The endogenous nuclease sensitivity of repaired DNA in human fibroblasts

Mutation Research/DNA Repair Reports Pub Date : 1987-09-01 DOI:10.1016/0167-8817(87)90074-5

Audrey N. Player, G.J. Kantor

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引用次数: 8

Abstract

The limited DNA excision repair that occurs in the chromatin of UV-irradiated growth arrested cells isolated from a xeroderma pigmentosum (XP) complementation group C patient is clustered in localized regions. The repaired DNA was found to be more sensitive to nicking by endogenous nucleases than the bulk of the DNA. The extra-sensitivity does not change with increasing amounts of DNA damage or repair activity in the locally-repaired regions and is retained through a 24-h chase period. We suggest that these results are due to the occurrence of DNA repair limited to pre-existing, non-transient chromatin fractions that contain actively transcribed DNA. A similar extra-sensitivity of repaired DNA was not detected in cells of normal or XP complementation group A strains that exhibit either normal or limited repair located randomly throughout their genomes. The association between endogenous nuclease sensitivity and clustered repair probably defines a normal excision repair pathway that is specific for selected chromatin domains. The repair defect in XP-C strains may be one in pathways targeted for other endogenous nuclease-resistant domains.

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人成纤维细胞修复DNA的内源性核酸酶敏感性

从色素性干皮病(XP)补体C组患者分离的紫外线照射生长阻滞细胞的染色质中发生的有限DNA切除修复聚集在局部区域。修复后的DNA比大部分DNA对内源性核酸酶的切口更敏感。这种额外敏感性不会随着DNA损伤量的增加或局部修复区域修复活性的增加而改变，并在24小时的追踪期内保持不变。我们认为，这些结果是由于DNA修复的发生局限于预先存在的、非瞬时的染色质组分，其中含有活性转录的DNA。在正常或XP互补组A株的细胞中，没有检测到类似的修复DNA的额外敏感性，这些细胞在其基因组中随机分布，表现出正常或有限的修复。内源性核酸酶敏感性和集群修复之间的关系可能定义了一个正常的切除修复途径，该途径是特定于选定的染色质结构域的。XP-C菌株的修复缺陷可能是其他内源性核酸酶抗性结构域的靶向途径之一。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Mutation Research/DNA Repair Reports

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