Monarch geneset OGS2.0

DPOGS216127
TranscriptDPOGS216127-TA6033 bp
ProteinDPOGS216127-PA2010 aa
Genomic positionDPSCF300182 + 371918-394653
RNAseq coverage580x (Rank: top 22%)
Annotation
HeliconiusHMEL0032020.058.31% 
BombyxBGIBMGA009534-TA0.071.29% 
Drosophilamsps-PD0.050.38% 
EBI UniRef50UniRef50_Q0IFD60.046.65%Microtubule associated protein xmap215 n=15 Tax=cellular organisms RepID=Q0IFD6_AEDAE
NCBI RefSeqXP_001651363.10.046.65%microtubule associated protein xmap215 [Aedes aegypti]
NCBI nr blastpgi|3071927250.046.46%Cytoskeleton-associated protein 5 [Harpegnathos saltator]
NCBI nr blastxgi|1571110370.046.67%microtubule associated protein xmap215 [Aedes aegypti]
Group
Gene OntologyGO:00054884.9e-78binding
KEGG pathway 
InterPro domain[585-771] IPR0119894.9e-78Armadillo-like helical
[567-1397] IPR0160245.2e-48Armadillo-type fold
Orthology groupMCL10813 Multiple-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS216127-TA
ATGGAAGACGAGAATGAATACAAAAAGTTGCCGACTGAAGAGAAATGTGTGCATAAATTATGGAAAGCGAGAGTGACTGGTTATGAAGAGGCTATTAAGCTATTTAATCAAATAGATGATGAAAAGTCTCCGGAATGGAACAAGTACCTTGGACTTATAAAGAAATTTGTCACAGATAGCAATGTTGTTGCACAGGAAAAAGGCTTAGAAGCAGCTCTGGTATTTGTTGAGAACTGTGGTCATGCTGGAAAAACTACCGGAGAGGTGATGTCCGGGATAGTGACTAAATGCATTGCAGCACCTAAAACAAAGACCAAGGACCTCGCCTTACAAATAACACTCATGTACATAGAAATTGAAAAACATGAGATAGTTGAGGAGGAACTCCTTAAAGGGATGGAACAAAAGAATCCTAAAGTAGTGGCAGCATGTATATCAGCACTGAATACAGCACTGAAACAGTTTGGCAACAAGGTGGTAGCTATCAAGCCTATGGTCAAAAAAATACCCATCCTGTTGGCGGACAGAGATAAGACTGTGAGGGATGAAATGAAGGCATTGGTTATAGAAATGCATAGATGGATAGGAGCCGCTATCGAGCCGCACATAGCGTCCTTGCAGGCTGTAGTACAACAGGAATTAAGGGAATCCTTCGGGGGCGGAGGAGCAGCACATCCTACGAGGTTCCTGCGATCACAACAACATCGACTGAGAGAGGTCCCCGCCGCGGACTATACCGACGGTCGAGCTGACGATGAAGATGCGGAAACTGGTGGCGGGGACTCCGCCGAAATGGATCCCTACGACCTCCTGGACCCCGTCGAGATTCTGTCCAAGCTACCCAAAGACTTCTACGATAAGCTGGAAGCGAAGAAGTGGCAGGAGAGGAAGGAAGCTCTGGACGCACTGGACAATATACTGAAGACAGCCCCCAAACTGGAGCCCGGGGACTACGCTGATTTGGTCCGTGCGTTAAAAAAAGTGATATCTAAGGACACTAACGTGATGCTAGTGGCGCTCGGCGGCCGGCTACTGGGGATGGTGGCGAGCGGGCTCCGGAACAAGTTCTCGCCGTACGCGGTCGCCTGTGTGTCCGCTATACTCGAGAAGTTCAAGGAGAAGAAGACGAACGTCGTGAGCGCGCTGAGAGAAGCTATAGACGCTATATACCCATGCACGAATCTGGAAGCTATCATGGAAGATATGCTAGCAGCGTTCGATAATAAGAACCCTTCTATAAAGGCTGAGAGCGCTGTGTTCCTGGCGCGAGCTCTGTGTATCACACAGCCGGCGGCCTTCAATAAGAAACTCATTAAGGCTTATGTGGCTGGACTCTTGAAGTTACTGGAGAGCGCTGATCCCGCAGTGAGAGACGCCGCGGCGGAAGCCCTGGGTACTGCGACAAAATTGGTTGGAGAGAAAAATATTGCTCCACATATTGGTAAACTAGACAACTTGAAAGAGCAGAAAATTAAAGAATTCGCAGAAAAGGCGGAGATTAAAATCAAAGTGGCCGCTCCCAAGAAGGAAGCTAAAGCTAAAGCTCCTCCGCCCAGCGGCAAGGGCGACGCCAAGGCTGGCTCCAGTCAACCCAAACCTGTTAAAAGACCAGCGTCCGGAACAGCAAAGAAACCTACAGCCAAGAAGACCCCAGCGCGTGGCCCTTCAAGCCCTCCGCGGGAATTGGAACTGTCACCGGAAGAAGTAGACTCCCGCGCAGAACAGATCTTTACATCGGACGTTCTTACTGGTTTAGGAGATGGCAACTGGAAGAGTCGTCTAACAGCCGTACAGTCGTTCCATTCAACAGTCCAAGGTCTGACTACATCGGATGCGACAGCACAAGTCTTGTATAGAACACTGAACAAGAAACCAGGTCTCAAAGACACCAATGTTCAAGTCTTGAAAGCGAGATTGGAGGCCTGTAAATATATCACGGAAAACTTTCCCATATCTACAACCGCCGCCGACTTTGTTCTTCAAGATATCGTCACAAAGTTGGCTGAAACTTCCTGTTCCTCAGTTTCATCCGAGTGTCTGACATCGCTGGCTGAAAGTTGCGGTTTGGAACACGTACTCAATGAAGGGCTCACTTTCGCTATGGACTCGCAGAAGAACCCCAAAGTTCAAGCAGAAATGTTCAATTGGATGGCAGTAGCGATAAAGGAATTCGGTTTCACAATGAATGTCAAATCAATAATCGCACATTCGAAGAAAGCGTTGTCTGCGACGAATCCTAACGTCCGAACGTCTACCGTCAATTTCTTGGGAATACTGTCTTTATATGTGGGCCCGTCACTTATCAGTCATTTTGACAGCGAAAAGGCCGCTACCAAGCAACTGATAAGCTTGGAACTGGATAAATACGCCAACAGCACTCCGCCCACACCGACTAGACAATTGGGAACAGTGAGTAAGTCGGCAAGTAAAGGTTCAATAGGAGACGATCTCGATGAAGCTTATGAAGATGCCGCAGACGAGGAACCGGCTGCTGTAGAAGATAATAGACCGAGGACAGATATAGCACCGCTTATCACTGACGCTCTGGTTGCCGAAATAGGAGATAAAAATTGGAAGGTTCGTAATGAAGGTTTGGATAAGGTGAAGGCAATCATCACAAACTCCTCACCGATCAAACCTACGCTGGGTGAACTACCAGCGGCCCTGGTCGCTCGGCTTCTGGATTCTAACTCAAAACTAGCTCAAAGTGCTCTACAAATTTGTGAGCTGTTAGCGACGTCTATGGGCCCTAAATGCAAACAGCACGTGAGGACGTTTTTCCCGGCTTTCTTTCAAGCGTTTGGTGACAGCAAGCAATGGATTCGTACCTCAGCTGTGTCGTGTGTGGACGCGTGGTGCGGGGCGGCGGGCGCGGCGGTCGCCTTCGATGGTGAAATGGTTCTGGACGCTCTTAAAGCCGGTTCACCAGTACTGCGAGCTACGCTACTTACATGGCTAGCTGAAAAGCTACCTAATAGTAAGGAATATCTTTTCTATTATATTATTGGTAGTCACGATTATCGTCTCCTGCAGACGGGTGTTCCTCCGAAGTCGTTTCCTCGCGAGGAGTTGTCCCAGTGCGTGCCCATACTGTTCGCGTGTCTGGAGGATCGAGCGGCGGATGTAAGACGGGCGGCCGCTGACGCTGTGTTCCCCGTCATGTTGCACCTCGGATACGAAGCCATGCACAAACAGATGGACAAACTGAAGCCGGGTTCCAAGACTGTAGTGCAAGCGGCTCTGGACAAGGCCCGTCCGAATTTGCCGGTCCAACCTTTACCAGCTAAGAACAAAAAAGACGAACCTAAGGGTGTTAAGACGGGAGGCGCTCTGAAGAAGGAGGGAGATAAAAAGGGAACAATGACGAAGAAGGTAGTTAAACCGGCTTCGGCCTCGAGTCGCGGCAAAAAGGAAGACGAAGATTGCACTCCCCTGCTACCCAACAACAACGCTAAGAACCAGCGTATTATTGATGATCAGAAACTAAAAGTATTGAAATGGAACTTCACAACACCTCGCGAGGAATTCTTTGAATTGCTCAAAGAACAAATGAACAGCGCCGGCCTTAACAAACAACTCGTCGCTAATATGTTTCACAGCGACTTCCGTGAAGACCTTCACGAGAACGGAACAGCGTTGATGGCGAACCTGGACCTCGTATTAAAATGGCTGACCCTGAGATTCTTTGACACCAACCCTTCAGTCATACTAAAGGGCTTGGAATATTTGAATATCGTGTTCCAGTATTTAATTGACAGTGACTATACTATGGCTGAATACGAAGCTAATTGCTTTATACCGTACTTAGTGCTGAAGGTCGGAGACCCGAAAGACACTGTACGAAATGGTGTAAAGGCTTTATTCAAGCAAATAGGAGTCGTGTATTCAGTCACTAAACTGTTCGGATACTTGATGGAAGGTCTGAAGTCCAAGAACGCCAGGCAGAGGGCTGAATGTCTGGAGTGCATTAACCATCTTCTGGAGACCTACGGTTCAACGGTGATGTCGGGAGGCGGCGCGGCTCTTAAAGAACTGGCGCGTCTCATAGGGGACCGGGATAATGCTGTGCGGTCAGCCGCCTTGAACTGTGTGGCCACGGCGTACTTCCTGGACGGGGAGAGAGTTTATAAGATGATCGGACAGATATCTGATAAAGATCTCTCGCTACTTGAAGAGCGCATCAAGCGAGCTGGGAAGACTCGAACAGCGGAGGAGCGTCGGGCCGGGCTGGTGCCGCTATCAGCTGGTGGCAGACCTCTCATGCACGCCGTTGAGCAAGAACCAGAACCACCACAAGAAGAACCCGCCCAGGAATATGAGGAAGAGGAAATTGAAGAGCAACCAGTTATAGTTCAACCGCCGGTGAGAGCAATGACAGAGCCGAAAGTAATAACGGGGCCCTTCAGACTCGACCCTGACCTGATCGCCAAGCTTGATGCAGCTGTCCCAGTAGTCCGGAAGCCAGATTTACCCGAGTTGGACTTGAAGTTCCTAGACGAACCGATACCCGTGTCCACAGTCAGGAATGTCAGTGCGCCGGTCAGGCCGAGGCATGTTATGTCCACACTGTCCCCGTCCAGACCCACCCCTCACCTGGTGCCTCACAAGCCAGCCCTCGATGACACTCAGCTGGCCGACACCATACATTCTATATCGAGTCCGGATCTCAACGCGGCTATTAGAGCCCTATCTCTGATCTCTGGTACTCTGGAATCTGGTCGAGGGGCTGCGGTCGCGTCCCACGAGGCACGGCTCATATCAGCCGTGTCCGCACAACTACGACGACTAAGAATGACACCCGGACCCGCACAACATACTCTGCAGGCGTATAAATGTTTGGCACAGTCATTGTCAACTTTCTACGAGACAGCCGGTTGCGGTAGACAAGTGGGTGAAGCAGCACTAAGGTCTCTGCTGGGCGAGTTACTACTGGTGCTTGGAGCGTCACCCGCCACGCCCACAACGGAAGCCGAACGCATCGTCAGAATACTCAATAACGTTTGCGTTAGAGTTCTAGAACACTCACCGCGCACAGCTTTGTTATGTGCAATCATATCACTTCTACACGACTCGATAGTCGAATCCGACCCGGCCTATCCCAGATATCAAGATCTATTGCTGAAATGTTTCTGGAAAACGTTGAAGATGATACCGACGTGGGATGTGACCTCCATTGATTATGACGCTGTGTTATTCAAGATACACCTCTTCTACAAGGCCTACCCTAACAGCTACTGGAAGAAGAATCCAGAAATAAGCGATACTCCTTATAGAACCGTCAAGACTCTAGTCCACACCTTAGTCAAAATGAAGGGAGCGTCCATAACTAACCACCTCACACAGATACCTGACGTCAATGAATCAGATCTCTATCCTTATTTACATAAAGTACTCAAGCAACTTAAGCTAGACGAGCGTAAAGAGCCAGAGGTGGTGAACAACGGTGTGCCGCCGAGCTCTATGAACACGTCGCTCCAAGCCGGCCGACTGCCGCGAGGAGTGCACGATGAGTTGGCCGCCATACTCAAGAGGATCGGCTCCAAAGAACATAACAGGGAGGCGCTGTCGCAGCTGTATGATCTGCGGGAACGTCACCCTGAGGTCGACATCTGGACTTTCATGCAAGGATCTTCCTTCTACTTCCGAAATTACGTGGAACGAGGTCTCAGAGAAGTGGCCGATCAGAGGAAGATGGCTTCAGTTTCCATATACAAGAGCGACTTTAAAACTGATAATATTGACATAACTAATGAAAACGACGAGAAAACTCACGTTATATTTTTGGAACGGTTAAGAGCACTGCAGGCTAAAGCTGGCATAAAAACGGAGTCGAACCCCTCGTCACAGCCGCGCACGCCGAGCGACAACCGCGCGCTCGCAGATTCTATAACGGAGAACAGTTTGCCCAGAACACACAGCCTCGACCCGCAACTGGAGCTTCACACAACGCAGCAAGTCTCCATAAAGAACGAAGCGGCCGTGGACGCACTCCGTCTCAAACTTCAGCAAATCAAGAGCTCGTCGAAGAGATAA

