发现用于修复氧化损伤DNA的新的哺乳动物酶家族及其生理意义。

The discovery of a new family of mammalian enzymes for repair of oxidatively damaged DNA, and its physiological implications.

作者信息

Hazra Tapas K, Izumi Tadahide, Kow Y Wah, Mitra Sankar

机构信息

Sealy Center for Molecular Science, University of Texas Medical Branch, Galveston, TX 77555, USA.

出版信息

Carcinogenesis. 2003 Feb;24(2):155-7. doi: 10.1093/carcin/24.2.155.

DOI:10.1093/carcin/24.2.155

PMID:12584162

Abstract

Oxidatively damaged bases in the genome are likely to be responsible for mutations leading to sporadic carcinogenesis. Two structurally similar DNA glycosylases, NTH1 and OGG1, which are able to excise most of these damaged bases, were identified previously in mammalian cells. A distinct family, consisting of two human DNA glycosylases orthologous to enzymes in Escherichia coli, has recently been characterized; they have overlapping substrate ranges with NTH1 and OGG1. The presence of multiple enzymes with potential back-up functions underscores the importance of removing both endogenously and exogenously generated oxidatively damaged bases from the genome, and may explain why no cancer or other disease phenotype has so far been linked to the deficiency of a single DNA glycosylase.

摘要

基因组中氧化损伤的碱基可能是导致散发性致癌作用的突变的原因。之前在哺乳动物细胞中鉴定出了两种结构相似的DNA糖基化酶，即NTH1和OGG1，它们能够切除大部分这些损伤的碱基。最近鉴定出了一个独特的家族，该家族由两种与大肠杆菌中的酶直系同源的人类DNA糖基化酶组成；它们与NTH1和OGG1具有重叠的底物范围。具有潜在备用功能的多种酶的存在突出了从基因组中去除内源性和外源性产生的氧化损伤碱基的重要性，并且可能解释了为什么迄今为止没有癌症或其他疾病表型与单一DNA糖基化酶的缺陷相关联。

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发现用于修复氧化损伤DNA的新的哺乳动物酶家族及其生理意义。

The discovery of a new family of mammalian enzymes for repair of oxidatively damaged DNA, and its physiological implications.

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