Add to ORKGAuto/paracrine cell-to-cell communications via diffusive messengers can be coupled to a positive feedback loop in which cell stimulation by a messenger results in the production of new messengers. This yields a potential mechanism for relay transmission of the emitted message. This paper investigates the influence of noise on this mutual coupling of the cells with their environment, using numerical simulations of a stochastic minimal model. The results demonstrate that the deterministic (mean-field) approximation of this stochastic process fails short of predicting its behaviour because of the presence of strong noise-induced fluctuations. Instead, the behaviour of the model can be explained by the occurrence of a nonequilibrium phase trans...
Signal transduction by prokaryotes almost exclusively relies on two-component systems for sensing an...
Signal transduction by prokaryotes almost exclusively relies on two-component systems for sensing an...
Quantitative analyses of the dynamics of single cells have become a powerful approach in current cel...
Auto/paracrine cell-to-cell communications via diffusive messengers can be coupled to a positive fee...
Auto/paracrine cell-to-cell communications via diffusive messengers can be coupled to a positive fee...
Auto/paracrine cell-to-cell communications via diffusive messengers can be coupled to a positive fee...
Stochastic fluctuations, or noise, are ubiquitous in biological systems and play an important role i...
Usually, the occurrence of random cell behavior is appointed to small copy numbers of molecules invo...
We study the transition from stochasticity to determinism in calcium oscillations via diffusive cou...
Usually, the occurrence of random cell behavior is appointed to small copy numbers of molecules invo...
International audienceWe study the steady states of a reaction-diffusion medium modelled by a stocha...
Cells live with fluctuations arising from various sources and occurring at a broad spectrum of scale...
The study of genetically identical cells frequently reveals that substantial variation exists betwee...
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...
Signal transduction by prokaryotes almost exclusively relies on two-component systems for sensing an...
Signal transduction by prokaryotes almost exclusively relies on two-component systems for sensing an...
Quantitative analyses of the dynamics of single cells have become a powerful approach in current cel...
Auto/paracrine cell-to-cell communications via diffusive messengers can be coupled to a positive fee...
Auto/paracrine cell-to-cell communications via diffusive messengers can be coupled to a positive fee...
Auto/paracrine cell-to-cell communications via diffusive messengers can be coupled to a positive fee...
Stochastic fluctuations, or noise, are ubiquitous in biological systems and play an important role i...
Usually, the occurrence of random cell behavior is appointed to small copy numbers of molecules invo...
We study the transition from stochasticity to determinism in calcium oscillations via diffusive cou...
Usually, the occurrence of random cell behavior is appointed to small copy numbers of molecules invo...
International audienceWe study the steady states of a reaction-diffusion medium modelled by a stocha...
Cells live with fluctuations arising from various sources and occurring at a broad spectrum of scale...
The study of genetically identical cells frequently reveals that substantial variation exists betwee...
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...
Signal transduction by prokaryotes almost exclusively relies on two-component systems for sensing an...
Signal transduction by prokaryotes almost exclusively relies on two-component systems for sensing an...
Quantitative analyses of the dynamics of single cells have become a powerful approach in current cel...