使用 (19)F NMR 探测蛋白质和肽的生物相互作用。

Using (19)F NMR to probe biological interactions of proteins and peptides.

机构信息

Department of Chemistry, University of Michigan , Ann Arbor, Michigan 48109, United States.

出版信息

ACS Chem Biol. 2014 Jun 20;9(6):1242-50. doi: 10.1021/cb500111u. Epub 2014 May 6.

PMID:24762032

Abstract

Fluorine is a valuable probe for investigating the interactions of biological molecules because of its favorable NMR characteristics, its small size, and its near total absence from biology. Advances in biosynthetic methods allow fluorine to be introduced into peptides and proteins with high precision, and the increasing sensitivity of NMR spectrometers has facilitated the use of (19)F NMR to obtain molecular-level insights into a wide range of often-complex biological interactions. Here, we summarize the advantages of solution-state (19)F NMR for studying the interactions of peptides and proteins with other biological molecules, review methods for the production of fluorine-labeled materials, and describe some representative recent examples in which (19)F NMR has been used to study conformational changes in peptides and proteins and their interactions with other biological molecules.

摘要

氟是一种很有价值的探针，可用于研究生物分子的相互作用，因为它具有理想的 NMR 特性、较小的尺寸以及在生物学中几乎完全不存在。生物合成方法的进步使得可以高精度地将氟引入肽和蛋白质中，并且 NMR 光谱仪的灵敏度不断提高，这促进了使用 (19)F NMR 来获得对广泛的、通常复杂的生物相互作用的分子水平的见解。在这里，我们总结了溶液态 (19)F NMR 用于研究肽和蛋白质与其他生物分子相互作用的优势，综述了制备氟标记材料的方法，并描述了一些最近使用 (19)F NMR 研究肽和蛋白质的构象变化及其与其他生物分子相互作用的代表性示例。

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使用 (19)F NMR 探测蛋白质和肽的生物相互作用。

Using (19)F NMR to probe biological interactions of proteins and peptides.

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