Genetic regulatory circuits are often regarded as precise machines that accurately determine the level of expression of each protein. Most experimental technologies used to measure gene expression levels are incapable of testing and challenging this notion, as they often measure levels averaged over entire populations of cells. Yet, when expression levels are measured at the single cell level of even genetically identical cells, substantial cell-to-cell variation (or “noise”) may be observed. Sometimes different genes in a given genome may display different levels of noise; even the same gene, expressed under different environmental conditions, may display greater cell-to-cell variability in specific conditions and more tight control in oth...
Gene expression is subject to stochastic variation which leads to fluctuations in the rate of protei...
Gene expression is subject to stochastic variation which leads to fluctuations in the rate of protei...
Not all cells in a bacterial population exhibit exactly the same phenotype, even though they grow in...
Fluctuations, or "noise", can play a key role in determining the behaviour of living systems. The mo...
Not all cells in a bacterial population exhibit exactly the same phenotype, even though they grow in...
During the last decade, the molecular basis for gene expression noise has been mostly deciphered, he...
Phenotypic variation is ubiquitous in biology and is often traceable to underlying genetic and envir...
Origins and consequences of cell-to-cell variability are essential to the understanding of diverse b...
Biological systems are remarkably precise in a lot of different ways. Not only do organisms have the...
none8noThe small number of molecules, unevenly distributed within an isogenic cell population, makes...
The stochasticity due to the infrequent collisions among low copy-number molecules within the crowde...
Expression noise is the variability of the amount of gene product among isogenic cells grown in iden...
Genetically identical cells and organisms exhibit remarkable diversity even when they have identical...
The genetic circuits that regulate cellular functions are subject to stochastic fluctuations, or ‘no...
Gene expression is subject to stochastic variation which leads to fluctuations in the rate of protei...
Gene expression is subject to stochastic variation which leads to fluctuations in the rate of protei...
Gene expression is subject to stochastic variation which leads to fluctuations in the rate of protei...
Not all cells in a bacterial population exhibit exactly the same phenotype, even though they grow in...
Fluctuations, or "noise", can play a key role in determining the behaviour of living systems. The mo...
Not all cells in a bacterial population exhibit exactly the same phenotype, even though they grow in...
During the last decade, the molecular basis for gene expression noise has been mostly deciphered, he...
Phenotypic variation is ubiquitous in biology and is often traceable to underlying genetic and envir...
Origins and consequences of cell-to-cell variability are essential to the understanding of diverse b...
Biological systems are remarkably precise in a lot of different ways. Not only do organisms have the...
none8noThe small number of molecules, unevenly distributed within an isogenic cell population, makes...
The stochasticity due to the infrequent collisions among low copy-number molecules within the crowde...
Expression noise is the variability of the amount of gene product among isogenic cells grown in iden...
Genetically identical cells and organisms exhibit remarkable diversity even when they have identical...
The genetic circuits that regulate cellular functions are subject to stochastic fluctuations, or ‘no...
Gene expression is subject to stochastic variation which leads to fluctuations in the rate of protei...
Gene expression is subject to stochastic variation which leads to fluctuations in the rate of protei...
Gene expression is subject to stochastic variation which leads to fluctuations in the rate of protei...
Not all cells in a bacterial population exhibit exactly the same phenotype, even though they grow in...