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生物系统中的光子诱导俄歇效应:综述

Photon-induced Auger effect in biological systems: a review.

作者信息

Yokoya Akinari, Ito Takashi

机构信息

a Quantum Beam Science Research Directorate , National Institutes for Quantum and Radiological Science and Technology , Naka , Ibaraki , Japan.

b Graduate School of Arts and Sciences , The University of Tokyo , Komaba , Tokyo , Japan.

出版信息

Int J Radiat Biol. 2017 Aug;93(8):743-756. doi: 10.1080/09553002.2017.1312670. Epub 2017 May 15.

DOI:10.1080/09553002.2017.1312670
PMID:28397587
Abstract

PURPOSE

In this paper, we review interesting findings reported in the studies of the biological effects induced by inner-shell ionization with the aim of interpreting them from a mechanistic viewpoint, in particular, of the Auger effect of atoms on different biological systems.

MATERIALS AND METHODS

More than 70 published papers are cited on the Auger effects ranging from DNA-related elements (carbon, nitrogen, oxygen and phosphorus) to mammalian cells. Externally administrated bromine, iodine, and platinum have also been cited for the present endeavor. Those significant works all needed a highly monochromatized X-rays from brilliant synchrotron light sources.

RESULTS

We have assembled a coherent view on the inner-shell effects of the Auger process that contrasts to the overall effects with the outer-shell ionization processes.

CONCLUSION

Some of these studies have reported that the Auger effect significantly enhances biological effects as compared with irradiation at below K-ionization energy. The Auger-specific molecular degradation mode of DNA, involving extensive fragmentation of the deoxypentose moiety, has also been revealed. We conclude that the selectively localized effect on the specified atoms through inner-shell ionization followed by the Auger process should have a definite impact on the current radiation effect studies, which are largely based on non-selective outer-shell ionizations.

摘要

目的

在本文中,我们回顾了内壳层电离诱导的生物学效应研究中报道的有趣发现,旨在从机制角度对其进行解释,特别是原子对不同生物系统的俄歇效应。

材料与方法

引用了70多篇已发表的关于俄歇效应的论文,范围从与DNA相关的元素(碳、氮、氧和磷)到哺乳动物细胞。本研究还引用了外部施用的溴、碘和铂。所有这些重要研究都需要来自高亮度同步辐射光源的高度单色化X射线。

结果

我们对俄歇过程的内壳层效应形成了一个连贯的观点,这与外壳层电离过程的总体效应形成对比。

结论

其中一些研究报告称,与低于K电离能的辐射相比,俄歇效应显著增强了生物学效应。还揭示了DNA的俄歇特异性分子降解模式,包括脱氧戊糖部分的广泛断裂。我们得出结论,通过内壳层电离继之以俄歇过程对特定原子的选择性局部效应,应该会对目前主要基于非选择性外壳层电离的辐射效应研究产生一定影响。

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