Base sequence damage in DNA from X-irradiated monkey CV-1 cells.

International journal of radiation biology and related studies in physics, chemistry, and medicine Pub Date : 1988-02-01 DOI:10.1080/09553008814550581

J M Feingold, J Masch, J Maio, F Mendez, R Bases

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引用次数: 17

Abstract

Two kinds of 3'-ends were detected in DNA scission fragments of highly repetitive primate component alpha DNA which were isolated from irradiated monkey CV-1 cells. The fragments' 3'-ends were characterized by 5'-32P-end labelling the DNA, followed by examination in high-resolution polyacrylamide gels under denaturing conditions. Hydrolysis of the labelled fragments' termini with exonuclease III of E. coli or by the 3'-phosphatase activity of T4 polynucleotide kinase generated a third, slowest migrating species in each mobility size class. Reference to mobility size class standards makes it highly probable that the fragment ends generated by X-rays in cells are 3'-phosphoryl and 3'-phosphoglycolate, and that they are converted to slower migrating fragments with 3'-OH ends, similar to results obtained with DNA irradiated in water (Henner et al. 1982, 1983 a, b). Densitometer measurements of gel autoradiograms showed that X-ray induction of DNA fragments with 3'-phosphoryl and 3'-phosphoglycolate ends was dose-dependent over a range 100-900 Gy. In CV-1 cells the frequency of single-strand breaks in alpha DNA was 8.6 x 10(-7) breaks/nt/Gy. The two kinds of ends disappeared in post-radiation incubation with a half-time of 1.6 h. These results provide a new means to study X-ray damage and repair of specific sequences in animal cells.

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x射线照射猴CV-1细胞DNA碱基序列损伤。

从辐照后的猴CV-1细胞中分离的高重复灵长类α DNA片段中检测到两种3′端。片段的“3”端通过5'- 32p端标记DNA来表征，然后在高分辨率聚丙烯酰胺凝胶中在变性条件下进行检测。用大肠杆菌的核酸外切酶III或T4多核苷酸激酶的3′-磷酸酶活性水解标记片段的末端，产生第三个迁移速度最慢的物种。参考迁移大小等级标准，x射线在细胞中产生的片段端极有可能是3'-磷酰和3'-磷酸乙醇酸，它们被转化为具有3'-OH端的迁移较慢的片段，类似于DNA在水中辐照得到的结果(Henner et al. 1982, 1983 a)。b).凝胶放射自显像的密度计测量显示，在100-900 Gy范围内，3'-磷酸基和3'-磷酸乙醇酸端DNA片段的x射线诱导是剂量依赖性的。在CV-1细胞中，α DNA单链断裂的频率为8.6 × 10(-7)次/nt/Gy。这两种末端在辐射后半孵育1.6 h后消失。这些结果为研究动物细胞中特定序列的x射线损伤和修复提供了新的手段。

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International journal of radiation biology and related studies in physics, chemistry, and medicine

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