Our study addresses two fundamental questions regarding the effect of random mutations on fitness: First, do fitness effects differ between species when controlling for demographic effects? Second, what are the responsible biological factors? We show that amino acid-changing mutations in humans are, on average, more deleterious than mutations in Drosophila. We demonstrate that the only theoretical model that is fully consistent with our results is Fisher’s geometrical model. This result indicates that species complexity, as well as distance of the population to the fitness optimum, modulated by long-term population size, are the key drivers of the fitness effects of new amino acid mutations. Other factors, like protein stability and mutatio...
International audienceAn intriguing fact long defying explanation is the observation of a universal ...
Historically, one of the most controversial aspects of Darwinian evolution has been the prominent ro...
Evolution proceeds as the result of a balance between a few basic processes: mutation, selection, mi...
The distribution of fitness effects (DFE) of new mutations plays a fundamental role in evolutionary ...
The distribution of fitness effects of new mutations is a fundamental parameter in genetics. Here we...
Biological phenomena can be examined at multiple levels of organization. For example, the role of in...
Quantifying and comparing the amount of adaptive evolution among different species is key to underst...
Mutation is the ultimate source of genetic variability. However, a large fraction of mutations reduc...
Evaluating the evolutionary role of mutations depends on an understanding of their major properties,...
The rates and properties of newmutations affecting fitness have implications for a number of outstan...
Fitness effects of mutations fall on a continuum ranging from lethal to deleterious to beneficial. T...
Mutations arise spontaneously in all populations, and can severely diminish fitness. This mutation l...
It is currently unclear whether the amino acid substitutions that occur during protein evolution are...
International audienceGenetic drift is an important evolutionary force of strength inversely proport...
Random mutations in genes from disparate protein classes may have different distributions of fitness...
International audienceAn intriguing fact long defying explanation is the observation of a universal ...
Historically, one of the most controversial aspects of Darwinian evolution has been the prominent ro...
Evolution proceeds as the result of a balance between a few basic processes: mutation, selection, mi...
The distribution of fitness effects (DFE) of new mutations plays a fundamental role in evolutionary ...
The distribution of fitness effects of new mutations is a fundamental parameter in genetics. Here we...
Biological phenomena can be examined at multiple levels of organization. For example, the role of in...
Quantifying and comparing the amount of adaptive evolution among different species is key to underst...
Mutation is the ultimate source of genetic variability. However, a large fraction of mutations reduc...
Evaluating the evolutionary role of mutations depends on an understanding of their major properties,...
The rates and properties of newmutations affecting fitness have implications for a number of outstan...
Fitness effects of mutations fall on a continuum ranging from lethal to deleterious to beneficial. T...
Mutations arise spontaneously in all populations, and can severely diminish fitness. This mutation l...
It is currently unclear whether the amino acid substitutions that occur during protein evolution are...
International audienceGenetic drift is an important evolutionary force of strength inversely proport...
Random mutations in genes from disparate protein classes may have different distributions of fitness...
International audienceAn intriguing fact long defying explanation is the observation of a universal ...
Historically, one of the most controversial aspects of Darwinian evolution has been the prominent ro...
Evolution proceeds as the result of a balance between a few basic processes: mutation, selection, mi...