基于电子顺磁共振的常温距离测量。

EPR-based distance measurements at ambient temperature.

作者信息

Krumkacheva Olesya, Bagryanskaya Elena

机构信息

N. N. Vorozhtsov Novosibirsk Institute of Organic Chemistry SB RAS, Pr. Lavrentjeva 9, Novosibirsk 630090, Russian Federation; Novosibirsk State University, Pirogova Street 2, Novosibirsk 630090, Russian Federation; International Tomography Center SB RAS, Institutskaya 3A, Novosibirsk 630090, Russian Federation.

出版信息

J Magn Reson. 2017 Jul;280:117-126. doi: 10.1016/j.jmr.2017.02.015.

DOI:10.1016/j.jmr.2017.02.015

PMID:28579097

Abstract

Pulsed dipolar (PD) EPR spectroscopy is a powerful technique allowing for distance measurements between spin labels in the range of 2.5-10.0nm. It was proposed more than 30years ago, and nowadays is widely used in biophysics and materials science. Until recently, PD EPR experiments were limited to cryogenic temperatures (T<80K). Recently, application of spin labels with long electron spin dephasing time at room temperature such as triarylmethyl radicals and nitroxides with bulky substituents at a position close to radical centers enabled measurements at room temperature and even at physiologically relevant temperatures by PD EPR as well as other approaches based on EPR (e.g., relaxation enhancement; RE). In this paper, we review the features of PD EPR and RE at ambient temperatures, in particular, requirements on electron spin phase memory time, ways of immobilization of biomolecules, the influence of a linker between the spin probe and biomolecule, and future opportunities.

摘要

脉冲偶极（PD）电子顺磁共振光谱是一种强大的技术，可用于测量自旋标记之间2.5至10.0纳米范围内的距离。它在30多年前就已被提出，如今在生物物理学和材料科学中得到广泛应用。直到最近，PD EPR实验还仅限于低温温度（T<80K）。最近，在室温下具有长电子自旋退相时间的自旋标记物的应用，如三芳基甲基自由基和在靠近自由基中心位置带有庞大取代基的氮氧化物，使得通过PD EPR以及其他基于EPR的方法（如弛豫增强；RE）在室温甚至生理相关温度下进行测量成为可能。在本文中，我们综述了室温下PD EPR和RE的特点，特别是对电子自旋相位记忆时间的要求、生物分子固定化的方法、自旋探针与生物分子之间连接体的影响以及未来的机遇。

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基于电子顺磁共振的常温距离测量。

EPR-based distance measurements at ambient temperature.

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