DNA 修复糖苷酶 hNEIL1 通过竞争结合模式对损伤碱基进行分类。

DNA repair glycosylase hNEIL1 triages damaged bases via competing interaction modes.

机构信息

Peking-Tsinghua Center for Life Sciences, Peking University, Beijing, China.

Academy for Advanced Interdisciplinary Studies, Peking University, Beijing, China.

出版信息

Nat Commun. 2021 Jul 5;12(1):4108. doi: 10.1038/s41467-021-24431-y.

DOI:10.1038/s41467-021-24431-y

PMID:34226550

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8257757/

Abstract

DNA glycosylases must distinguish the sparse damaged sites from the vast expanse of normal DNA bases. However, our understanding of the nature of nucleobase interrogation is still limited. Here, we show that hNEIL1 (human endonuclease VIII-like 1) captures base lesions via two competing states of interaction: an activated state that commits catalysis and base excision repair, and a quarantine state that temporarily separates and protects the flipped base via auto-inhibition. The relative dominance of the two states depends on key residues of hNEIL1 and chemical properties (e.g. aromaticity and hydrophilicity) of flipped bases. Such a DNA repair mechanism allows hNEIL1 to recognize a broad spectrum of DNA damage while keeps potential gratuitous repair in check. We further reveal the molecular basis of hNEIL1 activity regulation mediated by post-transcriptional modifications and provide an example of how exquisite structural dynamics serves for orchestrated enzyme functions.

摘要

DNA 糖苷酶必须从广阔的正常 DNA 碱基中区分出稀疏的受损位点。然而，我们对核碱基检测的本质的理解仍然有限。在这里，我们表明 hNEIL1（人内切核酸酶 VIII 样 1）通过两种相互竞争的相互作用状态捕获碱基损伤：一种激活状态，可进行催化和碱基切除修复，以及一种隔离状态，通过自动抑制暂时分离和保护翻转碱基。两种状态的相对优势取决于 hNEIL1 的关键残基和翻转碱基的化学性质（例如芳香性和亲水性）。这种 DNA 修复机制允许 hNEIL1 识别广泛的 DNA 损伤，同时防止潜在的无端修复。我们进一步揭示了由转录后修饰介导的 hNEIL1 活性调节的分子基础，并提供了一个例子，说明精细的结构动力学如何为协调的酶功能服务。

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DNA 修复糖苷酶 hNEIL1 通过竞争结合模式对损伤碱基进行分类。

DNA repair glycosylase hNEIL1 triages damaged bases via competing interaction modes.

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