Sekhar Ashok, Nagesh Jayashree, Rosenzweig Rina, Kay Lewis E
Departments of Molecular Genetics, Biochemistry and Chemistry, University of Toronto, Toronto, Ontario, M5S 1A8, Canada.
Chemical Physics Theory Group, Department of Chemistry, University of Toronto, Toronto, Ontario, M5S 3H6, Canada.
Protein Sci. 2017 Nov;26(11):2207-2220. doi: 10.1002/pro.3276. Epub 2017 Sep 18.
The Hsp70 chaperone system plays a critical role in cellular homeostasis by binding to client protein molecules. We have recently shown by methyl-TROSY NMR methods that the Escherichia coli Hsp70, DnaK, can form multiple bound complexes with a small client protein, hTRF1. In an effort to characterize the interactions further we report here the results of an NMR-based titration study of hTRF1 and DnaK, where both molecular components are monitored simultaneously, leading to a binding model. A central finding is the formation of a previously undetected 3:1 hTRF1-DnaK complex, suggesting that under heat shock conditions, DnaK might be able to protect cytosolic proteins whose net concentrations would exceed that of the chaperone. Moreover, these results provide new insight into the heterogeneous ensemble of complexes formed by DnaK chaperones and further emphasize the unique role of NMR spectroscopy in obtaining information about individual events in a complex binding scheme by exploiting a large number of probes that report uniquely on distinct binding processes.
热休克蛋白70(Hsp70)伴侣系统通过与客户蛋白分子结合,在细胞内稳态中发挥关键作用。我们最近通过甲基横向弛豫优化谱(methyl-TROSY)核磁共振方法表明,大肠杆菌Hsp70(DnaK)能与一种小客户蛋白hTRF1形成多个结合复合物。为了进一步表征这些相互作用,我们在此报告一项基于核磁共振的hTRF1与DnaK滴定研究结果,该研究同时监测了两个分子组分,从而得出一个结合模型。一个核心发现是形成了一种之前未检测到的3:1 hTRF1-DnaK复合物,这表明在热休克条件下,DnaK可能能够保护净浓度超过伴侣蛋白的胞质蛋白。此外,这些结果为DnaK伴侣蛋白形成的复合物异质集合提供了新的见解,并进一步强调了核磁共振光谱在通过利用大量能唯一报告不同结合过程的探针来获取复杂结合方案中单个事件信息方面的独特作用。
