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利用原子力显微镜研究γ射线和电子束对DNA的片段化作用。

DNA fragmentation by gamma radiation and electron beams using atomic force microscopy.

作者信息

González Luis Nieto, Arruda-Neto João D T, Cotta Monica A, Carrer Helaine, Garcia Fermin, Silva Ricardo A S, Moreau Antonio L D, Righi Henriette, Genofre Godofredo C

机构信息

Departamento de Ciência e Tecnologia, Universidade Estadual de Santa Cruz, Ilhéus, BA Brazil.

出版信息

J Biol Phys. 2012 Jun;38(3):531-42. doi: 10.1007/s10867-012-9270-z. Epub 2012 May 27.

DOI:10.1007/s10867-012-9270-z
PMID:23729912
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3388197/
Abstract

Double-stranded pBS plasmid DNA was irradiated with gamma rays at doses ranging from 1 to 12 kGy and electron beams from 1 to 10 kGy. Fragment-size distributions were determined by direct visualization, using atomic force microscopy with nanometer-resolution operating in non-tapping mode, combined with an improved methodology. The fragment distributions from irradiation with gamma rays revealed discrete-like patterns at all doses, suggesting that these patterns are modulated by the base pair composition of the plasmid. Irradiation with electron beams, at very high dose rates, generated continuous distributions of highly shattered DNA fragments, similar to results at much lower dose rates found in the literature. Altogether, these results indicate that AFM could supplement traditional methods for high-resolution measurements of radiation damage to DNA, while providing new and relevant information.

摘要

双链pBS质粒DNA用剂量范围为1至12千戈瑞的γ射线和1至10千戈瑞的电子束进行辐照。使用在非轻敲模式下以纳米分辨率运行的原子力显微镜并结合改进的方法,通过直接可视化来确定片段大小分布。γ射线辐照产生的片段分布在所有剂量下均显示出离散样模式,表明这些模式受质粒碱基对组成的调节。在非常高的剂量率下用电子束辐照产生了高度破碎的DNA片段的连续分布,类似于文献中在低得多的剂量率下发现的结果。总之,这些结果表明原子力显微镜可以补充传统方法用于对DNA辐射损伤进行高分辨率测量,同时提供新的相关信息。

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