Add to ORKGABSTRACT: Biological switches must sense changes in signal concen-tration and at the same time buffer against signal noise. While many studies have focused on the response of switching systems to noise in the ON state, how systems buffer noise at both ON and OFF states is poorly understood. Through analytical and computational approaches, we find that switching systems require different dynamics at the OFF state than at the ON state in order to have good noise buffering capability. Specifically, we introduce a quantity called the input-associated Signed Activation Time (iSAT) that concisely captures an intrinsic temporal property at either the ON or OFF state. We discover a trade-off between achieving good noise buffering in the ON versus t...
Abstract A cell consists of many interacting biomolecular components that form some basic feed-back ...
The correlated noise-based switches and stochastic resonance are investigated in a bistable single g...
Turning genes on and off is a mechanism by which cells and tissues make phenotypic decisions. Gene n...
Biological switches must sense changes in signal concentration and at the same time buffer against s...
Noise can induce various dynamical behaviors in nonlinear systems. White noise perturbed systems hav...
; ¶ These authors contributed equally to this work. Cells operate in noisy molecular environments vi...
It is well known that white noise can induce switch behaviors in bistable systems. However, recent e...
Feedback modules, which appear ubiquitously in biological regulations, are often subject to disturba...
Feedback modules, which appear ubiquitously in biological regulations, are often subject to disturba...
<div><p>It is well known that noise is inevitable in gene regulatory networks due to the low-copy nu...
It is well known that noise is inevitable in gene regulatory networks due to the low-copy numbers of...
Fluctuations in the copy number of key regulatory macromolecules ("noise") may cause physiological h...
Many biological systems can switch between two distinct states. Once switched, the system remains st...
AbstractUltrasensitive cascades often implement thresholding operations in cell signaling and gene r...
Fluctuations in the copy number of key regulatory macromolecules (‘‘noise’’) may cause physiological...
Abstract A cell consists of many interacting biomolecular components that form some basic feed-back ...
The correlated noise-based switches and stochastic resonance are investigated in a bistable single g...
Turning genes on and off is a mechanism by which cells and tissues make phenotypic decisions. Gene n...
Biological switches must sense changes in signal concentration and at the same time buffer against s...
Noise can induce various dynamical behaviors in nonlinear systems. White noise perturbed systems hav...
; ¶ These authors contributed equally to this work. Cells operate in noisy molecular environments vi...
It is well known that white noise can induce switch behaviors in bistable systems. However, recent e...
Feedback modules, which appear ubiquitously in biological regulations, are often subject to disturba...
Feedback modules, which appear ubiquitously in biological regulations, are often subject to disturba...
<div><p>It is well known that noise is inevitable in gene regulatory networks due to the low-copy nu...
It is well known that noise is inevitable in gene regulatory networks due to the low-copy numbers of...
Fluctuations in the copy number of key regulatory macromolecules ("noise") may cause physiological h...
Many biological systems can switch between two distinct states. Once switched, the system remains st...
AbstractUltrasensitive cascades often implement thresholding operations in cell signaling and gene r...
Fluctuations in the copy number of key regulatory macromolecules (‘‘noise’’) may cause physiological...
Abstract A cell consists of many interacting biomolecular components that form some basic feed-back ...
The correlated noise-based switches and stochastic resonance are investigated in a bistable single g...
Turning genes on and off is a mechanism by which cells and tissues make phenotypic decisions. Gene n...