Surface Electrostatics Govern the Emulsion Stability of Biomolecular Condensates.
Espinosa, Jorge R
American Chemical Society (ACS)
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Welsh, T., Krainer, G., Espinosa, J. R., Joseph, J., Sridhar, A., Jahnel, M., Arter, W. E., et al. (2022). Surface Electrostatics Govern the Emulsion Stability of Biomolecular Condensates.. Nano Lett, (acs.nanolett.1c03138) https://doi.org/10.1021/acs.nanolett.1c03138
Liquid-liquid phase separation underlies the formation of biological condensates. Physically, such systems are microemulsions that in general have a propensity to fuse and coalesce; however, many condensates persist as independent droplets in the test tube and inside cells. This stability is crucial for their function, but the physicochemical mechanisms that control the emulsion stability of condensates remain poorly understood. Here, by combining single-condensate zeta potential measurements, optical microscopy, tweezer experiments, and multiscale molecular modeling, we investigate how the nanoscale forces that sustain condensates impact their stability against fusion. By comparing peptide-RNA (PR25:PolyU) and proteinaceous (FUS) condensates, we show that a higher condensate surface charge correlates with a lower fusion propensity. Moreover, measurements of single condensate zeta potentials reveal that such systems can constitute classically stable emulsions. Taken together, these results highlight the role of passive stabilization mechanisms in protecting biomolecular condensates against coalescence.
European Research Council (337969)
Engineering and Physical Sciences Research Council (EP/P020259/1)
European Commission Horizon 2020 (H2020) Future and Emerging Technologies (FET) (766972)
European Research Council (803326)
European Commission Horizon 2020 (H2020) Marie Sk?odowska-Curie actions (841466)
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External DOI: https://doi.org/10.1021/acs.nanolett.1c03138
This record's URL: https://www.repository.cam.ac.uk/handle/1810/332616
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