We revisit the classical population genetics model of a population evolving under multiplicative selection, mutation, and drift. The number of beneficial alleles in a multilocus system can be considered a trait under exponential selection. Equations of motion are derived for the cumulants of the trait distribution in the diffusion limit and under the assumption of linkage equilibrium. Because of the additive nature of cumulants, this reduces to the problem of determining equations of motion for the expected allele distribution cumulants at each locus. The cumulant equations form an infinite dimensional linear system and in an authored appendix Adam Prügel-Bennett provides a closed form expression for these equations. We derive approximate ...
In this paper, we extend a previously published model of an evolving finite population of multi-loci...
Adaptive dynamics so far has been put on a rigorous footing only for clonal inheritance. We extend t...
By using the diffusion equation method, the level of genetic variability maintained under mutation p...
International audiencePopulation structure affects the relative influence of selection and drift on ...
Natural populations are of finite size and organisms carry multilocus genotypes. There are, neverthe...
In this paper we study a large, but finite population, in which mutation and selection occur at a si...
AbstractThe semilinear parabolic system that describes the evolution of the gene frequencies in the ...
By exploiting an analogy between population genetics and statistical mechanics, we study the evoluti...
This article provides an overview of the mathematical properties of various deterministic mutation-s...
ABSTRACT The evolution of quantitative characters depends on the frequencies of the alleles involved...
The biological theory of adaptive dynamics proposes a description of the long-term evolution of a st...
The forward diffusion equation for gene frequency dynamics is solved subject to the condition that t...
To understand the effect of assortative mating on the genetic evolution of a population, we consider...
AbstractWe analyze a degenerate diffusion equation with singular boundary data, modeling the evoluti...
To explain the nature of genetic variability for quantitative traits in infinitely large natural pop...
In this paper, we extend a previously published model of an evolving finite population of multi-loci...
Adaptive dynamics so far has been put on a rigorous footing only for clonal inheritance. We extend t...
By using the diffusion equation method, the level of genetic variability maintained under mutation p...
International audiencePopulation structure affects the relative influence of selection and drift on ...
Natural populations are of finite size and organisms carry multilocus genotypes. There are, neverthe...
In this paper we study a large, but finite population, in which mutation and selection occur at a si...
AbstractThe semilinear parabolic system that describes the evolution of the gene frequencies in the ...
By exploiting an analogy between population genetics and statistical mechanics, we study the evoluti...
This article provides an overview of the mathematical properties of various deterministic mutation-s...
ABSTRACT The evolution of quantitative characters depends on the frequencies of the alleles involved...
The biological theory of adaptive dynamics proposes a description of the long-term evolution of a st...
The forward diffusion equation for gene frequency dynamics is solved subject to the condition that t...
To understand the effect of assortative mating on the genetic evolution of a population, we consider...
AbstractWe analyze a degenerate diffusion equation with singular boundary data, modeling the evoluti...
To explain the nature of genetic variability for quantitative traits in infinitely large natural pop...
In this paper, we extend a previously published model of an evolving finite population of multi-loci...
Adaptive dynamics so far has been put on a rigorous footing only for clonal inheritance. We extend t...
By using the diffusion equation method, the level of genetic variability maintained under mutation p...