none3noThe stochasticity due to the infrequent collisions among low copy-number molecules within the crowded cellular compartment is a feature of living systems. Single cell variability in gene expression within an isogenic population (i.e., biological noise) is usually described as the sum of two independent components: intrinsic and extrinsic stochasticity. Intrinsic stochasticity arises from the random occurrence of events inherent to the gene expression process (e.g., the burst-like synthesis of mRNA and protein molecules). Extrinsic fluctuations reflect the state of the biological system and its interaction with the intra and extracellular environments (e.g., concentration of available polymerases, ribosomes, metabolites, and micro-env...
Cells live with fluctuations arising from various sources and occurring at a broad spectrum of scale...
The gene expression in a clonal cell population fluctuates significantly, and its relevance to vario...
Not all cells in a bacterial population exhibit exactly the same phenotype, even though they grow in...
The stochasticity due to the infrequent collisions among low copy-number molecules within the crowde...
Abstract Gene networks arise due to the interaction of genes through their protein products. Modelin...
At the single cell level, bacterial gene expression is a highly stochastic process. Protein concentr...
Genetic regulatory circuits are often regarded as precise machines that accurately determine the lev...
Not all cells in a bacterial population exhibit exactly the same phenotype, even though they grow in...
Living organisms have evolved to survive in a multitude of environmental conditions. This plasticity...
The study of genetically identical cells frequently reveals that substantial variation exists betwee...
Biochemical reactions are intrinsically stochastic, leading to variation in the production of mRNAs ...
The genetic circuits that regulate cellular functions are subject to stochastic fluctuations, or ‘no...
Quantitative analyses of the dynamics of single cells have become a powerful approach in current cel...
Fluctuations, or "noise", can play a key role in determining the behaviour of living systems. The mo...
Quantitative analyses of the dynamics of single cells have become a powerful approach in current cel...
Cells live with fluctuations arising from various sources and occurring at a broad spectrum of scale...
The gene expression in a clonal cell population fluctuates significantly, and its relevance to vario...
Not all cells in a bacterial population exhibit exactly the same phenotype, even though they grow in...
The stochasticity due to the infrequent collisions among low copy-number molecules within the crowde...
Abstract Gene networks arise due to the interaction of genes through their protein products. Modelin...
At the single cell level, bacterial gene expression is a highly stochastic process. Protein concentr...
Genetic regulatory circuits are often regarded as precise machines that accurately determine the lev...
Not all cells in a bacterial population exhibit exactly the same phenotype, even though they grow in...
Living organisms have evolved to survive in a multitude of environmental conditions. This plasticity...
The study of genetically identical cells frequently reveals that substantial variation exists betwee...
Biochemical reactions are intrinsically stochastic, leading to variation in the production of mRNAs ...
The genetic circuits that regulate cellular functions are subject to stochastic fluctuations, or ‘no...
Quantitative analyses of the dynamics of single cells have become a powerful approach in current cel...
Fluctuations, or "noise", can play a key role in determining the behaviour of living systems. The mo...
Quantitative analyses of the dynamics of single cells have become a powerful approach in current cel...
Cells live with fluctuations arising from various sources and occurring at a broad spectrum of scale...
The gene expression in a clonal cell population fluctuates significantly, and its relevance to vario...
Not all cells in a bacterial population exhibit exactly the same phenotype, even though they grow in...