酵母朊病毒有助于识别和定义伴侣蛋白相互作用网络。

Yeast prions help identify and define chaperone interaction networks.

作者信息

Reidy Michael, Masison Daniel C

机构信息

Building 8, Room 225, 8 Center Drive, Laboratory of Biochemistry and Genetics, National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of Health, Bethesda, MD 20892, USA.

出版信息

Curr Pharm Biotechnol. 2014;15(11):1008-18. doi: 10.2174/1389201015666141103021035.

DOI:10.2174/1389201015666141103021035

PMID:25373385

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6262759/

Abstract

Proteins in the cell experience various stressful conditions that can affect their ability to attain and maintain the structural conformations they need to perform effectively. Protein chaperones are an important part of a cellular protein quality control system that protects the integrity of the proteome in the face of such challenges. Chaperones from different conserved families have multiple members that cooperate to regulate each other's activity and produce machines that perform a variety of tasks. The large numbers of related chaperones with both functionally overlapping and distinct activities allows fine-tuning of the machinery for specific tasks, but presents a daunting degree of complexity. Yeast prions are misfolded forms of cellular proteins whose propagation depends on the action of protein chaperones. Studying how propagation of yeast prions is affected by alterations in functions of various chaperones provides an approach to understanding this complexity.

摘要

细胞中的蛋白质会经历各种应激条件，这些条件会影响它们获得并维持有效执行功能所需的结构构象的能力。蛋白质伴侣是细胞蛋白质质量控制系统的重要组成部分，在面对此类挑战时保护蛋白质组的完整性。来自不同保守家族的伴侣有多个成员，它们相互协作以调节彼此的活性，并产生执行各种任务的机器。大量具有功能重叠和不同活性的相关伴侣使得该机器能够针对特定任务进行微调，但也带来了令人望而生畏的复杂程度。酵母朊病毒是细胞蛋白质的错误折叠形式，其传播依赖于蛋白质伴侣的作用。研究各种伴侣功能的改变如何影响酵母朊病毒的传播，为理解这种复杂性提供了一种方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0570/6262759/cfb15e69c3a1/nihms-996855-f0001.jpg

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