Monarch geneset OGS2.0

DPOGS207365
TranscriptDPOGS207365-TA4065 bp
ProteinDPOGS207365-PA1354 aa
Genomic positionDPSCF300188 + 562312-582964
RNAseq coverage79x (Rank: top 64%)
Annotation
HeliconiusHMEL0107650.080.91% 
BombyxBGIBMGA010092-TA0.090.13% 
DrosophilaCG31183-PA0.056.26% 
EBI UniRef50UniRef50_Q7PTP90.057.85%Guanylate cyclase n=4 Tax=Anopheles gambiae RepID=Q7PTP9_ANOGA
NCBI RefSeqNP_001036870.10.089.07%receptor type guanylyl cyclase [Bombyx mori]
NCBI nr blastpgi|1129836520.089.07%receptor type guanylyl cyclase [Bombyx mori]
NCBI nr blastxgi|1129836520.089.07%receptor type guanylyl cyclase [Bombyx mori]
Group
Gene OntologyGO:00091906.1e-108cyclic nucleotide biosynthetic process
GO:00355566.1e-108intracellular signal transduction
GO:00168496.1e-108phosphorus-oxygen lyase activity
GO:00167726.3e-52transferase activity, transferring phosphorus-containing groups
GO:00064689.7e-42protein phosphorylation
GO:00046729.7e-42protein kinase activity
GO:00160218.2e-22integral to membrane
GO:00047131e-14protein tyrosine kinase activity
GO:00055249.5e-13ATP binding
GO:00046749.5e-13protein serine/threonine kinase activity
KEGG pathwaynvi:1001200900.0 
 K12323 (NPR1)maps-> Purine metabolism
    Vascular smooth muscle contraction
InterPro domain[949-1143] IPR0010546.1e-108Adenylyl cyclase class-3/4/guanylyl cyclase
[158-524] IPR0018289.4e-75Extracellular ligand-binding receptor
[638-932] IPR0110096.3e-52Protein kinase-like domain
[668-906] IPR0012459.7e-42Serine-threonine/tyrosine-protein kinase
[212-230] IPR0011708.2e-22Natriuretic peptide receptor
[664-909] IPR0206351e-14Tyrosine-protein kinase, catalytic domain
[631-912] IPR0022909.5e-13Serine/threonine-protein kinase domain
Orthology groupMCL10045 Multiple-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS207365-TA
ATGATAAGTGTGTGCGGTGGTAGTGTTAATACAGTTAATATTGTAAAAGACAATTTCAATAATTCTAAGGAAGATTTGAATGTGGACATTATGAAAGCTTTGCAGCATAATACTAGTGTTATACATGGTGACAATAATGTTGTGAGAAGTACTCAGAAAGTTCTGGAAAAGGAAGACGAAACATCAGATAAATACTCCTCCGAAGTTCAAGAATTAAGTAAATATTATACTTATTACAAAAATAAAGAAGATACAAATAATGACACAGAAGAAAATGATATTTATGTTGAGAGAGATATATACGATGATACACGAGCCGTGGGATATCCCCACGACTTAGCTACAAATCCTTTTTATATTAAAAAGACGAATTTCAATCTCAGACCTGAGGTACCTCAATTTAATGAGAAAATATTAAAGTTGGGAGTACTATTACCAGCGGATTCAACTCAGGTATTTTCGTTGGCTAAAGTTTTGCCTATCGTTGAAATGGCAATACCTGCTATGACTAAGCCCGATGGACCATTACCGGGATGGAAAATATTAGTCGATTATAGAGATACGAGGTGTTCGTCTGTTGAAGGACCACTTGCTGCTTTTGAATTCTATGTGAATGGCTCAGCGGATGCTTTTATAGGTCCTGGATGTGAATACGTTATTGCTCCTGTTGCGAGATATGCTGGTTCCTGGGGTATTCCAGTTATCACTGCTGGAGCTCAGGCTGAGGCGTTCGGTTACAAGCATCCAAGCTACATGACATTAACTAGAATGATGGGAAGCTACACTCAGGCGGGCGTTGCGATACGAAAAGTCTTTGAGGAGTTCAATTGGCGTAAGCTTGGGATGCTTTATCATAACAACAATCCATCTACCGGAAAAGGCAACAGCCCTTGCTTCATGACACTCAGCGCCATATTCTCAGTTCTCCAGAAGAAAGGCACTGGGAATATATCAAATATTCCCTTCGACGAAACAAATACAACCACAACTAAAATAAAAGAATTGCTAATGAAACTTTCTCTTTCTACGAGAATTGTCGTAGTTTGTGCTAACCCGAGTACAGTGAGAGAGATAATGTTGGCGGCAGATGATCTCAACATGGTGTCATCTGGTGAATACGTGTTCTTCAATATCGAACTTTTTTCCAATTTAGCATCCGCTTCATCTAAAGAACCCTGGAAAGTGGAAGGTGATAGTGAAGAAAGGAATGAGAGAGCTCGAAGAGCGTATAGTGCTGTTCTGACAGTCACAAGTCCGGCACCAGAAAAGAAAGAATATTTAGAATTTTCCGATCAGGTCAAAGAATTGGCTGCCACAAAATATAATTACACATTCGGGAAAGGTGAAGTGGTTTCTACATTCGTGGCAGCATTTTACGATGCGGTTCTTCTTTACGCCTTGGCCCTAAACGATACTTTACGACAAGCGACAAATCCTAGAGGACAACTTGATGGAGCAGCTGTTATCAAGAACATGTGGAATAGGACTTTTCAAGGAATAACTGGAGAGGTCATTATCAATGGAAACGGCGACCGTGTGGCGTCTTACTCCCTACTGGATATGAACCCAAACACAAGCAAATTTGAGGTAGTGGCGACATATGTGGCGGCAAACTCTTCCCTACAGTTTATAGAGAATCGCCCTATTCATTGGGCTGGCGGCCGTGATACCCCACCTCCCGACACCCCCCGCTGCGGTTTCGACGGCTCCCTTTGCCCTGACACCTCTTTACCGGTGTATGCTATTCTGAGTATTATCTTGAGCTCGGTAGTGGTTATCCTGGCCATCCTGTCTGTGTTTATTTACAGACACTACAAATTAGAAGCTGAGATAGCTATGATGACGTGGCGAGTAAGCTGGTCAGATGTATTGTTACCGGGACGTTTTCGTGGCAGTATTCACTCATTAGCTAGAAGATACAGCTCGGGGACCGCATATTCTGATGAAGCAACCTCCCTTCCTGGAGACCGTCAAGTGTACGCTCCTTGTGGCTTTTACAAAGGCTGTCGTGTTGCTGTAAAAAAGGTTGACAAACAGAGAATTGATCTGACCAGACCGTTATTATTAGAACTTAAGAAGATGAAAGACCTAGAACACGATCATCTTGCAAGGTTTTATGGTGCATGCGTTGACCCTCCACATTGCTGTCTTCTAACTGAATACTGCCCAAAAGGTTCTTTACAGGACATTTTGGAGAATGACACTATCAAGTTGGATTGGATGTTCAAGGTCAGCCTGATGCATGACATCGTCAAGGGAATGCACTATCTCCACAGTAGTGACATAAAATCTCACGGGGCTTTGAAATCTAGTAATTGTGTTGTGGATTCCCGTTTTGTACTCAAAATAACTGATTTTGGACTGAACGCCCTAAGGACATCTGAGAAAGATGCTAAAGCACATAGCTATTGGACTCGTTTGCTATGGACGGCTCCCGAATTACTACGAATGGCCGATCCGCCTCCTGAGGGCAGTCAGAAAGGAGATGTCTATTCATACGGTATTATCATGCATGAAATAGTTAATCGACAGGGCGTGTTTTGGATAGGACCAGATATTGATTTATCACCCAAAGAAATAATAGACGCAGTGAAAGGTAGTAACTTACGTCCGAACACAACGTATAACCGGTCTTGCGAGGCGGATGATGCTACTGAACTTATGAAGCGCTGTTGGACGGAAGACCCTGTCGAAAGACCAGATTTTGGACATTTGAAAGGAGCTATACGACGGCTTAATAAAACTCAAGAAAGTAGTAATATTTTAGATAATTTGCTGTCACGTATGGAACAATACGCTAATAACTTAGAAACATTAGTTAGTGAACGTACACAGGACTATTTGGAAGAAAAGAAGAAGTGCGAGGAATTATTGTATCAACTTTTGCCAAAGTCGGTAGCTTCTCAACTCATCAACGGACAATCAGTAGTGGCAGAAACCTTCGAACAGGTCACTATATATTTCTCTGATATTGTTGGTTTCACCGCTCTCTCTGCCTCCTCCACACCAATGCAGGTTGTGGACCTGCTTAATGATCTGTATACGTGTTTCGACTCCATCGTTGAGAATTACGACGTTTATAAAGTAGAAACAATAGGTGACGCGTATATGGTAGTATCCGGTCTGCCGGAGCGTAATGGCACGCGCCACGCTTGTGAAGTCGCACGGATGGCGCTCGCTTTACTAGATGCAGTCAGAAGATTCCGAATACGACACAGACCAACCGACCAGCTCAAGCTGAGGATCGGATTGCATTCTGGTCCCTGTGTTGCCGGGGTGGTTGGTCTAAAAATGCCCCGATACTGTCTATTTGGAGATACGGTAAATACGGCGTCTAGAATGGAGTCGAATGGTGAGGCTCTTAAAATTCACGTGTCTCCAACTACTAAAGCATTGTTAGATACATTCGGAACATTCCGGTTGGAGTGCAGAGGAGAAGTTGCAATGAAGGGAAAAGGAGTTCTAGTCACATATTGGTTATTAGGAGAAAAAGTGGATATGAGTGCACCTAAGGAGACAAAAGAAAAAAATCAACTTCCAAAATTGCAAAATCAACTTACGGAAAGTGGATCTCTATCTCATCTTACACAATTTAGAAATCGATTAGACCAAGGATCTAGATCGTCTAGTAGAAGAGGTTCCGGTATTCTGGTTCAAAAACAAGTAGATCTAAGCAAATTGGATAAAGAGGTCCAACCCATTTTACAAACTATAAGTATCCTGCAAAAACAGCATTCAGATCCTACAGAACCGATCTCTAATGGCGTAGCAGATACTGACGACATAGACAAACTAAGTGTTAATAATGCTATACCACTTAATGTGAACTCCCTTCATAATAATTTTAATCAGACAGGGCAGCCAAAAGTTAAATTGAAAGATAGTCAGATTAACTTGATTGGAAATCATAAAACGAACAAAATAGGCAATAACAACTGGCTGGCGAAGCTACCTACAGCAAGTTCCTTTGACAACGGAGCTAAAAAAGTTAGTGAAAGACTTAAAGACTACAGCAGTGTACCTCTGTTGTCAAAAGTTGATAAACCTAATGATTCCATTGTATGA

Protein sequence:

>DPOGS207365-PA
MISVCGGSVNTVNIVKDNFNNSKEDLNVDIMKALQHNTSVIHGDNNVVRSTQKVLEKEDETSDKYSSEVQELSKYYTYYKNKEDTNNDTEENDIYVERDIYDDTRAVGYPHDLATNPFYIKKTNFNLRPEVPQFNEKILKLGVLLPADSTQVFSLAKVLPIVEMAIPAMTKPDGPLPGWKILVDYRDTRCSSVEGPLAAFEFYVNGSADAFIGPGCEYVIAPVARYAGSWGIPVITAGAQAEAFGYKHPSYMTLTRMMGSYTQAGVAIRKVFEEFNWRKLGMLYHNNNPSTGKGNSPCFMTLSAIFSVLQKKGTGNISNIPFDETNTTTTKIKELLMKLSLSTRIVVVCANPSTVREIMLAADDLNMVSSGEYVFFNIELFSNLASASSKEPWKVEGDSEERNERARRAYSAVLTVTSPAPEKKEYLEFSDQVKELAATKYNYTFGKGEVVSTFVAAFYDAVLLYALALNDTLRQATNPRGQLDGAAVIKNMWNRTFQGITGEVIINGNGDRVASYSLLDMNPNTSKFEVVATYVAANSSLQFIENRPIHWAGGRDTPPPDTPRCGFDGSLCPDTSLPVYAILSIILSSVVVILAILSVFIYRHYKLEAEIAMMTWRVSWSDVLLPGRFRGSIHSLARRYSSGTAYSDEATSLPGDRQVYAPCGFYKGCRVAVKKVDKQRIDLTRPLLLELKKMKDLEHDHLARFYGACVDPPHCCLLTEYCPKGSLQDILENDTIKLDWMFKVSLMHDIVKGMHYLHSSDIKSHGALKSSNCVVDSRFVLKITDFGLNALRTSEKDAKAHSYWTRLLWTAPELLRMADPPPEGSQKGDVYSYGIIMHEIVNRQGVFWIGPDIDLSPKEIIDAVKGSNLRPNTTYNRSCEADDATELMKRCWTEDPVERPDFGHLKGAIRRLNKTQESSNILDNLLSRMEQYANNLETLVSERTQDYLEEKKKCEELLYQLLPKSVASQLINGQSVVAETFEQVTIYFSDIVGFTALSASSTPMQVVDLLNDLYTCFDSIVENYDVYKVETIGDAYMVVSGLPERNGTRHACEVARMALALLDAVRRFRIRHRPTDQLKLRIGLHSGPCVAGVVGLKMPRYCLFGDTVNTASRMESNGEALKIHVSPTTKALLDTFGTFRLECRGEVAMKGKGVLVTYWLLGEKVDMSAPKETKEKNQLPKLQNQLTESGSLSHLTQFRNRLDQGSRSSSRRGSGILVQKQVDLSKLDKEVQPILQTISILQKQHSDPTEPISNGVADTDDIDKLSVNNAIPLNVNSLHNNFNQTGQPKVKLKDSQINLIGNHKTNKIGNNNWLAKLPTASSFDNGAKKVSERLKDYSSVPLLSKVDKPNDSIV-