Genomic architecture of adaptive color pattern divergence and convergence in Heliconius butterflies

Identifying the genetic changes driving adaptive variation in natural populations is key to understanding the origins of biodiversity. The mosaic of mimetic wing patterns in Heliconius butterflies makes an excellent system for exploring adaptive variation using next-generation sequencing. In this st...

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Tipo de recurso:
Fecha de publicación:
2013
Institución:
Universidad del Rosario
Repositorio:
Repositorio EdocUR - U. Rosario
Idioma:
eng
OAI Identifier:
oai:repository.urosario.edu.co:10336/8824
Acceso en línea:
https://doi.org/10.1101/gr.150615.112
http://repository.urosario.edu.co/handle/10336/8824
Palabra clave:
Evolución & genética
Genoma
Genes
Mariposas
Genética
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License
Abierto (Texto completo)
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repository_id_str
dc.title.spa.fl_str_mv Genomic architecture of adaptive color pattern divergence and convergence in Heliconius butterflies
title Genomic architecture of adaptive color pattern divergence and convergence in Heliconius butterflies
spellingShingle Genomic architecture of adaptive color pattern divergence and convergence in Heliconius butterflies
Evolución & genética
Genoma
Genes
Mariposas
Genética
title_short Genomic architecture of adaptive color pattern divergence and convergence in Heliconius butterflies
title_full Genomic architecture of adaptive color pattern divergence and convergence in Heliconius butterflies
title_fullStr Genomic architecture of adaptive color pattern divergence and convergence in Heliconius butterflies
title_full_unstemmed Genomic architecture of adaptive color pattern divergence and convergence in Heliconius butterflies
title_sort Genomic architecture of adaptive color pattern divergence and convergence in Heliconius butterflies
dc.subject.ddc.none.fl_str_mv Evolución & genética
topic Evolución & genética
Genoma
Genes
Mariposas
Genética
dc.subject.decs.spa.fl_str_mv Genoma
Genes
Mariposas
Genética
description Identifying the genetic changes driving adaptive variation in natural populations is key to understanding the origins of biodiversity. The mosaic of mimetic wing patterns in Heliconius butterflies makes an excellent system for exploring adaptive variation using next-generation sequencing. In this study, we use a combination of techniques to annotate the genomic interval modulating red color pattern variation, identify a narrow region responsible for adaptive divergence and convergence in Heliconius wing color patterns, and explore the evolutionary history of these adaptive alleles. We use whole genome resequencing from four hybrid zones between divergent color pattern races of Heliconius erato and two hybrid zones of the co-mimic Heliconius melpomene to examine genetic variation across 2.2 Mb of a partial reference sequence. In the intergenic region near optix, the gene previously shown to be responsible for the complex red pattern variation in Heliconius, population genetic analyses identify a shared 65-kb region of divergence that includes several sites perfectly associated with phenotype within each species. This region likely contains multiple cis-regulatory elements that control discrete expression domains of optix. The parallel signatures of genetic differentiation in H. erato and H. melpomene support a shared genetic architecture between the two distantly related co-mimics; however, phylogenetic analysis suggests mimetic patterns in each species evolved independently. Using a combination of next-generation sequencing analyses, we have refined our understanding of the genetic architecture of wing pattern variation in Heliconius and gained important insights into the evolution of novel adaptive phenotypes in natural populations.
