Balancing selection at a wing pattern locus is associated with major shifts in genome-wide patterns of diversity and gene flow
Résumé
Selection shapes genetic diversity around target mutations, yet little is known about how selection on
specific loci affects the genetic trajectories of populations, including their genome-wide patterns of diversity
and demographic responses. Here we study the patterns of genetic variation and geographic structure in a
neotropical butterfly,Heliconius numata, and its closely related allies in the so-called melpomene-silvaniform
clade. H. numata is known to have evolved an inversion supergene which controls variation in wing patterns
involved in mimicry associations with distinct groups of co-mimics whereas it is associated to disassortative
mate preferences and heterozygote advantage at this locus.We contrasted patterns of genetic diversity and
structure 1) among extant polymorphic and monomorphic populations of H. numata, 2) between H. numata
and its close relatives, and 3) between ancestral lineages.We show that H. numata populations which carry
the inversions as a balanced polymorphism show markedly distinct patterns of diversity compared to all
other taxa. They show the highest genetic diversity and effective population size estimates in the entire
clade, aswell as a lowlevel of geographic structure and isolation by distance across the entire Amazon basin.
By contrast, monomorphic populations of H. numata as well as its sister species and their ancestral lineages
all show lower effective population sizes and genetic diversity, and higher levels of geographical structure
across the continent. One hypothesis is that the large effective population size of polymorphic populations
could be caused by the shift to a regime of balancing selection due to the genetic load and disassortative
preferences associated with inversions. Testing this hypothesis with forward simulations supported the
observation of increased diversity in populations with the supergene. Our results are consistent with the
hypothesis that the formation of the supergene triggered a change in gene flow, causing a general increase
in genetic diversity and the homogenisation of genomes at the continental scale.
Domaines
Biodiversité et EcologieOrigine | Fichiers éditeurs autorisés sur une archive ouverte |
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