Monarch geneset OGS2.0

DPOGS201934
TranscriptDPOGS201934-TA3273 bp
ProteinDPOGS201934-PA1090 aa
Genomic positionDPSCF300112 + 481372-501209
RNAseq coverage14x (Rank: top 82%)
Annotation
HeliconiusHMEL0037120.082.82% 
BombyxBGIBMGA002064-TA2e-6934.98% 
DrosophilaACXD-PA8e-9340.59% 
EBI UniRef50UniRef50_UPI00016E6A964e-11433.33%UPI00016E6A96 related cluster n=5 Tax=Takifugu rubripes RepID=UPI00016E6A96
NCBI RefSeqXP_623858.22e-11345.65%PREDICTED: similar to ACXD CG5712-PA [Apis mellifera]
NCBI nr blastpgi|3503969637e-11347.13%PREDICTED: adenylate cyclase type 2-like [Bombus impatiens]
NCBI nr blastxgi|3503969633e-10747.13%PREDICTED: adenylate cyclase type 2-like [Bombus impatiens]
Group
Gene OntologyGO:00168494.5e-62phosphorus-oxygen lyase activity
GO:00091904.5e-62cyclic nucleotide biosynthetic process
GO:00355564.5e-62intracellular signal transduction
KEGG pathwaymcc:6957923e-123 
 K08048 (ADCY8)maps-> Salivary secretion
    GnRH signaling pathway
    Progesterone-mediated oocyte maturation
    Gap junction
    Long-term potentiation
    Gastric acid secretion
    Dilated cardiomyopathy
    Chemokine signaling pathway
    Purine metabolism
    Vascular smooth muscle contraction
    Calcium signaling pathway
    Melanogenesis
    Oocyte meiosis
    Taste transduction
InterPro domain[315-508] IPR0010544.5e-62Adenylyl cyclase class-3/4/guanylyl cyclase
Orthology groupMCL10320 Insect specific
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS201934-TA
ATGCCGGAAGATAGAAATATGGAGCGTGCGCTCCGCTCGCGAGCCAAACGTCGACTGACGATCTCCAAAGCCAAGCTGTCAAAAGCTGTTTTTGCTGGTGCTCAGTTGGAGCCCGCTTTAGGTGCATTTACTGAGGACGATGGTACATTGTCCAGAACGACCGGTTCTGTCGTTCTTCAAGTGGGAGCCCTGGAATTGCTTGCGCGCTATTCTATGAACTCGAGAGCAACTAGCGTTTTGTCATCACTCCATGAGTTCAGAAGTCAGGAAGTAGAACAAACTGGTGGAAAACAATGGAATTGGAAATATTTGAGGCAAATACAATGGCGTTCAACATACCTATCAATGGCAATGTATATTCTAAGGATAACGTTACCAATATTTTCATTCTGGAAGAGATTCTATGATCCCCTTAAAAAGAAATGGTTTTGGATGCCGATGCTCGTCACTTTTTTGCTAACATTAGACCTGGTTGTATCAGATATAAGCGTCGTTATATACAGTTCAATAGAAGGCATGCCTATCCGACCGGCCTTCCCTACAATGTCACTTCTATCAGTGTACATCTTTCTGCCCATGAGGAACAATTTCCTTGCTATATTTCTTGGAGTTATCGTCAGTGTCATATACATATTCGTGTTCGCTTTCTTCACTTATAACGAAAATCCTAACGTTAAAACAATGGTAGCGTGCGAAATAATGTATTTAATAGGCGTCAACCTTATGGGGACTTACTTTAGATTGATGAACGAGATAGTAACTCGACGGTCATTTCTAGATAGACGTGCATGTGTTGAGAGTACGCTGCGACTAAAATTCGTTAAGGACCAAGAGGAGCGGCTTATGTTAAGTATATTGCCAGAGCACATTGTGTCTAGAGTTAGACATGATATAAGAGATATGTTTTTGGACATAAGGTCGCAAAGCCAGAGTCATAACATGAAGTCTTTCAGTCAACTGTACGTAGAAGAACATAACAATGTCAGTATTTTATACGCAGACGTCGTGAATTACACAAAGATTTCAACAACACTATCCCCGATGAGAATGGTCGAACTGCTCAATGAACTTTTCGGTAGATTTGATGAAGCGTCGGAAGAGCATGACGTATTACGAATTAAGTTCCTAGGTGATTGCTACTACTGTGTAAGTGGGATACCAAAACCGACTGTGCAACATGCCAAAAACTGTGTGGATCTGGGACTTGAAATGATTCATATAATCAAAGACGTCAGAGATAAACGGTCATTAAATATTGATATGAGAATCGGCGTACATTCAGGTAAAATTTTAAGTGGTTTAATTGGAATTCGAAAATGGCAATTCGATGTTTGGTCAAAGGATGTTACAATTGCAAATAAAATGGAGTCAACCGGAAAGGCCGGCAAAGTACACGTAACTAAGCAAACATTGGAGCTTCTTTTGGATTATGCAAGAGAATATATTATTGAACCAAATTTTTCTTCACAAAGTGATCCGTTCATAATAAAGAATAAGCTAGAAACATTTTTACTTACAAGACCACCAAAGCCTCCAGCAGATAGCAAGCCTTTTCGGCGAGCTTCTGTCGGCTTCAACAAAATAATTACTTCACGCTCGCGTGCTAGACGATCGGAAAATAATCGTAGAAGTTCTTCGAATTTTCGTCGAACTACCGCATTTATGGATGAGAACTTGGTTGAGTATCAACAAATGCTCAAAGCAGCTGATGCTCAAATGGCAAAGGAAATTGAGGATATGACTAACGGAAACTTGGGACTTGCAGCAAGTTCAATGGTCAATGTAATAGGTTGTGCCGAAGTTGAAGTTGGTTCAACAGATGTTGTTCTGTCGAACTGTATTTCGCCGTGGCAAGCGTTTATAAAATGTGTCATTTTATTTCAGCACGTAACTCAGTGTTGGAGTTTGGCTTTGTTATTAAATTTCTTATTTAGTAGAGTCTTTTTCATCTTTAAGTGGATCGTTGCTGGAGGAATGACAATATTTTACCTTTGTGTTGTCTGGGAGATTAAGACTTCGCTATTTGCTAGAGACCTTACTTGGAACGTAGGCTTGGATCCCAGAGTCTCACATACATTGTCAGTGGTTTTTATTACTGTAATGTTATACTGGATTGACAGAACGACTGAATATAGAAATAGGTTGGACTATTTGTGGCAAATACAACTAAGAGAAGAACAAGAAGAAGCTGAGACTATGCTTAAAGTTAATAATATGCTGTTGGAAAATATTTTACCAGCTCATGTTGTTCAAGTTTATTTGGATCTAAATAGATCATTGGATGAGCTATATTATGAAAAGTATGATAACGTAGCTGTCATGTTTGCTTCACTGACGGACTATAAATTGGGATTGGAAGACGACGCAGATTTATGTGATAAATTTGTATTGAGCATTTTGGACGAAGTTATTTCTGATTTTGATAGACTTCTCCTAACTGGGTCCTCGGTTTATAAAATAGAAAAAATCAAAATGGCGGGCTGGACATATATGGCTGCTTGTGGGTTGGACCCCAACCGAAGAGATTCATATGATTCGTCTTCATATACTTCAATAGTCGACAGGAATAAAAACACTCCTTACAATCGGGCAATCGTAGTCACAATGGTTGAATTTGCAGCTGCCATGATGATGCAATTACAAAATTTTAATCGAGGATCATTCCAAAGTTTCGAGGGATGGAATTTACGTATAGGTATATCAAATGGTGAAGTAGCTGCAGGCGTTGTTGGATCTCTCAAGCCATTATACGATATTTGGGGAAATGCTGTAAATATGGCCTCTCGAATGGATTCAACTGGTGAAACAGGGAGGATTCAAGTGACTGAAAATACAGCTATTATTTTAGACGAATGCGGTATCCTAACCAGTTATCGTGGCGAGACATTTGTTAAAGGCAGAGGTTACATAAAAACTTATTTTGTGCCTTTGGATGAAAACTTTAATTTAGTAAAGAAAGAAAACTCGTCGGAATATTTTAAAAACGACGAAAGACAAAGATATTTTTATGCTAGGCCCACGATGCTCAGTCTTACATCAGTAGACACAGGCACGCTAGATACAGTGTCACAAAACTCTACAACTGATATCCAAGACATCCCCACTGATGTTCAAAATGGGGATGTAAATAAACTAGACGAGAACAATTGCGTAAGCTTTAAAAAACTAAAAAGGTCAATAAGCGATTATGGAACAGACGGGATATCGATACCACCAAGGGATGACGGAAGTGACGTATATGCTGAAATGGACATTATTGAAACTCGTTGTTAA

