The relative proportion of additive and non-additive variation for complex traits is important in evolutionary biology, medicine, and agriculture. We address a long-standing controversy and paradox about the contribution of non-additive genetic variation, namely that knowledge about biological pathways and gene networks imply that epistasis is important. Yet empirical data across a range of traits and species imply that most genetic variance is additive. We evaluate the evidence from empirical studies of genetic variance components and find that additive variance typically accounts for over half, and often close to 100%, of the total genetic variance. We present new theoretical results, based upon the distribution of allele frequencies unde...
<p>Under additive (<b>a</b>), dominant (<b>b</b>), or additive by additive (<b>c, d</b>) models, the...
For most complex traits, results from genome-wide association studies show that the proportion of th...
Non-genetic influences on phenotypic traits can affect our interpretation of genetic variance and th...
The relative proportion of additive and non-additive variation for complex traits is important in ev...
The relative importance between additive and non-additive genetic variance has been widely argued in...
<div><p>The relative importance between additive and non-additive genetic variance has been widely a...
Average effects of alleles can show considerable differences between populations. The magnitude of t...
<p>Additive genetic variance in natural populations is commonly estimated using mixed models, in whi...
A grant from the One-University Open Access Fund at the University of Kansas was used to defray the ...
<div><p>The influence of genetic interactions (epistasis) on the genetic variance of quantitative tr...
Populations often contain discrete classes or morphs (e.g., sexual dimorphisms, wing dimorphisms, tr...
We investigated the role of the number of loci coding for a neutral trait on the release of additive...
Non-additive interaction between genetic variants, or epistasis, is a possible explanation for the g...
Non-genetic influences on phenotypic traits can affect our interpretation of genetic variance and th...
Models that examine genetic differences between populations alongside a genotype–phenotype map can p...
<p>Under additive (<b>a</b>), dominant (<b>b</b>), or additive by additive (<b>c, d</b>) models, the...
For most complex traits, results from genome-wide association studies show that the proportion of th...
Non-genetic influences on phenotypic traits can affect our interpretation of genetic variance and th...
The relative proportion of additive and non-additive variation for complex traits is important in ev...
The relative importance between additive and non-additive genetic variance has been widely argued in...
<div><p>The relative importance between additive and non-additive genetic variance has been widely a...
Average effects of alleles can show considerable differences between populations. The magnitude of t...
<p>Additive genetic variance in natural populations is commonly estimated using mixed models, in whi...
A grant from the One-University Open Access Fund at the University of Kansas was used to defray the ...
<div><p>The influence of genetic interactions (epistasis) on the genetic variance of quantitative tr...
Populations often contain discrete classes or morphs (e.g., sexual dimorphisms, wing dimorphisms, tr...
We investigated the role of the number of loci coding for a neutral trait on the release of additive...
Non-additive interaction between genetic variants, or epistasis, is a possible explanation for the g...
Non-genetic influences on phenotypic traits can affect our interpretation of genetic variance and th...
Models that examine genetic differences between populations alongside a genotype–phenotype map can p...
<p>Under additive (<b>a</b>), dominant (<b>b</b>), or additive by additive (<b>c, d</b>) models, the...
For most complex traits, results from genome-wide association studies show that the proportion of th...
Non-genetic influences on phenotypic traits can affect our interpretation of genetic variance and th...