APL Bioengineering (Jun 2024)

Testing mixing rules for structural and dynamical quantities in multi-component crowded protein solutions

  • Alessandro Gulotta,
  • Saskia Bucciarelli,
  • Felix Roosen-Runge,
  • Olaf Holderer,
  • Peter Schurtenberger,
  • Anna Stradner

DOI
https://doi.org/10.1063/5.0204201
Journal volume & issue
Vol. 8, no. 2
pp. 026116 – 026116-15

Abstract

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Crowding effects significantly influence the phase behavior and the structural and dynamic properties of the concentrated protein mixtures present in the cytoplasm of cells or in the blood serum. This poses enormous difficulties for our theoretical understanding and our ability to predict the behavior of these systems. While the use of course grained colloid-inspired models allows us to reproduce the key physical solution properties of concentrated monodisperse solutions of individual proteins, we lack corresponding theories for complex polydisperse mixtures. Here, we test the applicability of simple mixing rules in order to predict solution properties of protein mixtures. We use binary mixtures of the well-characterized bovine eye lens proteins α and γB crystallin as model systems. Combining microrheology with static and dynamic scattering techniques and observations of the phase diagram for liquid–liquid phase separation, we show that reasonably accurate descriptions are possible for macroscopic and mesoscopic signatures, while information on the length scale of the individual protein size requires more information on cross-component interaction.