乙二醛是DNA氧化的主要产物,可在哺乳动物细胞中复制的穿梭载体质粒上的G:C位点诱导突变。
Glyoxal, a major product of DNA oxidation, induces mutations at G:C sites on a shuttle vector plasmid replicated in mammalian cells.
作者信息
Murata-Kamiya N, Kamiya H, Kaji H, Kasai H
机构信息
Department of Health Policy and Management, Institute of Industrial Ecological Sciences, University of Occupational and Environmental Health, 1-1 Iseigaoka, Yahatanishi-ku, Kitakyushu 807, Japan.
出版信息
Nucleic Acids Res. 1997 May 15;25(10):1897-902. doi: 10.1093/nar/25.10.1897.
Abstract
Glyoxal is a major product of DNA oxidation in which Fenton-type oxygen free radical-forming systems are involved. To determine the mutation spectrum of glyoxal in mammalian cells and to compare the spectrum with those observed in other experimental systems, we analyzed mutations in a bacterial suppressor tRNA gene (supF) in the shuttle vector plasmid pMY189. We treated pMY189 with glyoxal and immediately transfected it into simian COS-7 cells. The cytotoxicity and mutation frequency increased according to the dose of glyoxal. The majority of glyoxal-induced mutations (48%) were single-base substitutions. Eighty three percent of the single-base substitutions occurred at G:C base pairs. Among them, G:C-->T:A transversions were predominant, followed by G:C-->C:G transversions and G:C-->A:T transitions. A:T-->T:A transversions were also observed. Mutational hotspots within the supF gene were detected. These results suggest that glyoxal may play an important role in mutagenesis induced by oxygen free radicals.
摘要
乙二醛是涉及芬顿型氧自由基形成系统的DNA氧化的主要产物。为了确定乙二醛在哺乳动物细胞中的突变谱,并将该谱与在其他实验系统中观察到的谱进行比较,我们分析了穿梭载体质粒pMY189中细菌抑制性tRNA基因(supF)的突变。我们用乙二醛处理pMY189并立即将其转染到猴COS-7细胞中。细胞毒性和突变频率随乙二醛剂量增加而增加。乙二醛诱导的突变大多数(48%)是单碱基替换。83%的单碱基替换发生在G:C碱基对处。其中,G:C→T:A颠换占主导,其次是G:C→C:G颠换和G:C→A:T转换。还观察到A:T→T:A颠换。在supF基因内检测到突变热点。这些结果表明乙二醛可能在氧自由基诱导的诱变中起重要作用。
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