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Exact Distribution of Threshold Crossing Times for Protein Concentrations: Implication for Biological Timekeeping

Krishna Rijal, Ashok Prasad, Abhyudai Singh, Dibyendu Das

2022Physical Review Letters36 citationsDOI

Abstract

Stochastic protein accumulation up to some concentration threshold sets the timing of many cellular physiological processes. Here we obtain the exact distribution of first threshold crossing times of protein concentration, in either Laplace or time domain, and its associated cumulants: mean, variance, and skewness. The distribution is asymmetric, and its skewness nonmonotonically varies with the threshold. We study lysis times of E. coli cells for holin gene mutants of bacteriophage-λ and find a good match with theory. Mutants requiring higher holin thresholds show more skewed lysis time distributions as predicted. The theory also predicts a linear relationship between infection delay time and host doubling time for lytic viruses, that has recently been experimentally observed.

Topics & Concepts

Lytic cycleLaplace transformLysisPhysicsStatistical physicsSkewnessMutantBiological systemDistribution (mathematics)Stochastic processBiologyDoubling timeApplied mathematicsFirst-hitting-time modelStationary distributionWork (physics)MathematicsProcess (computing)BiophysicsLimit (mathematics)Smoluchowski coagulation equationGene Regulatory Network AnalysisEvolution and Genetic DynamicsDiffusion and Search Dynamics