Li Anatoliy, Schuermann David, Gallego Francesca, Kovalchuk Igor, Tinland Bruno
Institute of Plant Sciences, Eidgenössische Technishe Hochschule, Universitätsstr 2, CH-8092 Zürich, Switzerland.
Plant Cell. 2002 Jan;14(1):263-73. doi: 10.1105/tpc.010258.
All living organisms have to protect the integrity of their genomes from a wide range of genotoxic stresses to which they are inevitably exposed. However, understanding of DNA repair in plants lags far behind such knowledge in bacteria, yeast, and mammals, partially as a result of the absence of efficient in vitro systems. Here, we report the experimental setup for an Arabidopsis in vitro repair synthesis assay. The repair of plasmid DNA treated with three different DNA-damaging agents, UV light, cisplatin, and methylene blue, after incubation with whole-cell extract was monitored. To validate the reliability of our assay, we analyzed the repair proficiency of plants depleted in AtRAD1 activity. The reduced repair of UV light- and cisplatin-damaged DNA confirmed the deficiency of these plants in nucleotide excision repair. Decreased repair of methylene blue-induced oxidative lesions, which are believed to be processed by the base excision repair machinery in mammalian cells, may indicate a possible involvement of AtRAD1 in the repair of oxidative damage. Differences in sensitivity to DNA polymerase inhibitors (aphidicolin and dideoxy TTP) between plant and human cell extracts were observed with this assay.
所有生物都必须保护其基因组的完整性,使其免受各种不可避免会遇到的基因毒性应激的影响。然而,人们对植物DNA修复的了解远远落后于对细菌、酵母和哺乳动物的相关认识,部分原因是缺乏有效的体外系统。在此,我们报告了一种拟南芥体外修复合成试验的实验设置。监测了用三种不同的DNA损伤剂(紫外线、顺铂和亚甲蓝)处理过的质粒DNA在与全细胞提取物孵育后的修复情况。为了验证我们试验的可靠性,我们分析了AtRAD1活性缺失的植物的修复能力。紫外线和顺铂损伤的DNA修复减少证实了这些植物在核苷酸切除修复方面存在缺陷。亚甲蓝诱导的氧化损伤修复减少,而这种损伤在哺乳动物细胞中被认为是由碱基切除修复机制处理的,这可能表明AtRAD1可能参与了氧化损伤的修复。通过该试验观察到植物和人类细胞提取物对DNA聚合酶抑制剂(阿非迪霉素和双脱氧TTP)的敏感性存在差异。