AI Article Synopsis
- Noise plays a critical role in cellular processes like gene expression, leading to the need for stochastic models like the chemical master equation (CME) to understand its dynamics.
- The CME describes the time evolution of probability distributions in chemically reacting systems, but obtaining analytic solutions is challenging, even though they can speed up simulations and improve designs of responses.
- This text explores a new method for finding stationary solutions by recursively combining simple state spaces, detailing the construction of state spaces, analyzing reversible biochemical reactions, and discussing potential extensions to infinite state spaces, supported by various illustrative examples.
Article Abstract
Noise is often indispensable to key cellular activities, such as gene expression, necessitating the use of stochastic models to capture its dynamics. The chemical master equation (CME) is a commonly used stochastic model of Kolmogorov forward equations that describe how the probability distribution of a chemically reacting system varies with time. Finding analytic solutions to the CME can have benefits, such as expediting simulations of multiscale biochemical reaction networks and aiding the design of distributional responses. However, analytic solutions are rarely known. A recent method of computing analytic stationary solutions relies on gluing simple state spaces together recursively at one or two states. We explore the capabilities of this method and introduce algorithms to derive analytic stationary solutions to the CME. We first formally characterize state spaces that can be constructed by performing single-state gluing of paths, cycles or both sequentially. We then study stochastic biochemical reaction networks that consist of reversible, elementary reactions with two-dimensional state spaces. We also discuss extending the method to infinite state spaces and designing the stationary behaviour of stochastic biochemical reaction networks. Finally, we illustrate the aforementioned ideas using examples that include two interconnected transcriptional components and biochemical reactions with two-dimensional state spaces.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5454304 | PMC |
| http://dx.doi.org/10.1098/rsif.2017.0157 | DOI Listing |
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