双功能 DNA 糖苷酶的裂合酶活性和 APE1 的 3′-二酯酶活性有助于核小体中氧化碱基的修复。

The lyase activity of bifunctional DNA glycosylases and the 3'-diesterase activity of APE1 contribute to the repair of oxidized bases in nucleosomes.

机构信息

Department of Microbiology and Molecular Genetics, University of Vermont, Burlington, VT 05405-0068, USA.

出版信息

Nucleic Acids Res. 2019 Apr 8;47(6):2922-2931. doi: 10.1093/nar/gky1315.

DOI:10.1093/nar/gky1315

PMID:30649547

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6451105/

Abstract

The vast majority of oxidized bases that form in DNA are subject to base excision repair (BER). The DNA intermediates generated during successive steps in BER may prove mutagenic or lethal, making it critical that they be 'handed' from one BER enzyme to the next in a coordinated fashion. Here, we report that the handoff of BER intermediates that occurs during the repair of naked DNA substrates differs significantly from that in nucleosomes. During BER of oxidized bases in naked DNA, products generated by the DNA glycosylase NTHL1 were efficiently processed by the downstream enzyme, AP-endonuclease (APE1). In nucleosomes, however, NTHL1-generated products accumulated to significant levels and persisted for some time. During BER of naked DNA substrates, APE1 completely bypasses the inefficient lyase activity of NTHL1. In nucleosomes, the NTHL1-associated lyase contributes to BER, even in the presence of APE1. Moreover, in nucleosomes but not in naked DNA, APE1 was able to process NTHL1 lyase-generated substrates just as efficiently as it processed abasic sites. Thus, the lyase activity of hNTHL1, and the 3' diesterase activity of APE1, which had been seen as relatively dispensable, may have been preserved during evolution to enhance BER in chromatin.

摘要

绝大多数在 DNA 中形成的氧化碱基都受到碱基切除修复（BER）的影响。BER 过程中连续步骤产生的 DNA 中间体可能具有诱变或致死性，因此，将它们从一个 BER 酶协调地传递到下一个酶至关重要。在这里，我们报告说，在裸 DNA 底物修复过程中发生的 BER 中间体的交接与核小体中的显著不同。在裸 DNA 中氧化碱基的 BER 过程中，DNA 糖苷酶 NTHL1 产生的产物被下游酶 AP 内切酶（APE1）有效地处理。然而，在核小体中，NTHL1 产生的产物积累到显著水平并持续一段时间。在裸 DNA 底物的 BER 过程中，APE1 完全绕过了 NTHL1 低效的裂解酶活性。在核小体中，即使存在 APE1，NTHL1 相关的裂解酶也有助于 BER。此外，在核小体中而不是在裸 DNA 中，APE1 能够像处理无碱基位点一样有效地处理 NTHL1 裂解酶生成的底物。因此，hNTHL1 的裂解酶活性和 APE1 的 3' 二酯酶活性，以前被认为是相对可有可无的，可能在进化过程中被保留下来，以增强染色质中的 BER。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/98b5/6451105/80a2442532a0/gky1315fig1.jpg

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双功能 DNA 糖苷酶的裂合酶活性和 APE1 的 3′-二酯酶活性有助于核小体中氧化碱基的修复。

The lyase activity of bifunctional DNA glycosylases and the 3'-diesterase activity of APE1 contribute to the repair of oxidized bases in nucleosomes.

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