The evolution of quantitative characters depends on the frequencies of the alleles involved, yet these frequencies cannot usually be measured. Previous groups have proposed an approximation to the dynamics of quantitative traits, based on an analogy with statistical mechanics. We present a modified version of that approach, which makes the analogy more precise and applies quite generally to describe the evolution of allele frequencies. We calculate explicitly how the macroscopic quantities (i.e., quantities that depend on the quantitative trait) depend on evolutionary forces, in a way that is independent of the microscopic details. We first show that the stationary distribution of allele frequencies under drift, selection, and mutation maxi...
abstract: We consider the effects of epistasis in a polygenic trait in the balance of mutation and s...
∗ Authors with equal contributions Molecular phenotypes are important links between genomic informat...
When selection is acting on a large genetically diverse population, beneficial alleles increase in f...
The evolution of quantitative characters depends on the frequencies of the alleles involved, yet the...
By exploiting an analogy between population genetics and statistical mechanics, we study the evoluti...
Selection, mutation, and random drift affect the dynamics of allele frequencies and consequently of ...
Molecular phenotypes link genomic information with organismic functions, fitness, and evo-lution. Qu...
In quantitative genetics, the effects of developmental relationships among traits on microevolution ...
To explain the nature of genetic variability for quantitative traits in infinitely large natural pop...
When polygenic traits are under stabilizing selection, many different combinations of alleles allow ...
We consider an infinitely large population under stabilizing selection and mutation in which the all...
We study the form of polymorphisms that can be maintained by the joint effects of generation overlap...
This work is concerned with the historical progression, to fixation, of an allele in a finite popula...
Using a new and more general genetic model called the discrete-allelic state model and assuming disc...
Evolutionary theory has produced two conflicting paradigms for the adaptation of a polygenic trait. ...
abstract: We consider the effects of epistasis in a polygenic trait in the balance of mutation and s...
∗ Authors with equal contributions Molecular phenotypes are important links between genomic informat...
When selection is acting on a large genetically diverse population, beneficial alleles increase in f...
The evolution of quantitative characters depends on the frequencies of the alleles involved, yet the...
By exploiting an analogy between population genetics and statistical mechanics, we study the evoluti...
Selection, mutation, and random drift affect the dynamics of allele frequencies and consequently of ...
Molecular phenotypes link genomic information with organismic functions, fitness, and evo-lution. Qu...
In quantitative genetics, the effects of developmental relationships among traits on microevolution ...
To explain the nature of genetic variability for quantitative traits in infinitely large natural pop...
When polygenic traits are under stabilizing selection, many different combinations of alleles allow ...
We consider an infinitely large population under stabilizing selection and mutation in which the all...
We study the form of polymorphisms that can be maintained by the joint effects of generation overlap...
This work is concerned with the historical progression, to fixation, of an allele in a finite popula...
Using a new and more general genetic model called the discrete-allelic state model and assuming disc...
Evolutionary theory has produced two conflicting paradigms for the adaptation of a polygenic trait. ...
abstract: We consider the effects of epistasis in a polygenic trait in the balance of mutation and s...
∗ Authors with equal contributions Molecular phenotypes are important links between genomic informat...
When selection is acting on a large genetically diverse population, beneficial alleles increase in f...