Add to ORKGAbstract Gene networks arise due to the interaction of genes through their protein products. Modeling such networks is key to understanding life at the most basic level. One of the emerging challenges to the analysis of genetic networks is that the cellular environment in which these genetic circuits function is abuzz with noise. The main source of this noise is the randomness that characterizes the motion of cellular constituents at the molecular level. Cellular noise not only results in random fluctuations (over time) within individual cells, but it is also a source of phenotypic variability among clonal cellular populations. In some instances fluctuations are suppressed downstream through intricate dynamical networks that act as noise fi...
Stochasticity (that is, randomness) is an inherent property of many biological systems. For example,...
The genetic circuits that regulate cellular functions are subject to stochastic fluctuations, or ‘no...
Cellular decision making is accomplished by complex networks, the structure of which has traditional...
The cellular environment is abuzz with noise. The origin of this noise is attributed to the inherent...
The cellular environment is abuzz with noise originating from the inherent random motion of reacting...
Cells live with fluctuations arising from various sources and occurring at a broad spectrum of scale...
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...
none3noThe stochasticity due to the infrequent collisions among low copy-number molecules within the...
Fluctuations, or "noise", can play a key role in determining the behaviour of living systems. The mo...
The study of genetically identical cells frequently reveals that substantial variation exists betwee...
Motivation: In the noisy cellular environment, stochastic fluctuations at the molecular level manife...
At the single cell level, bacterial gene expression is a highly stochastic process. Protein concentr...
Expression noise is the variability of the amount of gene product among isogenic cells grown in iden...
We aim to investigate the management of the stochastic noise in gene expression and more precisely t...
Stochasticity (that is, randomness) is an inherent property of many biological systems. For example,...
The genetic circuits that regulate cellular functions are subject to stochastic fluctuations, or ‘no...
Cellular decision making is accomplished by complex networks, the structure of which has traditional...
The cellular environment is abuzz with noise. The origin of this noise is attributed to the inherent...
The cellular environment is abuzz with noise originating from the inherent random motion of reacting...
Cells live with fluctuations arising from various sources and occurring at a broad spectrum of scale...
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...
none3noThe stochasticity due to the infrequent collisions among low copy-number molecules within the...
Fluctuations, or "noise", can play a key role in determining the behaviour of living systems. The mo...
The study of genetically identical cells frequently reveals that substantial variation exists betwee...
Motivation: In the noisy cellular environment, stochastic fluctuations at the molecular level manife...
At the single cell level, bacterial gene expression is a highly stochastic process. Protein concentr...
Expression noise is the variability of the amount of gene product among isogenic cells grown in iden...
We aim to investigate the management of the stochastic noise in gene expression and more precisely t...
Stochasticity (that is, randomness) is an inherent property of many biological systems. For example,...
The genetic circuits that regulate cellular functions are subject to stochastic fluctuations, or ‘no...
Cellular decision making is accomplished by complex networks, the structure of which has traditional...