Monarch geneset OGS2.0

DPOGS208170
TranscriptDPOGS208170-TA6165 bp
ProteinDPOGS208170-PA2054 aa
Genomic positionDPSCF300207 - 202015-213725
RNAseq coverage103x (Rank: top 60%)
Annotation
HeliconiusHMEL0157150.073.29% 
BombyxBGIBMGA010258-TA0.067.43% 
DrosophilaDhpD-PA2e-9645.09% 
EBI UniRef50UniRef50_E2BEP58e-14928.22%Adenylate cyclase type 10 n=2 Tax=Formicidae RepID=E2BEP5_HARSA
NCBI RefSeqXP_001815057.12e-14036.57%PREDICTED: similar to soluble adenylyl cyclase [Tribolium castaneum]
NCBI nr blastpgi|3072084533e-14828.22%Adenylate cyclase type 10 [Harpegnathos saltator]
NCBI nr blastxgi|3454847863e-15427.67%PREDICTED: adenylate cyclase type 10-like [Nasonia vitripennis]
Group
Gene OntologyGO:00088921e-175guanine deaminase activity
GO:00082701e-175zinc ion binding
GO:00167873.1e-39hydrolase activity
GO:00168491.3e-24phosphorus-oxygen lyase activity
GO:00091901.3e-24cyclic nucleotide biosynthetic process
GO:00355561.3e-24intracellular signal transduction
KEGG pathwaytca:6550592e-127 
 K11265 (ADCY10)maps-> Purine metabolism
InterPro domain[1649-2051] IPR0143111e-175Guanine deaminase
[1676-2003] IPR0066803.1e-39Amidohydrolase 1
[71-253] IPR0010541.3e-24Adenylyl cyclase class-3/4/guanylyl cyclase
Orthology groupMCL15939 Multiple-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS208170-TA
ATGTCACGACGTGATAGTGACCAGTTCACAGACGATCAGGAAGATGGTCTGCCAGAAACAGGACTTGAAGACTGGGTTGAAGAATTTTTCATACAAAAATCTTTGGGATCTGAGCAATGCGACCAAGATGTTGAAGTGAAATTAACCAAAAAACAGACACTAATTTTATCTACTCTAGTACCAGATGAAATACTTCTTATGGAAAACTTCAGTTCAGTGAATCCTAAACGTTTTGTCGGAGTTCTTATGATGGCTGATGTGTCCGGATATACGGCTTTGTCCGAGAAATATAATAATAGCGGAAAAGGTGGTACATACAGATTAACTGTGACATTGAACACCTACCTAGGTTCTCTTTGCGAAATCATTTACAGCCACGGAGGTGATATTATCAAATTCGCTGGTGATGCGTTTTTAGCGCTTTGGAAAACCGACAAACGAACTTTTTTATGTCATACAATTCATACAGCAATAGCATGTGCCCTAATAATCCAACATTCATATGGATCATACGAAACTGATGTCAAAGTAAATCTTAAAGTTAAGCTAGCCATATCAGCAGGAAACCTTATATTTTCTCCAATCGGCTCTGGAATCGACATGAATTATATAATAATTGGTTTGCCTGTTATTGAAGCAAAAATTGCAGAAAGTCTTTGCTCTTCTGGAGAAGTTAAAGTTACACCGACGGCATGGGGTCATTGTTATTCCCGTAACTATGATCACGTGATTTCGGATGACGGTCATGTATCTATAAAAGCAATACTATACGATCCACGCGAAAAGGACGTAAGCAAACCCTTCGTAGGCTTTGCCGCCATGATTCGTCAAGTCAGTAACAAGCCATTTGTTACGTTAGAAAATCTTCCTGATTTCGCCTCAGATGCAACGCAACTTGATTCAAGCATGACAAAAGAGAGCGAAATATTAAGTCTTCGCAATACAATTCTACTAGCTGAAGAGAAAAACATCGGCGCAGAAATCAGGAAGTTTATGATAAGGCCTGTCCTTACTCAAATCGATGCACATCAACCTTTGGAATATCTAACAGAAATGAGACAAGTGTCTGTTTTGTTTGTTACACTTAAACCTAAAGATTGTCCATCTTCTCAGCTCATAACTTTGGTAGATAATTCTTACAAGATAACTTGTGAAATTGTATGTAAATCTATGGGATGTGTCAACAAAATTATTTTATTTGACAAAGATATTATGATTTTAGTCATTTTCGGATTAAGGGGATTTAAACATGAATCCGAAGCTCAAGCGGCGCTTAAATGTGCCTACAGTATTAAAAAATCATTGTCAGCGCTTGATGGCGTGCTTGAAGTTTCAATCGGTGTTACCACTGGGCAGGTCTATTGTGGAGTAGTGGGTCATCCACTAAGAAGAGAATTTACAGTTATAGGAGCTATCGTAAATAAGGCCGCAAGATTTATGTGCAGTTTTAGAAATAAAATTACTTGTGATGAAGCGACTTTTATTAAAAGCAAAATGTTTACAGATGCTTTTACTTTACAACCACCAACACAACTCAAAGGAATTAACAAACCGGGTAGAATATATGAATATACAGAAGAAATCAGAGTAAAAGAGCTATATAACATTCCTTTAATATCCCCATTATTGAACCGCAGCGACGAAATGGAATATTTTGAAAGTTGGCTCGATGACTATCAATTAAAATTTAGAGATTTTGATGCTTTATTGCTTATCGGTGAACCGAGATTAGGAAAAACTAGACTGTTAGAATGGATGATCAGATTAACTAAGAATAAAGATTTCAAGGTATGTCATTTGAGTTTGACATCGATACATTCTGCCACTCCGTATTTAGCGTTAAGCCAAATCATCGATCAAATTATTGATTTTGAACCACCACATACGGGATTCGAAAAGGAAGAAAAAATTGTAGATTTATTAACCCATTACAGTGAAGATTTATGTTATTTGAATGATATTATTAAAGTTCGTTTTGCTTACTGCGAAGGTGTTTATAAGCAGAATGAAGCAACAAGAAATGAAAAGGCTAAAAACATTTTTAAGAAATTAATCATGGCTTTTCAAAAAGCATGCGTTATATTTTTAGATGATATACACAATTTAGATGAATCTTCTTGGGAGTTTTTGACAATAATGTTTGAATCTATGAATATTTTTACTATATTTACTGTTACACGAGGTAAATTCAGTTCTTTGCACAGCTGGCTCTACGAGGTATTTATTAAAAGTAATATAAGAAAAATAGTCTTAGGTTCTTTAGATTCTAACTGGATAGCACCGCTAGCTTGCCAAATACTTGATGTTGACGCAGTACCAAATGATTTGTGCAATTCACTCAAGGCTAAGTGCAACGGCAAGCCTGGTCTGGTTGAAAGTTTCATCGTCCACTTGTTTTCTAGTGGAGCTTTAGAGTTTAAAAAAATATCTAAAGCCGATGTAATTACAGAGATTCATGAAGATTTACAATTTCCTGATCCAAAGTTAGTCCTACCAGTCGCATTGAATATTAAAGACCAACAAAATTTAGACAATTTAATGGAAGAAAATTCAACGGATGAAGTTTCTGTTTGTGTTGTTATTAAAAAAGAAGAGCTTAATACAGATATAAATATTCAAAATATTGATGCACTCATCATGATTCAGATAGATTCACTAACACCCTACCAACAACTTCTATTAAAAATAGCCTCCGTTATCGGCAATATCCTCTCAAGAGACCTCTTAGAAAATATTATGTATGAAAACGATCCATTAATAACTGCAAAGGCTGTTAAAAGACTATTTGCGATGCGAATACTGACCTGTGCTAACATTAAAAGCAATAGAAGTGCTCCTTCCAGCATTGCGTCATATTGTCATGGAAGTTTAAATTTGTCATGCGATTGTTGTTTTGAGTACGATTCTGAAAATGATGACTTAAGTGTTTCAAACGAGGAATGTGAACTTGATACTGTTGATATGATCCAAAGTGAAGTAAATAAAGAAACTATAAAAGTAAAAAAGTCGCAATCCGAAGCTCTGGAAGATAATAAGACAAAGCCTAATTTCATAAACTCAACAAGTTCTTCACGACTCAGTGAACTAAACAACACCAACGTTTCTCAATGTGCTCCGATATTAAAAAGAAAATTTCACATTGACGATGACATTGACATACGAAGGAGGTCCACTAAGAGGGTGACGATGTCTAACATACTCAGTAAAAATGTGAGCTCCGAAGAACTGAAGAATCCTACTATATTTGATATGTTTAGATCTGTTTTAGAAGTTTACGAAACAAAAGACTGGCATGATCTCGGAATTATAGATAGTCAAGATGATGTGAGTACCGAGGCTAATGAAAAAACATTCCACATAAAAATAGAAAAAGGGGTATCTCAAATTAATTTTAAAAAATGTTCATGTGCTGATCTTCATATCACGATATATAAACAATTAATTCAACATACAAAAGAAGCTGAGCTCACAGATAAAATGGTAGAGTTTATTTTACAATATAGTTATTTAAACATACTGGCACATAGTTTCGAAATGGCAATACCTAAACTTGATGAAGCGGAAAATATTTGCCTAGATAAGAAAACCCCCCTTACAAGCTTTGAAAGAAAAAGATTTCTTGGCAGAACGTATTCTTTGAAGGCAGCTACATTTTTGTTGAGTGGCAGGTTCTTGGCGGCCAAAATAAATGCCGAAAAAGCATGTAAAATTTACAATATAAACCTAAAGAATATAACCAATTTATTTCATTTCCCAAATATTATATCTGCTGTTAAACTAAGAAGTGAAAAATATCGACGTCAGAATATTATAATGAAACAAGATTCGATATTTTTCTTGAATGTTGCTGCAATACTTTATTCCACATTAGAAGATCAAATTTGCGCCAGGGTAGCCGCACTTCGTTCTTTACATTTAATACAACGTGTTGACTGTAGCTTCATTGATTTATGCGATGCTTTGACCAACGCAATACAAATTGAACTTGATCGTGGAAATCCAGAAGTAACAGCTAATATAGAAAAAATTGCAAGTATCTCCTTAAAAAAATTTAATCGACCAATTGAGGCTGGCGAACTATTTTCATTGGGCAAACTATTTTTGATCATATTTCAAGCGCGTTCAGCACGCGGTCAAATCACGGCTGCTATAAGATCAGGATTTAGAGCTCTTGTCATAAGTCGTTTTCTCTTTGCAATTAAAATATCAGTTGACATTATACCAGACGTTTTCTACTTATTATTATCCAGATGTAGAATTCGAGAAGCAGTGGACGTCATAAAATTGCTTTTACAATTAGATGAAAATCAGACAACACTAGAATGTGAAACTTGGTACTACGCTCTTTGTATGGACATGATTTTAGATTGTGGTTTTCAACTGGAGTCACCTATTGAAATTAGTCGTTTCGCTGAATTCTCTATTTGCAAGGGAAAATCTGCTGGTGAAAGTCGCCGGCGTCTTATCGTTGGTGTATGGACATATTGGCTTCGGGCGAATTTTGAGAGACGCGCTAAACAGTTCGAGGATGAAGCATTGAATTGGTTGTCACAGACCGACGACGATTGTACGTTGAGAACACTTATAAGCGCCTTGAGACTTGCTGAAGGGATGTTGGAAAGCTTAGCAAAGAAAGTGGATGATTTACGTAAGGTTGTTGACTTAATGGAACTGCACTCGTTGGCTGATCATGAACTAAGTAGGCTGGAAAAAGATGCTCGACTCTTGCGAACAATTTATCCAAGATGGATGTTAATTAAAGCTTATTCCATGAATGTATCTGGACGACACAGTGCTGCAAACACGTTATTTAACCAAACGGTGATAGAGGCGCGTAAAATACACAATCATCTGGAAGAAGCTCTTACCCTAGCGGCAAACTCAAATTCCAAGCATTGGATACAGTGTGCACTTACTGGACAATTTTTGCCGTGGTACATAACAAAAATTGGTAATATAGAAGAGTTTCAAAAACAGATTGATAATTTTAGTGATTCAAAAGTGGTTACACTTGGAGAGAATGAGTTTTTAATGCCGGGCTTTGTGGACTGTCATACTCATGCCCCTCAATATCCCAACATTGGTCTAGGATTGGACCTCCCATTGCTCGAATGGCTCAATAAATATACTTTTCCACTGGAACGTCACTACAGTGATGCAGAATTTGCTGCTAATGTTTATGACATTGTTGTGAGAAGATTAATTAACAATGGCACCACAACGGCCTGTTATTTTGGATCCTTACACTTAGAAGGTACGATGAAGCTAGTGAAATATGTTGTTGAGCACAAACAAAGAGCATTGGTGGGAAAAGTCAGTATGAATGTAGAAAATGATGCTGGATACTATAACAAGACAGAAAAGGAACTGCAAGAGGTTGAACAATTCATCAAAAGAGTTCTAAGCTATAAGAATGATTTGGTTCAACCCATAATTACTCCGAGGTTTGCAGTCAGTTGCAGCAATGAACTGATGTGTGCTTTATCACAGCTAGCGTCGAAATACAAATGTGGCATTCAGAGTCACATATCGGAAAATAAAAAAGAAATCGAATATGTGCTAGAGACGAACCCGGAATGTGCGTCATATTCTGATGTTTATCAACGATGCGGCATATTTAATGGTCCATGTATAATGGCCCACGCCGTCCACCTCACTGAGGACGAAATCAGTGAGTTCAGTATTCGCCAAGTGTCGGTGGCGCACTGTCCCGCCTCCAACACTAGACTGAACTCGGGGCTTTGCCCCGTCAGGAAGCTCCTAGACAGAGGCATCAGAGTGGGCCTCGGCACCGATATTTCTGGTGGTGACAGCGCTAGCATGTTAGACGCCATGCGGCGAGCCATGGATGTGTCGCTGCACTTGGCCATGATGGGCCAACCTCATACCACTTTAGACTGGAAGGAAGCTTTCTACCTCGCGACGCTAGGCGGCGCTAGAGCTTTACGACTGGAAGATAAAATTGGCAGTTTCGATGTTGGTAAACAGTTCGATGCTTTACTAATAGACGTTTACGCGAAGGGCGGGCCAATCGATAAATACGCGTACGATAGTGGCGAGCACGCGCTGGTGGAGTTGGTGCAGAGATTTGTATATTTGGCGGACGACAGGAACATAAGGCAGGTGTACGTGAACGGGGAAACTATAAAGAATGTTATTATATGA

Protein sequence:

>DPOGS208170-PA
