Experiments in model organisms report abundant genetic interactions underlying biologically important traits, whereas quantitative genetics theory predicts, and data support, the notion that most genetic variance in populations is additive. Here we describe networks of capacitating genetic interactions that contribute to quantitative trait variation in a large yeast intercross population. The additive variance explained by individual loci in a network is highly dependent on the allele frequencies of the interacting loci. Modeling of phenotypes for multilocus genotype classes in the epistatic networks is often improved by accounting for the interactions. We discuss the implications of these results for attempts to dissect genetic architectur...
<div><p>Recent research suggests that genetic interactions involving more than two loci may influenc...
Variable individual responses to environmental changes, such as phenotype plasticity, are heritable,...
The availability of cheap genotyping technologies has enabled to collection of very large samples wi...
Genetic mapping studies of quantitative traits typically focus on detecting loci that contribute add...
Genetic interactions identify combinations of genetic variants that impinge on phenotype. With whole...
Genetic interactions help map biological processes and their functional relationships. A genetic int...
A study of genetic variation in yeast has identified key quantitative trait loci (QTLs) that suppres...
Systems-level genetic studies in humans and model systems increasingly involve both high-resolution ...
<div><p>Systems-level genetic studies in humans and model systems increasingly involve both high-res...
Classical quantitative genetics has applied linear modeling to the problem of mapping genotypic to p...
We have generalized the derivation of genetic-interaction networks from quantitative phenotype data....
Cryptic genetic variation could arise from, for example, Gene-by-Gene (G-by-G) or Gene-by-Environmen...
Global quantitative analysis of genetic interactions is a powerful approach for deciphering the role...
We analyse interactions of Quantitative Trait Loci (QTL) in heat selected yeast by comparing them to...
Cryptic genetic variation could arise from, for example, Gene-by-Gene (G-by-G) or Gene-by-Environmen...
<div><p>Recent research suggests that genetic interactions involving more than two loci may influenc...
Variable individual responses to environmental changes, such as phenotype plasticity, are heritable,...
The availability of cheap genotyping technologies has enabled to collection of very large samples wi...
Genetic mapping studies of quantitative traits typically focus on detecting loci that contribute add...
Genetic interactions identify combinations of genetic variants that impinge on phenotype. With whole...
Genetic interactions help map biological processes and their functional relationships. A genetic int...
A study of genetic variation in yeast has identified key quantitative trait loci (QTLs) that suppres...
Systems-level genetic studies in humans and model systems increasingly involve both high-resolution ...
<div><p>Systems-level genetic studies in humans and model systems increasingly involve both high-res...
Classical quantitative genetics has applied linear modeling to the problem of mapping genotypic to p...
We have generalized the derivation of genetic-interaction networks from quantitative phenotype data....
Cryptic genetic variation could arise from, for example, Gene-by-Gene (G-by-G) or Gene-by-Environmen...
Global quantitative analysis of genetic interactions is a powerful approach for deciphering the role...
We analyse interactions of Quantitative Trait Loci (QTL) in heat selected yeast by comparing them to...
Cryptic genetic variation could arise from, for example, Gene-by-Gene (G-by-G) or Gene-by-Environmen...
<div><p>Recent research suggests that genetic interactions involving more than two loci may influenc...
Variable individual responses to environmental changes, such as phenotype plasticity, are heritable,...
The availability of cheap genotyping technologies has enabled to collection of very large samples wi...