核磁共振中纵向交叉弛豫率的精确测量。

Accurate measurement of longitudinal cross-relaxation rates in nuclear magnetic resonance.

作者信息

Pelupessy Philippe, Ferrage Fabien, Bodenhausen Geoffrey

机构信息

Département de Chimie, Associé au CNRS, Ecole Normale Supérieure, 24 rue Lhomond, 75231 Paris Cedex 05, France.

出版信息

J Chem Phys. 2007 Apr 7;126(13):134508. doi: 10.1063/1.2715583.

DOI:10.1063/1.2715583

PMID:17430048

Abstract

The accuracy of the determination of longitudinal cross-relaxation rates in NMR can be improved by combining symmetrical reconversion with suitable operator swapping methods that lead to the averaging of differences in autorelaxation rates and eliminate the effects of cross relaxation with the environment. The principles are first discussed for an isolated two-spin system comprising a pair of 15N and 1HN nuclei subjected to chemical shift anisotropy and dipole-dipole relaxation, and then extended to include further protons. The gains in accuracy are demonstrated experimentally for the protein ubiquitin.

摘要

通过将对称再转换与合适的算符交换方法相结合，可提高核磁共振中纵向交叉弛豫率测定的准确性，这些方法能使自弛豫率差异平均化，并消除与环境的交叉弛豫效应。首先针对包含一对受化学位移各向异性和偶极-偶极弛豫作用的15N和1H核的孤立双自旋系统讨论这些原理，然后将其扩展到包含更多质子的情况。通过对蛋白质泛素的实验证明了准确性的提高。

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核磁共振中纵向交叉弛豫率的精确测量。

Accurate measurement of longitudinal cross-relaxation rates in nuclear magnetic resonance.

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