通过顺磁固态核磁共振光谱对蛋白质进行结构研究。
Structural studies of proteins by paramagnetic solid-state NMR spectroscopy.
作者信息
Jaroniec Christopher P
机构信息
Department of Chemistry and Biochemistry, The Ohio State University, 100 West 18th Avenue, Columbus, OH 43210, USA.
出版信息
J Magn Reson. 2015 Apr;253:50-9. doi: 10.1016/j.jmr.2014.12.017.
Abstract
Paramagnetism-based nuclear pseudocontact shifts and spin relaxation enhancements contain a wealth of information in solid-state NMR spectra about electron-nucleus distances on the ∼20 Å length scale, far beyond that normally probed through measurements of nuclear dipolar couplings. Such data are especially vital in the context of structural studies of proteins and other biological molecules that suffer from a sparse number of experimentally-accessible atomic distances constraining their three-dimensional fold or intermolecular interactions. This perspective provides a brief overview of the recent developments and applications of paramagnetic magic-angle spinning NMR to biological systems, with primary focus on the investigations of metalloproteins and natively diamagnetic proteins modified with covalent paramagnetic tags.
摘要
基于顺磁性的核伪接触位移和自旋弛豫增强在固态核磁共振谱中包含了大量关于约20 Å长度尺度上电子-核距离的信息,远远超出了通常通过测量核偶极耦合所探测的范围。在蛋白质和其他生物分子的结构研究中,这类数据尤为重要,因为这些研究受到数量稀少的实验可及原子距离的限制,这些距离用于约束它们的三维折叠或分子间相互作用。本综述简要概述了顺磁性魔角旋转核磁共振在生物系统中的最新进展和应用,主要侧重于对金属蛋白和用共价顺磁性标签修饰的天然抗磁性蛋白的研究。
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