In the classic view introduced by R. A. Fisher, a quantitative trait is encoded by many loci with small, additive effects. Recent advances in quantitative trait loci mapping have begun to elucidate the genetic architectures underlying vast numbers of phenotypes across diverse taxa, producing observations that sometimes contrast with Fisher's blueprint. Despite these considerable empirical efforts to map the genetic determinants of traits, it remains poorly understood how the genetic architecture of a trait should evolve, or how it depends on the selection pressures on the trait. Here, we develop a simple, population-genetic model for the evolution of genetic architectures. Our model predicts that traits under moderate selection should be en...
AbstractIdentifying genes that influence phenotypic variation within species has proven to be more d...
Natural selection shapes the genetic architecture of many human traits. However, the prevalence of d...
A central challenge in evolutionary biology is to identify genes underlying ecologically important t...
Most characters of economic importance in plants and animals and complex diseases in humans exhibit ...
Most phenotypic traits are controlled by many genes, but a global picture of the genotype–phenotype ...
Human genome-wide association studies (GWASs) are revealing the genetic architecture of anthropomorp...
Background The genetic architecture of a quantitative trait influences the phenotypi...
Most characters of economic importance in plants and animals, and complex diseases in humans, exhibi...
Schielzeth H, Husby A. Challenges and prospects in genome-wide quantitative trait loci mapping of st...
<div> <div> <div> <p>Understanding the genetic basis of phenotypic adaptation to changing environmen...
<div><p>Human genome-wide association studies (GWASs) are revealing the genetic architecture of anth...
We compare and contrast the genetic architecture of quantitative phenotypes in two genetically well-...
I report on three studies where I identify signatures of natural selection in humans, and dissect th...
Not AvailableMost characters of economic importance in plants and animals, and complex diseases in h...
It has become commonplace to map individual quantitative trait loci (QTL) in experimental organisms;...
AbstractIdentifying genes that influence phenotypic variation within species has proven to be more d...
Natural selection shapes the genetic architecture of many human traits. However, the prevalence of d...
A central challenge in evolutionary biology is to identify genes underlying ecologically important t...
Most characters of economic importance in plants and animals and complex diseases in humans exhibit ...
Most phenotypic traits are controlled by many genes, but a global picture of the genotype–phenotype ...
Human genome-wide association studies (GWASs) are revealing the genetic architecture of anthropomorp...
Background The genetic architecture of a quantitative trait influences the phenotypi...
Most characters of economic importance in plants and animals, and complex diseases in humans, exhibi...
Schielzeth H, Husby A. Challenges and prospects in genome-wide quantitative trait loci mapping of st...
<div> <div> <div> <p>Understanding the genetic basis of phenotypic adaptation to changing environmen...
<div><p>Human genome-wide association studies (GWASs) are revealing the genetic architecture of anth...
We compare and contrast the genetic architecture of quantitative phenotypes in two genetically well-...
I report on three studies where I identify signatures of natural selection in humans, and dissect th...
Not AvailableMost characters of economic importance in plants and animals, and complex diseases in h...
It has become commonplace to map individual quantitative trait loci (QTL) in experimental organisms;...
AbstractIdentifying genes that influence phenotypic variation within species has proven to be more d...
Natural selection shapes the genetic architecture of many human traits. However, the prevalence of d...
A central challenge in evolutionary biology is to identify genes underlying ecologically important t...