膜与蛋白质研究中的电子自旋共振

Electron spin resonance in studies of membranes and proteins.

作者信息

Borbat P P, Costa-Filho A J, Earle K A, Moscicki J K, Freed J H

机构信息

Baker Laboratory of Chemistry and Chemical Biology, Cornell University, Ithaca, NY 14853-1301, USA.

出版信息

Science. 2001 Jan 12;291(5502):266-9. doi: 10.1126/science.291.5502.266.

DOI:10.1126/science.291.5502.266

PMID:11253218

Abstract

We provide a review of current electron spin resonance (ESR) techniques for studying basic molecular mechanisms in membranes and proteins by using nitroxide spin labels. In particular, nitroxide spin label studies with high-field/high-frequency ESR and two-dimensional Fourier transform ESR enable one to accurately determine distances in biomolecules, unravel the details of the complex dynamics in proteins, characterize the dynamic structure of membrane domains, and discriminate between bulk lipids and boundary lipids that coat transmembrane peptides or proteins; these studies can also provide time resolution to studies of functional dynamics of proteins. We illustrate these capabilities with recent examples.

摘要

我们综述了当前利用氮氧化物自旋标记研究膜和蛋白质中基本分子机制的电子自旋共振（ESR）技术。特别是，高场/高频ESR和二维傅里叶变换ESR的氮氧化物自旋标记研究能够准确测定生物分子中的距离，揭示蛋白质复杂动力学的细节，表征膜结构域的动态结构，并区分包裹跨膜肽或蛋白质的主体脂质和边界脂质；这些研究还可以为蛋白质功能动力学研究提供时间分辨率。我们用最近的例子来说明这些能力。

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膜与蛋白质研究中的电子自旋共振

Electron spin resonance in studies of membranes and proteins.

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