Masonic Cancer Center, University of Minnesota, Minneapolis 55455, Minnesota, United States.
Institute of Health Informatics, University of Minnesota, Minneapolis 55455, Minnesota, United States.
Anal Chem. 2021 Apr 27;93(16):6491-6500. doi: 10.1021/acs.analchem.1c00362. Epub 2021 Apr 12.
A novel software has been created to comprehensively characterize covalent modifications of DNA through mass spectral analysis of enzymatically hydrolyzed DNA using the neutral loss of 2'-deoxyribose, a nearly universal MS fragmentation process of protonated 2'-deoxyribonucleosides. These covalent modifications termed DNA adducts form through xenobiotic exposures or by reaction with endogenous electrophiles and can induce mutations during cell division and initiate carcinogenesis. DNA adducts are typically present at trace levels in the human genome, requiring a very sensitive and comprehensive data acquisition and analysis method. Our software, wSIM-City, was created to process mass spectral data acquired by a wide selected ion monitoring (wSIM) with gas-phase fractionation and coupled to wide MS fragmentation. This untargeted approach can detect DNA adducts at trace levels as low as 1.5 adducts per 10 nucleotides. This level of sensitivity is sufficient for comprehensive analysis and characterization of DNA modifications in human specimens.
一种新的软件已经被创建,用于通过使用酶解 DNA 的质谱分析来全面描述 DNA 的共价修饰,其中使用了 2'-脱氧核糖的中性丢失,这是质子化 2'-脱氧核苷的几乎普遍的 MS 碎裂过程。这些称为 DNA 加合物的共价修饰通过外源性暴露或与内源性亲电体反应形成,并且可以在细胞分裂期间诱导突变并引发癌变。DNA 加合物通常以痕量水平存在于人类基因组中,需要非常敏感和全面的数据采集和分析方法。我们的软件 wSIM-City 是为了处理通过气相分馏和与宽 MS 碎裂耦联的广泛选择离子监测 (wSIM) 获得的质谱数据而创建的。这种非靶向方法可以检测痕量水平的 DNA 加合物,低至每 10 个核苷酸 1.5 个加合物。这种灵敏度足以对人类标本中的 DNA 修饰进行全面分析和表征。