Monarch geneset OGS2.0

DPOGS206385
TranscriptDPOGS206385-TA5805 bp
ProteinDPOGS206385-PA1934 aa
Genomic positionDPSCF300192 + 25937-52092
RNAseq coverage23x (Rank: top 78%)
Annotation
HeliconiusHMEL0148750.075.18% 
BombyxBGIBMGA005747-TA0.035.44% 
DrosophilaCG42256-PJ0.031.56% 
EBI UniRef50UniRef50_A8JR350.033.88%Dscam3, isoform C n=9 Tax=Drosophila RepID=A8JR35_DROME
NCBI RefSeqXP_001601654.10.033.56%PREDICTED: similar to GA16078-PA [Nasonia vitripennis]
NCBI nr blastpgi|3407122100.034.72%PREDICTED: Down syndrome cell adhesion molecule-like protein CG42256-like [Bombus terrestris]
NCBI nr blastxgi|3407122100.036.58%PREDICTED: Down syndrome cell adhesion molecule-like protein CG42256-like [Bombus terrestris]
Group
Gene OntologyGO:00055151.3e-12protein binding
KEGG pathway 
InterPro domain[1035-1156] IPR0089572.1e-21Fibronectin type III domain
[679-823] IPR0137831e-20Immunoglobulin-like fold
[411-486] IPR0035983.2e-13Immunoglobulin subtype 2
[408-496] IPR0130989.3e-13Immunoglobulin I-set
[1171-1260] IPR0039611.3e-12Fibronectin, type III
[405-497] IPR0035991.2e-08Immunoglobulin subtype
Orthology groupMCL10022 Multiple-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS206385-TA
ATGTGTCATCAAGTGGTGTTCCACGTTTGGGGCCCGTTTTTTCCGTGGAACCTCCAGCTGTGGTCCGCTATGCTGCGTCCGCAGGAACGAGGGTCTCCTGCTCCGCGCGTGGTGACCCCACCCCGCGAGTCACCTGGCTTAACGAAGACAGCTCACAGCTTACTGATGCATCAGGGATTAGGTAATTTATATATTTTTTGTGAGCGTGTATACGGCAATGGTACGTTGGAAGTATTCCCTTCGAATTCTTACGAGTCTTCAGCGATGACGGTGAGGTGCCGCGCGGCCAACCCTCATGGAGCTATCATCTCCAGAGATGTCACATTACATCCAGTGGCTGACACAAAGTGGGAGGTGTTGATGTCTGGAGGGTCAGTATCTGCCGGAGGTATCGCCGCTCTGTGGTGTCGCCCGGAGACGGACCATGGTCAGTCTCTAGCAACACCAGCTCTGTTCTACCGAGGGGATCGAGTTATGCACATAGATCCTCCTTCACCAGATGCACGATATTTGTTGGCGGGATCAGCGCTTTTGATCCGCGACGCATCGCCCGCAGACGCAGGTTCCTACAGCTGCCTCGCACGACACGCGCTGACTGCGCTCACGAAGCGCTCACGACCCGCCCATTTAAATGTGCTCACGGGCTCTTCCAATTCACCCCCGCGTCTTGTTGCGACGGAGAGTGATGTTACCGTGCCCGCCGGCGCCACTTTCTGCATGCCCTGCGTCGCCTCCGAATACCCACCGCCGCAATACACTTGGTACCGAGAAAGAAACGGGCGCCTTCAGCCAGTAGAACCCAACCCGTCTGTATGGCTGTGGGCCGGCGGAGCAGCACTGTGTTTTACAAGGGTCTCCCGGGACGCTAATGGCGCATGGCTCTGCAAGGCTTACAACGTCTTCGGAGACGCAACTGCCCAAATGAGAATAGAAGTTGAAGATACCTTCAGTGTCAGCGTAGATCCAAGTGTTGTAGTAGCAGAAGCTGGTAGCACAGTTCGCCTCAACTGTACTGCCACCGACCCATCAGCTACTCTGCGCTGGGCGCACAACGGAGCAGTAGTCTCTACGGGGGGTGAATCCTTGATACTTCGGGGACTTGCGAGAGCTCACGCCGGCTTATATCAATGCCTCGCGAGACGCGGCAGTCGCACTGAACAAGCAGCTGCTGAGATACGACTTGGAGACTCCCCTCCAGAGTTGCAATACACTTTCATCGAGCAAGCTTTACGTGCAGGCAGTAGCGTTACGTTACGATGTATTGCTGCCGCTTCACCACCGCCAAGGATCACGTGGCTACTCGATGATCACCCCCTTGATCACTTTATTGCTCATCACAGGTACTCGATTAGTGAAGAAGCCTCTGTGCAAGGAGAGGTGGTGTCAGTTTTAAACGTGACCTCAGCGACGGCTGCGGACGGCGGACGTTACTCATGTCGTGCTTCTAACCCGCTCGGCGCTGTCGAACATTCAGCCAGATTAAATATATACGGGCCGCCATCAATCCGTCCGATAAGCACAATACGAGCAGTGGCCGGGGAGAACCTCACACTGCACTGCCCCTACGCCGGATATCCGATCAGGTCTATAGAGGTGCATTTGATAGGATCATTCCTATTACAATCACGTACTGCCATTTCAGTGTCGTGGTGGCGTCGTGGGGCGGCGACAGCGTTGGGCAGCTCTGGGCGTGTTAGTTCTCGAGATGCCTCTCTTCGACTGACGCCCGCTTTGCCTCATGATGCAGGCCATTATGCTTGCAGTGTTACTGCCCCATCTGGACCAGCTGCAACACGAGATGTTGAAATACAAGTTAGAAATCCGCCCAAAATATCACCATTCATGTTTTCATCGGAACTAACAGAAGGTAGTTCGGTTCAAGTACTTTGCGGAGTTTCTTCTGGTGATAAACCTGTCTATTTCTCCTGGTTGAAAGATGGTTCTCCTCTCCTCCCCACTTTACAGATAGAAGAAAAAAGCCTCAATGACTTTTCCTTGCTAATGTTCCCGGAACTTTCTGCGCGTCACAGCGGATCTTATACATGTCGCGTTTCCAACCACGCGGCAACAGTCAATTACACCGCTACGCTCAGCGTGAAAGTTGCTCCTATTTGGGTAACAGAACCATTAGACTCAGCGGTTCTTTTGGGTGCACCCCTACTACTAGAATGCACTGCAAAAGGACATCCGACTCCCACAGTCACATGGTATAGGAGAATCGGGGAAGGAATAAGTGGCATTGAAAATTCTGAACGCTGGGAAGCCGCCGGTTCAGAGTGGAATGCTGAAAGTAGTGGAATAAGGAACTCCGATGACTTAACCAGCGCCGTTGACACTAGTGGCCATGGAGGAAAAGGAAGCAGTTCATTGACTGCGCGTTCGGCAGCACGATCTCATCAAGGTTTATATAGATGCATTGCTGATAACGGTGTTGGACCACCGTTAGTCAAACATGTCAATGTAACAGTACACGAACCAGCCCACTTCAGTTCTCCGAGTGATTCGCTCCGTAACGTGTCGAGTGTTCGCGGTCGTGGCGTCACTCTCAGCTGTCTCGCGCTTGGTGACGCACCGCTCACAATACATTGGACACATCGCGGCAATAAATTGGACCTTGATTCGTACAGATGGACGATATCAGAGGTACGCACAAGTGAAGGCGTGCGGTCTTCTCTACAATTACGTGCGGCGGAGCGTCGTGATGCTGGCGAGTATAGGTGTCACGCGCGCAACCAATATGGACGTGCTGATATACTAATGTTCCTGCAAGTAGAAGAACCACCAGAAGCCCCACGTTCGATTCAGCTGTGGGGTGCGGGGTCACGATGGGTGCGGGTTCGATGGCTCGCAGCACCATCGTCGCGAACACACTTTGCTGCGATATGCACCCCTTTGCACTCATTACCAACGCTAAACTCTCTACCTTCTTCTGACCATTCCACATATCATTATAACCTTACGCTAGAAGCAACAGATAATAATGGGGTTGCCGCTGATGGTTTGCATCTATTAAGTGCAAAATTAGAAGGTTTAAGACCAGCAGCCGCATATTCTTTACGGGTGGTAGCATCTAATCATGTTGGACAATCACCTCATTCAGATGCACTTCTATTTACTACTCTTGAAGAAGCACCGTTAGGACCACCTCAAAATATTCGAGTGAGACCGATTAATACTGGAGAATTGCATGTGTCGTGGACGGCTCCAGCTCAAGATTCCTGGAACGGTGAACTATTAGGTTATGCAATTACATGGCGGGAAGTAGGTCGTGTGGAGGGTGGAAGTAGTGAGGATGGACGAGATGACGGAAGACGGGCTGGTACTACTGTTGCTCGTGGTTGGAGCACAGTGGAACTGACGGTAGGCGGCCTTAGACAGTTCGCAAGATACGCGCTCTCAGCTCGAGCATTCAACAGGGCGGGACCCGGGCCTCCATCGACTACTGCCTATGCTACGACTGCCGATGGTGGCCACTTAATTAAACTGGCTTCTAATTTAGTTCCGGAAGAACCTCCAAATTCAGTTTCCTGTGAGGCTATATCAGCGAGGTCGTTGCGTGTTCGATGGTCATCTCCACCACATTCACACACACAAACTATACAGGGTTATGATCTTCATTACGCACCTCTACATTTTTCCCAATCGTGGAGTGGTGCGATAGGCTCTGAGGTAGCTAGAGCTGCTGCTGCTGGAGAGGCAGTCCTCCAGGGTTTGAGGGCGGCTACCAATTATTCTGTGTCAGTGCGAGCTAGATCTGACCGGGGCGCGGGTCCGCCCTCCCAACCAGCATATTGCCGAACTACTGATGATGTACCCGGTGCTCCGGAACTAATCCGAGCTTTAGCAGCGGGGCCTGATGCCGTACGCGTATCTTGGATAGCGCCGACCGAACGAGGAGGTTTACTTTCGCACTACATGCTATATACGAGGGAACTTGGCAAAGTTGGGGGAGAGTGGTCGCAGCGAGTAGAAGCCAATGAACAGAGTGAAGGGAATATTGAGGAGGGTGGGGAAGTATGGCATGAAGTACGTGGGTTGCGTGAACGCGCTGTTTATGAATTTTGGGTACGTGCTTCCACTACTGCTGGCGCTGGACCGGCCAGTAGAGCTGTTACCGCGGCACCGTCACAATTATTATCAGCAAGAATCTCGTCACTGGGTCGCTTAGTAACGGCAGCAGTAGGAGCGCGGGTCCGGTTACGTTGTTCAGCATTAGGAGTACCACCAATTTCGCGTCGATGGACTCCCCTTCCTCATGCACACACTATCACTGATACTGGAGATTTGATTATACACAAAGTTGAGCACCACTCGGCTTTGAACTATTCGTGTTCAGTTCGCAACTCTGCGGGCGGTGACGCGGCGGTATTCGCGTTGCGTGTACTCCGACCACCCGCTGCACCTGCACCGCGTCTTGCCCGCGCTGACACTCATGCCTTACATCTTGCATGGGATCCACCTTTTGATGGCGGTGCATCCATCTTGGGTTACACTGTGTGGTGGTGGCGTGGCTGGGATAACGGAGGAGGAAAAGGAGAAAAAATTTCAATAGGTGAAATAGATGCAAATGCTCGCTGGTGGCGCGTGGGTGGGGAGGTGCGAGGTGCGGCGCTTCGTGGGCTCGCTTGCGGCGCTCCATACTATGTCGCCATGAGAGCACATAACGCGGTCGGCGCTTCAGCGCACTCGAGACCGGTCATTCTACACACAAGAGGAGAGAAGGCGAGGGCTCCGACTGGCAAGGAGTGTATATGGGCAAACAGCACGGCGTTACGTGTCGCACTTCTTGCATGGGGAGGTCGCTGTGCTGTGGCCCGCTTCAGTCTGGCCTTGAGAAGAGCCGGCGTTGGAGACGCTTGGATTGATTTGTTGTCGGATGGAGAAGTTGCCGAAGCAAATAATTTGGAGCCGGGCACTTGGTATGAAATTCGAGTCTTATCACACTCACCAGCCGGAGACACACCAGCACTTTATAAGGCTGCAACACATACTATGAATGGAGAACGTATCGGCGAACCGATAGAATTACCCTTGGAAGCCCGTATGAGTGCATCAGACGCGGGAAGTAATATAGGGGGCAGCTCGTCAGGGGCAGTTTGGTGGCGGAACGCCATCGGTGCTGCCGCAGTGCTGCTCGGCGTTACATTGCTGACGTTGATTGCCACCGCCACACTTATCGCCTGCCGACGCCGCTCCAATCCCTCCACAAACCCTCTACACGATGCTCACACTCAACCGTTATACGTAGCTCAACCAACTCAAACAAATGGAAAAACAATGACGCCTCCTGACGGCAACATGCACGAGATCAGTCCGTACGCGACGTTCAGCATGTCATCTGGAGGCGATGGCGCTCGCTCGTGTGCACTCCACCTGAGGTCGTTCGCTCGGGACCCACTAGAGCTAGCCGCACCACCACCACGACCACATCTGCTGGCTCATCCCAATGATTATGGATGCGTTCGGGACAGTGATTCAGAGTCGAGCGGCTCACCTTGCGCCGCGTGTGCCGCCGAATTGTACCGACTCCCCGCAGCTAGGCTTTCAGATACACTACCGGCCGGCAGCGTAGGCGCAGCCGAGTCTAGTACCGAGGACGGTTCATATGGTGGCGCGCCTCGCCCACGTGAATCCCAACCACGACCGCGTGCAAGACGACGTGACCATACGAGAGACACTCGTGACACAAGGGACACACGGGACACCCGGGACACACGGGAGGCACGGGACACTCGTGATCCGACACGCCCACATCAACCCACAGTCAGGTACTTCCAAGCGACGAGACGACGAGACGGTCTGTGA

