Phenotypic traits do not always respond to selection independently from each other and often show correlated responses to selection. The structure of a genotype-phenotype map (GP map) determines trait covariation, which involves variation in the degree and strength of the pleiotropic effects of the underlying genes. It is still unclear, and debated, how much of that structure can be deduced from variational properties of quantitative traits that are inferred from their genetic (co)variance matrix (G-matrix). Here we aim to clarify how the extent of pleiotropy and the correlation among the pleiotropic effects of mutations differentially affect the structure of a G-matrix and our ability to detect genetic constraints from its eigen decomposit...
Theory predicts that correlational selection on two traits will cause the major axis of the bivariat...
Theoretical quantitative genetics provides a framework for reconstructing past selection and predict...
Genetic correlations are the most commonly studied of all potential constraints on adaptive evolutio...
Phenotypic traits do not always respond to selection independently from each other and often show co...
Phenotypic traits do not always respond to selection independently from each other and often show co...
The G matrix is a statistical summary of the genetic basis of a set of traits and a central pillar o...
The independent evolution of different quantitative traits is often thought to require a modular str...
Mutational neighbourhoods in genotype-phenotype (GP) maps are widely believed to be more likely to s...
The genetic variance-covariance matrix (G) has long been considered to summarize the genetic constra...
Both pleiotropic connectivity and mutational correlations can restrict the decoupling of traits unde...
Mutational neighbourhoods in genotype-phenotype (GP) maps are widely believed to be more likely to s...
This is the peer reviewed version of the following article: Kelly, J. K. (2009), CONNECTING QTLS TO ...
Genetic correlations between traits may cause correlated responses to selection. Previous models des...
This is the repository of the data associated with the following manuscript: Pleiotropy or linkage?...
Evolutionary constraint due to pleiotropy refers to a situation in which mutations in genes shared a...
Theory predicts that correlational selection on two traits will cause the major axis of the bivariat...
Theoretical quantitative genetics provides a framework for reconstructing past selection and predict...
Genetic correlations are the most commonly studied of all potential constraints on adaptive evolutio...
Phenotypic traits do not always respond to selection independently from each other and often show co...
Phenotypic traits do not always respond to selection independently from each other and often show co...
The G matrix is a statistical summary of the genetic basis of a set of traits and a central pillar o...
The independent evolution of different quantitative traits is often thought to require a modular str...
Mutational neighbourhoods in genotype-phenotype (GP) maps are widely believed to be more likely to s...
The genetic variance-covariance matrix (G) has long been considered to summarize the genetic constra...
Both pleiotropic connectivity and mutational correlations can restrict the decoupling of traits unde...
Mutational neighbourhoods in genotype-phenotype (GP) maps are widely believed to be more likely to s...
This is the peer reviewed version of the following article: Kelly, J. K. (2009), CONNECTING QTLS TO ...
Genetic correlations between traits may cause correlated responses to selection. Previous models des...
This is the repository of the data associated with the following manuscript: Pleiotropy or linkage?...
Evolutionary constraint due to pleiotropy refers to a situation in which mutations in genes shared a...
Theory predicts that correlational selection on two traits will cause the major axis of the bivariat...
Theoretical quantitative genetics provides a framework for reconstructing past selection and predict...
Genetic correlations are the most commonly studied of all potential constraints on adaptive evolutio...