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差异动力学特异性指定 MeCP2 在核小体和甲基化 DNA 上的功能。

Differential dynamics specify MeCP2 function at nucleosomes and methylated DNA.

机构信息

Laboratory of Nanoscale Biophysics and Biochemistry, The Rockefeller University, New York, NY, USA.

Tri-Institutional PhD Program in Chemical Biology, New York, NY, USA.

出版信息

Nat Struct Mol Biol. 2024 Nov;31(11):1789-1797. doi: 10.1038/s41594-024-01373-9. Epub 2024 Aug 20.

DOI:10.1038/s41594-024-01373-9
PMID:39164525
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11564119/
Abstract

Methyl-CpG-binding protein 2 (MeCP2) is an essential chromatin-binding protein whose mutations cause Rett syndrome (RTT), a severe neurological disorder that primarily affects young females. The canonical view of MeCP2 as a DNA methylation-dependent transcriptional repressor has proven insufficient to describe its dynamic interaction with chromatin and multifaceted roles in genome organization and gene expression. Here we used single-molecule correlative force and fluorescence microscopy to directly visualize the dynamics of wild-type and RTT-causing mutant MeCP2 on DNA. We discovered that MeCP2 exhibits distinct one-dimensional diffusion kinetics when bound to unmethylated versus CpG methylated DNA, enabling methylation-specific activities such as co-repressor recruitment. We further found that, on chromatinized DNA, MeCP2 preferentially localizes to nucleosomes and stabilizes them from mechanical perturbation. Our results reveal the multimodal behavior of MeCP2 on chromatin that underlies its DNA methylation- and nucleosome-dependent functions and provide a biophysical framework for dissecting the molecular pathology of RTT mutations.

摘要

甲基化 CpG 结合蛋白 2(MeCP2)是一种必需的染色质结合蛋白,其突变会导致雷特综合征(RTT),这是一种主要影响年轻女性的严重神经疾病。MeCP2 作为一种 DNA 甲基化依赖性转录抑制剂的经典观点,已被证明不足以描述其与染色质的动态相互作用及其在基因组组织和基因表达中的多方面作用。在这里,我们使用单分子相关力和荧光显微镜直接观察野生型和导致 RTT 的突变型 MeCP2 在 DNA 上的动力学。我们发现,当结合到未甲基化与 CpG 甲基化 DNA 时,MeCP2 表现出明显的一维扩散动力学,从而能够进行诸如共抑制因子募集等甲基化特异性活性。我们进一步发现,在染色质化的 DNA 上,MeCP2 优先定位于核小体并使其免受机械扰动的影响。我们的结果揭示了 MeCP2 在染色质上的多模态行为,这是其 DNA 甲基化和核小体依赖性功能的基础,并为剖析 RTT 突变的分子病理学提供了一个生物物理框架。

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When Force Met Fluorescence: Single-Molecule Manipulation and Visualization of Protein-DNA Interactions.当力与荧光相遇:蛋白质-DNA 相互作用的单分子操纵和可视化。
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Densely methylated DNA traps Methyl-CpG-binding domain protein 2 but permits free diffusion by Methyl-CpG-binding domain protein 3.高度甲基化的 DNA 可捕获甲基化 CpG 结合域蛋白 2,但允许甲基化 CpG 结合域蛋白 3 自由扩散。
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Nucleosome-directed replication origin licensing independent of a consensus DNA sequence.
核小体导向的复制起始点许可与一致 DNA 序列无关。
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ATP binding facilitates target search of SWR1 chromatin remodeler by promoting one-dimensional diffusion on DNA.ATP 结合通过促进 DNA 上的一维扩散来促进 SWR1 染色质重塑酶的靶标搜索。
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Single-stranded nucleic acid binding and coacervation by linker histone H1.连接组蛋白 H1 对单链核酸的结合和凝聚作用。
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Identification and characterization of conserved noncoding -regulatory elements that impact expression and neurological functions.鉴定和描述影响表达和神经功能的保守非编码调控元件。
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