Protein sequence:

>DPOGS206385-PA
MCHQVVFHVWGPFFPWNLQLWSAMLRPQERGSPAPRVVTPPRESPGLTKTAHSLLMHQGLGNLYIFCERVYGNGTLEVFPSNSYESSAMTVRCRAANPHGAIISRDVTLHPVADTKWEVLMSGGSVSAGGIAALWCRPETDHGQSLATPALFYRGDRVMHIDPPSPDARYLLAGSALLIRDASPADAGSYSCLARHALTALTKRSRPAHLNVLTGSSNSPPRLVATESDVTVPAGATFCMPCVASEYPPPQYTWYRERNGRLQPVEPNPSVWLWAGGAALCFTRVSRDANGAWLCKAYNVFGDATAQMRIEVEDTFSVSVDPSVVVAEAGSTVRLNCTATDPSATLRWAHNGAVVSTGGESLILRGLARAHAGLYQCLARRGSRTEQAAAEIRLGDSPPELQYTFIEQALRAGSSVTLRCIAAASPPPRITWLLDDHPLDHFIAHHRYSISEEASVQGEVVSVLNVTSATAADGGRYSCRASNPLGAVEHSARLNIYGPPSIRPISTIRAVAGENLTLHCPYAGYPIRSIEVHLIGSFLLQSRTAISVSWWRRGAATALGSSGRVSSRDASLRLTPALPHDAGHYACSVTAPSGPAATRDVEIQVRNPPKISPFMFSSELTEGSSVQVLCGVSSGDKPVYFSWLKDGSPLLPTLQIEEKSLNDFSLLMFPELSARHSGSYTCRVSNHAATVNYTATLSVKVAPIWVTEPLDSAVLLGAPLLLECTAKGHPTPTVTWYRRIGEGISGIENSERWEAAGSEWNAESSGIRNSDDLTSAVDTSGHGGKGSSSLTARSAARSHQGLYRCIADNGVGPPLVKHVNVTVHEPAHFSSPSDSLRNVSSVRGRGVTLSCLALGDAPLTIHWTHRGNKLDLDSYRWTISEVRTSEGVRSSLQLRAAERRDAGEYRCHARNQYGRADILMFLQVEEPPEAPRSIQLWGAGSRWVRVRWLAAPSSRTHFAAICTPLHSLPTLNSLPSSDHSTYHYNLTLEATDNNGVAADGLHLLSAKLEGLRPAAAYSLRVVASNHVGQSPHSDALLFTTLEEAPLGPPQNIRVRPINTGELHVSWTAPAQDSWNGELLGYAITWREVGRVEGGSSEDGRDDGRRAGTTVARGWSTVELTVGGLRQFARYALSARAFNRAGPGPPSTTAYATTADGGHLIKLASNLVPEEPPNSVSCEAISARSLRVRWSSPPHSHTQTIQGYDLHYAPLHFSQSWSGAIGSEVARAAAAGEAVLQGLRAATNYSVSVRARSDRGAGPPSQPAYCRTTDDVPGAPELIRALAAGPDAVRVSWIAPTERGGLLSHYMLYTRELGKVGGEWSQRVEANEQSEGNIEEGGEVWHEVRGLRERAVYEFWVRASTTAGAGPASRAVTAAPSQLLSARISSLGRLVTAAVGARVRLRCSALGVPPISRRWTPLPHAHTITDTGDLIIHKVEHHSALNYSCSVRNSAGGDAAVFALRVLRPPAAPAPRLARADTHALHLAWDPPFDGGASILGYTVWWWRGWDNGGGKGEKISIGEIDANARWWRVGGEVRGAALRGLACGAPYYVAMRAHNAVGASAHSRPVILHTRGEKARAPTGKECIWANSTALRVALLAWGGRCAVARFSLALRRAGVGDAWIDLLSDGEVAEANNLEPGTWYEIRVLSHSPAGDTPALYKAATHTMNGERIGEPIELPLEARMSASDAGSNIGGSSSGAVWWRNAIGAAAVLLGVTLLTLIATATLIACRRRSNPSTNPLHDAHTQPLYVAQPTQTNGKTMTPPDGNMHEISPYATFSMSSGGDGARSCALHLRSFARDPLELAAPPPRPHLLAHPNDYGCVRDSDSESSGSPCAACAAELYRLPAARLSDTLPAGSVGAAESSTEDGSYGGAPRPRESQPRPRARRRDHTRDTRDTRDTRDTRDTREARDTRDPTRPHQPTVRYFQATRRRDGL-