publishDate 2013
dc.date.created.none.fl_str_mv 2013
dc.date.issued.none.fl_str_mv 2013
dc.date.accessioned.none.fl_str_mv 2014-08-13T15:35:45Z
dc.date.available.none.fl_str_mv 2014-08-13T15:35:45Z
dc.type.eng.fl_str_mv article
dc.type.coar.fl_str_mv http://purl.org/coar/resource_type/c_6501
dc.type.spa.spa.fl_str_mv Artículo
dc.identifier.doi.none.fl_str_mv https://doi.org/10.1101/gr.150615.112
dc.identifier.issn.none.fl_str_mv ISSN:10889051
dc.identifier.uri.none.fl_str_mv http://repository.urosario.edu.co/handle/10336/8824
url https://doi.org/10.1101/gr.150615.112
http://repository.urosario.edu.co/handle/10336/8824
identifier_str_mv ISSN:10889051
dc.language.iso.none.fl_str_mv eng
language eng
dc.relation.citationIssue.none.fl_str_mv No. 8
dc.relation.citationTitle.none.fl_str_mv Genome Research
dc.relation.citationVolume.none.fl_str_mv Vol. 23
dc.relation.ispartof.spa.fl_str_mv Genome Research ISSN 10889051 V. 23 N. 8 2013
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dc.format.medium.spa.fl_str_mv Recurso electrónico
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dc.format.tipo.spa.fl_str_mv Documento
dc.publisher.spa.fl_str_mv Universidad del Rosario
institution Universidad del Rosario
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dc.source.reponame.spa.fl_str_mv reponame:Repositorio Institucional EdocUR
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spelling Comunidad Rosarista9c979648-b5f6-4dba-b8ad-9964318a53de600129ac76a-c278-4fb8-b097-f1b657c31d6f6003b70f6b0-93cf-4700-9dab-9aa418a8239c6002684ac8c-e7ef-472a-97af-13501aa1ae626007c94242a-f4b0-46e6-b5d2-56cbbcd201f36000ade42c3-f0b4-4447-910d-de891b8ebe6f6009c79f90c-0215-4b02-a761-4b50f90ea5a460079873757600bdc77156-b114-476b-8f4a-e0c60dbbedce600cdec5784-5598-4982-87e3-b5fca1889e446002014-08-13T15:35:45Z2014-08-13T15:35:45Z20132013Identifying the genetic changes driving adaptive variation in natural populations is key to understanding the origins of biodiversity. The mosaic of mimetic wing patterns in Heliconius butterflies makes an excellent system for exploring adaptive variation using next-generation sequencing. In this study, we use a combination of techniques to annotate the genomic interval modulating red color pattern variation, identify a narrow region responsible for adaptive divergence and convergence in Heliconius wing color patterns, and explore the evolutionary history of these adaptive alleles. We use whole genome resequencing from four hybrid zones between divergent color pattern races of Heliconius erato and two hybrid zones of the co-mimic Heliconius melpomene to examine genetic variation across 2.2 Mb of a partial reference sequence. In the intergenic region near optix, the gene previously shown to be responsible for the complex red pattern variation in Heliconius, population genetic analyses identify a shared 65-kb region of divergence that includes several sites perfectly associated with phenotype within each species. This region likely contains multiple cis-regulatory elements that control discrete expression domains of optix. The parallel signatures of genetic differentiation in H. erato and H. melpomene support a shared genetic architecture between the two distantly related co-mimics; however, phylogenetic analysis suggests mimetic patterns in each species evolved independently. Using a combination of next-generation sequencing analyses, we have refined our understanding of the genetic architecture of wing pattern variation in Heliconius and gained important insights into the evolution of novel adaptive phenotypes in natural populations.Recurso electrónicoapplication/pdfDocumentohttps://doi.org/10.1101/gr.150615.112ISSN:10889051http://repository.urosario.edu.co/handle/10336/8824engUniversidad del RosarioNo. 8Genome ResearchVol. 23Genome Research ISSN 10889051 V. 23 N. 8 2013http://genome.cshlp.org/content/23/8/1248.full.pdf+htmlAbierto (Texto completo)EL AUTOR, manifiesta que la obra objeto de la presente autorización es original y la realizó sin violar o usurpar derechos de autor de terceros, por lo tanto la obra es de exclusiva autoría y tiene la titularidad sobre la misma.http://purl.org/coar/access_right/c_abf2instname:Universidad del Rosarioreponame:Repositorio Institucional EdocUREvolución & genética575600GenomaGenesMariposasGenéticaGenomic architecture 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