The concept of robustness in biology has gained much attention recently, but a mechanistic understanding of how genetic networks regulate phenotypic variation has remained elusive. One approach to understand the genetic architecture of variability has been to analyze dispensable gene deletions in model organisms; however, the most important genes cannot be deleted. Here, we have utilized two systems in yeast whereby essential genes have been altered to reduce expression. Using high‐throughput microscopy and image analysis, we have characterized a large number of morphological phenotypes, and their associated variation, for the majority of essential genes in yeast. Our results indicate that phenotypic robustness is more highly dependent upon...
Abstract Background The size of the phenotypic effect of a gene has been thoroughly investigated in ...
SummaryAntagonistic pleiotropy (AP), or genetic tradeoff, is an important concept that is frequently...
The transcriptional responses of yeast cells to a wide variety of stress conditions have been studie...
The concept of robustness in biology has gained much attention recently, but a mechanistic understan...
Most phenotypic traits are controlled by many genes, but a global picture of the genotype–phenotype ...
Gene inactivation often has little or no apparent consequence for the phenotype of an organism. This...
Abstract The consequence of a mutation can be influenced by the context in which it operates. For ex...
Gene inactivation often has little or no apparent consequence for the phenotype of an organism. This...
One of the main and naturally appealing tasks of systems biology is system’s dissection and identifi...
Loss of gene function is common throughout evolution, even though it often leads to reduced fitness....
Our ability to understand the genotype-to-phenotype relationship is hindered by the lack of detailed...
Genetic pleiotropy, the ability of a mutation ina single gene to give rise to multiple phenotypic ou...
Quantitative traits are influenced by pathways that have traditionally been defined through genes th...
In all biological systems, phenotypes are quantitative measures of an organism’s traits. To understa...
The consequence of a mutation can be influenced by the context in which it operates. For example, lo...
Abstract Background The size of the phenotypic effect of a gene has been thoroughly investigated in ...
SummaryAntagonistic pleiotropy (AP), or genetic tradeoff, is an important concept that is frequently...
The transcriptional responses of yeast cells to a wide variety of stress conditions have been studie...
The concept of robustness in biology has gained much attention recently, but a mechanistic understan...
Most phenotypic traits are controlled by many genes, but a global picture of the genotype–phenotype ...
Gene inactivation often has little or no apparent consequence for the phenotype of an organism. This...
Abstract The consequence of a mutation can be influenced by the context in which it operates. For ex...
Gene inactivation often has little or no apparent consequence for the phenotype of an organism. This...
One of the main and naturally appealing tasks of systems biology is system’s dissection and identifi...
Loss of gene function is common throughout evolution, even though it often leads to reduced fitness....
Our ability to understand the genotype-to-phenotype relationship is hindered by the lack of detailed...
Genetic pleiotropy, the ability of a mutation ina single gene to give rise to multiple phenotypic ou...
Quantitative traits are influenced by pathways that have traditionally been defined through genes th...
In all biological systems, phenotypes are quantitative measures of an organism’s traits. To understa...
The consequence of a mutation can be influenced by the context in which it operates. For example, lo...
Abstract Background The size of the phenotypic effect of a gene has been thoroughly investigated in ...
SummaryAntagonistic pleiotropy (AP), or genetic tradeoff, is an important concept that is frequently...
The transcriptional responses of yeast cells to a wide variety of stress conditions have been studie...