Monarch geneset OGS2.0

DPOGS201845
TranscriptDPOGS201845-TA6141 bp
ProteinDPOGS201845-PA2046 aa
Genomic positionDPSCF300191 - 325800-340029
RNAseq coverage106x (Rank: top 60%)
Annotation
HeliconiusHMEL0156570.064.43% 
BombyxBGIBMGA006098-TA0.045.88% 
Drosophilawb-PB0.028.36% 
EBI UniRef50UniRef50_E0VR700.028.84%Laminin alpha-2 chain, putative n=1 Tax=Pediculus humanus corporis RepID=E0VR70_PEDHC
NCBI RefSeqXP_394251.20.028.19%PREDICTED: similar to wing blister CG15288-PB, isoform B [Apis mellifera]
NCBI nr blastpgi|3800236270.028.20%PREDICTED: laminin subunit alpha-5-like [Apis florea]
NCBI nr blastxgi|3287928230.028.20%PREDICTED: laminin subunit alpha-5-like [Apis mellifera]
Group
Gene OntologyGO:00310121.2e-06extracellular matrix
GO:00071551.2e-06cell adhesion
KEGG pathwayrno:3093686e-111 
 K06239 (LAMA2)maps-> Amoebiasis
    Viral myocarditis
    Arrhythmogenic right ventricular cardiomyopathy (ARVC)
    ECM-receptor interaction
    Pathways in cancer
    Small cell lung cancer
    Dilated cardiomyopathy
    Focal adhesion
    Hypertrophic cardiomyopathy (HCM)
InterPro domain[1304-1481] IPR0089856.6e-32Concanavalin A-like lectin/glucanase
[1482-1652] IPR0133202.9e-21Concanavalin A-like lectin/glucanase, subgroup
[1506-1648] IPR0017914e-20Laminin G domain
[1514-1650] IPR0126791.2e-13Laminin G, subdomain 1
[457-500] IPR0020492.6e-12EGF-like, laminin
[1926-2024] IPR0126801.5e-10Laminin G, subdomain 2
[264-399] IPR0180318.4e-08Laminin B, subgroup
[269-410] IPR0000341.2e-06Laminin B type IV
Orthology groupMCL10292 Multiple-copy universal gene
Genotypes for resequenced monarchs and outgroup Danaus species

Nucleotide sequence:

>DPOGS201845-TA
ATGCCTGATGATTGCAGCCGCCTGATAATGTTGTCTGCAGTCATGCTCCTTCAATGGGTTTTGGATAAGGTTGCAACTGTTCGTCGTTGGGTTCCGAGAGCAATGTGTGCGACATACGCTCGGGGCAGTGTCGCTGCAGACCGCACGTCACCGGCCGAGCTTGTGACACCTGCGAGGAAGGCTACTGGGGTCTCCAGCATGGAGGGTGTCGTCGCTGCGAGTGTGGTGCAGGGGCTGCGGCCTGTGACCCTGTCAGCGGCCTGTGCGCCTGTTCCGTTGGTGTGGGAGGTGCAAGGTGTGACCGATGCCTCAGCGGCTACTATGGTTTTGGACCCACCGGATGTTTACGTAACTGTGACCCCGTGTCCGGCCAGTGTAGTTGTCGCCCTGGCTGGACCGGTCGCGCGTGTGACCGCTGCGCTCGCGCACACTACGGTCCTCGCTGCAGACCTTGCGGCTGTCACCGAGCGGGCACGCGGTGTGAAGATGGGCTGTGTCCTTGCGATAGCAACGGACAGTGTCCCTGATAATGTAGTGGGTGAGAAATGTGATCGATGCTTGGAAGGTACTTTCGGTCTCTCGGAGTCCAATCCAGTGGGCTGCACGGCTTGTTTCTGCTTCGGACGCAGCGCTCAGTGCACTCAAGCCGCCGTCTCCCGAGCCGCGCTTCACAACGCTGTGCCTCTTCACCTCAGGTTGATGAGGGGCCACATCATTACTACTATGGATCGCCACTCCCCGCTGGCCATCCACACGAGTGTTCAGGACGCCCACATCACCCTCCCGGACCCTCCAGTGCCGGTGTACGCCGAGCTCCCGTCCTTGTTCCTGGGTGACCGCGTGCTCTCTTACGGGGGCGCGTTAAGGTTCCGTGTGGAACAGGAGGGTGGCACCCCCATACCTCGTGACGTACTGATCGACTTCCCACTCGTCAGCATATATGGATACAACATCGTGCTGGATTACTATGAACGCGCGCCTCCAATAAACAATACGTATGCTGTATATCTGCACGAGTCTCTGTGGGAGGTGCGGGGCGCGGGTACTGGAGGAACAGGGGCCGTTGCTTCCCGCGGAGCGCTCATGTTGACTCTGAGGGATGTGCGACGTCTGCTGCTTCGAGTCTCGACCCGAGAACCGACCGACGAGCCGTTACATGTTTTATTGCTGAACGTGACCCTGGAGACGGCTATCCCTGGCCTGTCCCGTGGGGCGCCGGCCCCGGGCGTGGAGCGCTGCTCGTGTCCCCGAGGCTACTCCTCCGGTTCGTGTCAGCGCCCCGCGGCCGGGTTCTGGTCGCCGCCCTCCCCACCGCTCGTGACGCATGTGGCTGGTACCATCGTTATCCACGTAGAACCTGTCAGACCCTGTGAATGTAACGGCAGGGCCGCCACCTGTGATCCTGCCACCGGACATTGCTTGAACTGCACCGCCAACACTTCAGGGCCGCACTGCGACCACTGCGCTGAAGGTTACTACGGCACGCCTGATCGTGGCTGCGAGCCTTGCCCCTGTCCAGCTCACGGTCCCGTGAGGGCCACCGGCTGTGCCGCCTCGCACGGGAGACTGCACTGCTACTGTCACCTCGGCTACACGGGGTCTCGCTGTGAGTCTTGTTCTGCGGGCTGGCGGCGGGAGGGGGGCGCCTGCGTCCCGTGTTCCTGTGACCCCCGCGGGGCGCTGTCTCAGCGTTGTGAGGGTGGACGCTGCCATTGTCGTCCGTACGCCACGGGTACACGATGTCAGCTGTGTGCACAACCAGGTTTCTATATGGATGAGGAGGGTTGCAAACCTTGTGACAACTGCACACAGACTCTACTACTGTCAATGAAAGACCTAACGAGAGATCTACACTTACGGGCGGATCTGTCGGAGCTTAGTAGAATACCGCAACCTTTTCCGGCACTTAGAGAATTTGCAAATAATGCATCAATTCTAGAAGCATCGCTTAAACAATGGCGGACAAACAAAGAAAAATCTCTATTAATCAAATCGGCATTATTAAAATTAGAATCTACCGAACATGAACTTTTTACATCTTCCAATAAACTTAAAACAAAAGCATCCAGAAGAGAGAAAGAGGCGCAGTATTTAAGCTTAGAAAGTATGAGTGGGTTGGAAGAAGTATTCAAGAAAAAGAGGGTTTTGGCGGAATATGTTGCTGATCTGGATGATTTTGCGAGAGGAGAAAAGCATCTGAGCGCTCACAGAGCCTTAAAAGAAGCGAGACATTTGCTTAAAATGATAAAAGAATTAAATTTAGTAGATTTTATGACCGGAGCTAACGATGTATCTGATTCGGCCAACCTCCAATCAACTTCTGTACATGAATACAAATACCGTATCGATGATAGTTTCCAAAAAATTTATAAACTGCATTCAAGTTTAGAAGATTGGGAACGTAAGGCAGAAGACTTACCACGTCTAGCAGGTATTGTGTGGAGCGCGGGTGACACGGTGGTAGAAGGCAGTAAGAAAATAAAACCGAAACTTGCAAGGGTTCGGGATGTAGGATTGCAATGTAGGCTTGTATTAGAGGACATCTCTAACTTATCCACTAACAACCTTACTGAAGAAACACGGGCAGCTTTATTACATACCCAAAATCTTGCAGTTGGGTTCCCAACTTTACTATCTACCCTCCGAAACCTAACAACACAAGCCGAGGAAAAGGAAGGCATTCTATACAACCTTACTCCTAAATACAAAGAAAAATATTTAGATGTAGTTAAAGAACACGTGGAGAACCTTACAAAAAAAGCCAGGGAATACAAAAATTTGTTTGCGGGAACACGATCGGTTGCATCTGCTGGAGTCCAAGCAGCTCGCGCCTGGTCCGAAGTGGCCGCTGGAGTTAGAGATGCTGTAGCCCGCCGACTACATTTACATCGAGAACTAGAAGTTGCCCAACGCGGAATAGACGTTGTTAGCGTCGGTCTTCGTGGCTTAGGATGGCGAGAGCGTGCTCTGGCCAGTGGCGCCGAGGGAGGTATGATGAATGGCGGTACAGCTGCAGTAGCAACACTGAAACAAGCCAGTACACAAGCGGAGAGAGTATTTGCAAGTAGCCGAGTGCTATACGACGAGGCGGCGGATCTTAGGAGAAAAGTACGATACCAACTGCGACGAAATCTTGCCGCACTTCAACGTATGGGAGATACCGCGCTGGGTGCTGCGGAGGAACATGTGTCCCAAATACGAGGAAACACGGACCGTGGACGCGAGGTAGCAGCGGCACTTGCAGCGGCAGGGGCAGCGCGCGCTCGGGAACATGCGGCCGCCGCCACTATTTTGTCTCCTGCACTGAAACGTCTTCACAGCGGCATCCTGCAAGCACAGCATGCAGCTGCCACAATATCTGTGTCAGTCACCTCACCCGCCGGCGGTGTCGGATGCGCGCGAGCGTATTCCTCGTGGAGTGCTCCATCAGCAACGCGCGCTACTCTCTCTCTAAGTTTTGATTCCACTTTAAGAGATGGCACGCTGCTGTATTTACCTGATCAGGATTCCGAGCGCTATCTTCGTCTTTCCGTATCAGCTGGGAAACTGATTGTGCGGTGGGACGTAGGTGGAGGCGTCGGCTACTTGGAGCACCCTGAGCCACTCACACCCACTGTTGACGACGCTGACCACACTGTTTATCGACTTCAGATTGAAAGAGTGTGGAACACAGTGCGGCTTCGTACTGAACGATCTGGAAGCGCCGTCACCACGTCTACAAATAGCACGACGTCGTCCCCAAGCACGGGGCTCCTGCGTCCACAGTACTGGTGGCTTGGAGAACCCGATGCTCCTTTGCCGGCCTGTGTACATTCCTTGCACGCTGATCACTTGGCTTTAGGCCTCTGGGCTTTTGCAAAACAGCACACGAATTCAAAATGTACAGGTTGTACCCAAAGATGGACGAGCCAACGTGGCGAGAGCCTTGCACGTCTAAGCGGTGCAGGCTACGTCACCTTGCGCCGCTCGCGGCCCGCCGACCGCCGACGGTTCAGTCTTGCTTTGTCCTTTCGTACCACTGACCACAACGCTCTGCTATTTATGGCACACGATCATAATCGCTCGGTGTCAGTGTGGGTGCGAGAGTGCCGCGTAGTATTTAAAGTGCAGTACGCGAATTCTCGACTAGAGATTACAGCTGGAGGAGACCACTGCGATGGTAAACCGACCCATGTCCAGGCCACCAGAGTTTTTAATGGACTAGAGAGAGGCAGCCTGCGCGTAAACGGTGAAGAGACTCTAGGCTCACCATCCCCGCCGGTGCAGGCCGCGGGTGACCTGCCAGAGCTGGAAGGAGCCTACTGGGTGGGAGGATTGCCGCCCGACGCGCAAGGTCTTTATGAGGCTCCCTCACTTCTTGGCTGCATCGGAGGCCTCGTAGTGGACAGAGAGGGCTACGATCTGCTGGACACTCCCACACGGTATGGGTTGGAGCCAGGATGTTCAGCTAGGGCACTTCGGTCTGCAGTATTAGACGGCGACGGCTACATCGAGCTGTCATCGCCCGCCATTCGACGTAAGACTTCGATTGGTGTATCGTTCAGAACACGATCTCCGTCCGGCCTGCTGATGTACAGAGCACCCTCAATATCCGTCCAGGATAATGAGGTGGACGACGAAGAAGATGATAATCATTGCCTCGTTCTCGCTCTCGTGAATGGTGAATTGGAAGTGATCGCAAACGCCGGCAAAGGTGAATTGCGACTACGGATAAATGAGACTAAATACGATGATGGTGGACTGTACACTGTACGGCTGGTCCGGGTTCATAAGCAGCTGGAAGTATGGGTGGACGAAAAACGCATGGCTGCCGGTAATCTTCCGGGGGGAGCTATTGCGGCGAGGGCGCGTGGTTTGTTCTTGGGAGGGTCGCCTTCTCCCGTCACCTATCTCACCGTGCCCTCCTTCACGGGGACTATCGCAGACTTCATAGTGGATTCTACGTGGATAGGTCTGGAGTCCAGCGTCTCCCATTTCCGAGCTCGTCTCGGTCGAGCCCAGACCGCCGCCCCAAGACCGACGCCCACCGCCGTCAACACGCGGAATGACCTCACCAACTGTGCTAAGTTATCGTCATATGCGGTGGAAGCAGGCGCTGTGAAGTTCGGTGACGCCGTCCCGAGTTACGCAGCTCTGAGGGCAGCCCGCGCCGCCTTGTTTAGTTTCAGTCTTCAGTTGCGAACTTTCGCTAAAGACGGAATCGTCATGCTCTTGCCGGGCTCCAAGCAGAAACCTCGTCACTATGTCGCTTTGTTGTTGCGTGAGGGTCGGGCTCGACTCATGGTTCGTGGAAGGAGACGCAAAGAATTGGTGCTACCGGGAAACGTCAGCGACGGCGAATGGCATGAGTTGTCAGTGCGTATCTCCCGTAGTCGCCTCGTGTTATCCTCGGGCTCCGCGGCGGTGACAGGCAGGGCTCCGCCTCACGCTCGCGCCGCGCGCTTGTACCTGGGAGGCCCGCCCCCCGCCGCTGCTATACCACACGTACCGAATTCACTGTTGAAGCTGGGAGGGCTGGTGGGTTGCGTGCGTCGCGTGGCGGTCGGAGGACGAGCTGAGGACCCGGTCAGAGACGCGCGTGCTCACGTCGCCGTCTCACAGTGCTTCCCCCGCGTCGAGCGAGGAGCATATTTTGGAGGGGACGCGTATGCCGAGTGGTCGGAGACGGGGTTCGCAGGCTTAGGGGGTGAGGAGGGTGAGGGAGACAGCGTGGAGCTGCGGCTGGAGTTCCGCGCCACCAGCGGGGTTGGACTCCTGGCCGCTTTTGCTGGAGCCCTGCTGGAACTGAAGGACGGCATGGTGGTGTTAAGTCGGGGAGGAACGTCAGTCGAGAGCGGCGGTCGAGTGTGTGACGGTAGATGGCACGCGGCGGCGGCCCGAGTGTGGCGCGCCGGGCTCAGCCTGTCCCTGGACGGAGCGCCCCCTGAACGAGCAGCTCCTGCTCTGATAGCACCTGCCGCTCCGCCAACCGGGAACTCCTTATACGTAGCTGGACTACCTGAAGGAGCCCGCGACATGGGCGATGGGCGAGAGAACTTCAAAGGTTGTGTTCGTGACGTCACTTACCGAGGCTCGGCTCGGAGCTGGAGGGCGGCCAGTCTACATCACGTGCTGCTTGATTCCTGTCCTGTGTCACACTGA

Protein sequence:

>DPOGS201845-PA
