The critical mutation rate (CMR) determines the shift between survival-of-the-fittest and survival of individuals with greater mutational robustness (“flattest”). We identify an inverse relationship between CMR and sequence length in an in silico system with a two-peak fitness landscape; CMR decreases to no more than five orders of magnitude above estimates of eukaryotic per base mutation rate. We confirm the CMR reduces exponentially at low population sizes, irrespective of peak radius and distance, and increases with the number of genetic crossovers. We also identify an inverse relationship between CMR and the number of genes, confirming that, for a similar number of genes to that for the plant Arabidopsis thaliana (25,000), the CMR is cl...
The role of mutation rate in optimizing key features of evolutionary dynamics has recently been inve...
International audienceThe most consistent result in more than two decades of experimental evolution ...
The rate of mutation is central to evolution. Mutations are required for adaptation, yet most mutati...
The critical mutation rate (CMR) determines the shift between survival-of-the-fittest and survival o...
Understanding the effect of population size on the key parameters of evolution is particularly impor...
Understanding the effect of population size on the key parameters of evolution is particularly impor...
Populations of individuals exist in a wide range of sizes, from billions of microorganisms to fewer ...
Understanding the effect of population size on the key parameters of evolution is particularly impor...
Mutation introduces change at the sequence level. There is a critical mutation rate above which chan...
Populations of individuals exist in a wide range of sizes, from billions of microorganisms to fewer ...
The dynamics of populations evolving on an adaptive landscape depends on multiple factors, including...
Horizontal gene transfer (HGT) enables segments of DNA to be transferred between individuals in a po...
The dynamics of populations evolving on an adaptive landscape depends on multiple factors, including...
<p>(a) Mutation rates, genome size and fitness of the last common ancestors for the different mutati...
The role of mutation rate in optimizing key features of evolutionary dynamics has recently been inve...
The role of mutation rate in optimizing key features of evolutionary dynamics has recently been inve...
International audienceThe most consistent result in more than two decades of experimental evolution ...
The rate of mutation is central to evolution. Mutations are required for adaptation, yet most mutati...
The critical mutation rate (CMR) determines the shift between survival-of-the-fittest and survival o...
Understanding the effect of population size on the key parameters of evolution is particularly impor...
Understanding the effect of population size on the key parameters of evolution is particularly impor...
Populations of individuals exist in a wide range of sizes, from billions of microorganisms to fewer ...
Understanding the effect of population size on the key parameters of evolution is particularly impor...
Mutation introduces change at the sequence level. There is a critical mutation rate above which chan...
Populations of individuals exist in a wide range of sizes, from billions of microorganisms to fewer ...
The dynamics of populations evolving on an adaptive landscape depends on multiple factors, including...
Horizontal gene transfer (HGT) enables segments of DNA to be transferred between individuals in a po...
The dynamics of populations evolving on an adaptive landscape depends on multiple factors, including...
<p>(a) Mutation rates, genome size and fitness of the last common ancestors for the different mutati...
The role of mutation rate in optimizing key features of evolutionary dynamics has recently been inve...
The role of mutation rate in optimizing key features of evolutionary dynamics has recently been inve...
International audienceThe most consistent result in more than two decades of experimental evolution ...
The rate of mutation is central to evolution. Mutations are required for adaptation, yet most mutati...