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引用次数: 0
摘要
环境致癌物质通过形成 DNA 加合物产生致癌作用。这种类型的 DNA 损伤也可由内源性形成,例如氧化损伤。未修复的 DNA 加合物可能会诱发关键基因的突变,导致化学致癌的发生。因此,DNA 加合物的检测、鉴定和定量对于癌症风险评估至关重要。在过去的 50 年中,不同类别的环境致癌物形成的主要 DNA 加合物已被定性。随着 32P 后标记等技术的发展,这些加合物的测量被应用到分子流行病学中。液相色谱-串联质谱(LC-MS)技术的进步使加合物的测量更加精确,并使人们能够了解它们的特性和结构。因此,DNA加合物组学(DNA adductomics)开辟了一条道路,即与蛋白质组学类似的全面研究 DNA 加合物的 "omics "方法。本综述从历史角度介绍了 DNA 加合物研究和新兴的加合物组学领域。
From single DNA adducts measurement to DNA adductomics in molecular epidemiology of cancer.
Environmental carcinogens exert their carcinogenic effects by forming DNA adducts. This type of DNA damage can also be formed endogenously as a result of, e.g., oxidative damage. Unrepaired DNA adducts may induce mutations in critical genes, leading to the initiation of chemical carcinogenesis. Therefore, detection, identification, and quantification of DNA adducts is essential for cancer risk assessment. Over the last 50 years, the major DNA adducts formed by different classes of environmental carcinogens were characterized. With the development of techniques such as 32P-postlabeling, their measurement was implemented into molecular epidemiology. Advances in liquid chromatography-tandem mass spectrometry (LC-MS ) made the measurement of adducts more precise and allowed to gain knowledge about their identity and structures. Therefore, opened the way to DNA adductomics, the "omics" approach investigating DNA adducts comprehensively, similarly to proteomics. This review presents the historical perspective of DNA adducts research and the emerging field of adductomics.
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