Cell-to-cell heterogeneity is driven by stochasticity in intracellular reactions and the population dynamics. While these sources are usually studied separately, we develop an agent-based framework that accounts for both factors while tracking every single cell of a growing population. Apart from the common intrinsic variability, the framework also predicts extrinsic noise without the need to introduce fluctuating rate constants. Instead, extrinsic fluctuations are explained by cell cycle fluctuations and differences in cell age. We provide explicit formulas to quantify mean molecule numbers, intrinsic and extrinsic noise statistics in two-colour experiments. We find that these statistics differ significantly depending on the experimental s...
Quantitative analyses of the dynamics of single cells have become a powerful approach in current cel...
Quantitative analyses of the dynamics of single cells have become a powerful approach in current cel...
AbstractCell-to-cell variability in the molecular composition of isogenic, steady-state growing cell...
The study of genetically identical cells frequently reveals that substantial variation exists betwee...
Population growth is often ignored when quantifying gene expression levels across clonal cell popula...
<div><p>Genetically identical cell populations exhibit considerable intercellular variation in the l...
Single-cell recordings of transcriptional and post-transcriptional processes reveal the inherent sto...
Genetically identical cell populations exhibit considerable intercellular variation in the level of ...
The chemical master equation and the Gillespie algorithm are widely used to model the reaction kinet...
Phenotypic differences often occur even in clonal cell popu- lations. Many potential sources of such...
AbstractA general dynamic description of protein synthesis was employed to quantify different source...
Single-cell expression profiling opens up new vistas on cellular processes. Extensive cell-to-cell v...
Gene expression is a stochastic, or "noisy," process. This noise comes about in two ways. The inhere...
Stochasticity is both exploited and controlled by cells. Although the intrinsic stochasticity inhere...
Background Gene expression is known to be an intrinsically stochastic process which can involve sing...
Quantitative analyses of the dynamics of single cells have become a powerful approach in current cel...
Quantitative analyses of the dynamics of single cells have become a powerful approach in current cel...
AbstractCell-to-cell variability in the molecular composition of isogenic, steady-state growing cell...
The study of genetically identical cells frequently reveals that substantial variation exists betwee...
Population growth is often ignored when quantifying gene expression levels across clonal cell popula...
<div><p>Genetically identical cell populations exhibit considerable intercellular variation in the l...
Single-cell recordings of transcriptional and post-transcriptional processes reveal the inherent sto...
Genetically identical cell populations exhibit considerable intercellular variation in the level of ...
The chemical master equation and the Gillespie algorithm are widely used to model the reaction kinet...
Phenotypic differences often occur even in clonal cell popu- lations. Many potential sources of such...
AbstractA general dynamic description of protein synthesis was employed to quantify different source...
Single-cell expression profiling opens up new vistas on cellular processes. Extensive cell-to-cell v...
Gene expression is a stochastic, or "noisy," process. This noise comes about in two ways. The inhere...
Stochasticity is both exploited and controlled by cells. Although the intrinsic stochasticity inhere...
Background Gene expression is known to be an intrinsically stochastic process which can involve sing...
Quantitative analyses of the dynamics of single cells have become a powerful approach in current cel...
Quantitative analyses of the dynamics of single cells have become a powerful approach in current cel...
AbstractCell-to-cell variability in the molecular composition of isogenic, steady-state growing cell...