通过半 CpG-Np95-Dnmt1 轴增强哺乳动物基因组复制后 DNA 错配修复的表观遗传修饰。

Epigenetic Enhancement of the Post-replicative DNA Mismatch Repair of Mammalian Genomes by a Hemi-CpG-Np95-Dnmt1 Axis.

机构信息

Institute of Molecular Biology, Academia Sinica, Nankang, Taipei 11529, Taiwan.

Genome Research Center, National Yang-Ming University, Taipei 11221, Taiwan.

出版信息

Sci Rep. 2016 Nov 25;6:37490. doi: 10.1038/srep37490.

DOI:10.1038/srep37490

PMID:27886214

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5122852/

Abstract

DNA methylation at C of CpG dyads (CpG) in vertebrate genomes is essential for gene regulation, genome stability and development. We show in this study that proper functioning of post-replicative DNA mismatch repair (MMR) in mammalian cells relies on the presence of genomic CpG, as well as on the maintenance DNA methyltransferase Dnmt1 independently of its catalytic activity. More importantly, high efficiency of mammalian MMR surveillance is achieved through a hemi-CpG-Np95(Uhrf1)-Dnmt1 axis, in which the MMR surveillance complex(es) is recruited to post-replicative DNA by Dnmt1, requiring its interactions with MutSα, as well as with Np95 bound at the hemi-methylated CpG sites. Thus, efficiency of MMR surveillance over the mammalian genome in vivo is enhanced at the epigenetic level. This synergy endows vertebrate CpG methylation with a new biological significance and, consequently, an additional mechanism for the maintenance of vertebrate genome stability.

摘要

在脊椎动物基因组中，CpG 二核苷酸的 C 上的 DNA 甲基化对于基因调控、基因组稳定性和发育至关重要。在本研究中，我们表明，哺乳动物细胞中复制后 DNA 错配修复（MMR）的正常功能依赖于基因组 CpG 的存在，以及依赖于其催化活性的独立的 DNA 甲基转移酶 Dnmt1 的维持。更重要的是，通过半 CpG-Np95（Uhrf1）-Dnmt1 轴实现了哺乳动物 MMR 监测的高效率，其中 MMR 监测复合物（es）通过 Dnmt1 被募集到复制后的 DNA 中，需要其与 MutSα 的相互作用，以及与结合在半甲基化 CpG 位点的 Np95 的相互作用。因此，在体内，CpG 甲基化在表观遗传水平上增强了对哺乳动物基因组的 MMR 监测效率。这种协同作用赋予了脊椎动物 CpG 甲基化新的生物学意义，因此也为维持脊椎动物基因组稳定性提供了一种额外的机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/59dc/5122852/bd4e8956b8d4/srep37490-f1.jpg

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通过半 CpG-Np95-Dnmt1 轴增强哺乳动物基因组复制后 DNA 错配修复的表观遗传修饰。

Epigenetic Enhancement of the Post-replicative DNA Mismatch Repair of Mammalian Genomes by a Hemi-CpG-Np95-Dnmt1 Axis.

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