溶剂顺磁弛豫增强可视化的蛋白质结构组合。

Protein Structural Ensembles Visualized by Solvent Paramagnetic Relaxation Enhancement.

机构信息

CAS Key Laboratory of Magnetic Resonance in Biological Systems, State Key Laboratory of Magnetic Resonance and Atomic Molecular Physics, National Center for Magnetic Resonance in Wuhan, Collaborative Innovation Center of Chemistry for Life Sciences, Wuhan Institute of Physics and Mathematics of the Chinese Academy of Sciences, Wuhan, Hubei Province, 430071, China.

Department of Physics and Astronomy and Department of Chemistry, State University of New York at Stony Brook, Stony Brook, New York, 11794, USA.

出版信息

Angew Chem Int Ed Engl. 2017 Jan 19;56(4):1002-1006. doi: 10.1002/anie.201609830. Epub 2016 Dec 19.

DOI:10.1002/anie.201609830

PMID:27990729

Abstract

A protein can be in different conformations when fulfilling its function. Yet depiction of protein structural ensembles remains difficult. Here we show that the accurate measurement of solvent paramagnetic relaxation enhancement (sPRE) in the presence of an inert paramagnetic cosolute allows the assessment of protein dynamics. Demonstrated with two multi-domain proteins, we present a method to characterize protein microsecond-millisecond dynamics based on the analysis of the sPRE. Provided with the known structures of a protein, our method uncovers an ensemble of structures that fully accounts for the observed sPRE. In conjunction with molecular dynamics simulations, our method can identify protein alternative conformation that has only been theorized before. Together, our method expands the application of sPRE beyond structural characterization of rigid proteins and complements the established PRE NMR technique.

摘要

当蛋白质发挥其功能时，其构象可能会有所不同。然而，对蛋白质结构构象的描绘仍然具有挑战性。在这里，我们展示了在惰性顺磁助溶剂存在的情况下，准确测量溶剂的顺磁各向异性弛豫增强（sPRE）可以评估蛋白质的动力学。通过对两种多结构域蛋白质的研究，我们提出了一种基于 sPRE 分析来描述蛋白质微秒-毫秒动力学的方法。在已知蛋白质结构的情况下，我们的方法揭示了一个可以完全解释所观察到的 sPRE 的结构构象集合。结合分子动力学模拟，我们的方法可以识别以前仅在理论上存在的蛋白质的替代构象。总之，我们的方法将 sPRE 的应用扩展到了对刚性蛋白质的结构特征描述之外，并补充了现有的 PRE NMR 技术。

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溶剂顺磁弛豫增强可视化的蛋白质结构组合。

Protein Structural Ensembles Visualized by Solvent Paramagnetic Relaxation Enhancement.

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