Evolutionary Causes and Consequences of Stress-Induced Hypermutation

doi:https://doi.org/10.6084/m9.figshare.96049.v4

Open AccessArticle10.6084/m9.figshare.96049.v4

Evolutionary Causes and Consequences of Stress-Induced Hypermutation

Yoav Ram,Lilach Hadany-2012-01-01-Figshare

TL;DRAbstract

This presentation was given at the 1st Graduate Students' Conference in Genetics, Genomics and Evolution at the Ben-Gurion University of the Negev, Be'er-Sheva, Israel, September 23, 2012. Abstract: Numerous empirical studies show that stress of various kinds induces a state of hypermutation in bacteria via multiple mechanisms, but theoretical treatment of this intriguing phenomenon is lacking. We used deterministic and stochastic models to study the evolution of stress-induced hypermutation in finite and infinite size populations of bacteria undergoing selection, mutation, recombination, and random genetic drift in constant environments and in changing ones. Our results suggest that stress-induced mutagenesis is advantageous for bacteria at both the individual and the population levels and that it is likely to evolve in natural populations in a wide range of conditions because it is favored by selection. These results imply that mutations are not, as the current view holds, uniformly

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This presentation was given at the 1st Graduate Students' Conference in Genetics, Genomics and Evolution at the Ben-Gurion University of the Negev, Be'er-Sheva, Israel, September 23, 2012. Abstract: Numerous empirical studies show that stress of various kinds induces a state of hypermutation in bacteria via multiple mechanisms, but theoretical treatment of this intriguing phenomenon is lacking. We used deterministic and stochastic models to study the evolution of stress-induced hypermutation in finite and infinite size populations of bacteria undergoing selection, mutation, recombination, and random genetic drift in constant environments and in changing ones. Our results suggest that stress-induced mutagenesis is advantageous for bacteria at both the individual and the population levels and that it is likely to evolve in natural populations in a wide range of conditions because it is favored by selection. These results imply that mutations are not, as the current view holds, uniformly

Keywords

Somatic hypermutationBiologyGeneticsEvolutionary biologyMutation rateMutationNatural selectionGenetic drift

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