Part of molecular and phenotypic differences between individual cells, between body parts, or between individuals can result from biological noise. This source of variation is becoming more and more apparent thanks to the recent advances in dynamic imaging and single-cell analysis. Some of these studies showed that the link between genotype and phenotype is not strictly deterministic. Mutations can change various statistical properties of a biochemical reaction, and thereby the probability of a trait outcome.The fact that they can modulate phenotypic noise brings up an intriguing question: how may selection act on these mutations? In this review, we approach this question by first covering the evidence that biological noise is under genetic...
<div><p>To understand gene function, genetic analysis uses large perturbations such as gene deletion...
During the last decade, the molecular basis for gene expression noise has been mostly deciphered, he...
Gene expression is subject to random perturbations that lead to fluctuations in the rate of protein ...
International audiencePart of molecular and phenotypic differences between individual cells, between...
Origins and consequences of cell-to-cell variability are essential to the understanding of diverse b...
Biochemical reactions within individual cells result from the interactions of molecules, typically i...
The genetic control of common traits is rarely deterministic, with many genes contributing only to t...
The genetic control of common traits is rarely deterministic, with many genes contributing only to t...
Genetic regulatory circuits are often regarded as precise machines that accurately determine the lev...
<div><p>Evolution requires phenotypic variation in a population of organisms for selection to functi...
International audienceBiochemical reactions within individual cells result from the interactions of ...
In bacterial cells, protein expression is a highly stochastic process. Gene expression noise moreove...
Evolution requires phenotypic variation in a population of organisms for selection to function. Gene...
Short Abstract — We demonstrate the relevance of phenotype fluctuations of isogenic organisms to evo...
Genetically identical cells and organisms exhibit remarkable diversity even when they have identical...
<div><p>To understand gene function, genetic analysis uses large perturbations such as gene deletion...
During the last decade, the molecular basis for gene expression noise has been mostly deciphered, he...
Gene expression is subject to random perturbations that lead to fluctuations in the rate of protein ...
International audiencePart of molecular and phenotypic differences between individual cells, between...
Origins and consequences of cell-to-cell variability are essential to the understanding of diverse b...
Biochemical reactions within individual cells result from the interactions of molecules, typically i...
The genetic control of common traits is rarely deterministic, with many genes contributing only to t...
The genetic control of common traits is rarely deterministic, with many genes contributing only to t...
Genetic regulatory circuits are often regarded as precise machines that accurately determine the lev...
<div><p>Evolution requires phenotypic variation in a population of organisms for selection to functi...
International audienceBiochemical reactions within individual cells result from the interactions of ...
In bacterial cells, protein expression is a highly stochastic process. Gene expression noise moreove...
Evolution requires phenotypic variation in a population of organisms for selection to function. Gene...
Short Abstract — We demonstrate the relevance of phenotype fluctuations of isogenic organisms to evo...
Genetically identical cells and organisms exhibit remarkable diversity even when they have identical...
<div><p>To understand gene function, genetic analysis uses large perturbations such as gene deletion...
During the last decade, the molecular basis for gene expression noise has been mostly deciphered, he...
Gene expression is subject to random perturbations that lead to fluctuations in the rate of protein ...