Monarch geneset OGS2.0

DPOGS203769
TranscriptDPOGS203769-TA6213 bp
ProteinDPOGS203769-PA2070 aa
Genomic positionDPSCF300010 + 590574-612735
RNAseq coverage310x (Rank: top 36%)
Annotation
HeliconiusHMEL0042290.088.59% 
BombyxBGIBMGA013403-TA0.055.24% 
DrosophilaCa-alpha1D-PC0.064.69% 
EBI UniRef50UniRef50_Q24270-40.064.69%Isoform C of Voltage-dependent calcium channel type D subunit alpha-1 n=14 Tax=Coelomata RepID=Q24270-4
NCBI RefSeqNP_723952.10.064.69%Ca[2+]-channel protein alpha[[1]] subunit D, isoform C [Drosophila melanogaster]
NCBI nr blastpgi|2700146680.064.89%hypothetical protein TcasGA2_TC004715 [Tribolium castaneum]
NCBI nr blastxgi|2700146680.065.00%hypothetical protein TcasGA2_TC004715 [Tribolium castaneum]
Group
Gene OntologyGO:00550851.3e-66transmembrane transport
GO:00052451.3e-66voltage-gated calcium channel activity
GO:00068161.3e-66calcium ion transport
GO:00519251.3e-66regulation of calcium ion transport via voltage-gated calcium channel activity
GO:00058911.3e-66voltage-gated calcium channel complex
GO:00160202.3e-60membrane
GO:00068112.3e-60ion transport
GO:00052162.3e-60ion channel activity
GO:00160212.7e-19integral to membrane
KEGG pathwaydya:Dyak_GE213430.0 
 K05315 (CACNA1N)maps-> MAPK signaling pathway
InterPro domain[191-206] IPR0020771.3e-66Voltage-dependent calcium channel, alpha-1 subunit
[1232-1459] IPR0058212.3e-60Ion transport
[99-117] IPR0054462.7e-19Voltage-dependent calcium channel, L-type, alpha-1 subunit
[1596-1628] IPR0148736.8e-19Voltage-dependent calcium channel, alpha-1 subunit, IQ domain
Orthology groupMCL10068 Multiple-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS203769-TA
ATGAATGCTCAAGATGGCGGCGACGTGGCCGCTAGCACACCAGTCACTAACGCAACACCTGACGCTGGCCCCCTCATTCCGGTCCCCGTGGCCCCCCGCAAGCCGCCGCGGAGGGGCCCTAAGGTTCCACAAGAGAGGCCCAAGAGGGCCCTCTTCTGTCTCACCCTCAAAAATCCACTCCGAAAGCTCTGCATTAACATCGTTGAATGGAAACCATTCGAGTGGATGATTCTGACTACTATATTCGCTAATTGCATCGCCCTCGCCGTCTACACTCCCTACCCCGCCAGCGACTCCAACTACACGAACTGGGTTCTGGAGAAAATAGAATACATTTTCCTAGTGATCTTCACTGGAGAGTGTGTTATGAAGATAATCGCGTACGGTTTCGTCATGCACCCGGGGTCCTACCTGCGGAACGGCTGGAACTTGTTGGATTTTACCATCGTTGTTATCGGTATGGTCAGCACAGTTCTTTCGAGTATCTTTAAAGACGCGTTTGACGTCAAAGCGCTGAGAGCCTTCCGCGTACTGCGACCTCTGAGGCTCGTCTCAGGAGTTCCCAGTTTACAGATCGTGTTGAACTCGATCCTGAAAGCGATGGTTCCCTTACTGCACATCGCGTTGCTGGTCATCTTCGTCATCATCATATACGCCATCATCGGCCTCGAGCTGTTCTCCGGCAAAATGCACAAATCCTGCTACAATAAGAGAACAAACGAAATAATGGAAAACCCTCACCCCTGCGACGTGGACAACGGGTTCAACTGTTCCTCCATCGGCGAGGAGATGGAGTGTCGAGATGGCTGGATAGGACCTAACTTCGGCATCACCAACTTTGACAACTTCGGCCTCTCCATGCTCACCGTCTTCCAGTGCATCACACTAGAAGGCTGGACTGATGTCATGTACAATATCCAAGATGCAATGGGAAACAGTTGGGAATGGATATACTTTGTGTCGATGGTAATTCTCGGAGCCTTCTTCGTCATGAATCTTATCCTCGGTGTGTTGTCCGGAGAGTTTTCCAAAGAGAGAGAGAAAGCGAAGAACAGAGGCGACTTCCAGAAGTTGAGGGAAAAACAGCAGTTGGAAGAAGATTTGAAAGGTTACCTGGACTGGATCACACAAGCGGAGTACCTCGAGCCTCTCGGAGATAGAGAGACGGAACAAAGAGACTATGGAATTGGAATTGATGTGAACTATTTGGGTCAAACACAAACCGAGCACGACTCCACGGATCATCTCGGAATCGAAGCGATCGAGCCGCAGAAGACGGCCAGGGGGAAGATGTGGAAGAAAGATTTCGATAAGGTGAATCGTCGTATGAAGCGCGCGTGTCGCAGGGCAGTGAAATCTCAGACCTTTTATTGGCTCATCATCGTGCTGGTGTTTCTGAATACAGTAGTCCTCGCCAGCGAACACTATCACCAACCAACTTGGCTGGATCATTTTCAAGAGTACGGCAACGCGATGTTCGTAGCTCTCTTCACGTTGGAGATGTTGGTCAAAATGTACAGCTTGGGATTGCAAGGCTACTTCGTGTCTCTGTTCAATCGATTCGATTGTTTCGTGGTGGTCGGCTCCATCAGCGAGATGGTTCTCACCAAGACGGAAGTGATGCCGCCGCTGGGAGTGTCCGTGCTGCGCTGTGTTCGACTGCTCAGGGTATTCAAGGTCACCAAGTACTGGCGCTCGCTGTCAAACCTGGTGGCGTCTCTGTTAAACTCGATCCAGTCAATCGCTTCGCTGCTGCTCCTGCTGTTCCTCTTCATCATGATCTTTGCTCTCCTCGGGATGCAGGTGTTCGGTGGCAAGTTCAACTATGATCCCGTCGAAGAGAAGGACCGGCACAACTTTGATTGTTTTTGGCAAGCGCTGCTCACAGTCTTCCAAATCCTCACGGGTGAAGACTGGAACGCGGTGATGTATGAAGGCATCAAAGCGTACGGCGGCGTCGGAACGTTTGGAATCCTTGCCTGCATCTACTTCATTATACTCTTCATCTGCGATATTCTGCTAAATGTTTTCTTGGCCATTGCCGTCGATAATCTGGCAGATGCTGAATCATTAACCAACATCGAAAAGGAGGAAGGTCAAGCAACGGAAGATCAGCAAGGAGTGGAAGGCCCTGAAGGAGAAGAAGTTGAAGGAGCACTCGCAGACACAGACGACGAGTACATACACGATGAAGATGCCTACACGACGGATAATTCTGAAAGAGATTACGAAGAAACAGGTTCAGAAGGCGAACATCACGAGGATCCAGAAGGAGAAGTAGAAGAAGGTGCAGAAGACAACGGTGAAGGAATCGAAGAAAATCAAGACAGAGACGATTTGGATAATCTTCAGACGAACCACACAGATGGCGAGTGCGAGGAGGAGGGGACGCTCGTTACCGCTAGACCGCGGCGCATCTCTGAACTGAATATGCCAAATCAGACGCCGCCGATACCGAACGCTAGTAGTTTCTTCATATTCTCACCGACAAACAGGTTTCGAGTGTTCTGCTACAAAATGTCTTCATCATCAACGTTCGGAAACATCATCCTGGTGTGTATCATGCTGTCGTCTGCTATGTTAGCAGCAGAGGATCCGTTAGACGCTGTGCAGAAAGGCTTTAGGAATTGGCTTCTCAGTCAGTTCGACATGTTCTTCACGGGGATCTTCACGTTGGAGCTGTTCCTGAAGCTGGTGACATACGGCCTGGTACTTCATCGTGGCGCCTTTCTCCGTTCAGCATTTAATGTGTTGGACATGCTAGTCGTCTGTGTGTCACTCATCTCCATGAGCTTTAAGTCTGGAAGTATATCAGTTGTGAAAATATTGCGAGTGTTCAGGGTGCTGAGGCCACTAAGAGCCATCAACAGGGCAAAGGGCCTTAAGCACGTTGTTCAATGCGTGATCGTTGCTATCAAAACGATCGGAAACATTTTGTTGGTAACGTCCTTGCTTCAATTCATGTTCGCGGTCATGGGAGTTCAAATGTTCAAGTATGTAGTGAAATGTGTGATAGTAGCCATTAAGACTATAGGAAATATAATGTTAGTTACGTATCTATTACAATTTATGTTCGCTGTCGTCGGTGTACAGTTATTTAAGGGTAAATTTTTTAGATGTAATGATATTTCAAAAATGACTAAAGCTGAGTGTCAAGGGACGTATTTAGTGTTCGAAAACAGAAATTATGTAGTTAGGGATAGAGAATGGAAGAGAAATGATTTTCATTTTGATAATGTGATGAAAGGGATGCTTACTCTCTTCACTGTGTCTACTTTTGAAGGATGGCCAGGGTTATTGTATGTGTCTATAGACTCGAATGCCGAGGACCGTGGTCCTATAACTAACTTCCGTCCAATTGTTGCAGCCTACTACATAATTTATATTATTATTATTGCCTTCTTTATGGTTAATATATTCGTGGGTTTCGTCATAGTGACATTCCAGAACGAGGGTGAGCAGGAATACAAGAACTGTGAACTTGATAAGAATCAGAGGAATTGTATAGAGTTCGCATTGAAAGCCAAACCCATAAGAAGGTACATCCCAAAACACCGCATTCAATACAAAGTGTGGTGGTTCGTGACGTCACAGCCGTTCGAGTACGCGATCTTCGTCCTCATCATGATCAACACCATCACGCTGGCGATGAAGTACCACGATCAGTCCCCGGAGTACAGTCGGGCTTTGGATATGTTGAACATGATATTCACAGCGGTGTTCGCTCTAGAGTTTATATTCAAACTAGCGGCCTTTAGATTTAAGAACTATTTCGGGGACGCGTGGAACACTTTCGACTTTATCATCGTCTTGGGCAGTATCATCGACATCGTTGTCTCGCAAGTAAACGAACTCAAGAACCAGGGAAGTGGCGTGCAAAGAGCGCATGTCGTCAAGGAAAGCTCCATCCCATCCATCAACTTCTTCCGTTTGTTTCGTGTCATGAGACTTGTGAAGCTACTCTCCAGAGGCGAGGGCATACGAACACTTTTATGGACTTTTATCAAGTCTTTTCAAGCACTTCCCTATGTAGCCTTGCTCATCTTGATGTTATTTTTCATTTACGCCGTTGTTGGGATGCAGGTTTTTGGTAAAATAGCAATAGACGATGAAACGCCCATCACCAGAAACAATCATTTTCAAACATTTCCGCAAGCTATACTCGTGCTCTTCCGGTCTGCTACCGGTGAGGCTTGGCAGGATATAATGATGGGCGTGTCTCCGGATCCAGATGTACGATGTGACGAGAATTATAAAGAAGAAGAAGGCGAAGACGAGGGCGGTGGTTCCTGCGGCTCAGTGCTAGCCTTCCCATACTTTATCTCATTCTATGTACTTTGTTCCTTCCTTATTATTAATTTATTTGTTGCTGTCATTATGGATAATTTTGACTATTTGACCAGAGATTGGTCAATTTTGGGACCACACCACTTAGATGAATTTATAAGATTATGGAGTGAATATGATCCTGACGCCAAGGGACGTATAAAACACTTAGATGTAGTTACGTTACTAAGAAAAATAAGCCCACCACTAGGCTTCGGCAAGTTATGTCCTCACCGCGTCGCGTGTAAGCGTCTCGTGTCAATGAACATGCCACTCAACTCGGACGGCACCGTCCTGTTCAATGCGACTCTGTTCGCCGTCGTCCGGACCTCGCTCAAGATCAAAACTGACGGTAATATCGACGACTGCAACACAGAGCTTCGAGCCGTCATCAAGAAGATCTGGAAAAGAACTTCTCCAAAACTTTTAGACCAGGTGGTACCTCCACCCGGAGATCCTAACGAAATCACCGTAGGGAAGTTTTATGCTACTTTCCTTATTCAAGATTACTTCAGACGGTTCAAAAAGCGCAAGGAACAAGAGTTACGGCAGAACGACGAACAGACACATCAGATGACGCTGCAAGCTGGGTTAAGAACTCTACATGAAGCAGGGCCGGAGTTGAAGCGAGCCATCTCTGGGAACCTCGACGACATCGTTCCTGAGAGCGACGTGCCTATGCACAGGACGACATACTTATACGAAGTAAGTGAAAAGCCTGGAGTGTGGTCAAGCATACGCAGGCACGGACCAAACAGACATTTTCACAGACATCGAAAACACGGGGATTCACCTCAAGAAAATGTTGGAAACCATTTAAGTTCCATGATGCAGCGCGAGTATGGAGTGGGACCATTACCCTTAGCACCTAATCTAGCCAACGGCCAGCCTAAGGAACAAATACCGCTTAGACCATTAATATTCAACGGGGAATCAGAGAAAATATACCAAGTTCTAGAAGCAACAACAAATGATCTAAAGAACGCTATTTACAAAGAGATGCTCGGTCAGATCGGTCTGGCATTCGGCTGCGTCAACTATTTATCGACCCCAGAAACTTCCGGTGCAAAGTCAACTTCCCCAGTATCCCGGCAAAAGATCCATCCGGAGGCGTCCGAGAAACTATCCTTACCGCGGAAAGCGTCACCTGACAAAACTCCATCACCGGGAGAGACGATAGTGCCGAAGATATCGTCCATACCGACGCGTACGGTGGCGCCAGCAGAGTCCCGGGCGATGACGCTGTACGGCTATAACGCGGCGGCGCGGCTTCCGTTCGCGTTCTCGCACGCCCGCGAACGCCGCAGCCTGCGAGCTCCTCCGCGACCAGCACCCGCAGGTCGGATGGTCCGCAGCGCGTCGTCCGGCGCCGCCCCCTCGCCAGCACTCCCCTCTCCGCGCCCAGCGCCCACGCGACCTCACGCGCTTGTAGATACGCCTGAGCCAGGGAGCGATAATTCAAGTCGGGGCGTGGTTTCTCTTCCTGGCAGTCCTCGGAATAGCTCCTCAGTACCAGTAGTTGGTTCAGCGGAAAGTCTCGTTACGAGGGTGCTCGCTGAACAAGGCTTGGGAGAATATTGTGACCCAGAATTCGTGAGGAACACGTCACGAGAAATGCAGGAGGCACTCGACATGACCCAAGAACAAATGGATAGAGCGGCACATCAATTAATGGTTCAAGAAAAGAACTTAAAACAAGTTCAAAACCAACAAACCCAAGTGGTAGGGCGAGATTCTAGCCCGACAATACCACCCCCACCACCAGCCAGCCGCGCCTCCACCCGGAAAGCGGTTATAGCACCGACACAAAATGGCGTCCAAGACGGCGCCGACAAACGTCACTCGCACCATAGGAGGAAACGGAAACGCAAGCCAGTGCTTGTCTAG

Protein sequence:

>DPOGS203769-PA
