用场循环核磁共振弛豫仪揭示溶液中的蛋白质动力学

IF 7.3 2区 化学 Q2 CHEMISTRY, PHYSICAL
Giacomo Parigi, Enrico Ravera, Marco Fragai, Claudio Luchinat
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引用次数: 12

摘要

场循环核磁共振弛豫测量是一种成熟的技术,可以提供生物系统的分子结构和动力学信息。它提供了作为外加磁场函数的核弛豫率,从低至~ 10−4 T到约1-3 T的磁场开始。这样收集的谱线称为核磁弛豫色散(NMRD)谱线,可以扩展到包括高分辨率核磁共振光谱仪可实现的最大场的弛豫率。通过利用这个宽范围的频率,NMRD谱图可以提供在10 - 6到10 - 9秒的时间尺度上发生的运动信息。1H NMRD测量也被证明对顺磁蛋白质的表征非常有用,因为它们可以帮助表征许多参数,包括顺磁中心协调的水分子的数量、距离和停留时间、重定向相关时间和电子自旋弛豫时间。以及金属部位的电子结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Unveiling protein dynamics in solution with field-cycling NMR relaxometry

Unveiling protein dynamics in solution with field-cycling NMR relaxometry

Field-cycling NMR relaxometry is a well-established technique that can give information on molecular structure and dynamics of biological systems. It provides the nuclear relaxation rates as a function of the applied magnetic field, starting from fields as low as ~ 10−4 T up to about 1–3 T. The profiles so collected, called nuclear magnetic relaxation dispersion (NMRD) profiles, can be extended to include the relaxation rates at the largest fields achievable with high resolution NMR spectrometers. By exploiting this wide range of frequencies, the NMRD profiles can provide information on motions occurring on time scales from 10−6 to 10−9 s. 1H NMRD measurements have proved very useful also for the characterization of paramagnetic proteins, because they can help characterise a number of parameters including the number, distance and residence time of water molecules coordinated to the paramagnetic center, the reorientation correlation times and the electron spin relaxation time, and the electronic structure at the metal site.

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来源期刊
CiteScore
14.30
自引率
8.20%
发文量
12
审稿时长
62 days
期刊介绍: Progress in Nuclear Magnetic Resonance Spectroscopy publishes review papers describing research related to the theory and application of NMR spectroscopy. This technique is widely applied in chemistry, physics, biochemistry and materials science, and also in many areas of biology and medicine. The journal publishes review articles covering applications in all of these and in related subjects, as well as in-depth treatments of the fundamental theory of and instrumental developments in NMR spectroscopy.
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