Use of spin traps in biological systems

Gerald M. Rosen Ph.D. , Eli Finkelstein Ph.D.,M.D.
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引用次数: 86

Abstract

Free radicals including superoxide have been proposed to mediate a variety of cellular responses including phagocytosis, ischemic tissue injury, aging and cancer. However, it has only been in recent years that procedures have been developed which allows one to study the role free radicals play in cellular injury. One such method that has received considerable attention is spin trapping. This technique consists of using a nitrone or a nitroso compound to “trap” the initial unstable free radical as a “long-lived” nitroxide that can be observed at room temperature using convention ESR spectrometric procedures. This review examines how a number of investigators have employed spin trapping methodologies to study the generation of free radicals as a consequence of biological activation by drugs and other foreign compounds.

自旋阱在生物系统中的应用
包括超氧化物在内的自由基已被提出介导多种细胞反应,包括吞噬、缺血组织损伤、衰老和癌症。然而,直到最近几年,人们才开始研究自由基在细胞损伤中所起的作用。其中一种受到相当关注的方法是自旋捕获。该技术包括使用硝基或亚硝基化合物来“捕获”初始的不稳定自由基,作为“长寿命”的氮氧化物,可以在室温下使用常规ESR光谱法观察。这篇综述考察了一些研究者如何利用自旋捕获方法来研究自由基的产生,这是药物和其他外来化合物生物激活的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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