Abstract
The intrinsic stochasticity of gene expression can give rise to large fluctuations and rare events that drive phenotypic variation in a population of genetically identical cells. Characterizing the fluctuations that give rise to such rare events motivates the analysis of large deviations in stochastic models of gene expression. Recent developments in non-equilibrium statistical mechanics have led to a framework for analyzing Markovian processes conditioned on rare events and for representing such processes by conditioning-free driven Markovian processes. We use this framework, in combination with approaches based on queueing theory, to analyze a general class of stochastic models of gene expression. Modeling gene expression as a Batch Markovian Arrival Process (BMAP), we derive exact analytical results quantifying large deviations of time-integrated random variables such as promoter activity fluctuations. We find that the conditioning-free driven process can also be represented by a BMAP that has the same form as the original process, but with renormalized parameters. The results obtained can be used to quantify the likelihood of large deviations, to characterize system fluctuations conditional on rare events and to identify combinations of model parameters that can give rise to dynamical phase transitions in system dynamics.
Highlights
In stochastic systems, it is often of great interest to characterize the fluctuations that give rise to rare events
The development of an analytical framework for rare events in such models can be used to address several questions of current interest: (1) How do combinations of underlying model parameters control the likelihood of rare events? (2) How can we characterize fluctuations in the system conditioned on the occurrence of a rare event? (3) Can we determine the changes in dynamical model parameters that mimic the effects of rare fluctuations?
Recent developments in nonequilibrium statistical mechanics using large deviation theory provide a framework for addressing such issues [10, 11, 12]
Summary
It is often of great interest to characterize the fluctuations that give rise to rare events. We combine large deviation theory framework with tools from queueing theory [16, 17], to obtain analytical formulas for the statistics of rare events in a general class of stochastic models of gene expression.
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