Mechanism of Resveratrol Dimers Isolated from Grape Inhibiting 1O2 Induced DNA Damage by UHPLC-QTOF-MS2 and UHPLC-QQQ-MS2 Analyses

白藜芦醇 化学 单线态氧 DNA损伤 鸟嘌呤 二聚体 DNA 间苯二酚 活性氧 DNA氧化 生物化学 氧气 核苷酸 有机化学 基因
作者
Qingjun Kong,Qingzhi Zeng,Jia Yu,Hongxi Xiao,Jun Lu,Xueyan Ren
出处
期刊:Biomedicines [Multidisciplinary Digital Publishing Institute]
卷期号:9 (3): 271-271 被引量:3
标识
DOI:10.3390/biomedicines9030271
摘要

Resveratrol dimers have been extensively reported on due to their antioxidative activity. Previous studies revealed that resveratrol dimer has been shown to selectively quench singlet oxygen (1O2), and could protect DNA from oxidative damage. The mechanism of resveratrol dimers protecting DNA against oxidative damage is still not clear. Therefore, in this project, the reactants and products of resveratrol dimers protecting guanine from oxidative damage were qualitatively monitored and quantitatively analyzed by UHPLC-QTOF-MS2 and UHPLC-QQQ-MS2. Results showed that when guanine and resveratrol dimers were attacked by 1O2, mostly resveratrol dimers were oxidized, which protected guanine from oxidation. Resveratrol dimers’ oxidation products were identified and quantified at m/z 467.1134 [M-H]− and 467.1118 [M-H]−, respectively. The resorcinol of resveratrol dimers reacted with singlet oxygen to produce p-benzoquinone, protecting guanine from 1O2 damage. Therefore, it is hereby reported for the first time that the resorcinol ring is the characteristic structure in stilbenes inhibiting 1O2 induced-DNA damage, which provides a theoretical basis for preventing and treating DNA damage-mediated diseases.
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