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CoreSimul: a forward-in-time simulator of genome evolution for prokaryotes modeling homologous recombination

Louis‐Marie Bobay

2020BMC Bioinformatics25 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Prokaryotes are asexual, but these organisms frequently engage in homologous recombination, a process that differs from meiotic recombination in sexual organisms. Most tools developed to simulate genome evolution either assume sexual reproduction or the complete absence of DNA flux in the population. As a result, very few simulators are adapted to model prokaryotic genome evolution while accounting for recombination. Moreover, many simulators are based on the coalescent, which assumes a neutral model of genomic evolution, and those are best suited for organisms evolving under weak selective pressures, such as animals and plants. In contrast, prokaryotes are thought to be evolving under much stronger selective pressures, suggesting that forward-in-time simulators are better suited for these organisms. RESULTS: Here, I present CoreSimul, a forward-in-time simulator of core genome evolution for prokaryotes modeling homologous recombination. Simulations are guided by a phylogenetic tree and incorporate different substitution models, including models of codon selection. CONCLUSIONS: CoreSimul is a flexible forward-in-time simulator that constitutes a significant addition to the limited list of available simulators applicable to prokaryote genome evolution.

Topics & Concepts

GenomeHomologous recombinationBiologyGenome evolutionAdaptation (eye)Coalescent theoryEvolutionary biologyMolecular evolutionProkaryoteComputational biologyPhylogenetic treeSelection (genetic algorithm)GeneticsComputer scienceGeneNeuroscienceArtificial intelligenceEvolution and Genetic DynamicsGenomics and Phylogenetic StudiesRNA and protein synthesis mechanisms
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