Stationary distributions and metastable behaviour for self-regulating proteins with general lifetime distributions

Çelik, Candan; Bokes, Pavol; Singh, Abhyudai

doi:10.1101/2020.04.25.061101

Cited by 2 publications

(6 citation statements)

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“…The early dynamics is characterised by a steady shift of the distributions to the right until they are located at x − . This initial dynamics is closely approximated by the LNA (40) (Figure 3, first three timepoints). At much greater times, the weight of the mode around x − begins to decrease, and a new mode around the upper stable fixed point x + arises.…”

Section: Mixture Approximationmentioning

confidence: 92%

“…for the joint distribution of the concentration x of the inactive and the copy number s of the active protein. The LNA (40) implies that: s follows the truncated Poisson distribution (23); x follows the Gaussian distribution with mean equal to the deterministic solution ξ(t) to (30) and a small variance equal to εσ 2 (t).…”

Section: The Inactive Protein Fluctuationmentioning

confidence: 99%

“…The key insight of [29], on which we expand in this work, is that a stochastic autoregulatory circuit extended by a large delay exhibits a near-deterministic behaviour of the inactive protein (the production of which has been initiated but not yet completed). A classical means of eliminating noise in a stochastic model is to increase its system size/volume [30]; the near-deterministic behaviour in large-volume systems can be described using the linear noise approximation (LNA) [31][32][33][34][35] and the Wentzel-Kramers-Brillouin (WKB) approximation [36][37][38][39][40]. These two approaches are complementary: the LNA applies on finite temporal domains [41]; the WKB approximation covers slow metastable dynamics such as transitions between deterministically stable steady states or to a fixation/extinction point [42].…”

Section: Introductionmentioning

confidence: 99%

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Postponing production exponentially enhances the molecular memory of a stochastic switch

Bokes

2020

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Delayed production can substantially alter the qualitative behaviour of feedback systems. Motivated by stochastic mechanisms in gene expression, we consider a protein molecule which is produced in randomly timed bursts, requires an exponentially distributed time to activate, and then partakes in positive regulation of its burst frequency. Asymptotically analysing the underlying master equation in the large-delay regime, we provide tractable approximations to time-dependent probability distributions of molecular copy numbers. Importantly, the presented analysis demonstrates that positive feedback systems with large production delays can constitute a stable toggle switch even if they operate with low copy numbers of active molecules.

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Section: Mixture Approximationmentioning

confidence: 92%

Section: The Inactive Protein Fluctuationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Postponing production exponentially enhances the molecular memory of a stochastic switch

Bokes

2020

Preprint

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“…on the characteristic system (22). Solving the logistic equation for η = η(t) in (22) by separating the variables η and t yields…”

Section: Generating Functionmentioning

confidence: 99%

“…Solving the inhomogeneous linear equation for ξ = ξ(t) in (22) by variation of constants gives ξ(t) = ξ 0 e a(t−t0) − a…”

Section: Generating Functionmentioning

confidence: 99%

A modified fluctuation test for elucidating drug resistance in microbial and cancer cells

Bokes

Singh

2020

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Clonal populations of microbial and cancer cells are often driven into a drug-tolerant persister state in response to drug therapy, and these persisters can subsequently adapt to the new drug environment via genetic and epigenetic mechanisms. Estimating the frequency with which drug-tolerance states arise, and its transition to drug-resistance, is critical for designing efficient treatment schedules. Here we study a stochastic model of cell proliferation where drug-tolerant persister cells transform into a drug-resistant state with a certain adaptation rate, and the resistant cells can then proliferate in the presence of the drug. Assuming a random number of persisters to begin with, we derive an exact analytical expression for the statistical moments and the distribution of the total cell count (i.e., colony size) over time. Interestingly, for Poisson initial conditions the noise in the colony size (as quantified by the Fano factor) becomes independent of the initial condition and only depends on the adaptation rate. Thus, experimentally quantifying the fluctuations in the colony sizes provides an estimate of the adaptation rate, which then can be used to infer the starting persister numbers from the mean colony size. Overall, our analysis introduces a modification of the classical Luria–Delbrück experiment, also called the “Fluctuation Test”, providing a valuable tool to quantify the emergence of drug resistance in cell populations.

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Stationary distributions and metastable behaviour for self-regulating proteins with general lifetime distributions

Cited by 2 publications

References 52 publications

Postponing production exponentially enhances the molecular memory of a stochastic switch

Postponing production exponentially enhances the molecular memory of a stochastic switch

A modified fluctuation test for elucidating drug resistance in microbial and cancer cells

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