不精确的 DNMT1 活性与邻位指导的校正相结合，使稳健而灵活的表观遗传遗传成为可能。

Imprecise DNMT1 activity coupled with neighbor-guided correction enables robust yet flexible epigenetic inheritance.

机构信息

Center for Stem Cell Biology and Regenerative Medicine, MOE Key Laboratory of Bioinformatics, THU-PKU Center for Life Sciences, Tsinghua University, Beijing, China.

School of Life Sciences, Tsinghua University, Beijing, China.

出版信息

Nat Genet. 2020 Aug;52(8):828-839. doi: 10.1038/s41588-020-0661-y. Epub 2020 Jul 20.

DOI:10.1038/s41588-020-0661-y

PMID:32690947

Abstract

The epigenome, including DNA methylation, is stably propagated during mitotic division. However, single-cell clonal expansion produces heterogeneous methylomes, thus raising the question of how the DNA methylome remains stable despite constant epigenetic drift. Here, we report that a clonal population of DNA (cytosine-5)-methyltransferase 1 (DNMT1)-only cells produces a heterogeneous methylome, which is robustly propagated on cell expansion and differentiation. Our data show that DNMT1 has imprecise maintenance activity and possibly possesses weak de novo activity, leading to spontaneous 'epimutations'. However, these epimutations tend to be corrected through a neighbor-guided mechanism, which is likely to be enabled by the environment-sensitive de novo activity ('tuner') and maintenance activity ('stabilizer') of DNMT1. By generating base-resolution maps of de novo and maintenance activities, we find that H3K9me2/3-marked regions show enhanced de novo activity, and CpG islands have both poor maintenance and de novo activities. The imprecise epigenetic machinery coupled with neighbor-guided correction may be a fundamental mechanism underlying robust yet flexible epigenetic inheritance.

摘要

表观基因组，包括 DNA 甲基化，在有丝分裂分裂过程中稳定传递。然而，单细胞克隆扩增会产生异质的甲基组，因此人们提出了一个问题，即在不断的表观遗传漂移下，DNA 甲基组如何保持稳定。在这里，我们报告说，仅含有 DNA（胞嘧啶-5）-甲基转移酶 1（DNMT1）的克隆细胞群体产生了一个异质的甲基组，该甲基组在细胞扩增和分化过程中得到了稳健的传递。我们的数据表明，DNMT1 具有不精确的维持活性，并且可能具有较弱的从头合成活性，导致自发的“表观突变”。然而，这些表观突变往往通过邻居指导的机制得到纠正，这可能是由 DNMT1 的环境敏感的从头合成活性（“调谐器”）和维持活性（“稳定剂”）所允许的。通过生成从头合成和维持活性的碱基分辨率图谱，我们发现 H3K9me2/3 标记区域显示出增强的从头合成活性，而 CpG 岛则具有较差的维持和从头合成活性。不精确的表观遗传机制加上邻居指导的纠正可能是稳健而灵活的表观遗传遗传的基础机制。

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不精确的 DNMT1 活性与邻位指导的校正相结合，使稳健而灵活的表观遗传遗传成为可能。

Imprecise DNMT1 activity coupled with neighbor-guided correction enables robust yet flexible epigenetic inheritance.

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