DNMT5 介导的 ATP 依赖性高保真表观基因组维持的结构见解。

Structural insights into DNMT5-mediated ATP-dependent high-fidelity epigenome maintenance.

机构信息

Structural Biology Program, Memorial Sloan Kettering Cancer Center, New York, NY 10065, USA.

Department of Biochemistry and Biophysics, University of California, San Francisco, San Francisco, CA 94158, USA.

出版信息

Mol Cell. 2022 Mar 17;82(6):1186-1198.e6. doi: 10.1016/j.molcel.2022.01.028. Epub 2022 Feb 23.

DOI:10.1016/j.molcel.2022.01.028

PMID:35202575

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8956514/

Abstract

Epigenetic evolution occurs over million-year timescales in Cryptococcus neoformans and is mediated by DNMT5, the first maintenance type cytosine methyltransferase identified in the fungal or protist kingdoms, the first dependent on adenosine triphosphate (ATP), and the most hemimethyl-DNA-specific enzyme known. To understand these novel properties, we solved cryo-EM structures of CnDNMT5 in three states. These studies reveal an elaborate allosteric cascade in which hemimethylated DNA binding first activates the SNF2 ATPase domain by a large rigid body rotation while the target cytosine partially flips out of the DNA duplex. ATP binding then triggers striking structural reconfigurations of the methyltransferase catalytic pocket to enable cofactor binding, completion of base flipping, and catalysis. Bound unmethylated DNA does not open the catalytic pocket and is instead ejected upon ATP binding, driving high fidelity. This unprecedented chaperone-like, enzyme-remodeling role of the SNF2 ATPase domain illuminates how energy is used to enable faithful epigenetic memory.

摘要

表观遗传进化在新型隐球菌中发生在百万年的时间尺度上，由 DNMT5 介导，DNMT5 是真菌或原生动物王国中鉴定的第一个维持型胞嘧啶甲基转移酶，第一个依赖于三磷酸腺苷 (ATP)，也是已知最具半甲基化 DNA 特异性的酶。为了理解这些新特性，我们解析了三种状态下的 CnDNMT5 的冷冻电镜结构。这些研究揭示了一个复杂的变构级联反应，其中半甲基化 DNA 结合首先通过大的刚体旋转激活 SNF2 ATP 酶结构域，而靶标胞嘧啶部分从 DNA 双链中翻转出来。然后，ATP 结合触发甲基转移酶催化口袋的惊人结构重排，以实现辅因子结合、碱基翻转完成和催化。结合的未甲基化 DNA 不会打开催化口袋，而是在 ATP 结合时被弹出，从而驱动高保真度。这种前所未有的伴侣样、酶重塑的 SNF2 ATP 酶结构域作用阐明了能量如何用于实现忠实的表观遗传记忆。

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