English

Enzyme Active Bath Affects Protein Condensation

Soft Condensed Matter 2025-10-31 v1 Biological Physics

Abstract

We investigate how an active bath of enzymes influences the liquid-liquid phase separation (LLPS) of a non-interacting condensing protein. The enzyme we choose to use as the active driver is urease, an enzyme that has been shown by several groups to exhibit enhanced diffusion in the presence of its substrate. The non-interacting LLPS protein is ubiquilin-2, a protein that condenses with increasing temperature and salt. Using a microfluidic device with semipermeable membranes, we create a chemostatic environment to maintain the substrate content to feed the enzymatic bath and remove the products of the chemical reaction. Thus, we isolate the physical enhanced fluctuations from the chemical changes of the enzyme activity. We also compare the results to controls without activity or in the presence of the products of the reaction. We find that the active bath is able to enhance droplet size, density, and concentration, implying that more ubiquilin-2 is in condensed form. This result is consistent with an interpretation that the active bath acts as an effective temperature. Simulations provide an underlying interpretation for our experimental results. Together, these findings provide the first demonstration that physical enzymatic activity can act as an effective temperature to modify LLPS behavior, with implications for intracellular organization in the enzymatically active cellular environment.

Keywords

Cite

@article{arxiv.2510.26659,
  title  = {Enzyme Active Bath Affects Protein Condensation},
  author = {Kevin Ching and Anthony Estrada and Nicholas M Rubayiza and Ligesh Theeyancheri and Jennifer M. Schwarz and Jennifer L Ross},
  journal= {arXiv preprint arXiv:2510.26659},
  year   = {2025}
}

Comments

20 pages, 10 figures

R2 v1 2026-07-01T07:14:08.615Z