Effects of new mutations on fitness: insights from models and data

The rates and properties of new mutations affecting fitness have implications for a number of outstanding questions in evolutionary biology. Obtaining estimates of mutation rates and effects has historically been challenging, and little theory has been available for predicting the distribution of fi...

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Bibliographic Details
Published in:Annals of the New York Academy of Sciences 2014-07, Vol.1320 (1), p.76-92
Main Authors: Bataillon, Thomas, Bailey, Susan F.
Format: Article
Language:English
Subjects:
Adaptation, Biological - genetics
Animals
Biology
Directed Molecular Evolution
distribution of fitness effects
Evolutionary
experimental evolution
Fitness
Genetic Fitness - genetics
Heterogeneity
Humans
Landscapes
Mathematical models
Models, Genetic
Mutagenesis
Mutation
mutational landscape models
Mutations
Polymorphism
population genomics
Selection, Genetic
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Summary:The rates and properties of new mutations affecting fitness have implications for a number of outstanding questions in evolutionary biology. Obtaining estimates of mutation rates and effects has historically been challenging, and little theory has been available for predicting the distribution of fitness effects (DFE); however, there have been recent advances on both fronts. Extreme‐value theory predicts the DFE of beneficial mutations in well‐adapted populations, while phenotypic fitness landscape models make predictions for the DFE of all mutations as a function of the initial level of adaptation and the strength of stabilizing selection on traits underlying fitness. Direct experimental evidence confirms predictions on the DFE of beneficial mutations and favors distributions that are roughly exponential but bounded on the right. A growing number of studies infer the DFE using genomic patterns of polymorphism and divergence, recovering a wide range of DFE. Future work should be aimed at identifying factors driving the observed variation in the DFE. We emphasize the need for further theory explicitly incorporating the effects of partial pleiotropy and heterogeneity in the environment on the expected DFE.
ISSN:0077-8923
1749-6632
DOI:10.1111/nyas.12460