The role of mutation rate in optimizing key features of evolutionary dynamics has recently been investigated in various computational models. Here, we address the related question of how maximum mutation size affects the formation of species in a simple computational evolutionary model. We find that the number of species is maximized for intermediate values of a mutation size parameter mu; the result is observed for evolving organisms on a randomly changing landscape as well as in a version of the model where negative feedback exists between the local population size and the fitness provided by the landscape. The same result is observed for various distributions of mutation values within the limits set by mu. When organisms with various val...
The dynamics of populations evolving on an adaptive landscape depends on multiple factors, including...
The most consistent result in more than two decades of experimental evolution is that the fitness of...
Natural selection is commonly assumed to act on extensive standing genetic variation. Yet, accumulat...
The role of mutation rate in optimizing key features of evolutionary dynamics has recently been inve...
Populations of individuals exist in a wide range of sizes, from billions of microorganisms to fewer ...
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...
The rate of mutation is central to evolution. Mutations are required for adaptation, yet most mutati...
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...
Understanding the effect of population size on the key parameters of evolution is particularly impor...
We examine a simple form of the evolution of evolvability---the evolution of mutation rates---in a ...
Abstract Background In any natural population, mutation is the primary source of genetic variation r...
Evolution proceeds as the result of a balance between a few basic processes: mutation, selection, mi...
At what rate, in bits per generation, can the blind watchmaker cram information into a species by na...
The dynamics of populations evolving on an adaptive landscape depends on multiple factors, including...
The most consistent result in more than two decades of experimental evolution is that the fitness of...
Natural selection is commonly assumed to act on extensive standing genetic variation. Yet, accumulat...
The role of mutation rate in optimizing key features of evolutionary dynamics has recently been inve...
Populations of individuals exist in a wide range of sizes, from billions of microorganisms to fewer ...
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...
The rate of mutation is central to evolution. Mutations are required for adaptation, yet most mutati...
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...
Understanding the effect of population size on the key parameters of evolution is particularly impor...
We examine a simple form of the evolution of evolvability---the evolution of mutation rates---in a ...
Abstract Background In any natural population, mutation is the primary source of genetic variation r...
Evolution proceeds as the result of a balance between a few basic processes: mutation, selection, mi...
At what rate, in bits per generation, can the blind watchmaker cram information into a species by na...
The dynamics of populations evolving on an adaptive landscape depends on multiple factors, including...
The most consistent result in more than two decades of experimental evolution is that the fitness of...
Natural selection is commonly assumed to act on extensive standing genetic variation. Yet, accumulat...