bims-fascar Biomed News
on Phase separation and cellular architecture
Issue of 2021‒07‒04
one paper selected by
Victoria Yan
Max Planck Institute of Molecular Cell Biology and Genetics


  1. J R Soc Interface. 2021 Jun;18(179): 20210255
      Biomolecular condensates are small droplets forming spontaneously in biological cells through phase separation. They play a role in many cellular processes, but it is unclear how cells control them. Cellular regulation often relies on post-translational modifications of proteins. For biomolecular condensates, such chemical modifications could alter the molecular interaction of key condensate components. Here, we test this idea using a theoretical model based on non-equilibrium thermodynamics. In particular, we describe the chemical reactions using transition-state theory, which accounts for the non-ideality of phase separation. We identify that fast control, as in cell signalling, is only possible when external energy input drives the reaction out of equilibrium. If this reaction differs inside and outside the droplet, it is even possible to control droplet sizes. Such an imbalance in the reaction could be created by enzymes localizing to the droplet. Since this situation is typical inside cells, we speculate that our proposed mechanism is used to stabilize multiple droplets with independently controlled size and count. Our model provides a novel and thermodynamically consistent framework for describing droplets subject to non-equilibrium chemical reactions.
    Keywords:  active droplets; membraneless organelles; reaction–diffusion systems
    DOI:  https://doi.org/10.1098/rsif.2021.0255