAACAGAAATCTGTAGAGATTTTTAATCTGTGCCTTGATTCGATGCGTGGCGATTGTAGACAGGTCCACCGATGGCTCTTCACGTCTGATATGATACGAACATATAGCTTGTACAAACGAGACGAACGCTGCCTCTTCCTGTATGTCAGCGAGAACTCTGATGATTTCCAAATATTTCTTCCGTCTCACGCCTTCAGACAGCACCTCTACGATCTGTTGAACGAAATGACGGCTGATCAAGAGAAAATGACGGATCTAGACACGAGCATGATGCAGGACCAGCTAAAGTTTGAATACGAGTTAGATGACAGCAACAAGCGTGTGGTGCTGGGCAAGGGCACGTACGGCGTAGTGTACGCAGCCAGGGACCTCAACACACAAGTCAGGATCGCCGTCAAGGAGATCCCCGAGAGGAATCTGGGTGATGTCCAGCCTCTACACGAGGAAATATTACTACACTCACAGCTCCGGCATAGGAATATAGTGCAGTATCTGGGTTCGATATCCGAGGACAACTACTTCAAGATCTTCATGGAACAAGTGCCAGGAGGTTCCCTTTCAGCGCTGTTAAGATCCAAGTGGGGGCCGCTCAAGGAAAACGAAGCCACTATAGCATATTACACAAAACAAATTCTAGAAGGTTTAAAGTACCTCCATGACCAGAAGATAGTCCACCGTGATATCAAAGGAGACAATGTTCTAGTGAACACATACAGCGGGGTCGTCAAGATATCTGACTTCGGTACTTCCAAACGATTGGCTGGCTTGTGTCCATCCACTGAGACCTTCGCGGGCACACTGCAGTACATGGCACCGGAGGTCATCGATAAAGGACAGAGAGGTTATGGCGCTCCGGCCGATATTTGGTCGCTAGGTTGCACGGTAGTTGAAATGGCGACTGGCAATCCACCCTTTATGGAGTTGGGATCACCTCAGGCAGCACTGTTTAAGGTCGGTTATTACAAGATGCATCCTGAAATACCAAGCGAGCTGTCGCTGAAGGCGAAGAACTTTATACTACGCTGCTTCATCACCGATCCCGAGAAACGAGCGACCGCGGCGGAGCTGCTGGAGGACCGCAAGGACACGCTCATTCATAAGCTCATATTAATGCCGGCCGACAAGATACGGTCGTCCGTTGCACAGAAGAAGATATCCGAACCGAGCCTGCAAGCGACGCTCCCCAGCTCGCCGGAAATCGAGGTTAAAACGATCCGGTCTAACCCGACAATCACTAGGACGGCGTCGTCAATGCTGTCGCCGATACTGATTTACCCACCGGATCTATCAAACAGCAGCACAATGCCGAACACACCATCCACTGATGAAATGGACACCAACGACACCATCCTCAATAGAAGGAGCTCTTCCGGGGGGCTGTTGTCGCCCGAGGTGGACATGACAAATGTACCTCGATCCTCGATCGACATAGAGCACGACGGTTTCTATCTGTTGAAGAAGGACTCGCAGCGCCGTCTCACTCTATCACGAGTGTTGGAGCAGGACAGCGAGAAGATCTGCTCTAAATGGATGCTGAGCATACAACAGGATTTCGGCAACACCGTACTCACTATGAATCACCTGGAGACACTGCGGTGCGCCCTAAAGGAGTACATCATGGATCAAAACAGAGGCGTGATAGAACGCGCCATAATAACCCTCAAGGAGGATTTAGATTTCGACTCGAACGCTATAAACGAGCTGCACTCGGCGATATACATGTTCCAGGAGGCGGTCAACGTCGTGCTGAGGATGCACAGCATTAAGCCGCACTGGATGTTCGCGTTGGACAACCTGGTGAGGAACGCCGTGCAGGCGGCCATCACCGTCCTGTCGCCGGAGCTGGGTGCTAATCTGGCTGGGCAGGAGGCCGAGCGTCGCAGTGGGCCAGCAGACGCCTCTCCATCAGCTCTGTCCACTGAAACCTCCACCAGAGATCCGCTAACACTACATCATCTCAGACAGGACAATCACAAATTACAACAAGAACTAATTGAGAGTTATCAGCAGTACCAAGCTCTGCTGCGAGCAATGCTGGACGAACAGAAGTCGCAGACGTTGATATTAAAAGAAATCATAGAAAACAAAAATACATCAGCTGATCAGTCGGATGATGAGGTAGATCCGGTACAGTTGGCTGAACTCAGGTCGTGGGTGTCGTCTTGTGGAGTCCCTGATGAGGTGGTTCGAGCCTTGGCCGCGCAAAAGTACAACCTCGACGACCTCCTGCACCACGCTGAGAGAGAGGATCTAGCGAGGCTTAGACTTAAAGGTGGTGTGGAACTGCGTCTATGGCGTGCGATCGTCGAGCATCGCTCTCAGGACAATCACCTGCGAAGAACGAGCAGCACGGAAACGGATATAGACAACACTATAGTAGTTGTCGAGTGTCAGAAGTGCAAAACGTCCAGGTCCGCGACCACGTGCTCAAACAATCCGACGATAGTTATAAGGGATCAGAAGAACGGAGACGATGTAGCCGAATATTACGCCGAGAACGGGGTTGTCAACCTCTGA

Protein sequence:

>DPOGS201965-PA
MITFGAANTSTAQEESGDVRSICESICSDGSNATVQPSASNQRPRMDIACVLDVTQTLNLAHRKRALEEVRLAAELVNANLHHIHFEKLDFGETSVLDTFYNADVALVDLSLQVQQSSLLYHLGVRESFDMKENVLLYNDVDPDSTLRLKISLPNFLFVSYKLTDVGTCVTTNPAAAKFKGDEAPDPKQHLTLRLKNILQDVEVQTKAHLQEKFLSDLRKARETYTGAELANVLHAMRRRLDDPAVLSGDTILNLLISYREIQDYDAIVHIVDDLKTIMNRKNYVNMPIIRFMYAFAMNRRNKEGDRENALKVCVKALEKKENRFPDMLCLCGRIYKDKFVESQHSDLESLTNAIHWYRQGFEVQPNEYAGINLATLLVIAGNDFKNSTELQHIGIVLNHLIGKKGSLSSLKEYWDVATFFEISVLAQDYVKAIQAAECMFKLKPPNWYLKSTIGNIELIDRFRKKSDDSSPEQQVFSFWMEFFVEATKSTCENIIRFPVVILETTKVYMPSYVNVNMGAEQKSVEIFNLCLDSMRGDCRQVHRWLFTSDMIRTYSLYKRDERCLFLYVSENSDDFQIFLPSHAFRQHLYDLLNEMTADQEKMTDLDTSMMQDQLKFEYELDDSNKRVVLGKGTYGVVYAARDLNTQVRIAVKEIPERNLGDVQPLHEEILLHSQLRHRNIVQYLGSISEDNYFKIFMEQVPGGSLSALLRSKWGPLKENEATIAYYTKQILEGLKYLHDQKIVHRDIKGDNVLVNTYSGVVKISDFGTSKRLAGLCPSTETFAGTLQYMAPEVIDKGQRGYGAPADIWSLGCTVVEMATGNPPFMELGSPQAALFKVGYYKMHPEIPSELSLKAKNFILRCFITDPEKRATAAELLEDRKDTLIHKLILMPADKIRSSVAQKKISEPSLQATLPSSPEIEVKTIRSNPTITRTASSMLSPILIYPPDLSNSSTMPNTPSTDEMDTNDTILNRRSSSGGLLSPEVDMTNVPRSSIDIEHDGFYLLKKDSQRRLTLSRVLEQDSEKICSKWMLSIQQDFGNTVLTMNHLETLRCALKEYIMDQNRGVIERAIITLKEDLDFDSNAINELHSAIYMFQEAVNVVLRMHSIKPHWMFALDNLVRNAVQAAITVLSPELGANLAGQEAERRSGPADASPSALSTETSTRDPLTLHHLRQDNHKLQQELIESYQQYQALLRAMLDEQKSQTLILKEIIENKNTSADQSDDEVDPVQLAELRSWVSSCGVPDEVVRALAAQKYNLDDLLHHAEREDLARLRLKGGVELRLWRAIVEHRSQDNHLRRTSSTETDIDNTIVVVECQKCKTSRSATTCSNNPTIVIRDQKNGDDVAEYYAENGVVNL-