MNAQDGGDVAASTPVTNATPDAGPLIPVPVAPRKPPRRGPKVPQERPKRALFCLTLKNPLRKLCINIVEWKPFEWMILTTIFANCIALAVYTPYPASDSNYTNWVLEKIEYIFLVIFTGECVMKIIAYGFVMHPGSYLRNGWNLLDFTIVVIGMVSTVLSSIFKDAFDVKALRAFRVLRPLRLVSGVPSLQIVLNSILKAMVPLLHIALLVIFVIIIYAIIGLELFSGKMHKSCYNKRTNEIMENPHPCDVDNGFNCSSIGEEMECRDGWIGPNFGITNFDNFGLSMLTVFQCITLEGWTDVMYNIQDAMGNSWEWIYFVSMVILGAFFVMNLILGVLSGEFSKEREKAKNRGDFQKLREKQQLEEDLKGYLDWITQAEYLEPLGDRETEQRDYGIGIDVNYLGQTQTEHDSTDHLGIEAIEPQKTARGKMWKKDFDKVNRRMKRACRRAVKSQTFYWLIIVLVFLNTVVLASEHYHQPTWLDHFQEYGNAMFVALFTLEMLVKMYSLGLQGYFVSLFNRFDCFVVVGSISEMVLTKTEVMPPLGVSVLRCVRLLRVFKVTKYWRSLSNLVASLLNSIQSIASLLLLLFLFIMIFALLGMQVFGGKFNYDPVEEKDRHNFDCFWQALLTVFQILTGEDWNAVMYEGIKAYGGVGTFGILACIYFIILFICDILLNVFLAIAVDNLADAESLTNIEKEEGQATEDQQGVEGPEGEEVEGALADTDDEYIHDEDAYTTDNSERDYEETGSEGEHHEDPEGEVEEGAEDNGEGIEENQDRDDLDNLQTNHTDGECEEEGTLVTARPRRISELNMPNQTPPIPNASSFFIFSPTNRFRVFCYKMSSSSTFGNIILVCIMLSSAMLAAEDPLDAVQKGFRNWLLSQFDMFFTGIFTLELFLKLVTYGLVLHRGAFLRSAFNVLDMLVVCVSLISMSFKSGSISVVKILRVFRVLRPLRAINRAKGLKHVVQCVIVAIKTIGNILLVTSLLQFMFAVMGVQMFKYVVKCVIVAIKTIGNIMLVTYLLQFMFAVVGVQLFKGKFFRCNDISKMTKAECQGTYLVFENRNYVVRDREWKRNDFHFDNVMKGMLTLFTVSTFEGWPGLLYVSIDSNAEDRGPITNFRPIVAAYYIIYIIIIAFFMVNIFVGFVIVTFQNEGEQEYKNCELDKNQRNCIEFALKAKPIRRYIPKHRIQYKVWWFVTSQPFEYAIFVLIMINTITLAMKYHDQSPEYSRALDMLNMIFTAVFALEFIFKLAAFRFKNYFGDAWNTFDFIIVLGSIIDIVVSQVNELKNQGSGVQRAHVVKESSIPSINFFRLFRVMRLVKLLSRGEGIRTLLWTFIKSFQALPYVALLILMLFFIYAVVGMQVFGKIAIDDETPITRNNHFQTFPQAILVLFRSATGEAWQDIMMGVSPDPDVRCDENYKEEEGEDEGGGSCGSVLAFPYFISFYVLCSFLIINLFVAVIMDNFDYLTRDWSILGPHHLDEFIRLWSEYDPDAKGRIKHLDVVTLLRKISPPLGFGKLCPHRVACKRLVSMNMPLNSDGTVLFNATLFAVVRTSLKIKTDGNIDDCNTELRAVIKKIWKRTSPKLLDQVVPPPGDPNEITVGKFYATFLIQDYFRRFKKRKEQELRQNDEQTHQMTLQAGLRTLHEAGPELKRAISGNLDDIVPESDVPMHRTTYLYEVSEKPGVWSSIRRHGPNRHFHRHRKHGDSPQENVGNHLSSMMQREYGVGPLPLAPNLANGQPKEQIPLRPLIFNGESEKIYQVLEATTNDLKNAIYKEMLGQIGLAFGCVNYLSTPETSGAKSTSPVSRQKIHPEASEKLSLPRKASPDKTPSPGETIVPKISSIPTRTVAPAESRAMTLYGYNAAARLPFAFSHARERRSLRAPPRPAPAGRMVRSASSGAAPSPALPSPRPAPTRPHALVDTPEPGSDNSSRGVVSLPGSPRNSSSVPVVGSAESLVTRVLAEQGLGEYCDPEFVRNTSREMQEALDMTQEQMDRAAHQLMVQEKNLKQVQNQQTQVVGRDSSPTIPPPPPASRASTRKAVIAPTQNGVQDGADKRHSHHRRKRKRKPVLV-