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Physics of droplet regulation in biological cells

David Zwicker, Oliver W. Paulin, Cathelijne ter Burg

2025Reports on Progress in Physics23 citationsDOIOpen Access PDF

Abstract

Droplet formation has emerged as an essential concept for the spatiotemporal organisation of biomolecules in cells. However, classical descriptions of droplet dynamics based on passive liquid-liquid phase separation cannot capture the complex situation inside cells. This review discusses three distinct aspects that are crucial in cells: (i) biomolecules are diverse and individually complex, implying that cellular droplets possess complex internal behaviour, e.g. in terms of their material properties; (ii) the cellular environment contains many solid-like structures that droplets can wet; (iii) cells are alive and use fuel to drive processes out of equilibrium. We illustrate how these principles control droplet nucleation, growth, position, and count to unveil possible regulatory mechanisms in biological cells and other applications of phase separation.

Topics & Concepts

PhysicsBiomoleculeNanotechnologyPhase (matter)Dynamics (music)BiophysicsBiological systemBiological cellBiomolecular structureChemical physicsRelative phasePlant Reproductive BiologyAlgal biology and biofuel productionStochastic processes and statistical mechanics
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