Our focus here is on the infinitesimal model. In this model, one or several quantitative traits are described as the sum of a genetic and a non-genetic component, the first being distributed within families as a normal random variable centred at the average of the parental genetic components, and with a variance independent of the parental traits. Thus, the variance that segregates within families is not perturbed by selection, and can be predicted from the variance components. This does not necessarily imply that the trait distribution across the whole population should be Gaussian, and indeed selection or population structure may have a substantial effect on the overall trait distribution. One of our main aims is to identify some general ...
Much of quantitative genetics is based on the ‘infinitesimal model’, under which selection has a neg...
The evolution of a quantitative trait subject to stabilizing selection and immigration, with the imm...
Under the finite-locus model in the absence of mutation, the additive genetic variation is expected ...
International audienceOur focus here is on the infinitesimal model. In this model, one or several qu...
The classical infinitesimal model is a simple and robust model for the inheritance of quantitative t...
Mendel (1866) suggested that if many heritable "factors" contribute to a trait, near-continuous vari...
<div><p>We developed a marker based infinitesimal model for quantitative trait analysis. In contrast...
Much of quantitative genetics is based on the "infinitesimal model", under which selection has a neg...
We developed a marker based infinitesimal model for quantitative trait analysis. In contrast to the ...
We developed a marker based infinitesimal model for quantitative trait analysis. In contrast to the ...
We study the convergence towards a unique equilibrium distribution of the solutions to a time-discre...
Even though both population and quantitative genetics, and evolutionary computation, deal with the s...
Numerous traits under migration-selection balance are shown to exhibit complex patterns of genetic a...
Genetic prediction for complex traits is usually based on models including individual (infinitesimal...
Using a new and more general genetic model called the discrete-allelic state model and assuming disc...
Much of quantitative genetics is based on the ‘infinitesimal model’, under which selection has a neg...
The evolution of a quantitative trait subject to stabilizing selection and immigration, with the imm...
Under the finite-locus model in the absence of mutation, the additive genetic variation is expected ...
International audienceOur focus here is on the infinitesimal model. In this model, one or several qu...
The classical infinitesimal model is a simple and robust model for the inheritance of quantitative t...
Mendel (1866) suggested that if many heritable "factors" contribute to a trait, near-continuous vari...
<div><p>We developed a marker based infinitesimal model for quantitative trait analysis. In contrast...
Much of quantitative genetics is based on the "infinitesimal model", under which selection has a neg...
We developed a marker based infinitesimal model for quantitative trait analysis. In contrast to the ...
We developed a marker based infinitesimal model for quantitative trait analysis. In contrast to the ...
We study the convergence towards a unique equilibrium distribution of the solutions to a time-discre...
Even though both population and quantitative genetics, and evolutionary computation, deal with the s...
Numerous traits under migration-selection balance are shown to exhibit complex patterns of genetic a...
Genetic prediction for complex traits is usually based on models including individual (infinitesimal...
Using a new and more general genetic model called the discrete-allelic state model and assuming disc...
Much of quantitative genetics is based on the ‘infinitesimal model’, under which selection has a neg...
The evolution of a quantitative trait subject to stabilizing selection and immigration, with the imm...
Under the finite-locus model in the absence of mutation, the additive genetic variation is expected ...