Under the finite-locus model in the absence of mutation, the additive genetic variation is expected to decrease when directional selection is acting on a population, according to quantitative-genetic theory. However, some theoretical studies of selection suggest that the level of additive variance can be sustained or even increased when nonadditive genetic effects are present. We tested the hypothesis that finite-locus models with both additive and nonadditive genetic effects maintain more additive genetic variance (VA) and realize larger medium-to long-term genetic gains than models with only additive effects when the trait under selection is subject to truncation selection. Four genetic models that included additive, dominance, and additi...
The Fisher?s infinitesimal model is traditionally used in quantitative genetics and genomic selectio...
The theory of genetic drift has been well established in random mating populations and applied frequ...
The influence of linkage on the rates of response to continued directional selection of quantitative...
The aim of this work was to investigate the short-term behavior of the genetic variability of quanti...
Much of quantitative genetics is based on the "infinitesimal model", under which selection has a neg...
Much of quantitative genetics is based on the ‘infinitesimal model’, under which selection has a neg...
Background: Genomic selection has revolutionized genetic improvement in animals and plants, but litt...
A model is presented in which alleles at a number of loci combine to influence the value of a quanti...
The role of gene interactions in the evolutionary process has long been controversial. Although some...
The evolution of a quantitative trait subject to stabilizing selection and immigration, with the imm...
Average effects of alleles can show considerable differences between populations. The magnitude of t...
Using a new and more general genetic model called the discrete-allelic state model and assuming disc...
To explain the nature of genetic variability for quantitative traits in infinitely large natural pop...
De novo mutations (DNM) create new genetic variance and are an important driver for long-term select...
De novo mutations (DNM) create new genetic variance and are an important driver for long-term select...
The Fisher?s infinitesimal model is traditionally used in quantitative genetics and genomic selectio...
The theory of genetic drift has been well established in random mating populations and applied frequ...
The influence of linkage on the rates of response to continued directional selection of quantitative...
The aim of this work was to investigate the short-term behavior of the genetic variability of quanti...
Much of quantitative genetics is based on the "infinitesimal model", under which selection has a neg...
Much of quantitative genetics is based on the ‘infinitesimal model’, under which selection has a neg...
Background: Genomic selection has revolutionized genetic improvement in animals and plants, but litt...
A model is presented in which alleles at a number of loci combine to influence the value of a quanti...
The role of gene interactions in the evolutionary process has long been controversial. Although some...
The evolution of a quantitative trait subject to stabilizing selection and immigration, with the imm...
Average effects of alleles can show considerable differences between populations. The magnitude of t...
Using a new and more general genetic model called the discrete-allelic state model and assuming disc...
To explain the nature of genetic variability for quantitative traits in infinitely large natural pop...
De novo mutations (DNM) create new genetic variance and are an important driver for long-term select...
De novo mutations (DNM) create new genetic variance and are an important driver for long-term select...
The Fisher?s infinitesimal model is traditionally used in quantitative genetics and genomic selectio...
The theory of genetic drift has been well established in random mating populations and applied frequ...
The influence of linkage on the rates of response to continued directional selection of quantitative...