International audienceStochastic chemical kinetics at the single-cell level give rise to heterogeneous populations of cells even when all individuals are genetically identical. This heterogeneity can lead to nonuniform behaviour within populations, including different growth characteristics, cell-fate dynamics, and response to stimuli. Ultimately, these diverse behaviours lead to intricate population dynamics that are inherently multiscale: the population composition evolves based on population-level processes that interact with stochastically distributed single-cell states. Therefore, descriptions that account for this heterogeneity are essential to accurately model and control chemical processes. However, for real-world systems such model...
The processes taking place inside the living cell are now understood to the point where predictive c...
We propose a modelling framework to analyse the stochastic behaviour of heterogeneous, multi-scale c...
International audienceWe revisit the modeling of the diauxic growth of a pure microorganism on two d...
International audienceStochastic chemical kinetics at the single-cell level give rise to heterogeneo...
Cell-to-cell variability, born of stochastic chemical kinetics, persists even in large isogenic popu...
International audienceStochastic chemical kinetics is a widely used formalism for studying stochasti...
Motivation: Stochastic molecular processes are a leading cause of cell-to-cell variability. Their dy...
Quantitative mechanistic models are valuable tools for disentangling biochemical pathways and for ac...
Quantitative mechanistic models are valuable tools for disentangling biochemical pathways and for ac...
The prevalence of structure in biological populations challenges fundamental assumptions at the hear...
Abstract. For models of cell-to-cell communication, with many reac-tions and species per cell, the c...
Singh, AbhyudaiAt the level of individual living cells, key species such as genes, mRNAs, and protei...
We propose a modelling framework to analyse the stochastic behaviour of heterogeneous, multi-scale c...
The mathematical modeling of the dynamics of cellular processes is a central part of systems biology...
Traditional moment-closure methods need to assume that high-order cumulants of a probability distrib...
The processes taking place inside the living cell are now understood to the point where predictive c...
We propose a modelling framework to analyse the stochastic behaviour of heterogeneous, multi-scale c...
International audienceWe revisit the modeling of the diauxic growth of a pure microorganism on two d...
International audienceStochastic chemical kinetics at the single-cell level give rise to heterogeneo...
Cell-to-cell variability, born of stochastic chemical kinetics, persists even in large isogenic popu...
International audienceStochastic chemical kinetics is a widely used formalism for studying stochasti...
Motivation: Stochastic molecular processes are a leading cause of cell-to-cell variability. Their dy...
Quantitative mechanistic models are valuable tools for disentangling biochemical pathways and for ac...
Quantitative mechanistic models are valuable tools for disentangling biochemical pathways and for ac...
The prevalence of structure in biological populations challenges fundamental assumptions at the hear...
Abstract. For models of cell-to-cell communication, with many reac-tions and species per cell, the c...
Singh, AbhyudaiAt the level of individual living cells, key species such as genes, mRNAs, and protei...
We propose a modelling framework to analyse the stochastic behaviour of heterogeneous, multi-scale c...
The mathematical modeling of the dynamics of cellular processes is a central part of systems biology...
Traditional moment-closure methods need to assume that high-order cumulants of a probability distrib...
The processes taking place inside the living cell are now understood to the point where predictive c...
We propose a modelling framework to analyse the stochastic behaviour of heterogeneous, multi-scale c...
International audienceWe revisit the modeling of the diauxic growth of a pure microorganism on two d...