溶剂饱和共振的质子核磁共振光谱法：一种原位研究pH效应的新方法。

Proton NMR spectroscopy of solvent-saturable resonances: a new approach to study pH effects in situ.

作者信息

Mori S, Eleff S M, Pilatus U, Mori N, van Zijl P C

机构信息

Department of Radiology, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205-2195, USA.

出版信息

Magn Reson Med. 1998 Jul;40(1):36-42. doi: 10.1002/mrm.1910400105.

DOI:10.1002/mrm.1910400105

PMID:9660550

Abstract

It is shown that the effect of pH changes can be measured in proton NMR spectra through the pH sensitivity of the signal intensities of metabolite protons exchanging with water. To observe this phenomenon, pulse sequences must be used that can sensitively observe these exchangeable protons under physiological conditions, which is achieved by avoiding magnetization transfer signal losses due to water saturation for solvent suppression purposes. These methods provide an order-of-magnitude enhancement of many signals between 5 and 10 ppm, containing both N-bound protons as well as aromatic C-H protons coupled to them, the intensity of which is influenced by exchange-relayed saturation. As a first application, the effects of pH change on these resonances are studied ex vivo (perfused cells) and in vivo (cat brain).

摘要

结果表明，通过与水交换的代谢物质子信号强度的pH敏感性，可以在质子核磁共振谱中测量pH变化的影响。为了观察这一现象，必须使用能够在生理条件下灵敏地观察这些可交换质子的脉冲序列，这是通过避免出于溶剂抑制目的的水饱和导致的磁化转移信号损失来实现的。这些方法使5至10 ppm之间的许多信号增强了一个数量级，这些信号既包含与氮结合的质子，也包含与之耦合的芳香族碳氢键质子，其强度受交换中继饱和的影响。作为第一个应用，在体外（灌注细胞）和体内（猫脑）研究了pH变化对这些共振的影响。

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溶剂饱和共振的质子核磁共振光谱法：一种原位研究pH效应的新方法。

Proton NMR spectroscopy of solvent-saturable resonances: a new approach to study pH effects in situ.

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