International audienceVariational modules, sets of pleiotropically covarying traits, affect phenotypic evolution, and therefore are predicted to reflect functional modules, such that traits within a variational module also share a common function. Such an alignment of function and pleiotropy is expected to facilitate adaptation by reducing the deleterious effects of mutations, and by allowing coordinated evolution of functionally related sets of traits. Here, we adopt a high-dimensional quantitative genetic approach using a large number of gene expression traits in Drosophila serrata to test whether functional grouping, defined by gene ontology (GO terms), predicts variational modules. Mutational or standing genetic covariance was significa...
Understanding the evolution of biological systems involves understanding (i) how mutational changes ...
Understanding the origin of the vast phenotypic diversity among organisms is a central goal of evolu...
The distribution of fitness effects (DFE) of new mutations plays a fundamental role in evolutionary ...
Variational modules, sets of pleiotropically covarying traits, affect phenotypic evolution, and ther...
International audienceThe assumption that pleiotropic mutations are more deleterious than mutations ...
The assumption that pleiotropic mutations are more deleterious than mutations with more restricted p...
The nature and extent of mutational pleiotropy remain largely unknown, despite the central role that...
Modularity is a central concept in modern biology, providing a powerful framework for the study of l...
There are essentially an infinite number of traits that could be measured on any organism, and almos...
International audienceThe nature and extent of mutational pleiotropy remain largely unknown, despite...
Pleiotropy is the well-established idea that a single mutation affects multiple phenotypes. If a mut...
Understanding the genetic underpinnings of complex traits requires knowledge of the genetic variants...
SummaryQuantitative traits are shaped by networks of pleiotropic genes [1]. To understand the mechan...
Both pleiotropic connectivity and mutational correlations can restrict the decoupling of traits unde...
Stabilizing selection is important in evolutionary theories of the maintenance of genetic variance, ...
Understanding the evolution of biological systems involves understanding (i) how mutational changes ...
Understanding the origin of the vast phenotypic diversity among organisms is a central goal of evolu...
The distribution of fitness effects (DFE) of new mutations plays a fundamental role in evolutionary ...
Variational modules, sets of pleiotropically covarying traits, affect phenotypic evolution, and ther...
International audienceThe assumption that pleiotropic mutations are more deleterious than mutations ...
The assumption that pleiotropic mutations are more deleterious than mutations with more restricted p...
The nature and extent of mutational pleiotropy remain largely unknown, despite the central role that...
Modularity is a central concept in modern biology, providing a powerful framework for the study of l...
There are essentially an infinite number of traits that could be measured on any organism, and almos...
International audienceThe nature and extent of mutational pleiotropy remain largely unknown, despite...
Pleiotropy is the well-established idea that a single mutation affects multiple phenotypes. If a mut...
Understanding the genetic underpinnings of complex traits requires knowledge of the genetic variants...
SummaryQuantitative traits are shaped by networks of pleiotropic genes [1]. To understand the mechan...
Both pleiotropic connectivity and mutational correlations can restrict the decoupling of traits unde...
Stabilizing selection is important in evolutionary theories of the maintenance of genetic variance, ...
Understanding the evolution of biological systems involves understanding (i) how mutational changes ...
Understanding the origin of the vast phenotypic diversity among organisms is a central goal of evolu...
The distribution of fitness effects (DFE) of new mutations plays a fundamental role in evolutionary ...