镉-113 磁共振波谱学。

Cadmium-113 magnetic resonance spectroscopy.

出版信息

Science. 1983 Sep 16;221(4616):1141-6. doi: 10.1126/science.221.4616.1141.

DOI:10.1126/science.221.4616.1141

Abstract

Cadmium-113 nuclear magnetic resonance spectroscopy has been used in studies of the structure and dynamics of inorganic and bioinorganic molecules. Chemical dynamics play an important role in the analysis of relaxation and chemical shift data. Naïve interpretations of relaxation data can be checked by performing these experiments at a variety of temperatures and magnetic field strengths. A combination of solid- and liquid-state nuclear magnetic resonance measurements can provide the user with unambiguous data on chemical shielding. These data can be used to characterize zinc and calcium ion binding sites in metalloproteins.

摘要

镉-113 核磁共振波谱学已被用于无机和生物无机分子的结构和动力学研究。化学动力学在弛豫和化学位移数据分析中起着重要作用。通过在不同温度和磁场强度下进行这些实验，可以检查对弛豫数据的原始解释。固体和液体核磁共振测量的组合可以为用户提供关于化学屏蔽的明确数据。这些数据可用于表征金属蛋白中的锌和钙离子结合位点。

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镉-113 磁共振波谱学。

Cadmium-113 magnetic resonance spectroscopy.

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