基于 FRET 的辐射诱导 DNA 损伤聚集的荧光各向异性研究。

Fluorescence anisotropy study of radiation-induced DNA damage clustering based on FRET.

机构信息

DNA Damage Chemistry Research Group, Institute for Quantum Life Science, National Institutes for Quantum and Radiological Science and Technology (QST), 8-1-7 Umemidai, Kizugawa, 619-0215, Kyoto, Japan.

Division of Radiation Life Science, Institute for Integrated Radiation and Nuclear Science, Kyoto University, 2 Asashiro-Nishi, Kumatori, Sennan, Osaka, 590-0494, Japan.

出版信息

Anal Bioanal Chem. 2021 Feb;413(4):1185-1192. doi: 10.1007/s00216-020-03082-w. Epub 2020 Nov 27.

DOI:10.1007/s00216-020-03082-w

PMID:33245399

Abstract

A clustered DNA damage site (cluster), in which two or more lesions exist within a few helical turns, is believed to be a key factor determining the fate of a living cell exposed to a DNA damaging agent such as ionizing radiation. However, the structural details of a cluster such as the number of included lesions and their proximity are unknown. Herein, we develop a method to characterize a cluster by fluorescence anisotropy measurements based on Förster resonance energy transfer (homo-FRET). Plasmid DNA (pUC19) was irradiated with 2.0 and 0.52 MeV/u He, or 0.37 MeV/u C ion beams (linear energy transfer: ~ 70, ~ 150, ~ 760 keV/μm, respectively) and Co γ-rays as a standard (~ 0.2 keV/μm) in the solid state. The irradiated DNA was labeled with an aminooxyl fluorophore (Alexa Fluor 488) to the aldehyde/ketone moieties such as apurinic/apyrimidinic sites. Homo-FRET analyses provided the apparent base separation values between lesions in a cluster produced by each ion beam track as 21.1, 19.4, and 18.7 base pairs. The production frequency of a cluster increases with increasing linear energy transfer of radiation. Our results demonstrate that homo-FRET analysis has the potential to discover the qualitative and the quantitative differences of the clusters produced not only by a variety of ionizing radiation but also by other DNA damaging agents.

摘要

一个聚集的 DNA 损伤位点（cluster），其中两个或更多的损伤存在于几个螺旋圈之内，被认为是决定暴露于 DNA 损伤剂（如电离辐射）的活细胞命运的关键因素。然而，cluster 的结构细节，如包含的损伤数量及其接近程度，尚不清楚。在此，我们开发了一种通过荧光各向异性测量基于Förster 共振能量转移（homo-FRET）来表征 cluster 的方法。质粒 DNA（pUC19）在固态下用 2.0 和 0.52 MeV/u He 或 0.37 MeV/u C 离子束（线性能量转移：分别为~~70、~~150 和~~760 keV/μm）以及 Co γ射线（作为标准，~~0.2 keV/μm）进行辐照。辐照后的 DNA 用氨氧基荧光团（Alexa Fluor 488）标记到醛/酮部分，例如无嘌呤/无嘧啶部位。homo-FRET 分析提供了由每种离子束轨迹产生的 cluster 中损伤之间的表观碱基分离值为 21.1、19.4 和 18.7 个碱基对。cluster 的产生频率随辐射的线性能量转移的增加而增加。我们的结果表明，homo-FRET 分析有可能发现不仅由各种电离辐射而且由其他 DNA 损伤剂产生的 cluster 的定性和定量差异。

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基于 FRET 的辐射诱导 DNA 损伤聚集的荧光各向异性研究。

Fluorescence anisotropy study of radiation-induced DNA damage clustering based on FRET.

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