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Bistability: Requirements on Cell-Volume, Protein Diffusion, and Thermodynamics

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  • Robert G Endres

Abstract

Bistability is considered wide-spread among bacteria and eukaryotic cells, useful e.g. for enzyme induction, bet hedging, and epigenetic switching. However, this phenomenon has mostly been described with deterministic dynamic or well-mixed stochastic models. Here, we map known biological bistable systems onto the well-characterized biochemical Schlögl model, using analytical calculations and stochastic spatiotemporal simulations. In addition to network architecture and strong thermodynamic driving away from equilibrium, we show that bistability requires fine-tuning towards small cell volumes (or compartments) and fast protein diffusion (well mixing). Bistability is thus fragile and hence may be restricted to small bacteria and eukaryotic nuclei, with switching triggered by volume changes during the cell cycle. For large volumes, single cells generally loose their ability for bistable switching and instead undergo a first-order phase transition.

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  • Robert G Endres, 2015. "Bistability: Requirements on Cell-Volume, Protein Diffusion, and Thermodynamics," PLOS ONE, Public Library of Science, vol. 10(4), pages 1-22, April.
    • Handle: RePEc:plo:pone00:0121681
    DOI: 10.1371/journal.pone.0121681
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