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Literature DB >> 15698138

Sampling rare switching events in biochemical networks.

Rosalind J Allen¹, Patrick B Warren, Pieter Rein Ten Wolde.

Abstract

Bistable biochemical switches are widely found in gene regulatory networks and signal transduction pathways. Their switching dynamics are difficult to study, however, because switching events are rare, and the systems are out of equilibrium. We present a simulation method for predicting the rate and mechanism of the flipping of these switches. We apply it to a genetic switch and find that it is highly efficient. The path ensembles for the forward and reverse processes do not coincide. The method is widely applicable to rare events and nonequilibrium processes.

Mesh：

Substances：
Viral Proteins

Year: 2005 PMID： 15698138 DOI： 10.1103/PhysRevLett.94.018104

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

68 in total

Sampling rare switching events in biochemical networks.

1. Identifying dynamical bottlenecks of stochastic transitions in biochemical networks.

2. Evaporation rate of water in hydrophobic confinement.

3. Steady-state simulations using weighted ensemble path sampling.

4. A self-learning algorithm for biased molecular dynamics.

5. DNA-Binding Kinetics Determines the Mechanism of Noise-Induced Switching in Gene Networks.

6. Absolute rate theories of epigenetic stability.

7. Structure-based model of the stepping motor of PcrA helicase.

8. Spectral methods for parametric sensitivity in stochastic dynamical systems.

9. Modeling Viral Capsid Assembly.

10. Reaction coordinates for the flipping of genetic switches.