伴侣蛋白机制:多重和(误解)理解?

IF 13.7 1区 生物学 Q1 BIOPHYSICS
Annual Review of Biophysics Pub Date : 2022-05-09 Epub Date: 2022-01-04 DOI:10.1146/annurev-biophys-082521-113418
Amnon Horovitz, Tali Haviv Reingewertz, Jorge Cuéllar, José María Valpuesta
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引用次数: 16

摘要

伴侣蛋白是一种普遍存在的、必不可少的纳米机器,它以atp驱动的方式协助蛋白质折叠。它们由两个背靠背堆叠的寡聚环组成,其中有空腔,蛋白质(非)折叠可以在屏蔽环境中进行。本文综述了大肠杆菌中的GroEL和真核生物中含有伴侣蛋白的t-复合物多肽1,尽管它们具有相似的总体结构,但在反应机制上存在很大差异。尽管经过三十多年的深入研究,伴侣蛋白在许多现行的生物化学教科书中占有重要地位,但其反应机制的关键方面仍存在争议,本文将对此进行讨论。特别是,目前尚不清楚是否有一种普遍的反应机制适用于所有底物,以及它是被动的,即聚集被阻止,但折叠途径不变,还是主动的。目前还不清楚伴侣蛋白客户是如何区别于非客户的,以及伴侣蛋白与之相互作用的辅因子的确切作用是什么。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chaperonin Mechanisms: Multiple and (Mis)Understood?

The chaperonins are ubiquitous and essential nanomachines that assist in protein folding in an ATP-driven manner. They consist of two back-to-back stacked oligomeric rings with cavities in which protein (un)folding can take place in a shielding environment. This review focuses on GroEL from Escherichia coli and the eukaryotic chaperonin-containing t-complex polypeptide 1, which differ considerably in their reaction mechanisms despite sharing a similar overall architecture. Although chaperonins feature in many current biochemistry textbooks after being studied intensively for more than three decades, key aspects of their reaction mechanisms remain under debate and are discussed in this review. In particular, it is unclear whether a universal reaction mechanism operates for all substrates and whether it is passive, i.e., aggregation is prevented but the folding pathway is unaltered, or active. It is also unclear how chaperonin clients are distinguished from nonclients and what are the precise roles of the cofactors with which chaperonins interact.

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来源期刊
Annual Review of Biophysics
Annual Review of Biophysics 生物-生物物理
CiteScore
21.00
自引率
0.00%
发文量
25
期刊介绍: The Annual Review of Biophysics, in publication since 1972, covers significant developments in the field of biophysics, including macromolecular structure, function and dynamics, theoretical and computational biophysics, molecular biophysics of the cell, physical systems biology, membrane biophysics, biotechnology, nanotechnology, and emerging techniques.
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