Abstract
Liquid-liquid phase separation (LLPS) plays a crucial role in cellular organization, primarily driven by intrinsically disordered proteins (IDPs) leading to the formation of biomolecular condensates. A folded protein SUMO that post-translationally modifies cellular proteins has recently emerged as a regulator of LLPS. Given its compact structure and limited flexibility, the precise role of SUMO in condensate formation remains to be investigated. Here, we show the rapid phase separation of SUMO1 into micrometer-sized liquid-like condensates in inert crowders under physiological conditions. Subsequent time-dependent conformational changes and aggregation are probed by label-free methods (tryptophan fluorescence and Raman spectroscopy). Remarkably, experiments on a SUMO1 variant lacking the N-terminal disordered region further corroborate the role of its structured part in phase transitions. Our findings highlight the potential of folded proteins to engage in LLPS and emphasize further investigation into the influence of the SUMO tag on IDPs associated with membrane-less assemblies in cells.
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