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Evolution of homologous recombination rates across bacteria

Ellis L. Torrance, Corey Burton, Awa Diop, Louis‐Marie Bobay

2024Proceedings of the National Academy of Sciences41 citationsDOIOpen Access PDF

Abstract

Bacteria are nonsexual organisms but are capable of exchanging DNA at diverse degrees through homologous recombination. Intriguingly, the rates of recombination vary immensely across lineages where some species have been described as purely clonal and others as "quasi-sexual." However, estimating recombination rates has proven a difficult endeavor and estimates often vary substantially across studies. It is unclear whether these variations reflect natural variations across populations or are due to differences in methodologies. Consequently, the impact of recombination on bacterial evolution has not been extensively evaluated and the evolution of recombination rate-as a trait-remains to be accurately described. Here, we developed an approach based on Approximate Bayesian Computation that integrates multiple signals of recombination to estimate recombination rates. We inferred the rate of recombination of 162 bacterial species and one archaeon and tested the robustness of our approach. Our results confirm that recombination rates vary drastically across bacteria; however, we found that recombination rate-as a trait-is conserved in several lineages but evolves rapidly in others. Although some traits are thought to be associated with recombination rate (e.g., GC-content), we found no clear association between genomic or phenotypic traits and recombination rate. Overall, our results provide an overview of recombination rate, its evolution, and its impact on bacterial evolution.

Topics & Concepts

RecombinationBiologyHomologous recombinationEvolutionary biologyGeneticsTraitRecombination rateGenetic recombinationDNAGeneProgramming languageComputer scienceEvolution and Genetic DynamicsGenomics and Phylogenetic StudiesBacterial Identification and Susceptibility Testing
Evolution of homologous recombination rates across bacteria | Litcius