Monarch geneset OGS2.0

DPOGS201671
TranscriptDPOGS201671-TA3633 bp
ProteinDPOGS201671-PA1210 aa
Genomic positionDPSCF300103 - 1364-20650
RNAseq coverage76x (Rank: top 65%)
Annotation
HeliconiusHMEL0126720.071.13% 
BombyxBGIBMGA005351-TA0.084.21% 
DrosophilaCG8557-PB0.040.67% 
EBI UniRef50UniRef50_F4W5N80.047.96%Rho guanine nucleotide exchange factor 10 n=12 Tax=Neoptera RepID=F4W5N8_ACREC
NCBI RefSeqXP_397118.30.048.44%PREDICTED: similar to CG8557-PA, isoform A [Apis mellifera]
NCBI nr blastpgi|3320308990.047.96%Rho guanine nucleotide exchange factor 10 [Acromyrmex echinatior]
NCBI nr blastxgi|2700139640.047.19%hypothetical protein TcasGA2_TC012652 [Tribolium castaneum]
Group
Gene OntologyGO:00056222.9e-53intracellular
GO:00350232.9e-53regulation of Rho protein signal transduction
GO:00050892.9e-53Rho guanyl-nucleotide exchange factor activity
GO:00055151.9e-05protein binding
KEGG pathway 
InterPro domain[125-349] IPR0002192.9e-53Dbl homology (DH) domain
[583-884] IPR0110471.7e-08Quinonprotein alcohol dehydrogenase-like
Orthology groupMCL11419 Multiple-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS201671-TA
ATGATTGAACTCTTAGATGAGCACCGGTCGGCGGGCGGCAGCTGGGAGGAGCCGATCAGTGCTGTTAGGAACACGCCGCTTAGACGATCCCAACGTCTCAACTCCACATTGGATTCCAGGAGCACCGGCCAGCTTCGTAACACGTTGAGCCGTGCTCGCGAGTTGTGTGAACGATGGCGTAATGGGGGTTCGAGTCCATCTCCCCCCGCGCCAGCCCCCGACGACGAGGGGGGAGGGAGACTGGCGAGGTGGTTCAGCGTCAGGAGGGGGACCTCGCATCACTATGACATGCAGACACACGAGACAGACAAGATGCCCAAGTTACCAGAGCTCGAGGAGGACATGTTCTCCTGCGGTGGTGAGGTCCGCGGTGGTAGAGTCCCACCTCCCTCCTTGGGCCCTCCTCCTGACACCCTCACTCCGGTGCAGCTCAGACGACGGCATGTCGTAGCCGCTATCATACACAGCGAGAACTCCTACGTAGCTACACTTCAAAGGCTTATAAACGACTACAAGAAGCCGTTGGAGGAGAGCAGCCCGGCTATCCTGAATGCTGGCAAGATATCCACGTTGTTCCACAGGCTACCGGACATACTGCAATGTCACTTACATTTCCGCACCGCGCTCGCAGACTGCGCTAGAACCTGGGATCGCGACGAAAAAATTGGCGAGGTGTTCCTGAACGCTTTCTCAAAGGCGGTGGTGTTGGACGTTTACTCGGACTTTATAAATAACTTCTCAGTAGCCATGGAACTTGCGAAAATGGAGTCTAAGAGAAAATCGGCTTTGGCCGATTTCTTGAAAGTGAAACAGATCAGCGCTCACGACAGGCTCTCCTTCTTCGGGCTGATGGTGAAACCTGTACAGAGATTCCCGCAGTTCATTATGTTCTTGCAGGATCTATTGAAGCACACTCCGCCGGGTCACTCAGACCGTGTCGCGTTACAACGAGCTCTGACTAGACTCGAGGCTATGGCTGAGGCTCTGAACGAGAGGAAACGAGACGCCGAGAGGATACAGGCGTTCCGTGCTGCGCTGCGTCGTCTGACCCGCGGGGGTGTGGCGGGCGCGGCTGGCGGGGCTGCCGGCGGAGCCGCCAGGTTCGGAGCGGCCCGGCTGCTGGCGGCGAGAGCTGATAAGAGACATCTGCTCCGACAAGACGACCTGTTACAGCTGGAATTCAACCAATCTGGAACTCTGACTAAACGCAAGCCGCGTCGCCTGTTGTTACTCAACGACCTTGTGGTATGCGTGTCTGTTGGGGCCGGCGGTGATGACACCGAGCGGCTGAGTCTGAAGTGGGCGTATCCTGTCCAGGACGTCGAGGTTTTGGACACAGGGACATGGCCGACGCTCAGTCGAGTACTTGCTCAAGGCGTCAATCGTAACGGCAGTCTCCGTTCAAACTCGTCGAGTTCAACGGGCGAGTCACTCTGTAACGAGATGTCATCTCTGATGCACGACTATGAGACTGTGTCGAGGATGGCGGATCTCGCAGCGTCACTAAAGACTCCATACCCGGAAGTGGCACCAGAAACATTTAAGGCCCTATTGCAGAACATCCAGCAGAGTATACAGAAAAAAGACGACGAGATGTCGTGGGTGGACTCGTGCTGTCTCCAGCTGACTATCAGAGGCCGTGAGGAAGCGATCACGTTCCAAGCCAACGAGCCGGGCGCGAGGCGGGCCTGGGCCACTGAGCTCAGACTGGCGCAGCTCGCACAGGACAGAGCCAACTGTCCGTCCTGGAGGCTACCACCGCCCGCACCACACTCACCACCACACAAGATGCCGCTGTTCGTCACGGCGACCACTGTGTACTCTTCAAATCAACTCACCGAGGTGCGGTGTGGTTGTTTCTACCAGTCGTCAGGTAGTGCTCGTGGTACCACCACTCGTCGCTCCCGCGCTCTGTTGTGGGTGTGTGCGGGCGGAGCGGACAGTCACGTGGCCGTCCTCACACACCGAGCTGCCAAGCTCAAGACGCTCGTCACACTCGACCTGCCCGACACTAAGGTAACGTCAATGGAATACGCAAAAGGTCTCCAAAATGTGACGACGTTGTGCGGAGACACGGTGTGGCTCGGTACCGAGGACAAGAAGATAATAATATTCTCAGGAGTGGAACCAGAGAAACAGGAAAAACTGACTGAAGTGACGACGACAGCGGCGGTGACGCAAATCAAATATCACTGTGACTCAATGTTCGTGGGGCTCGCAAACGGAAGAGTGTCCGTGTATAGGAGGAACCACGACGACTCGTGGGCGCTGCAAGAACCGCTGGCCGTGGAGCTCGGAGACAAACCGGTCCACTGTGTGCTACCCGTCGACGGCGTCGTGTACGCGACCTGCGCGAAAAGAGTGTTCGCCATCAACGCACTCACAGCCGAAATCATGAGAATACTAGAATTAAAAGGCGAAGGAGACCGCTCTGTGAAATATTTAGCGCATTCCGGAGTCGGACTGTGGGCGGCCTTCTCTGATTCGACGTACGTTAGCTTGTATCACGCTGAGACGTTCGAGCACCTGCAGAATATTGATATAGCCGCTGATGTGGCGAAAACTATCGGCGCTAGGGAGGGGAGCAAACCGGCTTATGTTTCAGCTCTGTTGGCCGGTCAGGGGTTGCTGTGGGTCGGAACGACGGCCGGTGTGACTGTTACTGTTCCGTTACCAAAATTGGAAGGTCTCCCGCTGATAGGAGGACACATAGCCGTGTCGTATCACGCTCACGCTGGTCCTGTTACATTCCTGCTGTCCCTGACGCCGGAATCGAGAGAAATGGACGTAAATGTCGTCAGACGAAATTTATCTAACGTACGAGCGCTCGCAGAGAACGTAGAGTATAAGGAGAACGAGTCCAAAGAAGAATCGGACAAACAGAAGCTGGAGAGACGGATATCAGAAGAGATGAGTCCCTATAGACCGCAGCGGGTTCAATCTGCTGTTATTAGAAGGAAGAAGCCGGGCGACGTACGACTGAGCAAAACATTGCCTAAATGCGCAAACTTAAACGCCTGCGACGTGTACGGACTGTTCGGAGAACTGATGTTCGTTAAAGACTGTGTCGGTGAAGCAGACGTGAGTGGCTCCGGCGGAGAGTCGCTGAGACGGAGTGACCCAGAACTAGCTGCGATACCGTTCCGTGTAAGTACATTGGACAGACGGTTAAGAATGAGAGCGGGACGGCCTAGGAGCTTGGATCTGTCCAGCTGGTCAGTAGATTCGCGAGCGTCGAGTCTGTGCACGTCATCCGGCAGCGAGGAGTCTATGGCGCTGCGTGGAGTGTCTAGGAACAGTTCAGGTGCTTCAGGTGCCGCGAACTTGGTGCCGATGGCCGTGTCTACGCCGGATTCATCTTCAAGCAAATCCAGCACTTCAGAGCGTTCCATATCGCGGAGCGATTCATCCGCCGCCGTCGAGTTGCGGAGCACAAATAAGACTGCCGCTCGGAGCCTGCGCGGTGCTGATTATATCGTGGGCGAGGGTAGCCGGCGGTCGGTGGTGACGGTGGTGGGGGGGAGGGGTTACGTGGACTGGAGGCAGACCGCAGACGCCGCTGAGAGGCCCGCTCCAGCGGCCGACCCAAACCCTAAAGACGCCCATCTGATACTGTGGGAAATGCGGCTTTGA

Protein sequence:

>DPOGS201671-PA
MIELLDEHRSAGGSWEEPISAVRNTPLRRSQRLNSTLDSRSTGQLRNTLSRARELCERWRNGGSSPSPPAPAPDDEGGGRLARWFSVRRGTSHHYDMQTHETDKMPKLPELEEDMFSCGGEVRGGRVPPPSLGPPPDTLTPVQLRRRHVVAAIIHSENSYVATLQRLINDYKKPLEESSPAILNAGKISTLFHRLPDILQCHLHFRTALADCARTWDRDEKIGEVFLNAFSKAVVLDVYSDFINNFSVAMELAKMESKRKSALADFLKVKQISAHDRLSFFGLMVKPVQRFPQFIMFLQDLLKHTPPGHSDRVALQRALTRLEAMAEALNERKRDAERIQAFRAALRRLTRGGVAGAAGGAAGGAARFGAARLLAARADKRHLLRQDDLLQLEFNQSGTLTKRKPRRLLLLNDLVVCVSVGAGGDDTERLSLKWAYPVQDVEVLDTGTWPTLSRVLAQGVNRNGSLRSNSSSSTGESLCNEMSSLMHDYETVSRMADLAASLKTPYPEVAPETFKALLQNIQQSIQKKDDEMSWVDSCCLQLTIRGREEAITFQANEPGARRAWATELRLAQLAQDRANCPSWRLPPPAPHSPPHKMPLFVTATTVYSSNQLTEVRCGCFYQSSGSARGTTTRRSRALLWVCAGGADSHVAVLTHRAAKLKTLVTLDLPDTKVTSMEYAKGLQNVTTLCGDTVWLGTEDKKIIIFSGVEPEKQEKLTEVTTTAAVTQIKYHCDSMFVGLANGRVSVYRRNHDDSWALQEPLAVELGDKPVHCVLPVDGVVYATCAKRVFAINALTAEIMRILELKGEGDRSVKYLAHSGVGLWAAFSDSTYVSLYHAETFEHLQNIDIAADVAKTIGAREGSKPAYVSALLAGQGLLWVGTTAGVTVTVPLPKLEGLPLIGGHIAVSYHAHAGPVTFLLSLTPESREMDVNVVRRNLSNVRALAENVEYKENESKEESDKQKLERRISEEMSPYRPQRVQSAVIRRKKPGDVRLSKTLPKCANLNACDVYGLFGELMFVKDCVGEADVSGSGGESLRRSDPELAAIPFRVSTLDRRLRMRAGRPRSLDLSSWSVDSRASSLCTSSGSEESMALRGVSRNSSGASGAANLVPMAVSTPDSSSSKSSTSERSISRSDSSAAVELRSTNKTAARSLRGADYIVGEGSRRSVVTVVGGRGYVDWRQTADAAERPAPAADPNPKDAHLILWEMRL-