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广义傅里叶变换投影核磁共振光谱学的原理与应用

Principles and applications of GFT projection NMR spectroscopy.

作者信息

Szyperski Thomas, Atreya Hanudatta S

机构信息

Department of Chemistry, The State University of New York at Buffalo, The Northeast Structural Genomics Consortium, Buffalo, NY 14260, USA.

出版信息

Magn Reson Chem. 2006 Jul;44 Spec No:S51-60. doi: 10.1002/mrc.1817.

Abstract

The two defining features of G-matrix Fourier transform (GFT) projection NMR spectroscopy are (i) repeated joint sampling of several indirect chemical shift evolution periods of a multidimensional NMR experiment so that transfer amplitudes are generated which are proportional to all possible permutations of cosine and sine modulations of the individual shifts, and (ii) linear combination of the subspectra resulting from such repeated joint sampling in the time or frequency domain which yields edited subspectra containing signals encoding phase-sensitively detected linear combinations of the jointly sampled shifts. This review sketches the underlying principles of GFT NMR and outlines its relation to further developments such as the reconstruction of multidimensional NMR spectra.

摘要

G 矩阵傅里叶变换(GFT)投影核磁共振波谱的两个决定性特征是:(i)对多维核磁共振实验的几个间接化学位移演化期进行重复联合采样,从而生成与各个位移的余弦和正弦调制的所有可能排列成比例的转移幅度;(ii)在时域或频域中对这种重复联合采样产生的子谱进行线性组合,从而得到经过编辑的子谱,其中包含对联合采样位移进行相敏检测线性组合编码的信号。本综述概述了 GFT 核磁共振的基本原理,并概述了其与多维核磁共振谱重建等进一步发展的关系。

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