组蛋白 H3 上的 K4me0-K36me3 联合标记对于 Dnmt3a-Dnmt3L 介导的从头 DNA 甲基化是必需的。

Both combinatorial K4me0-K36me3 marks on sister histone H3s of a nucleosome are required for Dnmt3a-Dnmt3L mediated de novo DNA methylation.

机构信息

State Key Laboratory of Molecular Biology, CAS Center for Excellence in Molecular Cell Science, Shanghai Institute of Biochemistry and Cell Biology, Chinese Academy of Sciences, University of Chinese Academy of Sciences, Shanghai, 200031, China.

出版信息

J Genet Genomics. 2020 Feb 20;47(2):105-114. doi: 10.1016/j.jgg.2019.12.006. Epub 2020 Feb 21.

DOI:10.1016/j.jgg.2019.12.006

PMID:32173286

Abstract

A nucleosome contains two copies of each histone H2A, H2B, H3 and H4. Histone H3 K4me0 and K36me3 are two key chromatin marks for de novo DNA methylation catalyzed by DNA methyltransferases in mammals. However, it remains unclear whether K4me0 and K36me3 marks on both sister histone H3s regulate de novo DNA methylation independently or cooperatively. Here, taking advantage of the bivalent histone H3 system in yeast, we examined the contributions of K4 and K36 on sister histone H3s to genomic DNA methylation catalyzed by ectopically co-expressed murine Dnmt3a and Dnmt3L. The results show that lack of both K4me0 and K36me3 on one sister H3 tail, or lack of K4me0 and K36me3 on respective sister H3s results in a dramatic reduction of 5mC, revealing a synergy of two sister H3s in DNA methylation regulation. Accordingly, the Dnmt3a or Dnmt3L mutation that disrupts the interaction of ADD domain-H3K4me0, ADD domain-H3K4me0, or PWWP domain-H3K36me3 causes a significant reduction of DNA methylation. These results support the model that each heterodimeric Dnmt3a-Dnmt3L reads both K4me0 and K36me3 marks on one tail of sister H3s, and the dimer of heterodimeric Dnmt3a-Dnmt3L recognizes two tails of sister histone H3s to efficiently execute de novo DNA methylation.

摘要

核小体包含每个组蛋白 H2A、H2B、H3 和 H4 的两个拷贝。组蛋白 H3 的 K4me0 和 K36me3 是哺乳动物中 DNA 甲基转移酶催化从头 DNA 甲基化的两个关键染色质标记。然而，组蛋白 H3 姐妹染色单体上的 K4me0 和 K36me3 标记是否独立或协同调节从头 DNA 甲基化仍不清楚。在这里，我们利用酵母中的双价组蛋白 H3 系统，研究了姐妹染色单体组蛋白 H3 上的 K4 和 K36 在异位共表达的鼠 Dnmt3a 和 Dnmt3L 催化的基因组 DNA 甲基化中的贡献。结果表明，一个姐妹 H3 尾部上缺乏 K4me0 和 K36me3，或者在各自的姐妹 H3 上缺乏 K4me0 和 K36me3，都会导致 5mC 的急剧减少，揭示了两个姐妹 H3 在 DNA 甲基化调控中的协同作用。相应地，破坏 ADD 结构域-K4me0、ADD 结构域-K4me0 或 PWWP 结构域-K36me3 相互作用的 Dnmt3a 或 Dnmt3L 突变会导致 DNA 甲基化的显著减少。这些结果支持了这样的模型，即每个异二聚体 Dnmt3a-Dnmt3L 读取姐妹 H3 一条尾部上的 K4me0 和 K36me3 标记，而异二聚体 Dnmt3a-Dnmt3L 的二聚体识别姐妹组蛋白 H3 的两条尾部，以有效地执行从头 DNA 甲基化。

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组蛋白 H3 上的 K4me0-K36me3 联合标记对于 Dnmt3a-Dnmt3L 介导的从头 DNA 甲基化是必需的。

Both combinatorial K4me0-K36me3 marks on sister histone H3s of a nucleosome are required for Dnmt3a-Dnmt3L mediated de novo DNA methylation.

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