Hsp70 chaperone dynamics and molecular mechanism

变构调节 伴侣(临床) ATP水解 环核苷酸结合域 化学 热休克蛋白70 构象变化 结合位点 生物物理学 血浆蛋白结合 生物化学 热休克蛋白 蛋白质结构 核苷酸 生物 ATP酶 基因 医学 病理
作者
Matthias P. Mayer
出处
期刊:Trends in Biochemical Sciences [Elsevier BV]
卷期号:38 (10): 507-514 被引量:429
标识
DOI:10.1016/j.tibs.2013.08.001
摘要

•Recent structural insights in Hsp70 chaperones are reviewed. •Open and closed conformations as well as high- and low-affinity conformations are compared. •Influence of substrate binding on Hsp70 conformation and dynamics is presented. •Chaperone activities are discussed in the context of the dynamic nature of Hsp70s. The chaperone functions of heat shock protein (Hsp)70 involve an allosteric control mechanism between the nucleotide-binding domain (NBD) and polypeptide substrate-binding domain (SBD): ATP binding and hydrolysis regulates the affinity for polypeptides, and polypeptide binding accelerates ATP hydrolysis. These data suggest that Hsp70s exist in at least two conformational states. Although structural information on the conformation with high affinity for polypeptides has been available for several years, the conformation with an open polypeptide binding cleft was elucidated only recently. In addition, other biophysical studies have revealed a more dynamic picture of Hsp70s, shedding light on the molecular mechanism by which Hsp70s assist protein folding. In this review recent insights into the structure and mechanism of Hsp70s are discussed. The chaperone functions of heat shock protein (Hsp)70 involve an allosteric control mechanism between the nucleotide-binding domain (NBD) and polypeptide substrate-binding domain (SBD): ATP binding and hydrolysis regulates the affinity for polypeptides, and polypeptide binding accelerates ATP hydrolysis. These data suggest that Hsp70s exist in at least two conformational states. Although structural information on the conformation with high affinity for polypeptides has been available for several years, the conformation with an open polypeptide binding cleft was elucidated only recently. In addition, other biophysical studies have revealed a more dynamic picture of Hsp70s, shedding light on the molecular mechanism by which Hsp70s assist protein folding. In this review recent insights into the structure and mechanism of Hsp70s are discussed.
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