适应DNA损伤与刺激遗传不稳定性：哺乳动物DNA聚合酶κ这把双刃剑

Adaptation to DNA damage and stimulation of genetic instability: the double-edged sword mammalian DNA polymerase kappa.

作者信息

Bavoux C, Hoffmann J S, Cazaux C

机构信息

Laboratory Genetic instability and cancer, Institut de Pharmacologie et de Biologie Structurale, CNRS UMR 5089, 205, route de Narbonne, 31077 Toulouse cedex, France.

出版信息

Biochimie. 2005 Jul;87(7):637-46. doi: 10.1016/j.biochi.2005.02.007. Epub 2005 Mar 18.

DOI:10.1016/j.biochi.2005.02.007

PMID:15989980

Abstract

A major tolerance mechanism that functions to replicate damaged genomic DNA across lesions that have escaped elimination by repair mechanism is translesion DNA synthesis (TLS). DNA polymerase kappa (Pol kappa), a specialised low-fidelity DNA polymerase which is able to perform DNA synthesis across several damaged bases, is one of the enzymes involved in the process. The mutagenic nature of Pol kappa implies that its expression must be tightly regulated to prevent the formation of excessive genetic disorders along undamaged parts of the genome. Indeed, Pol kappa overexpression, which is notably observed in lung cancer, results not only in increased spontaneous mutagenesis, but also in pleiotropic alterations such as DNA breaks, genetic exchanges and aneuploidy. This review will discuss both aspects of DNA polymerase kappa, which can be considered as a genomic supervisor participating in genome maintenance and when misregulated as a genetic instability enhancer as well.

摘要

一种主要的耐受机制是跨损伤DNA合成（TLS），其作用是在逃避修复机制清除的损伤位点处复制受损的基因组DNA。DNA聚合酶κ（Pol κ）是一种特殊的低保真DNA聚合酶，能够跨越多个受损碱基进行DNA合成，是参与该过程的酶之一。Pol κ的诱变性质意味着其表达必须受到严格调控，以防止在基因组未受损部分形成过多的遗传紊乱。事实上，在肺癌中显著观察到的Pol κ过表达不仅会导致自发诱变增加，还会导致多效性改变，如DNA断裂、基因交换和非整倍体。本综述将讨论DNA聚合酶κ的两个方面，它既可以被视为参与基因组维护的基因组监督者，也可以被视为调控错误时的遗传不稳定性增强剂。

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适应DNA损伤与刺激遗传不稳定性：哺乳动物DNA聚合酶κ这把双刃剑

Adaptation to DNA damage and stimulation of genetic instability: the double-edged sword mammalian DNA polymerase kappa.

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