MSRRDSDQFTDDQEDGLPETGLEDWVEEFFIQKSLGSEQCDQDVEVKLTKKQTLILSTLVPDEILLMENFSSVNPKRFVGVLMMADVSGYTALSEKYNNSGKGGTYRLTVTLNTYLGSLCEIIYSHGGDIIKFAGDAFLALWKTDKRTFLCHTIHTAIACALIIQHSYGSYETDVKVNLKVKLAISAGNLIFSPIGSGIDMNYIIIGLPVIEAKIAESLCSSGEVKVTPTAWGHCYSRNYDHVISDDGHVSIKAILYDPREKDVSKPFVGFAAMIRQVSNKPFVTLENLPDFASDATQLDSSMTKESEILSLRNTILLAEEKNIGAEIRKFMIRPVLTQIDAHQPLEYLTEMRQVSVLFVTLKPKDCPSSQLITLVDNSYKITCEIVCKSMGCVNKIILFDKDIMILVIFGLRGFKHESEAQAALKCAYSIKKSLSALDGVLEVSIGVTTGQVYCGVVGHPLRREFTVIGAIVNKAARFMCSFRNKITCDEATFIKSKMFTDAFTLQPPTQLKGINKPGRIYEYTEEIRVKELYNIPLISPLLNRSDEMEYFESWLDDYQLKFRDFDALLLIGEPRLGKTRLLEWMIRLTKNKDFKVCHLSLTSIHSATPYLALSQIIDQIIDFEPPHTGFEKEEKIVDLLTHYSEDLCYLNDIIKVRFAYCEGVYKQNEATRNEKAKNIFKKLIMAFQKACVIFLDDIHNLDESSWEFLTIMFESMNIFTIFTVTRGKFSSLHSWLYEVFIKSNIRKIVLGSLDSNWIAPLACQILDVDAVPNDLCNSLKAKCNGKPGLVESFIVHLFSSGALEFKKISKADVITEIHEDLQFPDPKLVLPVALNIKDQQNLDNLMEENSTDEVSVCVVIKKEELNTDINIQNIDALIMIQIDSLTPYQQLLLKIASVIGNILSRDLLENIMYENDPLITAKAVKRLFAMRILTCANIKSNRSAPSSIASYCHGSLNLSCDCCFEYDSENDDLSVSNEECELDTVDMIQSEVNKETIKVKKSQSEALEDNKTKPNFINSTSSSRLSELNNTNVSQCAPILKRKFHIDDDIDIRRRSTKRVTMSNILSKNVSSEELKNPTIFDMFRSVLEVYETKDWHDLGIIDSQDDVSTEANEKTFHIKIEKGVSQINFKKCSCADLHITIYKQLIQHTKEAELTDKMVEFILQYSYLNILAHSFEMAIPKLDEAENICLDKKTPLTSFERKRFLGRTYSLKAATFLLSGRFLAAKINAEKACKIYNINLKNITNLFHFPNIISAVKLRSEKYRRQNIIMKQDSIFFLNVAAILYSTLEDQICARVAALRSLHLIQRVDCSFIDLCDALTNAIQIELDRGNPEVTANIEKIASISLKKFNRPIEAGELFSLGKLFLIIFQARSARGQITAAIRSGFRALVISRFLFAIKISVDIIPDVFYLLLSRCRIREAVDVIKLLLQLDENQTTLECETWYYALCMDMILDCGFQLESPIEISRFAEFSICKGKSAGESRRRLIVGVWTYWLRANFERRAKQFEDEALNWLSQTDDDCTLRTLISALRLAEGMLESLAKKVDDLRKVVDLMELHSLADHELSRLEKDARLLRTIYPRWMLIKAYSMNVSGRHSAANTLFNQTVIEARKIHNHLEEALTLAANSNSKHWIQCALTGQFLPWYITKIGNIEEFQKQIDNFSDSKVVTLGENEFLMPGFVDCHTHAPQYPNIGLGLDLPLLEWLNKYTFPLERHYSDAEFAANVYDIVVRRLINNGTTTACYFGSLHLEGTMKLVKYVVEHKQRALVGKVSMNVENDAGYYNKTEKELQEVEQFIKRVLSYKNDLVQPIITPRFAVSCSNELMCALSQLASKYKCGIQSHISENKKEIEYVLETNPECASYSDVYQRCGIFNGPCIMAHAVHLTEDEISEFSIRQVSVAHCPASNTRLNSGLCPVRKLLDRGIRVGLGTDISGGDSASMLDAMRRAMDVSLHLAMMGQPHTTLDWKEAFYLATLGGARALRLEDKIGSFDVGKQFDALLIDVYAKGGPIDKYAYDSGEHALVELVQRFVYLADDRNIRQVYVNGETIKNVII-