MPDDCSRLIMLSAVMLLQWVLDKVATVRRWVPRAMCATYARGSVAADRTSPAELVTPARKATGVSSMEGVVAASVVQGLRPVTLSAACAPVPLVWEVQGVTDASAATMVLDPPDVYVTVTPCPASVVVALAGPVARVTAALAHTTVLAADLAAVTERARGVKMGCVLAIATDSVPDNVVGEKCDRCLEGTFGLSESNPVGCTACFCFGRSAQCTQAAVSRAALHNAVPLHLRLMRGHIITTMDRHSPLAIHTSVQDAHITLPDPPVPVYAELPSLFLGDRVLSYGGALRFRVEQEGGTPIPRDVLIDFPLVSIYGYNIVLDYYERAPPINNTYAVYLHESLWEVRGAGTGGTGAVASRGALMLTLRDVRRLLLRVSTREPTDEPLHVLLLNVTLETAIPGLSRGAPAPGVERCSCPRGYSSGSCQRPAAGFWSPPSPPLVTHVAGTIVIHVEPVRPCECNGRAATCDPATGHCLNCTANTSGPHCDHCAEGYYGTPDRGCEPCPCPAHGPVRATGCAASHGRLHCYCHLGYTGSRCESCSAGWRREGGACVPCSCDPRGALSQRCEGGRCHCRPYATGTRCQLCAQPGFYMDEEGCKPCDNCTQTLLLSMKDLTRDLHLRADLSELSRIPQPFPALREFANNASILEASLKQWRTNKEKSLLIKSALLKLESTEHELFTSSNKLKTKASRREKEAQYLSLESMSGLEEVFKKKRVLAEYVADLDDFARGEKHLSAHRALKEARHLLKMIKELNLVDFMTGANDVSDSANLQSTSVHEYKYRIDDSFQKIYKLHSSLEDWERKAEDLPRLAGIVWSAGDTVVEGSKKIKPKLARVRDVGLQCRLVLEDISNLSTNNLTEETRAALLHTQNLAVGFPTLLSTLRNLTTQAEEKEGILYNLTPKYKEKYLDVVKEHVENLTKKAREYKNLFAGTRSVASAGVQAARAWSEVAAGVRDAVARRLHLHRELEVAQRGIDVVSVGLRGLGWRERALASGAEGGMMNGGTAAVATLKQASTQAERVFASSRVLYDEAADLRRKVRYQLRRNLAALQRMGDTALGAAEEHVSQIRGNTDRGREVAAALAAAGAARAREHAAAATILSPALKRLHSGILQAQHAAATISVSVTSPAGGVGCARAYSSWSAPSATRATLSLSFDSTLRDGTLLYLPDQDSERYLRLSVSAGKLIVRWDVGGGVGYLEHPEPLTPTVDDADHTVYRLQIERVWNTVRLRTERSGSAVTTSTNSTTSSPSTGLLRPQYWWLGEPDAPLPACVHSLHADHLALGLWAFAKQHTNSKCTGCTQRWTSQRGESLARLSGAGYVTLRRSRPADRRRFSLALSFRTTDHNALLFMAHDHNRSVSVWVRECRVVFKVQYANSRLEITAGGDHCDGKPTHVQATRVFNGLERGSLRVNGEETLGSPSPPVQAAGDLPELEGAYWVGGLPPDAQGLYEAPSLLGCIGGLVVDREGYDLLDTPTRYGLEPGCSARALRSAVLDGDGYIELSSPAIRRKTSIGVSFRTRSPSGLLMYRAPSISVQDNEVDDEEDDNHCLVLALVNGELEVIANAGKGELRLRINETKYDDGGLYTVRLVRVHKQLEVWVDEKRMAAGNLPGGAIAARARGLFLGGSPSPVTYLTVPSFTGTIADFIVDSTWIGLESSVSHFRARLGRAQTAAPRPTPTAVNTRNDLTNCAKLSSYAVEAGAVKFGDAVPSYAALRAARAALFSFSLQLRTFAKDGIVMLLPGSKQKPRHYVALLLREGRARLMVRGRRRKELVLPGNVSDGEWHELSVRISRSRLVLSSGSAAVTGRAPPHARAARLYLGGPPPAAAIPHVPNSLLKLGGLVGCVRRVAVGGRAEDPVRDARAHVAVSQCFPRVERGAYFGGDAYAEWSETGFAGLGGEEGEGDSVELRLEFRATSGVGLLAAFAGALLELKDGMVVLSRGGTSVESGGRVCDGRWHAAAARVWRAGLSLSLDGAPPERAAPALIAPAAPPTGNSLYVAGLPEGARDMGDGRENFKGCVRDVTYRGSARSWRAASLHHVLLDSCPVSH-