Genomic islands of divergence in hybridizing Heliconius butterflies identified by large-scale targeted sequencing

Heliconius butterflies represent a recent radiation of species, in which wing pattern divergence has been implicated in speciation. Several loci that control wing pattern phenotypes have been mapped and two were identified through sequencing. These same gene regions play a role in adaptation across...

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Bibliographic Details
Published in:Philosophical transactions of the Royal Society of London. Series B. Biological sciences 2012-02, Vol.367 (1587), p.343-353
Main Authors: Nadeau, Nicola J., Whibley, Annabel, Jones, Robert T., Davey, John W., Dasmahapatra, Kanchon K., Baxter, Simon W., Quail, Michael A., Joron, Mathieu, ffrench-Constant, Richard H., Blaxter, Mark L., Mallet, James, Jiggins, Chris D.
Format: Article
Language:English
Subjects:
Adaptation, Biological - genetics
Animals
Base Sequence
Butterflies
Butterflies - classification
Butterflies - genetics
Butterflies - physiology
Chromosomes, Insect - genetics
Colour Pattern
Divergence
Evolutionary genetics
Gene flow
Genes, Insect
Genetic Loci
Genetic Speciation
Genetic Variation
Genetics, Population
Genome, Insect
Genomes
Genomic Islands
Genomics
Heliconius
Heliconius melpomene
Hybridity
Molecular Mimicry
Molecular Sequence Data
Nucleotides
Phylogeny
Sequence Analysis, DNA - methods
Sequencing
Speciation
Species Specificity
Target Enrichment
Wings, Animal - physiology
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Summary:Heliconius butterflies represent a recent radiation of species, in which wing pattern divergence has been implicated in speciation. Several loci that control wing pattern phenotypes have been mapped and two were identified through sequencing. These same gene regions play a role in adaptation across the whole Heliconius radiation. Previous studies of population genetic patterns at these regions have sequenced small amplicons. Here, we use targeted next-generation sequence capture to survey patterns of divergence across these entire regions in divergent geographical races and species of Heliconius. This technique was successful both within and between species for obtaining high coverage of almost all coding regions and sufficient coverage of non-coding regions to perform population genetic analyses. We find major peaks of elevated population differentiation between races across hybrid zones, which indicate regions under strong divergent selection. These ‘islands’ of divergence appear to be more extensive between closely related species, but there is less clear evidence for such islands between more distantly related species at two further points along the ‘speciation continuum’. We also sequence fosmid clones across these regions in different Heliconius melpomene races. We find no major structural rearrangements but many relatively large (greater than 1 kb) insertion/deletion events (including gain/loss of transposable elements) that are variable between races.
ISSN:0962-8436
1471-2970
DOI:10.1098/rstb.2011.0198