The genomic impact of historical hybridization with massive mitochondrial DNA introgression.

Genome Biol

CIBIO, Centro de Investigação em Biodiversidade e Recursos Genéticos, InBIO Laboratório Associado, Universidade do Porto, Campus Agrário de Vairão, 4485-661, Vairão, Portugal.

Published: July 2018

AI Article Synopsis

  • Selection and demographic processes influence the patterns of genetic exchange between species, particularly in cases of invasive species like the Iberian hare, which replaced the arctic L. timidus.
  • The study utilizes whole-genome sequencing to analyze nuclear introgression alongside mitochondrial DNA patterns, revealing that while average introgression varies, they both adhere to a shared post-glacial replacement model.
  • Findings suggest that while demographic factors primarily explain genetic patterns, selection plays a role in certain immune and metabolic genes, potentially alleviating negative impacts from hybridization.

Article Abstract

Background: The extent to which selection determines interspecific patterns of genetic exchange enlightens the role of adaptation in evolution and speciation. Often reported extensive interspecific introgression could be selection-driven, but also result from demographic processes, especially in cases of invasive species replacements, which can promote introgression at their invasion front. Because invasion and selective sweeps similarly mold variation, population genetics evidence for selection can only be gathered in an explicit demographic framework. The Iberian hare, Lepus granatensis, displays in its northern range extensive mitochondrial DNA introgression from L. timidus, an arctic/boreal species that it replaced locally after the last glacial maximum. We use whole-genome sequencing to infer geographic and genomic patterns of nuclear introgression and fit a neutral model of species replacement with hybridization, allowing us to evaluate how selection influenced introgression genome-wide, including for mtDNA.

Results: Although the average nuclear and mtDNA introgression patterns contrast strongly, they fit a single demographic model of post-glacial invasive replacement of timidus by granatensis. Outliers of elevated introgression include several genes related to immunity, spermatogenesis, and mitochondrial metabolism. Introgression is reduced on the X chromosome and in low recombining regions.

Conclusions: General nuclear and mtDNA patterns of introgression can be explained by purely demographic processes. Hybrid incompatibilities and interplay between selection and recombination locally modulate levels of nuclear introgression. Selection promoted introgression of some genes involved in conflicts, either interspecific (parasites) or possibly cytonuclear. In the latter case, nuclear introgression could mitigate the potential negative effects of alien mtDNA on mitochondrial metabolism and male-specific traits.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6065068PMC
http://dx.doi.org/10.1186/s13059-018-1471-8DOI Listing

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