Rampant Genome-Wide Admixture across the Heliconius Radiation

Rampant Genome-Wide Admixture across the Heliconius Radiation

Abstract How frequent is gene flow between species? The pattern of evolution is typically portrayed as a phylogenetic tree, yet gene flow between good species may be an important mechanism in diversification, spreading adaptive traits and leading to a complex pattern of phylogenetic incongruence. Th...

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Bibliographic Details
Published in:Genome biology and evolution Vol. 13; no. 7
Main Authors: Kozak, Krzysztof M, Joron, Mathieu, McMillan, W Owen, Jiggins, Chris D
Format: Journal Article
Language:English
Published: England Oxford University Press 06-07-2021
Society for Molecular Biology and Evolution
Subjects:
Animal biology
Animal genetics
Animals
Biodiversity
Butterflies - genetics
Gene Flow
Genetics
Genome
Invertebrate Zoology
Life Sciences
Phylogeny
Populations and Evolution
Wings, Animal
admixture
radiation
adaptive introgression
phylogenomics
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Summary:Abstract How frequent is gene flow between species? The pattern of evolution is typically portrayed as a phylogenetic tree, yet gene flow between good species may be an important mechanism in diversification, spreading adaptive traits and leading to a complex pattern of phylogenetic incongruence. This process has thus far been studied mainly among a few closely related species, or in geographically restricted areas such as islands, but not on the scale of a continental radiation. Using a genomic representation of 40 out of 47 species in the genus, we demonstrate that admixture has played a role throughout the evolution of the charismatic Neotropical butterflies Heliconius. Modeling of phylogenetic networks based on the exome uncovers up to 13 instances of interspecific gene flow. Admixture is detected among the relatives of Heliconius erato, as well as between the ancient lineages leading to modern clades. Interspecific gene flow played a role throughout the evolution of the genus, although the process has been most frequent in the clade of Heliconius melpomene and relatives. We identify Heliconius hecalesia and relatives as putative hybrids, including new evidence for introgression at the loci controlling the mimetic wing patterns. Models accounting for interspecific gene flow yield a more complete picture of the radiation as a network, which will improve our ability to study trait evolution in a realistic comparative framework.
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W Owen McMillan and Chris D Jiggins contributed equally to this work.
ISSN:1759-6653
1759-6653
DOI:10.1093/gbe/evab099