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Assessing the Phase Separation Propensity of Proteins in Living Cells Through Optodroplet Formation
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Edité par CCSD ; Springer Nature -
International audience. Phase separation is emerging as a key mechanism to describe the formation of membraneless organelles in the cell. It depends on the multivalent (self-) interaction properties of the macromolecules involved and can be observed in aqueous solutions under controlled conditions in vitro with purified components. However, to experimentally demonstrate that this process indeed occurs in the complex environment of living cells remains difficult. Here, we describe an assay based on light-induced association of proteins into complexes termed optodroplets that are in the hundred nm to μm size range. The formation and dissociation of these optodroplets can be followed over time in living cells by fluorescence microscopy to evaluate the propensity of proteins to demix and to form phase-separated subcompartments. The optodroplet assay is based on the fusion of a protein of interest with the photolyase homology region (PHR) protein domain from Arabidopsis thaliana, which can undergo reversible homo-oligomerization upon illumination with blue light. Using this approach, candidate proteins and their interaction-deficient or interaction-enhanced variants can be compared to each other or to reference proteins with known phase separation features. By quantifying the resulting microscopy images, the propensity of a given protein construct to assemble into a phase-separated subcompartment can be assessed.
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