During the last decades experimental studies have revealed that single cells of a growing bacterial population are significantly exposed to molecular noise. Important sources for noise are low levels of metabolites and enzymes that cause significant statistical variations in the outcome of biochemical reactions. In this way molecular noise affects biological processes such as nutrient uptake, chemotactic tumbling behavior, or gene expression of genetically identical cells. These processes give rise to significant cell-to-cell variations of many directly observable quantities such as protein levels, cell sizes or individual doubling times. In this study we theoretically explore if there are evolutionary benefits of noise for a growing popula...
Not all cells in a bacterial population exhibit exactly the same phenotype, even though they grow in...
In bacterial cells, gene expression, metabolism, and growth are highly interdependent and tightly co...
In bacterial cells, gene expression, metabolism, and growth are highly interdependent and tightly co...
<div><p>During the last decades experimental studies have revealed that single cells of a growing ba...
At the single cell level, bacterial gene expression is a highly stochastic process. Protein concentr...
In bacterial cells, protein expression is a highly stochastic process. Gene expression noise moreove...
In bacterial cells, protein expression is a highly stochastic process. Gene expression noise moreove...
In bacterial cells, protein expression is a highly stochastic process. Gene expression noise moreove...
In bacterial cells, protein expression is a highly stochastic process. Gene expression noise moreove...
Phenotypic plasticity of microbial cells has attracted much attention and several research efforts h...
Phenotypic plasticity of microbial cells has attracted much attention and several research efforts h...
Genetic regulatory circuits are often regarded as precise machines that accurately determine the lev...
Gene expression is subject to random perturbations that lead to fluctuations in the rate of protein ...
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 ...
Not all cells in a bacterial population exhibit exactly the same phenotype, even though they grow in...
In bacterial cells, gene expression, metabolism, and growth are highly interdependent and tightly co...
In bacterial cells, gene expression, metabolism, and growth are highly interdependent and tightly co...
<div><p>During the last decades experimental studies have revealed that single cells of a growing ba...
At the single cell level, bacterial gene expression is a highly stochastic process. Protein concentr...
In bacterial cells, protein expression is a highly stochastic process. Gene expression noise moreove...
In bacterial cells, protein expression is a highly stochastic process. Gene expression noise moreove...
In bacterial cells, protein expression is a highly stochastic process. Gene expression noise moreove...
In bacterial cells, protein expression is a highly stochastic process. Gene expression noise moreove...
Phenotypic plasticity of microbial cells has attracted much attention and several research efforts h...
Phenotypic plasticity of microbial cells has attracted much attention and several research efforts h...
Genetic regulatory circuits are often regarded as precise machines that accurately determine the lev...
Gene expression is subject to random perturbations that lead to fluctuations in the rate of protein ...
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 ...
Not all cells in a bacterial population exhibit exactly the same phenotype, even though they grow in...
In bacterial cells, gene expression, metabolism, and growth are highly interdependent and tightly co...
In bacterial cells, gene expression, metabolism, and growth are highly interdependent and tightly co...