The evolution of biomedical EPR (ESR)

IF 0.3 Q4 SPECTROSCOPY Biomedical Spectroscopy and Imaging Pub Date : 2017-06-20 DOI:10.3233/BSI-150128

L. Berliner

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引用次数: 17

Abstract

Since the first EPR/ESR spectrum of a paramagnetic substance was published over 70 years ago, the technical improvements did not occur until after/during World War II with the advent of radar technology. The approaches to biomedical problems started somewhat later with the real burst of activity starting after the birth of the spin label technique about 50 years ago. The applications to proteins, then membranes and nucleic acids, and later applications to cells and eventually in-vivo on small animals and now humans has led EPR/ESR to finally being recognized as a uniquely powerful technique in the toolbox of techniques probing macromolecules and their interactions, free radical biology and its eventual value as a diagnostic technique. This article gives an overview of EPR/ESR studies of biomedically related systems, including proteins and enzymes. It presents a very personal historical perspective, briefly reviews the origins of the technique and reflects on possible future directions. As with NMR, advances in molecular biology and technology drastically changed the nature and focus of the technique, particularly the site directed spin labeling method that has been invaluable in determining protein and macromolecular structure by both EPR and NMR.

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生物医学EPR（ESR）的发展

自从顺磁物质的第一个EPR/ESR谱在70多年前发表以来，直到第二次世界大战之后/期间雷达技术的出现才出现技术改进。解决生物医学问题的方法开始得稍晚一些，真正的活动爆发始于大约50年前自旋标签技术的诞生。应用于蛋白质，然后是膜和核酸，后来应用于细胞，最终应用于小动物体内，现在是人类，这使得EPR/ESR最终被认为是一种独特的强大技术，在探测大分子及其相互作用的技术工具箱中，自由基生物学及其作为诊断技术的最终价值。本文综述了生物医学相关系统的EPR/ESR研究，包括蛋白质和酶。它呈现了一个非常个人的历史视角，简要回顾了技术的起源，并反映了可能的未来方向。与核磁共振一样，分子生物学和技术的进步极大地改变了该技术的性质和重点，特别是位点定向自旋标记方法，该方法在通过EPR和核磁共振确定蛋白质和大分子结构方面具有不可宝贵的价值。

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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Biomedical Spectroscopy and Imaging SPECTROSCOPY-

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期刊介绍： Biomedical Spectroscopy and Imaging (BSI) is a multidisciplinary journal devoted to the timely publication of basic and applied research that uses spectroscopic and imaging techniques in different areas of life science including biology, biochemistry, biotechnology, bionanotechnology, environmental science, food science, pharmaceutical science, physiology and medicine. Scientists are encouraged to submit their work for publication in the form of original articles, brief communications, rapid communications, reviews and mini-reviews. Techniques covered include, but are not limited, to the following: • Vibrational Spectroscopy (Infrared, Raman, Teraherz) • Circular Dichroism Spectroscopy • Magnetic Resonance Spectroscopy (NMR, ESR) • UV-vis Spectroscopy • Mössbauer Spectroscopy • X-ray Spectroscopy (Absorption, Emission, Photoelectron, Fluorescence) • Neutron Spectroscopy • Mass Spectroscopy • Fluorescence Spectroscopy • X-ray and Neutron Scattering • Differential Scanning Calorimetry • Atomic Force Microscopy • Surface Plasmon Resonance • Magnetic Resonance Imaging • X-ray Imaging • Electron Imaging • Neutron Imaging • Raman Imaging • Infrared Imaging • Terahertz Imaging • Fluorescence Imaging • Near-infrared spectroscopy.