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与位点特异性辐射诱导的DNA双链断裂相关的碱基损伤聚类的分子分析。

Molecular analysis of base damage clustering associated with a site-specific radiation-induced DNA double-strand break.

作者信息

Datta Kamal, Jaruga Pawel, Dizdaroglu Miral, Neumann Ronald D, Winters Thomas A

机构信息

Department of Nuclear Medicine, Warren Grant Magnuson Clinical Center, National Institutes of Health, Bethesda, MD 20892, USA.

出版信息

Radiat Res. 2006 Nov;166(5):767-81. doi: 10.1667/RR0628.1.

DOI:10.1667/RR0628.1
PMID:17067210
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2901180/
Abstract

Base damage flanking a radiation-induced DNA double-strand break (DSB) may contribute to DSB complexity and affect break repair. However, to date, an isolated radiation-induced DSB has not been assessed for such structures at the molecular level. In this study, an authentic site-specific radiation-induced DSB was produced in plasmid DNA by triplex forming oligonucleotide-targeted (125)I decay. A restriction fragment terminated by the DSB was isolated and probed for base damage with the E. coli DNA repair enzymes endonuclease III and formamidopyrimidine-DNA glycosylase. Our results demonstrate base damage clustering within 8 bases of the (125)I-targeted base in the DNA duplex. An increased yield of base damage (purine > pyrimidine) was observed for DSBs formed by irradiation in the absence of DMSO. An internal control fragment 1354 bp upstream from the targeted base was insensitive to enzymatic probing, indicating that the damage detected proximal to the DSB was produced by the (125)I decay that formed the DSB. Gas chromatography-mass spectrometry identified three types of damaged bases in the approximately 32-bp region proximal to the DSB. These base lesions were 8-hydroxyguanine, 8-hydroxyadenine and 5-hydroxycytosine. Finally, evidence is presented for base damage >24 bp upstream from the (125)I-decay site that may form via a charge migration mechanism.

摘要

辐射诱导的DNA双链断裂(DSB)侧翼的碱基损伤可能会导致DSB的复杂性增加,并影响断裂修复。然而,迄今为止,尚未在分子水平上评估孤立的辐射诱导DSB的此类结构。在本研究中,通过三链形成寡核苷酸靶向的(125)I衰变在质粒DNA中产生了真实的位点特异性辐射诱导DSB。分离出由DSB终止的限制性片段,并用大肠杆菌DNA修复酶内切核酸酶III和甲酰胺嘧啶-DNA糖基化酶探测碱基损伤。我们的结果表明,在DNA双链体中(125)I靶向碱基的8个碱基范围内存在碱基损伤聚集。在不存在二甲基亚砜的情况下,通过辐射形成的DSB观察到碱基损伤(嘌呤>嘧啶)产量增加。靶向碱基上游1354 bp的内部对照片段对酶促探测不敏感,表明在DSB近端检测到的损伤是由形成DSB的(125)I衰变产生的。气相色谱-质谱法在DSB近端约32 bp区域鉴定出三种类型的损伤碱基。这些碱基损伤为8-羟基鸟嘌呤、8-羟基腺嘌呤和5-羟基胞嘧啶。最后,有证据表明在(125)I衰变位点上游>24 bp处存在碱基损伤,其可能通过电荷迁移机制形成。

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