Protein sequence:

>DPOGS216127-PA
MEDENEYKKLPTEEKCVHKLWKARVTGYEEAIKLFNQIDDEKSPEWNKYLGLIKKFVTDSNVVAQEKGLEAALVFVENCGHAGKTTGEVMSGIVTKCIAAPKTKTKDLALQITLMYIEIEKHEIVEEELLKGMEQKNPKVVAACISALNTALKQFGNKVVAIKPMVKKIPILLADRDKTVRDEMKALVIEMHRWIGAAIEPHIASLQAVVQQELRESFGGGGAAHPTRFLRSQQHRLREVPAADYTDGRADDEDAETGGGDSAEMDPYDLLDPVEILSKLPKDFYDKLEAKKWQERKEALDALDNILKTAPKLEPGDYADLVRALKKVISKDTNVMLVALGGRLLGMVASGLRNKFSPYAVACVSAILEKFKEKKTNVVSALREAIDAIYPCTNLEAIMEDMLAAFDNKNPSIKAESAVFLARALCITQPAAFNKKLIKAYVAGLLKLLESADPAVRDAAAEALGTATKLVGEKNIAPHIGKLDNLKEQKIKEFAEKAEIKIKVAAPKKEAKAKAPPPSGKGDAKAGSSQPKPVKRPASGTAKKPTAKKTPARGPSSPPRELELSPEEVDSRAEQIFTSDVLTGLGDGNWKSRLTAVQSFHSTVQGLTTSDATAQVLYRTLNKKPGLKDTNVQVLKARLEACKYITENFPISTTAADFVLQDIVTKLAETSCSSVSSECLTSLAESCGLEHVLNEGLTFAMDSQKNPKVQAEMFNWMAVAIKEFGFTMNVKSIIAHSKKALSATNPNVRTSTVNFLGILSLYVGPSLISHFDSEKAATKQLISLELDKYANSTPPTPTRQLGTVSKSASKGSIGDDLDEAYEDAADEEPAAVEDNRPRTDIAPLITDALVAEIGDKNWKVRNEGLDKVKAIITNSSPIKPTLGELPAALVARLLDSNSKLAQSALQICELLATSMGPKCKQHVRTFFPAFFQAFGDSKQWIRTSAVSCVDAWCGAAGAAVAFDGEMVLDALKAGSPVLRATLLTWLAEKLPNSKEYLFYYIIGSHDYRLLQTGVPPKSFPREELSQCVPILFACLEDRAADVRRAAADAVFPVMLHLGYEAMHKQMDKLKPGSKTVVQAALDKARPNLPVQPLPAKNKKDEPKGVKTGGALKKEGDKKGTMTKKVVKPASASSRGKKEDEDCTPLLPNNNAKNQRIIDDQKLKVLKWNFTTPREEFFELLKEQMNSAGLNKQLVANMFHSDFREDLHENGTALMANLDLVLKWLTLRFFDTNPSVILKGLEYLNIVFQYLIDSDYTMAEYEANCFIPYLVLKVGDPKDTVRNGVKALFKQIGVVYSVTKLFGYLMEGLKSKNARQRAECLECINHLLETYGSTVMSGGGAALKELARLIGDRDNAVRSAALNCVATAYFLDGERVYKMIGQISDKDLSLLEERIKRAGKTRTAEERRAGLVPLSAGGRPLMHAVEQEPEPPQEEPAQEYEEEEIEEQPVIVQPPVRAMTEPKVITGPFRLDPDLIAKLDAAVPVVRKPDLPELDLKFLDEPIPVSTVRNVSAPVRPRHVMSTLSPSRPTPHLVPHKPALDDTQLADTIHSISSPDLNAAIRALSLISGTLESGRGAAVASHEARLISAVSAQLRRLRMTPGPAQHTLQAYKCLAQSLSTFYETAGCGRQVGEAALRSLLGELLLVLGASPATPTTEAERIVRILNNVCVRVLEHSPRTALLCAIISLLHDSIVESDPAYPRYQDLLLKCFWKTLKMIPTWDVTSIDYDAVLFKIHLFYKAYPNSYWKKNPEISDTPYRTVKTLVHTLVKMKGASITNHLTQIPDVNESDLYPYLHKVLKQLKLDERKEPEVVNNGVPPSSMNTSLQAGRLPRGVHDELAAILKRIGSKEHNREALSQLYDLRERHPEVDIWTFMQGSSFYFRNYVERGLREVADQRKMASVSIYKSDFKTDNIDITNENDEKTHVIFLERLRALQAKAGIKTESNPSSQPRTPSDNRALADSITENSLPRTHSLDPQLELHTTQQVSIKNEAAVDALRLKLQQIKSSSKR-