利用基于相分离的荧光报告器实现亚显微蛋白质团簇的简单可视化。

Cell systems Pub Date : 2024-02-21 Epub Date: 2024-02-08 DOI:10.1016/j.cels.2024.01.005
Thomas R Mumford, Diarmid Rae, Emily Brackhahn, Abbas Idris, David Gonzalez-Martinez, Ayush Aditya Pal, Michael C Chung, Juan Guan, Elizabeth Rhoades, Lukasz J Bugaj
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引用次数: 0

摘要

蛋白质聚类在细胞生理和疾病中发挥着多种作用。然而,蛋白质寡聚体很难检测,因为它们通常太小,在传统荧光显微镜下无法显示为点状。在这里,我们描述了一种高灵敏度检测蛋白质团簇的荧光报告策略,称为 CluMPS(通过相分离放大的团簇)。CluMPS 报告器能检测并可视化地放大结合伙伴的小集群,产生可量化的大型荧光凝聚物。我们利用计算建模和光遗传聚类来证明,CluMPS 可以检测到小的寡聚体,并根据关键的系统参数做出合理的行为。CluMPS 能检测到病理蛋白的小聚集体,而相应的 GFP 融合体则呈现弥散状。CluMPS 还能检测和跟踪未修饰和标记的内源蛋白质群,而且正交的 CluMPS 探针可以在细胞中进行多重检测。CluMPS 提供了一种强大而直接的方法,用于观察高阶蛋白质在原生细胞环境中的组装情况。本文的同行评审过程透明,相关记录见补充信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simple visualization of submicroscopic protein clusters with a phase-separation-based fluorescent reporter.

Protein clustering plays numerous roles in cell physiology and disease. However, protein oligomers can be difficult to detect because they are often too small to appear as puncta in conventional fluorescence microscopy. Here, we describe a fluorescent reporter strategy that detects protein clusters with high sensitivity called CluMPS (clusters magnified by phase separation). A CluMPS reporter detects and visually amplifies even small clusters of a binding partner, generating large, quantifiable fluorescence condensates. We use computational modeling and optogenetic clustering to demonstrate that CluMPS can detect small oligomers and behaves rationally according to key system parameters. CluMPS detected small aggregates of pathological proteins where the corresponding GFP fusions appeared diffuse. CluMPS also detected and tracked clusters of unmodified and tagged endogenous proteins, and orthogonal CluMPS probes could be multiplexed in cells. CluMPS provides a powerful yet straightforward approach to observe higher-order protein assembly in its native cellular context. A record of this paper's transparent peer review process is included in the supplemental information.

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