Growth impacts a range of phenotypic responses. Identifying the sources of growth variation and their propagation across the cellular machinery can thus unravel mechanisms that underpin cell decisions. We present a stochastic cell model linking gene expression, metabolism and replication to predict growth dynamics in single bacterial cells. Alongside we provide a theory to analyse stochastic chemical reactions coupled with cell divisions, enabling efficient parameter estimation, sensitivity analysis and hypothesis testing. The cell model recovers population-averaged data on growth-dependence of bacterial physiology and how growth variations in single cells change across conditions. We identify processes responsible for this variation and re...
Several approaches have been used in the past to model heterogeneity in bacterial cell populations, ...
In bacterial cells, gene expression, metabolism, and growth are highly interdependent and tightly co...
Metabolic efficiency depends on the balance between supply and demand of metabolites, which is sensi...
International audienceGrowth impacts a range of phenotypic responses. Identifying the sources of gro...
Conventional bacterial growth studies rely on large bacterial populations without considering the in...
Recent time-lapse microscopy experiments on bacterial growth have shown large cell-to-cell variation...
AbstractCell-to-cell variability in the molecular composition of isogenic, steady-state growing cell...
The molecular makeup of the offspring of a dividing cell gradually becomes phenotypically decorrelat...
At the single cell level, bacterial gene expression is a highly stochastic process. Protein concentr...
International audienceIntracellular processes rarely work in isolation but continually interact with...
Cell-to-cell variability in the molecular composition of isogenic, steady-state growing cells arises...
There has been increasing awareness in the wider biological community of the role of clonal phenotyp...
In bacterial cells, protein expression is a highly stochastic process. Gene expression noise moreove...
In bacterial cells, gene expression, metabolism, and growth are highly interdependent and tightly co...
Phenotypic variation is a hallmark of cellular physiology. Metabolic heterogeneity, in particular, u...
Several approaches have been used in the past to model heterogeneity in bacterial cell populations, ...
In bacterial cells, gene expression, metabolism, and growth are highly interdependent and tightly co...
Metabolic efficiency depends on the balance between supply and demand of metabolites, which is sensi...
International audienceGrowth impacts a range of phenotypic responses. Identifying the sources of gro...
Conventional bacterial growth studies rely on large bacterial populations without considering the in...
Recent time-lapse microscopy experiments on bacterial growth have shown large cell-to-cell variation...
AbstractCell-to-cell variability in the molecular composition of isogenic, steady-state growing cell...
The molecular makeup of the offspring of a dividing cell gradually becomes phenotypically decorrelat...
At the single cell level, bacterial gene expression is a highly stochastic process. Protein concentr...
International audienceIntracellular processes rarely work in isolation but continually interact with...
Cell-to-cell variability in the molecular composition of isogenic, steady-state growing cells arises...
There has been increasing awareness in the wider biological community of the role of clonal phenotyp...
In bacterial cells, protein expression is a highly stochastic process. Gene expression noise moreove...
In bacterial cells, gene expression, metabolism, and growth are highly interdependent and tightly co...
Phenotypic variation is a hallmark of cellular physiology. Metabolic heterogeneity, in particular, u...
Several approaches have been used in the past to model heterogeneity in bacterial cell populations, ...
In bacterial cells, gene expression, metabolism, and growth are highly interdependent and tightly co...
Metabolic efficiency depends on the balance between supply and demand of metabolites, which is sensi...