Protein sequence:

>DPOGS201934-PA
MPEDRNMERALRSRAKRRLTISKAKLSKAVFAGAQLEPALGAFTEDDGTLSRTTGSVVLQVGALELLARYSMNSRATSVLSSLHEFRSQEVEQTGGKQWNWKYLRQIQWRSTYLSMAMYILRITLPIFSFWKRFYDPLKKKWFWMPMLVTFLLTLDLVVSDISVVIYSSIEGMPIRPAFPTMSLLSVYIFLPMRNNFLAIFLGVIVSVIYIFVFAFFTYNENPNVKTMVACEIMYLIGVNLMGTYFRLMNEIVTRRSFLDRRACVESTLRLKFVKDQEERLMLSILPEHIVSRVRHDIRDMFLDIRSQSQSHNMKSFSQLYVEEHNNVSILYADVVNYTKISTTLSPMRMVELLNELFGRFDEASEEHDVLRIKFLGDCYYCVSGIPKPTVQHAKNCVDLGLEMIHIIKDVRDKRSLNIDMRIGVHSGKILSGLIGIRKWQFDVWSKDVTIANKMESTGKAGKVHVTKQTLELLLDYAREYIIEPNFSSQSDPFIIKNKLETFLLTRPPKPPADSKPFRRASVGFNKIITSRSRARRSENNRRSSSNFRRTTAFMDENLVEYQQMLKAADAQMAKEIEDMTNGNLGLAASSMVNVIGCAEVEVGSTDVVLSNCISPWQAFIKCVILFQHVTQCWSLALLLNFLFSRVFFIFKWIVAGGMTIFYLCVVWEIKTSLFARDLTWNVGLDPRVSHTLSVVFITVMLYWIDRTTEYRNRLDYLWQIQLREEQEEAETMLKVNNMLLENILPAHVVQVYLDLNRSLDELYYEKYDNVAVMFASLTDYKLGLEDDADLCDKFVLSILDEVISDFDRLLLTGSSVYKIEKIKMAGWTYMAACGLDPNRRDSYDSSSYTSIVDRNKNTPYNRAIVVTMVEFAAAMMMQLQNFNRGSFQSFEGWNLRIGISNGEVAAGVVGSLKPLYDIWGNAVNMASRMDSTGETGRIQVTENTAIILDECGILTSYRGETFVKGRGYIKTYFVPLDENFNLVKKENSSEYFKNDERQRYFYARPTMLSLTSVDTGTLDTVSQNSTTDIQDIPTDVQNGDVNKLDENNCVSFKKLKRSISDYGTDGISIPPRDDGSDVYAEMDIIETRC-