Molecular interactions provide paths for information flows. Genetic interactions reveal active information flows and reflect their functional consequences. We integrated these complementary data types to model the transcription network controlling cell differentiation in yeast. Genetic interactions were inferred from linear decomposition of gene expression data and were used to direct the construction of a molecular interaction network mediating these genetic effects. This network included both known and novel regulatory influences, and predicted genetic interactions. For corresponding combinations of mutations, the network model predicted quantitative gene expression profiles and precise phenotypic effects. Multiple predictions w...
The study of systems genetics is changing the way the genetic and molecular basis of phenotypic vari...
We describe the use of model-driven analysis of multiple data types relevant to transcriptional regu...
Systems-level genetic studies in humans and model systems increasingly involve both high-resolution ...
<div><p>Genetic interactions help map biological processes and their functional relationships. A gen...
A major goal of biology is the construction of networks that predict complex system behavior. We com...
We have generalized the derivation of genetic-interaction networks from quantitative phenotype data....
A central challenge in genetics is to understand when and why mutations alter the phenotype of an or...
The genome project increased appreciation of genetic complexity underlying disease phenotypes: many ...
Although experimental and theoretical efforts have been applied to globally map genetic interactions...
A central challenge in genetics is to understand when and why mutations alter the phenotype of an or...
INTRODUCTION: Genetic interactions occur when mutations in two or more genes combine to generate an ...
The study of genetic interactions is a powerful tool in inferring structure and function of biologic...
The continuing growth in high-throughput data acquisition has led to a proliferation of network mode...
Life within an organism is sustained by biomolecular interactions. Mapping networks of interactions ...
Characterizing genetic interactions is crucial to understanding cellular and organismal response to ...
The study of systems genetics is changing the way the genetic and molecular basis of phenotypic vari...
We describe the use of model-driven analysis of multiple data types relevant to transcriptional regu...
Systems-level genetic studies in humans and model systems increasingly involve both high-resolution ...
<div><p>Genetic interactions help map biological processes and their functional relationships. A gen...
A major goal of biology is the construction of networks that predict complex system behavior. We com...
We have generalized the derivation of genetic-interaction networks from quantitative phenotype data....
A central challenge in genetics is to understand when and why mutations alter the phenotype of an or...
The genome project increased appreciation of genetic complexity underlying disease phenotypes: many ...
Although experimental and theoretical efforts have been applied to globally map genetic interactions...
A central challenge in genetics is to understand when and why mutations alter the phenotype of an or...
INTRODUCTION: Genetic interactions occur when mutations in two or more genes combine to generate an ...
The study of genetic interactions is a powerful tool in inferring structure and function of biologic...
The continuing growth in high-throughput data acquisition has led to a proliferation of network mode...
Life within an organism is sustained by biomolecular interactions. Mapping networks of interactions ...
Characterizing genetic interactions is crucial to understanding cellular and organismal response to ...
The study of systems genetics is changing the way the genetic and molecular basis of phenotypic vari...
We describe the use of model-driven analysis of multiple data types relevant to transcriptional regu...
Systems-level genetic studies in humans and model systems increasingly involve both high-resolution ...