通过半胱氨酸烷基化在完整组蛋白上安装三甲基赖氨酸类似物。

Installation of Trimethyllysine Analogs on Intact Histones via Cysteine Alkylation.

机构信息

Institute for Molecules and Materials , Radboud University , Heyendaalseweg 135 , 6525 AJ Nijmegen , The Netherlands.

Department of Physics, Chemistry and Pharmacy , University of Southern Denmark , Campusvej 55 , 5230 Odense , Denmark.

出版信息

Bioconjug Chem. 2019 Mar 20;30(3):952-958. doi: 10.1021/acs.bioconjchem.9b00065. Epub 2019 Mar 7.

DOI:10.1021/acs.bioconjchem.9b00065

PMID:30794748

Abstract

Site-specific incorporation of post-translationally modified amino acids into proteins, including histones, has been a subject of great interest for chemical and biochemical communities. Here, we describe a site-specific incorporation of structurally simplest trimethyllysine analogs into position 4 of the intact histone H3 protein. An efficient alkylation of cysteine 4 of the recombinantly expressed histone H3 provides a panel of trimethyllysine analogs that differ in charge, charge density, sterics, and chain length. We demonstrate that H3 histone that bears trimethyllysine analogs can be further assembled into the octameric histone complex that constitutes the nucleosome. Binding studies showed that H3 histone that possesses trimethyllysine analogs is well recognized by a PHD3 reader domain of human JARID1A. This work provides important (bio)chemical tools for fundamental biomolecular studies aimed at unravelling the molecular basis of the higher order nucleosome and chromatin assemblies.

摘要

将经过翻译后修饰的氨基酸（包括组蛋白）特异地掺入蛋白质中，一直是化学和生物化学领域的研究热点。在这里，我们描述了一种将结构最简单的三甲基赖氨酸类似物特异地掺入完整组蛋白 H3 蛋白第 4 位的方法。重组表达的组蛋白 H3 中半胱氨酸 4 的有效烷基化提供了一系列在电荷、电荷密度、立体化学和链长方面存在差异的三甲基赖氨酸类似物。我们证明，带有三甲基赖氨酸类似物的 H3 组蛋白可以进一步组装成八聚体组蛋白复合物，构成核小体。结合研究表明，带有三甲基赖氨酸类似物的 H3 组蛋白可以被人 JARID1A 的 PHD3 读码器结构域很好地识别。这项工作为旨在揭示更高阶核小体和染色质组装的分子基础的基础生物分子研究提供了重要的（生物）化学工具。

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Installation of Trimethyllysine Analogs on Intact Histones via Cysteine Alkylation.通过半胱氨酸烷基化在完整组蛋白上安装三甲基赖氨酸类似物。

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通过半胱氨酸烷基化在完整组蛋白上安装三甲基赖氨酸类似物。

Installation of Trimethyllysine Analogs on Intact Histones via Cysteine Alkylation.

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