AI Article Synopsis
- Social behavior has a genetic component but also influences the evolution of genome structure and function across populations and species.
- Social behavior leads to demographic changes that can affect genome architecture, suggesting a two-way relationship between social living and genetic variations.
- We provide guidelines for analyzing whole-genome sequences to understand the relationship between genome structure, function, and social behavior in ecological contexts.
Article Abstract
Although social behavior can have a strong genetic component, it can also result in selection on genome structure and function, thereby influencing the evolution of the genome itself. Here we explore the bidirectional links between social behavior and genome architecture by considering variation in social and/or mating behavior among populations (social polymorphisms) and across closely related species. We propose that social behavior can influence genome architecture via associated demographic changes due to social living. We establish guidelines to exploit emerging whole-genome sequences using analytical approaches that examine genome structure and function at different levels (regulatory vs structural variation) from the perspective of both molecular biology and population genetics in an ecological context.
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| http://dx.doi.org/10.1016/j.tree.2019.04.011 | DOI Listing |
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