For many traits, including susceptibility to common diseases in humans, causal loci uncovered by genetic mapping studies explain only a minority of the heritable contribution to trait variation. Multiple explanations for this “missing heritability ” have been proposed1. Here we use a large cross between two yeast strains to accurately estimate different sources of heritable variation for 46 quantitative traits and to detect underlying loci with high statistical power. We find that the detected loci explain nearly the entire additive contribution to heritable variation for the traits studied. We also show that the contribution to heritability of gene-gene interactions varies among traits, from near zero to approximately 50%. Detected two-loc...
The measurement of any nonchromosomal genetic contribution to the heritability of a trait is often c...
Rare genetic variants in yeast explain a large amount of phenotypic variation in a complex trait lik...
SummaryQuantitative trait loci (QTLs) underlying multifactorial disorders explain little of the heri...
For many traits, including susceptibility to common diseases in humans, causal loci uncovered by gen...
Genetic mapping studies of quantitative traits typically focus on detecting loci that contribute add...
How variants with different frequencies contribute to trait variation is a central question in genet...
Most heritable traits, including many human diseases, are caused by multiple loci. Studies in both h...
<div><p>Recent research suggests that genetic interactions involving more than two loci may influenc...
Many questions about the genetic basis of complex traits remain unanswered. This is in part due to t...
<div><p>Many questions about the genetic basis of complex traits remain unanswered. This is in part ...
A large fraction of human complex trait heritability is due to a high number of variants with small ...
Mendelian traits are considered to be at the lower end of the complexity spectrum of heritable pheno...
Experiments in model organisms report abundant genetic interactions underlying biologically importan...
SummaryMendelian traits are considered to be at the lower end of the complexity spectrum of heritabl...
A fundamental question in biology is whether variation in organisms primarily emerges as a function ...
The measurement of any nonchromosomal genetic contribution to the heritability of a trait is often c...
Rare genetic variants in yeast explain a large amount of phenotypic variation in a complex trait lik...
SummaryQuantitative trait loci (QTLs) underlying multifactorial disorders explain little of the heri...
For many traits, including susceptibility to common diseases in humans, causal loci uncovered by gen...
Genetic mapping studies of quantitative traits typically focus on detecting loci that contribute add...
How variants with different frequencies contribute to trait variation is a central question in genet...
Most heritable traits, including many human diseases, are caused by multiple loci. Studies in both h...
<div><p>Recent research suggests that genetic interactions involving more than two loci may influenc...
Many questions about the genetic basis of complex traits remain unanswered. This is in part due to t...
<div><p>Many questions about the genetic basis of complex traits remain unanswered. This is in part ...
A large fraction of human complex trait heritability is due to a high number of variants with small ...
Mendelian traits are considered to be at the lower end of the complexity spectrum of heritable pheno...
Experiments in model organisms report abundant genetic interactions underlying biologically importan...
SummaryMendelian traits are considered to be at the lower end of the complexity spectrum of heritabl...
A fundamental question in biology is whether variation in organisms primarily emerges as a function ...
The measurement of any nonchromosomal genetic contribution to the heritability of a trait is often c...
Rare genetic variants in yeast explain a large amount of phenotypic variation in a complex trait lik...
SummaryQuantitative trait loci (QTLs) underlying multifactorial disorders explain little of the heri...