Additive genetic variance (VA) and total genetic variance (VG) are core concepts in biomedical, evolutionary and production-biology genetics. What determines the large variation in reported VA/VG ratios from line-cross experiments is not well understood. Here we report how the VA/VG ratio, and thus the ratio between narrow and broad sense heritability (h2/H2), varies as a function of the regulatory architecture underlying genotype-to-phenotype (GP) maps. We studied five dynamic models (of the cAMP pathway, the glycolysis, the circadian rhythms, the cell cycle, and heart cell dynamics). We assumed genetic variation to be reflected in model parameters and extracted phenotypes summarizing the system dynamics. Even when imposing purely linear g...
It was recently shown that monotone gene action, i.e., order-preservation between allele content and...
We study genetic variation in phenotypic plasticity maintained by a balance between mutation and wea...
One of the goals of biology is to bridge levels of organization. Recent technological advances are e...
<div><p>Additive genetic variance (<i>V<sub>A</sub></i>) and total genetic variance (<i>V<sub>G</sub...
Polymorphisms identified in genome-wide association studies of human traits rarely explain more than...
Background The variance explained by genetic variants as identified in (genome-wide) genetic associa...
The variance explained by genetic variants as identified in (genome-wide) genetic association studie...
BACKGROUND: The variance explained by genetic variants as identified in (genome-wide) genetic associ...
Background: Genetic variation explains a considerable part of observed phenotypic variation in gene ...
Systems biology is accumulating a wealth of understanding about the structure of genetic regulatory ...
2018-10-15Understanding how standing genetic variants contribute to heritable phenotypic variation i...
context of segregating variation allows the discovery of subtle effects obscured in strains with eng...
According to classical evolutionary theory, phenotypic variation originates from random mutations th...
One of the goals of biology is to bridge levels of organization. Recent technological advances are e...
There is evidence in different species of genetic control of environmental variation, independent of...
It was recently shown that monotone gene action, i.e., order-preservation between allele content and...
We study genetic variation in phenotypic plasticity maintained by a balance between mutation and wea...
One of the goals of biology is to bridge levels of organization. Recent technological advances are e...
<div><p>Additive genetic variance (<i>V<sub>A</sub></i>) and total genetic variance (<i>V<sub>G</sub...
Polymorphisms identified in genome-wide association studies of human traits rarely explain more than...
Background The variance explained by genetic variants as identified in (genome-wide) genetic associa...
The variance explained by genetic variants as identified in (genome-wide) genetic association studie...
BACKGROUND: The variance explained by genetic variants as identified in (genome-wide) genetic associ...
Background: Genetic variation explains a considerable part of observed phenotypic variation in gene ...
Systems biology is accumulating a wealth of understanding about the structure of genetic regulatory ...
2018-10-15Understanding how standing genetic variants contribute to heritable phenotypic variation i...
context of segregating variation allows the discovery of subtle effects obscured in strains with eng...
According to classical evolutionary theory, phenotypic variation originates from random mutations th...
One of the goals of biology is to bridge levels of organization. Recent technological advances are e...
There is evidence in different species of genetic control of environmental variation, independent of...
It was recently shown that monotone gene action, i.e., order-preservation between allele content and...
We study genetic variation in phenotypic plasticity maintained by a balance between mutation and wea...
One of the goals of biology is to bridge levels of organization. Recent technological advances are e...