细胞内和体外拥挤对无序蛋白质构象和动力学的影响。

Impact of In-Cell and In-Vitro Crowding on the Conformations and Dynamics of an Intrinsically Disordered Protein.

机构信息

Department of Biochemistry and Department of Physics, University of Zurich, Winterthurerstrasse 190, 8057, Zürich, Switzerland.

Department of Biochemistry and Molecular Biophysics, Center for Science and Engineering of Living Systems (CSELS), Washington University in St. Louis, St. Louis, USA.

出版信息

Angew Chem Int Ed Engl. 2021 May 3;60(19):10724-10729. doi: 10.1002/anie.202016804. Epub 2021 Mar 30.

DOI:10.1002/anie.202016804

PMID:33587794

Abstract

The conformations and dynamics of proteins can be influenced by crowding from the large concentrations of macromolecules within cells. Intrinsically disordered proteins (IDPs) exhibit chain compaction in crowded solutions in vitro, but no such effects were observed in cultured mammalian cells. Here, to increase intracellular crowding, we reduced the cell volume by hyperosmotic stress and used an IDP as a crowding sensor for in-cell single-molecule spectroscopy. In these more crowded cells, the IDP exhibits compaction, slower chain dynamics, and much slower translational diffusion, indicating a pronounced concentration and length-scale dependence of crowding. In vitro, these effects cannot be reproduced with small but only with large polymeric crowders. The observations can be explained with polymer theory and depletion interactions and indicate that IDPs can diffuse much more efficiently through a crowded cytosol than a globular protein of similar dimensions.

摘要

蛋白质的构象和动力学可以受到细胞内大分子高浓度的拥挤效应的影响。在体外，无规卷曲蛋白质 (IDP) 在拥挤溶液中表现出链紧缩，但在培养的哺乳动物细胞中没有观察到这种效应。在这里，为了增加细胞内拥挤度，我们通过渗透压胁迫减小细胞体积，并使用 IDP 作为拥挤传感器进行细胞内单分子光谱学研究。在这些更加拥挤的细胞中，IDP 表现出紧缩、较慢的链动力学和慢得多的平移扩散，表明拥挤的浓度和长度尺度依赖性显著。在体外，这些效应不能用小分子聚合物再现，只能用大分子聚合物实现。这些观察结果可以用聚合物理论和耗尽相互作用来解释，并表明 IDP 可以比类似尺寸的球状蛋白更有效地通过拥挤的细胞质扩散。

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细胞内和体外拥挤对无序蛋白质构象和动力学的影响。

Impact of In-Cell and In-Vitro Crowding on the Conformations and Dynamics of an Intrinsically Disordered Protein.

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